{ Copyright (c) 1998-2002 by Florian Klaempfl Routines for the code generation of RTTI data structures 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 ncgrtti; {$i fpcdefs.inc} interface uses cclasses,constexp, aasmbase, symbase,symconst,symtype,symdef; type { TRTTIWriter } TRTTIWriter=class private function fields_count(st:tsymtable;rt:trttitype):longint; procedure fields_write_rtti(st:tsymtable;rt:trttitype); procedure fields_write_rtti_data(st:tsymtable;rt:trttitype); procedure write_rtti_extrasyms(def:Tdef;rt:Trttitype;mainrtti:Tasmsymbol); procedure published_write_rtti(st:tsymtable;rt:trttitype); function published_properties_count(st:tsymtable):longint; procedure published_properties_write_rtti_data(propnamelist:TFPHashObjectList;st:tsymtable); procedure collect_propnamelist(propnamelist:TFPHashObjectList;objdef:tobjectdef); procedure write_rtti_name(def:tdef); procedure write_rtti_data(def:tdef;rt:trttitype); procedure write_child_rtti_data(def:tdef;rt:trttitype); function ref_rtti(def:tdef;rt:trttitype):tasmsymbol; public procedure write_rtti(def:tdef;rt:trttitype); function get_rtti_label(def:tdef;rt:trttitype):tasmsymbol; function get_rtti_label_ord2str(def:tdef;rt:trttitype):tasmsymbol; function get_rtti_label_str2ord(def:tdef;rt:trttitype):tasmsymbol; end; var RTTIWriter : TRTTIWriter; implementation uses cutils, globals,globtype,verbose,systems, fmodule, symsym, aasmtai,aasmdata, defutil, wpobase ; const rttidefstate : array[trttitype] of tdefstate = (ds_rtti_table_written,ds_init_table_written, { Objective-C related, does not pass here } symconst.ds_none,symconst.ds_none, symconst.ds_none,symconst.ds_none); type TPropNameListItem = class(TFPHashObject) propindex : longint; propowner : TSymtable; end; {*************************************************************************** TRTTIWriter ***************************************************************************} procedure TRTTIWriter.write_rtti_name(def:tdef); var hs : string; begin if is_open_array(def) then { open arrays never have a typesym with a name, since you cannot define an "open array type". Kylix prints the type of the elements in the array in this case (so together with the pfArray flag, you can reconstruct the full typename, I assume (JM)) } def:=tarraydef(def).elementdef; { name } if assigned(def.typesym) then begin hs:=ttypesym(def.typesym).realname; current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(chr(length(hs))+hs)); end else current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(#0)); end; function TRTTIWriter.fields_count(st:tsymtable;rt:trttitype):longint; var i : longint; sym : tsym; begin result:=0; for i:=0 to st.SymList.Count-1 do begin sym:=tsym(st.SymList[i]); if (tsym(sym).typ=fieldvarsym) and not(sp_static in tsym(sym).symoptions) and ( (rt=fullrtti) or tfieldvarsym(sym).vardef.needs_inittable ) then inc(result); end; end; procedure TRTTIWriter.fields_write_rtti_data(st:tsymtable;rt:trttitype); var i : longint; sym : tsym; begin for i:=0 to st.SymList.Count-1 do begin sym:=tsym(st.SymList[i]); if (tsym(sym).typ=fieldvarsym) and not(sp_static in tsym(sym).symoptions) and ( (rt=fullrtti) or tfieldvarsym(sym).vardef.needs_inittable ) then begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(tfieldvarsym(sym).vardef,rt))); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(tfieldvarsym(sym).fieldoffset)); end; end; end; procedure TRTTIWriter.fields_write_rtti(st:tsymtable;rt:trttitype); var i : longint; sym : tsym; begin for i:=0 to st.SymList.Count-1 do begin sym:=tsym(st.SymList[i]); if (tsym(sym).typ=fieldvarsym) and not(sp_static in tsym(sym).symoptions) and ( (rt=fullrtti) or tfieldvarsym(sym).vardef.needs_inittable ) then write_rtti(tfieldvarsym(sym).vardef,rt); end; end; procedure TRTTIWriter.published_write_rtti(st:tsymtable;rt:trttitype); var i : longint; sym : tsym; begin for i:=0 to st.SymList.Count-1 do begin sym:=tsym(st.SymList[i]); if (sym.visibility=vis_published) then begin case tsym(sym).typ of propertysym: write_rtti(tpropertysym(sym).propdef,rt); fieldvarsym: write_rtti(tfieldvarsym(sym).vardef,rt); end; end; end; end; function TRTTIWriter.published_properties_count(st:tsymtable):longint; var i : longint; sym : tsym; begin result:=0; for i:=0 to st.SymList.Count-1 do begin sym:=tsym(st.SymList[i]); if (tsym(sym).typ=propertysym) and (sym.visibility=vis_published) then inc(result); end; end; procedure TRTTIWriter.collect_propnamelist(propnamelist:TFPHashObjectList;objdef:tobjectdef); var i : longint; sym : tsym; pn : tpropnamelistitem; begin if assigned(objdef.childof) then collect_propnamelist(propnamelist,objdef.childof); for i:=0 to objdef.symtable.SymList.Count-1 do begin sym:=tsym(objdef.symtable.SymList[i]); if (tsym(sym).typ=propertysym) and (sym.visibility=vis_published) then begin pn:=TPropNameListItem(propnamelist.Find(tsym(sym).name)); if not assigned(pn) then begin pn:=tpropnamelistitem.create(propnamelist,tsym(sym).name); pn.propindex:=propnamelist.count-1; pn.propowner:=tsym(sym).owner; end; end; end; end; procedure TRTTIWriter.published_properties_write_rtti_data(propnamelist:TFPHashObjectList;st:tsymtable); var i : longint; sym : tsym; proctypesinfo : byte; propnameitem : tpropnamelistitem; procedure writeaccessproc(pap:tpropaccesslisttypes; shiftvalue : byte; unsetvalue: byte); var typvalue : byte; hp : ppropaccesslistitem; address,space : longint; def : tdef; hpropsym : tpropertysym; propaccesslist : tpropaccesslist; begin hpropsym:=tpropertysym(sym); repeat propaccesslist:=hpropsym.propaccesslist[pap]; if not propaccesslist.empty then break; hpropsym:=hpropsym.overriddenpropsym; until not assigned(hpropsym); if not(assigned(propaccesslist) and assigned(propaccesslist.firstsym)) then begin current_asmdata.asmlists[al_rtti].concat(Tai_const.create(aitconst_ptr,unsetvalue)); typvalue:=3; end else if propaccesslist.firstsym^.sym.typ=fieldvarsym then begin address:=0; hp:=propaccesslist.firstsym; def:=nil; while assigned(hp) do begin case hp^.sltype of sl_load : begin def:=tfieldvarsym(hp^.sym).vardef; inc(address,tfieldvarsym(hp^.sym).fieldoffset); end; sl_subscript : begin if not(assigned(def) and ((def.typ=recorddef) or is_object(def))) then internalerror(200402171); inc(address,tfieldvarsym(hp^.sym).fieldoffset); def:=tfieldvarsym(hp^.sym).vardef; end; sl_vec : begin if not(assigned(def) and (def.typ=arraydef)) then internalerror(200402172); def:=tarraydef(def).elementdef; {Hp.value is a Tconstexprint, which can be rather large, sanity check for longint overflow.} space:=(high(address)-address) div def.size; if int64(space)def.maxval then break; current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(length(hp.realname))); current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(hp.realname)); end; { write unit name } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(length(current_module.realmodulename^))); current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(current_module.realmodulename^)); end; procedure orddef_rtti(def:torddef); procedure dointeger; const trans : array[tordtype] of byte = (otUByte{otNone}, otUByte,otUWord,otULong,otUByte{otNone}, otSByte,otSWord,otSLong,otUByte{otNone}, otUByte,otSByte,otSWord,otSLong,otSByte, otUByte,otUWord,otUByte); begin write_rtti_name(def); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(byte(trans[def.ordtype]))); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); {Convert to longint to smuggle values in high(longint)+1..high(cardinal) into asmlist.} current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(longint(def.low.svalue))); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(longint(def.high.svalue))); end; begin case def.ordtype of s64bit : begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkInt64)); write_rtti_name(def); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); { low } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_64bit(def.low.svalue)); { high } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_64bit(def.high.svalue)); end; u64bit : begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkQWord)); write_rtti_name(def); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); {use svalue because Create_64bit accepts int64, prevents range checks} { low } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_64bit(def.low.svalue)); { high } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_64bit(def.high.svalue)); end; pasbool: begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkBool)); dointeger; end; uchar: begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkChar)); dointeger; end; uwidechar: begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkWChar)); dointeger; end; scurrency: begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkFloat)); write_rtti_name(def); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(ftCurr)); end; else begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkInteger)); dointeger; end; end; end; procedure floatdef_rtti(def:tfloatdef); const {tfloattype = (s32real,s64real,s80real,sc80real,s64bit,s128bit);} translate : array[tfloattype] of byte = (ftSingle,ftDouble,ftExtended,ftExtended,ftComp,ftCurr,ftFloat128); begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkFloat)); write_rtti_name(def); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(translate[def.floattype])); end; procedure setdef_rtti(def:tsetdef); begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkSet)); write_rtti_name(def); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); case def.size