unit VirtualTrees; {$mode delphi}{$H+} // Version 4.5.4 // // The contents of this file are subject to the Mozilla Public License // Version 1.1 (the "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at http://www.mozilla.org/MPL/ // // Alternatively, you may redistribute this library, use and/or modify it under the terms of the // GNU Lesser General Public License as published by the Free Software Foundation; // either version 2.1 of the License, or (at your option) any later version. // You may obtain a copy of the LGPL at http://www.gnu.org/copyleft/. // // Software distributed under the License is distributed on an "AS IS" basis, // WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the // specific language governing rights and limitations under the License. // // The original code is VirtualTrees.pas, released September 30, 2000. // // The initial developer of the original code is digital publishing AG (Munich, Germany, www.digitalpublishing.de), // written by Mike Lischke (public@soft-gems.net, www.soft-gems.net). // // Portions created by digital publishing AG are Copyright // (C) 1999-2001 digital publishing AG. All Rights Reserved. //---------------------------------------------------------------------------------------------------------------------- // // June 2007 // - Bug fix: Fixed a problem with potentially large amount of nodes (larger than 2 billion) in // TBaseVirtualTree.SetChildCount. // - Bug fix: remove hint if any in case the tree loses the focus. // - Improvement: TVirtualTreeColumns.HandleClick is now virtual, introduced TVTHeader.DoSetSortColumn. // - Bug fix: compiler error due to old variable reference when enabling flat scrollbars. // May 2007 // - Improvement: new functions: GetPreviousSelected, GetPreviousChecked, GetCheckedCount, // GetPreviousCutCopy, GetCutCopyCount, GetFirstLeaf, GetNextLeaf, // GetPreviousLeaf, GetFirstLevel, GetNextLevel, GetPreviousLevel // - Improvement: new properties: CheckedCount, CutCopyCount // - Improvement: DoFocusChanging for finding a valid column (TBaseVirtualTree.WMKeyDown) // March 2007 // - Improvement: adjusted accessibility implementation to compile with pre-BDS IDEs. // - If a column is not visible, MultiColumnAccessibility now will not include it. // January 2007 // - Improvement: added code donation from Marco Zehe (with help from Sebastian Modersohn) which implements the // MS accessibility interface for Virtual Treeview. // December 2006 // - Improvement: bidi mode implementation finished (toAutoBidiColumnOrdering introduced) // - Change: right-to-left flag removed from shorten string methods/events (not necessary) // - Version is now 4.5.0 // November 2006 // - Bug fix: Total height is wrong on reading from stream // September 2006 // - Bug fix: Mantis issue #326 // July 2006 // - Change: value for crHeaderSplit cursor conflicts with other resource IDs, so I changed it. // - Published OnStartDrag in VirtualDrawTree. // April 2006 // - Bug fix: check for MMX availabiltiy is missing in some places before calling MMX code // - Bug fix: flag for VCL dragging was removed too late causing all kind of problems with mouse up code in VCL drag mode. // - Bug fix: If the past mode in ProcessOLEData is amInsertAfter then nodes where inserted in the wrong order. // March 2006 // - Bug fix: total count and total height is wrong after loading from stream // - Bug fix: variable node height computation // - Bug fix: FLastChangedNode was not reset in DoFreeNode // February 2006 // - Improvement: GetFirstChecked now also has a default value for its state parameter. // - Improvement: avoid potential reentrancy problems in paint code by checking for the paint state there. // January 2006 // - Bug fix: disabled images are now drawn like enabled ones (with respect to position, indices etc.). // - Improvement: New property BottomSpace, allows to specify an additional area below the last node in the tree. // - Bug fix: VT.EndUpdate did not invalidate the cache so the cache was never used again after that. // - Improvement: tree states for double clicks (left, middle, right). // December 2005 // - Bug fix: check for column index for auto setting main column if the current one is deleted. // // For full document history see help file. // // Credits for their valuable assistance and code donations go to: // Freddy Ertl, Marian Aldenhövel, Thomas Bogenrieder, Jim Kuenemann, Werner Lehmann, Jens Treichler, // Paul Gallagher (IBO tree), Ondrej Kelle, Ronaldo Melo Ferraz, Heri Bender, Roland Bedürftig (BCB) // Anthony Mills, Alexander Egorushkin (BCB), Mathias Torell (BCB), Frank van den Bergh, Vadim Sedulin, Peter Evans, // Milan Vandrovec (BCB), Steve Moss, Joe White, David Clark, Anders Thomsen, Igor Afanasyev, Eugene Programmer, // Corbin Dunn, Richard Pringle, Uli Gerhardt, Azza, Igor Savkic // Beta testers: // Freddy Ertl, Hans-Jürgen Schnorrenberg, Werner Lehmann, Jim Kueneman, Vadim Sedulin, Moritz Franckenstein, // Wim van der Vegt, Franc v/d Westelaken // Indirect contribution (via publicly accessible work of those persons): // Alex Denissov, Hiroyuki Hori (MMXAsm expert) // Documentation: // Markus Spoettl and toolsfactory GbR (http://www.doc-o-matic.com/, sponsoring Soft Gems development // with a free copy of the Doc-O-Matic help authoring system), Sven H. (Step by step tutorial) // CLX: // Dmitri Dmitrienko (initial developer) // Source repository: // Subversion (server), TortoiseSVN (client tools), Fisheye (Web interface) // Accessability implementation: // Marco Zehe (with help from Sebastian Modersohn) // LCL Port (version 4.5.1): // Luiz Américo Pereira Câmara //---------------------------------------------------------------------------------------------------------------------- interface {$booleval off} // Use fastest possible boolean evaluation. {$I VTConfig.inc} {$ifdef COMPILER_7_UP} // For some things to work we need code, which is classified as being unsafe for .NET. {$warn UNSAFE_TYPE off} {$warn UNSAFE_CAST off} {$warn UNSAFE_CODE off} {$endif COMPILER_7_UP} {$if defined (LCLGtk) or defined(LCLGtk2)} {$define Gtk} {$endif} uses {$ifdef LCLWin32} Windows, {$endif} ActiveX, OleUtils, DelphiCompat, LclExt, virtualpanningwindow, vtlogger, LCLType, LResources, LCLIntf, LMessages, Types, SysUtils, Classes, Graphics, Controls, Forms, ImgList, StdCtrls, Menus, Printers, SyncObjs // Thread support //Clipbrd // Clipboard support {$ifdef ThemeSupport} {$ifndef COMPILER_7_UP} , ThemeSrv, TMSchema, UxTheme // Windows XP themes support. Get these units from www.soft-gems.net {$else} , Themes, UxTheme {$endif COMPILE_7_UP} {$endif ThemeSupport} {$ifdef EnableAccessible} , oleacc // for MSAA IAccessible support {$endif}; const {$I lclconstants.inc} VTVersion = '4.5.4'; VTTreeStreamVersion = 2; VTHeaderStreamVersion = 3; // The header needs an own stream version to indicate changes only relevant to the header. CacheThreshold = 2000; // Number of nodes a tree must at least have to start caching and at the same // time the maximum number of nodes between two cache entries. FadeAnimationStepCount = 255; // Number of animation steps for hint fading (0..255). ShadowSize = 5; // Size in pixels of the hint shadow. This value has no influence on Win2K and XP systems // as those OSes have native shadow support. // Special identifiers for columns. NoColumn = -1; InvalidColumn = -2; // Indices for check state images used for checking. ckEmpty = 0; // an empty image used as place holder // radio buttons ckRadioUncheckedNormal = 1; ckRadioUncheckedHot = 2; ckRadioUncheckedPressed = 3; ckRadioUncheckedDisabled = 4; ckRadioCheckedNormal = 5; ckRadioCheckedHot = 6; ckRadioCheckedPressed = 7; ckRadioCheckedDisabled = 8; // check boxes ckCheckUncheckedNormal = 9; ckCheckUncheckedHot = 10; ckCheckUncheckedPressed = 11; ckCheckUncheckedDisabled = 12; ckCheckCheckedNormal = 13; ckCheckCheckedHot = 14; ckCheckCheckedPressed = 15; ckCheckCheckedDisabled = 16; ckCheckMixedNormal = 17; ckCheckMixedHot = 18; ckCheckMixedPressed = 19; ckCheckMixedDisabled = 20; // simple button ckButtonNormal = 21; ckButtonHot = 22; ckButtonPressed = 23; ckButtonDisabled = 24; // Instead using a TTimer class for each of the various events I use Windows timers with messages // as this is more economical. ExpandTimer = 1; EditTimer = 2; HeaderTimer = 3; ScrollTimer = 4; ChangeTimer = 5; StructureChangeTimer = 6; SearchTimer = 7; // Need to use this message to release the edit link interface asynchronously. WM_CHANGESTATE = WM_APP + 32; // Virtual Treeview does not need to be subclassed by an eventual Theme Manager instance as it handles // Windows XP theme painting itself. Hence the special message is used to prevent subclassing. CM_DENYSUBCLASSING = CM_BASE + 2000; // Decoupling message for auto-adjusting the internal edit window. CM_AUTOADJUST = CM_BASE + 2005; // VT's own clipboard formats, // Note: The reference format is used internally to allow to link to a tree reference // to implement optimized moves and other back references. CFSTR_VIRTUALTREE = 'Virtual Tree Data'; CFSTR_VTREFERENCE = 'Virtual Tree Reference'; CFSTR_HTML = 'HTML Format'; CFSTR_RTF = 'Rich Text Format'; CFSTR_RTFNOOBJS = 'Rich Text Format Without Objects'; CFSTR_CSV = 'CSV'; // Drag image helpers for Windows 2000 and up. IID_IDropTargetHelper: TGUID = (D1: $4657278B; D2: $411B; D3: $11D2; D4: ($83, $9A, $00, $C0, $4F, $D9, $18, $D0)); IID_IDragSourceHelper: TGUID = (D1: $DE5BF786; D2: $477A; D3: $11D2; D4: ($83, $9D, $00, $C0, $4F, $D9, $18, $D0)); IID_IDropTarget: TGUID = (D1: $00000122; D2: $0000; D3: $0000; D4: ($C0, $00, $00, $00, $00, $00, $00, $46)); CLSID_DragDropHelper: TGUID = (D1: $4657278A; D2: $411B; D3: $11D2; D4: ($83, $9A, $00, $C0, $4F, $D9, $18, $D0)); SID_IDropTargetHelper = '{4657278B-411B-11D2-839A-00C04FD918D0}'; SID_IDragSourceHelper = '{DE5BF786-477A-11D2-839D-00C04FD918D0}'; SID_IDropTarget = '{00000122-0000-0000-C000-000000000046}'; // Help identifiers for exceptions. Application developers are responsible to link them with actual help topics. hcTFEditLinkIsNil = 2000; hcTFWrongMoveError = 2001; hcTFWrongStreamFormat = 2002; hcTFWrongStreamVersion = 2003; hcTFStreamTooSmall = 2004; hcTFCorruptStream1 = 2005; hcTFCorruptStream2 = 2006; hcTFClipboardFailed = 2007; hcTFCannotSetUserData = 2008; // Header standard split cursor. crHeaderSplit = TCursor(63); //Panning Cursors crVT_MOVEALL = TCursor(64); crVT_MOVEEW = TCursor(65); crVT_MOVENS = TCursor(66); crVT_MOVENW = TCursor(67); crVT_MOVESW = TCursor(68); crVT_MOVENE = TCursor(69); crVT_MOVESE = TCursor(70); crVT_MOVEW = TCursor(71); crVT_MOVEE = TCursor(72); crVT_MOVEN = TCursor(73); crVT_MOVES = TCursor(74); UtilityImageSize = 16; // Needed by descendants for hittests. var // Clipboard format IDs used in OLE drag'n drop and clipboard transfers. CF_VIRTUALTREE, CF_VTREFERENCE, CF_VRTF, CF_VRTFNOOBJS, // Unfortunately CF_RTF* is already defined as being // registration strings so I have to use different identifiers. CF_HTML, CF_CSV: Word; MMXAvailable: Boolean; // necessary to know because the blend code uses MMX instructions IsWinNT: Boolean; // Necessary to fix bugs in Win95/WinME (non-client area region intersection, edit resize) // and to allow for check of system dependent hint animation. {$MinEnumSize 1, make enumerations as small as possible} type // The exception used by the trees. EVirtualTreeError = class(Exception); // Limits the speed interval which can be used for auto scrolling (milliseconds). TAutoScrollInterval = 1..1000; // Need to declare the correct WMNCPaint record as the VCL (D5-) doesn't. TRealWMNCPaint = packed record Msg: Cardinal; Rgn: HRGN; lParam: Integer; Result: Integer; end; TLMContextMenu = TLMMouse; // Be careful when adding new states as this might change the size of the type which in turn // changes the alignment in the node record as well as the stream chunks. // Do not reorder the states and always add new states at the end of this enumeration in order to avoid // breaking existing code. TVirtualNodeState = ( vsInitialized, // Set after the node has been initialized. vsChecking, // Node's check state is changing, avoid propagation. vsCutOrCopy, // Node is selected as cut or copy and paste source. vsDisabled, // Set if node is disabled. vsDeleting, // Set when the node is about to be freed. vsExpanded, // Set if the node is expanded. vsHasChildren, // Indicates the presence of child nodes without actually setting them. vsVisible, // Indicate whether the node is visible or not (independant of the expand states of its parents). vsSelected, // Set if the node is in the current selection. vsInitialUserData, // Set if (via AddChild or InsertNode) initial user data has been set which requires OnFreeNode. vsAllChildrenHidden, // Set if vsHasChildren is set and no child node has the vsVisible flag set. vsClearing, // A node's children are being deleted. Don't register structure change event. vsMultiline, // Node text is wrapped at the cell boundaries instead of being shorted. vsHeightMeasured, // Node height has been determined and does not need a recalculation. vsToggling // Set when a node is expanded/collapsed to prevent recursive calls. ); TVirtualNodeStates = set of TVirtualNodeState; // States used in InitNode to indicate states a node shall initially have. TVirtualNodeInitState = ( ivsDisabled, ivsExpanded, ivsHasChildren, ivsMultiline, ivsSelected ); TVirtualNodeInitStates = set of TVirtualNodeInitState; TScrollBarStyle = ( sbmRegular, sbmFlat, sbm3D ); // Options per column. TVTColumnOption = ( coAllowClick, // Column can be clicked (must be enabled too). coDraggable, // Column can be dragged. coEnabled, // Column is enabled. coParentBidiMode, // Column uses the parent's bidi mode. coParentColor, // Column uses the parent's background color. coResizable, // Column can be resized. coShowDropMark, // Column shows the drop mark if it is currently the drop target. coVisible, // Column is shown. coAutoSpring, // Column takes part in the auto spring feature of the header (must be resizable too). coFixed // Column is fixed and can not be selected or scrolled etc. ); TVTColumnOptions = set of TVTColumnOption; // These flags are returned by the hit test method. THitPosition = ( hiAbove, // above the client area (if relative) or the absolute tree area hiBelow, // below the client area (if relative) or the absolute tree area hiNowhere, // no node is involved (possible only if the tree is not as tall as the client area) hiOnItem, // on the bitmaps/buttons or label associated with an item hiOnItemButton, // on the button associated with an item hiOnItemCheckbox, // on the checkbox if enabled hiOnItemIndent, // in the indentation area in front of a node hiOnItemLabel, // on the normal text area associated with an item hiOnItemLeft, // in the area to the left of a node's text area (e.g. when right aligned or centered) hiOnItemRight, // in the area to the right of a node's text area (e.g. if left aligned or centered) hiOnNormalIcon, // on the "normal" image hiOnStateIcon, // on the state image hiToLeft, // to the left of the client area (if relative) or the absolute tree area hiToRight // to the right of the client area (if relative) or the absolute tree area ); THitPositions = set of THitPosition; TCheckType = ( ctNone, ctTriStateCheckBox, ctCheckBox, ctRadioButton, ctButton ); // The check states include both, transient and fluent (temporary) states. The only temporary state defined so // far is the pressed state. TCheckState = ( csUncheckedNormal, // unchecked and not pressed csUncheckedPressed, // unchecked and pressed csCheckedNormal, // checked and not pressed csCheckedPressed, // checked and pressed csMixedNormal, // 3-state check box and not pressed csMixedPressed // 3-state check box and pressed ); TCheckImageKind = ( ckLightCheck, // gray cross ckDarkCheck, // black cross ckLightTick, // gray tick mark ckDarkTick, // black tick mark ckFlat, // flat images (no 3D border) ckXP, // Windows XP style ckCustom, // application defined check images ckSystem, // System defined check images. ckSystemFlat // Flat system defined check images. ); // mode to describe a move action TVTNodeAttachMode = ( amNoWhere, // just for simplified tests, means to ignore the Add/Insert command amInsertBefore, // insert node just before destination (as sibling of destination) amInsertAfter, // insert node just after destionation (as sibling of destination) amAddChildFirst, // add node as first child of destination amAddChildLast // add node as last child of destination ); // modes to determine drop position further TDropMode = ( dmNowhere, dmAbove, dmOnNode, dmBelow ); // operations basically allowed during drag'n drop TDragOperation = ( doCopy, doMove, doLink ); TDragOperations = set of TDragOperation; TVTImageKind = ( ikNormal, ikSelected, ikState, ikOverlay ); TVTHintMode = ( hmDefault, // show the hint of the control hmHint, // show node specific hint string returned by the application hmHintAndDefault, // same as hmHint but show the control's hint if no node is concerned hmTooltip // show the text of the node if it isn't already fully shown ); // Indicates how to format a tooltip. TVTTooltipLineBreakStyle = ( hlbDefault, // Use multi-line style of the node. hlbForceSingleLine, // Use single line hint. hlbForceMultiLine // Use multi line hint. ); TMouseButtons = set of TMouseButton; // Used to describe the action to do when using the OnBeforeItemErase event. TItemEraseAction = ( eaColor, // Use the provided color to erase the background instead the one of the tree. eaDefault, // The tree should erase the item's background (bitmap or solid). eaNone // Do nothing. Let the application paint the background. ); // There is a heap of switchable behavior in the tree. Since published properties may never exceed 4 bytes, // which limits sets to at most 32 members, and because for better overview tree options are splitted // in various sub-options and are held in a commom options class. // // Options to customize tree appearance: TVTPaintOption = ( toHideFocusRect, // Avoid drawing the dotted rectangle around the currently focused node. toHideSelection, // Selected nodes are drawn as unselected nodes if the tree is unfocused. toHotTrack, // Track which node is under the mouse cursor. toPopupMode, // Paint tree as would it always have the focus (useful for tree combo boxes etc.) toShowBackground, // Use the background image if there's one. toShowButtons, // Display collapse/expand buttons left to a node. toShowDropmark, // Show the dropmark during drag'n drop operations. toShowHorzGridLines, // Display horizontal lines to simulate a grid. toShowRoot, // Show lines also at top level (does not show the hidden/internal root node). toShowTreeLines, // Display tree lines to show hierarchy of nodes. toShowVertGridLines, // Display vertical lines (depending on columns) to simulate a grid. toThemeAware, // Draw UI elements (header, tree buttons etc.) according to the current theme if // enabled (Windows XP+ only, application must be themed). toUseBlendedImages, // Enable alpha blending for ghosted nodes or those which are being cut/copied. toGhostedIfUnfocused, // Ghosted images are still shown as ghosted if unfocused (otherwise the become non-ghosted // images). toFullVertGridLines, // Display vertical lines over the full client area, not only the space occupied by nodes. // This option only has an effect if toShowVertGridLines is enabled too. toAlwaysHideSelection, // Do not draw node selection, regardless of focused state. toUseBlendedSelection, // Enable alpha blending for node selections. toStaticBackground // Show simple static background instead of a tiled one. ); TVTPaintOptions = set of TVTPaintOption; // Options to toggle animation support: TVTAnimationOption = ( toAnimatedToggle // Expanding and collapsing a node is animated (quick window scroll). ); TVTAnimationOptions = set of TVTAnimationOption; // Options which toggle automatic handling of certain situations: TVTAutoOption = ( toAutoDropExpand, // Expand node if it is the drop target for more than a certain time. toAutoExpand, // Nodes are expanded (collapsed) when getting (losing) the focus. toAutoScroll, // Scroll if mouse is near the border while dragging or selecting. toAutoScrollOnExpand, // Scroll as many child nodes in view as possible after expanding a node. toAutoSort, // Sort tree when Header.SortColumn or Header.SortDirection change or sort node if // child nodes are added. toAutoSpanColumns, // Large entries continue into next column(s) if there's no text in them (no clipping). toAutoTristateTracking, // Checkstates are automatically propagated for tri state check boxes. toAutoHideButtons, // Node buttons are hidden when there are child nodes, but all are invisible. toAutoDeleteMovedNodes, // Delete nodes which where moved in a drag operation (if not directed otherwise). toDisableAutoscrollOnFocus,// Disable scrolling a column entirely into view if it gets focused. toAutoChangeScale, // Change default node height automatically if the system's font scale is set to big fonts. toAutoFreeOnCollapse, // Frees any child node after a node has been collapsed (HasChildren flag stays there). toDisableAutoscrollOnEdit, // Do not center a node horizontally when it is edited. toAutoBidiColumnOrdering // When set then columns (if any exist) will be reordered from lowest index to highest index // and vice versa when the tree's bidi mode is changed. ); TVTAutoOptions = set of TVTAutoOption; // Options which determine the tree's behavior when selecting nodes: TVTSelectionOption = ( toDisableDrawSelection, // Prevent user from selecting with the selection rectangle in multiselect mode. toExtendedFocus, // Entries other than in the main column can be selected, edited etc. toFullRowSelect, // Hit test as well as selection highlight are not constrained to the text of a node. toLevelSelectConstraint, // Constrain selection to the same level as the selection anchor. toMiddleClickSelect, // Allow selection, dragging etc. with the middle mouse button. This and toWheelPanning // are mutual exclusive. toMultiSelect, // Allow more than one node to be selected. toRightClickSelect, // Allow selection, dragging etc. with the right mouse button. toSiblingSelectConstraint, // constrain selection to nodes with same parent toCenterScrollIntoView, // Center nodes vertically in the client area when scrolling into view. toSimpleDrawSelection // Simplifies draw selection, so a node's caption does not need to intersect with the // selection rectangle. ); TVTSelectionOptions = set of TVTSelectionOption; // Options which do not fit into any of the other groups: TVTMiscOption = ( toAcceptOLEDrop, // Register tree as OLE accepting drop target toCheckSupport, // Show checkboxes/radio buttons. toEditable, // Node captions can be edited. toFullRepaintOnResize, // Fully invalidate the tree when its window is resized (CS_HREDRAW/CS_VREDRAW). toGridExtensions, // Use some special enhancements to simulate and support grid behavior. toInitOnSave, // Initialize nodes when saving a tree to a stream. toReportMode, // Tree behaves like TListView in report mode. toToggleOnDblClick, // Toggle node expansion state when it is double clicked. toWheelPanning, // Support for mouse panning (wheel mice only). This option and toMiddleClickSelect are // mutal exclusive, where panning has precedence. toReadOnly, // The tree does not allow to be modified in any way. No action is executed and // node editing is not possible. toVariableNodeHeight, // When set then GetNodeHeight will trigger OnMeasureItem to allow variable node heights. toFullRowDrag // Start node dragging by clicking anywhere in it instead only on the caption or image. // Must be used together with toDisableDrawSelection. ); TVTMiscOptions = set of TVTMiscOption; const DefaultPaintOptions = [toShowButtons, toShowDropmark, toShowTreeLines, toShowRoot, toThemeAware, toUseBlendedImages]; DefaultAnimationOptions = []; DefaultAutoOptions = [toAutoDropExpand, toAutoTristateTracking, toAutoScrollOnExpand, toAutoDeleteMovedNodes]; DefaultSelectionOptions = []; DefaultMiscOptions = [toAcceptOLEDrop, toFullRepaintOnResize, toInitOnSave, toToggleOnDblClick, toWheelPanning]; DefaultColumnOptions = [coAllowClick, coDraggable, coEnabled, coParentColor, coParentBidiMode, coResizable, coShowDropmark, coVisible]; type TBaseVirtualTree = class; TVirtualTreeClass = class of TBaseVirtualTree; PVirtualNode = ^TVirtualNode; TColumnIndex = type Integer; TColumnPosition = type Cardinal; // This record must already be defined here and not later because otherwise BCB users will not be able // to compile (conversion done by BCB is wrong). TCacheEntry = record Node: PVirtualNode; AbsoluteTop: Cardinal; end; TCache = array of TCacheEntry; TNodeArray = array of PVirtualNode; TCustomVirtualTreeOptions = class(TPersistent) private FOwner: TBaseVirtualTree; FPaintOptions: TVTPaintOptions; FAnimationOptions: TVTAnimationOptions; FAutoOptions: TVTAutoOptions; FSelectionOptions: TVTSelectionOptions; FMiscOptions: TVTMiscOptions; procedure SetAnimationOptions(const Value: TVTAnimationOptions); procedure SetAutoOptions(const Value: TVTAutoOptions); procedure SetMiscOptions(const Value: TVTMiscOptions); procedure SetPaintOptions(const Value: TVTPaintOptions); procedure SetSelectionOptions(const Value: TVTSelectionOptions); protected property AnimationOptions: TVTAnimationOptions read FAnimationOptions write SetAnimationOptions default DefaultAnimationOptions; property AutoOptions: TVTAutoOptions read FAutoOptions write SetAutoOptions default DefaultAutoOptions; property MiscOptions: TVTMiscOptions read FMiscOptions write SetMiscOptions default DefaultMiscOptions; property PaintOptions: TVTPaintOptions read FPaintOptions write SetPaintOptions default DefaultPaintOptions; property SelectionOptions: TVTSelectionOptions read FSelectionOptions write SetSelectionOptions default DefaultSelectionOptions; public constructor Create(AOwner: TBaseVirtualTree); virtual; procedure AssignTo(Dest: TPersistent); override; property Owner: TBaseVirtualTree read FOwner; end; TTreeOptionsClass = class of TCustomVirtualTreeOptions; TVirtualTreeOptions = class(TCustomVirtualTreeOptions) published property AnimationOptions; property AutoOptions; property MiscOptions; property PaintOptions; property SelectionOptions; end; // Used in the CF_VTREFERENCE clipboard format. PVTReference = ^TVTReference; TVTReference = record Process: Cardinal; Tree: TBaseVirtualTree; end; TVirtualNode = packed record Index, // index of node with regard to its parent ChildCount: Cardinal; // number of child nodes NodeHeight: Word; // height in pixels States: TVirtualNodeStates; // states describing various properties of the node (expanded, initialized etc.) Align: Byte; // line/button alignment CheckState: TCheckState; // indicates the current check state (e.g. checked, pressed etc.) CheckType: TCheckType; // indicates which check type shall be used for this node Dummy: Byte; // dummy value to fill DWORD boundary TotalCount, // sum of this node, all of its child nodes and their child nodes etc. TotalHeight: Cardinal; // height in pixels this node covers on screen including the height of all of its // children Dummy2: Word; // FPC: Sets need 4 bytes / in Delphi only 2 bytes // Note: Some copy routines require that all pointers (as well as the data area) in a node are // located at the end of the node! Hence if you want to add new member fields (except pointers to internal // data) then put them before field Parent. Parent, // reference to the node's parent (for the root this contains the treeview) PrevSibling, // link to the node's previous sibling or nil if it is the first node NextSibling, // link to the node's next sibling or nil if it is the last node FirstChild, // link to the node's first child... LastChild: PVirtualNode; // link to the node's last child... Data: record end; // this is a placeholder, each node gets extra data determined by NodeDataSize end; // TVTNodeMemoryManager is a high-performance local memory manager for allocating TVirtualNode structures. // It is not thread-safe in itself, because it assumes that the virtual tree is being used within a single // thread. The local memory manager supports only fixed-length allocation requests - all requests must be of // the same size. The performance improvements are a result of TVTNodeMemoryManager getting 16K blocks // of memory from the Delphi memory manager and then managing them in a highly efficient manner. // A consequence is that node memory allocations/deallocations are not visible to memory debugging tools. // // The local memory manager is disabled by default - to enable it {$define UseLocalMemoryManager}. For smaller trees, // say less than 10,000 nodes, there is really no major performance benefit in using the local memory manager. {$ifdef UseLocalMemoryManager} TVTNodeMemoryManager = class private FAllocSize: Cardinal; // The memory allocated for each node FBlockList: TList; // List of allocated blocks FBytesAvailable: Cardinal; // Bytes available in current block FNext: PVirtualNode; // Pointer to next available node in current block FFreeSpace: PVirtualNode; // Pointer to free space chain public constructor Create; destructor Destroy; override; function AllocNode(const Size: Cardinal): PVirtualNode; procedure FreeNode(const Node: PVirtualNode); procedure Clear; end; {$endif UseLocalMemoryManager} // structure used when info about a certain position in the tree is needed THitInfo = record HitNode: PVirtualNode; HitPositions: THitPositions; HitColumn: TColumnIndex; end; // auto scroll directions TScrollDirections = set of ( sdLeft, sdUp, sdRight, sdDown ); // OLE drag'n drop support TFormatEtcArray = array of TFormatEtc; TFormatArray = array of Word; // IDataObject.SetData support TInternalStgMedium = packed record Format: TClipFormat; Medium: TStgMedium; end; TInternalStgMediumArray = array of TInternalStgMedium; TEnumFormatEtc = class(TInterfacedObject, IEnumFormatEtc) private FTree: TBaseVirtualTree; FFormatEtcArray: TFormatEtcArray; FCurrentIndex: Integer; public constructor Create(Tree: TBaseVirtualTree; AFormatEtcArray: TFormatEtcArray); function Clone(out Enum: IEnumFormatEtc): HResult; stdcall; function Next(celt: LongWord; out elt: FormatEtc; out pceltFetched: LongWord): HResult; stdcall; function Reset: HResult; stdcall; function Skip(celt: LongWord): HResult; stdcall; end; // ----- OLE drag'n drop handling { 01.05.2006 Jim - Problem with BDS2006 C++ compiler and ambiguous defines} {$EXTERNALSYM IDropTargetHelper} IDropTargetHelper = interface(IUnknown) [SID_IDropTargetHelper] function DragEnter(hwndTarget: HWND; pDataObject: IDataObject; var ppt: TPoint; dwEffect: Integer): HRESULT; stdcall; function DragLeave: HRESULT; stdcall; function DragOver(var ppt: TPoint; dwEffect: Integer): HRESULT; stdcall; function Drop(pDataObject: IDataObject; var ppt: TPoint; dwEffect: Integer): HRESULT; stdcall; function Show(fShow: Boolean): HRESULT; stdcall; end; PSHDragImage = ^TSHDragImage; TSHDragImage = packed record sizeDragImage: TSize; ptOffset: TPoint; hbmpDragImage: HBITMAP; ColorRef: TColorRef; end; IDragSourceHelper = interface(IUnknown) [SID_IDragSourceHelper] function InitializeFromBitmap(var SHDragImage: TSHDragImage; pDataObject: IDataObject): HRESULT; stdcall; function InitializeFromWindow(Window: HWND; var ppt: TPoint; pDataObject: IDataObject): HRESULT; stdcall; end; IVTDragManager = interface(IUnknown) ['{C4B25559-14DA-446B-8901-0C879000EB16}'] procedure ForceDragLeave; stdcall; function GetDataObject: IDataObject; stdcall; function GetDragSource: TBaseVirtualTree; stdcall; function GetDropTargetHelperSupported: Boolean; stdcall; function GetIsDropTarget: Boolean; stdcall; property DataObject: IDataObject read GetDataObject; property DragSource: TBaseVirtualTree read GetDragSource; property DropTargetHelperSupported: Boolean read GetDropTargetHelperSupported; property IsDropTarget: Boolean read GetIsDropTarget; end; // This data object is used in two different places. One is for clipboard operations and the other while dragging. TVTDataObject = class(TInterfacedObject, IDataObject) private FOwner: TBaseVirtualTree; // The tree which provides clipboard or drag data. FForClipboard: Boolean; // Determines which data to render with GetData. FFormatEtcArray: TFormatEtcArray; FInternalStgMediumArray: TInternalStgMediumArray; // The available formats in the DataObject FAdviseHolder: IDataAdviseHolder; // Reference to an OLE supplied implementation for advising. protected function CanonicalIUnknown(TestUnknown: IUnknown): IUnknown; function EqualFormatEtc(FormatEtc1, FormatEtc2: TFormatEtc): Boolean; function FindFormatEtc(TestFormatEtc: TFormatEtc; const FormatEtcArray: TFormatEtcArray): integer; function FindInternalStgMedium(Format: TClipFormat): PStgMedium; function HGlobalClone(HGlobal: THandle): THandle; function RenderInternalOLEData(const FormatEtcIn: TFormatEtc; var Medium: TStgMedium; var OLEResult: HResult): Boolean; function StgMediumIncRef(const InStgMedium: TStgMedium; var OutStgMedium: TStgMedium; CopyInMedium: Boolean; DataObject: IDataObject): HRESULT; property ForClipboard: Boolean read FForClipboard; property FormatEtcArray: TFormatEtcArray read FFormatEtcArray write FFormatEtcArray; property InternalStgMediumArray: TInternalStgMediumArray read FInternalStgMediumArray write FInternalStgMediumArray; property Owner: TBaseVirtualTree read FOwner; public constructor Create(AOwner: TBaseVirtualTree; ForClipboard: Boolean); virtual; destructor Destroy; override; function DAdvise(const FormatEtc: TFormatEtc; advf: DWord; const advSink: IAdviseSink; out dwConnection: DWord): HResult; virtual; stdcall; function DUnadvise(dwConnection: DWord): HResult; virtual; stdcall; Function EnumDAvise(Out enumAdvise : IEnumStatData):HResult;virtual;StdCall; function EnumFormatEtc(Direction: DWord; out EnumFormatEtc: IEnumFormatEtc): HResult; virtual; stdcall; Function GetCanonicalFormatTEtc(const pformatetcIn : FORMATETC;Out pformatetcOut : FORMATETC):HResult; virtual; STDCALl; function GetData(const FormatEtcIn: TFormatEtc; out Medium: TStgMedium): HResult; virtual; stdcall; function GetDataHere(const FormatEtc: TFormatEtc; out Medium: TStgMedium): HResult; virtual; stdcall; function QueryGetData(const FormatEtc: TFormatEtc): HResult; virtual; stdcall; function SetData(const FormatEtc: TFormatEtc; const Medium: TStgMedium; DoRelease: BOOL): HResult; virtual; stdcall; end; // TVTDragManager is a class to manage drag and drop in a Virtual Treeview. TVTDragManager = class(TInterfacedObject, IVTDragManager, IDropSource, IDropTarget) private FOwner, // The tree which is responsible for drag management. FDragSource: TBaseVirtualTree; // Reference to the source tree if the source was a VT, might be different than // the owner tree. FIsDropTarget: Boolean; // True if the owner is currently the drop target. FDataObject: IDataObject; // A reference to the data object passed in by DragEnter (only used when the owner // tree is the current drop target). FDropTargetHelper: IDropTargetHelper; // Win2k > Drag image support FFullDragging: BOOL; // True, if full dragging is currently enabled in the system. function GetDataObject: IDataObject; stdcall; function GetDragSource: TBaseVirtualTree; stdcall; function GetDropTargetHelperSupported: Boolean; stdcall; function GetIsDropTarget: Boolean; stdcall; public constructor Create(AOwner: TBaseVirtualTree); virtual; destructor Destroy; override; function DragEnter(const DataObject: IDataObject; KeyState: LongWord; Pt: TPoint; var Effect: LongWord): HResult; stdcall; function DragLeave: HResult; stdcall; function DragOver(KeyState: LongWord; Pt: TPoint; var Effect: LongWord): HResult; stdcall; function Drop(const DataObject: IDataObject; KeyState: LongWord; Pt: TPoint; var Effect: LongWord): HResult; stdcall; procedure ForceDragLeave; stdcall; function GiveFeedback(Effect: Integer): HResult; stdcall; function QueryContinueDrag(EscapePressed: BOOL; KeyState: Integer): HResult; stdcall; end; PVTHintData = ^TVTHintData; TVTHintData = record Tree: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; HintRect: TRect; // used for draw trees only, string trees get the size from the hint string DefaultHint: WideString; // used only if there is no node specific hint string available // or a header hint is about to appear HintText: WideString; // set when size of the hint window is calculated BidiMode: TBidiMode; Alignment: TAlignment; LineBreakStyle: TVTToolTipLineBreakStyle; end; // Determines the kind of animation when a hint is activated. THintAnimationType = ( hatNone, // no animation at all, just display hint/tooltip hatFade, // fade in the hint/tooltip, like in Windows 2000 hatSlide, // slide in the hint/tooltip, like in Windows 98 hatSystemDefault // use what the system is using (slide for Win9x, slide/fade for Win2K+, depends on settings) ); // The trees need an own hint window class because of Unicode output and adjusted font. TVirtualTreeHintWindow = class(THintWindow) private FHintData: TVTHintData; FBackground, FDrawBuffer, FTarget: TBitmap; FTextHeight: Integer; function AnimationCallback(Step, StepSize: Integer; Data: Pointer): Boolean; procedure InternalPaint(Step, StepSize: Integer); procedure CMTextChanged(var Message: TLMessage); message CM_TEXTCHANGED; procedure WMEraseBkgnd(var Message: TLMEraseBkgnd); message LM_ERASEBKGND; procedure WMNCPaint(var Message: TLMessage); message LM_NCPAINT; procedure WMShowWindow(var Message: TLMShowWindow); message LM_SHOWWINDOW; protected procedure CreateParams(var Params: TCreateParams); override; procedure Paint; override; public constructor Create(AOwner: TComponent); override; destructor Destroy; override; procedure ActivateHint(Rect: TRect; const AHint: string); override; function CalcHintRect(MaxWidth: Integer; const AHint: string; AData: Pointer): TRect; override; function IsHintMsg(var Msg: TMsg): Boolean; {override;} end; // Drag image support for the tree. TVTTransparency = 0..255; TVTBias = -128..127; // Simple move limitation for the drag image. TVTDragMoveRestriction = ( dmrNone, dmrHorizontalOnly, dmrVerticalOnly ); TVTDragImageStates = set of ( disHidden, // Internal drag image is currently hidden (always hidden if drag image helper interfaces are used). disInDrag, // Drag image class is currently being used. disPrepared, // Drag image class is prepared. disSystemSupport // Running on Windows 2000 or higher. System supports drag images natively. ); // Class to manage header and tree drag image during a drag'n drop operation. TVTDragImage = class private FOwner: TBaseVirtualTree; FBackImage, // backup of overwritten screen area FAlphaImage, // target for alpha blending FDragImage: TBitmap; // the actual drag image to blend to screen FImagePosition, // position of image (upper left corner) in screen coordinates FLastPosition: TPoint; // last mouse position in screen coordinates FTransparency: TVTTransparency; // alpha value of the drag image (0 - fully transparent, 255 - fully opaque) FPreBlendBias, // value to darken or lighten the drag image before it is blended FPostBlendBias: TVTBias; // value to darken or lighten the alpha blend result FFade: Boolean; // determines whether to fade the drag image from center to borders or not FRestriction: TVTDragMoveRestriction; // determines in which directions the drag image can be moved FColorKey: TColor; // color to make fully transparent regardless of any other setting FStates: TVTDragImageStates; // Determines the states of the drag image class. function GetVisible: Boolean; // True if the drag image is currently hidden (used only when dragging) protected procedure InternalShowDragImage(ScreenDC: HDC); procedure MakeAlphaChannel(Source, Target: TBitmap); public constructor Create(AOwner: TBaseVirtualTree); destructor Destroy; override; function DragTo(P: TPoint; ForceRepaint: Boolean): Boolean; procedure EndDrag; function GetDragImageRect: TRect; procedure HideDragImage; procedure PrepareDrag(DragImage: TBitmap; ImagePosition, HotSpot: TPoint; const DataObject: IDataObject); procedure RecaptureBackground(Tree: TBaseVirtualTree; R: TRect; VisibleRegion: HRGN; CaptureNCArea, ReshowDragImage: Boolean); procedure ShowDragImage; function WillMove(P: TPoint): Boolean; property ColorKey: TColor read FColorKey write FColorKey default clWindow; property Fade: Boolean read FFade write FFade default False; property MoveRestriction: TVTDragMoveRestriction read FRestriction write FRestriction default dmrNone; property PostBlendBias: TVTBias read FPostBlendBias write FPostBlendBias default 0; property PreBlendBias: TVTBias read FPreBlendBias write FPreBlendBias default 0; property Transparency: TVTTransparency read FTransparency write FTransparency default 128; property Visible: Boolean read GetVisible; end; // tree columns implementation TVirtualTreeColumns = class; TVTHeader = class; TVirtualTreeColumnStyle = ( vsText, vsOwnerDraw ); TVTHeaderColumnLayout = ( blGlyphLeft, blGlyphRight, blGlyphTop, blGlyphBottom ); TVirtualTreeColumn = class(TCollectionItem) private FText, FHint: WideString; FLeft, FWidth: Integer; FPosition: TColumnPosition; FMinWidth: Integer; FMaxWidth: Integer; FStyle: TVirtualTreeColumnStyle; FImageIndex: TImageIndex; FBiDiMode: TBiDiMode; FLayout: TVTHeaderColumnLayout; FMargin, FSpacing: Integer; FOptions: TVTColumnOptions; FTag: Integer; FAlignment: TAlignment; FLastWidth: Integer; FColor: TColor; FSpringRest: Single; // Accumulator for width adjustment when auto spring option is enabled. function GetLeft: Integer; function IsBiDiModeStored: Boolean; function IsColorStored: Boolean; procedure SetAlignment(const Value: TAlignment); procedure SetBiDiMode(Value: TBiDiMode); procedure SetColor(const Value: TColor); procedure SetImageIndex(Value: TImageIndex); procedure SetLayout(Value: TVTHeaderColumnLayout); procedure SetMargin(Value: Integer); procedure SetMaxWidth(Value: Integer); procedure SetMinWidth(Value: Integer); procedure SetOptions(Value: TVTColumnOptions); procedure SetPosition(Value: TColumnPosition); procedure SetSpacing(Value: Integer); procedure SetStyle(Value: TVirtualTreeColumnStyle); procedure SetText(const Value: WideString); procedure SetWidth(Value: Integer); protected procedure ComputeHeaderLayout(DC: HDC; const Client: TRect; UseHeaderGlyph, UseSortGlyph: Boolean; var HeaderGlyphPos, SortGlyphPos: TPoint; var TextBounds: TRect); virtual; procedure DefineProperties(Filer: TFiler); override; procedure GetAbsoluteBounds(var Left, Right: Integer); function GetDisplayName: string; override; function GetOwner: TVirtualTreeColumns; reintroduce; procedure ReadHint(Reader: TReader); procedure ReadText(Reader: TReader); procedure WriteHint(Writer: TWriter); procedure WriteText(Writer: TWriter); public constructor Create(Collection: TCollection); override; destructor Destroy; override; procedure Assign(Source: TPersistent); override; function Equals(OtherColumn: TVirtualTreeColumn): Boolean; virtual; function GetRect: TRect; virtual; procedure LoadFromStream(const Stream: TStream; Version: Integer); procedure ParentBiDiModeChanged; procedure ParentColorChanged; procedure RestoreLastWidth; procedure SaveToStream(const Stream: TStream); function UseRightToLeftReading: Boolean; property Left: Integer read GetLeft; property Owner: TVirtualTreeColumns read GetOwner; published property Alignment: TAlignment read FAlignment write SetAlignment default taLeftJustify; property BiDiMode: TBiDiMode read FBiDiMode write SetBiDiMode stored IsBiDiModeStored default bdLeftToRight; property Color: TColor read FColor write SetColor stored IsColorStored default clWindow; property Hint: WideString read FHint write FHint stored False; property ImageIndex: TImageIndex read FImageIndex write SetImageIndex default -1; property Layout: TVTHeaderColumnLayout read FLayout write SetLayout default blGlyphLeft; property Margin: Integer read FMargin write SetMargin default 4; property MaxWidth: Integer read FMaxWidth write SetMaxWidth default 10000; property MinWidth: Integer read FMinWidth write SetMinWidth default 10; property Options: TVTColumnOptions read FOptions write SetOptions default DefaultColumnOptions; property Position: TColumnPosition read FPosition write SetPosition; property Spacing: Integer read FSpacing write SetSpacing default 4; property Style: TVirtualTreeColumnStyle read FStyle write SetStyle default vsText; property Tag: Integer read FTag write FTag default 0; property Text: WideString read FText write SetText stored False; // Never let the VCL store the wide string, // it is simply unable to write it correctly. // We use DefineProperties here. property Width: Integer read FWidth write SetWidth default 50; end; TVirtualTreeColumnClass = class of TVirtualTreeColumn; TColumnsArray = array of TVirtualTreeColumn; TCardinalArray = array of Cardinal; TIndexArray = array of TColumnIndex; TVirtualTreeColumns = class(TCollection) private FHeader: TVTHeader; FHeaderBitmap: TBitmap; // backbuffer for drawing FHoverIndex, // currently "hot" column FDownIndex, // Column on which a mouse button is held down. FTrackIndex: TColumnIndex; // Index of column which is currently being resized FClickIndex: TColumnIndex; // last clicked column FPositionToIndex: TIndexArray; FNeedPositionsFix: Boolean; // True if FixPositions must still be called after DFM loading or Bidi mode change. FClearing: Boolean; // True if columns are being deleted entirely. // drag support FDragIndex: TColumnIndex; // index of column currently being dragged FDropTarget: TColumnIndex; // current target column (index) while dragging FDropBefore: Boolean; // True if drop position is in the left half of a column, False for the right // side to drop the dragged column to function GetItem(Index: TColumnIndex): TVirtualTreeColumn; function GetNewIndex(P: TPoint; var OldIndex: TColumnIndex): Boolean; procedure SetItem(Index: TColumnIndex; Value: TVirtualTreeColumn); protected procedure AdjustAutoSize(CurrentIndex: TColumnIndex; Force: Boolean = False); function AdjustDownColumn(P: TPoint): TColumnIndex; function AdjustHoverColumn(P: TPoint): Boolean; procedure AdjustPosition(Column: TVirtualTreeColumn; Position: Cardinal); procedure DrawButtonText(DC: HDC; Caption: WideString; Bounds: TRect; Enabled, Hot: Boolean; DrawFormat: Cardinal); procedure DrawXPButton(DC: HDC; ButtonR: TRect; DrawSplitter, Down, Hover: Boolean); procedure FixPositions; function GetColumnAndBounds(P: TPoint; var ColumnLeft, ColumnRight: Integer; Relative: Boolean = True): Integer; function GetOwner: TPersistent; override; procedure HandleClick(P: TPoint; Button: TMouseButton; Force, DblClick: Boolean); virtual; procedure IndexChanged(OldIndex, NewIndex: Integer); procedure InitializePositionArray; procedure ReorderColumns(RTL: Boolean); procedure Update(Item: TCollectionItem); override; procedure UpdatePositions(Force: Boolean = False); property HeaderBitmap: TBitmap read FHeaderBitmap; property PositionToIndex: TIndexArray read FPositionToIndex; public constructor Create(AOwner: TVTHeader); destructor Destroy; override; function Add: TVirtualTreeColumn; virtual; procedure AnimatedResize(Column: TColumnIndex; NewWidth: Integer); procedure Assign(Source: TPersistent); override; procedure Clear; virtual; function ColumnFromPosition(P: TPoint; Relative: Boolean = True): TColumnIndex; overload; virtual; function ColumnFromPosition(PositionIndex: TColumnPosition): TColumnIndex; overload; virtual; function Equals(OtherColumns: TVirtualTreeColumns): Boolean; procedure GetColumnBounds(Column: TColumnIndex; var Left, Right: Integer); function GetFirstVisibleColumn: TColumnIndex; function GetLastVisibleColumn: TColumnIndex; function GetNextColumn(Column: TColumnIndex): TColumnIndex; function GetNextVisibleColumn(Column: TColumnIndex): TColumnIndex; function GetPreviousColumn(Column: TColumnIndex): TColumnIndex; function GetPreviousVisibleColumn(Column: TColumnIndex): TColumnIndex; function GetVisibleColumns: TColumnsArray; function GetVisibleFixedWidth: Integer; function IsValidColumn(Column: TColumnIndex): Boolean; procedure LoadFromStream(const Stream: TStream; Version: Integer); procedure PaintHeader(DC: HDC; R: TRect; HOffset: Integer); virtual; procedure SaveToStream(const Stream: TStream); function TotalWidth: Integer; property ClickIndex: TColumnIndex read FClickIndex; property Items[Index: TColumnIndex]: TVirtualTreeColumn read GetItem write SetItem; default; property Header: TVTHeader read FHeader; property TrackIndex: TColumnIndex read FTrackIndex; end; TVirtualTreeColumnsClass = class of TVirtualTreeColumns; TVTHeaderStyle = ( hsThickButtons, // TButton look and feel hsFlatButtons, // flatter look than hsThickButton, like an always raised flat TToolButton hsPlates, // flat TToolButton look and feel (raise on hover etc.) hsXPStyle // Windows XP style ); TVTHeaderOption = ( hoAutoResize, // Adjust a column so that the header never exceeds the client width of the owner control. hoColumnResize, // Resizing columns with the mouse is allowed. hoDblClickResize, // Allows a column to resize itself to its largest entry. hoDrag, // Dragging columns is allowed. hoHotTrack, // Header captions are highlighted when mouse is over a particular column. hoOwnerDraw, // Header items with the owner draw style can be drawn by the application via event. hoRestrictDrag, // Header can only be dragged horizontally. hoShowHint, // Show application defined header hint. hoShowImages, // Show header images. hoShowSortGlyphs, // Allow visible sort glyphs. hoVisible, // Header is visible. hoAutoSpring // Distribute size changes of the header to all columns, which are sizable and have the // coAutoSpring option enabled. hoAutoResize must be enabled too. ); TVTHeaderOptions = set of TVTHeaderOption; THeaderState = ( hsAutoSizing, // auto size chain is in progess, do not trigger again on WM_SIZE hsDragging, // header dragging is in progress (only if enabled) hsDragPending, // left button is down, user might want to start dragging a column hsLoading, // The header currently loads from stream, so updates are not necessary. hsTracking, // column resizing is in progress hsTrackPending // left button is down, user might want to start resize a column ); THeaderStates = set of THeaderState; TSortDirection = ( sdAscending, sdDescending ); // desribes what made a structure change event happen TChangeReason = ( crIgnore, // used as placeholder crAccumulated, // used for delayed changes crChildAdded, // one or more child nodes have been added crChildDeleted, // one or more child nodes have been deleted crNodeAdded, // a node has been added crNodeCopied, // a node has been duplicated crNodeMoved // a node has been moved to a new place ); TVTHeader = class(TPersistent) private FOwner: TBaseVirtualTree; FColumns: TVirtualTreeColumns; FHeight: Cardinal; FFont: TFont; FParentFont: Boolean; FOptions: TVTHeaderOptions; FStates: THeaderStates; // Used to keep track of internal states the header can enter. FTrackPos: Integer; // Left/right border of this column to quickly calculate its width on resize. FStyle: TVTHeaderStyle; // button style FBackground: TColor; FAutoSizeIndex: TColumnIndex; FPopupMenu: TPopupMenu; FMainColumn: TColumnIndex; // the column which holds the tree FImages: TCustomImageList; FImageChangeLink: TChangeLink; // connections to the image list to get notified about changes FSortColumn: TColumnIndex; FSortDirection: TSortDirection; FTrackStart: TPoint; // client coordinates of the tracking start point FDragStart: TPoint; // initial mouse drag position FDragImage: TVTDragImage; // drag image management during header drag FLastWidth: Integer; // Used to adjust spring columns. This is the width of all visible columns, // not the header rectangle. procedure FontChanged(Sender: TObject); function GetMainColumn: TColumnIndex; function GetUseColumns: Boolean; procedure SetAutoSizeIndex(Value: TColumnIndex); procedure SetBackground(Value: TColor); procedure SetColumns(Value: TVirtualTreeColumns); procedure SetFont(const Value: TFont); procedure SetHeight(Value: Cardinal); procedure SetImages(const Value: TCustomImageList); procedure SetMainColumn(Value: TColumnIndex); procedure SetOptions(Value: TVTHeaderOptions); procedure SetParentFont(Value: Boolean); procedure SetSortColumn(Value: TColumnIndex); procedure SetSortDirection(const Value: TSortDirection); procedure SetStyle(Value: TVTHeaderStyle); protected function CanWriteColumns: Boolean; virtual; procedure ChangeScale(M, D: Integer); virtual; function DetermineSplitterIndex(P: TPoint): Boolean; virtual; procedure DoSetSortColumn(Value: TColumnIndex); virtual; procedure DragTo(P: TPoint); function GetColumnsClass: TVirtualTreeColumnsClass; virtual; function GetOwner: TPersistent; override; function GetShiftState: TShiftState; function HandleHeaderMouseMove(var Message: TLMMouseMove): Boolean; function HandleMessage(var Message: TLMessage): Boolean; virtual; procedure ImageListChange(Sender: TObject); procedure PrepareDrag(P, Start: TPoint); procedure ReadColumns(Reader: TReader); procedure RecalculateHeader; virtual; procedure UpdateMainColumn; procedure UpdateSpringColumns; procedure WriteColumns(Writer: TWriter); public constructor Create(AOwner: TBaseVirtualTree); virtual; destructor Destroy; override; procedure Assign(Source: TPersistent); override; procedure AutoFitColumns(Animated: Boolean = True); function InHeader(P: TPoint): Boolean; virtual; procedure Invalidate(Column: TVirtualTreeColumn; ExpandToBorder: Boolean = False); procedure LoadFromStream(const Stream: TStream); virtual; procedure RestoreColumns; procedure SaveToStream(const Stream: TStream); virtual; property DragImage: TVTDragImage read FDragImage; property States: THeaderStates read FStates; property Treeview: TBaseVirtualTree read FOwner; property UseColumns: Boolean read GetUseColumns; published property AutoSizeIndex: TColumnIndex read FAutoSizeIndex write SetAutoSizeIndex; property Background: TColor read FBackground write SetBackground default clBtnFace; property Columns: TVirtualTreeColumns read FColumns write SetColumns stored False; // Stored by the owner tree to // support VFI. property Font: TFont read FFont write SetFont; property Height: Cardinal read FHeight write SetHeight default 17; property Images: TCustomImageList read FImages write SetImages; property MainColumn: TColumnIndex read GetMainColumn write SetMainColumn default 0; property Options: TVTHeaderOptions read FOptions write SetOptions default [hoColumnResize, hoDrag, hoShowSortGlyphs]; property ParentFont: Boolean read FParentFont write SetParentFont default False; property PopupMenu: TPopupMenu read FPopupMenu write FPopUpMenu; property SortColumn: TColumnIndex read FSortColumn write SetSortColumn default NoColumn; property SortDirection: TSortDirection read FSortDirection write SetSortDirection default sdAscending; property Style: TVTHeaderStyle read FStyle write SetStyle default hsThickButtons; end; TVTHeaderClass = class of TVTHeader; // Communication interface between a tree editor and the tree itself (declared as using stdcall in case it // is implemented in a (C/C++) DLL). The GUID is not nessecary in Delphi but important for BCB users // to allow QueryInterface and _uuidof calls. IVTEditLink = interface ['{2BE3EAFA-5ACB-45B4-9D9A-B58BCC496E17}'] function BeginEdit: Boolean; stdcall; // Called when editing actually starts. function CancelEdit: Boolean; stdcall; // Called when editing has been cancelled by the tree. function EndEdit: Boolean; stdcall; // Called when editing has been finished by the tree. function PrepareEdit(Tree: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex): Boolean; stdcall; // Called after creation to allow a setup. function GetBounds: TRect; stdcall; // Called to get the current size of the edit window // (only important if the edit resizes itself). procedure ProcessMessage(var Message: TLMessage); stdcall; // Used to forward messages to the edit window(s)- procedure SetBounds(R: TRect); stdcall; // Called to place the editor. end; // Indicates in the OnUpdating event what state the tree is currently in. TVTUpdateState = ( usBegin, // The tree just entered the update state (BeginUpdate call for the first time). usBeginSynch, // The tree just entered the synch update state (BeginSynch call for the first time). usSynch, // Begin/EndSynch has been called but the tree did not change the update state. usUpdate, // Begin/EndUpdate has been called but the tree did not change the update state. usEnd, // The tree just left the update state (EndUpdate called for the last level). usEndSynch // The tree just left the synch update state (EndSynch called for the last level). ); // Used during owner draw of the header to indicate which drop mark for the column must be drawn. TVTDropMarkMode = ( dmmNone, dmmLeft, dmmRight ); // This structure carries all important information about header painting and is used in the advanced header painting. THeaderPaintInfo = record TargetCanvas: TCanvas; Column: TVirtualTreeColumn; PaintRectangle: TRect; TextRectangle: TRect; IsHoverIndex, IsDownIndex, IsEnabled, ShowHeaderGlyph, ShowSortGlyph, ShowRightBorder: Boolean; DropMark: TVTDropMarkMode; GlyphPos, SortGlyphPos: TPoint; end; // These elements are used both to query the application, which of them it wants to draw itself and to tell it during // painting, which elements must be drawn during the advanced custom draw events. THeaderPaintElements = set of ( hpeBackground, hpeDropMark, hpeHeaderGlyph, hpeSortGlyph, hpeText ); // Various events must be handled at different places than they were initiated or need // a persistent storage until they are reset. TVirtualTreeStates = set of ( tsCancelHintAnimation, // Set when a new hint is about to show but an old hint is still being animated. tsChangePending, // A selection change is pending. tsCheckPropagation, // Set during automatic check state propagation. tsCollapsing, // A full collapse operation is in progress. tsToggleFocusedSelection, // Node selection was modifed using Ctrl-click. Change selection state on next mouse up. tsClearPending, // Need to clear the current selection on next mouse move. tsClipboardFlushing, // Set during flushing the clipboard to avoid freeing the content. tsCopyPending, // Indicates a pending copy operation which needs to be finished. tsCutPending, // Indicates a pending cut operation which needs to be finished. tsDrawSelPending, // Multiselection only. User held down the left mouse button on a free // area and might want to start draw selection. tsDrawSelecting, // Multiselection only. Draw selection has actually started. tsEditing, // Indicates that an edit operation is currently in progress. tsEditPending, // An mouse up start edit if dragging has not started. tsExpanding, // A full expand operation is in progress. tsHint, // Set when our hint is visible or soon will be. tsInAnimation, // Set if the tree is currently in an animation loop. tsIncrementalSearching, // Set when the user starts incremental search. tsIncrementalSearchPending, // Set in WM_KEYDOWN to tell to use the char in WM_CHAR for incremental search. tsIterating, // Set when IterateSubtree is currently in progress. tsKeyCheckPending, // A check operation is under way, initiated by a key press (space key). Ignore mouse. tsLeftButtonDown, // Set when the left mouse button is down. tsLeftDblClick, // Set when the left mouse button was doubly clicked. tsMouseCheckPending, // A check operation is under way, initiated by a mouse click. Ignore space key. tsMiddleButtonDown, // Set when the middle mouse button is down. tsMiddleDblClick, // Set when the middle mouse button was doubly clicked. tsNeedScale, // On next ChangeScale scale the default node height. tsNeedRootCountUpdate, // Set if while loading a root node count is set. tsOLEDragging, // OLE dragging in progress. tsOLEDragPending, // User has requested to start delayed dragging. tsPainting, // The tree is currently painting itself. tsRightButtonDown, // Set when the right mouse button is down. tsRightDblClick, // Set when the right mouse button was doubly clicked. tsPopupMenuShown, // The user clicked the right mouse button, which might cause a popup menu to appear. tsScrolling, // Set when autoscrolling is active. tsScrollPending, // Set when waiting for the scroll delay time to elapse. tsSizing, // Set when the tree window is being resized. This is used to prevent recursive calls // due to setting the scrollbars when sizing. tsStopValidation, // Cache validation can be stopped (usually because a change has occured meanwhile). tsStructureChangePending, // The structure of the tree has been changed while the update was locked. tsSynchMode, // Set when the tree is in synch mode, where no timer events are triggered. tsThumbTracking, // Stop updating the horizontal scroll bar while dragging the vertical thumb and vice versa. tsUpdateHiddenChildrenNeeded, // Pending update for the hidden children flag after massive visibility changes. tsUpdating, // The tree does currently not update its window because a BeginUpdate has not yet ended. tsUseCache, // The tree's node caches are validated and non-empty. tsUserDragObject, // Signals that the application created an own drag object in OnStartDrag. tsUseThemes, // The tree runs under WinXP+, is theme aware and themes are enabled. tsValidating, // The tree's node caches are currently validated. tsValidationNeeded, // Something in the structure of the tree has changed. The cache needs validation. tsVCLDragging, // VCL drag'n drop in progress. tsVCLDragPending, // One-shot flag to avoid clearing the current selection on implicit mouse up for VCL drag. tsWheelPanning, // Wheel mouse panning is active or soon will be. tsWheelScrolling, // Wheel mouse scrolling is active or soon will be. tsWindowCreating // Set during window handle creation to avoid frequent unnecessary updates. ); TChangeStates = set of ( csStopValidation, // Cache validation can be stopped (usually because a change has occured meanwhile). csUseCache, // The tree's node caches are validated and non-empty. csValidating, // The tree's node caches are currently validated. csValidationNeeded // Something in the structure of the tree has changed. The cache needs validation. ); // determines whether and how the drag image is to show TVTDragImageKind = ( diComplete, // show a complete drag image with all columns, only visible columns are shown diMainColumnOnly, // show only the main column (the tree column) diNoImage // don't show a drag image at all ); // Switch for OLE and VCL drag'n drop. Because it is not possible to have both simultanously. TVTDragType = ( dtOLE, dtVCL ); // options which determine what to draw in PaintTree TVTInternalPaintOption = ( poBackground, // draw background image if there is any and it is enabled poColumnColor, // erase node's background with the column's color poDrawFocusRect, // draw focus rectangle around the focused node poDrawSelection, // draw selected nodes with the normal selection color poDrawDropMark, // draw drop mark if a node is currently the drop target poGridLines, // draw grid lines if enabled poMainOnly, // draw only the main column poSelectedOnly // draw only selected nodes ); TVTInternalPaintOptions = set of TVTInternalPaintOption; // Determines the look of a tree's lines. TVTLineStyle = ( lsCustomStyle, // application provides a line pattern lsDotted, // usual dotted lines (default) lsSolid // simple solid lines ); // TVTLineType is used during painting a tree TVTLineType = ( ltNone, // no line at all ltBottomRight, // a line from bottom to the center and from there to the right ltTopDown, // a line from top to bottom ltTopDownRight, // a line from top to bottom and from center to the right ltRight, // a line from center to the right ltTopRight, // a line from bottom to center and from there to the right // special styles for alternative drawings of tree lines ltLeft, // a line from top to bottom at the left ltLeftBottom // a combination of ltLeft and a line at the bottom from left to right ); // Determines how to draw tree lines. TVTLineMode = ( lmNormal, // usual tree lines (as in TTreeview) lmBands // looks similar to a Nassi-Schneidermann diagram ); // A collection of line type IDs which is used while painting a node. TLineImage = array of TVTLineType; TVTScrollIncrement = 1..10000; // A class to manage scroll bar aspects. TScrollBarOptions = class(TPersistent) private FAlwaysVisible: Boolean; FOwner: TBaseVirtualTree; FScrollBars: TScrollStyle; // used to hide or show vertical and/or horizontal scrollbar FScrollBarStyle: TScrollBarStyle; // kind of scrollbars to use FIncrementX, FIncrementY: TVTScrollIncrement; // number of pixels to scroll in one step (when auto scrolling) procedure SetAlwaysVisible(Value: Boolean); procedure SetScrollBars(Value: TScrollStyle); procedure SetScrollBarStyle(Value: TScrollBarStyle); protected function GetOwner: TPersistent; override; public constructor Create(AOwner: TBaseVirtualTree); procedure Assign(Source: TPersistent); override; published property AlwaysVisible: Boolean read FAlwaysVisible write SetAlwaysVisible default False; property HorizontalIncrement: TVTScrollIncrement read FIncrementX write FIncrementX default 20; property ScrollBars: TScrollStyle read FScrollbars write SetScrollBars default ssBoth; property ScrollBarStyle: TScrollBarStyle read FScrollBarStyle write SetScrollBarStyle default sbmRegular; property VerticalIncrement: TVTScrollIncrement read FIncrementY write FIncrementY default 20; end; // class to collect all switchable colors into one place TVTColors = class(TPersistent) private FOwner: TBaseVirtualTree; FColors: array[0..14] of TColor; function GetColor(const Index: Integer): TColor; procedure SetColor(const Index: Integer; const Value: TColor); public constructor Create(AOwner: TBaseVirtualTree); procedure Assign(Source: TPersistent); override; published property BorderColor: TColor index 7 read GetColor write SetColor default clBtnFace; property DisabledColor: TColor index 0 read GetColor write SetColor default clBtnShadow; property DropMarkColor: TColor index 1 read GetColor write SetColor default clHighlight; property DropTargetColor: TColor index 2 read GetColor write SetColor default clHighLight; property DropTargetBorderColor: TColor index 11 read GetColor write SetColor default clHighLight; property FocusedSelectionColor: TColor index 3 read GetColor write SetColor default clHighLight; property FocusedSelectionBorderColor: TColor index 9 read GetColor write SetColor default clHighLight; property GridLineColor: TColor index 4 read GetColor write SetColor default clBtnFace; property HeaderHotColor: TColor index 14 read GetColor write SetColor default clBtnShadow; property HotColor: TColor index 8 read GetColor write SetColor default clWindowText; property SelectionRectangleBlendColor: TColor index 12 read GetColor write SetColor default clHighlight; property SelectionRectangleBorderColor: TColor index 13 read GetColor write SetColor default clHighlight; property TreeLineColor: TColor index 5 read GetColor write SetColor default clBtnShadow; property UnfocusedSelectionColor: TColor index 6 read GetColor write SetColor default clBtnFace; property UnfocusedSelectionBorderColor: TColor index 10 read GetColor write SetColor default clBtnFace; end; // For painting a node and its columns/cells a lot of information must be passed frequently around. TVTImageInfo = record Index: Integer; // Index in the associated image list. XPos, // Horizontal position in the current target canvas. YPos: Integer; // Vertical position in the current target canvas. Ghosted: Boolean; // Flag to indicate that the image must be drawn slightly lighter. Images: TCustomImageList; // The image list to be used for painting. end; TVTImageInfoIndex = ( iiNormal, iiState, iiCheck, iiOverlay ); // Options which are used when modifying the scroll offsets. TScrollUpdateOptions = set of ( suoRepaintHeader, // if suoUpdateNCArea is also set then invalidate the header suoRepaintScrollbars, // if suoUpdateNCArea is also set then repaint both scrollbars after updating them suoScrollClientArea, // scroll and invalidate the proper part of the client area suoUpdateNCArea // update non-client area (scrollbars, header) ); // Determines the look of a tree's buttons. TVTButtonStyle = ( bsRectangle, // traditional Windows look (plus/minus buttons) bsTriangle // traditional Macintosh look ); // TButtonFillMode is only used when the button style is bsRectangle and determines how to fill the interior. TVTButtonFillMode = ( fmTreeColor, // solid color, uses the tree's background color fmWindowColor, // solid color, uses clWindow fmShaded, // color gradient, Windows XP style (legacy code, use toThemeAware on Windows XP instead) fmTransparent // transparent color, use the item's background color ); TVTPaintInfo = record Canvas: TCanvas; // the canvas to paint on PaintOptions: TVTInternalPaintOptions; // a copy of the paint options passed to PaintTree Node: PVirtualNode; // the node to paint Column: TColumnIndex; // the node's column index to paint Position: TColumnPosition; // the column position of the node CellRect, // the node cell ContentRect: TRect; // the area of the cell used for the node's content NodeWidth: Integer; // the actual node width Alignment: TAlignment; // how to align within the node rectangle BidiMode: TBidiMode; // directionality to be used for painting BrushOrigin: TPoint; // the alignment for the brush used to draw dotted lines ImageInfo: array[TVTImageInfoIndex] of TVTImageInfo; // info about each possible node image end; // Method called by the Animate routine for each animation step. TVTAnimationCallback = function(Step, StepSize: Integer; Data: Pointer): Boolean of object; TVTIncrementalSearch = ( isAll, // search every node in tree, initialize if necessary isNone, // disable incremental search isInitializedOnly, // search only initialized nodes, skip others isVisibleOnly // search only visible nodes, initialize if necessary ); // Determines which direction to use when advancing nodes during an incremental search. TVTSearchDirection = ( sdForward, sdBackward ); // Determines where to start incremental searching for each key press. TVTSearchStart = ( ssAlwaysStartOver, // always use the first/last node (depending on direction) to search from ssLastHit, // use the last found node ssFocusedNode // use the currently focused node ); // Determines how to use the align member of a node. TVTNodeAlignment = ( naFromBottom, // the align member specifies amount of units (usually pixels) from top border of the node naFromTop, // align is to be measured from bottom naProportional // align is to be measure in percent of the entire node height and relative to top ); // Determines how to draw the selection rectangle used for draw selection. TVTDrawSelectionMode = ( smDottedRectangle, // same as DrawFocusRect smBlendedRectangle // alpha blending, uses special colors (see TVTColors) ); TClipboardFormats = class(TStringList) private FOwner: TBaseVirtualTree; public constructor Create(AOwner: TBaseVirtualTree); virtual; function Add(const S: string): Integer; override; procedure Insert(Index: Integer; const S: string); override; property Owner: TBaseVirtualTree read FOwner; end; // ----- Event prototypes: // node enumeration TVTGetNodeProc = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Data: Pointer; var Abort: Boolean) of object; // node events TVTChangingEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; var Allowed: Boolean) of object; TVTCheckChangingEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; var NewState: TCheckState; var Allowed: Boolean) of object; TVTChangeEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode) of object; TVTStructureChangeEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Reason: TChangeReason) of object; TVTEditCancelEvent = procedure(Sender: TBaseVirtualTree; Column: TColumnIndex) of object; TVTEditChangingEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; var Allowed: Boolean) of object; TVTEditChangeEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex) of object; TVTFreeNodeEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode) of object; TVTFocusChangingEvent = procedure(Sender: TBaseVirtualTree; OldNode, NewNode: PVirtualNode; OldColumn, NewColumn: TColumnIndex; var Allowed: Boolean) of object; TVTFocusChangeEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex) of object; TVTGetImageEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Kind: TVTImageKind; Column: TColumnIndex; var Ghosted: Boolean; var ImageIndex: Integer) of object; TVTGetImageExEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Kind: TVTImageKind; Column: TColumnIndex; var Ghosted: Boolean; var ImageIndex: Integer; var ImageList: TCustomImageList) of object; TVTHotNodeChangeEvent = procedure(Sender: TBaseVirtualTree; OldNode, NewNode: PVirtualNode) of object; TVTInitChildrenEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; var ChildCount: Cardinal) of object; TVTInitNodeEvent = procedure(Sender: TBaseVirtualTree; ParentNode, Node: PVirtualNode; var InitialStates: TVirtualNodeInitStates) of object; TVTPopupEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; const P: TPoint; var AskParent: Boolean; var PopupMenu: TPopupMenu) of object; TVTHelpContextEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; var HelpContext: Integer) of object; TVTCreateEditorEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; out EditLink: IVTEditLink) of object; TVTSaveNodeEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Stream: TStream) of object; // header/column events TVTHeaderClickEvent = procedure(Sender: TVTHeader; Column: TColumnIndex; Button: TMouseButton; Shift: TShiftState; X, Y: Integer) of object; TVTHeaderMouseEvent = procedure(Sender: TVTHeader; Button: TMouseButton; Shift: TShiftState; X, Y: Integer) of object; TVTHeaderMouseMoveEvent = procedure(Sender: TVTHeader; Shift: TShiftState; X, Y: Integer) of object; TVTHeaderNotifyEvent = procedure(Sender: TVTHeader; Column: TColumnIndex) of object; TVTHeaderDraggingEvent = procedure(Sender: TVTHeader; Column: TColumnIndex; var Allowed: Boolean) of object; TVTHeaderDraggedEvent = procedure(Sender: TVTHeader; Column: TColumnIndex; OldPosition: Integer) of object; TVTHeaderDraggedOutEvent = procedure(Sender: TVTHeader; Column: TColumnIndex; DropPosition: TPoint) of object; TVTHeaderPaintEvent = procedure(Sender: TVTHeader; HeaderCanvas: TCanvas; Column: TVirtualTreeColumn; R: TRect; Hover, Pressed: Boolean; DropMark: TVTDropMarkMode) of object; TVTHeaderPaintQueryElementsEvent = procedure(Sender: TVTHeader; var PaintInfo: THeaderPaintInfo; var Elements: THeaderPaintElements) of object; TVTAdvancedHeaderPaintEvent = procedure(Sender: TVTHeader; var PaintInfo: THeaderPaintInfo; const Elements: THeaderPaintElements) of object; TVTColumnClickEvent = procedure (Sender: TBaseVirtualTree; Column: TColumnIndex; Shift: TShiftState) of object; TVTColumnDblClickEvent = procedure (Sender: TBaseVirtualTree; Column: TColumnIndex; Shift: TShiftState) of object; TVTGetHeaderCursorEvent = procedure(Sender: TVTHeader; var Cursor: HCURSOR) of object; // move and copy events TVTNodeMovedEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode) of object; TVTNodeMovingEvent = procedure(Sender: TBaseVirtualTree; Node, Target: PVirtualNode; var Allowed: Boolean) of object; TVTNodeCopiedEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode) of object; TVTNodeCopyingEvent = procedure(Sender: TBaseVirtualTree; Node, Target: PVirtualNode; var Allowed: Boolean) of object; // drag'n drop/OLE events TVTCreateDragManagerEvent = procedure(Sender: TBaseVirtualTree; out DragManager: IVTDragManager) of object; TVTCreateDataObjectEvent = procedure(Sender: TBaseVirtualTree; out IDataObject: IDataObject) of object; TVTDragAllowedEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; var Allowed: Boolean) of object; TVTDragOverEvent = procedure(Sender: TBaseVirtualTree; Source: TObject; Shift: TShiftState; State: TDragState; Pt: TPoint; Mode: TDropMode; var Effect: Integer; var Accept: Boolean) of object; TVTDragDropEvent = procedure(Sender: TBaseVirtualTree; Source: TObject; DataObject: IDataObject; Formats: TFormatArray; Shift: TShiftState; Pt: TPoint; var Effect: Integer; Mode: TDropMode) of object; TVTRenderOLEDataEvent = procedure(Sender: TBaseVirtualTree; const FormatEtcIn: TFormatEtc; out Medium: TStgMedium; ForClipboard: Boolean; var Result: HRESULT) of object; TVTGetUserClipboardFormatsEvent = procedure(Sender: TBaseVirtualTree; var Formats: TFormatEtcArray) of object; // paint events TVTBeforeItemEraseEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas; Node: PVirtualNode; ItemRect: TRect; var ItemColor: TColor; var EraseAction: TItemEraseAction) of object; TVTAfterItemEraseEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas; Node: PVirtualNode; ItemRect: TRect) of object; TVTBeforeItemPaintEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas; Node: PVirtualNode; ItemRect: TRect; var CustomDraw: Boolean) of object; TVTAfterItemPaintEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas; Node: PVirtualNode; ItemRect: TRect) of object; TVTBeforeCellPaintEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; CellRect: TRect) of object; TVTAfterCellPaintEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; CellRect: TRect) of object; TVTPaintEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas) of object; TVTBackgroundPaintEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas; R: TRect; var Handled: Boolean) of object; TVTGetLineStyleEvent = procedure(Sender: TBaseVirtualTree; var Bits: Pointer) of object; TVTMeasureItemEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas; Node: PVirtualNode; var NodeHeight: Integer) of object; // search, sort TVTCompareEvent = procedure(Sender: TBaseVirtualTree; Node1, Node2: PVirtualNode; Column: TColumnIndex; var Result: Integer) of object; TVTIncrementalSearchEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; const SearchText: WideString; var Result: Integer) of object; // miscellaneous TVTGetNodeDataSizeEvent = procedure(Sender: TBaseVirtualTree; var NodeDataSize: Integer) of object; TVTKeyActionEvent = procedure(Sender: TBaseVirtualTree; var CharCode: Word; var Shift: TShiftState; var DoDefault: Boolean) of object; TVTScrollEvent = procedure(Sender: TBaseVirtualTree; DeltaX, DeltaY: Integer) of object; TVTUpdatingEvent = procedure(Sender: TBaseVirtualTree; State: TVTUpdateState) of object; TVTGetCursorEvent = procedure(Sender: TBaseVirtualTree; var Cursor: TCursor) of object; TVTStateChangeEvent = procedure(Sender: TBaseVirtualTree; Enter, Leave: TVirtualTreeStates) of object; TVTGetCellIsEmptyEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; var IsEmpty: Boolean) of object; TVTScrollbarShowEvent = procedure(Sender: TBaseVirtualTree; Bar: Integer; Show: Boolean) of object; // Helper types for node iterations. TGetFirstNodeProc = function: PVirtualNode of object; TGetNextNodeProc = function(Node: PVirtualNode): PVirtualNode of object; // ----- TBaseVirtualTree TBaseVirtualTree = class(TCustomControl) private //FBorderStyle: TBorderStyle; FHeader: TVTHeader; FRoot: PVirtualNode; FDefaultNodeHeight, FIndent: Cardinal; FOptions: TCustomVirtualTreeOptions; FUpdateCount: Cardinal; // update stopper, updates of the tree control are only done if = 0 FSynchUpdateCount: Cardinal; // synchronizer, causes all events which are usually done via timers // to happen immediately, regardless of the normal update state FNodeDataSize: Integer; // number of bytes to allocate with each node (in addition to its base // structure and the internal data), if -1 then do callback {$ifdef UseLocalMemoryManager} FNodeMemoryManager: TVTNodeMemoryManager; // High-performance local memory manager. {$endif UseLocalMemoryManager} FStates: TVirtualTreeStates; // various active/pending states the tree needs to consider FLastSelected, FFocusedNode: PVirtualNode; FEditColumn, // column to be edited (focused node) FFocusedColumn: TColumnIndex; // NoColumn if no columns are active otherwise the last hit column of // the currently focused node FScrollDirections: TScrollDirections; // directions to scroll client area into depending on mouse position FLastStructureChangeReason: TChangeReason; // Used for delayed structure change event. FLastStructureChangeNode, // dito FLastChangedNode, // used for delayed change event FCurrentHotNode: PVirtualNode; // Node over which the mouse is hovering. FLastSelRect, FNewSelRect: TRect; // used while doing draw selection FHotCursor: TCursor; // can be set to additionally indicate the current hot node FAnimationType: THintAnimationType; // none, fade in, slide in animation (just like those animations used // in Win98 (slide) and Windows 2000 (fade)) FHintMode: TVTHintMode; // determines the kind of the hint window FHintData: TVTHintData; // used while preparing the hint window FChangeDelay: Cardinal; // used to delay OnChange event FEditDelay: Cardinal; // determines time to elapse before a node goes into edit mode FPositionCache: TCache; // array which stores node references ordered by vertical positions // (see also DoValidateCache for more information) FVisibleCount: Cardinal; // number of currently visible nodes FStartIndex: Cardinal; // index to start validating cache from FSelection: TNodeArray; // list of currently selected nodes FSelectionCount: Integer; // number of currently selected nodes (size of FSelection might differ) FRangeAnchor: PVirtualNode; // anchor node for selection with the keyboard, determines start of a // selection range FCheckNode: PVirtualNode; // node which "captures" a check event FPendingCheckState: TCheckState; // the new state the check node will get if all went fine FCheckPropagationCount: Cardinal; // nesting level of check propagation (WL, 05.02.2004) FLastSelectionLevel: Integer; // keeps the last node level for constrained multiselection FDrawSelShiftState: TShiftState; // keeps the initial shift state when the user starts selection with // the mouse FEditLink: IVTEditLink; // used to comunicate with an application defined editor FTempNodeCache: TNodeArray; // used at various places to hold temporarily a bunch of node refs. FTempNodeCount: Cardinal; // number of nodes in FTempNodeCache FBackground: TPicture; // A background image loadable at design and runtime. FMargin: Integer; // horizontal border distance FTextMargin: Integer; // space between the node's text and its horizontal bounds FBackgroundOffsetX, FBackgroundOffsetY: Integer; // used to fine tune the position of the background image FAnimationDuration: Cardinal; // specifies how long an animation shall take (expanding, hint) FWantTabs: Boolean; // If True then the tree also consumes the tab key. FNodeAlignment: TVTNodeAlignment; // determines how to interpret the align member of a node FHeaderRect: TRect; // Space which the header currently uses in the control (window coords). FLastHintRect: TRect; // Area which the mouse must leave to reshow a hint. FUpdateRect: TRect; // paint support and images FPlusBM, FMinusBM: TBitmap; // small bitmaps used for tree buttons FImages, // normal images in the tree FStateImages: TCustomImageList; // state images in the tree FCustomCheckImages: TBitmap; // application defined check images FCheckImageKind: TCheckImageKind; // light or dark, cross marks or tick marks FCheckImages: TBitmap; // Reference to global image list to be used for the check images. FImageChangeLink, FStateChangeLink, FCustomCheckChangeLink: TChangeLink; // connections to the image lists FOldFontChange: TNotifyEvent; // helper method pointer for tracking font changes in the off screen buffer FFontChanged: Boolean; // flag for keeping informed about font changes in the off screen buffer FColors: TVTColors; // class comprising all customizable colors in the tree FButtonStyle: TVTButtonStyle; // style of the tree buttons FButtonFillMode: TVTButtonFillMode; // for rectangular tree buttons only: how to fill them FLineStyle: TVTLineStyle; // style of the tree lines FLineMode: TVTLineMode; // tree lines or bands etc. FDottedBrush: HBRUSH; // used to paint dotted lines without special pens FSelectionCurveRadius: Cardinal; // radius for rounded selection rectangles FSelectionBlendFactor: Byte; // Determines the factor by which the selection rectangle is to be // faded if enabled. FDrawSelectionMode: TVTDrawSelectionMode; // determines the paint mode for draw selection // alignment and directionality support FAlignment: TAlignment; // default alignment of the tree if no columns are shown // drag'n drop and clipboard support FDragImageKind: TVTDragImageKind; // determines whether or not and what to show in the drag image FDragOperations: TDragOperations; // determines which operations are allowed during drag'n drop FDragThreshold: Integer; // used to determine when to actually start a drag'n drop operation FDragManager: IVTDragManager; // drag'n drop, cut'n paste FDropTargetNode: PVirtualNode; // node currently selected as drop target FLastDropMode: TDropMode; // set while dragging and used to track changes FDragSelection: TNodeArray; // temporary copy of FSelection used during drag'n drop FDragType: TVTDragType; // used to switch between OLE and VCL drag'n drop FDragImage: TVTDragImage; // drag image management FDragWidth, FDragHeight: Integer; // size of the drag image, the larger the more CPU power is needed FClipboardFormats: TClipboardFormats; // a list of clipboard format descriptions enabled for this tree FLastVCLDragTarget: PVirtualNode; // A node cache for VCL drag'n drop (keywords: DragLeave on DragDrop). FVCLDragEffect: LongWord; // A cache for VCL drag'n drop to keep the current drop effect. // scroll support FScrollBarOptions: TScrollBarOptions; // common properties of horizontal and vertical scrollbar FAutoScrollInterval: TAutoScrollInterval; // determines speed of auto scrolling FAutoScrollDelay: Cardinal; // amount of milliseconds to wait until autoscrolling becomes active FAutoExpandDelay: Cardinal; // amount of milliseconds to wait until a node is expanded if it is the // drop target FOffsetX: Integer; FOffsetY: Integer; // Determines left and top scroll offset. FEffectiveOffsetX: Integer; // Actual position of the horizontal scroll bar (varies depending on bidi mode). FRangeX, FRangeY: Cardinal; // current virtual width and height of the tree FBottomSpace: Cardinal; // Extra space below the last node. FDefaultPasteMode: TVTNodeAttachMode; // Used to determine where to add pasted nodes to. FSingletonNodeArray: TNodeArray; // Contains only one element for quick addition of single nodes // to the selection. FDragScrollStart: Cardinal; // Contains the start time when a tree does auto scrolling as drop target. // search FIncrementalSearch: TVTIncrementalSearch; // Used to determine whether and how incremental search is to be used. FSearchTimeout: Cardinal; // Number of milliseconds after which to stop incremental searching. FSearchBuffer: WideString; // Collects a sequence of keypresses used to do incremental searching. FLastSearchNode: PVirtualNode; // Reference to node which was last found as search fit. FSearchDirection: TVTSearchDirection; // Direction to incrementally search the tree. FSearchStart: TVTSearchStart; // Where to start iteration on each key press. // miscellanous FTotalInternalDataSize: Cardinal; // Cache of the sum of the necessary internal data size for all tree // classes derived from this base class. FPanningWindow: TVirtualPanningWindow; // Helper window for wheel panning FLastClickPos: TPoint; // Used for retained drag start and wheel mouse scrolling. {$ifdef EnableAccessible} // MSAA support FAccessible: IAccessible; // The IAccessible interface to the window itself. FAccessibleItem: IAccessible; // The IAccessible to the item that currently has focus. FAccessibleName: string; // The name the window is given for screen readers. {$endif} // common events FOnChange: TVTChangeEvent; // selection change FOnStructureChange: TVTStructureChangeEvent; // structural change like adding nodes etc. FOnInitChildren: TVTInitChildrenEvent; // called when a node's children are needed (expanding etc.) FOnInitNode: TVTInitNodeEvent; // called when a node needs to be initialized (child count etc.) FOnFreeNode: TVTFreeNodeEvent; // called when a node is about to be destroyed, user data can and should // be freed in this event FOnGetImage: TVTGetImageEvent; // Used to retrieve the image index of a given node. FOnGetImageEx: TVTGetImageExEvent; // Used to retrieve the image index of a given node along with a custom // image list. FOnHotChange: TVTHotNodeChangeEvent; // called when the current "hot" node (that is, the node under the mouse) // changes and hot tracking is enabled FOnExpanding, // called just before a node is expanded FOnCollapsing: TVTChangingEvent; // called just before a node is collapsed FOnChecking: TVTCheckChangingEvent; // called just before a node's check state is changed FOnExpanded, // called after a node has been expanded FOnCollapsed, // called after a node has been collapsed FOnChecked: TVTChangeEvent; // called after a node's check state has been changed FOnResetNode: TVTChangeEvent; // called when a node is set to be uninitialized FOnNodeMoving: TVTNodeMovingEvent; // called just before a node is moved from one parent node to another // (this can be cancelled) FOnNodeMoved: TVTNodeMovedEvent; // called after a node and its children have been moved to another // parent node (probably another tree, but within the same application) FOnNodeCopying: TVTNodeCopyingEvent; // called when an node is copied to another parent node (probably in // another tree, but within the same application, can be cancelled) FOnNodeCopied: TVTNodeCopiedEvent; // call after a node has been copied FOnEditing: TVTEditChangingEvent; // called just before a node goes into edit mode FOnEditCancelled: TVTEditCancelEvent; // called when editing has been cancelled FOnEdited: TVTEditChangeEvent; // called when editing has successfully been finished FOnFocusChanging: TVTFocusChangingEvent; // called when the focus is about to go to a new node and/or column // (can be cancelled) FOnFocusChanged: TVTFocusChangeEvent; // called when the focus goes to a new node and/or column FOnGetPopupMenu: TVTPopupEvent; // called when the popup for a node needs to be shown FOnGetHelpContext: TVTHelpContextEvent; // called when a node specific help theme should be called FOnCreateEditor: TVTCreateEditorEvent; // called when a node goes into edit mode, this allows applications // to supply their own editor FOnLoadNode, // called after a node has been loaded from a stream (file, clipboard, // OLE drag'n drop) to allow an application to load their own data // saved in OnSaveNode FOnSaveNode: TVTSaveNodeEvent; // called when a node needs to be serialized into a stream // (see OnLoadNode) to give the application the opportunity to save // their node specific, persistent data (note: never save memory // references) // header/column mouse events FOnHeaderClick, // mouse events for the header, just like those for a control FOnHeaderDblClick: TVTHeaderClickEvent; FOnHeaderMouseDown, FOnHeaderMouseUp: TVTHeaderMouseEvent; FOnHeaderMouseMove: TVTHeaderMouseMoveEvent; FOnColumnClick: TVTColumnClickEvent; FOnColumnDblClick: TVTColumnDblClickEvent; FOnColumnResize: TVTHeaderNotifyEvent; FOnGetHeaderCursor: TVTGetHeaderCursorEvent; // triggered to allow the app. to use customized cursors for the header // paint events FOnAfterPaint, // triggered when the tree has entirely been painted FOnBeforePaint: TVTPaintEvent; // triggered when the tree is about to be painted FOnAfterItemPaint: TVTAfterItemPaintEvent; // triggered after an item has been painted FOnBeforeItemPaint: TVTBeforeItemPaintEvent; // triggered when an item is about to be painted FOnBeforeItemErase: TVTBeforeItemEraseEvent; // triggered when an item's background is about to be erased FOnAfterItemErase: TVTAfterItemEraseEvent; // triggered after an item's background has been erased FOnAfterCellPaint: TVTAfterCellPaintEvent; // triggered after a column of an item has been painted FOnBeforeCellPaint: TVTBeforeCellPaintEvent; // triggered when a column of an item is about to be painted FOnHeaderDraw: TVTHeaderPaintEvent; // Used when owner draw is enabled for the header and a column is set // to owner draw mode. FOnHeaderDrawQueryElements: TVTHeaderPaintQueryElementsEvent; // Used for advanced header painting to query the // application for the elements, which are drawn by it and which should // be drawn by the tree. FOnAdvancedHeaderDraw: TVTAdvancedHeaderPaintEvent; // Used when owner draw is enabled for the header and a column // is set to owner draw mode. But only if OnHeaderDrawQueryElements // returns at least one element to be drawn by the application. // In this case OnHeaderDraw is not used. FOnGetLineStyle: TVTGetLineStyleEvent; // triggered when a custom line style is used and the pattern brush // needs to be build FOnPaintBackground: TVTBackgroundPaintEvent; // triggered if a part of the tree's background must be erased which is // not covered by any node FOnMeasureItem: TVTMeasureItemEvent; // Triggered when a node is about to be drawn and its height was not yet // determined by the application. // drag'n drop events FOnCreateDragManager: TVTCreateDragManagerEvent; // called to allow for app./descendant defined drag managers FOnCreateDataObject: TVTCreateDataObjectEvent; // called to allow for app./descendant defined data objects FOnDragAllowed: TVTDragAllowedEvent; // used to get permission for manual drag in mouse down FOnDragOver: TVTDragOverEvent; // called for every mouse move FOnDragDrop: TVTDragDropEvent; // called on release of mouse button (if drop was allowed) FOnHeaderDragged: TVTHeaderDraggedEvent; // header (column) drag'n drop FOnHeaderDraggedOut: TVTHeaderDraggedOutEvent; // header (column) drag'n drop, which did not result in a valid drop. FOnHeaderDragging: TVTHeaderDraggingEvent; // header (column) drag'n drop FOnRenderOLEData: TVTRenderOLEDataEvent; // application/descendant defined clipboard formats FOnGetUserClipboardFormats: TVTGetUserClipboardFormatsEvent; // gives application/descendants the opportunity to // add own clipboard formats on the fly // miscellanous events FOnGetNodeDataSize: TVTGetNodeDataSizeEvent; // Called if NodeDataSize is -1. FOnKeyAction: TVTKeyActionEvent; // Used to selectively prevent key actions (full expand on Ctrl+'+' etc.). FOnScroll: TVTScrollEvent; // Called when one or both paint offsets changed. FOnUpdating: TVTUpdatingEvent; // Called from BeginUpdate, EndUpdate, BeginSynch and EndSynch. FOnGetCursor: TVTGetCursorEvent; // Called to allow the app. to set individual cursors. FOnStateChange: TVTStateChangeEvent; // Called whenever a state in the tree changes. FOnGetCellIsEmpty: TVTGetCellIsEmptyEvent; // Called when the tree needs to know if a cell is empty. FOnShowScrollbar: TVTScrollbarShowEvent; // Called when a scrollbar is changed in its visibility. // search, sort FOnCompareNodes: TVTCompareEvent; // used during sort FOnIncrementalSearch: TVTIncrementalSearchEvent; // triggered on every key press (not key down) procedure AdjustCoordinatesByIndent(var PaintInfo: TVTPaintInfo; Indent: Integer); procedure AdjustImageBorder(ImageWidth, ImageHeight: Integer; BidiMode: TBidiMode; VAlign: Integer; var R: TRect; var ImageInfo: TVTImageInfo); procedure AdjustTotalCount(Node: PVirtualNode; Value: Integer; relative: Boolean = False); procedure AdjustTotalHeight(Node: PVirtualNode; Value: Integer; relative: Boolean = False); function CalculateCacheEntryCount: Integer; procedure CalculateVerticalAlignments(ShowImages, ShowStateImages: Boolean; Node: PVirtualNode; var VAlign, VButtonAlign: Integer); function ChangeCheckState(Node: PVirtualNode; Value: TCheckState): Boolean; function CollectSelectedNodesLTR(MainColumn, NodeLeft, NodeRight: Integer; Alignment: TAlignment; OldRect, NewRect: TRect): Boolean; function CollectSelectedNodesRTL(MainColumn, NodeLeft, NodeRight: Integer; Alignment: TAlignment; OldRect, NewRect: TRect): Boolean; procedure ClearNodeBackground(const PaintInfo: TVTPaintInfo; UseBackground, Floating: Boolean; R: TRect); function CompareNodePositions(Node1, Node2: PVirtualNode): Integer; procedure DrawLineImage(const PaintInfo: TVTPaintInfo; X, Y, H, VAlign: Integer; Style: TVTLineType; Reverse: Boolean); function FindInPositionCache(Node: PVirtualNode; var CurrentPos: Cardinal): PVirtualNode; overload; function FindInPositionCache(Position: Cardinal; var CurrentPos: Cardinal): PVirtualNode; overload; procedure FixupTotalCount(Node: PVirtualNode); procedure FixupTotalHeight(Node: PVirtualNode); function GetCheckedCount: Integer; function GetCheckState(Node: PVirtualNode): TCheckState; function GetCheckType(Node: PVirtualNode): TCheckType; function GetChildCount(Node: PVirtualNode): Cardinal; function GetChildrenInitialized(Node: PVirtualNode): Boolean; function GetCutCopyCount: Integer; function GetDisabled(Node: PVirtualNode): Boolean; function GetDragManager: IVTDragManager; function GetExpanded(Node: PVirtualNode): Boolean; function GetFullyVisible(Node: PVirtualNode): Boolean; function GetHasChildren(Node: PVirtualNode): Boolean; function GetMultiline(Node: PVirtualNode): Boolean; function GetNodeHeight(Node: PVirtualNode): Cardinal; function GetNodeParent(Node: PVirtualNode): PVirtualNode; function GetOffsetXY: TPoint; function GetRootNodeCount: Cardinal; function GetSelected(Node: PVirtualNode): Boolean; function GetTopNode: PVirtualNode; function GetTotalCount: Cardinal; function GetVerticalAlignment(Node: PVirtualNode): Byte; function GetVisible(Node: PVirtualNode): Boolean; function GetVisiblePath(Node: PVirtualNode): Boolean; procedure HandleClickSelection(LastFocused, NewNode: PVirtualNode; Shift: TShiftState; DragPending: Boolean); function HandleDrawSelection(X, Y: Integer): Boolean; function HasVisibleNextSibling(Node: PVirtualNode): Boolean; procedure ImageListChange(Sender: TObject); procedure InitializeFirstColumnValues(var PaintInfo: TVTPaintInfo); function InitializeLineImageAndSelectLevel(Node: PVirtualNode; var LineImage: TLineImage): Integer; procedure InitRootNode(OldSize: Cardinal = 0); procedure InterruptValidation; function IsFirstVisibleChild(Parent, Node: PVirtualNode): Boolean; function IsLastVisibleChild(Parent, Node: PVirtualNode): Boolean; procedure LimitPaintingToArea(Canvas: TCanvas; ClipRect: TRect; VisibleRegion: HRGN = 0); //lcl procedure LoadPanningCursors; function MakeNewNode: PVirtualNode; function PackArrayAsm(TheArray: TNodeArray; Count: Integer): Integer; function PackArray(TheArray: TNodeArray; Count: Integer): Integer; procedure PrepareBitmaps(NeedButtons, NeedLines: Boolean); procedure PrepareCell(var PaintInfo: TVTPaintInfo; WindowOrgX, MaxWidth: Integer); procedure ReadOldOptions(Reader: TReader); procedure SetAlignment(const Value: TAlignment); procedure SetAnimationDuration(const Value: Cardinal); procedure SetBackground(const Value: TPicture); procedure SetBackgroundOffset(const Index, Value: Integer); //procedure SetBorderStyle(Value: TBorderStyle); procedure SetBottomSpace(const Value: Cardinal); procedure SetButtonFillMode(const Value: TVTButtonFillMode); procedure SetButtonStyle(const Value: TVTButtonStyle); procedure SetCheckImageKind(Value: TCheckImageKind); procedure SetCheckState(Node: PVirtualNode; Value: TCheckState); procedure SetCheckType(Node: PVirtualNode; Value: TCheckType); procedure SetChildCount(Node: PVirtualNode; NewChildCount: Cardinal); procedure SetClipboardFormats(const Value: TClipboardFormats); procedure SetColors(const Value: TVTColors); procedure SetCustomCheckImages(const Value: TBitmap); procedure SetDefaultNodeHeight(Value: Cardinal); procedure SetDisabled(Node: PVirtualNode; Value: Boolean); procedure SetExpanded(Node: PVirtualNode; Value: Boolean); procedure SetFocusedColumn(Value: TColumnIndex); procedure SetFocusedNode(Value: PVirtualNode); procedure SetFullyVisible(Node: PVirtualNode; Value: Boolean); procedure SetHasChildren(Node: PVirtualNode; Value: Boolean); procedure SetHeader(const Value: TVTHeader); procedure SetImages(const Value: TCustomImageList); procedure SetIndent(Value: Cardinal); procedure SetLineMode(const Value: TVTLineMode); procedure SetLineStyle(const Value: TVTLineStyle); procedure SetMargin(Value: Integer); procedure SetMultiline(Node: PVirtualNode; const Value: Boolean); procedure SetNodeAlignment(const Value: TVTNodeAlignment); procedure SetNodeDataSize(Value: Integer); procedure SetNodeHeight(Node: PVirtualNode; Value: Cardinal); procedure SetNodeParent(Node: PVirtualNode; const Value: PVirtualNode); procedure SetOffsetX(const Value: Integer); procedure SetOffsetXY(const Value: TPoint); procedure SetOffsetY(const Value: Integer); procedure SetOptions(const Value: TCustomVirtualTreeOptions); procedure SetRootNodeCount(Value: Cardinal); procedure SetScrollBarOptions(Value: TScrollBarOptions); procedure SetSearchOption(const Value: TVTIncrementalSearch); procedure SetSelected(Node: PVirtualNode; Value: Boolean); procedure SetSelectionCurveRadius(const Value: Cardinal); procedure SetStateImages(const Value: TCustomImageList); procedure SetTextMargin(Value: Integer); procedure SetTopNode(Node: PVirtualNode); procedure SetUpdateState(Updating: Boolean); procedure SetVerticalAlignment(Node: PVirtualNode; Value: Byte); procedure SetVisible(Node: PVirtualNode; Value: Boolean); procedure SetVisiblePath(Node: PVirtualNode; Value: Boolean); procedure StaticBackground(Source: TBitmap; Target: TCanvas; Offset: TPoint; R: TRect); procedure TileBackground(Source: TBitmap; Target: TCanvas; Offset: TPoint; R: TRect); function ToggleCallback(Step, StepSize: Integer; Data: Pointer): Boolean; procedure CMColorChange(var Message: TLMessage); message CM_COLORCHANGED; procedure CMCtl3DChanged(var Message: TLMessage); message CM_CTL3DCHANGED; procedure CMBiDiModeChanged(var Message: TLMessage); message CM_BIDIMODECHANGED; procedure CMDenySubclassing(var Message: TLMessage); message CM_DENYSUBCLASSING; //procedure CMDrag(var Message: TCMDrag); message CM_DRAG; procedure CMEnabledChanged(var Message: TLMessage); message CM_ENABLEDCHANGED; procedure CMFontChanged(var Message: TLMessage); message CM_FONTCHANGED; procedure CMHintShow(var Message: TCMHintShow); message CM_HINTSHOW; procedure CMHintShowPause(var Message: TCMHintShowPause); message CM_HINTSHOWPAUSE; procedure CMMouseLeave(var Message: TLMessage); message CM_MOUSELEAVE; procedure CMMouseWheel(var Message: TLMMouseEvent); message LM_MOUSEWHEEL; procedure CMSysColorChange(var Message: TLMessage); message CM_SYSCOLORCHANGE; {$ifdef EnableNativeTVM} procedure TVMGetItem(var Message: TLMessage); message TVM_GETITEM; procedure TVMGetItemRect(var Message: TLMessage); message TVM_GETITEMRECT; procedure TVMGetNextItem(var Message: TLMessage); message TVM_GETNEXTITEM; {$endif} procedure WMCancelMode(var Message: TLMNoParams); message LM_CANCELMODE; procedure WMChangeState(var Message: TLMessage); message WM_CHANGESTATE; procedure WMChar(var Message: TLMChar); message LM_CHAR; procedure WMContextMenu(var Message: TLMContextMenu); message LM_CONTEXTMENU; procedure WMCopy(var Message: TLMNoParams); message LM_COPYTOCLIP; procedure WMCut(var Message: TLMNoParams); message LM_CUTTOCLIP; procedure WMEnable(var Message: TLMNoParams); message LM_ENABLE; procedure WMEraseBkgnd(var Message: TLMEraseBkgnd); message LM_ERASEBKGND; procedure WMGetDlgCode(var Message: TLMNoParams); message LM_GETDLGCODE; {$ifdef EnableAccessible} procedure WMGetObject(var Message: TLMessage);{ message WM_GETOBJECT;} {$endif} procedure WMHScroll(var Message: TLMHScroll); message LM_HSCROLL; procedure WMKeyDown(var Message: TLMKeyDown); message LM_KEYDOWN; procedure WMKeyUp(var Message: TLMKeyUp); message LM_KEYUP; procedure WMKillFocus(var Msg: TLMKillFocus); message LM_KILLFOCUS; procedure WMLButtonDblClk(var Message: TLMLButtonDblClk); message LM_LBUTTONDBLCLK; procedure WMLButtonDown(var Message: TLMLButtonDown); message LM_LBUTTONDOWN; procedure WMLButtonUp(var Message: TLMLButtonUp); message LM_LBUTTONUP; procedure WMMButtonDblClk(var Message: TLMMButtonDblClk); message LM_MBUTTONDBLCLK; procedure WMMButtonDown(var Message: TLMMButtonDown); message LM_MBUTTONDOWN; procedure WMMButtonUp(var Message: TLMMButtonUp); message LM_MBUTTONUP; {$ifdef EnableNCFunctions} procedure WMNCCalcSize(var Message: TWMNCCalcSize); message WM_NCCALCSIZE; procedure WMNCHitTest(var Message: TWMNCHitTest); message WM_NCHITTEST; procedure WMNCPaint(var Message: TRealWMNCPaint); message WM_NCPAINT; {$endif} procedure WMPaint(var Message: TLMPaint); message LM_PAINT; procedure WMPaste(var Message: TLMNoParams); message LM_PASTEFROMCLIP; {$ifdef EnablePrintFunctions} procedure WMPrint(var Message: TWMPrint); message WM_PRINT; procedure WMPrintClient(var Message: TWMPrintClient); message WM_PRINTCLIENT; {$endif} procedure WMRButtonDblClk(var Message: TLMRButtonDblClk); message LM_RBUTTONDBLCLK; procedure WMRButtonDown(var Message: TLMRButtonDown); message LM_RBUTTONDOWN; procedure WMRButtonUp(var Message: TLMRButtonUp); message LM_RBUTTONUP; procedure WMSetFocus(var Msg: TLMSetFocus); message LM_SETFOCUS; procedure WMSize(var Message: TLMSize); message LM_SIZE; procedure WMTimer(var Message: TLMTimer); message LM_TIMER; {$ifdef ThemeSupport} procedure WMThemeChanged(var Message: TLMessage); message WM_THEMECHANGED; {$endif ThemeSupport} procedure WMVScroll(var Message: TLMVScroll); message LM_VSCROLL; protected procedure AddToSelection(Node: PVirtualNode); overload; virtual; procedure AddToSelection(const NewItems: TNodeArray; NewLength: Integer; ForceInsert: Boolean = False); overload; virtual; procedure AdjustPaintCellRect(var PaintInfo: TVTPaintInfo; var NextNonEmpty: TColumnIndex); virtual; procedure AdjustPanningCursor(X, Y: Integer); virtual; procedure AdviseChangeEvent(StructureChange: Boolean; Node: PVirtualNode; Reason: TChangeReason); virtual; function AllocateInternalDataArea(Size: Cardinal): Cardinal; virtual; procedure Animate(Steps, Duration: Cardinal; Callback: TVTAnimationCallback; Data: Pointer); virtual; function CalculateSelectionRect(X, Y: Integer): Boolean; virtual; function CanAutoScroll: Boolean; virtual; function CanEdit(Node: PVirtualNode; Column: TColumnIndex): Boolean; virtual; function CanShowDragImage: Boolean; virtual; procedure Change(Node: PVirtualNode); virtual; procedure ChangeScale(M, D: Integer); override; function CheckParentCheckState(Node: PVirtualNode; NewCheckState: TCheckState): Boolean; virtual; procedure ClearTempCache; virtual; function ColumnIsEmpty(Node: PVirtualNode; Column: TColumnIndex): Boolean; virtual; function ComputeRTLOffset(ExcludeScrollbar: Boolean = False): Integer; virtual; function CountLevelDifference(Node1, Node2: PVirtualNode): Integer; virtual; function CountVisibleChildren(Node: PVirtualNode): Cardinal; virtual; procedure CreateParams(var Params: TCreateParams); override; procedure CreateWnd; override; procedure DefineProperties(Filer: TFiler); override; procedure DestroyHandle; override; procedure DetermineHiddenChildrenFlag(Node: PVirtualNode); virtual; procedure DetermineHiddenChildrenFlagAllNodes; virtual; procedure DetermineHitPositionLTR(var HitInfo: THitInfo; Offset, Right: Integer; Alignment: TAlignment); virtual; procedure DetermineHitPositionRTL(var HitInfo: THitInfo; Offset, Right: Integer; Alignment: TAlignment); virtual; function DetermineNextCheckState(CheckType: TCheckType; CheckState: TCheckState): TCheckState; virtual; function DetermineScrollDirections(X, Y: Integer): TScrollDirections; virtual; procedure DoAdvancedHeaderDraw(var PaintInfo: THeaderPaintInfo; const Elements: THeaderPaintElements); virtual; procedure DoAfterCellPaint(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; CellRect: TRect); virtual; procedure DoAfterItemErase(Canvas: TCanvas; Node: PVirtualNode; ItemRect: TRect); virtual; procedure DoAfterItemPaint(Canvas: TCanvas; Node: PVirtualNode; ItemRect: TRect); virtual; procedure DoAfterPaint(Canvas: TCanvas); virtual; procedure DoAutoScroll(X, Y: Integer); virtual; procedure DoAutoSize; override; function DoBeforeDrag(Node: PVirtualNode; Column: TColumnIndex): Boolean; virtual; procedure DoBeforeCellPaint(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; CellRect: TRect); virtual; procedure DoBeforeItemErase(Canvas: TCanvas; Node: PVirtualNode; ItemRect: TRect; var Color: TColor; var EraseAction: TItemEraseAction); virtual; function DoBeforeItemPaint(Canvas: TCanvas; Node: PVirtualNode; ItemRect: TRect): Boolean; virtual; procedure DoBeforePaint(Canvas: TCanvas); virtual; function DoCancelEdit: Boolean; virtual; procedure DoCanEdit(Node: PVirtualNode; Column: TColumnIndex; var Allowed: Boolean); virtual; procedure DoChange(Node: PVirtualNode); virtual; procedure DoCheckClick(Node: PVirtualNode; NewCheckState: TCheckState); virtual; procedure DoChecked(Node: PVirtualNode); virtual; function DoChecking(Node: PVirtualNode; var NewCheckState: TCheckState): Boolean; virtual; procedure DoCollapsed(Node: PVirtualNode); virtual; function DoCollapsing(Node: PVirtualNode): Boolean; virtual; procedure DoColumnClick(Column: TColumnIndex; Shift: TShiftState); virtual; procedure DoColumnDblClick(Column: TColumnIndex; Shift: TShiftState); virtual; procedure DoColumnResize(Column: TColumnIndex); virtual; function DoCompare(Node1, Node2: PVirtualNode; Column: TColumnIndex): Integer; virtual; function DoCreateDataObject: IDataObject; virtual; function DoCreateDragManager: IVTDragManager; virtual; function DoCreateEditor(Node: PVirtualNode; Column: TColumnIndex): IVTEditLink; virtual; procedure DoDragging(P: TPoint); virtual; procedure DoDragExpand; virtual; function DoDragMsg(ADragMessage: TDragMessage; APosition: TPoint; ADragObject: TDragObject; ATarget: TControl; ADocking: Boolean): LRESULT; override; function DoDragOver(Source: TObject; Shift: TShiftState; State: TDragState; Pt: TPoint; Mode: TDropMode; var Effect: LongWord): Boolean; virtual; procedure DoDragDrop(Source: TObject; DataObject: IDataObject; Formats: TFormatArray; Shift: TShiftState; Pt: TPoint; var Effect: LongWord; Mode: TDropMode); virtual; procedure DoEdit; virtual; procedure DoEndDrag(Target: TObject; X, Y: Integer); override; function DoEndEdit: Boolean; virtual; procedure DoExpanded(Node: PVirtualNode); virtual; function DoExpanding(Node: PVirtualNode): Boolean; virtual; procedure DoFocusChange(Node: PVirtualNode; Column: TColumnIndex); virtual; function DoFocusChanging(OldNode, NewNode: PVirtualNode; OldColumn, NewColumn: TColumnIndex): Boolean; virtual; procedure DoFocusNode(Node: PVirtualNode; Ask: Boolean); virtual; procedure DoFreeNode(Node: PVirtualNode); virtual; function DoGetAnimationType: THintAnimationType; virtual; procedure DoGetCursor(var Cursor: TCursor); virtual; procedure DoGetHeaderCursor(var Cursor: HCURSOR); virtual; function DoGetImageIndex(Node: PVirtualNode; Kind: TVTImageKind; Column: TColumnIndex; var Ghosted: Boolean; var Index: Integer): TCustomImageList; virtual; procedure DoGetLineStyle(var Bits: Pointer); virtual; function DoGetNodeHint(Node: PVirtualNode; Column: TColumnIndex; var LineBreakStyle: TVTTooltipLineBreakStyle): WideString; virtual; function DoGetNodeTooltip(Node: PVirtualNode; Column: TColumnIndex; var LineBreakStyle: TVTTooltipLineBreakStyle): WideString; virtual; function DoGetNodeWidth(Node: PVirtualNode; Column: TColumnIndex; Canvas: TCanvas = nil): Integer; virtual; function DoGetPopupMenu(Node: PVirtualNode; Column: TColumnIndex; Position: TPoint): TPopupMenu; virtual; procedure DoGetUserClipboardFormats(var Formats: TFormatEtcArray); virtual; procedure DoHeaderClick(Column: TColumnIndex; Button: TMouseButton; Shift: TShiftState; X, Y: Integer); virtual; procedure DoHeaderDblClick(Column: TColumnIndex; Button: TMouseButton; Shift: TShiftState; X, Y: Integer); virtual; procedure DoHeaderDragged(Column: TColumnIndex; OldPosition: TColumnPosition); virtual; procedure DoHeaderDraggedOut(Column: TColumnIndex; DropPosition: TPoint); virtual; function DoHeaderDragging(Column: TColumnIndex): Boolean; virtual; procedure DoHeaderDraw(Canvas: TCanvas; Column: TVirtualTreeColumn; R: TRect; Hover, Pressed: Boolean; DropMark: TVTDropMarkMode); virtual; procedure DoHeaderDrawQueryElements(var PaintInfo: THeaderPaintInfo; var Elements: THeaderPaintElements); virtual; procedure DoHeaderMouseDown(Button: TMouseButton; Shift: TShiftState; X, Y: Integer); virtual; procedure DoHeaderMouseMove(Shift: TShiftState; X, Y: Integer); virtual; procedure DoHeaderMouseUp(Button: TMouseButton; Shift: TShiftState; X, Y: Integer); virtual; procedure DoHotChange(Old, New: PVirtualNode); virtual; function DoIncrementalSearch(Node: PVirtualNode; const Text: WideString): Integer; virtual; procedure DoInitChildren(Node: PVirtualNode; var ChildCount: Cardinal); virtual; procedure DoInitNode(Parent, Node: PVirtualNode; var InitStates: TVirtualNodeInitStates); virtual; function DoKeyAction(var CharCode: Word; var Shift: TShiftState): Boolean; virtual; procedure DoLoadUserData(Node: PVirtualNode; Stream: TStream); virtual; procedure DoMeasureItem(TargetCanvas: TCanvas; Node: PVirtualNode; var NodeHeight: Integer); virtual; procedure DoNodeCopied(Node: PVirtualNode); virtual; function DoNodeCopying(Node, NewParent: PVirtualNode): Boolean; virtual; procedure DoNodeMoved(Node: PVirtualNode); virtual; function DoNodeMoving(Node, NewParent: PVirtualNode): Boolean; virtual; function DoPaintBackground(Canvas: TCanvas; R: TRect): Boolean; virtual; procedure DoPaintDropMark(Canvas: TCanvas; Node: PVirtualNode; R: TRect); virtual; procedure DoPaintNode(var PaintInfo: TVTPaintInfo); virtual; procedure DoPopupMenu(Node: PVirtualNode; Column: TColumnIndex; Position: TPoint); virtual; function DoRenderOLEData(const FormatEtcIn: TFormatEtc; out Medium: TStgMedium; ForClipboard: Boolean): HRESULT; virtual; procedure DoReset(Node: PVirtualNode); virtual; procedure DoSaveUserData(Node: PVirtualNode; Stream: TStream); virtual; procedure DoScroll(DeltaX, DeltaY: Integer); virtual; function DoSetOffsetXY(Value: TPoint; Options: TScrollUpdateOptions; ClipRect: PRect = nil): Boolean; virtual; procedure DoShowScrollbar(Bar: Integer; Show: Boolean); virtual; procedure DoStartDrag(var DragObject: TDragObject); override; procedure DoStateChange(Enter: TVirtualTreeStates; Leave: TVirtualTreeStates = []); virtual; procedure DoStructureChange(Node: PVirtualNode; Reason: TChangeReason); virtual; procedure DoTimerScroll; virtual; procedure DoUpdating(State: TVTUpdateState); virtual; function DoValidateCache: Boolean; virtual; procedure DragAndDrop(AllowedEffects: Integer; DataObject: IDataObject; DragEffect: Integer); virtual; procedure DragCanceled; override; function DragDrop(const DataObject: IDataObject; KeyState: Integer; Pt: TPoint; var Effect: LongWord): HResult; reintroduce; virtual; function DragEnter(KeyState: Integer; Pt: TPoint; var Effect: LongWord): HResult; virtual; procedure DragFinished; virtual; procedure DragLeave; virtual; function DragOver(Source: TObject; KeyState: Integer; DragState: TDragState; Pt: TPoint; var Effect: LongWord): HResult; reintroduce; virtual; procedure DrawDottedHLine(const PaintInfo: TVTPaintInfo; Left, Right, Top: Integer); virtual; procedure DrawDottedVLine(const PaintInfo: TVTPaintInfo; Top, Bottom, Left: Integer); virtual; function FindNodeInSelection(P: PVirtualNode; var Index: Integer; LowBound, HighBound: Integer): Boolean; virtual; procedure FinishChunkHeader(Stream: TStream; StartPos, EndPos: Integer); virtual; procedure FontChanged(AFont: TObject); virtual; function GetBorderDimensions: TSize; virtual; function GetCheckImage(Node: PVirtualNode): Integer; virtual; procedure GetCheckImageList; virtual; function GetClientRect: TRect; override; function GetColumnClass: TVirtualTreeColumnClass; virtual; function GetHeaderClass: TVTHeaderClass; virtual; function GetHintWindowClass: THintWindowClass; virtual; procedure GetImageIndex(var Info: TVTPaintInfo; Kind: TVTImageKind; InfoIndex: TVTImageInfoIndex; DefaultImages: TCustomImageList); virtual; function GetMaxRightExtend: Cardinal; virtual; procedure GetNativeClipboardFormats(var Formats: TFormatEtcArray); virtual; function GetOptionsClass: TTreeOptionsClass; virtual; function GetTreeFromDataObject(const DataObject: IDataObject): TBaseVirtualTree; virtual; procedure HandleHotTrack(X, Y: Integer); virtual; procedure HandleIncrementalSearch(CharCode: Word); virtual; procedure HandleMouseDblClick(var Message: TLMMouse; const HitInfo: THitInfo); virtual; procedure HandleMouseDown(var Message: TLMMouse; const HitInfo: THitInfo); virtual; procedure HandleMouseUp(var Message: TLMMouse; const HitInfo: THitInfo); virtual; function HasImage(Node: PVirtualNode; Kind: TVTImageKind; Column: TColumnIndex): Boolean; virtual; function HasPopupMenu(Node: PVirtualNode; Column: TColumnIndex; Pos: TPoint): Boolean; virtual; procedure InitChildren(Node: PVirtualNode); virtual; procedure InitNode(Node: PVirtualNode); virtual; procedure InternalAddFromStream(Stream: TStream; Version: Integer; Node: PVirtualNode); virtual; function InternalAddToSelection(Node: PVirtualNode; ForceInsert: Boolean): Boolean; overload; function InternalAddToSelection(const NewItems: TNodeArray; NewLength: Integer; ForceInsert: Boolean): Boolean; overload; procedure InternalCacheNode(Node: PVirtualNode); virtual; procedure InternalClearSelection; virtual; procedure InternalConnectNode(Node, Destination: PVirtualNode; Target: TBaseVirtualTree; Mode: TVTNodeAttachMode); virtual; function InternalData(Node: PVirtualNode): Pointer; procedure InternalDisconnectNode(Node: PVirtualNode; KeepFocus: Boolean; Reindex: Boolean = True); virtual; procedure InternalRemoveFromSelection(Node: PVirtualNode); virtual; procedure InvalidateCache; procedure Loaded; override; procedure MainColumnChanged; virtual; procedure MarkCutCopyNodes; virtual; procedure MouseMove(Shift: TShiftState; X, Y: Integer); override; procedure Notification(AComponent: TComponent; Operation: TOperation); override; {$ifdef EnableNCFunctions} procedure OriginalWMNCPaint(DC: HDC); virtual; {$endif} procedure Paint; override; procedure PaintCheckImage(const PaintInfo: TVTPaintInfo); virtual; procedure PaintImage(var PaintInfo: TVTPaintInfo; ImageInfoIndex: TVTImageInfoIndex; DoOverlay: Boolean); virtual; procedure PaintNodeButton(Canvas: TCanvas; Node: PVirtualNode; const R: TRect; ButtonX, ButtonY: Integer; BidiMode: TBiDiMode); virtual; procedure PaintTreeLines(const PaintInfo: TVTPaintInfo; VAlignment, IndentSize: Integer; LineImage: TLineImage); virtual; procedure PaintSelectionRectangle(Target: TCanvas; WindowOrgX: Integer; const SelectionRect: TRect; TargetRect: TRect); virtual; function ReadChunk(Stream: TStream; Version: Integer; Node: PVirtualNode; ChunkType, ChunkSize: Integer): Boolean; virtual; procedure ReadNode(Stream: TStream; Version: Integer; Node: PVirtualNode); virtual; procedure RedirectFontChangeEvent(Canvas: TCanvas); virtual; procedure RemoveFromSelection(Node: PVirtualNode); virtual; function RenderOLEData(const FormatEtcIn: TFormatEtc; out Medium: TStgMedium; ForClipboard: Boolean): HResult; virtual; procedure ResetRangeAnchor; virtual; procedure RestoreFontChangeEvent(Canvas: TCanvas); virtual; procedure SelectNodes(StartNode, EndNode: PVirtualNode; AddOnly: Boolean); virtual; procedure SetFocusedNodeAndColumn(Node: PVirtualNode; Column: TColumnIndex); virtual; procedure SkipNode(Stream: TStream); virtual; procedure StartWheelPanning(Position: TPoint); virtual; procedure StopWheelPanning; virtual; procedure StructureChange(Node: PVirtualNode; Reason: TChangeReason); virtual; function SuggestDropEffect(Source: TObject; Shift: TShiftState; Pt: TPoint; AllowedEffects: Integer): Integer; virtual; procedure ToggleSelection(StartNode, EndNode: PVirtualNode); virtual; procedure UnselectNodes(StartNode, EndNode: PVirtualNode); virtual; procedure UpdateDesigner; virtual; procedure UpdateEditBounds; virtual; procedure UpdateHeaderRect; virtual; procedure UpdateWindowAndDragImage(const Tree: TBaseVirtualTree; TreeRect: TRect; UpdateNCArea, ReshowDragImage: Boolean); virtual; procedure ValidateCache; virtual; procedure ValidateNodeDataSize(var Size: Integer); virtual; procedure WndProc(var Message: TLMessage); override; procedure WriteChunks(Stream: TStream; Node: PVirtualNode); virtual; procedure WriteNode(Stream: TStream; Node: PVirtualNode); virtual; property Alignment: TAlignment read FAlignment write SetAlignment default taLeftJustify; property AnimationDuration: Cardinal read FAnimationDuration write SetAnimationDuration default 200; property AutoExpandDelay: Cardinal read FAutoExpandDelay write FAutoExpandDelay default 1000; property AutoScrollDelay: Cardinal read FAutoScrollDelay write FAutoScrollDelay default 1000; property AutoScrollInterval: TAutoScrollInterval read FAutoScrollInterval write FAutoScrollInterval default 1; property Background: TPicture read FBackground write SetBackground; property BackgroundOffsetX: Integer index 0 read FBackgroundOffsetX write SetBackgroundOffset default 0; property BackgroundOffsetY: Integer index 1 read FBackgroundOffsetY write SetBackgroundOffset default 0; //property BorderStyle: TBorderStyle read FBorderStyle write SetBorderStyle default bsSingle; property BottomSpace: Cardinal read FBottomSpace write SetBottomSpace default 0; property ButtonFillMode: TVTButtonFillMode read FButtonFillMode write SetButtonFillMode default fmTreeColor; property ButtonStyle: TVTButtonStyle read FButtonStyle write SetButtonStyle default bsRectangle; property ChangeDelay: Cardinal read FChangeDelay write FChangeDelay default 0; property CheckImageKind: TCheckImageKind read FCheckImageKind write SetCheckImageKind default ckLightCheck; property ClipboardFormats: TClipboardFormats read FClipboardFormats write SetClipboardFormats; property Colors: TVTColors read FColors write SetColors; property CustomCheckImages: TBitmap read FCustomCheckImages write SetCustomCheckImages; property DefaultNodeHeight: Cardinal read FDefaultNodeHeight write SetDefaultNodeHeight default 18; property DefaultPasteMode: TVTNodeAttachMode read FDefaultPasteMode write FDefaultPasteMode default amAddChildLast; property DragHeight: Integer read FDragHeight write FDragHeight default 350; property DragImageKind: TVTDragImageKind read FDragImageKind write FDragImageKind default diComplete; property DragOperations: TDragOperations read FDragOperations write FDragOperations default [doCopy, doMove]; property DragSelection: TNodeArray read FDragSelection; property DragType: TVTDragType read FDragType write FDragType default dtOLE; property DragWidth: Integer read FDragWidth write FDragWidth default 200; property DrawSelectionMode: TVTDrawSelectionMode read FDrawSelectionMode write FDrawSelectionMode default smDottedRectangle; property EditColumn: TColumnIndex read FEditColumn write FEditColumn; property EditDelay: Cardinal read FEditDelay write FEditDelay default 1000; property Header: TVTHeader read FHeader write SetHeader; property HeaderRect: TRect read FHeaderRect; property HintAnimation: THintAnimationType read FAnimationType write FAnimationType default hatSystemDefault; property HintMode: TVTHintMode read FHintMode write FHintMode default hmDefault; property HotCursor: TCursor read FHotCursor write FHotCursor default crDefault; property Images: TCustomImageList read FImages write SetImages; property IncrementalSearch: TVTIncrementalSearch read FIncrementalSearch write SetSearchOption default isNone; property IncrementalSearchDirection: TVTSearchDirection read FSearchDirection write FSearchDirection default sdForward; property IncrementalSearchStart: TVTSearchStart read FSearchStart write FSearchStart default ssFocusedNode; property IncrementalSearchTimeout: Cardinal read FSearchTimeout write FSearchTimeout default 1000; property Indent: Cardinal read FIndent write SetIndent default 18; property LastClickPos: TPoint read FLastClickPos write FLastClickPos; property LastDropMode: TDropMode read FLastDropMode write FlastDropMode; property LineMode: TVTLineMode read FLineMode write SetLineMode default lmNormal; property LineStyle: TVTLineStyle read FLineStyle write SetLineStyle default lsDotted; property Margin: Integer read FMargin write SetMargin default 4; property NodeAlignment: TVTNodeAlignment read FNodeAlignment write SetNodeAlignment default naProportional; property NodeDataSize: Integer read FNodeDataSize write SetNodeDataSize default -1; property RootNodeCount: Cardinal read GetRootNodeCount write SetRootNodeCount default 0; property ScrollBarOptions: TScrollBarOptions read FScrollBarOptions write SetScrollBarOptions; property SelectionBlendFactor: Byte read FSelectionBlendFactor write FSelectionBlendFactor default 128; property SelectionCurveRadius: Cardinal read FSelectionCurveRadius write SetSelectionCurveRadius default 0; property StateImages: TCustomImageList read FStateImages write SetStateImages; property TextMargin: Integer read FTextMargin write SetTextMargin default 4; property TotalInternalDataSize: Cardinal read FTotalInternalDataSize; property TreeOptions: TCustomVirtualTreeOptions read FOptions write SetOptions; property WantTabs: Boolean read FWantTabs write FWantTabs default False; property OnAdvancedHeaderDraw: TVTAdvancedHeaderPaintEvent read FOnAdvancedHeaderDraw write FOnAdvancedHeaderDraw; property OnAfterCellPaint: TVTAfterCellPaintEvent read FOnAfterCellPaint write FOnAfterCellPaint; property OnAfterItemErase: TVTAfterItemEraseEvent read FOnAfterItemErase write FOnAfterItemErase; property OnAfterItemPaint: TVTAfterItemPaintEvent read FOnAfterItemPaint write FOnAfterItemPaint; property OnAfterPaint: TVTPaintEvent read FOnAfterPaint write FOnAfterPaint; property OnBeforeCellPaint: TVTBeforeCellPaintEvent read FOnBeforeCellPaint write FOnBeforeCellPaint; property OnBeforeItemErase: TVTBeforeItemEraseEvent read FOnBeforeItemErase write FOnBeforeItemErase; property OnBeforeItemPaint: TVTBeforeItemPaintEvent read FOnBeforeItemPaint write FOnBeforeItemPaint; property OnBeforePaint: TVTPaintEvent read FOnBeforePaint write FOnBeforePaint; property OnChange: TVTChangeEvent read FOnChange write FOnChange; property OnChecked: TVTChangeEvent read FOnChecked write FOnChecked; property OnChecking: TVTCheckChangingEvent read FOnChecking write FOnChecking; property OnCollapsed: TVTChangeEvent read FOnCollapsed write FOnCollapsed; property OnCollapsing: TVTChangingEvent read FOnCollapsing write FOnCollapsing; property OnColumnClick: TVTColumnClickEvent read FOnColumnClick write FOnColumnClick; property OnColumnDblClick: TVTColumnDblClickEvent read FOnColumnDblClick write FOnColumnDblClick; property OnColumnResize: TVTHeaderNotifyEvent read FOnColumnResize write FOnColumnResize; property OnCompareNodes: TVTCompareEvent read FOnCompareNodes write FOnCompareNodes; property OnCreateDataObject: TVTCreateDataObjectEvent read FOnCreateDataObject write FOnCreateDataObject; property OnCreateDragManager: TVTCreateDragManagerEvent read FOnCreateDragManager write FOnCreateDragManager; property OnCreateEditor: TVTCreateEditorEvent read FOnCreateEditor write FOnCreateEditor; property OnDragAllowed: TVTDragAllowedEvent read FOnDragAllowed write FOnDragAllowed; property OnDragOver: TVTDragOverEvent read FOnDragOver write FOnDragOver; property OnDragDrop: TVTDragDropEvent read FOnDragDrop write FOnDragDrop; property OnEditCancelled: TVTEditCancelEvent read FOnEditCancelled write FOnEditCancelled; property OnEditing: TVTEditChangingEvent read FOnEditing write FOnEditing; property OnEdited: TVTEditChangeEvent read FOnEdited write FOnEdited; property OnExpanded: TVTChangeEvent read FOnExpanded write FOnExpanded; property OnExpanding: TVTChangingEvent read FOnExpanding write FOnExpanding; property OnFocusChanged: TVTFocusChangeEvent read FOnFocusChanged write FOnFocusChanged; property OnFocusChanging: TVTFocusChangingEvent read FOnFocusChanging write FOnFocusChanging; property OnFreeNode: TVTFreeNodeEvent read FOnFreeNode write FOnFreeNode; property OnGetCellIsEmpty: TVTGetCellIsEmptyEvent read FOnGetCellIsEmpty write FOnGetCellIsEmpty; property OnGetCursor: TVTGetCursorEvent read FOnGetCursor write FOnGetCursor; property OnGetHeaderCursor: TVTGetHeaderCursorEvent read FOnGetHeaderCursor write FOnGetHeaderCursor; property OnGetHelpContext: TVTHelpContextEvent read FOnGetHelpContext write FOnGetHelpContext; property OnGetImageIndex: TVTGetImageEvent read FOnGetImage write FOnGetImage; property OnGetImageIndexEx: TVTGetImageExEvent read FOnGetImageEx write FOnGetImageEx; property OnGetLineStyle: TVTGetLineStyleEvent read FOnGetLineStyle write FOnGetLineStyle; property OnGetNodeDataSize: TVTGetNodeDataSizeEvent read FOnGetNodeDataSize write FOnGetNodeDataSize; property OnGetPopupMenu: TVTPopupEvent read FOnGetPopupMenu write FOnGetPopupMenu; property OnGetUserClipboardFormats: TVTGetUserClipboardFormatsEvent read FOnGetUserClipboardFormats write FOnGetUserClipboardFormats; property OnHeaderClick: TVTHeaderClickEvent read FOnHeaderClick write FOnHeaderClick; property OnHeaderDblClick: TVTHeaderClickEvent read FOnHeaderDblClick write FOnHeaderDblClick; property OnHeaderDragged: TVTHeaderDraggedEvent read FOnHeaderDragged write FOnHeaderDragged; property OnHeaderDraggedOut: TVTHeaderDraggedOutEvent read FOnHeaderDraggedOut write FOnHeaderDraggedOut; property OnHeaderDragging: TVTHeaderDraggingEvent read FOnHeaderDragging write FOnHeaderDragging; property OnHeaderDraw: TVTHeaderPaintEvent read FOnHeaderDraw write FOnHeaderDraw; property OnHeaderDrawQueryElements: TVTHeaderPaintQueryElementsEvent read FOnHeaderDrawQueryElements write FOnHeaderDrawQueryElements; property OnHeaderMouseDown: TVTHeaderMouseEvent read FOnHeaderMouseDown write FOnHeaderMouseDown; property OnHeaderMouseMove: TVTHeaderMouseMoveEvent read FOnHeaderMouseMove write FOnHeaderMouseMove; property OnHeaderMouseUp: TVTHeaderMouseEvent read FOnHeaderMouseUp write FOnHeaderMouseUp; property OnHotChange: TVTHotNodeChangeEvent read FOnHotChange write FOnHotChange; property OnIncrementalSearch: TVTIncrementalSearchEvent read FOnIncrementalSearch write FOnIncrementalSearch; property OnInitChildren: TVTInitChildrenEvent read FOnInitChildren write FOnInitChildren; property OnInitNode: TVTInitNodeEvent read FOnInitNode write FOnInitNode; property OnKeyAction: TVTKeyActionEvent read FOnKeyAction write FOnKeyAction; property OnLoadNode: TVTSaveNodeEvent read FOnLoadNode write FOnLoadNode; property OnMeasureItem: TVTMeasureItemEvent read FOnMeasureItem write FOnMeasureItem; property OnNodeCopied: TVTNodeCopiedEvent read FOnNodeCopied write FOnNodeCopied; property OnNodeCopying: TVTNodeCopyingEvent read FOnNodeCopying write FOnNodeCopying; property OnNodeMoved: TVTNodeMovedEvent read FOnNodeMoved write FOnNodeMoved; property OnNodeMoving: TVTNodeMovingEvent read FOnNodeMoving write FOnNodeMoving; property OnPaintBackground: TVTBackgroundPaintEvent read FOnPaintBackground write FOnPaintBackground; property OnRenderOLEData: TVTRenderOLEDataEvent read FOnRenderOLEData write FOnRenderOLEData; property OnResetNode: TVTChangeEvent read FOnResetNode write FOnResetNode; property OnSaveNode: TVTSaveNodeEvent read FOnSaveNode write FOnSaveNode; property OnScroll: TVTScrollEvent read FOnScroll write FOnScroll; property OnShowScrollbar: TVTScrollbarShowEvent read FOnShowScrollbar write FOnShowScrollbar; property OnStateChange: TVTStateChangeEvent read FOnStateChange write FOnStateChange; property OnStructureChange: TVTStructureChangeEvent read FOnStructureChange write FOnStructureChange; property OnUpdating: TVTUpdatingEvent read FOnUpdating write FOnUpdating; public constructor Create(AOwner: TComponent); override; destructor Destroy; override; function AbsoluteIndex(Node: PVirtualNode): Cardinal; function AddChild(Parent: PVirtualNode; UserData: Pointer = nil): PVirtualNode; procedure AddFromStream(Stream: TStream; TargetNode: PVirtualNode); procedure AfterConstruction; override; procedure Assign(Source: TPersistent); override; procedure BeginDrag(Immediate: Boolean; Threshold: Integer = -1); procedure BeginSynch; procedure BeginUpdate; procedure CancelCutOrCopy; function CancelEditNode: Boolean; function CanFocus: Boolean; override; procedure Clear; virtual; procedure ClearChecked; procedure ClearSelection; function CopyTo(Source: PVirtualNode; Tree: TBaseVirtualTree; Mode: TVTNodeAttachMode; ChildrenOnly: Boolean): PVirtualNode; overload; function CopyTo(Source, Target: PVirtualNode; Mode: TVTNodeAttachMode; ChildrenOnly: Boolean): PVirtualNode; overload; procedure CopyToClipBoard; virtual; procedure CutToClipBoard; virtual; procedure DefaultHandler(var AMessage); override; procedure DeleteChildren(Node: PVirtualNode; ResetHasChildren: Boolean = False); procedure DeleteNode(Node: PVirtualNode; Reindex: Boolean = True); procedure DeleteSelectedNodes; virtual; function Dragging: Boolean; function EditNode(Node: PVirtualNode; Column: TColumnIndex): Boolean; virtual; function EndEditNode: Boolean; procedure EndSynch; procedure EndUpdate; function ExecuteAction(Action: TBasicAction): Boolean; override; procedure FinishCutOrCopy; procedure FlushClipboard; procedure FullCollapse(Node: PVirtualNode = nil); virtual; procedure FullExpand(Node: PVirtualNode = nil); virtual; {$ifndef fpc} function GetControlsAlignment: TAlignment; override; {$endif} function GetDisplayRect(Node: PVirtualNode; Column: TColumnIndex; TextOnly: Boolean; Unclipped: Boolean = False): TRect; function GetFirst: PVirtualNode; function GetFirstChecked(State: TCheckState = csCheckedNormal): PVirtualNode; function GetFirstChild(Node: PVirtualNode): PVirtualNode; function GetFirstCutCopy: PVirtualNode; function GetFirstInitialized: PVirtualNode; function GetFirstLeaf: PVirtualNode; function GetFirstLevel(NodeLevel: Cardinal): PVirtualNode; function GetFirstNoInit: PVirtualNode; function GetFirstSelected: PVirtualNode; function GetFirstVisible: PVirtualNode; function GetFirstVisibleChild(Node: PVirtualNode): PVirtualNode; function GetFirstVisibleChildNoInit(Node: PVirtualNode): PVirtualNode; function GetFirstVisibleNoInit: PVirtualNode; procedure GetHitTestInfoAt(X, Y: Integer; Relative: Boolean; var HitInfo: THitInfo); virtual; function GetLast(Node: PVirtualNode = nil): PVirtualNode; function GetLastInitialized(Node: PVirtualNode = nil): PVirtualNode; function GetLastNoInit(Node: PVirtualNode = nil): PVirtualNode; function GetLastChild(Node: PVirtualNode): PVirtualNode; function GetLastChildNoInit(Node: PVirtualNode): PVirtualNode; function GetLastVisible(Node: PVirtualNode = nil): PVirtualNode; function GetLastVisibleChild(Node: PVirtualNode): PVirtualNode; function GetLastVisibleChildNoInit(Node: PVirtualNode): PVirtualNode; function GetLastVisibleNoInit(Node: PVirtualNode = nil): PVirtualNode; function GetMaxColumnWidth(Column: TColumnIndex): Integer; function GetNext(Node: PVirtualNode): PVirtualNode; function GetNextChecked(Node: PVirtualNode; State: TCheckState = csCheckedNormal): PVirtualNode; function GetNextCutCopy(Node: PVirtualNode): PVirtualNode; function GetNextInitialized(Node: PVirtualNode): PVirtualNode; function GetNextLeaf(Node: PVirtualNode): PVirtualNode; function GetNextLevel(Node: PVirtualNode; NodeLevel: Cardinal): PVirtualNode; function GetNextNoInit(Node: PVirtualNode): PVirtualNode; function GetNextSelected(Node: PVirtualNode): PVirtualNode; function GetNextSibling(Node: PVirtualNode): PVirtualNode; function GetNextVisible(Node: PVirtualNode): PVirtualNode; function GetNextVisibleNoInit(Node: PVirtualNode): PVirtualNode; function GetNextVisibleSibling(Node: PVirtualNode): PVirtualNode; function GetNextVisibleSiblingNoInit(Node: PVirtualNode): PVirtualNode; function GetNodeAt(X, Y: Integer): PVirtualNode; overload; function GetNodeAt(X, Y: Integer; Relative: Boolean; var NodeTop: Integer): PVirtualNode; overload; function GetNodeData(Node: PVirtualNode): Pointer; function GetNodeLevel(Node: PVirtualNode): Cardinal; function GetPrevious(Node: PVirtualNode): PVirtualNode; function GetPreviousChecked(Node: PVirtualNode; State: TCheckState = csCheckedNormal): PVirtualNode; function GetPreviousCutCopy(Node: PVirtualNode): PVirtualNode; function GetPreviousInitialized(Node: PVirtualNode): PVirtualNode; function GetPreviousLeaf(Node: PVirtualNode): PVirtualNode; function GetPreviousLevel(Node: PVirtualNode; NodeLevel: Cardinal): PVirtualNode; function GetPreviousNoInit(Node: PVirtualNode): PVirtualNode; function GetPreviousSelected(Node: PVirtualNode): PVirtualNode; function GetPreviousSibling(Node: PVirtualNode): PVirtualNode; function GetPreviousVisible(Node: PVirtualNode): PVirtualNode; function GetPreviousVisibleNoInit(Node: PVirtualNode): PVirtualNode; function GetPreviousVisibleSibling(Node: PVirtualNode): PVirtualNode; function GetPreviousVisibleSiblingNoInit(Node: PVirtualNode): PVirtualNode; function GetSortedCutCopySet(Resolve: Boolean): TNodeArray; function GetSortedSelection(Resolve: Boolean): TNodeArray; procedure GetTextInfo(Node: PVirtualNode; Column: TColumnIndex; const AFont: TFont; var R: TRect; var Text: WideString); virtual; function GetTreeRect: TRect; function GetVisibleParent(Node: PVirtualNode): PVirtualNode; function HasAsParent(Node, PotentialParent: PVirtualNode): Boolean; function InsertNode(Node: PVirtualNode; Mode: TVTNodeAttachMode; UserData: Pointer = nil): PVirtualNode; procedure InvalidateChildren(Node: PVirtualNode; Recursive: Boolean); procedure InvalidateColumn(Column: TColumnIndex); function InvalidateNode(Node: PVirtualNode): TRect; virtual; procedure InvalidateToBottom(Node: PVirtualNode); procedure InvertSelection(VisibleOnly: Boolean); function IsEditing: Boolean; function IsMouseSelecting: Boolean; function IterateSubtree(Node: PVirtualNode; Callback: TVTGetNodeProc; Data: Pointer; Filter: TVirtualNodeStates = []; DoInit: Boolean = False; ChildNodesOnly: Boolean = False): PVirtualNode; procedure LoadFromFile(const FileName: TFileName); virtual; procedure LoadFromStream(Stream: TStream); virtual; procedure MeasureItemHeight(const Canvas: TCanvas; Node: PVirtualNode); procedure MoveTo(Source, Target: PVirtualNode; Mode: TVTNodeAttachMode; ChildrenOnly: Boolean); overload; procedure MoveTo(Node: PVirtualNode; Tree: TBaseVirtualTree; Mode: TVTNodeAttachMode; ChildrenOnly: Boolean); overload; procedure PaintTree(TargetCanvas: TCanvas; Window: TRect; Target: TPoint; PaintOptions: TVTInternalPaintOptions; PixelFormat: TPixelFormat = pfDevice); function PasteFromClipboard: Boolean; virtual; procedure PrepareDragImage(HotSpot: TPoint; const DataObject: IDataObject); {$ifdef EnablePrint} procedure Print(Printer: TPrinter; PrintHeader: Boolean); {$endif} function ProcessDrop(DataObject: IDataObject; TargetNode: PVirtualNode; var Effect: Integer; Mode: TVTNodeAttachMode): Boolean; function ProcessOLEData(Source: TBaseVirtualTree; DataObject: IDataObject; TargetNode: PVirtualNode; Mode: TVTNodeAttachMode; Optimized: Boolean): Boolean; procedure RepaintNode(Node: PVirtualNode); procedure ReinitChildren(Node: PVirtualNode; Recursive: Boolean); virtual; procedure ReinitNode(Node: PVirtualNode; Recursive: Boolean); virtual; procedure ResetNode(Node: PVirtualNode); virtual; procedure SaveToFile(const FileName: TFileName); procedure SaveToStream(Stream: TStream; Node: PVirtualNode = nil); virtual; function ScrollIntoView(Node: PVirtualNode; Center: Boolean; Horizontally: Boolean = False): Boolean; procedure SelectAll(VisibleOnly: Boolean); procedure Sort(Node: PVirtualNode; Column: TColumnIndex; Direction: TSortDirection; DoInit: Boolean = True); virtual; procedure SortTree(Column: TColumnIndex; Direction: TSortDirection; DoInit: Boolean = True); procedure ToggleNode(Node: PVirtualNode); function UpdateAction(Action: TBasicAction): Boolean; override; procedure UpdateHorizontalScrollBar(DoRepaint: Boolean); procedure UpdateScrollBars(DoRepaint: Boolean); virtual; procedure UpdateVerticalScrollBar(DoRepaint: Boolean); //lcl: reenable in case TControl implementation change to match Delphi // function UseRightToLeftReading: Boolean; procedure ValidateChildren(Node: PVirtualNode; Recursive: Boolean); procedure ValidateNode(Node: PVirtualNode; Recursive: Boolean); {$ifdef EnableAccessible} property Accessible: IAccessible read FAccessible write FAccessible; property AccessibleItem: IAccessible read FAccessibleItem write FAccessibleItem; property AccessibleName: string read FAccessibleName write FAccessibleName; {$endif} property CheckedCount: Integer read GetCheckedCount; property CheckImages: TBitmap read FCheckImages; property CheckState[Node: PVirtualNode]: TCheckState read GetCheckState write SetCheckState; property CheckType[Node: PVirtualNode]: TCheckType read GetCheckType write SetCheckType; property ChildCount[Node: PVirtualNode]: Cardinal read GetChildCount write SetChildCount; property ChildrenInitialized[Node: PVirtualNode]: Boolean read GetChildrenInitialized; property CutCopyCount: Integer read GetCutCopyCount; property DragImage: TVTDragImage read FDragImage; property VTVDragManager: IVTDragManager read GetDragManager; property DropTargetNode: PVirtualNode read FDropTargetNode; property EditLink: IVTEditLink read FEditLink; property Expanded[Node: PVirtualNode]: Boolean read GetExpanded write SetExpanded; property FocusedColumn: TColumnIndex read FFocusedColumn write SetFocusedColumn default InvalidColumn; property FocusedNode: PVirtualNode read FFocusedNode write SetFocusedNode; property Font; property FullyVisible[Node: PVirtualNode]: Boolean read GetFullyVisible write SetFullyVisible; property HasChildren[Node: PVirtualNode]: Boolean read GetHasChildren write SetHasChildren; property HotNode: PVirtualNode read FCurrentHotNode; property IsDisabled[Node: PVirtualNode]: Boolean read GetDisabled write SetDisabled; property IsVisible[Node: PVirtualNode]: Boolean read GetVisible write SetVisible; property MultiLine[Node: PVirtualNode]: Boolean read GetMultiline write SetMultiline; property NodeHeight[Node: PVirtualNode]: Cardinal read GetNodeHeight write SetNodeHeight; property NodeParent[Node: PVirtualNode]: PVirtualNode read GetNodeParent write SetNodeParent; property OffsetX: Integer read FOffsetX write SetOffsetX; property OffsetXY: TPoint read GetOffsetXY write SetOffsetXY; property OffsetY: Integer read FOffsetY write SetOffsetY; property RootNode: PVirtualNode read FRoot; property SearchBuffer: WideString read FSearchBuffer; property Selected[Node: PVirtualNode]: Boolean read GetSelected write SetSelected; property TotalCount: Cardinal read GetTotalCount; property TreeStates: TVirtualTreeStates read FStates write FStates; property SelectedCount: Integer read FSelectionCount; property TopNode: PVirtualNode read GetTopNode write SetTopNode; property VerticalAlignment[Node: PVirtualNode]: Byte read GetVerticalAlignment write SetVerticalAlignment; property VisibleCount: Cardinal read FVisibleCount; property VisiblePath[Node: PVirtualNode]: Boolean read GetVisiblePath write SetVisiblePath; property UpdateCount: Cardinal read FUpdateCount; end; // --------- TCustomVirtualStringTree // Options regarding strings (useful only for the string tree and descendants): TVTStringOption = ( toSaveCaptions, // If set then the caption is automatically saved with the tree node, regardless of what is // saved in the user data. toShowStaticText, // Show static text in a caption which can be differently formatted than the caption // but cannot be edited. toAutoAcceptEditChange // Automatically accept changes during edit if the user finishes editing other then // VK_RETURN or ESC. If not set then changes are cancelled. ); TVTStringOptions = set of TVTStringOption; const DefaultStringOptions = [toSaveCaptions, toAutoAcceptEditChange]; type TCustomStringTreeOptions = class(TCustomVirtualTreeOptions) private FStringOptions: TVTStringOptions; procedure SetStringOptions(const Value: TVTStringOptions); protected property StringOptions: TVTStringOptions read FStringOptions write SetStringOptions default DefaultStringOptions; public constructor Create(AOwner: TBaseVirtualTree); override; procedure AssignTo(Dest: TPersistent); override; end; TStringTreeOptions = class(TCustomStringTreeOptions) published property AnimationOptions; property AutoOptions; property MiscOptions; property PaintOptions; property SelectionOptions; property StringOptions; end; TCustomVirtualStringTree = class; // Edit support classes. TStringEditLink = class; TVTEdit = class(TCustomEdit) private FRefLink: IVTEditLink; FLink: TStringEditLink; procedure CMAutoAdjust(var Message: TLMessage); message CM_AUTOADJUST; procedure CMExit(var Message: TLMessage); message CM_EXIT; procedure CMRelease(var Message: TLMessage); message CM_RELEASE; procedure CNCommand(var Message: TLMCommand); message CN_COMMAND; procedure WMChar(var Message: TLMChar); message LM_CHAR; procedure WMDestroy(var Message: TLMDestroy); message LM_DESTROY; procedure WMGetDlgCode(var Message: TLMNoParams); message LM_GETDLGCODE; procedure WMKeyDown(var Message: TLMKeyDown); message LM_KEYDOWN; protected procedure AutoAdjustSize; virtual; procedure CreateParams(var Params: TCreateParams); override; public constructor Create(Link: TStringEditLink); reintroduce; procedure Release; virtual; property AutoSelect; property AutoSize; property BorderStyle; property CharCase; //property HideSelection; property MaxLength; //property OEMConvert; property PasswordChar; end; TStringEditLink = class(TInterfacedObject, IVTEditLink) private FEdit: TVTEdit; // A normal custom edit control. FTree: TCustomVirtualStringTree; // A back reference to the tree calling. FNode: PVirtualNode; // The node to be edited. FColumn: TColumnIndex; // The column of the node. FAlignment: TAlignment; FTextBounds: TRect; // Smallest rectangle around the text. FStopping: Boolean; // Set to True when the edit link requests stopping the edit action. procedure SetEdit(const Value: TVTEdit); public constructor Create; destructor Destroy; override; function BeginEdit: Boolean; virtual; stdcall; function CancelEdit: Boolean; virtual; stdcall; property Edit: TVTEdit read FEdit write SetEdit; function EndEdit: Boolean; virtual; stdcall; function GetBounds: TRect; virtual; stdcall; function PrepareEdit(Tree: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex): Boolean; virtual; stdcall; procedure ProcessMessage(var Message: TLMessage); virtual; stdcall; procedure SetBounds(R: TRect); virtual; stdcall; end; // Describes the type of text to return in the text and draw info retrival events. TVSTTextType = ( ttNormal, // normal label of the node, this is also the text which can be edited ttStatic // static (non-editable) text after the normal text ); // Describes the source to use when converting a string tree into a string for clipboard etc. TVSTTextSourceType = ( tstAll, // All nodes are rendered. Initialization is done on the fly. tstInitialized, // Only initialized nodes are rendered. tstSelected, // Only selected nodes are rendered. tstCutCopySet, // Only nodes currently marked as being in the cut/copy clipboard set are rendered. tstVisible // Only visible nodes are rendered. ); TVTPaintText = procedure(Sender: TBaseVirtualTree; const TargetCanvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; TextType: TVSTTextType) of object; TVSTGetTextEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; TextType: TVSTTextType; var CellText: WideString) of object; TVSTGetHintEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; var LineBreakStyle: TVTTooltipLineBreakStyle; var HintText: WideString) of object; // New text can only be set for variable caption. TVSTNewTextEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; NewText: WideString) of object; TVSTShortenStringEvent = procedure(Sender: TBaseVirtualTree; TargetCanvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; const S: WideString; TextSpace: Integer; var Result: WideString; var Done: Boolean) of object; TCustomVirtualStringTree = class(TBaseVirtualTree) private FDefaultText: WideString; // text to show if there's no OnGetText event handler (e.g. at design time) FTextHeight: Integer; // true size of the font FEllipsisWidth: Integer; // width of '...' for the current font FInternalDataOffset: Cardinal; // offset to the internal data of the string tree FOnPaintText: TVTPaintText; // triggered before either normal or fixed text is painted to allow // even finer customization (kind of sub cell painting) FOnGetText: TVSTGetTextEvent; // used to retrieve the string to be displayed for a specific node FOnGetHint: TVSTGetHintEvent; // used to retrieve the hint to be displayed for a specific node FOnNewText: TVSTNewTextEvent; // used to notify the application about an edited node caption FOnShortenString: TVSTShortenStringEvent; // used to allow the application a customized string shortage procedure GetRenderStartValues(Source: TVSTTextSourceType; var Node: PVirtualNode; var NextNodeProc: TGetNextNodeProc); function GetOptions: TCustomStringTreeOptions; function GetText(Node: PVirtualNode; Column: TColumnIndex): WideString; procedure InitializeTextProperties(var PaintInfo: TVTPaintInfo); procedure PaintNormalText(var PaintInfo: TVTPaintInfo; TextOutFlags: Integer; Text: WideString); procedure PaintStaticText(const PaintInfo: TVTPaintInfo; TextOutFlags: Integer; const Text: WideString); procedure ReadText(Reader: TReader); procedure SetDefaultText(const Value: WideString); procedure SetOptions(const Value: TCustomStringTreeOptions); procedure SetText(Node: PVirtualNode; Column: TColumnIndex; const Value: WideString); procedure WriteText(Writer: TWriter); procedure WMSetFont(var Msg: TLMNoParams{TWMSetFont}); message LM_SETFONT; protected procedure AdjustPaintCellRect(var PaintInfo: TVTPaintInfo; var NextNonEmpty: TColumnIndex); override; function CalculateTextWidth(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; Text: WideString): Integer; virtual; function ColumnIsEmpty(Node: PVirtualNode; Column: TColumnIndex): Boolean; override; procedure DefineProperties(Filer: TFiler); override; function DoCreateEditor(Node: PVirtualNode; Column: TColumnIndex): IVTEditLink; override; function DoGetNodeHint(Node: PVirtualNode; Column: TColumnIndex; var LineBreakStyle: TVTTooltipLineBreakStyle): WideString; override; function DoGetNodeTooltip(Node: PVirtualNode; Column: TColumnIndex; var LineBreakStyle: TVTTooltipLineBreakStyle): WideString; override; function DoGetNodeWidth(Node: PVirtualNode; Column: TColumnIndex; Canvas: TCanvas = nil): Integer; override; procedure DoGetText(Node: PVirtualNode; Column: TColumnIndex; TextType: TVSTTextType; var Text: WideString); virtual; function DoIncrementalSearch(Node: PVirtualNode; const Text: WideString): Integer; override; procedure DoNewText(Node: PVirtualNode; Column: TColumnIndex; Text: WideString); virtual; procedure DoPaintNode(var PaintInfo: TVTPaintInfo); override; procedure DoPaintText(Node: PVirtualNode; const Canvas: TCanvas; Column: TColumnIndex; TextType: TVSTTextType); virtual; function DoShortenString(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; const S: WideString; Width: Integer; EllipsisWidth: Integer = 0): WideString; virtual; procedure DoTextDrawing(var PaintInfo: TVTPaintInfo; Text: WideString; CellRect: TRect; DrawFormat: Cardinal); virtual; function DoTextMeasuring(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; Text: WideString): Integer; virtual; function GetOptionsClass: TTreeOptionsClass; override; function InternalData(Node: PVirtualNode): Pointer; procedure MainColumnChanged; override; function ReadChunk(Stream: TStream; Version: Integer; Node: PVirtualNode; ChunkType, ChunkSize: Integer): Boolean; override; procedure ReadOldStringOptions(Reader: TReader); function RenderOLEData(const FormatEtcIn: TFormatEtc; out Medium: TStgMedium; ForClipboard: Boolean): HResult; override; procedure WriteChunks(Stream: TStream; Node: PVirtualNode); override; property DefaultText: WideString read FDefaultText write SetDefaultText stored False; property EllipsisWidth: Integer read FEllipsisWidth; property TreeOptions: TCustomStringTreeOptions read GetOptions write SetOptions; property OnGetHint: TVSTGetHintEvent read FOnGetHint write FOnGetHint; property OnGetText: TVSTGetTextEvent read FOnGetText write FOnGetText; property OnNewText: TVSTNewTextEvent read FOnNewText write FOnNewText; property OnPaintText: TVTPaintText read FOnPaintText write FOnPaintText; property OnShortenString: TVSTShortenStringEvent read FOnShortenString write FOnShortenString; public constructor Create(AOwner: TComponent); override; function ComputeNodeHeight(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; S: WideString = ''): Integer; virtual; function ContentToClipboard(Format: Word; Source: TVSTTextSourceType): HGLOBAL; function ContentToHTML(Source: TVSTTextSourceType; Caption: WideString = ''): string; function ContentToRTF(Source: TVSTTextSourceType): string; function ContentToText(Source: TVSTTextSourceType; Separator: Char): string; function ContentToUnicode(Source: TVSTTextSourceType; Separator: WideChar): WideString; procedure GetTextInfo(Node: PVirtualNode; Column: TColumnIndex; const AFont: TFont; var R: TRect; var Text: WideString); override; function InvalidateNode(Node: PVirtualNode): TRect; override; function Path(Node: PVirtualNode; Column: TColumnIndex; TextType: TVSTTextType; Delimiter: WideChar): WideString; procedure ReinitNode(Node: PVirtualNode; Recursive: Boolean); override; property Text[Node: PVirtualNode; Column: TColumnIndex]: WideString read GetText write SetText; end; TVirtualStringTree = class(TCustomVirtualStringTree) private function GetOptions: TStringTreeOptions; procedure SetOptions(const Value: TStringTreeOptions); protected function GetOptionsClass: TTreeOptionsClass; override; public property Canvas; published {$ifdef EnableAccessible} property AccessibleName; {$endif} property Action; property Align; property Alignment; property Anchors; property AnimationDuration; property AutoExpandDelay; property AutoScrollDelay; property AutoScrollInterval; property Background; property BackgroundOffsetX; property BackgroundOffsetY; property BiDiMode; //property BevelEdges; //property BevelInner; //property BevelOuter; //property BevelKind; //property BevelWidth; property BorderSpacing; property BorderStyle; property BottomSpace; property ButtonFillMode; property ButtonStyle; property BorderWidth; property ChangeDelay; property CheckImageKind; property ClipboardFormats; property Color; property Colors; property Constraints; property Ctl3D; //todo: see a way to set CustomCheckImages at design time //property CustomCheckImages; property DefaultNodeHeight; property DefaultPasteMode; property DefaultText; property DragCursor; property DragHeight; property DragKind; property DragImageKind; property DragMode; property DragOperations; property DragType; property DragWidth; property DrawSelectionMode; property EditDelay; property Enabled; property Font; property Header; property HintAnimation; property HintMode; property HotCursor; property Images; property IncrementalSearch; property IncrementalSearchDirection; property IncrementalSearchStart; property IncrementalSearchTimeout; property Indent; property LineMode; property LineStyle; property Margin; property NodeAlignment; property NodeDataSize; property ParentBiDiMode; property ParentColor default False; property ParentCtl3D; property ParentFont; property ParentShowHint; property PopupMenu; property RootNodeCount; property ScrollBarOptions; property SelectionBlendFactor; property SelectionCurveRadius; property ShowHint; property StateImages; property TabOrder; property TabStop default True; property TextMargin; property TreeOptions: TStringTreeOptions read GetOptions write SetOptions; property Visible; property WantTabs; property OnAdvancedHeaderDraw; property OnAfterCellPaint; property OnAfterItemErase; property OnAfterItemPaint; property OnAfterPaint; property OnBeforeCellPaint; property OnBeforeItemErase; property OnBeforeItemPaint; property OnBeforePaint; property OnChange; property OnChecked; property OnChecking; property OnClick; property OnCollapsed; property OnCollapsing; property OnColumnClick; property OnColumnDblClick; property OnColumnResize; property OnCompareNodes; property OnContextPopup; property OnCreateDataObject; property OnCreateDragManager; property OnCreateEditor; property OnDblClick; property OnDragAllowed; property OnDragOver; property OnDragDrop; property OnEditCancelled; property OnEdited; property OnEditing; property OnEndDock; property OnEndDrag; property OnEnter; property OnExit; property OnExpanded; property OnExpanding; property OnFocusChanged; property OnFocusChanging; property OnFreeNode; property OnGetCellIsEmpty; property OnGetCursor; property OnGetHeaderCursor; property OnGetText; property OnPaintText; property OnGetHelpContext; property OnGetImageIndex; property OnGetImageIndexEx; property OnGetHint; property OnGetLineStyle; property OnGetNodeDataSize; property OnGetPopupMenu; property OnGetUserClipboardFormats; property OnHeaderClick; property OnHeaderDblClick; property OnHeaderDragged; property OnHeaderDraggedOut; property OnHeaderDragging; property OnHeaderDraw; property OnHeaderDrawQueryElements; property OnHeaderMouseDown; property OnHeaderMouseMove; property OnHeaderMouseUp; property OnHotChange; property OnIncrementalSearch; property OnInitChildren; property OnInitNode; property OnKeyAction; property OnKeyDown; property OnKeyPress; property OnKeyUp; property OnLoadNode; property OnMeasureItem; property OnMouseDown; property OnMouseMove; property OnMouseUp; property OnMouseWheel; property OnNewText; property OnNodeCopied; property OnNodeCopying; property OnNodeMoved; property OnNodeMoving; property OnPaintBackground; property OnRenderOLEData; property OnResetNode; property OnResize; property OnSaveNode; property OnScroll; property OnShortenString; property OnShowScrollbar; property OnStartDock; property OnStartDrag; property OnStateChange; property OnStructureChange; property OnUpdating; end; TVTDrawHintEvent = procedure(Sender: TBaseVirtualTree; HintCanvas: TCanvas; Node: PVirtualNode; R: TRect; Column: TColumnIndex) of object; TVTDrawNodeEvent = procedure(Sender: TBaseVirtualTree; const PaintInfo: TVTPaintInfo) of object; TVTGetNodeWidthEvent = procedure(Sender: TBaseVirtualTree; HintCanvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; var NodeWidth: Integer) of object; TVTGetHintSizeEvent = procedure(Sender: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex; var R: TRect) of object; // Tree descendant to let an application draw its stuff itself. TCustomVirtualDrawTree = class(TBaseVirtualTree) private FOnDrawNode: TVTDrawNodeEvent; FOnGetNodeWidth: TVTGetNodeWidthEvent; FOnGetHintSize: TVTGetHintSizeEvent; FOnDrawHint: TVTDrawHintEvent; protected procedure DoDrawHint(Canvas: TCanvas; Node: PVirtualNode; R: TRect; Column: TColumnIndex); procedure DoGetHintSize(Node: PVirtualNode; Column: TColumnIndex; var R: TRect); virtual; function DoGetNodeWidth(Node: PVirtualNode; Column: TColumnIndex; Canvas: TCanvas = nil): Integer; override; procedure DoPaintNode(var PaintInfo: TVTPaintInfo); override; property OnDrawHint: TVTDrawHintEvent read FOnDrawHint write FOnDrawHint; property OnDrawNode: TVTDrawNodeEvent read FOnDrawNode write FOnDrawNode; property OnGetHintSize: TVTGetHintSizeEvent read FOnGetHintSize write FOnGetHintSize; property OnGetNodeWidth: TVTGetNodeWidthEvent read FOnGetNodeWidth write FOnGetNodeWidth; end; TVirtualDrawTree = class(TCustomVirtualDrawTree) private function GetOptions: TVirtualTreeOptions; procedure SetOptions(const Value: TVirtualTreeOptions); protected function GetOptionsClass: TTreeOptionsClass; override; public property Canvas; published property Action; property Align; property Alignment; property Anchors; property AnimationDuration; property AutoExpandDelay; property AutoScrollDelay; property AutoScrollInterval; property Background; property BackgroundOffsetX; property BackgroundOffsetY; property BiDiMode; //property BevelEdges; //property BevelInner; //property BevelOuter; //property BevelKind; // property BevelWidth; property BorderSpacing; property BorderStyle; property BottomSpace; property ButtonFillMode; property ButtonStyle; property BorderWidth; property ChangeDelay; property CheckImageKind; property ClipboardFormats; property Color; property Colors; property Constraints; property Ctl3D; property CustomCheckImages; property DefaultNodeHeight; property DefaultPasteMode; property DragCursor; property DragHeight; property DragKind; property DragImageKind; property DragMode; property DragOperations; property DragType; property DragWidth; property DrawSelectionMode; property EditDelay; property Enabled; property Font; property Header; property HintAnimation; property HintMode; property HotCursor; property Images; property IncrementalSearch; property IncrementalSearchDirection; property IncrementalSearchStart; property IncrementalSearchTimeout; property Indent; property LineMode; property LineStyle; property Margin; property NodeAlignment; property NodeDataSize; property ParentBiDiMode; property ParentColor default False; property ParentCtl3D; property ParentFont; property ParentShowHint; property PopupMenu; property RootNodeCount; property ScrollBarOptions; property SelectionBlendFactor; property SelectionCurveRadius; property ShowHint; property StateImages; property TabOrder; property TabStop default True; property TextMargin; property TreeOptions: TVirtualTreeOptions read GetOptions write SetOptions; property Visible; property WantTabs; property OnAdvancedHeaderDraw; property OnAfterCellPaint; property OnAfterItemErase; property OnAfterItemPaint; property OnAfterPaint; property OnBeforeCellPaint; property OnBeforeItemErase; property OnBeforeItemPaint; property OnBeforePaint; property OnChange; property OnChecked; property OnChecking; property OnClick; property OnCollapsed; property OnCollapsing; property OnColumnClick; property OnColumnDblClick; property OnColumnResize; property OnCompareNodes; property OnContextPopup; property OnCreateDataObject; property OnCreateDragManager; property OnCreateEditor; property OnDblClick; property OnDragAllowed; property OnDragOver; property OnDragDrop; property OnDrawHint; property OnDrawNode; property OnEdited; property OnEditing; property OnEndDock; property OnEndDrag; property OnEnter; property OnExit; property OnExpanded; property OnExpanding; property OnFocusChanged; property OnFocusChanging; property OnFreeNode; property OnGetCellIsEmpty; property OnGetCursor; property OnGetHeaderCursor; property OnGetHelpContext; property OnGetHintSize; property OnGetImageIndex; property OnGetImageIndexEx; property OnGetLineStyle; property OnGetNodeDataSize; property OnGetNodeWidth; property OnGetPopupMenu; property OnGetUserClipboardFormats; property OnHeaderClick; property OnHeaderDblClick; property OnHeaderDragged; property OnHeaderDraggedOut; property OnHeaderDragging; property OnHeaderDraw; property OnHeaderDrawQueryElements; property OnHeaderMouseDown; property OnHeaderMouseMove; property OnHeaderMouseUp; property OnHotChange; property OnIncrementalSearch; property OnInitChildren; property OnInitNode; property OnKeyAction; property OnKeyDown; property OnKeyPress; property OnKeyUp; property OnLoadNode; property OnMeasureItem; property OnMouseDown; property OnMouseMove; property OnMouseUp; property OnMouseWheel; property OnNodeCopied; property OnNodeCopying; property OnNodeMoved; property OnNodeMoving; property OnPaintBackground; property OnRenderOLEData; property OnResetNode; property OnResize; property OnSaveNode; property OnScroll; property OnShowScrollbar; property OnStartDock; property OnStartDrag; property OnStateChange; property OnStructureChange; property OnUpdating; end; type // Describes the mode how to blend pixels. TBlendMode = ( bmConstantAlpha, // apply given constant alpha bmPerPixelAlpha, // use alpha value of the source pixel bmMasterAlpha, // use alpha value of source pixel and multiply it with the constant alpha value bmConstantAlphaAndColor // blend the destination color with the given constant color und the constant alpha value ); // OLE Clipboard and drag'n drop helper procedure EnumerateVTClipboardFormats(TreeClass: TVirtualTreeClass; const List: TStrings); overload; procedure EnumerateVTClipboardFormats(TreeClass: TVirtualTreeClass; var Formats: TFormatEtcArray); overload; function GetVTClipboardFormatDescription(AFormat: Word): string; procedure RegisterVTClipboardFormat(AFormat: Word; TreeClass: TVirtualTreeClass; Priority: Cardinal); overload; function RegisterVTClipboardFormat(Description: string; TreeClass: TVirtualTreeClass; Priority: Cardinal; tymed: Integer = TYMED_HGLOBAL; ptd: PDVTargetDevice = nil; dwAspect: Integer = DVASPECT_CONTENT; lindex: Integer = -1): Word; overload; // utility routines procedure AlphaBlend(Source, Destination: HDC; R: TRect; Target: TPoint; Mode: TBlendMode; ConstantAlpha, Bias: Integer); {$ifdef EnablePrint} procedure PrtStretchDrawDIB(Canvas: TCanvas; DestRect: TRect; ABitmap: TBitmap); {$endif} function ShortenString(DC: HDC; const S: WideString; Width: Integer; EllipsisWidth: Integer = 0): WideString; function TreeFromNode(Node: PVirtualNode): TBaseVirtualTree; //---------------------------------------------------------------------------------------------------------------------- implementation uses {Consts,} Math, {$ifdef EnableOLE} //AxCtrls, // TOLEStream {$endif} {$ifdef UseFlatScrollbars} FlatSB, // wrapper for systems without flat SB support {$endif UseFlatScrollbars} MMSystem, // for animation timer (does not include further resources) TypInfo, // for migration stuff ActnList, StdActns // for standard action support {$ifdef EnableAccessible} ,VTAccessibilityFactory {$endif}; // accessibility helper class resourcestring // Localizable strings. SEditLinkIsNil = 'Edit link must not be nil.'; SWrongMoveError = 'Target node cannot be a child node of the node to be moved.'; SWrongStreamFormat = 'Unable to load tree structure, the format is wrong.'; SWrongStreamVersion = 'Unable to load tree structure, the version is unknown.'; SStreamTooSmall = 'Unable to load tree structure, not enough data available.'; SCorruptStream1 = 'Stream data corrupt. A node''s anchor chunk is missing.'; SCorruptStream2 = 'Stream data corrupt. Unexpected data after node''s end position.'; SClipboardFailed = 'Clipboard operation failed.'; SCannotSetUserData = 'Cannot set initial user data because there is not enough user data space allocated.'; const TreeButtonSize = 9; //default size for tree buttons (minus/plus) ClipboardStates = [tsCopyPending, tsCutPending]; DefaultScrollUpdateFlags = [suoRepaintHeader, suoRepaintScrollbars, suoScrollClientArea, suoUpdateNCArea]; MinimumTimerInterval = 1; // minimum resolution for timeGetTime TreeNodeSize = (SizeOf(TVirtualNode) + 3) and not 3; // used for node allocation and access to internal data // Lookup to quickly convert a specific check state into its pressed counterpart and vice versa. PressedState: array[TCheckState] of TCheckState = ( csUncheckedPressed, csUncheckedPressed, csCheckedPressed, csCheckedPressed, csMixedPressed, csMixedPressed ); UnpressedState: array[TCheckState] of TCheckState = ( csUncheckedNormal, csUncheckedNormal, csCheckedNormal, csCheckedNormal, csMixedNormal, csMixedNormal ); MouseButtonDown = [tsLeftButtonDown, tsMiddleButtonDown, tsRightButtonDown]; // Do not modify the copyright in any way! Usage of this unit is prohibited without the copyright notice // in the compiled binary file. Copyright: string = 'Virtual Treeview © 1999, 2003 Mike Lischke'; var //Workaround to LCL bug 8553 {$ifndef Windows} pf32bit: TPixelFormat = pfDevice; {$endif} StandardOLEFormat: TFormatEtc = ( // Format must later be set. cfFormat: 0; // No specific target device to render on. ptd: nil; // Normal content to render. dwAspect: DVASPECT_CONTENT; // No specific page of multipage data (we don't use multipage data by default). lindex: -1; // Acceptable storage formats are IStream and global memory. The first is preferred. tymed: TYMED_ISTREAM or TYMED_HGLOBAL; ); type // streaming support TMagicID = array[0..5] of WideChar; TChunkHeader = record ChunkType, ChunkSize: Integer; // contains the size of the chunk excluding the header end; // base information about a node TBaseChunkBody = packed record ChildCount, NodeHeight: Cardinal; States: TVirtualNodeStates; Align: Byte; CheckState: TCheckState; CheckType: TCheckType; Reserved: Cardinal; end; TBaseChunk = packed record Header: TChunkHeader; Body: TBaseChunkBody; end; // Internally used data for animations. TToggleAnimationData = record Expand: Boolean; // if true then expanding is in progress Window: HWND; // copy of the tree's window handle DC: HDC; // the DC of the window to erase unconvered parts Brush: HBRUSH; // the brush to be used to erase uncovered parts R: TRect; // the scroll rectangle end; const CheckImagesStrings: array [TCheckImageKind] of String = ('VT_CHECK_LIGHT', 'VT_CHECK_DARK', 'VT_TICK_LIGHT', 'VT_TICK_DARK', 'VT_FLAT', 'VT_XP', '',//ckCustom, '',//ckSystem, ''//ckSystemFlat ); MagicID: TMagicID = (#$2045, 'V', 'T', WideChar(VTTreeStreamVersion), ' ', #$2046); // chunk IDs NodeChunk = 1; BaseChunk = 2; // chunk containing node state, check state, child node count etc. // this chunk is immediately followed by all child nodes CaptionChunk = 3; // used by the string tree to store a node's caption UserChunk = 4; // used for data supplied by the application {$ifdef UseFlatScrollbars} ScrollBarProp: array[TScrollBarStyle] of Integer = ( FSB_REGULAR_MODE, FSB_FLAT_MODE, FSB_ENCARTA_MODE ); {$endif} RTLFlag: array[Boolean] of Integer = (0, ETO_RTLREADING); AlignmentToDrawFlag: array[TAlignment] of Cardinal = (DT_LEFT, DT_RIGHT, DT_CENTER); WideNull = WideChar(#0); WideCR = WideChar(#13); WideLF = WideChar(#10); WideLineSeparator = WideChar(#2028); type // internal worker thread TWorkerThread = class(TThread) private FCurrentTree: TBaseVirtualTree; FWaiterList: TThreadList; FRefCount: Cardinal; protected procedure ChangeTreeStates(EnterStates, LeaveStates: TChangeStates); procedure Execute; override; public constructor Create(CreateSuspended: Boolean); destructor Destroy; override; procedure AddTree(Tree: TBaseVirtualTree); procedure RemoveTree(Tree: TBaseVirtualTree); property CurrentTree: TBaseVirtualTree read FCurrentTree; end; // Helper classes to speed up rendering text formats for clipboard and drag'n drop transfers. TBufferedString = class private FStart, FPosition, FEnd: PChar; function GetAsString: string; public destructor Destroy; override; procedure Add(const S: string); procedure AddNewLine; property AsString: string read GetAsString; end; TWideBufferedString = class private FStart, FPosition, FEnd: PWideChar; function GetAsString: WideString; public destructor Destroy; override; procedure Add(const S: WideString); procedure AddNewLine; property AsString: WideString read GetAsString; end; var WorkerThread: TWorkerThread; WorkEvent: TEvent; UtilityImages: TBitmap; // some small additional images (e.g for header dragging) Initialized: Boolean; // True if global structures have been initialized. NeedToUnitialize: Boolean; // True if the OLE subsystem could be initialized successfully. //----------------- TClipboardFormats ---------------------------------------------------------------------------------- type PClipboardFormatListEntry = ^TClipboardFormatListEntry; TClipboardFormatListEntry = record Description: string; // The string used to register the format with Windows. TreeClass: TVirtualTreeClass; // The tree class which supports rendering this format. Priority: Cardinal; // Number which determines the order of formats used in IDataObject. FormatEtc: TFormatEtc; // The definition of the format in the IDataObject. end; TClipboardFormatList = class private FList: TFpList; procedure Sort; public constructor Create; destructor Destroy; override; procedure Add(FormatString: string; AClass: TVirtualTreeClass; Priority: Cardinal; AFormatEtc: TFormatEtc); procedure Clear; procedure EnumerateFormats(TreeClass: TVirtualTreeClass; var Formats: TFormatEtcArray; const AllowedFormats: TClipboardFormats = nil); overload; procedure EnumerateFormats(TreeClass: TVirtualTreeClass; const Formats: TStrings); overload; function FindFormat(FormatString: string): PClipboardFormatListEntry; overload; function FindFormat(FormatString: string; var Fmt: Word): TVirtualTreeClass; overload; function FindFormat(Fmt: Word; out Description: string): TVirtualTreeClass; overload; end; var InternalClipboardFormats: TClipboardFormatList; //---------------------------------------------------------------------------------------------------------------------- constructor TClipboardFormatList.Create; begin FList := TFpList.Create; end; //---------------------------------------------------------------------------------------------------------------------- destructor TClipboardFormatList.Destroy; begin Clear; FList.Free; inherited; end; //---------------------------------------------------------------------------------------------------------------------- procedure TClipboardFormatList.Sort; // Sorts all entry for priority (increasing priority value). //--------------- local function -------------------------------------------- procedure QuickSort(L, R: Integer); var I, J: Integer; P, T: PClipboardFormatListEntry; begin repeat I := L; J := R; P := FList[(L + R) shr 1]; repeat while PClipboardFormatListEntry(FList[I]).Priority < P.Priority do Inc(I); while PClipboardFormatListEntry(Flist[J]).Priority > P.Priority do Dec(J); if I <= J then begin T := Flist[I]; FList[I] := FList[J]; FList[J] := T; Inc(I); Dec(J); end; until I > J; if L < J then QuickSort(L, J); L := I; until I >= R; end; //--------------- end local function ---------------------------------------- begin if FList.Count > 1 then QuickSort(0, FList.Count - 1); end; //---------------------------------------------------------------------------------------------------------------------- procedure TClipboardFormatList.Add(FormatString: string; AClass: TVirtualTreeClass; Priority: Cardinal; AFormatEtc: TFormatEtc); // Adds the given data to the internal list. The priority value is used to sort formats for importance. Larger priority // values mean less priority. var Entry: PClipboardFormatListEntry; begin New(Entry); Entry.Description := FormatString; Entry.TreeClass := AClass; Entry.Priority := Priority; Entry.FormatEtc := AFormatEtc; FList.Add(Entry); Sort; end; //---------------------------------------------------------------------------------------------------------------------- procedure TClipboardFormatList.Clear; var I: Integer; begin for I := 0 to FList.Count - 1 do Dispose(PClipboardFormatListEntry(FList[I])); FList.Clear; end; //---------------------------------------------------------------------------------------------------------------------- procedure TClipboardFormatList.EnumerateFormats(TreeClass: TVirtualTreeClass; var Formats: TFormatEtcArray; const AllowedFormats: TClipboardFormats = nil); // Returns a list of format records for the given class. If assigned the AllowedFormats is used to limit the // enumerated formats to those described in the list. var I, Count: Integer; Entry: PClipboardFormatListEntry; begin SetLength(Formats, FList.Count); Count := 0; for I := 0 to FList.Count - 1 do begin Entry := FList[I]; // Does the tree class support this clipboard format? if TreeClass.InheritsFrom(Entry.TreeClass) then begin // Is this format allowed to be included? if (AllowedFormats = nil) or (AllowedFormats.IndexOf(Entry.Description) > -1) then begin // The list could change before we use the FormatEtc so it is best not to pass a pointer to the true FormatEtc // structure. Instead make a copy and send that. Formats[Count] := Entry.FormatEtc; Inc(Count); end; end; end; SetLength(Formats, Count); end; //---------------------------------------------------------------------------------------------------------------------- procedure TClipboardFormatList.EnumerateFormats(TreeClass: TVirtualTreeClass; const Formats: TStrings); // Returns a list of format descriptions for the given class. var I: Integer; Entry: PClipboardFormatListEntry; begin for I := 0 to FList.Count - 1 do begin Entry := FList[I]; if TreeClass.InheritsFrom(Entry.TreeClass) then Formats.Add(Entry.Description); end; end; //---------------------------------------------------------------------------------------------------------------------- function TClipboardFormatList.FindFormat(FormatString: string): PClipboardFormatListEntry; var I: Integer; Entry: PClipboardFormatListEntry; begin Result := nil; for I := FList.Count - 1 downto 0 do begin Entry := FList[I]; if CompareText(Entry.Description, FormatString) = 0 then begin Result := Entry; Break; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TClipboardFormatList.FindFormat(FormatString: string; var Fmt: Word): TVirtualTreeClass; var I: Integer; Entry: PClipboardFormatListEntry; begin Result := nil; for I := FList.Count - 1 downto 0 do begin Entry := FList[I]; if CompareText(Entry.Description, FormatString) = 0 then begin Result := Entry.TreeClass; Fmt := Entry.FormatEtc.cfFormat; Break; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TClipboardFormatList.FindFormat(Fmt: Word; out Description: string): TVirtualTreeClass; var I: Integer; Entry: PClipboardFormatListEntry; begin Result := nil; for I := FList.Count - 1 downto 0 do begin Entry := FList[I]; if Entry.FormatEtc.cfFormat = Fmt then begin Result := Entry.TreeClass; Description := Entry.Description; Break; end; end; end; //---------------------------------------------------------------------------------------------------------------------- type TClipboardFormatEntry = record ID: Word; Description: string; end; var ClipboardDescriptions: array [1..CF_MAX - 1] of TClipboardFormatEntry = ( (ID: CF_TEXT; Description: 'Plain text'), // Do not localize (ID: CF_BITMAP; Description: 'Windows bitmap'), // Do not localize (ID: CF_METAFILEPICT; Description: 'Windows metafile'), // Do not localize (ID: CF_SYLK; Description: 'Symbolic link'), // Do not localize (ID: CF_DIF; Description: 'Data interchange format'), // Do not localize (ID: CF_TIFF; Description: 'Tiff image'), // Do not localize (ID: CF_OEMTEXT; Description: 'OEM text'), // Do not localize (ID: CF_DIB; Description: 'DIB image'), // Do not localize (ID: CF_PALETTE; Description: 'Palette data'), // Do not localize (ID: CF_PENDATA; Description: 'Pen data'), // Do not localize (ID: CF_RIFF; Description: 'Riff audio data'), // Do not localize (ID: CF_WAVE; Description: 'Wav audio data'), // Do not localize (ID: CF_UNICODETEXT; Description: 'Unicode text'), // Do not localize (ID: CF_ENHMETAFILE; Description: 'Enhanced metafile image'), // Do not localize (ID: CF_HDROP; Description: 'File name(s)'), // Do not localize (ID: CF_LOCALE; Description: 'Locale descriptor') // Do not localize ); //---------------------------------------------------------------------------------------------------------------------- procedure EnumerateVTClipboardFormats(TreeClass: TVirtualTreeClass; const List: TStrings); begin if InternalClipboardFormats = nil then InternalClipboardFormats := TClipboardFormatList.Create; InternalClipboardFormats.EnumerateFormats(TreeClass, List); end; //---------------------------------------------------------------------------------------------------------------------- procedure EnumerateVTClipboardFormats(TreeClass: TVirtualTreeClass; var Formats: TFormatEtcArray); begin if InternalClipboardFormats = nil then InternalClipboardFormats := TClipboardFormatList.Create; InternalClipboardFormats.EnumerateFormats(TreeClass, Formats); end; //---------------------------------------------------------------------------------------------------------------------- function GetVTClipboardFormatDescription(AFormat: Word): string; begin if InternalClipboardFormats = nil then InternalClipboardFormats := TClipboardFormatList.Create; if InternalClipboardFormats.FindFormat(AFormat, Result) = nil then Result := ''; end; //---------------------------------------------------------------------------------------------------------------------- procedure RegisterVTClipboardFormat(AFormat: Word; TreeClass: TVirtualTreeClass; Priority: Cardinal); // Registers the given clipboard format for the given TreeClass. var I: Integer; FormatEtc: TFormatEtc; begin if InternalClipboardFormats = nil then InternalClipboardFormats := TClipboardFormatList.Create; // Assumes a HGlobal format. FormatEtc.cfFormat := AFormat; FormatEtc.ptd := nil; FormatEtc.dwAspect := DVASPECT_CONTENT; FormatEtc.lindex := -1; FormatEtc.tymed := TYMED_HGLOBAL; // Determine description string of the given format. For predefined formats we need the lookup table because they // don't have a description string. For registered formats the description string is the string which was used // to register them. if AFormat < CF_MAX then begin for I := 1 to High(ClipboardDescriptions) do if ClipboardDescriptions[I].ID = AFormat then begin InternalClipboardFormats.Add(ClipboardDescriptions[I].Description, TreeClass, Priority, FormatEtc); Break; end; end else begin InternalClipboardFormats.Add(ClipboardFormatToMimeType(AFormat), TreeClass, Priority, FormatEtc); end; end; //---------------------------------------------------------------------------------------------------------------------- function RegisterVTClipboardFormat(Description: string; TreeClass: TVirtualTreeClass; Priority: Cardinal; tymed: Integer = TYMED_HGLOBAL; ptd: PDVTargetDevice = nil; dwAspect: Integer = DVASPECT_CONTENT; lindex: Integer = -1): Word; // Alternative method to register a certain clipboard format for a given tree class. Registration with the // clipboard is done here too and the assigned ID returned by the function. // tymed may contain or'ed TYMED constants which allows to register several storage formats for one clipboard format. var FormatEtc: TFormatEtc; begin if InternalClipboardFormats = nil then InternalClipboardFormats := TClipboardFormatList.Create; Result := ClipboardRegisterFormat(Description); FormatEtc.cfFormat := Result; FormatEtc.ptd := ptd; FormatEtc.dwAspect := dwAspect; FormatEtc.lindex := lindex; FormatEtc.tymed := tymed; InternalClipboardFormats.Add(Description, TreeClass, Priority, FormatEtc); end; //----------------- utility functions ---------------------------------------------------------------------------------- procedure ShowError(Msg: WideString; HelpContext: Integer); begin raise EVirtualTreeError.CreateHelp(Msg, HelpContext); end; //---------------------------------------------------------------------------------------------------------------------- function TreeFromNode(Node: PVirtualNode): TBaseVirtualTree; // Returns the tree the node currently belongs to or nil if the node is not attached to a tree. begin Assert(Assigned(Node), 'Node must not be nil.'); // The root node is marked by having its NextSibling (and PrevSibling) pointing to itself. while Assigned(Node) and (Node.NextSibling <> Node) do Node := Node.Parent; if Assigned(Node) then Result := TBaseVirtualTree(Node.Parent) else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- function OrderRect(const R: TRect): TRect; // Converts the incoming rectangle so that left and top are always less than or equal to right and bottom. begin if R.Left < R.Right then begin Result.Left := R.Left; Result.Right := R.Right; end else begin Result.Left := R.Right; Result.Right := R.Left; end; if R.Top < R.Bottom then begin Result.Top := R.Top; Result.Bottom := R.Bottom; end else begin Result.Top := R.Bottom; Result.Bottom := R.Top; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure QuickSort(const TheArray: TNodeArray; L, R: Integer); var I, J: Integer; P, T: Pointer; begin repeat I := L; J := R; P := TheArray[(L + R) shr 1]; repeat while PtrUInt(TheArray[I]) < PtrUInt(P) do Inc(I); while PtrUInt(TheArray[J]) > PtrUInt(P) do Dec(J); if I <= J then begin T := TheArray[I]; TheArray[I] := TheArray[J]; TheArray[J] := T; Inc(I); Dec(J); end; until I > J; if L < J then QuickSort(TheArray, L, J); L := I; until I >= R; end; //---------------------------------------------------------------------------------------------------------------------- function ShortenString(DC: HDC; const S: WideString; Width: Integer; EllipsisWidth: Integer = 0): WideString; // Adjusts the given string S so that it fits into the given width. EllipsisWidth gives the width of // the three points to be added to the shorted string. If this value is 0 then it will be determined implicitely. // For higher speed (and multiple entries to be shorted) specify this value explicitely. // Note: It is assumed that the string really needs shortage. Check this in advance. var Size: TSize; Len: Integer; L, H, N, W: Integer; begin Len := Length(S); if (Len = 0) or (Width <= 0) then Result := '' else begin // Determine width of triple point using the current DC settings (if not already done). if EllipsisWidth = 0 then begin GetTextExtentPoint32W(DC, '...', 3, Size); EllipsisWidth := Size.cx; end; if Width <= EllipsisWidth then Result := '' else begin // Do a binary search for the optimal string length which fits into the given width. L := 0; H := Len - 1; while L < H do begin N := (L + H + 1) shr 1; GetTextExtentPoint32W(DC, PWideChar(S), N, Size); W := Size.cx + EllipsisWidth; if W <= Width then L := N else H := N - 1; end; Result := Copy(S, 1, L) + '...' end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure FillDragRectangles(DragWidth, DragHeight, DeltaX, DeltaY: Integer; var RClip, RScroll, RSamp1, RSamp2, RDraw1, RDraw2: TRect); // Fills the given rectangles with values which can be used while dragging around an image // (used in DragMove of the drag manager and DragTo of the header columns). begin // ScrollDC limits RClip := Rect(0, 0, DragWidth, DragHeight); if DeltaX > 0 then begin // move to the left if DeltaY = 0 then begin // move only to the left // background movement RScroll := Rect(0, 0, DragWidth - DeltaX, DragHeight); RSamp1 := Rect(0, 0, DeltaX, DragHeight); RDraw1 := Rect(DragWidth - DeltaX, 0, DeltaX, DragHeight); end else if DeltaY < 0 then begin // move to bottom left RScroll := Rect(0, -DeltaY, DragWidth - DeltaX, DragHeight); RSamp1 := Rect(0, 0, DeltaX, DragHeight); RSamp2 := Rect(DeltaX, DragHeight + DeltaY, DragWidth - DeltaX, -DeltaY); RDraw1 := Rect(0, 0, DragWidth - DeltaX, -DeltaY); RDraw2 := Rect(DragWidth - DeltaX, 0, DeltaX, DragHeight); end else begin // move to upper left RScroll := Rect(0, 0, DragWidth - DeltaX, DragHeight - DeltaY); RSamp1 := Rect(0, 0, DeltaX, DragHeight); RSamp2 := Rect(DeltaX, 0, DragWidth - DeltaX, DeltaY); RDraw1 := Rect(0, DragHeight - DeltaY, DragWidth - DeltaX, DeltaY); RDraw2 := Rect(DragWidth - DeltaX, 0, DeltaX, DragHeight); end; end else if DeltaX = 0 then begin // vertical movement only if DeltaY < 0 then begin // move downwards RScroll := Rect(0, -DeltaY, DragWidth, DragHeight); RSamp2 := Rect(0, DragHeight + DeltaY, DragWidth, -DeltaY); RDraw2 := Rect(0, 0, DragWidth, -DeltaY); end else begin // move upwards RScroll := Rect(0, 0, DragWidth, DragHeight - DeltaY); RSamp2 := Rect(0, 0, DragWidth, DeltaY); RDraw2 := Rect(0, DragHeight - DeltaY, DragWidth, DeltaY); end; end else begin // move to the right if DeltaY > 0 then begin // move up right RScroll := Rect(-DeltaX, 0, DragWidth, DragHeight); RSamp1 := Rect(0, 0, DragWidth + DeltaX, DeltaY); RSamp2 := Rect(DragWidth + DeltaX, 0, -DeltaX, DragHeight); RDraw1 := Rect(0, 0, -DeltaX, DragHeight); RDraw2 := Rect(-DeltaX, DragHeight - DeltaY, DragWidth + DeltaX, DeltaY); end else if DeltaY = 0 then begin // to the right only RScroll := Rect(-DeltaX, 0, DragWidth, DragHeight); RSamp1 := Rect(DragWidth + DeltaX, 0, -DeltaX, DragHeight); RDraw1 := Rect(0, 0, -DeltaX, DragHeight); end else begin // move down right RScroll := Rect(-DeltaX, -DeltaY, DragWidth, DragHeight); RSamp1 := Rect(0, DragHeight + DeltaY, DragWidth + DeltaX, -DeltaY); RSamp2 := Rect(DragWidth + DeltaX, 0, -DeltaX, DragHeight); RDraw1 := Rect(0, 0, -DeltaX, DragHeight); RDraw2 := Rect(-DeltaX, 0, DragWidth + DeltaX, -DeltaY); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure AlphaBlendLineConstant(Source, Destination: Pointer; Count: Integer; ConstantAlpha, Bias: Integer); // Blends a line of Count pixels from Source to Destination using a constant alpha value. // The layout of a pixel must be BGRA where A is ignored (but is calculated as the other components). // ConstantAlpha must be in the range 0..255 where 0 means totally transparent (destination pixel only) // and 255 totally opaque (source pixel only). // Bias is an additional value which gets added to every component and must be in the range -128..127 // // EAX contains Source // EDX contains Destination // ECX contains Count // ConstantAlpha and Bias are on the stack asm PUSH ESI // save used registers PUSH EDI MOV ESI, EAX // ESI becomes the actual source pointer MOV EDI, EDX // EDI becomes the actual target pointer // Load MM6 with the constant alpha value (replicate it for every component). // Expand it to word size. MOV EAX, [ConstantAlpha] DB $0F, $6E, $F0 /// MOVD MM6, EAX DB $0F, $61, $F6 /// PUNPCKLWD MM6, MM6 DB $0F, $62, $F6 /// PUNPCKLDQ MM6, MM6 // Load MM5 with the bias value. MOV EAX, [Bias] DB $0F, $6E, $E8 /// MOVD MM5, EAX DB $0F, $61, $ED /// PUNPCKLWD MM5, MM5 DB $0F, $62, $ED /// PUNPCKLDQ MM5, MM5 // Load MM4 with 128 to allow for saturated biasing. MOV EAX, 128 DB $0F, $6E, $E0 /// MOVD MM4, EAX DB $0F, $61, $E4 /// PUNPCKLWD MM4, MM4 DB $0F, $62, $E4 /// PUNPCKLDQ MM4, MM4 @1: // The pixel loop calculates an entire pixel in one run. // Note: The pixel byte values are expanded into the higher bytes of a word due // to the way unpacking works. We compensate for this with an extra shift. DB $0F, $EF, $C0 /// PXOR MM0, MM0, clear source pixel register for unpacking DB $0F, $60, $06 /// PUNPCKLBW MM0, [ESI], unpack source pixel byte values into words DB $0F, $71, $D0, $08 /// PSRLW MM0, 8, move higher bytes to lower bytes DB $0F, $EF, $C9 /// PXOR MM1, MM1, clear target pixel register for unpacking DB $0F, $60, $0F /// PUNPCKLBW MM1, [EDI], unpack target pixel byte values into words DB $0F, $6F, $D1 /// MOVQ MM2, MM1, make a copy of the shifted values, we need them again DB $0F, $71, $D1, $08 /// PSRLW MM1, 8, move higher bytes to lower bytes // calculation is: target = (alpha * (source - target) + 256 * target) / 256 DB $0F, $F9, $C1 /// PSUBW MM0, MM1, source - target DB $0F, $D5, $C6 /// PMULLW MM0, MM6, alpha * (source - target) DB $0F, $FD, $C2 /// PADDW MM0, MM2, add target (in shifted form) DB $0F, $71, $D0, $08 /// PSRLW MM0, 8, divide by 256 // Bias is accounted for by conversion of range 0..255 to -128..127, // doing a saturated add and convert back to 0..255. DB $0F, $F9, $C4 /// PSUBW MM0, MM4 DB $0F, $ED, $C5 /// PADDSW MM0, MM5 DB $0F, $FD, $C4 /// PADDW MM0, MM4 DB $0F, $67, $C0 /// PACKUSWB MM0, MM0, convert words to bytes with saturation DB $0F, $7E, $07 /// MOVD [EDI], MM0, store the result @3: ADD ESI, 4 ADD EDI, 4 DEC ECX JNZ @1 POP EDI POP ESI end; //---------------------------------------------------------------------------------------------------------------------- procedure AlphaBlendLinePerPixel(Source, Destination: Pointer; Count, Bias: Integer); // Blends a line of Count pixels from Source to Destination using the alpha value of the source pixels. // The layout of a pixel must be BGRA. // Bias is an additional value which gets added to every component and must be in the range -128..127 // // EAX contains Source // EDX contains Destination // ECX contains Count // Bias is on the stack asm PUSH ESI // save used registers PUSH EDI MOV ESI, EAX // ESI becomes the actual source pointer MOV EDI, EDX // EDI becomes the actual target pointer // Load MM5 with the bias value. MOV EAX, [Bias] DB $0F, $6E, $E8 /// MOVD MM5, EAX DB $0F, $61, $ED /// PUNPCKLWD MM5, MM5 DB $0F, $62, $ED /// PUNPCKLDQ MM5, MM5 // Load MM4 with 128 to allow for saturated biasing. MOV EAX, 128 DB $0F, $6E, $E0 /// MOVD MM4, EAX DB $0F, $61, $E4 /// PUNPCKLWD MM4, MM4 DB $0F, $62, $E4 /// PUNPCKLDQ MM4, MM4 @1: // The pixel loop calculates an entire pixel in one run. // Note: The pixel byte values are expanded into the higher bytes of a word due // to the way unpacking works. We compensate for this with an extra shift. DB $0F, $EF, $C0 /// PXOR MM0, MM0, clear source pixel register for unpacking DB $0F, $60, $06 /// PUNPCKLBW MM0, [ESI], unpack source pixel byte values into words DB $0F, $71, $D0, $08 /// PSRLW MM0, 8, move higher bytes to lower bytes DB $0F, $EF, $C9 /// PXOR MM1, MM1, clear target pixel register for unpacking DB $0F, $60, $0F /// PUNPCKLBW MM1, [EDI], unpack target pixel byte values into words DB $0F, $6F, $D1 /// MOVQ MM2, MM1, make a copy of the shifted values, we need them again DB $0F, $71, $D1, $08 /// PSRLW MM1, 8, move higher bytes to lower bytes // Load MM6 with the source alpha value (replicate it for every component). // Expand it to word size. DB $0F, $6F, $F0 /// MOVQ MM6, MM0 DB $0F, $69, $F6 /// PUNPCKHWD MM6, MM6 DB $0F, $6A, $F6 /// PUNPCKHDQ MM6, MM6 // calculation is: target = (alpha * (source - target) + 256 * target) / 256 DB $0F, $F9, $C1 /// PSUBW MM0, MM1, source - target DB $0F, $D5, $C6 /// PMULLW MM0, MM6, alpha * (source - target) DB $0F, $FD, $C2 /// PADDW MM0, MM2, add target (in shifted form) DB $0F, $71, $D0, $08 /// PSRLW MM0, 8, divide by 256 // Bias is accounted for by conversion of range 0..255 to -128..127, // doing a saturated add and convert back to 0..255. DB $0F, $F9, $C4 /// PSUBW MM0, MM4 DB $0F, $ED, $C5 /// PADDSW MM0, MM5 DB $0F, $FD, $C4 /// PADDW MM0, MM4 DB $0F, $67, $C0 /// PACKUSWB MM0, MM0, convert words to bytes with saturation DB $0F, $7E, $07 /// MOVD [EDI], MM0, store the result @3: ADD ESI, 4 ADD EDI, 4 DEC ECX JNZ @1 POP EDI POP ESI end; //---------------------------------------------------------------------------------------------------------------------- procedure AlphaBlendLineMaster(Source, Destination: Pointer; Count: Integer; ConstantAlpha, Bias: Integer); // Blends a line of Count pixels from Source to Destination using the source pixel and a constant alpha value. // The layout of a pixel must be BGRA. // ConstantAlpha must be in the range 0..255. // Bias is an additional value which gets added to every component and must be in the range -128..127 // // EAX contains Source // EDX contains Destination // ECX contains Count // ConstantAlpha and Bias are on the stack asm PUSH ESI // save used registers PUSH EDI MOV ESI, EAX // ESI becomes the actual source pointer MOV EDI, EDX // EDI becomes the actual target pointer // Load MM6 with the constant alpha value (replicate it for every component). // Expand it to word size. MOV EAX, [ConstantAlpha] DB $0F, $6E, $F0 /// MOVD MM6, EAX DB $0F, $61, $F6 /// PUNPCKLWD MM6, MM6 DB $0F, $62, $F6 /// PUNPCKLDQ MM6, MM6 // Load MM5 with the bias value. MOV EAX, [Bias] DB $0F, $6E, $E8 /// MOVD MM5, EAX DB $0F, $61, $ED /// PUNPCKLWD MM5, MM5 DB $0F, $62, $ED /// PUNPCKLDQ MM5, MM5 // Load MM4 with 128 to allow for saturated biasing. MOV EAX, 128 DB $0F, $6E, $E0 /// MOVD MM4, EAX DB $0F, $61, $E4 /// PUNPCKLWD MM4, MM4 DB $0F, $62, $E4 /// PUNPCKLDQ MM4, MM4 @1: // The pixel loop calculates an entire pixel in one run. // Note: The pixel byte values are expanded into the higher bytes of a word due // to the way unpacking works. We compensate for this with an extra shift. DB $0F, $EF, $C0 /// PXOR MM0, MM0, clear source pixel register for unpacking DB $0F, $60, $06 /// PUNPCKLBW MM0, [ESI], unpack source pixel byte values into words DB $0F, $71, $D0, $08 /// PSRLW MM0, 8, move higher bytes to lower bytes DB $0F, $EF, $C9 /// PXOR MM1, MM1, clear target pixel register for unpacking DB $0F, $60, $0F /// PUNPCKLBW MM1, [EDI], unpack target pixel byte values into words DB $0F, $6F, $D1 /// MOVQ MM2, MM1, make a copy of the shifted values, we need them again DB $0F, $71, $D1, $08 /// PSRLW MM1, 8, move higher bytes to lower bytes // Load MM7 with the source alpha value (replicate it for every component). // Expand it to word size. DB $0F, $6F, $F8 /// MOVQ MM7, MM0 DB $0F, $69, $FF /// PUNPCKHWD MM7, MM7 DB $0F, $6A, $FF /// PUNPCKHDQ MM7, MM7 DB $0F, $D5, $FE /// PMULLW MM7, MM6, source alpha * master alpha DB $0F, $71, $D7, $08 /// PSRLW MM7, 8, divide by 256 // calculation is: target = (alpha * master alpha * (source - target) + 256 * target) / 256 DB $0F, $F9, $C1 /// PSUBW MM0, MM1, source - target DB $0F, $D5, $C7 /// PMULLW MM0, MM7, alpha * (source - target) DB $0F, $FD, $C2 /// PADDW MM0, MM2, add target (in shifted form) DB $0F, $71, $D0, $08 /// PSRLW MM0, 8, divide by 256 // Bias is accounted for by conversion of range 0..255 to -128..127, // doing a saturated add and convert back to 0..255. DB $0F, $F9, $C4 /// PSUBW MM0, MM4 DB $0F, $ED, $C5 /// PADDSW MM0, MM5 DB $0F, $FD, $C4 /// PADDW MM0, MM4 DB $0F, $67, $C0 /// PACKUSWB MM0, MM0, convert words to bytes with saturation DB $0F, $7E, $07 /// MOVD [EDI], MM0, store the result @3: ADD ESI, 4 ADD EDI, 4 DEC ECX JNZ @1 POP EDI POP ESI end; //---------------------------------------------------------------------------------------------------------------------- procedure AlphaBlendLineMasterAndColor(Destination: Pointer; Count: Integer; ConstantAlpha, Color: Integer); // Blends a line of Count pixels in Destination against the given color using a constant alpha value. // The layout of a pixel must be BGRA and Color must be rrggbb00 (as stored by a COLORREF). // ConstantAlpha must be in the range 0..255. // // EAX contains Destination // EDX contains Count // ECX contains ConstantAlpha // Color is passed on the stack asm // The used formula is: target = (alpha * color + (256 - alpha) * target) / 256. // alpha * color (factor 1) and 256 - alpha (factor 2) are constant values which can be calculated in advance. // The remaining calculation is therefore: target = (F1 + F2 * target) / 256 // Load MM3 with the constant alpha value (replicate it for every component). // Expand it to word size. (Every calculation here works on word sized operands.) DB $0F, $6E, $D9 /// MOVD MM3, ECX DB $0F, $61, $DB /// PUNPCKLWD MM3, MM3 DB $0F, $62, $DB /// PUNPCKLDQ MM3, MM3 // Calculate factor 2. MOV ECX, $100 DB $0F, $6E, $D1 /// MOVD MM2, ECX DB $0F, $61, $D2 /// PUNPCKLWD MM2, MM2 DB $0F, $62, $D2 /// PUNPCKLDQ MM2, MM2 DB $0F, $F9, $D3 /// PSUBW MM2, MM3 // MM2 contains now: 255 - alpha = F2 // Now calculate factor 1. Alpha is still in MM3, but the r and b components of Color must be swapped. MOV ECX, [Color] BSWAP ECX ROR ECX, 8 DB $0F, $6E, $C9 /// MOVD MM1, ECX // Load the color and convert to word sized values. DB $0F, $EF, $E4 /// PXOR MM4, MM4 DB $0F, $60, $CC /// PUNPCKLBW MM1, MM4 DB $0F, $D5, $CB /// PMULLW MM1, MM3 // MM1 contains now: color * alpha = F1 @1: // The pixel loop calculates an entire pixel in one run. DB $0F, $6E, $00 /// MOVD MM0, [EAX] DB $0F, $60, $C4 /// PUNPCKLBW MM0, MM4 DB $0F, $D5, $C2 /// PMULLW MM0, MM2 // calculate F1 + F2 * target DB $0F, $FD, $C1 /// PADDW MM0, MM1 DB $0F, $71, $D0, $08 /// PSRLW MM0, 8 // divide by 256 DB $0F, $67, $C0 /// PACKUSWB MM0, MM0 // convert words to bytes with saturation DB $0F, $7E, $00 /// MOVD [EAX], MM0 // store the result ADD EAX, 4 DEC EDX JNZ @1 end; //---------------------------------------------------------------------------------------------------------------------- procedure EMMS; // Reset MMX state to use the FPU for other tasks again. asm DB $0F, $77 /// EMMS end; //---------------------------------------------------------------------------------------------------------------------- function GetBitmapBitsFromDeviceContext(DC: HDC; out Width, Height: Integer): Pointer; // Helper function used to retrieve the bitmap selected into the given device context. If there is a bitmap then // the function will return a pointer to its bits otherwise nil is returned. // Additionally the dimensions of the bitmap are returned. var Bitmap: HBITMAP; DIB: TDIBSection; begin Result := nil; Width := 0; Height := 0; //todo_lcl {$ifdef EnableAlphaBlend} Bitmap := GetCurrentObject(DC, OBJ_BITMAP); if Bitmap <> 0 then begin if GetObject(Bitmap, SizeOf(DIB), @DIB) = SizeOf(DIB) then begin Assert(DIB.dsBm.bmPlanes * DIB.dsBm.bmBitsPixel = 32, 'Alpha blending error: bitmap must use 32 bpp.'); Result := DIB.dsBm.bmBits; Width := DIB.dsBmih.biWidth; Height := DIB.dsBmih.biHeight; end; end; Assert(Result <> nil, 'Alpha blending DC error: no bitmap available.'); {$endif} end; //---------------------------------------------------------------------------------------------------------------------- function GetBitmapBitsFromBitmap(Bitmap: HBITMAP): Pointer; var DIB: TDIBSection; begin Result := nil; if Bitmap <> 0 then begin if GetObject(Bitmap, SizeOf(DIB), @DIB) = SizeOf(DIB) then begin Assert(DIB.dsBm.bmPlanes * DIB.dsBm.bmBitsPixel = 32, 'Alpha blending error: bitmap must use 32 bpp.'); Result := DIB.dsBm.bmBits; end; end; end; {$ifdef Windows} procedure ClearAlphaChannel(Bitmap: HBitmap; PixelCount: Integer); var i: Integer; DIB: TDIBSection; P: PCardinal; begin P := nil; if Bitmap <> 0 then begin if GetObject(Bitmap, SizeOf(DIB), @DIB) = SizeOf(DIB) then begin if DIB.dsBm.bmPlanes * DIB.dsBm.bmBitsPixel = 32 then P := DIB.dsBm.bmBits; end; end; if P = nil then Exit; for i:= 0 to PixelCount - 1 do (P + i)^ := (P + i)^ and $00FFFFFF; end; {$endif} function CalculateScanline(Bits: Pointer; Width, Height, Row: Integer): Pointer; // Helper function to calculate the start address for the given row. begin if Height > 0 then // bottom-up DIB Row := Height - Row - 1; // Return DWORD aligned address of the requested scanline. PtrInt(Result) := PtrInt(Bits) + Row * ((Width * 32 + 31) and not 31) div 8; end; //---------------------------------------------------------------------------------------------------------------------- procedure AlphaBlend(Source, Destination: HDC; R: TRect; Target: TPoint; Mode: TBlendMode; ConstantAlpha, Bias: Integer); // Optimized alpha blend procedure using MMX instructions to perform as quick as possible. // For this procedure to work properly it is important that both source and target bitmap use the 32 bit color format. // R describes the source rectangle to work on. // Target is the place (upper left corner) in the target bitmap where to blend to. Note that source width + X offset // must be less or equal to the target width. Similar for the height. // If Mode is bmConstantAlpha then the blend operation uses the given ConstantAlpha value for all pixels. // If Mode is bmPerPixelAlpha then each pixel is blended using its individual alpha value (the alpha value of the source). // If Mode is bmMasterAlpha then each pixel is blended using its individual alpha value multiplied by ConstantAlpha. // If Mode is bmConstantAlphaAndColor then each destination pixel is blended using ConstantAlpha but also a constant // color which will be obtained from Bias. In this case no offset value is added, otherwise Bias is used as offset. // Blending of a color into target only (bmConstantAlphaAndColor) ignores Source (the DC) and Target (the position). // CAUTION: This procedure does not check whether MMX instructions are actually available! Call it only if MMX is really // usable. var Y: Integer; SourceRun, TargetRun: PByte; SourceBits, DestBits: Pointer; SourceWidth, SourceHeight, DestWidth, DestHeight: Integer; begin if not IsRectEmpty(R) then begin // Note: it is tempting to optimize the special cases for constant alpha 0 and 255 by just ignoring soure // (alpha = 0) or simply do a blit (alpha = 255). But this does not take the bias into account. case Mode of bmConstantAlpha: begin // Get a pointer to the bitmap bits for the source and target device contexts. // Note: this supposes that both contexts do actually have bitmaps assigned! SourceBits := GetBitmapBitsFromDeviceContext(Source, SourceWidth, SourceHeight); DestBits := GetBitmapBitsFromDeviceContext(Destination, DestWidth, DestHeight); if Assigned(SourceBits) and Assigned(DestBits) then begin for Y := 0 to R.Bottom - R.Top - 1 do begin SourceRun := CalculateScanline(SourceBits, SourceWidth, SourceHeight, Y + R.Top); Inc(SourceRun, 4 * R.Left); TargetRun := CalculateScanline(DestBits, DestWidth, DestHeight, Y + Target.Y); Inc(TargetRun, 4 * Target.X); AlphaBlendLineConstant(SourceRun, TargetRun, R.Right - R.Left, ConstantAlpha, Bias); end; end; EMMS; end; bmPerPixelAlpha: begin SourceBits := GetBitmapBitsFromDeviceContext(Source, SourceWidth, SourceHeight); DestBits := GetBitmapBitsFromDeviceContext(Destination, DestWidth, DestHeight); if Assigned(SourceBits) and Assigned(DestBits) then begin for Y := 0 to R.Bottom - R.Top - 1 do begin SourceRun := CalculateScanline(SourceBits, SourceWidth, SourceHeight, Y + R.Top); Inc(SourceRun, 4 * R.Left); TargetRun := CalculateScanline(DestBits, DestWidth, DestHeight, Y + Target.Y); Inc(TargetRun, 4 * Target.X); AlphaBlendLinePerPixel(SourceRun, TargetRun, R.Right - R.Left, Bias); end; end; EMMS; end; bmMasterAlpha: begin SourceBits := GetBitmapBitsFromDeviceContext(Source, SourceWidth, SourceHeight); DestBits := GetBitmapBitsFromDeviceContext(Destination, DestWidth, DestHeight); if Assigned(SourceBits) and Assigned(DestBits) then begin for Y := 0 to R.Bottom - R.Top - 1 do begin SourceRun := CalculateScanline(SourceBits, SourceWidth, SourceHeight, Y + R.Top); Inc(SourceRun, 4 * Target.X); TargetRun := CalculateScanline(DestBits, DestWidth, DestHeight, Y + Target.Y); AlphaBlendLineMaster(SourceRun, TargetRun, R.Right - R.Left, ConstantAlpha, Bias); end; end; EMMS; end; bmConstantAlphaAndColor: begin // Source is ignored since there is a constant color value. DestBits := GetBitmapBitsFromDeviceContext(Destination, DestWidth, DestHeight); if Assigned(DestBits) then begin for Y := 0 to R.Bottom - R.Top - 1 do begin TargetRun := CalculateScanline(DestBits, DestWidth, DestHeight, Y + R.Top); Inc(TargetRun, 4 * R.Left); AlphaBlendLineMasterAndColor(TargetRun, R.Right - R.Left, ConstantAlpha, Bias); end; end; EMMS; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function GetRGBColor(Value: TColor): DWORD; // Little helper to convert a Delphi color to an image list color. begin Result := ColorToRGB(Value); case Result of clNone: Result := CLR_NONE; clDefault: Result := CLR_DEFAULT; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure CreateSystemImageSet(BM: TBitmap; Flat: Boolean); // Creates a system check image set. // Note: some images are copied from DarkCheckImages and FlatImages const MaskColor: TColor = clFuchsia; FlatToCheckKind: array[Boolean] of TCheckImageKind = (ckDarkCheck,ckFlat); //--------------- local functions ------------------------------------------- procedure AddSystemImage(Index: Integer); var ButtonState: Cardinal; ButtonType: Cardinal; begin if Index < 8 then ButtonType := DFCS_BUTTONRADIO else ButtonType := DFCS_BUTTONCHECK; if Index >= 16 then ButtonType := ButtonType or DFCS_BUTTON3STATE; case Index mod 4 of 0: ButtonState := 0; 1: ButtonState := DFCS_HOT; 2: ButtonState := DFCS_PUSHED; else ButtonState := DFCS_INACTIVE; end; if Index in [4..7, 12..19] then ButtonState := ButtonState or DFCS_CHECKED; if Flat then ButtonState := ButtonState or DFCS_FLAT; //lcl DrawFrameControl is different from windows DelphiCompat.DrawFrameControl(BM.Canvas.Handle, Rect((Index + 1)*BM.Height + 1, 2, ((Index + 2)*BM.Height) - 2, BM.Height - 1), DFC_BUTTON, ButtonType or ButtonState); end; //--------------- end local functions --------------------------------------- var I, Width, Height: Integer; begin //todo implement under gtk {$ifdef Windows} Width := GetSystemMetrics(SM_CXMENUCHECK) + 3; Height := GetSystemMetrics(SM_CYMENUCHECK) + 3; {$else} Width := 16; Height := 16; {$endif} // Use the 4 node images from the dark check set. BM.LoadFromLazarusResource(CheckImagesStrings[FlatToCheckKind[Flat]]); //DrawFrameControl is not properly implemented in gtk {$ifdef Windows} BM.Canvas.Brush.Color := MaskColor; //clear the first 21 images BM.Canvas.FillRect(Rect(0, 0, Width * 21, BM.Height)); // Add the 20 system checkbox and radiobutton images. for I := 0 to 19 do AddSystemImage(I); //todo: there's a bug in LCL that prevents mask creation of loaded bitmaps in windows //is necessary to remove the alpha opacity ClearAlphaChannel(BM.Handle, BM.Height*BM.Width); BM.MaskHandle := CreateBitmapMask(BM.Canvas.Handle, BM.Width, BM.Height, MaskColor); {$endif} end; //---------------------------------------------------------------------------------------------------------------------- function HasMMX: Boolean; // Helper method to determine whether the current processor supports MMX. asm PUSH EBX XOR EAX, EAX // Result := False PUSHFD // determine if the processor supports the CPUID command POP EDX MOV ECX, EDX XOR EDX, $200000 PUSH EDX POPFD PUSHFD POP EDX XOR ECX, EDX JZ @1 // no CPUID support so we can't even get to the feature information PUSH EDX POPFD MOV EAX, 1 DW $A20F // CPUID, EAX contains now version info and EDX feature information MOV EBX, EAX // free EAX to get the result value XOR EAX, EAX // Result := False CMP EBX, $50 JB @1 // if processor family is < 5 then it is not a Pentium class processor TEST EDX, $800000 JZ @1 // if the MMX bit is not set then we don't have MMX INC EAX // Result := True @1: POP EBX end; //---------------------------------------------------------------------------------------------------------------------- {$ifdef EnablePrint} procedure PrtStretchDrawDIB(Canvas: TCanvas; DestRect: TRect; ABitmap: TBitmap); // Stretch draw on to the new canvas. var Header, Bits: Pointer; HeaderSize, BitsSize: Cardinal; begin GetDIBSizes(ABitmap.Handle, HeaderSize, BitsSize); GetMem(Header, HeaderSize); GetMem(Bits, BitsSize); try GetDIB(ABitmap.Handle, ABitmap.Palette, Header^, Bits^); StretchDIBits(Canvas.Handle, DestRect.Left, DestRect.Top, DestRect.Right - DestRect.Left, DestRect.Bottom - DestRect.Top, 0, 0, ABitmap.Width, ABitmap.Height, Bits, TBitmapInfo(Header^), DIB_RGB_COLORS, SRCCOPY); finally FreeMem(Header); FreeMem(Bits); end; end; {$endif} //---------------------------------------------------------------------------------------------------------------------- {$ifdef EnableAccessible} procedure GetAccessibilityFactory; // Accessibility helper function to create a singleton class that will create or return // the IAccessible interface for the tree and the focused node. begin // Check to see if the class has already been created. if VTAccessibleFactory = nil then VTAccessibleFactory := TVTAccessibilityFactory.Create; end; {$endif} //---------------------------------------------------------------------------------------------------------------------- procedure InitializeGlobalStructures; // initialization of stuff global to the unit begin Initialized := True; // For the drag image a fast MMX blend routine is used. We have to make sure MMX is available. MMXAvailable := HasMMX; // There is a bug in Win95 and WinME (and potentially in Win98 too) regarding GetDCEx which causes sometimes // serious trouble within GDI (see method WMNCPaint). //IsWinNT := (Win32Platform and VER_PLATFORM_WIN32_NT) <> 0; IsWinNT := True; {$ifdef EnableOLE} // Initialize OLE subsystem for drag'n drop and clipboard operations. //todo: replace by Suceeded (see in windows unit) NeedToUnitialize := OleInitialize(nil) in [S_FALSE,S_OK]; {$endif} // Register the tree reference clipboard format. Others will be handled in InternalClipboarFormats. CF_VTREFERENCE := ClipboardRegisterFormat(CFSTR_VTREFERENCE); UtilityImages := TBitmap.Create; UtilityImages.LoadFromLazarusResource('VT_UTILITIES'); // Specify an useful timer resolution for timeGetTime. timeBeginPeriod(MinimumTimerInterval); // Delphi (at least version 6 and lower) does not provide a standard split cursor. // Hence we have to load our own. Screen.Cursors[crHeaderSplit] := LoadCursorFromLazarusResource('VT_HEADERSPLIT'); // Clipboard format registration. // Native clipboard format. Needs a new identifier and has an average priority to allow other formats to take over. // This format is supposed to use the IStream storage format but unfortunately this does not work when // OLEFlushClipboard is used. Hence it is disabled until somebody finds a solution. CF_VIRTUALTREE := RegisterVTClipboardFormat(CFSTR_VIRTUALTREE, TBaseVirtualTree, 50, TYMED_HGLOBAL {or TYMED_ISTREAM}); // Specialized string tree formats. CF_HTML := RegisterVTClipboardFormat(CFSTR_HTML, TCustomVirtualStringTree, 80); CF_VRTFNOOBJS := RegisterVTClipboardFormat(CFSTR_RTFNOOBJS, TCustomVirtualStringTree, 84); CF_VRTF := RegisterVTClipboardFormat(CFSTR_RTF, TCustomVirtualStringTree, 85); CF_CSV := RegisterVTClipboardFormat(CFSTR_CSV, TCustomVirtualStringTree, 90); // Predefined clipboard formats. Just add them to the internal list. RegisterVTClipboardFormat(CF_TEXT, TCustomVirtualStringTree, 100); RegisterVTClipboardFormat(CF_UNICODETEXT, TCustomVirtualStringTree, 95); end; //---------------------------------------------------------------------------------------------------------------------- procedure FinalizeGlobalStructures; var HintWasEnabled: Boolean; begin timeEndPeriod(MinimumTimerInterval); FreeAndNil(UtilityImages); if NeedToUnitialize then OleUninitialize; // If VT is used in a package and its special hint window was used then the last instance of this // window is not freed correctly (bug in the VCL). We explicitely tell the application to free it // otherwise an AV is raised due to access to an invalid memory area. //todo_lcl_remove { if ModuleIsPackage then begin HintWasEnabled := Application.ShowHint; Application.ShowHint := False; if HintWasEnabled then Application.ShowHint := True; end; } end; //----------------- TWorkerThread -------------------------------------------------------------------------------------- procedure AddThreadReference; begin if WorkerThread = nil then begin // Create an event used to trigger our worker thread when something is to do. WorkEvent := TEvent.Create(nil, False, False, ''); //todo: see how to check if a event was succesfully created under linux since handle is allways 0 {$ifdef Windows} if WorkEvent.Handle = TEventHandle(0) then Raise Exception.Create('VirtualTreeView - Error creating TEvent instance'); {$endif} // Create worker thread, initialize it and send it to its wait loop. WorkerThread := TWorkerThread.Create(False); end; Inc(WorkerThread.FRefCount); end; //---------------------------------------------------------------------------------------------------------------------- procedure ReleaseThreadReference(Tree: TBaseVirtualTree); begin if Assigned(WorkerThread) then begin Dec(WorkerThread.FRefCount); // Make sure there is no reference remaining to the releasing tree. Tree.InterruptValidation; if WorkerThread.FRefCount = 0 then begin with WorkerThread do begin Terminate; WorkEvent.SetEvent; //lcl: probably not necessary under fpc. Remove later // The following work around is no longer necessary with Delphi 6 and up. {$ifndef fpc} // There is a problem when the thread is freed in the exit code of a DLL. This can happen when a tree is // destroyed on unload of a DLL (e.g. control panel applet). In this case only the main thread will get // CPU time, other threads will never awake again. The VCL however waits for a thread when freeing it // which will result in a deadlock (the WaitFor call does not return because the thread does not get CPU time). // If a thread is however suspended then the VCL does not wait and all is fine. if IsLibrary then Suspend; {$endif} WorkerThread.Free; end; WorkerThread := nil; WorkEvent.Free; end; end; end; //---------------------------------------------------------------------------------------------------------------------- constructor TWorkerThread.Create(CreateSuspended: Boolean); begin inherited Create(CreateSuspended); FWaiterList := TThreadList.Create; end; //---------------------------------------------------------------------------------------------------------------------- destructor TWorkerThread.Destroy; begin // First let the ancestor stop the thread before freeing our resources. inherited; FWaiterList.Free; end; //---------------------------------------------------------------------------------------------------------------------- procedure TWorkerThread.ChangeTreeStates(EnterStates, LeaveStates: TChangeStates); begin if Assigned(FCurrentTree) and (FCurrentTree.HandleAllocated) then SendMessage(FCurrentTree.Handle, WM_CHANGESTATE, Integer(EnterStates), Integer(LeaveStates)); end; //---------------------------------------------------------------------------------------------------------------------- procedure TWorkerThread.Execute; // Does some background tasks, like validating tree caches. var EnterStates, LeaveStates: TChangeStates; begin while not Terminated do begin WorkEvent.WaitFor(INFINITE); if not Terminated then begin // Get the next waiting tree. with FWaiterList.LockList do try if Count > 0 then begin FCurrentTree := Items[0]; // Remove this tree from waiter list. Delete(0); // If there is yet another tree to work on then set the work event to keep looping. if Count > 0 then WorkEvent.SetEvent; end else FCurrentTree := nil; finally FWaiterList.UnlockList; end; // Something to do? try if Assigned(FCurrentTree) then begin ChangeTreeStates([csValidating], [csUseCache]); EnterStates := []; if not (tsStopValidation in FCurrentTree.FStates) and FCurrentTree.DoValidateCache then EnterStates := [csUseCache]; end; finally LeaveStates := [csValidating, csStopValidation]; if csUseCache in EnterStates then Include(LeaveStates, csValidationNeeded); ChangeTreeStates(EnterStates, LeaveStates); FCurrentTree := nil; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TWorkerThread.AddTree(Tree: TBaseVirtualTree); begin Assert(Assigned(Tree), 'Tree must not be nil.'); // Remove validation stop flag, just in case it is still set. Tree.DoStateChange([], [tsStopValidation]); with FWaiterList.LockList do try if IndexOf(Tree) = -1 then Add(Tree); finally FWaiterList.UnlockList; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TWorkerThread.RemoveTree(Tree: TBaseVirtualTree); begin Assert(Assigned(Tree), 'Tree must not be nil.'); with FWaiterList.LockList do try Remove(Tree); finally FWaiterList.UnlockList; end; end; //----------------- TBufferedString ------------------------------------------------------------------------------------ const AllocIncrement = 4096; destructor TBufferedString.Destroy; begin FreeMem(FStart); inherited; end; //---------------------------------------------------------------------------------------------------------------------- function TBufferedString.GetAsString: string; begin SetString(Result, FStart, FPosition - FStart); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBufferedString.Add(const S: string); var LastLen, LastOffset, Len: Integer; begin Len := Length(S); // Make room for the new string. if FEnd - FPosition <= Len then begin // Keep last offset to restore it correctly in the case that FStart gets a new memory block assigned. LastLen := FEnd - FStart; LastOffset := FPosition - FStart; ReallocMem(FStart, FEnd - FStart + AllocIncrement); FPosition := FStart + LastOffset; FEnd := FStart + LastLen + AllocIncrement; end; Move(PChar(S)^, FPosition^, Len); Inc(FPosition, Len); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBufferedString.AddNewLine; var LastLen, LastOffset: Integer; begin // Make room for the CR/LF characters. if FEnd - FPosition <= 2 then begin // Keep last offset to restore it correctly in the case that FStart gets a new memory block assigned. LastLen := FEnd - FStart; LastOffset := FPosition - FStart; ReallocMem(FStart, FEnd - FStart + AllocIncrement); FPosition := FStart + LastOffset; FEnd := FStart + LastLen + AllocIncrement; end; FPosition^ := #13; Inc(FPosition); FPosition^ := #10; Inc(FPosition); end; //----------------- TWideBufferedString -------------------------------------------------------------------------------- destructor TWideBufferedString.Destroy; begin FreeMem(FStart); inherited; end; //---------------------------------------------------------------------------------------------------------------------- function TWideBufferedString.GetAsString: WideString; begin SetString(Result, FStart, FPosition - FStart); end; //---------------------------------------------------------------------------------------------------------------------- procedure TWideBufferedString.Add(const S: WideString); var LastLen, LastOffset, Len: Integer; begin Len := Length(S); // Make room for the new string. if FEnd - FPosition <= Len then begin // Keep last offset to restore it correctly in the case that FStart gets a new memory block assigned. LastLen := FEnd - FStart; LastOffset := FPosition - FStart; ReallocMem(FStart, 2 * (FEnd - FStart + AllocIncrement)); FPosition := FStart + LastOffset; FEnd := FStart + LastLen + AllocIncrement; end; Move(PWideChar(S)^, FPosition^, 2 * Len); Inc(FPosition, Len); end; //---------------------------------------------------------------------------------------------------------------------- procedure TWideBufferedString.AddNewLine; var LastLen, LastOffset: Integer; begin // Make room for the CR/LF characters. if FEnd - FPosition <= 4 then begin // Keep last offset to restore it correctly in the case that FStart gets a new memory block assigned. LastLen := FEnd - FStart; LastOffset := FPosition - FStart; ReallocMem(FStart, 2 * (FEnd - FStart + AllocIncrement)); FPosition := FStart + LastOffset; FEnd := FStart + LastLen + AllocIncrement; end; FPosition^ := #13; Inc(FPosition); FPosition^ := #10; Inc(FPosition); end; //----------------- TCustomVirtualTreeOptions -------------------------------------------------------------------------- constructor TCustomVirtualTreeOptions.Create(AOwner: TBaseVirtualTree); begin FOwner := AOwner; FPaintOptions := DefaultPaintOptions; FAnimationOptions := DefaultAnimationOptions; FAutoOptions := DefaultAutoOptions; FSelectionOptions := DefaultSelectionOptions; FMiscOptions := DefaultMiscOptions; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualTreeOptions.SetAnimationOptions(const Value: TVTAnimationOptions); begin FAnimationOptions := Value; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualTreeOptions.SetAutoOptions(const Value: TVTAutoOptions); var ChangedOptions: TVTAutoOptions; begin if FAutoOptions <> Value then begin // Exclusive ORing to get all entries wich are in either set but not in both. ChangedOptions := FAutoOptions + Value - (FAutoOptions * Value); FAutoOptions := Value; with FOwner do if (toAutoSpanColumns in ChangedOptions) and not (csLoading in ComponentState) and HandleAllocated then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualTreeOptions.SetMiscOptions(const Value: TVTMiscOptions); var ToBeSet, ToBeCleared: TVTMiscOptions; begin if FMiscOptions <> Value then begin ToBeSet := Value - FMiscOptions; ToBeCleared := FMiscOptions - Value; FMiscOptions := Value; {$ifndef Windows} Exclude(FMiscOptions,toAcceptOLEDrop); Exclude(ToBeCleared,toAcceptOLEDrop); Exclude(ToBeSet,toAcceptOLEDrop); {$endif} with FOwner do if not (csLoading in ComponentState) and HandleAllocated then begin if toCheckSupport in ToBeSet + ToBeCleared then Invalidate; if not (csDesigning in ComponentState) then begin if toFullRepaintOnResize in (TobeSet + ToBeCleared) then //todo_lcl_check RecreateWnd(FOwner); if toAcceptOLEDrop in ToBeSet then RegisterDragDrop(Handle, DragManager as IDropTarget); if toAcceptOLEDrop in ToBeCleared then RevokeDragDrop(Handle); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualTreeOptions.SetPaintOptions(const Value: TVTPaintOptions); {$ifdef ThemeSupport} var ToBeSet, ToBeCleared: TVTPaintOptions; {$endif} begin if FPaintOptions <> Value then begin {$ifdef ThemeSupport} ToBeSet := Value - FPaintOptions; ToBeCleared := FPaintOptions - Value; {$endif} FPaintOptions := Value; with FOwner do if not (csLoading in ComponentState) and HandleAllocated then begin {$ifdef ThemeSupport} if toThemeAware in ToBeSet + ToBeCleared then begin if (toThemeAware in ToBeSet) and ThemeServices.ThemesEnabled then DoStateChange([tsUseThemes]) else DoStateChange([], [tsUseThemes]); PrepareBitmaps(True, False); RedrawWindow(Handle, nil, 0, RDW_INVALIDATE or RDW_VALIDATE or RDW_FRAME); end else {$endif ThemeSupport} Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualTreeOptions.SetSelectionOptions(const Value: TVTSelectionOptions); var ToBeSet, ToBeCleared: TVTSelectionOptions; begin if FSelectionOptions <> Value then begin ToBeSet := Value - FSelectionOptions; ToBeCleared := FSelectionOptions - Value; FSelectionOptions := Value; with FOwner do begin if (toMultiSelect in (ToBeCleared + ToBeSet)) or ([toLevelSelectConstraint, toSiblingSelectConstraint] * ToBeSet <> []) then ClearSelection; if (toExtendedFocus in ToBeCleared) and (FFocusedColumn > 0) and HandleAllocated then begin FFocusedColumn := FHeader.MainColumn; Invalidate; end; if not (toExtendedFocus in FSelectionOptions) then FFocusedColumn := FHeader.MainColumn; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualTreeOptions.AssignTo(Dest: TPersistent); begin if Dest is TCustomVirtualTreeOptions then begin with Dest as TCustomVirtualTreeOptions do begin PaintOptions := Self.PaintOptions; AnimationOptions := Self.AnimationOptions; AutoOptions := Self.AutoOptions; SelectionOptions := Self.SelectionOptions; MiscOptions := Self.MiscOptions; end; end else inherited; end; //----------------- TVTNodeMemoryManager ------------------------------------------------------------------------------- {$ifdef UseLocalMemoryManager} const NodeMemoryGuard: PVirtualNode = PVirtualNode($FEEFEFFE); constructor TVTNodeMemoryManager.Create; begin FBlockList := TList.Create; end; //---------------------------------------------------------------------------------------------------------------------- destructor TVTNodeMemoryManager.Destroy; begin Clear; FBlockList.Free; end; //---------------------------------------------------------------------------------------------------------------------- function TVTNodeMemoryManager.AllocNode(const Size: Cardinal): PVirtualNode; // Allocates memory for a node using the local memory manager. const BlockSize = (16 * 1024); // Blocks larger than 16K offer no significant performance improvement. begin if FAllocSize = 0 then // Recalculate allocation size first time after a clear. FAllocSize := (Size + 3) and not 3 // Force alignment on 32-bit boundaries. else // Allocation size cannot be increased unless Memory Manager is explicitly cleared. Assert(Size <= FAllocSize, 'Node memory manager allocation size cannot be increased.'); if Assigned(FFreeSpace) then begin // Assign node from free-space chain. Assert(FFreeSpace.NextSibling = NodeMemoryGuard, 'Memory overwrite in node memory manager free space chain.'); Result := FFreeSpace; // Assign node FFreeSpace := Result.PrevSibling; // Point to prev node in free-space chain end else begin if FBytesAvailable < FAllocSize then begin // Get another block from the Delphi memory manager. GetMem(FNext, BlockSize); FBytesAvailable := BlockSize; FBlockList.Add(FNext); end; // Assign node from current block. Result := FNext; Inc(PChar(FNext), FAllocSize); Dec(FBytesAvailable, FAllocSize); end; // Clear the memory. FillChar(Result^, FAllocSize, 0); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTNodeMemoryManager.Clear; // Releases all memory held by the local memory manager. var I: Integer; begin for I := 0 to FBlockList.Count - 1 do FreeMem(FBlockList[I]); FBlockList.Clear; FFreeSpace := nil; FBytesAvailable := 0; FAllocSize := 0; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTNodeMemoryManager.FreeNode(const Node: PVirtualNode); // Frees node memory that was allocated using the local memory manager. begin Node.PrevSibling := FFreeSpace; // Point to previous free node. Node.NextSibling := NodeMemoryGuard; // Memory guard to detect overwrites. FFreeSpace := Node; // Point Free chain pointer to me. end; {$endif UseLocalMemoryManager} {$i vtvdragmanager.inc} //----------------- TVirtualTreeHintWindow ----------------------------------------------------------------------------- var // This variable is necessary to coordinate the complex interaction between different hints in the application // and animated hints in our own class. Under certain conditions it can happen that our hint window is destroyed // while it is still in the animation loop. HintWindowDestroyed: Boolean = True; constructor TVirtualTreeHintWindow.Create(AOwner: TComponent); begin inherited; FBackground := TBitmap.Create; FBackground.PixelFormat := pf32Bit; FDrawBuffer := TBitmap.Create; FDrawBuffer.PixelFormat := pf32Bit; FTarget := TBitmap.Create; FTarget.PixelFormat := pf32Bit; DoubleBuffered := False; // we do our own buffering HintWindowDestroyed := False; end; //---------------------------------------------------------------------------------------------------------------------- destructor TVirtualTreeHintWindow.Destroy; begin HintWindowDestroyed := True; FTarget.Free; FDrawBuffer.Free; FBackground.Free; inherited; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeHintWindow.AnimationCallback(Step, StepSize: Integer; Data: Pointer): Boolean; begin Result := not HintWindowDestroyed and HandleAllocated and IsWindowVisible(Handle) and not (tsCancelHintAnimation in FHintData.Tree.FStates); if Result then begin InternalPaint(Step, StepSize); // We have to allow certain messages to be processed normally for various reasons. // This introduces another problem however if this hint window is destroyed // while it is still in the animation loop. A global variable keeps track of // that case. This is reliable because we can only have one (internal) hint window. Application.ProcessMessages; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeHintWindow.InternalPaint(Step, StepSize: Integer); //--------------- local functions ------------------------------------------- procedure DoShadowBlend(DC: HDC; R: TRect; Alpha: Integer); // Helper routine for shadow blending to shorten the parameter list in frequent calls. begin AlphaBlend(0, DC, R, Point(0, 0), bmConstantAlphaAndColor, Alpha, clBlack); end; //--------------------------------------------------------------------------- procedure DrawHintShadow(Canvas: TCanvas; ShadowSize: Integer); var R: TRect; begin // Bottom shadow. R := Rect(ShadowSize, Height - ShadowSize, Width, Height); DoShadowBlend(Canvas.Handle, R, 5); Inc(R.Left); Dec(R.Right); Dec(R.Bottom); DoShadowBlend(Canvas.Handle, R, 10); Inc(R.Left); Dec(R.Right); Dec(R.Bottom); DoShadowBlend(Canvas.Handle, R, 20); Inc(R.Left); Dec(R.Right); Dec(R.Bottom); DoShadowBlend(Canvas.Handle, R, 35); Inc(R.Left); Dec(R.Right); Dec(R.Bottom); DoShadowBlend(Canvas.Handle, R, 50); // Right shadow. R := Rect(Width - ShadowSize, ShadowSize, Width, Height - ShadowSize); DoShadowBlend(Canvas.Handle, R, 5); Inc(R.Top); Dec(R.Right); DoShadowBlend(Canvas.Handle, R, 10); Inc(R.Top); Dec(R.Right); DoShadowBlend(Canvas.Handle, R, 20); Inc(R.Top); Dec(R.Right); DoShadowBlend(Canvas.Handle, R, 35); Inc(R.Top); Dec(R.Right); DoShadowBlend(Canvas.Handle, R, 50); end; //--------------- end local functions --------------------------------------- var R: TRect; Y: Integer; S: WideString; DrawFormat: Cardinal; Shadow: Integer; begin //todo: see the meaning of this code {$ifndef COMPILER_7_UP} if MMXAvailable then Shadow := ShadowSize else {$endif COMPILER_7_UP} Shadow := 0; with FHintData, FDrawBuffer do begin // Do actual painting only in the very first run. if Step = 0 then begin // If the given node is nil then we have to display a header hint. if (Node = nil) or (Tree.FHintMode <> hmToolTip) then begin Canvas.Font := Screen.HintFont; Y := 2; end else begin Tree.GetTextInfo(Node, Column, Canvas.Font, R, S); if LineBreakStyle = hlbForceMultiLine then Y := 1 else Y := (R.Top - R.Bottom - Shadow + Self.Height) div 2; end; with ClientRect do R := Rect(0, 0, Width - Shadow, Height - Shadow); if (Tree is TCustomVirtualDrawTree) and Assigned(Node) then begin // The draw tree has by default no hint text so let it draw the hint itself. (Tree as TCustomVirtualDrawTree).DoDrawHint(Canvas, Node, R, Column); end else with Canvas do begin // Still force tooltip back and text color. Font.Color := clInfoText; Pen.Color := clBlack; Brush.Color := clInfoBk; Rectangle(R); // Determine text position and don't forget the border. InflateRect(R, -1, -1); DrawFormat := DT_TOP or DT_NOPREFIX; if BidiMode <> bdLeftToRight then begin DrawFormat := DrawFormat or DT_RIGHT or DT_RTLREADING; Dec(R.Right, Tree.FTextMargin); Inc(R.Right); end else begin DrawFormat := DrawFormat or DT_LEFT; Inc(R.Left, Tree.FTextMargin); end; SetBkMode(Handle, LCLType.TRANSPARENT); R.Top := Y; if Assigned(Node) and (LineBreakStyle = hlbForceMultiLine) then DrawFormat := DrawFormat or DT_WORDBREAK; DrawTextW(Handle, PWideChar(HintText), Length(HintText), R, DrawFormat) end; end; end; if StepSize > 0 then begin if FHintData.Tree.DoGetAnimationType = hatFade then begin with FTarget do BitBlt(Canvas.Handle, 0, 0, Width, Height, FBackground.Canvas.Handle, 0, 0, SRCCOPY); // Main image. AlphaBlend(FDrawBuffer.Canvas.Handle, FTarget.Canvas.Handle, Rect(0, 0, Width - Shadow, Height - Shadow), Point(0, 0), bmConstantAlpha, MulDiv(Step, 256, FadeAnimationStepCount), 0); if Shadow > 0 then DrawHintShadow(FTarget.Canvas, Shadow); BitBlt(Canvas.Handle, 0, 0, Width, Height, FTarget.Canvas.Handle, 0, 0, SRCCOPY); end else begin // Slide is done by blitting "step" lines of the lower part of the hint window // and fill the rest with the screen background. // 1) blit hint bitmap to the hint canvas BitBlt(Canvas.Handle, 0, 0, Width - Shadow, Step, FDrawBuffer.Canvas.Handle, 0, Height - Step, SRCCOPY); // 2) blit background rest to hint canvas if Step <= Shadow then Step := 0 else Dec(Step, Shadow); BitBlt(Canvas.Handle, 0, Step, Width, Height - Step, FBackground.Canvas.Handle, 0, Step, SRCCOPY); end; end else // Last step during slide or the only step without animation. if FHintData.Tree.DoGetAnimationType <> hatFade then begin if Shadow > 0 then begin with FBackground do BitBlt(Canvas.Handle, 0, 0, Width - Shadow, Height - Shadow, FDrawBuffer.Canvas.Handle, 0, 0, SRCCOPY); DrawHintShadow(FBackground.Canvas, Shadow); BitBlt(Canvas.Handle, 0, 0, Width, Height, FBackground.Canvas.Handle, 0, 0, SRCCOPY); end else BitBlt(Canvas.Handle, 0, 0, Width, Height, FDrawBuffer.Canvas.Handle, 0, 0, SRCCOPY); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeHintWindow.CMTextChanged(var Message: TLMessage); begin // swallow this message to prevent the ancestor from resizing the window (we don't use the caption anyway) end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeHintWindow.WMEraseBkgnd(var Message: TLMEraseBkgnd); // The control is fully painted by own code so don't erase its background as this causes flickering. begin Message.Result := 1; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeHintWindow.WMNCPaint(var Message: TLMessage); // The control is fully painted by own code so don't paint any borders. begin Message.Result := 0; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeHintWindow.WMShowWindow(var Message: TLMShowWindow); // Clear hint data when the window becomes hidden. begin if not Message.Show then begin // Don't touch the last hint rectangle stored in the associated tree to avoid flickering in certain situations. Finalize(FHintData); FillChar(FHintData, SizeOf(FHintData), 0); // If the hint window destruction flag to stop any hint window animation was set by a tree // during its destruction then reset it here to allow other tree instances to still use // this hint window. HintWindowDestroyed := False; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeHintWindow.CreateParams(var Params: TCreateParams); begin inherited CreateParams(Params); with Params do begin Style := WS_POPUP; ExStyle := ExStyle and not WS_EX_CLIENTEDGE; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeHintWindow.Paint; begin InternalPaint(0, 0); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeHintWindow.ActivateHint(Rect: TRect; const AHint: string); var DC: HDC; StopLastAnimation: Boolean; begin if IsRectEmpty(Rect) then Application.CancelHint else begin // There is already an animation. Start a new one but do not continue the old one once we are finished here. StopLastAnimation := (tsInAnimation in FHintData.Tree.FStates); if StopLastAnimation then FHintData.Tree.DoStateChange([], [tsInAnimation]); SetWindowPos(Handle, 0, Rect.Left, Rect.Top, Width, Height, SWP_HIDEWINDOW or SWP_NOACTIVATE or SWP_NOZORDER); //todo_lcl_check BoundsRect:=Rect; // Make sure the whole hint is visible on the monitor. Don't forget multi-monitor systems with the // primary monitor not being at the top-left corner. //todo_lcl { if Rect.Top - Screen.DesktopTop + Height > Screen.DesktopHeight then Rect.Top := Screen.DesktopHeight - Height + Screen.DesktopTop; if Rect.Left - Screen.DesktopLeft + Width > Screen.DesktopWidth then Rect.Left := Screen.DesktopWidth - Width + Screen.DesktopLeft; if Rect.Bottom - Screen.DesktopTop < Screen.DesktopTop then Rect.Bottom := Screen.DesktopTop + Screen.DesktopTop; if Rect.Left - Screen.DesktopLeft < Screen.DesktopLeft then Rect.Left := Screen.DesktopLeft + Screen.DesktopLeft; } // adjust sizes of bitmaps FDrawBuffer.Width := Width; FDrawBuffer.Height := Height; FBackground.Width := Width; FBackground.Height := Height; FTarget.Width := Width; FTarget.Height := Height; FHintData.Tree.Update; {$ifdef Windows} //todo: implement this under gtk // capture screen DC := GetDC(0); try with Rect do BitBlt(FBackground.Canvas.Handle, 0, 0, Width, Height, DC, Left, Top, SRCCOPY); finally ReleaseDC(0, DC); end; {$endif} SetWindowPos(Handle, HWND_TOPMOST, Rect.Left, Rect.Top, Width, Height, SWP_SHOWWINDOW or SWP_NOACTIVATE); with FHintData.Tree do case DoGetAnimationType of hatNone: InvalidateRect(Self.Handle, nil, False); hatFade: begin // Make sure the window is not drawn unanimated. //ValidateRect(Self.Handle, nil); // Empirically determined animation duration shows that fading needs about twice as much time as // sliding to show a comparable visual effect. Animate(FadeAnimationStepCount, 2 * FAnimationDuration, AnimationCallback, nil); end; hatSlide: begin // Make sure the window is not drawn unanimated. //ValidateRect(Self.Handle, nil); Animate(Self.Height, FAnimationDuration, AnimationCallback, nil); end; end; if not HintWindowDestroyed and StopLastAnimation and Assigned(FHintData.Tree) then FHintData.Tree.DoStateChange([tsCancelHintAnimation]); end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeHintWindow.CalcHintRect(MaxWidth: Integer; const AHint: string; AData: Pointer): TRect; var TM: TTextMetric; R: TRect; begin if AData = nil then // Defensive approach, it *can* happen that AData is nil. Maybe when several user defined hint classes are used. Result := Rect(0, 0, 0, 0) else begin // The hint window does not need any bidi mode setting but the caller of this method (TApplication.ActivateHint) // does some unneccessary actions if the hint window is not left-to-right. // The text alignment is based on the bidi mode passed in the hint data, hence we can // simply set the window's mode to left-to-right (it might have been modified by the caller, if the // tree window is right-to-left aligned). BidiMode := bdLeftToRight; FHintData := PVTHintData(AData)^; with FHintData do begin // The draw tree gets its hint size by the application (but only if not a header hint is about to show). // This size has already been determined in CMHintShow. if (Tree is TCustomVirtualDrawTree) and Assigned(Node) then Result := HintRect else begin if Column <= NoColumn then begin BidiMode := Tree.BidiMode; Alignment := Tree.Alignment; end else begin BidiMode := Tree.Header.Columns[Column].BidiMode; Alignment := Tree.Header.Columns[Column].Alignment; end; if BidiMode <> bdLeftToRight then ChangeBidiModeAlignment(Alignment); if (Node = nil) or (Tree.FHintMode <> hmToolTip) then begin Canvas.Font := Screen.HintFont; end else begin Canvas.Font := Tree.Font; if Tree is TCustomVirtualStringTree then with TCustomVirtualStringTree(Tree) do DoPaintText(Node, Self.Canvas, Column, ttNormal); end; GetTextMetrics(Canvas.Handle, TM); FTextHeight := TM.tmHeight; LineBreakStyle := hlbDefault; if Length(DefaultHint) > 0 then HintText := DefaultHint else if Tree.HintMode = hmToolTip then HintText := Tree.DoGetNodeToolTip(Node, Column, LineBreakStyle) else HintText := Tree.DoGetNodeHint(Node, Column, LineBreakStyle); if Length(HintText) = 0 then Result := Rect(0, 0, 0, 0) else begin if Assigned(Node) and (Tree.FHintMode = hmToolTip) then begin // Determine actual line break style depending on what was returned by the methods and what's in the node. if LineBreakStyle = hlbDefault then if vsMultiline in Node.States then LineBreakStyle := hlbForceMultiLine else LineBreakStyle := hlbForceSingleLine; // Hint for a node. if LineBreakStyle = hlbForceMultiLine then begin // Multiline tooltips use the columns width but extend the bottom border to fit the whole caption. Result := Tree.GetDisplayRect(Node, Column, True, False); R := Result; // On Windows NT/2K/XP the behavior of the tooltip is slightly different to that on Windows 9x/Me. // We don't have Unicode word wrap on the latter so the tooltip gets as wide as the largest line // in the caption (limited by carriage return), which results in unoptimal overlay of the tooltip. // On Windows NT the tooltip exactly overlays the node text. DrawTextW(Canvas.Handle, PWideChar(HintText), Length(HintText), R, DT_CALCRECT or DT_WORDBREAK); if BidiMode = bdLeftToRight then Result.Right := R.Right + Tree.FTextMargin else Result.Left := R.Left - Tree.FTextMargin + 1; Result.Bottom := R.Bottom; Inc(Result.Right); // If the node height is already large enough to cover the entire text, then we don't need the hint, though. // However if the text is partially scrolled out of the client area then a hint is useful as well. if ((Integer(Tree.NodeHeight[Node]) + 2) >= (Result.Bottom - Result.Top)) and not ((Result.Left < 0) or (Result.Right > Tree.ClientWidth + 3) or (Result.Top < 0) or (Result.Bottom > Tree.ClientHeight + 3)) then begin Result := Rect(0, 0, 0, 0); Exit; end; end else begin Result := Tree.GetDisplayRect(Node, Column, True, True); if toShowHorzGridLines in Tree.TreeOptions.PaintOptions then Dec(Result.Bottom); end; // Include a one pixel border. InflateRect(Result, 1, 1); // Make the coordinates relative. They will again be offset by the caller code. OffsetRect(Result, -Result.Left - 1, -Result.Top - 1); end else begin // Hint for a header or non-tooltip hint. // Start with the base size of the hint in client coordinates. Result := Rect(0, 0, MaxWidth, FTextHeight); // Calculate the true size of the text rectangle. DrawTextW(Canvas.Handle, PWideChar(HintText), Length(HintText), Result, DT_CALCRECT); // The height of the text plus 2 pixels vertical margin plus the border determine the hint window height. Inc(Result.Bottom, 6); // The text is centered horizontally with usual text margin for left and right borders (plus border). Inc(Result.Right, 2 * Tree.FTextMargin + 2); end; {$ifndef COMPILER_7_UP} // Add some pixels for the shadow if MMX is available for blending. if MMXAvailable then begin Inc(Result.Right, ShadowSize); Inc(Result.Bottom, ShadowSize); end; {$endif COMPILER_7_UP} end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeHintWindow.IsHintMsg(var Msg: TMsg): Boolean; // The VCL is a bit too generous when telling that an existing hint can be cancelled. Need to specify further here. begin Result:=False; //todo_lcl: implement this in LCL { Result := inherited IsHintMsg(Msg) and HandleAllocated and IsWindowVisible(Handle); // Avoid that mouse moves over the non-client area or key presses cancel the current hint. if Result and ((Msg.Message = WM_NCMOUSEMOVE) or ((Msg.Message >= WM_KEYFIRST) and (Msg.Message <= WM_KEYLAST))) then Result := False else // Work around problems with keypresses while doing hint animation. if HandleAllocated and IsWindowVisible(Handle) and (Msg.Message >= WM_KEYFIRST) and (Msg.Message <= WM_KEYLAST) and (tsInAnimation in FHintData.Tree.FStates) and TranslateMessage(Msg) then DispatchMessage(Msg); } end; //----------------- TVTDragImage --------------------------------------------------------------------------------------- constructor TVTDragImage.Create(AOwner: TBaseVirtualTree); begin FOwner := AOwner; FTransparency := 128; FPreBlendBias := 0; FPostBlendBias := 0; FFade := False; FRestriction := dmrNone; FColorKey := clNone; end; //---------------------------------------------------------------------------------------------------------------------- destructor TVTDragImage.Destroy; begin EndDrag; inherited; end; //---------------------------------------------------------------------------------------------------------------------- function TVTDragImage.GetVisible: Boolean; // Returns True if the internal drag image is used (i.e. the system does not natively support drag images) and // the internal image is currently visible on screen. begin Result := FStates * [disHidden, disInDrag, disPrepared, disSystemSupport] = [disInDrag, disPrepared]; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTDragImage.InternalShowDragImage(ScreenDC: HDC); // Frequently called helper routine to actually do the blend and put it onto the screen. // Only used if the system does not support drag images. var BlendMode: TBlendMode; begin with FAlphaImage do BitBlt(Canvas.Handle, 0, 0, Width, Height, FBackImage.Canvas.Handle, 0, 0, SRCCOPY); if not FFade and (FColorKey = clNone) then BlendMode := bmConstantAlpha else BlendMode := bmMasterAlpha; with FDragImage do AlphaBlend(Canvas.Handle, FAlphaImage.Canvas.Handle, Rect(0, 0, Width, Height), Point(0, 0), BlendMode, FTransparency, FPostBlendBias); with FAlphaImage do BitBlt(ScreenDC, FImagePosition.X, FImagePosition.Y, Width, Height, Canvas.Handle, 0, 0, SRCCOPY); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTDragImage.MakeAlphaChannel(Source, Target: TBitmap); // Helper method to create a proper alpha channel in Target (which must be in 32 bit pixel format), depending // on the settings for the drag image and the color values in Source. // Only used if the system does not support drag images. type PBGRA = ^TBGRA; TBGRA = packed record case Boolean of False: (Color: Cardinal); True: (BGR: array[0..2] of Byte; Alpha: Byte); end; var Color, ColorKeyRef: COLORREF; UseColorKey: Boolean; SourceRun, TargetRun: PBGRA; X, Y, MaxDimension, HalfWidth, HalfHeight: Integer; T: Extended; SourceBits, TargetBits: Pointer; begin {$ifdef EnableAdvancedGraphics} SourceBits := GetBitmapBitsFromBitmap(Source.Handle); TargetBits := GetBitmapBitsFromBitmap(Target.Handle); if (SourceBits = nil) or (TargetBits = nil) then Exit; UseColorKey := ColorKey <> clNone; ColorKeyRef := ColorToRGB(ColorKey) and $FFFFFF; // Color values are in the form BGR (red on LSB) while bitmap colors are in the form ARGB (blue on LSB) // hence we have to swap red and blue in the color key. with TBGRA(ColorKeyRef) do begin X := BGR[0]; BGR[0] := BGR[2]; BGR[2] := X; end; with Target do begin MaxDimension := Max(Width, Height); HalfWidth := Width div 2; HalfHeight := Height div 2; for Y := 0 to Height - 1 do begin TargetRun := CalculateScanline(TargetBits, Width, Height, Y); SourceRun := CalculateScanline(SourceBits, Source.Width, Source.Height, Y); for X := 0 to Width - 1 do begin Color := SourceRun.Color and $FFFFFF; if UseColorKey and (Color = ColorKeyRef) then TargetRun.Alpha := 0 else begin // If the color is not the given color key (or none is used) then do full calculation of a bell curve. T := exp(-8 * Sqrt(Sqr((X - HalfWidth) / MaxDimension) + Sqr((Y - HalfHeight) / MaxDimension))); TargetRun.Alpha := Round(255 * T); end; Inc(SourceRun); Inc(TargetRun); end; end; end; {$endif} end; //---------------------------------------------------------------------------------------------------------------------- function TVTDragImage.DragTo(P: TPoint; ForceRepaint: Boolean): Boolean; // Moves the drag image to a new position, which is determined from the passed point P and the previous // mouse position. // ForceRepaint is True if something on the screen changed and the back image must be refreshed. var ScreenDC: HDC; DeltaX, DeltaY: Integer; // optimized drag image move support RSamp1, RSamp2, // newly added parts from screen which will be overwritten RDraw1, RDraw2, // parts to be restored to screen RScroll, RClip: TRect; // ScrollDC of the existent background begin // Determine distances to move the drag image. Take care for restrictions. case FRestriction of dmrHorizontalOnly: begin DeltaX := FLastPosition.X - P.X; DeltaY := 0; end; dmrVerticalOnly: begin DeltaX := 0; DeltaY := FLastPosition.Y - P.Y; end; else // dmrNone DeltaX := FLastPosition.X - P.X; DeltaY := FLastPosition.Y - P.Y; end; Result := (DeltaX <> 0) or (DeltaY <> 0) or ForceRepaint; if Result then begin if Visible then begin // All this stuff is only called if we have to handle the drag image ourselves. If the system supports // drag image then this is all never executed. ScreenDC := GetDC(0); try if (Abs(DeltaX) >= FDragImage.Width) or (Abs(DeltaY) >= FDragImage.Height) or ForceRepaint then begin // If moved more than image size then just restore old screen and blit image to new position. BitBlt(ScreenDC, FImagePosition.X, FImagePosition.Y, FBackImage.Width, FBackImage.Height, FBackImage.Canvas.Handle, 0, 0, SRCCOPY); if ForceRepaint then UpdateWindow(FOwner.Handle); Inc(FImagePosition.X, -DeltaX); Inc(FImagePosition.Y, -DeltaY); BitBlt(FBackImage.Canvas.Handle, 0, 0, FBackImage.Width, FBackImage.Height, ScreenDC, FImagePosition.X, FImagePosition.Y, SRCCOPY); end else begin // overlapping copy FillDragRectangles(FDragImage.Width, FDragImage.Height, DeltaX, DeltaY, RClip, RScroll, RSamp1, RSamp2, RDraw1, RDraw2); with FBackImage.Canvas do begin // restore uncovered areas of the screen if DeltaX = 0 then begin with RDraw2 do BitBlt(ScreenDC, FImagePosition.X + Left, FImagePosition.Y + Top, Right, Bottom, Handle, Left, Top, SRCCOPY); end else begin if DeltaY = 0 then begin with RDraw1 do BitBlt(ScreenDC, FImagePosition.X + Left, FImagePosition.Y + Top, Right, Bottom, Handle, Left, Top, SRCCOPY); end else begin with RDraw1 do BitBlt(ScreenDC, FImagePosition.X + Left, FImagePosition.Y + Top, Right, Bottom, Handle, Left, Top, SRCCOPY); with RDraw2 do BitBlt(ScreenDC, FImagePosition.X + Left, FImagePosition.Y + Top, Right, Bottom, Handle, Left, Top, SRCCOPY); end; end; // move existent background ScrollDC(Handle, DeltaX, DeltaY, RScroll, RClip, 0, nil); Inc(FImagePosition.X, -DeltaX); Inc(FImagePosition.Y, -DeltaY); // Get first and second additional rectangle from screen. if DeltaX = 0 then begin with RSamp2 do BitBlt(Handle, Left, Top, Right, Bottom, ScreenDC, FImagePosition.X + Left, FImagePosition.Y + Top, SRCCOPY); end else if DeltaY = 0 then begin with RSamp1 do BitBlt(Handle, Left, Top, Right, Bottom, ScreenDC, FImagePosition.X + Left, FImagePosition.Y + Top, SRCCOPY); end else begin with RSamp1 do BitBlt(Handle, Left, Top, Right, Bottom, ScreenDC, FImagePosition.X + Left, FImagePosition.Y + Top, SRCCOPY); with RSamp2 do BitBlt(Handle, Left, Top, Right, Bottom, ScreenDC, FImagePosition.X + Left, FImagePosition.Y + Top, SRCCOPY); end; end; end; InternalShowDragImage(ScreenDC); finally ReleaseDC(0, ScreenDC); end; end; FLastPosition.X := P.X; FLastPosition.Y := P.Y; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTDragImage.EndDrag; begin HideDragImage; FStates := FStates - [disInDrag, disPrepared]; FBackImage.Free; FBackImage := nil; FDragImage.Free; FDragImage := nil; FAlphaImage.Free; FAlphaImage := nil; end; //---------------------------------------------------------------------------------------------------------------------- function TVTDragImage.GetDragImageRect: TRect; // Returns the current size and position of the drag image (screen coordinates). begin if Visible then begin with FBackImage do Result := Rect(FImagePosition.X, FImagePosition.Y, FImagePosition.X + Width, FImagePosition.Y + Height); end else Result := Rect(0, 0, 0, 0); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTDragImage.HideDragImage; var ScreenDC: HDC; begin if Visible then begin Include(FStates, disHidden); ScreenDC := GetDC(0); try // restore screen with FBackImage do BitBlt(ScreenDC, FImagePosition.X, FImagePosition.Y, Width, Height, Canvas.Handle, 0, 0, SRCCOPY); finally ReleaseDC(0, ScreenDC); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTDragImage.PrepareDrag(DragImage: TBitmap; ImagePosition, HotSpot: TPoint; const DataObject: IDataObject); // Creates all necessary structures to do alpha blended dragging using the given image. // ImagePostion and Hotspot are given in screen coordinates. The first determines where to place the drag image while // the second is the initial mouse position. // This method also determines whether the system supports drag images natively. If so then only minimal structures // are created. var Width, Height: Integer; DragSourceHelper: IDragSourceHelper; DragInfo: TSHDragImage; begin Width := DragImage.Width; Height := DragImage.Height; // Determine whether the system supports the drag helper interfaces. if Assigned(DataObject) and Succeeded(CoCreateInstance(CLSID_DragDropHelper, nil, CLSCTX_INPROC_SERVER, IID_IDragSourceHelper, DragSourceHelper)) then begin Include(FStates, disSystemSupport); // Supply the drag source helper with our drag image. DragInfo.sizeDragImage.cx := Width; DragInfo.sizeDragImage.cy := Height; DragInfo.ptOffset.x := Width div 2; DragInfo.ptOffset.y := Height div 2; DragInfo.hbmpDragImage := CopyImage(DragImage.Handle, IMAGE_BITMAP, Width, Height, LR_COPYRETURNORG); DragInfo.ColorRef := ColorToRGB(FColorKey); if not Succeeded(DragSourceHelper.InitializeFromBitmap(DragInfo, DataObject)) then begin DeleteObject(DragInfo.hbmpDragImage); Exclude(FStates, disSystemSupport); end; end else Exclude(FStates, disSystemSupport); if MMXAvailable and not (disSystemSupport in FStates) then begin FLastPosition := HotSpot; FDragImage := TBitmap.Create; FDragImage.PixelFormat := pf32Bit; FDragImage.Width := Width; FDragImage.Height := Height; FAlphaImage := TBitmap.Create; FAlphaImage.PixelFormat := pf32Bit; FAlphaImage.Width := Width; FAlphaImage.Height := Height; FBackImage := TBitmap.Create; FBackImage.PixelFormat := pf32Bit; FBackImage.Width := Width; FBackImage.Height := Height; // Copy the given drag image and apply pre blend bias if required. if FPreBlendBias = 0 then with FDragImage do BitBlt(Canvas.Handle, 0, 0, Width, Height, DragImage.Canvas.Handle, 0, 0, SRCCOPY) else AlphaBlend(DragImage.Canvas.Handle, FDragImage.Canvas.Handle, Rect(0, 0, Width, Height), Point(0, 0), bmConstantAlpha, 255, FPreBlendBias); // Create a proper alpha channel also if no fading is required (transparent parts). MakeAlphaChannel(DragImage, FDragImage); FImagePosition := ImagePosition; // Initially the drag image is hidden and will be shown during the immediately following DragEnter event. FStates := FStates + [disInDrag, disHidden, disPrepared]; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTDragImage.RecaptureBackground(Tree: TBaseVirtualTree; R: TRect; VisibleRegion: HRGN; CaptureNCArea, ReshowDragImage: Boolean); // Notification by the drop target tree to update the background image because something in the tree has changed. // Note: The passed rectangle is given in client coordinates of the current drop target tree (given in Tree). // The caller does not check if the given rectangle is actually within the drag image. Hence this method must do // all the checks. // This method does nothing if the system manages the drag image. var DragRect, ClipRect: TRect; PaintTarget: TPoint; PaintOptions: TVTInternalPaintOptions; ScreenDC: HDC; begin // Recapturing means we want the tree to paint the new part into our back bitmap instead to the screen. if Visible then begin // Create the minimum rectangle to be recaptured. MapWindowPoints(Tree.Handle, 0, R, 2); DragRect := GetDragImageRect; IntersectRect(R, R, DragRect); OffsetRgn(VisibleRegion, -DragRect.Left, -DragRect.Top); // The target position for painting in the drag image is relative and can be determined from screen coordinates too. PaintTarget.X := R.Left - DragRect.Left; PaintTarget.Y := R.Top - DragRect.Top; // The source rectangle is determined by the offsets in the tree. MapWindowPoints(0, Tree.Handle, R, 2); OffsetRect(R, -Tree.FOffsetX, -Tree.FOffsetY); // Finally let the tree paint the relevant part and upate the drag image on screen. PaintOptions := [poBackground, poColumnColor, poDrawFocusRect, poDrawDropMark, poDrawSelection, poGridLines]; with FBackImage do begin ClipRect.TopLeft := PaintTarget; ClipRect.Right := ClipRect.Left + R.Right - R.Left; ClipRect.Bottom := ClipRect.Top + R.Bottom - R.Top; Tree.LimitPaintingToArea(Canvas, ClipRect, VisibleRegion); Tree.PaintTree(Canvas, R, PaintTarget, PaintOptions); if CaptureNCArea then begin // For the non-client area we only need the visible region of the window as limit for painting. SelectClipRgn(Canvas.Handle, VisibleRegion); // Since WM_PRINT cannot be given a position where to draw we simply move the window origin and // get the same effect. GetWindowRect(Tree.Handle, ClipRect); SetWindowOrgEx(Canvas.Handle, DragRect.Left - ClipRect.Left, DragRect.Top - ClipRect.Top, nil); //todo: see what todo here //Tree.Perform(WM_PRINT, Integer(Canvas.Handle), PRF_NONCLIENT); SetWindowOrgEx(Canvas.Handle, 0, 0, nil); end; SelectClipRgn(Canvas.Handle, 0); if ReshowDragImage then begin GDIFlush; ScreenDC := GetDC(0); try InternalShowDragImage(ScreenDC); finally ReleaseDC(0, ScreenDC); end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTDragImage.ShowDragImage; // Shows the drag image after it has been hidden by HideDragImage. // Note: there might be a new background now. // Also this method does nothing if the system manages the drag image. var ScreenDC: HDC; begin if FStates * [disInDrag, disHidden, disPrepared, disSystemSupport] = [disInDrag, disHidden, disPrepared] then begin Exclude(FStates, disHidden); GDIFlush; ScreenDC := GetDC(0); try BitBlt(FBackImage.Canvas.Handle, 0, 0, FBackImage.Width, FBackImage.Height, ScreenDC, FImagePosition.X, FImagePosition.Y, SRCCOPY); InternalShowDragImage(ScreenDC); finally ReleaseDC(0, ScreenDC); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVTDragImage.WillMove(P: TPoint): Boolean; // This method determines whether the drag image would "physically" move when DragTo would be called with the same // target point. // Always returns False if the system drag image support is available. var DeltaX, DeltaY: Integer; begin Result := Visible; if Result then begin // Determine distances to move the drag image. Take care for restrictions. case FRestriction of dmrHorizontalOnly: begin DeltaX := FLastPosition.X - P.X; DeltaY := 0; end; dmrVerticalOnly: begin DeltaX := 0; DeltaY := FLastPosition.Y - P.Y; end; else // dmrNone DeltaX := FLastPosition.X - P.X; DeltaY := FLastPosition.Y - P.Y; end; Result := (DeltaX <> 0) or (DeltaY <> 0); end; end; //----------------- TVirtualTreeColumn --------------------------------------------------------------------------------- constructor TVirtualTreeColumn.Create(Collection: TCollection); begin FWidth := 50; FLastWidth := 50; FMinWidth := 10; FMaxWidth := 10000; FImageIndex := -1; FMargin := 4; FSpacing := 4; FText := ''; FOptions := DefaultColumnOptions; FAlignment := taLeftJustify; FBidiMode := bdLeftToRight; FColor := clWindow; FLayout := blGlyphLeft; inherited Create(Collection); //lcl: setting FPosition here will override the Design time value //FPosition := Owner.Count - 1; // Read parent bidi mode and color values as default values. ParentBiDiModeChanged; ParentColorChanged; end; //---------------------------------------------------------------------------------------------------------------------- destructor TVirtualTreeColumn.Destroy; var I: Integer; //--------------- local function --------------------------------------------- procedure AdjustColumnIndex(var ColumnIndex: TColumnIndex); begin if Index = ColumnIndex then ColumnIndex := NoColumn else if Index < ColumnIndex then Dec(ColumnIndex); end; //--------------- end local function ----------------------------------------- begin // Check if this column is somehow referenced by its collection parent or the header. with Owner do begin // If the columns collection object is currently deleting all columns // then we don't need to check the various cached indices individually. if not FClearing then begin IndexChanged(Index, -1); AdjustColumnIndex(FHoverIndex); AdjustColumnIndex(FDownIndex); AdjustColumnIndex(FTrackIndex); AdjustColumnIndex(FClickIndex); with Header do begin AdjustColumnIndex(FAutoSizeIndex); if Index = FMainColumn then begin // If the current main column is about to be destroyed then we have to find a new main column. FMainColumn := NoColumn; for I := 0 to Count - 1 do if I <> Index then begin FMainColumn := I; Break; end; end; AdjustColumnIndex(FSortColumn); end; end; end; inherited; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumn.GetLeft: Integer; begin Result := FLeft; if [coVisible, coFixed] * FOptions <> [coVisible, coFixed] then Dec(Result, Owner.Header.Treeview.FEffectiveOffsetX); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumn.IsBiDiModeStored: Boolean; begin Result := not (coParentBiDiMode in FOptions); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumn.IsColorStored: Boolean; begin Result := not (coParentColor in FOptions); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetAlignment(const Value: TAlignment); begin if FAlignment <> Value then begin FAlignment := Value; Changed(False); // Setting the alignment affects also the tree, hence invalidate it too. Owner.Header.TreeView.Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetBiDiMode(Value: TBiDiMode); begin if Value <> FBiDiMode then begin FBiDiMode := Value; Exclude(FOptions, coParentBiDiMode); Changed(False); // Setting the alignment affects also the tree, hence invalidate it too. Owner.Header.TreeView.Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetColor(const Value: TColor); begin if FColor <> Value then begin FColor := Value; Exclude(FOptions, coParentColor); Changed(False); Owner.Header.TreeView.Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetImageIndex(Value: TImageIndex); begin if Value <> FImageIndex then begin FImageIndex := Value; Changed(False); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetLayout(Value: TVTHeaderColumnLayout); begin if FLayout <> Value then begin FLayout := Value; Changed(False); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetMargin(Value: Integer); begin // Compatibility setting for -1. if Value < 0 then Value := 4; if FMargin <> Value then begin FMargin := Value; Changed(False); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetMaxWidth(Value: Integer); begin if Value < FMinWidth then Value := FMinWidth; if not IsWinNT and (Value > 10000) then Value := 10000; FMaxWidth := Value; SetWidth(FWidth); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetMinWidth(Value: Integer); begin if Value < 0 then Value := 0; if Value > FMaxWidth then Value := FMaxWidth; FMinWidth := Value; SetWidth(FWidth); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetOptions(Value: TVTColumnOptions); var ToBeSet, ToBeCleared: TVTColumnOptions; AVisibleChanged, ColorChanged: Boolean; begin if FOptions <> Value then begin ToBeCleared := FOptions - Value; ToBeSet := Value - FOptions; FOptions := Value; AVisibleChanged := coVisible in (ToBeSet + ToBeCleared); ColorChanged := coParentColor in ToBeSet; if coParentBidiMode in ToBeSet then ParentBiDiModeChanged; if ColorChanged then ParentColorChanged; if coAutoSpring in ToBeSet then FSpringRest := 0; Changed(False); // Need to repaint and adjust the owner tree too. //lcl: fpc refuses to compile the original code by no aparent reason. //Found: Was confounding TControl.VisibleChanged with Owner, Header.Treeview do if not (csLoading in ComponentState) and (AVisibleChanged or ColorChanged) and (UpdateCount = 0) and HandleAllocated then begin Invalidate; if AVisibleChanged then UpdateHorizontalScrollBar(False); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetPosition(Value: TColumnPosition); var Temp: TColumnIndex; begin if csLoading in Owner.Header.Treeview.ComponentState then // Only cache the position for final fixup when loading from DFM. FPosition := Value else begin if Value >= TColumnPosition(Collection.Count) then Value := Collection.Count - 1; if FPosition <> Value then begin with Owner do begin InitializePositionArray; Header.Treeview.CancelEditNode; AdjustPosition(Self, Value); Self.Changed(False); // Need to repaint. with Header do begin if (UpdateCount = 0) and Treeview.HandleAllocated then begin Invalidate(Self); Treeview.Invalidate; end; end; end; // If the moved column is now within the fixed columns then we make it fixed as well. If it's not // we clear the fixed state (in case that fixed column is moved outside fixed area). if (coFixed in FOptions) and (FPosition > 0) then Temp := Owner.ColumnFromPosition(FPosition - 1) else Temp := Owner.ColumnFromPosition(FPosition + 1); if Temp <> NoColumn then begin if coFixed in Owner[Temp].Options then Options := Options + [coFixed] else Options := Options - [coFixed] end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetSpacing(Value: Integer); begin if FSpacing <> Value then begin FSpacing := Value; Changed(False); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetStyle(Value: TVirtualTreeColumnStyle); begin if FStyle <> Value then begin FStyle := Value; Changed(False); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetText(const Value: WideString); begin if FText <> Value then begin FText := Value; Changed(False); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SetWidth(Value: Integer); begin if Value < FMinWidth then Value := FMinWidth; if Value > FMaxWidth then Value := FMaxWidth; if FWidth <> Value then begin FLastWidth := FWidth; with Owner, Header do begin if not (hoAutoResize in FOptions) or (Index <> FAutoSizeIndex) then begin FWidth := Value; UpdatePositions; end; if not (csLoading in Treeview.ComponentState) and (UpdateCount = 0) then begin if hoAutoResize in FOptions then AdjustAutoSize(Index); Treeview.DoColumnResize(Index); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.ComputeHeaderLayout(DC: HDC; const Client: TRect; UseHeaderGlyph, UseSortGlyph: Boolean; var HeaderGlyphPos, SortGlyphPos: TPoint; var TextBounds: TRect); // The layout of a column header is determined by a lot of factors. This method takes them all into account and // determines all necessary positions and bounds: // - for the header text // - the header glyph // - the sort glyph var TextSize: TSize; TextPos, ClientSize, HeaderGlyphSize, SortGlyphSize: TPoint; CurrentAlignment: TAlignment; MinLeft, MaxRight, TextSpacing: Integer; UseText: Boolean; begin UseText := Length(FText) > 0; // If nothing is to show then don't waste time with useless preparation. if not (UseText or UseHeaderGlyph or UseSortGlyph) then Exit; CurrentAlignment := FAlignment; if FBidiMode <> bdLeftToRight then ChangeBiDiModeAlignment(CurrentAlignment); // Calculate sizes of the involved items. ClientSize := Point(Client.Right - Client.Left, Client.Bottom - Client.Top); with Owner, Header do begin if UseHeaderGlyph then HeaderGlyphSize := Point(FImages.Width, FImages.Height) else HeaderGlyphSize := Point(0, 0); if UseSortGlyph then begin SortGlyphSize := Point(UtilityImages.Height, UtilityImages.Height); // In any case, the sort glyph is vertically centered. SortGlyphPos.Y := (ClientSize.Y - SortGlyphSize.Y) div 2; end else SortGlyphSize := Point(0, 0); end; if UseText then begin GetTextExtentPoint32W(DC, PWideChar(FText), Length(FText), TextSize); Inc(TextSize.cx, 2); TextBounds := Rect(0, 0, TextSize.cx, TextSize.cy); TextSpacing := FSpacing; end else begin TextSpacing := 0; TextSize.cx := 0; TextSize.cy := 0; end; // Check first for the special case where nothing is shown except the sort glyph. if UseSortGlyph and not (UseText or UseHeaderGlyph) then begin // Center the sort glyph in the available area if nothing else is there. SortGlyphPos := Point((ClientSize.X - SortGlyphSize.X) div 2, (ClientSize.Y - SortGlyphSize.Y) div 2); end else begin // Determine extents of text and glyph and calculate positions which are clear from the layout. if (Layout in [blGlyphLeft, blGlyphRight]) or not UseHeaderGlyph then begin HeaderGlyphPos.Y := (ClientSize.Y - HeaderGlyphSize.Y) div 2; TextPos.Y := (ClientSize.Y - TextSize.cy) div 2; end else begin if Layout = blGlyphTop then begin HeaderGlyphPos.Y := (ClientSize.Y - HeaderGlyphSize.Y - TextSize.cy - TextSpacing) div 2; TextPos.Y := HeaderGlyphPos.Y + HeaderGlyphSize.Y + TextSpacing; end else begin TextPos.Y := (ClientSize.Y - HeaderGlyphSize.Y - TextSize.cy - TextSpacing) div 2; HeaderGlyphPos.Y := TextPos.Y + TextSize.cy + TextSpacing; end; end; // Each alignment needs special consideration. case CurrentAlignment of taLeftJustify: begin MinLeft := FMargin; if UseSortGlyph and (FBidiMode <> bdLeftToRight) then begin // In RTL context is the sort glyph placed on the left hand side. SortGlyphPos.X := MinLeft; Inc(MinLeft, SortGlyphSize.X + FSpacing); end; if Layout in [blGlyphTop, blGlyphBottom] then begin // Header glyph is above or below text, so both must be considered when calculating // the left positition of the sort glyph (if it is on the right hand side). TextPos.X := MinLeft; if UseHeaderGlyph then begin HeaderGlyphPos.X := (ClientSize.X - HeaderGlyphSize.X) div 2; if HeaderGlyphPos.X < MinLeft then HeaderGlyphPos.X := MinLeft; MinLeft := Max(TextPos.X + TextSize.cx + TextSpacing, HeaderGlyphPos.X + HeaderGlyphSize.X + FSpacing); end else MinLeft := TextPos.X + TextSize.cx + TextSpacing; end else begin // Everything is lined up. TextSpacing might be 0 if there is no text. // This simplifies the calculation because no extra tests are necessary. if UseHeaderGlyph and (Layout = blGlyphLeft) then begin HeaderGlyphPos.X := MinLeft; Inc(MinLeft, HeaderGlyphSize.X + FSpacing); end; TextPos.X := MinLeft; Inc(MinLeft, TextSize.cx + TextSpacing); if UseHeaderGlyph and (Layout = blGlyphRight) then begin HeaderGlyphPos.X := MinLeft; Inc(MinLeft, HeaderGlyphSize.X + FSpacing); end; end; if UseSortGlyph and (FBidiMode = bdLeftToRight) then SortGlyphPos.X := MinLeft; end; taCenter: begin if Layout in [blGlyphTop, blGlyphBottom] then begin HeaderGlyphPos.X := (ClientSize.X - HeaderGlyphSize.X) div 2; TextPos.X := (ClientSize.X - TextSize.cx) div 2; if UseSortGlyph then Dec(TextPos.X, SortGlyphSize.X div 2); end else begin MinLeft := (ClientSize.X - HeaderGlyphSize.X - TextSpacing - TextSize.cx) div 2; if UseHeaderGlyph and (Layout = blGlyphLeft) then begin HeaderGlyphPos.X := MinLeft; Inc(MinLeft, HeaderGlyphSize.X + TextSpacing); end; TextPos.X := MinLeft; Inc(MinLeft, TextSize.cx + TextSpacing); if UseHeaderGlyph and (Layout = blGlyphRight) then HeaderGlyphPos.X := MinLeft; end; if UseHeaderGlyph then begin MinLeft := Min(HeaderGlyphPos.X, TextPos.X); MaxRight := Max(HeaderGlyphPos.X + HeaderGlyphSize.X, TextPos.X + TextSize.cx); end else begin MinLeft := TextPos.X; MaxRight := TextPos.X + TextSize.cx; end; // Place the sort glyph directly to the left or right of the larger item. if UseSortGlyph then if FBidiMode = bdLeftToRight then begin // Sort glyph on the right hand side. SortGlyphPos.X := MaxRight + FSpacing; end else begin // Sort glyph on the left hand side. SortGlyphPos.X := MinLeft - FSpacing - SortGlyphSize.X; end; end; else // taRightJustify MaxRight := ClientSize.X - FMargin; if UseSortGlyph and (FBidiMode = bdLeftToRight) then begin // In LTR context is the sort glyph placed on the right hand side. Dec(MaxRight, SortGlyphSize.X); SortGlyphPos.X := MaxRight; Dec(MaxRight, FSpacing); end; if Layout in [blGlyphTop, blGlyphBottom] then begin TextPos.X := MaxRight - TextSize.cx; if UseHeaderGlyph then begin HeaderGlyphPos.X := (ClientSize.X - HeaderGlyphSize.X) div 2; if HeaderGlyphPos.X + HeaderGlyphSize.X + FSpacing > MaxRight then HeaderGlyphPos.X := MaxRight - HeaderGlyphSize.X - FSpacing; MaxRight := Min(TextPos.X - TextSpacing, HeaderGlyphPos.X - FSpacing); end else MaxRight := TextPos.X - TextSpacing; end else begin // Everything is lined up. TextSpacing might be 0 if there is no text. // This simplifies the calculation because no extra tests are necessary. if UseHeaderGlyph and (Layout = blGlyphRight) then begin HeaderGlyphPos.X := MaxRight - HeaderGlyphSize.X; MaxRight := HeaderGlyphPos.X - FSpacing; end; TextPos.X := MaxRight - TextSize.cx; MaxRight := TextPos.X - TextSpacing; if UseHeaderGlyph and (Layout = blGlyphLeft) then begin HeaderGlyphPos.X := MaxRight - HeaderGlyphSize.X; MaxRight := HeaderGlyphPos.X - FSpacing; end; end; if UseSortGlyph and (FBidiMode <> bdLeftToRight) then SortGlyphPos.X := MaxRight - SortGlyphSize.X; end; end; // Once the position of each element is determined there remains only one but important step. // The horizontal positions of every element must be adjusted so that it always fits into the // given header area. This is accomplished by shorten the text appropriately. // These are the maximum bounds. Nothing goes beyond them. MinLeft := FMargin; MaxRight := ClientSize.X - FMargin; if UseSortGlyph then begin if FBidiMode = bdLeftToRight then begin // Sort glyph on the right hand side. if SortGlyphPos.X + SortGlyphSize.X > MaxRight then SortGlyphPos.X := MaxRight - SortGlyphSize.X; MaxRight := SortGlyphPos.X - FSpacing; end; // Consider also the left side of the sort glyph regardless of the bidi mode. if SortGlyphPos.X < MinLeft then SortGlyphPos.X := MinLeft; // Left border needs only adjustment if the sort glyph marks the left border. if FBidiMode <> bdLeftToRight then MinLeft := SortGlyphPos.X + SortGlyphSize.X + FSpacing; // Finally transform sort glyph to its actual position. with SortGlyphPos do begin Inc(X, Client.Left); Inc(Y, Client.Top); end; end; if UseHeaderGlyph then begin if HeaderGlyphPos.X + HeaderGlyphSize.X > MaxRight then HeaderGlyphPos.X := MaxRight - HeaderGlyphSize.X; if Layout = blGlyphRight then MaxRight := HeaderGlyphPos.X - FSpacing; if HeaderGlyphPos.X < MinLeft then HeaderGlyphPos.X := MinLeft; if Layout = blGlyphLeft then MinLeft := HeaderGlyphPos.X + HeaderGlyphSize.X + FSpacing; // Finally transform header glyph to its actual position. with HeaderGlyphPos do begin Inc(X, Client.Left); Inc(Y, Client.Top); end; end; if UseText then begin if TextPos.X < MinLeft then TextPos.X := MinLeft; OffsetRect(TextBounds, TextPos.X, TextPos.Y); if TextBounds.Right > MaxRight then TextBounds.Right := MaxRight; OffsetRect(TextBounds, Client.Left, Client.Top); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.DefineProperties(Filer: TFiler); begin inherited; // Must define a new name for the properties otherwise the VCL will try to load the wide string // without asking us and screws it completely up. Filer.DefineProperty('WideText', ReadText, WriteText, FText <> ''); Filer.DefineProperty('WideHint', ReadHint, WriteHint, FHint <> ''); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.GetAbsoluteBounds(var Left, Right: Integer); // Returns the column's left and right bounds in header coordinates, that is, independant of the scrolling position. begin Left := FLeft; Right := FLeft + FWidth; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumn.GetDisplayName: string; // Returns the column text if it only contains ANSI characters, otherwise the column id is returned because the IDE // still cannot handle Unicode strings. var I: Integer; begin // Check if the text of the column contains characters > 255 I := 1; while I <= Length(FText) do begin if Ord(FText[I]) > 255 then Break; Inc(I); end; if I > Length(FText) then Result := FText // implicit conversion else Result := Format('Column %d', [Index]); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumn.GetOwner: TVirtualTreeColumns; begin Result := Collection as TVirtualTreeColumns; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.ReadText(Reader: TReader); begin case Reader.NextValue of vaLString, vaString: SetText(Reader.ReadString); else SetText(Reader.ReadWideString); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.ReadHint(Reader: TReader); begin case Reader.NextValue of vaLString, vaString: FHint := Reader.ReadString; else FHint := Reader.ReadWideString; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.WriteHint(Writer: TWriter); begin Writer.WriteWideString(FHint); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.WriteText(Writer: TWriter); begin Writer.WriteWideString(FText); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.Assign(Source: TPersistent); var OldOptions: TVTColumnOptions; begin if Source is TVirtualTreeColumn then begin OldOptions := FOptions; FOptions := []; BiDiMode := TVirtualTreeColumn(Source).BiDiMode; ImageIndex := TVirtualTreeColumn(Source).ImageIndex; Layout := TVirtualTreeColumn(Source).Layout; Margin := TVirtualTreeColumn(Source).Margin; MaxWidth := TVirtualTreeColumn(Source).MaxWidth; MinWidth := TVirtualTreeColumn(Source).MinWidth; Position := TVirtualTreeColumn(Source).Position; Spacing := TVirtualTreeColumn(Source).Spacing; Style := TVirtualTreeColumn(Source).Style; Text := TVirtualTreeColumn(Source).Text; Hint := TVirtualTreeColumn(Source).Hint; Width := TVirtualTreeColumn(Source).Width; Alignment := TVirtualTreeColumn(Source).Alignment; Color := TVirtualTreeColumn(Source).Color; Tag := TVirtualTreeColumn(Source).Tag; // Order is important. Assign options last. FOptions := OldOptions; Options := TVirtualTreeColumn(Source).Options; Changed(False); end else inherited Assign(Source); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumn.Equals(OtherColumn: TVirtualTreeColumn): Boolean; begin Result := (BiDiMode = OtherColumn.BiDiMode) and (ImageIndex = OtherColumn.ImageIndex) and (Layout = OtherColumn.Layout) and (Margin = OtherColumn.Margin) and (MaxWidth = OtherColumn.MaxWidth) and (MinWidth = OtherColumn.MinWidth) and (Position = OtherColumn.Position) and (Spacing = OtherColumn.Spacing) and (Style = OtherColumn.Style) and (Text = OtherColumn.Text) and (Hint = OtherColumn.Hint) and (Width = OtherColumn.Width) and (Alignment = OtherColumn.Alignment) and (Color = OtherColumn.Color) and (Tag = OtherColumn.Tag) and (Options = OtherColumn.Options); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumn.GetRect: TRect; // Returns the rectangle this column occupies in the header (relative to (0, 0) of the non-client area). begin with TVirtualTreeColumns(GetOwner).FHeader do Result := Treeview.FHeaderRect; Inc(Result.Left, FLeft); Result.Right := Result.Left + FWidth; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.LoadFromStream(const Stream: TStream; Version: Integer); //--------------- local function -------------------------------------------- function ConvertOptions(Value: Cardinal): TVTColumnOptions; // Converts the given raw value which represents column options for possibly older // formats to the current format. //todo_lcl_check begin if Version >= 3 then Result := TVTColumnOptions(LongWord(Value and $FFFF)) else if Version = 2 then Result := TVTColumnOptions(LongWord(Value and $FF)) else begin // In version 2 coParentColor has been added. This needs an option shift for older stream formats. // The first (lower) 4 options remain as they are. Result := TVTColumnOptions(LongWord(Word(Value) and $F)); Value := (Value and not $F) shl 1; Result := Result + TVTColumnOptions(LongWord(Value and $FF)); end; end; //--------------- end local function ---------------------------------------- var Dummy: Integer; S: WideString; begin with Stream do begin ReadBuffer(Dummy, SizeOf(Dummy)); SetLength(S, Dummy); ReadBuffer(PWideChar(S)^, 2 * Dummy); Text := S; ReadBuffer(Dummy, SizeOf(Dummy)); SetLength(FHint, Dummy); ReadBuffer(PWideChar(FHint)^, 2 * Dummy); ReadBuffer(Dummy, SizeOf(Dummy)); Width := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); MinWidth := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); MaxWidth := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); Style := TVirtualTreeColumnStyle(Dummy); ReadBuffer(Dummy, SizeOf(Dummy)); ImageIndex := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); Layout := TVTHeaderColumnLayout(Dummy); ReadBuffer(Dummy, SizeOf(Dummy)); Margin := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); Spacing := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); BiDiMode := TBiDiMode(Dummy); ReadBuffer(Dummy, SizeOf(Dummy)); Options := ConvertOptions(Dummy); if Version > 0 then begin // Parts which have been introduced/changed with header stream version 1+. ReadBuffer(Dummy, SizeOf(Dummy)); Tag := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); Alignment := TAlignment(Dummy); if Version > 1 then begin ReadBuffer(Dummy, SizeOf(Dummy)); Color := TColor(Dummy); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.ParentBiDiModeChanged; var Columns: TVirtualTreeColumns; begin if coParentBiDiMode in FOptions then begin Columns := GetOwner as TVirtualTreeColumns; if Assigned(Columns) and (FBidiMode <> Columns.FHeader.Treeview.BiDiMode) then begin FBiDiMode := Columns.FHeader.Treeview.BiDiMode; Changed(False); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.ParentColorChanged; var Columns: TVirtualTreeColumns; begin if coParentColor in FOptions then begin Columns := GetOwner as TVirtualTreeColumns; if Assigned(Columns) and (FColor <> Columns.FHeader.Treeview.Color) then begin FColor := Columns.FHeader.Treeview.Color; Changed(False); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.RestoreLastWidth; begin TVirtualTreeColumns(GetOwner).AnimatedResize(Index, FLastWidth); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumn.SaveToStream(const Stream: TStream); var Dummy: Integer; begin with Stream do begin Dummy := Length(FText); WriteBuffer(Dummy, SizeOf(Dummy)); WriteBuffer(PWideChar(FText)^, 2 * Dummy); Dummy := Length(FHint); WriteBuffer(Dummy, SizeOf(Dummy)); WriteBuffer(PWideChar(FHint)^, 2 * Dummy); WriteBuffer(FWidth, SizeOf(FWidth)); WriteBuffer(FMinWidth, SizeOf(FMinWidth)); WriteBuffer(FMaxWidth, SizeOf(FMaxWidth)); Dummy := Ord(FStyle); WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := FImageIndex; WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := Ord(FLayout); WriteBuffer(Dummy, SizeOf(Dummy)); WriteBuffer(FMargin, SizeOf(FMargin)); WriteBuffer(FSpacing, SizeOf(FSpacing)); Dummy := Ord(FBiDiMode); WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := LongWord(FOptions); WriteBuffer(Dummy, SizeOf(Dummy)); // parts introduce with stream version 1 WriteBuffer(FTag, SizeOf(Dummy)); Dummy := Cardinal(FAlignment); WriteBuffer(Dummy, SizeOf(Dummy)); // parts introduce with stream version 2 Dummy := Integer(FColor); WriteBuffer(Dummy, SizeOf(Dummy)); end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumn.UseRightToLeftReading: Boolean; begin Result := FBiDiMode <> bdLeftToRight; end; //----------------- TVirtualTreeColumns -------------------------------------------------------------------------------- constructor TVirtualTreeColumns.Create(AOwner: TVTHeader); var ColumnClass: TVirtualTreeColumnClass; begin FHeader := AOwner; // Determine column class to be used in the header. ColumnClass := AOwner.FOwner.GetColumnClass; // The owner tree always returns the default tree column class if not changed by application/descendants. inherited Create(ColumnClass); FHeaderBitmap := TBitmap.Create; FHeaderBitmap.PixelFormat := pf32Bit; FHoverIndex := NoColumn; FDownIndex := NoColumn; FClickIndex := NoColumn; FDropTarget := NoColumn; FTrackIndex := NoColumn; end; //---------------------------------------------------------------------------------------------------------------------- destructor TVirtualTreeColumns.Destroy; begin FHeaderBitmap.Free; inherited; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetItem(Index: TColumnIndex): TVirtualTreeColumn; begin Result := TVirtualTreeColumn(inherited GetItem(Index)); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetNewIndex(P: TPoint; var OldIndex: TColumnIndex): Boolean; var NewIndex: Integer; begin Result := False; // convert to local coordinates Inc(P.Y, FHeader.FHeight); NewIndex := ColumnFromPosition(P); if NewIndex <> OldIndex then begin if OldIndex > NoColumn then FHeader.Invalidate(Items[OldIndex]); OldIndex := NewIndex; if OldIndex > NoColumn then FHeader.Invalidate(Items[OldIndex]); Result := True; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.SetItem(Index: TColumnIndex; Value: TVirtualTreeColumn); begin inherited SetItem(Index, Value); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.AdjustAutoSize(CurrentIndex: TColumnIndex; Force: Boolean = False); // Called only if the header is in auto-size mode which means a column needs to be so large // that it fills all the horizontal space not occupied by the other columns. // CurrentIndex (if not InvalidColumn) describes which column has just been resized. var NewValue, AutoIndex, Index, RestWidth: Integer; begin if Count > 0 then begin // Determine index to be used for auto resizing. This is usually given by the owner's AutoSizeIndex, but // could be different if the column whose resize caused the invokation here is either the auto column itself // or visually to the right of the auto size column. AutoIndex := FHeader.FAutoSizeIndex; if (AutoIndex < 0) or (AutoIndex >= Count) then AutoIndex := Count - 1; if AutoIndex >= 0 then begin with FHeader.Treeview do begin if HandleAllocated then RestWidth := ClientWidth else RestWidth := Width; end; // Go through all columns and calculate the rest space remaining. for Index := 0 to Count - 1 do if (Index <> AutoIndex) and (coVisible in Items[Index].FOptions) then Dec(RestWidth, Items[Index].Width); with Items[AutoIndex] do begin NewValue := Max(MinWidth, Min(MaxWidth, RestWidth)); if Force or (FWidth <> NewValue) then begin FWidth := NewValue; UpdatePositions; FHeader.Treeview.DoColumnResize(AutoIndex); end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.AdjustDownColumn(P: TPoint): TColumnIndex; // Determines the column from the given position and returns it. If this column is allowed to be clicked then // it is also kept for later use. begin // Convert to local coordinates. Inc(P.Y, FHeader.FHeight); Result := ColumnFromPosition(P); if (Result > NoColumn) and (Result <> FDownIndex) and (coAllowClick in Items[Result].FOptions) and (coEnabled in Items[Result].FOptions) then begin if FDownIndex > NoColumn then FHeader.Invalidate(Items[FDownIndex]); FDownIndex := Result; FHeader.Invalidate(Items[FDownIndex]); end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.AdjustHoverColumn(P: TPoint): Boolean; // Determines the new hover column index and returns True if the index actually changed else False. begin Result := GetNewIndex(P, FHoverIndex); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.AdjustPosition(Column: TVirtualTreeColumn; Position: Cardinal); // Reorders the column position array so that the given column gets the given position. var OldPosition: Cardinal; begin OldPosition := Column.Position; if OldPosition <> Position then begin if OldPosition < Position then begin // column will be moved up so move down other entries Move(FPositionToIndex[OldPosition + 1], FPositionToIndex[OldPosition], (Position - OldPosition) * SizeOf(Cardinal)); end else begin // column will be moved down so move up other entries Move(FPositionToIndex[Position], FPositionToIndex[Position + 1], (OldPosition - Position) * SizeOf(Cardinal)); end; FPositionToIndex[Position] := Column.Index; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.DrawButtonText(DC: HDC; Caption: WideString; Bounds: TRect; Enabled, Hot: Boolean; DrawFormat: Cardinal); var TextSpace: Integer; Size: TSize; begin // Do we need to shorten the caption due to limited space? GetTextExtentPoint32W(DC, PWideChar(Caption), Length(Caption), Size); TextSpace := Bounds.Right - Bounds.Left; if TextSpace < Size.cx then Caption := ShortenString(DC, Caption, TextSpace); SetBkMode(DC, TRANSPARENT); if not Enabled then begin OffsetRect(Bounds, 1, 1); SetTextColor(DC, ColorToRGB(clBtnHighlight)); DrawTextW(DC, PWideChar(Caption), Length(Caption), Bounds, DrawFormat); OffsetRect(Bounds, -1, -1); SetTextColor(DC, ColorToRGB(clBtnShadow)); DrawTextW(DC, PWideChar(Caption), Length(Caption), Bounds, DrawFormat); end else begin if Hot then SetTextColor(DC, ColorToRGB(FHeader.Treeview.FColors.HeaderHotColor)) else SetTextColor(DC, ColorToRGB(FHeader.FFont.Color)); DrawTextW(DC, PWideChar(Caption), Length(Caption), Bounds, DrawFormat); end; end; //---------------------------------------------------------------------------------------------------------------------- // XP style header button legacy code. This procedure is only used on non-XP systems to simulate the themed // header style. // Note: the theme elements displayed here only correspond to the standard themes of Windows XP const XPMainHeaderColorUp = $DBEAEB; // Main background color of the header if drawn as being not pressed. XPMainHeaderColorDown = $D8DFDE; // Main background color of the header if drawn as being pressed. XPMainHeaderColorHover = $F3F8FA; // Main background color of the header if drawn as being under the mouse pointer. XPDarkSplitBarColor = $B2C5C7; // Dark color of the splitter bar. XPLightSplitBarColor = $FFFFFF; // Light color of the splitter bar. XPDarkGradientColor = $B8C7CB; // Darkest color in the bottom gradient. Other colors will be interpolated. XPDownOuterLineColor = $97A5A5; // Down state border color. XPDownMiddleLineColor = $B8C2C1; // Down state border color. XPDownInnerLineColor = $C9D1D0; // Down state border color. procedure TVirtualTreeColumns.DrawXPButton(DC: HDC; ButtonR: TRect; DrawSplitter, Down, Hover: Boolean); // Helper procedure to draw an Windows XP like header button. var PaintBrush: HBRUSH; Pen, OldPen: HPEN; PenColor, FillColor: COLORREF; dRed, dGreen, dBlue: Single; Width, XPos: Integer; begin if Down then FillColor := XPMainHeaderColorDown else if Hover then FillColor := XPMainHeaderColorHover else FillColor := XPMainHeaderColorUp; PaintBrush := CreateSolidBrush(FillColor); FillRect(DC, ButtonR, PaintBrush); DeleteObject(PaintBrush); if DrawSplitter and not (Down or Hover) then begin // One solid pen for the dark line... Pen := CreatePen(PS_SOLID, 1, XPDarkSplitBarColor); OldPen := SelectObject(DC, Pen); MoveToEx(DC, ButtonR.Right - 2, ButtonR.Top + 3, nil); LineTo(DC, ButtonR.Right - 2, ButtonR.Bottom - 5); // ... and one solid pen for the light line. Pen := CreatePen(PS_SOLID, 1, XPLightSplitBarColor); DeleteObject(SelectObject(DC, Pen)); MoveToEx(DC, ButtonR.Right - 1, ButtonR.Top + 3, nil); LineTo(DC, ButtonR.Right - 1, ButtonR.Bottom - 5); SelectObject(DC, OldPen); DeleteObject(Pen); end; if Down then begin // Down state. Three lines to draw. // First one is the outer line, drawn at left, bottom and right. Pen := CreatePen(PS_SOLID, 1, XPDownOuterLineColor); OldPen := SelectObject(DC, Pen); MoveToEx(DC, ButtonR.Left, ButtonR.Top, nil); LineTo(DC, ButtonR.Left, ButtonR.Bottom - 1); LineTo(DC, ButtonR.Right - 1, ButtonR.Bottom - 1); LineTo(DC, ButtonR.Right - 1, ButtonR.Top - 1); // Second one is the middle line, which is a bit lighter. Pen := CreatePen(PS_SOLID, 1, XPDownMiddleLineColor); DeleteObject(SelectObject(DC, Pen)); MoveToEx(DC, ButtonR.Left + 1, ButtonR.Bottom - 2, nil); LineTo(DC, ButtonR.Left + 1, ButtonR.Top); LineTo(DC, ButtonR.Right - 1, ButtonR.Top); // Third line is the inner line, which is even lighter than the middle line. Pen := CreatePen(PS_SOLID, 1, XPDownInnerLineColor); DeleteObject(SelectObject(DC, Pen)); MoveToEx(DC, ButtonR.Left + 2, ButtonR.Bottom - 2, nil); LineTo(DC, ButtonR.Left + 2, ButtonR.Top + 1); LineTo(DC, ButtonR.Right - 1, ButtonR.Top + 1); // Housekeeping: SelectObject(DC, OldPen); DeleteObject(Pen); end else if Hover then begin // Hover state. There are three lines at the bottom border, but they are rendered in a way which // requires expensive construction. Width := ButtonR.Right - ButtonR.Left; if Width <= 32 then begin BitBlt(DC, ButtonR.Right - 16, ButtonR.Bottom - 3, UtilityImageSize, 3, UtilityImages.Canvas.Handle, 8 * UtilityImageSize, 0, SRCCOPY); //ImageList_DrawEx(UtilityImages.Handle, 8, DC, ButtonR.Right - 16, ButtonR.Bottom - 3, 16, 3, CLR_NONE, CLR_NONE, // ILD_NORMAL); BitBlt(DC, ButtonR.Left, ButtonR.Bottom - 3, Width div 2, 3, UtilityImages.Canvas.Handle, 6 * UtilityImageSize, 0, SRCCOPY); //ImageList_DrawEx(UtilityImages.Handle, 6, DC, ButtonR.Left, ButtonR.Bottom - 3, Width div 2, 3, CLR_NONE, // CLR_NONE, ILD_NORMAL); end else begin BitBlt(DC, ButtonR.Left, ButtonR.Bottom - 3, UtilityImageSize, 3, UtilityImages.Canvas.Handle, 6 * UtilityImageSize, 0, SRCCOPY); //ImageList_DrawEx(UtilityImages.Handle, 6, DC, ButtonR.Left, ButtonR.Bottom - 3, 16, 3, CLR_NONE, CLR_NONE, // ILD_NORMAL); // Replicate inner part as many times as need to fill up the button rectangle. XPos := ButtonR.Left + 16; repeat BitBlt(DC, XPos, ButtonR.Bottom - 3, UtilityImageSize, 3, UtilityImages.Canvas.Handle, 7 * UtilityImageSize, 0, SRCCOPY); //ImageList_DrawEx(UtilityImages.Handle, 7, DC, XPos, ButtonR.Bottom - 3, 16, 3, CLR_NONE, CLR_NONE, ILD_NORMAL); Inc(XPos, 16); until XPos + 16 >= ButtonR.Right; BitBlt(DC, ButtonR.Right - 16, ButtonR.Bottom - 3, UtilityImageSize, 3, UtilityImages.Canvas.Handle, 8 * UtilityImageSize, 0, SRCCOPY); //ImageList_DrawEx(UtilityImages.Handle, 8, DC, ButtonR.Right - 16, ButtonR.Bottom - 3, 16, 3, CLR_NONE, CLR_NONE, // ILD_NORMAL); end; end else begin // There is a three line gradient near the bottom border which transforms from the button color to a dark, // clBtnFace like color (here XPDarkGradientColor). PenColor := XPMainHeaderColorUp; dRed := ((PenColor and $FF) - (XPDarkGradientColor and $FF)) / 3; dGreen := (((PenColor shr 8) and $FF) - ((XPDarkGradientColor shr 8) and $FF)) / 3; dBlue := (((PenColor shr 16) and $FF) - ((XPDarkGradientColor shr 16) and $FF)) / 3; // First line: PenColor := PenColor - Round(dRed) - Round(dGreen) shl 8 - Round(dBlue) shl 16; Pen := CreatePen(PS_SOLID, 1, PenColor); OldPen := SelectObject(DC, Pen); MoveToEx(DC, ButtonR.Left, ButtonR.Bottom - 3, nil); LineTo(DC, ButtonR.Right, ButtonR.Bottom - 3); // Second line: PenColor := PenColor - Round(dRed) - Round(dGreen) shl 8 - Round(dBlue) shl 16; Pen := CreatePen(PS_SOLID, 1, PenColor); DeleteObject(SelectObject(DC, Pen)); MoveToEx(DC, ButtonR.Left, ButtonR.Bottom - 2, nil); LineTo(DC, ButtonR.Right, ButtonR.Bottom - 2); // Third line: Pen := CreatePen(PS_SOLID, 1, XPDarkGradientColor); DeleteObject(SelectObject(DC, Pen)); MoveToEx(DC, ButtonR.Left, ButtonR.Bottom - 1, nil); LineTo(DC, ButtonR.Right, ButtonR.Bottom - 1); // Housekeeping: DeleteObject(SelectObject(DC, OldPen)); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.FixPositions; // Fixes column positions after loading from DFM or Bidi mode change. var I: Integer; begin for I := 0 to Count - 1 do FPositionToIndex[Items[I].Position] := I; FNeedPositionsFix := False; UpdatePositions(True); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetColumnAndBounds(P: TPoint; var ColumnLeft, ColumnRight: Integer; Relative: Boolean = True): Integer; // Returns the column where the mouse is currently in as well as the left and right bound of // this column (Left and Right are undetermined if no column is involved). var I: Integer; begin Result := InvalidColumn; if Relative and (P.X > Header.Columns.GetVisibleFixedWidth) then ColumnLeft := -FHeader.Treeview.FEffectiveOffsetX else ColumnLeft := 0; if FHeader.Treeview.UseRightToLeftAlignment then Inc(ColumnLeft, FHeader.Treeview.ComputeRTLOffset(True)); for I := 0 to Count - 1 do with Items[FPositionToIndex[I]] do if coVisible in FOptions then begin ColumnRight := ColumnLeft + FWidth; if P.X < ColumnRight then begin Result := FPositionToIndex[I]; Exit; end; ColumnLeft := ColumnRight; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetOwner: TPersistent; begin Result := FHeader; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.HandleClick(P: TPoint; Button: TMouseButton; Force, DblClick: Boolean); // Generates a click event if the mouse button has been released over the same column it was pressed first. // Alternatively, Force might be set to True to indicate that the down index does not matter (right, middle and // double click). var NewClickIndex: Integer; Shift: TShiftState; begin // Convert vertical position to local coordinates. Inc(P.Y, FHeader.FHeight); NewClickIndex := ColumnFromPosition(P); if (NewClickIndex > NoColumn) and (coAllowClick in Items[NewClickIndex].FOptions) and ((NewClickIndex = FDownIndex) or Force) then begin FClickIndex := NewClickIndex; Shift := FHeader.GetShiftState; if DblClick then Shift := Shift + [ssDouble]; FHeader.Treeview.DoHeaderClick(NewClickIndex, Button, Shift, P.X, P.Y); FHeader.Invalidate(Items[NewClickIndex]); end else FClickIndex := NoColumn; if (FClickIndex > NoColumn) and (FClickIndex <> NewClickIndex) then FHeader.Invalidate(Items[FClickIndex]); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.IndexChanged(OldIndex, NewIndex: Integer); // Called by a column when its index in the collection changes. If NewIndex is -1 then the column is // about to be removed, otherwise it is moved to a new index. // The method will then update the position array to reflect the change. var I: Integer; Increment: Integer; Lower, Upper: Integer; begin if NewIndex = -1 then begin // Find position in the array with the old index. Upper := High(FPositionToIndex); for I := 0 to Upper do begin if FPositionToIndex[I] = OldIndex then begin // Index found. Move all higher entries one step down and remove the last entry. if I < Upper then Move(FPositionToIndex[I + 1], FPositionToIndex[I], (Upper - I) * SizeOf(Integer)); end; // Decrease all indices, which are greater than the index to be deleted. if FPositionToIndex[I] > OldIndex then Dec(FPositionToIndex[I]); end; SetLength(FPositionToIndex, High(FPositionToIndex)); end else begin if OldIndex < NewIndex then Increment := -1 else Increment := 1; Lower := Min(OldIndex, NewIndex); Upper := Max(OldIndex, NewIndex); for I := 0 to High(FPositionToIndex) do begin if (FPositionToIndex[I] >= Lower) and (FPositionToIndex[I] < Upper) then Inc(FPositionToIndex[I], Increment) else if FPositionToIndex[I] = OldIndex then FPositionToIndex[I] := NewIndex; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.InitializePositionArray; // Ensures that the column position array contains as many entries as columns are defined. // The array is resized and initialized with default values if needed. var I, OldSize: Integer; Changed: Boolean; begin if Count <> Length(FPositionToIndex) then begin OldSize := Length(FPositionToIndex); SetLength(FPositionToIndex, Count); if Count > OldSize then begin // New items have been added, just set their position to the same as their index. for I := OldSize to Count - 1 do FPositionToIndex[I] := I; end else begin // Items have been deleted, so reindex remaining entries by decrementing values larger than the highest // possible index until no entry is higher than this limit. repeat Changed := False; for I := 0 to Count - 1 do if FPositionToIndex[I] >= Count then begin Dec(FPositionToIndex[I]); Changed := True; end; until not Changed; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.ReorderColumns(RTL: Boolean); var I: Integer; begin if RTL then begin for I := 0 to Count - 1 do FPositionToIndex[I] := Count - I - 1; end else begin for I := 0 to Count - 1 do FPositionToIndex[I] := I; end; UpdatePositions(True); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.Update(Item: TCollectionItem); begin // This is the only place which gets notified when a new column has been added or removed // and we need this event to adjust the column position array. InitializePositionArray; if csLoading in Header.Treeview.ComponentState then FNeedPositionsFix := True else UpdatePositions; // The first column which is created is by definition also the main column. if (Count > 0) and (Header.FMainColumn < 0) then FHeader.FMainColumn := 0; if not (csLoading in Header.Treeview.ComponentState) and not (hsLoading in FHeader.FStates) then begin with FHeader do begin if hoAutoResize in FOptions then AdjustAutoSize(InvalidColumn); if Assigned(Item) then Invalidate(Item as TVirtualTreeColumn) else if Treeview.HandleAllocated then begin Treeview.UpdateHorizontalScrollBar(False); Invalidate(nil); Treeview.Invalidate; end; if not (tsUpdating in Treeview.FStates) then // This is mainly to let the designer know when a change occurs at design time which // doesn't involve the object inspector (like column resizing with the mouse). // This does NOT include design time code as the communication is done via an interface. Treeview.UpdateDesigner; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.UpdatePositions(Force: Boolean = False); // Recalculates the left border of every column and updates their position property according to the // PostionToIndex array which primarily determines where each column is placed visually. var I, RunningPos: Integer; begin if not FNeedPositionsFix and (Force or (UpdateCount = 0)) then begin RunningPos := 0; for I := 0 to High(FPositionToIndex) do with Items[FPositionToIndex[I]] do begin FPosition := I; FLeft := RunningPos; if coVisible in FOptions then Inc(RunningPos, FWidth); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.Add: TVirtualTreeColumn; begin Result := TVirtualTreeColumn(inherited Add); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.AnimatedResize(Column: TColumnIndex; NewWidth: Integer); // Resizes the given column animated by scrolling the window DC. var OldWidth: Integer; DC: HDC; I, Steps, DX: Integer; HeaderScrollRect, ScrollRect, R: TRect; NewBrush, LastBrush: HBRUSH; begin // Make sure the width constrains are considered. if NewWidth < Items[Column].FMinWidth then NewWidth := Items[Column].FMinWidth; if NewWidth > Items[Column].FMaxWidth then NewWidth := Items[Column].FMaxWidth; OldWidth := Items[Column].Width; // Nothing to do if the width is the same. if OldWidth <> NewWidth then begin DC := GetWindowDC(FHeader.Treeview.Handle); with FHeader.Treeview do try Steps := 32; DX := (NewWidth - OldWidth) div Steps; // Determination of the scroll rectangle is a bit complicated since we neither want // to scroll the scrollbars nor the border of the treeview window. HeaderScrollRect := FHeaderRect; ScrollRect := HeaderScrollRect; // Exclude the header itself from scrolling. ScrollRect.Top := ScrollRect.Bottom; ScrollRect.Bottom := ScrollRect.Top + ClientHeight; ScrollRect.Right := ScrollRect.Left + ClientWidth; with Items[Column] do Inc(ScrollRect.Left, FLeft + FWidth); HeaderScrollRect.Left := ScrollRect.Left; HeaderScrollRect.Right := ScrollRect.Right; // When the new width is larger then avoid artefacts on the left hand side // by deleting a small stripe if NewWidth > OldWidth then begin R := ScrollRect; NewBrush := CreateSolidBrush(ColorToRGB(Color)); LastBrush := SelectObject(DC, NewBrush); R.Right := R.Left + DX; FillRect(DC, R, NewBrush); SelectObject(DC, LastBrush); DeleteObject(NewBrush); end else begin Inc(HeaderScrollRect.Left, DX); Inc(ScrollRect.Left, DX); end; for I := 0 to Steps - 1 do begin ScrollDC(DC, DX, 0, HeaderScrollRect, HeaderScrollRect, 0, nil); Inc(HeaderScrollRect.Left, DX); ScrollDC(DC, DX, 0, ScrollRect, ScrollRect, 0, nil); Inc(ScrollRect.Left, DX); Sleep(1); end; finally ReleaseDC(Handle, DC); end; Items[Column].Width := NewWidth; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.Assign(Source: TPersistent); begin // Let the collection class assign the items. inherited; if Source is TVirtualTreeColumns then begin // Copying the position array is the only needed task here. FPositionToIndex := Copy(TVirtualTreeColumns(Source).FPositionToIndex, 0, MaxInt); // Make sure the left edges are correct after assignment. FNeedPositionsFix := False; UpdatePositions(True); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.Clear; begin FClearing := True; try // Since we're freeing all columns, the following have to be true when we're done. FHoverIndex := NoColumn; FDownIndex := NoColumn; FTrackIndex := NoColumn; FClickIndex := NoColumn; with Header do if not (hsLoading in FStates) then begin FAutoSizeIndex := NoColumn; FMainColumn := NoColumn; FSortColumn := NoColumn; end; inherited Clear; finally FClearing := False; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.ColumnFromPosition(P: TPoint; Relative: Boolean = True): TColumnIndex; // Determines the current column based on the position passed in P. var I, Sum: Integer; begin Result := InvalidColumn; // The position must be within the header area, but we extend the vertical bounds to the entire treeview area. if (P.X >= 0) and (P.Y >= 0) and (P.Y <= FHeader.TreeView.Height) then with FHeader, Treeview do begin if Relative and (P.X > GetVisibleFixedWidth) then Sum := -FEffectiveOffsetX else Sum := 0; if UseRightToLeftAlignment then Inc(Sum, ComputeRTLOffset(True)); for I := 0 to Count - 1 do if coVisible in Items[FPositionToIndex[I]].FOptions then begin Inc(Sum, Items[FPositionToIndex[I]].Width); if P.X < Sum then begin Result := FPositionToIndex[I]; Break; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.ColumnFromPosition(PositionIndex: TColumnPosition): TColumnIndex; // Returns the index of the column at the given position. begin if Integer(PositionIndex) < Length(FPositionToIndex) then Result := FPositionToIndex[PositionIndex] else Result := NoColumn; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.Equals(OtherColumns: TVirtualTreeColumns): Boolean; // Compares itself with the given set of columns and returns True if all published properties are the same // (including column order), otherwise False is returned. var I: Integer; begin // Same number of columns? Result := OtherColumns.Count = Count; if Result then begin // Same order of columns? Result := CompareMem(Pointer(FPositionToIndex), Pointer(OtherColumns.FPositionToIndex), Length(FPositionToIndex) * SizeOf(TColumnIndex)); if Result then begin for I := 0 to Count - 1 do if not Items[I].Equals(OtherColumns[I]) then begin Result := False; Break; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.GetColumnBounds(Column: TColumnIndex; var Left, Right: Integer); // Returns the left and right bound of the given column. If Column is NoColumn then the entire client width is returned. begin if Column = NoColumn then begin Left := 0; Right := FHeader.Treeview.ClientWidth; end else begin Left := Items[Column].Left; Right := Left + Items[Column].Width; if FHeader.Treeview.UseRightToLeftAlignment then begin Inc(Left, FHeader.Treeview.ComputeRTLOffset(True)); Inc(Right, FHeader.Treeview.ComputeRTLOffset(True)); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetFirstVisibleColumn: TColumnIndex; // Returns the index of the first visible column or "InvalidColumn" if either no columns are defined or // all columns are hidden. var I: Integer; begin Result := InvalidColumn; for I := 0 to Count - 1 do if coVisible in Items[FPositionToIndex[I]].FOptions then begin Result := FPositionToIndex[I]; Break; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetLastVisibleColumn: TColumnIndex; // Returns the index of the last visible column or "InvalidColumn" if either no columns are defined or // all columns are hidden. var I: Integer; begin Result := InvalidColumn; for I := Count - 1 downto 0 do if coVisible in Items[FPositionToIndex[I]].FOptions then begin Result := FPositionToIndex[I]; Break; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetNextColumn(Column: TColumnIndex): TColumnIndex; // Returns the next column in display order. Column is the index of an item in the collection (a column). var Position: Integer; begin if Column < 0 then Result := InvalidColumn else begin Position := Items[Column].Position; if Position < Count - 1 then Result := FPositionToIndex[Position + 1] else Result := InvalidColumn; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetNextVisibleColumn(Column: TColumnIndex): TColumnIndex; // Returns the next visible column in display order, Column is an index into the columns list. begin Result := Column; repeat Result := GetNextColumn(Result); until (Result = InvalidColumn) or (coVisible in Items[Result].FOptions); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetPreviousColumn(Column: TColumnIndex): TColumnIndex; // Returns the previous column in display order, Column is an index into the columns list. var Position: Integer; begin if Column < 0 then Result := InvalidColumn else begin Position := Items[Column].Position; if Position > 0 then Result := FPositionToIndex[Position - 1] else Result := InvalidColumn; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetPreviousVisibleColumn(Column: TColumnIndex): TColumnIndex; // Returns the previous column in display order, Column is an index into the columns list. begin Result := Column; repeat Result := GetPreviousColumn(Result); until (Result = InvalidColumn) or (coVisible in Items[Result].FOptions); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetVisibleColumns: TColumnsArray; // Returns a list of all currently visible columns in actual order. var I, Counter: Integer; begin SetLength(Result, Count); Counter := 0; for I := 0 to Count - 1 do if coVisible in Items[FPositionToIndex[I]].FOptions then begin Result[Counter] := Items[FPositionToIndex[I]]; Inc(Counter); end; // Set result length to actual visible count. SetLength(Result, Counter); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.GetVisibleFixedWidth: Integer; // Determines the horizontal space all visible and fixed columns occupy. var I: Integer; begin Result := 0; for I := 0 to Count - 1 do begin if Items[I].Options * [coVisible, coFixed] = [coVisible, coFixed] then Inc(Result, Items[I].Width); end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.IsValidColumn(Column: TColumnIndex): Boolean; // Determines whether the given column is valid or not, that is, whether it is one of the current columns. begin Result := (Column > NoColumn) and (Column < Count); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.LoadFromStream(const Stream: TStream; Version: Integer); var I, ItemCount: Integer; begin Clear; Stream.ReadBuffer(ItemCount, SizeOf(ItemCount)); // number of columns if ItemCount > 0 then begin BeginUpdate; try for I := 0 to ItemCount - 1 do Add.LoadFromStream(Stream, Version); SetLength(FPositionToIndex, ItemCount); Stream.ReadBuffer(FPositionToIndex[0], ItemCount * SizeOf(Cardinal)); UpdatePositions(True); finally EndUpdate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.PaintHeader(DC: HDC; R: TRect; HOffset: Integer); // Main paint method to draw the header. const SortGlyphs: array[TSortDirection, Boolean] of Integer = ( // ascending/descending, normal/XP style (3, 5) {ascending}, (2, 4) {descending} ); var I, Y, SortIndex: Integer; Run: TRect; RightBorderFlag, NormalButtonStyle, NormalButtonFlags, PressedButtonStyle, PressedButtonFlags, RaisedButtonStyle, RaisedButtonFlags: Cardinal; DrawFormat: Cardinal; Images: TCustomImageList; ButtonRgn: HRGN; OwnerDraw, AdvancedOwnerDraw: Boolean; {$ifdef ThemeSupport} Details: TThemedElementDetails; {$endif ThemeSupport} PaintInfo: THeaderPaintInfo; RequestedElements, ActualElements: THeaderPaintElements; SavedDC: Integer; Temp: TRect; begin Run := FHeader.Treeview.FHeaderRect; FHeaderBitmap.Width := Max(Run.Right, R.Right - R.Left); FHeaderBitmap.Height := Run.Bottom; OwnerDraw := (hoOwnerDraw in FHeader.FOptions) and Assigned(FHeader.Treeview.FOnHeaderDraw) and not (csDesigning in FHeader.Treeview.ComponentState); AdvancedOwnerDraw := (hoOwnerDraw in FHeader.FOptions) and Assigned(FHeader.Treeview.FOnAdvancedHeaderDraw) and Assigned(FHeader.Treeview.FOnHeaderDrawQueryElements) and not (csDesigning in FHeader.Treeview.ComponentState); // If both draw posibillities are specified then prefer the advanced way. if AdvancedOwnerDraw then OwnerDraw := False; FillChar(PaintInfo, SizeOf(PaintInfo),#0); PaintInfo.TargetCanvas := FHeaderBitmap.Canvas; with PaintInfo, TargetCanvas do begin Font := FHeader.FFont; RaisedButtonStyle := 0; RaisedButtonFlags := 0; case FHeader.Style of hsThickButtons: begin NormalButtonStyle := BDR_RAISEDINNER or BDR_RAISEDOUTER; NormalButtonFlags := BF_LEFT or BF_TOP or BF_BOTTOM or BF_MIDDLE or BF_SOFT or BF_ADJUST; PressedButtonStyle := BDR_RAISEDINNER or BDR_RAISEDOUTER; PressedButtonFlags := NormalButtonFlags or BF_RIGHT or BF_FLAT or BF_ADJUST; end; hsFlatButtons: begin NormalButtonStyle := BDR_RAISEDINNER; NormalButtonFlags := BF_LEFT or BF_TOP or BF_BOTTOM or BF_MIDDLE or BF_ADJUST; PressedButtonStyle := BDR_SUNKENOUTER; PressedButtonFlags := BF_RECT or BF_MIDDLE or BF_ADJUST; end; else // hsPlates or hsXPStyle, values are not used in the latter case begin NormalButtonStyle := BDR_RAISEDINNER; NormalButtonFlags := BF_RECT or BF_MIDDLE or BF_SOFT or BF_ADJUST; PressedButtonStyle := BDR_SUNKENOUTER; PressedButtonFlags := BF_RECT or BF_MIDDLE or BF_ADJUST; RaisedButtonStyle := BDR_RAISEDINNER; RaisedButtonFlags := BF_LEFT or BF_TOP or BF_BOTTOM or BF_MIDDLE or BF_ADJUST; end; end; // Use shortcut for the images. Images := FHeader.FImages; // Consider right-to-left directionality. with FHeader.Treeview do if UseRightToLeftAlignment then Inc(HOffset, ComputeRTLOffset); // Erase background of the header. // See if the application wants to do that on its own. RequestedElements := []; if AdvancedOwnerDraw then begin PaintInfo.PaintRectangle := R; PaintInfo.Column := nil; FHeader.Treeview.DoHeaderDrawQueryElements(PaintInfo, RequestedElements); end; if hpeBackground in RequestedElements then begin FHeader.Treeview.DoAdvancedHeaderDraw(PaintInfo, [hpeBackground]); end else begin {$ifdef ThemeSupport} if tsUseThemes in FHeader.Treeview.FStates then begin Details := ThemeServices.GetElementDetails(thHeaderItemRightNormal); ThemeServices.DrawElement(Handle, Details, R, @R); end else {$endif ThemeSupport} if FHeader.Style = hsXPStyle then DrawXPButton(Handle, Run, False, False, False) else begin Brush.Color := FHeader.FBackground; FillRect(R); end; end; Run.Top := R.Top; Run.Right := R.Left; Run.Bottom := R.Bottom; // Run.Left is set in the loop Temp := Run; //todo_lcl_check ShowRightBorder := (FHeader.Style = hsThickButtons) or not (hoAutoResize in FHeader.FOptions);// or //(FHeader.Treeview.BevelKind = bkNone); // Now go for each button. for I := 0 to Count - 1 do begin with Items[FPositionToIndex[I]] do if coVisible in FOptions then begin if not (coFixed in FOptions) then begin Inc(Run.Right, HOffset); HOffset := 0; end; Temp := Rect(Temp.Right, Run.Top, Max(Temp.Right, Run.Right + Width), Run.Bottom); Run.Left := Run.Right; Inc(Run.Right, Width); // Skip columns which are not visible at all. if (Run.Right > R.Left) and (Run.Right > Temp.Left) then begin // Stop painting if the rectangle is filled. if Run.Left > R.Right then Break; // Create a clip region to avoid overpainting any other area which does not belong to this column. if Temp.Right > R.Right then Temp.Right := R.Right; if Temp.Left < R.Left then Temp.Left := R.Left; ButtonRgn := CreateRectRgnIndirect(Temp); SelectClipRgn(Handle, ButtonRgn); DeleteObject(ButtonRgn); IsHoverIndex := (Integer(FPositionToIndex[I]) = FHoverIndex) and (hoHotTrack in FHeader.FOptions) and (coEnabled in FOptions); IsDownIndex := Integer(FPositionToIndex[I]) = FDownIndex; if (coShowDropMark in FOptions) and (Integer(FPositionToIndex[I]) = FDropTarget) and (Integer(FPositionToIndex[I]) <> FDragIndex) then begin if FDropBefore then DropMark := dmmLeft else DropMark := dmmRight; end else DropMark := dmmNone; IsEnabled := (coEnabled in FOptions) and (FHeader.Treeview.Enabled); ShowHeaderGlyph := (hoShowImages in FHeader.FOptions) and Assigned(Images) and (FImageIndex > -1); ShowSortGlyph := (Integer(FPositionToIndex[I]) = FHeader.FSortColumn) and (hoShowSortGlyphs in FHeader.FOptions); PaintRectangle := Run; // This path for text columns or advanced owner draw. if (Style = vsText) or not OwnerDraw or AdvancedOwnerDraw then begin // See if the application wants to draw part of the header itself. RequestedElements := []; if AdvancedOwnerDraw then begin PaintInfo.Column := Items[FPositionToIndex[I]]; FHeader.Treeview.DoHeaderDrawQueryElements(PaintInfo, RequestedElements); end; if ShowRightBorder or (I < Count - 1) then RightBorderFlag := BF_RIGHT else RightBorderFlag := 0; if hpeBackground in RequestedElements then FHeader.Treeview.DoAdvancedHeaderDraw(PaintInfo, [hpeBackground]) else begin // Draw button first before setting the clip region. {$ifdef ThemeSupport} if tsUseThemes in FHeader.Treeview.FStates then begin if IsDownIndex then Details := ThemeServices.GetElementDetails(thHeaderItemPressed) else if IsHoverIndex then Details := ThemeServices.GetElementDetails(thHeaderItemHot) else Details := ThemeServices.GetElementDetails(thHeaderItemNormal); ThemeServices.DrawElement(Handle, Details, PaintRectangle, @PaintRectangle); end else {$endif ThemeSupport} begin if FHeader.Style = hsXPStyle then DrawXPButton(Handle, PaintRectangle, RightBorderFlag <> 0, IsDownIndex, IsHoverIndex) else if IsDownIndex then DrawEdge(Handle, PaintRectangle, PressedButtonStyle, PressedButtonFlags) else // Plates have the special case of raising on mouse over. if (FHeader.Style = hsPlates) and IsHoverIndex and (coAllowClick in FOptions) and (coEnabled in FOptions) then DrawEdge(Handle, PaintRectangle, RaisedButtonStyle, RaisedButtonFlags or RightBorderFlag) else DrawEdge(Handle, PaintRectangle, NormalButtonStyle, NormalButtonFlags or RightBorderFlag); end; end; end; PaintRectangle := Run; if (Style = vsText) or not OwnerDraw or AdvancedOwnerDraw then begin // calculate text and glyph position InflateRect(PaintRectangle, -2, -2); DrawFormat := DT_LEFT or DT_TOP or DT_NOPREFIX; if UseRightToLeftReading then DrawFormat := DrawFormat + DT_RTLREADING; ComputeHeaderLayout(Handle, PaintRectangle, ShowHeaderGlyph, ShowSortGlyph, GlyphPos, SortGlyphPos, TextRectangle); // Move glyph and text one pixel to the right and down to simulate a pressed button. if IsDownIndex then begin OffsetRect(TextRectangle, 1, 1); Inc(GlyphPos.X); Inc(GlyphPos.Y); Inc(SortGlyphPos.X); Inc(SortGlyphPos.Y); end; // Advanced owner draw allows to paint elements, which would normally not be painted (because of space // limitations, empty captions etc.). ActualElements := RequestedElements * [hpeHeaderGlyph, hpeSortGlyph, hpeDropMark, hpeText]; // main glyph if not (hpeHeaderGlyph in ActualElements) and ShowHeaderGlyph and (not ShowSortGlyph or (FBidiMode <> bdLeftToRight) or (GlyphPos.X + Images.Width <= SortGlyphPos.X)) then Images.Draw(FHeaderBitmap.Canvas, GlyphPos.X, GlyphPos.Y, FImageIndex, IsEnabled); // caption if not (hpeText in ActualElements) and (Length(Text) > 0) then DrawButtonText(Handle, Text, TextRectangle, IsEnabled, IsHoverIndex and (hoHotTrack in FHeader.FOptions) and not (tsUseThemes in FHeader.Treeview.FStates), DrawFormat); // sort glyph if not (hpeSortGlyph in ActualElements) and ShowSortGlyph then begin SortIndex := SortGlyphs[FHeader.FSortDirection, tsUseThemes in FHeader.Treeview.FStates]; DirectMaskBlt(FHeaderBitmap.Canvas.Handle, SortGlyphPos.X, SortGlyphPos.Y, UtilityImageSize, UtilityImageSize, UtilityImages.Canvas.Handle, SortIndex * UtilityImageSize, 0, UtilityImages.MaskHandle); //UtilityImages.Draw(FHeaderBitmap.Canvas, SortGlyphPos.X, SortGlyphPos.X, SortIndex); end; // Show an indication if this column is the current drop target in a header drag operation. if not (hpeDropMark in ActualElements) and (DropMark <> dmmNone) then begin Y := (PaintRectangle.Top + PaintRectangle.Bottom - UtilityImages.Height) div 2; if DropMark = dmmLeft then DirectMaskBlt(FHeaderBitmap.Canvas.Handle, PaintRectangle.Left, Y, UtilityImageSize, UtilityImageSize, UtilityImages.Canvas.Handle, 0 * UtilityImageSize, 0, UtilityImages.MaskHandle) //UtilityImages.Draw(FHeaderBitmap.Canvas, PaintRectangle.Left, Y, 0) else DirectMaskBlt(FHeaderBitmap.Canvas.Handle, PaintRectangle.Right - 16, Y, UtilityImageSize, UtilityImageSize, UtilityImages.Canvas.Handle, 1 * UtilityImageSize, 0, UtilityImages.MaskHandle); //UtilityImages.Draw(FHeaderBitmap.Canvas, PaintRectangle.Right - 16 , Y, 1); end; if ActualElements <> [] then begin SavedDC := SaveDC(Handle); FHeader.Treeview.DoAdvancedHeaderDraw(PaintInfo, ActualElements); RestoreDC(Handle, SavedDC); end; end else // Let application draw the header. FHeader.Treeview.DoHeaderDraw(FHeaderBitmap.Canvas, Items[FPositionToIndex[I]], PaintRectangle, IsHoverIndex, IsDownIndex, DropMark); SelectClipRgn(Handle, 0); end; end; end; // Blit the result to target. with R do BitBlt(DC, Left, Top, Right - Left, Bottom - Top, Handle, Left, Top, SRCCOPY); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualTreeColumns.SaveToStream(const Stream: TStream); var I: Integer; begin I := Count; Stream.WriteBuffer(I, SizeOf(I)); if I > 0 then begin for I := 0 to Count - 1 do TVirtualTreeColumn(Items[I]).SaveToStream(Stream); Stream.WriteBuffer(FPositionToIndex[0], Count * SizeOf(Cardinal)); end; end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualTreeColumns.TotalWidth: Integer; var LastColumn: TColumnIndex; begin if Count = 0 then Result := 0 else begin LastColumn := FPositionToIndex[Count - 1]; if not (coVisible in Items[LastColumn].FOptions) then LastColumn := GetPreviousVisibleColumn(LastColumn); if LastColumn > NoColumn then with Items[LastColumn] do Result := FLeft + FWidth else Result := 0; end; end; //----------------- TVTHeader ----------------------------------------------------------------------------------------- constructor TVTHeader.Create(AOwner: TBaseVirtualTree); begin inherited Create; FOwner := AOwner; FColumns := GetColumnsClass.Create(Self); FHeight := 17; FFont := TFont.Create; FFont.OnChange := FontChanged; FParentFont := False; FBackground := clBtnFace; FOptions := [hoColumnResize, hoDrag]; FImageChangeLink := TChangeLink.Create; FImageChangeLink.OnChange := ImageListChange; FSortColumn := NoColumn; FSortDirection := sdAscending; FMainColumn := NoColumn; FDragImage := TVTDragImage.Create(AOwner); with FDragImage do begin Fade := False; PostBlendBias := 0; PreBlendBias := -50; Transparency := 140; end; end; //---------------------------------------------------------------------------------------------------------------------- destructor TVTHeader.Destroy; begin FDragImage.Free; FImageChangeLink.Free; FFont.Free; FColumns.Clear; // TCollection's Clear method is not virtual, so we have to call our own Clear method manually. FColumns.Free; inherited; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.FontChanged(Sender: TObject); begin Invalidate(nil); end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.GetMainColumn: TColumnIndex; begin if FColumns.Count > 0 then Result := FMainColumn else Result := NoColumn; end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.GetUseColumns: Boolean; begin Result := FColumns.Count > 0; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetAutoSizeIndex(Value: TColumnIndex); begin if FAutoSizeIndex <> Value then begin FAutoSizeIndex := Value; if hoAutoResize in FOptions then Columns.AdjustAutoSize(InvalidColumn); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetBackground(Value: TColor); begin if FBackground <> Value then begin FBackground := Value; Invalidate(nil); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetColumns(Value: TVirtualTreeColumns); begin FColumns.Assign(Value); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetFont(const Value: TFont); begin FFont.Assign(Value); FParentFont := False; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetHeight(Value: Cardinal); begin if FHeight <> Value then begin FHeight := Value; if not (csLoading in Treeview.ComponentState) then RecalculateHeader; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetImages(const Value: TCustomImageList); begin if FImages <> Value then begin if Assigned(FImages) then begin FImages.UnRegisterChanges(FImageChangeLink); FImages.RemoveFreeNotification(FOwner); end; FImages := Value; if Assigned(FImages) then begin FImages.RegisterChanges(FImageChangeLink); FImages.FreeNotification(FOwner); end; if not (csLoading in Treeview.ComponentState) then Invalidate(nil); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetMainColumn(Value: TColumnIndex); begin if csLoading in Treeview.ComponentState then FMainColumn := Value else begin if Value < 0 then Value := 0; if Value > FColumns.Count - 1 then Value := FColumns.Count - 1; if Value <> FMainColumn then begin FMainColumn := Value; if not (csLoading in Treeview.ComponentState) then begin Treeview.MainColumnChanged; if not (toExtendedFocus in Treeview.FOptions.FSelectionOptions) then Treeview.FocusedColumn := FMainColumn; Treeview.Invalidate; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetOptions(Value: TVTHeaderOptions); var ToBeSet, ToBeCleared: TVTHeaderOptions; begin ToBeSet := Value - FOptions; ToBeCleared := FOptions - Value; FOptions := Value; if (hoAutoResize in (ToBeSet + ToBeCleared)) and (FColumns.Count > 0) then begin FColumns.AdjustAutoSize(InvalidColumn); if Treeview.HandleAllocated then begin Treeview.UpdateHorizontalScrollBar(False); if hoAutoResize in ToBeSet then Treeview.Invalidate; end; end; if not (csLoading in Treeview.ComponentState) and Treeview.HandleAllocated then begin if hoVisible in (ToBeSet + ToBeCleared) then RecalculateHeader; Invalidate(nil); Treeview.Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetParentFont(Value: Boolean); begin if FParentFont <> Value then begin FParentFont := Value; if FParentFont then FFont.Assign(FOwner.Font); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetSortColumn(Value: TColumnIndex); begin if csLoading in Treeview.ComponentState then FSortColumn := Value else DoSetSortColumn(Value); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetSortDirection(const Value: TSortDirection); begin if Value <> FSortDirection then begin FSortDirection := Value; Invalidate(nil); if (toAutoSort in Treeview.FOptions.FAutoOptions) and (Treeview.FUpdateCount = 0) then Treeview.SortTree(FSortColumn, FSortDirection, True); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SetStyle(Value: TVTHeaderStyle); begin if FStyle <> Value then begin FStyle := Value; if not (csLoading in Treeview.ComponentState) then Invalidate(nil); end; end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.CanWriteColumns: Boolean; // descendants may override this to optionally prevent column writing (e.g. if they are build dynamically). begin Result := True; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.ChangeScale(M, D: Integer); begin FFont.Size := MulDiv(FFont.Size, M, D); end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.DetermineSplitterIndex(P: TPoint): Boolean; // Tries to find the index of that column whose right border corresponds to P. // Result is True if column border was hit (with -3..