{ Copyright (c) 2011 by Jonas Maebe This unit provides helpers for creating new syms/defs based on string representations. 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. **************************************************************************** } {$i fpcdefs.inc} unit symcreat; interface uses finput,tokens,scanner, symconst,symdef,symbase; type tscannerstate = record old_scanner: tscannerfile; old_token: ttoken; old_c: char; valid: boolean; end; { save/restore the scanner state before/after injecting } procedure replace_scanner(const tempname: string; out sstate: tscannerstate); procedure restore_scanner(const sstate: tscannerstate); { parses a (class or regular) method/constructor/destructor declaration from str, as if it were declared in astruct's declaration body WARNING: save the scanner state before calling this routine, and restore when done. } function str_parse_method_dec(str: ansistring; is_classdef: boolean; astruct: tabstractrecorddef; out pd: tprocdef): boolean; { parses a (class or regular) method/constructor/destructor implementation from str, as if it appeared in the current unit's implementation section WARNING: save the scanner state before calling this routine, and restore when done. } function str_parse_method_impl(str: ansistring; is_classdef: boolean):boolean; { in the JVM, constructors are not automatically inherited (so you can hide them). To emulate the Pascal behaviour, we have to automatically add all parent constructors to the current class as well.} procedure add_missing_parent_constructors_intf(obj: tobjectdef); // procedure add_missing_parent_constructors_impl(obj: tobjectdef); { goes through all defs in st to add implementations for synthetic methods added earlier } procedure add_synthetic_method_implementations(st: tsymtable); implementation uses verbose,systems, symtype,symsym,symtable,defutil, pbase,pdecobj,psub, defcmp; procedure replace_scanner(const tempname: string; out sstate: tscannerstate); begin { would require saving of idtoken, pattern etc } if (token=_ID) then internalerror(2011032201); sstate.old_scanner:=current_scanner; sstate.old_token:=token; sstate.old_c:=c; sstate.valid:=true; current_scanner:=tscannerfile.Create('_Macro_.'+tempname); end; procedure restore_scanner(const sstate: tscannerstate); begin if sstate.valid then begin current_scanner.free; current_scanner:=sstate.old_scanner; token:=sstate.old_token; c:=sstate.old_c; end; end; function str_parse_method_dec(str: ansistring; is_classdef: boolean; astruct: tabstractrecorddef; out pd: tprocdef): boolean; var oldparse_only: boolean; begin Message1(parser_d_internal_parser_string,str); oldparse_only:=parse_only; parse_only:=true; result:=false; { inject the string in the scanner } str:=str+'end;'; current_scanner.substitutemacro('meth_head_macro',@str[1],length(str),current_scanner.line_no,current_scanner.inputfile.ref_index); current_scanner.readtoken(false); { and parse it... } pd:=method_dec(astruct,is_classdef); if assigned(pd) then result:=true; parse_only:=oldparse_only; end; function str_parse_method_impl(str: ansistring; is_classdef: boolean):boolean; var oldparse_only: boolean; begin Message1(parser_d_internal_parser_string,str); oldparse_only:=parse_only; parse_only:=false; result:=false; { inject the string in the scanner } str:=str+'end;'; current_scanner.substitutemacro('meth_impl_macro',@str[1],length(str),current_scanner.line_no,current_scanner.inputfile.ref_index); current_scanner.readtoken(false); { and parse it... } read_proc(is_classdef); parse_only:=oldparse_only; result:=true; end; procedure add_missing_parent_constructors_intf(obj: tobjectdef); var parent: tobjectdef; def: tdef; pd: tprocdef; newpd, parentpd: tprocdef; i: longint; srsym: tsym; srsymtable: tsymtable; isclassmethod: boolean; str: ansistring; sstate: tscannerstate; begin if not assigned(obj.childof) then exit; sstate.valid:=false; parent:=obj.childof; { find all constructor in the parent } for i:=0 to tobjectsymtable(parent.symtable).deflist.count-1 do begin def:=tdef(tobjectsymtable(parent.symtable).deflist[i]); if (def.typ<>procdef) or (tprocdef(def).proctypeoption<>potype_constructor) then continue; pd:=tprocdef(def); { do we have this constructor too? (don't use search_struct_member/searchsym_in_class, since those will search parents too) } if searchsym_in_record(obj,pd.procsym.name,srsym,srsymtable) then begin { there's a symbol with the same name, is it a constructor with the same parameters? } if srsym.typ=procsym then begin parentpd:=tprocsym(srsym).find_procdef_bytype_and_para( potype_constructor,pd.paras,tprocdef(def).returndef, [cpo_ignorehidden,cpo_ignoreuniv,cpo_openequalisexact]); if assigned(parentpd) then continue; end; end; { if we get here, we did not find it in the current objectdef -> add } if not