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{
$Id: rappcgas.pas,v 1.19 2005/02/14 17:13:10 peter Exp $
Copyright (c) 1998-2002 by Carl Eric Codere and Peter Vreman
Does the parsing for the PowerPC GNU AS 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 rappcgas;
{$I fpcdefs.inc}
interface
uses
raatt, rappc;
type
tppcattreader = class(tattreader)
function is_asmopcode(const s: string): boolean; override;
procedure handleopcode; override;
procedure BuildReference(oper: tppcoperand);
procedure BuildOperand(oper: tppcoperand);
procedure BuildOpCode(instr: tppcinstruction);
procedure ReadAt(oper: tppcoperand);
procedure ReadSym(oper: tppcoperand);
procedure ConvertCalljmp(instr: tppcinstruction);
function is_targetdirective(const s: string): boolean; override;
procedure HandleTargetDirective; override;
end;
implementation
uses
{ helpers }
cutils,
{ global }
globtype, globals, verbose,
systems,
{ aasm }
cpubase, aasmbase, aasmtai,aasmdata, aasmcpu,
{ symtable }
symconst, symsym, symdef,
{ parser }
procinfo,
rabase, rautils,
cgbase, cgobj, cgppc, paramgr
;
procedure tppcattreader.ReadSym(oper: tppcoperand);
var
tempstr, mangledname: string;
typesize, l, k: aint;
begin
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, false) then
Message1(sym_e_unknown_id, tempstr);
{ record.field ? }
if actasmtoken = AS_DOT then
begin
BuildRecordOffsetSize(tempstr, l, k, mangledname, false);
if (mangledname<>'') then
Message(asmr_e_invalid_reference_syntax);
inc(oper.opr.ref.offset, l);
end;
end;
procedure tppcattreader.ReadAt(oper: tppcoperand);
begin
{ check for ...@ }
if actasmtoken = AS_AT then
begin
if (oper.opr.ref.symbol = nil) and
(oper.opr.ref.offset = 0) then
Message(asmr_e_invalid_reference_syntax);
Consume(AS_AT);
if actasmtoken = AS_ID then
begin
if upper(actasmpattern) = 'L' then
oper.opr.ref.refaddr := addr_low
else if upper(actasmpattern) = 'HA' then
oper.opr.ref.refaddr := addr_higha
else if upper(actasmpattern) = 'H' then
oper.opr.ref.refaddr := addr_high
else if upper(actasmpattern) = 'HIGHERA' then
oper.opr.ref.refaddr := addr_highera
else if upper(actasmpattern) = 'HIGHESTA' then
oper.opr.ref.refaddr := addr_highesta
else if upper(actasmpattern) = 'HIGHER' then
oper.opr.ref.refaddr := addr_higher
else if upper(actasmpattern) = 'HIGHEST' then
oper.opr.ref.refaddr := addr_highest
else
Message(asmr_e_invalid_reference_syntax);
{ darwin/ppc64's relocation symbols are 32 bits }
if (target_info.system = system_powerpc64_darwin) and
(not (oper.opr.ref.refaddr in [addr_no, addr_low, addr_higha])) then
Message(asmr_e_invalid_reference_syntax);
Consume(AS_ID);
end
else
Message(asmr_e_invalid_reference_syntax);
end;
end;
procedure tppcattreader.BuildReference(oper: tppcoperand);
procedure Consume_RParen;
begin
if actasmtoken <> AS_RPAREN then
begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(true);
end
else
begin
Consume(AS_RPAREN);
if not (actasmtoken in [AS_COMMA, AS_SEPARATOR, AS_END]) then
begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(true);
end;
end;
end;
var
l: aint;
relsym: string;
asmsymtyp: tasmsymtype;
begin
Consume(AS_LPAREN);
case actasmtoken of
AS_INTNUM,
AS_MINUS,
AS_PLUS:
begin
{ offset(offset) is invalid }
if oper.opr.Ref.Offset <> 0 then
begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(true);
end
else
begin
oper.opr.Ref.Offset := BuildConstExpression(false, true);
Consume(AS_RPAREN);
if actasmtoken = AS_AT then
ReadAt(oper);
end;
exit;
end;
AS_REGISTER: { (reg ... }
begin
if ((oper.opr.typ = OPR_REFERENCE) and (oper.opr.ref.base <> NR_NO)) or
((oper.opr.typ = OPR_LOCAL) and (oper.opr.localsym.localloc.loc <>