of 1: current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otUByte)); 2: current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otUWord)); 4: current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otULong)); else current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otUByte)); end; if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.elementdef,rt))); end; procedure arraydef_rtti(def:tarraydef); begin if ado_IsDynamicArray in def.arrayoptions then current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkdynarray)) else current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkarray)); write_rtti_name(def); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); { size of elements } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_pint(def.elesize)); if not(ado_IsDynamicArray in def.arrayoptions) then begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_pint(pint(def.elecount))); { element type } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.elementdef,rt))); end else { write a delphi almost compatible dyn. array entry: there are two types, eltype and eltype2, the latter is nil if the element type needs no finalization, the former is always valid, delphi has this swapped, but for compatibility with older fpc versions we do it different, to be delphi compatible, the names are swapped in typinfo.pp } begin { element type } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.elementdef,rt))); end; { variant type } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(tstoreddef(def.elementdef).getvardef)); if ado_IsDynamicArray in def.arrayoptions then begin { element type } if def.elementdef.needs_inittable then current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.elementdef,rt))) else current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_pint(0)); { write unit name } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(length(current_module.realmodulename^))); current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(current_module.realmodulename^)); end; end; procedure recorddef_rtti(def:trecorddef); var fieldcnt : longint; begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkrecord)); write_rtti_name(def); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(def.size)); fieldcnt:=fields_count(def.symtable,rt); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(fieldcnt)); fields_write_rtti_data(def.symtable,rt); end; procedure procvardef_rtti(def:tprocvardef); const ProcCallOptionToCallConv: array[tproccalloption] of byte = ( { pocall_none } 0, { pocall_cdecl } 1, { pocall_cppdecl } 5, { pocall_far16 } 6, { pocall_oldfpccall } 7, { pocall_internproc } 8, { pocall_syscall } 9, { pocall_pascal } 2, { pocall_register } 0, { pocall_safecall } 4, { pocall_stdcall } 3, { pocall_softfloat } 10, { pocall_mwpascal } 11 ); procedure write_para(parasym:tparavarsym); var paraspec : byte; begin { only store user visible parameters } if not(vo_is_hidden_para in parasym.varoptions) then begin case parasym.varspez of vs_value : paraspec := 0; vs_const : paraspec := pfConst; vs_var : paraspec := pfVar; vs_out : paraspec := pfOut; vs_constref: paraspec := pfConstRef; end; { Kylix also seems to always add both pfArray and pfReference in this case } if is_open_array(parasym.vardef) then paraspec:=paraspec or pfArray or pfReference; { and these for classes and interfaces (maybe because they are themselves addresses?) } if is_class_or_interface(parasym.vardef) then paraspec:=paraspec or pfAddress; { set bits run from the highest to the lowest bit on big endian systems } if (target_info.endian = endian_big) then paraspec:=reverse_byte(paraspec); { write flags for current parameter } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(paraspec)); { write name of current parameter } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(length(parasym.realname))); current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(parasym.realname)); { write name of type of current parameter } write_rtti_name(parasym.vardef); end; end; var methodkind : byte; i : integer; begin if po_methodpointer in def.procoptions then begin { write method id and name } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkmethod)); write_rtti_name(def); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); { write kind of method } case def.proctypeoption of potype_constructor: methodkind:=mkConstructor; potype_destructor: methodkind:=mkDestructor; potype_class_constructor: methodkind:=mkClassConstructor; potype_class_destructor: methodkind:=mkClassDestructor; potype_procedure: if po_classmethod in def.procoptions then methodkind:=mkClassProcedure else methodkind:=mkProcedure; potype_function: if po_classmethod in def.procoptions then methodkind:=mkClassFunction else