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{
Copyright (c) 1998-2002 by Florian Klaempfl
Member of the Free Pascal development team
This unit implements the code generation for 64 bit int
arithmethics on 32 bit processors
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 code generation for 64 bit int arithmethics on
32 bit processors.
}
unit cg64f32;
{$i fpcdefs.inc}
interface
uses
aasmbase,aasmtai,aasmdata,aasmcpu,
cpubase,cpupara,
cgbase,cgobj,parabase,cgutils,
symtype
;
type
{# Defines all the methods required on 32-bit processors
to handle 64-bit integers.
}
tcg64f32 = class(tcg64)
procedure a_load64_const_ref(list : TAsmList;value : int64;const ref : treference);override;
procedure a_load64_reg_ref(list : TAsmList;reg : tregister64;const ref : treference);override;
procedure a_load64_ref_reg(list : TAsmList;const ref : treference;reg : tregister64);override;
procedure a_load64_reg_reg(list : TAsmList;regsrc,regdst : tregister64);override;
procedure a_load64_const_reg(list : TAsmList;value: int64;reg : tregister64);override;
procedure a_load64_subsetref_reg(list : TAsmList; const sref: tsubsetreference; destreg: tregister64);override;
procedure a_load64_reg_subsetref(list : TAsmList; fromreg: tregister64; const sref: tsubsetreference);override;
procedure a_load64_const_subsetref(list: TAsmlist; a: int64; const sref: tsubsetreference);override;
procedure a_load64_ref_subsetref(list : TAsmList; const fromref: treference; const sref: tsubsetreference);override;
procedure a_load64_subsetref_subsetref(list: TAsmlist; const fromsref, tosref: tsubsetreference);override;
procedure a_load64_subsetref_ref(list : TAsmList; const sref: tsubsetreference; const destref: treference);override;
procedure a_load64_loc_reg(list : TAsmList;const l : tlocation;reg : tregister64);override;
procedure a_load64_loc_ref(list : TAsmList;const l : tlocation;const ref : treference);override;
procedure a_load64_const_loc(list : TAsmList;value : int64;const l : tlocation);override;
procedure a_load64_reg_loc(list : TAsmList;reg : tregister64;const l : tlocation);override;
procedure a_load64high_reg_ref(list : TAsmList;reg : tregister;const ref : treference);override;
procedure a_load64low_reg_ref(list : TAsmList;reg : tregister;const ref : treference);override;
procedure a_load64high_ref_reg(list : TAsmList;const ref : treference;reg : tregister);override;
procedure a_load64low_ref_reg(list : TAsmList;const ref : treference;reg : tregister);override;
procedure a_load64high_loc_reg(list : TAsmList;const l : tlocation;reg : tregister);override;
procedure a_load64low_loc_reg(list : TAsmList;const l : tlocation;reg : tregister);override;
procedure a_op64_ref_reg(list : TAsmList;op:TOpCG;size : tcgsize;const ref : treference;reg : tregister64);override;
procedure a_op64_reg_ref(list : TAsmList;op:TOpCG;size : tcgsize;reg : tregister64; const ref: treference);override;
procedure a_op64_const_loc(list : TAsmList;op:TOpCG;size : tcgsize;value : int64;const l: tlocation);override;
procedure a_op64_reg_loc(list : TAsmList;op:TOpCG;size : tcgsize;reg : tregister64;const l : tlocation);override;
procedure a_op64_loc_reg(list : TAsmList;op:TOpCG;size : tcgsize;const l : tlocation;reg : tregister64);override;
procedure a_op64_const_ref(list : TAsmList;op:TOpCG;size : tcgsize;value : int64;const ref : treference);override;
procedure a_load64_reg_cgpara(list : TAsmList;reg : tregister64;const paraloc : tcgpara);override;
procedure a_load64_const_cgpara(list : TAsmList;value : int64;const paraloc : tcgpara);override;
procedure a_load64_ref_cgpara(list : TAsmList;const r : treference;const paraloc : tcgpara);override;
procedure a_load64_loc_cgpara(list : TAsmList;const l : tlocation;const paraloc : tcgpara);override;
procedure a_loadmm_intreg64_reg(list: TAsmList; mmsize: tcgsize; intreg: tregister64; mmreg: tregister);override;
procedure a_loadmm_reg_intreg64(list: TAsmList; mmsize: tcgsize; mmreg: tregister; intreg: tregister64);override;
{# This routine tries to optimize the a_op64_const_reg operation, by
removing superfluous opcodes. Returns TRUE if normal processing
must continue in op64_const_reg, otherwise, everything is processed
entirely in this routine, by emitting the appropriate 32-bit opcodes.
