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Version:
3.2.0 ▾
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{
Copyright (c) 2000-2002 by Florian Klaempfl
Type checking and register allocation for set/case nodes
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 nset;
{$i fpcdefs.inc}
interface
uses
cclasses,constexp,
node,globtype,globals,
aasmbase,ncon,nflw,symtype;
type
TLabelType = (ltOrdinal, ltConstString);
pcaselabel = ^tcaselabel;
tcaselabel = record
{ unique blockid }
blockid : longint;
{ left and right tree node }
less,
greater : pcaselabel;
labellabel : TAsmLabel;
{ range type }
case label_type : TLabelType of
ltOrdinal:
(
_low,
_high : TConstExprInt;
);
ltConstString:
(
_low_str,
_high_str : tstringconstnode;
);
end;
pcaseblock = ^tcaseblock;
tcaseblock = record
{ label (only used in pass_generate_code) }
blocklabel : tasmlabel;
statementlabel : tlabelnode;
{ instructions }
statement : tnode;
end;
tsetelementnode = class(tbinarynode)
constructor create(l,r : tnode);virtual;
function pass_typecheck:tnode;override;
function pass_1 : tnode;override;
end;
tsetelementnodeclass = class of tsetelementnode;
tinnode = class(tbinopnode)
constructor create(l,r : tnode);virtual;reintroduce;
function pass_typecheck:tnode;override;
function simplify(forinline : boolean):tnode;override;
function pass_1 : tnode;override;
end;
tinnodeclass = class of tinnode;
trangenode = class(tbinarynode)
constructor create(l,r : tnode);virtual;
function pass_typecheck:tnode;override;
function pass_1 : tnode;override;
end;
trangenodeclass = class of trangenode;
tcasenode = class(tunarynode)
labels : pcaselabel;
blocks : TFPList;
elseblock : tnode;
constructor create(l:tnode);virtual;
destructor destroy;override;
constructor ppuload(t:tnodetype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
procedure buildderefimpl;override;
procedure derefimpl;override;
function dogetcopy : tnode;override;
procedure printnodetree(var t:text);override;
procedure insertintolist(l : tnodelist);override;
function pass_typecheck:tnode;override;
function pass_1 : tnode;override;
function simplify(forinline:boolean):tnode;override;
function docompare(p: tnode): boolean; override;
procedure addlabel(blockid:longint;const l,h : TConstExprInt); overload;
procedure addlabel(blockid:longint;l,h : tstringconstnode); overload;
procedure addblock(blockid:longint;instr:tnode);
procedure addelseblock(instr:tnode);
end;
tcasenodeclass = class of tcasenode;
var
csetelementnode : tsetelementnodeclass = tsetelementnode;
cinnode : tinnodeclass = tinnode;
crangenode : trangenodeclass = trangenode;
ccasenode : tcasenodeclass = tcasenode;
{ counts the labels }
function case_count_labels(root : pcaselabel) : longint;
{ searches the highest label }
function case_get_max(root : pcaselabel) : tconstexprint;
{ searches the lowest label }
function case_get_min(root : pcaselabel) : tconstexprint;
implementation
uses
verbose,
symconst,symdef,symsym,symtable,defutil,defcmp,
htypechk,pass_1,
nadd,nbas,ncnv,nld,cgbase;
{*****************************************************************************
TSETELEMENTNODE
*****************************************************************************}
constructor tsetelementnode.create(l,r : tnode);
begin
inherited create(setelementn,l,r);
end;
function tsetelementnode.pass_typecheck:tnode;
begin
result:=nil;
typecheckpass(left);
if assigned(right) then
typecheckpass(right);