methodkind:=mkFunction; else begin if def.returndef = voidtype then methodkind:=mkProcedure else methodkind:=mkFunction; end; end; current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(methodkind)); { write parameter info. The parameters must be written in reverse order if this method uses right to left parameter pushing! } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(def.maxparacount)); for i:=0 to def.paras.count-1 do write_para(tparavarsym(def.paras[i])); if (methodkind=mkFunction) or (methodkind=mkClassFunction) then begin { write name of result type } write_rtti_name(def.returndef); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(Cai_align.Create(sizeof(TConstPtrUint))); { write result typeinfo } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.returndef,fullrtti))) end; { write calling convention } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(ProcCallOptionToCallConv[def.proccalloption])); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(Cai_align.Create(sizeof(TConstPtrUint))); { write params typeinfo } for i:=0 to def.paras.count-1 do if not(vo_is_hidden_para in tparavarsym(def.paras[i]).varoptions) then current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(tparavarsym(def.paras[i]).vardef,fullrtti))); end else begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkprocvar)); write_rtti_name(def); end; end; procedure objectdef_rtti(def:tobjectdef); procedure objectdef_rtti_class_init(def:tobjectdef); begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(def.size)); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(fields_count(def.symtable,rt))); fields_write_rtti_data(def.symtable,rt); end; procedure objectdef_rtti_interface_init(def:tobjectdef); begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(def.size)); end; procedure objectdef_rtti_class_full(def:tobjectdef); var propnamelist : TFPHashObjectList; begin { Collect unique property names with nameindex } propnamelist:=TFPHashObjectList.Create; collect_propnamelist(propnamelist,def); if (oo_has_vmt in def.objectoptions) then current_asmdata.asmlists[al_rtti].concat(Tai_const.Createname(def.vmt_mangledname,0)) else current_asmdata.asmlists[al_rtti].concat(Tai_const.create_sym(nil)); { write parent typeinfo } if assigned(def.childof) then current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.childof,fullrtti))) else current_asmdata.asmlists[al_rtti].concat(Tai_const.create_sym(nil)); { total number of unique properties } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_16bit(propnamelist.count)); { write unit name } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(length(current_module.realmodulename^))); current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(current_module.realmodulename^)); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); { write published properties for this object } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_16bit(published_properties_count(def.symtable))); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); published_properties_write_rtti_data(propnamelist,def.symtable); propnamelist.free; end; procedure objectdef_rtti_interface_full(def:tobjectdef); var i : longint; propnamelist : TFPHashObjectList; { if changed to a set, make sure it's still a byte large, and swap appropriately when cross-compiling } IntfFlags: byte; begin { Collect unique property names with nameindex } propnamelist:=TFPHashObjectList.Create; collect_propnamelist(propnamelist,def); { write parent typeinfo } if assigned(def.childof) then current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.childof,fullrtti))) else current_asmdata.asmlists[al_rtti].concat(Tai_const.create_sym(nil)); { interface: write flags, iid and iidstr } IntfFlags:=0; if assigned(def.iidguid) then IntfFlags:=IntfFlags or (1 shl ord(ifHasGuid)); if assigned(def.iidstr) then IntfFlags:=IntfFlags or (1 shl ord(ifHasStrGUID)); if (def.objecttype=odt_dispinterface) then IntfFlags:=IntfFlags or (1 shl ord(ifDispInterface)); if (target_info.endian=endian_big) then IntfFlags:=reverse_byte(IntfFlags); { ifDispatch, } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(IntfFlags)); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(longint(def.iidguid^.D1))); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_16bit(def.iidguid^.D2)); current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_16bit(def.iidguid^.D3)); for i:=Low(def.iidguid^.D4) to High(def.iidguid^.D4) do current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(def.iidguid^.D4[i])); { write unit name } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(length(current_module.realmodulename^))); current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(current_module.realmodulename^)); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); { write