unit EditorConverter; {(*} (*------------------------------------------------------------------------------ Delphi Code formatter source code The Original Code is EditorConverter.pas, released January 2001. The Initial Developer of the Original Code is Anthony Steele. Portions created by Anthony Steele are Copyright (C) 2001 Anthony Steele. All Rights Reserved. Contributor(s): Anthony Steele. 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 ------------------------------------------------------------------------------*) {*)} { AFS 12 Jan 2K Converter class for the IDE pluggin } {$I JcfGlobal.inc} interface uses Classes, {$ifdef fpc} { lazarus design time } SrcEditorIntf, LazUTF8, {$else} { delphi design time } ToolsAPI, {$endif} { local } Converter, ConvertTypes; type TEditorConverter = class(TObject) private { the string -> string converter } fcConverter: TConverter; { state } fOnStatusMessage: TStatusMessageProc; fsCurrentUnitName: string; fiConvertCount: integer; procedure SendStatusMessage(const psUnit, psMessage: string; const peMessageType: TStatusMessageType; const piY, piX: integer); function GetOnStatusMessage: TStatusMessageProc; procedure SetOnStatusMessage(const Value: TStatusMessageProc); {$ifdef fpc} function ReadFromIDE(const pcUnit: TSourceEditorInterface): string; procedure WriteToIDE(const pcUnit: TSourceEditorInterface; const psText: string); {$else} function ReadFromIDE(const pcUnit: IOTASourceEditor): string; procedure WriteToIDE(const pcUnit: IOTASourceEditor; const psText: string); {$endif} procedure FinalSummary; function OriginalFileName: string; protected public constructor Create; destructor Destroy; override; {$ifdef fpc} procedure Convert(const pciUnit: TSourceEditorInterface); {$else} procedure Convert(const pciUnit: IOTASourceEditor); {$endif} procedure Clear; function ConvertError: Boolean; function TokenCount: integer; procedure BeforeConvert; procedure AfterConvert; property OnStatusMessage: TStatusMessageProc read GetOnStatusMessage write SetOnStatusMessage; end; implementation uses { delphi } SysUtils, Math, { local } JcfLog, JcfRegistrySettings, JcfMiscFunctions; constructor TEditorConverter.Create; begin inherited; fcConverter := TConverter.Create; fcConverter.OnStatusMessage := SendStatusMessage; end; destructor TEditorConverter.Destroy; begin FreeAndNil(fcConverter); inherited; end; {$ifdef fpc} procedure TEditorConverter.Convert(const pciUnit: TSourceEditorInterface); begin Assert(pciUnit <> nil); if not GetRegSettings.HasRead then GetRegSettings.ReadAll; { check for read-only } if pciUnit.ReadOnly then begin SendStatusMessage(pciUnit.FileName, 'Unit is read only. Cannot format ', mtInputError, -1, -1); exit; end; fsCurrentUnitName := pciUnit.FileName; fcConverter.InputCode := ReadFromIDE(pciUnit); // now convert fcConverter.Convert; fsCurrentUnitName := ''; if not ConvertError then begin WriteToIDE(pciUnit, fcConverter.OutputCode); SendStatusMessage(pciUnit.FileName, 'Formatted unit', mtProgress, -1, -1); Inc(fiConvertCount); end; end; function TEditorConverter.ReadFromIDE(const pcUnit: TSourceEditorInterface): string; begin Result := pcUnit.Lines.Text; end; procedure TEditorConverter.WriteToIDE(const pcUnit: TSourceEditorInterface; const psText: string); var lcSourceLines, lcDestLines: TStrings; lcSameStart, lcSameEnd: TStrings; lsSourceLine, lsDestLine: string; liStart, liIndex, liMaxIndex: integer; hasSourceLine: Boolean; begin if pcUnit = nil then exit; lcSourceLines := TStringList.Create; lcSourceLines.Text := fcConverter.InputCode; lcDestLines := TStringList.Create; lcDestLines.Text := psText; lcSameStart := TStringList.Create; lcSameEnd := TStringList.Create; SplitIntoChangeSections(lcSourceLines, lcDestLines, lcSameStart, lcSameEnd); try pcUnit.BeginUpdate; pcUnit.BeginUndoBlock; liStart := lcSameStart.Count; liIndex := 0; liMaxIndex := Max(lcSourceLines.Count, lcDestLines.Count); while (liIndex < liMaxIndex) do begin hasSourceLine := liIndex < lcSourceLines.Count; if hasSourceLine then lsSourceLine := lcSourceLines[liIndex] else lsSourceLine := ''; if liIndex < lcDestLines.Count then lsDestLine := lcDestLines[liIndex] else lsDestLine := ''; if not hasSourceLine then pcUnit.InsertLine(liStart + liIndex + 1, lsDestLine, True) else if not AnsiSameStr(lsSourceLine, lsDestLine) then // the line is different, replace it pcUnit.ReplaceLines(liStart + liIndex + 1, liStart + liIndex + 1, lsDestLine, True); inc(liIndex); end; finally pcUnit.EndUndoBlock; pcUnit.EndUpdate; lcSourceLines.Free; lcDestLines.Free; lcSameStart.Free; lcSameEnd.Free; end; end; {$else} procedure TEditorConverter.Convert(const pciUnit: IOTASourceEditor); var lcBuffer: IOTAEditBuffer; begin Assert(pciUnit <> nil); if not GetRegSettings.HasRead then GetRegSettings.ReadAll; { check for read-only } pciUnit.QueryInterface(IOTAEditBuffer, lcBuffer); if pciUnit <> nil then begin lcBuffer := pciUnit as IOTAEditBuffer; if lcBuffer.IsReadOnly then begin SendStatusMessage(lcBuffer.FileName, 'Unit is read only. Cannot format ', mtInputError, -1, -1); exit; end; end; fsCurrentUnitName := lcBuffer.FileName; fcConverter.InputCode := ReadFromIDE(pciUnit); // now convert fcConverter.Convert; fsCurrentUnitName := ''; if not ConvertError then begin WriteToIDE(pciUnit, fcConverter.OutputCode); SendStatusMessage(lcBuffer.FileName, 'Formatted unit', mtProgress, -1, -1); Inc(fiConvertCount); end; end; function TEditorConverter.ReadFromIDE(const pcUnit: IOTASourceEditor): string; const // 10 kb at a time should do it BUF_SIZE = 10240; //BUF_SIZE = 120; // small for testing var lciEditorReader: IOTAEditReader; lsBuf: AnsiString; lpBuf: PAnsiChar; liActualSize, liPos: integer; lbDone: boolean; //liLoopCount: integer; begin { get a reader from the unit } Assert(pcUnit <> nil); lciEditorReader := pcUnit.CreateReader; Assert(lciEditorReader <> nil); Result := ''; // read it all. Unfortunately the API dictates that we will work in chunks liPos := 0; //liLoopCount := 0; lbDone := False; while not lbDone do begin // clear the buffer SetLength(lsBuf, BUF_SIZE); lpBuf := PAnsiChar(lsBuf); FillChar(lpBuf^, BUF_SIZE, 0); // get some text into the buffer liActualSize := lciEditorReader.GetText(liPos, lpBuf, BUF_SIZE); // store it {WP: Do not add the entire lsBuf to fsSource, as in cases where the entire source is less than 10Kb in total, there will be junk in the last part of the buffer. If this is copied, it shows up as extraneous tokens in the token list after the end of the unit proper. This then causes an assertion failure in procedure DoConvertUnit in unit Converter.pas, When these extra tokens are found that were not consumed by BuildParseTree The way is to ensure that you only append as many characters as you've actually read (liActualSize bytes) from the buffer into the result. } Result := Result + string(Copy(lsBuf, 1, liActualSize)); //WP: Changed from just adding lsBuf // more stuff to read after this? liPos := liPos + liActualSize; lbDone := (liActualSize < BUF_SIZE); //inc(liLoopCount); end; end; { write the text back to the ide this is not as simple as you may think identical lines of text are skipped over not written ( not in all cases, but the simple cases are covered) so as to preserve the editor's notion of what has changed and what has not } procedure TEditorConverter.WriteToIDE(const pcUnit: IOTASourceEditor; const psText: string); var