set_varstate(left,vs_read,[vsf_must_be_valid]);
if codegenerror then
exit;
resultdef:=left.resultdef;
end;
function tsetelementnode.pass_1 : tnode;
begin
result:=nil;
firstpass(left);
if assigned(right) then
firstpass(right);
if codegenerror then
exit;
expectloc:=left.expectloc;
end;
{*****************************************************************************
TINNODE
*****************************************************************************}
constructor tinnode.create(l,r : tnode);
begin
inherited create(inn,l,r);
end;
function tinnode.pass_typecheck:tnode;
var
t : tnode;
function createsetconst(psd : tsetdef) : pconstset;
var
pcs : pconstset;
i : longint;
begin
new(pcs);
case psd.elementdef.typ of
enumdef :
begin
for i := 0 to tenumdef(psd.elementdef).symtable.SymList.Count - 1 do
begin
include(pcs^,tenumsym(tenumdef(psd.elementdef).symtable.SymList[i]).value);
end;
end;
orddef :
begin
for i:=int64(torddef(psd.elementdef).low) to int64(torddef(psd.elementdef).high) do
include(pcs^,i);
end;
end;
createsetconst:=pcs;
end;
begin
result:=nil;
resultdef:=pasbool1type;
typecheckpass(right);
set_varstate(right,vs_read,[vsf_must_be_valid]);
if codegenerror then
exit;
{ Convert array constructor first to set }
if is_array_constructor(right.resultdef) then
begin
arrayconstructor_to_set(right);
firstpass(right);
if codegenerror then
exit;
end;
typecheckpass(left);
set_varstate(left,vs_read,[vsf_must_be_valid]);
if codegenerror then
exit;
if not assigned(left.resultdef) then
internalerror(20021126);
t:=self;
if isbinaryoverloaded(t,[]) then
begin
result:=t;
exit;
end;
if right.resultdef.typ<>setdef then
CGMessage(sym_e_set_expected);
if codegenerror then
exit;
if (m_tp7 in current_settings.modeswitches) then
begin
{ insert a hint that a range check error might occur on non-byte
elements with the in operator.
}
if (
(left.resultdef.typ = orddef) and not
(torddef(left.resultdef).ordtype in [s8bit,u8bit,uchar,pasbool1,pasbool8,bool8bit])
)
or
(
(left.resultdef.typ = enumdef) and
(tenumdef(left.resultdef).maxval > 255)
)
then
CGMessage(type_h_in_range_check);
{ type conversion/check }
if assigned(tsetdef(right.resultdef).elementdef) then
inserttypeconv(left,tsetdef(right.resultdef).elementdef);
end
else if not is_ordinal(left.resultdef) or (left.resultdef.size > u32inttype.size) then
begin
CGMessage(type_h_in_range_check);
if is_signed(left.resultdef) then
inserttypeconv(left,s32inttype)
else
inserttypeconv(left,u32inttype);
end
else if assigned(tsetdef(right.resultdef).elementdef) and
not(is_integer(tsetdef(right.resultdef).elementdef) and
is_integer(left.resultdef)) then
{ Type conversion to check things like 'char in set_of_byte'. }
{ Can't use is_subequal because that will fail for }
{ 'widechar in set_of_char' }
{ Can't use the type conversion for integers because then }
{ "longint in set_of_byte" will give a range check error }
{ instead of false }
inserttypeconv(left,tsetdef(right.resultdef).elementdef);
{ empty set then return false }
if not assigned(tsetdef(right.resultdef).elementdef) or
((right.nodetype = setconstn) and
(tnormalset(tsetconstnode(right).value_set^) = [])) then
begin
t:=cordconstnode.create(0,pasbool1type,false);
typecheckpass(t);
result:=t;
exit;
end;
result:=simplify(false);
end;
function tinnode.simplify(forinline : boolean):tnode;
var
t : tnode;
begin
result:=nil;
{ constant evaluation }
if (left.nodetype=ordconstn) then
begin
