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goma / wine / 72a6d976794bf4c4f52bdf5ac7e3cc67593b387a / . / dlls / oleaut32 / tests / vartest.c
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/*
* VARIANT test program
*
* Copyright 1998 Jean-Claude Cote
*
* 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <stdarg.h>
#include <stdio.h>
#include <math.h>
#include <float.h>
#include <time.h>
#include "windef.h"
#include "winbase.h"
#include "winsock.h"
#include "wine/test.h"
#include "winuser.h"
#include "wingdi.h"
#include "winnls.h"
#include "winerror.h"
#include "winnt.h"
#include "wtypes.h"
#include "oleauto.h"
static HMODULE hOleaut32;
static HRESULT (WINAPI *pVarUdateFromDate)(DATE,ULONG,UDATE*);
static HRESULT (WINAPI *pVarDateFromUdate)(UDATE*,ULONG,DATE*);
static INT (WINAPI *pSystemTimeToVariantTime)(LPSYSTEMTIME,double*);
static INT (WINAPI *pVariantTimeToSystemTime)(double,LPSYSTEMTIME);
static INT (WINAPI *pDosDateTimeToVariantTime)(USHORT,USHORT,double*);
static INT (WINAPI *pVariantTimeToDosDateTime)(double,USHORT*,USHORT *);
static HRESULT (WINAPI *pVarFormatNumber)(LPVARIANT,int,int,int,int,ULONG,BSTR*);
static HRESULT (WINAPI *pVarFormat)(LPVARIANT,LPOLESTR,int,int,ULONG,BSTR*);
/* Get a conversion function ptr, return if function not available */
#define CHECKPTR(func) p##func = (void*)GetProcAddress(hOleaut32, #func); \
if (!p##func) { trace("function " # func " not available, not testing it\n"); return; }
/* Is a given function exported from oleaut32? */
#define HAVE_FUNC(func) ((void*)GetProcAddress(hOleaut32, #func) != NULL)
/* Have IRecordInfo data type? */
#define HAVE_OLEAUT32_RECORD HAVE_FUNC(SafeArraySetRecordInfo)
/* Have CY data type? */
#define HAVE_OLEAUT32_CY HAVE_FUNC(VarCyAdd)
/* Have I8/UI8 data type? */
#define HAVE_OLEAUT32_I8 HAVE_FUNC(VarI8FromI1)
/* Is this an ancient version with support for only I2/I4/R4/R8/DATE? */
#define IS_ANCIENT (!HAVE_FUNC(VarI1FromI2))
/* When comparing floating point values we cannot expect an exact match
* because the rounding errors depend on the exact algorithm.
*/
#define EQ_DOUBLE(a,b) (fabs((a)-(b))<1e-14)
#define EQ_FLOAT(a,b) (fabs((a)-(b))<1e-7)
#define SKIPTESTS(a) if((a > VT_CLSID+10) && (a < VT_BSTR_BLOB-10)) continue;
/* Allow our test macros to work for VT_NULL and VT_EMPTY too */
#define V_EMPTY(v) V_I4(v)
#define V_NULL(v) V_I4(v)
/* Size constraints for overflow tests */
#define I1_MAX 0x7f
#define I1_MIN ((-I1_MAX)-1)
#define UI1_MAX 0xff
#define UI1_MIN 0
#define I2_MAX 0x7fff
#define I2_MIN ((-I2_MAX)-1)
#define UI2_MAX 0xffff
#define UI2_MIN 0
#define I4_MAX 0x7fffffff
#define I4_MIN ((-I4_MAX)-1)
#define UI4_MAX 0xffffffff
#define UI4_MIN 0
#define I8_MAX (((LONGLONG)I4_MAX << 32) | UI4_MAX)
#define I8_MIN ((-I8_MAX)-1)
#define UI8_MAX (((ULONGLONG)UI4_MAX << 32) | UI4_MAX)
#define UI8_MIN 0
#define DATE_MAX 2958465
#define DATE_MIN -657434
#define R4_MAX FLT_MAX
#define R4_MIN FLT_MIN
#define R8_MAX DBL_MAX
#define R8_MIN DBL_MIN
/* Macros to set a DECIMAL */
#define SETDEC(dec, scl, sgn, hi, lo) S(U(dec)).scale = (BYTE)scl; \
S(U(dec)).sign = (BYTE)sgn; dec.Hi32 = (ULONG)hi; \
U1(dec).Lo64 = (ULONG64)lo
#define SETDEC64(dec, scl, sgn, hi, mid, lo) S(U(dec)).scale = (BYTE)scl; \
S(U(dec)).sign = (BYTE)sgn; dec.Hi32 = (ULONG)hi; \
S1(U1(dec)).Mid32 = mid; S1(U1(dec)).Lo32 = lo;
static inline int strcmpW( const WCHAR *str1, const WCHAR *str2 )
{
while (*str1 && (*str1 == *str2)) { str1++; str2++; }
return *str1 - *str2;
}
/* return the string text of a given variant type */
static const char *vtstr(int x)
{
switch(x) {
case 0:
return "VT_EMPTY";
case 1:
return "VT_NULL";
case 2:
return "VT_I2";
case 3:
return "VT_I4";
case 4:
return "VT_R4";
case 5:
return "VT_R8";
case 6:
return "VT_CY";
case 7:
return "VT_DATE";
case 8:
return "VT_BSTR";
case 9:
return "VT_DISPATCH";
case 10:
return "VT_ERROR";
case 11:
return "VT_BOOL";
case 12:
return "VT_VARIANT";
case 13:
return "VT_UNKNOWN";
case 14:
return "VT_DECIMAL";
case 15:
return "notdefined";
case 16:
return "VT_I1";
case 17:
return "VT_UI1";
case 18:
return "VT_UI2";
case 19:
return "VT_UI4";
case 20:
return "VT_I8";
case 21:
return "VT_UI8";
case 22:
return "VT_INT";
case 23:
return "VT_UINT";
case 24:
return "VT_VOID";
case 25:
return "VT_HRESULT";
case 26:
return "VT_PTR";
case 27:
return "VT_SAFEARRAY";
case 28:
return "VT_CARRAY";
case 29:
return "VT_USERDEFINED";
case 30:
return "VT_LPSTR";
case 31:
return "VT_LPWSTR";
case 36:
return "VT_RECORD";
case 64:
return "VT_FILETIME";
case 65:
return "VT_BLOB";
case 66:
return "VT_STREAM";
case 67:
return "VT_STORAGE";
case 68:
return "VT_STREAMED_OBJECT";
case 69:
return "VT_STORED_OBJECT";
case 70:
return "VT_BLOB_OBJECT";
case 71:
return "VT_CF";
case 72:
return "VT_CLSID";
case 0xFFF:
return "VT_BSTR_BLOB/VT_ILLEGALMASKED/VT_TYPEMASK";
case 0x1000:
return "VT_VECTOR";
case 0x2000:
return "VT_ARRAY";
case 0x4000:
return "VT_BYREF";
case 0x8000:
return "VT_BYREF";
case 0xFFFF:
return "VT_ILLEGAL";
default:
return "defineme";
}
}
static void test_VariantInit(void)
{
VARIANTARG v1, v2;
/* Test that VariantInit() only sets the type */
memset(&v1, -1, sizeof(v1));
v2 = v1;
V_VT(&v2) = VT_EMPTY;
VariantInit(&v1);
ok(!memcmp(&v1, &v2, sizeof(v1)), "VariantInit() set extra fields\n");
}
/* All possible combinations of extra V_VT() flags */
static const VARTYPE ExtraFlags[16] =
{
0,
VT_VECTOR,
VT_ARRAY,
VT_BYREF,
VT_RESERVED,
VT_VECTOR|VT_ARRAY,
VT_VECTOR|VT_BYREF,
VT_VECTOR|VT_RESERVED,
VT_VECTOR|VT_ARRAY|VT_BYREF,
VT_VECTOR|VT_ARRAY|VT_RESERVED,
VT_VECTOR|VT_BYREF|VT_RESERVED,
VT_VECTOR|VT_ARRAY|VT_BYREF|VT_RESERVED,
VT_ARRAY|VT_BYREF,
VT_ARRAY|VT_RESERVED,
VT_ARRAY|VT_BYREF|VT_RESERVED,
VT_BYREF|VT_RESERVED,
};
/* Determine if a vt is valid for VariantClear() */
static int IsValidVariantClearVT(VARTYPE vt, VARTYPE extraFlags)
{
int ret = 0;
/* Only the following flags/types are valid */
if ((vt <= VT_LPWSTR || vt == VT_RECORD || vt == VT_CLSID) &&
vt != (VARTYPE)15 &&
(vt < (VARTYPE)24 || vt > (VARTYPE)31) &&
(!(extraFlags & (VT_BYREF|VT_ARRAY)) || vt > VT_NULL) &&
(extraFlags == 0 || extraFlags == VT_BYREF || extraFlags == VT_ARRAY ||
extraFlags == (VT_ARRAY|VT_BYREF)))
ret = 1; /* ok */
if ((vt == VT_RECORD && !HAVE_OLEAUT32_RECORD) ||
((vt == VT_I8 || vt == VT_UI8) && !HAVE_OLEAUT32_I8))
ret = 0; /* Old versions of oleaut32 */
return ret;
}
typedef struct
{
const IUnknownVtbl *lpVtbl;
LONG ref;
LONG events;
} test_VariantClearImpl;
static HRESULT WINAPI VC_QueryInterface(LPUNKNOWN iface,REFIID riid,LPVOID *ppobj)
{
test_VariantClearImpl *This = (test_VariantClearImpl *)iface;
This->events |= 0x1;
return E_NOINTERFACE;
}
static ULONG WINAPI VC_AddRef(LPUNKNOWN iface) {
test_VariantClearImpl *This = (test_VariantClearImpl *)iface;
This->events |= 0x2;
return InterlockedIncrement(&This->ref);
}
static ULONG WINAPI VC_Release(LPUNKNOWN iface) {
test_VariantClearImpl *This = (test_VariantClearImpl *)iface;
/* static class, won't be freed */
This->events |= 0x4;
return InterlockedDecrement(&This->ref);
}
static const IUnknownVtbl test_VariantClear_vtbl = {
VC_QueryInterface,
VC_AddRef,
VC_Release,
};
static test_VariantClearImpl test_myVariantClearImpl = {&test_VariantClear_vtbl, 1, 0};
static void test_VariantClear(void)
{
HRESULT hres;
VARIANTARG v;
VARIANT v2;
size_t i;
long i4;
IUnknown *punk;
#if 0
/* Crashes: Native does not test input for NULL, so neither does Wine */
hres = VariantClear(NULL);
#endif
/* Only the type field is set, to VT_EMPTY */
V_VT(&v) = VT_UI4;
V_UI4(&v) = ~0u;
hres = VariantClear(&v);
ok((hres == S_OK && V_VT(&v) == VT_EMPTY) ||
(IS_ANCIENT && hres == DISP_E_BADVARTYPE && V_VT(&v) == VT_UI4),
"VariantClear: Type set to %d, res %08lx\n", V_VT(&v), hres);
ok(V_UI4(&v) == ~0u, "VariantClear: Overwrote value\n");
/* Test all possible V_VT values.
* Also demonstrates that null pointers in 'v' are not dereferenced.
* Individual variant tests should test VariantClear() with non-NULL values.
*/
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]) && !IS_ANCIENT; i++)
{
VARTYPE vt;
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
HRESULT hExpected = DISP_E_BADVARTYPE;
SKIPTESTS(vt);
memset(&v, 0, sizeof(v));
V_VT(&v) = vt | ExtraFlags[i];
hres = VariantClear(&v);
if (IsValidVariantClearVT(vt, ExtraFlags[i]))
hExpected = S_OK;
ok(hres == hExpected, "VariantClear: expected 0x%lX, got 0x%lX for vt %d | 0x%X\n",
hExpected, hres, vt, ExtraFlags[i]);
}
}
/* Some BYREF tests with non-NULL ptrs */
/* VARIANT BYREF */
V_VT(&v2) = VT_I4;
V_I4(&v2) = 0x1234;
V_VT(&v) = VT_VARIANT | VT_BYREF;
V_VARIANTREF(&v) = &v2;
hres = VariantClear(&v);
ok(hres == S_OK, "ret %08lx\n", hres);
ok(V_VT(&v) == 0, "vt %04x\n", V_VT(&v));
ok(V_VARIANTREF(&v) == &v2, "variant ref %p\n", V_VARIANTREF(&v2));
ok(V_VT(&v2) == VT_I4, "vt %04x\n", V_VT(&v2));
ok(V_I4(&v2) == 0x1234, "i4 %04lx\n", V_I4(&v2));
/* I4 BYREF */
i4 = 0x4321;
V_VT(&v) = VT_I4 | VT_BYREF;
V_I4REF(&v) = &i4;
hres = VariantClear(&v);
ok(hres == S_OK, "ret %08lx\n", hres);
ok(V_VT(&v) == 0, "vt %04x\n", V_VT(&v));
ok(V_I4REF(&v) == &i4, "i4 ref %p\n", V_I4REF(&v2));
ok(i4 == 0x4321, "i4 changed %08lx\n", i4);
/* UNKNOWN */
V_VT(&v) = VT_UNKNOWN;
V_UNKNOWN(&v) = (IUnknown*)&test_myVariantClearImpl;
test_myVariantClearImpl.events = 0;
hres = VariantClear(&v);
ok(hres == S_OK, "ret %08lx\n", hres);
ok(V_VT(&v) == 0, "vt %04x\n", V_VT(&v));
ok(V_UNKNOWN(&v) == (IUnknown*)&test_myVariantClearImpl, "unknown %p\n", V_UNKNOWN(&v));
/* Check that Release got called, but nothing else */
ok(test_myVariantClearImpl.events == 0x4, "Unexpected call. events %08lx\n", test_myVariantClearImpl.events);
/* UNKNOWN BYREF */
punk = (IUnknown*)&test_myVariantClearImpl;
V_VT(&v) = VT_UNKNOWN | VT_BYREF;
V_UNKNOWNREF(&v) = &punk;
test_myVariantClearImpl.events = 0;
hres = VariantClear(&v);
ok(hres == S_OK, "ret %08lx\n", hres);
ok(V_VT(&v) == 0, "vt %04x\n", V_VT(&v));
ok(V_UNKNOWNREF(&v) == &punk, "unknown ref %p\n", V_UNKNOWNREF(&v));
/* Check that nothing got called */
ok(test_myVariantClearImpl.events == 0, "Unexpected call. events %08lx\n", test_myVariantClearImpl.events);
/* DISPATCH */
V_VT(&v) = VT_DISPATCH;
V_DISPATCH(&v) = (IDispatch*)&test_myVariantClearImpl;
test_myVariantClearImpl.events = 0;
hres = VariantClear(&v);
ok(hres == S_OK, "ret %08lx\n", hres);
ok(V_VT(&v) == 0, "vt %04x\n", V_VT(&v));
ok(V_DISPATCH(&v) == (IDispatch*)&test_myVariantClearImpl, "dispatch %p\n", V_DISPATCH(&v));
/* Check that Release got called, but nothing else */
ok(test_myVariantClearImpl.events == 0x4, "Unexpected call. events %08lx\n", test_myVariantClearImpl.events);
/* DISPATCH BYREF */
punk = (IUnknown*)&test_myVariantClearImpl;
V_VT(&v) = VT_DISPATCH | VT_BYREF;
V_DISPATCHREF(&v) = (IDispatch**)&punk;
test_myVariantClearImpl.events = 0;
hres = VariantClear(&v);
ok(hres == S_OK, "ret %08lx\n", hres);
ok(V_VT(&v) == 0, "vt %04x\n", V_VT(&v));
ok(V_DISPATCHREF(&v) == (IDispatch**)&punk, "dispatch ref %p\n", V_DISPATCHREF(&v));
/* Check that nothing got called */
ok(test_myVariantClearImpl.events == 0, "Unexpected call. events %08lx\n", test_myVariantClearImpl.events);
}
static void test_VariantCopy(void)
{
VARIANTARG vSrc, vDst;
VARTYPE vt;
size_t i;
HRESULT hres, hExpected;
/* Establish that the failure/other cases are dealt with. Individual tests
* for each type should verify that data is copied correctly, references
* are updated, etc.
*/
/* vSrc == vDst */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]) && !IS_ANCIENT; i++)
{
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
SKIPTESTS(vt);
memset(&vSrc, 0, sizeof(vSrc));
V_VT(&vSrc) = vt | ExtraFlags[i];
hExpected = DISP_E_BADVARTYPE;
/* src is allowed to be a VT_CLSID */
if (vt != VT_CLSID && IsValidVariantClearVT(vt, ExtraFlags[i]))
hExpected = S_OK;
hres = VariantCopy(&vSrc, &vSrc);
ok(hres == hExpected,
"Copy(src==dst): expected 0x%lX, got 0x%lX for src==dest vt %d|0x%X\n",
hExpected, hres, vt, ExtraFlags[i]);
}
}
/* Test that if VariantClear() fails on dest, the function fails. This also
* shows that dest is in fact cleared and not just overwritten
*/
memset(&vSrc, 0, sizeof(vSrc));
V_VT(&vSrc) = VT_UI1;
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]) && !IS_ANCIENT; i++)
{
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
SKIPTESTS(vt);
hExpected = DISP_E_BADVARTYPE;
memset(&vDst, 0, sizeof(vDst));
V_VT(&vDst) = vt | ExtraFlags[i];
if (IsValidVariantClearVT(vt, ExtraFlags[i]))
hExpected = S_OK;
hres = VariantCopy(&vDst, &vSrc);
ok(hres == hExpected,
"Copy(bad dst): expected 0x%lX, got 0x%lX for dest vt %d|0x%X\n",
hExpected, hres, vt, ExtraFlags[i]);
if (hres == S_OK)
ok(V_VT(&vDst) == VT_UI1,
"Copy(bad dst): expected vt = VT_UI1, got %d\n", V_VT(&vDst));
}
}
/* Test that VariantClear() checks vSrc for validity before copying */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]) && !IS_ANCIENT; i++)
{
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
SKIPTESTS(vt);
hExpected = DISP_E_BADVARTYPE;
memset(&vDst, 0, sizeof(vDst));
V_VT(&vDst) = VT_EMPTY;
memset(&vSrc, 0, sizeof(vSrc));
V_VT(&vSrc) = vt | ExtraFlags[i];
/* src is allowed to be a VT_CLSID */
if (vt != VT_CLSID && IsValidVariantClearVT(vt, ExtraFlags[i]))
hExpected = S_OK;
hres = VariantCopy(&vDst, &vSrc);
ok(hres == hExpected,
"Copy(bad src): expected 0x%lX, got 0x%lX for src vt %d|0x%X\n",
hExpected, hres, vt, ExtraFlags[i]);
if (hres == S_OK)
ok(V_VT(&vDst) == (vt|ExtraFlags[i]),
"Copy(bad src): expected vt = %d, got %d\n",
vt | ExtraFlags[i], V_VT(&vDst));
}
}
}
/* Determine if a vt is valid for VariantCopyInd() */
static int IsValidVariantCopyIndVT(VARTYPE vt, VARTYPE extraFlags)
{
int ret = 0;
if ((extraFlags & VT_ARRAY) ||
(vt > VT_NULL && vt != (VARTYPE)15 && vt < VT_VOID &&
!(extraFlags & (VT_VECTOR|VT_RESERVED))))
{
ret = 1; /* ok */
}
return ret;
}
static void test_VariantCopyInd(void)
{
VARIANTARG vSrc, vDst, vRef, vRef2;
VARTYPE vt;
size_t i;
BYTE buffer[64];
HRESULT hres, hExpected;
memset(buffer, 0, sizeof(buffer));
/* vSrc == vDst */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]) && !IS_ANCIENT; i++)
{
if (ExtraFlags[i] & VT_ARRAY)
continue; /* Native crashes on NULL safearray */
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
SKIPTESTS(vt);
memset(&vSrc, 0, sizeof(vSrc));
V_VT(&vSrc) = vt | ExtraFlags[i];
hExpected = DISP_E_BADVARTYPE;
if (!(ExtraFlags[i] & VT_BYREF))
{
/* if src is not by-reference, acts as VariantCopy() */
if (vt != VT_CLSID && IsValidVariantClearVT(vt, ExtraFlags[i]))
hExpected = S_OK;
}
else
{
if (vt == VT_SAFEARRAY || vt == VT_BSTR || vt == VT_UNKNOWN ||
vt == VT_DISPATCH || vt == VT_RECORD)
continue; /* Need valid ptrs for deep copies */
V_BYREF(&vSrc) = &buffer;
hExpected = E_INVALIDARG;
if ((vt == VT_I8 || vt == VT_UI8) &&
ExtraFlags[i] == VT_BYREF)
{
if (HAVE_OLEAUT32_I8)
hExpected = S_OK; /* Only valid if I8 is a known type */
}
else if (IsValidVariantCopyIndVT(vt, ExtraFlags[i]))
hExpected = S_OK;
}
hres = VariantCopyInd(&vSrc, &vSrc);
ok(hres == hExpected,
"CopyInd(src==dst): expected 0x%lX, got 0x%lX for src==dst vt %d|0x%X\n",
hExpected, hres, vt, ExtraFlags[i]);
}
}
/* Bad dest */
memset(&vSrc, 0, sizeof(vSrc));
V_VT(&vSrc) = VT_UI1|VT_BYREF;
V_BYREF(&vSrc) = &buffer;
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]) && !IS_ANCIENT; i++)
{
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
SKIPTESTS(vt);
memset(&vDst, 0, sizeof(vDst));
V_VT(&vDst) = vt | ExtraFlags[i];
hExpected = DISP_E_BADVARTYPE;
if (IsValidVariantClearVT(vt, ExtraFlags[i]))
hExpected = S_OK;
hres = VariantCopyInd(&vDst, &vSrc);
ok(hres == hExpected,
"CopyInd(bad dst): expected 0x%lX, got 0x%lX for dst vt %d|0x%X\n",
hExpected, hres, vt, ExtraFlags[i]);
if (hres == S_OK)
ok(V_VT(&vDst) == VT_UI1,
"CopyInd(bad dst): expected vt = VT_UI1, got %d\n", V_VT(&vDst));
}
}
/* bad src */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]) && !IS_ANCIENT; i++)
{
if (ExtraFlags[i] & VT_ARRAY)
continue; /* Native crashes on NULL safearray */
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
SKIPTESTS(vt);
memset(&vDst, 0, sizeof(vDst));
V_VT(&vDst) = VT_EMPTY;
memset(&vSrc, 0, sizeof(vSrc));
V_VT(&vSrc) = vt | ExtraFlags[i];
hExpected = DISP_E_BADVARTYPE;
if (!(ExtraFlags[i] & VT_BYREF))
{
/* if src is not by-reference, acts as VariantCopy() */
if (vt != VT_CLSID && IsValidVariantClearVT(vt, ExtraFlags[i]))
hExpected = S_OK;
}
else
{
if (vt == VT_SAFEARRAY || vt == VT_BSTR || vt == VT_UNKNOWN ||
vt == VT_DISPATCH || vt == VT_RECORD)
continue; /* Need valid ptrs for deep copies, see vartype.c */
V_BYREF(&vSrc) = &buffer;
hExpected = E_INVALIDARG;
if ((vt == VT_I8 || vt == VT_UI8) &&
ExtraFlags[i] == VT_BYREF)
{
if (HAVE_OLEAUT32_I8)
hExpected = S_OK; /* Only valid if I8 is a known type */
}
else if (IsValidVariantCopyIndVT(vt, ExtraFlags[i]))
hExpected = S_OK;
}
hres = VariantCopyInd(&vDst, &vSrc);
ok(hres == hExpected,
"CopyInd(bad src): expected 0x%lX, got 0x%lX for src vt %d|0x%X\n",
hExpected, hres, vt, ExtraFlags[i]);
if (hres == S_OK)
{
if (vt == VT_VARIANT && ExtraFlags[i] == VT_BYREF)
{
/* Type of vDst should be the type of the referenced variant.
* Since we set the buffer to all zeros, its type should be
* VT_EMPTY.
*/
ok(V_VT(&vDst) == VT_EMPTY,
"CopyInd(bad src): expected dst vt = VT_EMPTY, got %d|0x%X\n",
V_VT(&vDst) & VT_TYPEMASK, V_VT(&vDst) & ~VT_TYPEMASK);
}
else
{
ok(V_VT(&vDst) == (vt|(ExtraFlags[i] & ~VT_BYREF)),
"CopyInd(bad src): expected dst vt = %d|0x%X, got %d|0x%X\n",
vt, ExtraFlags[i] & ~VT_BYREF,
V_VT(&vDst) & VT_TYPEMASK, V_VT(&vDst) & ~VT_TYPEMASK);
}
}
}
}
/* By-reference variants are dereferenced */
V_VT(&vRef) = VT_UI1;
V_UI1(&vRef) = 0x77;
V_VT(&vSrc) = VT_VARIANT|VT_BYREF;
V_VARIANTREF(&vSrc) = &vRef;
VariantInit(&vDst);
hres = VariantCopyInd(&vDst, &vSrc);
ok(V_VT(&vDst) == VT_UI1 && V_UI1(&vDst) == 0x77,
"CopyInd(deref): expected dst vt = VT_UI1, val 0x77, got %d|0x%X, 0x%2X\n",
V_VT(&vDst) & VT_TYPEMASK, V_VT(&vDst) & ~VT_TYPEMASK, V_UI1(&vDst));
/* By-reference variant to a by-reference type succeeds */
V_VT(&vRef) = VT_UI1|VT_BYREF;
V_UI1REF(&vRef) = buffer; buffer[0] = 0x88;
V_VT(&vSrc) = VT_VARIANT|VT_BYREF;
V_VARIANTREF(&vSrc) = &vRef;
VariantInit(&vDst);
hres = VariantCopyInd(&vDst, &vSrc);
ok(V_VT(&vDst) == VT_UI1 && V_UI1(&vDst) == 0x88,
"CopyInd(deref): expected dst vt = VT_UI1, val 0x77, got %d|0x%X, 0x%2X\n",
V_VT(&vDst) & VT_TYPEMASK, V_VT(&vDst) & ~VT_TYPEMASK, V_UI1(&vDst));
/* But a by-reference variant to a by-reference variant fails */
V_VT(&vRef2) = VT_UI1;
V_UI1(&vRef2) = 0x77;
V_VT(&vRef) = VT_VARIANT|VT_BYREF;
V_VARIANTREF(&vRef) = &vRef2;
V_VT(&vSrc) = VT_VARIANT|VT_BYREF;
V_VARIANTREF(&vSrc) = &vRef;
VariantInit(&vDst);
hres = VariantCopyInd(&vDst, &vSrc);
ok(hres == E_INVALIDARG,
"CopyInd(ref->ref): expected E_INVALIDARG, got 0x%08lx\n", hres);
}
static HRESULT (WINAPI *pVarParseNumFromStr)(OLECHAR*,LCID,ULONG,NUMPARSE*,BYTE*);
/* Macros for converting and testing the result of VarParseNumFromStr */
#define FAILDIG 255
#define CONVERTN(str,dig,flags) MultiByteToWideChar(CP_ACP,0,str,-1,buff,sizeof(buff)/sizeof(WCHAR)); \
memset(rgb, FAILDIG, sizeof(rgb)); memset(&np,-1,sizeof(np)); np.cDig = dig; np.dwInFlags = flags; \
hres = pVarParseNumFromStr(buff,lcid,LOCALE_NOUSEROVERRIDE,&np,rgb)
#define CONVERT(str,flags) CONVERTN(str,sizeof(rgb),flags)
#define EXPECT(a,b,c,d,e,f) ok(hres == (HRESULT)S_OK, "Call failed, hres = %08lx\n", hres); \
if (hres == (HRESULT)S_OK) { \
ok(np.cDig == (a), "Expected cDig = %d, got %d\n", (a), np.cDig); \
ok(np.dwInFlags == (b), "Expected dwInFlags = 0x%lx, got 0x%lx\n", (ULONG)(b), np.dwInFlags); \
ok(np.dwOutFlags == (c), "Expected dwOutFlags = 0x%lx, got 0x%lx\n", (ULONG)(c), np.dwOutFlags); \
ok(np.cchUsed == (d), "Expected cchUsed = %d, got %d\n", (d), np.cchUsed); \
ok(np.nBaseShift == (e), "Expected nBaseShift = %d, got %d\n", (e), np.nBaseShift); \
ok(np.nPwr10 == (f), "Expected nPwr10 = %d, got %d\n", (f), np.nPwr10); \
}
#define EXPECTRGB(a,b) ok(rgb[a] == b, "Digit[%d], expected %d, got %d\n", a, b, rgb[a])
#define EXPECTFAIL ok(hres == (HRESULT)DISP_E_TYPEMISMATCH, "Call succeeded, hres = %08lx\n", hres)
#define EXPECT2(a,b) EXPECTRGB(0,a); EXPECTRGB(1,b)
static void test_VarParseNumFromStr(void)
{
HRESULT hres;
OLECHAR buff[128];
/* Ensure all tests are using the same locale characters for '$', ',' etc */
LCID lcid = MAKELCID(MAKELANGID(LANG_ENGLISH,SUBLANG_ENGLISH_US),SORT_DEFAULT);
NUMPARSE np;
BYTE rgb[128];
/** No flags **/
CHECKPTR(VarParseNumFromStr);
/* Consume a single digit */
CONVERT("7", 0);
EXPECT(1,0,0,1,0,0);
EXPECT2(7,FAILDIG);
/* cDig is not literal digits - zeros are suppressed and nPwr10 is increased */
CONVERT("10", 0);
EXPECT(1,0,0,2,0,1);
/* Note: Win32 writes the trailing zeros if they are within cDig's limits,
* but then excludes them from the returned cDig count.
* In our implementation we don't bother writing them at all.
