{ Copyright (c) 1998-2002 by Florian Klaempfl, Daniel Mantione Does the parsing of the procedures/functions 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 pdecsub; {$i fpcdefs.inc} interface uses { common } cclasses, { scanner } tokens, { symtable } symconst,symtype,symdef,symsym; type tpdflag=( pd_body, { directive needs a body } pd_implemen, { directive can be used in implementation section } pd_interface, { directive can be used in interface section } pd_object, { directive can be used with object declaration } pd_record, { directive can be used with record declaration } pd_procvar, { directive can be used with procvar declaration } pd_notobject, { directive can not be used with object declaration } pd_notrecord, { directive can not be used with record declaration } pd_notobjintf, { directive can not be used with interface declaration } pd_notprocvar, { directive can not be used with procvar declaration } pd_dispinterface,{ directive can be used with dispinterface methods } pd_cppobject, { directive can be used with cppclass } pd_objcclass, { directive can be used with objcclass } pd_objcprot, { directive can be used with objcprotocol } pd_nothelper, { directive can not be used with record/class helper declaration } pd_javaclass, { directive can be used with Java class } pd_intfjava { directive can be used with Java interface } ); tpdflags=set of tpdflag; // flags of handle_calling_convention routine thccflag=( hcc_check, // perform checks and outup errors if found hcc_insert_hidden_paras // insert hidden parameters ); thccflags=set of thccflag; const hcc_all=[hcc_check,hcc_insert_hidden_paras]; function check_proc_directive(isprocvar:boolean):boolean; function proc_add_definition(var currpd:tprocdef):boolean; function proc_get_importname(pd:tprocdef):string; procedure proc_set_mangledname(pd:tprocdef); procedure handle_calling_convention(pd:tabstractprocdef;flags:thccflags=hcc_all); procedure parse_parameter_dec(pd:tabstractprocdef); procedure parse_proc_directives(pd:tabstractprocdef;var pdflags:tpdflags); procedure parse_var_proc_directives(sym:tsym); procedure parse_object_proc_directives(pd:tabstractprocdef); procedure parse_record_proc_directives(pd:tabstractprocdef); function parse_proc_head(astruct:tabstractrecorddef;potype:tproctypeoption;isgeneric:boolean;genericdef:tdef;generictypelist:tfphashobjectlist;out pd:tprocdef):boolean; function parse_proc_dec(isclassmethod:boolean;astruct:tabstractrecorddef;isgeneric:boolean):tprocdef; procedure parse_proc_dec_finish(pd:tprocdef;isclassmethod:boolean;astruct:tabstractrecorddef); { parse a record method declaration (not a (class) constructor/destructor) } function parse_record_method_dec(astruct: tabstractrecorddef; is_classdef: boolean;hadgeneric:boolean): tprocdef; procedure insert_record_hidden_paras(astruct: trecorddef); { helper functions - they insert nested objects hierarchy to the symtablestack with object hierarchy } function push_child_hierarchy(obj:tabstractrecorddef):integer; function pop_child_hierarchy(obj:tabstractrecorddef):integer; function push_nested_hierarchy(obj:tabstractrecorddef):integer; function pop_nested_hierarchy(obj:tabstractrecorddef):integer; implementation uses SysUtils, { common } cutils, { global } globtype,globals,verbose,constexp, systems, cpuinfo, { assembler } aasmbase, { symtable } symbase,symcpu,symtable,defutil,defcmp, { parameter handling } paramgr,cpupara, { pass 1 } fmodule,node,htypechk,ncon,ppu,nld, objcutil, { parser } scanner, syscinfo, pbase,pexpr,ptype,pdecl,pparautl,pgenutil {$ifdef jvm} ,pjvm {$endif} ; const { Please leave this here, this module should NOT use these variables. Declaring it as string here results in an error when compiling (PFV) } current_procinfo = 'error'; function push_child_hierarchy(obj:tabstractrecorddef):integer; var _class,hp : tobjectdef; begin if obj.typ=recorddef then begin symtablestack.push(obj.symtable); result:=1; exit; end; result:=0; { insert class hierarchy in the reverse order } hp:=nil; repeat _class:=tobjectdef(obj); while _class.childof<>hp do _class:=_class.childof; hp:=_class; symtablestack.push(_class.symtable); inc(result); until hp=obj; end; function push_nested_hierarchy(obj:tabstractrecorddef):integer; begin result:=0; if obj.owner.symtabletype in [ObjectSymtable,recordsymtable] then inc(result,push_nested_hierarchy(tabstractrecorddef(obj.owner.defowner))); inc(result,push_child_hierarchy(obj)); end; function pop_child_hierarchy(obj:tabstractrecorddef):integer; var _class : tobjectdef; begin if obj.typ=recorddef then begin symtablestack.pop(obj.symtable); result:=1; exit; end; result:=0; _class:=tobjectdef(obj); while assigned(_class) do begin symtablestack.pop(_class.symtable); _class:=_class.childof; inc(result); end; end; function pop_nested_hierarchy(obj:tabstractrecorddef):integer; begin result:=pop_child_hierarchy(obj); if obj.owner.symtabletype in [ObjectSymtable,recordsymtable] then inc(result,pop_nested_hierarchy(tabstractrecorddef(obj.owner.defowner))); end; procedure check_msg_para(p:TObject;arg:pointer); begin if (tsym(p).typ<>paravarsym) then exit; with tparavarsym(p) do begin { Count parameters } if (paranr>=10) then inc(plongint(arg)^); { First parameter must be var } if (paranr=10) and (varspez<>vs_var) then MessagePos(fileinfo,parser_e_ill_msg_param); end; end; procedure set_addr_param_regable(p:TObject;arg:pointer); begin if (tsym(p).typ<>paravarsym) then exit; with tparavarsym(p) do begin if (not needs_finalization) and paramanager.push_addr_param(varspez,vardef,tprocdef(arg).proccalloption) then varregable:=vr_addr; end; end; procedure parse_parameter_dec(pd:tabstractprocdef); { handle_procvar needs the same changes } type tppv = (pv_none,pv_proc,pv_func); var sc : TFPObjectList; hdef : tdef; arrayelementdef : tdef; vs : tparavarsym; i : longint; srsym : tsym; pv : tprocvardef; varspez : Tvarspez; defaultvalue : tconstsym; defaultrequired : boolean; old_block_type : tblock_type; currparast : tparasymtable; parseprocvar : tppv; locationstr : string; paranr : integer; dummytype : ttypesym; explicit_paraloc, need_array, is_univ: boolean; stoptions : TSingleTypeOptions; procedure handle_default_para_value; var convpd : tprocdef; doconv : tconverttype; nodetype : tnodetype; bt : tblock_type; begin { only allowed for types that can be represented by a constant expression } if try_to_consume(_EQ) then begin if (hdef.typ in [recorddef,variantdef,filedef,formaldef]) or is_object(hdef) or ((hdef.typ=arraydef) and not is_dynamic_array(hdef)) then Message1(type_e_invalid_default_value,FullTypeName(hdef,nil)); vs:=tparavarsym(sc[0]); if sc.count>1 then Message(parser_e_default_value_only_one_para); if not(vs.varspez in [vs_value,vs_const,vs_constref]) then Message(parser_e_default_value_val_const); bt:=block_type; block_type:=bt_const; { prefix 'def' to the parameter name } defaultvalue:=ReadConstant('$def'+vs.name,vs.fileinfo,nodetype); block_type:=bt; if assigned(defaultvalue) then begin include(defaultvalue.symoptions,sp_internal); pd.parast.insert(defaultvalue); { check whether the default value is of the correct type } if compare_defs_ext(defaultvalue.constdef,hdef,nodetype,doconv,convpd,[])<=te_convert_operator then MessagePos2(defaultvalue.fileinfo,type_e_incompatible_types,FullTypeName(defaultvalue.constdef,hdef),FullTypeName(hdef,defaultvalue.constdef)); end; defaultrequired:=true; end else begin if defaultrequired then Message1(parser_e_default_value_expected_for_para,vs.name); end; end; begin old_block_type:=block_type; explicit_paraloc:=false; consume(_LKLAMMER); { Delphi/Kylix supports nonsense like } { procedure p(); } if try_to_consume(_RKLAMMER) and not(m_tp7 in current_settings.modeswitches) then exit; { parsing a proc or procvar ? } currparast:=tparasymtable(pd.parast); { reset } sc:=TFPObjectList.create(false); defaultrequired:=false; paranr:=0; block_type:=bt_var; is_univ:=false; repeat parseprocvar:=pv_none; if try_to_consume(_VAR) then varspez:=vs_var else if try_to_consume(_CONST) then varspez:=vs_const else if (m_out in current_settings.modeswitches) and try_to_consume(_OUT) then varspez:=vs_out else if try_to_consume(_CONSTREF) then varspez:=vs_constref else if (m_mac in current_settings.modeswitches) and try_to_consume(_POINTPOINTPOINT) then begin include(pd.procoptions,po_varargs); break; end else if (m_nested_procvars in current_settings.modeswitches) and try_to_consume(_PROCEDURE) then begin parseprocvar:=pv_proc; varspez:=vs_const; end else if (m_nested_procvars in current_settings.modeswitches) and try_to_consume(_FUNCTION) then begin parseprocvar:=pv_func; varspez:=vs_const; end else varspez:=vs_value; defaultvalue:=nil; hdef:=nil; { read identifiers and insert with error type } sc.clear; repeat inc(paranr); vs:=cparavarsym.create(orgpattern,paranr*10,varspez,generrordef,[]); currparast.insert(vs); if assigned(vs.owner) then sc.add(vs) else vs.free; consume(_ID); until not try_to_consume(_COMMA); locationstr:=''; { macpas anonymous procvar } if parseprocvar<>pv_none then begin { inline procvar definitions are always nested procvars } pv:=cprocvardef.create(normal_function_level+1); if token=_LKLAMMER then parse_parameter_dec(pv); if parseprocvar=pv_func then begin block_type:=bt_var_type; consume(_COLON); single_type(pv.returndef,[]); block_type:=bt_var; end; hdef:=pv; { possible proc directives } if check_proc_directive(true) then begin dummytype:=ctypesym.create('unnamed',hdef,true); parse_var_proc_directives(tsym(dummytype)); dummytype.typedef:=nil; hdef.typesym:=nil; dummytype.free; end; { Add implicit hidden parameters and function result } handle_calling_convention(pv); {$ifdef jvm} { anonymous -> no name } jvm_create_procvar_class('',pv); {$endif} end else { read type declaration, force reading for value paras } if (token=_COLON) or (varspez=vs_value) then begin consume(_COLON); { check for an open array } need_array:=false; { bitpacked open array are not yet supported } if (token=_PACKED) and not(cs_bitpacking in current_settings.localswitches) then begin consume(_PACKED); need_array:=true; end; if (token=_ARRAY) or need_array then begin consume(_ARRAY); consume(_OF); { define range and type of range } hdef:=carraydef.create(0,-1,sizesinttype); { array of const ? } if (token=_CONST) and (m_objpas in current_settings.modeswitches) then begin consume(_CONST); srsym:=search_system_type('TVARREC'); tarraydef(hdef).elementdef:=ttypesym(srsym).typedef; include(tarraydef(hdef).arrayoptions,ado_IsArrayOfConst); end else begin { define field type } if m_delphi in current_settings.modeswitches then stoptions:=[stoAllowSpecialization] else stoptions:=[]; single_type(arrayelementdef,stoptions); tarraydef(hdef).elementdef:=arrayelementdef; end; end else begin if (m_mac in current_settings.modeswitches) then is_univ:=try_to_consume(_UNIV); if try_to_consume(_TYPE) then hdef:=ctypedformaltype else begin block_type:=bt_var_type; single_type(hdef,[stoAllowSpecialization]); block_type:=bt_var; end; { open string ? } if is_shortstring(hdef) then begin case varspez of vs_var,vs_out: begin { not 100% Delphi-compatible: type xstr=string[255] cannot become an openstring there, while here it can } if (cs_openstring in current_settings.moduleswitches) and (tstringdef(hdef).len=255) then hdef:=openshortstringtype end; vs_value: begin { value "openstring" parameters don't make sense (the original string can never be modified, so there's no use in passing its original length), so change these into regular shortstring parameters (seems to be what Delphi also does) } if is_open_string(hdef) then hdef:=cshortstringtype; end; end; end; if (target_info.system in [system_powerpc_morphos,system_m68k_amiga]) then begin if (idtoken=_LOCATION) then begin consume(_LOCATION); locationstr:=cstringpattern; consume(_CSTRING); end else begin if explicit_paraloc then Message(parser_e_paraloc_all_paras); locationstr:=''; end; end else locationstr:=''; { default parameter } if (m_default_para in current_settings.modeswitches) then handle_default_para_value; end; end else hdef:=cformaltype; { File types are only allowed for var and out parameters } if (hdef.typ=filedef) and not(varspez in [vs_out,vs_var]) then CGMessage(cg_e_file_must_call_by_reference); { Dispinterfaces are restricted to using only automatable types } if (pd.typ=procdef) and is_dispinterface(tprocdef(pd).struct) and not is_automatable(hdef) then Message1(type_e_not_automatable,hdef.typename); { univ cannot be used with types whose size is not known at compile time } if is_univ and not is_valid_univ_para_type(hdef) then Message1(parser_e_invalid_univ_para,hdef.typename); for i:=0 to sc.count-1 do begin vs:=tparavarsym(sc[i]); vs.univpara:=is_univ; { update varsym } vs.vardef:=hdef; vs.defaultconstsym:=defaultvalue; if (target_info.system in [system_powerpc_morphos,system_m68k_amiga]) then begin if locationstr<>'' then begin if