{ $Id$ Copyright (c) 1998-2002 by Florian Klaempfl Does declaration (but not type) parsing 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 pdecl; {$i fpcdefs.inc} interface uses { global } globals, { symtable } symsym, { pass_1 } node; function readconstant(const orgname:string;const filepos:tfileposinfo):tconstsym; procedure const_dec; procedure label_dec; procedure type_dec; procedure var_dec; procedure threadvar_dec; procedure property_dec; procedure resourcestring_dec; implementation uses { common } cutils,cclasses, { global } globtype,tokens,verbose, systems, { aasm } aasmbase,aasmtai,fmodule, { symtable } symconst,symbase,symtype,symdef,symtable,paramgr, { pass 1 } nmat,nadd,ncal,nset,ncnv,ninl,ncon,nld,nflw,nobj, { codegen } ncgutil, {$ifdef GDB} gdb, {$endif GDB} { parser } scanner, pbase,pexpr,ptype,ptconst,pdecsub,pdecvar,pdecobj, { cpu-information } cpuinfo ; function readconstant(const orgname:string;const filepos:tfileposinfo):tconstsym; var hp : tconstsym; p : tnode; ps : pconstset; pd : pbestreal; pg : pguid; sp : pchar; storetokenpos : tfileposinfo; begin readconstant:=nil; if orgname='' then internalerror(9584582); hp:=nil; p:=comp_expr(true); storetokenpos:=akttokenpos; akttokenpos:=filepos; case p.nodetype of ordconstn: begin if p.resulttype.def.deftype=pointerdef then hp:=tconstsym.create_ordptr(orgname,constpointer,tordconstnode(p).value,p.resulttype) else hp:=tconstsym.create_ord(orgname,constord,tordconstnode(p).value,p.resulttype); end; stringconstn: begin getmem(sp,tstringconstnode(p).len+1); move(tstringconstnode(p).value_str^,sp^,tstringconstnode(p).len+1); hp:=tconstsym.create_string(orgname,conststring,sp,tstringconstnode(p).len); end; realconstn : begin new(pd); pd^:=trealconstnode(p).value_real; hp:=tconstsym.create_ptr(orgname,constreal,pd,p.resulttype); end; setconstn : begin new(ps); ps^:=tsetconstnode(p).value_set^; hp:=tconstsym.create_ptr(orgname,constset,ps,p.resulttype); end; pointerconstn : begin hp:=tconstsym.create_ordptr(orgname,constpointer,tpointerconstnode(p).value,p.resulttype); end; niln : begin hp:=tconstsym.create_ord(orgname,constnil,0,p.resulttype); end; typen : begin if is_interface(p.resulttype.def) then begin if assigned(tobjectdef(p.resulttype.def).iidguid) then begin new(pg); pg^:=tobjectdef(p.resulttype.def).iidguid^; hp:=tconstsym.create_ptr(orgname,constguid,pg,p.resulttype); end else Message1(parser_e_interface_has_no_guid,tobjectdef(p.resulttype.def).objrealname^); end else Message(parser_e_illegal_expression); end; else Message(parser_e_illegal_expression); end; akttokenpos:=storetokenpos; p.free; readconstant:=hp; end; procedure const_dec; var orgname : stringid; tt : ttype; sym : tsym; storetokenpos,filepos : tfileposinfo; old_block_type : tblock_type; skipequal : boolean; begin consume(_CONST); old_block_type:=block_type; block_type:=bt_const; repeat orgname:=orgpattern; filepos:=akttokenpos; consume(_ID); case token of _EQUAL: begin consume(_EQUAL); sym:=readconstant(orgname,filepos); if assigned(sym) then symtablestack.insert(sym); try_consume_hintdirective(sym.symoptions); consume(_SEMICOLON); end; _COLON: begin { set the blocktype first so a consume also supports a caret, to support const s : ^string = nil } block_type:=bt_type; consume(_COLON); ignore_equal:=true; read_type(tt,'',false); ignore_equal:=false; block_type:=bt_const; skipequal:=false; { create symbol } storetokenpos:=akttokenpos; akttokenpos:=filepos; sym:=ttypedconstsym.createtype(orgname,tt,(cs_typed_const_writable in aktlocalswitches)); akttokenpos:=storetokenpos; symtablestack.insert(sym); insertconstdata(ttypedconstsym(sym)); { procvar can have proc directives, but not type references } if (tt.def.deftype=procvardef) and (tt.sym=nil) then begin { support p : procedure;stdcall=nil; } if try_to_consume(_SEMICOLON) then begin if is_proc_directive(token,true) then parse_var_proc_directives(sym) else