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28740dce2d
fpc/compiler/rautils.pas
Jonas Maebe 28740dce2d - removed extra "fordefinition" parameter again from tprocdef.mangledname(), 
since the definition-specific adorning of JVM mangled names is Jasmin-
    specific, and such code has no place in symdef
  * moved code to adorn JVM mangled names for Jasmin definitions to agjasmin

git-svn-id: branches/jvmbackend@18346 -
2011-08-20 07:49:31 +00:00

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{
Copyright (c) 1998-2002 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;
{$i fpcdefs.inc}
Interface
Uses
cutils,cclasses,
globtype,aasmbase,aasmtai,aasmdata,cpubase,cpuinfo,cgbase,cgutils,
symconst,symbase,symtype,symdef,symsym;
Const
RPNMax = 10; { I think you only need 4, but just to be safe }
OpMax = 25;
{---------------------------------------------------------------------
Local Label Management
---------------------------------------------------------------------}
Type
{ Each local label has this structure associated with it }
TLocalLabel = class(TFPHashObject)
Emitted : boolean;
constructor Create(AList:TFPHashObjectList;const n:string);
function Gettasmlabel:tasmlabel;
private
lab : tasmlabel;
end;
TLocalLabelList = class(TFPHashObjectList)
procedure CheckEmitted;
end;
var
LocalLabelList : TLocalLabelList;
function CreateLocalLabel(const s: string; var hl: tasmlabel; emit:boolean):boolean;
Function SearchLabel(const s: string; var hl: tasmlabel;emit:boolean): boolean;
{---------------------------------------------------------------------
Instruction management
---------------------------------------------------------------------}
type
TOprType=(OPR_NONE,OPR_CONSTANT,OPR_SYMBOL,OPR_LOCAL,
OPR_REFERENCE,OPR_REGISTER,OPR_REGLIST,OPR_COND,OPR_REGSET,OPR_SHIFTEROP,OPR_MODEFLAGS);
TOprRec = record
case typ:TOprType of
OPR_NONE : ();
OPR_CONSTANT : (val:aint);
OPR_SYMBOL : (symbol:tasmsymbol;symofs:aint);
OPR_REFERENCE : (ref:treference);
OPR_LOCAL : (localsym:tabstractnormalvarsym;localsymofs:aint;localindexreg:tregister;localscale:byte;localgetoffset,localforceref:boolean);
OPR_REGISTER : (reg:tregister);
{$ifdef m68k}
OPR_REGLIST : (regset : tcpuregisterset);
{$endif m68k}
{$ifdef powerpc}
OPR_COND : (cond : tasmcond);
{$endif powerpc}
{$ifdef POWERPC64}
OPR_COND : (cond : tasmcond);
{$endif POWERPC64}
{$ifdef arm}
OPR_REGSET : (regset : tcpuregisterset; regtype: tregistertype; subreg: tsubregister);
OPR_SHIFTEROP : (shifterop : tshifterop);
OPR_COND : (cc : tasmcond);
OPR_MODEFLAGS : (flags : tcpumodeflags);
{$endif arm}
end;
TOperand = class
opr : TOprRec;
typesize : byte;
hastype, { if the operand has typecasted variable }
hasvar : boolean; { if the operand is loaded with a variable }
size : TCGSize;
constructor create;virtual;
destructor destroy;override;
Procedure SetSize(_size:longint;force:boolean);virtual;
Procedure SetCorrectSize(opcode:tasmop);virtual;
Function SetupResult:boolean;virtual;
Function SetupSelf:boolean;
Function SetupOldEBP:boolean;
Function SetupVar(const s:string;GetOffset : boolean): Boolean;
Function CheckOperand: boolean; virtual;
Procedure InitRef;
end;
TCOperand = class of TOperand;
TInstruction = class
operands : array[1..max_operands] of toperand;
opcode : tasmop;
condition : tasmcond;
ops : byte;
labeled : boolean;
constructor create(optype : tcoperand);virtual;
destructor destroy;override;
{ converts the instruction to an instruction how it's used by the assembler writer
and concats it to the passed list. The newly created item is returned if the
instruction was valid, otherwise nil is returned }
function ConcatInstruction(p:TAsmList) : tai;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;
{**********************************************************************}