sc.count>1 then Message(parser_e_paraloc_only_one_para); if (paranr>1) and not(explicit_paraloc) then Message(parser_e_paraloc_all_paras); explicit_paraloc:=true; include(vs.varoptions,vo_has_explicit_paraloc); if not(paramanager.parseparaloc(vs,locationstr)) then message(parser_e_illegal_explicit_paraloc); end else if explicit_paraloc then Message(parser_e_paraloc_all_paras); end; end; until not try_to_consume(_SEMICOLON); if explicit_paraloc then begin pd.has_paraloc_info:=callerside; include(pd.procoptions,po_explicitparaloc); end; { remove parasymtable from stack } sc.free; { reset object options } block_type:=old_block_type; consume(_RKLAMMER); end; function parse_proc_head(astruct:tabstractrecorddef;potype:tproctypeoption;isgeneric:boolean;genericdef:tdef;generictypelist:tfphashobjectlist;out pd:tprocdef):boolean; var hs : string; orgsp,sp,orgspnongen,spnongen : TIDString; dummysym,srsym : tsym; checkstack : psymtablestackitem; oldfilepos, classstartfilepos, procstartfilepos : tfileposinfo; i, index : longint; hadspecialize, firstpart, freegenericparams, found, searchagain : boolean; st, genericst: TSymtable; aprocsym : tprocsym; popclass : integer; ImplIntf : TImplementedInterface; old_parse_generic : boolean; old_current_structdef: tabstractrecorddef; old_current_genericdef, old_current_specializedef: tstoreddef; lasttoken,lastidtoken: ttoken; genericparams : tfphashobjectlist; procedure parse_operator_name; begin if (lasttoken in [first_overloaded..last_overloaded]) then begin optoken:=token; end else begin case lasttoken of _CARET: Message1(parser_e_overload_operator_failed,'**'); _ID: case lastidtoken of _ENUMERATOR:optoken:=_OP_ENUMERATOR; _EXPLICIT:optoken:=_OP_EXPLICIT; _INC:optoken:=_OP_INC; _DEC:optoken:=_OP_DEC; _INITIALIZE:optoken:=_OP_INITIALIZE; _FINALIZE:optoken:=_OP_FINALIZE; _ADDREF:optoken:=_OP_ADDREF; _COPY:optoken:=_OP_COPY; else if (m_delphi in current_settings.modeswitches) then case lastidtoken of _IMPLICIT:optoken:=_ASSIGNMENT; _NEGATIVE:optoken:=_MINUS; _POSITIVE:optoken:=_PLUS; _LOGICALNOT:optoken:=_OP_NOT; _IN:optoken:=_OP_IN; _EQUAL:optoken:=_EQ; _NOTEQUAL:optoken:=_NE; _GREATERTHAN:optoken:=_GT; _GREATERTHANOREQUAL:optoken:=_GTE; _LESSTHAN:optoken:=_LT; _LESSTHANOREQUAL:optoken:=_LTE; _ADD:optoken:=_PLUS; _SUBTRACT:optoken:=_MINUS; _MULTIPLY:optoken:=_STAR; _DIVIDE:optoken:=_SLASH; _INTDIVIDE:optoken:=_OP_DIV; _MODULUS:optoken:=_OP_MOD; _LEFTSHIFT:optoken:=_OP_SHL; _RIGHTSHIFT:optoken:=_OP_SHR; _LOGICALAND:optoken:=_OP_AND; _LOGICALOR:optoken:=_OP_OR; _LOGICALXOR:optoken:=_OP_XOR; _BITWISEAND:optoken:=_OP_AND; _BITWISEOR:optoken:=_OP_OR; _BITWISEXOR:optoken:=_OP_XOR; else Message1(parser_e_overload_operator_failed,''); end else Message1(parser_e_overload_operator_failed,''); end else Message1(parser_e_overload_operator_failed,''); end; end; sp:=overloaded_names[optoken]; orgsp:=sp; spnongen:=sp; orgspnongen:=orgsp; end; procedure consume_proc_name; var s : string; i : longint; sym : ttypesym; begin lasttoken:=token; lastidtoken:=idtoken; if assigned(genericparams) and freegenericparams then for i:=0 to genericparams.count-1 do begin sym:=ttypesym(genericparams[i]); if tstoreddef(sym.typedef).is_registered then begin sym.typedef.free; sym.typedef:=nil; end; sym.free; end; genericparams.free; genericparams:=nil; hadspecialize:=false; if potype=potype_operator then optoken:=NOTOKEN; if (potype=potype_operator) and (token<>_ID) then begin parse_operator_name; consume(token); end else begin sp:=pattern; orgsp:=orgpattern; spnongen:=sp; orgspnongen:=orgsp; if firstpart and not (m_delphi in current_settings.modeswitches) and (idtoken=_SPECIALIZE) then hadspecialize:=true; consume(_ID); if (isgeneric or (m_delphi in current_settings.modeswitches)) and (token in [_LT,_LSHARPBRACKET]) then begin consume(token); if token in [_GT,_RSHARPBRACKET] then message(type_e_type_id_expected) else begin genericparams:=parse_generic_parameters(true); if not assigned(genericparams) then internalerror(2015061201); if genericparams.count=0 then internalerror(2015061202); s:=''; str(genericparams.count,s); spnongen:=sp; orgspnongen:=orgsp; sp:=sp+'$'+s; orgsp:=orgsp+'$'+s; end; if not try_to_consume(_GT) then consume(_RSHARPBRACKET); end; end; firstpart:=false; end; function search_object_name(sp:TIDString;gen_error:boolean):tsym; var storepos:tfileposinfo; srsymtable:TSymtable; begin storepos:=current_tokenpos; current_tokenpos:=procstartfilepos; searchsym(sp,result,srsymtable); if not assigned(result) then begin if gen_error then identifier_not_found(orgsp); result:=generrorsym; end; current_tokenpos:=storepos; end; procedure consume_generic_interface; var genparalist : tfpobjectlist; prettyname, specializename : ansistring; genname, ugenname : tidstring; gencount : string; begin consume(_LSHARPBRACKET); genparalist:=tfpobjectlist.create(false); if not parse_generic_specialization_types(genparalist,nil,prettyname,specializename) then srsym:=generrorsym else begin str(genparalist.count,gencount); genname:=sp+'$'+gencount; { ToDo: handle nested interfaces } genname:=generate_generic_name(genname,specializename,''); ugenname:=upper(genname); srsym:=search_object_name(ugenname,false); if not assigned(srsym) then begin Message1(type_e_generic_declaration_does_not_match,sp+'<'+prettyname+'>'); srsym:=nil; exit; end; end; genparalist.free; consume(_RSHARPBRACKET); end; function handle_generic_interface:boolean; var i : longint; sym : ttypesym; typesrsym : tsym; typesrsymtable : tsymtable; specializename, prettyname: ansistring; error : boolean; genname, ugenname : tidstring; module : tmodule; begin result:=false; if not assigned(genericparams) then exit; specializename:='$'; prettyname:=''; error:=false; for i:=0 to genericparams.count-1 do begin sym:=ttypesym(genericparams[i]); { ToDo: position } if not searchsym(upper(sym.RealName),typesrsym,typesrsymtable) then begin message1(sym_e_id_not_found,sym.name); error:=true; continue; end; if typesrsym.typ<>typesym then begin message(type_e_type_id_expected); error:=true; continue; end; module:=find_module_from_symtable(ttypesym(typesrsym).typedef.owner); if not assigned(module) then internalerror(2016112803); specializename:=specializename+'_$'+hexstr(module.moduleid,8)+'$$'+ttypesym(typesrsym).typedef.unique_id_str; if i>0 then prettyname:=prettyname+','; prettyname:=prettyname+ttypesym(typesrsym).prettyname; end; result:=true; if error then begin srsym:=generrorsym; exit; end; { ToDo: handle nested interfaces } genname:=generate_generic_name(sp,specializename,''); ugenname:=upper(genname); srsym:=search_object_name(ugenname,false); if not assigned(srsym) then begin Message1(type_e_generic_declaration_does_not_match,sp+'<'+prettyname+'>'); srsym:=generrorsym; end; end; procedure specialize_generic_interface; var node : tnode; begin node:=factor(false,[ef_type_only,ef_had_specialize]); if node.nodetype=typen then begin sp:=ttypenode(node).typedef.typesym.name; end else sp:=''; end; begin sp:=''; orgsp:=''; spnongen:=''; orgspnongen:=''; { Save the position where this procedure really starts } procstartfilepos:=current_tokenpos; old_parse_generic:=parse_generic; firstpart:=true; result:=false; pd:=nil; aprocsym:=nil; srsym:=nil; genericparams:=nil; freegenericparams:=true; hadspecialize:=false; if not assigned(genericdef) then begin consume_proc_name; { examine interface map: function/procedure iname.functionname=locfuncname } if assigned(astruct) and (astruct.typ=objectdef) and assigned(tobjectdef(astruct).ImplementedInterfaces) and (tobjectdef(astruct).ImplementedInterfaces.count>0) and ( (token=_POINT) or ( hadspecialize and (token=_ID) ) ) then begin if hadspecialize and (token=_ID) then specialize_generic_interface; consume(_POINT); if hadspecialize or not handle_generic_interface then srsym:=search_object_name(sp,true); { qualifier is interface? } ImplIntf:=nil; if assigned(srsym) and (srsym.typ=typesym) and (ttypesym(srsym).typedef.typ=objectdef) then ImplIntf:=find_implemented_interface(tobjectdef(astruct),tobjectdef(ttypesym(srsym).typedef)); if ImplIntf=nil then begin Message(parser_e_interface_id_expected); { error recovery } consume(_ID); if try_to_consume(_EQ) then consume(_ID); exit; end else { in case of a generic or specialized interface we need to use the name of the def instead of the symbol, so that always the correct name is used } if [df_generic,df_specialization]*ttypesym(srsym).typedef.defoptions<>[] then sp:=tobjectdef(ttypesym(srsym).typedef).objname^; { must be a directly implemented interface } if Assigned(ImplIntf.ImplementsGetter) then Message2(parser_e_implements_no_mapping,ImplIntf.IntfDef.typename,astruct.objrealname^); consume(_ID); { Create unique name . } hs:=sp+'.'+pattern; consume(_EQ); if assigned(ImplIntf) and (token=_ID) then ImplIntf.AddMapping(hs,pattern); consume(_ID); result:=true; exit; end; if assigned(genericparams) and assigned(current_genericdef) then Message(parser_f_no_generic_inside_generic); { method ? } srsym:=nil; if not assigned(astruct) and (symtablestack.top.symtablelevel=main_program_level) and try_to_consume(_POINT) then begin repeat classstartfilepos:=procstartfilepos; searchagain:=false; { throw the error at the right location } oldfilepos:=current_filepos; current_filepos:=procstartfilepos; if not assigned(astruct) and not assigned(srsym) then srsym:=search_object_name(sp,true); current_filepos:=oldfilepos; { consume proc name } procstartfilepos:=current_tokenpos; consume_proc_name; { qualifier is class name ? } if (srsym.typ=typesym) and (ttypesym(srsym).typedef.typ in [objectdef,recorddef]) then begin astruct:=tabstractrecorddef(ttypesym(srsym).typedef); if (token<>_POINT) then if (potype in [potype_class_constructor,potype_class_destructor]) then sp:=lower(sp) else if (potype=potype_operator) and (optoken=NOTOKEN) then parse_operator_name; srsym:=tsym(astruct.symtable.Find(sp)); if assigned(srsym) then begin if srsym.typ=procsym then aprocsym:=tprocsym(srsym) else if (srsym.typ=typesym) and (ttypesym(srsym).typedef.typ in [objectdef,recorddef]) then begin searchagain:=true; consume(_POINT); end else begin { we use a different error message for tp7 so it looks more compatible } if (m_fpc in current_settings.modeswitches) then Message1(parser_e_overloaded_no_procedure,srsym.realname) else Message(parser_e_methode_id_expected); { rename the name to an unique name to avoid an error when inserting the symbol in the symtable } orgsp:=orgsp+'$'+tostr(current_filepos.line); end; end else begin MessagePos(procstartfilepos,parser_e_methode_id_expected); { recover by making it a normal procedure instead of method } astruct:=nil; end; end else MessagePos(classstartfilepos,parser_e_class_id_expected); until not searchagain; end else begin { check for constructor/destructor/class operators which are not allowed here } if (not parse_only) and ((potype in [potype_constructor,potype_destructor, potype_class_constructor,potype_class_destructor]) or ((potype=potype_operator) and (m_delphi in current_settings.modeswitches))) then Message(parser_e_only_methods_allowed); repeat { only 1 class constructor and destructor is allowed in the class and the check was already done with oo_has_class_constructor or oo_has_class_destructor -> skip searching (bug #28801) } if (potype in [potype_class_constructor,potype_class_destructor]) then break; searchagain:=false; current_tokenpos:=procstartfilepos; if (potype=potype_operator)and(optoken=NOTOKEN) then parse_operator_name; srsym:=tsym(symtablestack.top.Find(sp)); { Also look in the globalsymtable if we didn't found the symbol in the localsymtable } if not assigned(srsym) and not(parse_only) and (symtablestack.top=current_module.localsymtable) and assigned(current_module.globalsymtable) then srsym:=tsym(current_module.globalsymtable.Find(sp)); { Check if overloaded is a procsym } if assigned(srsym) then begin if srsym.typ=procsym then aprocsym:=tprocsym(srsym) else begin { when the other symbol is a unit symbol then hide the unit symbol, this is not supported in tp7 } if not(m_tp7 in current_settings.modeswitches) and (srsym.typ=unitsym) then begin HideSym(srsym); searchagain:=true; end else if (m_delphi in current_settings.modeswitches) and (srsym.typ=absolutevarsym) and ([vo_is_funcret,vo_is_result]*tabstractvarsym(srsym).varoptions=[vo_is_funcret]) then begin HideSym(srsym); searchagain:=true; end else begin { we use a different error message for tp7 so it looks more compatible } if (m_fpc in current_settings.modeswitches) then Message1(parser_e_overloaded_no_procedure,srsym.realname) else Message1(sym_e_duplicate_id,srsym.realname); { rename the name to an unique name to avoid an error when inserting the symbol in the symtable } orgsp:=orgsp+'$'+tostr(current_filepos.line); end; end; end; until not searchagain; end; { test again if assigned, it can be reset to recover } if not assigned(aprocsym) then begin { create a new