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fpc/compiler/ptype.pas

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{
$Id$
Copyright (c) 1998-2000 by Florian Klaempfl
Does parsing types for Free Pascal
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 ptype;
{$i defines.inc}
interface
uses
globtype,symtype;
const
{ forward types should only be possible inside a TYPE statement }
typecanbeforward : boolean = false;
var
{ hack, which allows to use the current parsed }
{ object type as function argument type }
testcurobject : byte;
curobjectname : stringid;
{ reads a string, file type or a type id and returns a name and }
{ pdef }
procedure single_type(var tt:ttype;var s : string;isforwarddef:boolean);
procedure read_type(var tt:ttype;const name : stringid);
{ reads a type definition }
{ to a appropriating pdef, s gets the name of }
{ the type to allow name mangling }
procedure id_type(var tt : ttype;var s : string;isforwarddef:boolean);
implementation
uses
{ common }
cutils,cobjects,cpuinfo,
{ global }
globals,tokens,verbose,
systems,
{ symtable }
symconst,symbase,symdef,symsym,symtable,types,
{ pass 1 }
node,pass_1,
nmat,nadd,ncal,nset,ncnv,ninl,ncon,nld,nflw,
{ parser }
scanner,
pbase,pexpr,pdecsub,pdecvar,pdecobj;
procedure id_type(var tt : ttype;var s : string;isforwarddef:boolean);
{ reads a type definition }
{ to a appropriating pdef, s gets the name of }
{ the type to allow name mangling }
var
is_unit_specific : boolean;
pos : tfileposinfo;
srsym : psym;
srsymtable : psymtable;
begin
s:=pattern;
pos:=akttokenpos;
{ classes can be used also in classes }
if (curobjectname=pattern) and is_class_or_interface(aktobjectdef) then
begin
tt.setdef(aktobjectdef);
consume(_ID);
exit;
end;
{ objects can be parameters }
if (testcurobject=2) and (curobjectname=pattern) then
begin
tt.setdef(aktobjectdef);
consume(_ID);
exit;
end;
{ try to load the symbol to see if it's a unitsym }
is_unit_specific:=false;
searchsym(s,srsym,srsymtable);
consume(_ID);
if assigned(srsym) and
(srsym^.typ=unitsym) then
begin
consume(_POINT);
srsym:=searchsymonlyin(punitsym(srsym)^.unitsymtable,pattern);
pos:=akttokenpos;
s:=pattern;
consume(_ID);
is_unit_specific:=true;
end;
{ are we parsing a possible forward def ? }
if isforwarddef and
not(is_unit_specific) then
begin
tt.setdef(new(pforwarddef,init(s,pos)));
exit;
end;
{ unknown sym ? }
if not assigned(srsym) then
begin
Message1(sym_e_id_not_found,s);
tt.setdef(generrordef);
exit;
end;
{ type sym ? }
if (srsym^.typ<>typesym) then
begin
Message(type_e_type_id_expected);
tt.setdef(generrordef);
exit;
end;
{ Types are first defined with an error def before assigning
the real type so check if it's an errordef. if so then
give an error }
if (ptypesym(srsym)^.restype.def=generrordef) then
begin
Message(sym_e_error_in_type_def);
tt.setdef(generrordef);
exit;
end;
{ Only use the definitions for system/current unit, becuase
they can be refered from the parameters and symbols are not
loaded at that time. A symbol reference to an other unit
is still possible, because it's already loaded (PFV)
can't use in [] here, becuase unitid can be > 255 }
if (ptypesym(srsym)^.owner^.unitid=0) or
(ptypesym(srsym)^.owner^.unitid=1) then
tt.setdef(ptypesym(srsym)^.restype.def)
else
tt.setsym(srsym);
end;
procedure single_type(var tt:ttype;var s : string;isforwarddef:boolean);
{ reads a string, file type or a type id and returns a name and }
{ pdef }
