{------------------------------------------------------------------------------- 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/ 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: SynHighlighterFortran.pas, released 2000-04-21. The Original Code is based on the mwFortranSyn.pas file from the mwEdit component suite by Martin Waldenburg and other developers, the Initial Author of this file is "riceball". All Rights Reserved. Contributors to the SynEdit and mwEdit projects are listed in the Contributors.txt file. Alternatively, the contents of this file may be used under the terms of the GNU General Public License Version 2 or later (the "GPL"), in which case the provisions of the GPL are applicable instead of those above. If you wish to allow use of your version of this file only under the terms of the GPL and not to allow others to use your version of this file under the MPL, indicate your decision by deleting the provisions above and replace them with the notice and other provisions required by the GPL. If you do not delete the provisions above, a recipient may use your version of this file under either the MPL or the GPL. $Id: SynHighlighterFortran.pas,v 1.16 2005/01/28 16:53:22 maelh Exp $ You may retrieve the latest version of this file at the SynEdit home page, located at http://SynEdit.SourceForge.net Known Issues: -------------------------------------------------------------------------------} { @abstract(Provides a Fortran syntax highlighter for SynEdit) @author(riceball , converted to SynEdit by Bruno Mikkelsen ) @created(2000, converted to SynEdit 2000-04-21) @lastmod(2000-06-23) The SynHighlighterFortran unit provides SynEdit with a Fortran syntax highlighter. Thanks to Martin Waldenburg. } unit SynHighlighterFortran; // extrasyn.inc is the synedit.inc from laz 1.2.0 synedit package source, // If it has changed in newer version you might need to copy it again. // Remember to redclare the syn_lazarus define. {$I extrasyn.inc} interface uses Graphics, SynEditTypes, SynEditHighlighter, Classes; type TtkTokenKind = (tkComment, tkIdentifier, tkKey, tkNull, tkNumber, tkSpace, tkString, tkSymbol, tkUnknown); TProcTableProc = procedure of object; PIdentFuncTableFunc = ^TIdentFuncTableFunc; TIdentFuncTableFunc = function: TtkTokenKind of object; type TSynFortranSyn = class(TSynCustomHighlighter) private fLine: PChar; fLineNumber: Integer; fProcTable: array[#0..#255] of TProcTableProc; Run: LongInt; fStringLen: Integer; fToIdent: PChar; fTokenPos: Integer; FTokenID: TtkTokenKind; fIdentFuncTable: array[0..145] of TIdentFuncTableFunc; fCommentAttri: TSynHighlighterAttributes; fIdentifierAttri: TSynHighlighterAttributes; fKeyAttri: TSynHighlighterAttributes; fNumberAttri: TSynHighlighterAttributes; fSpaceAttri: TSynHighlighterAttributes; fStringAttri: TSynHighlighterAttributes; fSymbolAttri: TSynHighlighterAttributes; function KeyHash(ToHash: PChar): Integer; function KeyComp(const aKey: String): Boolean; function Func15: TtkTokenKind; function Func19: TtkTokenKind; function Func23: TtkTokenKind; function Func26: TtkTokenKind; function Func28: TtkTokenKind; function Func30: TtkTokenKind; function Func36: TtkTokenKind; function Func38: TtkTokenKind; function Func41: TtkTokenKind; function Func42: TtkTokenKind; function Func47: TtkTokenKind; function Func48: TtkTokenKind; function Func50: TtkTokenKind; function Func56: TtkTokenKind; function Func57: TtkTokenKind; function Func58: TtkTokenKind; function Func59: TtkTokenKind; function Func61: TtkTokenKind; function Func63: TtkTokenKind; function Func64: TtkTokenKind; function Func66: TtkTokenKind; function Func68: TtkTokenKind; function Func69: TtkTokenKind; function Func70: TtkTokenKind; function Func73: TtkTokenKind; function Func75: TtkTokenKind; function Func77: TtkTokenKind; function Func78: TtkTokenKind; function Func81: TtkTokenKind; function Func82: TtkTokenKind; function Func84: TtkTokenKind; function Func88: TtkTokenKind; function Func96: TtkTokenKind; function Func97: TtkTokenKind; function Func99: TtkTokenKind; function Func101: TtkTokenKind; function Func102: TtkTokenKind; function Func114: TtkTokenKind; function Func127: TtkTokenKind; function Func144: TtkTokenKind; function Func145: TtkTokenKind; procedure AsciiCharProc; procedure CRProc; procedure CommaProc; procedure EqualProc; procedure ExclamationProc; procedure GreaterProc; procedure IdentProc; procedure LFProc; procedure LowerProc; procedure MinusProc; procedure ModSymbolProc; procedure NullProc; procedure NumberProc; procedure PlusProc; procedure PointProc; procedure RoundCloseProc; procedure RoundOpenProc; procedure SemiColonProc; procedure SlashProc; procedure SpaceProc; procedure StarProc; procedure StringProc; procedure UnknownProc; function AltFunc: TtkTokenKind; procedure InitIdent; function IdentKind(MayBe: PChar): TtkTokenKind; procedure MakeMethodTables; procedure CommentProc; protected function GetIdentChars: TSynIdentChars; override; function GetSampleSource: String; override; function IsFilterStored: Boolean; override; public class function GetLanguageName: string; override; public constructor Create(AOwner: TComponent); override; function GetDefaultAttribute(Index: integer): TSynHighlighterAttributes; override; function GetEol: Boolean; override; function GetTokenID: TtkTokenKind; procedure SetLine(const NewValue: String; LineNumber: Integer); override; function GetToken: String; override; {$IFDEF SYN_LAZARUS} procedure GetTokenEx(out TokenStart: PChar; out TokenLength: integer); override; {$ENDIF} function GetTokenAttribute: TSynHighlighterAttributes; override; function GetTokenKind: integer; override; function GetTokenPos: Integer; override; procedure Next; override; published property CommentAttri: TSynHighlighterAttributes read fCommentAttri write fCommentAttri; property IdentifierAttri: TSynHighlighterAttributes read fIdentifierAttri write fIdentifierAttri; property KeyAttri: TSynHighlighterAttributes read fKeyAttri write fKeyAttri; property NumberAttri: TSynHighlighterAttributes read fNumberAttri write fNumberAttri; property SpaceAttri: TSynHighlighterAttributes read fSpaceAttri write fSpaceAttri; property StringAttri: TSynHighlighterAttributes read fStringAttri write fStringAttri; property SymbolAttri: TSynHighlighterAttributes read fSymbolAttri write fSymbolAttri; end; implementation uses SynEditStrConst; var Identifiers: array[#0..#255] of ByteBool; mHashTable: array[#0..