{ $Id$ Copyright (c) 1998-2000 by Florian Klaempfl, Pierre Muller This unit handles the symbol tables 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 symtable; {$i defines.inc} interface uses { common } cutils,cclasses, { global } globtype,tokens, { symtable } symconst,symbase,symtype,symdef,symsym, { ppu } ppu,symppu, { assembler } aasm ; {**************************************************************************** Symtable types ****************************************************************************} type tstoredsymtable = class(tsymtable) private b_needs_init_final : boolean; procedure _needs_init_final(p : tnamedindexitem); procedure check_forward(sym : TNamedIndexItem); procedure labeldefined(p : TNamedIndexItem); procedure unitsymbolused(p : TNamedIndexItem); procedure varsymbolused(p : TNamedIndexItem); procedure TestPrivate(p : TNamedIndexItem); procedure objectprivatesymbolused(p : TNamedIndexItem); {$ifdef GDB} private asmoutput : taasmoutput; procedure concatstab(p : TNamedIndexItem); procedure resetstab(p : TNamedIndexItem); procedure concattypestab(p : TNamedIndexItem); {$endif} procedure order_overloads(p : TNamedIndexItem); procedure loaddefs(ppufile:tcompilerppufile); procedure loadsyms(ppufile:tcompilerppufile); procedure writedefs(ppufile:tcompilerppufile); procedure writesyms(ppufile:tcompilerppufile); public { load/write } procedure load(ppufile:tcompilerppufile);virtual; procedure write(ppufile:tcompilerppufile);virtual; procedure load_browser(ppufile:tcompilerppufile);virtual; procedure write_browser(ppufile:tcompilerppufile);virtual; procedure deref;virtual; procedure insert(sym : tsymentry);override; function speedsearch(const s : stringid;speedvalue : cardinal) : tsymentry;override; procedure allsymbolsused; procedure allprivatesused; procedure allunitsused; procedure check_forwards; procedure checklabels; function needs_init_final : boolean; {$ifdef CHAINPROCSYMS} procedure chainprocsyms; {$endif CHAINPROCSYMS} procedure chainoperators; {$ifdef GDB} procedure concatstabto(asmlist : taasmoutput);virtual; function getnewtypecount : word; override; {$endif GDB} procedure testfordefaultproperty(p : TNamedIndexItem); end; tabstractrecordsymtable = class(tstoredsymtable) public procedure load(ppufile:tcompilerppufile);override; procedure write(ppufile:tcompilerppufile);override; procedure load_browser(ppufile:tcompilerppufile);override; procedure write_browser(ppufile:tcompilerppufile);override; end; trecordsymtable = class(tabstractrecordsymtable) public constructor create; procedure insert_in(tsymt : tsymtable;offset : longint); end; tobjectsymtable = class(tabstractrecordsymtable) public constructor create(const n:string); procedure insert(sym : tsymentry);override; end; tabstractlocalsymtable = class(tstoredsymtable) public procedure load(ppufile:tcompilerppufile);override; procedure write(ppufile:tcompilerppufile);override; procedure load_browser(ppufile:tcompilerppufile);override; procedure write_browser(ppufile:tcompilerppufile);override; end; tlocalsymtable = class(tabstractlocalsymtable) public constructor create; procedure insert(sym : tsymentry);override; end; tparasymtable = class(tabstractlocalsymtable) public constructor create; procedure insert(sym : tsymentry);override; { change alignment for args only parasymtable } procedure set_alignment(_alignment : longint); end; tabstractunitsymtable = class(tstoredsymtable) public {$ifdef GDB} dbx_count : longint; prev_dbx_counter : plongint; dbx_count_ok : boolean; is_stab_written : boolean; {$endif GDB} constructor create(const n : string); {$ifdef GDB} procedure concattypestabto(asmlist : taasmoutput); {$endif GDB} end; tglobalsymtable = class(tabstractunitsymtable) public unittypecount : word; unitsym : tunitsym; constructor create(const n : string); destructor destroy; procedure load(ppufile:tcompilerppufile);override; procedure write(ppufile:tcompilerppufile);override; procedure insert(sym : tsymentry);override; {$ifdef GDB} function getnewtypecount : word; override; {$endif} end; tstaticsymtable = class(tabstractunitsymtable) public constructor create(const n : string); procedure load(ppufile:tcompilerppufile);override; procedure write(ppufile:tcompilerppufile);override; procedure load_browser(ppufile:tcompilerppufile);override; procedure write_browser(ppufile:tcompilerppufile);override; procedure insert(sym : tsymentry);override; end; twithsymtable = class(tsymtable) direct_with : boolean; { in fact it is a tnode } withnode : pointer; { tnode to load of direct with var } { already usable before firstwith needed for firstpass of function parameters PM } withrefnode : pointer; constructor create(aowner:tdef;asymsearch:TDictionary); destructor destroy;override; procedure clear;override; function speedsearch(const s : stringid;speedvalue : cardinal) : tsymentry;override; end; tstt_exceptsymtable = class(tsymtable) public constructor create; end; var constsymtable : tsymtable; { symtable were the constants can be inserted } systemunit : tglobalsymtable; { pointer to the system unit } read_member : boolean; { reading members of an symtable } lexlevel : longint; { level of code } { 1 for main procedure } { 2 for normal function or proc } { higher for locals } {**************************************************************************** Functions ****************************************************************************} {*** Misc ***} procedure globaldef(const s : string;var t:ttype); function findunitsymtable(st:tsymtable):tsymtable; procedure duplicatesym(sym:tsym); {*** Search ***} function searchsym(const s : stringid;var srsym:tsym;var srsymtable:tsymtable):boolean; function searchsymonlyin(p : tsymtable;const s : stringid):tsym; function search_class_member(pd : tobjectdef;const s : string):tsym; {*** Object Helpers ***} function search_default_property(pd : tobjectdef) : tpropertysym; {*** symtable stack ***} procedure dellexlevel; procedure RestoreUnitSyms; {$ifdef DEBUG} procedure test_symtablestack; procedure list_symtablestack; {$endif DEBUG} {$ifdef UNITALIASES} type punit_alias = ^tunit_alias; tunit_alias = object(TNamedIndexItem) newname : pstring; constructor init(const n:string); destructor done;virtual; end; var unitaliases : pdictionary; procedure addunitalias(const n:string); function getunitalias(const n:string):string; {$endif UNITALIASES} {*** Init / Done ***} procedure InitSymtable; procedure DoneSymtable; type toverloaded_operators = array[NOTOKEN..last_overloaded] of tprocsym; var overloaded_operators : toverloaded_operators; { unequal is not equal} const overloaded_names : array [NOTOKEN..last_overloaded] of string[16] = ('error', 'plus','minus','star','slash','equal', 'greater','lower','greater_or_equal', 'lower_or_equal', 'sym_diff','starstar', 'as','is','in','or', 'and','div','mod','not','shl','shr','xor', 'assign'); implementation uses { global } version,verbose,globals, { target } systems, { module } finput,fmodule, {$ifdef GDB} gdb, {$endif GDB} { codegen } hcodegen ; var in_loading : boolean; { remove !!! } {***************************************************************************** TStoredSymtable *****************************************************************************} procedure tstoredsymtable.load(ppufile:tcompilerppufile); begin { load definitions } loaddefs(ppufile); { load symbols } loadsyms(ppufile); end; procedure tstoredsymtable.write(ppufile:tcompilerppufile); begin { write definitions } writedefs(ppufile); { write symbols } writesyms(ppufile); end; procedure tstoredsymtable.loaddefs(ppufile:tcompilerppufile); var hp : tdef; b : byte; begin { load start of definition section, which holds the amount of defs } if ppufile.readentry<>ibstartdefs then Message(unit_f_ppu_read_error); ppufile.getlongint; { read definitions } repeat b:=ppufile.readentry; case b of ibpointerdef : hp:=tpointerdef.load(ppufile); ibarraydef : hp:=tarraydef.load(ppufile); iborddef : hp:=torddef.load(ppufile); ibfloatdef : hp:=tfloatdef.load(ppufile); ibprocdef : hp:=tprocdef.load(ppufile); ibshortstringdef : hp:=tstringdef.loadshort(ppufile); iblongstringdef : hp:=tstringdef.loadlong(ppufile); ibansistringdef : hp:=tstringdef.loadansi(ppufile); ibwidestringdef : hp:=tstringdef.loadwide(ppufile); ibrecorddef : hp:=trecorddef.load(ppufile); ibobjectdef : hp:=tobjectdef.load(ppufile); ibenumdef : hp:=tenumdef.load(ppufile); ibsetdef : hp:=tsetdef.load(ppufile); ibprocvardef : hp:=tprocvardef.load(ppufile); ibfiledef : hp:=tfiledef.load(ppufile); ibclassrefdef : hp:=tclassrefdef.load(ppufile); ibformaldef : hp:=tformaldef.load(ppufile); ibvariantdef : hp:=tvariantdef.load(ppufile); ibenddefs : break; ibend : Message(unit_f_ppu_read_error); else Message1(unit_f_ppu_invalid_entry,tostr(b)); end; hp.owner:=self; defindex.insert(hp); until false; end; procedure tstoredsymtable.loadsyms(ppufile:tcompilerppufile); var b : byte; sym : tsym; begin { load start of definition section, which holds the amount of defs } if ppufile.readentry<>ibstartsyms then Message(unit_f_ppu_read_error); { skip amount of symbols, not used currently } ppufile.getlongint; { load datasize,dataalignment of this symboltable } datasize:=ppufile.getlongint; dataalignment:=ppufile.getlongint; { now read the symbols } repeat b:=ppufile.readentry; case b of ibtypesym : sym:=ttypesym.load(ppufile); ibprocsym : sym:=tprocsym.load(ppufile); ibconstsym : sym:=tconstsym.load(ppufile); ibvarsym : sym:=tvarsym.load(ppufile); ibfuncretsym : sym:=tfuncretsym.load(ppufile); ibabsolutesym : sym:=tabsolutesym.load(ppufile); ibenumsym : sym:=tenumsym.load(ppufile); ibtypedconstsym : sym:=ttypedconstsym.load(ppufile); ibpropertysym : sym:=tpropertysym.load(ppufile); ibunitsym : sym:=tunitsym.load(ppufile); iblabelsym : sym:=tlabelsym.load(ppufile); ibsyssym : sym:=tsyssym.load(ppufile); ibendsyms : break; ibend : Message(unit_f_ppu_read_error); else Message1(unit_f_ppu_invalid_entry,tostr(b)); end; sym.owner:=self; symindex.insert(sym); symsearch.insert(sym); until false; end; procedure tstoredsymtable.writedefs(ppufile:tcompilerppufile); var pd : tstoreddef; begin { each definition get a number, write then the amount of defs to the ibstartdef entry } ppufile.putlongint(defindex.count); ppufile.writeentry(ibstartdefs); { now write the definition } pd:=tstoreddef(defindex.first); while assigned(pd) do begin pd.write(ppufile); pd:=tstoreddef(pd.indexnext); end; { write end of definitions } ppufile.writeentry(ibenddefs); end; procedure tstoredsymtable.writesyms(ppufile:tcompilerppufile); var pd : tstoredsym; begin { each definition get a number, write then the amount of syms and the datasize to the ibsymdef entry } ppufile.putlongint(symindex.count); ppufile.putlongint(datasize); ppufile.putlongint(dataalignment); ppufile.writeentry(ibstartsyms); { foreach is used to write all symbols } pd:=tstoredsym(symindex.first); while assigned(pd) do begin pd.write(ppufile); pd:=tstoredsym(pd.indexnext); end; { end of symbols } ppufile.writeentry(ibendsyms); end; procedure tstoredsymtable.load_browser(ppufile:tcompilerppufile); var b : byte; sym : tstoredsym; prdef : tstoreddef; begin b:=ppufile.readentry; if b <> ibbeginsymtablebrowser then Message1(unit_f_ppu_invalid_entry,tostr(b)); repeat b:=ppufile.readentry; case b of ibsymref : begin sym:=tstoredsym(ppufile.getderef); resolvesym(tsym(sym)); if assigned(sym) then sym.load_references(ppufile); end; ibdefref : begin prdef:=tstoreddef(ppufile.getderef); resolvedef(tdef(prdef)); if assigned(prdef) then begin if prdef.deftype<>procdef then Message(unit_f_ppu_read_error); tprocdef(prdef).load_references(ppufile); end; end; ibendsymtablebrowser : break; else Message1(unit_f_ppu_invalid_entry,tostr(b)); end; until false; end; procedure tstoredsymtable.write_browser(ppufile:tcompilerppufile); var pd : tstoredsym; begin ppufile.writeentry(ibbeginsymtablebrowser); { foreach is used to write all symbols } pd:=tstoredsym(symindex.first); while assigned(pd) do begin pd.write_references(ppufile); pd:=tstoredsym(pd.indexnext); end; ppufile.writeentry(ibendsymtablebrowser); end; procedure tstoredsymtable.deref; var hp : tdef; hs : tsym; begin { deref the definitions } hp:=tdef(defindex.first); while assigned(hp) do begin hp.deref; hp:=tdef(hp.indexnext); end; { first deref the ttypesyms } hs:=tsym(symindex.first); while assigned(hs) do begin hs.prederef; hs:=tsym(hs.indexnext); end; { deref the symbols } hs:=tsym(symindex.first); while assigned(hs) do begin hs.deref; hs:=tsym(hs.indexnext); end; end; procedure tstoredsymtable.insert(sym:tsymentry); var hsym : tsym; begin { set owner and sym indexnb } sym.owner:=self; {$ifdef CHAINPROCSYMS} { set the nextprocsym field } if sym.typ=procsym then chainprocsym(sym); {$endif CHAINPROCSYMS} { writes the symbol in