if (right.nodetype=setconstn) then
begin
{ tordconstnode.value is int64 -> signed -> the expression }
{ below will be converted to longint on 32 bit systems due }
{ to the rule above -> will give range check error if }
{ value > high(longint) if we don't take the signedness }
{ into account }
if Tordconstnode(left).value.signed then
t:=cordconstnode.create(byte(tordconstnode(left).value.svalue in Tsetconstnode(right).value_set^),
pasbool1type,true)
else
t:=cordconstnode.create(byte(tordconstnode(left).value.uvalue in Tsetconstnode(right).value_set^),
pasbool1type,true);
typecheckpass(t);
result:=t;
exit;
end
else
begin
if (Tordconstnode(left).value<int64(tsetdef(right.resultdef).setbase)) or
(Tordconstnode(left).value>int64(Tsetdef(right.resultdef).setmax)) then
begin
t:=cordconstnode.create(0, pasbool1type, true);
typecheckpass(t);
result:=t;
exit;
end;
end;
end;
end;
function tinnode.pass_1 : tnode;
begin
result:=nil;
expectloc:=LOC_REGISTER;
firstpass(right);
firstpass(left);
if codegenerror then
exit;
end;
{*****************************************************************************
TRANGENODE
*****************************************************************************}
constructor trangenode.create(l,r : tnode);
var
value: string;
begin
{ if right is char and left is string then }
{ right should be treated as one-symbol string }
if is_conststringnode(l) and is_constcharnode(r) then
begin
value := char(tordconstnode(r).value.uvalue) + ''#0;
r.free;
r := cstringconstnode.createstr(value);
do_typecheckpass(r);
end;
inherited create(rangen,l,r);
end;
function trangenode.pass_typecheck : tnode;
begin
result:=nil;
typecheckpass(left);
typecheckpass(right);
set_varstate(left,vs_read,[vsf_must_be_valid]);
set_varstate(right,vs_read,[vsf_must_be_valid]);
if codegenerror then
exit;
{ both types must be compatible }
if compare_defs(left.resultdef,right.resultdef,left.nodetype)=te_incompatible then
IncompatibleTypes(left.resultdef,right.resultdef);
{ Check if only when its a constant set }
if (left.nodetype=ordconstn) and (right.nodetype=ordconstn) then
begin
{ upper limit must be greater or equal than lower limit }
if (tordconstnode(left).value>tordconstnode(right).value) and
((tordconstnode(left).value<0) or (tordconstnode(right).value>=0)) then
CGMessage(parser_e_upper_lower_than_lower);
end;
resultdef:=left.resultdef;
end;
function trangenode.pass_1 : tnode;
begin
result:=nil;
firstpass(left);
firstpass(right);
if codegenerror then
exit;
expectloc:=left.expectloc;
end;
{*****************************************************************************
Case Helpers
*****************************************************************************}
function case_count_labels(root : pcaselabel) : longint;
var
_l : longint;
procedure count(p : pcaselabel);
begin
inc(_l);
if assigned(p^.less) then
count(p^.less);
if assigned(p^.greater) then
count(p^.greater);
end;
begin
_l:=0;
count(root);
case_count_labels:=_l;
end;
function case_get_max(root : pcaselabel) : tconstexprint;
var
hp : pcaselabel;
begin
hp:=root;
while assigned(hp^.greater) do
hp:=hp^.greater;
case_get_max:=hp^._high;
end;
function case_get_min(root : pcaselabel) : tconstexprint;
var
hp : pcaselabel;
begin
hp:=root;
while assigned(hp^.less) do
hp:=hp^.less;
case_get_min:=hp^._low;
end;
procedure deletecaselabels(p : pcaselabel);
begin
if assigned(p^.greater) then
deletecaselabels(p^.greater);
if assigned(p^.less) then
