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https://gitlab.com/freepascal.org/fpc/source.git
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af36d177d9
register, mark the register as read by the current instruction
(fixes compilation of tcalfun8 with optimizations)
git-svn-id: trunk@3003 -
2204 lines
88 KiB
ObjectPascal
2204 lines
88 KiB
ObjectPascal
{
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Copyright (c) 1998-2002 by Jonas Maebe, member of the Free Pascal
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development team
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This unit contains the common subexpression elimination procedure.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS for A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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****************************************************************************
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}
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unit CSOpt386;
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{$i fpcdefs.inc}
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interface
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uses aasmbase,aasmtai,aasmdata,aasmcpu, cpuinfo, cpubase, optbase, cgbase;
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function CSE(asml: TAsmList; first, last: tai; pass: longint): boolean;
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function doReplaceReg(hp: taicpu; newReg, orgReg: tsuperregister): boolean;
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function changeOp(var o: toper; newReg, orgReg: tsuperregister): boolean;
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function storeBack(start, current: tai; orgReg, newReg: tsuperregister): boolean;
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function NoHardCodedRegs(p: taicpu; orgReg, newReg: tsuperregister): boolean;
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function RegSizesOK(oldReg,newReg: tsuperregister; p: taicpu): boolean;
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implementation
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uses
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{$ifdef csdebug}
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cutils,
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{$else}
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{$ifdef replaceregdebug}cutils,{$endif}
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{$endif}
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globtype, verbose, procinfo, globals, daopt386, rgobj, rropt386,cgutils;
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{
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function TaiInSequence(P: tai; Const Seq: TContent): Boolean;
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var P1: tai;
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Counter: Byte;
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TmpResult: Boolean;
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begin
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TmpResult := False;
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P1 := Seq.StartMod;
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Counter := 1;
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while not(TmpResult) and
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(Counter <= Seq.NrofMods) do
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begin
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if (P = P1) then TmpResult := True;
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inc(Counter);
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p1 := tai(p1.Next);
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end;
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TaiInSequence := TmpResult;
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end;
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}
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function modifiesConflictingMemLocation(p1: tai; supreg: tsuperregister; c: tregContent;
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var regsStillValid: tregset; onlymem: boolean; var invalsmemwrite: boolean): boolean;
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var
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p, hp: taicpu;
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tmpRef: treference;
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r,regCounter: tsuperregister;
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opCount: longint;
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dummy: boolean;
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begin
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modifiesConflictingMemLocation := false;
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invalsmemwrite := false;
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if p1.typ <> ait_instruction then
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exit;
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p := taicpu(p1);
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case p.opcode of
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A_MOV,A_MOVSX,A_MOVZX:
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if p.oper[1]^.typ = top_ref then
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for regCounter := RS_EAX to RS_EDI do
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begin
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if p.oper[0]^.typ<>top_reg then
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break;
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if writeToMemDestroysContents(getsupreg(p.oper[0]^.reg),p.oper[1]^.ref^,
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regCounter,topsize2tcgsize[p.opsize],c[regCounter],dummy) then
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begin
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exclude(regsStillValid,regCounter);
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modifiesConflictingMemLocation := not(supreg in regsStillValid);
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end;
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if (regcounter = supreg) then
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invalsmemwrite := invalsmemwrite or dummy;
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end
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else
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{ if is_reg_var[getsupreg(p.oper[1]^.reg)] then }
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if not onlymem then
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for regCounter := RS_EAX to RS_EDI do
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begin
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if writeDestroysContents(p.oper[1]^,regCounter,topsize2tcgsize[p.opsize],c[regCounter],dummy) then
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begin
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exclude(regsStillValid,regCounter);
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modifiesConflictingMemLocation := not(supreg in regsStillValid);
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end
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end;
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A_DIV, A_IDIV, A_MUL, A_IMUL:
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begin
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if not onlymem then
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if (p.ops = 1) then
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begin
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for regCounter := RS_EAX to RS_EDI do
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begin
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if writeToRegDestroysContents(RS_EDX,regCounter,c[regCounter]) then
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begin
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exclude(regsStillValid,RS_EDX);
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modifiesConflictingMemLocation := not(supreg in regsStillValid);
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end;
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if writeToRegDestroysContents(RS_EAX,regCounter,c[regCounter]) then
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begin
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exclude(regsStillValid,RS_EAX);
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modifiesConflictingMemLocation := not(supreg in regsStillValid);
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end;
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end
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end
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else
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{ only possible for imul }
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{ last operand is always destination }
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for regCounter := RS_EAX to RS_EDI do
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begin
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if writeDestroysContents(p.oper[p.ops-1]^,regCounter,topsize2tcgsize[p.opsize],c[regCounter],dummy) then
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begin
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exclude(regsStillValid,regCounter);
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modifiesConflictingMemLocation := not(supreg in regsStillValid);
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end
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end
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end;
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else
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for opCount := 1 to maxinschanges do
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case InsProp[p.opcode].Ch[opCount] of
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Ch_MOp1,CH_WOp1,CH_RWOp1:
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if not(onlymem) or
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(p.oper[0]^.typ = top_ref) then
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{ or ((p.oper[0]^.typ = top_reg) and }
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{ is_reg_var[getsupreg(p.oper[0]^.reg)]) then }
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for regCounter := RS_EAX to RS_EDI do
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begin
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if writeDestroysContents(p.oper[0]^,regCounter,topsize2tcgsize[p.opsize],c[regCounter],dummy) then
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begin
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exclude(regsStillValid,regCounter);
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modifiesConflictingMemLocation := not(supreg in regsStillValid);
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end;
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if (regcounter = supreg) then
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invalsmemwrite := invalsmemwrite or dummy;
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end;
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Ch_MOp2,CH_WOp2,CH_RWOp2:
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if not(onlymem) or
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(p.oper[1]^.typ = top_ref) then
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{ or ((p.oper[1]^.typ = top_reg) and }
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{ is_reg_var[getsupreg(p.oper[1]^.reg)]) then }
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for regCounter := RS_EAX to RS_EDI do
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begin
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if writeDestroysContents(p.oper[1]^,regCounter,topsize2tcgsize[p.opsize],c[regCounter],dummy) then
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begin
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exclude(regsStillValid,regCounter);
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modifiesConflictingMemLocation := not(supreg in regsStillValid);
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end;
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if (regcounter = supreg) then
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invalsmemwrite := invalsmemwrite or dummy;
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end;
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Ch_MOp3,CH_WOp3,CH_RWOp3:
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if not(onlymem) or
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(p.oper[2]^.typ = top_ref) then
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{ or ((p.oper[2]^.typ = top_reg) and }
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{ is_reg_var[getsupreg(p.oper[2]^.reg)]) then }
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for regCounter := RS_EAX to RS_EDI do
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begin
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if writeDestroysContents(p.oper[2]^,regCounter,topsize2tcgsize[p.opsize],c[regCounter],dummy) then
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begin
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exclude(regsStillValid,regCounter);
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modifiesConflictingMemLocation := not(supreg in regsStillValid);
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end;
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if (regcounter = supreg) then
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invalsmemwrite := invalsmemwrite or dummy;
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end;
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Ch_WMemEDI:
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begin
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fillchar(tmpref,sizeof(tmpref),0);
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tmpRef.base := NR_EDI;
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tmpRef.index := NR_EDI;
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for regCounter := RS_EAX to RS_EDI do
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if writeToMemDestroysContents(RS_INVALID,tmpRef,regCounter,OS_32,c[regCounter],dummy) then
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begin
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exclude(regsStillValid,regCounter);
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modifiesConflictingMemLocation := not(supreg in regsStillValid);
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end;
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if (regcounter = supreg) then
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invalsmemwrite := invalsmemwrite or dummy;
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end;
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end;
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end;
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end;
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function isSimpleMemLoc(const ref: treference): boolean;
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begin
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{ isSimpleMemLoc :=
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(ref.index = RS_NO) and
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not(ref.base in (rg.usableregsint+[RS_EDI]));}
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isSimpleMemLoc :=
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(ref.index = NR_NO) and
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((ref.base = NR_NO) or
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not(getsupreg(ref.base) in [RS_EAX,RS_EBX,RS_ECX,RS_EDX,RS_ESI,RS_EDI]));
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end;
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{checks whether the current instruction sequence (starting with p) and the
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one between StartMod and EndMod of Reg are the same. if so, the number of
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instructions that match is stored in Found and true is returned, otherwise
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Found holds the number of instructions between StartMod and EndMod and false
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is returned}
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function CheckSequence(p: tai; var prev: tai; supreg: tsuperregister; var Found: Longint;
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var reginfo: toptreginfo; findPrevSeqs: boolean): Boolean;
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var
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regsNotRead, regsStillValid : tregset;
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checkingPrevSequences,
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passedFlagsModifyingInstr,
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invalsmemwrite : boolean;
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function getPrevSequence(p: tai; supreg: tsuperregister; currentPrev: tai; var newPrev: tai): tsuperregister;
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const
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current_reg: tsuperregister = RS_INVALID;
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function stillValid(p: tai): boolean;
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var
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hp: tai;
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begin
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{ only regvars are still used at jump instructions }
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if (cs_opt_regvar in aktoptimizerswitches) and
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(p.typ = ait_instruction) and
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taicpu(p).is_jmp then
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regsstillvalid := regsstillvalid - ptaiprop(p.optinfo)^.usedregs;
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stillValid :=
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(p.typ = ait_instruction) and
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(taicpu(p).opcode <> a_jmp) and
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(ptaiprop(p.optinfo)^.regs[supreg].wstate =
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ptaiprop(currentPrev.optinfo)^.regs[supreg].wstate) and
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{ in case destroyreg is called with doIncState = false }
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(ptaiprop(p.optinfo)^.regs[supreg].typ =
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ptaiprop(currentPrev.optinfo)^.regs[supreg].typ) and
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(supreg in (regsNotRead * regsStillValid));
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{ stop if the register was still used right before a (conditional) }
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{ jump, since in that case its current contents could still be }
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{ used in the other path of the jump) }
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if (p.typ = ait_instruction) and
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(taicpu(p).is_jmp) and
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getlastinstruction(p,hp) then
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stillValid := stillValid and
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not(supreg in ptaiprop(hp.optinfo)^.usedregs);
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passedFlagsModifyingInstr := passedFlagsModifyingInstr or
