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Version:
3.2.0 ▾
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{
DFA
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.
****************************************************************************
}
{ $define DEBUG_DFA}
{ $define EXTDEBUG_DFA}
{ this unit implements routines to perform dfa }
unit optdfa;
{$i fpcdefs.inc}
interface
uses
node,optutils;
type
TDFABuilder = class
protected
procedure CreateLifeInfo(node : tnode;map : TIndexedNodeSet);
public
resultnode : tnode;
nodemap : TIndexedNodeSet;
{ reset all dfa info, this is required before creating dfa info
if the tree has been changed without updating dfa }
procedure resetdfainfo(node : tnode);
procedure createdfainfo(node : tnode);
destructor destroy;override;
end;
procedure CheckAndWarn(code : tnode;nodetosearch : tnode);
implementation
uses
globtype,
verbose,
symconst,symdef,symsym,
defutil,
procinfo,
nutils,htypechk,
nbas,nflw,ncal,nset,nld,nadd,
optbase;
(*
function initnodes(var n:tnode; arg: pointer) : foreachnoderesult;
begin
{ node worth to add? }
if (node_complexity(n)>1) and (tstoreddef(n.resultdef).is_intregable or tstoreddef(n.resultdef).is_fpuregable) then
begin
plists(arg)^.nodelist.Add(n);
plists(arg)^.locationlist.Add(@n);
result:=fen_false;
end
else
result:=fen_norecurse_false;
end;
*)
{
x:=f; read: [f]
while x do read: []
a:=b; read: [a,b,d] def: [a] life: read*def=[a]
c:=d; read: [a,d] def: [a,c] life: read*def=[a]
e:=a; read: [a] def: [a,c,e] life: read*def=[a]
function f(b,d,x : type) : type;
begin
while x do alive: b,d,x
begin
a:=b; alive: b,d,x
c:=d; alive: a,d,x
e:=a+c; alive: a,c,x
dec(x); alive: c,e,x
end;
result:=c+e; alive: c,e
end; alive: result
}
type
tdfainfo = record
use : PDFASet;
def : PDFASet;
map : TIndexedNodeSet
end;
pdfainfo = ^tdfainfo;
function AddDefUse(var n: tnode; arg: pointer): foreachnoderesult;
begin
case n.nodetype of
tempcreaten:
begin
if assigned(ttempcreatenode(n).tempinfo^.tempinitcode) then
begin
pdfainfo(arg)^.map.Add(n);
DFASetInclude(pdfainfo(arg)^.def^,n.optinfo^.index);
end;
end;
temprefn,
loadn:
begin
pdfainfo(arg)^.map.Add(n);
if nf_modify in n.flags then
begin
DFASetInclude(pdfainfo(arg)^.use^,n.optinfo^.index);
DFASetInclude(pdfainfo(arg)^.def^,n.optinfo^.index)
end
else if nf_write in n.flags then
DFASetInclude(pdfainfo(arg)^.def^,n.optinfo^.index)
else
DFASetInclude(pdfainfo(arg)^.use^,n.optinfo^.index);
end;
end;
result:=fen_false;
end;
function ResetProcessing(var n: tnode; arg: pointer): foreachnoderesult;
begin
exclude(n.flags,nf_processing);
{ dfa works only on normalized trees, so do not recurse into expressions, because
ResetProcessing eats a signififcant amount of time of CheckAndWarn
the following set contains (hopefully) most of the expression nodes }
if n.nodetype in [calln,inlinen,assignn,callparan,andn,addn,orn,subn,muln,divn,slashn,notn,equaln,unequaln,gtn,ltn,lten,gten,loadn,
typeconvn,vecn,subscriptn,addrn,derefn] then
result:=fen_norecurse_false
else
result:=fen_false;
end;
function ResetDFA(var n: tnode; arg: pointer): foreachnoderesult;
begin
if assigned(n.optinfo) then
begin
with n.optinfo^ do
begin
life:=nil;
def:=nil;
use:=nil;
defsum:=nil;
end;
end;
result:=fen_false;
end;
procedure TDFABuilder.CreateLifeInfo(node : tnode;map : TIndexedNodeSet);
var
changed : boolean;
procedure CreateInfo(node : tnode);
{ update life entry of a node with l, set changed if this changes
