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release_3_2_4-branch
fpc/compiler/arm/raarmgas.pas
Jonas Maebe 1b66995754 * factored out check to determine whether a variable can be subscripted in 
inline assembly, and fixed check after r35959 (mantis #32318)
   o can also subscript parameters passed by value on the stack
   o can also subscript local variables, the parameters passed by reference
     that are subsequently copied into a local

git-svn-id: trunk@37886 -
2018-01-01 14:29:21 +00:00

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{
Copyright (c) 1998-2002 by Carl Eric Codere and Peter Vreman
Does the parsing for the ARM 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 raarmgas;
{$i fpcdefs.inc}
Interface
uses
raatt,raarm,
cpubase;
type
tarmattreader = class(tattreader)
actoppostfix : TOpPostfix;
actwideformat : boolean;
function is_asmopcode(const s: string):boolean;override;
function is_register(const s:string):boolean;override;
function is_targetdirective(const s: string): boolean; override;
procedure handleopcode;override;
procedure BuildReference(oper : tarmoperand);
procedure BuildOperand(oper : tarmoperand);
procedure BuildSpecialreg(oper : tarmoperand);
function TryBuildShifterOp(oper : tarmoperand) : boolean;
procedure BuildOpCode(instr : tarminstruction);
procedure ReadSym(oper : tarmoperand);
procedure ConvertCalljmp(instr : tarminstruction);
procedure HandleTargetDirective; override;
protected
function is_unified: boolean; virtual;
end;
tarmunifiedattreader = class(tarmattreader)
protected
function is_unified: boolean; override;
end;
Implementation
uses
{ helpers }
cutils,
{ global }
globtype,globals,verbose,
systems,aasmbase,aasmtai,aasmdata,aasmcpu,
{ symtable }
symconst,symsym,symdef,
procinfo,
rabase,rautils,
cgbase,cgutils,paramgr;
function tarmunifiedattreader.is_unified: boolean;
begin
result:=true;
end;
function tarmattreader.is_register(const s:string):boolean;
type
treg2str = record
name : string[3];
reg : tregister;
end;
const
extraregs : array[0..19+16] of treg2str = (
(name: 'A1'; reg : NR_R0),
(name: 'A2'; reg : NR_R1),
(name: 'A3'; reg : NR_R2),
(name: 'A4'; reg : NR_R3),
(name: 'V1'; reg : NR_R4),
(name: 'V2'; reg : NR_R5),
(name: 'V3'; reg : NR_R6),
(name: 'V4'; reg : NR_R7),
(name: 'V5'; reg : NR_R8),
(name: 'V6'; reg : NR_R9),
(name: 'V7'; reg : NR_R10),
(name: 'V8'; reg : NR_R11),
(name: 'WR'; reg : NR_R7),
(name: 'SB'; reg : NR_R9),
(name: 'SL'; reg : NR_R10),
(name: 'FP'; reg : NR_R11),
(name: 'IP'; reg : NR_R12),
(name: 'SP'; reg : NR_R13),
(name: 'LR'; reg : NR_R14),
(name: 'PC'; reg : NR_R15),
(name: 'C0'; reg : NR_CR0),
(name: 'C1'; reg : NR_CR1),
(name: 'C2'; reg : NR_CR2),
(name: 'C3'; reg : NR_CR3),
(name: 'C4'; reg : NR_CR4),
(name: 'C5'; reg : NR_CR5),
(name: 'C6'; reg : NR_CR6),
(name: 'C7'; reg : NR_CR7),
(name: 'C8'; reg : NR_CR8),
(name: 'C9'; reg : NR_CR9),
(name: 'C10'; reg : NR_CR10),
(name: 'C11'; reg : NR_CR11),
(name: 'C12'; reg : NR_CR12),
(name: 'C13'; reg : NR_CR13),
(name: 'C14'; reg : NR_CR14),
(name: 'C15'; reg : NR_CR15)
);
var
i : longint;
begin
result:=inherited is_register(s);
{ reg found?
