{
$Id: aoptobj.pas,v 1.8 2002/11/18 17:31:54 peter Exp $
Copyright (c) 1998-2002 by Jonas Maebe, member of the Free Pascal
Development Team
This unit contains the processor independent assembler optimizer
object, base for the dataflow analyzer, peepholeoptimizer and
common subexpression elimination objects.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
****************************************************************************
}
Unit AoptObj;
{ general, processor independent objects for use by the assembler optimizer }
Interface
uses aasmbase,aasmcpu,aasmtai,
cclasses, cpuinfo, cpubase, aoptbase, aoptcpub;
{ ************************************************************************* }
{ ********************************* Constants ***************************** }
{ ************************************************************************* }
Const
{Possible register content types}
con_Unknown = 0;
con_ref = 1;
con_const = 2;
{***************** Types ****************}
Type
{ ************************************************************************* }
{ ************************* Some general type definitions ***************** }
{ ************************************************************************* }
TRefCompare = Function(const r1, r2: TReference): Boolean;
TRegArray = Array[LoReg..HiReg] of TRegister;
TRegSet = Set of LoReg..HiReg;
{ possible actions on an operand: read, write or modify (= read & write) }
TOpAction = (OpAct_Read, OpAct_Write, OpAct_Modify, OpAct_Unknown);
{ ************************************************************************* }
{ * Object to hold information on which regiters are in use and which not * }
{ ************************************************************************* }
TUsedRegs = Object
Constructor init;
Constructor InitWithValue(Const _RegSet: TRegSet);
{ update the info with the pairegalloc objects coming after }
{ p }
Procedure Update(p: Tai);
{ is Reg currently in use }
Function IsUsed(Reg: TRegister): Boolean;
{ get all the currently used registers }
Function GetUsedRegs: TRegSet;
Destructor Done;
Private
UsedRegs: TRegSet;
End;
{ ************************************************************************* }
{ ******************* Contents of the integer registers ******************* }
{ ************************************************************************* }
{ size of the integer that holds the state number of a register. Can be any }
{ integer type, so it can be changed to reduce the size of the TContent }
{ structure or to improve alignment }
TStateInt = Byte;
TContent = Packed Record
{ start and end of block instructions that defines the }
{ content of this register. If Typ = con_const, then }
{ Longint(StartMod) = value of the constant) }
StartMod: Tai;
{ starts at 0, gets increased everytime the register is }
{ written to }
WState: TStateInt;
{ starts at 0, gets increased everytime the register is read }
{ from }
RState: TStateInt;
{ how many instructions starting with StarMod does the block }
{ consist of }
NrOfMods: Byte;
{ the type of the content of the register: unknown, memory }
{ (variable) or constant }
Typ: Byte;
End;
TRegContent = Array[LoGPReg..HiGPReg] Of TContent;
{ ************************************************************************** }
{ information object with the contents of every register. Every Tai object }
{ gets one of these assigned: a pointer to it is stored in the OptInfo field }
{ ************************************************************************** }
PPaiProp = ^TPaiProp;
TPaiProp = Object(TAoptBaseCpu)
Regs: TRegContent;
{ info about allocation of general purpose integer registers }
UsedRegs: TUsedRegs;
{ info about the conditional registers }
CondRegs: TCondRegs;
{ can this instruction be removed? }
