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{
This file is part of the Free Pascal run time library.
Copyright (c) 1999-2001 by the Free Pascal development team
Variant routines for non-windows oses.
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.
**********************************************************************}
{ ---------------------------------------------------------------------
Some general stuff: Error handling and so on.
---------------------------------------------------------------------}
{ we do ugly things with tvararray here }
{$PUSH}
{$RANGECHECKS OFF}
Procedure SetUnlockResult (P : PVarArray; Res : HResult);
begin
If Res=VAR_OK then
Res:=SafeArrayUnlock(P)
else
SafeArrayUnlock(P);
end;
Procedure MakeWideString (Var P : PWideChar; W : WideString);
begin
P:=PWideChar(W);
end;
Procedure CopyAsWideString (Var PDest : PWideChar; PSource : PWideChar);
begin
WideString(Pointer(PDest)):=WideString(Pointer(PSource));
end;
{ ---------------------------------------------------------------------
Basic variant handling.
---------------------------------------------------------------------}
procedure VariantInit(var Varg: TVarData); stdcall;
begin
With Varg do
begin
FillChar(VBytes, SizeOf(VBytes), 0);
VType:=varEmpty;
end;
end;
function VariantClear(var Varg: TVarData): HRESULT;stdcall;
begin
With Varg do
if (VType and varArray)=varArray then
begin
Result:=SafeArrayDestroy(VArray);
if Result<>VAR_OK then
exit;
end
else
begin
if (VType and varByRef) = 0 then
case VType of
varEmpty, varNull, varSmallint, varInteger, varWord,
{$ifndef FPUNONE}
varSingle, varDouble, varCurrency, varDate,
{$endif}
varError, varBoolean, varByte,VarShortInt,
varInt64, VarLongWord,VarQWord:
;
varOleStr:
WideString(Pointer(VOleStr)):='';
varDispatch,
varUnknown:
iinterface(vunknown):=nil;
else
exit(VAR_BADVARTYPE)
end;
end;
VariantInit(Varg);
Result:=VAR_OK;
end;
function VariantCopy(var VargDest: TVarData; const VargSrc: TVarData): HRESULT;stdcall;
begin
if @VargSrc = @VargDest then
Exit(VAR_OK);
Result:=VariantClear(VargDest);
if Result<>VAR_OK then
exit;
With VargSrc do
begin
if (VType and varArray) <> 0 then
Result:=SafeArrayCopy(VArray,VargDest.VArray)
else
begin
if (VType and varByRef) <> 0 then
VArgDest.VPointer:=VPointer
else
case (VType and varTypeMask) of
varEmpty, varNull:;
varSmallint, varInteger, varWord,
{$ifndef FPUNONE}
varSingle, varDouble, varCurrency, varDate,
{$endif}
varError, varBoolean, varByte,VarShortInt,
varInt64, VarLongWord,VarQWord:
Move(VBytes, VargDest.VBytes, SizeOf(VargDest.VBytes));
varOleStr:
CopyAsWideString(VargDest.VOleStr,VOleStr);
varDispatch:
IUnknown(VargDest.vdispatch):=IUnknown(VargSrc.vdispatch);
varUnknown:
IUnknown(VargDest.vunknown):=IUnknown(VargSrc.vunknown);
else
Exit(VAR_BADVARTYPE);
end;
end;
VargDest.VType:=VType;
end;
end;
function VariantCopyInd(var VargDest: TVarData; const VargSrc: TVarData): HRESULT;stdcall;
begin
if (VargSrc.VType and varByRef) = 0 then
Exit(VariantCopy(VargDest, VargSrc));
With VargSrc do
begin
if (VType and varArray) <> 0 then
Exit(VAR_INVALIDARG);