var
hs : string;
t2 : ttype;
begin
case token of
_STRING:
begin
tt.setdef(string_dec);
s:='STRING';
end;
_FILE:
begin
consume(_FILE);
if token=_OF then
begin
consume(_OF);
single_type(t2,hs,false);
tt.setdef(new(pfiledef,inittyped(t2)));
s:='FILE$OF$'+hs;
end
else
begin
tt.setdef(cfiledef);
s:='FILE';
end;
end;
else
begin
id_type(tt,s,isforwarddef);
end;
end;
end;
{ reads a record declaration }
function record_dec : pdef;
var
symtable : psymtable;
storetypecanbeforward : boolean;
begin
{ create recdef }
symtable:=new(pstoredsymtable,init(recordsymtable));
record_dec:=new(precorddef,init(symtable));
{ update symtable stack }
symtable^.next:=symtablestack;
symtablestack:=symtable;
{ parse record }
consume(_RECORD);
storetypecanbeforward:=typecanbeforward;
{ for tp mode don't allow forward types }
if m_tp in aktmodeswitches then
typecanbeforward:=false;
read_var_decs(true,false,false);
consume(_END);
typecanbeforward:=storetypecanbeforward;
{ may be scale record size to a size of n*4 ? }
symtablestack^.datasize:=align(symtablestack^.datasize,symtablestack^.dataalignment);
{ restore symtable stack }
symtablestack:=symtable^.next;
end;
{ reads a type definition and returns a pointer to it }
procedure read_type(var tt : ttype;const name : stringid);
var
pt : tnode;
tt2 : ttype;
aktenumdef : penumdef;
ap : parraydef;
s : stringid;
l,v : TConstExprInt;
oldaktpackrecords : tpackrecords;
hs : string;
defpos,storepos : tfileposinfo;
procedure expr_type;
var
pt1,pt2 : tnode;
begin
{ use of current parsed object ? }
if (token=_ID) and (testcurobject=2) and (curobjectname=pattern) then
begin
consume(_ID);
tt.setdef(aktobjectdef);
exit;
end;
{ classes can be used also in classes }
if (curobjectname=pattern) and is_class_or_interface(aktobjectdef) then
begin
tt.setdef(aktobjectdef);
consume(_ID);
exit;
end;
{ we can't accept a equal in type }
pt1:=comp_expr(not(ignore_equal));
do_firstpass(pt1);
if (token=_POINTPOINT) then
begin
consume(_POINTPOINT);
{ get high value of range }
pt2:=comp_expr(not(ignore_equal));
do_firstpass(pt2);
{ both must be evaluated to constants now }
if (pt1.nodetype=ordconstn) and
(pt2.nodetype=ordconstn) then
begin
{ check types }
if CheckTypes(pt1.resulttype,pt2.resulttype) then
begin
{ Check bounds }
if tordconstnode(pt2).value<tordconstnode(pt1).value then
Message(cg_e_upper_lower_than_lower)
else
begin
{ All checks passed, create the new def }
case pt1.resulttype^.deftype of
enumdef :
tt.setdef(new(penumdef,init_subrange(penumdef(pt1.resulttype),tordconstnode(pt1).value,tordconstnode(pt2).value)));
orddef :
begin
if is_char(pt1.resulttype) then
tt.setdef(new(porddef,init(uchar,tordconstnode(pt1).value,tordconstnode(pt2).value)))
else
if is_boolean(pt1.resulttype) then
tt.setdef(new(porddef,init(bool8bit,tordconstnode(pt1).value,tordconstnode(pt2).value)))
else
tt.setdef(new(porddef,init(uauto,tordconstnode(pt1).value,tordconstnode(pt2).value)));
end;
end;
end;
end;
end
else
Message(sym_e_error_in_type_def);
pt2.free;
end
else
begin
{ a simple type renaming }
if (pt1.nodetype=typen) then
begin
if assigned(ttypenode(pt1).typenodesym) then
tt.setsym(ttypenode(pt1).typenodesym)
else
tt.setdef(pt1.resulttype);
end
else
Message(sym_e_error_in_type_def);
end;
pt1.free;
end;
procedure array_dec;
var
lowval,
highval : longint;
arraytype : pdef;
ht : ttype;
procedure setdefdecl(p:pdef);
begin
case p^.deftype of
enumdef :
begin
lowval:=penumdef(p)^.min;