procsym and set the real filepos } current_tokenpos:=procstartfilepos; { for operator we have only one procsym for each overloaded operation } if (potype=potype_operator) then begin aprocsym:=Tprocsym(symtablestack.top.Find(sp)); if aprocsym=nil then aprocsym:=cprocsym.create('$'+sp); end else if (potype in [potype_class_constructor,potype_class_destructor]) then aprocsym:=cprocsym.create('$'+lower(sp)) else aprocsym:=cprocsym.create(orgsp); symtablestack.top.insert(aprocsym); end; end; { to get the correct symtablelevel we must ignore ObjectSymtables } st:=nil; checkstack:=symtablestack.stack; while assigned(checkstack) do begin st:=checkstack^.symtable; if st.symtabletype in [staticsymtable,globalsymtable,localsymtable] then break; checkstack:=checkstack^.next; end; pd:=cprocdef.create(st.symtablelevel+1,not assigned(genericdef)); pd.struct:=astruct; pd.procsym:=aprocsym; pd.proctypeoption:=potype; if assigned(genericparams) then begin include(pd.defoptions,df_generic); { push the parameter symtable so that constraint definitions are added there and not in the owner symtable } symtablestack.push(pd.parast); { register the parameters } for i:=0 to genericparams.count-1 do begin ttypesym(genericparams[i]).register_sym; tstoreddef(ttypesym(genericparams[i]).typedef).register_def; end; insert_generic_parameter_types(pd,nil,genericparams); symtablestack.pop(pd.parast); freegenericparams:=false; parse_generic:=true; { also generate a dummy symbol if none exists already } if assigned(astruct) then dummysym:=tsym(astruct.symtable.find(spnongen)) else begin dummysym:=tsym(symtablestack.top.find(spnongen)); if not assigned(dummysym) and (symtablestack.top=current_module.localsymtable) and assigned(current_module.globalsymtable) then dummysym:=tsym(current_module.globalsymtable.find(spnongen)); end; if not assigned(dummysym) then begin dummysym:=ctypesym.create(orgspnongen,cundefineddef.create(true),true); if assigned(astruct) then astruct.symtable.insert(dummysym) else symtablestack.top.insert(dummysym); end; include(dummysym.symoptions,sp_generic_dummy); { start token recorder for the declaration } pd.init_genericdecl; current_scanner.startrecordtokens(pd.genericdecltokenbuf); end; if assigned(genericdef) and not assigned(genericparams) then insert_generic_parameter_types(pd,tstoreddef(genericdef),generictypelist); { methods inherit df_generic or df_specialization from the objectdef } if assigned(pd.struct) and (pd.parast.symtablelevel=normal_function_level) then begin if (df_generic in pd.struct.defoptions) then begin include(pd.defoptions,df_generic); parse_generic:=true; end; if (df_specialization in pd.struct.defoptions) then begin if assigned(current_specializedef) then begin include(pd.defoptions,df_specialization); { Find corresponding genericdef, we need it later to replay the tokens to generate the body } if not assigned(pd.struct.genericdef) then internalerror(200512113); genericst:=pd.struct.genericdef.GetSymtable(gs_record); if not assigned(genericst) then internalerror(200512114); { when searching for the correct procdef to use as genericdef we need to ignore everything except procdefs so that we can find the correct indices } index:=0; found:=false; for i:=0 to pd.owner.deflist.count-1 do begin if tdef(pd.owner.deflist[i]).typ<>procdef then continue; if pd.owner.deflist[i]=pd then begin found:=true; break; end; inc(index); end; if not found then internalerror(2014052301); for i:=0 to genericst.deflist.count-1 do begin if tdef(genericst.deflist[i]).typ<>procdef then continue; if index=0 then pd.genericdef:=tstoreddef(genericst.deflist[i]); dec(index); end; if not assigned(pd.genericdef) or (pd.genericdef.typ<>procdef) then internalerror(200512115); end else Message(parser_e_explicit_method_implementation_for_specializations_not_allowed); end; end; { methods need to be exported } if assigned(astruct) and ( (symtablestack.top.symtabletype in [ObjectSymtable,recordsymtable]) or (symtablestack.top.symtablelevel=main_program_level) ) then include(pd.procoptions,po_global); { symbol options that need to be kept per procdef } pd.fileinfo:=procstartfilepos; pd.visibility:=symtablestack.top.currentvisibility; if symtablestack.top.currentlyoptional then include(pd.procoptions,po_optional); { parse parameters } if token=_LKLAMMER then begin old_current_structdef:=nil; old_current_genericdef:=current_genericdef; old_current_specializedef:=nil; { Add ObjectSymtable to be able to find nested type definitions } popclass:=0; if assigned(pd.struct) and (pd.parast.symtablelevel>=normal_function_level) and not(symtablestack.top.symtabletype in [ObjectSymtable,recordsymtable]) then begin popclass:=push_nested_hierarchy(pd.struct); old_current_structdef:=current_structdef; old_current_specializedef:=current_specializedef; current_structdef:=pd.struct; if assigned(current_structdef) and (df_generic in current_structdef.defoptions) then current_genericdef:=current_structdef; if assigned(current_structdef) and (df_specialization in current_structdef.defoptions) then current_specializedef:=current_structdef; end; if pd.is_generic then current_genericdef:=pd; { Add parameter symtable } if pd.parast.symtabletype<>staticsymtable then symtablestack.push(pd.parast); parse_parameter_dec(pd); if pd.parast.symtabletype<>staticsymtable then symtablestack.pop(pd.parast); current_genericdef:=old_current_genericdef; if popclass>0 then begin current_structdef:=old_current_structdef; current_specializedef:=old_current_specializedef; dec(popclass,pop_nested_hierarchy(pd.struct)); if popclass<>0 then internalerror(201011260); // 11 nov 2010 index 0 end; end; parse_generic:=old_parse_generic; result:=true; end; procedure parse_proc_dec_finish(pd:tprocdef;isclassmethod:boolean;astruct:tabstractrecorddef); var locationstr: string; i: integer; found: boolean; procedure read_returndef(pd: tprocdef); var popclass: integer; old_parse_generic: boolean; old_current_structdef: tabstractrecorddef; old_current_genericdef, old_current_specializedef: tstoreddef; begin old_parse_generic:=parse_generic; { Add ObjectSymtable to be able to find generic type definitions } popclass:=0; old_current_structdef:=nil; old_current_genericdef:=current_genericdef; old_current_specializedef:=current_specializedef; current_genericdef:=nil; current_specializedef:=nil; if assigned(pd.struct) and (pd.parast.symtablelevel>=normal_function_level) and not (symtablestack.top.symtabletype in [ObjectSymtable,recordsymtable]) then begin popclass:=push_nested_hierarchy(pd.struct); old_current_structdef:=current_structdef; current_structdef:=pd.struct; end; if df_generic in pd.defoptions then begin if pd.is_generic then current_genericdef:=pd else if assigned(pd.struct) then current_genericdef:=pd.struct else internalerror(2016090202); end; if df_specialization in pd.defoptions then begin if pd.is_specialization then current_specializedef:=pd else if assigned(pd.struct) then current_specializedef:=pd.struct else internalerror(2016090203); end; parse_generic:=(df_generic in pd.defoptions); if pd.is_generic or pd.is_specialization then symtablestack.push(pd.parast); single_type(pd.returndef,[stoAllowSpecialization]); // Issue #24863, enabled only for the main progra commented out for now because it breaks building of RTL and needs extensive // testing and/or RTL patching. { if ((pd.returndef=cvarianttype) or (pd.returndef=colevarianttype)) and not(cs_compilesystem in current_settings.moduleswitches) then current_module.flags:=current_module.flags or uf_uses_variants; } if is_dispinterface(pd.struct) and not is_automatable(pd.returndef) then Message1(type_e_not_automatable,pd.returndef.typename); if pd.is_generic or pd.is_specialization then symtablestack.pop(pd.parast); if popclass>0 then begin current_structdef:=old_current_structdef; dec(popclass,pop_nested_hierarchy(pd.struct)); if popclass<>0 then internalerror(201012020); end; current_genericdef:=old_current_genericdef; current_specializedef:=old_current_specializedef; parse_generic:=old_parse_generic; end; begin locationstr:=''; case pd.proctypeoption of potype_procedure: begin pd.returndef:=voidtype; if isclassmethod then include(pd.procoptions,po_classmethod); end; potype_function: begin if try_to_consume(_COLON) then begin read_returndef(pd); if (target_info.system in [system_m68k_amiga]) then begin if (idtoken=_LOCATION) then begin if po_explicitparaloc in pd.procoptions then begin consume(_LOCATION); locationstr:=cstringpattern; consume(_CSTRING); end else { I guess this needs a new message... (KB) } Message(parser_e_paraloc_all_paras); end else begin if po_explicitparaloc in pd.procoptions then { assign default locationstr, if none specified } { and we've arguments with explicit paraloc } locationstr:='D0'; end; end; end else begin if ( parse_only and not(is_interface(pd.struct)) ) or (m_repeat_forward in current_settings.modeswitches) then begin consume(_COLON); consume_all_until(_SEMICOLON); end; end; if isclassmethod then include(pd.procoptions,po_classmethod); end; potype_constructor, potype_class_constructor: begin if not isclassmethod and assigned(pd) and assigned(pd.struct) then begin { Set return type, class constructors return the created instance, object constructors return boolean } if is_class(pd.struct) or is_record(pd.struct) or is_javaclass(pd.struct) then pd.returndef:=pd.struct else if is_objectpascal_helper(pd.struct) then pd.returndef:=tobjectdef(pd.struct).extendeddef else {$ifdef CPU64bitaddr} pd.returndef:=bool64type; {$else CPU64bitaddr} pd.returndef:=bool32type; {$endif CPU64bitaddr} end else pd.returndef:=voidtype; end; potype_class_destructor, potype_destructor: begin if assigned(pd) then pd.returndef:=voidtype; end; potype_operator: begin { operators always need to be searched in all units (that contain operators) } include(pd.procoptions,po_overload); pd.procsym.owner.includeoption(sto_has_operator); if pd.parast.symtablelevel>normal_function_level then Message(parser_e_no_local_operator); if isclassmethod then begin include(pd.procoptions,po_classmethod); { any class operator is also static } include(pd.procoptions,po_staticmethod); end; if token<>_ID then begin if not(m_result in current_settings.modeswitches) then consume(_ID); end else begin pd.resultname:=stringdup(orgpattern); consume(_ID); end; { operators without result (management operators) } if optoken in [_OP_INITIALIZE, _OP_FINALIZE, _OP_ADDREF, _OP_COPY] then begin { single var parameter to point the record } if (optoken in [_OP_INITIALIZE, _OP_FINALIZE, _OP_ADDREF]) and ( (pd.parast.SymList.Count<>1) or (tparavarsym(pd.parast.SymList[0]).vardef<>pd.struct) or (tparavarsym(pd.parast.SymList[0]).varspez<>vs_var) ) then Message(parser_e_overload_impossible) { constref (source) and var (dest) parameter to point the records } else if (optoken=_OP_COPY) and ( (pd.parast.SymList.Count<>2) or (tparavarsym(pd.parast.SymList[0]).vardef<>pd.struct) or (tparavarsym(pd.parast.SymList[0]).varspez<>vs_constref) or (tparavarsym(pd.parast.SymList[1]).vardef<>pd.struct) or (tparavarsym(pd.parast.SymList[1]).varspez<>vs_var) ) then Message(parser_e_overload_impossible); trecordsymtable(pd.procsym.Owner).includemanagementoperator( token2managementoperator(optoken)); pd.returndef:=voidtype end else if not try_to_consume(_COLON) then begin consume(_COLON); pd.returndef:=generrordef; consume_all_until(_SEMICOLON); end else begin read_returndef(pd); { check that class operators have either return type of structure or } { at least one argument of that type } if (po_classmethod in pd.procoptions) and (pd.returndef <> pd.struct) then begin found:=false; for i := 0 to pd.parast.SymList.Count - 1 do if tparavarsym(pd.parast.SymList[i]).vardef=pd.struct then begin found:=true; break; end; if not found then if assigned(pd.struct) then Message1(parser_e_at_least_one_argument_must_be_of_type,pd.struct.RttiName) else MessagePos(pd.fileinfo,type_e_type_id_expected); end; if not assigned(pd.struct) or assigned(astruct) then begin if (optoken in [_ASSIGNMENT,_OP_EXPLICIT]) and equal_defs(pd.returndef,tparavarsym(pd.parast.SymList[0]).vardef) and (pd.returndef.typ<>undefineddef) and (tparavarsym(pd.parast.SymList[0]).vardef.typ<>undefineddef) then message(parser_e_no_such_assignment) else if not isoperatoracceptable(pd,optoken) then Message(parser_e_overload_impossible); end; end; end; else internalerror(2015052202); end; { file types can't be function results } if assigned(pd) and (pd.returndef.typ=filedef) then message(parser_e_illegal_function_result); { support procedure proc stdcall export; } if not(check_proc_directive(false)) then begin if (token=_COLON) and not(Assigned(pd) and is_void(pd.returndef)) then begin message(parser_e_field_not_allowed_here); consume_all_until(_SEMICOLON); end; consume(_SEMICOLON); end; if locationstr<>'' then begin if not(paramanager.parsefuncretloc(pd,upper(locationstr))) then { I