{ $Id$ Copyright (c) 1998-2002 by Florian Klaempfl, Pierre Muller Implementation for the symbols types of the symtable 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 symsym; {$i fpcdefs.inc} interface uses { common } cutils, { target } globtype,globals, { symtable } symconst,symbase,symtype,symdef,defcmp, { ppu } ppu, cclasses,symnot, { aasm } aasmbase, cpuinfo,cpubase,cgbase,parabase ; type { this class is the base for all symbol objects } tstoredsym = class(tsym) protected _mangledname : pstring; public constructor create(const n : string); constructor loadsym(ppufile:tcompilerppufile); destructor destroy;override; {$ifdef GDB} function get_var_value(const s:string):string; function stabstr_evaluate(const s:string;vars:array of string):Pchar; {$endif GDB} function mangledname : string; procedure generate_mangledname;virtual;abstract; end; tlabelsym = class(tstoredsym) lab : tasmlabel; used, defined : boolean; code : pointer; { should be tnode } constructor create(const n : string; l : tasmlabel); constructor ppuload(ppufile:tcompilerppufile); procedure generate_mangledname;override; procedure ppuwrite(ppufile:tcompilerppufile);override; {$ifdef GDB} function stabstring : pchar;override; {$endif GDB} end; tunitsym = class(Tsym) unitsymtable : tsymtable; constructor create(const n : string;ref : tsymtable); constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; procedure ppuwrite(ppufile:tcompilerppufile);override; end; terrorsym = class(Tsym) constructor create; end; Tprocdefcallback = procedure(p:Tprocdef;arg:pointer); tprocsym = class(tstoredsym) protected pdlistfirst, pdlistlast : pprocdeflist; { linked list of overloaded procdefs } function getprocdef(nr:cardinal):Tprocdef; public procdef_count : byte; {$ifdef GDB} is_global : boolean; {$endif GDB} overloadchecked : boolean; overloadcount : word; { amount of overloaded functions in this module } property procdef[nr:cardinal]:Tprocdef read getprocdef; constructor create(const n : string); constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; { writes all declarations except the specified one } procedure write_parameter_lists(skipdef:tprocdef); { tests, if all procedures definitions are defined and not } { only forward } procedure check_forward; procedure unchain_overload; procedure ppuwrite(ppufile:tcompilerppufile);override; procedure buildderef;override; procedure deref;override; procedure addprocdef(p:tprocdef); procedure addprocdef_deref(const d:tderef); procedure add_para_match_to(Aprocsym:Tprocsym;cpoptions:tcompare_paras_options); procedure concat_procdefs_to(s:Tprocsym); procedure foreach_procdef_static(proc2call:Tprocdefcallback;arg:pointer); function first_procdef:Tprocdef; function last_procdef:Tprocdef; function search_procdef_nopara_boolret:Tprocdef; function search_procdef_bytype(pt:Tproctypeoption):Tprocdef; function search_procdef_bypara(params:Tlinkedlist; retdef:tdef; cpoptions:tcompare_paras_options):Tprocdef; function search_procdef_byprocvardef(d:Tprocvardef):Tprocdef; function search_procdef_assignment_operator(fromdef,todef:tdef):Tprocdef; function write_references(ppufile:tcompilerppufile;locals:boolean):boolean;override; {$ifdef GDB} function stabstring : pchar;override; {$endif GDB} end; ttypesym = class(Tsym) restype : ttype; constructor create(const n : string;const tt : ttype); constructor ppuload(ppufile:tcompilerppufile); procedure ppuwrite(ppufile:tcompilerppufile);override; procedure buildderef;override; procedure deref;override; function gettypedef:tdef;override; procedure load_references(ppufile:tcompilerppufile;locals:boolean);override; function write_references(ppufile:tcompilerppufile;locals:boolean):boolean;override; {$ifdef GDB} function stabstring : pchar;override; {$endif GDB} end; tvarsym = class(tstoredsym) defaultconstsym : tsym; varoptions : tvaroptions; varspez : tvarspez; { sets the type of access } varregable : tvarregable; varstate : tvarstate; localloc : TLocation; { register/reference for local var } fieldoffset : longint; { offset in record/object } paraitem : tparaitem; notifications : Tlinkedlist; constructor create(const n : string;vsp:tvarspez;const tt : ttype); constructor create_dll(const n : string;vsp:tvarspez;const tt : ttype); constructor create_C(const n,mangled : string;vsp:tvarspez;const tt : ttype); constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; procedure ppuwrite(ppufile:tcompilerppufile);override; procedure buildderef;override; procedure deref;override; procedure generate_mangledname;override; procedure set_mangledname(const s:string); function getsize : longint; function getvaluesize : longint; procedure trigger_notifications(what:Tnotification_flag); function register_notification(flags:Tnotification_flags; callback:Tnotification_callback):cardinal; procedure unregister_notification(id:cardinal); {$ifdef GDB} function stabstring : pchar;override; {$endif GDB} private procedure setvartype(const newtype: ttype); _vartype : ttype; public property vartype: ttype read _vartype write setvartype; end; tpropertysym = class(Tsym) propoptions : tpropertyoptions; propoverriden : tpropertysym; propoverridenderef : tderef; proptype, indextype : ttype; index, default : longint; readaccess, writeaccess, storedaccess : tsymlist; constructor create(const n : string); destructor destroy;override; constructor ppuload(ppufile:tcompilerppufile); function getsize : longint; procedure ppuwrite(ppufile:tcompilerppufile);override; function gettypedef:tdef;override; procedure buildderef;override; procedure deref;override; procedure dooverride(overriden:tpropertysym); end; tabsolutesym = class(Tvarsym) abstyp : absolutetyp; {$ifdef i386} absseg : boolean; {$endif i386} asmname : pstring; ref : tsymlist; constructor create(const n : string;const tt : ttype); constructor