data segment if required } { also sets the datasize of owner } if not in_loading then tstoredsym(sym).insert_in_data; { check the current symtable } hsym:=tsym(search(sym.name)); if assigned(hsym) then begin { in TP and Delphi you can have a local with the same name as the function, the function is then hidden for the user. (Under delphi it can still be accessed using result), but don't allow hiding of RESULT } if (m_tp in aktmodeswitches) and (hsym.typ=funcretsym) and not((m_result in aktmodeswitches) and (hsym.name='RESULT')) then hsym.owner.rename(hsym.name,'hidden'+hsym.name) else begin DuplicateSym(hsym); exit; end; end; { register definition of typesym } if (sym.typ = typesym) and assigned(ttypesym(sym).restype.def) then begin if not(assigned(ttypesym(sym).restype.def.owner)) and (ttypesym(sym).restype.def.deftype<>errordef) then registerdef(ttypesym(sym).restype.def); {$ifdef GDB} if (cs_debuginfo in aktmoduleswitches) and assigned(debuglist) and (symtabletype in [globalsymtable,staticsymtable]) then begin ttypesym(sym).isusedinstab := true; {sym.concatstabto(debuglist);} end; {$endif GDB} end; { insert in index and search hash } symindex.insert(sym); symsearch.insert(sym); end; function tstoredsymtable.speedsearch(const s : stringid;speedvalue : cardinal) : tsymentry; var hp : tstoredsym; newref : tref; begin hp:=tstoredsym(inherited speedsearch(s,speedvalue)); if assigned(hp) then begin { reject non static members in static procedures, be carefull aktprocsym.definition is not allways loaded already (PFV) } if (symtabletype=objectsymtable) and not(sp_static in hp.symoptions) and allow_only_static {assigned(aktprocsym) and assigned(aktprocsym.definition) and ((aktprocsym.definition.options and postaticmethod)<>0)} then Message(sym_e_only_static_in_static); if (unitid<>0) and assigned(tglobalsymtable(self).unitsym) then inc(tglobalsymtable(self).unitsym.refs); {$ifdef GDB} { if it is a type, we need the stabs of this type this might be the cause of the class debug problems as TCHILDCLASS.Create did not generate appropriate stabs debug info if TCHILDCLASS wasn't used anywhere else PM } if (hp.typ=typesym) and make_ref then begin if assigned(ttypesym(hp).restype.def) then tstoreddef(ttypesym(hp).restype.def).numberstring else ttypesym(hp).isusedinstab:=true; end; {$endif GDB} { unitsym are only loaded for browsing PM } { this was buggy anyway because we could use } { unitsyms from other units in _USES !! } {if (symtabletype=unitsymtable) and (hp.typ=unitsym) and assigned(current_module) and (current_module.globalsymtable<>.load) then hp:=nil;} if assigned(hp) and (cs_browser in aktmoduleswitches) and make_ref then begin newref:=tref.create(hp.lastref,@akttokenpos); { for symbols that are in tables without browser info or syssyms (PM) } if hp.refcount=0 then begin hp.defref:=newref; hp.lastref:=newref; end else if resolving_forward and assigned(hp.defref) then { put it as second reference } begin newref.nextref:=hp.defref.nextref; hp.defref.nextref:=newref; hp.lastref.nextref:=nil; end else hp.lastref:=newref; inc(hp.refcount); end; if assigned(hp) and make_ref then begin inc(hp.refs); end; end; speedsearch:=hp; end; {************************************** Callbacks **************************************} procedure TStoredSymtable.check_forward(sym : TNamedIndexItem); begin if tsym(sym).typ=procsym then tprocsym(sym).check_forward { check also object method table } { we needn't to test the def list } { because each object has to have a type sym } else if (tsym(sym).typ=typesym) and assigned(ttypesym(sym).restype.def) and (ttypesym(sym).restype.def.deftype=objectdef) then tobjectdef(ttypesym(sym).restype.def).check_forwards; end; procedure TStoredSymtable.labeldefined(p : TNamedIndexItem); begin if (tsym(p).typ=labelsym) and not(tlabelsym(p).defined) then begin if tlabelsym(p).used then Message1(sym_e_label_used_and_not_defined,tlabelsym(p).realname) else Message1(sym_w_label_not_defined,tlabelsym(p).realname); end; end; procedure TStoredSymtable.unitsymbolused(p : TNamedIndexItem); begin if (tsym(p).typ=unitsym) and (tunitsym(p).refs=0) and { do not claim for unit name itself !! } (tunitsym(p).unitsymtable.symtabletype=globalsymtable) then MessagePos2(tsym(p).fileinfo,sym_n_unit_not_used, p.name,current_module.modulename^); end; procedure TStoredSymtable.varsymbolused(p : TNamedIndexItem); begin if (tsym(p).typ=varsym) and ((tsym(p).owner.symtabletype in [parasymtable,localsymtable,objectsymtable,staticsymtable])) then begin { unused symbol should be reported only if no } { error is reported } { if the symbol is in a register it is used } { also don't count the value parameters which have local copies } { also don't claim for high param of open parameters (PM) } if (Errorcount<>0) or (copy(p.name,1,3)='val') or (copy(p.name,1,4)='high') then exit; if (tvarsym(p).refs=0) then begin if (tsym(p).owner.symtabletype=parasymtable) or (vo_is_local_copy in tvarsym(p).varoptions) then begin MessagePos1(tsym(p).fileinfo,sym_h_para_identifier_not_used,tsym(p).realname); end else if (tsym(p).owner.symtabletype=objectsymtable) then MessagePos2(tsym(p).fileinfo,sym_n_private_identifier_not_used,tsym(p).owner.name^,tsym(p).realname) else MessagePos1(tsym(p).fileinfo,sym_n_local_identifier_not_used,tsym(p).realname); end else if tvarsym(p).varstate=vs_assigned then begin if (tsym(p).owner.symtabletype=parasymtable) then begin if not(tvarsym(p).varspez in [vs_var,vs_out]) then MessagePos1(tsym(p).fileinfo,sym_h_para_identifier_only_set,tsym(p).realname) end else if (vo_is_local_copy in tvarsym(p).varoptions) then begin if not(tvarsym(p).varspez in [vs_var,vs_out]) then MessagePos1(tsym(p).fileinfo,sym_h_para_identifier_only_set,tsym(p).realname); end else if (tsym(p).owner.symtabletype=objectsymtable) then MessagePos2(tsym(p).fileinfo,sym_n_private_identifier_only_set,tsym(p).owner.name^,tsym(p).realname) else if (tsym(p).owner.symtabletype<>parasymtable) then if not (vo_is_exported in tvarsym(p).varoptions) then MessagePos1(tsym(p).fileinfo,sym_n_local_identifier_only_set,tsym(p).realname); end; end else if ((tsym(p).owner.symtabletype in [objectsymtable,parasymtable,localsymtable,staticsymtable])) then begin if (Errorcount<>0) then exit; { do not claim for inherited private fields !! } if (tstoredsym(p).refs=0) and (tsym(p).owner.symtabletype=objectsymtable) then