guess this needs a new message... (KB) } message(parser_e_illegal_explicit_paraloc); end; end; function parse_proc_dec(isclassmethod:boolean;astruct:tabstractrecorddef;isgeneric:boolean):tprocdef; var pd : tprocdef; old_block_type : tblock_type; recover : boolean; procedure finish_intf_mapping; begin if token=_COLON then begin message(parser_e_field_not_allowed_here); consume_all_until(_SEMICOLON); end; consume(_SEMICOLON); end; begin pd:=nil; recover:=false; case token of _FUNCTION : begin consume(_FUNCTION); if parse_proc_head(astruct,potype_function,isgeneric,nil,nil,pd) then begin { pd=nil when it is a interface mapping } if assigned(pd) then parse_proc_dec_finish(pd,isclassmethod,astruct) else finish_intf_mapping; end else begin { recover } consume(_COLON); consume_all_until(_SEMICOLON); recover:=true; end; end; _PROCEDURE : begin consume(_PROCEDURE); if parse_proc_head(astruct,potype_procedure,isgeneric,nil,nil,pd) then begin { pd=nil when it is an interface mapping } if assigned(pd) then parse_proc_dec_finish(pd,isclassmethod,astruct) else finish_intf_mapping; end else recover:=true; end; _CONSTRUCTOR : begin consume(_CONSTRUCTOR); if isclassmethod then recover:=not parse_proc_head(astruct,potype_class_constructor,false,nil,nil,pd) else recover:=not parse_proc_head(astruct,potype_constructor,false,nil,nil,pd); if not recover then parse_proc_dec_finish(pd,isclassmethod,astruct); end; _DESTRUCTOR : begin consume(_DESTRUCTOR); if isclassmethod then recover:=not parse_proc_head(astruct,potype_class_destructor,false,nil,nil,pd) else recover:=not parse_proc_head(astruct,potype_destructor,false,nil,nil,pd); if not recover then parse_proc_dec_finish(pd,isclassmethod,astruct); end; else if (token=_OPERATOR) or (isclassmethod and (idtoken=_OPERATOR)) then begin { we need to set the block type to bt_body, so that operator names like ">", "=>" or "<>" are parsed correctly instead of e.g. _LSHARPBRACKET and _RSHARPBRACKET for "<>" } old_block_type:=block_type; block_type:=bt_body; consume(_OPERATOR); parse_proc_head(astruct,potype_operator,false,nil,nil,pd); block_type:=old_block_type; if assigned(pd) then parse_proc_dec_finish(pd,isclassmethod,astruct) else begin { recover } try_to_consume(_ID); consume(_COLON); consume_all_until(_SEMICOLON); recover:=true; end; end; end; if recover and not(check_proc_directive(false)) then begin if (token=_COLON) and not(Assigned(pd) and is_void(pd.returndef)) then begin message(parser_e_field_not_allowed_here); consume_all_until(_SEMICOLON); end; consume(_SEMICOLON); end; { we've parsed the final semicolon, so stop recording tokens } if assigned(pd) and (df_generic in pd.defoptions) and assigned(pd.genericdecltokenbuf) then current_scanner.stoprecordtokens; result:=pd; end; function parse_record_method_dec(astruct: tabstractrecorddef; is_classdef: boolean;hadgeneric:boolean): tprocdef; var oldparse_only: boolean; begin oldparse_only:=parse_only; parse_only:=true; result:=parse_proc_dec(is_classdef,astruct,hadgeneric); { this is for error recovery as well as forward } { interface mappings, i.e. mapping to a method } { which isn't declared yet } if assigned(result) then begin parse_record_proc_directives(result); { since records have no inheritance, don't allow non-static class methods. Delphi does the same. } if (result.proctypeoption<>potype_operator) and is_classdef and not (po_staticmethod in result.procoptions) then MessagePos(result.fileinfo, parser_e_class_methods_only_static_in_records); // we can't add hidden params here because record is not yet defined // and therefore record size which has influence on paramter passing rules may change too // look at record_dec to see where calling conventions are applied (issue #0021044) handle_calling_convention(result,[hcc_check]); { add definition to procsym } proc_add_definition(result); end; maybe_parse_hint_directives(result); parse_only:=oldparse_only; end; procedure insert_record_hidden_paras(astruct: trecorddef); var pd: tdef; i: longint; oldpos : tfileposinfo; oldparse_only: boolean; begin // handle calling conventions of record methods oldpos:=current_filepos; oldparse_only:=parse_only; parse_only:=true; { don't keep track of procdefs in a separate list, because the compiler may add additional procdefs (e.g. property wrappers for the jvm backend) } for i := 0 to astruct.symtable.deflist.count - 1 do begin pd:=tdef(astruct.symtable.deflist[i]); if pd.typ<>procdef then continue; current_filepos:=tprocdef(pd).fileinfo; handle_calling_convention(tprocdef(pd),[hcc_insert_hidden_paras]); end; parse_only:=oldparse_only; current_filepos:=oldpos; end; {**************************************************************************** Procedure directive handlers ****************************************************************************} procedure pd_compilerproc(pd:tabstractprocdef); var v : Tconstexprint; begin { check for optional syssym index } if try_to_consume(_COLON) then begin v:=get_intconst; if (vint64(high(longint))) then message3(type_e_range_check_error_bounds,tostr(v),tostr(low(longint)),tostr(high(longint))) else if not assigned(tsyssym.find_by_number(longint(v.svalue))) then message1(parser_e_invalid_internal_function_index,tostr(v)) else tprocdef(pd).extnumber:=longint(v.svalue); end; end; procedure pd_far(pd:tabstractprocdef); begin pd.declared_far; end; procedure pd_near(pd:tabstractprocdef); begin pd.declared_near; end; procedure pd_export(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(200304264); if assigned(tprocdef(pd).struct) then Message(parser_e_methods_dont_be_export); if pd.parast.symtablelevel>normal_function_level then Message(parser_e_dont_nest_export); end; procedure pd_forward(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(200304265); tprocdef(pd).forwarddef:=true; end; procedure pd_alias(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(200304266); consume(_COLON); tprocdef(pd).aliasnames.insert(get_stringconst); include(pd.procoptions,po_has_public_name); end; procedure pd_public(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(200304266); if try_to_consume(_NAME) then begin tprocdef(pd).aliasnames.insert(get_stringconst); include(pd.procoptions,po_has_public_name); end; end; procedure pd_asmname(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(200304267); if token=_CCHAR then begin tprocdef(pd).aliasnames.insert(target_info.Cprefix+pattern); consume(_CCHAR) end else begin tprocdef(pd).aliasnames.insert(target_info.Cprefix+cstringpattern); consume(_CSTRING); end; { we don't need anything else } tprocdef(pd).forwarddef:=false; end; procedure pd_internconst(pd:tabstractprocdef); var v:Tconstexprint; begin if pd.typ<>procdef then internalerror(200304268); consume(_COLON); v:=get_intconst; if (vint64(high(longint))) then message3(type_e_range_check_error_bounds,tostr(v),tostr(low(longint)),tostr(high(longint))) else Tprocdef(pd).extnumber:=longint(v.svalue); end; procedure pd_internproc(pd:tabstractprocdef); var v:Tconstexprint; begin if pd.typ<>procdef then internalerror(200304268); consume(_COLON); v:=get_intconst; if (vint64(high(longint))) then message3(type_e_range_check_error_bounds,tostr(v),tostr(low(longint)),tostr(high(longint))) else Tprocdef(pd).extnumber:=longint(v.svalue); { the proc is defined } tprocdef(pd).forwarddef:=false; end; procedure pd_interrupt(pd:tabstractprocdef); begin if pd.parast.symtablelevel>normal_function_level then Message(parser_e_dont_nest_interrupt); end; procedure pd_abstract(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(200304269); if is_objectpascal_helper(tprocdef(pd).struct) then Message1(parser_e_not_allowed_in_helper, arraytokeninfo[_ABSTRACT].str); if assigned(tprocdef(pd).struct) and (oo_is_sealed in tprocdef(pd).struct.objectoptions) then Message(parser_e_sealed_class_cannot_have_abstract_methods) else if (po_virtualmethod in pd.procoptions) then begin include(pd.procoptions,po_abstractmethod); { one more abstract method } inc(tobjectdef(pd.owner.defowner).abstractcnt); end else Message(parser_e_only_virtual_methods_abstract); { the method is defined } tprocdef(pd).forwarddef:=false; end; procedure pd_final(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(200910170); if is_objectpascal_helper(tprocdef(pd).struct) and (m_objfpc in current_settings.modeswitches) then Message1(parser_e_not_allowed_in_helper, arraytokeninfo[_FINAL].str); if (po_virtualmethod in pd.procoptions) or (is_javaclass(tprocdef(pd).struct) and (po_classmethod in pd.procoptions)) then include(pd.procoptions,po_finalmethod) else Message(parser_e_only_virtual_methods_final); end; procedure pd_enumerator(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(200910250); if (token = _ID) then begin if pattern='MOVENEXT' then begin if oo_has_enumerator_movenext in tprocdef(pd).struct.objectoptions then message(parser_e_only_one_enumerator_movenext); pd.calcparas; if (pd.proctypeoption = potype_function) and is_boolean(pd.returndef) and (pd.minparacount = 0) then begin include(tprocdef(pd).struct.objectoptions, oo_has_enumerator_movenext); include(pd.procoptions,po_enumerator_movenext); end else Message(parser_e_enumerator_movenext_is_not_valid) end else Message1(parser_e_invalid_enumerator_identifier, pattern); consume(token); end else Message(parser_e_enumerator_identifier_required); end; procedure pd_virtual(pd:tabstractprocdef); {$ifdef WITHDMT} var pt : tnode; {$endif WITHDMT} begin if (not assigned(pd.owner.defowner) or not is_java_class_or_interface(tdef(pd.owner.defowner))) and (po_external in pd.procoptions) then Message1(parser_e_proc_dir_conflict,'EXTERNAL'); if pd.typ<>procdef then internalerror(2003042610); if (pd.proctypeoption=potype_constructor) and is_object(tprocdef(pd).struct) then Message(parser_e_constructor_cannot_be_not_virtual); if pd.is_generic then message(parser_e_genfuncs_cannot_be_virtual); if is_objectpascal_helper(tprocdef(pd).struct) and (m_objfpc in current_settings.modeswitches) then Message1(parser_e_not_allowed_in_helper, arraytokeninfo[_VIRTUAL].str); {$ifdef WITHDMT} if is_object(tprocdef(pd).struct) and (token<>_SEMICOLON) then begin { any type of parameter is allowed here! } pt:=comp_expr(true); if is_constintnode(pt) then begin include(pd.procoptions,po_msgint); pd.messageinf.i:=pt.value; end else Message(parser_e_ill_msg_expr); disposetree(pt); end; {$endif WITHDMT} end; procedure pd_dispid(pd:tabstractprocdef); var pt:Tnode; begin if pd.typ<>procdef then internalerror(200604301); pt:=comp_expr([ef_accept_equal]); if is_constintnode(pt) then if (Tordconstnode(pt).valueint64(high(longint))) then message3(type_e_range_check_error_bounds,tostr(Tordconstnode(pt).value),tostr(low(longint)),tostr(high(longint))) else Tprocdef(pd).dispid:=Tordconstnode(pt).value.svalue else message(parser_e_dispid_must_be_ord_const); pt.free; end; procedure pd_static(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(2013032001); if not assigned(tprocdef(pd).struct) then internalerror(2013032002); include(tprocdef(pd).procsym.symoptions,sp_static); { "static" is not allowed for operators or normal methods (except in objects) } if (pd.proctypeoption=potype_operator) or ( not (po_classmethod in pd.procoptions) and not is_object(tprocdef(pd).struct) ) then Message1(parser_e_dir_not_allowed,arraytokeninfo[_STATIC].str); include(pd.procoptions,po_staticmethod); end; procedure pd_override(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(2003042611); if is_objectpascal_helper(tprocdef(pd).struct) then begin if m_objfpc in current_settings.modeswitches then Message1(parser_e_not_allowed_in_helper, arraytokeninfo[_OVERRIDE].str) end else if not(is_class_or_interface_or_objc_or_java(tprocdef(pd).struct)) then Message(parser_e_no_object_override) else if is_objccategory(tprocdef(pd).struct) then Message(parser_e_no_category_override) else if (po_external in pd.procoptions) and not is_objc_class_or_protocol(tprocdef(pd).struct) and not is_cppclass(tprocdef(pd).struct) and not is_java_class_or_interface(tprocdef(pd).struct) then Message1(parser_e_proc_dir_conflict,'OVERRIDE'); end; procedure pd_overload(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(2003042612); include(tprocdef(pd).procsym.symoptions,sp_has_overloaded); end; procedure pd_message(pd:tabstractprocdef); var pt : tnode; paracnt : longint; begin if pd.typ<>procdef then internalerror(2003042613); if is_objectpascal_helper(tprocdef(pd).struct) then begin if m_objfpc in current_settings.modeswitches then Message1(parser_e_not_allowed_in_helper, arraytokeninfo[_MESSAGE].str); end else if not is_class(tprocdef(pd).struct) and not is_objc_class_or_protocol(tprocdef(pd).struct) then Message(parser_e_msg_only_for_classes); if ([po_msgstr,po_msgint]*pd.procoptions)<>[] then Message(parser_e_multiple_messages); { check parameter type } if not is_objc_class_or_protocol(tprocdef(pd).struct) then begin if po_external in pd.procoptions