create_ref(const n : string;const tt : ttype;_ref:tsymlist); destructor destroy;override; constructor ppuload(ppufile:tcompilerppufile); procedure buildderef;override; procedure deref;override; function mangledname : string; procedure ppuwrite(ppufile:tcompilerppufile);override; {$ifdef gdb} function stabstring:Pchar;override; {$endif} end; ttypedconstsym = class(tstoredsym) typedconsttype : ttype; is_writable : boolean; constructor create(const n : string;p : tdef;writable : boolean); constructor createtype(const n : string;const tt : ttype;writable : boolean); constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; procedure generate_mangledname;override; procedure ppuwrite(ppufile:tcompilerppufile);override; procedure buildderef;override; procedure deref;override; function getsize:longint; {$ifdef GDB} function stabstring : pchar;override; {$endif GDB} end; tconstvalue = record case integer of 0: (valueord : tconstexprint); 1: (valueordptr : tconstptruint); 2: (valueptr : pointer; len : longint); end; tconstsym = class(tstoredsym) consttype : ttype; consttyp : tconsttyp; value : tconstvalue; resstrindex : longint; { needed for resource strings } constructor create_ord(const n : string;t : tconsttyp;v : tconstexprint;const tt:ttype); constructor create_ordptr(const n : string;t : tconsttyp;v : tconstptruint;const tt:ttype); constructor create_ptr(const n : string;t : tconsttyp;v : pointer;const tt:ttype); constructor create_string(const n : string;t : tconsttyp;str:pchar;l:longint); constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; procedure buildderef;override; procedure deref;override; procedure ppuwrite(ppufile:tcompilerppufile);override; {$ifdef GDB} function stabstring : pchar;override; {$endif GDB} end; tenumsym = class(Tsym) value : longint; definition : tenumdef; definitionderef : tderef; nextenum : tenumsym; constructor create(const n : string;def : tenumdef;v : longint); constructor ppuload(ppufile:tcompilerppufile); procedure ppuwrite(ppufile:tcompilerppufile);override; procedure buildderef;override; procedure deref;override; procedure order; end; tsyssym = class(Tsym) number : longint; constructor create(const n : string;l : longint); constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; procedure ppuwrite(ppufile:tcompilerppufile);override; end; { compiler generated symbol to point to rtti and init/finalize tables } trttisym = class(tstoredsym) lab : tasmsymbol; rttityp : trttitype; constructor create(const n:string;rt:trttitype); constructor ppuload(ppufile:tcompilerppufile); procedure ppuwrite(ppufile:tcompilerppufile);override; function mangledname:string; function get_label:tasmsymbol; end; var generrorsym : tsym; implementation uses {$ifdef Delphi} sysutils, {$else Delphi} strings, {$endif Delphi} { global } verbose, { target } systems, { symtable } defutil,symtable, { tree } node, { aasm } aasmcpu, { codegen } paramgr,cresstr, procinfo ; {**************************************************************************** Helpers ****************************************************************************} {**************************************************************************** TSYM (base for all symtypes) ****************************************************************************} constructor tstoredsym.create(const n : string); begin inherited create(n); _mangledname:=nil; end; constructor tstoredsym.loadsym(ppufile:tcompilerppufile); begin inherited loadsym(ppufile); _mangledname:=nil; end; { procedure tstoredsym.buildderef; begin end; procedure tstoredsym.deref; begin end;} destructor tstoredsym.destroy; begin if assigned(_mangledname) then begin {$ifdef MEMDEBUG} memmanglednames.start; {$endif MEMDEBUG} stringdispose(_mangledname); {$ifdef MEMDEBUG} memmanglednames.stop; {$endif MEMDEBUG} end; if assigned(defref) then begin {$ifdef MEMDEBUG} membrowser.start; {$endif MEMDEBUG} defref.freechain; defref.free; {$ifdef MEMDEBUG} membrowser.stop; {$endif MEMDEBUG} end; inherited destroy; end; {$ifdef GDB} function Tstoredsym.get_var_value(const s:string):string; begin if s='mangledname' then get_var_value:=mangledname else get_var_value:=inherited get_var_value(s); end; function Tstoredsym.stabstr_evaluate(const s:string;vars:array of string):Pchar; begin stabstr_evaluate:=string_evaluate(s,@get_var_value,vars); end; {$endif GDB} function tstoredsym.mangledname : string; begin if not assigned(_mangledname) then begin generate_mangledname; if not assigned(_mangledname) then internalerror(200204171); end; {$ifdef compress} mangledname:=minilzw_decode(_mangledname^); {$else} mangledname:=_mangledname^; {$endif} end; {**************************************************************************** TLABELSYM ****************************************************************************} constructor tlabelsym.create(const n : string; l : tasmlabel); begin inherited create(n); typ:=labelsym; lab:=l; used:=false; defined:=false; code:=nil; end; constructor tlabelsym.ppuload(ppufile:tcompilerppufile); begin inherited loadsym(ppufile); typ:=labelsym; { this is all dummy it is only used for local browsing } lab:=nil; code:=nil; used:=false; defined:=true; end; procedure tlabelsym.generate_mangledname; begin {$ifdef compress} _mangledname:=stringdup(minilzw_encode(lab.name)); {$else} _mangledname:=stringdup(lab.name); {$endif} end; procedure tlabelsym.ppuwrite(ppufile:tcompilerppufile); begin if owner.symtabletype=globalsymtable then Message(sym_e_ill_label_decl) else begin inherited writesym(ppufile); ppufile.writeentry(iblabelsym); end; end; {$ifdef GDB} function Tlabelsym.stabstring : pchar; begin stabstring:=stabstr_evaluate('"${name}",${N_LSYM},0,${line},0',[]); end; {$endif GDB} {**************************************************************************** TUNITSYM ****************************************************************************} constructor tunitsym.create(const n : string;ref : tsymtable); var old_make_ref : boolean; begin old_make_ref:=make_ref; make_ref:=false; inherited create(n); make_ref:=old_make_ref; typ:=unitsym; unitsymtable:=ref; end; constructor tunitsym.ppuload(ppufile:tcompilerppufile); begin inherited loadsym(ppufile); typ:=unitsym; unitsymtable:=nil; refs:=0; end; destructor tunitsym.destroy; begin inherited destroy; end; procedure tunitsym.ppuwrite(ppufile:tcompilerppufile); begin inherited writesym(ppufile); ppufile.writeentry(ibunitsym); end; {**************************************************************************** TPROCSYM ****************************************************************************} constructor tprocsym.create(const n : string); begin inherited create(n); typ:=procsym; pdlistfirst:=nil; pdlistlast:=nil; owner:=nil; {$ifdef GDB} is_global:=false; {$endif GDB} overloadchecked:=false; overloadcount:=0; procdef_count:=0; end; constructor tprocsym.ppuload(ppufile:tcompilerppufile); var pdderef : tderef; i,n : longint; begin inherited loadsym(ppufile); typ:=procsym; pdlistfirst:=nil; pdlistlast:=nil; procdef_count:=0; n:=ppufile.getword; for i:=1to n do begin ppufile.getderef(pdderef); addprocdef_deref(pdderef); end; {$ifdef GDB} is_global:=false; {$endif GDB} overloadchecked:=false; overloadcount:=$ffff; { invalid, not used anymore } end; destructor tprocsym.destroy; var hp,p : pprocdeflist; begin p:=pdlistfirst; while assigned(p) do begin hp:=p^.next; dispose(p); p:=hp; end; inherited destroy; end; procedure tprocsym.ppuwrite(ppufile:tcompilerppufile); var p : pprocdeflist; n : word; begin inherited writesym(ppufile); { count procdefs } n:=0; p:=pdlistfirst; while assigned(p) do begin { only write the proc definitions that belong to this procsym and are in the global symtable } if p^.own and (p^.def.owner.symtabletype in [globalsymtable,objectsymtable]) then inc(n); p:=p^.next; end; ppufile.putword(n); { write procdefs } p:=pdlistfirst; while assigned(p) do begin { only write the proc definitions that belong to this procsym and are in the global symtable } if p^.own and (p^.def.owner.symtabletype in [globalsymtable,objectsymtable]) then ppufile.putderef(p^.defderef); p:=p^.next; end; ppufile.writeentry(ibprocsym); end; procedure tprocsym.write_parameter_lists(skipdef:tprocdef); var p : pprocdeflist; begin p:=pdlistfirst; while assigned(p) do begin if p^.def<>skipdef then MessagePos1(p^.def.fileinfo,sym_h_param_list,p^.def.fullprocname(false)); p:=p^.next; end; end; {Makes implicit externals (procedures declared in the interface section which do not have a counterpart in the implementation) to be an imported procedure. For mode macpas.} procedure import_implict_external(pd:tabstractprocdef); begin tprocdef(pd).forwarddef:=false; tprocdef(pd).setmangledname(target_info.CPrefix+tprocdef(pd).procsym.realname); end; procedure tprocsym.check_forward; var p : pprocdeflist; begin p:=pdlistfirst; while assigned(p) do begin if p^.own and (p^.def.forwarddef) then begin if (m_mac in aktmodeswitches) and (p^.def.interfacedef) then import_implict_external(p^.def) else begin MessagePos1(p^.def.fileinfo,sym_e_forward_not_resolved,p^.def.fullprocname(false)); { Turn further error messages off } p^.def.forwarddef:=false; end end; p:=p^.next; end; end; procedure tprocsym.buildderef; var p : pprocdeflist; begin p:=pdlistfirst; while assigned(p) do begin if p^.own then p^.defderef.build(p^.def); p:=p^.next; end; end; procedure tprocsym.deref; var p : pprocdeflist; begin { We have removed the overloaded entries, because they are not valid anymore and we can't deref them because the unit were they come from is not necessary in our uses clause (PFV) } unchain_overload; { Deref our own procdefs } p:=pdlistfirst; while assigned(p) do begin if not p^.own then internalerror(200310291); p^.def:=tprocdef(p^.defderef.resolve); p:=p^.next; end; end; procedure tprocsym.addprocdef(p:tprocdef); var pd : pprocdeflist; begin new(pd); pd^.def:=p; pd^.defderef.reset; pd^.next:=nil; pd^.own:=(pd^.def.procsym=self); { if not pd^.own then internalerror(2222222);} { Add at end of list to keep always a correct order, also after loading from ppu } if assigned(pdlistlast) then begin pdlistlast^.next:=pd; pdlistlast:=pd; end else begin pdlistfirst:=pd; pdlistlast:=pd; end; inc(procdef_count); end; procedure tprocsym.addprocdef_deref(const d:tderef); var pd : pprocdeflist; begin new(pd); pd^.def:=nil; pd^.defderef:=d; pd^.next:=nil; pd^.own:=true; { Add at end of list to keep always a correct order, also after loading from ppu } if assigned(pdlistlast) then begin pdlistlast^.next:=pd; pdlistlast:=pd; end else begin pdlistfirst:=pd; pdlistlast:=pd; end; inc(procdef_count); end; function Tprocsym.getprocdef(nr:cardinal):Tprocdef; var i : cardinal; pd : pprocdeflist; begin pd:=pdlistfirst; for i:=2 to nr do begin if not assigned(pd) then internalerror(200209051); pd:=pd^.next; end; getprocdef:=pd^.def; end; procedure Tprocsym.add_para_match_to(Aprocsym:Tprocsym;cpoptions:tcompare_paras_options); var pd:pprocdeflist; begin pd:=pdlistfirst; while assigned(pd) do begin if Aprocsym.search_procdef_bypara(pd^.def.para,nil,cpoptions)=nil then Aprocsym.addprocdef(pd^.def); pd:=pd^.next; end; end; procedure Tprocsym.concat_procdefs_to(s:Tprocsym); var pd : pprocdeflist; begin pd:=pdlistfirst; while assigned(pd) do begin s.addprocdef(pd^.def); pd:=pd^.next; end; end; function Tprocsym.first_procdef:Tprocdef; begin if assigned(pdlistfirst) then first_procdef:=pdlistfirst^.def else first_procdef:=nil; end; function Tprocsym.last_procdef:Tprocdef; begin if assigned(pdlistlast) then last_procdef:=pdlistlast^.def else last_procdef:=nil; end; procedure Tprocsym.foreach_procdef_static(proc2call:Tprocdefcallback;arg:pointer); var