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RELEASE.1.9.2
fpc/compiler/i386/ra386int.pas
florian ea754b9a49 * fixed several pi_do_call problems
2003-11-29 20:13:25 +00:00

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{
$Id$
Copyright (c) 1998-2002 by Carl Eric Codere and Peter Vreman
Does the parsing process for the intel styled inline assembler.
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 Ra386int;
{$i fpcdefs.inc}
interface
uses
cclasses,
cpubase,
rasm,
rax86;
type
tasmtoken = (
AS_NONE,AS_LABEL,AS_LLABEL,AS_STRING,AS_INTNUM,
AS_COMMA,AS_LBRACKET,AS_RBRACKET,AS_LPAREN,
AS_RPAREN,AS_COLON,AS_DOT,AS_PLUS,AS_MINUS,AS_STAR,
AS_SEPARATOR,AS_ID,AS_REGISTER,AS_OPCODE,AS_SLASH,
{------------------ Assembler directives --------------------}
AS_DB,AS_DW,AS_DD,AS_END,
{------------------ Assembler Operators --------------------}
AS_BYTE,AS_WORD,AS_DWORD,AS_QWORD,AS_TBYTE,AS_DQWORD,AS_NEAR,AS_FAR,
AS_HIGH,AS_LOW,AS_OFFSET,AS_SEG,AS_TYPE,AS_PTR,AS_MOD,AS_SHL,AS_SHR,AS_NOT,
AS_AND,AS_OR,AS_XOR);
type
ti386intreader = class(tasmreader)
actasmtoken : tasmtoken;
prevasmtoken : tasmtoken;
ActOpsize : topsize;
constructor create;override;
destructor destroy;override;
function is_asmopcode(const s: string):boolean;
function is_asmoperator(const s: string):boolean;
function is_asmdirective(const s: string):boolean;
function is_register(const s:string):boolean;
function is_locallabel(const s:string):boolean;
function Assemble: tlinkedlist;override;
procedure GetToken;
function consume(t : tasmtoken):boolean;
procedure RecoverConsume(allowcomma:boolean);
procedure BuildRecordOffsetSize(const expr: string;var offset:longint;var size:longint);
procedure BuildConstSymbolExpression(needofs,isref:boolean;var value:longint;var asmsym:string);
function BuildConstExpression:longint;
function BuildRefConstExpression:longint;
procedure BuildReference(oper : t386operand);
procedure BuildOperand(oper: t386operand);
procedure BuildConstantOperand(oper: t386operand);
procedure BuildOpCode(instr : t386instruction);
procedure BuildConstant(maxvalue: longint);
end;
implementation
uses
{ common }
cutils,
{ global }
globtype,globals,verbose,
systems,
{ aasm }
cpuinfo,aasmbase,aasmtai,aasmcpu,
{ symtable }
symconst,symbase,symtype,symsym,symtable,
{ parser }
scanner,
{ register allocator }
rabase,rautils,itx86int,
{ codegen }
cgbase,cgobj,procinfo
;
type
tasmkeyword = string[6];
const
{ These tokens should be modified accordingly to the modifications }
{ in the different enumerations. }
firstdirective = AS_DB;
lastdirective = AS_END;
firstoperator = AS_BYTE;
lastoperator = AS_XOR;
_count_asmdirectives = longint(lastdirective)-longint(firstdirective);
_count_asmoperators = longint(lastoperator)-longint(firstoperator);
_asmdirectives : array[0.._count_asmdirectives] of tasmkeyword =
('DB','DW','DD','END');
{ problems with shl,shr,not,and,or and xor, they are }
{ context sensitive. }
_asmoperators : array[0.._count_asmoperators] of tasmkeyword = (
'BYTE','WORD','DWORD','QWORD','TBYTE','DQWORD','NEAR','FAR','HIGH',
'LOW','OFFSET','SEG','TYPE','PTR','MOD','SHL','SHR','NOT','AND',
'OR','XOR');
token2str : array[tasmtoken] of string[10] = (
'','Label','LLabel','String','Integer',
',','[',']','(',
')',':','.','+','-','*',
';','identifier','register','opcode','/',
'','','','END',
'','','','','','','','','',
'','','','type','ptr','mod','shl','shr','not',
'and','or','xor'
);
var
inexpression : boolean;
constructor ti386intreader.create;
var
i : tasmop;
str2opentry: tstr2opentry;
Begin
inherited create;
{ opcodes }
{ creates uppercased symbol tables for speed access }
iasmops:=tdictionary.create;
iasmops.delete_doubles:=true;
for i:=firstop to lastop do
begin
str2opentry:=tstr2opentry.createname(upper(std_op2str[i]));
str2opentry.op:=i;
iasmops.insert(str2opentry);
end;
end;
destructor ti386intreader.destroy;
begin
if assigned(iasmops) then
iasmops.Free;
end;
{---------------------------------------------------------------------}
{ Routines for the tokenizing }
{---------------------------------------------------------------------}
function ti386intreader.is_asmopcode(const s: string):boolean;
var
str2opentry: tstr2opentry;
cond : string[4];
cnd : tasmcond;
j: longint;
Begin
is_asmopcode:=FALSE;
actopcode:=A_None;
actcondition:=C_None;
actopsize:=S_NO;
str2opentry:=tstr2opentry(iasmops.search(s));
if assigned(str2opentry) then
begin
actopcode:=str2opentry.op;
actasmtoken:=AS_OPCODE;
is_asmopcode:=TRUE;
exit;
end;
{ not found yet, check condition opcodes }
j:=0;
while (j<CondAsmOps) do
begin
if Copy(s,1,Length(CondAsmOpStr[j]))=CondAsmOpStr[j] then
begin
cond:=Copy(s,Length(CondAsmOpStr[j])+1,255);
if cond<>'' then
begin
for cnd:=low(TasmCond) to high(TasmCond) do
if Cond=Upper(cond2str[cnd]) then
begin
actopcode:=CondASmOp[j];
actcondition:=cnd;
is_asmopcode:=TRUE;
actasmtoken:=AS_OPCODE;
exit
end;
end;
end;
inc(j);
end;
end;
function ti386intreader.is_asmoperator(const s: string):boolean;
var
i : longint;
Begin
for i:=0 to _count_asmoperators do
if s=_asmoperators[i] then
begin
actasmtoken:=tasmtoken(longint(firstoperator)+i);
is_asmoperator:=true;
exit;
end;
is_asmoperator:=false;
end;
Function ti386intreader.is_asmdirective(const s: string):boolean;
var
i : longint;
Begin
for i:=0 to _count_asmdirectives do
