{ This file is part of the Free Pascal run time library. Copyright (c) 1999-2000 by Michael Van Canneyt member of the Free Pascal development team See the file COPYING.FPC, included in this distribution, for details about the copyright. 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. **********************************************************************} { Run-Time type information routines } function RTTIRecordInfoInit(typeInfo: Pointer): PRecordInfoInit; inline; begin { find init table and management operators } result:=aligntoqword(typeInfo+2+PByte(typeInfo)[1]); { check terminator, maybe we are already in init table } if Assigned(result^.Terminator) then begin { point to more optimal initrtti } result:=PRecordInfoFull(result)^.InitTable; { and point to management operators in our init table } result:=aligntoqword(pointer(result)+2+PByte(result)[1]); end end; { result = manBuiltin means e.g. that initialization is simply zeroing and can be omitted if the memory is already zeroed, as in dynarr.inc. } function RTTIManagementAndSize(typeInfo: Pointer; op: TRTTIRecOpType; out size: SizeInt; maxInteresting: TRTTIManagement): TRTTIManagement; const Special = 49; ManagedSizes: array[TTypeKind] of uint8 = { 0 — unmanaged, Special — special, otherwise manBuiltin of that size. } ( {tkUnknown} 0, {tkInteger} 0, {tkChar} 0, {tkEnumeration} 0, {tkFloat} 0, {tkSet} 0, {tkMethod} 0, {tkSString} 0, {tkLString} 0, {tkAString} sizeof(pointer), {tkWString} sizeof(pointer), {tkVariant} {$ifdef FPC_HAS_FEATURE_VARIANTS} sizeof(TVarData) {$else} 0 {$endif}, {tkArray} Special, {tkRecord} Special, {tkInterface} sizeof(pointer), {tkClass} 0, {tkObject} Special, {tkWChar} 0, {tkBool} 0, {tkInt64} 0, {tkQWord} 0, {tkDynArray} sizeof(pointer), {tkInterfaceRaw} 0, {tkProcVar} 0, {tkUString} sizeof(pointer), {tkUChar} 0, {tkHelper} 0, {tkFile} 0, {tkClassRef} 0, {tkPointer} 0 ); var ri: PRecordInfoInit; elem: PRecordElement; newMan: TRTTIManagement; elemCount,sample,_size: SizeInt; begin sample:=ManagedSizes[PTypeKind(typeinfo)^]; size:=sample; if sample<>Special then result:=TRTTIManagement(ord(sample<>0)) { manNone(0) if sample = 0, manBuiltin(1) otherwise. } else if PTypeKind(typeinfo)^=tkArray then begin typeInfo:=aligntoqword(typeInfo+2+PByte(typeInfo)[1]); size:=PArrayInfo(typeInfo)^.Size; result:=RTTIManagementAndSize(PArrayInfo(typeInfo)^.ElInfo^, op, _size, maxInteresting); end else {tkObject, tkRecord} begin ri:=RTTIRecordInfoInit(typeInfo); size:=ri^.Size; if Assigned(ri^.RecordOp) and Assigned(ri^.RecordOp^.Ops[op]) then exit(manCustom); result:=manNone; elem:=AlignTypeData(Pointer(@ri^.Count)+SizeOf(ri^.Count)); for elemCount:=ri^.Count downto 1 do begin sample:=ManagedSizes[PTypeKind(elem^.TypeInfo^)^]; if sample<>Special then newMan:=TRTTIManagement(ord(sample<>0)) { Avoid recursive call for simple fields. } else newMan:=RTTIManagementAndSize(elem^.TypeInfo^, op, _size, maxInteresting); if newMan>result then begin result:=newMan; if newMan>=maxInteresting then break; end; inc(elem); end; end; end; { if