}
function optimize64_op_const_reg(list: TAsmList; var op: topcg; var a : int64; var reg: tregister64): boolean;override;
procedure g_rangecheck64(list: TAsmList; const l:tlocation;fromdef,todef: tdef); override;
end;
implementation
uses
globtype,systems,constexp,
verbose,cutils,
symbase,symconst,symdef,symtable,defutil,paramgr,
tgobj,hlcgobj;
{****************************************************************************
Helpers
****************************************************************************}
procedure swap64(var q : int64);
begin
q:=(int64(lo(q)) shl 32) or hi(q);
end;
procedure splitparaloc64(const cgpara:tcgpara;var cgparalo,cgparahi:tcgpara);
var
paraloclo,paraloclo2,paraloclo3,paraloclo4,
paralochi,paralochi2,paralochi3,paralochi4 : pcgparalocation;
curparaloc : PCGParaLocation;
begin
if not(cgpara.size in [OS_64,OS_S64]) then
internalerror(200408231);
if not assigned(cgpara.location) then
internalerror(200408201);
{ init lo/hi para }
cgparahi.reset;
if cgpara.size=OS_S64 then
cgparahi.size:=OS_S32
else
cgparahi.size:=OS_32;
cgparahi.intsize:=4;
cgparahi.alignment:=cgpara.alignment;
paralochi:=cgparahi.add_location;
cgparalo.reset;
cgparalo.size:=OS_32;
cgparalo.intsize:=4;
cgparalo.alignment:=cgpara.alignment;
paraloclo:=cgparalo.add_location;
case cgpara.locations_count of
8:
begin
{ 8 parameter fields? }
{ Order for multiple locations is always
paraloc^ -> high
paraloc^.next -> low }
if (target_info.endian=ENDIAN_BIG) then
begin
{ is there any big endian 8 bit ALU/16 bit Addr CPU? }
internalerror(2015041001);
{ paraloc^ -> high }
move(cgpara.location^,paralochi^,sizeof(paralochi^));
paralochi^.next:=nil;
paralochi2:=cgparahi.add_location;
move(cgpara.location^.next,paralochi2^,sizeof(paralochi2^));
{ paraloc^.next^.next^ -> low }
move(cgpara.location^.next^.next^,paraloclo^,sizeof(paraloclo^));
paraloclo^.next:=nil;
paraloclo2:=cgparalo.add_location;
move(cgpara.location^.next^.next^.next^,paraloclo2^,sizeof(paraloclo2^));
end
else
begin
{ paraloc^ -> low }
move(cgpara.location^,paraloclo^,sizeof(paraloclo^));
paraloclo^.next:=nil;
paraloclo2:=cgparalo.add_location;
move(cgpara.location^.next^,paraloclo2^,sizeof(paraloclo2^));
paraloclo2^.next:=nil;
paraloclo3:=cgparalo.add_location;
move(cgpara.location^.next^.next^,paraloclo3^,sizeof(paraloclo3^));
paraloclo3^.next:=nil;
paraloclo4:=cgparalo.add_location;
move(cgpara.location^.next^.next^.next^,paraloclo4^,sizeof(paraloclo4^));
{ paraloc^.next^.next^.next^.next^ -> high }
curparaloc:=cgpara.location^.next^.next^.next^.next;
move(curparaloc^,paralochi^,sizeof(paralochi^));
paralochi^.next:=nil;
paralochi2:=cgparahi.add_location;
move(curparaloc^.next^,paralochi2^,sizeof(paralochi2^));
paralochi2^.next:=nil;
paralochi3:=cgparahi.add_location;
move(curparaloc^.next^.next^,paralochi3^,sizeof(paralochi3^));
paralochi3^.next:=nil;
paralochi4:=cgparahi.add_location;
move(curparaloc^.next^.next^.next^,paralochi4^,sizeof(paralochi4^));
end;
{ fix size }
paraloclo^.size:=OS_8;
paraloclo2^.size:=OS_8;
paraloclo3^.size:=OS_8;
paraloclo4^.size:=OS_8;
paraloclo4^.next:=nil;
paralochi^.size:=OS_8;
paralochi2^.size:=OS_8;
paralochi3^.size:=OS_8;
paralochi4^.size:=OS_8;
paralochi4^.next:=nil;
if cgpara.size=OS_S64 then
if target_info.endian=ENDIAN_BIG then
paralochi^.size:=OS_S8
else
paraloclo4^.size:=OS_S8;
end;
4:
begin
{ 4 parameter fields? }
{ Order for multiple locations is always
paraloc^ -> high
paraloc^.next -> low }
if (target_info.endian=ENDIAN_BIG) then
begin
{ paraloc^ -> high }
move(cgpara.location^,paralochi^,sizeof(paralochi^));
paralochi^.next:=nil;
paralochi2:=cgparahi.add_location;
move(cgpara.location^.next,paralochi2^,sizeof(paralochi2^));