if s=_asmdirectives[i] then
begin
actasmtoken:=tasmtoken(longint(firstdirective)+i);
is_asmdirective:=true;
exit;
end;
is_asmdirective:=false;
end;
function ti386intreader.is_register(const s:string):boolean;
begin
is_register:=false;
actasmregister:=masm_regnum_search(lower(s));
if actasmregister<>NR_NO then
begin
is_register:=true;
actasmtoken:=AS_REGISTER;
end;
end;
function ti386intreader.is_locallabel(const s:string):boolean;
begin
is_locallabel:=(length(s)>1) and (s[1]='@');
end;
Procedure ti386intreader.GetToken;
var
len : longint;
forcelabel : boolean;
srsym : tsym;
srsymtable : tsymtable;
begin
{ save old token and reset new token }
prevasmtoken:=actasmtoken;
actasmtoken:=AS_NONE;
{ reset }
forcelabel:=FALSE;
actasmpattern:='';
{ while space and tab , continue scan... }
while (c in [' ',#9]) do
c:=current_scanner.asmgetchar;
{ get token pos }
if not (c in [#10,#13,'{',';']) then
current_scanner.gettokenpos;
{ Local Label, Label, Directive, Prefix or Opcode }
if firsttoken and not (c in [#10,#13,'{',';']) then
begin
firsttoken:=FALSE;
len:=0;
while c in ['A'..'Z','a'..'z','0'..'9','_','@'] do
begin
{ if there is an at_sign, then this must absolutely be a label }
if c = '@' then
forcelabel:=TRUE;
inc(len);
actasmpattern[len]:=c;
c:=current_scanner.asmgetchar;
end;
actasmpattern[0]:=chr(len);
uppervar(actasmpattern);
{ label ? }
if c = ':' then
begin
if actasmpattern[1]='@' then
actasmtoken:=AS_LLABEL
else
actasmtoken:=AS_LABEL;
{ let us point to the next character }
c:=current_scanner.asmgetchar;
firsttoken:=true;
exit;
end;
{ Are we trying to create an identifier with }
{ an at-sign...? }
if forcelabel then
Message(asmr_e_none_label_contain_at);
{ opcode ? }
If is_asmopcode(actasmpattern) then
Begin
{ check if we are in an expression }
{ then continue with asm directives }
if not inexpression then
exit;
end;
if is_asmdirective(actasmpattern) then
exit;
message1(asmr_e_unknown_opcode,actasmpattern);
actasmtoken:=AS_NONE;
exit;
end
else { else firsttoken }
begin
case c of
'@' : { possiblities : - local label reference , such as in jmp @local1 }
{ - @Result, @Code or @Data special variables. }
begin
actasmpattern:=c;
c:=current_scanner.asmgetchar;
while c in ['A'..'Z','a'..'z','0'..'9','_','@'] do
begin
actasmpattern:=actasmpattern + c;
c:=current_scanner.asmgetchar;
end;
uppervar(actasmpattern);
actasmtoken:=AS_ID;
exit;
end;
'A'..'Z','a'..'z','_': { identifier, register, opcode, prefix or directive }
begin
actasmpattern:=c;
c:=current_scanner.asmgetchar;
while c in ['A'..'Z','a'..'z','0'..'9','_'] do
begin
actasmpattern:=actasmpattern + c;
c:=current_scanner.asmgetchar;
end;
uppervar(actasmpattern);
{ after prefix we allow also a new opcode }
If is_prefix(actopcode) and is_asmopcode(actasmpattern) then
Begin
{ if we are not in a constant }
{ expression than this is an }
{ opcode. }
if not inexpression then
exit;
end;
{ support st(X) for fpu registers }
if (actasmpattern = 'ST') and (c='(') then
Begin
actasmpattern:=actasmpattern+c;
c:=current_scanner.asmgetchar;
if c in ['0'..'7'] then
actasmpattern:=actasmpattern + c
else
Message(asmr_e_invalid_fpu_register);
c:=current_scanner.asmgetchar;
if c <> ')' then
Message(asmr_e_invalid_fpu_register)
else
Begin
actasmpattern:=actasmpattern + c;
c:=current_scanner.asmgetchar;
end;
end;
if is_register(actasmpattern) then
exit;
if is_asmdirective(actasmpattern) then
exit;
if is_asmoperator(actasmpattern) then
exit;
{ if next is a '.' and this is a unitsym then we also need to
parse the identifier }
if (c='.') then
begin
searchsym(actasmpattern,srsym,srsymtable);
if assigned(srsym) and
(srsym.typ=unitsym) and
(srsym.owner.unitid=0) then
begin
{ Add . to create System.Identifier }
actasmpattern:=actasmpattern+c;
c:=current_scanner.asmgetchar;
{ Delphi allows System.@Halt, just ignore the @ }
if c='@' then
c:=current_scanner.asmgetchar;
while c in ['A'..'Z','a'..'z','0'..'9','_','$'] do
begin
actasmpattern:=actasmpattern + upcase(c);
c:=current_scanner.asmgetchar;
end;
end;
end;
actasmtoken:=AS_ID;
exit;
end;
'''' : { string or character }
begin
actasmpattern:='';
current_scanner.in_asm_string:=true;
repeat
if c = '''' then
begin
c:=current_scanner.asmgetchar;
if c in [#10,#13] then
begin
Message(scan_f_string_exceeds_line);
break;
end;
repeat
if c='''' then
begin
c:=current_scanner.asmgetchar;
if c='''' then
begin
actasmpattern:=actasmpattern+'''';
c:=current_scanner.asmgetchar;
if c in [#10,#13] then
begin
Message(scan_f_string_exceeds_line);
break;
end;
end
else
break;
end
else
begin
actasmpattern:=actasmpattern+c;
c:=current_scanner.asmgetchar;
if c in [#10,#13] then
begin
Message(scan_f_string_exceeds_line);
break
end;
end;
until false; { end repeat }
end
else
break; { end if }
until false;
current_scanner.in_asm_string:=false;
actasmtoken:=AS_STRING;
exit;
end;
'"' : { string or character }
begin
current_scanner.in_asm_string:=true;
actasmpattern:='';
repeat
if c = '"' then
begin
c:=current_scanner.asmgetchar;
if c in [#10,#13] then
begin
Message(scan_f_string_exceeds_line);
break;
end;
repeat
if c='"' then
begin
c:=current_scanner.asmgetchar;
if c='"' then
begin
actasmpattern:=actasmpattern+'"';
c:=current_scanner.asmgetchar;
if c in [#10,#13] then
begin
Message(scan_f_string_exceeds_line);
break;
end;
end
else
break;
end
else
begin
