4 * Copyright 1998 Jean-Claude Cote
5 * Copyright 2006 Google (Benjamin Arai)
7 * This library is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU Lesser General Public
9 * License as published by the Free Software Foundation; either
10 * version 2.1 of the License, or (at your option) any later version.
12 * This library is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15 * Lesser General Public License for more details.
17 * You should have received a copy of the GNU Lesser General Public
18 * License along with this library; if not, write to the Free Software
19 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
30 #include "wine/test.h"
40 static HMODULE hOleaut32
;
42 static HRESULT (WINAPI
*pVarUdateFromDate
)(DATE
,ULONG
,UDATE
*);
43 static HRESULT (WINAPI
*pVarDateFromUdate
)(UDATE
*,ULONG
,DATE
*);
44 static INT (WINAPI
*pSystemTimeToVariantTime
)(LPSYSTEMTIME
,double*);
45 static INT (WINAPI
*pVariantTimeToSystemTime
)(double,LPSYSTEMTIME
);
46 static INT (WINAPI
*pDosDateTimeToVariantTime
)(USHORT
,USHORT
,double*);
47 static INT (WINAPI
*pVariantTimeToDosDateTime
)(double,USHORT
*,USHORT
*);
49 static const WCHAR sz12
[] = {'1','2','\0'};
50 /* the strings are localized */
51 static WCHAR sz12_false
[32];
52 static WCHAR sz12_true
[32];
54 /* Get a conversion function ptr, return if function not available */
55 #define CHECKPTR(func) p##func = (void*)GetProcAddress(hOleaut32, #func); \
56 if (!p##func) { trace("function " # func " not available, not testing it\n"); return; }
58 /* Have IRecordInfo data type? */
59 static int HAVE_OLEAUT32_RECORD
= 0;
60 /* Have I8/UI8 data type? */
61 static int HAVE_OLEAUT32_I8
= 0;
62 /* Is this an ancient version with support for only I2/I4/R4/R8/DATE? */
63 static int IS_ANCIENT
= 0;
65 /* When comparing floating point values we cannot expect an exact match
66 * because the rounding errors depend on the exact algorithm.
68 #define EQ_DOUBLE(a,b) (fabs((a)-(b)) / (1.0+fabs(a)+fabs(b)) < 1e-14)
69 #define EQ_FLOAT(a,b) (fabs((a)-(b)) / (1.0+fabs(a)+fabs(b)) < 1e-7)
71 #define SKIPTESTS(a) if((a > VT_CLSID+10) && (a < VT_BSTR_BLOB-10)) continue
73 /* Allow our test macros to work for VT_NULL and VT_EMPTY too */
74 #define V_EMPTY(v) V_I4(v)
75 #define V_NULL(v) V_I4(v)
77 /* Size constraints for overflow tests */
79 #define I1_MIN ((-I1_MAX)-1)
83 #define I2_MIN ((-I2_MAX)-1)
84 #define UI2_MAX 0xffff
86 #define I4_MAX 0x7fffffff
87 #define I4_MIN ((-I4_MAX)-1)
88 #define UI4_MAX 0xffffffff
90 #define I8_MAX (((LONGLONG)I4_MAX << 32) | UI4_MAX)
91 #define I8_MIN ((-I8_MAX)-1)
92 #define UI8_MAX (((ULONGLONG)UI4_MAX << 32) | UI4_MAX)
94 #define DATE_MAX 2958465
95 #define DATE_MIN -657434
96 #define R4_MAX FLT_MAX
97 #define R4_MIN FLT_MIN
98 #define R8_MAX DBL_MAX
99 #define R8_MIN DBL_MIN
101 static void init(void)
106 res
= VarBstrFromBool(VARIANT_TRUE
, LANG_USER_DEFAULT
, VAR_LOCALBOOL
, &bstr
);
107 ok(SUCCEEDED(res
) && (lstrlenW(bstr
) > 0),
108 "Expected localized string for 'True'\n");
109 lstrcpyW(sz12_true
, sz12
);
110 if (bstr
) lstrcatW(sz12_true
, bstr
);
113 res
= VarBstrFromBool(VARIANT_FALSE
, LANG_USER_DEFAULT
, VAR_LOCALBOOL
, &bstr
);
114 ok(SUCCEEDED(res
) && (lstrlenW(bstr
) > 0),
115 "Expected localized string for 'False'\n");
116 lstrcpyW(sz12_false
, sz12
);
117 if (bstr
) lstrcatW(sz12_false
, bstr
);
120 hOleaut32
= GetModuleHandle("oleaut32.dll");
122 /* Is a given function exported from oleaut32? */
123 #define HAVE_FUNC(func) ((void*)GetProcAddress(hOleaut32, #func) != NULL)
125 HAVE_OLEAUT32_I8
= HAVE_FUNC(VarI8FromI1
);
126 if (!HAVE_OLEAUT32_I8
)
127 skip("No support for I8 and UI8 data types\n");
129 HAVE_OLEAUT32_RECORD
= HAVE_FUNC(SafeArraySetRecordInfo
);
130 IS_ANCIENT
= (!HAVE_FUNC(VarI1FromI2
));
135 /* Functions to set a DECIMAL */
136 static void setdec(DECIMAL
* dec
, BYTE scl
, BYTE sgn
, ULONG hi32
, ULONG64 lo64
)
138 S(U(*dec
)).scale
= scl
;
139 S(U(*dec
)).sign
= sgn
;
141 U1(*dec
).Lo64
= lo64
;
144 static void setdec64(DECIMAL
* dec
, BYTE scl
, BYTE sgn
, ULONG hi32
, ULONG mid32
, ULONG lo32
)
146 S(U(*dec
)).scale
= scl
;
147 S(U(*dec
)).sign
= sgn
;
149 S1(U1(*dec
)).Mid32
= mid32
;
150 S1(U1(*dec
)).Lo32
= lo32
;
153 static inline int strcmpW( const WCHAR
*str1
, const WCHAR
*str2
)
155 while (*str1
&& (*str1
== *str2
)) { str1
++; str2
++; }
156 return *str1
- *str2
;
159 /* return the string text of a given variant type */
160 static char vtstr_buffer
[16][256];
161 static int vtstr_current
=0;
162 static const char *vtstr(int x
)
165 #define CASE(vt) case VT_##vt: return #vt
204 CASE(STREAMED_OBJECT
);
209 CASE(VERSIONED_STREAM
);
218 return "VT_BSTR_BLOB/VT_ILLEGALMASKED/VT_TYPEMASK";
221 vtstr_current
%= sizeof(vtstr_buffer
)/sizeof(*vtstr_buffer
);
222 sprintf(vtstr_buffer
[vtstr_current
], "unknown variant type %d", x
);
223 return vtstr_buffer
[vtstr_current
++];
227 static const char *variantstr( const VARIANT
*var
)
229 vtstr_current
%= sizeof(vtstr_buffer
)/sizeof(*vtstr_buffer
);
233 sprintf( vtstr_buffer
[vtstr_current
], "VT_I1(%d)", V_I1(var
) ); break;
235 sprintf( vtstr_buffer
[vtstr_current
], "VT_I2(%d)", V_I2(var
) ); break;
237 sprintf( vtstr_buffer
[vtstr_current
], "VT_I4(%d)", V_I4(var
) ); break;
239 sprintf( vtstr_buffer
[vtstr_current
], "VT_INT(%d)", V_INT(var
) ); break;
241 sprintf( vtstr_buffer
[vtstr_current
], "VT_I8(%x%08x)", (UINT
)(V_I8(var
) >> 32), (UINT
)V_I8(var
) ); break;
243 sprintf( vtstr_buffer
[vtstr_current
], "VT_UI8(%x%08x)", (UINT
)(V_UI8(var
) >> 32), (UINT
)V_UI8(var
) ); break;
245 sprintf( vtstr_buffer
[vtstr_current
], "VT_R4(%g)", V_R4(var
) ); break;
247 sprintf( vtstr_buffer
[vtstr_current
], "VT_R8(%g)", V_R8(var
) ); break;
249 sprintf( vtstr_buffer
[vtstr_current
], "VT_UI1(%u)", V_UI1(var
) ); break;
251 sprintf( vtstr_buffer
[vtstr_current
], "VT_UI2(%u)", V_UI2(var
) ); break;
253 sprintf( vtstr_buffer
[vtstr_current
], "VT_UI4(%u)", V_UI4(var
) ); break;
255 sprintf( vtstr_buffer
[vtstr_current
], "VT_UINT(%d)", V_UINT(var
) ); break;
257 sprintf( vtstr_buffer
[vtstr_current
], "VT_CY(%x%08x)", S(V_CY(var
)).Hi
, S(V_CY(var
)).Lo
); break;
259 sprintf( vtstr_buffer
[vtstr_current
], "VT_DATE(%g)", V_DATE(var
) ); break;
261 return vtstr(V_VT(var
));
263 return vtstr_buffer
[vtstr_current
++];
266 static BOOL
is_expected_variant( const VARIANT
*result
, const VARIANT
*expected
)
268 if (V_VT(result
) != V_VT(expected
)) return FALSE
;
269 switch(V_VT(expected
))
275 #define CASE(vt) case VT_##vt: return (V_##vt(result) == V_##vt(expected))
290 return EQ_FLOAT(V_DATE(result
), V_DATE(expected
));
292 return EQ_FLOAT(V_R4(result
), V_R4(expected
));
294 return EQ_FLOAT(V_R8(result
), V_R8(expected
));
296 return (V_CY(result
).int64
== V_CY(expected
).int64
);
298 return !lstrcmpW( V_BSTR(result
), V_BSTR(expected
) );
300 return !memcmp( &V_DECIMAL(result
), &V_DECIMAL(expected
), sizeof(DECIMAL
) );
302 ok(0, "unhandled variant type %s\n",vtstr(V_VT(expected
)));
307 static void test_var_call1( int line
, HRESULT (WINAPI
*func
)(LPVARIANT
,LPVARIANT
),
308 VARIANT
*arg
, VARIANT
*expected
)
310 VARIANT old_arg
= *arg
;
314 memset( &result
, 0, sizeof(result
) );
315 hres
= func( arg
, &result
);
316 ok_(__FILE__
,line
)( hres
== S_OK
, "wrong result %x\n", hres
);
318 ok_(__FILE__
,line
)( is_expected_variant( &result
, expected
),
319 "got %s expected %s\n", variantstr(&result
), variantstr(expected
) );
320 ok_(__FILE__
,line
)( is_expected_variant( arg
, &old_arg
), "Modified argument %s / %s\n",
321 variantstr(&old_arg
), variantstr(arg
));
322 VariantClear( &result
);
325 static void test_var_call2( int line
, HRESULT (WINAPI
*func
)(LPVARIANT
,LPVARIANT
,LPVARIANT
),
326 VARIANT
*left
, VARIANT
*right
, VARIANT
*expected
)
328 VARIANT old_left
= *left
, old_right
= *right
;
332 memset( &result
, 0, sizeof(result
) );
333 hres
= func( left
, right
, &result
);
334 ok_(__FILE__
,line
)( hres
== S_OK
, "wrong result %x\n", hres
);
336 ok_(__FILE__
,line
)( is_expected_variant( &result
, expected
),
337 "got %s expected %s\n", variantstr(&result
), variantstr(expected
) );
338 ok_(__FILE__
,line
)( is_expected_variant( left
, &old_left
), "Modified left argument %s / %s\n",
339 variantstr(&old_left
), variantstr(left
));
340 ok_(__FILE__
,line
)( is_expected_variant( right
, &old_right
), "Modified right argument %s / %s\n",
341 variantstr(&old_right
), variantstr(right
));
342 VariantClear( &result
);
346 static void test_VariantInit(void)
350 /* Test that VariantInit() only sets the type */
351 memset(&v1
, -1, sizeof(v1
));
353 V_VT(&v2
) = VT_EMPTY
;
355 ok(!memcmp(&v1
, &v2
, sizeof(v1
)), "VariantInit() set extra fields\n");
358 /* All possible combinations of extra V_VT() flags */
359 static const VARTYPE ExtraFlags
[16] =
368 VT_VECTOR
|VT_RESERVED
,
369 VT_VECTOR
|VT_ARRAY
|VT_BYREF
,
370 VT_VECTOR
|VT_ARRAY
|VT_RESERVED
,
371 VT_VECTOR
|VT_BYREF
|VT_RESERVED
,
372 VT_VECTOR
|VT_ARRAY
|VT_BYREF
|VT_RESERVED
,
374 VT_ARRAY
|VT_RESERVED
,
375 VT_ARRAY
|VT_BYREF
|VT_RESERVED
,
376 VT_BYREF
|VT_RESERVED
,
379 /* Determine if a vt is valid for VariantClear() */
380 static int IsValidVariantClearVT(VARTYPE vt
, VARTYPE extraFlags
)
384 /* Only the following flags/types are valid */
385 if ((vt
<= VT_LPWSTR
|| vt
== VT_RECORD
|| vt
== VT_CLSID
) &&
387 (vt
< (VARTYPE
)24 || vt
> (VARTYPE
)31) &&
388 (!(extraFlags
& (VT_BYREF
|VT_ARRAY
)) || vt
> VT_NULL
) &&
389 (extraFlags
== 0 || extraFlags
== VT_BYREF
|| extraFlags
== VT_ARRAY
||
390 extraFlags
== (VT_ARRAY
|VT_BYREF
)))
393 if ((vt
== VT_RECORD
&& !HAVE_OLEAUT32_RECORD
) ||
394 ((vt
== VT_I8
|| vt
== VT_UI8
) && !HAVE_OLEAUT32_I8
))
395 ret
= 0; /* Old versions of oleaut32 */
401 const IUnknownVtbl
*lpVtbl
;
404 } test_VariantClearImpl
;
406 static HRESULT WINAPI
VC_QueryInterface(LPUNKNOWN iface
,REFIID riid
,LPVOID
*ppobj
)
408 test_VariantClearImpl
*This
= (test_VariantClearImpl
*)iface
;
410 return E_NOINTERFACE
;
413 static ULONG WINAPI
VC_AddRef(LPUNKNOWN iface
) {
414 test_VariantClearImpl
*This
= (test_VariantClearImpl
*)iface
;
416 return InterlockedIncrement(&This
->ref
);
419 static ULONG WINAPI
VC_Release(LPUNKNOWN iface
) {
420 test_VariantClearImpl
*This
= (test_VariantClearImpl
*)iface
;
421 /* static class, won't be freed */
423 return InterlockedDecrement(&This
->ref
);
426 static const IUnknownVtbl test_VariantClear_vtbl
= {
432 static test_VariantClearImpl test_myVariantClearImpl
= {&test_VariantClear_vtbl
, 1, 0};
434 static void test_VariantClear(void)
443 /* Crashes: Native does not test input for NULL, so neither does Wine */
444 if (0) hres
= VariantClear(NULL
);
446 /* Only the type field is set, to VT_EMPTY */
449 hres
= VariantClear(&v
);
450 ok((hres
== S_OK
&& V_VT(&v
) == VT_EMPTY
) ||
451 (IS_ANCIENT
&& hres
== DISP_E_BADVARTYPE
&& V_VT(&v
) == VT_UI4
),
452 "VariantClear: Type set to %d, res %08x\n", V_VT(&v
), hres
);
453 ok(V_UI4(&v
) == ~0u, "VariantClear: Overwrote value\n");
455 /* Test all possible V_VT values.
456 * Also demonstrates that null pointers in 'v' are not dereferenced.
457 * Individual variant tests should test VariantClear() with non-NULL values.
459 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]) && !IS_ANCIENT
; i
++)
463 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
465 HRESULT hExpected
= DISP_E_BADVARTYPE
;
469 memset(&v
, 0, sizeof(v
));
470 V_VT(&v
) = vt
| ExtraFlags
[i
];
472 hres
= VariantClear(&v
);
474 if (IsValidVariantClearVT(vt
, ExtraFlags
[i
]))
477 ok(hres
== hExpected
, "VariantClear: expected 0x%X, got 0x%X for vt %d | 0x%X\n",
478 hExpected
, hres
, vt
, ExtraFlags
[i
]);
482 /* Some BYREF tests with non-NULL ptrs */
487 V_VT(&v
) = VT_VARIANT
| VT_BYREF
;
488 V_VARIANTREF(&v
) = &v2
;
490 hres
= VariantClear(&v
);
491 ok(hres
== S_OK
, "ret %08x\n", hres
);
492 ok(V_VT(&v
) == 0, "vt %04x\n", V_VT(&v
));
493 ok(V_VARIANTREF(&v
) == &v2
, "variant ref %p\n", V_VARIANTREF(&v2
));
494 ok(V_VT(&v2
) == VT_I4
, "vt %04x\n", V_VT(&v2
));
495 ok(V_I4(&v2
) == 0x1234, "i4 %04x\n", V_I4(&v2
));
499 V_VT(&v
) = VT_I4
| VT_BYREF
;
502 hres
= VariantClear(&v
);
503 ok(hres
== S_OK
, "ret %08x\n", hres
);
504 ok(V_VT(&v
) == 0, "vt %04x\n", V_VT(&v
));
505 ok(V_I4REF(&v
) == &i4
, "i4 ref %p\n", V_I4REF(&v2
));
506 ok(i4
== 0x4321, "i4 changed %08x\n", i4
);
510 V_VT(&v
) = VT_UNKNOWN
;
511 V_UNKNOWN(&v
) = (IUnknown
*)&test_myVariantClearImpl
;
512 test_myVariantClearImpl
.events
= 0;
513 hres
= VariantClear(&v
);
514 ok(hres
== S_OK
, "ret %08x\n", hres
);
515 ok(V_VT(&v
) == 0, "vt %04x\n", V_VT(&v
));
516 ok(V_UNKNOWN(&v
) == (IUnknown
*)&test_myVariantClearImpl
, "unknown %p\n", V_UNKNOWN(&v
));
517 /* Check that Release got called, but nothing else */
518 ok(test_myVariantClearImpl
.events
== 0x4, "Unexpected call. events %08x\n", test_myVariantClearImpl
.events
);
521 punk
= (IUnknown
*)&test_myVariantClearImpl
;
522 V_VT(&v
) = VT_UNKNOWN
| VT_BYREF
;
523 V_UNKNOWNREF(&v
) = &punk
;
524 test_myVariantClearImpl
.events
= 0;
525 hres
= VariantClear(&v
);
526 ok(hres
== S_OK
, "ret %08x\n", hres
);
527 ok(V_VT(&v
) == 0, "vt %04x\n", V_VT(&v
));
528 ok(V_UNKNOWNREF(&v
) == &punk
, "unknown ref %p\n", V_UNKNOWNREF(&v
));
529 /* Check that nothing got called */
530 ok(test_myVariantClearImpl
.events
== 0, "Unexpected call. events %08x\n", test_myVariantClearImpl
.events
);
533 V_VT(&v
) = VT_DISPATCH
;
534 V_DISPATCH(&v
) = (IDispatch
*)&test_myVariantClearImpl
;
535 test_myVariantClearImpl
.events
= 0;
536 hres
= VariantClear(&v
);
537 ok(hres
== S_OK
, "ret %08x\n", hres
);
538 ok(V_VT(&v
) == 0, "vt %04x\n", V_VT(&v
));
539 ok(V_DISPATCH(&v
) == (IDispatch
*)&test_myVariantClearImpl
, "dispatch %p\n", V_DISPATCH(&v
));
540 /* Check that Release got called, but nothing else */
541 ok(test_myVariantClearImpl
.events
== 0x4, "Unexpected call. events %08x\n", test_myVariantClearImpl
.events
);
544 punk
= (IUnknown
*)&test_myVariantClearImpl
;
545 V_VT(&v
) = VT_DISPATCH
| VT_BYREF
;
546 V_DISPATCHREF(&v
) = (IDispatch
**)&punk
;
547 test_myVariantClearImpl
.events
= 0;
548 hres
= VariantClear(&v
);
549 ok(hres
== S_OK
, "ret %08x\n", hres
);
550 ok(V_VT(&v
) == 0, "vt %04x\n", V_VT(&v
));
551 ok(V_DISPATCHREF(&v
) == (IDispatch
**)&punk
, "dispatch ref %p\n", V_DISPATCHREF(&v
));
552 /* Check that nothing got called */
553 ok(test_myVariantClearImpl
.events
== 0, "Unexpected call. events %08x\n", test_myVariantClearImpl
.events
);
556 static void test_VariantCopy(void)
558 VARIANTARG vSrc
, vDst
;
561 HRESULT hres
, hExpected
;
563 /* Establish that the failure/other cases are dealt with. Individual tests
564 * for each type should verify that data is copied correctly, references
569 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]) && !IS_ANCIENT
; i
++)
571 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
575 memset(&vSrc
, 0, sizeof(vSrc
));
576 V_VT(&vSrc
) = vt
| ExtraFlags
[i
];
578 hExpected
= DISP_E_BADVARTYPE
;
579 /* src is allowed to be a VT_CLSID */
580 if (vt
!= VT_CLSID
&& IsValidVariantClearVT(vt
, ExtraFlags
[i
]))
583 hres
= VariantCopy(&vSrc
, &vSrc
);
585 ok(hres
== hExpected
,
586 "Copy(src==dst): expected 0x%X, got 0x%X for src==dest vt %d|0x%X\n",
587 hExpected
, hres
, vt
, ExtraFlags
[i
]);
591 /* Test that if VariantClear() fails on dest, the function fails. This also
592 * shows that dest is in fact cleared and not just overwritten
594 memset(&vSrc
, 0, sizeof(vSrc
));
595 V_VT(&vSrc
) = VT_UI1
;
597 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]) && !IS_ANCIENT
; i
++)
599 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
603 hExpected
= DISP_E_BADVARTYPE
;
605 memset(&vDst
, 0, sizeof(vDst
));
606 V_VT(&vDst
) = vt
| ExtraFlags
[i
];
608 if (IsValidVariantClearVT(vt
, ExtraFlags
[i
]))
611 hres
= VariantCopy(&vDst
, &vSrc
);
613 ok(hres
== hExpected
,
614 "Copy(bad dst): expected 0x%X, got 0x%X for dest vt %d|0x%X\n",
615 hExpected
, hres
, vt
, ExtraFlags
[i
]);
617 ok(V_VT(&vDst
) == VT_UI1
,
618 "Copy(bad dst): expected vt = VT_UI1, got %d\n", V_VT(&vDst
));
622 /* Test that VariantClear() checks vSrc for validity before copying */
623 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]) && !IS_ANCIENT
; i
++)
625 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
629 hExpected
= DISP_E_BADVARTYPE
;
631 memset(&vDst
, 0, sizeof(vDst
));
632 V_VT(&vDst
) = VT_EMPTY
;
634 memset(&vSrc
, 0, sizeof(vSrc
));
635 V_VT(&vSrc
) = vt
| ExtraFlags
[i
];
637 /* src is allowed to be a VT_CLSID */
638 if (vt
!= VT_CLSID
&& IsValidVariantClearVT(vt
, ExtraFlags
[i
]))
641 hres
= VariantCopy(&vDst
, &vSrc
);
643 ok(hres
== hExpected
,
644 "Copy(bad src): expected 0x%X, got 0x%X for src vt %d|0x%X\n",
645 hExpected
, hres
, vt
, ExtraFlags
[i
]);
648 ok(V_VT(&vDst
) == (vt
|ExtraFlags
[i
]),
649 "Copy(bad src): expected vt = %d, got %d\n",
650 vt
| ExtraFlags
[i
], V_VT(&vDst
));
656 /* Test that copying a NULL BSTR results in an empty BSTR */
657 memset(&vDst
, 0, sizeof(vDst
));
658 V_VT(&vDst
) = VT_EMPTY
;
659 memset(&vSrc
, 0, sizeof(vSrc
));
660 V_VT(&vSrc
) = VT_BSTR
;
661 hres
= VariantCopy(&vDst
, &vSrc
);
662 ok(hres
== S_OK
, "Copy(NULL BSTR): Failed to copy a NULL BSTR\n");
665 ok((V_VT(&vDst
) == VT_BSTR
) && V_BSTR(&vDst
),
666 "Copy(NULL BSTR): should have non-NULL result\n");
667 if ((V_VT(&vDst
) == VT_BSTR
) && V_BSTR(&vDst
))
669 ok(*V_BSTR(&vDst
) == 0, "Copy(NULL BSTR): result not empty\n");
675 /* Determine if a vt is valid for VariantCopyInd() */
676 static int IsValidVariantCopyIndVT(VARTYPE vt
, VARTYPE extraFlags
)
680 if ((extraFlags
& VT_ARRAY
) ||
681 (vt
> VT_NULL
&& vt
!= (VARTYPE
)15 && vt
< VT_VOID
&&
682 !(extraFlags
& (VT_VECTOR
|VT_RESERVED
))))
689 static void test_VariantCopyInd(void)
691 VARIANTARG vSrc
, vDst
, vRef
, vRef2
;
695 HRESULT hres
, hExpected
;
697 memset(buffer
, 0, sizeof(buffer
));
700 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]) && !IS_ANCIENT
; i
++)
702 if (ExtraFlags
[i
] & VT_ARRAY
)
703 continue; /* Native crashes on NULL safearray */
705 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
709 memset(&vSrc
, 0, sizeof(vSrc
));
710 V_VT(&vSrc
) = vt
| ExtraFlags
[i
];
712 hExpected
= DISP_E_BADVARTYPE
;
713 if (!(ExtraFlags
[i
] & VT_BYREF
))
715 /* if src is not by-reference, acts as VariantCopy() */
716 if (vt
!= VT_CLSID
&& IsValidVariantClearVT(vt
, ExtraFlags
[i
]))
721 if (vt
== VT_SAFEARRAY
|| vt
== VT_BSTR
|| vt
== VT_UNKNOWN
||
722 vt
== VT_DISPATCH
|| vt
== VT_RECORD
)
723 continue; /* Need valid ptrs for deep copies */
725 V_BYREF(&vSrc
) = &buffer
;
726 hExpected
= E_INVALIDARG
;
728 if ((vt
== VT_I8
|| vt
== VT_UI8
) &&
729 ExtraFlags
[i
] == VT_BYREF
)
731 if (HAVE_OLEAUT32_I8
)
732 hExpected
= S_OK
; /* Only valid if I8 is a known type */
734 else if (IsValidVariantCopyIndVT(vt
, ExtraFlags
[i
]))
738 hres
= VariantCopyInd(&vSrc
, &vSrc
);
740 ok(hres
== hExpected
,
741 "CopyInd(src==dst): expected 0x%X, got 0x%X for src==dst vt %d|0x%X\n",
742 hExpected
, hres
, vt
, ExtraFlags
[i
]);
747 memset(&vSrc
, 0, sizeof(vSrc
));
748 V_VT(&vSrc
) = VT_UI1
|VT_BYREF
;
749 V_BYREF(&vSrc
) = &buffer
;
751 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]) && !IS_ANCIENT
; i
++)
753 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
757 memset(&vDst
, 0, sizeof(vDst
));
758 V_VT(&vDst
) = vt
| ExtraFlags
[i
];
760 hExpected
= DISP_E_BADVARTYPE
;
762 if (IsValidVariantClearVT(vt
, ExtraFlags
[i
]))
765 hres
= VariantCopyInd(&vDst
, &vSrc
);
767 ok(hres
== hExpected
,
768 "CopyInd(bad dst): expected 0x%X, got 0x%X for dst vt %d|0x%X\n",
769 hExpected
, hres
, vt
, ExtraFlags
[i
]);
771 ok(V_VT(&vDst
) == VT_UI1
,
772 "CopyInd(bad dst): expected vt = VT_UI1, got %d\n", V_VT(&vDst
));
777 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]) && !IS_ANCIENT
; i
++)
779 if (ExtraFlags
[i
] & VT_ARRAY
)
780 continue; /* Native crashes on NULL safearray */
782 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
786 memset(&vDst
, 0, sizeof(vDst
));
787 V_VT(&vDst
) = VT_EMPTY
;
789 memset(&vSrc
, 0, sizeof(vSrc
));
790 V_VT(&vSrc
) = vt
| ExtraFlags
[i
];
792 hExpected
= DISP_E_BADVARTYPE
;
793 if (!(ExtraFlags
[i
] & VT_BYREF
))
795 /* if src is not by-reference, acts as VariantCopy() */
796 if (vt
!= VT_CLSID
&& IsValidVariantClearVT(vt
, ExtraFlags
[i
]))
801 if (vt
== VT_SAFEARRAY
|| vt
== VT_BSTR
|| vt
== VT_UNKNOWN
||
802 vt
== VT_DISPATCH
|| vt
== VT_RECORD
)
803 continue; /* Need valid ptrs for deep copies, see vartype.c */
805 V_BYREF(&vSrc
) = &buffer
;
807 hExpected
= E_INVALIDARG
;
809 if ((vt
== VT_I8
|| vt
== VT_UI8
) &&
810 ExtraFlags
[i
] == VT_BYREF
)
812 if (HAVE_OLEAUT32_I8
)
813 hExpected
= S_OK
; /* Only valid if I8 is a known type */
815 else if (IsValidVariantCopyIndVT(vt
, ExtraFlags
[i
]))
819 hres
= VariantCopyInd(&vDst
, &vSrc
);
821 ok(hres
== hExpected
,
822 "CopyInd(bad src): expected 0x%X, got 0x%X for src vt %d|0x%X\n",
823 hExpected
, hres
, vt
, ExtraFlags
[i
]);
826 if (vt
== VT_VARIANT
&& ExtraFlags
[i
] == VT_BYREF
)
828 /* Type of vDst should be the type of the referenced variant.
829 * Since we set the buffer to all zeros, its type should be
832 ok(V_VT(&vDst
) == VT_EMPTY
,
833 "CopyInd(bad src): expected dst vt = VT_EMPTY, got %d|0x%X\n",
834 V_VT(&vDst
) & VT_TYPEMASK
, V_VT(&vDst
) & ~VT_TYPEMASK
);
838 ok(V_VT(&vDst
) == (vt
|(ExtraFlags
[i
] & ~VT_BYREF
)),
839 "CopyInd(bad src): expected dst vt = %d|0x%X, got %d|0x%X\n",
840 vt
, ExtraFlags
[i
] & ~VT_BYREF
,
841 V_VT(&vDst
) & VT_TYPEMASK
, V_VT(&vDst
) & ~VT_TYPEMASK
);
848 /* By-reference variants are dereferenced */
849 V_VT(&vRef
) = VT_UI1
;
851 V_VT(&vSrc
) = VT_VARIANT
|VT_BYREF
;
852 V_VARIANTREF(&vSrc
) = &vRef
;
855 hres
= VariantCopyInd(&vDst
, &vSrc
);
856 ok(V_VT(&vDst
) == VT_UI1
&& V_UI1(&vDst
) == 0x77,
857 "CopyInd(deref): expected dst vt = VT_UI1, val 0x77, got %d|0x%X, 0x%2X\n",
858 V_VT(&vDst
) & VT_TYPEMASK
, V_VT(&vDst
) & ~VT_TYPEMASK
, V_UI1(&vDst
));
860 /* By-reference variant to a by-reference type succeeds */
861 V_VT(&vRef
) = VT_UI1
|VT_BYREF
;
862 V_UI1REF(&vRef
) = buffer
; buffer
[0] = 0x88;
863 V_VT(&vSrc
) = VT_VARIANT
|VT_BYREF
;
864 V_VARIANTREF(&vSrc
) = &vRef
;
867 hres
= VariantCopyInd(&vDst
, &vSrc
);
868 ok(V_VT(&vDst
) == VT_UI1
&& V_UI1(&vDst
) == 0x88,
869 "CopyInd(deref): expected dst vt = VT_UI1, val 0x77, got %d|0x%X, 0x%2X\n",
870 V_VT(&vDst
) & VT_TYPEMASK
, V_VT(&vDst
) & ~VT_TYPEMASK
, V_UI1(&vDst
));
872 /* But a by-reference variant to a by-reference variant fails */
873 V_VT(&vRef2
) = VT_UI1
;
874 V_UI1(&vRef2
) = 0x77;
875 V_VT(&vRef
) = VT_VARIANT
|VT_BYREF
;
876 V_VARIANTREF(&vRef
) = &vRef2
;
877 V_VT(&vSrc
) = VT_VARIANT
|VT_BYREF
;
878 V_VARIANTREF(&vSrc
) = &vRef
;
881 hres
= VariantCopyInd(&vDst
, &vSrc
);
882 ok(hres
== E_INVALIDARG
,
883 "CopyInd(ref->ref): expected E_INVALIDARG, got 0x%08x\n", hres
);
886 static HRESULT (WINAPI
*pVarParseNumFromStr
)(OLECHAR
*,LCID
,ULONG
,NUMPARSE
*,BYTE
*);
888 /* Macros for converting and testing the result of VarParseNumFromStr */
891 static HRESULT
convert_str( const char *str
, INT dig
, ULONG flags
,
892 NUMPARSE
*np
, BYTE rgb
[128], LCID lcid
)
895 MultiByteToWideChar( CP_ACP
,0, str
, -1, buff
, sizeof(buff
)/sizeof(WCHAR
) );
896 memset( rgb
, FAILDIG
, 128 );
897 memset( np
, 255, sizeof(*np
) );
899 np
->dwInFlags
= flags
;
900 return pVarParseNumFromStr( buff
, lcid
, LOCALE_NOUSEROVERRIDE
, np
, rgb
);
903 static void expect_NumFromStr( int line
, HRESULT hres
, NUMPARSE
*np
, INT a
, ULONG b
, ULONG c
,
904 INT d
, INT e
, INT f
)
906 if (hres
== (HRESULT
)S_OK
)
908 ok_(__FILE__
,line
)(np
->cDig
== a
, "Expected cDig = %d, got %d\n", a
, np
->cDig
);
909 ok_(__FILE__
,line
)(np
->dwInFlags
== b
, "Expected dwInFlags = 0x%x, got 0x%x\n", b
, np
->dwInFlags
);
910 ok_(__FILE__
,line
)(np
->dwOutFlags
== c
, "Expected dwOutFlags = 0x%x, got 0x%x\n", c
, np
->dwOutFlags
);
911 ok_(__FILE__
,line
)(np
->cchUsed
== d
, "Expected cchUsed = %d, got %d\n", d
, np
->cchUsed
);
912 ok_(__FILE__
,line
)(np
->nBaseShift
== e
, "Expected nBaseShift = %d, got %d\n", e
, np
->nBaseShift
);
913 ok_(__FILE__
,line
)(np
->nPwr10
== f
, "Expected nPwr10 = %d, got %d\n", f
, np
->nPwr10
);
917 #define CONVERTN(str,dig,flags) hres = convert_str( str, dig, flags, &np, rgb, lcid )
918 #define CONVERT(str,flags) CONVERTN(str,sizeof(rgb),flags)
919 #define EXPECT(a,b,c,d,e,f) expect_NumFromStr( __LINE__, hres, &np, a, b, c, d, e, f )
920 #define EXPECTRGB(a,b) ok(rgb[a] == b, "Digit[%d], expected %d, got %d\n", a, b, rgb[a])
921 #define EXPECTFAIL ok(hres == (HRESULT)DISP_E_TYPEMISMATCH, "Call succeeded, hres = %08x\n", hres)
922 #define EXPECT2(a,b) EXPECTRGB(0,a); EXPECTRGB(1,b)
924 static void test_VarParseNumFromStr(void)
927 /* Ensure all tests are using the same locale characters for '$', ',' etc */
928 LCID lcid
= MAKELCID(MAKELANGID(LANG_ENGLISH
,SUBLANG_ENGLISH_US
),SORT_DEFAULT
);
934 CHECKPTR(VarParseNumFromStr
);
936 /* Consume a single digit */
941 /* cDig is not literal digits - zeros are suppressed and nPwr10 is increased */
944 /* Note: Win32 writes the trailing zeros if they are within cDig's limits,
945 * but then excludes them from the returned cDig count.
946 * In our implementation we don't bother writing them at all.
950 /* if cDig is too small and numbers follow, sets INEXACT */
952 EXPECT(1,0,NUMPRS_INEXACT
,2,0,1);
955 /* Strips leading zeros */
960 /* Strips leading zeros */
966 /* Fails on non digits */
969 EXPECTRGB(0,FAILDIG
);
971 /** NUMPRS_LEADING_WHITE/NUMPRS_TRAILING_WHITE **/
973 /* Without flag, fails on whitespace */
976 EXPECTRGB(0,FAILDIG
);
979 /* With flag, consumes whitespace */
980 CONVERT(" 0", NUMPRS_LEADING_WHITE
);
981 EXPECT(1,NUMPRS_LEADING_WHITE
,NUMPRS_LEADING_WHITE
,2,0,0);
984 /* Test TAB once, then assume it acts as space for all cases */
985 CONVERT("\t0", NUMPRS_LEADING_WHITE
);
986 EXPECT(1,NUMPRS_LEADING_WHITE
,NUMPRS_LEADING_WHITE
,2,0,0);
990 /* Doesn't pick up trailing whitespace without flag */
995 /* With flag, consumes trailing whitespace */
996 CONVERT("0 ", NUMPRS_TRAILING_WHITE
);
997 EXPECT(1,NUMPRS_TRAILING_WHITE
,NUMPRS_TRAILING_WHITE
,2,0,0);
1000 /* Leading flag only consumes leading */
1001 CONVERT(" 0 ", NUMPRS_LEADING_WHITE
);
1002 EXPECT(1,NUMPRS_LEADING_WHITE
,NUMPRS_LEADING_WHITE
,2,0,0);
1005 /* Both flags consumes both */
1006 CONVERT(" 0 ", NUMPRS_LEADING_WHITE
|NUMPRS_TRAILING_WHITE
);
1007 EXPECT(1,NUMPRS_LEADING_WHITE
|NUMPRS_TRAILING_WHITE
,NUMPRS_LEADING_WHITE
|NUMPRS_TRAILING_WHITE
,3,0,0);
1010 /** NUMPRS_LEADING_PLUS/NUMPRS_TRAILING_PLUS **/
1012 /* Without flag, fails on + */
1015 EXPECTRGB(0,FAILDIG
);
1017 /* With flag, consumes + */
1018 CONVERT("+0", NUMPRS_LEADING_PLUS
);
1019 EXPECT(1,NUMPRS_LEADING_PLUS
,NUMPRS_LEADING_PLUS
,2,0,0);
1022 /* Without flag, doesn't consume trailing + */
1024 EXPECT(1,0,0,1,0,0);
1027 /* With flag, consumes trailing + */
1028 CONVERT("0+", NUMPRS_TRAILING_PLUS
);
1029 EXPECT(1,NUMPRS_TRAILING_PLUS
,NUMPRS_TRAILING_PLUS
,2,0,0);
1032 /* With leading flag, doesn't consume trailing + */
1033 CONVERT("+0+", NUMPRS_LEADING_PLUS
);
1034 EXPECT(1,NUMPRS_LEADING_PLUS
,NUMPRS_LEADING_PLUS
,2,0,0);
1037 /* Trailing + doesn't get consumed if we specify both (unlike whitespace) */
1038 CONVERT("+0+", NUMPRS_LEADING_PLUS
|NUMPRS_TRAILING_PLUS
);
1039 EXPECT(1,NUMPRS_LEADING_PLUS
|NUMPRS_TRAILING_PLUS
,NUMPRS_LEADING_PLUS
,2,0,0);
1042 /** NUMPRS_LEADING_MINUS/NUMPRS_TRAILING_MINUS **/
1044 /* Without flag, fails on - */
1047 EXPECTRGB(0,FAILDIG
);
1049 /* With flag, consumes - */
1050 CONVERT("-0", NUMPRS_LEADING_MINUS
);
1051 EXPECT(1,NUMPRS_LEADING_MINUS
,NUMPRS_NEG
|NUMPRS_LEADING_MINUS
,2,0,0);
1054 /* Without flag, doesn't consume trailing - */
1056 EXPECT(1,0,0,1,0,0);
1059 /* With flag, consumes trailing - */
1060 CONVERT("0-", NUMPRS_TRAILING_MINUS
);
1061 EXPECT(1,NUMPRS_TRAILING_MINUS
,NUMPRS_NEG
|NUMPRS_TRAILING_MINUS
,2,0,0);
1064 /* With leading flag, doesn't consume trailing - */
1065 CONVERT("-0-", NUMPRS_LEADING_MINUS
);
1066 EXPECT(1,NUMPRS_LEADING_MINUS
,NUMPRS_NEG
|NUMPRS_LEADING_MINUS
,2,0,0);
1069 /* Trailing - doesn't get consumed if we specify both (unlike whitespace) */
1070 CONVERT("-0-", NUMPRS_LEADING_MINUS
|NUMPRS_TRAILING_MINUS
);
1071 EXPECT(1,NUMPRS_LEADING_MINUS
|NUMPRS_TRAILING_MINUS
,NUMPRS_NEG
|NUMPRS_LEADING_MINUS
,2,0,0);
1074 /** NUMPRS_HEX_OCT **/
1076 /* Could be hex, octal or decimal - With flag reads as decimal */
1077 CONVERT("0", NUMPRS_HEX_OCT
);
1078 EXPECT(1,NUMPRS_HEX_OCT
,0,1,0,0);
1081 /* Doesn't recognise hex in .asm syntax */
1082 CONVERT("0h", NUMPRS_HEX_OCT
);
1083 EXPECT(1,NUMPRS_HEX_OCT
,0,1,0,0);
1086 /* Doesn't fail with valid leading string but no digits */
1087 CONVERT("0x", NUMPRS_HEX_OCT
);
1088 EXPECT(1,NUMPRS_HEX_OCT
,0,1,0,0);
1091 /* Doesn't recognise hex format numbers at all! */
1092 CONVERT("0x0", NUMPRS_HEX_OCT
);
1093 EXPECT(1,NUMPRS_HEX_OCT
,0,1,0,0);
1096 /* Doesn't recognise plain hex digits either */
1097 CONVERT("FE", NUMPRS_HEX_OCT
);
1099 EXPECTRGB(0,FAILDIG
);
1102 CONVERT("0100", NUMPRS_HEX_OCT
);
1103 EXPECT(1,NUMPRS_HEX_OCT
,0,4,0,2);
1107 EXPECTRGB(3,FAILDIG
);
1110 CONVERT("&HF800", NUMPRS_HEX_OCT
);
1111 EXPECT(4,NUMPRS_HEX_OCT
,0x40,6,4,0);
1116 EXPECTRGB(4,FAILDIG
);
1118 /* VB hex lower case and leading zero */
1119 CONVERT("&h0abcdef", NUMPRS_HEX_OCT
);
1120 EXPECT(6,NUMPRS_HEX_OCT
,0x40,9,4,0);
1127 EXPECTRGB(6,FAILDIG
);
1130 CONVERT("&O300", NUMPRS_HEX_OCT
);
1131 EXPECT(3,NUMPRS_HEX_OCT
,0x40,5,3,0);
1135 EXPECTRGB(3,FAILDIG
);
1137 /* VB oct lower case and leading zero */
1138 CONVERT("&o0777", NUMPRS_HEX_OCT
);
1139 EXPECT(3,NUMPRS_HEX_OCT
,0x40,6,3,0);
1143 EXPECTRGB(3,FAILDIG
);
1145 /* VB oct char bigger than 7 */
1146 CONVERT("&o128", NUMPRS_HEX_OCT
);
1148 Native versions 2.x of oleaut32 allow this to succeed: later versions and Wine don't
1150 EXPECTRGB(0,FAILDIG);
1152 /** NUMPRS_PARENS **/
1154 /* Empty parens = error */
1155 CONVERT("()", NUMPRS_PARENS
);
1157 EXPECTRGB(0,FAILDIG
);
1159 /* With flag, trailing parens not consumed */
1160 CONVERT("0()", NUMPRS_PARENS
);
1161 EXPECT(1,NUMPRS_PARENS
,0,1,0,0);
1164 /* With flag, Number in parens made negative and parens consumed */
1165 CONVERT("(0)", NUMPRS_PARENS
);
1166 EXPECT(1,NUMPRS_PARENS
,NUMPRS_NEG
|NUMPRS_PARENS
,3,0,0);
1169 /** NUMPRS_THOUSANDS **/
1171 /* With flag, thousands sep. not needed */
1172 CONVERT("0", NUMPRS_THOUSANDS
);
1173 EXPECT(1,NUMPRS_THOUSANDS
,0,1,0,0);
1176 /* With flag, thousands sep. and following digits consumed */
1177 CONVERT("1,000", NUMPRS_THOUSANDS
);
1178 EXPECT(1,NUMPRS_THOUSANDS
,NUMPRS_THOUSANDS
,5,0,3);
1181 /* With flag and decimal point, thousands sep. but not decimals consumed */
1182 CONVERT("1,000.0", NUMPRS_THOUSANDS
);
1183 EXPECT(1,NUMPRS_THOUSANDS
,NUMPRS_THOUSANDS
,5,0,3);
1186 /** NUMPRS_CURRENCY **/
1188 /* Without flag, chokes on currency sign */
1191 EXPECTRGB(0,FAILDIG
);
1193 /* With flag, consumes currency sign */
1194 CONVERT("$11", NUMPRS_CURRENCY
);
1195 EXPECT(2,NUMPRS_CURRENCY
,NUMPRS_CURRENCY
,3,0,0);
1197 EXPECTRGB(2,FAILDIG
);
1199 /* With flag only, doesn't consume decimal point */
1200 CONVERT("$11.1", NUMPRS_CURRENCY
);
1201 EXPECT(2,NUMPRS_CURRENCY
,NUMPRS_CURRENCY
,3,0,0);
1203 EXPECTRGB(2,FAILDIG
);
1205 /* With flag and decimal flag, consumes decimal point and following digits */
1206 CONVERT("$11.1", NUMPRS_CURRENCY
|NUMPRS_DECIMAL
);
1207 EXPECT(3,NUMPRS_CURRENCY
|NUMPRS_DECIMAL
,NUMPRS_CURRENCY
|NUMPRS_DECIMAL
,5,0,-1);
1210 EXPECTRGB(3,FAILDIG
);
1212 /* Thousands flag can only be used with currency */
1213 CONVERT("$1,234", NUMPRS_CURRENCY
|NUMPRS_THOUSANDS
);
1214 EXPECT(4,NUMPRS_CURRENCY
|NUMPRS_THOUSANDS
,NUMPRS_CURRENCY
|NUMPRS_THOUSANDS
,6,0,0);
1218 EXPECTRGB(4,FAILDIG
);
1220 /** NUMPRS_DECIMAL **/
1222 /* With flag, consumes decimal point */
1223 CONVERT("1.1", NUMPRS_DECIMAL
);
1224 EXPECT(2,NUMPRS_DECIMAL
,NUMPRS_DECIMAL
,3,0,-1);
1226 EXPECTRGB(2,FAILDIG
);
1228 /* With flag, consumes decimal point. Skipping the decimal part is not an error */
1229 CONVERT("1.", NUMPRS_DECIMAL
);
1230 EXPECT(1,NUMPRS_DECIMAL
,NUMPRS_DECIMAL
,2,0,0);
1233 /* Consumes only one decimal point */
1234 CONVERT("1.1.", NUMPRS_DECIMAL
);
1235 EXPECT(2,NUMPRS_DECIMAL
,NUMPRS_DECIMAL
,3,0,-1);
1237 EXPECTRGB(2,FAILDIG
);
1239 /** NUMPRS_EXPONENT **/
1241 /* Without flag, doesn't consume exponent */
1243 EXPECT(1,0,0,1,0,0);
1246 /* With flag, consumes exponent */
1247 CONVERT("1e1", NUMPRS_EXPONENT
);
1248 EXPECT(1,NUMPRS_EXPONENT
,NUMPRS_EXPONENT
,3,0,1);
1251 /* Negative exponents are accepted without flags */
1252 CONVERT("1e-1", NUMPRS_EXPONENT
);
1253 EXPECT(1,NUMPRS_EXPONENT
,NUMPRS_EXPONENT
,4,0,-1);
1256 /* As are positive exponents and leading exponent 0s */
1257 CONVERT("1e+01", NUMPRS_EXPONENT
);
1258 EXPECT(1,NUMPRS_EXPONENT
,NUMPRS_EXPONENT
,5,0,1);
1261 /* The same for zero exponents */
1262 CONVERT("1e0", NUMPRS_EXPONENT
);
1263 EXPECT(1,NUMPRS_EXPONENT
,NUMPRS_EXPONENT
,3,0,0);
1266 /* Sign on a zero exponent doesn't matter */
1267 CONVERT("1e+0", NUMPRS_EXPONENT
);
1268 EXPECT(1,NUMPRS_EXPONENT
,NUMPRS_EXPONENT
,4,0,0);
1271 CONVERT("1e-0", NUMPRS_EXPONENT
);
1272 EXPECT(1,NUMPRS_EXPONENT
,NUMPRS_EXPONENT
,4,0,0);
1275 /* Doesn't consume a real number exponent */
1276 CONVERT("1e1.", NUMPRS_EXPONENT
);
1277 EXPECT(1,NUMPRS_EXPONENT
,NUMPRS_EXPONENT
,3,0,1);
1280 /* Powers of 10 are calculated from the position of any decimal point */
1281 CONVERT("1.5e20", NUMPRS_EXPONENT
|NUMPRS_DECIMAL
);
1282 EXPECT(2,NUMPRS_EXPONENT
|NUMPRS_DECIMAL
,NUMPRS_EXPONENT
|NUMPRS_DECIMAL
,6,0,19);
1285 CONVERT("1.5e-20", NUMPRS_EXPONENT
|NUMPRS_DECIMAL
);
1286 EXPECT(2,NUMPRS_EXPONENT
|NUMPRS_DECIMAL
,NUMPRS_EXPONENT
|NUMPRS_DECIMAL
,7,0,-21);
1289 /** NUMPRS_USE_ALL **/
1291 /* Flag expects all digits */
1292 CONVERT("0", NUMPRS_USE_ALL
);
1293 EXPECT(1,NUMPRS_USE_ALL
,0,1,0,0);
1296 /* Rejects anything trailing */
1297 CONVERT("0 ", NUMPRS_USE_ALL
);
1301 /* Unless consumed by trailing flag */
1302 CONVERT("0 ", NUMPRS_USE_ALL
|NUMPRS_TRAILING_WHITE
);
1303 EXPECT(1,NUMPRS_USE_ALL
|NUMPRS_TRAILING_WHITE
,NUMPRS_TRAILING_WHITE
,2,0,0);
1306 /** Combinations **/
1308 /* Leading whitespace and plus, doesn't consume trailing whitespace */
1309 CONVERT("+ 0 ", NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
);
1310 EXPECT(1,NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
,NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
,3,0,0);
1313 /* Order of whitespace and plus is unimportant */
1314 CONVERT(" +0", NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
);
1315 EXPECT(1,NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
,NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
,3,0,0);