*/
EXPECTRGB(0, 1);
/* if cDig is too small and numbers follow, sets INEXACT */
CONVERTN("11",1, 0);
EXPECT(1,0,NUMPRS_INEXACT,2,0,1);
EXPECT2(1,FAILDIG);
/* Strips leading zeros */
CONVERT("01", 0);
EXPECT(1,0,0,2,0,0);
EXPECT2(1,FAILDIG);
/* Strips leading zeros */
CONVERTN("01",1, 0);
EXPECT(1,0,0,2,0,0);
EXPECT2(1,FAILDIG);
/* Fails on non digits */
CONVERT("a", 0);
EXPECTFAIL;
EXPECTRGB(0,FAILDIG);
/** NUMPRS_LEADING_WHITE/NUMPRS_TRAILING_WHITE **/
/* Without flag, fails on whitespace */
CONVERT(" 0", 0);
EXPECTFAIL;
EXPECTRGB(0,FAILDIG);
/* With flag, consumes whitespace */
CONVERT(" 0", NUMPRS_LEADING_WHITE);
EXPECT(1,NUMPRS_LEADING_WHITE,NUMPRS_LEADING_WHITE,2,0,0);
EXPECT2(0,FAILDIG);
/* Test TAB once, then assume it acts as space for all cases */
CONVERT("\t0", NUMPRS_LEADING_WHITE);
EXPECT(1,NUMPRS_LEADING_WHITE,NUMPRS_LEADING_WHITE,2,0,0);
EXPECT2(0,FAILDIG);
/* Doesn't pick up trailing whitespace without flag */
CONVERT("0 ", 0);
EXPECT(1,0,0,1,0,0);
EXPECT2(0,FAILDIG);
/* With flag, consumes trailing whitespace */
CONVERT("0 ", NUMPRS_TRAILING_WHITE);
EXPECT(1,NUMPRS_TRAILING_WHITE,NUMPRS_TRAILING_WHITE,2,0,0);
EXPECT2(0,FAILDIG);
/* Leading flag only consumes leading */
CONVERT(" 0 ", NUMPRS_LEADING_WHITE);
EXPECT(1,NUMPRS_LEADING_WHITE,NUMPRS_LEADING_WHITE,2,0,0);
EXPECT2(0,FAILDIG);
/* Both flags consumes both */
CONVERT(" 0 ", NUMPRS_LEADING_WHITE|NUMPRS_TRAILING_WHITE);
EXPECT(1,NUMPRS_LEADING_WHITE|NUMPRS_TRAILING_WHITE,NUMPRS_LEADING_WHITE|NUMPRS_TRAILING_WHITE,3,0,0);
EXPECT2(0,FAILDIG);
/** NUMPRS_LEADING_PLUS/NUMPRS_TRAILING_PLUS **/
/* Without flag, fails on + */
CONVERT("+0", 0);
EXPECTFAIL;
EXPECTRGB(0,FAILDIG);
/* With flag, consumes + */
CONVERT("+0", NUMPRS_LEADING_PLUS);
EXPECT(1,NUMPRS_LEADING_PLUS,NUMPRS_LEADING_PLUS,2,0,0);
EXPECT2(0,FAILDIG);
/* Without flag, doesn't consume trailing + */
CONVERT("0+", 0);
EXPECT(1,0,0,1,0,0);
EXPECT2(0,FAILDIG);
/* With flag, consumes trailing + */
CONVERT("0+", NUMPRS_TRAILING_PLUS);
EXPECT(1,NUMPRS_TRAILING_PLUS,NUMPRS_TRAILING_PLUS,2,0,0);
EXPECT2(0,FAILDIG);
/* With leading flag, doesn't consume trailing + */
CONVERT("+0+", NUMPRS_LEADING_PLUS);
EXPECT(1,NUMPRS_LEADING_PLUS,NUMPRS_LEADING_PLUS,2,0,0);
EXPECT2(0,FAILDIG);
/* Trailing + doesn't get consumed if we specify both (unlike whitespace) */
CONVERT("+0+", NUMPRS_LEADING_PLUS|NUMPRS_TRAILING_PLUS);
EXPECT(1,NUMPRS_LEADING_PLUS|NUMPRS_TRAILING_PLUS,NUMPRS_LEADING_PLUS,2,0,0);
EXPECT2(0,FAILDIG);
/** NUMPRS_LEADING_MINUS/NUMPRS_TRAILING_MINUS **/
/* Without flag, fails on - */
CONVERT("-0", 0);
EXPECTFAIL;
EXPECTRGB(0,FAILDIG);
/* With flag, consumes - */
CONVERT("-0", NUMPRS_LEADING_MINUS);
EXPECT(1,NUMPRS_LEADING_MINUS,NUMPRS_NEG|NUMPRS_LEADING_MINUS,2,0,0);
EXPECT2(0,FAILDIG);
/* Without flag, doesn't consume trailing - */
CONVERT("0-", 0);
EXPECT(1,0,0,1,0,0);
EXPECT2(0,FAILDIG);
/* With flag, consumes trailing - */
CONVERT("0-", NUMPRS_TRAILING_MINUS);
EXPECT(1,NUMPRS_TRAILING_MINUS,NUMPRS_NEG|NUMPRS_TRAILING_MINUS,2,0,0);
EXPECT2(0,FAILDIG);
/* With leading flag, doesn't consume trailing - */
CONVERT("-0-", NUMPRS_LEADING_MINUS);
EXPECT(1,NUMPRS_LEADING_MINUS,NUMPRS_NEG|NUMPRS_LEADING_MINUS,2,0,0);
EXPECT2(0,FAILDIG);
/* Trailing - doesn't get consumed if we specify both (unlike whitespace) */
CONVERT("-0-", NUMPRS_LEADING_MINUS|NUMPRS_TRAILING_MINUS);
EXPECT(1,NUMPRS_LEADING_MINUS|NUMPRS_TRAILING_MINUS,NUMPRS_NEG|NUMPRS_LEADING_MINUS,2,0,0);
EXPECT2(0,FAILDIG);
/** NUMPRS_HEX_OCT **/
/* Could be hex, octal or decimal - With flag reads as decimal */
CONVERT("0", NUMPRS_HEX_OCT);
EXPECT(1,NUMPRS_HEX_OCT,0,1,0,0);
EXPECT2(0,FAILDIG);
/* Doesn't recognise hex in .asm sytax */
CONVERT("0h", NUMPRS_HEX_OCT);
EXPECT(1,NUMPRS_HEX_OCT,0,1,0,0);
EXPECT2(0,FAILDIG);
/* Doesn't fail with valid leading string but no digits */
CONVERT("0x", NUMPRS_HEX_OCT);
EXPECT(1,NUMPRS_HEX_OCT,0,1,0,0);
EXPECT2(0,FAILDIG);
/* Doesn't recognise hex format humbers at all! */
CONVERT("0x0", NUMPRS_HEX_OCT);
EXPECT(1,NUMPRS_HEX_OCT,0,1,0,0);
EXPECT2(0,FAILDIG);
/* Doesn't recognise plain hex digits either */
CONVERT("FE", NUMPRS_HEX_OCT);
EXPECTFAIL;
EXPECTRGB(0,FAILDIG);
/* Octal */
CONVERT("0100", NUMPRS_HEX_OCT);
EXPECT(1,NUMPRS_HEX_OCT,0,4,0,2);
EXPECTRGB(0,1);
EXPECTRGB(1,0);
EXPECTRGB(2,0);
EXPECTRGB(3,FAILDIG);
/* VB hex */
CONVERT("&HF800", NUMPRS_HEX_OCT);
EXPECT(4,NUMPRS_HEX_OCT,0x40,6,4,0);
EXPECTRGB(0,15);
EXPECTRGB(1,8);
EXPECTRGB(2,0);
EXPECTRGB(3,0);
EXPECTRGB(4,FAILDIG);
/* VB hex lower case and leading zero */
CONVERT("&h0abcd", NUMPRS_HEX_OCT);
EXPECT(4,NUMPRS_HEX_OCT,0x40,7,4,0);
EXPECTRGB(0,10);
EXPECTRGB(1,11);
EXPECTRGB(2,12);
EXPECTRGB(3,13);
EXPECTRGB(4,FAILDIG);
/* VB oct */
CONVERT("&O300", NUMPRS_HEX_OCT);
EXPECT(3,NUMPRS_HEX_OCT,0x40,5,3,0);
EXPECTRGB(0,3);
EXPECTRGB(1,0);
EXPECTRGB(2,0);
EXPECTRGB(3,FAILDIG);
/* VB oct lower case and leading zero */
CONVERT("&o0777", NUMPRS_HEX_OCT);
EXPECT(3,NUMPRS_HEX_OCT,0x40,6,3,0);
EXPECTRGB(0,7);
EXPECTRGB(1,7);
EXPECTRGB(2,7);
EXPECTRGB(3,FAILDIG);
/* VB oct char bigger than 7 */
CONVERT("&o128", NUMPRS_HEX_OCT);
/*
Native versions 2.x of oleaut32 allow this to succeed: later versions and Wine don't
EXPECTFAIL;
EXPECTRGB(0,FAILDIG);
*/
/** NUMPRS_PARENS **/
/* Empty parens = error */
CONVERT("()", NUMPRS_PARENS);
EXPECTFAIL;
EXPECTRGB(0,FAILDIG);
/* With flag, trailing parens not consumed */
CONVERT("0()", NUMPRS_PARENS);
EXPECT(1,NUMPRS_PARENS,0,1,0,0);
EXPECT2(0,FAILDIG);
/* With flag, Number in parens made negative and parens consumed */
CONVERT("(0)", NUMPRS_PARENS);
EXPECT(1,NUMPRS_PARENS,NUMPRS_NEG|NUMPRS_PARENS,3,0,0);
EXPECT2(0,FAILDIG);
/** NUMPRS_THOUSANDS **/
/* With flag, thousands sep. not needed */
CONVERT("0", NUMPRS_THOUSANDS);
EXPECT(1,NUMPRS_THOUSANDS,0,1,0,0);
EXPECT2(0,FAILDIG);
/* With flag, thousands sep. and following digits consumed */
CONVERT("1,000", NUMPRS_THOUSANDS);
EXPECT(1,NUMPRS_THOUSANDS,NUMPRS_THOUSANDS,5,0,3);
EXPECTRGB(0,1);
/* With flag and decimal point, thousands sep. but not decimals consumed */
CONVERT("1,000.0", NUMPRS_THOUSANDS);
EXPECT(1,NUMPRS_THOUSANDS,NUMPRS_THOUSANDS,5,0,3);
EXPECTRGB(0,1);
/** NUMPRS_CURRENCY **/
/* Without flag, chokes on currency sign */
CONVERT("$11", 0);
EXPECTFAIL;
EXPECTRGB(0,FAILDIG);
/* With flag, consumes currency sign */
CONVERT("$11", NUMPRS_CURRENCY);
EXPECT(2,NUMPRS_CURRENCY,NUMPRS_CURRENCY,3,0,0);
EXPECT2(1,1);
EXPECTRGB(2,FAILDIG);
/* With flag only, doesn't consume decimal point */
CONVERT("$11.1", NUMPRS_CURRENCY);
EXPECT(2,NUMPRS_CURRENCY,NUMPRS_CURRENCY,3,0,0);
EXPECT2(1,1);
EXPECTRGB(2,FAILDIG);
/* With flag and decimal flag, consumes decimal point and following digits */
CONVERT("$11.1", NUMPRS_CURRENCY|NUMPRS_DECIMAL);
EXPECT(3,NUMPRS_CURRENCY|NUMPRS_DECIMAL,NUMPRS_CURRENCY|NUMPRS_DECIMAL,5,0,-1);
EXPECT2(1,1);
EXPECTRGB(2,1);
EXPECTRGB(3,FAILDIG);
/* Thousands flag can only be used with currency */
CONVERT("$1,234", NUMPRS_CURRENCY|NUMPRS_THOUSANDS);
EXPECT(4,NUMPRS_CURRENCY|NUMPRS_THOUSANDS,NUMPRS_CURRENCY|NUMPRS_THOUSANDS,6,0,0);
EXPECT2(1,2);
EXPECTRGB(2,3);
EXPECTRGB(3,4);
EXPECTRGB(4,FAILDIG);
/** NUMPRS_DECIMAL **/
/* With flag, consumes decimal point */
CONVERT("1.1", NUMPRS_DECIMAL);
EXPECT(2,NUMPRS_DECIMAL,NUMPRS_DECIMAL,3,0,-1);
EXPECT2(1,1);
EXPECTRGB(2,FAILDIG);
/* With flag, consumes decimal point. Skipping the decimal part is not an error */
CONVERT("1.", NUMPRS_DECIMAL);
EXPECT(1,NUMPRS_DECIMAL,NUMPRS_DECIMAL,2,0,0);
EXPECT2(1,FAILDIG);
/* Consumes only one decimal point */
CONVERT("1.1.", NUMPRS_DECIMAL);
EXPECT(2,NUMPRS_DECIMAL,NUMPRS_DECIMAL,3,0,-1);
EXPECT2(1,1);
EXPECTRGB(2,FAILDIG);
/** NUMPRS_EXPONENT **/
/* Without flag, doesn't consume exponent */
CONVERT("1e1", 0);
EXPECT(1,0,0,1,0,0);
EXPECT2(1,FAILDIG);
/* With flag, consumes exponent */
CONVERT("1e1", NUMPRS_EXPONENT);
EXPECT(1,NUMPRS_EXPONENT,NUMPRS_EXPONENT,3,0,1);
EXPECT2(1,FAILDIG);
/* Negative exponents are accepted without flags */
CONVERT("1e-1", NUMPRS_EXPONENT);
EXPECT(1,NUMPRS_EXPONENT,NUMPRS_EXPONENT,4,0,-1);
EXPECT2(1,FAILDIG);
/* As are positive exponents and leading exponent 0's */
CONVERT("1e+01", NUMPRS_EXPONENT);
EXPECT(1,NUMPRS_EXPONENT,NUMPRS_EXPONENT,5,0,1);
EXPECT2(1,FAILDIG);
/* The same for zero exponents */
CONVERT("1e0", NUMPRS_EXPONENT);
EXPECT(1,NUMPRS_EXPONENT,NUMPRS_EXPONENT,3,0,0);
EXPECT2(1,FAILDIG);
/* Sign on a zero exponent doesn't matter */
CONVERT("1e+0", NUMPRS_EXPONENT);
EXPECT(1,NUMPRS_EXPONENT,NUMPRS_EXPONENT,4,0,0);
EXPECT2(1,FAILDIG);
CONVERT("1e-0", NUMPRS_EXPONENT);
EXPECT(1,NUMPRS_EXPONENT,NUMPRS_EXPONENT,4,0,0);
EXPECT2(1,FAILDIG);
/* Doesn't consume a real number exponent */
CONVERT("1e1.", NUMPRS_EXPONENT);
EXPECT(1,NUMPRS_EXPONENT,NUMPRS_EXPONENT,3,0,1);
EXPECT2(1,FAILDIG);
/* Powers of 10 are calculated from the position of any decimal point */
CONVERT("1.5e20", NUMPRS_EXPONENT|NUMPRS_DECIMAL);
EXPECT(2,NUMPRS_EXPONENT|NUMPRS_DECIMAL,NUMPRS_EXPONENT|NUMPRS_DECIMAL,6,0,19);
EXPECT2(1,5);
CONVERT("1.5e-20", NUMPRS_EXPONENT|NUMPRS_DECIMAL);
EXPECT(2,NUMPRS_EXPONENT|NUMPRS_DECIMAL,NUMPRS_EXPONENT|NUMPRS_DECIMAL,7,0,-21);
EXPECT2(1,5);
/** NUMPRS_USE_ALL **/
/* Flag expects all digits */
CONVERT("0", NUMPRS_USE_ALL);
EXPECT(1,NUMPRS_USE_ALL,0,1,0,0);
EXPECT2(0,FAILDIG);
/* Rejects anything trailing */
CONVERT("0 ", NUMPRS_USE_ALL);
EXPECTFAIL;
EXPECT2(0,FAILDIG);
/* Unless consumed by trailing flag */
CONVERT("0 ", NUMPRS_USE_ALL|NUMPRS_TRAILING_WHITE);
EXPECT(1,NUMPRS_USE_ALL|NUMPRS_TRAILING_WHITE,NUMPRS_TRAILING_WHITE,2,0,0);
EXPECT2(0,FAILDIG);
/** Combinations **/
/* Leading whitepace and plus, doesn't consume trailing whitespace */
CONVERT("+ 0 ", NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE);
EXPECT(1,NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE,NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE,3,0,0);
EXPECT2(0,FAILDIG);
/* Order of whitepace and plus is unimportant */
CONVERT(" +0", NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE);
EXPECT(1,NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE,NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE,3,0,0);
EXPECT2(0,FAILDIG);
/* Leading whitespace can be repeated */
CONVERT(" + 0", NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE);
EXPECT(1,NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE,NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE,4,0,0);
EXPECT2(0,FAILDIG);
/* But plus/minus etc. cannot */
CONVERT("+ +0", NUMPRS_LEADING_PLUS|NUMPRS_LEADING_WHITE);
EXPECTFAIL;
EXPECTRGB(0,FAILDIG);
/* Inexact is not set if trailing zeros are removed */
CONVERTN("10", 1, 0);
EXPECT(1,0,0,2,0,1);
EXPECT2(1,FAILDIG);
/* Make sure a leading 0 is stripped but decimals after it get read */
CONVERT("-0.51", NUMPRS_STD);
EXPECT(2,NUMPRS_STD,NUMPRS_NEG|NUMPRS_DECIMAL|NUMPRS_LEADING_MINUS,5,0,-2);
EXPECT2(5,1);
/* Keep trailing zeros on whole number part of a decimal */
CONVERT("10.1", NUMPRS_STD);
EXPECT(3,NUMPRS_STD,NUMPRS_DECIMAL,4,0,-1);
EXPECT2(1,0);
EXPECTRGB(2,1);
/* Zeros after decimal sign */
CONVERT("0.01", NUMPRS_STD);
EXPECT(1,NUMPRS_STD,NUMPRS_DECIMAL,4,0,-2);
EXPECT2(1,FAILDIG);
/* Trailing zeros after decimal part */
CONVERT("0.10", NUMPRS_STD);
EXPECT(1,NUMPRS_STD,NUMPRS_DECIMAL,4,0,-1);
EXPECT2(1,0);
}
static HRESULT (WINAPI *pVarNumFromParseNum)(NUMPARSE*,BYTE*,ULONG,VARIANT*);
/* Macros for converting and testing the result of VarNumFromParseNum */
#define SETRGB(indx,val) if (!indx) memset(rgb, FAILDIG, sizeof(rgb)); rgb[indx] = val
#undef CONVERT
#define CONVERT(a,b,c,d,e,f,bits) \
np.cDig = (a); np.dwInFlags = (b); np.dwOutFlags = (c); np.cchUsed = (d); \
np.nBaseShift = (e); np.nPwr10 = (f); hres = pVarNumFromParseNum(&np, rgb, bits, &vOut)
static const char *szFailOverflow = "Expected overflow, hres = %08lx\n";
#define EXPECT_OVERFLOW ok(hres == (HRESULT)DISP_E_OVERFLOW, szFailOverflow, hres)
static const char *szFailOk = "Call failed, hres = %08lx\n";
#define EXPECT_OK ok(hres == (HRESULT)S_OK, szFailOk, hres); \
if (hres == (HRESULT)S_OK)
#define EXPECT_TYPE(typ) ok(V_VT(&vOut) == typ,"Expected Type = " #typ ", got %d\n", V_VT(&vOut))
#define EXPECT_I1(val) EXPECT_OK { EXPECT_TYPE(VT_I1); \
ok(V_I1(&vOut) == val, "Expected i1 = %d, got %d\n", (signed char)val, V_I1(&vOut)); }
#define EXPECT_UI1(val) EXPECT_OK { EXPECT_TYPE(VT_UI1); \
ok(V_UI1(&vOut) == val, "Expected ui1 = %d, got %d\n", (BYTE)val, V_UI1(&vOut)); }
#define EXPECT_I2(val) EXPECT_OK { EXPECT_TYPE(VT_I2); \
ok(V_I2(&vOut) == val, "Expected i2 = %d, got %d\n", (SHORT)val, V_I2(&vOut)); }
#define EXPECT_UI2(val) EXPECT_OK { EXPECT_TYPE(VT_UI2); \
ok(V_UI2(&vOut) == val, "Expected ui2 = %d, got %d\n", (USHORT)val, V_UI2(&vOut)); }
#define EXPECT_I4(val) EXPECT_OK { EXPECT_TYPE(VT_I4); \
ok(V_I4(&vOut) == val, "Expected i4 = %ld, got %ld\n", (LONG)val, V_I4(&vOut)); }
#define EXPECT_UI4(val) EXPECT_OK { EXPECT_TYPE(VT_UI4); \
ok(V_UI4(&vOut) == val, "Expected ui4 = %ld, got %ld\n", (ULONG)val, V_UI4(&vOut)); }
#define EXPECT_I8(high,low) EXPECT_OK { EXPECT_TYPE(VT_I8); \
ok(V_I8(&vOut) == ((((LONG64)(high))<<32)|(low)), "Expected i8 = %lx%08lx, got %lx%08lx\n", \
(LONG)(high), (LONG)(low), (LONG)(V_I8(&vOut)>>32), (LONG)V_I8(&vOut) ); }
#define EXPECT_UI8(val) EXPECT_OK { EXPECT_TYPE(VT_UI8); \
ok(V_UI8(&vOut) == val, "Expected ui8 = %lld, got %lld\n", (ULONG64)val, V_UI8(&vOut)); }
#define EXPECT_R4(val) EXPECT_OK { EXPECT_TYPE(VT_R4); \
ok(V_R4(&vOut) == val, "Expected r4 = %f, got %f\n", val, V_R4(&vOut)); }
#define EXPECT_R8(val) EXPECT_OK { EXPECT_TYPE(VT_R8); \
ok(V_R8(&vOut) == val, "Expected r8 = %g, got %g\n", val, V_R8(&vOut)); }
#define CY_MULTIPLIER 10000
#define EXPECT_CY(val) EXPECT_OK { EXPECT_TYPE(VT_CY); \
ok(V_CY(&vOut).int64 == (LONG64)(val * CY_MULTIPLIER), "Expected r8 = %lld, got %lld\n", (LONG64)val, V_CY(&vOut).int64); }
static void test_VarNumFromParseNum(void)
{
HRESULT hres;
NUMPARSE np;
BYTE rgb[128];
VARIANT vOut;
CHECKPTR(VarNumFromParseNum);
/* Convert the number 1 to different types */
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_I1); EXPECT_I1(1);
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_UI1); EXPECT_UI1(1);
/* Prefers a signed type to unsigned of the same size */
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_I1|VTBIT_UI1); EXPECT_I1(1);
/* But takes the smaller size if possible */
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_I2|VTBIT_UI1); EXPECT_UI1(1);
/* Try different integer sizes */
#define INTEGER_VTBITS (VTBIT_I1|VTBIT_UI1|VTBIT_I2|VTBIT_UI2|VTBIT_I4|VTBIT_UI4|VTBIT_I8|VTBIT_UI8)
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, INTEGER_VTBITS); EXPECT_I1(1);
/* 127 */
SETRGB(0, 1); SETRGB(1, 2); SETRGB(2, 7);
CONVERT(3,0,0,3,0,0, INTEGER_VTBITS); EXPECT_I1(127);
/* 128 */
SETRGB(0, 1); SETRGB(1, 2); SETRGB(2, 8);
CONVERT(3,0,0,3,0,0, INTEGER_VTBITS); EXPECT_UI1(128);
/* 255 */
SETRGB(0, 2); SETRGB(1, 5); SETRGB(2, 5);
CONVERT(3,0,0,3,0,0, INTEGER_VTBITS); EXPECT_UI1(255);
/* 256 */
SETRGB(0, 2); SETRGB(1, 5); SETRGB(2, 6);
CONVERT(3,0,0,3,0,0, INTEGER_VTBITS); EXPECT_I2(256);
/* 32767 */
SETRGB(0, 3); SETRGB(1, 2); SETRGB(2, 7); SETRGB(3, 6); SETRGB(4, 7);
CONVERT(5,0,0,5,0,0, INTEGER_VTBITS); EXPECT_I2(32767);
/* 32768 */
SETRGB(0, 3); SETRGB(1, 2); SETRGB(2, 7); SETRGB(3, 6); SETRGB(4, 8);
CONVERT(5,0,0,5,0,0, INTEGER_VTBITS); EXPECT_UI2(32768);
/* Assume the above pattern holds for remaining positive integers; test negative */
/* -128 */
SETRGB(0, 1); SETRGB(1, 2); SETRGB(2, 8);
CONVERT(3,0,NUMPRS_NEG,3,0,0, INTEGER_VTBITS); EXPECT_I1(-128);
/* -129 */
SETRGB(0, 1); SETRGB(1, 2); SETRGB(2, 9);
CONVERT(3,0,NUMPRS_NEG,3,0,0, INTEGER_VTBITS); EXPECT_I2(-129);
/* -32768 */
SETRGB(0, 3); SETRGB(1, 2); SETRGB(2, 7); SETRGB(3, 6); SETRGB(4, 8);
CONVERT(5,0,NUMPRS_NEG,5,0,0, INTEGER_VTBITS); EXPECT_I2(-32768);
/* -32768 */
SETRGB(0, 3); SETRGB(1, 2); SETRGB(2, 7); SETRGB(3, 6); SETRGB(4, 9);
CONVERT(5,0,NUMPRS_NEG,5,0,0, INTEGER_VTBITS); EXPECT_I4(-32769);
/* Assume the above pattern holds for remaining negative integers */
/* Test hexadecimal conversions */
SETRGB(0, 1); CONVERT(1,0,0,1,4,0, INTEGER_VTBITS); EXPECT_I1(0x01);
/* 0x7f */
SETRGB(0, 7); SETRGB(1, 0xf);
CONVERT(2,0,0,2,4,0, INTEGER_VTBITS); EXPECT_I1(0x7f);
/* 0x7fff */
SETRGB(0, 7); SETRGB(1, 0xf); SETRGB(2, 0xf); SETRGB(3, 0xf);
CONVERT(4,0,0,4,4,0, INTEGER_VTBITS); EXPECT_I2(0x7fff);
/* 0x7fffffff */
SETRGB(0, 7); SETRGB(1, 0xf); SETRGB(2, 0xf); SETRGB(3, 0xf);
SETRGB(4, 0xf); SETRGB(5, 0xf); SETRGB(6, 0xf); SETRGB(7, 0xf);
CONVERT(8,0,0,8,4,0, INTEGER_VTBITS); EXPECT_I4(0x7fffffffL);
/* 0x7fffffffffffffff (64 bits) */
SETRGB(0, 7); SETRGB(1, 0xf); SETRGB(2, 0xf); SETRGB(3, 0xf);
SETRGB(4, 0xf); SETRGB(5, 0xf); SETRGB(6, 0xf); SETRGB(7, 0xf);
SETRGB(8, 0xf); SETRGB(9, 0xf); SETRGB(10, 0xf); SETRGB(11, 0xf);
SETRGB(12, 0xf); SETRGB(13, 0xf); SETRGB(14, 0xf); SETRGB(15, 0xf);
if (HAVE_OLEAUT32_I8)
{
/* We cannot use INTEGER_VTBITS as WinXP and Win2003 are broken(?). They
truncate the number to the smallest integer size requested:
CONVERT(16,0,0,16,4,0, INTEGER_VTBITS); EXPECT_I1((signed char)0xff); */
CONVERT(16,0,0,16,4,0, VTBIT_I8); EXPECT_I8(0x7fffffff,0xffffffff);
}
/* Assume the above pattern holds for numbers without hi-bit set, test (preservation of) hi-bit */
/* 0x82 */
SETRGB(0, 8); SETRGB(1, 2);
CONVERT(2,0,0,2,4,0, INTEGER_VTBITS);
EXPECT_I1((signed char)0x82);
/* 0x8002 */
SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 2);
CONVERT(4,0,0,4,4,0, INTEGER_VTBITS);
EXPECT_I2((signed short)0x8002);
/* 0x80000002 */
SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 0);
SETRGB(4, 0); SETRGB(5, 0); SETRGB(6, 0); SETRGB(7, 2);
CONVERT(8,0,0,8,4,0, INTEGER_VTBITS); EXPECT_I4(0x80000002);
/* 0x8000000000000002 (64 bits) */
SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 0);
SETRGB(4, 0); SETRGB(5, 0); SETRGB(6, 0); SETRGB(7, 0);
SETRGB(8, 0); SETRGB(9, 0); SETRGB(10, 0); SETRGB(11, 0);
SETRGB(12, 0); SETRGB(13, 0); SETRGB(14, 0); SETRGB(15, 2);
if (HAVE_OLEAUT32_I8)
{
/* We cannot use INTEGER_VTBITS as WinXP and Win2003 are broken(?). They
truncate the number to the smallest integer size requested:
CONVERT(16,0,0,16,4,0, INTEGER_VTBITS & ~VTBIT_I1);
EXPECT_I2((signed short)0x0002); */
CONVERT(16,0,0,16,4,0, VTBIT_I8); EXPECT_I8(0x80000000,0x00000002);
}
/* Test (preservation of) hi-bit with STRICT type requesting */
/* 0x82 */
SETRGB(0, 8); SETRGB(1, 2);
CONVERT(2,0,0,2,4,0, VTBIT_I1);
EXPECT_I1((signed char)0x82);
/* 0x8002 */
SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 2);
CONVERT(4,0,0,4,4,0, VTBIT_I2);
EXPECT_I2((signed short)0x8002);
/* 0x80000002 */
SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 0);
SETRGB(4, 0); SETRGB(5, 0); SETRGB(6, 0); SETRGB(7, 2);
CONVERT(8,0,0,8,4,0, VTBIT_I4); EXPECT_I4(0x80000002);
/* 0x8000000000000002 (64 bits) */
SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 0);
SETRGB(4, 0); SETRGB(5, 0); SETRGB(6, 0); SETRGB(7, 0);
SETRGB(8, 0); SETRGB(9, 0); SETRGB(10, 0); SETRGB(11, 0);
SETRGB(12, 0); SETRGB(13, 0); SETRGB(14, 0); SETRGB(15, 2);
if (HAVE_OLEAUT32_I8)
{
CONVERT(16,0,0,16,4,0, VTBIT_I8); EXPECT_I8(0x80000000,0x00000002);
}
/* Assume the above pattern holds for numbers with hi-bit set */
/* Negative numbers overflow if we have only unsigned outputs */
/* -1 */
SETRGB(0, 1); CONVERT(1,0,NUMPRS_NEG,1,0,0, VTBIT_UI1); EXPECT_OVERFLOW;
/* -0.6 */
SETRGB(0, 6); CONVERT(1,0,NUMPRS_NEG,1,0,~0u, VTBIT_UI1); EXPECT_OVERFLOW;
/* Except that rounding is done first, so -0.5 to 0 are accepted as 0 */
/* -0.5 */
SETRGB(0, 5); CONVERT(1,0,NUMPRS_NEG,1,0,~0u, VTBIT_UI1); EXPECT_UI1(0);
/* Floating point zero is OK */
/* 0.00000000E0 */
SETRGB(0, 0); CONVERT(1,0,NUMPRS_DECIMAL|NUMPRS_EXPONENT,12,0,-8, VTBIT_R8);
EXPECT_R8(0.0);
/* Float is acceptable for an integer input value */
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_R4); EXPECT_R4(1.0f);
/* As is double */
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_R8); EXPECT_R8(1.0);
/* As is currency */
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_CY); EXPECT_CY(1);
/* Float is preferred over double */
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_R4|VTBIT_R8); EXPECT_R4(1.0f);
/* Double is preferred over currency */
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_R8|VTBIT_CY); EXPECT_R8(1.0);
