{$optimize 7} {---------------------------------------------------------------} { } { Header } { } { Handles saving and reading precompiled headers. } { } {---------------------------------------------------------------} unit Header; interface {$LibPrefix '0/obj/'} uses CCommon, MM, Scanner, Symbol, CGI; {$segment 'SCANNER'} const symFileVersion = 9; {version number of .sym file format} var inhibitHeader: boolean; {should .sym includes be blocked?} procedure EndInclude (chPtr: ptr); { Saves symbols created by the include file } { } { Parameters: } { chPtr - chPtr when the file returned } { } { Notes: } { 1. Call this subroutine right after processing an } { include file. } { 2. Declared externally in Symbol.pas } procedure FlagPragmas (pragma: pragmas); { record the effects of a pragma } { } { parameters: } { pragma - pragma to record } { } { Notes: } { 1. Defined as extern in Scanner.pas } { 2. For the purposes of this unit, the segment statement is } { treated as a pragma. } procedure InitHeader (var fName: gsosOutString); { look for a header file, reading it if it exists } { } { parameters: } { fName - source file name (var for efficiency) } procedure TermHeader; { Stop processing the header file } { } { Note: This is called when the first code-generating } { subroutine is found, and again when the compile ends. It } { closes any open symbol file, and should take no action if } { called twice. } procedure StartInclude (name: gsosOutStringPtr); { Marks the start of an include file } { } { Notes: } { 1. Call this subroutine right after opening an include } { file. } { 2. Defined externally in Scanner.pas } {---------------------------------------------------------------} implementation const symFiletype = $5E; {symbol file type} symAuxtype = $008008; {file buffer} {-----------} bufSize = 1024; {size of output buffer} type closeOSDCB = record pcount: integer; refNum: integer; end; createOSDCB = record pcount: integer; pathName: gsosInStringPtr; access: integer; fileType: integer; auxType: longint; storageType: integer; dataEOF: longint; resourceEOF: longint; end; destroyOSDCB = record pcount: integer; pathName: gsosInStringPtr; end; getFileInfoOSDCB = record pcount: integer; pathName: gsosInStringPtr; access: integer; fileType: integer; auxType: longint; storageType: integer; createDateTime: timeField; modDateTime: timeField; optionList: optionListPtr; dataEOF: longint; blocksUsed: longint; resourceEOF: longint; resourceBlocks: longint; end; getMarkOSDCB = record pcount: integer; refNum: integer; displacement: longint; end; openOSDCB = record pcount: integer; refNum: integer; pathName: gsosInStringPtr; requestAccess: integer; resourceNumber: integer; access: integer; fileType: integer; auxType: longint; storageType: integer; createDateTime: timeField; modDateTime: timeField; optionList: optionListPtr; dataEOF: longint; blocksUsed: longint; resourceEOF: longint; resourceBlocks: longint; end; readWriteOSDCB = record pcount: integer; refNum: integer; dataBuffer: ptr; requestCount: longint; transferCount: longint; cachePriority: integer; end; setMarkOSDCB = record pcount: integer; refNum: integer; base: integer; displacement: longint; end; {file buffer} {-----------} bufferType = array[0..bufSize] of byte; {output buffer} var codeStarted: boolean; {has code generation started?} includeLevel: 0..maxint; {nested include level} includeMark: boolean; {has the mark field been written?} savePragmas: set of pragmas; {pragmas to record} saveSource: boolean; {save source streams?} symChPtr: ptr; {chPtr at start of current source sequence} symEndPtr: ptr; {points to first byte past end of file} symMark: longint; {start of current block} symName: gsosOutString; {symbol file name} symStartPtr: ptr; {first byte in the symbol file} symPtr: ptr; {next byte in the symbol file} symRefnum: integer; {symName reference number} tokenMark: longint; {start of last token list} {file buffer} {-----------} buffer: ^bufferType; {output buffer} bufPtr: ^byte; {next available byte} bufLen: 0..bufSize; {bytes left in buffer} {---------------------------------------------------------------} procedure BlockMove (sourcPtr, destPtr: ptr; count: longint); tool ($02, $2B); procedure CloseGS (var parms: closeOSDCB); prodos ($2014); procedure CreateGS (var parms: createOSDCB); prodos ($2001); procedure DestroyGS (var parms: destroyOSDCB); prodos ($2002); procedure GetFileInfoGS (var parms: getFileInfoOSDCB); prodos ($2006); procedure GetMarkGS (var parms: getMarkOSDCB); prodos ($2017); procedure OpenGS (var parms: openOSDCB); prodos ($2010); procedure SetEOFGS (var parms: setMarkOSDCB); prodos ($2018); procedure SetMarkGS (var parms: setMarkOSDCB); prodos ($2016); procedure WriteGS (var parms: readWriteOSDCB); prodos ($2013); {---------------------------------------------------------------} procedure DestroySymbolFile; { Delete any existing symbol file } var dsRec: destroyOSDCB; {DestroyGS record} giRec: getFileInfoOSDCB; {GetFileInfoGS record} begin {DestroySymbolFile} giRec.pCount := 