possible aliases are always 2 char
}
if result or (not (length(s) in [2,3])) then
exit;
for i:=low(extraregs) to high(extraregs) do
begin
if s=extraregs[i].name then
begin
actasmregister:=extraregs[i].reg;
result:=true;
actasmtoken:=AS_REGISTER;
exit;
end;
end;
end;
function tarmattreader.is_targetdirective(const s: string): boolean;
begin
case s of
'.thumb_func',
'.code',
'.thumb_set':
result:=true
else
Result:=inherited is_targetdirective(s);
end;
end;
procedure tarmattreader.ReadSym(oper : tarmoperand);
var
tempstr, mangledname : string;
typesize,l,k : tcgint;
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 tarmattreader.BuildReference(oper : tarmoperand);
procedure do_error;
begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(false);
end;
procedure test_end(require_rbracket : boolean);
begin
if require_rbracket then begin
if not(actasmtoken=AS_RBRACKET) then
begin
do_error;
exit;
end
else
Consume(AS_RBRACKET);
if (actasmtoken=AS_NOT) then
begin
oper.opr.ref.addressmode:=AM_PREINDEXED;
Consume(AS_NOT);
end;
end;
if not(actasmtoken in [AS_SEPARATOR,AS_end]) then
do_error
else
begin
{$IFDEF debugasmreader}
writeln('TEST_end_FINAL_OK. Created the following ref:');
writeln('oper.opr.ref.shiftimm=',oper.opr.ref.shiftimm);
writeln('oper.opr.ref.shiftmode=',ord(oper.opr.ref.shiftmode));
writeln('oper.opr.ref.index=',ord(oper.opr.ref.index));
writeln('oper.opr.ref.base=',ord(oper.opr.ref.base));
writeln('oper.opr.ref.signindex=',ord(oper.opr.ref.signindex));
writeln('oper.opr.ref.addressmode=',ord(oper.opr.ref.addressmode));
writeln;
{$endIF debugasmreader}
end;
end;
function is_shifter_ref_operation(var a : tshiftmode) : boolean;
begin
a := SM_NONE;
if (actasmpattern='LSL') then
a := SM_LSL
else if (actasmpattern='LSR') then
a := SM_LSR
else if (actasmpattern='ASR') then
a := SM_ASR
else if (actasmpattern='ROR') then
a := SM_ROR
else if (actasmpattern='RRX') then
a := SM_RRX;
is_shifter_ref_operation := not(a=SM_NONE);
end;
procedure read_index_shift(require_rbracket : boolean);
var
shift : aint;
begin
case actasmtoken of
AS_COMMA :
begin
Consume(AS_COMMA);
if not(actasmtoken=AS_ID) then
do_error;
if is_shifter_ref_operation(oper.opr.ref.shiftmode) then
begin
Consume(AS_ID);
if not(oper.opr.ref.shiftmode=SM_RRX) then
begin
if not(actasmtoken=AS_HASH) then
do_error;
Consume(AS_HASH);
shift := BuildConstExpression(false,true);
if (shift<0) or (shift>32) then
do_error;
oper.opr.ref.shiftimm := shift;
test_end(require_rbracket);
end
else
test_end(require_rbracket);
end
else
begin
do_error;
exit;
end;
end;
AS_RBRACKET :
if require_rbracket then
test_end(require_rbracket)
else
begin
do_error;
exit;
end;
AS_SEPARATOR,AS_END :
if not require_rbracket then
test_end(false)
else
do_error;
else
begin
do_error;
exit;
end;
end;
end;
procedure read_index(require_rbracket : boolean);
var
recname : string;
o_int,s_int : tcgint;
begin
case actasmtoken of
AS_REGISTER :
begin
oper.opr.ref.index:=actasmregister;
Consume(AS_REGISTER);
read_index_shift(require_rbracket);
exit;
end;
AS_PLUS,AS_MINUS :
begin
if actasmtoken=AS_PLUS then
begin
Consume(AS_PLUS);
end
else