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instrWritesFlags(currentPrev);
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end;
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function findChangedRegister(p: tai): tsuperregister;
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var
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regCounter, loopstart: tsuperregister;
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begin
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if (current_reg <> RS_INVALID) then
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loopstart := succ(current_reg)
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else
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loopstart := RS_EAX;
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for regCounter := loopstart to RS_EDI do
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with ptaiprop(p.optinfo)^.regs[regCounter] do
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if ((startmod <>
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ptaiprop(currentPrev.optinfo)^.regs[regCounter].startmod) or
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(nrofMods <>
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ptaiprop(currentPrev.optinfo)^.regs[regCounter].nrofMods)) and
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(ptaiprop(p.optinfo)^.regs[regCounter].typ in [con_ref,con_noRemoveRef]) then
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begin
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findChangedRegister := regCounter;
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current_reg := regCounter;
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exit;
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end;
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current_reg := RS_INVALID;
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findChangedRegister := RS_INVALID;
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end;
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var
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hp, prevFound: tai;
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tmpResult, regCounter: tsuperregister;
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invalsmemwrite: boolean;
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begin
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if (current_reg <> RS_EDI) and
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(current_reg <> RS_INVALID) then
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begin
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tmpResult := findChangedRegister(currentPrev);
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if tmpResult <> RS_INVALID then
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begin
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getPrevSequence := tmpResult;
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exit;
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end;
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end;
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getPrevSequence := RS_INVALID;
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passedFlagsModifyingInstr := passedFlagsModifyingInstr or
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instrWritesFlags(currentPrev);
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if (cs_opt_regvar in aktoptimizerswitches) and
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(currentprev.typ = ait_instruction) and
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taicpu(currentprev).is_jmp then
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regsstillvalid := regsstillvalid - ptaiprop(currentprev.optinfo)^.usedregs;
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if not getLastInstruction(currentPrev,hp) then
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exit;
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prevFound := currentPrev;
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tmpResult := RS_INVALID;
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while (tmpResult = RS_INVALID) and
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stillValid(hp) and
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(ptaiprop(prevFound.optinfo)^.canBeRemoved or
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not(modifiesConflictingMemLocation(prevFound,supreg,
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ptaiprop(p.optinfo)^.regs,regsStillValid,false, invalsmemwrite))) do
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begin
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{ only update the regsread for the instructions we already passed }
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if not(ptaiprop(prevFound.optinfo)^.canBeRemoved) then
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for regCounter := RS_EAX to RS_EDI do
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if regReadByInstruction(regCounter,prevFound) then
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exclude(regsNotRead,regCounter);
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{ in case getPreviousInstruction fails and sets hp to nil in the }
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{ next iteration }
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prevFound := hp;
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if not(ptaiprop(hp.optinfo)^.canBeRemoved) then
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tmpResult := findChangedRegister(hp);
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if not getLastInstruction(hp,hp) then
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break;
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end;
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getPrevSequence := tmpResult;
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if tmpResult <> RS_INVALID then
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newPrev := prevFound;
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end;
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function getNextRegToTest(var prev: tai; currentReg: tsuperregister): tsuperregister;
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begin
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if not checkingPrevSequences then
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begin
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if (currentreg = RS_INVALID) then
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currentreg := RS_EAX
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else
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inc(currentreg);
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while (currentReg <= RS_EDI) and
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not(ptaiprop(prev.optinfo)^.regs[currentReg].typ in [con_ref,con_noRemoveRef]) do
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inc(currentReg);
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if currentReg > RS_EDI then
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begin
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if (taicpu(p).oper[0]^.typ <> top_ref) or
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isSimpleMemLoc(taicpu(p).oper[0]^.ref^) then
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begin
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checkingPrevSequences := true;
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end
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else
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getNextRegToTest := RS_INVALID;
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end
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else
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getNextRegToTest := currentReg;
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end;
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if checkingPrevSequences then
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if findPrevSeqs then
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getNextRegToTest :=
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getPrevSequence(p,supreg,prev,prev)
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else
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getNextRegToTest := RS_INVALID;
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end;
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function changedreginvalidatedbetween(const oldreginfo: toptreginfo; var newreginfo: toptreginfo; startp,endp,current: tai): boolean;
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var
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orgdiffregs,diffregs: tregset;
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runner: tai;
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invalsmemwrite: boolean;
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begin
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diffregs := newreginfo.newregsencountered - oldreginfo.newregsencountered;
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orgdiffregs := diffregs;
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if diffregs <> [] then
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begin
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runner := startp;
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repeat
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modifiesConflictingMemLocation(runner,RS_EAX { dummy },ptaiprop(current.optinfo)^.regs,diffregs,true,invalsmemwrite);
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if orgdiffregs <> diffregs then
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begin
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changedreginvalidatedbetween := true;
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newreginfo := oldreginfo;
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exit;
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end;
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getnextinstruction(runner,runner);
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until (runner = endp);
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end;
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changedreginvalidatedbetween := false;
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end;
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var
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prevreginfo: toptreginfo;
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hp2, hp3{, EndMod}, prevhp3, highPrev, orgPrev, pprev: tai;
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{Cnt,} OldNrofMods: Longint;
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startRegInfo, OrgRegInfo, HighRegInfo: toptreginfo;
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regModified, lastregloadremoved: array[RS_EAX..RS_ESP] of boolean;
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HighFound, OrgRegFound: longint;
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regcounter, regCounter2, tmpreg, base, index: tsuperregister;
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OrgRegResult: Boolean;
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TmpResult, flagResultsNeeded, stopchecking: Boolean;
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begin {CheckSequence}
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TmpResult := False;
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FillChar(OrgRegInfo, Sizeof(OrgRegInfo), 0);
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FillChar(startRegInfo, sizeof(startRegInfo), 0);
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OrgRegFound := 0;
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HighFound := 0;
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OrgRegResult := False;
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with startRegInfo do
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begin
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newRegsEncountered := [RS_EBP, RS_ESP];
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fillword(new2oldreg,sizeof(new2oldreg),RS_INVALID);
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new2OldReg[RS_EBP] := RS_EBP;
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new2OldReg[RS_ESP] := RS_ESP;
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oldRegsEncountered := newRegsEncountered;
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end;
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checkingPrevSequences := false;
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passedFlagsModifyingInstr := false;
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flagResultsNeeded := false;
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regsNotRead := [RS_EAX,RS_EBX,RS_ECX,RS_EDX,RS_ESP,RS_EBP,RS_EDI,RS_ESI];
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regsStillValid := regsNotRead;
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GetLastInstruction(p, prev);
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pprev := prev;
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tmpreg:=RS_INVALID;
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regCounter := getNextRegToTest(prev,tmpreg);
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while (regcounter <> RS_INVALID) do
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begin
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fillchar(regModified,sizeof(regModified),0);
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fillchar(lastregloadremoved,sizeof(lastregloadremoved),0);
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reginfo := startRegInfo;
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Found := 0;
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hp2 := ptaiprop(prev.optinfo)^.Regs[regcounter].StartMod;
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if (prev <> ptaiprop(prev.optinfo)^.Regs[regcounter].StartMod) then
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OldNrofMods := ptaiprop(prev.optinfo)^.Regs[regcounter].NrofMods
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else
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OldNrofMods := 1;
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hp3 := p;
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if checkingprevsequences then
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prevreginfo := reginfo;
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stopchecking := false;
|
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while (Found <> OldNrofMods) and
|
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{ old new }
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InstructionsEquivalent(hp2, hp3, reginfo) and
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(not(checkingprevsequences) or
|
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not(changedreginvalidatedbetween(prevreginfo,reginfo,prev,p,hp3))) do
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begin
|
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if checkingprevsequences then
|
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begin
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prevreginfo := reginfo;
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end;
|
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if (hp3.typ = ait_instruction) and
|
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((taicpu(hp3).opcode = A_MOV) or
|
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(taicpu(hp3).opcode = A_MOVZX) or
|
|
(taicpu(hp3).opcode = A_LEA) or
|
|
(taicpu(hp3).opcode = A_MOVSX)) and
|
|
(taicpu(hp3).oper[1]^.typ = top_reg) and
|
|
not(regInOp(getsupreg(taicpu(hp3).oper[1]^.reg),taicpu(hp3).oper[0]^)) then
|
|
begin
|
|
tmpreg := getsupreg(taicpu(hp3).oper[1]^.reg);
|
|
lastregloadremoved[tmpreg] := ptaiprop(hp2.optinfo)^.canberemoved;
|
|
reginfo.lastReload[tmpreg] := hp3;
|
|
case taicpu(hp3).oper[0]^.typ of
|
|
top_ref:
|
|
begin
|
|
base := getsupreg(taicpu(hp3).oper[0]^.ref^.base);
|
|
index := getsupreg(taicpu(hp3).oper[0]^.ref^.index);
|
|
if (found <> 0) and
|
|
((taicpu(hp3).oper[0]^.ref^.base = NR_NO) or
|
|
regModified[base] or
|
|
(base = getsupreg(current_procinfo.framepointer))) and
|
|
((taicpu(hp3).oper[0]^.ref^.index = NR_NO) or
|
|
regModified[index]) and
|
|
not(regInRef(tmpReg,taicpu(hp3).oper[0]^.ref^)) then
|
|
begin
|
|
with ptaiprop(hp3.optinfo)^.regs[tmpreg] do
|
|
if nrofMods > (oldNrofMods - found) then
|
|
oldNrofMods := found + nrofMods;
|
|
{ next is safe because instructions are equivalent }
|
|
with ptaiprop(hp2.optinfo)^.regs[getsupreg(taicpu(hp2).oper[1]^.reg)] do
|
|
if nrofMods > (oldNrofMods - found) then
|
|
oldNrofMods := found + nrofMods;
|
|
end;
|
|
end;
|
|
top_reg:
|
|
if regModified[getsupreg(taicpu(hp3).oper[0]^.reg)] then
|
|
begin
|
|
with ptaiprop(hp3.optinfo)^.regs[tmpreg] do
|
|
if nrofMods > (oldNrofMods - found) then
|
|
oldNrofMods := found + nrofMods;
|
|
with ptaiprop(hp2.optinfo)^.regs[getsupreg(taicpu(hp2).oper[1]^.reg)] do
|
|
if nrofMods > (oldNrofMods - found) then
|
|
oldNrofMods := found + nrofMods;
|
|
end;
|
|
end;
|
|
end;
|
|
for regCounter2 := RS_EAX to RS_EDI do
|
|
regModified[regCounter2] := regModified[regCounter2] or
|
|
regModifiedByInstruction(regCounter2,hp3);
|
|
if flagResultsNeeded then
|
|
flagResultsNeeded := not instrReadsFlags(hp3);
|
|
if not flagResultsNeeded then
|
|
flagResultsNeeded := ptaiprop(hp3.optinfo)^.FlagsUsed;
|
|
inc(Found);
|
|
prevhp3 := hp3;
|
|
if (Found <> OldNrofMods) then
|
|
if not GetNextInstruction(hp2, hp2) or
|
|
not GetNextInstruction(hp3, hp3) then
|
|
break;
|
|
end;
|
|
|
|
if assigned(hp3) then
|
|
begin
|
|
prevhp3 := hp3;
|
|
getnextinstruction(hp3,hp3);
|
|
end;
|
|
if not assigned(hp3) or
|
|
{ a marker has no optinfo, which is used below }
|
|
(hp3.typ = ait_marker) then
|
|
hp3 := prevhp3;
|
|
{
|
|
a) movl -4(%ebp),%edx
|
|
movl -12(%ebp),%ecx
|
|
...
|
|
movl -8(%ebp),%eax
|
|
movl -12(%ebp),%edx (marked as removable)
|
|
movl (%eax,%edx),%eax (replaced by "movl (%eax,%ecx),%eax")
|
|
...
|
|
movl -8(%ebp),%eax
|
|
movl -12(%ebp),%edx
|
|
movl (%eax,%edx),%eax
|
|
movl (%edx),%edx
|
|
|
|
-> the "movl -12(ebp),%edx" can't be removed in the last sequence, because
|
|
edx has not been replaced with ecx there, and edx is still used after the
|
|
sequence
|
|
|
|
b) tests/webtbs/tw4266.pp
|
|
}
|
|
|
|
for regCounter2 := RS_EAX to RS_EDI do
|
|
if (reginfo.new2OldReg[regCounter2] <> RS_INVALID) and
|
|
(regCounter2 in ptaiprop(hp3.optinfo)^.usedRegs) and
|
|
{ case a) above }
|
|
((not regLoadedWithNewValue(regCounter2,false,hp3) and
|
|
lastregloadremoved[regcounter2]) or
|
|
{ case b) above }
|
|
((ptaiprop(pprev.optinfo)^.regs[regcounter2].wstate <>
|
|
ptaiprop(hp2.optinfo)^.regs[regcounter2].wstate))) then
|
|
begin
|
|
found := 0;
|
|
end;
|
|
|
|
if checkingPrevSequences then
|
|
begin
|
|
for regCounter2 := RS_EAX to RS_EDI do
|
|
if (reginfo.new2OldReg[regCounter2] <> RS_INVALID) and
|
|
(reginfo.new2OldReg[regCounter2] <> regCounter2) and
|
|
(not(regCounter2 in (regsNotRead * regsStillValid)) or
|
|
not(reginfo.new2OldReg[regCounter2] in regsStillValid)) then
|
|
begin
|
|
found := 0;
|
|
break;
|
|
end;
|
|
if passedFlagsModifyingInstr and flagResultsNeeded then
|
|
found := 0;
|
|
end;
|
|
|
|
TmpResult := true;
|
|
if (found <> OldNrofMods) then
|
|
TmpResult := false
|
|
else if assigned(hp3) then
|
|
for regcounter2 := RS_EAX to RS_EDI do
|
|
if (regcounter2 in reginfo.regsLoadedforRef) and
|
|
regModified[regcounter2] and
|
|
(regcounter2 in ptaiprop(hp3.optinfo)^.usedRegs) and
|
|
not regLoadedWithNewValue(regcounter2,false,hp3) then
|
|
begin
|
|
TmpResult := False;
|
|
if (found > 0) then
|
|
{this is correct because we only need to turn off the CanBeRemoved flag
|
|
when an instruction has already been processed by CheckSequence
|
|
(otherwise CanBeRemoved can't be true and thus can't have to be turned off).
