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fpc/compiler/x86/rgx86.pas
Jonas Maebe e815b923d5 * a_loadfpu_* gets two size parameters: fromsize and tosize 
* fixed downsizing the precision of floating point values
  * floating point constants are now treated using only the minimal
    precision required (e.g. 2.0 is now a single, 1.1 extended etc)
    (Delphi compatible)

git-svn-id: trunk@5927 -
2007-01-12 18:33:51 +00:00

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{
Copyright (c) 1998-2002 by Florian Klaempfl
This unit implements the x86 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 rgx86;
{$i fpcdefs.inc}
interface
uses
cclasses,globtype,
cpubase,cpuinfo,cgbase,cgutils,
aasmbase,aasmtai,aasmdata,aasmcpu,
rgobj;
type
trgx86 = class(trgobj)
function get_spill_subreg(r : tregister) : tsubregister;override;
function do_spill_replace(list:TAsmList;instr:taicpu;orgreg:tsuperregister;const spilltemp:treference):boolean;override;
end;
tpushedsavedloc = record
case byte of
0: (pushed: boolean);
1: (ofs: longint);
end;
tpushedsavedfpu = array[tsuperregister] of tpushedsavedloc;
trgx86fpu = class
{ The "usableregsxxx" contain all registers of type "xxx" that }
{ aren't currently allocated to a regvar. The "unusedregsxxx" }
{ contain all registers of type "xxx" that aren't currently }
{ allocated }
unusedregsfpu,usableregsfpu : Tsuperregisterset;
{ these counters contain the number of elements in the }
{ unusedregsxxx/usableregsxxx sets }
countunusedregsfpu : byte;
{ Contains the registers which are really used by the proc itself.
It doesn't take care of registers used by called procedures
}
used_in_proc : tcpuregisterset;
{reg_pushes_other : regvarother_longintarray;
is_reg_var_other : regvarother_booleanarray;
regvar_loaded_other : regvarother_booleanarray;}
{ tries to hold the amount of times which the current tree is processed }
t_times: longint;
fpuvaroffset : byte;
constructor create;
function getregisterfpu(list: TAsmList) : tregister;
procedure ungetregisterfpu(list: TAsmList; r : tregister);
{ pushes and restores registers }
procedure saveusedfpuregisters(list:TAsmList;
var saved:Tpushedsavedfpu;
const s:Tcpuregisterset);
procedure restoreusedfpuregisters(list:TAsmList;
const saved:Tpushedsavedfpu);
{ corrects the fpu stack register by ofs }
function correct_fpuregister(r : tregister;ofs : byte) : tregister;
end;
implementation
uses
systems,
verbose;
const
{ This value is used in tsaved. If the array value is equal
to this, then this means that this register is not used.}
reg_not_saved = $7fffffff;
{******************************************************************************
Trgcpu
******************************************************************************}
function trgx86.get_spill_subreg(r : tregister) : tsubregister;
begin
result:=getsubreg(r);
end;
function trgx86.do_spill_replace(list:TAsmList;instr:taicpu;orgreg:tsuperregister;const spilltemp:treference):boolean;
var
replaceoper : longint;
begin
result:=false;
with instr do
begin
replaceoper:=-1;
case ops of
1 :
begin
if (oper[0]^.typ=top_reg) then
begin
if get_alias(getsupreg(oper[0]^.reg))<>orgreg then
internalerror(200410101);
replaceoper:=0;
end;
end;
2,3 :
begin
{ We can handle opcodes with 2 and 3 operands the same way. The opcodes
with 3 registers are shrd/shld, where the 3rd operand is const or CL,
that doesn't need spilling }
if (oper[0]^.typ=top_reg) and
(oper[1]^.typ=top_reg) and
(getsupreg(oper[0]^.reg)<>getsupreg(oper[1]^.reg)) then
begin
{ One of the arguments shall be able to be replaced }
if (getregtype(oper[0]^.reg)=regtype) and
(get_alias(getsupreg(oper[0]^.reg))=orgreg) then
replaceoper:=0
else
if (getregtype(oper[1]^.reg)=regtype) and
(get_alias(getsupreg(oper[1]^.reg))=orgreg) then
replaceoper:=1
else
internalerror(200410106);
case replaceoper of
0 :
begin
{ Some instructions don't allow memory references