{ paraloc^.next^.next^ -> low }
move(cgpara.location^.next^.next^,paraloclo^,sizeof(paraloclo^));
paraloclo^.next:=nil;
paraloclo2:=cgparalo.add_location;
move(cgpara.location^.next^.next^.next^,paraloclo2^,sizeof(paraloclo2^));
end
else
begin
{ paraloc^ -> low }
move(cgpara.location^,paraloclo^,sizeof(paraloclo^));
paraloclo^.next:=nil;
paraloclo2:=cgparalo.add_location;
move(cgpara.location^.next^,paraloclo2^,sizeof(paraloclo2^));
{ paraloc^.next^.next -> high }
move(cgpara.location^.next^.next^,paralochi^,sizeof(paralochi^));
paralochi^.next:=nil;
paralochi2:=cgparahi.add_location;
move(cgpara.location^.next^.next^.next^,paralochi2^,sizeof(paralochi2^));
end;
{ fix size }
paraloclo^.size:=OS_16;
paraloclo2^.size:=OS_16;
paraloclo2^.next:=nil;
paralochi^.size:=OS_16;
paralochi2^.size:=OS_16;
paralochi2^.next:=nil;
if cgpara.size=OS_S64 then
if target_info.endian=ENDIAN_BIG then
paralochi^.size:=OS_S16
else
paraloclo2^.size:=OS_S16;
end;
2:
begin
{ 2 parameter fields? }
{ Order for multiple locations is always
paraloc^ -> high
paraloc^.next -> low }
if (target_info.endian=ENDIAN_BIG) then
begin
{ paraloc^ -> high
paraloc^.next -> low }
move(cgpara.location^,paralochi^,sizeof(paralochi^));
move(cgpara.location^.next^,paraloclo^,sizeof(paraloclo^));
end
else
begin
{ paraloc^ -> low
paraloc^.next -> high }
move(cgpara.location^,paraloclo^,sizeof(paraloclo^));
move(cgpara.location^.next^,paralochi^,sizeof(paralochi^));
end;
{ fix size }
paraloclo^.size:=cgparalo.size;
paraloclo^.next:=nil;
paralochi^.size:=cgparahi.size;
paralochi^.next:=nil;
end;
1:
begin
{ single parameter, this can only be in memory }
if cgpara.location^.loc<>LOC_REFERENCE then
internalerror(200408282);
move(cgpara.location^,paraloclo^,sizeof(paraloclo^));
move(cgpara.location^,paralochi^,sizeof(paralochi^));
{ for big endian low is at +4, for little endian high }
if target_info.endian = endian_big then
begin
inc(cgparalo.location^.reference.offset,4);
cgparalo.alignment:=newalignment(cgparalo.alignment,4);
end
else
begin
inc(cgparahi.location^.reference.offset,4);
cgparahi.alignment:=newalignment(cgparahi.alignment,4);
end;
{ fix size }
paraloclo^.size:=cgparalo.size;
paraloclo^.next:=nil;
paralochi^.size:=cgparahi.size;
paralochi^.next:=nil;
end;
else
internalerror(2013051901);
end;
end;
{****************************************************************************
TCG64F32
****************************************************************************}
procedure tcg64f32.a_load64_reg_ref(list : TAsmList;reg : tregister64;const ref : treference);
var
tmpreg: tregister;
tmpref: treference;
begin
if target_info.endian = endian_big then
begin
tmpreg:=reg.reglo;
reg.reglo:=reg.reghi;
reg.reghi:=tmpreg;
end;
cg.a_load_reg_ref(list,OS_32,OS_32,reg.reglo,ref);
tmpref := ref;
inc(tmpref.offset,4);
cg.a_load_reg_ref(list,OS_32,OS_32,reg.reghi,tmpref);
end;
procedure tcg64f32.a_load64_const_ref(list : TAsmList;value : int64;const ref : treference);
var
tmpref: treference;
begin
if target_info.endian = endian_big then
swap64(value);
cg.a_load_const_ref(list,OS_32,longint(lo(value)),ref);
tmpref := ref;
inc(tmpref.offset,4);
cg.a_load_const_ref(list,OS_32,longint(hi(value)),tmpref);
end;
procedure tcg64f32.a_load64_ref_reg(list : TAsmList;const ref : treference;reg : tregister64);
var
tmpreg: tregister;
tmpref: treference;
begin
if target_info.endian = endian_big then
begin
tmpreg := reg.reglo;
reg.reglo := reg.reghi;
reg.reghi := tmpreg;
end;
tmpref := ref;
if (tmpref.base=reg.reglo) then
begin
tmpreg:=cg.getaddressregister(list);
cg.a_load_reg_reg(list,OS_ADDR,OS_ADDR,tmpref.base,tmpreg);
tmpref.base:=tmpreg;
end
else
{ this works only for the i386, thus the i386 needs to override }