1318 /* Leading whitespace can be repeated */
1319 CONVERT(" + 0", NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
);
1320 EXPECT(1,NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
,NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
,4,0,0);
1323 /* But plus/minus etc. cannot */
1324 CONVERT("+ +0", NUMPRS_LEADING_PLUS
|NUMPRS_LEADING_WHITE
);
1326 EXPECTRGB(0,FAILDIG
);
1328 /* Inexact is not set if trailing zeros are removed */
1329 CONVERTN("10", 1, 0);
1330 EXPECT(1,0,0,2,0,1);
1333 /* Make sure a leading 0 is stripped but decimals after it get read */
1334 CONVERT("-0.51", NUMPRS_STD
);
1335 EXPECT(2,NUMPRS_STD
,NUMPRS_NEG
|NUMPRS_DECIMAL
|NUMPRS_LEADING_MINUS
,5,0,-2);
1338 /* Keep trailing zeros on whole number part of a decimal */
1339 CONVERT("10.1", NUMPRS_STD
);
1340 EXPECT(3,NUMPRS_STD
,NUMPRS_DECIMAL
,4,0,-1);
1344 /* Zeros after decimal sign */
1345 CONVERT("0.01", NUMPRS_STD
);
1346 EXPECT(1,NUMPRS_STD
,NUMPRS_DECIMAL
,4,0,-2);
1349 /* Trailing zeros after decimal part */
1350 CONVERT("0.10", NUMPRS_STD
);
1351 EXPECT(1,NUMPRS_STD
,NUMPRS_DECIMAL
,4,0,-1);
1355 static HRESULT (WINAPI
*pVarNumFromParseNum
)(NUMPARSE
*,BYTE
*,ULONG
,VARIANT
*);
1357 /* Macros for converting and testing the result of VarNumFromParseNum */
1358 #define SETRGB(indx,val) if (!indx) memset(rgb, FAILDIG, sizeof(rgb)); rgb[indx] = val
1360 #define CONVERT(a,b,c,d,e,f,bits) \
1361 np.cDig = (a); np.dwInFlags = (b); np.dwOutFlags = (c); np.cchUsed = (d); \
1362 np.nBaseShift = (e); np.nPwr10 = (f); hres = pVarNumFromParseNum(&np, rgb, bits, &vOut)
1363 static const char *szFailOverflow
= "Expected overflow, hres = %08x\n";
1364 #define EXPECT_OVERFLOW ok(hres == (HRESULT)DISP_E_OVERFLOW, szFailOverflow, hres)
1365 static const char *szFailOk
= "Call failed, hres = %08x\n";
1366 #define EXPECT_OK ok(hres == (HRESULT)S_OK, szFailOk, hres); \
1367 if (hres == (HRESULT)S_OK)
1368 #define EXPECT_TYPE(typ) ok(V_VT(&vOut) == typ,"Expected Type = " #typ ", got %d\n", V_VT(&vOut))
1369 #define EXPECT_I1(val) EXPECT_OK { EXPECT_TYPE(VT_I1); \
1370 ok(V_I1(&vOut) == val, "Expected i1 = %d, got %d\n", (signed char)val, V_I1(&vOut)); }
1371 #define EXPECT_UI1(val) EXPECT_OK { EXPECT_TYPE(VT_UI1); \
1372 ok(V_UI1(&vOut) == val, "Expected ui1 = %d, got %d\n", (BYTE)val, V_UI1(&vOut)); }
1373 #define EXPECT_I2(val) EXPECT_OK { EXPECT_TYPE(VT_I2); \
1374 ok(V_I2(&vOut) == val, "Expected i2 = %d, got %d\n", (SHORT)val, V_I2(&vOut)); }
1375 #define EXPECT_UI2(val) EXPECT_OK { EXPECT_TYPE(VT_UI2); \
1376 ok(V_UI2(&vOut) == val, "Expected ui2 = %d, got %d\n", (USHORT)val, V_UI2(&vOut)); }
1377 #define EXPECT_I4(val) EXPECT_OK { EXPECT_TYPE(VT_I4); \
1378 ok(V_I4(&vOut) == val, "Expected i4 = %d, got %d\n", (LONG)val, V_I4(&vOut)); }
1379 #define EXPECT_UI4(val) EXPECT_OK { EXPECT_TYPE(VT_UI4); \
1380 ok(V_UI4(&vOut) == val, "Expected ui4 = %d, got %d\n", (ULONG)val, V_UI4(&vOut)); }
1381 #define EXPECT_I8(high,low) EXPECT_OK { EXPECT_TYPE(VT_I8); \
1382 ok(V_I8(&vOut) == ((((LONG64)(high))<<32)|(low)), "Expected i8 = %x%08x, got %x%08x\n", \
1383 (LONG)(high), (LONG)(low), (LONG)(V_I8(&vOut)>>32), (LONG)V_I8(&vOut) ); }
1384 #define EXPECT_UI8(val) EXPECT_OK { EXPECT_TYPE(VT_UI8); \
1385 ok(V_UI8(&vOut) == val, "Expected ui8 = 0x%x%08x, got 0x%x%08x\n", \
1386 (DWORD)((ULONG64)val >> 32), (DWORD)(ULONG64)val, (DWORD)(V_UI8(&vOut) >> 32), (DWORD)V_UI8(&vOut)); }
1387 #define EXPECT_R4(val) EXPECT_OK { EXPECT_TYPE(VT_R4); \
1388 ok(V_R4(&vOut) == val, "Expected r4 = %f, got %f\n", val, V_R4(&vOut)); }
1389 #define EXPECT_R8(val) EXPECT_OK { EXPECT_TYPE(VT_R8); \
1390 ok(V_R8(&vOut) == val, "Expected r8 = %g, got %g\n", val, V_R8(&vOut)); }
1391 #define CY_MULTIPLIER 10000
1392 #define EXPECT_CY(val) EXPECT_OK { EXPECT_TYPE(VT_CY); \
1393 ok(V_CY(&vOut).int64 == (LONG64)(val * CY_MULTIPLIER), "Expected r8 = 0x%x%08x, got 0x%x%08x\n", \
1394 (DWORD)((LONG64)val >> 23), (DWORD)(LONG64)val, (DWORD)(V_CY(&vOut).int64 >>32), (DWORD)V_CY(&vOut).int64); }
1395 #define EXPECT_DECIMAL(valHi, valMid, valLo) EXPECT_OK { EXPECT_TYPE(VT_DECIMAL); \
1396 ok((V_DECIMAL(&vOut).Hi32 == valHi) && (S1(U1(V_DECIMAL(&vOut))).Mid32 == valMid) && \
1397 (S1(U1(V_DECIMAL(&vOut))).Lo32 == valLo), \
1398 "Expected decimal = %x/0x%x%08x, got %x/0x%x%08x\n", valHi, valMid, valLo, \
1399 V_DECIMAL(&vOut).Hi32, S1(U1(V_DECIMAL(&vOut))).Mid32, S1(U1(V_DECIMAL(&vOut))).Lo32); }
1401 static void test_VarNumFromParseNum(void)
1408 CHECKPTR(VarNumFromParseNum
);
1410 /* Convert the number 1 to different types */
1411 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_I1
); EXPECT_I1(1);
1412 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_UI1
); EXPECT_UI1(1);
1413 /* Prefers a signed type to unsigned of the same size */
1414 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_I1
|VTBIT_UI1
); EXPECT_I1(1);
1415 /* But takes the smaller size if possible */
1416 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_I2
|VTBIT_UI1
); EXPECT_UI1(1);
1418 /* Try different integer sizes */
1419 #define INTEGER_VTBITS (VTBIT_I1|VTBIT_UI1|VTBIT_I2|VTBIT_UI2|VTBIT_I4|VTBIT_UI4|VTBIT_I8|VTBIT_UI8)
1421 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, INTEGER_VTBITS
); EXPECT_I1(1);
1423 SETRGB(0, 1); SETRGB(1, 2); SETRGB(2, 7);
1424 CONVERT(3,0,0,3,0,0, INTEGER_VTBITS
); EXPECT_I1(127);
1426 SETRGB(0, 1); SETRGB(1, 2); SETRGB(2, 8);
1427 CONVERT(3,0,0,3,0,0, INTEGER_VTBITS
); EXPECT_UI1(128);
1429 SETRGB(0, 2); SETRGB(1, 5); SETRGB(2, 5);
1430 CONVERT(3,0,0,3,0,0, INTEGER_VTBITS
); EXPECT_UI1(255);
1432 SETRGB(0, 2); SETRGB(1, 5); SETRGB(2, 6);
1433 CONVERT(3,0,0,3,0,0, INTEGER_VTBITS
); EXPECT_I2(256);
1435 SETRGB(0, 3); SETRGB(1, 2); SETRGB(2, 7); SETRGB(3, 6); SETRGB(4, 7);
1436 CONVERT(5,0,0,5,0,0, INTEGER_VTBITS
); EXPECT_I2(32767);
1438 SETRGB(0, 3); SETRGB(1, 2); SETRGB(2, 7); SETRGB(3, 6); SETRGB(4, 8);
1439 CONVERT(5,0,0,5,0,0, INTEGER_VTBITS
); EXPECT_UI2(32768);
1441 /* Assume the above pattern holds for remaining positive integers; test negative */
1444 SETRGB(0, 1); SETRGB(1, 2); SETRGB(2, 8);
1445 CONVERT(3,0,NUMPRS_NEG
,3,0,0, INTEGER_VTBITS
); EXPECT_I1(-128);
1447 SETRGB(0, 1); SETRGB(1, 2); SETRGB(2, 9);
1448 CONVERT(3,0,NUMPRS_NEG
,3,0,0, INTEGER_VTBITS
); EXPECT_I2(-129);
1450 SETRGB(0, 3); SETRGB(1, 2); SETRGB(2, 7); SETRGB(3, 6); SETRGB(4, 8);
1451 CONVERT(5,0,NUMPRS_NEG
,5,0,0, INTEGER_VTBITS
); EXPECT_I2(-32768);
1453 SETRGB(0, 3); SETRGB(1, 2); SETRGB(2, 7); SETRGB(3, 6); SETRGB(4, 9);
1454 CONVERT(5,0,NUMPRS_NEG
,5,0,0, INTEGER_VTBITS
); EXPECT_I4(-32769);
1456 /* Assume the above pattern holds for remaining negative integers */
1458 /* Test hexadecimal conversions */
1459 SETRGB(0, 1); CONVERT(1,0,0,1,4,0, INTEGER_VTBITS
); EXPECT_I1(0x01);
1461 SETRGB(0, 7); SETRGB(1, 0xf);
1462 CONVERT(2,0,0,2,4,0, INTEGER_VTBITS
); EXPECT_I1(0x7f);
1463 SETRGB(0, 7); SETRGB(1, 0xf);
1464 CONVERT(2,0,0,2,4,0, VTBIT_DECIMAL
); EXPECT_DECIMAL(0,0,0x7f);
1466 SETRGB(0, 7); SETRGB(1, 0xf); SETRGB(2, 0xf); SETRGB(3, 0xf);
1467 CONVERT(4,0,0,4,4,0, INTEGER_VTBITS
); EXPECT_I2(0x7fff);
1469 SETRGB(0, 7); SETRGB(1, 0xf); SETRGB(2, 0xf); SETRGB(3, 0xf);
1470 SETRGB(4, 0xf); SETRGB(5, 0xf); SETRGB(6, 0xf); SETRGB(7, 0xf);
1471 CONVERT(8,0,0,8,4,0, INTEGER_VTBITS
); EXPECT_I4(0x7fffffffL
);
1472 /* 0x7fffffffffffffff (64 bits) */
1473 SETRGB(0, 7); SETRGB(1, 0xf); SETRGB(2, 0xf); SETRGB(3, 0xf);
1474 SETRGB(4, 0xf); SETRGB(5, 0xf); SETRGB(6, 0xf); SETRGB(7, 0xf);
1475 SETRGB(8, 0xf); SETRGB(9, 0xf); SETRGB(10, 0xf); SETRGB(11, 0xf);
1476 SETRGB(12, 0xf); SETRGB(13, 0xf); SETRGB(14, 0xf); SETRGB(15, 0xf);
1477 if (HAVE_OLEAUT32_I8
)
1479 /* We cannot use INTEGER_VTBITS as WinXP and Win2003 are broken(?). They
1480 truncate the number to the smallest integer size requested:
1481 CONVERT(16,0,0,16,4,0, INTEGER_VTBITS); EXPECT_I1((signed char)0xff); */
1482 CONVERT(16,0,0,16,4,0, VTBIT_I8
); EXPECT_I8(0x7fffffff,0xffffffff);
1485 /* Assume the above pattern holds for numbers without hi-bit set, test (preservation of) hi-bit */
1487 SETRGB(0, 8); SETRGB(1, 2);
1488 CONVERT(2,0,0,2,4,0, INTEGER_VTBITS
);
1489 EXPECT_I1((signed char)0x82);
1491 SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 2);
1492 CONVERT(4,0,0,4,4,0, INTEGER_VTBITS
);
1493 EXPECT_I2((signed short)0x8002);
1495 SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 0);
1496 SETRGB(4, 0); SETRGB(5, 0); SETRGB(6, 0); SETRGB(7, 2);
1497 CONVERT(8,0,0,8,4,0, INTEGER_VTBITS
); EXPECT_I4(0x80000002);
1498 /* 0x8000000000000002 (64 bits) */
1499 SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 0);
1500 SETRGB(4, 0); SETRGB(5, 0); SETRGB(6, 0); SETRGB(7, 0);
1501 SETRGB(8, 0); SETRGB(9, 0); SETRGB(10, 0); SETRGB(11, 0);
1502 SETRGB(12, 0); SETRGB(13, 0); SETRGB(14, 0); SETRGB(15, 2);
1503 if (HAVE_OLEAUT32_I8
)
1505 /* We cannot use INTEGER_VTBITS as WinXP and Win2003 are broken(?). They
1506 truncate the number to the smallest integer size requested:
1507 CONVERT(16,0,0,16,4,0, INTEGER_VTBITS & ~VTBIT_I1);
1508 EXPECT_I2((signed short)0x0002); */
1509 CONVERT(16,0,0,16,4,0, VTBIT_I8
); EXPECT_I8(0x80000000,0x00000002);
1512 /* Test (preservation of) hi-bit with STRICT type requesting */
1514 SETRGB(0, 8); SETRGB(1, 2);
1515 CONVERT(2,0,0,2,4,0, VTBIT_I1
);
1516 EXPECT_I1((signed char)0x82);
1518 SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 2);
1519 CONVERT(4,0,0,4,4,0, VTBIT_I2
);
1520 EXPECT_I2((signed short)0x8002);
1522 SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 0);
1523 SETRGB(4, 0); SETRGB(5, 0); SETRGB(6, 0); SETRGB(7, 2);
1524 CONVERT(8,0,0,8,4,0, VTBIT_I4
); EXPECT_I4(0x80000002);
1525 /* 0x8000000000000002 (64 bits) */
1526 SETRGB(0, 8); SETRGB(1, 0); SETRGB(2, 0); SETRGB(3, 0);
1527 SETRGB(4, 0); SETRGB(5, 0); SETRGB(6, 0); SETRGB(7, 0);
1528 SETRGB(8, 0); SETRGB(9, 0); SETRGB(10, 0); SETRGB(11, 0);
1529 SETRGB(12, 0); SETRGB(13, 0); SETRGB(14, 0); SETRGB(15, 2);
1530 if (HAVE_OLEAUT32_I8
)
1532 CONVERT(16,0,0,16,4,0, VTBIT_I8
); EXPECT_I8(0x80000000,0x00000002);
1534 /* Assume the above pattern holds for numbers with hi-bit set */
1536 /* Negative numbers overflow if we have only unsigned outputs */
1538 SETRGB(0, 1); CONVERT(1,0,NUMPRS_NEG
,1,0,0, VTBIT_UI1
); EXPECT_OVERFLOW
;
1540 SETRGB(0, 6); CONVERT(1,0,NUMPRS_NEG
,1,0,~0u, VTBIT_UI1
); EXPECT_OVERFLOW
;
1542 /* Except that rounding is done first, so -0.5 to 0 are accepted as 0 */
1544 SETRGB(0, 5); CONVERT(1,0,NUMPRS_NEG
,1,0,~0u, VTBIT_UI1
); EXPECT_UI1(0);
1546 /* Floating point zero is OK */
1548 SETRGB(0, 0); CONVERT(1,0,NUMPRS_DECIMAL
|NUMPRS_EXPONENT
,12,0,-8, VTBIT_R8
);
1551 /* Float is acceptable for an integer input value */
1552 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_R4
); EXPECT_R4(1.0f
);
1554 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_R8
); EXPECT_R8(1.0);
1555 /* As is currency */
1556 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_CY
); EXPECT_CY(1);
1558 /* Float is preferred over double */
1559 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_R4
|VTBIT_R8
); EXPECT_R4(1.0f
);
1561 /* Double is preferred over currency */
1562 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_R8
|VTBIT_CY
); EXPECT_R8(1.0);
1564 /* Currency is preferred over decimal */
1565 SETRGB(0, 1); CONVERT(1,0,0,1,0,0, VTBIT_CY
|VTBIT_DECIMAL
); EXPECT_CY(1);
1569 static void test_UdateFromDate( int line
, DATE dt
, ULONG flags
, HRESULT r
, WORD d
, WORD m
, WORD y
,
1570 WORD h
, WORD mn
, WORD s
, WORD ms
, WORD dw
, WORD dy
)
1575 memset(&ud
, 0, sizeof(ud
));
1576 res
= pVarUdateFromDate(dt
, flags
, &ud
);
1577 ok_(__FILE__
,line
)(r
== res
, "Wrong result %x/%x\n", r
, res
);
1579 ok_(__FILE__
,line
)(ud
.st
.wYear
== y
&& ud
.st
.wMonth
== m
&& ud
.st
.wDay
== d
&&
1580 ud
.st
.wHour
== h
&& ud
.st
.wMinute
== mn
&& ud
.st
.wSecond
== s
&&
1581 ud
.st
.wMilliseconds
== ms
&& ud
.st
.wDayOfWeek
== dw
&& ud
.wDayOfYear
== dy
,
1582 "%.16g expected %d,%d,%d,%d,%d,%d,%d %d %d, got %d,%d,%d,%d,%d,%d,%d %d %d\n",
1583 dt
, d
, m
, y
, h
, mn
, s
, ms
, dw
, dy
,
1584 ud
.st
.wDay
, ud
.st
.wMonth
, ud
.st
.wYear
, ud
.st
.wHour
, ud
.st
.wMinute
,
1585 ud
.st
.wSecond
, ud
.st
.wMilliseconds
, ud
.st
.wDayOfWeek
, ud
.wDayOfYear
);
1587 #define DT2UD(dt,flags,r,d,m,y,h,mn,s,ms,dw,dy) test_UdateFromDate(__LINE__,dt,flags,r,d,m,y,h,mn,s,ms,dw,dy)
1589 static void test_VarUdateFromDate(void)
1591 CHECKPTR(VarUdateFromDate
);
1592 DT2UD(29221.0,0,S_OK
,1,1,1980,0,0,0,0,2,1); /* 1 Jan 1980 */
1593 DT2UD(29222.0,0,S_OK
,2,1,1980,0,0,0,0,3,2); /* 2 Jan 1980 */
1594 DT2UD(33238.0,0,S_OK
,31,12,1990,0,0,0,0,1,365); /* 31 Dec 1990 */
1595 DT2UD(0.0,0,S_OK
,30,12,1899,0,0,0,0,6,364); /* 30 Dec 1899 - VT_DATE 0.0 */
1596 DT2UD(-657434.0,0,S_OK
,1,1,100,0,0,0,0,5,1); /* 1 Jan 100 - Min */
1597 DT2UD(-657435.0,0,E_INVALIDARG
,0,0,0,0,0,0,0,0,0); /* < 1 Jan 100 => err */
1598 DT2UD(2958465.0,0,S_OK
,31,12,9999,0,0,0,0,5,365); /* 31 Dec 9999 - Max */
1599 DT2UD(2958466.0,0,E_INVALIDARG
,0,0,0,0,0,0,0,0,0); /* > 31 Dec 9999 => err */
1601 /* VAR_VALIDDATE doesn't prevent upper and lower bounds being checked */
1602 DT2UD(-657435.0,VAR_VALIDDATE
,E_INVALIDARG
,0,0,0,0,0,0,0,0,0);
1603 DT2UD(2958466.0,VAR_VALIDDATE
,E_INVALIDARG
,0,0,0,0,0,0,0,0,0);
1606 DT2UD(29221.25,0,S_OK
,1,1,1980,6,0,0,0,2,1); /* 6 AM */
1607 DT2UD(29221.33333333,0,S_OK
,1,1,1980,8,0,0,0,2,1); /* 8 AM */
1608 DT2UD(29221.5,0,S_OK
,1,1,1980,12,0,0,0,2,1); /* 12 AM */
1609 DT2UD(29221.9888884444,0,S_OK
,1,1,1980,23,44,0,0,2,1); /* 11:44 PM */
1610 DT2UD(29221.7508765432,0,S_OK
,1,1,1980,18,1,16,0,2,1); /* 6:18:02 PM */
1614 static void test_DateFromUDate( int line
, WORD d
, WORD m
, WORD y
, WORD h
, WORD mn
, WORD s
, WORD ms
,
1615 WORD dw
, WORD dy
, ULONG flags
, HRESULT r
, DATE dt
)
1627 ud
.st
.wMilliseconds
= ms
;
1628 ud
.st
.wDayOfWeek
= dw
;
1630 res
= pVarDateFromUdate(&ud
, flags
, &out
);
1631 ok_(__FILE__
,line
)(r
== res
&& (FAILED(r
) || EQ_DOUBLE(out
, dt
)),
1632 "expected %x, %.16g, got %x, %.16g\n", r
, dt
, res
, out
);
1634 #define UD2T(d,m,y,h,mn,s,ms,dw,dy,flags,r,dt) test_DateFromUDate(__LINE__,d,m,y,h,mn,s,ms,dw,dy,flags,r,dt)
1636 static void test_VarDateFromUdate(void)
1638 CHECKPTR(VarDateFromUdate
);
1639 UD2T(1,1,1980,0,0,0,0,2,1,0,S_OK
,29221.0); /* 1 Jan 1980 */
1640 UD2T(2,1,1980,0,0,0,0,3,2,0,S_OK
,29222.0); /* 2 Jan 1980 */
1641 UD2T(31,12,1990,0,0,0,0,0,0,0,S_OK
,33238.0); /* 31 Dec 1990 */
1642 UD2T(31,12,90,0,0,0,0,0,0,0,S_OK
,33238.0); /* year < 100 is 1900+year! */
1643 UD2T(30,12,1899,0,0,0,0,6,364,0,S_OK
,0.0); /* 30 Dec 1899 - VT_DATE 0.0 */
1644 UD2T(1,1,100,0,0,0,0,0,0,0,S_OK
,-657434.0); /* 1 Jan 100 - Min */
1645 UD2T(31,12,9999,0,0,0,0,0,0,0,S_OK
,2958465.0); /* 31 Dec 9999 - Max */
1646 UD2T(1,1,10000,0,0,0,0,0,0,0,E_INVALIDARG
,0.0); /* > 31 Dec 9999 => err */
1648 UD2T(1,1,1980,18,1,16,0,2,1,0,S_OK
,29221.75087962963); /* 6:18:02 PM */
1650 UD2T(0,1,1980,0,0,0,0,2,1,0,S_OK
,29220.0); /* Rolls back to 31 Dec 1899 */
1651 UD2T(1,13,1980,0,0,0,0,2,1,0,S_OK
,29587.0); /* Rolls fwd to 1/1/1981 */
1654 static void test_st2dt(int line
, WORD d
, WORD m
, WORD y
, WORD h
, WORD mn
,
1655 WORD s
, WORD ms
, INT r
, double dt
)
1667 st
.wMilliseconds
= ms
;
1669 res
= pSystemTimeToVariantTime(&st
, &out
);
1670 ok_(__FILE__
,line
)(r
== res
&& (!r
|| EQ_DOUBLE(out
, dt
)),
1671 "expected %d, %.16g, got %d, %.16g\n", r
, dt
, res
, out
);
1673 #define ST2DT(d,m,y,h,mn,s,ms,r,dt) test_st2dt(__LINE__,d,m,y,h,mn,s,ms,r,dt)
1675 static void test_SystemTimeToVariantTime(void)
1677 CHECKPTR(SystemTimeToVariantTime
);
1678 ST2DT(1,1,1980,0,0,0,0,TRUE
,29221.0);
1679 ST2DT(2,1,1980,0,0,0,0,TRUE
,29222.0);
1680 ST2DT(0,1,1980,0,0,0,0,TRUE
,29220.0); /* Rolls back to 31 Dec 1899 */
1681 ST2DT(1,13,1980,0,0,0,0,FALSE
,29587.0); /* Fails on invalid month */
1682 ST2DT(31,12,90,0,0,0,0,TRUE
,33238.0); /* year < 100 is 1900+year! */
1685 static void test_dt2st(int line
, double dt
, INT r
, WORD d
, WORD m
, WORD y
,
1686 WORD h
, WORD mn
, WORD s
, WORD ms
)
1691 memset(&st
, 0, sizeof(st
));
1692 res
= pVariantTimeToSystemTime(dt
, &st
);
1693 ok_(__FILE__
,line
)(r
== res
&&
1694 (!r
|| (st
.wYear
== y
&& st
.wMonth
== m
&& st
.wDay
== d
&&
1695 st
.wHour
== h
&& st
.wMinute
== mn
&&
1696 st
.wSecond
== s
&& st
.wMilliseconds
== ms
)),
1697 "%.16g expected %d, %d,%d,%d,%d,%d,%d,%d, got %d, %d,%d,%d,%d,%d,%d,%d\n",
1698 dt
, r
, d
, m
, y
, h
, mn
, s
, ms
, res
, st
.wDay
, st
.wMonth
,
1699 st
.wYear
, st
.wHour
, st
.wMinute
, st
.wSecond
,
1702 #define DT2ST(dt,r,d,m,y,h,mn,s,ms) test_dt2st(__LINE__,dt,r,d,m,y,h,mn,s,ms)
1704 static void test_VariantTimeToSystemTime(void)
1706 CHECKPTR(VariantTimeToSystemTime
);
1707 DT2ST(29221.0,1,1,1,1980,0,0,0,0);
1708 DT2ST(29222.0,1,2,1,1980,0,0,0,0);
1711 #define MKDOSDATE(d,m,y) ((d & 0x1f) | ((m & 0xf) << 5) | (((y-1980) & 0x7f) << 9))
1712 #define MKDOSTIME(h,m,s) (((s>>1) & 0x1f) | ((m & 0x3f) << 5) | ((h & 0x1f) << 11))
1714 static void test_dos2dt(int line
, WORD d
, WORD m
, WORD y
, WORD h
, WORD mn
,
1715 WORD s
, INT r
, double dt
)
1717 unsigned short dosDate
, dosTime
;
1722 dosDate
= MKDOSDATE(d
, m
, y
);
1723 dosTime
= MKDOSTIME(h
, mn
, s
);
1724 res
= pDosDateTimeToVariantTime(dosDate
, dosTime
, &out
);
1725 ok_(__FILE__
,line
)(r
== res
&& (!r
|| EQ_DOUBLE(out
, dt
)),
1726 "expected %d, %.16g, got %d, %.16g\n", r
, dt
, res
, out
);
1728 #define DOS2DT(d,m,y,h,mn,s,r,dt) test_dos2dt(__LINE__,d,m,y,h,mn,s,r,dt)
1730 static void test_DosDateTimeToVariantTime(void)
1732 CHECKPTR(DosDateTimeToVariantTime
);
1735 DOS2DT(1,1,1980,0,0,0,1,29221.0); /* 1/1/1980 */
1736 DOS2DT(31,12,2099,0,0,0,1,73050.0); /* 31/12/2099 */
1737 /* Dates are limited to the dos date max of 31/12/2099 */
1738 DOS2DT(31,12,2100,0,0,0,0,0.0); /* 31/12/2100 */
1739 /* Days and months of 0 cause date to roll back 1 day or month */
1740 DOS2DT(0,1,1980,0,0,0,1,29220.0); /* 0 Day => 31/12/1979 */
1741 DOS2DT(1,0,1980,0,0,0,1,29190.0); /* 0 Mth => 1/12/1979 */
1742 DOS2DT(0,0,1980,0,0,0,1,29189.0); /* 0 D/M => 30/11/1979 */
1743 /* Days > days in the month cause date to roll forward 1 month */
1744 DOS2DT(29,2,1981,0,0,0,1,29646.0); /* 29/2/1981 -> 3/1/1980 */
1745 DOS2DT(30,2,1981,0,0,0,1,29647.0); /* 30/2/1981 -> 4/1/1980 */
1746 /* Takes leap years into account when rolling forward */
1747 DOS2DT(29,2,1980,0,0,0,1,29280.0); /* 2/29/1980 */
1748 /* Months > 12 cause an error */
1749 DOS2DT(2,13,1980,0,0,0,0,0.0);
1752 DOS2DT(1,1,1980,0,0,29,1,29221.00032407407); /* 1/1/1980 12:00:28 AM */
1753 DOS2DT(1,1,1980,0,0,31,1,29221.00034722222); /* 1/1/1980 12:00:30 AM */
1754 DOS2DT(1,1,1980,0,59,0,1,29221.04097222222); /* 1/1/1980 12:59:00 AM */
1755 DOS2DT(1,1,1980,0,60,0,0,0.0); /* Invalid seconds */
1756 DOS2DT(1,1,1980,23,0,0,1,29221.95833333333); /* 1/1/1980 11:00:00 PM */
1757 DOS2DT(1,1,1980,24,0,0,0,0.0); /* Invalid hours */
1760 static void test_dt2dos(int line
, double dt
, INT r
, WORD d
, WORD m
, WORD y
,
1761 WORD h
, WORD mn
, WORD s
)
1763 unsigned short dosDate
, dosTime
, expDosDate
, expDosTime
;
1766 dosTime
= dosDate
= 0;
1767 expDosDate
= MKDOSDATE(d
,m
,y
);
1768 expDosTime
= MKDOSTIME(h
,mn
,s
);
1769 res
= pVariantTimeToDosDateTime(dt
, &dosDate
, &dosTime
);
1770 ok_(__FILE__
,line
)(r
== res
&& (!r
|| (dosTime
== expDosTime
&& dosDate
== expDosDate
)),
1771 "%g: expected %d,%d(%d/%d/%d),%d(%d:%d:%d) got %d,%d(%d/%d/%d),%d(%d:%d:%d)\n",
1772 dt
, r
, expDosDate
, expDosDate
& 0x1f,
1773 (expDosDate
>> 5) & 0xf, 1980 + (expDosDate
>> 9),
1774 expDosTime
, expDosTime
>> 11, (expDosTime
>> 5) & 0x3f,
1775 (expDosTime
& 0x1f),
1776 res
, dosDate
, dosDate
& 0x1f, (dosDate
>> 5) & 0xf,
1777 1980 + (dosDate
>> 9), dosTime
, dosTime
>> 11,
1778 (dosTime
>> 5) & 0x3f, (dosTime
& 0x1f));
1780 #define DT2DOS(dt,r,d,m,y,h,mn,s) test_dt2dos(__LINE__,dt,r,d,m,y,h,mn,s)
1782 static void test_VariantTimeToDosDateTime(void)
1784 CHECKPTR(VariantTimeToDosDateTime
);
1787 DT2DOS(29221.0,1,1,1,1980,0,0,0); /* 1/1/1980 */
1788 DT2DOS(73050.0,1,31,12,2099,0,0,0); /* 31/12/2099 */
1789 DT2DOS(29220.0,0,0,0,0,0,0,0); /* 31/12/1979 - out of range */
1790 DT2DOS(73415.0,0,0,0,0,0,0,0); /* 31/12/2100 - out of range */
1793 DT2DOS(29221.00032407407,1,1,1,1980,0,0,29); /* 1/1/1980 12:00:28 AM */
1794 DT2DOS(29221.00034722222,1,1,1,1980,0,0,31); /* 1/1/1980 12:00:30 AM */
1795 DT2DOS(29221.04097222222,1,1,1,1980,0,59,0); /* 1/1/1980 12:59:00 AM */
1796 DT2DOS(29221.95833333333,1,1,1,1980,23,0,0); /* 1/1/1980 11:00:00 PM */
1799 static HRESULT (WINAPI
*pVarAbs
)(LPVARIANT
,LPVARIANT
);
1801 #define VARABS(vt,val,rvt,rval) \
1802 V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
1803 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
1804 test_var_call1( __LINE__, pVarAbs, &v, &exp )
1806 static void test_VarAbs(void)
1808 static WCHAR szNum
[] = {'-','1','.','1','\0' };
1811 VARIANT v
, vDst
, exp
;
1816 /* Test all possible V_VT values.
1818 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
1822 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
1824 HRESULT hExpected
= DISP_E_BADVARTYPE
;
1828 memset(&v
, 0, sizeof(v
));
1829 V_VT(&v
) = vt
| ExtraFlags
[i
];
1830 V_VT(&vDst
) = VT_EMPTY
;
1832 hres
= pVarAbs(&v
,&vDst
);
1833 if (ExtraFlags
[i
] & (VT_ARRAY
|VT_ARRAY
) ||
1834 (!ExtraFlags
[i
] && (vt
== VT_UNKNOWN
|| vt
== VT_BSTR
||
1835 vt
== VT_DISPATCH
|| vt
== VT_ERROR
|| vt
== VT_RECORD
)))
1837 hExpected
= DISP_E_TYPEMISMATCH
;
1839 else if (ExtraFlags
[i
] || vt
>= VT_CLSID
|| vt
== VT_VARIANT
)
1841 hExpected
= DISP_E_BADVARTYPE
;
1843 else if (IsValidVariantClearVT(vt
, ExtraFlags
[i
]))
1846 /* Native always fails on some vartypes that should be valid. don't
1847 * check that Wine does the same; these are bugs in native.
1849 if (vt
== VT_I8
|| vt
== VT_UI8
|| vt
== VT_INT
|| vt
== VT_UINT
||
1850 vt
== VT_I1
|| vt
== VT_UI2
|| vt
== VT_UI4
)
1852 ok(hres
== hExpected
, "VarAbs: expected 0x%X, got 0x%X for vt %d | 0x%X\n",
1853 hExpected
, hres
, vt
, ExtraFlags
[i
]);
1857 /* BOOL->I2, BSTR->R8, all others remain the same */
1858 VARABS(BOOL
,VARIANT_TRUE
,I2
,-VARIANT_TRUE
);
1859 VARABS(BOOL
,VARIANT_FALSE
,I2
,VARIANT_FALSE
);
1860 VARABS(EMPTY
,0,I2
,0);
1861 VARABS(EMPTY
,1,I2
,0);
1862 VARABS(NULL
,0,NULL
,0);
1863 VARABS(NULL
,1,NULL
,0);
1868 VARABS(UI1
,1,UI1
,1);
1873 VARABS(DATE
,1,DATE
,1);
1874 VARABS(DATE
,-1,DATE
,1);
1876 V_CY(&v
).int64
= -10000;
1877 memset(&vDst
,0,sizeof(vDst
));
1878 hres
= pVarAbs(&v
,&vDst
);
1879 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_CY
&& V_CY(&vDst
).int64
== 10000,
1880 "VarAbs(CY): expected 0x0 got 0x%X\n", hres
);
1881 GetLocaleInfoA(LOCALE_USER_DEFAULT
, LOCALE_SDECIMAL
, buff
, sizeof(buff
)/sizeof(char));
1884 trace("Skipping VarAbs(BSTR) as decimal separator is '%s'\n", buff
);
1890 V_BSTR(&v
) = (BSTR
)szNum
;
1891 memset(&vDst
,0,sizeof(vDst
));
1892 hres
= pVarAbs(&v
,&vDst
);
1893 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_R8
&& V_R8(&vDst
) == 1.1,
1894 "VarAbs: expected 0x0,%d,%g, got 0x%X,%d,%g\n", VT_R8
, 1.1, hres
, V_VT(&vDst
), V_R8(&vDst
));
1897 static HRESULT (WINAPI
*pVarNot
)(LPVARIANT
,LPVARIANT
);
1899 #define VARNOT(vt,val,rvt,rval) \
1900 V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
1901 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
1902 test_var_call1( __LINE__, pVarNot, &v, &exp )
1904 static void test_VarNot(void)
1906 static const WCHAR szNum0
[] = {'0','\0' };
1907 static const WCHAR szNum1
[] = {'1','\0' };
1909 VARIANT v
, exp
, vDst
;
1910 DECIMAL
*pdec
= &V_DECIMAL(&v
);
1911 CY
*pcy
= &V_CY(&v
);
1916 /* Test all possible V_VT values */
1917 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
1921 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
1923 HRESULT hExpected
= DISP_E_BADVARTYPE
;
1927 memset(&v
, 0, sizeof(v
));
1928 V_VT(&v
) = vt
| ExtraFlags
[i
];
1929 V_VT(&vDst
) = VT_EMPTY
;
1933 case VT_I1
: case VT_UI1
: case VT_I2
: case VT_UI2
:
1934 case VT_INT
: case VT_UINT
: case VT_I4
: case VT_UI4
:
1935 case VT_R4
: case VT_R8
:
1936 case VT_DECIMAL
: case VT_BOOL
: case VT_NULL
: case VT_EMPTY
:
1937 case VT_DATE
: case VT_CY
:
1940 case VT_I8
: case VT_UI8
:
1941 if (HAVE_OLEAUT32_I8
)
1945 if (HAVE_OLEAUT32_RECORD
)
1946 hExpected
= DISP_E_TYPEMISMATCH
;
1948 case VT_UNKNOWN
: case VT_BSTR
: case VT_DISPATCH
: case VT_ERROR
:
1949 hExpected
= DISP_E_TYPEMISMATCH
;
1952 if (IsValidVariantClearVT(vt
, ExtraFlags
[i
]) && vt
!= VT_CLSID
)
1953 hExpected
= DISP_E_TYPEMISMATCH
;
1957 hres
= pVarNot(&v
,&vDst
);
1958 ok(hres
== hExpected
, "VarNot: expected 0x%X, got 0x%X vt %d|0x%X\n",
1959 hExpected
, hres
, vt
, ExtraFlags
[i
]);
1962 /* Test the values returned by all cases that can succeed */
1963 VARNOT(EMPTY
,0,I2
,-1);
1964 VARNOT(EMPTY
,1,I2
,-1);
1965 VARNOT(NULL
,0,NULL
,0);
1966 VARNOT(NULL
,1,NULL
,0);
1967 VARNOT(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_FALSE
);
1968 VARNOT(BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_TRUE
);
1976 VARNOT(UI1
,1,UI1
,254);
1977 VARNOT(UI1
,0,UI1
,255);
1978 VARNOT(UI2
,0,I4
,-1);
1979 VARNOT(UI2
,1,I4
,-2);
1980 VARNOT(UI4
,0,I4
,-1);
1981 VARNOT(UI4
,1,I4
,-2);
1982 VARNOT(INT
,0,I4
,-1);
1983 VARNOT(INT
,1,I4
,-2);
1984 VARNOT(UINT
,0,I4
,-1);
1985 VARNOT(UINT
,1,I4
,-2);
1986 if (HAVE_OLEAUT32_I8
)
1990 VARNOT(UI8
,0,I4
,-1);
1991 VARNOT(UI8
,1,I4
,-2);
1997 VARNOT(DATE
,1,I4
,-2);
1998 VARNOT(DATE
,0,I4
,-1);
1999 VARNOT(BSTR
,(BSTR
)szNum0
,I4
,-1);
2000 ok(V_VT(&v
) == VT_BSTR
&& V_BSTR(&v
) == szNum0
, "VarNot(0): changed input\n");
2001 VARNOT(BSTR
,(BSTR
)szNum1
,I4
,-2);
2002 ok(V_VT(&v
) == VT_BSTR
&& V_BSTR(&v
) == szNum1
, "VarNot(1): changed input\n");
2004 V_VT(&v
) = VT_DECIMAL
;
2005 S(U(*pdec
)).sign
= DECIMAL_NEG
;
2006 S(U(*pdec
)).scale
= 0;
2008 S1(U1(*pdec
)).Mid32
= 0;
2009 S1(U1(*pdec
)).Lo32
= 1;
2010 VARNOT(DECIMAL
,*pdec
,I4
,0);
2013 VARNOT(CY
,*pcy
,I4
,-2);
2016 VARNOT(CY
,*pcy
,I4
,-1);
2019 VARNOT(CY
,*pcy
,I4
,-1);
2022 static HRESULT (WINAPI
*pVarSub
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
2024 #define VARSUB(vt1,val1,vt2,val2,rvt,rval) \
2025 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
2026 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
2027 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
2028 test_var_call2( __LINE__, pVarSub, &left, &right, &exp )
2030 static void test_VarSub(void)
2032 VARIANT left
, right
, exp
, result
, cy
, dec
;
2035 HRESULT hres
, expectedhres
;
2040 lbstr
= SysAllocString(sz12
);
2041 rbstr
= SysAllocString(sz12
);
2044 VariantInit(&right
);
2045 VariantInit(&result
);
2047 /* Test all possible flag/vt combinations & the resulting vt type */
2048 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
2051 VARTYPE leftvt
, rightvt
, resvt
;
2053 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
2058 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
2062 expectedhres
= S_OK
;
2064 memset(&left
, 0, sizeof(left
));
2065 memset(&right
, 0, sizeof(right
));
2066 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
2067 if (leftvt
== VT_BSTR
)
2068 V_BSTR(&left
) = lbstr
;
2069 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
2070 if (rightvt
== VT_BSTR
)
2071 V_BSTR(&right
) = rbstr
;
2072 V_VT(&result
) = VT_EMPTY
;
2075 /* All extra flags produce errors */
2076 if (ExtraFlags
[i
] == (VT_VECTOR
|VT_BYREF
|VT_RESERVED
) ||
2077 ExtraFlags
[i
] == (VT_VECTOR
|VT_RESERVED
) ||
2078 ExtraFlags
[i
] == (VT_VECTOR
|VT_BYREF
) ||
2079 ExtraFlags
[i
] == (VT_BYREF
|VT_RESERVED
) ||
2080 ExtraFlags
[i
] == VT_VECTOR
||
2081 ExtraFlags
[i
] == VT_BYREF
||
2082 ExtraFlags
[i
] == VT_RESERVED
)
2084 expectedhres
= DISP_E_BADVARTYPE
;
2087 else if (ExtraFlags
[i
] >= VT_ARRAY
)
2089 expectedhres
= DISP_E_TYPEMISMATCH
;
2092 /* Native VarSub cannot handle: VT_I1, VT_UI2, VT_UI4,
2093 VT_INT, VT_UINT and VT_UI8. Tested with WinXP */
2094 else if (!IsValidVariantClearVT(leftvt
, ExtraFlags
[i
]) ||
2095 !IsValidVariantClearVT(rightvt
, ExtraFlags
[i
]) ||
2096 leftvt
== VT_CLSID
|| rightvt
== VT_CLSID
||
2097 leftvt
== VT_VARIANT
|| rightvt
== VT_VARIANT
||
2098 leftvt
== VT_I1
|| rightvt
== VT_I1
||
2099 leftvt
== VT_UI2
|| rightvt
== VT_UI2
||
2100 leftvt
== VT_UI4
|| rightvt
== VT_UI4
||
2101 leftvt
== VT_UI8
|| rightvt
== VT_UI8
||
2102 leftvt
== VT_INT
|| rightvt
== VT_INT
||
2103 leftvt
== VT_UINT
|| rightvt
== VT_UINT
||
2104 leftvt
== VT_UNKNOWN
|| rightvt
== VT_UNKNOWN
||
2105 leftvt
== VT_RECORD
|| rightvt
== VT_RECORD
)
2107 if (leftvt
== VT_RECORD
&& rightvt
== VT_I8
)
2109 if (HAVE_OLEAUT32_I8
)
2110 expectedhres
= DISP_E_TYPEMISMATCH
;
2112 expectedhres
= DISP_E_BADVARTYPE
;
2114 else if (leftvt
< VT_UI1
&& rightvt
== VT_RECORD
)
2115 expectedhres
= DISP_E_TYPEMISMATCH
;
2116 else if (leftvt
>= VT_UI1
&& rightvt
== VT_RECORD
)
2117 expectedhres
= DISP_E_TYPEMISMATCH
;
2118 else if (leftvt
== VT_RECORD
&& rightvt
<= VT_UI1
)
2119 expectedhres
= DISP_E_TYPEMISMATCH
;
2120 else if (leftvt
== VT_RECORD
&& rightvt
> VT_UI1
)
2121 expectedhres
= DISP_E_BADVARTYPE
;
2123 expectedhres
= DISP_E_BADVARTYPE
;
2126 else if ((leftvt
== VT_NULL
&& rightvt
== VT_DISPATCH
) ||
2127 (leftvt
== VT_DISPATCH
&& rightvt
== VT_NULL
))
2129 else if (leftvt
== VT_DISPATCH
|| rightvt
== VT_DISPATCH
||
2130 leftvt
== VT_ERROR
|| rightvt
== VT_ERROR
)
2133 expectedhres
= DISP_E_TYPEMISMATCH
;
2135 else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
2137 else if ((leftvt
== VT_EMPTY
&& rightvt
== VT_BSTR
) ||
2138 (leftvt
== VT_DATE
&& rightvt
== VT_DATE
) ||
2139 (leftvt
== VT_BSTR
&& rightvt
== VT_EMPTY
) ||
2140 (leftvt
== VT_BSTR
&& rightvt
== VT_BSTR
))
2142 else if (leftvt
== VT_DECIMAL
|| rightvt
== VT_DECIMAL
)
2144 else if (leftvt
== VT_DATE
|| rightvt
== VT_DATE
)
2146 else if (leftvt
== VT_CY
|| rightvt
== VT_CY
)
2148 else if (leftvt
== VT_R8
|| rightvt
== VT_R8
)
2150 else if (leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
) {
2152 } else if (leftvt
== VT_R4
|| rightvt
== VT_R4
) {
2153 if (leftvt
== VT_I4
|| rightvt
== VT_I4
||
2154 leftvt
== VT_I8
|| rightvt
== VT_I8
)
2159 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
2161 else if (leftvt
== VT_I4
|| rightvt
== VT_I4
)
2163 else if (leftvt
== VT_I2
|| rightvt
== VT_I2
||
2164 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
||
2165 (leftvt
== VT_EMPTY
&& rightvt
== VT_EMPTY
))
2167 else if (leftvt
== VT_UI1
|| rightvt
== VT_UI1
)
2172 expectedhres
= DISP_E_TYPEMISMATCH
;
2175 hres
= pVarSub(&left
, &right
, &result
);
2177 ok(hres
== expectedhres
&& V_VT(&result
) == resvt
,
2178 "VarSub: %d|0x%X, %d|0x%X: Expected failure 0x%X, "
2179 "got 0x%X, expected vt %d got vt %d\n",
2180 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
],
2181 expectedhres
, hres
, resvt
, V_VT(&result
));
2186 /* Test returned values */
2187 VARSUB(I4
,4,I4
,2,I4
,2);
2188 VARSUB(I2
,4,I2
,2,I2
,2);
2189 VARSUB(I2
,-13,I4
,5,I4
,-18);
2190 VARSUB(I4
,-13,I4
,5,I4
,-18);
2191 VARSUB(I2
,7,R4
,0.5f
,R4
,6.5f
);
2192 VARSUB(R4
,0.5f
,I4
,5,R8
,-4.5);
2193 VARSUB(R8
,7.1,BOOL
,0,R8
,7.1);
2194 VARSUB(BSTR
,lbstr
,I2
,4,R8
,8);
2195 VARSUB(BSTR
,lbstr
,BOOL
,1,R8
,11);
2196 VARSUB(BSTR
,lbstr
,R4
,0.1f
,R8
,11.9);
2197 VARSUB(R4
,0.2f
,BSTR
,rbstr
,R8
,-11.8);
2198 VARSUB(DATE
,2.25,I4
,7,DATE
,-4.75);
2199 VARSUB(DATE
,1.25,R4
,-1.7f
,DATE
,2.95);
2201 VARSUB(UI1
, UI1_MAX
, UI1
, UI1_MAX
, UI1
, 0);
2202 VARSUB(I2
, I2_MAX
, I2
, I2_MAX
, I2
, 0);
2203 VARSUB(I2
, I2_MIN
, I2
, I2_MIN
, I2
, 0);
2204 VARSUB(I4
, I4_MAX
, I4
, I4_MAX
, I4
, 0);
2205 VARSUB(I4
, I4_MIN
, I4
, I4_MIN
, I4
, 0);
2206 VARSUB(R4
, R4_MAX
, R4
, R4_MAX
, R4
, 0.0f
);
2207 VARSUB(R4
, R4_MAX
, R4
, R4_MIN
, R4
, R4_MAX
- R4_MIN
);
2208 VARSUB(R4
, R4_MIN
, R4
, R4_MIN
, R4
, 0.0f
);
2209 VARSUB(R8
, R8_MAX
, R8
, R8_MIN
, R8
, R8_MAX
- R8_MIN
);
2210 VARSUB(R8
, R8_MIN
, R8
, R8_MIN
, R8
, 0.0);
2212 /* Manually test BSTR + BSTR */
2213 V_VT(&left
) = VT_BSTR
;
2214 V_BSTR(&left
) = lbstr
;
2215 V_VT(&right
) = VT_BSTR
;
2216 V_BSTR(&right
) = rbstr
;
2217 hres
= VarSub(&left
, &right
, &result
);
2218 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
2219 "VarSub: expected coerced type VT_R8, got %s!\n", vtstr(V_VT(&result
)));
2220 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
), 0),
2221 "VarSub: BSTR + BSTR, expected %f got %f\n", 0.0, V_R8(&result
));
2223 /* Manually test some VT_CY and VT_DECIMAL variants */
2225 hres
= VarCyFromI4(4711, &V_CY(&cy
));
2226 ok(hres
== S_OK
, "VarCyFromI4 failed!\n");
2227 V_VT(&dec
) = VT_DECIMAL
;
2228 hres
= VarDecFromR8(-4.2, &V_DECIMAL(&dec
));
2229 ok(hres
== S_OK
, "VarDecFromR4 failed!\n");
2230 memset(&left
, 0, sizeof(left
));
2231 memset(&right
, 0, sizeof(right
));
2232 V_VT(&left
) = VT_I4
;
2234 V_VT(&right
) = VT_UI1
;
2237 hres
= VarSub(&cy
, &right
, &result
);
2238 ok(hres
== S_OK
&& V_VT(&result
) == VT_CY
,
2239 "VarSub: expected coerced type VT_CY, got %s!\n", vtstr(V_VT(&result
)));
2240 hres
= VarR8FromCy(V_CY(&result
), &r
);
2241 ok(hres
== S_OK
&& EQ_DOUBLE(r
, 4702),
2242 "VarSub: CY value %f, expected %f\n", r
, (double)4720);
2244 hres
= VarSub(&left
, &dec
, &result
);
2245 ok(hres
== S_OK
&& V_VT(&result
) == VT_DECIMAL
,
2246 "VarSub: expected coerced type VT_DECIMAL, got %s!\n", vtstr(V_VT(&result
)));
2247 hres
= VarR8FromDec(&V_DECIMAL(&result
), &r
);
2248 ok(hres
== S_OK
&& EQ_DOUBLE(r
, -6.8),
2249 "VarSub: DECIMAL value %f, expected %f\n", r
, (double)-15.2);
2251 SysFreeString(lbstr
);
2252 SysFreeString(rbstr
);
2255 static HRESULT (WINAPI
*pVarMod
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
2257 static void test_Mod( int line
, VARIANT
*left
, VARIANT
*right
, VARIANT
*expected
, HRESULT expres
)
2262 memset( &result
, 0, sizeof(result
) );
2263 hres
= pVarMod( left
, right
, &result
);
2264 ok_(__FILE__
,line
)( hres
== expres
, "wrong result %x/%x\n", hres
, expres
);
2266 ok_(__FILE__
,line
)( is_expected_variant( &result
, expected
),
2267 "got %s expected %s\n", variantstr(&result
), variantstr(expected
) );
2270 #define VARMOD(vt1,vt2,val1,val2,rvt,rval) \
2271 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
2272 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
2273 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
2274 test_var_call2( __LINE__, pVarMod, &left, &right, &exp )
2276 #define VARMOD2(vt1,vt2,val1,val2,rvt,rval,hexpected) \
2277 V_VT(&left) = VT_##vt1; V_I4(&left) = val1; \
2278 V_VT(&right) = VT_##vt2; V_I4(&right) = val2; \
2279 V_VT(&exp) = VT_##rvt; V_I4(&exp) = rval; \
2280 test_Mod( __LINE__, &left, &right, &exp, hexpected )
2282 static void test_VarMod(void)
2284 VARIANT v1
, v2
, vDst
, left
, right
, exp
;
2286 HRESULT hexpected
= 0;
2287 static const WCHAR szNum0
[] = {'1','2','5','\0'};
2288 static const WCHAR szNum1
[] = {'1','0','\0'};
