{ 20050712 jgv add parsing of untyped parameter (with warning) fix parsing of overloaded procedure/function (ie not method) add parsing of class method member add parsing of "array of const" fix parsing of constant expression for chr and ord case. add parsing of reintroduced property specifier (stored) } unit ParserU; {version: 20041219} interface uses uPSUtils, SysUtils, StrUtils, ParserUtils, BigIni, Classes; type TProcAttr = set of (PublicProc, IsDone, IsHelper); (*----------------------------------------------------------------------------*) TProcList = class(TStringList) public ProcAttr : TProcAttr; Name : string; end; TWriteln = procedure(const S: string) of object; TReadln = procedure(var S: string; const Promote, Caption: string) of object; (*----------------------------------------------------------------------------*) TPasToken = record ID: TPSPasToken; Data: string; Org : String; row, col: integer; end; TProcDeclOptions = set of (IsMethod, IsPointer); TProcDeclInfo = set of (IsVirtual, IsAbstract, IsConstructor, IsDestructor, IsFunction, IsCallHelper); // CompileTime RunTime TTimeMode = (CompileTime, RunTime); (*----------------------------------------------------------------------------*) TUnitParser = class private fWriteln: TWriteln; fReadln: TReadln; FUnitPrefix, FCompPage, fCompPrefix : String; FSingleUnit: Boolean; FCompileTimeFunctions : Boolean; FAfterInterfaceDeclaration: string; FAutoRenameOverloadedMethods: Boolean; procedure SetWriteln(aWriteln: TWriteln); procedure SetReadln(aReadln: TReadln); private fParser: TPsPascalParser; fToken, fPrevToken: TPasToken; // fprevOrgToken: string; Ini: TBigIniFile; FRenamingHelper: Integer; private LastTokens: array of TPasToken; FTail, FHead, TokenHistoryCount, TokenHistoryLength: integer; procedure AddToTokenHistory(const aToken: TPasToken); function RemoveFromTokenHistory(var aToken: TPasToken): boolean; private property TokenID: TPsPasToken read fToken.ID; property PrevTokenID: TPsPasToken read fPrevToken.ID; property TokenRow: integer read fToken.Row; property TokenCol: integer read fToken.Col; // Property PrevTokenPos : integer read fPrevToken.Pos; property Token: string read fToken.data; property OrgToken: string read fToken.Org; // property PrevToken: string read fPrevToken.data; property PrevOrgToken: string read fPrevToken.Org; procedure SetToken(aTokenID: TPsPasToken; aToken: string; aTokenRow, aTokenCol: integer); procedure NextToken; procedure skipToSemicolon; //Birb function IfMatch(atoken: TPsPasToken): boolean; procedure Match(atoken: TPsPasToken; err: string = ''); private FOutUnitList : TStringList; // teo FRunTimeProcList : TStringList; FCompileTimeProcList : TStringList; fCurrentDTProc : TProcList; fCurrentRTProc : TProcList; fRunTimeUnitList : TStringList; fRunTimeUnitListImp : TStringList; fCompileTimeUnitList : TStringList; fCompileTimeUnitListImp : TStringList; RunTimeProcType: set of (InterfaceImporter, ClassImporter, RoutineImporter); //Birb procedure AddRequiredUnit(const UnitName: string; TimeMode: TTimeMode; InterfaceSection: boolean); function RegisterProc(const ProcName: string; TimeMode: TTimeMode; Attr: TProcAttr): TProcList; // Procedure AddVarToProc(const ProcName : string;CompileTime : TCompileTime; // const VarString : string); procedure FinishProcs; private procedure StartParse; procedure FinishParse; procedure FinishParseSingleUnit; // teo procedure ParseUnitHeader; procedure ParseGlobalDeclarations; function GetConstantType: string; function GetAsString(const ConstType, ConstValue: string): string; function ParseConstantExpression(var ExpType: string): string; procedure ParseConstants; procedure ParseVariables; procedure ParseRoutines; procedure ParseTypes; // parses a type delcaration procedure ParseType(aTokenID: TPsPasToken; const TypeName: string; var TypeDescriptor: string; var CheckSemiColon: boolean); // helper method which parses a class or interface definition //Birb procedure ParseClassOrInterfaceDef(const aClassName: string; const isInterface: boolean); //Birb // helper method which parses a interface definition procedure ParseInterfaceDef(const aInterfaceName: string); // helper method which parses a class definition procedure ParseClassDef(const aClassName: string); // helper method which parses a routine decl (after the procedure name) function ParseProcDecl(var ProcName, decl, CallingConvention: string; Options: TProcDeclOptions; OwnerClass:String=''): TProcDeclInfo; public constructor Create(const IniFilename: string; aTokenHistoryLength: Integer = 5); destructor Destroy; override; public // output Unitname, OutputRT, OutputDT: string; // Controls went registering classes, at design time // the actual class type is used WriteDefines, UseUnitAtDT: boolean; // Class this to parse a unit procedure ParseUnit(const Input: string); procedure ParserError(Parser: TObject; Kind: TPSParserErrorKind); function UnitNameRT: string; function UnitNameCT: string; function UnitNameCmp: string; procedure SaveToPath(const Path: string); property Writeln: TWriteln read fWriteln write SetWriteln; property Readln: TReadln read fReadln write setReadln; property SingleUnit : Boolean read FSingleUnit write FSingleUnit; // teo property UnitPrefix : string read FUnitPrefix write FUnitPrefix; // teo property CompPage : String read FCompPage write FCompPage; // Niels property CompPrefix : String read FCompPrefix write FCompPrefix; // Niels property AfterInterfaceDeclaration: string read FAfterInterfaceDeclaration write FAfterInterfaceDeclaration; property AutoRenameOverloadedMethods: Boolean read FAutoRenameOverloadedMethods write FAutoRenameOverloadedMethods; property OutUnitList : TStringList read FOutUnitList; // teo end; {TUnitParser} const MaxSearchCount = 100; implementation const STR_IINTERFACE='IUNKNOWN'; procedure DefReadln(var S: string; const Promote, Caption: string); begin S := ''; end; {DefReadln} procedure DefWriteln(const S: string); begin end; {DefWriteln} // Some method declaratinos may be very long. // Delphi can't compile these, so we need to spit them manually. function SplitIntoLines(AString: string): string; const cSplitPosition: Byte = 200; begin Result := ''; while (Length(AString) > cSplitPosition) do begin Result := Result + LeftStr(AString, cSplitPosition) + ''' +' + #13 + #10 + ' '''; Delete(AString, 1, cSplitPosition); end; Result := Result + AString; end; constructor TUnitParser.Create(const IniFilename: string; aTokenHistoryLength: Integer = 5); begin inherited create; FUnitPrefix := 'uPS'; FCompPage := 'Pascal Script'; FCompPrefix := 'TPSImport'; FCompileTimeFunctions := false; Writeln := nil; Readln := nil; Ini := TBigIniFile.Create(IniFilename); Ini.FlagDropApostrophes := True; ini.FlagDropCommentLines := True; Ini.FlagTrimRight := True; Ini.FlagFilterOutInvalid := True; fParser := TPSPascalParser.create; TokenHistoryLength := aTokenHistoryLength; if TokenHistoryLength > 0 then Setlength(LastTokens, TokenHistoryLength); FOutUnitList := TStringList.Create; FSingleUnit := True; end; {Create} destructor TUnitParser.Destroy; begin FOutUnitList.Free; fParser.free; ini.free; inherited; end; {Destroy} procedure TUnitParser.SetWriteln(aWriteln: TWriteln); begin if assigned(aWriteln) then fWriteln := aWriteln //else // fWriteln := DefWriteln; end; {SetWriteln} procedure TUnitParser.SetReadln(aReadln: TReadln); begin if assigned(aReadln) then fReadln := aReadln //else // fReadln := DefReadln; end; {SetWriteln} procedure TUnitParser.AddToTokenHistory(const aToken: TPasToken); begin if TokenHistoryLength <= 0 then exit; LastTokens[FTail] := aToken; FTail := (FTail + 1) mod TokenHistoryLength; if FTail = FHead then FHead := (FHead + 1) mod TokenHistoryLength else inc(TokenHistoryCount); end; {AddToTokenHistory} function TUnitParser.RemoveFromTokenHistory(var aToken: TPasToken): boolean; begin Result := (TokenHistoryLength > 0) and (TokenHistoryCount <> 0); if result then begin aToken := LastTokens[FHead]; FHead := (FHead + 1) mod TokenHistoryLength; dec(TokenHistoryCount); end; end; {RemoveFromTokenHistory} (*----------------------------------------------------------------------------*) procedure TUnitParser.SetToken(aTokenID: TPSPasToken; aToken: string; aTokenRow, aTokenCol: integer); begin fToken.ID := aTokenID; fToken.data := Uppercase(aToken); fToken.Org := aToken; fToken.row := aTokenRow; fToken.col := aTokenCol; AddToTokenHistory(fToken); end; {InsertToken} procedure TUnitParser.NextToken; begin fPrevToken := fToken; // fprevOrgToken := fparser.OriginalToken; fParser.next; fToken.ID := fParser.CurrTokenID; fToken.data := fParser.GetToken; fToken.Org := fParser.OriginalToken; fToken.row := fParser.Row; fToken.col := fParser.Col; AddToTokenHistory(fToken); end; {NextToken} // ----------------------------------------------------------------------------- procedure TUnitParser.skipToSemicolon; //Birb begin while not ifmatch(CSTI_SemiColon) do //assuming EOF checks aren't needed since everywhere in this code it's done similarly (maybe parser throws exception at EOF so that loops