{ this method and this method must be replaced by a more generic }
{ implementation FK }
if (tmpref.index=reg.reglo) then
begin
tmpreg:=cg.getaddressregister(list);
cg.a_load_reg_reg(list,OS_ADDR,OS_ADDR,tmpref.index,tmpreg);
tmpref.index:=tmpreg;
end;
cg.a_load_ref_reg(list,OS_32,OS_32,tmpref,reg.reglo);
inc(tmpref.offset,4);
cg.a_load_ref_reg(list,OS_32,OS_32,tmpref,reg.reghi);
end;
procedure tcg64f32.a_load64_reg_reg(list : TAsmList;regsrc,regdst : tregister64);
begin
cg.a_load_reg_reg(list,OS_32,OS_32,regsrc.reglo,regdst.reglo);
cg.a_load_reg_reg(list,OS_32,OS_32,regsrc.reghi,regdst.reghi);
end;
procedure tcg64f32.a_load64_const_reg(list : TAsmList;value : int64;reg : tregister64);
begin
cg.a_load_const_reg(list,OS_32,longint(lo(value)),reg.reglo);
cg.a_load_const_reg(list,OS_32,longint(hi(value)),reg.reghi);
end;
procedure tcg64f32.a_load64_subsetref_reg(list : TAsmList; const sref: tsubsetreference; destreg: tregister64);
var
tmpreg: tregister;
tmpsref: tsubsetreference;
begin
if (sref.bitindexreg <> NR_NO) or
(sref.bitlen <> 64) then
internalerror(2006082310);
if (sref.startbit = 0) then
begin
a_load64_ref_reg(list,sref.ref,destreg);
exit;
end;
if target_info.endian = endian_big then
begin
tmpreg := destreg.reglo;
destreg.reglo := destreg.reghi;
destreg.reghi := tmpreg;
end;
tmpsref:=sref;
if (tmpsref.ref.base=destreg.reglo) then
begin
tmpreg:=cg.getaddressregister(list);
cg.a_load_reg_reg(list,OS_ADDR,OS_ADDR,tmpsref.ref.base,tmpreg);
tmpsref.ref.base:=tmpreg;
end
else
if (tmpsref.ref.index=destreg.reglo) then
begin
tmpreg:=cg.getaddressregister(list);
cg.a_load_reg_reg(list,OS_ADDR,OS_ADDR,tmpsref.ref.index,tmpreg);
tmpsref.ref.index:=tmpreg;
end;
tmpsref.bitlen:=32;
hlcg.a_load_subsetref_reg(list,u32inttype,u32inttype,tmpsref,destreg.reglo);
inc(tmpsref.ref.offset,4);
hlcg.a_load_subsetref_reg(list,u32inttype,u32inttype,tmpsref,destreg.reghi);
end;
procedure tcg64f32.a_load64_reg_subsetref(list : TAsmList; fromreg: tregister64; const sref: tsubsetreference);
var
tmpreg: tregister;
tmpsref: tsubsetreference;
begin
if (sref.bitindexreg <> NR_NO) or
(sref.bitlen <> 64) then
internalerror(2006082311);
if (sref.startbit = 0) then
begin
a_load64_reg_ref(list,fromreg,sref.ref);
exit;
end;
if target_info.endian = endian_big then
begin
tmpreg:=fromreg.reglo;
fromreg.reglo:=fromreg.reghi;
fromreg.reghi:=tmpreg;
end;
tmpsref:=sref;
tmpsref.bitlen:=32;
hlcg.a_load_reg_subsetref(list,u32inttype,u32inttype,fromreg.reglo,tmpsref);
inc(tmpsref.ref.offset,4);
hlcg.a_load_reg_subsetref(list,u32inttype,u32inttype,fromreg.reghi,tmpsref);
end;
procedure tcg64f32.a_load64_const_subsetref(list: TAsmlist; a: int64; const sref: tsubsetreference);
var
tmpsref: tsubsetreference;
begin
if (sref.bitindexreg <> NR_NO) or
(sref.bitlen <> 64) then
internalerror(2006082312);
if target_info.endian = endian_big then
swap64(a);
tmpsref := sref;
tmpsref.bitlen := 32;
hlcg.a_load_const_subsetref(list,u32inttype,longint(lo(a)),tmpsref);
inc(tmpsref.ref.offset,4);
hlcg.a_load_const_subsetref(list,u32inttype,longint(hi(a)),tmpsref);
end;
procedure tcg64f32.a_load64_subsetref_subsetref(list: TAsmlist; const fromsref, tosref: tsubsetreference);
var
tmpreg64 : tregister64;
begin
tmpreg64.reglo:=cg.getintregister(list,OS_32);
tmpreg64.reghi:=cg.getintregister(list,OS_32);
a_load64_subsetref_reg(list,fromsref,tmpreg64);
a_load64_reg_subsetref(list,tmpreg64,tosref);
end;
procedure tcg64f32.a_load64_subsetref_ref(list : TAsmList; const sref: tsubsetreference; const destref: treference);
var
tmpreg64 : tregister64;
begin
tmpreg64.reglo:=cg.getintregister(list,OS_32);
tmpreg64.reghi:=cg.getintregister(list,OS_32);
a_load64_subsetref_reg(list,sref,tmpreg64);