highval:=penumdef(p)^.max;
arraytype:=p;
end;
orddef :
begin
if porddef(p)^.typ in [uchar,
u8bit,u16bit,
s8bit,s16bit,s32bit,
bool8bit,bool16bit,bool32bit,
uwidechar] then
begin
lowval:=porddef(p)^.low;
highval:=porddef(p)^.high;
arraytype:=p;
end
else
Message1(parser_e_type_cant_be_used_in_array_index,p^.gettypename);
end;
else
Message(sym_e_error_in_type_def);
end;
end;
begin
consume(_ARRAY);
{ open array? }
if token=_LECKKLAMMER then
begin
consume(_LECKKLAMMER);
{ defaults }
arraytype:=generrordef;
lowval:=longint($80000000);
highval:=$7fffffff;
tt.reset;
repeat
{ read the expression and check it, check apart if the
declaration is an enum declaration because that needs to
be parsed by readtype (PFV) }
if token=_LKLAMMER then
begin
read_type(ht,'');
setdefdecl(ht.def);
end
else
begin
pt:=expr;
if pt.nodetype=typen then
setdefdecl(pt.resulttype)
else
begin
do_firstpass(pt);
if (pt.nodetype=rangen) then
begin
if (trangenode(pt).left.nodetype=ordconstn) and
(trangenode(pt).right.nodetype=ordconstn) then
begin
lowval:=tordconstnode(trangenode(pt).left).value;
highval:=tordconstnode(trangenode(pt).right).value;
if highval<lowval then
begin
Message(parser_e_array_lower_less_than_upper_bound);
highval:=lowval;
end;
arraytype:=trangenode(pt).right.resulttype;
end
else
Message(type_e_cant_eval_constant_expr);
end
else
Message(sym_e_error_in_type_def)
end;
pt.free;
end;
{ create arraydef }
if not assigned(tt.def) then
begin
ap:=new(parraydef,init(lowval,highval,arraytype));
tt.setdef(ap);
end
else
begin
ap^.elementtype.setdef(new(parraydef,init(lowval,highval,arraytype)));
ap:=parraydef(ap^.elementtype.def);
end;
if token=_COMMA then
consume(_COMMA)
else
break;
until false;
consume(_RECKKLAMMER);
end
else
begin
ap:=new(parraydef,init(0,-1,s32bitdef));
ap^.IsDynamicArray:=true;
tt.setdef(ap);
end;
consume(_OF);
read_type(tt2,'');
{ if no error, set element type }
if assigned(ap) then
ap^.elementtype:=tt2;
end;
begin
tt.reset;
case token of
_STRING,_FILE:
begin
single_type(tt,hs,false);
end;
_LKLAMMER:
begin
consume(_LKLAMMER);
{ allow negativ value_str }
l:=-1;
aktenumdef:=new(penumdef,init);
repeat
s:=orgpattern;
defpos:=akttokenpos;
consume(_ID);
{ only allow assigning of specific numbers under fpc mode }
if (m_fpc in aktmodeswitches) and
(token=_ASSIGNMENT) then
begin
consume(_ASSIGNMENT);
v:=get_intconst;
{ please leave that a note, allows type save }
{ declarations in the win32 units ! }
if v<=l then
Message(parser_n_duplicate_enum);
l:=v;
end
else
inc(l);
storepos:=akttokenpos;
akttokenpos:=defpos;
constsymtable^.insert(new(penumsym,init(s,aktenumdef,l)));
akttokenpos:=storepos;
until not try_to_consume(_COMMA);
tt.setdef(aktenumdef);
consume(_RKLAMMER);
end;
_ARRAY:
begin
array_dec;
end;
_SET:
begin
consume(_SET);
consume(_OF);
read_type(tt2,'');
if assigned(tt2.def) then
begin
case tt2.def^.deftype of
{ don't forget that min can be negativ PM }
enumdef :
if penumdef(tt2.def)^.min>=0 then
tt.setdef(new(psetdef,init(tt2.def,penumdef(tt2.def)^.max)))
else
Message(sym_e_ill_type_decl_set);
orddef :
begin
case porddef(tt2.def)^.typ of
uchar :
tt.setdef(new(psetdef,init(tt2.def,255)));
u8bit,u16bit,u32bit,
s8bit,s16bit,s32bit :
begin
if (porddef(tt2.def)^.low>=0) then
tt.setdef(new(psetdef,init(tt2.def,porddef(tt2.def)^.high)))
else
Message(sym_e_ill_type_decl_set);
end;
else
Message(sym_e_ill_type_decl_set);
end;
end;
else
Message(sym_e_ill_type_decl_set);
end;
end
else