begin
oper.opr.ref.signindex := -1;
Consume(AS_MINUS);
end;
if actasmtoken=AS_REGISTER then
begin
oper.opr.ref.index:=actasmregister;
Consume(AS_REGISTER);
read_index_shift(require_rbracket);
exit;
end
else
begin
do_error;
exit;
end;
test_end(require_rbracket);
exit;
end;
AS_HASH : // constant
begin
Consume(AS_HASH);
o_int := BuildConstExpression(false,true);
if (o_int>4095) or (o_int<-4095) then
begin
Message(asmr_e_constant_out_of_bounds);
RecoverConsume(false);
exit;
end
else
begin
inc(oper.opr.ref.offset,o_int);
test_end(require_rbracket);
exit;
end;
end;
AS_ID :
begin
recname := actasmpattern;
Consume(AS_ID);
BuildRecordOffsetSize(recname,o_int,s_int,recname,false);
if (o_int>4095)or(o_int<-4095) then
begin
Message(asmr_e_constant_out_of_bounds);
RecoverConsume(false);
exit;
end
else
begin
inc(oper.opr.ref.offset,o_int);
test_end(require_rbracket);
exit;
end;
end;
AS_AT:
begin
do_error;
exit;
end;
AS_DOT : // local label
begin
oper.opr.ref.signindex := BuildConstExpression(true,false);
test_end(require_rbracket);
exit;
end;
AS_RBRACKET :
begin
if require_rbracket then
begin
test_end(require_rbracket);
exit;
end
else
begin
do_error; // unexpected rbracket
exit;
end;
end;
AS_SEPARATOR,AS_end :
begin
if not require_rbracket then
begin
test_end(false);
exit;
end
else
begin
do_error;
exit;
end;
end;
else
begin
// unexpected token
do_error;
exit;
end;
end; // case
end;
procedure try_prepostindexed;
begin
Consume(AS_RBRACKET);
case actasmtoken of
AS_COMMA :
begin // post-indexed
Consume(AS_COMMA);
oper.opr.ref.addressmode:=AM_POSTINDEXED;
read_index(false);
exit;
end;
AS_NOT :
begin // pre-indexed
Consume(AS_NOT);
oper.opr.ref.addressmode:=AM_PREINDEXED;
test_end(false);
exit;
end;
else
begin
test_end(false);
exit;
end;
end; // case
end;
var
lab : TASMLABEL;
begin
Consume(AS_LBRACKET);
oper.opr.ref.addressmode:=AM_OFFSET; // assume "neither PRE nor POST inc"
if actasmtoken=AS_REGISTER then
begin
oper.opr.ref.base:=actasmregister;
Consume(AS_REGISTER);
case actasmtoken of
AS_RBRACKET :
begin
try_prepostindexed;
exit;
end;
AS_COMMA :
begin
Consume(AS_COMMA);
read_index(true);
exit;
end;
else
begin
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(false);
end;
end;
end
else
{
if base isn't a register, r15=PC is implied base, so it must be a local label.
pascal constants don't make sense, because implied r15
record offsets probably don't make sense, too (a record offset of code?)
TODO: However, we could make the Stackpointer implied.
}
Begin
case actasmtoken of
AS_ID :
begin
if is_locallabel(actasmpattern) then
begin
CreateLocalLabel(actasmpattern,lab,false);
oper.opr.ref.symbol := lab;
oper.opr.ref.base := NR_PC;
Consume(AS_ID);
test_end(true);
exit;
end
else
begin
// TODO: Stackpointer implied,
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(false);
exit;
end;
end;
else
begin // elsecase
Message(asmr_e_invalid_reference_syntax);
RecoverConsume(false);
exit;
end;
end;
end;
end;
function tarmattreader.TryBuildShifterOp(oper : tarmoperand) : boolean;
procedure handlepara(sm : tshiftmode);
begin
consume(AS_ID);
fillchar(oper.opr,sizeof(oper.opr),0);