CanBeRemoved: Boolean;
Constructor init;
{ checks the whole sequence of which (so regs[which].StartMod and and }
{ the next NrOfMods Tai objects) to see whether Reg is used somewhere, }
{ without it being loaded with something else first }
Function RegInSequence(Reg, which: TRegister): Boolean;
{ destroy the contents of a register, as well as those whose contents }
{ are based on those of that register }
Procedure DestroyReg(Reg: TRegister; var InstrSinceLastMod:
TInstrSinceLastMod);
{ if the contents of WhichReg (can be R_NO in case of a constant) are }
{ written to memory at the location Ref, the contents of the registers }
{ that depend on Ref have to be destroyed }
Procedure DestroyRefs(Const Ref: TReference; WhichReg: TRegister; var
InstrSinceLastMod: TInstrSinceLastMod);
{ an instruction reads from operand o }
Procedure ReadOp(const o:toper);
{ an instruction reads from reference Ref }
Procedure ReadRef(Ref: PReference);
{ an instruction reads from register Reg }
Procedure ReadReg(Reg: TRegister);
{ an instruction writes/modifies operand o and this has special }
{ side-effects or modifies the contents in such a way that we can't }
{ simply add this instruction to the sequence of instructions that }
{ describe the contents of the operand, so destroy it }
Procedure DestroyOp(const o:Toper; var InstrSinceLastMod:
TInstrSinceLastMod);
{ destroy the contents of all registers }
Procedure DestroyAllRegs(var InstrSinceLastMod: TInstrSinceLastMod);
{ a register's contents are modified, but not destroyed (the new value }
{ depends on the old one) }
Procedure ModifyReg(reg: TRegister; var InstrSinceLastMod:
TInstrSinceLastMod);
{ an operand's contents are modified, but not destroyed (the new value }
{ depends on the old one) }
Procedure ModifyOp(const oper: TOper; var InstrSinceLastMod:
TInstrSinceLastMod);
{ increase the write state of a register (call every time a register is }
{ written to) }
Procedure IncWState(Reg: TRegister);
{ increase the read state of a register (call every time a register is }
{ read from) }
Procedure IncRState(Reg: TRegister);
{ get the write state of a register }
Function GetWState(Reg: TRegister): TStateInt;
{ get the read state of a register }
Function GetRState(Reg: TRegister): TStateInt;
{ get the type of contents of a register }
Function GetRegContentType(Reg: TRegister): Byte;
Destructor Done;
Private
Procedure IncState(var s: TStateInt);
{ returns whether the reference Ref is used somewhere in the loading }
{ sequence Content }
Function RefInSequence(Const Ref: TReference; Content: TContent;
RefsEq: TRefCompare): Boolean;
{ returns whether the instruction P reads from and/or writes }
{ to Reg }
Function RefInInstruction(Const Ref: TReference; p: Tai;
RefsEq: TRefCompare): Boolean;
{ returns whether two references with at least one pointing to an array }
{ may point to the same memory location }
End;
{ ************************************************************************* }
{ ************************ Label information ****************************** }
{ ************************************************************************* }
TLabelTableItem = Record
PaiObj: Tai;
End;
{$ifndef TP}
TLabelTable = Array[0..2500000] Of TLabelTableItem;
{$else TP}
TLabelTable = Array[0..(65520 div sizeof(TLabelTableItem))] Of TLabelTableItem;
{$endif TP}
PLabelTable = ^TLabelTable;
PLabelInfo = ^TLabelInfo;
TLabelInfo = Record
{ the highest and lowest label number occurring in the current code }
{ fragment }
LowLabel, HighLabel: AWord;
LabelDif: AWord;
{ table that contains the addresses of the Pai_Label objects associated }
{ with each label number }
LabelTable: PLabelTable;
End;
{ ************************************************************************* }