deletecaselabels(p^.less);
if (p^.label_type = ltConstString) then
begin
p^._low_str.Free;
p^._high_str.Free;
end;
dispose(p);
end;
function copycaselabel(p : pcaselabel) : pcaselabel;
var
n : pcaselabel;
begin
new(n);
n^:=p^;
if (p^.label_type = ltConstString) then
begin
n^._low_str := tstringconstnode(p^._low_str.getcopy);
n^._high_str := tstringconstnode(p^._high_str.getcopy);
end;
if assigned(p^.greater) then
n^.greater:=copycaselabel(p^.greater);
if assigned(p^.less) then
n^.less:=copycaselabel(p^.less);
copycaselabel:=n;
end;
procedure ppuwritecaselabel(ppufile:tcompilerppufile;p : pcaselabel);
var
b : byte;
begin
ppufile.putboolean(p^.label_type = ltConstString);
if (p^.label_type = ltConstString) then
begin
p^._low_str.ppuwrite(ppufile);
p^._high_str.ppuwrite(ppufile);
end
else
begin
ppufile.putexprint(p^._low);
ppufile.putexprint(p^._high);
end;
ppufile.putlongint(p^.blockid);
b:=ord(assigned(p^.greater)) or (ord(assigned(p^.less)) shl 1);
ppufile.putbyte(b);
if assigned(p^.greater) then
ppuwritecaselabel(ppufile,p^.greater);
if assigned(p^.less) then
ppuwritecaselabel(ppufile,p^.less);
end;
function ppuloadcaselabel(ppufile:tcompilerppufile):pcaselabel;
var
b : byte;
p : pcaselabel;
begin
new(p);
if ppufile.getboolean then
begin
p^.label_type := ltConstString;
p^._low_str := cstringconstnode.ppuload(stringconstn,ppufile);
p^._high_str := cstringconstnode.ppuload(stringconstn,ppufile);
end
else
begin
p^.label_type := ltOrdinal;
p^._low:=ppufile.getexprint;
p^._high:=ppufile.getexprint;
end;
p^.blockid:=ppufile.getlongint;
b:=ppufile.getbyte;
if (b and 1)=1 then
p^.greater:=ppuloadcaselabel(ppufile)
else
p^.greater:=nil;
if (b and 2)=2 then
p^.less:=ppuloadcaselabel(ppufile)
else
p^.less:=nil;
ppuloadcaselabel:=p;
end;
{*****************************************************************************
TCASENODE
*****************************************************************************}
constructor tcasenode.create(l:tnode);
begin
inherited create(casen,l);
labels:=nil;
blocks:=TFPList.create;
elseblock:=nil;
end;
destructor tcasenode.destroy;
var
i : longint;
hp : pcaseblock;
begin
elseblock.free;
deletecaselabels(labels);
for i:=0 to blocks.count-1 do
begin
pcaseblock(blocks[i])^.statement.free;
hp:=pcaseblock(blocks[i]);
dispose(hp);
end;
blocks.free;
inherited destroy;
end;
constructor tcasenode.ppuload(t:tnodetype;ppufile:tcompilerppufile);
var
cnt,i : longint;
begin
inherited ppuload(t,ppufile);
elseblock:=ppuloadnode(ppufile);
cnt:=ppufile.getlongint();
blocks:=TFPList.create;
for i:=0 to cnt-1 do
addblock(i,ppuloadnode(ppufile));
labels:=ppuloadcaselabel(ppufile);
end;
procedure tcasenode.ppuwrite(ppufile:tcompilerppufile);
var
i : longint;
begin
inherited ppuwrite(ppufile);
ppuwritenode(ppufile,elseblock);
ppufile.putlongint(blocks.count);
for i:=0 to blocks.count-1 do
ppuwritenode(ppufile,pcaseblock(blocks[i])^.statement);
ppuwritecaselabel(ppufile,labels);
end;
procedure tcasenode.buildderefimpl;
var
i : integer;
begin
inherited buildderefimpl;
if assigned(elseblock) then
elseblock.buildderefimpl;
for i:=0 to blocks.count-1 do
pcaseblock(blocks[i])^.statement.buildderefimpl;
end;
procedure tcasenode.derefimpl;
var
i : integer;
begin
inherited derefimpl;
if assigned(elseblock) then
elseblock.derefimpl;
for i:=0 to blocks.count-1 do
pcaseblock(blocks[i])^.statement.derefimpl;
end;
function tcasenode.pass_typecheck : tnode;
var
i : integer;
begin
result:=nil;