2290 BOOL lFound
, rFound
;
2291 BOOL lValid
, rValid
;
2292 BSTR strNum0
, strNum1
;
2296 VARMOD(I1
,BOOL
,100,10,I4
,0);
2297 VARMOD(I1
,I1
,100,10,I4
,0);
2298 VARMOD(I1
,UI1
,100,10,I4
,0);
2299 VARMOD(I1
,I2
,100,10,I4
,0);
2300 VARMOD(I1
,UI2
,100,10,I4
,0);
2301 VARMOD(I1
,I4
,100,10,I4
,0);
2302 VARMOD(I1
,UI4
,100,10,I4
,0);
2303 VARMOD(I1
,R4
,100,10,I4
,0);
2304 VARMOD(I1
,R8
,100,10,I4
,0);
2306 VARMOD(UI1
,BOOL
,100,10,I2
,0);
2307 VARMOD(UI1
,I1
,100,10,I4
,0);
2308 VARMOD(UI1
,UI1
,100,10,UI1
,0);
2309 VARMOD(UI1
,I2
,100,10,I2
,0);
2310 VARMOD(UI1
,UI2
,100,10,I4
,0);
2311 VARMOD(UI1
,I4
,100,10,I4
,0);
2312 VARMOD(UI1
,UI4
,100,10,I4
,0);
2313 VARMOD(UI1
,R4
,100,10,I4
,0);
2314 VARMOD(UI1
,R8
,100,10,I4
,0);
2316 VARMOD(I2
,BOOL
,100,10,I2
,0);
2317 VARMOD(I2
,I1
,100,10,I4
,0);
2318 VARMOD(I2
,UI1
,100,10,I2
,0);
2319 VARMOD(I2
,I2
,100,10,I2
,0);
2320 VARMOD(I2
,UI2
,100,10,I4
,0);
2321 VARMOD(I2
,I4
,100,10,I4
,0);
2322 VARMOD(I2
,UI4
,100,10,I4
,0);
2323 VARMOD(I2
,R4
,100,10,I4
,0);
2324 VARMOD(I2
,R8
,100,10,I4
,0);
2326 VARMOD(I4
,BOOL
,100,10,I4
,0);
2327 VARMOD(I4
,I1
,100,10,I4
,0);
2328 VARMOD(I4
,UI1
,100,10,I4
,0);
2329 VARMOD(I4
,I2
,100,10,I4
,0);
2330 VARMOD(I4
,UI2
,100,10,I4
,0);
2331 VARMOD(I4
,I4
,100,10,I4
,0);
2332 VARMOD(I4
,UI4
,100,10,I4
,0);
2333 VARMOD(I4
,R4
,100,10,I4
,0);
2334 VARMOD(I4
,R8
,100,10,I4
,0);
2335 VARMOD(UI4
,BOOL
,100,10,I4
,0);
2336 VARMOD(UI4
,I1
,100,10,I4
,0);
2337 VARMOD(UI4
,UI1
,100,10,I4
,0);
2338 VARMOD(UI4
,I2
,100,10,I4
,0);
2339 VARMOD(UI4
,UI2
,100,10,I4
,0);
2340 VARMOD(UI4
,I4
,100,10,I4
,0);
2341 VARMOD(UI4
,UI4
,100,10,I4
,0);
2342 VARMOD(UI4
,R4
,100,10,I4
,0);
2343 VARMOD(UI4
,R8
,100,10,I4
,0);
2344 VARMOD(R4
,BOOL
,100,10,I4
,0);
2345 VARMOD(R4
,I1
,100,10,I4
,0);
2346 VARMOD(R4
,UI1
,100,10,I4
,0);
2347 VARMOD(R4
,I2
,100,10,I4
,0);
2348 VARMOD(R4
,UI2
,100,10,I4
,0);
2349 VARMOD(R4
,I4
,100,10,I4
,0);
2350 VARMOD(R4
,UI4
,100,10,I4
,0);
2351 VARMOD(R4
,R4
,100,10,I4
,0);
2352 VARMOD(R4
,R8
,100,10,I4
,0);
2353 VARMOD(R8
,BOOL
,100,10,I4
,0);
2354 VARMOD(R8
,I1
,100,10,I4
,0);
2355 VARMOD(R8
,UI1
,100,10,I4
,0);
2356 VARMOD(R8
,I2
,100,10,I4
,0);
2357 VARMOD(R8
,UI2
,100,10,I4
,0);
2358 VARMOD(R8
,I4
,100,10,I4
,0);
2359 VARMOD(R8
,UI4
,100,10,I4
,0);
2360 VARMOD(R8
,R4
,100,10,I4
,0);
2361 VARMOD(R8
,R8
,100,10,I4
,0);
2363 VARMOD(INT
,INT
,100,10,I4
,0);
2364 VARMOD(INT
,UINT
,100,10,I4
,0);
2366 VARMOD(BOOL
,BOOL
,100,10,I2
,0);
2367 VARMOD(BOOL
,I1
,100,10,I4
,0);
2368 VARMOD(BOOL
,UI1
,100,10,I2
,0);
2369 VARMOD(BOOL
,I2
,100,10,I2
,0);
2370 VARMOD(BOOL
,UI2
,100,10,I4
,0);
2371 VARMOD(BOOL
,I4
,100,10,I4
,0);
2372 VARMOD(BOOL
,UI4
,100,10,I4
,0);
2373 VARMOD(BOOL
,R4
,100,10,I4
,0);
2374 VARMOD(BOOL
,R8
,100,10,I4
,0);
2375 VARMOD(BOOL
,DATE
,100,10,I4
,0);
2377 VARMOD(DATE
,BOOL
,100,10,I4
,0);
2378 VARMOD(DATE
,I1
,100,10,I4
,0);
2379 VARMOD(DATE
,UI1
,100,10,I4
,0);
2380 VARMOD(DATE
,I2
,100,10,I4
,0);
2381 VARMOD(DATE
,UI2
,100,10,I4
,0);
2382 VARMOD(DATE
,I4
,100,10,I4
,0);
2383 VARMOD(DATE
,UI4
,100,10,I4
,0);
2384 VARMOD(DATE
,R4
,100,10,I4
,0);
2385 VARMOD(DATE
,R8
,100,10,I4
,0);
2386 VARMOD(DATE
,DATE
,100,10,I4
,0);
2388 strNum0
= SysAllocString(szNum0
);
2389 strNum1
= SysAllocString(szNum1
);
2390 VARMOD(BSTR
,BSTR
,strNum0
,strNum1
,I4
,5);
2391 VARMOD(BSTR
,I1
,strNum0
,10,I4
,5);
2392 VARMOD(BSTR
,I2
,strNum0
,10,I4
,5);
2393 VARMOD(BSTR
,I4
,strNum0
,10,I4
,5);
2394 VARMOD(BSTR
,R4
,strNum0
,10,I4
,5);
2395 VARMOD(BSTR
,R8
,strNum0
,10,I4
,5);
2396 VARMOD(I4
,BSTR
,125,strNum1
,I4
,5);
2398 if (HAVE_OLEAUT32_I8
)
2400 VARMOD(BOOL
,I8
,100,10,I8
,0);
2401 VARMOD(I1
,I8
,100,10,I8
,0);
2402 VARMOD(UI1
,I8
,100,10,I8
,0);
2403 VARMOD(I2
,I8
,100,10,I8
,0);
2404 VARMOD(I4
,I8
,100,10,I8
,0);
2405 VARMOD(UI4
,I8
,100,10,I8
,0);
2406 VARMOD(R4
,I8
,100,10,I8
,0);
2407 VARMOD(R8
,I8
,100,10,I8
,0);
2408 VARMOD(DATE
,I8
,100,10,I8
,0);
2410 VARMOD(I8
,BOOL
,100,10,I8
,0);
2411 VARMOD(I8
,I1
,100,10,I8
,0);
2412 VARMOD(I8
,UI1
,100,10,I8
,0);
2413 VARMOD(I8
,I2
,100,10,I8
,0);
2414 VARMOD(I8
,UI2
,100,10,I8
,0);
2415 VARMOD(I8
,I4
,100,10,I8
,0);
2416 VARMOD(I8
,UI4
,100,10,I8
,0);
2417 VARMOD(I8
,R4
,100,10,I8
,0);
2418 VARMOD(I8
,R8
,100,10,I8
,0);
2419 VARMOD(I8
,I8
,100,10,I8
,0);
2421 VARMOD(BSTR
,I8
,strNum0
,10,I8
,5);
2424 /* test all combinations of types */
2425 for(l
= 0; l
< VT_BSTR_BLOB
; l
++)
2429 for(r
= 0; r
< VT_BSTR_BLOB
; r
++)
2433 if(l
== VT_BSTR
) continue;
2434 if(l
== VT_DISPATCH
) continue;
2435 if(r
== VT_BSTR
) continue;
2436 if(r
== VT_DISPATCH
) continue;
2470 hexpected
= DISP_E_BADVARTYPE
;
2509 if(((l
== VT_I8
) && (r
== VT_INT
)) || ((l
== VT_INT
) && (r
== VT_I8
)))
2511 hexpected
= DISP_E_TYPEMISMATCH
;
2512 } else if((l
== VT_EMPTY
) && (r
== VT_NULL
))
2515 } else if((l
== VT_NULL
) && (r
== VT_EMPTY
))
2518 } else if((l
== VT_EMPTY
) && (r
== VT_CY
))
2521 } else if((l
== VT_EMPTY
) && (r
== VT_RECORD
))
2523 hexpected
= DISP_E_TYPEMISMATCH
;
2524 } else if((r
== VT_EMPTY
) && lFound
&& lValid
)
2526 hexpected
= DISP_E_DIVBYZERO
;
2527 } else if((l
== VT_ERROR
) || ((r
== VT_ERROR
) && lFound
&& lValid
))
2529 hexpected
= DISP_E_TYPEMISMATCH
;
2530 } else if((l
== VT_NULL
) && (r
== VT_NULL
))
2533 } else if((l
== VT_VARIANT
) || ((r
== VT_VARIANT
) && lFound
&& lValid
))
2535 hexpected
= DISP_E_TYPEMISMATCH
;
2536 } else if((l
== VT_NULL
) && (r
== VT_RECORD
))
2538 hexpected
= DISP_E_TYPEMISMATCH
;
2539 } else if((l
== VT_I8
) && (r
== VT_DECIMAL
))
2542 } else if((l
== VT_DECIMAL
) && (r
== VT_I8
))
2545 } else if((l
== VT_UNKNOWN
) || ((r
== VT_UNKNOWN
) && lFound
&& lValid
))
2547 hexpected
= DISP_E_TYPEMISMATCH
;
2548 } else if((l
== VT_NULL
) && rFound
)
2551 } else if(l
== VT_RECORD
)
2553 hexpected
= DISP_E_TYPEMISMATCH
;
2554 } else if((r
== VT_RECORD
) && lValid
&& lFound
)
2556 hexpected
= DISP_E_TYPEMISMATCH
;
2557 } else if((l
== VT_EMPTY
) && (r
== VT_EMPTY
))
2559 hexpected
= DISP_E_DIVBYZERO
;
2560 } else if((l
== VT_CY
) && !rFound
)
2562 hexpected
= DISP_E_BADVARTYPE
;
2563 } else if(lFound
&& !rFound
)
2565 hexpected
= DISP_E_BADVARTYPE
;
2566 } else if(!lFound
&& rFound
)
2568 hexpected
= DISP_E_BADVARTYPE
;
2569 } else if((r
== VT_NULL
) && lFound
&& lValid
)
2572 } else if((l
== VT_NULL
) || (r
== VT_NULL
))
2574 hexpected
= DISP_E_BADVARTYPE
;
2575 } else if((l
== VT_VARIANT
) || (r
== VT_VARIANT
))
2577 hexpected
= DISP_E_BADVARTYPE
;
2578 } else if(lFound
&& !rFound
)
2580 hexpected
= DISP_E_BADVARTYPE
;
2581 } else if(!lFound
&& !rFound
)
2583 hexpected
= DISP_E_BADVARTYPE
;
2590 V_CY(&v1
).int64
= 1000000;
2595 else if(l
== VT_UI8
)
2599 else if(l
== VT_DATE
)
2601 else if (l
== VT_DECIMAL
)
2603 V_DECIMAL(&v1
).Hi32
= 0;
2604 U1(V_DECIMAL(&v1
)).Lo64
= 100;
2605 U(V_DECIMAL(&v1
)).signscale
= 0;
2611 V_CY(&v2
).int64
= 10000;
2616 else if(r
== VT_UI8
)
2620 else if(r
== VT_DATE
)
2622 else if (r
== VT_DECIMAL
)
2624 V_DECIMAL(&v2
).Hi32
= 0;
2625 U1(V_DECIMAL(&v2
)).Lo64
= 100;
2626 U(V_DECIMAL(&v2
)).signscale
= 0;
2631 if ((l
!= VT_I8
&& l
!= VT_UI8
&& r
!= VT_I8
&& r
!= VT_UI8
) || HAVE_OLEAUT32_I8
)
2633 hres
= pVarMod(&v1
,&v2
,&vDst
);
2634 ok(hres
== hexpected
,
2635 "VarMod: expected 0x%x, got 0x%X for l type of %d, r type of %d,\n", hexpected
, hres
, l
, r
);
2641 /****************************/
2642 /* test some bad parameters */
2643 VARMOD(I4
,I4
,-1,-1,I4
,0);
2645 /* test modulus with zero */
2646 VARMOD2(I4
,I4
,100,0,EMPTY
,0,DISP_E_DIVBYZERO
);
2648 VARMOD(I4
,I4
,0,10,I4
,0); /* test 0 mod 10 */
2650 /* right parameter is type empty */
2651 VARMOD2(I4
,EMPTY
,100,10,EMPTY
,0,DISP_E_DIVBYZERO
);
2653 /* left parameter is type empty */
2654 VARMOD2(EMPTY
,I4
,100,10,I4
,0,S_OK
);
2656 /* mod with a null left value */
2657 VARMOD2(NULL
,I4
,125,10,NULL
,0,S_OK
);
2659 /* mod with a null right value */
2660 VARMOD2(I4
,NULL
,100,10,NULL
,0,S_OK
);
2662 /* void left value */
2663 VARMOD2(VOID
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2665 /* void right value */
2666 VARMOD2(I4
,VOID
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2668 /* null left value, void right value */
2669 VARMOD2(NULL
,VOID
,100,10,EMPTY
, 0, DISP_E_BADVARTYPE
);
2671 /* void left value, null right value */
2672 VARMOD2(VOID
,NULL
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2674 /* some currencies */
2677 V_CY(&v1
).int64
= 100000;
2678 V_CY(&v2
).int64
= 100000;
2679 hres
= pVarMod(&v1
,&v2
,&vDst
);
2680 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_I4
&& V_I4(&vDst
) == 0,
2681 "VarMod: expected 0x%x,%d,%d, got 0x%X,%d,%d\n", S_OK
, VT_I4
, 0, hres
, V_VT(&vDst
), V_I4(&vDst
));
2686 V_CY(&v2
).int64
= 100000;
2687 hres
= pVarMod(&v1
,&v2
,&vDst
);
2688 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_I4
&& V_I4(&vDst
) == 0,
2689 "VarMod: expected 0x%x,%d,%d, got 0x%X,%d,%d\n", S_OK
, VT_I4
, 0, hres
, V_VT(&vDst
), V_I4(&vDst
));
2692 V_VT(&v1
) = VT_DECIMAL
;
2693 V_VT(&v2
) = VT_DECIMAL
;
2694 VarDecFromI4(100, &V_DECIMAL(&v1
));
2695 VarDecFromI4(10, &V_DECIMAL(&v2
));
2696 hres
= pVarMod(&v1
,&v2
,&vDst
);
2697 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_I4
&& V_I4(&vDst
) == 0,
2698 "VarMod: expected 0x%x,%d,%d, got 0x%X,%d,%d\n", S_OK
, VT_I4
, 0, hres
, V_VT(&vDst
), V_I4(&vDst
));
2701 V_VT(&v2
) = VT_DECIMAL
;
2703 VarDecFromI4(10, &V_DECIMAL(&v2
));
2704 hres
= pVarMod(&v1
,&v2
,&vDst
);
2705 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_I4
&& V_I4(&vDst
) == 0,
2706 "VarMod: expected 0x%x,%d,%d, got 0x%X,%d,%d\n", S_OK
, VT_I4
, 0, hres
, V_VT(&vDst
), V_I4(&vDst
));
2708 VARMOD2(UINT
,I4
,100,10,I4
,0,S_OK
);
2710 /* test that an error results in the type of the result changing but not its value */
2711 V_VT(&v1
) = VT_UNKNOWN
;
2712 V_VT(&v2
) = VT_EMPTY
;
2714 V_CY(&v2
).int64
= 100000;
2715 V_VT(&vDst
) = VT_I4
;
2717 hres
= pVarMod(&v1
,&v2
,&vDst
);
2718 ok(hres
== DISP_E_TYPEMISMATCH
&& V_VT(&vDst
) == VT_EMPTY
&& V_I4(&vDst
) == 1231,
2719 "VarMod: expected 0x%x,%d,%d, got 0x%X,%d,%d\n", DISP_E_TYPEMISMATCH
, VT_EMPTY
, 1231, hres
, V_VT(&vDst
), V_I4(&vDst
));
2722 /* test some invalid types */
2723 /*TODO: not testing VT_DISPATCH */
2724 if (HAVE_OLEAUT32_I8
)
2726 VARMOD2(I8
,INT
,100,10,EMPTY
,0,DISP_E_TYPEMISMATCH
);
2728 VARMOD2(ERROR
,I4
,100,10,EMPTY
,0,DISP_E_TYPEMISMATCH
);
2729 VARMOD2(VARIANT
,I4
,100,10,EMPTY
,0,DISP_E_TYPEMISMATCH
);
2730 VARMOD2(UNKNOWN
,I4
,100,10,EMPTY
,0,DISP_E_TYPEMISMATCH
);
2731 VARMOD2(VOID
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2732 VARMOD2(HRESULT
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2733 VARMOD2(PTR
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2734 VARMOD2(SAFEARRAY
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2735 VARMOD2(CARRAY
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2736 VARMOD2(USERDEFINED
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2737 VARMOD2(LPSTR
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2738 VARMOD2(LPWSTR
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2739 VARMOD2(RECORD
,I4
,100,10,EMPTY
,0,DISP_E_TYPEMISMATCH
);
2740 VARMOD2(FILETIME
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2741 VARMOD2(BLOB
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2742 VARMOD2(STREAM
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2743 VARMOD2(STORAGE
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2744 VARMOD2(STREAMED_OBJECT
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2745 VARMOD2(STORED_OBJECT
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2746 VARMOD2(BLOB_OBJECT
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2747 VARMOD2(CF
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2748 VARMOD2(CLSID
,CLSID
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2749 VARMOD2(VECTOR
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2750 VARMOD2(ARRAY
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2751 VARMOD2(BYREF
,I4
,100,10,EMPTY
,0,DISP_E_BADVARTYPE
);
2753 /* test some more invalid types */
2758 hres
= pVarMod(&v1
,&v2
,&vDst
);
2759 ok(hres
== DISP_E_BADVARTYPE
&& V_VT(&vDst
) == VT_EMPTY
,
2760 "VarMod: expected 0x%x,%d, got 0x%X,%d\n", DISP_E_BADVARTYPE
, VT_EMPTY
, hres
, V_VT(&vDst
));
2762 SysFreeString(strNum0
);
2763 SysFreeString(strNum1
);
2766 static HRESULT (WINAPI
*pVarFix
)(LPVARIANT
,LPVARIANT
);
2768 #define VARFIX(vt,val,rvt,rval) \
2769 V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
2770 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
2771 test_var_call1( __LINE__, pVarFix, &v, &exp )
2773 static void test_VarFix(void)
2775 static const WCHAR szNumMinus1
[] = {'-','1','\0' };
2777 VARIANT v
, exp
, vDst
;
2778 DECIMAL
*pdec
= &V_DECIMAL(&v
);
2779 CY
*pcy
= &V_CY(&v
);
2784 /* Test all possible V_VT values */
2785 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
2789 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
2791 HRESULT bFail
= TRUE
;
2795 memset(&v
, 0, sizeof(v
));
2796 V_VT(&v
) = vt
| ExtraFlags
[i
];
2797 V_VT(&vDst
) = VT_EMPTY
;
2801 case VT_UI1
: case VT_I2
: case VT_I4
: case VT_R4
: case VT_R8
:
2802 case VT_DECIMAL
: case VT_BOOL
: case VT_NULL
: case VT_EMPTY
:
2803 case VT_DATE
: case VT_CY
:
2807 if (HAVE_OLEAUT32_I8
)
2812 hres
= pVarFix(&v
,&vDst
);
2814 ok(hres
== DISP_E_TYPEMISMATCH
|| hres
== DISP_E_BADVARTYPE
,
2815 "VarFix: expected failure, got 0x%X vt %d|0x%X\n",
2816 hres
, vt
, ExtraFlags
[i
]);
2818 ok(hres
== S_OK
, "VarFix: expected S_OK, got 0x%X vt %d|0x%X\n",
2819 hres
, vt
, ExtraFlags
[i
]);
2823 VARFIX(BOOL
,VARIANT_TRUE
,I2
,VARIANT_TRUE
);
2824 VARFIX(BOOL
,VARIANT_FALSE
,I2
,0);
2825 VARFIX(BOOL
,1,I2
,1);
2826 VARFIX(UI1
,1,UI1
,1);
2827 VARFIX(I2
,-1,I2
,-1);
2828 VARFIX(I4
,-1,I4
,-1);
2829 if (HAVE_OLEAUT32_I8
)
2831 VARFIX(I8
,-1,I8
,-1);
2833 VARFIX(R4
,1.4f
,R4
,1);
2834 VARFIX(R4
,1.5f
,R4
,1);
2835 VARFIX(R4
,1.6f
,R4
,1);
2836 VARFIX(R4
,-1.4f
,R4
,-1);
2837 VARFIX(R4
,-1.5f
,R4
,-1);
2838 VARFIX(R4
,-1.6f
,R4
,-1);
2839 /* DATE & R8 round as for R4 */
2840 VARFIX(DATE
,-1,DATE
,-1);
2841 VARFIX(R8
,-1,R8
,-1);
2842 VARFIX(BSTR
,(BSTR
)szNumMinus1
,R8
,-1);
2844 V_VT(&v
) = VT_EMPTY
;
2845 hres
= pVarFix(&v
,&vDst
);
2846 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_I2
&& V_I2(&vDst
) == 0,
2847 "VarFix: expected 0x0,%d,0 got 0x%X,%d,%d\n", VT_EMPTY
,
2848 hres
, V_VT(&vDst
), V_I2(&vDst
));
2851 hres
= pVarFix(&v
,&vDst
);
2852 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_NULL
,
2853 "VarFix: expected 0x0,%d got 0x%X,%d\n", VT_NULL
, hres
, V_VT(&vDst
));
2855 V_VT(&v
) = VT_DECIMAL
;
2856 S(U(*pdec
)).sign
= DECIMAL_NEG
;
2857 S(U(*pdec
)).scale
= 0;
2859 S1(U1(*pdec
)).Mid32
= 0;
2860 S1(U1(*pdec
)).Lo32
= 1;
2861 hres
= pVarFix(&v
,&vDst
);
2862 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_DECIMAL
&& !memcmp(&V_DECIMAL(&v
), &V_DECIMAL(&vDst
), sizeof(DECIMAL
)),
2863 "VarFix: expected 0x0,%d,identical, got 0x%X,%d\n", VT_DECIMAL
,
2866 /* FIXME: Test some fractional decimals when VarDecFix is implemented */
2869 pcy
->int64
= -10000;
2870 hres
= pVarFix(&v
,&vDst
);
2871 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_CY
&& V_CY(&vDst
).int64
== -10000,
2872 "VarFix: VT_CY wrong, hres=0x%X\n", hres
);
2875 pcy
->int64
= -16000;
2876 hres
= pVarFix(&v
,&vDst
);
2877 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_CY
&& V_CY(&vDst
).int64
== -10000,
2878 "VarFix: VT_CY wrong, hres=0x%X\n", hres
);
2881 static HRESULT (WINAPI
*pVarInt
)(LPVARIANT
,LPVARIANT
);
2883 #define VARINT(vt,val,rvt,rval) \
2884 V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
2885 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
2886 test_var_call1( __LINE__, pVarInt, &v, &exp )
2888 static void test_VarInt(void)
2890 static const WCHAR szNumMinus1
[] = {'-','1','\0' };
2892 VARIANT v
, exp
, vDst
;
2893 DECIMAL
*pdec
= &V_DECIMAL(&v
);
2894 CY
*pcy
= &V_CY(&v
);
2899 /* Test all possible V_VT values */
2900 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
2904 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
2906 HRESULT bFail
= TRUE
;
2910 memset(&v
, 0, sizeof(v
));
2911 V_VT(&v
) = vt
| ExtraFlags
[i
];
2912 V_VT(&vDst
) = VT_EMPTY
;
2916 case VT_UI1
: case VT_I2
: case VT_I4
: case VT_R4
: case VT_R8
:
2917 case VT_DECIMAL
: case VT_BOOL
: case VT_NULL
: case VT_EMPTY
:
2918 case VT_DATE
: case VT_CY
:
2922 if (HAVE_OLEAUT32_I8
)
2927 hres
= pVarInt(&v
,&vDst
);
2929 ok(hres
== DISP_E_TYPEMISMATCH
|| hres
== DISP_E_BADVARTYPE
,
2930 "VarInt: expected failure, got 0x%X vt %d|0x%X\n",
2931 hres
, vt
, ExtraFlags
[i
]);
2933 ok(hres
== S_OK
, "VarInt: expected S_OK, got 0x%X vt %d|0x%X\n",
2934 hres
, vt
, ExtraFlags
[i
]);
2938 VARINT(BOOL
,VARIANT_TRUE
,I2
,VARIANT_TRUE
);
2939 VARINT(BOOL
,VARIANT_FALSE
,I2
,0);
2940 VARINT(BOOL
,1,I2
,1);
2941 VARINT(UI1
,1,UI1
,1);
2942 VARINT(I2
,-1,I2
,-1);
2943 VARINT(I4
,-1,I4
,-1);
2944 if (HAVE_OLEAUT32_I8
)
2946 VARINT(I8
,-1,I8
,-1);
2948 VARINT(R4
,1.4f
,R4
,1);
2949 VARINT(R4
,1.5f
,R4
,1);
2950 VARINT(R4
,1.6f
,R4
,1);
2951 VARINT(R4
,-1.4f
,R4
,-2); /* Note these 3 are different from VarFix */
2952 VARINT(R4
,-1.5f
,R4
,-2);
2953 VARINT(R4
,-1.6f
,R4
,-2);
2954 /* DATE & R8 round as for R4 */
2955 VARINT(DATE
,-1,DATE
,-1);
2956 VARINT(R8
,-1,R8
,-1);
2957 VARINT(BSTR
,(BSTR
)szNumMinus1
,R8
,-1);
2959 V_VT(&v
) = VT_EMPTY
;
2960 hres
= pVarInt(&v
,&vDst
);
2961 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_I2
&& V_I2(&vDst
) == 0,
2962 "VarInt: expected 0x0,%d,0 got 0x%X,%d,%d\n", VT_EMPTY
,
2963 hres
, V_VT(&vDst
), V_I2(&vDst
));
2966 hres
= pVarInt(&v
,&vDst
);
2967 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_NULL
,
2968 "VarInt: expected 0x0,%d got 0x%X,%d\n", VT_NULL
, hres
, V_VT(&vDst
));
2970 V_VT(&v
) = VT_DECIMAL
;
2971 S(U(*pdec
)).sign
= DECIMAL_NEG
;
2972 S(U(*pdec
)).scale
= 0;
2974 S1(U1(*pdec
)).Mid32
= 0;
2975 S1(U1(*pdec
)).Lo32
= 1;
2976 hres
= pVarInt(&v
,&vDst
);
2977 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_DECIMAL
&& !memcmp(&V_DECIMAL(&v
), &V_DECIMAL(&vDst
), sizeof(DECIMAL
)),
2978 "VarInt: expected 0x0,%d,identical, got 0x%X,%d\n", VT_DECIMAL
,
2981 /* FIXME: Test some fractional decimals when VarDecInt is implemented */
2984 pcy
->int64
= -10000;
2985 hres
= pVarInt(&v
,&vDst
);
2986 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_CY
&& V_CY(&vDst
).int64
== -10000,
2987 "VarInt: VT_CY wrong, hres=0x%X\n", hres
);
2990 pcy
->int64
= -11000;
2991 hres
= pVarInt(&v
,&vDst
);
2992 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_CY
&& V_CY(&vDst
).int64
== -20000,
2993 "VarInt: VT_CY wrong, hres=0x%X 0x%x%08x\n",
2994 hres
, (DWORD
)(V_CY(&vDst
).int64
>> 32), (DWORD
)V_CY(&vDst
).int64
);
2997 static HRESULT (WINAPI
*pVarNeg
)(LPVARIANT
,LPVARIANT
);
2999 #define VARNEG(vt,val,rvt,rval) \
3000 V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
3001 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
3002 test_var_call1( __LINE__, pVarNeg, &v, &exp )
3004 static void test_VarNeg(void)
3006 static const WCHAR szNumMinus1
[] = {'-','1','\0' };
3007 static const WCHAR szNum1
[] = {'1','\0' };
3009 VARIANT v
, exp
, vDst
;
3010 DECIMAL
*pdec
= &V_DECIMAL(&v
);
3011 CY
*pcy
= &V_CY(&v
);
3016 /* Test all possible V_VT values. But don't test the exact return values
3017 * except for success/failure, since M$ made a hash of them in the
3018 * native version. This at least ensures (as with all tests here) that
3019 * we will notice if/when new vtypes/flags are added in native.
3021 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
3025 for (vt
= 0; vt
<= VT_BSTR_BLOB
; vt
++)
3027 HRESULT bFail
= TRUE
;
3031 memset(&v
, 0, sizeof(v
));
3032 V_VT(&v
) = vt
| ExtraFlags
[i
];
3033 V_VT(&vDst
) = VT_EMPTY
;
3037 case VT_UI1
: case VT_I2
: case VT_I4
:
3038 case VT_R4
: case VT_R8
:
3039 case VT_DECIMAL
: case VT_BOOL
: case VT_NULL
: case VT_EMPTY
:
3040 case VT_DATE
: case VT_CY
:
3044 if (HAVE_OLEAUT32_I8
)
3048 hres
= pVarNeg(&v
,&vDst
);
3050 ok(hres
== DISP_E_TYPEMISMATCH
|| hres
== DISP_E_BADVARTYPE
,
3051 "VarNeg: expected failure, got 0x%X vt %d|0x%X\n",
3052 hres
, vt
, ExtraFlags
[i
]);
3054 ok(hres
== S_OK
, "VarNeg: expected S_OK, got 0x%X vt %d|0x%X\n",
3055 hres
, vt
, ExtraFlags
[i
]);
3059 VARNEG(BOOL
,VARIANT_TRUE
,I2
,1);
3060 VARNEG(BOOL
,VARIANT_FALSE
,I2
,0);
3061 VARNEG(BOOL
,1,I2
,-1);
3062 VARNEG(UI1
,1,I2
,-1);
3063 VARNEG(UI1
,254,I2
,-254);
3064 VARNEG(I2
,-32768,I4
,32768);
3067 VARNEG(I4
,-((int)(~0u >> 1)) - 1,R8
,-2147483648u);
3070 if (HAVE_OLEAUT32_I8
)
3077 VARNEG(DATE
,1,DATE
,-1);
3078 VARNEG(DATE
,-1,DATE
,1);
3081 VARNEG(BSTR
,(BSTR
)szNumMinus1
,R8
,1);
3082 VARNEG(BSTR
,(BSTR
)szNum1
,R8
,-1);
3084 V_VT(&v
) = VT_EMPTY
;
3085 hres
= pVarNeg(&v
,&vDst
);
3086 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_I2
&& V_I2(&vDst
) == 0,
3087 "VarNeg: expected 0x0,%d,0 got 0x%X,%d,%d\n", VT_EMPTY
,
3088 hres
, V_VT(&vDst
), V_I2(&vDst
));
3091 hres
= pVarNeg(&v
,&vDst
);
3092 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_NULL
,
3093 "VarNeg: expected 0x0,%d got 0x%X,%d\n", VT_NULL
, hres
, V_VT(&vDst
));
3095 V_VT(&v
) = VT_DECIMAL
;
3096 S(U(*pdec
)).sign
= DECIMAL_NEG
;
3097 S(U(*pdec
)).scale
= 0;
3099 S1(U1(*pdec
)).Mid32
= 0;
3100 S1(U1(*pdec
)).Lo32
= 1;
3101 hres
= pVarNeg(&v
,&vDst
);
3102 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_DECIMAL
&&
3103 S(U(V_DECIMAL(&vDst
))).sign
== 0,
3104 "VarNeg: expected 0x0,%d,0x00, got 0x%X,%d,%02x\n", VT_DECIMAL
,
3105 hres
, V_VT(&vDst
), S(U(V_DECIMAL(&vDst
))).sign
);
3107 S(U(*pdec
)).sign
= 0;
3108 hres
= pVarNeg(&v
,&vDst
);
3109 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_DECIMAL
&&
3110 S(U(V_DECIMAL(&vDst
))).sign
== DECIMAL_NEG
,
3111 "VarNeg: expected 0x0,%d,0x7f, got 0x%X,%d,%02x\n", VT_DECIMAL
,
3112 hres
, V_VT(&vDst
), S(U(V_DECIMAL(&vDst
))).sign
);
3115 pcy
->int64
= -10000;
3116 hres
= pVarNeg(&v
,&vDst
);
3117 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_CY
&& V_CY(&vDst
).int64
== 10000,
3118 "VarNeg: VT_CY wrong, hres=0x%X\n", hres
);
3121 static HRESULT (WINAPI
*pVarRound
)(LPVARIANT
,int,LPVARIANT
);
3123 static void test_Round( int line
, VARIANT
*arg
, int deci
, VARIANT
*expected
)
3128 memset( &result
, 0, sizeof(result
) );
3129 hres
= pVarRound( arg
, deci
, &result
);
3130 ok_(__FILE__
,line
)( hres
== S_OK
, "wrong result %x\n", hres
);
3132 ok_(__FILE__
,line
)( is_expected_variant( &result
, expected
),
3133 "got %s expected %s\n", variantstr(&result
), variantstr(expected
) );
3135 #define VARROUND(vt,val,deci,rvt,rval) \
3136 V_VT(&v) = VT_##vt; V_##vt(&v) = val; \
3137 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
3138 test_Round( __LINE__, &v, deci, &exp )
3140 static void test_VarRound(void)
3142 static WCHAR szNumMin
[] = {'-','1','.','4','4','9','\0' };
3143 static WCHAR szNum
[] = {'1','.','4','5','1','\0' };
3145 VARIANT v
, exp
, vDst
;
3146 CY
*pcy
= &V_CY(&v
);
3151 /* first check valid integer types */
3152 VARROUND(BOOL
,VARIANT_TRUE
,0,I2
,-1);
3153 VARROUND(BOOL
,VARIANT_FALSE
,0,I2
,0);
3154 VARROUND(BOOL
,1,0,I2
,1);
3155 VARROUND(UI1
,1,0,UI1
,1);
3156 VARROUND(UI1
,254,0,UI1
,254);
3157 VARROUND(I2
,-32768,0,I2
,-32768);
3158 VARROUND(I2
,-1,0,I2
,-1);
3159 VARROUND(I2
,1,0,I2
,1);
3160 VARROUND(I4
,-((int)(~0u >> 1)) - 1,0,I4
,-((int)(~0u >> 1)) - 1);
3161 VARROUND(I4
,-1,0,I4
,-1);
3162 VARROUND(I4
,1,0,I4
,1);
3165 /* MSDN states that rounding of R4/R8 is dependent on the underlying
3166 * bit pattern of the number and so is architecture dependent. In this
3167 * case Wine returns .2 (which is more correct) and Native returns .3
3170 VARROUND(R4
,1.0f
,0,R4
,1.0f
);
3171 VARROUND(R4
,-1.0f
,0,R4
,-1.0f
);
3172 VARROUND(R8
,1.0,0,R8
,1.0);
3173 VARROUND(R8
,-1.0,0,R8
,-1.0);
3175 /* floating point numbers aren't exactly equal and we can't just
3176 * compare the first few digits. */
3177 VARROUND(DATE
,1.451,1,DATE
,1.5);
3178 VARROUND(DATE
,-1.449,1,DATE
,-1.4);
3180 /* replace the decimal separator */
3181 GetLocaleInfoA(LOCALE_USER_DEFAULT
, LOCALE_SDECIMAL
, buff
, sizeof(buff
)/sizeof(char));
3183 szNumMin
[2] = buff
[0];
3185 VARROUND(BSTR
,(BSTR
)szNumMin
,1,R8
,-1.40);
3186 VARROUND(BSTR
,(BSTR
)szNum
,1,R8
,1.50);
3188 skip("Skipping VarRound(BSTR) as decimal separator is '%s'\n", buff
);
3191 VARROUND(R4
,1.23456f
,0,R4
,1.0f
);
3192 VARROUND(R4
,1.23456f
,1,R4
,1.2f
);
3193 VARROUND(R4
,1.23456f
,2,R4
,1.23f
);
3194 VARROUND(R4
,1.23456f
,3,R4
,1.235f
);
3195 VARROUND(R4
,1.23456f
,4,R4
,1.2346f
);
3196 VARROUND(R4
,-1.23456f
,0,R4
,-1.0f
);
3197 VARROUND(R4
,-1.23456f
,1,R4
,-1.2f
);
3198 VARROUND(R4
,-1.23456f
,2,R4
,-1.23f
);
3199 VARROUND(R4
,-1.23456f
,3,R4
,-1.235f
);
3200 VARROUND(R4
,-1.23456f
,4,R4
,-1.2346f
);
3202 VARROUND(R8
,1.23456,0,R8
,1.0);
3203 VARROUND(R8
,1.23456,1,R8
,1.2);
3204 VARROUND(R8
,1.23456,2,R8
,1.23);
3205 VARROUND(R8
,1.23456,3,R8
,1.235);
3206 VARROUND(R8
,1.23456,4,R8
,1.2346);
3207 VARROUND(R8
,-1.23456,0,R8
,-1.0);
3208 VARROUND(R8
,-1.23456,1,R8
,-1.2);
3209 VARROUND(R8
,-1.23456,2,R8
,-1.23);
3210 VARROUND(R8
,-1.23456,3,R8
,-1.235);
3211 VARROUND(R8
,-1.23456,4,R8
,-1.2346);
3213 V_VT(&v
) = VT_EMPTY
;
3214 hres
= pVarRound(&v
,0,&vDst
);
3215 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_I2
&& V_I2(&vDst
) == 0,
3216 "VarRound: expected 0x0,%d,0 got 0x%X,%d,%d\n", VT_EMPTY
,
3217 hres
, V_VT(&vDst
), V_I2(&vDst
));
3220 hres
= pVarRound(&v
,0,&vDst
);
3221 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_NULL
,
3222 "VarRound: expected 0x0,%d got 0x%X,%d\n", VT_NULL
, hres
, V_VT(&vDst
));
3224 /* not yet implemented so no use testing yet
3226 DECIMAL *pdec = &V_DECIMAL(&v);
3227 V_VT(&v) = VT_DECIMAL;
3228 S(U(*pdec)).sign = DECIMAL_NEG;
3229 S(U(*pdec)).scale = 0;
3231 S1(U1(*pdec)).Mid32 = 0;
3232 S1(U1(*pdec)).Lo32 = 1;
3233 hres = pVarRound(&v,0,&vDst);
3234 ok(hres == S_OK && V_VT(&vDst) == VT_DECIMAL &&
3235 S(U(V_DECIMAL(&vDst))).sign == 0,
3236 "VarRound: expected 0x0,%d,0x00, got 0x%X,%d,%02x\n", VT_DECIMAL,
3237 hres, V_VT(&vDst), S(U(V_DECIMAL(&vDst))).sign);
3239 S(U(*pdec)).sign = 0;
3240 hres = pVarRound(&v,0,&vDst);
3241 ok(hres == S_OK && V_VT(&vDst) == VT_DECIMAL &&
3242 S(U(V_DECIMAL(&vDst))).sign == DECIMAL_NEG,
3243 "VarRound: expected 0x0,%d,0x7f, got 0x%X,%d,%02x\n", VT_DECIMAL,
3244 hres, V_VT(&vDst), S(U(V_DECIMAL(&vDst))).sign);
3250 hres
= pVarRound(&v
,0,&vDst
);
3251 ok(hres
== S_OK
&& V_VT(&vDst
) == VT_CY
&& V_CY(&vDst
).int64
== 10000,
3252 "VarRound: VT_CY wrong, hres=0x%X\n", hres
);
3256 static HRESULT (WINAPI
*pVarXor
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
3258 #define VARXOR(vt1,val1,vt2,val2,rvt,rval) \
3259 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
3260 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
3261 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
3262 test_var_call2( __LINE__, pVarXor, &left, &right, &exp )
3264 #define VARXORCY(vt1,val1,val2,rvt,rval) \
3265 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
3266 V_VT(&right) = VT_CY; V_CY(&right).int64 = val2; \
3267 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
3268 test_var_call2( __LINE__, pVarXor, &left, &right, &exp )
3270 static void test_VarXor(void)
3272 static const WCHAR szFalse
[] = { '#','F','A','L','S','E','#','\0' };
3273 static const WCHAR szTrue
[] = { '#','T','R','U','E','#','\0' };
3274 VARIANT left
, right
, exp
, result
;
3281 /* Test all possible flag/vt combinations & the resulting vt type */
3282 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
3284 VARTYPE leftvt
, rightvt
, resvt
;
3286 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
3291 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
3297 if (leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
||
3298 leftvt
== VT_DISPATCH
|| rightvt
== VT_DISPATCH
||
3299 leftvt
== VT_UNKNOWN
|| rightvt
== VT_UNKNOWN
)
3302 memset(&left
, 0, sizeof(left
));
3303 memset(&right
, 0, sizeof(right
));
3304 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
3305 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
3306 V_VT(&result
) = VT_EMPTY
;
3309 if (ExtraFlags
[i
] & VT_ARRAY
|| ExtraFlags
[i
] & VT_BYREF
||
3310 !IsValidVariantClearVT(leftvt
, ExtraFlags
[i
]) ||
3311 !IsValidVariantClearVT(rightvt
, ExtraFlags
[i
]) ||
3312 leftvt
== VT_CLSID
|| rightvt
== VT_CLSID
||
3313 leftvt
== VT_RECORD
|| rightvt
== VT_RECORD
||
3314 leftvt
== VT_VARIANT
|| rightvt
== VT_VARIANT
||
3315 leftvt
== VT_ERROR
|| rightvt
== VT_ERROR
)
3319 if (leftvt
== VT_EMPTY
|| rightvt
== VT_EMPTY
)
3321 if (leftvt
== rightvt
||
3322 leftvt
== VT_I2
|| rightvt
== VT_I2
||
3323 leftvt
== VT_UI1
|| rightvt
== VT_UI1
||
3324 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
)
3326 else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
3328 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
3331 else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
3335 else if (leftvt
== VT_UI1
|| rightvt
== VT_UI1
)
3337 if (leftvt
== rightvt
)
3339 else if (leftvt
== rightvt
||
3340 leftvt
== VT_I2
|| rightvt
== VT_I2
||
3341 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
)
3345 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
3348 else if (leftvt
== VT_I2
|| rightvt
== VT_I2
)
3350 if (leftvt
== rightvt
||
3351 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
)
3353 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
3356 else if (leftvt
== VT_BOOL
&& rightvt
== VT_BOOL
)
3360 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
3362 if (leftvt
== VT_INT
|| rightvt
== VT_INT
)
3367 hres
= pVarXor(&left
, &right
, &result
);
3369 ok(hres
== DISP_E_TYPEMISMATCH
|| hres
== DISP_E_BADVARTYPE
,
3370 "VarXor: %d|0x%X, %d|0x%X: Expected failure, got 0x%X vt %d\n",
3371 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], hres
,
3374 ok(hres
== S_OK
&& V_VT(&result
) == resvt
,
3375 "VarXor: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%X vt %d\n",
3376 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], resvt
, hres
,
3382 /* Test returned values
3383 * FIXME: Test VT_DECIMAL/VT_DISPATCH
3385 VARXOR(EMPTY
,0,EMPTY
,0,I2
,0);
3386 VARXOR(EMPTY
,1,EMPTY
,0,I2
,0);
3387 VARXOR(EMPTY
,0,NULL
,0,NULL
,0);
3388 VARXOR(EMPTY
,0,I1
,0,I4
,0);
3389 VARXOR(EMPTY
,0,I1
,1,I4
,1);
3390 VARXOR(EMPTY
,0,UI1
,0,I2
,0);
3391 VARXOR(EMPTY
,0,UI1
,1,I2
,1);
3392 VARXOR(EMPTY
,0,I2
,0,I2
,0);
3393 VARXOR(EMPTY
,0,I2
,1,I2
,1);
3394 VARXOR(EMPTY
,0,UI2
,0,I4
,0);
3395 VARXOR(EMPTY
,0,UI2
,1,I4
,1);
3396 VARXOR(EMPTY
,0,I4
,0,I4
,0);
3397 VARXOR(EMPTY
,0,I4
,1,I4
,1);
3398 VARXOR(EMPTY
,0,UI4
,0,I4
,0);
3399 VARXOR(EMPTY
,0,UI4
,1,I4
,1);
3400 if (HAVE_OLEAUT32_I8
)
3402 VARXOR(EMPTY
,0,I8
,0,I8
,0);
3403 VARXOR(EMPTY
,0,I8
,1,I8
,1);
3404 VARXOR(EMPTY
,0,UI8
,0,I4
,0);
3405 VARXOR(EMPTY
,0,UI8
,1,I4
,1);
3407 VARXOR(EMPTY
,0,INT
,0,I4
,0);
3408 VARXOR(EMPTY
,0,INT
,1,I4
,1);
3409 VARXOR(EMPTY
,0,UINT
,0,I4
,0);
3410 VARXOR(EMPTY
,0,UINT
,1,I4
,1);
3411 VARXOR(EMPTY
,0,BOOL
,0,I2
,0);
3412 VARXOR(EMPTY
,0,BOOL
,1,I2
,1);
3413 VARXOR(EMPTY
,0,R4
,0,I4
,0);
3414 VARXOR(EMPTY
,0,R4
,1,I4
,1);
3415 VARXOR(EMPTY
,0,R8
,0,I4
,0);
3416 VARXOR(EMPTY
,0,R8
,1,I4
,1);
3417 rbstr
= SysAllocString(szFalse
);
3418 VARXOR(EMPTY
,0,BSTR
,rbstr
,I2
,0);
3419 SysFreeString(rbstr
);
3420 rbstr
= SysAllocString(szTrue
);
3421 VARXOR(EMPTY
,0,BSTR
,rbstr
,I2
,-1);
3422 VARXORCY(EMPTY
,0,10000,I4
,1);
3423 SysFreeString(rbstr
);
3425 /* NULL OR 0 = NULL. NULL OR n = n */
3426 VARXOR(NULL
,0,NULL
,0,NULL
,0);
3427 VARXOR(NULL
,1,NULL
,0,NULL
,0);
3428 VARXOR(NULL
,0,I1
,0,NULL
,0);
3429 VARXOR(NULL
,0,I1
,1,NULL
,0);
3430 VARXOR(NULL
,0,UI1
,0,NULL
,0);
3431 VARXOR(NULL
,0,UI1
,1,NULL
,0);
3432 VARXOR(NULL
,0,I2
,0,NULL
,0);
3433 VARXOR(NULL
,0,I2
,1,NULL
,0);
3434 VARXOR(NULL
,0,UI2
,0,NULL
,0);
3435 VARXOR(NULL
,0,UI2
,1,NULL
,0);
3436 VARXOR(NULL
,0,I4
,0,NULL
,0);
3437 VARXOR(NULL
,0,I4
,1,NULL
,0);
3438 VARXOR(NULL
,0,UI4
,0,NULL
,0);
3439 VARXOR(NULL
,0,UI4
,1,NULL
,0);
3440 if (HAVE_OLEAUT32_I8
)
3442 VARXOR(NULL
,0,I8
,0,NULL
,0);
3443 VARXOR(NULL
,0,I8
,1,NULL
,0);
3444 VARXOR(NULL
,0,UI8
,0,NULL
,0);
3445 VARXOR(NULL
,0,UI8
,1,NULL
,0);
3447 VARXOR(NULL
,0,INT
,0,NULL
,0);
3448 VARXOR(NULL
,0,INT
,1,NULL
,0);
3449 VARXOR(NULL
,0,UINT
,0,NULL
,0);
3450 VARXOR(NULL
,0,UINT
,1,NULL
,0);
3451 VARXOR(NULL
,0,BOOL
,0,NULL
,0);
3452 VARXOR(NULL
,0,BOOL
,1,NULL
,0);
3453 VARXOR(NULL
,0,R4
,0,NULL
,0);
3454 VARXOR(NULL
,0,R4
,1,NULL
,0);
3455 VARXOR(NULL
,0,R8
,0,NULL
,0);
3456 VARXOR(NULL
,0,R8
,1,NULL
,0);
3457 rbstr
= SysAllocString(szFalse
);
3458 VARXOR(NULL
,0,BSTR
,rbstr
,NULL
,0);
3459 SysFreeString(rbstr
);
3460 rbstr
= SysAllocString(szTrue
);
3461 VARXOR(NULL
,0,BSTR
,rbstr
,NULL
,0);
3462 SysFreeString(rbstr
);
3463 VARXORCY(NULL
,0,10000,NULL
,0);
3464 VARXORCY(NULL
,0,0,NULL
,0);
3466 VARXOR(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_FALSE
);
3467 VARXOR(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_TRUE
);
3468 VARXOR(BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
);
3469 VARXOR(BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_FALSE
);
3470 /* Assume x,y & y,x are the same from now on to reduce the number of tests */
3471 VARXOR(BOOL
,VARIANT_TRUE
,I1
,-1,I4
,0);
3472 VARXOR(BOOL
,VARIANT_TRUE
,I1
,0,I4
,-1);
3473 VARXOR(BOOL
,VARIANT_FALSE
,I1
,0,I4
,0);
3474 VARXOR(BOOL
,VARIANT_TRUE
,UI1
,255,I2
,-256);
3475 VARXOR(BOOL
,VARIANT_TRUE
,UI1
,0,I2
,-1);
3476 VARXOR(BOOL
,VARIANT_FALSE
,UI1
,0,I2
,0);
3477 VARXOR(BOOL
,VARIANT_TRUE
,I2
,-1,I2
,0);
3478 VARXOR(BOOL
,VARIANT_TRUE
,I2
,0,I2
,-1);
3479 VARXOR(BOOL
,VARIANT_FALSE
,I2
,0,I2
,0);
3480 VARXOR(BOOL
,VARIANT_TRUE
,UI2
,65535,I4
,-65536);
3481 VARXOR(BOOL
,VARIANT_TRUE
,UI2
,0,I4
,-1);
3482 VARXOR(BOOL
,VARIANT_FALSE
,UI2
,0,I4
,0);
3483 VARXOR(BOOL
,VARIANT_TRUE
,I4
,-1,I4
,0);
3484 VARXOR(BOOL
,VARIANT_TRUE
,I4
,0,I4
,-1);
3485 VARXOR(BOOL
,VARIANT_FALSE
,I4
,0,I4
,0);
3486 VARXOR(BOOL
,VARIANT_TRUE
,UI4
,0xffffffff,I4
,0);
3487 VARXOR(BOOL
,VARIANT_TRUE
,UI4
,0,I4
,-1);
3488 VARXOR(BOOL
,VARIANT_FALSE
,UI4
,0,I4
,0);
3489 VARXOR(BOOL
,VARIANT_TRUE
,R4
,-1,I4
,0);
3490 VARXOR(BOOL
,VARIANT_TRUE
,R4
,0,I4
,-1);
3491 VARXOR(BOOL
,VARIANT_FALSE
,R4
,0,I4
,0);
3492 VARXOR(BOOL
,VARIANT_TRUE
,R8
,-1,I4
,0);
3493 VARXOR(BOOL
,VARIANT_TRUE
,R8
,0,I4
,-1);
3494 VARXOR(BOOL
,VARIANT_FALSE
,R8
,0,I4
,0);
3495 VARXOR(BOOL
,VARIANT_TRUE
,DATE
,-1,I4
,0);
3496 VARXOR(BOOL
,VARIANT_TRUE
,DATE
,0,I4
,-1);
3497 VARXOR(BOOL
,VARIANT_FALSE
,DATE
,0,I4
,0);
3498 if (HAVE_OLEAUT32_I8
)
3500 VARXOR(BOOL
,VARIANT_TRUE
,I8
,-1,I8
,0);
3501 VARXOR(BOOL
,VARIANT_TRUE
,I8
,0,I8
,-1);
3502 VARXOR(BOOL
,VARIANT_FALSE
,I8
,0,I8
,0);
3503 /* This returns DISP_E_OVERFLOW which indicates that a conversion
3504 * to I4 is performed.