{ 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 = class
public
Constructor create;
Destructor Destroy;override;
Function Evaluate(Expr: String): aint;
Function Priority(_Operator: Char): aint;
private
RPNStack : Array[1..RPNMax] of aint; { Stack For RPN calculator }
RPNTop : aint;
OpStack : Array[1..OpMax] of TExprOperator; { Operator stack For conversion }
OpTop : aint;
Procedure RPNPush(Num: aint);
Function RPNPop: aint;
Procedure RPNCalc(const token: String; prefix: boolean);
Procedure OpPush(_Operator: char; prefix: boolean);
{ In reality returns TExprOperaotr }
Procedure OpPop(var _Operator:TExprOperator);
end;
{ Evaluate an expression string to a aint }
Function CalculateExpression(const expression: string): aint;
{---------------------------------------------------------------------}
{ String routines }
{---------------------------------------------------------------------}
Function ParseVal(const S:String;base:byte):aint;
Function PadZero(Var s: String; n: byte): Boolean;
Function EscapeToPascal(const s:string): string;
{---------------------------------------------------------------------
Symbol helper routines
---------------------------------------------------------------------}
procedure AsmSearchSym(const s:string;var srsym:tsym;var srsymtable:TSymtable);
Function GetRecordOffsetSize(s:string;Var Offset: aint;var Size:aint; var mangledname: string; needvmtofs: boolean):boolean;
Function SearchType(const hs:string;var size:aint): Boolean;
Function SearchRecordType(const s:string): boolean;
Function SearchIConstant(const s:string; var l:aint): boolean;
{---------------------------------------------------------------------
Instruction generation routines
---------------------------------------------------------------------}
Procedure ConcatPasString(p : TAsmList;s:string);
Procedure ConcatLabel(p: TAsmList;var l : tasmlabel);
Procedure ConcatConstant(p : TAsmList;value: aint; constsize:byte);
Procedure ConcatConstSymbol(p : TAsmList;const sym:string;symtyp:tasmsymtype;l:aint);
Procedure ConcatRealConstant(p : TAsmList;value: bestreal; real_typ : tfloattype);
Procedure ConcatString(p : TAsmList;s:string);
procedure ConcatAlign(p:TAsmList;l:aint);
Procedure ConcatPublic(p:TAsmList;const s : string);
Procedure ConcatLocal(p:TAsmList;const s : string);
Implementation
uses
SysUtils,
defutil,systems,verbose,globals,
symtable,paramgr,
aasmcpu,
procinfo;
{*************************************************************************
TExprParse
*************************************************************************}
Constructor TExprParse.create;
Begin
end;
Procedure TExprParse.RPNPush(Num : aint);
{ 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_expr_illegal);
end;
Function TExprParse.RPNPop : aint;
{ 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_expr_illegal);
end;
Procedure TExprParse.RPNCalc(const Token : String; prefix:boolean); { RPN Calculator }
Var
Temp : aint;
n1,n2 : aint;
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
begin
n1:=RPNPop;
n2:=RPNPop;
RPNPush(n2 - n1);
end;
end;
'*' : RPNPush(RPNPop * RPNPop);
'&' :
begin
n1:=RPNPop;
n2:=RPNPop;
RPNPush(n2 and n1);
end;
'|' :
begin
n1:=RPNPop;
n2:=RPNPop;
RPNPush(n2 or n1);
end;
'~' : RPNPush(NOT RPNPop);
'<' :
begin
n1:=RPNPop;
n2:=RPNPop;
RPNPush(n2 SHL n1);
end;
'>' :
begin
n1:=RPNPop;
n2:=RPNPop;
RPNPush(n2 SHR n1);
end;
'%' :
begin
Temp:=RPNPop;
if Temp <> 0 then
RPNPush(RPNPop mod Temp)
else
begin
Message(asmr_e_expr_zero_divide);
{ push 1 for error recovery }
RPNPush(1);
end;
end;
'^' : RPNPush(RPNPop XOR RPNPop);
'/' :
begin
Temp:=RPNPop;
if Temp <> 0 then
RPNPush(RPNPop div Temp)
else
begin
Message(asmr_e_expr_zero_divide);
{ push 1 for error recovery }
RPNPush(1);
end;
end;
end
else
begin
{ Convert String to number and add to stack }