|
|
if it has already been processed by CheckSequence and flagged to be
|
|
removed, it means that it has been checked against a previous sequence
|
|
and that it was equal (otherwise CheckSequence would have returned false
|
|
and the instruction wouldn't have been removed). if this "if found > 0"
|
|
check is left out, incorrect optimizations are performed.}
|
|
Found := ptaiprop(tai(p).optinfo)^.Regs[supreg].NrofMods;
|
|
break;
|
|
end;
|
|
|
|
if TmpResult and
|
|
(Found > HighFound) then
|
|
begin
|
|
highPrev := prev;
|
|
HighFound := Found;
|
|
HighRegInfo := reginfo;
|
|
end;
|
|
if (regcounter = supreg) then
|
|
begin
|
|
orgPrev := prev;
|
|
OrgRegFound := Found;
|
|
OrgRegResult := TmpResult;
|
|
OrgRegInfo := reginfo
|
|
end;
|
|
regCounter := getNextRegToTest(prev,regCounter);
|
|
end;
|
|
if (HighFound > 0) and
|
|
(not(OrgRegResult) Or
|
|
(HighFound > OrgRegFound))
|
|
then
|
|
begin
|
|
{$ifndef fpc}
|
|
TmpResult := True;
|
|
{$else fpc}
|
|
CheckSequence := True;
|
|
{$endif fpc}
|
|
prev := highPrev;
|
|
reginfo := HighRegInfo;
|
|
Found := HighFound
|
|
end
|
|
else
|
|
begin
|
|
{$ifndef fpc}
|
|
TmpResult := OrgRegResult;
|
|
{$else fpc}
|
|
CheckSequence := OrgRegResult;
|
|
{$endif fpc}
|
|
prev := orgPrev;
|
|
Found := OrgRegFound;
|
|
reginfo := OrgRegInfo;
|
|
end;
|
|
{$ifndef fpc}
|
|
CheckSequence := TmpResult;
|
|
{$endif fpc}
|
|
end; {CheckSequence}
|
|
|
|
|
|
procedure SetAlignReg(p: tai);
|
|
Const alignSearch = 12;
|
|
var regsUsable: TRegSet;
|
|
prevInstrCount, nextInstrCount: Longint;
|
|
prevState, nextWState,nextRState: Array[RS_EAX..RS_EDI] of byte;
|
|
regCounter, lastRemoved: tsuperregister;
|
|
prev, next: tai;
|
|
{$ifdef alignregdebug}
|
|
temp: tai;
|
|
{$endif alignregdebug}
|
|
begin
|
|
regsUsable := [RS_EAX,RS_ECX,RS_EDX,RS_EBX,{R_ESP,RS_EBP,}RS_ESI,RS_EDI];
|
|
for regCounter := RS_EAX to RS_EDI do
|
|
begin
|
|
prevState[regCounter] := ptaiprop(p.optinfo)^.Regs[regCounter].wState;
|
|
nextWState[regCounter] := ptaiprop(p.optinfo)^.Regs[regCounter].wState;
|
|
nextRState[regCounter] := ptaiprop(p.optinfo)^.Regs[regCounter].rState;
|
|
end;
|
|
getLastInstruction(p,prev);
|
|
getNextInstruction(p,next);
|
|
lastRemoved := getsupreg(tai_align(p).reg);
|
|
nextInstrCount := 0;
|
|
prevInstrCount := 0;
|
|
while ((assigned(prev) and
|
|
assigned(prev.optinfo) and
|
|
(prevInstrCount < alignSearch)) or
|
|
(assigned(next) and
|
|
assigned(next.optinfo) and
|
|
(nextInstrCount < alignSearch))) and
|
|
(regsUsable <> []) do
|
|
begin
|
|
{$ifdef alignregdebug}
|
|
if assigned(prev) then
|
|
begin
|
|
temp := tai_comment.Create(strpnew('got here'));
|
|
temp.next := prev.next;
|
|
temp.previous := prev;
|
|
prev.next := temp;
|
|
if assigned(temp.next) then
|
|
temp.next.previous := temp;
|
|
end;
|
|
{$endif alignregdebug}
|
|
if assigned(prev) and assigned(prev.optinfo) and
|
|
(prevInstrCount < alignSearch) then
|
|
begin
|
|
if (prev.typ = ait_instruction) and
|
|
(insProp[taicpu(prev).opcode].ch[1] <> Ch_ALL) and
|
|
(taicpu(prev).opcode <> A_JMP) then
|
|
begin
|
|
inc(prevInstrCount);
|
|
for regCounter := RS_EAX to RS_EDI do
|
|
begin
|
|
if (regCounter in regsUsable) and
|
|
(ptaiprop(prev.optinfo)^.Regs[regCounter].wState <>
|
|
prevState[regCounter]) then
|
|
begin
|
|
lastRemoved := regCounter;
|
|
exclude(regsUsable,regCounter);
|
|
{$ifdef alignregdebug}
|
|
temp := tai_comment.Create(strpnew(
|
|
std_regname(newreg(R_INTREGISTER,regCounter,R_SUBWHOLE))+' removed')));
|
|
temp.next := prev.next;
|
|
temp.previous := prev;
|
|
prev.next := temp;
|
|
if assigned(temp.next) then
|
|
temp.next.previous := temp;
|
|
if regsUsable = [] then
|
|
begin
|
|
temp := tai_comment.Create(strpnew(
|
|
'regsUsable empty here')));
|
|
temp.next := prev.next;
|
|
temp.previous := prev;
|
|
prev.next := temp;
|
|
if assigned(temp.next) then
|
|
temp.next.previous := temp;
|
|
end;
|
|
{$endif alignregdebug}
|
|
end;
|
|
prevState[regCounter] :=
|
|
ptaiprop(prev.optinfo)^.Regs[regCounter].wState;
|
|
end;
|
|
getLastInstruction(prev,prev);
|
|
end
|
|
else
|
|
if GetLastInstruction(prev,prev) and
|
|
assigned(prev.optinfo) then
|
|
for regCounter := RS_EAX to RS_EDI do
|
|
prevState[regCounter] :=
|
|
ptaiprop(prev.optinfo)^.Regs[regCounter].wState
|
|
end;
|
|
if assigned(next) and assigned(next.optinfo) and
|
|
(nextInstrCount < alignSearch) then
|
|
begin
|
|
if (next.typ = ait_instruction) and
|
|
(insProp[taicpu(next).opcode].ch[1] <> Ch_ALL) and
|
|
(taicpu(next).opcode <> A_JMP) then
|
|
begin
|
|
inc(nextInstrCount);
|
|
for regCounter := RS_EAX to RS_EDI do
|
|
begin
|
|
if (regCounter in regsUsable) and
|
|
((ptaiprop(next.optinfo)^.Regs[regCounter].wState <>
|
|
nextWState[regCounter]) or
|
|
(ptaiprop(next.optinfo)^.Regs[regCounter].rState <>
|
|
nextRState[regCounter])) then
|
|
begin
|
|
lastRemoved := regCounter;
|
|
exclude(regsUsable,regCounter);
|
|
{$ifdef alignregdebug}
|
|
temp := tai_comment.Create(strpnew(
|
|
std_regname(newreg(R_INTREGISTER,regCounter,R_SUBWHOLE))+' removed')));
|
|
temp.next := next.next;
|
|
temp.previous := next;
|
|
next.next := temp;
|
|
if assigned(temp.next) then
|
|
temp.next.previous := temp;
|
|
if regsUsable = [] then
|
|
begin
|
|
temp := tai_comment.Create(strpnew(
|
|
'regsUsable empty here')));
|
|
temp.next := next.next;
|
|
temp.previous := next;
|
|
next.next := temp;
|
|
if assigned(temp.next) then
|
|
temp.next.previous := temp;
|
|
end;
|
|
{$endif alignregdebug}
|
|
end;
|
|
nextWState[regCounter] :=
|
|
ptaiprop(next.optinfo)^.Regs[regCounter].wState;
|
|
nextRState[regCounter] :=
|
|
ptaiprop(next.optinfo)^.Regs[regCounter].rState;
|
|
end
|
|
end
|
|
else
|
|
for regCounter := RS_EAX to RS_EDI do
|
|
begin
|
|
nextWState[regCounter] :=
|
|
ptaiprop(next.optinfo)^.Regs[regCounter].wState;
|
|
nextRState[regCounter] :=
|
|
ptaiprop(next.optinfo)^.Regs[regCounter].rState;
|
|
end;
|
|
getNextInstruction(next,next);
|
|
end;
|
|
end;
|
|
if regsUsable <> [] then
|
|
for regCounter := RS_EAX to RS_EDI do
|
|
if regCounter in regsUsable then
|
|
begin
|
|
lastRemoved := regCounter;
|
|
break
|
|
end;
|
|
{$ifdef alignregdebug}
|
|
next := tai_comment.Create(strpnew(std_regname(newreg(R_INTREGISTER,lastremoved,R_SUBWHOLE))+
|
|
' chosen as alignment register')));
|
|
next.next := p.next;
|
|
next.previous := p;
|
|
p.next := next;
|
|
if assigned(next.next) then
|
|
next.next.previous := next;
|
|
{$endif alignregdebug}
|
|
tai_align(p).reg := newreg(R_INTREGISTER,lastRemoved,R_SUBWHOLE);
|
|
end;
|
|
|
|
|
|
procedure clearmemwrites(p: tai; supreg: tsuperregister);
|
|
var
|
|
beginmemwrite: tai;
|
|
begin
|
|
beginmemwrite := ptaiprop(p.optinfo)^.regs[supreg].memwrite;
|
|
repeat
|
|
ptaiprop(p.optinfo)^.regs[supreg].memwrite := nil;
|
|
until not getnextinstruction(p,p) or
|
|
(ptaiprop(p.optinfo)^.regs[supreg].memwrite <> beginmemwrite);
|
|
end;
|
|
|
|
|
|
procedure ClearRegContentsFrom(asml: TAsmList; supreg: tsuperregister; p, endP: tai);
|
|
{ first clears the contents of reg from p till endP. then the contents are }
|
|
{ cleared until the first instruction that changes reg }
|
|
var
|
|
{$ifdef replaceregdebug}
|
|
hp: tai;
|
|
l: longint;
|
|
{$endif replaceregdebug}
|
|
regcounter: tsuperregister;
|
|
oldStartmod: tai;
|
|
begin
|
|
{$ifdef replaceregdebug}
|
|
l := random(1000);
|
|
hp := tai_comment.Create(strpnew(
|
|
'cleared '+std_regname(newreg(R_INTREGISTER,supreg,R_SUBWHOLE))+' from here... '+tostr(l)));
|
|
insertllitem(asml,p.previous,p,hp);
|
|
{$endif replaceregdebug}
|
|
ptaiprop(p.optinfo)^.Regs[supreg].typ := con_unknown;
|
|
while (p <> endP) do
|
|
begin
|
|
for regcounter := RS_EAX to RS_EDI do
|
|
if (regcounter <> supreg) and
|
|
assigned(ptaiprop(p.optinfo)^.regs[supreg].memwrite) and
|
|
reginref(regcounter,ptaiprop(p.optinfo)^.regs[supreg].memwrite.oper[1]^.ref^) then
|
|
clearmemwrites(p,regcounter);
|
|
with ptaiprop(p.optinfo)^.Regs[supreg] do
|
|
begin
|
|
typ := con_unknown;
|
|
memwrite := nil;
|
|
end;
|
|
getNextInstruction(p,p);
|
|
end;
|
|
oldStartmod := ptaiprop(p.optinfo)^.Regs[supreg].startmod;
|
|
repeat
|
|
with ptaiprop(p.optinfo)^.Regs[supreg] do
|
|
begin
|
|
typ := con_unknown;
|
|
memwrite := nil;
|
|
end;
|
|
until not getNextInstruction(p,p) or
|
|
(ptaiprop(p.optinfo)^.Regs[supreg].startmod <> oldStartmod);
|
|
{$ifdef replaceregdebug}
|
|
if assigned(p) then
|
|
begin
|
|
hp := tai_comment.Create(strpnew(
|
|
'cleared '+std_regname(newreg(R_INTREGISTER,supreg,R_SUBWHOLE))+' till here... '+tostr(l)));
|
|
insertllitem(asml,p.previous,p,hp);
|
|
end;
|
|
{$endif replaceregdebug}
|
|
end;
|
|
|
|
procedure RestoreRegContentsTo(asml: TAsmList; supreg: tsuperregister; const c: TContent; p, endP: tai);
|
|
var
|
|
{$ifdef replaceregdebug}
|
|
l: longint;
|
|
{$endif replaceregdebug}
|
|
hp: tai;
|
|
dummyregs: tregset;
|
|
tmpState, newrstate: byte;
|
|
prevcontenttyp: byte;
|
|
memconflict: boolean;
|
|
invalsmemwrite: boolean;
|
|
begin
|
|
{$ifdef replaceregdebug}
|
|
l := random(1000);
|
|
hp := tai_comment.Create(strpnew(
|
|
'restored '+std_regname(newreg(R_INTREGISTER,supreg,R_SUBWHOLE))+' with data from here... '+tostr(l)));
|
|
insertllitem(asml,p.previous,p,hp);
|
|
{$endif replaceregdebug}
|
|
{ ptaiprop(p.optinfo)^.Regs[reg] := c;}
|
|
newrstate := c.rstate;
|
|
incstate(newrstate,$7f);
|
|
while (p <> endP) do
|
|
begin
|
|
if not(ptaiprop(p.optinfo)^.canberemoved) and
|
|
regreadbyinstruction(supreg,p) then
|
|
incstate(newrstate,1);
|
|
ptaiprop(p.optinfo)^.Regs[supreg] := c;
|
|
ptaiprop(p.optinfo)^.Regs[supreg].rstate := newrstate;
|
|
getNextInstruction(p,p);
|
|
end;
|
|
tmpState := ptaiprop(p.optinfo)^.Regs[supreg].wState;
|
|
if (newrstate = ptaiprop(p.optinfo)^.Regs[supreg].rState) then
|
|
begin
|
|
incstate(ptaiprop(p.optinfo)^.regs[supreg].rstate,63);
|
|
if not getnextinstruction(p,hp) then
|
|
exit;
|
|
if (ptaiprop(hp.optinfo)^.regs[supreg].rstate = ptaiprop(p.optinfo)^.regs[supreg].rstate) then
|
|
internalerror(2004122710);
|
|
end;
|
|
dummyregs := [supreg];
|
|
repeat
|
|
newrstate := ptaiprop(p.optinfo)^.Regs[supreg].rState;
|
|
prevcontenttyp := ptaiprop(p.optinfo)^.Regs[supreg].typ;
|
|
// is this a write to memory that destroys the contents we are restoring?