actasmpattern:=actasmpattern+c;
c:=current_scanner.asmgetchar;
if c in [#10,#13] then
begin
Message(scan_f_string_exceeds_line);
break
end;
end;
until false; { end repeat }
end
else
break; { end if }
until false;
current_scanner.in_asm_string:=false;
actasmtoken:=AS_STRING;
exit;
end;
'$' :
begin
c:=current_scanner.asmgetchar;
while c in ['0'..'9','A'..'F','a'..'f'] do
begin
actasmpattern:=actasmpattern + c;
c:=current_scanner.asmgetchar;
end;
actasmpattern:=tostr(ValHexaDecimal(actasmpattern));
actasmtoken:=AS_INTNUM;
exit;
end;
',' :
begin
actasmtoken:=AS_COMMA;
c:=current_scanner.asmgetchar;
exit;
end;
'[' :
begin
actasmtoken:=AS_LBRACKET;
c:=current_scanner.asmgetchar;
exit;
end;
']' :
begin
actasmtoken:=AS_RBRACKET;
c:=current_scanner.asmgetchar;
exit;
end;
'(' :
begin
actasmtoken:=AS_LPAREN;
c:=current_scanner.asmgetchar;
exit;
end;
')' :
begin
actasmtoken:=AS_RPAREN;
c:=current_scanner.asmgetchar;
exit;
end;
':' :
begin
actasmtoken:=AS_COLON;
c:=current_scanner.asmgetchar;
exit;
end;
'.' :
begin
actasmtoken:=AS_DOT;
c:=current_scanner.asmgetchar;
exit;
end;
'+' :
begin
actasmtoken:=AS_PLUS;
c:=current_scanner.asmgetchar;
exit;
end;
'-' :
begin
actasmtoken:=AS_MINUS;
c:=current_scanner.asmgetchar;
exit;
end;
'*' :
begin
actasmtoken:=AS_STAR;
c:=current_scanner.asmgetchar;
exit;
end;
'/' :
begin
actasmtoken:=AS_SLASH;
c:=current_scanner.asmgetchar;
exit;
end;
'0'..'9':
begin
actasmpattern:=c;
c:=current_scanner.asmgetchar;
{ Get the possible characters }
while c in ['0'..'9','A'..'F','a'..'f'] do
begin
actasmpattern:=actasmpattern + c;
c:=current_scanner.asmgetchar;
end;
{ Get ending character }
uppervar(actasmpattern);
c:=upcase(c);
{ possibly a binary number. }
if (actasmpattern[length(actasmpattern)] = 'B') and (c <> 'H') then
Begin
{ Delete the last binary specifier }
delete(actasmpattern,length(actasmpattern),1);
actasmpattern:=tostr(ValBinary(actasmpattern));
actasmtoken:=AS_INTNUM;
exit;
end
else
Begin
case c of
'O' :
Begin
actasmpattern:=tostr(ValOctal(actasmpattern));
actasmtoken:=AS_INTNUM;
c:=current_scanner.asmgetchar;
exit;
end;
'H' :
Begin
actasmpattern:=tostr(ValHexaDecimal(actasmpattern));
actasmtoken:=AS_INTNUM;
c:=current_scanner.asmgetchar;
exit;
end;
else { must be an integer number }
begin
actasmpattern:=tostr(ValDecimal(actasmpattern));
actasmtoken:=AS_INTNUM;
exit;
end;
end;
end;
end;
';','{',#13,#10 :
begin
c:=current_scanner.asmgetchar;
firsttoken:=TRUE;
actasmtoken:=AS_SEPARATOR;
exit;
end;
else
current_scanner.illegal_char(c);
end;
end;
end;
function ti386intreader.consume(t : tasmtoken):boolean;
begin
Consume:=true;
if t<>actasmtoken then
begin
Message2(scan_f_syn_expected,token2str[t],token2str[actasmtoken]);
Consume:=false;
end;
repeat
gettoken;
until actasmtoken<>AS_NONE;
end;
procedure ti386intreader.RecoverConsume(allowcomma:boolean);
begin
While not (actasmtoken in [AS_SEPARATOR,AS_END]) do
begin
if allowcomma and (actasmtoken=AS_COMMA) then
break;
Consume(actasmtoken);
end;
end;
{*****************************************************************************
Parsing Helpers
*****************************************************************************}
{ This routine builds up a record offset after a AS_DOT
token is encountered.
On entry actasmtoken should be equal to AS_DOT }
Procedure ti386intreader.BuildRecordOffsetSize(const expr: string;var offset:longint;var size:longint);
var
s : string;
Begin
offset:=0;
size:=0;
s:=expr;
while (actasmtoken=AS_DOT) do
begin
Consume(AS_DOT);
if actasmtoken=AS_ID then
s:=s+'.'+actasmpattern;
if not Consume(AS_ID) then
begin
RecoverConsume(true);
break;
end;
end;
if not GetRecordOffsetSize(s,offset,size) then
Message(asmr_e_building_record_offset);
end;
Procedure ti386intreader.BuildConstSymbolExpression(needofs,isref:boolean;var value:longint;var asmsym:string);
var
tempstr,expr,hs : string;
parenlevel,l,k : longint;
hasparen,
errorflag : boolean;
prevtok : tasmtoken;
hl : tasmlabel;
sym : tsym;
srsymtable : tsymtable;
Begin
{ reset }
value:=0;
asmsym:='';
errorflag:=FALSE;
tempstr:='';
expr:='';
inexpression:=TRUE;
parenlevel:=0;
Repeat
Case actasmtoken of
AS_LPAREN:
Begin
Consume(AS_LPAREN);
expr:=expr + '(';
inc(parenlevel);
end;
AS_RPAREN:
Begin
Consume(AS_RPAREN);
expr:=expr + ')';
dec(parenlevel);
end;
AS_SHL:
Begin
Consume(AS_SHL);
expr:=expr + '<';
end;
AS_SHR:
Begin
Consume(AS_SHR);
expr:=expr + '>';
end;
AS_SLASH:
Begin
Consume(AS_SLASH);
expr:=expr + '/';
end;
AS_MOD:
Begin
Consume(AS_MOD);
expr:=expr + '%';
end;
AS_STAR:
Begin
Consume(AS_STAR);
if isref and (actasmtoken=AS_REGISTER) then
break;
expr:=expr + '*';
end;
AS_PLUS:
Begin
Consume(AS_PLUS);
if isref and (actasmtoken=AS_REGISTER) then
break;
expr:=expr + '+';
end;
AS_LBRACKET:
begin
{ Support ugly delphi constructs like: [ECX].1+2[EDX] }
if isref then
break;
end;
AS_MINUS:
Begin
Consume(AS_MINUS);
expr:=expr + '-';
end;
AS_AND:
Begin
Consume(AS_AND);
expr:=expr + '&';
end;
AS_NOT:
Begin
Consume(AS_NOT);
expr:=expr + '~';
end;
AS_XOR:
Begin
Consume(AS_XOR);
expr:=expr + '^';
end;
AS_OR:
Begin
Consume(AS_OR);
expr:=expr + '|';
end;
AS_INTNUM:
Begin
expr:=expr + actasmpattern;
Consume(AS_INTNUM);
end;
AS_OFFSET:
begin
Consume(AS_OFFSET);
if actasmtoken<>AS_ID then
Message(asmr_e_offset_without_identifier);
end;
AS_TYPE:
begin
l:=0;
hasparen:=false;
Consume(AS_TYPE);