LOC_REGISTER)) then
message(asmr_e_cannot_index_relative_var);
oper.opr.ref.base := actasmregister;
Consume(AS_REGISTER);
{ can either be a register or a right parenthesis }
{ (reg) }
if actasmtoken = AS_RPAREN then
begin
{ detect RTOC-based symbol accesses }
if assigned(oper.opr.ref.symbol) and
(oper.opr.ref.base=NR_RTOC) and
(oper.opr.ref.offset=0) then
begin
{ replace global symbol reference with TOC entry name
for AIX }
if target_info.system in systems_aix then
tcgppcgen(cg).get_aix_toc_sym(nil,oper.opr.ref.symbol.name,asmsym2indsymflags(oper.opr.ref.symbol),oper.opr.ref,true);
oper.opr.ref.refaddr:=addr_pic_no_got;
end;
Consume_RParen;
exit;
end;
{ (reg,reg .. }
Consume(AS_COMMA);
if (actasmtoken = AS_REGISTER) and
(oper.opr.Ref.Offset = 0) then
begin
oper.opr.ref.index := actasmregister;
Consume(AS_REGISTER);
Consume_RParen;
end
else
begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(false);
end;
end; {end case }
AS_ID:
begin
ReadSym(oper);
case actasmtoken of
AS_PLUS:
begin
{ add a constant expression? }
l:=BuildConstExpression(true,true);
case oper.opr.typ of
OPR_CONSTANT :
inc(oper.opr.val,l);
OPR_LOCAL :
inc(oper.opr.localsymofs,l);
OPR_REFERENCE :
inc(oper.opr.ref.offset,l);
else
internalerror(200309202);
end;
end;
AS_MINUS:
begin
Consume(AS_MINUS);
BuildConstSymbolExpression(false,true,false,l,relsym,asmsymtyp);
if (relsym<>'') then
begin
if (oper.opr.typ = OPR_REFERENCE) then
oper.opr.ref.relsymbol:=current_asmdata.RefAsmSymbol(relsym,asmsymtyp)
else
begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(false);
end
end
else
begin
case oper.opr.typ of
OPR_CONSTANT :
dec(oper.opr.val,l);
OPR_LOCAL :
dec(oper.opr.localsymofs,l);
OPR_REFERENCE :
dec(oper.opr.ref.offset,l);
else
internalerror(2007092601);
end;
end;
end;
end;
Consume(AS_RPAREN);
if actasmtoken = AS_AT then
ReadAt(oper);
end;
AS_COMMA: { (, ... can either be scaling, or index }
begin
Consume(AS_COMMA);
{ Index }
if (actasmtoken = AS_REGISTER) then
begin
oper.opr.ref.index := actasmregister;
Consume(AS_REGISTER);
{ check for scaling ... }
Consume_RParen;
end
else
begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(false);
end;
end;
else
begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(false);
end;
end;
end;
procedure tppcattreader.BuildOperand(oper: tppcoperand);
var
expr: string;
typesize, l: aint;
procedure AddLabelOperand(hl: tasmlabel);
begin
if not (actasmtoken in [AS_PLUS, AS_MINUS, AS_LPAREN]) and
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;
procedure MaybeRecordOffset;
var
mangledname : string;
hasdot: boolean;
l,
toffset,
tsize: aint;
begin
if not (actasmtoken in [AS_DOT, AS_PLUS, AS_MINUS]) then
exit;
l := 0;
mangledname := '';
hasdot := (actasmtoken = AS_DOT);
if hasdot then
begin
if expr <> '' then
begin
BuildRecordOffsetSize(expr, toffset, tsize, mangledname, false);
if (oper.opr.typ<>OPR_CONSTANT) and
(mangledname<>'') then
Message(asmr_e_wrong_sym_type);
inc(l, toffset);
oper.SetSize(tsize, true);
end;
end;
if actasmtoken in [AS_PLUS, AS_MINUS] then
inc(l, BuildConstExpression(true, false));
case oper.opr.typ of
OPR_LOCAL:
begin
{ don't allow direct access to fields of parameters, because that
will generate buggy code. Allow it only for explicit typecasting }
if hasdot and
(not oper.hastype) then
checklocalsubscript(oper.opr.localsym);
inc(oper.opr.localsymofs, l)
end;
OPR_CONSTANT:
if (mangledname<>'') then
begin
if (oper.opr.val<>0) then
Message(asmr_e_wrong_sym_type);
oper.opr.typ:=OPR_SYMBOL;
oper.opr.symbol:=current_asmdata.DefineAsmSymbol(mangledname,AB_EXTERNAL,AT_FUNCTION,voidcodepointertype);