lciEditorWriter: IOTAEditWriter; lsOriginalSource: string; liSourcePos{, liDestPos}: integer; lcSourceLines, lcDestLines: TStrings; lcSameStart, lcSameEnd: TStrings; lsSourceLine, lsDestLine: string; liIndex, liMaxIndex: integer; begin if pcUnit = nil then exit; lciEditorWriter := pcUnit.CreateUndoableWriter; Assert(lciEditorWriter <> nil); liSourcePos := 0; lsOriginalSource := fcConverter.InputCode; lcSourceLines := SplitIntoLines(lsOriginalSource); lcDestLines := SplitIntoLines(psText); lcSameStart := TStringList.Create; lcSameEnd := TStringList.Create; SplitIntoChangeSections(lcSourceLines, lcDestLines, lcSameStart, lcSameEnd); try // clear off identical text at the start for liIndex := 0 to lcSameStart.Count - 1 do begin liSourcePos := liSourcePos + Length(lcSameStart[liIndex]); end; lciEditorWriter.CopyTo(liSourcePos); //liDestPos := liSourcePos; { loop through all lines in in and out if they're the same, copy the line else overwrite } liIndex := 0; liMaxIndex := Max(lcSourceLines.Count, lcDestLines.Count); while (liIndex < liMaxIndex) do begin if liIndex < lcSourceLines.Count then lsSourceLine := lcSourceLines[liIndex] else lsSourceLine := ''; if liIndex < lcDestLines.Count then lsDestLine := lcDestLines[liIndex] else lsDestLine := ''; liSourcePos := liSourcePos + Length(lsSourceLine); //liDestPos := liDestPos + Length(lsDestLine); if AnsiSameStr(lsSourceLine, lsDestLine) then begin // the line is the same, copy it lciEditorWriter.CopyTo(liSourcePos); end else begin // the line is different, replace it lciEditorWriter.DeleteTo(liSourcePos); if lsDestLine <> '' then lciEditorWriter.Insert(PAnsiChar(AnsiString(lsDestLine))); end; inc(liIndex); end; // clear off identical text at the end for liIndex := 0 to lcSameEnd.Count - 1 do begin liSourcePos := liSourcePos + Length(lcSameEnd[liIndex]); end; lciEditorWriter.CopyTo(liSourcePos); finally lcSourceLines.Free; lcDestLines.Free; lcSameStart.Free; lcSameEnd.Free; end; end; {$endif} procedure TEditorConverter.AfterConvert; begin FinalSummary; Log.CloseLog; if GetRegSettings.ViewLogAfterRun then GetRegSettings.ViewLog; end; procedure TEditorConverter.Clear; begin fcConverter.Clear; end; function TEditorConverter.ConvertError: Boolean; begin Result := fcConverter.ConvertError; end; function TEditorConverter.GetOnStatusMessage: TStatusMessageProc; begin Result := fOnStatusMessage; end; function TEditorConverter.OriginalFileName: string; begin if fsCurrentUnitName <> '' then Result := fsCurrentUnitName else Result := 'IDE'; end; procedure TEditorConverter.SendStatusMessage(const psUnit, psMessage: string; const peMessageType: TStatusMessageType; const piY, piX: integer); var lsUnit: string; begin lsUnit := psUnit; if lsUnit = '' then lsUnit := OriginalFileName; if Assigned(fOnStatusMessage) then fOnStatusMessage(lsUnit, psMessage, peMessageType, piY, piX); end; procedure TEditorConverter.SetOnStatusMessage(const Value: TStatusMessageProc); begin fOnStatusMessage := Value; end; function TEditorConverter.TokenCount: integer; begin Result := fcConverter.TokenCount; end; procedure TEditorConverter.FinalSummary; var lsMessage: string; begin if fiConvertCount = 0 then begin if ConvertError then lsMessage := 'Aborted due to error' else lsMessage := 'Nothing done'; end { else if fbAbort then lsMessage := 'Aborted after ' + DescribeFileCount(fiConvertCount) } else if fiConvertCount > 1 then lsMessage := 'Finished processing ' + DescribeFileCount(fiConvertCount) else lsMessage := ''; if lsMessage <> '' then SendStatusMessage('', lsMessage, mtFinalSummary, -1, -1); Log.EmptyLine; Log.Write(lsMessage); end; procedure TEditorConverter.BeforeConvert; begin fiConvertCount := 0; end; end.