/* * PropVariant implementation * * Copyright 2008 James Hawkins for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #define NONAMELESSUNION #include "windef.h" #include "winbase.h" #include "winerror.h" #include "winreg.h" #include "winuser.h" #include "shlobj.h" #include "propvarutil.h" #include "strsafe.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(propsys); static HRESULT PROPVAR_ConvertFILETIME(const FILETIME *ft, PROPVARIANT *ppropvarDest, VARTYPE vt) { SYSTEMTIME time; FileTimeToSystemTime(ft, &time); switch (vt) { case VT_LPSTR: ppropvarDest->pszVal = HeapAlloc(GetProcessHeap(), 0, 64); if (!ppropvarDest->pszVal) return E_OUTOFMEMORY; sprintf( ppropvarDest->pszVal, "%04d/%02d/%02d:%02d:%02d:%02d.%03d", time.wYear, time.wMonth, time.wDay, time.wHour, time.wMinute, time.wSecond, time.wMilliseconds ); return S_OK; default: FIXME("Unhandled target type: %d\n", vt); } return E_FAIL; } static HRESULT PROPVAR_ConvertNumber(REFPROPVARIANT pv, int dest_bits, BOOL dest_signed, LONGLONG *res) { BOOL src_signed; switch (pv->vt) { case VT_I1: src_signed = TRUE; *res = pv->cVal; break; case VT_UI1: src_signed = FALSE; *res = pv->bVal; break; case VT_I2: src_signed = TRUE; *res = pv->iVal; break; case VT_UI2: src_signed = FALSE; *res = pv->uiVal; break; case VT_I4: src_signed = TRUE; *res = pv->lVal; break; case VT_UI4: src_signed = FALSE; *res = pv->ulVal; break; case VT_I8: src_signed = TRUE; *res = pv->hVal.QuadPart; break; case VT_UI8: src_signed = FALSE; *res = pv->uhVal.QuadPart; break; case VT_EMPTY: src_signed = FALSE; *res = 0; break; case VT_LPSTR: { char *end; *res = strtoll(pv->pszVal, &end, 0); if (pv->pszVal == end) return DISP_E_TYPEMISMATCH; src_signed = *res < 0; break; } case VT_LPWSTR: case VT_BSTR: { WCHAR *end; *res = wcstol(pv->pwszVal, &end, 0); if (pv->pwszVal == end) return DISP_E_TYPEMISMATCH; src_signed = *res < 0; break; } case VT_R8: { src_signed = TRUE; *res = pv->dblVal; break; } default: FIXME("unhandled vt %d\n", pv->vt); return E_NOTIMPL; } if (*res < 0 && src_signed != dest_signed) return HRESULT_FROM_WIN32(ERROR_ARITHMETIC_OVERFLOW); if (dest_bits < 64) { if (dest_signed) { if (*res >= ((LONGLONG)1 << (dest_bits-1)) || *res < ((LONGLONG)-1 << (dest_bits-1))) return HRESULT_FROM_WIN32(ERROR_ARITHMETIC_OVERFLOW); } else { if ((ULONGLONG)(*res) >= ((ULONGLONG)1 << dest_bits)) return HRESULT_FROM_WIN32(ERROR_ARITHMETIC_OVERFLOW); } } return S_OK; } HRESULT WINAPI PropVariantToDouble(REFPROPVARIANT propvarIn, double *ret) { LONGLONG res; HRESULT hr; TRACE("(%p, %p)\n", propvarIn, ret); hr = PROPVAR_ConvertNumber(propvarIn, 64, TRUE, &res); if (SUCCEEDED(hr)) *ret = (double)res; return hr; } HRESULT WINAPI PropVariantToInt16(REFPROPVARIANT propvarIn, SHORT *ret) { LONGLONG res; HRESULT hr; TRACE("%p,%p\n", propvarIn, ret); hr = PROPVAR_ConvertNumber(propvarIn, 16, TRUE, &res); if (SUCCEEDED(hr)) *ret = (SHORT)res; return hr; } HRESULT WINAPI PropVariantToInt32(REFPROPVARIANT propvarIn, LONG *ret) { LONGLONG res; HRESULT hr; TRACE("%p,%p\n", propvarIn, ret); hr = PROPVAR_ConvertNumber(propvarIn, 32, TRUE, &res); if (SUCCEEDED(hr)) *ret = (LONG)res; return hr; } HRESULT WINAPI PropVariantToInt64(REFPROPVARIANT propvarIn, LONGLONG *ret) { LONGLONG res; HRESULT hr; TRACE("%p,%p\n", propvarIn, ret); hr = PROPVAR_ConvertNumber(propvarIn, 64, TRUE, &res); if (SUCCEEDED(hr)) *ret = res; return hr; } HRESULT WINAPI PropVariantToUInt16(REFPROPVARIANT propvarIn, USHORT *ret) { LONGLONG res; HRESULT hr; TRACE("%p,%p\n", propvarIn, ret); hr = PROPVAR_ConvertNumber(propvarIn, 16, FALSE, &res); if (SUCCEEDED(hr)) *ret = (USHORT)res; return hr; } HRESULT WINAPI PropVariantToUInt32(REFPROPVARIANT propvarIn, ULONG *ret) { LONGLONG res; HRESULT hr; TRACE("%p,%p\n", propvarIn, ret); hr = PROPVAR_ConvertNumber(propvarIn, 32, FALSE, &res); if (SUCCEEDED(hr)) *ret = (ULONG)res; return hr; } HRESULT WINAPI PropVariantToUInt64(REFPROPVARIANT propvarIn, ULONGLONG *ret) { LONGLONG res; HRESULT hr; TRACE("%p,%p\n", propvarIn, ret); hr = PROPVAR_ConvertNumber(propvarIn, 64, FALSE, &res); if (SUCCEEDED(hr)) *ret = (ULONGLONG)res; return hr; } HRESULT WINAPI PropVariantToBoolean(REFPROPVARIANT propvarIn, BOOL *ret) { LONGLONG res; HRESULT hr; TRACE("%p,%p\n", propvarIn, ret); *ret = FALSE; switch (propvarIn->vt) { case VT_BOOL: *ret = propvarIn->boolVal == VARIANT_TRUE; return S_OK; case VT_LPWSTR: case VT_BSTR: if (!propvarIn->pwszVal) return DISP_E_TYPEMISMATCH; if (!lstrcmpiW(propvarIn->pwszVal, L"true") || !lstrcmpW(propvarIn->pwszVal, L"#TRUE#")) { *ret = TRUE; return S_OK; } if (!lstrcmpiW(propvarIn->pwszVal, L"false") || !lstrcmpW(propvarIn->pwszVal, L"#FALSE#")) { *ret = FALSE; return S_OK; } break; case VT_LPSTR: if (!propvarIn->pszVal) return DISP_E_TYPEMISMATCH; if (!lstrcmpiA(propvarIn->pszVal, "true") || !lstrcmpA(propvarIn->pszVal, "#TRUE#")) { *ret = TRUE; return S_OK; } if (!lstrcmpiA(propvarIn->pszVal, "false") || !lstrcmpA(propvarIn->pszVal, "#FALSE#")) { *ret = FALSE; return S_OK; } break; } hr = PROPVAR_ConvertNumber(propvarIn, 64, TRUE, &res); *ret = !!res; return hr; } HRESULT WINAPI PropVariantToBuffer(REFPROPVARIANT propvarIn, void *ret, UINT cb) { HRESULT hr = S_OK; TRACE("(%p, %p, %d)\n", propvarIn, ret, cb); switch(propvarIn->vt) { case VT_VECTOR|VT_UI1: if(cb > propvarIn->caub.cElems) return E_FAIL; memcpy(ret, propvarIn->caub.pElems, cb); break; case VT_ARRAY|VT_UI1: FIXME("Unsupported type: VT_ARRAY|VT_UI1\n"); hr = E_NOTIMPL; break; default: WARN("Unexpected type: %x\n", propvarIn->vt); hr = E_INVALIDARG; } return hr; } HRESULT WINAPI PropVariantToString(REFPROPVARIANT propvarIn, PWSTR ret, UINT cch) { HRESULT hr; WCHAR *stringW = NULL; TRACE("(%p, %p, %d)\n", propvarIn, ret, cch); ret[0] = '\0'; if(!cch) return E_INVALIDARG; hr = PropVariantToStringAlloc(propvarIn, &stringW); if(SUCCEEDED(hr)) { if(lstrlenW(stringW) >= cch) hr = STRSAFE_E_INSUFFICIENT_BUFFER; lstrcpynW(ret, stringW, cch); CoTaskMemFree(stringW); } return hr; } HRESULT WINAPI PropVariantToStringAlloc(REFPROPVARIANT propvarIn, WCHAR **ret) { WCHAR *res = NULL; HRESULT hr = S_OK; TRACE("%p,%p semi-stub\n", propvarIn, ret); switch(propvarIn->vt) { case VT_EMPTY: case VT_NULL: res = CoTaskMemAlloc(1*sizeof(WCHAR)); res[0] = '\0'; break; case VT_LPSTR: if(propvarIn->pszVal) { DWORD len; len = MultiByteToWideChar(CP_ACP, 0, propvarIn->pszVal, -1, NULL, 0); res = CoTaskMemAlloc(len*sizeof(WCHAR)); if(!res) return E_OUTOFMEMORY; MultiByteToWideChar(CP_ACP, 0, propvarIn->pszVal, -1, res, len); } break; case VT_LPWSTR: case VT_BSTR: if (propvarIn->pwszVal) { DWORD size = (lstrlenW(propvarIn->pwszVal) + 1) * sizeof(WCHAR); res = CoTaskMemAlloc(size); if(!res) return E_OUTOFMEMORY; memcpy(res, propvarIn->pwszVal, size); } break; default: FIXME("Unsupported conversion (%d)\n", propvarIn->vt); hr = E_FAIL; break; } *ret = res; return hr; } PCWSTR WINAPI PropVariantToStringWithDefault(REFPROPVARIANT propvarIn, LPCWSTR pszDefault) { if (propvarIn->vt == VT_BSTR) { if (propvarIn->bstrVal == NULL) return L""; return propvarIn->bstrVal; } if (propvarIn->vt == VT_LPWSTR && propvarIn->pwszVal != NULL) return propvarIn->pwszVal; return pszDefault; } /****************************************************************** * PropVariantChangeType (PROPSYS.@) */ HRESULT WINAPI PropVariantChangeType(PROPVARIANT *ppropvarDest, REFPROPVARIANT propvarSrc, PROPVAR_CHANGE_FLAGS flags, VARTYPE vt) { HRESULT hr; FIXME("(%p, %p, %d, %d, %d): semi-stub!\n", ppropvarDest, propvarSrc, propvarSrc->vt, flags, vt); if (vt == propvarSrc->vt) return PropVariantCopy(ppropvarDest, propvarSrc); if (propvarSrc->vt == VT_FILETIME) return PROPVAR_ConvertFILETIME(&propvarSrc->filetime, ppropvarDest, vt); switch (vt) { case VT_I1: { LONGLONG res; hr = PROPVAR_ConvertNumber(propvarSrc, 8, TRUE, &res); if (SUCCEEDED(hr)) { ppropvarDest->vt = VT_I1; ppropvarDest->cVal = (char)res; } return hr; } case VT_UI1: { LONGLONG res; hr = PROPVAR_ConvertNumber(propvarSrc, 8, FALSE, &res); if (SUCCEEDED(hr)) { ppropvarDest->vt = VT_UI1; ppropvarDest->bVal = (UCHAR)res; } return hr; } case VT_I2: { SHORT res; hr = PropVariantToInt16(propvarSrc, &res); if (SUCCEEDED(hr)) { ppropvarDest->vt = VT_I2; ppropvarDest->iVal = res; } return hr; } case VT_UI2: { USHORT res; hr = PropVariantToUInt16(propvarSrc, &res); if (SUCCEEDED(hr)) { ppropvarDest->vt = VT_UI2; ppropvarDest->uiVal = res; } return hr; } case VT_I4: { LONG res; hr = PropVariantToInt32(propvarSrc, &res); if (SUCCEEDED(hr)) { ppropvarDest->vt = VT_I4; ppropvarDest->lVal = res; } return hr; } case VT_UI4: { ULONG res; hr = PropVariantToUInt32(propvarSrc, &res); if (SUCCEEDED(hr)) { ppropvarDest->vt = VT_UI4; ppropvarDest->ulVal = res; } return hr; } case VT_I8: { LONGLONG res; hr = PropVariantToInt64(propvarSrc, &res); if (SUCCEEDED(hr)) { ppropvarDest->vt = VT_I8; ppropvarDest->hVal.QuadPart = res; } return hr; } case VT_UI8: { ULONGLONG res; hr = PropVariantToUInt64(propvarSrc, &res); if (SUCCEEDED(hr)) { ppropvarDest->vt = VT_UI8; ppropvarDest->uhVal.QuadPart = res; } return hr; } case VT_LPWSTR: case VT_BSTR: { WCHAR *res; hr = PropVariantToStringAlloc(propvarSrc, &res); if (SUCCEEDED(hr)) { ppropvarDest->vt = VT_LPWSTR; ppropvarDest->pwszVal = res; } return hr; } case VT_LPSTR: { WCHAR *resW; hr = PropVariantToStringAlloc(propvarSrc, &resW); if (SUCCEEDED(hr)) { char *res; DWORD len; len = WideCharToMultiByte(CP_ACP, 0, resW, -1, NULL, 0, NULL, NULL); res = CoTaskMemAlloc(len); if (res) { WideCharToMultiByte(CP_ACP, 0, resW, -1, res, len, NULL, NULL); ppropvarDest->vt = VT_LPSTR; ppropvarDest->pszVal = res; } else hr = E_OUTOFMEMORY; CoTaskMemFree(resW); } return hr; } default: FIXME("Unhandled dest type: %d\n", vt); return E_FAIL; } } static void PROPVAR_GUIDToWSTR(REFGUID guid, WCHAR *str) { swprintf(str, 39, L"{%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X}", guid->Data1, guid->Data2, guid->Data3, guid->Data4[0], guid->Data4[1], guid->Data4[2], guid->Data4[3], guid->Data4[4], guid->Data4[5], guid->Data4[6], guid->Data4[7]); } HRESULT WINAPI InitPropVariantFromGUIDAsString(REFGUID guid, PROPVARIANT *ppropvar) { TRACE("(%p %p)\n", guid, ppropvar); if(!guid) return E_FAIL; ppropvar->vt = VT_LPWSTR; ppropvar->pwszVal = CoTaskMemAlloc(39*sizeof(WCHAR)); if(!ppropvar->pwszVal) return E_OUTOFMEMORY; PROPVAR_GUIDToWSTR(guid, ppropvar->pwszVal); return S_OK; } HRESULT WINAPI InitVariantFromGUIDAsString(REFGUID guid, VARIANT *pvar) { TRACE("(%p %p)\n", guid, pvar); if(!guid) { FIXME("guid == NULL\n"); return E_FAIL; } V_VT(pvar) = VT_BSTR; V_BSTR(pvar) = SysAllocStringLen(NULL, 38); if(!V_BSTR(pvar)) return E_OUTOFMEMORY; PROPVAR_GUIDToWSTR(guid, V_BSTR(pvar)); return S_OK; } HRESULT WINAPI InitPropVariantFromBuffer(const VOID *pv, UINT cb, PROPVARIANT *ppropvar) { TRACE("(%p %u %p)\n", pv, cb, ppropvar); ppropvar->caub.pElems = CoTaskMemAlloc(cb); if(!ppropvar->caub.pElems) return E_OUTOFMEMORY; ppropvar->vt = VT_VECTOR|VT_UI1; ppropvar->caub.cElems = cb; memcpy(ppropvar->caub.pElems, pv, cb); return S_OK; } HRESULT WINAPI InitPropVariantFromCLSID(REFCLSID clsid, PROPVARIANT *ppropvar) { TRACE("(%s %p)\n", debugstr_guid(clsid), ppropvar); ppropvar->puuid = CoTaskMemAlloc(sizeof(*ppropvar->puuid)); if(!ppropvar->puuid) return E_OUTOFMEMORY; ppropvar->vt = VT_CLSID; memcpy(ppropvar->puuid, clsid, sizeof(*ppropvar->puuid)); return S_OK; } HRESULT WINAPI InitVariantFromBuffer(const VOID *pv, UINT cb, VARIANT *pvar) { SAFEARRAY *arr; void *data; HRESULT hres; TRACE("(%p %u %p)\n", pv, cb, pvar); arr = SafeArrayCreateVector(VT_UI1, 0, cb); if(!arr) return