then Message1(parser_e_proc_dir_conflict,'MESSAGE'); paracnt:=0; pd.parast.SymList.ForEachCall(@check_msg_para,@paracnt); if paracnt<>1 then Message(parser_e_ill_msg_param); end; pt:=comp_expr([ef_accept_equal]); { message is 1-character long } if is_constcharnode(pt) then begin include(pd.procoptions,po_msgstr); tprocdef(pd).messageinf.str:=stringdup(chr(byte(tordconstnode(pt).value.uvalue and $FF))); end else if pt.nodetype=stringconstn then begin include(pd.procoptions,po_msgstr); if (tstringconstnode(pt).len>255) then Message(parser_e_message_string_too_long); tprocdef(pd).messageinf.str:=stringdup(tstringconstnode(pt).value_str); end else if is_constintnode(pt) and (is_class(tprocdef(pd).struct) or is_objectpascal_helper(tprocdef(pd).struct)) then begin include(pd.procoptions,po_msgint); if (Tordconstnode(pt).valueint64(high(Tprocdef(pd).messageinf.i))) then message3(type_e_range_check_error_bounds,tostr(Tordconstnode(pt).value),tostr(low(Tprocdef(pd).messageinf.i)),tostr(high(Tprocdef(pd).messageinf.i))) else Tprocdef(pd).messageinf.i:=tordconstnode(pt).value.svalue; end else Message(parser_e_ill_msg_expr); { check whether the selector name is valid in case of Objective-C } if (po_msgstr in pd.procoptions) and is_objc_class_or_protocol(tprocdef(pd).struct) and not objcvalidselectorname(@tprocdef(pd).messageinf.str^[1],length(tprocdef(pd).messageinf.str^)) then Message1(type_e_invalid_objc_selector_name,tprocdef(pd).messageinf.str^); pt.free; end; procedure pd_reintroduce(pd:tabstractprocdef); begin if pd.typ<>procdef then internalerror(200401211); if is_objectpascal_helper(tprocdef(pd).struct) then begin if m_objfpc in current_settings.modeswitches then Message1(parser_e_not_allowed_in_helper, arraytokeninfo[_REINTRODUCE].str); end else if not(is_class_or_interface_or_object(tprocdef(pd).struct)) and not(is_objccategory(tprocdef(pd).struct)) and not(is_javaclass(tprocdef(pd).struct)) then Message(parser_e_no_object_reintroduce); end; procedure pd_syscall(pd:tabstractprocdef); procedure include_po_syscall; var syscall: psyscallinfo; begin case target_info.system of system_m68k_atari, system_m68k_amiga, system_powerpc_amiga: include(pd.procoptions,get_default_syscall); system_powerpc_morphos, system_arm_aros, system_i386_aros, system_x86_64_aros: begin syscall:=get_syscall_by_token(idtoken); if assigned(syscall) then begin if target_info.system in syscall^.validon then begin consume(idtoken); include(pd.procoptions,syscall^.procoption); end end else include(pd.procoptions,get_default_syscall); end; end; end; function po_syscall_to_varoptions: tvaroptions; begin result:=[vo_is_syscall_lib,vo_is_hidden_para]; if ([po_syscall_legacy,po_syscall_basereg,po_syscall_basenone] * tprocdef(pd).procoptions) <> [] then include(result,vo_has_explicit_paraloc); end; function po_syscall_to_regname: string; begin if po_syscall_legacy in tprocdef(pd).procoptions then result:='a6' { let nobase on MorphOS store the libbase in r12 as well, because we will need the libbase anyway during the call generation } else if (po_syscall_basenone in tprocdef(pd).procoptions) and (target_info.system = system_powerpc_morphos) then result:='r12' else if po_syscall_basereg in tprocdef(pd).procoptions then begin case target_info.system of system_i386_aros: result:='eax'; system_x86_64_aros: result:='rax'; system_powerpc_morphos: result:='r12'; else internalerror(2016090201); end; end else internalerror(2016090101); end; {$if defined(powerpc) or defined(m68k) or defined(i386) or defined(x86_64) or defined(arm)} const syscall_paranr: array[boolean] of aint = ( paranr_syscall_lib_last, paranr_syscall_lib_first ); var vs : tparavarsym; sym : tsym; symtable : TSymtable; v: Tconstexprint; vo: tvaroptions; paranr: aint; {$endif defined(powerpc) or defined(m68k) or defined(i386) or defined(x86_64) or defined(arm)} begin if (pd.typ<>procdef) and (target_info.system <> system_powerpc_amiga) then internalerror(2003042614); tprocdef(pd).forwarddef:=false; {$if defined(powerpc) or defined(m68k) or defined(i386) or defined(x86_64) or defined(arm)} include_po_syscall; if target_info.system = system_m68k_atari then begin v:=get_intconst; if ((v<0) or (v>15)) then message(parser_e_range_check_error) else tprocdef(pd).extnumber:=longint(v.svalue); v:=get_intconst; if ((v<0) or (v>high(smallint))) then message(parser_e_range_check_error) else tprocdef(pd).import_nr:=longint(v.svalue); exit; end; if consume_sym(sym,symtable) then if (sym.typ=staticvarsym) and ((tabstractvarsym(sym).vardef.typ=pointerdef) or is_32bitint(tabstractvarsym(sym).vardef)) then begin include(pd.procoptions,po_syscall_has_libsym); tcpuprocdef(pd).libsym:=sym; vo:=po_syscall_to_varoptions; paranr:=syscall_paranr[po_syscall_basefirst in tprocdef(pd).procoptions]; vs:=cparavarsym.create('$syscalllib',paranr,vs_value,tabstractvarsym(sym).vardef,vo); if vo_has_explicit_paraloc in vo then if not paramanager.parseparaloc(vs,po_syscall_to_regname) then internalerror(2016120301); pd.parast.insert(vs); end else Message(parser_e_32bitint_or_pointer_variable_expected); paramanager.create_funcretloc_info(pd,calleeside); paramanager.create_funcretloc_info(pd,callerside); v:=get_intconst; if (vhigh(Tprocdef(pd).extnumber)) then message3(type_e_range_check_error_bounds,tostr(v),tostr(low(Tprocdef(pd).extnumber)),tostr(high(Tprocdef(pd).extnumber))) else if target_info.system in [system_arm_aros,system_i386_aros,system_x86_64_aros] then Tprocdef(pd).extnumber:=v.uvalue * sizeof(pint) else Tprocdef(pd).extnumber:=v.uvalue; {$endif defined(powerpc) or defined(m68k) or defined(i386) or defined(x86_64) or defined(arm)} end; procedure pd_external(pd:tabstractprocdef); { If import_dll=nil the procedure is assumed to be in another object file. In that object file it should have the name to which import_name is pointing to. Otherwise, the procedure is assumed to be in the DLL to which import_dll is pointing to. In that case either import_nr<>0 or import_name<>nil is true, so the procedure is either imported by number or by name. (DM) } var hs : string; v:Tconstexprint; is_java_external: boolean; begin if pd.typ<>procdef then internalerror(2003042615); { Allow specifying a separate external name for methods in external Java because its identifier naming constraints are laxer than FPC's (e.g., case sensitive). Limitation: only allows specifying the symbol name and not the package name, and only for external classes/interfaces } is_java_external:= (pd.typ=procdef) and is_java_class_or_interface(tdef(pd.owner.defowner)) and (oo_is_external in tobjectdef(pd.owner.defowner).objectoptions); with tprocdef(pd) do begin forwarddef:=false; { forbid local external procedures } if parast.symtablelevel>normal_function_level then Message(parser_e_no_local_proc_external); { If the procedure should be imported from a DLL, a constant string follows. This isn't really correct, an contant string expression follows so we check if an semicolon follows, else a string constant have to follow (FK) } if not is_java_external and not(token=_SEMICOLON) and not(idtoken=_NAME) then begin { Always add library prefix and suffix to create an uniform name } hs:=get_stringconst; if ExtractFileExt(hs)='' then hs:=ChangeFileExt(hs,target_info.sharedlibext); if Copy(hs,1,length(target_info.sharedlibprefix))<>target_info.sharedlibprefix then hs:=target_info.sharedlibprefix+hs; { the JVM expects java/lang/Object rather than java.lang.Object } if target_info.system in systems_jvm then Replace(hs,'.','/'); import_dll:=stringdup(hs); include(procoptions,po_has_importdll); if (idtoken=_NAME) then begin consume(_NAME); import_name:=stringdup(get_stringconst); include(procoptions,po_has_importname); if import_name^='' then message(parser_e_empty_import_name); end; if (idtoken=_INDEX) then begin {After the word index follows the index number in the DLL.} consume(_INDEX); v:=get_intconst; if (vint64(high(import_nr))) then message(parser_e_range_check_error) else import_nr:=longint(v.svalue); end; { default is to used the realname of the procedure } if (import_nr=0) and not assigned(import_name) then begin import_name:=stringdup(procsym.realname); include(procoptions,po_has_importname); end; end else begin if (idtoken=_NAME) or is_java_external then begin consume(_NAME); import_name:=stringdup(get_stringconst); include(procoptions,po_has_importname); if import_name^='' then message(parser_e_empty_import_name); end; end; end; end; procedure pd_weakexternal(pd:tabstractprocdef); begin if not(target_info.system in systems_weak_linking) then message(parser_e_weak_external_not_supported) else pd_external(pd); end; procedure pd_winapi(pd:tabstractprocdef); begin if not(target_info.system in systems_wince) then pd.proccalloption:=pocall_cdecl else pd.proccalloption:=pocall_stdcall; end; procedure pd_hardfloat(pd:tabstractprocdef); begin if {$if defined(arm)} (current_settings.fputype=fpu_soft) or {$endif defined(arm)} (cs_fp_emulation in current_settings.moduleswitches) then message(parser_e_cannot_use_hardfloat_in_a_softfloat_environment); end; type pd_handler=procedure(pd:tabstractprocdef); proc_dir_rec=record idtok : ttoken; pd_flags : tpdflags; handler : pd_handler; pocall : tproccalloption; pooption : tprocoptions; mutexclpocall : tproccalloptions; mutexclpotype : tproctypeoptions; mutexclpo : tprocoptions; end; const {Should contain the number of procedure directives we support.} num_proc_directives=50; proc_direcdata:array[1..num_proc_directives] of proc_dir_rec= ( ( idtok:_ABSTRACT; pd_flags : [pd_interface,pd_object,pd_notobjintf,pd_notrecord,pd_javaclass]; handler : @pd_abstract; pocall : pocall_none; pooption : [po_abstractmethod]; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_exports,po_interrupt,po_inline] ),( idtok:_ALIAS; pd_flags : [pd_implemen,pd_body,pd_notobjintf]; handler : @pd_alias; pocall : pocall_none; pooption : []; mutexclpocall : []; mutexclpotype : []; mutexclpo : [po_external,po_inline] ),( idtok:_ASMNAME; pd_flags : [pd_interface,pd_implemen,pd_notobjintf]; handler : @pd_asmname; pocall : pocall_cdecl; pooption : [po_external]; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_external,po_inline] ),( idtok:_ASSEMBLER; pd_flags : [pd_interface,pd_implemen,pd_body,pd_notobjintf]; handler : nil; pocall : pocall_none; pooption : [po_assembler]; mutexclpocall : []; mutexclpotype : []; mutexclpo : [po_external] ),( idtok:_C; {same as cdecl for mode mac} pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_cdecl; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_assembler,po_external] ),( idtok:_CDECL; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_cdecl; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_assembler,po_external] ),( idtok:_DISPID; pd_flags : [pd_dispinterface]; handler : @pd_dispid; pocall : pocall_none; pooption : [po_dispid]; mutexclpocall : [pocall_internproc]; mutexclpotype : [potype_constructor,potype_destructor,potype_operator,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt,po_external,po_inline] ),( idtok:_DYNAMIC; pd_flags : [pd_interface,pd_object,pd_notobjintf,pd_notrecord]; handler : @pd_virtual; pocall : pocall_none; pooption : [po_virtualmethod]; mutexclpocall : [pocall_internproc]; mutexclpotype : [potype_class_constructor,potype_class_destructor]; mutexclpo : [po_exports,po_interrupt,po_external,po_overridingmethod,po_inline] ),( idtok:_EXPORT; pd_flags : [pd_body,pd_interface,pd_implemen,pd_notobjintf,pd_notrecord,pd_nothelper]; handler : @pd_export; pocall : pocall_none; pooption : [po_exports,po_global]; mutexclpocall : [pocall_internproc]; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_external,po_interrupt,po_inline] ),( idtok:_EXTERNAL; pd_flags : [pd_implemen,pd_interface,pd_notobject,pd_notobjintf,pd_cppobject,pd_notrecord,pd_nothelper,pd_javaclass,pd_intfjava]; handler : @pd_external; pocall : pocall_none; pooption : [po_external]; mutexclpocall : [pocall_syscall]; { allowed for external cpp classes } mutexclpotype : [{potype_constructor,potype_destructor}potype_class_constructor,potype_class_destructor]; mutexclpo : [po_public,po_exports,po_interrupt,po_assembler,po_inline] ),( idtok:_FAR; pd_flags : [pd_implemen,pd_body,pd_interface,pd_procvar,pd_notobject,pd_notobjintf,pd_notrecord,pd_nothelper]; handler : @pd_far; pocall : pocall_none; pooption : []; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_inline] ),( idtok:_FAR16; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar,pd_notobject,pd_notrecord,pd_nothelper]; handler : nil; pocall : pocall_far16; pooption : []; mutexclpocall : []; mutexclpotype : []; mutexclpo : [po_external] ),( idtok:_FINAL; pd_flags : [pd_interface,pd_object,pd_notobjintf,pd_notrecord,pd_javaclass]; handler : @pd_final; pocall : pocall_none; pooption : [po_finalmethod]; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_exports,po_interrupt,po_inline] ),( idtok:_FORWARD; pd_flags : [pd_implemen,pd_notobject,pd_notobjintf,pd_notrecord,pd_nothelper]; handler : @pd_forward; pocall : pocall_none; pooption : []; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_external,po_inline] ),( idtok:_OLDFPCCALL; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_oldfpccall; pooption : []; mutexclpocall : []; mutexclpotype : []; mutexclpo : [] ),( idtok:_INLINE; pd_flags : [pd_interface,pd_implemen,pd_body,pd_notobjintf]; handler : nil; pocall : pocall_none; pooption : [po_inline]; mutexclpocall : [pocall_safecall]; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_exports,po_external,po_interrupt,po_virtualmethod,po_iocheck] ),( idtok:_INTERNCONST; pd_flags : [pd_interface,pd_body,pd_notobject,pd_notobjintf,pd_notrecord,pd_nothelper]; handler : @pd_internconst; pocall : pocall_none; pooption : [po_internconst]; mutexclpocall : []; mutexclpotype : [potype_operator]; mutexclpo : [] ),( idtok:_INTERNPROC; pd_flags : [pd_interface,pd_notobject,pd_notobjintf,pd_notrecord,pd_nothelper]; handler : @pd_internproc; pocall : pocall_internproc; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_operator,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_exports,po_external,po_interrupt,po_assembler,po_iocheck,po_virtualmethod] ),( idtok:_INTERRUPT; pd_flags : [pd_implemen,pd_body,pd_notobject,pd_notobjintf,pd_notrecord,pd_nothelper]; handler : @pd_interrupt; pocall : pocall_oldfpccall; pooption : [po_interrupt]; mutexclpocall : [pocall_internproc,pocall_cdecl,pocall_cppdecl,pocall_stdcall,pocall_mwpascal, pocall_pascal,pocall_far16,pocall_oldfpccall,pocall_sysv_abi_cdecl,pocall_ms_abi_cdecl]; mutexclpotype : [potype_constructor,potype_destructor,potype_operator,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_external,po_inline,po_exports] ),( idtok:_IOCHECK; pd_flags : [pd_implemen,pd_body,pd_notobjintf]; handler : nil; pocall : pocall_none; pooption : [po_iocheck]; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_external] ),( idtok:_LOCAL; pd_flags : [pd_implemen,pd_body]; handler : nil; pocall : pocall_none; pooption : [po_kylixlocal]; mutexclpocall : [pocall_internproc,pocall_far16]; mutexclpotype : []; mutexclpo : [po_external,po_exports] ),( idtok:_MESSAGE; pd_flags : [pd_interface,pd_object,pd_notobjintf,pd_objcclass,pd_objcprot,pd_notrecord]; handler : @pd_message; pocall : pocall_none; pooption : []; { can be po_msgstr or po_msgint } mutexclpocall : [pocall_internproc]; mutexclpotype : [potype_constructor,potype_destructor,potype_operator,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt,po_inline] ),( idtok:_MWPASCAL; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_mwpascal; pooption : []; mutexclpocall : []; mutexclpotype : []; mutexclpo : [] ),( idtok:_NEAR; pd_flags : [pd_implemen,pd_body,pd_procvar,pd_notobjintf,pd_notrecord,pd_nothelper]; handler : @pd_near; pocall : pocall_none; pooption : []; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [] ),( idtok:_NORETURN; pd_flags : [pd_implemen,pd_interface,pd_body,pd_notobjintf]; handler : nil; pocall : pocall_none; pooption : [po_noreturn]; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_operator,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt,po_virtualmethod,po_iocheck] ),( idtok:_NOSTACKFRAME; pd_flags : [pd_implemen,pd_body,pd_procvar,pd_notobjintf]; handler : nil; pocall : pocall_none; pooption : [po_nostackframe]; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [] ),( idtok:_OVERLOAD; pd_flags : [pd_implemen,pd_interface,pd_body,pd_javaclass,pd_intfjava,pd_objcclass,pd_objcprot]; handler : @pd_overload; pocall : pocall_none; pooption : [po_overload]; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [] ),( idtok:_OVERRIDE; pd_flags : [pd_interface,pd_object,pd_notobjintf,pd_objcclass,pd_javaclass,pd_intfjava,pd_notrecord]; handler : @pd_override; pocall : pocall_none; pooption : [po_overridingmethod,po_virtualmethod]; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_exports,po_interrupt,po_virtualmethod,po_inline] ),( idtok:_PASCAL; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_pascal; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_external] ),( idtok:_PUBLIC; pd_flags : [pd_interface,pd_implemen,pd_body,pd_notobject,pd_notobjintf,pd_notrecord,pd_nothelper]; handler : @pd_public; pocall : pocall_none; pooption : [po_public,po_global]; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_external,po_inline] ),( idtok:_REGISTER; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_register; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_external] ),( idtok:_REINTRODUCE; pd_flags : [pd_interface,pd_object,pd_notobjintf,pd_objcclass,pd_notrecord,pd_javaclass]; handler : @pd_reintroduce; pocall : pocall_none; pooption : [po_reintroduce]; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_external,po_interrupt,po_exports,po_overridingmethod,po_inline] ),( idtok:_SAFECALL; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_safecall; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_external] ),( idtok:_SOFTFLOAT; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_softfloat; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; { it's available with po_external because the libgcc floating point routines on the arm uses this calling convention } mutexclpo : [] ),( idtok:_STATIC; pd_flags : [pd_interface,pd_implemen,pd_body,pd_object,pd_record,pd_javaclass,pd_notobjintf]; handler : @pd_static; pocall : pocall_none; pooption : [po_staticmethod]; mutexclpocall : [pocall_internproc]; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt,po_exports,po_virtualmethod] ),( idtok:_STDCALL; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_stdcall; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_external] ),( idtok:_SYSCALL; { Different kind of syscalls are valid for AOS68k, AOSPPC and MOS. } { FIX ME!!! MorphOS/AOS68k pd_flags should be: pd_interface, pd_implemen, pd_notobject, pd_notobjintf (KB) } pd_flags : [pd_interface,pd_implemen,pd_procvar]; handler : @pd_syscall; pocall : pocall_syscall; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_external,po_assembler,po_interrupt,po_exports] ),( idtok:_VIRTUAL; pd_flags : [pd_interface,pd_object,pd_notobjintf,pd_notrecord,pd_javaclass]; handler : @pd_virtual; pocall : pocall_none; pooption : [po_virtualmethod]; mutexclpocall : [pocall_internproc]; mutexclpotype : [potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt,po_exports,po_overridingmethod,po_inline,po_staticmethod] ),( idtok:_CPPDECL; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_cppdecl; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_assembler,po_external,po_virtualmethod] ),( idtok:_VARARGS; pd_flags : [pd_interface,pd_implemen,pd_procvar,pd_objcclass,pd_objcprot]; handler : nil; pocall : pocall_none; pooption : [po_varargs]; mutexclpocall : [pocall_internproc,pocall_register, pocall_far16,pocall_oldfpccall,pocall_mwpascal]; mutexclpotype : []; mutexclpo : [po_assembler,po_interrupt,po_inline] ),( idtok:_COMPILERPROC; pd_flags : [pd_interface,pd_implemen,pd_body,pd_notobjintf]; handler : @pd_compilerproc; pocall : pocall_none; pooption : [po_compilerproc]; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt] ),( idtok:_WEAKEXTERNAL; pd_flags : [pd_implemen,pd_interface,pd_notobject,pd_notobjintf,pd_cppobject,pd_notrecord,pd_nothelper]; handler : @pd_weakexternal; pocall : pocall_none; { mark it both external and weak external, so we don't have to adapt all code for external symbols to also check for weak external } pooption : [po_external,po_weakexternal]; mutexclpocall : [pocall_internproc,pocall_syscall]; { allowed for external cpp classes } mutexclpotype : [{potype_constructor,potype_destructor}potype_class_constructor,potype_class_destructor]; mutexclpo : [po_public,po_exports,po_interrupt,po_assembler,po_inline] ),( idtok:_WINAPI; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : @pd_winapi; pocall : pocall_none; pooption : []; mutexclpocall : [pocall_stdcall,pocall_cdecl,pocall_mwpascal,pocall_sysv_abi_cdecl,pocall_ms_abi_cdecl]; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_external] ),( idtok:_ENUMERATOR; pd_flags : [pd_interface,pd_object,pd_record]; handler : @pd_enumerator; pocall : pocall_none; pooption : []; mutexclpocall : [pocall_internproc]; mutexclpotype : []; mutexclpo : [po_exports,po_interrupt,po_external,po_inline] ),( idtok:_RTLPROC; pd_flags : [pd_interface,pd_implemen,pd_body,pd_notobjintf]; handler : nil; pocall : pocall_none; pooption : [po_rtlproc]; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt] ),( idtok:_HARDFLOAT; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : @pd_hardfloat; pocall : pocall_hardfloat; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; { it's available with po_external because the libgcc floating point routines on the arm uses this calling convention } mutexclpo : [] ),( idtok:_SYSV_ABI_DEFAULT; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_sysv_abi_default; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt] ),( idtok:_SYSV_ABI_CDECL; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_sysv_abi_cdecl; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt] ),( idtok:_MS_ABI_DEFAULT; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_ms_abi_default; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt] ),( idtok:_MS_ABI_CDECL; pd_flags : [pd_interface,pd_implemen,pd_body,pd_procvar]; handler : nil; pocall : pocall_ms_abi_cdecl; pooption : []; mutexclpocall : []; mutexclpotype : [potype_constructor,potype_destructor,potype_class_constructor,potype_class_destructor]; mutexclpo : [po_interrupt] ) ); function check_proc_directive(isprocvar:boolean):boolean; var i : longint; begin result:=false; for i:=1 to num_proc_directives do if proc_direcdata[i].idtok=idtoken then begin if ((not isprocvar) or (pd_procvar in proc_direcdata[i].pd_flags)) and { don't eat a public directive in classes } not((idtoken=_PUBLIC) and (symtablestack.top.symtabletype=ObjectSymtable)) then result:=true; exit; end; end; function parse_proc_direc(pd:tabstractprocdef;var pdflags:tpdflags):boolean; { Parse the procedure directive, returns true if a correct directive is found } var p : longint; found : boolean; name : TIDString; begin parse_proc_direc:=false; name:=tokeninfo^[idtoken].str; found:=false; { Hint directive? Then exit immediatly } if (m_hintdirective in current_settings.modeswitches) then begin case idtoken of _LIBRARY, _PLATFORM, _UNIMPLEMENTED, _EXPERIMENTAL, _DEPRECATED : if (m_delphi in current_settings.modeswitches) and (pd.typ=procdef) then begin maybe_parse_hint_directives(tprocdef(pd)); { could the new token still be a directive? } if token<>_ID then exit; name:=tokeninfo^[idtoken].str; end else exit; end; end; { C directive is MacPas only, because it breaks too much existing code on other platforms (PFV) } if (idtoken=_C) and not(m_mac in current_settings.modeswitches) then exit; { retrieve data for directive if found } for p:=1 to num_proc_directives do if proc_direcdata[p].idtok=idtoken then begin found:=true; break; end; { Check if the procedure directive is known } if not found then begin { parsing a procvar type the name can be any next variable !! } if ((pdflags * [pd_procvar,pd_object,pd_record,pd_objcclass,pd_objcprot])=[]) and not(idtoken in [_PROPERTY,_GENERIC]) then Message1(parser_w_unknown_proc_directive_ignored,pattern); exit; end; { check if method and directive not for object, like public. This needs to be checked also for procvars } if (pd_notobject in proc_direcdata[p].pd_flags) and (symtablestack.top.symtabletype=ObjectSymtable) and { directive allowed for cpp classes? } not((pd_cppobject in proc_direcdata[p].pd_flags) and is_cppclass(tdef(symtablestack.top.defowner))) and not((pd_javaclass in proc_direcdata[p].pd_flags) and is_javaclass(tdef(symtablestack.top.defowner))) and not((pd_intfjava in proc_direcdata[p].pd_flags) and is_javainterface(tdef(symtablestack.top.defowner))) then exit; if (pd_notrecord in proc_direcdata[p].pd_flags) and (symtablestack.top.symtabletype=recordsymtable) then exit; { check if method and directive not for java class } if not(pd_javaclass in proc_direcdata[p].pd_flags) and is_javaclass(tdef(symtablestack.top.defowner)) then exit; { check if method and directive not for java interface } if not(pd_intfjava in proc_direcdata[p].pd_flags) and is_javainterface(tdef(symtablestack.top.defowner)) then exit; { Conflicts between directives ? } if (pd.proctypeoption in proc_direcdata[p].mutexclpotype) or (pd.proccalloption in proc_direcdata[p].mutexclpocall) or ((pd.procoptions*proc_direcdata[p].mutexclpo)<>[]) then begin Message1(parser_e_proc_dir_conflict,name); exit; end; { set calling convention } if proc_direcdata[p].pocall<>pocall_none then begin if (po_hascallingconvention in pd.procoptions) then begin