life info for the node
}
procedure updatelifeinfo(n : tnode;l : TDFASet);
var
b : boolean;
begin
b:=DFASetNotEqual(l,n.optinfo^.life);
{$ifdef DEBUG_DFA}
if not(changed) and b then
begin
writeln('Another DFA pass caused by: ',nodetype2str[n.nodetype],'(',n.fileinfo.line,',',n.fileinfo.column,')');
write(' Life info set was: ');PrintDFASet(Output,n.optinfo^.life);writeln;
write(' Life info set will be: ');PrintDFASet(Output,l);writeln;
end;
{$endif DEBUG_DFA}
changed:=changed or b;
n.optinfo^.life:=l;
end;
procedure calclife(n : tnode);
var
l : TDFASet;
begin
if assigned(n.successor) then
begin
{ ensure we can access optinfo }
DFASetDiff(l,n.successor.optinfo^.life,n.optinfo^.def);
DFASetIncludeSet(l,n.optinfo^.use);
DFASetIncludeSet(l,n.optinfo^.life);
end
else
begin
l:=n.optinfo^.use;
DFASetIncludeSet(l,n.optinfo^.life);
end;
updatelifeinfo(n,l);
end;
var
dfainfo : tdfainfo;
l : TDFASet;
save: TDFASet;
i : longint;
counteruse_after_loop : boolean;
begin
if node=nil then
exit;
{ ensure we've already optinfo set }
node.allocoptinfo;
if nf_processing in node.flags then
exit;
include(node.flags,nf_processing);
if assigned(node.successor) then
CreateInfo(node.successor);
{$ifdef EXTDEBUG_DFA}
writeln('Handling: ',nodetype2str[node.nodetype],'(',node.fileinfo.line,',',node.fileinfo.column,')');
{$endif EXTDEBUG_DFA}
{ life:=succesorlive-definition+use }
case node.nodetype of
whilerepeatn:
begin
{ analyze the loop condition }
if not(assigned(node.optinfo^.def)) and
not(assigned(node.optinfo^.use)) then
begin
dfainfo.use:=@node.optinfo^.use;
dfainfo.def:=@node.optinfo^.def;
dfainfo.map:=map;
foreachnodestatic(pm_postprocess,twhilerepeatnode(node).left,@AddDefUse,@dfainfo);
end;
{ NB: this node should typically have empty def set }
if assigned(node.successor) then
DFASetDiff(l,node.successor.optinfo^.life,node.optinfo^.def)
else if assigned(resultnode) then
DFASetDiff(l,resultnode.optinfo^.life,node.optinfo^.def)
else
l:=nil;
{ for repeat..until, node use set in included at the end of loop }
if not (lnf_testatbegin in twhilerepeatnode(node).loopflags) then
DFASetIncludeSet(l,node.optinfo^.use);
DFASetIncludeSet(l,node.optinfo^.life);
save:=node.optinfo^.life;
{ to process body correctly, we need life info in place (because
whilerepeatnode is successor of its body). }
node.optinfo^.life:=l;
{ now process the body }
CreateInfo(twhilerepeatnode(node).right);
{ restore, to prevent infinite recursion via changed flag }
node.optinfo^.life:=save;
{ for while loops, node use set is included at the beginning of loop }
l:=twhilerepeatnode(node).right.optinfo^.life;
if lnf_testatbegin in twhilerepeatnode(node).loopflags then
DFASetIncludeSet(l,node.optinfo^.use);
UpdateLifeInfo(node,l);
{ ... and a second iteration for fast convergence }
CreateInfo(twhilerepeatnode(node).right);
end;
forn:
begin
{
left: loopvar
right: from
t1: to
t2: body
}
node.allocoptinfo;
tfornode(node).loopiteration.allocoptinfo;
if not(assigned(node.optinfo^.def)) and
not(assigned(node.optinfo^.use)) then
begin
dfainfo.use:=@node.optinfo^.use;
dfainfo.def:=@node.optinfo^.def;
dfainfo.map:=map;
foreachnodestatic(pm_postprocess,tfornode(node).left,@AddDefUse,@dfainfo);
foreachnodestatic(pm_postprocess,tfornode(node).right,@AddDefUse,@dfainfo);
foreachnodestatic(pm_postprocess,tfornode(node).t1,@AddDefUse,@dfainfo);
end;
{ create life for the body }
CreateInfo(tfornode(node).t2);
{ is the counter living after the loop?