you modify this procedure, fpc_copy must be probably modified as well } procedure RecordRTTI(Data:Pointer;Ri:PRecordInfoInit;rttiproc:TRTTIProc); var i : longint; Re : PRecordElement; begin { Get element info, hacky, but what else can we do? } Re:=AlignTypeData(Pointer(@Ri^.Count)+SizeOf(Ri^.Count)); { Process elements } for i:=Ri^.Count downto 1 Do begin rttiproc(Data+Re^.Offset,Re^.TypeInfo^); Inc(Re); end; end; function RTTIRecordMopInitTable(ti: Pointer): PRTTIRecordOpOffsetTable; begin ti:=aligntoqword(ti+2+PByte(ti)[1]); Result:=PRecordInfoInit(ti)^.InitRecordOpTable; end; { if you modify this procedure, fpc_copy must be probably modified as well } procedure ArrayRTTI(Data,TypeInfo:Pointer;rttiproc:TRTTIProc); var i,Count,ElSize: SizeInt; Info: Pointer; begin typeInfo:=aligntoqword(typeInfo+2+PByte(typeInfo)[1]); Count:=PArrayInfo(typeInfo)^.ElCount; { no elements to process => exit } if Count = 0 then Exit; ElSize:=PArrayInfo(typeInfo)^.Size div Count; Info:=PArrayInfo(typeInfo)^.ElInfo^; { Process elements } for I:=0 to Count-1 do rttiproc(Data+(I*ElSize),Info); end; Procedure fpc_Initialize (Data,TypeInfo : pointer);[Public,Alias : 'FPC_INITIALIZE']; compilerproc; var ri: PRecordInfoInit; begin case PTypeKind(TypeInfo)^ of {$ifdef FPC_HAS_FEATURE_DYNARRAYS} tkDynArray, {$endif FPC_HAS_FEATURE_DYNARRAYS} {$ifdef FPC_HAS_FEATURE_ANSISTRINGS} tkAstring, {$endif FPC_HAS_FEATURE_ANSISTRINGS} {$ifdef FPC_HAS_FEATURE_WIDESTRINGS} tkWstring,tkUString, {$endif FPC_HAS_FEATURE_WIDESTRINGS} tkInterface: PPAnsiChar(Data)^:=Nil; tkArray: arrayrtti(data,typeinfo,@int_initialize); {$ifdef FPC_HAS_FEATURE_OBJECTS} tkObject, {$endif FPC_HAS_FEATURE_OBJECTS} tkRecord: begin ri:=RTTIRecordInfoInit(typeinfo); recordrtti(data,ri,@int_initialize); if Assigned(ri^.recordop) and Assigned(ri^.recordop^.Initialize) then ri^.recordop^.Initialize(data); end; {$ifdef FPC_HAS_FEATURE_VARIANTS} tkVariant: variant_init(PVarData(Data)^); {$endif FPC_HAS_FEATURE_VARIANTS} end; end; Procedure fpc_finalize (Data,TypeInfo: Pointer);[Public,Alias : 'FPC_FINALIZE']; compilerproc; var ri: PRecordInfoInit; begin case PTypeKind(TypeInfo)^ of {$ifdef FPC_HAS_FEATURE_ANSISTRINGS} tkAstring : fpc_AnsiStr_Decr_Ref(PPointer(Data)^); {$endif FPC_HAS_FEATURE_ANSISTRINGS} {$ifdef FPC_HAS_FEATURE_WIDESTRINGS} tkUstring : fpc_UnicodeStr_Decr_Ref(PPointer(Data)^); {$ifndef FPC_WIDESTRING_EQUAL_UNICODESTRING} tkWstring : fpc_WideStr_Decr_Ref(PPointer(Data)^); {$endif FPC_WIDESTRING_EQUAL_UNICODESTRING} {$endif FPC_HAS_FEATURE_WIDESTRINGS} tkArray : arrayrtti(data,typeinfo,@int_finalize); {$ifdef FPC_HAS_FEATURE_OBJECTS} tkObject, {$endif FPC_HAS_FEATURE_OBJECTS} tkRecord: begin ri:=RTTIRecordInfoInit(typeinfo); if Assigned(ri^.recordop) and Assigned(ri^.recordop^.Finalize) then ri^.recordop^.Finalize(data); recordrtti(data,ri,@int_finalize); end; {$ifdef FPC_HAS_FEATURE_CLASSES} tkInterface: Intf_Decr_Ref(PPointer(Data)^); {$endif FPC_HAS_FEATURE_CLASSES} {$ifdef FPC_HAS_FEATURE_DYNARRAYS} tkDynArray: fpc_dynarray_clear(PPointer(Data)^,TypeInfo); {$endif