p : pprocdeflist; begin p:=pdlistfirst; while assigned(p) do begin proc2call(p^.def,arg); p:=p^.next; end; end; function Tprocsym.search_procdef_nopara_boolret:Tprocdef; var p : pprocdeflist; begin search_procdef_nopara_boolret:=nil; p:=pdlistfirst; while p<>nil do begin if (p^.def.maxparacount=0) and is_boolean(p^.def.rettype.def) then begin search_procdef_nopara_boolret:=p^.def; break; end; p:=p^.next; end; end; function Tprocsym.search_procdef_bytype(pt:Tproctypeoption):Tprocdef; var p : pprocdeflist; begin search_procdef_bytype:=nil; p:=pdlistfirst; while p<>nil do begin if p^.def.proctypeoption=pt then begin search_procdef_bytype:=p^.def; break; end; p:=p^.next; end; end; function Tprocsym.search_procdef_bypara(params:Tlinkedlist; retdef:tdef; cpoptions:tcompare_paras_options):Tprocdef; var pd : pprocdeflist; eq : tequaltype; begin search_procdef_bypara:=nil; pd:=pdlistfirst; while assigned(pd) do begin if assigned(retdef) then eq:=compare_defs(retdef,pd^.def.rettype.def,nothingn) else eq:=te_equal; if (eq>=te_equal) or ((cpo_allowconvert in cpoptions) and (eq>te_incompatible)) then begin eq:=compare_paras(params,pd^.def.para,cp_value_equal_const,cpoptions); if (eq>=te_equal) or ((cpo_allowconvert in cpoptions) and (eq>te_incompatible)) then begin search_procdef_bypara:=pd^.def; break; end; end; pd:=pd^.next; end; end; function Tprocsym.search_procdef_byprocvardef(d:Tprocvardef):Tprocdef; var pd : pprocdeflist; eq,besteq : tequaltype; bestpd : tprocdef; begin { This function will return the pprocdef of pprocsym that is the best match for procvardef. When there are multiple matches it returns nil.} search_procdef_byprocvardef:=nil; bestpd:=nil; besteq:=te_incompatible; pd:=pdlistfirst; while assigned(pd) do begin eq:=proc_to_procvar_equal(pd^.def,d,false); if eq>=te_equal then begin { multiple procvars with the same equal level } if assigned(bestpd) and (besteq=eq) then exit; if eq>besteq then begin besteq:=eq; bestpd:=pd^.def; end; end; pd:=pd^.next; end; search_procdef_byprocvardef:=bestpd; end; function Tprocsym.search_procdef_assignment_operator(fromdef,todef:tdef):Tprocdef; var convtyp : tconverttype; pd : pprocdeflist; bestpd : tprocdef; eq, besteq : tequaltype; hpd : tprocdef; currpara : tparaitem; begin result:=nil; bestpd:=nil; besteq:=te_incompatible; pd:=pdlistfirst; while assigned(pd) do begin if equal_defs(todef,pd^.def.rettype.def) then begin currpara:=Tparaitem(pd^.def.para.first); { ignore vs_hidden parameters } while assigned(currpara) and (currpara.is_hidden) do currpara:=tparaitem(currpara.next); if assigned(currpara) then begin eq:=compare_defs_ext(fromdef,currpara.paratype.def,nothingn,convtyp,hpd,[]); if eq=te_exact then begin result:=pd^.def; exit; end; if eq>besteq then begin bestpd:=pd^.def; besteq:=eq; end; end; end; pd:=pd^.next; end; result:=bestpd; end; function tprocsym.write_references(ppufile:tcompilerppufile;locals:boolean) : boolean; var p : pprocdeflist; begin write_references:=false; if not inherited write_references(ppufile,locals) then exit; write_references:=true; p:=pdlistfirst; while assigned(p) do begin if p^.own then p^.def.write_references(ppufile,locals); p:=p^.next; end; end; procedure tprocsym.unchain_overload; var p,hp : pprocdeflist; begin { remove all overloaded procdefs from the procdeflist that are not in the current symtable } overloadchecked:=false; p:=pdlistfirst; { reset new lists } pdlistfirst:=nil; pdlistlast:=nil; while assigned(p) do begin hp:=p^.next; if p^.own then begin { keep, add to list } if assigned(pdlistlast) then begin pdlistlast^.next:=p; pdlistlast:=p; end else begin pdlistfirst:=p; pdlistlast:=p; end; p^.next:=nil; end else begin { remove } dispose(p); dec(procdef_count); end; p:=hp; end; end; {$ifdef GDB} function tprocsym.stabstring : pchar; begin internalerror(200111171); result:=nil; end; {$endif GDB} {**************************************************************************** TERRORSYM ****************************************************************************} constructor terrorsym.create; begin inherited create(''); typ:=errorsym; end; {**************************************************************************** TPROPERTYSYM ****************************************************************************} constructor tpropertysym.create(const n : string); begin inherited create(n); typ:=propertysym; propoptions:=[]; index:=0; default:=0; proptype.reset; indextype.reset; readaccess:=tsymlist.create; writeaccess:=tsymlist.create; storedaccess:=tsymlist.create; end; constructor tpropertysym.ppuload(ppufile:tcompilerppufile); begin inherited loadsym(ppufile); typ:=propertysym; ppufile.getsmallset(propoptions); if (ppo_is_override in propoptions) then begin ppufile.getderef(propoverridenderef); { we need to have these objects initialized } readaccess:=tsymlist.create; writeaccess:=tsymlist.create; storedaccess:=tsymlist.create; end else begin ppufile.gettype(proptype); index:=ppufile.getlongint; default:=ppufile.getlongint; ppufile.gettype(indextype); readaccess:=ppufile.getsymlist; writeaccess:=ppufile.getsymlist; storedaccess:=ppufile.getsymlist; end; end; destructor tpropertysym.destroy; begin readaccess.free; writeaccess.free; storedaccess.free; inherited destroy; end; function tpropertysym.gettypedef:tdef; begin gettypedef:=proptype.def; end; procedure tpropertysym.buildderef; begin if (ppo_is_override in propoptions) then begin propoverridenderef.build(propoverriden); end else begin proptype.buildderef; indextype.buildderef; readaccess.buildderef; writeaccess.buildderef; storedaccess.buildderef; end; end; procedure tpropertysym.deref; begin if (ppo_is_override in propoptions) then begin propoverriden:=tpropertysym(propoverridenderef.resolve); dooverride(propoverriden); end else begin