if left is a record element, it might not be tracked by dfa, so
optinfo might not be assigned
}
counteruse_after_loop:=assigned(tfornode(node).left.optinfo) and assigned(node.successor) and
DFASetIn(node.successor.optinfo^.life,tfornode(node).left.optinfo^.index);
if counteruse_after_loop then
begin
{ if yes, then we should warn }
{ !!!!!! }
end;
{ first update the dummy node }
{ get the life of the loop block }
l:=copy(tfornode(node).t2.optinfo^.life);
{ take care of the sucessor }
if assigned(node.successor) then
DFASetIncludeSet(l,node.successor.optinfo^.life);
{ the counter variable is living as well inside the for loop
if left is a record element, it might not be tracked by dfa, so
optinfo might not be assigned
}
if assigned(tfornode(node).left.optinfo) then
DFASetInclude(l,tfornode(node).left.optinfo^.index);
{ force block node life info }
UpdateLifeInfo(tfornode(node).loopiteration,l);
{ now update the for node itself }
{ get the life of the loop block }
l:=copy(tfornode(node).t2.optinfo^.life);
{ take care of the sucessor as it's possible that we don't have one execution of the body }
if (not(tfornode(node).right.nodetype=ordconstn) or not(tfornode(node).t1.nodetype=ordconstn)) and
assigned(node.successor) then
DFASetIncludeSet(l,node.successor.optinfo^.life);
{
the counter variable is not living at the entry of the for node
if left is a record element, it might not be tracked by dfa, so
optinfo might not be assigned
}
if assigned(tfornode(node).left.optinfo) then
DFASetExclude(l,tfornode(node).left.optinfo^.index);
{ ... but it could be that left/right use it, so do this after
removing the def of the counter variable }
DFASetIncludeSet(l,node.optinfo^.use);
UpdateLifeInfo(node,l);
{ ... and a second iteration for fast convergence }
CreateInfo(tfornode(node).t2);
end;
temprefn,
loadn,
typeconvn,
derefn,
assignn:
begin
if not(assigned(node.optinfo^.def)) and
not(assigned(node.optinfo^.use)) then
begin
dfainfo.use:=@node.optinfo^.use;
dfainfo.def:=@node.optinfo^.def;
dfainfo.map:=map;
foreachnodestatic(pm_postprocess,node,@AddDefUse,@dfainfo);
end;
calclife(node);
end;
statementn:
begin
{ nested statement }
CreateInfo(tstatementnode(node).statement);
{ inherit info }
node.optinfo^.life:=tstatementnode(node).statement.optinfo^.life;
end;
blockn:
begin
CreateInfo(tblocknode(node).statements);
{ ensure that we don't remove life info }
l:=node.optinfo^.life;
if assigned(node.successor) then
DFASetIncludeSet(l,node.successor.optinfo^.life);
UpdateLifeInfo(node,l);
end;
ifn:
begin
{ get information from cond. expression }
if not(assigned(node.optinfo^.def)) and
not(assigned(node.optinfo^.use)) then
begin
dfainfo.use:=@node.optinfo^.use;
dfainfo.def:=@node.optinfo^.def;
dfainfo.map:=map;
foreachnodestatic(pm_postprocess,tifnode(node).left,@AddDefUse,@dfainfo);
end;
{ create life info for then and else node }
CreateInfo(tifnode(node).right);
CreateInfo(tifnode(node).t1);
{ ensure that we don't remove life info }
l:=node.optinfo^.life;
{ get life info from then branch }
if assigned(tifnode(node).right) then
DFASetIncludeSet(l,tifnode(node).right.optinfo^.life);
{ get life info from else branch }
if assigned(tifnode(node).t1) then
DFASetIncludeSet(l,tifnode(node).t1.optinfo^.life)
else if assigned(node.successor) then
DFASetIncludeSet(l,node.successor.optinfo^.life);
{ remove def info from the cond. expression }
DFASetExcludeSet(l,tifnode(node).optinfo^.def);
{ add use info from the cond. expression }