a_load64_reg_ref(list,tmpreg64,destref);
end;
procedure tcg64f32.a_load64_ref_subsetref(list : TAsmList; const fromref: treference; const sref: tsubsetreference);
var
tmpreg64 : tregister64;
begin
tmpreg64.reglo:=cg.getintregister(list,OS_32);
tmpreg64.reghi:=cg.getintregister(list,OS_32);
a_load64_ref_reg(list,fromref,tmpreg64);
a_load64_reg_subsetref(list,tmpreg64,sref);
end;
procedure tcg64f32.a_load64_loc_reg(list : TAsmList;const l : tlocation;reg : tregister64);
begin
case l.loc of
LOC_REFERENCE, LOC_CREFERENCE:
a_load64_ref_reg(list,l.reference,reg);
LOC_REGISTER,LOC_CREGISTER:
a_load64_reg_reg(list,l.register64,reg);
LOC_CONSTANT :
a_load64_const_reg(list,l.value64,reg);
LOC_SUBSETREF, LOC_CSUBSETREF:
a_load64_subsetref_reg(list,l.sref,reg);
else
internalerror(200112292);
end;
end;
procedure tcg64f32.a_load64_loc_ref(list : TAsmList;const l : tlocation;const ref : treference);
begin
case l.loc of
LOC_REGISTER,LOC_CREGISTER:
a_load64_reg_ref(list,l.register64,ref);
LOC_CONSTANT :
a_load64_const_ref(list,l.value64,ref);
LOC_SUBSETREF, LOC_CSUBSETREF:
a_load64_subsetref_ref(list,l.sref,ref);
else
internalerror(200203288);
end;
end;
procedure tcg64f32.a_load64_const_loc(list : TAsmList;value : int64;const l : tlocation);
begin
case l.loc of
LOC_REFERENCE, LOC_CREFERENCE:
a_load64_const_ref(list,value,l.reference);
LOC_REGISTER,LOC_CREGISTER:
a_load64_const_reg(list,value,l.register64);
LOC_SUBSETREF, LOC_CSUBSETREF:
a_load64_const_subsetref(list,value,l.sref);
else
internalerror(200112293);
end;
end;
procedure tcg64f32.a_load64_reg_loc(list : TAsmList;reg : tregister64;const l : tlocation);
begin
case l.loc of
LOC_REFERENCE, LOC_CREFERENCE:
a_load64_reg_ref(list,reg,l.reference);
LOC_REGISTER,LOC_CREGISTER:
a_load64_reg_reg(list,reg,l.register64);
LOC_SUBSETREF, LOC_CSUBSETREF:
a_load64_reg_subsetref(list,reg,l.sref);
LOC_MMREGISTER, LOC_CMMREGISTER:
a_loadmm_intreg64_reg(list,l.size,reg,l.register);
else
internalerror(200112294);
end;
end;
procedure tcg64f32.a_load64high_reg_ref(list : TAsmList;reg : tregister;const ref : treference);
var
tmpref: treference;
begin
if target_info.endian = endian_big then
cg.a_load_reg_ref(list,OS_32,OS_32,reg,ref)
else
begin
tmpref := ref;
inc(tmpref.offset,4);
cg.a_load_reg_ref(list,OS_32,OS_32,reg,tmpref)
end;
end;
procedure tcg64f32.a_load64low_reg_ref(list : TAsmList;reg : tregister;const ref : treference);
var
tmpref: treference;
begin
if target_info.endian = endian_little then
cg.a_load_reg_ref(list,OS_32,OS_32,reg,ref)
else
begin
tmpref := ref;
inc(tmpref.offset,4);
cg.a_load_reg_ref(list,OS_32,OS_32,reg,tmpref)
end;
end;
procedure tcg64f32.a_load64high_ref_reg(list : TAsmList;const ref : treference;reg : tregister);
var
tmpref: treference;
begin
if target_info.endian = endian_big then
cg.a_load_ref_reg(list,OS_32,OS_32,ref,reg)
else
begin
tmpref := ref;
inc(tmpref.offset,4);
cg.a_load_ref_reg(list,OS_32,OS_32,tmpref,reg)
end;
end;
procedure tcg64f32.a_load64low_ref_reg(list : TAsmList;const ref : treference;reg : tregister);
var
tmpref: treference;
begin
if target_info.endian = endian_little then
cg.a_load_ref_reg(list,OS_32,OS_32,ref,reg)
else
begin
tmpref := ref;
inc(tmpref.offset,4);
cg.a_load_ref_reg(list,OS_32,OS_32,tmpref,reg)
end;
end;
procedure tcg64f32.a_load64low_loc_reg(list : TAsmList;const l : tlocation;reg : tregister);
begin
case l.loc of
LOC_REFERENCE,
LOC_CREFERENCE :
a_load64low_ref_reg(list,l.reference,reg);
LOC_REGISTER,
LOC_CREGISTER :
cg.a_load_reg_reg(list,OS_32,OS_32,l.register64.reglo,reg);
LOC_CONSTANT :
cg.a_load_const_reg(list,OS_32,longint(lo(l.value64)),reg);
else
internalerror(200203244);
end;
end;