+5 pixels tolerance). // For continuous resizing the current track index and the column's left/right border are set. // Note: The hit test is checking from right to left (or left to right in RTL mode) to make enlarging of zero-sized // columns possible. var I, SplitPoint: Integer; begin Result := False; FColumns.FTrackIndex := NoColumn; if FColumns.Count > 0 then begin if Treeview.UseRightToLeftAlignment then begin SplitPoint := -Treeview.FEffectiveOffsetX; if Integer(Treeview.FRangeX) < Treeview.ClientWidth then Inc(SplitPoint, Treeview.ClientWidth - Integer(Treeview.FRangeX)); for I := 0 to FColumns.Count - 1 do with FColumns, Items[FPositionToIndex[I]] do if coVisible in FOptions then begin if (P.X < SplitPoint + 3) and (P.X > SplitPoint - 5) then begin if coResizable in FOptions then begin Result := True; FTrackIndex := FPositionToIndex[I]; // Keep the right border of this column. This and the current mouse position // directly determine the current column width. FTrackPos := SplitPoint + FWidth; end; Break; end; Inc(SplitPoint, FWidth); end; end else begin SplitPoint := -Treeview.FEffectiveOffsetX + Integer(Treeview.FRangeX); for I := FColumns.Count - 1 downto 0 do with FColumns, Items[FPositionToIndex[I]] do if coVisible in FOptions then begin if (P.X < SplitPoint + 5) and (P.X > SplitPoint - 3) then begin if coResizable in FOptions then begin Result := True; FTrackIndex := FPositionToIndex[I]; // Keep the left border of this column. This and the current mouse position // directly determine the current column width. FTrackPos := SplitPoint - FWidth; end; Break; end; Dec(SplitPoint, FWidth); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.DoSetSortColumn(Value: TColumnIndex); begin if Value < NoColumn then Value := NoColumn; if Value > Columns.Count - 1 then Value := Columns.Count - 1; if FSortColumn <> Value then begin if FSortColumn > NoColumn then Invalidate(Columns[FSortColumn]); FSortColumn := Value; if FSortColumn > NoColumn then Invalidate(Columns[FSortColumn]); if (toAutoSort in Treeview.FOptions.FAutoOptions) and (Treeview.FUpdateCount = 0) then Treeview.SortTree(FSortColumn, FSortDirection, True); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.DragTo(P: TPoint); // Moves the drag image to a new position, which is determined from the passed point P and the previous // mouse position. var I, NewTarget: Integer; // optimized drag image move support ClientP: TPoint; Left, Right: Integer; NeedRepaint: Boolean; // True if the screen needs an update (changed drop target or drop side) begin // Determine new drop target and which side of it is prefered. ClientP := Treeview.ScreenToClient(P); // Make coordinates relative to (0, 0) of the non-client area. Inc(ClientP.Y, FHeight); NewTarget := FColumns.ColumnFromPosition(ClientP); NeedRepaint := (NewTarget <> InvalidColumn) and (NewTarget <> FColumns.FDropTarget); if NewTarget >= 0 then begin FColumns.GetColumnBounds(NewTarget, Left, Right); if (ClientP.X < ((Left + Right) div 2)) <> FColumns.FDropBefore then begin NeedRepaint := True; FColumns.FDropBefore := not FColumns.FDropBefore; end; end; if NeedRepaint then begin // Invalidate columns which need a repaint. if FColumns.FDropTarget > NoColumn then begin I := FColumns.FDropTarget; FColumns.FDropTarget := NoColumn; Invalidate(FColumns.Items[I]); end; if (NewTarget > NoColumn) and (NewTarget <> FColumns.FDropTarget) then begin Invalidate(FColumns.Items[NewTarget]); FColumns.FDropTarget := NewTarget; end; end; FDragImage.DragTo(P, NeedRepaint); end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.GetColumnsClass: TVirtualTreeColumnsClass; // Returns the class to be used for the actual column implementation. descendants may optionally override this and // return their own class. begin Result := TVirtualTreeColumns; end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.GetOwner: TPersistent; begin Result := FOwner; end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.GetShiftState: TShiftState; begin Result := []; if GetKeyState(VK_SHIFT) < 0 then Include(Result, ssShift); if GetKeyState(VK_CONTROL) < 0 then Include(Result, ssCtrl); if GetKeyState(VK_MENU) < 0 then Include(Result, ssAlt); end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.HandleHeaderMouseMove(var Message: TLMMouseMove): Boolean; var P: TPoint; I: TColumnIndex; begin Result := False; with Message do begin P := Point(XPos, YPos); if hsTrackPending in FStates then begin KillTimer(Treeview.Handle, HeaderTimer); FStates := FStates - [hsTrackPending] + [hsTracking]; HandleHeaderMouseMove := True; Result := 0; end else if hsTracking in FStates then begin if Treeview.UseRightToLeftAlignment then FColumns[FColumns.FTrackIndex].Width := FTrackPos - XPos else FColumns[FColumns.FTrackIndex].Width := XPos - FTrackPos; HandleHeaderMouseMove := True; Result := 0; end else begin if hsDragPending in FStates then begin P := Treeview.ClientToScreen(P); // start actual dragging if allowed if (hoDrag in FOptions) and Treeview.DoHeaderDragging(FColumns.FDownIndex) then begin if ((Abs(FDragStart.X - P.X) > DragManager.DragThreshold) or (Abs(FDragStart.Y - P.Y) > DragManager.DragThreshold)) then begin KillTimer(Treeview.Handle, HeaderTimer); I := FColumns.FDownIndex; FColumns.FDownIndex := NoColumn; FColumns.FHoverIndex := NoColumn; if I > NoColumn then Invalidate(FColumns[I]); //todo: implement drag image under gtk {$ifdef Windows} PrepareDrag(P, FDragStart); {$endif} FStates := FStates - [hsDragPending] + [hsDragging]; HandleHeaderMouseMove := True; Result := 0; end; end; end else if hsDragging in FStates then begin DragTo(Treeview.ClientToScreen(Point(XPos, YPos))); HandleHeaderMouseMove := True; Result := 0; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.HandleMessage(var Message: TLMessage): Boolean; // The header gets here the opportunity to handle certain messages before they reach the tree. This is important // because the tree needs to handle various non-client area messages for the header as well as some dragging/tracking // events. // By returning True the message will not be handled further, otherwise the message is then dispatched // to the proper message handlers. var P: TPoint; R: TRect; I: TColumnIndex; OldPosition: Integer; HitIndex: TColumnIndex; NewCursor: HCURSOR; Button: TMouseButton; begin Result := False; case Message.Msg of LM_SIZE: begin if (hoAutoResize in FOptions) and not (hsAutoSizing in FStates) and not (tsWindowCreating in FOwner.FStates) then begin FColumns.AdjustAutoSize(InvalidColumn); Invalidate(nil); end; end; CM_PARENTFONTCHANGED: if FParentFont then FFont.Assign(FOwner.Font); CM_BIDIMODECHANGED: for I := 0 to FColumns.Count - 1 do if coParentBiDiMode in FColumns[I].FOptions then FColumns[I].ParentBiDiModeChanged; LM_MBUTTONDOWN: begin //lclheader: NCMessages are given in screen coordinates unlike the ordinary with TLMMButtonDown(Message) do P:= Point(XPos, YPos); //P := Treeview.ScreenToClient(Point(XPos, YPos)); if InHeader(P) then FOwner.DoHeaderMouseDown(mbMiddle, GetShiftState, P.X, P.Y + Integer(FHeight)); end; LM_MBUTTONUP: begin with TLMMButtonUp(Message) do P:= Point(XPos, YPos); //P := FOwner.ScreenToClient(Point(XPos, YPos)); if InHeader(P) then begin FColumns.HandleClick(P, mbMiddle, True, False); FOwner.DoHeaderMouseUp(mbMiddle, GetShiftState, P.X, P.Y + Integer(FHeight)); FColumns.FDownIndex := NoColumn; end; end; LM_LBUTTONDBLCLK, LM_MBUTTONDBLCLK, LM_RBUTTONDBLCLK: begin with TLMLButtonDblClk(Message) do P:= Point(XPos, YPos); //P := FOwner.ScreenToClient(Point(XPos, YPos)); // If the click was on a splitter then resize column do smallest width. if InHeader(P) then begin case Message.Msg of LM_MBUTTONDBLCLK: Button := mbMiddle; LM_RBUTTONDBLCLK: Button := mbRight; else // WM_NCLBUTTONDBLCLK Button := mbLeft; end; if (hoDblClickResize in FOptions) and (FColumns.FTrackIndex > NoColumn) then begin with FColumns do AnimatedResize(FTrackIndex, Max(FColumns[FTrackIndex].MinWidth, Treeview.GetMaxColumnWidth(FTrackIndex))); end else FColumns.HandleClick(P, Button, True, True); if FColumns.FClickIndex > NoColumn then FOwner.DoHeaderDblClick(FColumns.FClickIndex, Button, GetShiftState + [ssDouble], P.X, P.Y + Integer(FHeight)); end; end; LM_LBUTTONDOWN: begin Application.CancelHint; // make sure no auto scrolling is active... KillTimer(Treeview.Handle, ScrollTimer); Treeview.DoStateChange([], [tsScrollPending, tsScrolling]); // ... pending editing is cancelled (actual editing remains active) KillTimer(Treeview.Handle, EditTimer); Treeview.DoStateChange([], [tsEditPending]); with TLMLButtonDown(Message) do begin // want the drag start point in screen coordinates P:= Point(XPos, YPos); FDragStart:=Treeview.ClientToScreen(P); //FDragStart := Point(XPos, YPos); //P := Treeview.ScreenToClient(FDragStart); end; if InHeader(P) then begin // This is a good opportunity to notify the application. FOwner.DoHeaderMouseDown(mbLeft, GetShiftState, P.X, P.Y + Integer(FHeight)); if DetermineSplitterIndex(P) and (hoColumnResize in FOptions) then begin FColumns.FHoverIndex := NoColumn; FTrackStart := P; Include(FStates, hsTrackPending); SetCapture(Treeview.Handle); Result := True; Message.Result := 0; end else begin HitIndex := Columns.AdjustDownColumn(P); if (hoDrag in FOptions) and (HitIndex > NoColumn) and (coDraggable in FColumns[HitIndex].FOptions) then begin // Show potential drag operation. // Disabled columns do not start a drag operation because they can't be clicked. Include(FStates, hsDragPending); SetCapture(Treeview.Handle); Result := True; Message.Result := 0; end; end; end; end; LM_RBUTTONDOWN: begin with TLMRButtonDown(Message) do P:=Point(XPos,YPos); //P := FOwner.ScreenToClient(Point(XPos, YPos)); if InHeader(P) then FOwner.DoHeaderMouseDown(mbRight, GetShiftState, P.X, P.Y + Integer(FHeight)); end; LM_RBUTTONUP: if not (csDesigning in FOwner.ComponentState) then with TLMRButtonUp(Message) do begin Application.CancelHint; P:=Point(XPos,YPos); //P := FOwner.ScreenToClient(Point(XPos, YPos)); if InHeader(P) then begin FColumns.HandleClick(P, mbRight, True, False); FOwner.DoHeaderMouseUp(mbRight, GetShiftState, P.X, P.Y + Integer(FHeight)); FColumns.FDownIndex := NoColumn; FColumns.FTrackIndex := NoColumn; // Trigger header popup if there's one. if Assigned(FPopupMenu) then begin KillTimer(Treeview.Handle, ScrollTimer); KillTimer(Treeview.Handle, HeaderTimer); FColumns.FHoverIndex := NoColumn; Treeview.DoStateChange([], [tsScrollPending, tsScrolling]); FPopupMenu.PopupComponent := Treeview; FPopupMenu.Popup(XPos, YPos); HandleMessage := True; end; end; end; // When the tree window has an active mouse capture then we only get "client-area" messages. LM_LBUTTONUP: begin Application.CancelHint; if FStates <> [] then begin ReleaseCapture; //lcl if hsTracking in FStates then begin if not InHeader(SmallPointToPoint(TLMLButtonUp(Message).Pos)) then TreeView.Cursor := crDefault; end; if hsDragging in FStates then begin // successfull dragging moves columns with TLMLButtonUp(Message) do P := Treeview.ClientToScreen(Point(XPos, YPos)); GetWindowRect(Treeview.Handle, R); with FColumns do begin FDragImage.EndDrag; if (FDropTarget > -1) and (FDropTarget <> FDragIndex) and PtInRect(R, P) then begin OldPosition := FColumns[FDragIndex].Position; if FColumns.FDropBefore then begin if FColumns[FDragIndex].Position < FColumns[FDropTarget].Position then FColumns[FDragIndex].Position := Max(0, FColumns[FDropTarget].Position - 1) else FColumns[FDragIndex].Position := FColumns[FDropTarget].Position; end else begin if FColumns[FDragIndex].Position < FColumns[FDropTarget].Position then FColumns[FDragIndex].Position := FColumns[FDropTarget].Position else FColumns[FDragIndex].Position := FColumns[FDropTarget].Position + 1; end; Treeview.DoHeaderDragged(FDragIndex, OldPosition); end else Treeview.DoHeaderDraggedOut(FDragIndex, P); FDropTarget := NoColumn; end; Invalidate(nil); end; Result := True; Message.Result := 0; end; case Message.Msg of LM_LBUTTONUP: with TLMLButtonUp(Message) do begin if FColumns.FDownIndex > NoColumn then FColumns.HandleClick(Point(XPos, YPos), mbLeft, False, False); if FStates <> [] then FOwner.DoHeaderMouseUp(mbLeft, KeysToShiftState(Keys), XPos, YPos); end; //todo: there's a difference here { LM_NCLBUTTONUP: with TLMLButtonUp(Message) do begin P := FOwner.ScreenToClient(Point(XPos, YPos)); FColumns.HandleClick(P, mbLeft, False, False); FOwner.DoHeaderMouseUp(mbLeft, GetShiftState, P.X, P.Y + Integer(FHeight)); end; } end; if FColumns.FTrackIndex > NoColumn then begin Invalidate(Columns[FColumns.FTrackIndex]); FColumns.FTrackIndex := NoColumn; end; if FColumns.FDownIndex > NoColumn then begin Invalidate(Columns[FColumns.FDownIndex]); FColumns.FDownIndex := NoColumn; end; FStates := FStates - [hsDragging, hsDragPending, hsTracking, hsTrackPending]; end; // hovering, mouse leave detection //todo: see the difference to below LM_MOUSEMOVE: with TLMMouseMove(Message), FColumns do begin //lcl HandleMessage := HandleHeaderMouseMove(TLMMouseMove(Message)); P:=Point(XPos,YPos); //P := Treeview.ScreenToClient(Point(XPos, YPos)); //todo: see if OnHeaderMouseMove is fired even if not inside header Treeview.DoHeaderMouseMove(GetShiftState, P.X, P.Y + Integer(FHeight)); if not InHeader(P) then Exit; if ((AdjustHoverColumn(P)) or ((FDownIndex >= 0) and (FHoverIndex <> FDownIndex))) then begin // We need a mouse leave detection from here for the non client area. The best solution available would be the // TrackMouseEvent API. Unfortunately, it leaves Win95 totally and WinNT4 for non-client stuff out and // currently I cannot ignore these systems. Hence I go the only other reliable way and use a timer // (although, I don't like it...). KillTimer(Treeview.Handle, HeaderTimer); SetTimer(Treeview.Handle, HeaderTimer, 50, nil); // use Delphi's internal hint handling for header hints too if hoShowHint in FOptions then begin // client coordinates! XPos := P.x; YPos := P.y + Integer(FHeight); Application.HintMouseMessage(Treeview, Message); end; end; //Adjust Cursor if FStates = [] then begin //lcl: The code above already did these checks { // Retrieve last cursor position (GetMessagePos does not work here, I don't know why). GetCursorPos(P); // Is the mouse in the header rectangle? P := Treeview.ScreenToClient(P); if InHeader(P) then } //todo: see a way to store the user defined cursor. NewCursor := crDefault; if hoColumnResize in FOptions then begin if DetermineSplitterIndex(P) then NewCursor := crHeaderSplit; Treeview.DoGetHeaderCursor(NewCursor); if NewCursor <> crDefault then begin Treeview.Cursor := NewCursor; HandleMessage := True; Message.Result := 1; end; end; end else begin Message.Result := 1; HandleMessage := True; end; end; LM_TIMER: if TLMTimer(Message).TimerID = HeaderTimer then begin // determine current mouse position to check if it left the window GetCursorPos(P); P := Treeview.ScreenToClient(P); with FColumns do begin if not InHeader(P) or ((FDownIndex > NoColumn) and (FHoverIndex <> FDownIndex)) then begin KillTimer(Treeview.Handle, HeaderTimer); FHoverIndex := NoColumn; FClickIndex := NoColumn; FDownIndex := NoColumn; Result := True; Message.Result := 0; Invalidate(nil); end; end; end; LM_KEYDOWN, LM_KILLFOCUS: if (Message.Msg = LM_KILLFOCUS) or (TLMKeyDown(Message).CharCode = VK_ESCAPE) then begin if hsDragging in FStates then begin ReleaseCapture; FDragImage.EndDrag; Exclude(FStates, hsDragging); FColumns.FDropTarget := NoColumn; Invalidate(nil); Result := True; Message.Result := 0; end else if hsTracking in FStates then begin ReleaseCapture; Exclude(FStates, hsTracking); Result := True; Message.Result := 0; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.ImageListChange(Sender: TObject); begin if not (csDestroying in Treeview.ComponentState) then Invalidate(nil); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.PrepareDrag(P, Start: TPoint); // Initializes dragging of the header, P is the current mouse postion and Start the initial mouse position. var HeaderR: TRect; Image: TBitmap; ImagePos: TPoint; DragColumn: TVirtualTreeColumn; begin // Determine initial position of drag image (screen coordinates). FColumns.FDropTarget := NoColumn; Start := Treeview.ScreenToClient(Start); Inc(Start.Y, FHeight); FColumns.FDragIndex := FColumns.ColumnFromPosition(Start); DragColumn := FColumns[FColumns.FDragIndex]; HeaderR := Treeview.FHeaderRect; // Set right border of the header rectangle to the maximum extent. // Adjust top border too, it is already covered elsewhere. HeaderR.Right := FColumns.TotalWidth; HeaderR.Top := 0; // Take out influence of border since we need a seamless drag image. OffsetRect(HeaderR, -Treeview.BorderWidth, -Treeview.BorderWidth); if Treeview.UseRightToLeftAlignment then Dec(HeaderR.Left, Treeview.ComputeRTLOffset); Image := TBitmap.Create; with Image do try PixelFormat := pf32Bit; Width := DragColumn.Width; Height := FHeight; // Erase the entire image with the color key value, for the case not everything // in the image is covered by the header image. Canvas.Brush.Color := clBtnFace; Canvas.FillRect(Rect(0, 0, Width, Height)); // Now move the window origin of bitmap DC so that although the entire header is painted // only the dragged column becomes visible. SetWindowOrgEx(Canvas.Handle, DragColumn.FLeft, 0, nil); FColumns.PaintHeader(Canvas.Handle, HeaderR, 0); SetWindowOrgEx(Canvas.Handle, 0, 0, nil); if Treeview.UseRightToLeftAlignment then ImagePos := Treeview.ClientToScreen(Point(DragColumn.Left + Treeview.ComputeRTLOffset(True), 0)) else ImagePos := Treeview.ClientToScreen(Point(DragColumn.Left, 0)); // Column rectangles are given in local window coordinates not client coordinates. Dec(ImagePos.Y, FHeight); if hoRestrictDrag in FOptions then FDragImage.MoveRestriction := dmrHorizontalOnly else FDragImage.MoveRestriction := dmrNone; FDragImage.PrepareDrag(Image, ImagePos, P, nil); FDragImage.ShowDragImage; finally Image.Free; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.ReadColumns(Reader: TReader); begin Include(FStates, hsLoading); Columns.Clear; Reader.ReadValue; Reader.ReadCollection(Columns); Exclude(FStates, hsLoading); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.RecalculateHeader; // Initiate a recalculation of the non-client area of the owner tree. begin if Treeview.HandleAllocated then begin Treeview.UpdateHeaderRect; SetWindowPos(Treeview.Handle, 0, 0, 0, 0, 0, SWP_FRAMECHANGED or SWP_NOMOVE or SWP_NOACTIVATE or SWP_NOOWNERZORDER or SWP_NOSENDCHANGING or SWP_NOSIZE or SWP_NOZORDER); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.UpdateMainColumn; // Called once the load process of the owner tree is done. begin if FMainColumn < 0 then FMainColumn := 0; if FMainColumn > FColumns.Count - 1 then FMainColumn := FColumns.Count - 1; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.UpdateSpringColumns; var I: TColumnIndex; SpringCount: Integer; Sign: Integer; ChangeBy: Single; Difference: Single; NewAccumulator: Single; begin with TreeView do ChangeBy := FHeaderRect.Right - FHeaderRect.Left - FLastWidth; if (hoAutoSpring in FOptions) and (FLastWidth <> 0) and (ChangeBy <> 0) then begin // Stay positive if downsizing the control. if ChangeBy < 0 then Sign := -1 else Sign := 1; ChangeBy := Abs(ChangeBy); // Count how many columns have spring enabled. SpringCount := 0; for I := 0 to FColumns.Count-1 do if [coVisible, coAutoSpring] * FColumns[I].FOptions = [coVisible, coAutoSpring] then Inc(SpringCount); if SpringCount > 0 then begin // Calculate the size to add/sub to each columns. Difference := ChangeBy / SpringCount; // Adjust the column's size accumulators and resize if the result is >= 1. for I := 0 to FColumns.Count - 1 do if [coVisible, coAutoSpring] * FColumns[I].FOptions = [coVisible, coAutoSpring] then begin // Sum up rest changes from previous runs and the amount from this one and store it in the // column. If there is at least one pixel difference then do a resize and reset the accumulator. NewAccumulator := FColumns[I].FSpringRest + Difference; // Set new width if at least one pixel size difference is reached. if NewAccumulator >= 1 then FColumns[I].SetWidth(FColumns[I].FWidth + (Trunc(NewAccumulator) * Sign)); FColumns[I].FSpringRest := Frac(NewAccumulator); // Keep track of the size count. ChangeBy := ChangeBy - Difference; // Exit loop if resize count drops below freezing point. if ChangeBy < 0 then Break; end; end; end; with TreeView do FLastWidth := FHeaderRect.Right - FHeaderRect.Left; end; //---------------------------------------------------------------------------------------------------------------------- type // --- HACK WARNING! // This type cast is a partial rewrite of the private section of TWriter. The purpose is to have access to // the FPropPath member, which is otherwise not accessible. The reason why this access is needed is that // with nested components this member contains unneeded property path information. These information prevent // successful load of the stored properties later. // In Classes.pas you can see that FPropPath is reset several times to '' to prevent this case for certain properies. // Unfortunately, there is no clean way for us here to do the same. {$hints off} TWriterHack = class(TFiler) private FDriver: TAbstractObjectWriter; FDestroyDriver: Boolean; FRootAncestor: TComponent; FPropPath: String; end; {$hints on} procedure TVTHeader.WriteColumns(Writer: TWriter); // Write out the columns but take care for the case VT is a nested component. var LastPropPath: String; begin // Save last property path for restoration. LastPropPath := TWriterHack(Writer).FPropPath; try // If VT is a nested component then this path contains the name of the parent component at this time // (otherwise it is already empty). This path is then combined with the property name under which the tree // is defined in the parent component. Unfortunately, the load code in Classes.pas does not consider this case // is then unable to load this property. TWriterHack(Writer).FPropPath := ''; Writer.WriteCollection(Columns); finally TWriterHack(Writer).FPropPath := LastPropPath; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.Assign(Source: TPersistent); begin if Source is TVTHeader then begin AutoSizeIndex := TVTHeader(Source).AutoSizeIndex; Background := TVTHeader(Source).Background; Columns := TVTHeader(Source).Columns; Font := TVTHeader(Source).Font; Height := TVTHeader(Source).Height; Images := TVTHeader(Source).Images; MainColumn := TVTHeader(Source).MainColumn; Options := TVTHeader(Source).Options; ParentFont := TVTHeader(Source).ParentFont; PopupMenu := TVTHeader(Source).PopupMenu; SortColumn := TVTHeader(Source).SortColumn; SortDirection := TVTHeader(Source).SortDirection; Style := TVTHeader(Source).Style; end else inherited; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.AutoFitColumns(Animated: Boolean = True); var I: Integer; begin if Animated then begin with FColumns do for I := 0 to Count - 1 do if [coResizable, coVisible] * Items[FPositionToIndex[I]].FOptions = [coResizable, coVisible] then AnimatedResize(FPositionToIndex[I], Treeview.GetMaxColumnWidth(FPositionToIndex[I])) end else begin with FColumns do for I := 0 to Count - 1 do if [coResizable, coVisible] * Items[FPositionToIndex[I]].FOptions = [coResizable, coVisible] then FColumns[FPositionToIndex[I]].Width := Treeview.GetMaxColumnWidth(FPositionToIndex[I]); end; end; //---------------------------------------------------------------------------------------------------------------------- function TVTHeader.InHeader(P: TPoint): Boolean; // Determines whether the given point (client coordinates!) is within the header rectangle (non-client coordinates). begin //lclheader //todo: remove this function and use PtInRect directly Result := PtInRect(TreeView.FHeaderRect,P); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.Invalidate(Column: TVirtualTreeColumn; ExpandToBorder: Boolean = False); // Because the header is in the non-client area of the tree it needs some special handling in order to initiate its // repainting. // If ExpandToBorder is True then not only the given column but everything to its right (or left, in RTL mode) will be // invalidated (useful for resizing). This makes only sense when a column is given. var R, RW: TRect; begin if (hoVisible in FOptions) and Treeview.HandleAllocated then with Treeview do begin if Column = nil then R := FHeaderRect else begin R := Column.GetRect; if not (coFixed in Column.Options) then OffsetRect(R, -FEffectiveOffsetX, 0); if UseRightToLeftAlignment then OffsetRect(R, ComputeRTLOffset, 0); if ExpandToBorder then if UseRightToLeftAlignment then R.Left := FHeaderRect.Left else R.Right := FHeaderRect.Right; end; //lclheader RedrawWindow(Handle, @R, 0, RDW_FRAME or RDW_INVALIDATE or RDW_VALIDATE or RDW_NOINTERNALPAINT or RDW_NOERASE or RDW_NOCHILDREN); { // Current position of the owner in screen coordinates. GetWindowRect(Handle, RW); // Consider the header within this rectangle. OffsetRect(R, RW.Left, RW.Top); // Expressed in client coordinates (because RedrawWindow wants them so, they will actually become negative). MapWindowPoints(0, Handle, R, 2); RedrawWindow(Handle, @R, 0, RDW_FRAME or RDW_INVALIDATE or RDW_VALIDATE or RDW_NOINTERNALPAINT or RDW_NOERASE or RDW_NOCHILDREN); } end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.LoadFromStream(const Stream: TStream); // restore the state of the header from the given stream var Dummy, Version: Integer; S: string; OldOptions: TVTHeaderOptions; begin Include(FStates, hsLoading); with Stream do try // Switch off all options which could influence loading the columns (they will be later set again). OldOptions := FOptions; FOptions := []; // Determine whether the stream contains data without a version number. ReadBuffer(Dummy, SizeOf(Dummy)); if Dummy > -1 then begin // Seek back to undo the read operation if this is an old stream format. Seek(-SizeOf(Dummy), soFromCurrent); Version := -1; end else // Read version number if this is a "versionized" format. ReadBuffer(Version, SizeOf(Version)); Columns.LoadFromStream(Stream, Version); ReadBuffer(Dummy, SizeOf(Dummy)); AutoSizeIndex := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); Background := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); Height := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); FOptions := OldOptions; Options := TVTHeaderOptions(LongWord(Dummy)); // PopupMenu is neither saved nor restored ReadBuffer(Dummy, SizeOf(Dummy)); Style := TVTHeaderStyle(Dummy); // TFont has no own save routine so we do it manually with Font do begin ReadBuffer(Dummy, SizeOf(Dummy)); Color := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); Height := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); SetLength(S, Dummy); ReadBuffer(PChar(S)^, Dummy); Name := S; ReadBuffer(Dummy, SizeOf(Dummy)); Pitch := TFontPitch(Dummy); ReadBuffer(Dummy, SizeOf(Dummy)); Style := TFontStyles(LongWord(Dummy)); end; // Read data introduced by stream version 1+. if Version > 0 then begin ReadBuffer(Dummy, SizeOf(Dummy)); MainColumn := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); SortColumn := Dummy; ReadBuffer(Dummy, SizeOf(Dummy)); SortDirection := TSortDirection(Byte(Dummy)); end; finally Exclude(FStates, hsLoading); Treeview.DoColumnResize(NoColumn); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.RestoreColumns; // Restores all columns to their width which they had before they have been auto fitted. var I: TColumnIndex; begin with FColumns do for I := Count - 1 downto 0 do if [coResizable, coVisible] * Items[FPositionToIndex[I]].FOptions = [coResizable, coVisible] then Items[I].RestoreLastWidth; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTHeader.SaveToStream(const Stream: TStream); // Saves the complete state of the header into the provided stream. var Dummy: Integer; begin with Stream do begin // In previous version of VT was no header stream version defined. // For feature enhancements it is necessary, however, to know which stream // format we are trying to load. // In order to distict from non-version streams an indicator is inserted. Dummy := -1; WriteBuffer(Dummy, SizeOf(Dummy)); // Write current stream version number, nothing more is required at the time being. Dummy := VTHeaderStreamVersion; WriteBuffer(Dummy, SizeOf(Dummy)); // Save columns in case they depend on certain options (like auto size). Columns.SaveToStream(Stream); Dummy := FAutoSizeIndex; WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := FBackground; WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := FHeight; WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := LongWord(FOptions); WriteBuffer(Dummy, SizeOf(Dummy)); // PopupMenu is neither saved nor restored Dummy := Ord(FStyle); WriteBuffer(Dummy, SizeOf(Dummy)); // TFont has no own save routine so we do it manually with Font do begin Dummy := Color; WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := Height; WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := Length(Name); WriteBuffer(Dummy, SizeOf(Dummy)); WriteBuffer(PChar(Name)^, Dummy); Dummy := Ord(Pitch); WriteBuffer(Dummy, SizeOf(Dummy)); // need only to write one: size or height, I decided to write height Dummy := LongWord(Style); WriteBuffer(Dummy, SizeOf(Dummy)); end; // data introduced by stream version 1 Dummy := FMainColumn; WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := FSortColumn; WriteBuffer(Dummy, SizeOf(Dummy)); Dummy := Byte(FSortDirection); WriteBuffer(Dummy, SizeOf(Dummy)); end; end; //----------------- TScrollBarOptions ---------------------------------------------------------------------------------- constructor TScrollBarOptions.Create(AOwner: TBaseVirtualTree); begin inherited Create; FOwner := AOwner; FAlwaysVisible := False; FScrollBarStyle := sbmRegular; FScrollBars := ssBoth; FIncrementX := 20; FIncrementY := 20; end; //---------------------------------------------------------------------------------------------------------------------- procedure TScrollBarOptions.SetAlwaysVisible(Value: Boolean); begin if FAlwaysVisible <> Value then begin FAlwaysVisible := Value; //todo_lcl_check if not (csLoading in FOwner.ComponentState) and FOwner.HandleAllocated then RecreateWnd(FOwner); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TScrollBarOptions.SetScrollBars(Value: TScrollStyle); begin if FScrollbars <> Value then begin FScrollBars := Value; //todo_lcl_check if not (csLoading in FOwner.ComponentState) and FOwner.HandleAllocated then RecreateWnd(FOwner); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TScrollBarOptions.SetScrollBarStyle(Value: TScrollBarStyle); begin {$ifndef UseFlatScrollbars} Assert(Value = sbmRegular, 'Flat scrollbars styles are disabled. Enable UseFlatScrollbars in VTConfig.inc for' + 'flat scrollbar support.'); {$endif UseFlatScrollbars} if FScrollBarStyle <> Value then begin FScrollBarStyle := Value; {$ifdef UseFlatScrollbars} if FOwner.HandleAllocated then begin // If set to regular style then don't use the emulation mode of the FlatSB APIs but the original APIs. // This is necessary because the FlatSB APIs don't respect NC paint request with limited update region // (which is necessary for the transparent drag image). FOwner.RecreateWnd; end; {$endif UseFlatScrollbars} end; end; //---------------------------------------------------------------------------------------------------------------------- function TScrollBarOptions.GetOwner: TPersistent; begin Result := FOwner; end; //---------------------------------------------------------------------------------------------------------------------- procedure TScrollBarOptions.Assign(Source: TPersistent); begin if Source is TScrollBarOptions then begin AlwaysVisible := TScrollBarOptions(Source).AlwaysVisible; HorizontalIncrement := TScrollBarOptions(Source).HorizontalIncrement; ScrollBars := TScrollBarOptions(Source).ScrollBars; ScrollBarStyle := TScrollBarOptions(Source).ScrollBarStyle; VerticalIncrement := TScrollBarOptions(Source).VerticalIncrement; end else inherited; end; //----------------- TVTColors ------------------------------------------------------------------------------------------ constructor TVTColors.Create(AOwner: TBaseVirtualTree); begin FOwner := AOwner; FColors[0] := clBtnShadow; // DisabledColor FColors[1] := clHighlight; // DropMarkColor FColors[2] := clHighLight; // DropTargetColor FColors[3] := clHighLight; // FocusedSelectionColor FColors[4] := clBtnFace; // GridLineColor FColors[5] := clBtnShadow; // TreeLineColor FColors[6] := clBtnFace; // UnfocusedSelectionColor FColors[7] := clBtnFace; // BorderColor FColors[8] := clWindowText; // HotColor FColors[9] := clHighLight; // FocusedSelectionBorderColor FColors[10] := clBtnFace; // UnfocusedSelectionBorderColor FColors[11] := clHighlight; // DropTargetBorderColor FColors[12] := clHighlight; // SelectionRectangleBlendColor FColors[13] := clHighlight; // SelectionRectangleBorderColor FColors[14] := clBtnShadow; // HeaderHotColor end; //---------------------------------------------------------------------------------------------------------------------- function TVTColors.GetColor(const Index: Integer): TColor; begin Result := FColors[Index]; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTColors.SetColor(const Index: Integer; const Value: TColor); begin if FColors[Index] <> Value then begin FColors[Index] := Value; if not (csLoading in FOwner.ComponentState) and FOwner.HandleAllocated then begin // Cause helper bitmap rebuild if the button color changed. case Index of 5: begin FOwner.PrepareBitmaps(True, False); FOwner.Invalidate; end; 7: RedrawWindow(FOwner.Handle, nil, 0, RDW_FRAME or RDW_INVALIDATE or RDW_NOERASE or RDW_NOCHILDREN) else FOwner.Invalidate; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTColors.Assign(Source: TPersistent); begin if Source is TVTColors then begin FColors := TVTColors(Source).FColors; if FOwner.FUpdateCount = 0 then FOwner.Invalidate; end else inherited; end; //----------------- TClipboardFormats ---------------------------------------------------------------------------------- constructor TClipboardFormats.Create(AOwner: TBaseVirtualTree); begin FOwner := AOwner; Sorted := True; Duplicates := dupIgnore; end; //---------------------------------------------------------------------------------------------------------------------- function TClipboardFormats.Add(const S: string): Integer; // Restrict additions to the clipbard formats to only those which are registered with the owner tree or one of its // ancestors. var Format: Word; RegisteredClass: TVirtualTreeClass; begin RegisteredClass := InternalClipboardFormats.FindFormat(S, Format); if Assigned(RegisteredClass) and FOwner.ClassType.InheritsFrom(RegisteredClass) then Result := inherited Add(S) else Result := -1; end; //---------------------------------------------------------------------------------------------------------------------- procedure TClipboardFormats.Insert(Index: Integer; const S: string); // Restrict additions to the clipbard formats to only those which are registered with the owner tree or one of its // ancestors. var Format: Word; RegisteredClass: TVirtualTreeClass; begin RegisteredClass := InternalClipboardFormats.FindFormat(S, Format); if Assigned(RegisteredClass) and FOwner.ClassType.InheritsFrom(RegisteredClass) then inherited Insert(Index, S); end; //----------------- TBaseVirtualTree ----------------------------------------------------------------------------------- constructor TBaseVirtualTree.Create(AOwner: TComponent); begin if not Initialized then InitializeGlobalStructures; inherited; ControlStyle := ControlStyle - [csSetCaption] + [csCaptureMouse, csOpaque, csReplicatable, csDisplayDragImage, csReflector]; FTotalInternalDataSize := 0; FNodeDataSize := -1; Width := 200; Height := 100; TabStop := True; ParentColor := False; FDefaultNodeHeight := 18; FDragOperations := [doCopy, doMove]; FHotCursor := crDefault; FScrollBarOptions := TScrollBarOptions.Create(Self); FFocusedColumn := NoColumn; FDragImageKind := diComplete; FLastSelectionLevel := -1; FAnimationType := hatSystemDefault; FSelectionBlendFactor := 128; FIndent := 18; FPlusBM := TBitmap.Create; FPlusBM.PixelFormat := OptimalPixelFormat; FMinusBM := TBitmap.Create; FMinusBM.PixelFormat := OptimalPixelFormat; //FBorderStyle := bsSingle; FButtonStyle := bsRectangle; FButtonFillMode := fmTreeColor; FHeader := GetHeaderClass.Create(Self); // we have an own double buffer handling DoubleBuffered := False; FCheckImageKind := ckLightCheck; FImageChangeLink := TChangeLink.Create; FImageChangeLink.OnChange := ImageListChange; FStateChangeLink := TChangeLink.Create; FStateChangeLink.OnChange := ImageListChange; FCustomCheckChangeLink := TChangeLink.Create; FCustomCheckChangeLink.OnChange := ImageListChange; FAutoExpandDelay := 1000; FAutoScrollDelay := 1000; FAutoScrollInterval := 1; FBackground := TPicture.Create; FDefaultPasteMode := amAddChildLast; FMargin := 4; FTextMargin := 4; FDragType := dtOLE; FDragHeight := 350; FDragWidth := 200; FColors := TVTColors.Create(Self); FEditDelay := 1000; FDragImage := TVTDragImage.Create(Self); with FDragImage do begin Fade := True; PostBlendBias := 0; PreBlendBias := 0; Transparency := 200; end; SetLength(FSingletonNodeArray, 1); FAnimationDuration := 200; FSearchTimeout := 1000; FSearchStart := ssFocusedNode; FNodeAlignment := naProportional; FLineStyle := lsDotted; FIncrementalSearch := isNone; FClipboardFormats := TClipboardFormats.Create(Self); FOptions := GetOptionsClass.Create(Self); {$ifdef UseLocalMemoryManager} FNodeMemoryManager := TVTNodeMemoryManager.Create; {$endif UseLocalMemoryManager} {$ifdef EnableThreadSupport} AddThreadReference; {$endif} end; //---------------------------------------------------------------------------------------------------------------------- destructor TBaseVirtualTree.Destroy; begin Exclude(FOptions.FMiscOptions, toReadOnly); {$ifdef EnableThreadSupport} ReleaseThreadReference(Self); {$endif} StopWheelPanning; //lcl FPanningWindow.Free; CancelEditNode; // Just in case it didn't happen already release the edit link. FEditLink := nil; FClipboardFormats.Free; // Clear will also free the drag manager if it is still alive. Clear; FDragImage.Free; FColors.Free; FBackground.Free; FImageChangeLink.Free; FStateChangeLink.Free; FCustomCheckChangeLink.Free; FScrollBarOptions.Free; FOptions.Free; if FCheckImages <> FCustomCheckImages then FCheckImages.Free; // The window handle must be destroyed before the header is freed because it is needed in WM_NCDESTROY. //todo_lcl_check { if HandleAllocated then DestroyWindowHandle; } FHeader.Free; FHeader := nil; FreeMem(FRoot); {$ifdef UseLocalMemoryManager} FNodeMemoryManager.Free; {$endif UseLocalMemoryManager} FPlusBM.Free; FMinusBM.Free; inherited; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AdjustCoordinatesByIndent(var PaintInfo: TVTPaintInfo; Indent: Integer); // During painting of the main column some coordinates must be adjusted due to the tree lines. // The offset resulting from the tree lines and indentation level is given in Indent. var Offset: Integer; begin with PaintInfo do begin Offset := Indent * Integer(FIndent); if BidiMode = bdLeftToRight then begin Inc(ContentRect.Left, Offset); Inc(ImageInfo[iiNormal].XPos, Offset); Inc(ImageInfo[iiState].XPos, Offset); Inc(ImageInfo[iiCheck].XPos, Offset); end else begin Dec(ContentRect.Right, Offset); Dec(ImageInfo[iiNormal].XPos, Offset); Dec(ImageInfo[iiState].XPos, Offset); Dec(ImageInfo[iiCheck].XPos, Offset); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AdjustImageBorder(ImageWidth, ImageHeight: Integer; BidiMode: TBidiMode; VAlign: Integer; var R: TRect; var ImageInfo: TVTImageInfo); // Depending on the width of the image list as well as the given bidi mode R must be adjusted. begin if BidiMode = bdLeftToRight then begin ImageInfo.XPos := R.Left; Inc(R.Left, ImageWidth + 2); end else begin ImageInfo.XPos := R.Right - Images.Width; Dec(R.Right, ImageWidth + 2); end; ImageInfo.YPos := R.Top + VAlign - ImageHeight div 2; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AdjustTotalCount(Node: PVirtualNode; Value: Integer; relative: Boolean = False); // Sets a node's total count to the given value and recursively adjusts the parent's total count // (actually, the adjustment is done iteratively to avoid function call overheads). var Difference: Integer; Run: PVirtualNode; begin if relative then Difference := Value else Difference := Integer(Value) - Integer(Node.TotalCount); if Difference <> 0 then begin Run := Node; // Root node has as parent the tree view. while Assigned(Run) and (Run <> Pointer(Self)) do begin Inc(Integer(Run.TotalCount), Difference); Run := Run.Parent; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AdjustTotalHeight(Node: PVirtualNode; Value: Integer; relative: Boolean = False); // Sets a node's total height to the given value and recursively adjusts the parent's total height. var Difference: Integer; Run: PVirtualNode; begin if relative then Difference := Value else Difference := Integer(Value) - Integer(Node.TotalHeight); if Difference <> 0 then begin Run := Node; repeat Inc(Integer(Run.TotalHeight), Difference); // If the node is not visible or the parent node is not expanded or we are already at the top // then nothing more remains to do. if not (vsVisible in Run.States) or (Run = FRoot) or (Run.Parent = nil) or not (vsExpanded in Run.Parent.States) then Break; Run := Run.Parent; until False; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CalculateCacheEntryCount: Integer; // Calculates the size of the position cache. begin if FVisibleCount > 1 then Result := Ceil(FVisibleCount / CacheThreshold) else Result := 0; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CalculateVerticalAlignments(ShowImages, ShowStateImages: Boolean; Node: PVirtualNode; var VAlign, VButtonAlign: Integer); // Calculates the vertical alignment of the given node and its associated expand/collapse button during // a node paint cycle depending on the required node alignment style. begin // For absolute alignment the calculation is trivial. case FNodeAlignment of naFromTop: VAlign := Node.Align; naFromBottom: VAlign := NodeHeight[Node] - Node.Align; else // naProportional // Consider button and line alignment, but make sure neither the image nor the button (whichever is taller) // go out of the entire node height (100% means bottom alignment to the node's bounds). if ShowImages or ShowStateImages then begin if ShowImages then VAlign := FImages.Height else VAlign := FStateImages.Height; VAlign := MulDiv((Integer(NodeHeight[Node]) - VAlign), Node.Align, 100) + VAlign div 2; end else if toShowButtons in FOptions.FPaintOptions then VAlign := MulDiv((Integer(NodeHeight[Node]) - FPlusBM.Height), Node.Align, 100) + FPlusBM.Height div 2 else VAlign := MulDiv(Node.NodeHeight, Node.Align, 100); end; VButtonAlign := VAlign - FPlusBM.Height div 2; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.ChangeCheckState(Node: PVirtualNode; Value: TCheckState): Boolean; // Sets the check state of the node according to the given value and the node's check type. // If the check state must be propagated to the parent nodes and one of them refuses to change then // nothing happens and False is returned, otherwise True. var Run: PVirtualNode; UncheckedCount, MixedCheckCount, CheckedCount: Cardinal; begin Result := not (vsChecking in Node.States); with Node^ do if Result then begin Include(States, vsChecking); if not (vsInitialized in States) then InitNode(Node); // Indicate that we are going to propagate check states up and down the hierarchy. if FCheckPropagationCount = 0 then // WL, 05.02.2004: Do not enter tsCheckPropagation more than once DoStateChange([tsCheckPropagation]); Inc(FCheckPropagationCount); // WL, 05.02.2004 // Do actions which are associated with the given check state. case CheckType of // Check state change with additional consequences for check states of the children. ctTriStateCheckBox: begin // Propagate state down to the children. if toAutoTristateTracking in FOptions.FAutoOptions then case Value of csUncheckedNormal: if Node.ChildCount > 0 then begin Run := FirstChild; CheckedCount := 0; MixedCheckCount := 0; UncheckedCount := 0; while Assigned(Run) do begin if Run.CheckType in [ctCheckBox, ctTriStateCheckBox] then begin SetCheckState(Run, csUncheckedNormal); // Check if the new child state was set successfully, otherwise we have to adjust the // node's new check state accordingly. case Run.CheckState of csCheckedNormal: Inc(CheckedCount); csMixedNormal: Inc(MixedCheckCount); csUncheckedNormal: Inc(UncheckedCount); end; end; Run := Run.NextSibling; end; // If there is still a mixed state child node checkbox then this node must be mixed checked too. if MixedCheckCount > 0 then Value := csMixedNormal else // If nodes are normally checked child nodes then the unchecked count determines what // to set for the node itself. if CheckedCount > 0 then if UncheckedCount > 0 then Value := csMixedNormal else Value := csCheckedNormal; end; csCheckedNormal: if Node.ChildCount > 0 then begin Run := FirstChild; CheckedCount := 0; MixedCheckCount := 0; UncheckedCount := 0; while Assigned(Run) do begin if Run.CheckType in [ctCheckBox, ctTriStateCheckBox] then begin SetCheckState(Run, csCheckedNormal); // Check if the new child state was set successfully, otherwise we have to adjust the // node's new check state accordingly. case Run.CheckState of csCheckedNormal: Inc(CheckedCount); csMixedNormal: Inc(MixedCheckCount); csUncheckedNormal: Inc(UncheckedCount); end; end; Run := Run.NextSibling; end; // If there is still a mixed state child node checkbox then this node must be mixed checked too. if MixedCheckCount > 0 then Value := csMixedNormal else // If nodes are normally checked child nodes then the unchecked count determines what // to set for the node itself. if CheckedCount > 0 then if UncheckedCount > 0 then Value := csMixedNormal else Value := csCheckedNormal; end; end; end; // radio button check state change ctRadioButton: if Value = csCheckedNormal then begin Value := csCheckedNormal; // Make sure only this node is checked. Run := Parent.FirstChild; while Assigned(Run) do begin if Run.CheckType = ctRadioButton then Run.CheckState := csUncheckedNormal; Run := Run.NextSibling; end; Invalidate; end; end; if Result then CheckState := Value // Set new check state else CheckState := UnpressedState[CheckState]; // Reset dynamic check state. // Propagate state up to the parent. if not (vsInitialized in Parent.States) then InitNode(Parent); if (toAutoTristateTracking in FOptions.FAutoOptions) and ([vsChecking, vsDisabled] * Parent.States = []) and (CheckType in [ctCheckBox, ctTriStateCheckBox]) and (Parent <> FRoot) and (Parent.CheckType = ctTriStateCheckBox) then Result := CheckParentCheckState(Node, Value) else Result := True; InvalidateNode(Node); Exclude(States, vsChecking); Dec(FCheckPropagationCount); // WL, 05.02.2004 if FCheckPropagationCount = 0 then // WL, 05.02.2004: Allow state change event after all check operations finished DoStateChange([], [tsCheckPropagation]); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CollectSelectedNodesLTR(MainColumn, NodeLeft, NodeRight: Integer; Alignment: TAlignment; OldRect, NewRect: TRect): Boolean; // Helper routine used when a draw selection takes place. This version handles left-to-right directionality. // In the process of adding or removing nodes the current selection is modified which requires to pack it after // the function returns. Another side effect of this method is that a temporary list of nodes will be created // (see also InternalCacheNode) which must be inserted into the current selection by the caller. var Run, NextNode: PVirtualNode; TextRight, TextLeft, CheckOffset, CurrentTop, CurrentRight, NextTop, NextColumn, NodeWidth, Dummy: Integer; MinY, MaxY: Integer; ImageOffset, StateImageOffset: Integer; IsInOldRect, IsInNewRect: Boolean; // quick check variables for various parameters WithCheck, WithImages, WithStateImages, DoSwitch, AutoSpan: Boolean; SimpleSelection: Boolean; begin // A priori nothing changes. Result := False; // If the old rectangle is empty then we just started the drag selection. // So we just copy the new rectangle to the old and get out of here. if IsRectEmpty(OldRect) then OldRect := NewRect else begin // Determine minimum and maximum vertical coordinates to limit iteration to. MinY := Min(OldRect.Top, NewRect.Top); MaxY := Max(OldRect.Bottom, NewRect.Bottom); // Initialize short hand variables to speed up tests below. DoSwitch := ssCtrl in FDrawSelShiftState; WithCheck := (toCheckSupport in FOptions.FMiscOptions) and Assigned(FCheckImages); // Don't check the events here as descendant trees might have overriden the DoGetImageIndex method. WithImages := Assigned(FImages); if WithImages then ImageOffset := FImages.Width + 2 else ImageOffset := 0; WithStateImages := Assigned(FStateImages); if WithStateImages then StateImageOffset := FStateImages.Width + 2 else StateImageOffset := 0; if WithCheck then CheckOffset := FCheckImages.Height + 2 else CheckOffset := 0; AutoSpan := FHeader.UseColumns and (toAutoSpanColumns in FOptions.FAutoOptions); SimpleSelection := toSimpleDrawSelection in FOptions.FSelectionOptions; // This is the node to start with. Run := GetNodeAt(0, MinY, False, CurrentTop); if Assigned(Run) then begin // The initial minimal left border is determined by the identation level of the node and is dynamically adjusted. if toShowRoot in FOptions.FPaintOptions then Inc(NodeLeft, Integer((GetNodeLevel(Run) + 1) * FIndent) + FMargin) else Inc(NodeLeft, Integer(GetNodeLevel(Run) * FIndent) + FMargin); // ----- main loop // Change selection depending on the node's rectangle being in the selection rectangle or not, but // touch only those nodes which overlap either the old selection rectangle or the new one but not both. repeat // Collect offsets for check, normal and state images. TextLeft := NodeLeft; if WithCheck and (Run.CheckType <> ctNone) then Inc(TextLeft, CheckOffset); if WithImages and HasImage(Run, ikNormal, MainColumn) then Inc(TextLeft, ImageOffset); if WithStateImages and HasImage(Run, ikState, MainColumn) then Inc(TextLeft, StateImageOffset); // Ensure the node's height is determined. MeasureItemHeight(Canvas, Run); NextTop := CurrentTop + Integer(NodeHeight[Run]); // Simple selection allows to draw the selection rectangle anywhere. No intersection with node captions is // required. Only top and bottom bounds of the rectangle matter. if SimpleSelection then begin IsInOldRect := (NextTop > OldRect.Top) and (CurrentTop < OldRect.Bottom); IsInNewRect := (NextTop > NewRect.Top) and (CurrentTop < NewRect.Bottom); end else begin // The right column border might be extended if column spanning is enabled. if AutoSpan then begin with FHeader.FColumns do begin NextColumn := MainColumn; repeat Dummy := GetNextVisibleColumn(NextColumn); if (Dummy = InvalidColumn) or not ColumnIsEmpty(Run, Dummy) or (Items[Dummy].BidiMode <> bdLeftToRight) then Break; NextColumn := Dummy; until False; if NextColumn = MainColumn then CurrentRight := NodeRight else GetColumnBounds(NextColumn, Dummy, CurrentRight); end; end else CurrentRight := NodeRight; // Check if we need the node's width. This is the case when the node is not left aligned or the // left border of the selection rectangle is to the right of the left node border. if (TextLeft < OldRect.Left) or (TextLeft < NewRect.Left) or (Alignment <> taLeftJustify) then begin NodeWidth := DoGetNodeWidth(Run, MainColumn); if NodeWidth >= (CurrentRight - TextLeft) then TextRight := CurrentRight else case Alignment of taLeftJustify: TextRight := TextLeft + NodeWidth; taCenter: begin TextLeft := (TextLeft + CurrentRight - NodeWidth) div 2; TextRight := TextLeft + NodeWidth; end; else // taRightJustify TextRight := CurrentRight; TextLeft := TextRight - NodeWidth; end; end else TextRight := CurrentRight; // Now determine whether we need to change the state. IsInOldRect := (OldRect.Left <= TextRight) and (OldRect.Right >= TextLeft) and (NextTop > OldRect.Top) and (CurrentTop < OldRect.Bottom); IsInNewRect := (NewRect.Left <= TextRight) and (NewRect.Right >= TextLeft) and (NextTop > NewRect.Top) and (CurrentTop < NewRect.Bottom); end; if IsInOldRect xor IsInNewRect then begin Result := True; if DoSwitch then begin if vsSelected in Run.States then InternalRemoveFromSelection(Run) else InternalCacheNode(Run); end else begin if IsInNewRect then InternalCacheNode(Run) else InternalRemoveFromSelection(Run); end; end; CurrentTop := NextTop; // Get next visible node and update left node position. NextNode := GetNextVisibleNoInit(Run); if NextNode = nil then Break; Inc(NodeLeft, CountLevelDifference(Run, NextNode) * Integer(FIndent)); Run := NextNode; until CurrentTop > MaxY; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CollectSelectedNodesRTL(MainColumn, NodeLeft, NodeRight: Integer; Alignment: TAlignment; OldRect, NewRect: TRect): Boolean; // Helper routine used when a draw selection takes place. This version handles right-to-left directionality. // See also comments in CollectSelectedNodesLTR. var Run, NextNode: PVirtualNode; TextRight, TextLeft, CheckOffset, CurrentTop, CurrentLeft, NextTop, NextColumn, NodeWidth, Dummy: Integer; MinY, MaxY: Integer; ImageOffset, StateImageOffset: Integer; IsInOldRect, IsInNewRect: Boolean; // quick check variables for various parameters WithCheck, WithImages, WithStateImages, DoSwitch, AutoSpan: Boolean; SimpleSelection: Boolean; begin // A priori nothing changes. Result := False; // Switch the alignment to the opposite value in RTL context. ChangeBiDiModeAlignment(Alignment); // If the old rectangle is empty then we just started the drag selection. // So we just copy the new rectangle to the old and get out of here. if IsRectEmpty(OldRect) then OldRect := NewRect else begin // Determine minimum and maximum vertical coordinates to limit iteration to. MinY := Min(OldRect.Top, NewRect.Top); MaxY := Max(OldRect.Bottom, NewRect.Bottom); // Initialize short hand variables to speed up tests below. DoSwitch := ssCtrl in FDrawSelShiftState; WithCheck := (toCheckSupport in FOptions.FMiscOptions) and Assigned(FCheckImages); // Don't check the events here as descendant trees might have overriden the DoGetImageIndex method. WithImages := Assigned(FImages); if WithImages then ImageOffset := FImages.Width + 2 else ImageOffset := 0; WithStateImages := Assigned(FStateImages); if WithStateImages then StateImageOffset := FStateImages.Width + 2 else StateImageOffset := 0; if WithCheck then CheckOffset := FCheckImages.Height + 2 else CheckOffset := 0; AutoSpan := FHeader.UseColumns and (toAutoSpanColumns in FOptions.FAutoOptions); SimpleSelection := toSimpleDrawSelection in FOptions.FSelectionOptions; // This is the node to start with. Run := GetNodeAt(0, MinY, False, CurrentTop); if Assigned(Run) then begin // The initial minimal left border is determined by the identation level of the node and is dynamically adjusted. if toShowRoot in FOptions.FPaintOptions then Dec(NodeRight, Integer((GetNodeLevel(Run) + 1) * FIndent) + FMargin) else Dec(NodeRight, Integer(GetNodeLevel(Run) * FIndent) + FMargin); // ----- main loop // Change selection depending on the node's rectangle being in the selection rectangle or not, but // touch only those nodes which overlap either the old selection rectangle or the new one but not both. repeat // Collect offsets for check, normal and state images. TextRight := NodeRight; if WithCheck and (Run.CheckType <> ctNone) then Dec(TextRight, CheckOffset); if WithImages and HasImage(Run, ikNormal, MainColumn) then Dec(TextRight, ImageOffset); if WithStateImages and HasImage(Run, ikState, MainColumn) then Dec(TextRight, StateImageOffset); // Ensure the node's height is determined. MeasureItemHeight(Canvas, Run); NextTop := CurrentTop + Integer(NodeHeight[Run]); // Simple selection allows to draw the selection rectangle anywhere. No intersection with node captions is // required. Only top and bottom bounds of the rectangle matter. if SimpleSelection then begin IsInOldRect := (NextTop > OldRect.Top) and (CurrentTop < OldRect.Bottom); IsInNewRect := (NextTop > NewRect.Top) and (CurrentTop < NewRect.Bottom); end else begin // The left column border might be extended if column spanning is enabled. if AutoSpan then begin NextColumn := MainColumn; repeat Dummy := FHeader.FColumns.GetPreviousVisibleColumn(NextColumn); if (Dummy = InvalidColumn) or not ColumnIsEmpty(Run, Dummy) or (FHeader.FColumns[Dummy].BiDiMode = bdLeftToRight) then Break; NextColumn := Dummy; until False; if NextColumn = MainColumn then CurrentLeft := NodeLeft else FHeader.FColumns.GetColumnBounds(NextColumn, CurrentLeft, Dummy); end else CurrentLeft := NodeLeft; // Check if we need the node's width. This is the case when the node is not left aligned (in RTL context this // means actually right aligned) or the right border of the selection rectangle is to the left // of the right node border. if (TextRight > OldRect.Right) or (TextRight > NewRect.Right) or (Alignment <> taRightJustify) then begin NodeWidth := DoGetNodeWidth(Run, MainColumn); if NodeWidth >= (TextRight - CurrentLeft) then TextLeft := CurrentLeft else case Alignment of taLeftJustify: begin TextLeft := CurrentLeft; TextRight := TextLeft + NodeWidth; end; taCenter: begin TextLeft := (TextRight + CurrentLeft - NodeWidth) div 2; TextRight := TextLeft + NodeWidth; end; else // taRightJustify TextLeft := TextRight - NodeWidth; end; end else TextLeft := CurrentLeft; // Now determine whether we need to change the state. IsInOldRect := (OldRect.Right >= TextLeft) and (OldRect.Left <= TextRight) and (NextTop > OldRect.Top) and (CurrentTop < OldRect.Bottom); IsInNewRect := (NewRect.Right >= TextLeft) and (NewRect.Left <= TextRight) and (NextTop > NewRect.Top) and (CurrentTop < NewRect.Bottom); end; if IsInOldRect xor IsInNewRect then begin Result := True; if DoSwitch then begin if vsSelected in Run.States then InternalRemoveFromSelection(Run) else InternalCacheNode(Run); end else begin if IsInNewRect then InternalCacheNode(Run) else InternalRemoveFromSelection(Run); end; end; CurrentTop := NextTop; // Get next visible node and update left node position. NextNode := GetNextVisibleNoInit(Run); if NextNode = nil then Break; Dec(NodeRight, CountLevelDifference(Run, NextNode) * Integer(FIndent)); Run := NextNode; until CurrentTop > MaxY; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ClearNodeBackground(const PaintInfo: TVTPaintInfo; UseBackground, Floating: Boolean; R: TRect); // Erases a node's background depending on what the application decides to do. // UseBackground determines whether or not to use the background picture, while Floating indicates // that R is given in coordinates of the small node bitmap or the superordinated target bitmap used in PaintTree. var BackColor: TColor; EraseAction: TItemEraseAction; Offset: TPoint; begin Logger.EnterMethod([lcPaintDetails],'ClearNodeBackground'); with PaintInfo do begin EraseAction := eaDefault; BackColor := Color; if Floating then begin Offset := Point(-FEffectiveOffsetX, R.Top); OffsetRect(R, 0, -Offset.Y); end else Offset := Point(0, 0); DoBeforeItemErase(Canvas, Node, R, Backcolor, EraseAction); with Canvas do begin case EraseAction of eaNone: ; eaColor: begin // User has given a new background color. Brush.Color := BackColor; FillRect(R); end; else // eaDefault if UseBackground then begin if toStaticBackground in TreeOptions.PaintOptions then StaticBackground(FBackground.Bitmap, Canvas, Offset, R) else TileBackground(FBackground.Bitmap, Canvas, Offset, R); end else begin if (poDrawSelection in PaintOptions) and (toFullRowSelect in FOptions.FSelectionOptions) and (vsSelected in Node.States) and not (toUseBlendedSelection in FOptions.PaintOptions) then begin Logger.Send([lcPaintDetails,lcDrag],'Setting the color of a selected node'); if toShowHorzGridLines in FOptions.PaintOptions then Dec(R.Bottom); if Focused or (toPopupMode in FOptions.FPaintOptions) then begin Brush.Color := FColors.FocusedSelectionColor; Pen.Color := FColors.FocusedSelectionBorderColor; end else begin Brush.Color := FColors.UnfocusedSelectionColor; Pen.Color := FColors.UnfocusedSelectionBorderColor; end; with R do RoundRect(Left, Top, Right, Bottom, FSelectionCurveRadius, FSelectionCurveRadius); end else begin Brush.Color := Self.Color; Logger.SendColor([lcPaintDetails],'Setting the color of a NOT selected node - Brush.Color',Brush.Color); Logger.Send([lcPaintDetails],'Clearing rectangle (R)',R); FillRect(R); end; end; end; DoAfterItemErase(Canvas, Node, R); end; end; Logger.ExitMethod([lcPaintDetails],'ClearNodeBackground'); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CompareNodePositions(Node1, Node2: PVirtualNode): Integer; // Tries hard and smart to quickly determine whether Node1's structural position is before Node2's position // Returns 0 if Node1 = Node2, < 0 if Node1 is located before Node2 else > 0. var Run1, Run2: PVirtualNode; Level1, Level2: Cardinal; begin Assert(Assigned(Node1) and Assigned(Node2), 'Nodes must never be nil.'); if Node1 = Node2 then Result := 0 else begin if HasAsParent(Node1, Node2) then Result := 1 else if HasAsParent(Node2, Node1) then Result := -1 else begin // the given nodes are neither equal nor are they parents of each other, so go up to FRoot // for each node and compare the child indices of the top level parents // Note: neither Node1 nor Node2 can be FRoot at this point as this (a bit strange) circumstance would // be caught by the previous code. // start lookup at the same level Level1 := GetNodeLevel(Node1); Level2 := GetNodeLevel(Node2); Run1 := Node1; while Level1 > Level2 do begin Run1 := Run1.Parent; Dec(Level1); end; Run2 := Node2; while Level2 > Level1 do begin Run2 := Run2.Parent; Dec(Level2); end; // now go up until we find a common parent node (loop will safely stop at FRoot if the nodes // don't share a common parent) while Run1.Parent <> Run2.Parent do begin Run1 := Run1.Parent; Run2 := Run2.Parent; end; Result := Integer(Run1.Index) - Integer(Run2.Index); end; end; end; procedure TBaseVirtualTree.DragAndDrop(AllowedEffects: Integer; DataObject: IDataObject; DragEffect: Integer); begin ActiveX.DoDragDrop(DataObject, VTVDragManager as IDropSource, AllowedEffects, @DragEffect); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DrawLineImage(const PaintInfo: TVTPaintInfo; X, Y, H, VAlign: Integer; Style: TVTLineType; Reverse: Boolean); // Draws (depending on Style) one of the 5 line types of the tree. // If Reverse is True then a right-to-left column is being drawn, hence horizontal lines must be mirrored. // X and Y describe the left upper corner of the line image rectangle, while H denotes its height (and width). var HalfWidth, TargetX: Integer; begin HalfWidth := Integer(FIndent) div 2; if Reverse then TargetX := 0 else TargetX := FIndent; with PaintInfo.Canvas do begin case Style of ltBottomRight: begin DrawDottedVLine(PaintInfo, Y + VAlign, Y + H, X + HalfWidth); DrawDottedHLine(PaintInfo, X + HalfWidth, X + TargetX, Y + VAlign); end; ltTopDown: DrawDottedVLine(PaintInfo, Y, Y + H, X + HalfWidth); ltTopDownRight: begin DrawDottedVLine(PaintInfo, Y, Y + H, X + HalfWidth); DrawDottedHLine(PaintInfo, X + HalfWidth, X + TargetX, Y + VAlign); end; ltRight: DrawDottedHLine(PaintInfo, X + HalfWidth, X + TargetX, Y + VAlign); ltTopRight: begin DrawDottedVLine(PaintInfo, Y, Y + VAlign, X + HalfWidth); DrawDottedHLine(PaintInfo, X + HalfWidth, X + TargetX, Y + VAlign); end; ltLeft: // left can also mean right for RTL context if Reverse then DrawDottedVLine(PaintInfo, Y, Y + H, X + Integer(FIndent)) else DrawDottedVLine(PaintInfo, Y, Y + H, X); ltLeftBottom: if Reverse then begin DrawDottedVLine(PaintInfo, Y, Y + H, X + Integer(FIndent)); DrawDottedHLine(PaintInfo, X, X + Integer(FIndent), Y + H); end else begin DrawDottedVLine(PaintInfo, Y, Y + H, X); DrawDottedHLine(PaintInfo, X, X + Integer(FIndent), Y + H); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.FindInPositionCache(Node: PVirtualNode; var CurrentPos: Cardinal): PVirtualNode; // Looks through the position cache and returns the node whose top position is the largest one which is smaller or equal // to the position of the given node. var L, H, I: Integer; begin L := 0; H := High(FPositionCache); while L <= H do begin I := (L + H) shr 1; if CompareNodePositions(FPositionCache[I].Node, Node) <= 0 then L := I + 1 else H := I - 1; end; Result := FPositionCache[L - 1].Node; CurrentPos := FPositionCache[L - 1].AbsoluteTop; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.FindInPositionCache(Position: Cardinal; var CurrentPos: Cardinal): PVirtualNode; // Looks through the position cache and returns the node whose top position is the largest one which is smaller or equal // to the given vertical position. // The returned node does not necessarily occupy the given position but is the nearest one to start // iterating from to approach the real node for a given position. CurrentPos receives the actual position of the found // node which is needed for further iteration. var L, H, I: Integer; begin L := 0; H := High(FPositionCache); while L <= H do begin I := (L + H) shr 1; if FPositionCache[I].AbsoluteTop <= Position then L := I + 1 else H := I - 1; end; Result := FPositionCache[L - 1].Node; CurrentPos := FPositionCache[L - 1].AbsoluteTop; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.FixupTotalCount(Node: PVirtualNode); // Called after loading a subtree from stream. The child count in each node is already set but not // their total count. var Child: PVirtualNode; begin // Initial total count is set to one on node creation. Child := Node.FirstChild; while Assigned(Child) do begin FixupTotalCount(Child); Inc(Node.TotalCount, Child.TotalCount); Child := Child.NextSibling; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.FixupTotalHeight(Node: PVirtualNode); // Called after loading a subtree from stream. The individual height of each node is set already, // but their total height needs an adjustment depending on their visibility state. var Child: PVirtualNode; begin // Initial total height is set to the node height on load. Child := Node.FirstChild; if vsExpanded in Node.States then begin while Assigned(Child) do begin FixupTotalHeight(Child); if vsVisible in Child.States then Inc(Node.TotalHeight, Child.TotalHeight); Child := Child.NextSibling; end; end else begin // The node is collapsed, so just update the total height of its child nodes. while Assigned(Child) do begin FixupTotalHeight(Child); Child := Child.NextSibling; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetCheckedCount: Integer; var Node: PVirtualNode; begin Result := 0; Node := GetFirstChecked; while Assigned(Node) do begin Inc(Result); Node := GetNextChecked(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetCheckState(Node: PVirtualNode): TCheckState; begin Result := Node.CheckState; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetCheckType(Node: PVirtualNode): TCheckType; begin Result := Node.CheckType; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetChildCount(Node: PVirtualNode): Cardinal; begin if (Node = nil) or (Node = FRoot) then Result := FRoot.ChildCount else Result := Node.ChildCount; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetChildrenInitialized(Node: PVirtualNode): Boolean; begin Result := not (vsHasChildren in Node.States) or (Node.ChildCount > 0); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetCutCopyCount: Integer; var Node: PVirtualNode; begin Result := 0; Node := GetFirstCutCopy; while Assigned(Node) do begin Inc(Result); Node := GetNextCutCopy(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetDisabled(Node: PVirtualNode): Boolean; begin Result := Assigned(Node) and (vsDisabled in Node.States); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetDragManager: IVTDragManager; // Returns the internal drag manager interface. If this does not yet exist then it is created here. begin if FDragManager = nil then begin FDragManager := DoCreateDragManager; if FDragManager = nil then FDragManager := TVTDragManager.Create(Self); end; Result := FDragManager; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetExpanded(Node: PVirtualNode): Boolean; begin if Assigned(Node) then Result := vsExpanded in Node.States else Result := False; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFullyVisible(Node: PVirtualNode): Boolean; // Determines whether the given node has the visibility flag set as well as all its parents are expanded. begin Assert(Assigned(Node), 'Invalid parameter.'); Result := vsVisible in Node.States; if Result and (Node <> FRoot) then Result := VisiblePath[Node]; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetHasChildren(Node: PVirtualNode): Boolean; begin if Assigned(Node) then Result := vsHasChildren in Node.States else Result := vsHasChildren in FRoot.States; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetMultiline(Node: PVirtualNode): Boolean; begin Result := Assigned(Node) and (Node <> FRoot) and (vsMultiline in Node.States); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNodeHeight(Node: PVirtualNode): Cardinal; begin if Assigned(Node) and (Node <> FRoot) then begin if toVariableNodeHeight in FOptions.FMiscOptions then begin if not (vsInitialized in Node.States) then InitNode(Node); // Ensure the node's height is determined. MeasureItemHeight(Canvas, Node); end; Result := Node.NodeHeight end else Result := 0; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNodeParent(Node: PVirtualNode): PVirtualNode; begin if Assigned(Node) and (Node.Parent <> FRoot) then Result := Node.Parent else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetOffsetXY: TPoint; begin Result := Point(FOffsetX, FOffsetY); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetRootNodeCount: Cardinal; begin Result := FRoot.ChildCount; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetSelected(Node: PVirtualNode): Boolean; begin Result := Assigned(Node) and (vsSelected in Node.States); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetTopNode: PVirtualNode; var Dummy: Integer; begin Result := GetNodeAt(0, 0, True, Dummy); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetTotalCount: Cardinal; begin Inc(FUpdateCount); try ValidateNode(FRoot, True); finally Dec(FUpdateCount); end; // The root node itself doesn't count as node. Result := FRoot.TotalCount - 1; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetVerticalAlignment(Node: PVirtualNode): Byte; begin Result := Node.Align; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetVisible(Node: PVirtualNode): Boolean; // Determines if the given node is marked as being visible. begin if Node = nil then Node := FRoot; if not (vsInitialized in Node.States) then InitNode(Node); Result := vsVisible in Node.States; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetVisiblePath(Node: PVirtualNode): Boolean; // Determines if all parents of the given node are expanded and have the visibility flag set. begin Assert(Assigned(Node) and (Node <> FRoot), 'Invalid parameters.'); // FRoot is always expanded repeat Node := Node.Parent; until (Node = FRoot) or not (vsExpanded in Node.States) or not (vsVisible in Node.States); Result := Node = FRoot; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.HandleClickSelection(LastFocused, NewNode: PVirtualNode; Shift: TShiftState; DragPending: Boolean); // Handles multi-selection with mouse click. begin // Ctrl key down if ssCtrl in Shift then begin if ssShift in Shift then begin SelectNodes(FRangeAnchor, NewNode, True); Invalidate; end else begin if not (toSiblingSelectConstraint in FOptions.SelectionOptions) then FRangeAnchor := NewNode; // Delay selection change if a drag operation is pending. // Otherwise switch selection state here. if DragPending then DoStateChange([tsToggleFocusedSelection]) else if vsSelected in NewNode.States then RemoveFromSelection(NewNode) else AddToSelection(NewNode); end; end else // Shift key down if ssShift in Shift then begin if FRangeAnchor = nil then FRangeAnchor := FRoot.FirstChild; // select node range if Assigned(FRangeAnchor) then begin SelectNodes(FRangeAnchor, NewNode, False); Invalidate; end; end else begin // any other case if not (vsSelected in NewNode.States) then begin AddToSelection(NewNode); InvalidateNode(NewNode); end; // assign new reference item FRangeAnchor := NewNode; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.HandleDrawSelection(X, Y: Integer): Boolean; // Handles multi-selection with a focus rectangle. // Result is True if something changed in selection. var OldRect, NewRect: TRect; MainColumn: TColumnIndex; MaxValue: Integer; // limits of a node and its text NodeLeft, NodeRight: Integer; // alignment and directionality CurrentBidiMode: TBidiMode; CurrentAlignment: TAlignment; begin Result := False; // Selection changes are only done if the user drew a selection rectangle large // enough to exceed the threshold. if (FRoot.TotalCount > 1) and (tsDrawSelecting in FStates) then begin // Effective handling of node selection is done by using two rectangles stored in FSelectRec. OldRect := OrderRect(FLastSelRect); NewRect := OrderRect(FNewSelRect); ClearTempCache; MainColumn := FHeader.MainColumn; // Alignment and bidi mode determine where the node text is located within a node. if MainColumn = NoColumn then begin CurrentBidiMode := BidiMode; CurrentAlignment := Alignment; end else begin CurrentBidiMode := FHeader.FColumns[MainColumn].BidiMode; CurrentAlignment := FHeader.FColumns[MainColumn].Alignment; end; // Determine initial left border of first node (take column reordering into account). if FHeader.UseColumns then begin // The mouse coordinates don't include any horizontal scrolling hence take this also // out from the returned column position. NodeLeft := FHeader.FColumns[MainColumn].Left - FEffectiveOffsetX; NodeRight := NodeLeft + FHeader.FColumns[MainColumn].Width; end else begin NodeLeft := 0; NodeRight := ClientWidth; end; if CurrentBidiMode = bdLeftToRight then Result := CollectSelectedNodesLTR(MainColumn, NodeLeft, NodeRight, CurrentAlignment, OldRect, NewRect) else Result := CollectSelectedNodesRTL(MainColumn, NodeLeft, NodeRight, CurrentAlignment, OldRect, NewRect); end; if Result then begin // Do some housekeeping if there was a change. MaxValue := PackArray(FSelection, FSelectionCount); if MaxValue > -1 then begin FSelectionCount := MaxValue; SetLength(FSelection, FSelectionCount); end; if FTempNodeCount > 0 then begin AddToSelection(FTempNodeCache, FTempNodeCount); ClearTempCache; end; Change(nil); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.HasVisibleNextSibling(Node: PVirtualNode): Boolean; // Helper method to determine if the given node has a visible sibling. This is needed to // draw correct tree lines. begin // Check if there is a sibling at all. Result := Assigned(Node.NextSibling); if Result then begin repeat Node := Node.NextSibling; Result := vsVisible in Node.States; until Result or (Node.NextSibling = nil); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ImageListChange(Sender: TObject); begin if not (csDestroying in ComponentState) then Invalidate; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InitializeFirstColumnValues(var PaintInfo: TVTPaintInfo); // Determines initial index, position and cell size of the first visible column. begin PaintInfo.Column := FHeader.FColumns.GetFirstVisibleColumn; with FHeader.FColumns, PaintInfo do begin if Column > NoColumn then begin CellRect.Right := CellRect.Left + Items[Column].Width; Position := Items[Column].Position; end else Position := 0; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.InitializeLineImageAndSelectLevel(Node: PVirtualNode; var LineImage: TLineImage): Integer; // This method is used during paint cycles and initializes an array of line type IDs. These IDs are used to paint // the tree lines in front of the given node. // Additionally an initial count of selected parents is determined and returned which is used for specific painting. var X: Integer; Run: PVirtualNode; begin Result := 0; if toShowRoot in FOptions.FPaintOptions then X := 1 else X := 0; Run := Node; // Determine indentation level of top node. while Run.Parent <> FRoot do begin Inc(X); Run := Run.Parent; // Count selected nodes (FRoot is never selected). if vsSelected in Run.States then Inc(Result); end; // Set initial size of line index array, this will automatically initialized all entries to ltNone. SetLength(LineImage, X); // Only use lines if requested. if toShowTreeLines in FOptions.FPaintOptions then begin // Start over parent traversal if necessary. Run := Node; if Run.Parent <> FRoot then begin // The very last image (the one immediately before the item label) is different. if HasVisibleNextSibling(Run) then LineImage[X - 1] := ltTopDownRight else LineImage[X - 1] := ltTopRight; Run := Run.Parent; // Now go up all parents. repeat if Run.Parent = FRoot then Break; Dec(X); if HasVisibleNextSibling(Run) then LineImage[X - 1] := ltTopDown else LineImage[X - 1] := ltNone; Run := Run.Parent; until False; end; // Prepare root level. Run points at this stage to a top level node. if (toShowRoot in FOptions.FPaintOptions) and (toShowTreeLines in FOptions.FPaintOptions) then begin // Is the top node a root node? if Run = Node then begin // First child gets the bottom-right bitmap if it isn't also the only child. if IsFirstVisibleChild(FRoot, Run) then // Is it the only child? if IsLastVisibleChild(FRoot, Run) then LineImage[0] := ltRight else LineImage[0] := ltBottomRight else // real last child if IsLastVisibleChild(FRoot, Run) then LineImage[0] := ltTopRight else LineImage[0] := ltTopDownRight; end else begin // No, top node is not a top level node. So we need different painting. if HasVisibleNextSibling(Run) then LineImage[0] := ltTopDown else LineImage[0] := ltNone; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InitRootNode(OldSize: Cardinal = 0); // Reinitializes the root node. var NewSize: Cardinal; begin NewSize := TreeNodeSize + FTotalInternalDataSize; if FRoot = nil then FRoot := AllocMem(NewSize) else begin ReallocMem(FRoot, NewSize); FillChar(PChar(PChar(FRoot) + OldSize)^, NewSize - OldSize,0); end; with FRoot^ do begin // Indication that this node is the root node. PrevSibling := FRoot; NextSibling := FRoot; Parent := Pointer(Self); States := [vsInitialized, vsExpanded, vsHasChildren, vsVisible]; TotalHeight := FDefaultNodeHeight; TotalCount := 1; TotalHeight := FDefaultNodeHeight; NodeHeight := FDefaultNodeHeight; Align := 50; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InterruptValidation; // Waits until the worker thread has stopped validating the caches of this tree. var Msg: TMsg; begin DoStateChange([tsStopValidation], [tsUseCache]); {$ifdef EnableThreadSupport} // Check the worker thread existance. It might already be gone (usually on destruction of the last tree). if Assigned(WorkerThread) then begin if tsValidating in FStates then begin // Do a hard break until the worker thread has stopped validation. while (tsValidating in FStates) and (WorkerThread.CurrentTree = Self) and not Application.Terminated do begin // Pump our own messages to avoid a deadlock. //todo_lcl_check Application.ProcessMessages; { if PeekMessage(Msg, Handle, 0, 0, PM_REMOVE) then begin if Msg.message = WM_QUIT then begin PostQuitMessage(Msg.WParam); Break; end; TranslateMessage(Msg); DispatchMessage(Msg); end; } end; DoStateChange([tsValidationNeeded]); end else // Remove any pending validation. WorkerThread.RemoveTree(Self); end; {$endif} end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.IsFirstVisibleChild(Parent, Node: PVirtualNode): Boolean; // Helper method to check if Node is the same as the first visible child of Parent. var Run: PVirtualNode; begin // Find first visible child. Run := Parent.FirstChild; while Assigned(Run) and not (vsVisible in Run.States) do Run := Run.NextSibling; Result := Assigned(Run) and (Run = Node); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.IsLastVisibleChild(Parent, Node: PVirtualNode): Boolean; // Helper method to check if Node is the same as the last visible child of Parent. var Run: PVirtualNode; begin // Find last visible child. Run := Parent.LastChild; while Assigned(Run) and not (vsVisible in Run.States) do Run := Run.PrevSibling; Result := Assigned(Run) and (Run = Node); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.LimitPaintingToArea(Canvas: TCanvas; ClipRect: TRect; VisibleRegion: HRGN = 0); // Limits further painting onto the given canvas to the given rectangle. // VisibleRegion is an optional region which can be used to limit drawing further. var ClipRegion: HRGN; begin // Regions expect their coordinates in device coordinates, hence we have to transform the region rectangle. LPtoDP(Canvas.Handle, ClipRect, 2); ClipRegion := CreateRectRgnIndirect(ClipRect); if VisibleRegion <> 0 then CombineRgn(ClipRegion, ClipRegion, VisibleRegion, RGN_AND); SelectClipRgn(Canvas.Handle, ClipRegion); DeleteObject(ClipRegion); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.LoadPanningCursors; begin with Screen do begin Cursors[crVT_MOVEALL]:=LoadCursorFromLazarusResource('VT_MOVEALL'); Cursors[crVT_MOVEEW]:=LoadCursorFromLazarusResource('VT_MOVEEW'); Cursors[crVT_MOVENS]:=LoadCursorFromLazarusResource('VT_MOVENS'); Cursors[crVT_MOVENW]:=LoadCursorFromLazarusResource('VT_MOVENW'); Cursors[crVT_MOVESW]:=LoadCursorFromLazarusResource('VT_MOVESW'); Cursors[crVT_MOVESE]:=LoadCursorFromLazarusResource('VT_MOVESE'); Cursors[crVT_MOVENE]:=LoadCursorFromLazarusResource('VT_MOVENE'); Cursors[crVT_MOVEW]:=LoadCursorFromLazarusResource('VT_MOVEW'); Cursors[crVT_MOVEE]:=LoadCursorFromLazarusResource('VT_MOVEE'); Cursors[crVT_MOVEN]:=LoadCursorFromLazarusResource('VT_MOVEN'); Cursors[crVT_MOVES]:=LoadCursorFromLazarusResource('VT_MOVES'); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.MakeNewNode: PVirtualNode; var Size: Cardinal; begin Size := TreeNodeSize; if not (csDesigning in ComponentState) then begin // Make sure FNodeDataSize is valid. if FNodeDataSize = -1 then ValidateNodeDataSize(FNodeDataSize); // Take record alignment into account. Inc(Size, FNodeDataSize); end; {$ifdef UseLocalMemoryManager} Result := FNodeMemoryManager.AllocNode(Size + FTotalInternalDataSize); {$else} Result := AllocMem(Size + FTotalInternalDataSize); {$endif UseLocalMemoryManager} // Fill in some default values. with Result^ do begin TotalCount := 1; TotalHeight := FDefaultNodeHeight; NodeHeight := FDefaultNodeHeight; States := [vsVisible]; Align := 50; end; end; function TBaseVirtualTree.PackArray(TheArray: TNodeArray; Count: Integer): Integer; var i, l: Integer; begin //todo_lcl Remove l var and use Result instead. See the differences Result := -1; if Count = 0 then Exit; l := 0; for i := 0 to Count - 1 do begin if vsSelected in TheArray[i]^.States then begin TheArray[l] := TheArray[i]; Inc(l); end; end; Result := l; // return length end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.PackArrayAsm(TheArray: TNodeArray; Count: Integer): Integer; assembler; // Removes all entries from the selection array which are no longer in use. The selection array must be sorted for this // algo to work. Values which must be removed are marked with bit 0 (LSB) set. This little trick works because memory // is always allocated DWORD aligned. Since the selection array must be sorted while determining the entries to be // removed it is much more efficient to increment the entry in question instead of setting it to nil (which would break // the ordered appearance of the list). // // On enter EAX contains self reference, EDX the address to TheArray and ECX Count // The returned value is the number of remaining entries in the array, so the caller can reallocate (shorten) // the selection array if needed or -1 if nothing needs to be changed. asm PUSH EBX PUSH EDI PUSH ESI MOV ESI, EDX MOV EDX, -1 JCXZ @@Finish // Empty list? INC EDX // init remaining entries counter MOV EDI, ESI // source and destination point to the list memory MOV EBX, 1 // use a register instead of immediate operant to check against @@PreScan: TEST [ESI], EBX // do the fastest scan possible to find the first entry // which must be removed JNZ @@DoMainLoop INC EDX ADD ESI, 4 DEC ECX JNZ @@PreScan JMP @@Finish @@DoMainLoop: MOV EDI, ESI @@MainLoop: TEST [ESI], EBX // odd entry? JNE @@Skip // yes, so skip this one MOVSD // else move the entry to new location INC EDX // count the moved entries DEC ECX JNZ @@MainLoop // do it until all entries are processed JMP @@Finish @@Skip: ADD ESI, 4 // point to the next entry DEC ECX JNZ @@MainLoop // do it until all entries are processed @@Finish: MOV EAX, EDX // prepare return value POP ESI POP EDI POP EBX end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.PrepareBitmaps(NeedButtons, NeedLines: Boolean); // initializes the contents of the internal bitmaps const LineBitsDotted: array [0..8] of Word = ($55, $AA, $55, $AA, $55, $AA, $55, $AA, $55); LineBitsSolid: array [0..7] of Word = (0, 0, 0, 0, 0, 0, 0, 0); var PatternBitmap: HBITMAP; Bits: Pointer; {$ifdef ThemeSupport} Details: TThemedElementDetails; {$endif ThemeSupport} begin if NeedButtons then begin with FMinusBM, Canvas do begin // box is always of odd size //The TCanvas of VCL does not has width and height. It cause a conflict here FMinusBM.Width := TreeButtonSize; FMinusBM.Height := TreeButtonSize; //Reset mask MaskHandle := 0; //todo: remove when transparency is fixed in gtk {$ifdef Windows} Brush.Color := clFuchsia; {$else} Brush.Color := Self.Color; {$endif} FillRect(Rect(0, 0, TreeButtonSize, TreeButtonSize)); if FButtonStyle = bsTriangle then begin Brush.Color := clBlack; Pen.Color := clBlack; Polygon([Point(0, 2), Point(8, 2), Point(4, 6)]); MaskHandle := CreateBitmapMask(Handle, TreeButtonSize, TreeButtonSize, clFuchsia); end else begin // Button style is rectangular. Now ButtonFillMode determines how to fill the interior. if FButtonFillMode in [fmTreeColor, fmWindowColor, fmTransparent] then begin case FButtonFillMode of fmTreeColor: Brush.Color := Self.Color; fmWindowColor: Brush.Color := clWindow; end; Pen.Color := FColors.TreeLineColor; Rectangle(0, 0, TreeButtonSize, TreeButtonSize); Pen.Color := Self.Font.Color; MoveTo(2, TreeButtonSize div 2); LineTo(TreeButtonSize - 2 , TreeButtonSize div 2); if FButtonFillMode = fmTransparent then MaskHandle := CreateBitmapMask(Handle, TreeButtonSize, TreeButtonSize, clFuchsia); end else FMinusBM.LoadFromLazarusResource('VT_XPBUTTONMINUS'); end; end; with FPlusBM, Canvas do begin FPlusBM.Width := TreeButtonSize; FPlusBM.Height := TreeButtonSize; //Reset mask MaskHandle := 0; //todo: remove when transparency is fixed in gtk {$ifdef Windows} Brush.Color := clFuchsia; {$else} Brush.Color := Self.Color; {$endif} FillRect(Rect(0, 0, TreeButtonSize, TreeButtonSize)); if FButtonStyle = bsTriangle then begin Brush.Color := clBlack; Pen.Color := clBlack; Polygon([Point(2, 0), Point(6, 4), Point(2, 8)]); MaskHandle := CreateBitmapMask(Handle, TreeButtonSize, TreeButtonSize, clFuchsia); end else begin // Button style is rectangular. Now ButtonFillMode determines how to fill the interior. if FButtonFillMode in [fmTreeColor, fmWindowColor, fmTransparent] then begin case FButtonFillMode of fmTreeColor: Brush.Color := Self.Color; fmWindowColor: Brush.Color := clWindow; end; Pen.Color := FColors.TreeLineColor; Rectangle(0, 0, TreeButtonSize, TreeButtonSize); Pen.Color := Self.Font.Color; MoveTo(2, TreeButtonSize div 2); LineTo(TreeButtonSize - 2 , TreeButtonSize div 2); MoveTo(TreeButtonSize div 2, 2); LineTo(TreeButtonSize div 2, TreeButtonSize - 2); if FButtonFillMode = fmTransparent then MaskHandle := CreateBitmapMask(Handle, TreeButtonSize, TreeButtonSize, clFuchsia); end else FPlusBM.LoadFromLazarusResource('VT_XPBUTTONPLUS'); end; end; {$ifdef ThemeSupport} // Overwrite glyph images if theme is active. if tsUseThemes in FStates then begin Details := ThemeServices.GetElementDetails(ttGlyphClosed); ThemeServices.DrawElement(FPlusBM.Canvas.Handle, Details, Rect(0, 0, 9, 9)); Details := ThemeServices.GetElementDetails(ttGlyphOpened); ThemeServices.DrawElement(FMinusBM.Canvas.Handle, Details, Rect(0, 0, 9, 9)); end; {$endif ThemeSupport} end; if NeedLines then begin //WARNING: It requires a patched LCL if FDottedBrush <> 0 then DeleteObject(FDottedBrush); case FLineStyle of lsDotted: Bits := @LineBitsDotted; lsSolid: Bits := @LineBitsSolid; else // lsCustomStyle Bits := @LineBitsDotted; DoGetLineStyle(Bits); end; PatternBitmap := CreateBitmap(8, 8, 1, 1, Bits); FDottedBrush := CreatePatternBrush(PatternBitmap); DeleteObject(PatternBitmap); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.PrepareCell(var PaintInfo: TVTPaintInfo; WindowOrgX, MaxWidth: Integer); // This method is called immediately before a cell's content is drawn und is responsible to paint selection colors etc. var TextColorBackup, BackColorBackup: COLORREF; InnerRect: TRect; //---------------------------------------------------------------------------- procedure AlphaBlendSelection(Color: TColor); var R: TRect; begin // Take into account any window offset and size limitations in the target bitmap, as this is only as large // as necessary and might not cover the whole node. For normal painting this does not matter (because of // clipping) but for the MMX code there is no such check and it will crash badly when bitmap boundaries are // crossed. R := InnerRect; OffsetRect(R, -WindowOrgX, 0); if R.Left < 0 then R.Left := 0; if R.Right > MaxWidth then R.Right := MaxWidth; AlphaBlend(0, PaintInfo.Canvas.Handle, R, Point(0, 0), bmConstantAlphaAndColor, FSelectionBlendFactor, ColorToRGB(Color)); end; //---------------------------------------------------------------------------- begin with PaintInfo, Canvas do begin InnerRect := ContentRect; // Fill cell background if its color differs from tree background. with FHeader.FColumns do if poColumnColor in PaintOptions then begin Brush.Color := Items[Column].Color; FillRect(CellRect); end; // Let the application customize the cell background. DoBeforeCellPaint(Canvas, Node, Column, CellRect); if (Column = FFocusedColumn) or (toFullRowSelect in FOptions.FSelectionOptions) then begin // The selection rectangle depends on alignment. if not (toGridExtensions in FOptions.FMiscOptions) then begin case Alignment of taLeftJustify: with InnerRect do if Left + NodeWidth < Right then Right := Left + NodeWidth; taCenter: with InnerRect do if (Right - Left) > NodeWidth then begin Left := (Left + Right - NodeWidth) div 2; Right := Left + NodeWidth; end; taRightJustify: with InnerRect do if (Right - Left) > NodeWidth then Left := Right - NodeWidth; end; end; // Fill the selection rectangle. if poDrawSelection in PaintOptions then begin if Node = FDropTargetNode then begin if (FLastDropMode = dmOnNode) or (vsSelected in Node.States) then begin Brush.Color := FColors.DropTargetColor; Pen.Color := FColors.DropTargetBorderColor; if (toGridExtensions in FOptions.FMiscOptions) or (toFullRowSelect in FOptions.FSelectionOptions) then InnerRect := CellRect; if not IsRectEmpty(InnerRect) then if MMXAvailable and (toUseBlendedSelection in FOptions.PaintOptions) then AlphaBlendSelection(Brush.Color) else with InnerRect do RoundRect(Left, Top, Right, Bottom, FSelectionCurveRadius, FSelectionCurveRadius); end else begin //todo: remove comment when LCL is fixed //Brush.Style := bsClear; end; end else if vsSelected in Node.States then begin if Focused or (toPopupMode in FOptions.FPaintOptions) then begin Brush.Color := FColors.FocusedSelectionColor; Pen.Color := FColors.FocusedSelectionBorderColor; end else begin Brush.Color := FColors.UnfocusedSelectionColor; Pen.Color := FColors.UnfocusedSelectionBorderColor; end; if (toGridExtensions in FOptions.FMiscOptions) or (toFullRowSelect in FOptions.FSelectionOptions) then InnerRect := CellRect; if not IsRectEmpty(InnerRect) then if MMXAvailable and (toUseBlendedSelection in FOptions.PaintOptions) then AlphaBlendSelection(Brush.Color) else with InnerRect do RoundRect(Left, Top, Right, Bottom, FSelectionCurveRadius, FSelectionCurveRadius); end; end; // draw focus rect if (poDrawFocusRect in PaintOptions) and (Column = FFocusedColumn) and (Focused or (toPopupMode in FOptions.FPaintOptions)) and (FFocusedNode = Node) then begin TextColorBackup := GetTextColor(Handle); SetTextColor(Handle, $FFFFFF); BackColorBackup := GetBkColor(Handle); SetBkColor(Handle, 0); if toGridExtensions in FOptions.FMiscOptions then LCLIntf.DrawFocusRect(Handle, CellRect) else LCLIntf.DrawFocusRect(Handle, InnerRect); SetTextColor(Handle, TextColorBackup); SetBkColor(Handle, BackColorBackup); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- type TOldVTOption = (voAcceptOLEDrop, voAnimatedToggle, voAutoDropExpand, voAutoExpand, voAutoScroll, voAutoSort, voAutoSpanColumns, voAutoTristateTracking, voCheckSupport, voDisableDrawSelection, voEditable, voExtendedFocus, voFullRowSelect, voGridExtensions, voHideFocusRect, voHideSelection, voHotTrack, voInitOnSave, voLevelSelectConstraint, voMiddleClickSelect, voMultiSelect, voRightClickSelect, voPopupMode, voShowBackground, voShowButtons, voShowDropmark, voShowHorzGridLines, voShowRoot, voShowTreeLines, voShowVertGridLines, voSiblingSelectConstraint, voToggleOnDblClick); const OptionMap: array[TOldVTOption] of Integer = ( Ord(toAcceptOLEDrop), Ord(toAnimatedToggle), Ord(toAutoDropExpand), Ord(toAutoExpand), Ord(toAutoScroll), Ord(toAutoSort), Ord(toAutoSpanColumns), Ord(toAutoTristateTracking), Ord(toCheckSupport), Ord(toDisableDrawSelection), Ord(toEditable), Ord(toExtendedFocus), Ord(toFullRowSelect), Ord(toGridExtensions), Ord(toHideFocusRect), Ord(toHideSelection), Ord(toHotTrack), Ord(toInitOnSave), Ord(toLevelSelectConstraint), Ord(toMiddleClickSelect), Ord(toMultiSelect), Ord(toRightClickSelect), Ord(toPopupMode), Ord(toShowBackground), Ord(toShowButtons), Ord(toShowDropmark), Ord(toShowHorzGridLines), Ord(toShowRoot), Ord(toShowTreeLines), Ord(toShowVertGridLines), Ord(toSiblingSelectConstraint), Ord(toToggleOnDblClick) ); procedure TBaseVirtualTree.ReadOldOptions(Reader: TReader); // Migration helper routine to silently convert forms containing the old tree options member into the new // sub-options structure. var OldOption: TOldVTOption; EnumName: string; begin // If we are at design time currently then let the designer know we changed something. UpdateDesigner; // It should never happen at this place that there is something different than the old set. if Reader.ReadValue = vaSet then begin // Remove all default values set by the constructor. FOptions.AnimationOptions := []; FOptions.AutoOptions := []; FOptions.MiscOptions := []; FOptions.PaintOptions := []; FOptions.SelectionOptions := []; while True do begin // Sets are stored with their members as simple strings. Read them one by one and map them to the new option // in the correct sub-option set. EnumName := Reader.ReadString; if EnumName = '' then Break; OldOption := TOldVTOption(GetEnumValue(TypeInfo(TOldVTOption), EnumName)); case OldOption of voAcceptOLEDrop, voCheckSupport, voEditable, voGridExtensions, voInitOnSave, voToggleOnDblClick: FOptions.MiscOptions := FOptions.FMiscOptions + [TVTMiscOption(OptionMap[OldOption])]; voAnimatedToggle: FOptions.AnimationOptions := FOptions.FAnimationOptions + [TVTAnimationOption(OptionMap[OldOption])]; voAutoDropExpand, voAutoExpand, voAutoScroll, voAutoSort, voAutoSpanColumns, voAutoTristateTracking: FOptions.AutoOptions := FOptions.FAutoOptions + [TVTAutoOption(OptionMap[OldOption])]; voDisableDrawSelection, voExtendedFocus, voFullRowSelect, voLevelSelectConstraint, voMiddleClickSelect, voMultiSelect, voRightClickSelect, voSiblingSelectConstraint: FOptions.SelectionOptions := FOptions.FSelectionOptions + [TVTSelectionOption(OptionMap[OldOption])]; voHideFocusRect, voHideSelection, voHotTrack, voPopupMode, voShowBackground, voShowButtons, voShowDropmark, voShowHorzGridLines, voShowRoot, voShowTreeLines, voShowVertGridLines: FOptions.PaintOptions := FOptions.FPaintOptions + [TVTPaintOption(OptionMap[OldOption])]; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetAlignment(const Value: TAlignment); begin if FAlignment <> Value then begin FAlignment := Value; if not (csLoading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetAnimationDuration(const Value: Cardinal); begin FAnimationDuration := Value; if FAnimationDuration = 0 then Exclude(FOptions.FAnimationOptions, toAnimatedToggle) else Include(FOptions.FAnimationOptions, toAnimatedToggle); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetBackground(const Value: TPicture); begin FBackground.Assign(Value); Invalidate; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetBackgroundOffset(const Index, Value: Integer); begin case Index of 0: if FBackgroundOffsetX <> Value then begin FBackgroundOffsetX := Value; Invalidate; end; 1: if FBackgroundOffsetY <> Value then begin FBackgroundOffsetY := Value; Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- { procedure TBaseVirtualTree.SetBorderStyle(Value: TBorderStyle); begin if FBorderStyle <> Value then begin FBorderStyle := Value; //todo_lcl_check RecreateWnd(Self); end; end; } //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetBottomSpace(const Value: Cardinal); begin if FBottomSpace <> Value then begin FBottomSpace := Value; UpdateVerticalScrollbar(True); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetButtonFillMode(const Value: TVTButtonFillMode); begin if FButtonFillMode <> Value then begin FButtonFillMode := Value; if not (csLoading in ComponentState) then begin PrepareBitmaps(True, False); if HandleAllocated then Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetButtonStyle(const Value: TVTButtonStyle); begin if FButtonStyle <> Value then begin FButtonStyle := Value; if not (csLoading in ComponentState) then begin PrepareBitmaps(True, False); if HandleAllocated then Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetCheckImageKind(Value: TCheckImageKind); begin if FCheckImageKind <> Value then begin FCheckImageKind := Value; if toCheckSupport in FOptions.FMiscOptions then GetCheckImageList; if HandleAllocated and (FUpdateCount = 0) and not (csLoading in ComponentState) then InvalidateRect(Handle, nil, False); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetCheckState(Node: PVirtualNode; Value: TCheckState); begin if (Node.CheckState <> Value) and not (vsDisabled in Node.States) and DoChecking(Node, Value) then DoCheckClick(Node, Value); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetCheckType(Node: PVirtualNode; Value: TCheckType); begin if (Node.CheckType <> Value) and not (toReadOnly in FOptions.FMiscOptions) then begin Node.CheckType := Value; Node.CheckState := csUncheckedNormal; // For check boxes with tri-state check box parents we have to initialize differently. if (toAutoTriStateTracking in FOptions.FAutoOptions) and (Value in [ctCheckBox, ctTriStateCheckBox]) and (Node.Parent <> FRoot) then begin if not (vsInitialized in Node.Parent.States) then InitNode(Node.Parent); if (Node.Parent.CheckType = ctTriStateCheckBox) and (Node.Parent.CheckState in [csUncheckedNormal, csCheckedNormal]) then CheckState[Node] := Node.Parent.CheckState; end; InvalidateNode(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetChildCount(Node: PVirtualNode; NewChildCount: Cardinal); // Changes a node's child structure to accomodate the new child count. This is used to add or delete // child nodes to/from the end of the node's child list. To insert or delete a specific node a separate // routine is used. var Remaining: Cardinal; Index: Cardinal; Child: PVirtualNode; Count: Integer; NewHeight: Integer; begin if not (toReadOnly in FOptions.FMiscOptions) then begin if Node = nil then Node := FRoot; if NewChildCount = 0 then DeleteChildren(Node) else begin // If nothing changed then do nothing. if NewChildCount <> Node.ChildCount then begin InterruptValidation; NewHeight := 0; if NewChildCount > Node.ChildCount then begin Remaining := NewChildCount - Node.ChildCount; Count := Remaining; // New nodes to add. if Assigned(Node.LastChild) then Index := Node.LastChild.Index + 1 else begin Index := 0; Include(Node.States, vsHasChildren); end; Node.States := Node.States - [vsAllChildrenHidden, vsHeightMeasured]; // New nodes are by default always visible, so we don't need to check the visibility. while Remaining > 0 do begin Child := MakeNewNode; Child.Index := Index; Child.PrevSibling := Node.LastChild; if Assigned(Node.LastChild) then Node.LastChild.NextSibling := Child; Child.Parent := Node; Node.LastChild := Child; if Node.FirstChild = nil then Node.FirstChild := Child; Dec(Remaining); Inc(Index); // The actual node height will later be computed once it is clear // whether this node has a variable node height or not. Inc(NewHeight, Child.NodeHeight); end; if vsExpanded in Node.States then begin AdjustTotalHeight(Node, NewHeight, True); if FullyVisible[Node] then Inc(Integer(FVisibleCount), Count); end; AdjustTotalCount(Node, Count, True); Node.ChildCount := NewChildCount; if (FUpdateCount = 0) and (toAutoSort in FOptions.FAutoOptions) and (FHeader.FSortColumn > InvalidColumn) then Sort(Node, FHeader.FSortColumn, FHeader.FSortDirection, True); InvalidateCache; end else begin // Nodes have to be deleted. Remaining := Node.ChildCount - NewChildCount; while Remaining > 0 do begin DeleteNode(Node.LastChild); Dec(Remaining); end; end; if FUpdateCount = 0 then begin ValidateCache; UpdateScrollBars(True); Invalidate; end; if Node = FRoot then StructureChange(nil, crChildAdded) else StructureChange(Node, crChildAdded); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetClipboardFormats(const Value: TClipboardFormats); var I: Integer; begin // Add string by string instead doing an Assign or AddStrings because the list may return -1 for // invalid entries which cause trouble for the standard implementation. FClipboardFormats.Clear; for I := 0 to Value.Count - 1 do FClipboardFormats.Add(Value[I]); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetColors(const Value: TVTColors); begin FColors.Assign(Value); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetCustomCheckImages(const Value: TBitmap); begin if FCustomCheckImages <> Value then begin if Assigned(FCustomCheckImages) then begin // Reset the internal check image list reference too, if necessary. if FCheckImages = FCustomCheckImages then FCheckImages := nil; end; FCustomCheckImages := Value; // Check if currently custom check images are active. if FCheckImageKind = ckCustom then FCheckImages := Value; if not (csLoading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetDefaultNodeHeight(Value: Cardinal); begin if Value = 0 then Value := 18; if FDefaultNodeHeight <> Value then begin DoStateChange([tsNeedScale]); Inc(Integer(FRoot.TotalHeight), Integer(Value) - Integer(FDefaultNodeHeight)); Inc(SmallInt(FRoot.NodeHeight), Integer(Value) - Integer(FDefaultNodeHeight)); FDefaultNodeHeight := Value; InvalidateCache; if (FUpdateCount = 0) and HandleAllocated and not (csLoading in ComponentState) then begin ValidateCache; UpdateScrollBars(True); ScrollIntoView(FFocusedNode, toCenterScrollIntoView in FOptions.SelectionOptions, True); Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetDisabled(Node: PVirtualNode; Value: Boolean); begin if Assigned(Node) and (Value xor (vsDisabled in Node.States)) then begin if Value then Include(Node.States, vsDisabled) else Exclude(Node.States, vsDisabled); if FUpdateCount = 0 then InvalidateNode(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetExpanded(Node: PVirtualNode; Value: Boolean); begin if Assigned(Node) and (Node <> FRoot) and (Value xor (vsExpanded in Node.States)) then ToggleNode(Node); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetFocusedColumn(Value: TColumnIndex); begin if (FFocusedColumn <> Value) and DoFocusChanging(FFocusedNode, FFocusedNode, FFocusedColumn, Value) then begin CancelEditNode; FFocusedColumn := Value; if Assigned(FFocusedNode) then begin ScrollIntoView(FFocusedNode, toCenterScrollIntoView in FOptions.SelectionOptions, not (toDisableAutoscrollOnFocus in FOptions.FAutoOptions)); InvalidateNode(FFocusedNode); end; if Assigned(FDropTargetNode) then InvalidateNode(FDropTargetNode); DoFocusChange(FFocusedNode, FFocusedColumn); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetFocusedNode(Value: PVirtualNode); var WasDifferent: Boolean; begin WasDifferent := Value <> FFocusedNode; DoFocusNode(Value, True); // Do change event only if there was actually a change. if WasDifferent and (FFocusedNode = Value) then DoFocusChange(FFocusedNode, FFocusedColumn); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetFullyVisible(Node: PVirtualNode; Value: Boolean); // This method ensures that a node is visible and all its parent nodes are expanded and also visible // if Value is True. Otherwise the visibility flag of the node is reset but the expand state // of the parent nodes stays untouched. begin Assert(Assigned(Node) and (Node <> FRoot), 'Invalid parameter'); IsVisible[Node] := Value; if Value then begin repeat Node := Node.Parent; if Node = FRoot then Break; if not (vsExpanded in Node.States) then ToggleNode(Node); if not (vsVisible in Node.States) then IsVisible[Node] := True; until False; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetHasChildren(Node: PVirtualNode; Value: Boolean); begin if Assigned(Node) and not (toReadOnly in FOptions.FMiscOptions) then begin if Value then Include(Node.States, vsHasChildren) else begin Exclude(Node.States, vsHasChildren); DeleteChildren(Node); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetHeader(const Value: TVTHeader); begin FHeader.Assign(Value); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetImages(const Value: TCustomImageList); begin if FImages <> Value then begin if Assigned(FImages) then begin FImages.UnRegisterChanges(FImageChangeLink); FImages.RemoveFreeNotification(Self); end; FImages := Value; if Assigned(FImages) then begin FImages.RegisterChanges(FImageChangeLink); FImages.FreeNotification(Self); end; if not (csLoading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetIndent(Value: Cardinal); begin if FIndent <> Value then begin FIndent := Value; if not (csLoading in ComponentState) and (FUpdateCount = 0) and HandleAllocated then begin UpdateScrollBars(True); Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetLineMode(const Value: TVTLineMode); begin if FLineMode <> Value then begin FLineMode := Value; if HandleAllocated and not (csLoading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetLineStyle(const Value: TVTLineStyle); begin if FLineStyle <> Value then begin FLineStyle := Value; if not (csLoading in ComponentState) then begin PrepareBitmaps(False, True); if HandleAllocated then Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetMargin(Value: Integer); begin if FMargin <> Value then begin FMargin := Value; if HandleAllocated and not (csLoading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetMultiline(Node: PVirtualNode; const Value: Boolean); begin if Assigned(Node) and (Node <> FRoot) then if Value <> (vsMultiline in Node.States) then begin if Value then Include(Node.States, vsMultiline) else Exclude(Node.States, vsMultiline); if FUpdateCount = 0 then InvalidateNode(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetNodeAlignment(const Value: TVTNodeAlignment); begin if FNodeAlignment <> Value then begin FNodeAlignment := Value; if HandleAllocated and not (csReading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetNodeDataSize(Value: Integer); var LastRootCount: Cardinal; begin if Value < -1 then Value := -1; if FNodeDataSize <> Value then begin FNodeDataSize := Value; if not (csLoading in ComponentState) and not (csDesigning in ComponentState) then begin LastRootCount := FRoot.ChildCount; Clear; SetRootNodeCount(LastRootCount); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetNodeHeight(Node: PVirtualNode; Value: Cardinal); var Difference: Integer; begin if Assigned(Node) and (Node <> FRoot) and (Node.NodeHeight <> Value) and not (toReadOnly in FOptions.FMiscOptions) then begin Difference := Integer(Value) - Integer(Node.NodeHeight); Node.NodeHeight := Value; AdjustTotalHeight(Node, Difference, True); // If an edit operation is currently active then update the editors boundaries as well. UpdateEditBounds; // Stay away from touching the node cache while it is being validated. if not (tsValidating in FStates) and FullyVisible[Node] then begin InvalidateCache; if FUpdateCount = 0 then begin ValidateCache; InvalidateToBottom(Node); UpdateScrollBars(True); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetNodeParent(Node: PVirtualNode; const Value: PVirtualNode); begin if Assigned(Node) and Assigned(Value) and (Node.Parent <> Value) then MoveTo(Node, Value, amAddChildLast, False); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetOffsetX(const Value: Integer); begin DoSetOffsetXY(Point(Value, FOffsetY), DefaultScrollUpdateFlags); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetOffsetXY(const Value: TPoint); begin DoSetOffsetXY(Value, DefaultScrollUpdateFlags); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetOffsetY(const Value: Integer); begin DoSetOffsetXY(Point(FOffsetX, Value), DefaultScrollUpdateFlags); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetOptions(const Value: TCustomVirtualTreeOptions); begin FOptions.Assign(Value); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetRootNodeCount(Value: Cardinal); begin // Don't set the root node count until all other properties (in particular the OnInitNode event) have been set. if csLoading in ComponentState then begin FRoot.ChildCount := Value; DoStateChange([tsNeedRootCountUpdate]); end else if FRoot.ChildCount <> Value then begin BeginUpdate; InterruptValidation; SetChildCount(FRoot, Value); EndUpdate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetScrollBarOptions(Value: TScrollBarOptions); begin FScrollBarOptions.Assign(Value); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetSearchOption(const Value: TVTIncrementalSearch); begin if FIncrementalSearch <> Value then begin FIncrementalSearch := Value; if FIncrementalSearch = isNone then begin KillTimer(Handle, SearchTimer); FSearchBuffer := ''; FLastSearchNode := nil; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetSelected(Node: PVirtualNode; Value: Boolean); begin if Assigned(Node) and (Node <> FRoot) and (Value xor (vsSelected in Node.States)) then begin if Value then begin if FSelectionCount = 0 then FRangeAnchor := Node else if not (toMultiSelect in FOptions.FSelectionOptions) then ClearSelection; AddToSelection(Node); // Make sure there is a valid column selected (if there are columns at all). if ((FFocusedColumn < 0) or not (coVisible in FHeader.Columns[FFocusedColumn].Options)) and (FHeader.MainColumn > NoColumn) then if coVisible in FHeader.Columns[FHeader.MainColumn].Options then FFocusedColumn := FHeader.MainColumn else FFocusedColumn := FHeader.Columns.GetFirstVisibleColumn; if FRangeAnchor = nil then FRangeAnchor := Node; end else begin RemoveFromSelection(Node); if FSelectionCount = 0 then ResetRangeAnchor; end; if FullyVisible[Node] then InvalidateNode(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetSelectionCurveRadius(const Value: Cardinal); begin if FSelectionCurveRadius <> Value then begin FSelectionCurveRadius := Value; if HandleAllocated and not (csLoading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetStateImages(const Value: TCustomImageList); begin if FStateImages <> Value then begin if Assigned(FStateImages) then begin FStateImages.UnRegisterChanges(FStateChangeLink); FStateImages.RemoveFreeNotification(Self); end; FStateImages := Value; if Assigned(FStateImages) then begin FStateImages.RegisterChanges(FStateChangeLink); FStateImages.FreeNotification(Self); end; if HandleAllocated and not (csLoading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetTextMargin(Value: Integer); begin if FTextMargin <> Value then begin FTextMargin := Value; if not (csLoading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetTopNode(Node: PVirtualNode); var R: TRect; Run: PVirtualNode; begin if Assigned(Node) then begin // make sure all parents of the node are expanded Run := Node.Parent; while Run <> FRoot do begin if not (vsExpanded in Run.States) then ToggleNode(Run); Run := Run.Parent; end; R := GetDisplayRect(Node, FHeader.MainColumn, True); if hoVisible in FHeader.Options then Dec(R.Top, FHeader.Height); SetOffsetY(FOffsetY - R.Top); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetUpdateState(Updating: Boolean); begin // The check for visibility is necessary otherwise the tree is automatically shown when // updating is allowed. As this happens internally the VCL does not get notified and // still assumes the control is hidden. This results in weird "cannot focus invisble control" errors. //todo_lcl if Visible and HandleAllocated then SendMessage(Handle, WM_SETREDRAW, Ord(not Updating), 0); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetVerticalAlignment(Node: PVirtualNode; Value: Byte); begin if Value > 100 then Value := 100; if Node.Align <> Value then begin Node.Align := Value; if FullyVisible[Node] and (FUpdateCount = 0) then InvalidateNode(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetVisible(Node: PVirtualNode; Value: Boolean); // Sets the visibility style of the given node according to Value. var NeedUpdate: Boolean; begin Assert(Assigned(Node) and (Node <> FRoot), 'Invalid parameter.'); if Value <> (vsVisible in Node.States) then begin InterruptValidation; NeedUpdate := False; if Value then begin Include(Node.States, vsVisible); if vsExpanded in Node.Parent.States then AdjustTotalHeight(Node.Parent, Node.TotalHeight, True); if VisiblePath[Node] then begin Inc(FVisibleCount, 1 + CountVisibleChildren(Node)); NeedUpdate := True; end; // Update the hidden children flag of the parent. // Since this node is now visible we simply have to remove the flag. Exclude(Node.Parent.States, vsAllChildrenHidden); end else begin Exclude(Node.States, vsVisible); if vsExpanded in Node.Parent.States then AdjustTotalHeight(Node.Parent, -Integer(Node.TotalHeight), True); if VisiblePath[Node] then begin Dec(FVisibleCount, 1 + CountVisibleChildren(Node)); NeedUpdate := True; end; if FUpdateCount = 0 then DetermineHiddenChildrenFlag(Node.Parent) else Include(FStates, tsUpdateHiddenChildrenNeeded) end; InvalidateCache; if NeedUpdate and (FUpdateCount = 0) then begin ValidateCache; UpdateScrollBars(True); Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetVisiblePath(Node: PVirtualNode; Value: Boolean); // If Value is True then all parent nodes of Node are expanded. begin Assert(Assigned(Node) and (Node <> FRoot), 'Invalid parameter.'); if Value then begin repeat Node := Node.Parent; if Node = FRoot then Break; if not (vsExpanded in Node.States) then ToggleNode(Node); until False; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.StaticBackground(Source: TBitmap; Target: TCanvas; Offset: TPoint; R: TRect); // Draws the given source graphic so that it stays static in the given rectangle which is relative to the target bitmap. // The graphic is aligned so that it always starts at the upper left corner of the target canvas. // Offset gives the position of the target window as a possible superordinated surface. const DST = $00AA0029; // Ternary Raster Operation - Destination unchanged var PicRect: TRect; AreaRect: TRect; DrawRect: TRect; begin // clear background Target.Brush.Color := Color; Target.FillRect(R); // Picture rect in relation to client viewscreen. PicRect := Rect(FBackgroundOffsetX, FBackgroundOffsetY, FBackgroundOffsetX + Source.Width, FBackgroundOffsetY + Source.Height); // Area to be draw in relation to client viewscreen. AreaRect := Rect(Offset.X + R.Left, Offset.Y + R.Top, Offset.X + R.Right, Offset.Y + R.Bottom); // If picture falls in AreaRect, return intersection (DrawRect). if IntersectRect(DrawRect, PicRect, AreaRect) then begin // Draw portion of image which falls in canvas area. if Source.Transparent then begin // Leave transparent area as destination unchanged (DST), copy non-transparent areas to canvas (SRCCOPY). with DrawRect do MaskBlt(Target.Handle, Left - Offset.X, Top - Offset.Y, (Right - Offset.X) - (Left - Offset.X), (Bottom - Offset.Y) - (Top - Offset.Y), Source.Canvas.Handle, Left - PicRect.Left, DrawRect.Top - PicRect.Top, Source.MaskHandle, Left - PicRect.Left, Top - PicRect.Top, MakeROP4(DST, SRCCOPY)); end else begin // copy image to destination with DrawRect do BitBlt(Target.Handle, Left - Offset.X, Top - Offset.Y, (Right - Offset.X) - (Left - Offset.X), (Bottom - Offset.Y) - (Top - Offset.Y) + R.Top, Source.Canvas.Handle, Left - PicRect.Left, DrawRect.Top - PicRect.Top, SRCCOPY); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.TileBackground(Source: TBitmap; Target: TCanvas; Offset: TPoint; R: TRect); // Draws the given source graphic so that it tiles into the given rectangle which is relative to the target bitmap. // The graphic is aligned so that it always starts at the upper left corner of the target canvas. // Offset gives the position of the target window in an possible superordinated surface. var SourceX, SourceY, TargetX, DeltaY: Integer; begin with Target do begin SourceY := (R.Top + Offset.Y + FBackgroundOffsetY) mod Source.Height; // Always wrap the source coordinates into positive range. if SourceY < 0 then SourceY := Source.Height + SourceY; // Tile image vertically until target rect is filled. while R.Top < R.Bottom do begin SourceX := (R.Left + Offset.X + FBackgroundOffsetX) mod Source.Width; // always wrap the source coordinates into positive range if SourceX < 0 then SourceX := Source.Width + SourceX; TargetX := R.Left; // height of strip to draw DeltaY := Min(R.Bottom - R.Top, Source.Height - SourceY); // tile the image horizontally while TargetX < R.Right do begin BitBlt(Handle, TargetX, R.Top, Min(R.Right - TargetX, Source.Width - SourceX), DeltaY, Source.Canvas.Handle, SourceX, SourceY, SRCCOPY); Inc(TargetX, Source.Width - SourceX); SourceX := 0; end; Inc(R.Top, Source.Height - SourceY); SourceY := 0; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.ToggleCallback(Step, StepSize: Integer; Data: Pointer): Boolean; var ScrollRect: TRect; Column: TColumnIndex; Run: TRect; //--------------- local function -------------------------------------------- procedure EraseLine; var LocalBrush: HBRUSH; begin with TToggleAnimationData(Data^), FHeader.FColumns do begin // Iterate through all columns and erase background in their local color. // LocalBrush is a brush in the color of the particular column. Column := ColumnFromPosition(Run.TopLeft); while (Column > InvalidColumn) and (Run.Left < ClientWidth) do begin GetColumnBounds(Column, Run.Left, Run.Right); if coParentColor in Items[Column].FOptions then FillRect(DC, Run, Brush) else begin LocalBrush := CreateSolidBrush(ColorToRGB(Items[Column].Color)); FillRect(DC, Run, LocalBrush); DeleteObject(LocalBrush); end; Column := GetNextVisibleColumn(Column); end; end; end; //--------------- end local function ---------------------------------------- begin Result := True; if StepSize > 0 then begin with TToggleAnimationData(Data^) do begin ScrollRect := R; if Expand then begin ScrollDC(DC, 0, StepSize, ScrollRect, ScrollRect, 0, nil); // In the first step the background must be cleared (only a small stripe) to avoid artefacts. if Step = 0 then if not FHeader.UseColumns then FillRect(DC, Rect(R.Left, R.Top, R.Right, R.Top + StepSize + 1), Brush) else begin Run := Rect(R.Left, R.Top, R.Right, R.Top + StepSize + 1); EraseLine; end; end else begin // Collapse branch. ScrollDC(DC, 0, -StepSize, ScrollRect, ScrollRect, 0, nil); if Step = 0 then if not FHeader.UseColumns then FillRect(DC, Rect(R.Left, R.Bottom - StepSize - 1, R.Right, R.Bottom), Brush) else begin Run := Rect(R.Left, R.Bottom - StepSize - 1, R.Right, R.Bottom); EraseLine; end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMColorChange(var Message: TLMessage); begin Logger.EnterMethod([lcMessages],'CMColorChange'); if not (csLoading in ComponentState) then begin PrepareBitmaps(True, False); if HandleAllocated then Invalidate; end; Logger.ExitMethod([lcMessages],'CMColorChange'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMCtl3DChanged(var Message: TLMessage); begin //todo: check what this message is supposed todo. Probably will be removed inherited; if BorderStyle = bsSingle then RecreateWnd(Self); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMBiDiModeChanged(var Message: TLMessage); begin inherited; if UseRightToLeftAlignment then FEffectiveOffsetX := Integer(FRangeX) - ClientWidth + FOffsetX else FEffectiveOffsetX := -FOffsetX; if FEffectiveOffsetX < 0 then FEffectiveOffsetX := 0; if toAutoBidiColumnOrdering in FOptions.FAutoOptions then FHeader.FColumns.ReorderColumns(UseRightToLeftAlignment); FHeader.Invalidate(nil); Logger.Send([lcPaintDetails],'FEffectiveOffsetX after CMBidiModeChanged',FEffectiveOffsetX); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMDenySubclassing(var Message: TLMessage); // If a Windows XP Theme Manager component is used in the application it will try to subclass all controls which do not // explicitly deny this. Virtual Treeview knows how to handle XP themes so it does not need subclassing. begin Message.Result := 1; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoDragMsg(ADragMessage: TDragMessage; APosition: TPoint; ADragObject: TDragObject; ATarget: TControl; ADocking: Boolean): LRESULT; var S: TObject; ShiftState: Integer; P: TPoint; Formats: TFormatArray; begin Logger.EnterMethod([lcDrag],'DoDragMsg'); S := ADragObject; Formats := nil; // Let the ancestor handle dock operations. if S is TDragDockObject then inherited else begin // We need an extra check for the control drag object as there might be other objects not derived from // this class (e.g. TActionDragObject). if not (tsUserDragObject in FStates) and (S is TDragControlObject) then S := (S as TDragControlObject).Control; case ADragMessage of dmDragEnter, dmDragLeave, dmDragMove: begin if ADragMessage = dmDragEnter then DoStateChange([tsVCLDragging]); if ADragMessage = dmDragLeave then DoStateChange([], [tsVCLDragging]); if ADragMessage = dmDragMove then with ScreenToClient(APosition) do DoAutoScroll(X, Y); ShiftState := 0; // Alt key will be queried by the KeysToShiftState function in DragOver. if GetKeyState(VK_SHIFT) < 0 then ShiftState := ShiftState or MK_SHIFT; if GetKeyState(VK_CONTROL) < 0 then ShiftState := ShiftState or MK_CONTROL; // Allowed drop effects are simulated for VCL dd. Result := DROPEFFECT_MOVE or DROPEFFECT_COPY; DragOver(S, ShiftState, TDragState(ADragMessage), APosition, LongWord(Result)); FLastVCLDragTarget := FDropTargetNode; FVCLDragEffect := Result; if (ADragMessage = dmDragLeave) and Assigned(FDropTargetNode) then begin InvalidateNode(FDropTargetNode); FDropTargetNode := nil; end; end; dmDragDrop: begin ShiftState := 0; // Alt key will be queried by the KeysToShiftState function in DragOver if GetKeyState(VK_SHIFT) < 0 then ShiftState := ShiftState or MK_SHIFT; if GetKeyState(VK_CONTROL) < 0 then ShiftState := ShiftState or MK_CONTROL; // allowed drop effects are simulated for VCL dd, // replace target node with cached node from other VCL dd messages if Assigned(FDropTargetNode) then InvalidateNode(FDropTargetNode); FDropTargetNode := FLastVCLDragTarget; P := ScreenToClient(APosition); DoDragDrop(S, nil, Formats, KeysToShiftState(ShiftState), P, FVCLDragEffect, FLastDropMode); if Assigned(FDropTargetNode) then begin InvalidateNode(FDropTargetNode); FDropTargetNode := nil; end; end; dmFindTarget: begin Result := Integer(ControlAtPos(ScreenToClient(APosition), False)); if Result = 0 then Result := Integer(Self); // This is a reliable place to check whether VCL drag has // really begun. if tsVCLDragPending in FStates then DoStateChange([tsVCLDragging], [tsVCLDragPending, tsEditPending, tsClearPending]); end; end; end; Logger.ExitMethod([lcDrag],'DoDragMsg'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMEnabledChanged(var Message: TLMessage); begin inherited; // Need to invalidate the non-client area as well, since the header must be redrawn too. if csDesigning in ComponentState then RedrawWindow(Handle, nil, 0, RDW_FRAME or RDW_INVALIDATE or RDW_NOERASE or RDW_NOCHILDREN); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMFontChanged(var Message: TLMessage); var HeaderMessage: TLMessage; begin inherited; if not (csLoading in ComponentState) then begin PrepareBitmaps(True, False); if HandleAllocated then Invalidate; end; //todo_lcl Replace this message with a THeader method HeaderMessage.Msg := CM_PARENTFONTCHANGED; HeaderMessage.WParam := 0; HeaderMessage.LParam := 0; HeaderMessage.Result := 0; FHeader.HandleMessage(HeaderMessage); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMHintShow(var Message: TCMHintShow); // Determines hint message (tooltip) and out-of-hint rect. // Note: A special handling is needed here because we cannot pass wide strings back to the caller. // I had to introduce the hint data record anyway so we can use this to pass the hint string. // We still need to set a dummy hint string in the message to make the VCL showing the hint window. var NodeRect: TRect; SpanColumn, Dummy, ColLeft, ColRight: Integer; HitInfo: THitInfo; ShowOwnHint: Boolean; IsFocusedOrEditing: Boolean; ParentForm: TCustomForm; begin with Message do begin Result := 1; if PtInRect(FLastHintRect, HintInfo.CursorPos) then Exit; // Determine node for which to show hint/tooltip. with HintInfo^ do GetHitTestInfoAt(CursorPos.X, CursorPos.Y, True, HitInfo); // Make sure a hint is only shown if the tree or at least its parent form is active. // Active editing is ok too as long as we don't want the hint for the current edit node. if IsEditing then IsFocusedOrEditing := HitInfo.HitNode <> FFocusedNode else begin IsFocusedOrEditing := Focused; ParentForm := GetParentForm(Self); if Assigned(ParentForm) then IsFocusedOrEditing := ParentForm.Focused or Application.Active; end; if (GetCapture = 0) and ShowHint and not (Dragging or IsMouseSelecting) and ([tsScrolling] * FStates = []) and (FHeader.States = []) and IsFocusedOrEditing then begin with HintInfo^ do begin Result := 0; ShowOwnHint := False; // Assign a dummy string otherwise the VCL will not show the hint window. HintStr := ' '; // First check whether there is a header hint to show. if FHeader.UseColumns and (hoShowHint in FHeader.FOptions) and FHeader.InHeader(CursorPos) then begin CursorRect := FHeaderRect; // Convert the cursor rectangle into real client coordinates. OffsetRect(CursorRect, 0, -Integer(FHeader.FHeight)); HitInfo.HitColumn := FHeader.FColumns.GetColumnAndBounds(CursorPos, CursorRect.Left, CursorRect.Right); // align the vertical hint position on the bottom bound of the header, but // avoid overlapping of mouse cursor and hint HintPos.Y := Max(HintPos.Y, ClientToScreen(Point(0, CursorRect.Bottom)).Y); // Note: the test for the left mouse button in ControlState might cause problems whenever the VCL does not // realize when the button is released. This, for instance, happens when doing OLE drag'n drop and // cancel this with ESC. if (HitInfo.HitColumn > -1) and not (csLButtonDown in ControlState) then begin FHintData.DefaultHint := FHeader.FColumns[HitInfo.HitColumn].FHint; if FHintData.DefaultHint <> '' then ShowOwnHint := True else Result := 1; end else Result := 1; end else begin // Default mode is handled as would the tree be a usual VCL control (no own hint window necessary). if FHintMode = hmDefault then HintStr := GetShortHint(Hint) else begin if Assigned(HitInfo.HitNode) and (HitInfo.HitColumn > InvalidColumn) then begin // A draw tree should only display a hint when at least its OnGetHintSize // event handler is assigned. if Self is TCustomVirtualDrawTree then begin FHintData.HintRect := Rect(0, 0, 0, 0); with Self as TCustomVirtualDrawTree do DoGetHintSize(HitInfo.HitNode, HitInfo.HitColumn, FHintData.HintRect); ShowOwnHint := not IsRectEmpty(FHintData.HintRect); end else // For string trees a decision about showing the hint or not is based // on the hint string (if it is empty then no hint is shown). ShowOwnHint := True; if ShowOwnHint then begin if HitInfo.HitColumn > NoColumn then begin FHeader.FColumns.GetColumnBounds(HitInfo.HitColumn, ColLeft, ColRight); // The right column border might be extended if column spanning is enabled. if toAutoSpanColumns in FOptions.FAutoOptions then begin SpanColumn := HitInfo.HitColumn; repeat Dummy := FHeader.FColumns.GetNextVisibleColumn(SpanColumn); if (Dummy = InvalidColumn) or not ColumnIsEmpty(HitInfo.HitNode, Dummy) then Break; SpanColumn := Dummy; until False; if SpanColumn <> HitInfo.HitColumn then FHeader.FColumns.GetColumnBounds(SpanColumn, Dummy, ColRight); end; end else begin ColLeft := 0; ColRight := ClientWidth; end; FHintData.DefaultHint := ''; if FHintMode <> hmTooltip then begin // Node specific hint text. CursorRect := GetDisplayRect(HitInfo.HitNode, HitInfo.HitColumn, False); CursorRect.Left := ColLeft; CursorRect.Right := ColRight; // Align the vertical hint position on the bottom bound of the node, but // avoid overlapping of mouse cursor and hint. HintPos.Y := Max(HintPos.Y, ClientToScreen(CursorRect.BottomRight).Y) + 2; end else begin // Tool tip to show. This means the full caption of the node must be displayed. if vsMultiline in HitInfo.HitNode.States then begin if hiOnItemLabel in HitInfo.HitPositions then begin ShowOwnHint := True; NodeRect := GetDisplayRect(HitInfo.HitNode, HitInfo.HitColumn, True, False); end; end else begin NodeRect := GetDisplayRect(HitInfo.HitNode, HitInfo.HitColumn, True, True); ShowOwnHint := (HitInfo.HitColumn > InvalidColumn) and PtInRect(NodeRect, CursorPos) and (CursorPos.X <= ColRight) and (CursorPos.X >= ColLeft) and ( // Show hint also if the node text is partially out of the client area. (NodeRect.Right > Min(ColRight, ClientWidth)) or (NodeRect.Left < Max(ColLeft, 0)) or (NodeRect.Bottom > ClientHeight) or (NodeRect.Top < 0) ); end; if ShowOwnHint then begin // Node specific hint text given will be retrieved when needed. FHintData.DefaultHint := ''; HintPos := ClientToScreen(Point(NodeRect.Left, NodeRect.Top)); CursorRect := NodeRect; end else // nothing to show Result := 1; end; end else Result := 1; // Avoid hint if this is a draw tree returning an empty hint rectangle. end else begin // No node so fall back to control's hint (if indicated) or show nothing. if FHintMode = hmHintAndDefault then begin FHintData.DefaultHint := GetShortHint(Hint); if Length(FHintData.DefaultHint) = 0 then Result := 1 else ShowOwnHint := True; end else Result := 1; end; end; end; // Set our own hint window class and prepare structure to be passed to the hint window. if ShowOwnHint and (Result = 0) then begin HintWindowClass := GetHintWindowClass; FHintData.Tree := Self; FHintData.Column := HitInfo.HitColumn; FHintData.Node := HitInfo.HitNode; FLastHintRect := CursorRect; HintData := @FHintData; end else FLastHintRect := Rect(0, 0, 0, 0); end; // Remind that a hint is about to show. if Result = 0 then DoStateChange([tsHint]) else DoStateChange([], [tsHint]); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMHintShowPause(var Message: TCMHintShowPause); // Tells the application that the tree (and only the tree) does not want a delayed tool tip. // Normal hints / header hints use the default delay (except for the first time). var P: TPoint; begin // A little workaround is needed here to make the application class using the correct hint window class. // Once the application gets ShowHint set to true (which is the case when we want to show hints in the tree) then // an internal hint window will be created which is not our own class (because we don't set an application wide // hint window class but only one for the tree). Unfortunately, this default hint window class will prevent // hints for the non-client area to show up (e.g. for the header) by calling CancelHint whenever certain messages // arrive. By setting the hint show pause to 0 if our hint class was not used recently we make sure // that the hint timer (in Forms.pas) is not used and our class is created immediately. if HintWindowDestroyed then begin GetCursorPos(P); // Check if the mouse is in the header or tool tips are enabled, which must be shown without delay anyway. if FHeader.UseColumns and (hoShowHint in FHeader.FOptions) and FHeader.InHeader(ScreenToClient(P)) or (FHintMode = hmToolTip) then Message.Pause^ := 0 end else if FHintMode = hmToolTip then Message.Pause^ := 0; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMMouseLeave(var Message: TLMessage); var LeaveStates: TVirtualTreeStates; begin Logger.EnterMethod([lcMessages],'CMMouseLeave'); Logger.Send([lcMessages],'FCurrentHotNode',Integer(Pointer(FCurrentHotNode))); // Reset the last used hint rectangle in case the mouse enters the window within the bounds if Assigned(FHintData.Tree) then FHintData.Tree.FLastHintRect := Rect(0, 0, 0, 0); LeaveStates := [tsHint]; if [tsWheelPanning, tsWheelScrolling] * FStates = [] then begin KillTimer(Handle, ScrollTimer); LeaveStates := LeaveStates + [tsScrollPending, tsScrolling]; end; DoStateChange([], LeaveStates); if Assigned(FCurrentHotNode) then begin DoHotChange(FCurrentHotNode, nil); InvalidateNode(FCurrentHotNode); FCurrentHotNode := nil; end; Header.FColumns.FDownIndex := NoColumn; Header.FColumns.FHoverIndex := NoColumn; inherited CMMouseLeave(Message); Logger.ExitMethod([lcMessages],'CMMouseLeave'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMMouseWheel(var Message: TLMMouseEvent); var ScrollCount: Integer; ScrollLines: DWORD; RTLFactor: Integer; begin //todo: rename to WM* Logger.EnterMethod([lcScroll],'CMMouseWheel'); StopWheelPanning; inherited WMMouseWheel(Message); if Message.Result = 0 then begin with Message do begin Result := 1; if FRangeY > Cardinal(ClientHeight) then begin Logger.Send([lcScroll],'Scroll Vertical - WheelDelta', WheelDelta); // Scroll vertically if there's something to scroll... if ssCtrl in State then ScrollCount := WheelDelta div WHEEL_DELTA * (ClientHeight div Integer(FDefaultNodeHeight)) else begin SystemParametersInfo(SPI_GETWHEELSCROLLLINES, 0, @ScrollLines, 0); if ScrollLines = WHEEL_PAGESCROLL then ScrollCount := WheelDelta div WHEEL_DELTA * (ClientHeight div Integer(FDefaultNodeHeight)) else ScrollCount := Integer(ScrollLines) * WheelDelta div WHEEL_DELTA; end; Logger.Send([lcScroll],'ScrollCount',ScrollCount); SetOffsetY(FOffsetY + ScrollCount * Integer(FDefaultNodeHeight)); end else begin Logger.Send('Scroll Horizontal - WheelDelta',WheelDelta); // ...else scroll horizontally. if UseRightToLeftAlignment then RTLFactor := -1 else RTLFactor := 1; //todo: State is the same as ShiftState? if ssCtrl in State then ScrollCount := WheelDelta div WHEEL_DELTA * ClientWidth else ScrollCount := WheelDelta div WHEEL_DELTA; Logger.Send([lcScroll],'ScrollCount',ScrollCount); SetOffsetX(FOffsetX + RTLFactor * ScrollCount * Integer(FIndent)); end; end; end; Logger.ExitMethod([lcScroll],'CMMouseWheel'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CMSysColorChange(var Message: TLMessage); begin //todo: see the meaning of this message and if is useful in LCL inherited; { ConvertImageList(LightCheckImages, 'VT_CHECK_LIGHT'); ConvertImageList(DarkCheckImages, 'VT_CHECK_DARK'); ConvertImageList(LightTickImages, 'VT_TICK_LIGHT'); ConvertImageList(DarkTickImages, 'VT_TICK_DARK'); ConvertImageList(FlatImages, 'VT_FLAT'); ConvertImageList(UtilityImages, 'VT_UTILITIES'); } // XP images do not need to be converted. // System check images do not need to be converted. //todo_lcl WM_SYSCOLORCHANGE is not used in lcl { Message.Msg := WM_SYSCOLORCHANGE; DefaultHandler(Message); } end; //---------------------------------------------------------------------------------------------------------------------- {$ifdef EnableNativeTVM} procedure TBaseVirtualTree.TVMGetItem(var Message: TLMessage); // Screen reader support function. The method returns information about a particular node. const StateMask = TVIS_STATEIMAGEMASK or TVIS_OVERLAYMASK or TVIS_EXPANDED or TVIS_DROPHILITED or TVIS_CUT or TVIS_SELECTED or TVIS_FOCUSED; var Item: PTVItemEx; Node: PVirtualNode; Ghosted: Boolean; ImageIndex: Integer; R: TRect; Text: WideString; ANSIText: ANSIString; begin // We can only return valid data if a nodes reference is given. Item := Pointer(Message.LParam); Message.Result := Ord(((Item.mask and TVIF_HANDLE) <> 0) and Assigned(Item.hItem)); if Message.Result = 1 then begin Node := Pointer(Item.hItem); // Child count requested? if (Item.mask and TVIF_CHILDREN) <> 0 then Item.cChildren := Node.ChildCount; // Index for normal image requested? if (Item.mask and TVIF_IMAGE) <> 0 then begin Item.iImage := -1; DoGetImageIndex(Node, ikNormal, -1, Ghosted, Item.iImage); end; // Index for selected image requested? if (Item.mask and TVIF_SELECTEDIMAGE) <> 0 then begin Item.iSelectedImage := -1; DoGetImageIndex(Node, ikSelected, -1, Ghosted, Item.iSelectedImage); end; // State info requested? if (Item.mask and TVIF_STATE) <> 0 then begin // Everything, which is possible is returned. Item.stateMask := StateMask; Item.state := 0; if Node = FFocusedNode then Item.state := Item.state or TVIS_FOCUSED; if vsSelected in Node.States then Item.state := Item.state or TVIS_SELECTED; if vsCutOrCopy in Node.States then Item.state := Item.state or TVIS_CUT; if Node = FDropTargetNode then Item.state := Item.state or TVIS_DROPHILITED; if vsExpanded in Node.States then Item.state := Item.state or TVIS_EXPANDED; // Construct state image and overlay image indices. They are one based, btw. // and zero means there is no image. ImageIndex := -1; DoGetImageIndex(Node, ikState, -1, Ghosted, ImageIndex); Item.state := Item.state or Byte(IndexToStateImageMask(ImageIndex + 1)); ImageIndex := -1; DoGetImageIndex(Node, ikOverlay, -1, Ghosted, ImageIndex); Item.state := Item.state or Byte(IndexToOverlayMask(ImageIndex + 1)); end; // Node caption requested? if (Item.mask and TVIF_TEXT) <> 0 then begin GetTextInfo(Node, -1, Font, R, Text); // Convert the Unicode implicitely to ANSI using the current locale. ANSIText := Text; StrLCopy(Item.pszText, PChar(ANSIText), Item.cchTextMax - 1); Item.pszText[Length(ANSIText)] := #0; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.TVMGetItemRect(var Message: TLMessage); // Screen read support function. This method returns a node's display rectangle. var TextOnly: Boolean; Node: PVirtualNode; begin // The lparam member is used two-way. On enter it contains a pointer to the item (node). // On exit it is to be considered as pointer to a rectangle structure. Node := Pointer(Pointer(Message.LParam)^); Message.Result := Ord(IsVisible[Node]); if Message.Result <> 0 then begin TextOnly := Message.WParam <> 0; PRect(Message.LParam)^ := GetDisplayRect(Node, -1, TextOnly); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.TVMGetNextItem(var Message: TLMessage); // Screen read support function. This method returns a node depending on the requested case. var Node: PVirtualNode; begin // Start with a nil result. Message.Result := 0; Node := Pointer(Message.LParam); case Message.WParam of TVGN_CARET: Message.Result := Integer(FFocusedNode); TVGN_CHILD: if Assigned(Node) then Message.Result := Integer(GetFirstChild(Node)); TVGN_DROPHILITE: Message.Result := Integer(FDropTargetNode); TVGN_FIRSTVISIBLE: Message.Result := Integer(GetFirstVisible); TVGN_LASTVISIBLE: Message.Result := Integer(GetLastVisible); TVGN_NEXT: if Assigned(Node) then Message.Result := Integer(GetNextSibling(Node)); TVGN_NEXTVISIBLE: if Assigned(Node) then Message.Result := Integer(GetNextVisible(Node)); TVGN_PARENT: if Assigned(Node) and (Node <> FRoot) and (Node.Parent <> FRoot) then Message.Result := Integer(Node.Parent); TVGN_PREVIOUS: if Assigned(Node) then Message.Result := Integer(GetPreviousSibling(Node)); TVGN_PREVIOUSVISIBLE: if Assigned(Node) then Message.Result := Integer(GetPreviousVisible(Node)); TVGN_ROOT: Message.Result := Integer(GetFirst); end; end; {$endif} //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMCancelMode(var Message: TLMNoParams); begin Logger.EnterMethod([lcMessages],'WMCancelMode'); // Clear any transient state. KillTimer(Handle, ExpandTimer); KillTimer(Handle, EditTimer); KillTimer(Handle, HeaderTimer); KillTimer(Handle, ScrollTimer); KillTimer(Handle, SearchTimer); FSearchBuffer := ''; FLastSearchNode := nil; DoStateChange([], [tsClearPending, tsEditPending, tsOLEDragPending, tsVCLDragPending, tsDrawSelecting, tsDrawSelPending, tsIncrementalSearching]); //lcl does not has a inherited procedure //inherited WMCancelMode(Message); Logger.ExitMethod([lcMessages],'WMCancelMode'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMChangeState(var Message: TLMessage); var EnterStates, LeaveStates: TVirtualTreeStates; begin Logger.EnterMethod([lcMessages],'WMChangeState'); EnterStates := []; if csStopValidation in TChangeStates(LongWord(Message.WParam)) then Include(EnterStates, tsStopValidation); if csUseCache in TChangeStates(LongWord(Message.WParam)) then Include(EnterStates, tsUseCache); if csValidating in TChangeStates(LongWord(Message.WParam)) then Include(EnterStates, tsValidating); if csValidationNeeded in TChangeStates(LongWord(Message.WParam)) then Include(EnterStates, tsValidationNeeded); LeaveStates := []; if csStopValidation in TChangeStates(LongWord(Message.LParam)) then Include(LeaveStates, tsStopValidation); if csUseCache in TChangeStates(LongWord(Message.LParam)) then Include(LeaveStates, tsUseCache); if csValidating in TChangeStates(LongWord(Message.LParam)) then Include(LeaveStates, tsValidating); if csValidationNeeded in TChangeStates(LongWord(Message.LParam)) then Include(LeaveStates, tsValidationNeeded); DoStateChange(EnterStates, LeaveStates); Logger.ExitMethod([lcMessages],'WMChangeState'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMChar(var Message: TLMChar); begin Logger.EnterMethod([lcMessages],'WMChar'); if tsIncrementalSearchPending in FStates then begin HandleIncrementalSearch(Message.CharCode); DoStateChange([], [tsIncrementalSearchPending]); end; inherited WMChar(Message); Logger.ExitMethod([lcMessages],'WMChar'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMContextMenu(var Message: TLMContextMenu); // This method is called when a popup menu is about to be displayed. // We have to cancel some pending states here to avoid interferences. begin Logger.EnterMethod([lcMessages],'WMContextMenu'); DoStateChange([], [tsClearPending, tsEditPending, tsOLEDragPending, tsVCLDragPending]); if not (tsPopupMenuShown in FStates) then inherited WMContextMenu(Message); Logger.ExitMethod([lcMessages],'WMContextMenu'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMCopy(var Message: TLMNoParams); begin Logger.EnterMethod([lcMessages],'WMCopy'); CopyToClipboard; Logger.ExitMethod([lcMessages],'WMCopy'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMCut(var Message: TLMNoParams); begin Logger.EnterMethod([lcMessages],'WMCut'); CutToClipboard; Logger.ExitMethod([lcMessages],'WMCut'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMEnable(var Message: TLMNoParams); begin Logger.EnterMethod([lcMessages],'WMEnable'); //LCL does not has inherited WMEnable //inherited WMEnable(Message); RedrawWindow(Handle, nil, 0, RDW_FRAME or RDW_INVALIDATE or RDW_NOERASE or RDW_NOCHILDREN); Logger.EnterMethod([lcMessages],'WMEnable'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMEraseBkgnd(var Message: TLMEraseBkgnd); begin Logger.EnterMethod([lcEraseBkgnd],'WMEraseBkgnd'); Message.Result := 1; Logger.ExitMethod([lcEraseBkgnd],'WMEraseBkgnd'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMGetDlgCode(var Message: TLMNoParams); begin Logger.Send([lcMessages],'WMGetDlgCode'); Message.Result := DLGC_WANTCHARS or DLGC_WANTARROWS; if FWantTabs then Message.Result := Message.Result or DLGC_WANTTAB; end; //---------------------------------------------------------------------------------------------------------------------- {$ifdef EnableAccessible} procedure TBaseVirtualTree.WMGetObject(var Message: TLMessage); begin Logger.EnterMethod([lcMessages],'WMGetObject'); GetAccessibilityFactory; // Create the IAccessibles for the tree view and tree view items, if necessary. if Assigned(VTAccessibleFactory) then begin if FAccessible = nil then FAccessible := VTAccessibleFactory.CreateIAccessible(Self); if FAccessibleItem = nil then FAccessibleItem := VTAccessibleFactory.CreateIAccessible(Self); end; if Cardinal(Message.LParam) = OBJID_CLIENT then if Assigned(Accessible) then Message.Result := LresultFromObject(IID_IAccessible, Message.WParam, FAccessible) else Message.Result := 0; Logger.ExitMethod([lcMessages],'WMGetObject'); end; {$endif} //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMHScroll(var Message: TLMHScroll); //--------------- local functions ------------------------------------------- function GetRealScrollPosition: Integer; var SI: TScrollInfo; Code: Integer; begin SI.cbSize := SizeOf(TScrollInfo); SI.fMask := SIF_TRACKPOS; Code := SB_HORZ; {$ifdef UseFlatScrollbars} FlatSB_GetScrollInfo(Handle, Code, SI); {$else} GetScrollInfo(Handle, Code, SI); {$endif UseFlatScrollbars} Result := SI.nTrackPos; end; //--------------- end local functions --------------------------------------- var RTLFactor: Integer; begin Logger.EnterMethod([lcMessages],'WMHScroll'); if UseRightToLeftAlignment then RTLFactor := -1 else RTLFactor := 1; case Message.ScrollCode of SB_BOTTOM: SetOffsetX(-Integer(FRangeX)); SB_ENDSCROLL: begin DoStateChange([], [tsThumbTracking]); // avoiding to adjust the vertical scroll position while tracking makes it much smoother // but we need to adjust the final position here then UpdateHorizontalScrollBar(False); end; SB_LINELEFT: SetOffsetX(FOffsetX + RTLFactor * FScrollBarOptions.FIncrementX); SB_LINERIGHT: SetOffsetX(FOffsetX - RTLFactor * FScrollBarOptions.FIncrementX); SB_PAGELEFT: SetOffsetX(FOffsetX + RTLFactor * ClientWidth); SB_PAGERIGHT: SetOffsetX(FOffsetX - RTLFactor * ClientWidth); SB_THUMBPOSITION, SB_THUMBTRACK: begin DoStateChange([tsThumbTracking]); {$ifdef LCLQt} if UseRightToLeftAlignment then SetOffsetX(-Integer(FRangeX) + ClientWidth + Message.Pos) else SetOffsetX(-Message.Pos); {$else} if UseRightToLeftAlignment then SetOffsetX(-Integer(FRangeX) + ClientWidth + GetRealScrollPosition) else SetOffsetX(-GetRealScrollPosition); {$endif} end; SB_TOP: SetOffsetX(0); end; Message.Result := 0; Logger.ExitMethod([lcMessages],'WMHScroll'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMKeyDown(var Message: TLMKeyDown); // Keyboard event handling for node focus, selection, node specific popup menus and help invokation. // For a detailed description of every action done here read the help. var Shift: TShiftState; Node, Temp, LastFocused: PVirtualNode; Offset: Integer; ClearPending, NeedInvalidate, DoRangeSelect, HandleMultiSelect: Boolean; Context: Integer; ParentControl: TWinControl; R: TRect; NewCheckState: TCheckState; NewColumn: TColumnIndex; ActAsGrid: Boolean; ForceSelection: Boolean; NewHeight: Integer; RTLFactor: Integer; // for tabulator handling GetStartColumn: function: TColumnIndex of object; GetNextColumn: function(Column: TColumnIndex): TColumnIndex of object; GetNextNode: TGetNextNodeProc; KeyState: TKeyboardState; Buffer: array[0..1] of Char; begin Logger.EnterMethod([lcMessages],'WMKeyDown'); // Make form key preview work and let application modify the key if it wants this. inherited WMKeyDown(Message); with Message do begin Shift := KeyDataToShiftState(KeyData); // Ask the application if the default key handling is desired. if DoKeyAction(CharCode, Shift) then begin if (tsKeyCheckPending in FStates) and (CharCode <> VK_SPACE) then begin DoStateChange([], [tskeyCheckPending]); FCheckNode.CheckState := UnpressedState[FCheckNode.CheckState]; RepaintNode(FCheckNode); FCheckNode := nil; end; if CharCode in [VK_HOME, VK_END, VK_PRIOR, VK_NEXT, VK_UP, VK_DOWN, VK_LEFT, VK_RIGHT, VK_BACK, VK_TAB] then begin HandleMultiSelect := (ssShift in Shift) and (toMultiSelect in FOptions.FSelectionOptions) and not IsEditing; // Flag to avoid range selection in case of single node advance. DoRangeSelect := (CharCode in [VK_HOME, VK_END, VK_PRIOR, VK_NEXT]) and HandleMultiSelect and not IsEditing; NeedInvalidate := DoRangeSelect or (FSelectionCount > 1); ActAsGrid := toGridExtensions in FOptions.FMiscOptions; ClearPending := (Shift = []) or (ActAsGrid and not (ssShift in Shift)) or not (toMultiSelect in FOptions.FSelectionOptions) or (CharCode in [VK_TAB, VK_BACK]); // Keep old focused node for range selection. Use a default node if none was focused until now. LastFocused := FFocusedNode; if (LastFocused = nil) and (Shift <> []) then LastFocused := GetFirstVisible; // Set an initial range anchor if there is not yet one. if FRangeAnchor = nil then FRangeAnchor := GetFirstSelected; if FRangeAnchor = nil then FRangeAnchor := GetFirst; if UseRightToLeftAlignment then RTLFactor := -1 else RTLFactor := 1; // Determine new focused node. case CharCode of VK_HOME, VK_END: begin if (CharCode = VK_END) xor UseRightToLeftAlignment then begin GetStartColumn := FHeader.FColumns.GetLastVisibleColumn; GetNextColumn := FHeader.FColumns.GetPreviousVisibleColumn; GetNextNode := GetPreviousVisible; Node := GetLastVisible; end else begin GetStartColumn := FHeader.FColumns.GetFirstVisibleColumn; GetNextColumn := FHeader.FColumns.GetNextVisibleColumn; GetNextNode := GetNextVisible; Node := GetFirstVisible; end; // Advance to next/previous visible column. if FHeader.UseColumns then NewColumn := GetStartColumn else NewColumn := NoColumn; // Find a column for the new/current node which can be focused. // Make the 'DoFocusChanging' for finding a valid column // identifiable from the 'DoFocusChanging' raised later on by // "FocusedNode := Node;" while (NewColumn > NoColumn) and not DoFocusChanging(FFocusedNode, FFocusedNode, FFocusedColumn, NewColumn) do NewColumn := GetNextColumn(NewColumn); if NewColumn > InvalidColumn then begin if (Shift = [ssCtrl]) and not ActAsGrid then begin ScrollIntoView(Node, toCenterScrollIntoView in FOptions.SelectionOptions, not (toDisableAutoscrollOnFocus in FOptions.FAutoOptions)); if (CharCode = VK_HOME) and not UseRightToLeftAlignment then SetOffsetX(0) else SetOffsetX(-MaxInt); end else begin if not ActAsGrid or (ssCtrl in Shift) then FocusedNode := Node; if ActAsGrid and not (toFullRowSelect in FOptions.FSelectionOptions) then FocusedColumn := NewColumn; end; end; end; VK_PRIOR: if ssCtrl in Shift then SetOffsetY(FOffsetY + ClientHeight) else begin Offset := 0; // If there's no focused node then just take the very first visible one. if FFocusedNode = nil then Node := GetFirstVisible else begin // Go up as many nodes as comprise together a size of ClientHeight. Node := FFocusedNode; while True do begin Temp := GetPreviousVisible(Node); NewHeight := NodeHeight[Node]; if (Temp = nil) or (Offset + NewHeight >= ClientHeight) then Break; Node := Temp; Inc(Offset, NodeHeight[Node]); end; end; FocusedNode := Node; end; VK_NEXT: if ssCtrl in Shift then SetOffsetY(FOffsetY - ClientHeight) else begin Offset := 0; // If there's no focused node then just take the very last one. if FFocusedNode = nil then Node := GetLastVisible else begin // Go up as many nodes as comprise together a size of ClientHeight. Node := FFocusedNode; while True do begin Temp := GetNextVisible(Node); NewHeight := NodeHeight[Node]; if (Temp = nil) or (Offset + NewHeight >= ClientHeight) then Break; Node := Temp; Inc(Offset, NewHeight); end; end; FocusedNode := Node; end; VK_UP: begin // scrolling without selection change if ssCtrl in Shift then SetOffsetY(FOffsetY + Integer(FDefaultNodeHeight)) else begin if FFocusedNode = nil then Node := GetLastVisible else Node := GetPreviousVisible(FFocusedNode); if Assigned(Node) then begin EndEditNode; if HandleMultiSelect and (CompareNodePositions(LastFocused, FRangeAnchor) > 0) and Assigned(FFocusedNode) then RemoveFromSelection(FFocusedNode); if FFocusedColumn = NoColumn then FFocusedColumn := FHeader.MainColumn; FocusedNode := Node; end else if Assigned(FFocusedNode) then InvalidateNode(FFocusedNode); end; end; VK_DOWN: begin // scrolling without selection change if ssCtrl in Shift then SetOffsetY(FOffsetY - Integer(FDefaultNodeHeight)) else begin if FFocusedNode = nil then Node := GetFirstVisible else Node := GetNextVisible(FFocusedNode); if Assigned(Node) then begin EndEditNode; if HandleMultiSelect and (CompareNodePositions(LastFocused, FRangeAnchor) < 0) and Assigned(FFocusedNode) then RemoveFromSelection(FFocusedNode); if FFocusedColumn = NoColumn then FFocusedColumn := FHeader.MainColumn; FocusedNode := Node; end else if Assigned(FFocusedNode) then InvalidateNode(FFocusedNode); end; end; VK_LEFT: begin // special handling if ssCtrl in Shift then SetOffsetX(FOffsetX + RTLFactor * Integer(FIndent)) else begin // other special cases Context := NoColumn; if (toExtendedFocus in FOptions.FSelectionOptions) and (toGridExtensions in FOptions.FMiscOptions) then begin Context := FHeader.Columns.GetPreviousVisibleColumn(FFocusedColumn); if Context > -1 then FocusedColumn := Context end else if Assigned(FFocusedNode) and (vsExpanded in FFocusedNode.States) and (Shift = []) and (vsHasChildren in FFocusedNode.States) then ToggleNode(FFocusedNode) else begin if FFocusedNode = nil then FocusedNode := GetFirstVisible else begin if FFocusedNode.Parent <> FRoot then Node := FFocusedNode.Parent else Node := nil; if Assigned(Node) then begin if HandleMultiSelect then begin // and a third special case if FFocusedNode.Index > 0 then DoRangeSelect := True else if CompareNodePositions(Node, FRangeAnchor) > 0 then RemoveFromSelection(FFocusedNode); end; FocusedNode := Node; end; end; end; end; end; VK_RIGHT: begin // special handling if ssCtrl in Shift then SetOffsetX(FOffsetX - RTLFactor * Integer(FIndent)) else begin // other special cases Context := NoColumn; if (toExtendedFocus in FOptions.FSelectionOptions) and (toGridExtensions in FOptions.FMiscOptions) then begin Context := FHeader.Columns.GetNextVisibleColumn(FFocusedColumn); if Context > -1 then FocusedColumn := Context; end else if Assigned(FFocusedNode) and not (vsExpanded in FFocusedNode.States) and (Shift = []) and (vsHasChildren in FFocusedNode.States) then ToggleNode(FFocusedNode) else begin if FFocusedNode = nil then FocusedNode := GetFirstVisible else begin Node := GetFirstVisibleChild(FFocusedNode); if Assigned(Node) then begin if HandleMultiSelect and (CompareNodePositions(Node, FRangeAnchor) < 0) then RemoveFromSelection(FFocusedNode); FocusedNode := Node; end; end; end; end; end; VK_BACK: if tsIncrementalSearching in FStates then DoStateChange([tsIncrementalSearchPending]) else if Assigned(FFocusedNode) and (FFocusedNode.Parent <> FRoot) then FocusedNode := FocusedNode.Parent; VK_TAB: if (toExtendedFocus in FOptions.FSelectionOptions) and FHeader.UseColumns then begin // In order to avoid duplicating source code just to change the direction // we use function variables. if ssShift in Shift then begin GetStartColumn := FHeader.FColumns.GetLastVisibleColumn; GetNextColumn := FHeader.FColumns.GetPreviousVisibleColumn; GetNextNode := GetPreviousVisible; end else begin GetStartColumn := FHeader.FColumns.GetFirstVisibleColumn; GetNextColumn := FHeader.FColumns.GetNextVisibleColumn; GetNextNode := GetNextVisible; end; // Advance to next/previous visible column/node. Node := FFocusedNode; NewColumn := GetNextColumn(FFocusedColumn); repeat // Find a column for the current node which can be focused. while (NewColumn > NoColumn) and not DoFocusChanging(FFocusedNode, Node, FFocusedColumn, NewColumn) do NewColumn := GetNextColumn(NewColumn); if NewColumn > NoColumn then begin // Set new node and column in one go. SetFocusedNodeAndColumn(Node, NewColumn); Break; end; // No next column was accepted for the current node. So advance to next node and try again. Node := GetNextNode(Node); NewColumn := GetStartColumn; until Node = nil; end; end; // Clear old selection if required but take care to select the new focused node if it was not selected before. ForceSelection := False; if ClearPending and ((LastFocused <> FFocusedNode) or (FSelectionCount <> 1)) then begin ClearSelection; ForceSelection := True; end; // Determine new selection anchor. if Shift = [] then begin FRangeAnchor := FFocusedNode; FLastSelectionLevel := GetNodeLevel(FFocusedNode); end; // Finally change the selection for a specific range of nodes. if DoRangeSelect then ToggleSelection(LastFocused, FFocusedNode); // Make sure the new focused node is also selected. if Assigned(FFocusedNode) and ((LastFocused <> FFocusedNode) or ForceSelection) then AddToSelection(FFocusedNode); // If a repaint is needed then paint the entire tree because of the ClearSelection call, if NeedInvalidate then Invalidate; end else begin // Second chance for keys not directly concerned with selection changes. // For +, -, /, * keys on the main keyboard (not numpad) there is no virtual key code defined. // We have to do special processing to get them working too. GetKeyboardState(KeyState); // Avoid conversion to control characters. We have captured the control key state already in Shift. KeyState[VK_CONTROL] := 0; if ToASCII(Message.CharCode, (Message.KeyData shr 16) and 7, KeyState, @Buffer, 0) > 0 then begin case Buffer[0] of '*': CharCode := VK_MULTIPLY; '+': CharCode := VK_ADD; '/': CharCode := VK_DIVIDE; '-': CharCode := VK_SUBTRACT; end; end; // According to http://www.it-faq.pl/mskb/99/337.HTM there is a problem with ToASCII when used in conjunction // with dead chars. The article recommends to call ToASCII twice to restore a deleted flag in the key message // structure under certain circumstances. It turned out it is best to always call ToASCII twice. ToASCII(Message.CharCode, (Message.KeyData shr 16) and 7, KeyState, @Buffer, 0); case CharCode of VK_F2: if (Shift = []) and Assigned(FFocusedNode) and CanEdit(FFocusedNode, FFocusedColumn) then begin FEditColumn := FFocusedColumn; DoEdit; end; VK_ADD: if not (tsIncrementalSearching in FStates) then begin if ssCtrl in Shift then if {$ifdef ReverseFullExpandHotKey} not {$endif ReverseFullExpandHotKey} (ssShift in Shift) then FullExpand else FHeader.AutoFitColumns else if Assigned(FFocusedNode) and not (vsExpanded in FFocusedNode.States) then ToggleNode(FFocusedNode); end else DoStateChange([tsIncrementalSearchPending]); VK_SUBTRACT: if not (tsIncrementalSearching in FStates) then begin if ssCtrl in Shift then if {$ifdef ReverseFullExpandHotKey} not {$endif ReverseFullExpandHotKey} (ssShift in Shift) then FullCollapse else FHeader.RestoreColumns else if Assigned(FFocusedNode) and (vsExpanded in FFocusedNode.States) then ToggleNode(FFocusedNode); end else DoStateChange([tsIncrementalSearchPending]); VK_MULTIPLY: if not (tsIncrementalSearching in FStates) then begin if Assigned(FFocusedNode) then FullExpand(FFocusedNode); end else DoStateChange([tsIncrementalSearchPending]); VK_DIVIDE: if not (tsIncrementalSearching in FStates) then begin if Assigned(FFocusedNode) then FullCollapse(FFocusedNode); end else DoStateChange([tsIncrementalSearchPending]); VK_ESCAPE: // cancel actions currently in progress begin if IsMouseSelecting then begin DoStateChange([], [tsDrawSelecting, tsDrawSelPending]); Invalidate; end //gtk1 does not like to free a component in KeyDown {$ifndef LCLGtk} else if IsEditing then CancelEditNode; {$endif} end; VK_SPACE: if (toCheckSupport in FOptions.FMiscOptions) and Assigned(FFocusedNode) and (FFocusedNode.CheckType <> ctNone) then begin if (FStates * [tsKeyCheckPending, tsMouseCheckPending] = []) and Assigned(FFocusedNode) and not (vsDisabled in FFocusedNode.States) then begin with FFocusedNode^ do NewCheckState := DetermineNextCheckState(CheckType, CheckState); if DoChecking(FFocusedNode, NewCheckState) then begin DoStateChange([tsKeyCheckPending]); FCheckNode := FFocusedNode; FPendingCheckState := NewCheckState; FCheckNode.CheckState := PressedState[FCheckNode.CheckState]; RepaintNode(FCheckNode); end; end; end else DoStateChange([tsIncrementalSearchPending]); VK_F1: if Assigned(FOnGetHelpContext) then begin Context := 0; if Assigned(FFocusedNode) then begin Node := FFocusedNode; // Traverse the tree structure up to the root. repeat FOnGetHelpContext(Self, Node, 0, Context); Node := Node.Parent; until (Node = FRoot) or (Context <> 0); end; // If no help context could be found try the tree's one or its parent's contexts. ParentControl := Self; while Assigned(ParentControl) and (Context = 0) do begin Context := ParentControl.HelpContext; ParentControl := ParentControl.Parent; end; if Context <> 0 then Application.HelpContext(Context); end; VK_APPS: if Assigned(FFocusedNode) then begin R := GetDisplayRect(FFocusedNode, FFocusedColumn, True); Offset := DoGetNodeWidth(FFocusedNode, FFocusedColumn); if FFocusedColumn >= 0 then begin if Offset > FHeader.Columns[FFocusedColumn].Width then Offset := FHeader.Columns[FFocusedColumn].Width; end else begin if Offset > ClientWidth then Offset := ClientWidth; end; DoPopupMenu(FFocusedNode, FFocusedColumn, Point(R.Left + Offset div 2, (R.Top + R.Bottom) div 2)); end; Ord('a'), Ord('A'): if ssCtrl in Shift then SelectAll(True) else DoStateChange([tsIncrementalSearchPending]); else begin // Use the key for incremental search. // Since we are dealing with Unicode all the time there should be a more sophisticated way // of checking for valid characters for incremental search. // This is available but would require to include a significant amount of Unicode character // properties, so we stick with the simple space check. if (Shift * [ssCtrl, ssAlt] = []) and (CharCode >= 32) then DoStateChange([tsIncrementalSearchPending]); end; end; end; end; end; Logger.ExitMethod([lcMessages],'WMKeyDown'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMKeyUp(var Message: TLMKeyUp); begin Logger.EnterMethod([lcMessages],'WMKeyUp'); inherited WMKeyUp(Message); case Message.CharCode of VK_SPACE: if tsKeyCheckPending in FStates then begin DoStateChange([], [tskeyCheckPending]); if FCheckNode = FFocusedNode then DoCheckClick(FCheckNode, FPendingCheckState); InvalidateNode(FCheckNode); FCheckNode := nil; end; end; Logger.ExitMethod([lcMessages],'WMKeyUp'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMKillFocus(var Msg: TLMKillFocus); var Form: TCustomForm; Control: TWinControl; Pos: TSmallPoint; Unknown: IUnknown; begin Logger.EnterMethod([lcMessages],'WMKillFocus'); inherited WMKillFocus(Msg); // Remove hint if shown currently. Application.CancelHint; // Stop wheel panning if active. StopWheelPanning; // Don't let any timer continue if the tree is no longer the active control (except change timers). KillTimer(Handle, ExpandTimer); KillTimer(Handle, EditTimer); KillTimer(Handle, HeaderTimer); KillTimer(Handle, ScrollTimer); KillTimer(Handle, SearchTimer); FSearchBuffer := ''; FLastSearchNode := nil; DoStateChange([], [tsScrollPending, tsScrolling, tsEditPending, tsLeftButtonDown, tsRightButtonDown, tsMiddleButtonDown, tsOLEDragPending, tsVCLDragPending, tsIncrementalSearching]); if (FSelectionCount > 0) or not (toGhostedIfUnfocused in FOptions.FPaintOptions) then Invalidate else if Assigned(FFocusedNode) then InvalidateNode(FFocusedNode); // Workaround for wrapped non-VCL controls (like TWebBrowser), which do not use VCL mechanisms and // leave the ActiveControl property in the wrong state, which causes trouble when the control is refocused. Form := GetParentForm(Self); if Assigned(Form) and (Form.ActiveControl = Self) then begin //todo_lcl_check Probably this code is not necessary. LCL does not has TOLEControl AFAIK { Cardinal(Pos) := GetMessagePos; Control := FindVCLWindow(SmallPointToPoint(Pos)); // Every control derived from TOleControl has potentially the focus problem. In order to avoid including // the OleCtrls unit (which will, among others, include Variants), which would allow to test for the TOleControl // class, the IOleClientSite interface is used for the test, which is supported by TOleControl and a good indicator. if Assigned(Control) and Control.GetInterface(IOleClientSite, Unknown) then Form.ActiveControl := nil; } // For other classes the active control should not be modified. Otherwise you need two clicks to select it. end; Logger.ExitMethod([lcMessages],'WMKillFocus'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMLButtonDblClk(var Message: TLMLButtonDblClk); var HitInfo: THitInfo; begin Logger.EnterMethod([lcMessages],'WMLButtonDblClk'); DoStateChange([tsLeftDblClick]); inherited WMLButtonDblClk(Message); // get information about the hit GetHitTestInfoAt(Message.XPos, Message.YPos, True, HitInfo); HandleMouseDblClick(Message, HitInfo); DoStateChange([], [tsLeftDblClick]); Logger.ExitMethod([lcMessages],'WMLButtonDblClk'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMLButtonDown(var Message: TLMLButtonDown); var HitInfo: THitInfo; begin Logger.EnterMethod([lcMessages],'WMLButtonDown'); DoStateChange([tsLeftButtonDown]); inherited WMLButtonDown(Message); // get information about the hit GetHitTestInfoAt(Message.XPos, Message.YPos, True, HitInfo); if HitInfo.HitNode <> nil then Logger.Send([lcPaintHeader],'HitNode',HitInfo.HitNode^.Index); HandleMouseDown(Message, HitInfo); Logger.ExitMethod([lcMessages],'WMLButtonDown'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMLButtonUp(var Message: TLMLButtonUp); var HitInfo: THitInfo; begin Logger.EnterMethod([lcMessages],'WMLButtonUp'); DoStateChange([], [tsLeftButtonDown]); // get information about the hit GetHitTestInfoAt(Message.XPos, Message.YPos, True, HitInfo); HandleMouseUp(Message, HitInfo); inherited WMLButtonUp(Message); Logger.ExitMethod([lcMessages],'WMLButtonUp'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMMButtonDblClk(var Message: TLMMButtonDblClk); var HitInfo: THitInfo; begin Logger.EnterMethod([lcMessages],'WMMButtonDblClk'); DoStateChange([tsMiddleDblClick]); inherited WMMButtonDblClk(Message); // get information about the hit if toMiddleClickSelect in FOptions.FSelectionOptions then begin GetHitTestInfoAt(Message.XPos, Message.YPos, True, HitInfo); HandleMouseDblClick(Message, HitInfo); end; DoStateChange([], [tsMiddleDblClick]); Logger.ExitMethod([lcMessages],'WMMButtonDblClk'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMMButtonDown(var Message: TLMMButtonDown); var HitInfo: THitInfo; begin Logger.EnterMethod([lcMessages],'WMMButtonDown'); DoStateChange([tsMiddleButtonDown]); if FHeader.FStates = [] then begin inherited WMMButtonDown(Message); // Start wheel panning or scrolling if not already active, allowed and scrolling is useful at all. if (toWheelPanning in FOptions.FMiscOptions) and ([tsWheelScrolling, tsWheelPanning] * FStates = []) and ((Integer(FRangeX) > ClientWidth) or (Integer(FRangeY) > ClientHeight)) then begin FLastClickPos := SmallPointToPoint(Message.Pos); StartWheelPanning(FLastClickPos); end else begin StopWheelPanning; // Get information about the hit. if toMiddleClickSelect in FOptions.FSelectionOptions then begin GetHitTestInfoAt(Message.XPos, Message.YPos, True, HitInfo); HandleMouseDown(Message, HitInfo); end; end; end; Logger.ExitMethod([lcMessages],'WMMButtonDown'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMMButtonUp(var Message: TLMMButtonUp); var HitInfo: THitInfo; begin Logger.EnterMethod([lcMessages],'WMMButtonUp'); DoStateChange([], [tsMiddleButtonDown]); // If wheel panning/scrolling is active and the mouse has not yet been moved then the user starts wheel auto scrolling. // Indicate this by removing the panning flag. Otherwise (the mouse has moved meanwhile) stop panning. if [tsWheelPanning, tsWheelScrolling] * FStates <> [] then begin if tsWheelScrolling in FStates then DoStateChange([], [tsWheelPanning]) else StopWheelPanning; end else if FHeader.FStates = [] then begin inherited WMMButtonUp(Message); // get information about the hit if toMiddleClickSelect in FOptions.FSelectionOptions then begin GetHitTestInfoAt(Message.XPos, Message.YPos, True, HitInfo); HandleMouseUp(Message, HitInfo); end; end; Logger.ExitMethod('WMMButtonUp'); end; //---------------------------------------------------------------------------------------------------------------------- {$ifdef EnableNCFunctions} procedure TBaseVirtualTree.WMNCCalcSize(var Message: TLMNCCalcSize); begin Logger.EnterMethod([lcMessages],'WMNCCalcSize'); inherited WMNCCalcSize(Message); with FHeader do if hoVisible in FHeader.FOptions then with Message.CalcSize_Params^ do Inc(rgrc[0].Top, FHeight); Logger.ExitMethod([lcMessages],'WMNCCalcSize'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMNCHitTest(var Message: TWMNCHitTest); begin Logger.EnterMethod([lcMessages],'WMNCHitTest'); inherited WMNCHitTest(Message); if not (csDesigning in ComponentState) and (hoVisible in FHeader.FOptions) and FHeader.InHeader(ScreenToClient(SmallPointToPoint(Message.Pos))) then Message.Result := HTBORDER; Logger.ExitMethod([lcMessages],'WMNCHitTest'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMNCPaint(var Message: TRealWMNCPaint); var DC: HDC; R: TRect; Flags: DWORD; {$ifdef ThemeSupport} ExStyle: Integer; TempRgn: HRGN; BorderWidth, BorderHeight: Integer; {$endif ThemeSupport} begin Logger.EnterMethod([lcMessages],'WMNCPaint'); {$ifdef ThemeSupport} if tsUseThemes in FStates then begin // If theming is enabled and the client edge border is set for the window then prevent the default window proc // from painting the old border to avoid flickering. ExStyle := GetWindowLong(Handle, GWL_EXSTYLE); if (ExStyle and WS_EX_CLIENTEDGE) <> 0 then begin GetWindowRect(Handle, R); // Determine width of the client edge. BorderWidth := GetSystemMetrics(SM_CXEDGE); BorderHeight := GetSystemMetrics(SM_CYEDGE); InflateRect(R, -BorderWidth, -BorderHeight); TempRgn := CreateRectRgnIndirect(R); // Exclude the border from the message region if there is one. Otherwise just use the inflated // window area region. if Message.Rgn <> 1 then CombineRgn(TempRgn, Message.Rgn, TempRgn, RGN_AND); DefWindowProc(Handle, Message.Msg, Integer(TempRgn), 0); DeleteObject(TempRgn); end else DefaultHandler(Message); end else {$endif ThemeSupport} DefaultHandler(Message); Flags := DCX_CACHE or DCX_CLIPSIBLINGS or DCX_WINDOW or DCX_VALIDATE; if (Message.Rgn = 1) or not IsWinNT then DC := GetDCEx(Handle, 0, Flags) else DC := GetDCEx(Handle, Message.Rgn, Flags or DCX_INTERSECTRGN); if DC <> 0 then begin if hoVisible in FHeader.FOptions then begin R := FHeaderRect; FHeader.FColumns.PaintHeader(DC, R, -FEffectiveOffsetX); end; OriginalWMNCPaint(DC); ReleaseDC(Handle, DC); end; {$ifdef ThemeSupport} if tsUseThemes in FStates then ThemeServices.PaintBorder(Self, False); {$endif ThemeSupport} Logger.ExitMethod([lcMessages],'WMNCPaint'); end; {$endif} //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMPaint(var Message: TLMPaint); begin Logger.EnterMethod([lcMessages],'WMPaint'); //todo: //Windows.GetUpdateRect is always empty because BeginPaint was called //see if PaintStruct has the same rect if tsVCLDragging in FStates then ImageList_DragShowNolock(False); if csPaintCopy in ControlState then FUpdateRect := ClientRect else FUpdateRect:=Message.PaintStruct^.rcPaint; Logger.Send([lcPaint],'FUpdateRect', FUpdateRect); inherited WMPaint(Message); if tsVCLDragging in FStates then ImageList_DragShowNolock(True); Logger.ExitMethod([lcMessages],'WMPaint'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMPaste(var Message: TLMNoParams); begin Logger.EnterMethod([lcMessages],'WMPaste'); PasteFromClipboard; Logger.ExitMethod([lcMessages],'WMPaste'); end; //---------------------------------------------------------------------------------------------------------------------- {$ifdef EnablePrintFunctions} procedure TBaseVirtualTree.WMPrint(var Message: TWMPrint); // This message is sent to request that the tree draws itself to a given device context. This includes not only // the client area but also the non-client area (header!). begin Logger.EnterMethod([lcMessages],'WMPrint'); // Draw only if the window is visible or visibility is not required. if ((Message.Flags and PRF_CHECKVISIBLE) = 0) or IsWindowVisible(Handle) then Header.Columns.PaintHeader(Message.DC, FHeaderRect, -FEffectiveOffsetX); inherited WMPrint(Message); Logger.ExitMethod([lcMessages],'WMPrint'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMPrintClient(var Message: TWMPrintClient); var Window: TRect; Target: TPoint; Canvas: TCanvas; begin Logger.EnterMethod([lcMessages],'WMPrintClient'); // Draw only if the window is visible or visibility is not required. if ((Message.Flags and PRF_CHECKVISIBLE) = 0) or IsWindowVisible(Handle) then begin // Determine area of the entire tree to be displayed in the control. Window := ClientRect; Target := Window.TopLeft; // The Window rectangle is given in client coordinates. We have to convert it into // a sliding window of the tree image. OffsetRect(Window, FEffectiveOffsetX, -FOffsetY); Canvas := TCanvas.Create; try Canvas.Handle := Message.DC; PaintTree(Canvas, Window, Target, [poBackground, poDrawFocusRect, poDrawDropMark, poDrawSelection, poGridLines]); finally Canvas.Handle := 0; Canvas.Free; end; end; Logger.ExitMethod([lcMessages],'WMPrintClient'); end; {$endif} //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMRButtonDblClk(var Message: TLMRButtonDblClk); var HitInfo: THitInfo; begin Logger.EnterMethod([lcMessages],'WMRButtonDblClk'); DoStateChange([tsRightDblClick]); inherited WMRButtonDblClk(Message); // get information about the hit if toMiddleClickSelect in FOptions.FSelectionOptions then begin GetHitTestInfoAt(Message.XPos, Message.YPos, True, HitInfo); HandleMouseDblClick(Message, HitInfo); end; DoStateChange([], [tsRightDblClick]); Logger.ExitMethod([lcMessages],'WMRButtonDblClk'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMRButtonDown(var Message: TLMRButtonDown); var HitInfo: THitInfo; begin Logger.EnterMethod([lcMessages],'WMRButtonDown'); DoStateChange([tsRightButtonDown]); if FHeader.FStates = [] then begin inherited WMRButtonDown(Message); // get information about the hit if toRightClickSelect in FOptions.FSelectionOptions then begin GetHitTestInfoAt(Message.XPos, Message.YPos, True, HitInfo); HandleMouseDown(Message, HitInfo); end; end; Logger.ExitMethod([lcMessages],'WMRButtonDown'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMRButtonUp(var Message: TLMRButtonUp); // handle right click selection and node specific popup menu var HitInfo: THitInfo; begin Logger.EnterMethod([lcMessages],'WMRButtonUp'); DoStateChange([], [tsPopupMenuShown, tsRightButtonDown]); if FHeader.FStates = [] then begin Application.CancelHint; if IsMouseSelecting and Assigned(PopupMenu) then begin // Reset selection state already here, before the inherited handler opens the default menu. DoStateChange([], [tsDrawSelecting, tsDrawSelPending]); Invalidate; end; inherited WMRButtonUp(Message); // get information about the hit GetHitTestInfoAt(Message.XPos, Message.YPos, True, HitInfo); if toRightClickSelect in FOptions.FSelectionOptions then HandleMouseUp(Message, HitInfo); if not Assigned(PopupMenu) then DoPopupMenu(HitInfo.HitNode, HitInfo.HitColumn, Point(Message.XPos, Message.YPos)); end; Logger.ExitMethod([lcMessages],'WMRButtonUp'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMSetFocus(var Msg: TLMSetFocus); begin Logger.EnterMethod([lcMessages],'WMSetFocus') ; inherited WMSetFocus(Msg); if (FSelectionCount > 0) or not (toGhostedIfUnfocused in FOptions.FPaintOptions) then Invalidate; Logger.ExitMethod([lcMessages],'WMSetFocus'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMSize(var Message: TLMSize); begin Logger.EnterMethod([lcMessages],'WMSize'); inherited WMSize(Message); // Need to update scroll bars here. This will cause a recursion because of the change of the client area // when changing a scrollbar. Usually this is no problem since with the second level recursion no change of the // window size happens (the same values for the scrollbars are set, which shouldn't cause a window size change). // Appearently, this applies not to all systems, however. if HandleAllocated and ([tsSizing, tsWindowCreating] * FStates = []) and (ClientHeight > 0) then try DoStateChange([tsSizing]); // This call will invalidate the entire non-client area which needs recalculation on resize. FHeader.RecalculateHeader; FHeader.UpdateSpringColumns; UpdateScrollBars(True); if (tsEditing in FStates) and not FHeader.UseColumns then UpdateEditBounds; finally DoStateChange([], [tsSizing]); end; Logger.ExitMethod([lcMessages],'WMSize'); end; //---------------------------------------------------------------------------------------------------------------------- {$ifdef ThemeSupport} procedure TBaseVirtualTree.WMThemeChanged(var Message: TLMessage); begin inherited; {$ifndef COMPILER_7_UP} ThemeServices.UpdateThemes; {$endif COMPILER_7_UP} if ThemeServices.ThemesEnabled and (toThemeAware in TreeOptions.PaintOptions) then DoStateChange([tsUseThemes]) else DoStateChange([], [tsUseThemes]); RedrawWindow(Handle, nil, 0, RDW_INVALIDATE or RDW_VALIDATE or RDW_FRAME); end; {$endif ThemeSupport} //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMTimer(var Message: TLMTimer); // centralized timer handling happens here begin Logger.EnterMethod([lcMessages,lcTimer],'WMTimer'); with Message do begin Logger.Send([lcTimer],'TimerId',TimerId); case TimerID of ExpandTimer: DoDragExpand; EditTimer: DoEdit; ScrollTimer: begin if tsScrollPending in FStates then begin Application.CancelHint; // Scroll delay has elapsed, set to normal scroll interval now. SetTimer(Handle, ScrollTimer, FAutoScrollInterval, nil); DoStateChange([tsScrolling], [tsScrollPending]); end; DoTimerScroll; end; ChangeTimer: DoChange(FLastChangedNode); StructureChangeTimer: DoStructureChange(FLastStructureChangeNode, FLastStructureChangeReason); SearchTimer: begin // When this event triggers then the user did not pressed any key for the specified timeout period. // Hence incremental searching is stopped. DoStateChange([], [tsIncrementalSearching]); KillTimer(Handle, SearchTimer); FSearchBuffer := ''; FLastSearchNode := nil; end; end; end; Logger.ExitMethod([lcMessages,lcTimer],'WMTimer'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WMVScroll(var Message: TLMVScroll); //--------------- local functions ------------------------------------------- function GetRealScrollPosition: Integer; var SI: TScrollInfo; Code: Integer; begin SI.cbSize := SizeOf(TScrollInfo); SI.fMask := SIF_TRACKPOS; Code := SB_VERT; {$ifdef UseFlatScrollbars} FlatSB_GetScrollInfo(Handle, Code, SI); {$else} GetScrollInfo(Handle, Code, SI); {$endif UseFlatScrollbars} Result := SI.nTrackPos; Logger.Send([lcScroll],'GetRealScrollPosition',Result); end; //--------------- end local functions --------------------------------------- begin Logger.EnterMethod([lcScroll],'WMVScroll'); //Logger.SendCallStack([lcScroll],'CallStack'); case Message.ScrollCode of SB_BOTTOM: SetOffsetY(-Integer(FRoot.TotalHeight)); SB_ENDSCROLL: begin DoStateChange([], [tsThumbTracking]); // Avoiding to adjust the horizontal scroll position while tracking makes scrolling much smoother // but we need to adjust the final position here then. UpdateScrollBars(True); // Really weird invalidation needed here (and I do it only because it happens so rarely), because // when showing the horizontal scrollbar while scrolling down using the down arrow button, // the button will be repainted on mouse up (at the wrong place in the far right lower corner)... RedrawWindow(Handle, nil, 0, RDW_FRAME or RDW_INVALIDATE or RDW_NOERASE or RDW_NOCHILDREN); end; SB_LINEUP: SetOffsetY(FOffsetY + FScrollBarOptions.FIncrementY); SB_LINEDOWN: SetOffsetY(FOffsetY - FScrollBarOptions.FIncrementY); SB_PAGEUP: SetOffsetY(FOffsetY + ClientHeight); SB_PAGEDOWN: SetOffsetY(FOffsetY - ClientHeight); SB_THUMBPOSITION, SB_THUMBTRACK: begin DoStateChange([tsThumbTracking]); {$ifdef LCLQt} SetOffsetY(-Message.Pos); {$else} SetOffsetY(-GetRealScrollPosition); {$endif} end; SB_TOP: SetOffsetY(0); end; Message.Result := 0; Logger.ExitMethod([lcScroll],'WMVScroll'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AddToSelection(Node: PVirtualNode); var Changed: Boolean; begin Assert(Assigned(Node), 'Node must not be nil!'); FSingletonNodeArray[0] := Node; Changed := InternalAddToSelection(FSingletonNodeArray, 1, False); if Changed then begin InvalidateNode(Node); Change(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AddToSelection(const NewItems: TNodeArray; NewLength: Integer; ForceInsert: Boolean = False); // Adds the given items all at once into the current selection array. NewLength is the amount of // nodes to add (necessary to allow NewItems to be larger than the actual used entries). // ForceInsert is True if nodes must be inserted without consideration of level select constraint or // already set selected flags (e.g. when loading from stream). // Note: In the case ForceInsert is True the caller is responsible for making sure the new nodes aren't already in the // selection array! var Changed: Boolean; begin Changed := InternalAddToSelection(NewItems, NewLength, ForceInsert); if Changed then begin if NewLength = 1 then begin InvalidateNode(NewItems[0]); Change(NewItems[0]); end else begin Invalidate; Change(nil); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AdjustPaintCellRect(var PaintInfo: TVTPaintInfo; var NextNonEmpty: TColumnIndex); // Used in descendants to modify the paint rectangle of the current column while painting a certain node. begin // Since cells are always drawn from left to right the next column index is independent of the // bidi mode, but not the column borders, which might change depending on the cell's content. NextNonEmpty := FHeader.FColumns.GetNextVisibleColumn(PaintInfo.Column); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AdjustPanningCursor(X, Y: Integer); // Triggered by a mouse move when wheel panning/scrolling is active. // Loads the proper cursor which indicates into which direction scrolling is done. var NewCursor: HCURSOR; ScrollHorizontal, ScrollVertical: Boolean; begin ScrollHorizontal := Integer(FRangeX) > ClientWidth; ScrollVertical := Integer(FRangeY) > ClientHeight; if (Abs(X - FLastClickPos.X) < 8) and (Abs(Y - FLastClickPos.Y) < 8) then begin // Mouse is in the neutral zone. if ScrollHorizontal then begin if ScrollVertical then NewCursor := crVT_MOVEALL else NewCursor := crVT_MOVEEW end else NewCursor := crVT_MOVENS; end else begin // One of 8 directions applies: north, north-east, east, south-east, south, south-west, west and north-west. // Check also if scrolling in the particular direction is possible. if ScrollVertical and ScrollHorizontal then begin // All directions allowed. if X - FlastClickPos.X < -8 then begin // Left hand side. if Y - FLastClickPos.Y < -8 then NewCursor := crVT_MOVENW else if Y - FLastClickPos.Y > 8 then NewCursor := crVT_MOVESW else NewCursor := crVT_MOVEW; end else if X - FLastClickPos.X > 8 then begin // Right hand side. if Y - FLastClickPos.Y < -8 then NewCursor := crVT_MOVENE else if Y - FLastClickPos.Y > 8 then NewCursor := crVT_MOVESE else NewCursor := crVT_MOVEE; end else begin // Up or down. if Y < FLastClickPos.Y then NewCursor := crVT_MOVEN else NewCursor := crVT_MOVES; end; end else if ScrollHorizontal then begin // Only horizontal movement allowed. if X < FlastClickPos.X then NewCursor := crVT_MOVEW else NewCursor := crVT_MOVEE; end else begin // Only vertical movement allowed. if Y < FlastClickPos.Y then NewCursor := crVT_MOVEN else NewCursor := crVT_MOVES; end; end; // Now load the cursor and apply it. {$ifdef Windows} LCLIntf.SetCursor(Screen.Cursors[NewCursor]); {$else} Cursor := NewCursor; {$endif} end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AdviseChangeEvent(StructureChange: Boolean; Node: PVirtualNode; Reason: TChangeReason); // Used to register a delayed change event. If StructureChange is False then we have a selection change event (without // a specific reason) otherwise it is a structure change. begin if StructureChange then begin if tsStructureChangePending in FStates then begin if HandleAllocated then KillTimer(Handle,StructureChangeTimer); end else DoStateChange([tsStructureChangePending]); FLastStructureChangeNode := Node; if FLastStructureChangeReason = crIgnore then FLastStructureChangeReason := Reason else if Reason <> crIgnore then FLastStructureChangeReason := crAccumulated; end else begin if tsChangePending in FStates then KillTimer(Handle, ChangeTimer) else DoStateChange([tsChangePending]); FLastChangedNode := Node; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.AllocateInternalDataArea(Size: Cardinal): Cardinal; // Simple registration method to be called by each descendant to claim their internal data area. // Result is the offset from the begin of the node to the internal data area of the calling tree class. begin Assert((FRoot = nil) or (FRoot.ChildCount = 0), 'Internal data allocation must be done before any node is created.'); Logger.Send('FTotalInternalDataSize BEFORE',FTotalInternalDataSize); Logger.Send('Size',Size); Logger.Send('TreeNodeSize',TreeNodeSize); Result := TreeNodeSize + FTotalInternalDataSize; Logger.Send('Result',Result); Inc(FTotalInternalDataSize, (Size + 3) and not 3); Logger.Send('FTotalInternalDataSize AFTER', FTotalInternalDataSize); InitRootNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.Animate(Steps, Duration: Cardinal; Callback: TVTAnimationCallback; Data: Pointer); // This method does the calculation part of an animation as used for node toggling and hint animations. // Steps is the maximum amount of animation steps to do and Duration determines the milliseconds the animation // has to run. Callback is a task specific method which is called in the loop for every step and Data is simply // something to pass on to the callback. // The callback is called with the current step, the current step size and the Data parameter. Since the step amount // as well as the step size are possibly adjusted during the animation, it is impossible to determine if the current // step is the last step, even if the original step amount is known. To solve this problem the callback will be // called after the loop has finished with a step size of 0 indicating so to execute any post processing. var StepSize, RemainingTime, RemainingSteps, NextTimeStep, CurrentStep, StartTime, CurrentTime: Cardinal; begin {$ifndef Windows} //Is necessary to properly implement timeGetTime in non Windows Exit; {$endif} if not (tsInAnimation in FStates) and (Duration > 0) then begin DoStateChange([tsInAnimation]); try RemainingTime := Duration; RemainingSteps := Steps; // Determine the initial step size which is either 1 if the needed steps are less than the number of // steps possible given by the duration or > 1 otherwise. StepSize := Round(Max(1, RemainingSteps / Duration)); RemainingSteps := RemainingSteps div StepSize; CurrentStep := 0; while (RemainingSteps > 0) and (RemainingTime > 0) and not Application.Terminated do begin StartTime := timeGetTime; NextTimeStep := StartTime + RemainingTime div RemainingSteps; if not Callback(CurrentStep, StepSize, Data) then Break; // Keep duration for this step for rest calculation. CurrentTime := timeGetTime; // Wait until the calculated time has been reached. while CurrentTime < NextTimeStep do CurrentTime := timeGetTime; // Subtract the time this step really needed. if RemainingTime >= CurrentTime - StartTime then begin Dec(RemainingTime, CurrentTime - StartTime); Dec(RemainingSteps); end else begin RemainingTime := 0; RemainingSteps := 0; end; // If the remaining time per step is less than one time step then we have to decrease the // step count and increase the step size. if (RemainingSteps > 0) and ((RemainingTime div RemainingSteps) < 1) then begin repeat Inc(StepSize); RemainingSteps := RemainingTime div StepSize; until (RemainingSteps <= 0) or ((RemainingTime div RemainingSteps) >= 1); end; CurrentStep := Cardinal(Steps) - RemainingSteps; end; if not Application.Terminated then Callback(0, 0, Data); finally DoStateChange([], [tsCancelHintAnimation, tsInAnimation]); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CalculateSelectionRect(X, Y: Integer): Boolean; // Recalculates old and new selection rectangle given that X, Y are new mouse coordinates. // Returns True if there was a change since the last call. var MaxValue: Integer; begin if tsDrawSelecting in FStates then FLastSelRect := FNewSelRect; FNewSelRect.BottomRight := Point(X + FEffectiveOffsetX, Y - FOffsetY); if FNewSelRect.Right < 0 then FNewSelRect.Right := 0; if FNewSelRect.Bottom < 0 then FNewSelRect.Bottom := 0; MaxValue := ClientWidth; if FRangeX > Cardinal(MaxValue) then MaxValue := FRangeX; if FNewSelRect.Right > MaxValue then FNewSelRect.Right := MaxValue; MaxValue := ClientHeight; if FRangeY > Cardinal(MaxValue) then MaxValue := FRangeY; if FNewSelRect.Bottom > MaxValue then FNewSelRect.Bottom := MaxValue; Result := not CompareMem(@FLastSelRect, @FNewSelRect, SizeOf(FNewSelRect)); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CanAutoScroll: Boolean; // Determines if auto scrolling is currently allowed. var IsDropTarget: Boolean; IsDrawSelecting: Boolean; IsWheelPanning: Boolean; begin // Don't scroll the client area if the header is currently doing tracking or dragging. // Do auto scroll only if there is a draw selection in progress or the tree is the current drop target or // wheel panning/scrolling is active. IsDropTarget := Assigned(FDragManager) and VTVDragManager.IsDropTarget; IsDrawSelecting := [tsDrawSelPending, tsDrawSelecting] * FStates <> []; IsWheelPanning := [tsWheelPanning, tsWheelScrolling] * FStates <> []; Result := ((toAutoScroll in FOptions.FAutoOptions) or IsWheelPanning) and (FHeader.FStates = []) and (IsDrawSelecting or IsDropTarget or (tsVCLDragging in FStates) or IsWheelPanning); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CanEdit(Node: PVirtualNode; Column: TColumnIndex): Boolean; // Returns True if the given node can be edited. begin Result := (toEditable in FOptions.FMiscOptions) and Enabled and not (toReadOnly in FOptions.FMiscOptions); DoCanEdit(Node, Column, Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CanShowDragImage: Boolean; // Determines whether a drag image should be shown. begin Result := FDragImageKind <> diNoImage; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.Change(Node: PVirtualNode); begin AdviseChangeEvent(False, Node, crIgnore); if FUpdateCount = 0 then begin if (FChangeDelay > 0) and not (tsSynchMode in FStates) then SetTimer(Handle, ChangeTimer, FChangeDelay, nil) else DoChange(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ChangeScale(M, D: Integer); var DoScale: Boolean; begin inherited; if (M <> D) and (toAutoChangeScale in FOptions.FAutoOptions) then begin if (csLoading in ComponentState) then DoScale := tsNeedScale in FStates else DoScale := True; if DoScale then begin FDefaultNodeHeight := MulDiv(FDefaultNodeHeight, M, D); FHeader.ChangeScale(M, D); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CheckParentCheckState(Node: PVirtualNode; NewCheckState: TCheckState): Boolean; // Checks all siblings of node to determine which check state Node's parent must get. var CheckCount, BoxCount: Cardinal; PartialCheck: Boolean; Run: PVirtualNode; begin CheckCount := 0; BoxCount := 0; PartialCheck := False; Run := Node.Parent.FirstChild; while Assigned(Run) do begin if Run = Node then begin // The given node cannot be checked because it does not yet have its new check state (as this depends // on the outcome of this method). Instead NewCheckState is used as this contains the new state the node // will get if this method returns True. if Run.CheckType in [ctCheckBox, ctTriStateCheckBox] then begin Inc(BoxCount); if NewCheckState in [csCheckedNormal, csCheckedPressed] then Inc(CheckCount); PartialCheck := PartialCheck or (NewCheckState = csMixedNormal); end; end else if Run.CheckType in [ctCheckBox, ctTriStateCheckBox] then begin Inc(BoxCount); if Run.CheckState in [csCheckedNormal, csCheckedPressed] then Inc(CheckCount); PartialCheck := PartialCheck or (Run.CheckState = csMixedNormal); end; Run := Run.NextSibling; end; if (CheckCount = 0) and not PartialCheck then NewCheckState := csUncheckedNormal else if CheckCount < BoxCount then NewCheckState := csMixedNormal else NewCheckState := csCheckedNormal; Node := Node.Parent; Result := DoChecking(Node, NewCheckState); if Result then begin DoCheckClick(Node, NewCheckState); // Recursively adjust parent of parent. with Node^ do begin if not (vsInitialized in Parent.States) then InitNode(Parent); if ([vsChecking, vsDisabled] * Parent.States = []) and (Parent <> FRoot) and (Parent.CheckType = ctTriStateCheckBox) then Result := CheckParentCheckState(Node, NewCheckState); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ClearTempCache; // make sure the temporary node cache is in a reliable state begin FTempNodeCache := nil; FTempNodeCount := 0; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.ColumnIsEmpty(Node: PVirtualNode; Column: TColumnIndex): Boolean; // Returns True if the given column is to be considered as being empty. This will usually be determined by // descendants as the base tree implementation has not enough information to decide. begin Result := True; if Assigned(FOnGetCellIsEmpty) then FOnGetCellIsEmpty(Self, Node, Column, Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.ComputeRTLOffset(ExcludeScrollbar: Boolean): Integer; // Computes the horizontal offset needed when all columns are automatically right aligned (in RTL bidi mode). // ExcludeScrollbar determines if the left-hand vertical scrollbar is to be included (if visible) or not. var HeaderWidth: Integer; ScrollbarVisible: Boolean; begin ScrollbarVisible := (Integer(FRangeY) > ClientHeight) and (ScrollbarOptions.Scrollbars in [ssVertical, ssBoth]); if ScrollbarVisible then Result := GetSystemMetrics(SM_CXVSCROLL) else Result := 0; // Make everything right aligned. HeaderWidth := FHeaderRect.Right - FHeaderRect.Left; if Integer(FRangeX) + Result <= HeaderWidth then Result := HeaderWidth - Integer(FRangeX); // Otherwise take only left-hand vertical scrollbar into account. if ScrollbarVisible and ExcludeScrollbar then Dec(Result, GetSystemMetrics(SM_CXVSCROLL)); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CountLevelDifference(Node1, Node2: PVirtualNode): Integer; // This method counts how many indentation levels the given nodes are apart. If both nodes have the same parent then the // difference is 0 otherwise the result is basically GetNodeLevel(Node2) - GetNodeLevel(Node1), but with sign. // If the result is negative then Node2 is less intended than Node1. var Level1, Level2: Integer; begin Assert(Assigned(Node1) and Assigned(Node2), 'Both nodes must be Assigned.'); Level1 := 0; while Node1.Parent <> FRoot do begin Inc(Level1); Node1 := Node1.Parent; end; Level2 := 0; while Node2.Parent <> FRoot do begin Inc(Level2); Node2 := Node2.Parent; end; Result := Level2 - Level1; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CountVisibleChildren(Node: PVirtualNode): Cardinal; // Returns the number of visible child nodes of the given node. begin Result := 0; // The node's direct children... if vsExpanded in Node.States then begin // ...and their children. Node := Node.FirstChild; while Assigned(Node) do begin if vsVisible in Node.States then Inc(Result, CountVisibleChildren(Node) + 1); Node := Node.NextSibling; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CreateParams(var Params: TCreateParams); const ScrollBar: array[TScrollStyle] of Cardinal = (0, WS_HSCROLL, WS_VSCROLL, WS_HSCROLL or WS_VSCROLL, 0,0,0); begin //todo_lcl inherited CreateParams(Params); with Params do begin Style := Style or WS_CLIPCHILDREN or WS_CLIPSIBLINGS or ScrollBar[ScrollBarOptions.FScrollBars]; if toFullRepaintOnResize in FOptions.FMiscOptions then WindowClass.style := WindowClass.style or CS_HREDRAW or CS_VREDRAW else WindowClass.style := WindowClass.style and not (CS_HREDRAW or CS_VREDRAW); //lcl: Ctl3D is not used in LCL. Has the same meaning of BorderStyle = bsSingle { if BorderStyle = bsSingle then begin if Ctl3D then begin ExStyle := ExStyle or WS_EX_CLIENTEDGE; Style := Style and not WS_BORDER; end else Style := Style or WS_BORDER; end else Style := Style and not WS_BORDER; } //todo_lcl_low //AddBiDiModeExStyle(ExStyle); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CreateWnd; // Initializes data which depends on a valid window handle. begin DoStateChange([tsWindowCreating]); inherited; Logger.Send([lcInfo],'Handle (CreateWnd)',Handle); DoStateChange([], [tsWindowCreating]); {$ifdef ThemeSupport} if ThemeServices.ThemesEnabled and (toThemeAware in TreeOptions.PaintOptions) then DoStateChange([tsUseThemes]) else {$endif ThemeSupport} DoStateChange([], [tsUseThemes]); // Because of the special recursion and update stopper when creating the window (or resizing it) // we have to manually trigger the auto size calculation here. if hoAutoResize in FHeader.FOptions then FHeader.FColumns.AdjustAutoSize(InvalidColumn); // Initialize flat scroll bar library if required. {$ifdef UseFlatScrollbars} if FScrollBarOptions.FScrollBarStyle <> sbmRegular then begin InitializeFlatSB(Handle); FlatSB_SetScrollProp(Handle, WSB_PROP_HSTYLE, ScrollBarProp[FScrollBarOptions.ScrollBarStyle], False); FlatSB_SetScrollProp(Handle, WSB_PROP_VSTYLE, ScrollBarProp[FScrollBarOptions.ScrollBarStyle], False); end; {$endif UseFlatScrollbars} PrepareBitmaps(True, True); {$ifdef Windows} // Register tree as OLE drop target. if not (csDesigning in ComponentState) and (toAcceptOLEDrop in FOptions.FMiscOptions) then RegisterDragDrop(Handle, VTVDragManager as IDropTarget); {$endif} if toCheckSupport in FOptions.FMiscOptions then GetCheckImageList; UpdateScrollBars(True); UpdateHeaderRect; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DefineProperties(Filer: TFiler); // There were heavy changes in some properties during development of VT. This method helps to make migration easier // by reading old properties manually and put them into the new properties as appropriate. // Note: these old properties are never written again and silently disappear. // June 2002: Meanwhile another task is done here too: working around the problem that TCollection is not streamed // correctly when using Visual Form Inheritance (VFI). var StoreIt: Boolean; begin inherited; // The header can prevent writing columns altogether. if FHeader.CanWriteColumns then begin // Check if we inherit from an ancestor form (Visual Form Inheritance). StoreIt := Filer.Ancestor = nil; // If there is an ancestor then save columns only if they are different to the base set. if not StoreIt then StoreIt := not FHeader.Columns.Equals(TBaseVirtualTree(Filer.Ancestor).FHeader.Columns); end else StoreIt := False; Filer.DefineProperty('Columns', FHeader.ReadColumns, FHeader.WriteColumns, StoreIt); Filer.DefineProperty('Options', ReadOldOptions, nil, False); end; procedure TBaseVirtualTree.DestroyHandle; begin Logger.EnterMethod([lcMessages],'DestroyHandle'); //lcl: this code was originally called is response to WM_NCDESTROY // see if there will be issues calling here InterruptValidation; KillTimer(Handle, ChangeTimer); KillTimer(Handle, StructureChangeTimer); {$ifdef Windows} if not (csDesigning in ComponentState) and (toAcceptOLEDrop in FOptions.FMiscOptions) then RevokeDragDrop(Handle); {$endif} // Clean up other stuff. DeleteObject(FDottedBrush); FDottedBrush := 0; if tsInAnimation in FStates then HintWindowDestroyed := True; // Stop any pending animation. inherited; Logger.ExitMethod([lcMessages],'DestroyHandle'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DetermineHiddenChildrenFlag(Node: PVirtualNode); // Update the hidden children flag of the given node. var Run: PVirtualNode; begin if Node.ChildCount = 0 then begin if vsHasChildren in Node.States then Exclude(Node.States, vsAllChildrenHidden) else Include(Node.States, vsAllChildrenHidden); end else begin // Iterate through all siblings and stop when one visible is found. Run := Node.FirstChild; while Assigned(Run) and not (vsVisible in Run.States) do Run := Run.NextSibling; if Assigned(Run) then Exclude(Node.States, vsAllChildrenHidden) else Include(Node.States, vsAllChildrenHidden); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DetermineHiddenChildrenFlagAllNodes; var Run: PVirtualNode; begin Run := GetFirstNoInit; while Assigned(Run) do begin DetermineHiddenChildrenFlag(Run); Run := GetNextNoInit(Run); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DetermineHitPositionLTR(var HitInfo: THitInfo; Offset, Right: Integer; Alignment: TAlignment); // This method determines the hit position within a node with left-to-right orientation. var MainColumnHit: Boolean; Run: PVirtualNode; Indent, TextWidth, ImageOffset: Integer; begin MainColumnHit := HitInfo.HitColumn = FHeader.MainColumn; Indent := 0; // If columns are not used or the main column is hit then the tree indentation must be considered too. if MainColumnHit then begin Run := HitInfo.HitNode; while (Run.Parent <> FRoot) do begin Inc(Indent, FIndent); Run := Run.Parent; end; if toShowRoot in FOptions.FPaintOptions then Inc(Indent, FIndent); end; if Offset < Indent then begin // Position is to the left of calculated indentation which can only happen for the main column. // Check whether it corresponds to a button/checkbox. if (toShowButtons in FOptions.FPaintOptions) and (vsHasChildren in HitInfo.HitNode.States) then begin // Position of button is interpreted very generously to avoid forcing the user // to click exactly into the 9x9 pixels area. The entire node height and one full // indentation level is accepted as button hit. if Offset >= Indent - Integer(FIndent) then Include(HitInfo.HitPositions, hiOnItemButton); end; // no button hit so position is on indent if HitInfo.HitPositions = [] then Include(HitInfo.HitPositions, hiOnItemIndent); end else begin // The next hit positions can be: // - on the check box // - on the state image // - on the normal image // - to the left of the text area // - on the label or // - to the right of the text area // (in this order). // In report mode no hit other than in the main column is possible. if MainColumnHit or not (toReportMode in FOptions.FMiscOptions) then begin ImageOffset := Indent + FMargin; // Check support is only available for the main column. if MainColumnHit and (toCheckSupport in FOptions.FMiscOptions) and Assigned(FCheckImages) and (HitInfo.HitNode.CheckType <> ctNone) then Inc(ImageOffset, FCheckImages.Height + 2); if MainColumnHit and (Offset < ImageOffset) then begin HitInfo.HitPositions := [hiOnItem]; if (HitInfo.HitNode.CheckType <> ctNone) then Include(HitInfo.HitPositions, hiOnItemCheckBox); end else begin if Assigned(FStateImages) and HasImage(HitInfo.HitNode, ikState, HitInfo.HitColumn) then Inc(ImageOffset, FStateImages.Width + 2); if Offset < ImageOffset then Include(HitInfo.HitPositions, hiOnStateIcon) else begin if Assigned(FImages) and HasImage(HitInfo.HitNode, ikNormal, HitInfo.HitColumn) then Inc(ImageOffset, FImages.Width + 2); if Offset < ImageOffset then Include(HitInfo.HitPositions, hiOnNormalIcon) else begin // ImageOffset contains now the left border of the node label area. This is used to calculate the // correct alignment in the column. TextWidth := DoGetNodeWidth(HitInfo.HitNode, HitInfo.HitColumn); // Check if the text can be aligned at all. This is only possible if there is enough room // in the remaining text rectangle. if TextWidth > Right - ImageOffset then Include(HitInfo.HitPositions, hiOnItemLabel) else begin case Alignment of taCenter: begin Indent := (ImageOffset + Right - TextWidth) div 2; if Offset < Indent then Include(HitInfo.HitPositions, hiOnItemLeft) else if Offset < Indent + TextWidth then Include(HitInfo.HitPositions, hiOnItemLabel) else Include(HitInfo.HitPositions, hiOnItemRight) end; taRightJustify: begin Indent := Right - TextWidth; if Offset < Indent then Include(HitInfo.HitPositions, hiOnItemLeft) else Include(HitInfo.HitPositions, hiOnItemLabel); end; else // taLeftJustify if Offset < ImageOffset + TextWidth then Include(HitInfo.HitPositions, hiOnItemLabel) else Include(HitInfo.HitPositions, hiOnItemRight); end; end; end; end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DetermineHitPositionRTL(var HitInfo: THitInfo; Offset, Right: Integer; Alignment: TAlignment); // This method determines the hit position within a node with right-to-left orientation. var MainColumnHit: Boolean; Run: PVirtualNode; Indent, TextWidth, ImageOffset: Integer; begin MainColumnHit := HitInfo.HitColumn = FHeader.MainColumn; // If columns are not used or the main column is hit then the tree indentation must be considered too. if MainColumnHit then begin Run := HitInfo.HitNode; while (Run.Parent <> FRoot) do begin Dec(Right, FIndent); Run := Run.Parent; end; if toShowRoot in FOptions.FPaintOptions then Dec(Right, FIndent); end; if Offset >= Right then begin // Position is to the right of calculated indentation which can only happen for the main column. // Check whether it corresponds to a button/checkbox. if (toShowButtons in FOptions.FPaintOptions) and (vsHasChildren in HitInfo.HitNode.States) then begin // Position of button is interpreted very generously to avoid forcing the user // to click exactly into the 9x9 pixels area. The entire node height and one full // indentation level is accepted as button hit. if Offset <= Right + Integer(FIndent) then Include(HitInfo.HitPositions, hiOnItemButton); end; // no button hit so position is on indent if HitInfo.HitPositions = [] then Include(HitInfo.HitPositions, hiOnItemIndent); end else begin // The next hit positions can be: // - on the check box // - on the state image // - on the normal image // - to the left of the text area // - on the label or // - to the right of the text area // (in this order). // In report mode no hit other than in the main column is possible. if MainColumnHit or not (toReportMode in FOptions.FMiscOptions) then begin ImageOffset := Right - FMargin; // Check support is only available for the main column. if MainColumnHit and (toCheckSupport in FOptions.FMiscOptions) and Assigned(FCheckImages) and (HitInfo.HitNode.CheckType <> ctNone) then Dec(ImageOffset, FCheckImages.Height + 2); if MainColumnHit and (Offset > ImageOffset) then begin HitInfo.HitPositions := [hiOnItem]; if (HitInfo.HitNode.CheckType <> ctNone) then Include(HitInfo.HitPositions, hiOnItemCheckBox); end else begin if Assigned(FStateImages) and HasImage(HitInfo.HitNode, ikState, HitInfo.HitColumn) then Dec(ImageOffset, FStateImages.Width + 2); if Offset > ImageOffset then Include(HitInfo.HitPositions, hiOnStateIcon) else begin if Assigned(FImages) and HasImage(HitInfo.HitNode, ikNormal, HitInfo.HitColumn) then Dec(ImageOffset, FImages.Width + 2); if Offset > ImageOffset then Include(HitInfo.HitPositions, hiOnNormalIcon) else begin // ImageOffset contains now the right border of the node label area. This is used to calculate the // correct alignment in the column. TextWidth := DoGetNodeWidth(HitInfo.HitNode, HitInfo.HitColumn); // Check if the text can be aligned at all. This is only possible if there is enough room // in the remaining text rectangle. if TextWidth > ImageOffset then Include(HitInfo.HitPositions, hiOnItemLabel) else begin // Consider bidi mode here. In RTL context does left alignment actually mean right alignment // and vice versa. ChangeBiDiModeAlignment(Alignment); case Alignment of taCenter: begin Indent := (ImageOffset - TextWidth) div 2; if Offset < Indent then Include(HitInfo.HitPositions, hiOnItemLeft) else if Offset < Indent + TextWidth then Include(HitInfo.HitPositions, hiOnItemLabel) else Include(HitInfo.HitPositions, hiOnItemRight) end; taRightJustify: begin Indent := ImageOffset - TextWidth; if Offset < Indent then Include(HitInfo.HitPositions, hiOnItemLeft) else Include(HitInfo.HitPositions, hiOnItemLabel); end; else // taLeftJustify if Offset > TextWidth then Include(HitInfo.HitPositions, hiOnItemRight) else Include(HitInfo.HitPositions, hiOnItemLabel); end; end; end; end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DetermineNextCheckState(CheckType: TCheckType; CheckState: TCheckState): TCheckState; // Determines the next check state in case the user click the check image or pressed the space key. begin case CheckType of ctTriStateCheckBox, ctCheckBox: if CheckState = csCheckedNormal then Result := csUncheckedNormal else Result := csCheckedNormal; ctRadioButton: Result := csCheckedNormal; ctButton: Result := csUncheckedNormal; else Result := csMixedNormal; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DetermineScrollDirections(X, Y: Integer): TScrollDirections; // Determines which direction the client area must be scrolled depending on the given position. begin Result:= []; if CanAutoScroll then begin // Calculation for wheel panning/scrolling is a bit different to normal auto scroll. if [tsWheelPanning, tsWheelScrolling] * FStates <> [] then begin if (X - FLastClickPos.X) < -8 then Include(Result, sdLeft); if (X - FLastClickPos.X) > 8 then Include(Result, sdRight); if (Y - FLastClickPos.Y) < -8 then Include(Result, sdUp); if (Y - FLastClickPos.Y) > 8 then Include(Result, sdDown); end else begin if (X < Integer(FDefaultNodeHeight)) and (FEffectiveOffsetX <> 0) then Include(Result, sdLeft); if (ClientWidth + FEffectiveOffsetX < Integer(FRangeX)) and (X > ClientWidth - Integer(FDefaultNodeHeight)) then Include(Result, sdRight); if (Y < Integer(FDefaultNodeHeight)) and (FOffsetY <> 0) then Include(Result, sdUp); if (ClientHeight - FOffsetY < Integer(FRangeY)) and (Y > ClientHeight - Integer(FDefaultNodeHeight)) then Include(Result, sdDown); //todo: probably the code below is bug due to poor timeGetTime implementation // Since scrolling during dragging is not handled via the timer we do a check here whether the auto // scroll timeout already has elapsed or not. if (Result <> []) and ((Assigned(FDragManager) and VTVDragManager.IsDropTarget) or (FindDragTarget(Point(X, Y), False) = Self)) then begin if FDragScrollStart = 0 then FDragScrollStart := timeGetTime; // Reset any scroll direction to avoid scroll in the case the user is dragging and the auto scroll time has not // yet elapsed. if ((timeGetTime - FDragScrollStart) < FAutoScrollDelay) then Result := []; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoAdvancedHeaderDraw(var PaintInfo: THeaderPaintInfo; const Elements: THeaderPaintElements); begin if Assigned(FOnAdvancedHeaderDraw) then FOnAdvancedHeaderDraw(FHeader, PaintInfo, Elements); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoAfterCellPaint(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; CellRect: TRect); begin if Assigned(FOnAfterCellPaint) then FOnAfterCellPaint(Self, Canvas, Node, Column, CellRect); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoAfterItemErase(Canvas: TCanvas; Node: PVirtualNode; ItemRect: TRect); begin if Assigned(FOnAfterItemErase) then FOnAfterItemErase(Self, Canvas, Node, ItemRect); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoAfterItemPaint(Canvas: TCanvas; Node: PVirtualNode; ItemRect: TRect); begin if Assigned(FOnAfterItemPaint) then FOnAfterItemPaint(Self, Canvas, Node, ItemRect); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoAfterPaint(Canvas: TCanvas); begin if Assigned(FOnAfterPaint) then FOnAfterPaint(Self, Canvas); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoAutoScroll(X, Y: Integer); begin FScrollDirections := DetermineScrollDirections(X, Y); if FStates * [tsWheelPanning, tsWheelScrolling] = [] then begin if FScrollDirections = [] then begin if ((FStates * [tsScrollPending, tsScrolling]) <> []) then begin KillTimer(Handle, ScrollTimer); DoStateChange([], [tsScrollPending, tsScrolling]); end; end else begin // start auto scroll if not yet done if (FStates * [tsScrollPending, tsScrolling]) = [] then begin DoStateChange([tsScrollPending]); SetTimer(Handle, ScrollTimer, FAutoScrollDelay, nil); end; end; end; end; procedure TBaseVirtualTree.DoAutoSize; begin //The default DoAutoSize makes the editors be placed wrongly when scrolling end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoBeforeDrag(Node: PVirtualNode; Column: TColumnIndex): Boolean; begin Result := False; if Assigned(FOnDragAllowed) then FOnDragAllowed(Self, Node, Column, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoBeforeCellPaint(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; CellRect: TRect); begin if Assigned(FOnBeforeCellPaint) then FOnBeforeCellPaint(Self, Canvas, Node, Column, CellRect); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoBeforeItemErase(Canvas: TCanvas; Node: PVirtualNode; ItemRect: TRect; var Color: TColor; var EraseAction: TItemEraseAction); begin if Assigned(FOnBeforeItemErase) then FOnBeforeItemErase(Self, Canvas, Node, ItemRect, Color, EraseAction); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoBeforeItemPaint(Canvas: TCanvas; Node: PVirtualNode; ItemRect: TRect): Boolean; begin // By default custom draw will not be used, so the tree handles drawing the node. Result := False; if Assigned(FOnBeforeItemPaint) then FOnBeforeItemPaint(Self, Canvas, Node, ItemRect, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoBeforePaint(Canvas: TCanvas); begin if Assigned(FOnBeforePaint) then FOnBeforePaint(Self, Canvas); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoCancelEdit: Boolean; // Called when the current edit action or a pending edit must be cancelled. begin KillTimer(Handle, EditTimer); DoStateChange([], [tsEditPending]); Result := (tsEditing in FStates) and FEditLink.CancelEdit; if Result then begin DoStateChange([], [tsEditing]); if Assigned(FOnEditCancelled) then FOnEditCancelled(Self, FEditColumn); if not (csDestroying in ComponentState) then FEditLink := nil; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoCanEdit(Node: PVirtualNode; Column: TColumnIndex; var Allowed: Boolean); begin if Assigned(FOnEditing) then FOnEditing(Self, Node, Column, Allowed); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoChange(Node: PVirtualNode); begin KillTimer(Handle, ChangeTimer); if Assigned(FOnChange) then FOnChange(Self, Node); // This is a good place to reset the cached node. This is the same as the node passed in here. // This is necessary to allow descendants to override this method and get the node then. DoStateChange([], [tsChangePending]); FLastChangedNode := nil; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoCheckClick(Node: PVirtualNode; NewCheckState: TCheckState); begin if ChangeCheckState(Node, NewCheckState) then DoChecked(Node); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoChecked(Node: PVirtualNode); begin if Assigned(FOnChecked) then FOnChecked(Self, Node); {$ifdef EnableAccessible} NotifyWinEvent(EVENT_OBJECT_STATECHANGE, Handle, OBJID_CLIENT, CHILDID_SELF); {$endif} end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoChecking(Node: PVirtualNode; var NewCheckState: TCheckState): Boolean; // Determines if a node is allowed to change its check state to NewCheckState. begin if toReadOnly in FOptions.FMiscOptions then Result := False else begin Result := True; if Assigned(FOnChecking) then FOnChecking(Self, Node, NewCheckState, Result); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoCollapsed(Node: PVirtualNode); begin if Assigned(FOnCollapsed) then FOnCollapsed(Self, Node); {$ifdef EnableAccessible} NotifyWinEvent(EVENT_OBJECT_STATECHANGE, Handle, OBJID_CLIENT, CHILDID_SELF); {$endif} end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoCollapsing(Node: PVirtualNode): Boolean; begin Result := True; if Assigned(FOnCollapsing) then FOnCollapsing(Self, Node, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoColumnClick(Column: TColumnIndex; Shift: TShiftState); begin if Assigned(FOnColumnClick) then FOnColumnClick(Self, Column, Shift); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoColumnDblClick(Column: TColumnIndex; Shift: TShiftState); begin if Assigned(FOnColumnDblClick) then FOnColumnDblClick(Self, Column, Shift); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoColumnResize(Column: TColumnIndex); var R: TRect; Run: PVirtualNode; begin if not (csLoading in ComponentState) and HandleAllocated then begin // Reset all vsHeightMeasured flags if we are in multiline mode. Run := GetFirstInitialized; while Assigned(Run) do begin if vsMultiline in Run.States then Exclude(Run.States, vsHeightMeasured); Run := GetNextInitialized(Run); end; UpdateHorizontalScrollBar(True); if Column > NoColumn then begin // Invalidate client area from the current column all to the right (or left in RTL mode). R := ClientRect; //lclheader if hoVisible in FHeader.FOptions then Inc(R.Bottom,FHeader.Height); if not (toAutoSpanColumns in FOptions.FAutoOptions) then if UseRightToLeftAlignment then R.Right := FHeader.Columns[Column].Left + FHeader.Columns[Column].Width + ComputeRTLOffset else R.Left := FHeader.Columns[Column].Left; InvalidateRect(Handle, @R, False); FHeader.Invalidate(FHeader.Columns[Column], True); end; if hsTracking in FHeader.States then UpdateWindow(Handle); if not (tsUpdating in FStates) then UpdateDesigner; // design time only if Assigned(FOnColumnResize) then FOnColumnResize(FHeader, Column); // If the tree is currently in edit state then notify edit link. if tsEditing in FStates then UpdateEditBounds; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoCompare(Node1, Node2: PVirtualNode; Column: TColumnIndex): Integer; begin Result := 0; if Assigned(FOnCompareNodes) then FOnCompareNodes(Self, Node1, Node2, Column, Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoCreateDataObject: IDataObject; begin Result := nil; if Assigned(FOnCreateDataObject) then FOnCreateDataObject(Self, Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoCreateDragManager: IVTDragManager; begin Result := nil; if Assigned(FOnCreateDragManager) then FOnCreateDragManager(Self, Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoCreateEditor(Node: PVirtualNode; Column: TColumnIndex): IVTEditLink; begin Result := nil; if Assigned(FOnCreateEditor) then begin FOnCreateEditor(Self, Node, Column, Result); if Result = nil then ShowError(SEditLinkIsNil, hcTFEditLinkIsNil); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoDragging(P: TPoint); // Initiates finally the drag'n drop operation and returns after DD is finished. //--------------- local function -------------------------------------------- function GetDragOperations: Integer; begin if FDragOperations = [] then Result := DROPEFFECT_COPY or DROPEFFECT_MOVE or DROPEFFECT_LINK else begin Result := 0; if doCopy in FDragOperations then Result := Result or DROPEFFECT_COPY; if doLink in FDragOperations then Result := Result or DROPEFFECT_LINK; if doMove in FDragOperations then Result := Result or DROPEFFECT_MOVE; end; end; //--------------- end local function ---------------------------------------- var DragEffect: LongWord; I, AllowedEffects: Integer; DragObject: TDragObject; DataObject: IDataObject; begin Logger.EnterMethod([lcDrag],'DoDragging'); Logger.SendCallStack([lcDrag],'Stack'); DataObject := nil; // Dragging is dragging, nothing else. DoCancelEdit; if Assigned(FCurrentHotNode) then begin InvalidateNode(FCurrentHotNode); FCurrentHotNode := nil; end; // Select the focused node if not already done. if Assigned(FFocusedNode) and not (vsSelected in FFocusedNode.States) then begin InternalAddToSelection(FFocusedNode, False); InvalidateNode(FFocusedNode); end; UpdateWindow(Handle); // Keep a list of all currently selected nodes as this list might change, // but we have probably to delete currently selected nodes. FDragSelection := GetSortedSelection(True); try DoStateChange([tsOLEDragging], [tsOLEDragPending, tsClearPending]); // An application might create a drag object like used during VCL dd. This is not required for OLE dd but // required as parameter. DragObject := nil; DoStartDrag(DragObject); DragObject.Free; DataObject := VTVDragManager.DataObject; PrepareDragImage(P, DataObject); FLastDropMode := dmOnNode; // Don't forget to initialize the result. It might never be touched. DragEffect := DROPEFFECT_NONE; AllowedEffects := GetDragOperations; try DragAndDrop(AllowedEffects, DataObject, DragEffect); VTVDragManager.ForceDragLeave; finally GetCursorPos(P); P := ScreenToClient(P); DoEndDrag(Self, P.X, P.Y); FDragImage.EndDrag; // Finish the operation. if (DragEffect = DROPEFFECT_MOVE) and (toAutoDeleteMovedNodes in TreeOptions.AutoOptions) then begin // The operation was a move so delete the previously selected nodes. BeginUpdate; try // The list of selected nodes was retrieved in resolved state. That means there can never be a node // in the list whose parent (or its parent etc.) is also selected. for I := 0 to High(FDragSelection) do DeleteNode(FDragSelection[I]); finally EndUpdate; end; end; DoStateChange([], [tsOLEDragging]); end; finally FDragSelection := nil; end; Logger.ExitMethod([lcDrag],'DoDragging'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoDragExpand; var SourceTree: TBaseVirtualTree; begin KillTimer(Handle, ExpandTimer); if Assigned(FDropTargetNode) and (vsHasChildren in FDropTargetNode.States) and not (vsExpanded in FDropTargetNode.States) then begin if Assigned(FDragManager) then SourceTree := TBaseVirtualTree(VTVDragManager.DragSource) else SourceTree := nil; if not VTVDragManager.DropTargetHelperSupported and Assigned(SourceTree) then SourceTree.FDragImage.HideDragImage; ToggleNode(FDropTargetNode); UpdateWindow(Handle); if not VTVDragManager.DropTargetHelperSupported and Assigned(SourceTree) then SourceTree.FDragImage.ShowDragImage; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoDragOver(Source: TObject; Shift: TShiftState; State: TDragState; Pt: TPoint; Mode: TDropMode; var Effect: LongWord): Boolean; begin Result := False; if Assigned(FOnDragOver) then FOnDragOver(Self, Source, Shift, State, Pt, Mode, Effect, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoDragDrop(Source: TObject; DataObject: IDataObject; Formats: TFormatArray; Shift: TShiftState; Pt: TPoint; var Effect: LongWord; Mode: TDropMode); begin if Assigned(FOnDragDrop) then FOnDragDrop(Self, Source, DataObject, Formats, Shift, Pt, Effect, Mode); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoEdit; begin Application.CancelHint; KillTimer(Handle, ScrollTimer); KillTimer(Handle, EditTimer); DoStateChange([], [tsEditPending]); if Assigned(FFocusedNode) and not (vsDisabled in FFocusedNode.States) and not (toReadOnly in FOptions.FMiscOptions) and (FEditLink = nil) then begin FEditLink := DoCreateEditor(FFocusedNode, FEditColumn); if Assigned(FEditLink) then begin DoStateChange([tsEditing], [tsDrawSelecting, tsDrawSelPending, tsToggleFocusedSelection, tsOLEDragPending, tsOLEDragging, tsClearPending, tsScrollPending, tsScrolling, tsMouseCheckPending]); ScrollIntoView(FFocusedNode, toCenterScrollIntoView in FOptions.SelectionOptions, not (toDisableAutoscrollOnEdit in FOptions.AutoOptions)); if FEditLink.PrepareEdit(Self, FFocusedNode, FEditColumn) then begin UpdateEditBounds; // Node needs repaint because the selection rectangle and static text must disappear. InvalidateNode(FFocusedNode); if not FEditLink.BeginEdit then DoStateChange([], [tsEditing]); end else DoStateChange([], [tsEditing]); if not (tsEditing in FStates) then FEditLink := nil; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoEndDrag(Target: TObject; X, Y: Integer); // Does some housekeeping for VCL drag'n drop; begin inherited; DragFinished; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoEndEdit: Boolean; begin KillTimer(Handle, EditTimer); Result := (tsEditing in FStates) and FEditLink.EndEdit; if Result then begin DoStateChange([], [tsEditing]); FEditLink := nil; if Assigned(FOnEdited) then FOnEdited(Self, FFocusedNode, FEditColumn); end; DoStateChange([], [tsEditPending]); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoExpanded(Node: PVirtualNode); begin if Assigned(FOnExpanded) then FOnExpanded(Self, Node); {$ifdef EnableAccessible} NotifyWinEvent(EVENT_OBJECT_STATECHANGE, Handle, OBJID_CLIENT, CHILDID_SELF); {$endif} end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoExpanding(Node: PVirtualNode): Boolean; begin Result := True; if Assigned(FOnExpanding) then FOnExpanding(Self, Node, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoFocusChange(Node: PVirtualNode; Column: TColumnIndex); begin if Assigned(FOnFocusChanged) then FOnFocusChanged(Self, Node, Column); {$ifdef EnableAccessible} NotifyWinEvent(EVENT_OBJECT_LOCATIONCHANGE, Handle, OBJID_CLIENT, CHILDID_SELF); NotifyWinEvent(EVENT_OBJECT_NAMECHANGE, Handle, OBJID_CLIENT, CHILDID_SELF); NotifyWinEvent(EVENT_OBJECT_VALUECHANGE, Handle, OBJID_CLIENT, CHILDID_SELF); NotifyWinEvent(EVENT_OBJECT_STATECHANGE, Handle, OBJID_CLIENT, CHILDID_SELF); NotifyWinEvent(EVENT_OBJECT_SELECTION, Handle, OBJID_CLIENT, CHILDID_SELF); NotifyWinEvent(EVENT_OBJECT_FOCUS, Handle, OBJID_CLIENT, CHILDID_SELF); {$endif} end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoFocusChanging(OldNode, NewNode: PVirtualNode; OldColumn, NewColumn: TColumnIndex): Boolean; begin Result := True; if Assigned(FOnFocusChanging) then FOnFocusChanging(Self, OldNode, NewNode, OldColumn, NewColumn, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoFocusNode(Node: PVirtualNode; Ask: Boolean); begin if not (tsEditing in FStates) or EndEditNode then begin if Node = FRoot then Node := nil; if (FFocusedNode <> Node) and (not Ask or DoFocusChanging(FFocusedNode, Node, FFocusedColumn, FFocusedColumn)) then begin if Assigned(FFocusedNode) then begin // Do automatic collapsing of last focused node if enabled. This is however only done if // old and new focused node have a common parent node. if (toAutoExpand in FOptions.FAutoOptions) and Assigned(Node) and (Node.Parent = FFocusedNode.Parent) and (vsExpanded in FFocusedNode.States) then ToggleNode(FFocusedNode) else InvalidateNode(FFocusedNode); end; FFocusedNode := Node; end; // Have to scroll the node into view, even it is the same node as before. if Assigned(FFocusedNode) then begin // Make sure a valid column is set if columns are used and no column has currently the focus. if FHeader.UseColumns and ((FFocusedColumn < 0) or (FFocusedColumn >= FHeader.FColumns.Count)) then FFocusedColumn := 0; // Do automatic expansion of the newly focused node if enabled. if (toAutoExpand in FOptions.FAutoOptions) and not (vsExpanded in FFocusedNode.States) then ToggleNode(FFocusedNode); InvalidateNode(FFocusedNode); if