DFASetIncludeSet(l,tifnode(node).optinfo^.use);
{ finally, update the life info of the node }
UpdateLifeInfo(node,l);
end;
casen:
begin
{ get information from "case" expression }
if not(assigned(node.optinfo^.def)) and
not(assigned(node.optinfo^.use)) then
begin
dfainfo.use:=@node.optinfo^.use;
dfainfo.def:=@node.optinfo^.def;
dfainfo.map:=map;
foreachnodestatic(pm_postprocess,tcasenode(node).left,@AddDefUse,@dfainfo);
end;
{ create life info for block and else nodes }
for i:=0 to tcasenode(node).blocks.count-1 do
CreateInfo(pcaseblock(tcasenode(node).blocks[i])^.statement);
CreateInfo(tcasenode(node).elseblock);
{ ensure that we don't remove life info }
l:=node.optinfo^.life;
{ get life info from case branches }
for i:=0 to tcasenode(node).blocks.count-1 do
DFASetIncludeSet(l,pcaseblock(tcasenode(node).blocks[i])^.statement.optinfo^.life);
{ get life info from else branch or the succesor }
if assigned(tcasenode(node).elseblock) then
DFASetIncludeSet(l,tcasenode(node).elseblock.optinfo^.life)
else if assigned(node.successor) then
DFASetIncludeSet(l,node.successor.optinfo^.life);
{ add use info from the "case" expression }
DFASetIncludeSet(l,tcasenode(node).optinfo^.use);
{ finally, update the life info of the node }
UpdateLifeInfo(node,l);
end;
exitn:
begin
if not(is_void(current_procinfo.procdef.returndef)) then
begin
if not(assigned(node.optinfo^.def)) and
not(assigned(node.optinfo^.use)) then
begin
if assigned(texitnode(node).left) then
begin
node.optinfo^.def:=resultnode.optinfo^.def;
dfainfo.use:=@node.optinfo^.use;
dfainfo.def:=@node.optinfo^.def;
dfainfo.map:=map;
foreachnodestatic(pm_postprocess,texitnode(node).left,@AddDefUse,@dfainfo);
calclife(node);
end
else
begin
{ get info from faked resultnode }
node.optinfo^.use:=resultnode.optinfo^.use;
node.optinfo^.life:=node.optinfo^.use;
changed:=true;
end;
end;
end;
end;
{$ifdef JVM}
{ all other platforms except jvm translate raise nodes into call nodes during pass_1 }
raisen,
{$endif JVM}
asn,
inlinen,
calln:
begin
if not(assigned(node.optinfo^.def)) and
not(assigned(node.optinfo^.use)) then
begin
dfainfo.use:=@node.optinfo^.use;
dfainfo.def:=@node.optinfo^.def;
dfainfo.map:=map;
foreachnodestatic(pm_postprocess,node,@AddDefUse,@dfainfo);
end;
calclife(node);
end;
labeln:
begin
calclife(node);
if assigned(tlabelnode(node).left) then
begin
l:=node.optinfo^.life;
DFASetIncludeSet(l,tlabelnode(node).optinfo^.life);
UpdateLifeInfo(node,l);
end;
end;
tempcreaten,
tempdeleten,
nothingn,
continuen,
goton,
breakn:
begin
calclife(node);
end;
else
internalerror(2007050502);
end;
end;
var
runs : integer;
begin
runs:=0;
repeat
inc(runs);
changed:=false;
CreateInfo(node);
foreachnodestatic(pm_postprocess,node,@ResetProcessing,nil);
{ the result node is not reached by foreachnodestatic }
exclude(resultnode.flags,nf_processing);
{$ifdef DEBUG_DFA}
PrintIndexedNodeSet(output,map);
PrintDFAInfo(output,node);
{$endif DEBUG_DFA}
until not(changed);
{$ifdef DEBUG_DFA}
writeln('DFA solver iterations: ',runs);
{$endif DEBUG_DFA}
end;
{ reset all dfa info, this is required before creating dfa info
if the tree has been changed without updating dfa }
procedure TDFABuilder.resetdfainfo(node : tnode);
begin
foreachnodestatic(pm_postprocess,node,@ResetDFA,nil);
end;
procedure TDFABuilder.createdfainfo(node : tnode);
var
dfarec : tdfainfo;
begin
if not(assigned(nodemap)) then
nodemap:=TIndexedNodeSet.Create;
{ create a fake node using the result which will be the last node }