|
|
memconflict := modifiesConflictingMemLocation(p,supreg,ptaiprop(p.optinfo)^.regs,dummyregs,true,invalsmemwrite);
|
|
if not memconflict and not invalsmemwrite then
|
|
begin
|
|
ptaiprop(p.optinfo)^.Regs[supreg] := c;
|
|
ptaiprop(p.optinfo)^.Regs[supreg].rstate := newrstate;
|
|
end;
|
|
until invalsmemwrite or
|
|
memconflict or
|
|
not getNextInstruction(p,p) or
|
|
(ptaiprop(p.optinfo)^.Regs[supreg].wState <> tmpState) or
|
|
(p.typ = ait_label) or
|
|
((prevcontenttyp <> con_invalid) and
|
|
(ptaiprop(p.optinfo)^.Regs[supreg].typ = con_invalid));
|
|
if assigned(p) and
|
|
(p.typ <> ait_marker) then
|
|
if ((p.typ = ait_label) or
|
|
memconflict or
|
|
invalsmemwrite) then
|
|
clearRegContentsFrom(asml,supreg,p,p)
|
|
else if (ptaiprop(p.optinfo)^.Regs[supreg].rstate = newrstate) then
|
|
incstate(ptaiprop(p.optinfo)^.Regs[supreg].rstate,20);
|
|
{$ifdef replaceregdebug}
|
|
if assigned(p) then
|
|
begin
|
|
hp := tai_comment.Create(strpnew(
|
|
'restored '+std_regname(newreg(R_INTREGISTER,supreg,R_SUBWHOLE))+' till here... '+tostr(l)));
|
|
insertllitem(asml,p,p.next,hp);
|
|
end;
|
|
{$endif replaceregdebug}
|
|
end;
|
|
|
|
function NoHardCodedRegs(p: taicpu; orgReg, newReg: tsuperregister): boolean;
|
|
var
|
|
chCount: byte;
|
|
begin
|
|
case p.opcode of
|
|
A_IMUL: noHardCodedRegs := p.ops <> 1;
|
|
A_SHL,A_SHR,A_SHLD,A_SHRD: noHardCodedRegs :=
|
|
(p.oper[0]^.typ <> top_reg) or
|
|
((orgReg <> RS_ECX) and (newReg <> RS_ECX));
|
|
else
|
|
begin
|
|
NoHardCodedRegs := true;
|
|
with InsProp[p.opcode] do
|
|
for chCount := 1 to maxinschanges do
|
|
if Ch[chCount] in ([Ch_REAX..Ch_MEDI,Ch_WMemEDI,Ch_All]-[Ch_RESP,Ch_WESP,Ch_RWESP]) then
|
|
begin
|
|
NoHardCodedRegs := false;
|
|
break
|
|
end;
|
|
end;
|
|
end;
|
|
end;
|
|
|
|
|
|
function ChangeReg(var Reg: TRegister; newReg, orgReg: tsuperregister): boolean;
|
|
begin
|
|
changereg := false;
|
|
if (reg <> NR_NO) and
|
|
(getregtype(reg) = R_INTREGISTER) and
|
|
(getsupreg(reg) = newreg) then
|
|
begin
|
|
changereg := true;
|
|
setsupreg(reg,orgreg);
|
|
end;
|
|
end;
|
|
|
|
|
|
function changeOp(var o: toper; newReg, orgReg: tsuperregister): boolean;
|
|
var
|
|
tmpresult: boolean;
|
|
begin
|
|
changeOp := false;
|
|
case o.typ of
|
|
top_reg: changeOp := changeReg(o.reg,newReg,orgReg);
|
|
top_ref:
|
|
begin
|
|
tmpresult := changeReg(o.ref^.base,newReg,orgReg);
|
|
changeop := changeReg(o.ref^.index,newReg,orgReg) or tmpresult;
|
|
end;
|
|
end;
|
|
end;
|
|
|
|
|
|
procedure updateStates(orgReg,newReg: tsuperregister; hp: tai; writeStateToo: boolean);
|
|
var
|
|
prev: tai;
|
|
newOrgRegRState, newOrgRegWState: byte;
|
|
begin
|
|
if getLastInstruction(hp,prev) then
|
|
with ptaiprop(prev.optinfo)^ do
|
|
begin
|
|
newOrgRegRState := byte(longint(regs[orgReg].rState) +
|
|
longint(ptaiprop(hp.optinfo)^.regs[newReg].rState) - regs[newReg].rstate);
|
|
if writeStateToo then
|
|
newOrgRegWState := byte(longint(regs[orgReg].wState) +
|
|
longint(ptaiprop(hp.optinfo)^.regs[newReg].wState) - regs[newReg].wstate);
|
|
end
|
|
else
|
|
with ptaiprop(hp.optinfo)^.regs[newReg] do
|
|
begin
|
|
newOrgRegRState := rState;
|
|
if writeStateToo then
|
|
newOrgRegWState := wState;
|
|
end;
|
|
with ptaiprop(hp.optinfo)^.regs[orgReg] do
|
|
begin
|
|
rState := newOrgRegRState;
|
|
if writeStateToo then
|
|
wState := newOrgRegwState;
|
|
end;
|
|
end;
|
|
|
|
|
|
function doReplaceReg(hp: taicpu; newReg, orgReg: tsuperregister): boolean;
|
|
var
|
|
opCount: longint;
|
|
tmpResult: boolean;
|
|
begin
|
|
tmpresult := false;
|
|
for opCount := 0 to hp.ops-1 do
|
|
tmpResult :=
|
|
changeOp(hp.oper[opCount]^,newReg,orgReg) or tmpResult;
|
|
doReplaceReg := tmpResult;
|
|
end;
|
|
|
|
|
|
function RegSizesOK(oldReg,newReg: tsuperregister; p: taicpu): boolean;
|
|
{ oldreg and newreg must be 32bit components }
|
|
var
|
|
opCount: longint;
|
|
tmpreg: tsuperregister;
|
|
begin
|
|
RegSizesOK := true;
|
|
{ if only one of them is a general purpose register ... }
|
|
if (IsGP32reg(oldReg) xor IsGP32Reg(newReg)) then
|
|
begin
|
|
for opCount := 0 to p.ops-1 do
|
|
if (p.oper[opCount]^.typ = top_reg) and
|
|
(getsubreg(p.oper[opCount]^.reg) in [R_SUBL,R_SUBH]) then
|
|
begin
|
|
tmpreg := getsupreg(p.oper[opCount]^.reg);
|
|
if (tmpreg = oldreg) or
|
|
(tmpreg = newreg) then
|
|
begin
|
|
RegSizesOK := false;
|
|
break
|
|
end
|
|
end;
|
|
end;
|
|
end;
|
|
|
|
|
|
function doReplaceReadReg(p: taicpu; newReg,orgReg: tsuperregister): boolean;
|
|
var
|
|
opCount: longint;
|
|
begin
|
|
doReplaceReadReg := false;
|
|
{ handle special case }
|
|
case p.opcode of
|
|
A_IMUL:
|
|
begin
|
|
case p.ops of
|
|
1: internalerror(1301001);
|
|
2,3:
|
|
begin
|
|
if changeOp(p.oper[0]^,newReg,orgReg) then
|
|
begin
|
|
{ updateStates(orgReg,newReg,p,false);}
|
|
doReplaceReadReg := true;
|
|
end;
|
|
if p.ops = 3 then
|
|
if changeOp(p.oper[1]^,newReg,orgReg) then
|
|
begin
|
|
{ updateStates(orgReg,newReg,p,false);}
|
|
doReplaceReadReg := true;
|
|
end;
|
|
end;
|
|
end;
|
|
end;
|
|
A_DIV,A_IDIV,A_MUL: internalerror(1301002);
|
|
else
|
|
begin
|
|
for opCount := 0 to p.ops-1 do
|
|
if p.oper[opCount]^.typ = top_ref then
|
|
if changeOp(p.oper[opCount]^,newReg,orgReg) then
|
|
begin
|
|
{ updateStates(orgReg,newReg,p,false);}
|
|
doReplaceReadReg := true;
|
|
end;
|
|
for opCount := 1 to maxinschanges do
|
|
case InsProp[p.opcode].Ch[opCount] of
|
|
Ch_ROp1:
|
|
if p.oper[0]^.typ = top_reg then
|
|
if changeReg(p.oper[0]^.reg,newReg,orgReg) then
|
|
begin
|
|
{ updateStates(orgReg,newReg,p,false);}
|
|
doReplaceReadReg := true;
|
|
end;
|
|
Ch_ROp2:
|
|
if p.oper[1]^.typ = top_reg then
|
|
if changeReg(p.oper[1]^.reg,newReg,orgReg) then
|
|
begin
|
|
{ updateStates(orgReg,newReg,p,false);}
|
|
doReplaceReadReg := true;
|
|
end;
|
|
Ch_ROp3:
|
|
if p.oper[2]^.typ = top_reg then
|
|
if changeReg(p.oper[2]^.reg,newReg,orgReg) then
|
|
begin
|
|
{ updateStates(orgReg,newReg,p,false);}
|
|
doReplaceReadReg := true;
|
|
end;
|
|
end;
|
|
end;
|
|
end;
|
|
end;
|
|
|
|
|
|
procedure updateState(supreg: tsuperregister; p: tai);
|
|
{ this procedure updates the read and write states of the instructions }
|
|
{ coming after p. It's called when the read/write state of p has been }
|
|
{ changed and this change has to be propagated to the following }
|
|
{ instructions as well }
|
|
var
|
|
newRState, newWState: byte;
|
|
prevRState, prevWState: byte;
|
|
doRState, doWState: boolean;
|
|
begin
|
|
{ get the new read/write states from p }
|
|
with ptaiprop(p.optinfo)^.regs[supreg] do
|
|
begin
|
|
newRState := rState;
|
|
newWState := wState;
|
|
end;
|
|
if not GetNextInstruction(p,p) then
|
|
exit;
|
|
{ get the old read/write states from the next instruction, to know }
|
|
{ when we can stop updating }
|
|
with ptaiprop(p.optinfo)^.regs[supreg] do
|
|
begin
|
|
prevRState := rState;
|
|
prevWState := wState;
|
|
end;
|
|
{ adjust the states if this next instruction reads/writes the register }
|
|
if regReadByInstruction(supreg,p) then
|
|
incState(newRState,1);
|
|
if regModifiedByInstruction(supreg,p) then
|
|
incState(newWState,1);
|
|
{ do we still have to update the read and/or write states? }
|
|
doRState := true;
|
|
doWState := true;
|
|
repeat
|
|
{ update the states }
|
|
with ptaiprop(p.optinfo)^.regs[supreg] do
|
|
begin
|
|
if doRState then
|
|
rState := newRState;
|
|
if doWState then
|
|
wState := newWState;
|
|
end;
|
|
if not getNextInstruction(p,p) then
|
|
break;
|
|
with ptaiprop(p.optinfo)^.regs[supreg] do
|
|
begin
|
|
{ stop updating the read state if it changes }
|
|
doRState :=
|
|
doRState and (rState = prevRState);
|
|
{ if, by accident, this changed state is the same as the one }
|
|
{ we've been using, change it to a value that's definitely }
|
|
{ different from the previous and next state }
|
|
if not doRState and
|
|
(rState = newRState) then
|
|
begin
|
|
incState(newRState,1);
|
|
prevRState := rState;
|
|
doRState := true;
|
|
end;
|
|
{ ditto for the write state }
|
|
doWState :=
|
|
doWState and (WState = prevWState);
|
|
if not doWState and
|
|
(wState = newWState) then
|
|
begin
|
|
incState(newWState,1);
|
|
prevWState := wState;
|
|
doWState := true;
|
|
end;
|
|
end;
|
|
{ stop when we don't have to update either state anymore }
|
|
until not(doRState or doWState);
|
|
end;
|
|
|
|
|
|
function storeBack(start, current: tai; orgReg, newReg: tsuperregister): boolean;
|
|
{ returns true if p1 contains an instruction that stores the contents }
|
|
{ of newReg back to orgReg }
|
|
begin
|
|
storeback := false;
|
|
if (current.typ = ait_instruction) and
|
|
(taicpu(current).opcode = A_MOV) and
|
|
(taicpu(current).oper[0]^.typ = top_reg) and
|
|
(getsupreg(taicpu(current).oper[0]^.reg) = newReg) and
|
|