3506 /* VARXOR(BOOL,VARIANT_TRUE,UI8,-1,I4,-1); */
3507 VARXOR(BOOL
,VARIANT_TRUE
,UI8
,0,I4
,-1);
3508 VARXOR(BOOL
,VARIANT_FALSE
,UI8
,0,I4
,0);
3510 VARXOR(BOOL
,VARIANT_TRUE
,INT
,-1,I4
,0);
3511 VARXOR(BOOL
,VARIANT_TRUE
,INT
,0,I4
,-1);
3512 VARXOR(BOOL
,VARIANT_FALSE
,INT
,0,I4
,0);
3513 VARXOR(BOOL
,VARIANT_TRUE
,UINT
,0xffffffff,I4
,0);
3514 VARXOR(BOOL
,VARIANT_TRUE
,UINT
,0,I4
,-1);
3515 VARXOR(BOOL
,VARIANT_FALSE
,UINT
,0,I4
,0);
3516 rbstr
= SysAllocString(szFalse
);
3517 VARXOR(BOOL
,VARIANT_FALSE
,BSTR
,rbstr
,BOOL
,VARIANT_FALSE
);
3518 VARXOR(BOOL
,VARIANT_TRUE
,BSTR
,rbstr
,BOOL
,VARIANT_TRUE
);
3519 SysFreeString(rbstr
);
3520 rbstr
= SysAllocString(szTrue
);
3521 VARXOR(BOOL
,VARIANT_FALSE
,BSTR
,rbstr
,BOOL
,VARIANT_TRUE
);
3522 VARXOR(BOOL
,VARIANT_TRUE
,BSTR
,rbstr
,BOOL
,VARIANT_FALSE
);
3523 SysFreeString(rbstr
);
3524 VARXORCY(BOOL
,VARIANT_TRUE
,10000,I4
,-2);
3525 VARXORCY(BOOL
,VARIANT_TRUE
,0,I4
,-1);
3526 VARXORCY(BOOL
,VARIANT_FALSE
,0,I4
,0);
3528 VARXOR(I1
,-1,I1
,-1,I4
,0);
3529 VARXOR(I1
,-1,I1
,0,I4
,-1);
3530 VARXOR(I1
,0,I1
,0,I4
,0);
3531 VARXOR(I1
,-1,UI1
,255,I4
,-256);
3532 VARXOR(I1
,-1,UI1
,0,I4
,-1);
3533 VARXOR(I1
,0,UI1
,0,I4
,0);
3534 VARXOR(I1
,-1,I2
,-1,I4
,0);
3535 VARXOR(I1
,-1,I2
,0,I4
,-1);
3536 VARXOR(I1
,0,I2
,0,I4
,0);
3537 VARXOR(I1
,-1,UI2
,65535,I4
,-65536);
3538 VARXOR(I1
,-1,UI2
,0,I4
,-1);
3539 VARXOR(I1
,0,UI2
,0,I4
,0);
3540 VARXOR(I1
,-1,I4
,-1,I4
,0);
3541 VARXOR(I1
,-1,I4
,0,I4
,-1);
3542 VARXOR(I1
,0,I4
,0,I4
,0);
3543 VARXOR(I1
,-1,UI4
,0xffffffff,I4
,0);
3544 VARXOR(I1
,-1,UI4
,0,I4
,-1);
3545 VARXOR(I1
,0,UI4
,0,I4
,0);
3546 VARXOR(I1
,-1,R4
,-1,I4
,0);
3547 VARXOR(I1
,-1,R4
,0,I4
,-1);
3548 VARXOR(I1
,0,R4
,0,I4
,0);
3549 VARXOR(I1
,-1,R8
,-1,I4
,0);
3550 VARXOR(I1
,-1,R8
,0,I4
,-1);
3551 VARXOR(I1
,0,R8
,0,I4
,0);
3552 VARXOR(I1
,-1,DATE
,-1,I4
,0);
3553 VARXOR(I1
,-1,DATE
,0,I4
,-1);
3554 VARXOR(I1
,0,DATE
,0,I4
,0);
3555 if (HAVE_OLEAUT32_I8
)
3557 VARXOR(I1
,-1,I8
,-1,I8
,0);
3558 VARXOR(I1
,-1,I8
,0,I8
,-1);
3559 VARXOR(I1
,0,I8
,0,I8
,0);
3560 VARXOR(I1
,-1,UI8
,0,I4
,-1);
3561 VARXOR(I1
,0,UI8
,0,I4
,0);
3563 VARXOR(I1
,-1,INT
,-1,I4
,0);
3564 VARXOR(I1
,-1,INT
,0,I4
,-1);
3565 VARXOR(I1
,0,INT
,0,I4
,0);
3566 VARXOR(I1
,-1,UINT
,0xffffffff,I4
,0);
3567 VARXOR(I1
,-1,UINT
,0,I4
,-1);
3568 VARXOR(I1
,0,UINT
,0,I4
,0);
3569 rbstr
= SysAllocString(szFalse
);
3570 VARXOR(I1
,0,BSTR
,rbstr
,I4
,0);
3571 VARXOR(I1
,-1,BSTR
,rbstr
,I4
,-1);
3572 SysFreeString(rbstr
);
3573 rbstr
= SysAllocString(szTrue
);
3574 VARXOR(I1
,0,BSTR
,rbstr
,I4
,-1);
3575 VARXOR(I1
,-1,BSTR
,rbstr
,I4
,0);
3576 SysFreeString(rbstr
);
3577 VARXORCY(I1
,-1,10000,I4
,-2);
3578 VARXORCY(I1
,-1,0,I4
,-1);
3579 VARXORCY(I1
,0,0,I4
,0);
3581 VARXOR(UI1
,255,UI1
,255,UI1
,0);
3582 VARXOR(UI1
,255,UI1
,0,UI1
,255);
3583 VARXOR(UI1
,0,UI1
,0,UI1
,0);
3584 VARXOR(UI1
,255,I2
,-1,I2
,-256);
3585 VARXOR(UI1
,255,I2
,0,I2
,255);
3586 VARXOR(UI1
,0,I2
,0,I2
,0);
3587 VARXOR(UI1
,255,UI2
,65535,I4
,65280);
3588 VARXOR(UI1
,255,UI2
,0,I4
,255);
3589 VARXOR(UI1
,0,UI2
,0,I4
,0);
3590 VARXOR(UI1
,255,I4
,-1,I4
,-256);
3591 VARXOR(UI1
,255,I4
,0,I4
,255);
3592 VARXOR(UI1
,0,I4
,0,I4
,0);
3593 VARXOR(UI1
,255,UI4
,0xffffffff,I4
,-256);
3594 VARXOR(UI1
,255,UI4
,0,I4
,255);
3595 VARXOR(UI1
,0,UI4
,0,I4
,0);
3596 VARXOR(UI1
,255,R4
,-1,I4
,-256);
3597 VARXOR(UI1
,255,R4
,0,I4
,255);
3598 VARXOR(UI1
,0,R4
,0,I4
,0);
3599 VARXOR(UI1
,255,R8
,-1,I4
,-256);
3600 VARXOR(UI1
,255,R8
,0,I4
,255);
3601 VARXOR(UI1
,0,R8
,0,I4
,0);
3602 VARXOR(UI1
,255,DATE
,-1,I4
,-256);
3603 VARXOR(UI1
,255,DATE
,0,I4
,255);
3604 VARXOR(UI1
,0,DATE
,0,I4
,0);
3605 if (HAVE_OLEAUT32_I8
)
3607 VARXOR(UI1
,255,I8
,-1,I8
,-256);
3608 VARXOR(UI1
,255,I8
,0,I8
,255);
3609 VARXOR(UI1
,0,I8
,0,I8
,0);
3610 VARXOR(UI1
,255,UI8
,0,I4
,255);
3611 VARXOR(UI1
,0,UI8
,0,I4
,0);
3613 VARXOR(UI1
,255,INT
,-1,I4
,-256);
3614 VARXOR(UI1
,255,INT
,0,I4
,255);
3615 VARXOR(UI1
,0,INT
,0,I4
,0);
3616 VARXOR(UI1
,255,UINT
,0xffffffff,I4
,-256);
3617 VARXOR(UI1
,255,UINT
,0,I4
,255);
3618 VARXOR(UI1
,0,UINT
,0,I4
,0);
3619 rbstr
= SysAllocString(szFalse
);
3620 VARXOR(UI1
,0,BSTR
,rbstr
,I2
,0);
3621 VARXOR(UI1
,255,BSTR
,rbstr
,I2
,255);
3622 SysFreeString(rbstr
);
3623 rbstr
= SysAllocString(szTrue
);
3624 VARXOR(UI1
,0,BSTR
,rbstr
,I2
,-1);
3625 VARXOR(UI1
,255,BSTR
,rbstr
,I2
,-256);
3626 SysFreeString(rbstr
);
3627 VARXORCY(UI1
,255,10000,I4
,254);
3628 VARXORCY(UI1
,255,0,I4
,255);
3629 VARXORCY(UI1
,0,0,I4
,0);
3631 VARXOR(I2
,-1,I2
,-1,I2
,0);
3632 VARXOR(I2
,-1,I2
,0,I2
,-1);
3633 VARXOR(I2
,0,I2
,0,I2
,0);
3634 VARXOR(I2
,-1,UI2
,65535,I4
,-65536);
3635 VARXOR(I2
,-1,UI2
,0,I4
,-1);
3636 VARXOR(I2
,0,UI2
,0,I4
,0);
3637 VARXOR(I2
,-1,I4
,-1,I4
,0);
3638 VARXOR(I2
,-1,I4
,0,I4
,-1);
3639 VARXOR(I2
,0,I4
,0,I4
,0);
3640 VARXOR(I2
,-1,UI4
,0xffffffff,I4
,0);
3641 VARXOR(I2
,-1,UI4
,0,I4
,-1);
3642 VARXOR(I2
,0,UI4
,0,I4
,0);
3643 VARXOR(I2
,-1,R4
,-1,I4
,0);
3644 VARXOR(I2
,-1,R4
,0,I4
,-1);
3645 VARXOR(I2
,0,R4
,0,I4
,0);
3646 VARXOR(I2
,-1,R8
,-1,I4
,0);
3647 VARXOR(I2
,-1,R8
,0,I4
,-1);
3648 VARXOR(I2
,0,R8
,0,I4
,0);
3649 VARXOR(I2
,-1,DATE
,-1,I4
,0);
3650 VARXOR(I2
,-1,DATE
,0,I4
,-1);
3651 VARXOR(I2
,0,DATE
,0,I4
,0);
3652 if (HAVE_OLEAUT32_I8
)
3654 VARXOR(I2
,-1,I8
,-1,I8
,0);
3655 VARXOR(I2
,-1,I8
,0,I8
,-1);
3656 VARXOR(I2
,0,I8
,0,I8
,0);
3657 VARXOR(I2
,-1,UI8
,0,I4
,-1);
3658 VARXOR(I2
,0,UI8
,0,I4
,0);
3660 VARXOR(I2
,-1,INT
,-1,I4
,0);
3661 VARXOR(I2
,-1,INT
,0,I4
,-1);
3662 VARXOR(I2
,0,INT
,0,I4
,0);
3663 VARXOR(I2
,-1,UINT
,0xffffffff,I4
,0);
3664 VARXOR(I2
,-1,UINT
,0,I4
,-1);
3665 VARXOR(I2
,0,UINT
,0,I4
,0);
3666 rbstr
= SysAllocString(szFalse
);
3667 VARXOR(I2
,0,BSTR
,rbstr
,I2
,0);
3668 VARXOR(I2
,-1,BSTR
,rbstr
,I2
,-1);
3669 SysFreeString(rbstr
);
3670 rbstr
= SysAllocString(szTrue
);
3671 VARXOR(I2
,0,BSTR
,rbstr
,I2
,-1);
3672 VARXOR(I2
,-1,BSTR
,rbstr
,I2
,0);
3673 SysFreeString(rbstr
);
3674 VARXORCY(I2
,-1,10000,I4
,-2);
3675 VARXORCY(I2
,-1,0,I4
,-1);
3676 VARXORCY(I2
,0,0,I4
,0);
3678 VARXOR(UI2
,65535,UI2
,65535,I4
,0);
3679 VARXOR(UI2
,65535,UI2
,0,I4
,65535);
3680 VARXOR(UI2
,0,UI2
,0,I4
,0);
3681 VARXOR(UI2
,65535,I4
,-1,I4
,-65536);
3682 VARXOR(UI2
,65535,I4
,0,I4
,65535);
3683 VARXOR(UI2
,0,I4
,0,I4
,0);
3684 VARXOR(UI2
,65535,UI4
,0xffffffff,I4
,-65536);
3685 VARXOR(UI2
,65535,UI4
,0,I4
,65535);
3686 VARXOR(UI2
,0,UI4
,0,I4
,0);
3687 VARXOR(UI2
,65535,R4
,-1,I4
,-65536);
3688 VARXOR(UI2
,65535,R4
,0,I4
,65535);
3689 VARXOR(UI2
,0,R4
,0,I4
,0);
3690 VARXOR(UI2
,65535,R8
,-1,I4
,-65536);
3691 VARXOR(UI2
,65535,R8
,0,I4
,65535);
3692 VARXOR(UI2
,0,R8
,0,I4
,0);
3693 VARXOR(UI2
,65535,DATE
,-1,I4
,-65536);
3694 VARXOR(UI2
,65535,DATE
,0,I4
,65535);
3695 VARXOR(UI2
,0,DATE
,0,I4
,0);
3696 if (HAVE_OLEAUT32_I8
)
3698 VARXOR(UI2
,65535,I8
,-1,I8
,-65536);
3699 VARXOR(UI2
,65535,I8
,0,I8
,65535);
3700 VARXOR(UI2
,0,I8
,0,I8
,0);
3701 VARXOR(UI2
,65535,UI8
,0,I4
,65535);
3702 VARXOR(UI2
,0,UI8
,0,I4
,0);
3704 VARXOR(UI2
,65535,INT
,-1,I4
,-65536);
3705 VARXOR(UI2
,65535,INT
,0,I4
,65535);
3706 VARXOR(UI2
,0,INT
,0,I4
,0);
3707 VARXOR(UI2
,65535,UINT
,0xffffffff,I4
,-65536);
3708 VARXOR(UI2
,65535,UINT
,0,I4
,65535);
3709 VARXOR(UI2
,0,UINT
,0,I4
,0);
3710 rbstr
= SysAllocString(szFalse
);
3711 VARXOR(UI2
,0,BSTR
,rbstr
,I4
,0);
3712 VARXOR(UI2
,65535,BSTR
,rbstr
,I4
,65535);
3713 SysFreeString(rbstr
);
3714 rbstr
= SysAllocString(szTrue
);
3715 VARXOR(UI2
,0,BSTR
,rbstr
,I4
,-1);
3716 VARXOR(UI2
,65535,BSTR
,rbstr
,I4
,-65536);
3717 SysFreeString(rbstr
);
3718 VARXORCY(UI2
,65535,10000,I4
,65534);
3719 VARXORCY(UI2
,65535,0,I4
,65535);
3720 VARXORCY(UI2
,0,0,I4
,0);
3722 VARXOR(I4
,-1,I4
,-1,I4
,0);
3723 VARXOR(I4
,-1,I4
,0,I4
,-1);
3724 VARXOR(I4
,0,I4
,0,I4
,0);
3725 VARXOR(I4
,-1,UI4
,0xffffffff,I4
,0);
3726 VARXOR(I4
,-1,UI4
,0,I4
,-1);
3727 VARXOR(I4
,0,UI4
,0,I4
,0);
3728 VARXOR(I4
,-1,R4
,-1,I4
,0);
3729 VARXOR(I4
,-1,R4
,0,I4
,-1);
3730 VARXOR(I4
,0,R4
,0,I4
,0);
3731 VARXOR(I4
,-1,R8
,-1,I4
,0);
3732 VARXOR(I4
,-1,R8
,0,I4
,-1);
3733 VARXOR(I4
,0,R8
,0,I4
,0);
3734 VARXOR(I4
,-1,DATE
,-1,I4
,0);
3735 VARXOR(I4
,-1,DATE
,0,I4
,-1);
3736 VARXOR(I4
,0,DATE
,0,I4
,0);
3737 if (HAVE_OLEAUT32_I8
)
3739 VARXOR(I4
,-1,I8
,-1,I8
,0);
3740 VARXOR(I4
,-1,I8
,0,I8
,-1);
3741 VARXOR(I4
,0,I8
,0,I8
,0);
3742 VARXOR(I4
,-1,UI8
,0,I4
,-1);
3743 VARXOR(I4
,0,UI8
,0,I4
,0);
3745 VARXOR(I4
,-1,INT
,-1,I4
,0);
3746 VARXOR(I4
,-1,INT
,0,I4
,-1);
3747 VARXOR(I4
,0,INT
,0,I4
,0);
3748 VARXOR(I4
,-1,UINT
,0xffffffff,I4
,0);
3749 VARXOR(I4
,-1,UINT
,0,I4
,-1);
3750 VARXOR(I4
,0,UINT
,0,I4
,0);
3751 rbstr
= SysAllocString(szFalse
);
3752 VARXOR(I4
,0,BSTR
,rbstr
,I4
,0);
3753 VARXOR(I4
,-1,BSTR
,rbstr
,I4
,-1);
3754 SysFreeString(rbstr
);
3755 rbstr
= SysAllocString(szTrue
);
3756 VARXOR(I4
,0,BSTR
,rbstr
,I4
,-1);
3757 VARXOR(I4
,-1,BSTR
,rbstr
,I4
,0);
3758 SysFreeString(rbstr
);
3759 VARXORCY(I4
,-1,10000,I4
,-2);
3760 VARXORCY(I4
,-1,0,I4
,-1);
3761 VARXORCY(I4
,0,0,I4
,0);
3763 VARXOR(UI4
,0xffffffff,UI4
,0xffffffff,I4
,0);
3764 VARXOR(UI4
,0xffffffff,UI4
,0,I4
,-1);
3765 VARXOR(UI4
,0,UI4
,0,I4
,0);
3766 VARXOR(UI4
,0xffffffff,R4
,-1,I4
,0);
3767 VARXOR(UI4
,0xffffffff,R4
,0,I4
,-1);
3768 VARXOR(UI4
,0,R4
,0,I4
,0);
3769 VARXOR(UI4
,0xffffffff,R8
,-1,I4
,0);
3770 VARXOR(UI4
,0xffffffff,R8
,0,I4
,-1);
3771 VARXOR(UI4
,0,R8
,0,I4
,0);
3772 VARXOR(UI4
,0xffffffff,DATE
,-1,I4
,0);
3773 VARXOR(UI4
,0xffffffff,DATE
,0,I4
,-1);
3774 VARXOR(UI4
,0,DATE
,0,I4
,0);
3775 if (HAVE_OLEAUT32_I8
)
3777 VARXOR(UI4
,0xffffffff,I8
,0,I8
,0xffffffff);
3778 VARXOR(UI4
,VARIANT_FALSE
,I8
,VARIANT_FALSE
,I8
,0);
3779 VARXOR(UI4
,0,I8
,0,I8
,0);
3780 VARXOR(UI4
,0xffffffff,UI8
,0,I4
,-1);
3781 VARXOR(UI4
,0,UI8
,0,I4
,0);
3783 VARXOR(UI4
,0xffffffff,INT
,-1,I4
,0);
3784 VARXOR(UI4
,0xffffffff,INT
,0,I4
,-1);
3785 VARXOR(UI4
,0,INT
,0,I4
,0);
3786 VARXOR(UI4
,0xffffffff,UINT
,0xffffffff,I4
,0);
3787 VARXOR(UI4
,0xffffffff,UINT
,0,I4
,-1);
3788 VARXOR(UI4
,0,UINT
,0,I4
,0);
3789 rbstr
= SysAllocString(szFalse
);
3790 VARXOR(UI4
,0,BSTR
,rbstr
,I4
,0);
3791 VARXOR(UI4
,0xffffffff,BSTR
,rbstr
,I4
,-1);
3792 SysFreeString(rbstr
);
3793 rbstr
= SysAllocString(szTrue
);
3794 VARXOR(UI4
,0,BSTR
,rbstr
,I4
,-1);
3795 VARXOR(UI4
,0xffffffff,BSTR
,rbstr
,I4
,0);
3796 SysFreeString(rbstr
);
3797 VARXORCY(UI4
,0xffffffff,10000,I4
,-2);
3798 VARXORCY(UI4
,0xffffffff,0,I4
,-1);
3799 VARXORCY(UI4
,0,0,I4
,0);
3801 VARXOR(R4
,-1,R4
,-1,I4
,0);
3802 VARXOR(R4
,-1,R4
,0,I4
,-1);
3803 VARXOR(R4
,0,R4
,0,I4
,0);
3804 VARXOR(R4
,-1,R8
,-1,I4
,0);
3805 VARXOR(R4
,-1,R8
,0,I4
,-1);
3806 VARXOR(R4
,0,R8
,0,I4
,0);
3807 VARXOR(R4
,-1,DATE
,-1,I4
,0);
3808 VARXOR(R4
,-1,DATE
,0,I4
,-1);
3809 VARXOR(R4
,0,DATE
,0,I4
,0);
3810 if (HAVE_OLEAUT32_I8
)
3812 VARXOR(R4
,-1,I8
,-1,I8
,0);
3813 VARXOR(R4
,-1,I8
,0,I8
,-1);
3814 VARXOR(R4
,0,I8
,0,I8
,0);
3815 VARXOR(R4
,-1,UI8
,0,I4
,-1);
3816 VARXOR(R4
,0,UI8
,0,I4
,0);
3818 VARXOR(R4
,-1,INT
,-1,I4
,0);
3819 VARXOR(R4
,-1,INT
,0,I4
,-1);
3820 VARXOR(R4
,0,INT
,0,I4
,0);
3821 VARXOR(R4
,-1,UINT
,0xffffffff,I4
,0);
3822 VARXOR(R4
,-1,UINT
,0,I4
,-1);
3823 VARXOR(R4
,0,UINT
,0,I4
,0);
3824 rbstr
= SysAllocString(szFalse
);
3825 VARXOR(R4
,0,BSTR
,rbstr
,I4
,0);
3826 VARXOR(R4
,-1,BSTR
,rbstr
,I4
,-1);
3827 SysFreeString(rbstr
);
3828 rbstr
= SysAllocString(szTrue
);
3829 VARXOR(R4
,0,BSTR
,rbstr
,I4
,-1);
3830 VARXOR(R4
,-1,BSTR
,rbstr
,I4
,0);
3831 SysFreeString(rbstr
);
3832 VARXORCY(R4
,-1,10000,I4
,-2);
3833 VARXORCY(R4
,-1,0,I4
,-1);
3834 VARXORCY(R4
,0,0,I4
,0);
3836 VARXOR(R8
,-1,R8
,-1,I4
,0);
3837 VARXOR(R8
,-1,R8
,0,I4
,-1);
3838 VARXOR(R8
,0,R8
,0,I4
,0);
3839 VARXOR(R8
,-1,DATE
,-1,I4
,0);
3840 VARXOR(R8
,-1,DATE
,0,I4
,-1);
3841 VARXOR(R8
,0,DATE
,0,I4
,0);
3842 if (HAVE_OLEAUT32_I8
)
3844 VARXOR(R8
,-1,I8
,-1,I8
,0);
3845 VARXOR(R8
,-1,I8
,0,I8
,-1);
3846 VARXOR(R8
,0,I8
,0,I8
,0);
3847 VARXOR(R8
,-1,UI8
,0,I4
,-1);
3848 VARXOR(R8
,0,UI8
,0,I4
,0);
3850 VARXOR(R8
,-1,INT
,-1,I4
,0);
3851 VARXOR(R8
,-1,INT
,0,I4
,-1);
3852 VARXOR(R8
,0,INT
,0,I4
,0);
3853 VARXOR(R8
,-1,UINT
,0xffffffff,I4
,0);
3854 VARXOR(R8
,-1,UINT
,0,I4
,-1);
3855 VARXOR(R8
,0,UINT
,0,I4
,0);
3856 rbstr
= SysAllocString(szFalse
);
3857 VARXOR(R8
,0,BSTR
,rbstr
,I4
,0);
3858 VARXOR(R8
,-1,BSTR
,rbstr
,I4
,-1);
3859 SysFreeString(rbstr
);
3860 rbstr
= SysAllocString(szTrue
);
3861 VARXOR(R8
,0,BSTR
,rbstr
,I4
,-1);
3862 VARXOR(R8
,-1,BSTR
,rbstr
,I4
,0);
3863 SysFreeString(rbstr
);
3864 VARXORCY(R8
,-1,10000,I4
,-2);
3865 VARXORCY(R8
,-1,0,I4
,-1);
3866 VARXORCY(R8
,0,0,I4
,0);
3868 VARXOR(DATE
,-1,DATE
,-1,I4
,0);
3869 VARXOR(DATE
,-1,DATE
,0,I4
,-1);
3870 VARXOR(DATE
,0,DATE
,0,I4
,0);
3871 if (HAVE_OLEAUT32_I8
)
3873 VARXOR(DATE
,-1,I8
,-1,I8
,0);
3874 VARXOR(DATE
,-1,I8
,0,I8
,-1);
3875 VARXOR(DATE
,0,I8
,0,I8
,0);
3876 VARXOR(DATE
,-1,UI8
,0,I4
,-1);
3877 VARXOR(DATE
,0,UI8
,0,I4
,0);
3879 VARXOR(DATE
,-1,INT
,-1,I4
,0);
3880 VARXOR(DATE
,-1,INT
,0,I4
,-1);
3881 VARXOR(DATE
,0,INT
,0,I4
,0);
3882 VARXOR(DATE
,-1,UINT
,0xffffffff,I4
,0);
3883 VARXOR(DATE
,-1,UINT
,0,I4
,-1);
3884 VARXOR(DATE
,0,UINT
,0,I4
,0);
3885 rbstr
= SysAllocString(szFalse
);
3886 VARXOR(DATE
,0,BSTR
,rbstr
,I4
,0);
3887 VARXOR(DATE
,-1,BSTR
,rbstr
,I4
,-1);
3888 SysFreeString(rbstr
);
3889 rbstr
= SysAllocString(szTrue
);
3890 VARXOR(DATE
,0,BSTR
,rbstr
,I4
,-1);
3891 VARXOR(DATE
,-1,BSTR
,rbstr
,I4
,0);
3892 SysFreeString(rbstr
);
3893 VARXORCY(DATE
,-1,10000,I4
,-2);
3894 VARXORCY(DATE
,-1,0,I4
,-1);
3895 VARXORCY(DATE
,0,0,I4
,0);
3897 if (HAVE_OLEAUT32_I8
)
3899 VARXOR(I8
,-1,I8
,-1,I8
,0);
3900 VARXOR(I8
,-1,I8
,0,I8
,-1);
3901 VARXOR(I8
,0,I8
,0,I8
,0);
3902 VARXOR(I8
,-1,UI8
,0,I8
,-1);
3903 VARXOR(I8
,0,UI8
,0,I8
,0);
3904 VARXOR(I8
,-1,UINT
,0,I8
,-1);
3905 VARXOR(I8
,0,UINT
,0,I8
,0);
3906 rbstr
= SysAllocString(szFalse
);
3907 VARXOR(I8
,0,BSTR
,rbstr
,I8
,0);
3908 VARXOR(I8
,-1,BSTR
,rbstr
,I8
,-1);
3909 SysFreeString(rbstr
);
3910 rbstr
= SysAllocString(szTrue
);
3911 VARXOR(I8
,0,BSTR
,rbstr
,I8
,-1);
3912 VARXOR(I8
,-1,BSTR
,rbstr
,I8
,0);
3913 SysFreeString(rbstr
);
3914 VARXORCY(I8
,-1,10000,I8
,-2);
3915 VARXORCY(I8
,-1,0,I8
,-1);
3916 VARXORCY(I8
,0,0,I8
,0);
3918 VARXOR(UI8
,0xffff,UI8
,0xffff,I4
,0);
3919 VARXOR(UI8
,0xffff,UI8
,0,I4
,0xffff);
3920 VARXOR(UI8
,0,UI8
,0,I4
,0);
3921 VARXOR(UI8
,0xffff,INT
,-1,I4
,-65536);
3922 VARXOR(UI8
,0xffff,INT
,0,I4
,0xffff);
3923 VARXOR(UI8
,0,INT
,0,I4
,0);
3924 VARXOR(UI8
,0xffff,UINT
,0xffff,I4
,0);
3925 VARXOR(UI8
,0xffff,UINT
,0,I4
,0xffff);
3926 VARXOR(UI8
,0,UINT
,0,I4
,0);
3927 rbstr
= SysAllocString(szFalse
);
3928 VARXOR(UI8
,0,BSTR
,rbstr
,I4
,0);
3929 VARXOR(UI8
,0xffff,BSTR
,rbstr
,I4
,0xffff);
3930 SysFreeString(rbstr
);
3931 rbstr
= SysAllocString(szTrue
);
3932 VARXOR(UI8
,0,BSTR
,rbstr
,I4
,-1);
3933 VARXOR(UI8
,0xffff,BSTR
,rbstr
,I4
,-65536);
3934 SysFreeString(rbstr
);
3935 VARXORCY(UI8
,0xffff,10000,I4
,65534);
3936 VARXORCY(UI8
,0xffff,0,I4
,0xffff);
3937 VARXORCY(UI8
,0,0,I4
,0);
3940 VARXOR(INT
,-1,INT
,-1,I4
,0);
3941 VARXOR(INT
,-1,INT
,0,I4
,-1);
3942 VARXOR(INT
,0,INT
,0,I4
,0);
3943 VARXOR(INT
,-1,UINT
,0xffff,I4
,-65536);
3944 VARXOR(INT
,-1,UINT
,0,I4
,-1);
3945 VARXOR(INT
,0,UINT
,0,I4
,0);
3946 rbstr
= SysAllocString(szFalse
);
3947 VARXOR(INT
,0,BSTR
,rbstr
,I4
,0);
3948 VARXOR(INT
,-1,BSTR
,rbstr
,I4
,-1);
3949 SysFreeString(rbstr
);
3950 rbstr
= SysAllocString(szTrue
);
3951 VARXOR(INT
,0,BSTR
,rbstr
,I4
,-1);
3952 VARXOR(INT
,-1,BSTR
,rbstr
,I4
,0);
3953 SysFreeString(rbstr
);
3954 VARXORCY(INT
,-1,10000,I4
,-2);
3955 VARXORCY(INT
,-1,0,I4
,-1);
3956 VARXORCY(INT
,0,0,I4
,0);
3958 VARXOR(UINT
,0xffff,UINT
,0xffff,I4
,0);
3959 VARXOR(UINT
,0xffff,UINT
,0,I4
,0xffff);
3960 VARXOR(UINT
,0,UINT
,0,I4
,0);
3961 rbstr
= SysAllocString(szFalse
);
3962 VARXOR(UINT
,0,BSTR
,rbstr
,I4
,0);
3963 VARXOR(UINT
,0xffff,BSTR
,rbstr
,I4
,0xffff);
3964 SysFreeString(rbstr
);
3965 rbstr
= SysAllocString(szTrue
);
3966 VARXOR(UINT
,0,BSTR
,rbstr
,I4
,-1);
3967 VARXOR(UINT
,0xffff,BSTR
,rbstr
,I4
,-65536);
3968 SysFreeString(rbstr
);
3969 VARXORCY(UINT
,0xffff,10000,I4
,65534);
3970 VARXORCY(UINT
,0xffff,0,I4
,0xffff);
3971 VARXORCY(UINT
,0,0,I4
,0);
3973 lbstr
= SysAllocString(szFalse
);
3974 rbstr
= SysAllocString(szFalse
);
3975 VARXOR(BSTR
,lbstr
,BSTR
,rbstr
,BOOL
,0);
3976 SysFreeString(rbstr
);
3977 rbstr
= SysAllocString(szTrue
);
3978 VARXOR(BSTR
,lbstr
,BSTR
,rbstr
,BOOL
,VARIANT_TRUE
);
3979 SysFreeString(lbstr
);
3980 lbstr
= SysAllocString(szTrue
);
3981 VARXOR(BSTR
,lbstr
,BSTR
,rbstr
,BOOL
,VARIANT_FALSE
);
3982 VARXORCY(BSTR
,lbstr
,10000,I4
,-2);
3983 SysFreeString(lbstr
);
3984 lbstr
= SysAllocString(szFalse
);
3985 VARXORCY(BSTR
,lbstr
,10000,I4
,1);
3986 SysFreeString(lbstr
);
3987 SysFreeString(rbstr
);
3990 static HRESULT (WINAPI
*pVarOr
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
3992 #define VAROR(vt1,val1,vt2,val2,rvt,rval) \
3993 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
3994 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
3995 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
3996 test_var_call2( __LINE__, pVarOr, &left, &right, &exp )
3998 #define VARORCY(vt1,val1,val2,rvt,rval) \
3999 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
4000 V_VT(&right) = VT_CY; V_CY(&right).int64 = val2; \
4001 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
4002 test_var_call2( __LINE__, pVarOr, &left, &right, &exp )
4004 static void test_VarOr(void)
4006 static const WCHAR szFalse
[] = { '#','F','A','L','S','E','#','\0' };
4007 static const WCHAR szTrue
[] = { '#','T','R','U','E','#','\0' };
4008 VARIANT left
, right
, exp
, result
;
4015 /* Test all possible flag/vt combinations & the resulting vt type */
4016 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
4018 VARTYPE leftvt
, rightvt
, resvt
;
4020 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
4025 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
4031 if (leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
||
4032 leftvt
== VT_DISPATCH
|| rightvt
== VT_DISPATCH
||
4033 leftvt
== VT_UNKNOWN
|| rightvt
== VT_UNKNOWN
)
4036 memset(&left
, 0, sizeof(left
));
4037 memset(&right
, 0, sizeof(right
));
4038 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
4039 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
4040 V_VT(&result
) = VT_EMPTY
;
4043 if (ExtraFlags
[i
] & VT_ARRAY
|| ExtraFlags
[i
] & VT_BYREF
||
4044 !IsValidVariantClearVT(leftvt
, ExtraFlags
[i
]) ||
4045 !IsValidVariantClearVT(rightvt
, ExtraFlags
[i
]) ||
4046 leftvt
== VT_CLSID
|| rightvt
== VT_CLSID
||
4047 leftvt
== VT_RECORD
|| rightvt
== VT_RECORD
||
4048 leftvt
== VT_VARIANT
|| rightvt
== VT_VARIANT
||
4049 leftvt
== VT_ERROR
|| rightvt
== VT_ERROR
)
4053 if (leftvt
== VT_EMPTY
|| rightvt
== VT_EMPTY
)
4055 if (leftvt
== rightvt
||
4056 leftvt
== VT_I2
|| rightvt
== VT_I2
||
4057 leftvt
== VT_UI1
|| rightvt
== VT_UI1
||
4058 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
)
4060 else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
4062 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
4065 else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
4069 else if (leftvt
== VT_UI1
|| rightvt
== VT_UI1
)
4071 if (leftvt
== rightvt
)
4073 else if (leftvt
== rightvt
||
4074 leftvt
== VT_I2
|| rightvt
== VT_I2
||
4075 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
)
4079 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
4082 else if (leftvt
== VT_I2
|| rightvt
== VT_I2
)
4084 if (leftvt
== rightvt
||
4085 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
)
4087 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
4090 else if (leftvt
== VT_BOOL
&& rightvt
== VT_BOOL
)
4094 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
4096 if (leftvt
== VT_INT
|| rightvt
== VT_INT
)
4101 hres
= pVarOr(&left
, &right
, &result
);
4103 ok(hres
== DISP_E_TYPEMISMATCH
|| hres
== DISP_E_BADVARTYPE
,
4104 "VarOr: %d|0x%X, %d|0x%X: Expected failure, got 0x%X vt %d\n",
4105 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], hres
,
4108 ok(hres
== S_OK
&& V_VT(&result
) == resvt
,
4109 "VarOr: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%X vt %d\n",
4110 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], resvt
, hres
,
4116 /* Test returned values. Since we know the returned type is correct
4117 * and that we handle all combinations of invalid types, just check
4118 * that good type combinations produce the desired value.
4119 * FIXME: Test VT_DECIMAL/VT_DISPATCH
4121 VAROR(EMPTY
,0,EMPTY
,0,I2
,0);
4122 VAROR(EMPTY
,1,EMPTY
,0,I2
,0);
4123 VAROR(EMPTY
,0,NULL
,0,NULL
,0);
4124 VAROR(EMPTY
,0,I1
,0,I4
,0);
4125 VAROR(EMPTY
,0,I1
,1,I4
,1);
4126 VAROR(EMPTY
,0,UI1
,0,I2
,0);
4127 VAROR(EMPTY
,0,UI1
,1,I2
,1);
4128 VAROR(EMPTY
,0,I2
,0,I2
,0);
4129 VAROR(EMPTY
,0,I2
,1,I2
,1);
4130 VAROR(EMPTY
,0,UI2
,0,I4
,0);
4131 VAROR(EMPTY
,0,UI2
,1,I4
,1);
4132 VAROR(EMPTY
,0,I4
,0,I4
,0);
4133 VAROR(EMPTY
,0,I4
,1,I4
,1);
4134 VAROR(EMPTY
,0,UI4
,0,I4
,0);
4135 VAROR(EMPTY
,0,UI4
,1,I4
,1);
4136 if (HAVE_OLEAUT32_I8
)
4138 VAROR(EMPTY
,0,I8
,0,I8
,0);
4139 VAROR(EMPTY
,0,I8
,1,I8
,1);
4140 VAROR(EMPTY
,0,UI8
,0,I4
,0);
4141 VAROR(EMPTY
,0,UI8
,1,I4
,1);
4143 VAROR(EMPTY
,0,INT
,0,I4
,0);
4144 VAROR(EMPTY
,0,INT
,1,I4
,1);
4145 VAROR(EMPTY
,0,UINT
,0,I4
,0);
4146 VAROR(EMPTY
,0,UINT
,1,I4
,1);
4147 VAROR(EMPTY
,0,BOOL
,0,I2
,0);
4148 VAROR(EMPTY
,0,BOOL
,1,I2
,1);
4149 VAROR(EMPTY
,0,R4
,0,I4
,0);
4150 VAROR(EMPTY
,0,R4
,1,I4
,1);
4151 VAROR(EMPTY
,0,R8
,0,I4
,0);
4152 VAROR(EMPTY
,0,R8
,1,I4
,1);
4153 rbstr
= SysAllocString(szFalse
);
4154 VAROR(EMPTY
,0,BSTR
,rbstr
,I2
,0);
4155 SysFreeString(rbstr
);
4156 rbstr
= SysAllocString(szTrue
);
4157 VAROR(EMPTY
,0,BSTR
,rbstr
,I2
,-1);
4158 SysFreeString(rbstr
);
4159 VARORCY(EMPTY
,0,10000,I4
,1);
4161 /* NULL OR 0 = NULL. NULL OR n = n */
4162 VAROR(NULL
,0,NULL
,0,NULL
,0);
4163 VAROR(NULL
,1,NULL
,0,NULL
,0);
4164 VAROR(NULL
,0,I1
,0,NULL
,0);
4165 VAROR(NULL
,0,I1
,1,I4
,1);
4166 VAROR(NULL
,0,UI1
,0,NULL
,0);
4167 VAROR(NULL
,0,UI1
,1,UI1
,1);
4168 VAROR(NULL
,0,I2
,0,NULL
,0);
4169 VAROR(NULL
,0,I2
,1,I2
,1);
4170 VAROR(NULL
,0,UI2
,0,NULL
,0);
4171 VAROR(NULL
,0,UI2
,1,I4
,1);
4172 VAROR(NULL
,0,I4
,0,NULL
,0);
4173 VAROR(NULL
,0,I4
,1,I4
,1);
4174 VAROR(NULL
,0,UI4
,0,NULL
,0);
4175 VAROR(NULL
,0,UI4
,1,I4
,1);
4176 if (HAVE_OLEAUT32_I8
)
4178 VAROR(NULL
,0,I8
,0,NULL
,0);
4179 VAROR(NULL
,0,I8
,1,I8
,1);
4180 VAROR(NULL
,0,UI8
,0,NULL
,0);
4181 VAROR(NULL
,0,UI8
,1,I4
,1);
4183 VAROR(NULL
,0,INT
,0,NULL
,0);
4184 VAROR(NULL
,0,INT
,1,I4
,1);
4185 VAROR(NULL
,0,UINT
,0,NULL
,0);
4186 VAROR(NULL
,0,UINT
,1,I4
,1);
4187 VAROR(NULL
,0,BOOL
,0,NULL
,0);
4188 VAROR(NULL
,0,BOOL
,1,BOOL
,1);
4189 VAROR(NULL
,0,R4
,0,NULL
,0);
4190 VAROR(NULL
,0,R4
,1,I4
,1);
4191 VAROR(NULL
,0,R8
,0,NULL
,0);
4192 VAROR(NULL
,0,R8
,1,I4
,1);
4193 rbstr
= SysAllocString(szFalse
);
4194 VAROR(NULL
,0,BSTR
,rbstr
,NULL
,0);
4195 SysFreeString(rbstr
);
4196 rbstr
= SysAllocString(szTrue
);
4197 VAROR(NULL
,0,BSTR
,rbstr
,BOOL
,VARIANT_TRUE
);
4198 SysFreeString(rbstr
);
4199 VARORCY(NULL
,0,10000,I4
,1);
4200 VARORCY(NULL
,0,0,NULL
,0);
4202 VAROR(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
);
4203 VAROR(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_TRUE
);
4204 VAROR(BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
);
4205 VAROR(BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_FALSE
);
4206 /* Assume x,y & y,x are the same from now on to reduce the number of tests */
4207 VAROR(BOOL
,VARIANT_TRUE
,I1
,-1,I4
,-1);
4208 VAROR(BOOL
,VARIANT_TRUE
,I1
,0,I4
,-1);
4209 VAROR(BOOL
,VARIANT_FALSE
,I1
,0,I4
,0);
4210 VAROR(BOOL
,VARIANT_TRUE
,UI1
,255,I2
,-1);
4211 VAROR(BOOL
,VARIANT_TRUE
,UI1
,0,I2
,-1);
4212 VAROR(BOOL
,VARIANT_FALSE
,UI1
,0,I2
,0);
4213 VAROR(BOOL
,VARIANT_TRUE
,I2
,-1,I2
,-1);
4214 VAROR(BOOL
,VARIANT_TRUE
,I2
,0,I2
,-1);
4215 VAROR(BOOL
,VARIANT_FALSE
,I2
,0,I2
,0);
4216 VAROR(BOOL
,VARIANT_TRUE
,UI2
,65535,I4
,-1);
4217 VAROR(BOOL
,VARIANT_TRUE
,UI2
,0,I4
,-1);
4218 VAROR(BOOL
,VARIANT_FALSE
,UI2
,0,I4
,0);
4219 VAROR(BOOL
,VARIANT_TRUE
,I4
,-1,I4
,-1);
4220 VAROR(BOOL
,VARIANT_TRUE
,I4
,0,I4
,-1);
4221 VAROR(BOOL
,VARIANT_FALSE
,I4
,0,I4
,0);
4222 VAROR(BOOL
,VARIANT_TRUE
,UI4
,0xffffffff,I4
,-1);
4223 VAROR(BOOL
,VARIANT_TRUE
,UI4
,0,I4
,-1);
4224 VAROR(BOOL
,VARIANT_FALSE
,UI4
,0,I4
,0);
4225 VAROR(BOOL
,VARIANT_TRUE
,R4
,-1,I4
,-1);
4226 VAROR(BOOL
,VARIANT_TRUE
,R4
,0,I4
,-1);
4227 VAROR(BOOL
,VARIANT_FALSE
,R4
,0,I4
,0);
4228 VAROR(BOOL
,VARIANT_TRUE
,R8
,-1,I4
,-1);
4229 VAROR(BOOL
,VARIANT_TRUE
,R8
,0,I4
,-1);
4230 VAROR(BOOL
,VARIANT_FALSE
,R8
,0,I4
,0);
4231 VAROR(BOOL
,VARIANT_TRUE
,DATE
,-1,I4
,-1);
4232 VAROR(BOOL
,VARIANT_TRUE
,DATE
,0,I4
,-1);
4233 VAROR(BOOL
,VARIANT_FALSE
,DATE
,0,I4
,0);
4234 if (HAVE_OLEAUT32_I8
)
4236 VAROR(BOOL
,VARIANT_TRUE
,I8
,-1,I8
,-1);
4237 VAROR(BOOL
,VARIANT_TRUE
,I8
,0,I8
,-1);
4238 VAROR(BOOL
,VARIANT_FALSE
,I8
,0,I8
,0);
4239 /* This returns DISP_E_OVERFLOW which indicates that a conversion
4240 * to I4 is performed.
4242 /* VAROR(BOOL,VARIANT_TRUE,UI8,-1,I4,-1); */
4243 VAROR(BOOL
,VARIANT_TRUE
,UI8
,0,I4
,-1);
4244 VAROR(BOOL
,VARIANT_FALSE
,UI8
,0,I4
,0);
4246 VAROR(BOOL
,VARIANT_TRUE
,INT
,-1,I4
,-1);
4247 VAROR(BOOL
,VARIANT_TRUE
,INT
,0,I4
,-1);
4248 VAROR(BOOL
,VARIANT_FALSE
,INT
,0,I4
,0);
4249 VAROR(BOOL
,VARIANT_TRUE
,UINT
,0xffffffff,I4
,-1);
4250 VAROR(BOOL
,VARIANT_TRUE
,UINT
,0,I4
,-1);
4251 VAROR(BOOL
,VARIANT_FALSE
,UINT
,0,I4
,0);
4252 rbstr
= SysAllocString(szFalse
);
4253 VAROR(BOOL
,VARIANT_FALSE
,BSTR
,rbstr
,BOOL
,VARIANT_FALSE
);
4254 VAROR(BOOL
,VARIANT_TRUE
,BSTR
,rbstr
,BOOL
,VARIANT_TRUE
);
4255 SysFreeString(rbstr
);
4256 rbstr
= SysAllocString(szTrue
);
4257 VAROR(BOOL
,VARIANT_FALSE
,BSTR
,rbstr
,BOOL
,VARIANT_TRUE
);
4258 VAROR(BOOL
,VARIANT_TRUE
,BSTR
,rbstr
,BOOL
,VARIANT_TRUE
);
4259 SysFreeString(rbstr
);
4260 VARORCY(BOOL
,VARIANT_TRUE
,10000,I4
,-1);
4261 VARORCY(BOOL
,VARIANT_TRUE
,0,I4
,-1);
4262 VARORCY(BOOL
,VARIANT_FALSE
,0,I4
,0);
4264 VAROR(I1
,-1,I1
,-1,I4
,-1);
4265 VAROR(I1
,-1,I1
,0,I4
,-1);
4266 VAROR(I1
,0,I1
,0,I4
,0);
4267 VAROR(I1
,-1,UI1
,255,I4
,-1);
4268 VAROR(I1
,-1,UI1
,0,I4
,-1);
4269 VAROR(I1
,0,UI1
,0,I4
,0);
4270 VAROR(I1
,-1,I2
,-1,I4
,-1);
4271 VAROR(I1
,-1,I2
,0,I4
,-1);
4272 VAROR(I1
,0,I2
,0,I4
,0);
4273 VAROR(I1
,-1,UI2
,65535,I4
,-1);
4274 VAROR(I1
,-1,UI2
,0,I4
,-1);
4275 VAROR(I1
,0,UI2
,0,I4
,0);
4276 VAROR(I1
,-1,I4
,-1,I4
,-1);
4277 VAROR(I1
,-1,I4
,0,I4
,-1);
4278 VAROR(I1
,0,I4
,0,I4
,0);
4279 VAROR(I1
,-1,UI4
,0xffffffff,I4
,-1);
4280 VAROR(I1
,-1,UI4
,0,I4
,-1);
4281 VAROR(I1
,0,UI4
,0,I4
,0);
4282 VAROR(I1
,-1,R4
,-1,I4
,-1);
4283 VAROR(I1
,-1,R4
,0,I4
,-1);
4284 VAROR(I1
,0,R4
,0,I4
,0);
4285 VAROR(I1
,-1,R8
,-1,I4
,-1);
4286 VAROR(I1
,-1,R8
,0,I4
,-1);
4287 VAROR(I1
,0,R8
,0,I4
,0);
4288 VAROR(I1
,-1,DATE
,-1,I4
,-1);
4289 VAROR(I1
,-1,DATE
,0,I4
,-1);
4290 VAROR(I1
,0,DATE
,0,I4
,0);
4291 if (HAVE_OLEAUT32_I8
)
4293 VAROR(I1
,-1,I8
,-1,I8
,-1);
4294 VAROR(I1
,-1,I8
,0,I8
,-1);
4295 VAROR(I1
,0,I8
,0,I8
,0);
4296 VAROR(I1
,-1,UI8
,0,I4
,-1);
4297 VAROR(I1
,0,UI8
,0,I4
,0);
4299 VAROR(I1
,-1,INT
,-1,I4
,-1);
4300 VAROR(I1
,-1,INT
,0,I4
,-1);
4301 VAROR(I1
,0,INT
,0,I4
,0);
4302 VAROR(I1
,-1,UINT
,0xffffffff,I4
,-1);
4303 VAROR(I1
,-1,UINT
,0,I4
,-1);
4304 VAROR(I1
,0,UINT
,0,I4
,0);
4305 rbstr
= SysAllocString(szFalse
);
4306 VAROR(I1
,0,BSTR
,rbstr
,I4
,0);
4307 VAROR(I1
,-1,BSTR
,rbstr
,I4
,-1);
4308 SysFreeString(rbstr
);
4309 rbstr
= SysAllocString(szTrue
);
4310 VAROR(I1
,0,BSTR
,rbstr
,I4
,-1);
4311 VAROR(I1
,-1,BSTR
,rbstr
,I4
,-1);
4312 SysFreeString(rbstr
);
4313 VARORCY(I1
,-1,10000,I4
,-1);
4314 VARORCY(I1
,-1,0,I4
,-1);
4315 VARORCY(I1
,0,0,I4
,0);
4317 VAROR(UI1
,255,UI1
,255,UI1
,255);
4318 VAROR(UI1
,255,UI1
,0,UI1
,255);
4319 VAROR(UI1
,0,UI1
,0,UI1
,0);
4320 VAROR(UI1
,255,I2
,-1,I2
,-1);
4321 VAROR(UI1
,255,I2
,0,I2
,255);
4322 VAROR(UI1
,0,I2
,0,I2
,0);
4323 VAROR(UI1
,255,UI2
,65535,I4
,65535);
4324 VAROR(UI1
,255,UI2
,0,I4
,255);
4325 VAROR(UI1
,0,UI2
,0,I4
,0);
4326 VAROR(UI1
,255,I4
,-1,I4
,-1);
4327 VAROR(UI1
,255,I4
,0,I4
,255);
4328 VAROR(UI1
,0,I4
,0,I4
,0);
4329 VAROR(UI1
,255,UI4
,0xffffffff,I4
,-1);
4330 VAROR(UI1
,255,UI4
,0,I4
,255);
4331 VAROR(UI1
,0,UI4
,0,I4
,0);
4332 VAROR(UI1
,255,R4
,-1,I4
,-1);
4333 VAROR(UI1
,255,R4
,0,I4
,255);
4334 VAROR(UI1
,0,R4
,0,I4
,0);
4335 VAROR(UI1
,255,R8
,-1,I4
,-1);
4336 VAROR(UI1
,255,R8
,0,I4
,255);
4337 VAROR(UI1
,0,R8
,0,I4
,0);
4338 VAROR(UI1
,255,DATE
,-1,I4
,-1);
4339 VAROR(UI1
,255,DATE
,0,I4
,255);
4340 VAROR(UI1
,0,DATE
,0,I4
,0);
4341 if (HAVE_OLEAUT32_I8
)
4343 VAROR(UI1
,255,I8
,-1,I8
,-1);
4344 VAROR(UI1
,255,I8
,0,I8
,255);
4345 VAROR(UI1
,0,I8
,0,I8
,0);
4346 VAROR(UI1
,255,UI8
,0,I4
,255);
4347 VAROR(UI1
,0,UI8
,0,I4
,0);
4349 VAROR(UI1
,255,INT
,-1,I4
,-1);
4350 VAROR(UI1
,255,INT
,0,I4
,255);
4351 VAROR(UI1
,0,INT
,0,I4
,0);
4352 VAROR(UI1
,255,UINT
,0xffffffff,I4
,-1);
4353 VAROR(UI1
,255,UINT
,0,I4
,255);
4354 VAROR(UI1
,0,UINT
,0,I4
,0);
4355 rbstr
= SysAllocString(szFalse
);
4356 VAROR(UI1
,0,BSTR
,rbstr
,I2
,0);
4357 VAROR(UI1
,255,BSTR
,rbstr
,I2
,255);
4358 SysFreeString(rbstr
);
4359 rbstr
= SysAllocString(szTrue
);
4360 VAROR(UI1
,0,BSTR
,rbstr
,I2
,-1);
4361 VAROR(UI1
,255,BSTR
,rbstr
,I2
,-1);
4362 SysFreeString(rbstr
);
4363 VARORCY(UI1
,255,10000,I4
,255);
4364 VARORCY(UI1
,255,0,I4
,255);
4365 VARORCY(UI1
,0,0,I4
,0);
4367 VAROR(I2
,-1,I2
,-1,I2
,-1);
4368 VAROR(I2
,-1,I2
,0,I2
,-1);
4369 VAROR(I2
,0,I2
,0,I2
,0);
4370 VAROR(I2
,-1,UI2
,65535,I4
,-1);
4371 VAROR(I2
,-1,UI2
,0,I4
,-1);
4372 VAROR(I2
,0,UI2
,0,I4
,0);
4373 VAROR(I2
,-1,I4
,-1,I4
,-1);
4374 VAROR(I2
,-1,I4
,0,I4
,-1);
4375 VAROR(I2
,0,I4
,0,I4
,0);
4376 VAROR(I2
,-1,UI4
,0xffffffff,I4
,-1);
4377 VAROR(I2
,-1,UI4
,0,I4
,-1);
4378 VAROR(I2
,0,UI4
,0,I4
,0);
4379 VAROR(I2
,-1,R4
,-1,I4
,-1);
4380 VAROR(I2
,-1,R4
,0,I4
,-1);
4381 VAROR(I2
,0,R4
,0,I4
,0);
4382 VAROR(I2
,-1,R8
,-1,I4
,-1);
4383 VAROR(I2
,-1,R8
,0,I4
,-1);
4384 VAROR(I2
,0,R8
,0,I4
,0);
4385 VAROR(I2
,-1,DATE
,-1,I4
,-1);
4386 VAROR(I2
,-1,DATE
,0,I4
,-1);
4387 VAROR(I2
,0,DATE
,0,I4
,0);
4388 if (HAVE_OLEAUT32_I8
)
4390 VAROR(I2
,-1,I8
,-1,I8
,-1);
4391 VAROR(I2
,-1,I8
,0,I8
,-1);
4392 VAROR(I2
,0,I8
,0,I8
,0);
4393 VAROR(I2
,-1,UI8
,0,I4
,-1);
4394 VAROR(I2
,0,UI8
,0,I4
,0);
4396 VAROR(I2
,-1,INT
,-1,I4
,-1);
4397 VAROR(I2
,-1,INT
,0,I4
,-1);
4398 VAROR(I2
,0,INT
,0,I4
,0);
4399 VAROR(I2
,-1,UINT
,0xffffffff,I4
,-1);
4400 VAROR(I2
,-1,UINT
,0,I4
,-1);
4401 VAROR(I2
,0,UINT
,0,I4
,0);
4402 rbstr
= SysAllocString(szFalse
);
4403 VAROR(I2
,0,BSTR
,rbstr
,I2
,0);
4404 VAROR(I2
,-1,BSTR
,rbstr
,I2
,-1);
4405 SysFreeString(rbstr
);
4406 rbstr
= SysAllocString(szTrue
);
4407 VAROR(I2
,0,BSTR
,rbstr
,I2
,-1);
4408 VAROR(I2
,-1,BSTR
,rbstr
,I2
,-1);
4409 SysFreeString(rbstr
);
4410 VARORCY(I2
,-1,10000,I4
,-1);
4411 VARORCY(I2
,-1,0,I4
,-1);
4412 VARORCY(I2
,0,0,I4
,0);
4414 VAROR(UI2
,65535,UI2
,65535,I4
,65535);
4415 VAROR(UI2
,65535,UI2
,0,I4
,65535);
4416 VAROR(UI2
,0,UI2
,0,I4
,0);
4417 VAROR(UI2
,65535,I4
,-1,I4
,-1);
4418 VAROR(UI2
,65535,I4
,0,I4
,65535);
4419 VAROR(UI2
,0,I4
,0,I4
,0);
4420 VAROR(UI2
,65535,UI4
,0xffffffff,I4
,-1);
4421 VAROR(UI2
,65535,UI4
,0,I4
,65535);
4422 VAROR(UI2
,0,UI4
,0,I4
,0);
4423 VAROR(UI2
,65535,R4
,-1,I4
,-1);
4424 VAROR(UI2
,65535,R4
,0,I4
,65535);
4425 VAROR(UI2
,0,R4
,0,I4
,0);
4426 VAROR(UI2
,65535,R8
,-1,I4
,-1);
4427 VAROR(UI2
,65535,R8
,0,I4
,65535);
4428 VAROR(UI2
,0,R8
,0,I4
,0);
4429 VAROR(UI2
,65535,DATE
,-1,I4
,-1);
4430 VAROR(UI2
,65535,DATE
,0,I4
,65535);
4431 VAROR(UI2
,0,DATE
,0,I4
,0);
4432 if (HAVE_OLEAUT32_I8
)
4434 VAROR(UI2
,65535,I8
,-1,I8
,-1);
4435 VAROR(UI2
,65535,I8
,0,I8
,65535);
4436 VAROR(UI2
,0,I8
,0,I8
,0);
4437 VAROR(UI2
,65535,UI8
,0,I4
,65535);
4438 VAROR(UI2
,0,UI8
,0,I4
,0);
4440 VAROR(UI2
,65535,INT
,-1,I4
,-1);
4441 VAROR(UI2
,65535,INT
,0,I4
,65535);
4442 VAROR(UI2
,0,INT
,0,I4
,0);
4443 VAROR(UI2
,65535,UINT
,0xffffffff,I4
,-1);
4444 VAROR(UI2
,65535,UINT
,0,I4
,65535);
4445 VAROR(UI2
,0,UINT
,0,I4
,0);
4446 rbstr
= SysAllocString(szFalse
);
4447 VAROR(UI2
,0,BSTR
,rbstr
,I4
,0);
4448 VAROR(UI2
,65535,BSTR
,rbstr
,I4
,65535);
4449 SysFreeString(rbstr
);
4450 rbstr
= SysAllocString(szTrue
);
4451 VAROR(UI2
,0,BSTR
,rbstr
,I4
,-1);
4452 VAROR(UI2
,65535,BSTR
,rbstr
,I4
,-1);
4453 SysFreeString(rbstr
);
4454 VARORCY(UI2
,65535,10000,I4
,65535);
4455 VARORCY(UI2
,65535,0,I4
,65535);
4456 VARORCY(UI2
,0,0,I4
,0);
4458 VAROR(I4
,-1,I4
,-1,I4
,-1);
4459 VAROR(I4
,-1,I4
,0,I4
,-1);
4460 VAROR(I4
,0,I4
,0,I4
,0);
4461 VAROR(I4
,-1,UI4
,0xffffffff,I4
,-1);
4462 VAROR(I4
,-1,UI4
,0,I4
,-1);
4463 VAROR(I4
,0,UI4
,0,I4
,0);
4464 VAROR(I4
,-1,R4
,-1,I4
,-1);
4465 VAROR(I4
,-1,R4
,0,I4
,-1);
4466 VAROR(I4
,0,R4
,0,I4
,0);
4467 VAROR(I4
,-1,R8
,-1,I4
,-1);
4468 VAROR(I4
,-1,R8
,0,I4
,-1);
4469 VAROR(I4
,0,R8
,0,I4
,0);
4470 VAROR(I4
,-1,DATE
,-1,I4
,-1);
4471 VAROR(I4
,-1,DATE
,0,I4
,-1);
4472 VAROR(I4
,0,DATE
,0,I4
,0);
4473 if (HAVE_OLEAUT32_I8
)
4475 VAROR(I4
,-1,I8
,-1,I8
,-1);
4476 VAROR(I4
,-1,I8
,0,I8
,-1);
4477 VAROR(I4
,0,I8
,0,I8
,0);
4478 VAROR(I4
,-1,UI8
,0,I4
,-1);
4479 VAROR(I4
,0,UI8
,0,I4
,0);
4481 VAROR(I4
,-1,INT
,-1,I4
,-1);
4482 VAROR(I4
,-1,INT
,0,I4
,-1);
4483 VAROR(I4
,0,INT
,0,I4
,0);
4484 VAROR(I4
,-1,UINT
,0xffffffff,I4
,-1);
4485 VAROR(I4
,-1,UINT
,0,I4
,-1);
4486 VAROR(I4
,0,UINT
,0,I4
,0);
4487 rbstr
= SysAllocString(szFalse
);
4488 VAROR(I4
,0,BSTR
,rbstr
,I4
,0);
4489 VAROR(I4
,-1,BSTR
,rbstr
,I4
,-1);
4490 SysFreeString(rbstr
);
4491 rbstr
= SysAllocString(szTrue
);
4492 VAROR(I4
,0,BSTR
,rbstr
,I4
,-1);
4493 VAROR(I4
,-1,BSTR
,rbstr
,I4
,-1);
4494 SysFreeString(rbstr
);
4495 VARORCY(I4
,-1,10000,I4
,-1);
4496 VARORCY(I4
,-1,0,I4
,-1);
4497 VARORCY(I4
,0,0,I4
,0);
4499 VAROR(UI4
,0xffffffff,UI4
,0xffffffff,I4
,-1);
4500 VAROR(UI4
,0xffffffff,UI4
,0,I4
,-1);
4501 VAROR(UI4
,0,UI4
,0,I4
,0);
4502 VAROR(UI4
,0xffffffff,R4
,-1,I4
,-1);
4503 VAROR(UI4
,0xffffffff,R4
,0,I4
,-1);
4504 VAROR(UI4
,0,R4
,0,I4
,0);
4505 VAROR(UI4
,0xffffffff,R8
,-1,I4
,-1);
4506 VAROR(UI4
,0xffffffff,R8
,0,I4
,-1);
4507 VAROR(UI4
,0,R8
,0,I4
,0);
4508 VAROR(UI4
,0xffffffff,DATE
,-1,I4
,-1);
4509 VAROR(UI4
,0xffffffff,DATE
,0,I4
,-1);
4510 VAROR(UI4
,0,DATE
,0,I4
,0);
4511 if (HAVE_OLEAUT32_I8
)
4513 VAROR(UI4
,0xffffffff,I8
,-1,I8
,-1);
4514 VAROR(UI4
,0xffffffff,I8
,0,I8
,0xffffffff);
4515 VAROR(UI4
,0,I8
,0,I8
,0);
4516 VAROR(UI4
,0xffffffff,UI8
,0,I4
,-1);
4517 VAROR(UI4
,0,UI8
,0,I4
,0);
4519 VAROR(UI4
,0xffffffff,INT
,-1,I4
,-1);
4520 VAROR(UI4
,0xffffffff,INT
,0,I4
,-1);
4521 VAROR(UI4
,0,INT
,0,I4
,0);
4522 VAROR(UI4
,0xffffffff,UINT
,0xffffffff,I4
,-1);
4523 VAROR(UI4
,0xffffffff,UINT
,0,I4
,-1);
4524 VAROR(UI4
,0,UINT
,0,I4
,0);
4525 rbstr
= SysAllocString(szFalse
);
4526 VAROR(UI4
,0,BSTR
,rbstr
,I4
,0);
4527 VAROR(UI4
,0xffffffff,BSTR
,rbstr
,I4
,-1);
4528 SysFreeString(rbstr
);
4529 rbstr
= SysAllocString(szTrue
);
4530 VAROR(UI4
,0,BSTR
,rbstr
,I4
,-1);
4531 VAROR(UI4
,0xffffffff,BSTR
,rbstr
,I4
,-1);
4532 SysFreeString(rbstr
);
4533 VARORCY(UI4
,0xffffffff,10000,I4
,-1);
4534 VARORCY(UI4
,0xffffffff,0,I4
,-1);
4535 VARORCY(UI4
,0,0,I4
,0);
4537 VAROR(R4
,-1,R4
,-1,I4
,-1);
4538 VAROR(R4
,-1,R4
,0,I4
,-1);
4539 VAROR(R4
,0,R4
,0,I4
,0);
4540 VAROR(R4
,-1,R8
,-1,I4
,-1);
4541 VAROR(R4
,-1,R8
,0,I4
,-1);
4542 VAROR(R4
,0,R8
,0,I4
,0);
4543 VAROR(R4
,-1,DATE
,-1,I4
,-1);
4544 VAROR(R4
,-1,DATE
,0,I4
,-1);
4545 VAROR(R4
,0,DATE
,0,I4
,0);
4546 if (HAVE_OLEAUT32_I8
)
4548 VAROR(R4
,-1,I8
,-1,I8
,-1);
4549 VAROR(R4
,-1,I8
,0,I8
,-1);
4550 VAROR(R4
,0,I8
,0,I8
,0);
4551 VAROR(R4
,-1,UI8
,0,I4
,-1);
4552 VAROR(R4
,0,UI8
,0,I4
,0);
4554 VAROR(R4
,-1,INT
,-1,I4
,-1);
4555 VAROR(R4
,-1,INT
,0,I4
,-1);
4556 VAROR(R4
,0,INT
,0,I4
,0);
4557 VAROR(R4
,-1,UINT
,0xffffffff,I4
,-1);
4558 VAROR(R4
,-1,UINT
,0,I4
,-1);
4559 VAROR(R4
,0,UINT
,0,I4
,0);
4560 rbstr
= SysAllocString(szFalse
);
4561 VAROR(R4
,0,BSTR
,rbstr
,I4
,0);
4562 VAROR(R4
,-1,BSTR
,rbstr
,I4
,-1);
4563 SysFreeString(rbstr
);
4564 rbstr
= SysAllocString(szTrue
);
4565 VAROR(R4
,0,BSTR
,rbstr
,I4
,-1);
4566 VAROR(R4
,-1,BSTR
,rbstr
,I4
,-1);
4567 SysFreeString(rbstr
);
4568 VARORCY(R4
,-1,10000,I4
,-1);
4569 VARORCY(R4
,-1,0,I4
,-1);
4570 VARORCY(R4
,0,0,I4
,0);
4572 VAROR(R8
,-1,R8
,-1,I4
,-1);
4573 VAROR(R8
,-1,R8
,0,I4
,-1);
4574 VAROR(R8
,0,R8
,0,I4
,0);
4575 VAROR(R8
,-1,DATE
,-1,I4
,-1);
4576 VAROR(R8
,-1,DATE
,0,I4
,-1);
4577 VAROR(R8
,0,DATE
,0,I4
,0);
4578 if (HAVE_OLEAUT32_I8
)
4580 VAROR(R8
,-1,I8
,-1,I8
,-1);
4581 VAROR(R8
,-1,I8
,0,I8
,-1);
4582 VAROR(R8
,0,I8
,0,I8
,0);
4583 VAROR(R8
,-1,UI8
,0,I4
,-1);
4584 VAROR(R8
,0,UI8
,0,I4
,0);
4586 VAROR(R8
,-1,INT
,-1,I4
,-1);
4587 VAROR(R8
,-1,INT
,0,I4
,-1);
4588 VAROR(R8
,0,INT
,0,I4
,0);
4589 VAROR(R8
,-1,UINT
,0xffffffff,I4
,-1);
4590 VAROR(R8
,-1,UINT
,0,I4
,-1);
4591 VAROR(R8
,0,UINT
,0,I4
,0);