case (VType and varTypeMask) of
varEmpty, varNull:;
varSmallint : VargDest.VSmallInt:=PSmallInt(VPointer)^;
varInteger : VargDest.VInteger:=PLongint(VPointer)^;
{$ifndef FPUNONE}
varSingle : VargDest.VSingle:=PSingle(VPointer)^;
varDouble : VargDest.VDouble:=PDouble(VPointer)^;
varCurrency : VargDest.VCurrency:=PCurrency(VPointer)^;
varDate : VargDest.VDate:=PDate(VPointer)^;
{$endif}
varBoolean : VargDest.VBoolean:=PWordBool(VPointer)^;
varError : VargDest.VError:=PError(VPointer)^;
varByte : VargDest.VByte:=PByte(VPointer)^;
varWord : VargDest.VWord:=PWord(VPointer)^;
VarShortInt : VargDest.VShortInt:=PShortInt(VPointer)^;
VarInt64 : VargDest.VInt64:=PInt64(VPointer)^;
VarLongWord : VargDest.VLongWord:=PCardinal(VPointer)^;
VarQWord : VargDest.VQWord:=PQWord(VPointer)^;
varVariant : Variant(VargDest):=Variant(PVarData(VPointer)^);
varOleStr : CopyAsWideString(VargDest.VOleStr,PVarData(VPointer)^.VoleStr);
varDispatch,
varUnknown : IInterface(VargDest.vUnknown):=IInterface(PInterface(VargSrc.VPointer)^);
else
Exit(VAR_BADVARTYPE);
end;
VargDest.VType:=VType and VarTypeMask;
end;
Result:=VAR_OK;
end;
Function VariantChangeTypeEx(var VargDest: TVarData; const VargSrc: TVarData;
LCID: Integer; Flags: Word; VarType: Word): HRESULT; stdcall;
var
Tmp : TVarData;
begin
if ((VarType and varArray) <> 0) or
((VargSrc.VType and varArray) <> 0) or
((VarType and varByRef) <> 0) then
Exit(VAR_INVALIDARG);
Result:=VariantCopyInd(Tmp, VargSrc);
if Result = VAR_OK then
try
Result:=VariantClear(VargDest);
{$RANGECHECKS ON}
if Result = VAR_OK then
try
case Vartype of
varSmallInt : VargDest.VSmallInt:=VariantToSmallInt(Tmp);
varInteger : VargDest.VInteger:=VariantToLongint(Tmp);
{$ifndef FPUNONE}
varSingle : VargDest.VSingle:=VariantToSingle(Tmp);
varDouble : VargDest.VDouble:=VariantToDouble(Tmp);
varCurrency : VargDest.VCurrency:=VariantToCurrency(Tmp);
varDate : VargDest.VDate:=VariantToDate(tmp);
{$endif}
varOleStr : MakeWideString(VargDest.VoleStr, VariantToWideString(tmp));
varDispatch : Result:=VAR_TYPEMISMATCH;
varUnknown : Result:=VAR_TYPEMISMATCH;
varBoolean : VargDest.VBoolean:=VariantToBoolean(Tmp);
varByte : VargDest.VByte:=VariantToByte(Tmp);
VarShortInt : VargDest.VShortInt:=VariantToShortInt(Tmp);
VarInt64 : VargDest.Vint64:=VariantToInt64(Tmp);
VarLongWord : VargDest.VLongWord:=VariantToCardinal(Tmp);
VarQWord : VargDest.VQWord:=VariantToQword(tmp);
else
Result:=VAR_BADVARTYPE;
end;
If Result = VAR_OK then
VargDest.VType:=VarType;
except
On E : EVariantError do
Result:=E.ErrCode;
else
Result:=VAR_INVALIDARG;
end;
finally
VariantClear(Tmp);
end;
{$RANGECHECKS OFF}
end;
{ ---------------------------------------------------------------------
Variant array support
---------------------------------------------------------------------}
Function CheckArrayUnlocked (psa : PVarArray) : HResult;
begin
If psa^.LockCount = 0 Then
Result:=VAR_OK
else
Result:=VAR_ARRAYISLOCKED;
end;
Function CheckVarArray(psa: PVarArray ): HRESULT;
begin
If psa=nil then
Result:=VAR_INVALIDARG
else
Result:=VAR_OK;
end;
Function SafeArrayCalculateElementAddress(psa: PVarArray; aElement: SizeInt): Pointer;