procedure tcg64f32.a_load64high_loc_reg(list : TAsmList;const l : tlocation;reg : tregister);
begin
case l.loc of
LOC_REFERENCE,
LOC_CREFERENCE :
a_load64high_ref_reg(list,l.reference,reg);
LOC_REGISTER,
LOC_CREGISTER :
cg.a_load_reg_reg(list,OS_32,OS_32,l.register64.reghi,reg);
LOC_CONSTANT :
cg.a_load_const_reg(list,OS_32,longint(hi(l.value64)),reg);
else
internalerror(200203244);
end;
end;
procedure tcg64f32.a_op64_const_loc(list : TAsmList;op:TOpCG;size : tcgsize;value : int64;const l: tlocation);
begin
case l.loc of
LOC_REFERENCE, LOC_CREFERENCE:
a_op64_const_ref(list,op,size,value,l.reference);
LOC_REGISTER,LOC_CREGISTER:
a_op64_const_reg(list,op,size,value,l.register64);
else
internalerror(200203292);
end;
end;
procedure tcg64f32.a_op64_reg_loc(list : TAsmList;op:TOpCG;size : tcgsize;reg : tregister64;const l : tlocation);
begin
case l.loc of
LOC_REFERENCE, LOC_CREFERENCE:
a_op64_reg_ref(list,op,size,reg,l.reference);
LOC_REGISTER,LOC_CREGISTER:
a_op64_reg_reg(list,op,size,reg,l.register64);
else
internalerror(2002032422);
end;
end;
procedure tcg64f32.a_op64_loc_reg(list : TAsmList;op:TOpCG;size : tcgsize;const l : tlocation;reg : tregister64);
begin
case l.loc of
LOC_REFERENCE, LOC_CREFERENCE:
a_op64_ref_reg(list,op,size,l.reference,reg);
LOC_REGISTER,LOC_CREGISTER:
a_op64_reg_reg(list,op,size,l.register64,reg);
LOC_CONSTANT :
a_op64_const_reg(list,op,size,l.value64,reg);
else
internalerror(200203242);
end;
end;
procedure tcg64f32.a_op64_ref_reg(list : TAsmList;op:TOpCG;size : tcgsize;const ref : treference;reg : tregister64);
var
tempreg: tregister64;
begin
tempreg.reghi:=cg.getintregister(list,OS_32);
tempreg.reglo:=cg.getintregister(list,OS_32);
a_load64_ref_reg(list,ref,tempreg);
a_op64_reg_reg(list,op,size,tempreg,reg);
end;
procedure tcg64f32.a_op64_reg_ref(list : TAsmList;op:TOpCG;size : tcgsize;reg : tregister64; const ref: treference);
var
tempreg: tregister64;
begin
tempreg.reghi:=cg.getintregister(list,OS_32);
tempreg.reglo:=cg.getintregister(list,OS_32);
a_load64_ref_reg(list,ref,tempreg);
if op in [OP_NEG,OP_NOT] then
a_op64_reg_reg(list,op,size,tempreg,tempreg)
else
a_op64_reg_reg(list,op,size,reg,tempreg);
a_load64_reg_ref(list,tempreg,ref);
end;
procedure tcg64f32.a_op64_const_ref(list : TAsmList;op:TOpCG;size : tcgsize;value : int64;const ref : treference);
var
tempreg: tregister64;
begin
tempreg.reghi:=cg.getintregister(list,OS_32);
tempreg.reglo:=cg.getintregister(list,OS_32);
a_load64_ref_reg(list,ref,tempreg);
a_op64_const_reg(list,op,size,value,tempreg);
a_load64_reg_ref(list,tempreg,ref);
end;
procedure tcg64f32.a_load64_reg_cgpara(list : TAsmList;reg : tregister64;const paraloc : tcgpara);
var
tmplochi,tmploclo: tcgpara;
begin
tmploclo.init;
tmplochi.init;
splitparaloc64(paraloc,tmploclo,tmplochi);
if target_info.endian=endian_big then
begin
{ Keep this order of first lo before hi to have
the correct push order for m68k }
cg.a_load_reg_cgpara(list,OS_32,reg.reglo,tmploclo);
cg.a_load_reg_cgpara(list,OS_32,reg.reghi,tmplochi);
end
else
begin
{ Keep this order of first hi before lo to have
the correct push order for i386 }
cg.a_load_reg_cgpara(list,OS_32,reg.reghi,tmplochi);
cg.a_load_reg_cgpara(list,OS_32,reg.reglo,tmploclo);
end;
tmploclo.done;
tmplochi.done;
end;
procedure tcg64f32.a_load64_const_cgpara(list : TAsmList;value : int64;const paraloc : tcgpara);
var
tmplochi,tmploclo: tcgpara;
begin
tmploclo.init;
tmplochi.init;
splitparaloc64(paraloc,tmploclo,tmplochi);
if target_info.endian=endian_big then
begin
{ Keep this order of first lo before hi to have
the correct push order for m68k }
cg.a_load_const_cgpara(list,OS_32,longint(lo(value)),tmploclo);
cg.a_load_const_cgpara(list,OS_32,longint(hi(value)),tmplochi);
end
else
begin