/* Currency is preferred over decimal */
SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_CY|VTBIT_DECIMAL); EXPECT_CY(1);
}
static const char* szUdateFromDateFail = "%.16g expected %lx, %d,%d,%d,%d,%d,%d,%d %d %d"
", got %lx, %d,%d,%d,%d,%d,%d,%d %d %d\n";
#define DT2UD(dt,flags,r,d,m,y,h,mn,s,ms,dw,dy) \
memset(&ud, 0, sizeof(ud)); \
res = pVarUdateFromDate(dt, flags, &ud); \
ok(r == res && (FAILED(r) || (ud.st.wYear == y && ud.st.wMonth == m && ud.st.wDay == d && \
ud.st.wHour == h && ud.st.wMinute == mn && ud.st.wSecond == s && \
ud.st.wMilliseconds == ms && ud.st.wDayOfWeek == dw && ud.wDayOfYear == dy)), \
szUdateFromDateFail, dt, r, d, m, y, h, mn, s, ms, dw, dy, res, ud.st.wDay, ud.st.wMonth, \
ud.st.wYear, ud.st.wHour, ud.st.wMinute, ud.st.wSecond, \
ud.st.wMilliseconds, ud.st.wDayOfWeek, ud.wDayOfYear)
static void test_VarUdateFromDate(void)
{
UDATE ud;
HRESULT res;
CHECKPTR(VarUdateFromDate);
DT2UD(29221.0,0,S_OK,1,1,1980,0,0,0,0,2,1); /* 1 Jan 1980 */
DT2UD(29222.0,0,S_OK,2,1,1980,0,0,0,0,3,2); /* 2 Jan 1980 */
DT2UD(33238.0,0,S_OK,31,12,1990,0,0,0,0,1,365); /* 31 Dec 1990 */
DT2UD(0.0,0,S_OK,30,12,1899,0,0,0,0,6,364); /* 30 Dec 1899 - VT_DATE 0.0 */
DT2UD(-657434.0,0,S_OK,1,1,100,0,0,0,0,5,1); /* 1 Jan 100 - Min */
DT2UD(-657435.0,0,E_INVALIDARG,0,0,0,0,0,0,0,0,0); /* < 1 Jan 100 => err */
DT2UD(2958465.0,0,S_OK,31,12,9999,0,0,0,0,5,365); /* 31 Dec 9999 - Max */
DT2UD(2958466.0,0,E_INVALIDARG,0,0,0,0,0,0,0,0,0); /* > 31 Dec 9999 => err */
/* VAR_VALIDDATE doesn't prevent upper and lower bounds being checked */
DT2UD(-657435.0,VAR_VALIDDATE,E_INVALIDARG,0,0,0,0,0,0,0,0,0);
DT2UD(2958466.0,VAR_VALIDDATE,E_INVALIDARG,0,0,0,0,0,0,0,0,0);
/* Times */
DT2UD(29221.25,0,S_OK,1,1,1980,6,0,0,0,2,1); /* 6 AM */
DT2UD(29221.33333333,0,S_OK,1,1,1980,8,0,0,0,2,1); /* 8 AM */
DT2UD(29221.5,0,S_OK,1,1,1980,12,0,0,0,2,1); /* 12 AM */
DT2UD(29221.9888884444,0,S_OK,1,1,1980,23,44,0,0,2,1); /* 11:44 PM */
DT2UD(29221.7508765432,0,S_OK,1,1,1980,18,1,16,0,2,1); /* 6:18:02 PM */
}
#define UD2T(d,m,y,h,mn,s,ms,dw,dy,flags,r,dt) \
ud.st.wYear = (y); ud.st.wMonth = (m); ud.st.wDay = (d); ud.st.wHour = (h); \
ud.st.wMinute = (mn); ud.st.wSecond = (s); ud.st.wMilliseconds = (ms); \
ud.st.wDayOfWeek = (dw); ud.wDayOfYear = (dy); \
res = pVarDateFromUdate(&ud, (flags), &out); \
ok((r) == res && (FAILED(r) || fabs(out-(dt)) < 1.0e-11), \
"expected %lx, %.16g, got %lx, %.16g\n", r, dt, res, out)
static void test_VarDateFromUdate(void)
{
UDATE ud;
double out;
HRESULT res;
CHECKPTR(VarDateFromUdate);
UD2T(1,1,1980,0,0,0,0,2,1,0,S_OK,29221.0); /* 1 Jan 1980 */
UD2T(2,1,1980,0,0,0,0,3,2,0,S_OK,29222.0); /* 2 Jan 1980 */
UD2T(31,12,1990,0,0,0,0,0,0,0,S_OK,33238.0); /* 31 Dec 1990 */
UD2T(31,12,90,0,0,0,0,0,0,0,S_OK,33238.0); /* year < 100 is 1900+year! */
UD2T(30,12,1899,0,0,0,0,6,364,0,S_OK,0.0); /* 30 Dec 1899 - VT_DATE 0.0 */
UD2T(1,1,100,0,0,0,0,0,0,0,S_OK,-657434.0); /* 1 Jan 100 - Min */
UD2T(31,12,9999,0,0,0,0,0,0,0,S_OK,2958465.0); /* 31 Dec 9999 - Max */
UD2T(1,1,10000,0,0,0,0,0,0,0,E_INVALIDARG,0.0); /* > 31 Dec 9999 => err */
UD2T(1,1,1980,18,1,16,0,2,1,0,S_OK,29221.75087962963); /* 6:18:02 PM */
UD2T(0,1,1980,0,0,0,0,2,1,0,S_OK,29220.0); /* Rolls back to 31 Dec 1899 */
UD2T(1,13,1980,0,0,0,0,2,1,0,S_OK,29587.0); /* Rolls fwd to 1/1/1981 */
}
#define ST2DT(d,m,y,h,mn,s,ms,r,dt) \
st.wYear = y; st.wMonth = m; st.wDay = d; st.wHour = h; st.wMinute = mn; \
st.wSecond = s; st.wMilliseconds = ms; st.wDayOfWeek = 0; \
res = pSystemTimeToVariantTime(&st, &out); \
ok(r == res && (!r || fabs(out-dt) < 1.0e-11), \
"expected %d, %.16g, got %d, %.16g\n", r, dt, res, out)
static void test_SystemTimeToVariantTime(void)
{
SYSTEMTIME st;
double out;
int res;
CHECKPTR(SystemTimeToVariantTime);
ST2DT(1,1,1980,0,0,0,0,TRUE,29221.0);
ST2DT(2,1,1980,0,0,0,0,TRUE,29222.0);
ST2DT(0,1,1980,0,0,0,0,TRUE,29220.0); /* Rolls back to 31 Dec 1899 */
ST2DT(1,13,1980,0,0,0,0,FALSE,29587.0); /* Fails on invalid month */
ST2DT(31,12,90,0,0,0,0,TRUE,33238.0); /* year < 100 is 1900+year! */
}
#define DT2ST(dt,r,d,m,y,h,mn,s,ms) \
memset(&st, 0, sizeof(st)); \
res = pVariantTimeToSystemTime(dt, &st); \
ok(r == res && (!r || (st.wYear == y && st.wMonth == m && st.wDay == d && \
st.wHour == h && st.wMinute == mn && st.wSecond == s && \
st.wMilliseconds == ms)), \
"%.16g expected %d, %d,%d,%d,%d,%d,%d,%d, got %d, %d,%d,%d,%d,%d,%d,%d\n", \
dt, r, d, m, y, h, mn, s, ms, res, st.wDay, st.wMonth, st.wYear, \
st.wHour, st.wMinute, st.wSecond, st.wMilliseconds)
static void test_VariantTimeToSystemTime(void)
{
SYSTEMTIME st;
int res;
CHECKPTR(VariantTimeToSystemTime);
DT2ST(29221.0,1,1,1,1980,0,0,0,0);
DT2ST(29222.0,1,2,1,1980,0,0,0,0);
}
#define MKDOSDATE(d,m,y) ((d & 0x1f) | ((m & 0xf) << 5) | (((y-1980) & 0x7f) << 9))
#define MKDOSTIME(h,m,s) (((s>>1) & 0x1f) | ((m & 0x3f) << 5) | ((h & 0x1f) << 11))
static const char *szDosDateToVarTimeFail = "expected %d, %.16g, got %d, %.16g\n";
#define DOS2DT(d,m,y,h,mn,s,r,dt) out = 0.0; \
dosDate = MKDOSDATE(d,m,y); \
dosTime = MKDOSTIME(h,mn,s); \
res = pDosDateTimeToVariantTime(dosDate, dosTime, &out); \
ok(r == res && (!r || fabs(out-dt) < 1.0e-11), \
szDosDateToVarTimeFail, r, dt, res, out)
static void test_DosDateTimeToVariantTime(void)
{
USHORT dosDate, dosTime;
double out;
INT res;
CHECKPTR(DosDateTimeToVariantTime);
/* Date */
DOS2DT(1,1,1980,0,0,0,1,29221.0); /* 1/1/1980 */
DOS2DT(31,12,2099,0,0,0,1,73050.0); /* 31/12/2099 */
/* Dates are limited to the dos date max of 31/12/2099 */
DOS2DT(31,12,2100,0,0,0,0,0.0); /* 31/12/2100 */
/* Days and months of 0 cause date to roll back 1 day or month */
DOS2DT(0,1,1980,0,0,0,1,29220.0); /* 0 Day => 31/12/1979 */
DOS2DT(1,0,1980,0,0,0,1,29190.0); /* 0 Mth => 1/12/1979 */
DOS2DT(0,0,1980,0,0,0,1,29189.0); /* 0 D/M => 30/11/1979 */
/* Days > days in the month cause date to roll forward 1 month */
DOS2DT(29,2,1981,0,0,0,1,29646.0); /* 29/2/1981 -> 3/1/1980 */
DOS2DT(30,2,1981,0,0,0,1,29647.0); /* 30/2/1981 -> 4/1/1980 */
/* Takes leap years into account when rolling forward */
DOS2DT(29,2,1980,0,0,0,1,29280.0); /* 2/29/1980 */
/* Months > 12 cause an error */
DOS2DT(2,13,1980,0,0,0,0,0.0);
/* Time */
DOS2DT(1,1,1980,0,0,29,1,29221.00032407407); /* 1/1/1980 12:00:28 AM */
DOS2DT(1,1,1980,0,0,31,1,29221.00034722222); /* 1/1/1980 12:00:30 AM */
DOS2DT(1,1,1980,0,59,0,1,29221.04097222222); /* 1/1/1980 12:59:00 AM */
DOS2DT(1,1,1980,0,60,0,0,0.0); /* Invalid seconds */
DOS2DT(1,1,1980,23,0,0,1,29221.95833333333); /* 1/1/1980 11:00:00 PM */
DOS2DT(1,1,1980,24,0,0,0,0.0); /* Invalid hours */
}
#define DT2DOS(dt,r,d,m,y,h,mn,s) dosTime = dosDate = 0; \
expDosDate = MKDOSDATE(d,m,y); \
expDosTime = MKDOSTIME(h,mn,s); \
res = pVariantTimeToDosDateTime(dt, &dosDate, &dosTime); \
ok(r == res && (!r || (dosTime == expDosTime && dosDate == expDosDate)), \
"%g: expected %d,%d(%d/%d/%d),%d(%d:%d:%d) got %d,%d(%d/%d/%d),%d(%d:%d:%d)\n", \
dt, r, expDosDate, expDosDate & 0x1f, (expDosDate >> 5) & 0xf, 1980 + (expDosDate >> 9), \
expDosTime, expDosTime >> 11, (expDosTime >> 5) & 0x3f, (expDosTime & 0x1f), \
res, dosDate, dosDate & 0x1f, (dosDate >> 5) & 0xf, 1980 + (dosDate >> 9), \
dosTime, dosTime >> 11, (dosTime >> 5) & 0x3f, (dosTime & 0x1f))
static void test_VariantTimeToDosDateTime(void)
{
USHORT dosDate, dosTime, expDosDate, expDosTime;
INT res;
CHECKPTR(VariantTimeToDosDateTime);
/* Date */
DT2DOS(29221.0,1,1,1,1980,0,0,0); /* 1/1/1980 */
DT2DOS(73050.0,1,31,12,2099,0,0,0); /* 31/12/2099 */
DT2DOS(29220.0,0,0,0,0,0,0,0); /* 31/12/1979 - out of range */
DT2DOS(73415.0,0,0,0,0,0,0,0); /* 31/12/2100 - out of range */
/* Time */
DT2DOS(29221.00032407407,1,1,1,1980,0,0,29); /* 1/1/1980 12:00:28 AM */
DT2DOS(29221.00034722222,1,1,1,1980,0,0,31); /* 1/1/1980 12:00:30 AM */
DT2DOS(29221.04097222222,1,1,1,1980,0,59,0); /* 1/1/1980 12:59:00 AM */
DT2DOS(29221.95833333333,1,1,1,1980,23,0,0); /* 1/1/1980 11:00:00 PM */
}
#define FMT_NUMBER(vt,val) \
VariantInit(&v); V_VT(&v) = vt; val(&v) = 1; \
hres = pVarFormatNumber(&v,2,0,0,0,0,&str); \
ok(hres == S_OK, "VarFormatNumber (vt %d): returned %8lx\n", vt, hres); \
if (hres == S_OK) \
ok(str && strcmpW(str,szResult1) == 0, \
"VarFormatNumber (vt %d): string different\n", vt)
static void test_VarFormatNumber(void)
{
static const WCHAR szSrc1[] = { '1','\0' };
static const WCHAR szResult1[] = { '1','.','0','0','\0' };
static const WCHAR szSrc2[] = { '-','1','\0' };
static const WCHAR szResult2[] = { '(','1','.','0','0',')','\0' };
char buff[8];
HRESULT hres;
VARIANT v;
BSTR str = NULL;
CHECKPTR(VarFormatNumber);
GetLocaleInfoA(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, buff, sizeof(buff)/sizeof(char));
if (buff[0] != '.' || buff[1])
{
trace("Skipping VarFormatNumber tests as decimal separator is '%s'\n", buff);
return;
}
FMT_NUMBER(VT_I1, V_I1);
FMT_NUMBER(VT_UI1, V_UI1);
FMT_NUMBER(VT_I2, V_I2);
FMT_NUMBER(VT_UI2, V_UI2);
FMT_NUMBER(VT_I4, V_I4);
FMT_NUMBER(VT_UI4, V_UI4);
if (HAVE_OLEAUT32_I8)
{
FMT_NUMBER(VT_I8, V_I8);
FMT_NUMBER(VT_UI8, V_UI8);
}
FMT_NUMBER(VT_R4, V_R4);
FMT_NUMBER(VT_R8, V_R8);
FMT_NUMBER(VT_BOOL, V_BOOL);
V_VT(&v) = VT_BSTR;
V_BSTR(&v) = SysAllocString(szSrc1);
hres = pVarFormatNumber(&v,2,0,0,0,0,&str);
ok(hres == S_OK, "VarFormatNumber (bstr): returned %8lx\n", hres);
if (hres == S_OK)
ok(str && strcmpW(str, szResult1) == 0, "VarFormatNumber (bstr): string different\n");
SysFreeString(V_BSTR(&v));
SysFreeString(str);
V_BSTR(&v) = SysAllocString(szSrc2);
hres = pVarFormatNumber(&v,2,0,-1,0,0,&str);
ok(hres == S_OK, "VarFormatNumber (bstr): returned %8lx\n", hres);
if (hres == S_OK)
ok(str && strcmpW(str, szResult2) == 0, "VarFormatNumber (-bstr): string different\n");
SysFreeString(V_BSTR(&v));
SysFreeString(str);
}
#define SIGNED_VTBITS (VTBIT_I1|VTBIT_I2|VTBIT_I4|VTBIT_I8|VTBIT_R4|VTBIT_R8)
static const char *szVarFmtFail = "VT %d|0x%04x Format %s: expected 0x%08lx, '%s', got 0x%08lx, '%s'\n";
#define VARFMT(vt,v,val,fmt,ret,str) do { \
if (out) SysFreeString(out); out = NULL; \
V_VT(&in) = (vt); v(&in) = val; \
if (fmt) MultiByteToWideChar(CP_ACP, 0, fmt, -1, buffW, sizeof(buffW)/sizeof(WCHAR)); \
hres = pVarFormat(&in,fmt ? buffW : NULL,fd,fw,flags,&out); \
if (SUCCEEDED(hres)) WideCharToMultiByte(CP_ACP, 0, out, -1, buff, sizeof(buff),0,0); \
else buff[0] = '\0'; \
ok(hres == ret && (FAILED(ret) || !strcmp(buff, str)), \
szVarFmtFail, \
(vt)&VT_TYPEMASK,(vt)&~VT_TYPEMASK,fmt?fmt:"<null>",ret,str,hres,buff); \
} while(0)
typedef struct tagFMTRES
{
LPCSTR fmt;
LPCSTR one_res;
LPCSTR zero_res;
} FMTRES;
static const FMTRES VarFormat_results[] =
{
{ NULL, "1", "0" },
{ "", "1", "0" },
{ "General Number", "1", "0" },
{ "Percent", "100.00%", "0.00%" },
{ "Standard", "1.00", "0.00" },
{ "Scientific","1.00E+00", "0.00E+00" },
{ "True/False", "True", "False" },
{ "On/Off", "On", "Off" },
{ "Yes/No", "Yes", "No" },
{ "#", "1", "" },
{ "##", "1", "" },
{ "#.#", "1.", "." },
{ "0", "1", "0" },
{ "00", "01", "00" },
{ "0.0", "1.0", "0.0" },
{ "00\\c\\o\\p\\y", "01copy","00copy" },
{ "\"pos\";\"neg\"", "pos", "pos" },
{ "\"pos\";\"neg\";\"zero\"","pos", "zero" }
};
typedef struct tagFMTDATERES
{
DATE val;
LPCSTR fmt;
LPCSTR res;
} FMTDATERES;
static const FMTDATERES VarFormat_date_results[] =
{
{ 0.0, "w", "7" },
{ 0.0, "w", "6" },
{ 0.0, "w", "5" },
{ 0.0, "w", "4" },
{ 0.0, "w", "3" },
{ 0.0, "w", "2" },
{ 0.0, "w", "1" }, /* First 7 entries must remain in this order! */
{ 2.525, "am/pm", "pm" },
{ 2.525, "AM/PM", "PM" },
{ 2.525, "A/P", "P" },
{ 2.525, "a/p", "p" },
{ 2.525, "q", "1" },
{ 2.525, "d", "1" },
{ 2.525, "dd", "01" },
{ 2.525, "ddd", "Mon" },
{ 2.525, "dddd", "Monday" },
{ 2.525, "mmm", "Jan" },
{ 2.525, "mmmm", "January" },
{ 2.525, "y", "1" },
{ 2.525, "yy", "00" },
{ 2.525, "yyy", "001" },
{ 2.525, "yyyy", "1900" },
{ 2.525, "dd mm yyyy hh:mm:ss", "01 01 1900 12:36:00" },
{ 2.525, "dd mm yyyy mm", "01 01 1900 01" },
{ 2.525, "dd mm yyyy :mm", "01 01 1900 :01" },
{ 2.525, "dd mm yyyy hh:mm", "01 01 1900 12:36" },
{ 2.525, "mm mm", "01 01" },
{ 2.525, "mm :mm:ss", "01 :01:00" },
{ 2.525, "mm :ss:mm", "01 :00:01" },
{ 2.525, "hh:mm :ss:mm", "12:36 :00:01" },
{ 2.525, "hh:dd :mm:mm", "12:01 :01:01" },
{ 2.525, "dd:hh :mm:mm", "01:12 :36:01" },
{ 2.525, "hh :mm:mm", "12 :36:01" },
{ 2.525, "dd :mm:mm", "01 :01:01" },
{ 2.525, "dd :mm:nn", "01 :01:36" },
{ 2.725, "hh:nn:ss A/P", "05:24:00 P" }
};
#define VNUMFMT(vt,v) \
for (i = 0; i < sizeof(VarFormat_results)/sizeof(FMTRES); i++) \
{ \
VARFMT(vt,v,1,VarFormat_results[i].fmt,S_OK,VarFormat_results[i].one_res); \
VARFMT(vt,v,0,VarFormat_results[i].fmt,S_OK,VarFormat_results[i].zero_res); \
} \
if ((1 << vt) & SIGNED_VTBITS) \
{ \
VARFMT(vt,v,-1,"\"pos\";\"neg\"",S_OK,"neg"); \
VARFMT(vt,v,-1,"\"pos\";\"neg\";\"zero\"",S_OK,"neg"); \
}
static void test_VarFormat(void)
{
static const WCHAR szTesting[] = { 't','e','s','t','i','n','g','\0' };
size_t i;
WCHAR buffW[256];
char buff[256];
VARIANT in;
VARIANT_BOOL bTrue = VARIANT_TRUE, bFalse = VARIANT_FALSE;
int fd = 0, fw = 0;
ULONG flags = 0;
BSTR bstrin, out = NULL;
HRESULT hres;
CHECKPTR(VarFormat);
if (PRIMARYLANGID(LANGIDFROMLCID(GetUserDefaultLCID())) != LANG_ENGLISH)
{
trace("Skipping VarFormat tests for non english language\n");
return;
}
GetLocaleInfoA(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, buff, sizeof(buff)/sizeof(char));
if (buff[0] != '.' || buff[1])
{
trace("Skipping VarFormat tests as decimal separator is '%s'\n", buff);
return;
}
GetLocaleInfoA(LOCALE_USER_DEFAULT, LOCALE_IDIGITS, buff, sizeof(buff)/sizeof(char));
if (buff[0] != '2' || buff[1])
{
trace("Skipping VarFormat tests as decimal places is '%s'\n", buff);
return;
}
VARFMT(VT_BOOL,V_BOOL,VARIANT_TRUE,"True/False",S_OK,"True");
VARFMT(VT_BOOL,V_BOOL,VARIANT_FALSE,"True/False",S_OK,"False");
VNUMFMT(VT_I1,V_I1);
VNUMFMT(VT_I2,V_I2);
VNUMFMT(VT_I4,V_I4);
if (HAVE_OLEAUT32_I8)
{
VNUMFMT(VT_I8,V_I8);
}
VNUMFMT(VT_INT,V_INT);
VNUMFMT(VT_UI1,V_UI1);
VNUMFMT(VT_UI2,V_UI2);
VNUMFMT(VT_UI4,V_UI4);
if (HAVE_OLEAUT32_I8)
{
VNUMFMT(VT_UI8,V_UI8);
}
VNUMFMT(VT_UINT,V_UINT);
VNUMFMT(VT_R4,V_R4);
VNUMFMT(VT_R8,V_R8);
/* Reference types are dereferenced */
VARFMT(VT_BOOL|VT_BYREF,V_BOOLREF,&bTrue,"True/False",S_OK,"True");
VARFMT(VT_BOOL|VT_BYREF,V_BOOLREF,&bFalse,"True/False",S_OK,"False");
/* Dates */
for (i = 0; i < sizeof(VarFormat_date_results)/sizeof(FMTDATERES); i++)
{
if (i < 7)
fd = i + 1; /* Test first day */
else
fd = 0;
VARFMT(VT_DATE,V_DATE,VarFormat_date_results[i].val,
VarFormat_date_results[i].fmt,S_OK,
VarFormat_date_results[i].res);
}
/* Strings */
bstrin = SysAllocString(szTesting);
VARFMT(VT_BSTR,V_BSTR,bstrin,"",S_OK,"testing");
VARFMT(VT_BSTR,V_BSTR,bstrin,"@",S_OK,"testing");
VARFMT(VT_BSTR,V_BSTR,bstrin,"&",S_OK,"testing");
VARFMT(VT_BSTR,V_BSTR,bstrin,"\\x@\\x@",S_OK,"xtxesting");
VARFMT(VT_BSTR,V_BSTR,bstrin,"\\x&\\x&",S_OK,"xtxesting");
VARFMT(VT_BSTR,V_BSTR,bstrin,"@\\x",S_OK,"txesting");
VARFMT(VT_BSTR,V_BSTR,bstrin,"@@@@@@@@",S_OK," testing");
VARFMT(VT_BSTR,V_BSTR,bstrin,"@\\x@@@@@@@",S_OK," xtesting");
VARFMT(VT_BSTR,V_BSTR,bstrin,"&&&&&&&&",S_OK,"testing");
VARFMT(VT_BSTR,V_BSTR,bstrin,"!&&&&&&&",S_OK,"testing");
VARFMT(VT_BSTR,V_BSTR,bstrin,"&&&&&&&!",S_OK,"testing");
VARFMT(VT_BSTR,V_BSTR,bstrin,">&&",S_OK,"TESTING");
VARFMT(VT_BSTR,V_BSTR,bstrin,"<&&",S_OK,"testing");
VARFMT(VT_BSTR,V_BSTR,bstrin,"<&>&",S_OK,"testing");
SysFreeString(bstrin);
/* Numeric values are converted to strings then output */
VARFMT(VT_I1,V_I1,1,"<&>&",S_OK,"1");
/* Number formats */
VARFMT(VT_I4,V_I4,1,"#00000000",S_OK,"00000001");
VARFMT(VT_I4,V_I4,1,"000###",S_OK,"000001");
VARFMT(VT_I4,V_I4,1,"#00##00#0",S_OK,"00000001");
VARFMT(VT_I4,V_I4,1,"1#####0000",S_OK,"10001");
todo_wine {
VARFMT(VT_I4,V_I4,100000,"#,###,###,###",S_OK,"100,000");
}
VARFMT(VT_R8,V_R8,1.23456789,"0#.0#0#0#0#0",S_OK,"01.234567890");
VARFMT(VT_R8,V_R8,1.2,"0#.0#0#0#0#0",S_OK,"01.200000000");
VARFMT(VT_R8,V_R8,9.87654321,"#0.#0#0#0#0#",S_OK,"9.87654321");
VARFMT(VT_R8,V_R8,9.8,"#0.#0#0#0#0#",S_OK,"9.80000000");
VARFMT(VT_R8,V_R8,0.00000008,"#0.#0#0#0#0#0",S_OK,"0.0000000800");
VARFMT(VT_R8,V_R8,0.00010705,"#0.##########",S_OK,"0.00010705");
VARFMT(VT_I4,V_I4,17,"#0",S_OK,"17");
VARFMT(VT_I4,V_I4,4711,"#0",S_OK,"4711");
VARFMT(VT_I4,V_I4,17,"#00",S_OK,"17");
VARFMT(VT_I4,V_I4,100,"0##",S_OK,"100");
VARFMT(VT_I4,V_I4,17,"#000",S_OK,"017");
VARFMT(VT_I4,V_I4,17,"#0.00",S_OK,"17.00");
VARFMT(VT_I4,V_I4,17,"#0000.00",S_OK,"0017.00");
VARFMT(VT_I4,V_I4,17,"#.00",S_OK,"17.00");
VARFMT(VT_R8,V_R8,1.7,"#.00",S_OK,"1.70");
VARFMT(VT_R8,V_R8,.17,"#.00",S_OK,".17");
VARFMT(VT_I4,V_I4,17,"#3",S_OK,"173");
VARFMT(VT_I4,V_I4,17,"#33",S_OK,"1733");
VARFMT(VT_I4,V_I4,17,"#3.33",S_OK,"173.33");
VARFMT(VT_I4,V_I4,17,"#3333.33",S_OK,"173333.33");
VARFMT(VT_I4,V_I4,17,"#.33",S_OK,"17.33");
VARFMT(VT_R8,V_R8,.17,"#.33",S_OK,".33");
VARFMT(VT_R8,V_R8,1.7,"0.0000E-000",S_OK,"1.7000E000");
VARFMT(VT_R8,V_R8,1.7,"0.0000e-1",S_OK,"1.7000e01");
VARFMT(VT_R8,V_R8,86.936849,"#0.000000000000e-000",S_OK,"86.936849000000e000");
VARFMT(VT_R8,V_R8,1.7,"#0",S_OK,"2");
VARFMT(VT_R8,V_R8,1.7,"#.33",S_OK,"2.33");
VARFMT(VT_R8,V_R8,1.7,"#3",S_OK,"23");
VARFMT(VT_R8,V_R8,1.73245,"0.0000E+000",S_OK,"1.7325E+000");
VARFMT(VT_R8,V_R8,9.9999999,"#0.000000",S_OK,"10.000000");
VARFMT(VT_R8,V_R8,1.7,"0.0000e+0#",S_OK,"1.7000e+0");
VARFMT(VT_R8,V_R8,100.0001e+0,"0.0000E+0",S_OK,"1.0000E+2");
VARFMT(VT_R8,V_R8,1000001,"0.0000e+1",S_OK,"1.0000e+61");
VARFMT(VT_R8,V_R8,100.0001e+25,"0.0000e+0",S_OK,"1.0000e+27");
VARFMT(VT_R8,V_R8,450.0001e+43,"#000.0000e+0",S_OK,"4500.0010e+42");
VARFMT(VT_R8,V_R8,0.0001e-11,"##00.0000e-0",S_OK,"1000.0000e-18");
VARFMT(VT_R8,V_R8,0.0317e-11,"0000.0000e-0",S_OK,"3170.0000e-16");
VARFMT(VT_R8,V_R8,0.0021e-11,"00##.0000e-0",S_OK,"2100.0000e-17");
VARFMT(VT_R8,V_R8,1.0001e-27,"##00.0000e-0",S_OK,"1000.1000e-30");
VARFMT(VT_R8,V_R8,47.11,".0000E+0",S_OK,".4711E+2");
VARFMT(VT_R8,V_R8,3.0401e-13,"#####.####e-0%",S_OK,"30401.e-15%");
/* 'out' is not cleared */
out = (BSTR)0x1;
pVarFormat(&in,NULL,fd,fw,flags,&out); /* Would crash if out is cleared */
out = NULL;
/* VT_NULL */
V_VT(&in) = VT_NULL;
hres = pVarFormat(&in,NULL,fd,fw,0,&out);
ok(hres == S_OK, "VarFormat failed with 0x%08lx\n", hres);
ok(out == NULL, "expected NULL formatted string\n");
/* Invalid args */
hres = pVarFormat(&in,NULL,fd,fw,flags,NULL);
ok(hres == E_INVALIDARG, "Null out: expected E_INVALIDARG, got 0x%08lx\n", hres);
hres = pVarFormat(NULL,NULL,fd,fw,flags,&out);
ok(hres == E_INVALIDARG, "Null in: expected E_INVALIDARG, got 0x%08lx\n", hres);
fd = -1;
VARFMT(VT_BOOL,V_BOOL,VARIANT_TRUE,"",E_INVALIDARG,"");
fd = 8;
VARFMT(VT_BOOL,V_BOOL,VARIANT_TRUE,"",E_INVALIDARG,"");
fd = 0; fw = -1;
VARFMT(VT_BOOL,V_BOOL,VARIANT_TRUE,"",E_INVALIDARG,"");
fw = 4;
VARFMT(VT_BOOL,V_BOOL,VARIANT_TRUE,"",E_INVALIDARG,"");
}
static HRESULT (WINAPI *pVarAbs)(LPVARIANT,LPVARIANT);
static const char *szVarAbsFail = "VarAbs: expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
#define VARABS(vt,val,rvt,rval) V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
memset(&vDst,0,sizeof(vDst)); hres = pVarAbs(&v,&vDst); \
ok(hres == S_OK && V_VT(&vDst) == VT_##rvt && V_##rvt(&vDst) == (rval), \
szVarAbsFail, VT_##rvt, (int)(rval), \
hres, V_VT(&vDst), (int)V_##rvt(&vDst))
static void test_VarAbs(void)
{
static const WCHAR szNum[] = {'-','1','.','1','\0' };
char buff[8];
HRESULT hres;
VARIANT v, vDst;
size_t i;
CHECKPTR(VarAbs);
/* Test all possible V_VT values.
*/
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE vt;
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
HRESULT hExpected = DISP_E_BADVARTYPE;
SKIPTESTS(vt);
memset(&v, 0, sizeof(v));
V_VT(&v) = vt | ExtraFlags[i];
V_VT(&vDst) = VT_EMPTY;
hres = pVarAbs(&v,&vDst);
if (ExtraFlags[i] & (VT_ARRAY|VT_ARRAY) ||
(!ExtraFlags[i] && (vt == VT_UNKNOWN || vt == VT_BSTR ||
vt == VT_DISPATCH || vt == VT_ERROR || vt == VT_RECORD)))
{
hExpected = DISP_E_TYPEMISMATCH;
}
else if (ExtraFlags[i] || vt >= VT_CLSID || vt == VT_VARIANT)
{
hExpected = DISP_E_BADVARTYPE;
}
else if (IsValidVariantClearVT(vt, ExtraFlags[i]))
hExpected = S_OK;
/* Native always fails on some vartypes that should be valid. don't
* check that Wine does the same; these are bugs in native.