end
else
inc(oper.opr.val,l);
OPR_REFERENCE:
inc(oper.opr.ref.offset, l);
OPR_SYMBOL:
Message(asmr_e_invalid_symbol_ref);
else
internalerror(200309221);
end;
end;
function MaybeBuildReference: boolean;
{ Try to create a reference, if not a reference is found then false
is returned }
begin
MaybeBuildReference := true;
case actasmtoken of
AS_INTNUM,
AS_MINUS,
AS_PLUS:
begin
oper.opr.ref.offset := BuildConstExpression(True, False);
if actasmtoken <> AS_LPAREN then
Message(asmr_e_invalid_reference_syntax)
else
BuildReference(oper);
end;
AS_LPAREN:
BuildReference(oper);
AS_ID: { only a variable is allowed ... }
begin
ReadSym(oper);
case actasmtoken of
AS_END,
AS_SEPARATOR,
AS_COMMA: ;
AS_LPAREN:
BuildReference(oper);
else
begin
Message(asmr_e_invalid_reference_syntax);
Consume(actasmtoken);
end;
end; {end case }
end;
else
MaybeBuildReference := false;
end; { end case }
end;
var
tempreg: tregister;
hl: tasmlabel;
ofs: aint;
begin
expr := '';
case actasmtoken of
AS_LPAREN: { Memory reference or constant expression }
begin
oper.InitRef;
BuildReference(oper);
end;
AS_INTNUM,
AS_MINUS,
AS_PLUS:
begin
{ Constant memory offset }
{ This must absolutely be followed by ( }
oper.InitRef;
oper.opr.ref.offset := BuildConstExpression(True, False);
if actasmtoken <> AS_LPAREN then
begin
ofs := oper.opr.ref.offset;
BuildConstantOperand(oper);
inc(oper.opr.val, ofs);
end
else
BuildReference(oper);
end;
AS_ID: { A constant expression, or a Variable ref. }
begin
{ Local Label ? }
if is_locallabel(actasmpattern) then
begin
CreateLocalLabel(actasmpattern, hl, false);
Consume(AS_ID);
AddLabelOperand(hl);
end
else
{ Check for label } if SearchLabel(actasmpattern, hl, false) then
begin
Consume(AS_ID);
AddLabelOperand(hl);
end
else
{ probably a variable or normal expression }
{ or a procedure (such as in CALL ID) }
begin
{ is it a constant ? }
if SearchIConstant(actasmpattern, l) then
begin
if not (oper.opr.typ in [OPR_NONE, OPR_CONSTANT]) then
Message(asmr_e_invalid_operand_type);
BuildConstantOperand(oper);
end
else
begin
expr := actasmpattern;
Consume(AS_ID);
{ typecasting? }
if (actasmtoken = AS_LPAREN) and
SearchType(expr, 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
begin
if oper.SetupVar(expr, false) then
ReadAt(oper)
else
begin
{ look for special symbols ... }
if expr = '__HIGH' then
begin
consume(AS_LPAREN);
if not oper.setupvar('high' + actasmpattern, false) then
Message1(sym_e_unknown_id, 'high' + actasmpattern);
consume(AS_ID);
consume(AS_RPAREN);
end
else if expr = '__RESULT' then
oper.SetUpResult
else if expr = '__SELF' then
oper.SetupSelf
else if expr = '__OLDEBP' then
oper.SetupOldEBP
else
Message1(sym_e_unknown_id, expr);
end;
end;
end;
if actasmtoken = AS_DOT then
MaybeRecordOffset;
{ add a constant expression? }
if (actasmtoken = AS_PLUS) then
begin
l := BuildConstExpression(true, false);
case oper.opr.typ of
OPR_CONSTANT:
inc(oper.opr.val, l);
OPR_LOCAL:
inc(oper.opr.localsymofs, l);
OPR_REFERENCE:
inc(oper.opr.ref.offset, l);
else
internalerror(200309202);
end;
end
end;
{ Do we have a indexing reference, then parse it also }
if actasmtoken = AS_LPAREN then
BuildReference(oper);
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 in [AS_END, AS_SEPARATOR, AS_COMMA]) then
if is_condreg(tempreg) and
((actopcode = A_BC) or
(actopcode = A_BCCTR) or
(actopcode = A_BCLR) or
(actopcode = A_TW) or
(actopcode = A_TWI)) then
begin
{ it isn't a real operand, everything is stored in the condition }
oper.opr.typ := OPR_NONE;
actcondition.cr := getsupreg(tempreg);
end
else
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;
