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{
Copyright (c) 1998-2005 by Florian Klaempfl
This unit implements the common parts of the code generator for the i386 and the x86-64.
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.
****************************************************************************
}
{ This unit implements the common parts of the code generator for the i386 and the x86-64.
}
unit cgx86;
{$i fpcdefs.inc}
interface
uses
globtype,
cgbase,cgutils,cgobj,
aasmbase,aasmtai,aasmdata,aasmcpu,
cpubase,cpuinfo,rgobj,rgx86,rgcpu,
symconst,symtype,symdef;
type
tcgx86 = class(tcg)
rgfpu : Trgx86fpu;
procedure done_register_allocators;override;
function getfpuregister(list:TAsmList;size:Tcgsize):Tregister;override;
function getmmxregister(list:TAsmList):Tregister;
function getmmregister(list:TAsmList;size:Tcgsize):Tregister;override;
procedure getcpuregister(list:TAsmList;r:Tregister);override;
procedure ungetcpuregister(list:TAsmList;r:Tregister);override;
procedure alloccpuregisters(list:TAsmList;rt:Tregistertype;const r:Tcpuregisterset);override;
procedure dealloccpuregisters(list:TAsmList;rt:Tregistertype;const r:Tcpuregisterset);override;
function uses_registers(rt:Tregistertype):boolean;override;
procedure add_reg_instruction(instr:Tai;r:tregister);override;
procedure dec_fpu_stack;
procedure inc_fpu_stack;
procedure a_call_name(list : TAsmList;const s : string; weak: boolean);override;
procedure a_call_reg(list : TAsmList;reg : tregister);override;
procedure a_call_ref(list : TAsmList;ref : treference);override;
procedure a_call_name_static(list : TAsmList;const s : string);override;
procedure a_op_const_reg(list : TAsmList; Op: TOpCG; size: TCGSize; a: tcgint; reg: TRegister); override;
procedure a_op_const_ref(list : TAsmList; Op: TOpCG; size: TCGSize; a: tcgint; const ref: TReference); override;
procedure a_op_reg_reg(list : TAsmList; Op: TOpCG; size: TCGSize; src, dst: TRegister); override;
procedure a_op_ref_reg(list : TAsmList; Op: TOpCG; size: TCGSize; const ref: TReference; reg: TRegister); override;
procedure a_op_reg_ref(list : TAsmList; Op: TOpCG; size: TCGSize;reg: TRegister; const ref: TReference); override;
{ move instructions }
procedure a_load_const_reg(list : TAsmList; tosize: tcgsize; a : tcgint;reg : tregister);override;
procedure a_load_const_ref(list : TAsmList; tosize: tcgsize; a : tcgint;const ref : treference);override;
procedure a_load_reg_ref(list : TAsmList;fromsize,tosize: tcgsize; reg : tregister;const ref : treference);override;
procedure a_load_ref_reg(list : TAsmList;fromsize,tosize: tcgsize;const ref : treference;reg : tregister);override;
procedure a_load_reg_reg(list : TAsmList;fromsize,tosize: tcgsize;reg1,reg2 : tregister);override;
procedure a_loadaddr_ref_reg(list : TAsmList;const ref : treference;r : tregister);override;
{ bit scan instructions }
procedure a_bit_scan_reg_reg(list: TAsmList; reverse: boolean; size: TCGSize; src, dst: TRegister); override;
{ fpu move instructions }
procedure a_loadfpu_reg_reg(list: TAsmList; fromsize, tosize: tcgsize; reg1, reg2: tregister); override;
procedure a_loadfpu_ref_reg(list: TAsmList; fromsize, tosize: tcgsize; const ref: treference; reg: tregister); override;
procedure a_loadfpu_reg_ref(list: TAsmList; fromsize, tosize: tcgsize; reg: tregister; const ref: treference); override;
{ vector register move instructions }
procedure a_loadmm_reg_reg(list: TAsmList; fromsize, tosize : tcgsize;reg1, reg2: tregister;shuffle : pmmshuffle); override;
procedure a_loadmm_ref_reg(list: TAsmList; fromsize, tosize : tcgsize;const ref: treference; reg: tregister;shuffle : pmmshuffle); override;
procedure a_loadmm_reg_ref(list: TAsmList; fromsize, tosize : tcgsize;reg: tregister; const ref: treference;shuffle : pmmshuffle); override;
procedure a_opmm_ref_reg(list: TAsmList; Op: TOpCG; size : tcgsize;const ref: treference; reg: tregister;shuffle : pmmshuffle); override;
procedure a_opmm_reg_reg(list: TAsmList; Op: TOpCG; size : tcgsize;src,dst: tregister;shuffle : pmmshuffle);override;
{ comparison operations }
procedure a_cmp_const_reg_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;a : tcgint;reg : tregister;
l : tasmlabel);override;
procedure a_cmp_const_ref_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;a : tcgint;const ref : treference;
l : tasmlabel);override;
procedure a_cmp_reg_reg_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;reg1,reg2 : tregister;l : tasmlabel); override;
procedure a_cmp_ref_reg_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;const ref: treference; reg : tregister; l : tasmlabel); override;
procedure a_cmp_reg_ref_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;reg : tregister; const ref: treference; l : tasmlabel); override;
procedure a_jmp_name(list : TAsmList;const s : string);override;
procedure a_jmp_always(list : TAsmList;l: tasmlabel); override;
procedure a_jmp_flags(list : TAsmList;const f : TResFlags;l: tasmlabel); override;
procedure g_flags2reg(list: TAsmList; size: TCgSize; const f: tresflags; reg: TRegister); override;
procedure g_flags2ref(list: TAsmList; size: TCgSize; const f: tresflags; const ref: TReference); override;
procedure g_concatcopy(list : TAsmList;const source,dest : treference;len : tcgint);override;
{ entry/exit code helpers }
procedure g_profilecode(list : TAsmList);override;
procedure g_stackpointer_alloc(list : TAsmList;localsize : longint);override;
procedure g_proc_entry(list : TAsmList;localsize : longint;nostackframe:boolean);override;
procedure g_overflowcheck(list: TAsmList; const l:tlocation;def:tdef);override;
procedure g_external_wrapper(list: TAsmList; procdef: tprocdef; const externalname: string); override;
procedure make_simple_ref(list:TAsmList;var ref: treference);
protected
procedure a_jmp_cond(list : TAsmList;cond : TOpCmp;l: tasmlabel);
procedure check_register_size(size:tcgsize;reg:tregister);
procedure opmm_loc_reg(list: TAsmList; Op: TOpCG; size : tcgsize;loc : tlocation;dst: tregister; shuffle : pmmshuffle);
function get_darwin_call_stub(const s: string; weak: boolean): tasmsymbol;
private
procedure sizes2load(s1,s2 : tcgsize;var op: tasmop; var s3: topsize);
procedure floatload(list: TAsmList; t : tcgsize;const ref : treference);
procedure floatstore(list: TAsmList; t : tcgsize;const ref : treference);
procedure floatloadops(t : tcgsize;var op : tasmop;var s : topsize);
procedure floatstoreops(t : tcgsize;var op : tasmop;var s : topsize);
end;
const
{$ifdef x86_64}
TCGSize2OpSize: Array[tcgsize] of topsize =
(S_NO,S_B,S_W,S_L,S_Q,S_T,S_B,S_W,S_L,S_Q,S_Q,
S_FS,S_FL,S_FX,S_IQ,S_FXX,
S_NO,S_NO,S_NO,S_MD,S_T,
S_NO,S_NO,S_NO,S_NO,S_T);
{$else x86_64}
TCGSize2OpSize: Array[tcgsize] of topsize =
(S_NO,S_B,S_W,S_L,S_L,S_T,S_B,S_W,S_L,S_L,S_L,
S_FS,S_FL,S_FX,S_IQ,S_FXX,
S_NO,S_NO,S_NO,S_MD,S_T,
S_NO,S_NO,S_NO,S_NO,S_T);
{$endif x86_64}
{$ifndef NOTARGETWIN}
winstackpagesize = 4096;
{$endif NOTARGETWIN}
implementation
uses
globals,verbose,systems,cutils,
defutil,paramgr,procinfo,
tgobj,ncgutil,
fmodule,symsym;
const
TOpCG2AsmOp: Array[topcg] of TAsmOp = (A_NONE,A_MOV,A_ADD,A_AND,A_DIV,
A_IDIV,A_IMUL,A_MUL,A_NEG,A_NOT,A_OR,
A_SAR,A_SHL,A_SHR,A_SUB,A_XOR,A_ROL,A_ROR);
TOpCmp2AsmCond: Array[topcmp] of TAsmCond = (C_NONE,
C_E,C_G,C_L,C_GE,C_LE,C_NE,C_BE,C_B,C_AE,C_A);
procedure Tcgx86.done_register_allocators;
begin
rg[R_INTREGISTER].free;
rg[R_MMREGISTER].free;
rg[R_MMXREGISTER].free;
rgfpu.free;
inherited done_register_allocators;
end;
function Tcgx86.getfpuregister(list:TAsmList;size:Tcgsize):Tregister;
begin
result:=rgfpu.getregisterfpu(list);
end;