FPC_HAS_FEATURE_DYNARRAYS} {$ifdef FPC_HAS_FEATURE_VARIANTS} tkVariant: variant_clear(PVarData(Data)^); {$endif FPC_HAS_FEATURE_VARIANTS} end; end; Procedure fpc_Addref (Data,TypeInfo : Pointer); [Public,alias : 'FPC_ADDREF']; compilerproc; var ri: PRecordInfoInit; begin case PTypeKind(TypeInfo)^ of {$ifdef FPC_HAS_FEATURE_ANSISTRINGS} tkAstring : fpc_AnsiStr_Incr_Ref(PPointer(Data)^); {$endif FPC_HAS_FEATURE_ANSISTRINGS} {$ifdef FPC_HAS_FEATURE_WIDESTRINGS} {$ifndef FPC_WIDESTRING_EQUAL_UNICODESTRING} tkWstring : fpc_WideStr_Incr_Ref(PPointer(Data)^); {$endif FPC_WIDESTRING_EQUAL_UNICODESTRING} tkUstring : fpc_UnicodeStr_Incr_Ref(PPointer(Data)^); {$endif FPC_HAS_FEATURE_WIDESTRINGS} tkArray : arrayrtti(data,typeinfo,@int_addref); {$ifdef FPC_HAS_FEATURE_OBJECTS} tkobject, {$endif FPC_HAS_FEATURE_OBJECTS} tkrecord : begin ri:=RTTIRecordInfoInit(typeinfo); recordrtti(data,ri,@int_addref); if Assigned(ri^.recordop) and Assigned(ri^.recordop^.AddRef) then ri^.recordop^.AddRef(Data); end; {$ifdef FPC_HAS_FEATURE_DYNARRAYS} tkDynArray: fpc_dynarray_incr_ref(PPointer(Data)^); {$endif FPC_HAS_FEATURE_DYNARRAYS} {$ifdef FPC_HAS_FEATURE_CLASSES} tkInterface: Intf_Incr_Ref(PPointer(Data)^); {$endif FPC_HAS_FEATURE_CLASSES} {$ifdef FPC_HAS_FEATURE_VARIANTS} tkVariant: variant_addref(pvardata(Data)^); {$endif FPC_HAS_FEATURE_DYNARRAYS} end; end; { define alias for internal use in the system unit } Function fpc_Copy_internal (Src, Dest, TypeInfo : Pointer) : SizeInt;[external name 'FPC_COPY']; Function fpc_Copy (Src, Dest, TypeInfo : Pointer) : SizeInt;[Public,alias : 'FPC_COPY']; compilerproc; var copiedsize, expectedoffset, EleCount, offset, i: SizeInt; Temp, info: pointer; begin result:=sizeof(pointer); case PTypeKind(TypeInfo)^ of {$ifdef FPC_HAS_FEATURE_ANSISTRINGS} tkAstring: fpc_AnsiStr_Assign(PPointer(Dest)^,PPointer(Src)^); {$endif FPC_HAS_FEATURE_ANSISTRINGS} {$ifdef FPC_HAS_FEATURE_WIDESTRINGS} {$ifndef FPC_WIDESTRING_EQUAL_UNICODESTRING} tkWstring: fpc_WideStr_Assign(PPointer(Dest)^,PPointer(Src)^); {$endif FPC_WIDESTRING_EQUAL_UNICODESTRING} tkUstring: fpc_UnicodeStr_Assign(PPointer(Dest)^,PPointer(Src)^); {$endif FPC_HAS_FEATURE_WIDESTRINGS} tkArray: begin Temp:=aligntoqword(typeInfo+2+PByte(typeInfo)[1]); Result:=PArrayInfo(Temp)^.Size; EleCount:=PArrayInfo(Temp)^.ElCount; { no elements to process => exit } if EleCount = 0 then Exit; Info:=PArrayInfo(Temp)^.ElInfo^; copiedsize:=Result div EleCount; Offset:=0; { Process elements } for I:=1 to EleCount do begin fpc_Copy_internal(Src+Offset,Dest+Offset,Info); inc(Offset,copiedsize); end; end; {$ifdef FPC_HAS_FEATURE_OBJECTS} tkobject, {$endif FPC_HAS_FEATURE_OBJECTS} tkrecord: begin Temp:=RTTIRecordInfoInit(typeinfo); Result:=PRecordInfoInit(Temp)^.Size; if Assigned(PRecordInfoInit(Temp)^.recordop) and Assigned(PRecordInfoInit(Temp)^.recordop^.Copy) then PRecordInfoInit(Temp)^.recordop^.Copy(Src,Dest) else begin EleCount:=PRecordInfoInit(Temp)^.Count; { Get element info, hacky, but what else can we