E_OUTOFMEMORY; hres = SafeArrayAccessData(arr, &data); if(FAILED(hres)) { SafeArrayDestroy(arr); return hres; } memcpy(data, pv, cb); hres = SafeArrayUnaccessData(arr); if(FAILED(hres)) { SafeArrayDestroy(arr); return hres; } V_VT(pvar) = VT_ARRAY|VT_UI1; V_ARRAY(pvar) = arr; return S_OK; } HRESULT WINAPI InitVariantFromFileTime(const FILETIME *ft, VARIANT *var) { SYSTEMTIME st; TRACE("%p, %p\n", ft, var); VariantInit(var); if (!FileTimeToSystemTime(ft, &st)) return E_INVALIDARG; if (!SystemTimeToVariantTime(&st, &V_DATE(var))) return E_INVALIDARG; V_VT(var) = VT_DATE; return S_OK; } static inline DWORD PROPVAR_HexToNum(const WCHAR *hex) { DWORD ret; if(hex[0]>='0' && hex[0]<='9') ret = hex[0]-'0'; else if(hex[0]>='a' && hex[0]<='f') ret = hex[0]-'a'+10; else if(hex[0]>='A' && hex[0]<='F') ret = hex[0]-'A'+10; else return -1; ret <<= 4; if(hex[1]>='0' && hex[1]<='9') return ret + hex[1]-'0'; else if(hex[1]>='a' && hex[1]<='f') return ret + hex[1]-'a'+10; else if(hex[1]>='A' && hex[1]<='F') return ret + hex[1]-'A'+10; else return -1; } static inline HRESULT PROPVAR_WCHARToGUID(const WCHAR *str, int len, GUID *guid) { DWORD i, val=0; const WCHAR *p; memset(guid, 0, sizeof(GUID)); if(len!=38 || str[0]!='{' || str[9]!='-' || str[14]!='-' || str[19]!='-' || str[24]!='-' || str[37]!='}') { WARN("Error parsing %s\n", debugstr_w(str)); return E_INVALIDARG; } p = str+1; for(i=0; i<4 && val!=-1; i++) { val = PROPVAR_HexToNum(p); guid->Data1 = (guid->Data1<<8) + val; p += 2; } p++; for(i=0; i<2 && val!=-1; i++) { val = PROPVAR_HexToNum(p); guid->Data2 = (guid->Data2<<8) + val; p += 2; } p++; for(i=0; i<2 && val!=-1; i++) { val = PROPVAR_HexToNum(p); guid->Data3 = (guid->Data3<<8) + val; p += 2; } p++; for(i=0; i<8 && val!=-1; i++) { if(i == 2) p++; val = guid->Data4[i] = PROPVAR_HexToNum(p); p += 2; } if(val == -1) { WARN("Error parsing %s\n", debugstr_w(str)); memset(guid, 0, sizeof(GUID)); return E_INVALIDARG; } return S_OK; } HRESULT WINAPI PropVariantToGUID(const PROPVARIANT *ppropvar, GUID *guid) { TRACE("%p %p)\n", ppropvar, guid); switch(ppropvar->vt) { case VT_BSTR: return PROPVAR_WCHARToGUID(ppropvar->bstrVal, SysStringLen(ppropvar->bstrVal), guid); case VT_LPWSTR: return PROPVAR_WCHARToGUID(ppropvar->pwszVal, lstrlenW(ppropvar->pwszVal), guid); case VT_CLSID: memcpy(guid, ppropvar->puuid, sizeof(*ppropvar->puuid)); return S_OK; default: FIXME("unsupported vt: %d\n", ppropvar->vt); return E_NOTIMPL; } } HRESULT WINAPI VariantToGUID(const VARIANT *pvar, GUID *guid) { TRACE("(%p %p)\n", pvar, guid); switch(V_VT(pvar)) { case VT_BSTR: { HRESULT hres = PROPVAR_WCHARToGUID(V_BSTR(pvar), SysStringLen(V_BSTR(pvar)), guid); if(hres == E_INVALIDARG) return E_FAIL; return hres; } default: FIXME("unsupported vt: %d\n", V_VT(pvar)); return E_NOTIMPL; } } static BOOL isemptyornull(const PROPVARIANT *propvar) { if (propvar->vt == VT_EMPTY || propvar->vt == VT_NULL) return TRUE; if ((propvar->vt & VT_ARRAY) == VT_ARRAY) { int i; for (i=0; iparray->cDims; i++) { if (propvar->parray->rgsabound[i].cElements != 0) break; } return i == propvar->parray->cDims; } if (propvar->vt == VT_CLSID) return !propvar->puuid; if (propvar->vt & VT_VECTOR) return !propvar->caub.cElems; /* FIXME: byrefs, errors? */ return FALSE; } INT WINAPI PropVariantCompareEx(REFPROPVARIANT propvar1, REFPROPVARIANT propvar2, PROPVAR_COMPARE_UNIT unit, PROPVAR_COMPARE_FLAGS flags) { const PROPVARIANT *propvar2_converted; PROPVARIANT propvar2_static; unsigned int count; HRESULT hr; INT res=-1; TRACE("%p,%p,%x,%x\n", propvar1, propvar2, unit, flags); if (isemptyornull(propvar1)) { if (isemptyornull(propvar2)) return 0; return (flags & PVCF_TREATEMPTYASGREATERTHAN) ? 1 : -1; } if (isemptyornull(propvar2)) return (flags & PVCF_TREATEMPTYASGREATERTHAN) ? -1 : 1; if (propvar1->vt != propvar2->vt) { hr = PropVariantChangeType(&propvar2_static, propvar2, 0, propvar1->vt); if (FAILED(hr)) return -1; propvar2_converted = &propvar2_static; } else propvar2_converted = propvar2; #define CMP_NUM_VALUE(var) do { \ if (propvar1->var > propvar2_converted->var) \ res = 1; \ else if (propvar1->var < propvar2_converted->var) \ res = -1; \ else \ res = 0; \ } while (0) switch (propvar1->vt) { case VT_I1: CMP_NUM_VALUE(cVal); break; case VT_UI1: CMP_NUM_VALUE(bVal); break; case VT_I2: CMP_NUM_VALUE(iVal); break; case VT_UI2: CMP_NUM_VALUE(uiVal); break; case VT_I4: CMP_NUM_VALUE(lVal); break; case VT_UI4: CMP_NUM_VALUE(ulVal); break; case VT_I8: CMP_NUM_VALUE(hVal.QuadPart); break; case VT_UI8: CMP_NUM_VALUE(uhVal.QuadPart); break; case VT_R4: CMP_NUM_VALUE(fltVal); break; case VT_R8: CMP_NUM_VALUE(dblVal); break; case VT_BSTR: case VT_LPWSTR: /* FIXME: Use other string flags. */ if (flags & (PVCF_USESTRCMPI | PVCF_USESTRCMPIC)) res = lstrcmpiW(propvar1->bstrVal, propvar2_converted->bstrVal); else res = lstrcmpW(propvar1->bstrVal, propvar2_converted->bstrVal); break; case VT_LPSTR: /* FIXME: Use other string flags. */ if (flags & (PVCF_USESTRCMPI | PVCF_USESTRCMPIC)) res = lstrcmpiA(propvar1->pszVal, propvar2_converted->pszVal); else res = lstrcmpA(propvar1->pszVal, propvar2_converted->pszVal); break; case VT_CLSID: res = memcmp(propvar1->puuid, propvar2->puuid, sizeof(*propvar1->puuid)); if (res) res = res > 0 ? 1 : -1; break; case VT_VECTOR | VT_UI1: count = min(propvar1->caub.cElems, propvar2->caub.cElems); res = count ? memcmp(propvar1->caub.pElems, propvar2->caub.pElems, sizeof(*propvar1->caub.pElems) * count) : 0; if (res) res = res > 0 ? 1 : -1; if (!res && propvar1->caub.cElems != propvar2->caub.cElems) res = propvar1->caub.cElems > propvar2->caub.cElems ? 1 : -1; break; default: FIXME("vartype %#x not handled\n", propvar1->vt); res = -1; break; } if (propvar2_converted == &propvar2_static) PropVariantClear(&propvar2_static); return res; }