{ Copyright (c) 1998-2002 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 fpcdefs.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 } { tdef } procedure single_type(var tt:ttype;isforwarddef:boolean); procedure read_type(var tt:ttype;const name : stringid;parseprocvardir:boolean); { reads a type definition } { to a appropriating tdef, s gets the name of } { the type to allow name mangling } procedure id_type(var tt : ttype;isforwarddef:boolean); implementation uses { common } cutils, { global } globals,tokens,verbose, systems, { target } paramgr, { symtable } symconst,symbase,symdef,symsym,symtable, defutil,defcmp, { pass 1 } node, nmat,nadd,ncal,nset,ncnv,ninl,ncon,nld,nflw, { parser } scanner, pbase,pexpr,pdecsub,pdecvar,pdecobj; procedure id_type(var tt : ttype;isforwarddef:boolean); { reads a type definition } { to a appropriating tdef, s gets the name of } { the type to allow name mangling } var is_unit_specific : boolean; pos : tfileposinfo; srsym : tsym; srsymtable : tsymtable; s,sorg : stringid; begin s:=pattern; sorg:=orgpattern; 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. Use the special searchsym_type that ignores records,objects and parameters } is_unit_specific:=false; searchsym_type(s,srsym,srsymtable); consume(_ID); if assigned(srsym) and (srsym.typ=unitsym) then begin is_unit_specific:=true; consume(_POINT); if not(srsym.owner.symtabletype in [staticsymtable,globalsymtable]) then internalerror(200501155); { only allow unit.symbol access if the name was found in the current module } if srsym.owner.iscurrentunit then begin srsym:=searchsymonlyin(tunitsym(srsym).unitsymtable,pattern); pos:=akttokenpos; s:=pattern; end else srsym:=nil; consume(_ID); 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. Only check for typesyms in the current symbol table as forwarddef are not resolved directly } if assigned(srsym) and (srsym.typ=typesym) and (srsym.owner=symtablestack) and (ttypesym(srsym).restype.def.deftype=errordef) then begin Message1(type_e_type_is_not_completly_defined,ttypesym(srsym).realname); tt:=generrortype; exit; end; { are we parsing a possible forward def ? } if isforwarddef and not(is_unit_specific) then begin tt.setdef(tforwarddef.create(s,pos)); exit; end; { unknown sym ? } if not assigned(srsym) then begin Message1(sym_e_id_not_found,sorg); tt:=generrortype; exit; end; { type sym ? } if (srsym.typ<>typesym) then begin Message(type_e_type_id_expected); tt:=generrortype; exit; end; { Give an error when referring to an errordef } if (ttypesym(srsym).restype.def.deftype=errordef) then begin Message(sym_e_error_in_type_def); tt:=generrortype; exit; end; { Use the definitions for current unit, because they can be refered from the parameters and symbols are not loaded at that time. Only write the definition when the symbol is the real owner of the definition (not a redefine) } if (ttypesym(srsym).owner.symtabletype in [staticsymtable,globalsymtable]) and ttypesym(srsym).owner.iscurrentunit and ( (ttypesym(srsym).restype.def.typesym=nil) or (srsym=ttypesym(srsym).restype.def.typesym) ) then tt.setdef(ttypesym(srsym).restype.def) else tt.setsym(srsym); end; procedure single_type(var tt:ttype;isforwarddef:boolean); var t2 : ttype; begin case token of _STRING: string_dec(tt); _FILE: begin consume(_FILE); if token=_OF then begin consume(_OF); single_type(t2,false); tt.setdef(tfiledef.createtyped(t2)); end else tt:=cfiletype; end; _ID: id_type(tt,isforwarddef); else begin message(type_e_type_id_expected); tt:=generrortype; end; end; end; { reads a record declaration } function record_dec : tdef; var symtable : tsymtable; storetypecanbeforward : boolean; old_object_option : tsymoptions; begin { create recdef } symtable:=trecordsymtable.create(aktpackrecords); record_dec:=trecorddef.create(symtable); { update symtable stack } symtable.next:=symtablestack; symtablestack:=symtable; { parse record } consume(_RECORD); old_object_option:=current_object_option; current_object_option:=[sp_public]; storetypecanbeforward:=typecanbeforward; { for tp7 don't allow forward types } if m_tp7 in aktmodeswitches then typecanbeforward:=false; read_var_decs([vd_record]); consume(_END); typecanbeforward:=storetypecanbeforward; current_object_option:=old_object_option; { make the record size aligned } trecordsymtable(symtablestack).addalignmentpadding; { 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;parseprocvardir:boolean); var pt : tnode; tt2 : ttype; aktenumdef : tenumdef; ap : tarraydef; s : stringid; l,v : TConstExprInt; oldaktpackrecords : longint; defpos,storepos : tfileposinfo; procedure expr_type; var pt1,pt2 : tnode; lv,hv : TConstExprInt; 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)); if (token=_POINTPOINT) then begin consume(_POINTPOINT); { get high value of range } pt2:=comp_expr(not(ignore_equal)); { make both the same type or give an error. This is not done when both are integer values, because typecasting between -3200..3200 will result in a signed-unsigned conflict and give a range check error (PFV) } if not(is_integer(pt1.resulttype.def) and is_integer(pt2.resulttype.def)) then inserttypeconv(pt1,pt2.resulttype); { both must be evaluated to constants now } if (pt1.nodetype=ordconstn) and (pt2.nodetype=ordconstn) then begin lv:=tordconstnode(pt1).value; hv:=tordconstnode(pt2).value; { Check bounds } if hv=0 then // !! tt.setdef(tsetdef.create(tt2,tenumdef(tt2.def).min,tenumdef(tt2.def).max)) tt.setdef(tsetdef.create(tt2,tenumdef(tt2.def).max)) else Message(sym_e_ill_type_decl_set); orddef : begin case torddef(tt2.def).typ of uchar : //!!! tt.setdef(tsetdef.create(tt2,0,255)); tt.setdef(tsetdef.create(tt2,255)); u8bit,u16bit,u32bit, s8bit,s16bit,s32bit : begin if (torddef(tt2.def).low>=0) then // !! tt.setdef(tsetdef.create(tt2,torddef(tt2.def).low,torddef(tt2.def).high)) tt.setdef(tsetdef.create(tt2,torddef(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:=generrortype; end; _CARET: begin consume(_CARET); single_type(tt2,typecanbeforward); tt.setdef(tpointerdef.create(tt2)); end; _RECORD: begin tt.setdef(record_dec); end; _PACKED: begin consume(_PACKED); if token=_ARRAY then array_dec else begin oldaktpackrecords:=aktpackrecords; aktpackrecords:=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, _FUNCTION: begin is_func:=(token=_FUNCTION); consume(token); pd:=tprocvardef.create(normal_function_level); if token=_LKLAMMER then parse_parameter_dec(pd); if is_func then begin consume(_COLON); single_type(pd.rettype,false); end; if token=_OF then begin consume(_OF); consume(_OBJECT); include(pd.procoptions,po_methodpointer); end; tt.def:=pd; { possible proc directives } if parseprocvardir then begin if check_proc_directive(true) then begin newtype:=ttypesym.create('unnamed',tt); parse_var_proc_directives(tsym(newtype)); newtype.restype.def:=nil; tt.def.typesym:=nil; newtype.free; end; { Add implicit hidden parameters and function result } handle_calling_convention(pd); end; end; else expr_type; end; if tt.def=nil then tt:=generrortype; end; end.