function Tcgx86.getmmxregister(list:TAsmList):Tregister;
begin
if not assigned(rg[R_MMXREGISTER]) then
internalerror(2003121214);
result:=rg[R_MMXREGISTER].getregister(list,R_SUBNONE);
end;
function Tcgx86.getmmregister(list:TAsmList;size:Tcgsize):Tregister;
begin
if not assigned(rg[R_MMREGISTER]) then
internalerror(2003121234);
case size of
OS_F64:
result:=rg[R_MMREGISTER].getregister(list,R_SUBMMD);
OS_F32:
result:=rg[R_MMREGISTER].getregister(list,R_SUBMMS);
OS_M64,
OS_M128:
result:=rg[R_MMREGISTER].getregister(list,R_SUBMMWHOLE);
else
internalerror(200506041);
end;
end;
procedure Tcgx86.getcpuregister(list:TAsmList;r:Tregister);
begin
if getregtype(r)=R_FPUREGISTER then
internalerror(2003121210)
else
inherited getcpuregister(list,r);
end;
procedure tcgx86.ungetcpuregister(list:TAsmList;r:Tregister);
begin
if getregtype(r)=R_FPUREGISTER then
rgfpu.ungetregisterfpu(list,r)
else
inherited ungetcpuregister(list,r);
end;
procedure Tcgx86.alloccpuregisters(list:TAsmList;rt:Tregistertype;const r:Tcpuregisterset);
begin
if rt<>R_FPUREGISTER then
inherited alloccpuregisters(list,rt,r);
end;
procedure Tcgx86.dealloccpuregisters(list:TAsmList;rt:Tregistertype;const r:Tcpuregisterset);
begin
if rt<>R_FPUREGISTER then
inherited dealloccpuregisters(list,rt,r);
end;
function Tcgx86.uses_registers(rt:Tregistertype):boolean;
begin
if rt=R_FPUREGISTER then
result:=false
else
result:=inherited uses_registers(rt);
end;
procedure tcgx86.add_reg_instruction(instr:Tai;r:tregister);
begin
if getregtype(r)<>R_FPUREGISTER then
inherited add_reg_instruction(instr,r);
end;
procedure tcgx86.dec_fpu_stack;
begin
if rgfpu.fpuvaroffset<=0 then
internalerror(200604201);
dec(rgfpu.fpuvaroffset);
end;
procedure tcgx86.inc_fpu_stack;
begin
if rgfpu.fpuvaroffset>=7 then
internalerror(2012062901);
inc(rgfpu.fpuvaroffset);
end;
{****************************************************************************
This is private property, keep out! :)
****************************************************************************}
procedure tcgx86.sizes2load(s1,s2 : tcgsize; var op: tasmop; var s3: topsize);
begin
{ ensure to have always valid sizes }
if s1=OS_NO then
s1:=s2;
if s2=OS_NO then
s2:=s1;
case s2 of
OS_8,OS_S8 :
if S1 in [OS_8,OS_S8] then
s3 := S_B
else
internalerror(200109221);
OS_16,OS_S16:
case s1 of
OS_8,OS_S8:
s3 := S_BW;
OS_16,OS_S16:
s3 := S_W;
else
internalerror(200109222);
end;
OS_32,OS_S32:
case s1 of
OS_8,OS_S8:
s3 := S_BL;
OS_16,OS_S16:
s3 := S_WL;
OS_32,OS_S32:
s3 := S_L;
else
internalerror(200109223);
end;
{$ifdef x86_64}
OS_64,OS_S64:
case s1 of
OS_8:
s3 := S_BL;
OS_S8:
s3 := S_BQ;
OS_16:
s3 := S_WL;
OS_S16:
s3 := S_WQ;
OS_32:
s3 := S_L;
OS_S32:
s3 := S_LQ;
OS_64,OS_S64:
s3 := S_Q;
else
internalerror(200304302);
end;
{$endif x86_64}
else
internalerror(200109227);
end;
if s3 in [S_B,S_W,S_L,S_Q] then
op := A_MOV
else if s1 in [OS_8,OS_16,OS_32,OS_64] then
op := A_MOVZX
else
{$ifdef x86_64}
if s3 in [S_LQ] then
op := A_MOVSXD
else
{$endif x86_64}
op := A_MOVSX;
end;
procedure tcgx86.make_simple_ref(list:TAsmList;var ref: treference);
var
hreg : tregister;
href : treference;
{$ifndef x86_64}
add_hreg: boolean;
{$endif not x86_64}
begin
{ make_simple_ref() may have already been called earlier, and in that
case make sure we don't perform the PIC-simplifications twice }
if (ref.refaddr in [addr_pic,addr_pic_no_got]) then
exit;
{$ifdef x86_64}
{ Only 32bit is allowed }
if ((ref.offset<low(longint)) or (ref.offset>high(longint))) then
begin
{ Load constant value to register }
hreg:=GetAddressRegister(list);
list.concat(taicpu.op_const_reg(A_MOV,S_Q,ref.offset,hreg));
ref.offset:=0;
{if assigned(ref.symbol) then
begin
list.concat(taicpu.op_sym_ofs_reg(A_ADD,S_Q,ref.symbol,0,hreg));
ref.symbol:=nil;
end;}
{ Add register to reference }
if ref.index=NR_NO then
ref.index:=hreg
else
begin
{ don't use add, as the flags may contain a value }
reference_reset_base(href,ref.base,0,8);
href.index:=hreg;
if ref.scalefactor<>0 then
begin
reference_reset_base(href,ref.base,0,8);
href.index:=hreg;
list.concat(taicpu.op_ref_reg(A_LEA,S_Q,href,hreg));
ref.base:=hreg;
end
else
begin
reference_reset_base(href,ref.index,0,8);
href.index:=hreg;
list.concat(taicpu.op_reg_reg(A_ADD,S_Q,ref.index,hreg));
ref.index:=hreg;
end;
end;
end;
if assigned(ref.symbol) and not((ref.symbol.bind=AB_LOCAL) and (ref.symbol.typ in [AT_LABEL,AT_FUNCTION])) then
begin
if cs_create_pic in current_settings.moduleswitches then
begin
{ Local data symbols must not be accessed via the GOT on
darwin/x86_64 under certain circumstances (and do not
have to be in other cases); however, linux/x86_64 does
require it; don't know about others, so do use GOT for
safety reasons
}
if (ref.symbol.bind=AB_LOCAL) and
(ref.symbol.typ=AT_DATA) then
begin
{ unfortunately, RIP-based addresses don't support an index }
if (ref.base<>NR_NO) or
(ref.index<>NR_NO) then
begin
reference_reset_symbol(href,ref.symbol,0,ref.alignment);
hreg:=getaddressregister(list);
href.refaddr:=addr_pic_no_got;
href.base:=NR_RIP;
list.concat(taicpu.op_ref_reg(A_LEA,S_Q,href,hreg));
ref.symbol:=nil;
end
else
begin
ref.refaddr:=addr_pic_no_got;
hreg:=NR_NO;
ref.base:=NR_RIP;
end;
end
else
begin
reference_reset_symbol(href,ref.symbol,0,ref.alignment);
hreg:=getaddressregister(list);
href.refaddr:=addr_pic;
href.base:=NR_RIP;
list.concat(taicpu.op_ref_reg(A_MOV,S_Q,href,hreg));
ref.symbol:=nil;
end;
if ref.base=NR_NO then
ref.base:=hreg
else if ref.index=NR_NO then
begin
ref.index:=hreg;
ref.scalefactor:=1;
end
else
begin
{ don't use add, as the flags may contain a value }
reference_reset_base(href,ref.base,0,8);
href.index:=hreg;
list.concat(taicpu.op_ref_reg(A_LEA,S_Q,href,hreg));
ref.base:=hreg;
end;
end
else
{ Always use RIP relative symbol addressing for Windows and Darwin targets. }
if (target_info.system in (systems_all_windows+[system_x86_64_darwin])) and (ref.base<>NR_RIP) then
begin
if (ref.refaddr=addr_no) and (ref.base=NR_NO) and (ref.index=NR_NO) then
begin
{ Set RIP relative addressing for simple symbol references }
ref.base:=NR_RIP;
ref.refaddr:=addr_pic_no_got
end
else
begin
{ Use temp register to load calculated 64-bit symbol address for complex references }
reference_reset_symbol(href,ref.symbol,0,sizeof(pint));
href.base:=NR_RIP;
href.refaddr:=addr_pic_no_got;
hreg:=GetAddressRegister(list);
list.concat(taicpu.op_ref_reg(A_LEA,S_Q,href,hreg));
ref.symbol:=nil;
if ref.base=NR_NO then
ref.base:=hreg
else if ref.index=NR_NO then
begin
ref.index:=hreg;
ref.scalefactor:=0;
end
else
begin
{ don't use add, as the flags may contain a value }
reference_reset_base(href,ref.base,0,8);
href.index:=hreg;
list.concat(taicpu.op_ref_reg(A_LEA,S_Q,href,hreg));
ref.base:=hreg;
end;
end;
end;
end;
{$else x86_64}
add_hreg:=false;
if (target_info.system in [system_i386_darwin,system_i386_iphonesim]) then
begin
if assigned(ref.symbol) and
not(assigned(ref.relsymbol)) and
((ref.symbol.bind in [AB_EXTERNAL,AB_WEAK_EXTERNAL]) or
(cs_create_pic in current_settings.moduleswitches)) then
begin
if (ref.symbol.bind in [AB_EXTERNAL,AB_WEAK_EXTERNAL]) or
((cs_create_pic in current_settings.moduleswitches) and
(ref.symbol.bind in [AB_COMMON,AB_GLOBAL,AB_PRIVATE_EXTERN])) then
begin
hreg:=g_indirect_sym_load(list,ref.symbol.name,asmsym2indsymflags(ref.symbol));
ref.symbol:=nil;
end
else
begin
include(current_procinfo.flags,pi_needs_got);
hreg:=current_procinfo.got;
ref.relsymbol:=current_procinfo.CurrGOTLabel;
end;
add_hreg:=true
end
end
else if (cs_create_pic in current_settings.moduleswitches) and
assigned(ref.symbol) and
not((ref.symbol.bind=AB_LOCAL) and
(ref.symbol.typ in [AT_LABEL,AT_FUNCTION])) then