(taicpu(current).oper[1]^.typ = top_reg) and
|
|
(getsupreg(taicpu(current).oper[1]^.reg) = orgReg) then
|
|
case taicpu(current).opsize of
|
|
S_B:
|
|
storeback := true;
|
|
S_W:
|
|
storeback := taicpu(start).opsize <> S_B;
|
|
S_L:
|
|
storeback := taicpu(start).opsize = S_L;
|
|
else
|
|
internalerror(2003121501);
|
|
end;
|
|
end;
|
|
|
|
|
|
function canreplacereg(orgsupreg, newsupreg: tsuperregister; p: tai;
|
|
orgRegCanBeModified: boolean; var resnewregmodified, resorgregread, resremovelast: boolean; var returnendp: tai): boolean;
|
|
var
|
|
endP, hp: tai;
|
|
removeLast, sequenceEnd, tmpResult, newRegModified, orgRegRead: boolean;
|
|
begin
|
|
canreplacereg := false;
|
|
tmpResult := true;
|
|
sequenceEnd := false;
|
|
newRegModified := false;
|
|
orgRegRead := false;
|
|
removeLast := false;
|
|
endP := p;
|
|
while tmpResult and not sequenceEnd do
|
|
begin
|
|
tmpResult :=
|
|
getNextInstruction(endP,endP) and
|
|
(endp.typ = ait_instruction) and
|
|
not(taicpu(endp).is_jmp);
|
|
if tmpresult and not assigned(endp.optinfo) then
|
|
begin
|
|
{ hp := tai_comment.Create(strpnew('next no optinfo'));
|
|
hp.next := endp;
|
|
hp.previous := endp.previous;
|
|
endp.previous := hp;
|
|
if assigned(hp.previous) then
|
|
hp.previous.next := hp;}
|
|
exit;
|
|
end;
|
|
if tmpResult and
|
|
{ don't take into account instructions that will be removed }
|
|
not (ptaiprop(endp.optinfo)^.canBeRemoved) then
|
|
begin
|
|
{ if the newsupreg gets stored back to the oldReg, we can change }
|
|
{ "mov %oldReg,%newReg; <operations on %newReg>; mov %newReg, }
|
|
{ %oldReg" to "<operations on %oldReg>" }
|
|
removeLast := storeBack(p,endP, orgsupreg, newsupreg);
|
|
sequenceEnd :=
|
|
{ no support for (i)div, mul and imul with hardcoded operands }
|
|
noHardCodedRegs(taicpu(endP),orgsupreg,newsupreg) and
|
|
{ if newsupreg gets loaded with a new value, we can stop }
|
|
{ replacing newsupreg with oldReg here (possibly keeping }
|
|
{ the original contents of oldReg so we still know them }
|
|
{ afterwards) }
|
|
(RegLoadedWithNewValue(newsupreg,true,taicpu(endP)) or
|
|
{ we can also stop if we reached the end of the use of }
|
|
{ newReg's current contents }
|
|
(GetNextInstruction(endp,hp) and
|
|
FindRegDealloc(newsupreg,hp)));
|
|
{ to be able to remove the first and last instruction of }
|
|
{ movl %reg1, %reg2 }
|
|
{ <operations on %reg2> (replacing reg2 with reg1 here) }
|
|
{ movl %reg2, %reg1 }
|
|
{ %reg2 must not be use afterwards (it can be as the }
|
|
{ result of a peepholeoptimization) }
|
|
removeLast := removeLast and sequenceEnd;
|
|
newRegModified :=
|
|
newRegModified or
|
|
(not(regLoadedWithNewValue(newsupreg,true,taicpu(endP))) and
|
|
RegModifiedByInstruction(newsupreg,endP));
|
|
orgRegRead := newRegModified and RegReadByInstruction(orgsupreg,endP);
|
|
sequenceEnd := SequenceEnd and
|
|
(removeLast or
|
|
{ since newsupreg will be replaced by orgsupreg, we can't allow that newsupreg }
|
|
{ gets modified if orgsupreg is still read afterwards (since after }
|
|
{ replacing, this would mean that orgsupreg first gets modified and then }
|
|
{ gets read in the assumption it still contains the unmodified value) }
|
|
not(newRegModified and orgRegRead)) (* and
|
|
{ since newsupreg will be replaced by orgsupreg, we can't allow that newsupreg }
|
|
{ gets modified if orgRegCanBeModified = false }
|
|
|
|
{ this now gets checked after the loop (JM) }
|
|
(orgRegCanBeModified or not(newRegModified)) *);
|
|
tmpResult :=
|
|
not(removeLast) and
|
|
not(newRegModified and orgRegRead) and
|
|
(* (orgRegCanBeModified or not(newRegModified)) and *)
|
|
(* already checked at the top
|
|
(endp.typ = ait_instruction) and *)
|
|
NoHardCodedRegs(taicpu(endP),orgsupreg,newsupreg) and
|
|
RegSizesOk(orgsupreg,newsupreg,taicpu(endP)) and
|
|
not RegModifiedByInstruction(orgsupreg,endP);
|
|
end;
|
|
end;
|
|
canreplacereg := sequenceEnd and
|
|
(removeLast or
|
|
(orgRegCanBeModified or not(newRegModified))) and
|
|
(not(assigned(endp)) or
|
|
not(endp.typ = ait_instruction) or
|
|
(noHardCodedRegs(taicpu(endP),orgsupreg,newsupreg) and
|
|
RegSizesOk(orgsupreg,newsupreg,taicpu(endP)) and
|
|
not(newRegModified and
|
|
(orgsupreg in ptaiprop(endp.optinfo)^.usedRegs) and
|
|
not(RegLoadedWithNewValue(orgsupreg,true,taicpu(endP))))));
|
|
if canreplacereg then
|
|
begin
|
|
resnewregmodified := newregmodified;
|
|
resorgregread := orgregread;
|
|
resremovelast := removelast;
|
|
end;
|
|
{ needed for replaceregdebug code }
|
|
returnendp := endp;
|
|
end;
|
|
|
|
|
|
|
|
function ReplaceReg(asml: TAsmList; orgsupreg, newsupreg: tsuperregister; p,
|
|
seqstart: tai; const c: TContent; orgRegCanBeModified: Boolean;
|
|
var returnEndP: tai): Boolean;
|
|
{ Tries to replace orgsupreg with newsupreg in all instructions coming after p }
|
|
{ until orgsupreg gets loaded with a new value. Returns true if successful, }
|
|
{ false otherwise. if successful, the contents of newsupreg are set to c, }
|
|
{ which should hold the contents of newsupreg before the current sequence }
|
|
{ started }
|
|
{ if the function returns true, returnEndP holds the last instruction }
|
|
{ where newsupreg was replaced by orgsupreg }
|
|
var
|
|
endP, hp: tai;
|
|
removeLast, sequenceEnd, newRegModified, orgRegRead,
|
|
stateChanged, readStateChanged: Boolean;
|
|
{$ifdef replaceregdebug}
|
|
l: longint;
|
|
{$endif replaceregdebug}
|
|
|
|
begin
|
|
replacereg := false;
|
|
if canreplacereg(orgsupreg,newsupreg,p,orgregcanbemodified,newregmodified, orgregread, removelast,endp) then
|
|
begin
|
|
{$ifdef replaceregdebug}
|
|
l := random(1000);
|
|
hp := tai_comment.Create(strpnew(
|
|
'replacing '+std_regname(newreg(R_INTREGISTER,newsupreg,R_SUBWHOLE))+' with '+std_regname(newreg(R_INTREGISTER,orgsupreg,R_SUBWHOLE))+
|
|
' from here... '+tostr(l)));
|
|
insertllitem(asml,p.previous,p,hp);
|
|
hp := tai_comment.Create(strpnew(
|
|
'replaced '+std_regname(newreg(R_INTREGISTER,newsupreg,R_SUBWHOLE))+' with '+std_regname(newreg(R_INTREGISTER,orgsupreg,R_SUBWHOLE))+
|
|
' till here ' + tostr(l)));
|
|
insertllitem(asml,endp,endp.next,hp);
|
|
{$endif replaceregdebug}
|
|
replaceReg := true;
|
|
returnEndP := endP;
|
|
|
|
if not getNextInstruction(p,hp) then
|
|
exit;
|
|
stateChanged := false;
|
|
while hp <> endP do
|
|
begin
|
|
if {not(ptaiprop(hp.optinfo)^.canBeRemoved) and }
|
|
(hp.typ = ait_instruction) then
|
|
stateChanged :=
|
|
doReplaceReg(taicpu(hp),newsupreg,orgsupreg) or stateChanged;
|
|
if stateChanged then
|
|
updateStates(orgsupreg,newsupreg,hp,true);
|
|
getNextInstruction(hp,hp)
|
|
end;
|
|
if assigned(endp) and (endp.typ = ait_instruction) then
|
|
readStateChanged :=
|
|
doReplaceReadReg(taicpu(endP),newsupreg,orgsupreg);
|
|
if stateChanged or readStateChanged then
|
|
updateStates(orgsupreg,newsupreg,endP,stateChanged);
|
|
|
|
if stateChanged or readStateChanged then
|
|
updateState(orgsupreg,endP);
|
|
|
|
{ We replaced newreg with oldreg between p and endp, so restore the contents }
|
|
{ of newreg there with its contents from before the sequence. }
|
|
if removeLast or
|
|
RegLoadedWithNewValue(newsupreg,true,endP) then
|
|
GetLastInstruction(endP,hp)
|
|
else hp := endP;
|
|
RestoreRegContentsTo(asml,newsupreg,c,seqstart,hp);
|
|
|
|
{ Ot is possible that the new register was modified (e.g. an add/sub), so if }
|
|
{ it was replaced by oldreg in that instruction, oldreg's contents have been }
|
|
{ changed. To take this into account, we simply set the contents of orgsupreg }
|
|
{ to "unknown" after this sequence }
|
|
if newRegModified then
|
|
ClearRegContentsFrom(asml,orgsupreg,p,hp);
|
|
if removeLast then
|
|
ptaiprop(endp.optinfo)^.canBeRemoved := true;
|
|
allocRegBetween(asml,newreg(R_INTREGISTER,orgsupreg,R_SUBWHOLE),p,endP,ptaiprop(p.optinfo)^.usedregs);
|
|
|
|
end
|
|
{$ifdef replaceregdebug}
|
|
else
|
|
begin
|
|
l := random(1000);
|
|
hp := tai_comment.Create(strpnew(
|
|
'replacing '+std_regname(newreg(R_INTREGISTER,newsupreg,R_SUBWHOLE))+' with '+std_regname(newreg(R_INTREGISTER,orgsupreg,R_SUBWHOLE))+
|
|
' from here... '+ tostr(l)));
|
|
insertllitem(asml,p.previous,p,hp);
|
|
hp := tai_comment.Create(strpnew(
|
|
'replacing '+std_regname(newreg(R_INTREGISTER,newsupreg,R_SUBWHOLE))+' with '+std_regname(newreg(R_INTREGISTER,orgsupreg,R_SUBWHOLE))+
|
|
' failed here ' + tostr(l)));
|
|
insertllitem(asml,endp,endp.next,hp);
|
|
end;
|
|
{$endif replaceregdebug}
|
|
end;
|
|
|
|
|
|
function FindRegWithConst(p: tai; size: topsize; l: aint; var Res: TRegister): Boolean;
|
|
{Finds a register which contains the constant l}
|
|
var
|
|
Counter: tsuperregister;
|
|
{$ifdef testing}
|
|
hp: tai;
|
|
{$endif testing}
|
|
begin
|
|
Result:=false;
|
|
Counter := RS_EAX;
|
|
