{ Copyright (c) 2014 by Jonas Maebe Generates code for typed constant declarations for the LLVM target 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 nllvmtcon; {$i fpcdefs.inc} interface uses cclasses,constexp,globtype, aasmbase,aasmtai,aasmcnst,aasmllvm, symconst,symbase,symtype,symdef,symsym, ngtcon; type tllvmaggregateinformation = class(taggregateinformation) private faggai: tai_aggregatetypedconst; fanonrecalignpos: longint; { if this is a non-anonymous record, keep track of the current field at the llvm level that gets emitted, so we know when the data types of the Pascal and llvm representation don't match up (because of variant records, or because not all fields are defined at the Pascal level and the rest is zeroed) } fllvmnextfieldindex: longint; fdoesnotmatchllvmdef: boolean; public constructor create(_def: tdef; _typ: ttypedconstkind); override; function prepare_next_field(nextfielddef: tdef): asizeint; override; property aggai: tai_aggregatetypedconst read faggai write faggai; property anonrecalignpos: longint read fanonrecalignpos write fanonrecalignpos; property llvmnextfieldindex: longint read fllvmnextfieldindex write fllvmnextfieldindex; property doesnotmatchllvmdef: boolean read fdoesnotmatchllvmdef write fdoesnotmatchllvmdef; end; tllvmtypedconstplaceholder = class(ttypedconstplaceholder) agginfo: tllvmaggregateinformation; pos: longint; constructor create(info: tllvmaggregateinformation; p: longint; d: tdef); procedure replace(ai: tai; d: tdef); override; end; tllvmtai_typedconstbuilder = class(ttai_typedconstbuilder) public { set the default value for caggregateinformation (= tllvmaggregateinformation) } class constructor classcreate; protected foverriding_def: tdef; fappendingdef: boolean; fqueued_tai, flast_added_tai: tai; fqueued_tai_opidx: longint; procedure finalize_asmlist(sym: tasmsymbol; def: tdef; section: TAsmSectiontype; const secname: TSymStr; alignment: shortint; const options: ttcasmlistoptions); override; { outerai: the ai that should become fqueued_tai in case it's still nil, or that should be filled in the fqueued_tai_opidx of the current fqueued_tai if it's not nil innerai: the innermost ai (possibly an operand of outerai) in which newindex indicates which operand is empty and can be filled with the next queued tai } procedure update_queued_tai(resdef: tdef; outerai, innerai: tai; newindex: longint); function wrap_with_type(p: tai; def: tdef): tai; procedure do_emit_tai(p: tai; def: tdef); override; procedure mark_anon_aggregate_alignment; override; procedure insert_marked_aggregate_alignment(def: tdef); override; procedure maybe_emit_tail_padding(def: tdef); override; procedure begin_aggregate_internal(def: tdef; anonymous: boolean); override; procedure end_aggregate_internal(def: tdef; anonymous: boolean); override; function get_internal_data_section_start_label: tasmlabel; override; function get_internal_data_section_internal_label: tasmlabel; override; procedure do_emit_extended_in_aggregate(p: tai); { mark the current agginfo, and hence also all the ones higher up in ther aggregate hierarchy, as not matching our canonical llvm definition for their def } procedure mark_aggregate_hierarchy_llvmdef_mismatch(new_current_level_def: trecorddef); public destructor destroy; override; procedure emit_tai(p: tai; def: tdef); override; procedure emit_tai_procvar2procdef(p: tai; pvdef: tprocvardef); override; procedure emit_string_offset(const ll: tasmlabofs; const strlength: longint; const st: tstringtype; const winlikewidestring: boolean; const charptrdef: tdef); override; procedure queue_init(todef: tdef); override; procedure queue_vecn(def: tdef; const index: tconstexprint); override; procedure queue_subscriptn(def: tabstractrecorddef; vs: tfieldvarsym); override; procedure queue_typeconvn(fromdef, todef: tdef); override; procedure queue_emit_staticvar(vs: tstaticvarsym); override; procedure