Val(Token, Temp, LocalError);
if LocalError = 0 then
RPNPush(Temp)
else
begin
Message(asmr_e_expr_illegal);
{ push 1 for error recovery }
RPNPush(1);
end;
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_expr_illegal);
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_expr_illegal);
end;
Function TExprParse.Priority(_Operator : Char) : aint;
{ Return priority of operator }
{ The greater the priority, the higher the precedence }
begin
Case _Operator OF
'(' :
Priority:=0;
'|','^','~' : // the lowest priority: OR, XOR, NOT
Priority:=0;
'&' : // bigger priority: AND
Priority:=1;
'+', '-' : // bigger priority: +, -
Priority:=2;
'*', '/','%','<','>' : // the highest priority: *, /, MOD, SHL, SHR
Priority:=3;
else
Message(asmr_e_expr_illegal);
end;
end;
Function TExprParse.Evaluate(Expr : String):aint;
Var
I : longint;
Token : String;
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 (OpTop>0) and (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_expr_illegal); { 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.Destroy;
Begin
end;
Function CalculateExpression(const expression: string): aint;
var
expr: TExprParse;
Begin
expr:=TExprParse.create;
CalculateExpression:=expr.Evaluate(expression);
expr.Free;
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 : aint;
hs : string;
temp : string;
c : char;
Begin
hs:='';
len:=0;
i:=0;
while (i<length(s)) and (len<255) do
begin
Inc(i);
if (s[i]='\') and (i<length(s)) then
Begin
inc(i);
case s[i] of
'\' :
c:='\';
'b':
c:=#8;
'f':
c:=#12;
'n':
c:=#10;
'r':
c:=#13;
't':
c:=#9;
'"':
c:='"';
'0'..'7':
Begin
temp:=s[i];
temp:=temp+s[i+1];
temp:=temp+s[i+2];
inc(i,2);
c:=chr(ParseVal(temp,8));
end;
'x':
Begin
temp:=s[i+1];
temp:=temp+s[i+2];
inc(i,2);
c:=chr(ParseVal(temp,16));
end;
else
Begin
Message1(asmr_e_escape_seq_ignored,s[i]);
c:=s[i];
end;
end;
end
else
c:=s[i];
inc(len);
hs[len]:=c;
end;
hs[0]:=chr(len);
EscapeToPascal:=hs;
end;
Function ParseVal(const S:String;base:byte):aint;
{ Converts a decimal string to aint }
var
code : integer;
errmsg : word;
prefix : string[2];
Begin
case base of
2 :
begin
errmsg:=asmr_e_error_converting_binary;
prefix:='%';
end;
8 :
begin
errmsg:=asmr_e_error_converting_octal;
prefix:='&';
end;
10 :
begin
errmsg:=asmr_e_error_converting_decimal;
prefix:='';
end;
16 :
begin
errmsg:=asmr_e_error_converting_hexadecimal;
prefix:='$';
end;
else
internalerror(200501202);
end;
val(prefix+s,result,code);
if code<>0 then
begin
val(prefix+s,aword(result),code);
if code<>0 then
begin
Message1(errmsg,s);
result:=0;
end;
end;
end;
Function PadZero(Var s: String; n: byte): Boolean;
Begin
PadZero:=TRUE;
{ Do some error checking first }
if Length(s) = n then
exit
else
if Length(s) > 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.Create;
begin
size:=OS_NO;
hastype:=false;
hasvar:=false;
FillChar(Opr,sizeof(Opr),0);
end;
destructor TOperand.destroy;
begin
end;
Procedure TOperand.SetSize(_size:longint;force:boolean);
begin
if force or
((size = OS_NO) and (_size<=16)) then
Begin
case _size of
1 : size:=OS_8;
2 : size:=OS_16{ could be S_IS};
4 : size:=OS_32{ could be S_IL or S_FS};
8 : size:=OS_64{ could be S_D or S_FL};
10 : size:=OS_F80;
16 : size:=OS_128;
end;
end;
end;
Procedure TOperand.SetCorrectSize(opcode:tasmop);
begin
end;
function TOperand.SetupResult:boolean;
begin
SetupResult:=false;
{ replace by correct offset. }
with current_procinfo.procdef do
if (not is_void(returndef)) then
begin
if (m_tp7 in current_settings.modeswitches) and
(not paramanager.ret_in_param(returndef,proccalloption)) then
begin
message(asmr_e_cannot_use_RESULT_here);
exit;
end;
SetupResult:=setupvar('result',false)
end
else
message(asmr_e_void_function);
end;
Function TOperand.SetupSelf:boolean;
Begin
SetupSelf:=false;
if assigned(current_structdef) then