do_typecheckpass(left);
for i:=0 to blocks.count-1 do
typecheckpass(pcaseblock(blocks[i])^.statement);
if assigned(elseblock) then
typecheckpass(elseblock);
resultdef:=voidtype;
end;
type
TLinkedListCaseLabelItem = class(TLinkedListItem)
casenode: pcaselabel;
constructor create(c: pcaselabel);
end;
constructor TLinkedListCaseLabelItem.create(c: pcaselabel);
begin
inherited create;
casenode:=c;
end;
function tcasenode.pass_1 : tnode;
var
i: integer;
node_thenblock, node_elseblock, if_node,temp_cleanup : tnode;
tempcaseexpr : ttempcreatenode;
if_block, init_block: tblocknode;
stmt: tstatementnode;
procedure add_label_to_blockid_list(list: tfpobjectlist; lab: pcaselabel);
begin
if not assigned(lab) then
exit;
if not assigned(list[lab^.blockid]) then
list[lab^.blockid]:=tfpobjectlist.create(true);
tfpobjectlist(list[lab^.blockid]).add(TLinkedListCaseLabelItem.create(lab));
add_label_to_blockid_list(list,lab^.less);
add_label_to_blockid_list(list,lab^.greater);
end;
function order_labels_by_blockid: tfpobjectlist;
begin
result:=tfpobjectlist.create(true);
result.count:=blocks.count;
add_label_to_blockid_list(result,labels);
end;
function makeifblock(elseblock : tnode): tnode;
var
i, j: longint;
check: taddnode;
newcheck: ^taddnode;
blocklist, lablist: tfpobjectlist;
labitem: pcaselabel;
begin
result:=elseblock;
blocklist:=order_labels_by_blockid;
{ in reverse order so that the case options at the start of the case
statement are evaluated first, as they presumably are the most
common }
for i:=blocklist.count-1 downto 0 do
begin
lablist:=tfpobjectlist(blocklist[i]);
check:=nil;
for j:=0 to lablist.count-1 do
begin
if assigned(check) then
begin
check:=caddnode.create(orn,check,nil);
newcheck:=@check.right
end
else
newcheck:=@check;
labitem:=TLinkedListCaseLabelItem(lablist[j]).casenode;
newcheck^:=caddnode.create(equaln,left.getcopy,labitem^._low_str.getcopy);
if (labitem^._low_str.fullcompare(labitem^._high_str)<>0) then
begin
newcheck^.nodetype:=gten;
newcheck^:=caddnode.create(
andn,newcheck^,caddnode.create(
lten,left.getcopy,labitem^._high_str.getcopy));
end;
end;
result:=cifnode.create(check,
pcaseblock(blocks[i])^.statement,result);
pcaseblock(blocks[i])^.statement:=nil;
end;
{ will free its elements too because of create(true) }
blocklist.free;
typecheckpass(result);
end;
begin
result:=nil;
init_block:=nil;
temp_cleanup:=nil;
expectloc:=LOC_VOID;
{ evalutes the case expression }
firstpass(left);
set_varstate(left,vs_read,[vsf_must_be_valid]);
if codegenerror then
exit;
{ Load caseexpr into temp var if complex. }
{ No need to do this for ordinal, because }
{ in that case caseexpr is generated once }
if (labels^.label_type = ltConstString) and (not valid_for_addr(left, false)) and
(blocks.count > 0) then
begin
init_block := internalstatements(stmt);
tempcaseexpr :=
ctempcreatenode.create(
left.resultdef, left.resultdef.size, tt_persistent, true);
temp_cleanup := ctempdeletenode.create(tempcaseexpr);
typecheckpass(tnode(tempcaseexpr));
addstatement(stmt, tempcaseexpr);
addstatement(
stmt, cassignmentnode.create(
ctemprefnode.create(tempcaseexpr), left));
left := ctemprefnode.create(tempcaseexpr);
typecheckpass(left);
end;
{ first case }
for i:=0 to blocks.count-1 do
firstpass(pcaseblock(blocks[i])^.statement);
{ may be handle else tree }
if assigned(elseblock) then
begin
firstpass(elseblock);
{ kill case? }
if blocks.count=0 then
begin
result:=elseblock;