end
else if is_condreg(tempreg) then
begin
if not (actcondition.cond in [C_T..C_DZF]) then
Message(asmr_e_syn_operand);
if actasmtoken = AS_STAR then
begin
consume(AS_STAR);
if (actasmtoken = AS_INTNUM) then
begin
consume(AS_INTNUM);
if actasmtoken = AS_PLUS then
begin
consume(AS_PLUS);
if (actasmtoken = AS_ID) then
begin
oper.opr.typ := OPR_NONE;
if actasmpattern = 'LT' then
actcondition.crbit := (getsupreg(tempreg) - (RS_CR0)) * 4
else if actasmpattern = 'GT' then
actcondition.crbit := (getsupreg(tempreg) - (RS_CR0)) * 4 + 1
else if actasmpattern = 'EQ' then
actcondition.crbit := (getsupreg(tempreg) - (RS_CR0)) * 4 + 2
else if actasmpattern = 'SO' then
actcondition.crbit := (getsupreg(tempreg) - (RS_CR0)) * 4 + 3
else
Message(asmr_e_syn_operand);
consume(AS_ID);
end
else
Message(asmr_e_syn_operand);
end
else
Message(asmr_e_syn_operand);
end
else
Message(asmr_e_syn_operand);
end
else
Message(asmr_e_syn_operand);
end
else
Message(asmr_e_syn_operand);
end;
AS_END,
AS_SEPARATOR,
AS_COMMA: ;
else
begin
Message(asmr_e_syn_operand);
Consume(actasmtoken);
end;
end; { end case }
end;
{*****************************************************************************
tppcattreader
*****************************************************************************}
procedure tppcattreader.BuildOpCode(instr: tppcinstruction);
var
operandnum: longint;
begin
{ opcode }
if (actasmtoken <> AS_OPCODE) then
begin
Message(asmr_e_invalid_or_missing_opcode);
RecoverConsume(true);
exit;
end;
{ Fill the instr object with the current state }
with instr do
begin
Opcode := ActOpcode;
condition := ActCondition;
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 the operands }
repeat
case actasmtoken of
AS_COMMA: { Operand delimiter }
begin
if operandnum > Max_Operands then
Message(asmr_e_too_many_operands)
else
begin
{ condition operands doesn't set the operand but write to the
condition field of the instruction
}
if instr.Operands[operandnum].opr.typ <> OPR_NONE then
Inc(operandnum);
end;
Consume(AS_COMMA);
end;
AS_SEPARATOR,
AS_END: { End of asm operands for this opcode }
begin
break;
end;
else
BuildOperand(instr.Operands[operandnum] as tppcoperand);
end; { end case }
until false;
if (operandnum = 1) and (instr.Operands[operandnum].opr.typ = OPR_NONE) then
dec(operandnum);
instr.Ops := operandnum;
end;
function tppcattreader.is_asmopcode(const s: string): boolean;
var
cond: tasmcondflag;
hs: string;
begin
{ making s a value parameter would break other assembler readers }
hs := s;
is_asmopcode := false;
{ clear op code }
actopcode := A_None;
{ clear condition }
fillchar(actcondition, sizeof(actcondition), 0);
{ check for direction hint }
if hs[length(s)] = '-' then
begin
dec(ord(hs[0]));
actcondition.dirhint := DH_Minus;
end
else if hs[length(s)] = '+' then
begin
dec(ord(hs[0]));
actcondition.dirhint := DH_Plus;
end;
actopcode := tasmop(ptruint(iasmops.Find(hs)));
if actopcode <> A_NONE then
begin
if actcondition.dirhint <> DH_None then
message1(asmr_e_unknown_opcode, actasmpattern);
actasmtoken := AS_OPCODE;
is_asmopcode := true;
exit;
end;
{ not found, check branch instructions }
if hs[1] = 'B' then
begin
{ we can search here without an extra table which is sorted by string length
because we take the whole remaining string without the leading B }
if copy(hs, length(s) - 1, 2) = 'LR' then
begin
actopcode := A_BCLR;
setlength(hs, length(hs) - 2)
end
else if copy(hs, length(s) - 2, 3) = 'CTR' then
begin
actopcode := A_BCCTR;
setlength(hs, length(hs) - 3)
end
else
actopcode := A_BC;
for cond := low(TAsmCondFlag) to high(TAsmCondFlag) do