{ ********** General optimizer object, used to derive others from ********* }
{ ************************************************************************* }
TAOptObj = Object(TAoptBaseCpu)
{ the PAasmOutput list this optimizer instance works on }
AsmL: TAasmOutput;
{ The labelinfo record contains the addresses of the Tai objects }
{ that are labels, how many labels there are and the min and max }
{ label numbers }
LabelInfo: PLabelInfo;
{ Start and end of the block that is currently being optimized }
BlockStart, BlockEnd: Tai;
{ _AsmL is the PAasmOutpout list that has to be optimized, }
{ _BlockStart and _BlockEnd the start and the end of the block }
{ that has to be optimized and _LabelInfo a pointer to a }
{ TLabelInfo record }
Constructor Init(_AsmL: TAasmOutput; _BlockStart, _BlockEnd: Tai;
_LabelInfo: PLabelInfo);
{ processor independent methods }
{ returns true if the label L is found between hp and the next }
{ instruction }
Function FindLabel(L: TasmLabel; Var hp: Tai): Boolean;
{ inserts new_one between prev and foll in AsmL }
Procedure InsertLLItem(prev, foll, new_one: TLinkedListItem);
{ If P is a Tai object releveant to the optimizer, P is returned }
{ If it is not relevant tot he optimizer, the first object after P }
{ that is relevant is returned }
Function SkipHead(P: Tai): Tai;
{ returns true if the operands o1 and o2 are completely equal }
Function OpsEqual(const o1,o2:toper): Boolean;
{ Returns true if a ait_alloc object for Reg is found in the block }
{ of Tai's starting with StartPai and ending with the next "real" }
{ instruction }
Function FindRegAlloc(Reg: TRegister; StartPai: Tai): Boolean;
{ processor dependent methods }
End;
Function ArrayRefsEq(const r1, r2: TReference): Boolean;
{ ***************************** Implementation **************************** }
Implementation
uses globtype, globals, cgbase;
{ ************************************************************************* }
{ ******************************** TUsedRegs ****************************** }
{ ************************************************************************* }
Constructor TUsedRegs.init;
Begin
UsedRegs := [];
End;
Constructor TUsedRegs.InitWithValue(Const _RegSet: TRegSet);
Begin
UsedRegs := _RegSet;
End;
Procedure TUsedRegs.Update(p: Tai);
{updates UsedRegs with the RegAlloc Information coming after P}
Begin
Repeat
While Assigned(p) And
((p.typ in (SkipInstr - [ait_RegAlloc])) or
((p.typ = ait_label) And
Not(Tai_Label(p).l.is_used))) Do
p := Tai(p.next);
While Assigned(p) And
(p.typ=ait_RegAlloc) Do
Begin
if tai_regalloc(p).allocation then
UsedRegs := UsedRegs + [tai_regalloc(p).Reg]
else
UsedRegs := UsedRegs - [tai_regalloc(p).Reg];
p := Tai(p.next);
End;
Until Not(Assigned(p)) Or
(Not(p.typ in SkipInstr) And
Not((p.typ = ait_label) And
Not(Tai_Label(p).l.is_used)));
End;
Function TUsedRegs.IsUsed(Reg: TRegister): Boolean;
Begin
IsUsed := Reg in UsedRegs
End;
Function TUsedRegs.GetUsedRegs: TRegSet;
Begin
GetUsedRegs := UsedRegs;
End;
Destructor TUsedRegs.Done; {$ifdef inl} inline; {$endif inl}
Begin
end;
{ ************************************************************************* }
{ **************************** TPaiProp *********************************** }
{ ************************************************************************* }
Constructor TPaiProp.Init;
Begin
UsedRegs.Init;
CondRegs.init;
{ DirFlag: TFlagContents; I386 specific}
End;
Function TPaiProp.RegInSequence(Reg, which: TRegister): Boolean;
Var p: Tai;
RegsChecked: TRegSet;
content: TContent;
Counter: Byte;
TmpResult: Boolean;
Begin
RegsChecked := [];
content := regs[which];
p := content.StartMod;
TmpResult := False;
Counter := 1;
While Not(TmpResult) And
(Counter <= Content.NrOfMods) Do
Begin
If IsLoadMemReg(p) Then