begin
reference_reset_symbol(href,ref.symbol,0,sizeof(pint));
href.base:=current_procinfo.got;
href.refaddr:=addr_pic;
include(current_procinfo.flags,pi_needs_got);
hreg:=cg.getaddressregister(list);
list.concat(taicpu.op_ref_reg(A_MOV,S_L,href,hreg));
ref.symbol:=nil;
add_hreg:=true;
end;
if add_hreg then
begin
if ref.base=NR_NO then
ref.base:=hreg
else if ref.index=NR_NO then
begin
ref.index:=hreg;
ref.scalefactor:=1;
end
else
begin
{ don't use add, as the flags may contain a value }
reference_reset_base(href,ref.base,0,8);
href.index:=hreg;
list.concat(taicpu.op_ref_reg(A_LEA,S_L,href,hreg));
ref.base:=hreg;
end;
end;
{$endif x86_64}
end;
procedure tcgx86.floatloadops(t : tcgsize;var op : tasmop;var s : topsize);
begin
case t of
OS_F32 :
begin
op:=A_FLD;
s:=S_FS;
end;
OS_F64 :
begin
op:=A_FLD;
s:=S_FL;
end;
OS_F80 :
begin
op:=A_FLD;
s:=S_FX;
end;
OS_C64 :
begin
op:=A_FILD;
s:=S_IQ;
end;
else
internalerror(200204043);
end;
end;
procedure tcgx86.floatload(list: TAsmList; t : tcgsize;const ref : treference);
var
op : tasmop;
s : topsize;
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
floatloadops(t,op,s);
list.concat(Taicpu.Op_ref(op,s,tmpref));
inc_fpu_stack;
end;
procedure tcgx86.floatstoreops(t : tcgsize;var op : tasmop;var s : topsize);
begin
case t of
OS_F32 :
begin
op:=A_FSTP;
s:=S_FS;
end;
OS_F64 :
begin
op:=A_FSTP;
s:=S_FL;
end;
OS_F80 :
begin
op:=A_FSTP;
s:=S_FX;
end;
OS_C64 :
begin
op:=A_FISTP;
s:=S_IQ;
end;
else
internalerror(200204042);
end;
end;
procedure tcgx86.floatstore(list: TAsmList; t : tcgsize;const ref : treference);
var
op : tasmop;
s : topsize;
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
floatstoreops(t,op,s);
list.concat(Taicpu.Op_ref(op,s,tmpref));
{ storing non extended floats can cause a floating point overflow }
if (t<>OS_F80) and
(cs_fpu_fwait in current_settings.localswitches) then
list.concat(Taicpu.Op_none(A_FWAIT,S_NO));
dec_fpu_stack;
end;
procedure tcgx86.check_register_size(size:tcgsize;reg:tregister);
begin
if TCGSize2OpSize[size]<>TCGSize2OpSize[reg_cgsize(reg)] then
internalerror(200306031);
end;
{****************************************************************************
Assembler code
****************************************************************************}
procedure tcgx86.a_jmp_name(list : TAsmList;const s : string);
var
r: treference;
begin
if (target_info.system <> system_i386_darwin) then
list.concat(taicpu.op_sym(A_JMP,S_NO,current_asmdata.RefAsmSymbol(s)))
else
begin
reference_reset_symbol(r,get_darwin_call_stub(s,false),0,sizeof(pint));
r.refaddr:=addr_full;
list.concat(taicpu.op_ref(A_JMP,S_NO,r));
end;
end;
procedure tcgx86.a_jmp_always(list : TAsmList;l: tasmlabel);
begin
a_jmp_cond(list, OC_NONE, l);
end;
function tcgx86.get_darwin_call_stub(const s: string; weak: boolean): tasmsymbol;
var
stubname: string;
begin
stubname := 'L'+s+'$stub';
result := current_asmdata.getasmsymbol(stubname);
if assigned(result) then
exit;
if current_asmdata.asmlists[al_imports]=nil then
current_asmdata.asmlists[al_imports]:=TAsmList.create;
new_section(current_asmdata.asmlists[al_imports],sec_stub,'',0);
result := current_asmdata.RefAsmSymbol(stubname);
current_asmdata.asmlists[al_imports].concat(Tai_symbol.Create(result,0));
{ register as a weak symbol if necessary }
if weak then
current_asmdata.weakrefasmsymbol(s);
current_asmdata.asmlists[al_imports].concat(tai_directive.create(asd_indirect_symbol,s));
current_asmdata.asmlists[al_imports].concat(taicpu.op_none(A_HLT));
current_asmdata.asmlists[al_imports].concat(taicpu.op_none(A_HLT));
current_asmdata.asmlists[al_imports].concat(taicpu.op_none(A_HLT));
current_asmdata.asmlists[al_imports].concat(taicpu.op_none(A_HLT));
current_asmdata.asmlists[al_imports].concat(taicpu.op_none(A_HLT));
end;
procedure tcgx86.a_call_name(list : TAsmList;const s : string; weak: boolean);
var
sym : tasmsymbol;
r : treference;
begin
if (target_info.system <> system_i386_darwin) then
begin
if not(weak) then
sym:=current_asmdata.RefAsmSymbol(s)
else
sym:=current_asmdata.WeakRefAsmSymbol(s);
reference_reset_symbol(r,sym,0,sizeof(pint));
if (cs_create_pic in current_settings.moduleswitches) and
{ darwin's assembler doesn't want @PLT after call symbols }
not(target_info.system in [system_x86_64_darwin,system_i386_iphonesim]) then
begin
{$ifdef i386}
include(current_procinfo.flags,pi_needs_got);
{$endif i386}
r.refaddr:=addr_pic
end
else
r.refaddr:=addr_full;
end
else
begin
reference_reset_symbol(r,get_darwin_call_stub(s,weak),0,sizeof(pint));
r.refaddr:=addr_full;
end;
list.concat(taicpu.op_ref(A_CALL,S_NO,r));
end;
procedure tcgx86.a_call_name_static(list : TAsmList;const s : string);
var
sym : tasmsymbol;
r : treference;
begin
sym:=current_asmdata.RefAsmSymbol(s);
reference_reset_symbol(r,sym,0,sizeof(pint));
r.refaddr:=addr_full;
list.concat(taicpu.op_ref(A_CALL,S_NO,r));
end;
procedure tcgx86.a_call_reg(list : TAsmList;reg : tregister);
begin
list.concat(taicpu.op_reg(A_CALL,S_NO,reg));
end;
procedure tcgx86.a_call_ref(list : TAsmList;ref : treference);
begin
list.concat(taicpu.op_ref(A_CALL,S_NO,ref));
end;
{********************** load instructions ********************}
procedure tcgx86.a_load_const_reg(list : TAsmList; tosize: TCGSize; a : tcgint; reg : TRegister);
begin
check_register_size(tosize,reg);
{ the optimizer will change it to "xor reg,reg" when loading zero, }
{ no need to do it here too (JM) }
list.concat(taicpu.op_const_reg(A_MOV,TCGSize2OpSize[tosize],a,reg))
end;
procedure tcgx86.a_load_const_ref(list : TAsmList; tosize: tcgsize; a : tcgint;const ref : treference);
var
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
{$ifdef x86_64}
{ x86_64 only supports signed 32 bits constants directly }
if (tosize in [OS_S64,OS_64]) and
((a<low(longint)) or (a>high(longint))) then
begin
a_load_const_ref(list,OS_32,longint(a and $ffffffff),tmpref);
inc(tmpref.offset,4);
a_load_const_ref(list,OS_32,longint(a shr 32),tmpref);
end
else
{$endif x86_64}
list.concat(taicpu.op_const_ref(A_MOV,TCGSize2OpSize[tosize],a,tmpref));
end;
procedure tcgx86.a_load_reg_ref(list : TAsmList; fromsize,tosize: TCGSize; reg : tregister;const ref : treference);
var
op: tasmop;
s: topsize;
tmpsize : tcgsize;
tmpreg : tregister;
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
check_register_size(fromsize,reg);
sizes2load(fromsize,tosize,op,s);
case s of
{$ifdef x86_64}
S_BQ,S_WQ,S_LQ,
{$endif x86_64}
S_BW,S_BL,S_WL :
begin
tmpreg:=getintregister(list,tosize);
{$ifdef x86_64}
{ zero extensions to 64 bit on the x86_64 are simply done by writting to the lower 32 bit
which clears the upper 64 bit too, so it could be that s is S_L while the reg is
64 bit (FK) }
if s in [S_BL,S_WL,S_L] then
begin
tmpreg:=makeregsize(list,tmpreg,OS_32);
tmpsize:=OS_32;
end
else
{$endif x86_64}
tmpsize:=tosize;
list.concat(taicpu.op_reg_reg(op,s,reg,tmpreg));
a_load_reg_ref(list,tmpsize,tosize,tmpreg,tmpref);
end;
else
list.concat(taicpu.op_reg_ref(op,s,reg,tmpref));
end;
end;
procedure tcgx86.a_load_ref_reg(list : TAsmList;fromsize,tosize : tcgsize;const ref: treference;reg : tregister);
var
op: tasmop;
s: topsize;
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
check_register_size(tosize,reg);
sizes2load(fromsize,tosize,op,s);
{$ifdef x86_64}
{ zero extensions to 64 bit on the x86_64 are simply done by writting to the lower 32 bit
which clears the upper 64 bit too, so it could be that s is S_L while the reg is
64 bit (FK) }
if s in [S_BL,S_WL,S_L] then
reg:=makeregsize(list,reg,OS_32);
{$endif x86_64}
list.concat(taicpu.op_ref_reg(op,s,tmpref,reg));
end;
