{ $Id$ Copyright (c) 1998-2000 by Carl Eric Codere and Peter Vreman This unit implements some support routines for assembler parsing independent of the processor This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. **********************************************************************} Unit RAUtils; Interface Uses strings, cobjects, globtype,systems,verbose,globals,files, symconst,symtable,aasm,cpubase,cpuasm {$ifdef NEWCG} ,cgbase {$else} ,hcodegen {$endif} ; Const RPNMax = 10; { I think you only need 4, but just to be safe } OpMax = 25; maxoperands = 3; { Maximum operands for assembler instructions } {--------------------------------------------------------------------- Local Label Management ---------------------------------------------------------------------} Type { Each local label has this structure associated with it } PLocalLabel = ^TLocalLabel; TLocalLabel = object(TNamedIndexObject) Emitted : boolean; constructor Init(const n:string); function Getpasmlabel:pasmlabel; private lab : pasmlabel; end; PLocalLabelList = ^TLocalLabelList; TLocalLabelList = Object(TDictionary) procedure CheckEmitted; end; var LocalLabelList : PLocalLabelList; function CreateLocalLabel(const s: string; var hl: pasmlabel; emit:boolean):boolean; Function SearchLabel(const s: string; var hl: pasmlabel;emit:boolean): boolean; {--------------------------------------------------------------------- Instruction management ---------------------------------------------------------------------} type TOprType=(OPR_NONE,OPR_CONSTANT,OPR_SYMBOL,OPR_REFERENCE,OPR_REGISTER); TOprRec = record case typ:TOprType of OPR_NONE : (); OPR_CONSTANT : (val:longint); OPR_SYMBOL : (symbol:PAsmSymbol;symofs:longint); OPR_REFERENCE : (ref:treference); OPR_REGISTER : (reg:tregister); end; POperand = ^TOperand; TOperand = object size : topsize; hasvar : boolean; { if the operand is loaded with a variable } opr : TOprRec; constructor init; destructor done;virtual; Procedure BuildOperand;virtual; Procedure SetSize(_size:longint); Function SetupResult:boolean; Function SetupSelf:boolean; Function SetupOldEBP:boolean; Function SetupVar(const hs:string): Boolean; Function SetupDirectVar(const hs:string): Boolean; Procedure InitRef; end; PInstruction = ^TInstruction; TInstruction = object opcode : tasmop; opsize : topsize; condition : tasmcond; ops : byte; operands : array[1..maxoperands] of POperand; constructor init; destructor done;virtual; Procedure InitOperands;virtual; Procedure BuildOpcode;virtual; procedure ConcatInstruction(p:PAasmoutput);virtual; Procedure SwapOperands; end; {---------------------------------------------------------------------} { Expression parser types } {---------------------------------------------------------------------} TExprOperator = record ch: char; { operator } is_prefix: boolean; { was it a prefix, possible prefixes are +,- and not } end; String15 = String[15]; {**********************************************************************} { The following operators are supported: } { '+' : addition } { '-' : subtraction } { '*' : multiplication } { '/' : modulo division } { '^' : exclusive or } { '<' : shift left } { '>' : shift right } { '&' : bitwise and } { '|' : bitwise or } { '~' : bitwise complement } { '%' : modulo division } { nnn: longint numbers } { ( and ) parenthesis } {**********************************************************************} TExprParse = Object public Constructor Init; Destructor Done; Function Evaluate(Expr: String): longint; Function Priority(_Operator: Char): Integer; virtual; private RPNStack : Array[1..RPNMax] of longint; { Stack For RPN calculator } RPNTop : Integer; OpStack : Array[1..OpMax] of TExprOperator; { Operator stack For conversion } OpTop : Integer; Procedure RPNPush(Num: Longint); Function RPNPop: Longint; Procedure RPNCalc(token: String15; prefix: boolean); Procedure OpPush(_Operator: char; prefix: boolean); { In reality returns TExprOperaotr } Procedure OpPop(var _Operator:TExprOperator); end; { Evaluate an expression string to a longint } Function CalculateExpression(const expression: string): longint; {---------------------------------------------------------------------} { String routines } {---------------------------------------------------------------------} Function ValDecimal(const S:String):longint; Function ValOctal(const S:String):longint; Function ValBinary(const S:String):longint; Function ValHexaDecimal(const S:String):longint; Function PadZero(Var s: String; n: byte): Boolean; Function EscapeToPascal(const s:string): string; {--------------------------------------------------------------------- Symbol helper routines ---------------------------------------------------------------------} Function GetRecordOffsetSize(s:string;Var Offset: longint;var Size:longint):boolean; Function SearchRecordType(const s:string): boolean; Function SearchIConstant(const s:string; var l:longint): boolean; {--------------------------------------------------------------------- Instruction generation routines ---------------------------------------------------------------------} Procedure ConcatPasString(p : paasmoutput;s:string); Procedure ConcatDirect(p : paasmoutput;s:string); Procedure ConcatLabel(p: paasmoutput;var l : pasmlabel); Procedure ConcatConstant(p : paasmoutput;value: longint; maxvalue: longint); Procedure ConcatConstSymbol(p : paasmoutput;const sym:string;l:longint); Procedure ConcatRealConstant(p : paasmoutput;value: bestreal; real_typ : tfloattype); Procedure ConcatString(p : paasmoutput;s:string); procedure ConcatAlign(p:paasmoutput;l:longint); Procedure ConcatPublic(p:paasmoutput;const s : string); Procedure ConcatLocal(p:paasmoutput;const s : string); Procedure ConcatGlobalBss(const s : string;size : longint); Procedure ConcatLocalBss(const s : string;size : longint); Implementation {************************************************************************* TExprParse *************************************************************************} Constructor TExprParse.Init; Begin end; Procedure TExprParse.RPNPush(Num : longint); { Add an operand to the top of the RPN stack } begin if RPNTop < RPNMax then begin Inc(RPNTop); RPNStack[RPNTop]:=Num; end else Message(asmr_e_ev_stack_overflow); end; Function TExprParse.RPNPop : longint; { Get the operand at the top of the RPN stack } begin if RPNTop > 0 then begin RPNPop:=RPNStack[RPNTop]; Dec(RPNTop); end else Message(asmr_e_ev_stack_underflow); end; Procedure TExprParse.RPNCalc(Token : String15; prefix:boolean); { RPN Calculator } Var Temp : longint; LocalError : Integer; begin { Handle operators } if (Length(Token) = 1) and (Token[1] in ['+', '-', '*', '/','&','|','%','^','~','<','>']) then Case Token[1] of '+' : Begin if not prefix then RPNPush(RPNPop + RPNPop); end; '-' : Begin if prefix then RPNPush(-(RPNPop)) else RPNPush(RPNPop - RPNPop); end; '*' : RPNPush(RPNPop * RPNPop); '&' : RPNPush(RPNPop AND RPNPop); '|' : RPNPush(RPNPop OR RPNPop); '~' : RPNPush(NOT RPNPop); '<' : RPNPush(RPNPop SHL RPNPop); '>' : RPNPush(RPNPop SHR RPNPop); '%' : begin Temp:=RPNPop; if Temp <> 0 then RPNPush(RPNPop mod Temp) else Message(asmr_e_ev_zero_divide); end; '^' : RPNPush(RPNPop XOR RPNPop); '/' : begin Temp:=RPNPop; if Temp <> 0 then RPNPush(RPNPop div Temp) else Message(asmr_e_ev_zero_divide); end; end else begin { Convert String to number and add to stack } if token='-2147483648' then begin temp:=$80000000; localerror:=0; end else Val(Token, Temp, LocalError); if LocalError = 0 then RPNPush(Temp) else Message(asmr_e_ev_invalid_number); end; end; Procedure TExprParse.OpPush(_Operator : char;prefix: boolean); { Add an operator onto top of the stack } begin if OpTop < OpMax then begin Inc(OpTop); OpStack[OpTop].ch:=_Operator; OpStack[OpTop].is_prefix:=prefix; end else Message(asmr_e_ev_stack_overflow); end; Procedure TExprParse.OpPop(var _Operator:TExprOperator); { Get