4592 rbstr
= SysAllocString(szFalse
);
4593 VAROR(R8
,0,BSTR
,rbstr
,I4
,0);
4594 VAROR(R8
,-1,BSTR
,rbstr
,I4
,-1);
4595 SysFreeString(rbstr
);
4596 rbstr
= SysAllocString(szTrue
);
4597 VAROR(R8
,0,BSTR
,rbstr
,I4
,-1);
4598 VAROR(R8
,-1,BSTR
,rbstr
,I4
,-1);
4599 SysFreeString(rbstr
);
4600 VARORCY(R8
,-1,10000,I4
,-1);
4601 VARORCY(R8
,-1,0,I4
,-1);
4602 VARORCY(R8
,0,0,I4
,0);
4604 VAROR(DATE
,-1,DATE
,-1,I4
,-1);
4605 VAROR(DATE
,-1,DATE
,0,I4
,-1);
4606 VAROR(DATE
,0,DATE
,0,I4
,0);
4607 if (HAVE_OLEAUT32_I8
)
4609 VAROR(DATE
,-1,I8
,-1,I8
,-1);
4610 VAROR(DATE
,-1,I8
,0,I8
,-1);
4611 VAROR(DATE
,0,I8
,0,I8
,0);
4612 VAROR(DATE
,-1,UI8
,0,I4
,-1);
4613 VAROR(DATE
,0,UI8
,0,I4
,0);
4615 VAROR(DATE
,-1,INT
,-1,I4
,-1);
4616 VAROR(DATE
,-1,INT
,0,I4
,-1);
4617 VAROR(DATE
,0,INT
,0,I4
,0);
4618 VAROR(DATE
,-1,UINT
,0xffffffff,I4
,-1);
4619 VAROR(DATE
,-1,UINT
,0,I4
,-1);
4620 VAROR(DATE
,0,UINT
,0,I4
,0);
4621 rbstr
= SysAllocString(szFalse
);
4622 VAROR(DATE
,0,BSTR
,rbstr
,I4
,0);
4623 VAROR(DATE
,-1,BSTR
,rbstr
,I4
,-1);
4624 SysFreeString(rbstr
);
4625 rbstr
= SysAllocString(szTrue
);
4626 VAROR(DATE
,0,BSTR
,rbstr
,I4
,-1);
4627 VAROR(DATE
,-1,BSTR
,rbstr
,I4
,-1);
4628 SysFreeString(rbstr
);
4629 VARORCY(DATE
,-1,10000,I4
,-1);
4630 VARORCY(DATE
,-1,0,I4
,-1);
4631 VARORCY(DATE
,0,0,I4
,0);
4633 if (HAVE_OLEAUT32_I8
)
4635 VAROR(I8
,-1,I8
,-1,I8
,-1);
4636 VAROR(I8
,-1,I8
,0,I8
,-1);
4637 VAROR(I8
,0,I8
,0,I8
,0);
4638 VAROR(I8
,-1,UI8
,0,I8
,-1);
4639 VAROR(I8
,0,UI8
,0,I8
,0);
4640 /* These overflow under native and Wine
4641 VAROR(I8,-1,INT,-1,I4,-1);
4642 VAROR(I8,-1,INT,0,I4,-1);
4643 VAROR(I8,0,INT,0,I4,0); */
4644 VAROR(I8
,-1,UINT
,0xffffffff,I8
,-1);
4645 VAROR(I8
,-1,UINT
,0,I8
,-1);
4646 VAROR(I8
,0,UINT
,0,I8
,0);
4647 rbstr
= SysAllocString(szFalse
);
4648 VAROR(I8
,0,BSTR
,rbstr
,I8
,0);
4649 VAROR(I8
,-1,BSTR
,rbstr
,I8
,-1);
4650 SysFreeString(rbstr
);
4651 rbstr
= SysAllocString(szTrue
);
4652 VAROR(I8
,0,BSTR
,rbstr
,I8
,-1);
4653 VAROR(I8
,-1,BSTR
,rbstr
,I8
,-1);
4654 SysFreeString(rbstr
);
4655 VARORCY(I8
,-1,10000,I8
,-1);
4656 VARORCY(I8
,-1,0,I8
,-1);
4657 VARORCY(I8
,0,0,I8
,0);
4659 VAROR(UI8
,0xffff,UI8
,0xffff,I4
,0xffff);
4660 VAROR(UI8
,0xffff,UI8
,0,I4
,0xffff);
4661 VAROR(UI8
,0,UI8
,0,I4
,0);
4662 VAROR(UI8
,0xffff,INT
,-1,I4
,-1);
4663 VAROR(UI8
,0xffff,INT
,0,I4
,0xffff);
4664 VAROR(UI8
,0,INT
,0,I4
,0);
4665 VAROR(UI8
,0xffff,UINT
,0xffff,I4
,0xffff);
4666 VAROR(UI8
,0xffff,UINT
,0,I4
,0xffff);
4667 VAROR(UI8
,0,UINT
,0,I4
,0);
4668 rbstr
= SysAllocString(szFalse
);
4669 VAROR(UI8
,0,BSTR
,rbstr
,I4
,0);
4670 VAROR(UI8
,0xffff,BSTR
,rbstr
,I4
,0xffff);
4671 SysFreeString(rbstr
);
4672 rbstr
= SysAllocString(szTrue
);
4673 VAROR(UI8
,0,BSTR
,rbstr
,I4
,-1);
4674 VAROR(UI8
,0xffff,BSTR
,rbstr
,I4
,-1);
4675 SysFreeString(rbstr
);
4676 VARORCY(UI8
,0xffff,10000,I4
,0xffff);
4677 VARORCY(UI8
,0xffff,0,I4
,0xffff);
4678 VARORCY(UI8
,0,0,I4
,0);
4681 VAROR(INT
,-1,INT
,-1,I4
,-1);
4682 VAROR(INT
,-1,INT
,0,I4
,-1);
4683 VAROR(INT
,0,INT
,0,I4
,0);
4684 VAROR(INT
,-1,UINT
,0xffff,I4
,-1);
4685 VAROR(INT
,-1,UINT
,0,I4
,-1);
4686 VAROR(INT
,0,UINT
,0,I4
,0);
4687 rbstr
= SysAllocString(szFalse
);
4688 VAROR(INT
,0,BSTR
,rbstr
,I4
,0);
4689 VAROR(INT
,-1,BSTR
,rbstr
,I4
,-1);
4690 SysFreeString(rbstr
);
4691 rbstr
= SysAllocString(szTrue
);
4692 VAROR(INT
,0,BSTR
,rbstr
,I4
,-1);
4693 VAROR(INT
,-1,BSTR
,rbstr
,I4
,-1);
4694 SysFreeString(rbstr
);
4695 VARORCY(INT
,-1,10000,I4
,-1);
4696 VARORCY(INT
,-1,0,I4
,-1);
4697 VARORCY(INT
,0,0,I4
,0);
4699 VAROR(UINT
,0xffff,UINT
,0xffff,I4
,0xffff);
4700 VAROR(UINT
,0xffff,UINT
,0,I4
,0xffff);
4701 VAROR(UINT
,0,UINT
,0,I4
,0);
4702 rbstr
= SysAllocString(szFalse
);
4703 VAROR(UINT
,0,BSTR
,rbstr
,I4
,0);
4704 VAROR(UINT
,0xffff,BSTR
,rbstr
,I4
,0xffff);
4705 SysFreeString(rbstr
);
4706 rbstr
= SysAllocString(szTrue
);
4707 VAROR(UINT
,0,BSTR
,rbstr
,I4
,-1);
4708 VAROR(UINT
,0xffff,BSTR
,rbstr
,I4
,-1);
4709 SysFreeString(rbstr
);
4710 VARORCY(UINT
,0xffff,10000,I4
,0xffff);
4711 VARORCY(UINT
,0xffff,0,I4
,0xffff);
4712 VARORCY(UINT
,0,0,I4
,0);
4714 lbstr
= SysAllocString(szFalse
);
4715 rbstr
= SysAllocString(szFalse
);
4716 VAROR(BSTR
,lbstr
,BSTR
,rbstr
,BOOL
,0);
4717 SysFreeString(rbstr
);
4718 rbstr
= SysAllocString(szTrue
);
4719 VAROR(BSTR
,lbstr
,BSTR
,rbstr
,BOOL
,VARIANT_TRUE
);
4720 SysFreeString(lbstr
);
4721 lbstr
= SysAllocString(szTrue
);
4722 VAROR(BSTR
,lbstr
,BSTR
,rbstr
,BOOL
,VARIANT_TRUE
);
4723 VARORCY(BSTR
,lbstr
,10000,I4
,-1);
4724 SysFreeString(lbstr
);
4725 lbstr
= SysAllocString(szFalse
);
4726 VARORCY(BSTR
,lbstr
,10000,I4
,1);
4727 SysFreeString(lbstr
);
4728 SysFreeString(rbstr
);
4731 static HRESULT (WINAPI
*pVarEqv
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
4733 #define VAREQV(vt1,val1,vt2,val2,rvt,rval) \
4734 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
4735 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
4736 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
4737 test_var_call2( __LINE__, pVarEqv, &left, &right, &exp )
4739 static void test_VarEqv(void)
4741 VARIANT left
, right
, exp
, result
;
4747 /* Test all possible flag/vt combinations & the resulting vt type */
4748 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
4750 VARTYPE leftvt
, rightvt
, resvt
;
4752 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
4756 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
4762 if (leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
||
4763 leftvt
== VT_DISPATCH
|| rightvt
== VT_DISPATCH
||
4764 leftvt
== VT_UNKNOWN
|| rightvt
== VT_UNKNOWN
)
4767 memset(&left
, 0, sizeof(left
));
4768 memset(&right
, 0, sizeof(right
));
4769 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
4770 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
4771 V_VT(&result
) = VT_EMPTY
;
4774 if (ExtraFlags
[i
] & VT_ARRAY
|| ExtraFlags
[i
] & VT_BYREF
||
4775 !IsValidVariantClearVT(leftvt
, ExtraFlags
[i
]) ||
4776 !IsValidVariantClearVT(rightvt
, ExtraFlags
[i
]) ||
4777 leftvt
== VT_CLSID
|| rightvt
== VT_CLSID
||
4778 leftvt
== VT_RECORD
|| rightvt
== VT_RECORD
||
4779 leftvt
== VT_VARIANT
|| rightvt
== VT_VARIANT
||
4780 leftvt
== VT_ERROR
|| rightvt
== VT_ERROR
)
4784 if (leftvt
== VT_EMPTY
|| rightvt
== VT_EMPTY
)
4786 if (leftvt
== rightvt
||
4787 leftvt
== VT_I2
|| rightvt
== VT_I2
||
4788 leftvt
== VT_UI1
|| rightvt
== VT_UI1
||
4789 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
)
4791 else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
4793 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
4796 else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
4800 else if (leftvt
== VT_UI1
|| rightvt
== VT_UI1
)
4802 if (leftvt
== rightvt
)
4804 else if (leftvt
== rightvt
||
4805 leftvt
== VT_I2
|| rightvt
== VT_I2
||
4806 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
)
4810 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
4813 else if (leftvt
== VT_I2
|| rightvt
== VT_I2
)
4815 if (leftvt
== rightvt
||
4816 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
)
4818 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
4821 else if (leftvt
== VT_BOOL
&& rightvt
== VT_BOOL
)
4825 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
4827 if (leftvt
== VT_INT
|| rightvt
== VT_INT
)
4832 hres
= pVarEqv(&left
, &right
, &result
);
4834 ok(hres
== DISP_E_TYPEMISMATCH
|| hres
== DISP_E_BADVARTYPE
,
4835 "VarEqv: %d|0x%X, %d|0x%X: Expected failure, got 0x%X vt %d\n",
4836 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], hres
,
4839 ok(hres
== S_OK
&& V_VT(&result
) == resvt
,
4840 "VarEqv: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%X vt %d\n",
4841 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], resvt
, hres
,
4847 /* Test returned values */
4848 VAREQV(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
);
4849 VAREQV(BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_FALSE
);
4850 VAREQV(BOOL
,TRUE
,BOOL
,TRUE
,BOOL
,VARIANT_TRUE
);
4851 VAREQV(BOOL
,FALSE
,BOOL
,FALSE
,BOOL
,VARIANT_TRUE
);
4852 VAREQV(BOOL
,TRUE
,BOOL
,FALSE
,BOOL
,-2);
4853 VAREQV(BOOL
,FALSE
,BOOL
,TRUE
,BOOL
,-2);
4854 VAREQV(BOOL
,6,BOOL
,7,BOOL
,-2);
4855 VAREQV(BOOL
,6,BOOL
,6,BOOL
,VARIANT_TRUE
);
4856 VAREQV(BOOL
,VARIANT_TRUE
,I2
,VARIANT_TRUE
,I2
,VARIANT_TRUE
);
4857 VAREQV(BOOL
,VARIANT_TRUE
,I2
,VARIANT_FALSE
,I2
,VARIANT_FALSE
);
4858 VAREQV(BOOL
,6,I2
,7,I2
,-2);
4859 VAREQV(UI1
,1,UI1
,1,UI1
,255);
4860 VAREQV(UI1
,1,UI1
,0,UI1
,254);
4861 VAREQV(UI1
,0,UI1
,1,UI1
,254);
4862 if (HAVE_OLEAUT32_I8
)
4864 VAREQV(UI4
,VARIANT_FALSE
,I8
,VARIANT_FALSE
,I8
,-1);
4865 VAREQV(UI4
,5,I8
,19,I8
,-23);
4866 VAREQV(UI4
,VARIANT_FALSE
,UI8
,VARIANT_FALSE
,I4
,-1);
4870 static HRESULT (WINAPI
*pVarMul
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
4872 #define VARMUL(vt1,val1,vt2,val2,rvt,rval) \
4873 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
4874 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
4875 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
4876 test_var_call2( __LINE__, pVarMul, &left, &right, &exp )
4878 static void test_VarMul(void)
4880 VARIANT left
, right
, exp
, result
, cy
, dec
;
4888 lbstr
= SysAllocString(sz12
);
4889 rbstr
= SysAllocString(sz12
);
4891 /* Test all possible flag/vt combinations & the resulting vt type */
4892 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
4894 VARTYPE leftvt
, rightvt
, resvt
;
4896 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
4901 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
4907 if (leftvt
== VT_DISPATCH
|| rightvt
== VT_DISPATCH
||
4908 leftvt
== VT_UNKNOWN
|| rightvt
== VT_UNKNOWN
)
4911 memset(&left
, 0, sizeof(left
));
4912 memset(&right
, 0, sizeof(right
));
4913 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
4914 if (leftvt
== VT_BSTR
)
4915 V_BSTR(&left
) = lbstr
;
4916 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
4917 if (rightvt
== VT_BSTR
)
4918 V_BSTR(&right
) = rbstr
;
4919 V_VT(&result
) = VT_EMPTY
;
4922 /* Don't ask me why but native VarMul cannot handle:
4923 VT_I1, VT_UI2, VT_UI4, VT_INT, VT_UINT and VT_UI8.
4924 Tested with DCOM98, Win2k, WinXP */
4925 if (ExtraFlags
[i
] & VT_ARRAY
|| ExtraFlags
[i
] & VT_BYREF
||
4926 !IsValidVariantClearVT(leftvt
, ExtraFlags
[i
]) ||
4927 !IsValidVariantClearVT(rightvt
, ExtraFlags
[i
]) ||
4928 leftvt
== VT_CLSID
|| rightvt
== VT_CLSID
||
4929 leftvt
== VT_RECORD
|| rightvt
== VT_RECORD
||
4930 leftvt
== VT_VARIANT
|| rightvt
== VT_VARIANT
||
4931 leftvt
== VT_ERROR
|| rightvt
== VT_ERROR
||
4932 leftvt
== VT_I1
|| rightvt
== VT_I1
||
4933 leftvt
== VT_UI2
|| rightvt
== VT_UI2
||
4934 leftvt
== VT_UI4
|| rightvt
== VT_UI4
||
4935 leftvt
== VT_UI8
|| rightvt
== VT_UI8
||
4936 leftvt
== VT_INT
|| rightvt
== VT_INT
||
4937 leftvt
== VT_UINT
|| rightvt
== VT_UINT
) {
4941 if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
4943 else if (leftvt
== VT_DECIMAL
|| rightvt
== VT_DECIMAL
)
4945 else if (leftvt
== VT_R8
|| rightvt
== VT_R8
||
4946 leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
||
4947 leftvt
== VT_DATE
|| rightvt
== VT_DATE
)
4949 else if (leftvt
== VT_R4
|| rightvt
== VT_R4
) {
4950 if (leftvt
== VT_I4
|| rightvt
== VT_I4
||
4951 leftvt
== VT_I8
|| rightvt
== VT_I8
||
4952 leftvt
== VT_CY
|| rightvt
== VT_CY
)
4956 } else if (leftvt
== VT_CY
|| rightvt
== VT_CY
)
4958 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
4960 else if (leftvt
== VT_I4
|| rightvt
== VT_I4
)
4962 else if (leftvt
== VT_I2
|| rightvt
== VT_I2
||
4963 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
||
4964 (leftvt
== VT_EMPTY
&& rightvt
== VT_EMPTY
))
4966 else if (leftvt
== VT_UI1
|| rightvt
== VT_UI1
)
4969 hres
= pVarMul(&left
, &right
, &result
);
4971 ok(hres
== DISP_E_TYPEMISMATCH
|| hres
== DISP_E_BADVARTYPE
,
4972 "VarMul: %d|0x%X, %d|0x%X: Expected failure, got 0x%X vt %d\n",
4973 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], hres
,
4976 ok(hres
== S_OK
&& V_VT(&result
) == resvt
,
4977 "VarMul: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%X vt %d\n",
4978 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], resvt
, hres
,
4985 /* Test returned values */
4986 VARMUL(I4
,4,I4
,2,I4
,8);
4987 VARMUL(I2
,4,I2
,2,I2
,8);
4988 VARMUL(I2
,-13,I4
,5,I4
,-65);
4989 VARMUL(I4
,-13,I4
,5,I4
,-65);
4990 VARMUL(I2
,7,R4
,0.5f
,R4
,3.5f
);
4991 VARMUL(R4
,0.5f
,I4
,5,R8
,2.5);
4992 VARMUL(R8
,7.1,BOOL
,0,R8
,0);
4993 VARMUL(BSTR
,lbstr
,I2
,4,R8
,48);
4994 VARMUL(BSTR
,lbstr
,BOOL
,1,R8
,12);
4995 VARMUL(BSTR
,lbstr
,R4
,0.1f
,R8
,1.2);
4996 VARMUL(BSTR
,lbstr
,BSTR
,rbstr
,R8
,144);
4997 VARMUL(R4
,0.2f
,BSTR
,rbstr
,R8
,2.4);
4998 VARMUL(DATE
,2.25,I4
,7,R8
,15.75);
5000 VARMUL(UI1
, UI1_MAX
, UI1
, UI1_MAX
, I4
, UI1_MAX
* UI1_MAX
);
5001 VARMUL(I2
, I2_MAX
, I2
, I2_MAX
, I4
, I2_MAX
* I2_MAX
);
5002 VARMUL(I2
, I2_MAX
, I2
, I2_MIN
, I4
, I2_MAX
* I2_MIN
);
5003 VARMUL(I2
, I2_MIN
, I2
, I2_MIN
, I4
, I2_MIN
* I2_MIN
);
5004 VARMUL(I4
, I4_MAX
, I4
, I4_MAX
, R8
, (double)I4_MAX
* I4_MAX
);
5005 VARMUL(I4
, I4_MAX
, I4
, I4_MIN
, R8
, (double)I4_MAX
* I4_MIN
);
5006 VARMUL(I4
, I4_MIN
, I4
, I4_MIN
, R8
, (double)I4_MIN
* I4_MIN
);
5007 VARMUL(R4
, R4_MAX
, R4
, R4_MAX
, R8
, (double)R4_MAX
* R4_MAX
);
5008 VARMUL(R4
, R4_MAX
, R4
, R4_MIN
, R4
, R4_MAX
* R4_MIN
);
5009 VARMUL(R4
, R4_MIN
, R4
, R4_MIN
, R4
, R4_MIN
* R4_MIN
);
5010 VARMUL(R8
, R8_MAX
, R8
, R8_MIN
, R8
, R8_MAX
* R8_MIN
);
5011 VARMUL(R8
, R8_MIN
, R8
, R8_MIN
, R8
, R8_MIN
* R8_MIN
);
5013 /* Manuly test some VT_CY and VT_DECIMAL variants */
5015 hres
= VarCyFromI4(4711, &V_CY(&cy
));
5016 ok(hres
== S_OK
, "VarCyFromI4 failed!\n");
5017 V_VT(&dec
) = VT_DECIMAL
;
5018 hres
= VarDecFromR8(-4.2, &V_DECIMAL(&dec
));
5019 ok(hres
== S_OK
, "VarDecFromR4 failed!\n");
5020 memset(&left
, 0, sizeof(left
));
5021 memset(&right
, 0, sizeof(right
));
5022 V_VT(&left
) = VT_I4
;
5024 V_VT(&right
) = VT_UI1
;
5027 hres
= VarMul(&cy
, &right
, &result
);
5028 ok(hres
== S_OK
&& V_VT(&result
) == VT_CY
, "VarMul: expected coerced type VT_CY, got %s!\n", vtstr(V_VT(&result
)));
5029 hres
= VarR8FromCy(V_CY(&result
), &r
);
5030 ok(hres
== S_OK
&& EQ_DOUBLE(r
, 42399), "VarMul: CY value %f, expected %f\n", r
, (double)42399);
5032 hres
= VarMul(&left
, &dec
, &result
);
5033 ok(hres
== S_OK
&& V_VT(&result
) == VT_DECIMAL
, "VarMul: expected coerced type VT_DECIMAL, got %s!\n", vtstr(V_VT(&result
)));
5034 hres
= VarR8FromDec(&V_DECIMAL(&result
), &r
);
5035 ok(hres
== S_OK
&& EQ_DOUBLE(r
, 46.2), "VarMul: DECIMAL value %f, expected %f\n", r
, (double)46.2);
5037 SysFreeString(lbstr
);
5038 SysFreeString(rbstr
);
5041 static HRESULT (WINAPI
*pVarAdd
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
5043 #define VARADD(vt1,val1,vt2,val2,rvt,rval) \
5044 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
5045 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
5046 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
5047 test_var_call2( __LINE__, pVarAdd, &left, &right, &exp )
5049 static void test_VarAdd(void)
5051 VARIANT left
, right
, exp
, result
, cy
, dec
;
5059 lbstr
= SysAllocString(sz12
);
5060 rbstr
= SysAllocString(sz12
);
5062 /* Test all possible flag/vt combinations & the resulting vt type */
5063 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
5065 VARTYPE leftvt
, rightvt
, resvt
;
5067 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
5072 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
5078 if (leftvt
== VT_UNKNOWN
|| rightvt
== VT_UNKNOWN
)
5081 memset(&left
, 0, sizeof(left
));
5082 memset(&right
, 0, sizeof(right
));
5083 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
5084 if (leftvt
== VT_BSTR
)
5085 V_BSTR(&left
) = lbstr
;
5086 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
5087 if (rightvt
== VT_BSTR
)
5088 V_BSTR(&right
) = rbstr
;
5089 V_VT(&result
) = VT_EMPTY
;
5092 /* Don't ask me why but native VarAdd cannot handle:
5093 VT_I1, VT_UI2, VT_UI4, VT_INT, VT_UINT and VT_UI8.
5094 Tested with DCOM98, Win2k, WinXP */
5095 if (ExtraFlags
[i
] & VT_ARRAY
|| ExtraFlags
[i
] & VT_BYREF
||
5096 !IsValidVariantClearVT(leftvt
, ExtraFlags
[i
]) ||
5097 !IsValidVariantClearVT(rightvt
, ExtraFlags
[i
]) ||
5098 leftvt
== VT_CLSID
|| rightvt
== VT_CLSID
||
5099 leftvt
== VT_RECORD
|| rightvt
== VT_RECORD
||
5100 leftvt
== VT_VARIANT
|| rightvt
== VT_VARIANT
||
5101 leftvt
== VT_ERROR
|| rightvt
== VT_ERROR
||
5102 leftvt
== VT_I1
|| rightvt
== VT_I1
||
5103 leftvt
== VT_UI2
|| rightvt
== VT_UI2
||
5104 leftvt
== VT_UI4
|| rightvt
== VT_UI4
||
5105 leftvt
== VT_UI8
|| rightvt
== VT_UI8
||
5106 leftvt
== VT_INT
|| rightvt
== VT_INT
||
5107 leftvt
== VT_UINT
|| rightvt
== VT_UINT
) {
5111 if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
5113 else if (leftvt
== VT_DISPATCH
|| rightvt
== VT_DISPATCH
)
5115 else if (leftvt
== VT_DECIMAL
|| rightvt
== VT_DECIMAL
)
5117 else if (leftvt
== VT_DATE
|| rightvt
== VT_DATE
)
5119 else if (leftvt
== VT_CY
|| rightvt
== VT_CY
)
5121 else if (leftvt
== VT_R8
|| rightvt
== VT_R8
)
5123 else if (leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
) {
5124 if ((leftvt
== VT_BSTR
&& rightvt
== VT_BSTR
) ||
5125 leftvt
== VT_EMPTY
|| rightvt
== VT_EMPTY
)
5129 } else if (leftvt
== VT_R4
|| rightvt
== VT_R4
) {
5130 if (leftvt
== VT_I4
|| rightvt
== VT_I4
||
5131 leftvt
== VT_I8
|| rightvt
== VT_I8
)
5136 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
5138 else if (leftvt
== VT_I4
|| rightvt
== VT_I4
)
5140 else if (leftvt
== VT_I2
|| rightvt
== VT_I2
||
5141 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
||
5142 (leftvt
== VT_EMPTY
&& rightvt
== VT_EMPTY
))
5144 else if (leftvt
== VT_UI1
|| rightvt
== VT_UI1
)
5147 hres
= pVarAdd(&left
, &right
, &result
);
5149 ok(hres
== DISP_E_TYPEMISMATCH
|| hres
== DISP_E_BADVARTYPE
,
5150 "VarAdd: %d|0x%X, %d|0x%X: Expected failure, got 0x%X vt %d\n",
5151 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], hres
,
5154 ok(hres
== S_OK
&& V_VT(&result
) == resvt
,
5155 "VarAdd: %d|0x%X, %d|0x%X: expected S_OK, vt %d, got 0x%X vt %d\n",
5156 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], resvt
, hres
,
5159 /* Note, we don't clear left/right deliberately here */
5160 VariantClear(&result
);
5165 /* Test returned values */
5166 VARADD(I4
,4,I4
,2,I4
,6);
5167 VARADD(I2
,4,I2
,2,I2
,6);
5168 VARADD(I2
,-13,I4
,5,I4
,-8);
5169 VARADD(I4
,-13,I4
,5,I4
,-8);
5170 VARADD(I2
,7,R4
,0.5f
,R4
,7.5f
);
5171 VARADD(R4
,0.5f
,I4
,5,R8
,5.5);
5172 VARADD(R8
,7.1,BOOL
,0,R8
,7.1);
5173 VARADD(BSTR
,lbstr
,I2
,4,R8
,16);
5174 VARADD(BSTR
,lbstr
,BOOL
,1,R8
,13);
5175 VARADD(BSTR
,lbstr
,R4
,0.1f
,R8
,12.1);
5176 VARADD(R4
,0.2f
,BSTR
,rbstr
,R8
,12.2);
5177 VARADD(DATE
,2.25,I4
,7,DATE
,9.25);
5178 VARADD(DATE
,1.25,R4
,-1.7f
,DATE
,-0.45);
5180 VARADD(UI1
, UI1_MAX
, UI1
, UI1_MAX
, I2
, UI1_MAX
+ UI1_MAX
);
5181 VARADD(I2
, I2_MAX
, I2
, I2_MAX
, I4
, I2_MAX
+ I2_MAX
);
5182 VARADD(I2
, I2_MAX
, I2
, I2_MIN
, I2
, I2_MAX
+ I2_MIN
);
5183 VARADD(I2
, I2_MIN
, I2
, I2_MIN
, I4
, I2_MIN
+ I2_MIN
);
5184 VARADD(I4
, I4_MAX
, I4
, I4_MIN
, I4
, I4_MAX
+ I4_MIN
);
5185 VARADD(I4
, I4_MAX
, I4
, I4_MAX
, R8
, (double)I4_MAX
+ I4_MAX
);
5186 VARADD(I4
, I4_MIN
, I4
, I4_MIN
, R8
, (double)I4_MIN
+ I4_MIN
);
5187 VARADD(R4
, R4_MAX
, R4
, R4_MAX
, R8
, (double)R4_MAX
+ R4_MAX
);
5188 VARADD(R4
, R4_MAX
, R4
, R4_MIN
, R4
, R4_MAX
+ R4_MIN
);
5189 VARADD(R4
, R4_MIN
, R4
, R4_MIN
, R4
, R4_MIN
+ R4_MIN
);
5190 VARADD(R8
, R8_MAX
, R8
, R8_MIN
, R8
, R8_MAX
+ R8_MIN
);
5191 VARADD(R8
, R8_MIN
, R8
, R8_MIN
, R8
, R8_MIN
+ R8_MIN
);
5193 /* Manually test BSTR + BSTR */
5194 V_VT(&left
) = VT_BSTR
;
5195 V_BSTR(&left
) = lbstr
;
5196 V_VT(&right
) = VT_BSTR
;
5197 V_BSTR(&right
) = rbstr
;
5198 hres
= VarAdd(&left
, &right
, &result
);
5199 ok(hres
== S_OK
&& V_VT(&result
) == VT_BSTR
, "VarAdd: expected coerced type VT_BSTR, got %s!\n", vtstr(V_VT(&result
)));
5200 hres
= VarR8FromStr(V_BSTR(&result
), 0, 0, &r
);
5201 ok(hres
== S_OK
&& EQ_DOUBLE(r
, 1212), "VarAdd: BSTR value %f, expected %f\n", r
, (double)1212);
5202 VariantClear(&result
);
5204 /* Manuly test some VT_CY and VT_DECIMAL variants */
5206 hres
= VarCyFromI4(4711, &V_CY(&cy
));
5207 ok(hres
== S_OK
, "VarCyFromI4 failed!\n");
5208 V_VT(&dec
) = VT_DECIMAL
;
5209 hres
= VarDecFromR8(-4.2, &V_DECIMAL(&dec
));
5210 ok(hres
== S_OK
, "VarDecFromR4 failed!\n");
5211 memset(&left
, 0, sizeof(left
));
5212 memset(&right
, 0, sizeof(right
));
5213 V_VT(&left
) = VT_I4
;
5215 V_VT(&right
) = VT_UI1
;
5218 hres
= VarAdd(&cy
, &right
, &result
);
5219 ok(hres
== S_OK
&& V_VT(&result
) == VT_CY
, "VarAdd: expected coerced type VT_CY, got %s!\n", vtstr(V_VT(&result
)));
5220 hres
= VarR8FromCy(V_CY(&result
), &r
);
5221 ok(hres
== S_OK
&& EQ_DOUBLE(r
, 4720), "VarAdd: CY value %f, expected %f\n", r
, (double)4720);
5223 hres
= VarAdd(&left
, &dec
, &result
);
5224 ok(hres
== S_OK
&& V_VT(&result
) == VT_DECIMAL
, "VarAdd: expected coerced type VT_DECIMAL, got %s!\n", vtstr(V_VT(&result
)));
5225 hres
= VarR8FromDec(&V_DECIMAL(&result
), &r
);
5226 ok(hres
== S_OK
&& EQ_DOUBLE(r
, -15.2), "VarAdd: DECIMAL value %f, expected %f\n", r
, (double)-15.2);
5227 VariantClear(&result
);
5229 SysFreeString(lbstr
);
5230 SysFreeString(rbstr
);
5233 static void test_VarCat(void)
5236 VARIANT left
, right
, result
, expected
;
5237 static const WCHAR sz34
[] = {'3','4','\0'};
5238 static const WCHAR sz1234
[] = {'1','2','3','4','\0'};
5239 static const WCHAR date_sz12
[] = {'9','/','3','0','/','1','9','8','0','1','2','\0'};
5240 static const WCHAR sz12_date
[] = {'1','2','9','/','3','0','/','1','9','8','0','\0'};
5241 static const WCHAR sz_empty
[] = {'\0'};
5242 TCHAR orig_date_format
[128];
5243 VARTYPE leftvt
, rightvt
, resultvt
;
5245 HRESULT expected_error_num
;
5247 /* Set date format for testing */
5248 lcid
= LOCALE_USER_DEFAULT
;
5249 GetLocaleInfo(lcid
,LOCALE_SSHORTDATE
,orig_date_format
,128);
5250 SetLocaleInfo(lcid
,LOCALE_SSHORTDATE
,"M/d/yyyy");
5253 VariantInit(&right
);
5254 VariantInit(&result
);
5255 VariantInit(&expected
);
5257 /* Check expected types for all combinations */
5258 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
5263 /* Check if we need/have support for I8 and/or UI8 */
5264 if ((leftvt
== VT_I8
|| leftvt
== VT_UI8
) && !HAVE_OLEAUT32_I8
)
5267 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
5271 expected_error_num
= S_OK
;
5272 resultvt
= VT_EMPTY
;
5274 if (leftvt
== VT_DISPATCH
|| rightvt
== VT_DISPATCH
||
5275 leftvt
== VT_UNKNOWN
|| rightvt
== VT_UNKNOWN
||
5276 leftvt
== VT_RECORD
|| rightvt
== VT_RECORD
||
5277 leftvt
== 15 || rightvt
== 15 /* Undefined type */)
5280 /* Check if we need/have support for I8 and/or UI8 */
5281 if ((rightvt
== VT_I8
|| rightvt
== VT_UI8
) && !HAVE_OLEAUT32_I8
)
5284 if (leftvt
== VT_NULL
&& rightvt
== VT_NULL
)
5286 else if (leftvt
== VT_VARIANT
&& (rightvt
== VT_ERROR
||
5287 rightvt
== VT_DATE
|| rightvt
== VT_DECIMAL
))
5288 expected_error_num
= DISP_E_TYPEMISMATCH
;
5289 else if ((leftvt
== VT_I2
|| leftvt
== VT_I4
||
5290 leftvt
== VT_R4
|| leftvt
== VT_R8
||
5291 leftvt
== VT_CY
|| leftvt
== VT_BOOL
||
5292 leftvt
== VT_BSTR
|| leftvt
== VT_I1
||
5293 leftvt
== VT_UI1
|| leftvt
== VT_UI2
||
5294 leftvt
== VT_UI4
|| leftvt
== VT_I8
||
5295 leftvt
== VT_UI8
|| leftvt
== VT_INT
||
5296 leftvt
== VT_UINT
|| leftvt
== VT_EMPTY
||
5297 leftvt
== VT_NULL
|| leftvt
== VT_DECIMAL
||
5300 (rightvt
== VT_I2
|| rightvt
== VT_I4
||
5301 rightvt
== VT_R4
|| rightvt
== VT_R8
||
5302 rightvt
== VT_CY
|| rightvt
== VT_BOOL
||
5303 rightvt
== VT_BSTR
|| rightvt
== VT_I1
||
5304 rightvt
== VT_UI1
|| rightvt
== VT_UI2
||
5305 rightvt
== VT_UI4
|| rightvt
== VT_I8
||
5306 rightvt
== VT_UI8
|| rightvt
== VT_INT
||
5307 rightvt
== VT_UINT
|| rightvt
== VT_EMPTY
||
5308 rightvt
== VT_NULL
|| rightvt
== VT_DECIMAL
||
5309 rightvt
== VT_DATE
))
5311 else if (rightvt
== VT_ERROR
&& leftvt
< VT_VOID
)
5312 expected_error_num
= DISP_E_TYPEMISMATCH
;
5313 else if (leftvt
== VT_ERROR
&& (rightvt
== VT_DATE
||
5314 rightvt
== VT_ERROR
|| rightvt
== VT_DECIMAL
))
5315 expected_error_num
= DISP_E_TYPEMISMATCH
;
5316 else if (rightvt
== VT_DATE
|| rightvt
== VT_ERROR
||
5317 rightvt
== VT_DECIMAL
)
5318 expected_error_num
= DISP_E_BADVARTYPE
;
5319 else if (leftvt
== VT_ERROR
|| rightvt
== VT_ERROR
)
5320 expected_error_num
= DISP_E_TYPEMISMATCH
;
5321 else if (leftvt
== VT_VARIANT
)
5322 expected_error_num
= DISP_E_TYPEMISMATCH
;
5323 else if (rightvt
== VT_VARIANT
&& (leftvt
== VT_EMPTY
||
5324 leftvt
== VT_NULL
|| leftvt
== VT_I2
||
5325 leftvt
== VT_I4
|| leftvt
== VT_R4
||
5326 leftvt
== VT_R8
|| leftvt
== VT_CY
||
5327 leftvt
== VT_DATE
|| leftvt
== VT_BSTR
||
5328 leftvt
== VT_BOOL
|| leftvt
== VT_DECIMAL
||
5329 leftvt
== VT_I1
|| leftvt
== VT_UI1
||
5330 leftvt
== VT_UI2
|| leftvt
== VT_UI4
||
5331 leftvt
== VT_I8
|| leftvt
== VT_UI8
||
5332 leftvt
== VT_INT
|| leftvt
== VT_UINT
5334 expected_error_num
= DISP_E_TYPEMISMATCH
;
5336 expected_error_num
= DISP_E_BADVARTYPE
;
5338 V_VT(&left
) = leftvt
;
5339 V_VT(&right
) = rightvt
;
5343 V_BSTR(&left
) = SysAllocString(sz_empty
); break;
5345 V_DATE(&left
) = 0.0; break;
5347 VarDecFromR8(0.0, &V_DECIMAL(&left
)); break;
5354 V_BSTR(&right
) = SysAllocString(sz_empty
); break;
5356 V_DATE(&right
) = 0.0; break;
5358 VarDecFromR8(0.0, &V_DECIMAL(&right
)); break;
5363 hres
= VarCat(&left
, &right
, &result
);
5365 /* Determine the error code for the vt combination */
5366 ok(hres
== expected_error_num
,
5367 "VarCat: %d, %d returned error, 0x%X expected 0x%X.\n",
5368 leftvt
, rightvt
, expected_error_num
, hres
);
5370 /* Check types are correct */
5371 ok(V_VT(&result
) == resultvt
,
5372 "VarCat: %d, %d: expected vt %d, got vt %d\n",
5373 leftvt
, rightvt
, resultvt
, V_VT(&result
));
5375 VariantClear(&left
);
5376 VariantClear(&right
);
5377 VariantClear(&result
);
5381 /* Running single comparison tests to compare outputs */
5383 /* Test concat strings */
5384 V_VT(&left
) = VT_BSTR
;
5385 V_VT(&right
) = VT_BSTR
;
5386 V_VT(&expected
) = VT_BSTR
;
5387 V_BSTR(&left
) = SysAllocString(sz12
);
5388 V_BSTR(&right
) = SysAllocString(sz34
);
5389 V_BSTR(&expected
) = SysAllocString(sz1234
);
5390 hres
= VarCat(&left
,&right
,&result
);
5391 ok(hres
== S_OK
, "VarCat failed with error 0x%08x\n", hres
);
5392 ok(VarCmp(&result
,&expected
,lcid
,0) == VARCMP_EQ
,
5393 "VarCat: VT_BSTR concat with VT_BSTR failed to return correct result\n");
5395 VariantClear(&left
);
5396 VariantClear(&right
);
5397 VariantClear(&result
);
5399 /* Test if expression is VT_ERROR */
5400 V_VT(&left
) = VT_ERROR
;
5401 V_VT(&right
) = VT_BSTR
;
5402 V_BSTR(&right
) = SysAllocString(sz1234
);
5403 hres
= VarCat(&left
,&right
,&result
);
5404 ok(hres
== DISP_E_TYPEMISMATCH
, "VarCat should have returned DISP_E_TYPEMISMATCH instead of 0x%08x\n", hres
);
5405 ok(V_VT(&result
) == VT_EMPTY
,
5406 "VarCat: VT_ERROR concat with VT_BSTR should have returned VT_EMPTY\n");
5408 VariantClear(&left
);
5409 VariantClear(&right
);
5410 VariantClear(&result
);
5412 V_VT(&left
) = VT_BSTR
;
5413 V_VT(&right
) = VT_ERROR
;
5414 V_BSTR(&left
) = SysAllocString(sz1234
);
5415 hres
= VarCat(&left
,&right
,&result
);
5416 ok(hres
== DISP_E_TYPEMISMATCH
, "VarCat should have returned DISP_E_TYPEMISMATCH instead of 0x%08x\n", hres
);
5417 ok(V_VT(&result
) == VT_EMPTY
,
5418 "VarCat: VT_BSTR concat with VT_ERROR should have returned VT_EMPTY\n");
5420 VariantClear(&left
);
5421 VariantClear(&right
);
5422 VariantClear(&result
);
5423 VariantClear(&expected
);
5425 /* Test combining boolean with number */
5426 V_VT(&left
) = VT_INT
;
5427 V_VT(&right
) = VT_BOOL
;
5428 V_VT(&expected
) = VT_BSTR
;
5430 V_BOOL(&right
) = TRUE
;
5431 V_BSTR(&expected
) = SysAllocString(sz12_true
);
5432 hres
= VarCat(&left
,&right
,&result
);
5433 ok(hres
== S_OK
, "VarCat failed with error 0x%08x\n", hres
);
5434 hres
= VarCmp(&result
,&expected
,lcid
,0);
5435 ok(hres
== VARCMP_EQ
, "Expected VARCMP_EQ, got %08x for %s, %s\n",
5436 hres
, variantstr(&result
), variantstr(&expected
));
5438 VariantClear(&left
);
5439 VariantClear(&right
);
5440 VariantClear(&result
);
5441 VariantClear(&expected
);
5443 V_VT(&left
) = VT_INT
;
5444 V_VT(&right
) = VT_BOOL
;
5445 V_VT(&expected
) = VT_BSTR
;
5447 V_BOOL(&right
) = FALSE
;
5448 V_BSTR(&expected
) = SysAllocString(sz12_false
);
5449 hres
= VarCat(&left
,&right
,&result
);
5450 ok(hres
== S_OK
, "VarCat failed with error 0x%08x\n", hres
);
5451 hres
= VarCmp(&result
,&expected
,lcid
,0);
5452 ok(hres
== VARCMP_EQ
, "Expected VARCMP_EQ, got %08x for %s, %s\n",
5453 hres
, variantstr(&result
), variantstr(&expected
));
5455 VariantClear(&left
);
5456 VariantClear(&right
);
5457 VariantClear(&result
);
5458 VariantClear(&expected
);
5460 /* Test when both expressions are numeric */
5461 V_VT(&left
) = VT_INT
;
5462 V_VT(&right
) = VT_INT
;
5463 V_VT(&expected
) = VT_BSTR
;
5466 V_BSTR(&expected
) = SysAllocString(sz1234
);
5467 hres
= VarCat(&left
,&right
,&result
);
5468 ok(hres
== S_OK
, "VarCat failed with error 0x%08x\n", hres
);
5469 ok(VarCmp(&result
,&expected
,lcid
,0) == VARCMP_EQ
,
5470 "VarCat: NUMBER concat with NUMBER returned inncorrect result\n");
5472 VariantClear(&left
);
5473 VariantClear(&right
);
5474 VariantClear(&result
);
5476 /* Test if one expression is numeric and the other is a string */
5477 V_VT(&left
) = VT_INT
;
5478 V_VT(&right
) = VT_BSTR
;
5480 V_BSTR(&right
) = SysAllocString(sz34
);
5481 hres
= VarCat(&left
,&right
,&result
);
5482 ok(hres
== S_OK
, "VarCat failed with error 0x%08x\n", hres
);
5483 ok(VarCmp(&result
,&expected
,lcid
,0) == VARCMP_EQ
,
5484 "VarCat: NUMBER concat with VT_BSTR, inncorrect result\n");
5486 VariantClear(&left
);
5487 VariantClear(&right
);
5488 VariantClear(&result
);
5490 V_VT(&left
) = VT_BSTR
;
5491 V_VT(&right
) = VT_INT
;
5492 V_BSTR(&left
) = SysAllocString(sz12
);
5494 hres
= VarCat(&left
,&right
,&result
);
5495 ok(hres
== S_OK
, "VarCat failed with error 0x%08x\n", hres
);
5496 ok(VarCmp(&result
,&expected
,lcid
,0) == VARCMP_EQ
,
5497 "VarCat: VT_BSTR concat with NUMBER, inncorrect result\n");
5499 VariantClear(&left
);
5500 VariantClear(&right
);
5501 VariantClear(&result
);
5502 VariantClear(&expected
);
5504 /* Test concat dates with strings */
5505 V_VT(&left
) = VT_BSTR
;
5506 V_VT(&right
) = VT_DATE
;
5507 V_VT(&expected
) = VT_BSTR
;
5508 V_BSTR(&left
) = SysAllocString(sz12
);
5509 V_DATE(&right
) = 29494.0;
5510 V_BSTR(&expected
)= SysAllocString(sz12_date
);
5511 hres
= VarCat(&left
,&right
,&result
);
5512 ok(hres
== S_OK
, "VarCat failed with error 0x%08x\n", hres
);
5513 ok(VarCmp(&result
,&expected
,lcid
,0) == VARCMP_EQ
,
5514 "VarCat: VT_BSTR concat with VT_DATE returned inncorrect result\n");
5516 VariantClear(&left
);
5517 VariantClear(&right
);
5518 VariantClear(&result
);
5519 VariantClear(&expected
);
5521 V_VT(&left
) = VT_DATE
;
5522 V_VT(&right
) = VT_BSTR
;
5523 V_VT(&expected
) = VT_BSTR
;
5524 V_DATE(&left
) = 29494.0;
5525 V_BSTR(&right
) = SysAllocString(sz12
);
5526 V_BSTR(&expected
)= SysAllocString(date_sz12
);
5527 hres
= VarCat(&left
,&right
,&result
);
5528 ok(hres
== S_OK
, "VarCat failed with error 0x%08x\n", hres
);
5529 ok(VarCmp(&result
,&expected
,lcid
,0) == VARCMP_EQ
,
5530 "VarCat: VT_DATE concat with VT_BSTR returned inncorrect result\n");
5532 VariantClear(&left
);
5533 VariantClear(&right
);
5534 VariantClear(&result
);
5535 VariantClear(&expected
);
5537 /* Test of both expressions are empty */
5538 V_VT(&left
) = VT_BSTR
;
5539 V_VT(&right
) = VT_BSTR
;
5540 V_VT(&expected
) = VT_BSTR
;
5541 V_BSTR(&left
) = SysAllocString(sz_empty
);
5542 V_BSTR(&right
) = SysAllocString(sz_empty
);
5543 V_BSTR(&expected
)= SysAllocString(sz_empty
);
5544 hres
= VarCat(&left
,&right
,&result
);
5545 ok(hres
== S_OK
, "VarCat failed with error 0x%08x\n", hres
);
5546 ok(VarCmp(&result
,&left
,lcid
,0) == VARCMP_EQ
,
5547 "VarCat: EMPTY concat with EMPTY did not return empty VT_BSTR\n");
5549 /* Restore original date format settings */
5550 SetLocaleInfo(lcid
,LOCALE_SSHORTDATE
,orig_date_format
);
5552 VariantClear(&left
);
5553 VariantClear(&right
);
5554 VariantClear(&result
);
5555 VariantClear(&expected
);
5558 static HRESULT (WINAPI
*pVarAnd
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
5560 #define VARAND(vt1,val1,vt2,val2,rvt,rval) \
5561 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
5562 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
5563 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
5564 test_var_call2( __LINE__, pVarAnd, &left, &right, &exp )
5566 #define VARANDCY(vt1,val1,val2,rvt,rval) \
5567 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
5568 V_VT(&right) = VT_CY; V_CY(&right).int64 = val2; \
5569 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
5570 test_var_call2( __LINE__, pVarAnd, &left, &right, &exp )
5572 /* Skip any type that is not defined or produces an error for every case */
5573 #define SKIPTESTAND(a) \
5574 if (a == VT_ERROR || a == VT_VARIANT || \
5575 a == VT_DISPATCH || a == VT_UNKNOWN || \
5576 a > VT_UINT || a == 15 /*not defined*/) \
5579 static void test_VarAnd(void)
5581 static const WCHAR szFalse
[] = { '#','F','A','L','S','E','#','\0' };
5582 static const WCHAR szTrue
[] = { '#','T','R','U','E','#','\0' };
5583 VARIANT left
, right
, exp
, result
;
5584 BSTR false_str
, true_str
;
5588 true_str
= SysAllocString(szTrue
);
5589 false_str
= SysAllocString(szFalse
);
5593 /* Test all possible flag/vt combinations & the resulting vt type */
5594 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
5596 VARTYPE leftvt
, rightvt
, resvt
;
5598 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
5600 SKIPTESTAND(leftvt
);
5602 /* Check if we need/have support for I8 and/or UI8 */
5603 if ((leftvt
== VT_I8
|| leftvt
== VT_UI8
) && !HAVE_OLEAUT32_I8
)
5606 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
5609 SKIPTESTAND(rightvt
);
5611 /* Check if we need/have support for I8 and/or UI8 */
5612 if ((rightvt
== VT_I8
|| rightvt
== VT_UI8
) && !HAVE_OLEAUT32_I8
)
5615 memset(&left
, 0, sizeof(left
));
5616 memset(&right
, 0, sizeof(right
));
5617 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
5618 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
5619 V_VT(&result
) = VT_EMPTY
;
5621 if ((leftvt
| ExtraFlags
[i
]) == VT_BSTR
)
5622 V_BSTR(&left
) = true_str
;
5623 if ((rightvt
| ExtraFlags
[i
]) == VT_BSTR
)
5624 V_BSTR(&right
) = true_str
;
5626 /* Native VarAnd always returns an error when using extra
5627 * flags or if the variant combination is I8 and INT.
5629 if ((leftvt
== VT_I8
&& rightvt
== VT_INT
) ||
5630 (leftvt
== VT_INT
&& rightvt
== VT_I8
) ||
5634 /* Determine return type */
5635 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
5637 else if (leftvt
== VT_I4
|| rightvt
== VT_I4
||
5638 leftvt
== VT_UINT
|| rightvt
== VT_UINT
||
5639 leftvt
== VT_INT
|| rightvt
== VT_INT
||
5640 leftvt
== VT_UINT
|| rightvt
== VT_UINT
||
5641 leftvt
== VT_R4
|| rightvt
== VT_R4
||
5642 leftvt
== VT_R8
|| rightvt
== VT_R8
||
5643 leftvt
== VT_CY
|| rightvt
== VT_CY
||
5644 leftvt
== VT_DATE
|| rightvt
== VT_DATE
||
5645 leftvt
== VT_I1
|| rightvt
== VT_I1
||
5646 leftvt
== VT_UI2
|| rightvt
== VT_UI2
||
5647 leftvt
== VT_UI4
|| rightvt
== VT_UI4
||
5648 leftvt
== VT_UI8
|| rightvt
== VT_UI8
||
5649 leftvt
== VT_DECIMAL
|| rightvt
== VT_DECIMAL
)
5651 else if (leftvt
== VT_UI1
|| rightvt
== VT_UI1
||
5652 leftvt
== VT_I2
|| rightvt
== VT_I2
||
5653 leftvt
== VT_EMPTY
|| rightvt
== VT_EMPTY
)
5654 if ((leftvt
== VT_NULL
&& rightvt
== VT_UI1
) ||
5655 (leftvt
== VT_UI1
&& rightvt
== VT_NULL
) ||
5656 (leftvt
== VT_UI1
&& rightvt
== VT_UI1
))
5660 else if (leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
||
5661 (leftvt
== VT_BSTR
&& rightvt
== VT_BSTR
))
5663 else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
||
5664 leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
)
5669 hres
= pVarAnd(&left
, &right
, &result
);
5671 /* Check expected HRESULT and if result variant type is correct */
5673 ok (hres
== DISP_E_BADVARTYPE
|| hres
== DISP_E_TYPEMISMATCH
,
5674 "VarAnd: %s|0x%X, %s|0x%X: got vt %s hr 0x%X\n",
5675 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
],
5676 vtstr(V_VT(&result
)), hres
);
5678 ok (hres
== S_OK
&& resvt
== V_VT(&result
),
5679 "VarAnd: %s|0x%X, %s|0x%X: expected vt %s hr 0x%X, got vt %s hr 0x%X\n",
5680 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
], vtstr(resvt
),
5681 S_OK
, vtstr(V_VT(&result
)), hres
);
5687 * Test returned values. Since we know the returned type is correct
5688 * and that we handle all combinations of invalid types, just check
5689 * that good type combinations produce the desired value.