proptype.resolve; indextype.resolve; readaccess.resolve; writeaccess.resolve; storedaccess.resolve; end; end; function tpropertysym.getsize : longint; begin getsize:=0; end; procedure tpropertysym.ppuwrite(ppufile:tcompilerppufile); begin inherited writesym(ppufile); ppufile.putsmallset(propoptions); if (ppo_is_override in propoptions) then ppufile.putderef(propoverridenderef) else begin ppufile.puttype(proptype); ppufile.putlongint(index); ppufile.putlongint(default); ppufile.puttype(indextype); ppufile.putsymlist(readaccess); ppufile.putsymlist(writeaccess); ppufile.putsymlist(storedaccess); end; ppufile.writeentry(ibpropertysym); end; procedure tpropertysym.dooverride(overriden:tpropertysym); begin propoverriden:=overriden; proptype:=overriden.proptype; propoptions:=overriden.propoptions+[ppo_is_override]; index:=overriden.index; default:=overriden.default; indextype:=overriden.indextype; readaccess.free; readaccess:=overriden.readaccess.getcopy; writeaccess.free; writeaccess:=overriden.writeaccess.getcopy; storedaccess.free; storedaccess:=overriden.storedaccess.getcopy; end; {**************************************************************************** TABSOLUTESYM ****************************************************************************} constructor tabsolutesym.create(const n : string;const tt : ttype); begin inherited create(n,vs_value,tt); typ:=absolutesym; ref:=nil; end; constructor tabsolutesym.create_ref(const n : string;const tt : ttype;_ref:tsymlist); begin inherited create(n,vs_value,tt); typ:=absolutesym; ref:=_ref; end; destructor tabsolutesym.destroy; begin if assigned(ref) then ref.free; inherited destroy; end; constructor tabsolutesym.ppuload(ppufile:tcompilerppufile); begin { Note: This needs to load everything of tvarsym.write } inherited ppuload(ppufile); { load absolute } typ:=absolutesym; ref:=nil; fieldoffset:=0; asmname:=nil; abstyp:=absolutetyp(ppufile.getbyte); {$ifdef i386} absseg:=false; {$endif i386} case abstyp of tovar : ref:=ppufile.getsymlist; toasm : asmname:=stringdup(ppufile.getstring); toaddr : begin fieldoffset:=ppufile.getlongint; {$ifdef i386} absseg:=boolean(ppufile.getbyte); {$endif i386} end; end; end; procedure tabsolutesym.ppuwrite(ppufile:tcompilerppufile); var oldintfcrc : boolean; begin { Note: This needs to write everything of tvarsym.write } inherited writesym(ppufile); ppufile.putbyte(byte(varspez)); oldintfcrc:=ppufile.do_crc; ppufile.do_crc:=false; ppufile.putbyte(byte(varregable)); ppufile.do_crc:=oldintfcrc; ppufile.putlongint(fieldoffset); { write only definition or definitionsym } ppufile.puttype(vartype); ppufile.putsmallset(varoptions); ppufile.putbyte(byte(abstyp)); case abstyp of tovar : ppufile.putsymlist(ref); toasm : ppufile.putstring(asmname^); toaddr : begin ppufile.putlongint(fieldoffset); {$ifdef i386} ppufile.putbyte(byte(absseg)); {$endif i386} end; end; ppufile.writeentry(ibabsolutesym); end; procedure tabsolutesym.buildderef; begin { inheritance of varsym.deref ! } vartype.buildderef; if (abstyp=tovar) then ref.buildderef; end; procedure tabsolutesym.deref; begin { inheritance of varsym.deref ! } vartype.resolve; { own absolute deref } if (abstyp=tovar) then ref.resolve; end; function tabsolutesym.mangledname : string; begin case abstyp of toasm : mangledname:=asmname^; toaddr : mangledname:='$'+tostr(fieldoffset); else internalerror(10002); end; end; {$ifdef GDB} function Tabsolutesym.stabstring:Pchar; begin stabstring:=nil; end; {$endif GDB} {**************************************************************************** TVARSYM ****************************************************************************} constructor tvarsym.create(const n : string;vsp:tvarspez;const tt : ttype); begin inherited create(n); typ:=varsym; vartype:=tt; _mangledname:=nil; varspez:=vsp; fieldoffset:=0; fillchar(localloc,sizeof(localloc),0); defaultconstsym:=nil; refs:=0; varstate:=vs_declared; varoptions:=[]; end; constructor tvarsym.create_dll(const n : string;vsp:tvarspez;const tt : ttype); begin tvarsym(self).create(n,vsp,tt); include(varoptions,vo_is_dll_var); end; constructor tvarsym.create_C(const n,mangled : string;vsp:tvarspez;const tt : ttype); begin tvarsym(self).create(n,vsp,tt); stringdispose(_mangledname); {$ifdef compress} _mangledname:=stringdup(minilzw_encode(mangled)); {$else} _mangledname:=stringdup(mangled); {$endif} end; constructor tvarsym.ppuload(ppufile:tcompilerppufile); begin inherited loadsym(ppufile); typ:=varsym; fillchar(localloc,sizeof(localloc),0); refs := 0; varstate:=vs_used; varspez:=tvarspez(ppufile.getbyte); varregable:=tvarregable(ppufile.getbyte); fieldoffset:=ppufile.getlongint; defaultconstsym:=nil; ppufile.gettype(_vartype); ppufile.getsmallset(varoptions); if [vo_is_C_var,vo_is_dll_var]*varoptions<>[] then _mangledname:=stringdup(ppufile.getstring); end; destructor tvarsym.destroy; begin if assigned(notifications) then notifications.destroy; inherited destroy; end; procedure tvarsym.buildderef; begin vartype.buildderef; end; procedure tvarsym.deref; begin vartype.resolve; end; procedure tvarsym.ppuwrite(ppufile:tcompilerppufile); var oldintfcrc : boolean; begin inherited writesym(ppufile); ppufile.putbyte(byte(varspez)); oldintfcrc:=ppufile.do_crc; ppufile.do_crc:=false; ppufile.putbyte(byte(varregable)); ppufile.do_crc:=oldintfcrc; ppufile.putlongint(fieldoffset); ppufile.puttype(vartype); ppufile.putsmallset(varoptions); if [vo_is_C_var,vo_is_dll_var]*varoptions<>[] then ppufile.putstring(_mangledname^); ppufile.writeentry(ibvarsym); end; procedure tvarsym.generate_mangledname; begin {$ifdef compress} _mangledname:=stringdup(minilzw_encode(make_mangledname('U',owner,name))); {$else} _mangledname:=stringdup(make_mangledname('U',owner,name)); {$endif} end; procedure tvarsym.set_mangledname(const s:string); begin