Message2(parser_w_proc_overriding_calling, proccalloptionStr[pd.proccalloption], proccalloptionStr[proc_direcdata[p].pocall]); end; { check if the target processor supports this calling convention } if not(proc_direcdata[p].pocall in supported_calling_conventions) then begin Message1(parser_e_illegal_calling_convention,proccalloptionStr[proc_direcdata[p].pocall]); { recover } proc_direcdata[p].pocall:=pocall_stdcall; end; pd.proccalloption:=proc_direcdata[p].pocall; include(pd.procoptions,po_hascallingconvention); end; if pd.typ=procdef then begin { Check if the directive is only for objects } if (pd_object in proc_direcdata[p].pd_flags) and not assigned(tprocdef(pd).struct) then exit; { Check if the directive is only for records } if (pd_record in proc_direcdata[p].pd_flags) and not assigned(tprocdef(pd).struct) then exit; { check if method and directive not for interface } if (pd_notobjintf in proc_direcdata[p].pd_flags) and is_interface(tprocdef(pd).struct) then exit; { check if method and directive not for interface } if is_dispinterface(tprocdef(pd).struct) and not(pd_dispinterface in proc_direcdata[p].pd_flags) then exit; { check if method and directive not for objcclass } if is_objcclass(tprocdef(pd).struct) and not(pd_objcclass in proc_direcdata[p].pd_flags) then exit; { check if method and directive not for objcprotocol } if is_objcprotocol(tprocdef(pd).struct) and not(pd_objcprot in proc_direcdata[p].pd_flags) then exit; { check if method and directive not for record/class helper } if is_objectpascal_helper(tprocdef(pd).struct) and (pd_nothelper in proc_direcdata[p].pd_flags) then end; { consume directive, and turn flag on } consume(token); parse_proc_direc:=true; { Check the pd_flags if the directive should be allowed } if (pd_interface in pdflags) and not(pd_interface in proc_direcdata[p].pd_flags) then begin Message1(parser_e_proc_dir_not_allowed_in_interface,name); exit; end; if (pd_implemen in pdflags) and not(pd_implemen in proc_direcdata[p].pd_flags) then begin Message1(parser_e_proc_dir_not_allowed_in_implementation,name); exit; end; if (pd_procvar in pdflags) and not(pd_procvar in proc_direcdata[p].pd_flags) then begin Message1(parser_e_proc_dir_not_allowed_in_procvar,name); exit; end; { Return the new pd_flags } if not(pd_body in proc_direcdata[p].pd_flags) then exclude(pdflags,pd_body); { Add the correct flag } pd.procoptions:=pd.procoptions+proc_direcdata[p].pooption; { Call the handler } if pointer(proc_direcdata[p].handler)<>nil then proc_direcdata[p].handler(pd); end; function proc_get_importname(pd:tprocdef):string; var dllname, importname : string; begin result:=''; if not(po_external in pd.procoptions) then internalerror(200412151); { external name or number is specified } if assigned(pd.import_name) or (pd.import_nr<>0) then begin if assigned(pd.import_dll) then dllname:=pd.import_dll^ else dllname:=''; if assigned(pd.import_name) then importname:=pd.import_name^ else importname:=''; proc_get_importname:=make_dllmangledname(dllname, importname,pd.import_nr,pd.proccalloption); end else begin { Default names when importing variables } case pd.proccalloption of pocall_cdecl, pocall_sysv_abi_cdecl, pocall_ms_abi_cdecl: begin if assigned(pd.struct) then result:=target_info.Cprefix+pd.struct.objrealname^+'_'+pd.procsym.realname else result:=target_info.Cprefix+pd.procsym.realname; end; pocall_cppdecl : begin result:=target_info.Cprefix+pd.cplusplusmangledname; end; else begin {In MacPas a single "external" has the same effect as "external name 'xxx'" } { but according to MacPas mode description Cprefix should still be used PM } if (m_mac in current_settings.modeswitches) then result:=target_info.Cprefix+tprocdef(pd).procsym.realname else result:=pd.procsym.realname; end; end; end; end; procedure compilerproc_set_symbol_name(pd: tprocdef); begin pd.procsym.realname:='$'+lower(pd.procsym.name); end; procedure proc_set_mangledname(pd:tprocdef); var s : string; begin { When the mangledname is already set we aren't allowed to change it because it can already be used somewhere (PFV) } if not(po_has_mangledname in pd.procoptions) then begin if (po_external in pd.procoptions) then begin { External Procedures are only allowed to change the mangledname in their first declaration } if (pd.forwarddef or (not pd.hasforward)) then begin s:=proc_get_importname(pd); if s<>'' then begin pd.setmangledname(s); end; { since this is an external declaration, there won't be an implementation that needs to match the original symbol again -> immediately convert here } if po_compilerproc in pd.procoptions then compilerproc_set_symbol_name(pd); end end else { Normal procedures } begin if (po_compilerproc in pd.procoptions) then begin pd.setmangledname(lower(pd.procsym.name)); end; end; end; { Public/exported alias names } if (([po_public,po_exports]*pd.procoptions)<>[]) and not(po_has_public_name in pd.procoptions) then begin case pd.proccalloption of pocall_cdecl, pocall_sysv_abi_cdecl, pocall_ms_abi_cdecl: begin if assigned(pd.struct) then pd.aliasnames.insert(target_info.Cprefix+pd.struct.objrealname^+'_'+pd.procsym.realname) else begin { Export names are not mangled on Windows and OS/2, see also pexports.pas } if (target_info.system in (systems_all_windows+[system_i386_emx, system_i386_os2])) and (po_exports in pd.procoptions) then pd.aliasnames.insert(pd.procsym.realname) else pd.aliasnames.insert(target_info.Cprefix+pd.procsym.realname); end; end; pocall_cppdecl : begin pd.aliasnames.insert(target_info.Cprefix+pd.cplusplusmangledname); end; end; { prevent adding the alias a second time } include(pd.procoptions,po_has_public_name); end; end; procedure handle_calling_convention(pd:tabstractprocdef;flags:thccflags=hcc_all); begin if hcc_check in flags then begin { set the default calling convention if none provided } if (pd.typ=procdef) and (is_objc_class_or_protocol(tprocdef(pd).struct) or is_cppclass(tprocdef(pd).struct)) then begin { none of the explicit calling conventions should be allowed } if (po_hascallingconvention in pd.procoptions) then internalerror(2009032501); if is_cppclass(tprocdef(pd).struct) then pd.proccalloption:=pocall_cppdecl else pd.proccalloption:=pocall_cdecl; end else if not(po_hascallingconvention in pd.procoptions) then pd.proccalloption:=current_settings.defproccall else begin if pd.proccalloption=pocall_none then internalerror(200309081); end; { handle proccall specific settings } case pd.proccalloption of pocall_cdecl, pocall_cppdecl, pocall_sysv_abi_cdecl, pocall_ms_abi_cdecl: begin { check C cdecl para types } check_c_para(pd); end; pocall_far16 : begin { Temporary stub, must be rewritten to support OS/2 far16 } Message1(parser_w_proc_directive_ignored,'FAR16'); end; end; { Inlining is enabled and supported? } if (po_inline in pd.procoptions) and not(cs_do_inline in current_settings.localswitches) then begin { Give an error if inline is not supported by the compiler mode, otherwise only give a hint that this procedure will not be inlined } if not(m_default_inline in current_settings.modeswitches) then Message(parser_e_proc_inline_not_supported) else Message(parser_h_inlining_disabled); exclude(pd.procoptions,po_inline); end; { For varargs directive also cdecl and external must be defined } if (po_varargs in pd.procoptions) then begin { check first for external in the interface, if available there then the cdecl must also be there since there is no implementation available to contain it } if parse_only then begin { if external is available, then cdecl must also be available, procvars don't need external } if not((po_external in pd.procoptions) or (pd.typ=procvardef) or { for objcclasses this is checked later, because the entire class may be external. } is_objc_class_or_protocol(tprocdef(pd).struct)) and not(pd.proccalloption in (cdecl_pocalls + [pocall_stdcall])) then Message(parser_e_varargs_need_cdecl_and_external); end else begin { both must be defined now } if not((po_external in pd.procoptions) or (pd.typ=procvardef)) or not(pd.proccalloption in (cdecl_pocalls + [pocall_stdcall])) then Message(parser_e_varargs_need_cdecl_and_external); end; end; end; if hcc_insert_hidden_paras in flags then begin { insert hidden high parameters } pd.parast.SymList.ForEachCall(@insert_hidden_para,pd); { insert hidden self parameter } insert_self_and_vmt_para(pd); { insert funcret parameter if required } insert_funcret_para(pd); { Make var parameters regable, this must be done after the calling convention is set. } { this must be done before parentfp is insert, because getting all cases where parentfp must be in a memory location isn't catched properly so we put parentfp never in a register } pd.parast.SymList.ForEachCall(@set_addr_param_regable,pd); { insert parentfp parameter if required } insert_parentfp_para(pd); end; { Calculate parameter tlist } pd.calcparas; end; procedure parse_proc_directives(pd:tabstractprocdef;var pdflags:tpdflags); { Parse the procedure directives. It does not matter if procedure directives are written using ;procdir; or ['procdir'] syntax. } var stoprecording, res : boolean; begin if (m_mac in current_settings.modeswitches) and (cs_externally_visible in current_settings.localswitches) then begin tprocdef(pd).aliasnames.insert(target_info.Cprefix+tprocdef(pd).procsym.realname); include(pd.procoptions,po_public); include(pd.procoptions,po_has_public_name); include(pd.procoptions,po_global); end; { methods from external class definitions are all external themselves } if (pd.typ=procdef) and assigned(tprocdef(pd).struct) and (tprocdef(pd).struct.typ=objectdef) and (oo_is_external in tobjectdef(tprocdef(pd).struct).objectoptions) then tprocdef(pd).make_external; { Class constructors and destructor are static class methods in real. } { There are many places in the compiler where either class or static } { method flag changes the behavior. It is simplier to add them to } { the class constructors/destructors options than to fix all the } { occurencies. (Paul) } if pd.proctypeoption in [potype_class_constructor,potype_class_destructor] then begin include(pd.procoptions,po_classmethod); include(pd.procoptions,po_staticmethod); end; { for a generic routine we also need to record the procedure } { directives, but only if we aren't already recording for a } { surrounding generic } if pd.is_generic and (pd.typ=procdef) and not current_scanner.is_recording_tokens then begin current_scanner.startrecordtokens(tprocdef(pd).genericdecltokenbuf); stoprecording:=true; end else stoprecording:=false; while token in [_ID,_LECKKLAMMER] do begin if try_to_consume(_LECKKLAMMER) then begin repeat parse_proc_direc(pd,pdflags); until not try_to_consume(_COMMA); consume(_RECKKLAMMER); { we always expect at least '[];' } res:=true; end else begin res:=parse_proc_direc(pd,pdflags); end; { A procedure directive normally followed by a semicolon, but in a const section or reading a type we should stop when _EQ is found, because a constant/default value follows } if res then begin if (block_type=bt_const_type) and (token=_EQ) then break; { support procedure proc;stdcall export; } if not(check_proc_directive((pd.typ=procvardef))) then begin { support "record p : procedure stdcall end;" and "var p : procedure stdcall = nil;" } if (pd_procvar in pdflags) and (token in [_END,_RKLAMMER,_EQ]) then break else begin if (token=_COLON) then begin Message(parser_e_field_not_allowed_here); consume_all_until(_SEMICOLON); end; consume(_SEMICOLON) end; end; end else break; end; if stoprecording then current_scanner.stoprecordtokens; { nostackframe requires assembler, but assembler may be specified in the implementation part only, and in not required if the function is first forward declared if it is a procdef that has forwardef set to true we postpone the possible error message to the real implementation parse_only does not need to be considered as po_nostackframe is an implementation only directive } if (po_nostackframe in pd.procoptions) and not (po_assembler in pd.procoptions) and ((pd.typ<>procdef) or not tprocdef(pd).forwarddef) then message(parser_e_nostackframe_without_assembler); end; procedure parse_var_proc_directives(sym:tsym); var pdflags : tpdflags; pd : tabstractprocdef; begin pdflags:=[pd_procvar]; pd:=nil; case sym.typ of fieldvarsym, staticvarsym, localvarsym, paravarsym : pd:=tabstractprocdef(tabstractvarsym(sym).vardef); typesym : pd:=tabstractprocdef(ttypesym(sym).typedef); else internalerror(2003042617); end; if pd.typ<>procvardef then internalerror(2003042618); { names should never be used anyway } parse_proc_directives(pd,pdflags); end; procedure parse_object_proc_directives(pd:tabstractprocdef); var pdflags : tpdflags; begin pdflags:=[pd_object]; parse_proc_directives(pd,pdflags); end; procedure parse_record_proc_directives(pd:tabstractprocdef); var pdflags : tpdflags; begin pdflags:=[pd_record]; parse_proc_directives(pd,pdflags); end; function proc_add_definition(var currpd:tprocdef):boolean; function