SetupSelf:=setupvar('self',false)
else
Message(asmr_e_cannot_use_SELF_outside_a_method);
end;
Function TOperand.SetupOldEBP:boolean;
Begin
SetupOldEBP:=false;
if current_procinfo.procdef.parast.symtablelevel>normal_function_level then
SetupOldEBP:=setupvar('parentframe',false)
else
Message(asmr_e_cannot_use_OLDEBP_outside_nested_procedure);
end;
Function TOperand.SetupVar(const s:string;GetOffset : boolean): Boolean;
function symtable_has_localvarsyms(st:TSymtable):boolean;
var
sym : tsym;
i : longint;
begin
result:=false;
for i:=0 to st.SymList.Count-1 do
begin
sym:=tsym(st.SymList[i]);
if sym.typ=localvarsym then
begin
result:=true;
exit;
end;
end;
end;
procedure setconst(l:aint);
begin
{ We return the address of the field, just like Delphi/TP }
case opr.typ of
OPR_NONE :
begin
opr.typ:=OPR_CONSTANT;
opr.val:=l;
end;
OPR_CONSTANT :
inc(opr.val,l);
OPR_REFERENCE :
inc(opr.ref.offset,l);
OPR_LOCAL :
inc(opr.localsymofs,l);
else
Message(asmr_e_invalid_operand_type);
end;
end;
{ 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 : tsym;
srsymtable : TSymtable;
harrdef : tarraydef;
indexreg : tregister;
l : aint;
plist : ppropaccesslistitem;
Begin
SetupVar:=false;
asmsearchsym(s,sym,srsymtable);
if sym = nil then
exit;
if sym.typ=absolutevarsym then
begin
if (tabsolutevarsym(sym).abstyp=tovar) then
begin
{ Only support simple loads }
plist:=tabsolutevarsym(sym).ref.firstsym;
if assigned(plist) and
(plist^.sltype=sl_load) then
sym:=plist^.sym
else
begin
Message(asmr_e_unsupported_symbol_type);
exit;
end;
end
else
begin
Message(asmr_e_unsupported_symbol_type);
exit;
end;
end;
case sym.typ of
fieldvarsym :
begin
if not tabstractrecordsymtable(sym.owner).is_packed then
setconst(tfieldvarsym(sym).fieldoffset)
else if tfieldvarsym(sym).fieldoffset mod 8 = 0 then
setconst(tfieldvarsym(sym).fieldoffset div 8)
else
Message(asmr_e_packed_element);
hasvar:=true;
SetupVar:=true;
end;
staticvarsym,
localvarsym,
paravarsym :
begin
{ we always assume in asm statements that }
{ that the variable is valid. }
tabstractvarsym(sym).varstate:=vs_readwritten;
inc(tabstractvarsym(sym).refs);
{ variable can't be placed in a register }
tabstractvarsym(sym).varregable:=vr_none;
{ and anything may happen with its address }
tabstractvarsym(sym).addr_taken:=true;
case sym.typ of
staticvarsym :
begin
initref;
opr.ref.symbol:=current_asmdata.RefAsmSymbol(tstaticvarsym(sym).mangledname);
end;
paravarsym,
localvarsym :
begin
if opr.typ=OPR_REFERENCE then
begin
indexreg:=opr.ref.base;
if opr.ref.index<>NR_NO then
begin
if indexreg=NR_NO then
indexreg:=opr.ref.index
else
Message(asmr_e_multiple_index);
end;
end
else
indexreg:=NR_NO;
opr.typ:=OPR_LOCAL;
if assigned(current_procinfo.parent) and
not(po_inline in current_procinfo.procdef.procoptions) and
(sym.owner<>current_procinfo.procdef.localst) and
(sym.owner<>current_procinfo.procdef.parast) and
(current_procinfo.procdef.localst.symtablelevel>normal_function_level) and
symtable_has_localvarsyms(current_procinfo.procdef.localst) then
message1(asmr_e_local_para_unreachable,s);
opr.localsym:=tabstractnormalvarsym(sym);
opr.localsymofs:=0;
opr.localindexreg:=indexreg;
opr.localscale:=0;
opr.localgetoffset:=GetOffset;
if paramanager.push_addr_param(tabstractvarsym(sym).varspez,tabstractvarsym(sym).vardef,current_procinfo.procdef.proccalloption) then
SetSize(sizeof(pint),false);
end;
end;
case tabstractvarsym(sym).vardef.typ of
orddef,
enumdef,
pointerdef,
floatdef :
SetSize(tabstractvarsym(sym).getsize,false);
arraydef :
begin
{ for arrays try to get the element size, take care of
multiple indexes }
harrdef:=tarraydef(tabstractvarsym(sym).vardef);
while assigned(harrdef.elementdef) and
(harrdef.elementdef.typ=arraydef) do
harrdef:=tarraydef(harrdef.elementdef);
if not is_packed_array(harrdef) then
SetSize(harrdef.elesize,false)