oper.opr.typ:=OPR_SHIFTEROP;
oper.opr.shifterop.shiftmode:=sm;
if sm<>SM_RRX then
begin
case actasmtoken of
AS_REGISTER:
begin
oper.opr.shifterop.rs:=actasmregister;
consume(AS_REGISTER);
end;
AS_HASH:
begin
consume(AS_HASH);
oper.opr.shifterop.shiftimm:=BuildConstExpression(false,false);
end;
else
Message(asmr_e_illegal_shifterop_syntax);
end;
end;
end;
begin
result:=true;
if (actasmtoken=AS_ID) then
begin
if (actasmpattern='LSL') then
handlepara(SM_LSL)
else if (actasmpattern='LSR') then
handlepara(SM_LSR)
else if (actasmpattern='ASR') then
handlepara(SM_ASR)
else if (actasmpattern='ROR') then
handlepara(SM_ROR)
else if (actasmpattern='RRX') then
handlepara(SM_RRX)
else
result:=false;
end
else
result:=false;
end;
Procedure tarmattreader.BuildOperand(oper : tarmoperand);
var
expr : string;
typesize,l : tcgint;
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;
oper.opr.ref.base:=NR_PC;
if (actasmtoken in [AS_PLUS, AS_MINUS]) then
begin
l:=BuildConstExpression(true,false);
oper.opr.ref.offset:=l;
end;
end;
end;
procedure MaybeRecordOffset;
var
mangledname: string;
hasdot : boolean;
l,
toffset,
tsize : tcgint;
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 :
inc(oper.opr.val,l);
OPR_REFERENCE :
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.RefAsmSymbol(mangledname,AT_FUNCTION);
end
else
inc(oper.opr.val,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;
function is_ConditionCode(hs: string): boolean;
var icond: tasmcond;
begin
is_ConditionCode := false;
case actopcode of
A_IT,A_ITE,A_ITT,
A_ITEE,A_ITTE,A_ITET,A_ITTT,
A_ITEEE,A_ITTEE,A_ITETE,A_ITTTE,A_ITEET,A_ITTET,A_ITETT,A_ITTTT:
begin
{ search for condition, conditions are always 2 chars }
if length(hs)>1 then
begin
for icond:=low(tasmcond) to high(tasmcond) do
begin
if copy(hs,1,2)=uppercond2str[icond] then
begin
//actcondition:=icond;
oper.opr.typ := OPR_COND;
oper.opr.cc := icond;
exit(true);
end;
end;
end;
end;
end;
end;
function is_modeflag(hs : string): boolean;
var
i: longint;
flags: tcpumodeflags;
begin
is_modeflag := false;
flags:=[];
hs:=lower(hs);
if (actopcode in [A_CPSID,A_CPSIE]) and (length(hs) >= 1) then
begin
for i:=1 to length(hs) do
begin
case hs[i] of
'a':
Include(flags,mfA);
'f':
Include(flags,mfF);
'i':
Include(flags,mfI);
else
exit;
end;
end;
oper.opr.typ := OPR_MODEFLAGS;
oper.opr.flags := flags;
exit(true);
end;
end;
procedure BuildDirectRef;
function GetConstLabel(const symname: string; ofs: aint): TAsmLabel;
var
hp: tai;
newconst: tai_const;
lab: TAsmLabel;
begin
if symname<>'' then
newconst:=tai_const.Createname(symname,ofs)
else
newconst:=tai_const.Create_32bit(ofs);
hp:=tai(current_procinfo.aktlocaldata.First);
while assigned(hp) do
begin
if hp.typ=ait_const then
begin
if (tai_const(hp).sym=newconst.sym) and
(tai_const(hp).value=newconst.value) and
assigned(hp.Previous) and
(tai(hp.previous).typ=ait_label) then
begin
newconst.Free;
result:=tai_label(hp.Previous).labsym;
exit;
end;
end;
hp:=tai(hp.Next);
end;
current_asmdata.getjumplabel(lab);
current_procinfo.aktlocaldata.concat(tai_align.create(4));
current_procinfo.aktlocaldata.concat(tai_label.create(lab));