*/
if (vt == VT_I8 || vt == VT_UI8 || vt == VT_INT || vt == VT_UINT ||
vt == VT_I1 || vt == VT_UI2 || vt == VT_UI4)
continue;
ok(hres == hExpected, "VarAbs: expected 0x%lX, got 0x%lX for vt %d | 0x%X\n",
hExpected, hres, vt, ExtraFlags[i]);
}
}
/* BOOL->I2, BSTR->R8, all others remain the same */
VARABS(BOOL,VARIANT_TRUE,I2,-VARIANT_TRUE);
VARABS(BOOL,VARIANT_FALSE,I2,VARIANT_FALSE);
VARABS(EMPTY,0,I2,0);
VARABS(EMPTY,1,I2,0);
VARABS(NULL,0,NULL,0);
VARABS(NULL,1,NULL,0);
VARABS(I2,1,I2,1);
VARABS(I2,-1,I2,1);
VARABS(I4,1,I4,1);
VARABS(I4,-1,I4,1);
VARABS(UI1,1,UI1,1);
VARABS(R4,1,R4,1);
VARABS(R4,-1,R4,1);
VARABS(R8,1,R8,1);
VARABS(R8,-1,R8,1);
VARABS(DATE,1,DATE,1);
VARABS(DATE,-1,DATE,1);
V_VT(&v) = VT_CY;
V_CY(&v).int64 = -10000;
memset(&vDst,0,sizeof(vDst));
hres = pVarAbs(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_CY && V_CY(&vDst).int64 == 10000,
"VarAbs(CY): expected 0x0 got 0x%lX\n", hres);
GetLocaleInfoA(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, buff, sizeof(buff)/sizeof(char));
if (buff[0] != '.' || buff[1])
{
trace("Skipping VarAbs(BSTR) as decimal separator is '%s'\n", buff);
return;
}
V_VT(&v) = VT_BSTR;
V_BSTR(&v) = (BSTR)szNum;
memset(&vDst,0,sizeof(vDst));
hres = pVarAbs(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_R8 && V_R8(&vDst) == 1.1,
"VarAbs: expected 0x0,%d,%g, got 0x%lX,%d,%g\n", VT_R8, 1.1, hres, V_VT(&vDst), V_R8(&vDst));
}
static HRESULT (WINAPI *pVarNot)(LPVARIANT,LPVARIANT);
static const char *szVarNotFail = "VarNot: expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
#define VARNOT(vt,val,rvt,rval) V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
memset(&vDst,0,sizeof(vDst)); hres = pVarNot(&v,&vDst); \
ok(hres == S_OK && V_VT(&vDst) == VT_##rvt && V_##rvt(&vDst) == (rval), \
szVarNotFail, VT_##rvt, (int)(rval), \
hres, V_VT(&vDst), (int)V_##rvt(&vDst))
static void test_VarNot(void)
{
static const WCHAR szNum0[] = {'0','\0' };
static const WCHAR szNum1[] = {'1','\0' };
HRESULT hres;
VARIANT v, vDst;
DECIMAL *pdec = &V_DECIMAL(&v);
CY *pcy = &V_CY(&v);
size_t i;
CHECKPTR(VarNot);
/* Test all possible V_VT values */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE vt;
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
HRESULT hExpected = DISP_E_BADVARTYPE;
SKIPTESTS(vt);
memset(&v, 0, sizeof(v));
V_VT(&v) = vt | ExtraFlags[i];
V_VT(&vDst) = VT_EMPTY;
switch (V_VT(&v))
{
case VT_I1: case VT_UI1: case VT_I2: case VT_UI2:
case VT_INT: case VT_UINT: case VT_I4: case VT_UI4:
case VT_R4: case VT_R8:
case VT_DECIMAL: case VT_BOOL: case VT_NULL: case VT_EMPTY:
case VT_DATE: case VT_CY:
hExpected = S_OK;
break;
case VT_I8: case VT_UI8:
if (HAVE_OLEAUT32_I8)
hExpected = S_OK;
break;
case VT_RECORD:
if (HAVE_OLEAUT32_RECORD)
hExpected = DISP_E_TYPEMISMATCH;
break;
case VT_UNKNOWN: case VT_BSTR: case VT_DISPATCH: case VT_ERROR:
hExpected = DISP_E_TYPEMISMATCH;
break;
default:
if (IsValidVariantClearVT(vt, ExtraFlags[i]) && vt != VT_CLSID)
hExpected = DISP_E_TYPEMISMATCH;
break;
}
hres = pVarNot(&v,&vDst);
ok(hres == hExpected, "VarNot: expected 0x%lX, got 0x%lX vt %d|0x%X\n",
hExpected, hres, vt, ExtraFlags[i]);
}
}
/* Test the values returned by all cases that can succeed */
VARNOT(EMPTY,0,I2,-1);
VARNOT(EMPTY,1,I2,-1);
VARNOT(NULL,0,NULL,0);
VARNOT(NULL,1,NULL,0);
VARNOT(BOOL,VARIANT_TRUE,BOOL,VARIANT_FALSE);
VARNOT(BOOL,VARIANT_FALSE,BOOL,VARIANT_TRUE);
VARNOT(I1,-1,I4,0);
VARNOT(I1,0,I4,-1);
VARNOT(I2,-1,I2,0);
VARNOT(I2,0,I2,-1);
VARNOT(I2,1,I2,-2);
VARNOT(I4,1,I4,-2);
VARNOT(I4,0,I4,-1);
VARNOT(UI1,1,UI1,254);
VARNOT(UI1,0,UI1,255);
VARNOT(UI2,0,I4,-1);
VARNOT(UI2,1,I4,-2);
VARNOT(UI4,0,I4,-1);
VARNOT(UI4,1,I4,-2);
VARNOT(INT,0,I4,-1);
VARNOT(INT,1,I4,-2);
VARNOT(UINT,0,I4,-1);
VARNOT(UINT,1,I4,-2);
if (HAVE_OLEAUT32_I8)
{
VARNOT(I8,1,I8,-2);
VARNOT(I8,0,I8,-1);
VARNOT(UI8,0,I4,-1);
VARNOT(UI8,1,I4,-2);
}
VARNOT(R4,1,I4,-2);
VARNOT(R4,0,I4,-1);
VARNOT(R8,1,I4,-2);
VARNOT(R8,0,I4,-1);
VARNOT(DATE,1,I4,-2);
VARNOT(DATE,0,I4,-1);
VARNOT(BSTR,(BSTR)szNum0,I4,-1);
ok(V_VT(&v) == VT_BSTR && V_BSTR(&v) == szNum0, "VarNot(0): changed input\n");
VARNOT(BSTR,(BSTR)szNum1,I4,-2);
ok(V_VT(&v) == VT_BSTR && V_BSTR(&v) == szNum1, "VarNot(1): changed input\n");
V_VT(&v) = VT_DECIMAL;
S(U(*pdec)).sign = DECIMAL_NEG;
S(U(*pdec)).scale = 0;
pdec->Hi32 = 0;
S1(U1(*pdec)).Mid32 = 0;
S1(U1(*pdec)).Lo32 = 1;
VARNOT(DECIMAL,*pdec,I4,0);
pcy->int64 = 10000;
VARNOT(CY,*pcy,I4,-2);
pcy->int64 = 0;
VARNOT(CY,*pcy,I4,-1);
pcy->int64 = -1;
VARNOT(CY,*pcy,I4,-1);
}
static HRESULT (WINAPI *pVarSub)(LPVARIANT,LPVARIANT,LPVARIANT);
static void test_VarSub(void)
{
VARIANT va, vb, vc;
HRESULT hr;
CHECKPTR(VarSub);
V_VT(&va) = VT_DATE;
V_DATE(&va) = 200000.0;
V_VT(&vb) = VT_DATE;
V_DATE(&vb) = 100000.0;
hr = pVarSub(&va, &vb, &vc);
ok(hr == S_OK,"VarSub of VT_DATE - VT_DATE failed with %lx\n", hr);
ok(V_VT(&vc) == VT_R8,"VarSub of VT_DATE - VT_DATE returned vt 0x%x\n", V_VT(&vc));
ok(((V_R8(&vc) > 99999.9) && (V_R8(&vc) < 100000.1)),"VarSub of VT_DATE - VT_DATE should return 100000.0, but returned %g\n", V_R8(&vc));
/* fprintf(stderr,"VarSub of 10000-20000 returned: %g\n", V_R8(&vc)); */
}
static const char *szVarModFail = "VarMod: expected 0x%lx,%d(%s),%d, got 0x%lX,%d(%s),%d\n";
#define VARMOD(vt1,vt2,val1,val2,rvt,rval,hexpected) V_VT(&v1) = VT_##vt1; V_##vt1(&v1) = val1; \
V_VT(&v2) = VT_##vt2; V_##vt2(&v2) = val2; \
memset(&vDst,0,sizeof(vDst)); hres = pVarMod(&v1,&v2,&vDst); \
ok(hres == hexpected && V_VT(&vDst) == VT_##rvt && V_##rvt(&vDst) == (rval), \
szVarModFail, hexpected, VT_##rvt, vtstr(VT_##rvt), (int)(rval), \
hres, V_VT(&vDst), vtstr(V_VT(&vDst)), (int)V_##rvt(&vDst))
static const char *szVarMod2Fail = "VarMod: expected 0x%lx,%d(%s),%d, got 0x%lX,%d(%s),%d\n";
#define VARMOD2(vt1,vt2,val1,val2,rvt,rval,hexpected) V_VT(&v1) = VT_##vt1; V_I4(&v1) = val1; \
V_VT(&v2) = VT_##vt2; V_I4(&v2) = val2; \
memset(&vDst,0,sizeof(vDst)); hres = pVarMod(&v1,&v2,&vDst); \
ok(hres == hexpected && V_VT(&vDst) == VT_##rvt && V_I4(&vDst) == (rval), \
szVarMod2Fail, hexpected, VT_##rvt, vtstr(VT_##rvt), (int)(rval), \
hres, V_VT(&vDst), vtstr(V_VT(&vDst)), (int)V_I4(&vDst))
static HRESULT (WINAPI *pVarMod)(LPVARIANT,LPVARIANT,LPVARIANT);
static void test_VarMod(void)
{
VARIANT v1, v2, vDst;
HRESULT hres;
HRESULT hexpected = 0;
static const WCHAR szNum0[] = {'1','2','5','\0'};
static const WCHAR szNum1[] = {'1','0','\0'};
int l, r;
BOOL lFound, rFound;
BOOL lValid, rValid;
BSTR strNum0, strNum1;
CHECKPTR(VarMod);
VARMOD(I1,BOOL,100,10,I4,0,S_OK);
VARMOD(I1,I1,100,10,I4,0,S_OK);
VARMOD(I1,UI1,100,10,I4,0,S_OK);
VARMOD(I1,I2,100,10,I4,0,S_OK);
VARMOD(I1,UI2,100,10,I4,0,S_OK);
VARMOD(I1,I4,100,10,I4,0,S_OK);
VARMOD(I1,UI4,100,10,I4,0,S_OK);
VARMOD(I1,R4,100,10,I4,0,S_OK);
VARMOD(I1,R8,100,10,I4,0,S_OK);
VARMOD(UI1,BOOL,100,10,I2,0,S_OK);
VARMOD(UI1,I1,100,10,I4,0,S_OK);
VARMOD(UI1,UI1,100,10,UI1,0,S_OK);
VARMOD(UI1,I2,100,10,I2,0,S_OK);
VARMOD(UI1,UI2,100,10,I4,0,S_OK);
VARMOD(UI1,I4,100,10,I4,0,S_OK);
VARMOD(UI1,UI4,100,10,I4,0,S_OK);
VARMOD(UI1,R4,100,10,I4,0,S_OK);
VARMOD(UI1,R8,100,10,I4,0,S_OK);
VARMOD(I2,BOOL,100,10,I2,0,S_OK);
VARMOD(I2,I1,100,10,I4,0,S_OK);
VARMOD(I2,UI1,100,10,I2,0,S_OK);
VARMOD(I2,I2,100,10,I2,0,S_OK);
VARMOD(I2,UI2,100,10,I4,0,S_OK);
VARMOD(I2,I4,100,10,I4,0,S_OK);
VARMOD(I2,UI4,100,10,I4,0,S_OK);
VARMOD(I2,R4,100,10,I4,0,S_OK);
VARMOD(I2,R8,100,10,I4,0,S_OK);
VARMOD(I4,BOOL,100,10,I4,0,S_OK);
VARMOD(I4,I1,100,10,I4,0,S_OK);
VARMOD(I4,UI1,100,10,I4,0,S_OK);
VARMOD(I4,I2,100,10,I4,0,S_OK);
VARMOD(I4,UI2,100,10,I4,0,S_OK);
VARMOD(I4,I4,100,10,I4,0,S_OK);
VARMOD(I4,UI4,100,10,I4,0,S_OK);
VARMOD(I4,R4,100,10,I4,0,S_OK);
VARMOD(I4,R8,100,10,I4,0,S_OK);
VARMOD(UI4,BOOL,100,10,I4,0,S_OK);
VARMOD(UI4,I1,100,10,I4,0,S_OK);
VARMOD(UI4,UI1,100,10,I4,0,S_OK);
VARMOD(UI4,I2,100,10,I4,0,S_OK);
VARMOD(UI4,UI2,100,10,I4,0,S_OK);
VARMOD(UI4,I4,100,10,I4,0,S_OK);
VARMOD(UI4,UI4,100,10,I4,0,S_OK);
VARMOD(UI4,R4,100,10,I4,0,S_OK);
VARMOD(UI4,R8,100,10,I4,0,S_OK);
VARMOD(R4,BOOL,100,10,I4,0,S_OK);
VARMOD(R4,I1,100,10,I4,0,S_OK);
VARMOD(R4,UI1,100,10,I4,0,S_OK);
VARMOD(R4,I2,100,10,I4,0,S_OK);
VARMOD(R4,UI2,100,10,I4,0,S_OK);
VARMOD(R4,I4,100,10,I4,0,S_OK);
VARMOD(R4,UI4,100,10,I4,0,S_OK);
VARMOD(R4,R4,100,10,I4,0,S_OK);
VARMOD(R4,R8,100,10,I4,0,S_OK);
VARMOD(R8,BOOL,100,10,I4,0,S_OK);
VARMOD(R8,I1,100,10,I4,0,S_OK);
VARMOD(R8,UI1,100,10,I4,0,S_OK);
VARMOD(R8,I2,100,10,I4,0,S_OK);
VARMOD(R8,UI2,100,10,I4,0,S_OK);
VARMOD(R8,I4,100,10,I4,0,S_OK);
VARMOD(R8,UI4,100,10,I4,0,S_OK);
VARMOD(R8,R4,100,10,I4,0,S_OK);
VARMOD(R8,R8,100,10,I4,0,S_OK);
VARMOD(INT,INT,100,10,I4,0,S_OK);
VARMOD(INT,UINT,100,10,I4,0,S_OK);
VARMOD(BOOL,BOOL,100,10,I2,0,S_OK);
VARMOD(BOOL,I1,100,10,I4,0,S_OK);
VARMOD(BOOL,UI1,100,10,I2,0,S_OK);
VARMOD(BOOL,I2,100,10,I2,0,S_OK);
VARMOD(BOOL,UI2,100,10,I4,0,S_OK);
VARMOD(BOOL,I4,100,10,I4,0,S_OK);
VARMOD(BOOL,UI4,100,10,I4,0,S_OK);
VARMOD(BOOL,R4,100,10,I4,0,S_OK);
VARMOD(BOOL,R8,100,10,I4,0,S_OK);
VARMOD(BOOL,DATE,100,10,I4,0,S_OK);
VARMOD(DATE,BOOL,100,10,I4,0,S_OK);
VARMOD(DATE,I1,100,10,I4,0,S_OK);
VARMOD(DATE,UI1,100,10,I4,0,S_OK);
VARMOD(DATE,I2,100,10,I4,0,S_OK);
VARMOD(DATE,UI2,100,10,I4,0,S_OK);
VARMOD(DATE,I4,100,10,I4,0,S_OK);
VARMOD(DATE,UI4,100,10,I4,0,S_OK);
VARMOD(DATE,R4,100,10,I4,0,S_OK);
VARMOD(DATE,R8,100,10,I4,0,S_OK);
VARMOD(DATE,DATE,100,10,I4,0,S_OK);
strNum0 = SysAllocString(szNum0);
strNum1 = SysAllocString(szNum1);
VARMOD(BSTR,BSTR,strNum0,strNum1,I4,5,S_OK);
VARMOD(BSTR,I1,strNum0,10,I4,5,S_OK);
VARMOD(BSTR,I2,strNum0,10,I4,5,S_OK);
VARMOD(BSTR,I4,strNum0,10,I4,5,S_OK);
VARMOD(BSTR,R4,strNum0,10,I4,5,S_OK);
VARMOD(BSTR,R8,strNum0,10,I4,5,S_OK);
VARMOD(I4,BSTR,125,strNum1,I4,5,S_OK);
if (HAVE_OLEAUT32_I8)
{
VARMOD(BOOL,I8,100,10,I8,0,S_OK);
VARMOD(I1,I8,100,10,I8,0,S_OK);
VARMOD(UI1,I8,100,10,I8,0,S_OK);
VARMOD(I2,I8,100,10,I8,0,S_OK);
VARMOD(I4,I8,100,10,I8,0,S_OK);
VARMOD(UI4,I8,100,10,I8,0,S_OK);
VARMOD(R4,I8,100,10,I8,0,S_OK);
VARMOD(R8,I8,100,10,I8,0,S_OK);
VARMOD(DATE,I8,100,10,I8,0,S_OK);
VARMOD(I8,BOOL,100,10,I8,0,S_OK);
VARMOD(I8,I1,100,10,I8,0,S_OK);
VARMOD(I8,UI1,100,10,I8,0,S_OK);
VARMOD(I8,I2,100,10,I8,0,S_OK);
VARMOD(I8,UI2,100,10,I8,0,S_OK);
VARMOD(I8,I4,100,10,I8,0,S_OK);
VARMOD(I8,UI4,100,10,I8,0,S_OK);
VARMOD(I8,R4,100,10,I8,0,S_OK);
VARMOD(I8,R8,100,10,I8,0,S_OK);
VARMOD(I8,I8,100,10,I8,0,S_OK);
VARMOD(BSTR,I8,strNum0,10,I8,5,S_OK);
}
/* test all combinations of types */
for(l = 0; l < VT_BSTR_BLOB; l++)
{
SKIPTESTS(l);
for(r = 0; r < VT_BSTR_BLOB; r++)
{
SKIPTESTS(r);
if(l == VT_BSTR) continue;
if(l == VT_DISPATCH) continue;
if(r == VT_BSTR) continue;
if(r == VT_DISPATCH) continue;
lFound = TRUE;
lValid = TRUE;
switch(l)
{
case VT_EMPTY:
case VT_NULL:
case VT_I1:
case VT_UI1:
case VT_I2:
case VT_UI2:
case VT_I4:
case VT_I8:
case VT_UI4:
case VT_UI8:
case VT_INT:
case VT_UINT:
case VT_R4:
case VT_R8:
case VT_BOOL:
case VT_DATE:
case VT_CY:
hexpected = S_OK;
break;
case VT_ERROR:
case VT_VARIANT:
case VT_UNKNOWN:
case VT_DECIMAL:
case VT_RECORD:
lValid = FALSE;
break;
default:
lFound = FALSE;
hexpected = DISP_E_BADVARTYPE;
break;
}
rFound = TRUE;
rValid = TRUE;
switch(r)
{
case VT_EMPTY:
case VT_NULL:
case VT_I1:
case VT_UI1:
case VT_I2:
case VT_UI2:
case VT_I4:
case VT_I8:
case VT_UI4:
case VT_UI8:
case VT_INT:
case VT_UINT:
case VT_R4:
case VT_R8:
case VT_BOOL:
case VT_DATE:
case VT_CY:
hexpected = S_OK;
break;
case VT_ERROR:
case VT_VARIANT:
case VT_UNKNOWN:
case VT_DECIMAL:
case VT_RECORD:
rValid = FALSE;
break;
default:
rFound = FALSE;
break;
}
if(((l == VT_I8) && (r == VT_INT)) || ((l == VT_INT) && (r == VT_I8)))
{
hexpected = DISP_E_TYPEMISMATCH;
} else if((l == VT_EMPTY) && (r == VT_NULL))
{
hexpected = S_OK;
} else if((l == VT_NULL) && (r == VT_EMPTY))
{
hexpected = S_OK;
} else if((l == VT_EMPTY) && (r == VT_CY))
{
hexpected = S_OK;
} else if((l == VT_EMPTY) && (r == VT_RECORD))
{
hexpected = DISP_E_TYPEMISMATCH;
} else if((r == VT_EMPTY) && lFound && lValid)
{
hexpected = DISP_E_DIVBYZERO;
} else if((l == VT_ERROR) || ((r == VT_ERROR) && lFound && lValid))
{
hexpected = DISP_E_TYPEMISMATCH;
} else if((l == VT_NULL) && (r == VT_NULL))
{
hexpected = S_OK;
} else if((l == VT_VARIANT) || ((r == VT_VARIANT) && lFound && lValid))
{
hexpected = DISP_E_TYPEMISMATCH;
} else if((l == VT_NULL) && (r == VT_RECORD))
{
hexpected = DISP_E_TYPEMISMATCH;
} else if((l == VT_NULL) && (r == VT_DECIMAL))
{
hexpected = DISP_E_OVERFLOW;
} else if((l == VT_UNKNOWN) || ((r == VT_UNKNOWN) && lFound && lValid))
{
hexpected = DISP_E_TYPEMISMATCH;
} else if((l == VT_NULL) && rFound)
{
hexpected = S_OK;
} else if((l == VT_DECIMAL) || ((r == VT_DECIMAL) && lFound && lValid))
{
hexpected = DISP_E_OVERFLOW;
} else if(l == VT_RECORD)
{
hexpected = DISP_E_TYPEMISMATCH;
} else if((r == VT_RECORD) && lValid && lFound)
{
hexpected = DISP_E_TYPEMISMATCH;
} else if((l == VT_EMPTY) && (r == VT_EMPTY))
{
hexpected = DISP_E_DIVBYZERO;
} else if((l == VT_CY) && !rFound)
{
hexpected = DISP_E_BADVARTYPE;
} else if(lFound && !rFound)
{
hexpected = DISP_E_BADVARTYPE;
} else if(!lFound && rFound)
{
hexpected = DISP_E_BADVARTYPE;
} else if((r == VT_NULL) && lFound && lValid)
{
hexpected = S_OK;
} else if((l == VT_NULL) || (r == VT_NULL))
{
hexpected = DISP_E_BADVARTYPE;
} else if((l == VT_VARIANT) || (r == VT_VARIANT))
{
hexpected = DISP_E_BADVARTYPE;
} else if(lFound && !rFound)
{
hexpected = DISP_E_BADVARTYPE;
} else if(!lFound && !rFound)
{
hexpected = DISP_E_BADVARTYPE;
}
V_VT(&v1) = l;
V_VT(&v2) = r;
if(l == VT_CY)
V_CY(&v1).int64 = 1000000;
else if(l == VT_R4)
V_R4(&v1) = 100;
else if(l == VT_R8)
V_R8(&v1) = 100;
else if(l == VT_UI8)
V_UI8(&v1) = 100;
else if(l == VT_DATE)
V_DATE(&v1) = 1000;
else
V_I4(&v1) = 10000;
if(r == VT_CY)
V_CY(&v2).int64 = 10000;
else if(r == VT_R4)
V_R4(&v2) = 100;
else if(r == VT_R8)
V_R8(&v2) = 100;
else if(r == VT_UI8)
V_UI8(&v2) = 100;
else if(r == VT_DATE)
V_DATE(&v2) = 1000;
else
V_I4(&v2) = 10000;
if ((l != VT_I8 && l != VT_UI8 && r != VT_I8 && r != VT_UI8) || HAVE_OLEAUT32_I8)
{
hres = pVarMod(&v1,&v2,&vDst);
ok(hres == hexpected,
"VarMod: expected 0x%lx, got 0x%lX for l type of %d, r type of %d,\n", hexpected, hres, l, r);
}
}
}
/****************************/
/* test some bad parameters */
VARMOD(I4,I4,-1,-1,I4,0,S_OK);
/* test modulus with zero */
VARMOD2(I4,I4,100,0,EMPTY,0,DISP_E_DIVBYZERO);
VARMOD(I4,I4,0,10,I4,0,S_OK); /* test 0 mod 10 */
/* right parameter is type empty */
VARMOD2(I4,EMPTY,100,10,EMPTY,0,DISP_E_DIVBYZERO);
/* left parameter is type empty */
VARMOD2(EMPTY,I4,100,10,I4,0,S_OK);
/* mod with a null left value */
VARMOD2(NULL,I4,125,10,NULL,0,S_OK);
/* mod with a null right value */
VARMOD2(I4,NULL,100,10,NULL,0,S_OK);
/* void left value */
VARMOD2(VOID,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
/* void right value */
VARMOD2(I4,VOID,100,10,EMPTY,0,DISP_E_BADVARTYPE);
/* null left value, void right value */
VARMOD2(NULL,VOID,100,10,EMPTY, 0, DISP_E_BADVARTYPE);
/* void left value, null right value */
VARMOD2(VOID,NULL,100,10,EMPTY,0,DISP_E_BADVARTYPE);
/* some currencies */
V_VT(&v1) = VT_CY;
V_VT(&v2) = VT_CY;
V_CY(&v1).int64 = 100000;
V_CY(&v2).int64 = 100000;
hres = pVarMod(&v1,&v2,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_I4 && V_I4(&vDst) == 0,
"VarMod: expected 0x%lx,%d,%d, got 0x%lX,%d,%ld\n", S_OK, VT_I4, 0, hres, V_VT(&vDst), V_I4(&vDst));
V_VT(&v1) = VT_I4;
V_VT(&v2) = VT_CY;
V_I4(&v1) = 100;
V_CY(&v2).int64 = 100000;
hres = pVarMod(&v1,&v2,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_I4 && V_I4(&vDst) == 0,
"VarMod: expected 0x%lx,%d,%d, got 0x%lX,%d,%ld\n", S_OK, VT_I4, 0, hres, V_VT(&vDst), V_I4(&vDst));
/* some decimals */
todo_wine {
V_VT(&v1) = VT_DECIMAL;
V_VT(&v2) = VT_DECIMAL;
VarDecFromI4(100, &V_DECIMAL(&v1));
VarDecFromI4(10, &V_DECIMAL(&v2));
hres = pVarMod(&v1,&v2,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_I4 && V_I4(&vDst) == 0,
"VarMod: expected 0x%lx,%d,%d, got 0x%lX,%d,%ld\n", S_OK, VT_I4, 0, hres, V_VT(&vDst), V_I4(&vDst));
V_VT(&v1) = VT_I4;
V_VT(&v2) = VT_DECIMAL;
V_I4(&v1) = 100;
VarDecFromI4(10, &V_DECIMAL(&v2));
hres = pVarMod(&v1,&v2,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_I4 && V_I4(&vDst) == 0,
"VarMod: expected 0x%lx,%d,%d, got 0x%lX,%d,%ld\n", S_OK, VT_I4, 0, hres, V_VT(&vDst), V_I4(&vDst));
}
VARMOD2(UINT,I4,100,10,I4,0,S_OK);
/* test that an error results in the type of the result changing but not its value */
V_VT(&v1) = VT_UNKNOWN;
V_VT(&v2) = VT_EMPTY;
V_I4(&v1) = 100;
V_CY(&v2).int64 = 100000;
V_VT(&vDst) = VT_I4;
V_I4(&vDst) = 1231;
hres = pVarMod(&v1,&v2,&vDst);
ok(hres == DISP_E_TYPEMISMATCH && V_VT(&vDst) == VT_EMPTY && V_I4(&vDst) == 1231,
"VarMod: expected 0x%lx,%d,%d, got 0x%lX,%d,%ld\n", DISP_E_TYPEMISMATCH, VT_EMPTY, 1231, hres, V_VT(&vDst), V_I4(&vDst));
/* test some invalid types */
/*TODO: not testing VT_DISPATCH */
if (HAVE_OLEAUT32_I8)
{
VARMOD2(I8,INT,100,10,EMPTY,0,DISP_E_TYPEMISMATCH);
}
VARMOD2(ERROR,I4,100,10,EMPTY,0,DISP_E_TYPEMISMATCH);
VARMOD2(VARIANT,I4,100,10,EMPTY,0,DISP_E_TYPEMISMATCH);
VARMOD2(UNKNOWN,I4,100,10,EMPTY,0,DISP_E_TYPEMISMATCH);
VARMOD2(VOID,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(HRESULT,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(PTR,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(SAFEARRAY,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(CARRAY,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(USERDEFINED,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(LPSTR,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(LPWSTR,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(RECORD,I4,100,10,EMPTY,0,DISP_E_TYPEMISMATCH);
VARMOD2(FILETIME,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(BLOB,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(STREAM,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(STORAGE,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(STREAMED_OBJECT,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(STORED_OBJECT,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(BLOB_OBJECT,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(CF,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(CLSID,CLSID,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(VECTOR,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(ARRAY,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
VARMOD2(BYREF,I4,100,10,EMPTY,0,DISP_E_BADVARTYPE);
/* test some more invalid types */
V_VT(&v1) = 456;
V_VT(&v2) = 234;
V_I4(&v1) = 100;
V_I4(&v2)= 10;
hres = pVarMod(&v1,&v2,&vDst);
ok(hres == DISP_E_BADVARTYPE && V_VT(&vDst) == VT_EMPTY && V_I4(&vDst) == 0,
"VarMod: expected 0x%lx,%d,%d, got 0x%lX,%d,%ld\n", DISP_E_BADVARTYPE, VT_EMPTY, 0, hres, V_VT(&vDst), V_I4(&vDst));
}
static HRESULT (WINAPI *pVarFix)(LPVARIANT,LPVARIANT);
static const char *szVarFixFail = "VarFix: expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
#define VARFIX(vt,val,rvt,rval) V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
memset(&vDst,0,sizeof(vDst)); hres = pVarFix(&v,&vDst); \
ok(hres == S_OK && V_VT(&vDst) == VT_##rvt && V_##rvt(&vDst) == (rval), \
szVarFixFail, VT_##rvt, (int)(rval), \
hres, V_VT(&vDst), (int)V_##rvt(&vDst))
static void test_VarFix(void)
{
static const WCHAR szNumMinus1[] = {'-','1','\0' };
HRESULT hres;
VARIANT v, vDst;
DECIMAL *pdec = &V_DECIMAL(&v);
CY *pcy = &V_CY(&v);
size_t i;
CHECKPTR(VarFix);
/* Test all possible V_VT values */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE vt;
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
HRESULT bFail = TRUE;
SKIPTESTS(vt);
memset(&v, 0, sizeof(v));
V_VT(&v) = vt | ExtraFlags[i];
V_VT(&vDst) = VT_EMPTY;
switch (V_VT(&v))
{
case VT_UI1: case VT_I2: case VT_I4: case VT_R4: case VT_R8:
case VT_DECIMAL: case VT_BOOL: case VT_NULL: case VT_EMPTY:
case VT_DATE: case VT_CY:
bFail = FALSE;
break;
case VT_I8:
if (HAVE_OLEAUT32_I8)
bFail = FALSE;
break;
}
hres = pVarFix(&v,&vDst);
if (bFail)
ok(hres == DISP_E_TYPEMISMATCH || hres == DISP_E_BADVARTYPE,
"VarFix: expected failure, got 0x%lX vt %d|0x%X\n",
hres, vt, ExtraFlags[i]);
else
ok(hres == S_OK, "VarFix: expected S_OK, got 0x%lX vt %d|0x%X\n",
hres, vt, ExtraFlags[i]);
}
}
VARFIX(BOOL,VARIANT_TRUE,I2,VARIANT_TRUE);
VARFIX(BOOL,VARIANT_FALSE,I2,0);
VARFIX(BOOL,1,I2,1);
VARFIX(UI1,1,UI1,1);
VARFIX(I2,-1,I2,-1);
VARFIX(I4,-1,I4,-1);
if (HAVE_OLEAUT32_I8)
{
VARFIX(I8,-1,I8,-1);
}
VARFIX(R4,1.4,R4,1);
VARFIX(R4,1.5,R4,1);
VARFIX(R4,1.6,R4,1);
VARFIX(R4,-1.4,R4,-1);
VARFIX(R4,-1.5,R4,-1);
VARFIX(R4,-1.6,R4,-1);
/* DATE & R8 round as for R4 */
VARFIX(DATE,-1,DATE,-1);
VARFIX(R8,-1,R8,-1);
VARFIX(BSTR,(BSTR)szNumMinus1,R8,-1);
V_VT(&v) = VT_EMPTY;
hres = pVarFix(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_I2 && V_I2(&vDst) == 0,
"VarFix: expected 0x0,%d,0 got 0x%lX,%d,%d\n", VT_EMPTY,
hres, V_VT(&vDst), V_I2(&vDst));
V_VT(&v) = VT_NULL;
hres = pVarFix(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_NULL,
"VarFix: expected 0x0,%d got 0x%lX,%d\n", VT_NULL, hres, V_VT(&vDst));
V_VT(&v) = VT_DECIMAL;
S(U(*pdec)).sign = DECIMAL_NEG;
S(U(*pdec)).scale = 0;
pdec->Hi32 = 0;
S1(U1(*pdec)).Mid32 = 0;
S1(U1(*pdec)).Lo32 = 1;
hres = pVarFix(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_DECIMAL && !memcmp(&v, &vDst, sizeof(v)),
"VarFix: expected 0x0,%d,identical, got 0x%lX,%d\n", VT_DECIMAL,
hres, V_VT(&vDst));
/* FIXME: Test some fractional decimals when VarDecFix is implemented */
V_VT(&v) = VT_CY;
pcy->int64 = -10000;
hres = pVarFix(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_CY && V_CY(&vDst).int64 == -10000,
"VarFix: VT_CY wrong, hres=0x%lX\n", hres);
V_VT(&v) = VT_CY;
pcy->int64 = -16000;
hres = pVarFix(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_CY && V_CY(&vDst).int64 == -10000,
"VarFix: VT_CY wrong, hres=0x%lX\n", hres);
}
static HRESULT (WINAPI *pVarInt)(LPVARIANT,LPVARIANT);
static const char *szVarIntFail = "VarInt: expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
#define VARINT(vt,val,rvt,rval) V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
memset(&vDst,0,sizeof(vDst)); hres = pVarInt(&v,&vDst); \
ok(hres == S_OK && V_VT(&vDst) == VT_##rvt && V_##rvt(&vDst) == (rval), \
szVarIntFail, VT_##rvt, (int)(rval), \
hres, V_VT(&vDst), (int)V_##rvt(&vDst))
static void test_VarInt(void)
{
static const WCHAR szNumMinus1[] = {'-','1','\0' };
HRESULT hres;
VARIANT v, vDst;
DECIMAL *pdec = &V_DECIMAL(&v);
CY *pcy = &V_CY(&v);
size_t i;
CHECKPTR(VarInt);
/* Test all possible V_VT values */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE vt;
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
HRESULT bFail = TRUE;
SKIPTESTS(vt);
memset(&v, 0, sizeof(v));
V_VT(&v) = vt | ExtraFlags[i];
V_VT(&vDst) = VT_EMPTY;
switch (V_VT(&v))
{
case VT_UI1: case VT_I2: case VT_I4: case VT_R4: case VT_R8:
case VT_DECIMAL: case VT_BOOL: case VT_NULL: case VT_EMPTY:
case VT_DATE: case VT_CY:
bFail = FALSE;
break;
case VT_I8:
if (HAVE_OLEAUT32_I8)
bFail = FALSE;
break;
}
hres = pVarInt(&v,&vDst);
if (bFail)
ok(hres == DISP_E_TYPEMISMATCH || hres == DISP_E_BADVARTYPE,
"VarInt: expected failure, got 0x%lX vt %d|0x%X\n",
hres, vt, ExtraFlags[i]);
else
ok(hres == S_OK, "VarInt: expected S_OK, got 0x%lX vt %d|0x%X\n",
hres, vt, ExtraFlags[i]);
}
}
VARINT(BOOL,VARIANT_TRUE,I2,VARIANT_TRUE);
VARINT(BOOL,VARIANT_FALSE,I2,0);
VARINT(BOOL,1,I2,1);
VARINT(UI1,1,UI1,1);
VARINT(I2,-1,I2,-1);
VARINT(I4,-1,I4,-1);
if (HAVE_OLEAUT32_I8)
{
VARINT(I8,-1,I8,-1);
}
VARINT(R4,1.4,R4,1);
VARINT(R4,1.5,R4,1);
VARINT(R4,1.6,R4,1);
VARINT(R4,-1.4,R4,-2); /* Note these 3 are different from VarFix */
VARINT(R4,-1.5,R4,-2);
VARINT(R4,-1.6,R4,-2);
/* DATE & R8 round as for R4 */
VARINT(DATE,-1,DATE,-1);
VARINT(R8,-1,R8,-1);
VARINT(BSTR,(BSTR)szNumMinus1,R8,-1);
V_VT(&v) = VT_EMPTY;
hres = pVarInt(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_I2 && V_I2(&vDst) == 0,
"VarInt: expected 0x0,%d,0 got 0x%lX,%d,%d\n", VT_EMPTY,
hres, V_VT(&vDst), V_I2(&vDst));
V_VT(&v) = VT_NULL;
hres = pVarInt(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_NULL,
"VarInt: expected 0x0,%d got 0x%lX,%d\n", VT_NULL, hres, V_VT(&vDst));
V_VT(&v) = VT_DECIMAL;
S(U(*pdec)).sign = DECIMAL_NEG;
S(U(*pdec)).scale = 0;
pdec->Hi32 = 0;
S1(U1(*pdec)).Mid32 = 0;
S1(U1(*pdec)).Lo32 = 1;
hres = pVarInt(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_DECIMAL && !memcmp(&v, &vDst, sizeof(v)),
"VarInt: expected 0x0,%d,identical, got 0x%lX,%d\n", VT_DECIMAL,
hres, V_VT(&vDst));
/* FIXME: Test some fractional decimals when VarDecInt is implemented */
V_VT(&v) = VT_CY;
pcy->int64 = -10000;
hres = pVarInt(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_CY && V_CY(&vDst).int64 == -10000,
"VarInt: VT_CY wrong, hres=0x%lX\n", hres);
V_VT(&v) = VT_CY;
pcy->int64 = -11000;
hres = pVarInt(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_CY && V_CY(&vDst).int64 == -20000,
"VarInt: VT_CY wrong, hres=0x%lX %lld\n", hres,V_CY(&vDst).int64);
}
static HRESULT (WINAPI *pVarNeg)(LPVARIANT,LPVARIANT);
static const char *szVarNegFail = "VarNeg: expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
#define VARNEG(vt,val,rvt,rval) V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
memset(&vDst,0,sizeof(vDst)); hres = pVarNeg(&v,&vDst); \
ok(hres == S_OK && V_VT(&vDst) == VT_##rvt && V_##rvt(&vDst) == (rval), \
szVarNegFail, VT_##rvt, (int)(rval), \
hres, V_VT(&vDst), (int)V_##rvt(&vDst))
static void test_VarNeg(void)
{
static const WCHAR szNumMinus1[] = {'-','1','\0' };
static const WCHAR szNum1[] = {'1','\0' };
HRESULT hres;
VARIANT v, vDst;
DECIMAL *pdec = &V_DECIMAL(&v);
CY *pcy = &V_CY(&v);
size_t i;
CHECKPTR(VarNeg);
/* Test all possible V_VT values. But don't test the exact return values
* except for success/failure, since M$ made a hash of them in the
* native version. This at least ensures (as with all tests here) that
* we will notice if/when new vtypes/flags are added in native.