do? } Temp:=AlignTypeData(Pointer(@PRecordInfoInit(Temp)^.Count)+SizeOf(PRecordInfoInit(Temp)^.Count)); expectedoffset:=0; { Process elements with rtti } for i:=1 to EleCount Do begin Offset:=PRecordElement(Temp)^.Offset; if Offset>expectedoffset then move((Src+expectedoffset)^,(Dest+expectedoffset)^,Offset-expectedoffset); expectedoffset:=Offset+fpc_Copy_internal(Src+Offset,Dest+Offset,PRecordElement(Temp)^.TypeInfo^); Inc(PRecordElement(Temp)); end; { elements remaining? } if result>expectedoffset then move((Src+expectedoffset)^,(Dest+expectedoffset)^,Result-expectedoffset); end; end; {$ifdef FPC_HAS_FEATURE_DYNARRAYS} tkDynArray: fpc_dynarray_assign(PPointer(Dest)^,PPointer(Src)^,typeinfo); {$endif FPC_HAS_FEATURE_DYNARRAYS} {$ifdef FPC_HAS_FEATURE_CLASSES} tkInterface: fpc_intf_assign(PPointer(Dest)^,PPointer(Src)^); {$endif FPC_HAS_FEATURE_CLASSES} {$ifdef FPC_HAS_FEATURE_VARIANTS} tkVariant: begin VarCopyProc(pvardata(dest)^,pvardata(src)^); result:=sizeof(tvardata); end; {$endif FPC_HAS_FEATURE_VARIANTS} end; end; { For internal use by the compiler, because otherwise $x- can cause trouble. } { Generally disabling extended syntax checking for all compilerprocs may } { have unintended side-effects } procedure fpc_Copy_proc (Src, Dest, TypeInfo : Pointer);compilerproc; inline; begin fpc_copy_internal(src,dest,typeinfo); end; procedure fpc_initialize_array(data,typeinfo : pointer;count : SizeInt); [public,alias:'FPC_INITIALIZE_ARRAY']; compilerproc; var i, size : SizeInt; begin if RTTIManagementAndSize(typeinfo, rotInitialize, size, manBuiltin)<>manNone then for i:=0 to count-1 do int_initialize(data+size*i,typeinfo); end; procedure fpc_finalize_array(data,typeinfo : pointer;count : SizeInt); [Public,Alias:'FPC_FINALIZE_ARRAY']; compilerproc; var i, size : SizeInt; begin if RTTIManagementAndSize(typeinfo, rotFinalize, size, manBuiltin)<>manNone then for i:=0 to count-1 do int_finalize(data+size*i,typeinfo); end; procedure fpc_addref_array(data,typeinfo: pointer; count: SizeInt); [public,alias:'FPC_ADDREF_ARRAY']; compilerproc; var i, size : SizeInt; begin if RTTIManagementAndSize(typeinfo, rotAddRef, size, manBuiltin)<>manNone then for i:=0 to count-1 do int_addref(data+size*i,typeinfo); end; { The following two procedures are now obsolete, needed only for bootstrapping } procedure fpc_decref (Data, TypeInfo : Pointer);[Public,alias : 'FPC_DECREF']; compilerproc; begin int_finalize(Data,TypeInfo); end; procedure fpc_decref_array(data,typeinfo: pointer; count: SizeInt); [public,alias:'FPC_DECREF_ARRAY']; compilerproc; begin int_finalizeArray(data,typeinfo,count); end; procedure InitializeArray(p, typeInfo: Pointer; count: SizeInt); external name 'FPC_INITIALIZE_ARRAY'; procedure FinalizeArray(p, typeInfo: Pointer; count: SizeInt); external name 'FPC_FINALIZE_ARRAY'; procedure CopyArray(dest, source, typeInfo: Pointer; count: SizeInt); var i, size: SizeInt; begin if RTTIManagementAndSize(typeinfo, rotCopy, size, manBuiltin)<>manNone then for i:=0 to count-1 do fpc_Copy_internal(source+size*i, dest+size*i, typeInfo); end;