MessagePos2(tsym(p).fileinfo,sym_n_private_method_not_used,tsym(p).owner.name^,tsym(p).realname) { units references are problematic } else if (tstoredsym(p).refs=0) and not(tsym(p).typ in [funcretsym,enumsym,unitsym]) then if (tsym(p).typ<>procsym) or not (tprocsym(p).is_global) or { all program functions are declared global but unused should still be signaled PM } ((tsym(p).owner.symtabletype=staticsymtable) and not current_module.is_unit) then MessagePos2(tsym(p).fileinfo,sym_h_local_symbol_not_used,SymTypeName[tsym(p).typ],tsym(p).realname); end; end; procedure TStoredSymtable.TestPrivate(p : TNamedIndexItem); begin if sp_private in tsym(p).symoptions then varsymbolused(p); end; procedure TStoredSymtable.objectprivatesymbolused(p : TNamedIndexItem); begin { Don't test simple object aliases PM } if (tsym(p).typ=typesym) and (ttypesym(p).restype.def.deftype=objectdef) and (ttypesym(p).restype.def.typesym=tsym(p)) then tobjectdef(ttypesym(p).restype.def).symtable.foreach({$ifdef FPCPROCVAR}@{$endif}TestPrivate); end; procedure tstoredsymtable.order_overloads(p : TNamedIndexItem); begin if tsym(p).typ=procsym then tprocsym(p).order_overloaded; end; {$ifdef GDB} procedure TStoredSymtable.concatstab(p : TNamedIndexItem); begin if tsym(p).typ <> procsym then tstoredsym(p).concatstabto(asmoutput); end; procedure TStoredSymtable.resetstab(p : TNamedIndexItem); begin if tsym(p).typ <> procsym then tstoredsym(p).isstabwritten:=false; end; procedure TStoredSymtable.concattypestab(p : TNamedIndexItem); begin if tsym(p).typ = typesym then begin tstoredsym(p).isstabwritten:=false; tstoredsym(p).concatstabto(asmoutput); end; end; function tstoredsymtable.getnewtypecount : word; begin getnewtypecount:=pglobaltypecount^; inc(pglobaltypecount^); end; {$endif GDB} {$ifdef CHAINPROCSYMS} procedure chainprocsym(p : tsym); var storesymtablestack : tsymtable; srsym : tsym; srsymtable : tsymtable; begin if p.typ=procsym then begin storesymtablestack:=symtablestack; symtablestack:=p.owner.next; while assigned(symtablestack) do begin { search for same procsym in other units } searchsym(p.name,srsym,srsymtable) if assigned(srsym) and (srsym.typ=procsym) then begin tprocsym(p).nextprocsym:=tprocsym(srsym); symtablestack:=storesymtablestack; exit; end else if srsym=nil then symtablestack:=nil else symtablestack:=srsymtable.next; end; symtablestack:=storesymtablestack; end; end; {$endif} procedure tstoredsymtable.chainoperators; var p : tprocsym; t : ttoken; def : tprocdef; srsym : tsym; srsymtable, storesymtablestack : tsymtable; begin storesymtablestack:=symtablestack; symtablestack:=self; make_ref:=false; for t:=first_overloaded to last_overloaded do begin p:=nil; def:=nil; overloaded_operators[t]:=nil; { each operator has a unique lowercased internal name PM } while assigned(symtablestack) do begin searchsym(overloaded_names[t],srsym,srsymtable); if not assigned(srsym) then begin if (t=_STARSTAR) then begin symtablestack:=systemunit; searchsym('POWER',srsym,srsymtable); end; end; if assigned(srsym) then begin if (srsym.typ<>procsym) then internalerror(12344321); if assigned(p) then begin {$ifdef CHAINPROCSYMS} p.nextprocsym:=tprocsym(srsym); {$endif CHAINPROCSYMS} def.nextoverloaded:=tprocsym(srsym).definition; end else overloaded_operators[t]:=tprocsym(srsym); p:=tprocsym(srsym); def:=p.definition; while assigned(def.nextoverloaded) and (def.nextoverloaded.owner=p.owner) do def:=def.nextoverloaded; def.nextoverloaded:=nil; symtablestack:=srsym.owner.next; end else begin symtablestack:=nil; {$ifdef CHAINPROCSYMS} if assigned(p) then p.nextprocsym:=nil; {$endif CHAINPROCSYMS} end; { search for same procsym in other units } end; symtablestack:=self; end; make_ref:=true; symtablestack:=storesymtablestack; end; {*********************************************** Process all entries ***********************************************} { checks, if all procsyms and methods are defined } procedure tstoredsymtable.check_forwards; begin foreach({$ifdef FPCPROCVAR}@{$endif}check_forward); end; procedure tstoredsymtable.checklabels; begin foreach({$ifdef FPCPROCVAR}@{$endif}labeldefined); end; procedure tstoredsymtable.allunitsused; begin foreach({$ifdef FPCPROCVAR}@{$endif}unitsymbolused); end; procedure tstoredsymtable.allsymbolsused; begin foreach({$ifdef FPCPROCVAR}@{$endif}varsymbolused); end; procedure tstoredsymtable.allprivatesused; begin foreach({$ifdef FPCPROCVAR}@{$endif}objectprivatesymbolused); end; {$ifdef CHAINPROCSYMS} procedure tstoredsymtable.chainprocsyms; begin foreach({$ifdef FPCPROCVAR}@{$endif}chainprocsym); end; {$endif CHAINPROCSYMS} {$ifdef GDB} procedure tstoredsymtable.concatstabto(asmlist : taasmoutput); begin asmoutput:=asmlist; if symtabletype in [inlineparasymtable,inlinelocalsymtable] then foreach({$ifdef FPCPROCVAR}@{$endif}resetstab); foreach({$ifdef FPCPROCVAR}@{$endif}concatstab); end; {$endif} {**************************************************************************** TAbstractRecordSymtable ****************************************************************************} procedure tabstractrecordsymtable.load(ppufile:tcompilerppufile); var storesymtable : tsymtable; begin storesymtable:=aktrecordsymtable; aktrecordsymtable:=self; inherited load(ppufile); aktrecordsymtable:=storesymtable; end; procedure tabstractrecordsymtable.write(ppufile:tcompilerppufile); var oldtyp : byte; storesymtable : tsymtable; begin storesymtable:=aktrecordsymtable; aktrecordsymtable:=self; oldtyp:=ppufile.entrytyp; ppufile.entrytyp:=subentryid; { order procsym overloads } foreach({$ifdef FPCPROCVAR}@{$endif}Order_overloads); inherited write(ppufile); ppufile.entrytyp:=oldtyp; aktrecordsymtable:=storesymtable; end; procedure tabstractrecordsymtable.load_browser(ppufile:tcompilerppufile); var storesymtable : tsymtable; begin storesymtable:=aktrecordsymtable; aktrecordsymtable:=self; inherited load_browser(ppufile); aktrecordsymtable:=storesymtable; end; procedure tabstractrecordsymtable.write_browser(ppufile:tcompilerppufile); var storesymtable : tsymtable; begin storesymtable:=aktrecordsymtable; aktrecordsymtable:=self; inherited write_browser(ppufile); aktrecordsymtable:=storesymtable; end; procedure TStoredSymtable._needs_init_final(p : tnamedindexitem); begin if (not b_needs_init_final) and (tsym(p).typ=varsym) and assigned(tvarsym(p).vartype.def) and not is_class(tvarsym(p).vartype.def) and tstoreddef(tvarsym(p).vartype.def).needs_inittable