*/
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE vt;
for (vt = 0; vt <= VT_BSTR_BLOB; vt++)
{
HRESULT bFail = TRUE;
SKIPTESTS(vt);
memset(&v, 0, sizeof(v));
V_VT(&v) = vt | ExtraFlags[i];
V_VT(&vDst) = VT_EMPTY;
switch (V_VT(&v))
{
case VT_UI1: case VT_I2: case VT_I4:
case VT_R4: case VT_R8:
case VT_DECIMAL: case VT_BOOL: case VT_NULL: case VT_EMPTY:
case VT_DATE: case VT_CY:
bFail = FALSE;
break;
case VT_I8:
if (HAVE_OLEAUT32_I8)
bFail = FALSE;
}
hres = pVarNeg(&v,&vDst);
if (bFail)
ok(hres == DISP_E_TYPEMISMATCH || hres == DISP_E_BADVARTYPE,
"VarNeg: expected failure, got 0x%lX vt %d|0x%X\n",
hres, vt, ExtraFlags[i]);
else
ok(hres == S_OK, "VarNeg: expected S_OK, got 0x%lX vt %d|0x%X\n",
hres, vt, ExtraFlags[i]);
}
}
VARNEG(BOOL,VARIANT_TRUE,I2,1);
VARNEG(BOOL,VARIANT_FALSE,I2,0);
VARNEG(BOOL,1,I2,-1);
VARNEG(UI1,1,I2,-1);
VARNEG(UI1,254,I2,-254);
VARNEG(I2,-32768,I4,32768);
VARNEG(I2,-1,I2,1);
VARNEG(I2,1,I2,-1);
VARNEG(I4,-((int)(~0u >> 1)) - 1,R8,-2147483648u);
VARNEG(I4,-1,I4,1);
VARNEG(I4,1,I4,-1);
if (HAVE_OLEAUT32_I8)
{
VARNEG(I8,1,I8,-1);
VARNEG(I8,-1,I8,1);
}
VARNEG(R4,1,R4,-1);
VARNEG(R4,-1,R4,1);
VARNEG(DATE,1,DATE,-1);
VARNEG(DATE,-1,DATE,1);
VARNEG(R8,1,R8,-1);
VARNEG(R8,-1,R8,1);
VARNEG(BSTR,(BSTR)szNumMinus1,R8,1);
VARNEG(BSTR,(BSTR)szNum1,R8,-1);
V_VT(&v) = VT_EMPTY;
hres = pVarNeg(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_I2 && V_I2(&vDst) == 0,
"VarNeg: expected 0x0,%d,0 got 0x%lX,%d,%d\n", VT_EMPTY,
hres, V_VT(&vDst), V_I2(&vDst));
V_VT(&v) = VT_NULL;
hres = pVarNeg(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_NULL,
"VarNeg: expected 0x0,%d got 0x%lX,%d\n", VT_NULL, hres, V_VT(&vDst));
V_VT(&v) = VT_DECIMAL;
S(U(*pdec)).sign = DECIMAL_NEG;
S(U(*pdec)).scale = 0;
pdec->Hi32 = 0;
S1(U1(*pdec)).Mid32 = 0;
S1(U1(*pdec)).Lo32 = 1;
hres = pVarNeg(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_DECIMAL &&
S(U(V_DECIMAL(&vDst))).sign == 0,
"VarNeg: expected 0x0,%d,0x00, got 0x%lX,%d,%02x\n", VT_DECIMAL,
hres, V_VT(&vDst), S(U(V_DECIMAL(&vDst))).sign);
S(U(*pdec)).sign = 0;
hres = pVarNeg(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_DECIMAL &&
S(U(V_DECIMAL(&vDst))).sign == DECIMAL_NEG,
"VarNeg: expected 0x0,%d,0x7f, got 0x%lX,%d,%02x\n", VT_DECIMAL,
hres, V_VT(&vDst), S(U(V_DECIMAL(&vDst))).sign);
V_VT(&v) = VT_CY;
pcy->int64 = -10000;
hres = pVarNeg(&v,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_CY && V_CY(&vDst).int64 == 10000,
"VarNeg: VT_CY wrong, hres=0x%lX\n", hres);
}
static HRESULT (WINAPI *pVarRound)(LPVARIANT,int,LPVARIANT);
#define VARROUND(vt,val,deci,rvt,rval) V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
memset(&vDst,0,sizeof(vDst)); hres = pVarRound(&v,deci,&vDst); \
ok(hres == S_OK && V_VT(&vDst) == VT_##rvt && V_##rvt(&vDst) == (rval), \
"VarRound: expected 0x0,%d,%d, got 0x%lX,%d,%d\n", VT_##rvt, (int)(rval), \
hres, V_VT(&vDst), (int)V_##rvt(&vDst))
#define VARROUNDF(vt,val,deci,rvt,rval) V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
memset(&vDst,0,sizeof(vDst)); hres = pVarRound(&v,deci,&vDst); \
ok(hres == S_OK && V_VT(&vDst) == VT_##rvt && V_##rvt(&vDst) == (rval), \
"VarRound: expected 0x0,%d,%f, got 0x%lX,%d,%f\n", VT_##rvt, rval, \
hres, V_VT(&vDst), V_##rvt(&vDst))
static void test_VarRound(void)
{
/* static const WCHAR szNumMin[] = {'-','1','.','4','5','\0' };
static const WCHAR szNum[] = {'1','.','4','5','\0' }; */
HRESULT hres;
VARIANT v, vDst;
CY *pcy = &V_CY(&v);
CHECKPTR(VarRound);
/* first check valid integer types */
VARROUND(BOOL,VARIANT_TRUE,0,I2,-1);
VARROUND(BOOL,VARIANT_FALSE,0,I2,0);
VARROUND(BOOL,1,0,I2,1);
VARROUND(UI1,1,0,UI1,1);
VARROUND(UI1,254,0,UI1,254);
VARROUND(I2,-32768,0,I2,-32768);
VARROUND(I2,-1,0,I2,-1);
VARROUND(I2,1,0,I2,1);
VARROUND(I4,-((int)(~0u >> 1)) - 1,0,I4,-((int)(~0u >> 1)) - 1);
VARROUND(I4,-1,0,I4,-1);
VARROUND(I4,1,0,I4,1);
/* MSDN states that rounding of R4/R8 is dependent on the underlying
* bit pattern of the number and so is architecture dependent. In this
* case Wine returns .2 (which is more correct) and Native returns .3
*/
VARROUNDF(R4,1.0,0,R4,1.0);
VARROUNDF(R4,-1.0,0,R4,-1.0);
VARROUNDF(R8,1.0,0,R8,1.0);
VARROUNDF(R8,-1.0,0,R8,-1.0);
/* floating point numbers aren't exactly equal and we can't just
* compare the first few digits.
todo_wine {
VARROUNDF(DATE,1.451,1,DATE,1.5);
VARROUNDF(DATE,-1.45,1,DATE,-1.4);
VARROUNDF(BSTR,(BSTR)szNumMin,1,R8,-1.40);
VARROUNDF(BSTR,(BSTR)szNum,1,R8,1.50);
VARROUNDF(R4,1.23456,0,R4,1.0);
VARROUNDF(R4,1.23456,1,R4,1.2);
VARROUNDF(R4,1.23456,2,R4,1.23);
VARROUNDF(R4,1.23456,3,R4,1.235);
VARROUNDF(R4,1.23456,4,R4,1.2346);
VARROUNDF(R4,-1.23456,0,R4,-1.0);
VARROUNDF(R4,-1.23456,1,R4,-1.2);
VARROUNDF(R4,-1.23456,2,R4,-1.23);
VARROUNDF(R4,-1.23456,3,R4,-1.235);
VARROUNDF(R4,-1.23456,4,R4,-1.2346);
VARROUNDF(R8,1.23456,0,R8,1.0);
VARROUNDF(R8,1.23456,1,R8,1.2);
VARROUNDF(R8,1.23456,2,R8,1.23);
VARROUNDF(R8,1.23456,3,R8,1.235);
VARROUNDF(R8,1.23456,4,R8,1.2346);
VARROUNDF(R8,-1.23456,0,R8,-1.0);
VARROUNDF(R8,-1.23456,1,R8,-1.2);
VARROUNDF(R8,-1.23456,2,R8,-1.23);
VARROUNDF(R8,-1.23456,3,R8,-1.235);
VARROUNDF(R8,-1.23456,4,R8,-1.2346);
}
*/
V_VT(&v) = VT_EMPTY;
hres = pVarRound(&v,0,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_I2 && V_I2(&vDst) == 0,
"VarRound: expected 0x0,%d,0 got 0x%lX,%d,%d\n", VT_EMPTY,
hres, V_VT(&vDst), V_I2(&vDst));
V_VT(&v) = VT_NULL;
hres = pVarRound(&v,0,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_NULL,
"VarRound: expected 0x0,%d got 0x%lX,%d\n", VT_NULL, hres, V_VT(&vDst));
/* not yet implemented so no use testing yet
todo_wine {
DECIMAL *pdec = &V_DECIMAL(&v);
V_VT(&v) = VT_DECIMAL;
S(U(*pdec)).sign = DECIMAL_NEG;
S(U(*pdec)).scale = 0;
pdec->Hi32 = 0;
S1(U1(*pdec)).Mid32 = 0;
S1(U1(*pdec)).Lo32 = 1;
hres = pVarRound(&v,0,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_DECIMAL &&
S(U(V_DECIMAL(&vDst))).sign == 0,
"VarRound: expected 0x0,%d,0x00, got 0x%lX,%d,%02x\n", VT_DECIMAL,
hres, V_VT(&vDst), S(U(V_DECIMAL(&vDst))).sign);
S(U(*pdec)).sign = 0;
hres = pVarRound(&v,0,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_DECIMAL &&
S(U(V_DECIMAL(&vDst))).sign == DECIMAL_NEG,
"VarRound: expected 0x0,%d,0x7f, got 0x%lX,%d,%02x\n", VT_DECIMAL,
hres, V_VT(&vDst), S(U(V_DECIMAL(&vDst))).sign);
}
*/
V_VT(&v) = VT_CY;
pcy->int64 = 10000;
hres = pVarRound(&v,0,&vDst);
ok(hres == S_OK && V_VT(&vDst) == VT_CY && V_CY(&vDst).int64 == 10000,
"VarRound: VT_CY wrong, hres=0x%lX\n", hres);
}
static HRESULT (WINAPI *pVarXor)(LPVARIANT,LPVARIANT,LPVARIANT);
static const char *szVarXorFail = "VarXor(%d,%d): expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
#define VARXOR(vt1,val1,vt2,val2,rvt,rval) \
V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
memset(&result,0,sizeof(result)); hres = pVarXor(&left,&right,&result); \
ok(hres == S_OK && V_VT(&result) == VT_##rvt && V_##rvt(&result) == (rval), \
szVarXorFail, VT_##vt1, VT_##vt2, \
VT_##rvt, (int)(rval), hres, V_VT(&result), (int)V_##rvt(&result)); \
ok(V_VT(&left) == VT_##vt1 && V_##vt1(&left) == val1 && \
V_VT(&right) == VT_##vt2 && V_##vt2(&right) == val2, \
"VarXor(%d,%d): Modified input arguments\n",VT_##vt1,VT_##vt2)
#define VARXORCY(vt1,val1,val2,rvt,rval) \
V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
V_VT(&right) = VT_CY; V_CY(&right).int64 = val2; \
memset(&result,0,sizeof(result)); hres = pVarXor(&left,&right,&result); \
ok(hres == S_OK && V_VT(&result) == VT_##rvt && V_##rvt(&result) == (rval), \
"VarXor(%d,%d): expected 0x0,%d,%d, got 0x%lX,%d,%d\n", VT_##vt1, VT_CY, \
VT_##rvt, (int)(rval), hres, V_VT(&result), (int)V_##rvt(&result)); \
ok(V_VT(&left) == VT_##vt1 && V_##vt1(&left) == val1 && \
V_VT(&right) == VT_CY && V_CY(&right).int64 == val2, \
"VarXor(%d,%d): Modified input arguments\n",VT_##vt1,VT_CY)
static void test_VarXor(void)
{
static const WCHAR szFalse[] = { '#','F','A','L','S','E','#','\0' };
static const WCHAR szTrue[] = { '#','T','R','U','E','#','\0' };
VARIANT left, right, result;
BSTR lbstr, rbstr;
VARTYPE i;
HRESULT hres;
CHECKPTR(VarXor);
/* Test all possible flag/vt combinations & the resulting vt type */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE leftvt, rightvt, resvt;
for (leftvt = 0; leftvt <= VT_BSTR_BLOB; leftvt++)
{
SKIPTESTS(leftvt);
for (rightvt = 0; rightvt <= VT_BSTR_BLOB; rightvt++)
{
BOOL bFail = FALSE;
SKIPTESTS(rightvt);
if (leftvt == VT_BSTR || rightvt == VT_BSTR ||
leftvt == VT_DISPATCH || rightvt == VT_DISPATCH ||
leftvt == VT_UNKNOWN || rightvt == VT_UNKNOWN)
continue;
memset(&left, 0, sizeof(left));
memset(&right, 0, sizeof(right));
V_VT(&left) = leftvt | ExtraFlags[i];
V_VT(&right) = rightvt | ExtraFlags[i];
V_VT(&result) = VT_EMPTY;
resvt = VT_I4;
if (ExtraFlags[i] & VT_ARRAY || ExtraFlags[i] & VT_BYREF ||
!IsValidVariantClearVT(leftvt, ExtraFlags[i]) ||
!IsValidVariantClearVT(rightvt, ExtraFlags[i]) ||
leftvt == VT_CLSID || rightvt == VT_CLSID ||
leftvt == VT_RECORD || rightvt == VT_RECORD ||
leftvt == VT_VARIANT || rightvt == VT_VARIANT ||
leftvt == VT_ERROR || rightvt == VT_ERROR)
{
bFail = TRUE;
}
if (leftvt == VT_EMPTY || rightvt == VT_EMPTY)
{
if (leftvt == rightvt ||
leftvt == VT_I2 || rightvt == VT_I2 ||
leftvt == VT_UI1 || rightvt == VT_UI1 ||
leftvt == VT_BOOL || rightvt == VT_BOOL)
resvt = VT_I2;
else if (leftvt == VT_NULL || rightvt == VT_NULL)
resvt = VT_NULL;
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
}
else if (leftvt == VT_NULL || rightvt == VT_NULL)
{
resvt = VT_NULL;
}
else if (leftvt == VT_UI1 || rightvt == VT_UI1)
{
if (leftvt == rightvt)
resvt = VT_UI1;
else if (leftvt == rightvt ||
leftvt == VT_I2 || rightvt == VT_I2 ||
leftvt == VT_BOOL || rightvt == VT_BOOL)
{
resvt = VT_I2;
}
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
}
else if (leftvt == VT_I2 || rightvt == VT_I2)
{
if (leftvt == rightvt ||
leftvt == VT_BOOL || rightvt == VT_BOOL)
resvt = VT_I2;
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
}
else if (leftvt == VT_BOOL && rightvt == VT_BOOL)
{
resvt = VT_BOOL;
}
else if (leftvt == VT_I8 || rightvt == VT_I8)
{
if (leftvt == VT_INT || rightvt == VT_INT)
bFail = TRUE;
else
resvt = VT_I8;
}
hres = pVarXor(&left, &right, &result);
if (bFail)
ok(hres == DISP_E_TYPEMISMATCH || hres == DISP_E_BADVARTYPE,
"VarXor: %d|0x%X, %d|0x%X: Expected failure, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], hres,
V_VT(&result));
else
ok(hres == S_OK && V_VT(&result) == resvt,
"VarXor: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], resvt, hres,
V_VT(&result));
}
}
}
/* Test returned values
* FIXME: Test VT_DECIMAL/VT_DISPATCH
*/
VARXOR(EMPTY,0,EMPTY,0,I2,0);
VARXOR(EMPTY,1,EMPTY,0,I2,0);
VARXOR(EMPTY,0,NULL,0,NULL,0);
VARXOR(EMPTY,0,I1,0,I4,0);
VARXOR(EMPTY,0,I1,1,I4,1);
VARXOR(EMPTY,0,UI1,0,I2,0);
VARXOR(EMPTY,0,UI1,1,I2,1);
VARXOR(EMPTY,0,I2,0,I2,0);
VARXOR(EMPTY,0,I2,1,I2,1);
VARXOR(EMPTY,0,UI2,0,I4,0);
VARXOR(EMPTY,0,UI2,1,I4,1);
VARXOR(EMPTY,0,I4,0,I4,0);
VARXOR(EMPTY,0,I4,1,I4,1);
VARXOR(EMPTY,0,UI4,0,I4,0);
VARXOR(EMPTY,0,UI4,1,I4,1);
if (HAVE_OLEAUT32_I8)
{
VARXOR(EMPTY,0,I8,0,I8,0);
VARXOR(EMPTY,0,I8,1,I8,1);
VARXOR(EMPTY,0,UI8,0,I4,0);
VARXOR(EMPTY,0,UI8,1,I4,1);
}
VARXOR(EMPTY,0,INT,0,I4,0);
VARXOR(EMPTY,0,INT,1,I4,1);
VARXOR(EMPTY,0,UINT,0,I4,0);
VARXOR(EMPTY,0,UINT,1,I4,1);
VARXOR(EMPTY,0,BOOL,0,I2,0);
VARXOR(EMPTY,0,BOOL,1,I2,1);
VARXOR(EMPTY,0,R4,0,I4,0);
VARXOR(EMPTY,0,R4,1,I4,1);
VARXOR(EMPTY,0,R8,0,I4,0);
VARXOR(EMPTY,0,R8,1,I4,1);
rbstr = SysAllocString(szFalse);
VARXOR(EMPTY,0,BSTR,rbstr,I2,0);
rbstr = SysAllocString(szTrue);
VARXOR(EMPTY,0,BSTR,rbstr,I2,-1);
VARXORCY(EMPTY,0,10000,I4,1);
/* NULL OR 0 = NULL. NULL OR n = n */
VARXOR(NULL,0,NULL,0,NULL,0);
VARXOR(NULL,1,NULL,0,NULL,0);
VARXOR(NULL,0,I1,0,NULL,0);
VARXOR(NULL,0,I1,1,NULL,0);
VARXOR(NULL,0,UI1,0,NULL,0);
VARXOR(NULL,0,UI1,1,NULL,0);
VARXOR(NULL,0,I2,0,NULL,0);
VARXOR(NULL,0,I2,1,NULL,0);
VARXOR(NULL,0,UI2,0,NULL,0);
VARXOR(NULL,0,UI2,1,NULL,0);
VARXOR(NULL,0,I4,0,NULL,0);
VARXOR(NULL,0,I4,1,NULL,0);
VARXOR(NULL,0,UI4,0,NULL,0);
VARXOR(NULL,0,UI4,1,NULL,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(NULL,0,I8,0,NULL,0);
VARXOR(NULL,0,I8,1,NULL,0);
VARXOR(NULL,0,UI8,0,NULL,0);
VARXOR(NULL,0,UI8,1,NULL,0);
}
VARXOR(NULL,0,INT,0,NULL,0);
VARXOR(NULL,0,INT,1,NULL,0);
VARXOR(NULL,0,UINT,0,NULL,0);
VARXOR(NULL,0,UINT,1,NULL,0);
VARXOR(NULL,0,BOOL,0,NULL,0);
VARXOR(NULL,0,BOOL,1,NULL,0);
VARXOR(NULL,0,R4,0,NULL,0);
VARXOR(NULL,0,R4,1,NULL,0);
VARXOR(NULL,0,R8,0,NULL,0);
VARXOR(NULL,0,R8,1,NULL,0);
rbstr = SysAllocString(szFalse);
VARXOR(NULL,0,BSTR,rbstr,NULL,0);
rbstr = SysAllocString(szTrue);
VARXOR(NULL,0,BSTR,rbstr,NULL,0);
VARXORCY(NULL,0,10000,NULL,0);
VARXORCY(NULL,0,0,NULL,0);
VARXOR(BOOL,VARIANT_TRUE,BOOL,VARIANT_TRUE,BOOL,VARIANT_FALSE);
VARXOR(BOOL,VARIANT_TRUE,BOOL,VARIANT_FALSE,BOOL,VARIANT_TRUE);
VARXOR(BOOL,VARIANT_FALSE,BOOL,VARIANT_TRUE,BOOL,VARIANT_TRUE);
VARXOR(BOOL,VARIANT_FALSE,BOOL,VARIANT_FALSE,BOOL,VARIANT_FALSE);
/* Assume x,y & y,x are the same from now on to reduce the number of tests */
VARXOR(BOOL,VARIANT_TRUE,I1,-1,I4,0);
VARXOR(BOOL,VARIANT_TRUE,I1,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,I1,0,I4,0);
VARXOR(BOOL,VARIANT_TRUE,UI1,255,I2,-256);
VARXOR(BOOL,VARIANT_TRUE,UI1,0,I2,-1);
VARXOR(BOOL,VARIANT_FALSE,UI1,0,I2,0);
VARXOR(BOOL,VARIANT_TRUE,I2,-1,I2,0);
VARXOR(BOOL,VARIANT_TRUE,I2,0,I2,-1);
VARXOR(BOOL,VARIANT_FALSE,I2,0,I2,0);
VARXOR(BOOL,VARIANT_TRUE,UI2,65535,I4,-65536);
VARXOR(BOOL,VARIANT_TRUE,UI2,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,UI2,0,I4,0);
VARXOR(BOOL,VARIANT_TRUE,I4,-1,I4,0);
VARXOR(BOOL,VARIANT_TRUE,I4,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,I4,0,I4,0);
VARXOR(BOOL,VARIANT_TRUE,UI4,0xffffffff,I4,0);
VARXOR(BOOL,VARIANT_TRUE,UI4,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,UI4,0,I4,0);
VARXOR(BOOL,VARIANT_TRUE,R4,-1,I4,0);
VARXOR(BOOL,VARIANT_TRUE,R4,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,R4,0,I4,0);
VARXOR(BOOL,VARIANT_TRUE,R8,-1,I4,0);
VARXOR(BOOL,VARIANT_TRUE,R8,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,R8,0,I4,0);
VARXOR(BOOL,VARIANT_TRUE,DATE,-1,I4,0);
VARXOR(BOOL,VARIANT_TRUE,DATE,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(BOOL,VARIANT_TRUE,I8,-1,I8,0);
VARXOR(BOOL,VARIANT_TRUE,I8,0,I8,-1);
VARXOR(BOOL,VARIANT_FALSE,I8,0,I8,0);
/* This returns DISP_E_OVERFLOW which indicates that a conversion
* to I4 is performed.