if actasmtoken=AS_LPAREN then
begin
hasparen:=true;
Consume(AS_LPAREN);
end;
if actasmtoken<>AS_ID then
Message(asmr_e_type_without_identifier)
else
begin
tempstr:=actasmpattern;
Consume(AS_ID);
if actasmtoken=AS_DOT then
BuildRecordOffsetSize(tempstr,k,l)
else
begin
searchsym(tempstr,sym,srsymtable);
if assigned(sym) then
begin
case sym.typ of
varsym :
l:=tvarsym(sym).getsize;
typedconstsym :
l:=ttypedconstsym(sym).getsize;
typesym :
l:=ttypesym(sym).restype.def.size;
else
Message(asmr_e_wrong_sym_type);
end;
end
else
Message1(sym_e_unknown_id,tempstr);
end;
end;
str(l, tempstr);
expr:=expr + tempstr;
if hasparen then
Consume(AS_RPAREN);
end;
AS_STRING:
Begin
l:=0;
case Length(actasmpattern) of
1 :
l:=ord(actasmpattern[1]);
2 :
l:=ord(actasmpattern[2]) + ord(actasmpattern[1]) shl 8;
3 :
l:=ord(actasmpattern[3]) +
Ord(actasmpattern[2]) shl 8 + ord(actasmpattern[1]) shl 16;
4 :
l:=ord(actasmpattern[4]) + ord(actasmpattern[3]) shl 8 +
Ord(actasmpattern[2]) shl 16 + ord(actasmpattern[1]) shl 24;
else
Message1(asmr_e_invalid_string_as_opcode_operand,actasmpattern);
end;
str(l, tempstr);
expr:=expr + tempstr;
Consume(AS_STRING);
end;
AS_ID:
Begin
hs:='';
tempstr:=actasmpattern;
prevtok:=prevasmtoken;
consume(AS_ID);
if SearchIConstant(tempstr,l) then
begin
str(l, tempstr);
expr:=expr + tempstr;
end
else
begin
if is_locallabel(tempstr) then
begin
CreateLocalLabel(tempstr,hl,false);
hs:=hl.name
end
else
if SearchLabel(tempstr,hl,false) then
hs:=hl.name
else
begin
searchsym(tempstr,sym,srsymtable);
if assigned(sym) then
begin
case sym.typ of
varsym :
begin
if sym.owner.symtabletype in [localsymtable,parasymtable] then
Message(asmr_e_no_local_or_para_allowed);
hs:=tvarsym(sym).mangledname;
end;
typedconstsym :
hs:=ttypedconstsym(sym).mangledname;
procsym :
begin
if Tprocsym(sym).procdef_count>1 then
Message(asmr_w_calling_overload_func);
hs:=tprocsym(sym).first_procdef.mangledname;
end;
typesym :
begin
if not(ttypesym(sym).restype.def.deftype in [recorddef,objectdef]) then
Message(asmr_e_wrong_sym_type);
end;
else
Message(asmr_e_wrong_sym_type);
end;
end
else
Message1(sym_e_unknown_id,tempstr);
end;
{ symbol found? }
if hs<>'' then
begin
if needofs and (prevtok<>AS_OFFSET) then
Message(asmr_e_need_offset);
if asmsym='' then
asmsym:=hs
else
Message(asmr_e_cant_have_multiple_relocatable_symbols);
if (expr='') or (expr[length(expr)]='+') then
begin
{ don't remove the + if there could be a record field }
if actasmtoken<>AS_DOT then
delete(expr,length(expr),1);
end
else
Message(asmr_e_only_add_relocatable_symbol);
end;
if actasmtoken=AS_DOT then
begin
BuildRecordOffsetSize(tempstr,l,k);
str(l, tempstr);
expr:=expr + tempstr;
end
else
begin
if (expr='') or (expr[length(expr)] in ['+','-','/','*']) then
delete(expr,length(expr),1);
end;
end;
{ check if there are wrong operator used like / or mod etc. }
if (hs<>'') and not(actasmtoken in [AS_MINUS,AS_PLUS,AS_COMMA,AS_SEPARATOR,AS_END,AS_RBRACKET]) then
Message(asmr_e_only_add_relocatable_symbol);
end;
AS_END,
AS_RBRACKET,
AS_SEPARATOR,
AS_COMMA:
Begin
break;
end;
else
Begin
{ write error only once. }
if not errorflag then
Message(asmr_e_invalid_constant_expression);
{ consume tokens until we find COMMA or SEPARATOR }
Consume(actasmtoken);
errorflag:=TRUE;
end;
end;
Until false;
{ calculate expression }
if not ErrorFlag then
value:=CalculateExpression(expr)
else
value:=0;
{ no longer in an expression }
inexpression:=FALSE;
end;
Function ti386intreader.BuildConstExpression:longint;
var
l : longint;
hs : string;
begin
BuildConstSymbolExpression(false,false,l,hs);
if hs<>'' then
Message(asmr_e_relocatable_symbol_not_allowed);
BuildConstExpression:=l;
end;
Function ti386intreader.BuildRefConstExpression:longint;
var
l : longint;
hs : string;
begin
BuildConstSymbolExpression(false,true,l,hs);
if hs<>'' then
Message(asmr_e_relocatable_symbol_not_allowed);
BuildRefConstExpression:=l;
end;
procedure ti386intreader.BuildReference(oper : t386operand);
var
k,l,scale : longint;
tempstr,hs : string;
typesize : longint;
code : integer;
hreg : tregister;
GotStar,GotOffset,HadVar,
GotPlus,Negative : boolean;
Begin
Consume(AS_LBRACKET);
if not(oper.opr.typ in [OPR_LOCAL,OPR_REFERENCE]) then
oper.InitRef;
GotStar:=false;
GotPlus:=true;
GotOffset:=false;
Negative:=false;
Scale:=0;
repeat
if GotOffset and (actasmtoken<>AS_ID) then
Message(asmr_e_invalid_reference_syntax);
Case actasmtoken of
AS_ID: { Constant reference expression OR variable reference expression }
Begin
if not GotPlus then
Message(asmr_e_invalid_reference_syntax);
if actasmpattern[1] = '@' then
Message(asmr_e_local_label_not_allowed_as_ref);
GotStar:=false;
GotPlus:=false;
if SearchIConstant(actasmpattern,l) or
SearchRecordType(actasmpattern) then
begin
l:=BuildRefConstExpression;
GotPlus:=(prevasmtoken=AS_PLUS);
GotStar:=(prevasmtoken=AS_STAR);
case oper.opr.typ of
OPR_LOCAL :
begin
if GotStar then
Message(asmr_e_invalid_reference_syntax);
if negative then
Dec(oper.opr.localsymofs,l)
else
Inc(oper.opr.localsymofs,l);
end;
OPR_REFERENCE :
begin
if GotStar then
oper.opr.ref.scalefactor:=l
else
begin
if negative then
Dec(oper.opr.ref.offset,l)
else
Inc(oper.opr.ref.offset,l);
end;
end;
end;
end
else
Begin
if oper.hasvar and not GotOffset then
Message(asmr_e_cant_have_multiple_relocatable_symbols);