if not(is_void(current_procinfo.procdef.returndef)) then
begin
if current_procinfo.procdef.proctypeoption=potype_constructor then
resultnode:=load_self_node
else
resultnode:=load_result_node;
resultnode.allocoptinfo;
dfarec.use:=@resultnode.optinfo^.use;
dfarec.def:=@resultnode.optinfo^.def;
dfarec.map:=nodemap;
AddDefUse(resultnode,@dfarec);
resultnode.optinfo^.life:=resultnode.optinfo^.use;
end
else
begin
resultnode:=cnothingnode.create;
resultnode.allocoptinfo;
end;
{ add controll flow information }
SetNodeSucessors(node,resultnode);
{ now, collect life information }
CreateLifeInfo(node,nodemap);
end;
destructor TDFABuilder.Destroy;
begin
Resultnode.free;
nodemap.free;
inherited destroy;
end;
var
{ we have to pass the address of SearchNode in a call inside of SearchNode:
@SearchNode does not work because the compiler thinks we take the address of the result
so store the address from outside }
SearchNodeProcPointer : function(var n: tnode; arg: pointer): foreachnoderesult;
type
{ helper structure to be able to pass more than one variable to the iterator function }
TSearchNodeInfo = record
nodetosearch : tnode;
{ this contains a list of all file locations where a warning was thrown already,
the same location might appear multiple times because nodes might have been copied }
warnedfilelocs : array of tfileposinfo;
end;
PSearchNodeInfo = ^TSearchNodeInfo;
{ searches for a given node n and warns if the node is found as being uninitialized. If a node is
found, searching is stopped so each call issues only one warning/hint }
function SearchNode(var n: tnode; arg: pointer): foreachnoderesult;
function WarnedForLocation(f : tfileposinfo) : boolean;
var
i : longint;
begin
result:=true;
for i:=0 to high(PSearchNodeInfo(arg)^.warnedfilelocs) do
with PSearchNodeInfo(arg)^.warnedfilelocs[i] do
begin
if (f.column=column) and (f.fileindex=fileindex) and (f.line=line) and (f.moduleindex=moduleindex) then
exit;
end;
result:=false;
end;
procedure AddFilepos(const f : tfileposinfo);
begin
Setlength(PSearchNodeInfo(arg)^.warnedfilelocs,length(PSearchNodeInfo(arg)^.warnedfilelocs)+1);
PSearchNodeInfo(arg)^.warnedfilelocs[high(PSearchNodeInfo(arg)^.warnedfilelocs)]:=f;
end;
{ Checks if the symbol is a candidate for a warning.
Emit warning/note for living locals, result and parameters, but only about the current
symtables }
function SymbolCandidateForWarningOrHint(sym : tabstractnormalvarsym) : Boolean;
begin
Result:=(((sym.owner=current_procinfo.procdef.localst) and
(current_procinfo.procdef.localst.symtablelevel=sym.owner.symtablelevel)
) or
((sym.owner=current_procinfo.procdef.parast) and
(sym.typ=paravarsym) and
(current_procinfo.procdef.parast.symtablelevel=sym.owner.symtablelevel) and
{ all parameters except out parameters are initialized by the caller }
(tparavarsym(sym).varspez=vs_out)
) or
((vo_is_funcret in sym.varoptions) and
(current_procinfo.procdef.parast.symtablelevel=sym.owner.symtablelevel)
)
) and not(vo_is_external in sym.varoptions)
end;
var
varsym : tabstractnormalvarsym;
methodpointer,
hpt : tnode;
begin
result:=fen_false;
case n.nodetype of
callparan:
begin
{ do not warn about variables passed by var, just issue a hint, this
is a workaround for old code e.g. using fillchar }
if assigned(tcallparanode(n).parasym) and (tcallparanode(n).parasym.varspez in [vs_var,vs_out]) then
begin
hpt:=tcallparanode(n).left;
while assigned(hpt) and (hpt.nodetype in [subscriptn,vecn,typeconvn]) do
hpt:=tunarynode(hpt).left;