*/
/* VARXOR(BOOL,VARIANT_TRUE,UI8,-1,I4,-1); */
VARXOR(BOOL,VARIANT_TRUE,UI8,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,UI8,0,I4,0);
}
VARXOR(BOOL,VARIANT_TRUE,INT,-1,I4,0);
VARXOR(BOOL,VARIANT_TRUE,INT,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,INT,0,I4,0);
VARXOR(BOOL,VARIANT_TRUE,UINT,0xffffffff,I4,0);
VARXOR(BOOL,VARIANT_TRUE,UINT,0,I4,-1);
VARXOR(BOOL,VARIANT_FALSE,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(BOOL,VARIANT_FALSE,BSTR,rbstr,BOOL,VARIANT_FALSE);
VARXOR(BOOL,VARIANT_TRUE,BSTR,rbstr,BOOL,VARIANT_TRUE);
rbstr = SysAllocString(szTrue);
VARXOR(BOOL,VARIANT_FALSE,BSTR,rbstr,BOOL,VARIANT_TRUE);
VARXOR(BOOL,VARIANT_TRUE,BSTR,rbstr,BOOL,VARIANT_FALSE);
VARXORCY(BOOL,VARIANT_TRUE,10000,I4,-2);
VARXORCY(BOOL,VARIANT_TRUE,0,I4,-1);
VARXORCY(BOOL,VARIANT_FALSE,0,I4,0);
VARXOR(I1,-1,I1,-1,I4,0);
VARXOR(I1,-1,I1,0,I4,-1);
VARXOR(I1,0,I1,0,I4,0);
VARXOR(I1,-1,UI1,255,I4,-256);
VARXOR(I1,-1,UI1,0,I4,-1);
VARXOR(I1,0,UI1,0,I4,0);
VARXOR(I1,-1,I2,-1,I4,0);
VARXOR(I1,-1,I2,0,I4,-1);
VARXOR(I1,0,I2,0,I4,0);
VARXOR(I1,-1,UI2,65535,I4,-65536);
VARXOR(I1,-1,UI2,0,I4,-1);
VARXOR(I1,0,UI2,0,I4,0);
VARXOR(I1,-1,I4,-1,I4,0);
VARXOR(I1,-1,I4,0,I4,-1);
VARXOR(I1,0,I4,0,I4,0);
VARXOR(I1,-1,UI4,0xffffffff,I4,0);
VARXOR(I1,-1,UI4,0,I4,-1);
VARXOR(I1,0,UI4,0,I4,0);
VARXOR(I1,-1,R4,-1,I4,0);
VARXOR(I1,-1,R4,0,I4,-1);
VARXOR(I1,0,R4,0,I4,0);
VARXOR(I1,-1,R8,-1,I4,0);
VARXOR(I1,-1,R8,0,I4,-1);
VARXOR(I1,0,R8,0,I4,0);
VARXOR(I1,-1,DATE,-1,I4,0);
VARXOR(I1,-1,DATE,0,I4,-1);
VARXOR(I1,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(I1,-1,I8,-1,I8,0);
VARXOR(I1,-1,I8,0,I8,-1);
VARXOR(I1,0,I8,0,I8,0);
VARXOR(I1,-1,UI8,0,I4,-1);
VARXOR(I1,0,UI8,0,I4,0);
}
VARXOR(I1,-1,INT,-1,I4,0);
VARXOR(I1,-1,INT,0,I4,-1);
VARXOR(I1,0,INT,0,I4,0);
VARXOR(I1,-1,UINT,0xffffffff,I4,0);
VARXOR(I1,-1,UINT,0,I4,-1);
VARXOR(I1,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(I1,0,BSTR,rbstr,I4,0);
VARXOR(I1,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VARXOR(I1,0,BSTR,rbstr,I4,-1);
VARXOR(I1,-1,BSTR,rbstr,I4,0);
VARXORCY(I1,-1,10000,I4,-2);
VARXORCY(I1,-1,0,I4,-1);
VARXORCY(I1,0,0,I4,0);
VARXOR(UI1,255,UI1,255,UI1,0);
VARXOR(UI1,255,UI1,0,UI1,255);
VARXOR(UI1,0,UI1,0,UI1,0);
VARXOR(UI1,255,I2,-1,I2,-256);
VARXOR(UI1,255,I2,0,I2,255);
VARXOR(UI1,0,I2,0,I2,0);
VARXOR(UI1,255,UI2,65535,I4,65280);
VARXOR(UI1,255,UI2,0,I4,255);
VARXOR(UI1,0,UI2,0,I4,0);
VARXOR(UI1,255,I4,-1,I4,-256);
VARXOR(UI1,255,I4,0,I4,255);
VARXOR(UI1,0,I4,0,I4,0);
VARXOR(UI1,255,UI4,0xffffffff,I4,-256);
VARXOR(UI1,255,UI4,0,I4,255);
VARXOR(UI1,0,UI4,0,I4,0);
VARXOR(UI1,255,R4,-1,I4,-256);
VARXOR(UI1,255,R4,0,I4,255);
VARXOR(UI1,0,R4,0,I4,0);
VARXOR(UI1,255,R8,-1,I4,-256);
VARXOR(UI1,255,R8,0,I4,255);
VARXOR(UI1,0,R8,0,I4,0);
VARXOR(UI1,255,DATE,-1,I4,-256);
VARXOR(UI1,255,DATE,0,I4,255);
VARXOR(UI1,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(UI1,255,I8,-1,I8,-256);
VARXOR(UI1,255,I8,0,I8,255);
VARXOR(UI1,0,I8,0,I8,0);
VARXOR(UI1,255,UI8,0,I4,255);
VARXOR(UI1,0,UI8,0,I4,0);
}
VARXOR(UI1,255,INT,-1,I4,-256);
VARXOR(UI1,255,INT,0,I4,255);
VARXOR(UI1,0,INT,0,I4,0);
VARXOR(UI1,255,UINT,0xffffffff,I4,-256);
VARXOR(UI1,255,UINT,0,I4,255);
VARXOR(UI1,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(UI1,0,BSTR,rbstr,I2,0);
VARXOR(UI1,255,BSTR,rbstr,I2,255);
rbstr = SysAllocString(szTrue);
VARXOR(UI1,0,BSTR,rbstr,I2,-1);
VARXOR(UI1,255,BSTR,rbstr,I2,-256);
VARXORCY(UI1,255,10000,I4,254);
VARXORCY(UI1,255,0,I4,255);
VARXORCY(UI1,0,0,I4,0);
VARXOR(I2,-1,I2,-1,I2,0);
VARXOR(I2,-1,I2,0,I2,-1);
VARXOR(I2,0,I2,0,I2,0);
VARXOR(I2,-1,UI2,65535,I4,-65536);
VARXOR(I2,-1,UI2,0,I4,-1);
VARXOR(I2,0,UI2,0,I4,0);
VARXOR(I2,-1,I4,-1,I4,0);
VARXOR(I2,-1,I4,0,I4,-1);
VARXOR(I2,0,I4,0,I4,0);
VARXOR(I2,-1,UI4,0xffffffff,I4,0);
VARXOR(I2,-1,UI4,0,I4,-1);
VARXOR(I2,0,UI4,0,I4,0);
VARXOR(I2,-1,R4,-1,I4,0);
VARXOR(I2,-1,R4,0,I4,-1);
VARXOR(I2,0,R4,0,I4,0);
VARXOR(I2,-1,R8,-1,I4,0);
VARXOR(I2,-1,R8,0,I4,-1);
VARXOR(I2,0,R8,0,I4,0);
VARXOR(I2,-1,DATE,-1,I4,0);
VARXOR(I2,-1,DATE,0,I4,-1);
VARXOR(I2,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(I2,-1,I8,-1,I8,0);
VARXOR(I2,-1,I8,0,I8,-1);
VARXOR(I2,0,I8,0,I8,0);
VARXOR(I2,-1,UI8,0,I4,-1);
VARXOR(I2,0,UI8,0,I4,0);
}
VARXOR(I2,-1,INT,-1,I4,0);
VARXOR(I2,-1,INT,0,I4,-1);
VARXOR(I2,0,INT,0,I4,0);
VARXOR(I2,-1,UINT,0xffffffff,I4,0);
VARXOR(I2,-1,UINT,0,I4,-1);
VARXOR(I2,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(I2,0,BSTR,rbstr,I2,0);
VARXOR(I2,-1,BSTR,rbstr,I2,-1);
rbstr = SysAllocString(szTrue);
VARXOR(I2,0,BSTR,rbstr,I2,-1);
VARXOR(I2,-1,BSTR,rbstr,I2,0);
VARXORCY(I2,-1,10000,I4,-2);
VARXORCY(I2,-1,0,I4,-1);
VARXORCY(I2,0,0,I4,0);
VARXOR(UI2,65535,UI2,65535,I4,0);
VARXOR(UI2,65535,UI2,0,I4,65535);
VARXOR(UI2,0,UI2,0,I4,0);
VARXOR(UI2,65535,I4,-1,I4,-65536);
VARXOR(UI2,65535,I4,0,I4,65535);
VARXOR(UI2,0,I4,0,I4,0);
VARXOR(UI2,65535,UI4,0xffffffff,I4,-65536);
VARXOR(UI2,65535,UI4,0,I4,65535);
VARXOR(UI2,0,UI4,0,I4,0);
VARXOR(UI2,65535,R4,-1,I4,-65536);
VARXOR(UI2,65535,R4,0,I4,65535);
VARXOR(UI2,0,R4,0,I4,0);
VARXOR(UI2,65535,R8,-1,I4,-65536);
VARXOR(UI2,65535,R8,0,I4,65535);
VARXOR(UI2,0,R8,0,I4,0);
VARXOR(UI2,65535,DATE,-1,I4,-65536);
VARXOR(UI2,65535,DATE,0,I4,65535);
VARXOR(UI2,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(UI2,65535,I8,-1,I8,-65536);
VARXOR(UI2,65535,I8,0,I8,65535);
VARXOR(UI2,0,I8,0,I8,0);
VARXOR(UI2,65535,UI8,0,I4,65535);
VARXOR(UI2,0,UI8,0,I4,0);
}
VARXOR(UI2,65535,INT,-1,I4,-65536);
VARXOR(UI2,65535,INT,0,I4,65535);
VARXOR(UI2,0,INT,0,I4,0);
VARXOR(UI2,65535,UINT,0xffffffff,I4,-65536);
VARXOR(UI2,65535,UINT,0,I4,65535);
VARXOR(UI2,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(UI2,0,BSTR,rbstr,I4,0);
VARXOR(UI2,65535,BSTR,rbstr,I4,65535);
rbstr = SysAllocString(szTrue);
VARXOR(UI2,0,BSTR,rbstr,I4,-1);
VARXOR(UI2,65535,BSTR,rbstr,I4,-65536);
VARXORCY(UI2,65535,10000,I4,65534);
VARXORCY(UI2,65535,0,I4,65535);
VARXORCY(UI2,0,0,I4,0);
VARXOR(I4,-1,I4,-1,I4,0);
VARXOR(I4,-1,I4,0,I4,-1);
VARXOR(I4,0,I4,0,I4,0);
VARXOR(I4,-1,UI4,0xffffffff,I4,0);
VARXOR(I4,-1,UI4,0,I4,-1);
VARXOR(I4,0,UI4,0,I4,0);
VARXOR(I4,-1,R4,-1,I4,0);
VARXOR(I4,-1,R4,0,I4,-1);
VARXOR(I4,0,R4,0,I4,0);
VARXOR(I4,-1,R8,-1,I4,0);
VARXOR(I4,-1,R8,0,I4,-1);
VARXOR(I4,0,R8,0,I4,0);
VARXOR(I4,-1,DATE,-1,I4,0);
VARXOR(I4,-1,DATE,0,I4,-1);
VARXOR(I4,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(I4,-1,I8,-1,I8,0);
VARXOR(I4,-1,I8,0,I8,-1);
VARXOR(I4,0,I8,0,I8,0);
VARXOR(I4,-1,UI8,0,I4,-1);
VARXOR(I4,0,UI8,0,I4,0);
}
VARXOR(I4,-1,INT,-1,I4,0);
VARXOR(I4,-1,INT,0,I4,-1);
VARXOR(I4,0,INT,0,I4,0);
VARXOR(I4,-1,UINT,0xffffffff,I4,0);
VARXOR(I4,-1,UINT,0,I4,-1);
VARXOR(I4,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(I4,0,BSTR,rbstr,I4,0);
VARXOR(I4,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VARXOR(I4,0,BSTR,rbstr,I4,-1);
VARXOR(I4,-1,BSTR,rbstr,I4,0);
VARXORCY(I4,-1,10000,I4,-2);
VARXORCY(I4,-1,0,I4,-1);
VARXORCY(I4,0,0,I4,0);
VARXOR(UI4,0xffffffff,UI4,0xffffffff,I4,0);
VARXOR(UI4,0xffffffff,UI4,0,I4,-1);
VARXOR(UI4,0,UI4,0,I4,0);
VARXOR(UI4,0xffffffff,R4,-1,I4,0);
VARXOR(UI4,0xffffffff,R4,0,I4,-1);
VARXOR(UI4,0,R4,0,I4,0);
VARXOR(UI4,0xffffffff,R8,-1,I4,0);
VARXOR(UI4,0xffffffff,R8,0,I4,-1);
VARXOR(UI4,0,R8,0,I4,0);
VARXOR(UI4,0xffffffff,DATE,-1,I4,0);
VARXOR(UI4,0xffffffff,DATE,0,I4,-1);
VARXOR(UI4,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(UI4,0xffffffff,I8,0,I8,0xffffffff);
VARXOR(UI4,VARIANT_FALSE,I8,VARIANT_FALSE,I8,0);
VARXOR(UI4,0,I8,0,I8,0);
VARXOR(UI4,0xffffffff,UI8,0,I4,-1);
VARXOR(UI4,0,UI8,0,I4,0);
}
VARXOR(UI4,0xffffffff,INT,-1,I4,0);
VARXOR(UI4,0xffffffff,INT,0,I4,-1);
VARXOR(UI4,0,INT,0,I4,0);
VARXOR(UI4,0xffffffff,UINT,0xffffffff,I4,0);
VARXOR(UI4,0xffffffff,UINT,0,I4,-1);
VARXOR(UI4,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(UI4,0,BSTR,rbstr,I4,0);
VARXOR(UI4,0xffffffff,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VARXOR(UI4,0,BSTR,rbstr,I4,-1);
VARXOR(UI4,0xffffffff,BSTR,rbstr,I4,0);
VARXORCY(UI4,0xffffffff,10000,I4,-2);
VARXORCY(UI4,0xffffffff,0,I4,-1);
VARXORCY(UI4,0,0,I4,0);
VARXOR(R4,-1,R4,-1,I4,0);
VARXOR(R4,-1,R4,0,I4,-1);
VARXOR(R4,0,R4,0,I4,0);
VARXOR(R4,-1,R8,-1,I4,0);
VARXOR(R4,-1,R8,0,I4,-1);
VARXOR(R4,0,R8,0,I4,0);
VARXOR(R4,-1,DATE,-1,I4,0);
VARXOR(R4,-1,DATE,0,I4,-1);
VARXOR(R4,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(R4,-1,I8,-1,I8,0);
VARXOR(R4,-1,I8,0,I8,-1);
VARXOR(R4,0,I8,0,I8,0);
VARXOR(R4,-1,UI8,0,I4,-1);
VARXOR(R4,0,UI8,0,I4,0);
}
VARXOR(R4,-1,INT,-1,I4,0);
VARXOR(R4,-1,INT,0,I4,-1);
VARXOR(R4,0,INT,0,I4,0);
VARXOR(R4,-1,UINT,0xffffffff,I4,0);
VARXOR(R4,-1,UINT,0,I4,-1);
VARXOR(R4,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(R4,0,BSTR,rbstr,I4,0);
VARXOR(R4,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VARXOR(R4,0,BSTR,rbstr,I4,-1);
VARXOR(R4,-1,BSTR,rbstr,I4,0);
VARXORCY(R4,-1,10000,I4,-2);
VARXORCY(R4,-1,0,I4,-1);
VARXORCY(R4,0,0,I4,0);
VARXOR(R8,-1,R8,-1,I4,0);
VARXOR(R8,-1,R8,0,I4,-1);
VARXOR(R8,0,R8,0,I4,0);
VARXOR(R8,-1,DATE,-1,I4,0);
VARXOR(R8,-1,DATE,0,I4,-1);
VARXOR(R8,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(R8,-1,I8,-1,I8,0);
VARXOR(R8,-1,I8,0,I8,-1);
VARXOR(R8,0,I8,0,I8,0);
VARXOR(R8,-1,UI8,0,I4,-1);
VARXOR(R8,0,UI8,0,I4,0);
}
VARXOR(R8,-1,INT,-1,I4,0);
VARXOR(R8,-1,INT,0,I4,-1);
VARXOR(R8,0,INT,0,I4,0);
VARXOR(R8,-1,UINT,0xffffffff,I4,0);
VARXOR(R8,-1,UINT,0,I4,-1);
VARXOR(R8,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(R8,0,BSTR,rbstr,I4,0);
VARXOR(R8,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VARXOR(R8,0,BSTR,rbstr,I4,-1);
VARXOR(R8,-1,BSTR,rbstr,I4,0);
VARXORCY(R8,-1,10000,I4,-2);
VARXORCY(R8,-1,0,I4,-1);
VARXORCY(R8,0,0,I4,0);
VARXOR(DATE,-1,DATE,-1,I4,0);
VARXOR(DATE,-1,DATE,0,I4,-1);
VARXOR(DATE,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(DATE,-1,I8,-1,I8,0);
VARXOR(DATE,-1,I8,0,I8,-1);
VARXOR(DATE,0,I8,0,I8,0);
VARXOR(DATE,-1,UI8,0,I4,-1);
VARXOR(DATE,0,UI8,0,I4,0);
}
VARXOR(DATE,-1,INT,-1,I4,0);
VARXOR(DATE,-1,INT,0,I4,-1);
VARXOR(DATE,0,INT,0,I4,0);
VARXOR(DATE,-1,UINT,0xffffffff,I4,0);
VARXOR(DATE,-1,UINT,0,I4,-1);
VARXOR(DATE,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(DATE,0,BSTR,rbstr,I4,0);
VARXOR(DATE,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VARXOR(DATE,0,BSTR,rbstr,I4,-1);
VARXOR(DATE,-1,BSTR,rbstr,I4,0);
VARXORCY(DATE,-1,10000,I4,-2);
VARXORCY(DATE,-1,0,I4,-1);
VARXORCY(DATE,0,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VARXOR(I8,-1,I8,-1,I8,0);
VARXOR(I8,-1,I8,0,I8,-1);
VARXOR(I8,0,I8,0,I8,0);
VARXOR(I8,-1,UI8,0,I8,-1);
VARXOR(I8,0,UI8,0,I8,0);
VARXOR(I8,-1,UINT,0,I8,-1);
VARXOR(I8,0,UINT,0,I8,0);
rbstr = SysAllocString(szFalse);
VARXOR(I8,0,BSTR,rbstr,I8,0);
VARXOR(I8,-1,BSTR,rbstr,I8,-1);
rbstr = SysAllocString(szTrue);
VARXOR(I8,0,BSTR,rbstr,I8,-1);
VARXOR(I8,-1,BSTR,rbstr,I8,0);
VARXORCY(I8,-1,10000,I8,-2);
VARXORCY(I8,-1,0,I8,-1);
VARXORCY(I8,0,0,I8,0);
VARXOR(UI8,0xffff,UI8,0xffff,I4,0);
VARXOR(UI8,0xffff,UI8,0,I4,0xffff);
VARXOR(UI8,0,UI8,0,I4,0);
VARXOR(UI8,0xffff,INT,-1,I4,-65536);
VARXOR(UI8,0xffff,INT,0,I4,0xffff);
VARXOR(UI8,0,INT,0,I4,0);
VARXOR(UI8,0xffff,UINT,0xffff,I4,0);
VARXOR(UI8,0xffff,UINT,0,I4,0xffff);
VARXOR(UI8,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(UI8,0,BSTR,rbstr,I4,0);
VARXOR(UI8,0xffff,BSTR,rbstr,I4,0xffff);
rbstr = SysAllocString(szTrue);
VARXOR(UI8,0,BSTR,rbstr,I4,-1);
VARXOR(UI8,0xffff,BSTR,rbstr,I4,-65536);
VARXORCY(UI8,0xffff,10000,I4,65534);
VARXORCY(UI8,0xffff,0,I4,0xffff);
VARXORCY(UI8,0,0,I4,0);
}
VARXOR(INT,-1,INT,-1,I4,0);
VARXOR(INT,-1,INT,0,I4,-1);
VARXOR(INT,0,INT,0,I4,0);
VARXOR(INT,-1,UINT,0xffff,I4,-65536);
VARXOR(INT,-1,UINT,0,I4,-1);
VARXOR(INT,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(INT,0,BSTR,rbstr,I4,0);
VARXOR(INT,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VARXOR(INT,0,BSTR,rbstr,I4,-1);
VARXOR(INT,-1,BSTR,rbstr,I4,0);
VARXORCY(INT,-1,10000,I4,-2);
VARXORCY(INT,-1,0,I4,-1);
VARXORCY(INT,0,0,I4,0);
VARXOR(UINT,0xffff,UINT,0xffff,I4,0);
VARXOR(UINT,0xffff,UINT,0,I4,0xffff);
VARXOR(UINT,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VARXOR(UINT,0,BSTR,rbstr,I4,0);
VARXOR(UINT,0xffff,BSTR,rbstr,I4,0xffff);
rbstr = SysAllocString(szTrue);
VARXOR(UINT,0,BSTR,rbstr,I4,-1);
VARXOR(UINT,0xffff,BSTR,rbstr,I4,-65536);
VARXORCY(UINT,0xffff,10000,I4,65534);
VARXORCY(UINT,0xffff,0,I4,0xffff);
VARXORCY(UINT,0,0,I4,0);
lbstr = SysAllocString(szFalse);
rbstr = SysAllocString(szFalse);
VARXOR(BSTR,lbstr,BSTR,rbstr,BOOL,0);
rbstr = SysAllocString(szTrue);
VARXOR(BSTR,lbstr,BSTR,rbstr,BOOL,VARIANT_TRUE);
lbstr = SysAllocString(szTrue);
VARXOR(BSTR,lbstr,BSTR,rbstr,BOOL,VARIANT_FALSE);
VARXORCY(BSTR,lbstr,10000,I4,-2);
lbstr = SysAllocString(szFalse);
VARXORCY(BSTR,lbstr,10000,I4,1);
}
static HRESULT (WINAPI *pVarOr)(LPVARIANT,LPVARIANT,LPVARIANT);
static const char *szVarOrFail = "VarOr(%d,%d): expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
static const char *szVarOrChanged = "VarOr(%d,%d): Modified input arguments\n";
#define VAROR(vt1,val1,vt2,val2,rvt,rval) \
V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
memset(&result,0,sizeof(result)); hres = pVarOr(&left,&right,&result); \
ok(hres == S_OK && V_VT(&result) == VT_##rvt && V_##rvt(&result) == (rval), \
szVarOrFail, VT_##vt1, VT_##vt2, \
VT_##rvt, (int)(rval), hres, V_VT(&result), (int)V_##rvt(&result)); \
ok(V_VT(&left) == VT_##vt1 && V_##vt1(&left) == val1 && \
V_VT(&right) == VT_##vt2 && V_##vt2(&right) == val2, \
szVarOrChanged,VT_##vt1,VT_##vt2)
#define VARORCY(vt1,val1,val2,rvt,rval) \
V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
V_VT(&right) = VT_CY; V_CY(&right).int64 = val2; \
memset(&result,0,sizeof(result)); hres = pVarOr(&left,&right,&result); \
ok(hres == S_OK && V_VT(&result) == VT_##rvt && V_##rvt(&result) == (rval), \
"VarOr(%d,%d): expected 0x0,%d,%d, got 0x%lX,%d,%d\n", VT_##vt1, VT_CY, \
VT_##rvt, (int)(rval), hres, V_VT(&result), (int)V_##rvt(&result)); \
ok(V_VT(&left) == VT_##vt1 && V_##vt1(&left) == val1 && \
V_VT(&right) == VT_CY && V_CY(&right).int64 == val2, \
"VarOr(%d,%d): Modified input arguments\n",VT_##vt1,VT_CY)
static void test_VarOr(void)
{
static const WCHAR szFalse[] = { '#','F','A','L','S','E','#','\0' };
static const WCHAR szTrue[] = { '#','T','R','U','E','#','\0' };
VARIANT left, right, result;
BSTR lbstr, rbstr;
VARTYPE i;
HRESULT hres;
CHECKPTR(VarOr);
/* Test all possible flag/vt combinations & the resulting vt type */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE leftvt, rightvt, resvt;
for (leftvt = 0; leftvt <= VT_BSTR_BLOB; leftvt++)
{
SKIPTESTS(leftvt);
for (rightvt = 0; rightvt <= VT_BSTR_BLOB; rightvt++)
{
BOOL bFail = FALSE;
SKIPTESTS(rightvt);
if (leftvt == VT_BSTR || rightvt == VT_BSTR ||
leftvt == VT_DISPATCH || rightvt == VT_DISPATCH ||
leftvt == VT_UNKNOWN || rightvt == VT_UNKNOWN)
continue;
memset(&left, 0, sizeof(left));
memset(&right, 0, sizeof(right));
V_VT(&left) = leftvt | ExtraFlags[i];
V_VT(&right) = rightvt | ExtraFlags[i];
V_VT(&result) = VT_EMPTY;
resvt = VT_I4;
if (ExtraFlags[i] & VT_ARRAY || ExtraFlags[i] & VT_BYREF ||
!IsValidVariantClearVT(leftvt, ExtraFlags[i]) ||
!IsValidVariantClearVT(rightvt, ExtraFlags[i]) ||
leftvt == VT_CLSID || rightvt == VT_CLSID ||
leftvt == VT_RECORD || rightvt == VT_RECORD ||
leftvt == VT_VARIANT || rightvt == VT_VARIANT ||
leftvt == VT_ERROR || rightvt == VT_ERROR)
{
bFail = TRUE;
}
if (leftvt == VT_EMPTY || rightvt == VT_EMPTY)
{
if (leftvt == rightvt ||
leftvt == VT_I2 || rightvt == VT_I2 ||
leftvt == VT_UI1 || rightvt == VT_UI1 ||
leftvt == VT_BOOL || rightvt == VT_BOOL)
resvt = VT_I2;
else if (leftvt == VT_NULL || rightvt == VT_NULL)
resvt = VT_NULL;
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
}
else if (leftvt == VT_NULL || rightvt == VT_NULL)
{
resvt = VT_NULL;
}
else if (leftvt == VT_UI1 || rightvt == VT_UI1)
{
if (leftvt == rightvt)
resvt = VT_UI1;
else if (leftvt == rightvt ||
leftvt == VT_I2 || rightvt == VT_I2 ||
leftvt == VT_BOOL || rightvt == VT_BOOL)
{
resvt = VT_I2;
}
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
}
else if (leftvt == VT_I2 || rightvt == VT_I2)
{
if (leftvt == rightvt ||
leftvt == VT_BOOL || rightvt == VT_BOOL)
resvt = VT_I2;
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
}
else if (leftvt == VT_BOOL && rightvt == VT_BOOL)
{
resvt = VT_BOOL;
}
else if (leftvt == VT_I8 || rightvt == VT_I8)
{
if (leftvt == VT_INT || rightvt == VT_INT)
bFail = TRUE;
else
resvt = VT_I8;
}
hres = pVarOr(&left, &right, &result);
if (bFail)
ok(hres == DISP_E_TYPEMISMATCH || hres == DISP_E_BADVARTYPE,
"VarOr: %d|0x%X, %d|0x%X: Expected failure, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], hres,
V_VT(&result));
else
ok(hres == S_OK && V_VT(&result) == resvt,
"VarOr: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], resvt, hres,
V_VT(&result));
}
}
}
/* Test returned values. Since we know the returned type is correct
* and that we handle all combinations of invalid types, just check
* that good type combinations produce the desired value.
* FIXME: Test VT_DECIMAL/VT_DISPATCH
*/
VAROR(EMPTY,0,EMPTY,0,I2,0);
VAROR(EMPTY,1,EMPTY,0,I2,0);
VAROR(EMPTY,0,NULL,0,NULL,0);
VAROR(EMPTY,0,I1,0,I4,0);
VAROR(EMPTY,0,I1,1,I4,1);
VAROR(EMPTY,0,UI1,0,I2,0);
VAROR(EMPTY,0,UI1,1,I2,1);
VAROR(EMPTY,0,I2,0,I2,0);
VAROR(EMPTY,0,I2,1,I2,1);
VAROR(EMPTY,0,UI2,0,I4,0);
VAROR(EMPTY,0,UI2,1,I4,1);
VAROR(EMPTY,0,I4,0,I4,0);
VAROR(EMPTY,0,I4,1,I4,1);
VAROR(EMPTY,0,UI4,0,I4,0);
VAROR(EMPTY,0,UI4,1,I4,1);
if (HAVE_OLEAUT32_I8)
{
VAROR(EMPTY,0,I8,0,I8,0);
VAROR(EMPTY,0,I8,1,I8,1);
VAROR(EMPTY,0,UI8,0,I4,0);
VAROR(EMPTY,0,UI8,1,I4,1);
}
VAROR(EMPTY,0,INT,0,I4,0);
VAROR(EMPTY,0,INT,1,I4,1);
VAROR(EMPTY,0,UINT,0,I4,0);
VAROR(EMPTY,0,UINT,1,I4,1);
VAROR(EMPTY,0,BOOL,0,I2,0);
VAROR(EMPTY,0,BOOL,1,I2,1);
VAROR(EMPTY,0,R4,0,I4,0);
VAROR(EMPTY,0,R4,1,I4,1);
VAROR(EMPTY,0,R8,0,I4,0);
VAROR(EMPTY,0,R8,1,I4,1);
rbstr = SysAllocString(szFalse);
VAROR(EMPTY,0,BSTR,rbstr,I2,0);
rbstr = SysAllocString(szTrue);
VAROR(EMPTY,0,BSTR,rbstr,I2,-1);
VARORCY(EMPTY,0,10000,I4,1);
/* NULL OR 0 = NULL. NULL OR n = n */
VAROR(NULL,0,NULL,0,NULL,0);
VAROR(NULL,1,NULL,0,NULL,0);
VAROR(NULL,0,I1,0,NULL,0);
VAROR(NULL,0,I1,1,I4,1);
VAROR(NULL,0,UI1,0,NULL,0);
VAROR(NULL,0,UI1,1,UI1,1);
VAROR(NULL,0,I2,0,NULL,0);
VAROR(NULL,0,I2,1,I2,1);
VAROR(NULL,0,UI2,0,NULL,0);
VAROR(NULL,0,UI2,1,I4,1);
VAROR(NULL,0,I4,0,NULL,0);
VAROR(NULL,0,I4,1,I4,1);
VAROR(NULL,0,UI4,0,NULL,0);
VAROR(NULL,0,UI4,1,I4,1);
if (HAVE_OLEAUT32_I8)
{
VAROR(NULL,0,I8,0,NULL,0);
VAROR(NULL,0,I8,1,I8,1);
VAROR(NULL,0,UI8,0,NULL,0);
VAROR(NULL,0,UI8,1,I4,1);
}
VAROR(NULL,0,INT,0,NULL,0);
VAROR(NULL,0,INT,1,I4,1);
VAROR(NULL,0,UINT,0,NULL,0);
VAROR(NULL,0,UINT,1,I4,1);
VAROR(NULL,0,BOOL,0,NULL,0);
VAROR(NULL,0,BOOL,1,BOOL,1);
VAROR(NULL,0,R4,0,NULL,0);
VAROR(NULL,0,R4,1,I4,1);
VAROR(NULL,0,R8,0,NULL,0);
VAROR(NULL,0,R8,1,I4,1);
rbstr = SysAllocString(szFalse);
VAROR(NULL,0,BSTR,rbstr,NULL,0);
rbstr = SysAllocString(szTrue);
VAROR(NULL,0,BSTR,rbstr,BOOL,VARIANT_TRUE);
VARORCY(NULL,0,10000,I4,1);
VARORCY(NULL,0,0,NULL,0);
VAROR(BOOL,VARIANT_TRUE,BOOL,VARIANT_TRUE,BOOL,VARIANT_TRUE);
VAROR(BOOL,VARIANT_TRUE,BOOL,VARIANT_FALSE,BOOL,VARIANT_TRUE);
VAROR(BOOL,VARIANT_FALSE,BOOL,VARIANT_TRUE,BOOL,VARIANT_TRUE);
VAROR(BOOL,VARIANT_FALSE,BOOL,VARIANT_FALSE,BOOL,VARIANT_FALSE);
/* Assume x,y & y,x are the same from now on to reduce the number of tests */
VAROR(BOOL,VARIANT_TRUE,I1,-1,I4,-1);
VAROR(BOOL,VARIANT_TRUE,I1,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,I1,0,I4,0);
VAROR(BOOL,VARIANT_TRUE,UI1,255,I2,-1);
VAROR(BOOL,VARIANT_TRUE,UI1,0,I2,-1);
VAROR(BOOL,VARIANT_FALSE,UI1,0,I2,0);
VAROR(BOOL,VARIANT_TRUE,I2,-1,I2,-1);
VAROR(BOOL,VARIANT_TRUE,I2,0,I2,-1);
VAROR(BOOL,VARIANT_FALSE,I2,0,I2,0);
VAROR(BOOL,VARIANT_TRUE,UI2,65535,I4,-1);
VAROR(BOOL,VARIANT_TRUE,UI2,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,UI2,0,I4,0);
VAROR(BOOL,VARIANT_TRUE,I4,-1,I4,-1);
VAROR(BOOL,VARIANT_TRUE,I4,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,I4,0,I4,0);
VAROR(BOOL,VARIANT_TRUE,UI4,0xffffffff,I4,-1);
VAROR(BOOL,VARIANT_TRUE,UI4,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,UI4,0,I4,0);
VAROR(BOOL,VARIANT_TRUE,R4,-1,I4,-1);
VAROR(BOOL,VARIANT_TRUE,R4,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,R4,0,I4,0);
VAROR(BOOL,VARIANT_TRUE,R8,-1,I4,-1);
VAROR(BOOL,VARIANT_TRUE,R8,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,R8,0,I4,0);
VAROR(BOOL,VARIANT_TRUE,DATE,-1,I4,-1);
VAROR(BOOL,VARIANT_TRUE,DATE,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(BOOL,VARIANT_TRUE,I8,-1,I8,-1);
VAROR(BOOL,VARIANT_TRUE,I8,0,I8,-1);
VAROR(BOOL,VARIANT_FALSE,I8,0,I8,0);
/* This returns DISP_E_OVERFLOW which indicates that a conversion
* to I4 is performed.