procedure tcgx86.a_load_reg_reg(list : TAsmList;fromsize,tosize : tcgsize;reg1,reg2 : tregister);
var
op: tasmop;
s: topsize;
instr:Taicpu;
begin
check_register_size(fromsize,reg1);
check_register_size(tosize,reg2);
if tcgsize2size[fromsize]>tcgsize2size[tosize] then
begin
reg1:=makeregsize(list,reg1,tosize);
s:=tcgsize2opsize[tosize];
op:=A_MOV;
end
else
sizes2load(fromsize,tosize,op,s);
{$ifdef x86_64}
{ zero extensions to 64 bit on the x86_64 are simply done by writting to the lower 32 bit
which clears the upper 64 bit too, so it could be that s is S_L while the reg is
64 bit (FK)
}
if s in [S_BL,S_WL,S_L] then
reg2:=makeregsize(list,reg2,OS_32);
{$endif x86_64}
if (reg1<>reg2) then
begin
instr:=taicpu.op_reg_reg(op,s,reg1,reg2);
{ Notify the register allocator that we have written a move instruction so
it can try to eliminate it. }
if (reg1<>current_procinfo.framepointer) and (reg1<>NR_STACK_POINTER_REG) then
add_move_instruction(instr);
list.concat(instr);
end;
{$ifdef x86_64}
{ avoid merging of registers and killing the zero extensions (FK) }
if (tosize in [OS_64,OS_S64]) and (s=S_L) then
list.concat(taicpu.op_const_reg(A_AND,S_L,$ffffffff,reg2));
{$endif x86_64}
end;
procedure tcgx86.a_loadaddr_ref_reg(list : TAsmList;const ref : treference;r : tregister);
var
tmpref : treference;
begin
with ref do
begin
if (base=NR_NO) and (index=NR_NO) then
begin
if assigned(ref.symbol) then
begin
if (target_info.system in [system_i386_darwin,system_i386_iphonesim]) and
((ref.symbol.bind in [AB_EXTERNAL,AB_WEAK_EXTERNAL]) or
(cs_create_pic in current_settings.moduleswitches)) then
begin
if (ref.symbol.bind in [AB_EXTERNAL,AB_WEAK_EXTERNAL]) or
((cs_create_pic in current_settings.moduleswitches) and
(ref.symbol.bind in [AB_COMMON,AB_GLOBAL,AB_PRIVATE_EXTERN])) then
begin
reference_reset_base(tmpref,
g_indirect_sym_load(list,ref.symbol.name,asmsym2indsymflags(ref.symbol)),
offset,sizeof(pint));
a_loadaddr_ref_reg(list,tmpref,r);
end
else
begin
include(current_procinfo.flags,pi_needs_got);
reference_reset_base(tmpref,current_procinfo.got,offset,ref.alignment);
tmpref.symbol:=symbol;
tmpref.relsymbol:=current_procinfo.CurrGOTLabel;
list.concat(Taicpu.op_ref_reg(A_LEA,tcgsize2opsize[OS_ADDR],tmpref,r));
end;
end
else if (cs_create_pic in current_settings.moduleswitches)
{$ifdef x86_64}
and not((ref.symbol.bind=AB_LOCAL) and
(ref.symbol.typ in [AT_DATA,AT_LABEL,AT_ADDR]))
{$endif x86_64}
then
begin
{$ifdef x86_64}
reference_reset_symbol(tmpref,ref.symbol,0,ref.alignment);
tmpref.refaddr:=addr_pic;
tmpref.base:=NR_RIP;
list.concat(taicpu.op_ref_reg(A_MOV,S_Q,tmpref,r));
{$else x86_64}
reference_reset_symbol(tmpref,ref.symbol,0,ref.alignment);
tmpref.refaddr:=addr_pic;
tmpref.base:=current_procinfo.got;
include(current_procinfo.flags,pi_needs_got);
list.concat(taicpu.op_ref_reg(A_MOV,S_L,tmpref,r));
{$endif x86_64}
if offset<>0 then
a_op_const_reg(list,OP_ADD,OS_ADDR,offset,r);
end
{$ifdef x86_64}
else if (target_info.system in (systems_all_windows+[system_x86_64_darwin]))
or (cs_create_pic in current_settings.moduleswitches)
then
begin
{ Win64 and Darwin/x86_64 always require RIP-relative addressing }
tmpref:=ref;
tmpref.base:=NR_RIP;
tmpref.refaddr:=addr_pic_no_got;
list.concat(Taicpu.op_ref_reg(A_LEA,S_Q,tmpref,r));
end
{$endif x86_64}
else
begin
tmpref:=ref;
tmpref.refaddr:=ADDR_FULL;
list.concat(Taicpu.op_ref_reg(A_MOV,tcgsize2opsize[OS_ADDR],tmpref,r));
end
end
else
a_load_const_reg(list,OS_ADDR,offset,r)
end
else if (base=NR_NO) and (index<>NR_NO) and
(offset=0) and (scalefactor=0) and (symbol=nil) then
a_load_reg_reg(list,OS_ADDR,OS_ADDR,index,r)
else if (base<>NR_NO) and (index=NR_NO) and
(offset=0) and (symbol=nil) then
a_load_reg_reg(list,OS_ADDR,OS_ADDR,base,r)
else
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
list.concat(Taicpu.op_ref_reg(A_LEA,tcgsize2opsize[OS_ADDR],tmpref,r));
end;
if segment<>NR_NO then
begin
if (tf_section_threadvars in target_info.flags) then
begin
{ Convert thread local address to a process global addres
as we cannot handle far pointers.}
case target_info.system of
system_i386_linux:
if segment=NR_GS then
begin
reference_reset_symbol(tmpref,current_asmdata.RefAsmSymbol('___fpc_threadvar_offset'),0,ref.alignment);
tmpref.segment:=NR_GS;
list.concat(Taicpu.op_ref_reg(A_ADD,tcgsize2opsize[OS_ADDR],tmpref,r));
end
else
cgmessage(cg_e_cant_use_far_pointer_there);
system_i386_win32:
if segment=NR_FS then
begin
allocallcpuregisters(list);
a_call_name(list,'GetTls',false);
deallocallcpuregisters(list);
list.concat(Taicpu.op_reg_reg(A_ADD,tcgsize2opsize[OS_ADDR],NR_EAX,r));
end
else
cgmessage(cg_e_cant_use_far_pointer_there);
else
cgmessage(cg_e_cant_use_far_pointer_there);
end;
end
else
cgmessage(cg_e_cant_use_far_pointer_there);
end;
end;
end;
{ all fpu load routines expect that R_ST[0-7] means an fpu regvar and }
{ R_ST means "the current value at the top of the fpu stack" (JM) }
procedure tcgx86.a_loadfpu_reg_reg(list: TAsmList; fromsize, tosize: tcgsize; reg1, reg2: tregister);
var
href: treference;
op: tasmop;
s: topsize;
begin
if (reg1<>NR_ST) then
begin
floatloadops(tosize,op,s);
list.concat(taicpu.op_reg(op,s,rgfpu.correct_fpuregister(reg1,rgfpu.fpuvaroffset)));
inc_fpu_stack;
end;
if (reg2<>NR_ST) then
begin
floatstoreops(tosize,op,s);
list.concat(taicpu.op_reg(op,s,rgfpu.correct_fpuregister(reg2,rgfpu.fpuvaroffset)));
dec_fpu_stack;
end;
{ OS_F80 < OS_C64, but OS_C64 fits perfectly in OS_F80 }
if (reg1=NR_ST) and
(reg2=NR_ST) and
(tosize<>OS_F80) and
(tosize<fromsize) then
begin
{ can't round down to lower precision in x87 :/ }
tg.gettemp(list,tcgsize2size[tosize],tcgsize2size[tosize],tt_normal,href);
a_loadfpu_reg_ref(list,fromsize,tosize,NR_ST,href);
a_loadfpu_ref_reg(list,tosize,tosize,href,NR_ST);
tg.ungettemp(list,href);
end;
end;
procedure tcgx86.a_loadfpu_ref_reg(list: TAsmList; fromsize, tosize: tcgsize; const ref: treference; reg: tregister);
begin
floatload(list,fromsize,ref);
a_loadfpu_reg_reg(list,fromsize,tosize,NR_ST,reg);
end;
procedure tcgx86.a_loadfpu_reg_ref(list: TAsmList; fromsize,tosize: tcgsize; reg: tregister; const ref: treference);
begin
{ in case a record returned in a floating point register
(LOC_FPUREGISTER with OS_F32/OS_F64) is stored in memory
(LOC_REFERENCE with OS_32/OS_64), we have to adjust the
tosize }
if (fromsize in [OS_F32,OS_F64]) and
(tcgsize2size[fromsize]=tcgsize2size[tosize]) then
case tosize of
OS_32:
tosize:=OS_F32;
OS_64:
tosize:=OS_F64;
end;
if reg<>NR_ST then
a_loadfpu_reg_reg(list,fromsize,tosize,reg,NR_ST);
floatstore(list,tosize,ref);
end;
function get_scalar_mm_op(fromsize,tosize : tcgsize) : tasmop;
const
convertop : array[OS_F32..OS_F128,OS_F32..OS_F128] of tasmop = (
(A_MOVSS,A_CVTSS2SD,A_NONE,A_NONE,A_NONE),
(A_CVTSD2SS,A_MOVSD,A_NONE,A_NONE,A_NONE),
(A_NONE,A_NONE,A_NONE,A_NONE,A_NONE),
(A_NONE,A_NONE,A_NONE,A_MOVQ,A_NONE),
(A_NONE,A_NONE,A_NONE,A_NONE,A_NONE));
begin
{ we can have OS_F32/OS_F64 (record in function result/LOC_MMREGISTER) to
OS_32/OS_64 (record in memory/LOC_REFERENCE) }
if (fromsize in [OS_F32,OS_F64]) and
(tcgsize2size[fromsize]=tcgsize2size[tosize]) then
case tosize of
OS_32:
tosize:=OS_F32;
OS_64:
tosize:=OS_F64;
end;
if (fromsize in [low(convertop)..high(convertop)]) and
(tosize in [low(convertop)..high(convertop)]) then
result:=convertop[fromsize,tosize]
{ we can have OS_M64 (record in function result/LOC_MMREGISTER) to
OS_64 (record in memory/LOC_REFERENCE) }
else if (tcgsize2size[fromsize]=tcgsize2size[tosize]) and
(fromsize=OS_M64) then
result:=A_MOVQ
else
internalerror(2010060104);
if result=A_NONE then
internalerror(200312205);
end;