4; giRec.pathname := @symName.theString; GetFileInfoGS(giRec); if (giRec.filetype = symFiletype) and (giRec.auxtype = symAuxtype) then begin dsRec.pCount := 1; dsRec.pathname := @symName.theString; DestroyGS(dsRec); end; {if} end; {DestroySymbolFile} procedure Purge; { Purge the output buffer } var clRec: closeOSDCB; {CloseGS record} wrRec: readWriteOSDCB; {WriteGS record} begin {Purge} wrRec.pcount := 4; wrRec.refnum := symRefnum; wrRec.dataBuffer := pointer(buffer); wrRec.requestCount := (bufSize - bufLen); WriteGS(wrRec); if ToolError <> 0 then begin clRec.pCount := 1; clRec.refnum := symRefnum; CloseGS(clRec); DestroySymbolFile; saveSource := false; end; {if} bufLen := bufSize; bufPtr := pointer(buffer); end; {Purge} procedure CloseSymbols; { Close the symbol file } var clRec: closeOSDCB; {CloseGS record} begin {CloseSymbols} Purge; clRec.pCount := 1; clRec.refnum := symRefnum; CloseGS(clRec); if numErrors <> 0 then DestroySymbolFile; end; {CloseSymbols} function ReadDouble: double; { Read a double precision real from the symbol file } { } { Returns: value read } type doubleptr = ^double; begin {ReadDouble} ReadDouble := doubleptr(symPtr)^; symPtr := pointer(ord4(symPtr)+8); end; {ReadDouble} function ReadLong: longint; { Read a long word from the symbol file } { } { Returns: long word read } type longptr = ^longint; begin {ReadLong} ReadLong := longptr(symPtr)^; symPtr := pointer(ord4(symPtr)+4); end; {ReadLong} function ReadLongString: longStringPtr; { Read a long string from the symbol file } { } { Returns: string read } var len: 0..maxint; {string buffer length} sp1, sp2: longStringPtr; {work pointers} begin {ReadLongString} sp1 := longStringPtr(symPtr); len := sp1^.length + 2; symPtr := pointer(ord4(symPtr) + len); sp2 := pointer(GMalloc(len)); BlockMove(sp1, sp2, len); ReadLongString := sp2; end; {ReadLongString} function ReadString: stringPtr; { Read a string from the symbol file } { } { Returns: string read } var len: 0..255; {string buffer length} sp1, sp2: stringPtr; {work pointers} begin {ReadString} sp1 := stringptr(symPtr); len := length(sp1^) + 1; symPtr := pointer(ord4(symPtr) + len); sp2 := pointer(GMalloc(len)); BlockMove(sp1, sp2, len); ReadString := sp2; end; {ReadString} function ReadByte: integer; { Read a byte from the symbol file } { } { Returns: byte read } type intptr = ^integer; begin {ReadByte} ReadByte := (intptr(symPtr)^) & $00FF; symPtr := pointer(ord4(symPtr)+1); end; {ReadByte} function ReadWord: integer; { Read a word from the symbol file } { } { Returns: word read } type intptr = ^integer; begin {ReadWord} ReadWord := intptr(symPtr)^; symPtr := pointer(ord4(symPtr)+2); end; {ReadWord} procedure ReadChars (var p1, p2: ptr); { Read a character stream from the file } { } { parameters: } { p1 - (output) pointer to first char in stream } { p2 - (output) points one past last char in stream } var len: integer; {length of the stream} begin {ReadChars} len := ReadWord; p1 := pointer(GMalloc(len)); p2 := pointer(ord4(p1) + len); BlockMove(symPtr, p1, len); symPtr := pointer(ord4(symPtr) + len); end; {ReadChars} procedure WriteDouble (d: double); { Write a double constant to the symbol file } { } { parameters: } { d - constant to write } var dPtr: ^double; {work pointer} begin {WriteDouble} if bufLen < 8 then Purge; dPtr := pointer(bufPtr); dPtr^ := d; bufPtr := pointer(ord4(bufPtr) + 8); bufLen := bufLen - 8; end; {WriteDouble} procedure WriteLong (i: longint); { Write a long word to the symbol file } { } { parameters: } { i - long word to write } var lPtr: ^longint; {work pointer} begin {WriteLong} if bufLen < 4 then Purge; lPtr := pointer(bufPtr); lPtr^ := i; bufPtr := pointer(ord4(bufPtr) + 4); bufLen := bufLen - 4; end; {WriteLong} procedure WriteByte (i: integer); { Write a byte to the symbol file } { } { parameters: } { i - byte to write } var iPtr: ^byte; {work pointer} begin {WriteByte} if bufLen = 0 then Purge; iPtr := pointer(bufPtr); iPtr^ := i; bufPtr := pointer(ord4(bufPtr) + 1); bufLen := bufLen - 1; end; {WriteByte} procedure WriteWord (i: integer); { Write a word to the symbol file } { } { parameters: } { i - word to write } var iPtr: ^integer; {work pointer} begin {WriteWord} if bufLen < 2 then Purge; iPtr := pointer(bufPtr); iPtr^ := i; bufPtr := pointer(ord4(bufPtr) + 2); bufLen := bufLen - 2; end; {WriteWord} procedure WriteLongString (s: longStringPtr); { Write a long string to the symbol file } { } { parameters: } { s - pointer to the string to write } var i: 0..maxint; {loop/index variables} len: 0..maxint; {string length} wrRec: readWriteOSDCB; {WriteGS record} begin {WriteLongString} len := s^.length; if bufLen < len+2 then Purge; if bufLen < len+2 then begin wrRec.pcount := 4; wrRec.refnum := symRefnum; wrRec.dataBuffer := pointer(s); wrRec.requestCount := s^.length + 2; WriteGS(wrRec); if ToolError <> 0 then begin CloseSymbols; DestroySymbolFile; saveSource := false; end; {if} end {if} else begin WriteWord(len); for i := 1 to len do begin bufPtr^ := ord(s^.str[i]); bufPtr := pointer(ord4(bufPtr) + 