begin Message(parser_e_proc_directive_expected); skipequal:=true; end; end else { support p : procedure stdcall=nil; } begin if is_proc_directive(token,true) then parse_var_proc_directives(sym); end; { add default calling convention } handle_calling_convention(tabstractprocdef(tt.def)); calc_parast(tprocvardef(tt.def)); end; if not skipequal then begin { get init value } consume(_EQUAL); readtypedconst(tt,ttypedconstsym(sym),(cs_typed_const_writable in aktlocalswitches)); try_consume_hintdirective(sym.symoptions); consume(_SEMICOLON); end; end; else { generate an error } consume(_EQUAL); end; until token<>_ID; block_type:=old_block_type; end; procedure label_dec; var hl : tasmlabel; begin consume(_LABEL); if not(cs_support_goto in aktmoduleswitches) then Message(sym_e_goto_and_label_not_supported); repeat if not(token in [_ID,_INTCONST]) then consume(_ID) else begin objectlibrary.getlabel(hl); if token=_ID then symtablestack.insert(tlabelsym.create(orgpattern,hl)) else symtablestack.insert(tlabelsym.create(pattern,hl)); consume(token); end; if token<>_SEMICOLON then consume(_COMMA); until not(token in [_ID,_INTCONST]); consume(_SEMICOLON); end; { search in symtablestack used, but not defined type } procedure resolve_type_forward(p : tnamedindexitem;arg:pointer); var hpd,pd : tdef; stpos : tfileposinfo; again : boolean; srsym : tsym; srsymtable : tsymtable; {$ifdef gdb_notused} stab_str:Pchar; {$endif gdb_notused} begin { Check only typesyms or record/object fields } case tsym(p).typ of typesym : pd:=ttypesym(p).restype.def; varsym : if (tsym(p).owner.symtabletype in [objectsymtable,recordsymtable]) then pd:=tvarsym(p).vartype.def else exit; else exit; end; repeat again:=false; case pd.deftype of arraydef : begin { elementtype could also be defined using a forwarddef } pd:=tarraydef(pd).elementtype.def; again:=true; end; pointerdef, classrefdef : begin { classrefdef inherits from pointerdef } hpd:=tpointerdef(pd).pointertype.def; { still a forward def ? } if hpd.deftype=forwarddef then begin { try to resolve the forward } { get the correct position for it } stpos:=akttokenpos; akttokenpos:=tforwarddef(hpd).forwardpos; resolving_forward:=true; make_ref:=false; if not assigned(tforwarddef(hpd).tosymname) then internalerror(20021120); searchsym(tforwarddef(hpd).tosymname^,srsym,srsymtable); make_ref:=true; resolving_forward:=false; akttokenpos:=stpos; { we don't need the forwarddef anymore, dispose it } hpd.free; tpointerdef(pd).pointertype.def:=nil; { if error occurs } { was a type sym found ? } if assigned(srsym) and (srsym.typ=typesym) then begin tpointerdef(pd).pointertype.setsym(srsym); { avoid wrong unused warnings web bug 801 PM } inc(ttypesym(srsym).refs); {$ifdef GDB_UNUSED} if (cs_debuginfo in aktmoduleswitches) and assigned(debuglist) and (tsym(p).owner.symtabletype in [globalsymtable,staticsymtable]) then begin ttypesym(p).isusedinstab:=true; { ttypesym(p).concatstabto(debuglist);} {not stabs for forward defs } if not Ttypesym(p).isstabwritten then begin if Ttypesym(p).restype.def.typesym=p then Tstoreddef(Ttypesym(p).restype.def).concatstabto(debuglist) else begin stab_str:=Ttypesym(p).stabstring; if assigned(stab_str) then debuglist.concat(Tai_stabs.create(stab_str)); Ttypesym(p).isstabwritten:=true; end; end; end; {$endif GDB_UNUSED} { we need a class type for classrefdef } if (pd.deftype=classrefdef) and not(is_class(ttypesym(srsym).restype.def)) then Message1(type_e_class_type_expected,ttypesym(srsym).restype.def.typename); end else begin MessagePos1(tsym(p).fileinfo,sym_e_forward_type_not_resolved,tsym(p).realname); { try to recover } tpointerdef(pd).pointertype:=generrortype; end; end; end; recorddef : trecorddef(pd).symtable.foreach_static({$ifdef FPCPROCVAR}@{$endif}resolve_type_forward,nil); objectdef : begin if not(m_fpc in aktmodeswitches) and (oo_is_forward in tobjectdef(pd).objectoptions) then begin { only