if copy(hs, 2, length(s) - 1) = UpperAsmCondFlag2Str[cond] then
begin
actcondition.simple := true;
actcondition.cond := cond;
if (cond in [C_LT, C_LE, C_EQ, C_GE, C_GT, C_NL, C_NE, C_NG, C_SO, C_NS,
C_UN, C_NU]) then
actcondition.cr := RS_CR0;
actasmtoken := AS_OPCODE;
is_asmopcode := true;
exit;
end;
end;
end;
procedure tppcattreader.ConvertCalljmp(instr: tppcinstruction);
begin
if instr.Operands[1].opr.typ = OPR_CONSTANT then begin
if (instr.operands[1].opr.val > 31) or
(instr.operands[2].opr.typ <> OPR_CONSTANT) or
(instr.operands[2].opr.val > 31) or
not(instr.operands[3].opr.typ in [OPR_REFERENCE,OPR_SYMBOL]) then
Message(asmr_e_syn_operand);
{ BO/BI notation }
instr.condition.simple := false;
instr.condition.bo := instr.operands[1].opr.val;
instr.condition.bi := instr.operands[2].opr.val;
instr.operands[1].free;
instr.operands[2].free;
instr.operands[2] := nil;
instr.operands[1] := instr.operands[3];
instr.operands[3] := nil;
instr.ops := 1;
end;
if instr.Operands[1].opr.typ = OPR_REFERENCE then begin
instr.Operands[1].opr.ref.refaddr:=addr_full;
if (instr.Operands[1].opr.ref.base<>NR_NO) or
(instr.Operands[1].opr.ref.index<>NR_NO) then
Message(asmr_e_syn_operand);
if use_dotted_functions and
assigned(instr.Operands[1].opr.ref.symbol) then
instr.Operands[1].opr.ref.symbol:=current_asmdata.DefineAsmSymbol('.'+instr.Operands[1].opr.ref.symbol.name,instr.Operands[1].opr.ref.symbol.bind,AT_FUNCTION,voidcodepointertype);
end;
if use_dotted_functions and
(instr.Operands[1].opr.typ = OPR_SYMBOL) and
(instr.Operands[1].opr.symbol.typ=AT_FUNCTION) then
instr.Operands[1].opr.symbol:=current_asmdata.DefineAsmSymbol('.'+instr.Operands[1].opr.symbol.name,instr.Operands[1].opr.symbol.bind,AT_FUNCTION,voidcodepointertype);
end;
function tppcattreader.is_targetdirective(const s: string): boolean;
begin
if (target_info.abi=abi_powerpc_elfv2) and
(s='.localentry') then
result:=true
else
result:=inherited;
end;
procedure tppcattreader.HandleTargetDirective;
var
symname,
symval : String;
val : aint;
symtyp : TAsmsymtype;
begin
if (target_info.abi=abi_powerpc_elfv2) and
(actasmpattern='.localentry') then
begin
{ .localentry funcname, .-funcname }
consume(AS_TARGET_DIRECTIVE);
BuildConstSymbolExpression(true,false,false, val,symname,symtyp);
Consume(AS_COMMA);
{ we need a '.', but these are parsed as identifiers -> if the current
pattern is different from a '.' try to consume AS_DOT so we'll get
the correct error message, otherwise consume this '.' identifier }
if actasmpattern<>'.' then
Consume(AS_DOT)
else
Consume(AS_ID);
Consume(AS_MINUS);
BuildConstSymbolExpression(true,false,false, val,symval,symtyp);
curList.concat(tai_symbolpair.create(spk_localentry,symname,symval));
end
else
inherited;
end;
procedure tppcattreader.handleopcode;
var
instr: tppcinstruction;
begin
instr := TPPCInstruction.Create(TPPCOperand);
BuildOpcode(instr);
instr.condition := actcondition;
if is_calljmp(instr.opcode) then
ConvertCalljmp(instr);
{
instr.AddReferenceSizes;
instr.SetInstructionOpsize;
instr.CheckOperandSizes;
}
instr.ConcatInstruction(curlist);
instr.Free;
end;
{*****************************************************************************
Initialize
*****************************************************************************}
const
asmmode_ppc_att_info: tasmmodeinfo =
(
id: asmmode_ppc_gas;
idtxt: 'GAS';
casmreader: tppcattreader;
);
asmmode_ppc_standard_info: tasmmodeinfo =
(
id: asmmode_standard;
idtxt: 'STANDARD';
casmreader: tppcattreader;
);
initialization
RegisterAsmMode(asmmode_ppc_att_info);
RegisterAsmMode(asmmode_ppc_standard_info);
end.