elseblock:=nil;
exit;
end;
end
else
if blocks.count=0 then
begin
result:=cnothingnode.create;
exit;
end;
if (labels^.label_type = ltConstString) then
begin
if_node:=makeifblock(elseblock);
if assigned(init_block) then
firstpass(tnode(init_block));
if_block:=internalstatements(stmt);
if assigned(init_block) then
addstatement(stmt, init_block);
addstatement(stmt,if_node);
if assigned(temp_cleanup) then
addstatement(stmt,temp_cleanup);
result:=if_block;
elseblock:= nil;
exit;
end;
if is_boolean(left.resultdef) then
begin
case blocks.count of
2:
begin
if boolean(qword(labels^._low))=false then
begin
node_thenblock:=pcaseblock(blocks[labels^.greater^.blockid])^.statement;
node_elseblock:=pcaseblock(blocks[labels^.blockid])^.statement;
pcaseblock(blocks[labels^.greater^.blockid])^.statement:=nil;
end
else
begin
node_thenblock:=pcaseblock(blocks[labels^.blockid])^.statement;
node_elseblock:=pcaseblock(blocks[labels^.less^.blockid])^.statement;
pcaseblock(blocks[labels^.less^.blockid])^.statement:=nil;
end;
pcaseblock(blocks[labels^.blockid])^.statement:=nil;
end;
1:
begin
if labels^._low=labels^._high then
begin
if boolean(qword(labels^._low))=false then
begin
node_thenblock:=elseblock;
node_elseblock:=pcaseblock(blocks[labels^.blockid])^.statement;
end
else
begin
node_thenblock:=pcaseblock(blocks[labels^.blockid])^.statement;
node_elseblock:=elseblock;
end;
pcaseblock(blocks[labels^.blockid])^.statement:=nil;
elseblock:=nil;
end
else
begin
result:=pcaseblock(blocks[labels^.blockid])^.statement;
pcaseblock(blocks[labels^.blockid])^.statement:=nil;
elseblock:=nil;
exit;
end;
end;
else
internalerror(200805031);
end;
result:=cifnode.create(left,node_thenblock,node_elseblock);
left:=nil;
end;
end;
function tcasenode.simplify(forinline:boolean):tnode;
var
tmp: pcaselabel;
begin
result:=nil;
if left.nodetype=ordconstn then
begin
tmp:=labels;
{ check all case labels until we find one that fits }
while assigned(tmp) do
begin
if (tmp^._low<=tordconstnode(left).value) and
(tmp^._high>=tordconstnode(left).value) then
begin
if tmp^.blockid>=blocks.count then
internalerror(2014022101);
result:=pcaseblock(blocks[tmp^.blockid])^.statement;
if not assigned(result) then
internalerror(2014022102);
result:=result.getcopy;
exit;
end;
if tmp^._high<tordconstnode(left).value then
tmp:=tmp^.greater
else
tmp:=tmp^.less;
end;
{ no label did match; use the else block if available }
if assigned(elseblock) then
result:=elseblock.getcopy
else
{ no else block, so there is no code to execute at all }
result:=cnothingnode.create;
end;
end;
function tcasenode.dogetcopy : tnode;
var
n : tcasenode;
i : longint;
begin
n:=tcasenode(inherited dogetcopy);
if assigned(elseblock) then
n.elseblock:=elseblock.dogetcopy
else
n.elseblock:=nil;
if assigned(labels) then
n.labels:=copycaselabel(labels)
else
n.labels:=nil;
if assigned(blocks) then
begin
n.blocks:=TFPList.create;
for i:=0 to blocks.count-1 do
begin
if not assigned(blocks[i]) then
internalerror(200411302);
n.addblock(i,pcaseblock(blocks[i])^.statement.dogetcopy);
end;
end
else
n.blocks:=nil;
dogetcopy:=n;
end;
procedure tcasenode.printnodetree(var t: text);
var
i : longint;
begin
write(t,printnodeindention,'(');
printnodeindent;
printnodeinfo(t);
writeln(t);
printnode(t,left);
i:=0;
for i:=0 to blocks.count-1 do
begin
writeln(t,printnodeindention,'(caseblock blockid: ',i);
printnodeindent;
printnode(t,pcaseblock(blocks[i])^.statement);
printnodeunindent;