else
begin
if (harrdef.elepackedbitsize mod 8) = 0 then
SetSize(harrdef.elepackedbitsize div 8,false)
end;
end;
end;
hasvar:=true;
SetupVar:=true;
Exit;
end;
constsym :
begin
if tconstsym(sym).consttyp=constord then
begin
setconst(tconstsym(sym).value.valueord.svalue);
SetupVar:=true;
Exit;
end;
end;
typesym :
begin
if ttypesym(sym).typedef.typ in [recorddef,objectdef] then
begin
setconst(0);
SetupVar:=TRUE;
Exit;
end;
end;
procsym :
begin
if opr.typ<>OPR_NONE then
Message(asmr_e_invalid_operand_type);
if Tprocsym(sym).ProcdefList.Count>1 then
Message(asmr_w_calling_overload_func);
l:=opr.ref.offset;
opr.typ:=OPR_SYMBOL;
opr.symbol:=current_asmdata.RefAsmSymbol(tprocdef(tprocsym(sym).ProcdefList[0]).mangledname);
opr.symofs:=l;
hasvar:=true;
SetupVar:=TRUE;
Exit;
end;
else
begin
Message(asmr_e_unsupported_symbol_type);
exit;
end;
end;
end;
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. }
{*********************************************************************}
var
l : aint;
hsymofs : aint;
hsymbol : tasmsymbol;
reg : tregister;
Begin
case opr.typ of
OPR_REFERENCE :
exit;
OPR_CONSTANT :
begin
l:=opr.val;
opr.typ:=OPR_REFERENCE;
Fillchar(opr.ref,sizeof(treference),0);
opr.Ref.Offset:=l;
end;
OPR_NONE :
begin
opr.typ:=OPR_REFERENCE;
Fillchar(opr.ref,sizeof(treference),0);
end;
OPR_REGISTER :
begin
reg:=opr.reg;
opr.typ:=OPR_REFERENCE;
Fillchar(opr.ref,sizeof(treference),0);
opr.Ref.base:=reg;
end;
OPR_SYMBOL :
begin
hsymbol:=opr.symbol;
hsymofs:=opr.symofs;
opr.typ:=OPR_REFERENCE;
Fillchar(opr.ref,sizeof(treference),0);
opr.ref.symbol:=hsymbol;
opr.ref.offset:=hsymofs;
end;
else
begin
Message(asmr_e_invalid_operand_type);
{ Recover }
opr.typ:=OPR_REFERENCE;
Fillchar(opr.ref,sizeof(treference),0);
end;
end;
end;
Function TOperand.CheckOperand: boolean;
{*********************************************************************}
{ Description: This routine checks if the operand is of }
{ valid, and returns false if it isn't. Does nothing by default. }
{*********************************************************************}
begin
result:=true;
end;
{****************************************************************************
TInstruction
****************************************************************************}
constructor TInstruction.create(optype : tcoperand);
var
i : longint;
Begin
{ these field are set to 0 anyways by the constructor helper (FK)
Opcode:=A_NONE;
Condition:=C_NONE;
Ops:=0;
}
for i:=1 to max_operands do
Operands[i]:=optype.create;
Labeled:=false;
end;
destructor TInstruction.destroy;
var
i : longint;
Begin
for i:=1 to max_operands do
Operands[i].free;
end;
Procedure TInstruction.Swapoperands;
Var
p : toperand;
Begin
case ops of
0,1:
;
2 : begin
{ 0,1 -> 1,0 }
p:=Operands[1];
Operands[1]:=Operands[2];
Operands[2]:=p;
end;
3 : begin
{ 0,1,2 -> 2,1,0 }
p:=Operands[1];
Operands[1]:=Operands[3];
Operands[3]:=p;
end;
4 : begin
{ 0,1,2,3 -> 3,2,1,0 }
p:=Operands[1];
Operands[1]:=Operands[4];
Operands[4]:=p;
p:=Operands[2];
Operands[2]:=Operands[3];
Operands[3]:=p;
end;
else
internalerror(201108142);
end;
end;
function TInstruction.ConcatInstruction(p:TAsmList) : tai;
var
ai : taicpu;
i : longint;
begin
for i:=1 to Ops do
operands[i].CheckOperand;
ai:=taicpu.op_none(opcode);
ai.Ops:=Ops;
ai.Allocate_oper(Ops);
for i:=1 to Ops do
with operands[i].opr do
begin
case typ of
OPR_CONSTANT :
ai.loadconst(i-1,val);
OPR_REGISTER:
ai.loadreg(i-1,reg);
OPR_SYMBOL:
ai.loadsymbol(i-1,symbol,symofs);
OPR_LOCAL :
ai.loadlocal(i-1,localsym,localsymofs,localindexreg,
localscale,localgetoffset,localforceref);
OPR_REFERENCE:
ai.loadref(i-1,ref);
{$ifdef ARM}
OPR_REGSET:
ai.loadregset(i-1,regtype,subreg,regset);
OPR_SHIFTEROP:
ai.loadshifterop(i-1,shifterop);
OPR_COND:
ai.loadconditioncode(i-1,cc);
OPR_MODEFLAGS:
ai.loadmodeflags(i-1,flags);
{$endif ARM}
{ ignore wrong operand }
OPR_NONE:
;
else
internalerror(200501051);
end;
end;
ai.SetCondition(condition);
{ Concat the opcode or give an error }
if assigned(ai) then
p.concat(ai)
else
Message(asmr_e_invalid_opcode_and_operand);
result:=ai;
end;
{***************************************************************************
TLocalLabel
***************************************************************************}
constructor TLocalLabel.create(AList:TFPHashObjectList;const n:string);
begin
inherited Create(AList,n);
lab:=nil;
emitted:=false;
end;
function TLocalLabel.Gettasmlabel:tasmlabel;
begin
if not assigned(lab) then
begin
current_asmdata.getjumplabel(lab);
{ this label is forced to be used so it's always written }
lab.increfs;
end;
Gettasmlabel:=lab;
end;
{***************************************************************************
TLocalLabelList
***************************************************************************}
procedure TLocalLabelList.CheckEmitted;
var
i : longint;
lab : TLocalLabel;
begin
for i:=0 to LocalLabelList.Count-1 do
begin
lab:=TLocalLabel(LocalLabelList[i]);
if not lab.emitted then
Message1(asmr_e_unknown_label_identifier,lab.name);
end;
end;
function CreateLocalLabel(const s: string; var hl: tasmlabel; emit:boolean):boolean;
var
lab : TLocalLabel;
Begin
CreateLocalLabel:=true;
{ Check if it already is defined }
lab:=TLocalLabel(LocalLabellist.Find(s));
if not assigned(lab) then
lab:=TLocalLabel.Create(LocalLabellist,s);
{ 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.Gettasmlabel;
end;
{****************************************************************************
Symbol table helper routines
****************************************************************************}
procedure AsmSearchSym(const s:string;var srsym:tsym;var srsymtable:TSymtable);
var
i : integer;
begin
i:=pos('.',s);
{ allow unit.identifier }
if i>0 then
begin
searchsym(Copy(s,1,i-1),srsym,srsymtable);
if assigned(srsym) then
begin
if (srsym.typ=unitsym) and
(srsym.owner.symtabletype in [staticsymtable,globalsymtable]) and
srsym.owner.iscurrentunit then
searchsym_in_module(tunitsym(srsym).module,Copy(s,i+1,255),srsym,srsymtable)
else
begin
srsym:=nil;
srsymtable:=nil;
end;
end;
end
else
searchsym(s,srsym,srsymtable);
end;
Function SearchType(const hs:string;var size:aint): Boolean;
var
srsym : tsym;
srsymtable : TSymtable;
begin
result:=false;
size:=0;
asmsearchsym(hs,srsym,srsymtable);
if assigned(srsym) and
(srsym.typ=typesym) then
begin
size:=ttypesym(srsym).typedef.size;
result:=true;
end;
end;
Function SearchRecordType(const s:string): boolean;
var
srsym : tsym;
srsymtable : TSymtable;
Begin
SearchRecordType:=false;
{ Check the constants in symtable }
asmsearchsym(s,srsym,srsymtable);
if srsym <> nil then
Begin
case srsym.typ of
typesym :
begin
if ttypesym(srsym).typedef.typ in [recorddef,objectdef] then
begin
SearchRecordType:=true;
exit;
end;
end;
fieldvarsym :
begin
if (tfieldvarsym(srsym).vardef.typ in [recorddef,objectdef]) then
begin
SearchRecordType:=true;
exit;
end;
end;
end;
end;
end;
Function SearchIConstant(const s:string; var l:aint): 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. }
{**********************************************************************}
var
srsym : tsym;
srsymtable : TSymtable;
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 }
asmsearchsym(s,srsym,srsymtable);
if srsym <> nil then
Begin
case srsym.typ of
constsym :
begin
if tconstsym(srsym).consttyp=constord then
Begin
l:=tconstsym(srsym).value.valueord.svalue;
SearchIConstant:=TRUE;
exit;
end;
end;
enumsym:
Begin
l:=tenumsym(srsym).value;
SearchIConstant:=TRUE;
exit;
end;
end;
end;
end;
Function GetRecordOffsetSize(s:string;Var Offset: aint;var Size:aint; var mangledname: string; needvmtofs: boolean):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 : TSymtable;