HadVar:=oper.hasvar and GotOffset;
if negative then
Message(asmr_e_only_add_relocatable_symbol);
tempstr:=actasmpattern;
Consume(AS_ID);
{ typecasting? }
if (actasmtoken=AS_LPAREN) and
SearchType(tempstr,typesize) then
begin
oper.hastype:=true;
Consume(AS_LPAREN);
BuildOperand(oper);
Consume(AS_RPAREN);
if oper.opr.typ in [OPR_REFERENCE,OPR_LOCAL] then
oper.SetSize(typesize,true);
end
else
if not oper.SetupVar(tempstr,GotOffset) then
Message1(sym_e_unknown_id,tempstr);
{ record.field ? }
if actasmtoken=AS_DOT then
begin
BuildRecordOffsetSize(tempstr,l,k);
case oper.opr.typ of
OPR_LOCAL :
inc(oper.opr.localsymofs,l);
OPR_REFERENCE :
inc(oper.opr.ref.offset,l);
end;
end;
if GotOffset then
begin
if oper.hasvar and (oper.opr.ref.base=current_procinfo.framepointer) then
begin
if (oper.opr.typ=OPR_REFERENCE) then
oper.opr.ref.base:=NR_NO;
oper.hasvar:=hadvar;
end
else
begin
if oper.hasvar and hadvar then
Message(asmr_e_cant_have_multiple_relocatable_symbols);
{ should we allow ?? }
end;
end;
end;
GotOffset:=false;
end;
AS_PLUS :
Begin
Consume(AS_PLUS);
Negative:=false;
GotPlus:=true;
GotStar:=false;
Scale:=0;
end;
AS_MINUS :
begin
Consume(AS_MINUS);
Negative:=true;
GotPlus:=true;
GotStar:=false;
Scale:=0;
end;
AS_STAR : { Scaling, with eax*4 order }
begin
Consume(AS_STAR);
hs:='';
l:=0;
case actasmtoken of
AS_LPAREN :
l:=BuildConstExpression;
AS_INTNUM:
Begin
hs:=actasmpattern;
Consume(AS_INTNUM);
end;
AS_REGISTER :
begin
case oper.opr.typ of
OPR_REFERENCE :
begin
if oper.opr.ref.scalefactor=0 then
begin
if scale<>0 then
begin
oper.opr.ref.scalefactor:=scale;
scale:=0;
end
else
Message(asmr_e_wrong_scale_factor);
end
else
Message(asmr_e_invalid_reference_syntax);
end;
OPR_LOCAL :
begin
if oper.opr.localscale=0 then
begin
if scale<>0 then
begin
oper.opr.localscale:=scale;
scale:=0;
end
else
Message(asmr_e_wrong_scale_factor);
end
else
Message(asmr_e_invalid_reference_syntax);
end;
end;
end;
else
Message(asmr_e_invalid_reference_syntax);
end;
if actasmtoken<>AS_REGISTER then
begin
if hs<>'' then
val(hs,l,code);
case oper.opr.typ of
OPR_REFERENCE :
oper.opr.ref.scalefactor:=l;
OPR_LOCAL :
oper.opr.localscale:=l;
end;
if l>9 then
Message(asmr_e_wrong_scale_factor);
end;
GotPlus:=false;
GotStar:=false;
end;
AS_REGISTER :
begin
if not((GotPlus and (not Negative)) or
GotStar) then
Message(asmr_e_invalid_reference_syntax);
hreg:=actasmregister;
Consume(AS_REGISTER);
{ this register will be the index:
1. just read a *
2. next token is a *
3. base register is already used }
case oper.opr.typ of
OPR_LOCAL :
begin
if (oper.opr.localindexreg<>NR_NO) then
Message(asmr_e_multiple_index);
oper.opr.localindexreg:=hreg;
if scale<>0 then
begin
oper.opr.localscale:=scale;
scale:=0;
end;
end;
OPR_REFERENCE :
begin
if (GotStar) or
(actasmtoken=AS_STAR) or
(oper.opr.ref.base<>NR_NO) then
begin
if (oper.opr.ref.index<>NR_NO) then
Message(asmr_e_multiple_index);
oper.opr.ref.index:=hreg;
if scale<>0 then
begin
oper.opr.ref.scalefactor:=scale;
scale:=0;
end;
end
else
oper.opr.ref.base:=hreg;
end;
end;
GotPlus:=false;
GotStar:=false;
end;
AS_OFFSET :
begin
Consume(AS_OFFSET);
GotOffset:=true;
end;
AS_TYPE,
AS_NOT,
AS_STRING,
AS_INTNUM,
AS_LPAREN : { Constant reference expression }
begin
if not GotPlus and not GotStar then
Message(asmr_e_invalid_reference_syntax);
BuildConstSymbolExpression(true,true,l,tempstr);
if tempstr<>'' then
begin
if GotStar then
Message(asmr_e_only_add_relocatable_symbol);
if not assigned(oper.opr.ref.symbol) then
oper.opr.ref.symbol:=objectlibrary.newasmsymbol(tempstr)
else
Message(asmr_e_cant_have_multiple_relocatable_symbols);
end;
case oper.opr.typ of
OPR_REFERENCE :
begin
if GotStar then
oper.opr.ref.scalefactor:=l
else if (prevasmtoken = AS_STAR) then
begin
if scale<>0 then
scale:=l*scale
else
scale:=l;
end
else
begin
if negative then
Dec(oper.opr.ref.offset,l)
else
Inc(oper.opr.ref.offset,l);
end;
end;
OPR_LOCAL :
begin
if GotStar then
oper.opr.localscale:=l
else if (prevasmtoken = AS_STAR) then
begin
if scale<>0 then
scale:=l*scale
else
scale:=l;
end
else
begin
if negative then
Dec(oper.opr.localsymofs,l)
else
Inc(oper.opr.localsymofs,l);
end;
end;
end;
GotPlus:=(prevasmtoken=AS_PLUS) or
(prevasmtoken=AS_MINUS);
if GotPlus then
negative := prevasmtoken = AS_MINUS;
GotStar:=(prevasmtoken=AS_STAR);
end;
AS_RBRACKET :
begin
if GotPlus or GotStar then
Message(asmr_e_invalid_reference_syntax);
Consume(AS_RBRACKET);
break;
end;
else
Begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(true);
break;
end;
end;
until false;
end;
Procedure ti386intreader.BuildConstantOperand(oper: t386operand);
var
l : longint;
tempstr : string;
begin
if not (oper.opr.typ in [OPR_NONE,OPR_CONSTANT]) then
Message(asmr_e_invalid_operand_type);
BuildConstSymbolExpression(true,false,l,tempstr);
if tempstr<>'' then
begin
oper.opr.typ:=OPR_SYMBOL;
oper.opr.symofs:=l;
oper.opr.symbol:=objectlibrary.newasmsymbol(tempstr);
end
else
begin
if oper.opr.typ=OPR_NONE then
begin
oper.opr.typ:=OPR_CONSTANT;
oper.opr.val:=l;
end
else
inc(oper.opr.val,l);
end;
end;
Procedure ti386intreader.BuildOperand(oper: t386operand);
procedure AddLabelOperand(hl:tasmlabel);
begin
if is_calljmp(actopcode) then
begin
oper.opr.typ:=OPR_SYMBOL;
oper.opr.symbol:=hl;
end
else
begin
oper.InitRef;
oper.opr.ref.symbol:=hl;
end;
end;
var
expr : string;
tempreg : tregister;