With PInstr(p)^.oper[LoadSrc].ref^ Do
If (Base = ProcInfo.FramePointer)
{$ifdef RefsHaveIndexReg}
And (Index = R_NO)
{$endif RefsHaveIndexReg} Then
Begin
RegsChecked := RegsChecked +
[RegMaxSize(PInstr(p)^.oper[LoadDst].reg)];
If Reg = RegMaxSize(PInstr(p)^.oper[LoadDst].reg) Then
Break;
End
Else
Begin
If (Base = Reg) And
Not(Base In RegsChecked)
Then TmpResult := True;
{$ifdef RefsHaveIndexReg}
If Not(TmpResult) And
(Index = Reg) And
Not(Index In RegsChecked)
Then TmpResult := True;
{$Endif RefsHaveIndexReg}
End
Else TmpResult := RegInInstruction(Reg, p);
Inc(Counter);
GetNextInstruction(p,p)
End;
RegInSequence := TmpResult
End;
Procedure TPaiProp.DestroyReg(Reg: TRegister; var InstrSinceLastMod:
TInstrSinceLastMod);
{ Destroys the contents of the register Reg in the PPaiProp p1, as well as }
{ the contents of registers are loaded with a memory location based on Reg }
Var TmpWState, TmpRState: Byte;
Counter: TRegister;
Begin
Reg := RegMaxSize(Reg);
If (Reg in [LoGPReg..HiGPReg]) Then
For Counter := LoGPReg to HiGPReg Do
With Regs[Counter] Do
If (Counter = reg) Or
((Typ = Con_Ref) And
RegInSequence(Reg, Counter)) Then
Begin
InstrSinceLastMod[Counter] := 0;
IncWState(Counter);
TmpWState := GetWState(Counter);
TmpRState := GetRState(Counter);
FillChar(Regs[Counter], SizeOf(TContent), 0);
WState := TmpWState;
RState := TmpRState
End
End;
Function ArrayRefsEq(const r1, r2: TReference): Boolean;
Begin
ArrayRefsEq := (R1.Offset+R1.OffsetFixup = R2.Offset+R2.OffsetFixup) And
{$ifdef refsHaveSegmentReg}
(R1.Segment = R2.Segment) And
{$endif}
(R1.Base = R2.Base) And
(R1.Symbol=R2.Symbol);
End;
Procedure TPaiProp.DestroyRefs(Const Ref: TReference; WhichReg: TRegister;
var InstrSinceLastMod: TInstrSinceLastMod);
{ destroys all registers which possibly contain a reference to Ref, WhichReg }
{ is the register whose contents are being written to memory (if this proc }
{ is called because of a "mov?? %reg, (mem)" instruction) }
Var RefsEq: TRefCompare;
Counter: TRegister;
Begin
WhichReg := RegMaxSize(WhichReg);
If (Ref.base = procinfo.FramePointer) or
Assigned(Ref.Symbol) Then
Begin
If
{$ifdef refsHaveIndexReg}
(Ref.Index = R_NO) And
{$endif refsHaveIndexReg}
(Not(Assigned(Ref.Symbol)) or
(Ref.base = R_NO)) Then
{ local variable which is not an array }
RefsEq := {$ifdef fpc}@{$endif}RefsEqual
Else
{ local variable which is an array }
RefsEq := {$ifdef fpc}@{$endif}ArrayRefsEq;
{write something to a parameter, a local or global variable, so
* with uncertain optimizations on:
- destroy the contents of registers whose contents have somewhere a
"mov?? (Ref), %reg". WhichReg (this is the register whose contents
are being written to memory) is not destroyed if it's StartMod is
of that form and NrOfMods = 1 (so if it holds ref, but is not a
pointer or value based on Ref)
* with uncertain optimizations off:
- also destroy registers that contain any pointer}
For Counter := LoGPReg to HiGPReg Do
With Regs[Counter] Do
Begin
If (typ = Con_Ref) And
((Not(cs_UncertainOpts in aktglobalswitches) And
(NrOfMods <> 1)
) Or
(RefInSequence(Ref,Regs[Counter], RefsEq) And
((Counter <> WhichReg) Or
((NrOfMods <> 1) And
{StarMod is always of the type ait_instruction}
(PInstr(StartMod)^.oper[0].typ = top_ref) And
RefsEq(PInstr(StartMod)^.oper[0].ref^, Ref)
)
)
)
)
Then
DestroyReg(Counter, InstrSinceLastMod)
End
End
Else
{write something to a pointer location, so
* with uncertain optimzations on:
- do not destroy registers which contain a local/global variable or a
parameter, except if DestroyRefs is called because of a "movsl"
* with uncertain optimzations off:
- destroy every register which contains a memory location
}
For Counter := LoGPReg to HiGPReg Do
With Regs[Counter] Do
If (typ = Con_Ref) And