current_procinfo.aktlocaldata.concat(newconst);
result:=lab;
end;
var
symtype: TAsmsymtype;
sym: string;
val: tcgint;
begin
case actasmtoken of
AS_INTNUM,
AS_ID:
begin
BuildConstSymbolExpression(true,false,false,val,sym,symtype);
if symtype=AT_NONE then
sym:='';
reference_reset(oper.opr.ref,4,[]);
oper.opr.ref.base:=NR_PC;
oper.opr.ref.symbol:=GetConstLabel(sym,val);
end;
end;
end;
function getregsetindex(reg: tregister): integer;
begin
if getsubreg(reg)=R_SUBFS then
begin
result:=getsupreg(reg)*2;
if result>32 then
result:=result-63;
end
else
result:=getsupreg(reg);
end;
var
tempreg : tregister;
ireg : tsuperregister;
regtype: tregistertype;
subreg: tsubregister;
hl : tasmlabel;
{ofs : longint;}
registerset : tcpuregisterset;
Begin
expr:='';
case actasmtoken of
AS_LBRACKET: { Memory reference or constant expression }
Begin
oper.InitRef;
BuildReference(oper);
end;
AS_HASH: { Constant expression }
Begin
Consume(AS_HASH);
BuildConstantOperand(oper);
end;
AS_EQUAL:
begin
case actopcode of
A_LDRBT,A_LDRB,A_LDR,A_LDRH,A_LDRSB,A_LDRSH,A_LDRT,
A_LDREX,A_LDREXB,A_LDREXD,A_LDREXH:
begin
consume(AS_EQUAL);
oper.InitRef;
BuildDirectRef;
end;
else
Message(asmr_e_invalid_opcode_and_operand);
end;
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
if is_modeflag(actasmpattern) then
begin
consume(AS_ID);
end
else
{ Condition code? }
if is_conditioncode(actasmpattern) then
begin
consume(AS_ID);
end
else
{ 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 not(oper.SetupVar(expr,false)) then
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;
{ Register, a variable reference or a constant reference }
AS_REGISTER:
Begin
{ save the type of register used. }
tempreg:=actasmregister;
Consume(AS_REGISTER);
if (actasmtoken in [AS_end,AS_SEPARATOR,AS_COMMA]) then
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 (actasmtoken=AS_NOT) and (actopcode in [A_LDM,A_STM,A_FLDM,A_FSTM,A_VLDM,A_VSTM,A_SRS,A_RFE]) then
begin
consume(AS_NOT);
oper.opr.typ:=OPR_REFERENCE;
oper.opr.ref.addressmode:=AM_PREINDEXED;
oper.opr.ref.index:=tempreg;
end
else
Message(asmr_e_syn_operand);
end;
{ Registerset }
AS_LSBRACKET:
begin
consume(AS_LSBRACKET);
registerset:=[];
regtype:=R_INVALIDREGISTER;
subreg:=R_SUBNONE;
while actasmtoken<>AS_RSBRACKET do
begin
if actasmtoken=AS_REGISTER then
begin
include(registerset,getregsetindex(actasmregister));
if regtype<>R_INVALIDREGISTER then
begin
if (getregtype(actasmregister)<>regtype) or
(getsubreg(actasmregister)<>subreg) then
Message(asmr_e_mixing_regtypes);
end
else
begin
regtype:=getregtype(actasmregister);
subreg:=getsubreg(actasmregister);
end;
tempreg:=actasmregister;
consume(AS_REGISTER);
if actasmtoken=AS_MINUS then
begin
consume(AS_MINUS);
for ireg:=getregsetindex(tempreg) to getregsetindex(actasmregister) do
include(registerset,ireg);
consume(AS_REGISTER);
end;
end
else
consume(AS_REGISTER);
if actasmtoken=AS_COMMA then
consume(AS_COMMA)
else
break;
end;
consume(AS_RSBRACKET);
oper.opr.typ:=OPR_REGSET;
oper.opr.regtype:=regtype;
oper.opr.subreg:=subreg;
oper.opr.regset:=registerset;
if actasmtoken=AS_XOR then
begin
consume(AS_XOR);