give an error as the implementation may follow in an other type block which is allowed by FPC modes } MessagePos1(tsym(p).fileinfo,sym_e_forward_type_not_resolved,tsym(p).realname); end else begin { Check all fields of the object declaration, but don't check objectdefs in objects/records, because these can't exist (anonymous objects aren't allowed) } if not(tsym(p).owner.symtabletype in [objectsymtable,recordsymtable]) then tobjectdef(pd).symtable.foreach_static({$ifdef FPCPROCVAR}@{$endif}resolve_type_forward,nil); end; end; end; until not again; end; { reads a type declaration to the symbol table } procedure type_dec; var typename,orgtypename : stringid; newtype : ttypesym; sym : tsym; srsymtable : tsymtable; tt : ttype; oldfilepos, defpos,storetokenpos : tfileposinfo; old_block_type : tblock_type; ch : tclassheader; unique,istyperenaming : boolean; begin old_block_type:=block_type; block_type:=bt_type; consume(_TYPE); typecanbeforward:=true; repeat typename:=pattern; orgtypename:=orgpattern; defpos:=akttokenpos; istyperenaming:=false; consume(_ID); consume(_EQUAL); { support 'ttype=type word' syntax } unique:=try_to_consume(_TYPE); { is the type already defined? } searchsym(typename,sym,srsymtable); newtype:=nil; { found a symbol with this name? } if assigned(sym) then begin if (sym.typ=typesym) then begin if ((token=_CLASS) or (token=_INTERFACE)) and (assigned(ttypesym(sym).restype.def)) and is_class_or_interface(ttypesym(sym).restype.def) and (oo_is_forward in tobjectdef(ttypesym(sym).restype.def).objectoptions) then begin { we can ignore the result } { the definition is modified } object_dec(orgtypename,tobjectdef(ttypesym(sym).restype.def)); newtype:=ttypesym(sym); tt:=newtype.restype; end else message1(parser_h_type_redef,orgtypename); end; end; { no old type reused ? Then insert this new type } if not assigned(newtype) then begin { insert the new type first with an errordef, so that referencing the type before it's really set it will give an error (PFV) } tt:=generrortype; storetokenpos:=akttokenpos; newtype:=ttypesym.create(orgtypename,tt); symtablestack.insert(newtype); akttokenpos:=defpos; akttokenpos:=storetokenpos; { read the type definition } read_type(tt,orgtypename,false); { update the definition of the type } newtype.restype:=tt; if assigned(tt.sym) then istyperenaming:=true else tt.sym:=newtype; if unique and assigned(tt.def) then begin tt.setdef(tstoreddef(tt.def).getcopy); include(tt.def.defoptions,df_unique); newtype.restype:=tt; end; if assigned(tt.def) and not assigned(tt.def.typesym) then tt.def.typesym:=newtype; { KAZ: handle TGUID declaration in system unit } if (cs_compilesystem in aktmoduleswitches) and not assigned(rec_tguid) and (typename='TGUID') and { name: TGUID and size=16 bytes that is 128 bits } assigned(tt.def) and (tt.def.deftype=recorddef) and (tt.def.size=16) then rec_tguid:=trecorddef(tt.def); end; if assigned(tt.def) then begin case tt.def.deftype of pointerdef : begin consume(_SEMICOLON); if try_to_consume(_FAR) then begin tpointerdef(tt.def).is_far:=true; consume(_SEMICOLON); end; end; procvardef : begin { in case of type renaming, don't parse proc directives } if istyperenaming then consume(_SEMICOLON) else begin if not is_proc_directive(token,true) then consume(_SEMICOLON); parse_var_proc_directives(tsym(newtype)); handle_calling_convention(tprocvardef(tt.def)); calc_parast(tprocvardef(tt.def)); end; end; objectdef, recorddef : begin try_consume_hintdirective(newtype.symoptions); consume(_SEMICOLON); end; else consume(_SEMICOLON); end; end; { Write tables if we are the typesym that defines this type. This will not be done for simple type renamings } if (tt.def.typesym=newtype) then begin { file position } oldfilepos:=aktfilepos; aktfilepos:=newtype.fileinfo; { generate persistent init/final tables when it's declared in the interface so it can be reused in other used } if current_module.in_interface