similar to this one don't go on forever) NextToken; end; function TUnitParser.Ifmatch(atoken: TPSPasToken): boolean; begin Result := TokenID = atoken; if result then NextToken; end; {Ifmatch} procedure TUnitParser.Match(atoken: TPSPasToken; err: string = ''); var Errormsg: string; TokenList: string; OldToken: TPasToken; begin if not Ifmatch(atoken) then begin if err = '' then err := GetTokenName(atoken); Errormsg := 'Expecting Token ''' + err + ''' but '; case TokenID of CSTI_Identifier: Errormsg := Errormsg + 'Identifier ''' + Token; CSTI_Integer: Errormsg := Errormsg + 'Integer number ''' + Token; CSTI_Real: Errormsg := Errormsg + 'Floatpoint number ''' + Token; CSTI_String: Errormsg := Errormsg + 'String ''' + Token; CSTI_Char: Errormsg := Errormsg + 'Character ''' + Token; CSTI_HexInt: Errormsg := Errormsg + 'Hexadecimal number ''' + Token; else Errormsg := Errormsg + 'token ''' + GetTokenName(TokenID); end; // build the list of tokens TokenList := ''; while RemoveFromTokenHistory(OldToken) do begin if OldToken.ID in [CSTI_Identifier, CSTI_Integer, CSTI_Real, CSTI_String, CSTI_Char, CSTI_HexInt] then TokenList := TokenList + OldToken.Data + ' ' else TokenList := TokenList + GetTokenName(OldToken.ID) + ' '; end; RaiseError(Errormsg + ''' found' + NewLine + 'Previous tokens : ''' + TokenList + '''', TokenRow, TokenCol); end; end; {Match} // ----------------------------------------------------------------------------- procedure TUnitParser.ParseUnit(const Input: string); begin UnitName := ''; FOutUnitList.Clear; fparser.OnParserError := ParserError; fParser.SetText(Input); try StartParse; ParseUnitHeader; ParseGlobalDeclarations; finally case FSingleUnit of False : FinishParse; True : FinishParseSingleUnit; end; end; end; {ParseUnit} (*----------------------------------------------------------------------------*) procedure TUnitParser.AddRequiredUnit(const UnitName: string; TimeMode: TTimeMode; InterfaceSection: boolean); var Unitlist : TStringList; { ref } Index : integer; begin // choice the correct list to Add it to Unitlist := nil; case TimeMode of CompileTime : if InterfaceSection then Unitlist := fCompileTimeUnitList else Unitlist := fCompileTimeUnitListImp; RunTime : if InterfaceSection then Unitlist := fRunTimeUnitList else Unitlist := fRunTimeUnitListImp; else RaiseError('Unable to deterimine which used unit list' + ' to Add the unit ''' + UnitName + ''' to', TokenRow, TokenCol); end; Index := Unitlist.Indexof(UnitName); if Index = -1 then Unitlist.Add(UnitName) end; {AddRequiredUnit} (*----------------------------------------------------------------------------*) function TUnitParser.RegisterProc(const ProcName: string; TimeMode: TTimeMode; Attr: TProcAttr): TProcList; var proclist: TStringList; Index: integer; begin if ProcName = '' then RaiseError('Invalid procedure name', TokenRow, TokenCol); if TimeMode = CompileTime then proclist := fCompileTimeproclist else proclist := fRunTimeProclist; assert(proclist <> nil); Index := proclist.IndexOf(ProcName); if Index = -1 then begin Result := TProcList.create; try Result.Add(ProcName); if not (IsHelper in Attr) then Result.Add('begin'); Result.ProcAttr := Attr; proclist.AddObject(ProcName, Result); except Result.free; raise end; end else Result := proclist.Objects[Index] as TProcList; end; {RegisterProc} (*----------------------------------------------------------------------------*) procedure TUnitParser.FinishProcs; var Index: integer; obj: TObject; begin if FRunTimeProcList <> nil then for Index := FRunTimeProcList.count - 1 downto 0 do begin obj := FRunTimeProcList.Objects[Index]; if (obj is TProcList) and not (IsHelper in TProcList(obj).ProcAttr) then TProcList(obj).Add('end;'); end; if FCompileTimeProcList <> nil then for Index := FCompileTimeProcList.count - 1 downto 0 do begin obj := FCompileTimeProcList.Objects[Index]; if (obj is TProcList) and not (IsHelper in TProcList(obj).ProcAttr) then TProcList(obj).Add('end;'); end; end; {FinishProcs} (* Procedure TUnitParser.AddVarToProc(const ProcName : string; CompileTime : TCompileTime; const VarString : string); var proc : TStringList; begin proc := RegisterProc(ProcName,CompileTime,false); If Proc = nil then RaiseError('Procedure :"'+ProcName+'" can not be found'); If fastUppercase(Proc[1]) = 'VAR' then Proc.Insert(2,VarString) else Proc.Insert(1,'var'+newline+VarString) end; {AddVarToProc} *) (*----------------------------------------------------------------------------*) procedure TUnitParser.StartParse; begin SetToken(fParser.CurrTokenID, fParser.OriginalToken, fParser.Row, FParser.Col); OutputDT := ''; OutputRT := ''; FRunTimeProcList := TStringList.create; FCompileTimeProcList := TStringList.create; fRunTimeUnitList := TStringList.create; fRunTimeUnitListImp := TStringList.create; fCompileTimeUnitList := TStringList.create; fCompileTimeUnitListImp := TStringList.create; end; {StartParse} (*----------------------------------------------------------------------------*) function TUnitParser.UnitNameRT: string; begin Result := Format('%sR_%s.pas', [FUnitPrefix, UnitName]); end; (*----------------------------------------------------------------------------*) function TUnitParser.UnitNameCT: string; begin Result := Format('%sC_%s.pas', [FUnitPrefix, UnitName]); end; function TUnitParser.UnitNameCmp: string; begin Result := Format('%sI_%s.pas', [FUnitPrefix, UnitName]); end; (*----------------------------------------------------------------------------*) procedure TUnitParser.SaveToPath(const Path: string); var List : TStringList; begin if SingleUnit then begin FOutUnitList.SaveToFile(Path + UnitNameCmp); end else begin List := TStringList.Create; try List.Text := OutputRT; List.SaveToFile(Path + UnitnameRT); List.Text := OutputDT; List.SaveToFile(Path + UnitnameCT); finally List.Free; end; end; end; (*----------------------------------------------------------------------------*) procedure TUnitParser.FinishParse; var OutPut : TStringList; obj : TObject; Index : integer; S : string; begin try FinishProcs; {===================================================================================} // write out the design time unit if FCompileTimeProcList <> nil then begin OutPut := TStringList.create; try // insert the front of the text body //FUnitPrefix //OutPutList.Add('unit ifpii_' + UnitName + ';'); OutPut.Add('unit ' + ChangeFileExt(UnitNameCT, '') + ';'); OutPut.Add(GetLicence); // OutPut.Add('{$I PascalScript.inc}'); OutPut.Add('interface'); OutPut.Add(FAfterInterfaceDeclaration); OutPut.Add(GetUsedUnitList(fCompileTimeUnitList) + Newline); for Index := FCompileTimeProcList.count - 1 downto 0 do begin obj := FCompileTimeProcList.objects[Index]; if (obj is TProcList) and (PublicProc in TProcList(obj).ProcAttr) then OutPut.Add(FCompileTimeProcList[Index]); end; OutPut.Add('implementation'); // insert the Designtime unit importer into the used unit list S := GetUsedUnitList(fCompileTimeUnitListImp); if S <> '' then begin Delete(S, length(S), 1); OutPut.Add(S); (* if WriteDefines then begin OutPut.Add('{$IFDEF USEIMPORTER}'); OutPut.Add(' ,CIImporterU'); OutPut.Add('{$ENDIF};'); end;*) OutPut.Add(';'); end else begin (* if WriteDefines then begin OutPut.Add('{$IFDEF USEIMPORTER}'); OutPut.Add(' uses CIImporterU;'); OutPut.Add('{$ENDIF}'); end;*) end; //OutPut.Add(''); //Output.Add('const IID__DUMMY: TGUID = ''{00000000-0000-0000-0000-000000000000}'';'); //Birb (!!!could set some attribute to avoid spitting that out when not needed) //Output.Add(''); // reinsert the main text body for Index := FCompileTimeProcList.count - 1 downto 0 do begin obj := FCompileTimeProcList.objects[Index]; if (obj is TProcList) and (IsHelper in TProcList(obj).ProcAttr) then OutPut.Add(TStringList(obj).text); end; for Index := FCompileTimeProcList.count - 1 downto 0 do begin obj := FCompileTimeProcList.objects[Index]; if (obj is TProcList) and (PublicProc in TProcList(obj).ProcAttr) then OutPut.Add(TStringList(obj).text); end; // insert the Runtime unit importer code into the end of the unit (* if WriteDefines then begin OutPut.Add('{$IFDEF USEIMPORTER}'); OutPut.Add('initialization'); OutPut.Add('CIImporter.AddCallBack(@SIRegister_' + UnitName + ',PT_ClassImport);'); OutPut.Add('{$ENDIF}'); end;*) OutPut.Add('end.'); finally if OutPut <> nil then OutputDT := OutPut.text; OutPut.free; end; end; {===================================================================================} // write out the run time import unit if FRunTimeProcList <> nil then begin OutPut := TStringList.create; try OutPut.Add('unit ' + ChangeFileExt(UnitNameRT, '') + ';'); OutPut.Add(GetLicence); // OutPut.Add('{$I PascalScript.inc}'); OutPut.Add('interface'); OutPut.Add(FAfterInterfaceDeclaration); OutPut.Add(GetUsedUnitList(fRunTimeUnitList) + Newline); for Index := FRunTimeProcList.count - 1 downto 0 do begin obj := FRunTimeProcList.objects[Index]; if (obj is TProcList) and (PublicProc in TProcList(obj).ProcAttr) then OutPut.Add(FRunTimeProcList[Index]); end; OutPut.Add(''); OutPut.Add('implementation'); // insert the Runtime unit importer