if assigned(hpt) and (hpt.nodetype=loadn) and not(WarnedForLocation(hpt.fileinfo)) and
SymbolCandidateForWarningOrHint(tabstractnormalvarsym(tloadnode(hpt).symtableentry)) and
PSearchNodeInfo(arg)^.nodetosearch.isequal(hpt) then
begin
{ issue only a hint for var, when encountering the node passed as out, we need only to stop searching }
if tcallparanode(n).parasym.varspez=vs_var then
UninitializedVariableMessage(hpt.fileinfo,false,
tloadnode(hpt).symtable.symtabletype=localsymtable,
is_managed_type(tloadnode(hpt).resultdef),
tloadnode(hpt).symtableentry.RealName);
AddFilepos(hpt.fileinfo);
result:=fen_norecurse_true;
end
end;
end;
orn,
andn:
begin
{ take care of short boolean evaluation: if the expression to be search is found in left,
we do not need to search right }
if foreachnodestatic(pm_postprocess,taddnode(n).left,SearchNodeProcPointer,arg) or
foreachnodestatic(pm_postprocess,taddnode(n).right,SearchNodeProcPointer,arg) then
result:=fen_norecurse_true
else
result:=fen_norecurse_false;
end;
calln:
begin
methodpointer:=tcallnode(n).methodpointer;
if assigned(methodpointer) and (methodpointer.nodetype<>typen) then
begin
{ Remove all postfix operators }
hpt:=methodpointer;
while assigned(hpt) and (hpt.nodetype in [subscriptn,vecn]) do
hpt:=tunarynode(hpt).left;
{ skip (absolute and other simple) type conversions -- only now,
because the checks above have to take type conversions into
e.g. class reference types account }
hpt:=actualtargetnode(@hpt)^;
{ R.Init then R will be initialized by the constructor,
Also allow it for simple loads }
if (tcallnode(n).procdefinition.proctypeoption=potype_constructor) or
(PSearchNodeInfo(arg)^.nodetosearch.isequal(hpt) and
(((methodpointer.resultdef.typ=objectdef) and
not(oo_has_virtual in tobjectdef(methodpointer.resultdef).objectoptions)) or
(methodpointer.resultdef.typ=recorddef)
)
) then
begin
{ don't warn about the method pointer }
AddFilepos(hpt.fileinfo);
if not(foreachnodestatic(pm_postprocess,tcallnode(n).left,SearchNodeProcPointer,arg)) then
foreachnodestatic(pm_postprocess,tcallnode(n).right,SearchNodeProcPointer,arg);
result:=fen_norecurse_true
end;
end;
end;
loadn:
begin
if (tloadnode(n).symtableentry.typ in [localvarsym,paravarsym,staticvarsym]) and
PSearchNodeInfo(arg)^.nodetosearch.isequal(n) and ((nf_modify in n.flags) or not(nf_write in n.flags)) then
begin
varsym:=tabstractnormalvarsym(tloadnode(n).symtableentry);
if assigned(varsym.owner) and SymbolCandidateForWarningOrHint(varsym) then
begin
if (vo_is_funcret in varsym.varoptions) and not(WarnedForLocation(n.fileinfo)) then
begin
if is_managed_type(varsym.vardef) then
MessagePos(n.fileinfo,sym_w_managed_function_result_uninitialized)
else
MessagePos(n.fileinfo,sym_w_function_result_uninitialized);
AddFilepos(n.fileinfo);
result:=fen_norecurse_true;
end
else
begin
{ typed consts are initialized, further, warn only once per location }
if not (vo_is_typed_const in varsym.varoptions) and not(WarnedForLocation(n.fileinfo)) then
begin
UninitializedVariableMessage(n.fileinfo,true,varsym.typ=localvarsym,is_managed_type(varsym.vardef),varsym.realname);
AddFilepos(n.fileinfo);
result:=fen_norecurse_true;
end;
end;
end
{$ifdef dummy}
{ if a the variable we are looking for is passed as a var parameter, we stop searching }
else if assigned(varsym.owner) and
(varsym.owner=current_procinfo.procdef.parast) and
(varsym.typ=paravarsym) and
(current_procinfo.procdef.parast.symtablelevel=varsym.owner.symtablelevel) and
