unit SourceTokenList; { AFS 24 Dec 2002 A list of source tokens This is needed after the text has been turned into tokens until it is turned into a parse tree The way that this class works has a big impact on JCF run speed So it is implemented in a more low-level way to most it is a subclass not a wrap of TObjectList It is populated, then tokens are read out. This is done not by removing items from the start of the list (slow) but by keeping the idnex of the current item, and advancing it when items are extracted } {(*} (*------------------------------------------------------------------------------ Delphi Code formatter source code The Original Code is SourceTokenList, released May 2003. The Initial Developer of the Original Code is Anthony Steele. Portions created by Anthony Steele are Copyright (C) 1999-2008 Anthony Steele. All Rights Reserved. Contributor(s): Anthony Steele, Adem Baba 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/NPL/ 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. Alternatively, the contents of this file may be used under the terms of the GNU General Public License Version 2 or later (the "GPL") See http://www.gnu.org/licenses/gpl.html ------------------------------------------------------------------------------*) {*)} {$I JcfGlobal.inc} interface uses { delphi } Contnrs, { local } SourceToken, Tokens; type { inherit not encapsulate, for speed } TSourceTokenList = class(TObjectList) Private { This is to keep an index of the next non-nil item when reading items out of the list List.Extract is a bit slow } fiCurrentTokenIndex: integer; function GetItem(const piIndex: integer): TSourceToken; procedure SetItem(const piIndex: integer; const pcObject: TSourceToken); Public constructor Create; destructor Destroy; override; procedure Clear; override; function Add(const pcToken: TSourceToken): integer; procedure SetXYPositions; procedure Insert(const piIndex: integer; const pcItem: TSourceToken); function Extract: TSourceToken; function EOF: boolean; procedure Delete(const piIndex: integer); { not relative to current token index } property SourceTokens[const piIndex: integer]: TSourceToken Read GetItem Write SetItem; {This is to keep an index of the next non-nil item} property CurrentTokenIndex: integer Read fiCurrentTokenIndex; {---------------------------------------------------- the following are all relative to the Current Token Index e.g. "First" is the token at the current pos } function First: TSourceToken; function FirstTokenType: TTokenType; function FirstWordType: TWordType; function FirstTokenLength: integer; function FirstSolidToken: TSourceToken; function FirstSolidTokenType: TTokenType; function FirstSolidTokenLength: integer; function FirstSolidWordType: TWordType; function FirstTokenWithExclusion(const AExclusions: TTokenTypeSet): TSourceToken; function SolidToken(piIndex: integer): TSourceToken; function SolidTokenType(const piIndex: integer): TTokenType; function SolidWordType(const piIndex: integer): TWordType; end; implementation uses { delphi } SysUtils, { local } JcfMiscFunctions; constructor TSourceTokenList.Create; begin fiCurrentTokenIndex := 0; OwnsObjects := True; inherited Create(False); end; destructor TSourceTokenList.Destroy; begin inherited Destroy; end; procedure TSourceTokenList.Clear; begin inherited Clear; fiCurrentTokenIndex := 0; end; function TSourceTokenList.GetItem(const piIndex: integer): TSourceToken; begin Result := TSourceToken(List^[piIndex]); end; procedure TSourceTokenList.SetItem(const piIndex: integer; const pcObject: TSourceToken); begin inherited SetItem(piIndex, pcObject); end; function TSourceTokenList.First: TSourceToken; begin Result := TSourceToken(List^[fiCurrentTokenIndex]); end; function TSourceTokenList.FirstTokenType: TTokenType; begin Result := ttUnknown; if Count > 0 then Result := TSourceToken(List^[fiCurrentTokenIndex]).TokenType; end; function TSourceTokenList.FirstWordType: TWordType; begin Result := wtNotAWord; if Count > 0 then Result := TSourceToken(List^[fiCurrentTokenIndex]).WordType; end; function TSourceTokenList.FirstTokenLength: integer; var lc: TSourceToken; begin Result := 0; lc := First; if lc <> nil then Result := Length(lc.SourceCode); end; function TSourceTokenList.FirstSolidTokenType: TTokenType; var lc: TSourceToken; begin Result := ttUnknown; lc := FirstSolidToken; if lc <> nil then Result := lc.TokenType; end; function TSourceTokenList.FirstSolidTokenLength: integer; var lc: TSourceToken; begin Result := 0; lc := FirstSolidToken; if lc <> nil then Result := Length(lc.SourceCode); end; function TSourceTokenList.FirstSolidWordType: TWordType; var lc: TSourceToken; begin Result := wtNotAWord; lc := FirstSolidToken; if lc <> nil then Result := lc.WordType; end; function TSourceTokenList.FirstTokenWithExclusion( const AExclusions: TTokenTypeSet): TSourceToken; var liLoop: integer; lcItem: TSourceToken; begin Result := nil; liLoop := fiCurrentTokenIndex; while liLoop < Count do begin lcItem := TSourceToken(List^[liLoop]); if not (lcItem.TokenType in AExclusions) then begin Result := lcItem; break; end; Inc(liLoop); end; end; function TSourceTokenList.Add(const pcToken: TSourceToken): integer; begin Result := inherited Add(pcToken); end; function TSourceTokenList.FirstSolidToken: TSourceToken; begin Result := SolidToken(1); end; function TSourceTokenList.SolidToken(piIndex: integer): TSourceToken; var liLoop: integer; lcTestToken: TSourceToken; begin Assert(piIndex > 0); Result := nil; liLoop := fiCurrentTokenIndex; while liLoop < Count do begin lcTestToken := TSourceToken(List^[liLoop]); if (lcTestToken <> nil) and lcTestToken.IsSolid then begin // found a solid token. if piIndex > 1 then Dec(piIndex) // go further else begin // found it Result := lcTestToken; break; end; end; Inc(liLoop); end; end; function TSourceTokenList.SolidTokenType(const piIndex: integer): TTokenType; var lc: TSourceToken; begin Result := ttUnknown; lc := SolidToken(piIndex); if lc <> nil then Result := lc.TokenType; end; function TSourceTokenList.SolidWordType(const piIndex: integer): TWordType; var lc: TSourceToken; begin Result := wtNotAWord; lc := SolidToken(piIndex); if lc <> nil then Result := lc.WordType; end; procedure TSourceTokenList.SetXYPositions; var liLoop: integer; liX, liY: integer; lcToken: TSourceToken; begin liX := 1; liY := 1; liLoop := fiCurrentTokenIndex; while liLoop < Count do begin lcToken := TSourceToken(List^[liLoop]); lcToken.XPosition := liX; lcToken.YPosition := liY; AdvanceTextPos(lcToken.SourceCode, liX, liY); Inc(liLoop); end; end; function TSourceTokenList.Extract: TSourceToken; begin { remove the current item and advance to the next item Here I am not doing any index checking at all. This thing needs to be FAST. Access to here is quite controlled anyway.} Result := TSourceToken(List^[fiCurrentTokenIndex]); List^[fiCurrentTokenIndex] := nil; inc(fiCurrentTokenIndex); end; function TSourceTokenList.EOF: boolean; begin Result := fiCurrentTokenIndex >= Count; end; procedure TSourceTokenList.Insert(const piIndex: integer; const pcItem: TSourceToken); begin if (fiCurrentTokenIndex <> 0) and (piIndex < fiCurrentTokenIndex) then raise Exception.Create('TSourceTokenList: Insert back not allowed in Stack mode'); inherited Insert(piIndex, pcItem); end; procedure TSourceTokenList.Delete(const piIndex: integer); begin if (fiCurrentTokenIndex <> 0) and (piIndex < fiCurrentTokenIndex) then raise Exception.Create('TSourceTokenList: Delete back not allowed in Stack mode'); inherited Delete(piIndex); end; end.