sstate.valid then replace_scanner('parent_constructors_intf',sstate); isclassmethod:= (po_classmethod in tprocdef(pd).procoptions) and not(tprocdef(pd).proctypeoption in [potype_constructor,potype_destructor]); { + 'overload' for Delphi modes } str:=tprocdef(pd).customprocname([pno_proctypeoption,pno_paranames,pno_noclassmarker,pno_noleadingdollar])+'overload;'; if not str_parse_method_dec(str,isclassmethod,obj,newpd) then internalerror(2011032001); newpd.synthetickind:=tsk_anon_inherited; end; restore_scanner(sstate); end; procedure implement_anon_inherited(pd: tprocdef); var str: ansistring; isclassmethod: boolean; begin isclassmethod:= (po_classmethod in pd.procoptions) and not(pd.proctypeoption in [potype_constructor,potype_destructor]); str:=pd.customprocname([pno_proctypeoption,pno_paranames,pno_ownername,pno_noclassmarker,pno_noleadingdollar]); str:=str+'begin inherited end;'; str_parse_method_impl(str,isclassmethod); end; procedure implement_jvm_clone(pd: tprocdef); var struct: tabstractrecorddef; str: ansistring; i: longint; sym: tsym; fsym: tfieldvarsym; begin if not(pd.owner.defowner.typ in [recorddef,objectdef]) then internalerror(2011032802); struct:=tabstractrecorddef(pd.owner.defowner); { anonymous record types must get an artificial name, so we can generate a typecast at the scanner level } if (struct.typ=recorddef) and not assigned(struct.typesym) then internalerror(2011032812); str:=pd.customprocname([pno_proctypeoption,pno_paranames,pno_ownername,pno_noclassmarker,pno_noleadingdollar]); { the inherited clone will already copy all fields in a shallow way -> copy records/regular arrays in a regular way } str:=str+'begin result:=inherited;'; for i:=0 to struct.symtable.symlist.count-1 do begin sym:=tsym(struct.symtable.symlist[i]); if (sym.typ=fieldvarsym) then begin fsym:=tfieldvarsym(sym); if (fsym.vardef.typ=recorddef) or ((fsym.vardef.typ=arraydef) and not is_dynamic_array(fsym.vardef)) or ((fsym.vardef.typ=setdef) and not is_smallset(fsym.vardef)) then str:=str+struct.typesym.realname+'(result).'+fsym.realname+':='+fsym.realname+';'; end; end; str:=str+'end;'; str_parse_method_impl(str,false); end; procedure implement_record_deepcopy(pd: tprocdef); var struct: tabstractrecorddef; str: ansistring; i: longint; sym: tsym; fsym: tfieldvarsym; begin if not(pd.owner.defowner.typ in [recorddef,objectdef]) then internalerror(2011032810); struct:=tabstractrecorddef(pd.owner.defowner); { anonymous record types must get an artificial name, so we can generate a typecast at the scanner level } if (struct.typ=recorddef) and not assigned(struct.typesym) then internalerror(2011032811); str:=pd.customprocname([pno_proctypeoption,pno_paranames,pno_ownername,pno_noclassmarker,pno_noleadingdollar]); { copy all fields } str:=str+'begin '; for i:=0 to struct.symtable.symlist.count-1 do begin sym:=tsym(struct.symtable.symlist[i]); if (sym.typ=fieldvarsym) then begin fsym:=tfieldvarsym(sym); str:=str+'result.'+fsym.realname+':='+fsym.realname+';'; end; end; str:=str+'end;'; str_parse_method_impl(str,false); end; procedure implement_empty(pd: tprocdef); var str: ansistring; isclassmethod: boolean; begin isclassmethod:= (po_classmethod in pd.procoptions) and not(pd.proctypeoption in [potype_constructor,potype_destructor]); str:=pd.customprocname([pno_proctypeoption,pno_paranames,pno_ownername,pno_noclassmarker,pno_noleadingdollar]); str:=str+'begin end;'; str_parse_method_impl(str,isclassmethod); end; procedure add_synthetic_method_implementations_for_struct(struct: tabstractrecorddef); var i : longint; def : tdef; pd : tprocdef; begin for i:=0 to struct.symtable.deflist.count-1 do begin def:=tdef(struct.symtable.deflist[i]); if (def.typ<>procdef) then continue; pd:=tprocdef(def); case pd.synthetickind of tsk_none: ; tsk_anon_inherited: implement_anon_inherited(pd); tsk_jvm_clone: implement_jvm_clone(pd); tsk_record_deepcopy: implement_record_deepcopy(pd); tsk_empty, { special handling for this one is done in tnodeutils.wrap_proc_body } tsk_tcinit: implement_empty(pd); else internalerror(2011032801); end; end; end; procedure add_synthetic_method_implementations(st: tsymtable); var i: longint; def: tdef; sstate: tscannerstate; begin { only necessary for the JVM target currently } if not (target_info.system in [system_jvm_java32]) then exit; sstate.valid:=false; for i:=0 to st.deflist.count-1 do begin def:=tdef(st.deflist[i]); if (is_javaclass(def) and not(oo_is_external in tobjectdef(def).objectoptions)) or (def.typ=recorddef) then begin if not sstate.valid then replace_scanner('synthetic_impl',sstate); add_synthetic_method_implementations_for_struct(tabstractrecorddef(def)); { also complete nested types } add_synthetic_method_implementations(tabstractrecorddef(def).symtable); end; end; restore_scanner(sstate); end; end.