typesize,
l : longint;
hl : tasmlabel;
toffset,
tsize : longint;
Begin
expr:='';
repeat
if actasmtoken=AS_DOT then
begin
if expr<>'' then
begin
BuildRecordOffsetSize(expr,toffset,tsize);
oper.SetSize(tsize,true);
case oper.opr.typ of
OPR_LOCAL :
begin
{ don't allow direct access to fields of parameters, becuase that
will generate buggy code. Allow it only for explicit typecasting
and when the parameter is in a register (delphi compatible) }
if (not oper.hastype) and
(tvarsym(oper.opr.localsym).owner.symtabletype=parasymtable) and
(current_procinfo.procdef.proccalloption<>pocall_register) then
Message(asmr_e_cannot_access_field_directly_for_parameters);
inc(oper.opr.localsymofs,toffset)
end;
OPR_CONSTANT :
inc(oper.opr.val,toffset);
OPR_REFERENCE :
inc(oper.opr.ref.offset,toffset);
OPR_NONE :
begin
oper.opr.typ:=OPR_CONSTANT;
oper.opr.val:=toffset;
end;
else
internalerror(200309222);
end;
expr:='';
end
else
begin
{ See it as a separator }
Consume(AS_DOT);
end;
end;
case actasmtoken of
AS_OFFSET,
AS_TYPE,
AS_NOT,
AS_STRING :
Begin
BuildConstantOperand(oper);
end;
AS_PLUS,
AS_MINUS,
AS_LPAREN,
AS_INTNUM :
begin
case oper.opr.typ of
OPR_REFERENCE :
inc(oper.opr.ref.offset,BuildRefConstExpression);
OPR_LOCAL :
inc(oper.opr.localsymofs,BuildConstExpression);
OPR_NONE,
OPR_CONSTANT :
BuildConstantOperand(oper);
else
Message(asmr_e_invalid_operand_type);
end;
end;
AS_ID : { A constant expression, or a Variable ref. }
Begin
{ Label or Special symbol reference? }
if actasmpattern[1] = '@' then
Begin
if actasmpattern = '@RESULT' then
Begin
oper.SetupResult;
Consume(AS_ID);
end
else
if (actasmpattern = '@CODE') or (actasmpattern = '@DATA') then
begin
Message(asmr_w_CODE_and_DATA_not_supported);
Consume(AS_ID);
end
else
{ Local Label }
begin
CreateLocalLabel(actasmpattern,hl,false);
Consume(AS_ID);
AddLabelOperand(hl);
if not (actasmtoken in [AS_END,AS_SEPARATOR,AS_COMMA]) then
Message(asmr_e_syntax_error);
end;
end
else
{ support result for delphi modes }
if (m_objpas in aktmodeswitches) and (actasmpattern='RESULT') then
begin
oper.SetUpResult;
Consume(AS_ID);
end
{ probably a variable or normal expression }
{ or a procedure (such as in CALL ID) }
else
Begin
{ is it a constant ? }
if SearchIConstant(actasmpattern,l) then
Begin
case oper.opr.typ of
OPR_REFERENCE :
inc(oper.opr.ref.offset,BuildRefConstExpression);
OPR_LOCAL :
inc(oper.opr.localsymofs,BuildRefConstExpression);
OPR_NONE,
OPR_CONSTANT :
BuildConstantOperand(oper);
else
Message(asmr_e_invalid_operand_type);
end;
end
else
{ Check for pascal label }
if SearchLabel(actasmpattern,hl,false) then
begin
Consume(AS_ID);
AddLabelOperand(hl);
if not (actasmtoken in [AS_END,AS_SEPARATOR,AS_COMMA]) then
Message(asmr_e_syntax_error);
end
else
{ is it a normal variable ? }
Begin
expr:=actasmpattern;
Consume(AS_ID);
{ typecasting? }
if SearchType(expr,typesize) then
begin
oper.hastype:=true;
if (actasmtoken=AS_LPAREN) then
begin
Consume(AS_LPAREN);
BuildOperand(oper);
Consume(AS_RPAREN);
if oper.opr.typ in [OPR_REFERENCE,OPR_LOCAL] then
oper.SetSize(typesize,true);
end;
end
else
begin
if not oper.SetupVar(expr,false) then
Begin
{ not a variable, check special variables.. }
if expr = 'SELF' then
oper.SetupSelf
else
Message1(sym_e_unknown_id,expr);
expr:='';
end;
end;
end;
end;
end;
AS_REGISTER : { Register, a variable reference or a constant reference }
begin
{ save the type of register used. }
tempreg:=actasmregister;
Consume(AS_REGISTER);
if actasmtoken = AS_COLON then
Begin
Consume(AS_COLON);
oper.InitRef;
oper.opr.ref.segment:=tempreg;
BuildReference(oper);
end
else
{ Simple register }
begin
if not (oper.opr.typ in [OPR_NONE,OPR_REGISTER]) then
Message(asmr_e_invalid_operand_type);
oper.opr.typ:=OPR_REGISTER;
oper.opr.reg:=tempreg;
oper.SetSize(tcgsize2size[cg.reg_cgsize(oper.opr.reg)],true);
end;
end;
AS_LBRACKET: { a variable reference, register ref. or a constant reference }
Begin
BuildReference(oper);
end;
AS_SEG :
Begin
Message(asmr_e_seg_not_supported);
Consume(actasmtoken);
end;
AS_SEPARATOR,
AS_END,
AS_COMMA:
break;
else
Message(asmr_e_syn_operand);
end;
until not(actasmtoken in [AS_DOT,AS_PLUS,AS_LBRACKET]);
if not((actasmtoken in [AS_END,AS_SEPARATOR,AS_COMMA]) or
(oper.hastype and (actasmtoken=AS_RPAREN))) then
begin
Message(asmr_e_syntax_error);
RecoverConsume(true);
end;
end;
Procedure ti386intreader.BuildOpCode(instr : t386instruction);
var
PrefixOp,OverrideOp: tasmop;
size,
operandnum : longint;
Begin
PrefixOp:=A_None;
OverrideOp:=A_None;
{ prefix seg opcode / prefix opcode }
repeat
if is_prefix(actopcode) then
begin
with instr do
begin
OpOrder:=op_intel;
PrefixOp:=ActOpcode;
opcode:=ActOpcode;
condition:=ActCondition;
opsize:=ActOpsize;
ConcatInstruction(curlist);
end;
Consume(AS_OPCODE);
end
else
if is_override(actopcode) then
begin
with instr do
begin
OpOrder:=op_intel;
OverrideOp:=ActOpcode;
opcode:=ActOpcode;
condition:=ActCondition;
opsize:=ActOpsize;
ConcatInstruction(curlist);
end;
Consume(AS_OPCODE);
end
else
break;
{ allow for newline after prefix or override }
while actasmtoken=AS_SEPARATOR do
Consume(AS_SEPARATOR);
until (actasmtoken<>AS_OPCODE);
{ opcode }
if (actasmtoken <> AS_OPCODE) then
Begin
Message(asmr_e_invalid_or_missing_opcode);
RecoverConsume(false);
exit;
end;
{ Fill the instr object with the current state }