#255] of Integer; procedure MakeIdentTable; var I, J: Char; begin for I := #0 to #255 do begin Case I of '_', '0'..'9', 'a'..'z', 'A'..'Z': Identifiers[I] := True; else Identifiers[I] := False; end; J := UpCase(I); Case I in ['_', 'A'..'Z', 'a'..'z'] of True: mHashTable[I] := Ord(J) - 64 else mHashTable[I] := 0; end; end; end; procedure TSynFortranSyn.InitIdent; var I: Integer; pF: PIdentFuncTableFunc; begin pF := PIdentFuncTableFunc(@fIdentFuncTable); for I := Low(fIdentFuncTable) to High(fIdentFuncTable) do begin pF^ := @AltFunc; Inc(pF); end; fIdentFuncTable[15] := @Func15; fIdentFuncTable[19] := @Func19; fIdentFuncTable[23] := @Func23; fIdentFuncTable[26] := @Func26; fIdentFuncTable[28] := @Func28; fIdentFuncTable[30] := @Func30; fIdentFuncTable[36] := @Func36; fIdentFuncTable[38] := @Func38; fIdentFuncTable[41] := @Func41; fIdentFuncTable[42] := @Func42; fIdentFuncTable[47] := @Func47; fIdentFuncTable[48] := @Func48; fIdentFuncTable[50] := @Func50; fIdentFuncTable[56] := @Func56; fIdentFuncTable[57] := @Func57; fIdentFuncTable[58] := @Func58; fIdentFuncTable[59] := @Func59; fIdentFuncTable[61] := @Func61; fIdentFuncTable[63] := @Func63; fIdentFuncTable[64] := @Func64; fIdentFuncTable[66] := @Func66; fIdentFuncTable[68] := @Func68; fIdentFuncTable[69] := @Func69; fIdentFuncTable[70] := @Func70; fIdentFuncTable[73] := @Func73; fIdentFuncTable[75] := @Func75; fIdentFuncTable[77] := @Func77; fIdentFuncTable[78] := @Func78; fIdentFuncTable[81] := @Func81; fIdentFuncTable[82] := @Func82; fIdentFuncTable[84] := @Func84; fIdentFuncTable[88] := @Func88; fIdentFuncTable[96] := @Func96; fIdentFuncTable[97] := @Func97; fIdentFuncTable[99] := @Func99; fIdentFuncTable[101] := @Func101; fIdentFuncTable[102] := @Func102; fIdentFuncTable[114] := @Func114; fIdentFuncTable[127] := @Func127; fIdentFuncTable[144] := @Func144; fIdentFuncTable[145] := @Func145; end; function TSynFortranSyn.KeyHash(ToHash: PChar): Integer; begin Result := 0; while ToHash^ in ['_', '0'..'9', 'a'..'z', 'A'..'Z'] do begin inc(Result, mHashTable[ToHash^]); inc(ToHash); end; fStringLen := ToHash - fToIdent; end; function TSynFortranSyn.KeyComp(const aKey: String): Boolean; var I: Integer; Temp: PChar; begin Temp := fToIdent; if Length(aKey) = fStringLen then begin Result := True; for i := 1 to fStringLen do begin if mHashTable[Temp^] <> mHashTable[aKey[i]] then begin Result := False; break; end; inc(Temp); end; end else Result := False; end; function TSynFortranSyn.Func15: TtkTokenKind; begin if KeyComp('if') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func19: TtkTokenKind; begin if KeyComp('do') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func23: TtkTokenKind; begin if KeyComp('end') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func26: TtkTokenKind; begin if KeyComp('data') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func28: TtkTokenKind; begin if KeyComp('call') then Result := tkKey else if KeyComp('case') then Result := tkKey else if KeyComp('read') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func30: TtkTokenKind; begin if KeyComp('map') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func36: TtkTokenKind; begin if KeyComp('real') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func38: TtkTokenKind; begin if KeyComp('endif') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func41: TtkTokenKind; begin if KeyComp('else') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func42: TtkTokenKind; begin if KeyComp('enddo') then Result := tkKey else if KeyComp('enddo') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func47: TtkTokenKind; begin if KeyComp('then') then Result := tkKey else if KeyComp('save') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func48: TtkTokenKind; begin if KeyComp('cycle') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func50: TtkTokenKind; begin if KeyComp('open') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func56: TtkTokenKind; begin if KeyComp('elseif') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func57: TtkTokenKind; begin if KeyComp('while') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func58: TtkTokenKind; begin if KeyComp('exit') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func59: TtkTokenKind; begin if KeyComp('logical') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func61: TtkTokenKind; begin if KeyComp('value') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func63: TtkTokenKind; begin if KeyComp('record') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func64: TtkTokenKind; begin if KeyComp('select') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func66: TtkTokenKind; begin if KeyComp('type') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func68: TtkTokenKind; begin if KeyComp('include') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func69: TtkTokenKind; begin if KeyComp('allocate') then Result := tkKey else if KeyComp('default') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func70: TtkTokenKind; begin if KeyComp('stop') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func73: TtkTokenKind; begin if KeyComp('union') then Result := tkKey else if KeyComp('common') then Result := tkKey else if KeyComp('format') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func75: TtkTokenKind; begin if KeyComp('write') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func77: TtkTokenKind; begin if KeyComp('character') then Result := tkKey else if KeyComp('print') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func78: TtkTokenKind; begin if KeyComp('integer') then Result := tkKey else if KeyComp('deallocate') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func81: TtkTokenKind; begin if KeyComp('interface') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func82: TtkTokenKind; begin if KeyComp('entry') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func84: TtkTokenKind; begin if KeyComp('allocatable') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func88: TtkTokenKind; begin if KeyComp('program') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func96: TtkTokenKind; begin if KeyComp('return') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func97: TtkTokenKind; begin if KeyComp('parameter') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func99: TtkTokenKind; begin if KeyComp('external') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func101: TtkTokenKind; begin if KeyComp('continue') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func102: TtkTokenKind; begin if KeyComp('function') then Result := tkKey else if KeyComp('dimension') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func114: TtkTokenKind; begin if KeyComp('equivalence') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func127: TtkTokenKind; begin if KeyComp('stucture') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func144: TtkTokenKind; begin if KeyComp('subroutine') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.Func145: TtkTokenKind; begin if KeyComp('structure') then Result := tkKey else Result := tkIdentifier; end; function TSynFortranSyn.AltFunc: TtkTokenKind; begin Result := tkIdentifier; end; function TSynFortranSyn.IdentKind(MayBe: PChar): TtkTokenKind; var HashKey: Integer; begin fToIdent := MayBe; HashKey := KeyHash(MayBe); if HashKey < 146 then Result := fIdentFuncTable[HashKey]() else Result := tkIdentifier; end; procedure TSynFortranSyn.MakeMethodTables; var I: Char; begin for I := #0 to #255 do case I of #39: fProcTable[I] := @AsciiCharProc; #13: fProcTable[I] := @CRProc; ',': fProcTable[I] := @CommaProc; '=': fProcTable[I] := @EqualProc; '!': fProcTable[I] := @ExclamationProc; '>': fProcTable[I] := @GreaterProc; 'A'..'Z', 'a'..'z', '_': fProcTable[I] := @IdentProc; #10: fProcTable[I] := @LFProc; '<': fProcTable[I] := @LowerProc; '-': fProcTable[I] := @MinusProc; '%': fProcTable[I] := @ModSymbolProc; #0: fProcTable[I] := @NullProc; '0'..'9': fProcTable[I] := @NumberProc; '+': fProcTable[I] := @PlusProc; '.': fProcTable[I] := @PointProc; ')': fProcTable[I] := @RoundCloseProc; '(': fProcTable[I] := @RoundOpenProc; ';': fProcTable[I] := @SemiColonProc; '/': fProcTable[I] := @SlashProc; #1..#9, #11, #12, #14..#32: fProcTable[I] := @SpaceProc; '*': fProcTable[I] := @StarProc; #34: fProcTable[I] := @StringProc; else fProcTable[I] := @UnknownProc; end; end; constructor TSynFortranSyn.Create(AOwner: TComponent); begin inherited Create(AOwner); fCommentAttri := TSynHighlighterAttributes.Create(SYNS_AttrComment); fCommentAttri.Style := [fsItalic]; AddAttribute(fCommentAttri); fIdentifierAttri := TSynHighlighterAttributes.Create(SYNS_AttrIdentifier); AddAttribute(fIdentifierAttri); fKeyAttri := TSynHighlighterAttributes.Create(SYNS_AttrReservedWord); fKeyAttri.Style := [fsBold]; AddAttribute(fKeyAttri); fNumberAttri := TSynHighlighterAttributes.Create(SYNS_AttrNumber); AddAttribute(fNumberAttri); fSpaceAttri := TSynHighlighterAttributes.Create(SYNS_AttrSpace); AddAttribute(fSpaceAttri); fStringAttri := TSynHighlighterAttributes.Create(SYNS_AttrString); AddAttribute(fStringAttri); fSymbolAttri := TSynHighlighterAttributes.Create(SYNS_AttrSymbol); AddAttribute(fSymbolAttri); SetAttributesOnChange(@DefHighlightChange); InitIdent; MakeMethodTables; fDefaultFilter := SYNS_FilterFortran; end; procedure TSynFortranSyn.SetLine(const NewValue: String; LineNumber: Integer); begin fLine := PChar(NewValue); Run := 0; fLineNumber := LineNumber; Next; end; procedure TSynFortranSyn.AsciiCharProc; begin fTokenID := tkString; repeat case FLine[Run] of #0, #10, #13: break; end; inc(Run); until FLine[Run] = #39; if FLine[Run] <> #0 then inc(Run); end; procedure TSynFortranSyn.CRProc; begin fTokenID := tkSpace; Inc(Run); if fLine[Run] = #10 then Inc(Run); end; procedure TSynFortranSyn.CommaProc; begin inc(Run); fTokenID := tkSymbol; end; procedure TSynFortranSyn.EqualProc; begin case FLine[Run + 1] of '=': {logical equal} begin inc(Run, 2); fTokenID := tkSymbol; end; else {assign} begin inc(Run); fTokenID := tkSymbol; end; end; end; procedure TSynFortranSyn.ExclamationProc; begin inc(Run, 1); {Fortran Comments} fTokenID := tkComment; while FLine[Run] <> #0 do begin case FLine[Run] of #10, #13: break; end; inc(Run); end; end; procedure TSynFortranSyn.GreaterProc; begin Case FLine[Run + 1] of '=': {greater than or equal to} begin inc(Run, 2); fTokenID := tkSymbol; end; '>': begin if FLine[Run + 2] = '=' then {shift right assign} inc(Run, 3) else {shift right} inc(Run, 2); fTokenID := tkSymbol; end; else {greater than} begin inc(Run); fTokenID := tkSymbol; end; end; end; procedure TSynFortranSyn.IdentProc; begin if (FLine[Run] in ['C', 'c']) and (Run = 0) then begin //Fortran comments inc(Run, 1); CommentProc; end else begin fTokenID := IdentKind((fLine + Run)); inc(Run, fStringLen); while Identifiers[fLine[Run]] do inc(Run); end; end; procedure TSynFortranSyn.LFProc; begin inc(Run); fTokenID := tkSpace; end; procedure TSynFortranSyn.LowerProc; begin case FLine[Run + 1] of '=': {less than or equal to} begin inc(Run, 2); fTokenID := tkSymbol; end; '<': begin if FLine[Run + 2] = '=' then {shift left assign} inc(Run, 3) else {shift left} inc(Run, 2); fTokenID := tkSymbol; end; else {less than} begin inc(Run); fTokenID := tkSymbol; end; end; end; procedure TSynFortranSyn.MinusProc; begin {subtract} inc(Run); fTokenID := tkSymbol; end; procedure TSynFortranSyn.ModSymbolProc; begin {mod} inc(Run); fTokenID := tkSymbol; end; procedure TSynFortranSyn.NullProc; begin fTokenID := tkNull; end; procedure TSynFortranSyn.NumberProc; begin inc(Run); fTokenID := tkNumber; while FLine[Run] in ['0'..'9', '.', 'x', 'X', 'e', 'E', 'f', 'F'] do begin case FLine[Run] of '.': if FLine[Run + 1] = '.' then break; end; inc(Run); end; end; procedure TSynFortranSyn.PlusProc; begin {subtract} inc(Run); fTokenID := tkSymbol; end; procedure TSynFortranSyn.PointProc; begin if (((UpCase(FLine[Run + 1]) = 'G') and (UpCase(FLine[Run + 2]) in ['E','T'])) {.ge. .gt.} or ((UpCase(FLine[Run + 1]) = 'L') and (UpCase(FLine[Run + 2]) in ['E','T'])) {.le. .lt.} or ((UpCase(FLine[Run + 1]) = 'N') and (UpCase(FLine[Run + 2]) = 'E')) {.ne.} or ((UpCase(FLine[Run + 1]) = 'E') and (UpCase(FLine[Run + 2]) = 'Q')) {.eq.} or ((UpCase(FLine[Run + 1]) = 'O') and (UpCase(FLine[Run + 2]) = 'R'))){.or.} and (FLine[Run + 3] = '.') then begin inc(Run, 4); fTokenID := tkSymbol; end else if (((UpCase(FLine[Run + 1]) = 'A') and (UpCase(FLine[Run + 2]) = 'N') and (UpCase(FLine[Run + 3]) = 'D')) {.and.} or ((UpCase(FLine[Run + 1]) = 'N') and (UpCase(FLine[Run + 2]) = 'O') and (UpCase(FLine[Run + 3]) = 'T'))) {.not.} and (FLine[Run + 4] = '.') then begin inc(Run, 5); fTokenID := tkSymbol; end else if (UpCase(FLine[Run + 1]) = 'T') and (UpCase(FLine[Run + 2]) = 'R') and (UpCase(FLine[Run + 3]) = 'U') and (UpCase(FLine[Run + 4]) = 'E') and (FLine[Run + 5] = '.') then {.true.} begin inc(Run, 6); fTokenID := tkSymbol; end else if (UpCase(FLine[Run + 1]) = 'F') and (UpCase(FLine[Run + 2]) = 'A') and (UpCase(FLine[Run + 3]) = 'L') and (UpCase(FLine[Run + 4]) = 'S') and (UpCase(FLine[Run + 5]) = 'E') and (FLine[Run + 6] = '.') then {.false.} begin inc(Run, 7); fTokenID := tkSymbol; end else {point} begin inc(Run); fTokenID := tkSymbol; end; end; procedure TSynFortranSyn.RoundCloseProc; begin inc(Run); fTokenID := tkSymbol; end; procedure TSynFortranSyn.RoundOpenProc; begin inc(Run); FTokenID := tkSymbol; end; procedure TSynFortranSyn.SemiColonProc; begin inc(Run); fTokenID := tkSymbol; end; procedure TSynFortranSyn.SlashProc; begin {division} inc(Run); fTokenID := tkSymbol; end; procedure TSynFortranSyn.SpaceProc; begin inc(Run); fTokenID := tkSpace; while FLine[Run] in [#1..#9, #11, #12, #14..