*/
/* VAROR(BOOL,VARIANT_TRUE,UI8,-1,I4,-1); */
VAROR(BOOL,VARIANT_TRUE,UI8,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,UI8,0,I4,0);
}
VAROR(BOOL,VARIANT_TRUE,INT,-1,I4,-1);
VAROR(BOOL,VARIANT_TRUE,INT,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,INT,0,I4,0);
VAROR(BOOL,VARIANT_TRUE,UINT,0xffffffff,I4,-1);
VAROR(BOOL,VARIANT_TRUE,UINT,0,I4,-1);
VAROR(BOOL,VARIANT_FALSE,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(BOOL,VARIANT_FALSE,BSTR,rbstr,BOOL,VARIANT_FALSE);
VAROR(BOOL,VARIANT_TRUE,BSTR,rbstr,BOOL,VARIANT_TRUE);
rbstr = SysAllocString(szTrue);
VAROR(BOOL,VARIANT_FALSE,BSTR,rbstr,BOOL,VARIANT_TRUE);
VAROR(BOOL,VARIANT_TRUE,BSTR,rbstr,BOOL,VARIANT_TRUE);
VARORCY(BOOL,VARIANT_TRUE,10000,I4,-1);
VARORCY(BOOL,VARIANT_TRUE,0,I4,-1);
VARORCY(BOOL,VARIANT_FALSE,0,I4,0);
VAROR(I1,-1,I1,-1,I4,-1);
VAROR(I1,-1,I1,0,I4,-1);
VAROR(I1,0,I1,0,I4,0);
VAROR(I1,-1,UI1,255,I4,-1);
VAROR(I1,-1,UI1,0,I4,-1);
VAROR(I1,0,UI1,0,I4,0);
VAROR(I1,-1,I2,-1,I4,-1);
VAROR(I1,-1,I2,0,I4,-1);
VAROR(I1,0,I2,0,I4,0);
VAROR(I1,-1,UI2,65535,I4,-1);
VAROR(I1,-1,UI2,0,I4,-1);
VAROR(I1,0,UI2,0,I4,0);
VAROR(I1,-1,I4,-1,I4,-1);
VAROR(I1,-1,I4,0,I4,-1);
VAROR(I1,0,I4,0,I4,0);
VAROR(I1,-1,UI4,0xffffffff,I4,-1);
VAROR(I1,-1,UI4,0,I4,-1);
VAROR(I1,0,UI4,0,I4,0);
VAROR(I1,-1,R4,-1,I4,-1);
VAROR(I1,-1,R4,0,I4,-1);
VAROR(I1,0,R4,0,I4,0);
VAROR(I1,-1,R8,-1,I4,-1);
VAROR(I1,-1,R8,0,I4,-1);
VAROR(I1,0,R8,0,I4,0);
VAROR(I1,-1,DATE,-1,I4,-1);
VAROR(I1,-1,DATE,0,I4,-1);
VAROR(I1,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(I1,-1,I8,-1,I8,-1);
VAROR(I1,-1,I8,0,I8,-1);
VAROR(I1,0,I8,0,I8,0);
VAROR(I1,-1,UI8,0,I4,-1);
VAROR(I1,0,UI8,0,I4,0);
}
VAROR(I1,-1,INT,-1,I4,-1);
VAROR(I1,-1,INT,0,I4,-1);
VAROR(I1,0,INT,0,I4,0);
VAROR(I1,-1,UINT,0xffffffff,I4,-1);
VAROR(I1,-1,UINT,0,I4,-1);
VAROR(I1,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(I1,0,BSTR,rbstr,I4,0);
VAROR(I1,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VAROR(I1,0,BSTR,rbstr,I4,-1);
VAROR(I1,-1,BSTR,rbstr,I4,-1);
VARORCY(I1,-1,10000,I4,-1);
VARORCY(I1,-1,0,I4,-1);
VARORCY(I1,0,0,I4,0);
VAROR(UI1,255,UI1,255,UI1,255);
VAROR(UI1,255,UI1,0,UI1,255);
VAROR(UI1,0,UI1,0,UI1,0);
VAROR(UI1,255,I2,-1,I2,-1);
VAROR(UI1,255,I2,0,I2,255);
VAROR(UI1,0,I2,0,I2,0);
VAROR(UI1,255,UI2,65535,I4,65535);
VAROR(UI1,255,UI2,0,I4,255);
VAROR(UI1,0,UI2,0,I4,0);
VAROR(UI1,255,I4,-1,I4,-1);
VAROR(UI1,255,I4,0,I4,255);
VAROR(UI1,0,I4,0,I4,0);
VAROR(UI1,255,UI4,0xffffffff,I4,-1);
VAROR(UI1,255,UI4,0,I4,255);
VAROR(UI1,0,UI4,0,I4,0);
VAROR(UI1,255,R4,-1,I4,-1);
VAROR(UI1,255,R4,0,I4,255);
VAROR(UI1,0,R4,0,I4,0);
VAROR(UI1,255,R8,-1,I4,-1);
VAROR(UI1,255,R8,0,I4,255);
VAROR(UI1,0,R8,0,I4,0);
VAROR(UI1,255,DATE,-1,I4,-1);
VAROR(UI1,255,DATE,0,I4,255);
VAROR(UI1,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(UI1,255,I8,-1,I8,-1);
VAROR(UI1,255,I8,0,I8,255);
VAROR(UI1,0,I8,0,I8,0);
VAROR(UI1,255,UI8,0,I4,255);
VAROR(UI1,0,UI8,0,I4,0);
}
VAROR(UI1,255,INT,-1,I4,-1);
VAROR(UI1,255,INT,0,I4,255);
VAROR(UI1,0,INT,0,I4,0);
VAROR(UI1,255,UINT,0xffffffff,I4,-1);
VAROR(UI1,255,UINT,0,I4,255);
VAROR(UI1,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(UI1,0,BSTR,rbstr,I2,0);
VAROR(UI1,255,BSTR,rbstr,I2,255);
rbstr = SysAllocString(szTrue);
VAROR(UI1,0,BSTR,rbstr,I2,-1);
VAROR(UI1,255,BSTR,rbstr,I2,-1);
VARORCY(UI1,255,10000,I4,255);
VARORCY(UI1,255,0,I4,255);
VARORCY(UI1,0,0,I4,0);
VAROR(I2,-1,I2,-1,I2,-1);
VAROR(I2,-1,I2,0,I2,-1);
VAROR(I2,0,I2,0,I2,0);
VAROR(I2,-1,UI2,65535,I4,-1);
VAROR(I2,-1,UI2,0,I4,-1);
VAROR(I2,0,UI2,0,I4,0);
VAROR(I2,-1,I4,-1,I4,-1);
VAROR(I2,-1,I4,0,I4,-1);
VAROR(I2,0,I4,0,I4,0);
VAROR(I2,-1,UI4,0xffffffff,I4,-1);
VAROR(I2,-1,UI4,0,I4,-1);
VAROR(I2,0,UI4,0,I4,0);
VAROR(I2,-1,R4,-1,I4,-1);
VAROR(I2,-1,R4,0,I4,-1);
VAROR(I2,0,R4,0,I4,0);
VAROR(I2,-1,R8,-1,I4,-1);
VAROR(I2,-1,R8,0,I4,-1);
VAROR(I2,0,R8,0,I4,0);
VAROR(I2,-1,DATE,-1,I4,-1);
VAROR(I2,-1,DATE,0,I4,-1);
VAROR(I2,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(I2,-1,I8,-1,I8,-1);
VAROR(I2,-1,I8,0,I8,-1);
VAROR(I2,0,I8,0,I8,0);
VAROR(I2,-1,UI8,0,I4,-1);
VAROR(I2,0,UI8,0,I4,0);
}
VAROR(I2,-1,INT,-1,I4,-1);
VAROR(I2,-1,INT,0,I4,-1);
VAROR(I2,0,INT,0,I4,0);
VAROR(I2,-1,UINT,0xffffffff,I4,-1);
VAROR(I2,-1,UINT,0,I4,-1);
VAROR(I2,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(I2,0,BSTR,rbstr,I2,0);
VAROR(I2,-1,BSTR,rbstr,I2,-1);
rbstr = SysAllocString(szTrue);
VAROR(I2,0,BSTR,rbstr,I2,-1);
VAROR(I2,-1,BSTR,rbstr,I2,-1);
VARORCY(I2,-1,10000,I4,-1);
VARORCY(I2,-1,0,I4,-1);
VARORCY(I2,0,0,I4,0);
VAROR(UI2,65535,UI2,65535,I4,65535);
VAROR(UI2,65535,UI2,0,I4,65535);
VAROR(UI2,0,UI2,0,I4,0);
VAROR(UI2,65535,I4,-1,I4,-1);
VAROR(UI2,65535,I4,0,I4,65535);
VAROR(UI2,0,I4,0,I4,0);
VAROR(UI2,65535,UI4,0xffffffff,I4,-1);
VAROR(UI2,65535,UI4,0,I4,65535);
VAROR(UI2,0,UI4,0,I4,0);
VAROR(UI2,65535,R4,-1,I4,-1);
VAROR(UI2,65535,R4,0,I4,65535);
VAROR(UI2,0,R4,0,I4,0);
VAROR(UI2,65535,R8,-1,I4,-1);
VAROR(UI2,65535,R8,0,I4,65535);
VAROR(UI2,0,R8,0,I4,0);
VAROR(UI2,65535,DATE,-1,I4,-1);
VAROR(UI2,65535,DATE,0,I4,65535);
VAROR(UI2,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(UI2,65535,I8,-1,I8,-1);
VAROR(UI2,65535,I8,0,I8,65535);
VAROR(UI2,0,I8,0,I8,0);
VAROR(UI2,65535,UI8,0,I4,65535);
VAROR(UI2,0,UI8,0,I4,0);
}
VAROR(UI2,65535,INT,-1,I4,-1);
VAROR(UI2,65535,INT,0,I4,65535);
VAROR(UI2,0,INT,0,I4,0);
VAROR(UI2,65535,UINT,0xffffffff,I4,-1);
VAROR(UI2,65535,UINT,0,I4,65535);
VAROR(UI2,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(UI2,0,BSTR,rbstr,I4,0);
VAROR(UI2,65535,BSTR,rbstr,I4,65535);
rbstr = SysAllocString(szTrue);
VAROR(UI2,0,BSTR,rbstr,I4,-1);
VAROR(UI2,65535,BSTR,rbstr,I4,-1);
VARORCY(UI2,65535,10000,I4,65535);
VARORCY(UI2,65535,0,I4,65535);
VARORCY(UI2,0,0,I4,0);
VAROR(I4,-1,I4,-1,I4,-1);
VAROR(I4,-1,I4,0,I4,-1);
VAROR(I4,0,I4,0,I4,0);
VAROR(I4,-1,UI4,0xffffffff,I4,-1);
VAROR(I4,-1,UI4,0,I4,-1);
VAROR(I4,0,UI4,0,I4,0);
VAROR(I4,-1,R4,-1,I4,-1);
VAROR(I4,-1,R4,0,I4,-1);
VAROR(I4,0,R4,0,I4,0);
VAROR(I4,-1,R8,-1,I4,-1);
VAROR(I4,-1,R8,0,I4,-1);
VAROR(I4,0,R8,0,I4,0);
VAROR(I4,-1,DATE,-1,I4,-1);
VAROR(I4,-1,DATE,0,I4,-1);
VAROR(I4,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(I4,-1,I8,-1,I8,-1);
VAROR(I4,-1,I8,0,I8,-1);
VAROR(I4,0,I8,0,I8,0);
VAROR(I4,-1,UI8,0,I4,-1);
VAROR(I4,0,UI8,0,I4,0);
}
VAROR(I4,-1,INT,-1,I4,-1);
VAROR(I4,-1,INT,0,I4,-1);
VAROR(I4,0,INT,0,I4,0);
VAROR(I4,-1,UINT,0xffffffff,I4,-1);
VAROR(I4,-1,UINT,0,I4,-1);
VAROR(I4,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(I4,0,BSTR,rbstr,I4,0);
VAROR(I4,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VAROR(I4,0,BSTR,rbstr,I4,-1);
VAROR(I4,-1,BSTR,rbstr,I4,-1);
VARORCY(I4,-1,10000,I4,-1);
VARORCY(I4,-1,0,I4,-1);
VARORCY(I4,0,0,I4,0);
VAROR(UI4,0xffffffff,UI4,0xffffffff,I4,-1);
VAROR(UI4,0xffffffff,UI4,0,I4,-1);
VAROR(UI4,0,UI4,0,I4,0);
VAROR(UI4,0xffffffff,R4,-1,I4,-1);
VAROR(UI4,0xffffffff,R4,0,I4,-1);
VAROR(UI4,0,R4,0,I4,0);
VAROR(UI4,0xffffffff,R8,-1,I4,-1);
VAROR(UI4,0xffffffff,R8,0,I4,-1);
VAROR(UI4,0,R8,0,I4,0);
VAROR(UI4,0xffffffff,DATE,-1,I4,-1);
VAROR(UI4,0xffffffff,DATE,0,I4,-1);
VAROR(UI4,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(UI4,0xffffffff,I8,-1,I8,-1);
VAROR(UI4,0xffffffff,I8,0,I8,0xffffffff);
VAROR(UI4,0,I8,0,I8,0);
VAROR(UI4,0xffffffff,UI8,0,I4,-1);
VAROR(UI4,0,UI8,0,I4,0);
}
VAROR(UI4,0xffffffff,INT,-1,I4,-1);
VAROR(UI4,0xffffffff,INT,0,I4,-1);
VAROR(UI4,0,INT,0,I4,0);
VAROR(UI4,0xffffffff,UINT,0xffffffff,I4,-1);
VAROR(UI4,0xffffffff,UINT,0,I4,-1);
VAROR(UI4,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(UI4,0,BSTR,rbstr,I4,0);
VAROR(UI4,0xffffffff,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VAROR(UI4,0,BSTR,rbstr,I4,-1);
VAROR(UI4,0xffffffff,BSTR,rbstr,I4,-1);
VARORCY(UI4,0xffffffff,10000,I4,-1);
VARORCY(UI4,0xffffffff,0,I4,-1);
VARORCY(UI4,0,0,I4,0);
VAROR(R4,-1,R4,-1,I4,-1);
VAROR(R4,-1,R4,0,I4,-1);
VAROR(R4,0,R4,0,I4,0);
VAROR(R4,-1,R8,-1,I4,-1);
VAROR(R4,-1,R8,0,I4,-1);
VAROR(R4,0,R8,0,I4,0);
VAROR(R4,-1,DATE,-1,I4,-1);
VAROR(R4,-1,DATE,0,I4,-1);
VAROR(R4,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(R4,-1,I8,-1,I8,-1);
VAROR(R4,-1,I8,0,I8,-1);
VAROR(R4,0,I8,0,I8,0);
VAROR(R4,-1,UI8,0,I4,-1);
VAROR(R4,0,UI8,0,I4,0);
}
VAROR(R4,-1,INT,-1,I4,-1);
VAROR(R4,-1,INT,0,I4,-1);
VAROR(R4,0,INT,0,I4,0);
VAROR(R4,-1,UINT,0xffffffff,I4,-1);
VAROR(R4,-1,UINT,0,I4,-1);
VAROR(R4,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(R4,0,BSTR,rbstr,I4,0);
VAROR(R4,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VAROR(R4,0,BSTR,rbstr,I4,-1);
VAROR(R4,-1,BSTR,rbstr,I4,-1);
VARORCY(R4,-1,10000,I4,-1);
VARORCY(R4,-1,0,I4,-1);
VARORCY(R4,0,0,I4,0);
VAROR(R8,-1,R8,-1,I4,-1);
VAROR(R8,-1,R8,0,I4,-1);
VAROR(R8,0,R8,0,I4,0);
VAROR(R8,-1,DATE,-1,I4,-1);
VAROR(R8,-1,DATE,0,I4,-1);
VAROR(R8,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(R8,-1,I8,-1,I8,-1);
VAROR(R8,-1,I8,0,I8,-1);
VAROR(R8,0,I8,0,I8,0);
VAROR(R8,-1,UI8,0,I4,-1);
VAROR(R8,0,UI8,0,I4,0);
}
VAROR(R8,-1,INT,-1,I4,-1);
VAROR(R8,-1,INT,0,I4,-1);
VAROR(R8,0,INT,0,I4,0);
VAROR(R8,-1,UINT,0xffffffff,I4,-1);
VAROR(R8,-1,UINT,0,I4,-1);
VAROR(R8,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(R8,0,BSTR,rbstr,I4,0);
VAROR(R8,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VAROR(R8,0,BSTR,rbstr,I4,-1);
VAROR(R8,-1,BSTR,rbstr,I4,-1);
VARORCY(R8,-1,10000,I4,-1);
VARORCY(R8,-1,0,I4,-1);
VARORCY(R8,0,0,I4,0);
VAROR(DATE,-1,DATE,-1,I4,-1);
VAROR(DATE,-1,DATE,0,I4,-1);
VAROR(DATE,0,DATE,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(DATE,-1,I8,-1,I8,-1);
VAROR(DATE,-1,I8,0,I8,-1);
VAROR(DATE,0,I8,0,I8,0);
VAROR(DATE,-1,UI8,0,I4,-1);
VAROR(DATE,0,UI8,0,I4,0);
}
VAROR(DATE,-1,INT,-1,I4,-1);
VAROR(DATE,-1,INT,0,I4,-1);
VAROR(DATE,0,INT,0,I4,0);
VAROR(DATE,-1,UINT,0xffffffff,I4,-1);
VAROR(DATE,-1,UINT,0,I4,-1);
VAROR(DATE,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(DATE,0,BSTR,rbstr,I4,0);
VAROR(DATE,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VAROR(DATE,0,BSTR,rbstr,I4,-1);
VAROR(DATE,-1,BSTR,rbstr,I4,-1);
VARORCY(DATE,-1,10000,I4,-1);
VARORCY(DATE,-1,0,I4,-1);
VARORCY(DATE,0,0,I4,0);
if (HAVE_OLEAUT32_I8)
{
VAROR(I8,-1,I8,-1,I8,-1);
VAROR(I8,-1,I8,0,I8,-1);
VAROR(I8,0,I8,0,I8,0);
VAROR(I8,-1,UI8,0,I8,-1);
VAROR(I8,0,UI8,0,I8,0);
/* These overflow under native and Wine
VAROR(I8,-1,INT,-1,I4,-1);
VAROR(I8,-1,INT,0,I4,-1);
VAROR(I8,0,INT,0,I4,0); */
VAROR(I8,-1,UINT,0xffffffff,I8,-1);
VAROR(I8,-1,UINT,0,I8,-1);
VAROR(I8,0,UINT,0,I8,0);
rbstr = SysAllocString(szFalse);
VAROR(I8,0,BSTR,rbstr,I8,0);
VAROR(I8,-1,BSTR,rbstr,I8,-1);
rbstr = SysAllocString(szTrue);
VAROR(I8,0,BSTR,rbstr,I8,-1);
VAROR(I8,-1,BSTR,rbstr,I8,-1);
VARORCY(I8,-1,10000,I8,-1);
VARORCY(I8,-1,0,I8,-1);
VARORCY(I8,0,0,I8,0);
VAROR(UI8,0xffff,UI8,0xffff,I4,0xffff);
VAROR(UI8,0xffff,UI8,0,I4,0xffff);
VAROR(UI8,0,UI8,0,I4,0);
VAROR(UI8,0xffff,INT,-1,I4,-1);
VAROR(UI8,0xffff,INT,0,I4,0xffff);
VAROR(UI8,0,INT,0,I4,0);
VAROR(UI8,0xffff,UINT,0xffff,I4,0xffff);
VAROR(UI8,0xffff,UINT,0,I4,0xffff);
VAROR(UI8,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(UI8,0,BSTR,rbstr,I4,0);
VAROR(UI8,0xffff,BSTR,rbstr,I4,0xffff);
rbstr = SysAllocString(szTrue);
VAROR(UI8,0,BSTR,rbstr,I4,-1);
VAROR(UI8,0xffff,BSTR,rbstr,I4,-1);
VARORCY(UI8,0xffff,10000,I4,0xffff);
VARORCY(UI8,0xffff,0,I4,0xffff);
VARORCY(UI8,0,0,I4,0);
}
VAROR(INT,-1,INT,-1,I4,-1);
VAROR(INT,-1,INT,0,I4,-1);
VAROR(INT,0,INT,0,I4,0);
VAROR(INT,-1,UINT,0xffff,I4,-1);
VAROR(INT,-1,UINT,0,I4,-1);
VAROR(INT,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(INT,0,BSTR,rbstr,I4,0);
VAROR(INT,-1,BSTR,rbstr,I4,-1);
rbstr = SysAllocString(szTrue);
VAROR(INT,0,BSTR,rbstr,I4,-1);
VAROR(INT,-1,BSTR,rbstr,I4,-1);
VARORCY(INT,-1,10000,I4,-1);
VARORCY(INT,-1,0,I4,-1);
VARORCY(INT,0,0,I4,0);
VAROR(UINT,0xffff,UINT,0xffff,I4,0xffff);
VAROR(UINT,0xffff,UINT,0,I4,0xffff);
VAROR(UINT,0,UINT,0,I4,0);
rbstr = SysAllocString(szFalse);
VAROR(UINT,0,BSTR,rbstr,I4,0);
VAROR(UINT,0xffff,BSTR,rbstr,I4,0xffff);
rbstr = SysAllocString(szTrue);
VAROR(UINT,0,BSTR,rbstr,I4,-1);
VAROR(UINT,0xffff,BSTR,rbstr,I4,-1);
VARORCY(UINT,0xffff,10000,I4,0xffff);
VARORCY(UINT,0xffff,0,I4,0xffff);
VARORCY(UINT,0,0,I4,0);
lbstr = SysAllocString(szFalse);
rbstr = SysAllocString(szFalse);
VAROR(BSTR,lbstr,BSTR,rbstr,BOOL,0);
rbstr = SysAllocString(szTrue);
VAROR(BSTR,lbstr,BSTR,rbstr,BOOL,VARIANT_TRUE);
lbstr = SysAllocString(szTrue);
VAROR(BSTR,lbstr,BSTR,rbstr,BOOL,VARIANT_TRUE);
VARORCY(BSTR,lbstr,10000,I4,-1);
lbstr = SysAllocString(szFalse);
VARORCY(BSTR,lbstr,10000,I4,1);
}
static HRESULT (WINAPI *pVarEqv)(LPVARIANT,LPVARIANT,LPVARIANT);
static const char *szVarEqvFail = "VarEqv(%d,%d): expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
#define VAREQV(vt1,val1,vt2,val2,rvt,rval) \
V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
memset(&result,0,sizeof(result)); hres = pVarEqv(&left,&right,&result); \
ok(hres == S_OK && V_VT(&result) == VT_##rvt && V_##rvt(&result) == (rval), \
szVarEqvFail, VT_##vt1, VT_##vt2, \
VT_##rvt, (int)(rval), hres, V_VT(&result), (int)V_##rvt(&result))
static void test_VarEqv(void)
{
VARIANT left, right, result;
VARTYPE i;
HRESULT hres;
CHECKPTR(VarEqv);
/* Test all possible flag/vt combinations & the resulting vt type */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE leftvt, rightvt, resvt;
for (leftvt = 0; leftvt <= VT_BSTR_BLOB; leftvt++)
{
SKIPTESTS(leftvt);
for (rightvt = 0; rightvt <= VT_BSTR_BLOB; rightvt++)
{
BOOL bFail = FALSE;
SKIPTESTS(rightvt);
if (leftvt == VT_BSTR || rightvt == VT_BSTR ||
leftvt == VT_DISPATCH || rightvt == VT_DISPATCH ||
leftvt == VT_UNKNOWN || rightvt == VT_UNKNOWN)
continue;
memset(&left, 0, sizeof(left));
memset(&right, 0, sizeof(right));
V_VT(&left) = leftvt | ExtraFlags[i];
V_VT(&right) = rightvt | ExtraFlags[i];
V_VT(&result) = VT_EMPTY;
resvt = VT_I4;
if (ExtraFlags[i] & VT_ARRAY || ExtraFlags[i] & VT_BYREF ||
!IsValidVariantClearVT(leftvt, ExtraFlags[i]) ||
!IsValidVariantClearVT(rightvt, ExtraFlags[i]) ||
leftvt == VT_CLSID || rightvt == VT_CLSID ||
leftvt == VT_RECORD || rightvt == VT_RECORD ||
leftvt == VT_VARIANT || rightvt == VT_VARIANT ||
leftvt == VT_ERROR || rightvt == VT_ERROR)
{
bFail = TRUE;
}
if (leftvt == VT_EMPTY || rightvt == VT_EMPTY)
{
if (leftvt == rightvt ||
leftvt == VT_I2 || rightvt == VT_I2 ||
leftvt == VT_UI1 || rightvt == VT_UI1 ||
leftvt == VT_BOOL || rightvt == VT_BOOL)
resvt = VT_I2;
else if (leftvt == VT_NULL || rightvt == VT_NULL)
resvt = VT_NULL;
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
}
else if (leftvt == VT_NULL || rightvt == VT_NULL)
{
resvt = VT_NULL;
}
else if (leftvt == VT_UI1 || rightvt == VT_UI1)
{
if (leftvt == rightvt)
resvt = VT_UI1;
else if (leftvt == rightvt ||
leftvt == VT_I2 || rightvt == VT_I2 ||
leftvt == VT_BOOL || rightvt == VT_BOOL)
{
resvt = VT_I2;
}
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
}
else if (leftvt == VT_I2 || rightvt == VT_I2)
{
if (leftvt == rightvt ||
leftvt == VT_BOOL || rightvt == VT_BOOL)
resvt = VT_I2;
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
}
else if (leftvt == VT_BOOL && rightvt == VT_BOOL)
{
resvt = VT_BOOL;
}
else if (leftvt == VT_I8 || rightvt == VT_I8)
{
if (leftvt == VT_INT || rightvt == VT_INT)
bFail = TRUE;
else
resvt = VT_I8;
}
hres = pVarEqv(&left, &right, &result);
if (bFail)
ok(hres == DISP_E_TYPEMISMATCH || hres == DISP_E_BADVARTYPE,
"VarEqv: %d|0x%X, %d|0x%X: Expected failure, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], hres,
V_VT(&result));
else
ok(hres == S_OK && V_VT(&result) == resvt,
"VarEqv: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], resvt, hres,
V_VT(&result));
}
}
}
/* Test returned values */
VAREQV(BOOL,VARIANT_TRUE,BOOL,VARIANT_TRUE,BOOL,VARIANT_TRUE);
VAREQV(BOOL,VARIANT_FALSE,BOOL,VARIANT_TRUE,BOOL,VARIANT_FALSE);
VAREQV(BOOL,TRUE,BOOL,TRUE,BOOL,VARIANT_TRUE);
VAREQV(BOOL,FALSE,BOOL,FALSE,BOOL,VARIANT_TRUE);
VAREQV(BOOL,TRUE,BOOL,FALSE,BOOL,-2);
VAREQV(BOOL,FALSE,BOOL,TRUE,BOOL,-2);
VAREQV(BOOL,6,BOOL,7,BOOL,-2);
VAREQV(BOOL,6,BOOL,6,BOOL,VARIANT_TRUE);
VAREQV(BOOL,VARIANT_TRUE,I2,VARIANT_TRUE,I2,VARIANT_TRUE);
VAREQV(BOOL,VARIANT_TRUE,I2,VARIANT_FALSE,I2,VARIANT_FALSE);
VAREQV(BOOL,6,I2,7,I2,-2);
VAREQV(UI1,1,UI1,1,UI1,255);
VAREQV(UI1,1,UI1,0,UI1,254);
VAREQV(UI1,0,UI1,1,UI1,254);
if (HAVE_OLEAUT32_I8)
{
VAREQV(UI4,VARIANT_FALSE,I8,VARIANT_FALSE,I8,-1);
VAREQV(UI4,5,I8,19,I8,-23);
VAREQV(UI4,VARIANT_FALSE,UI8,VARIANT_FALSE,I4,-1);
}
}
static HRESULT (WINAPI *pVarMul)(LPVARIANT,LPVARIANT,LPVARIANT);
static const char *szVarMulI4 = "VarMul(%d,%d): expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
static const char *szVarMulR8 = "VarMul(%d,%d): expected 0x0,%d,%f, got 0x%lX,%d,%f\n";
#define VARMUL(vt1,val1,vt2,val2,rvt,rval) \
V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
memset(&result,0,sizeof(result)); hres = pVarMul(&left,&right,&result); \
if (VT_##rvt == VT_R4 || VT_##rvt == VT_R8) { \
ok(hres == S_OK && V_VT(&result) == VT_##rvt && \
EQ_FLOAT(V_##rvt(&result), rval), \
szVarMulR8, VT_##vt1, VT_##vt2, \
VT_##rvt, (double)(rval), hres, V_VT(&result), (double)V_##rvt(&result)); \
} else { \
ok(hres == S_OK && V_VT(&result) == VT_##rvt && V_##rvt(&result) == (rval), \
szVarMulI4, VT_##vt1, VT_##vt2, \
VT_##rvt, (int)(rval), hres, V_VT(&result), (int)V_##rvt(&result)); }
static void test_VarMul(void)
{
static const WCHAR sz12[] = {'1','2','\0'};
VARIANT left, right, result, cy, dec;
VARTYPE i;
BSTR lbstr, rbstr;
HRESULT hres;
double r;
CHECKPTR(VarMul);
lbstr = SysAllocString(sz12);
rbstr = SysAllocString(sz12);
/* Test all possible flag/vt combinations & the resulting vt type */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE leftvt, rightvt, resvt;
for (leftvt = 0; leftvt <= VT_BSTR_BLOB; leftvt++)
{
SKIPTESTS(leftvt);
for (rightvt = 0; rightvt <= VT_BSTR_BLOB; rightvt++)
{
BOOL bFail = FALSE;
SKIPTESTS(rightvt);
if (leftvt == VT_DISPATCH || rightvt == VT_DISPATCH ||
leftvt == VT_UNKNOWN || rightvt == VT_UNKNOWN)
continue;
memset(&left, 0, sizeof(left));
memset(&right, 0, sizeof(right));
V_VT(&left) = leftvt | ExtraFlags[i];
if (leftvt == VT_BSTR)
V_BSTR(&left) = lbstr;
V_VT(&right) = rightvt | ExtraFlags[i];
if (rightvt == VT_BSTR)
V_BSTR(&right) = rbstr;
V_VT(&result) = VT_EMPTY;
resvt = VT_UNKNOWN;
/* Don't ask me why but native VarMul cannot handle:
VT_I1, VT_UI2, VT_UI4, VT_INT, VT_UINT and VT_UI8.