repeat
|
|
{$ifdef testing}
|
|
if (ptaiprop(p.optinfo)^.regs[counter].typ in [con_const,con_noRemoveConst]) then
|
|
begin
|
|
hp := tai_comment.Create(strpnew(
|
|
'checking const load of '+tostr(l)+' here...'));
|
|
hp.next := ptaiprop(p.optinfo)^.Regs[Counter].StartMod;
|
|
hp.previous := ptaiprop(p.optinfo)^.Regs[Counter].StartMod^.previous;
|
|
ptaiprop(p.optinfo)^.Regs[Counter].StartMod^.previous := hp;
|
|
if assigned(hp.previous) then
|
|
hp.previous.next := hp;
|
|
end;
|
|
{$endif testing}
|
|
if (ptaiprop(p.optinfo)^.regs[counter].typ in [con_const,con_noRemoveConst]) and
|
|
(taicpu(ptaiprop(p.optinfo)^.Regs[Counter].StartMod).opsize = size) and
|
|
(taicpu(ptaiprop(p.optinfo)^.Regs[Counter].StartMod).oper[0]^.typ = top_const) and
|
|
(taicpu(ptaiprop(p.optinfo)^.Regs[Counter].StartMod).oper[0]^.val = l) then
|
|
begin
|
|
res:=taicpu(ptaiprop(p.optinfo)^.Regs[Counter].StartMod).oper[1]^.reg;
|
|
result:=true;
|
|
exit;
|
|
end;
|
|
inc(counter);
|
|
until (Counter > RS_EDI);
|
|
end;
|
|
|
|
|
|
procedure removePrevNotUsedLoad(asml: TAsmList; p: tai; supreg: tsuperregister; check: boolean);
|
|
{ if check = true, it means the procedure has to check whether it isn't }
|
|
{ possible that the contents are still used after p (used when removing }
|
|
{ instructions because of a "call"), otherwise this is not necessary }
|
|
{ (e.g. when you have a "mov 8(%ebp),%eax", you can be sure the previous }
|
|
{ value of %eax isn't used anymore later on) }
|
|
var
|
|
hp1, next, beforestartmod: tai;
|
|
begin
|
|
if getLastInstruction(p,hp1) then
|
|
with ptaiprop(hp1.optinfo)^.regs[supreg] do
|
|
if (typ in [con_ref,con_invalid,con_const]) and
|
|
(nrofMods = 1) and
|
|
(rState = ptaiprop(startmod.optinfo)^.regs[supreg].rState) and
|
|
(not(check) or
|
|
(not(regInInstruction(supreg,p)) and
|
|
(not(supreg in ptaiprop(hp1.optinfo)^.usedRegs) or
|
|
findRegDealloc(supreg,p)))) then
|
|
begin
|
|
ptaiprop(startMod.optinfo)^.canBeRemoved := true;
|
|
getnextinstruction(p,next);
|
|
{ give the register that was modified by this instruction again }
|
|
{ the contents it had before this instruction }
|
|
if getlastinstruction(startmod,beforestartmod) then
|
|
RestoreRegContentsTo(asml,supreg,ptaiprop(beforestartmod.optinfo)^.regs[supreg],
|
|
startmod,hp1)
|
|
else
|
|
ClearRegContentsFrom(asml,supreg,startmod,hp1);
|
|
end;
|
|
end;
|
|
|
|
|
|
{$ifdef notused}
|
|
function is_mov_for_div(p: taicpu): boolean;
|
|
begin
|
|
is_mov_for_div :=
|
|
(p.opcode = A_MOV) and
|
|
(p.oper[0]^.typ = top_const) and
|
|
(p.oper[1]^.typ = top_reg) and
|
|
(p.oper[1]^.reg = RS_EDX) and
|
|
getNextInstruction(p,p) and
|
|
(p.typ = ait_instruction) and
|
|
((p.opcode = A_DIV) or
|
|
(p.opcode = A_IDIV));
|
|
end;
|
|
{$endif notused}
|
|
|
|
|
|
function memtoreg(t: taicpu; const ref: treference; var startp: tai): tregister;
|
|
var
|
|
hp: tai;
|
|
p: ptaiprop;
|
|
regcounter: tsuperregister;
|
|
optimizable: boolean;
|
|
begin
|
|
if not getlastinstruction(t,hp) or
|
|
not issimplememloc(ref) then
|
|
begin
|
|
memtoreg := NR_NO;
|
|
exit;
|
|
end;
|
|
p := ptaiprop(hp.optinfo);
|
|
optimizable := false;
|
|
for regcounter := RS_EAX to RS_EDI do
|
|
begin
|
|
if (assigned(p^.regs[regcounter].memwrite) and
|
|
refsequal(ref,p^.regs[regcounter].memwrite.oper[1]^.ref^)) then
|
|
begin
|
|
optimizable := true;
|
|
hp := p^.regs[regcounter].memwrite;
|
|
end
|
|
else if ((p^.regs[regcounter].typ in [CON_REF,CON_NOREMOVEREF]) and
|
|
(p^.regs[regcounter].nrofmods = 1) and
|
|
((taicpu(p^.regs[regcounter].startmod).opcode = A_MOV) or
|
|
(taicpu(p^.regs[regcounter].startmod).opcode = A_MOVZX) or
|
|
(taicpu(p^.regs[regcounter].startmod).opcode = A_MOVSX)) and
|
|
(taicpu(p^.regs[regcounter].startmod).oper[0]^.typ = top_ref) and
|
|
refsequal(ref,taicpu(p^.regs[regcounter].startmod).oper[0]^.ref^)) then
|
|
begin
|
|
optimizable := true;
|
|
hp := p^.regs[regcounter].startmod;
|
|
end;
|
|
if optimizable then
|
|
if ((t.opsize <> S_B) or
|
|
not(regcounter in [RS_ESI,RS_EDI])) and
|
|
sizescompatible(taicpu(hp).opsize,t.opsize) then
|
|
begin
|
|
case t.opsize of
|
|
S_B:
|
|
begin
|
|
memtoreg := newreg(R_INTREGISTER,regcounter,R_SUBL)
|
|
end;
|
|
S_W,S_BW:
|
|
begin
|
|
memtoreg := newreg(R_INTREGISTER,regcounter,R_SUBW);
|
|
if (t.opsize = S_BW) then
|
|
begin
|
|
t.opcode := A_MOV;
|
|
t.opsize := S_W;
|
|
end;
|
|
end;
|
|
S_L,S_BL,S_WL:
|
|
begin
|
|
memtoreg := newreg(R_INTREGISTER,regcounter,R_SUBWHOLE);
|
|
if (t.opsize <> S_L) then
|
|
begin
|
|
t.opcode := A_MOV;
|
|
t.opsize := S_L;
|
|
end;
|
|
end;
|
|
end;
|
|
startp := hp;
|
|
exit;
|
|
end;
|
|
end;
|
|
memtoreg := NR_NO;
|
|
end;
|
|
|
|
|
|
procedure removeLocalStores(const t1: tai);
|
|
{var
|
|
p: tai;
|
|
regcount: tregister; }
|
|
begin
|
|
{
|
|
for regcount := LoGPReg to HiGPReg do
|
|
if assigned(pTaiProp(t1.optinfo)^.regs[regcount].memwrite) and
|
|
(taicpu(pTaiProp(t1.optinfo)^.regs[regcount].memwrite).oper[1]^.ref^.base
|
|
= current_procinfo.framepointer) then
|
|
begin
|
|
pTaiProp(pTaiProp(t1.optinfo)^.regs[regcount].memwrite.optinfo)^.canberemoved := true;
|
|
clearmemwrites(pTaiProp(t1.optinfo)^.regs[regcount].memwrite,regcount);
|
|
end;
|
|
}
|
|
end;
|
|
|
|
|
|
procedure loadcseregs(asml: TAsmList; const reginfo: toptreginfo; curseqend, prevseqstart, curseqstart, curprev: tai; cnt: longint);
|
|
var
|
|
regsloaded: tregset;
|
|
regloads, reguses: array[RS_EAX..RS_EDI] of tai;
|
|
regcounter, substreg: tsuperregister;
|
|
hp, hp2: tai;
|
|
insertpos, prevseq_next: tai;
|
|
i: longint;
|
|
opc: tasmop;
|
|
begin
|
|
regsloaded := [];
|
|
fillchar(regloads,sizeof(regloads),0);
|
|
fillchar(reguses,sizeof(reguses),0);
|
|
getnextinstruction(prevseqstart,prevseq_next);
|
|
for regcounter := RS_EAX To RS_EDI do
|
|
if (reginfo.new2oldreg[regcounter] <> RS_INVALID) Then
|
|
begin
|
|
include(regsloaded,regcounter);
|
|
if assigned(ptaiprop(prevseqstart.optinfo)^.Regs[reginfo.new2oldreg[regcounter]].StartMod) then
|
|
AllocRegBetween(asml,newreg(R_INTREGISTER,reginfo.new2oldreg[regcounter],R_SUBWHOLE),
|
|
ptaiprop(prevseqstart.optinfo)^.Regs[reginfo.new2oldreg[regcounter]].StartMod,curseqstart,
|
|
ptaiprop(ptaiprop(prevseqstart.optinfo)^.Regs[reginfo.new2oldreg[regcounter]].StartMod.optinfo)^.usedregs)
|
|
else
|
|
AllocRegBetween(asml,newreg(R_INTREGISTER,reginfo.new2oldreg[regcounter],R_SUBWHOLE),
|
|
prevseqstart,curseqstart,ptaiprop(prevseqstart.optinfo)^.usedregs);
|
|
|
|
if curprev <> prevseqstart then
|
|
begin
|
|
if assigned(reginfo.lastReload[regCounter]) then
|
|
getLastInstruction(reginfo.lastReload[regCounter],hp)
|
|
else if assigned(reginfo.lastReload[reginfo.new2oldreg[regCounter]]) then
|
|
getLastInstruction(reginfo.lastReload[reginfo.new2OldReg[regCounter]],hp)
|
|
else
|
|
hp := curprev;
|
|
clearRegContentsFrom(asml,regCounter,prevSeq_next,hp);
|
|
getnextInstruction(hp,hp);
|
|
allocRegBetween(asml,newreg(R_INTREGISTER,regCounter,R_SUBWHOLE),prevseqstart,hp,
|
|
ptaiprop(prevseqstart.optinfo)^.usedregs);
|
|
end;
|
|
if not(regcounter in reginfo.RegsLoadedforRef) and
|
|
{old reg new reg}
|
|
(reginfo.new2oldreg[regcounter] <> regcounter) then
|
|
begin
|
|
getLastInstruction(curseqend,hp);
|
|
if (curprev <> prevseqstart) or
|
|
{not(regCounter in rg.usableregsint + [RS_EDI,RS_ESI]) or}
|
|
not(regCounter in [RS_EAX,RS_EBX,RS_ECX,RS_EDX,RS_EDI,RS_ESI]) or
|
|
not ReplaceReg(asml,reginfo.new2oldreg[regcounter],
|
|
regCounter,hp,curseqstart,
|
|
ptaiprop(prevseqstart.optinfo)^.Regs[regCounter],true,hp2) then
|
|
begin
|
|
opc := A_MOV;
|
|
insertpos := prevseq_next;
|
|
if assigned(reguses[regcounter]) then
|
|
if assigned(regloads[reginfo.new2oldreg[regcounter]]) then
|
|
opc := A_XCHG
|
|
else
|
|
insertpos := tai(reguses[regcounter].next)
|
|
else
|
|
if assigned(regloads[reginfo.new2oldreg[regcounter]]) then
|
|
insertpos := regloads[reginfo.new2oldreg[regcounter]];
|
|
hp := Tai_Marker.Create(mark_NoPropInfoStart);
|
|
InsertLLItem(asml, insertpos.previous,insertpos, hp);
|
|
hp2 := taicpu.Op_Reg_Reg(opc, S_L,
|
|
{old reg new reg}
|
|
newreg(R_INTREGISTER,reginfo.new2oldreg[regcounter],R_SUBWHOLE), newreg(R_INTREGISTER,regcounter,R_SUBWHOLE));
|
|
regloads[regcounter] := hp2;
|
|
reguses[reginfo.new2oldreg[regcounter]] := hp2;
|
|
new(ptaiprop(hp2.optinfo));
|
|
ptaiprop(hp2.optinfo)^ := ptaiprop(insertpos.optinfo)^;
|
|
ptaiprop(hp2.optinfo)^.canBeRemoved := false;
|
|
InsertLLItem(asml, insertpos.previous, insertpos, hp2);
|
|
hp := Tai_Marker.Create(mark_NoPropInfoEnd);
|
|
InsertLLItem(asml, insertpos.previous, insertpos, hp);
|
|
{ adjusts states in previous instruction so that it will }
|
|
{ definitely be different from the previous or next state }
|
|
incstate(ptaiprop(hp2.optinfo)^.