queue_emit_asmsym(sym: tasmsymbol; def: tdef); override; procedure queue_emit_ordconst(value: int64; def: tdef); override; class function get_vectorized_dead_strip_custom_section_name(const basename: TSymStr; st: tsymtable; out secname: TSymStr): boolean; override; function emit_placeholder(def: tdef): ttypedconstplaceholder; override; class function get_string_symofs(typ: tstringtype; winlikewidestring: boolean): pint; override; property appendingdef: boolean write fappendingdef; end; implementation uses verbose,systems,fmodule, aasmdata, cpubase,cpuinfo,llvmbase, symtable,llvmdef,defutil,defcmp; { tllvmaggregateinformation } constructor tllvmaggregateinformation.create(_def: tdef; _typ: ttypedconstkind); begin inherited; fanonrecalignpos:=-1; fllvmnextfieldindex:=0; end; function tllvmaggregateinformation.prepare_next_field(nextfielddef: tdef): asizeint; begin result:=inherited; { in case we let LLVM align, don't add padding ourselves } if df_llvm_no_struct_packing in def.defoptions then result:=0; end; { tllvmtypedconstplaceholder } constructor tllvmtypedconstplaceholder.create(info: tllvmaggregateinformation; p: longint; d: tdef); begin inherited create(d); agginfo:=info; pos:=p; end; procedure tllvmtypedconstplaceholder.replace(ai: tai; d: tdef); var oldconst: tai_abstracttypedconst; begin if d<>def then internalerror(2015091002); oldconst:=agginfo.aggai.replacevalueatpos( tai_simpletypedconst.create(tck_simple,d,ai),pos ); oldconst.free; end; { tllvmtai_typedconstbuilder } class constructor tllvmtai_typedconstbuilder.classcreate; begin caggregateinformation:=tllvmaggregateinformation; end; procedure tllvmtai_typedconstbuilder.finalize_asmlist(sym: tasmsymbol; def: tdef; section: TAsmSectiontype; const secname: TSymStr; alignment: shortint; const options: ttcasmlistoptions); var newasmlist: tasmlist; decl: taillvmdecl; begin newasmlist:=tasmlist.create; if assigned(foverriding_def) then def:=foverriding_def; { llvm declaration with as initialisation data all the elements from the original asmlist } decl:=taillvmdecl.createdef(sym,def,fasmlist,section,alignment); if fappendingdef then include(decl.flags,ldf_appending); if section=sec_user then decl.setsecname(secname); if tcalo_is_lab in options then include(decl.flags,ldf_unnamed_addr); if ([tcalo_vectorized_dead_strip_start, tcalo_vectorized_dead_strip_item, tcalo_vectorized_dead_strip_end]*options)<>[] then include(decl.flags,ldf_vectorized); if tcalo_weak in options then include(decl.flags,ldf_weak); if tcalo_no_dead_strip in options then { Objective-C section declarations already contain "no_dead_strip" attributes if none of their symbols need to be stripped -> only add the symbols to llvm.compiler.used (only affects compiler optimisations) and not to llvm.used (also affects linker -- which in this case is already taken care of by the section attribute; not sure why it's done like this, but this is how Clang does it) } if (target_info.system in systems_darwin) and (section in [low(TObjCAsmSectionType)..high(TObjCAsmSectionType)]) then current_module.llvmcompilerusedsyms.add(decl) else current_module.llvmusedsyms.add(decl); newasmlist.concat(decl); fasmlist:=newasmlist; end; procedure tllvmtai_typedconstbuilder.update_queued_tai(resdef: tdef; outerai, innerai: tai; newindex: longint); begin { the outer tai must always be a typed constant (possibly a wrapper around a taillvm or so), in order for result type information to be available } if outerai.typ<>ait_typedconst then internalerror(2014060401); { is the result of the outermost expression different from the type of this typed const? -> insert type conversion } if not assigned(fqueued_tai) and (resdef<>fqueued_def) and (llvmencodetypename(resdef)<>llvmencodetypename(fqueued_def)) then queue_typeconvn(resdef,fqueued_def); if assigned(fqueued_tai) then begin taillvm(flast_added_tai).loadtai(fqueued_tai_opidx,outerai); { already