into the used unit list S := GetUsedUnitList(fRunTimeUnitListImp); if RunTimeProcType <> [] then begin if S <> '' then begin Delete(S, length(S), 1); OutPut.Add(S); (* if WriteDefines then begin OutPut.Add('{$IFDEF USEIMPORTER}'); OutPut.Add(' ,RIImporterU'); OutPut.Add('{$ENDIF};'); end;*) OutPut.Add(';'); end else begin (* if WriteDefines then begin OutPut.Add('{$IFDEF USEIMPORTER}'); OutPut.Add(' uses RIImporterU;'); OutPut.Add('{$ENDIF}'); end;*) end; end else OutPut.Add(S); // reinsert the main text body --IsHelper for Index := FRunTimeProcList.count - 1 downto 0 do begin obj := FRunTimeProcList.objects[Index]; if (obj is TProcList) and (IsHelper in TProcList(obj).ProcAttr) then OutPut.Add(TProcList(obj).text); end; // reinsert the main text body --PublicProc for Index := FRunTimeProcList.count - 1 downto 0 do begin obj := FRunTimeProcList.objects[Index]; if (obj is TProcList) and (PublicProc in TProcList(obj).ProcAttr) then OutPut.Add(TProcList(obj).text); end; // Add the ending of the unit // insert the Runtime unit importer code into the end of the unit if RunTimeProcType <> [] then begin (* if WriteDefines then begin OutPut.Add('{$IFDEF USEIMPORTER}'); OutPut.Add('initialization'); if RoutineImporter in RunTimeProcType then OutPut.Add('RIImporter.AddCallBack(RIRegister_' + UnitName + '_Routines);'); if ClassImporter in RunTimeProcType then OutPut.Add('RIImporter.Invoke(RIRegister_' + UnitName + ');'); OutPut.Add('{$ENDIF}'); end;*) end; OutPut.Add('end.'); finally if OutPut <> nil then OutputRT := OutPut.text; OutPut.free; end; end; finally for Index := FRunTimeProcList.Count - 1 downto 0 do begin FRunTimeProcList.Objects[Index].Free; end; FreeAndNil(FRunTimeProcList); for Index := FCompileTimeProcList.Count - 1 downto 0 do begin FCompileTimeProcList.Objects[Index].Free; end; FreeAndNil(FCompileTimeProcList); FreeAndNil(fRunTimeUnitList); FreeAndNil(fRunTimeUnitListImp); FreeAndNil(fCompileTimeUnitList); FreeAndNil(fCompileTimeUnitListImp); end; end; {FinishParse} (*----------------------------------------------------------------------------*) procedure TUnitParser.FinishParseSingleUnit; {-------------------------------------------} procedure ProcessUsesList(List: TStrings); var i : Integer; begin if List.Count > 0 then begin List[0] := ' ' + List[0]; for i := 1 to List.Count - 1 do List[i] := ' ,' + List[i]; List.Insert(0, 'uses'); List.Add(' ;') end; end; {-------------------------------------------} procedure AddToUsesList(UsesList, CheckList: TStrings; const AUnitName: string); var i : Integer; S : string; begin S := UpperCase(AUnitName); if Assigned(CheckList) then begin for i := 0 to CheckList.Count - 1 do if UpperCase(CheckList[i]) = S then Exit; //==> end; for i := 0 to UsesList.Count - 1 do if UpperCase(UsesList[i]) = S then Exit; //==> UsesList.Add(AUnitName); end; var OutPutList : TStringList; InterfaceUsesList : TStringList; { helper } ImplementationUsesList : TStringList; { helper } List : TStringList; obj : TObject; Index : integer; //S : string; i : Integer; sClassName : string; begin OutPutList := TStringList.Create; ImplementationUsesList := TStringList.Create; InterfaceUsesList := TStringList.Create; List := TStringList.Create; // ImplementationUsesList .CaseSensitive := False; // InterfaceUsesList .CaseSensitive := False; try FinishProcs; { unit name, etc. } OutPutList.Add('unit ' + ChangeFileExt(UnitNameCmp, '') + ';'); OutPutList.Add(GetLicence); // OutPutList.Add('{$I PascalScript.inc}'); OutPutList.Add('interface'); OutPutList.Add(' '); OutPutList.Add(FAfterInterfaceDeclaration); OutPutList.Add(' '); { interface uses clause list } AddToUsesList(InterfaceUsesList, nil, 'SysUtils'); AddToUsesList(InterfaceUsesList, nil, 'Classes'); AddToUsesList(InterfaceUsesList, nil, 'uPSComponent'); AddToUsesList(InterfaceUsesList, nil, 'uPSRuntime'); AddToUsesList(InterfaceUsesList, nil, 'uPSCompiler'); if Assigned(FCompileTimeProcList) then for i := 0 to FCompileTimeUnitList.Count - 1 do AddToUsesList(InterfaceUsesList, nil, FCompileTimeUnitList[i]); if Assigned(FRunTimeProcList) then for i := 0 to FRunTimeUnitList.Count - 1 do AddToUsesList(InterfaceUsesList, nil, FRunTimeUnitList[i]); List.Assign(InterfaceUsesList); ProcessUsesList(List); OutPutList.AddStrings(List); OutPutList.Add(' '); sClassName := FCompPrefix + '_' + UnitName ; OutPutList.Add('type '); OutPutList.Add('(*----------------------------------------------------------------------------*)'); OutPutList.Add(Format(' %s = class(TPSPlugin)', [sClassName])); OutPutList.Add(' public'); // OutPutList.Add(' procedure CompOnUses(CompExec: TPSScript); override;'); // OutPutList.Add(' procedure ExecOnUses(CompExec: TPSScript); override;'); OutPutList.Add(' procedure CompileImport1(CompExec: TPSScript); override;'); // OutPutList.Add(' procedure CompileImport2(CompExec: TPSScript); override;'); OutPutList.Add(' procedure ExecImport1(CompExec: TPSScript; const ri: TPSRuntimeClassImporter); override;'); // OutPutList.Add(' procedure ExecImport2(CompExec: TPSScript; const ri: TPSRuntimeClassImporter); override;'); OutPutList.Add(' end;'); OutPutList.Add(' '); OutPutList.Add(' '); { compile-time function declarations } if Assigned(FCompileTimeProcList) then begin OutPutList.Add('{ compile-time registration functions }'); for Index := FCompileTimeProcList.count - 1 downto 0 do begin obj := FCompileTimeProcList.objects[Index]; if (obj is TProcList) and (PublicProc in TProcList(obj).ProcAttr) then OutPutList.Add(FCompileTimeProcList[Index]); end; end; OutPutList.Add(''); { run-time function declarations } if Assigned(FRunTimeProcList) then begin OutPutList.Add('{ run-time registration functions }'); for Index := FRunTimeProcList.count - 1 downto 0 do begin obj := FRunTimeProcList.objects[Index]; if (obj is TProcList) and (PublicProc in TProcList(obj).ProcAttr) then OutPutList.Add(FRunTimeProcList[Index]); end; end; OutPutList.Add(''); OutPutList.Add('procedure Register;'); OutPutList.Add(''); OutPutList.Add('implementation'); OutPutList.Add(''); OutPutList.Add(''); { implementation uses clause } if Assigned(FCompileTimeProcList) then for i := 0 to FCompileTimeUnitListImp.Count - 1 do AddToUsesList(ImplementationUsesList, InterfaceUsesList, FCompileTimeUnitListImp[i]); if Assigned(FRunTimeProcList) then for i := 0 to FRunTimeUnitListImp.Count - 1 do AddToUsesList(ImplementationUsesList, InterfaceUsesList, FRunTimeUnitListImp[i]); (* if WriteDefines then begin ImplementationUsesList.Add('CIImporterU'); if RunTimeProcType <> [] then ImplementationUsesList.Add('RIImporterU'); end;*) List.Assign(ImplementationUsesList); ProcessUsesList(List); (* i := List.IndexOf('CIImporterU'); if i <> -1 then begin if i = 1 then List[i] := '{$IFDEF USEIMPORTER} CIImporterU {$ENDIF}' else List[i] := '{$IFDEF USEIMPORTER} ,CIImporterU {$ENDIF}'; end; i := List.IndexOf('RIImporterU'); if i <> -1 then begin if i = 1 then List[i] := '{$IFDEF USEIMPORTER} RIImporterU {$ENDIF}' else List[i] := '{$IFDEF USEIMPORTER} ,RIImporterU {$ENDIF}'; end; *) OutPutList.AddStrings(List); OutPutList.Add(' '); OutPutList.Add(' '); OutPutList.Add('procedure Register;'); OutPutList.Add('begin'); OutPutList.Add(' RegisterComponents('''+FCompPage+''', ['+FCompPrefix + '_' + UnitName+']);'); OutPutList.Add('end;'); OutPutList.Add(''); { compile-time function definitions } if Assigned(FCompileTimeProcList) then begin OutPutList.Add('(* === compile-time registration functions === *)'); // reinsert the main text body for Index := FCompileTimeProcList.count - 1 downto 0 do begin obj := FCompileTimeProcList.objects[Index]; if (obj is TProcList) and (IsHelper in TProcList(obj).ProcAttr) then begin OutPutList.Add('(*----------------------------------------------------------------------------*)'); OutPutList.Add(TStringList(obj).text); end; end; for Index := FCompileTimeProcList.count - 1 downto 0 do begin obj := FCompileTimeProcList.objects[Index]; if (obj is TProcList) and (PublicProc in TProcList(obj).ProcAttr) then begin OutPutList.Add('(*----------------------------------------------------------------------------*)'); OutPutList.Add(TStringList(obj).text); end; end; end; { run-time function definitions } if Assigned(FRunTimeProcList) then begin OutPutList.Add('(* === run-time registration functions === *)'); // reinsert the main text body --IsHelper for Index := FRunTimeProcList.count - 1 downto 0 do begin obj := FRunTimeProcList.objects[Index]; if (obj is TProcList) and (IsHelper in TProcList(obj).ProcAttr) then begin OutPutList.Add('(*----------------------------------------------------------------------------*)'); OutPutList.Add(TProcList(obj).text); end; end; // reinsert the main text body --PublicProc for Index := FRunTimeProcList.count - 1 downto 0 do begin obj := FRunTimeProcList.objects[Index]; if (obj is TProcList) and (PublicProc in TProcList(obj).ProcAttr) then begin OutPutList.Add('(*----------------------------------------------------------------------------*)'); OutPutList.Add(TProcList(obj).text); end; end; end; OutPutList.Add(' '); OutPutList.Add(' '); OutPutList.Add(Format('{ %s }', [sClassName])); OutPutList.Add('(*----------------------------------------------------------------------------*)'); OutPutList.Add(Format('procedure %s.CompileImport1(CompExec: TPSScript);', [sClassName])); OutPutList.Add('begin'); OutPutList.Add(Format(' SIRegister_%s(CompExec.Comp);', [UnitName])); OutPutList.Add('end;'); OutPutList.Add('(*----------------------------------------------------------------------------*)'); OutPutList.Add(Format('procedure %s.ExecImport1(CompExec: TPSScript; const ri: TPSRuntimeClassImporter);', [sClassName])); OutPutList.Add('begin'); // Birb: (!!!) should fix it so that this line is never added if there's // no RIRegister...routine (e.g. if unit has just constants) if (ClassImporter in RunTimeProcType) then OutPutList.Add(Format(' RIRegister_%s(ri);', [UnitName])); if RoutineImporter in RunTimeProcType then OutPutList.Add(Format(' RIRegister_%s_Routines(CompExec.Exec); // comment it if no routines', [UnitName])); OutPutList.Add('end;'); OutPutList.Add('(*----------------------------------------------------------------------------*)'); OutPutList.Add(' '); OutPutList.Add(' '); OutPutList.Add('end.'); finally for Index := FRunTimeProcList.Count - 1 downto 0 do begin FRunTimeProcList.Objects[Index].Free; end; FreeAndNil(FRunTimeProcList); for Index := FCompileTimeProcList.Count - 1 downto 0 do begin FCompileTimeProcList.Objects[Index].Free; end; FreeAndNil(FCompileTimeProcList); FreeAndNil(fRunTimeUnitList); FreeAndNil(fRunTimeUnitListImp); FreeAndNil(fCompileTimeUnitList); FreeAndNil(fCompileTimeUnitListImp); List.Free; ImplementationUsesList.Free; InterfaceUsesList.Free; FOutUnitList.Assign(OutPutList); OutPutList.Free; end; end; (*----------------------------------------------------------------------------*) procedure TUnitParser.ParseUnitHeader; begin // parser 'Unit ;' Match(CSTII_Unit); Match(CSTI_Identifier); Unitname := prevOrgToken; Match(CSTI_SemiColon); Match(CSTII_Interface); // parser the units clause 'uses [, ];' if IfMatch(CSTII_uses) then begin repeat Match(CSTI_Identifier); AddRequiredUnit(PrevOrgToken, RunTime, false); // AddRequiredUnit(PrevToken,CompileTime,false); if TokenID = CSTI_SemiColon then begin Match(CSTI_SemiColon); break; end else Match(CSTI_Comma, ','' or '';'); until false; end; AddRequiredUnit(UnitName, RunTime, false); fCurrentDTProc := RegisterProc('procedure SIRegister_' + UnitName + '(CL: TPSPascalCompiler);', CompileTime, [PublicProc]); AddRequiredUnit('uPSCompiler', CompileTime, True); AddRequiredUnit('uPSRuntime', RunTime, true); RunTimeProcType := []; fCurrentRTProc := nil; end; (*----------------------------------------------------------------------------*) procedure TUnitParser.ParseGlobalDeclarations; begin while not IfMatch(CSTII_Implementation) do case TokenID of CSTII_var : ParseVariables; CSTII_const : ParseConstants; CSTII_type : ParseTypes; CSTII_procedure , CSTII_function : ParseRoutines; CSTI_Identifier : RaiseError('Declaration expected but identifier ''' + OrgToken + ''' found', TokenRow, TokenCol); else RaiseError('Unknown keyword ''' + GetTokenName(TokenID) + '''', TokenRow, TokenCol); end; end; (*----------------------------------------------------------------------------*) function TUnitParser.GetConstantType: string; var value: int64; begin Result := ''; // determine the constant type case TokenID of CSTI_Integer: begin value := StrToInt64(Token); if (value < low(Longint)) then Result := 'Int64' else if value > High(Longint) then begin if value > High(longword) then Result := 'Int64' else Result := 'LongWord' end else Result := 'LongInt'; end; CSTI_HexInt: Result := 'LongWord'; CSTI_Real: Result := 'Extended'; CSTI_String: Result := 'String'; CSTI_Char: Result := 'Char'; CSTI_Identifier: begin // unknown identifier if (Token = 'FALSE') or (Token = 'TRUE') then Result := 'Boolean'; end; else RaiseError('Expected valid type, but found ''' + GetTokenName(TokenID) + '''', TokenRow, TokenCol); end; {case} end; {GetConstantType} function TUnitParser.ParseConstantExpression(var ExpType: string): string; var BracketCount: integer; BlkBracketCount: integer; begin result := ''; BracketCount := 0; BlkBracketCount := 0; repeat // generate the actual string case TokenID of CSTI_OpenBlock: BEGIN ExpType := 'ConstSet'; Inc(BlkBracketCount); end; CSTI_Comma: If BlkBracketCount>0 then Result := Result + ' or '; CSTI_CloseBlock: begin // prevent adding brakets when there should not be if blkBracketCount <> 0 then begin dec(BlkBracketCount); if (Result = '') and (BlkBracketCount = 0) then Result := '0'; end else break; end; CSTI_Integer, CSTI_HexInt, CSTI_Real, CSTI_String, CSTI_Char, CSTI_Identifier: begin if (TokenId = CSTI_Identifier) and (BlkBracketCount>0) then begin result := result + 'ord('+orgtoken+')'; end else begin ExpType := GetConstantType; // convert sveral consecutive characters into a string if (PrevTokenID = CSTI_Char) and (TokenID = CSTI_Char) then begin Result := Result + orgtoken; ExpType := 'String'; end else Result := Result + ' ' + orgToken; end; end; CSTI_Equal: Result := Result + ' ='; CSTI_NotEqual: Result := Result + ' <>'; CSTI_Greater: Result := Result + ' >'; CSTI_GreaterEqual: Result := Result + ' >='; CSTI_Less: Result := Result + ' <'; CSTI_LessEqual: Result := Result + ' <='; CSTI_Plus: Result := Result + ' +'; CSTI_Minus: Result := Result + ' -'; CSTI_Divide: begin Result := Result + ' /'; ExpType := 'Extended'; end; CSTII_div: Result := Result + ' div'; CSTI_Multiply: Result := Result + ' *'; CSTI_AddressOf: Result := Result + ' @'; CSTI_Dereference: Result := Result + ' ^'; CSTII_and: Result := Result + ' and'; CSTII_mod: Result := Result + ' mod'; CSTII_not: Result := Result + ' not'; CSTII_or: Result := Result + ' or'; CSTII_shl: Result := Result + ' shl'; CSTII_shr: Result := Result + ' shr'; CSTII_xor: Result := Result + ' xor'; CSTII_Chr: begin // jgv Result := Result + ' char('; NextToken; Match (CSTI_OpenRound); Result := Result + ParseConstantExpression(ExpType) + ')'; Match (CSTI_CloseRound); break; //Result := Result + ' char(' + ParseConstantExpression(ExpType) + ')'; end; CSTII_Ord: begin // jgv Result := Result + ' ord('; NextToken; Match (CSTI_OpenRound); Result := Result + ParseConstantExpression(ExpType); Match (CSTI_CloseRound); break; //Result := Result + ' ord(' + ParseConstantExpression(ExpType) + ')'; end; CSTI_OpenRound: begin Result := Result + ' ('; inc(BracketCount); end; CSTI_CloseRound: begin // prevent adding brakets when there should not be if BracketCount <> 0 then begin Result := Result + ' )'; dec(BracketCount) end else break; end; end; NextToken; until (not (TokenID in [CSTI_Integer, CSTI_HexInt, CSTI_Real, CSTI_String, CSTI_Char, CSTI_Equal, CSTI_NotEqual, CSTI_Greater, CSTI_GreaterEqual, CSTI_Less, CSTI_LessEqual, CSTI_Plus, CSTI_Minus, CSTI_Divide, CSTII_div, CSTI_Multiply, CSTI_AddressOf, CSTI_Dereference, CSTII_and, CSTII_mod, CSTII_not, CSTII_or, CSTII_shl, CSTII_shr, CSTII_xor, CSTII_Chr, CSTII_Ord, CSTI_OpenRound, CSTI_CloseRound])) and ((BlkBracketCount=0) or not (TokenID in [CSTI_COmma,CSTI_Identifier, CSTI_CloseBlock ])) ; end; {ParseConstantExpression} function TUnitParser.GetAsString(const ConstType, ConstValue: string): string; begin if ConstType = 'BOOLEAN' then begin with RegisterProc('Function BoolToStr(value : boolean) : string;', CompileTime, [IsHelper]) do begin if IsDone in ProcAttr then exit; include(ProcAttr, IsDone); Add('Begin If value then Result := ''TRUE'' else Result := ''FALSE'' End;'); end; Result := 'BoolToStr(' + ConstValue + ')'; end else If ConstType = 'CONSTSET' then result := '.Value.ts32 := '+ConstValue // Result := ConstValue //else If ConstType = 'CHAR' then // Result := '' else begin AddRequiredUnit('Sysutils', CompileTime, false); if (ConstType = 'BOOLEAN') then Result := '.SetInt(Ord(' + Constvalue + '))' else if (ConstType = 'LONGINT') or (ConstType = 'INTEGER') then Result := '.SetInt(' + ConstValue + ')' else if (ConstType = 'INT64') then Result := '.SetInt64(' + ConstValue + ')' else if (ConstType = 'LONGWORD') or (ConstType = 'BYTE') or (ConstType = 'WORD') then Result := '.SetUInt(' + ConstValue + ')' else if (ConstType = 'EXTENDED') or (ConstType = 'DOUBLE') or (ConstType = 'SINGLE') then Result := '.setExtended(' + ConstValue + ')' else Result := '.SetString(' + ConstValue + ')'; end; end; {GetAsString} procedure TUnitParser.ParseConstants; var ConstName, ConstType, ConstValue, Expression: string; l: Longint; begin Match(CSTII_const); repeat try Match(CSTI_Identifier); ConstName := PrevOrgToken; if IfMatch(CSTI_Colon) then begin ConstType := OrgToken; NextToken; Match(CSTI_Equal); Expression := ParseConstantExpression(Expression); end else begin Match(CSTI_Equal, ':'' or ''='); Expression := ParseConstantExpression(ConstType); end; Match(CSTI_SemiColon); if UseUnitAtDT then ConstValue := ConstName else ConstValue := Expression; if ConstType = '' then ReadLn(ConstType, 'Expression (' + Expression + ') :', 'Unable to determine expression type'); // now output the value // String( //teo If ConstType = 'ConstSet' then fCurrentDTProc.Add(' CL.AddConstantN(''' + ConstName + ''',' + '''LongInt'')' + GetAsString(FastUppercase(ConstType), ConstValue) + ';') else fCurrentDTProc.Add(' CL.AddConstantN(''' + ConstName + ''',' + '''' + ConstType + ''')' + GetAsString(FastUppercase(ConstType), ConstValue) + ';'); except // Hack: We cannot succesfully parse this, but that doesn't mean we should stop. on e: Exception do begin Writeln('Warning, could not parse const: ' + e.Message); l := 0; while TokenId <> CSTI_Eof do begin NextToken; if TokenId = CSTI_OpenBlock then inc(l) else if TokenId = CSTI_CloseBlock then Dec(l) else if TokenId = CSTI_OpenRound then inc(l) else if TokenId = CSTI_CloseRound then Dec(l) else if (TokenId = CSTI_SemiColon) and (l <= 0) then break; end; Match(CSTI_Semicolon); end; end; until (TokenID <> CSTI_Identifier); end; {ParseConstants} procedure TUnitParser.ParseVariables; begin {todo 3-cWishList : generate wrapper code to allow a script to access a variable} Match(CSTII_var); repeat Match(CSTI_Identifier); Match(CSTI_Colon); NextToken; if IfMatch(CSTI_Equal) then NextToken; Match(CSTI_SemiColon); until (TokenID <> CSTI_Identifier); end; {ParseVariables} function TUnitParser.ParseProcDecl(var ProcName, decl, CallingConvention: string; Options: TProcDeclOptions; OwnerClass:String=''): TProcDeclInfo; var VarListFirst: boolean; FinishedProcDecl: boolean; ParamNames: TStringList; Olddecl, OldProcName, ParamStr, s, Decl2: string; Index: integer; CheckSemiColon: boolean; Proc: TProcList; begin Result := []; if IfMatch(CSTII_function) then begin Include(Result, IsFunction); decl := 'Function '; end else if IfMatch(CSTII_Procedure) then decl := 'Procedure ' else if IfMatch(CSTII_Constructor) then begin if not (IsMethod in Options) then RaiseError('Constructor directive only applies to methods: '+OwnerClass, TokenRow, TokenCol); Include(Result, IsConstructor); decl := 'Constructor ' end else if IfMatch(CSTII_Destructor) then begin if not (IsMethod in Options) then RaiseError('Destructor directive only applies to methods: '+OwnerClass, TokenRow, TokenCol); Include(Result, IsDestructor); decl := 'Destructor ' end else Match(CSTII_Procedure, 'Function'' Or ''Procedure'); if not (Ispointer in Options) then begin Match(CSTI_Identifier); ProcName := PrevOrgToken; decl := decl + PrevOrgToken; end else ProcName := ''; ParamNames := TStringList.create; try if IfMatch(CSTI_OpenRound) then begin decl := decl + '( '; while not IfMatch(CSTI_CloseRound) do begin if IfMatch(CSTII_var) then decl := decl + 'var ' else if Ifmatch(CSTII_out) then //Birb decl := decl + 'out ' //Birb else if Ifmatch(CSTII_const) then decl := decl + 'const '; // get the list of variable names VarListFirst := true; repeat Match(CSTI_Identifier); if VarListFirst then begin VarListFirst := false; decl := decl + PrevOrgToken; end else decl := decl + ', ' + PrevOrgToken; ParamNames.Add(PrevOrgToken); if TokenID = CSTI_Colon then Break; //-- jgv untyped parameters if TokenID in [CSTI_CloseRound, CSTI_SemiColon] then begin Writeln('Untyped Pointers parameters are not supported, this declaration will fail. At position :' + inttostr(TokenRow) + ':' + inttostr(TokenCol)); if TokenID = CSTI_SemiColon then begin NextToken; Continue; end else Break; // jgv untyped parameter end; IfMatch(CSTI_Comma); until false; // jgv untyped parameter if not (TokenID in [CSTI_CloseRound, CSTI_SemiColon]) then begin Match(CSTI_Colon); // get the type decl := decl + ' : '; CheckSemiColon := true; ParseType(TokenID, ProcName, decl, CheckSemiColon); end; //-- end jgv if TokenID = CSTI_Equal then begin // stip the default part of the varaible declaration NextToken; ParseConstantExpression(ParamStr); end; if CheckSemiColon and Ifmatch(CSTI_SemiColon) and (TokenID <> CSTI_CloseRound) then decl := decl + '; ' end; decl := decl + ')'; end; // parse the ' : ' part of a function if IsFunction in Result then begin Match(CSTI_Colon); Match(CSTI_Identifier); decl := decl + ' : ' + PrevOrgToken; end; // parse Calling Conventions & other misc bits that are taken to // the end of a routine declaration CallingConvention := 'cdRegister'; FinishedProcDecl := false; // check if we are a method pointer if IsPointer in Options then begin if Ifmatch(CSTII_of) then begin if (TokenID <> CSTI_Identifier) or (Token <> 'OBJECT') then RaiseError('Expecting Token ''Object'' but found ''' + GetTokenName(TokenID) + '''', TokenRow, TokenCol) else NextToken; end else {todo 1 -cWishList : normal function pointers are not supported by the script, only method pointers} Decl := ''; end; Match(CSTI_Semicolon); repeat case TokenID of CSTII_External: begin if (IsPointer in Options) or (IsMethod in Options) then RaiseError('External directive only applies to routines ('+OwnerClass + ProcName + ')', TokenRow, TokenCol); NextToken; Match(CSTI_Semicolon); end; CSTII_Export: begin if (IsPointer in Options) or (IsMethod in Options) then RaiseError('Export directive only applies to routines (' + OwnerClass +ProcName + ')', TokenRow, TokenCol); NextToken; Match(CSTI_Semicolon); end; CSTII_Forward: begin if (IsPointer in Options) or (IsMethod in Options) then RaiseError('Forward directive only applies to routines (' + OwnerClass +ProcName + ')', TokenRow, TokenCol); NextToken; Match(CSTI_Semicolon); end; CSTII_Override: begin if not (IsMethod in Options) then RaiseError('Override directive only applies to methods (' + OwnerClass +ProcName + ')', TokenRow, TokenCol); decl := ''; NextToken; Match(CSTI_Semicolon); end; CSTII_Virtual: begin if not (IsMethod in Options) then RaiseError('Virtual directive only applies to methods (' + OwnerClass +ProcName + ')', TokenRow, TokenCol); NextToken; Match(CSTI_Semicolon); include(Result, IsVirtual); if Token = 'ABSTRACT' then begin NextToken; Match(CSTI_Semicolon); include(Result, IsAbstract); end; end; CSTI_Identifier: begin // check for calling conversion if Token = 'MESSAGE' then begin if not (IsMethod in Options) then RaiseError('Override directive only applies to methods (' + OwnerClass +ProcName + ')', TokenRow, TokenCol); NextToken; Match(CSTI_Identifier); Match(CSTI_Semicolon); end else if Token = 'DYNAMIC' then begin if not (IsMethod in Options) then RaiseError('Method directive only applies to methods (' + OwnerClass + ProcName + ')', TokenRow, TokenCol); NextToken; Match(CSTI_Semicolon); include(Result, IsVirtual); if Token = 'ABSTRACT' then begin NextToken; Match(CSTI_Semicolon); include(Result, IsAbstract); end; end else if Token = 'PASCAL' then begin CallingConvention := 'cdPascal'; NextToken; ; Match(CSTI_Semicolon); end else if Token = 'REGISTER' then begin CallingConvention := 'cdRegister'; NextToken; Match(CSTI_Semicolon); end else if Token = 'CDECL' then begin CallingConvention := 'CdCdecl'; NextToken; Match(CSTI_Semicolon); end else if (Token = 'STDCALL') or (Token = 'SAFECALL') then begin // map a safecall to stdcall // (safecall cause special wrapper code to be implemented client side) CallingConvention := 'CdStdCall'; NextToken; Match(CSTI_Semicolon); end else if not (Ispointer in Options) then begin if (token = 'OVERLOAD') then begin // if (IsPointer in Options) then // RaiseError('overload directive does not applies to function/method pointers', TokenRow, TokenCol); Writeln('Overloading isnt supported. Remapping of name required '+OwnerClass +Decl); OldProcName := ProcName; Olddecl := decl; s := ''; ProcName := OldProcName + InttoStr(FRenamingHelper); Inc(FRenamingHelper); repeat if FAutoRenameOverloadedMethods then Writeln('Auto-remapped') else Readln(ProcName, s+'Current declaration :' + '''' + OwnerClass +decl + '''', 'Enter new name.'); if ProcName = '' then ProcName := OldProcName; // create a tmp procedure to handle the overload. decl2 := decl; If (IsMethod in Options) then if (Pos('(',decl)=0)then decl2 := StringReplace(decl, OldProcName, OldProcName+'(Self: '+Ownerclass+')', [rfIgnoreCase]) else decl2 := StringReplace(decl, OldProcName+'(', OldProcName+'(Self: '+Ownerclass+'; ', [rfIgnoreCase]); decl2 := StringReplace(decl2, OldProcName, OwnerClass+ProcName+'_P', [rfIgnoreCase]); decl := StringReplace(decl, OldProcName, ProcName, [rfIgnoreCase])+';'; If (IsConstructor in Result) then begin decl2 := StringReplace(decl2, 'Constructor', 'Function', [rfIgnoreCase]); decl2 := StringReplace(decl2, ')', '):TObject', [rfIgnoreCase]); decl2 := StringReplace(decl2, 'Self: '+Ownerclass, 'Self: TClass; CreateNewInstance: Boolean', [rfIgnoreCase]); end; If (IsDestructor in Result) then decl2 := StringReplace(decl2, 'Destructor', 'Procedure', [rfIgnoreCase]); decl2 := decl2 +';'; Proc := RegisterProc(decl2, RunTime, [IsHelper]); if {not} (IsDone in Proc.ProcAttr) then begin If S = '' then S := 'Procedure name has been used, enter a new one'^m; ProcName := OldProcName; decl := Olddecl; end else break; until false; Include(result,IsCallHelper); Include(Proc.ProcAttr, IsDone); Writeln('New Name :''' + ProcName + ''''); with Proc do begin ParamStr := ''; if ParamNames.count <> 0 then begin for Index := 0 to ParamNames.count - 1 do ParamStr := ParamStr + ', ' + ParamNames[Index]; end; system.Delete(ParamStr,1,2); s := ''; If (IsFunction in Result) then s := 'Result := '; If ParamStr <> '' then ParamStr := '('+ParamStr +')'; If (IsConstructor in Result) then Add('Begin Result := '+OwnerClass+'.' + OldProcName+ParamStr+'; END;') else If (IsMethod in Options) then Add('Begin '+S+'Self.' + OldProcName+ParamStr+'; END;') else Add('Begin '+s+UnitName + '.' + OldProcName +ParamStr+ '; END;'); end; end; NextToken; Match(CSTI_Semicolon); end else exit; // get the next token end; else FinishedProcDecl := true; end; until FinishedProcDecl; finally ParamNames.free; end; end; {ParseProcDecl} procedure TUnitParser.ParseRoutines; var decl, ProcName, CallingConvention: string; begin AddRequiredUnit('uPSRuntime', RunTime, true); include(RunTimeProcType, RoutineImporter); fCurrentRTProc := RegisterProc('procedure RIRegister_' + UnitName + '_Routines(S: TPSExec);', RunTime, [PublicProc]); // build the function declaration ParseProcDecl(ProcName, Decl, CallingConvention, []); if decl <> '' then begin fCurrentDTProc.Add(' CL.AddDelphiFunction(''' + decl + ''');'); // teo -undeclared identifier RegisterDelphiFunctionC fCurrentRTProc.Add(' S.RegisterDelphiFunction(@' + ProcName + ', ''' + ProcName + ''', ' + CallingConvention + ');'); end; end; {ParseRoutines} procedure TUnitParser.ParseClassOrInterfaceDef(const aClassName: string; const isInterface: boolean); //Birb var CurrPos: (cp_private, cp_Protected, cp_public, cp_published); aClassParent: string; procedure ProcessProc; var decl, ProcName, callingConvention, PProcname: string; ProcDeclInfo: TProcDeclInfo; begin ProcDeclInfo := ParseProcDecl(ProcName, decl, callingConvention, [IsMethod], aClassName); if (decl = '') or (CurrPos in [cp_private, cp_Protected]) or (IsDestructor in ProcDeclInfo) then Exit; if isInterface then //Birb fCurrentDTProc.Add(' RegisterMethod(''' + SplitIntoLines(decl) + ''', '+callingConvention+');') else fCurrentDTProc.Add(' RegisterMethod(''' + SplitIntoLines(decl) + ''');'); if IsCallHelper in ProcDeclInfo then PProcName := aClassname + ProcName+'_P' else PProcName := aClassname + '.' + ProcName; if not isInterface then //Birb if IsVirtual in ProcDeclInfo then begin if IsConstructor in ProcDeclInfo then fCurrentRTProc.Add(' RegisterVirtualConstructor(@' + PProcName + ', ''' + ProcName + ''');') else begin if IsAbstract in ProcDeclInfo then fCurrentRTProc.Add(' RegisterVirtualAbstractMethod(@' + aClassname + ', @!.' + ProcName + ', ''' + ProcName + ''');') else fCurrentRTProc.Add(' RegisterVirtualMethod(@' + PProcName + ', ''' + ProcName + ''');') end; end else begin if IsConstructor in ProcDeclInfo then fCurrentRTProc.Add(' RegisterConstructor(@' + PProcName + ', ''' + ProcName + ''');') else fCurrentRTProc.Add(' RegisterMethod(@' + PProcName + ', ''' + ProcName + ''');') end; end; {ProcessProc} procedure ProcessVar; var VarType: string; procedure CreateFieldReadFunc(const VarName: string); begin with RegisterProc('procedure ' + aClassname + VarName + '_R(Self: ' + aClassname + '; var T: ' + VarType + ');', RunTime, [Ishelper]) do begin if IsDone in ProcAttr then RaiseError('Duplicate reader for field :' + aClassname + VarName, TokenRow, TokenCol); include(ProcAttr, IsDone); Add('Begin T := Self.' + VarName + '; end;'); end; end; {CreateFieldReadFunc} procedure CreateFieldWriteFunc(const VarName: string); begin with RegisterProc('procedure ' + aClassname + VarName + '_W(Self: ' + aClassname + '; const T: ' + VarType + ');', RunTime, [Ishelper]) do begin if IsDone in ProcAttr then RaiseError('Duplicate writer for field :' + aClassname + VarName, TokenRow, TokenCol); include(ProcAttr, IsDone); Add('Begin Self.' + VarName + ' := T; end;'); end; end; {CreateFieldWriteFunc} var VarNames: TStringList; Index: integer; CheckSemiColon: boolean; begin {ProcessVar} VarNames := TStringList.Create; try VarNames.Add(OrgToken); NextToken; while TokenId = CSTI_Comma do begin NextToken; Match(CSTI_Identifier); VarNames.Add(PrevorgToken); end; Match(CSTI_Colon); CheckSemiColon := true; ParseType(TokenID, '', VarType, CheckSemiColon); if CheckSemiColon then Match(CSTI_SemiColon); if CurrPos in [cp_public, cp_published] then begin for Index := 0 to Varnames.Count - 1 do begin CreateFieldReadFunc(Varnames[Index]); CreateFieldWriteFunc(Varnames[Index]); fCurrentDTProc.Add(' RegisterProperty(''' + varnames[Index] + ''', ''' + vartype + ''', iptrw);'); if not isInterface then //Birb fCurrentRTProc.Add(' RegisterPropertyHelper(' + '@' + aClassname + varnames[Index] + '_R,' + '@' + aClassname + varnames[Index] + '_W,' + '''' + varnames[Index] + ''');'); end; end; finally VarNames.Free; end; end; {ProcessVar} procedure ProcessProp; var ParamTypes: TStringList; PropertyName: string; read, write: Boolean; IsDefaultProp : Boolean; // teo function FindProperty: Boolean; var e, ReadString: string; SearchCount: integer; begin ReadString := aClassParent; Result := False; SearchCount := MaxSearchCount; while True do begin if SearchCount = 0 then RaiseError('While searching for property in property list, the maxium number of searchs allowed was reached', TokenRow, TokenCol); dec(SearchCount); e := Ini.ReadString(ReadString, PropertyName, '~'); if e = '~' then begin ReadString := Ini.ReadString(ReadString, 'PARENT-CLASS', ''); // check in the parent for the property if ReadString = '' then exit; end else begin if e = '' then begin PropertyName := ''; Result := True; exit; end; if pos(' ', e) = 0 then exit; ReadString := copy(e, 1, pos(' ', e) - 1); Delete(e, 1, length(ReadString) + 1); ParamTypes.Text := Stringreplace(e, ' ', #13#10, [rfReplaceAll]); if ReadString = 'READ' then Read := True else if ReadString = 'WRITE' then Write := True else if ReadString = 'READWRITE' then begin Read := True; Write := True; end else exit; Result := True; exit; end; end; end; {FindProperty} procedure CreateReadFunc(Fake: Boolean); var decl: string; Index: Longint; begin decl := 'procedure ' + aClassname + PropertyName + '_R(Self: ' + aClassname + '; var T: ' + ParamTypes[0]; for Index := 1 to ParamTypes.Count - 1 do decl := decl + '; const t' + inttostr(Index) + ': ' + ParamTypes[Index]; decl := decl + ');'; with RegisterProc(decl, RunTime, [Ishelper]) do begin if IsDone in ProcAttr then RaiseError('Duplicate property :' + aClassname + PropertyName + '_R', TokenRow, TokenCol); include(ProcAttr, IsDone); if Fake then Insert(1, '{'); decl := 'begin T := Self.' + PropertyName; if ParamTypes.Count > 1 then begin decl := decl + '[t1'; for Index := 2 to ParamTypes.Count - 1 do decl := decl + ', t' + inttostr(Index); decl := decl + ']'; end; Add(decl + '; end;'); if Fake then Add('}'); end; end; {CreateReadFunc} procedure CreateWriteFunc(Fake: Boolean); var decl: string; Index: Longint; begin decl := 'procedure ' + aClassname + PropertyName + '_W(Self: ' + aClassname + '; const T: ' + ParamTypes[0]; for Index := 1 to ParamTypes.Count - 1 do decl := decl + '; const t' + inttostr(Index) + ': ' + ParamTypes[Index]; decl := decl + ');'; with RegisterProc(decl, RunTime, [Ishelper]) do begin if IsDone in ProcAttr then RaiseError('Duplicate property :' + aClassname + PropertyName + '_W', TokenRow, TokenCol); include(ProcAttr, IsDone); if Fake then Insert(1, '{'); decl := 'begin Self.' + PropertyName; if ParamTypes.Count > 1 then begin decl := decl + '[t1'; for Index := 2 to ParamTypes.Count - 1 do decl := decl + ', t' + inttostr(Index); decl := decl + ']'; end; Add(decl + ' := T; end;'); if Fake then Add('}'); end; end; {CreateWriteFunc} var Readstr, Writestr, decl: string; ParamCount: Longint; begin {ProcessProp} IsDefaultProp := False; ParamTypes := TStringList.Create; try NextToken; Match(CSTI_Identifier); PropertyName := PrevOrgToken; case TokenId of CSTI_Semicolon: begin // A property is being introduced that is present in the parent object NextToken; if FindProperty then begin if (PropertyName = '') or not (CurrPos in [cp_public, cp_published]) then Exit; decl := trim(StringReplace(ParamTypes.Text, NewLine, ' ', [rfreplaceAll])); // build the design time declaration decl := ' RegisterProperty(''' + PropertyName + ''', ''' + decl + ''', ipt'; if Read then decl := decl + 'r'; if Write then decl := decl + 'w'; fCurrentDTProc.Add(decl + ');'); if CurrPos <> cp_published then begin // write out the runtime version if Read then begin // create the helper function to read from the property CreateReadFunc(False); Readstr := '@' + aClassName + PropertyName + '_R'; end else Readstr := 'nil'; if Write then begin // create the helper function to write to the property CreateWriteFunc(False); Writestr := '@' + aClassName + PropertyName + '_W'; end else Writestr := 'nil'; // select which Property helper to use (relys on events following the syntax (ON...)) if copy(PropertyName, 1, 2) <> 'ON' then decl := ' RegisterPropertyHelper(' else decl := ' RegisterEventPropertyHelper('; if not isInterface then //Birb fCurrentRTProc.Add(decl + Readstr + ',' + Writestr + ',''' + PropertyName + ''');') end; end else if PropertyName <> '' then