procedure tcgx86.a_loadmm_reg_reg(list: TAsmList; fromsize, tosize : tcgsize;reg1, reg2: tregister;shuffle : pmmshuffle);
var
instr : taicpu;
begin
if shuffle=nil then
begin
if fromsize=tosize then
{ needs correct size in case of spilling }
case fromsize of
OS_F32:
instr:=taicpu.op_reg_reg(A_MOVAPS,S_NO,reg1,reg2);
OS_F64:
instr:=taicpu.op_reg_reg(A_MOVAPD,S_NO,reg1,reg2);
OS_M64:
instr:=taicpu.op_reg_reg(A_MOVQ,S_NO,reg1,reg2);
else
internalerror(2006091201);
end
else
internalerror(200312202);
add_move_instruction(instr);
end
else if shufflescalar(shuffle) then
begin
instr:=taicpu.op_reg_reg(get_scalar_mm_op(fromsize,tosize),S_NO,reg1,reg2);
case get_scalar_mm_op(fromsize,tosize) of
A_MOVSS,
A_MOVSD,
A_MOVQ:
add_move_instruction(instr);
end;
end
else
internalerror(200312201);
list.concat(instr);
end;
procedure tcgx86.a_loadmm_ref_reg(list: TAsmList; fromsize, tosize : tcgsize;const ref: treference; reg: tregister;shuffle : pmmshuffle);
var
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
if shuffle=nil then
begin
if fromsize=OS_M64 then
list.concat(taicpu.op_ref_reg(A_MOVQ,S_NO,tmpref,reg))
else
{$ifdef x86_64}
{ x86-64 has always properly aligned data }
list.concat(taicpu.op_ref_reg(A_MOVDQA,S_NO,tmpref,reg));
{$else x86_64}
list.concat(taicpu.op_ref_reg(A_MOVDQU,S_NO,tmpref,reg));
{$endif x86_64}
end
else if shufflescalar(shuffle) then
list.concat(taicpu.op_ref_reg(get_scalar_mm_op(fromsize,tosize),S_NO,tmpref,reg))
else
internalerror(200312252);
end;
procedure tcgx86.a_loadmm_reg_ref(list: TAsmList; fromsize, tosize : tcgsize;reg: tregister; const ref: treference;shuffle : pmmshuffle);
var
hreg : tregister;
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
if shuffle=nil then
begin
if fromsize=OS_M64 then
list.concat(taicpu.op_reg_ref(A_MOVQ,S_NO,reg,tmpref))
else
{$ifdef x86_64}
{ x86-64 has always properly aligned data }
list.concat(taicpu.op_reg_ref(A_MOVDQA,S_NO,reg,tmpref))
{$else x86_64}
list.concat(taicpu.op_reg_ref(A_MOVDQU,S_NO,reg,tmpref))
{$endif x86_64}
end
else if shufflescalar(shuffle) then
begin
if tcgsize2size[tosize]<>tcgsize2size[fromsize] then
begin
hreg:=getmmregister(list,tosize);
list.concat(taicpu.op_reg_reg(get_scalar_mm_op(fromsize,tosize),S_NO,reg,hreg));
list.concat(taicpu.op_reg_ref(get_scalar_mm_op(tosize,tosize),S_NO,hreg,tmpref));
end
else
list.concat(taicpu.op_reg_ref(get_scalar_mm_op(fromsize,tosize),S_NO,reg,tmpref));
end
else
internalerror(200312252);
end;
procedure tcgx86.a_opmm_ref_reg(list: TAsmList; Op: TOpCG; size : tcgsize;const ref: treference; reg: tregister;shuffle : pmmshuffle);
var
l : tlocation;
begin
l.loc:=LOC_REFERENCE;
l.reference:=ref;
l.size:=size;
opmm_loc_reg(list,op,size,l,reg,shuffle);
end;
procedure tcgx86.a_opmm_reg_reg(list: TAsmList; Op: TOpCG; size : tcgsize;src,dst: tregister;shuffle : pmmshuffle);
var
l : tlocation;
begin
l.loc:=LOC_MMREGISTER;
l.register:=src;
l.size:=size;
opmm_loc_reg(list,op,size,l,dst,shuffle);
end;
procedure tcgx86.opmm_loc_reg(list: TAsmList; Op: TOpCG; size : tcgsize;loc : tlocation;dst: tregister; shuffle : pmmshuffle);
const
opmm2asmop : array[0..1,OS_F32..OS_F64,topcg] of tasmop = (
( { scalar }
( { OS_F32 }
A_NOP,A_NOP,A_ADDSS,A_NOP,A_DIVSS,A_NOP,A_NOP,A_MULSS,A_NOP,A_NOP,A_NOP,A_NOP,A_NOP,A_NOP,A_SUBSS,A_NOP,A_NOP,A_NOP
),
( { OS_F64 }
A_NOP,A_NOP,A_ADDSD,A_NOP,A_DIVSD,A_NOP,A_NOP,A_MULSD,A_NOP,A_NOP,A_NOP,A_NOP,A_NOP,A_NOP,A_SUBSD,A_NOP,A_NOP,A_NOP
)
),
( { vectorized/packed }
{ because the logical packed single instructions have shorter op codes, we use always
these
}
( { OS_F32 }
A_NOP,A_NOP,A_ADDPS,A_NOP,A_DIVPS,A_NOP,A_NOP,A_MULPS,A_NOP,A_NOP,A_NOP,A_NOP,A_NOP,A_NOP,A_SUBPS,A_XORPS,A_NOP,A_NOP
),
( { OS_F64 }
A_NOP,A_NOP,A_ADDPD,A_NOP,A_DIVPD,A_NOP,A_NOP,A_MULPD,A_NOP,A_NOP,A_NOP,A_NOP,A_NOP,A_NOP,A_SUBPD,A_XORPD,A_NOP,A_NOP
)
)
);
var
resultreg : tregister;
asmop : tasmop;
begin
{ this is an internally used procedure so the parameters have
some constrains
}
if loc.size<>size then
internalerror(200312213);
resultreg:=dst;
{ deshuffle }
//!!!
if (shuffle<>nil) and not(shufflescalar(shuffle)) then
begin
internalerror(2010060101);
end
else if (shuffle=nil) then
asmop:=opmm2asmop[1,size,op]
else if shufflescalar(shuffle) then
begin
asmop:=opmm2asmop[0,size,op];
{ no scalar operation available? }
if asmop=A_NOP then
begin
{ do vectorized and shuffle finally }
internalerror(2010060102);
end;
end
else
internalerror(200312211);
if asmop=A_NOP then
internalerror(200312216);
case loc.loc of
LOC_CREFERENCE,LOC_REFERENCE:
begin
make_simple_ref(current_asmdata.CurrAsmList,loc.reference);
list.concat(taicpu.op_ref_reg(asmop,S_NO,loc.reference,resultreg));
end;
LOC_CMMREGISTER,LOC_MMREGISTER:
list.concat(taicpu.op_reg_reg(asmop,S_NO,loc.register,resultreg));
else
internalerror(200312214);
end;
{ shuffle }
if resultreg<>dst then
begin
internalerror(200312212);
end;
end;
procedure tcgx86.a_op_const_reg(list : TAsmList; Op: TOpCG; size: TCGSize; a: tcgint; reg: TRegister);
var
opcode : tasmop;
power : longint;
{$ifdef x86_64}
tmpreg : tregister;
{$endif x86_64}
begin
optimize_op_const(op, a);
{$ifdef x86_64}
{ x86_64 only supports signed 32 bits constants directly }
if not(op in [OP_NONE,OP_MOVE]) and
(size in [OS_S64,OS_64]) and
((a<low(longint)) or (a>high(longint))) then
begin
tmpreg:=getintregister(list,size);
a_load_const_reg(list,size,a,tmpreg);
a_op_reg_reg(list,op,size,tmpreg,reg);
exit;
end;
{$endif x86_64}
check_register_size(size,reg);
case op of
OP_NONE :
begin
{ Opcode is optimized away }
end;
OP_MOVE :
begin
{ Optimized, replaced with a simple load }
a_load_const_reg(list,size,a,reg);
end;
OP_DIV, OP_IDIV:
begin
if ispowerof2(int64(a),power) then
begin
case op of
OP_DIV:
opcode := A_SHR;
OP_IDIV:
opcode := A_SAR;
end;
list.concat(taicpu.op_const_reg(opcode,TCgSize2OpSize[size],power,reg));
exit;
end;
{ the rest should be handled specifically in the code }
{ generator because of the silly register usage restraints }
internalerror(200109224);
end;
OP_MUL,OP_IMUL:
begin
if not(cs_check_overflow in current_settings.localswitches) and
ispowerof2(int64(a),power) then
begin
list.concat(taicpu.op_const_reg(A_SHL,TCgSize2OpSize[size],power,reg));
exit;
end;
if op = OP_IMUL then
list.concat(taicpu.op_const_reg(A_IMUL,TCgSize2OpSize[size],a,reg))
else
{ OP_MUL should be handled specifically in the code }
{ generator because of the silly register usage restraints }
internalerror(200109225);
end;
OP_ADD, OP_AND, OP_OR, OP_SUB, OP_XOR:
if not(cs_check_overflow in current_settings.localswitches) and
(a = 1) and
(op in [OP_ADD,OP_SUB]) then
if op = OP_ADD then
list.concat(taicpu.op_reg(A_INC,TCgSize2OpSize[size],reg))
else
list.concat(taicpu.op_reg(A_DEC,TCgSize2OpSize[size],reg))
else if (a = 0) then
if (op <> OP_AND) then
exit
else
list.concat(taicpu.op_const_reg(A_MOV,TCgSize2OpSize[size],0,reg))
else if (aword(a) = high(aword)) and
(op in [OP_AND,OP_OR,OP_XOR]) then
begin
case op of
OP_AND:
exit;
OP_OR:
list.concat(taicpu.op_const_reg(A_MOV,TCgSize2OpSize[size],aint(high(aword)),reg));
OP_XOR:
list.concat(taicpu.op_reg(A_NOT,TCgSize2OpSize[size],reg));
end
end
else
list.concat(taicpu.op_const_reg(TOpCG2AsmOp[op],TCgSize2OpSize[size],aint(a),reg));
OP_SHL,OP_SHR,OP_SAR,OP_ROL,OP_ROR:
begin
{$ifdef x86_64}
if (a and 63) <> 0 Then
list.concat(taicpu.op_const_reg(TOpCG2AsmOp[op],TCgSize2OpSize[size],a and 63,reg));
if (a shr 6) <> 0 Then
internalerror(200609073);
{$else x86_64}
if (a and 31) <> 0 Then
list.concat(taicpu.op_const_reg(TOpCG2AsmOp[op],TCgSize2OpSize[size],a and 31,reg));
if (a shr 5) <> 0 Then
internalerror(200609071);
{$endif x86_64}
end
else internalerror(200609072);
end;
end;