operator at the top of the stack } begin if OpTop > 0 then begin _Operator:=OpStack[OpTop]; Dec(OpTop); end else Message(asmr_e_ev_stack_underflow); end; Function TExprParse.Priority(_Operator : Char) : Integer; { Return priority of operator } { The greater the priority, the higher the precedence } begin Case _Operator OF '(' : Priority:=0; '+', '-' : Priority:=1; '*', '/','%','<','>' : Priority:=2; '|','&','^','~' : Priority:=0; else Message(asmr_e_ev_invalid_op); end; end; Function TExprParse.Evaluate(Expr : String):longint; Var I : Integer; Token : String15; opr : TExprOperator; begin Evaluate:=0; { Reset stacks } OpTop :=0; RPNTop:=0; Token :=''; { nothing to do ? } if Expr='' then exit; For I:=1 to Length(Expr) DO begin if Expr[I] in ['0'..'9'] then begin { Build multi-digit numbers } Token:=Token + Expr[I]; if I = Length(Expr) then { Send last one to calculator } RPNCalc(Token,false); end else if Expr[I] in ['+', '-', '*', '/', '(', ')','^','&','|','%','~','<','>'] then begin if Token <> '' then begin { Send last built number to calc. } RPNCalc(Token,false); Token:=''; end; Case Expr[I] OF '(' : OpPush('(',false); ')' : begin While OpStack[OpTop].ch <> '(' DO Begin OpPop(opr); RPNCalc(opr.ch,opr.is_prefix); end; OpPop(opr); { Pop off and ignore the '(' } end; '+','-','~' : Begin { workaround for -2147483648 } if (expr[I]='-') and (expr[i+1] in ['0'..'9']) then begin token:='-'; expr[i]:='+'; end; { if start of expression then surely a prefix } { or if previous char was also an operator } if (I = 1) or (not (Expr[I-1] in ['0'..'9','(',')'])) then OpPush(Expr[I],true) else Begin { Evaluate all higher priority operators } While (OpTop > 0) AND (Priority(Expr[I]) <= Priority(OpStack[OpTop].ch)) DO Begin OpPop(opr); RPNCalc(opr.ch,opr.is_prefix); end; OpPush(Expr[I],false); End; end; '*', '/', '^','|','&', '%','<','>' : begin While (OpTop > 0) and (Priority(Expr[I]) <= Priority(OpStack[OpTop].ch)) DO Begin OpPop(opr); RPNCalc(opr.ch,opr.is_prefix); end; OpPush(Expr[I],false); end; end; { Case } end else Message(asmr_e_ev_invalid_op); { Handle bad input error } end; { Pop off the remaining operators } While OpTop > 0 do Begin OpPop(opr); RPNCalc(opr.ch,opr.is_prefix); end; { The result is stored on the top of the stack } Evaluate:=RPNPop; end; Destructor TExprParse.Done; Begin end; Function CalculateExpression(const expression: string): longint; var expr: TExprParse; Begin expr.Init; CalculateExpression:=expr.Evaluate(expression); expr.Done; end; {*************************************************************************} { String conversions/utils } {*************************************************************************} Function EscapeToPascal(const s:string): string; { converts a C styled string - which contains escape } { characters to a pascal style string. } var i,len : longint; hs : string; temp : string; c : char; Begin hs:=''; len:=0; i:=0; while (i n then Begin PadZero:=FALSE; delete(s,n+1,length(s)); exit; end else PadZero:=TRUE; { Fill it up with the specified character } fillchar(s[length(s)+1],n-1,#0); s[0]:=chr(n); end; {**************************************************************************** TOperand ****************************************************************************} constructor TOperand.init; begin size:=S_NO; hasvar:=false; FillChar(Opr,sizeof(Opr),0); end; destructor TOperand.done; begin end; Procedure TOperand.SetSize(_size:longint); begin if (size = S_NO) and (_sizepdef(voiddef)) then begin opr.ref.offset:=procinfo^.return_offset; opr.ref.base:= procinfo^.framepointer; { always assume that the result is valid. } procinfo^.funcret_state:=vs_assigned; SetupResult:=true; end else Message(asmr_e_void_function); end; Function TOperand.SetupSelf:boolean; Begin SetupSelf:=false; if assigned(procinfo^._class) then Begin opr.typ:=OPR_REFERENCE; opr.ref.offset:=procinfo^.selfpointer_offset; opr.ref.base:=procinfo^.framepointer; opr.ref.options:=ref_selffixup; SetupSelf:=true; end