Exit; end; CSTI_OpenBlock: begin // a pseudo array (indexed) property NextToken; while TokenID <> CSTI_CloseBlock do begin ParamCount := 0; repeat if (TokenID = CSTII_Const) or (TokenID = CSTII_Var) or (TokenID = CSTII_Out) //Birb then NextToken; Match(CSTI_Identifier); inc(ParamCount); if TokenID = CSTI_Comma then NextToken else Break; until False; Match(CSTI_Colon); Match(CSTI_Identifier); while ParamCount > 0 do begin ParamTypes.Add(PrevOrgToken); Dec(ParamCount); end; if TokenId = CSTI_Semicolon then begin NextToken; Continue; end; end; NextToken; end; end; //-- jgv reintroduce a property specifier if token = 'STORED' then begin If (CurrPos <> cp_published) then Exit; NextToken; Match(CSTI_Identifier); If TokenID = CSTI_SemiColon then begin Match (CSTI_SemiColon); Exit; end; end; if Token = 'DEFAULT' then begin NextToken; while TokenID <> CSTI_Semicolon do NextToken; NextToken; if FindProperty then begin if (PropertyName = '') or not (CurrPos in [cp_public, cp_published]) then Exit; decl := trim(StringReplace(ParamTypes.Text, NewLine, ' ', [rfreplaceAll])); // build the design time declaration decl := ' RegisterProperty(''' + PropertyName + ''', ''' + decl + ''', ipt'; if Read then decl := decl + 'r'; if Write then decl := decl + 'w'; fCurrentDTProc.Add(decl + ');'); if CurrPos <> cp_published then begin // write out the runtime version if Read then begin // create the helper function to read from the property CreateReadFunc(False); Readstr := '@' + aClassName + PropertyName + '_R'; end else Readstr := 'nil'; if Write then begin // create the helper function to write to the property CreateWriteFunc(False); Writestr := '@' + aClassName + PropertyName + '_W'; end else Writestr := 'nil'; // select which Property helper to use (relys on events following the syntax (ON...)) if copy(PropertyName, 1, 2) <> 'ON' then decl := ' RegisterPropertyHelper(' else decl := ' RegisterEventPropertyHelper('; if not isInterface then //Birb fCurrentRTProc.Add(decl + Readstr + ',' + Writestr + ',''' + PropertyName + ''');') end; end else if PropertyName <> '' then Exit; end; Match(CSTI_Colon); Match(CSTI_Identifier); ParamTypes.Insert(0, PrevOrgToken); // handle various property declarations read := false; write := false; //-- 20050707_jgv if Token = 'INDEX' then begin NextToken; Match (CSTI_Integer); end; //-- end jgv if Token = 'READ' then begin repeat NextToken; Match(CSTI_Identifier); until TokenID <> CSTI_Period; read := true; end; if Token = 'WRITE' then begin repeat NextToken; Match(CSTI_Identifier); until TokenID <> CSTI_Period; Write := true; end; if TokenID = CSTI_SemiColon then NextToken else begin if (Token = 'STORED') then begin NextToken; NextToken; // skip this if TokenId = CSTI_Semicolon then Match(CSTI_Semicolon); end; if (Token = 'DEFAULT') then begin NextToken; while TokenID <> CSTI_Semicolon do NextToken; Match(CSTI_SemiColon); end; end; if Token = 'DEFAULT' then begin IsDefaultProp := True; NextToken; Match(CSTI_Semicolon); end; if UseUnitAtDT and (CurrPos <> cp_public) or not (CurrPos in [cp_public, cp_published]) then exit; decl := trim(StringReplace(ParamTypes.Text, NewLine, ' ', [rfreplaceAll])); // build the design time declaration decl := ' RegisterProperty(''' + PropertyName + ''', ''' + decl + ''', ipt'; if Read then decl := decl + 'r'; if Write then decl := decl + 'w'; fCurrentDTProc.Add(decl + ');'); // write out the runtime version if Read then begin // create the helper function to read from the property CreateReadFunc(False); Readstr := '@' + aClassName + PropertyName + '_R'; end else Readstr := 'nil'; if Write then begin // create the helper function to write to the property CreateWriteFunc(False); Writestr := '@' + aClassName + PropertyName + '_W'; end else Writestr := 'nil'; // select which Property helper to use (relys on events following the syntax (ON...)) if copy(PropertyName, 1, 2) <> 'ON' then decl := ' RegisterPropertyHelper(' else decl := ' RegisterEventPropertyHelper('; if not isInterface then //Birb fCurrentRTProc.Add(decl + Readstr + ',' + Writestr + ',''' + PropertyName + ''');'); if IsDefaultProp then //teo fCurrentDTProc.Add(' SetDefaultPropery(''' + PropertyName + ''');'); finally ParamTypes.Free; end; end; {ProcessProp} var OldDTProc, OldRTProc: TProcList; begin {ParseClassDef} if isInterface //Birb then Match(CSTII_interface) //Birb else Match(CSTII_class); //CreateRegClasProc; // check for forward declaration if TokenID = CSTI_Semicolon then begin // NextToken; the semicolon is removed by the caller if UseUnitAtDT then if isInterface //Birb then fCurrentDTProc.Add(' CL.AddInterface(CL.FindInterface('''+STR_IINTERFACE+'''),' + aClassname + ', '''+aClassname+''');') //this is a forward declaration that will be overriden later on else fCurrentDTProc.Add(' CL.AddClass(CL.FindClass(''TOBJECT''),' + aClassname + ');') else if isInterface //Birb then fCurrentDTProc.Add(' CL.AddInterface(CL.FindInterface('''+STR_IINTERFACE+'''),' + aClassname + ', '''+aClassname+''');') //this is a forward declaration that will be overriden later on else fCurrentDTProc.Add(' CL.AddClassN(CL.FindClass(''TOBJECT''),''' + aClassname + ''');'); if isInterface then //Birb Include(RuntimeProcType, InterfaceImporter) //Birb else //Birb begin //Birb if fCurrentRTProc = nil then begin Include(RunTimeProcType, ClassImporter); fCurrentRTProc := RegisterProc('procedure RIRegister_' + UnitName + '(CL: TPSRuntimeClassImporter);', RunTime, [PublicProc]); end; fCurrentRTProc.Add(' with CL.Add(' + aClassname + ') do'); end; //Birb exit; end else if IfMatch(CSTII_of) then begin Match(CSTI_Identifier); //teo --compiler complains when it comes to register a TClass type fCurrentDTProc.Add(' //CL.AddTypeS(''' + aClassname + ''', ''class of ' + PrevOrgToken + ''');'); exit; end else if IfMatch(CSTI_OpenRound) then begin Match(CSTI_Identifier); aClassParent := PrevOrgToken; if not isInterface then while IfMatch(CSTI_Comma) do Match(CSTI_Identifier); //Birb (ignore possible list of implemented interfaces after class ancestor) Match(CSTI_CloseRound); /////////////////// if TokenId = CSTI_Semicolon then //??? //Birb: I think this is an impossible case! begin if UseUnitAtDT then if isInterface //Birb then fCurrentDTProc.Add(' CL.AddInterface(CL.FindInterface(''IUNKNOWN''),' + aClassname + ', '''+aClassname+''');') else fCurrentDTProc.Add(' CL.AddClass(CL.FindClass(''TOBJECT''),' + aClassname + ');') else if isInterface //Birb then fCurrentDTProc.Add(' CL.AddInterface(CL.FindInterface(''IUNKNOWN''),' + aClassname + ', '''+aClassname+''');') else fCurrentDTProc.Add(' CL.AddClassN(CL.FindClass(''TOBJECT''),''' + aClassname + ''');'); if isInterface then //Birb Include(RuntimeProcType, InterfaceImporter) //Birb else //Birb begin //Birb if fCurrentRTProc = nil then begin Include(RunTimeProcType, ClassImporter); fCurrentRTProc := RegisterProc('procedure RIRegister_' + UnitName + '(CL: TPSRuntimeClassImporter);', RunTime, [PublicProc]); end; fCurrentRTProc.Add(' with CL.Add(' + aClassname + ') do'); end; //Birb exit; end; /////////////////// end else if isInterface //Birb then aClassParent := STR_IINTERFACE //Birb (Delphi interfaces descent from IInterface if no ancestor is specified) else aClassParent := 'TOBJECT'; if isInterface then //Birb begin //Birb Include(RuntimeProcType, InterfaceImporter); //Birb OldRTProc := fCurrentRTProc; //Birb (using to avoid compiler warning later on - maybe can just use "nil" here) end //Birb else //Birb begin //Birb if fCurrentRTProc = nil then begin Include(RunTimeProcType, ClassImporter); fCurrentRTProc := RegisterProc('procedure RIRegister_' + UnitName + '(CL: TPSRuntimeClassImporter);', RunTime, [PublicProc]); end; OldRTProc := fCurrentRTProc; fCurrentRTProc := RegisterProc('procedure RIRegister_' + aClassname + '(CL: TPSRuntimeClassImporter);', RunTime, [PublicProc]); fCurrentRTProc.Add(' with CL.Add(' + aClassname + ') do'); fCurrentRTProc.Add(' begin'); end; //Birb OldDTProc := fCurrentDTProc; fCurrentDTProc := RegisterProc('procedure SIRegister_' + aClassname + '(CL: TPSPascalCompiler);', CompileTime, [PublicProc]); if UseUnitAtDT then begin AddRequiredUnit(UnitName, CompileTime, false); if isInterface //Birb then fCurrentDTProc.Add(' with CL.AddInterface(CL.FindInterface(''' + aClassParent + '''),' + aClassname + ', '''+aClassname+''') do') else fCurrentDTProc.Add(' with CL.AddClass(CL.FindClass(''' + aClassParent + '''),' + aClassname + ') do'); fCurrentDTProc.Add(' begin'); if not isInterface then //Birb (note that Delphi does support interface properties, but on only for Delphi objects, not external objects [!!!should fix uPSCompiler to support that too - with some RegisterProperties method, since there's no published section at interface declarations]) fCurrentDTProc.Add(' RegisterPublishedProperties;'); end else begin if isInterface then //Birb begin fCurrentDTProc.Add(' //with RegInterfaceS(CL,''' + aClassParent + ''', ''' + aClassname + ''') do'); //Birb fCurrentDTProc.Add(' with CL.AddInterface(CL.FindInterface(''' + aClassParent + '''),' + aClassname + ', '''+aClassname+''') do') end else begin fCurrentDTProc.Add(' //with RegClassS(CL,''' + aClassParent + ''', ''' + aClassname + ''') do'); // teo fCurrentDTProc.Add(' with CL.AddClassN(CL.FindClass(''' + aClassParent + '''),''' + aClassname + ''') do'); end; fCurrentDTProc.Add(' begin'); end; CurrPos := cp_public; if isInterface then //Birb if not IfMatch(CSTI_OpenBlock) then //Birb: GUID string needed at interface declarations cause "CL.AddInterface" has a TGUID parameter above (!!!should have a PGUID so that we could maybe pass nil to it - else maybe should see if '' is accepted for a TGUID and peek ahead to see if a GUID is available, else use '') RaiseError('Found ''' + GetTokenName(TokenID) + ''' instead of [''GUID-string'']', TokenRow, TokenCol) else begin //Birb: ignore ['GUID-string'] Match(CSTI_String); Match(CSTI_CloseBlock); end; while not IfMatch(CSTII_End) do case TokenID of CSTII_Private: begin CurrPos := cp_private; NextToken; end; CSTII_Protected: begin CurrPos := cp_Protected; NextToken; end; CSTII_Public: begin CurrPos := cp_public; NextToken; end; CSTII_Published: begin CurrPos := cp_published; NextToken; end; CSTII_Procedure, CSTII_Function, CSTII_Constructor, CSTII_Destructor: ProcessProc; CSTI_Identifier: ProcessVar; CSTII_Property: if isInterface then //Birb begin skipToSemicolon; //Birb (note that Delphi does support interface properties, but on only for Delphi objects, not external objects [!!!should fix uPSCompiler to support that too]) if Token='DEFAULT' then //Birb: ignore optional "default;" specifier that may follow indexed/array properties begin NextToken; Match(CSTI_SemiColon); end end else ProcessProp; //Birb: (!!!) do check if this works ok with "default;" specifier for indexed/array property declarations (since that one is after the property declaration's ending ";") CSTII_Class: begin // jgv: class procedure/function NextToken; If Not (TokenID in [CSTII_Procedure, CSTII_Function]) then RaiseError ('class must be followed by "function" or "procedure"', TokenRow, TokenCol); end; else RaiseError('Unknown keyword ''' + GetTokenName(TokenID) + '''', TokenRow, TokenCol); end; if not isInterface then //Birb fCurrentRTProc.Add(' end;'); fCurrentDTProc.Add(' end;'); if OldDTProc <> nil then fCurrentDTProc := OldDTProc; fCurrentDTProc.Add(' SIRegister_' + aClassname + '(CL);'); if not isInterface then //Birb begin if OldRTProc <> nil then fCurrentRTProc := OldRTProc; fCurrentRTProc.Add(' RIRegister_' + aClassname + '(CL);'); end; end; {ParseClassOrInterfaceDef} //Birb procedure TUnitParser.ParseInterfaceDef(const aInterfaceName: string); begin { Writeln('Interface Declaration not suported at position: ' + Inttostr(TokenRow) + ':' + Inttostr(TokenCol)); while not (TokenId in [CSTI_EOF, CSTII_End]) do NextToken; NextToken; // skip the END //todo 4 -cRequired : Allow parsing of interfaces } ParseClassOrInterfaceDef(aInterfaceName,true); //Birb end; {ParseInterfaceDef} procedure TUnitParser.ParseClassDef(const aClassName: string); //Birb begin ParseClassOrInterfaceDef(aClassName,false); //Birb end; {ParseClassDef} //Birb procedure TUnitParser.ParseType(aTokenID: TPSPasToken; const TypeName: string; var TypeDescriptor: string; var CheckSemiColon: boolean); var S: string; b: boolean; begin CheckSemiColon := True; case aTokenID of CSTI_Integer: // range begin TypeDescriptor := TypeDescriptor + 'Integer'; while not (TokenId in [CSTI_EOF, CSTI_Semicolon]) do begin NextToken; end; Match(CSTI_Semicolon); CheckSemicolon := False; end; CSTI_Identifier: // simple type by name (MyInt = Integer) begin Match(CSTI_Identifier); TypeDescriptor := TypeDescriptor + PrevOrgToken; end; CSTI_Dereference: // ie 'PInteger = ^Integer' begin { todo 3-cWishList : When pointers are supported by ROPPS, supported them or provide emulation } Match(CSTI_Dereference); TypeDescriptor := TypeDescriptor + ' ^'; ParseType(CSTI_Identifier, TypeName, TypeDescriptor, CheckSemiColon); Writeln('Pointers are not supported, this declaration will fail. At position :' + inttostr(TokenRow) + ':' + inttostr(TokenCol)); TypeDescriptor := TypeDescriptor + ' // will not work'; end; CSTII_type: // type identity (MyInt = type Integer) begin Match(CSTII_type); // TypeDescriptor := TypeDescriptor + 'type'; ParseType(CSTI_Identifier, TypeName, TypeDescriptor, CheckSemiColon); end; CSTII_procedure, CSTII_function: // parse a routine/method pointer begin ParseProcDecl(S, TypeDescriptor, S, [IsPointer]); CheckSemiColon := false; end; CSTI_OpenRound: // enums (somename,somename2,..) begin Match(CSTI_OpenRound); TypeDescriptor := TypeDescriptor + '( '; b := false; repeat Match(CSTI_Identifier); if b then TypeDescriptor := TypeDescriptor + ', ' + PrevOrgToken else begin b := true; TypeDescriptor := TypeDescriptor + PrevOrgToken; end; if TokenID = CSTI_CloseRound then begin NextToken; TypeDescriptor := TypeDescriptor + ' ) '; break; end else Match(CSTI_Comma); until false; end; CSTII_record: // records (rec = record a : integer; end;) begin Match(CSTII_record); TypeDescriptor := TypeDescriptor + 'record '; b := false; while TokenID = CSTI_Identifier do begin TypeDescriptor := TypeDescriptor + OrgToken + ' : '; NextToken; Match(CSTI_Colon); ParseType(TokenId, TypeName, TypeDescriptor, CheckSemiColon); if TypeDescriptor = '' then b := true; // invalidat this type Match(CSTI_SemiColon); TypeDescriptor := TypeDescriptor + '; '; end; TypeDescriptor := TypeDescriptor + 'end '; if b then TypeDescriptor := ''; Match(CSTII_end); end; CSTII_set: // sets (set of (...)) begin // parse a set declaration Match(CSTII_set); Match(CSTII_of); TypeDescriptor := TypeDescriptor + 'set of '; ParseType(TokenID, TypeName, TypeDescriptor, CheckSemiColon); { todo 1 -cWishList : When Sets are supported by ROPS, supported them } // RaiseError('Sets are not supported',TokenPos); end; CSTII_array: // arrays (array [..] of ...) begin Match(CSTII_array); b := false; TypeDescriptor := TypeDescriptor + 'array '; if Ifmatch(CSTI_OpenBlock) then begin TypeDescriptor := TypeDescriptor + '[ ' + ParseConstantExpression(S); if IfMatch(CSTI_TwoDots) then begin // Match(CSTI_Period, '..'); TypeDescriptor := TypeDescriptor + ' .. ' + ParseConstantExpression(S); end; TypeDescriptor := TypeDescriptor + '] '; Match(CSTI_CloseBlock); { TODO 1 -cWishList : When static arrays are supported by ROPS, supported them } b := true; end; Match(CSTII_of); TypeDescriptor := TypeDescriptor + 'of '; //-- jgv parse array of const If TokenID = CSTII_const then begin TypeDescriptor := TypeDescriptor + 'const'; NextToken; end else //-- end jgv Parsetype(TokenID, TypeName, TypeDescriptor, CheckSemiColon); if b then TypeDescriptor := ''; end; CSTII_Interface: // interfaces ( objectname = Interface ... end) begin TypeDescriptor := ''; // suppresses the default register action // Writeln('Interfaces are not supported. At position :'+inttostr(TokenPos)); ParseInterfaceDef(TypeName); end; CSTII_class: // classes ( objectname = class ... end) begin TypeDescriptor := ''; // suppresses the default register action ParseClassDef(TypeName); end; else RaiseError('Expecting valid type, but found ''' + GetTokenName(TokenID) + '''', TokenRow, TokenCol); end; end; {ParseType} (*----------------------------------------------------------------------------*) procedure TUnitParser.ParseTypes; var TypeName : string; TypeDescriptor, tmp : string; CheckSemiColon : boolean; Len, Index : integer; begin {ParseTypes} Match(CSTII_type); repeat // get the type name Match(CSTI_Identifier); TypeName := PrevOrgToken; Match(CSTI_equal); // build the type discriptor TypeDescriptor := ''; ParseType(TokenID, TypeName, TypeDescriptor, CheckSemiColon); if CheckSemiColon then Match(CSTI_SemiColon); if (TypeDescriptor <> '') then begin TypeDescriptor := trim(TypeDescriptor); // break up the TypeDescriptor to make it fit with in 80 characters per line tmp := ' CL.AddTypeS(''' + TypeName + ''', '''; Len := Length(tmp) + length(TypeDescriptor) + 3; if Len <= 80 then fCurrentDTProc.Add(tmp + TypeDescriptor + ''');') else begin Len := 79 - Length(tmp); fCurrentDTProc.Add(tmp); if Len > 0 then begin tmp := copy(TypeDescriptor, 1, Len); Delete(TypeDescriptor, 1, Len); Index := fCurrentDTProc.count - 1; fCurrentDTProc[Index] := fCurrentDTProc[Index] + tmp + ''''; end else begin fCurrentDTProc.Add(' +''' + copy(TypeDescriptor, 1, 74) + ''''); Delete(TypeDescriptor, 1, 74); end; while TypeDescriptor <> '' do begin fCurrentDTProc.Add(' +''' + copy(TypeDescriptor, 1, 74) + ''''); Delete(TypeDescriptor, 1, 74); end; Index := fCurrentDTProc.count - 1; fCurrentDTProc[Index] := fCurrentDTProc[Index] + ');'; end; end; until (TokenID <> CSTI_Identifier); end; {ParseTypes} procedure TUnitParser.ParserError(Parser: TObject; Kind: TPSParserErrorKind); var S: string; begin Writeln('Error parsing file'); case Kind of iCommentError: S := 'Comment'; iStringError: S := 'String'; iCharError: S := 'Char'; iSyntaxError: S := 'Syntax'; end; Writeln(S + ' Error, Position :' + Inttostr(TPSPascalParser(Parser).Row) + ':' + IntToStr(TPSPascalParser(Parser).Col)); end; end.