procedure tcgx86.a_op_const_ref(list : TAsmList; Op: TOpCG; size: TCGSize; a: tcgint; const ref: TReference);
var
opcode: tasmop;
power: longint;
{$ifdef x86_64}
tmpreg : tregister;
{$endif x86_64}
tmpref : treference;
begin
optimize_op_const(op, a);
tmpref:=ref;
make_simple_ref(list,tmpref);
{$ifdef x86_64}
{ x86_64 only supports signed 32 bits constants directly }
if not(op in [OP_NONE,OP_MOVE]) and
(size in [OS_S64,OS_64]) and
((a<low(longint)) or (a>high(longint))) then
begin
tmpreg:=getintregister(list,size);
a_load_const_reg(list,size,a,tmpreg);
a_op_reg_ref(list,op,size,tmpreg,tmpref);
exit;
end;
{$endif x86_64}
Case Op of
OP_NONE :
begin
{ Opcode is optimized away }
end;
OP_MOVE :
begin
{ Optimized, replaced with a simple load }
a_load_const_ref(list,size,a,ref);
end;
OP_DIV, OP_IDIV:
Begin
if ispowerof2(int64(a),power) then
begin
case op of
OP_DIV:
opcode := A_SHR;
OP_IDIV:
opcode := A_SAR;
end;
list.concat(taicpu.op_const_ref(opcode,
TCgSize2OpSize[size],power,tmpref));
exit;
end;
{ the rest should be handled specifically in the code }
{ generator because of the silly register usage restraints }
internalerror(200109231);
End;
OP_MUL,OP_IMUL:
begin
if not(cs_check_overflow in current_settings.localswitches) and
ispowerof2(int64(a),power) then
begin
list.concat(taicpu.op_const_ref(A_SHL,TCgSize2OpSize[size],
power,tmpref));
exit;
end;
{ can't multiply a memory location directly with a constant }
if op = OP_IMUL then
inherited a_op_const_ref(list,op,size,a,tmpref)
else
{ OP_MUL should be handled specifically in the code }
{ generator because of the silly register usage restraints }
internalerror(200109232);
end;
OP_ADD, OP_AND, OP_OR, OP_SUB, OP_XOR:
if not(cs_check_overflow in current_settings.localswitches) and
(a = 1) and
(op in [OP_ADD,OP_SUB]) then
if op = OP_ADD then
list.concat(taicpu.op_ref(A_INC,TCgSize2OpSize[size],tmpref))
else
list.concat(taicpu.op_ref(A_DEC,TCgSize2OpSize[size],tmpref))
else if (a = 0) then
if (op <> OP_AND) then
exit
else
a_load_const_ref(list,size,0,tmpref)
else if (aword(a) = high(aword)) and
(op in [OP_AND,OP_OR,OP_XOR]) then
begin
case op of
OP_AND:
exit;
OP_OR:
list.concat(taicpu.op_const_ref(A_MOV,TCgSize2OpSize[size],aint(high(aword)),tmpref));
OP_XOR:
list.concat(taicpu.op_ref(A_NOT,TCgSize2OpSize[size],tmpref));
end
end
else
list.concat(taicpu.op_const_ref(TOpCG2AsmOp[op],
TCgSize2OpSize[size],a,tmpref));
OP_SHL,OP_SHR,OP_SAR,OP_ROL,OP_ROR:
begin
if (a and 31) <> 0 then
list.concat(taicpu.op_const_ref(
TOpCG2AsmOp[op],TCgSize2OpSize[size],a and 31,tmpref));
if (a shr 5) <> 0 Then
internalerror(68991);
end
else internalerror(68992);
end;
end;
procedure tcgx86.a_op_reg_reg(list : TAsmList; Op: TOpCG; size: TCGSize; src, dst: TRegister);
var
dstsize: topsize;
instr:Taicpu;
begin
check_register_size(size,src);
check_register_size(size,dst);
dstsize := tcgsize2opsize[size];
case op of
OP_NEG,OP_NOT:
begin
if src<>dst then
a_load_reg_reg(list,size,size,src,dst);
list.concat(taicpu.op_reg(TOpCG2AsmOp[op],dstsize,dst));
end;
OP_MUL,OP_DIV,OP_IDIV:
{ special stuff, needs separate handling inside code }
{ generator }
internalerror(200109233);
OP_SHR,OP_SHL,OP_SAR,OP_ROL,OP_ROR:
begin
{ Use ecx to load the value, that allows better coalescing }
getcpuregister(list,NR_ECX);
a_load_reg_reg(list,size,OS_32,src,NR_ECX);
list.concat(taicpu.op_reg_reg(Topcg2asmop[op],tcgsize2opsize[size],NR_CL,dst));
ungetcpuregister(list,NR_ECX);
end;
else
begin
if reg2opsize(src) <> dstsize then
internalerror(200109226);
instr:=taicpu.op_reg_reg(TOpCG2AsmOp[op],dstsize,src,dst);
list.concat(instr);
end;
end;
end;
procedure tcgx86.a_op_ref_reg(list : TAsmList; Op: TOpCG; size: TCGSize; const ref: TReference; reg: TRegister);
var
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
check_register_size(size,reg);
case op of
OP_NEG,OP_NOT,OP_IMUL:
begin
inherited a_op_ref_reg(list,op,size,tmpref,reg);
end;
OP_MUL,OP_DIV,OP_IDIV:
{ special stuff, needs separate handling inside code }
{ generator }
internalerror(200109239);
else
begin
reg := makeregsize(list,reg,size);
list.concat(taicpu.op_ref_reg(TOpCG2AsmOp[op],tcgsize2opsize[size],tmpref,reg));
end;
end;
end;
procedure tcgx86.a_op_reg_ref(list : TAsmList; Op: TOpCG; size: TCGSize;reg: TRegister; const ref: TReference);
var
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
check_register_size(size,reg);
case op of
OP_NEG,OP_NOT:
begin
if reg<>NR_NO then
internalerror(200109237);
list.concat(taicpu.op_ref(TOpCG2AsmOp[op],tcgsize2opsize[size],tmpref));
end;
OP_IMUL:
begin
{ this one needs a load/imul/store, which is the default }
inherited a_op_ref_reg(list,op,size,tmpref,reg);
end;
OP_MUL,OP_DIV,OP_IDIV:
{ special stuff, needs separate handling inside code }
{ generator }
internalerror(200109238);
else
begin
list.concat(taicpu.op_reg_ref(TOpCG2AsmOp[op],tcgsize2opsize[size],reg,tmpref));
end;
end;
end;
procedure tcgx86.a_bit_scan_reg_reg(list: TAsmList; reverse: boolean; size: TCGSize; src, dst: TRegister);
var
opsize: topsize;
begin
opsize:=tcgsize2opsize[size];
if not reverse then
list.concat(taicpu.op_reg_reg(A_BSF,opsize,src,dst))
else
list.concat(taicpu.op_reg_reg(A_BSR,opsize,src,dst));
end;
{*************** compare instructructions ****************}
procedure tcgx86.a_cmp_const_reg_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;a : tcgint;reg : tregister;
l : tasmlabel);
{$ifdef x86_64}
var
tmpreg : tregister;
{$endif x86_64}
begin
{$ifdef x86_64}
{ x86_64 only supports signed 32 bits constants directly }
if (size in [OS_S64,OS_64]) and
((a<low(longint)) or (a>high(longint))) then
begin
tmpreg:=getintregister(list,size);
a_load_const_reg(list,size,a,tmpreg);
a_cmp_reg_reg_label(list,size,cmp_op,tmpreg,reg,l);
exit;
end;
{$endif x86_64}
if (a = 0) then
list.concat(taicpu.op_reg_reg(A_TEST,tcgsize2opsize[size],reg,reg))
else
list.concat(taicpu.op_const_reg(A_CMP,tcgsize2opsize[size],a,reg));
a_jmp_cond(list,cmp_op,l);
end;
procedure tcgx86.a_cmp_const_ref_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;a : tcgint;const ref : treference;
l : tasmlabel);
var
{$ifdef x86_64}
tmpreg : tregister;
{$endif x86_64}
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
{$ifdef x86_64}
{ x86_64 only supports signed 32 bits constants directly }
if (size in [OS_S64,OS_64]) and
((a<low(longint)) or (a>high(longint))) then
begin
tmpreg:=getintregister(list,size);
a_load_const_reg(list,size,a,tmpreg);
a_cmp_reg_ref_label(list,size,cmp_op,tmpreg,tmpref,l);
exit;
end;
{$endif x86_64}
list.concat(taicpu.op_const_ref(A_CMP,TCgSize2OpSize[size],a,tmpref));
a_jmp_cond(list,cmp_op,l);
end;
procedure tcgx86.a_cmp_reg_reg_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;
reg1,reg2 : tregister;l : tasmlabel);
begin
check_register_size(size,reg1);
check_register_size(size,reg2);
list.concat(taicpu.op_reg_reg(A_CMP,TCgSize2OpSize[size],reg1,reg2));
a_jmp_cond(list,cmp_op,l);
end;
procedure tcgx86.a_cmp_ref_reg_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;const ref: treference; reg : tregister;l : tasmlabel);
var
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
check_register_size(size,reg);
list.concat(taicpu.op_ref_reg(A_CMP,TCgSize2OpSize[size],tmpref,reg));
a_jmp_cond(list,cmp_op,l);
end;
procedure tcgx86.a_cmp_reg_ref_label(list : TAsmList;size : tcgsize;cmp_op : topcmp;reg : tregister;const ref: treference; l : tasmlabel);
var
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
check_register_size(size,reg);
list.concat(taicpu.op_reg_ref(A_CMP,TCgSize2OpSize[size],reg,tmpref));
a_jmp_cond(list,cmp_op,l);
end;
procedure tcgx86.a_jmp_cond(list : TAsmList;cond : TOpCmp;l: tasmlabel);