oper.opr.usermode:=true;
end
else
oper.opr.usermode:=false;
if (registerset=[]) then
Message(asmr_e_empty_regset);
end;
AS_end,
AS_SEPARATOR,
AS_COMMA: ;
else
Begin
Message(asmr_e_syn_operand);
Consume(actasmtoken);
end;
end; { end case }
end;
procedure tarmattreader.BuildSpecialreg(oper: tarmoperand);
var
hs, reg : String;
ch : char;
i, t : longint;
hreg : tregister;
flags : tspecialregflags;
begin
hreg:=NR_NO;
case actasmtoken of
AS_REGISTER:
begin
oper.opr.typ:=OPR_REGISTER;
oper.opr.reg:=actasmregister;
Consume(AS_REGISTER);
end;
AS_ID:
begin
t := pos('_', actasmpattern);
if t > 0 then
begin
hs:=lower(actasmpattern);
reg:=copy(hs, 1, t-1);
delete(hs, 1, t);
if length(hs) < 1 then
Message(asmr_e_invalid_operand_type);
if reg = 'cpsr' then
hreg:=NR_CPSR
else if reg='spsr' then
hreg:=NR_SPSR
else
Message(asmr_e_invalid_register);
flags:=[];
for i := 1 to length(hs) do
begin
ch:=hs[i];
if ch='c' then
include(flags, srC)
else if ch='x' then
include(flags, srX)
else if ch='f' then
include(flags, srF)
else if ch='s' then
include(flags, srS)
else
message(asmr_e_invalid_operand_type);
end;
oper.opr.typ:=OPR_SPECIALREG;
oper.opr.specialreg:=hreg;
oper.opr.specialregflags:=flags;
consume(AS_ID);
end
else
Message(asmr_e_invalid_operand_type); // Otherwise it would have been seen as a AS_REGISTER
end;
end;
end;
{*****************************************************************************
tarmattreader
*****************************************************************************}
procedure tarmattreader.BuildOpCode(instr : tarminstruction);
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;
oppostfix:=actoppostfix;
wideformat:=actwideformat;
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 ((instr.opcode in [A_MOV,A_MVN,A_CMP,A_CMN,A_TST,A_TEQ,
A_UXTB,A_UXTH,A_UXTB16,
A_SXTB,A_SXTH,A_SXTB16]) and
(operandnum=2)) or
((operandnum=3) and not(instr.opcode in [A_UMLAL,A_UMULL,A_SMLAL,A_SMULL,A_MLA,A_UMAAL,A_MLS,
A_SMLABB,A_SMLABT,A_SMLATB,A_SMLATT,A_SMMLA,A_SMMLS,A_SMLAD,A_SMLALD,A_SMLSD,
A_SMLALBB,A_SMLALBT,A_SMLALTB,A_SMLALTT,A_SMLSLD,
A_SMLAWB,A_SMLAWT,
A_MRC,A_MCR,A_MCRR,A_MRRC,A_MRC2,A_MCR2,A_MCRR2,A_MRRC2,
A_STREXD,A_STRD,
A_USADA8,
A_VMOV,
A_SBFX,A_UBFX,A_BFI])) then
begin
Consume(AS_COMMA);
if not(TryBuildShifterOp(instr.Operands[operandnum+1] as tarmoperand)) then
Message(asmr_e_illegal_shifterop_syntax);
Inc(operandnum);
end
else
begin
if operandnum>Max_Operands then
Message(asmr_e_too_many_operands)
else
Inc(operandnum);
Consume(AS_COMMA);
end;
end;
AS_SEPARATOR,
AS_end : { End of asm operands for this opcode }
begin
break;
end;
else
if ((instr.opcode = A_MRS) and (operandnum = 2)) or
((instr.opcode = A_MSR) and (operandnum = 1)) then
BuildSpecialreg(instr.Operands[operandnum] as tarmoperand)
else
BuildOperand(instr.Operands[operandnum] as tarmoperand);
end; { end case }
until false;
instr.Ops:=operandnum;
end;
function tarmattreader.is_asmopcode(const s: string):boolean;
const
{ sorted by length so longer postfixes will match first }
postfix2strsorted : array[1..70] of string[9] = (
'.F32.S32','.F32.U32','.S32.F32','.U32.F32','.F64.S32','.F64.U32','.S32.F64','.U32.F64',