with instr do
begin
OpOrder:=op_intel;
Opcode:=ActOpcode;
condition:=ActCondition;
opsize:=ActOpsize;
{ Valid combination of prefix/override and instruction ? }
if (prefixop<>A_NONE) and (NOT CheckPrefix(PrefixOp,actopcode)) then
Message1(asmr_e_invalid_prefix_and_opcode,actasmpattern);
if (overrideop<>A_NONE) and (NOT CheckOverride(OverrideOp,ActOpcode)) then
Message1(asmr_e_invalid_override_and_opcode,actasmpattern);
end;
{ We are reading operands, so opcode will be an AS_ID }
operandnum:=1;
Consume(AS_OPCODE);
{ Zero operand opcode ? }
if actasmtoken in [AS_SEPARATOR,AS_END] then
begin
operandnum:=0;
exit;
end;
{ Read Operands }
repeat
case actasmtoken of
{ End of asm operands for this opcode }
AS_END,
AS_SEPARATOR :
break;
{ Operand delimiter }
AS_COMMA :
Begin
if operandnum > Max_Operands then
Message(asmr_e_too_many_operands)
else
Inc(operandnum);
Consume(AS_COMMA);
end;
{ Typecast, Constant Expression, Type Specifier }
AS_DWORD,
AS_BYTE,
AS_WORD,
AS_TBYTE,
AS_DQWORD,
AS_QWORD :
Begin
{ load the size in a temp variable, so it can be set when the
operand is read }
size:=0;
Case actasmtoken of
AS_DWORD : size:=4;
AS_WORD : size:=2;
AS_BYTE : size:=1;
AS_QWORD : size:=8;
AS_DQWORD : size:=16;
AS_TBYTE : size:=extended_size;
end;
Consume(actasmtoken);
if actasmtoken=AS_PTR then
begin
Consume(AS_PTR);
instr.Operands[operandnum].InitRef;
end;
BuildOperand(instr.Operands[operandnum] as t386operand);
{ now set the size which was specified by the override }
instr.Operands[operandnum].setsize(size,true);
end;
{ Type specifier }
AS_NEAR,
AS_FAR :
Begin
if actasmtoken = AS_NEAR then
begin
Message(asmr_w_near_ignored);
instr.opsize:=S_NEAR;
end
else
begin
Message(asmr_w_far_ignored);
instr.opsize:=S_FAR;
end;
Consume(actasmtoken);
if actasmtoken=AS_PTR then
begin
Consume(AS_PTR);
instr.Operands[operandnum].InitRef;
end;
BuildOperand(instr.Operands[operandnum] as t386operand);
end;
else
BuildOperand(instr.Operands[operandnum] as t386operand);
end; { end case }
until false;
instr.Ops:=operandnum;
end;
Procedure ti386intreader.BuildConstant(maxvalue: longint);
var
strlength: byte;
asmsym,
expr: string;
value : longint;
Begin
strlength:=0; { assume it is a DB }
Repeat
Case actasmtoken of
AS_STRING:
Begin
if maxvalue = $ffff then
strlength:=2
else
if maxvalue = longint($ffffffff) then
strlength:=4;
{ DD and DW cases }
if strlength <> 0 then
Begin
if Not PadZero(actasmpattern,strlength) then
Message(scan_f_string_exceeds_line);
end;
expr:=actasmpattern;
Consume(AS_STRING);
Case actasmtoken of
AS_COMMA:
Consume(AS_COMMA);
AS_END,
AS_SEPARATOR: ;
else
Message(asmr_e_invalid_string_expression);
end;
ConcatString(curlist,expr);
end;
AS_PLUS,
AS_MINUS,
AS_LPAREN,
AS_NOT,
AS_INTNUM,
AS_ID :
Begin
BuildConstSymbolExpression(false,false,value,asmsym);
if asmsym<>'' then
begin
if maxvalue<>longint($ffffffff) then
Message1(asmr_w_const32bit_for_address,asmsym);
ConcatConstSymbol(curlist,asmsym,value)
end
else
ConcatConstant(curlist,value,maxvalue);
end;
AS_COMMA:
Consume(AS_COMMA);
AS_END,
AS_SEPARATOR:
break;
else
begin
Message(asmr_e_syn_constant);
RecoverConsume(false);
end
end;
Until false;
end;
function ti386intreader.Assemble: tlinkedlist;
Var
hl : tasmlabel;
instr : T386Instruction;
Begin
Message1(asmr_d_start_reading,'intel');
inexpression:=FALSE;
firsttoken:=TRUE;
{ sets up all opcode and register tables in uppercase
done in the construtor now
if not _asmsorted then
Begin
SetupTables;
_asmsorted:=TRUE;
end;
}
curlist:=TAAsmoutput.Create;
{ setup label linked list }
LocalLabelList:=TLocalLabelList.Create;
{ start tokenizer }
c:=current_scanner.asmgetcharstart;
gettoken;
{ main loop }
repeat
case actasmtoken of
AS_LLABEL:
Begin
if CreateLocalLabel(actasmpattern,hl,true) then
ConcatLabel(curlist,hl);
Consume(AS_LLABEL);
end;
AS_LABEL:
Begin
if SearchLabel(upper(actasmpattern),hl,true) then
ConcatLabel(curlist,hl)
else
Message1(asmr_e_unknown_label_identifier,actasmpattern);
Consume(AS_LABEL);
end;
AS_DW :
Begin
inexpression:=true;
Consume(AS_DW);
BuildConstant($ffff);
inexpression:=false;
end;
AS_DB :
Begin
inexpression:=true;
Consume(AS_DB);
BuildConstant($ff);
inexpression:=false;
end;
AS_DD :
Begin
inexpression:=true;
Consume(AS_DD);
BuildConstant(longint($ffffffff));
inexpression:=false;
end;
AS_OPCODE :
Begin
instr:=T386Instruction.Create(T386Operand);
BuildOpcode(instr);
with instr do
begin
{ We need AT&T style operands }
Swapoperands;
{ Must be done with args in ATT order }
CheckNonCommutativeOpcodes;
AddReferenceSizes;
SetInstructionOpsize;
CheckOperandSizes;
ConcatInstruction(curlist);
end;
instr.Free;
end;
AS_SEPARATOR :
Begin
Consume(AS_SEPARATOR);
end;
AS_END :
break; { end assembly block }
else
Begin
Message(asmr_e_syntax_error);
RecoverConsume(false);
end;
end; { end case }
until false;
{ Check LocalLabelList }
LocalLabelList.CheckEmitted;
LocalLabelList.Free;
{ Return the list in an asmnode }
assemble:=curlist;
Message1(asmr_d_finish_reading,'intel');
end;
{*****************************************************************************
Initialize
*****************************************************************************}
const
asmmode_i386_intel_info : tasmmodeinfo =
(
id : asmmode_i386_intel;
idtxt : 'INTEL';
casmreader : ti386intreader;
);
begin
RegisterAsmMode(asmmode_i386_intel_info);
end.