FUpdateCount = 0 then ScrollIntoView(FFocusedNode, (toCenterScrollIntoView in FOptions.SelectionOptions) and (MouseButtonDown * FStates = []), not (toDisableAutoscrollOnFocus in FOptions.FAutoOptions)); end; // Reset range anchor if necessary. if FSelectionCount = 0 then ResetRangeAnchor; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoFreeNode(Node: PVirtualNode); begin if Node = FLastChangedNode then FLastChangedNode := nil; if Node = FCurrentHotNode then FCurrentHotNode := nil; if Assigned(FOnFreeNode) and ([vsInitialized, vsInitialUserData] * Node.States <> []) then FOnFreeNode(Self, Node); {$ifdef UseLocalMemoryManager} FNodeMemoryManager.FreeNode(Node); {$else} FreeMem(Node); {$endif UseLocalMemoryManager} end; //---------------------------------------------------------------------------------------------------------------------- // These constants are defined in the platform SDK for W2K/XP, but not yet in Delphi. const SPI_GETTOOLTIPANIMATION = $1016; SPI_GETTOOLTIPFADE = $1018; function TBaseVirtualTree.DoGetAnimationType: THintAnimationType; // Determines (depending on the properties settings and the system) which hint // animation type is to be used. var Animation: BOOL; begin Result := FAnimationType; if Result = hatSystemDefault then begin if not IsWinNT then Result := hatSlide else begin SystemParametersInfo(SPI_GETTOOLTIPANIMATION, 0, @Animation, 0); if not Animation then Result := hatNone else begin SystemParametersInfo(SPI_GETTOOLTIPFADE, 0, @Animation, 0); if Animation then Result := hatFade else Result := hatSlide; end; end; end; // Check availability of MMX if fading is requested. if not MMXAvailable and (Result = hatFade) then Result := hatSlide; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoGetCursor(var Cursor: TCursor); begin if Assigned(FOnGetCursor) then FOnGetCursor(Self, Cursor); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoGetHeaderCursor(var Cursor: HCURSOR); begin if Assigned(FOnGetHeaderCursor) then FOnGetHeaderCursor(FHeader, Cursor); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoGetImageIndex(Node: PVirtualNode; Kind: TVTImageKind; Column: TColumnIndex; var Ghosted: Boolean; var Index: Integer): TCustomImageList; // Queries the application/descendant about certain image properties for a node. // Returns a custom image list if given by the callee, otherwise nil. begin Result := nil; // First try the enhanced event to allow for custom image lists. if Assigned(FOnGetImageEx) then FOnGetImageEx(Self, Node, Kind, Column, Ghosted, Index, Result) else if Assigned(FOnGetImage) then FOnGetImage(Self, Node, Kind, Column, Ghosted, Index); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoGetLineStyle(var Bits: Pointer); begin if Assigned(FOnGetLineStyle) then FOnGetLineStyle(Self, Bits); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoGetNodeHint(Node: PVirtualNode; Column: TColumnIndex; var LineBreakStyle: TVTTooltipLineBreakStyle): WideString; begin Result := Hint; LineBreakStyle := hlbDefault; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoGetNodeTooltip(Node: PVirtualNode; Column: TColumnIndex; var LineBreakStyle: TVTTooltipLineBreakStyle): WideString; begin Result := Hint; LineBreakStyle := hlbDefault; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoGetNodeWidth(Node: PVirtualNode; Column: TColumnIndex; Canvas: TCanvas = nil): Integer; begin Result := 0; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoGetPopupMenu(Node: PVirtualNode; Column: TColumnIndex; Position: TPoint): TPopupMenu; // Queries the application whether there is a node specific popup menu. var Run: PVirtualNode; AskParent: Boolean; begin Result := nil; if Assigned(FOnGetPopupMenu) then begin Run := Node; if Assigned(Run) then begin AskParent := True; repeat FOnGetPopupMenu(Self, Run, Column, Position, AskParent, Result); Run := Run.Parent; until (Run = FRoot) or Assigned(Result) or not AskParent; end else FOnGetPopupMenu(Self, nil, -1, Position, AskParent, Result); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoGetUserClipboardFormats(var Formats: TFormatEtcArray); begin if Assigned(FOnGetUserClipboardFormats) then FOnGetUserClipboardFormats(Self, Formats); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHeaderClick(Column: TColumnIndex; Button: TMouseButton; Shift: TShiftState; X, Y: Integer); begin if Assigned(FOnHeaderClick) then FOnHeaderClick(FHeader, Column, Button, Shift, X, Y); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHeaderDblClick(Column: TColumnIndex; Button: TMouseButton; Shift: TShiftState; X, Y: Integer); begin if Assigned(FOnHeaderDblClick) then FOnHeaderDblClick(FHeader, Column, Button, Shift, X, Y); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHeaderDragged(Column: TColumnIndex; OldPosition: TColumnPosition); begin if Assigned(FOnHeaderDragged) then FOnHeaderDragged(FHeader, Column, OldPosition); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHeaderDraggedOut(Column: TColumnIndex; DropPosition: TPoint); begin if Assigned(FOnHeaderDraggedOut) then FOnHeaderDraggedOut(FHeader, Column, DropPosition); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoHeaderDragging(Column: TColumnIndex): Boolean; begin Result := True; if Assigned(FOnHeaderDragging) then FOnHeaderDragging(FHeader, Column, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHeaderDraw(Canvas: TCanvas; Column: TVirtualTreeColumn; R: TRect; Hover, Pressed: Boolean; DropMark: TVTDropMarkMode); begin if Assigned(FOnHeaderDraw) then FOnHeaderDraw(FHeader, Canvas, Column, R, Hover, Pressed, DropMark); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHeaderDrawQueryElements(var PaintInfo: THeaderPaintInfo; var Elements: THeaderPaintElements); begin if Assigned(FOnHeaderDrawQueryElements) then FOnHeaderDrawQueryElements(FHeader, PaintInfo, Elements); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHeaderMouseDown(Button: TMouseButton; Shift: TShiftState; X, Y: Integer); begin if Assigned(FOnHeaderMouseDown) then FOnHeaderMouseDown(FHeader, Button, Shift, X, Y); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHeaderMouseMove(Shift: TShiftState; X, Y: Integer); begin if Assigned(FOnHeaderMouseMove) then FOnHeaderMouseMove(FHeader, Shift, X, Y); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHeaderMouseUp(Button: TMouseButton; Shift: TShiftState; X, Y: Integer); begin if Assigned(FOnHeaderMouseUp) then FOnHeaderMouseUp(FHeader, Button, Shift, X, Y); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoHotChange(Old, New: PVirtualNode); begin if Assigned(FOnHotChange) then FOnHotChange(Self, Old, New); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoIncrementalSearch(Node: PVirtualNode; const Text: WideString): Integer; begin Result := 0; if Assigned(FOnIncrementalSearch) then FOnIncrementalSearch(Self, Node, Text, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoInitChildren(Node: PVirtualNode; var ChildCount: Cardinal); begin if Assigned(FOnInitChildren) then FOnInitChildren(Self, Node, ChildCount); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoInitNode(Parent, Node: PVirtualNode; var InitStates: TVirtualNodeInitStates); begin if Assigned(FOnInitNode) then FOnInitNode(Self, Parent, Node, InitStates); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoKeyAction(var CharCode: Word; var Shift: TShiftState): Boolean; begin Result := True; if Assigned(FOnKeyAction) then FOnKeyAction(Self, CharCode, Shift, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoLoadUserData(Node: PVirtualNode; Stream: TStream); begin if Assigned(FOnLoadNode) then if Node = FRoot then FOnLoadNode(Self, nil, Stream) else FOnLoadNode(Self, Node, Stream); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoMeasureItem(TargetCanvas: TCanvas; Node: PVirtualNode; var NodeHeight: Integer); begin if Assigned(FOnMeasureItem) then FOnMeasureItem(Self, TargetCanvas, Node, NodeHeight); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoNodeCopied(Node: PVirtualNode); begin if Assigned(FOnNodeCopied) then FOnNodeCopied(Self, Node); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoNodeCopying(Node, NewParent: PVirtualNode): Boolean; begin Result := True; if Assigned(FOnNodeCopying) then FOnNodeCopying(Self, Node, NewParent, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoNodeMoved(Node: PVirtualNode); begin if Assigned(FOnNodeMoved) then FOnNodeMoved(Self, Node); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoNodeMoving(Node, NewParent: PVirtualNode): Boolean; begin Result := True; if Assigned(FOnNodeMoving) then FOnNodeMoving(Self, Node, NewParent, Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoPaintBackground(Canvas: TCanvas; R: TRect): Boolean; begin Result := False; if Assigned(FOnPaintBackground) then FOnPaintBackground(Self, Canvas, R, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoPaintDropMark(Canvas: TCanvas; Node: PVirtualNode; R: TRect); // draws the drop mark into the given rectangle // Note: Changed properties of the given canvas should be reset to their previous values. var SaveBrushColor: TColor; SavePenStyle: TPenStyle; begin Logger.EnterMethod([lcDrag],'DoPaintDropMark'); if FLastDropMode in [dmAbove, dmBelow] then with Canvas do begin Logger.Send([lcDrag],'DropMode in [dmAbove,dmBelow]'); SavePenStyle := Pen.Style; Pen.Style := psClear; SaveBrushColor := Brush.Color; Brush.Color := FColors.DropMarkColor; Logger.SendColor([lcDrag],'Brush.Color',Brush.Color); Logger.Send([lcDrag],'R',R); if FLastDropMode = dmAbove then begin Polygon([Point(R.Left + 2, R.Top), Point(R.Right - 2, R.Top), Point(R.Right - 2, R.Top + 6), Point(R.Right - 6, R.Top + 2), Point(R.Left + 6 , R.Top + 2), Point(R.Left + 2, R.Top + 6) ]); end else Polygon([Point(R.Left + 2, R.Bottom - 1), Point(R.Right - 2, R.Bottom - 1), Point(R.Right - 2, R.Bottom - 8), Point(R.Right - 7, R.Bottom - 3), Point(R.Left + 7 , R.Bottom - 3), Point(R.Left + 2, R.Bottom - 8) ]); Brush.Color := SaveBrushColor; Pen.Style := SavePenStyle; end; Logger.ExitMethod([lcDrag],'DoPaintDropMark'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoPaintNode(var PaintInfo: TVTPaintInfo); begin end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoPopupMenu(Node: PVirtualNode; Column: TColumnIndex; Position: TPoint); // Support for node dependent popup menus. var Menu: TPopupMenu; begin Menu := DoGetPopupMenu(Node, Column, Position); if Assigned(Menu) then begin DoStateChange([tsPopupMenuShown]); KillTimer(Handle, EditTimer); Menu.PopupComponent := Self; with ClientToScreen(Position) do Menu.Popup(X, Y); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoRenderOLEData(const FormatEtcIn: TFormatEtc; out Medium: TStgMedium; ForClipboard: Boolean): HRESULT; begin Result := E_FAIL; if Assigned(FOnRenderOLEData) then FOnRenderOLEData(Self, FormatEtcIn, Medium, ForClipboard, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoReset(Node: PVirtualNode); begin if Assigned(FOnResetNode) then FOnResetNode(Self, Node); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoSaveUserData(Node: PVirtualNode; Stream: TStream); begin if Assigned(FOnSaveNode) then if Node = FRoot then FOnSaveNode(Self, nil, Stream) else FOnSaveNode(Self, Node, Stream); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoScroll(DeltaX, DeltaY: Integer); begin if Assigned(FOnScroll) then FOnScroll(Self, DeltaX, DeltaY); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoSetOffsetXY(Value: TPoint; Options: TScrollUpdateOptions; ClipRect: PRect = nil): Boolean; // Actual offset setter used to scroll the client area, update scroll bars and invalidating the header (all optional). // Returns True if the offset really changed otherwise False is returned. var DeltaX: Integer; DeltaY: Integer; DWPStructure: THandle;//HDWP; I: Integer; P: TPoint; R: TRect; begin Logger.EnterMethod([lcScroll],'DoSetOffsetXY'); Logger.Send([lcScroll],'Value',Value); //Logger.SendCallStack([lcScroll],'CallStack'); // Range check, order is important here. if Value.X < (ClientWidth - Integer(FRangeX)) then Value.X := ClientWidth - Integer(FRangeX); if Value.X > 0 then Value.X := 0; DeltaX := Value.X - FOffsetX; if UseRightToLeftAlignment then DeltaX := -DeltaX; if Value.Y < (ClientHeight - Integer(FRangeY)) then Value.Y := ClientHeight - Integer(FRangeY); if Value.Y > 0 then Value.Y := 0; DeltaY := Value.Y - FOffsetY; Logger.Send([lcScroll],'FOffsetX: %d FOffsetY: %d',[FOffsetX,FOffsetY]); Logger.Send([lcScroll],'DeltaX: %d DeltaY: %d',[DeltaX,DeltaY]); Result := (DeltaX <> 0) or (DeltaY <> 0); if Result then begin FOffsetX := Value.X; FOffsetY := Value.Y; Application.CancelHint; if FUpdateCount = 0 then begin // The drag image from VCL controls need special consideration. if tsVCLDragging in FStates then ImageList_DragShowNolock(False); if suoScrollClientArea in Options then begin // Have to invalidate the entire window if there's a background. if (toShowBackground in FOptions.FPaintOptions) and (FBackground.Graphic is TBitmap) then begin // Since we don't use ScrollWindow here we have to move all client windows ourselves. DWPStructure := BeginDeferWindowPos(ControlCount); for I := 0 to ControlCount - 1 do if Controls[I] is TWinControl then begin with Controls[I] as TWinControl do DWPStructure := DeferWindowPos(DWPStructure, Handle, 0, Left + DeltaX, Top + DeltaY, 0, 0, SWP_NOZORDER or SWP_NOACTIVATE or SWP_NOSIZE); if DWPStructure = 0 then Break; end; if DWPStructure <> 0 then EndDeferWindowPos(DWPStructure); InvalidateRect(Handle, nil, False); end else begin if (DeltaX <> 0) and (Header.Columns.GetVisibleFixedWidth > 0) then begin // When fixed columns exists we have to scroll separately horizontally and vertically. // Horizontally is scroll only the client area not occupied by fixed columns and // vertically entire client area (or clipping area if one exists). R := ClientRect; R.Left := Header.Columns.GetVisibleFixedWidth; //lclheader if hoVisible in FHeader.FOptions then begin Inc(R.Top,FHeader.Height); Inc(R.Bottom,FHeader.Height); end; DelphiCompat.ScrollWindow(Handle, DeltaX, 0, @R, @R); if DeltaY <> 0 then DelphiCompat.ScrollWindow(Handle, 0, DeltaY, @R, @R); end else begin //lclheader if ClipRect <> nil then begin Logger.SendWarning([lcWarning],'DoSetOffsetXY called with a non nil ClipRect'); R:=ClipRect^; end else R:=ClientRect; if hoVisible in FHeader.FOptions then begin Inc(R.Top,FHeader.Height); Inc(R.Bottom,FHeader.Height); end; Logger.Send([lcScroll],'Rect to Scroll',R); ScrollWindowEx(Handle, DeltaX, DeltaY, @R, @R,0, nil, SW_INVALIDATE or SW_SCROLLCHILDREN); //todo: temporary hack to avoid some drawing problems. Will be removed when the header is properly implemented InvalidateRect(Handle, nil, True); end; end; end; if suoUpdateNCArea in Options then begin if DeltaX <> 0 then begin if (suoRepaintHeader in Options) and (hoVisible in FHeader.FOptions) then FHeader.Invalidate(nil); if not (tsSizing in FStates) and (FScrollBarOptions.ScrollBars in [ssHorizontal, ssBoth]) then UpdateHorizontalScrollBar(suoRepaintScrollbars in Options); end; if (DeltaY <> 0) and ([tsThumbTracking, tsSizing] * FStates = []) then begin UpdateVerticalScrollBar(suoRepaintScrollbars in Options); if not (FHeader.UseColumns or IsMouseSelecting) and (FScrollBarOptions.ScrollBars in [ssHorizontal, ssBoth]) then UpdateHorizontalScrollBar(suoRepaintScrollbars in Options); end; end; if tsVCLDragging in FStates then ImageList_DragShowNolock(True); end; // Finally update "hot" node if hot tracking is activated GetCursorPos(P); P := ScreenToClient(P); if PtInRect(ClientRect, P) then HandleHotTrack(P.X, P.Y); DoScroll(DeltaX, DeltaY); end; Logger.ExitMethod([lcScroll],'DoSetOffsetXY'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoShowScrollbar(Bar: Integer; Show: Boolean); begin {$ifdef UseFlatScrollbars} FlatSB_ShowScrollBar(Handle, Bar, Show); {$else} ShowScrollBar(Handle, Bar, Show); {$endif UseFlatScrollbars}; if Assigned(FOnShowScrollbar) then FOnShowScrollbar(Self, Bar, Show); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoStartDrag(var DragObject: TDragObject); begin Logger.EnterMethod([lcDrag],'DoStartDrag'); Logger.SendCallStack([lcDrag],'Stack'); inherited; // Check if the application created an own drag object. This is needed to pass the correct source in // OnDragOver and OnDragDrop. if Assigned(DragObject) then DoStateChange([tsUserDragObject]); Logger.ExitMethod([lcDrag],'DoStartDrag'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoStateChange(Enter: TVirtualTreeStates; Leave: TVirtualTreeStates = []); var ActualEnter, ActualLeave: TVirtualTreeStates; begin if Assigned(FOnStateChange) then begin ActualEnter := Enter - FStates; ActualLeave := FStates * Leave; if (ActualEnter + ActualLeave) <> [] then FOnStateChange(Self, Enter, Leave); end; FStates := FStates + Enter - Leave; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoStructureChange(Node: PVirtualNode; Reason: TChangeReason); begin if HandleAllocated then KillTimer(Handle, StructureChangeTimer); if Assigned(FOnStructureChange) then FOnStructureChange(Self, Node, Reason); // This is a good place to reset the cached node and reason. These are the same as the values passed in here. // This is necessary to allow descendants to override this method and get them. DoStateChange([], [tsStructureChangePending]); FLastStructureChangeNode := nil; FLastStructureChangeReason := crIgnore; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoTimerScroll; var P, ClientP: TPoint; InRect, Panning: Boolean; R, ClipRect: TRect; DeltaX, DeltaY: Integer; begin GetCursorPos(P); R := ClientRect; ClipRect := R; MapWindowPoints(Handle, 0, R, 2); InRect := PtInRect(R, P); ClientP := ScreenToClient(P); Panning := [tsWheelPanning, tsWheelScrolling] * FStates <> []; if IsMouseSelecting or InRect or Panning then begin DeltaX := 0; DeltaY := 0; if sdUp in FScrollDirections then begin if Panning then DeltaY := FLastClickPos.Y - ClientP.Y - 8 else if InRect then DeltaY := Min(FScrollBarOptions.FIncrementY, ClientHeight) else DeltaY := Min(FScrollBarOptions.FIncrementY, ClientHeight) * Abs(R.Top - P.Y); if FOffsetY = 0 then Exclude(FScrollDirections, sdUp); end; if sdDown in FScrollDirections then begin if Panning then DeltaY := FLastClickPos.Y - ClientP.Y + 8 else if InRect then DeltaY := -Min(FScrollBarOptions.FIncrementY, ClientHeight) else DeltaY := -Min(FScrollBarOptions.FIncrementY, ClientHeight) * Abs(P.Y - R.Bottom); if (ClientHeight - FOffsetY) = Integer(FRangeY) then Exclude(FScrollDirections, sdDown); end; if sdLeft in FScrollDirections then begin if Panning then DeltaX := FLastClickPos.X - ClientP.X - 8 else if InRect then DeltaX := FScrollBarOptions.FIncrementX else DeltaX := FScrollBarOptions.FIncrementX * Abs(R.Left - P.X); if FEffectiveOffsetX = 0 then Exclude(FScrollDirections, sdleft); end; if sdRight in FScrollDirections then begin if Panning then DeltaX := FLastClickPos.X - ClientP.X + 8 else if InRect then DeltaX := -FScrollBarOptions.FIncrementX else DeltaX := -FScrollBarOptions.FIncrementX * Abs(P.X - R.Right); if (ClientWidth + FEffectiveOffsetX) = Integer(FRangeX) then Exclude(FScrollDirections, sdRight); end; if UseRightToLeftAlignment then DeltaX := - DeltaX; if IsMouseSelecting then begin // In order to avoid scrolling the area which needs a repaint due to the changed selection rectangle // we limit the scroll area explicitely. OffsetRect(ClipRect, DeltaX, DeltaY); DoSetOffsetXY(Point(FOffsetX + DeltaX, FOffsetY + DeltaY), DefaultScrollUpdateFlags, @ClipRect); // When selecting with the mouse then either update only the parts of the window which have been uncovered // by the scroll operation if no change in the selection happend or invalidate and redraw the entire // client area otherwise (to avoid the time consuming task of determining the display rectangles of every // changed node). if CalculateSelectionRect(ClientP.X, ClientP.Y) and HandleDrawSelection(ClientP.X, ClientP.Y) then InvalidateRect(Handle, nil, False) else begin // The selection did not change so invalidate only the part of the window which really needs an update. // 1) Invalidate the parts uncovered by the scroll operation. Add another offset range, we have to // scroll only one stripe but have to update two. OffsetRect(ClipRect, DeltaX, DeltaY); SubtractRect(ClipRect, ClientRect, ClipRect); InvalidateRect(Handle, @ClipRect, False); // 2) Invalidate the selection rectangles. UnionRect(ClipRect, OrderRect(FNewSelRect), OrderRect(FLastSelRect)); OffsetRect(ClipRect, FOffsetX, FOffsetY); InvalidateRect(Handle, @ClipRect, False); end; end else begin // Scroll only if there is no drag'n drop in progress. Drag'n drop scrolling is handled in DragOver. if ((FDragManager = nil) or not VTVDragManager.IsDropTarget) and ((DeltaX <> 0) or (DeltaY <> 0)) then DoSetOffsetXY(Point(FOffsetX + DeltaX, FOffsetY + DeltaY), DefaultScrollUpdateFlags, nil); end; UpdateWindow(Handle); if (FScrollDirections = []) and ([tsWheelPanning, tsWheelScrolling] * FStates = []) then begin KillTimer(Handle, ScrollTimer); DoStateChange([], [tsScrollPending, tsScrolling]); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DoUpdating(State: TVTUpdateState); begin if Assigned(FOnUpdating) then FOnUpdating(Self, State); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DoValidateCache: Boolean; // This method fills the cache, which is used to speed up searching for nodes. // The strategy is simple: Take the current number of visible nodes and distribute evenly a number of marks // (which are stored in FPositionCache) so that iterating through the tree doesn't cost too much time. // If there are less than 'CacheThreshold' nodes in the tree then the cache remains empty. // Result is True if the cache was filled without interruption, otherwise False. // Note: You can adjust the maximum number of nodes between two cache entries by changing CacheThreshold. var EntryCount, CurrentTop, Index: Cardinal; CurrentNode, Temp: PVirtualNode; begin EntryCount := 0; if not (tsStopValidation in FStates) then begin if FStartIndex = 0 then FPositionCache := nil; if FVisibleCount > CacheThreshold then begin EntryCount := CalculateCacheEntryCount; SetLength(FPositionCache, EntryCount); if FStartIndex > EntryCount then FStartIndex := EntryCount; // Optimize validation by starting with FStartIndex if set. if (FStartIndex > 0) and Assigned(FPositionCache[FStartIndex - 1].Node) then begin // Index is the current entry in FPositionCache. Index := FStartIndex - 1; // Running term for absolute top value. CurrentTop := FPositionCache[Index].AbsoluteTop; // Running node pointer. CurrentNode := FPositionCache[Index].Node; end else begin // Index is the current entry in FPositionCache. Index := 0; // Running term for absolute top value. CurrentTop := 0; // Running node pointer. CurrentNode := GetFirstVisibleNoInit; end; // EntryCount serves as counter for processed nodes here. This value can always start at 0 as // the validation either starts also at index 0 or an index which is always a multiple of CacheThreshold // and EntryCount is only used with modulo CacheThreshold. EntryCount := 0; if Assigned(CurrentNode) then begin while not (tsStopValidation in FStates) do begin if (EntryCount mod CacheThreshold) = 0 then begin // New cache entry to set up. with FPositionCache[Index] do begin Node := CurrentNode; AbsoluteTop := CurrentTop; end; Inc(Index); end; Inc(CurrentTop, NodeHeight[CurrentNode]); // Advance to next visible node. Temp := GetNextVisibleNoInit(CurrentNode); // If there is no further node or the cache is full then stop the loop. if (Temp = nil) or (Integer(Index) = Length(FPositionCache)) then Break; CurrentNode := Temp; Inc(EntryCount); end; end; // Finalize the position cache so no nil entry remains there. if not (tsStopValidation in FStates) and (Integer(Index) <= High(FPositionCache)) then begin SetLength(FPositionCache, Index + 1); with FPositionCache[Index] do begin Node := CurrentNode; AbsoluteTop := CurrentTop; end; end; end; end; Result := (EntryCount > 0) and not (tsStopValidation in FStates); // In variable node height mode it might have happend that some or all of the nodes have been adjusted in their // height. During validation updates of the scrollbars is disabled so let's do this here. if Result and (toVariableNodeHeight in FOptions.FMiscOptions) then UpdateScrollbars(True); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DragCanceled; // Does some housekeeping for VCL drag'n drop; begin inherited; DragFinished; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DragDrop(const DataObject: IDataObject; KeyState: Integer; Pt: TPoint; var Effect: LongWord): HResult; var Shift: TShiftState; EnumFormat: IEnumFormatEtc; Fetched: LongWord; OLEFormat: TFormatEtc; Formats: TFormatArray; begin Logger.EnterMethod([lcDrag],'DragDrop'); KillTimer(Handle, ExpandTimer); KillTimer(Handle, ScrollTimer); DoStateChange([], [tsScrollPending, tsScrolling]); Formats := nil; // Ask explicitly again whether the action is allowed. Otherwise we may accept a drop which is intentionally not // allowed but cannot be prevented by the application because when the tree was scrolling while dropping // no DragOver event is created by the OLE subsystem. Result := DragOver(VTVDragManager.DragSource, KeyState, dsDragMove, Pt, Effect); try if (Result <> NOERROR) or ((Effect and not DROPEFFECT_SCROLL) = DROPEFFECT_NONE) then Result := E_FAIL else begin try Shift := KeysToShiftState(KeyState); if tsLeftButtonDown in FStates then Include(Shift, ssLeft); if tsMiddleButtonDown in FStates then Include(Shift, ssMiddle); if tsRightButtonDown in FStates then Include(Shift, ssRight); Pt := ScreenToClient(Pt); // Determine which formats we can get and pass them along with the data object to the drop handler. Result := DataObject.EnumFormatEtc(DATADIR_GET, EnumFormat); if Failed(Result) then Abort; Result := EnumFormat.Reset; if Failed(Result) then Abort; // create a list of available formats while EnumFormat.Next(1, OLEFormat, Fetched) = S_OK do begin SetLength(Formats, Length(Formats) + 1); Formats[High(Formats)] := OLEFormat.cfFormat; end; DoDragDrop(VTVDragManager.DragSource, DataObject, Formats, Shift, Pt, Effect, FLastDropMode); except Result := E_UNEXPECTED; raise; end; end; finally if Assigned(FDropTargetNode) then begin InvalidateNode(FDropTargetNode); FDropTargetNode := nil; end; end; Logger.ExitMethod([lcDrag],'DragDrop'); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DragEnter(KeyState: Integer; Pt: TPoint; var Effect: LongWord): HResult; // callback routine for the drop target interface var Shift: TShiftState; Accept: Boolean; R: TRect; HitInfo: THitInfo; begin Logger.EnterMethod([lcDrag],'DragEnter'); try // Determine acceptance of drag operation and reset scroll start time. FDragScrollStart := 0; Shift := KeysToShiftState(KeyState); if tsLeftButtonDown in FStates then Include(Shift, ssLeft); if tsMiddleButtonDown in FStates then Include(Shift, ssMiddle); if tsRightButtonDown in FStates then Include(Shift, ssRight); Pt := ScreenToClient(Pt); Effect := SuggestDropEffect(VTVDragManager.DragSource, Shift, Pt, Effect); Accept := DoDragOver(VTVDragManager.DragSource, Shift, dsDragEnter, Pt, FLastDropMode, Effect); if not Accept then Effect := DROPEFFECT_NONE else begin // Set initial drop target node and drop mode. GetHitTestInfoAt(Pt.X, Pt.Y, True, HitInfo); if Assigned(HitInfo.HitNode) then begin FDropTargetNode := HitInfo.HitNode; R := GetDisplayRect(HitInfo.HitNode, FHeader.MainColumn, False); if hiOnItemLabel in HitInfo.HitPositions then FLastDropMode := dmOnNode else if ((R.Top + R.Bottom) div 2) > Pt.Y then FLastDropMode := dmAbove else FLastDropMode := dmBelow; end else FLastDropMode := dmNowhere; end; // If the drag source is a virtual tree then we know how to control the drag image // and can show it even if the source is not the target tree. // This is only necessary if we cannot use the drag image helper interfaces. if not VTVDragManager.DropTargetHelperSupported and Assigned(VTVDragManager.DragSource) then TBaseVirtualTree(VTVDragManager.DragSource).FDragImage.ShowDragImage; Result := NOERROR; except Result := E_UNEXPECTED; end; Logger.ExitMethod([lcDrag],'DragEnter'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DragFinished; // Called by DragCancelled or EndDrag to make up for the still missing mouse button up messages. // These are important for such important things like popup menus. var P: TPoint; begin Logger.EnterMethod([lcDrag],'DragFinished'); DoStateChange([], [tsVCLDragPending, tsVCLDragging, tsUserDragObject]); GetCursorPos(P); P := ScreenToClient(P); if tsRightButtonDown in FStates then Perform(LM_RBUTTONUP, 0, Longint(PointToSmallPoint(P))) else if tsMiddleButtonDown in FStates then Perform(LM_MBUTTONUP, 0, Longint(PointToSmallPoint(P))) else Perform(LM_LBUTTONUP, 0, Longint(PointToSmallPoint(P))); Logger.ExitMethod([lcDrag],'DragFinished'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DragLeave; var Effect: LongWord; begin KillTimer(Handle, ExpandTimer); if not VTVDragManager.DropTargetHelperSupported and Assigned(VTVDragManager.DragSource) then TBaseVirtualTree(VTVDragManager.DragSource).FDragImage.HideDragImage; if Assigned(FDropTargetNode) then begin InvalidateNode(FDropTargetNode); FDropTargetNode := nil; end; UpdateWindow(Handle); Effect := 0; DoDragOver(nil, [], dsDragLeave, Point(0, 0), FLastDropMode, Effect); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.DragOver(Source: TObject; KeyState: Integer; DragState: TDragState; Pt: TPoint; var Effect: LongWord): HResult; // callback routine for the drop target interface var Shift: TShiftState; Accept, DragImageWillMove, WindowScrolled: Boolean; OldR, R: TRect; NewDropMode: TDropMode; HitInfo: THitInfo; ImageHit: Boolean; LabelHit: Boolean; DragPos: TPoint; Tree: TBaseVirtualTree; LastNode: PVirtualNode; DeltaX, DeltaY: Integer; ScrollOptions: TScrollUpdateOptions; begin //Logger.EnterMethod([lcDrag],'DragOver'); if not VTVDragManager.DropTargetHelperSupported and (Source is TBaseVirtualTree) then begin Tree := Source as TBaseVirtualTree; ScrollOptions := [suoUpdateNCArea]; end else begin Tree := nil; ScrollOptions := DefaultScrollUpdateFlags; end; try DragPos := Pt; Pt := ScreenToClient(Pt); //Logger.Send([lcDrag],'Pt',Pt); // Check if we have to scroll the client area. FScrollDirections := DetermineScrollDirections(Pt.X, Pt.Y); DeltaX := 0; DeltaY := 0; if FScrollDirections <> [] then begin // Determine amount to scroll. if sdUp in FScrollDirections then begin DeltaY := Min(FScrollBarOptions.FIncrementY, ClientHeight); if FOffsetY = 0 then Exclude(FScrollDirections, sdUp); end; if sdDown in FScrollDirections then begin DeltaY := -Min(FScrollBarOptions.FIncrementY, ClientHeight); if (ClientHeight - FOffsetY) = Integer(FRangeY) then Exclude(FScrollDirections, sdDown); end; if sdLeft in FScrollDirections then begin DeltaX := FScrollBarOptions.FIncrementX; if FEffectiveOffsetX = 0 then Exclude(FScrollDirections, sdleft); end; if sdRight in FScrollDirections then begin DeltaX := -FScrollBarOptions.FIncrementX; if (ClientWidth + FEffectiveOffsetX) = Integer(FRangeX) then Exclude(FScrollDirections, sdRight); end; WindowScrolled := DoSetOffsetXY(Point(FOffsetX + DeltaX, FOffsetY + DeltaY), ScrollOptions, nil); end else WindowScrolled := False; // Determine acceptance of drag operation as well as drag target. Shift := KeysToShiftState(KeyState); if tsLeftButtonDown in FStates then Include(Shift, ssLeft); if tsMiddleButtonDown in FStates then Include(Shift, ssMiddle); if tsRightButtonDown in FStates then Include(Shift, ssRight); GetHitTestInfoAt(Pt.X, Pt.Y, True, HitInfo); ImageHit := HitInfo.HitPositions * [hiOnNormalIcon, hiOnStateIcon] <> []; LabelHit := hiOnItemLabel in HitInfo.HitPositions; // In report mode only direct hits of the node captions/images in the main column are accepted as hits. if (toReportMode in FOptions.FMiscOptions) and not ((LabelHit or ImageHit) and (HitInfo.HitColumn = FHeader.MainColumn)) then HitInfo.HitNode := nil; if Assigned(HitInfo.HitNode) then begin R := GetDisplayRect(HitInfo.HitNode, NoColumn, False); if LabelHit or ImageHit or not (toShowDropmark in FOptions.FPaintOptions) then NewDropMode := dmOnNode else if ((R.Top + R.Bottom) div 2) > Pt.Y then NewDropMode := dmAbove else NewDropMode := dmBelow; end else begin NewDropMode := dmNowhere; R := Rect(0, 0, 0, 0); end; if Assigned(Tree) then DragImageWillMove := Tree.FDragImage.WillMove(DragPos) else DragImageWillMove := False; if (HitInfo.HitNode <> FDropTargetNode) or (FLastDropMode <> NewDropMode) then begin // Something in the tree will change. This requires to update the screen and/or the drag image. FLastDropMode := NewDropMode; if HitInfo.HitNode <> FDropTargetNode then begin KillTimer(Handle, ExpandTimer); // The last target node is needed for the rectangle determination but must already be set for // the recapture call, hence it must be stored somewhere. LastNode := FDropTargetNode; FDropTargetNode := HitInfo.HitNode; // In order to show a selection rectangle a column must be focused. if FFocusedColumn = NoColumn then FFocusedColumn := FHeader.MainColumn; if Assigned(LastNode) and Assigned(FDropTargetNode) then begin // Optimize the case that the selection moved between two nodes. OldR := GetDisplayRect(LastNode, NoColumn, False); UnionRect(R, R, OldR); if Assigned(Tree) then begin if WindowScrolled then UpdateWindowAndDragImage(Tree, ClientRect, True, not DragImageWillMove) else UpdateWindowAndDragImage(Tree, R, False, not DragImageWillMove); end else InvalidateRect(Handle, @R, False); end else begin if Assigned(LastNode) then begin // Repaint last target node. OldR := GetDisplayRect(LastNode, NoColumn, False); if Assigned(Tree) then begin if WindowScrolled then UpdateWindowAndDragImage(Tree, ClientRect, WindowScrolled, not DragImageWillMove) else UpdateWindowAndDragImage(Tree, OldR, False, not DragImageWillMove); end else InvalidateRect(Handle, @OldR, False); end else begin if Assigned(Tree) then begin if WindowScrolled then UpdateWindowAndDragImage(Tree, ClientRect, WindowScrolled, not DragImageWillMove) else UpdateWindowAndDragImage(Tree, R, False, not DragImageWillMove); end else InvalidateRect(Handle, @R, False); end; end; // Start auto expand timer if necessary. if (toAutoDropExpand in FOptions.FAutoOptions) and Assigned(FDropTargetNode) and (vsHasChildren in FDropTargetNode.States) then SetTimer(Handle, ExpandTimer, FAutoExpandDelay, nil); end else begin // Only the drop mark position changed so invalidate the current drop target node. if Assigned(Tree) then begin if WindowScrolled then UpdateWindowAndDragImage(Tree, ClientRect, WindowScrolled, not DragImageWillMove) else UpdateWindowAndDragImage(Tree, R, False, not DragImageWillMove); end else InvalidateRect(Handle, @R, False); end; end else begin // No change in the current drop target or drop mode. This might still mean horizontal or vertical scrolling. if Assigned(Tree) and ((DeltaX <> 0) or (DeltaY <> 0)) then UpdateWindowAndDragImage(Tree, ClientRect, WindowScrolled, not DragImageWillMove); end; Update; if Assigned(Tree) and DragImageWillMove then Tree.FDragImage.DragTo(DragPos, False); Effect := SuggestDropEffect(Source, Shift, Pt, Effect); Accept := DoDragOver(Source, Shift, DragState, Pt, FLastDropMode, Effect); if not Accept then Effect := DROPEFFECT_NONE; if WindowScrolled then Effect := Effect or Integer(DROPEFFECT_SCROLL); Result := NOERROR; except Result := E_UNEXPECTED; end; //Logger.ExitMethod([lcDrag],'DragOver'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DrawDottedHLine(const PaintInfo: TVTPaintInfo; Left, Right, Top: Integer); // Draws a horizontal line with alternating pixels (this style is not supported for pens under Win9x). var R: TRect; begin with PaintInfo, Canvas do begin Brush.Color := Self.Color; R := Rect(Min(Left, Right), Top, Max(Left, Right) + 1, Top + 1); LCLIntf.FillRect(Handle, R, FDottedBrush); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DrawDottedVLine(const PaintInfo: TVTPaintInfo; Top, Bottom, Left: Integer); // Draws a vertical line with alternating pixels (this style is not supported for pens under Win9x). var R: TRect; begin with PaintInfo, Canvas do begin Brush.Color := Self.Color; R := Rect(Left, Min(Top, Bottom), Left + 1, Max(Top, Bottom) + 1); LCLIntf.FillRect(Handle, R, FDottedBrush); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.FindNodeInSelection(P: PVirtualNode; var Index: Integer; LowBound, HighBound: Integer): Boolean; // Search routine to find a specific node in the selection array. // LowBound and HighBound determine the range in which to search the node. // Either value can be -1 to denote the maximum range otherwise LowBound must be less or equal HighBound. var L, H, I, C: Integer; begin Result := False; L := 0; if LowBound >= 0 then L := LowBound; H := FSelectionCount - 1; if HighBound >= 0 then H := HighBound; while L <= H do begin I := (L + H) shr 1; C := Integer(FSelection[I]) - Integer(P); if C < 0 then L := I + 1 else begin H := I - 1; if C = 0 then begin Result := True; L := I; end; end; end; Index := L; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.FinishChunkHeader(Stream: TStream; StartPos, EndPos: Integer); // used while streaming out a node to finally write out the size of the chunk var Size: Integer; begin // seek back to the second entry in the chunk header Stream.Position := StartPos + SizeOf(Integer); // determine size of chunk without the chunk header Size := EndPos - StartPos - SizeOf(TChunkHeader); // write the size... Stream.Write(Size, SizeOf(Size)); // ... and seek to the last endposition Stream.Position := EndPos; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.FontChanged(AFont: TObject); // Little helper function for font changes (as they are not tracked in TBitmap/TCanvas.OnChange). begin FFontChanged := True; FOldFontChange(AFont); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetBorderDimensions: TSize; // Returns the overall width of the current window border, depending on border styles. // Note: these numbers represent the system's standards not special properties, which can be set for TWinControl // (e.g. bevels, border width). var Styles: Integer; begin Result.cx := 0; Result.cy := 0; Styles := GetWindowLong(Handle, GWL_STYLE); if (Styles and WS_BORDER) <> 0 then begin Dec(Result.cx); Dec(Result.cy); end; if (Styles and WS_THICKFRAME) <> 0 then begin Dec(Result.cx, GetSystemMetrics(SM_CXFIXEDFRAME)); Dec(Result.cy, GetSystemMetrics(SM_CYFIXEDFRAME)); end; Styles := GetWindowLong(Handle, GWL_EXSTYLE); if (Styles and WS_EX_CLIENTEDGE) <> 0 then begin Dec(Result.cx, GetSystemMetrics(SM_CXEDGE)); Dec(Result.cy, GetSystemMetrics(SM_CYEDGE)); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetCheckImage(Node: PVirtualNode): Integer; // Determines the index into the check image list for the given node depending on the check type // and enabled state. const // Four dimensional array consisting of image indices for the check type, the check state, the enabled state and the // hot state. CheckStateToCheckImage: array[ctCheckBox..ctButton, csUncheckedNormal..csMixedPressed, Boolean, Boolean] of Integer = ( // ctCheckBox, ctTriStateCheckBox ( // csUncheckedNormal (disabled [not hot, hot], enabled [not hot, hot]) ((ckCheckUncheckedDisabled, ckCheckUncheckedDisabled), (ckCheckUncheckedNormal, ckCheckUncheckedHot)), // csUncheckedPressed (disabled [not hot, hot], enabled [not hot, hot]) ((ckCheckUncheckedDisabled, ckCheckUncheckedDisabled), (ckCheckUncheckedPressed, ckCheckUncheckedPressed)), // csCheckedNormal ((ckCheckCheckedDisabled, ckCheckCheckedDisabled), (ckCheckCheckedNormal, ckCheckCheckedHot)), // csCheckedPressed ((ckCheckCheckedDisabled, ckCheckCheckedDisabled), (ckCheckCheckedPressed, ckCheckCheckedPressed)), // csMixedNormal ((ckCheckMixedDisabled, ckCheckMixedDisabled), (ckCheckMixedNormal, ckCheckMixedHot)), // csMixedPressed ((ckCheckMixedDisabled, ckCheckMixedDisabled), (ckCheckMixedPressed, ckCheckMixedPressed)) ), // ctRadioButton ( // csUncheckedNormal (disabled [not hot, hot], enabled [not hot, hot]) ((ckRadioUncheckedDisabled, ckRadioUncheckedDisabled), (ckRadioUncheckedNormal, ckRadioUncheckedHot)), // csUncheckedPressed (disabled [not hot, hot], enabled [not hot, hot]) ((ckRadioUncheckedDisabled, ckRadioUncheckedDisabled), (ckRadioUncheckedPressed, ckRadioUncheckedPressed)), // csCheckedNormal ((ckRadioCheckedDisabled, ckRadioCheckedDisabled), (ckRadioCheckedNormal, ckRadioCheckedHot)), // csCheckedPressed ((ckRadioCheckedDisabled, ckRadioCheckedDisabled), (ckRadioCheckedPressed, ckRadioCheckedPressed)), // csMixedNormal (should never appear with ctRadioButton) ((ckCheckMixedDisabled, ckCheckMixedDisabled), (ckCheckMixedNormal, ckCheckMixedHot)), // csMixedPressed (should never appear with ctRadioButton) ((ckCheckMixedDisabled, ckCheckMixedDisabled), (ckCheckMixedPressed, ckCheckMixedPressed)) ), // ctButton ( // csUncheckedNormal (disabled [not hot, hot], enabled [not hot, hot]) ((ckButtonDisabled, ckButtonDisabled), (ckButtonNormal, ckButtonHot)), // csUncheckedPressed (disabled [not hot, hot], enabled [not hot, hot]) ((ckButtonDisabled, ckButtonDisabled), (ckButtonPressed, ckButtonPressed)), // csCheckedNormal ((ckButtonDisabled, ckButtonDisabled), (ckButtonNormal, ckButtonHot)), // csCheckedPressed ((ckButtonDisabled, ckButtonDisabled), (ckButtonPressed, ckButtonPressed)), // csMixedNormal (should never appear with ctButton) ((ckCheckMixedDisabled, ckCheckMixedDisabled), (ckCheckMixedNormal, ckCheckMixedHot)), // csMixedPressed (should never appear with ctButton) ((ckCheckMixedDisabled, ckCheckMixedDisabled), (ckCheckMixedPressed, ckCheckMixedPressed)) ) ); var AType: TCheckType; begin if Node.CheckType = ctNone then Result := -1 else begin AType := Node.CheckType; if AType = ctTriStateCheckBox then AType := ctCheckBox; Result := CheckStateToCheckImage[AType, Node.CheckState, not (vsDisabled in Node.States) and Enabled, Node = FCurrentHotNode]; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.GetCheckImageList; begin if FCheckImageKind = ckCustom then begin if FCheckImages <> FCustomCheckImages then FCheckImages.Free; FCheckImages := FCustomCheckImages; end else begin if (FCheckImages = nil) or (FCheckImages = FCustomCheckImages) then FCheckImages := TBitmap.Create; case FCheckImageKind of ckSystem: CreateSystemImageSet(FCheckImages, False); ckSystemFlat: CreateSystemImageSet(FCheckImages, True); else FCheckImages.TransparentColor := clDefault; FCheckImages.LoadFromLazarusResource(CheckImagesStrings[FCheckImageKind]); end; end; end; function TBaseVirtualTree.GetClientRect: TRect; begin Result:=Inherited; //lclheader if HandleAllocated and (hoVisible in FHeader.FOptions) then Dec(Result.Bottom,FHeader.Height); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetColumnClass: TVirtualTreeColumnClass; begin Result := TVirtualTreeColumn; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetHeaderClass: TVTHeaderClass; begin Result := TVTHeader; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetHintWindowClass: THintWindowClass; // Returns the default hint window class used for the tree. Descendants can override it to use their own classes. begin Result := TVirtualTreeHintWindow; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.GetImageIndex(var Info: TVTPaintInfo; Kind: TVTImageKind; InfoIndex: TVTImageInfoIndex; DefaultImages: TCustomImageList); // Retrieves the image index and an eventual customized image list for drawing. var CustomImages: TCustomImageList; begin with Info do begin ImageInfo[InfoIndex].Index := -1; ImageInfo[InfoIndex].Ghosted := False; CustomImages := DoGetImageIndex(Node, Kind, Column, ImageInfo[InfoIndex].Ghosted, ImageInfo[InfoIndex].Index); if Assigned(CustomImages) then ImageInfo[InfoIndex].Images := CustomImages else ImageInfo[InfoIndex].Images := DefaultImages; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetMaxRightExtend: Cardinal; // Determines the maximum with of the currently visible part of the tree, depending on the length // of the node texts. This method is used for determining the horizontal scroll range if no columns are used. var Node, NextNode: PVirtualNode; TopPosition: Integer; NodeLeft, CurrentWidth: Integer; WithCheck: Boolean; CheckOffset: Integer; begin Node := GetNodeAt(0, 0, True, TopPosition); Result := 0; if toShowRoot in FOptions.FPaintOptions then NodeLeft := (GetNodeLevel(Node) + 1) * FIndent else NodeLeft := GetNodeLevel(Node) * FIndent; if Assigned(FStateImages) then Inc(NodeLeft, FStateImages.Width + 2); if Assigned(FImages) then Inc(NodeLeft, FImages.Width + 2); WithCheck := (toCheckSupport in FOptions.FMiscOptions) and Assigned(FCheckImages); if WithCheck then CheckOffset := FCheckImages.Height + 2 else CheckOffset := 0; while Assigned(Node) do begin if not (vsInitialized in Node.States) then InitNode(Node); if WithCheck and (Node.CheckType <> ctNone) then Inc(NodeLeft, CheckOffset); CurrentWidth := DoGetNodeWidth(Node, NoColumn); if Integer(Result) < (NodeLeft + CurrentWidth) then Result := NodeLeft + CurrentWidth; Inc(TopPosition, NodeHeight[Node]); if TopPosition > Height then Break; if WithCheck and (Node.CheckType <> ctNone) then Dec(NodeLeft, CheckOffset); // Get next visible node and update left node position. NextNode := GetNextVisible(Node); if NextNode = nil then Break; Inc(NodeLeft, CountLevelDifference(Node, NextNode) * Integer(FIndent)); Node := NextNode; end; Inc(Result, FMargin); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.GetNativeClipboardFormats(var Formats: TFormatEtcArray); // Returns the supported clipboard formats of the tree. begin InternalClipboardFormats.EnumerateFormats(TVirtualTreeClass(ClassType), Formats, FClipboardFormats); // Ask application/descendants for self defined formats. DoGetUserClipboardFormats(Formats); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetOptionsClass: TTreeOptionsClass; begin Result := TCustomVirtualTreeOptions; end; //---------------------------------------------------------------------------------------------------------------------- {$i olemethods.inc} //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.HandleHotTrack(X, Y: Integer); // Updates the current "hot" node. var HitInfo: THitInfo; DoInvalidate: Boolean; begin // Get information about the hit. GetHitTestInfoAt(X, Y, True, HitInfo); // Only make the new node being "hot" if its label is hit or full row selection is enabled. if ([hiOnItemLabel, hiOnItemCheckbox] * HitInfo.HitPositions = []) and not (toFullRowSelect in FOptions.FSelectionOptions) then HitInfo.HitNode := nil; if HitInfo.HitNode <> FCurrentHotNode then begin DoInvalidate := (toHotTrack in FOptions.PaintOptions) or (toCheckSupport in FOptions.FMiscOptions); DoHotChange(FCurrentHotNode, HitInfo.HitNode); if Assigned(FCurrentHotNode) and DoInvalidate then InvalidateNode(FCurrentHotNode); FCurrentHotNode := HitInfo.HitNode; if Assigned(FCurrentHotNode) and DoInvalidate then InvalidateNode(FCurrentHotNode); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.HandleIncrementalSearch(CharCode: Word); var Run, Stop: PVirtualNode; GetNextNode: TGetNextNodeProc; NewSearchText: WideString; SingleLetter, PreviousSearch: Boolean; // True if VK_BACK was sent. SearchDirection: TVTSearchDirection; //--------------- local functions ------------------------------------------- procedure SetupNavigation; // If the search buffer is empty then we start searching with the next node after the last one, otherwise // we continue with the last one. Node navigation function is set up too here, to avoid frequent checks. var FindNextNode: Boolean; begin FindNextNode := (Length(FSearchBuffer) = 0) or (Run = nil) or SingleLetter or PreviousSearch; case FIncrementalSearch of isVisibleOnly: if SearchDirection = sdForward then begin GetNextNode := GetNextVisible; if FindNextNode then begin if Run = nil then Run := GetFirstVisible else begin Run := GetNextVisible(Run); // Do wrap around. if Run = nil then Run := GetFirstVisible; end; end; end else begin GetNextNode := GetPreviousVisible; if FindNextNode then begin if Run = nil then Run := GetLastVisible else begin Run := GetPreviousVisible(Run); // Do wrap around. if Run = nil then Run := GetLastVisible; end; end; end; isInitializedOnly: if SearchDirection = sdForward then begin GetNextNode := GetNextNoInit; if FindNextNode then begin if Run = nil then Run := GetFirstNoInit else begin Run := GetNextNoInit(Run); // Do wrap around. if Run = nil then Run := GetFirstNoInit; end; end; end else begin GetNextNode := GetPreviousNoInit; if FindNextNode then begin if Run = nil then Run := GetLastNoInit else begin Run := GetPreviousNoInit(Run); // Do wrap around. if Run = nil then Run := GetLastNoInit; end; end; end; else // isAll if SearchDirection = sdForward then begin GetNextNode := GetNext; if FindNextNode then begin if Run = nil then Run := GetFirst else begin Run := GetNext(Run); // Do wrap around. if Run = nil then Run := GetFirst; end; end; end else begin GetNextNode := GetPrevious; if FindNextNode then begin if Run = nil then Run := GetLast else begin Run := GetPrevious(Run); // Do wrap around. if Run = nil then Run := GetLast; end; end; end; end; end; //--------------------------------------------------------------------------- function CodePageFromLocale(Language: DWord): Integer; // Determines the code page for a given locale. // Unfortunately there is no easier way than this, currently. var Buf: array[0..6] of Char; begin GetLocaleInfo(Language, LOCALE_IDEFAULTANSICODEPAGE, Buf, 6); Result := StrToIntDef(Buf, GetACP); end; //--------------------------------------------------------------------------- function KeyUnicode(C: Char): WideChar; // Converts the given character into its corresponding Unicode character // depending on the active keyboard layout. begin MultiByteToWideChar(CodePageFromLocale(GetKeyboardLayout(0) and $FFFF), MB_USEGLYPHCHARS, @C, 1, @Result, 1); end; //--------------- end local functions --------------------------------------- var FoundMatch: Boolean; NewChar: WideChar; begin KillTimer(Handle, SearchTimer); if FIncrementalSearch <> isNone then begin if CharCode <> 0 then begin DoStateChange([tsIncrementalSearching]); // Convert the given virtual key code into a Unicode character based on the current locale. NewChar := KeyUnicode(Char(CharCode)); PreviousSearch := NewChar = WideChar(VK_BACK); // We cannot do a search with an empty search buffer. if not PreviousSearch or (Length(FSearchBuffer) > 1) then begin // Determine which method to use to advance nodes and the start node to search from. case FSearchStart of ssAlwaysStartOver: Run := nil; ssFocusedNode: Run := FFocusedNode; else // ssLastHit Run := FLastSearchNode; end; // Make sure the start node corresponds to the search criterion. if Assigned(Run) then begin case FIncrementalSearch of isInitializedOnly: if not (vsInitialized in Run.States) then Run := nil; isVisibleOnly: if not FullyVisible[Run] then Run := nil; end; end; Stop := Run; // VK_BACK temporarily changes search direction to opposite mode. if PreviousSearch then begin if SearchDirection = sdBackward then SearchDirection := sdForward else SearchDirection := sdBackward end else SearchDirection := FSearchDirection; // The "single letter mode" is used to advance quickly from node to node when pressing the same key several times. SingleLetter := (Length(FSearchBuffer) = 1) and not PreviousSearch and (FSearchBuffer[1] = NewChar); // However if the current hit (if there is one) would fit also with a repeated character then // don't use single letter mode. if SingleLetter and (DoIncrementalSearch(Run, FSearchBuffer + NewChar) = 0) then SingleLetter := False; SetupNavigation; FoundMatch := False; if Assigned(Run) then begin if SingleLetter then NewSearchText := FSearchBuffer else if PreviousSearch then begin SetLength(FSearchBuffer, Length(FSearchBuffer) - 1); NewSearchText := FSearchBuffer; end else NewSearchText := FSearchBuffer + NewChar; repeat if DoIncrementalSearch(Run, NewSearchText) = 0 then begin FoundMatch := True; Break; end; // Advance to next node if we have not found a match. Run := GetNextNode(Run); // Do wrap around start or end of tree. if (Run <> Stop) and (Run = nil) then SetupNavigation; until Run = Stop; end; if FoundMatch then begin ClearSelection; FSearchBuffer := NewSearchText; FLastSearchNode := Run; FocusedNode := Run; Selected[Run] := True; FLastSearchNode := Run; end else // Play an acoustic signal if nothing could be found but don't beep if only the currently // focused node matches. if Assigned(Run) and (DoIncrementalSearch(Run, NewSearchText) <> 0) then Beep; end; end; // Restart search timeout interval. SetTimer(Handle, SearchTimer, FSearchTimeout, nil); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.HandleMouseDblClick(var Message: TLMMouse; const HitInfo: THitInfo); var NewCheckState: TCheckState; begin if tsEditPending in FStates then begin KillTimer(Handle, EditTimer); DoStateChange([], [tsEditPending]); end; if not (tsEditing in FStates) or DoEndEdit then begin if HitInfo.HitColumn = FHeader.FColumns.FClickIndex then DoColumnDblClick(HitInfo.HitColumn, KeysToShiftState(Message.Keys)); if hiOnItemCheckBox in HitInfo.HitPositions then begin if (FStates * [tsMouseCheckPending, tsKeyCheckPending] = []) and not (vsDisabled in HitInfo.HitNode.States) then begin with HitInfo.HitNode^ do NewCheckState := DetermineNextCheckState(CheckType, CheckState); if DoChecking(HitInfo.HitNode, NewCheckState) then begin DoStateChange([tsMouseCheckPending]); FCheckNode := HitInfo.HitNode; FPendingCheckState := NewCheckState; FCheckNode.CheckState := PressedState[FCheckNode.CheckState]; InvalidateNode(HitInfo.HitNode); end; end; end else begin if hiOnItemButton in HitInfo.HitPositions then ToggleNode(HitInfo.HitNode) else begin if toToggleOnDblClick in FOptions.FMiscOptions then begin if ((([hiOnItemButton, hiOnItemLabel, hiOnNormalIcon, hiOnStateIcon] * HitInfo.HitPositions) <> []) or ((toFullRowSelect in FOptions.FSelectionOptions) and Assigned(HitInfo.HitNode))) then ToggleNode(HitInfo.HitNode); end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.HandleMouseDown(var Message: TLMMouse; const HitInfo: THitInfo); // centralized mouse button down handling var LastFocused: PVirtualNode; Column: TColumnIndex; ShiftState: TShiftState; // helper variables to shorten boolean equations/expressions AutoDrag, // automatic (or allowed) drag start IsHit, // the node's caption or images are hit IsCellHit, // for grid extension or full row select (but not check box, button) IsAnyHit, // either IsHit or IsCellHit MultiSelect, // multiselection is enabled ShiftEmpty, // ShiftState = [] NodeSelected: Boolean; // the new node (if any) is selected NewColumn: Boolean; // column changed NewNode: Boolean; // Node changed. NeedChange: Boolean; // change event is required for selection change CanClear: Boolean; NewCheckState: TCheckState; AltPressed: Boolean; // Pressing the Alt key enables special processing for selection. FullRowDrag: Boolean; // Start dragging anywhere within a node's bound. //LCL FocusCanChange: Boolean; // Focus changing is allowed begin if [tsWheelPanning, tsWheelScrolling] * FStates <> [] then begin StopWheelPanning; Exit; end; if tsEditPending in FStates then begin KillTimer(Handle, EditTimer); DoStateChange([], [tsEditPending]); end; if not (tsEditing in FStates) or DoEndEdit then begin // Focus change. Don't use the SetFocus method as this does not work for MDI windows. if not Focused and CanFocus then LCLIntf.SetFocus(Handle); // Keep clicked column in case the application needs it. FHeader.FColumns.FClickIndex := HitInfo.HitColumn; // Change column only if we have hit the node label. if (hiOnItemLabel in HitInfo.HitPositions) or (toFullRowSelect in FOptions.FSelectionOptions) or (toGridExtensions in FOptions.FMiscOptions) then begin NewColumn := FFocusedColumn <> HitInfo.HitColumn; if toExtendedFocus in FOptions.FSelectionOptions then Column := HitInfo.HitColumn else Column := FHeader.MainColumn; end else begin NewColumn := False; Column := FFocusedColumn; end; NewNode := FFocusedNode <> HitInfo.HitNode; // Translate keys and filter out shift and control key. ShiftState := KeysToShiftState(Message.Keys) * [ssShift, ssCtrl, ssAlt]; if ssAlt in ShiftState then begin AltPressed := True; // Remove the Alt key from the shift state. It is not meaningful there. Exclude(ShiftState, ssAlt); end else AltPressed := False; // Various combinations determine what states the tree enters now. // We initialize shorthand variables to avoid the following expressions getting too large // and to avoid repeative expensive checks. IsHit := not AltPressed and ((hiOnItemLabel in HitInfo.HitPositions) or (hiOnNormalIcon in HitInfo.HitPositions)); IsCellHit := not AltPressed and not IsHit and Assigned(HitInfo.HitNode) and ([hiOnItemButton, hiOnItemCheckBox] * HitInfo.HitPositions = []) and ((toFullRowSelect in FOptions.FSelectionOptions) or (toGridExtensions in FOptions.FMiscOptions)); IsAnyHit := IsHit or IsCellHit; MultiSelect := toMultiSelect in FOptions.FSelectionOptions; ShiftEmpty := ShiftState = []; NodeSelected := IsAnyHit and (vsSelected in HitInfo.HitNode.States); FullRowDrag := toFullRowDrag in FOptions.FMiscOptions; // Dragging might be started in the inherited handler manually (which is discouraged for stability reasons) // the test for manual mode is done below (after the focused node is set). AutoDrag := ((DragMode = dmAutomatic) or Dragging) and (not IsCellHit or FullRowDrag); // Query the application to learn if dragging may start now (if set to dmManual). if Assigned(HitInfo.HitNode) and not AutoDrag and (DragMode = dmManual) then AutoDrag := DoBeforeDrag(HitInfo.HitNode, Column) and (not IsCellHit or FullRowDrag); // handle button clicks if (hiOnItemButton in HitInfo.HitPositions) and (vsHasChildren in HitInfo.HitNode.States) then begin ToggleNode(HitInfo.HitNode); Exit; end; // check event if hiOnItemCheckBox in HitInfo.HitPositions then begin if (FStates * [tsMouseCheckPending, tsKeyCheckPending] = []) and not (vsDisabled in HitInfo.HitNode.States) then begin with HitInfo.HitNode^ do NewCheckState := DetermineNextCheckState(CheckType, CheckState); if DoChecking(HitInfo.HitNode, NewCheckState) then begin DoStateChange([tsMouseCheckPending]); FCheckNode := HitInfo.HitNode; FPendingCheckState := NewCheckState; FCheckNode.CheckState := PressedState[FCheckNode.CheckState]; InvalidateNode(HitInfo.HitNode); end; end; Exit; end; // Keep this node's level in case we need it for constraint selection. if (FRoot.ChildCount > 0) and ShiftEmpty or (FSelectionCount = 0) then if Assigned(HitInfo.HitNode) then FLastSelectionLevel := GetNodeLevel(HitInfo.HitNode) else FLastSelectionLevel := GetNodeLevel(GetLastVisibleNoInit); // pending clearance if MultiSelect and ShiftEmpty and not (hiOnItemCheckbox in HitInfo.HitPositions) and IsAnyHit and AutoDrag and NodeSelected then DoStateChange([tsClearPending]); // immediate clearance // Determine for the right mouse button if there is a popup menu. In this case and if drag'n drop is pending // the current selection has to stay as it is. with HitInfo, Message do CanClear := not AutoDrag and (not (tsRightButtonDown in FStates) or not HasPopupMenu(HitNode, HitColumn, Point(XPos, YPos))); //lcl FocusCanChange := DoFocusChanging(FFocusedNode, HitInfo.HitNode, FFocusedColumn, Column); if FocusCanChange and ((not (IsAnyHit or FullRowDrag) and MultiSelect and ShiftEmpty) or (IsAnyHit and (not NodeSelected or (NodeSelected and CanClear)) and (ShiftEmpty or not MultiSelect))) then begin Assert(not (tsClearPending in FStates), 'Pending and direct clearance are mutual exclusive!'); // If the currently hit node was already selected then we have to reselect it again after clearing the current // selection, but without a change event if it is the only selected node. // The same applies if the Alt key is pressed, which allows to start drawing the selection rectangle also // on node captions and images. Here the previous selection state does not matter, though. if NodeSelected or (AltPressed and Assigned(HitInfo.HitNode) and (HitInfo.HitColumn = FHeader.MainColumn)) then begin NeedChange := FSelectionCount > 1; InternalClearSelection; InternalAddToSelection(HitInfo.HitNode, True); if NeedChange then begin Invalidate; Change(nil); end; end else ClearSelection; end; // pending node edit if Focused and ((hiOnItemLabel in HitInfo.HitPositions) or ((toGridExtensions in FOptions.FMiscOptions) and (hiOnItem in HitInfo.HitPositions))) and NodeSelected and not NewColumn and ShiftEmpty then DoStateChange([tsEditPending]); // User starts a selection with a selection rectangle. if not (toDisableDrawSelection in FOptions.FSelectionOptions) and not (IsHit or FullRowDrag) and MultiSelect then begin SetCapture(Handle); DoStateChange([tsDrawSelPending]); FDrawSelShiftState := ShiftState; FNewSelRect := Rect(Message.XPos + FEffectiveOffsetX, Message.YPos - FOffsetY, Message.XPos + FEffectiveOffsetX, Message.YPos - FOffsetY); FLastSelRect := Rect(0, 0, 0, 0); if not IsCellHit then Exit; end; // Keep current mouse position. FLastClickPos := Point(Message.XPos, Message.YPos); // Handle selection and node focus change. if IsAnyHit and FocusCanChange then begin if NewColumn then begin InvalidateColumn(FFocusedColumn); InvalidateColumn(Column); FFocusedColumn := Column; end; if DragKind = dkDock then begin KillTimer(Handle, ScrollTimer); DoStateChange([], [tsScrollPending, tsScrolling]); end; // Get the currently focused node to make multiple multi-selection blocks possible. LastFocused := FFocusedNode; if NewNode or NewColumn then DoFocusNode(HitInfo.HitNode, False); if MultiSelect and not ShiftEmpty then HandleClickSelection(LastFocused, HitInfo.HitNode, ShiftState, AutoDrag) else begin if ShiftEmpty then FRangeAnchor := HitInfo.HitNode; // If the hit node is not yet selected then do it now. if not NodeSelected then AddToSelection(HitInfo.HitNode); end; if NewNode or NewColumn then DoFocusChange(FFocusedNode, FFocusedColumn); end; // Drag'n drop initiation // If we lost focus in the interim the button states would be cleared in WM_KILLFOCUS. if AutoDrag and IsAnyHit and (FStates * [tsLeftButtonDown, tsRightButtonDown, tsMiddleButtonDown] <> []) then BeginDrag(False); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.HandleMouseUp(var Message: TLMMouse; const HitInfo: THitInfo); // Counterpart to the mouse down handler. var ReselectFocusedNode: Boolean; begin ReleaseCapture; if not (tsVCLDragPending in FStates) then begin // reset pending or persistent states if IsMouseSelecting then begin DoStateChange([], [tsDrawSelecting, tsDrawSelPending, tsToggleFocusedSelection]); Invalidate; end; if tsClearPending in FStates then begin ReselectFocusedNode := Assigned(FFocusedNode) and (vsSelected in FFocusedNode.States); ClearSelection; if ReselectFocusedNode then AddToSelection(FFocusedNode); end; if (tsToggleFocusedSelection in FStates) and (HitInfo.HitNode = FFocusedNode) then begin if vsSelected in HitInfo.HitNode.States then RemoveFromSelection(HitInfo.HitNode) else AddToSelection(HitInfo.HitNode); InvalidateNode(HitInfo.HitNode); end; DoStateChange([], [tsOLEDragPending, tsOLEDragging, tsClearPending, tsDrawSelPending, tsToggleFocusedSelection, tsScrollPending, tsScrolling]); KillTimer(Handle, ScrollTimer); if tsMouseCheckPending in FStates then begin DoStateChange([], [tsMouseCheckPending]); // Is the mouse still over the same node? if (HitInfo.HitNode = FCheckNode) and (hiOnItem in HitInfo.HitPositions) then DoCheckClick(FCheckNode, FPendingCheckState) else FCheckNode.CheckState := UnpressedState[FCheckNode.CheckState]; InvalidateNode(FCheckNode); FCheckNode := nil; end; if (FHeader.FColumns.FClickIndex > NoColumn) and (FHeader.FColumns.FClickIndex = HitInfo.HitColumn) then DoColumnClick(HitInfo.HitColumn, KeysToShiftState(Message.Keys)); // handle a pending edit event if tsEditPending in FStates then begin // Is the mouse still over the same node? if (HitInfo.HitNode = FFocusedNode) and (hiOnItem in HitInfo.HitPositions) and CanEdit(FFocusedNode, HitInfo.HitColumn) then begin FEditColumn := FFocusedColumn; SetTimer(Handle, EditTimer, FEditDelay, nil); end else DoStateChange([], [tsEditPending]); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.HasImage(Node: PVirtualNode; Kind: TVTImageKind; Column: TColumnIndex): Boolean; // Determines whether the given node has got an image of the given kind in the given column. // Returns True if so, otherwise False. var Ghosted: Boolean; Index: Integer; begin Index := -1; Ghosted := False; DoGetImageIndex(Node, Kind, Column, Ghosted, Index); Result := Index > -1; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.HasPopupMenu(Node: PVirtualNode; Column: TColumnIndex; Pos: TPoint): Boolean; // Determines whether the tree got a popup menu, either in its PopupMenu property, via the OnGetPopupMenu event or // through inheritannce. The latter case must be checked by the descendant which must override this method. begin Result := Assigned(PopupMenu) or Assigned(DoGetPopupMenu(Node, Column, Pos)); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InitChildren(Node: PVirtualNode); // Initiates the initialization of the child number of the given node. var Count: Cardinal; begin if Assigned(Node) and (Node <> FRoot) and (vsHasChildren in Node.States) then begin Count := Node.ChildCount; DoInitChildren(Node, Count); if Count = 0 then begin // Remove any child node which is already there. DeleteChildren(Node); Exclude(Node.States, vsHasChildren); end else SetChildCount(Node, Count); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InitNode(Node: PVirtualNode); // Initiates the initialization of the given node to allow the application to load needed data for it. var InitStates: TVirtualNodeInitStates; begin with Node^ do begin Include(States, vsInitialized); InitStates := []; if Parent = FRoot then DoInitNode(nil, Node, InitStates) else DoInitNode(Parent, Node, InitStates); if ivsDisabled in InitStates then Include(States, vsDisabled); if ivsHasChildren in InitStates then Include(States, vsHasChildren); if ivsSelected in InitStates then begin FSingletonNodeArray[0] := Node; InternalAddToSelection(FSingletonNodeArray, 1, False); end; if ivsMultiline in InitStates then Include(States, vsMultiline); // Expanded may already be set (when called from ReinitNode) or be set in DoInitNode, allow both. if (vsExpanded in Node.States) xor (ivsExpanded in InitStates) then begin // Expand node if not yet done (this will automatically initialize child nodes). if ivsExpanded in InitStates then ToggleNode(Node) else // If the node already was expanded then explicitly trigger child initialization. if vsHasChildren in Node.States then InitChildren(Node); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InternalAddFromStream(Stream: TStream; Version: Integer; Node: PVirtualNode); // Loads all details for Node (including its children) from the given stream. // Because the new nodes might be selected this method also fixes the selection array. var Stop: PVirtualNode; Index: Integer; LastTotalHeight: Cardinal; WasFullyVisible: Boolean; begin Assert(Node <> FRoot, 'The root node cannot be loaded from stream.'); // Keep the current total height value of Node as it has already been applied // but might change in the load and fixup code. We have to adjust that afterwards. LastTotalHeight := Node.TotalHeight; WasFullyVisible := FullyVisible[Node]; // Read in the new nodes. ReadNode(Stream, Version, Node); // One time update of node-internal states and the global visibility counter. // This is located here to ease and speed up the loading process. FixupTotalCount(Node); AdjustTotalCount(Node.Parent, Node.TotalCount - 1, True); // -1 because Node itself was already set. FixupTotalHeight(Node); AdjustTotalHeight(Node.Parent, Node.TotalHeight - LastTotalHeight, True); // New nodes are always visible, so the visible node count has been increased already. // If Node is now invisible we have to take back this increment and don't need to add any visible child node. if not FullyVisible[Node] then begin if WasFullyVisible then Dec(FVisibleCount); end else // It can never happen that the node is now fully visible but was not before as this would require // that the visibility state of one of its parents has changed, which cannot happen during loading. Inc(FVisibleCount, CountVisibleChildren(Node)); // Fix selection array. ClearTempCache; if Node = FRoot then Stop := nil else Stop := Node.NextSibling; if toMultiSelect in FOptions.FSelectionOptions then begin // Add all nodes which were selected before to the current selection (unless they are already there). while Node <> Stop do begin if (vsSelected in Node.States) and not FindNodeInSelection(Node, Index, 0, High(FSelection)) then InternalCacheNode(Node); Node := GetNextNoInit(Node); end; if FTempNodeCount > 0 then AddToSelection(FTempNodeCache, FTempNodeCount, True); ClearTempCache; end else // No further selected nodes allowed so delete the corresponding flag in all new nodes. while Node <> Stop do begin Exclude(Node.States, vsSelected); Node := GetNextNoInit(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.InternalAddToSelection(Node: PVirtualNode; ForceInsert: Boolean): Boolean; begin Assert(Assigned(Node), 'Node must not be nil!'); FSingletonNodeArray[0] := Node; Result := InternalAddToSelection(FSingletonNodeArray, 1, ForceInsert); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.InternalAddToSelection(const NewItems: TNodeArray; NewLength: Integer; ForceInsert: Boolean): Boolean; // Internal version of method AddToSelection which does not trigger OnChange events var I, J: Integer; CurrentEnd: Integer; Constrained, SiblingConstrained: Boolean; begin // The idea behind this code is to use a kind of reverse merge sort. QuickSort is quite fast // and would do the job here too but has a serious problem with already sorted lists like FSelection. // 1) Remove already selected items, mark all other as being selected. if ForceInsert then begin for I := 0 to NewLength - 1 do Include(NewItems[I].States, vsSelected); end else begin Constrained := toLevelSelectConstraint in FOptions.FSelectionOptions; if Constrained and (FLastSelectionLevel = -1) then FLastSelectionLevel := GetNodeLevel(NewItems[0]); SiblingConstrained := toSiblingSelectConstraint in FOptions.FSelectionOptions; if SiblingConstrained and (FRangeAnchor = nil) then FRangeAnchor := NewItems[0]; for I := 0 to NewLength - 1 do if ([vsSelected, vsDisabled] * NewItems[I].States <> []) or (Constrained and (Cardinal(FLastSelectionLevel) <> GetNodeLevel(NewItems[I]))) or (SiblingConstrained and (FRangeAnchor.Parent <> NewItems[I].Parent)) then Inc(Cardinal(NewItems[I])) else Include(NewItems[I].States, vsSelected); end; I := PackArray(NewItems, NewLength); if I > -1 then NewLength := I; Result := NewLength > 0; if Result then begin // 2) Sort the new item list so we can easily traverse it. if NewLength > 1 then QuickSort(NewItems, 0, NewLength - 1); // 3) Make room in FSelection for the new items. if FSelectionCount + NewLength >= Length(FSelection) then SetLength(FSelection, FSelectionCount + NewLength); // 4) Merge in new items J := NewLength - 1; CurrentEnd := FSelectionCount - 1; while J >= 0 do begin // First insert all new entries which are greater than the greatest entry in the old list. // If the current end marker is < 0 then there's nothing more to move in the selection // array and only the remaining new items must be inserted. if CurrentEnd >= 0 then begin while (J >= 0) and (Cardinal(NewItems[J]) > Cardinal(FSelection[CurrentEnd])) do begin FSelection[CurrentEnd + J + 1] := NewItems[J]; Dec(J); end; // early out if nothing more needs to be copied if J < 0 then Break; end else begin // insert remaining new entries at position 0 Move(NewItems[0], FSelection[0], (J + 1) * SizeOf(Pointer)); // nothing more to do so exit main loop Break; end; // find the last entry in the remaining selection list which is smaller then the largest // entry in the remaining new items list FindNodeInSelection(NewItems[J], I, 0, CurrentEnd); Dec(I); // move all entries which are greater than the greatest entry in the new items list up // so the remaining gap travels down to where new items must be inserted Move(FSelection[I + 1], FSelection[I + J + 2], (CurrentEnd - I) * SizeOf(Pointer)); CurrentEnd := I; end; Inc(FSelectionCount, NewLength); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InternalCacheNode(Node: PVirtualNode); // Adds the given node to the temporary node cache (used when collecting possibly large amounts of nodes). var Len: Cardinal; begin Len := Length(FTempNodeCache); if FTempNodeCount = Len then begin if Len < 100 then Len := 100 else Len := Len + Len div 10; SetLength(FTempNodeCache, Len); end; FTempNodeCache[FTempNodeCount] := Node; Inc(FTempNodeCount); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InternalClearSelection; var Count: Integer; begin // It is possible that there are invalid node references in the selection array // if the tree update is locked and changes in the structure were made. // Handle this potentially dangerous situation by packing the selection array explicitely. if FUpdateCount > 0 then begin Count := PackArray(FSelection, FSelectionCount); if Count > -1 then begin FSelectionCount := Count; SetLength(FSelection, FSelectionCount); end; end; while FSelectionCount > 0 do begin Dec(FSelectionCount); Exclude(FSelection[FSelectionCount].States, vsSelected); end; ResetRangeAnchor; FSelection := nil; DoStateChange([], [tsClearPending]); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InternalConnectNode(Node, Destination: PVirtualNode; Target: TBaseVirtualTree; Mode: TVTNodeAttachMode); // Connects Node with Destination depending on Mode. // No error checking takes place. Node as well as Destination must be valid. Node must never be a root node and // Destination must not be a root node if Mode is amInsertBefore or amInsertAfter. var Run: PVirtualNode; begin // Keep in mind that the destination node might belong to another tree. with Target do begin case Mode of amInsertBefore: begin Node.PrevSibling := Destination.PrevSibling; Destination.PrevSibling := Node; Node.NextSibling := Destination; Node.Parent := Destination.Parent; Node.Index := Destination.Index; if Node.PrevSibling = nil then Node.Parent.FirstChild := Node else Node.PrevSibling.NextSibling := Node; // reindex all following nodes Run := Destination; while Assigned(Run) do begin Inc(Run.Index); Run := Run.NextSibling; end; Inc(Destination.Parent.ChildCount); Include(Destination.Parent.States, vsHasChildren); AdjustTotalCount(Destination.Parent, Node.TotalCount, True); // Add the new node's height only if its parent is expanded. if (vsExpanded in Destination.Parent.States) and (vsVisible in Node.States) then AdjustTotalHeight(Destination.Parent, Node.TotalHeight, True); if FullyVisible[Node] then Inc(FVisibleCount, CountVisibleChildren(Node) + 1); end; amInsertAfter: begin Node.NextSibling := Destination.NextSibling; Destination.NextSibling := Node; Node.PrevSibling := Destination; Node.Parent := Destination.Parent; if Node.NextSibling = nil then Node.Parent.LastChild := Node else Node.NextSibling.PrevSibling := Node; Node.Index := Destination.Index; // reindex all following nodes Run := Node; while Assigned(Run) do begin Inc(Run.Index); Run := Run.NextSibling; end; Inc(Destination.Parent.ChildCount); Include(Destination.Parent.States, vsHasChildren); AdjustTotalCount(Destination.Parent, Node.TotalCount, True); // Add the new node's height only if its parent is expanded. if vsExpanded in Destination.Parent.States then AdjustTotalHeight(Destination.Parent, Node.TotalHeight, True); if FullyVisible[Node] then Inc(FVisibleCount, CountVisibleChildren(Node) + 1); end; amAddChildFirst: begin if Assigned(Destination.FirstChild) then begin // If there's a first child then there must also be a last child. Destination.FirstChild.PrevSibling := Node; Node.NextSibling := Destination.FirstChild; Destination.FirstChild := Node; end else begin // First child node at this location. Destination.FirstChild := Node; Destination.LastChild := Node; Node.NextSibling := nil; end; Node.PrevSibling := nil; Node.Parent := Destination; Node.Index := 0; // reindex all following nodes Run := Node.NextSibling; while Assigned(Run) do begin Inc(Run.Index); Run := Run.NextSibling; end; Inc(Destination.ChildCount); Include(Destination.States, vsHasChildren); AdjustTotalCount(Destination, Node.TotalCount, True); // Add the new node's height only if its parent is expanded. if (vsExpanded in Destination.States) and (vsVisible in Node.States) then AdjustTotalHeight(Destination, Node.TotalHeight, True); if FullyVisible[Node] then Inc(FVisibleCount, CountVisibleChildren(Node) + 1); end; amAddChildLast: begin if Assigned(Destination.LastChild) then begin // If there's a last child then there must also be a first child. Destination.LastChild.NextSibling := Node; Node.PrevSibling := Destination.LastChild; Destination.LastChild := Node; end else begin // first child node at this location Destination.FirstChild := Node; Destination.LastChild := Node; Node.PrevSibling := nil; end; Node.NextSibling := nil; Node.Parent := Destination; if Assigned(Node.PrevSibling) then Node.Index := Node.PrevSibling.Index + 1 else Node.Index := 0; Inc(Destination.ChildCount); Include(Destination.States, vsHasChildren); AdjustTotalCount(Destination, Node.TotalCount, True); // Add the new node's height only if its parent is expanded. if (vsExpanded in Destination.States) and (vsVisible in Node.States) then AdjustTotalHeight(Destination, Node.TotalHeight, True); if FullyVisible[Node] then Inc(FVisibleCount, CountVisibleChildren(Node) + 1); end; else // amNoWhere: do nothing end; // Remove temporary states. Node.States := Node.States - [vsChecking, vsCutOrCopy, vsDeleting, vsClearing]; // Update the hidden children flag of the parent. if (Mode <> amNoWhere) and (Node.Parent <> FRoot) then begin // If we have added a visible node then simply remove the all-children-hidden flag. if vsVisible in Node.States then Exclude(Node.Parent.States, vsAllChildrenHidden) else // If we have added an invisible node and this is the only child node then // make sure the all-children-hidden flag is in a determined state. // If there were child nodes before then no action is needed. if Node.Parent.ChildCount = 1 then Include(Node.Parent.States, vsAllChildrenHidden); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.InternalData(Node: PVirtualNode): Pointer; begin Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InternalDisconnectNode(Node: PVirtualNode; KeepFocus: Boolean; Reindex: Boolean = True); // Disconnects the given node from its parent and siblings. The node's pointer are not reset so they can still be used // after return from this method (probably a very short time only!). // If KeepFocus is True then the focused node is not reset. This is useful if the given node is reconnected to the tree // immediately after return of this method and should stay being the focused node if it was it before. // Note: Node must not be nil or the root node. var Parent, Run: PVirtualNode; Index: Integer; AdjustHeight: Boolean; begin Assert(Assigned(Node) and (Node <> FRoot), 'Node must neither be nil nor the root node.'); if (Node = FFocusedNode) and not KeepFocus then begin DoFocusNode(nil, False); DoFocusChange(FFocusedNode, FFocusedColumn); end; if Node = FRangeAnchor then ResetRangeAnchor; // Update the hidden children flag of the parent. if (Node.Parent <> FRoot) and not (vsClearing in Node.Parent.States) then if FUpdateCount = 0 then DetermineHiddenChildrenFlag(Node.Parent) else Include(FStates, tsUpdateHiddenChildrenNeeded); if not (vsDeleting in Node.States) then begin // Some states are only temporary so take them out. Node.States := Node.States - [vsChecking]; Parent := Node.Parent; Dec(Parent.ChildCount); AdjustHeight := (vsExpanded in Parent.States) and (vsVisible in Node.States); if Parent.ChildCount = 0 then begin Parent.States := Parent.States - [vsAllChildrenHidden, vsHasChildren]; if (Parent <> FRoot) and (vsExpanded in Parent.States) then begin AdjustHeight := vsVisible in Node.States; Exclude(Parent.States, vsExpanded); end; end; AdjustTotalCount(Parent, -Integer(Node.TotalCount), True); if AdjustHeight then AdjustTotalHeight(Parent, -Integer(Node.TotalHeight), True); if FullyVisible[Node] then Dec(FVisibleCount, CountVisibleChildren(Node) + 1); if Assigned(Node.PrevSibling) then Node.PrevSibling.NextSibling := Node.NextSibling else Parent.FirstChild := Node.NextSibling; if Assigned(Node.NextSibling) then begin Node.NextSibling.PrevSibling := Node.PrevSibling; // Reindex all following nodes. if Reindex then begin Run := Node.NextSibling; Index := Node.Index; while Assigned(Run) do begin Run.Index := Index; Inc(Index); Run := Run.NextSibling; end; end; end else Parent.LastChild := Node.PrevSibling; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InternalRemoveFromSelection(Node: PVirtualNode); // Special version to mark a node to be no longer in the current selection. PackArray must // be used to remove finally those entries. var Index: Integer; begin // Because pointers are always DWORD aligned we can simply increment all those // which we want to have removed (see also PackArray) and still have the // order in the list preserved. if FindNodeInSelection(Node, Index, -1, -1) then begin Exclude(Node.States, vsSelected); Inc(Cardinal(FSelection[Index])); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InvalidateCache; // Marks the cache as invalid. begin DoStateChange([tsValidationNeeded], [tsUseCache]); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.MarkCutCopyNodes; // Sets the vsCutOrCopy style in every currently selected but not disabled node to indicate it is // now part of a clipboard operation. var Nodes: TNodeArray; I: Integer; begin Nodes := nil; if FSelectionCount > 0 then begin // need the current selection sorted to exclude selected nodes which are children, grandchildren etc. of // already selected nodes Nodes := GetSortedSelection(False); for I := 0 to High(Nodes) do with Nodes[I]^ do if not (vsDisabled in States) then Include(States, vsCutOrCopy); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.Loaded; var LastRootCount: Cardinal; IsReadOnly: Boolean; begin inherited; // If a root node count has been set during load of the tree then update its child structure now // as this hasn't been done yet in this case. if (tsNeedRootCountUpdate in FStates) and (FRoot.ChildCount > 0) then begin DoStateChange([], [tsNeedRootCountUpdate]); IsReadOnly := toReadOnly in FOptions.FMiscOptions; Exclude(FOptions.FMiscOptions, toReadOnly); LastRootCount := FRoot.ChildCount; FRoot.ChildCount := 0; BeginUpdate; SetChildCount(FRoot, LastRootCount); EndUpdate; if IsReadOnly then Include(FOptions.FMiscOptions, toReadOnly); end; // Prevent the object inspector at design time from marking the header as being modified // when auto resize is enabled. Updating; try FHeader.UpdateMainColumn; FHeader.FColumns.FixPositions; if toAutoBidiColumnOrdering in FOptions.FAutoOptions then FHeader.FColumns.ReorderColumns(UseRightToLeftAlignment); FHeader.RecalculateHeader; if hoAutoResize in FHeader.FOptions then FHeader.FColumns.AdjustAutoSize(InvalidColumn, True); finally Updated; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.MainColumnChanged; begin DoCancelEdit; {$ifdef EnableAccessible} NotifyWinEvent(EVENT_OBJECT_NAMECHANGE, Handle, OBJID_CLIENT, CHILDID_SELF); {$endif} end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.MouseMove(Shift: TShiftState; X, Y: Integer); var R: TRect; NewCursor: TCursor; begin // lcl: Adjust cursor if ([tsWheelPanning, tsWheelScrolling] * FStates = []) then begin // Apply own cursors only if there is no global cursor set. if Screen.Cursor = crDefault then begin if (toHotTrack in FOptions.PaintOptions) and Assigned(FCurrentHotNode) and (FHotCursor <> crDefault) then NewCursor := FHotCursor else NewCursor := crDefault; DoGetCursor(NewCursor); Cursor := NewCursor; end; end; // Remove current selection in case the user clicked somewhere in the window (but not a node) // and moved the mouse. if tsDrawSelPending in FStates then begin if CalculateSelectionRect(X, Y) then begin InvalidateRect(Handle, @FNewSelRect, False); UpdateWindow(Handle); if (Abs(FNewSelRect.Right - FNewSelRect.Left) > DragManager.DragThreshold) or (Abs(FNewSelRect.Bottom - FNewSelRect.Top) > DragManager.DragThreshold) then begin if tsClearPending in FStates then begin DoStateChange([], [tsClearPending]); ClearSelection; end; DoStateChange([tsDrawSelecting], [tsDrawSelPending]); // reset to main column for multiselection FocusedColumn := FHeader.MainColumn; // The current rectangle may already include some node captions. Handle this. if HandleDrawSelection(X, Y) then InvalidateRect(Handle, nil, False); end; end; end else begin // If both wheel panning and auto scrolling are pending then the user moved the mouse while holding down the // middle mouse button. This means panning is being used, hence remove the wheel scroll flag. if [tsWheelPanning, tsWheelScrolling] * FStates = [tsWheelPanning, tsWheelScrolling] then begin if ((Abs(FLastClickPos.X - X) >= DragManager.DragThreshold) or (Abs(FLastClickPos.Y - Y) >= DragManager.DragThreshold)) then DoStateChange([], [tsWheelScrolling]); end; // Really start dragging if the mouse has been moved more than the threshold. if (tsOLEDragPending in FStates) and ((Abs(FLastClickPos.X - X) >= FDragThreshold) or (Abs(FLastClickPos.Y - Y) >= FDragThreshold)) then DoDragging(FLastClickPos) else begin if CanAutoScroll then DoAutoScroll(X, Y); if [tsWheelPanning, tsWheelScrolling] * FStates <> [] then AdjustPanningCursor(X, Y); if not IsMouseSelecting then begin HandleHotTrack(X, Y); inherited MouseMove(Shift, X, Y); end else begin // Handle draw selection if required, but don't do the work twice if the // auto scrolling code already cares about the selection. if not (tsScrolling in FStates) and CalculateSelectionRect(X, Y) then begin // If something in the selection changed then invalidate the entire // tree instead trying to figure out the display rects of all changed nodes. if HandleDrawSelection(X, Y) then InvalidateRect(Handle, nil, False) else begin UnionRect(R, OrderRect(FNewSelRect), OrderRect(FLastSelRect)); OffsetRect(R, -FEffectiveOffsetX, FOffsetY); InvalidateRect(Handle, @R, False); end; UpdateWindow(Handle); end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.Notification(AComponent: TComponent; Operation: TOperation); begin if (AComponent <> Self) and (Operation = opRemove) then begin // Check for components linked to the tree. if AComponent = FImages then begin Images := nil; if not (csDestroying in ComponentState) then Invalidate; end else if AComponent = FStateImages then begin StateImages := nil; if not (csDestroying in ComponentState) then Invalidate; end else if AComponent = PopupMenu then PopupMenu := nil else // Check for components linked to the header. if Assigned(FHeader) then begin if AComponent = FHeader.FImages then FHeader.Images := nil else if AComponent = FHeader.PopupMenu then FHeader.PopupMenu := nil; end; end; inherited; end; //---------------------------------------------------------------------------------------------------------------------- {$ifdef EnableNCFunctions} procedure TBaseVirtualTree.OriginalWMNCPaint(DC: HDC); // Unfortunately, the painting for the non-client area in TControl is not always correct and does also not consider // existing clipping regions, so it has been modified here to take this into account. const InnerStyles: array[TBevelCut] of Integer = (0, BDR_SUNKENINNER, BDR_RAISEDINNER, 0); OuterStyles: array[TBevelCut] of Integer = (0, BDR_SUNKENOUTER, BDR_RAISEDOUTER, 0); EdgeStyles: array[TBevelKind] of Integer = (0, 0, BF_SOFT, BF_FLAT); Ctl3DStyles: array[Boolean] of Integer = (BF_MONO, 0); var RC, RW: TRect; EdgeSize: Integer; Size: TSize; begin if (BevelKind <> bkNone) or (BorderWidth > 0) then begin RC := Rect(0, 0, Width, Height); Size := GetBorderDimensions; InflateRect(RC, Size.cx, Size.cy); RW := RC; if BevelKind <> bkNone then begin DrawEdge(DC, RC, InnerStyles[BevelInner] or OuterStyles[BevelOuter], Byte(BevelEdges) or EdgeStyles[BevelKind] or Ctl3DStyles[Ctl3D]); EdgeSize := 0; if BevelInner <> bvNone then Inc(EdgeSize, BevelWidth); if BevelOuter <> bvNone then Inc(EdgeSize, BevelWidth); with RC do begin if beLeft in BevelEdges then Inc(Left, EdgeSize); if beTop in BevelEdges then Inc(Top, EdgeSize); if beRight in BevelEdges then Dec(Right, EdgeSize); if beBottom in BevelEdges then Dec(Bottom, EdgeSize); end; end; // Repaint only the part in the original clipping region and not yet drawn parts. IntersectClipRect(DC, RC.Left, RC.Top, RC.Right, RC.Bottom); // Determine inner rectangle to exclude (RC corresponds then to the client area). InflateRect(RC, -BorderWidth, -BorderWidth); // Remove the inner rectangle. ExcludeClipRect(DC, RC.Left, RC.Top, RC.Right, RC.Bottom); // Erase parts not drawn. Brush.Color := FColors.BorderColor; Windows.FillRect(DC, RW, Brush.Handle); end; end; {$endif} //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.Paint; // Window paint routine. Used when the tree window needs to be updated. var Window: TRect; Target: TPoint; Temp: Integer; Options: TVTInternalPaintOptions; RTLOffset: Integer; begin Logger.EnterMethod([lcPaint],'Paint'); Options := [poBackground, poColumnColor, poDrawFocusRect, poDrawDropMark, poDrawSelection, poGridLines]; if UseRightToLeftAlignment and FHeader.UseColumns then RTLOffset := ComputeRTLOffset(True) else RTLOffset := 0; // The update rect has already been filled in WMPaint, as it is the window's update rect, which gets // reset when BeginPaint is called (in the ancestor). // The difference to the DC's clipbox is that it is also valid with internal paint operations used // e.g. by the Explorer while dragging, but show window content while dragging is disabled. if not IsRectEmpty(FUpdateRect) then begin Temp := Header.Columns.GetVisibleFixedWidth; if Temp = 0 then begin Window := FUpdateRect; Target := Window.TopLeft; //lclheader if hoVisible in FHeader.FOptions then begin Inc(Target.Y,FHeader.Height); Dec(Window.Bottom,FHeader.Height); if RectVisible(Canvas.Handle,FHeaderRect) then begin Logger.Send([lcPaintHeader],'RectVisible = True'); FHeader.FColumns.PaintHeader(Canvas.Handle, FHeaderRect, -FEffectiveOffsetX); end; with FHeaderRect do ExcludeClipRect(Canvas.Handle,Left,Top,Right,Bottom); end; // The clipping rectangle is given in client coordinates of the window. We have to convert it into // a sliding window of the tree image. Logger.Send([lcPaintDetails],'FEffectiveOffsetX: %d, RTLOffset: %d, OffsetY: %d',[FEffectiveOffsetX,RTLOffset,FOffsetY]); OffsetRect(Window, FEffectiveOffsetX - RTLOffset, -FOffsetY); //Logger.Active:=Logger.CalledBy('DoDragging'); PaintTree(Canvas, Window, Target, Options); //Logger.Active:=True; end else begin Logger.Send([lcPaint],'VisibleFixedWidth > 0'); // First part, fixed columns Window := ClientRect; Window.Right := Temp; Target := Window.TopLeft; //lclheader if hoVisible in FHeader.FOptions then begin Inc(Target.Y,FHeader.Height); Dec(Window.Bottom,FHeader.Height); if RectVisible(Canvas.Handle,FHeaderRect) then begin Logger.Send([lcPaintHeader],'RectVisible = True'); FHeader.FColumns.PaintHeader(Canvas.Handle, FHeaderRect, -FEffectiveOffsetX); end; with FHeaderRect do ExcludeClipRect(Canvas.Handle,Left,Top,Right,Bottom); end; OffsetRect(Window, -RTLOffset, -FOffsetY); PaintTree(Canvas, Window, Target, Options); // Second part, other columns Window := GetClientRect; if Temp > Window.Right then begin Logger.ExitMethod([lcPaint],'Paint'); Exit; end; Window.Left := Temp; Target := Window.TopLeft; //lclheader if hoVisible in FHeader.FOptions then begin Inc(Target.Y,FHeader.Height); Dec(Window.Bottom,FHeader.Height); end; OffsetRect(Window, FEffectiveOffsetX - RTLOffset, -FOffsetY); PaintTree(Canvas, Window, Target, Options); end; end; Logger.ExitMethod([lcPaint],'Paint'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.PaintCheckImage(const PaintInfo: TVTPaintInfo); {$ifdef ThemeSupport} var R: TRect; Details: TThemedElementDetails; {$endif ThemeSupport} begin Logger.EnterMethod([lcCheck],'PaintCheckImage'); with PaintInfo, ImageInfo[iiCheck] do begin {$ifdef ThemeSupport} if (tsUseThemes in FStates) and (FCheckImageKind <> ckCustom) then begin R := Rect(XPos - 1, YPos, XPos + 16, YPos + 16); Details.Element := teButton; case Index of 0..8: // radio buttons begin Details.Part := BP_RADIOBUTTON; Details.State := Index; end; 9..20: // check boxes begin Details.Part := BP_CHECKBOX; Details.State := Index - 8; end; 21..24: // buttons begin Details.Part := BP_PUSHBUTTON; Details.State := Index - 20; end; else Details.Part := 0; Details.State := 0; end; ThemeServices.DrawElement(Canvas.Handle, Details, R); if Index in [21..24] then UtilityImages.Draw(Canvas, XPos - 1, YPos, 4); end else {$endif ThemeSupport} with FCheckImages do begin DirectMaskBlt(PaintInfo.Canvas.Handle, XPos, YPos, Height, Height, Canvas.Handle, Index * Height, 0, MaskHandle); end; end; Logger.ExitMethod([lcCheck],'PaintCheckImage'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.PaintImage(var PaintInfo: TVTPaintInfo; ImageInfoIndex: TVTImageInfoIndex; DoOverlay: Boolean); const Style: array[TImageType] of Cardinal = (0, ILD_MASK); var CutNode: Boolean; PaintFocused: Boolean; DrawEnabled: Boolean; begin with PaintInfo do begin CutNode := (vsCutOrCopy in Node.States) and (tsCutPending in FStates); PaintFocused := Focused or (toGhostedIfUnfocused in FOptions.FPaintOptions); // Since the overlay image must be specified together with the image to draw // it is meaningfull to retrieve it in advance. if DoOverlay then GetImageIndex(PaintInfo, ikOverlay, iiOverlay, Images) else PaintInfo.ImageInfo[iiOverlay].Index := -1; DrawEnabled := not (vsDisabled in Node.States) and Enabled; with ImageInfo[ImageInfoIndex] do begin if (vsSelected in Node.States) and not (Ghosted or CutNode) then begin if PaintFocused or (toPopupMode in FOptions.FPaintOptions) then Images.BlendColor := FColors.FocusedSelectionColor else Images.BlendColor := FColors.UnfocusedSelectionColor; end else Images.BlendColor := Color; // Blend image if enabled and the tree has the focus (or ghosted images must be drawn also if unfocused) ... if (toUseBlendedImages in FOptions.FPaintOptions) and PaintFocused // ... and the image is ghosted... and (Ghosted or // ... or it is not the check image and the node is selected (but selection is not for the entire row)... ((vsSelected in Node.States) and not (toFullRowSelect in FOptions.FSelectionOptions) and not (toGridExtensions in FOptions.FMiscOptions)) or // ... or the node must be shown in cut mode. CutNode) then Images.DrawingStyle := dsSelected else Images.DrawingStyle := dsNormal; if (vsSelected in Node.States) and not Ghosted then Images.BlendColor := clDefault; Images.Draw(Canvas, XPos, YPos, Index); // Now, draw the overlay. // Delphi version has the ability to use the built in overlay indices of windows system image lists // Since this is system dependent the LCL version will support only custom overlays // Note: XPos and YPos are those of the normal images. if PaintInfo.ImageInfo[iiOverlay].Index >= 0 then ImageInfo[iiOverlay].Images.Draw(Canvas, XPos, YPos, ImageInfo[iiOverlay].Index); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.PaintNodeButton(Canvas: TCanvas; Node: PVirtualNode; const R: TRect; ButtonX, ButtonY: Integer; BidiMode: TBiDiMode); var Bitmap: TBitmap; XPos: Integer; begin Logger.EnterMethod([lcPaintDetails],'PaintNodeButton'); if vsExpanded in Node.States then Bitmap := FMinusBM else Bitmap := FPlusBM; // Draw the node's plus/minus button according to the directionality. if BidiMode = bdLeftToRight then XPos := R.Left + ButtonX else XPos := R.Right - ButtonX - Bitmap.Width; Logger.SendBitmap([lcPaintBitmap],'NodeButton',Bitmap); // Need to draw this masked. DirectMaskBlt(Canvas.Handle, XPos, R.Top + ButtonY, TreeButtonSize, TreeButtonSize, Bitmap.Canvas.Handle, 0, 0, Bitmap.MaskHandle); Logger.ExitMethod([lcPaintDetails],'PaintNodeButton'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.PaintTreeLines(const PaintInfo: TVTPaintInfo; VAlignment, IndentSize: Integer; LineImage: TLineImage); var I: Integer; XPos, Offset: Integer; NewStyles: TLineImage; begin Logger.EnterMethod([lcPaintDetails],'PaintTreeLines'); NewStyles := nil; with PaintInfo do begin if BidiMode = bdLeftToRight then begin XPos := CellRect.Left; Offset := FIndent; end else begin Offset := -Integer(FIndent); XPos := CellRect.Right + Offset; end; case FLineMode of lmBands: if poGridLines in PaintInfo.PaintOptions then begin // Convert the line images in correct bands. SetLength(NewStyles, Length(LineImage)); for I := IndentSize - 1 downto 0 do begin Logger.Send([lcPaintDetails],'FLineMode = lmBands'); if (vsExpanded in Node.States) and not (vsAllChildrenHidden in Node.States) then NewStyles[I] := ltLeft else case LineImage[I] of ltRight, ltBottomRight, ltTopDownRight, ltTopRight: NewStyles[I] := ltLeftBottom; ltNone: // Have to take over the image to the right of this one. A no line entry can never appear as // last entry so I don't need an end check here. if LineImage[I + 1] in [ltNone, ltTopRight] then NewStyles[I] := NewStyles[I + 1] else NewStyles[I] := ltLeft; ltTopDown: // Have to check the image to the right of this one. A top down line can never appear as // last entry so I don't need an end check here. if LineImage[I + 1] in [ltNone, ltTopRight] then NewStyles[I] := NewStyles[I + 1] else NewStyles[I] := ltLeft; end; end; PaintInfo.Canvas.Font.Color := FColors.GridLineColor; for I := 0 to IndentSize - 1 do begin DrawLineImage(PaintInfo, XPos, CellRect.Top, NodeHeight[Node] - 1, VAlignment, NewStyles[I], BidiMode <> bdLeftToRight); Inc(XPos, Offset); end; end; else // lmNormal Logger.Send([lcPaintDetails],'FLineMode = lmNormal'); Logger.Send([lcPaintDetails],'Brush.Color',PaintInfo.Canvas.Brush.Color); PaintInfo.Canvas.Font.Color := FColors.TreeLineColor; Logger.Send([lcPaintDetails],'Brush.Color',PaintInfo.Canvas.Font.Color); for I := 0 to IndentSize - 1 do begin DrawLineImage(PaintInfo, XPos, CellRect.Top, NodeHeight[Node], VAlignment, LineImage[I], BidiMode <> bdLeftToRight); Inc(XPos, Offset); end; end; end; Logger.ExitMethod([lcPaintDetails],'PaintTreeLines'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.PaintSelectionRectangle(Target: TCanvas; WindowOrgX: Integer; const SelectionRect: TRect; TargetRect: TRect); // Helper routine to draw a selection rectangle in the mode determined by DrawSelectionMode. var BlendRect: TRect; TextColorBackup, BackColorBackup: COLORREF; // used to restore forground and background colors when drawing a selection rectangle begin if ((FDrawSelectionMode = smDottedRectangle) and not (tsUseThemes in FStates)) or not MMXAvailable then begin // Classical selection rectangle using dotted borderlines. TextColorBackup := GetTextColor(Target.Handle); SetTextColor(Target.Handle, $FFFFFF); BackColorBackup := GetBkColor(Target.Handle); SetBkColor(Target.Handle, 0); Target.DrawFocusRect(SelectionRect); SetTextColor(Target.Handle, TextColorBackup); SetBkColor(Target.Handle, BackColorBackup); end else begin // Modern alpha blended style. OffsetRect(TargetRect, WindowOrgX, 0); if IntersectRect(BlendRect, OrderRect(SelectionRect), TargetRect) then begin OffsetRect(BlendRect, -WindowOrgX, 0); AlphaBlend(0, Target.Handle, BlendRect, Point(0, 0), bmConstantAlphaAndColor, FSelectionBlendFactor, ColorToRGB(FColors.SelectionRectangleBlendColor)); Target.Brush.Color := FColors.SelectionRectangleBorderColor; Target.FrameRect(SelectionRect); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.ReadChunk(Stream: TStream; Version: Integer; Node: PVirtualNode; ChunkType, ChunkSize: Integer): Boolean; // Called while loading a tree structure, Node is already valid (allocated) at this point. // The function handles the base and user chunks, any other chunk is marked as being unknown (result becomes False) // and skipped. descendants may handle them by overriding this method. // Returns True if the chunk could be handled, otherwise False. var ChunkBody: TBaseChunkBody; Run: PVirtualNode; LastPosition: Integer; begin case ChunkType of BaseChunk: begin // Load base chunk's body (chunk header has already been consumed). if Version > 1 then Stream.Read(ChunkBody, SizeOf(ChunkBody)) else begin with ChunkBody do begin // In version prior to 2 there was a smaller chunk body. Hence we have to read it entry by entry now. Stream.Read(ChildCount, SizeOf(ChildCount)); Stream.Read(NodeHeight, SizeOf(NodeHeight)); // TVirtualNodeStates was a byte sized type in version 1. States := []; Stream.Read(States, SizeOf(Byte)); // vsVisible is now in the place where vsSelected was before, but every node was visible in the old version // so we need to fix this too. if vsVisible in States then Include(States, vsSelected) else Include(States, vsVisible); Stream.Read(Align, SizeOf(Align)); Stream.Read(CheckState, SizeOf(CheckState)); Stream.Read(CheckType, SizeOf(CheckType)); end; end; with Node^ do begin // Set states first, in case the node is invisble. States := ChunkBody.States; NodeHeight := ChunkBody.NodeHeight; TotalHeight := NodeHeight; Align := ChunkBody.Align; CheckState := ChunkBody.CheckState; CheckType := ChunkBody.CheckType; ChildCount := ChunkBody.ChildCount; // Create and read child nodes. while ChunkBody.ChildCount > 0 do begin Run := MakeNewNode; Run.PrevSibling := Node.LastChild; if Assigned(Run.PrevSibling) then Run.Index := Run.PrevSibling.Index + 1; if Assigned(Node.LastChild) then Node.LastChild.NextSibling := Run else Node.FirstChild := Run; Node.LastChild := Run; Run.Parent := Node; ReadNode(Stream, Version, Run); Dec(ChunkBody.ChildCount); end; end; Result := True; end; UserChunk: if ChunkSize > 0 then begin // need to know whether the data was read LastPosition := Stream.Position; DoLoadUserData(Node, Stream); // compare stream position to learn whether the data was read Result := Stream.Position > LastPosition; // Improve stability by advancing the stream to the chunk's real end if // the application did not read what has been written. if not Result or (Stream.Position <> (LastPosition + ChunkSize)) then Stream.Position := LastPosition + ChunkSize; end else Result := True; else // unknown chunk, skip it Stream.Position := Stream.Position + ChunkSize; Result := False; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ReadNode(Stream: TStream; Version: Integer; Node: PVirtualNode); // Reads the anchor chunk of each node and initiates reading the sub chunks for this node var Header: TChunkHeader; EndPosition: Integer; begin with Stream do begin // Read anchor chunk of the node. Stream.Read(Header, SizeOf(Header)); if Header.ChunkType = NodeChunk then begin EndPosition := Stream.Position + Header.ChunkSize; // Read all subchunks until the indicated chunk end position is reached in the stream. while Position < EndPosition do begin // Read new chunk header. Stream.Read(Header, SizeOf(Header)); ReadChunk(Stream, Version, Node, Header.ChunkType, Header.ChunkSize); end; // If the last chunk does not end at the given end position then there is something wrong. if Position <> EndPosition then ShowError(SCorruptStream2, hcTFCorruptStream2); end else ShowError(SCorruptStream1, hcTFCorruptStream1); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.RedirectFontChangeEvent(Canvas: TCanvas); begin if @Canvas.Font.OnChange <> @FOldFontChange then begin FOldFontChange := Canvas.Font.OnChange; Canvas.Font.OnChange := FontChanged; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.RemoveFromSelection(Node: PVirtualNode); var Index: Integer; begin Assert(Assigned(Node), 'Node must not be nil!'); if vsSelected in Node.States then begin Exclude(Node.States, vsSelected); if FindNodeInSelection(Node, Index, -1, -1) and (Index < FSelectionCount - 1) then Move(FSelection[Index + 1], FSelection[Index], (FSelectionCount - Index - 1) * 4); if FSelectionCount > 0 then Dec(FSelectionCount); SetLength(FSelection, FSelectionCount); if FSelectionCount = 0 then ResetRangeAnchor; Change(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ResetRangeAnchor; // Called when there is no selected node anymore and the selection range anchor needs a new value. begin FRangeAnchor := FFocusedNode; FLastSelectionLevel := -1; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.RestoreFontChangeEvent(Canvas: TCanvas); begin Canvas.Font.OnChange := FOldFontChange; FOldFontChange := nil; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SelectNodes(StartNode, EndNode: PVirtualNode; AddOnly: Boolean); // Selects a range of nodes and unselects all other eventually selected nodes which are not in this range if // AddOnly is False. // EndNode must be visible while StartNode does not necessarily as in the case where the last focused node is the start // node but it is a child of a node which has been collapsed previously. In this case the first visible parent node // is used as start node. StartNode can be nil in which case the very first node in the tree is used. var NodeFrom, NodeTo, LastAnchor: PVirtualNode; Index: Integer; begin Assert(Assigned(EndNode), 'EndNode must not be nil!'); ClearTempCache; if StartNode = nil then StartNode := FRoot.FirstChild else if not FullyVisible[StartNode] then begin StartNode := GetPreviousVisible(StartNode); if StartNode = nil then StartNode := FRoot.FirstChild end; if CompareNodePositions(StartNode, EndNode) < 0 then begin NodeFrom := StartNode; NodeTo := EndNode; end else begin NodeFrom := EndNode; NodeTo := StartNode; end; // The range anchor will be reset by the following call. LastAnchor := FRangeAnchor; if not AddOnly then InternalClearSelection; while NodeFrom <> NodeTo do begin InternalCacheNode(NodeFrom); NodeFrom := GetNextVisible(NodeFrom); end; // select last node too InternalCacheNode(NodeFrom); // now add them all in "one" step AddToSelection(FTempNodeCache, FTempNodeCount); ClearTempCache; if Assigned(LastAnchor) and FindNodeInSelection(LastAnchor, Index, -1, -1) then FRangeAnchor := LastAnchor; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SetFocusedNodeAndColumn(Node: PVirtualNode; Column: TColumnIndex); var OldColumn: TColumnIndex; WasDifferent: Boolean; begin WasDifferent := (Node <> FFocusedNode) or (Column <> FFocusedColumn); OldColumn := FFocusedColumn; FFocusedColumn := Column; DoFocusNode(Node, True); // Check if the change was accepted. if FFocusedNode = Node then begin CancelEditNode; if WasDifferent then DoFocusChange(FFocusedNode, FFocusedColumn); end else // If the user did not accept the new cell to focus then set also the focused column back // to its original state. FFocusedColumn := OldColumn; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SkipNode(Stream: TStream); // Skips the data for the next node in the given stream (including the child nodes). var Header: TChunkHeader; begin with Stream do begin // read achor chunk of the node Stream.Read(Header, SizeOf(Header)); if Header.ChunkType = NodeChunk then Stream.Position := Stream.Position + Header.ChunkSize else ShowError(SCorruptStream1, hcTFCorruptStream1); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.StartWheelPanning(Position: TPoint); // Called when wheel panning should start. A little helper window is created to indicate the reference position, // which determines in which direction and how far wheel panning/scrolling will happen. //--------------- local function -------------------------------------------- function CreateClipRegion: HRGN; // In order to avoid doing all the transparent drawing ourselves we use a // window region for the wheel window. // Since we only work on a very small image (32x32 pixels) this is acceptable. var Start, X, Y, ImageHeight, ImageWidth: Integer; Temp: HRGN; begin Assert(not FPanningWindow.Image.Empty, 'Invalid wheel panning image.'); ImageWidth:= FPanningWindow.Image.Width; ImageHeight:= FPanningWindow.Image.Height; // Create an initial region on which we operate. Result := CreateRectRgn(0, 0, 0, 0); with FPanningWindow.Image.Canvas do begin for Y := 0 to ImageHeight - 1 do begin Start := -1; for X := 0 to ImageWidth - 1 do begin // Start a new span if we found a non-transparent pixel and no span is currently started. if (Start = -1) and (Pixels[X, Y] <> clFuchsia) then Start := X else if (Start > -1) and (Pixels[X, Y] = clFuchsia) then begin // A non-transparent span is finished. Add it to the result region. Temp := CreateRectRgn(Start, Y, X, Y + 1); CombineRgn(Result, Result, Temp, RGN_OR); DeleteObject(Temp); Start := -1; end; end; // If there is an open span then add this also to the result region. if Start > -1 then begin Temp := CreateRectRgn(Start, Y, ImageWidth, Y + 1); CombineRgn(Result, Result, Temp, RGN_OR); DeleteObject(Temp); end; end; end; // The resulting region is used as window region so we must not delete it. // Windows will own it after the assignment below. end; //--------------- end local function ---------------------------------------- var ImageName: string; begin // Set both panning and scrolling flag. One will be removed shortly depending on whether the middle mouse button is // released before the mouse is moved or vice versa. The first case is referred to as wheel scrolling while the // latter is called wheel panning. KillTimer(Handle, ScrollTimer); DoStateChange([tsWheelPanning, tsWheelScrolling]); if FPanningWindow = nil then begin FPanningWindow := TVirtualPanningWindow.Create; LoadPanningCursors; end; FPanningWindow.Start(Handle, ClientToScreen(Position)); if Integer(FRangeX) > ClientWidth then begin if Integer(FRangeY) > ClientHeight then ImageName := 'VT_MOVEALL_BMP' else ImageName := 'VT_MOVEEW_BMP' end else ImageName := 'VT_MOVENS_BMP'; FPanningWindow.Image.LoadFromLazarusResource(ImageName); FPanningWindow.Show(CreateClipRegion); // Setup the panscroll timer and capture all mouse input. SetFocus; SetCapture(Handle); AdjustPanningCursor(Position.X, Position.Y); SetTimer(Handle, ScrollTimer, 20, nil); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.StopWheelPanning; // Stops panning if currently active and destroys the helper window. begin if [tsWheelPanning, tsWheelScrolling] * FStates <> [] then begin // Release the mouse capture and stop the panscroll timer. KillTimer(Handle, ScrollTimer); ReleaseCapture; DoStateChange([], [tsWheelPanning, tsWheelScrolling]); FPanningWindow.Stop; {$ifndef Windows} Cursor := crDefault; {$endif} end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.StructureChange(Node: PVirtualNode; Reason: TChangeReason); begin AdviseChangeEvent(True, Node, Reason); if FUpdateCount = 0 then begin if (FChangeDelay > 0) and not (tsSynchMode in FStates) then