iidstr } if assigned(def.iidstr) then begin current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(length(def.iidstr^))); current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(def.iidstr^)); end else current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(0)); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); { write published properties for this object } published_properties_write_rtti_data(propnamelist,def.symtable); propnamelist.free; end; begin case def.objecttype of odt_class: current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkclass)); odt_object: current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkobject)); odt_dispinterface, odt_interfacecom: current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkinterface)); odt_interfacecorba: current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkinterfaceCorba)); else internalerror(200611034); end; { generate the name } current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(length(def.objrealname^))); current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(def.objrealname^)); if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); case rt of initrtti : begin if def.objecttype in [odt_class,odt_object] then objectdef_rtti_class_init(def) else objectdef_rtti_interface_init(def); end; fullrtti : begin if def.objecttype in [odt_class,odt_object] then objectdef_rtti_class_full(def) else objectdef_rtti_interface_full(def); end; end; end; begin case def.typ of variantdef : variantdef_rtti(tvariantdef(def)); stringdef : stringdef_rtti(tstringdef(def)); enumdef : enumdef_rtti(tenumdef(def)); orddef : orddef_rtti(torddef(def)); floatdef : floatdef_rtti(tfloatdef(def)); setdef : setdef_rtti(tsetdef(def)); procvardef : procvardef_rtti(tprocvardef(def)); arraydef : begin if ado_IsBitPacked in tarraydef(def).arrayoptions then unknown_rtti(tstoreddef(def)) else arraydef_rtti(tarraydef(def)); end; recorddef : begin if trecorddef(def).is_packed then unknown_rtti(tstoreddef(def)) else recorddef_rtti(trecorddef(def)); end; objectdef : objectdef_rtti(tobjectdef(def)); else unknown_rtti(tstoreddef(def)); end; end; procedure TRTTIWriter.write_rtti_extrasyms(def:Tdef;rt:Trttitype;mainrtti:Tasmsymbol); type Penumsym = ^Tenumsym; function enumdef_rtti_calcstringtablestart(const def : Tenumdef) : integer; begin result:=1; if assigned(def.typesym) then inc(result,length(def.typesym.realname)+1) else inc(result); if (tf_requires_proper_alignment in target_info.flags) then result:=align(result,sizeof(Tconstptruint)); inc(result); if (tf_requires_proper_alignment in target_info.flags) then result:=align(result,longint(def.size)); inc(result, sizeof(longint) * 2); if (tf_requires_proper_alignment in target_info.flags) then result:=align(result,sizeof(Tconstptruint)); inc(result, sizeof(pint)); end; procedure enumdef_rtti_ord2stringindex(const sym_count:longint; const offsets:plongint; const syms:Penumsym; const st:longint); var rttilab:Tasmsymbol; h,i,o:longint; mode:(lookup,search); {Modify with care, ordinal value of enum is written.} r:single; {Must be real type because of integer overflow risk.} begin {Decide wether a lookup array is size efficient.} mode:=lookup; if sym_count>0 then begin i:=1; r:=0; h:=syms[0].value; {Next expected enum value is min.} while isym_count then mode:=search; {Don't waste more than 50% space.} end; { write rtti data } with current_asmdata do begin rttilab:=defineasmsymbol(Tstoreddef(def).rtti_mangledname(rt)+'_o2s',AB_GLOBAL,AT_DATA); maybe_new_object_file(asmlists[al_rtti]); new_section(asmlists[al_rtti],sec_rodata,rttilab.name,const_align(sizeof(pint))); asmlists[al_rtti].concat(Tai_symbol.create_global(rttilab,0)); asmlists[al_rtti].concat(Tai_const.create_32bit(longint(mode))); if mode=lookup then begin if (tf_requires_proper_alignment in target_info.flags) then current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt))); o:=syms[0].value; {Start with min value.} for i:=0 to sym_count-1 do begin while odef.maxval then break; if sym_count>=sym_alloc then begin reallocmem(syms,2*sym_alloc*sizeof(Tenumsym)); reallocmem(offsets,2*sym_alloc*sizeof(longint)); sym_alloc:=sym_alloc*2; end; syms[sym_count]:=t; offsets[sym_count]:=st; inc(sym_count); st:=st+length(t.realname)+1; end; {Sort the syms by enum name} if sym_count>=2 then begin p:=1; while 2*p0 do begin for h:=p to sym_count-1 do begin i:=h; t:=syms[i]; o:=offsets[i]; repeat if syms[i-p].name<=t.name then break; syms[i]:=syms[i-p]; offsets[i]:=offsets[i-p]; dec(i,p); until i=2 then begin p:=1; while 2*p0 do begin for h:=p to sym_count-1 do begin i:=h; t:=syms[i]; o:=offsets[i]; repeat if syms[i-p].value<=t.value then break; syms[i]:=syms[i-p]; offsets[i]:=offsets[i-p]; dec(i,p); until i