else Message(asmr_e_cannot_use_SELF_outside_a_method); end; Function TOperand.SetupOldEBP:boolean; Begin SetupOldEBP:=false; if lexlevel>normal_function_level then Begin opr.typ:=OPR_REFERENCE; opr.ref.offset:=procinfo^.framepointer_offset; opr.ref.base:=procinfo^.framepointer; SetupOldEBP:=true; end else Message(asmr_e_cannot_use_OLDEBP_outside_nested_procedure); end; Function TOperand.SetupVar(const hs:string): Boolean; { search and sets up the correct fields in the Instr record } { for the NON-constant identifier passed to the routine. } { if not found returns FALSE. } var sym : psym; harrdef : parraydef; Begin SetupVar:=false; { are we in a routine ? } getsym(hs,false); sym:=srsym; if sym=nil then exit; case sym^.typ of varsym : begin { we always assume in asm statements that } { that the variable is valid. } pvarsym(sym)^.varstate:=vs_used; inc(pvarsym(sym)^.refs); case pvarsym(sym)^.owner^.symtabletype of objectsymtable : begin { this is not allowed, because we don't know if the self register is still free, and loading it first is also not possible, because this could break code } opr.typ:=OPR_CONSTANT; opr.val:=pvarsym(sym)^.address; hasvar:=true; SetupVar:=true; Exit; end; unitsymtable, globalsymtable, staticsymtable : opr.ref.symbol:=newasmsymbol(pvarsym(sym)^.mangledname); parasymtable : begin opr.ref.base:=procinfo^.framepointer; opr.ref.offset:=pvarsym(sym)^.address; opr.ref.offsetfixup:=aktprocsym^.definition^.parast^.address_fixup; opr.ref.options:=ref_parafixup; end; localsymtable : begin if (vo_is_external in pvarsym(sym)^.varoptions) then opr.ref.symbol:=newasmsymbol(pvarsym(sym)^.mangledname) else begin opr.ref.base:=procinfo^.framepointer; opr.ref.offset:=-(pvarsym(sym)^.address); opr.ref.options:=ref_localfixup; opr.ref.offsetfixup:=aktprocsym^.definition^.localst^.address_fixup; end; end; end; case pvarsym(sym)^.vartype.def^.deftype of orddef, enumdef, pointerdef, floatdef : SetSize(pvarsym(sym)^.getsize); arraydef : begin { for arrays try to get the element size, take care of multiple indexes } harrdef:=Parraydef(PVarsym(sym)^.vartype.def); while assigned(harrdef^.elementtype.def) and (harrdef^.elementtype.def^.deftype=arraydef) do harrdef:=parraydef(harrdef^.elementtype.def); SetSize(harrdef^.elesize); end; end; hasvar:=true; SetupVar:=true; Exit; end; typedconstsym : begin opr.ref.symbol:=newasmsymbol(ptypedconstsym(sym)^.mangledname); case ptypedconstsym(sym)^.typedconsttype.def^.deftype of orddef, enumdef, pointerdef, floatdef : SetSize(ptypedconstsym(sym)^.getsize); arraydef : begin { for arrays try to get the element size, take care of multiple indexes } harrdef:=Parraydef(PTypedConstSym(sym)^.typedconsttype.def); while assigned(harrdef^.elementtype.def) and (harrdef^.elementtype.def^.deftype=arraydef) do harrdef:=parraydef(harrdef^.elementtype.def); SetSize(harrdef^.elesize); end; end; hasvar:=true; SetupVar:=true; Exit; end; constsym : begin if pconstsym(sym)^.consttyp in [constint,constchar,constbool] then begin opr.typ:=OPR_CONSTANT; opr.val:=pconstsym(sym)^.value; hasvar:=true; SetupVar:=true; Exit; end; end; typesym : begin if ptypesym(sym)^.restype.def^.deftype in [recorddef,objectdef] then begin opr.typ:=OPR_CONSTANT; opr.val:=0; hasvar:=true; SetupVar:=TRUE; Exit; end; end; procsym : begin if assigned(pprocsym(sym)^.definition^.nextoverloaded) then Message(asmr_w_calling_overload_func); opr.typ:=OPR_SYMBOL; opr.symbol:=newasmsymbol(pprocsym(sym)^.definition^.mangledname); hasvar:=true; SetupVar:=TRUE; Exit; end; else begin Message(asmr_e_unsupported_symbol_type); exit; end; end; end; { looks for internal names of variables and routines } Function TOperand.SetupDirectVar(const hs:string): Boolean; {$ifndef OLDDIRECTVAR} var p : pasmsymbol; begin SetupDirectVar:=false; p:=getasmsymbol(hs); if assigned(p) then begin opr.ref.symbol:=p; hasvar:=true; SetupDirectVar:=true; end; end; {$else} var p : pai_external; Begin SearchDirectVar:=false; { search in the list of internals } p:=search_assembler_symbol(internals,hs,EXT_ANY); if p=nil then p:=search_assembler_symbol(externals,hs,EXT_ANY); if p<>nil then begin instr.operands[operandnum].opr.ref.symbol:=p^.sym; case p^.exttyp of EXT_BYTE : instr.operands[operandnum].size:=S_B; EXT_WORD : instr.operands[operandnum].size:=S_W; EXT_NEAR,EXT_FAR,EXT_PROC,EXT_DWORD,EXT_CODEPTR,EXT_DATAPTR: instr.operands[operandnum].size:=S_L; EXT_QWORD : instr.operands[operandnum].size:=S_FL; EXT_TBYTE : instr.operands[operandnum].size:=S_FX; else { this is in the case where the instruction is LEA } { or something like that, in that case size is not } { important. } instr.operands[operandnum].size:=S_NO; end; instr.operands[operandnum].hasvar:=true; SearchDirectVar:=TRUE; Exit; end; end; {$endif} procedure TOperand.InitRef; {*********************************************************************} { Description: This routine first check if the opcode is of } { type OPR_NONE, or OPR_REFERENCE , if not it gives out an error. } { If the operandtype = OPR_NONE or <> OPR_REFERENCE then it sets up } { the operand type to OPR_REFERENCE, as well as setting up the ref } { to point to the default segment. } {*********************************************************************} Begin case opr.typ of OPR_REFERENCE: exit; OPR_NONE: ; else Message(asmr_e_invalid_operand_type); end; opr.typ := OPR_REFERENCE; reset_reference(opr.ref); end; procedure TOperand.BuildOperand; begin abstract; end; {**************************************************************************** TInstruction ****************************************************************************} constructor TInstruction.init; Begin Opcode:=A_NONE; Opsize:=S_NO; Condition:=C_NONE; Ops:=0; InitOperands; end; destructor TInstruction.done; var i : longint; Begin for i:=1 to 3 do Dispose(Operands[i],Done); end; procedure TInstruction.InitOperands; var i : longint; begin for i:=1 to 3 do New(Operands[i],init); end; Procedure TInstruction.SwapOperands; Var p : POperand; Begin case Ops of 2 : begin p:=Operands[1]; Operands[1]:=Operands[2]; Operands[2]:=p; end; 3 : begin p:=Operands[1]; Operands[1]:=Operands[3]; Operands[3]:=p; end; end; end; procedure TInstruction.ConcatInstruction(p:PAasmOutput); begin abstract; end; procedure TInstruction.BuildOpcode; begin abstract; end; {*************************************************************************** TLocalLabel ***************************************************************************} constructor TLocalLabel.Init(const n:string); begin inherited InitName(n); lab:=nil; emitted:=false; end; function TLocalLabel.Getpasmlabel:pasmlabel; begin if not assigned(lab) then begin getlabel(lab); { this label is forced to be used so it's always written } inc(lab^.refs); end; Getpasmlabel:=lab; end; {*************************************************************************** TLocalLabelList ***************************************************************************} procedure LocalLabelEmitted(p:PNamedIndexObject);{$ifndef FPC}far;{$endif} begin if not PLocalLabel(p)^.emitted then Message1(asmr_e_unknown_label_identifier,p^.name); end; procedure TLocalLabelList.CheckEmitted; begin ForEach({$ifndef TP}@{$endif}LocalLabelEmitted) end; function CreateLocalLabel(const s: string; var hl: pasmlabel; emit:boolean):boolean; var lab : PLocalLabel; Begin CreateLocalLabel:=true; { Check if it already is defined } lab:=PLocalLabel(LocalLabelList^.Search(s)); if not assigned(lab) then begin new(lab,init(s)); LocalLabelList^.Insert(lab); end; { set emitted flag and check for dup syms } if emit then begin if lab^.Emitted then begin Message1(asmr_e_dup_local_sym,lab^.Name); CreateLocalLabel:=false; end; lab^.Emitted:=true; end; hl:=lab^.Getpasmlabel; end; {**************************************************************************** Symbol table helper routines ****************************************************************************} Function SearchRecordType(const s:string): boolean; Begin SearchRecordType:=false; { Check the constants in symtable } getsym(s,false); if srsym <> nil then Begin case srsym^.typ of typesym : begin if ptypesym(srsym)^.restype.def^.deftype in [recorddef,objectdef] then begin SearchRecordType:=true; exit; end; end; end; end; end; Function SearchIConstant(const s:string; var l:longint): boolean; {**********************************************************************} { Description: Searches for a CONSTANT of name s in either the local } { symbol list, then in the global symbol list, and returns the value } { of that constant in l. Returns TRUE if successfull, if not found, } { or if the constant is not of correct type, then returns FALSE } { Remarks: Also handle TRUE and FALSE returning in those cases 1 and 0 } { respectively. } {**********************************************************************} Begin SearchIConstant:=false; { check for TRUE or FALSE reserved words first } if s = 'TRUE' then Begin SearchIConstant:=TRUE; l:=1; exit; end; if s = 'FALSE' then Begin SearchIConstant:=TRUE; l:=0; exit; end; { Check the constants in symtable } getsym(s,false); if srsym <> nil then Begin case srsym^.typ of constsym : begin if (pconstsym(srsym)^.consttyp in [constord,constint,constchar,constbool]) then Begin l:=pconstsym(srsym)^.value; SearchIConstant:=TRUE; exit; end; end; enumsym: Begin l:=penumsym(srsym)^.value; SearchIConstant:=TRUE; exit; end; end; end; end; Function GetRecordOffsetSize(s:string;Var Offset: longint;var Size:longint):boolean; { search and returns the offset and size of records/objects of the base } { with field name setup in field. } { returns FALSE if not found. } { used when base is a variable or a typed constant name. } var st : psymtable; harrdef : parraydef; sym : psym; i : longint; base : string; Begin GetRecordOffsetSize:=FALSE; Offset:=0; Size:=0; i:=pos('.',s); if i=0 then i:=255; base:=Copy(s,1,i-1); delete(s,1,i); if base='SELF' then st:=procinfo^._class^.symtable else begin getsym(base,false); sym:=srsym; st:=nil; { we can start with a var,type,typedconst } case sym^.typ of varsym : begin case pvarsym(sym)^.vartype.def^.deftype of recorddef : st:=precorddef(pvarsym(sym)^.vartype.def)^.symtable; objectdef : st:=pobjectdef(pvarsym(sym)^.vartype.def)^.symtable; end; end; typesym : begin case ptypesym(sym)^.restype.def^.deftype of recorddef : st:=precorddef(ptypesym(sym)^.restype.def)^.symtable; objectdef : st:=pobjectdef(ptypesym(sym)^.restype.def)^.symtable; end; end; typedconstsym : begin case ptypedconstsym(sym)^.typedconsttype.def^.deftype of recorddef : st:=precorddef(ptypedconstsym(sym)^.typedconsttype.def)^.symtable; objectdef : st:=pobjectdef(ptypedconstsym(sym)^.typedconsttype.def)^.symtable; end; end; end; end; { now walk all recordsymtables } while assigned(st) and (s<>'') do begin { load next field in base } i:=pos('.',s); if i=0 then i:=255; base:=Copy(s,1,i-1); delete(s,1,i); if st^.symtabletype=objectsymtable then sym:=search_class_member(pobjectdef(st^.defowner),base) else sym:=st^.search(base); if not assigned(sym) then begin GetRecordOffsetSize:=false; exit; end; st:=nil; case sym^.typ of varsym : begin inc(Offset,pvarsym(sym)^.address); Size:=PVarsym(sym)^.getsize; case pvarsym(sym)^.vartype.def^.deftype of arraydef : begin { for arrays try to get the element size, take care of multiple indexes } harrdef:=Parraydef(PVarsym(sym)^.vartype.def); while assigned(harrdef^.elementtype.def) and (harrdef^.elementtype.def^.deftype=arraydef) do harrdef:=parraydef(harrdef^.elementtype.def); size:=harrdef^.elesize; end; recorddef : st:=precorddef(pvarsym(sym)^.vartype.def)^.symtable; objectdef : st:=pobjectdef(pvarsym(sym)^.vartype.def)^.symtable; end; end; end; end; GetRecordOffsetSize:=(s=''); end; Function SearchLabel(const s: string; var hl: pasmlabel;emit:boolean): boolean; var sym : psym; hs : string; Begin hl:=nil; SearchLabel:=false; { Check for pascal labels, which are case insensetive } hs:=upper(s); getsym(hs,false); sym:=srsym; if sym=nil then exit; case sym^.typ of labelsym : begin hl:=plabelsym(sym)^.lab; if emit then plabelsym(sym)^.defined:=true else plabelsym(sym)^.used:=true; SearchLabel:=true; exit; end; end; end; {*************************************************************************} { Instruction Generation Utilities } {*************************************************************************} Procedure ConcatString(p : paasmoutput;s:string); {*********************************************************************} { PROCEDURE ConcatString(s:string); } { Description: This routine adds the character chain pointed to in } { s to the instruction linked list. } {*********************************************************************} Var pc: PChar; Begin getmem(pc,length(s)+1); p^.concat(new(pai_string,init_length_pchar(strpcopy(pc,s),length(s)))); end; Procedure ConcatPasString(p : paasmoutput;s:string); {*********************************************************************} { PROCEDURE ConcatPasString(s:string); } { Description: This routine adds the character chain pointed to in } { s to the instruction linked list, contrary to ConcatString it } { uses a pascal style string, so it conserves null characters. } {*********************************************************************} Begin p^.concat(new(pai_string,init(s))); end; Procedure ConcatDirect(p : paasmoutput;s:string); {*********************************************************************} { PROCEDURE ConcatDirect(s:string) } { Description: This routine output the string directly to the asm } { output, it is only sed when writing special labels in AT&T mode, } { and should not be used without due consideration, since it may } { cause problems. } {*********************************************************************} Var pc: PChar; Begin getmem(pc,length(s)+1); p^.concat(new(pai_direct,init(strpcopy(pc,s)))); end; Procedure ConcatConstant(p: paasmoutput; value: longint; maxvalue: longint); {*********************************************************************} { PROCEDURE ConcatConstant(value: longint; maxvalue: longint); } { Description: This routine adds the value constant to the current } { instruction linked list. } { maxvalue -> indicates the size of the data to initialize: } { $ff -> create a byte node. } { $ffff -> create a word node. } { $ffffffff -> create a dword node. } {*********************************************************************} Begin if (maxvalue <> $ffffffff) and (value > maxvalue) then Begin Message(asmr_e_constant_out_of_bounds); { assuming a value of maxvalue } value:=maxvalue; end; if maxvalue = $ff then p^.concat(new(pai_const,init_8bit(byte(value)))) else if maxvalue = $ffff then p^.concat(new(pai_const,init_16bit(word(value)))) else if maxvalue = $ffffffff then p^.concat(new(pai_const,init_32bit(longint(value)))); end; Procedure ConcatConstSymbol(p : paasmoutput;const sym:string;l:longint); begin p^.concat(new(pai_const_symbol,initname_offset(sym,l))); end; Procedure ConcatRealConstant(p : paasmoutput;value: bestreal; real_typ : tfloattype); {***********************************************************************} { PROCEDURE ConcatRealConstant(value: bestreal; real_typ : tfloattype); } { Description: This routine adds the value constant to the current } { instruction linked list. } { real_typ -> indicates the type of the real data to initialize: } { s32real -> create a single node. } { s64real -> create a double node. } { s80real -> create an extended node. } { s64bit -> create a comp node. } { f32bit -> create a fixed node. (not used normally) } {***********************************************************************} Begin case real_typ of s32real : p^.concat(new(pai_real_32bit,init(value))); s64real : p^.concat(new(pai_real_64bit,init(value))); s80real : p^.concat(new(pai_real_80bit,init(value))); s64comp : p^.concat(new(pai_comp_64bit,init(value))); f32bit : p^.concat(new(pai_const,init_32bit(trunc(value*$10000)))); end; end; Procedure ConcatLabel(p: paasmoutput;var l : pasmlabel); {*********************************************************************} { PROCEDURE ConcatLabel } { Description: This routine either emits a label or a labeled } { instruction to the linked list of instructions. } {*********************************************************************} begin p^.concat(new(pai_label,init(l))); end; procedure ConcatAlign(p:paasmoutput;l:longint); {*********************************************************************} { PROCEDURE ConcatPublic } { Description: This routine emits an global definition to the } { linked list of instructions.(used by AT&T styled asm) } {*********************************************************************} begin p^.concat(new(pai_align,init(l))); end; procedure ConcatPublic(p:paasmoutput;const s : string); {*********************************************************************} { PROCEDURE ConcatPublic } { Description: This routine emits an global definition to the } { linked list of instructions.(used by AT&T styled asm) } {*********************************************************************} begin p^.concat(new(pai_symbol,initname_global(s,0))); end; procedure ConcatLocal(p:paasmoutput;const s : string); {*********************************************************************} { PROCEDURE ConcatLocal } { Description: This routine emits an local definition to the } { linked list of instructions. } {*********************************************************************} begin p^.concat(new(pai_symbol,initname(s,0))); end; Procedure ConcatGlobalBss(const s : string;size : longint); {*********************************************************************} { PROCEDURE ConcatGlobalBss } { Description: This routine emits an global datablock to the } { linked list of instructions. } {*********************************************************************} begin bsssegment^.concat(new(pai_datablock,init_global(s,size))); end; Procedure ConcatLocalBss(const s : string;size : longint); {*********************************************************************} { PROCEDURE ConcatLocalBss } { Description: This routine emits a local datablcok to the } { linked list of instructions. } {*********************************************************************} begin bsssegment^.concat(new(pai_datablock,init(s,size))); end; end. { $Log$ Revision 1.35 2000-02-09 13:23:03 peter * log truncated Revision 1.34 2000/01/07 01:14:37 peter * updated copyright to 2000 Revision 1.33 1999/12/22 00:57:30 peter * label are set to used so an error is given if used but not defined Revision 1.32 1999/12/17 10:43:34 florian * 761 fixed Revision 1.31 1999/11/30 10:40:54 peter + ttype, tsymlist Revision 1.30 1999/11/17 17:05:04 pierre * Notes/hints changes Revision 1.29 1999/11/09 23:06:46 peter * esi_offset -> selfpointer_offset to be newcg compatible * hcogegen -> cgbase fixes for newcg Revision 1.28 1999/11/06 14:34:26 peter * truncated log to 20 revs Revision 1.27 1999/09/27 23:44:58 peter * procinfo is now a pointer * support for result setting in sub procedure Revision 1.26 1999/09/08 16:04:04 peter * better support for object fields and more error checks for field accesses which create buggy code Revision 1.25 1999/09/04 20:29:11 florian * bug 577 fixed Revision 1.24 1999/08/27 14:37:50 peter * fixed crash with typedconst array Revision 1.23 1999/08/13 21:28:38 peter * more reference types support * arraydef size returns elementsize, also for multiple indexing array Revision 1.22 1999/08/04 00:23:28 florian * renamed i386asm and i386base to cpuasm and cpubase Revision 1.21 1999/08/03 22:03:12 peter * moved bitmask constants to sets * some other type/const renamings Revision 1.20 1999/07/29 20:54:06 peter * write .size also }