flushed? } if fqueued_tai_opidx=-1 then internalerror(2014062201); end else begin fqueued_tai:=outerai; fqueued_def:=resdef; end; fqueued_tai_opidx:=newindex; flast_added_tai:=innerai; end; function tllvmtai_typedconstbuilder.wrap_with_type(p: tai; def: tdef): tai; begin result:=tai_simpletypedconst.create(tck_simple,def,p); end; destructor tllvmtai_typedconstbuilder.destroy; begin inherited destroy; end; procedure tllvmtai_typedconstbuilder.emit_tai(p: tai; def: tdef); var arrdef: tdef; begin { inside an aggregate, an 80 bit floating point number must be emitted as an array of 10 bytes to prevent ABI alignment and padding to 16 bytes } if (def.typ=floatdef) and (tfloatdef(def).floattype=s80real) and assigned(curagginfo) then do_emit_extended_in_aggregate(p) else inherited; end; procedure tllvmtai_typedconstbuilder.do_emit_tai(p: tai; def: tdef); var ai: tai; stc: tai_abstracttypedconst; kind: ttypedconstkind; info: tllvmaggregateinformation; begin if queue_is_active then begin kind:=tck_simple; { finalise the queued expression } ai:=tai_simpletypedconst.create(kind,def,p); { set the new index to -1, so we internalerror should we try to add anything further } update_queued_tai(def,ai,ai,-1); { and emit it } stc:=tai_abstracttypedconst(fqueued_tai); def:=fqueued_def; { ensure we don't try to emit this one again } fqueued_tai:=nil; end else stc:=tai_simpletypedconst.create(tck_simple,def,p); info:=tllvmaggregateinformation(curagginfo); { these elements can be aggregates themselves, e.g. a shortstring can be emitted as a series of bytes and string data arrays } kind:=aggregate_kind(def); if (kind<>tck_simple) then begin if not assigned(info) or (info.aggai.adetyp<>kind) then internalerror(2014052906); end; if assigned(info) then begin { are we emitting data that does not match the equivalent data in the llvm structure? If so, record this so that we know we have to use a custom recorddef to emit this data } if not(info.anonrecord) and (info.def.typ<>procvardef) and (aggregate_kind(info.def)=tck_record) and not info.doesnotmatchllvmdef then begin if (info.llvmnextfieldindex>=tabstractrecordsymtable(tabstractrecorddef(info.def).symtable).llvmst.symdeflist.count) or not equal_defs(def,tabstractrecordsymtable(tabstractrecorddef(info.def).symtable).llvmst.entries_by_llvm_index[info.llvmnextfieldindex].def) then info.doesnotmatchllvmdef:=true else info.llvmnextfieldindex:=info.llvmnextfieldindex+1; end; info.aggai.addvalue(stc); end else inherited do_emit_tai(stc,def); end; procedure tllvmtai_typedconstbuilder.mark_anon_aggregate_alignment; var info: tllvmaggregateinformation; begin info:=tllvmaggregateinformation(curagginfo); info.anonrecalignpos:=info.aggai.valuecount; end; procedure tllvmtai_typedconstbuilder.insert_marked_aggregate_alignment(def: tdef); var info: tllvmaggregateinformation; fillbytes: asizeint; begin info:=tllvmaggregateinformation(curagginfo); if info.anonrecalignpos=-1 then internalerror(2014091501); fillbytes:=info.prepare_next_field(def); while fillbytes>0 do begin info.aggai.insertvaluebeforepos(tai_simpletypedconst.create(tck_simple,u8inttype,tai_const.create_8bit(0)),info.anonrecalignpos); dec(fillbytes); end; end; procedure tllvmtai_typedconstbuilder.maybe_emit_tail_padding(def: tdef); var info: tllvmaggregateinformation; constdata: tai_abstracttypedconst; newdef: trecorddef; begin { in case we let LLVM align, don't add padding ourselves } if df_llvm_no_struct_packing in def.defoptions then exit; inherited; { we can only check here whether the aggregate does not match our cononical llvm definition, as the tail padding may cause a mismatch (in case not all fields have been defined), and we can't do it inside end_aggregate_internal as its inherited method (which calls this method) frees curagginfo before it returns } info:=tllvmaggregateinformation(curagginfo); if info.doesnotmatchllvmdef