var
ai : taicpu;
begin
if cond=OC_None then
ai := Taicpu.Op_sym(A_JMP,S_NO,l)
else
begin
ai:=Taicpu.Op_sym(A_Jcc,S_NO,l);
ai.SetCondition(TOpCmp2AsmCond[cond]);
end;
ai.is_jmp:=true;
list.concat(ai);
end;
procedure tcgx86.a_jmp_flags(list : TAsmList;const f : TResFlags;l: tasmlabel);
var
ai : taicpu;
begin
ai := Taicpu.op_sym(A_Jcc,S_NO,l);
ai.SetCondition(flags_to_cond(f));
ai.is_jmp := true;
list.concat(ai);
end;
procedure tcgx86.g_flags2reg(list: TAsmList; size: TCgSize; const f: tresflags; reg: TRegister);
var
ai : taicpu;
hreg : tregister;
begin
hreg:=makeregsize(list,reg,OS_8);
ai:=Taicpu.op_reg(A_SETcc,S_B,hreg);
ai.setcondition(flags_to_cond(f));
list.concat(ai);
if reg<>hreg then
a_load_reg_reg(list,OS_8,size,hreg,reg);
end;
procedure tcgx86.g_flags2ref(list: TAsmList; size: TCgSize; const f: tresflags; const ref: TReference);
var
ai : taicpu;
tmpref : treference;
begin
tmpref:=ref;
make_simple_ref(list,tmpref);
if not(size in [OS_8,OS_S8]) then
a_load_const_ref(list,size,0,tmpref);
ai:=Taicpu.op_ref(A_SETcc,S_B,tmpref);
ai.setcondition(flags_to_cond(f));
list.concat(ai);
{$ifndef cpu64bitalu}
if size in [OS_S64,OS_64] then
begin
inc(tmpref.offset,4);
a_load_const_ref(list,OS_32,0,tmpref);
end;
{$endif cpu64bitalu}
end;
{ ************* concatcopy ************ }
procedure Tcgx86.g_concatcopy(list:TAsmList;const source,dest:Treference;len:tcgint);
const
{$ifdef cpu64bitalu}
REGCX=NR_RCX;
REGSI=NR_RSI;
REGDI=NR_RDI;
{$else cpu64bitalu}
REGCX=NR_ECX;
REGSI=NR_ESI;
REGDI=NR_EDI;
{$endif cpu64bitalu}
type copymode=(copy_move,copy_mmx,copy_string);
var srcref,dstref:Treference;
r,r0,r1,r2,r3:Tregister;
helpsize:tcgint;
copysize:byte;
cgsize:Tcgsize;
cm:copymode;
begin
cm:=copy_move;
helpsize:=3*sizeof(aword);
if cs_opt_size in current_settings.optimizerswitches then
helpsize:=2*sizeof(aword);
if (cs_mmx in current_settings.localswitches) and
not(pi_uses_fpu in current_procinfo.flags) and
((len=8) or (len=16) or (len=24) or (len=32)) then
cm:=copy_mmx;
if (len>helpsize) then
cm:=copy_string;
if (cs_opt_size in current_settings.optimizerswitches) and
not((len<=16) and (cm=copy_mmx)) and
not(len in [1,2,4{$ifdef x86_64},8{$endif x86_64}]) then
cm:=copy_string;
if (source.segment<>NR_NO) or
(dest.segment<>NR_NO) then
cm:=copy_string;
case cm of
copy_move:
begin
dstref:=dest;
srcref:=source;
copysize:=sizeof(aint);
cgsize:=int_cgsize(copysize);
while len<>0 do
begin
if len<2 then
begin
copysize:=1;
cgsize:=OS_8;
end
else if len<4 then
begin
copysize:=2;
cgsize:=OS_16;
end
else if len<8 then
begin
copysize:=4;
cgsize:=OS_32;
end
{$ifdef cpu64bitalu}
else if len<16 then
begin
copysize:=8;
cgsize:=OS_64;
end
{$endif}
;
dec(len,copysize);
r:=getintregister(list,cgsize);
a_load_ref_reg(list,cgsize,cgsize,srcref,r);
a_load_reg_ref(list,cgsize,cgsize,r,dstref);
inc(srcref.offset,copysize);
inc(dstref.offset,copysize);
end;
end;
copy_mmx:
begin
dstref:=dest;
srcref:=source;
r0:=getmmxregister(list);
a_loadmm_ref_reg(list,OS_M64,OS_M64,srcref,r0,nil);
if len>=16 then
begin
inc(srcref.offset,8);
r1:=getmmxregister(list);
a_loadmm_ref_reg(list,OS_M64,OS_M64,srcref,r1,nil);
end;
if len>=24 then
begin
inc(srcref.offset,8);
r2:=getmmxregister(list);
a_loadmm_ref_reg(list,OS_M64,OS_M64,srcref,r2,nil);
end;
if len>=32 then
begin
inc(srcref.offset,8);
r3:=getmmxregister(list);
a_loadmm_ref_reg(list,OS_M64,OS_M64,srcref,r3,nil);
end;
a_loadmm_reg_ref(list,OS_M64,OS_M64,r0,dstref,nil);
if len>=16 then
begin
inc(dstref.offset,8);
a_loadmm_reg_ref(list,OS_M64,OS_M64,r1,dstref,nil);
end;
if len>=24 then
begin
inc(dstref.offset,8);
a_loadmm_reg_ref(list,OS_M64,OS_M64,r2,dstref,nil);
end;
if len>=32 then
begin
inc(dstref.offset,8);
a_loadmm_reg_ref(list,OS_M64,OS_M64,r3,dstref,nil);
end;
end
else {copy_string, should be a good fallback in case of unhandled}
begin
getcpuregister(list,REGDI);
if (dest.segment=NR_NO) then
a_loadaddr_ref_reg(list,dest,REGDI)
else
begin
dstref:=dest;
dstref.segment:=NR_NO;
a_loadaddr_ref_reg(list,dstref,REGDI);
list.concat(taicpu.op_reg(A_PUSH,S_L,NR_ES));
list.concat(taicpu.op_reg(A_PUSH,S_L,dest.segment));
list.concat(taicpu.op_reg(A_POP,S_L,NR_ES));
end;
getcpuregister(list,REGSI);
if (source.segment=NR_NO) then
a_loadaddr_ref_reg(list,source,REGSI)
else
begin
srcref:=source;
srcref.segment:=NR_NO;
a_loadaddr_ref_reg(list,srcref,REGSI);
list.concat(taicpu.op_reg(A_PUSH,S_L,NR_DS));
list.concat(taicpu.op_reg(A_PUSH,S_L,source.segment));
list.concat(taicpu.op_reg(A_POP,S_L,NR_DS));
end;
getcpuregister(list,REGCX);
{$ifdef i386}
list.concat(Taicpu.op_none(A_CLD,S_NO));
{$endif i386}
if (cs_opt_size in current_settings.optimizerswitches) and
(len>sizeof(aint)+(sizeof(aint) div 2)) then
begin
a_load_const_reg(list,OS_INT,len,REGCX);
list.concat(Taicpu.op_none(A_REP,S_NO));
list.concat(Taicpu.op_none(A_MOVSB,S_NO));
end
else
begin
helpsize:=len div sizeof(aint);
len:=len mod sizeof(aint);
if helpsize>1 then
begin
a_load_const_reg(list,OS_INT,helpsize,REGCX);
list.concat(Taicpu.op_none(A_REP,S_NO));
end;
if helpsize>0 then
begin
{$ifdef cpu64bitalu}
list.concat(Taicpu.op_none(A_MOVSQ,S_NO))
{$else}
list.concat(Taicpu.op_none(A_MOVSD,S_NO));
{$endif cpu64bitalu}
end;
if len>=4 then
begin
dec(len,4);
list.concat(Taicpu.op_none(A_MOVSD,S_NO));
end;
if len>=2 then
begin
dec(len,2);
list.concat(Taicpu.op_none(A_MOVSW,S_NO));
end;
if len=1 then
list.concat(Taicpu.op_none(A_MOVSB,S_NO));
end;
ungetcpuregister(list,REGCX);
ungetcpuregister(list,REGSI);
ungetcpuregister(list,REGDI);
if (source.segment<>NR_NO) then
list.concat(taicpu.op_reg(A_POP,S_L,NR_DS));
if (dest.segment<>NR_NO) then
list.concat(taicpu.op_reg(A_POP,S_L,NR_ES));
end;
end;
end;
{****************************************************************************
Entry/Exit Code Helpers
****************************************************************************}
procedure tcgx86.g_profilecode(list : TAsmList);
var
pl : tasmlabel;
mcountprefix : String[4];
begin
case target_info.system of
{$ifndef NOTARGETWIN}
system_i386_win32,
{$endif}
system_i386_freebsd,
system_i386_netbsd,
// system_i386_openbsd,
system_i386_wdosx :
begin
Case target_info.system Of
system_i386_freebsd : mcountprefix:='.';
system_i386_netbsd : mcountprefix:='__';
// system_i386_openbsd : mcountprefix:='.';
else
mcountPrefix:='';
end;
current_asmdata.getaddrlabel(pl);
new_section(list,sec_data,lower(current_procinfo.procdef.mangledname),sizeof(pint));
list.concat(Tai_label.Create(pl));
list.concat(Tai_const.Create_32bit(0));
new_section(list,sec_code,lower(current_procinfo.procdef.mangledname),0);
list.concat(Taicpu.Op_reg(A_PUSH,S_L,NR_EDX));
list.concat(Taicpu.Op_sym_ofs_reg(A_MOV,S_L,pl,0,NR_EDX));
a_call_name(list,target_info.Cprefix+mcountprefix+'mcount',false);
list.concat(Taicpu.Op_reg(A_POP,S_L,NR_EDX));
end;
system_i386_linux:
a_call_name(list,target_info.Cprefix+'mcount',false);
system_i386_go32v2,system_i386_watcom:
begin
a_call_name(list,'MCOUNT',false);
end;
system_x86_64_linux,
system_x86_64_darwin:
begin
a_call_name(list,'mcount',false);
end;
end;
end;
procedure tcgx86.g_stackpointer_alloc(list : TAsmList;localsize : longint);
{$ifdef x86}
{$ifndef NOTARGETWIN}
var
href : treference;
i : integer;
again : tasmlabel;
{$endif NOTARGETWIN}
{$endif x86}
begin
if localsize>0 then
begin
{$ifdef i386}
{$ifndef NOTARGETWIN}
{ windows guards only a few pages for stack growing,
so we have to access every page first }
if (target_info.system in [system_i386_win32,system_i386_wince]) and
(localsize>=winstackpagesize) then
begin
if localsize div winstackpagesize<=5 then
begin
list.concat(Taicpu.Op_const_reg(A_SUB,S_L,localsize-4,NR_ESP));