then b_needs_init_final:=true; end; { returns true, if p contains data which needs init/final code } function tstoredsymtable.needs_init_final : boolean; begin b_needs_init_final:=false; foreach({$ifdef FPCPROCVAR}@{$endif}_needs_init_final); needs_init_final:=b_needs_init_final; end; {**************************************************************************** TRecordSymtable ****************************************************************************} constructor trecordsymtable.create; begin inherited create(''); symtabletype:=recordsymtable; end; { this procedure is reserved for inserting case variant into a record symtable } { the offset is the location of the start of the variant and datasize and dataalignment corresponds to the complete size (see code in pdecl unit) PM } procedure trecordsymtable.insert_in(tsymt : tsymtable;offset : longint); var ps,nps : tvarsym; pd,npd : tdef; storesize,storealign : longint; begin storesize:=tsymt.datasize; storealign:=tsymt.dataalignment; tsymt.datasize:=offset; ps:=tvarsym(symindex.first); while assigned(ps) do begin { this is used to insert case variant into the main record } tsymt.datasize:=ps.address+offset; nps:=tvarsym(ps.indexnext); symindex.deleteindex(ps); ps.left:=nil; ps.right:=nil; tsymt.insert(ps); ps:=nps; end; pd:=tdef(defindex.first); while assigned(pd) do begin npd:=tdef(pd.indexnext); defindex.deleteindex(pd); pd.left:=nil; pd.right:=nil; tsymt.registerdef(pd); pd:=npd; end; tsymt.datasize:=storesize; tsymt.dataalignment:=storealign; end; {**************************************************************************** TObjectSymtable ****************************************************************************} constructor tobjectsymtable.create(const n:string); begin inherited create(n); symtabletype:=objectsymtable; end; procedure tobjectsymtable.insert(sym:tsymentry); var hsym : tsym; begin { check for duplicate field id in inherited classes } if (sym.typ=varsym) and assigned(defowner) and ( not(m_delphi in aktmodeswitches) or is_object(tdef(defowner)) ) then begin { but private ids can be reused } hsym:=search_class_member(tobjectdef(defowner),sym.name); if assigned(hsym) and (not(sp_private in hsym.symoptions) or (hsym.owner.defowner.owner.unitid=0)) then begin DuplicateSym(hsym); exit; end; end; inherited insert(sym); end; {**************************************************************************** TAbstractLocalSymtable ****************************************************************************} procedure tabstractlocalsymtable.load(ppufile:tcompilerppufile); var storesymtable : tsymtable; begin storesymtable:=aktlocalsymtable; aktlocalsymtable:=self; inherited load(ppufile); aktlocalsymtable:=storesymtable; end; procedure tabstractlocalsymtable.write(ppufile:tcompilerppufile); var oldtyp : byte; storesymtable : tsymtable; begin storesymtable:=aktlocalsymtable; aktlocalsymtable:=self; oldtyp:=ppufile.entrytyp; ppufile.entrytyp:=subentryid; { order procsym overloads } foreach({$ifdef FPCPROCVAR}@{$endif}Order_overloads); { write definitions } writedefs(ppufile); { write symbols } writesyms(ppufile); ppufile.entrytyp:=oldtyp; aktlocalsymtable:=storesymtable; end; procedure tabstractlocalsymtable.load_browser(ppufile:tcompilerppufile); var storesymtable : tsymtable; begin storesymtable:=aktlocalsymtable; aktlocalsymtable:=self; inherited load_browser(ppufile); aktlocalsymtable:=storesymtable; end; procedure tabstractlocalsymtable.write_browser(ppufile:tcompilerppufile); var storesymtable : tsymtable; begin storesymtable:=aktlocalsymtable; aktlocalsymtable:=self; inherited load_browser(ppufile); aktlocalsymtable:=storesymtable; end; {**************************************************************************** TLocalSymtable ****************************************************************************} constructor tlocalsymtable.create; begin inherited create(''); symtabletype:=localsymtable; end; procedure tlocalsymtable.insert(sym:tsymentry); var hsym : tsym; begin if assigned(next) then begin if (next.symtabletype=parasymtable) then begin hsym:=tsym(next.search(sym.name)); if assigned(hsym) then begin { a parameter and the function can have the same name in TP and Delphi, but RESULT not } if (m_tp in aktmodeswitches) and (sym.typ=funcretsym) and not((m_result in aktmodeswitches) and (sym.name='RESULT')) then sym.name:='hidden'+sym.name else begin DuplicateSym(hsym); exit; end; end; end; { check for duplicate id in local symtable of methods } if assigned(next.next) and { funcretsym is allowed !! } (sym.typ <> funcretsym) and (next.next.symtabletype=objectsymtable) then begin hsym:=search_class_member(tobjectdef(next.next.defowner),sym.name); if assigned(hsym) and { private ids can be reused } (not(sp_private in hsym.symoptions) or (hsym.owner.defowner.owner.symtabletype<>globalsymtable)) then begin { delphi allows to reuse the names in a class, but not in object (tp7 compatible) } if not((m_delphi in aktmodeswitches) and is_class(tdef(next.next.defowner))) then begin DuplicateSym(hsym); exit; end; end; end; end; inherited insert(sym); end; {**************************************************************************** TParaSymtable ****************************************************************************} constructor tparasymtable.create; begin inherited create(''); symtabletype:=parasymtable; dataalignment:=aktalignment.paraalign; end; procedure tparasymtable.insert(sym:tsymentry); var hsym : tsym; begin { check for duplicate id in para symtable of methods } if assigned(procinfo^._class) and { but not in nested procedures !