equal_generic_procdefs(fwpd,currpd:tprocdef):boolean; var i : longint; fwtype, currtype : ttypesym; foundretdef : boolean; begin result:=false; if fwpd.genericparas.count<>currpd.genericparas.count then exit; { comparing generic declarations is a bit more cumbersome as the defs of the generic parameter types are not equal, especially if the declaration contains constraints; essentially we have two cases: - proc declared in interface of unit (or in class/record/object) and defined in implementation; here the fwpd might contain constraints while currpd must only contain undefineddefs - forward declaration in implementation } foundretdef:=false; for i:=0 to fwpd.genericparas.count-1 do begin fwtype:=ttypesym(fwpd.genericparas[i]); currtype:=ttypesym(currpd.genericparas[i]); { if the type in the currpd isn't a pure undefineddef, then we can stop right there } if (currtype.typedef.typ<>undefineddef) or (df_genconstraint in currtype.typedef.defoptions) then exit; if not foundretdef then begin { if the returndef is the same as this parameter's def then this needs to be the case for both procdefs } foundretdef:=fwpd.returndef=fwtype.typedef; if foundretdef xor (currpd.returndef=currtype.typedef) then exit; end; end; if compare_paras(fwpd.paras,currpd.paras,cp_none,[cpo_ignorehidden,cpo_openequalisexact,cpo_ignoreuniv,cpo_generic])<>te_exact then exit; if not foundretdef then begin if (df_specialization in tstoreddef(fwpd.returndef).defoptions) and (df_specialization in tstoreddef(currpd.returndef).defoptions) then { for specializations we're happy with equal defs instead of exactly the same defs } result:=equal_defs(fwpd.returndef,currpd.returndef) else { the returndef isn't a type parameter, so compare as usual } result:=compare_defs(fwpd.returndef,currpd.returndef,nothingn)=te_exact; end else result:=true; end; { Add definition aprocdef to the overloaded definitions of aprocsym. If a forwarddef is found and reused it returns true } var fwpd : tprocdef; currparasym, fwparasym : tsym; currparacnt, fwparacnt, curridx, fwidx, i : longint; po_comp : tprocoptions; paracompopt: tcompare_paras_options; forwardfound : boolean; symentry: TSymEntry; item : tlinkedlistitem; begin forwardfound:=false; { check overloaded functions if the same function already exists } for i:=0 to tprocsym(currpd.procsym).ProcdefList.Count-1 do begin fwpd:=tprocdef(tprocsym(currpd.procsym).ProcdefList[i]); { can happen for internally generated routines } if (fwpd=currpd) then begin result:=true; exit; end; { Skip overloaded definitions that are declared in other units } if fwpd.procsym<>currpd.procsym then continue; { check the parameters, for delphi/tp it is possible to leave the parameters away in the implementation (forwarddef=false). But for an overload declared function this is not allowed } if { check if empty implementation arguments match is allowed } ( not(m_repeat_forward in current_settings.modeswitches) and not(currpd.forwarddef) and is_bareprocdef(currpd) and not(po_overload in fwpd.procoptions) ) or ( fwpd.is_generic and currpd.is_generic and equal_generic_procdefs(fwpd,currpd) ) or { check arguments, we need to check only the user visible parameters. The hidden parameters can be in a different location because of the calling convention, eg. L-R vs. R-L order (PFV) don't check default values here, because routines that are the same except for their default values should be reported as mismatches (since you can't overload based on different default parameter values) } ( (compare_paras(fwpd.paras,currpd.paras,cp_none,[cpo_ignorehidden,cpo_openequalisexact,cpo_ignoreuniv])=te_exact) and (compare_defs(fwpd.returndef,currpd.returndef,nothingn)=te_exact) ) then begin { Check if we've found the forwarddef, if found then we need to update the forward def with the current implementation settings } if fwpd.forwarddef then begin forwardfound:=true; if not(m_repeat_forward in current_settings.modeswitches) and (fwpd.proccalloption<>currpd.proccalloption) then paracompopt:=[cpo_ignorehidden,cpo_comparedefaultvalue,cpo_openequalisexact,cpo_ignoreuniv] else paracompopt:=[cpo_comparedefaultvalue,cpo_openequalisexact,cpo_ignoreuniv]; { Check calling convention } if (fwpd.proccalloption<>currpd.proccalloption) then begin { In delphi it is possible to specify the calling convention in the interface or implementation if there was no convention specified in the other part } if (m_delphi in current_settings.modeswitches) then begin if not(po_hascallingconvention in currpd.procoptions) then currpd.proccalloption:=fwpd.proccalloption else if not(po_hascallingconvention in fwpd.procoptions) then fwpd.proccalloption:=currpd.proccalloption else begin MessagePos(currpd.fileinfo,parser_e_call_convention_dont_match_forward); tprocsym(currpd.procsym).write_parameter_lists(currpd); { restore interface settings } currpd.proccalloption:=fwpd.proccalloption; end; end else begin MessagePos(currpd.fileinfo,parser_e_call_convention_dont_match_forward); tprocsym(currpd.procsym).write_parameter_lists(currpd); { restore interface settings } currpd.proccalloption:=fwpd.proccalloption; end; end; { Check static } if (po_staticmethod in fwpd.procoptions) then begin if not (po_staticmethod in currpd.procoptions) then begin include(currpd.procoptions, po_staticmethod); if (po_classmethod in currpd.procoptions) then begin { remove self from the hidden paras } symentry:=currpd.parast.Find('self'); if symentry<>nil then begin currpd.parast.Delete(symentry); currpd.calcparas; end; end; end; end; { Check if the procedure type and return type are correct, also the parameters must match also with the type and that if the implementation has default parameters, the interface also has them and that if they both have them, that they have the same value } if ((m_repeat_forward in current_settings.modeswitches) or not is_bareprocdef(currpd)) and ( ( fwpd.is_generic and currpd.is_generic and not equal_generic_procdefs(fwpd,currpd) ) or ( ( not fwpd.is_generic or not currpd.is_generic ) and ( (compare_paras(fwpd.paras,currpd.paras,cp_all,paracompopt)<>te_exact) or (compare_defs(fwpd.returndef,currpd.returndef,nothingn)<>te_exact) ) ) ) then begin MessagePos1(currpd.fileinfo,parser_e_header_dont_match_forward, fwpd.fullprocname(false)); tprocsym(currpd.procsym).write_parameter_lists(currpd); break; end; { Check if both are declared forward } if fwpd.forwarddef and currpd.forwarddef then begin MessagePos1(currpd.fileinfo,parser_e_function_already_declared_public_forward, currpd.fullprocname(false)); end; { internconst or internproc only need to be defined once } if (fwpd.proccalloption=pocall_internproc) then currpd.proccalloption:=fwpd.proccalloption else if (currpd.proccalloption=pocall_internproc) then fwpd.proccalloption:=currpd.proccalloption; { Check procedure options, Delphi requires that class is repeated in the implementation for class methods } if (m_fpc in current_settings.modeswitches) then po_comp:=[po_classmethod,po_varargs,po_methodpointer,po_interrupt] else po_comp:=[po_classmethod,po_methodpointer]; if ((po_comp * fwpd.procoptions)<>(po_comp * currpd.procoptions)) or (fwpd.proctypeoption <> currpd.proctypeoption) or { if the implementation version has an "overload" modifier, the interface version must also have it (otherwise we can get annoying crashes due to interface crc changes) } (not(po_overload in fwpd.procoptions) and (po_overload in currpd.procoptions)) then begin MessagePos1(currpd.fileinfo,parser_e_header_dont_match_forward, fwpd.fullprocname(false)); tprocsym(fwpd.procsym).write_parameter_lists(fwpd); { This error is non-fatal, we can recover } end; { Forward declaration is external? } if (po_external in fwpd.procoptions) then MessagePos(currpd.fileinfo,parser_e_proc_already_external); { Check parameters } if (m_repeat_forward in current_settings.modeswitches) or (currpd.minparacount>0) then begin { If mangled names are equal then they have the same amount of arguments } { We can check the names of the arguments } { both symtables are in the same order from left to right } curridx:=0; fwidx:=0; currparacnt:=currpd.parast.SymList.Count; fwparacnt:=fwpd.parast.SymList.Count; repeat { skip default parameter constsyms } while (curridxparavarsym) do inc(curridx); while (fwidxparavarsym) do inc(fwidx); { stop when one of the two lists is at the end } if (fwidx>=fwparacnt) or (curridx>=currparacnt) then break; { compare names of parameters, ignore implictly renamed parameters } currparasym:=tsym(currpd.parast.SymList[curridx]); fwparasym:=tsym(fwpd.parast.SymList[fwidx]); if not(sp_implicitrename in currparasym.symoptions) and not(sp_implicitrename in fwparasym.symoptions) then begin if (currparasym.name<>fwparasym.name) then begin MessagePos3(currpd.fileinfo,parser_e_header_different_var_names, tprocsym(currpd.procsym).realname,fwparasym.realname,currparasym.realname); break; end; end; { next parameter } inc(curridx); inc(fwidx); until false; end; { Everything is checked, now we can update the forward declaration with the new data from the implementation } fwpd.forwarddef:=currpd.forwarddef; fwpd.hasforward:=true; fwpd.procoptions:=fwpd.procoptions+currpd.procoptions; { marked as local but exported from unit? } if (po_kylixlocal in fwpd.procoptions) and (fwpd.owner.symtabletype=globalsymtable) then MessagePos(fwpd.fileinfo,type_e_cant_export_local); if fwpd.extnumber=$ffff then fwpd.extnumber:=currpd.extnumber; while not currpd.aliasnames.empty do fwpd.aliasnames.insert(currpd.aliasnames.getfirst); { update fileinfo so position references the implementation, also update funcretsym if it is already generated } fwpd.fileinfo:=currpd.fileinfo; if assigned(fwpd.funcretsym) then fwpd.funcretsym.fileinfo:=currpd.fileinfo; if assigned(currpd.deprecatedmsg) then begin stringdispose(fwpd.deprecatedmsg); fwpd.deprecatedmsg:=stringdup(currpd.deprecatedmsg^); end; { import names } if assigned(currpd.import_dll) then begin stringdispose(fwpd.import_dll); fwpd.import_dll:=stringdup(currpd.import_dll^); end; if assigned(currpd.import_name) then begin stringdispose(fwpd.import_name); fwpd.import_name:=stringdup(currpd.import_name^); end; fwpd.import_nr:=currpd.import_nr; { for compilerproc defines we need to rename and update the symbolname to lowercase so users can' access it (can't do it immediately, because then the implementation symbol won't be matched) } if po_compilerproc in fwpd.procoptions then begin compilerproc_set_symbol_name(fwpd); current_module.add_public_asmsym(fwpd.procsym.realname,AB_GLOBAL,AT_FUNCTION); end; if po_public in fwpd.procoptions then begin item:=fwpd.aliasnames.first; while assigned(item) do begin current_module.add_public_asmsym(TCmdStrListItem(item).str,AB_GLOBAL,AT_FUNCTION); item:=item.next; end; end; { Release current procdef } currpd.owner.deletedef(currpd); currpd:=fwpd; end else begin { abstract methods aren't forward defined, but this } { needs another error message } if (po_abstractmethod in fwpd.procoptions) then MessagePos(currpd.fileinfo,parser_e_abstract_no_definition) else begin MessagePos(currpd.fileinfo,parser_e_overloaded_have_same_parameters); tprocsym(currpd.procsym).write_parameter_lists(currpd); end; end; { we found one proc with the same arguments, there are no others so we can stop } break; end; { check for allowing overload directive } if not(m_fpc in current_settings.modeswitches) then begin { overload directive turns on overloading } if ((po_overload in currpd.procoptions) or (po_overload in fwpd.procoptions)) then begin { check if all procs have overloading, but not if the proc is a method or already declared forward, then the check is already done } if not(fwpd.hasforward or assigned(currpd.struct) or (currpd.forwarddef<>fwpd.forwarddef) or ((po_overload in currpd.procoptions) and (po_overload in fwpd.procoptions))) then begin MessagePos1(currpd.fileinfo,parser_e_no_overload_for_all_procs,currpd.procsym.realname); break; end end else begin if not(fwpd.forwarddef) then begin if (m_tp7 in current_settings.modeswitches) then MessagePos(currpd.fileinfo,parser_e_procedure_overloading_is_off) else MessagePos1(currpd.fileinfo,parser_e_no_overload_for_all_procs,currpd.procsym.realname); break; end; end; end; { equal arguments } end; { if we didn't reuse a forwarddef then we add the procdef to the overloaded list } if not forwardfound then begin { can happen in Delphi mode } if (currpd.proctypeoption = potype_function) and is_void(currpd.returndef) then MessagePos1(currpd.fileinfo,parser_e_no_funcret_specified,currpd.procsym.realname); tprocsym(currpd.procsym).ProcdefList.Add(currpd); if not currpd.forwarddef and (po_public in currpd.procoptions) then begin item:=currpd.aliasnames.first; while assigned(item) do begin current_module.add_public_asmsym(TCmdStrListItem(item).str,AB_GLOBAL,AT_FUNCTION); item:=item.next; end; end; end; proc_add_definition:=forwardfound; end; end.