stringdispose(_mangledname); {$ifdef compress} _mangledname:=stringdup(minilzw_encode(s)); {$else} _mangledname:=stringdup(s); {$endif} end; function tvarsym.getsize : longint; begin if assigned(vartype.def) then getsize:=vartype.def.size else getsize:=0; end; function tvarsym.getvaluesize : longint; begin if assigned(vartype.def) and (varspez=vs_value) and ((vartype.def.deftype<>arraydef) or tarraydef(vartype.def).isDynamicArray or (tarraydef(vartype.def).highrange>=tarraydef(vartype.def).lowrange)) then getvaluesize:=vartype.def.size else getvaluesize:=0; end; procedure Tvarsym.trigger_notifications(what:Tnotification_flag); var n:Tnotification; begin if assigned(notifications) then begin n:=Tnotification(notifications.first); while assigned(n) do begin if what in n.flags then n.callback(what,self); n:=Tnotification(n.next); end; end; end; function Tvarsym.register_notification(flags:Tnotification_flags;callback: Tnotification_callback):cardinal; var n:Tnotification; begin if not assigned(notifications) then notifications:=Tlinkedlist.create; n:=Tnotification.create(flags,callback); register_notification:=n.id; notifications.concat(n); end; procedure Tvarsym.unregister_notification(id:cardinal); var n:Tnotification; begin if not assigned(notifications) then internalerror(200212311) else begin n:=Tnotification(notifications.first); while assigned(n) do begin if n.id=id then begin notifications.remove(n); n.destroy; exit; end; n:=Tnotification(n.next); end; internalerror(200212311) end; end; {$ifdef GDB} function Tvarsym.stabstring:Pchar; var st:string; threadvaroffset:string; regidx:Tregisterindex; c:char; loc: tcgloc; begin { set loc to LOC_REFERENCE to get somewhat usable debugging info for -Or } { while stabs aren't adapted for regvars yet } loc := localloc.loc; if (vo_is_self in varoptions) then begin case loc of LOC_REGISTER, LOC_CREGISTER: regidx:=findreg_by_number(localloc.register); LOC_REFERENCE: ; else internalerror(2003091815); end; if (po_classmethod in current_procinfo.procdef.procoptions) or (po_staticmethod in current_procinfo.procdef.procoptions) then if (loc=LOC_REFERENCE) then stabstring:=stabstr_evaluate('"pvmt:p$1",${N_TSYM},0,0,$2', [Tstoreddef(pvmttype.def).numberstring,tostr(localloc.reference.offset)]) else stabstring:=stabstr_evaluate('"pvmt:r$1",${N_RSYM},0,0,$2', [Tstoreddef(pvmttype.def).numberstring,tostr(regstabs_table[regidx])]) else begin if not(is_class(current_procinfo.procdef._class)) then c:='v' else c:='p'; if (loc=LOC_REFERENCE) then stabstring:=stabstr_evaluate('"$$t:$1",${N_TSYM},0,0,$2', [c+current_procinfo.procdef._class.numberstring,tostr(localloc.reference.offset)]) else stabstring:=stabstr_evaluate('"$$t:r$1",${N_RSYM},0,0,$2', [c+current_procinfo.procdef._class.numberstring,tostr(regstabs_table[regidx])]); end; end else begin stabstring:=nil; st:=tstoreddef(vartype.def).numberstring; if (vo_is_thread_var in varoptions) then threadvaroffset:='+'+tostr(sizeof(aint)) else threadvaroffset:=''; case owner.symtabletype of objectsymtable: if (sp_static in symoptions) then begin if (cs_gdb_gsym in aktglobalswitches) then st:='G'+st else st:='S'+st; stabstring:=stabstr_evaluate('"${ownername}__${name}:$1",${N_LCSYM},0,${line},${mangledname}$2', [st,threadvaroffset]); end; globalsymtable: begin { Here we used S instead of because with G GDB doesn't look at the address field but searches the same name or with a leading underscore but these names don't exist in pascal !} if (cs_gdb_gsym in aktglobalswitches) then st:='G'+st else st:='S'+st; stabstring:=stabstr_evaluate('"${name}:$1",${N_LCSYM},0,${line},${mangledname}$2',[st,threadvaroffset]); end; staticsymtable : stabstring:=stabstr_evaluate('"${name}:S$1",${N_LCSYM},0,${line},${mangledname}$2',[st,threadvaroffset]); parasymtable,localsymtable: begin { There is no space allocated for not referenced locals } if (owner.symtabletype=localsymtable) and (refs=0) then exit; if (vo_is_C_var in varoptions) then begin stabstring:=stabstr_evaluate('"${name}:S$1",${N_LCSYM},0,${line},${mangledname}',[st]); exit; end; if (owner.symtabletype=parasymtable) then begin if paramanager.push_addr_param(varspez,vartype.def,tprocdef(owner.defowner).proccalloption) and not(vo_has_local_copy in varoptions) and not is_open_string(vartype.def) then st := 'v'+st { should be 'i' but 'i' doesn't work } else st := 'p'+st; end; case loc of LOC_REGISTER, LOC_CREGISTER, LOC_MMREGISTER, LOC_CMMREGISTER, LOC_FPUREGISTER, LOC_CFPUREGISTER : begin regidx:=findreg_by_number(localloc.register); { "eax", "ecx", "edx", "ebx", "esp", "ebp", "esi", "edi", "eip", "ps", "cs", "ss", "ds", "es", "fs", "gs", } { this is the register order for GDB} if regidx<>0 then stabstring:=stabstr_evaluate('"${name}:r$1",${N_RSYM},0,${line},$2',[st,tostr(regstabs_table[regidx])]); end; LOC_REFERENCE : { offset to ebp => will not work if the framepointer is esp so some optimizing will make things harder to debug } stabstring:=stabstr_evaluate('"${name}:$1",${N_TSYM},0,${line},$2',[st,tostr(localloc.reference.offset)]) else internalerror(2003091814); end; end; else stabstring := inherited stabstring; end; end; end; {$endif GDB} procedure tvarsym.setvartype(const newtype: ttype); begin _vartype := newtype; { can we load the value into a register ? } if not assigned(owner) or (owner.symtabletype in [localsymtable,parasymtable]) or ( (owner.symtabletype=staticsymtable) and not(cs_create_pic in aktmoduleswitches) ) then begin if tstoreddef(vartype.def).is_intregable then varregable:=vr_intreg else if tstoreddef(vartype.def).is_fpuregable then varregable:=vr_fpureg; end; end; {**************************************************************************** TTYPEDCONSTSYM *****************************************************************************} constructor ttypedconstsym.create(const n : string;p : tdef;writable : boolean); begin inherited create(n); typ:=typedconstsym; typedconsttype.setdef(p); is_writable:=writable; end; constructor ttypedconstsym.createtype(const n : string;const tt : ttype;writable : boolean); begin inherited create(n); typ:=typedconstsym; typedconsttype:=tt; is_writable:=writable; end; constructor ttypedconstsym.ppuload(ppufile:tcompilerppufile); begin inherited loadsym(ppufile); typ:=typedconstsym; ppufile.gettype(typedconsttype); is_writable:=boolean(ppufile.getbyte); end; destructor ttypedconstsym.destroy; begin inherited destroy; end; procedure ttypedconstsym.generate_mangledname; begin {$ifdef compress} _mangledname:=stringdup(make_mangledname('TC',owner,name)); {$else} _mangledname:=stringdup(make_mangledname('TC',owner,name)); {$endif} end; function ttypedconstsym.getsize : longint; begin if assigned(typedconsttype.def) then getsize:=typedconsttype.def.size else getsize:=0; end; procedure ttypedconstsym.buildderef; begin typedconsttype.buildderef; end; procedure ttypedconstsym.deref; begin typedconsttype.resolve; end; procedure ttypedconstsym.ppuwrite(ppufile:tcompilerppufile); begin inherited writesym(ppufile); ppufile.puttype(typedconsttype); ppufile.putbyte(byte(is_writable)); ppufile.writeentry(ibtypedconstsym); end; {$ifdef GDB} function ttypedconstsym.stabstring : pchar; var st:char; begin if (cs_gdb_gsym in aktglobalswitches) and (owner.symtabletype=globalsymtable) then st:='G' else st:='S'; stabstring:=stabstr_evaluate('"${name}:$1$2",${N_STSYM},0,${line},${mangledname}', [st,Tstoreddef(typedconsttype.def).numberstring]); end; {$endif GDB} {**************************************************************************** TCONSTSYM ****************************************************************************} constructor tconstsym.create_ord(const n : string;t : tconsttyp;v : tconstexprint;const tt:ttype); begin inherited create(n); fillchar(value, sizeof(value), #0); typ:=constsym; consttyp:=t; value.valueord:=v; ResStrIndex:=0; consttype:=tt; end; constructor tconstsym.create_ordptr(const n : string;t : tconsttyp;v : tconstptruint;const tt:ttype); begin inherited create(n); fillchar(value, sizeof(value), #0); typ:=constsym; consttyp:=t; value.valueordptr:=v; ResStrIndex:=0; consttype:=tt; end; constructor tconstsym.create_ptr(const n : string;t : tconsttyp;v : pointer;const tt:ttype); begin inherited create(n); fillchar(value, sizeof(value), #0); typ:=constsym; consttyp:=t; value.valueptr:=v; ResStrIndex:=0; consttype:=tt; end; constructor tconstsym.create_string(const n : string;t : tconsttyp;str:pchar;l:longint); begin inherited create(n); fillchar(value, sizeof(value), #0); typ:=constsym; consttyp:=t; value.valueptr:=str; consttype.reset; value.len:=l; if t=constresourcestring then ResStrIndex:=ResourceStrings.Register(name,pchar(value.valueptr),value.len); end; constructor tconstsym.ppuload(ppufile:tcompilerppufile); var pd : pbestreal; ps : pnormalset; pc : pchar; begin inherited loadsym(ppufile); typ:=constsym; consttype.reset; consttyp:=tconsttyp(ppufile.getbyte); fillchar(value, sizeof(value), #0); case consttyp of constord : begin ppufile.gettype(consttype); value.valueord:=ppufile.getexprint; end; constpointer : begin ppufile.gettype(consttype); value.valueordptr:=ppufile.getptruint; end; conststring, constresourcestring : begin value.len:=ppufile.getlongint; getmem(pc,value.len+1); ppufile.getdata(pc^,value.len); if consttyp=constresourcestring then ResStrIndex:=ppufile.getlongint; value.valueptr:=pc; end; constreal : begin new(pd); pd^:=ppufile.getreal; value.valueptr:=pd; end; constset : begin ppufile.gettype(consttype); new(ps); ppufile.getnormalset(ps^); value.valueptr:=ps; end; constguid : begin new(pguid(value.valueptr)); ppufile.getdata(value.valueptr^,sizeof(tguid)); end; constnil : ; else Message1(unit_f_ppu_invalid_entry,tostr(ord(consttyp))); end; end; destructor tconstsym.destroy; begin case consttyp of conststring, constresourcestring : freemem(pchar(value.valueptr),value.len+1); constreal : dispose(pbestreal(value.valueptr)); constset : dispose(pnormalset(value.valueptr)); constguid : dispose(pguid(value.valueptr)); end; inherited destroy; end; procedure tconstsym.buildderef; begin if consttyp in [constord,constpointer,constset] then consttype.buildderef; end; procedure tconstsym.deref; begin if consttyp in [constord,constpointer,constset] then consttype.resolve; end; procedure tconstsym.ppuwrite(ppufile:tcompilerppufile); begin inherited writesym(ppufile); ppufile.putbyte(byte(consttyp)); case consttyp of constnil : ; constord : begin ppufile.puttype(consttype); ppufile.putexprint(value.valueord); end; constpointer : begin ppufile.puttype(consttype); ppufile.putptruint(value.valueordptr); end; conststring, constresourcestring : begin ppufile.putlongint(value.len); ppufile.putdata(pchar(value.valueptr)^,value.len); if consttyp=constresourcestring then ppufile.putlongint(ResStrIndex); end; constreal : ppufile.putreal(pbestreal(value.valueptr)^); constset : begin ppufile.puttype(consttype); ppufile.putnormalset(value.valueptr^); end; constguid : ppufile.putdata(value.valueptr^,sizeof(tguid)); else internalerror(13); end; ppufile.writeentry(ibconstsym); end; {$ifdef GDB} function Tconstsym.stabstring:Pchar; var st : string; begin {even GDB v4.16 only now 'i' 'r' and 'e' !!!} case consttyp of conststring: st:='s'''+backspace_quote(octal_quote(strpas(pchar(value.valueptr)),[#0..#9,#11,#12,#14..#31,'''']),['"','\',#10,#13])+''''; constord: st:='i'+tostr(value.valueord); constpointer: st:='i'+tostr(value.valueordptr); constreal: begin system.str(pbestreal(value.valueptr)^,st); st := 'r'+st; end; { if we don't know just put zero !! } else st:='i0'; {***SETCONST} {constset:;} {*** I don't know what to do with a set.