begin
Result:=Pointer(psa^.Data)+(aElement*psa^.ElementSize);
end;
Function CheckVarArrayAndCalculateAddress(psa: PVarArray;
Indices: PVarArrayCoorArray; var Address: Pointer; Lockit: Boolean): HRESULT;
var
I,D,Count,Idx : LongInt;
begin
Result:=CheckVarArray(psa);
Address:=nil;
Count:=0;
If Result<>VAR_OK then
exit;
D:=0;
for I:=0 to psa^.DimCount-1 do
begin
Idx:=Indices^[psa^.DimCount-I-1] - psa^.Bounds[I].LowBound;
if (Idx<0) or (Idx>=psa^.Bounds[I].ElementCount) then
Exit(VAR_BADINDEX);
if I=0 then
Count:=Idx
else
Inc(Count,Idx*D);
Inc(D,psa^.Bounds[I].ElementCount);
end;
Address:=SafeArrayCalculateElementAddress(psa, Count);
if LockIt then
Result:=SafeArrayLock(psa);
end;
Function SafeArrayElementTotal(psa: PVarArray): Integer;
var
I: Integer;
begin
Result:=1;
With psa^ do
for I:=0 to DimCount - 1 do
Result:=Result*Bounds[I].ElementCount;
end;
type
TVariantArrayType = (vatNormal, vatInterface, vatWideString, vatVariant);
Function VariantArrayType(psa: PVarArray): TVariantArrayType;
begin
if ((psa^.Flags and ARR_DISPATCH) <> 0) or
((psa^.Flags and ARR_UNKNOWN) <> 0) then
Result:=vatInterface
else if (psa^.Flags AND ARR_OLESTR) <> 0 then
Result:=vatWideString
else if (psa^.Flags and ARR_VARIANT) <> 0 then
Result := vatVariant
else
Result:=vatNormal;
end;
Function SafeArrayClearDataSpace(psa: PVarArray; WipeBytes: Boolean {= True}): HRESULT;
var
vat: TVariantArrayType;
P : Pointer;
J,Count : Integer;
begin
try
count:=SafeArrayElementTotal(psa);
vat:=VariantArrayType(psa);
case vat of
vatNormal : FillChar(psa^.Data^,Count*psa^.ElementSize,0);
vatInterface :
for j := 0 to Count - 1 do
begin
P := SafeArrayCalculateElementAddress(psa,j);
IUnknown(PUnknown(P)^):=Nil
end;
vatWideString :
for j := 0 to Count - 1 do
begin
P := SafeArrayCalculateElementAddress(psa,j);
WideString(PPointer(P)^):='';
end;
vatVariant :
for j := 0 to Count - 1 do
begin
P := SafeArrayCalculateElementAddress(psa,j);
VariantClear(PVarData(P)^);
end;
end;
Result:=VAR_OK;
except
On E : Exception do
Result:=ExceptionToVariantError (E);
end;
end;
Function SafeArrayCopyDataSpace(psa, psaOut: PVarArray): HRESULT;
var
vat: TVariantArrayType;
P1,P2 : Pointer;
J,Count : Integer;
begin
try
Count:=SafeArrayElementTotal(psa);
vat:=VariantArrayType(psa);
case vat of
vatNormal: Move(psa^.Data^,psaOut^.Data^,Count*psa^.ElementSize);
vatInterface :
for j := 0 to Count - 1 do
begin
P1 := SafeArrayCalculateElementAddress(psa,j);
P2 := SafeArrayCalculateElementAddress(psaout,j);
IUnknown(PUnknown(P2)^):=IUnknown(PUnknown(P1)^);
end;
vatWideString :
for j := 0 to Count - 1 do
begin
P1 := SafeArrayCalculateElementAddress(psa,j);
P2 := SafeArrayCalculateElementAddress(psaOut,j);
WideString(PPointer(P2)^):=WideString(PPointer(P1)^);
end;
vatVariant :
for j := 0 to Count - 1 do
begin
P1 := SafeArrayCalculateElementAddress(psa,j);
P2 := SafeArrayCalculateElementAddress(psaOut,j);
VariantCopy(PVarData(P2)^,PVarData(P2)^);
end;
end;
Result:=VAR_OK;
except
On E : Exception do
Result:=ExceptionToVariantError(E);
end;
end;
Const
Supportedpsas = [varSmallint,varInteger,
{$ifndef FPUNONE}