(Not(cs_UncertainOpts in aktglobalswitches) Or
{$ifdef i386}
{for movsl}
(Ref.Base = R_EDI) Or
{$endif}
{don't destroy if reg contains a parameter, local or global variable}
Not((NrOfMods = 1) And
(PInstr(StartMod)^.oper[0].typ = top_ref) And
((PInstr(StartMod)^.oper[0].ref^.base = ProcInfo.FramePointer) Or
Assigned(PInstr(StartMod)^.oper[0].ref^.Symbol)
)
)
)
Then DestroyReg(Counter, InstrSinceLastMod)
End;
Procedure TPaiProp.DestroyAllRegs(var InstrSinceLastMod: TInstrSinceLastMod);
Var Counter: TRegister;
Begin {initializes/desrtoys all registers}
For Counter := LoGPReg To HiGPReg Do
Begin
ReadReg(Counter);
DestroyReg(Counter, InstrSinceLastMod);
End;
CondRegs.Init;
{ FPURegs.Init; }
End;
Procedure TPaiProp.DestroyOp(const o:Toper; var InstrSinceLastMod:
TInstrSinceLastMod);
Begin
Case o.typ Of
top_reg: DestroyReg(o.reg, InstrSinceLastMod);
top_ref:
Begin
ReadRef(o.ref);
DestroyRefs(o.ref^, R_NO, InstrSinceLastMod);
End;
top_symbol:;
End;
End;
Procedure TPaiProp.ReadReg(Reg: TRegister);
Begin
Reg := RegMaxSize(Reg);
If Reg in General_Registers Then
IncRState(RegMaxSize(Reg))
End;
Procedure TPaiProp.ReadRef(Ref: PReference);
Begin
If Ref^.Base <> R_NO Then
ReadReg(Ref^.Base);
{$ifdef refsHaveIndexReg}
If Ref^.Index <> R_NO Then
ReadReg(Ref^.Index);
{$endif}
End;
Procedure TPaiProp.ReadOp(const o:toper);
Begin
Case o.typ Of
top_reg: ReadReg(o.reg);
top_ref: ReadRef(o.ref);
top_symbol : ;
End;
End;
Procedure TPaiProp.ModifyReg(reg: TRegister; Var InstrSinceLastMod:
TInstrSinceLastMod);
Begin
With Regs[reg] Do
If (Typ = Con_Ref)
Then
Begin
IncState(WState);
{also store how many instructions are part of the sequence in the first
instructions PPaiProp, so it can be easily accessed from within
CheckSequence}
Inc(NrOfMods, InstrSinceLastMod[Reg]);
PPaiProp(StartMod.OptInfo)^.Regs[Reg].NrOfMods := NrOfMods;
InstrSinceLastMod[Reg] := 0;
End
Else
DestroyReg(Reg, InstrSinceLastMod);
End;
Procedure TPaiProp.ModifyOp(const oper: TOper; var InstrSinceLastMod:
TInstrSinceLastMod);
Begin
If oper.typ = top_reg Then
ModifyReg(RegMaxSize(oper.reg),InstrSinceLastMod)
Else
Begin
ReadOp(oper);
DestroyOp(oper, InstrSinceLastMod);
End
End;
Procedure TPaiProp.IncWState(Reg: TRegister);{$ifdef inl} inline;{$endif inl}
Begin
IncState(Regs[Reg].WState);
End;
Procedure TPaiProp.IncRState(Reg: TRegister);{$ifdef inl} inline;{$endif inl}
Begin
IncState(Regs[Reg].RState);
End;
Function TPaiProp.GetWState(Reg: TRegister): TStateInt; {$ifdef inl} inline;{$endif inl}
Begin
GetWState := Regs[Reg].WState
End;
Function TPaiProp.GetRState(Reg: TRegister): TStateInt; {$ifdef inl} inline;{$endif inl}
Begin
GetRState := Regs[Reg].RState
End;
Function TPaiProp.GetRegContentType(Reg: TRegister): Byte; {$ifdef inl} inline;{$endif inl}
Begin
GetRegContentType := Regs[Reg].typ
End;
Destructor TPaiProp.Done;
Begin
UsedRegs.Done;
CondRegs.Done;
{ DirFlag: TFlagContents; I386 specific}
End;
{ ************************ private TPaiProp stuff ************************* }
Procedure TPaiProp.IncState(Var s: TStateInt); {$ifdef inl} inline;{$endif inl}
Begin
If s <> High(TStateInt) Then Inc(s)
Else s := 0
End;
Function TPaiProp.RefInInstruction(Const Ref: TReference; p: Tai;
RefsEq: TRefCompare): Boolean;
Var Count: AWord;
TmpResult: Boolean;
Begin
TmpResult := False;
If (p.typ = ait_instruction) Then
Begin
Count := 0;
Repeat
If (TInstr(p).oper[Count].typ = Top_Ref) Then
TmpResult := RefsEq(Ref, PInstr(p)^.oper[Count].ref^);
Inc(Count);
Until (Count = MaxOps) or TmpResult;
End;
RefInInstruction := TmpResult;
End;
Function TPaiProp.RefInSequence(Const Ref: TReference; Content: TContent;
RefsEq: TRefCompare): Boolean;
Var p: Tai;
Counter: Byte;
TmpResult: Boolean;
Begin
p := Content.StartMod;
TmpResult := False;
Counter := 1;