tt.setdef(generrordef);
end;
_CARET:
begin
consume(_CARET);
single_type(tt2,hs,typecanbeforward);
tt.setdef(new(ppointerdef,init(tt2)));
end;
_RECORD:
begin
tt.setdef(record_dec);
end;
_PACKED:
begin
consume(_PACKED);
if token=_ARRAY then
array_dec
else
begin
oldaktpackrecords:=aktpackrecords;
aktpackrecords:=packrecord_1;
if token in [_CLASS,_OBJECT] then
tt.setdef(object_dec(name,nil))
else
tt.setdef(record_dec);
aktpackrecords:=oldaktpackrecords;
end;
end;
_CLASS,
_CPPCLASS,
_INTERFACE,
_OBJECT:
begin
tt.setdef(object_dec(name,nil));
end;
_PROCEDURE:
begin
consume(_PROCEDURE);
tt.setdef(new(pprocvardef,init));
if token=_LKLAMMER then
parameter_dec(pprocvardef(tt.def));
if token=_OF then
begin
consume(_OF);
consume(_OBJECT);
include(pprocvardef(tt.def)^.procoptions,po_methodpointer);
end;
end;
_FUNCTION:
begin
consume(_FUNCTION);
tt.def:=new(pprocvardef,init);
if token=_LKLAMMER then
parameter_dec(pprocvardef(tt.def));
consume(_COLON);
single_type(pprocvardef(tt.def)^.rettype,hs,false);
if token=_OF then
begin
consume(_OF);
consume(_OBJECT);
include(pprocvardef(tt.def)^.procoptions,po_methodpointer);
end;
end;
else
expr_type;
end;
if tt.def=nil then
tt.setdef(generrordef);
end;
end.
{
$Log$
Revision 1.18 2001-03-11 22:58:50 peter
* getsym redesign, removed the globals srsym,srsymtable
Revision 1.17 2000/12/07 17:19:43 jonas
* new constant handling: from now on, hex constants >$7fffffff are
parsed as unsigned constants (otherwise, $80000000 got sign extended
and became $ffffffff80000000), all constants in the longint range
become longints, all constants >$7fffffff and <=cardinal($ffffffff)
are cardinals and the rest are int64's.
* added lots of longint typecast to prevent range check errors in the
compiler and rtl
* type casts of symbolic ordinal constants are now preserved
* fixed bug where the original resulttype wasn't restored correctly
after doing a 64bit rangecheck
Revision 1.16 2000/11/29 00:30:38 florian
* unused units removed from uses clause
* some changes for widestrings
Revision 1.15 2000/11/14 23:43:38 florian
* fixed 1238
Revision 1.14 2000/11/04 14:25:21 florian
+ merged Attila's changes for interfaces, not tested yet
Revision 1.13 2000/10/31 22:02:51 peter
* symtable splitted, no real code changes
Revision 1.12 2000/10/26 21:54:03 peter
* fixed crash with error in child definition (merged)
Revision 1.11 2000/10/21 18:16:12 florian
* a lot of changes:
- basic dyn. array support
- basic C++ support
- some work for interfaces done
....
Revision 1.10 2000/10/14 10:14:52 peter
* moehrendorf oct 2000 rewrite
Revision 1.9 2000/09/24 15:06:25 peter
* use defines.inc
Revision 1.8 2000/08/27 20:19:39 peter
* store strings with case in ppu, when an internal symbol is created
a '$' is prefixed so it's not automatic uppercased
Revision 1.7 2000/08/27 16:11:52 peter
* moved some util functions from globals,cobjects to cutils
* splitted files into finput,fmodule
Revision 1.6 2000/08/16 18:33:54 peter
* splitted namedobjectitem.next into indexnext and listnext so it
can be used in both lists
* don't allow "word = word" type definitions (merged)
Revision 1.5 2000/08/06 14:17:15 peter
* overload fixes (merged)
Revision 1.4 2000/07/30 17:04:43 peter
* merged fixes
Revision 1.3 2000/07/13 12:08:27 michael
+ patched to 1.1.0 with former 1.09patch from peter
Revision 1.2 2000/07/13 11:32:47 michael
+ removed logs
}
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