{ Keep this order of first hi before lo to have
the correct push order for i386 }
cg.a_load_const_cgpara(list,OS_32,longint(hi(value)),tmplochi);
cg.a_load_const_cgpara(list,OS_32,longint(lo(value)),tmploclo);
end;
tmploclo.done;
tmplochi.done;
end;
procedure tcg64f32.a_load64_ref_cgpara(list : TAsmList;const r : treference;const paraloc : tcgpara);
var
tmprefhi,tmpreflo : treference;
tmploclo,tmplochi : tcgpara;
begin
tmploclo.init;
tmplochi.init;
splitparaloc64(paraloc,tmploclo,tmplochi);
tmprefhi:=r;
tmpreflo:=r;
if target_info.endian=endian_big then
begin
{ Keep this order of first lo before hi to have
the correct push order for m68k }
inc(tmpreflo.offset,4);
cg.a_load_ref_cgpara(list,OS_32,tmpreflo,tmploclo);
cg.a_load_ref_cgpara(list,OS_32,tmprefhi,tmplochi);
end
else
begin
{ Keep this order of first hi before lo to have
the correct push order for i386 }
inc(tmprefhi.offset,4);
cg.a_load_ref_cgpara(list,OS_32,tmprefhi,tmplochi);
cg.a_load_ref_cgpara(list,OS_32,tmpreflo,tmploclo);
end;
tmploclo.done;
tmplochi.done;
end;
procedure tcg64f32.a_load64_loc_cgpara(list : TAsmList;const l:tlocation;const paraloc : tcgpara);
begin
case l.loc of
LOC_REGISTER,
LOC_CREGISTER :
a_load64_reg_cgpara(list,l.register64,paraloc);
LOC_CONSTANT :
a_load64_const_cgpara(list,l.value64,paraloc);
LOC_CREFERENCE,
LOC_REFERENCE :
a_load64_ref_cgpara(list,l.reference,paraloc);
else
internalerror(200203287);
end;
end;
procedure tcg64f32.a_loadmm_intreg64_reg(list: TAsmList; mmsize: tcgsize; intreg: tregister64; mmreg: tregister);
var
tmpref: treference;
begin
if (tcgsize2size[mmsize]<>8) then
internalerror(2009112501);
tg.gettemp(list,8,8,tt_normal,tmpref);
a_load64_reg_ref(list,intreg,tmpref);
cg.a_loadmm_ref_reg(list,mmsize,mmsize,tmpref,mmreg,mms_movescalar);
tg.ungettemp(list,tmpref);
end;
procedure tcg64f32.a_loadmm_reg_intreg64(list: TAsmList; mmsize: tcgsize; mmreg: tregister; intreg: tregister64);
var
tmpref: treference;
begin
if (tcgsize2size[mmsize]<>8) then
internalerror(2009112502);
tg.gettemp(list,8,8,tt_normal,tmpref);
cg.a_loadmm_reg_ref(list,mmsize,mmsize,mmreg,tmpref,mms_movescalar);
a_load64_ref_reg(list,tmpref,intreg);
tg.ungettemp(list,tmpref);
end;
procedure tcg64f32.g_rangecheck64(list : TAsmList;const l:tlocation;fromdef,todef:tdef);
var
neglabel,
poslabel,
endlabel: tasmlabel;
hreg : tregister;
hdef : torddef;
opsize : tcgsize;
from_signed,to_signed: boolean;
temploc : tlocation;
begin
from_signed := is_signed(fromdef);
to_signed := is_signed(todef);
if not is_64bit(todef) then
begin
{ get the high dword in a register }
if l.loc in [LOC_REGISTER,LOC_CREGISTER] then
begin
hreg := l.register64.reghi;
end
else
begin
hreg:=cg.getintregister(list,OS_32);
a_load64high_ref_reg(list,l.reference,hreg);
end;
current_asmdata.getjumplabel(poslabel);
{ check high dword, must be 0 (for positive numbers) }
cg.a_cmp_const_reg_label(list,OS_32,OC_EQ,0,hreg,poslabel);
{ It can also be $ffffffff, but only for negative numbers }
if from_signed and to_signed then
begin
current_asmdata.getjumplabel(neglabel);
cg.a_cmp_const_reg_label(list,OS_32,OC_EQ,-1,hreg,neglabel);
end
else
{ we do not have dynamic dfa, so avoid a warning below about the unused
neglabel }
neglabel:=nil;
{ For all other values we have a range check error }
cg.a_call_name(list,'fpc_rangeerror',false);
{ if the high dword = 0, the low dword can be considered a }
{ simple cardinal }
cg.a_label(list,poslabel);
hdef:=corddef.create(u32bit,0,$ffffffff,false);
location_copy(temploc,l);
temploc.size:=OS_32;
if (temploc.loc in [LOC_REFERENCE,LOC_CREFERENCE]) and
(target_info.endian = endian_big) then
begin
inc(temploc.reference.offset,4);
temploc.reference.alignment:=newalignment(temploc.reference.alignment,4);