harrdef : tarraydef;
sym : tsym;
srsymtable : TSymtable;
i : longint;
base : string;
procdef: tprocdef;
Begin
GetRecordOffsetSize:=FALSE;
Offset:=0;
Size:=0;
mangledname:='';
i:=pos('.',s);
if i=0 then
i:=255;
base:=Copy(s,1,i-1);
delete(s,1,i);
if base='SELF' then
st:=current_structdef.symtable
else
begin
asmsearchsym(base,sym,srsymtable);
st:=nil;
{ we can start with a var,type,typedconst }
if assigned(sym) then
case sym.typ of
staticvarsym,
localvarsym,
paravarsym :
st:=Tabstractvarsym(sym).vardef.GetSymtable(gs_record);
typesym :
st:=Ttypesym(sym).typedef.GetSymtable(gs_record);
end
else
s:='';
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);
sym:=search_struct_member(tabstractrecorddef(st.defowner),base);
if not assigned(sym) then
begin
GetRecordOffsetSize:=false;
exit;
end;
st:=nil;
case sym.typ of
fieldvarsym :
with Tfieldvarsym(sym) do
begin
if not tabstractrecordsymtable(sym.owner).is_packed then
inc(Offset,fieldoffset)
else if tfieldvarsym(sym).fieldoffset mod 8 = 0 then
inc(Offset,fieldoffset div 8)
else
Message(asmr_e_packed_element);
size:=getsize;
case vardef.typ of
arraydef :
begin
{ for arrays try to get the element size, take care of
multiple indexes }
harrdef:=tarraydef(vardef);
while assigned(harrdef.elementdef) and
(harrdef.elementdef.typ=arraydef) do
harrdef:=tarraydef(harrdef.elementdef);
if not is_packed_array(harrdef) then
size:=harrdef.elesize
else
begin
if (harrdef.elepackedbitsize mod 8) <> 0 then
Message(asmr_e_packed_element);
size := (harrdef.elepackedbitsize + 7) div 8;
end;
end;
recorddef :
st:=trecorddef(vardef).symtable;
objectdef :
st:=tobjectdef(vardef).symtable;
end;
end;
procsym:
begin
st:=nil;
if Tprocsym(sym).ProcdefList.Count>1 then
Message(asmr_w_calling_overload_func);
procdef:=tprocdef(tprocsym(sym).ProcdefList[0]);
if (not needvmtofs) then
begin
mangledname:=procdef.mangledname;
end
else
begin
{ can only get the vmtoffset of virtual methods }
if not(po_virtualmethod in procdef.procoptions) or
is_objectpascal_helper(procdef.struct) then
Message1(asmr_e_no_vmtoffset_possible,FullTypeName(procdef,nil))
else
begin
{ size = sizeof(target_system_pointer) }
size:=sizeof(pint);
offset:=tobjectdef(procdef.struct).vmtmethodoffset(procdef.extnumber)
end;
end;
{ if something comes after the procsym, it's invalid assembler syntax }
GetRecordOffsetSize:=(s='');
exit;
end;
end;
end;
{ Support Field.Type as typecasting }
if (st=nil) and (s<>'') then
begin
asmsearchsym(s,sym,srsymtable);
if assigned(sym) and (sym.typ=typesym) then
begin
size:=ttypesym(sym).typedef.size;
s:=''
end;
end;
GetRecordOffsetSize:=(s='');
end;
Function SearchLabel(const s: string; var hl: tasmlabel;emit:boolean): boolean;
var
sym : tsym;
srsymtable : TSymtable;
hs : string;
Begin
hl:=nil;
SearchLabel:=false;
{ Check for pascal labels, which are case insensetive }
hs:=upper(s);
asmsearchsym(hs,sym,srsymtable);
if sym=nil then
exit;
case sym.typ of
labelsym :
begin
if symtablestack.top.symtablelevel<>srsymtable.symtablelevel then
begin
Tlabelsym(sym).nonlocal:=true;
if emit then
exclude(current_procinfo.procdef.procoptions,po_inline);
end;
if not(assigned(tlabelsym(sym).asmblocklabel)) then
if Tlabelsym(sym).nonlocal then
current_asmdata.getglobaljumplabel(tlabelsym(sym).asmblocklabel)
else
current_asmdata.getjumplabel(tlabelsym(sym).asmblocklabel);
hl:=tlabelsym(sym).asmblocklabel;
if emit then
tlabelsym(sym).defined:=true
else
tlabelsym(sym).used:=true;
SearchLabel:=true;
end;
end;
end;
{*************************************************************************}
{ Instruction Generation Utilities }
{*************************************************************************}