|
|
regs[reginfo.new2oldreg[regcounter]].rstate,20);
|
|
incstate(ptaiprop(hp2.optinfo)^.
|
|
regs[regCounter].wstate,20);
|
|
updateState(reginfo.new2oldreg[regcounter],hp2);
|
|
updateState(regcounter,hp2);
|
|
end
|
|
else
|
|
begin
|
|
// replace the new register with the old register in the
|
|
// sequence itself as well so later comparisons get the
|
|
// correct knowledge about which registers are used
|
|
hp2 := curseqstart;
|
|
// curseqend = instruction following last instruction of this
|
|
// sequence
|
|
while hp2 <> curseqend do
|
|
begin
|
|
doreplacereg(taicpu(hp2),regcounter,reginfo.new2oldreg[regcounter]);
|
|
getnextinstruction(hp2,hp2);
|
|
end;
|
|
end;
|
|
end
|
|
else
|
|
{ imagine the following code: }
|
|
{ normal wrong optimized }
|
|
{ movl 8(%ebp), %eax movl 8(%ebp), %eax }
|
|
{ movl (%eax), %eax movl (%eax), %eax }
|
|
{ cmpl 8(%ebp), %eax cmpl 8(%ebp), %eax }
|
|
{ jne l1 jne l1 }
|
|
{ movl 8(%ebp), %eax }
|
|
{ movl (%eax), %edi movl %eax, %edi }
|
|
{ movl %edi, -4(%ebp) movl %edi, -4(%ebp) }
|
|
{ movl 8(%ebp), %eax }
|
|
{ pushl 70(%eax) pushl 70(%eax) }
|
|
{ }
|
|
{ The error is that at the moment that the last instruction is executed, }
|
|
{ %eax doesn't contain 8(%ebp) anymore. Solution: the contents of }
|
|
{ registers that are completely removed from a sequence (= registers in }
|
|
{ RegLoadedforRef), have to be changed to their contents from before the }
|
|
{ sequence. }
|
|
{ if regcounter in reginfo.RegsLoadedforRef then }
|
|
begin
|
|
hp := curseqstart;
|
|
{ cnt still holds the number of instructions }
|
|
{ of the sequence, so go to the end of it }
|
|
for i := 1 to pred(cnt) do
|
|
getNextInstruction(hp,hp);
|
|
{ curprev = instruction prior to start of sequence }
|
|
restoreRegContentsTo(asml,regCounter,
|
|
ptaiprop(curprev.optinfo)^.Regs[regcounter],
|
|
curseqstart,hp);
|
|
end;
|
|
end;
|
|
end;
|
|
|
|
|
|
procedure replaceoperandwithreg(asml: TAsmList; p: tai; opnr: byte; reg: tregister);
|
|
var
|
|
hp: tai;
|
|
begin
|
|
{ new instruction -> it's info block is not in the big one allocated at the start }
|
|
hp := Tai_Marker.Create(mark_NoPropInfoStart);
|
|
InsertLLItem(asml, p.previous,p, hp);
|
|
{ duplicate the original instruction and replace it's designated operant with the register }
|
|
hp := tai(p.getcopy);
|
|
taicpu(hp).loadreg(opnr,reg);
|
|
{ add optimizer state info }
|
|
new(ptaiprop(hp.optinfo));
|
|
ptaiprop(hp.optinfo)^ := ptaiprop(p.optinfo)^;
|
|
{ new instruction can not be removed }
|
|
ptaiprop(hp.optinfo)^.canBeRemoved := false;
|
|
{ but the old one can }
|
|
ptaiprop(p.optinfo)^.canBeRemoved := true;
|
|
{ insert end marker }
|
|
InsertLLItem(asml, p.previous, p, hp);
|
|
hp := Tai_Marker.Create(mark_NoPropInfoEnd);
|
|
InsertLLItem(asml, p.previous, p, hp);
|
|
end;
|
|
|
|
|
|
procedure doCSE(asml: TAsmList; First, Last: tai; findPrevSeqs, doSubOpts: boolean);
|
|
{marks the instructions that can be removed by RemoveInstructs. They're not
|
|
removed immediately because sometimes an instruction needs to be checked in
|
|
two different sequences}
|
|
var cnt, cnt2, {cnt3,} orgNrofMods: longint;
|
|
p, hp1, hp2, prevSeq: tai;
|
|
hp3, hp4: tai;
|
|
hp5 : tai;
|
|
reginfo: toptreginfo;
|
|
memreg: tregister;
|
|
regcounter: tsuperregister;
|
|
begin
|
|
p := First;
|
|
SkipHead(p);
|
|
while (p <> Last) do
|
|
begin
|
|
case p.typ of
|
|
ait_align:
|
|
if not(tai_align(p).use_op) then
|
|
SetAlignReg(p);
|
|
ait_instruction:
|
|
begin
|
|
case taicpu(p).opcode of
|
|
{
|
|
Does not work anymore with register calling because the registers are
|
|
released before the call
|
|
A_CALL:
|
|
for regCounter := RS_EAX to RS_EBX do
|
|
removePrevNotUsedLoad(asml,p,regCounter,true);
|
|
}
|
|
A_CLD: if GetLastInstruction(p, hp1) and
|
|
(ptaiprop(hp1.optinfo)^.DirFlag = F_NotSet) then
|
|
ptaiprop(tai(p).optinfo)^.CanBeRemoved := True;
|
|
A_LEA, A_MOV, A_MOVZX, A_MOVSX:
|
|
begin
|
|
hp2 := p;
|
|
case taicpu(p).oper[0]^.typ of
|
|
top_ref, top_reg:
|
|
if (taicpu(p).oper[1]^.typ = top_reg) then
|
|
begin
|
|
With ptaiprop(p.optinfo)^.Regs[getsupreg(taicpu(p).oper[1]^.reg)] do
|
|
begin
|
|
if (startmod = p) then
|
|
orgNrofMods := nrofMods
|
|
else
|
|
orgNrofMods := 0;
|
|
if (p = StartMod) and
|
|
GetLastInstruction (p, hp1) and
|
|
not(hp1.typ in [ait_marker,ait_label]) then
|
|
{so we don't try to check a sequence when p is the first instruction of the block}
|
|
begin
|
|
{$ifdef csdebug}
|
|
hp5 := tai_comment.Create(strpnew(
|
|
'cse checking '+std_regname(taicpu(p).oper[1]^.reg)));
|
|
insertLLItem(asml,p,p.next,hp5);
|
|
{$endif csdebug}
|
|
if CheckSequence(p,prevSeq,getsupreg(taicpu(p).oper[1]^.reg), Cnt, reginfo, findPrevSeqs) and
|
|
(Cnt > 0) then
|
|
begin
|
|
(*
|
|
hp1 := nil;
|
|
{ although it's perfectly ok to remove an instruction which doesn't contain }
|
|
{ the register that we've just checked (CheckSequence takes care of that), }
|
|
{ the sequence containing this other register should also be completely }
|
|
{ checked and removed, otherwise we may get situations like this: }
|
|
{ }
|
|
{ movl 12(%ebp), %edx movl 12(%ebp), %edx }
|
|
{ movl 16(%ebp), %eax movl 16(%ebp), %eax }
|
|
{ movl 8(%edx), %edx movl 8(%edx), %edx }
|
|
{ movl (%eax), eax movl (%eax), eax }
|
|
{ cmpl %eax, %edx cmpl %eax, %edx }
|
|
{ jnz l123 getting converted to jnz l123 }
|
|
{ movl 12(%ebp), %edx movl 4(%eax), eax }
|
|
{ movl 16(%ebp), %eax }
|
|
{ movl 8(%edx), %edx }
|
|
{ movl 4(%eax), eax }
|
|
*)
|
|
|
|
{ not anymore: if the start of a new sequence is found while checking (e.g. }
|
|
{ above that of eax while checking edx, this new sequence is automatically }
|
|
{ also checked }
|
|
Cnt2 := 1;
|
|
while Cnt2 <= Cnt do
|
|
begin
|
|
{$ifndef noremove}
|
|
ptaiprop(p.optinfo)^.CanBeRemoved := True
|
|
{$endif noremove}
|
|
; inc(Cnt2);
|
|
GetNextInstruction(p, p);
|
|
end;
|
|
{hp4 is used to get the contents of the registers before the sequence}
|
|
GetLastInstruction(hp2, hp4);
|
|
|
|
{$IfDef CSDebug}
|
|
for regcounter := RS_EAX To RS_EDI do
|
|
if (regcounter in reginfo.RegsLoadedforRef) then
|
|
begin
|
|
hp5 := tai_comment.Create(strpnew('New: '+std_regname(newreg(R_INTREGISTER,regcounter,R_SUBNONE))+', Old: '+
|
|
std_regname(newreg(R_INTREGISTER,reginfo.new2oldreg[regcounter],R_SUBNONE))));
|
|
InsertLLItem(asml, tai(hp2.previous), hp2, hp5);
|
|
end;
|
|
{$EndIf CSDebug}
|
|
{ if some registers were different in the old and the new sequence, move }
|
|
{ the contents of those old registers to the new ones }
|
|
loadcseregs(asml,reginfo,p,prevseq,hp2,hp4,cnt);
|
|
continue;
|
|
end
|
|
end;
|
|
end;
|
|
{ try to replace the new reg with the old reg }
|
|
if not(ptaiprop(p.optinfo)^.canBeRemoved) then
|
|
if (taicpu(p).oper[0]^.typ = top_reg) and
|
|
(taicpu(p).oper[1]^.typ = top_reg) and
|
|
{ only remove if we're not storing something in a regvar }
|
|
(getsupreg(taicpu(p).oper[1]^.reg) in [RS_EAX,RS_EBX,RS_ECX,RS_EDX,RS_ESI,RS_EDI]) and
|
|
{ (taicpu(p).oper[1]^.reg in (rg.usableregsint+[RS_EDI])) and}
|
|
(taicpu(p).opcode = A_MOV) and
|
|
getLastInstruction(p,hp4) and
|
|
{ we only have to start replacing from the instruction after the mov, }
|
|
{ but replacereg only starts with getnextinstruction(p,p) }
|
|
replaceReg(asml,getsupreg(taicpu(p).oper[0]^.reg),
|
|
getsupreg(taicpu(p).oper[1]^.reg),p,p,
|
|
ptaiprop(hp4.optinfo)^.regs[getsupreg(taicpu(p).oper[1]^.reg)],false,hp1) then
|
|
begin
|
|
ptaiprop(p.optinfo)^.canBeRemoved := true;
|
|
{ this is just a regular move that was here, so the source register should be }
|
|
{ allocated already at this point -> only allocate from here onwards }
|
|
if not(getsupreg(taicpu(p).oper[0]^.reg) in pTaiProp(p.optinfo)^.usedregs) then
|
|
internalerror(2004101011);
|
|
allocRegBetween(asml,taicpu(p).oper[0]^.reg,
|
|
p,hp1,pTaiProp(p.optinfo)^.usedregs)
|
|
end
|
|
else
|
|
begin
|
|
if (taicpu(p).oper[1]^.typ = top_reg) and
|
|
not regInOp(getsupreg(taicpu(p).oper[1]^.reg),taicpu(p).oper[0]^) then
|
|
removePrevNotUsedLoad(asml,p,getsupreg(taicpu(p).oper[1]^.reg),false);
|
|
if doSubOpts and
|
|
(taicpu(p).opcode <> A_LEA) and
|
|
(taicpu(p).oper[0]^.typ = top_ref) then
|
|
begin
|
|
memreg :=
|
|
memtoreg(taicpu(p),
|
|
taicpu(p).oper[0]^.ref^,hp5);
|
|
if memreg <> NR_NO then
|
|
if (taicpu(p).opcode = A_MOV) and
|
|
(taicpu(p).oper[1]^.typ = top_reg) and
|
|
(taicpu(p).oper[1]^.reg = memreg) then
|
|
begin
|
|
pTaiProp(p.optinfo)^.canberemoved := true;
|
|
allocregbetween(asml,memreg,hp5,p,ptaiprop(hp5.optinfo)^.usedregs);
|
|
end
|
|
else
|
|
begin
|
|
replaceoperandwithreg(asml,p,0,memreg);
|
|
allocregbetween(asml,memreg,hp5,p,ptaiprop(hp5.optinfo)^.usedregs);
|
|
regcounter := getsupreg(memreg);
|
|
incstate(pTaiProp(p.optinfo)^.regs[regcounter].rstate,1);
|
|
updatestate(regcounter,p);
|
|
end;
|
|
end;
|
|
end;
|
|
{ at first, only try optimizations of large blocks, because doing }
|
|
{ doing smaller ones may prevent bigger ones from completing in }
|
|
{ in the next pass }
|
|
if not doSubOpts and (orgNrofMods <> 0) then
|
|
begin
|
|
p := hp2;
|
|
for cnt := 1 to pred(orgNrofMods) do
|
|
getNextInstruction(p,p);
|
|
end;
|
|
end;
|
|
top_Const:
|
|
begin
|
|
case taicpu(p).oper[1]^.typ of
|
|
Top_Reg:
|
|
begin
|
|
regCounter := getsupreg(taicpu(p).oper[1]^.reg);
|
|
if GetLastInstruction(p, hp1) then
|
|
With ptaiprop(hp1.optinfo)^.Regs[regCounter] do
|
|
if (typ in [con_const,con_noRemoveConst]) and
|
|
(taicpu(startMod).opsize >= taicpu(p).opsize) and
|
|
opsequal(taicpu(StartMod).oper[0]^,taicpu(p).oper[0]^) then
|
|
begin
|
|
ptaiprop(p.optinfo)^.CanBeRemoved := True;
|
|
allocRegBetween(asml,taicpu(p).oper[1]^.reg,startmod,p,
|
|
ptaiprop(startmod.optinfo)^.usedregs);
|
|
end
|
|
else
|
|
removePrevNotUsedLoad(asml,p,getsupreg(taicpu(p).oper[1]^.reg),false);
|
|
|
|
end;
|
|
Top_Ref:
|
|
if (taicpu(p).oper[0]^.typ = top_const) and
|
|
getLastInstruction(p,hp1) and
|
|
findRegWithConst(hp1,taicpu(p).opsize,taicpu(p).oper[0]^.val,memreg) then
|
|
begin
|
|
taicpu(p).loadreg(0,memreg);
|
|
{ mark the used register as read }
|
|
incstate(ptaiprop(p.optinfo)^.