While Not(TmpResult) And
(Counter <= Content.NrOfMods) Do
Begin
If (p.typ = ait_instruction) And
RefInInstruction(Ref, p, {$ifdef fpc}@{$endif}RefsEqual)
Then TmpResult := True;
Inc(Counter);
GetNextInstruction(p,p)
End;
RefInSequence := TmpResult
End;
{ ************************************************************************* }
{ ***************************** TAoptObj ********************************** }
{ ************************************************************************* }
Constructor TAoptObj.Init(_AsmL: TAasmOutput; _BlockStart, _BlockEnd: Tai;
_LabelInfo: PLabelInfo);
Begin
AsmL := _AsmL;
BlockStart := _BlockStart;
BlockEnd := _BlockEnd;
LabelInfo := _LabelInfo
End;
Function TAOptObj.FindLabel(L: TasmLabel; Var hp: Tai): Boolean;
Var TempP: Tai;
Begin
TempP := hp;
While Assigned(TempP) and
(TempP.typ In SkipInstr + [ait_label]) Do
If (TempP.typ <> ait_Label) Or
(Tai_label(TempP).l <> L)
Then GetNextInstruction(TempP, TempP)
Else
Begin
hp := TempP;
FindLabel := True;
exit
End;
FindLabel := False;
End;
Procedure TAOptObj.InsertLLItem(prev, foll, new_one : TLinkedListItem);
Begin
If Assigned(prev) Then
If Assigned(foll) Then
Begin
If Assigned(new_one) Then
Begin
new_one.previous := prev;
new_one.next := foll;
prev.next := new_one;
foll.previous := new_one;
Tailineinfo(new_one).fileinfo := Tailineinfo(foll).fileinfo
End
End
Else AsmL.Concat(new_one)
Else If Assigned(Foll) Then AsmL.Insert(new_one)
End;
Function TAOptObj.SkipHead(P: Tai): Tai;
Var OldP: Tai;
Begin
Repeat
OldP := P;
If (P.typ in SkipInstr) Or
((P.typ = ait_marker) And
(Tai_Marker(P).Kind = AsmBlockEnd)) Then
GetNextInstruction(P, P)
Else If ((P.Typ = Ait_Marker) And
(Tai_Marker(P).Kind = NoPropInfoStart)) Then
{ a marker of the type NoPropInfoStart can't be the first instruction of a }
{ paasmoutput list }
GetNextInstruction(Tai(P.Previous),P);
If (P.Typ = Ait_Marker) And
(Tai_Marker(P).Kind = AsmBlockStart) Then
Begin
P := Tai(P.Next);
While (P.typ <> Ait_Marker) Or
(Tai_Marker(P).Kind <> AsmBlockEnd) Do
P := Tai(P.Next)
End;
Until P = OldP;
SkipHead := P;
End;
Function TAOptObj.OpsEqual(const o1,o2:toper): Boolean;
Begin
if o1.typ=o2.typ then
Case o1.typ Of
Top_Reg :
OpsEqual:=o1.reg=o2.reg;
Top_Ref :
OpsEqual := RefsEqual(o1.ref^, o2.ref^);
Top_Const :
OpsEqual:=o1.val=o2.val;
Top_Symbol :
OpsEqual:=(o1.sym=o2.sym) and (o1.symofs=o2.symofs);
Top_None :
OpsEqual := True
else OpsEqual := False
End;
End;
Function TAOptObj.FindRegAlloc(Reg: TRegister; StartPai: Tai): Boolean;
Begin
FindRegAlloc:=False;
Repeat
While Assigned(StartPai) And
((StartPai.typ in (SkipInstr - [ait_regAlloc])) Or
((StartPai.typ = ait_label) and
Not(Tai_Label(StartPai).l.Is_Used))) Do
StartPai := Tai(StartPai.Next);
If Assigned(StartPai) And
(StartPai.typ = ait_regAlloc) and (tai_regalloc(StartPai).allocation) Then
Begin
if tai_regalloc(StartPai).Reg = Reg then
begin
FindRegAlloc:=true;
exit;
end;
StartPai := Tai(StartPai.Next);
End
else
exit;
Until false;
End;
End.
{
$Log: aoptobj.pas,v $
Revision 1.8 2002/11/18 17:31:54 peter
* pass proccalloption to ret_in_xxx and push_xxx functions
Revision 1.7 2002/08/18 18:16:55 florian
* fixed compilation error
Revision 1.6 2002/07/07 09:52:32 florian
* powerpc target fixed, very simple units can be compiled
* some basic stuff for better callparanode handling, far from being finished
Revision 1.5 2002/07/01 18:46:21 peter
* internal linker
* reorganized aasm layer
Revision 1.4 2002/05/18 13:34:05 peter
* readded missing revisions
Revision 1.3 2002/05/16 19:46:35 carl
+ defines.inc -> fpcdefs.inc to avoid conflicts if compiling by hand
+ try to fix temp allocation (still in ifdef)
+ generic constructor calls
+ start of tassembler / tmodulebase class cleanup
}
syntax highlighted by Code2HTML, v. 0.9.1