SetTimer(Handle, StructureChangeTimer, FChangeDelay, nil) else DoStructureChange(Node, Reason); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.SuggestDropEffect(Source: TObject; Shift: TShiftState; Pt: TPoint; AllowedEffects: Integer): Integer; // determines the drop action to take if the drag'n drop operation ends on this tree // Note: Source can be any Delphi object not just a virtual tree begin Result := AllowedEffects; // prefer MOVE if source and target are the same control, otherwise whatever is allowed as initial value if Assigned(Source) and (Source = Self) then if (AllowedEffects and DROPEFFECT_MOVE) <> 0 then Result := DROPEFFECT_MOVE else // no change else // drag between different applicatons if (AllowedEffects and DROPEFFECT_COPY) <> 0 then Result := DROPEFFECT_COPY; // consider modifier keys and what is allowed at the moment, if none of the following conditions apply then // the initial value just set is used if ssCtrl in Shift then begin // copy or link if ssShift in Shift then begin // link if (AllowedEffects and DROPEFFECT_LINK) <> 0 then Result := DROPEFFECT_LINK; end else begin // copy if (AllowedEffects and DROPEFFECT_COPY) <> 0 then Result := DROPEFFECT_COPY; end; end else begin // move, link or default if ssShift in Shift then begin // move if (AllowedEffects and DROPEFFECT_MOVE) <> 0 then Result := DROPEFFECT_MOVE; end else begin // link or default if ssAlt in Shift then begin // link if (AllowedEffects and DROPEFFECT_LINK) <> 0 then Result := DROPEFFECT_LINK; end; // else default end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ToggleSelection(StartNode, EndNode: PVirtualNode); // Switchs the selection state of a range of nodes. // Note: This method is specifically designed to help selecting ranges with the keyboard and considers therefore // the range anchor. var NodeFrom, NodeTo: PVirtualNode; NewSize: Integer; Position: Integer; begin Assert(Assigned(EndNode), 'EndNode must not be nil!'); if StartNode = nil then StartNode := FRoot.FirstChild else if not FullyVisible[StartNode] then StartNode := GetPreviousVisible(StartNode); Position := CompareNodePositions(StartNode, EndNode); // nothing to do if start and end node are the same if Position <> 0 then begin if Position < 0 then begin NodeFrom := StartNode; NodeTo := EndNode; end else begin NodeFrom := EndNode; NodeTo := StartNode; end; ClearTempCache; // 1) toggle the start node if it is before the range anchor if CompareNodePositions(NodeFrom, FRangeAnchor) < 0 then if not (vsSelected in NodeFrom.States) then InternalCacheNode(NodeFrom) else InternalRemoveFromSelection(NodeFrom); // 2) toggle all nodes within the range NodeFrom := GetNextVisible(NodeFrom); while NodeFrom <> NodeTo do begin if not (vsSelected in NodeFrom.States) then InternalCacheNode(NodeFrom) else InternalRemoveFromSelection(NodeFrom); NodeFrom := GetNextVisible(NodeFrom); end; // 3) toggle end node if it is after the range anchor if CompareNodePositions(NodeFrom, FRangeAnchor) > 0 then if not (vsSelected in NodeFrom.States) then InternalCacheNode(NodeFrom) else InternalRemoveFromSelection(NodeFrom); // Do some housekeeping if there was a change. NewSize := PackArray(FSelection, FSelectionCount); if NewSize > -1 then begin FSelectionCount := NewSize; SetLength(FSelection, FSelectionCount); end; // If the range went over the anchor then we need to reselect it. if not (vsSelected in FRangeAnchor.States) then InternalCacheNode(FRangeAnchor); if FTempNodeCount > 0 then AddToSelection(FTempNodeCache, FTempNodeCount); ClearTempCache; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.UnselectNodes(StartNode, EndNode: PVirtualNode); // Deselects a range of nodes. // EndNode must be visible while StartNode must not as in the case where the last focused node is the start node // but it is a child of a node which has been collapsed previously. In this case the first visible parent node // is used as start node. StartNode can be nil in which case the very first node in the tree is used. var NodeFrom, NodeTo: PVirtualNode; NewSize: Integer; begin Assert(Assigned(EndNode), 'EndNode must not be nil!'); if StartNode = nil then StartNode := FRoot.FirstChild else if not FullyVisible[StartNode] then begin StartNode := GetPreviousVisible(StartNode); if StartNode = nil then StartNode := FRoot.FirstChild end; if CompareNodePositions(StartNode, EndNode) < 0 then begin NodeFrom := StartNode; NodeTo := EndNode; end else begin NodeFrom := EndNode; NodeTo := StartNode; end; while NodeFrom <> NodeTo do begin InternalRemoveFromSelection(NodeFrom); NodeFrom := GetNextVisible(NodeFrom); end; // Deselect last node too. InternalRemoveFromSelection(NodeFrom); // Do some housekeeping. NewSize := PackArray(FSelection, FSelectionCount); if NewSize > -1 then begin FSelectionCount := NewSize; SetLength(FSelection, FSelectionCount); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.UpdateDesigner; var ParentForm: TCustomForm; begin if (csDesigning in ComponentState) and not (csUpdating in ComponentState) then begin ParentForm := GetParentForm(Self); if Assigned(ParentForm) and Assigned(ParentForm.Designer) then ParentForm.Designer.Modified; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.UpdateHeaderRect; // Calculates the rectangle the header occupies in non-client area. // These coordinates are in window rectangle. var OffsetX, OffsetY: Integer; EdgeSize: Integer; Size: TSize; begin Logger.EnterMethod([lcPaintHeader],'UpdateHeaderRect'); FHeaderRect := Rect(0, 0, Width, Height); // Consider borders... Size := GetBorderDimensions; //lclheader //Adjust rect size Inc(FHeaderRect.Right,Size.cx*2); // ... and bevels. OffsetX := BorderWidth; OffsetY := BorderWidth; //todo_lcl { if BevelKind <> bkNone then begin EdgeSize := 0; if BevelInner <> bvNone then Inc(EdgeSize, BevelWidth); if BevelOuter <> bvNone then Inc(EdgeSize, BevelWidth); if beLeft in BevelEdges then Inc(OffsetX, EdgeSize); if beTop in BevelEdges then Inc(OffsetY, EdgeSize); end; } InflateRect(FHeaderRect, -OffsetX, -OffsetY); if hoVisible in FHeader.FOptions then begin if FHeaderRect.Left <= FHeaderRect.Right then FHeaderRect.Bottom := FHeaderRect.Top + Integer(FHeader.FHeight) else FHeaderRect := Rect(0, 0, 0, 0); end else FHeaderRect.Bottom := FHeaderRect.Top; Logger.Send([lcPaintHeader],'FHeaderRect',FHeaderRect); Logger.ExitMethod([lcPaintHeader],'UpdateHeaderRect'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.UpdateEditBounds; // Used to update the bounds of the current node editor if editing is currently active. var R: TRect; Dummy: Integer; CurrentAlignment: TAlignment; CurrentBidiMode: TBidiMode; begin if tsEditing in FStates then begin if vsMultiline in FFocusedNode.States then R := GetDisplayRect(FFocusedNode, FEditColumn, True, False) else R := GetDisplayRect(FFocusedNode, FEditColumn, True, True); if (toGridExtensions in FOptions.FMiscOptions) then begin // Adjust edit bounds depending on alignment and bidi mode. if FEditColumn = NoColumn then begin CurrentAlignment := Alignment; CurrentBidiMode := BiDiMode; end else begin CurrentAlignment := FHeader.Columns[FEditColumn].FAlignment; CurrentBidiMode := FHeader.Columns[FEditColumn].FBidiMode; end; // Consider bidi mode here. In RTL context does left alignment actually mean right alignment and vice versa. if CurrentBidiMode <> bdLeftToRight then ChangeBiDiModeAlignment(CurrentAlignment); if CurrentAlignment = taLeftJustify then FHeader.Columns.GetColumnBounds(FEditColumn, Dummy, R.Right) else FHeader.Columns.GetColumnBounds(FEditColumn, R.Left, Dummy); end; if toShowHorzGridLines in TreeOptions.PaintOptions then Dec(R.Bottom); FEditLink.SetBounds(R); end; end; //---------------------------------------------------------------------------------------------------------------------- const ScrollMasks: array[Boolean] of Cardinal = (0, SIF_DISABLENOSCROLL); const // Region identifiers for GetRandomRgn CLIPRGN = 1; METARGN = 2; APIRGN = 3; SYSRGN = 4; procedure TBaseVirtualTree.UpdateWindowAndDragImage(const Tree: TBaseVirtualTree; TreeRect: TRect; UpdateNCArea, ReshowDragImage: Boolean); // Method to repaint part of the window area which is not covered by the drag image and to initiate a recapture // of the drag image. // Note: This method must only be called during a drag operation and the tree passed in is the one managing the current // drag image (so it is the actual drag source). var DragRegion, // the region representing the drag image UpdateRegion, // the unclipped region within the tree to be updated NCRegion: HRGN; // the region representing the non-client area of the tree DragRect, NCRect: TRect; RedrawFlags: Cardinal; VisibleTreeRegion: HRGN; DC: HDC; begin if IntersectRect(TreeRect, TreeRect, ClientRect) then begin // Retrieve the visible region of the window. This is important to avoid overpainting parts of other windows // which overlap this one. VisibleTreeRegion := CreateRectRgn(0, 0, 1, 1); DC := GetDCEx(Handle, 0, DCX_CACHE or DCX_WINDOW or DCX_CLIPSIBLINGS or DCX_CLIPCHILDREN); GetRandomRgn(DC, VisibleTreeRegion, SYSRGN); ReleaseDC(Handle, DC); // In Win9x the returned visible region is given in client coordinates. We need it in screen coordinates, though. if not IsWinNT then with ClientToScreen(Point(0, 0)) do OffsetRgn(VisibleTreeRegion, X, Y); // The drag image will figure out itself what part of the rectangle can be recaptured. // Recapturing is not done by taking a snapshot of the screen, but by letting the tree draw itself // into the back bitmap of the drag image. So the order here is unimportant. Tree.FDragImage.RecaptureBackground(Self, TreeRect, VisibleTreeRegion, UpdateNCArea, ReshowDragImage); // Calculate the screen area not covered by the drag image and which needs an update. DragRect := Tree.FDragImage.GetDragImageRect; MapWindowPoints(0, Handle, DragRect, 2); DragRegion := CreateRectRgnIndirect(DragRect); // Start with non-client area if requested. if UpdateNCArea then begin // Compute the part of the non-client area which must be updated. // Determine the outer rectangle of the entire tree window. GetWindowRect(Handle, NCRect); // Express the tree window rectangle in client coordinates (because RedrawWindow wants them so). MapWindowPoints(0, Handle, NCRect, 2); NCRegion := CreateRectRgnIndirect(NCRect); // Determine client rect in screen coordinates and create another region for it. UpdateRegion := CreateRectRgnIndirect(ClientRect); // Create a region which only contains the NC part by subtracting out the client area. CombineRgn(NCRegion, NCRegion, UpdateRegion, RGN_DIFF); // Subtract also out what is hidden by the drag image. CombineRgn(NCRegion, NCRegion, DragRegion, RGN_DIFF); RedrawWindow(Handle, nil, NCRegion, RDW_FRAME or RDW_NOERASE or RDW_NOCHILDREN or RDW_INVALIDATE or RDW_VALIDATE or RDW_UPDATENOW); DeleteObject(NCRegion); DeleteObject(UpdateRegion); end; UpdateRegion := CreateRectRgnIndirect(TreeRect); RedrawFlags := RDW_INVALIDATE or RDW_VALIDATE or RDW_UPDATENOW or RDW_NOERASE or RDW_NOCHILDREN; // Remove the part of the update region which is covered by the drag image. CombineRgn(UpdateRegion, UpdateRegion, DragRegion, RGN_DIFF); RedrawWindow(Handle, nil, UpdateRegion, RedrawFlags); DeleteObject(UpdateRegion); DeleteObject(DragRegion); DeleteObject(VisibleTreeRegion); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ValidateCache; // Starts cache validation if not already done by adding this instance to the worker thread's waiter list // (if not already there) and signalling the thread it can start validating. begin // Wait for thread to stop validation if it is currently validating this tree's cache. InterruptValidation; FStartIndex := 0; {$ifdef EnableThreadSupport} if tsValidationNeeded in FStates then begin // Tell the thread this tree needs actually something to do. WorkerThread.AddTree(Self); WorkEvent.SetEvent; end; {$endif} end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ValidateNodeDataSize(var Size: Integer); begin Size := 0; if Assigned(FOnGetNodeDataSize) then FOnGetNodeDataSize(Self, Size); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WndProc(var Message: TLMessage); var Handled: Boolean; begin Handled := False; // Try the header whether it needs to take this message. if Assigned(FHeader) and (FHeader.FStates <> []) then Handled := FHeader.HandleMessage(Message); if not Handled then begin // For auto drag mode, let tree handle itself, instead of TControl. if not (csDesigning in ComponentState) and ((Message.Msg = LM_LBUTTONDOWN) or (Message.Msg = LM_LBUTTONDBLCLK)) then begin //lclheader //when FHeader.FStates = [] it comes until here unlike Delphi (uses NC messages) //skip this code when is clicked inside the header if (DragMode = dmAutomatic) and (DragKind = dkDrag) and not FHeader.InHeader(SmallPointToPoint(TLMMouse(Message).Pos)) then begin if IsControlMouseMsg(TLMMouse(Message)) then Handled := True; if not Handled then begin ControlState := ControlState + [csLButtonDown]; Dispatch(Message); // overrides TControl's BeginDrag Handled := True; end; end; end; if not Handled and Assigned(FHeader) then Handled := FHeader.HandleMessage(Message); if not Handled then begin //lcl: probably not necessary //if (Message.Msg in [WM_NCLBUTTONDOWN, WM_NCRBUTTONDOWN, WM_NCMBUTTONDOWN]) and not Focused and CanFocus then // SetFocus; inherited; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WriteChunks(Stream: TStream; Node: PVirtualNode); // Writes the core chunks for Node into the stream. // Note: descendants can optionally override this method to add other node specific chunks. // Keep in mind that this method is also called for the root node. Using this fact in descendants you can // create a kind of "global" chunks not directly bound to a specific node. var Header: TChunkHeader; LastPosition, ChunkSize: Integer; Chunk: TBaseChunk; Run: PVirtualNode; begin with Stream do begin // 1. The base chunk... LastPosition := Position; Chunk.Header.ChunkType := BaseChunk; with Node^, Chunk do begin Body.ChildCount := ChildCount; Body.NodeHeight := NodeHeight; // Some states are only temporary so take them out as they make no sense at the new location. Body.States := States - [vsChecking, vsCutOrCopy, vsDeleting, vsInitialUserData, vsHeightMeasured]; Body.Align := Align; Body.CheckState := CheckState; Body.CheckType := CheckType; Body.Reserved := 0; end; // write the base chunk Write(Chunk, SizeOf(Chunk)); // 2. ... directly followed by the child node chunks (actually they are child chunks of // the base chunk) if vsInitialized in Node.States then begin Run := Node.FirstChild; while Assigned(Run) do begin WriteNode(Stream, Run); Run := Run.NextSibling; end; end; FinishChunkHeader(Stream, LastPosition, Position); // 3. write user data LastPosition := Position; Header.ChunkType := UserChunk; Write(Header, SizeOf(Header)); DoSaveUserData(Node, Stream); // check if the application actually wrote data ChunkSize := Position - LastPosition - SizeOf(TChunkHeader); // seek back to start of chunk if nothing has been written if ChunkSize = 0 then begin Position := LastPosition; Size := Size - SizeOf(Header); end else FinishChunkHeader(Stream, LastPosition, Position); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.WriteNode(Stream: TStream; Node: PVirtualNode); // Writes the "cover" chunk for Node to Stream and initiates writing child nodes and chunks. var LastPosition: Integer; Header: TChunkHeader; begin // Initialize the node first if necessary and wanted. if toInitOnSave in FOptions.FMiscOptions then begin if not (vsInitialized in Node.States) then InitNode(Node); if (vsHasChildren in Node.States) and (Node.ChildCount = 0) then InitChildren(Node); end; with Stream do begin LastPosition := Position; // Emit the anchor chunk. Header.ChunkType := NodeChunk; Write(Header, SizeOf(Header)); // Write other chunks to stream taking their size into this chunk's size. WriteChunks(Stream, Node); // Update chunk size. FinishChunkHeader(Stream, LastPosition, Position); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.AbsoluteIndex(Node: PVirtualNode): Cardinal; begin Result := 0; while Assigned(Node) and (Node <> FRoot) do begin if not (vsInitialized in Node.States) then InitNode(Node); if Assigned(Node.PrevSibling) then begin // if there's a previous sibling then add its total count to the result Node := Node.PrevSibling; Inc(Result, Node.TotalCount); end else begin Node := Node.Parent; if Node <> FRoot then Inc(Result); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.AddChild(Parent: PVirtualNode; UserData: Pointer = nil): PVirtualNode; // Adds a new node to the given parent node. This is simply done by increasing the child count of the // parent node. If Parent is nil then the new node is added as (last) top level node. // UserData can be used to set the first 4 bytes of the user data area to an initial value which can be used // in OnInitNode and will also cause to trigger the OnFreeNode event (if <> nil) even if the node is not yet // "officially" initialized. // AddChild is a compatibility method and will implicitly validate the parent node. This is however // against the virtual paradigm and hence I dissuade from its usage. var NodeData: ^Pointer; begin if not (toReadOnly in FOptions.FMiscOptions) then begin CancelEditNode; if Parent = nil then Parent := FRoot; if not (vsInitialized in Parent.States) then InitNode(Parent); // Locally stop updates of the tree in order to avoid usage of the new node before it is correctly set up. // If the update count was 0 on enter then there will be a correct update at the end of this method. Inc(FUpdateCount); try SetChildCount(Parent, Parent.ChildCount + 1); // Update the hidden children flag of the parent. Nodes are added as being visible by default. Exclude(Parent.States, vsAllChildrenHidden); finally Dec(FUpdateCount); end; Result := Parent.LastChild; // Check if there is initial user data and there is also enough user data space allocated. if Assigned(UserData) then if FNodeDataSize >= 4 then begin NodeData := Pointer(PChar(@Result.Data) + FTotalInternalDataSize); NodeData^ := UserData; Include(Result.States, vsInitialUserData); end else ShowError(SCannotSetUserData, hcTFCannotSetUserData); InvalidateCache; if FUpdateCount = 0 then begin ValidateCache; if tsStructureChangePending in FStates then begin if Parent = FRoot then StructureChange(nil, crChildAdded) else StructureChange(Parent, crChildAdded); end; if (toAutoSort in FOptions.FAutoOptions) and (FHeader.FSortColumn > InvalidColumn) then Sort(Parent, FHeader.FSortColumn, FHeader.FSortDirection, True); InvalidateToBottom(Parent); //Calling UpdateHorizontalScrollBar without a header leads to a //wrong NodeWidth because the node is not initialized at this time. //As result the horizontal scrollbar is not correctly //sized and the node can not be selected by a click. if HandleAllocated then UpdateVerticalScrollBar(True) end; end else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AddFromStream(Stream: TStream; TargetNode: PVirtualNode); // loads nodes from the given stream and adds them to TargetNode // the current content is not cleared before the load process starts (see also LoadFromStream) var ThisID: TMagicID; Version, Count: Cardinal; Node: PVirtualNode; begin if not (toReadOnly in FOptions.FMiscOptions) then begin // check first whether this is a stream we can read Stream.ReadBuffer(ThisID, SizeOf(TMagicID)); if (ThisID[0] = MagicID[0]) and (ThisID[1] = MagicID[1]) and (ThisID[2] = MagicID[2]) and (ThisID[5] = MagicID[5]) then begin Version := Word(ThisID[3]); if Version <= VTTreeStreamVersion then begin BeginUpdate; try if Version < 2 then Count := MaxInt else Stream.ReadBuffer(Count, SizeOf(Count)); while (Stream.Position < Stream.Size) and (Count > 0) do begin Dec(Count); Node := MakeNewNode; InternalConnectNode(Node, TargetNode, Self, amAddChildLast); InternalAddFromStream(Stream, Version, Node); end; if TargetNode = FRoot then DoNodeCopied(nil) else DoNodeCopied(TargetNode); finally EndUpdate; end; end else ShowError(SWrongStreamVersion, hcTFWrongStreamVersion); end else ShowError(SWrongStreamVersion, hcTFWrongStreamVersion); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.AfterConstruction; begin inherited; if FRoot = nil then InitRootNode; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.Assign(Source: TPersistent); begin if (Source is TBaseVirtualTree) and not (toReadOnly in FOptions.FMiscOptions) then with Source as TBaseVirtualTree do begin Self.Align := Align; Self.Anchors := Anchors; Self.AutoScrollDelay := AutoScrollDelay; Self.AutoScrollInterval := AutoScrollInterval; Self.AutoSize := AutoSize; Self.Background := Background; //todo_lcl { Self.BevelEdges := BevelEdges; Self.BevelInner := BevelInner; Self.BevelKind := BevelKind; Self.BevelOuter := BevelOuter; Self.BevelWidth := BevelWidth; } Self.BiDiMode := BiDiMode; Self.BorderStyle := BorderStyle; Self.BorderWidth := BorderWidth; Self.ChangeDelay := ChangeDelay; Self.CheckImageKind := CheckImageKind; Self.Color := Color; Self.Colors.Assign(Colors); Self.Constraints.Assign(Constraints); Self.Ctl3D := Ctl3D; Self.DefaultNodeHeight := DefaultNodeHeight; Self.DefaultPasteMode := DefaultPasteMode; Self.DragCursor := DragCursor; Self.DragImageKind := DragImageKind; Self.DragKind := DragKind; Self.DragMode := DragMode; Self.Enabled := Enabled; Self.Font := Font; Self.Header := Header; Self.HintAnimation := HintAnimation; Self.HintMode := HintMode; Self.HotCursor := HotCursor; Self.Images := Images; //Self.ImeMode := ImeMode; //Self.ImeName := ImeName; Self.Indent := Indent; Self.Margin := Margin; Self.NodeAlignment := NodeAlignment; Self.NodeDataSize := NodeDataSize; Self.TreeOptions := TreeOptions; //Self.ParentBiDiMode := ParentBiDiMode; Self.ParentColor := ParentColor; Self.ParentCtl3D := ParentCtl3D; Self.ParentFont := ParentFont; Self.ParentShowHint := ParentShowHint; Self.PopupMenu := PopupMenu; Self.RootNodeCount := RootNodeCount; Self.ScrollBarOptions := ScrollBarOptions; Self.ShowHint := ShowHint; Self.StateImages := StateImages; Self.TabOrder := TabOrder; Self.TabStop := TabStop; Self.Visible := Visible; Self.SelectionCurveRadius := SelectionCurveRadius; Self.SelectionBlendFactor := SelectionBlendFactor; end else inherited; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.BeginDrag(Immediate: Boolean; Threshold: Integer); // Reintroduced method to allow to start OLE drag'n drop as well as VCL drag'n drop. begin Logger.EnterMethod([lcDrag],'BeginDrag'); if FDragType = dtVCL then begin DoStateChange([tsVCLDragPending]); inherited; end else if (FStates * [tsOLEDragPending, tsOLEDragging]) = [] then begin // Drag start position has already been recorded in WMMouseDown. if Threshold < 0 then FDragThreshold := DragManager.DragThreshold else FDragThreshold := Threshold; if Immediate then DoDragging(FLastClickPos) else DoStateChange([tsOLEDragPending]); end; Logger.ExitMethod([lcDrag],'BeginDrag'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.BeginSynch; // Starts the synchronous update mode (if not already active). begin if not (csDestroying in ComponentState) then begin if FSynchUpdateCount = 0 then begin DoUpdating(usBeginSynch); // Stop all timers... KillTimer(Handle, ChangeTimer); KillTimer(Handle, StructureChangeTimer); KillTimer(Handle, ExpandTimer); KillTimer(Handle, EditTimer); KillTimer(Handle, HeaderTimer); KillTimer(Handle, ScrollTimer); KillTimer(Handle, SearchTimer); FSearchBuffer := ''; FLastSearchNode := nil; DoStateChange([], [tsEditPending, tsScrollPending, tsScrolling, tsIncrementalSearching]); // ...and trigger pending update states. if tsStructureChangePending in FStates then DoStructureChange(FLastStructureChangeNode, FLastStructureChangeReason); if tsChangePending in FStates then DoChange(FLastChangedNode); end else DoUpdating(usSynch); end; Inc(FSynchUpdateCount); DoStateChange([tsSynchMode]); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.BeginUpdate; begin if not (csDestroying in ComponentState) then begin if FUpdateCount = 0 then begin DoUpdating(usBegin); SetUpdateState(True); end else DoUpdating(usUpdate); end; Inc(FUpdateCount); DoStateChange([tsUpdating]); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CancelCutOrCopy; // Resets nodes which are marked as being cut. var Run: PVirtualNode; begin if ([tsCutPending, tsCopyPending] * FStates) <> [] then begin Run := FRoot.FirstChild; while Assigned(Run) do begin if vsCutOrCopy in Run.States then Exclude(Run.States, vsCutOrCopy); Run := GetNextNoInit(Run); end; end; DoStateChange([], [tsCutPending, tsCopyPending]); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CancelEditNode: Boolean; // Called by the application or the current edit link to cancel the edit action. begin if HandleAllocated and ([tsEditing, tsEditPending] * FStates <> []) then Result := DoCancelEdit else Result := True; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CanFocus: Boolean; var Form: TCustomForm; begin Result := inherited CanFocus; if Result and not (csDesigning in ComponentState) then begin Form := GetParentForm(Self); Result := (Form = nil) or (Form.Enabled and Form.Visible); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.Clear; begin if not (toReadOnly in FOptions.FMiscOptions) or (csDestroying in ComponentState) then begin BeginUpdate; try InterruptValidation; if IsEditing then CancelEditNode; if ClipboardStates * FStates <> [] then begin OleSetClipBoard(nil); DoStateChange([], ClipboardStates); end; ClearSelection; FFocusedNode := nil; FLastSelected := nil; FCurrentHotNode := nil; FDropTargetNode := nil; FLastChangedNode := nil; FRangeAnchor := nil; FCheckNode := nil; FLastVCLDragTarget := nil; FLastSearchNode := nil; DeleteChildren(FRoot, True); FVisibleCount := 0; FOffsetX := 0; FOffsetY := 0; {$ifdef UseLocalMemoryManager} FNodeMemoryManager.Clear; {$endif UseLocalMemoryManager} finally EndUpdate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ClearChecked; var Node: PVirtualNode; begin Node := RootNode.FirstChild; while Assigned(Node) do begin if Node.CheckState <> csUncheckedNormal then CheckState[Node] := csUncheckedNormal; Node := GetNextNoInit(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ClearSelection; var Node: PVirtualNode; Dummy: Integer; R: TRect; Counter: Integer; begin if (FSelectionCount > 0) and not (csDestroying in ComponentState) then begin if (FUpdateCount = 0) and HandleAllocated and (FVisibleCount > 0) then begin // Iterate through nodes currently visible in the client area and invalidate them. Node := GetNodeAt(0, 0, True, Dummy); if Assigned(Node) then R := GetDisplayRect(Node, NoColumn, False); Counter := FSelectionCount; while Assigned(Node) do begin R.Bottom := R.Top + Integer(NodeHeight[Node]); if vsSelected in Node.States then begin InvalidateRect(Handle, @R, False); Dec(Counter); // Only try as many nodes as are selected. if Counter = 0 then Break; end; R.Top := R.Bottom; if R.Top > ClientHeight then Break; Node := GetNextVisibleNoInit(Node); end; end; InternalClearSelection; Change(nil); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CopyTo(Source: PVirtualNode; Tree: TBaseVirtualTree; Mode: TVTNodeAttachMode; ChildrenOnly: Boolean): PVirtualNode; // A simplified CopyTo method to allow to copy nodes to the root of another tree. begin Result := CopyTo(Source, Tree.FRoot, Mode, ChildrenOnly); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.CopyTo(Source, Target: PVirtualNode; Mode: TVTNodeAttachMode; ChildrenOnly: Boolean): PVirtualNode; // Copies Source and all its child nodes to Target. // Mode is used to specify further where to add the new node actually (as sibling of Target or as child of Target). // Result is the newly created node to which source has been copied if ChildrenOnly is False or just contains Target // in the other case. // ChildrenOnly determines whether to copy also the source node or only its child nodes. var TargetTree: TBaseVirtualTree; Stream: TMemoryStream; begin Assert(TreeFromNode(Source) = Self, 'The source tree must contain the source node.'); Result := nil; if (Mode <> amNoWhere) and Assigned(Source) and (Source <> FRoot) then begin // Assume that an empty destination means the root in this (the source) tree. if Target = nil then begin TargetTree := Self; Target := FRoot; Mode := amAddChildFirst; end else TargetTree := TreeFromNode(Target); if not (toReadOnly in TargetTree.FOptions.FMiscOptions) then begin if Target = TargetTree.FRoot then begin case Mode of amInsertBefore: Mode := amAddChildFirst; amInsertAfter: Mode := amAddChildLast; end; end; Stream := TMemoryStream.Create; try // Write all nodes into a temprary stream depending on the ChildrenOnly flag. if not ChildrenOnly then WriteNode(Stream, Source) else begin Source := Source.FirstChild; while Assigned(Source) do begin WriteNode(Stream, Source); Source := Source.NextSibling; end; end; // Now load the serialized nodes into the target node (tree). TargetTree.BeginUpdate; try Stream.Position := 0; while Stream.Position < Stream.Size do begin Result := TargetTree.MakeNewNode; InternalConnectNode(Result, Target, TargetTree, Mode); TargetTree.InternalAddFromStream(Stream, VTTreeStreamVersion, Result); if not DoNodeCopying(Result, Target) then begin TargetTree.DeleteNode(Result); Result := nil; end else DoNodeCopied(Result); end; if ChildrenOnly then Result := Target; finally TargetTree.EndUpdate; end; finally Stream.Free; end; with TargetTree do begin InvalidateCache; if FUpdateCount = 0 then begin ValidateCache; UpdateScrollBars(True); Invalidate; end; StructureChange(Source, crNodeCopied); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CopyToClipBoard; var DataObject: IDataObject; begin if FSelectionCount > 0 then begin DataObject := TVTDataObject.Create(Self, True) as IDataObject; if OleSetClipBoard(DataObject) = S_OK then begin MarkCutCopyNodes; DoStateChange([tsCopyPending]); Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.CutToClipBoard; var DataObject: IDataObject; begin if (FSelectionCount > 0) and not (toReadOnly in FOptions.FMiscOptions) then begin DataObject := TVTDataObject.Create(Self, True) as IDataObject; if OleSetClipBoard(DataObject) = S_OK then begin MarkCutCopyNodes; DoStateChange([tsCutPending], [tsCopyPending]); Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DefaultHandler(var AMessage); begin //used to avoid default handler of LM_MOUSEWHEEL end; procedure TBaseVirtualTree.DeleteChildren(Node: PVirtualNode; ResetHasChildren: Boolean = False); // Removes all children and their children from memory without changing the vsHasChildren style by default. var Run, Mark: PVirtualNode; LastTop, LastLeft, NewSize: Integer; ParentVisible: Boolean; begin if (Node.ChildCount > 0) and not (toReadOnly in FOptions.FMiscOptions) then begin Assert(not (tsIterating in FStates), 'Deleting nodes during tree iteration leads to invalid pointers.'); // The code below uses some flags for speed improvements which may cause invalid pointers if updates of // the tree happen. Hence switch updates off until we have finished the operation. Inc(FUpdateCount); try InterruptValidation; LastLeft := -FEffectiveOffsetX; LastTop := FOffsetY; // Make a local copy of the visibility state of this node to speed up // adjusting the visible nodes count. ParentVisible := Node = FRoot; if not ParentVisible then ParentVisible := FullyVisible[Node] and (vsExpanded in Node.States); // Show that we are clearing the child list, to avoid registering structure change events. Include(Node.States, vsClearing); Run := Node.LastChild; while Assigned(Run) do begin if ParentVisible and (vsVisible in Run.States) then Dec(FVisibleCount); Include(Run.States, vsDeleting); Mark := Run; Run := Run.PrevSibling; // Important, to avoid exchange of invalid pointers while disconnecting the node. if Assigned(Run) then Run.NextSibling := nil; DeleteNode(Mark); end; Exclude(Node.States, vsClearing); if ResetHasChildren then Exclude(Node.States, vsHasChildren); if Node <> FRoot then Exclude(Node.States, vsExpanded); Node.ChildCount := 0; if (Node = FRoot) or (vsDeleting in Node.States) then begin Node.TotalHeight := FDefaultNodeHeight + NodeHeight[Node]; Node.TotalCount := 1; end else begin AdjustTotalHeight(Node, NodeHeight[Node]); AdjustTotalCount(Node, 1); end; Node.FirstChild := nil; Node.LastChild := nil; finally Dec(FUpdateCount); end; InvalidateCache; if FUpdateCount = 0 then begin NewSize := PackArray(FSelection, FSelectionCount); if NewSize > -1 then begin FSelectionCount := NewSize; SetLength(FSelection, FSelectionCount); end; ValidateCache; UpdateScrollbars(True); // Invalidate entire tree if it scrolled e.g. to make the last node also the // bottom node in the treeview. if (LastLeft <> FOffsetX) or (LastTop <> FOffsetY) then Invalidate else InvalidateToBottom(Node); end; StructureChange(Node, crChildDeleted); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DeleteNode(Node: PVirtualNode; Reindex: Boolean = True); var LastTop, LastLeft: Integer; LastParent: PVirtualNode; WasInSynchMode: Boolean; ParentClearing: Boolean; begin if Assigned(Node) and (Node <> FRoot) and not (toReadOnly in FOptions.FMiscOptions) then begin Assert(not (tsIterating in FStates), 'Deleting nodes during tree iteration leads to invalid pointers.'); // Determine parent node for structure change notification. ParentClearing := vsClearing in Node.Parent.States; LastParent := Node.Parent; if not ParentClearing then begin if LastParent = FRoot then StructureChange(nil, crChildDeleted) else StructureChange(LastParent, crChildDeleted); end; LastLeft := -FEffectiveOffsetX; LastTop := FOffsetY; if vsSelected in Node.States then begin if FUpdateCount = 0 then begin // Go temporarily into sync mode to avoid a delayed change event for the node // when unselecting. WasInSynchMode := tsSynchMode in FStates; Include(FStates, tsSynchMode); RemoveFromSelection(Node); if not WasInSynchMode then Exclude(FStates, tsSynchMode); InvalidateToBottom(LastParent); end else InternalRemoveFromSelection(Node); end else InvalidateToBottom(LastParent); if tsHint in FStates then begin Application.CancelHint; DoStateChange([], [tsHint]); end; DeleteChildren(Node); InternalDisconnectNode(Node, False, Reindex); DoFreeNode(Node); if not ParentClearing then begin DetermineHiddenChildrenFlag(LastParent); InvalidateCache; if FUpdateCount = 0 then begin ValidateCache; UpdateScrollbars(True); // Invalidate entire tree if it scrolled e.g. to make the last node also the // bottom node in the treeview. if (LastLeft <> FOffsetX) or (LastTop <> FOffsetY) then Invalidate; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.DeleteSelectedNodes; // Deletes all currently selected nodes (including their child nodes). var Nodes: TNodeArray; I: Integer; LevelChange: Boolean; begin Nodes := nil; if (FSelectionCount > 0) and not (toReadOnly in FOptions.FMiscOptions) then begin BeginUpdate; try Nodes := GetSortedSelection(True); for I := High(Nodes) downto 1 do begin LevelChange := Nodes[I].Parent <> Nodes[I - 1].Parent; DeleteNode(Nodes[I], LevelChange); end; DeleteNode(Nodes[0]); finally EndUpdate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.Dragging: Boolean; begin // Check for both OLE drag'n drop as well as VCL drag'n drop. Result := ([tsOLEDragPending, tsOLEDragging] * FStates <> []) or inherited Dragging; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.EditNode(Node: PVirtualNode; Column: TColumnIndex): Boolean; // Application triggered edit event for the given node. // Returns True if the tree started editing otherwise False. begin Assert(Assigned(Node), 'Node must not be nil.'); Assert((Column > InvalidColumn) and (Column < FHeader.Columns.Count), 'Column must be a valid column index (-1 if no header is shown).'); Result := tsEditing in FStates; // If the tree is already editing then we don't disrupt this. if not Result and not (toReadOnly in FOptions.FMiscOptions) then begin FocusedNode := Node; if Assigned(FFocusedNode) and (Node = FFocusedNode) and CanEdit(FFocusedNode, Column) then begin FEditColumn := Column; if not (vsInitialized in Node.States) then InitNode(Node); DoEdit; Result := tsEditing in FStates; end else Result := False; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.EndEditNode: Boolean; // Called to finish a current edit action or stop the edit timer if an edit operation is pending. begin if [tsEditing, tsEditPending] * FStates <> [] then Result := DoEndEdit else Result := True; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.EndSynch; begin if FSynchUpdateCount > 0 then Dec(FSynchUpdateCount); if not (csDestroying in ComponentState) then begin if FSynchUpdateCount = 0 then begin DoStateChange([], [tsSynchMode]); DoUpdating(usEndSynch); end else DoUpdating(usSynch); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.EndUpdate; var NewSize: Integer; begin if FUpdateCount > 0 then Dec(FUpdateCount); if not (csDestroying in ComponentState) then begin if (FUpdateCount = 0) and (tsUpdating in FStates) then begin if tsUpdateHiddenChildrenNeeded in FStates then begin DetermineHiddenChildrenFlagAllNodes; Exclude(FStates, tsUpdateHiddenChildrenNeeded); end; DoStateChange([], [tsUpdating]); NewSize := PackArray(FSelection, FSelectionCount); if NewSize > -1 then begin FSelectionCount := NewSize; SetLength(FSelection, FSelectionCount); end; InvalidateCache; ValidateCache; if HandleAllocated then UpdateScrollBars(False); if tsStructureChangePending in FStates then DoStructureChange(FLastStructureChangeNode, FLastStructureChangeReason); if tsChangePending in FStates then DoChange(FLastChangedNode); if toAutoSort in FOptions.FAutoOptions then SortTree(FHeader.FSortColumn, FHeader.FSortDirection, True); SetUpdateState(False); if HandleAllocated then Invalidate; UpdateDesigner; end; if FUpdateCount = 0 then DoUpdating(usEnd) else DoUpdating(usUpdate); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.ExecuteAction(Action: TBasicAction): Boolean; // Some support for standard actions. begin Result := inherited ExecuteAction(Action); if not Result then begin Result := Action is TEditSelectAll; if Result then SelectAll(False) else begin Result := Action is TEditCopy; if Result then CopyToClipboard else if not (toReadOnly in FOptions.FMiscOptions) then begin Result := Action is TEditCut; if Result then CutToClipBoard else begin Result := Action is TEditPaste; if Result then PasteFromClipboard else begin Result := Action is TEditDelete; if Result then DeleteSelectedNodes end; end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.FinishCutOrCopy; // Deletes nodes which are marked as being cutted. var Run: PVirtualNode; begin if tsCutPending in FStates then begin Run := FRoot.FirstChild; while Assigned(Run) do begin if vsCutOrCopy in Run.States then DeleteNode(Run); Run := GetNextNoInit(Run); end; DoStateChange([], [tsCutPending]); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.FlushClipboard; // Used to render the data which is currently on the clipboard (finishes delayed rendering). begin if ClipboardStates * FStates <> [] then begin DoStateChange([tsClipboardFlushing]); OleFlushClipboard; CancelCutOrCopy; DoStateChange([], [tsClipboardFlushing]); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.FullCollapse(Node: PVirtualNode = nil); // This routine collapses all expanded nodes in the subtree given by Node or the whole tree if Node is FRoot or nil. // Only nodes which are expanded will be collapsed. This excludes uninitialized nodes but nodes marked as visible // will still be collapsed if they are expanded. var Stop: PVirtualNode; begin if FRoot.TotalCount > 1 then begin if Node = FRoot then Node := nil; DoStateChange([tsCollapsing]); BeginUpdate; try Stop := Node; Node := GetLastVisibleNoInit(Node); if Assigned(Node) then begin repeat if [vsHasChildren, vsExpanded] * Node.States = [vsHasChildren, vsExpanded] then ToggleNode(Node); Node := GetPreviousNoInit(Node); until Node = Stop; // Collapse the start node too. if Assigned(Node) and ([vsHasChildren, vsExpanded] * Node.States = [vsHasChildren, vsExpanded]) then ToggleNode(Node); end; finally EndUpdate; DoStateChange([], [tsCollapsing]); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.FullExpand(Node: PVirtualNode = nil); // This routine expands all collapsed nodes in the subtree given by Node or the whole tree if Node is FRoot or nil. // All nodes on the way down are initialized so this procedure might take a long time. // Since all nodes are validated, the tree cannot make use of optimatizations. Hence it is counter productive and you // should consider avoiding its use. var Stop: PVirtualNode; begin if FRoot.TotalCount > 1 then begin DoStateChange([tsExpanding]); BeginUpdate; try if Node = nil then begin Node := FRoot.FirstChild; Stop := nil; end else begin Stop := Node.NextSibling; if Stop = nil then begin Stop := Node; repeat Stop := Stop.Parent; until (Stop = FRoot) or Assigned(Stop.NextSibling); if Stop = FRoot then Stop := nil else Stop := Stop.NextSibling; end; end; // Initialize the start node. Others will be initialized in GetNext. if not (vsInitialized in Node.States) then InitNode(Node); repeat if not (vsExpanded in Node.States) then ToggleNode(Node); Node := GetNext(Node); until Node = Stop; finally EndUpdate; DoStateChange([], [tsExpanding]); end; end; end; //---------------------------------------------------------------------------------------------------------------------- {$ifndef fpc} function TBaseVirtualTree.GetControlsAlignment: TAlignment; begin Result := FAlignment; end; {$endif} //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetDisplayRect(Node: PVirtualNode; Column: TColumnIndex; TextOnly: Boolean; Unclipped: Boolean = False): TRect; // Determines the client coordinates the given node covers, depending on scrolling, expand state etc. // If the given node cannot be found (because one of its parents is collapsed or it is invisible) then an empty // rectangle is returned. // If TextOnly is True then only the text bounds are returned, that is, the resulting rectangle's left and right border // are updated according to bidi mode, alignment and text width of the node. // If Unclipped is True (which only makes sense if also TextOnly is True) then the calculated text rectangle is // not clipped if the text does not entirely fit into the text space. This is special handling needed for hints. // If Column is -1 then the entire client width is used before determining the node's width otherwise the bounds of the // particular column are used. // Note: Column must be a valid column and is used independent of whether the header is visible or not. var Temp: PVirtualNode; Offset: Cardinal; Indent, TextWidth: Integer; MainColumnHit: Boolean; CurrentBidiMode: TBidiMode; CurrentAlignment: TAlignment; begin //Logger.EnterMethod([lcPaintHeader],'GetDisplayRect'); Assert(Assigned(Node), 'Node must not be nil.'); Assert(Node <> FRoot, 'Node must not be the hidden root node.'); MainColumnHit := (Column + 1) in [0, FHeader.MainColumn + 1]; if not (vsInitialized in Node.States) then InitNode(Node); Result := Rect(0, 0, 0, 0); // Check whether the node is visible (determine indentation level btw.). Temp := Node; Indent := 0; while Temp <> FRoot do begin if not (vsVisible in Temp.States) or not (vsExpanded in Temp.Parent.States) then Exit; Temp := Temp.Parent; if MainColumnHit and (Temp <> FRoot) then Inc(Indent, FIndent); end; // Here we know the node is visible. Offset := 0; if tsUseCache in FStates then begin // If we can use the position cache then do a binary search to find a cached node which is as close as possible // to the current node. Iterate then through all following and visible nodes and sum up their heights. Temp := FindInPositionCache(Node, Offset); while Assigned(Temp) and (Temp <> Node) do begin Inc(Offset, NodeHeight[Temp]); Temp := GetNextVisibleNoInit(Temp); end; end else begin // If the cache is not available then go straight through all nodes up to the root and sum up their heights. Temp := Node; repeat Temp := GetPreviousVisibleNoInit(Temp); if Temp = nil then Break; Inc(Offset, NodeHeight[Temp]); until False; end; Result := Rect(0, Offset, Max(FRangeX, ClientWidth), Offset + NodeHeight[Node]); // Limit left and right bounds to the given column (if any) and move bounds according to current scroll state. if Column > NoColumn then begin FHeader.FColumns.GetColumnBounds(Column, Result.Left, Result.Right); // The right column border is not part of this cell. Dec(Result.Right); OffsetRect(Result, 0, FOffsetY); end else OffsetRect(Result, -FEffectiveOffsetX, FOffsetY); // Limit left and right bounds further if only the text area is required. if TextOnly then begin // Start with the offset of the text in the column and consider the indentation level too. Offset := FMargin + Indent; // If the text of a node is involved then we have to consider directionality and alignment too. if Column = NoColumn then begin CurrentBidiMode := BidiMode; CurrentAlignment := Alignment; end else begin CurrentBidiMode := FHeader.FColumns[Column].BidiMode; CurrentAlignment := FHeader.FColumns[Column].Alignment; end; TextWidth := DoGetNodeWidth(Node, Column); if MainColumnHit then begin if toShowRoot in FOptions.FPaintOptions then Inc(Offset, FIndent); if (toCheckSupport in FOptions.FMiscOptions) and Assigned(FCheckImages) and (Node.CheckType <> ctNone) then Inc(Offset, FCheckImages.Height + 2); end; // Consider associated images. if Assigned(FStateImages) and HasImage(Node, ikState, Column) then Inc(Offset, FStateImages.Width + 2); if Assigned(FImages) and HasImage(Node, ikNormal, Column) then Inc(Offset, FImages.Width + 2); // Offset contains now the distance from the left or right border of the rectangle (depending on bidi mode). // Now consider the alignment too and calculate the final result. if CurrentBidiMode = bdLeftToRight then begin Inc(Result.Left, Offset); // Left-to-right reading does not need any special adjustment of the alignment. end else begin Dec(Result.Right, Offset); // Consider bidi mode here. In RTL context does left alignment actually mean right alignment and vice versa. ChangeBiDiModeAlignment(CurrentAlignment); end; if Unclipped then begin // The caller requested the text coordinates unclipped. This means they must be calculated so as would // there be enough space, regardless of column bounds etc. // The layout still depends on the available space too, because this determines the position // of the unclipped text rectangle. if Result.Right - Result.Left < TextWidth then if CurrentBidiMode = bdLeftToRight then CurrentAlignment := taLeftJustify else CurrentAlignment := taRightJustify; case CurrentAlignment of taCenter: begin Result.Left := (Result.Left + Result.Right - TextWidth) div 2; Result.Right := Result.Left + TextWidth; end; taRightJustify: Result.Left := Result.Right - TextWidth; else // taLeftJustify Result.Right := Result.Left + TextWidth; end; end else // Modify rectangle only if the text fits entirely into the given room. if Result.Right - Result.Left > TextWidth then case CurrentAlignment of taCenter: begin Result.Left := (Result.Left + Result.Right - TextWidth) div 2; Result.Right := Result.Left + TextWidth; end; taRightJustify: Result.Left := Result.Right - TextWidth; else // taLeftJustify Result.Right := Result.Left + TextWidth; end; end; //lclheader if hoVisible in FHeader.FOptions then begin inc(Result.Top,FHeader.Height); inc(Result.Bottom,FHeader.Height); end; //Logger.Send([lcPaintHeader],'DisplayRect for Node '+IntToStr(Node^.Index),Result); //Logger.ExitMethod([lcPaintHeader],'GetDisplayRect'); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirst: PVirtualNode; // Returns the first node in the tree. begin Result := FRoot.FirstChild; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstChecked(State: TCheckState): PVirtualNode; // Returns the first node in the tree with the given check state. begin Result := GetNextChecked(nil, State); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstChild(Node: PVirtualNode): PVirtualNode; // Returns the first child of the given node. The result node is initialized before exit. begin if (Node = nil) or (Node = FRoot) then Result := FRoot.FirstChild else begin if not (vsInitialized in Node.States) then InitNode(Node); if vsHasChildren in Node.States then begin if Node.ChildCount = 0 then InitChildren(Node); Result := Node.FirstChild; end else Result := nil; end; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstCutCopy: PVirtualNode; // Returns the first node in the tree which is currently marked for a clipboard operation. // See also GetNextCutCopy for comments on initialization. begin Result := GetNextCutCopy(nil); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstInitialized: PVirtualNode; // Returns the first node which is already initialized. begin Result := FRoot.FirstChild; if Assigned(Result) and not (vsInitialized in Result.States) then Result := GetNextInitialized(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstLeaf: PVirtualNode; // Returns the first node in the tree which has currently no children. // The result is initialized if necessary. begin Result := GetNextLeaf(nil); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstLevel(NodeLevel: Cardinal): PVirtualNode; // Returns the first node in the tree on a specific level. // The result is initialized if necessary. begin Result := GetFirstNoInit; while Assigned(Result) and (GetNodeLevel(Result) <> NodeLevel) do Result := GetNextNoInit(Result); if Assigned(Result) and (GetNodeLevel(Result) <> NodeLevel) then // i.e. there is no node with the desired level in the tree Result := nil; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstNoInit: PVirtualNode; begin Result := FRoot.FirstChild; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstSelected: PVirtualNode; // Returns the first node in the current selection. begin Result := GetNextSelected(nil); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstVisible: PVirtualNode; // Returns the first visible node in the tree. If necessary nodes are initialized on demand. begin if vsHasChildren in FRoot.States then begin Result := FRoot; if Result.ChildCount = 0 then InitChildren(Result); // Child nodes are the first choice if possible. if Assigned(Result.FirstChild) then begin Result := GetFirstChild(Result); // If there are no children or the first child is not visible then search the sibling nodes or traverse parents. if not (vsVisible in Result.States) then begin repeat // Is there a next sibling? if Assigned(Result.NextSibling) then begin Result := Result.NextSibling; // The visible state can be removed during initialization so init the node first. if not (vsInitialized in Result.States) then InitNode(Result); if vsVisible in Result.States then Break; end else begin // No sibling anymore, so use the parent's next sibling. if Result.Parent <> FRoot then Result := Result.Parent else begin // There are no further nodes to examine, hence there is no further visible node. Result := nil; Break; end; end; until False; end; end else Result := nil; end else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstVisibleChild(Node: PVirtualNode): PVirtualNode; // Returns the first visible child node of Node. If necessary nodes are initialized on demand. begin Result := GetFirstChild(Node); if Assigned(Result) and not (vsVisible in Result.States) then Result := GetNextVisibleSibling(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstVisibleChildNoInit(Node: PVirtualNode): PVirtualNode; // Returns the first visible child node of Node. begin if Node = nil then Node := FRoot; Result := Node.FirstChild; if Assigned(Result) and not (vsVisible in Result.States) then Result := GetNextVisibleSiblingNoInit(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetFirstVisibleNoInit: PVirtualNode; // Returns the first visible node in the tree. No initialization is performed. begin if vsHasChildren in FRoot.States then begin Result := FRoot; // Child nodes are the first choice if possible. if Assigned(Result.FirstChild) then begin Result := Result.FirstChild; // If there are no children or the first child is not visible then search the sibling nodes or traverse parents. if not (vsVisible in Result.States) then begin repeat // Is there a next sibling? if Assigned(Result.NextSibling) then begin Result := Result.NextSibling; if vsVisible in Result.States then Break; end else begin // No sibling anymore, so use the parent's next sibling. if Result.Parent <> FRoot then Result := Result.Parent else begin // There are no further nodes to examine, hence there is no further visible node. Result := nil; Break; end; end; until False; end; end else Result := nil; end else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.GetHitTestInfoAt(X, Y: Integer; Relative: Boolean; var HitInfo: THitInfo); // Determines the node that occupies the specified point or nil if there's none. The parameter Relative determines // whether to consider X and Y as being client coordinates (if True) or as being absolute tree coordinates. // HitInfo is filled with flags describing the hit further. var ColLeft, ColRight: Integer; NodeTop: Integer; InitialColumn, NextColumn: TColumnIndex; CurrentBidiMode: TBidiMode; CurrentAlignment: TAlignment; begin HitInfo.HitNode := nil; HitInfo.HitPositions := []; HitInfo.HitColumn := NoColumn; // Determine if point lies in the tree's client area. if X < 0 then Include(HitInfo.HitPositions, hiToLeft) else if X > Max(FRangeX, ClientWidth) then Include(HitInfo.HitPositions, hiToRight); if Y < 0 then Include(HitInfo.HitPositions, hiAbove) else if Y > Max(FRangeY, ClientHeight) then Include(HitInfo.HitPositions, hiBelow); // Convert position into absolute coordinate if necessary. if Relative then begin if X > Header.Columns.GetVisibleFixedWidth then Inc(X, FEffectiveOffsetX); Inc(Y, -FOffsetY); end; // If the point is in the tree area then check the nodes. if HitInfo.HitPositions = [] then begin HitInfo.HitNode := GetNodeAt(X, Y, False, NodeTop); if HitInfo.HitNode = nil then Include(HitInfo.HitPositions, hiNowhere) else begin // At this point we need some info about the node, so it must be initialized. if not (vsInitialized in HitInfo.HitNode.States) then InitNode(HitInfo.HitNode); if FHeader.UseColumns then begin HitInfo.HitColumn := FHeader.Columns.GetColumnAndBounds(Point(X, Y), ColLeft, ColRight, False); // If auto column spanning is enabled then look for the last non empty column. if toAutoSpanColumns in FOptions.FAutoOptions then begin InitialColumn := HitInfo.HitColumn; // Search to the left of the hit column for empty columns. while (HitInfo.HitColumn > NoColumn) and ColumnIsEmpty(HitInfo.HitNode, HitInfo.HitColumn) do begin NextColumn := FHeader.FColumns.GetPreviousVisibleColumn(HitInfo.HitColumn); if NextColumn = InvalidColumn then Break; HitInfo.HitColumn := NextColumn; Dec(ColLeft, FHeader.FColumns[NextColumn].Width); end; // Search to the right of the hit column for empty columns. repeat InitialColumn := FHeader.FColumns.GetNextVisibleColumn(InitialColumn); if (InitialColumn = InvalidColumn) or not ColumnIsEmpty(HitInfo.HitNode, InitialColumn) then Break; Inc(ColRight, FHeader.FColumns[InitialColumn].Width); until False; end; // Make the X position and the right border relative to the start of the column. Dec(X, ColLeft); Dec(ColRight, ColLeft); end else begin HitInfo.HitColumn := NoColumn; ColRight := Max(FRangeX, ClientWidth); end; ColLeft := 0; if HitInfo.HitColumn = InvalidColumn then Include(HitInfo.HitPositions, hiNowhere) else begin // From now on X is in "column" coordinates (relative to the left column border). HitInfo.HitPositions := [hiOnItem]; if HitInfo.HitColumn = NoColumn then begin CurrentBidiMode := BidiMode; CurrentAlignment := Alignment; end else begin CurrentBidiMode := FHeader.FColumns[HitInfo.HitColumn].BidiMode; CurrentAlignment := FHeader.FColumns[HitInfo.HitColumn].Alignment; end; if CurrentBidiMode = bdLeftToRight then DetermineHitPositionLTR(HitInfo, X, ColRight, CurrentAlignment) else DetermineHitPositionRTL(HitInfo, X, ColRight, CurrentAlignment); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetLast(Node: PVirtualNode = nil): PVirtualNode; // Returns the very last node in the tree branch given by Node and initializes the nodes all the way down including the // result. By using Node = nil the very last node in the tree is returned. var Next: PVirtualNode; begin Result := GetLastChild(Node); while Assigned(Result) do begin // Test if there is a next last child. If not keep the node from the last run. // Otherwise use the next last child. Next := GetLastChild(Result); if Next = nil then Break; Result := Next; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetLastInitialized(Node: PVirtualNode): PVirtualNode; // Returns the very last initialized child node in the tree branch given by Node. begin Result := GetLastNoInit(Node); if Assigned(Result) and not (vsInitialized in Result.States) then Result := GetPreviousInitialized(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetLastNoInit(Node: PVirtualNode = nil): PVirtualNode; // Returns the very last node in the tree branch given by Node without initialization. var Next: PVirtualNode; begin Result := GetLastChildNoInit(Node); while Assigned(Result) do begin // Test if there is a next last child. If not keep the node from the last run. // Otherwise use the next last child. Next := GetLastChildNoInit(Result); if Next = nil then Break; Result := Next; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetLastChild(Node: PVirtualNode): PVirtualNode; // Determines the last child of the given node and initializes it if there is one. begin if (Node = nil) or (Node = FRoot) then Result := FRoot.LastChild else begin if not (vsInitialized in Node.States) then InitNode(Node); if vsHasChildren in Node.States then begin if Node.ChildCount = 0 then InitChildren(Node); Result := Node.LastChild; end else Result := nil; end; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetLastChildNoInit(Node: PVirtualNode): PVirtualNode; // Determines the last child of the given node but does not initialize it. begin if (Node = nil) or (Node = FRoot) then Result := FRoot.LastChild else begin if vsHasChildren in Node.States then Result := Node.LastChild else Result := nil; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetLastVisible(Node: PVirtualNode = nil): PVirtualNode; // Returns the very last visible node in the tree and initializes nodes all the way down including the result node. var Next: PVirtualNode; begin Result := GetLastVisibleChild(Node); while Assigned(Result) do begin // Test if there is a next last visible child. If not keep the node from the last run. // Otherwise use the next last visible child. Next := GetLastVisibleChild(Result); if Next = nil then Break; Result := Next; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetLastVisibleChild(Node: PVirtualNode): PVirtualNode; // Determines the last visible child of the given node and initializes it if necessary. begin if (Node = nil) or (Node = FRoot) then Result := GetLastChild(FRoot) else if FullyVisible[Node] and (vsExpanded in Node.States) then Result := GetLastChild(Node) else Result := nil; if Assigned(Result) and not (vsVisible in Result.States) then Result := GetPreviousVisibleSibling(Result); if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetLastVisibleChildNoInit(Node: PVirtualNode): PVirtualNode; // Determines the last visible child of the given node without initialization. begin if (Node = nil) or (Node = FRoot) then Result := GetLastChildNoInit(FRoot) else if FullyVisible[Node] and (vsExpanded in Node.States) then Result := GetLastChildNoInit(Node) else Result := nil; if Assigned(Result) and not (vsVisible in Result.States) then Result := GetPreviousVisibleSiblingNoInit(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetLastVisibleNoInit(Node: PVirtualNode = nil): PVirtualNode; // Returns the very last visible node in the tree without initialization. var Next: PVirtualNode; begin Result := GetLastVisibleChildNoInit(Node); while Assigned(Result) do begin // Test if there is a next last visible child. If not keep the node from the last run. // Otherwise use the next last visible child. Next := GetLastVisibleChildNoInit(Result); if Next = nil then Break; Result := Next; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetMaxColumnWidth(Column: TColumnIndex): Integer; // This method determines the width of the largest node in the given column. // Note: Every visible node in the tree will be initialized contradicting so the virtual paradigm. var Run, NextNode: PVirtualNode; NodeLeft, TextLeft, CurrentWidth: Integer; WithCheck, WithImages, WithStateImages: Boolean; CheckOffset, ImageOffset, StateImageOffset: Integer; begin Result := 0; // Don't check the event here as descendant trees might have overriden the DoGetImageIndex method. WithImages := Assigned(FImages); if WithImages then ImageOffset := FImages.Width + 2 else ImageOffset := 0; WithStateImages := Assigned(FStateImages); if WithStateImages then StateImageOffset := FStateImages.Width + 2 else StateImageOffset := 0; if Assigned(FCheckImages) then CheckOffset := FCheckImages.Height + 2 else CheckOffset := 0; Run := GetFirstVisible; if Column = FHeader.MainColumn then begin if toShowRoot in FOptions.FPaintOptions then NodeLeft := Integer((GetNodeLevel(Run) + 1) * FIndent) else NodeLeft := Integer(GetNodeLevel(Run) * FIndent); WithCheck := (toCheckSupport in FOptions.FMiscOptions) and Assigned(FCheckImages); end else begin NodeLeft := 0; WithCheck := False; end; // Consider node margin at the left of the nodes. Inc(NodeLeft, FMargin); while Assigned(Run) do begin TextLeft := NodeLeft; if WithCheck and (Run.CheckType <> ctNone) then Inc(TextLeft, CheckOffset); if WithImages and HasImage(Run, ikNormal, Column) then Inc(TextLeft, ImageOffset); if WithStateImages and HasImage(Run, ikState, Column) then Inc(TextLeft, StateImageOffset); CurrentWidth := DoGetNodeWidth(Run, Column); if Result < (TextLeft + CurrentWidth) then Result := TextLeft + CurrentWidth; // Get next visible node and update left node position if needed. NextNode := GetNextVisible(Run); if NextNode = nil then Break; if Column = Header.MainColumn then Inc(NodeLeft, CountLevelDifference(Run, NextNode) * Integer(FIndent)); Run := NextNode; end; if toShowVertGridLines in FOptions.FPaintOptions then Inc(Result) end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNext(Node: PVirtualNode): PVirtualNode; // Returns next node in tree (advances to next sibling of the node's parent or its parent, if necessary). begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); // Has this node got children? if vsHasChildren in Result.States then begin // Yes, there are child nodes. Initialize them if necessary. if Result.ChildCount = 0 then InitChildren(Result); end; // if there is no child node try siblings if Assigned(Result.FirstChild) then Result := Result.FirstChild else begin repeat // Is there a next sibling? if Assigned(Result.NextSibling) then begin Result := Result.NextSibling; Break; end else begin // No sibling anymore, so use the parent's next sibling. if Result.Parent <> FRoot then Result := Result.Parent else begin // There are no further nodes to examine, hence there is no further visible node. Result := nil; Break; end; end; until False; end; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextChecked(Node: PVirtualNode; State: TCheckState = csCheckedNormal): PVirtualNode; begin if (Node = nil) or (Node = FRoot) then Result := FRoot.FirstChild else Result := GetNextNoInit(Node); while Assigned(Result) and (Result.CheckState <> State) do Result := GetNextNoInit(Result); if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextCutCopy(Node: PVirtualNode): PVirtualNode; // Returns the next node in the tree which is currently marked for a clipboard operation. Since only visible nodes can // be marked (or they are hidden after they have been marked) it is not necessary to initialize nodes to check for // child nodes. The result, however, is initialized if necessary. begin if ClipboardStates * FStates <> [] then begin if (Node = nil) or (Node = FRoot) then Result := FRoot.FirstChild else Result := GetNextNoInit(Node); while Assigned(Result) and not (vsCutOrCopy in Result.States) do Result := GetNextNoInit(Result); if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextInitialized(Node: PVirtualNode): PVirtualNode; // Returns the next node in tree which is initialized. begin Result := Node; repeat Result := GetNextNoInit(Result); until (Result = nil) or (vsInitialized in Result.States); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextLeaf(Node: PVirtualNode): PVirtualNode; // Returns the next node in the tree which has currently no children. // The result is initialized if necessary. begin if (Node = nil) or (Node = FRoot) then Result := FRoot.FirstChild else Result := GetNext(Node); while Assigned(Result) and (vsHasChildren in Result.States) do Result := GetNext(Result); if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextLevel(Node: PVirtualNode; NodeLevel: Cardinal): PVirtualNode; // Returns the next node in the tree on a specific level. // The result is initialized if necessary. var StartNodeLevel: Cardinal; begin Result := nil; if Assigned(Node) and (Node <> FRoot) then begin StartNodeLevel := GetNodeLevel(Node); if StartNodeLevel < NodeLevel then begin Result := GetNext(Node); if Assigned(Result) and (GetNodeLevel(Result) <> NodeLevel) then Result := GetNextLevel(Result, NodeLevel); end else if StartNodeLevel = NodeLevel then begin Result := Node.NextSibling; if not Assigned(Result) then // i.e. start node was a last sibling begin Result := Node.Parent; if Assigned(Result) then begin // go to next anchestor of the start node which has a next sibling (if exists) while Assigned(Result) and not Assigned(Result.NextSibling) do Result := Result.Parent; if Assigned(Result) then Result := GetNextLevel(Result.NextSibling, NodeLevel); end; end; end else // i.e. StartNodeLevel > NodeLevel Result := GetNextLevel(Node.Parent, NodeLevel); end; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextNoInit(Node: PVirtualNode): PVirtualNode; // Optimized variant of GetNext, no initialization of nodes is performed (if a node is not initialized // then it is considered as not being there). begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); // If there is no child node try siblings. if Assigned(Result.FirstChild) then Result := Result.FirstChild else begin repeat // Is there a next sibling? if Assigned(Result.NextSibling) then begin Result := Result.NextSibling; Break; end else begin // No sibling anymore, so use the parent's next sibling. if Result.Parent <> FRoot then Result := Result.Parent else begin // There are no further nodes to examine, hence there is no further visible node. Result := nil; Break; end; end; until False; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextSelected(Node: PVirtualNode): PVirtualNode; // Returns the next node in the tree which is currently selected. Since children of unitialized nodes cannot be // in the current selection (because they simply do not exist yet) it is not necessary to initialize nodes here. // The result however is initialized if necessary. begin if FSelectionCount > 0 then begin if (Node = nil) or (Node = FRoot) then Result := FRoot.FirstChild else Result := GetNextNoInit(Node); while Assigned(Result) and not (vsSelected in Result.States) do Result := GetNextNoInit(Result); if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextSibling(Node: PVirtualNode): PVirtualNode; // Returns the next sibling of Node and initializes it if necessary. begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); Result := Result.NextSibling; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextVisible(Node: PVirtualNode): PVirtualNode; // Returns next node in tree, with regard to Node, which is visible. // Nodes which need an initialization (including the result) are initialized. var ForceSearch: Boolean; begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); // If the given node is not visible then look for a parent node which is visible, otherwise we will // likely go unnecessarily through a whole bunch of invisible nodes. if not FullyVisible[Result] then Result := GetVisibleParent(Result); // Has this node got children? if [vsHasChildren, vsExpanded] * Result.States = [vsHasChildren, vsExpanded] then begin // Yes, there are child nodes. Initialize them if necessary. if Result.ChildCount = 0 then InitChildren(Result); end; // Child nodes are the first choice if possible. if (vsExpanded in Result.States) and Assigned(Result.FirstChild) then begin Result := GetFirstChild(Result); ForceSearch := False; end else ForceSearch := True; // If there are no children or the first child is not visible then search the sibling nodes or traverse parents. if Assigned(Result) and (ForceSearch or not (vsVisible in Result.States)) then begin repeat // Is there a next sibling? if Assigned(Result.NextSibling) then begin Result := Result.NextSibling; if not (vsInitialized in Result.States) then InitNode(Result); if vsVisible in Result.States then Break; end else begin // No sibling anymore, so use the parent's next sibling. if Result.Parent <> FRoot then Result := Result.Parent else begin // There are no further nodes to examine, hence there is no further visible node. Result := nil; Break; end; end; until False; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextVisibleNoInit(Node: PVirtualNode): PVirtualNode; // Returns the next node in tree, with regard to Node, which is visible. // No initialization is done. var ForceSearch: Boolean; begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); // If the given node is not visible then look for a parent node which is visible, otherwise we will // likely go unnecessarily through a whole bunch of invisible nodes. if not FullyVisible[Result] then Result := GetVisibleParent(Result); // Child nodes are the first choice if possible. if (vsExpanded in Result.States) and Assigned(Result.FirstChild) then begin Result := Result.FirstChild; ForceSearch := False; end else ForceSearch := True; // If there are no children or the first child is not visible then search the sibling nodes or traverse parents. if ForceSearch or not (vsVisible in Result.States) then begin repeat // Is there a next sibling? if Assigned(Result.NextSibling) then begin Result := Result.NextSibling; if vsVisible in Result.States then Break; end else begin // No sibling anymore, so use the parent's next sibling. if Result.Parent <> FRoot then Result := Result.Parent else begin // There are no further nodes to examine, hence there is no further visible node. Result := nil; Break; end; end; until False; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextVisibleSibling(Node: PVirtualNode): PVirtualNode; // Returns the next visible sibling after Node. Initialization is done implicitly. begin Assert(Assigned(Node) and (Node <> FRoot), 'Invalid parameter.'); Result := Node; repeat Result := GetNextSibling(Result); until (Result = nil) or (vsVisible in Result.States); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNextVisibleSiblingNoInit(Node: PVirtualNode): PVirtualNode; // Returns the next visible sibling after Node. begin Assert(Assigned(Node) and (Node <> FRoot), 'Invalid parameter.'); Result := Node; repeat Result := Result.NextSibling; until (Result = nil) or (vsVisible in Result.States); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNodeAt(X, Y: Integer): PVirtualNode; // Overloaded variant of GetNodeAt to easy life of application developers which do not need to have the exact // top position returned and always use client coordinates. var Dummy: Integer; begin Result := GetNodeAt(X, Y, True, Dummy); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNodeAt(X, Y: Integer; Relative: Boolean; var NodeTop: Integer): PVirtualNode; // This method returns the node that occupies the specified point, or nil if there's none. // If Releative is True then X and Y are given in client coordinates otherwise they are considered as being // absolute values into the virtual tree image (regardless of the current offsets in the tree window). // NodeTop gets the absolute or relative top position of the node returned or is untouched if no node // could be found. var AbsolutePos, CurrentPos: Cardinal; begin if Y < 0 then Y := 0; AbsolutePos := Y; if Relative then Inc(AbsolutePos, -FOffsetY); // CurrentPos tracks a running term of the current position to test for. // It corresponds always to the top position of the currently considered node. //lclheader: adjust position if Header is visible if hoVisible in FHeader.FOptions then CurrentPos:=FHeader.Height else CurrentPos := 0; // If the cache is available then use it. if tsUseCache in FStates then Result := FindInPositionCache(AbsolutePos, CurrentPos) else Result := GetFirstVisibleNoInit; // Determine node, of which position and height corresponds to the scroll position most closely. while Assigned(Result) and (Result <> FRoot) do begin if (vsVisible in Result.States) and (AbsolutePos < (CurrentPos + Result.TotalHeight)) then begin // Found a node which covers the given position. Now go down one level // and search its children (if any, otherwise stop looking). if (AbsolutePos >= CurrentPos + NodeHeight[Result]) and Assigned(Result.FirstChild) and (vsExpanded in Result.States) then begin Inc(CurrentPos, NodeHeight[Result]); Result := Result.FirstChild; Continue; end else Break; end else begin // Advance current position to after the current node, if the node is visible. if vsVisible in Result.States then Inc(CurrentPos, Result.TotalHeight); // Find following node not being a child of the currently considered node (e.g. a sibling or parent). repeat // Is there a next sibling? if Assigned(Result.NextSibling) then begin Result := Result.NextSibling; if vsVisible in Result.States then Break; end else begin // No sibling anymore, so use the parent's next sibling. if Result.Parent <> FRoot then Result := Result.Parent else begin // There are no further nodes to examine, hence there is no further visible node. Result := nil; Break; end; end; until False; end; end; if Result = FRoot then Result := nil; // Since the given vertical position is likely not the same as the top position // of the found node this top position is returned. if Assigned(Result) then begin //lclheader NodeTop := CurrentPos; if hoVisible in FHeader.FOptions then Dec(NodeTop,FHeader.Height); if Relative then Inc(NodeTop, FOffsetY); //Logger.Send([lcPaintHeader],'GetNodeAt Result: ',Result^.Index); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNodeData(Node: PVirtualNode): Pointer; // Returns the address of the user defined data area in the node. begin Assert(FNodeDataSize > 0, 'NodeDataSize not initialized.'); if (FNodeDataSize <= 0) or (Node = nil) or (Node = FRoot) then Result := nil else Result := PChar(@Node.Data) + FTotalInternalDataSize; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetNodeLevel(Node: PVirtualNode): Cardinal; // returns the level of the given node var Run: PVirtualNode; begin Result := 0; if Assigned(Node) and (Node <> FRoot) then begin Run := Node.Parent; while Run <> FRoot do begin Run := Run.Parent; Inc(Result); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPrevious(Node: PVirtualNode): PVirtualNode; // Resturns previous node in tree with regard to Node. The result node is initialized if necessary. begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); // Is there a previous sibling? if Assigned(Node.PrevSibling) then begin // Go down and find the last child node. Result := GetLast(Node.PrevSibling); if Result = nil then Result := Node.PrevSibling; end else // no previous sibling so the parent of the node is the previous visible node if Node.Parent <> FRoot then Result := Node.Parent else Result := nil; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousChecked(Node: PVirtualNode; State: TCheckState = csCheckedNormal): PVirtualNode; begin if (Node = nil) or (Node = FRoot) then Result := FRoot.LastChild else Result := GetPreviousNoInit(Node); while Assigned(Result) and (Result.CheckState <> State) do Result := GetPreviousNoInit(Result); if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousCutCopy(Node: PVirtualNode): PVirtualNode; // Returns the previous node in the tree which is currently marked for a clipboard operation. Since only visible nodes can // be marked (or they are hidden after they have been marked) it is not necessary to initialize nodes to check for // child nodes. The result, however, is initialized if necessary. begin if ClipboardStates * FStates <> [] then begin if (Node = nil) or (Node = FRoot) then Result := FRoot.LastChild else Result := GetPreviousNoInit(Node); while Assigned(Result) and not (vsCutOrCopy in Result.States) do Result := GetPreviousNoInit(Result); if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousInitialized(Node: PVirtualNode): PVirtualNode; // Returns the previous node in tree which is initialized. begin Result := Node; repeat Result := GetPreviousNoInit(Result); until (Result = nil) or (vsInitialized in Result.States); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousLeaf(Node: PVirtualNode): PVirtualNode; // Returns the previous node in the tree which has currently no children. // The result is initialized if necessary. begin if (Node = nil) or (Node = FRoot) then Result := FRoot.LastChild else Result := GetPrevious(Node); while Assigned(Result) and (vsHasChildren in Result.States) do Result := GetPrevious(Result); if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousLevel(Node: PVirtualNode; NodeLevel: Cardinal): PVirtualNode; // Returns the previous node in the tree on a specific level. // The result is initialized if necessary. var StartNodeLevel: Cardinal; begin Result := nil; if Assigned(Node) and (Node <> FRoot) then begin StartNodeLevel := GetNodeLevel(Node); if StartNodeLevel < NodeLevel then begin Result := Node.PrevSibling; if Assigned(Result) then begin // go to last descendant of previous sibling with desired node level (if exists) while Assigned(Result) and (GetNodeLevel(Result) < NodeLevel) do Result := GetLastChild(Result); if not Assigned(Result) then Result := GetPreviousLevel(Node.PrevSibling, NodeLevel); end else Result := GetPreviousLevel(Node.Parent, NodeLevel); end else if StartNodeLevel = NodeLevel then begin Result := Node.PrevSibling; if not Assigned(Result) then // i.e. start node was a first sibling begin Result := Node.Parent; if Assigned(Result) then Result := GetPreviousLevel(Result, NodeLevel); end; end else // i.e. StartNodeLevel > NodeLevel Result := GetPreviousLevel(Node.Parent, NodeLevel); end; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousNoInit(Node: PVirtualNode): PVirtualNode; // Returns the previous node in the tree with regard to Node. No initialization in done, hence this // method might be faster than GetPrevious. Not yet initialized nodes are ignored during search. begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); // Is there a previous sibling? if Assigned(Node.PrevSibling) then begin // Go down and find the last child node. Result := GetLastNoInit(Node.PrevSibling); if Result = nil then Result := Node.PrevSibling; end else // No previous sibling so the parent of the node is the previous node. if Node.Parent <> FRoot then Result := Node.Parent else Result := nil end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousSelected(Node: PVirtualNode): PVirtualNode; // Returns the previous node in the tree which is currently selected. Since children of unitialized nodes cannot be // in the current selection (because they simply do not exist yet) it is not necessary to initialize nodes here. // The result however is initialized if necessary. begin if FSelectionCount > 0 then begin if (Node = nil) or (Node = FRoot) then Result := FRoot.LastChild else Result := GetPreviousNoInit(Node); while Assigned(Result) and not (vsSelected in Result.States) do Result := GetPreviousNoInit(Result); if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousSibling(Node: PVirtualNode): PVirtualNode; // Get next sibling of Node, initialize it if necessary. begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); Result := Result.PrevSibling; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousVisible(Node: PVirtualNode): PVirtualNode; // Returns the previous node in tree, with regard to Node, which is visible. // Nodes which need an initialization (including the result) are initialized. var Marker: PVirtualNode; begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); // If the given node is not visible then look for a parent node which is visible and use its last visible // child or the parent node (if there is no visible child) as result. if not FullyVisible[Result] then begin Result := GetVisibleParent(Result); if Result = FRoot then Result := nil; Marker := GetLastVisible(Result); if Assigned(Marker) then Result := Marker; end else begin repeat // Is there a previous sibling node? if Assigned(Result.PrevSibling) then begin Result := Result.PrevSibling; // Initialize the new node and check its visibility. if not (vsInitialized in Result.States) then InitNode(Result); if vsVisible in Result.States then begin // If there are visible child nodes then use the last one. Marker := GetLastVisible(Result); if Assigned(Marker) then Result := Marker; Break; end; end else begin // No previous sibling there so the parent node is the nearest previous node. Result := Result.Parent; if Result = FRoot then Result := nil; Break; end; until False; if Assigned(Result) and not (vsInitialized in Result.States) then InitNode(Result); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousVisibleNoInit(Node: PVirtualNode): PVirtualNode; // Returns the previous node in tree, with regard to Node, which is visible. var Marker: PVirtualNode; begin Result := Node; if Assigned(Result) then begin Assert(Result <> FRoot, 'Node must not be the hidden root node.'); // If the given node is not visible then look for a parent node which is visible and use its last visible // child or the parent node (if there is no visible child) as result. if not FullyVisible[Result] then begin Result := GetVisibleParent(Result); if Result = FRoot then Result := nil; Marker := GetLastVisibleNoInit(Result); if Assigned(Marker) then Result := Marker; end else begin repeat // Is there a previous sibling node? if Assigned(Result.PrevSibling) then begin Result := Result.PrevSibling; if vsVisible in Result.States then begin // If there are visible child nodes then use the last one. Marker := GetLastVisibleNoInit(Result); if Assigned(Marker) then Result := Marker; Break; end; end else begin // No previous sibling there so the parent node is the nearest previous node. Result := Result.Parent; if Result = FRoot then Result := nil; Break; end; until False; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousVisibleSibling(Node: PVirtualNode): PVirtualNode; // Returns the previous visible sibling before Node. Initialization is done implicitly. begin Assert(Assigned(Node) and (Node <> FRoot), 'Invalid parameter.'); Result := Node; repeat Result := GetPreviousSibling(Result); until (Result = nil) or (vsVisible in Result.States); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetPreviousVisibleSiblingNoInit(Node: PVirtualNode): PVirtualNode; // Returns the previous visible sibling before Node. begin Assert(Assigned(Node) and (Node <> FRoot), 'Invalid parameter.'); Result := Node; repeat Result := Result.PrevSibling; until (Result = nil) or (vsVisible in Result.States); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetSortedCutCopySet(Resolve: Boolean): TNodeArray; // Same as GetSortedSelection but with nodes marked as being part in the current cut/copy set (e.g. for clipboard). var Run: PVirtualNode; Counter: Cardinal; //--------------- local function -------------------------------------------- procedure IncludeThisNode(Node: PVirtualNode); // adds the given node to the result var Len: Cardinal; begin Len := Length(Result); if Counter = Len then begin if Len < 100 then Len := 100 else Len := Len + Len div 10; SetLength(Result, Len); end; Result[Counter] := Node; Inc(Counter); end; //--------------- end local function ---------------------------------------- begin Run := FRoot.FirstChild; Counter := 0; if Resolve then begin // Resolving is actually easy: just find the first cutted node in logical order // and then never go deeper in level than this node as long as there's a sibling node. // Restart the search for a cutted node (at any level) if there are no further siblings. while Assigned(Run) do begin if vsCutOrCopy in Run.States then begin IncludeThisNode(Run); if Assigned(Run.NextSibling) then Run := Run.NextSibling else begin // If there are no further siblings then go up one or more levels until a node is // found or all nodes have been processed. Although we consider here only initialized // nodes we don't need to make any special checks as only initialized nodes can also be selected. repeat Run := Run.Parent; until (Run = FRoot) or Assigned(Run.NextSibling); if Run = FRoot then Break else Run := Run.NextSibling; end; end else Run := GetNextNoInit(Run); end; end else while Assigned(Run) do begin if vsCutOrCopy in Run.States then IncludeThisNode(Run); Run := GetNextNoInit(Run); end; // set the resulting array to its real length SetLength(Result, Counter); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetSortedSelection(Resolve: Boolean): TNodeArray; // Returns a list of selected nodes sorted in logical order, that is, as they appear in the tree. // If Resolve is True then nodes which are children of other selected nodes are not put into the new array. // This feature is in particuar important when doing drag'n drop as in this case all selected node plus their children // need to be considered. A selected node which is child (grand child etc.) of another selected node is then // automatically included and doesn't need to be explicitely mentioned in the returned selection array. // // Note: The caller is responsible for freeing the array. Allocation is done here. Usually, though, freeing the array // doesn't need additional attention as it is automatically freed by Delphi when it gets out of scope. var Run: PVirtualNode; Counter: Cardinal; begin SetLength(Result, FSelectionCount); if FSelectionCount > 0 then begin Run := FRoot.FirstChild; Counter := 0; if Resolve then begin // Resolving is actually easy: just find the first selected node in logical order // and then never go deeper in level than this node as long as there's a sibling node. // Restart the search for a selected node (at any level) if there are no further siblings. while Assigned(Run) do begin if vsSelected in Run.States then begin Result[Counter] := Run; Inc(Counter); if Assigned(Run.NextSibling) then Run := Run.NextSibling else begin // If there are no further siblings then go up one or more levels until a node is // found or all nodes have been processed. Although we consider here only initialized // nodes we don't need to make any special checks as only initialized nodes can also be selected. repeat Run := Run.Parent; until (Run = FRoot) or Assigned(Run.NextSibling); if Run = FRoot then Break else Run := Run.NextSibling; end; end else Run := GetNextNoInit(Run); end; end else while Assigned(Run) do begin if vsSelected in Run.States then begin Result[Counter] := Run; Inc(Counter); end; Run := GetNextNoInit(Run); end; // Since we may have skipped some nodes the result array is likely to be smaller than the // selection array, hence shorten the result to true length. if Integer(Counter) < Length(Result) then SetLength(Result, Counter); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.GetTextInfo(Node: PVirtualNode; Column: TColumnIndex; const AFont: TFont; var R: TRect; var Text: WideString); // Generic base method for editors, hint windows etc. to get some info about a node. begin R := Rect(0, 0, 0, 0); Text := ''; AFont.Assign(Font); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetTreeRect: TRect; // Returns the true size of the tree in pixels. This size is at least ClientHeight x ClientWidth and depends on // the expand state, header size etc. // Note: if no columns are used then the width of the tree is determined by the largest node which is currently in the // client area. This might however not be the largest node in the entire tree. begin Result := Rect(0, 0, Max(FRangeX, ClientWidth), Max(FRangeY, ClientHeight)); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.GetVisibleParent(Node: PVirtualNode): PVirtualNode; // Returns the first (nearest) parent node of Node which is visible. // This method is one of the seldom cases where the hidden root node could be returned. begin Assert(Assigned(Node), 'Node must not be nil.'); Result := Node; while Result <> FRoot do begin // FRoot is always expanded hence the loop will safely stop there if no other node is expanded repeat Result := Result.Parent; until vsExpanded in Result.States; if (Result = FRoot) or FullyVisible[Result] then Break; // if there is still a collapsed parent node then advance to it and repeat the entire loop while (Result <> FRoot) and (vsExpanded in Result.Parent.States) do Result := Result.Parent; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.HasAsParent(Node, PotentialParent: PVirtualNode): Boolean; // Determines whether Node has got PotentialParent as one of its parents. var Run: PVirtualNode; begin Result := Assigned(Node) and Assigned(PotentialParent) and (Node <> PotentialParent); if Result then begin Run := Node; while (Run <> FRoot) and (Run <> PotentialParent) do Run := Run.Parent; Result := Run = PotentialParent; end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.InsertNode(Node: PVirtualNode; Mode: TVTNodeAttachMode; UserData: Pointer = nil): PVirtualNode; // Adds a new node relative to Node. The final position is determined by Mode. // UserData can be used to set the first 4 bytes of the user data area to an initial value which can be used // in OnInitNode and will also cause to trigger the OnFreeNode event (if <> nil) even if the node is not yet // "officially" initialized. // InsertNode is a compatibility method and will implicitly validate the given node if the new node // is to be added as child node. This is however against the virtual paradigm and hence I dissuade from its usage. var NodeData: ^Pointer; begin if Mode <> amNoWhere then begin CancelEditNode; if Node = nil then Node := FRoot; // we need a new node... Result := MakeNewNode; // avoid erronous attach modes if Node = FRoot then begin case Mode of amInsertBefore: Mode := amAddChildFirst; amInsertAfter: Mode := amAddChildLast; end; end; // Validate given node in case the new node becomes its child. if (Mode in [amAddChildFirst, amAddChildLast]) and not (vsInitialized in Node.States) then InitNode(Node); InternalConnectNode(Result, Node, Self, Mode); // Check if there is initial user data and there is also enough user data space allocated. if Assigned(UserData) then if FNodeDataSize >= 4 then begin NodeData := Pointer(PChar(@Result.Data) + FTotalInternalDataSize); NodeData^ := UserData; Include(Result.States, vsInitialUserData); end else ShowError(SCannotSetUserData, hcTFCannotSetUserData); if FUpdateCount = 0 then begin // If auto sort is enabled then sort the node or its parent (depending on the insert mode). if (toAutoSort in FOptions.FAutoOptions) and (FHeader.FSortColumn > InvalidColumn) then case Mode of amInsertBefore, amInsertAfter: // Here no initialization is necessary because *if* a node has already got children then it // must also be initialized. // Note: Node can never be FRoot at this point. Sort(Node.Parent, FHeader.FSortColumn, FHeader.FSortDirection, True); amAddChildFirst, amAddChildLast: Sort(Node, FHeader.FSortColumn, FHeader.FSortDirection, True); end; UpdateScrollbars(True); if Mode = amInsertBefore then InvalidateToBottom(Result) else InvalidateToBottom(Node); end; StructureChange(Result, crNodeAdded); end else Result := nil; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InvalidateChildren(Node: PVirtualNode; Recursive: Boolean); // Invalidates Node and its immediate children. // If Recursive is True then all grandchildren are invalidated as well. // The node itself is initialized if necessary and its child nodes are created (and initialized too if // Recursive is True). var Run: PVirtualNode; begin if Assigned(Node) then begin if not (vsInitialized in Node.States) then InitNode(Node); InvalidateNode(Node); if (vsHasChildren in Node.States) and (Node.ChildCount = 0) then InitChildren(Node); Run := Node.FirstChild; end else Run := FRoot.FirstChild; while Assigned(Run) do begin InvalidateNode(Run); if Recursive then InvalidateChildren(Run, True); Run := Run.NextSibling; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InvalidateColumn(Column: TColumnIndex); // Invalidates the client area part of a column. var R: TRect; begin if (FUpdateCount = 0) and FHeader.Columns.IsValidColumn(Column) then begin R := ClientRect; FHeader.Columns.GetColumnBounds(Column, R.Left, R.Right); InvalidateRect(Handle, @R, False); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.InvalidateNode(Node: PVirtualNode): TRect; // Initiates repaint of the given node and returns the just invalidated rectangle. begin if (FUpdateCount = 0) and HandleAllocated then begin Result := GetDisplayRect(Node, NoColumn, False); InvalidateRect(Handle, @Result, False); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InvalidateToBottom(Node: PVirtualNode); // Initiates repaint of client area starting at given node. If this node is not visible or not yet initialized // then nothing happens. var R: TRect; begin if FUpdateCount = 0 then begin if (Node = nil) or (Node = FRoot) then Invalidate else if [vsInitialized, vsVisible] * Node.States = [vsInitialized, vsVisible] then begin R := GetDisplayRect(Node, -1, False); if R.Top < ClientHeight then begin R.Bottom := ClientHeight; //lclheader if hoVisible in FHeader.FOptions then Inc(R.Bottom,FHeader.Height); InvalidateRect(Handle, @R, False); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.InvertSelection(VisibleOnly: Boolean); // Inverts the current selection (so nodes which are selected become unselected and vice versa). // If VisibleOnly is True then only visible nodes are considered. var Run: PVirtualNode; NewSize: Integer; NextFunction: function(Node: PVirtualNode): PVirtualNode of object; TriggerChange: Boolean; begin if toMultiSelect in FOptions.FSelectionOptions then begin Run := FRoot.FirstChild; ClearTempCache; if VisibleOnly then NextFunction := GetNextVisibleNoInit else NextFunction := GetNextNoInit; while Assigned(Run) do begin if vsSelected in Run.States then InternalRemoveFromSelection(Run) else InternalCacheNode(Run); Run := NextFunction(Run); end; // do some housekeeping // Need to trigger the OnChange event from here if nodes were only deleted but not added. TriggerChange := False; NewSize := PackArray(FSelection, FSelectionCount); if NewSize > -1 then begin FSelectionCount := NewSize; SetLength(FSelection, FSelectionCount); TriggerChange := True; end; if FTempNodeCount > 0 then begin AddToSelection(FTempNodeCache, FTempNodeCount); ClearTempCache; TriggerChange := False; end; Invalidate; if TriggerChange then Change(nil); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.IsEditing: Boolean; begin Result := tsEditing in FStates; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.IsMouseSelecting: Boolean; begin Result := (tsDrawSelPending in FStates) or (tsDrawSelecting in FStates); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.IterateSubtree(Node: PVirtualNode; Callback: TVTGetNodeProc; Data: Pointer; Filter: TVirtualNodeStates = []; DoInit: Boolean = False; ChildNodesOnly: Boolean = False): PVirtualNode; // Iterates through the all children and grandchildren etc. of Node (or the entire tree if Node = nil) // and calls for each node the provided callback method (which must not be empty). // Filter determines which nodes to consider (an empty set denotes all nodes). // If DoInit is True then nodes which aren't initialized yet will be initialized. // Note: During execution of the callback the application can set Abort to True. In this case the iteration is stopped // and the last accessed node (the one on which the callback set Abort to True) is returned to the caller. // Otherwise (no abort) nil is returned. var Stop: PVirtualNode; Abort: Boolean; GetNextNode: TGetNextNodeProc; WasIterating: Boolean; begin Assert(Node <> FRoot, 'Node must not be the hidden root node.'); WasIterating := tsIterating in FStates; DoStateChange([tsIterating]); try // prepare function to be used when advancing if DoInit then GetNextNode := GetNext else GetNextNode := GetNextNoInit; Abort := False; if Node = nil then Stop := nil else begin if not (vsInitialized in Node.States) and DoInit then InitNode(Node); // The stopper does not need to be initialized since it is not taken into the enumeration. Stop := Node.NextSibling; if Stop = nil then begin Stop := Node; repeat Stop := Stop.Parent; until (Stop = FRoot) or Assigned(Stop.NextSibling); if Stop = FRoot then Stop := nil else Stop := Stop.NextSibling; end; end; // Use first node if we start with the root. if Node = nil then Node := GetFirstNoInit; if Assigned(Node) then begin if not (vsInitialized in Node.States) and DoInit then InitNode(Node); // Skip given node if only the child nodes are requested. if ChildNodesOnly then begin if Node.ChildCount = 0 then Node := nil else Node := GetNextNode(Node); end; if Filter = [] then begin // unfiltered loop while Assigned(Node) and (Node <> Stop) do begin Callback(Self, Node, Data, Abort); if Abort then Break; Node := GetNextNode(Node); end; end else begin // filtered loop while Assigned(Node) and (Node <> Stop) do begin if Node.States * Filter = Filter then Callback(Self, Node, Data, Abort); if Abort then Break; Node := GetNextNode(Node) end; end; end; if Abort then Result := Node else Result := nil; finally if not WasIterating then DoStateChange([], [tsIterating]); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.LoadFromFile(const FileName: TFileName); var FileStream: TFileStream; begin FileStream := TFileStream.Create(FileName, fmOpenRead or fmShareDenyWrite); try LoadFromStream(FileStream); finally FileStream.Free; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.LoadFromStream(Stream: TStream); // Clears the current content of the tree and loads a new structure from the given stream. var ThisID: TMagicID; Version, Count: Cardinal; Node: PVirtualNode; begin if not (toReadOnly in FOptions.FMiscOptions) then begin Clear; // Check first whether this is a stream we can read. if Stream.Read(ThisID, SizeOf(TMagicID)) < SizeOf(TMagicID) then ShowError(SStreamTooSmall, hcTFStreamTooSmall); if (ThisID[0] = MagicID[0]) and (ThisID[1] = MagicID[1]) and (ThisID[2] = MagicID[2]) and (ThisID[5] = MagicID[5]) then begin Version := Word(ThisID[3]); if Version <= VTTreeStreamVersion then begin BeginUpdate; try if Version < 2 then Count := MaxInt else Stream.ReadBuffer(Count, SizeOf(Count)); while (Stream.Position < Stream.Size) and (Count > 0) do begin Dec(Count); Node := MakeNewNode; InternalConnectNode(Node, FRoot, Self, amAddChildLast); InternalAddFromStream(Stream, Version, Node); end; DoNodeCopied(nil); finally EndUpdate; end; end else ShowError(SWrongStreamVersion, hcTFWrongStreamVersion); end else ShowError(SWrongStreamFormat, hcTFWrongStreamFormat); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.MeasureItemHeight(const Canvas: TCanvas; Node: PVirtualNode); // If the height of the given node has not yet been measured then do it now. var NewNodeHeight: Integer; begin if not (vsHeightMeasured in Node.States) then begin Include(Node.States, vsHeightMeasured); NewNodeHeight := Node.NodeHeight; DoMeasureItem(Canvas, Node, NewNodeHeight); if NewNodeHeight <> Node.NodeHeight then SetNodeHeight(Node, NewNodeHeight); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.MoveTo(Node: PVirtualNode; Tree: TBaseVirtualTree; Mode: TVTNodeAttachMode; ChildrenOnly: Boolean); // A simplified method to allow to move nodes to the root of another tree. begin MoveTo(Node, Tree.FRoot, Mode, ChildrenOnly); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.MoveTo(Source, Target: PVirtualNode; Mode: TVTNodeAttachMode; ChildrenOnly: Boolean); // Moves the given node (and all its children) to Target. Source must belong to the tree instance which calls this // MoveTo method. Mode determines how to connect Source to Target. // This method might involve a change of the tree if Target belongs to a different tree than Source. var TargetTree: TBaseVirtualTree; Allowed: Boolean; NewNode: PVirtualNode; Stream: TMemoryStream; begin Assert(TreeFromNode(Source) = Self, 'The source tree must contain the source node.'); // When moving nodes then source and target must not be the same node unless only the source's children are // moved and they are inserted before or after the node itself. Allowed := (Source <> Target) or ((Mode in [amInsertBefore, amInsertAfter]) and ChildrenOnly); if Allowed and (Mode <> amNoWhere) and Assigned(Source) and (Source <> FRoot) and not (toReadOnly in FOptions.FMiscOptions) then begin // Assume that an empty destination means the root in this (the source) tree. if Target = nil then begin TargetTree := Self; Target := FRoot; Mode := amAddChildFirst; end else TargetTree := TreeFromNode(Target); if Target = TargetTree.FRoot then begin case Mode of amInsertBefore: Mode := amAddChildFirst; amInsertAfter: Mode := amAddChildLast; end; end; // Make sure the target node is initialized. if not (vsInitialized in Target.States) then InitNode(Target) else if (vsHasChildren in Target.States) and (Target.ChildCount = 0) then InitChildren(Target); if TargetTree = Self then begin // Simple case: move node(s) within the same tree. if Target = FRoot then Allowed := DoNodeMoving(Source, nil) else Allowed := DoNodeMoving(Source, Target); if Allowed then begin // Check first that Source is not added as new child to a target node which // is already a child of Source. // Consider the case Source and Target are the same node, but only child nodes are moved. if (Source <> Target) and HasAsParent(Target, Source) then ShowError(SWrongMoveError, hcTFWrongMoveError); if not ChildrenOnly then begin // Disconnect from old location. InternalDisconnectNode(Source, True); // Connect to new location. InternalConnectNode(Source, Target, Self, Mode); DoNodeMoved(Source); end else begin // Only child nodes should be moved. Insertion order depends on move mode. if Mode = amAddChildFirst then begin Source := Source.LastChild; while Assigned(Source) do begin NewNode := Source.PrevSibling; // Disconnect from old location. InternalDisconnectNode(Source, True, False); // Connect to new location. InternalConnectNode(Source, Target, Self, Mode); DoNodeMoved(Source); Source := NewNode; end; end else begin Source := Source.FirstChild; while Assigned(Source) do begin NewNode := Source.NextSibling; // Disconnect from old location. InternalDisconnectNode(Source, True, False); // Connect to new location. InternalConnectNode(Source, Target, Self, Mode); DoNodeMoved(Source); Source := NewNode; end; end; end; end; end else begin // Difficult case: move node(s) to another tree. // In opposition to node copying we ask only once if moving is allowed because // we cannot take back a move once done. if Target = TargetTree.FRoot then Allowed := DoNodeMoving(Source, nil) else Allowed := DoNodeMoving(Source, Target); if Allowed then begin Stream := TMemoryStream.Create; try // Write all nodes into a temporary stream depending on the ChildrenOnly flag. if not ChildrenOnly then WriteNode(Stream, Source) else begin Source := Source.FirstChild; while Assigned(Source) do begin WriteNode(Stream, Source); Source := Source.NextSibling; end; end; // Now load the serialized nodes into the target node (tree). TargetTree.BeginUpdate; try Stream.Position := 0; while Stream.Position < Stream.Size do begin NewNode := TargetTree.MakeNewNode; InternalConnectNode(NewNode, Target, TargetTree, Mode); TargetTree.InternalAddFromStream(Stream, VTTreeStreamVersion, NewNode); DoNodeMoved(NewNode); end; finally TargetTree.EndUpdate; end; finally Stream.Free; end; // finally delete original nodes BeginUpdate; try if ChildrenOnly then DeleteChildren(Source) else DeleteNode(Source); finally EndUpdate; end; end; end; InvalidateCache; if (FUpdateCount = 0) and Allowed then begin ValidateCache; UpdateScrollBars(True); Invalidate; if TargetTree <> Self then TargetTree.Invalidate; end; StructureChange(Source, crNodeMoved); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.PaintTree(TargetCanvas: TCanvas; Window: TRect; Target: TPoint; PaintOptions: TVTInternalPaintOptions; PixelFormat: TPixelFormat); // This is the core paint routine of the tree. It is responsible for maintaining the paint cycles per node as well // as coordinating drawing of the various parts of the tree image. // TargetCanvas is the canvas to which to draw the tree image. This is usually the tree window itself but could well // be a bitmap or printer canvas. // Window determines which part of the entire tree image to draw. The full size of the virtual image is determined // by GetTreeRect. // Target is the position in TargetCanvas where to draw the tree part specified by Window. // PaintOptions determines what of the tree to draw. For different tasks usually different parts need to be drawn, with // a full image in the window, selected only nodes for a drag image etc. const ImageKind: array[Boolean] of TVTImageKind = (ikNormal, ikSelected); var DrawSelectionRect, UseBackground, ShowImages, ShowStateImages, ShowCheckImages, UseColumns, IsMainColumn: Boolean; {$ifdef Gtk} YCorrect, {$endif} VAlign, IndentSize, ButtonX, ButtonY: Integer; Temp: PVirtualNode; LineImage: TLineImage; PaintInfo: TVTPaintInfo; // all necessary information about a node to pass to the paint routines R, // the area of an entire node in its local coordinate TargetRect, // the area of a node (part) in the target canvas SelectionRect: TRect; // ordered rectangle used for drawing the selection focus rect NextColumn: TColumnIndex; BaseOffset: Integer; // top position of the top node to draw given in absolute tree coordinates NodeBitmap: TBitmap; // small buffer to draw flicker free MaximumRight, // maximum horizontal target position MaximumBottom: Integer; // maximum vertical target position SelectLevel: Integer; // > 0 if current node is selected or child/grandchild etc. of a selected node FirstColumn: TColumnIndex; // index of first column which is at least partially visible in the given window begin Logger.EnterMethod([lcPaint],'PaintTree'); Logger.Send([lcPaint],'Window',Window); Logger.Send([lcPaint],'Target',Target); Logger.Send([lcPaintHeader],'ClientRect',ClientRect); Logger.Send([lcPaintHeader],'TreeRect',GetTreeRect); Logger.Send([lcPaintHeader],'OffsetX: %d OffsetY: %d',[OffsetX,OffsetY]); //lcl changes to 24bit color depth when screen depth is 32 bit //todo: remove when this limitation is removed {$ifdef Windows} if (PixelFormat = pfDevice) and (ScreenInfo.ColorDepth = 32) then PixelFormat := pf32bit; {$endif} if not (tsPainting in FStates) then begin DoStateChange([tsPainting]); try DoBeforePaint(TargetCanvas); // Create small bitmaps and initialize default values. // The bitmaps are used to paint one node at a time and to draw the result to the target (e.g. screen) in one step, // to prevent flickering. NodeBitmap := TBitmap.Create; // For alpha blending we need the 32 bit pixel format. For other targets there might be a need for a certain // pixel format (e.g. printing). if MMXAvailable and ((FDrawSelectionMode = smBlendedRectangle) or (tsUseThemes in FStates) or (toUseBlendedSelection in FOptions.PaintOptions)) then NodeBitmap.PixelFormat := pf32Bit else NodeBitmap.PixelFormat := PixelFormat; // Prepare paint info structure and lock the back bitmap canvas to avoid that it gets freed on the way. FillChar(PaintInfo, SizeOf(PaintInfo), 0); PaintInfo.Canvas := NodeBitmap.Canvas; NodeBitmap.Canvas.Lock; try Logger.Send([lcPaintDetails],'FNewSelRect',FNewSelRect); // Prepare the current selection rectangle once. The corner points are absolute tree coordinates. SelectionRect := OrderRect(FNewSelRect); Logger.Send([lcPaintDetails],'SelectionRect',SelectionRect); DrawSelectionRect := IsMouseSelecting and not IsRectEmpty(SelectionRect); Logger.Watch([lcPaintDetails],'DrawSelectionRect',DrawSelectionRect); // R represents an entire node (all columns), but is a bit unprecise when it comes to // trees without any column defined, because FRangeX only represents the maximum width of all // nodes in the client area (not all defined nodes). There might be, however, wider nodes somewhere. Without full // validation I cannot better determine the width, though. By using at least the control's width it is ensured // that the tree is fully displayed on screen. R := Rect(0, 0, Max(FRangeX, ClientWidth), 0); NodeBitmap.Width := Window.Right - Window.Left; Logger.Send([lcPaintDetails],'NodeBitmap.Width',NodeBitmap.Width); // Make sure the buffer bitmap and target bitmap use the same transformation mode. SetMapMode(NodeBitmap.Canvas.Handle, GetMapMode(TargetCanvas.Handle)); // For quick checks some intermediate variables are used. UseBackground := (toShowBackground in FOptions.FPaintOptions) and (FBackground.Graphic is TBitmap) and (poBackground in PaintOptions); ShowImages := Assigned(FImages); ShowStateImages := Assigned(FStateImages); ShowCheckImages := Assigned(FCheckImages) and (toCheckSupport in FOptions.FMiscOptions); Logger.Send([lcCheck],'ShowCheckImages',ShowCheckImages); UseColumns := FHeader.UseColumns; // Adjust paint options to tree settings. Hide selection if told so or the tree is unfocused. if (toAlwaysHideSelection in FOptions.FPaintOptions) or (not Focused and (toHideSelection in FOptions.FPaintOptions)) then Exclude(PaintOptions, poDrawSelection); if toHideFocusRect in FOptions.FPaintOptions then Exclude(PaintOptions, poDrawFocusRect); // Determine node to start drawing with. BaseOffset := 0; PaintInfo.Node := GetNodeAt(0, Window.Top, False, BaseOffset); if PaintInfo.Node = nil then BaseOffset := Window.Top; Logger.Send([lcPaint],'BaseOffset',BaseOffset); // Transform selection rectangle into node bitmap coordinates. if DrawSelectionRect then OffsetRect(SelectionRect, 0, -BaseOffset); // The target rectangle holds the coordinates of the exact area to blit in target canvas coordinates. // It is usually smaller than an entire node and wanders while the paint loop advances. MaximumRight := Target.X + (Window.Right - Window.Left); MaximumBottom := Target.Y + (Window.Bottom - Window.Top); Logger.Send([lcPaintHeader],'MaximumRight: %d MaximumBottom: %d',[MaximumRight,MaximumBottom]); TargetRect := Rect(Target.X, Target.Y - (Window.Top - BaseOffset), MaximumRight, 0); TargetRect.Bottom := TargetRect.Top; // This marker gets the index of the first column which is visible in the given window. // This is needed for column based background colors. FirstColumn := InvalidColumn; if Assigned(PaintInfo.Node) then begin SelectLevel := InitializeLineImageAndSelectLevel(PaintInfo.Node, LineImage); IndentSize := Length(LineImage); // Precalculate horizontal position of buttons relative to the column start. ButtonX := (Length(LineImage) * Integer(FIndent)) + Round((Integer(FIndent) - FPlusBM.Width) / 2) - FIndent; // ----- main node paint loop while Assigned(PaintInfo.Node) do begin Logger.EnterMethod([lcPaintDetails],'PaintNode'); Logger.Send([lcPaintDetails],'NodeIndex',PaintInfo.Node^.Index); Logger.Watch([lcPaintDetails],'BaseOffset',BaseOffset); Logger.Watch([lcPaintDetails],'Brush.Color',PaintInfo.Canvas.Brush.Color); // Initialize node if not already done. if not (vsInitialized in PaintInfo.Node.States) then InitNode(PaintInfo.Node); if vsSelected in PaintInfo.Node.States then Inc(SelectLevel); // Ensure the node's height is determined. MeasureItemHeight(PaintInfo.Canvas, PaintInfo.Node); // Adjust the brush origin for dotted lines depending on the current source position. // It is applied some lines later, as the canvas might get reallocated, when changing the node bitmap. PaintInfo.BrushOrigin := Point(Window.Left and 1, BaseOffset and 1); Inc(BaseOffset, PaintInfo.Node.NodeHeight); TargetRect.Bottom := TargetRect.Top + PaintInfo.Node.NodeHeight; // If poSelectedOnly is active then do the following stuff only for selected nodes or nodes // which are children of selected nodes. if (SelectLevel > 0) or not (poSelectedOnly in PaintOptions) then begin // Adjust height of temporary node bitmap. with NodeBitmap do begin if Height <> PaintInfo.Node.NodeHeight then begin Logger.Send([lcPaintDetails],'Setting the Node Height'); // Avoid that the VCL copies the bitmap while changing its height. Height := 0; Height := PaintInfo.Node.NodeHeight; //Workaround to LCL bug 8626 SetWindowOrgEx(Canvas.Handle, {$ifdef Gtk}-{$endif}Window.Left, 0, nil); R.Bottom := PaintInfo.Node.NodeHeight; end; // Set the origin of the canvas' brush. This depends on the node heights. with PaintInfo do SetBrushOrgEx(Canvas.Handle, BrushOrigin.X, BrushOrigin.Y, nil); end; CalculateVerticalAlignments(ShowImages, ShowStateImages, PaintInfo.Node, VAlign, ButtonY); // Let application decide whether the node should normally be drawn or by the application itself. if not DoBeforeItemPaint(PaintInfo.Canvas, PaintInfo.Node, R) then begin // Init paint options for the background painting. PaintInfo.PaintOptions := PaintOptions; Logger.Watch([lcPaintDetails],'Brush.Color',PaintInfo.Canvas.Brush.Color); // The node background can contain a single color, a bitmap or can be drawn by the application. ClearNodeBackground(PaintInfo, UseBackground, True, Rect(Window.Left, TargetRect.Top, Window.Right, TargetRect.Bottom)); Logger.SendBitmap([lcPaintBitmap],'After Clear BackGround',NodeBitmap); Logger.Watch([lcPaintDetails],'Brush.Color',PaintInfo.Canvas.Brush.Color); // Prepare column, position and node clipping rectangle. PaintInfo.CellRect := R; Logger.Send([lcPaintDetails],'PaintInfo.CellRect',PaintInfo.CellRect); if UseColumns then InitializeFirstColumnValues(PaintInfo); // Now go through all visible columns (there's still one run if columns aren't used). with FHeader.FColumns do begin while ((PaintInfo.Column > InvalidColumn) or not UseColumns) and (PaintInfo.CellRect.Left < Window.Right) do begin if UseColumns then begin PaintInfo.Column := FPositionToIndex[PaintInfo.Position]; if FirstColumn = InvalidColumn then FirstColumn := PaintInfo.Column; PaintInfo.BidiMode := Items[PaintInfo.Column].FBiDiMode; PaintInfo.Alignment := Items[PaintInfo.Column].FAlignment; end else begin PaintInfo.Column := NoColumn; PaintInfo.BidiMode := BidiMode; PaintInfo.Alignment := FAlignment; end; Logger.Send([lcPaintDetails], 'Column Paint - PaintInfo.Position: %d PaintInfo.Column: %d',[PaintInfo.Position,PaintInfo.Column]); PaintInfo.PaintOptions := PaintOptions; with PaintInfo do begin if (tsEditing in FStates) and (Node = FFocusedNode) and ((Column = FEditColumn) or not UseColumns) then Exclude(PaintOptions, poDrawSelection); if not UseColumns or ((vsSelected in Node.States) and (toFullRowSelect in FOptions.FSelectionOptions) and (poDrawSelection in PaintOptions)) or (coParentColor in Items[PaintInfo.Column].Options) then Exclude(PaintOptions, poColumnColor); end; IsMainColumn := PaintInfo.Column = FHeader.MainColumn; // Consider bidi mode here. In RTL context means left alignment actually right alignment and vice versa. if PaintInfo.BidiMode <> bdLeftToRight then ChangeBiDiModeAlignment(PaintInfo.Alignment); // Paint the current cell if it is marked as being visible or columns aren't used and // if this cell belongs to the main column if only the main column should be drawn. if (not UseColumns or (coVisible in Items[PaintInfo.Column].FOptions)) and (not (poMainOnly in PaintOptions) or IsMainColumn) then begin AdjustPaintCellRect(PaintInfo, NextColumn); // Paint the cell only if it is in the current window. if PaintInfo.CellRect.Right > Window.Left then begin with PaintInfo do begin // Fill in remaining values in the paint info structure. NodeWidth := DoGetNodeWidth(Node, Column, Canvas); // Not the entire cell is covered by text. Hence we need a running rectangle to follow up. ContentRect := CellRect; // Set up the distance from column border (margin). if BidiMode <> bdLeftToRight then Dec(ContentRect.Right, FMargin) else Inc(ContentRect.Left, FMargin); if ShowCheckImages and IsMainColumn then begin ImageInfo[iiCheck].Index := GetCheckImage(Node); if ImageInfo[iiCheck].Index > -1 then begin AdjustImageBorder(FCheckImages.Height, FCheckImages.Height, BidiMode, VAlign, ContentRect, ImageInfo[iiCheck]); ImageInfo[iiCheck].Ghosted := False; end; end else ImageInfo[iiCheck].Index := -1; if ShowStateImages then begin GetImageIndex(PaintInfo, ikState, iiState, FStateImages); if ImageInfo[iiState].Index > -1 then AdjustImageBorder(FStateImages.Width, FStateImages.Height, BidiMode, VAlign, ContentRect, ImageInfo[iiState]); end else ImageInfo[iiState].Index := -1; if ShowImages then begin GetImageIndex(PaintInfo, ImageKind[vsSelected in Node.States], iiNormal, FImages); if ImageInfo[iiNormal].Index > -1 then AdjustImageBorder(FImages.Width, FImages.Height, BidiMode, VAlign, ContentRect, ImageInfo[iiNormal]); end else ImageInfo[iiNormal].Index := -1; // Take the space for the tree lines into account. if IsMainColumn then AdjustCoordinatesByIndent(PaintInfo, IndentSize); if UseColumns then LimitPaintingToArea(Canvas, CellRect); // Paint the horizontal grid line. if (poGridLines in PaintOptions) and (toShowHorzGridLines in FOptions.FPaintOptions) then begin Canvas.Font.Color := FColors.GridLineColor; if IsMainColumn and (FLineMode = lmBands) then begin if BidiMode = bdLeftToRight then begin DrawDottedHLine(PaintInfo, CellRect.Left + IndentSize * Integer(FIndent), CellRect.Right - 1, CellRect.Bottom - 1); end else begin DrawDottedHLine(PaintInfo, CellRect.Left, CellRect.Right - IndentSize * Integer(FIndent) - 1, CellRect.Bottom - 1); end; end else DrawDottedHLine(PaintInfo, CellRect.Left, CellRect.Right, CellRect.Bottom - 1); Dec(CellRect.Bottom); Dec(ContentRect.Bottom); end; if UseColumns then begin // Paint vertical grid line. // Don't draw if this is the last column and the header is in autosize mode. if (poGridLines in PaintOptions) and (toShowVertGridLines in FOptions.FPaintOptions) and (not (hoAutoResize in FHeader.FOptions) or (Position < TColumnPosition(Count - 1))) then begin if (BidiMode = bdLeftToRight) or not ColumnIsEmpty(Node, Column) then begin Canvas.Font.Color := FColors.GridLineColor; DrawDottedVLine(PaintInfo, CellRect.Top, CellRect.Bottom, CellRect.Right - 1); end; Dec(CellRect.Right); Dec(ContentRect.Right); end; end; // Prepare background and focus rect for the current cell. PrepareCell(PaintInfo, Window.Left, NodeBitmap.Width); Logger.Watch([lcPaintDetails],'Brush.Color',PaintInfo.Canvas.Brush.Color); // Some parts are only drawn for the main column. if IsMainColumn then begin if toShowTreeLines in FOptions.FPaintOptions then PaintTreeLines(PaintInfo, VAlign, IndentSize, LineImage); // Show node button if allowed, if there child nodes and at least one of the child // nodes is visible or auto button hiding is disabled. if (toShowButtons in FOptions.FPaintOptions) and (vsHasChildren in Node.States) and not ((vsAllChildrenHidden in Node.States) and (toAutoHideButtons in TreeOptions.FAutoOptions)) then PaintNodeButton(Canvas, Node, CellRect, ButtonX, ButtonY, BidiMode); if ImageInfo[iiCheck].Index > -1 then PaintCheckImage(PaintInfo); end; Logger.Watch([lcPaintDetails],'Brush.Color',PaintInfo.Canvas.Brush.Color); if ImageInfo[iiState].Index > -1 then PaintImage(PaintInfo, iiState, False); if ImageInfo[iiNormal].Index > -1 then PaintImage(PaintInfo, iiNormal, True); Logger.Watch([lcPaintDetails],'Brush.Color',PaintInfo.Canvas.Brush.Color); // Now let descendants or applications draw whatever they want, // but don't draw the node if it is currently being edited. if not ((tsEditing in FStates) and (Node = FFocusedNode) and ((Column = FEditColumn) or not UseColumns)) then DoPaintNode(PaintInfo); Logger.Watch([lcPaintDetails],'Brush.Color',PaintInfo.Canvas.Brush.Color); DoAfterCellPaint(Canvas, Node, Column, CellRect); end; end; // leave after first run if columns aren't used if not UseColumns then Break; end else NextColumn := GetNextVisibleColumn(PaintInfo.Column); SelectClipRgn(PaintInfo.Canvas.Handle, 0); // Stop column loop if there are no further columns in the given window. if (PaintInfo.CellRect.Left >= Window.Right) or (NextColumn = InvalidColumn) then Break; // Move on to next column which might not be the one immediately following the current one // because of auto span feature. PaintInfo.Position := Items[NextColumn].Position; // Move clip rectangle and continue. if coVisible in Items[NextColumn].FOptions then with PaintInfo do begin Items[NextColumn].GetAbsoluteBounds(CellRect.Left, CellRect.Right); CellRect.Bottom := Node.NodeHeight; ContentRect.Bottom := Node.NodeHeight; end; end; end; // This node is finished, notify descendants/application. with PaintInfo do begin DoAfterItemPaint(Canvas, Node, R); // Final touch for this node: mark it if it is the current drop target node. if (Node = FDropTargetNode) and (toShowDropmark in FOptions.FPaintOptions) and (poDrawDropMark in PaintOptions) then DoPaintDropMark(Canvas, Node, R); end; end; with PaintInfo.Canvas do begin if DrawSelectionRect then begin PaintSelectionRectangle(PaintInfo.Canvas, Window.Left, SelectionRect, Rect(0, 0, NodeBitmap.Width, NodeBitmap.Height)); end; Logger.SendBitmap([lcPaintBitmap],'NodeBitmap',NodeBitmap); Logger.SendIf([lcPaintDetails],'TargetRect.Top < Target.Y '+ Logger.RectToStr(TargetRect) +' '+Logger.PointToStr(Target),TargetRect.Top < Target.Y); {$ifdef Gtk} // This is a brute force fix AKA hack to prevent the header being cleared // when the tree is scrolled (YOffset < 0) and the mouse is over the header // Other widgetsets are not affected because excludecliprect works different (better?) // this must be removed when/if the paint coordinate is modified to be header aware YCorrect := 0; if hoVisible in FHeader.Options then begin if TargetRect.Top < FHeader.Height then YCorrect := FHeader.Height - TargetRect.Top; end; Logger.SendIf([lcPaintDetails],'YCorrect ' + IntToStr(YCorrect), YCorrect > 0); {$endif} // Put the constructed node image onto the target canvas. with TargetRect, NodeBitmap do BitBlt(TargetCanvas.Handle, Left, Top {$ifdef Gtk} + YCorrect{$endif}, Width, Height, Canvas.Handle, Window.Left, {$ifdef Gtk}YCorrect{$else}0{$endif}, SRCCOPY); end; end; Inc(TargetRect.Top, PaintInfo.Node.NodeHeight); Logger.SendIf([lcPaintHeader,lcDrag],'Last Node to be painted: '+ IntToStr(PaintInfo.Node^.Index) +' (TargetRect.Top >= MaximumBottom)',TargetRect.Top >= MaximumBottom); if TargetRect.Top >= MaximumBottom then begin Logger.ExitMethod([lcPaintDetails],'PaintNode'); Break; end; // Keep selection rectangle coordinates in sync. if DrawSelectionRect then OffsetRect(SelectionRect, 0, -PaintInfo.Node.NodeHeight); // Advance to next visible node. Temp := GetNextVisible(PaintInfo.Node); if Assigned(Temp) then begin // Adjust line bitmap (and so also indentation level). if Temp.Parent = PaintInfo.Node then begin // New node is a child node. Need to adjust previous bitmap level. if IndentSize > 0 then if HasVisibleNextSibling(PaintInfo.Node) then LineImage[IndentSize - 1] := ltTopDown else LineImage[IndentSize - 1] := ltNone; // Enhance line type array if necessary. Inc(IndentSize); if Length(LineImage) <= IndentSize then SetLength(LineImage, IndentSize + 8); Inc(ButtonX, FIndent); end else begin // New node is at the same or higher tree level. // Take back select level increase if the node was selected if vsSelected in PaintInfo.Node.States then Dec(SelectLevel); if PaintInfo.Node.Parent <> Temp.Parent then begin // We went up one or more levels. Determine how many levels it was actually. while PaintInfo.Node.Parent <> Temp.Parent do begin Dec(IndentSize); Dec(ButtonX, FIndent); PaintInfo.Node := PaintInfo.Node.Parent; // Take back one selection level increase for every step up. if vsSelected in PaintInfo.Node.States then Dec(SelectLevel); end; end; end; // Set new image in front of the new node. if IndentSize > 0 then if HasVisibleNextSibling(Temp) then LineImage[IndentSize - 1] := ltTopDownRight else LineImage[IndentSize - 1] := ltTopRight; end; PaintInfo.Node := Temp; Logger.ExitMethod([lcPaintDetails],'PaintNode'); end; end; // Erase rest of window not covered by a node. if TargetRect.Top < MaximumBottom then begin Logger.Watch([lcPaintDetails],'UseBackground',UseBackground); Logger.Watch([lcPaintDetails],'UseColumns',UseColumns); // Keep the horizontal target position to determine the selection rectangle offset later (if necessary). BaseOffset := Target.X; Target := TargetRect.TopLeft; R := Rect(TargetRect.Left, 0, TargetRect.Left, MaximumBottom - Target.Y); TargetRect := Rect(0, 0, MaximumRight - Target.X, MaximumBottom - Target.Y); Logger.Send([lcPaintDetails],'NodeBitmap.Handle',NodeBitmap.Handle); NodeBitmap.PixelFormat := pf32Bit; NodeBitmap.Width := TargetRect.Right - TargetRect.Left; NodeBitmap.Height := TargetRect.Bottom - TargetRect.Top; Logger.Send([lcPaintDetails],'NodeBitmap.Handle after changing height to background',NodeBitmap.Handle); Logger.Send([lcPaintDetails],'TargetRect',TargetRect); Logger.Send([lcPaintDetails],'NodeBitmap Width: %d Height: %d',[NodeBitmap.Width,NodeBitmap.Height]); // Call back application/descendants whether they want to erase this area. SetWindowOrgEx(NodeBitmap.Canvas.Handle,{$ifndef Windows}-{$endif}Target.X, 0, nil); if not DoPaintBackground(NodeBitmap.Canvas, TargetRect) then begin if UseBackground then begin SetWindowOrgEx(NodeBitmap.Canvas.Handle, 0, 0, nil); if toStaticBackground in TreeOptions.PaintOptions then StaticBackground(FBackground.Bitmap, NodeBitmap.Canvas, Target, TargetRect) else TileBackground(FBackground.Bitmap, NodeBitmap.Canvas, Target, TargetRect); end else begin // Consider here also colors of the columns. if UseColumns then begin with FHeader.FColumns do begin // If there is no content in the tree then the first column has not yet been determined. if FirstColumn = InvalidColumn then begin FirstColumn := GetFirstVisibleColumn; repeat if FirstColumn <> InvalidColumn then begin R.Left := Items[FirstColumn].Left; R.Right := R.Left + Items[FirstColumn].FWidth; if R.Right > TargetRect.Left then Break; FirstColumn := GetNextVisibleColumn(FirstColumn); end; until FirstColumn = InvalidColumn; end else begin R.Left := Items[FirstColumn].Left; R.Right := R.Left + Items[FirstColumn].FWidth; end; NodeBitmap.Canvas.Font.Color := FColors.GridLineColor; while (FirstColumn <> InvalidColumn) and (R.Left < TargetRect.Right + Target.X) do begin if (poGridLines in PaintOptions) and (toFullVertGridLines in FOptions.FPaintOptions) and (toShowVertGridLines in FOptions.FPaintOptions) and (not (hoAutoResize in FHeader.FOptions) or (Cardinal(FirstColumn) < TColumnPosition(Count - 1))) then begin DrawDottedVLine(PaintInfo, R.Top, R.Bottom, R.Right - 1); Dec(R.Right); end; if not (coParentColor in Items[FirstColumn].FOptions) then NodeBitmap.Canvas.Brush.Color := Items[FirstColumn].FColor else NodeBitmap.Canvas.Brush.Color := Color; NodeBitmap.Canvas.FillRect(R); FirstColumn := GetNextVisibleColumn(FirstColumn); if FirstColumn <> InvalidColumn then begin R.Left := Items[FirstColumn].Left; R.Right := R.Left + Items[FirstColumn].FWidth; end; end; // Erase also the part of the tree not covert by a column. if R.Right < TargetRect.Right + Target.X then begin R.Left := R.Right; R.Right := TargetRect.Right + Target.X; // Prevent erasing the last vertical grid line. if (poGridLines in PaintOptions) and (toFullVertGridLines in FOptions.FPaintOptions) and (toShowVertGridLines in FOptions.FPaintOptions) and (not (hoAutoResize in FHeader.FOptions)) then Inc(R.Left); NodeBitmap.Canvas.Brush.Color := Color; NodeBitmap.Canvas.FillRect(R); end; end; SetWindowOrgEx(NodeBitmap.Canvas.Handle, 0, 0, nil); end else begin Logger.Send([lcPaintDetails],'ErasingBackGround'); Logger.Send([lcPaintDetails],'TargetRect',TargetRect); // No columns nor bitmap background. Simply erase it with the tree color. SetWindowOrgEx(NodeBitmap.Canvas.Handle, 0, 0, nil); NodeBitmap.Canvas.Brush.Color := Color; NodeBitmap.Canvas.FillRect(TargetRect); end; end; end; SetWindowOrgEx(NodeBitmap.Canvas.Handle, 0, 0, nil); Logger.Watch([lcPaintDetails],'DrawSelectionRect',DrawSelectionRect); if DrawSelectionRect then begin R := OrderRect(FNewSelRect); // Remap the selection rectangle to the current window of the tree. // Since Target has been used for other tasks BaseOffset got the left extent of the target position here. OffsetRect(R, -Target.X + BaseOffset - Window.Left, -Target.Y + FOffsetY); SetBrushOrgEx(NodeBitmap.Canvas.Handle, 0, Target.X and 1, nil); PaintSelectionRectangle(NodeBitmap.Canvas, 0, R, TargetRect); end; Logger.Send([lcPaintDetails],'NodeBitmap.Canvas.Height',NodeBitmap.Canvas.Height); Logger.Send([lcPaintDetails],'NodeBitmap.Canvas.ClipRect',NodeBitmap.Canvas.ClipRect); Logger.Send([lcPaintDetails],'Target',Target); Logger.SendBitmap([lcPaintBitmap],'BackGroundBitmap',NodeBitmap); with Target, NodeBitmap do BitBlt(TargetCanvas.Handle, X, Y, Width, Height, Canvas.Handle, 0, 0, SRCCOPY); end; finally NodeBitmap.Canvas.Unlock; NodeBitmap.Free; end; DoAfterPaint(TargetCanvas); finally DoStateChange([], [tsPainting]); end; end; Logger.ExitMethod([lcPaint],'PaintTree'); end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.PasteFromClipboard: Boolean; // Reads what is currently on the clipboard into the tree (if the format is supported). // Note: If the application wants to have text or special formats to be inserted then it must implement // its own code (OLE). Here only the native tree format is accepted. var Data: IDataObject; Source: TBaseVirtualTree; begin Result := False; if not (toReadOnly in FOptions.FMiscOptions) then begin if OleGetClipboard(Data) <> S_OK then ShowError(SClipboardFailed, hcTFClipboardFailed) else try // Try to get the source tree of the operation to optimize the operation. Source := GetTreeFromDataObject(Data); Result := ProcessOLEData(Source, Data, FFocusedNode, FDefaultPasteMode, Assigned(Source) and (tsCutPending in Source.FStates)); if Assigned(Source) then if Source <> Self then Source.FinishCutOrCopy else DoStateChange([], [tsCutPending]); finally Data := nil; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.PrepareDragImage(Hotspot: TPoint; const DataObject: IDataObject); // Initiates an image drag operation. Hotspot is the position of the mouse in client coordinates. var PaintOptions: TVTInternalPaintOptions; TreeRect, PaintRect: TRect; LocalSpot, ImagePos, PaintTarget: TPoint; Image: TBitmap; begin if CanShowDragImage then begin // Determine the drag rectangle which is a square around the hot spot. Operate in virtual tree space. LocalSpot := HotSpot; Dec(LocalSpot.X, -FEffectiveOffsetX); Dec(LocalSpot.Y, FOffsetY); TreeRect := Rect(LocalSpot.X - FDragWidth div 2, LocalSpot.Y - FDragHeight div 2, LocalSpot.X + FDragWidth div 2, LocalSpot.Y + FDragHeight div 2); // Check that we have a valid rectangle. with TreeRect do begin PaintRect := TreeRect; if Left < 0 then begin PaintTarget.X := -Left; PaintRect.Left := 0; end else PaintTarget.X := 0; if Top < 0 then begin PaintTarget.Y := -Top; PaintRect.Top := 0; end else PaintTarget.Y := 0; end; Image := TBitmap.Create; with Image do try PixelFormat := pf32Bit; Width := TreeRect.Right - TreeRect.Left; Height := TreeRect.Bottom - TreeRect.Top; // Erase the entire image with the color key value, for the case not everything // in the image is covered by the tree image. Canvas.Brush.Color := Color; Canvas.FillRect(Rect(0, 0, Width, Height)); PaintOptions := [poDrawSelection, poSelectedOnly]; if FDragImageKind = diMainColumnOnly then Include(PaintOptions, poMainOnly); PaintTree(Image.Canvas, PaintRect, PaintTarget, PaintOptions); // Once we have got the drag image we can convert all necessary coordinates into screen space. OffsetRect(TreeRect, -FEffectiveOffsetX, FOffsetY); ImagePos := ClientToScreen(TreeRect.TopLeft); HotSpot := ClientToScreen(HotSpot); FDragImage.ColorKey := Color; FDragImage.PrepareDrag(Image, ImagePos, HotSpot, DataObject); finally Image.Free; end; end; end; //---------------------------------------------------------------------------------------------------------------------- {$ifdef EnablePrint} procedure TBaseVirtualTree.Print(Printer: TPrinter; PrintHeader: Boolean); var SaveTreeFont: TFont; // Remembers the tree's current font. SaveHeaderFont: TFont; // Remembers the header's current font. ImgRect, // Describes the dimensions of Image. TreeRect, // The total VTree dimensions. DestRect, // Dimensions of PrinterImage. SrcRect: TRect; // Clip dimensions from Image -> PrinterImage P: TPoint; // Used by PaintTree. Options: TVTInternalPaintOptions; // Used by PaintTree. Image, // Complete Tree is drawn to this image. PrinterImage: TBitmap; // This is the image that gets printed. SaveColor: TColor; // Remembers the VTree Color. pTxtHeight, // Height of font in the TPrinter.Canvas vTxtHeight, // Height of font in the VTree Canvas vPageWidth, vPageHeight, // Printer height in VTree resolution xPageNum, yPageNum, // # of pages (except the occasional last one) xPage, yPage: Integer; // Loop counter Scale: Extended; // Scale factor between Printer Canvas and VTree Canvas LogFont: TLogFont; begin if Assigned(Printer) then begin BeginUpdate; // Grid lines are the only parts which are desirable when printing. Options := [poGridLines]; // Remember the tree font. SaveTreeFont := TFont.Create; SaveTreeFont.Assign(Font); // Create a new font for printing which does not use clear type output (but is antialiased, if possible) // and which has the highest possible quality. GetObject(Font.Handle, SizeOf(TLogFont), @LogFont); LogFont.lfQuality := ANTIALIASED_QUALITY; Font.Handle := CreateFontIndirect(LogFont); // Create an image that will hold the complete VTree Image := TBitmap.Create; Image.PixelFormat := pf32Bit; PrinterImage := nil; try TreeRect := GetTreeRect; Image.Width := TreeRect.Right - TreeRect.Left; P := Point(0, 0); if (hoVisible in FHeader.Options) and PrintHeader then begin Inc(TreeRect.Bottom, FHeader.Height); Inc(P.Y, FHeader.Height); end; Image.Height := TreeRect.Bottom - TreeRect.Top; ImgRect.Left := 0; ImgRect.Top := 0; ImgRect.Right := Image.Width; // Force the background to white color during the rendering. SaveColor := Color; Color := clWhite; // Print header if it is visible. if (hoVisible in FHeader.Options) and PrintHeader then begin SaveHeaderFont := TFont.Create; try SaveHeaderFont.Assign(FHeader.Font); // Create a new font for printing which does not use clear type output (but is antialiased, if possible) // and which has the highest possible quality. GetObject(FHeader.Font.Handle, SizeOf(TLogFont), @LogFont); LogFont.lfQuality := ANTIALIASED_QUALITY; FHeader.Font.Handle := CreateFontIndirect(LogFont); ImgRect.Bottom := FHeader.Height; FHeader.FColumns.PaintHeader(Image.Canvas.Handle, ImgRect, 0); FHeader.Font := SaveHeaderFont; finally SaveHeaderFont.Free; end; end; // The image's height is already adjusted for the header if it is visible. ImgRect.Bottom := Image.Height; PaintTree(Image.Canvas, ImgRect, P, Options, pf32Bit); Color := SaveColor; // Activate the printer Printer.BeginDoc; Printer.Canvas.Font := Font; // Now we can calculate the scaling : pTxtHeight := Printer.Canvas.TextHeight('Tj'); vTxtHeight := Canvas.TextHeight('Tj'); Scale := pTxtHeight / vTxtHeight; // Create an Image that has the same dimensions as the printer canvas but // scaled to the VTree resolution: PrinterImage := TBitmap.Create; vPageHeight := Round(Printer.PageHeight / Scale); vPageWidth := Round(Printer.PageWidth / Scale); // We do a minumum of one page. xPageNum := Trunc(Image.Width / vPageWidth); yPageNum := Trunc(Image.Height / vPageHeight); PrinterImage.Width := vPageWidth; PrinterImage.Height := vPageHeight; // Split vertically: for yPage := 0 to yPageNum do begin DestRect.Left := 0; DestRect.Top := 0; DestRect.Right := PrinterImage.Width; DestRect.Bottom := PrinterImage.Height; // Split horizontally: for xPage := 0 to xPageNum do begin SrcRect.Left := vPageWidth * xPage; SrcRect.Top := vPageHeight * yPage; SrcRect.Right := vPageWidth * xPage + PrinterImage.Width; SrcRect.Bottom := SrcRect.Top + vPageHeight; // Clear the image PrinterImage.Canvas.Brush.Color := clWhite; PrinterImage.Canvas.FillRect(Rect(0, 0, PrinterImage.Width, PrinterImage.Height)); PrinterImage.Canvas.CopyRect(DestRect, Image.Canvas, SrcRect); PrtStretchDrawDIB(Printer.Canvas, Rect(0, 0, Printer.PageWidth, Printer.PageHeight - 1), PrinterImage); if xPage <> xPageNum then Printer.NewPage; end; if yPage <> yPageNum then Printer.NewPage; end; // Restore tree font. Font := SaveTreeFont; SaveTreeFont.Free; Printer.EndDoc; finally PrinterImage.Free; Image.Free; EndUpdate; end; end; end; {$endif} //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.ProcessDrop(DataObject: IDataObject; TargetNode: PVirtualNode; var Effect: Integer; Mode: TVTNodeAttachMode): Boolean; // Recreates the (sub) tree structure serialized into memory and provided by DataObject. The new nodes are attached to // the passed node or FRoot if TargetNode is nil. // Returns True on success, i.e. the CF_VIRTUALTREE format is supported by the data object and the structure could be // recreated, otherwise False. var Source: TBaseVirtualTree; begin Result := False; if Mode = amNoWhere then Effect := DROPEFFECT_NONE else begin BeginUpdate; // try to get the source tree of the operation Source := GetTreeFromDataObject(DataObject); if Assigned(Source) then Source.BeginUpdate; try try // Before adding the new nodes try to optimize the operation if source and target tree reside in // the same application and operation is a move. if ((Effect and DROPEFFECT_MOVE) <> 0) and Assigned(Source) then begin // If both copy and move are specified then prefer a copy because this is not destructing. Result := ProcessOLEData(Source, DataObject, TargetNode, Mode, (Effect and DROPEFFECT_COPY) = 0); // Since we made an optimized move or a copy there's no reason to act further after DoDragging returns. Effect := DROPEFFECT_NONE; end else // Act only if move or copy operation is requested. if (Effect and (DROPEFFECT_MOVE or DROPEFFECT_COPY)) <> 0 then Result := ProcessOLEData(Source, DataObject, TargetNode, Mode, False) else Result := False; except Effect := DROPEFFECT_NONE; end; finally if Assigned(Source) then Source.EndUpdate; EndUpdate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ReinitChildren(Node: PVirtualNode; Recursive: Boolean); // Forces all child nodes of Node to be reinitialized. // If Recursive is True then also the grandchildren are reinitialized. var Run: PVirtualNode; begin if Assigned(Node) then begin InitChildren(Node); Run := Node.FirstChild; end else begin InitChildren(FRoot); Run := FRoot.FirstChild; end; while Assigned(Run) do begin ReinitNode(Run, Recursive); Run := Run.NextSibling; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ReinitNode(Node: PVirtualNode; Recursive: Boolean); // Forces the given node and all its children (if recursive is True) to be initialized again without // modifying any data in the nodes nor deleting children (unless the application requests a different amount). begin if Assigned(Node) and (Node <> FRoot) then begin // Remove dynamic styles. Node.States := Node.States - [vsChecking, vsCutOrCopy, vsDeleting, vsHeightMeasured]; InitNode(Node); end; if Recursive then ReinitChildren(Node, True); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.RepaintNode(Node: PVirtualNode); // Causes an immediate repaint of the given node. var R: Trect; begin if Assigned(Node) and (Node <> FRoot) then begin R := GetDisplayRect(Node, -1, False); RedrawWindow(Handle, @R, 0, RDW_INVALIDATE or RDW_UPDATENOW or RDW_NOERASE or RDW_VALIDATE or RDW_NOCHILDREN); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ResetNode(Node: PVirtualNode); // Deletes all children of the given node and marks it as being uninitialized. begin DoCancelEdit; if (Node = nil) or (Node = FRoot) then Clear else begin DoReset(Node); DeleteChildren(Node); // Remove initialized and other dynamic styles, keep persistent styles. Node.States := Node.States - [vsInitialized, vsChecking, vsCutOrCopy, vsDeleting, vsHasChildren, vsExpanded, vsHeightMeasured]; InvalidateNode(Node); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SaveToFile(const FileName: TFileName); // Saves the entire content of the tree into a file (see further notes in SaveToStream). var FileStream: TFileStream; begin FileStream := TFileStream.Create(FileName, fmCreate); try SaveToStream(FileStream); finally FileStream.Free; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SaveToStream(Stream: TStream; Node: PVirtualNode = nil); // Saves Node and all its children to Stream. If Node is nil then all top level nodes will be stored. // Note: You should be careful about assuming what is actually saved. The problem here is that we are dealing with // virtual data. The tree can so not know what it has to save. The only fact we reliably know is the tree's // structure. To be flexible for future enhancements as well as unknown content (unknown to the tree class which // is saving/loading the stream) a chunk based approach is used here. Every tree class handles only those // chunks which are not handled by an anchestor class and are known by the class. // // The base tree class saves only the structure of the tree along with application provided data. descendants may // optionally add their own chunks to store additional information. See: WriteChunks. var Count: Cardinal; begin Stream.Write(MagicID, SizeOf(MagicID)); if Node = nil then begin // Keep number of top level nodes for easy restauration. Count := FRoot.ChildCount; Stream.WriteBuffer(Count, SizeOf(Count)); // Save entire tree here. Node := FRoot.FirstChild; while Assigned(Node) do begin WriteNode(Stream, Node); Node := Node.NextSibling; end; end else begin Count := 1; Stream.WriteBuffer(Count, SizeOf(Count)); WriteNode(Stream, Node); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.ScrollIntoView(Node: PVirtualNode; Center: Boolean; Horizontally: Boolean = False): Boolean; // Scrolls the tree so that the given node is in the client area and returns True if the tree really has been // scrolled (e.g. to avoid further updates) else returns False. If extened focus is enabled then the tree will also // be horizontally scrolled if needed. // Note: All collapsed parents of the node are expanded. var R: TRect; Run: PVirtualNode; UseColumns, HScrollBarVisible: Boolean; NewOffset: Integer; begin Result := False; if Assigned(Node) and (Node <> FRoot) then begin // Make sure all parents of the node are expanded. Run := Node.Parent; while Run <> FRoot do begin if not (vsExpanded in Run.States) then ToggleNode(Run); Run := Run.Parent; end; UseColumns := FHeader.UseColumns; if UseColumns then R := GetDisplayRect(Node, FFocusedColumn, not (toGridExtensions in FOptions.FMiscOptions)) else R := GetDisplayRect(Node, NoColumn, not (toGridExtensions in FOptions.FMiscOptions)); // The returned rectangle can never be empty after the expand code above. // 1) scroll vertically //lclheader if hoVisible in FHeader.FOptions then begin Dec(R.Top,FHeader.Height); end; if R.Top < 0 then begin if Center then SetOffsetY(FOffsetY - R.Top + ClientHeight div 2) else SetOffsetY(FOffsetY - R.Top); Result := True; end else if (R.Bottom > ClientHeight) or Center then begin HScrollBarVisible := (ScrollBarOptions.ScrollBars in [ssBoth, ssHorizontal]) and (ScrollBarOptions.AlwaysVisible or (Integer(FRangeX) > ClientWidth)); if Center then SetOffsetY(FOffsetY - R.Bottom + ClientHeight div 2) else SetOffsetY(FOffsetY - R.Bottom + ClientHeight); // When scrolling up and the horizontal scroll appears because of the operation // then we have to move up the node the horizontal scrollbar's height too // in order to avoid that the scroll bar hides the node which we wanted to have in view. if not UseColumns and not HScrollBarVisible and (Integer(FRangeX) > ClientWidth) then SetOffsetY(FOffsetY - GetSystemMetrics(SM_CYHSCROLL)); Result := True; end; if Horizontally then begin // 2) scroll horizontally if Header.Columns.GetVisibleFixedWidth > 0 then begin if (Abs(R.Left - Header.Columns.GetVisibleFixedWidth) > 1) then begin NewOffset := FEffectiveOffsetX - (R.Left - Header.Columns.GetVisibleFixedWidth); if UseRightToLeftAlignment then SetOffsetX(-Integer(FRangeX) + ClientWidth + NewOffset) else SetOffsetX(-NewOffset); Result := True; end; end else if (R.Right > ClientWidth) or (R.Left < 0) then begin NewOffset := FEffectiveOffsetX + ((R.Left + R.Right) div 2) - (ClientWidth div 2); if UseRightToLeftAlignment then SetOffsetX(-Integer(FRangeX) + ClientWidth + NewOffset) else SetOffsetX(-NewOffset); Result := True; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SelectAll(VisibleOnly: Boolean); // Select all nodes in the tree. // If VisibleOnly is True then only visible nodes are selected. var Run: PVirtualNode; NextFunction: function(Node: PVirtualNode): PVirtualNode of object; begin if toMultiSelect in FOptions.FSelectionOptions then begin ClearTempCache; if VisibleOnly then begin Run := GetFirstVisible; NextFunction := GetNextVisible; end else begin Run := GetFirst; NextFunction := GetNext; end; while Assigned(Run) do begin if not(vsSelected in Run.States) then InternalCacheNode(Run); Run := NextFunction(Run); end; if FTempNodeCount > 0 then AddToSelection(FTempNodeCache, FTempNodeCount); ClearTempCache; Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.Sort(Node: PVirtualNode; Column: TColumnIndex; Direction: TSortDirection; DoInit: Boolean = True); // Sorts the given node. The application is queried about how to sort via the OnCompareNodes event. // Column is simply passed to the the compare function so the application can also sort in a particular column. // In order to free the application from taking care about the sort direction the parameter Direction is used. // This way the application can always sort in increasing order, while this method reorders nodes according to this flag. //--------------- local functions ------------------------------------------- function MergeAscending(A, B: PVirtualNode): PVirtualNode; // Merges A and B (which both must be sorted via Compare) into one list. var Dummy: TVirtualNode; begin // This avoids checking for Result = nil in the loops. Result := @Dummy; while Assigned(A) and Assigned(B) do begin if DoCompare(A, B, Column) <= 0 then begin Result.NextSibling := A; Result := A; A := A.NextSibling; end else begin Result.NextSibling := B; Result := B; B := B.NextSibling; end; end; // Just append the list which is not nil (or set end of result list to nil if both lists are nil). if Assigned(A) then Result.NextSibling := A else Result.NextSibling := B; // return start of the new merged list Result := Dummy.NextSibling; end; //--------------------------------------------------------------------------- function MergeDescending(A, B: PVirtualNode): PVirtualNode; // Merges A and B (which both must be sorted via Compare) into one list. var Dummy: TVirtualNode; begin // this avoids checking for Result = nil in the loops Result := @Dummy; while Assigned(A) and Assigned(B) do begin if DoCompare(A, B, Column) >= 0 then begin Result.NextSibling := A; Result := A; A := A.NextSibling; end else begin Result.NextSibling := B; Result := B; B := B.NextSibling; end; end; // Just append the list which is not nil (or set end of result list to nil if both lists are nil). if Assigned(A) then Result.NextSibling := A else Result.NextSibling := B; // Return start of the newly merged list. Result := Dummy.NextSibling; end; //--------------------------------------------------------------------------- function MergeSortAscending(var Node: PVirtualNode; N: Cardinal): PVirtualNode; // Sorts the list of nodes given by Node (which must not be nil). var A, B: PVirtualNode; begin if N > 1 then begin A := MergeSortAscending(Node, N div 2); B := MergeSortAscending(Node, (N + 1) div 2); Result := MergeAscending(A, B); end else begin Result := Node; Node := Node.NextSibling; Result.NextSibling := nil; end; end; //--------------------------------------------------------------------------- function MergeSortDescending(var Node: PVirtualNode; N: Cardinal): PVirtualNode; // Sorts the list of nodes given by Node (which must not be nil). var A, B: PVirtualNode; begin if N > 1 then begin A := MergeSortDescending(Node, N div 2); B := MergeSortDescending(Node, (N + 1) div 2); Result := MergeDescending(A, B); end else begin Result := Node; Node := Node.NextSibling; Result.NextSibling := nil; end; end; //--------------- end local functions --------------------------------------- var Run: PVirtualNode; Index: Cardinal; begin InterruptValidation; if tsEditPending in FStates then begin KillTimer(Handle, EditTimer); DoStateChange([], [tsEditPending]); end; if not (tsEditing in FStates) or DoEndEdit then begin if Node = nil then Node := FRoot; if vsHasChildren in Node.States then begin if (Node.ChildCount = 0) and DoInit then InitChildren(Node); // Make sure the children are valid, so they can be sorted at all. if DoInit and (Node.ChildCount > 0) then ValidateChildren(Node, False); // Child count might have changed. if Node.ChildCount > 1 then begin // Sort the linked list, check direction flag only once. if Direction = sdAscending then Node.FirstChild := MergeSortAscending(Node.FirstChild, Node.ChildCount) else Node.FirstChild := MergeSortDescending(Node.FirstChild, Node.ChildCount); // Consolidate the child list finally. Run := Node.FirstChild; Run.PrevSibling := nil; Index := 0; repeat Run.Index := Index; Inc(Index); if Run.NextSibling = nil then Break; Run.NextSibling.PrevSibling := Run; Run := Run.NextSibling; until False; Node.LastChild := Run; InvalidateCache; end; if FUpdateCount = 0 then begin ValidateCache; Invalidate; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.SortTree(Column: TColumnIndex; Direction: TSortDirection; DoInit: Boolean = True); //--------------- local function -------------------------------------------- procedure DoSort(Node: PVirtualNode); // Recursively sorts Node and its child nodes. var Run: PVirtualNode; begin Sort(Node, Column, Direction, DoInit); Run := Node.FirstChild; while Assigned(Run) do begin if DoInit and not (vsInitialized in Run.States) then InitNode(Run); if vsInitialized in Run.States then DoSort(Run); Run := Run.NextSibling; end; end; //--------------- end local function ---------------------------------------- begin // Instead of wrapping the sort using BeginUpdate/EndUpdate simply the update counter // is modified. Otherwise the EndUpdate call will recurse here. Inc(FUpdateCount); try if Column > InvalidColumn then DoSort(FRoot); InvalidateCache; finally if FUpdateCount > 0 then Dec(FUpdateCount); if FUpdateCount = 0 then begin ValidateCache; Invalidate; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ToggleNode(Node: PVirtualNode); // Changes a node's expand state to the opposite state. var LastTopNode, Child: PVirtualNode; NewHeight: Integer; NeedUpdate: Boolean; ToggleData: TToggleAnimationData; begin Assert(Assigned(Node), 'Node must not be nil.'); NeedUpdate := False; // We don't need to switch the expand state if the node is being deleted otherwise some // updates (e.g. visible node count) are done twice with disasterous results). if [vsDeleting, vsToggling] * Node.States = [] then begin Include(Node.States, vsToggling); // LastTopNode is needed to know when the entire tree scrolled during toggling. // It is of course only needed when we also update the display here. if FUpdateCount = 0 then LastTopNode := GetTopNode else LastTopNode := nil; if vsExpanded in Node.States then begin if DoCollapsing(Node) then begin NeedUpdate := True; if (FUpdateCount = 0) and (toAnimatedToggle in FOptions.FAnimationOptions) and not (tsCollapsing in FStates) then begin Application.CancelHint; UpdateWindow(Handle); // animated collapsing with ToggleData do begin Expand := False; R := GetDisplayRect(Node, NoColumn, False); R.Bottom := ClientHeight; Inc(R.Top, NodeHeight[Node]); // No animation necessary if the node is below the current client height. if R.Top < R.Bottom then begin Window := Handle; DC := GetDC(Handle); Self.Brush.Color := Color; Brush := Self.Brush.Handle; try Animate(Min(R.Bottom - R.Top + 1, Node.TotalHeight - NodeHeight[Node]), FAnimationDuration, ToggleCallback, @ToggleData); finally ReleaseDC(Window, DC); end; end; end; end; // collapse the node AdjustTotalHeight(Node, NodeHeight[Node]); if FullyVisible[Node] then Dec(FVisibleCount, CountVisibleChildren(Node)); Exclude(Node.States, vsExpanded); DoCollapsed(Node); // Remove child nodes now, if enabled. if (toAutoFreeOnCollapse in FOptions.FAutoOptions) and (Node.ChildCount > 0) then begin DeleteChildren(Node); Include(Node.States, vsHasChildren); end; end; end else if DoExpanding(Node) then begin NeedUpdate := True; // expand the node, need to adjust the height if not (vsInitialized in Node.States) then InitNode(Node); if (vsHasChildren in Node.States) and (Node.ChildCount = 0) then InitChildren(Node); // Avoid setting the vsExpanded style if there are no child nodes. if Node.ChildCount > 0 then begin // Iterate through the child nodes without initializing them. We have to determine the entire height. NewHeight := 0; Child := Node.FirstChild; repeat if vsVisible in Child.States then Inc(NewHeight, Child.TotalHeight); Child := Child.NextSibling; until Child = nil; if FUpdateCount = 0 then begin ToggleData.R := GetDisplayRect(Node, NoColumn, False); // Do animated expanding if enabled and it is not the last visible node to be expanded. if (ToggleData.R.Top < ClientHeight) and ([tsPainting, tsExpanding] * FStates = []) and (toAnimatedToggle in FOptions.FAnimationOptions) and (GetNextVisibleNoInit(Node) <> nil) then begin Application.CancelHint; UpdateWindow(Handle); // animated expanding with ToggleData do begin Inc(R.Top, NodeHeight[Node]); R.Bottom := ClientHeight; if R.Bottom > R.Top then begin Expand := True; Window := Handle; DC := GetDC(Handle); Self.Brush.Color := Color; Brush := Self.Brush.Handle; try Animate(Min(R.Bottom - R.Top + 1, NewHeight), FAnimationDuration, ToggleCallback, @ToggleData); finally ReleaseDC(Window, DC); end; end; end; end; end; Include(Node.States, vsExpanded); AdjustTotalHeight(Node, NewHeight, True); if FullyVisible[Node] then Inc(FVisibleCount, CountVisibleChildren(Node)); DoExpanded(Node); end; end; if NeedUpdate then begin InvalidateCache; if FUpdateCount = 0 then begin ValidateCache; if Node.ChildCount > 0 then begin UpdateScrollbars(True); // Scroll as much child nodes into view as possible if the node has been expanded. if (toAutoScrollOnExpand in FOptions.FAutoOptions) and (vsExpanded in Node.States) then begin //lcl adjust header if Integer(Node.TotalHeight) <= (ClientHeight - FHeaderRect.Bottom) then ScrollIntoView(GetLastChild(Node), toCenterScrollIntoView in FOptions.SelectionOptions) else TopNode := Node; end; // Check for automatically scrolled tree. if LastTopNode <> GetTopNode then Invalidate else InvalidateToBottom(Node); end else InvalidateNode(Node); end; end; Exclude(Node.States, vsToggling); end; end; //---------------------------------------------------------------------------------------------------------------------- function TBaseVirtualTree.UpdateAction(Action: TBasicAction): Boolean; // Support for standard actions. begin if not Focused then Result := inherited UpdateAction(Action) else begin Result := (Action is TEditCut) or (Action is TEditCopy) or (Action is TEditDelete); if Result then TAction(Action).Enabled := (FSelectionCount > 0) and ((Action is TEditDelete) or (FClipboardFormats.Count > 0)) else begin Result := Action is TEditPaste; if Result then TAction(Action).Enabled := True else begin Result := Action is TEditSelectAll; if Result then TAction(Action).Enabled := (toMultiSelect in FOptions.FSelectionOptions) and (FVisibleCount > 0) else Result := inherited UpdateAction(Action); end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.UpdateHorizontalScrollBar(DoRepaint: Boolean); var ScrollInfo: TScrollInfo; begin if FHeader.UseColumns then FRangeX := FHeader.FColumns.TotalWidth else FRangeX := GetMaxRightExtend; // Adjust effect scroll offset depending on bidi mode. if UseRightToLeftAlignment then FEffectiveOffsetX := Integer(FRangeX) - ClientWidth + FOffsetX else FEffectiveOffsetX := -FOffsetX; if FScrollBarOptions.ScrollBars in [ssHorizontal, ssBoth] then begin FillChar(ScrollInfo, SizeOf(ScrollInfo), 0); ScrollInfo.cbSize := SizeOf(ScrollInfo); ScrollInfo.fMask := SIF_ALL; {$ifdef UseFlatScrollbars} FlatSB_GetScrollInfo(Handle, SB_HORZ, ScrollInfo); {$else} GetScrollInfo(Handle, SB_HORZ, ScrollInfo); {$endif UseFlatScrollbars} if (Integer(FRangeX) > ClientWidth) or FScrollBarOptions.AlwaysVisible then begin DoShowScrollBar(SB_HORZ, True); ScrollInfo.nMin := 0; ScrollInfo.nMax := FRangeX; ScrollInfo.nPos := FEffectiveOffsetX; ScrollInfo.nPage := Max(0, ClientWidth + 1); ScrollInfo.fMask := SIF_ALL or ScrollMasks[FScrollBarOptions.AlwaysVisible]; {$ifdef UseFlatScrollbars} FlatSB_SetScrollInfo(Handle, SB_HORZ, ScrollInfo, DoRepaint); {$else} SetScrollInfo(Handle, SB_HORZ, ScrollInfo, DoRepaint); {$endif UseFlatScrollbars} end else begin ScrollInfo.nMin := 0; ScrollInfo.nMax := 0; ScrollInfo.nPos := 0; ScrollInfo.nPage := 0; DoShowScrollBar(SB_HORZ, False); {$ifdef UseFlatScrollbars} FlatSB_SetScrollInfo(Handle, SB_HORZ, ScrollInfo, False); {$else} SetScrollInfo(Handle, SB_HORZ, ScrollInfo, False); {$endif UseFlatScrollbars} end; // Since the position is automatically changed if it doesn't meet the range // we better read the current position back to stay synchronized. {$ifdef UseFlatScrollbars} FEffectiveOffsetX := FlatSB_GetScrollPos(Handle, SB_HORZ); {$else} //todo: Use get scrollinfo instead of GetScrollPos?? FEffectiveOffsetX := GetScrollPos(Handle, SB_HORZ); {$endif UseFlatScrollbars} if UseRightToLeftAlignment then SetOffsetX(-Integer(FRangeX) + ClientWidth + FEffectiveOffsetX) else SetOffsetX(-FEffectiveOffsetX); end else begin DoShowScrollBar(SB_HORZ, False); // Reset the current horizontal offset to account for window resize etc. SetOffsetX(FOffsetX); end; Logger.Send([lcPaintDetails],'FEffectiveOffsetX after UpdateHScrollbar',FEffectiveOffsetX); end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.UpdateScrollBars(DoRepaint: Boolean); // adjusts scrollbars to reflect current size and paint offset of the tree begin if HandleAllocated then begin UpdateVerticalScrollBar(DoRepaint); UpdateHorizontalScrollBar(DoRepaint); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.UpdateVerticalScrollBar(DoRepaint: Boolean); var ScrollInfo: TScrollInfo; begin // Total node height includes the height of the invisble root node. if FRoot.TotalHeight < FDefaultNodeHeight then FRoot.TotalHeight := FDefaultNodeHeight; FRangeY := FRoot.TotalHeight - FRoot.NodeHeight + FBottomSpace; //lclheader //if hoVisible in FHeader.FOptions then // Inc(FRangeY,FHeader.Height); if FScrollBarOptions.ScrollBars in [ssVertical, ssBoth] then begin ScrollInfo.cbSize := SizeOf(ScrollInfo); ScrollInfo.fMask := SIF_ALL; {$ifdef UseFlatScrollbars} FlatSB_GetScrollInfo(Handle, SB_VERT, ScrollInfo); {$else} GetScrollInfo(Handle, SB_VERT, ScrollInfo); {$endif UseFlatScrollbars} if (Integer(FRangeY) > ClientHeight) or FScrollBarOptions.AlwaysVisible then begin DoShowScrollBar(SB_VERT, True); ScrollInfo.nMin := 0; ScrollInfo.nMax := FRangeY; ScrollInfo.nPos := -FOffsetY; ScrollInfo.nPage := Max(0, ClientHeight + 1); ScrollInfo.fMask := SIF_ALL or ScrollMasks[FScrollBarOptions.AlwaysVisible]; {$ifdef UseFlatScrollbars} FlatSB_SetScrollInfo(Handle, SB_VERT, ScrollInfo, DoRepaint); {$else} SetScrollInfo(Handle, SB_VERT, ScrollInfo, DoRepaint); {$endif UseFlatScrollbars} end else begin ScrollInfo.nMin := 0; ScrollInfo.nMax := 0; ScrollInfo.nPos := 0; ScrollInfo.nPage := 0; DoShowScrollBar(SB_VERT, False); {$ifdef UseFlatScrollbars} FlatSB_SetScrollInfo(Handle, SB_VERT, ScrollInfo, False); {$else} SetScrollInfo(Handle, SB_VERT, ScrollInfo, False); {$endif UseFlatScrollbars} end; // Since the position is automatically changed if it doesn't meet the range // we better read the current position back to stay synchronized. {$ifdef UseFlatScrollbars} SetOffsetY(-FlatSB_GetScrollPos(Handle, SB_VERT)); {$else} SetOffsetY(-GetScrollPos(Handle, SB_VERT)); {$endif UseFlatScrollBars} end else begin DoShowScrollbar(SB_VERT, False); // Reset the current vertical offset to account for window resize etc. SetOffsetY(FOffsetY); end; end; //---------------------------------------------------------------------------------------------------------------------- //lcl: the current implementation in TControl is exactly equal to this. // disable for now and reenable in the case the TControl implementation change { function TBaseVirtualTree.UseRightToLeftReading: Boolean; // The tree can handle right-to-left reading also on non-middle-east systems, so we cannot use the same function as // it is implemented in TControl. begin Result := BiDiMode <> bdLeftToRight; end; } //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ValidateChildren(Node: PVirtualNode; Recursive: Boolean); // Ensures that the children of the given node (and all their children, if Recursive is True) are initialized. // Node must already be initialized var Child: PVirtualNode; begin if Node = nil then Node := FRoot; if (vsHasChildren in Node.States) and (Node.ChildCount = 0) then InitChildren(Node); Child := Node.FirstChild; while Assigned(Child) do begin ValidateNode(Child, Recursive); Child := Child.NextSibling; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TBaseVirtualTree.ValidateNode(Node: PVirtualNode; Recursive: Boolean); // Ensures that the given node (and all its children, if Recursive is True) are initialized. var Child: PVirtualNode; begin if Node = nil then Node := FRoot else if not (vsInitialized in Node.States) then InitNode(Node); if Recursive then begin if (vsHasChildren in Node.States) and (Node.ChildCount = 0) then InitChildren(Node); Child := Node.FirstChild; while Assigned(Child) do begin ValidateNode(Child, recursive); Child := Child.NextSibling; end; end; end; //----------------- TCustomStringTreeOptions --------------------------------------------------------------------------- constructor TCustomStringTreeOptions.Create(AOwner: TBaseVirtualTree); begin inherited; FStringOptions := DefaultStringOptions; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomStringTreeOptions.SetStringOptions(const Value: TVTStringOptions); var ChangedOptions: TVTStringOptions; begin if FStringOptions <> Value then begin // Exclusive ORing to get all entries wich are in either set but not in both. ChangedOptions := FStringOptions + Value - (FStringOptions * Value); FStringOptions := Value; with FOwner do if (toShowStaticText in ChangedOptions) and not (csLoading in ComponentState) and HandleAllocated then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomStringTreeOptions.AssignTo(Dest: TPersistent); begin if Dest is TCustomStringTreeOptions then begin with Dest as TCustomStringTreeOptions do StringOptions := Self.StringOptions; end; // Let ancestors assign their options to the destination class. inherited; end; //----------------- TVTEdit -------------------------------------------------------------------------------------------- // Implementation of a generic node caption editor. constructor TVTEdit.Create(Link: TStringEditLink); begin inherited Create(nil); ShowHint := False; ParentShowHint := False; // This assignment increases the reference count for the interface. FRefLink := Link; // This reference is used to access the link. FLink := Link; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.CMAutoAdjust(var Message: TLMessage); begin AutoAdjustSize; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.CMExit(var Message: TLMessage); begin if Assigned(FLink) and not FLink.FStopping then with FLink, FTree do begin if (toAutoAcceptEditChange in TreeOptions.StringOptions) then DoEndEdit else DoCancelEdit; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.CMRelease(var Message: TLMessage); begin Free; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.CNCommand(var Message: TLMCommand); begin if Assigned(FLink) and Assigned(FLink.FTree) and (Message.NotifyCode = EN_UPDATE) and not (toGridExtensions in FLink.FTree.FOptions.FMiscOptions) and not (vsMultiline in FLink.FNode.States) then // Instead directly calling AutoAdjustSize it is necessary on Win9x/Me to decouple this notification message // and eventual resizing. Hence we use a message to accomplish that. if IsWinNT then AutoAdjustSize else PostMessage(Handle, CM_AUTOADJUST, 0, 0); end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.WMChar(var Message: TLMChar); begin if not (Message.CharCode in [VK_ESCAPE, VK_TAB]) then inherited; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.WMDestroy(var Message: TLMDestroy); begin // If editing stopped by other means than accept or cancel then we have to do default processing for // pending changes. if Assigned(FLink) and not FLink.FStopping then begin with FLink, FTree do begin if (toAutoAcceptEditChange in TreeOptions.StringOptions) and Modified then Text[FNode, FColumn] := FEdit.Text; end; FLink := nil; FRefLink := nil; end; inherited; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.WMGetDlgCode(var Message: TLMNoParams); begin inherited; Message.Result := Message.Result or DLGC_WANTALLKEYS or DLGC_WANTTAB or DLGC_WANTARROWS; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.WMKeyDown(var Message: TLMKeyDown); // Handles some control keys. var Shift: TShiftState; EndEdit: Boolean; Tree: TBaseVirtualTree; begin case Message.CharCode of VK_ESCAPE: begin Tree := FLink.FTree; FLink.FTree.DoCancelEdit; Tree.SetFocus; end; VK_RETURN: begin EndEdit := not (vsMultiline in FLink.FNode.States); if not EndEdit then begin // If a multiline node is being edited the finish editing only if Ctrl+Enter was pressed, // otherwise allow to insert line breaks into the text. Shift := KeyDataToShiftState(Message.KeyData); EndEdit := ssCtrl in Shift; end; if EndEdit then begin Tree := FLink.FTree; FLink.FTree.InvalidateNode(FLink.FNode); FLink.FTree.DoEndEdit; Tree.SetFocus; end; end; VK_UP: begin if not (vsMultiline in FLink.FNode.States) then Message.CharCode := VK_LEFT; inherited; end; VK_DOWN: begin if not (vsMultiline in FLink.FNode.States) then Message.CharCode := VK_RIGHT; inherited; end; else inherited; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.AutoAdjustSize; // Changes the size of the edit to accomodate as much as possible of its text within its container window. // NewChar describes the next character which will be added to the edit's text. var DC: HDC; Size: TSize; LastFont: THandle; begin if not (vsMultiline in FLink.FNode.States) then begin DC := GetDC(Handle); LastFont := SelectObject(DC, Font.Handle); try // Read needed space for the current text. GetTextExtentPoint32(DC, PChar(Text), Length(Text), Size); Inc(Size.cx, 2 * FLink.FTree.FTextMargin); // Repaint associated node if the edit becomes smaller. if Size.cx < Width then FLink.FTree.InvalidateNode(FLink.FNode); if FLink.FAlignment = taRightJustify then FLink.SetBounds(Rect(Left + Width - Size.cx, Top, Left + Width, Top + Height)) else FLink.SetBounds(Rect(Left, Top, Left + Size.cx, Top + Height)); finally SelectObject(DC, LastFont); ReleaseDC(Handle, DC); end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.CreateParams(var Params: TCreateParams); begin inherited; // Only with multiline style we can use the text formatting rectangle. // This does not harm formatting as single line control, if we don't use word wrapping. with Params do begin Style := Style or ES_MULTILINE; if vsMultiline in FLink.FNode.States then Style := Style and not (ES_AUTOHSCROLL or WS_HSCROLL) or WS_VSCROLL or ES_AUTOVSCROLL; if tsUseThemes in FLink.FTree.FStates then begin Style := Style and not WS_BORDER; ExStyle := ExStyle or WS_EX_CLIENTEDGE; end else begin Style := Style or WS_BORDER; ExStyle := ExStyle and not WS_EX_CLIENTEDGE; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVTEdit.Release; begin if HandleAllocated then PostMessage(Handle, CM_RELEASE, 0, 0); end; //----------------- TStringEditLink ------------------------------------------------------------------------------------ constructor TStringEditLink.Create; begin inherited; FEdit := TVTEdit.Create(Self); with FEdit do begin Visible := False; BorderStyle := bsSingle; AutoSize := False; end; end; //---------------------------------------------------------------------------------------------------------------------- destructor TStringEditLink.Destroy; begin FEdit.Release; inherited; end; //---------------------------------------------------------------------------------------------------------------------- function TStringEditLink.BeginEdit: Boolean; // Notifies the edit link that editing can start now. descendants may cancel node edit // by returning False. begin Result := not FStopping; if Result then begin FEdit.Show; FEdit.SelectAll; FEdit.SetFocus; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TStringEditLink.SetEdit(const Value: TVTEdit); begin if Assigned(FEdit) then FEdit.Free; FEdit := Value; end; //---------------------------------------------------------------------------------------------------------------------- function TStringEditLink.CancelEdit: Boolean; begin Result := not FStopping; if Result then begin FStopping := True; FEdit.Hide; FTree.CancelEditNode; FEdit.FLink := nil; FEdit.FRefLink := nil; end; end; //---------------------------------------------------------------------------------------------------------------------- function TStringEditLink.EndEdit: Boolean; begin Result := not FStopping; if Result then try FStopping := True; if FEdit.Modified then FTree.Text[FNode, FColumn] := FEdit.Text; FEdit.Hide; FEdit.FLink := nil; FEdit.FRefLink := nil; except FStopping := False; raise; end; end; //---------------------------------------------------------------------------------------------------------------------- function TStringEditLink.GetBounds: TRect; begin Result := FEdit.BoundsRect; end; //---------------------------------------------------------------------------------------------------------------------- function TStringEditLink.PrepareEdit(Tree: TBaseVirtualTree; Node: PVirtualNode; Column: TColumnIndex): Boolean; // Retrieves the true text bounds from the owner tree. var Text: WideString; begin Result := Tree is TCustomVirtualStringTree; if Result then begin FTree := Tree as TCustomVirtualStringTree; FNode := Node; FColumn := Column; // Initial size, font and text of the node. FTree.GetTextInfo(Node, Column, FEdit.Font, FTextBounds, Text); FEdit.Font.Color := clWindowText; FEdit.Parent := Tree; FEdit.HandleNeeded; FEdit.Text := Text; if Column <= NoColumn then begin FEdit.BidiMode := FTree.BidiMode; FAlignment := FTree.Alignment; end else begin FEdit.BidiMode := FTree.Header.Columns[Column].BidiMode; FAlignment := FTree.Header.Columns[Column].Alignment; end; if FEdit.BidiMode <> bdLeftToRight then ChangeBidiModeAlignment(FAlignment); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TStringEditLink.ProcessMessage(var Message: TLMessage); begin FEdit.WindowProc(Message); end; //---------------------------------------------------------------------------------------------------------------------- procedure TStringEditLink.SetBounds(R: TRect); // Sets the outer bounds of the edit control and the actual edit area in the control. var Offset: Integer; begin if not FStopping then begin with R do begin // Set the edit's bounds but make sure there's a minimum width and the right border does not // extend beyond the parent's left/right border. if Left < 0 then Left := 0; if Right - Left < 30 then begin if FAlignment = taRightJustify then Left := Right - 30 else Right := Left + 30; end; if Right > FTree.ClientWidth then Right := FTree.ClientWidth; FEdit.BoundsRect := R; // The selected text shall exclude the text margins and be centered vertically. // We have to take out the two pixel border of the edit control as well as a one pixel "edit border" the // control leaves around the (selected) text. R := FEdit.ClientRect; Offset := 2; if tsUseThemes in FTree.FStates then Inc(Offset); InflateRect(R, -FTree.FTextMargin + Offset, Offset); if not (vsMultiline in FNode.States) then OffsetRect(R, 0, FTextBounds.Top - FEdit.Top); SendMessage(FEdit.Handle, EM_SETRECTNP, 0, Integer(@R)); end; end; end; //----------------- TCustomVirtualString ------------------------------------------------------------------------------- constructor TCustomVirtualStringTree.Create(AOwner: TComponent); begin inherited; FDefaultText := 'Node'; FInternalDataOffset := AllocateInternalDataArea(SizeOf(Cardinal)); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.GetRenderStartValues(Source: TVSTTextSourceType; var Node: PVirtualNode; var NextNodeProc: TGetNextNodeProc); begin case Source of tstInitialized: begin Node := GetFirstInitialized; NextNodeProc := GetNextInitialized; end; tstSelected: begin Node := GetFirstSelected; NextNodeProc := GetNextSelected; end; tstCutCopySet: begin Node := GetFirstCutCopy; NextNodeProc := GetNextCutCopy; end; tstVisible: begin Node := GetFirstVisible; NextNodeProc := GetNextVisible; end; else // tstAll Node := GetFirst; NextNodeProc := GetNext; end; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.GetOptions: TCustomStringTreeOptions; begin Result := FOptions as TCustomStringTreeOptions; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.GetText(Node: PVirtualNode; Column: TColumnIndex): WideString; begin Assert(Assigned(Node), 'Node must not be nil.'); if not (vsInitialized in Node.States) then InitNode(Node); Result := FDefaultText; DoGetText(Node, Column, ttNormal, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.InitializeTextProperties(var PaintInfo: TVTPaintInfo); // Initializes default values for customization in PaintNormalText. begin with PaintInfo do begin // Set default font values first. Canvas.Font := Font; if (toHotTrack in FOptions.FPaintOptions) and (Node = FCurrentHotNode) then begin Canvas.Font.Style := Canvas.Font.Style + [fsUnderline]; Canvas.Font.Color := FColors.HotColor; end; // Change the font color only if the node also is drawn in selected style. if poDrawSelection in PaintOptions then begin if (Column = FFocusedColumn) or (toFullRowSelect in FOptions.FSelectionOptions) then begin if Node = FDropTargetNode then begin if (FLastDropMode = dmOnNode) or (vsSelected in Node.States)then Canvas.Font.Color := clHighlightText; end else if vsSelected in Node.States then begin if Focused or (toPopupMode in FOptions.FPaintOptions) then Canvas.Font.Color := clHighlightText; end; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.PaintNormalText(var PaintInfo: TVTPaintInfo; TextOutFlags: Integer; Text: WideString); // This method is responsible for painting the given test to target canvas (under consideration of the given rectangles). // The text drawn here is considered as the normal text in a node. // Note: NodeWidth is the actual width of the text to be drawn. This does not necessarily correspond to the width of // the node rectangle. The clipping rectangle comprises the entire node (including tree lines, buttons etc.). var TripleWidth: Integer; R: TRect; DrawFormat: Cardinal; Size: TSize; begin Logger.EnterMethod([lcPaintDetails],'PaintNormalText') ; InitializeTextProperties(PaintInfo); with PaintInfo do begin R := ContentRect; //todo_lcl See how TextStyle should be set //Canvas.TextFlags := 0; // Multiline nodes don't need special font handling or text manipulation. // Note: multiline support requires the Unicode version of DrawText, which is able to do word breaking. // The emulation in this unit does not support this so we have to use the OS version. However // DrawTextW is only available on NT/2000/XP and up. Hence there is only partial multiline support // for 9x/Me. if vsMultiline in Node.States then begin InflateRect(R, -FTextMargin, 0); DoPaintText(Node, Canvas, Column, ttNormal); // Disabled node color overrides all other variants. if (vsDisabled in Node.States) or not Enabled then Canvas.Font.Color := FColors.DisabledColor; // The edit control flag will ensure that no partial line is displayed, that is, only lines // which are (vertically) fully visible are drawn. DrawFormat := DT_NOPREFIX or DT_WORDBREAK or DT_END_ELLIPSIS or DT_EDITCONTROL or AlignmentToDrawFlag[Alignment]; if BidiMode <> bdLeftToRight then DrawFormat := DrawFormat or DT_RTLREADING; end else begin InflateRect(R, -FTextMargin, 0); FFontChanged := False; TripleWidth := FEllipsisWidth; DoPaintText(Node, Canvas, Column, ttNormal); if FFontChanged then begin // If the font has been changed then the ellipsis width must be recalculated. TripleWidth := 0; // Recalculate also the width of the normal text. GetTextExtentPoint32W(Canvas.Handle, PWideChar(Text), Length(Text), Size); NodeWidth := Size.cx + 2 * FTextMargin; end; // Disabled node color overrides all other variants. if (vsDisabled in Node.States) or not Enabled then Canvas.Font.Color := FColors.DisabledColor; DrawFormat := DT_NOPREFIX or DT_VCENTER or DT_SINGLELINE; if BidiMode <> bdLeftToRight then DrawFormat := DrawFormat or DT_RTLREADING; // Check if the text must be shortend. if (Column > -1) and ((NodeWidth - 2 * FTextMargin) > R.Right - R.Left) then begin Text := DoShortenString(Canvas, Node, Column, Text, R.Right - R.Left, TripleWidth); if Alignment = taRightJustify then DrawFormat := DrawFormat or DT_RIGHT else DrawFormat := DrawFormat or DT_LEFT; end else DrawFormat := DrawFormat or AlignmentToDrawFlag[Alignment]; end; //todo_lcl_check if not Canvas.TextStyle.Opaque then SetBkMode(Canvas.Handle, TRANSPARENT) else SetBkMode(Canvas.Handle, OPAQUE); Logger.Send([lcPaintDetails],'Canvas.Brush.Color',Canvas.Brush.Color); DoTextDrawing(PaintInfo, Text, R, DrawFormat); end; Logger.ExitMethod([lcPaintDetails],'PaintNormalText'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.PaintStaticText(const PaintInfo: TVTPaintInfo; TextOutFlags: Integer; const Text: WideString); // This method retrives and draws the static text bound to a particular node. var R: TRect; DrawFormat: Cardinal; begin Logger.EnterMethod([lcPaintDetails],'PaintStaticText'); with PaintInfo do begin Canvas.Font := Font; if toFullRowSelect in FOptions.FSelectionOptions then begin if Node = FDropTargetNode then begin if (FLastDropMode = dmOnNode) or (vsSelected in Node.States)then Canvas.Font.Color := clHighlightText else Canvas.Font.Color := Font.Color; end else if vsSelected in Node.States then begin if Focused or (toPopupMode in FOptions.FPaintOptions) then Canvas.Font.Color := clHighlightText else Canvas.Font.Color := Font.Color; end; end; DrawFormat := DT_NOPREFIX or DT_VCENTER or DT_SINGLELINE; //todo_lcl See how Canvas.TextStyle should be //Canvas.TextFlags := 0; DoPaintText(Node, Canvas, Column, ttStatic); // Disabled node color overrides all other variants. if (vsDisabled in Node.States) or not Enabled then Canvas.Font.Color := FColors.DisabledColor; R := ContentRect; if Alignment = taRightJustify then Dec(R.Right, NodeWidth + FTextMargin) else Inc(R.Left, NodeWidth + FTextMargin); //todo_lcl_check if not Canvas.TextStyle.Opaque then SetBkMode(Canvas.Handle, TRANSPARENT) else SetBkMode(Canvas.Handle, OPAQUE); DrawTextW(Canvas.Handle, PWideChar(Text), Length(Text), R, DrawFormat) end; Logger.ExitMethod([lcPaintDetails],'PaintStaticText'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.ReadText(Reader: TReader); begin case Reader.NextValue of vaLString, vaString: SetDefaultText(Reader.ReadString); else SetDefaultText(Reader.ReadWideString); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.SetDefaultText(const Value: WideString); begin if FDefaultText <> Value then begin FDefaultText := Value; if not (csLoading in ComponentState) then Invalidate; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.SetOptions(const Value: TCustomStringTreeOptions); begin FOptions.Assign(Value); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.SetText(Node: PVirtualNode; Column: TColumnIndex; const Value: WideString); begin DoNewText(Node, Column, Value); InvalidateNode(Node); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.WriteText(Writer: TWriter); begin Writer.WriteWideString(FDefaultText); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.WMSetFont(var Msg: TLMNoParams); // Whenever a new font is applied to the tree some default values are determined to avoid frequent // determination of the same value. var MemDC: HDC; Run: PVirtualNode; TM: TTextMetric; Size: TSize; Data: PInteger; begin inherited; //todo_lcl { MemDC := CreateCompatibleDC(0); try SelectObject(MemDC, Msg.Font); GetTextMetrics(MemDC, TM); FTextHeight := TM.tmHeight; GetTextExtentPoint32W(MemDC, '...', 3, Size); FEllipsisWidth := Size.cx; finally DeleteDC(MemDC); end; // Have to reset all node widths. Run := FRoot.FirstChild; while Assigned(Run) do begin Data := InternalData(Run); if Assigned(Data) then Data^ := 0; Run := GetNextNoInit(Run); end; } end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.AdjustPaintCellRect(var PaintInfo: TVTPaintInfo; var NextNonEmpty: TColumnIndex); // In the case a node spans several columns (if enabled) we need to determine how many columns. // Note: the autospan feature can only be used with left-to-right layout. begin if (toAutoSpanColumns in FOptions.FAutoOptions) and FHeader.UseColumns and (PaintInfo.BidiMode = bdLeftToRight) then with FHeader.FColumns, PaintInfo do begin // Start with the directly following column. NextNonEmpty := GetNextVisibleColumn(Column); // Auto spanning columns can only be used for left-to-right directionality because the tree is drawn // from left to right. For RTL directionality it would be necessary to draw it from right to left. // While this could be managed, it becomes impossible when directionality is mixed. repeat if (NextNonEmpty = InvalidColumn) or not ColumnIsEmpty(Node, NextNonEmpty) or (Items[NextNonEmpty].BidiMode <> bdLeftToRight) then Break; Inc(CellRect.Right, Items[NextNonEmpty].Width); NextNonEmpty := GetNextVisibleColumn(NextNonEmpty); until False; end else inherited; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.CalculateTextWidth(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; Text: WideString): Integer; // Determines the width of the given text. begin Result := 2 * FTextMargin; if Length(Text) > 0 then begin Canvas.Font := Font; DoPaintText(Node, Canvas, Column, ttNormal); Inc(Result, DoTextMeasuring(Canvas, Node, Column, Text)); end; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.ColumnIsEmpty(Node: PVirtualNode; Column: TColumnIndex): Boolean; // For hit tests it is necessary to consider cases where columns are empty and automatic column spanning is enabled. // This method simply checks the given column's text and if this is empty then the column is considered as being empty. begin Result := Length(Text[Node, Column]) = 0; // If there is no text then let the ancestor decide if the column is to be considered as being empty // (e.g. by asking the application). If there is text then the column is never be considered as being empty. if Result then Result := inherited ColumnIsEmpty(Node, Column); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.DefineProperties(Filer: TFiler); begin inherited; // Delphi still cannot handle wide strings properly while streaming Filer.DefineProperty('WideDefaultText', ReadText, WriteText, FDefaultText <> 'Node'); Filer.DefineProperty('StringOptions', ReadOldStringOptions, nil, False); end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.DoCreateEditor(Node: PVirtualNode; Column: TColumnIndex): IVTEditLink; begin Result := inherited DoCreateEditor(Node, Column); // Enable generic label editing support if the application does not have own editors. if Result = nil then Result := TStringEditLink.Create; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.DoGetNodeHint(Node: PVirtualNode; Column: TColumnIndex; var LineBreakStyle: TVTTooltipLineBreakStyle): WideString; begin Result := inherited DoGetNodeHint(Node, Column, LineBreakStyle); if Assigned(FOnGetHint) then FOnGetHint(Self, Node, Column, LineBreakStyle, Result); end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.DoGetNodeTooltip(Node: PVirtualNode; Column: TColumnIndex; var LineBreakStyle: TVTTooltipLineBreakStyle): WideString; begin Result := inherited DoGetNodeToolTip(Node, Column, LineBreakStyle); if Assigned(FOnGetHint) then FOnGetHint(Self, Node, Column, LineBreakStyle, Result) else Result := Text[Node, Column]; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.DoGetNodeWidth(Node: PVirtualNode; Column: TColumnIndex; Canvas: TCanvas = nil): Integer; // Returns the text width of the given node in pixels. // This width is stored in the node's data member to increase access speed. var Data: PInteger; begin if (Column > NoColumn) and (vsMultiline in Node.States) then Result := FHeader.Columns[Column].Width else begin if Canvas = nil then Canvas := Self.Canvas; if Column = FHeader.MainColumn then begin // Primary column or no columns. Data := InternalData(Node); if Assigned(Data) then begin Result := Data^; if Result = 0 then begin Data^ := CalculateTextWidth(Canvas, Node, Column, Text[Node, Column]); Result := Data^; end; end else Result := 0; end else // any other column Result := CalculateTextWidth(Canvas, Node, Column, Text[Node, Column]); end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.DoGetText(Node: PVirtualNode; Column: TColumnIndex; TextType: TVSTTextType; var Text: WideString); begin if Assigned(FOnGetText) then FOnGetText(Self, Node, Column, TextType, Text); end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.DoIncrementalSearch(Node: PVirtualNode; const Text: WideString): Integer; // Since the string tree has access to node text it can do incremental search on its own. Use the event to // override the default behavior. begin Result := 0; if Assigned(FOnIncrementalSearch) then FOnIncrementalSearch(Self, Node, Text, Result) else // Default behavior is to match the search string with the start of the node text. if Pos(Text, GetText(Node, FocusedColumn)) <> 1 then Result := 1; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.DoNewText(Node: PVirtualNode; Column: TColumnIndex; Text: WideString); begin if Assigned(FOnNewText) then FOnNewText(Self, Node, Column, Text); // The width might have changed, so update the scrollbar. if FUpdateCount = 0 then UpdateHorizontalScrollBar(True); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.DoPaintNode(var PaintInfo: TVTPaintInfo); // Main output routine to print the text of the given node using the space provided in PaintInfo.ContentRect. var S: WideString; TextOutFlags: Integer; begin Logger.EnterMethod([lcPaintDetails],'TCustomVirtualStringTree.DoPaintNode'); // Set a new OnChange event for the canvas' font so we know if the application changes it in the callbacks. // This long winded procedure is necessary because font changes (as well as brush and pen changes) are // unfortunately not announced via the Canvas.OnChange event. RedirectFontChangeEvent(PaintInfo.Canvas); // Determine main text direction as well as other text properties. TextOutFlags := ETO_CLIPPED or RTLFlag[PaintInfo.BidiMode <> bdLeftToRight]; S := Text[PaintInfo.Node, PaintInfo.Column]; // Paint the normal text first... if Length(S) > 0 then PaintNormalText(PaintInfo, TextOutFlags, S); // ... and afterwards the static text if not centered and the node is not multiline enabled. if (Alignment <> taCenter) and not (vsMultiline in PaintInfo.Node.States) and (toShowStaticText in TreeOptions.FStringOptions) then begin S := ''; with PaintInfo do DoGetText(Node, Column, ttStatic, S); if Length(S) > 0 then PaintStaticText(PaintInfo, TextOutFlags, S); end; RestoreFontChangeEvent(PaintInfo.Canvas); Logger.ExitMethod([lcPaintDetails],'TCustomVirtualStringTree.DoPaintNode'); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.DoPaintText(Node: PVirtualNode; const Canvas: TCanvas; Column: TColumnIndex; TextType: TVSTTextType); begin if Assigned(FOnPaintText) then FOnPaintText(Self, Canvas, Node, Column, TextType); end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.DoShortenString(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; const S: WideString; Width: Integer; EllipsisWidth: Integer = 0): WideString; var Done: Boolean; begin Done := False; if Assigned(FOnShortenString) then FOnShortenString(Self, Canvas, Node, Column, S, Width, Result, Done); if not Done then Result := ShortenString(Canvas.Handle, S, Width, EllipsisWidth); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.DoTextDrawing(var PaintInfo: TVTPaintInfo; Text: WideString; CellRect: TRect; DrawFormat: Cardinal); begin DrawTextW(PaintInfo.Canvas.Handle, PWideChar(Text), Length(Text), CellRect, DrawFormat); end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.DoTextMeasuring(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; Text: WideString): Integer; var Size: TSize; begin GetTextExtentPoint32W(Canvas.Handle, PWideChar(Text), Length(Text), Size); Result := Size.cx; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.GetOptionsClass: TTreeOptionsClass; begin Result := TCustomStringTreeOptions; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.InternalData(Node: PVirtualNode): Pointer; begin if (Node = FRoot) or (Node = nil) then Result := nil else Result := PChar(Node) + FInternalDataOffset; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.MainColumnChanged; var Run: PVirtualNode; Data: PInteger; begin inherited; // Have to reset all node widths. Run := FRoot.FirstChild; while Assigned(Run) do begin Data := InternalData(Run); if Assigned(Data) then Data^ := 0; Run := GetNextNoInit(Run); end; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.ReadChunk(Stream: TStream; Version: Integer; Node: PVirtualNode; ChunkType, ChunkSize: Integer): Boolean; // read in the caption chunk if there is one var NewText: WideString; begin case ChunkType of CaptionChunk: begin NewText := ''; if ChunkSize > 0 then begin SetLength(NewText, ChunkSize div 2); Stream.Read(PWideChar(NewText)^, ChunkSize); end; // Do a new text event regardless of the caption content to allow removing the default string. Text[Node, FHeader.MainColumn] := NewText; Result := True; end; else Result := inherited ReadChunk(Stream, Version, Node, ChunkType, ChunkSize); end; end; //---------------------------------------------------------------------------------------------------------------------- type TOldVTStringOption = (soSaveCaptions, soShowStaticText); procedure TCustomVirtualStringTree.ReadOldStringOptions(Reader: TReader); // Migration helper routine to silently convert forms containing the old tree options member into the new // sub-options structure. var OldOption: TOldVTStringOption; EnumName: string; begin // If we are at design time currently then let the designer know we changed something. UpdateDesigner; // It should never happen at this place that there is something different than the old set. if Reader.ReadValue = vaSet then with TreeOptions do begin // Remove all default values set by the constructor. StringOptions := []; while True do begin // Sets are stored with their members as simple strings. Read them one by one and map them to the new option // in the correct sub-option set. EnumName := Reader.ReadString; if EnumName = '' then Break; OldOption := TOldVTStringOption(GetEnumValue(TypeInfo(TOldVTStringOption), EnumName)); case OldOption of soSaveCaptions: StringOptions := FStringOptions + [toSaveCaptions]; soShowStaticText: StringOptions := FStringOptions + [toShowStaticText]; end; end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.RenderOLEData(const FormatEtcIn: TFormatEtc; out Medium: TStgMedium; ForClipboard: Boolean): HResult; // Returns string expressions of all currently selected nodes in the Medium structure. begin Result := inherited RenderOLEData(FormatEtcIn, Medium, ForClipboard); if Failed(Result) then try if ForClipboard then Medium.hGlobal := ContentToClipboard(FormatEtcIn.cfFormat, tstCutCopySet) else Medium.hGlobal := ContentToClipboard(FormatEtcIn.cfFormat, tstSelected); // Fill rest of the Medium structure if rendering went fine. if Medium.hGlobal <> 0 then begin Medium.tymed := TYMED_HGLOBAL; Medium.PunkForRelease := nil; Result := S_OK; end; except Result := E_FAIL; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.WriteChunks(Stream: TStream; Node: PVirtualNode); // Adds another sibling chunk for Node storing the label if the node is initialized. // Note: If the application stores a node's caption in the node's data member (which will be quite common) and needs to // store more node specific data then it should use the OnSaveNode event rather than the caption autosave function // (take out soSaveCaption from StringOptions). Otherwise the caption is unnecessarily stored twice. var Header: TChunkHeader; S: WideString; Len: Integer; begin inherited; if (toSaveCaptions in TreeOptions.FStringOptions) and (Node <> FRoot) and (vsInitialized in Node.States) then with Stream do begin // Read the node's caption (primary column only). S := Text[Node, FHeader.MainColumn]; Len := 2 * Length(S); if Len > 0 then begin // Write a new sub chunk. Header.ChunkType := CaptionChunk; Header.ChunkSize := Len; Write(Header, SizeOf(Header)); Write(PWideChar(S)^, Len); end; end; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.ComputeNodeHeight(Canvas: TCanvas; Node: PVirtualNode; Column: TColumnIndex; S: WideString): Integer; // Default node height calculation for multi line nodes. This method can be used by the application to delegate the // computation to the string tree. // Canvas is used to compute that value by using its current font settings. // Node and Column describe the cell to be used for the computation. // S is the string for which the height must be computed. If this string is empty the cell text is used instead. var DrawFormat: Cardinal; BidiMode: TBidiMode; Alignment: TAlignment; PaintInfo: TVTPaintInfo; Dummy: TColumnIndex; begin if Length(S) = 0 then S := Text[Node, Column]; DrawFormat := DT_TOP or DT_NOPREFIX or DT_CALCRECT or DT_WORDBREAK; if Column <= NoColumn then begin BidiMode := Self.BidiMode; Alignment := Self.Alignment; end else begin BidiMode := Header.Columns[Column].BidiMode; Alignment := Header.Columns[Column].Alignment; end; if BidiMode <> bdLeftToRight then ChangeBidiModeAlignment(Alignment); // Allow for autospanning. PaintInfo.Node := Node; PaintInfo.BidiMode := BidiMode; PaintInfo.Column := Column; PaintInfo.CellRect := Rect(0, 0, 0, 0); if Column > NoColumn then PaintInfo.CellRect.Right := FHeader.Columns[Column].Width else PaintInfo.CellRect.Right := ClientWidth; AdjustPaintCellRect(PaintInfo, Dummy); if BidiMode <> bdLeftToRight then DrawFormat := DrawFormat or DT_RIGHT or DT_RTLREADING else DrawFormat := DrawFormat or DT_LEFT; DrawTextW(Canvas.Handle, PWideChar(S), Length(S), PaintInfo.CellRect, DrawFormat); Result := PaintInfo.CellRect.Bottom - PaintInfo.CellRect.Top; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.ContentToHTML(Source: TVSTTextSourceType; Caption: WideString = ''): string; // Renders the current tree content (depending on Source) as HTML text encoded in UTF-8. // If Caption is not empty then it is used to create and fill the header for the table built here. // Based on ideas and code from Frank van den Bergh and Andreas Hörstemeier. type UCS2 = Word; UCS4 = Cardinal; const MaximumUCS4: UCS4 = $7FFFFFFF; ReplacementCharacter: UCS4 = $0000FFFD; var Buffer: TBufferedString; //--------------- local functions ------------------------------------------- function ConvertSurrogate(S1, S2: UCS2): UCS4; // Converts a pair of high and low surrogate into the corresponding UCS4 character. const SurrogateOffset = ($D800 shl 10) + $DC00 - $10000; begin Result := Word(S1) shl 10 + Word(S2) - SurrogateOffset; end; //--------------------------------------------------------------------------- function UTF16ToUTF8(const S: WideString): string; // Converts the given Unicode text (which may contain surrogates) into // the UTF-8 encoding used for the HTML clipboard format. const FirstByteMark: array[0..6] of Byte = ($00, $00, $C0, $E0, $F0, $F8, $FC); var Ch: UCS4; I, J, T: Integer; BytesToWrite: Cardinal; begin if Length(S) = 0 then Result := '' else begin // Make room for the result. Assume worst case, there are only short texts to convert. SetLength(Result, 6 * Length(S)); T := 1; I := 1; while I <= Length(S) do begin Ch := UCS4(S[I]); // Is the character a surrogate? if (Ch and $FFFFF800) = $D800 then begin Inc(I); // Check the following char whether it forms a valid surrogate pair with the first character. if (I <= Length(S)) and ((UCS4(S[I]) and $FFFFFC00) = $DC00) then Ch := ConvertSurrogate(UCS2(Ch), UCS2(S[I])) else // Skip invalid surrogate value. Continue; end; if Ch < $80 then BytesToWrite := 1 else if Ch < $800 then BytesToWrite := 2 else if Ch < $10000 then BytesToWrite := 3 else if Ch < $200000 then BytesToWrite := 4 else if Ch < $4000000 then BytesToWrite := 5 else if Ch <= MaximumUCS4 then BytesToWrite := 6 else begin BytesToWrite := 2; Ch := ReplacementCharacter; end; for J := BytesToWrite downto 2 do begin Result[T + J - 1] := Char((Ch or $80) and $BF); Ch := Ch shr 6; end; Result[T] := Char(Ch or FirstByteMark[BytesToWrite]); Inc(T, BytesToWrite); Inc(I); end; SetLength(Result, T - 1); // set to actual length end; end; //--------------------------------------------------------------------------- procedure WriteColorAsHex(Color: TColor); var WinColor: COLORREF; I: Integer; Component, Value: Byte; begin Buffer.Add('#'); WinColor := ColorToRGB(Color); I := 1; while I <= 6 do begin Component := WinColor and $FF; Value := 48 + (Component shr 4); if Value > $39 then Inc(Value, 7); Buffer.Add(Char(Value)); Inc(I); Value := 48 + (Component and $F); if Value > $39 then Inc(Value, 7); Buffer.Add(Char(Value)); Inc(I); WinColor := WinColor shr 8; end; end; //--------------------------------------------------------------------------- procedure WriteStyle(Name: string; Font: TFont); // Creates a CSS style entry with the given name for the given font. // If Name is empty then the entry is created as inline style. begin if Length(Name) = 0 then Buffer.Add(' style="{font:') else begin Buffer.Add('.'); Buffer.Add(Name); Buffer.Add('{font:'); end; if fsUnderline in Font.Style then Buffer.Add(' underline'); if fsItalic in Font.Style then Buffer.Add(' italic'); if fsBold in Font.Style then Buffer.Add(' bold'); Buffer.Add(Format(' %dpt "%s";', [Font.Size, Font.Name])); Buffer.Add('color:'); WriteColorAsHex(Font.Color); Buffer.Add(';}'); if Length(Name) = 0 then Buffer.Add('"'); end; //--------------- end local functions --------------------------------------- var I, J : Integer; Level, MaxLevel: Cardinal; AddHeader: string; Save, Run: PVirtualNode; GetNextNode: TGetNextNodeProc; Text: WideString; RenderColumns: Boolean; Columns: TColumnsArray; ColumnColors: array of string; Index: Integer; IndentWidth, LineStyleText: string; Alignment: TAlignment; BidiMode: TBidiMode; CellPadding: string; begin Buffer := TBufferedString.Create; try // For customization by the application or descendants we use again the redirected font change event. RedirectFontChangeEvent(Canvas); CellPadding := Format('padding-left:%dpx;padding-right:%0:dpx;', [FMargin]); IndentWidth := IntToStr(FIndent); AddHeader := ' '; // Add title if adviced so by giving a caption. if Length(Caption) > 0 then AddHeader := AddHeader + 'caption="' + UTF16ToUTF8(Caption) + '"'; if Borderstyle <> bsNone then AddHeader := AddHeader + Format(' border="%d" frame=box', [BorderWidth + 1]); // Create HTML table based on the tree structure. To simplify formatting we use styles defined in a small CSS area. Buffer.Add(''); Buffer.AddNewLine; // General table properties. Buffer.Add(''); Buffer.AddNewLine; Columns := nil; ColumnColors := nil; RenderColumns := FHeader.UseColumns; if RenderColumns then begin Columns := FHeader.FColumns.GetVisibleColumns; SetLength(ColumnColors, Length(Columns)); end; GetRenderStartValues(Source, Run, GetNextNode); Save := Run; MaxLevel := 0; // The table consists of visible columns and rows as used in the tree, but the main tree column is splitted // into several HTML columns to accomodate the indentation. while Assigned(Run) do begin Level := GetNodeLevel(Run); If Level > MaxLevel then MaxLevel := Level; Run := GetNextNode(Run); end; if RenderColumns then begin Buffer.Add(''); Buffer.AddNewLine; // Make the first row in the HTML table an image of the tree header. for I := 0 to High(Columns) do begin Buffer.Add(''); end; Buffer.Add(''); Buffer.AddNewLine; end; // Now go through the tree. Run := Save; while Assigned(Run) do begin Level := GetNodeLevel(Run); Buffer.Add(' '); Buffer.AddNewLine; I := 0; while (I < Length(Columns)) or not RenderColumns do begin if RenderColumns then Index := Columns[I].Index else Index := NoColumn; if not RenderColumns or (coVisible in Columns[I].FOptions) then begin // Call back the application to know about font customization. Canvas.Font := Font; FFontChanged := False; DoPaintText(Run, Canvas, Index, ttNormal); if Index = Header.MainColumn then begin // Create a cell for each indentation level. if RenderColumns and not (coParentColor in Columns[I].FOptions) then begin for J := 1 to Level do begin Buffer.Add(''); end; end else begin for J := 1 to Level do if J = 1 then begin Buffer.Add(' '); end else Buffer.Add(' '); end; end; if FFontChanged then begin Buffer.Add(' '); end; if not RenderColumns then Break; Inc(I); end; Run := GetNextNode(Run); Buffer.Add(' '); Buffer.AddNewLine; end; Buffer.Add('
bdLeftToRight then begin ChangeBidiModeAlignment(Alignment); Buffer.Add(' dir="rtl"'); end; // Consider aligment. case Alignment of taRightJustify: Buffer.Add(' align=right'); taCenter: Buffer.Add(' align=center'); else Buffer.Add(' align=left'); end; Index := Columns[I].Index; // Merge cells of the header emulation in the main column. if (MaxLevel > 0) and (Index = Header.MainColumn) then begin Buffer.Add(' colspan="'); Buffer.Add(IntToStr(MaxLevel + 1)); Buffer.Add('"'); end; // The color of the header is usually clBtnFace. Buffer.Add(' bgcolor='); WriteColorAsHex(clBtnFace); // Set column width in pixels. Buffer.Add(' width="'); Buffer.Add(IntToStr(Columns[I].Width)); Buffer.Add('px">'); if Length(Columns[I].Text) > 0 then Buffer.Add(UTF16ToUTF8(Columns[I].Text)); Buffer.Add('
    bdLeftToRight then begin ChangeBidiModeAlignment(Alignment); Buffer.Add(' dir="rtl"'); end; // Consider aligment. case Alignment of taRightJustify: Buffer.Add(' align=right'); taCenter: Buffer.Add(' align=center'); else Buffer.Add(' align=left'); end; // Merge cells in the main column. if (MaxLevel > 0) and (Index = FHeader.MainColumn) and (Level < MaxLevel) then begin Buffer.Add(' colspan="'); Buffer.Add(IntToStr(MaxLevel - Level + 1)); Buffer.Add('"'); end; if RenderColumns and not (coParentColor in Columns[I].FOptions) then begin Buffer.Add(' bgcolor='); WriteColorAsHex(Columns[I].Color); end; Buffer.Add('>'); Text := Self.Text[Run, Index]; if Length(Text) > 0 then begin Text := UTF16ToUTF8(Text); Buffer.Add(Text); end; Buffer.Add('
'); RestoreFontChangeEvent(Canvas); Result := Buffer.AsString; finally Buffer.Free; end; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.ContentToRTF(Source: TVSTTextSourceType): string; // Renders the current tree content (depending on Source) as RTF (rich text). // Based on ideas and code from Frank van den Bergh and Andreas Hörstemeier. var Fonts: TStringList; Colors: TList; CurrentFontIndex, CurrentFontColor, CurrentFontSize: Integer; Buffer: TBufferedString; //--------------- local functions ------------------------------------------- procedure SelectFont(Font: string); var I: Integer; begin I := Fonts.IndexOf(Font); if I > -1 then begin // Font has already been used if I <> CurrentFontIndex then begin Buffer.Add('\f'); Buffer.Add(IntToStr(I)); CurrentFontIndex := I; end; end else begin I := Fonts.Add(Font); Buffer.Add('\f'); Buffer.Add(IntToStr(I)); CurrentFontIndex := I; end; end; //--------------------------------------------------------------------------- procedure SelectColor(Color: TColor); var I: Integer; begin I := Colors.IndexOf(Pointer(Color)); if I > -1 then begin // Color has already been used if I <> CurrentFontColor then begin Buffer.Add('\cf'); Buffer.Add(IntToStr(I + 1)); CurrentFontColor := I; end; end else begin I := Colors.Add(Pointer(Color)); Buffer.Add('\cf'); Buffer.Add(IntToStr(I + 1)); CurrentFontColor := I; end; end; //--------------------------------------------------------------------------- procedure TextPlusFont(Text: WideString; Font: TFont); var UseUnderline, UseItalic, UseBold: Boolean; I: Integer; begin if Length(Text) > 0 then begin UseUnderline := fsUnderline in Font.Style; if UseUnderline then Buffer.Add('\ul'); UseItalic := fsItalic in Font.Style; if UseItalic then Buffer.Add('\i'); UseBold := fsBold in Font.Style; if UseBold then Buffer.Add('\b'); SelectFont(Font.Name); SelectColor(Font.Color); if Font.Size <> CurrentFontSize then begin // Font size must be given in half points. Buffer.Add('\fs'); Buffer.Add(IntToStr(2 * Font.Size)); CurrentFontSize := Font.Size; end; // Use escape sequences to note Unicode text. Buffer.Add(' '); // Note: Unicode values > 32767 must be expressed as negative numbers. This is implicitly done // by interpreting the wide chars (word values) as small integers. for I := 1 to Length(Text) do Buffer.Add(Format('\u%d\''3f', [SmallInt(Text[I])])); if UseUnderline then Buffer.Add('\ul0'); if UseItalic then Buffer.Add('\i0'); if UseBold then Buffer.Add('\b0'); end; end; //--------------- end local functions --------------------------------------- var Level, LastLevel: Integer; I, J: Integer; Save, Run: PVirtualNode; GetNextNode: TGetNextNodeProc; S, Tabs : string; Text: WideString; Twips: Integer; RenderColumns: Boolean; Columns: TColumnsArray; Index: Integer; Alignment: TAlignment; BidiMode: TBidiMode; begin Buffer := TBufferedString.Create; try // For customization by the application or descendants we use again the redirected font change event. RedirectFontChangeEvent(Canvas); Fonts := TStringList.Create; Colors := TList.Create; CurrentFontIndex := -1; CurrentFontColor := -1; CurrentFontSize := -1; Columns := nil; Tabs := ''; LastLevel := 0; RenderColumns := FHeader.UseColumns; if RenderColumns then Columns := FHeader.FColumns.GetVisibleColumns; GetRenderStartValues(Source, Run, GetNextNode); Save := Run; // First make a table structure. The \rtf and other header stuff is included // when the font and color tables are created. Buffer.Add('\uc1\trowd\trgaph70'); J := 0; if RenderColumns then begin for I := 0 to High(Columns) do begin Inc(J, Columns[I].Width); // This value must be expressed in twips (1 inch = 1440 twips). Twips := Round(1440 * J / Screen.PixelsPerInch); Buffer.Add('\cellx'); Buffer.Add(IntToStr(Twips)); end; end else begin Twips := Round(1440 * ClientWidth / Screen.PixelsPerInch); Buffer.Add('\cellx'); Buffer.Add(IntToStr(Twips)); end; // Fill table header. if RenderColumns then begin Buffer.Add('\pard\intbl'); for I := 0 to High(Columns) do begin Alignment := Columns[I].Alignment; BidiMode := Columns[I].BidiMode; // Alignment is not supported with older RTF formats, however it will be ignored. if BidiMode <> bdLeftToRight then ChangeBidiModeAlignment(Alignment); case Alignment of taRightJustify: Buffer.Add('\qr'); taCenter: Buffer.Add('\qc'); end; TextPlusFont(Columns[I].Text, Header.Font); Buffer.Add('\cell'); end; Buffer.Add('\row'); end; // Now write the contents. Run := Save; while Assigned(Run) do begin I := 0; while not RenderColumns or (I < Length(Columns)) do begin if RenderColumns then begin Index := Columns[I].Index; Alignment := Columns[I].Alignment; BidiMode := Columns[I].BidiMode; end else begin Index := NoColumn; Alignment := FAlignment; BidiMode := Self.BidiMode; end; if not RenderColumns or (coVisible in Columns[I].Options) then begin Text := Self.Text[Run, Index]; Buffer.Add('\pard\intbl'); // Alignment is not supported with older RTF formats, however it will be ignored. if BidiMode <> bdLeftToRight then ChangeBidiModeAlignment(Alignment); case Alignment of taRightJustify: Buffer.Add('\qr'); taCenter: Buffer.Add('\qc'); end; // Call back the application to know about font customization. Canvas.Font := Font; FFontChanged := False; DoPaintText(Run, Canvas, Index, ttNormal); if Index = Header.MainColumn then begin Level := GetNodeLevel(Run); if Level <> LastLevel then begin LastLevel := Level; Tabs := ''; for J := 0 to Level - 1 do Tabs := Tabs + '\tab'; end; if Level > 0 then begin Buffer.Add(Tabs); Buffer.Add(' '); TextPlusFont(Text, Canvas.Font); Buffer.Add('\cell'); end else begin TextPlusFont(Text, Canvas.Font); Buffer.Add('\cell'); end; end else begin TextPlusFont(Text, Canvas.Font); Buffer.Add('\cell'); end; end; if not RenderColumns then Break; Inc(I); end; Buffer.Add('\row'); Run := GetNextNode(Run); end; Buffer.Add('\pard\par'); // Build lists with fonts and colors. They have to be at the start of the document. S := '{\rtf1\ansi\ansicpg1252\deff0\deflang1043{\fonttbl'; for I := 0 to Fonts.Count - 1 do S := S + Format('{\f%d %s;}', [I, Fonts[I]]); S := S + '}'; S := S + '{\colortbl;'; for I := 0 to Colors.Count - 1 do begin J := ColorToRGB(TColor(Colors[I])); S := S + Format('\red%d\green%d\blue%d;', [J and $FF, (J shr 8) and $FF, (J shr 16) and $FF]); end; S := S + '}'; Result := S + Buffer.AsString + '}'; Fonts.Free; Colors.Free; RestoreFontChangeEvent(Canvas); finally Buffer.Free; end; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.ContentToText(Source: TVSTTextSourceType; Separator: Char): string; // Renders the current tree content (depending on Source) as plain ANSI text. // If an entry contains the separator char or double quotes then it is wrapped with double quotes // and existing double quotes are duplicated. // Note: Unicode strings are implicitely converted to ANSI strings based on the currently active user locale. var RenderColumns: Boolean; Tabs: string; GetNextNode: TGetNextNodeProc; Run, Save: PVirtualNode; Level, MaxLevel: Cardinal; Columns: TColumnsArray; LastColumn: TVirtualTreeColumn; Index, I: Integer; Text: string; Buffer: TBufferedString; begin Columns := nil; Buffer := TBufferedString.Create; try RenderColumns := FHeader.UseColumns; if RenderColumns then Columns := FHeader.FColumns.GetVisibleColumns; GetRenderStartValues(Source, Run, GetNextNode); Save := Run; // The text consists of visible groups representing the columns, which are separated by one or more separator // characters. There are always MaxLevel separator chars in a line (main column only). Either before the caption // to ident it or after the caption to make the following column aligned. MaxLevel := 0; while Assigned(Run) do begin Level := GetNodeLevel(Run); If Level > MaxLevel then MaxLevel := Level; Run := GetNextNode(Run); end; SetLength(Tabs, MaxLevel); FillChar(PChar(Tabs)^, MaxLevel, Separator); // First line is always the header if used. if RenderColumns then begin LastColumn := Columns[High(Columns)]; for I := 0 to High(Columns) do begin Buffer.Add(Columns[I].Text); if Columns[I] <> LastColumn then begin if Columns[I].Index = Header.MainColumn then begin Buffer.Add(Tabs); Buffer.Add(Separator); end else Buffer.Add(Separator); end; end; Buffer.AddNewLine; end else LastColumn := nil; Run := Save; if RenderColumns then begin while Assigned(Run) do begin for I := 0 to High(Columns) do begin if coVisible in Columns[I].Options then begin Index := Columns[I].Index; // This line implicitly converts the Unicode text to ANSI. Text := Self.Text[Run, Index]; if Index = Header.MainColumn then begin Level := GetNodeLevel(Run); Buffer.Add(Copy(Tabs, 1, Level)); // Wrap the text with quotation marks if it contains the separator character. if (Pos(Separator, Text) > 0) or (Pos('"', Text) > 0) then Buffer.Add(AnsiQuotedStr(Text, '"')) else Buffer.Add(Text); Buffer.Add(Copy(Tabs, 1, MaxLevel - Level)); end else if (Pos(Separator, Text) > 0) or (Pos('"', Text) > 0) then Buffer.Add(AnsiQuotedStr(Text, '"')) else Buffer.Add(Text); if Columns[I] <> LastColumn then Buffer.Add(Separator); end; end; Run := GetNextNode(Run); Buffer.AddNewLine; end; end else begin while Assigned(Run) do begin // This line implicitly converts the Unicode text to ANSI. Text := Self.Text[Run, NoColumn]; Level := GetNodeLevel(Run); Buffer.Add(Copy(Tabs, 1, Level)); Buffer.Add(Text); Buffer.AddNewLine; Run := GetNextNode(Run); end; end; Result := Buffer.AsString; finally Buffer.Free; end; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.ContentToUnicode(Source: TVSTTextSourceType; Separator: WideChar): WideString; // Renders the current tree content (depending on Source) as Unicode text. // If an entry contains the separator char then it is wrapped with double quotation marks. // Note: There is no QuotedStr function for Unicode in the VCL (like AnsiQuotedStr) so we have the limitation here // that an entry must not contain double quotation marks, otherwise import into other programs might fail! const WideCRLF: WideString = #13#10; var RenderColumns: Boolean; Tabs: WideString; GetNextNode: TGetNextNodeProc; Run, Save: PVirtualNode; Columns: TColumnsArray; LastColumn: TVirtualTreeColumn; Level, MaxLevel: Cardinal; Index, I: Integer; Text: WideString; Buffer: TWideBufferedString; begin Columns := nil; Buffer := TWideBufferedString.Create; try RenderColumns := FHeader.UseColumns; if RenderColumns then Columns := FHeader.FColumns.GetVisibleColumns; GetRenderStartValues(Source, Run, GetNextNode); Save := Run; // The text consists of visible groups representing the columns, which are separated by one or more separator // characters. There are always MaxLevel separator chars in a line (main column only). Either before the caption // to ident it or after the caption to make the following column aligned. MaxLevel := 0; while Assigned(Run) do begin Level := GetNodeLevel(Run); If Level > MaxLevel then MaxLevel := Level; Run := GetNextNode(Run); end; SetLength(Tabs, MaxLevel); for I := 1 to MaxLevel do Tabs[I] := Separator; // First line is always the header if used. if RenderColumns then begin LastColumn := Columns[High(Columns)]; for I := 0 to High(Columns) do begin Buffer.Add(Columns[I].Text); if Columns[I] <> LastColumn then begin if Columns[I].Index = Header.MainColumn then begin Buffer.Add(Tabs); Buffer.Add(Separator); end else Buffer.Add(Separator); end; end; Buffer.AddNewLine; end else LastColumn := nil; Run := Save; if RenderColumns then begin while Assigned(Run) do begin for I := 0 to High(Columns) do begin if coVisible in Columns[I].Options then begin Index := Columns[I].Index; Text := Self.Text[Run, Index]; if Index = Header.MainColumn then begin Level := GetNodeLevel(Run); Buffer.Add(Copy(Tabs, 1, Level)); // Wrap the text with quotation marks if it contains the separator character. if Pos(Separator, Text) > 0 then begin Buffer.Add('"'); Buffer.Add(Text); Buffer.Add('"'); end else Buffer.Add(Text); Buffer.Add(Copy(Tabs, 1, MaxLevel - Level)); end else if Pos(Separator, Text) > 0 then begin Buffer.Add('"'); Buffer.Add(Text); Buffer.Add('"'); end else Buffer.Add(Text); if Columns[I] <> LastColumn then Buffer.Add(Separator); end; end; Run := GetNextNode(Run); Buffer.AddNewLine; end; end else begin while Assigned(Run) do begin Text := Self.Text[Run, NoColumn]; Level := GetNodeLevel(Run); Buffer.Add(Copy(Tabs, 1, Level)); Buffer.Add(Text); Buffer.AddNewLine; Run := GetNextNode(Run); end; end; Result := Buffer.AsString; finally Buffer.Free; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.GetTextInfo(Node: PVirtualNode; Column: TColumnIndex; const AFont: TFont; var R: TRect; var Text: WideString); // Returns the font, the text and its bounding rectangle to the caller. R is returned as the closest // bounding rectangle around Text. var NewHeight: Integer; TM: TTextMetric; begin // Get default font and initialize the other parameters. inherited GetTextInfo(Node, Column, AFont, R, Text); Canvas.Font := AFont; FFontChanged := False; RedirectFontChangeEvent(Canvas); DoPaintText(Node, Canvas, Column, ttNormal); if FFontChanged then begin AFont.Assign(Canvas.Font); GetTextMetrics(Canvas.Handle, TM); NewHeight := TM.tmHeight; end else // Otherwise the correct font is already there and we only need to set the correct height. NewHeight := FTextHeight; RestoreFontChangeEvent(Canvas); // Alignment to the actual text. Text := Self.Text[Node, Column]; R := GetDisplayRect(Node, Column, True, not (vsMultiline in Node.States)); if toShowHorzGridLines in TreeOptions.PaintOptions then Dec(R.Bottom); InflateRect(R, 0, -(R.Bottom - R.Top - NewHeight) div 2); end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.InvalidateNode(Node: PVirtualNode): TRect; var Data: PInteger; begin Result := inherited InvalidateNode(Node); // Reset node width so changed text attributes are applied correctly. if Assigned(Node) then begin Data := InternalData(Node); if Assigned(Data) then Data^ := 0; // Reset height measured flag too to cause a re-issue of the OnMeasureItem event. Exclude(Node.States, vsHeightMeasured); end; end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualStringTree.Path(Node: PVirtualNode; Column: TColumnIndex; TextType: TVSTTextType; Delimiter: WideChar): WideString; // Constructs a string containing the node and all its parents. The last character in the returned path is always the // given delimiter. var S: WideString; begin if (Node = nil) or (Node = FRoot) then Result := Delimiter else begin Result := ''; while Node <> FRoot do begin DoGetText(Node, Column, TextType, S); Result := S + Delimiter + Result; Node := Node.Parent; end; end; end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualStringTree.ReinitNode(Node: PVirtualNode; Recursive: Boolean); var Data: PInteger; begin inherited; // Reset node width so changed text attributes are applied correctly. if Assigned(Node) and (Node <> FRoot) then begin Data := InternalData(Node); if Assigned(Data) then Data^ := 0; // vsHeightMeasured is already removed in the base tree. end; end; //----------------- TVirtualStringTree --------------------------------------------------------------------------------- function TVirtualStringTree.GetOptions: TStringTreeOptions; begin Result := FOptions as TStringTreeOptions; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualStringTree.SetOptions(const Value: TStringTreeOptions); begin FOptions.Assign(Value); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualStringTree.GetOptionsClass: TTreeOptionsClass; begin Result := TStringTreeOptions; end; //----------------- TCustomVirtualDrawTree ----------------------------------------------------------------------------- procedure TCustomVirtualDrawTree.DoDrawHint(Canvas: TCanvas; Node: PVirtualNode; R: TRect; Column: TColumnIndex); begin if Assigned(FOnDrawHint) then FOnDrawHint(Self, Canvas, Node, R, Column); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualDrawTree.DoGetHintSize(Node: PVirtualNode; Column: TColumnIndex; var R: TRect); begin if Assigned(FOnGetHintSize) then FOnGetHintSize(Self, Node, Column, R); end; //---------------------------------------------------------------------------------------------------------------------- function TCustomVirtualDrawTree.DoGetNodeWidth(Node: PVirtualNode; Column: TColumnIndex; Canvas: TCanvas = nil): Integer; begin Result := 2 * FTextMargin; if Canvas = nil then Canvas := Self.Canvas; if Assigned(FOnGetNodeWidth) then FOnGetNodeWidth(Self, Canvas, Node, Column, Result); end; //---------------------------------------------------------------------------------------------------------------------- procedure TCustomVirtualDrawTree.DoPaintNode(var PaintInfo: TVTPaintInfo); begin if Assigned(FOnDrawNode) then FOnDrawNode(Self, PaintInfo); end; //----------------- TVirtualDrawTree ----------------------------------------------------------------------------------- function TVirtualDrawTree.GetOptions: TVirtualTreeOptions; begin Result := FOptions as TVirtualTreeOptions; end; //---------------------------------------------------------------------------------------------------------------------- procedure TVirtualDrawTree.SetOptions(const Value: TVirtualTreeOptions); begin FOptions.Assign(Value); end; //---------------------------------------------------------------------------------------------------------------------- function TVirtualDrawTree.GetOptionsClass: TTreeOptionsClass; begin Result := TVirtualTreeOptions; end; //---------------------------------------------------------------------------------------------------------------------- initialization {$I virtualtrees.lrs} // Necessary for dynamic package loading. Initialized := False; NeedToUnitialize := False; finalization if Initialized then FinalizeGlobalStructures; InternalClipboardFormats.Free; InternalClipboardFormats := nil; {$ifdef EnableAccessible} if VTAccessibleFactory <> nil then begin VTAccessibleFactory.Free; VTAccessibleFactory := nil; end; {$endif} end.