} (not(assigned(procinfo^.parent)) or (assigned(procinfo^.parent) and not(assigned(procinfo^.parent^._class))) ) and { funcretsym is allowed !! } (sym.typ <> funcretsym) then begin hsym:=search_class_member(procinfo^._class,sym.name); if assigned(hsym) and { private ids can be reused } (not(sp_private in hsym.symoptions) or (hsym.owner.defowner.owner.unitid=0)) then begin { delphi allows to reuse the names in a class, but not in object (tp7 compatible) } if not((m_delphi in aktmodeswitches) and is_class(procinfo^._class)) then begin DuplicateSym(hsym); exit; end; end; end; inherited insert(sym); end; procedure tparasymtable.set_alignment(_alignment : longint); var sym : tvarsym; l : longint; begin dataalignment:=_alignment; sym:=tvarsym(symindex.first); datasize:=0; { there can be only varsyms } while assigned(sym) do begin l:=sym.getpushsize; sym.address:=datasize; datasize:=align(datasize+l,dataalignment); sym:=tvarsym(sym.indexnext); end; end; {**************************************************************************** TAbstractUnitSymtable ****************************************************************************} constructor tabstractunitsymtable.create(const n : string); begin inherited create(n); symsearch.usehash; {$ifdef GDB} { reset GDB things } prev_dbx_counter := dbx_counter; dbx_counter := nil; is_stab_written:=false; dbx_count := -1; {$endif GDB} end; {$ifdef GDB} procedure tabstractunitsymtable.concattypestabto(asmlist : taasmoutput); var prev_dbx_count : plongint; begin if is_stab_written then exit; if not assigned(name) then name := stringdup('Main_program'); if (symtabletype = globalsymtable) and (current_module.globalsymtable<>self) then begin unitid:=current_module.unitcount; inc(current_module.unitcount); end; asmList.concat(Tai_asm_comment.Create(strpnew('Begin unit '+name^+' has index '+tostr(unitid)))); if cs_gdb_dbx in aktglobalswitches then begin if dbx_count_ok then begin asmList.concat(Tai_asm_comment.Create(strpnew('"repeated" unit '+name^ +' has index '+tostr(unitid)+' dbx count = '+tostr(dbx_count)))); asmList.concat(Tai_stabs.Create(strpnew('"'+name^+'",' +tostr(N_EXCL)+',0,0,'+tostr(dbx_count)))); exit; end else if (current_module.globalsymtable<>self) then begin prev_dbx_count := dbx_counter; dbx_counter := nil; do_count_dbx:=false; if (symtabletype = globalsymtable) and (unitid<>0) then asmList.concat(Tai_stabs.Create(strpnew('"'+name^+'",'+tostr(N_BINCL)+',0,0,0'))); dbx_counter := @dbx_count; dbx_count:=0; do_count_dbx:=assigned(dbx_counter); end; end; asmoutput:=asmlist; foreach({$ifdef FPCPROCVAR}@{$endif}concattypestab); if cs_gdb_dbx in aktglobalswitches then begin if (current_module.globalsymtable<>self) then begin dbx_counter := prev_dbx_count; do_count_dbx:=false; asmList.concat(Tai_asm_comment.Create(strpnew('End unit '+name^ +' has index '+tostr(unitid)))); asmList.concat(Tai_stabs.Create(strpnew('"'+name^+'",' +tostr(N_EINCL)+',0,0,0'))); do_count_dbx:=assigned(dbx_counter); dbx_count_ok := {true}false; end; end; is_stab_written:=true; end; {$endif GDB} {**************************************************************************** TStaticSymtable ****************************************************************************} constructor tstaticsymtable.create(const n : string); begin inherited create(n); symtabletype:=staticsymtable; end; procedure tstaticsymtable.load(ppufile:tcompilerppufile); begin aktstaticsymtable:=self; next:=symtablestack; symtablestack:=self; inherited load(ppufile); { now we can deref the syms and defs } deref; { restore symtablestack } symtablestack:=next; end; procedure tstaticsymtable.write(ppufile:tcompilerppufile); begin aktstaticsymtable:=self; { order procsym overloads } foreach({$ifdef FPCPROCVAR}@{$endif}Order_overloads); inherited write(ppufile); end; procedure tstaticsymtable.load_browser(ppufile:tcompilerppufile); begin aktstaticsymtable:=self; inherited load_browser(ppufile); end; procedure tstaticsymtable.write_browser(ppufile:tcompilerppufile); begin aktstaticsymtable:=self; inherited write_browser(ppufile); end; procedure tstaticsymtable.insert(sym:tsymentry); var hsym : tsym; begin { also check the global symtable } if assigned(next) and (next.unitid=0) then begin hsym:=tsym(next.search(sym.name)); if assigned(hsym) then begin DuplicateSym(hsym); exit; end; end; inherited insert(sym); end; {**************************************************************************** TGlobalSymtable ****************************************************************************} constructor tglobalsymtable.create(const n : string); begin inherited create(n); symtabletype:=globalsymtable; unitid:=0; unitsym:=nil; {$ifdef GDB} if cs_gdb_dbx in aktglobalswitches then begin dbx_count := 0; unittypecount:=1; pglobaltypecount := @unittypecount; unitid:=current_module.unitcount; debugList.concat(Tai_asm_comment.Create(strpnew('Global '+name^+' has index '+tostr(unitid)))); debugList.concat(Tai_stabs.Create(strpnew('"'+name^+'",'+tostr(N_BINCL)+',0,0,0'))); inc(current_module.unitcount); dbx_count_ok:=false; dbx_counter:=@dbx_count; do_count_dbx:=true; end; {$endif GDB} end; destructor tglobalsymtable.destroy; var pus : tunitsym; begin pus:=unitsym; while assigned(pus) do begin unitsym:=pus.prevsym; pus.prevsym:=nil; pus.unitsymtable:=nil; pus:=unitsym; end; inherited destroy; end; procedure tglobalsymtable.load(ppufile:tcompilerppufile); {$ifdef GDB} var storeGlobalTypeCount : pword; {$endif GDB} begin {$ifdef GDB} if cs_gdb_dbx in aktglobalswitches then begin UnitTypeCount:=1; storeGlobalTypeCount:=PGlobalTypeCount; PglobalTypeCount:=@UnitTypeCount; end; {$endif GDB} symtablelevel:=0; {$ifndef NEWMAP} current_module.map^[0]:=self; {$else NEWMAP} current_module.globalsymtable:=self; {$endif NEWMAP} next:=symtablestack; symtablestack:=self; inherited load(ppufile); { now we can deref the syms and defs } deref; { restore symtablestack } symtablestack:=next; {$ifdef NEWMAP} { necessary for dependencies } current_module.globalsymtable:=nil; {$endif NEWMAP} end; procedure tglobalsymtable.write(ppufile:tcompilerppufile); begin { order procsym overloads } foreach({$ifdef FPCPROCVAR}@{$endif}Order_overloads); { write the symtable entries } inherited write(ppufile); { write dbx count } {$ifdef GDB} if cs_gdb_dbx in aktglobalswitches then begin {$IfDef EXTDEBUG} writeln('Writing dbx_count ',dbx_count,' in unit ',name^,'.ppu'); {$ENDIF EXTDEBUG} ppufile.do_crc:=false; ppufile.putlongint(dbx_count); ppufile.writeentry(ibdbxcount); ppufile.do_crc:=true; end; {$endif GDB} end; procedure tglobalsymtable.insert(sym:tsymentry); var hsym : tsym; begin { also check the global symtable } if assigned(next) and (next.unitid=0) then begin hsym:=tsym(next.search(sym.name)); if assigned(hsym) then begin DuplicateSym(hsym); exit; end; end; hsym:=tsym(search(sym.name)); if assigned(hsym) then begin { Delphi you can have a symbol with the same name as the unit, the unit can then not be accessed anymore using ., so we can hide the symbol } if (m_tp in aktmodeswitches) and (hsym.typ=symconst.unitsym) then hsym.owner.rename(hsym.name,'hidden'+hsym.name) else begin DuplicateSym(hsym); exit; end; end; inherited