'.F32.S16','.F32.U16','.S16.F32','.U16.F32','.F64.S16','.F64.U16','.S16.F64','.U16.F64',
'.F32.F64','.F64.F32',
'.I16','.I32','.I64','.S16','.S32','.S64','.U16','.U32','.U64','.F32','.F64',
'IAD','DBD','FDD','EAD','IAS','DBS','FDS','EAS','IAX','DBX','FDX','EAX',
'.16','.32','.64','.I8','.S8','.U8','.P8',
'EP','SB','BT','SH','IA','IB','DA','DB','FD','FA','ED','EA',
'.8','S','D','E','P','X','R','B','H','T');
postfixsorted : array[1..70] of TOpPostfix = (
PF_F32S32,PF_F32U32,PF_S32F32,PF_U32F32,PF_F64S32,PF_F64U32,PF_S32F64,PF_U32F64,
PF_F32S16,PF_F32U16,PF_S16F32,PF_U16F32,PF_F64S16,PF_F64U16,PF_S16F64,PF_U16F64,
PF_F32F64,PF_F64F32,
PF_I16,PF_I32,
PF_I64,PF_S16,PF_S32,PF_S64,PF_U16,PF_U32,PF_U64,PF_F32,
PF_F64,PF_IAD,PF_DBD,PF_FDD,PF_EAD,
PF_IAS,PF_DBS,PF_FDS,PF_EAS,PF_IAX,
PF_DBX,PF_FDX,PF_EAX,PF_16,PF_32,
PF_64,PF_I8,PF_S8,PF_U8,PF_P8,
PF_EP,PF_SB,PF_BT,PF_SH,PF_IA,
PF_IB,PF_DA,PF_DB,PF_FD,PF_FA,
PF_ED,PF_EA,PF_8,PF_S,PF_D,PF_E,
PF_P,PF_X,PF_R,PF_B,PF_H,PF_T);
var
j, j2 : longint;
hs,hs2 : string;
maxlen : longint;
icond : tasmcond;
Begin
{ making s a value parameter would break other assembler readers }
hs:=s;
is_asmopcode:=false;
{ clear op code }
actopcode:=A_None;
actcondition:=C_None;
{ first, handle B else BLS is read wrong }
if ((hs[1]='B') and (length(hs)=3)) then
begin
for icond:=low(tasmcond) to high(tasmcond) do
begin
if copy(hs,2,3)=uppercond2str[icond] then
begin
actopcode:=A_B;
actasmtoken:=AS_OPCODE;
actcondition:=icond;
is_asmopcode:=true;
exit;
end;
end;
end;
maxlen:=min(length(hs),6);
actopcode:=A_NONE;
j2:=maxlen;
hs2:=hs;
while j2>=1 do
begin
hs:=hs2;
while j2>=1 do
begin
actopcode:=tasmop(PtrUInt(iasmops.Find(copy(hs,1,j2))));
if actopcode<>A_NONE then
begin
actasmtoken:=AS_OPCODE;
{ strip op code }
delete(hs,1,j2);
dec(j2);
break;
end;
dec(j2);
end;
if actopcode=A_NONE then
exit;
if is_unified then
begin
{ check for postfix }
if (length(hs)>0) and (actoppostfix=PF_None) then
begin
for j:=low(postfixsorted) to high(postfixsorted) do
begin
if copy(hs,1,length(postfix2strsorted[j]))=postfix2strsorted[j] then
begin
if not ((length(hs)-length(postfix2strsorted[j])) in [0,2,4]) then
continue;
actoppostfix:=postfixsorted[j];
{ strip postfix }
delete(hs,1,length(postfix2strsorted[j]));
break;
end;
end;
end;
{ search for condition, conditions are always 2 chars }
if length(hs)>1 then
begin
for icond:=low(tasmcond) to high(tasmcond) do
begin
if copy(hs,1,2)=uppercond2str[icond] then
begin
actcondition:=icond;
{ strip condition }
delete(hs,1,2);
break;
end;
end;
end;
{ check for postfix }
if (length(hs)>0) and (actoppostfix=PF_None) then
begin
for j:=low(postfixsorted) to high(postfixsorted) do
begin
if copy(hs,1,length(postfix2strsorted[j]))=postfix2strsorted[j] then
begin
if not ((length(hs)-length(postfix2strsorted[j])) = 0) then
continue;
actoppostfix:=postfixsorted[j];
{ strip postfix }
delete(hs,1,length(postfix2strsorted[j]));
break;
end;
end;
end;
end
else
begin
{ search for condition, conditions are always 2 chars }
if length(hs)>1 then
begin
for icond:=low(tasmcond) to high(tasmcond) do
begin