5690 * FIXME: Test VT_DECIMAL
5692 VARAND(EMPTY
,0,EMPTY
,0,I2
,0);
5693 VARAND(EMPTY
,1,EMPTY
,0,I2
,0);
5694 VARAND(EMPTY
,1,EMPTY
,1,I2
,0);
5695 VARAND(EMPTY
,0,NULL
,0,I2
,0);
5696 VARAND(EMPTY
,1,NULL
,0,I2
,0);
5697 VARAND(EMPTY
,1,NULL
,1,I2
,0);
5698 VARAND(EMPTY
,0,I1
,0,I4
,0);
5699 VARAND(EMPTY
,0,I1
,1,I4
,0);
5700 VARAND(EMPTY
,1,I1
,1,I4
,0);
5701 VARAND(EMPTY
,0,UI1
,0,I2
,0);
5702 VARAND(EMPTY
,0,UI1
,1,I2
,0);
5703 VARAND(EMPTY
,1,UI1
,1,I2
,0);
5704 VARAND(EMPTY
,0,I2
,0,I2
,0);
5705 VARAND(EMPTY
,0,I2
,1,I2
,0);
5706 VARAND(EMPTY
,1,I2
,1,I2
,0);
5707 VARAND(EMPTY
,0,UI2
,0,I4
,0);
5708 VARAND(EMPTY
,0,UI2
,1,I4
,0);
5709 VARAND(EMPTY
,1,UI2
,1,I4
,0);
5710 VARAND(EMPTY
,0,I4
,0,I4
,0);
5711 VARAND(EMPTY
,0,I4
,1,I4
,0);
5712 VARAND(EMPTY
,1,I4
,1,I4
,0);
5713 VARAND(EMPTY
,0,UI4
,0,I4
,0);
5714 VARAND(EMPTY
,0,UI4
,1,I4
,0);
5715 VARAND(EMPTY
,1,UI4
,1,I4
,0);
5716 if (HAVE_OLEAUT32_I8
)
5718 VARAND(EMPTY
,0,I8
,0,I8
,0);
5719 VARAND(EMPTY
,0,I8
,1,I8
,0);
5720 VARAND(EMPTY
,1,I8
,1,I8
,0);
5721 VARAND(EMPTY
,0,UI8
,0,I4
,0);
5722 VARAND(EMPTY
,0,UI8
,1,I4
,0);
5723 VARAND(EMPTY
,1,UI8
,1,I4
,0);
5725 VARAND(EMPTY
,0,INT
,0,I4
,0);
5726 VARAND(EMPTY
,0,INT
,1,I4
,0);
5727 VARAND(EMPTY
,1,INT
,1,I4
,0);
5728 VARAND(EMPTY
,0,UINT
,0,I4
,0);
5729 VARAND(EMPTY
,0,UINT
,1,I4
,0);
5730 VARAND(EMPTY
,1,UINT
,1,I4
,0);
5731 VARAND(EMPTY
,0,BOOL
,0,I2
,0);
5732 VARAND(EMPTY
,0,BOOL
,1,I2
,0);
5733 VARAND(EMPTY
,1,BOOL
,1,I2
,0);
5734 VARAND(EMPTY
,0,R4
,0,I4
,0);
5735 VARAND(EMPTY
,0,R4
,1,I4
,0);
5736 VARAND(EMPTY
,1,R4
,1,I4
,0);
5737 VARAND(EMPTY
,0,R8
,0,I4
,0);
5738 VARAND(EMPTY
,0,R8
,1,I4
,0);
5739 VARAND(EMPTY
,1,R8
,1,I4
,0);
5740 VARAND(EMPTY
,0,BSTR
,false_str
,I2
,0);
5741 VARAND(EMPTY
,0,BSTR
,true_str
,I2
,0);
5742 VARANDCY(EMPTY
,0,10000,I4
,0);
5744 /* NULL OR 0 = NULL. NULL OR n = n */
5745 VARAND(NULL
,0,NULL
,0,NULL
,0);
5746 VARAND(NULL
,1,NULL
,0,NULL
,0);
5747 VARAND(NULL
,0,I1
,0,I4
,0);
5748 VARAND(NULL
,0,I1
,1,NULL
,0);
5749 VARAND(NULL
,0,UI1
,0,UI1
,0);
5750 VARAND(NULL
,0,UI1
,1,NULL
,0);
5751 VARAND(NULL
,0,I2
,0,I2
,0);
5752 VARAND(NULL
,0,I2
,1,NULL
,0);
5753 VARAND(NULL
,0,UI2
,0,I4
,0);
5754 VARAND(NULL
,0,UI2
,1,NULL
,0);
5755 VARAND(NULL
,0,I4
,0,I4
,0);
5756 VARAND(NULL
,0,I4
,1,NULL
,0);
5757 VARAND(NULL
,0,UI4
,0,I4
,0);
5758 VARAND(NULL
,0,UI4
,1,NULL
,0);
5759 if (HAVE_OLEAUT32_I8
)
5761 VARAND(NULL
,0,I8
,0,I8
,0);
5762 VARAND(NULL
,0,I8
,1,NULL
,0);
5763 VARAND(NULL
,0,UI8
,0,I4
,0);
5764 VARAND(NULL
,0,UI8
,1,NULL
,0);
5766 VARAND(NULL
,0,INT
,0,I4
,0);
5767 VARAND(NULL
,0,INT
,1,NULL
,0);
5768 VARAND(NULL
,0,UINT
,0,I4
,0);
5769 VARAND(NULL
,0,UINT
,1,NULL
,0);
5770 VARAND(NULL
,0,BOOL
,0,BOOL
,0);
5771 VARAND(NULL
,0,BOOL
,1,NULL
,0);
5772 VARAND(NULL
,0,R4
,0,I4
,0);
5773 VARAND(NULL
,0,R4
,1,NULL
,0);
5774 VARAND(NULL
,0,R8
,0,I4
,0);
5775 VARAND(NULL
,0,R8
,1,NULL
,0);
5776 VARAND(NULL
,0,BSTR
,false_str
,BOOL
,0);
5777 VARAND(NULL
,0,BSTR
,true_str
,NULL
,VARIANT_FALSE
);
5778 VARANDCY(NULL
,0,10000,NULL
,0);
5779 VARANDCY(NULL
,0,0,I4
,0);
5780 VARAND(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
);
5781 VARAND(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_FALSE
);
5782 VARAND(BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_FALSE
);
5783 VARAND(BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_FALSE
);
5785 /* Assume x,y & y,x are the same from now on to reduce the number of tests */
5786 VARAND(BOOL
,VARIANT_TRUE
,I1
,-1,I4
,-1);
5787 VARAND(BOOL
,VARIANT_TRUE
,I1
,0,I4
,0);
5788 VARAND(BOOL
,VARIANT_FALSE
,I1
,0,I4
,0);
5789 VARAND(BOOL
,VARIANT_TRUE
,UI1
,255,I2
,255);
5790 VARAND(BOOL
,VARIANT_TRUE
,UI1
,0,I2
,0);
5791 VARAND(BOOL
,VARIANT_FALSE
,UI1
,0,I2
,0);
5792 VARAND(BOOL
,VARIANT_TRUE
,I2
,-1,I2
,-1);
5793 VARAND(BOOL
,VARIANT_TRUE
,I2
,0,I2
,0);
5794 VARAND(BOOL
,VARIANT_FALSE
,I2
,0,I2
,0);
5795 VARAND(BOOL
,VARIANT_TRUE
,UI2
,65535,I4
,65535);
5796 VARAND(BOOL
,VARIANT_TRUE
,UI2
,0,I4
,0);
5797 VARAND(BOOL
,VARIANT_FALSE
,UI2
,0,I4
,0);
5798 VARAND(BOOL
,VARIANT_TRUE
,I4
,-1,I4
,-1);
5799 VARAND(BOOL
,VARIANT_TRUE
,I4
,0,I4
,0);
5800 VARAND(BOOL
,VARIANT_FALSE
,I4
,0,I4
,0);
5801 VARAND(BOOL
,VARIANT_TRUE
,UI4
,0xffffffff,I4
,-1);
5802 VARAND(BOOL
,VARIANT_TRUE
,UI4
,0,I4
,0);
5803 VARAND(BOOL
,VARIANT_FALSE
,UI4
,0,I4
,0);
5804 VARAND(BOOL
,VARIANT_TRUE
,R4
,-1,I4
,-1);
5805 VARAND(BOOL
,VARIANT_TRUE
,R4
,0,I4
,0);
5806 VARAND(BOOL
,VARIANT_FALSE
,R4
,0,I4
,0);
5807 VARAND(BOOL
,VARIANT_TRUE
,R8
,-1,I4
,-1);
5808 VARAND(BOOL
,VARIANT_TRUE
,R8
,0,I4
,0);
5809 VARAND(BOOL
,VARIANT_FALSE
,R8
,0,I4
,0);
5810 VARAND(BOOL
,VARIANT_TRUE
,DATE
,-1,I4
,-1);
5811 VARAND(BOOL
,VARIANT_TRUE
,DATE
,0,I4
,0);
5812 VARAND(BOOL
,VARIANT_FALSE
,DATE
,0,I4
,0);
5813 if (HAVE_OLEAUT32_I8
)
5815 VARAND(BOOL
,VARIANT_TRUE
,I8
,-1,I8
,-1);
5816 VARAND(BOOL
,VARIANT_TRUE
,I8
,0,I8
,0);
5817 VARAND(BOOL
,VARIANT_FALSE
,I8
,0,I8
,0);
5818 VARAND(BOOL
,VARIANT_TRUE
,UI8
,0,I4
,0);
5819 VARAND(BOOL
,VARIANT_FALSE
,UI8
,0,I4
,0);
5821 VARAND(BOOL
,VARIANT_TRUE
,INT
,-1,I4
,-1);
5822 VARAND(BOOL
,VARIANT_TRUE
,INT
,0,I4
,0);
5823 VARAND(BOOL
,VARIANT_FALSE
,INT
,0,I4
,0);
5824 VARAND(BOOL
,VARIANT_TRUE
,UINT
,0xffffffff,I4
,-1);
5825 VARAND(BOOL
,VARIANT_TRUE
,UINT
,0,I4
,0);
5826 VARAND(BOOL
,VARIANT_FALSE
,UINT
,0,I4
,0);
5827 VARAND(BOOL
,VARIANT_FALSE
,BSTR
,false_str
,BOOL
,VARIANT_FALSE
);
5828 VARAND(BOOL
,VARIANT_TRUE
,BSTR
,false_str
,BOOL
,VARIANT_FALSE
);
5829 VARAND(BOOL
,VARIANT_FALSE
,BSTR
,true_str
,BOOL
,VARIANT_FALSE
);
5830 VARAND(BOOL
,VARIANT_TRUE
,BSTR
,true_str
,BOOL
,VARIANT_TRUE
);
5831 VARANDCY(BOOL
,VARIANT_TRUE
,10000,I4
,1);
5832 VARANDCY(BOOL
,VARIANT_TRUE
,0,I4
,0);
5833 VARANDCY(BOOL
,VARIANT_FALSE
,0,I4
,0);
5834 VARAND(I1
,-1,I1
,-1,I4
,-1);
5835 VARAND(I1
,-1,I1
,0,I4
,0);
5836 VARAND(I1
,0,I1
,0,I4
,0);
5837 VARAND(I1
,-1,UI1
,255,I4
,255);
5838 VARAND(I1
,-1,UI1
,0,I4
,0);
5839 VARAND(I1
,0,UI1
,0,I4
,0);
5840 VARAND(I1
,-1,I2
,-1,I4
,-1);
5841 VARAND(I1
,-1,I2
,0,I4
,0);
5842 VARAND(I1
,0,I2
,0,I4
,0);
5843 VARAND(I1
,-1,UI2
,65535,I4
,65535);
5844 VARAND(I1
,-1,UI2
,0,I4
,0);
5845 VARAND(I1
,0,UI2
,0,I4
,0);
5846 VARAND(I1
,-1,I4
,-1,I4
,-1);
5847 VARAND(I1
,-1,I4
,0,I4
,0);
5848 VARAND(I1
,0,I4
,0,I4
,0);
5849 VARAND(I1
,-1,UI4
,0xffffffff,I4
,-1);
5850 VARAND(I1
,-1,UI4
,0,I4
,0);
5851 VARAND(I1
,0,UI4
,0,I4
,0);
5852 VARAND(I1
,-1,R4
,-1,I4
,-1);
5853 VARAND(I1
,-1,R4
,0,I4
,0);
5854 VARAND(I1
,0,R4
,0,I4
,0);
5855 VARAND(I1
,-1,R8
,-1,I4
,-1);
5856 VARAND(I1
,-1,R8
,0,I4
,0);
5857 VARAND(I1
,0,R8
,0,I4
,0);
5858 VARAND(I1
,-1,DATE
,-1,I4
,-1);
5859 VARAND(I1
,-1,DATE
,0,I4
,0);
5860 VARAND(I1
,0,DATE
,0,I4
,0);
5861 if (HAVE_OLEAUT32_I8
)
5863 VARAND(I1
,-1,I8
,-1,I8
,-1);
5864 VARAND(I1
,-1,I8
,0,I8
,0);
5865 VARAND(I1
,0,I8
,0,I8
,0);
5866 VARAND(I1
,-1,UI8
,0,I4
,0);
5867 VARAND(I1
,0,UI8
,0,I4
,0);
5869 VARAND(I1
,-1,INT
,-1,I4
,-1);
5870 VARAND(I1
,-1,INT
,0,I4
,0);
5871 VARAND(I1
,0,INT
,0,I4
,0);
5872 VARAND(I1
,-1,UINT
,0xffffffff,I4
,-1);
5873 VARAND(I1
,-1,UINT
,0,I4
,0);
5874 VARAND(I1
,0,UINT
,0,I4
,0);
5875 VARAND(I1
,0,BSTR
,false_str
,I4
,0);
5876 VARAND(I1
,-1,BSTR
,false_str
,I4
,0);
5877 VARAND(I1
,0,BSTR
,true_str
,I4
,0);
5878 VARAND(I1
,-1,BSTR
,true_str
,I4
,-1);
5879 VARANDCY(I1
,-1,10000,I4
,1);
5880 VARANDCY(I1
,-1,0,I4
,0);
5881 VARANDCY(I1
,0,0,I4
,0);
5883 VARAND(UI1
,255,UI1
,255,UI1
,255);
5884 VARAND(UI1
,255,UI1
,0,UI1
,0);
5885 VARAND(UI1
,0,UI1
,0,UI1
,0);
5886 VARAND(UI1
,255,I2
,-1,I2
,255);
5887 VARAND(UI1
,255,I2
,0,I2
,0);
5888 VARAND(UI1
,0,I2
,0,I2
,0);
5889 VARAND(UI1
,255,UI2
,65535,I4
,255);
5890 VARAND(UI1
,255,UI2
,0,I4
,0);
5891 VARAND(UI1
,0,UI2
,0,I4
,0);
5892 VARAND(UI1
,255,I4
,-1,I4
,255);
5893 VARAND(UI1
,255,I4
,0,I4
,0);
5894 VARAND(UI1
,0,I4
,0,I4
,0);
5895 VARAND(UI1
,255,UI4
,0xffffffff,I4
,255);
5896 VARAND(UI1
,255,UI4
,0,I4
,0);
5897 VARAND(UI1
,0,UI4
,0,I4
,0);
5898 VARAND(UI1
,255,R4
,-1,I4
,255);
5899 VARAND(UI1
,255,R4
,0,I4
,0);
5900 VARAND(UI1
,0,R4
,0,I4
,0);
5901 VARAND(UI1
,255,R8
,-1,I4
,255);
5902 VARAND(UI1
,255,R8
,0,I4
,0);
5903 VARAND(UI1
,0,R8
,0,I4
,0);
5904 VARAND(UI1
,255,DATE
,-1,I4
,255);
5905 VARAND(UI1
,255,DATE
,0,I4
,0);
5906 VARAND(UI1
,0,DATE
,0,I4
,0);
5907 if (HAVE_OLEAUT32_I8
)
5909 VARAND(UI1
,255,I8
,-1,I8
,255);
5910 VARAND(UI1
,255,I8
,0,I8
,0);
5911 VARAND(UI1
,0,I8
,0,I8
,0);
5912 VARAND(UI1
,255,UI8
,0,I4
,0);
5913 VARAND(UI1
,0,UI8
,0,I4
,0);
5915 VARAND(UI1
,255,INT
,-1,I4
,255);
5916 VARAND(UI1
,255,INT
,0,I4
,0);
5917 VARAND(UI1
,0,INT
,0,I4
,0);
5918 VARAND(UI1
,255,UINT
,0xffffffff,I4
,255);
5919 VARAND(UI1
,255,UINT
,0,I4
,0);
5920 VARAND(UI1
,0,UINT
,0,I4
,0);
5921 VARAND(UI1
,0,BSTR
,false_str
,I2
,0);
5922 VARAND(UI1
,255,BSTR
,false_str
,I2
,0);
5923 VARAND(UI1
,0,BSTR
,true_str
,I2
,0);
5924 VARAND(UI1
,255,BSTR
,true_str
,I2
,255);
5925 VARANDCY(UI1
,255,10000,I4
,1);
5926 VARANDCY(UI1
,255,0,I4
,0);
5927 VARANDCY(UI1
,0,0,I4
,0);
5929 VARAND(I2
,-1,I2
,-1,I2
,-1);
5930 VARAND(I2
,-1,I2
,0,I2
,0);
5931 VARAND(I2
,0,I2
,0,I2
,0);
5932 VARAND(I2
,-1,UI2
,65535,I4
,65535);
5933 VARAND(I2
,-1,UI2
,0,I4
,0);
5934 VARAND(I2
,0,UI2
,0,I4
,0);
5935 VARAND(I2
,-1,I4
,-1,I4
,-1);
5936 VARAND(I2
,-1,I4
,0,I4
,0);
5937 VARAND(I2
,0,I4
,0,I4
,0);
5938 VARAND(I2
,-1,UI4
,0xffffffff,I4
,-1);
5939 VARAND(I2
,-1,UI4
,0,I4
,0);
5940 VARAND(I2
,0,UI4
,0,I4
,0);
5941 VARAND(I2
,-1,R4
,-1,I4
,-1);
5942 VARAND(I2
,-1,R4
,0,I4
,0);
5943 VARAND(I2
,0,R4
,0,I4
,0);
5944 VARAND(I2
,-1,R8
,-1,I4
,-1);
5945 VARAND(I2
,-1,R8
,0,I4
,0);
5946 VARAND(I2
,0,R8
,0,I4
,0);
5947 VARAND(I2
,-1,DATE
,-1,I4
,-1);
5948 VARAND(I2
,-1,DATE
,0,I4
,0);
5949 VARAND(I2
,0,DATE
,0,I4
,0);
5950 if (HAVE_OLEAUT32_I8
)
5952 VARAND(I2
,-1,I8
,-1,I8
,-1);
5953 VARAND(I2
,-1,I8
,0,I8
,0);
5954 VARAND(I2
,0,I8
,0,I8
,0);
5955 VARAND(I2
,-1,UI8
,0,I4
,0);
5956 VARAND(I2
,0,UI8
,0,I4
,0);
5958 VARAND(I2
,-1,INT
,-1,I4
,-1);
5959 VARAND(I2
,-1,INT
,0,I4
,0);
5960 VARAND(I2
,0,INT
,0,I4
,0);
5961 VARAND(I2
,-1,UINT
,0xffffffff,I4
,-1);
5962 VARAND(I2
,-1,UINT
,0,I4
,0);
5963 VARAND(I2
,0,UINT
,0,I4
,0);
5964 VARAND(I2
,0,BSTR
,false_str
,I2
,0);
5965 VARAND(I2
,-1,BSTR
,false_str
,I2
,0);
5966 VARAND(I2
,0,BSTR
,true_str
,I2
,0);
5967 VARAND(I2
,-1,BSTR
,true_str
,I2
,-1);
5968 VARANDCY(I2
,-1,10000,I4
,1);
5969 VARANDCY(I2
,-1,0,I4
,0);
5970 VARANDCY(I2
,0,0,I4
,0);
5972 VARAND(UI2
,65535,UI2
,65535,I4
,65535);
5973 VARAND(UI2
,65535,UI2
,0,I4
,0);
5974 VARAND(UI2
,0,UI2
,0,I4
,0);
5975 VARAND(UI2
,65535,I4
,-1,I4
,65535);
5976 VARAND(UI2
,65535,I4
,0,I4
,0);
5977 VARAND(UI2
,0,I4
,0,I4
,0);
5978 VARAND(UI2
,65535,UI4
,0xffffffff,I4
,65535);
5979 VARAND(UI2
,65535,UI4
,0,I4
,0);
5980 VARAND(UI2
,0,UI4
,0,I4
,0);
5981 VARAND(UI2
,65535,R4
,-1,I4
,65535);
5982 VARAND(UI2
,65535,R4
,0,I4
,0);
5983 VARAND(UI2
,0,R4
,0,I4
,0);
5984 VARAND(UI2
,65535,R8
,-1,I4
,65535);
5985 VARAND(UI2
,65535,R8
,0,I4
,0);
5986 VARAND(UI2
,0,R8
,0,I4
,0);
5987 VARAND(UI2
,65535,DATE
,-1,I4
,65535);
5988 VARAND(UI2
,65535,DATE
,0,I4
,0);
5989 VARAND(UI2
,0,DATE
,0,I4
,0);
5990 if (HAVE_OLEAUT32_I8
)
5992 VARAND(UI2
,65535,I8
,-1,I8
,65535);
5993 VARAND(UI2
,65535,I8
,0,I8
,0);
5994 VARAND(UI2
,0,I8
,0,I8
,0);
5995 VARAND(UI2
,65535,UI8
,0,I4
,0);
5996 VARAND(UI2
,0,UI8
,0,I4
,0);
5998 VARAND(UI2
,65535,INT
,-1,I4
,65535);
5999 VARAND(UI2
,65535,INT
,0,I4
,0);
6000 VARAND(UI2
,0,INT
,0,I4
,0);
6001 VARAND(UI2
,65535,UINT
,0xffffffff,I4
,65535);
6002 VARAND(UI2
,65535,UINT
,0,I4
,0);
6003 VARAND(UI2
,0,UINT
,0,I4
,0);
6004 VARAND(UI2
,0,BSTR
,false_str
,I4
,0);
6005 VARAND(UI2
,65535,BSTR
,false_str
,I4
,0);
6006 VARAND(UI2
,0,BSTR
,true_str
,I4
,0);
6007 VARAND(UI2
,65535,BSTR
,true_str
,I4
,65535);
6008 VARANDCY(UI2
,65535,10000,I4
,1);
6009 VARANDCY(UI2
,65535,0,I4
,0);
6010 VARANDCY(UI2
,0,0,I4
,0);
6012 VARAND(I4
,-1,I4
,-1,I4
,-1);
6013 VARAND(I4
,-1,I4
,0,I4
,0);
6014 VARAND(I4
,0,I4
,0,I4
,0);
6015 VARAND(I4
,-1,UI4
,0xffffffff,I4
,-1);
6016 VARAND(I4
,-1,UI4
,0,I4
,0);
6017 VARAND(I4
,0,UI4
,0,I4
,0);
6018 VARAND(I4
,-1,R4
,-1,I4
,-1);
6019 VARAND(I4
,-1,R4
,0,I4
,0);
6020 VARAND(I4
,0,R4
,0,I4
,0);
6021 VARAND(I4
,-1,R8
,-1,I4
,-1);
6022 VARAND(I4
,-1,R8
,0,I4
,0);
6023 VARAND(I4
,0,R8
,0,I4
,0);
6024 VARAND(I4
,-1,DATE
,-1,I4
,-1);
6025 VARAND(I4
,-1,DATE
,0,I4
,0);
6026 VARAND(I4
,0,DATE
,0,I4
,0);
6027 if (HAVE_OLEAUT32_I8
)
6029 VARAND(I4
,-1,I8
,-1,I8
,-1);
6030 VARAND(I4
,-1,I8
,0,I8
,0);
6031 VARAND(I4
,0,I8
,0,I8
,0);
6032 VARAND(I4
,-1,UI8
,0,I4
,0);
6033 VARAND(I4
,0,UI8
,0,I4
,0);
6035 VARAND(I4
,-1,INT
,-1,I4
,-1);
6036 VARAND(I4
,-1,INT
,0,I4
,0);
6037 VARAND(I4
,0,INT
,0,I4
,0);
6038 VARAND(I4
,-1,UINT
,0xffffffff,I4
,-1);
6039 VARAND(I4
,-1,UINT
,0,I4
,0);
6040 VARAND(I4
,0,UINT
,0,I4
,0);
6041 VARAND(I4
,0,BSTR
,false_str
,I4
,0);
6042 VARAND(I4
,-1,BSTR
,false_str
,I4
,0);
6043 VARAND(I4
,0,BSTR
,true_str
,I4
,0);
6044 VARAND(I4
,-1,BSTR
,true_str
,I4
,-1);
6045 VARANDCY(I4
,-1,10000,I4
,1);
6046 VARANDCY(I4
,-1,0,I4
,0);
6047 VARANDCY(I4
,0,0,I4
,0);
6049 VARAND(UI4
,0xffffffff,UI4
,0xffffffff,I4
,-1);
6050 VARAND(UI4
,0xffffffff,UI4
,0,I4
,0);
6051 VARAND(UI4
,0,UI4
,0,I4
,0);
6052 VARAND(UI4
,0xffffffff,R4
,-1,I4
,-1);
6053 VARAND(UI4
,0xffffffff,R4
,0,I4
,0);
6054 VARAND(UI4
,0,R4
,0,I4
,0);
6055 VARAND(UI4
,0xffffffff,R8
,-1,I4
,-1);
6056 VARAND(UI4
,0xffffffff,R8
,0,I4
,0);
6057 VARAND(UI4
,0,R8
,0,I4
,0);
6058 VARAND(UI4
,0xffffffff,DATE
,-1,I4
,-1);
6059 VARAND(UI4
,0xffffffff,DATE
,0,I4
,0);
6060 VARAND(UI4
,0,DATE
,0,I4
,0);
6061 if (HAVE_OLEAUT32_I8
)
6063 VARAND(UI4
,0xffffffff,I8
,0,I8
,0);
6064 VARAND(UI4
,0,I8
,0,I8
,0);
6065 VARAND(UI4
,0xffffffff,UI8
,0,I4
,0);
6066 VARAND(UI4
,0,UI8
,0,I4
,0);
6068 VARAND(UI4
,0xffffffff,INT
,-1,I4
,-1);
6069 VARAND(UI4
,0xffffffff,INT
,0,I4
,0);
6070 VARAND(UI4
,0,INT
,0,I4
,0);
6071 VARAND(UI4
,0xffffffff,UINT
,0xffffffff,I4
,-1);
6072 VARAND(UI4
,0xffffffff,UINT
,0,I4
,0);
6073 VARAND(UI4
,0,UINT
,0,I4
,0);
6074 VARAND(UI4
,0,BSTR
,false_str
,I4
,0);
6075 VARAND(UI4
,0xffffffff,BSTR
,false_str
,I4
,0);
6076 VARAND(UI4
,0,BSTR
,true_str
,I4
,0);
6077 VARAND(UI4
,0xffffffff,BSTR
,true_str
,I4
,-1);
6078 VARANDCY(UI4
,0xffffffff,10000,I4
,1);
6079 VARANDCY(UI4
,0xffffffff,0,I4
,0);
6080 VARANDCY(UI4
,0,0,I4
,0);
6082 VARAND(R4
,-1,R4
,-1,I4
,-1);
6083 VARAND(R4
,-1,R4
,0,I4
,0);
6084 VARAND(R4
,0,R4
,0,I4
,0);
6085 VARAND(R4
,-1,R8
,-1,I4
,-1);
6086 VARAND(R4
,-1,R8
,0,I4
,0);
6087 VARAND(R4
,0,R8
,0,I4
,0);
6088 VARAND(R4
,-1,DATE
,-1,I4
,-1);
6089 VARAND(R4
,-1,DATE
,0,I4
,0);
6090 VARAND(R4
,0,DATE
,0,I4
,0);
6091 if (HAVE_OLEAUT32_I8
)
6093 VARAND(R4
,-1,I8
,-1,I8
,-1);
6094 VARAND(R4
,-1,I8
,0,I8
,0);
6095 VARAND(R4
,0,I8
,0,I8
,0);
6096 VARAND(R4
,-1,UI8
,0,I4
,0);
6097 VARAND(R4
,0,UI8
,0,I4
,0);
6099 VARAND(R4
,-1,INT
,-1,I4
,-1);
6100 VARAND(R4
,-1,INT
,0,I4
,0);
6101 VARAND(R4
,0,INT
,0,I4
,0);
6102 VARAND(R4
,-1,UINT
,0xffffffff,I4
,-1);
6103 VARAND(R4
,-1,UINT
,0,I4
,0);
6104 VARAND(R4
,0,UINT
,0,I4
,0);
6105 VARAND(R4
,0,BSTR
,false_str
,I4
,0);
6106 VARAND(R4
,-1,BSTR
,false_str
,I4
,0);
6107 VARAND(R4
,0,BSTR
,true_str
,I4
,0);
6108 VARAND(R4
,-1,BSTR
,true_str
,I4
,-1);
6109 VARANDCY(R4
,-1,10000,I4
,1);
6110 VARANDCY(R4
,-1,0,I4
,0);
6111 VARANDCY(R4
,0,0,I4
,0);
6113 VARAND(R8
,-1,R8
,-1,I4
,-1);
6114 VARAND(R8
,-1,R8
,0,I4
,0);
6115 VARAND(R8
,0,R8
,0,I4
,0);
6116 VARAND(R8
,-1,DATE
,-1,I4
,-1);
6117 VARAND(R8
,-1,DATE
,0,I4
,0);
6118 VARAND(R8
,0,DATE
,0,I4
,0);
6119 if (HAVE_OLEAUT32_I8
)
6121 VARAND(R8
,-1,I8
,-1,I8
,-1);
6122 VARAND(R8
,-1,I8
,0,I8
,0);
6123 VARAND(R8
,0,I8
,0,I8
,0);
6124 VARAND(R8
,-1,UI8
,0,I4
,0);
6125 VARAND(R8
,0,UI8
,0,I4
,0);
6127 VARAND(R8
,-1,INT
,-1,I4
,-1);
6128 VARAND(R8
,-1,INT
,0,I4
,0);
6129 VARAND(R8
,0,INT
,0,I4
,0);
6130 VARAND(R8
,-1,UINT
,0xffffffff,I4
,-1);
6131 VARAND(R8
,-1,UINT
,0,I4
,0);
6132 VARAND(R8
,0,UINT
,0,I4
,0);
6133 VARAND(R8
,0,BSTR
,false_str
,I4
,0);
6134 VARAND(R8
,-1,BSTR
,false_str
,I4
,0);
6135 VARAND(R8
,0,BSTR
,true_str
,I4
,0);
6136 VARAND(R8
,-1,BSTR
,true_str
,I4
,-1);
6137 VARANDCY(R8
,-1,10000,I4
,1);
6138 VARANDCY(R8
,-1,0,I4
,0);
6139 VARANDCY(R8
,0,0,I4
,0);
6141 VARAND(DATE
,-1,DATE
,-1,I4
,-1);
6142 VARAND(DATE
,-1,DATE
,0,I4
,0);
6143 VARAND(DATE
,0,DATE
,0,I4
,0);
6144 if (HAVE_OLEAUT32_I8
)
6146 VARAND(DATE
,-1,I8
,-1,I8
,-1);
6147 VARAND(DATE
,-1,I8
,0,I8
,0);
6148 VARAND(DATE
,0,I8
,0,I8
,0);
6149 VARAND(DATE
,-1,UI8
,0,I4
,0);
6150 VARAND(DATE
,0,UI8
,0,I4
,0);
6152 VARAND(DATE
,-1,INT
,-1,I4
,-1);
6153 VARAND(DATE
,-1,INT
,0,I4
,0);
6154 VARAND(DATE
,0,INT
,0,I4
,0);
6155 VARAND(DATE
,-1,UINT
,0xffffffff,I4
,-1);
6156 VARAND(DATE
,-1,UINT
,0,I4
,0);
6157 VARAND(DATE
,0,UINT
,0,I4
,0);
6158 VARAND(DATE
,0,BSTR
,false_str
,I4
,0);
6159 VARAND(DATE
,-1,BSTR
,false_str
,I4
,0);
6160 VARAND(DATE
,0,BSTR
,true_str
,I4
,0);
6161 VARAND(DATE
,-1,BSTR
,true_str
,I4
,-1);
6162 VARANDCY(DATE
,-1,10000,I4
,1);
6163 VARANDCY(DATE
,-1,0,I4
,0);
6164 VARANDCY(DATE
,0,0,I4
,0);
6166 if (HAVE_OLEAUT32_I8
)
6168 VARAND(I8
,-1,I8
,-1,I8
,-1);
6169 VARAND(I8
,-1,I8
,0,I8
,0);
6170 VARAND(I8
,0,I8
,0,I8
,0);
6171 VARAND(I8
,-1,UI8
,0,I8
,0);
6172 VARAND(I8
,0,UI8
,0,I8
,0);
6173 VARAND(I8
,-1,UINT
,0,I8
,0);
6174 VARAND(I8
,0,UINT
,0,I8
,0);
6175 VARAND(I8
,0,BSTR
,false_str
,I8
,0);
6176 VARAND(I8
,-1,BSTR
,false_str
,I8
,0);
6177 VARAND(I8
,0,BSTR
,true_str
,I8
,0);
6178 VARAND(I8
,-1,BSTR
,true_str
,I8
,-1);
6179 VARANDCY(I8
,-1,10000,I8
,1);
6180 VARANDCY(I8
,-1,0,I8
,0);
6181 VARANDCY(I8
,0,0,I8
,0);
6183 VARAND(UI8
,0xffff,UI8
,0xffff,I4
,0xffff);
6184 VARAND(UI8
,0xffff,UI8
,0,I4
,0);
6185 VARAND(UI8
,0,UI8
,0,I4
,0);
6186 VARAND(UI8
,0xffff,INT
,-1,I4
,65535);
6187 VARAND(UI8
,0xffff,INT
,0,I4
,0);
6188 VARAND(UI8
,0,INT
,0,I4
,0);
6189 VARAND(UI8
,0xffff,UINT
,0xffff,I4
,0xffff);
6190 VARAND(UI8
,0xffff,UINT
,0,I4
,0);
6191 VARAND(UI8
,0,UINT
,0,I4
,0);
6192 VARAND(UI8
,0,BSTR
,false_str
,I4
,0);
6193 VARAND(UI8
,0xffff,BSTR
,false_str
,I4
,0);
6194 VARAND(UI8
,0,BSTR
,true_str
,I4
,0);
6195 VARAND(UI8
,0xffff,BSTR
,true_str
,I4
,65535);
6196 VARANDCY(UI8
,0xffff,10000,I4
,1);
6197 VARANDCY(UI8
,0xffff,0,I4
,0);
6198 VARANDCY(UI8
,0,0,I4
,0);
6201 VARAND(INT
,-1,INT
,-1,I4
,-1);
6202 VARAND(INT
,-1,INT
,0,I4
,0);
6203 VARAND(INT
,0,INT
,0,I4
,0);
6204 VARAND(INT
,-1,UINT
,0xffff,I4
,65535);
6205 VARAND(INT
,-1,UINT
,0,I4
,0);
6206 VARAND(INT
,0,UINT
,0,I4
,0);
6207 VARAND(INT
,0,BSTR
,false_str
,I4
,0);
6208 VARAND(INT
,-1,BSTR
,false_str
,I4
,0);
6209 VARAND(INT
,0,BSTR
,true_str
,I4
,0);
6210 VARAND(INT
,-1,BSTR
,true_str
,I4
,-1);
6211 VARANDCY(INT
,-1,10000,I4
,1);
6212 VARANDCY(INT
,-1,0,I4
,0);
6213 VARANDCY(INT
,0,0,I4
,0);
6215 VARAND(UINT
,0xffff,UINT
,0xffff,I4
,0xffff);
6216 VARAND(UINT
,0xffff,UINT
,0,I4
,0);
6217 VARAND(UINT
,0,UINT
,0,I4
,0);
6218 VARAND(UINT
,0,BSTR
,false_str
,I4
,0);
6219 VARAND(UINT
,0xffff,BSTR
, false_str
,I4
,0);
6220 VARAND(UINT
,0,BSTR
,true_str
,I4
,0);
6221 VARAND(UINT
,0xffff,BSTR
,true_str
,I4
,65535);
6222 VARANDCY(UINT
,0xffff,10000,I4
,1);
6223 VARANDCY(UINT
,0xffff,0,I4
,0);
6224 VARANDCY(UINT
,0,0,I4
,0);
6226 VARAND(BSTR
,false_str
,BSTR
,false_str
,BOOL
,0);
6227 VARAND(BSTR
,true_str
,BSTR
,false_str
,BOOL
,VARIANT_FALSE
);
6228 VARAND(BSTR
,true_str
,BSTR
,true_str
,BOOL
,VARIANT_TRUE
);
6229 VARANDCY(BSTR
,true_str
,10000,I4
,1);
6230 VARANDCY(BSTR
,false_str
,10000,I4
,0);
6232 SysFreeString(true_str
);
6233 SysFreeString(false_str
);
6236 static HRESULT (WINAPI
*pVarCmp
)(LPVARIANT
,LPVARIANT
,LCID
,ULONG
);
6238 static void test_cmp( int line
, LCID lcid
, UINT flags
, VARIANT
*left
, VARIANT
*right
, HRESULT result
)
6242 hres
= pVarCmp(left
,right
,lcid
,flags
);
6243 ok_(__FILE__
,line
)(hres
== result
, "VarCmp(%s,%s): expected 0x%x, got hres=0x%x\n",
6244 variantstr(left
), variantstr(right
), result
, hres
);
6246 static void test_cmpex( int line
, LCID lcid
, VARIANT
*left
, VARIANT
*right
,
6247 HRESULT res1
, HRESULT res2
, HRESULT res3
, HRESULT res4
)
6249 test_cmp( line
, lcid
, 0, left
, right
, res1
);
6250 V_VT(left
) |= VT_RESERVED
;
6251 test_cmp( line
, lcid
, 0, left
, right
, res2
);
6252 V_VT(left
) &= ~VT_RESERVED
;
6253 V_VT(right
) |= VT_RESERVED
;
6254 test_cmp( line
, lcid
, 0, left
, right
, res3
);
6255 V_VT(left
) |= VT_RESERVED
;
6256 test_cmp( line
, lcid
, 0, left
, right
, res4
);
6257 ok_(__FILE__
,line
)(V_VT(left
) & V_VT(right
) & VT_RESERVED
, "VT_RESERVED filtered out\n");
6260 /* ERROR from wingdi.h is interfering here */
6262 #define _VARCMP(vt1,val1,vtfl1,vt2,val2,vtfl2,lcid,flags,result) \
6263 V_##vt1(&left) = val1; V_VT(&left) = VT_##vt1 | vtfl1; \
6264 V_##vt2(&right) = val2; V_VT(&right) = VT_##vt2 | vtfl2; \
6265 test_cmp( __LINE__, lcid, flags, &left, &right, result )
6266 #define VARCMPEX(vt1,val1,vt2,val2,res1,res2,res3,res4) \
6267 V_##vt1(&left) = val1; V_VT(&left) = VT_##vt1; \
6268 V_##vt2(&right) = val2; V_VT(&right) = VT_##vt2; \
6269 test_cmpex( __LINE__, lcid, &left, &right, res1, res2, res3, res4 )
6270 #define VARCMP(vt1,val1,vt2,val2,result) \
6271 VARCMPEX(vt1,val1,vt2,val2,result,result,result,result)
6272 /* The above macros do not work for VT_NULL as NULL gets expanded first */
6273 #define V_NULL_ V_NULL
6274 #define VT_NULL_ VT_NULL
6276 static void test_VarCmp(void)
6278 VARIANT left
, right
;
6283 static const WCHAR szhuh
[] = {'h','u','h','?','\0'};
6284 static const WCHAR sz2cents
[] = {'2','c','e','n','t','s','\0'};
6285 static const WCHAR szempty
[] = {'\0'};
6286 static const WCHAR sz0
[] = {'0','\0'};
6287 static const WCHAR sz1
[] = {'1','\0'};
6288 static const WCHAR sz7
[] = {'7','\0'};
6289 static const WCHAR sz42
[] = {'4','2','\0'};
6290 static const WCHAR sz1neg
[] = {'-','1','\0'};
6291 static const WCHAR sz666neg
[] = {'-','6','6','6','\0'};
6292 static const WCHAR sz1few
[] = {'1','.','0','0','0','0','0','0','0','1','\0'};
6293 BSTR bstrhuh
, bstrempty
, bstr0
, bstr1
, bstr7
, bstr42
, bstr1neg
, bstr666neg
;
6294 BSTR bstr2cents
, bstr1few
;
6298 lcid
= MAKELCID(MAKELANGID(LANG_ENGLISH
,SUBLANG_ENGLISH_US
),SORT_DEFAULT
);
6299 bstrempty
= SysAllocString(szempty
);
6300 bstrhuh
= SysAllocString(szhuh
);
6301 bstr2cents
= SysAllocString(sz2cents
);
6302 bstr0
= SysAllocString(sz0
);
6303 bstr1
= SysAllocString(sz1
);
6304 bstr7
= SysAllocString(sz7
);
6305 bstr42
= SysAllocString(sz42
);
6306 bstr1neg
= SysAllocString(sz1neg
);
6307 bstr666neg
= SysAllocString(sz666neg
);
6308 bstr1few
= SysAllocString(sz1few
);
6310 /* Test all possible flag/vt combinations & the resulting vt type */
6311 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
6313 VARTYPE leftvt
, rightvt
;
6315 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
6320 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
6323 HRESULT expect
= VARCMP_EQ
;
6327 memset(&left
, 0, sizeof(left
));
6328 memset(&right
, 0, sizeof(right
));
6329 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
6330 if (leftvt
== VT_BSTR
) {
6331 V_BSTR(&left
) = bstr1neg
;
6332 if (ExtraFlags
[i
] & VT_RESERVED
)
6337 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
6338 if (rightvt
== VT_BSTR
) {
6339 V_BSTR(&right
) = bstr1neg
;
6340 if (ExtraFlags
[i
] & VT_RESERVED
)
6346 /* Don't ask me why but native VarCmp cannot handle:
6347 VT_I1, VT_UI2, VT_UI4, VT_UINT and VT_UI8.
6348 VT_INT is only supported as left variant. Go figure.
6349 Tested with DCOM98, Win2k, WinXP */
6350 if (ExtraFlags
[i
] & VT_ARRAY
|| ExtraFlags
[i
] & VT_BYREF
||
6351 !IsValidVariantClearVT(leftvt
, ExtraFlags
[i
] & ~VT_RESERVED
) ||
6352 !IsValidVariantClearVT(rightvt
, ExtraFlags
[i
] & ~VT_RESERVED
) ||
6353 leftvt
== VT_CLSID
|| rightvt
== VT_CLSID
||
6354 leftvt
== VT_DISPATCH
|| rightvt
== VT_DISPATCH
||
6355 leftvt
== VT_ERROR
|| rightvt
== VT_ERROR
||
6356 leftvt
== VT_RECORD
|| rightvt
== VT_RECORD
||
6357 leftvt
== VT_UNKNOWN
|| rightvt
== VT_UNKNOWN
||
6358 leftvt
== VT_VARIANT
|| rightvt
== VT_VARIANT
||
6359 leftvt
== VT_I1
|| rightvt
== VT_I1
||
6360 leftvt
== VT_UI2
|| rightvt
== VT_UI2
||
6361 leftvt
== VT_UI4
|| rightvt
== VT_UI4
||
6362 leftvt
== VT_UI8
|| rightvt
== VT_UI8
||
6363 rightvt
== VT_INT
||
6364 leftvt
== VT_UINT
|| rightvt
== VT_UINT
) {
6368 if (leftvt
== VT_ERROR
&& rightvt
== VT_ERROR
&&
6369 !(ExtraFlags
[i
] & ~VT_RESERVED
)) {
6372 } else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
6373 expect
= VARCMP_NULL
;
6374 else if (leftvt
== VT_BSTR
&& rightvt
== VT_BSTR
)
6376 else if (leftvt
== VT_BSTR
&& rightvt
== VT_EMPTY
)
6378 else if (leftvt
== VT_EMPTY
&& rightvt
== VT_BSTR
)
6381 hres
= pVarCmp(&left
, &right
, LOCALE_USER_DEFAULT
, 0);
6383 ok(hres
== DISP_E_TYPEMISMATCH
|| hres
== DISP_E_BADVARTYPE
,
6384 "VarCmp: %d|0x%X, %d|0x%X: Expected failure, got 0x%X\n",
6385 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], hres
);
6388 "VarCmp: %d|0x%X, %d|0x%X: Expected 0x%X, got 0x%X\n",
6389 leftvt
, ExtraFlags
[i
], rightvt
, ExtraFlags
[i
], expect
,
6396 /* VARCMP{,EX} run each 4 tests with a permutation of all possible
6397 input variants with (1) and without (0) VT_RESERVED set. The order
6398 of the permutations is (0,0); (1,0); (0,1); (1,1) */
6399 VARCMP(INT
,4711,I2
,4711,VARCMP_EQ
);
6400 VARCMP(INT
,4711,I2
,-4711,VARCMP_GT
);
6401 VARCMP(ERROR
,0,ERROR
,0,VARCMP_EQ
);
6402 VARCMP(ERROR
,0,UI1
,0,DISP_E_TYPEMISMATCH
);
6403 VARCMP(EMPTY
,0,EMPTY
,0,VARCMP_EQ
);
6404 VARCMP(I4
,1,R8
,1.0,VARCMP_EQ
);
6405 VARCMP(EMPTY
,19,I2
,0,VARCMP_EQ
);
6406 ok(V_EMPTY(&left
) == 19, "VT_EMPTY modified!\n");
6407 VARCMP(I4
,1,UI1
,1,VARCMP_EQ
);
6408 VARCMP(I2
,2,I2
,2,VARCMP_EQ
);
6409 VARCMP(I2
,1,I2
,2,VARCMP_LT
);
6410 VARCMP(I2
,2,I2
,1,VARCMP_GT
);
6411 VARCMP(I2
,2,EMPTY
,1,VARCMP_GT
);
6412 VARCMP(I2
,2,NULL_
,1,VARCMP_NULL
);
6414 /* BSTR handling, especially in conjunction with VT_RESERVED */
6415 VARCMP(BSTR
,bstr0
,NULL_
,0,VARCMP_NULL
);
6416 VARCMP(BSTR
,bstr0
,BSTR
,bstr0
,VARCMP_EQ
);
6417 VARCMP(BSTR
,bstrempty
,BSTR
,bstr0
,VARCMP_LT
);
6418 VARCMP(BSTR
,bstr7
,BSTR
,bstr0
,VARCMP_GT
);
6419 VARCMP(BSTR
,bstr7
,BSTR
,bstr1neg
,VARCMP_GT
);
6420 VARCMP(BSTR
,bstr0
,BSTR
,NULL
,VARCMP_GT
);
6421 VARCMP(BSTR
,NULL
,BSTR
,NULL
,VARCMP_EQ
);
6422 VARCMP(BSTR
,bstrempty
,BSTR
,NULL
,VARCMP_EQ
);
6423 VARCMP(BSTR
,NULL
,EMPTY
,0,VARCMP_EQ
);
6424 VARCMP(EMPTY
,0,BSTR
,NULL
,VARCMP_EQ
);
6425 VARCMP(EMPTY
,0,BSTR
,bstrempty
,VARCMP_EQ
);
6426 VARCMP(EMPTY
,1,BSTR
,bstrempty
,VARCMP_EQ
);
6427 VARCMP(BSTR
,bstr0
,EMPTY
,0,VARCMP_GT
);
6428 VARCMP(BSTR
,bstr42
,EMPTY
,0,VARCMP_GT
);
6429 VARCMPEX(BSTR
,bstrempty
,UI1
,0,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
,VARCMP_GT
);
6430 VARCMPEX(BSTR
,bstrempty
,I2
,-1,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
,VARCMP_GT
);
6431 VARCMPEX(I4
,0,BSTR
,bstrempty
,VARCMP_LT
,VARCMP_LT
,VARCMP_GT
,VARCMP_LT
);
6432 VARCMPEX(BSTR
,NULL
,UI1
,0,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
,VARCMP_GT
);
6433 VARCMPEX(I4
,7,BSTR
,NULL
,VARCMP_LT
,VARCMP_LT
,VARCMP_GT
,VARCMP_LT
);
6434 _VARCMP(BSTR
,(BSTR
)100,0,I2
,100,0,lcid
,0,VARCMP_GT
);
6435 VARCMPEX(BSTR
,bstr0
,UI1
,0,VARCMP_GT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_GT
);
6436 VARCMPEX(I2
,0,BSTR
,bstr0
,VARCMP_LT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_LT
);
6437 VARCMP(BSTR
,bstrhuh
,I4
,I4_MAX
,VARCMP_GT
);
6438 VARCMP(BSTR
,bstr2cents
,I4
,2,VARCMP_GT
);
6439 VARCMPEX(BSTR
,bstr2cents
,I4
,42,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
,VARCMP_GT
);
6440 VARCMP(BSTR
,bstr2cents
,I4
,-1,VARCMP_GT
);
6441 VARCMPEX(BSTR
,bstr2cents
,I4
,-666,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
,VARCMP_GT
);
6442 VARCMPEX(BSTR
,bstr0
,I2
,0,VARCMP_GT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_GT
);
6443 VARCMPEX(BSTR
,bstr0
,I4
,0,VARCMP_GT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_GT
);
6444 VARCMPEX(BSTR
,bstr0
,I4
,-666,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
,VARCMP_GT
);
6445 VARCMP(BSTR
,bstr1
,I4
,0,VARCMP_GT
);
6446 VARCMPEX(BSTR
,bstr1
,I4
,1,VARCMP_GT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_GT
);
6447 VARCMPEX(BSTR
,bstr1
,I4
,I4_MAX
,VARCMP_GT
,VARCMP_LT
,VARCMP_LT
,VARCMP_GT
);
6448 VARCMPEX(BSTR
,bstr1
,I4
,-1,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
,VARCMP_GT
);
6449 VARCMP(BSTR
,bstr7
,I4
,1,VARCMP_GT
);
6450 VARCMPEX(BSTR
,bstr7
,I4
,7,VARCMP_GT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_GT
);
6451 VARCMPEX(BSTR
,bstr7
,I4
,42,VARCMP_GT
,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
);
6452 VARCMPEX(BSTR
,bstr42
,I4
,7,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
,VARCMP_GT
);
6453 VARCMPEX(BSTR
,bstr42
,I4
,42,VARCMP_GT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_GT
);
6454 VARCMPEX(BSTR
,bstr42
,I4
,I4_MAX
,VARCMP_GT
,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
);
6455 VARCMPEX(BSTR
,bstr1neg
,I4
,1,VARCMP_GT
,VARCMP_GT
,VARCMP_LT
,VARCMP_LT
);
6456 VARCMPEX(BSTR
,bstr1neg
,I4
,42,VARCMP_GT
,VARCMP_LT
,VARCMP_LT
,VARCMP_LT
);
6457 VARCMPEX(BSTR
,bstr1neg
,I4
,-1,VARCMP_GT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_LT
);
6458 VARCMPEX(BSTR
,bstr1neg
,I4
,-666,VARCMP_GT
,VARCMP_LT
,VARCMP_GT
,VARCMP_LT
);
6459 VARCMPEX(BSTR
,bstr666neg
,I4
,1,VARCMP_GT
,VARCMP_GT
,VARCMP_LT
,VARCMP_LT
);
6460 VARCMPEX(BSTR
,bstr666neg
,I4
,7,VARCMP_GT
,VARCMP_LT
,VARCMP_LT
,VARCMP_LT
);
6461 VARCMPEX(BSTR
,bstr666neg
,I4
,42,VARCMP_GT
,VARCMP_GT
,VARCMP_LT
,VARCMP_LT
);
6462 VARCMPEX(BSTR
,bstr666neg
,I4
,I4_MAX
,VARCMP_GT
,VARCMP_GT
,VARCMP_LT
,VARCMP_LT
);
6463 VARCMPEX(BSTR
,bstr666neg
,I4
,-1,VARCMP_GT
,VARCMP_GT
,VARCMP_LT
,VARCMP_LT
);
6464 VARCMPEX(BSTR
,bstr666neg
,I4
,-666,VARCMP_GT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_LT
);
6465 VARCMPEX(BSTR
,bstr7
,R8
,7.0,VARCMP_GT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_GT
);
6466 VARCMPEX(R8
,3.141592,BSTR
,NULL
,VARCMP_LT
,VARCMP_LT
,VARCMP_GT
,VARCMP_LT
);
6467 VARCMP(BSTR
,bstr7
,BSTR
,bstr7
,VARCMP_EQ
);
6468 VARCMP(BSTR
,bstr7
,BSTR
,bstr42
,VARCMP_GT
);
6469 VARCMP(BSTR
,bstr42
,BSTR
,bstr7
,VARCMP_LT
);
6471 /* DECIMAL handling */
6472 setdec(&dec
,0,0,0,0);
6473 VARCMPEX(DECIMAL
,dec
,BSTR
,bstr0
,VARCMP_LT
,VARCMP_EQ
,VARCMP_EQ
,VARCMP_LT
);
6474 setdec64(&dec
,0,0,0xFFFFFFFF,0xFFFFFFFF,0xFFFFFFFF); /* max DECIMAL */
6475 VARCMP(DECIMAL
,dec
,R8
,R8_MAX
,VARCMP_LT
); /* R8 has bigger range */
6476 VARCMP(DECIMAL
,dec
,DATE
,R8_MAX
,VARCMP_LT
); /* DATE has bigger range */
6477 setdec64(&dec
,0,0x80,0xFFFFFFFF,0xFFFFFFFF,0xFFFFFFFF);
6478 VARCMP(DECIMAL
,dec
,R8
,-R8_MAX
,VARCMP_GT
);
6479 setdec64(&dec
,20,0,0x5,0x6BC75E2D,0x63100001); /* 1+1e-20 */
6480 VARCMP(DECIMAL
,dec
,R8
,1,VARCMP_GT
); /* DECIMAL has higher precision */
6482 /* Show that DATE is handled just as a R8 */
6483 VARCMP(DATE
,DATE_MAX
,DATE
,DATE_MAX
+1,VARCMP_LT
);
6484 VARCMP(DATE
,DATE_MIN
,DATE
,DATE_MIN
-1,VARCMP_GT
);
6485 VARCMP(DATE
,R8_MIN
,R8
,R8_MIN
,VARCMP_EQ
);
6486 VARCMP(DATE
,1,DATE
,1+1e-15,VARCMP_LT
); /* 1e-15 == 8.64e-11 seconds */
6487 VARCMP(DATE
,25570.0,DATE
,25570.0,VARCMP_EQ
);
6488 VARCMP(DATE
,25570.0,DATE
,25571.0,VARCMP_LT
);
6489 VARCMP(DATE
,25571.0,DATE
,25570.0,VARCMP_GT
);
6490 VARCMP(DATE
,25570.0,EMPTY
,0,VARCMP_GT
);
6491 VARCMP(DATE
,25570.0,NULL_
,0,VARCMP_NULL
);
6493 /* R4 precision handling */
6494 VARCMP(R4
,1,R8
,1+1e-8,VARCMP_EQ
);
6495 VARCMP(R8
,1+1e-8,R4
,1,VARCMP_EQ
);
6496 VARCMP(R8
,1+1e-8,R8
,1,VARCMP_GT
);
6497 VARCMP(R8
,R4_MAX
*1.1,R4
,R4_MAX
,VARCMP_GT
);
6498 VARCMP(R4
,R4_MAX
,R8
,R8_MAX
,VARCMP_LT
);
6499 VARCMP(R4
,1,DATE
,1+1e-8,VARCMP_EQ
);
6500 VARCMP(R4
,1,BSTR
,bstr1few
,VARCMP_LT
); /* bstr1few == 1+1e-8 */
6501 setdec(&dec
,8,0,0,0x5F5E101); /* 1+1e-8 */
6502 VARCMP(R4
,1,DECIMAL
,dec
,VARCMP_LT
);
6504 SysFreeString(bstrhuh
);
6505 SysFreeString(bstrempty
);
6506 SysFreeString(bstr0
);
6507 SysFreeString(bstr1
);
6508 SysFreeString(bstr7
);
6509 SysFreeString(bstr42
);
6510 SysFreeString(bstr1neg
);
6511 SysFreeString(bstr666neg
);
6512 SysFreeString(bstr2cents
);
6513 SysFreeString(bstr1few
);
6516 static HRESULT (WINAPI
*pVarPow
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
6518 #define VARPOW(vt1,val1,vt2,val2,rvt,rval) \
6519 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
6520 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
6521 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
6522 test_var_call2( __LINE__, pVarPow, &left, &right, &exp )
6524 /* Skip any type that is not defined or produces an error for every case */
6525 #define SKIPTESTPOW(a) \
6526 if (a == VT_ERROR || a == VT_VARIANT || \
6527 a == VT_DISPATCH || a == VT_UNKNOWN || \
6528 a == VT_RECORD || a > VT_UINT || \
6529 a == 15 /*not defined*/) \
6532 static void test_VarPow(void)
6534 static const WCHAR str2
[] = { '2','\0' };
6535 static const WCHAR str3
[] = { '3','\0' };
6536 VARIANT left
, right
, exp
, result
, cy
, dec
;
6537 BSTR num2_str
, num3_str
;
6543 num2_str
= SysAllocString(str2
);
6544 num3_str
= SysAllocString(str3
);
6546 /* Test all possible flag/vt combinations & the resulting vt type */
6547 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
6549 VARTYPE leftvt
, rightvt
, resvt
;
6551 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
6553 SKIPTESTPOW(leftvt
);
6555 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
6558 SKIPTESTPOW(rightvt
);
6560 /* Native crashes with VT_BYREF */
6561 if (ExtraFlags
[i
] == VT_BYREF
)
6564 memset(&left
, 0, sizeof(left
));
6565 memset(&right
, 0, sizeof(right
));
6566 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
6567 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
6568 V_VT(&result
) = VT_EMPTY
;
6571 if (leftvt
== VT_BSTR
)
6572 V_BSTR(&left
) = num2_str
;
6573 if (rightvt
== VT_BSTR
)
6574 V_BSTR(&right
) = num2_str
;
6576 /* Native VarPow always returns an error when using extra flags */
6577 if (ExtraFlags
[i
] != 0)
6580 /* Determine return type */
6581 else if ((leftvt
== VT_NULL
|| rightvt
== VT_NULL
) &&
6582 ((leftvt
!= VT_I8
&& leftvt
!= VT_UI8
&&
6583 rightvt
!= VT_I8
&& rightvt
!= VT_UI8
) || HAVE_OLEAUT32_I8
))
6585 else if ((leftvt
== VT_EMPTY
|| leftvt
== VT_I2
||
6586 leftvt
== VT_I4
|| leftvt
== VT_R4
||
6587 leftvt
== VT_R8
|| leftvt
== VT_CY
||
6588 leftvt
== VT_DATE
|| leftvt
== VT_BSTR
||
6589 leftvt
== VT_BOOL
|| leftvt
== VT_DECIMAL
||
6590 (leftvt
>= VT_I1
&& leftvt
<= VT_UI4
) ||
6591 (HAVE_OLEAUT32_I8
&& (leftvt
== VT_I8
|| leftvt
== VT_UI8
)) ||
6592 leftvt
== VT_INT
|| leftvt
== VT_UINT
) &&
6593 (rightvt
== VT_EMPTY
|| rightvt
== VT_I2
||
6594 rightvt
== VT_I4
|| rightvt
== VT_R4
||
6595 rightvt
== VT_R8
|| rightvt
== VT_CY
||
6596 rightvt
== VT_DATE
|| rightvt
== VT_BSTR
||
6597 rightvt
== VT_BOOL
|| rightvt
== VT_DECIMAL
||
6598 (rightvt
>= VT_I1
&& rightvt
<= VT_UI4
) ||
6599 (HAVE_OLEAUT32_I8
&& (rightvt
== VT_I8
|| rightvt
== VT_UI8
)) ||
6600 rightvt
== VT_INT
|| rightvt
== VT_UINT
))
6605 hres
= pVarPow(&left
, &right
, &result
);
6607 /* Check expected HRESULT and if result variant type is correct */
6609 ok (hres
== DISP_E_BADVARTYPE
|| hres
== DISP_E_TYPEMISMATCH
,
6610 "VarPow: %s|0x%X, %s|0x%X: got vt %s hr 0x%X\n",
6611 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
],
6612 vtstr(V_VT(&result
)), hres
);
6614 ok (hres
== S_OK
&& resvt
== V_VT(&result
),
6615 "VarPow: %s|0x%X, %s|0x%X: expected vt %s hr 0x%X, got vt %s hr 0x%X\n",
6616 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
], vtstr(resvt
),
6617 S_OK
, vtstr(V_VT(&result
)), hres
);
6622 /* Check return values for valid variant type combinations */
6623 VARPOW(EMPTY
,0,EMPTY
,0,R8
,1.0);
6624 VARPOW(EMPTY
,0,NULL
,0,NULL
,0);
6625 VARPOW(EMPTY
,0,I2
,3,R8
,0.0);
6626 VARPOW(EMPTY
,0,I4
,3,R8
,0.0);
6627 VARPOW(EMPTY
,0,R4
,3.0f
,R8
,0.0);
6628 VARPOW(EMPTY
,0,R8
,3.0,R8
,0.0);
6629 VARPOW(EMPTY
,0,DATE
,3,R8
,0.0);
6630 VARPOW(EMPTY
,0,BSTR
,num3_str
,R8
,0.0);
6631 VARPOW(EMPTY
,0,BOOL
,VARIANT_FALSE
,R8
,1.0);
6632 VARPOW(EMPTY
,0,I1
,3,R8
,0.0);
6633 VARPOW(EMPTY
,0,UI1
,3,R8
,0.0);
6634 VARPOW(EMPTY
,0,UI2
,3,R8
,0.0);
6635 VARPOW(EMPTY
,0,UI4
,3,R8
,0.0);
6636 if (HAVE_OLEAUT32_I8
)
6638 VARPOW(EMPTY
,0,I8
,3,R8
,0.0);
6639 VARPOW(EMPTY
,0,UI8
,3,R8
,0.0);
6641 VARPOW(EMPTY
,0,INT
,3,R8
,0.0);
6642 VARPOW(EMPTY
,0,UINT
,3,R8
,0.0);
6643 VARPOW(NULL
,0,EMPTY
,0,NULL
,0);
6644 VARPOW(NULL
,0,NULL
,0,NULL
,0);
6645 VARPOW(NULL
,0,I2
,3,NULL
,0);
6646 VARPOW(NULL
,0,I4
,3,NULL
,0);
6647 VARPOW(NULL
,0,R4
,3.0f
,NULL
,0);
6648 VARPOW(NULL
,0,R8
,3.0,NULL
,0);
6649 VARPOW(NULL
,0,DATE
,3,NULL
,0);
6650 VARPOW(NULL
,0,BSTR
,num3_str
,NULL
,0);
6651 VARPOW(NULL
,0,BOOL
,VARIANT_TRUE
,NULL
,0);
6652 VARPOW(NULL
,0,I1
,3,NULL
,0);
6653 VARPOW(NULL
,0,UI1
,3,NULL
,0);
6654 VARPOW(NULL
,0,UI2
,3,NULL
,0);
6655 VARPOW(NULL
,0,UI4
,3,NULL
,0);
6656 if (HAVE_OLEAUT32_I8
)
6658 VARPOW(NULL
,0,I8
,3,NULL
,0);
6659 VARPOW(NULL
,0,UI8
,3,NULL
,0);
6661 VARPOW(NULL
,0,INT
,3,NULL
,0);
6662 VARPOW(NULL
,0,UINT
,3,NULL
,0);
6663 VARPOW(I2
,2,EMPTY
,0,R8
,1.0);
6664 VARPOW(I2
,2,NULL
,0,NULL
,0);
6665 VARPOW(I2
,2,I2
,3,R8
,8.0);
6666 VARPOW(I2
,2,I4
,3,R8
,8.0);
6667 VARPOW(I2
,2,R4
,3.0f
,R8
,8.0);
6668 VARPOW(I2
,2,R8
,3.0,R8
,8.0);
6669 VARPOW(I2
,2,DATE
,3,R8
,8.0);
6670 VARPOW(I2
,2,BSTR
,num3_str
,R8
,8.0);
6671 VARPOW(I2
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6672 VARPOW(I2
,2,I1
,3,R8
,8.0);
6673 VARPOW(I2
,2,UI1
,3,R8
,8.0);
6674 VARPOW(I2
,2,UI2
,3,R8
,8.0);
6675 VARPOW(I2
,2,UI4
,3,R8
,8.0);
6676 if (HAVE_OLEAUT32_I8
)
6678 VARPOW(I2
,2,I8
,3,R8
,8.0);
6679 VARPOW(I2
,2,UI8
,3,R8
,8.0);
6681 VARPOW(I2
,2,INT
,3,R8
,8.0);
6682 VARPOW(I2
,2,UINT
,3,R8
,8.0);
6683 VARPOW(I4
,2,EMPTY
,0,R8
,1.0);
6684 VARPOW(I4
,2,NULL
,0,NULL
,0);
6685 VARPOW(I4
,2,I2
,3,R8
,8.0);
6686 VARPOW(I4
,2,I4
,3,R8
,8.0);
6687 VARPOW(I4
,2,R4
,3.0f
,R8
,8.0);
6688 VARPOW(I4
,2,R8
,3.0,R8
,8.0);
6689 VARPOW(I4
,2,DATE
,3,R8
,8.0);
6690 VARPOW(I4
,2,BSTR
,num3_str
,R8
,8.0);
6691 VARPOW(I4
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6692 VARPOW(I4
,2,I1
,3,R8
,8.0);
6693 VARPOW(I4
,2,UI1
,3,R8
,8.0);
6694 VARPOW(I4
,2,UI2
,3,R8
,8.0);
6695 VARPOW(I4
,2,UI4
,3,R8
,8.0);
6696 if (HAVE_OLEAUT32_I8
)
6698 VARPOW(I4
,2,I8
,3,R8
,8.0);
6699 VARPOW(I4
,2,UI8
,3,R8
,8.0);
6701 VARPOW(I4
,2,INT
,3,R8
,8.0);
6702 VARPOW(I4
,2,UINT
,3,R8
,8.0);
6703 VARPOW(R4
,2,EMPTY
,0,R8
,1.0);
6704 VARPOW(R4
,2,NULL
,0,NULL
,0);
6705 VARPOW(R4
,2,I2
,3,R8
,8.0);
6706 VARPOW(R4
,2,I4
,3,R8
,8.0);
6707 VARPOW(R4
,2,R4
,3.0f
,R8
,8.0);
6708 VARPOW(R4
,2,R8
,3.0,R8
,8.0);
6709 VARPOW(R4
,2,DATE
,3,R8
,8.0);
6710 VARPOW(R4
,2,BSTR
,num3_str
,R8
,8.0);
6711 VARPOW(R4
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6712 VARPOW(R4
,2,I1
,3,R8
,8.0);
6713 VARPOW(R4
,2,UI1
,3,R8
,8.0);
6714 VARPOW(R4
,2,UI2
,3,R8
,8.0);
6715 VARPOW(R4
,2,UI4
,3,R8
,8.0);
6716 if (HAVE_OLEAUT32_I8
)
6718 VARPOW(R4
,2,I8
,3,R8
,8.0);
6719 VARPOW(R4
,2,UI8
,3,R8
,8.0);
6721 VARPOW(R4
,2,INT
,3,R8
,8.0);
6722 VARPOW(R4
,2,UINT
,3,R8
,8.0);
6723 VARPOW(R8
,2,EMPTY
,0,R8
,1.0);
6724 VARPOW(R8
,2,NULL
,0,NULL
,0);
6725 VARPOW(R8
,2,I2
,3,R8
,8.0);
6726 VARPOW(R8
,2,I4
,3,R8
,8.0);
6727 VARPOW(R8
,2,R4
,3.0f
,R8
,8.0);
6728 VARPOW(R8
,2,R8
,3.0,R8
,8.0);
6729 VARPOW(R8
,2,DATE
,3,R8
,8.0);
6730 VARPOW(R8
,2,BSTR
,num3_str
,R8
,8.0);
6731 VARPOW(R8
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6732 VARPOW(R8
,2,I1
,3,R8
,8.0);
6733 VARPOW(R8
,2,UI1
,3,R8
,8.0);
6734 VARPOW(R8
,2,UI2
,3,R8
,8.0);
6735 VARPOW(R8
,2,UI4
,3,R8
,8.0);
6736 if (HAVE_OLEAUT32_I8
)
6738 VARPOW(R8
,2,I8
,3,R8
,8.0);
6739 VARPOW(R8
,2,UI8
,3,R8
,8.0);
6741 VARPOW(R8
,2,INT
,3,R8
,8.0);
6742 VARPOW(R8
,2,UINT
,3,R8
,8.0);
6743 VARPOW(DATE
,2,EMPTY
,0,R8
,1.0);
6744 VARPOW(DATE
,2,NULL
,0,NULL
,0);
6745 VARPOW(DATE
,2,I2
,3,R8
,8.0);
6746 VARPOW(DATE
,2,I4
,3,R8
,8.0);
6747 VARPOW(DATE
,2,R4
,3.0f
,R8
,8.0);
6748 VARPOW(DATE
,2,R8
,3.0,R8
,8.0);
6749 VARPOW(DATE
,2,DATE
,3,R8
,8.0);
6750 VARPOW(DATE
,2,BSTR
,num3_str
,R8
,8.0);
6751 VARPOW(DATE
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6752 VARPOW(DATE
,2,I1
,3,R8
,8.0);
6753 VARPOW(DATE
,2,UI1
,3,R8
,8.0);
6754 VARPOW(DATE
,2,UI2
,3,R8
,8.0);
6755 VARPOW(DATE
,2,UI4
,3,R8
,8.0);
6756 if (HAVE_OLEAUT32_I8
)
6758 VARPOW(DATE
,2,I8
,3,R8
,8.0);
6759 VARPOW(DATE
,2,UI8
,3,R8
,8.0);
6761 VARPOW(DATE
,2,INT
,3,R8
,8.0);
6762 VARPOW(DATE
,2,UINT
,3,R8
,8.0);
6763 VARPOW(BSTR
,num2_str
,EMPTY
,0,R8
,1.0);
6764 VARPOW(BSTR
,num2_str
,NULL
,0,NULL
,0);
6765 VARPOW(BSTR
,num2_str
,I2
,3,R8
,8.0);
6766 VARPOW(BSTR
,num2_str
,I4
,3,R8
,8.0);
6767 VARPOW(BSTR
,num2_str
,R4
,3.0f
,R8
,8.0);
6768 VARPOW(BSTR
,num2_str
,R8
,3.0,R8
,8.0);
6769 VARPOW(BSTR
,num2_str
,DATE
,3,R8
,8.0);
6770 VARPOW(BSTR
,num2_str
,BSTR
,num3_str
,R8
,8.0);
6771 VARPOW(BSTR
,num2_str
,BOOL
,VARIANT_FALSE
,R8
,1.0);
6772 VARPOW(BSTR
,num2_str
,I1
,3,R8
,8.0);
6773 VARPOW(BSTR
,num2_str
,UI1
,3,R8
,8.0);
6774 VARPOW(BSTR
,num2_str
,UI2
,3,R8
,8.0);
6775 VARPOW(BSTR
,num2_str
,UI4
,3,R8
,8.0);
6776 if (HAVE_OLEAUT32_I8
)
6778 VARPOW(BSTR
,num2_str
,I8
,3,R8
,8.0);
6779 VARPOW(BSTR
,num2_str
,UI8
,3,R8
,8.0);
6781 VARPOW(BSTR
,num2_str
,INT
,3,R8
,8.0);
6782 VARPOW(BSTR
,num2_str
,UINT
,3,R8
,8.0);
6783 VARPOW(BOOL
,VARIANT_TRUE
,EMPTY
,0,R8
,1.0);
6784 VARPOW(BOOL
,VARIANT_TRUE
,NULL
,0,NULL
,0);
6785 VARPOW(BOOL
,VARIANT_TRUE
,I2
,3,R8
,-1.0);
6786 VARPOW(BOOL
,VARIANT_TRUE
,I4
,3,R8
,-1.0);
6787 VARPOW(BOOL
,VARIANT_TRUE
,R4
,3.0f
,R8
,-1.0);
6788 VARPOW(BOOL
,VARIANT_TRUE
,R8
,3.0,R8
,-1.0);
6789 VARPOW(BOOL
,VARIANT_TRUE
,DATE
,3,R8
,-1.0);
6790 VARPOW(BOOL
,VARIANT_TRUE
,BSTR
,num3_str
,R8
,-1.0);
6791 VARPOW(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
,R8
,-1.0);
6792 VARPOW(BOOL
,VARIANT_TRUE
,I1
,3,R8
,-1.0);
6793 VARPOW(BOOL
,VARIANT_TRUE
,UI1
,3,R8
,-1.0);
6794 VARPOW(BOOL
,VARIANT_TRUE
,UI2
,3,R8
,-1.0);
6795 VARPOW(BOOL
,VARIANT_TRUE
,UI4
,3,R8
,-1.0);
6796 if (HAVE_OLEAUT32_I8
)
6798 VARPOW(BOOL
,VARIANT_TRUE
,I8
,3,R8
,-1.0);
6799 VARPOW(BOOL
,VARIANT_TRUE
,UI8
,3,R8
,-1.0);
6801 VARPOW(BOOL
,VARIANT_TRUE
,INT
,3,R8
,-1.0);
6802 VARPOW(BOOL
,VARIANT_TRUE
,UINT
,3,R8
,-1.0);
6803 VARPOW(I1
,2,EMPTY
,0,R8
,1.0);
6804 VARPOW(I1
,2,NULL
,0,NULL
,0);
6805 VARPOW(I1
,2,I2
,3,R8
,8.0);
6806 VARPOW(I1
,2,I4
,3,R8
,8.0);
6807 VARPOW(I1
,2,R4
,3.0f
,R8
,8.0);
6808 VARPOW(I1
,2,R8
,3.0,R8
,8.0);
6809 VARPOW(I1
,2,DATE
,3,R8
,8.0);
6810 VARPOW(I1
,2,BSTR
,num3_str
,R8
,8.0);
6811 VARPOW(I1
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6812 VARPOW(I1
,2,I1
,3,R8
,8.0);
6813 VARPOW(I1
,2,UI1
,3,R8
,8.0);
6814 VARPOW(I1
,2,UI2
,3,R8
,8.0);
6815 VARPOW(I1
,2,UI4
,3,R8
,8.0);
6816 if (HAVE_OLEAUT32_I8
)
6818 VARPOW(I1
,2,I8
,3,R8
,8.0);
6819 VARPOW(I1
,2,UI8
,3,R8
,8.0);
6821 VARPOW(I1
,2,INT
,3,R8
,8.0);
6822 VARPOW(I1
,2,UINT
,3,R8
,8.0);
6823 VARPOW(UI1
,2,EMPTY
,0,R8
,1.0);
6824 VARPOW(UI1
,2,NULL
,0,NULL
,0);
6825 VARPOW(UI1
,2,I2
,3,R8
,8.0);
6826 VARPOW(UI1
,2,I4
,3,R8
,8.0);
6827 VARPOW(UI1
,2,R4
,3.0f
,R8
,8.0);
6828 VARPOW(UI1
,2,R8
,3.0,R8
,8.0);
6829 VARPOW(UI1
,2,DATE
,3,R8
,8.0);
6830 VARPOW(UI1
,2,BSTR
,num3_str
,R8
,8.0);
6831 VARPOW(UI1
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6832 VARPOW(UI1
,2,I1
,3,R8
,8.0);
6833 VARPOW(UI1
,2,UI1
,3,R8
,8.0);
6834 VARPOW(UI1
,2,UI2
,3,R8
,8.0);
6835 VARPOW(UI1
,2,UI4
,3,R8
,8.0);
6836 if (HAVE_OLEAUT32_I8
)
6838 VARPOW(UI1
,2,I8
,3,R8
,8.0);
6839 VARPOW(UI1
,2,UI8
,3,R8
,8.0);
6841 VARPOW(UI1
,2,INT
,3,R8
,8.0);
6842 VARPOW(UI1
,2,UINT
,3,R8
,8.0);
6843 VARPOW(UI2
,2,EMPTY
,0,R8
,1.0);
6844 VARPOW(UI2
,2,NULL
,0,NULL
,0);
6845 VARPOW(UI2
,2,I2
,3,R8
,8.0);
6846 VARPOW(UI2
,2,I4
,3,R8
,8.0);
6847 VARPOW(UI2
,2,R4
,3.0f
,R8
,8.0);
6848 VARPOW(UI2
,2,R8
,3.0,R8
,8.0);
6849 VARPOW(UI2
,2,DATE
,3,R8
,8.0);
6850 VARPOW(UI2
,2,BSTR
,num3_str
,R8
,8.0);
6851 VARPOW(UI2
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6852 VARPOW(UI2
,2,I1
,3,R8
,8.0);
6853 VARPOW(UI2
,2,UI1
,3,R8
,8.0);
6854 VARPOW(UI2
,2,UI2
,3,R8
,8.0);
6855 VARPOW(UI2
,2,UI4
,3,R8
,8.0);
6856 if (HAVE_OLEAUT32_I8
)
6858 VARPOW(UI2
,2,I8
,3,R8
,8.0);
6859 VARPOW(UI2
,2,UI8
,3,R8
,8.0);
6861 VARPOW(UI2
,2,INT
,3,R8
,8.0);
6862 VARPOW(UI2
,2,UINT
,3,R8
,8.0);
6863 VARPOW(UI4
,2,EMPTY
,0,R8
,1.0);
6864 VARPOW(UI4
,2,NULL
,0,NULL
,0);
6865 VARPOW(UI4
,2,I2
,3,R8
,8.0);
6866 VARPOW(UI4
,2,I4
,3,R8
,8.0);
6867 VARPOW(UI4
,2,R4
,3.0f
,R8
,8.0);
6868 VARPOW(UI4
,2,R8
,3.0,R8
,8.0);
6869 VARPOW(UI4
,2,DATE
,3,R8
,8.0);
6870 VARPOW(UI4
,2,BSTR
,num3_str
,R8
,8.0);
6871 VARPOW(UI4
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6872 VARPOW(UI4
,2,I1
,3,R8
,8.0);
6873 VARPOW(UI4
,2,UI1
,3,R8
,8.0);
6874 VARPOW(UI4
,2,UI2
,3,R8
,8.0);
6875 VARPOW(UI4
,2,UI4
,3,R8
,8.0);
6876 if (HAVE_OLEAUT32_I8
)
6878 VARPOW(UI4
,2,I8
,3,R8
,8.0);
6879 VARPOW(UI4
,2,UI8
,3,R8
,8.0);
6881 VARPOW(UI4
,2,INT
,3,R8
,8.0);
6882 VARPOW(UI4
,2,UINT
,3,R8
,8.0);
6883 if (HAVE_OLEAUT32_I8
)
6885 VARPOW(I8
,2,EMPTY
,0,R8
,1.0);
6886 VARPOW(I8
,2,NULL
,0,NULL
,0);
6887 VARPOW(I8
,2,I2
,3,R8
,8.0);
6888 VARPOW(I8
,2,I4
,3,R8
,8.0);
6889 VARPOW(I8
,2,R4
,3.0f
,R8
,8.0);
6890 VARPOW(I8
,2,R8
,3.0,R8
,8.0);
6891 VARPOW(I8
,2,DATE
,3,R8
,8.0);
6892 VARPOW(I8
,2,BSTR
,num3_str
,R8
,8.0);
6893 VARPOW(I8
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6894 VARPOW(I8
,2,I1
,3,R8
,8.0);
6895 VARPOW(I8
,2,UI1
,3,R8
,8.0);
6896 VARPOW(I8
,2,UI2
,3,R8
,8.0);
6897 VARPOW(I8
,2,UI4
,3,R8
,8.0);
6898 VARPOW(I8
,2,I8
,3,R8
,8.0);
6899 VARPOW(I8
,2,UI8
,3,R8
,8.0);
6900 VARPOW(I8
,2,INT
,3,R8
,8.0);
6901 VARPOW(I8
,2,UINT
,3,R8
,8.0);
6902 VARPOW(UI8
,2,EMPTY
,0,R8
,1.0);
6903 VARPOW(UI8
,2,NULL
,0,NULL
,0);
6904 VARPOW(UI8
,2,I2
,3,R8
,8.0);
6905 VARPOW(UI8
,2,I4
,3,R8
,8.0);
6906 VARPOW(UI8
,2,R4
,3.0f
,R8
,8.0);
6907 VARPOW(UI8
,2,R8
,3.0,R8
,8.0);
6908 VARPOW(UI8
,2,DATE
,3,R8
,8.0);
6909 VARPOW(UI8
,2,BSTR
,num3_str
,R8
,8.0);
6910 VARPOW(UI8
,2,I1
,3,R8
,8.0);
6911 VARPOW(UI8
,2,UI1
,3,R8
,8.0);
6912 VARPOW(UI8
,2,UI2
,3,R8
,8.0);
6913 VARPOW(UI8
,2,UI4
,3,R8
,8.0);
6914 VARPOW(UI8
,2,I8
,3,R8
,8.0);
6915 VARPOW(UI8
,2,UI8
,3,R8
,8.0);
6916 VARPOW(UI8
,2,INT
,3,R8
,8.0);
6917 VARPOW(UI8
,2,UINT
,3,R8
,8.0);
6919 VARPOW(INT
,2,EMPTY
,0,R8
,1.0);
6920 VARPOW(INT
,2,NULL
,0,NULL
,0);
6921 VARPOW(INT
,2,I2
,3,R8
,8.0);
6922 VARPOW(INT
,2,I4
,3,R8
,8.0);
6923 VARPOW(INT
,2,R4
,3.0f
,R8
,8.0);
6924 VARPOW(INT
,2,R8
,3.0,R8
,8.0);
6925 VARPOW(INT
,2,DATE
,3,R8
,8.0);
6926 VARPOW(INT
,2,BSTR
,num3_str
,R8
,8.0);
6927 VARPOW(INT
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6928 VARPOW(INT
,2,I1
,3,R8
,8.0);
6929 VARPOW(INT
,2,UI1
,3,R8
,8.0);
6930 VARPOW(INT
,2,UI2
,3,R8
,8.0);
6931 VARPOW(INT
,2,UI4
,3,R8
,8.0);
6932 if (HAVE_OLEAUT32_I8
)
6934 VARPOW(INT
,2,I8
,3,R8
,8.0);
6935 VARPOW(INT
,2,UI8
,3,R8
,8.0);
6937 VARPOW(INT
,2,INT
,3,R8
,8.0);
6938 VARPOW(INT
,2,UINT
,3,R8
,8.0);
6939 VARPOW(UINT
,2,EMPTY
,0,R8
,1.0);
6940 VARPOW(UINT
,2,NULL
,0,NULL
,0);
6941 VARPOW(UINT
,2,I2
,3,R8
,8.0);
6942 VARPOW(UINT
,2,I4
,3,R8
,8.0);
6943 VARPOW(UINT
,2,R4
,3.0f
,R8
,8.0);
6944 VARPOW(UINT
,2,R8
,3.0,R8
,8.0);
6945 VARPOW(UINT
,2,DATE
,3,R8
,8.0);
6946 VARPOW(UINT
,2,BSTR
,num3_str
,R8
,8.0);
6947 VARPOW(UINT
,2,BOOL
,VARIANT_FALSE
,R8
,1.0);
6948 VARPOW(UINT
,2,I1
,3,R8
,8.0);
6949 VARPOW(UINT
,2,UI1
,3,R8
,8.0);
6950 VARPOW(UINT
,2,UI2
,3,R8
,8.0);
6951 VARPOW(UINT
,2,UI4
,3,R8
,8.0);
6952 if (HAVE_OLEAUT32_I8
)
6954 VARPOW(UINT
,2,I8
,3,R8
,8.0);
6955 VARPOW(UINT
,2,UI8
,3,R8
,8.0);
6957 VARPOW(UINT
,2,INT
,3,R8
,8.0);
6958 VARPOW(UINT
,2,UINT
,3,R8
,8.0);
6960 /* Manually test some VT_CY, VT_DECIMAL variants */
6962 hres
= VarCyFromI4(2, &V_CY(&cy
));
6963 ok(hres
== S_OK
, "VarCyFromI4 failed!\n");
6964 V_VT(&dec
) = VT_DECIMAL
;
6965 hres
= VarDecFromR8(2.0, &V_DECIMAL(&dec
));
6966 ok(hres
== S_OK
, "VarDecFromR4 failed!\n");
6967 memset(&left
, 0, sizeof(left
));
6968 memset(&right
, 0, sizeof(right
));
6969 V_VT(&left
) = VT_I4
;
6971 V_VT(&right
) = VT_I8
;
6974 hres
= pVarPow(&cy
, &cy
, &result
);
6975 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
6976 "VARPOW: expected coerced hres 0x%X type VT_R8, got hres 0x%X type %s!\n",
6977 S_OK
, hres
, vtstr(V_VT(&result
)));
6978 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
), 4.0),
6979 "VARPOW: CY value %f, expected %f\n", V_R8(&result
), 4.0);
6981 hres
= pVarPow(&cy
, &right
, &result
);
6984 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
6985 "VARPOW: expected coerced hres 0x%X type VT_R8, got hres 0x%X type %s!\n",
6986 S_OK
, hres
, vtstr(V_VT(&result
)));
6987 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
), 4.0),
6988 "VARPOW: CY value %f, expected %f\n", V_R8(&result
), 4.0);
6992 ok(hres
== DISP_E_BADVARTYPE
&& V_VT(&result
) == VT_EMPTY
,
6993 "VARPOW: expected coerced hres 0x%X type VT_EMPTY, got hres 0x%X type %s!\n",
6994 DISP_E_BADVARTYPE
, hres
, vtstr(V_VT(&result
)));
6997 hres
= pVarPow(&left
, &cy
, &result
);
6998 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
6999 "VARPOW: expected coerced hres 0x%X type VT_R8, got hres 0x%X type %s!\n",
7000 S_OK
, hres
, vtstr(V_VT(&result
)));
7001 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
), 10000.0),
7002 "VARPOW: CY value %f, expected %f\n", V_R8(&result
), 10000.0);
7004 hres
= pVarPow(&left
, &dec
, &result
);
7005 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
7006 "VARPOW: expected coerced hres 0x%X type VT_R8, got hres 0x%X type %s!\n",
7007 S_OK
, hres
, vtstr(V_VT(&result
)));
7008 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
),10000.0),
7009 "VARPOW: DECIMAL value %f, expected %f\n", V_R8(&result
), 10000.0);
7011 hres
= pVarPow(&dec
, &dec
, &result
);
7012 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
7013 "VARPOW: expected coerced hres 0x%X type VT_R8, got hres 0x%X type %s!\n",
7014 S_OK
, hres
, vtstr(V_VT(&result
)));
7015 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
), 4.0),
7016 "VARPOW: DECIMAL value %f, expected %f\n", V_R8(&result
), 4.0);
7018 hres
= pVarPow(&dec
, &right
, &result
);
7021 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
7022 "VARPOW: expected coerced hres 0x%X type VT_R8, got hres 0x%X type %s!\n",
7023 S_OK
, hres
, vtstr(V_VT(&result
)));
7024 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
), 4.0),
7025 "VARPOW: DECIMAL value %f, expected %f\n", V_R8(&result
), 4.0);
7029 ok(hres
== DISP_E_BADVARTYPE
&& V_VT(&result
) == VT_EMPTY
,
7030 "VARPOW: expected coerced hres 0x%X type VT_EMPTY, got hres 0x%X type %s!\n",
7031 DISP_E_BADVARTYPE
, hres
, vtstr(V_VT(&result
)));
7034 SysFreeString(num2_str
);
7035 SysFreeString(num3_str
);
7038 static HRESULT (WINAPI
*pVarDiv
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
7040 #define VARDIV(vt1,val1,vt2,val2,rvt,rval) \
7041 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
7042 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
7043 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
7044 test_var_call2( __LINE__, pVarDiv, &left, &right, &exp )
7046 /* Skip any type that is not defined or produces an error for every case */
7047 #define SKIPTESTDIV(a) \
7048 if (a == VT_ERROR || a == VT_VARIANT || \
7049 a == VT_DISPATCH || a == VT_UNKNOWN || \
7050 a == VT_RECORD || a > VT_UINT || \
7051 a == VT_I1 || a == VT_UI8 || \
7052 a == VT_INT || a == VT_UINT || \
7053 a == VT_UI2 || a == VT_UI4 || \
7054 a == 15 /*not defined*/) \
7057 static void test_VarDiv(void)
7059 static const WCHAR str1
[] = { '1','\0' };
7060 static const WCHAR str2
[] = { '2','\0' };
7061 VARIANT left
, right
, exp
, result
, cy
, dec
;
7062 BSTR num1_str
, num2_str
;
7064 HRESULT hres
, expectedhres
;
7067 num1_str
= SysAllocString(str1
);
7068 num2_str
= SysAllocString(str2
);
7072 /* Test all possible flag/vt combinations & the resulting vt type */
7073 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
7075 VARTYPE leftvt
, rightvt
, resvt
;
7077 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
7079 SKIPTESTDIV(leftvt
);
7081 /* Check if we need/have support for I8 */
7082 if (leftvt
== VT_I8
&& !HAVE_OLEAUT32_I8
)
7085 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
7088 SKIPTESTDIV(rightvt
);
7090 /* Check if we need/have support for I8 */
7091 if (rightvt
== VT_I8
&& !HAVE_OLEAUT32_I8
)
7094 /* Native crashes with VT_BYREF */
7095 if (ExtraFlags
[i
] == VT_BYREF
)
7098 memset(&left
, 0, sizeof(left
));
7099 memset(&right
, 0, sizeof(right
));
7100 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
7101 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
7102 V_VT(&result
) = VT_EMPTY
;
7104 expectedhres
= S_OK
;
7106 if (leftvt
== VT_BSTR
)
7107 V_BSTR(&left
) = num2_str
;
7108 else if (leftvt
== VT_DECIMAL
)
7110 VarDecFromR8(2.0, &V_DECIMAL(&left
));
7111 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
7114 /* Division by 0 is undefined */
7118 V_BSTR(&right
) = num2_str
;
7121 VarDecFromR8(2.0, &V_DECIMAL(&right
));
7122 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
7125 V_BOOL(&right
) = VARIANT_TRUE
;
7127 case VT_I2
: V_I2(&right
) = 2; break;
7128 case VT_I4
: V_I4(&right
) = 2; break;
7129 case VT_R4
: V_R4(&right
) = 2.0f
; break;
7130 case VT_R8
: V_R8(&right
) = 2.0; break;
7131 case VT_CY
: V_CY(&right
).int64
= 2; break;
7132 case VT_DATE
: V_DATE(&right
) = 2; break;
7133 case VT_UI1
: V_UI1(&right
) = 2; break;
7134 case VT_I8
: V_I8(&right
) = 2; break;
7138 /* Determine return type */
7139 if (!(rightvt
== VT_EMPTY
))
7141 if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
7143 else if (leftvt
== VT_DECIMAL
|| rightvt
== VT_DECIMAL
)
7145 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
||
7146 leftvt
== VT_CY
|| rightvt
== VT_CY
||
7147 leftvt
== VT_DATE
|| rightvt
== VT_DATE
||
7148 leftvt
== VT_I4
|| rightvt
== VT_I4
||
7149 leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
||
7150 leftvt
== VT_I2
|| rightvt
== VT_I2
||
7151 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
||
7152 leftvt
== VT_R8
|| rightvt
== VT_R8
||
7153 leftvt
== VT_UI1
|| rightvt
== VT_UI1
)
7155 if ((leftvt
== VT_UI1
&& rightvt
== VT_R4
) ||
7156 (leftvt
== VT_R4
&& rightvt
== VT_UI1
))
7158 else if ((leftvt
== VT_R4
&& (rightvt
== VT_BOOL
||
7159 rightvt
== VT_I2
)) || (rightvt
== VT_R4
&&
7160 (leftvt
== VT_BOOL
|| leftvt
== VT_I2
)))
7165 else if (leftvt
== VT_R4
|| rightvt
== VT_R4
)
7168 else if (leftvt
== VT_NULL
&& rightvt
== VT_EMPTY
)
7173 /* Native VarDiv always returns an error when using extra flags */
7174 if (ExtraFlags
[i
] != 0)
7177 hres
= pVarDiv(&left
, &right
, &result
);
7179 /* Check expected HRESULT and if result variant type is correct */
7181 ok (hres
== DISP_E_BADVARTYPE
|| hres
== DISP_E_TYPEMISMATCH
||
7182 hres
== DISP_E_OVERFLOW
|| hres
== DISP_E_DIVBYZERO
,
7183 "VarDiv: %s|0x%X, %s|0x%X: got vt %s hr 0x%X\n",
7184 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
],
7185 vtstr(V_VT(&result
)), hres
);
7187 ok (hres
== S_OK
&& resvt
== V_VT(&result
),
7188 "VarDiv: %s|0x%X, %s|0x%X: expected vt %s hr 0x%X, got vt %s hr 0x%X\n",
7189 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
], vtstr(resvt
),
7190 S_OK
, vtstr(V_VT(&result
)), hres
);
7195 /* Test return values for all the good cases */
7196 VARDIV(EMPTY
,0,NULL
,0,NULL
,0);
7197 VARDIV(EMPTY
,0,I2
,2,R8
,0.0);
7198 VARDIV(EMPTY
,0,I4
,2,R8
,0.0);
7199 VARDIV(EMPTY
,0,R4
,2.0f
,R4
,0.0f
);
7200 VARDIV(EMPTY
,0,R8
,2.0,R8
,0.0);
7201 VARDIV(EMPTY
,0,DATE
,2.0,R8
,0.0);
7202 VARDIV(EMPTY
,0,BSTR
,num2_str
,R8
,0.0);
7203 VARDIV(EMPTY
,0,BOOL
,VARIANT_TRUE
,R8
,0.0);
7204 VARDIV(EMPTY
,0,UI1
,2,R8
,0.0);
7205 if (HAVE_OLEAUT32_I8
)
7207 VARDIV(EMPTY
,0,I8
,2,R8
,0.0);
7209 VARDIV(NULL
,0,EMPTY
,0,NULL
,0);
7210 VARDIV(NULL
,0,NULL
,0,NULL
,0);
7211 VARDIV(NULL
,0,I2
,2,NULL
,0);
7212 VARDIV(NULL
,0,I4
,2,NULL
,0);
7213 VARDIV(NULL
,0,R4
,2.0f
,NULL
,0);
7214 VARDIV(NULL
,0,R8
,2.0,NULL
,0);
7215 VARDIV(NULL
,0,DATE
,2,NULL
,0);
7216 VARDIV(NULL
,0,BSTR
,num2_str
,NULL
,0);
7217 VARDIV(NULL
,0,BOOL
,VARIANT_TRUE
,NULL
,0);
7218 VARDIV(NULL
,0,UI1
,2,NULL
,0);
7219 if (HAVE_OLEAUT32_I8
)
7221 VARDIV(NULL
,0,I8
,2,NULL
,0);
7223 VARDIV(I2
,2,NULL
,0,NULL
,0);
7224 VARDIV(I2
,1,I2
,2,R8
,0.5);
7225 VARDIV(I2
,1,I4
,2,R8
,0.5);
7226 VARDIV(I2
,1,R4
,2,R4
,0.5f
);
7227 VARDIV(I2
,1,R8
,2.0,R8
,0.5);
7228 VARDIV(I2
,1,DATE
,2,R8
,0.5);
7229 VARDIV(I2
,1,BOOL
,VARIANT_TRUE
,R8
,-1.0);
7230 VARDIV(I2
,1,UI1
,2,R8
,0.5);
7231 if (HAVE_OLEAUT32_I8
)
7233 VARDIV(I2
,1,I8
,2,R8
,0.5);
7235 VARDIV(I4
,1,NULL
,0,NULL
,0);
7236 VARDIV(I4
,1,I2
,2,R8
,0.5);
7237 VARDIV(I4
,1,I4
,2,R8
,0.5);
7238 VARDIV(I4
,1,R4
,2.0f
,R8
,0.5);
7239 VARDIV(I4
,1,R8
,2.0,R8
,0.5);
7240 VARDIV(I4
,1,DATE
,2,R8
,0.5);
7241 VARDIV(I4
,1,BSTR
,num2_str
,R8
,0.5);
7242 VARDIV(I4
,1,BOOL
,VARIANT_TRUE
,R8
,-1.0);
7243 VARDIV(I4
,1,UI1
,2,R8
,0.5);
7244 if (HAVE_OLEAUT32_I8
)
7246 VARDIV(I4
,1,I8
,2,R8
,0.5);
7248 VARDIV(R4
,1.0f
,NULL
,0,NULL
,0);
7249 VARDIV(R4
,1.0f
,I2
,2,R4
,0.5f
);
7250 VARDIV(R4
,1.0f
,I4
,2,R8
,0.5);
7251 VARDIV(R4
,1.0f
,R4
,2.0f
,R4
,0.5f
);
7252 VARDIV(R4
,1.0f
,R8
,2.0,R8
,0.5);
7253 VARDIV(R4
,1.0f
,DATE
,2,R8
,0.5);
7254 VARDIV(R4
,1.0f
,BSTR
,num2_str
,R8
,0.5);
7255 VARDIV(R4
,1.0f
,BOOL
,VARIANT_TRUE
,R4
,-1);
7256 VARDIV(R4
,1.0f
,UI1
,2,R4
,0.5f
);
7257 if (HAVE_OLEAUT32_I8
)
7259 VARDIV(R4
,1.0f
,I8
,2,R8
,0.5);
7261 VARDIV(R8
,1.0,NULL
,0,NULL
,0);
7262 VARDIV(R8
,1.0,I2
,2,R8
,0.5);
7263 VARDIV(R8
,1.0,I4
,2,R8
,0.5);
7264 VARDIV(R8
,1.0,R4
,2.0f
,R8
,0.5);
7265 VARDIV(R8
,1.0,R8
,2.0,R8
,0.5);
7266 VARDIV(R8
,1.0,DATE
,2,R8
,0.5);
7267 VARDIV(R8
,1.0,BSTR
,num2_str
,R8
,0.5);
7268 VARDIV(R8
,1.0,BOOL
,VARIANT_TRUE
,R8
,-1.0);
7269 VARDIV(R8
,1.0,UI1
,2,R8
,0.5);
7270 if (HAVE_OLEAUT32_I8
)
7272 VARDIV(R8
,1.0,I8
,2,R8
,0.5);
7274 VARDIV(DATE
,1,NULL
,0,NULL
,0);
7275 VARDIV(DATE
,1,I2
,2,R8
,0.5);
7276 VARDIV(DATE
,1,I4
,2,R8
,0.5);
7277 VARDIV(DATE
,1,R4
,2.0f
,R8
,0.5);
7278 VARDIV(DATE
,1,R8
,2.0,R8
,0.5);
7279 VARDIV(DATE
,1,DATE
,2,R8
,0.5);
7280 VARDIV(DATE
,1,BSTR
,num2_str
,R8
,0.5);
7281 VARDIV(DATE
,1,BOOL
,VARIANT_TRUE
,R8
,-1.0);
7282 VARDIV(DATE
,1,UI1
,2,R8
,0.5);
7283 if (HAVE_OLEAUT32_I8
)
7285 VARDIV(DATE
,1,I8
,2,R8
,0.5);
7287 VARDIV(BSTR
,num1_str
,NULL
,0,NULL
,0);
7288 VARDIV(BSTR
,num1_str
,I2
,2,R8
,0.5);
7289 VARDIV(BSTR
,num1_str
,I4
,2,R8
,0.5);
7290 VARDIV(BSTR
,num1_str
,R4
,2.0f
,R8
,0.5);
7291 VARDIV(BSTR
,num1_str
,R8
,2.0,R8
,0.5);
7292 VARDIV(BSTR
,num1_str
,DATE
,2,R8
,0.5);
7293 VARDIV(BSTR
,num1_str
,BSTR
,num2_str
,R8
,0.5);
7294 VARDIV(BSTR
,num1_str
,BOOL
,VARIANT_TRUE
,R8
,-1);
7295 VARDIV(BSTR
,num1_str
,UI1
,2,R8
,0.5);
7296 if (HAVE_OLEAUT32_I8
)
7298 VARDIV(BSTR
,num1_str
,I8
,2,R8
,0.5);
7300 VARDIV(BOOL
,VARIANT_TRUE
,NULL
,0,NULL
,0);
7301 VARDIV(BOOL
,VARIANT_TRUE
,I2
,1,R8
,-1.0);
7302 VARDIV(BOOL
,VARIANT_FALSE
,I2
,1,R8
,0.0);
7303 VARDIV(BOOL
,VARIANT_TRUE
,I4
,1,R8
,-1.0);
7304 VARDIV(BOOL
,VARIANT_FALSE
,I4
,1,R8
,0.0);
7305 VARDIV(BOOL
,VARIANT_TRUE
,R4
,1,R4
,-1.0f
);
7306 VARDIV(BOOL
,VARIANT_FALSE
,R4
,1,R4
,0.0f
);
7307 VARDIV(BOOL
,VARIANT_TRUE
,R8
,1.0,R8
,-1.0);
7308 VARDIV(BOOL
,VARIANT_FALSE
,R8
,1.0,R8
,0.0);
7309 VARDIV(BOOL
,VARIANT_FALSE
,DATE
,2,R8
,0.0);
7310 VARDIV(BOOL
,VARIANT_FALSE
,BSTR
,num2_str
,R8
,0.0);
7311 VARDIV(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
,R8
,1.0);
7312 VARDIV(BOOL
,VARIANT_FALSE
,BOOL
,VARIANT_TRUE
,R8
,0.0);
7313 VARDIV(BOOL
,VARIANT_TRUE
,UI1
,1,R8
,-1.0);
7314 if (HAVE_OLEAUT32_I8
)
7316 VARDIV(BOOL
,VARIANT_TRUE
,I8
,1,R8
,-1.0);
7318 VARDIV(UI1
,1,NULL
,0,NULL
,0);
7319 VARDIV(UI1
,1,I2
,2,R8
,0.5);
7320 VARDIV(UI1
,1,I4
,2,R8
,0.5);
7321 VARDIV(UI1
,1,R4
,2.0f
,R4
,0.5f
);
7322 VARDIV(UI1
,1,R8
,2.0,R8
,0.5);
7323 VARDIV(UI1
,1,DATE
,2,R8
,0.5);
7324 VARDIV(UI1
,1,BSTR
,num2_str
,R8
,0.5);
7325 VARDIV(UI1
,1,BOOL
,VARIANT_TRUE
,R8
,-1);
7326 VARDIV(UI1
,1,UI1
,2,R8
,0.5);
7327 if (HAVE_OLEAUT32_I8
)
7329 VARDIV(UI1
,1,I8
,2,R8
,0.5);
7330 VARDIV(I8
,1,NULL
,0,NULL
,0);
7331 VARDIV(I8
,1,I2
,2,R8
,0.5);
7332 VARDIV(I8
,1,I4
,2,R8
,0.5);
7333 VARDIV(I8
,1,R4
,2.0f
,R8
,0.5);
7334 VARDIV(I8
,1,R8
,2.0,R8
,0.5);
7335 VARDIV(I8
,1,DATE
,2,R8
,0.5);
7336 VARDIV(I8
,1,BSTR
,num2_str
,R8
,0.5);
7337 VARDIV(I8
,1,BOOL
,VARIANT_TRUE
,R8
,-1);
7338 VARDIV(I8
,1,UI1
,2,R8
,0.5);
7339 VARDIV(I8
,1,I8
,2,R8
,0.5);
7342 /* Manually test some VT_CY, VT_DECIMAL variants */
7344 hres
= VarCyFromI4(10000, &V_CY(&cy
));
7345 ok(hres
== S_OK
, "VarCyFromI4 failed!\n");
7346 V_VT(&dec
) = VT_DECIMAL
;
7347 hres
= VarDecFromR8(2.0, &V_DECIMAL(&dec
));
7348 ok(hres
== S_OK
, "VarDecFromR4 failed!\n");
7349 memset(&left
, 0, sizeof(left
));
7350 memset(&right
, 0, sizeof(right
));
7351 V_VT(&left
) = VT_I4
;
7353 V_VT(&right
) = VT_UI1
;
7356 hres
= pVarDiv(&cy
, &cy
, &result
);
7357 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
7358 "VARDIV: expected coerced type VT_R8, got %s!\n", vtstr(V_VT(&result
)));
7359 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
), 1.0),
7360 "VARDIV: CY value %f, expected %f\n", V_R8(&result
), (double)1.0);
7362 hres
= pVarDiv(&cy
, &right
, &result
);
7363 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
7364 "VARDIV: expected coerced type VT_R8, got %s!\n", vtstr(V_VT(&result
)));
7365 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
), 5000.0),
7366 "VARDIV: CY value %f, expected %f\n", V_R8(&result
), (double)5000.0);
7368 hres
= pVarDiv(&left
, &cy
, &result
);
7369 ok(hres
== S_OK
&& V_VT(&result
) == VT_R8
,
7370 "VARDIV: expected coerced type VT_R8, got %s!\n", vtstr(V_VT(&result
)));
7371 ok(hres
== S_OK
&& EQ_DOUBLE(V_R8(&result
), 0.01),
7372 "VARDIV: CY value %f, expected %f\n", V_R8(&result
), (double)0.01);
7374 hres
= pVarDiv(&left
, &dec
, &result
);
7375 ok(hres
== S_OK
&& V_VT(&result
) == VT_DECIMAL
,
7376 "VARDIV: expected coerced type VT_DECIMAL, got %s!\n", vtstr(V_VT(&result
)));
7377 hres
= VarR8FromDec(&V_DECIMAL(&result
), &r
);
7378 ok(hres
== S_OK
&& EQ_DOUBLE(r
, 50.0),
7379 "VARDIV: DECIMAL value %f, expected %f\n", r
, (double)50.0);
7381 hres
= pVarDiv(&dec
, &dec
, &result
);
7382 ok(hres
== S_OK
&& V_VT(&result
) == VT_DECIMAL
,
7383 "VARDIV: expected coerced type VT_DECIMAL, got %s!\n", vtstr(V_VT(&result
)));
7384 hres
= VarR8FromDec(&V_DECIMAL(&result
), &r
);
7385 ok(hres
== S_OK
&& EQ_DOUBLE(r
, 1.0),
7386 "VARDIV: DECIMAL value %f, expected %f\n", r
, (double)1.0);
7388 hres
= pVarDiv(&dec
, &right
, &result
);
7389 ok(hres
== S_OK
&& V_VT(&result
) == VT_DECIMAL
,
7390 "VARDIV: expected coerced type VT_DECIMAL, got %s!\n", vtstr(V_VT(&result
)));
7391 hres
= VarR8FromDec(&V_DECIMAL(&result
), &r
);
7392 ok(hres
== S_OK
&& EQ_DOUBLE(r
, 1.0),
7393 "VARDIV: DECIMAL value %f, expected %f\n", r
, (double)1.0);
7395 /* Check for division by zero and overflow */
7396 V_VT(&left
) = VT_R8
;
7398 V_VT(&right
) = VT_R8
;
7400 hres
= pVarDiv(&left
, &right
, &result
);
7401 ok(hres
== DISP_E_DIVBYZERO
&& V_VT(&result
) == VT_EMPTY
,
7402 "VARDIV: Division by (1.0/0.0) should result in DISP_E_DIVBYZERO but got 0x%X\n", hres
);
7404 V_VT(&left
) = VT_R8
;
7406 V_VT(&right
) = VT_R8
;
7408 hres
= pVarDiv(&left
, &right
, &result
);
7409 ok(hres
== DISP_E_OVERFLOW
&& V_VT(&result
) == VT_EMPTY
,
7410 "VARDIV: Division by (0.0/0.0) should result in DISP_E_OVERFLOW but got 0x%X\n", hres
);
7412 SysFreeString(num1_str
);
7413 SysFreeString(num2_str
);
7416 static HRESULT (WINAPI
*pVarIdiv
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
7418 #define VARIDIV(vt1,val1,vt2,val2,rvt,rval) \
7419 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
7420 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
7421 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
7422 test_var_call2( __LINE__, pVarIdiv, &left, &right, &exp )
7424 /* Skip any type that is not defined or produces an error for every case */
7425 #define SKIPTESTIDIV(a) \
7426 if (a == VT_ERROR || a == VT_VARIANT || \
7427 a == VT_DISPATCH || a == VT_UNKNOWN || \
7428 a == VT_RECORD || a > VT_UINT || \
7429 a == 15 /*not defined*/) \
7432 static void test_VarIdiv(void)
7434 static const WCHAR str1
[] = { '1','\0' };
7435 static const WCHAR str2
[] = { '2','\0' };
7436 VARIANT left
, right
, exp
, result
, cy
, dec
;
7437 BSTR num1_str
, num2_str
;
7443 num1_str
= SysAllocString(str1
);
7444 num2_str
= SysAllocString(str2
);
7446 /* Test all possible flag/vt combinations & the resulting vt type */
7447 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
7449 VARTYPE leftvt
, rightvt
, resvt
;
7451 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
7453 SKIPTESTIDIV(leftvt
);
7455 /* Check if we need/have support for I8 and/or UI8 */
7456 if ((leftvt
== VT_I8
|| leftvt
== VT_UI8
) && !HAVE_OLEAUT32_I8
)
7459 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
7462 SKIPTESTIDIV(rightvt
);
7464 /* Native crashes with extra flag VT_BYREF */
7465 if (ExtraFlags
[i
] == VT_BYREF
)
7468 /* Check if we need/have support for I8 and/or UI8 */
7469 if ((rightvt
== VT_I8
|| rightvt
== VT_UI8
) && !HAVE_OLEAUT32_I8
)
7472 memset(&left
, 0, sizeof(left
));
7473 memset(&right
, 0, sizeof(right
));
7474 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
7475 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
7476 V_VT(&result
) = VT_EMPTY
;
7479 if (leftvt
== VT_BSTR
)
7480 V_BSTR(&left
) = num2_str
;
7481 else if (leftvt
== VT_DECIMAL
)
7483 VarDecFromR8(2.0, &V_DECIMAL(&left
));
7484 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
7487 /* Division by 0 is undefined */
7491 V_BSTR(&right
) = num2_str
;
7494 VarDecFromR8(2.0, &V_DECIMAL(&right
));
7495 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
7498 V_BOOL(&right
) = VARIANT_TRUE
;
7501 VarCyFromI4(10000, &V_CY(&right
));
7502 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
7504 case VT_I2
: V_I2(&right
) = 2; break;
7505 case VT_I4
: V_I4(&right
) = 2; break;
7506 case VT_R4
: V_R4(&right
) = 2.0f
; break;
7507 case VT_R8
: V_R8(&right
) = 2.0; break;
7508 case VT_DATE
: V_DATE(&right
) = 2; break;
7509 case VT_I1
: V_I1(&right
) = 2; break;
7510 case VT_UI1
: V_UI1(&right
) = 2; break;
7511 case VT_UI2
: V_UI2(&right
) = 2; break;
7512 case VT_UI4
: V_UI4(&right
) = 2; break;
7513 case VT_I8
: V_I8(&right
) = 2; break;
7514 case VT_UI8
: V_UI8(&right
) = 2; break;
7515 case VT_INT
: V_INT(&right
) = 2; break;
7516 case VT_UINT
: V_UINT(&right
) = 2; break;
7520 /* Native VarIdiv always returns an error when using extra
7521 * flags or if the variant combination is I8 and INT.