insert(sym); end; {$ifdef GDB} function tglobalsymtable.getnewtypecount : word; begin if not (cs_gdb_dbx in aktglobalswitches) then getnewtypecount:=inherited getnewtypecount else begin getnewtypecount:=unittypecount; inc(unittypecount); end; end; {$endif} {**************************************************************************** TWITHSYMTABLE ****************************************************************************} constructor twithsymtable.create(aowner:tdef;asymsearch:TDictionary); begin inherited create(''); symtabletype:=withsymtable; direct_with:=false; withnode:=nil; withrefnode:=nil; { we don't need the symsearch } symsearch.free; { set the defaults } symsearch:=asymsearch; defowner:=aowner; end; destructor twithsymtable.destroy; begin symsearch:=nil; inherited destroy; end; procedure twithsymtable.clear; begin { remove no entry from a withsymtable as it is only a pointer to the recorddef or objectdef symtable } end; function twithsymtable.speedsearch(const s : stringid;speedvalue : cardinal) : tsymentry; var hp : tsym; begin hp:=tsym(inherited speedsearch(s, speedvalue)); { skip private members that can't be seen } if assigned(hp) and (sp_private in hp.symoptions) and (hp.owner.symtabletype=objectsymtable) and (hp.owner.defowner.owner.symtabletype=globalsymtable) and (hp.owner.defowner.owner.unitid<>0) then hp:=nil; speedsearch:=hp; end; {**************************************************************************** TSTT_ExceptionSymtable ****************************************************************************} constructor tstt_exceptsymtable.create; begin inherited create(''); symtabletype:=stt_exceptsymtable; end; {***************************************************************************** Helper Routines *****************************************************************************} function findunitsymtable(st:tsymtable):tsymtable; begin findunitsymtable:=nil; repeat if not assigned(st) then internalerror(5566561); case st.symtabletype of localsymtable, parasymtable, staticsymtable : break; globalsymtable : begin findunitsymtable:=st; break; end; objectsymtable, recordsymtable : st:=st.defowner.owner; else internalerror(5566562); end; until false; end; procedure duplicatesym(sym:tsym); var st : tsymtable; begin Message1(sym_e_duplicate_id,sym.realname); st:=findunitsymtable(sym.owner); with sym.fileinfo do begin if assigned(st) and (st.unitid<>0) then Message2(sym_h_duplicate_id_where,'unit '+st.name^,tostr(line)) else Message2(sym_h_duplicate_id_where,current_module.sourcefiles.get_file_name(fileindex),tostr(line)); end; end; {***************************************************************************** Search *****************************************************************************} function searchsym(const s : stringid;var srsym:tsym;var srsymtable:tsymtable):boolean; var speedvalue : cardinal; begin speedvalue:=getspeedvalue(s); srsymtable:=symtablestack; while assigned(srsymtable) do begin srsym:=tsym(srsymtable.speedsearch(s,speedvalue)); if assigned(srsym) then begin searchsym:=true; exit; end else srsymtable:=srsymtable.next; end; searchsym:=false; end; function searchsymonlyin(p : tsymtable;const s : stringid):tsym; var srsym : tsym; begin { the caller have to take care if srsym=nil } if assigned(p) then begin srsym:=tsym(p.search(s)); if assigned(srsym) then begin searchsymonlyin:=srsym; exit; end; { also check in the local symtbale if it exists } if (p=tsymtable(current_module.globalsymtable)) then begin srsym:=tsym(current_module.localsymtable.search(s)); if assigned(srsym) then begin searchsymonlyin:=srsym; exit; end; end end; searchsymonlyin:=nil; end; function search_class_member(pd : tobjectdef;const s : string):tsym; { searches n in symtable of pd and all anchestors } var speedvalue : cardinal; srsym : tsym; begin speedvalue:=getspeedvalue(s); while assigned(pd) do begin srsym:=tsym(pd.symtable.speedsearch(s,speedvalue)); if assigned(srsym) then begin search_class_member:=srsym; exit; end; pd:=pd.childof; end; search_class_member:=nil; end; {***************************************************************************** Definition Helpers *****************************************************************************} procedure globaldef(const s : string;var t:ttype); var st : string; symt : tsymtable; srsym : tsym; srsymtable : tsymtable; begin srsym := nil; if pos('.',s) > 0 then begin st := copy(s,1,pos('.',s)-1); searchsym(st,srsym,srsymtable); st := copy(s,pos('.',s)+1,255); if assigned(srsym) then begin if srsym.typ = unitsym then begin symt := tunitsym(srsym).unitsymtable; srsym := tsym(symt.search(st)); end else srsym := nil; end; end else st := s; if srsym = nil then searchsym(st,srsym,srsymtable); if srsym = nil then srsym:=searchsymonlyin(systemunit,st); if (not assigned(srsym)) or (srsym.typ<>typesym) then begin Message(type_e_type_id_expected); t:=generrortype; exit; end; t := ttypesym(srsym).restype; end; {**************************************************************************** Object Helpers ****************************************************************************} var _defaultprop : tpropertysym; procedure tstoredsymtable.testfordefaultproperty(p : TNamedIndexItem); begin if (tsym(p).typ=propertysym) and (ppo_defaultproperty in tpropertysym(p).propoptions) then _defaultprop:=tpropertysym(p); end; function search_default_property(pd : tobjectdef) : tpropertysym; { returns the default property of a class, searches also anchestors } begin _defaultprop:=nil; while assigned(pd) do begin pd.symtable.foreach({$ifdef FPCPROCVAR}@{$endif}tstoredsymtable(pd.symtable).testfordefaultproperty); if assigned(_defaultprop) then break; pd:=pd.childof; end; search_default_property:=_defaultprop; end; {$ifdef UNITALIASES} {**************************************************************************** TUNIT_ALIAS ****************************************************************************} constructor tunit_alias.create(const n:string); var i : longint; begin i:=pos('=',n); if i=0 then fail; inherited createname(Copy(n,1,i-1)); newname:=stringdup(Copy(n,i+1,255)); end; destructor tunit_alias.destroy; begin stringdispose(newname); inherited destroy; end; procedure addunitalias(const n:string); begin unitaliases^.insert(tunit_alias,init(Upper(n)))); end; function getunitalias(const n:string):string; var p : punit_alias; begin