#32] do inc(Run); end; procedure TSynFortranSyn.StarProc; begin if (Run = 0) then begin //Fortran comments inc(Run); CommentProc; end else begin {star} inc(Run); fTokenID := tkSymbol; end; end; procedure TSynFortranSyn.CommentProc; begin fTokenID := tkComment; while FLine[Run] <> #0 do begin case FLine[Run] of #10, #13: break; end; //case inc(Run); end; //while end; procedure TSynFortranSyn.StringProc; begin fTokenID := tkString; if (FLine[Run + 1] = #34) and (FLine[Run + 2] = #34) then inc(Run, 2); repeat case FLine[Run] of #0, #10, #13: break; #92: if FLine[Run + 1] = #10 then inc(Run); end; inc(Run); until FLine[Run] = #34; if FLine[Run] <> #0 then inc(Run); end; procedure TSynFortranSyn.UnknownProc; begin inc(Run); fTokenID := tkUnknown; end; procedure TSynFortranSyn.Next; begin fTokenPos := Run; fProcTable[fLine[Run]]; end; function TSynFortranSyn.GetDefaultAttribute(Index: integer): TSynHighlighterAttributes; begin case Index of SYN_ATTR_COMMENT: Result := fCommentAttri; SYN_ATTR_IDENTIFIER: Result := fIdentifierAttri; SYN_ATTR_KEYWORD: Result := fKeyAttri; SYN_ATTR_STRING: Result := fStringAttri; SYN_ATTR_WHITESPACE: Result := fSpaceAttri; SYN_ATTR_SYMBOL: Result := fSymbolAttri; else Result := nil; end; end; function TSynFortranSyn.GetEol: Boolean; begin Result := fTokenID = tkNull; end; function TSynFortranSyn.GetToken: String; var Len: LongInt; begin Len := Run - fTokenPos; SetString(Result, (FLine + fTokenPos), Len); end; {$IFDEF SYN_LAZARUS} procedure TSynFortranSyn.GetTokenEx(out TokenStart :PChar; out TokenLength :integer); begin TokenLength:=Run-fTokenPos; TokenStart:=FLine + fTokenPos; end; {$ENDIF} function TSynFortranSyn.GetTokenID: TtkTokenKind; begin Result := fTokenId; end; function TSynFortranSyn.GetTokenAttribute: TSynHighlighterAttributes; begin case GetTokenID of tkComment: Result := fCommentAttri; tkIdentifier: Result := fIdentifierAttri; tkKey: Result := fKeyAttri; tkNumber: Result := fNumberAttri; tkSpace: Result := fSpaceAttri; tkString: Result := fStringAttri; tkSymbol: Result := fSymbolAttri; tkUnknown: Result := fIdentifierAttri; else Result := nil; end; end; function TSynFortranSyn.GetTokenKind: integer; begin Result := Ord(fTokenId); end; function TSynFortranSyn.GetTokenPos: Integer; begin Result := fTokenPos; end; function TSynFortranSyn.GetIdentChars: TSynIdentChars; begin Result := TSynValidStringChars; end; function TSynFortranSyn.GetSampleSource: String; begin Result := '* euclid.f (FORTRAN 77)' + LineEnding + '* Find greatest common divisor using the Euclidean algorithm' + LineEnding + LineEnding + ' PROGRAM EUCLID' + LineEnding + ' PRINT *, ''A?''' + LineEnding + ' READ *, NA' + LineEnding + ' IF (NA.LE.0) THEN' + LineEnding + ' PRINT *, ''A must be a positive integer.''' + LineEnding + ' STOP' + LineEnding + ' END IF' + LineEnding + ' PRINT *, ''B?''' + LineEnding + ' READ *, NB' + LineEnding + ' IF (NB.LE.0) THEN' + LineEnding + ' PRINT *, ''B must be a positive integer.''' + LineEnding + ' STOP' + LineEnding + ' END IF' + LineEnding + ' PRINT *, ''The GCD of'', NA, '' and'', NB, '' is'', NGCD(NA, NB), ''.''' + LineEnding + ' STOP' + LineEnding + ' END' + LineEnding + LineEnding + ' FUNCTION NGCD(NA, NB)' + LineEnding + ' IA = NA' + LineEnding + ' IB = NB' + LineEnding + ' 1 IF (IB.NE.0) THEN' + LineEnding + ' ITEMP = IA' + LineEnding + ' IA = IB' + LineEnding + ' IB = MOD(ITEMP, IB)' + LineEnding + ' GOTO 1' + LineEnding + ' END IF' + LineEnding + ' NGCD = IA' + LineEnding + ' RETURN' + LineEnding + ' END'; end; function TSynFortranSyn.IsFilterStored: Boolean; begin Result := fDefaultFilter <> SYNS_FilterFortran; end; class function TSynFortranSyn.GetLanguageName: string; begin Result := SYNS_LangFortran; end; initialization MakeIdentTable; RegisterPlaceableHighlighter(TSynFortranSyn); end.