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62d54389c8
fpc/compiler/optutils.pas
florian 62d54389c8 + life dfa for if, label and goto 
git-svn-id: trunk@7297 -
2007-05-07 19:14:21 +00:00

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{
Helper routines for the optimizer
Copyright (c) 2007 by Florian Klaempfl
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 optutils;
{$i fpcdefs.inc}
interface
uses
cclasses,
node;
type
{ this implementation should be really improved,
its purpose is to find equal nodes }
TIndexedNodeSet = class(TFPList)
function Add(node : tnode) : boolean;
function Includes(node : tnode) : tnode;
function Remove(node : tnode) : boolean;
end;
procedure SetNodeSucessors(p : tnode);
procedure PrintDFAInfo(var f : text;p : tnode);
procedure PrintIndexedNodeSet(var f : text;s : TIndexedNodeSet);
implementation
uses
verbose,
optbase,
nbas,nflw,nutils;
function TIndexedNodeSet.Add(node : tnode) : boolean;
var
i : Integer;
p : tnode;
begin
node.allocoptinfo;
p:=Includes(node);
if assigned(p) then
begin
result:=false;
node.optinfo^.index:=p.optinfo^.index;
end
else
begin
i:=inherited Add(node);
node.optinfo^.index:=i;
result:=true;
end
end;
function TIndexedNodeSet.Includes(node : tnode) : tnode;
var
i : longint;
begin
for i:=0 to Count-1 do
if tnode(List^[i]).isequal(node) then
begin
result:=tnode(List^[i]);
exit;
end;
result:=nil;
end;
function TIndexedNodeSet.Remove(node : tnode) : boolean;
var
p : tnode;
begin
result:=false;
p:=Includes(node);
if assigned(p) then
begin
if inherited Remove(p)<>-1 then
result:=true;
end;
end;
procedure PrintIndexedNodeSet(var f : text;s : TIndexedNodeSet);
var
i : integer;
begin
for i:=0 to s.count-1 do
begin
writeln(f,'=============================== Node ',i,' ===============================');
printnode(f,tnode(s[i]));
writeln(f);
end;
end;
function PrintNodeDFA(var n: tnode; arg: pointer): foreachnoderesult;
begin
if assigned(n.optinfo) and ((n.optinfo^.life<>nil) or (n.optinfo^.use<>nil) or (n.optinfo^.def<>nil)) then
begin
write(text(arg^),nodetype2str[n.nodetype],'(',n.fileinfo.line,',',n.fileinfo.column,') Life: ');
PrintDFASet(text(arg^),n.optinfo^.life);
write(text(arg^),' Def: ');
PrintDFASet(text(arg^),n.optinfo^.def);
write(text(arg^),' Use: ');
PrintDFASet(text(arg^),n.optinfo^.use);
writeln(text(arg^));
end;
result:=fen_false;
end;
procedure PrintDFAInfo(var f : text;p : tnode);
begin
foreachnodestatic(pm_postprocess,p,@PrintNodeDFA,@f);
end;
procedure SetNodeSucessors(p : tnode);
var
Continuestack : TFPList;
Breakstack : TFPList;
{ sets the successor nodes of a node tree block
returns the first node of the tree if it's a controll flow node }
function DoSet(p : tnode;succ : tnode) : tnode;
var
hp1,hp2 : tnode;
begin
result:=nil;
if p=nil then
exit;
case p.nodetype of
statementn:
begin
hp1:=p;
result:=p;
while assigned(hp1) do
begin
{ does another statement follow? }
if assigned(tstatementnode(hp1).next) then
begin
hp2:=DoSet(tstatementnode(hp1).statement,tstatementnode(hp1).next);
if assigned(hp2) then
tstatementnode(hp1).successor:=hp2
else
tstatementnode(hp1).successor:=tstatementnode(hp1).next;
end
else
begin
hp2:=DoSet(tstatementnode(hp1).statement,succ);
if assigned(hp2) then
tstatementnode(hp1).successor:=hp2
else
tstatementnode(hp1).successor:=succ;
end;
hp1:=tstatementnode(hp1).next;
end;
end;
blockn:
begin
result:=p;
DoSet(tblocknode(p).statements,succ);
p.successor:=succ;
end;
forn:
begin
Breakstack.Add(succ);
Continuestack.Add(p);
result:=p;
{ the successor of the last node of the for body is the for node itself }
DoSet(tfornode(p).t2,p);
Breakstack.Delete(Breakstack.Count-1);
Continuestack.Delete(Continuestack.Count-1);
end;
breakn:
begin
result:=p;
p.successor:=tnode(Breakstack.Last);
end;
continuen:
begin
result:=p;
p.successor:=tnode(Continuestack.Last);
end;
whilerepeatn:
begin
Breakstack.Add(succ);
Continuestack.Add(p);
result:=p;
{ the successor of the last node of the for body is the while node itself }
DoSet(twhilerepeatnode(p).right,p);
p.successor:=succ;
Breakstack.Delete(Breakstack.Count-1);
Continuestack.Delete(Continuestack.Count-1);
end;
ifn:
begin
result:=p;
DoSet(tifnode(p).right,succ);
DoSet(tifnode(p).t1,succ);
p.successor:=succ;
end;
labeln:
begin
result:=p;
if assigned(tlabelnode(p).left) then
begin
DoSet(tlabelnode(p).left,succ);
p.successor:=tlabelnode(p).left;
end
else
p.successor:=succ;
end;
assignn:
begin
result:=p;
p.successor:=succ;
end;
goton:
begin
result:=p;
if not(assigned(tgotonode(p).labelnode)) then
internalerror(2007050701);
p.successor:=tgotonode(p).labelnode;
end;
{ exit is actually a jump to some final. code
exitn:
begin
result:=p;
p.successor:=nil;
end;
}
inlinen,
calln,
exitn,
withn,
casen,
tryexceptn,
raisen,
tryfinallyn,
onn,
nothingn:
internalerror(2007050501);
end;
end;
begin
Breakstack:=TFPList.Create;
Continuestack:=TFPList.Create;
DoSet(p,nil);
Continuestack.Free;
Breakstack.Free;
end;
end.
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