varSingle,varDouble,varCurrency,varDate,
{$endif}
varOleStr,varDispatch,varError,varBoolean,varVariant,varUnknown,varShortInt,varByte,
varWord,varLongWord,varInt64,varQWord];
psaElementFlags : Array [varEmpty..varQWord] of Longint =
(ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE,
ARR_OLESTR,ARR_DISPATCH,ARR_NONE,ARR_NONE,ARR_VARIANT,ARR_UNKNOWN,
ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE,ARR_NONE);
psaElementSizes : Array [varEmpty..varQWord] of Byte =
(0,0, // varempty, varnull
SizeOf(SmallInt), // varsmallint
SizeOf(Integer), // varinteger
SizeOf(Single), // varsingle
SizeOf(Double), // vardouble
SizeOf(Currency), // varcurrency
SizeOf(TDateTime), // vardate
SizeOf(PWideString), // varolestr
SizeOf(IInterface), // vardispatch
SizeOf(TError), // varerror
SizeOf(Boolean), // varboolean
SizeOf(TVarData), // varvariant
SizeOf(IUnknown), // varunknown
0, // Decimal // vardecimal
0, // Unused
SizeOf(ShortInt), // varshortint
SizeOf(Byte), // varbyte
SizeOf(Word), // varword
SizeOf(LongWord), // varlongword
SizeOf(Int64), // varint64
SizeOf(QWord)); // varqword
Function SafeArrayCreate(VarType, Dim: DWord; const Bounds: TVarArrayBoundArray): PVarArray;stdcall;
var
res : HRESULT;
I : DWord;
begin
Result:=nil;
if Not (VarType in Supportedpsas) Then
exit;
Res:=SafeArrayAllocDescriptor(Dim, Result);
if Res<>VAR_OK then
exit;
Result^.DimCount:=Dim;
Result^.Flags:=psaElementFlags[VarType];
Result^.ElementSize:=psaElementSizes[VarType];
Result^.LockCount := 0;
for i:=0 to Dim-1 do
begin
Result^.Bounds[i].LowBound:=Bounds[Dim-I-1].LowBound;
Result^.Bounds[I].ElementCount:=Bounds[Dim-I-1].ElementCount;
end;
res:=SafeArrayAllocData(Result);
if res<>VAR_OK then
begin
SafeArrayDestroyDescriptor(Result);
Result:=nil;
end;
end;
Function SafeArrayAllocDescriptor(DimCount: Dword; var psa: PVarArray): HRESULT;stdcall;
begin
try
{ one bound item is included in TVarArray }
psa:=GetMem(SizeOf(TVarArray) + SizeOf(TVarArrayBound)*(DimCount-1));
Result:=VAR_OK;
except
On E : Exception do
Result:=ExceptionToVariantError(E);
end;
end;
Function SafeArrayAllocData(psa: PVarArray): HRESULT;stdcall;
begin
try
With psa^ do
begin
Data:=GetMem(SafeArrayElementTotal(psa)*ElementSize);
fillchar(Data^,SafeArrayElementTotal(psa)*ElementSize,0);
end;
Result:=VAR_OK;
except
On E : Exception do
Result:=ExceptionToVariantError(E);
end;
end;
Function SafeArrayDestroy(psa: PVarArray): HRESULT;stdcall;
begin
Result:=CheckVarArray(psa);
if Result<> VAR_OK then
exit;
Result:=CheckArrayUnlocked(psa);
if Result<> VAR_OK then
exit;
Result:=SafeArrayDestroyData(psa);
if Result<>VAR_OK then
exit;
Result:=SafeArrayDestroyDescriptor(psa);
end;
Function SafeArrayDestroyDescriptor(psa: PVarArray): HRESULT;stdcall;
begin
Result:=CheckVarArray(psa);
if Result<>VAR_OK then
exit;
Result:=CheckArrayUnlocked(psa);
if Result<> VAR_OK then
exit;
try
FreeMem(psa);
except
On E : Exception do
Result:=ExceptionToVariantError(E);
end;
end;
Function SafeArrayDestroyData(psa: PVarArray): HRESULT;stdcall;
begin
Result:=CheckVarArray(psa);
if Result<>VAR_OK then
exit;
Result:=CheckArrayUnlocked(psa);