if copy(hs,1,2)=uppercond2str[icond] then
begin
actcondition:=icond;
{ strip condition }
delete(hs,1,2);
break;
end;
end;
end;
{ check for postfix }
if (length(hs)>0) and (actoppostfix=PF_None) then
begin
for j:=low(postfixsorted) to high(postfixsorted) do
begin
if copy(hs,1,length(postfix2strsorted[j]))=postfix2strsorted[j] then
begin
actoppostfix:=postfixsorted[j];
{ strip postfix }
delete(hs,1,length(postfix2strsorted[j]));
break;
end;
end;
end;
end;
{ check for format postfix }
if length(hs)>0 then
begin
if copy(hs,1,2) = '.W' then
begin
actwideformat:=true;
delete(hs,1,2);
end;
end;
{ if we stripped all postfixes, it's a valid opcode }
is_asmopcode:=length(hs)=0;
if is_asmopcode = true then
break;
end;
end;
procedure tarmattreader.ConvertCalljmp(instr : tarminstruction);
var
newopr : toprrec;
begin
if instr.Operands[1].opr.typ=OPR_REFERENCE then
begin
newopr.typ:=OPR_SYMBOL;
newopr.symbol:=instr.Operands[1].opr.ref.symbol;
newopr.symofs:=instr.Operands[1].opr.ref.offset;
if (instr.Operands[1].opr.ref.base<>NR_NO) or
(instr.Operands[1].opr.ref.index<>NR_NO) then
Message(asmr_e_syn_operand);
instr.Operands[1].opr:=newopr;
end;
end;
procedure tarmattreader.HandleTargetDirective;
var
symname,
symval : String;
val : tcgint;
symtyp : TAsmsymtype;
begin
case actasmpattern of
'.thumb_set':
begin
consume(AS_TARGET_DIRECTIVE);
BuildConstSymbolExpression(true,false,false, val,symname,symtyp);
Consume(AS_COMMA);
BuildConstSymbolExpression(true,false,false, val,symval,symtyp);
curList.concat(tai_symbolpair.create(spk_thumb_set,symname,symval));
end;
'.code':
begin
consume(AS_TARGET_DIRECTIVE);
val:=BuildConstExpression(false,false);
if not(val in [16,32]) then
Message(asmr_e_invalid_code_value);
curList.concat(tai_directive.create(asd_code,tostr(val)));
end;
'.thumb_func':
begin
consume(AS_TARGET_DIRECTIVE);
curList.concat(tai_directive.create(asd_thumb_func,''));
end
else
inherited HandleTargetDirective;
end;
end;
function tarmattreader.is_unified: boolean;
begin
result:=false;
end;
procedure tarmattreader.handleopcode;
var
instr : tarminstruction;
begin
instr:=TarmInstruction.Create(TarmOperand);
BuildOpcode(instr);
if is_calljmp(instr.opcode) then
ConvertCalljmp(instr);
{
instr.AddReferenceSizes;
instr.SetInstructionOpsize;
instr.CheckOperandSizes;
}
instr.ConcatInstruction(curlist);
instr.Free;
actoppostfix:=PF_None;
actwideformat:=false;
end;
{*****************************************************************************
Initialize
*****************************************************************************}
const
asmmode_arm_att_info : tasmmodeinfo =
(
id : asmmode_arm_gas;
idtxt : 'DIVIDED';
casmreader : tarmattreader;
);
asmmode_arm_att_unified_info : tasmmodeinfo =
(
id : asmmode_arm_gas_unified;
idtxt : 'UNIFIED';
casmreader : tarmunifiedattreader;
);
asmmode_arm_standard_info : tasmmodeinfo =
(
id : asmmode_standard;
idtxt : 'STANDARD';
casmreader : tarmattreader;
);
initialization
RegisterAsmMode(asmmode_arm_att_info);
RegisterAsmMode(asmmode_arm_att_unified_info);
RegisterAsmMode(asmmode_arm_standard_info);
end.
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