(tparavarsym(varsym).varspez=vs_var) then
result:=fen_norecurse_true;
{$endif dummy}
end;
end;
end;
end;
procedure CheckAndWarn(code : tnode;nodetosearch : tnode);
var
SearchNodeInfo : TSearchNodeInfo;
function DoCheck(node : tnode) : boolean;
var
i : longint;
touchesnode : Boolean;
procedure MaybeDoCheck(n : tnode);inline;
begin
Result:=Result or DoCheck(n);
end;
procedure MaybeSearchIn(n : tnode);
begin
if touchesnode then
Result:=Result or foreachnodestatic(pm_postprocess,n,@SearchNode,@SearchNodeInfo);
end;
begin
result:=false;
if node=nil then
exit;
if nf_processing in node.flags then
exit;
include(node.flags,nf_processing);
if not(DFASetIn(node.optinfo^.life,nodetosearch.optinfo^.index)) then
exit;
{ we do not need this info always, so try to safe some time here, CheckAndWarn
takes a lot of time anyways }
if not(node.nodetype in [statementn,blockn]) then
touchesnode:=DFASetIn(node.optinfo^.use,nodetosearch.optinfo^.index) or
DFASetIn(node.optinfo^.def,nodetosearch.optinfo^.index)
else
touchesnode:=false;
case node.nodetype of
whilerepeatn:
begin
MaybeSearchIn(twhilerepeatnode(node).left);
MaybeDoCheck(twhilerepeatnode(node).right);
end;
forn:
begin
MaybeSearchIn(tfornode(node).right);
MaybeSearchIn(tfornode(node).t1);
MaybeDoCheck(tfornode(node).t2);
end;
statementn:
MaybeDoCheck(tstatementnode(node).statement);
blockn:
MaybeDoCheck(tblocknode(node).statements);
ifn:
begin
MaybeSearchIn(tifnode(node).left);
MaybeDoCheck(tifnode(node).right);
MaybeDoCheck(tifnode(node).t1);
end;
casen:
begin
MaybeSearchIn(tcasenode(node).left);
for i:=0 to tcasenode(node).blocks.count-1 do
MaybeDoCheck(pcaseblock(tcasenode(node).blocks[i])^.statement);
MaybeDoCheck(tcasenode(node).elseblock);
end;
labeln:
MaybeDoCheck(tlabelnode(node).left);
{ we are aware of the following nodes so if new node types are added to the compiler
and pop up in the search, the ie below kicks in as a reminder }
exitn:
begin
MaybeSearchIn(texitnode(node).left);
{ exit uses the resultnode implicitly, so searching for a matching node is
useless, if we reach the exit node and found the living node not in left, then
it can be only the resultnode }
if not(Result) and not(is_void(current_procinfo.procdef.returndef)) and
not(assigned(texitnode(node).resultexpr)) and
{ don't warn about constructors }
not(current_procinfo.procdef.proctypeoption in [potype_class_constructor,potype_constructor]) then
begin
if is_managed_type(current_procinfo.procdef.returndef) then
MessagePos(node.fileinfo,sym_w_managed_function_result_uninitialized)
else
MessagePos(node.fileinfo,sym_w_function_result_uninitialized);
Setlength(SearchNodeInfo.warnedfilelocs,length(SearchNodeInfo.warnedfilelocs)+1);
SearchNodeInfo.warnedfilelocs[high(SearchNodeInfo.warnedfilelocs)]:=node.fileinfo;
end
end;
{ could be the implicitly generated load node for the result }
{$ifdef JVM}
{ all other platforms except jvm translate raise nodes into call nodes during pass_1 }
raisen,
{$endif JVM}
loadn,
assignn,
calln,
temprefn,
typeconvn,
inlinen,
tempcreaten,
tempdeleten:
MaybeSearchIn(node);
nothingn,
continuen,
goton,
breakn:
;
else
internalerror(2013111301);
end;
{ if already a warning has been issued, then stop }
if Result then
exit;
if assigned(node.successor) then
MaybeDoCheck(node.successor);
end;
begin
SearchNodeInfo.nodetosearch:=nodetosearch;
DoCheck(code);
foreachnodestatic(pm_postprocess,code,@ResetProcessing,nil);
end;
begin
SearchNodeProcPointer:=@SearchNode;
end.