and ((is_class(tt.def) and tobjectdef(tt.def).members_need_inittable) or tt.def.needs_inittable) then generate_inittable(newtype); { for objects we should write the vmt and interfaces. This need to be done after the rtti has been written, because it can contain a reference to that data (PFV) This is not for forward classes } if (tt.def.deftype=objectdef) then with Tobjectdef(tt.def) do begin if not(oo_is_forward in objectoptions) then begin ch:=cclassheader.create(tobjectdef(tt.def)); { generate and check virtual methods, must be done before RTTI is written } ch.genvmt; { Generate RTTI for class } generate_rtti(newtype); if is_interface(tobjectdef(tt.def)) then ch.writeinterfaceids; if (oo_has_vmt in objectoptions) then ch.writevmt; ch.free; end; end else begin { Always generate RTTI info for all types. This is to have typeinfo() return the same pointer } generate_rtti(newtype); end; aktfilepos:=oldfilepos; end; until token<>_ID; typecanbeforward:=false; symtablestack.foreach_static({$ifdef FPCPROCVAR}@{$endif}resolve_type_forward,nil); block_type:=old_block_type; end; procedure var_dec; { parses variable declarations and inserts them in } { the top symbol table of symtablestack } begin consume(_VAR); read_var_decs(false,false,false); end; procedure property_dec; var old_block_type : tblock_type; begin consume(_PROPERTY); if not(symtablestack.symtabletype in [staticsymtable,globalsymtable]) then message(parser_e_resourcestring_only_sg); old_block_type:=block_type; block_type:=bt_const; repeat read_property_dec(nil); consume(_SEMICOLON); until token<>_ID; block_type:=old_block_type; end; procedure threadvar_dec; { parses thread variable declarations and inserts them in } { the top symbol table of symtablestack } begin consume(_THREADVAR); if not(symtablestack.symtabletype in [staticsymtable,globalsymtable]) then message(parser_e_threadvars_only_sg); read_var_decs(false,false,true); end; procedure resourcestring_dec; var orgname : stringid; p : tnode; storetokenpos,filepos : tfileposinfo; old_block_type : tblock_type; sp : pchar; begin consume(_RESOURCESTRING); if not(symtablestack.symtabletype in [staticsymtable,globalsymtable]) then message(parser_e_resourcestring_only_sg); old_block_type:=block_type; block_type:=bt_const; repeat orgname:=orgpattern; filepos:=akttokenpos; consume(_ID); case token of _EQUAL: begin consume(_EQUAL); p:=comp_expr(true); storetokenpos:=akttokenpos; akttokenpos:=filepos; case p.nodetype of ordconstn: begin if is_constcharnode(p) then begin getmem(sp,2); sp[0]:=chr(tordconstnode(p).value); sp[1]:=#0; symtablestack.insert(tconstsym.create_string(orgname,constresourcestring,sp,1)); end else Message(parser_e_illegal_expression); end; stringconstn: with Tstringconstnode(p) do begin getmem(sp,len+1); move(value_str^,sp^,len+1); symtablestack.insert(tconstsym.create_string(orgname,constresourcestring,sp,len)); end; else Message(parser_e_illegal_expression); end; akttokenpos:=storetokenpos; consume(_SEMICOLON); p.free; end; else consume(_EQUAL); end; until token<>_ID; block_type:=old_block_type; end; end. { $Log$ Revision 1.88 2004-09-13 20:33:17 peter * use realname in error msg Revision 1.87 2004/06/20 08:55:30 florian * logs truncated Revision 1.86 2004/06/16 20:07:09 florian * dwarf branch merged Revision 1.85.2.1 2004/04/28 19:55:52 peter * new warning for ordinal-pointer when size is different * fixed some cg_e_ messages to the correct section type_e_ or parser_e_ Revision 1.85 2004/03/23 22:34:49 peter * constants ordinals now always have a type assigned * integer constants have the smallest type, unsigned prefered over signed Revision 1.84 2004/03/20 20:55:36 florian + implemented cdecl'd varargs on arm + -dCMEM supported by the compiler * label/goto asmsymbol type with -dextdebug fixed Revision 1.83 2004/03/08 22:07:47 peter * stabs updates to write stabs for def for all implictly used units }