if Result<> VAR_OK then
exit;
try
Result:=SafeArrayClearDataSpace(psa, False);
if (Result=VAR_OK) and ((psa^.Flags and ARR_FIXEDSIZE)=0) then
begin
FreeMem(psa^.Data);
psa^.Data:=nil;
end;
except
On E : Exception do
Result:=ExceptionToVariantError(E);
end;
end;
Function SafeArrayRedim(psa: PVarArray; const NewBound: TVarArrayBound): HRESULT;stdcall;
var
vat: TVariantArrayType;
i, D,j,count : Integer;
P : Pointer;
begin
Result:=CheckVarArray(psa);
if Result <> VAR_OK then
exit;
if (psa^.Flags and ARR_FIXEDSIZE) <> 0 then
Exit(VAR_INVALIDARG);
Result:=SafeArrayLock(psa);
if Result<>VAR_OK then
exit;
try
D:=NewBound.ElementCount - psa^.Bounds[0].ElementCount;
for i:=1 to psa^.DimCount - 1 do
D:=D*psa^.Bounds[i].ElementCount;
if D<>0 then
begin
Count:=SafeArrayElementTotal(psa);
if D<0 then
begin
vat:=VariantArrayType(psa);
for j:=Count-1 downto Count+D do
begin
P:=SafeArrayCalculateElementAddress(psa,j);
if vat = vatInterface then
IUnknown(PPointer(P)^):=Nil
else if vat=vatWideString then
WideString(PPointer(P)^):=''
else if vat=vatVariant then
VariantClear(PVarData(P)^);
end;
end;
ReAllocMem(psa^.Data,(Count+D)*psa^.ElementSize);
if D>0 then
fillchar((PChar(psa^.Data)+Count*psa^.ElementSize)^,D*psa^.ElementSize,0);
end;
psa^.Bounds[0].ElementCount:=NewBound.ElementCount;
psa^.Bounds[0].LowBound:=NewBound.LowBound;
except
On E : Exception do
Result:=ExceptionToVariantError(E);
end;
SetUnlockResult(psa,Result);
end;
Function SafeArrayCopy(psa: PVarArray; var psaOut: PVarArray): HRESULT;stdcall;
var
i : Integer;
begin
Result:=CheckVarArray(psa);
if Result<>VAR_OK then
exit;
Result:=SafeArrayLock(psa);
if Result<>VAR_OK then
exit;
try
Result:=SafeArrayAllocDescriptor(psa^.DimCount,psaOut);
if Result<>VAR_OK then
Exit;
try
With psaOut^ do
begin
Flags:=psa^.Flags;
ElementSize:=psa^.ElementSize;
LockCount := 0;
DimCount:=psa^.DimCount;
for i:=0 to DimCount-1 do
begin
Bounds[i].ElementCount:=psa^.Bounds[i].ElementCount;
Bounds[i].LowBound:=psa^.Bounds[i].LowBound;
end;
end;
Result:=SafeArrayAllocData(psaOut);
if Result<>VAR_OK then
exit;
Result:=SafeArrayCopyDataSpace(psa, psaOut);
finally
if Result<>VAR_OK then
begin
SafeArrayDestroyDescriptor(psaOut);
psaOut:=nil;
end;
end;
except
On E : Exception do
Result:=ExceptionToVariantError(E)
end;
SetUnlockResult(psa,Result);
end;
Function SafeArrayCopyData(psa, psaOut: PVarArray): HRESULT;stdcall;
var
i : Integer;
begin
Result:=CheckVarArray(psa);
if Result<>VAR_OK then
exit;
Result:=CheckVarArray(psaOut);
if Result<>VAR_OK then
exit;
Result:=SafeArrayLock(psaOut);
if Result<>VAR_OK then
exit;
try
Result:=SafeArrayLock(psa);
if Result<>VAR_OK then
exit;
try
With psaOut^ do
begin
if (psa^.Flags<>Flags) or
(psa^.ElementSize<>ElementSize) or
(psa^.DimCount<>DimCount) then
Exit(VAR_INVALIDARG);
for i:=0 to psa^.DimCount - 1 do
if (psa^.Bounds[i].LowBound<>Bounds[i].LowBound) or
(psa^.Bounds[i].ElementCount<>Bounds[i].ElementCount) then
exit(VAR_INVALIDARG);
end;
Result:=SafeArrayClearDataSpace(psaOut,True);
if Result<> VAR_OK then
exit;
Result:=SafeArrayCopyDataSpace(psa, psaOut);
finally