|
|
regs[getsupreg(memreg)].rstate,20);
|
|
updateState(getsupreg(memreg),p);
|
|
allocRegBetween(asml,memreg,
|
|
ptaiprop(hp1.optinfo)^.regs[getsupreg(memreg)].startMod,p,
|
|
ptaiprop(ptaiprop(hp1.optinfo)^.regs[getsupreg(memreg)].startMod.optinfo)^.usedregs);
|
|
end;
|
|
end;
|
|
end;
|
|
end;
|
|
|
|
end;
|
|
A_LEAVE:
|
|
begin
|
|
if getlastinstruction(p,hp1) then
|
|
removeLocalStores(hp1);
|
|
end;
|
|
A_STD: if GetLastInstruction(p, hp1) and
|
|
(ptaiprop(hp1.optinfo)^.DirFlag = F_Set) then
|
|
ptaiprop(tai(p).optinfo)^.CanBeRemoved := True;
|
|
else
|
|
begin
|
|
for cnt := 1 to maxinschanges do
|
|
begin
|
|
case InsProp[taicpu(p).opcode].Ch[cnt] of
|
|
Ch_ROp1:
|
|
if (taicpu(p).oper[0]^.typ = top_ref) and
|
|
((taicpu(p).opcode < A_F2XM1) or
|
|
((taicpu(p).opcode > A_IN) and
|
|
(taicpu(p).opcode < A_OUT)) or
|
|
(taicpu(p).opcode = A_PUSH) or
|
|
((taicpu(p).opcode >= A_RCL) and
|
|
(taicpu(p).opcode <= A_XOR))) then
|
|
begin
|
|
memreg :=
|
|
memtoreg(taicpu(p),
|
|
taicpu(p).oper[0]^.ref^,hp5);
|
|
if memreg <> NR_NO then
|
|
begin
|
|
replaceoperandwithreg(asml,p,0,memreg);
|
|
allocregbetween(asml,memreg,hp5,p,ptaiprop(hp5.optinfo)^.usedregs);
|
|
regcounter := getsupreg(memreg);
|
|
incstate(pTaiProp(p.optinfo)^.regs[regcounter].rstate,1);
|
|
updatestate(regcounter,p);
|
|
end;
|
|
end;
|
|
Ch_MOp1:
|
|
if not(cs_opt_size in aktoptimizerswitches) and
|
|
(taicpu(p).oper[0]^.typ = top_ref) then
|
|
begin
|
|
memreg :=
|
|
memtoreg(taicpu(p),
|
|
taicpu(p).oper[0]^.ref^,hp5);
|
|
if (memreg <> NR_NO) and
|
|
(not getNextInstruction(p,hp1) or
|
|
(RegLoadedWithNewValue(getsupreg(memreg),false,hp1) or
|
|
FindRegDealloc(getsupreg(memreg),hp1))) then
|
|
begin
|
|
hp1 := Tai_Marker.Create(mark_NoPropInfoEnd);
|
|
insertllitem(asml,p,p.next,hp1);
|
|
hp1 := taicpu.op_reg_ref(A_MOV,reg2opsize(memreg),
|
|
memreg,taicpu(p).oper[0]^.ref^);
|
|
new(ptaiprop(hp1.optinfo));
|
|
pTaiProp(hp1.optinfo)^ := pTaiProp(p.optinfo)^;
|
|
insertllitem(asml,p,p.next,hp1);
|
|
regcounter := getsupreg(memreg);
|
|
incstate(pTaiProp(hp1.optinfo)^.regs[regcounter].rstate,1);
|
|
updatestate(regcounter,hp1);
|
|
hp1 := Tai_Marker.Create(mark_NoPropInfoStart);
|
|
insertllitem(asml,p,p.next,hp1);
|
|
replaceoperandwithreg(asml,p,0,memreg);
|
|
allocregbetween(asml,memreg,hp5,
|
|
tai(p.next.next),ptaiprop(hp5.optinfo)^.usedregs);
|
|
ClearRegContentsFrom(asml,regcounter,hp5,p);
|
|
end;
|
|
end;
|
|
Ch_ROp2:
|
|
if ((taicpu(p).opcode = A_CMP) or
|
|
(taicpu(p).opcode = A_TEST)) and
|
|
(taicpu(p).oper[1]^.typ = top_ref) then
|
|
begin
|
|
memreg :=
|
|
memtoreg(taicpu(p),
|
|
taicpu(p).oper[1]^.ref^,hp5);
|
|
if memreg <> NR_NO then
|
|
begin
|
|
replaceoperandwithreg(asml,p,1,memreg);
|
|
allocregbetween(asml,memreg,hp5,p,ptaiprop(hp5.optinfo)^.usedregs);
|
|
regcounter := getsupreg(memreg);
|
|
incstate(pTaiProp(p.optinfo)^.regs[regcounter].rstate,1);
|
|
updatestate(regcounter,p);
|
|
end;
|
|
end;
|
|
Ch_MOp2:
|
|
if not(cs_opt_size in aktoptimizerswitches) and
|
|
(taicpu(p).oper[1]^.typ = top_ref) and
|
|
((taicpu(p).opcode < A_BT) or
|
|
((taicpu(p).opcode > A_IN) and
|
|
(taicpu(p).opcode < A_OUT)) or
|
|
(taicpu(p).opcode = A_PUSH) or
|
|
((taicpu(p).opcode >= A_RCL) and
|
|
(taicpu(p).opcode <= A_XOR))) then
|
|
begin
|
|
memreg :=
|
|
memtoreg(taicpu(p),
|
|
taicpu(p).oper[1]^.ref^,hp5);
|
|
if (memreg <> NR_NO) and
|
|
(not getNextInstruction(p,hp1) or
|
|
(RegLoadedWithNewValue(getsupreg(memreg),false,hp1) or
|
|
FindRegDealloc(getsupreg(memreg),hp1))) then
|
|
begin
|
|
hp1 := Tai_Marker.Create(mark_NoPropInfoEnd);
|
|
insertllitem(asml,p,p.next,hp1);
|
|
hp1 := taicpu.op_reg_ref(A_MOV,reg2opsize(memreg),
|
|
memreg,taicpu(p).oper[1]^.ref^);
|
|
new(ptaiprop(hp1.optinfo));
|
|
pTaiProp(hp1.optinfo)^ := pTaiProp(p.optinfo)^;
|
|
insertllitem(asml,p,p.next,hp1);
|
|
regcounter := getsupreg(memreg);
|
|
incstate(pTaiProp(hp1.optinfo)^.regs[regcounter].rstate,1);
|
|
updatestate(regcounter,hp1);
|
|
hp1 := Tai_Marker.Create(mark_NoPropInfoStart);
|
|
insertllitem(asml,p,p.next,hp1);
|
|
replaceoperandwithreg(asml,p,1,memreg);
|
|
allocregbetween(asml,memreg,hp5,
|
|
tai(p.next.next),ptaiprop(hp5.optinfo)^.usedregs);
|
|
ClearRegContentsFrom(asml,regcounter,hp5,p);
|
|
end;
|
|
end;
|
|
end;
|
|
end;
|
|
end;
|
|
end
|
|
end;
|
|
end;
|
|
GetNextInstruction(p, p);
|
|
end;
|
|
end;
|
|
|
|
function removeInstructs(asml: TAsmList; first, last: tai): boolean;
|
|
{ Removes the marked instructions and disposes the PTaiProps of the other }
|
|
{ instructions }
|
|
var
|
|
p, hp1: tai;
|
|
nopropinfolevel: longint;
|
|
begin
|
|
removeInstructs := false;
|
|
p := First;
|
|
nopropinfolevel := 0;
|
|
while (p <> Last) do
|
|
begin
|
|
if (p.typ = ait_marker) and
|
|
(Tai_marker(p).kind = mark_NoPropInfoStart) then
|
|
begin
|
|
hp1 := tai(p.next);
|
|
asml.remove(p);
|
|
p.free;
|
|
nopropinfolevel := 1;
|
|
while (nopropinfolevel <> 0) do
|
|
begin
|
|
p := tai(hp1.next);
|
|
{$ifndef noinstremove}
|
|
{ allocregbetween can insert new ait_regalloc objects }
|
|
{ without optinfo }
|
|
if (hp1.typ = ait_marker) then
|
|
begin
|
|
case Tai_marker(hp1).kind of
|
|
{ they can be nested! }
|
|
mark_NoPropInfoStart: inc(nopropinfolevel);
|
|
mark_NoPropInfoEnd: dec(nopropinfolevel);
|
|
else
|
|
begin
|
|
hp1 := p;
|
|
continue;
|
|
end;
|
|
end;
|
|
asml.remove(hp1);
|
|
hp1.free;
|
|
end
|
|
else if assigned(hp1.optinfo) then
|
|
if ptaiprop(hp1.optinfo)^.canBeRemoved then
|
|
begin
|
|
dispose(ptaiprop(hp1.optinfo));
|
|
hp1.optinfo := nil;
|
|
asml.remove(hp1);
|
|
hp1.free;
|
|
end
|
|
else
|
|
{$endif noinstremove}
|
|
begin
|
|
dispose(ptaiprop(hp1.optinfo));
|
|
hp1.optinfo := nil;
|
|
end;
|
|
hp1 := p;
|
|
end;
|
|
end
|
|
else
|
|
{$ifndef noinstremove}
|
|
if assigned(p.optinfo) and
|
|
ptaiprop(p.optinfo)^.canBeRemoved then
|
|
begin
|
|
hp1 := tai(p.next);
|
|
asml.Remove(p);
|
|
p.free;
|
|
p := hp1;
|
|
removeInstructs := true;
|
|
end
|
|
else
|
|
{$endif noinstremove}
|
|
begin
|
|
p.optinfo := nil;
|
|
p := tai(p.next);;
|
|
end;
|
|
end;
|
|
end;
|
|
|
|
function CSE(asml: TAsmList; First, Last: tai; pass: longint): boolean;
|
|
begin
|
|
doCSE(asml, First, Last, not(cs_opt_asmcse in aktoptimizerswitches) or (pass >= 2),
|
|
not(cs_opt_asmcse in aktoptimizerswitches) or (pass >= 1));
|
|
{ register renaming }
|
|
if not(cs_opt_asmcse in aktoptimizerswitches) or (pass > 0) then
|
|
doRenaming(asml, first, last);
|
|
cse := removeInstructs(asml, first, last);
|
|
end;
|
|
|
|
end.
|