end;
hlcg.g_rangecheck(list,temploc,hdef,todef);
hdef.free;
if from_signed and to_signed then
begin
current_asmdata.getjumplabel(endlabel);
cg.a_jmp_always(list,endlabel);
{ if the high dword = $ffffffff, then the low dword (when }
{ considered as a longint) must be < 0 }
cg.a_label(list,neglabel);
if l.loc in [LOC_REGISTER,LOC_CREGISTER] then
begin
hreg := l.register64.reglo;
end
else
begin
hreg:=cg.getintregister(list,OS_32);
a_load64low_ref_reg(list,l.reference,hreg);
end;
{ get a new neglabel (JM) }
current_asmdata.getjumplabel(neglabel);
cg.a_cmp_const_reg_label(list,OS_32,OC_LT,0,hreg,neglabel);
cg.a_call_name(list,'fpc_rangeerror',false);
{ if we get here, the 64bit value lies between }
{ longint($80000000) and -1 (JM) }
cg.a_label(list,neglabel);
hdef:=corddef.create(s32bit,int64(longint($80000000)),int64(-1),false);
location_copy(temploc,l);
temploc.size:=OS_32;
hlcg.g_rangecheck(list,temploc,hdef,todef);
hdef.free;
cg.a_label(list,endlabel);
end;
end
else
{ todef = 64bit int }
{ no 64bit subranges supported, so only a small check is necessary }
{ if both are signed or both are unsigned, no problem! }
if (from_signed xor to_signed) and
{ also not if the fromdef is unsigned and < 64bit, since that will }
{ always fit in a 64bit int (todef is 64bit) }
(from_signed or
(torddef(fromdef).ordtype = u64bit)) then
begin
{ in all cases, there is only a problem if the higest bit is set }
if l.loc in [LOC_REGISTER,LOC_CREGISTER] then
begin
if is_64bit(fromdef) then
begin
hreg := l.register64.reghi;
opsize := OS_32;
end
else
begin
hreg := l.register;
opsize := def_cgsize(fromdef);
end;
end
else
begin
hreg:=cg.getintregister(list,OS_32);
opsize:=OS_32;
if l.size in [OS_64,OS_S64] then
a_load64high_ref_reg(list,l.reference,hreg)
else
cg.a_load_ref_reg(list,l.size,OS_32,l.reference,hreg);
end;
current_asmdata.getjumplabel(poslabel);
cg.a_cmp_const_reg_label(list,opsize,OC_GTE,0,hreg,poslabel);
cg.a_call_name(list,'fpc_rangeerror',false);
cg.a_label(list,poslabel);
end;
end;
function tcg64f32.optimize64_op_const_reg(list: TAsmList; var op: topcg; var a : int64; var reg: tregister64): boolean;
var
lowvalue, highvalue : longint;
hreg: tregister;
begin
lowvalue := longint(a);
highvalue:= longint(a shr 32);
{ assume it will be optimized out }
optimize64_op_const_reg := true;
case op of
OP_ADD:
begin
if a = 0 then
exit;
end;
OP_AND:
begin
if lowvalue <> -1 then
cg.a_op_const_reg(list,op,OS_32,lowvalue,reg.reglo);
if highvalue <> -1 then
cg.a_op_const_reg(list,op,OS_32,highvalue,reg.reghi);
{ already emitted correctly }
exit;
end;
OP_OR:
begin
if lowvalue <> 0 then
cg.a_op_const_reg(list,op,OS_32,lowvalue,reg.reglo);
if highvalue <> 0 then
cg.a_op_const_reg(list,op,OS_32,highvalue,reg.reghi);
{ already emitted correctly }
exit;
end;
OP_SUB:
begin
if a = 0 then
exit;
end;
OP_XOR:
begin
end;
OP_SHL:
begin
if a = 0 then
exit;
{ simply clear low-register
and shift the rest and swap
registers.
}
if (a > 31) then
begin
cg.a_load_const_reg(list,OS_32,0,reg.reglo);
cg.a_op_const_reg(list,OP_SHL,OS_32,a mod 32,reg.reghi);
{ swap the registers }
hreg := reg.reghi;
reg.reghi := reg.reglo;
reg.reglo := hreg;
exit;
end;
end;
OP_SHR:
begin
if a = 0 then exit;
{ simply clear high-register
and shift the rest and swap
registers.
}
if (a > 31) then
begin
cg.a_load_const_reg(list,OS_32,0,reg.reghi);
cg.a_op_const_reg(list,OP_SHL,OS_32,a mod 32,reg.reglo);
{ swap the registers }
hreg := reg.reghi;
reg.reghi := reg.reglo;
reg.reglo := hreg;
exit;
end;
end;
OP_IMUL,OP_MUL:
begin
if a = 1 then exit;
end;
OP_IDIV,OP_DIV:
begin
if a = 1 then exit;
end;
else
internalerror(20020817);
end;
optimize64_op_const_reg := false;
end;
end.