writeln(t,printnodeindention,')');
end;
if assigned(elseblock) then
begin
writeln(t,printnodeindention,'(else: ',i);
printnodeindent;
printnode(t,elseblock);
printnodeunindent;
writeln(t,printnodeindention,')');
end;
printnodeunindent;
writeln(t,printnodeindention,')');
end;
procedure tcasenode.insertintolist(l : tnodelist);
begin
end;
function caselabelsequal(n1,n2: pcaselabel): boolean;
begin
result :=
(not assigned(n1) and not assigned(n2)) or
(assigned(n1) and assigned(n2) and
(n1^._low = n2^._low) and
(n1^._high = n2^._high) and
{ the rest of the fields don't matter for equality (JM) }
caselabelsequal(n1^.less,n2^.less) and
caselabelsequal(n1^.greater,n2^.greater))
end;
function caseblocksequal(b1,b2:TFPList): boolean;
var
i : longint;
begin
result:=false;
if b1.count<>b2.count then
exit;
for i:=0 to b1.count-1 do
begin
if not pcaseblock(b1[i])^.statement.isequal(pcaseblock(b2[i])^.statement) then
exit;
end;
result:=true;
end;
function tcasenode.docompare(p: tnode): boolean;
begin
result :=
inherited docompare(p) and
caselabelsequal(labels,tcasenode(p).labels) and
caseblocksequal(blocks,tcasenode(p).blocks) and
elseblock.isequal(tcasenode(p).elseblock);
end;
procedure tcasenode.addblock(blockid:longint;instr:tnode);
var
hcaseblock : pcaseblock;
begin
new(hcaseblock);
fillchar(hcaseblock^,sizeof(hcaseblock^),0);
hcaseblock^.statement:=instr;
if blockid>=blocks.count then
blocks.count:=blockid+1;
blocks[blockid]:=hcaseblock;
end;
procedure tcasenode.addelseblock(instr:tnode);
begin
elseblock:=instr;
end;
procedure tcasenode.addlabel(blockid:longint;const l,h : TConstExprInt);
var
hcaselabel : pcaselabel;
function insertlabel(var p : pcaselabel):pcaselabel;
begin
if p=nil then
begin
p:=hcaselabel;
result:=p;
end
else
if (p^._low>hcaselabel^._low) and
(p^._low>hcaselabel^._high) then
begin
if (hcaselabel^.blockid = p^.blockid) and
(p^._low = hcaselabel^._high + 1) then
begin
p^._low := hcaselabel^._low;
dispose(hcaselabel);
result:=p;
end
else
result:=insertlabel(p^.less)
end
else
if (p^._high<hcaselabel^._low) and
(p^._high<hcaselabel^._high) then
begin
if (hcaselabel^.blockid = p^.blockid) and
(p^._high+1 = hcaselabel^._low) then
begin
p^._high := hcaselabel^._high;
dispose(hcaselabel);
result:=p;
end
else
result:=insertlabel(p^.greater);
end
else
begin
dispose(hcaselabel);
Message(parser_e_double_caselabel);
result:=nil;
end
end;
begin
new(hcaselabel);
fillchar(hcaselabel^,sizeof(tcaselabel),0);
hcaselabel^.blockid:=blockid;
hcaselabel^.label_type:=ltOrdinal;
hcaselabel^._low:=l;
hcaselabel^._high:=h;
insertlabel(labels);
end;
procedure tcasenode.addlabel(blockid: longint; l, h: tstringconstnode);
var
hcaselabel : pcaselabel;
function insertlabel(var p : pcaselabel) : pcaselabel;
begin
if not assigned(p) then
begin
p := hcaselabel;
result := p;
end
else
if (p^._low_str.fullcompare(hcaselabel^._high_str) > 0) then
result := insertlabel(p^.less)
else
if (p^._high_str.fullcompare(hcaselabel^._low_str) < 0) then
result := insertlabel(p^.greater)
else
begin
hcaselabel^._low_str.free;
hcaselabel^._high_str.free;
dispose(hcaselabel);
Message(parser_e_double_caselabel);
result:=nil;
end;
end;
begin
new(hcaselabel);
fillchar(hcaselabel^, sizeof(tcaselabel), 0);
hcaselabel^.blockid := blockid;
hcaselabel^.label_type := ltConstString;
hcaselabel^._low_str := tstringconstnode(l.getcopy);
hcaselabel^._high_str := tstringconstnode(h.getcopy);
insertlabel(labels);
end;
end.