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fpc/compiler/aarch64/rgcpu.pas
Jonas Maebe bb977b398d * AArch64: fix spilling integer registers to stack offsets that cannot be 
encoded directly into the spilling instructions (second part of
    mantis )

git-svn-id: trunk@49207 -
2021-04-14 20:56:32 +00:00

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{
Copyright (c) 1998-2002 by Florian Klaempfl
This unit implements the AArch64 specific class for the register
allocator
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
****************************************************************************}
unit rgcpu;
{$i fpcdefs.inc}
interface
uses
aasmbase,aasmcpu,aasmtai,aasmdata,
cgbase,cgutils,
cpubase,
globtype,
rgobj;
type
trgcpu=class(trgobj)
procedure do_spill_read(list: TAsmList; pos: tai; const spilltemp: treference; tempreg: tregister; orgsupreg: tsuperregister); override;
procedure do_spill_written(list: TAsmList; pos: tai; const spilltemp: treference; tempreg: tregister; orgsupreg: tsuperregister); override;
function get_spill_subreg(r: tregister): tsubregister; override;
protected
procedure do_spill_op(list: tasmlist; op: tasmop; pos: tai; const spilltemp: treference; tempreg: tregister; orgsupreg: tsuperregister);
end;
trgintcpu=class(trgcpu)
procedure add_cpu_interferences(p: tai); override;
end;
implementation
uses
verbose,cutils,
cgobj;
function trgcpu.get_spill_subreg(r:tregister) : tsubregister;
begin
if (getregtype(r)<>R_MMREGISTER) then
result:=defaultsub
else
result:=getsubreg(r);
end;
procedure trgcpu.do_spill_read(list: TAsmList; pos: tai; const spilltemp: treference; tempreg: tregister; orgsupreg: tsuperregister);
begin
do_spill_op(list,A_LDR,pos,spilltemp,tempreg,orgsupreg);
end;
procedure trgcpu.do_spill_written(list: TAsmList; pos: tai; const spilltemp: treference; tempreg: tregister; orgsupreg: tsuperregister);
begin
do_spill_op(list,A_STR,pos,spilltemp,tempreg,orgsupreg);
end;
procedure trgcpu.do_spill_op(list: tasmlist; op: tasmop; pos: tai; const spilltemp: treference; tempreg: tregister; orgsupreg: tsuperregister);
var
helpins : tai;
tmpref : treference;
helplist : TAsmList;
hreg : tregister;
isload : boolean;
begin
isload:=op=A_LDR;
{ offset out of range for regular load/store? }
if simple_ref_type(op,reg_cgsize(tempreg),PF_None,spilltemp)<>sr_simple then
begin
helplist:=TAsmList.create;
if (getregtype(tempreg)=R_INTREGISTER) then
hreg:=getregisterinline(helplist,[R_SUBWHOLE])
else
hreg:=cg.getaddressregister(helplist);
cg.a_load_const_reg(helplist,OS_ADDR,spilltemp.offset,hreg);
reference_reset_base(tmpref,spilltemp.base,0,spilltemp.temppos,sizeof(pint),[]);
tmpref.index:=hreg;
if isload then
helpins:=spilling_create_load(tmpref,tempreg)
else
helpins:=spilling_create_store(tempreg,tmpref);
helplist.concat(helpins);
if (getregtype(tempreg)=R_INTREGISTER) then
ungetregisterinline(helplist,hreg);
add_cpu_interferences(helpins);
list.insertlistafter(pos,helplist);
helplist.free;
end
else if isload then
inherited do_spill_read(list,pos,spilltemp,tempreg,orgsupreg)
else
inherited do_spill_written(list,pos,spilltemp,tempreg,orgsupreg)
end;
procedure trgintcpu.add_cpu_interferences(p: tai);
var
i, j: longint;
begin
if p.typ=ait_instruction then
begin
{ add interferences for instructions that can have SP as a register
operand }
case taicpu(p).opcode of
A_MOV:
{ all operands can be SP }
exit;
A_ADD,
A_SUB,
A_CMP,
A_CMN:
{ ok as destination or first source in immediate or extended
register form }
if (taicpu(p).oper[taicpu(p).ops-1]^.typ<>top_shifterop) or
valid_shifter_operand(taicpu(p).opcode,false,true,
reg_cgsize(taicpu(p).oper[0]^.reg) in [OS_64,OS_S64],
taicpu(p).oper[taicpu(p).ops-1]^.shifterop^.shiftmode,
taicpu(p).oper[taicpu(p).ops-1]^.shifterop^.shiftimm) then
begin
if taicpu(p).oper[taicpu(p).ops-1]^.typ=top_shifterop then
i:=taicpu(p).ops-2
else
i:=taicpu(p).ops-1;
if (taicpu(p).oper[i]^.typ=top_reg) then
add_edge(getsupreg(taicpu(p).oper[i]^.reg),RS_SP);
exit;
end;
A_AND,
A_EOR,
A_ORR,
A_TST:
{ ok in immediate form }
if taicpu(p).oper[taicpu(p).ops-1]^.typ=top_const then
exit;
else
;
end;
{ add interferences for other registers }
for i:=0 to taicpu(p).ops-1 do
begin
case taicpu(p).oper[i]^.typ of
top_reg:
if getregtype(taicpu(p).oper[i]^.reg)=R_INTREGISTER then
add_edge(getsupreg(taicpu(p).oper[i]^.reg),RS_SP);
top_ref:
begin
{ sp can always be base, never be index }
if taicpu(p).oper[i]^.ref^.index<>NR_NO then
add_edge(getsupreg(taicpu(p).oper[i]^.ref^.index),RS_SP);
{ in case of write back, the base register must be
different from the loaded/stored register }
if (taicpu(p).oper[i]^.ref^.addressmode in [AM_PREINDEXED,AM_POSTINDEXED]) and
(taicpu(p).oper[i]^.ref^.base<>NR_NO) then
begin
for j:=pred(i) downto 0 do
if taicpu(p).oper[j]^.typ=TOP_REG then
add_edge(getsupreg(taicpu(p).oper[j]^.reg),getsupreg(taicpu(p).oper[i]^.ref^.base));
end;
end;
else
;
end;
end;
end;
end;
end.
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