for source }
case instr.opcode of
A_BT,
A_BTS,
A_BTC,
A_BTR :
replaceoper:=-1;
end;
end;
1 :
begin
{ Some instructions don't allow memory references
for destination }
case instr.opcode of
A_MOVZX,
A_MOVSX,
A_MULSS,
A_MULSD,
A_SUBSS,
A_SUBSD,
A_ADDSD,
A_ADDSS,
A_DIVSD,
A_DIVSS,
A_SHLD,
A_SHRD,
A_CVTDQ2PD,
A_CVTDQ2PS,
A_CVTPD2DQ,
A_CVTPD2PI,
A_CVTPD2PS,
A_CVTPI2PD,
A_CVTPS2DQ,
A_CVTPS2PD,
A_CVTSD2SI,
A_CVTSD2SS,
A_CVTSI2SD,
A_CVTSS2SD,
A_CVTTPD2PI,
A_CVTTPD2DQ,
A_CVTTPS2DQ,
A_CVTTSD2SI,
A_CVTPI2PS,
A_CVTPS2PI,
A_CVTSI2SS,
A_CVTSS2SI,
A_CVTTPS2PI,
A_CVTTSS2SI,
A_IMUL,
A_XORPD,
A_XORPS,
A_ORPD,
A_ORPS,
A_ANDPD,
A_ANDPS:
replaceoper:=-1;
end;
end;
end;
end;
end;
end;
{ Replace register with spill reference }
if replaceoper<>-1 then
begin
oper[replaceoper]^.typ:=top_ref;
new(oper[replaceoper]^.ref);
oper[replaceoper]^.ref^:=spilltemp;
{ memory locations aren't guaranteed to be aligned }
case opcode of
A_MOVAPS:
opcode:=A_MOVSS;
A_MOVAPD:
opcode:=A_MOVSD;
end;
result:=true;
end;
end;
end;
{******************************************************************************
Trgx86fpu
******************************************************************************}
constructor Trgx86fpu.create;
begin
used_in_proc:=[];
t_times := 0;
unusedregsfpu:=usableregsfpu;
end;
function trgx86fpu.getregisterfpu(list: TAsmList) : tregister;
begin
{ note: don't return R_ST0, see comments above implementation of }
{ a_loadfpu_* methods in cgcpu (JM) }
result:=NR_ST;
end;
procedure trgx86fpu.ungetregisterfpu(list : TAsmList; r : tregister);
begin
{ nothing to do, fpu stack management is handled by the load/ }
{ store operations in cgcpu (JM) }
end;
function trgx86fpu.correct_fpuregister(r : tregister;ofs : byte) : tregister;
begin
correct_fpuregister:=r;
setsupreg(correct_fpuregister,ofs);
end;
procedure trgx86fpu.saveusedfpuregisters(list: TAsmList;
var saved : tpushedsavedfpu;
const s: tcpuregisterset);
var
r : tregister;
hr : treference;
begin
used_in_proc:=used_in_proc+s;
{$warning TODO firstsavefpureg}
(*
{ don't try to save the fpu registers if not desired (e.g. for }
{ the 80x86) }
if firstsavefpureg <> R_NO then
for r.enum:=firstsavefpureg to lastsavefpureg do
begin
saved[r.enum].ofs:=reg_not_saved;
{ if the register is used by the calling subroutine and if }
{ it's not a regvar (those are handled separately) }
if not is_reg_var_other[r.enum] and
(r.enum in s) and
{ and is present in use }
not(r.enum in unusedregsfpu) then
begin
{ then save it }
tg.GetTemp(list,extended_size,tt_persistent,hr);
saved[r.enum].ofs:=hr.offset;
cg.a_loadfpu_reg_ref(list,OS_FLOAT,OS_FLOAT,r,hr);
cg.a_reg_dealloc(list,r);
include(unusedregsfpu,r.enum);
inc(countunusedregsfpu);
end;
end;
*)
end;
procedure trgx86fpu.restoreusedfpuregisters(list : TAsmList;
const saved : tpushedsavedfpu);
var
r,r2 : tregister;
hr : treference;
begin
{$warning TODO firstsavefpureg}
(*
if firstsavefpureg <> R_NO then
for r.enum:=lastsavefpureg downto firstsavefpureg do
begin
if saved[r.enum].ofs <> reg_not_saved then
begin
r2.enum:=R_INTREGISTER;
r2.number:=NR_FRAME_POINTER_REG;
reference_reset_base(hr,r2,saved[r.enum].ofs);
cg.a_reg_alloc(list,r);
cg.a_loadfpu_ref_reg(list,OS_FLOAT,OS_FLOAT,hr,r);
if not (r.enum in unusedregsfpu) then
{ internalerror(10)
in n386cal we always save/restore the reg *state*
using save/restoreunusedstate -> the current state
may not be real (JM) }
else
begin
dec(countunusedregsfpu);
exclude(unusedregsfpu,r.enum);
end;
tg.UnGetTemp(list,hr);
end;
end;
*)
end;
(*
procedure Trgx86fpu.saveotherregvars(list: TAsmList; const s: totherregisterset);
var
r: Tregister;
begin
if not(cs_opt_regvar in current_settings.optimizerswitches) then
exit;
if firstsavefpureg <> NR_NO then
for r.enum := firstsavefpureg to lastsavefpureg do
if is_reg_var_other[r.enum] and
(r.enum in s) then
store_regvar(list,r);
end;
*)
end.
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