} { sets are not recognized by GDB} {***} end; { valgrind does not support constants } if cs_gdb_valgrind in aktglobalswitches then stabstring:=nil else stabstring:=stabstr_evaluate('"${name}:c=$1;",${N_FUNCTION},0,${line},0',[st]); end; {$endif GDB} {**************************************************************************** TENUMSYM ****************************************************************************} constructor tenumsym.create(const n : string;def : tenumdef;v : longint); begin inherited create(n); typ:=enumsym; definition:=def; value:=v; { check for jumps } if v>def.max+1 then def.has_jumps:=true; { update low and high } if def.min>v then def.setmin(v); if def.maxerrordef) and not(assigned(restype.def.typesym)) then restype.def.typesym:=self; end; constructor ttypesym.ppuload(ppufile:tcompilerppufile); begin inherited loadsym(ppufile); typ:=typesym; ppufile.gettype(restype); end; function ttypesym.gettypedef:tdef; begin gettypedef:=restype.def; end; procedure ttypesym.buildderef; begin restype.buildderef; end; procedure ttypesym.deref; begin restype.resolve; end; procedure ttypesym.ppuwrite(ppufile:tcompilerppufile); begin inherited writesym(ppufile); ppufile.puttype(restype); ppufile.writeentry(ibtypesym); end; procedure ttypesym.load_references(ppufile:tcompilerppufile;locals:boolean); begin inherited load_references(ppufile,locals); if (restype.def.deftype=recorddef) then tstoredsymtable(trecorddef(restype.def).symtable).load_references(ppufile,locals); if (restype.def.deftype=objectdef) then tstoredsymtable(tobjectdef(restype.def).symtable).load_references(ppufile,locals); end; function ttypesym.write_references(ppufile:tcompilerppufile;locals:boolean):boolean; var d : tderef; begin d.reset; if not inherited write_references(ppufile,locals) then begin { write address of this symbol if record or object even if no real refs are there because we need it for the symtable } if (restype.def.deftype in [recorddef,objectdef]) then begin d.build(self); ppufile.putderef(d); ppufile.writeentry(ibsymref); end; end; write_references:=true; if (restype.def.deftype=recorddef) then tstoredsymtable(trecorddef(restype.def).symtable).write_references(ppufile,locals); if (restype.def.deftype=objectdef) then tstoredsymtable(tobjectdef(restype.def).symtable).write_references(ppufile,locals); end; {$ifdef GDB} function ttypesym.stabstring : pchar; var stabchar:string[2]; begin stabstring:=nil; if restype.def<>nil then begin if restype.def.deftype in tagtypes then stabchar:='Tt' else stabchar:='t'; stabstring:=stabstr_evaluate('"${name}:$1$2",${N_LSYM},0,${line},0',[stabchar,tstoreddef(restype.def).numberstring]); end; end; {$endif GDB} {**************************************************************************** TSYSSYM ****************************************************************************} constructor tsyssym.create(const n : string;l : longint); begin inherited create(n); typ:=syssym; number:=l; end; constructor tsyssym.ppuload(ppufile:tcompilerppufile); begin inherited loadsym(ppufile); typ:=syssym; number:=ppufile.getlongint; end; destructor tsyssym.destroy; begin inherited destroy; end; procedure tsyssym.ppuwrite(ppufile:tcompilerppufile); begin inherited writesym(ppufile); ppufile.putlongint(number); ppufile.writeentry(ibsyssym); end; {**************************************************************************** TRTTISYM ****************************************************************************} constructor trttisym.create(const n:string;rt:trttitype); const prefix : array[trttitype] of string[5]=('$rtti','$init'); begin inherited create(prefix[rt]+n); include(symoptions,sp_internal); typ:=rttisym; lab:=nil; rttityp:=rt; end; constructor trttisym.ppuload(ppufile:tcompilerppufile); begin inherited loadsym(ppufile); typ:=rttisym; lab:=nil; rttityp:=trttitype(ppufile.getbyte); end; procedure trttisym.ppuwrite(ppufile:tcompilerppufile); begin inherited writesym(ppufile); ppufile.putbyte(byte(rttityp)); ppufile.writeentry(ibrttisym); end; function trttisym.mangledname : string; const prefix : array[trttitype] of string[5]=('RTTI_','INIT_'); begin result:=make_mangledname(prefix[rttityp],owner,Copy(name,5,255)); end; function trttisym.get_label:tasmsymbol; begin { the label is always a global label } if not assigned(lab) then lab:=objectlibrary.newasmsymbol(mangledname,AB_EXTERNAL,AT_DATA); get_label:=lab; end; end. { $Log$ Revision 1.183 2004-10-10 21:08:55 peter * parameter regvar fixes Revision 1.182 2004/10/10 20:22:53 peter * symtable allocation rewritten * loading of parameters to local temps/regs cleanup * regvar support for parameters * regvar support for staticsymtable (main body) Revision 1.181 2004/10/10 09:31:28 peter regvar ppu writing doesn't affect any crc Revision 1.180 2004/10/08 17:09:43 peter * tvarsym.varregable added, split vo_regable from varoptions Revision 1.179 2004/10/06 19:26:50 jonas * regvar fixes from Peter Revision 1.178 2004/10/01 15:22:22 peter * don't add stabs for register variables Revision 1.177 2004/09/26 17:45:30 peter * simple regvar support, not yet finished Revision 1.176 2004/09/21 17:25:12 peter * paraloc branch merged Revision 1.175.4.1 2004/08/31 20:43:06 peter * paraloc patch Revision 1.175 2004/08/15 12:06:03 jonas * add cprefix to procedures which are autoamtically marked as external in macpas mode Revision 1.174 2004/06/20 08:55:30 florian * logs truncated Revision 1.173 2004/06/16 20:07:09 florian * dwarf branch merged Revision 1.172 2004/05/22 23:32:52 peter quote all low ascii chars in stabs Revision 1.171 2004/05/11 22:52:48 olle * Moved import_implicit_external to symsym Revision 1.170 2004/05/11 18:29:41 olle + mode macpas: support for implicit external Revision 1.169.2.3 2004/05/01 16:02:09 peter * POINTER_SIZE replaced with sizeof(aint) * aint,aword,tconst*int moved to globtype }