then begin { create a new recorddef representing this mismatched def; this can even replace an array in case it contains e.g. variant records } case info.def.typ of arraydef: { in an array, all elements come right after each other -> replace with a packed record } newdef:=crecorddef.create_global_internal('',1,1,1); recorddef, objectdef: newdef:=crecorddef.create_global_internal('', tabstractrecordsymtable(tabstractrecorddef(info.def).symtable).recordalignment, tabstractrecordsymtable(tabstractrecorddef(info.def).symtable).recordalignmin, tabstractrecordsymtable(tabstractrecorddef(info.def).symtable).maxCrecordalign); else internalerror(2015122401); end; for constdata in tai_aggregatetypedconst(info.aggai) do newdef.add_field_by_def('',constdata.def); tai_aggregatetypedconst(info.aggai).changetorecord(newdef); mark_aggregate_hierarchy_llvmdef_mismatch(newdef); end; end; procedure tllvmtai_typedconstbuilder.emit_tai_procvar2procdef(p: tai; pvdef: tprocvardef); begin if not pvdef.is_addressonly then pvdef:=cprocvardef.getreusableprocaddr(pvdef); emit_tai(p,pvdef); end; procedure tllvmtai_typedconstbuilder.emit_string_offset(const ll: tasmlabofs; const strlength: longint; const st: tstringtype; const winlikewidestring: boolean; const charptrdef: tdef); var srsym : tsym; srsymtable: tsymtable; strrecdef : trecorddef; strdef: tdef; offset: pint; field: tfieldvarsym; dataptrdef: tdef; begin { nil pointer? } if not assigned(ll.lab) then begin if ll.ofs<>0 then internalerror(2015030701); inherited; exit; end; { if the returned offset is <> 0, then the string data starts at that offset -> translate to a field for the high level code generator } if ll.ofs<>0 then begin { get the recorddef for this string constant } if not searchsym_type(ctai_typedconstbuilder.get_dynstring_rec_name(st,winlikewidestring,strlength),srsym,srsymtable) then internalerror(2014080406); strrecdef:=trecorddef(ttypesym(srsym).typedef); { offset in the record of the the string data } offset:=ctai_typedconstbuilder.get_string_symofs(st,winlikewidestring); { field corresponding to this offset } field:=trecordsymtable(strrecdef.symtable).findfieldbyoffset(offset); { pointerdef to the string data array } dataptrdef:=cpointerdef.getreusable(field.vardef); { the fields of the resourcestring record are declared as ansistring } strdef:=get_dynstring_def_for_type(st,winlikewidestring); queue_init(strdef); queue_typeconvn(charptrdef,strdef); queue_subscriptn(strrecdef,field); queue_emit_asmsym(ll.lab,strrecdef); end else { since llvm doesn't support labels in the middle of structs, this offset should never be 0 } internalerror(2014080506); end; procedure tllvmtai_typedconstbuilder.begin_aggregate_internal(def: tdef; anonymous: boolean); var agg: tai_aggregatetypedconst; tck: ttypedconstkind; curagg: tllvmaggregateinformation; begin tck:=aggregate_kind(def); if tck<>tck_simple then begin { create new typed const aggregate } agg:=tai_aggregatetypedconst.create(tck,def); { either add to the current typed const aggregate (if nested), or emit to the asmlist (if top level) } curagg:=tllvmaggregateinformation(curagginfo); { create aggregate information for this new aggregate } inherited; { only add the new aggregate to the previous aggregate now, because the inherited call may have had to add padding bytes first } if assigned(curagg) then curagg.aggai.addvalue(agg) else fasmlist.concat(agg); { set new current typed const aggregate } tllvmaggregateinformation(curagginfo).aggai:=agg end else inherited; end; procedure tllvmtai_typedconstbuilder.end_aggregate_internal(def: tdef; anonymous: boolean); var info: tllvmaggregateinformation; was_aggregate: boolean; begin was_aggregate:=false; if aggregate_kind(def)<>tck_simple then begin was_aggregate:=true; info:=tllvmaggregateinformation(curagginfo); if not assigned(info) then internalerror(2014060101); info.aggai.finish; end; inherited; info:=tllvmaggregateinformation(curagginfo); if