Tested with DCOM98, Win2k, WinXP */
if (ExtraFlags[i] & VT_ARRAY || ExtraFlags[i] & VT_BYREF ||
!IsValidVariantClearVT(leftvt, ExtraFlags[i]) ||
!IsValidVariantClearVT(rightvt, ExtraFlags[i]) ||
leftvt == VT_CLSID || rightvt == VT_CLSID ||
leftvt == VT_RECORD || rightvt == VT_RECORD ||
leftvt == VT_VARIANT || rightvt == VT_VARIANT ||
leftvt == VT_ERROR || rightvt == VT_ERROR ||
leftvt == VT_I1 || rightvt == VT_I1 ||
leftvt == VT_UI2 || rightvt == VT_UI2 ||
leftvt == VT_UI4 || rightvt == VT_UI4 ||
leftvt == VT_UI8 || rightvt == VT_UI8 ||
leftvt == VT_INT || rightvt == VT_INT ||
leftvt == VT_UINT || rightvt == VT_UINT) {
bFail = TRUE;
}
if (leftvt == VT_NULL || rightvt == VT_NULL)
resvt = VT_NULL;
else if (leftvt == VT_DECIMAL || rightvt == VT_DECIMAL)
resvt = VT_DECIMAL;
else if (leftvt == VT_R8 || rightvt == VT_R8 ||
leftvt == VT_BSTR || rightvt == VT_BSTR ||
leftvt == VT_DATE || rightvt == VT_DATE)
resvt = VT_R8;
else if (leftvt == VT_R4 || rightvt == VT_R4) {
if (leftvt == VT_I4 || rightvt == VT_I4 ||
leftvt == VT_I8 || rightvt == VT_I8 ||
leftvt == VT_CY || rightvt == VT_CY)
resvt = VT_R8;
else
resvt = VT_R4;
} else if (leftvt == VT_CY || rightvt == VT_CY)
resvt = VT_CY;
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
else if (leftvt == VT_I4 || rightvt == VT_I4)
resvt = VT_I4;
else if (leftvt == VT_I2 || rightvt == VT_I2 ||
leftvt == VT_BOOL || rightvt == VT_BOOL ||
(leftvt == VT_EMPTY && rightvt == VT_EMPTY))
resvt = VT_I2;
else if (leftvt == VT_UI1 || rightvt == VT_UI1)
resvt = VT_UI1;
hres = pVarMul(&left, &right, &result);
if (bFail) {
ok(hres == DISP_E_TYPEMISMATCH || hres == DISP_E_BADVARTYPE,
"VarMul: %d|0x%X, %d|0x%X: Expected failure, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], hres,
V_VT(&result));
} else {
ok(hres == S_OK && V_VT(&result) == resvt,
"VarMul: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], resvt, hres,
V_VT(&result));
}
}
}
}
/* Test returned values */
VARMUL(I4,4,I4,2,I4,8);
VARMUL(I2,4,I2,2,I2,8);
VARMUL(I2,-13,I4,5,I4,-65);
VARMUL(I4,-13,I4,5,I4,-65);
VARMUL(I2,7,R4,0.5,R4,3.5);
VARMUL(R4,0.5,I4,5,R8,2.5);
VARMUL(R8,7.1,BOOL,0,R8,0);
VARMUL(BSTR,lbstr,I2,4,R8,48);
VARMUL(BSTR,lbstr,BOOL,1,R8,12);
VARMUL(BSTR,lbstr,R4,0.1,R8,1.2);
VARMUL(BSTR,lbstr,BSTR,rbstr,R8,144);
VARMUL(R4,0.2,BSTR,rbstr,R8,2.4);
VARMUL(DATE,2.25,I4,7,R8,15.75);
VARMUL(UI1, UI1_MAX, UI1, UI1_MAX, I4, UI1_MAX * UI1_MAX);
VARMUL(I2, I2_MAX, I2, I2_MAX, I4, I2_MAX * I2_MAX);
VARMUL(I2, I2_MAX, I2, I2_MIN, I4, I2_MAX * I2_MIN);
VARMUL(I2, I2_MIN, I2, I2_MIN, I4, I2_MIN * I2_MIN);
VARMUL(I4, I4_MAX, I4, I4_MAX, R8, (double)I4_MAX * I4_MAX);
VARMUL(I4, I4_MAX, I4, I4_MIN, R8, (double)I4_MAX * I4_MIN);
VARMUL(I4, I4_MIN, I4, I4_MIN, R8, (double)I4_MIN * I4_MIN);
VARMUL(R4, R4_MAX, R4, R4_MAX, R8, (double)R4_MAX * R4_MAX);
VARMUL(R4, R4_MAX, R4, R4_MIN, R4, R4_MAX * R4_MIN);
VARMUL(R4, R4_MIN, R4, R4_MIN, R4, R4_MIN * R4_MIN);
VARMUL(R8, R8_MAX, R8, R8_MIN, R8, R8_MAX * R8_MIN);
VARMUL(R8, R8_MIN, R8, R8_MIN, R8, R8_MIN * R8_MIN);
/* Manuly test some VT_CY and VT_DECIMAL variants */
V_VT(&cy) = VT_CY;
hres = VarCyFromI4(4711, &V_CY(&cy));
ok(hres == S_OK, "VarCyFromI4 failed!\n");
V_VT(&dec) = VT_DECIMAL;
hres = VarDecFromR8(-4.2, &V_DECIMAL(&dec));
ok(hres == S_OK, "VarDecFromR4 failed!\n");
memset(&left, 0, sizeof(left));
memset(&right, 0, sizeof(right));
V_VT(&left) = VT_I4;
V_I4(&left) = -11;
V_VT(&right) = VT_UI1;
V_UI1(&right) = 9;
hres = VarMul(&cy, &right, &result);
ok(hres == S_OK && V_VT(&result) == VT_CY, "VarMul: expected coerced type VT_CY, got %s!\n", vtstr(V_VT(&result)));
hres = VarR8FromCy(V_CY(&result), &r);
ok(hres == S_OK && EQ_DOUBLE(r, 42399), "VarMul: CY value %f, expected %f\n", r, (double)42399);
hres = VarMul(&left, &dec, &result);
ok(hres == S_OK && V_VT(&result) == VT_DECIMAL, "VarMul: expected coerced type VT_DECIMAL, got %s!\n", vtstr(V_VT(&result)));
hres = VarR8FromDec(&V_DECIMAL(&result), &r);
ok(hres == S_OK && EQ_DOUBLE(r, 46.2), "VarMul: DECIMAL value %f, expected %f\n", r, (double)46.2);
SysFreeString(lbstr);
SysFreeString(rbstr);
}
static HRESULT (WINAPI *pVarAdd)(LPVARIANT,LPVARIANT,LPVARIANT);
static const char *szVarAddI4 = "VarAdd(%d,%d): expected 0x0,%d,%d, got 0x%lX,%d,%d\n";
static const char *szVarAddR8 = "VarAdd(%d,%d): expected 0x0,%d,%f, got 0x%lX,%d,%f\n";
#define VARADD(vt1,val1,vt2,val2,rvt,rval) \
V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
memset(&result,0,sizeof(result)); hres = pVarAdd(&left,&right,&result); \
if (VT_##rvt == VT_R4 || VT_##rvt == VT_R8 || VT_##rvt == VT_DATE) { \
ok(hres == S_OK && V_VT(&result) == VT_##rvt && \
EQ_FLOAT(V_##rvt(&result), rval), \
szVarAddR8, VT_##vt1, VT_##vt2, \
VT_##rvt, (double)(rval), hres, V_VT(&result), (double)V_##rvt(&result)); \
} else { \
ok(hres == S_OK && V_VT(&result) == VT_##rvt && V_##rvt(&result) == (rval), \
szVarAddI4, VT_##vt1, VT_##vt2, \
VT_##rvt, (int)(rval), hres, V_VT(&result), (int)V_##rvt(&result)); }
static void test_VarAdd(void)
{
static const WCHAR sz12[] = {'1','2','\0'};
VARIANT left, right, result, cy, dec;
VARTYPE i;
BSTR lbstr, rbstr;
HRESULT hres;
double r;
CHECKPTR(VarAdd);
lbstr = SysAllocString(sz12);
rbstr = SysAllocString(sz12);
/* Test all possible flag/vt combinations & the resulting vt type */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE leftvt, rightvt, resvt;
for (leftvt = 0; leftvt <= VT_BSTR_BLOB; leftvt++)
{
SKIPTESTS(leftvt);
for (rightvt = 0; rightvt <= VT_BSTR_BLOB; rightvt++)
{
BOOL bFail = FALSE;
SKIPTESTS(rightvt);
if (leftvt == VT_UNKNOWN || rightvt == VT_UNKNOWN)
continue;
memset(&left, 0, sizeof(left));
memset(&right, 0, sizeof(right));
V_VT(&left) = leftvt | ExtraFlags[i];
if (leftvt == VT_BSTR)
V_BSTR(&left) = lbstr;
V_VT(&right) = rightvt | ExtraFlags[i];
if (rightvt == VT_BSTR)
V_BSTR(&right) = rbstr;
V_VT(&result) = VT_EMPTY;
resvt = VT_ERROR;
/* Don't ask me why but native VarAdd cannot handle:
VT_I1, VT_UI2, VT_UI4, VT_INT, VT_UINT and VT_UI8.
Tested with DCOM98, Win2k, WinXP */
if (ExtraFlags[i] & VT_ARRAY || ExtraFlags[i] & VT_BYREF ||
!IsValidVariantClearVT(leftvt, ExtraFlags[i]) ||
!IsValidVariantClearVT(rightvt, ExtraFlags[i]) ||
leftvt == VT_CLSID || rightvt == VT_CLSID ||
leftvt == VT_RECORD || rightvt == VT_RECORD ||
leftvt == VT_VARIANT || rightvt == VT_VARIANT ||
leftvt == VT_ERROR || rightvt == VT_ERROR ||
leftvt == VT_I1 || rightvt == VT_I1 ||
leftvt == VT_UI2 || rightvt == VT_UI2 ||
leftvt == VT_UI4 || rightvt == VT_UI4 ||
leftvt == VT_UI8 || rightvt == VT_UI8 ||
leftvt == VT_INT || rightvt == VT_INT ||
leftvt == VT_UINT || rightvt == VT_UINT) {
bFail = TRUE;
}
if (leftvt == VT_NULL || rightvt == VT_NULL)
resvt = VT_NULL;
else if (leftvt == VT_DISPATCH || rightvt == VT_DISPATCH)
bFail = TRUE;
else if (leftvt == VT_DECIMAL || rightvt == VT_DECIMAL)
resvt = VT_DECIMAL;
else if (leftvt == VT_DATE || rightvt == VT_DATE)
resvt = VT_DATE;
else if (leftvt == VT_CY || rightvt == VT_CY)
resvt = VT_CY;
else if (leftvt == VT_R8 || rightvt == VT_R8)
resvt = VT_R8;
else if (leftvt == VT_BSTR || rightvt == VT_BSTR) {
if ((leftvt == VT_BSTR && rightvt == VT_BSTR) ||
leftvt == VT_EMPTY || rightvt == VT_EMPTY)
resvt = VT_BSTR;
else
resvt = VT_R8;
} else if (leftvt == VT_R4 || rightvt == VT_R4) {
if (leftvt == VT_I4 || rightvt == VT_I4 ||
leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_R8;
else
resvt = VT_R4;
}
else if (leftvt == VT_I8 || rightvt == VT_I8)
resvt = VT_I8;
else if (leftvt == VT_I4 || rightvt == VT_I4)
resvt = VT_I4;
else if (leftvt == VT_I2 || rightvt == VT_I2 ||
leftvt == VT_BOOL || rightvt == VT_BOOL ||
(leftvt == VT_EMPTY && rightvt == VT_EMPTY))
resvt = VT_I2;
else if (leftvt == VT_UI1 || rightvt == VT_UI1)
resvt = VT_UI1;
hres = pVarAdd(&left, &right, &result);
if (bFail) {
ok(hres == DISP_E_TYPEMISMATCH || hres == DISP_E_BADVARTYPE,
"VarAdd: %d|0x%X, %d|0x%X: Expected failure, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], hres,
V_VT(&result));
} else {
ok(hres == S_OK && V_VT(&result) == resvt,
"VarAdd: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%lX vt %d\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], resvt, hres,
V_VT(&result));
}
}
}
}
/* Test returned values */
VARADD(I4,4,I4,2,I4,6);
VARADD(I2,4,I2,2,I2,6);
VARADD(I2,-13,I4,5,I4,-8);
VARADD(I4,-13,I4,5,I4,-8);
VARADD(I2,7,R4,0.5,R4,7.5);
VARADD(R4,0.5,I4,5,R8,5.5);
VARADD(R8,7.1,BOOL,0,R8,7.1);
VARADD(BSTR,lbstr,I2,4,R8,16);
VARADD(BSTR,lbstr,BOOL,1,R8,13);
VARADD(BSTR,lbstr,R4,0.1,R8,12.1);
VARADD(R4,0.2,BSTR,rbstr,R8,12.2);
VARADD(DATE,2.25,I4,7,DATE,9.25);
VARADD(DATE,1.25,R4,-1.7,DATE,-0.45);
VARADD(UI1, UI1_MAX, UI1, UI1_MAX, I2, UI1_MAX + UI1_MAX);
VARADD(I2, I2_MAX, I2, I2_MAX, I4, I2_MAX + I2_MAX);
VARADD(I2, I2_MAX, I2, I2_MIN, I2, I2_MAX + I2_MIN);
VARADD(I2, I2_MIN, I2, I2_MIN, I4, I2_MIN + I2_MIN);
VARADD(I4, I4_MAX, I4, I4_MIN, I4, I4_MAX + I4_MIN);
VARADD(I4, I4_MAX, I4, I4_MAX, R8, (double)I4_MAX + I4_MAX);
VARADD(I4, I4_MIN, I4, I4_MIN, R8, (double)I4_MIN + I4_MIN);
VARADD(R4, R4_MAX, R4, R4_MAX, R8, (double)R4_MAX + R4_MAX);
VARADD(R4, R4_MAX, R4, R4_MIN, R4, R4_MAX + R4_MIN);
VARADD(R4, R4_MIN, R4, R4_MIN, R4, R4_MIN + R4_MIN);
VARADD(R8, R8_MAX, R8, R8_MIN, R8, R8_MAX + R8_MIN);
VARADD(R8, R8_MIN, R8, R8_MIN, R8, R8_MIN + R8_MIN);
/* Manualy test BSTR + BSTR */
V_VT(&left) = VT_BSTR;
V_BSTR(&left) = lbstr;
V_VT(&right) = VT_BSTR;
V_BSTR(&right) = rbstr;
hres = VarAdd(&left, &right, &result);
ok(hres == S_OK && V_VT(&result) == VT_BSTR, "VarAdd: expected coerced type VT_BSTR, got %s!\n", vtstr(V_VT(&result)));
hres = VarR8FromStr(V_BSTR(&result), 0, 0, &r);
ok(hres == S_OK && EQ_DOUBLE(r, 1212), "VarAdd: BSTR value %f, expected %f\n", r, (double)1212);
/* Manuly test some VT_CY and VT_DECIMAL variants */
V_VT(&cy) = VT_CY;
hres = VarCyFromI4(4711, &V_CY(&cy));
ok(hres == S_OK, "VarCyFromI4 failed!\n");
V_VT(&dec) = VT_DECIMAL;
hres = VarDecFromR8(-4.2, &V_DECIMAL(&dec));
ok(hres == S_OK, "VarDecFromR4 failed!\n");
memset(&left, 0, sizeof(left));
memset(&right, 0, sizeof(right));
V_VT(&left) = VT_I4;
V_I4(&left) = -11;
V_VT(&right) = VT_UI1;
V_UI1(&right) = 9;
hres = VarAdd(&cy, &right, &result);
ok(hres == S_OK && V_VT(&result) == VT_CY, "VarAdd: expected coerced type VT_CY, got %s!\n", vtstr(V_VT(&result)));
hres = VarR8FromCy(V_CY(&result), &r);
ok(hres == S_OK && EQ_DOUBLE(r, 4720), "VarAdd: CY value %f, expected %f\n", r, (double)4720);
hres = VarAdd(&left, &dec, &result);
ok(hres == S_OK && V_VT(&result) == VT_DECIMAL, "VarAdd: expected coerced type VT_DECIMAL, got %s!\n", vtstr(V_VT(&result)));
hres = VarR8FromDec(&V_DECIMAL(&result), &r);
ok(hres == S_OK && EQ_DOUBLE(r, -15.2), "VarAdd: DECIMAL value %f, expected %f\n", r, (double)-15.2);
SysFreeString(lbstr);
SysFreeString(rbstr);
}
static HRESULT (WINAPI *pVarCmp)(LPVARIANT,LPVARIANT,LCID,ULONG);
/* ERROR from wingdi.h is interfering here */
#undef ERROR
#define _VARCMP(vt1,val1,vtfl1,vt2,val2,vtfl2,lcid,flags,result) \
V_##vt1(&left) = val1; V_VT(&left) = VT_##vt1 | vtfl1; \
V_##vt2(&right) = val2; V_VT(&right) = VT_##vt2 | vtfl2; \
hres = pVarCmp(&left,&right,lcid,flags); \
ok(hres == result, "VarCmp(VT_" #vt1 "|" #vtfl1 ",VT_" #vt2 "|" #vtfl2 "): expected " #result ", got hres=0x%lx\n", hres)
#define VARCMPEX(vt1,val1,vt2,val2,res1,res2,res3,res4) \
_VARCMP(vt1,val1,0,vt2,val2,0,lcid,0,res1); \
_VARCMP(vt1,val1,VT_RESERVED,vt2,val2,0,lcid,0,res2); \
_VARCMP(vt1,val1,0,vt2,val2,VT_RESERVED,lcid,0,res3); \
_VARCMP(vt1,val1,VT_RESERVED,vt2,val2,VT_RESERVED,lcid,0,res4)
#define VARCMP(vt1,val1,vt2,val2,result) \
VARCMPEX(vt1,val1,vt2,val2,result,result,result,result)
/* The above macros do not work for VT_NULL as NULL gets expanded first */
#define V_NULL_ V_NULL
#define VT_NULL_ VT_NULL
static void test_VarCmp(void)
{
VARIANT left, right;
VARTYPE i;
LCID lcid;
HRESULT hres;
DECIMAL dec;
static const WCHAR szhuh[] = {'h','u','h','?','\0'};
static const WCHAR sz2cents[] = {'2','c','e','n','t','s','\0'};
static const WCHAR szempty[] = {'\0'};
static const WCHAR sz0[] = {'0','\0'};
static const WCHAR sz1[] = {'1','\0'};
static const WCHAR sz7[] = {'7','\0'};
static const WCHAR sz42[] = {'4','2','\0'};
static const WCHAR sz1neg[] = {'-','1','\0'};
static const WCHAR sz666neg[] = {'-','6','6','6','\0'};
static const WCHAR sz1few[] = {'1','.','0','0','0','0','0','0','0','1','\0'};
BSTR bstrhuh, bstrempty, bstr0, bstr1, bstr7, bstr42, bstr1neg, bstr666neg;
BSTR bstr2cents, bstr1few;
CHECKPTR(VarCmp);
lcid = MAKELCID(MAKELANGID(LANG_ENGLISH,SUBLANG_ENGLISH_US),SORT_DEFAULT);
bstrempty = SysAllocString(szempty);
bstrhuh = SysAllocString(szhuh);
bstr2cents = SysAllocString(sz2cents);
bstr0 = SysAllocString(sz0);
bstr1 = SysAllocString(sz1);
bstr7 = SysAllocString(sz7);
bstr42 = SysAllocString(sz42);
bstr1neg = SysAllocString(sz1neg);
bstr666neg = SysAllocString(sz666neg);
bstr1few = SysAllocString(sz1few);
/* Test all possible flag/vt combinations & the resulting vt type */
for (i = 0; i < sizeof(ExtraFlags)/sizeof(ExtraFlags[0]); i++)
{
VARTYPE leftvt, rightvt;
for (leftvt = 0; leftvt <= VT_BSTR_BLOB; leftvt++)
{
SKIPTESTS(leftvt);
for (rightvt = 0; rightvt <= VT_BSTR_BLOB; rightvt++)
{
BOOL bFail = FALSE;
HRESULT expect = VARCMP_EQ;
SKIPTESTS(rightvt);
memset(&left, 0, sizeof(left));
memset(&right, 0, sizeof(right));
V_VT(&left) = leftvt | ExtraFlags[i];
if (leftvt == VT_BSTR) {
V_BSTR(&left) = bstr1neg;
if (ExtraFlags[i] & VT_RESERVED)
expect = VARCMP_LT;
else
expect = VARCMP_GT;
}
V_VT(&right) = rightvt | ExtraFlags[i];
if (rightvt == VT_BSTR) {
V_BSTR(&right) = bstr1neg;
if (ExtraFlags[i] & VT_RESERVED)
expect = VARCMP_GT;
else
expect = VARCMP_LT;
}
/* Don't ask me why but native VarCmp cannot handle:
VT_I1, VT_UI2, VT_UI4, VT_UINT and VT_UI8.
VT_INT is only supported as left variant. Go figure.
Tested with DCOM98, Win2k, WinXP */
if (ExtraFlags[i] & VT_ARRAY || ExtraFlags[i] & VT_BYREF ||
!IsValidVariantClearVT(leftvt, ExtraFlags[i] & ~VT_RESERVED) ||
!IsValidVariantClearVT(rightvt, ExtraFlags[i] & ~VT_RESERVED) ||
leftvt == VT_CLSID || rightvt == VT_CLSID ||
leftvt == VT_DISPATCH || rightvt == VT_DISPATCH ||
leftvt == VT_ERROR || rightvt == VT_ERROR ||
leftvt == VT_RECORD || rightvt == VT_RECORD ||
leftvt == VT_UNKNOWN || rightvt == VT_UNKNOWN ||
leftvt == VT_VARIANT || rightvt == VT_VARIANT ||
leftvt == VT_I1 || rightvt == VT_I1 ||
leftvt == VT_UI2 || rightvt == VT_UI2 ||
leftvt == VT_UI4 || rightvt == VT_UI4 ||
leftvt == VT_UI8 || rightvt == VT_UI8 ||
rightvt == VT_INT ||
leftvt == VT_UINT || rightvt == VT_UINT) {
bFail = TRUE;
}
if (leftvt == VT_ERROR && rightvt == VT_ERROR &&
!(ExtraFlags[i] & ~VT_RESERVED)) {
expect = VARCMP_EQ;
bFail = FALSE;
} else if (leftvt == VT_NULL || rightvt == VT_NULL)
expect = VARCMP_NULL;
else if (leftvt == VT_BSTR && rightvt == VT_BSTR)
expect = VARCMP_EQ;
else if (leftvt == VT_BSTR && rightvt == VT_EMPTY)
expect = VARCMP_GT;
else if (leftvt == VT_EMPTY && rightvt == VT_BSTR)
expect = VARCMP_LT;
hres = pVarCmp(&left, &right, LOCALE_USER_DEFAULT, 0);
if (bFail) {
ok(hres == DISP_E_TYPEMISMATCH || hres == DISP_E_BADVARTYPE,
"VarCmp: %d|0x%X, %d|0x%X: Expected failure, got 0x%lX\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], hres);
} else {
ok(hres == expect,
"VarCmp: %d|0x%X, %d|0x%X: Expected 0x%lX, got 0x%lX\n",
leftvt, ExtraFlags[i], rightvt, ExtraFlags[i], expect,
hres);
}
}
}
}
/* VARCMP{,EX} run each 4 tests with a permutation of all posible
input variants with (1) and without (0) VT_RESERVED set. The order
of the permutations is (0,0); (1,0); (0,1); (1,1) */
VARCMP(INT,4711,I2,4711,VARCMP_EQ);
ok(V_VT(&left) & V_VT(&right) & VT_RESERVED, "VT_RESERVED filtered out!\n");
VARCMP(INT,4711,I2,-4711,VARCMP_GT);
VARCMP(ERROR,0,ERROR,0,VARCMP_EQ);
VARCMP(ERROR,0,UI1,0,DISP_E_TYPEMISMATCH);
VARCMP(EMPTY,0,EMPTY,0,VARCMP_EQ);
VARCMP(I4,1,R8,1.0,VARCMP_EQ);
VARCMP(EMPTY,19,I2,0,VARCMP_EQ);
ok(V_EMPTY(&left) == 19, "VT_EMPTY modified!\n");
ok(V_VT(&left) & V_VT(&right) & VT_RESERVED, "VT_RESERVED filtered out!\n");
VARCMP(I4,1,UI1,1,VARCMP_EQ);
VARCMP(I2,2,I2,2,VARCMP_EQ);
VARCMP(I2,1,I2,2,VARCMP_LT);
VARCMP(I2,2,I2,1,VARCMP_GT);
VARCMP(I2,2,EMPTY,1,VARCMP_GT);
VARCMP(I2,2,NULL_,1,VARCMP_NULL);
/* BSTR handling, especialy in conjunction with VT_RESERVED */
VARCMP(BSTR,bstr0,NULL_,0,VARCMP_NULL);
VARCMP(BSTR,bstr0,BSTR,bstr0,VARCMP_EQ);
VARCMP(BSTR,bstrempty,BSTR,bstr0,VARCMP_LT);
VARCMP(BSTR,bstr7,BSTR,bstr0,VARCMP_GT);
VARCMP(BSTR,bstr7,BSTR,bstr1neg,VARCMP_GT);
VARCMP(BSTR,bstr0,BSTR,NULL,VARCMP_GT);
VARCMP(BSTR,NULL,BSTR,NULL,VARCMP_EQ);
VARCMP(BSTR,bstrempty,BSTR,NULL,VARCMP_EQ);
VARCMP(BSTR,NULL,EMPTY,0,VARCMP_EQ);
VARCMP(EMPTY,0,BSTR,NULL,VARCMP_EQ);
VARCMP(EMPTY,0,BSTR,bstrempty,VARCMP_EQ);
VARCMP(EMPTY,1,BSTR,bstrempty,VARCMP_EQ);
VARCMP(BSTR,bstr0,EMPTY,0,VARCMP_GT);
VARCMP(BSTR,bstr42,EMPTY,0,VARCMP_GT);
VARCMPEX(BSTR,bstrempty,UI1,0,VARCMP_GT,VARCMP_LT,VARCMP_GT,VARCMP_GT);
VARCMPEX(BSTR,bstrempty,I2,-1,VARCMP_GT,VARCMP_LT,VARCMP_GT,VARCMP_GT);
VARCMPEX(I4,0,BSTR,bstrempty,VARCMP_LT,VARCMP_LT,VARCMP_GT,VARCMP_LT);
VARCMPEX(BSTR,NULL,UI1,0,VARCMP_GT,VARCMP_LT,VARCMP_GT,VARCMP_GT);
VARCMPEX(I4,7,BSTR,NULL,VARCMP_LT,VARCMP_LT,VARCMP_GT,VARCMP_LT);
_VARCMP(BSTR,(BSTR)100,0,I2,100,0,lcid,0,VARCMP_GT);
VARCMPEX(BSTR,bstr0,UI1,0,VARCMP_GT,VARCMP_EQ,VARCMP_EQ,VARCMP_GT);
VARCMPEX(I2,0,BSTR,bstr0,VARCMP_LT,VARCMP_EQ,VARCMP_EQ,VARCMP_LT);
ok(V_VT(&left) & V_VT(&right) & VT_RESERVED, "VT_RESERVED filtered out!\n");
VARCMP(BSTR,bstrhuh,I4,I4_MAX,VARCMP_GT);
VARCMP(BSTR,bstr2cents,I4,2,VARCMP_GT);
VARCMPEX(BSTR,bstr2cents,I4,42,VARCMP_GT,VARCMP_LT,VARCMP_GT,VARCMP_GT);
VARCMP(BSTR,bstr2cents,I4,-1,VARCMP_GT);
VARCMPEX(BSTR,bstr2cents,I4,-666,VARCMP_GT,VARCMP_LT,VARCMP_GT,VARCMP_GT);
VARCMPEX(BSTR,bstr0,I2,0,VARCMP_GT,VARCMP_EQ,VARCMP_EQ,VARCMP_GT);
VARCMPEX(BSTR,bstr0,I4,0,VARCMP_GT,VARCMP_EQ,VARCMP_EQ,VARCMP_GT);
VARCMPEX(BSTR,bstr0,I4,-666,VARCMP_GT,VARCMP_LT,VARCMP_GT,VARCMP_GT);
VARCMP(BSTR,bstr1,I4,0,VARCMP_GT);
VARCMPEX(BSTR,bstr1,I4,1,VARCMP_GT,VARCMP_EQ,VARCMP_EQ,VARCMP_GT);
VARCMPEX(BSTR,bstr1,I4,I4_MAX,VARCMP_GT,VARCMP_LT,VARCMP_LT,VARCMP_GT);
VARCMPEX(BSTR,bstr1,I4,-1,VARCMP_GT,VARCMP_LT,VARCMP_GT,VARCMP_GT);
VARCMP(BSTR,bstr7,I4,1,VARCMP_GT);
VARCMPEX(BSTR,bstr7,I4,7,VARCMP_GT,VARCMP_EQ,VARCMP_EQ,VARCMP_GT);
VARCMPEX(BSTR,bstr7,I4,42,VARCMP_GT,VARCMP_GT,VARCMP_LT,VARCMP_GT);
VARCMPEX(BSTR,bstr42,I4,7,VARCMP_GT,VARCMP_LT,VARCMP_GT,VARCMP_GT);
VARCMPEX(BSTR,bstr42,I4,42,VARCMP_GT,VARCMP_EQ,VARCMP_EQ,VARCMP_GT);
VARCMPEX(BSTR,bstr42,I4,I4_MAX,VARCMP_GT,VARCMP_GT,VARCMP_LT,VARCMP_GT);
VARCMPEX(BSTR,bstr1neg,I4,1,VARCMP_GT,VARCMP_GT,VARCMP_LT,VARCMP_LT);
VARCMPEX(BSTR,bstr1neg,I4,42,VARCMP_GT,VARCMP_LT,VARCMP_LT,VARCMP_LT);
VARCMPEX(BSTR,bstr1neg,I4,-1,VARCMP_GT,VARCMP_EQ,VARCMP_EQ,VARCMP_LT);
VARCMPEX(BSTR,bstr1neg,I4,-666,VARCMP_GT,VARCMP_LT,VARCMP_GT,VARCMP_LT);
VARCMPEX(BSTR,bstr666neg,I4,1,VARCMP_GT,VARCMP_GT,VARCMP_LT,VARCMP_LT);
VARCMPEX(BSTR,bstr666neg,I4,7,VARCMP_GT,VARCMP_LT,VARCMP_LT,VARCMP_LT);
VARCMPEX(BSTR,bstr666neg,I4,42,VARCMP_GT,VARCMP_GT,VARCMP_LT,VARCMP_LT);
VARCMPEX(BSTR,bstr666neg,I4,I4_MAX,VARCMP_GT,VARCMP_GT,VARCMP_LT,VARCMP_LT);
VARCMPEX(BSTR,bstr666neg,I4,-1,VARCMP_GT,VARCMP_GT,VARCMP_LT,VARCMP_LT);
VARCMPEX(BSTR,bstr666neg,I4,-666,VARCMP_GT,VARCMP_EQ,VARCMP_EQ,VARCMP_LT);
VARCMPEX(BSTR,bstr7,R8,7.0,VARCMP_GT,VARCMP_EQ,VARCMP_EQ,VARCMP_GT);
VARCMPEX(R8,3.141592,BSTR,NULL,VARCMP_LT,VARCMP_LT,VARCMP_GT,VARCMP_LT);
VARCMP(BSTR,bstr7,BSTR,bstr7,VARCMP_EQ);
VARCMP(BSTR,bstr7,BSTR,bstr42,VARCMP_GT);
VARCMP(BSTR,bstr42,BSTR,bstr7,VARCMP_LT);
/* DECIMAL handling */
SETDEC(dec,0,0,0,0);
VARCMPEX(DECIMAL,dec,BSTR,bstr0,VARCMP_LT,VARCMP_EQ,VARCMP_EQ,VARCMP_LT);
SETDEC64(dec,0,0,0xFFFFFFFF,0xFFFFFFFF,0xFFFFFFFF); /* max DECIMAL */
VARCMP(DECIMAL,dec,R8,R8_MAX,VARCMP_LT); /* R8 has bigger range */
VARCMP(DECIMAL,dec,DATE,R8_MAX,VARCMP_LT); /* DATE has bigger range */
SETDEC64(dec,0,0x80,0xFFFFFFFF,0xFFFFFFFF,0xFFFFFFFF);
VARCMP(DECIMAL,dec,R8,-R8_MAX,VARCMP_GT);
SETDEC64(dec,20,0,0x5,0x6BC75E2D,0x63100001); /* 1+1e-20 */
VARCMP(DECIMAL,dec,R8,1,VARCMP_GT); /* DECIMAL has higher precission */
/* Show that DATE is handled just as a R8 */
VARCMP(DATE,DATE_MAX,DATE,DATE_MAX+1,VARCMP_LT);
VARCMP(DATE,DATE_MIN,DATE,DATE_MIN-1,VARCMP_GT);
VARCMP(DATE,R8_MIN,R8,R8_MIN,VARCMP_EQ);
VARCMP(DATE,1,DATE,1+1e-15,VARCMP_LT); /* 1e-15 == 8.64e-11 seconds */
VARCMP(DATE,25570.0,DATE,25570.0,VARCMP_EQ);
VARCMP(DATE,25570.0,DATE,25571.0,VARCMP_LT);
VARCMP(DATE,25571.0,DATE,25570.0,VARCMP_GT);
VARCMP(DATE,25570.0,EMPTY,0,VARCMP_GT);
VARCMP(DATE,25570.0,NULL_,0,VARCMP_NULL);
/* R4 precission handling */
VARCMP(R4,1,R8,1+1e-8,VARCMP_EQ);
VARCMP(R8,1+1e-8,R4,1,VARCMP_EQ);
VARCMP(R8,1+1e-8,R8,1,VARCMP_GT);
VARCMP(R8,R4_MAX*1.1,R4,R4_MAX,VARCMP_GT);
VARCMP(R4,R4_MAX,R8,R8_MAX,VARCMP_LT);
VARCMP(R4,1,DATE,1+1e-8,VARCMP_EQ);
VARCMP(R4,1,BSTR,bstr1few,VARCMP_LT); /* bstr1few == 1+1e-8 */
SETDEC(dec,8,0,0,0x5F5E101); /* 1+1e-8 */
VARCMP(R4,1,DECIMAL,dec,VARCMP_LT);
SysFreeString(bstrhuh);
SysFreeString(bstrempty);
SysFreeString(bstr0);
SysFreeString(bstr1);
SysFreeString(bstr7);
SysFreeString(bstr42);
SysFreeString(bstr1neg);
SysFreeString(bstr666neg);
SysFreeString(bstr2cents);
SysFreeString(bstr1few);
}
START_TEST(vartest)
{
hOleaut32 = LoadLibraryA("oleaut32.dll");
test_VariantInit();
test_VariantClear();
test_VariantCopy();
test_VariantCopyInd();
test_VarParseNumFromStr();
test_VarNumFromParseNum();
test_VarUdateFromDate();
test_VarDateFromUdate();
test_SystemTimeToVariantTime();
test_VariantTimeToSystemTime();
test_DosDateTimeToVariantTime();
test_VariantTimeToDosDateTime();
test_VarFormatNumber();
test_VarFormat();
test_VarAbs();
test_VarNot();
test_VarSub();
test_VarMod();
test_VarFix();
test_VarInt();
test_VarNeg();
test_VarRound();
test_VarXor();
test_VarOr();
test_VarEqv();
test_VarMul();
test_VarAdd();
test_VarCmp();
}