SetUnlockResult(psa,Result);
end;
finally
SetUnlockResult(psaOut,Result);
end;
end;
Function SafeArrayGetLBound(psa: PVarArray; Dim: DWord; var LBound: LongInt): HRESULT;stdcall;
begin
Result:=CheckVarArray(psa);
if Result<>VAR_OK then
exit;
if (Dim>0) and (Dim<=psa^.DimCount) then
LBound:=psa^.Bounds[psa^.dimcount-Dim].LowBound
else
Result:=VAR_BADINDEX;
end;
Function SafeArrayGetUBound(psa: PVarArray; Dim : DWord; var UBound: LongInt): HRESULT;stdcall;
begin
Result:=CheckVarArray(psa);
if Result<>VAR_OK then
exit;
if (Dim>0) and (Dim<=psa^.DimCount) then
UBound:=psa^.Bounds[psa^.dimcount-Dim].LowBound +
psa^.Bounds[psa^.dimcount-Dim].ElementCount-1
else
Result:=VAR_BADINDEX
end;
Function SafeArrayGetDim(psa: PVarArray): HRESULT;stdcall;
begin
if CheckVarArray(psa)<>VAR_OK then
Result:=0
else
Result:=psa^.DimCount;
end;
Function SafeArrayAccessData(psa: PVarArray; var ppvData: Pointer): HRESULT;stdcall;
begin
Result:=SafeArrayLock(psa);
if Result<>VAR_OK then
ppvData:=nil
else
ppvData:=psa^.Data;
end;
Function SafeArrayUnaccessData(psa: PVarArray): HRESULT;stdcall;
begin
Result:=SafeArrayUnlock(psa);
end;
Function SafeArrayLock(psa: PVarArray): HRESULT;stdcall;
begin
Result:=CheckVarArray(psa);
if Result<>VAR_OK then
exit;
InterlockedIncrement(psa^.LockCount);
end;
Function SafeArrayUnlock(psa: PVarArray): HRESULT;stdcall;
begin
Result:=CheckVarArray(psa);
if (Result<>VAR_OK) then
exit;
if InterlockedDecrement(psa^.LockCount)<0 then
begin
InterlockedIncrement(psa^.LockCount);
result:=VAR_UNEXPECTED;
end;
end;
Function SafeArrayGetElement(psa: PVarArray; Indices: PVarArrayCoorArray;
Data: Pointer): HRESULT;stdcall;
var
P: Pointer;
begin
Result:=CheckVarArrayAndCalculateAddress(psa, Indices, P, True);
if Result<>VAR_OK then
exit;
try
case VariantArrayType(psa) of
vatNormal:
Move(P^, Data^, psa^.ElementSize);
vatInterface:
IInterface(PInterface(Data)^) := IInterface(PInterface(P)^);
vatWideString:
CopyAsWideString(PWideChar(Data^), PWideChar(P^));
vatVariant:
VariantCopy(PVarData(Data)^, PVarData(P)^);
end;
except
On E : Exception do
Result:=ExceptionToVariantError(E);
end;
SetUnlockResult(psa,Result);
end;
Function SafeArrayPutElement(psa: PVarArray; Indices: PVarArrayCoorArray;
const Data: Pointer): HRESULT;stdcall;
var
P: Pointer;
begin
Result:=CheckVarArrayAndCalculateAddress(psa,Indices,P,True);
if Result<>VAR_OK then
exit;
try
case VariantArrayType(psa) of
vatNormal:
Move(Data^,P^,psa^.ElementSize);
vatInterface:
IInterface(PInterface(P)^):=IInterface(Data);
vatWideString:
CopyAsWideString(PWideChar(P^), PWideChar(Data));
vatVariant:
VariantCopy(PVarData(P)^, PVarData(Data)^); // !! Untested
end;
except
On E : Exception do
Result:=ExceptionToVariantError(E);
end;
SetUnlockResult(psa,Result);
end;
Function SafeArrayPtrOfIndex(psa: PVarArray; Indices: PVarArrayCoorArray;
var Address: Pointer): HRESULT;stdcall;
begin
Result:=CheckVarArrayAndCalculateAddress(psa,Indices,Address,False);
end;
Function SafeArrayGetElemSize(psa: PVarArray): LongWord;stdcall;
begin
if CheckVarArray(psa)<>VAR_OK then
Result:=0
else
Result:=psa^.ElementSize;
end;
{$POP}