{ $Id$ This file is part of the Free Pascal run time library. Copyright (c) 1999-2000 by xxxx 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 - processor dependent part } {$ifndef FPC_SYSTEM_HAS_FPC_INITIALIZE} Procedure fpc_Initialize (Data,TypeInfo : pointer);saveregisters;[Public,Alias : 'FPC_INITIALIZE']; {$ifdef hascompilerproc} compilerproc; {$endif} { this definition is sometimes (depending on switches) already defined or not so define it locally to avoid problems PM } Type Pbyte = ^Byte; Var Temp : PByte; I : longint; Size,Count : longint; TInfo : Pointer; begin Temp:=PByte(TypeInfo); case temp^ of tkAstring,tkWstring,tkInterface,tkDynArray: PPchar(Data)^:=Nil; tkArray: begin inc(temp); I:=temp^; inc(temp,(I+1)); // skip name string; Size:=PArrayRec(Temp)^.Size; // get element size Count:=PArrayRec(Temp)^.Count; // get element Count TInfo:=PArrayRec(Temp)^.Info; // Get element info For I:=0 to Count-1 do int_Initialize (Data+(I*size),TInfo); end; tkRecord,tkClass,tkObject: begin inc(Temp); I:=Temp^; inc(temp,I+1); // skip name string; { if it isn't necessary, why should we load it ? FK Size:=PRecRec(Temp)^.Size; // get record size; not needed. } Count:=PRecRec(Temp)^.Count; // get element Count For I:=1 to count Do With PRecRec(Temp)^.elements[I] do int_Initialize (Data+Offset,Info); end; {$ifdef HASVARIANT} tkVariant: variant_init(Variant(PVarData(Data)^)) {$endif HASVARIANT} end; end; {$endif} {$ifndef FPC_SYSTEM_HAS_FPC_FINALIZE} Procedure fpc_Finalize (Data,TypeInfo: Pointer);saveregisters;[Public,Alias : 'FPC_FINALIZE']; {$ifdef hascompilerproc} compilerproc; {$endif} { this definition is sometimes (depending on switches) already defined or not so define it locally to avoid problems PM } Type Pbyte = ^Byte; PPointer = ^Pointer; Var Temp : PByte; I : longint; Size,Count : longint; TInfo : Pointer; begin Temp:=PByte(TypeInfo); case temp^ of tkAstring,tkWstring: fpc_AnsiStr_Decr_Ref(PPointer(Data)^); tkArray : begin inc(Temp); I:=temp^; inc(temp,I+1); // skip name string; Size:=PArrayRec(Temp)^.Size; // get element size Count:=PArrayRec(Temp)^.Count; // get element Count TInfo:=PArrayRec(Temp)^.Info; // Get element info For I:=0 to Count-1 do int_Finalize (Data+(I*size),TInfo); end; tkRecord,tkObject,tkClass: begin inc(Temp); I:=Temp^; inc(temp,I+1); // skip name string; { if it isn't necessary, why should we load it? FK Size:=PRecRec(Temp)^.Size; // get record size; not needed. } Count:=PRecRec(Temp)^.Count; // get element Count For I:=1 to count do With PRecRec(Temp)^.elements[I] do int_Finalize (Data+Offset,Info); end; {$ifdef HASINTF} tkInterface: Intf_Decr_Ref(PPointer(Data)^); {$endif HASINTF} tkDynArray: fpc_dynarray_decr_ref(PPointer(Data)^,TypeInfo); {$ifdef HASVARIANT} tkVariant: variant_clear(Variant(PVarData(Data)^)) {$endif HASVARIANT} end; end; {$endif} {$ifndef FPC_SYSTEM_HAS_FPC_ADDREF} Procedure fpc_Addref (Data,TypeInfo : Pointer);saveregisters; [Public,alias : 'FPC_ADDREF']; {$ifdef hascompilerproc} compilerproc; {$endif} { this definition is sometimes (depending on switches) already defined or not so define it locally to avoid problems PM } Type Pbyte = ^Byte; PPointer = ^Pointer; Var Temp : PByte; I : longint; Size,Count : longint; TInfo : Pointer; begin Temp:=PByte(TypeInfo); case temp^ of { In case of an ansistring, data is pushed as a var parameter. } { This means that if you look at data as a value parameter, it } { containst the address of the ansistring. AnsiStr_Incr_Ref also } { expects a var parameter, so to pass the address of the } { ansistring and not that of the data parameter on the stack, } { you have to dereference data (JM) } tkAstring,tkWstring : fpc_AnsiStr_Incr_Ref(PPointer(Data)^); tkArray : begin Temp:=Temp+1; I:=temp^; temp:=temp+(I+1); // skip name string; Size:=PArrayRec(Temp)^.Size; // get element size Count:=PArrayRec(Temp)^.Count; // get element Count TInfo:=PArrayRec(Temp)^.Info; // Get element info For I:=0 to Count-1 do int_AddRef (Data+(I*size),TInfo); end; tkrecord : begin Temp:=Temp+1; I:=Temp^; temp:=temp+(I+1); // skip name string; Size:=PRecRec(Temp)^.Size; // get record size; not needed. Count:=PRecRec(Temp)^.Count; // get element Count For I:=1 to count do With PRecRec(Temp)^.elements[I] do int_AddRef (Data+Offset,Info); end; tkDynArray: fpc_dynarray_incr_ref(PPointer(Data)^,TypeInfo); {$ifdef HASINTF} tkInterface: Intf_Incr_Ref(PPointer(Data)^); {$endif HASINTF} end; end; {$endif} {$ifndef FPC_SYSTEM_HAS_FPC_DECREF} Procedure fpc_DecRef (Data, TypeInfo : Pointer);saveregisters;[Public,alias : 'FPC_DECREF']; {$ifdef hascompilerproc} compilerproc; {$endif} { this definition is sometimes (depending on switches) already defined or not so define it locally to avoid problems PM } Type Pbyte = ^Byte; PPointer = ^Pointer; Var Temp : PByte; I : longint; Size,Count : longint; TInfo : Pointer; begin Temp:=PByte(TypeInfo); case temp^ of { see AddRef for comment about below construct (JM) } tkAstring,tkWstring: fpc_AnsiStr_Decr_Ref(PPointer(Data)^); tkArray: begin inc(Temp); I:=temp^; inc(temp,I+1); // skip name string; Size:=PArrayRec(Temp)^.Size; // get element size Count:=PArrayRec(Temp)^.Count; // get element Count TInfo:=PArrayRec(Temp)^.Info; // Get element info For I:=0 to Count-1 do fpc_DecRef (Data+(I*size),TInfo); end; tkrecord: begin Temp:=Temp+1; I:=Temp^; temp:=temp+(I+1); // skip name string; Size:=PRecRec(Temp)^.Size; // get record size; not needed. Count:=PRecRec(Temp)^.Count; // get element Count For I:=1 to count do With PRecRec(Temp)^.elements[I] do fpc_DecRef (Data+Offset,Info); end; tkDynArray: fpc_dynarray_decr_ref(PPointer(Data)^,TypeInfo); {$ifdef HASINTF} tkInterface: Intf_Decr_Ref(PPointer(Data)^); {$endif HASINTF} end; end; {$endif} {$ifndef FPC_SYSTEM_HAS_FPC_FINALIZEARRAY} procedure fpc_FinalizeArray(data,typeinfo : pointer;count,size : longint); [Public,Alias:'FPC_FINALIZEARRAY']; {$ifdef hascompilerproc} compilerproc; {$endif} var i : longint; begin for i:=0 to count-1 do int_finalize(data+size*i,typeinfo); end; {$endif} { $Log$ Revision 1.10 2001-11-30 16:25:35 jonas * fixed web bug 1707: * tvarsym.getvaluesize doesn't return 0 anymore for dynarrays (found by Florian) * in genrtti, some more ppointer(data)^ tricks were necessary Revision 1.9 2001/11/22 07:33:08 michael * Fixed memory corruption with finalize() of ansistring in a class Revision 1.8 2001/11/17 16:56:08 florian * init and final code in genrtti.inc updated Revision 1.7 2001/11/17 10:29:48 florian * make cycle for win32 fixed Revision 1.6 2001/11/14 22:59:11 michael + Initial variant support Revision 1.5 2001/08/01 15:00:10 jonas + "compproc" helpers * renamed several helpers so that their name is the same as their "public alias", which should facilitate the conversion of processor specific code in the code generator to processor independent code * some small fixes to the val_ansistring and val_widestring helpers (always immediately exit if the source string is longer than 255 chars) * fixed fpc_dynarray_high and fpc_dynarray_length if the dynarray is still nil (used to crash, now return resp -1 and 0) Revision 1.4 2001/06/28 19:18:57 peter * ansistr fix merged Revision 1.3 2001/05/28 20:43:17 peter * more saveregisters added (merged) Revision 1.2 2001/04/23 18:25:44 peter * m68k updates }