p:=punit_alias(unitaliases^.search(Upper(n))); if assigned(p) then getunitalias:=punit_alias(p).newname^ else getunitalias:=n; end; {$endif UNITALIASES} {**************************************************************************** Symtable Stack ****************************************************************************} procedure dellexlevel; var p : tsymtable; begin p:=symtablestack; symtablestack:=p.next; { symbol tables of unit interfaces are never disposed } { this is handle by the unit unitm } if not(p.symtabletype in [globalsymtable,stt_exceptsymtable]) then p.free; end; procedure RestoreUnitSyms; var p : tsymtable; begin p:=symtablestack; while assigned(p) do begin if (p.symtabletype=globalsymtable) and assigned(tglobalsymtable(p).unitsym) and ((tglobalsymtable(p).unitsym.owner=current_module.globalsymtable) or (tglobalsymtable(p).unitsym.owner=current_module.localsymtable)) then tglobalsymtable(p).unitsym.restoreunitsym; p:=p.next; end; end; {$ifdef DEBUG} procedure test_symtablestack; var p : tsymtable; i : longint; begin p:=symtablestack; i:=0; while assigned(p) do begin inc(i); p:=p.next; if i>500 then Message(sym_f_internal_error_in_symtablestack); end; end; procedure list_symtablestack; var p : tsymtable; i : longint; begin p:=symtablestack; i:=0; while assigned(p) do begin inc(i); writeln(i,' ',p.name^); p:=p.next; if i>500 then Message(sym_f_internal_error_in_symtablestack); end; end; {$endif DEBUG} {**************************************************************************** Init/Done Symtable ****************************************************************************} procedure InitSymtable; var token : ttoken; begin { Reset symbolstack } registerdef:=false; read_member:=false; symtablestack:=nil; systemunit:=nil; {$ifdef GDB} firstglobaldef:=nil; lastglobaldef:=nil; globaltypecount:=1; pglobaltypecount:=@globaltypecount; {$endif GDB} { create error syms and def } generrorsym:=terrorsym.create; generrortype.setdef(terrordef.create); {$ifdef UNITALIASES} { unit aliases } unitaliases:=tdictionary.create; {$endif} for token:=first_overloaded to last_overloaded do overloaded_operators[token]:=nil; end; procedure DoneSymtable; begin generrorsym.free; generrortype.def.free; {$ifdef UNITALIASES} unitaliases.free; {$endif} end; end. { $Log$ Revision 1.39 2001-07-29 22:12:58 peter * skip private symbols when found in withsymtable Revision 1.38 2001/07/01 20:16:18 peter * alignmentinfo record added * -Oa argument supports more alignment settings that can be specified per type: PROC,LOOP,VARMIN,VARMAX,CONSTMIN,CONSTMAX,RECORDMIN RECORDMAX,LOCALMIN,LOCALMAX. It is possible to set the mimimum required alignment and the maximum usefull alignment. The final alignment will be choosen per variable size dependent on these settings Revision 1.37 2001/06/04 11:53:14 peter + varargs directive Revision 1.36 2001/06/03 21:57:38 peter + hint directive parsing support Revision 1.35 2001/05/06 14:49:18 peter * ppu object to class rewrite * move ppu read and write stuff to fppu Revision 1.34 2001/04/18 22:01:59 peter * registration of targets and assemblers Revision 1.33 2001/04/13 20:05:15 peter * better check for globalsymtable Revision 1.32 2001/04/13 18:08:37 peter * scanner object to class Revision 1.31 2001/04/13 01:22:16 peter * symtable change to classes * range check generation and errors fixed, make cycle DEBUG=1 works * memory leaks fixed Revision 1.30 2001/04/02 21:20:35 peter * resulttype rewrite Revision 1.29 2001/03/22 00:10:58 florian + basic variant type support in the compiler Revision 1.28 2001/03/13 18:45:07 peter * fixed some memory leaks Revision 1.27 2001/03/11 22:58:51 peter * getsym redesign, removed the globals srsym,srsymtable Revision 1.26 2001/02/21 19:37:19 peter * moved deref to be done after loading of implementation units. prederef is still done directly after loading of symbols and definitions. Revision 1.25 2001/02/20 21:41:16 peter * new fixfilename, findfile for unix. Look first for lowercase, then NormalCase and last for UPPERCASE names. Revision 1.24 2001/01/08 21:40:27 peter * fixed crash with unsupported token overloading Revision 1.23 2000/12/25 00:07:30 peter + new tlinkedlist class (merge of old tstringqueue,tcontainer and tlinkedlist objects) Revision 1.22 2000/12/23 19:50:09 peter * fixed mem leak with withsymtable Revision 1.21 2000/12/10 20:25:32 peter * fixed missing typecast Revision 1.20 2000/12/10 14:14:51 florian * fixed web bug 1203: class fields can be now redefined in Delphi mode though I don't like this :/ Revision 1.19 2000/11/30 22:16:49 florian * moved to i386 Revision 1.18 2000/11/29 00:30:42 florian * unused units removed from uses clause * some changes for widestrings Revision 1.17 2000/11/28 00:28:07 pierre * stabs fixing Revision 1.1.2.8 2000/11/17 11:14:37 pierre * one more class stabs fix Revision 1.16 2000/11/12 22:17:47 peter * some realname updates for messages Revision 1.15 2000/11/06 15:54:15 florian * fixed two bugs to get make cycle work, but it's not enough Revision 1.14 2000/11/04 14:25:22 florian + merged Attila's changes for interfaces, not tested yet Revision 1.13 2000/11/01 23:04:38 peter * tprocdef.fullprocname added for better casesensitve writing of procedures Revision 1.12 2000/10/31 22:02:52 peter * symtable splitted, no real code changes Revision 1.1.2.7 2000/10/16 19:43:04 pierre * trying to correct class stabss once more Revision 1.11 2000/10/15 07:47:53 peter * unit names and procedure names are stored mixed case Revision 1.10 2000/10/14 10:14:53 peter * moehrendorf oct 2000 rewrite Revision 1.9 2000/10/01 19:48:25 peter * lot of compile updates for cg11 Revision 1.8 2000/09/24 15:06:29 peter * use defines.inc Revision 1.7 2000/08/27 16:11:54 peter * moved some util functions from globals,cobjects to cutils * splitted files into finput,fmodule Revision 1.6 2000/08/21 11:27:45 pierre * fix the stabs problems Revision 1.5 2000/08/20 14:58:41 peter * give fatal if objfpc/delphi mode things are found (merged) Revision 1.1.2.6 2000/08/20 14:56:46 peter * give fatal if objfpc/delphi mode things are found Revision 1.4 2000/08/16 18:33:54 peter * splitted namedobjectitem.next into indexnext and listnext so it can be used in both lists * don't allow "word = word" type definitions (merged) Revision 1.3 2000/08/08 19:28:57 peter * memdebug/memory patches (merged) * only once illegal directive (merged) }