for i:=1 to localsize div winstackpagesize do
begin
reference_reset_base(href,NR_ESP,localsize-i*winstackpagesize,4);
list.concat(Taicpu.op_reg_ref(A_MOV,S_L,NR_EAX,href));
end;
list.concat(Taicpu.op_reg(A_PUSH,S_L,NR_EAX));
end
else
begin
current_asmdata.getjumplabel(again);
getcpuregister(list,NR_EDI);
list.concat(Taicpu.op_reg(A_PUSH,S_L,NR_EDI));
list.concat(Taicpu.op_const_reg(A_MOV,S_L,localsize div winstackpagesize,NR_EDI));
a_label(list,again);
list.concat(Taicpu.op_const_reg(A_SUB,S_L,winstackpagesize-4,NR_ESP));
list.concat(Taicpu.op_reg(A_PUSH,S_L,NR_EAX));
list.concat(Taicpu.op_reg(A_DEC,S_L,NR_EDI));
a_jmp_cond(list,OC_NE,again);
list.concat(Taicpu.op_const_reg(A_SUB,S_L,localsize mod winstackpagesize - 4,NR_ESP));
reference_reset_base(href,NR_ESP,localsize-4,4);
list.concat(Taicpu.op_ref_reg(A_MOV,S_L,href,NR_EDI));
ungetcpuregister(list,NR_EDI);
end
end
else
{$endif NOTARGETWIN}
{$endif i386}
{$ifdef x86_64}
{$ifndef NOTARGETWIN}
{ windows guards only a few pages for stack growing,
so we have to access every page first }
if (target_info.system=system_x86_64_win64) and
(localsize>=winstackpagesize) then
begin
if localsize div winstackpagesize<=5 then
begin
list.concat(Taicpu.Op_const_reg(A_SUB,S_Q,localsize,NR_RSP));
for i:=1 to localsize div winstackpagesize do
begin
reference_reset_base(href,NR_RSP,localsize-i*winstackpagesize+4,4);
list.concat(Taicpu.op_reg_ref(A_MOV,S_L,NR_EAX,href));
end;
reference_reset_base(href,NR_RSP,0,4);
list.concat(Taicpu.op_reg_ref(A_MOV,S_L,NR_EAX,href));
end
else
begin
current_asmdata.getjumplabel(again);
getcpuregister(list,NR_R10);
list.concat(Taicpu.op_const_reg(A_MOV,S_Q,localsize div winstackpagesize,NR_R10));
a_label(list,again);
list.concat(Taicpu.op_const_reg(A_SUB,S_Q,winstackpagesize,NR_RSP));
reference_reset_base(href,NR_RSP,0,4);
list.concat(Taicpu.op_reg_ref(A_MOV,S_L,NR_EAX,href));
list.concat(Taicpu.op_reg(A_DEC,S_Q,NR_R10));
a_jmp_cond(list,OC_NE,again);
list.concat(Taicpu.op_const_reg(A_SUB,S_Q,localsize mod winstackpagesize,NR_RSP));
ungetcpuregister(list,NR_R10);
end
end
else
{$endif NOTARGETWIN}
{$endif x86_64}
list.concat(Taicpu.Op_const_reg(A_SUB,tcgsize2opsize[OS_ADDR],localsize,NR_STACK_POINTER_REG));
end;
end;
procedure tcgx86.g_proc_entry(list : TAsmList;localsize : longint;nostackframe:boolean);
var
stackmisalignment: longint;
para: tparavarsym;
begin
{$ifdef i386}
{ interrupt support for i386 }
if (po_interrupt in current_procinfo.procdef.procoptions) and
{ this messes up stack alignment }
not(target_info.system in [system_i386_darwin,system_i386_iphonesim]) then
begin
{ .... also the segment registers }
list.concat(Taicpu.Op_reg(A_PUSH,S_W,NR_GS));
list.concat(Taicpu.Op_reg(A_PUSH,S_W,NR_FS));
list.concat(Taicpu.Op_reg(A_PUSH,S_W,NR_ES));
list.concat(Taicpu.Op_reg(A_PUSH,S_W,NR_DS));
{ save the registers of an interrupt procedure }
list.concat(Taicpu.Op_reg(A_PUSH,S_L,NR_EDI));
list.concat(Taicpu.Op_reg(A_PUSH,S_L,NR_ESI));
list.concat(Taicpu.Op_reg(A_PUSH,S_L,NR_EDX));
list.concat(Taicpu.Op_reg(A_PUSH,S_L,NR_ECX));
list.concat(Taicpu.Op_reg(A_PUSH,S_L,NR_EBX));
list.concat(Taicpu.Op_reg(A_PUSH,S_L,NR_EAX));
end;
{$endif i386}
{ save old framepointer }
if not nostackframe then
begin
{ return address }
stackmisalignment := sizeof(pint);
list.concat(tai_regalloc.alloc(current_procinfo.framepointer,nil));
if current_procinfo.framepointer=NR_STACK_POINTER_REG then
CGmessage(cg_d_stackframe_omited)
else
begin
{ push <frame_pointer> }
inc(stackmisalignment,sizeof(pint));
include(rg[R_INTREGISTER].preserved_by_proc,RS_FRAME_POINTER_REG);
list.concat(Taicpu.op_reg(A_PUSH,tcgsize2opsize[OS_ADDR],NR_FRAME_POINTER_REG));
if (target_info.system=system_x86_64_win64) then
begin
list.concat(cai_seh_directive.create_reg(ash_pushreg,NR_FRAME_POINTER_REG));
include(current_procinfo.flags,pi_has_unwind_info);
end;
{ Return address and FP are both on stack }
current_asmdata.asmcfi.cfa_def_cfa_offset(list,2*sizeof(pint));
current_asmdata.asmcfi.cfa_offset(list,NR_FRAME_POINTER_REG,-(2*sizeof(pint)));
if current_procinfo.procdef.proctypeoption<>potype_exceptfilter then
list.concat(Taicpu.op_reg_reg(A_MOV,tcgsize2opsize[OS_ADDR],NR_STACK_POINTER_REG,NR_FRAME_POINTER_REG))
else
begin
{ load framepointer from hidden $parentfp parameter }
para:=tparavarsym(current_procinfo.procdef.paras[0]);
if not (vo_is_parentfp in para.varoptions) then
InternalError(201201142);
if (para.paraloc[calleeside].location^.loc<>LOC_REGISTER) or
(para.paraloc[calleeside].location^.next<>nil) then
InternalError(201201143);
list.concat(Taicpu.op_reg_reg(A_MOV,tcgsize2opsize[OS_ADDR],
para.paraloc[calleeside].location^.register,NR_FRAME_POINTER_REG));
{ Need only as much stack space as necessary to do the calls.
Exception filters don't have own local vars, and temps are 'mapped'
to the parent procedure.
maxpushedparasize is already aligned at least on x86_64. }
localsize:=current_procinfo.maxpushedparasize;
end;
current_asmdata.asmcfi.cfa_def_cfa_register(list,NR_FRAME_POINTER_REG);
{
TODO: current framepointer handling is not compatible with Win64 at all:
Win64 expects FP to point to the top or into the middle of local area.
In FPC it points to the bottom, making it impossible to generate
UWOP_SET_FPREG unwind code if local area is > 240 bytes.
So for now pretend we never have a framepointer.
}
end;
{ allocate stackframe space }
if (localsize<>0) or
((target_info.system in systems_need_16_byte_stack_alignment) and
(stackmisalignment <> 0) and
((pi_do_call in current_procinfo.flags) or
(po_assembler in current_procinfo.procdef.procoptions))) then
begin
if (target_info.system in systems_need_16_byte_stack_alignment) then
localsize := align(localsize+stackmisalignment,16)-stackmisalignment;
cg.g_stackpointer_alloc(list,localsize);
if current_procinfo.framepointer=NR_STACK_POINTER_REG then
current_asmdata.asmcfi.cfa_def_cfa_offset(list,localsize+sizeof(pint));
current_procinfo.final_localsize:=localsize;
if (target_info.system=system_x86_64_win64) then
begin
if localsize<>0 then
list.concat(cai_seh_directive.create_offset(ash_stackalloc,localsize));
include(current_procinfo.flags,pi_has_unwind_info);
end;
end;
end;
end;
{ produces if necessary overflowcode }
procedure tcgx86.g_overflowcheck(list: TAsmList; const l:tlocation;def:tdef);
var
hl : tasmlabel;
ai : taicpu;
cond : TAsmCond;
begin
if not(cs_check_overflow in current_settings.localswitches) then
exit;
current_asmdata.getjumplabel(hl);
if not ((def.typ=pointerdef) or
((def.typ=orddef) and
(torddef(def).ordtype in [u64bit,u16bit,u32bit,u8bit,uchar,
pasbool8,pasbool16,pasbool32,pasbool64]))) then
cond:=C_NO
else
cond:=C_NB;
ai:=Taicpu.Op_Sym(A_Jcc,S_NO,hl);
ai.SetCondition(cond);
ai.is_jmp:=true;
list.concat(ai);
a_call_name(list,'FPC_OVERFLOW',false);
a_label(list,hl);
end;
procedure tcgx86.g_external_wrapper(list: TAsmList; procdef: tprocdef; const externalname: string);
var
ref : treference;
sym : tasmsymbol;
begin
if (target_info.system = system_i386_darwin) then
begin
{ a_jmp_name jumps to a stub which is always pic-safe on darwin }
inherited g_external_wrapper(list,procdef,externalname);
exit;
end;
sym:=current_asmdata.RefAsmSymbol(externalname);
reference_reset_symbol(ref,sym,0,sizeof(pint));
{ create pic'ed? }
if (cs_create_pic in current_settings.moduleswitches) and
{ darwin/x86_64's assembler doesn't want @PLT after call symbols }
not(target_info.system in [system_x86_64_darwin,system_i386_iphonesim]) then
ref.refaddr:=addr_pic
else
ref.refaddr:=addr_full;
list.concat(taicpu.op_ref(A_JMP,S_NO,ref));
end;
end.
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