1); end; {for} bufLen := bufLen - len; end; {else} end; {WriteLongString} procedure WriteChars (p1, p2: ptr); { Write a stream of chars as a longString } { } { parameters: } { p1 - points to the first char to write } { p2 - points to the byte following the last char } var i: 0..maxint; {loop/index variables} len: 0..maxint; {char length} wrRec: readWriteOSDCB; {WriteGS record} begin {WriteChars} len := ord(ord4(p2) - ord4(p1)); WriteWord(len); if bufLen < len then Purge; if bufLen < len then begin if saveSource then begin wrRec.pcount := 4; wrRec.refnum := symRefnum; wrRec.dataBuffer := pointer(p1); wrRec.requestCount := ord4(p2) - ord4(p1); WriteGS(wrRec); if ToolError <> 0 then begin CloseSymbols; DestroySymbolFile; saveSource := false; end; {if} end; {if} end {if} else begin for i := 1 to len do begin bufPtr^ := p1^; bufPtr := pointer(ord4(bufPtr)+1); p1 := pointer(ord4(p1)+1); end; {for} bufLen := bufLen - len; end; {else} end; {WriteChars} procedure WriteString (s: stringPtr); { Write a string to the symbol file } { } { parameters: } { s - pointer to the string to write } var i: 0..255; {loop/index variable} len: 0..255; {length of the string} begin {WriteString} len := length(s^); if bufLen < len+1 then Purge; for i := 0 to len do begin bufPtr^ := ord(s^[i]); bufPtr := pointer(ord4(bufPtr)+1); end; {for} bufLen := bufLen - (len + 1); end; {WriteString} procedure MarkBlock; { Mark the length of the current block } var l: longint; {block length} smRec: setMarkOSDCB; {SetMarkGS record} gmRec: getMarkOSDCB; {GetMarkGS record} wrRec: readWriteOSDCB; {WriteGS record} begin {MarkBlock} Purge; {purge the buffer} gmRec.pCount := 2; {get the current EOF} gmRec.refnum := symRefnum; GetMarkGS(gmRec); if ToolError = 0 then begin smRec.pcount := 3; {set the mark to the block length field} smRec.refnum := symRefnum; smRec.base := 0; smRec.displacement := symMark; SetMarkGS(smRec); if ToolError = 0 then begin l := gmRec.displacement - smRec.displacement - 4; wrRec.pcount := 4; wrRec.refnum := symRefnum; wrRec.dataBuffer := @l; wrRec.requestCount := 4; WriteGS(wrRec); if ToolError <> 0 then begin CloseSymbols; DestroySymbolFile; saveSource := false; end; {if} smRec.displacement := gmRec.displacement; SetMarkGS(smRec); end; {if} end; {if} if ToolError <> 0 then begin {for errors, delete the symbol file} CloseSymbols; DestroySymbolFile; saveSource := false; end; {if} end; {MarkBlock} function GetMark: longint; { Find the current file mark } { } { Returns: file mark } var gmRec: getMarkOSDCB; {GetMarkGS record} begin {GetMark} gmRec.pCount := 2; gmRec.refnum := symRefnum; GetMarkGS(gmRec); GetMark := gmRec.displacement + (bufSize - bufLen); if ToolError <> 0 then begin CloseSymbols; DestroySymbolFile; saveSource := false; end; {else} end; {GetMark} procedure SetMark; { Mark the start of a block } begin {SetMark} symMark := GetMark; WriteLong(0); end; {SetMark} {---------------------------------------------------------------} procedure EndInclude {chPtr: ptr}; { Saves symbols created by the include file } { } { Parameters: } { chPtr - chPtr when the file returned } { } { Notes: } { 1. Call this subroutine right after processing an } { include file. } { 2. Declared externally in Scanner.pas } procedure SaveMacroTable; { Save macros to the symbol file } procedure SaveMacros; { Write the macros to the symbol file } var i: 0..hashSize; {loop/index variable} mp: macroRecordPtr; {used to trace macro lists} tp: tokenListRecordPtr; {used to trace token lists} procedure WriteToken (var token: tokenType); { Write a token in the header file } { } { parameters: } { token - token to write } begin {WriteToken} WriteByte(ord(token.kind)); WriteByte(ord(token.class)); if token.numstring = nil then WriteByte(0) else begin WriteByte(1); WriteString(token.numstring); end; {else} case token.class of identifier: WriteString(token.name); intConstant: WriteWord(token.ival); longConstant: WriteLong(token.lval); doubleConstant: WriteDouble(token.rval); stringConstant: begin WriteLongString(token.sval); WriteByte(ord(token.ispstring)); end; macroParameter: WriteWord(token.pnum); reservedSymbol: if token.kind in [lbracech,rbracech,lbrackch, rbrackch,poundch,poundpoundop] then WriteByte(ord(token.isDigraph)); otherwise: ; end; {case} end; {WriteToken} begin {SaveMacros} for i := 0 to hashSize do begin {loop over hash buckets} mp := macros^[i]; {loop over macro records in hash bucket} while mp <> nil do begin if not mp^.saved then begin mp^.saved := true; {mark this one as saved} WriteString(mp^.name); {write the macroRecord} WriteByte(mp^.parameters); WriteByte(ord(mp^.isVarargs)); WriteByte(ord(mp^.readOnly)); WriteByte(mp^.algorithm); tp := mp^.tokens; {loop over token list} while tp <> nil do begin WriteByte(1); {write tokenListRecord} WriteLongString(tp^.tokenString); WriteToken(tp^.token); WriteByte(ord(tp^.expandEnabled)); WriteChars(tp^.tokenStart, tp^.tokenEnd); tp := tp^.next; end; {while} WriteByte(0); {mark end of token list} end; {if} mp := mp^.next; end; {while} end; {for} end; {SaveMacros} begin {SaveMacroTable} SetMark; {set the macro table length mark} if saveSource then {write the macro table} SaveMacros; if saveSource then {mark the length of the table} MarkBlock; end; {SaveMacroTable} procedure SavePragmaEffects; { Save the variables effected by any pragmas encountered } var count: 0..maxint; {number of path names} i: 1..10; {loop/index variable} p: pragmas; {loop variable} pp: pathRecordPtr; {used to trace pathname list} begin {SavePragmaEffects} SetMark; if saveSource then for p := succ(p_startofenum) to pred(p_endofenum) do if p in savePragmas then if saveSource then begin WriteByte(ord(p)); case p of p_cda: begin WriteString(@menuLine); WriteString(openName); WriteString(closeName); end; p_cdev: WriteString(openName); p_float: begin WriteWord(floatCard); WriteWord(floatSlot); end; p_keep: WriteLongString(@outFileGS.theString); p_line: begin WriteWord(lineNumber); WriteLongString(@sourceFileGS.theString); end; p_nda: begin WriteString(openName); WriteString(closeName); WriteString(actionName); WriteString(initName); WriteWord(refreshPeriod); WriteWord(eventMask); WriteString(@menuLine); end; p_nba: WriteString(openName); p_xcmd: WriteString(openName); p_debug: WriteWord(ord(rangeCheck) | (ord(debugFlag) << 1) | (ord(profileFlag) << 2) | (ord(traceBack) << 3) | (ord(checkStack) << 4) | (ord(debugStrFlag) << 15)); p_lint: begin WriteWord(lint); WriteByte(ord(lintIsError)); end; p_memorymodel: WriteByte(ord(smallMemoryModel)); p_expand: WriteByte(ord(printMacroExpansions)); p_optimize: WriteByte(ord(peepHole) | (ord(npeepHole) << 1) | (ord(registers) << 2) | (ord(saveStack) << 3) | (ord(commonSubexpression) << 4) | (ord(loopOptimizations) << 5) | (ord(strictVararg) << 6)); p_stacksize: WriteWord(stackSize); p_toolparms: WriteByte(ord(toolParms)); p_databank: WriteByte(ord(dataBank)); p_rtl: ; p_noroot: ; p_path: begin pp := pathList; count := 0; while pp <> nil do begin count := count+1; pp := pp^.next; end; {while} WriteWord(count); pp := pathList; while pp <> nil do begin WriteString(pp^.path); pp := pp^.next; end; {while} end; {p_path} p_ignore: WriteByte(ord(skipIllegalTokens) | (ord(allowLongIntChar) << 1) | (ord(allowTokensAfterEndif) << 2) | (ord(allowSlashSlashComments) << 3) | (ord(allowMixedDeclarations) << 4) | (ord(looseCharTypeChecks) << 5)); p_segment: begin for i := 1 to 10 do begin WriteByte(defaultSegment[i]); WriteByte(currentSegment[i]); end; {for} WriteWord(segmentKind); end; p_unix: WriteByte(ord(unix_1)); end; {case} end; {if} if saveSource then MarkBlock; savePragmas := []; end; {SavePragmaEffects} procedure SaveSourceStream; { Save the source stream for later compares } var wrRec: readWriteOSDCB; {WriteGS record} begin {SaveSourceStream} WriteLong(ord4(chPtr) - ord4(symChPtr)); Purge; wrRec.pcount := 4; wrRec.refnum := symRefnum; wrRec.dataBuffer := pointer(symChPtr); wrRec.requestCount := ord4(chPtr) - ord4(symChPtr); WriteGS(wrRec); symChPtr := chPtr; if ToolError <> 0 then begin CloseSymbols; DestroySymbolFile; saveSource := false; end; {if} end; {SaveSourceStream} procedure SaveSymbolTable; { Save symbols to the symbol file } procedure SaveSymbol; { Write the symbols to the symbol file } var abort: boolean; {abort due to initialized var?} efRec: setMarkOSDCB; {SetEOFGS record} i: 0..hashSize; {loop/index variable} sp: identPtr; {used to trace symbol lists} procedure WriteIdent (ip: identPtr); { write a symbol to the symbol file } { } { parameters: } { ip - pointer to symbol entry } procedure WriteType (tp: typePtr); { write a type entry to the symbol file } { } { parameters: } { tp - pointer to type entry } var ip: identPtr; {for tracing field list} procedure WriteParm (pp: parameterPtr); { write a parameter list to the symbol file } { } { parameters: } { pp - parameter pointer } begin {WriteParm} while pp <> nil do begin WriteByte(1); WriteType(pp^.parameterType); pp := pp^.next; end; {while} WriteByte(0); end; {WriteParm} begin {WriteType} if tp = sCharPtr then WriteByte(2) else if tp = charPtr then WriteByte(3) else if tp = intPtr then WriteByte(4) else if tp = uIntPtr then WriteByte(5) else if tp = longPtr then WriteByte(6) else if tp = uLongPtr then WriteByte(7) else if tp = floatPtr then WriteByte(8) else if tp = doublePtr then WriteByte(9) else if tp = extendedPtr then WriteByte(10) else if tp = stringTypePtr then WriteByte(11) else if tp = voidPtr then WriteByte(12) else if tp = voidPtrPtr then WriteByte(13) else if tp = defaultStruct then WriteByte(14) else if tp = uCharPtr then WriteByte(15) else if tp = shortPtr then WriteByte(16) else if tp = uShortPtr then WriteByte(17) else if tp^.saveDisp <> 0 then begin WriteByte(1); WriteLong(tp^.saveDisp); end {if} else begin WriteByte(0); tp^.saveDisp := GetMark; WriteLong(tp^.size); WriteByte(ord(tp^.isConstant)); WriteByte(ord(tp^.kind)); case tp^.kind of scalarType: begin WriteByte(ord(tp^.baseType)); WriteByte(ord(tp^.cType)); end; arrayType: begin WriteLong(tp^.elements); WriteType(tp^.aType); end; pointerType: WriteType(tp^.pType); functionType: begin WriteByte((ord(tp^.varargs) << 2) | (ord(tp^.prototyped) << 1) | ord(tp^.isPascal)); WriteWord(tp^.toolnum); WriteLong(tp^.dispatcher); WriteType(tp^.fType); WriteParm(tp^.parameterList); end; enumConst: WriteWord(tp^.eval); definedType: WriteType(tp^.dType); structType, unionType: begin ip := tp^.fieldList; while ip <> nil do begin WriteByte(1); WriteIdent(ip); ip := ip^.next; end; {while} WriteByte(0); end; otherwise: ; end; {case} end; {else} end; {WriteType} begin {WriteIdent} WriteString(ip^.name); WriteType(ip^.itype); if (ip^.disp = 0) and (ip^.bitDisp = 0) and (ip^.bitSize = 0) then WriteByte(0) else if (ip^.bitSize = 0) and (ip^.bitDisp = 0) then begin if ip^.disp < maxint then begin WriteByte(1); WriteWord(ord(ip^.disp)); end {if} else begin WriteByte(2); WriteLong(ip^.disp); end; {else} end {else if} else begin WriteByte(3); WriteLong(ip^.disp); WriteByte(ip^.bitDisp); WriteByte(ip^.bitSize); end; {else} if ip^.iPtr <> nil then abort := true; WriteByte(ord(ip^.state)); WriteByte(ord(ip^.isForwardDeclared)); WriteByte(ord(ip^.class)); WriteByte(ord(ip^.storage)); end; {WriteIdent} begin {SaveSymbol} abort := false; {no reason to abort, yet} for i := 0 to hashSize2 do begin {loop over hash buckets} sp := globalTable^.buckets[i]; {loop over symbol records in hash bucket} while sp <> nil do begin if not sp^.saved then begin sp^.saved := true; {mark this one as saved} WriteWord(i); {save the symbol} WriteIdent(sp); end; {if} sp := sp^.next; end; {while} end; {for} if abort then begin Purge; efRec.pcount := 3; efRec.refnum := symRefnum; efRec.base := 0; efRec.displacement := tokenMark; SetEOFGS(efRec); if ToolError <> 0 then begin CloseSymbols; DestroySymbolFile; end; {if} saveSource := false; end; {if} end; {SaveSymbol} begin {SaveSymbolTable} SetMark; {set the symbol table length mark} if saveSource then {write the symbol table} if globalTable <> nil then SaveSymbol; if saveSource then {mark the length of the table} MarkBlock; end; {SaveSymbolTable} begin {EndInclude} if not ignoreSymbols then begin includeLevel := includeLevel-1; if includeLevel = 0 then if saveSource then begin MarkBlock; {set the include name mark} SaveSourceStream; {save the source stream} SaveMacroTable; {save the macro table} SaveSymbolTable; {save the symbol table} SavePragmaEffects; {save the effects of pragmas} tokenMark := GetMark; {record mark for early exit} includeMark := false; {no include mark, yet} end; {if} end; {if} end; {EndInclude} procedure FlagPragmas {pragma: pragmas}; { record the effects of a pragma } { } { parameters: } { pragma - pragma to record } { } { Notes: } { 1. Defined as extern in Scanner.pas } { 2. For the purposes of this unit, the segment statement } { and #line directive are treated as pragmas. } begin {FlagPragmas} savePragmas := savePragmas + [pragma]; end; {FlagPragmas} procedure InitHeader {var fName: gsosOutString}; { look for a header file, reading it if it exists } { } { parameters: } { fName - source file name (var for efficiency) } type typeDispPtr = ^typeDispRecord; {type displacement/pointer table} typeDispRecord = record next: typeDispPtr; saveDisp: longint; tPtr: typePtr; end; var done: boolean; {for loop termination test} typeDispList: typeDispPtr; {type displacement/pointer table} procedure DisposeTypeDispList; { Dispose of the type displacement list } var tp: typeDispPtr; {work pointer} begin {DisposeTypeDispList} while typeDispList <> nil do begin tp := typeDispList; typeDispList := tp^.next; dispose(tp); end; {while} end; {DisposeTypeDispList} function EndOfSymbols: boolean; { See if we're at the end of the symbol file } { } { Returns: True if at the end, else false } begin {EndOfSymbols} EndOfSymbols := ord4(symPtr) >= ord4(symEndPtr); end; {EndOfSymbols} function OpenSymbols: boolean; { open and initialize the symbol file } { } { Returns: True if successful, else false } var crRec: createOSDCB; {CreateGS record} opRec: openOSDCB; {OpenGS record} begin {OpenSymbols} OpenSymbols := false; {assume we will fail} DestroySymbolFile; {destroy any existing file} crRec.pCount := 5; {create a symbol file} crRec.pathName := @symName.theString; crRec.access := $C3; crRec.fileType := symFiletype; crRec.auxType := symAuxtype; crRec.storageType := 1; CreateGS(crRec); if ToolError = 0 then begin opRec.pCount := 3; opRec.pathname := @symName.theString; opRec.requestAccess := 3; OpenGS(opRec); if ToolError = 0 then begin symRefnum := opRec.refnum; OpenSymbols := true; WriteWord(symFileVersion); tokenMark := GetMark; includeMark := false; end; {if} end; {if} end; {OpenSymbols} procedure PurgeSymbols; { Purge the symbol input file } var ffDCBGS: fastFileDCBGS; {fast file DCB} begin {PurgeSymbols} with ffDCBGS do begin {purge the file} pCount := 5; action := 7; pathName := @symName.theString; end; {with} FastFileGS(ffDCBGS); end; {PurgeSymbols} function DatesMatch: boolean; { Make sure the create/mod dates have not changed } var giRec: getFileInfoOSDCB; {GetFileInfoGS record} i: 1..maxint; {loop/index variable} len: longint; {length of names} match: boolean; {do the dates match?