{
$Log$
Revision 1.68 2003-11-29 20:13:25 florian
* fixed several pi_do_call problems
Revision 1.67 2003/11/29 15:53:06 florian
+ nasmelf mode for BeOS
+ DQWORD directive in intel assembler mode
Revision 1.66 2003/11/29 14:41:02 peter
* support type()
Revision 1.65 2003/11/12 16:05:39 florian
* assembler readers OOPed
+ typed currency constants
+ typed 128 bit float constants if the CPU supports it
Revision 1.64 2003/11/10 19:08:32 peter
* line numbering is now only done when #10, #10#13 is really parsed
instead of when it is the next character
Revision 1.63 2003/10/30 19:59:00 peter
* support scalefactor for opr_local
* support reference with opr_local set, fixes tw2631
Revision 1.62 2003/10/29 16:47:18 peter
* fix field offset in reference
Revision 1.61 2003/10/29 15:40:20 peter
* support indexing and offset retrieval for locals
Revision 1.60 2003/10/27 15:29:43 peter
* fixed trec.field to return constant
Revision 1.59 2003/10/24 17:39:03 peter
* more intel parser updates
Revision 1.58 2003/10/23 17:19:44 peter
* typecasting fixes
* reference building more delphi compatible
Revision 1.57 2003/10/21 18:17:40 peter
* ignore @ in Unit.@Proc
Revision 1.56 2003/10/10 17:48:14 peter
* old trgobj moved to x86/rgcpu and renamed to trgx86fpu
* tregisteralloctor renamed to trgobj
* removed rgobj from a lot of units
* moved location_* and reference_* to cgobj
* first things for mmx register allocation
Revision 1.55 2003/10/07 18:21:18 peter
* fix crash
* allow parameter subscription for register parameters
Revision 1.54 2003/10/02 21:17:38 peter
* fix operand order when a prefix opcode is supplied
Revision 1.53 2003/10/01 20:34:49 peter
* procinfo unit contains tprocinfo
* cginfo renamed to cgbase
* moved cgmessage to verbose
* fixed ppc and sparc compiles
Revision 1.52 2003/09/23 20:37:53 peter
* fix global var+offset
Revision 1.51 2003/09/23 17:56:06 peter
* locals and paras are allocated in the code generation
* tvarsym.localloc contains the location of para/local when
generating code for the current procedure
Revision 1.50 2003/09/03 15:55:01 peter
* NEWRA branch merged
Revision 1.49.2.2 2003/08/31 15:46:26 peter
* more updates for tregister
Revision 1.49.2.1 2003/08/28 18:35:08 peter
* tregister changed to cardinal
Revision 1.49 2003/06/06 14:41:59 peter
* use setsize for size specifier
Revision 1.48 2003/05/30 23:57:08 peter
* more sparc cleanup
* accumulator removed, splitted in function_return_reg (called) and
function_result_reg (caller)
Revision 1.47 2003/04/30 15:45:35 florian
* merged more x86-64/i386 code
Revision 1.46 2003/04/27 11:21:35 peter
* aktprocdef renamed to current_procdef
* procinfo renamed to current_procinfo
* procinfo will now be stored in current_module so it can be
cleaned up properly
* gen_main_procsym changed to create_main_proc and release_main_proc
to also generate a tprocinfo structure
* fixed unit implicit initfinal
Revision 1.45 2003/04/21 20:05:10 peter
* removed some ie checks
Revision 1.44 2003/03/28 19:16:57 peter
* generic constructor working for i386
* remove fixed self register
* esi added as address register for i386
Revision 1.43 2003/03/18 18:15:53 peter
* changed reg2opsize to function
Revision 1.42 2003/03/17 21:32:52 peter
* allow character constants in reference declaration
Revision 1.41 2003/02/26 22:57:44 daniel
* Changed no longer correct fillchar of reference into location_reset
Revision 1.40 2003/02/19 22:00:16 daniel
* Code generator converted to new register notation
- Horribily outdated todo.txt removed
Revision 1.39 2003/01/08 18:43:57 daniel
* Tregister changed into a record
Revision 1.38 2002/12/14 15:02:03 carl
* maxoperands -> max_operands (for portability in rautils.pas)
* fix some range-check errors with loadconst
+ add ncgadd unit to m68k
* some bugfix of a_param_reg with LOC_CREFERENCE
Revision 1.37 2002/12/01 22:08:34 carl
* some small cleanup (remove some specific operators which are not supported)
Revision 1.36 2002/11/15 01:58:59 peter
* merged changes from 1.0.7 up to 04-11
- -V option for generating bug report tracing
- more tracing for option parsing
- errors for cdecl and high()
- win32 import stabs
- win32 records<=8 are returned in eax:edx (turned off by default)
- heaptrc update
- more info for temp management in .s file with EXTDEBUG
Revision 1.35 2002/09/16 19:07:00 peter
* support [eax].constant as reference
Revision 1.34 2002/09/03 16:26:28 daniel
* Make Tprocdef.defs protected
Revision 1.33 2002/08/17 09:23:47 florian
* first part of procinfo rewrite
Revision 1.32 2002/08/13 18:01:52 carl
* rename swatoperands to swapoperands
+ m68k first compilable version (still needs a lot of testing):
assembler generator, system information , inline
assembler reader.
Revision 1.31 2002/08/11 14:32:31 peter
* renamed current_library to objectlibrary
Revision 1.30 2002/08/11 13:24:17 peter
* saving of asmsymbols in ppu supported
* asmsymbollist global is removed and moved into a new class
tasmlibrarydata that will hold the info of a .a file which
corresponds with a single module. Added librarydata to tmodule
to keep the library info stored for the module. In the future the
objectfiles will also be stored to the tasmlibrarydata class
* all getlabel/newasmsymbol and friends are moved to the new class
Revision 1.29 2002/07/01 18:46:34 peter
* internal linker
* reorganized aasm layer
Revision 1.28 2002/05/18 13:34:26 peter
* readded missing revisions
Revision 1.27 2002/05/16 19:46:52 carl
+ defines.inc -> fpcdefs.inc to avoid conflicts if compiling by hand
+ try to fix temp allocation (still in ifdef)
+ generic constructor calls
+ start of tassembler / tmodulebase class cleanup
Revision 1.25 2002/04/20 21:37:07 carl
+ generic FPC_CHECKPOINTER
+ first parameter offset in stack now portable
* rename some constants
+ move some cpu stuff to other units
- remove unused constents
* fix stacksize for some targets
* fix generic size problems which depend now on EXTEND_SIZE constant
* removing frame pointer in routines is only available for : i386,m68k and vis targets
Revision 1.24 2002/04/15 19:44:22 peter
* fixed stackcheck that would be called recursively when a stack
error was found
* generic changeregsize(reg,size) for i386 register resizing
* removed some more routines from cga unit
* fixed returnvalue handling
* fixed default stacksize of linux and go32v2, 8kb was a bit small :-)
Revision 1.23 2002/04/15 19:12:09 carl
+ target_info.size_of_pointer -> pointer_size
+ some cleanup of unused types/variables
* move several constants from cpubase to their specific units
(where they are used)
+ att_Reg2str -> gas_reg2str
+ int_reg2str -> std_reg2str
Revision 1.22 2002/04/04 19:06:13 peter
* removed unused units
* use tlocation.size in cg.a_*loc*() routines
Revision 1.21 2002/04/02 17:11:39 peter
* tlocation,treference update
* LOC_CONSTANT added for better constant handling
* secondadd splitted in multiple routines
* location_force_reg added for loading a location to a register
of a specified size
* secondassignment parses now first the right and then the left node
(this is compatible with Kylix). This saves a lot of push/pop especially
with string operations
* adapted some routines to use the new cg methods
Revision 1.20 2002/01/24 18:25:53 peter
* implicit result variable generation for assembler routines
* removed m_tp modeswitch, use m_tp7 or not(m_fpc) instead
}
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