assigned(info) and was_aggregate and not info.doesnotmatchllvmdef then begin { are we emitting data that does not match the equivalent data in the llvm structure? If so, record this so that we know we have to use a custom recorddef to emit this data } if not info.anonrecord and (aggregate_kind(info.def)=tck_record) and ((info.llvmnextfieldindex>=tabstractrecordsymtable(tabstractrecorddef(info.def).symtable).llvmst.symdeflist.count) or not equal_defs(def,tabstractrecordsymtable(tabstractrecorddef(info.def).symtable).llvmst.entries_by_llvm_index[info.llvmnextfieldindex].def)) then info.doesnotmatchllvmdef:=true else info.llvmnextfieldindex:=info.llvmnextfieldindex+1; end; end; function tllvmtai_typedconstbuilder.get_internal_data_section_start_label: tasmlabel; begin { let llvm take care of everything by creating internal nameless constants } current_asmdata.getlocaldatalabel(result); end; function tllvmtai_typedconstbuilder.get_internal_data_section_internal_label: tasmlabel; begin current_asmdata.getlocaldatalabel(result); end; procedure tllvmtai_typedconstbuilder.do_emit_extended_in_aggregate(p: tai); type p80realval =^t80realval; t80realval = packed record case byte of 0: (v: ts80real); 1: (a: array[0..9] of byte); end; var arrdef: tdef; i: longint; realval: p80realval; begin { emit as an array of 10 bytes } arrdef:=carraydef.getreusable(u8inttype,10); maybe_begin_aggregate(arrdef); if (p.typ<>ait_realconst) then internalerror(2015062401); realval:=p80realval(@tai_realconst(p).value.s80val); if target_info.endian=source_info.endian then for i:=0 to 9 do emit_tai(tai_const.Create_8bit(realval^.a[i]),u8inttype) else for i:=9 downto 0 do emit_tai(tai_const.Create_8bit(realval^.a[i]),u8inttype); maybe_end_aggregate(arrdef); { free the original constant, since we didn't emit it } p.free; end; procedure tllvmtai_typedconstbuilder.mark_aggregate_hierarchy_llvmdef_mismatch(new_current_level_def: trecorddef); var aggregate_level, i: longint; info: tllvmaggregateinformation; begin if assigned(faggregateinformation) then begin aggregate_level:=faggregateinformation.count; { the top element, at aggregate_level-1, is already marked, since that's why we are marking the rest } for i:=aggregate_level-2 downto 0 do begin info:=tllvmaggregateinformation(faggregateinformation[i]); if info.doesnotmatchllvmdef then break; info.doesnotmatchllvmdef:=true; end; if aggregate_level=1 then foverriding_def:=new_current_level_def; end; end; procedure tllvmtai_typedconstbuilder.queue_init(todef: tdef); begin inherited; fqueued_tai:=nil; flast_added_tai:=nil; fqueued_tai_opidx:=-1; end; procedure tllvmtai_typedconstbuilder.queue_vecn(def: tdef; const index: tconstexprint); var ai: taillvm; aityped: tai; eledef: tdef; vecindex: asizeint; begin { update range checking info } inherited; vecindex:=index.svalue; if def.typ=arraydef then dec(vecindex,tarraydef(def).lowrange); ai:=taillvm.getelementptr_reg_tai_size_const(NR_NO,nil,ptrsinttype,vecindex,true); case def.typ of arraydef: eledef:=tarraydef(def).elementdef; stringdef: case tstringdef(def).stringtype of st_shortstring, st_longstring, st_ansistring: eledef:=cansichartype; st_widestring, st_unicodestring: eledef:=cwidechartype; else internalerror(2014062202); end; else internalerror(2014062203); end; aityped:=wrap_with_type(ai,cpointerdef.getreusable(eledef)); update_queued_tai(cpointerdef.getreusable(eledef),aityped,ai,1); end; procedure tllvmtai_typedconstbuilder.queue_subscriptn(def: tabstractrecorddef; vs: tfieldvarsym); var getllvmfieldaddr, getpascalfieldaddr, getllvmfieldaddrtyped: tai; llvmfielddef: tdef; begin { update range checking info } inherited; llvmfielddef:=tabstractrecordsymtable(def.symtable).llvmst[vs].def; { get the address of the llvm-struct field that corresponds to this Pascal field } getllvmfieldaddr:=taillvm.getelementptr_reg_tai_size_const(NR_NO,nil,s32inttype,vs.llvmfieldnr,true); { getelementptr doesn't contain its own resultdef, so encode it via a tai_simpletypedconst tai } getllvmfieldaddrtyped:=wrap_with_type(getllvmfieldaddr,cpointerdef.getreusable(llvmfielddef)); { if it doesn't match the requested field exactly (variant record), fixup the result } getpascalfieldaddr:=getllvmfieldaddrtyped; if (vs.offsetfromllvmfield<>0) or (llvmfielddef<>vs.vardef) then begin { offset of real field relative to llvm-struct field <> 0? } if vs.offsetfromllvmfield<>0 then begin { convert to a pointer to a 1-sized element } if llvmfielddef.size<>1 then begin getpascalfieldaddr:=taillvm.op_reg_tai_size(la_bitcast,NR_NO,getpascalfieldaddr,u8inttype); { update the current fielddef of the expression } llvmfielddef:=u8inttype; end; { add the offset } getpascalfieldaddr:=taillvm.getelementptr_reg_tai_size_const(NR_NO,getpascalfieldaddr,ptrsinttype,vs.offsetfromllvmfield,true); { ... and set the result type of the getelementptr } getpascalfieldaddr:=wrap_with_type(getpascalfieldaddr,cpointerdef.getreusable(u8inttype)); llvmfielddef:=u8inttype; end; { bitcast the data at the final offset to the right type } if llvmfielddef<>vs.vardef then getpascalfieldaddr:=wrap_with_type(taillvm.op_reg_tai_size(la_bitcast,NR_NO,getpascalfieldaddr,cpointerdef.getreusable(vs.vardef)),cpointerdef.getreusable(vs.vardef)); end; update_queued_tai(cpointerdef.getreusable(vs.vardef),getpascalfieldaddr,getllvmfieldaddr,1); end; procedure tllvmtai_typedconstbuilder.queue_typeconvn(fromdef, todef: tdef); var ai: taillvm; typedai: tai; tmpintdef: tdef; op, firstop, secondop: tllvmop; begin inherited; { special case: procdef -> procvardef/pointerdef: must take address of the procdef } if (fromdef.typ=procdef) and (todef.typ<>procdef) then fromdef:=cprocvardef.getreusableprocaddr(tprocdef(fromdef)); { typecasting a pointer-sized entity to a complex procvardef -> convert to the pointer-component of the complex procvardef (not always, because e.g. a tmethod to complex procvar initialises the entire complex procvar) } if (todef.typ=procvardef) and not tprocvardef(todef).is_addressonly and (fromdef.size0 then internalerror(2015030702); if not is_ordinal(def) then begin { insert an ordinal -> non-ordinal (e.g. pointer) conversion, as you cannot have integer constants as pointer values in LLVM } int_to_type(value,valuedef); queue_typeconvn(valuedef,def); { and now emit the constant as an ordinal } def:=valuedef; end; inherited; end; class function tllvmtai_typedconstbuilder.get_vectorized_dead_strip_custom_section_name(const basename: TSymStr; st: tsymtable; out secname: TSymStr): boolean; begin result:=inherited; if result then exit; { put all of the resource strings in a single section: it doesn't hurt, and this avoids problems with Darwin/mach-o's limitation of 255 sections } secname:=basename; { Darwin requires specifying a segment name too } if target_info.system in systems_darwin then secname:='__DATA,'+secname; result:=true; end; function tllvmtai_typedconstbuilder.emit_placeholder(def: tdef): ttypedconstplaceholder; var pos: longint; begin check_add_placeholder(def); { we can't support extended constants, because those are transformed into an array of bytes, so we can't easily replace them afterwards } if (def.typ=floatdef) and (tfloatdef(def).floattype=s80real) then internalerror(2015091003); pos:=tllvmaggregateinformation(curagginfo).aggai.valuecount; emit_tai(tai_marker.Create(mark_position),def); result:=tllvmtypedconstplaceholder.create(tllvmaggregateinformation(curagginfo),pos,def); end; class function tllvmtai_typedconstbuilder.get_string_symofs(typ: tstringtype; winlikewidestring: boolean): pint; begin { LLVM does not support labels in the middle of a declaration } result:=get_string_header_size(typ,winlikewidestring); end; begin ctai_typedconstbuilder:=tllvmtai_typedconstbuilder; end.