} begin {DatesMatch} match := true; len := ReadLong; while len > 0 do begin giRec.pCount := 7; giRec.pathname := pointer(ReadLongString); len := len - (giRec.pathname^.size + 18); GetFileInfoGS(giRec); if ToolError = 0 then begin for i := 1 to 8 do match := match and (giRec.createDateTime[i] = ReadByte); for i := 1 to 8 do match := match and (giRec.modDateTime[i] = ReadByte); end {if} else begin match := false; len := 0; end; {else} if match and progress then begin write('Including '); for i := 1 to giRec.pathname^.size do write(giRec.pathname^.theString[i]); writeln; end; {if} end; {while} DatesMatch := match; end; {DatesMatch} procedure ReadMacroTable; { Read macros from the symbol file } var bp: ^macroRecordPtr; {pointer to head of hash bucket} ep: tokenListRecordPtr; {last token record} mePtr: ptr; {end of macro table} mp: macroRecordPtr; {new macro record} tlen: integer; {length of the token name} tp: tokenListRecordPtr; {new token record} procedure ReadToken (var token: tokenType); { read a token } { } { parameters: } { token - (output) token read) } begin {ReadToken} token.kind := tokenEnum(ReadByte); token.class := tokenClass(ReadByte); if ReadByte = 0 then token.numString := nil else token.numstring := ReadString; case token.class of identifier: token.name := ReadString; intConstant: token.ival := ReadWord; longConstant: token.lval := ReadLong; doubleConstant: token.rval := ReadDouble; stringConstant: begin token.sval := ReadLongString; token.ispstring := ReadByte <> 0; end; macroParameter: token.pnum := ReadWord; reservedSymbol: if token.kind in [lbracech,rbracech,lbrackch, rbrackch,poundch,poundpoundop] then token.isDigraph := boolean(ReadByte); otherwise: ; end; {case} end; {ReadToken} begin {ReadMacroTable} mePtr := symPtr; {read the block length} mePtr := pointer(ord4(mePtr) + ReadLong + 4); while ord4(symPtr) < ord4(mePtr) do {process the macros} begin Spin; mp := pointer(GMalloc(sizeof(macroRecord))); mp^.saved := false; mp^.name := ReadString; bp := pointer(ord4(macros) + Hash(mp^.name)); mp^.next := bp^; bp^ := mp; mp^.parameters := ReadByte; if mp^.parameters & $0080 <> 0 then mp^.parameters := mp^.parameters | $FF00; mp^.isVarargs := boolean(ReadByte); mp^.readOnly := boolean(ReadByte); mp^.algorithm := ReadByte; mp^.tokens := nil; ep := nil; while ReadByte <> 0 do begin tp := pointer(GMalloc(sizeof(tokenListRecord))); tp^.next := nil; tp^.tokenString := ReadLongString; ReadToken(tp^.token); tp^.expandEnabled := boolean(ReadByte); ReadChars(tp^.tokenStart, tp^.tokenEnd); if ep = nil then mp^.tokens := tp else ep^.next := tp; ep := tp; end; {while} end; {while} symPtr := mePtr; end; {ReadMacroTable} procedure ReadPragmas; { Read pragma effects } var i: 0..maxint; {loop/index variable} lsPtr: longStringPtr; {work pointer} p: pragmas; {kind of pragma being processed} pePtr: ptr; {end of pragma table} pp, ppe: pathRecordPtr; {used to create a path name list} sPtr: stringPtr; {work pointer} val: integer; {temp value} begin {ReadPragmas} pePtr := symPtr; {read the block length} pePtr := pointer(ord4(pePtr) + ReadLong + 4); while ord4(symPtr) < ord4(pePtr) do {process the pragmas} begin Spin; p := pragmas(ReadByte); case p of p_cda: begin isClassicDeskAcc := true; sPtr := ReadString; menuLine := sPtr^; openName := ReadString; closeName := ReadString; end; p_cdev: begin isCDev := true; openName := ReadString; end; p_float: begin floatCard := ReadWord; floatSlot := ReadWord; end; p_keep: begin liDCBGS.kFlag := 1; lsPtr := ReadLongString; outFileGS.theString.size := lsPtr^.length; for i := 1 to outFileGS.theString.size do outFileGS.theString.theString[i] := lsPtr^.str[i]; end; p_line: begin lineNumber := ReadWord; lsPtr := ReadLongString; sourceFileGS.theString.size := lsPtr^.length; for i := 1 to sourceFileGS.theString.size do sourceFileGS.theString.theString[i] := lsPtr^.str[i]; end; p_nda: begin isNewDeskAcc := true; openName := ReadString; closeName := ReadString; actionName := ReadString; initName := ReadString; refreshPeriod := ReadWord; eventMask := ReadWord; sPtr := ReadString; menuLine := sPtr^; end; p_nba: begin isNBA := true; openName := ReadString; end; p_xcmd: begin isXCMD := true; openName := ReadString; end; p_debug: begin val := ReadWord; rangeCheck := odd(val); debugFlag := odd(val >> 1); profileFlag := odd(val >> 2); traceback := odd(val >> 3); checkStack := odd(val >> 4); debugStrFlag := odd(val >> 15); end; p_lint: begin lint := ReadWord; lintIsError := boolean(ReadByte); end; p_memorymodel: smallMemoryModel := boolean(ReadByte); p_expand: printMacroExpansions := boolean(ReadByte); p_optimize: begin val := ReadByte; peepHole := odd(val); npeepHole := odd(val >> 1); registers := odd(val >> 2); saveStack := odd(val >> 3); commonSubexpression := odd(val >> 4); loopOptimizations := odd(val >> 5); strictVararg := odd(val >> 6); end; p_stacksize: stackSize := ReadWord; p_toolparms: toolParms := boolean(ReadByte); p_databank: dataBank := boolean(ReadByte); p_rtl: rtl := true; p_noroot: noroot := true; p_path: begin i := ReadWord; pathList := nil; ppe := nil; while i <> 0 do begin pp := pathRecordPtr(GMalloc(sizeof(pathRecord))); pp^.path := ReadString; pp^.next := nil; if pathList = nil then pathList := pp else ppe^.next := pp; ppe := pp; i := i-1; end; {while} end; {p_path} p_ignore: begin i := ReadByte; skipIllegalTokens := odd(i); allowLongIntChar := odd(i >> 1); allowTokensAfterEndif := odd(i >> 2); allowSlashSlashComments := odd(i >> 3); allowMixedDeclarations := odd(i >> 4); c99Scope := allowMixedDeclarations; looseCharTypeChecks := odd(i >> 5); end; p_segment: begin for i := 1 to 10 do begin defaultSegment[i] := chr(ReadByte); currentSegment[i] := chr(ReadByte); end; {for} segmentKind := ReadWord; end; p_unix: unix_1 := boolean(ReadByte); end; {case} end; {while} symPtr := pePtr; end; {ReadPragmas} procedure ReadSymbolTable; { Read symbols from the symbol file } var hashPtr: ^identPtr; {pointer to hash bucket in symbol table} sePtr: ptr; {end of symbol table} sp: identPtr; {identifier being constructed} function ReadIdent: identPtr; { Read an identifier from the file } { } { Returns: Pointer to the new identifier } var format: 0..3; {storage format} sp: identPtr; {identifier being constructed} procedure ReadType (var tp: typePtr); { read a type from the symbol file } { } { parameters: } { tp - (output) type entry } var disp: longint; {disp read from symbol file} ep: identPtr; {end of list of field names} ip: identPtr; {for tracing field list} tdisp: typeDispPtr; {used to trace, add to typeDispList} val: integer; {temp word} procedure ReadParm (var pp: parameterPtr); { read a parameter list from the symbol file } { } { parameters: } { pp - (output) parameter pointer } var ep: parameterPtr; {last parameter in list} np: parameterPtr; {new parameter} begin {ReadParm} pp := nil; ep := nil; while ReadByte = 1 do begin np := parameterPtr(GMalloc(sizeof(parameterRecord))); np^.next := nil; np^.parameter := nil; ReadType(np^.parameterType); if ep = nil then pp := np else ep^.next := np; ep := np; end; {while} end; {ReadParm} begin {ReadType} case ReadByte of 0: begin {read a new type} tp := typePtr(GMalloc(sizeof(typeRecord))); new(tdisp); tdisp^.next := typeDispList; typeDispList := tdisp; tdisp^.saveDisp := ord4(symPtr) - ord4(symStartPtr); tdisp^.tPtr := tp; tp^.size := ReadLong; tp^.saveDisp := 0; tp^.isConstant := boolean(ReadByte); tp^.kind := typeKind(ReadByte); case tp^.kind of scalarType: begin tp^.baseType := baseTypeEnum(ReadByte); tp^.cType := cTypeEnum(ReadByte); end; arrayType: begin tp^.elements := ReadLong; ReadType(tp^.aType); end; pointerType: ReadType(tp^.pType); functionType: begin val := ReadByte; tp^.varargs := odd(val >> 2); tp^.prototyped := odd(val >> 1); tp^.isPascal := odd(val); tp^.toolnum := ReadWord; tp^.dispatcher := ReadLong; ReadType(tp^.fType); ReadParm(tp^.parameterList); end; enumConst: tp^.eval := ReadWord; definedType: ReadType(tp^.dType); structType, unionType: begin tp^.fieldList := nil; ep := nil; while ReadByte = 1 do begin ip := ReadIdent; if ep = nil then tp^.fieldList := ip else ep^.next := ip; ep := ip; end; {while} end; otherwise: ; end; {case} end; {case 0} 1: begin {read a type displacement} tdisp := typeDispList; disp := ReadLong; tp := nil; while tdisp <> nil do if tdisp^.saveDisp = disp then begin tp := tdisp^.tPtr; tdisp := nil; end {if} else tdisp := tdisp^.next; if tp = nil then begin PurgeSymbols; DestroySymbolFile; TermError(12); end; {if} end; {case 1} 2: tp := sCharPtr; 3: tp := charPtr; 4: tp := intPtr; 5: tp := uIntPtr; 6: tp := longPtr; 7: tp := uLongPtr; 8: tp := floatPtr; 9: tp := doublePtr; 10: tp := extendedPtr; 11: tp := stringTypePtr; 12: tp := voidPtr; 13: tp := voidPtrPtr; 14: tp := defaultStruct; 15: tp := uCharPtr; 16: tp := shortPtr; 17: tp := uShortPtr; end; {case} end; {ReadType} begin {ReadIdent} sp := pointer(GMalloc(sizeof(identRecord))); sp^.next := nil; sp^.saved := false; sp^.name := ReadString; ReadType(sp^.itype); format := ReadByte; if format = 0 then begin sp^.disp := 0; sp^.bitDisp := 0; sp^.bitSize := 0; end {if} else if format = 1 then begin sp^.disp := ReadWord; sp^.bitDisp := 0; sp^.bitSize := 0; end {else if} else if format = 2 then begin sp^.disp := ReadLong; sp^.bitDisp := 0; sp^.bitSize := 0; end {else if} else begin sp^.disp := ReadLong; sp^.bitDisp := ReadByte; sp^.bitSize := ReadByte; end; {else} sp^.iPtr := nil; sp^.state := stateKind(ReadByte); sp^.isForwardDeclared := boolean(ReadByte); sp^.class := tokenEnum(ReadByte); sp^.storage := storageType(ReadByte); ReadIdent := sp; end; {ReadIdent} begin {ReadSymbolTable} sePtr := symPtr; {read the block length} sePtr := pointer(ord4(sePtr) + ReadLong + 4); while ord4(symPtr) < ord4(sePtr) do {process the symbols} begin Spin; hashPtr := pointer(ord4(globalTable) + ReadWord*4); sp := ReadIdent; sp^.next := hashPtr^; hashPtr^ := sp; end; {while} symPtr := sePtr; end; {ReadSymbolTable} function OpenSymbolFile (var fName: gsosOutString): boolean; { Look for and open a symbol file } { } { parameters: } { fName - source file name (var for efficiency) } { } { Returns: True if the file was found and opened, else false } { } { Notes: As a side effect, this subroutine creates the } { pathname for the symbol file (symName). } var ffDCBGS: fastFileDCBGS; {fast file DCB} i: integer; {loop/index variable} begin {OpenSymbolFile} symName := fName; {create the symbol file name} i := symName.theString.size - 1; while not (symName.theString.theString[i] in [':', '/', '.']) do i := i-1; if symName.theString.theString[i] <> '.' then i := symName.theString.size; if i > maxPath-5 then i := maxPath-5; symName.theString.theString[i] := '.'; symName.theString.theString[i+1] := 's'; symName.theString.theString[i+2] := 'y'; symName.theString.theString[i+3] := 'm'; symName.theString.theString[i+4] := chr(0); symName.theString.size := i+3; if rebuildSymbols then begin {rebuild any existing symbol file} DestroySymbolFile; OpenSymbolFile := false; end {if} else begin with ffDCBGS do begin {read the symbol file} pCount := 14; action := 0; flags := $C000; pathName := @symName.theString; end; {with} FastFileGS(ffDCBGS); if ToolError = 0 then begin if (ffDCBGS.filetype = symFiletype) and (ffDCBGS.auxtype = symAuxtype) then OpenSymbolFile := true else begin OpenSymbolFile := false; PurgeSymbols; end; {else} symPtr := ffDCBGS.fileHandle^; symStartPtr := symPtr; symEndPtr := pointer(ord4(symPtr) + ffDCBGS.fileLength); end {if} else OpenSymbolFile := false; end; {else} end; {OpenSymbolFile} function SymbolVersion: integer; { Read the symbol file version number } { } { Returns: version number } begin {SymbolVersion} SymbolVersion := ReadWord; end; {SymbolVersion} function SourceMatches: boolean; { Make sure the token streams match up to the next include } type intPtr = ^integer; {for faster compares} var len, len2: longint; {size of stream to compare} match: boolean; {result flag} p1, p2: ptr; {work pointers} begin {SourceMatches} match := true; len := ReadLong; len2 := len; p1 := symPtr; p2 := chPtr; while len > 1 do if intPtr(p1)^ <> intPtr(p2)^ then begin match := false; len := 0; end {if} else begin len := len-2; p1 := pointer(ord4(p1)+2); p2 := pointer(ord4(p2)+2); end; {else} if len = 1 then if p1^ <> p2^ then match := false; if match then begin symPtr := pointer(ord4(symPtr)+len2); symChPtr := pointer(ord4(chPtr)+len2); while chPtr <> symChPtr do NextCh; end; {if} SourceMatches := match; end; {SourceMatches} begin {InitHeader} inhibitHeader := false; {don't block .sym files} if not ignoreSymbols then begin codeStarted := false; {code generation has not started} new(buffer); {allocate an output buffer} bufPtr := pointer(buffer); bufLen := bufSize; includeLevel := 0; {no nested includes} symChPtr := chPtr; {record initial source location} if OpenSymbolFile(fName) then begin {check for symbol file} if SymbolVersion = symFileVersion then begin done := EndOfSymbols; {valid file found - process it} if done then PurgeSymbols; typeDispList := nil; while not done do begin if DatesMatch then begin if SourceMatches then begin ReadMacroTable; ReadSymbolTable; ReadPragmas; if EndOfSymbols then begin done := true; PurgeSymbols; end; {if} end {if} else begin PurgeSymbols; DestroySymbolFile; done := true; end; {else} end {if} else begin PurgeSymbols; DestroySymbolFile; done := true; end; {else} end; {while} DisposeTypeDispList; saveSource := false; if ord4(symPtr) > ord4(symEndPtr) then begin PurgeSymbols; DestroySymbolFile; TermError(12); end; {if} end {if} else begin PurgeSymbols; {no file found} saveSource := true; end; {else} end {if} else saveSource := true; if saveSource then begin {start saving source} saveSource := OpenSymbols; savePragmas := []; DoDefaultsDotH; end; {if} end {if} else DoDefaultsDotH; end; {InitHeader} procedure StartInclude {name: gsosOutStringPtr}; { Marks the start of an include file } { } { Notes: } { 1. Call this subroutine right after opening an include } { file. } { 2. Defined externally in Scanner.pas } var giRec: getFileInfoOSDCB; {GetFileInfoGS record} i: 1..8; {loop/index counter} begin {StartInclude} if inhibitHeader then TermHeader; if not ignoreSymbols then begin includeLevel := includeLevel+1; if saveSource then begin if not includeMark then begin includeMark := true; SetMark; end; {if} giRec.pCount := 7; giRec.pathname := pointer(ord4(name)+2); GetFileInfoGS(giRec); WriteLongString(pointer(giRec.pathname)); for i := 1 to 8 do WriteByte(giRec.createDateTime[i]); for i := 1 to 8 do WriteByte(giRec.modDateTime[i]); end {if} else if not codeStarted then DestroySymbolFile; end; {if} end; {StartInclude} procedure TermHeader; { Stop processing the header file } { } { Note: This is called when the first code-generating } { subroutine is found, and again when the compile ends. It } { closes any open symbol file, and should take no action if } { called twice. } begin {TermHeader} if not ignoreSymbols then begin codeStarted := true; if saveSource then begin CloseSymbols; saveSource := false; dispose(buffer); end; {if} end; {if} end; {TermHeader} end.