Procedure ConcatString(p : TAsmList;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(Tai_string.Create_pchar(strpcopy(pc,s),length(s)));
end;
Procedure ConcatPasString(p : TAsmList;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(Tai_string.Create(s));
end;
Procedure ConcatConstant(p: TAsmList; value: aint; constsize:byte);
{*********************************************************************}
{ PROCEDURE ConcatConstant(value: aint; maxvalue: aint); }
{ 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. }
{ $ffffffff -> create a dword node. }
{*********************************************************************}
var
rangelo,rangehi : int64;
Begin
case constsize of
1 :
begin
p.concat(Tai_const.Create_8bit(byte(value)));
rangelo:=low(shortint);
rangehi:=high(byte);
end;
2 :
begin
p.concat(Tai_const.Create_16bit(word(value)));
rangelo:=low(smallint);
rangehi:=high(word);
end;
4 :
begin
p.concat(Tai_const.Create_32bit(longint(value)));
rangelo:=low(longint);
rangehi:=high(cardinal);
end;
8 :
begin
p.concat(Tai_const.Create_64bit(int64(value)));
rangelo:=0;
rangehi:=0;
end;
else
internalerror(200405011);
end;
{ check for out of bounds }
if (rangelo<>0) and
((value>rangehi) or (value<rangelo)) then
Message(asmr_e_constant_out_of_bounds);
end;
Procedure ConcatConstSymbol(p : TAsmList;const sym:string;symtyp:tasmsymtype;l:aint);
begin
p.concat(Tai_const.Createname(sym,l));
end;
Procedure ConcatRealConstant(p : TAsmList;value: bestreal; real_typ : tfloattype);
{***********************************************************************}
{ PROCEDURE ConcatRealConstant(value: bestreal; real_typ : tfloattype); }
{ Description: This routine adds the value constant to the current }
{ instruction linked list. }
{ real_typ -> indicates the type of the real data to initialize: }
{ s32real -> create a single node. }
{ s64real -> create a double node. }
{ s80real -> create an extended node. }
{ s64bit -> create a comp node. }
{ f32bit -> create a fixed node. (not used normally) }
{***********************************************************************}
Begin
case real_typ of
s32real : p.concat(Tai_real_32bit.Create(value));
s64real :
{$ifdef ARM}
if is_double_hilo_swapped then
p.concat(Tai_real_64bit.Create_hiloswapped(value))
else
{$endif ARM}
p.concat(Tai_real_64bit.Create(value));
s80real : p.concat(Tai_real_80bit.Create(value,s80floattype.size));
sc80real : p.concat(Tai_real_80bit.Create(value,sc80floattype.size));
s64comp : p.concat(Tai_comp_64bit.Create(trunc(value)));
end;
end;
Procedure ConcatLabel(p: TAsmList;var l : tasmlabel);
{*********************************************************************}
{ PROCEDURE ConcatLabel }
{ Description: This routine either emits a label or a labeled }
{ instruction to the linked list of instructions. }
{*********************************************************************}
begin
p.concat(Tai_label.Create(l));
end;
procedure ConcatAlign(p:TAsmList;l:aint);
{*********************************************************************}
{ PROCEDURE ConcatPublic }
{ Description: This routine emits an global definition to the }
{ linked list of instructions.(used by AT&T styled asm) }
{*********************************************************************}
begin
p.concat(Tai_align.Create(l));
end;
procedure ConcatPublic(p:TAsmList;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(Tai_symbol.Createname_global(s,AT_LABEL,0));
end;
procedure ConcatLocal(p:TAsmList;const s : string);
{*********************************************************************}
{ PROCEDURE ConcatLocal }
{ Description: This routine emits an local definition to the }
{ linked list of instructions. }
{*********************************************************************}
begin
p.concat(Tai_symbol.Createname(s,AT_LABEL,0));
end;
end.
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