7523 if ((leftvt
== VT_I8
&& rightvt
== VT_INT
) ||
7524 (leftvt
== VT_INT
&& rightvt
== VT_I8
) ||
7525 (rightvt
== VT_EMPTY
&& leftvt
!= VT_NULL
) ||
7529 /* Determine variant type */
7530 else if (leftvt
== VT_NULL
|| rightvt
== VT_NULL
)
7532 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
7534 else if (leftvt
== VT_I4
|| rightvt
== VT_I4
||
7535 leftvt
== VT_INT
|| rightvt
== VT_INT
||
7536 leftvt
== VT_UINT
|| rightvt
== VT_UINT
||
7537 leftvt
== VT_UI8
|| rightvt
== VT_UI8
||
7538 leftvt
== VT_UI4
|| rightvt
== VT_UI4
||
7539 leftvt
== VT_UI2
|| rightvt
== VT_UI2
||
7540 leftvt
== VT_I1
|| rightvt
== VT_I1
||
7541 leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
||
7542 leftvt
== VT_DATE
|| rightvt
== VT_DATE
||
7543 leftvt
== VT_CY
|| rightvt
== VT_CY
||
7544 leftvt
== VT_DECIMAL
|| rightvt
== VT_DECIMAL
||
7545 leftvt
== VT_R8
|| rightvt
== VT_R8
||
7546 leftvt
== VT_R4
|| rightvt
== VT_R4
)
7548 else if (leftvt
== VT_I2
|| rightvt
== VT_I2
||
7549 leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
||
7552 else if (leftvt
== VT_UI1
|| rightvt
== VT_UI1
)
7557 hres
= pVarIdiv(&left
, &right
, &result
);
7559 /* Check expected HRESULT and if result variant type is correct */
7561 ok (hres
== DISP_E_BADVARTYPE
|| hres
== DISP_E_TYPEMISMATCH
||
7562 hres
== DISP_E_DIVBYZERO
,
7563 "VarIdiv: %s|0x%X, %s|0x%X: got vt %s hr 0x%X\n",
7564 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
],
7565 vtstr(V_VT(&result
)), hres
);
7567 ok (hres
== S_OK
&& resvt
== V_VT(&result
),
7568 "VarIdiv: %s|0x%X, %s|0x%X: expected vt %s hr 0x%X, got vt %s hr 0x%X\n",
7569 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
], vtstr(resvt
),
7570 S_OK
, vtstr(V_VT(&result
)), hres
);
7575 /* Test return values for all the good cases */
7576 VARIDIV(EMPTY
,0,NULL
,0,NULL
,0);
7577 VARIDIV(EMPTY
,0,I2
,1,I2
,0);
7578 VARIDIV(EMPTY
,0,I4
,1,I4
,0);
7579 VARIDIV(EMPTY
,0,R4
,1.0f
,I4
,0);
7580 VARIDIV(EMPTY
,0,R8
,1.0,I4
,0);
7581 VARIDIV(EMPTY
,0,DATE
,1.0,I4
,0);
7582 VARIDIV(EMPTY
,0,BSTR
,num1_str
,I4
,0);
7583 VARIDIV(EMPTY
,0,BOOL
,VARIANT_TRUE
,I2
,0);
7584 VARIDIV(EMPTY
,0,I1
,1,I4
,0);
7585 VARIDIV(EMPTY
,0,UI1
,1,I2
,0);
7586 VARIDIV(EMPTY
,0,UI2
,1,I4
,0);
7587 VARIDIV(EMPTY
,0,UI4
,1,I4
,0);
7588 if (HAVE_OLEAUT32_I8
)
7590 VARIDIV(EMPTY
,0,I8
,1,I8
,0);
7591 VARIDIV(EMPTY
,0,UI8
,1,I4
,0);
7593 VARIDIV(EMPTY
,0,INT
,1,I4
,0);
7594 VARIDIV(EMPTY
,0,UINT
,1,I4
,0);
7595 VARIDIV(NULL
,0,EMPTY
,0,NULL
,0);
7596 VARIDIV(NULL
,0,NULL
,0,NULL
,0);
7597 VARIDIV(NULL
,0,I2
,1,NULL
,0);
7598 VARIDIV(NULL
,0,I4
,1,NULL
,0);
7599 VARIDIV(NULL
,0,R4
,1,NULL
,0);
7600 VARIDIV(NULL
,0,R8
,1,NULL
,0);
7601 VARIDIV(NULL
,0,DATE
,1,NULL
,0);
7602 VARIDIV(NULL
,0,BSTR
,num1_str
,NULL
,0);
7603 VARIDIV(NULL
,0,BOOL
,VARIANT_TRUE
,NULL
,0);
7604 VARIDIV(NULL
,0,I1
,1,NULL
,0);
7605 VARIDIV(NULL
,0,UI1
,1,NULL
,0);
7606 VARIDIV(NULL
,0,UI2
,1,NULL
,0);
7607 VARIDIV(NULL
,0,UI4
,1,NULL
,0);
7608 if (HAVE_OLEAUT32_I8
)
7610 VARIDIV(NULL
,0,I8
,1,NULL
,0);
7611 VARIDIV(NULL
,0,UI8
,1,NULL
,0);
7613 VARIDIV(NULL
,0,INT
,1,NULL
,0);
7614 VARIDIV(NULL
,0,UINT
,1,NULL
,0);
7615 VARIDIV(I2
,2,NULL
,0,NULL
,0);
7616 VARIDIV(I2
,2,I2
,1,I2
,2);
7617 VARIDIV(I2
,2,I4
,1,I4
,2);
7618 VARIDIV(I2
,2,R4
,1,I4
,2);
7619 VARIDIV(I2
,2,R8
,1,I4
,2);
7620 VARIDIV(I2
,2,DATE
,1,I4
,2);
7621 VARIDIV(I2
,2,BSTR
,num1_str
,I4
,2);
7622 VARIDIV(I2
,2,BOOL
,VARIANT_TRUE
,I2
,-2);
7623 VARIDIV(I2
,2,I1
,1,I4
,2);
7624 VARIDIV(I2
,2,UI1
,1,I2
,2);
7625 VARIDIV(I2
,2,UI2
,1,I4
,2);
7626 VARIDIV(I2
,2,UI4
,1,I4
,2);
7627 if (HAVE_OLEAUT32_I8
)
7629 VARIDIV(I2
,2,I8
,1,I8
,2);
7630 VARIDIV(I2
,2,UI8
,1,I4
,2);
7632 VARIDIV(I2
,2,INT
,1,I4
,2);
7633 VARIDIV(I2
,2,UINT
,1,I4
,2);
7634 VARIDIV(I4
,2,NULL
,0,NULL
,0);
7635 VARIDIV(I4
,2,I2
,1,I4
,2);
7636 VARIDIV(I4
,2,I4
,1,I4
,2);
7637 VARIDIV(I4
,2,R4
,1,I4
,2);
7638 VARIDIV(I4
,2,R8
,1,I4
,2);
7639 VARIDIV(I4
,2,DATE
,1,I4
,2);
7640 VARIDIV(I4
,2,BSTR
,num1_str
,I4
,2);
7641 VARIDIV(I4
,2,BOOL
,VARIANT_TRUE
,I4
,-2);
7642 VARIDIV(I4
,2,I1
,1,I4
,2);
7643 VARIDIV(I4
,2,UI1
,1,I4
,2);
7644 VARIDIV(I4
,2,UI2
,1,I4
,2);
7645 VARIDIV(I4
,2,UI4
,1,I4
,2);
7646 if (HAVE_OLEAUT32_I8
)
7648 VARIDIV(I4
,2,I8
,1,I8
,2);
7649 VARIDIV(I4
,2,UI8
,1,I4
,2);
7651 VARIDIV(I4
,2,INT
,1,I4
,2);
7652 VARIDIV(I4
,2,UINT
,1,I4
,2);
7653 VARIDIV(R4
,2.0f
,NULL
,0,NULL
,0);
7654 VARIDIV(R4
,2.0f
,I2
,1,I4
,2);
7655 VARIDIV(R4
,2.0f
,I4
,1,I4
,2);
7656 VARIDIV(R4
,2.0f
,R4
,1.0f
,I4
,2);
7657 VARIDIV(R4
,2.0f
,R8
,1.0,I4
,2);
7658 VARIDIV(R4
,2.0f
,DATE
,1,I4
,2);
7659 VARIDIV(R4
,2.0f
,BSTR
,num1_str
,I4
,2);
7660 VARIDIV(R4
,2.0f
,BOOL
,VARIANT_TRUE
,I4
,-2);
7661 VARIDIV(R4
,2.0f
,I1
,1,I4
,2);
7662 VARIDIV(R4
,2.0f
,UI1
,1,I4
,2);
7663 VARIDIV(R4
,2.0f
,UI2
,1,I4
,2);
7664 VARIDIV(R4
,2.0f
,UI4
,1,I4
,2);
7665 if (HAVE_OLEAUT32_I8
)
7667 VARIDIV(R4
,2.0f
,I8
,1,I8
,2);
7668 VARIDIV(R4
,2.0f
,UI8
,1,I4
,2);
7670 VARIDIV(R4
,2.0f
,INT
,1,I4
,2);
7671 VARIDIV(R4
,2.0f
,UINT
,1,I4
,2);
7672 VARIDIV(R8
,2.0,NULL
,0,NULL
,0);
7673 VARIDIV(R8
,2.0,I2
,1,I4
,2);
7674 VARIDIV(R8
,2.0,I4
,1,I4
,2);
7675 VARIDIV(R8
,2.0,R4
,1,I4
,2);
7676 VARIDIV(R8
,2.0,R8
,1,I4
,2);
7677 VARIDIV(R8
,2.0,DATE
,1,I4
,2);
7678 VARIDIV(R8
,2.0,BSTR
,num1_str
,I4
,2);
7679 VARIDIV(R8
,2.0,BOOL
,VARIANT_TRUE
,I4
,-2);
7680 VARIDIV(R8
,2.0,I1
,1,I4
,2);
7681 VARIDIV(R8
,2.0,UI1
,1,I4
,2);
7682 VARIDIV(R8
,2.0,UI2
,1,I4
,2);
7683 VARIDIV(R8
,2.0,UI4
,1,I4
,2);
7684 if (HAVE_OLEAUT32_I8
)
7686 VARIDIV(R8
,2.0,I8
,1,I8
,2);
7687 VARIDIV(R8
,2.0,UI8
,1,I4
,2);
7689 VARIDIV(R8
,2.0,INT
,1,I4
,2);
7690 VARIDIV(R8
,2.0,UINT
,1,I4
,2);
7691 VARIDIV(DATE
,2,NULL
,0,NULL
,0);
7692 VARIDIV(DATE
,2,I2
,1,I4
,2);
7693 VARIDIV(DATE
,2,I4
,1,I4
,2);
7694 VARIDIV(DATE
,2,R4
,1,I4
,2);
7695 VARIDIV(DATE
,2,R8
,1,I4
,2);
7696 VARIDIV(DATE
,2,DATE
,1,I4
,2);
7697 VARIDIV(DATE
,2,BSTR
,num1_str
,I4
,2);
7698 VARIDIV(DATE
,2,BOOL
,VARIANT_TRUE
,I4
,-2);
7699 VARIDIV(DATE
,2,I1
,1,I4
,2);
7700 VARIDIV(DATE
,2,UI1
,1,I4
,2);
7701 VARIDIV(DATE
,2,UI2
,1,I4
,2);
7702 VARIDIV(DATE
,2,UI4
,1,I4
,2);
7703 if (HAVE_OLEAUT32_I8
)
7705 VARIDIV(DATE
,2,I8
,1,I8
,2);
7706 VARIDIV(DATE
,2,UI8
,1,I4
,2);
7708 VARIDIV(DATE
,2,INT
,1,I4
,2);
7709 VARIDIV(DATE
,2,UINT
,1,I4
,2);
7710 VARIDIV(BSTR
,num2_str
,NULL
,0,NULL
,0);
7711 VARIDIV(BSTR
,num2_str
,I2
,1,I4
,2);
7712 VARIDIV(BSTR
,num2_str
,I4
,1,I4
,2);
7713 VARIDIV(BSTR
,num2_str
,R4
,1.0f
,I4
,2);
7714 VARIDIV(BSTR
,num2_str
,R8
,1.0,I4
,2);
7715 VARIDIV(BSTR
,num2_str
,DATE
,1,I4
,2);
7716 VARIDIV(BSTR
,num2_str
,BSTR
,num1_str
,I4
,2);
7717 VARIDIV(BSTR
,num2_str
,BOOL
,VARIANT_TRUE
,I4
,-2);
7718 VARIDIV(BSTR
,num2_str
,I1
,1,I4
,2);
7719 VARIDIV(BSTR
,num2_str
,UI1
,1,I4
,2);
7720 VARIDIV(BSTR
,num2_str
,UI2
,1,I4
,2);
7721 VARIDIV(BSTR
,num2_str
,UI4
,1,I4
,2);
7722 if (HAVE_OLEAUT32_I8
)
7724 VARIDIV(BSTR
,num2_str
,I8
,1,I8
,2);
7725 VARIDIV(BSTR
,num2_str
,UI8
,1,I4
,2);
7727 VARIDIV(BSTR
,num2_str
,INT
,1,I4
,2);
7728 VARIDIV(BSTR
,num2_str
,UINT
,1,I4
,2);
7729 VARIDIV(BOOL
,VARIANT_TRUE
,NULL
,0,NULL
,0);
7730 VARIDIV(BOOL
,VARIANT_TRUE
,I2
,1,I2
,-1);
7731 VARIDIV(BOOL
,VARIANT_TRUE
,I4
,1,I4
,-1);
7732 VARIDIV(BOOL
,VARIANT_TRUE
,R4
,1.0f
,I4
,-1);
7733 VARIDIV(BOOL
,VARIANT_TRUE
,R8
,1.0,I4
,-1);
7734 VARIDIV(BOOL
,VARIANT_TRUE
,DATE
,1,I4
,-1);
7735 VARIDIV(BOOL
,VARIANT_TRUE
,BSTR
,num1_str
,I4
,-1);
7736 VARIDIV(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_TRUE
,I2
,1);
7737 VARIDIV(BOOL
,VARIANT_TRUE
,I1
,1,I4
,-1);
7738 VARIDIV(BOOL
,VARIANT_TRUE
,UI1
,1,I2
,-1);
7739 VARIDIV(BOOL
,VARIANT_TRUE
,UI2
,1,I4
,-1);
7740 VARIDIV(BOOL
,VARIANT_TRUE
,UI4
,1,I4
,-1);
7741 if (HAVE_OLEAUT32_I8
)
7743 VARIDIV(BOOL
,VARIANT_TRUE
,I8
,1,I8
,-1);
7744 VARIDIV(BOOL
,VARIANT_TRUE
,UI8
,1,I4
,-1);
7746 VARIDIV(BOOL
,VARIANT_TRUE
,INT
,1,I4
,-1);
7747 VARIDIV(BOOL
,VARIANT_TRUE
,UINT
,1,I4
,-1);
7748 VARIDIV(I1
,2,NULL
,0,NULL
,0);
7749 VARIDIV(I1
,2,I2
,1,I4
,2);
7750 VARIDIV(I1
,2,I4
,1,I4
,2);
7751 VARIDIV(I1
,2,R4
,1.0f
,I4
,2);
7752 VARIDIV(I1
,2,R8
,1.0,I4
,2);
7753 VARIDIV(I1
,2,DATE
,1,I4
,2);
7754 VARIDIV(I1
,2,BSTR
,num1_str
,I4
,2);
7755 VARIDIV(I1
,2,BOOL
,VARIANT_TRUE
,I4
,-2);
7756 VARIDIV(I1
,2,I1
,1,I4
,2);
7757 VARIDIV(I1
,2,UI1
,1,I4
,2);
7758 VARIDIV(I1
,2,UI2
,1,I4
,2);
7759 VARIDIV(I1
,2,UI4
,1,I4
,2);
7760 if (HAVE_OLEAUT32_I8
)
7762 VARIDIV(I1
,2,I8
,1,I8
,2);
7763 VARIDIV(I1
,2,UI8
,1,I4
,2);
7765 VARIDIV(I1
,2,INT
,1,I4
,2);
7766 VARIDIV(I1
,2,UINT
,1,I4
,2);
7767 VARIDIV(UI1
,2,NULL
,0,NULL
,0);
7768 VARIDIV(UI1
,2,I2
,1,I2
,2);
7769 VARIDIV(UI1
,2,I4
,1,I4
,2);
7770 VARIDIV(UI1
,2,R4
,1.0f
,I4
,2);
7771 VARIDIV(UI1
,2,R8
,1.0,I4
,2);
7772 VARIDIV(UI1
,2,DATE
,1,I4
,2);
7773 VARIDIV(UI1
,2,BSTR
,num1_str
,I4
,2);
7774 VARIDIV(UI1
,2,BOOL
,VARIANT_TRUE
,I2
,-2);
7775 VARIDIV(UI1
,2,I1
,1,I4
,2);
7776 VARIDIV(UI1
,2,UI1
,1,UI1
,2);
7777 VARIDIV(UI1
,2,UI2
,1,I4
,2);
7778 VARIDIV(UI1
,2,UI4
,1,I4
,2);
7779 if (HAVE_OLEAUT32_I8
)
7781 VARIDIV(UI1
,2,I8
,1,I8
,2);
7782 VARIDIV(UI1
,2,UI8
,1,I4
,2);
7784 VARIDIV(UI1
,2,INT
,1,I4
,2);
7785 VARIDIV(UI1
,2,UINT
,1,I4
,2);
7786 VARIDIV(UI2
,2,NULL
,0,NULL
,0);
7787 VARIDIV(UI2
,2,I2
,1,I4
,2);
7788 VARIDIV(UI2
,2,I4
,1,I4
,2);
7789 VARIDIV(UI2
,2,R4
,1.0f
,I4
,2);
7790 VARIDIV(UI2
,2,R8
,1.0,I4
,2);
7791 VARIDIV(UI2
,2,DATE
,1,I4
,2);
7792 VARIDIV(UI2
,2,BSTR
,num1_str
,I4
,2);
7793 VARIDIV(UI2
,2,BOOL
,VARIANT_TRUE
,I4
,-2);
7794 VARIDIV(UI2
,2,I1
,1,I4
,2);
7795 VARIDIV(UI2
,2,UI1
,1,I4
,2);
7796 VARIDIV(UI2
,2,UI2
,1,I4
,2);
7797 VARIDIV(UI2
,2,UI4
,1,I4
,2);
7798 if (HAVE_OLEAUT32_I8
)
7800 VARIDIV(UI2
,2,I8
,1,I8
,2);
7801 VARIDIV(UI2
,2,UI8
,1,I4
,2);
7803 VARIDIV(UI2
,2,INT
,1,I4
,2);
7804 VARIDIV(UI2
,2,UINT
,1,I4
,2);
7805 VARIDIV(UI4
,2,NULL
,0,NULL
,0);
7806 VARIDIV(UI4
,2,I2
,1,I4
,2);
7807 VARIDIV(UI4
,2,I4
,1,I4
,2);
7808 VARIDIV(UI4
,2,R4
,1.0f
,I4
,2);
7809 VARIDIV(UI4
,2,R8
,1.0,I4
,2);
7810 VARIDIV(UI4
,2,DATE
,1,I4
,2);
7811 VARIDIV(UI4
,2,BSTR
,num1_str
,I4
,2);
7812 VARIDIV(UI4
,2,BOOL
,VARIANT_TRUE
,I4
,-2);
7813 VARIDIV(UI4
,2,I1
,1,I4
,2);
7814 VARIDIV(UI4
,2,UI1
,1,I4
,2);
7815 VARIDIV(UI4
,2,UI2
,1,I4
,2);
7816 VARIDIV(UI4
,2,UI4
,1,I4
,2);
7817 if (HAVE_OLEAUT32_I8
)
7819 VARIDIV(UI4
,2,I8
,1,I8
,2);
7820 VARIDIV(UI4
,2,UI8
,1,I4
,2);
7822 VARIDIV(UI4
,2,INT
,1,I4
,2);
7823 VARIDIV(UI4
,2,UINT
,1,I4
,2);
7824 if (HAVE_OLEAUT32_I8
)
7826 VARIDIV(I8
,2,NULL
,0,NULL
,0);
7827 VARIDIV(I8
,2,I2
,1,I8
,2);
7828 VARIDIV(I8
,2,I4
,1,I8
,2);
7829 VARIDIV(I8
,2,R4
,1.0f
,I8
,2);
7830 VARIDIV(I8
,2,R8
,1.0,I8
,2);
7831 VARIDIV(I8
,2,DATE
,1,I8
,2);
7832 VARIDIV(I8
,2,BSTR
,num1_str
,I8
,2);
7833 VARIDIV(I8
,2,BOOL
,1,I8
,2);
7834 VARIDIV(I8
,2,I1
,1,I8
,2);
7835 VARIDIV(I8
,2,UI1
,1,I8
,2);
7836 VARIDIV(I8
,2,UI2
,1,I8
,2);
7837 VARIDIV(I8
,2,UI4
,1,I8
,2);
7838 VARIDIV(I8
,2,I8
,1,I8
,2);
7839 VARIDIV(I8
,2,UI8
,1,I8
,2);
7840 VARIDIV(I8
,2,UINT
,1,I8
,2);
7841 VARIDIV(UI8
,2,NULL
,0,NULL
,0);
7842 VARIDIV(UI8
,2,I2
,1,I4
,2);
7843 VARIDIV(UI8
,2,I4
,1,I4
,2);
7844 VARIDIV(UI8
,2,R4
,1.0f
,I4
,2);
7845 VARIDIV(UI8
,2,R8
,1.0,I4
,2);
7846 VARIDIV(UI8
,2,DATE
,1,I4
,2);
7847 VARIDIV(UI8
,2,BSTR
,num1_str
,I4
,2);
7848 VARIDIV(UI8
,2,BOOL
,VARIANT_TRUE
,I4
,-2);
7849 VARIDIV(UI8
,2,I1
,1,I4
,2);
7850 VARIDIV(UI8
,2,UI1
,1,I4
,2);
7851 VARIDIV(UI8
,2,UI2
,1,I4
,2);
7852 VARIDIV(UI8
,2,UI4
,1,I4
,2);
7853 VARIDIV(UI8
,2,I8
,1,I8
,2);
7854 VARIDIV(UI8
,2,UI8
,1,I4
,2);
7855 VARIDIV(UI8
,2,INT
,1,I4
,2);
7856 VARIDIV(UI8
,2,UINT
,1,I4
,2);
7858 VARIDIV(INT
,2,NULL
,0,NULL
,0);
7859 VARIDIV(INT
,2,I2
,1,I4
,2);
7860 VARIDIV(INT
,2,I4
,1,I4
,2);
7861 VARIDIV(INT
,2,R4
,1.0f
,I4
,2);
7862 VARIDIV(INT
,2,R8
,1.0,I4
,2);
7863 VARIDIV(INT
,2,DATE
,1,I4
,2);
7864 VARIDIV(INT
,2,BSTR
,num1_str
,I4
,2);
7865 VARIDIV(INT
,2,BOOL
,VARIANT_TRUE
,I4
,-2);
7866 VARIDIV(INT
,2,I1
,1,I4
,2);
7867 VARIDIV(INT
,2,UI1
,1,I4
,2);
7868 VARIDIV(INT
,2,UI2
,1,I4
,2);
7869 VARIDIV(INT
,2,UI4
,1,I4
,2);
7870 if (HAVE_OLEAUT32_I8
)
7872 VARIDIV(INT
,2,UI8
,1,I4
,2);
7874 VARIDIV(INT
,2,INT
,1,I4
,2);
7875 VARIDIV(INT
,2,UINT
,1,I4
,2);
7876 VARIDIV(UINT
,2,NULL
,0,NULL
,0);
7877 VARIDIV(UINT
,2,I2
,1,I4
,2);
7878 VARIDIV(UINT
,2,I4
,1,I4
,2);
7879 VARIDIV(UINT
,2,R4
,1.0f
,I4
,2);
7880 VARIDIV(UINT
,2,R8
,1.0,I4
,2);
7881 VARIDIV(UINT
,2,DATE
,1,I4
,2);
7882 VARIDIV(UINT
,2,BSTR
,num1_str
,I4
,2);
7883 VARIDIV(UINT
,2,BOOL
,VARIANT_TRUE
,I4
,-2);
7884 VARIDIV(UINT
,2,I1
,1,I4
,2);
7885 VARIDIV(UINT
,2,UI1
,1,I4
,2);
7886 VARIDIV(UINT
,2,UI2
,1,I4
,2);
7887 VARIDIV(UINT
,2,UI4
,1,I4
,2);
7888 if (HAVE_OLEAUT32_I8
)
7890 VARIDIV(UINT
,2,I8
,1,I8
,2);
7891 VARIDIV(UINT
,2,UI8
,1,I4
,2);
7893 VARIDIV(UINT
,2,INT
,1,I4
,2);
7894 VARIDIV(UINT
,2,UINT
,1,I4
,2);
7896 /* Manually test some VT_CY, VT_DECIMAL variants */
7898 hres
= VarCyFromI4(10000, &V_CY(&cy
));
7899 ok(hres
== S_OK
, "VarCyFromI4 failed!\n");
7900 V_VT(&dec
) = VT_DECIMAL
;
7901 hres
= VarDecFromR8(2.0, &V_DECIMAL(&dec
));
7902 ok(hres
== S_OK
, "VarDecFromR4 failed!\n");
7903 memset(&left
, 0, sizeof(left
));
7904 memset(&right
, 0, sizeof(right
));
7905 V_VT(&left
) = VT_I4
;
7907 V_VT(&right
) = VT_I8
;
7910 hres
= VarIdiv(&cy
, &cy
, &result
);
7911 ok(hres
== S_OK
&& V_VT(&result
) == VT_I4
,
7912 "VARIDIV: expected coerced hres 0x%X type VT_I4, got hres 0x%X type %s!\n",
7913 S_OK
, hres
, vtstr(V_VT(&result
)));
7914 ok(hres
== S_OK
&& V_I4(&result
) == 1,
7915 "VARIDIV: CY value %d, expected %d\n", V_I4(&result
), 1);
7917 if (HAVE_OLEAUT32_I8
)
7919 hres
= VarIdiv(&cy
, &right
, &result
);
7920 ok(hres
== S_OK
&& V_VT(&result
) == VT_I8
,
7921 "VARIDIV: expected coerced hres 0x%X type VT_I8, got hres 0x%X type %s!\n",
7922 S_OK
, hres
, vtstr(V_VT(&result
)));
7923 ok(hres
== S_OK
&& V_I8(&result
) == 5000,
7924 "VARIDIV: CY value 0x%x%08x, expected 0x%x\n",
7925 (DWORD
)(V_I8(&result
) >>32), (DWORD
)V_I8(&result
), 5000);
7928 hres
= VarIdiv(&left
, &cy
, &result
);
7929 ok(hres
== S_OK
&& V_VT(&result
) == VT_I4
,
7930 "VARIDIV: expected coerced hres 0x%X type VT_I4, got hres 0x%X type %s!\n",
7931 S_OK
, hres
, vtstr(V_VT(&result
)));
7932 ok(hres
== S_OK
&& V_I4(&result
) == 0,
7933 "VARIDIV: CY value %d, expected %d\n", V_I4(&result
), 0);
7935 hres
= VarIdiv(&left
, &dec
, &result
);
7936 ok(hres
== S_OK
&& V_VT(&result
) == VT_I4
,
7937 "VARIDIV: expected coerced hres 0x%X type VT_I4, got hres 0x%X type %s!\n",
7938 S_OK
, hres
, vtstr(V_VT(&result
)));
7939 ok(hres
== S_OK
&& V_I4(&result
) == 50,
7940 "VARIDIV: DECIMAL value %d, expected %d\n", V_I4(&result
), 50);
7942 hres
= VarIdiv(&dec
, &dec
, &result
);
7943 ok(hres
== S_OK
&& V_VT(&result
) == VT_I4
,
7944 "VARIDIV: expected coerced hres 0x%X type VT_I4, got hres 0x%X type %s!\n",
7945 S_OK
, hres
, vtstr(V_VT(&result
)));
7946 ok(hres
== S_OK
&& V_I4(&result
) == 1,
7947 "VARIDIV: DECIMAL value %d, expected %d\n", V_I4(&result
), 1);
7949 if (HAVE_OLEAUT32_I8
)
7951 hres
= VarIdiv(&dec
, &right
, &result
);
7952 ok(hres
== S_OK
&& V_VT(&result
) == VT_I8
,
7953 "VARIDIV: expected coerced hres 0x%X type VT_I8, got hres 0x%X type %s!\n",
7954 S_OK
, hres
, vtstr(V_VT(&result
)));
7955 ok(hres
== S_OK
&& V_I8(&result
) == 1,
7956 "VARIDIV: DECIMAL value 0x%x%08x, expected %d\n",
7957 (DWORD
)(V_I8(&result
) >> 32), (DWORD
)V_I8(&result
), 1);
7960 /* Check for division by zero */
7961 V_VT(&left
) = VT_INT
;
7963 V_VT(&right
) = VT_INT
;
7965 hres
= pVarIdiv(&left
, &right
, &result
);
7966 ok(hres
== DISP_E_DIVBYZERO
&& V_VT(&result
) == VT_EMPTY
,
7967 "VARIDIV: Division by 0 should result in DISP_E_DIVBYZERO but got 0x%X\n", hres
);
7969 V_VT(&left
) = VT_INT
;
7971 V_VT(&right
) = VT_INT
;
7973 hres
= pVarIdiv(&left
, &right
, &result
);
7974 ok(hres
== DISP_E_DIVBYZERO
&& V_VT(&result
) == VT_EMPTY
,
7975 "VARIDIV: Division by 0 should result in DISP_E_DIVBYZERO but got 0x%X\n", hres
);
7977 SysFreeString(num1_str
);
7978 SysFreeString(num2_str
);
7982 static HRESULT (WINAPI
*pVarImp
)(LPVARIANT
,LPVARIANT
,LPVARIANT
);
7984 #define VARIMP(vt1,val1,vt2,val2,rvt,rval) \
7985 V_VT(&left) = VT_##vt1; V_##vt1(&left) = val1; \
7986 V_VT(&right) = VT_##vt2; V_##vt2(&right) = val2; \
7987 V_VT(&exp) = VT_##rvt; V_##rvt(&exp) = rval; \
7988 test_var_call2( __LINE__, pVarImp, &left, &right, &exp )
7990 /* Skip any type that is not defined or produces an error for every case */
7991 #define SKIPTESTIMP(a) \
7992 if (a == VT_ERROR || a == VT_VARIANT || \
7993 a == VT_DISPATCH || a == VT_UNKNOWN || \
7994 a == VT_RECORD || a > VT_UINT || \
7995 a == 15 /*not defined*/) \
7998 static void test_VarImp(void)
8000 static const WCHAR szFalse
[] = { '#','F','A','L','S','E','#','\0' };
8001 static const WCHAR szTrue
[] = { '#','T','R','U','E','#','\0' };
8002 VARIANT left
, right
, exp
, result
, cy
, dec
;
8003 BSTR true_str
, false_str
;
8009 true_str
= SysAllocString(szTrue
);
8010 false_str
= SysAllocString(szFalse
);
8012 /* Test all possible flag/vt combinations & the resulting vt type */
8013 for (i
= 0; i
< sizeof(ExtraFlags
)/sizeof(ExtraFlags
[0]); i
++)
8015 VARTYPE leftvt
, rightvt
, resvt
;
8017 for (leftvt
= 0; leftvt
<= VT_BSTR_BLOB
; leftvt
++)
8019 SKIPTESTIMP(leftvt
);
8021 /* Check if we need/have support for I8 and/or UI8 */
8022 if ((leftvt
== VT_I8
|| leftvt
== VT_UI8
) && !HAVE_OLEAUT32_I8
)
8025 for (rightvt
= 0; rightvt
<= VT_BSTR_BLOB
; rightvt
++)
8028 SKIPTESTIMP(rightvt
);
8030 /* Native crashes when using the extra flag VT_BYREF
8031 * or with the following VT combinations
8033 if ((leftvt
== VT_UI4
&& rightvt
== VT_BSTR
) ||
8034 (leftvt
== VT_UI8
&& rightvt
== VT_BSTR
) ||
8035 ExtraFlags
[i
] == VT_BYREF
)
8038 /* Check if we need/have support for I8 and/or UI8 */
8039 if ((rightvt
== VT_I8
|| rightvt
== VT_UI8
) && !HAVE_OLEAUT32_I8
)
8042 memset(&left
, 0, sizeof(left
));
8043 memset(&right
, 0, sizeof(right
));
8044 V_VT(&left
) = leftvt
| ExtraFlags
[i
];
8045 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
8046 V_VT(&result
) = VT_EMPTY
;
8049 if (leftvt
== VT_BSTR
)
8050 V_BSTR(&left
) = true_str
;
8052 /* This allows us to test return types that are not NULL
8053 * (NULL Imp value = n, NULL Imp 0 = NULL)
8058 V_BSTR(&right
) = true_str
;
8061 VarDecFromR8(2.0, &V_DECIMAL(&right
));
8062 V_VT(&right
) = rightvt
| ExtraFlags
[i
];
8065 V_BOOL(&right
) = VARIANT_TRUE
;
8067 case VT_I1
: V_I1(&right
) = 2; break;
8068 case VT_I2
: V_I2(&right
) = 2; break;
8069 case VT_I4
: V_I4(&right
) = 2; break;
8070 case VT_R4
: V_R4(&right
) = 2.0f
; break;
8071 case VT_R8
: V_R8(&right
) = 2.0; break;
8072 case VT_CY
: V_CY(&right
).int64
= 10000; break;
8073 case VT_DATE
: V_DATE(&right
) = 2; break;
8074 case VT_I8
: V_I8(&right
) = 2; break;
8075 case VT_INT
: V_INT(&right
) = 2; break;
8076 case VT_UINT
: V_UINT(&right
) = 2; break;
8077 case VT_UI1
: V_UI1(&right
) = 2; break;
8078 case VT_UI2
: V_UI2(&right
) = 2; break;
8079 case VT_UI4
: V_UI4(&right
) = 2; break;
8080 case VT_UI8
: V_UI8(&right
) = 2; break;
8084 /* Native VarImp always returns an error when using extra
8085 * flags or if the variants are I8 and INT.
8087 if ((leftvt
== VT_I8
&& rightvt
== VT_INT
) ||
8091 /* Determine result type */
8092 else if ((leftvt
== VT_BSTR
&& rightvt
== VT_NULL
) ||
8093 (leftvt
== VT_NULL
&& rightvt
== VT_NULL
) ||
8094 (leftvt
== VT_NULL
&& rightvt
== VT_EMPTY
))
8096 else if (leftvt
== VT_I8
|| rightvt
== VT_I8
)
8098 else if (leftvt
== VT_I4
|| rightvt
== VT_I4
||
8099 leftvt
== VT_INT
|| rightvt
== VT_INT
||
8100 leftvt
== VT_UINT
|| rightvt
== VT_UINT
||
8101 leftvt
== VT_UI4
|| rightvt
== VT_UI4
||
8102 leftvt
== VT_UI8
|| rightvt
== VT_UI8
||
8103 leftvt
== VT_UI2
|| rightvt
== VT_UI2
||
8104 leftvt
== VT_DECIMAL
|| rightvt
== VT_DECIMAL
||
8105 leftvt
== VT_DATE
|| rightvt
== VT_DATE
||
8106 leftvt
== VT_CY
|| rightvt
== VT_CY
||
8107 leftvt
== VT_R8
|| rightvt
== VT_R8
||
8108 leftvt
== VT_R4
|| rightvt
== VT_R4
||
8109 leftvt
== VT_I1
|| rightvt
== VT_I1
)
8111 else if ((leftvt
== VT_UI1
&& rightvt
== VT_UI1
) ||
8112 (leftvt
== VT_UI1
&& rightvt
== VT_NULL
) ||
8113 (leftvt
== VT_NULL
&& rightvt
== VT_UI1
))
8115 else if (leftvt
== VT_EMPTY
|| rightvt
== VT_EMPTY
||
8116 leftvt
== VT_I2
|| rightvt
== VT_I2
||
8117 leftvt
== VT_UI1
|| rightvt
== VT_UI1
)
8119 else if (leftvt
== VT_BOOL
|| rightvt
== VT_BOOL
||
8120 leftvt
== VT_BSTR
|| rightvt
== VT_BSTR
)
8123 hres
= pVarImp(&left
, &right
, &result
);
8125 /* Check expected HRESULT and if result variant type is correct */
8127 ok (hres
== DISP_E_BADVARTYPE
|| hres
== DISP_E_TYPEMISMATCH
,
8128 "VarImp: %s|0x%X, %s|0x%X: got vt %s hr 0x%X\n",
8129 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
],
8130 vtstr(V_VT(&result
)), hres
);
8132 ok (hres
== S_OK
&& resvt
== V_VT(&result
),
8133 "VarImp: %s|0x%X, %s|0x%X: expected vt %s hr 0x%X, got vt %s hr 0x%X\n",
8134 vtstr(leftvt
), ExtraFlags
[i
], vtstr(rightvt
), ExtraFlags
[i
], vtstr(resvt
),
8135 S_OK
, vtstr(V_VT(&result
)), hres
);
8140 VARIMP(EMPTY
,0,EMPTY
,0,I2
,-1);
8141 VARIMP(EMPTY
,0,NULL
,0,I2
,-1);
8142 VARIMP(EMPTY
,0,I2
,-1,I2
,-1);
8143 VARIMP(EMPTY
,0,I4
,-1,I4
,-1);
8144 VARIMP(EMPTY
,0,R4
,0.0f
,I4
,-1);
8145 VARIMP(EMPTY
,0,R8
,-1.0,I4
,-1);
8146 VARIMP(EMPTY
,0,DATE
,0,I4
,-1);
8147 VARIMP(EMPTY
,0,BSTR
,true_str
,I2
,-1);
8148 VARIMP(EMPTY
,0,BOOL
,VARIANT_FALSE
,I2
,-1);
8149 VARIMP(EMPTY
,0,I1
,0,I4
,-1);
8150 VARIMP(EMPTY
,0,UI1
,1,I2
,-1);
8151 VARIMP(EMPTY
,0,UI2
,1,I4
,-1);
8152 VARIMP(EMPTY
,0,UI4
,1,I4
,-1);
8153 if (HAVE_OLEAUT32_I8
)
8155 VARIMP(EMPTY
,0,I8
,1,I8
,-1);
8156 VARIMP(EMPTY
,0,UI8
,1,I4
,-1);
8158 VARIMP(EMPTY
,0,INT
,-1,I4
,-1);
8159 VARIMP(EMPTY
,0,UINT
,1,I4
,-1);
8160 VARIMP(NULL
,0,EMPTY
,0,NULL
,0);
8161 VARIMP(NULL
,0,NULL
,0,NULL
,0);
8162 VARIMP(NULL
,0,I2
,-1,I2
,-1);
8163 VARIMP(NULL
,0,I4
,-1,I4
,-1);
8164 VARIMP(NULL
,0,R4
,0.0f
,NULL
,0);
8165 VARIMP(NULL
,0,R8
,-1.0,I4
,-1);
8166 VARIMP(NULL
,0,DATE
,0,NULL
,0);
8167 VARIMP(NULL
,0,BSTR
,true_str
,BOOL
,-1);
8168 VARIMP(NULL
,0,BOOL
,VARIANT_FALSE
,NULL
,0);
8169 VARIMP(NULL
,0,I1
,0,NULL
,0);
8170 VARIMP(NULL
,0,UI1
,1,UI1
,1);
8171 VARIMP(NULL
,0,UI2
,1,I4
,1);
8172 VARIMP(NULL
,0,UI4
,1,I4
,1);
8173 if (HAVE_OLEAUT32_I8
)
8175 VARIMP(NULL
,0,I8
,1,I8
,1);
8176 VARIMP(NULL
,0,UI8
,1,I4
,1);
8178 VARIMP(NULL
,0,INT
,-1,I4
,-1);
8179 VARIMP(NULL
,0,UINT
,1,I4
,1);
8180 VARIMP(I2
,-1,EMPTY
,0,I2
,0);
8181 VARIMP(I2
,-1,I2
,-1,I2
,-1);
8182 VARIMP(I2
,-1,I4
,-1,I4
,-1);
8183 VARIMP(I2
,-1,R4
,0.0f
,I4
,0);
8184 VARIMP(I2
,-1,R8
,-1.0,I4
,-1);
8185 VARIMP(I2
,-1,DATE
,0,I4
,0);
8186 VARIMP(I2
,-1,BSTR
,true_str
,I2
,-1);
8187 VARIMP(I2
,-1,BOOL
,VARIANT_FALSE
,I2
,0);
8188 VARIMP(I2
,-1,I1
,0,I4
,0);
8189 VARIMP(I2
,-1,UI1
,1,I2
,1);
8190 VARIMP(I2
,-1,UI2
,1,I4
,1);
8191 VARIMP(I2
,-1,UI4
,1,I4
,1);
8192 if (HAVE_OLEAUT32_I8
)
8194 VARIMP(I2
,-1,I8
,1,I8
,1);
8195 VARIMP(I2
,-1,UI8
,1,I4
,1);
8197 VARIMP(I2
,-1,INT
,-1,I4
,-1);
8198 VARIMP(I2
,-1,UINT
,1,I4
,1);
8199 VARIMP(I4
,2,EMPTY
,0,I4
,-3);
8200 VARIMP(I4
,2,NULL
,0,I4
,-3);
8201 VARIMP(I4
,2,I2
,-1,I4
,-1);
8202 VARIMP(I4
,2,I4
,-1,I4
,-1);
8203 VARIMP(I4
,2,R4
,0.0f
,I4
,-3);
8204 VARIMP(I4
,2,R8
,-1.0,I4
,-1);
8205 VARIMP(I4
,2,DATE
,0,I4
,-3);
8206 VARIMP(I4
,2,BSTR
,true_str
,I4
,-1);
8207 VARIMP(I4
,2,BOOL
,VARIANT_FALSE
,I4
,-3);
8208 VARIMP(I4
,2,I1
,0,I4
,-3);
8209 VARIMP(I4
,2,UI1
,1,I4
,-3);
8210 VARIMP(I4
,2,UI2
,1,I4
,-3);
8211 VARIMP(I4
,2,UI4
,1,I4
,-3);
8212 if (HAVE_OLEAUT32_I8
)
8214 VARIMP(I4
,2,I8
,1,I8
,-3);
8215 VARIMP(I4
,2,UI8
,1,I4
,-3);
8217 VARIMP(I4
,2,INT
,-1,I4
,-1);
8218 VARIMP(I4
,2,UINT
,1,I4
,-3);
8219 VARIMP(R4
,-1.0f
,EMPTY
,0,I4
,0);
8220 VARIMP(R4
,-1.0f
,NULL
,0,NULL
,0);
8221 VARIMP(R4
,-1.0f
,I2
,-1,I4
,-1);
8222 VARIMP(R4
,-1.0f
,I4
,-1,I4
,-1);
8223 VARIMP(R4
,-1.0f
,R4
,0.0f
,I4
,0);
8224 VARIMP(R4
,-1.0f
,R8
,-1.0,I4
,-1);
8225 VARIMP(R4
,-1.0f
,DATE
,1,I4
,1);
8226 VARIMP(R4
,-1.0f
,BSTR
,true_str
,I4
,-1);
8227 VARIMP(R4
,-1.0f
,BOOL
,VARIANT_FALSE
,I4
,0);
8228 VARIMP(R4
,-1.0f
,I1
,0,I4
,0);
8229 VARIMP(R4
,-1.0f
,UI1
,1,I4
,1);
8230 VARIMP(R4
,-1.0f
,UI2
,1,I4
,1);
8231 VARIMP(R4
,-1.0f
,UI4
,1,I4
,1);
8232 if (HAVE_OLEAUT32_I8
)
8234 VARIMP(R4
,-1.0f
,I8
,1,I8
,1);
8235 VARIMP(R4
,-1.0f
,UI8
,1,I4
,1);
8237 VARIMP(R4
,-1.0f
,INT
,-1,I4
,-1);
8238 VARIMP(R4
,-1.0f
,UINT
,1,I4
,1);
8239 VARIMP(R8
,1.0,EMPTY
,0,I4
,-2);
8240 VARIMP(R8
,1.0,NULL
,0,I4
,-2);
8241 VARIMP(R8
,1.0,I2
,-1,I4
,-1);
8242 VARIMP(R8
,1.0,I4
,-1,I4
,-1);
8243 VARIMP(R8
,1.0,R4
,0.0f
,I4
,-2);
8244 VARIMP(R8
,1.0,R8
,-1.0,I4
,-1);
8245 VARIMP(R8
,1.0,DATE
,0,I4
,-2);
8246 VARIMP(R8
,1.0,BSTR
,true_str
,I4
,-1);
8247 VARIMP(R8
,1.0,BOOL
,VARIANT_FALSE
,I4
,-2);
8248 VARIMP(R8
,1.0,I1
,0,I4
,-2);
8249 VARIMP(R8
,1.0,UI1
,1,I4
,-1);
8250 VARIMP(R8
,1.0,UI2
,1,I4
,-1);
8251 VARIMP(R8
,1.0,UI4
,1,I4
,-1);
8252 if (HAVE_OLEAUT32_I8
)
8254 VARIMP(R8
,1.0,I8
,1,I8
,-1);
8255 VARIMP(R8
,1.0,UI8
,1,I4
,-1);
8257 VARIMP(R8
,1.0,INT
,-1,I4
,-1);
8258 VARIMP(R8
,1.0,UINT
,1,I4
,-1);
8259 VARIMP(DATE
,0,EMPTY
,0,I4
,-1);
8260 VARIMP(DATE
,0,NULL
,0,I4
,-1);
8261 VARIMP(DATE
,0,I2
,-1,I4
,-1);
8262 VARIMP(DATE
,0,I4
,-1,I4
,-1);
8263 VARIMP(DATE
,0,R4
,0.0f
,I4
,-1);
8264 VARIMP(DATE
,0,R8
,-1.0,I4
,-1);
8265 VARIMP(DATE
,0,DATE
,0,I4
,-1);
8266 VARIMP(DATE
,0,BSTR
,true_str
,I4
,-1);
8267 VARIMP(DATE
,0,BOOL
,VARIANT_FALSE
,I4
,-1);
8268 VARIMP(DATE
,0,I1
,0,I4
,-1);
8269 VARIMP(DATE
,0,UI1
,1,I4
,-1);
8270 VARIMP(DATE
,0,UI2
,1,I4
,-1);
8271 VARIMP(DATE
,0,UI4
,1,I4
,-1);
8272 if (HAVE_OLEAUT32_I8
)
8274 VARIMP(DATE
,0,I8
,1,I8
,-1);
8275 VARIMP(DATE
,0,UI8
,1,I4
,-1);
8277 VARIMP(DATE
,0,INT
,-1,I4
,-1);
8278 VARIMP(DATE
,0,UINT
,1,I4
,-1);
8279 VARIMP(BSTR
,false_str
,EMPTY
,0,I2
,-1);
8280 VARIMP(BSTR
,false_str
,NULL
,0,BOOL
,-1);
8281 VARIMP(BSTR
,false_str
,I2
,-1,I2
,-1);
8282 VARIMP(BSTR
,false_str
,I4
,-1,I4
,-1);
8283 VARIMP(BSTR
,false_str
,R4
,0.0f
,I4
,-1);
8284 VARIMP(BSTR
,false_str
,R8
,-1.0,I4
,-1);
8285 VARIMP(BSTR
,false_str
,DATE
,0,I4
,-1);
8286 VARIMP(BSTR
,false_str
,BSTR
,true_str
,BOOL
,-1);
8287 VARIMP(BSTR
,false_str
,BOOL
,VARIANT_FALSE
,BOOL
,-1);
8288 VARIMP(BSTR
,false_str
,I1
,0,I4
,-1);
8289 VARIMP(BSTR
,false_str
,UI1
,1,I2
,-1);
8290 VARIMP(BSTR
,false_str
,UI2
,1,I4
,-1);
8291 VARIMP(BSTR
,false_str
,UI4
,1,I4
,-1);
8292 if (HAVE_OLEAUT32_I8
)
8294 VARIMP(BSTR
,false_str
,I8
,1,I8
,-1);
8295 VARIMP(BSTR
,false_str
,UI8
,1,I4
,-1);
8297 VARIMP(BSTR
,false_str
,INT
,-1,I4
,-1);
8298 VARIMP(BSTR
,false_str
,UINT
,1,I4
,-1);
8299 VARIMP(BOOL
,VARIANT_TRUE
,EMPTY
,0,I2
,0);
8300 VARIMP(BOOL
,VARIANT_TRUE
,NULL
,0,NULL
,0);
8301 VARIMP(BOOL
,VARIANT_TRUE
,I2
,-1,I2
,-1);
8302 VARIMP(BOOL
,VARIANT_TRUE
,I4
,-1,I4
,-1);
8303 VARIMP(BOOL
,VARIANT_TRUE
,R4
,0.0f
,I4
,0);
8304 VARIMP(BOOL
,VARIANT_TRUE
,R8
,-1.0,I4
,-1);
8305 VARIMP(BOOL
,VARIANT_TRUE
,DATE
,0,I4
,0);
8306 VARIMP(BOOL
,VARIANT_TRUE
,BSTR
,true_str
,BOOL
,-1);
8307 VARIMP(BOOL
,VARIANT_TRUE
,BOOL
,VARIANT_FALSE
,BOOL
,0);
8308 VARIMP(BOOL
,VARIANT_TRUE
,I1
,0,I4
,0);
8309 VARIMP(BOOL
,VARIANT_TRUE
,UI1
,1,I2
,1);
8310 VARIMP(BOOL
,VARIANT_TRUE
,UI2
,1,I4
,1);
8311 VARIMP(BOOL
,VARIANT_TRUE
,UI4
,1,I4
,1);
8312 if (HAVE_OLEAUT32_I8
)
8314 VARIMP(BOOL
,VARIANT_TRUE
,I8
,1,I8
,1);
8315 VARIMP(BOOL
,VARIANT_TRUE
,UI8
,1,I4
,1);
8317 VARIMP(BOOL
,VARIANT_TRUE
,INT
,-1,I4
,-1);
8318 VARIMP(BOOL
,VARIANT_TRUE
,UINT
,1,I4
,1);
8319 VARIMP(I1
,-1,EMPTY
,0,I4
,0);
8320 VARIMP(I1
,-1,NULL
,0,NULL
,0);
8321 VARIMP(I1
,-1,I2
,-1,I4
,-1);
8322 VARIMP(I1
,-1,I4
,-1,I4
,-1);
8323 VARIMP(I1
,-1,R4
,0.0f
,I4
,0);
8324 VARIMP(I1
,-1,R8
,-1.0,I4
,-1);
8325 VARIMP(I1
,-1,DATE
,0,I4
,0);
8326 VARIMP(I1
,-1,BSTR
,true_str
,I4
,-1);
8327 VARIMP(I1
,-1,BOOL
,VARIANT_FALSE
,I4
,0);
8328 VARIMP(I1
,-1,I1
,0,I4
,0);
8329 VARIMP(I1
,-1,UI1
,1,I4
,1);
8330 VARIMP(I1
,-1,UI2
,1,I4
,1);
8331 VARIMP(I1
,-1,UI4
,1,I4
,1);
8332 if (HAVE_OLEAUT32_I8
)
8334 VARIMP(I1
,-1,I8
,1,I8
,1);
8335 VARIMP(I1
,-1,UI8
,1,I4
,1);
8337 VARIMP(I1
,-1,INT
,-1,I4
,-1);
8338 VARIMP(I1
,-1,UINT
,1,I4
,1);
8339 VARIMP(UI1
,0,EMPTY
,0,I2
,-1);
8340 VARIMP(UI1
,0,NULL
,0,UI1
,255);
8341 VARIMP(UI1
,0,I2
,-1,I2
,-1);
8342 VARIMP(UI1
,0,I4
,-1,I4
,-1);
8343 VARIMP(UI1
,0,R4
,0.0f
,I4
,-1);
8344 VARIMP(UI1
,0,R8
,-1.0,I4
,-1);
8345 VARIMP(UI1
,0,DATE
,0,I4
,-1);
8346 VARIMP(UI1
,0,BSTR
,true_str
,I2
,-1);
8347 VARIMP(UI1
,0,BOOL
,VARIANT_FALSE
,I2
,-1);
8348 VARIMP(UI1
,0,I1
,0,I4
,-1);
8349 VARIMP(UI1
,0,UI1
,1,UI1
,255);
8350 VARIMP(UI1
,0,UI2
,1,I4
,-1);
8351 VARIMP(UI1
,0,UI4
,1,I4
,-1);
8352 if (HAVE_OLEAUT32_I8
)
8354 VARIMP(UI1
,0,I8
,1,I8
,-1);
8355 VARIMP(UI1
,0,UI8
,1,I4
,-1);
8357 VARIMP(UI1
,0,INT
,-1,I4
,-1);
8358 VARIMP(UI1
,0,UINT
,1,I4
,-1);
8359 VARIMP(UI2
,0,EMPTY
,0,I4
,-1);
8360 VARIMP(UI2
,0,NULL
,0,I4
,-1);
8361 VARIMP(UI2
,0,I2
,-1,I4
,-1);
8362 VARIMP(UI2
,0,I4
,-1,I4
,-1);
8363 VARIMP(UI2
,0,R4
,0.0f
,I4
,-1);
8364 VARIMP(UI2
,0,R8
,-1.0,I4
,-1);
8365 VARIMP(UI2
,0,DATE
,0,I4
,-1);
8366 VARIMP(UI2
,0,BSTR
,true_str
,I4
,-1);
8367 VARIMP(UI2
,0,BOOL
,VARIANT_FALSE
,I4
,-1);
8368 VARIMP(UI2
,0,I1
,0,I4
,-1);
8369 VARIMP(UI2
,0,UI1
,1,I4
,-1);
8370 VARIMP(UI2
,0,UI2
,1,I4
,-1);
8371 VARIMP(UI2
,0,UI4
,1,I4
,-1);
8372 if (HAVE_OLEAUT32_I8
)
8374 VARIMP(UI2
,0,I8
,1,I8
,-1);
8375 VARIMP(UI2
,0,UI8
,1,I4
,-1);
8377 VARIMP(UI2
,0,INT
,-1,I4
,-1);
8378 VARIMP(UI2
,0,UINT
,1,I4
,-1);
8379 VARIMP(UI4
,0,EMPTY
,0,I4
,-1);
8380 VARIMP(UI4
,0,NULL
,0,I4
,-1);
8381 VARIMP(UI4
,0,I2
,-1,I4
,-1);
8382 VARIMP(UI4
,0,I4
,-1,I4
,-1);
8383 VARIMP(UI4
,0,R4
,0.0f
,I4
,-1);
8384 VARIMP(UI4
,0,R8
,-1.0,I4
,-1);
8385 VARIMP(UI4
,0,DATE
,0,I4
,-1);
8386 VARIMP(UI4
,0,BSTR
,true_str
,I4
,-1);
8387 VARIMP(UI4
,0,BOOL
,VARIANT_FALSE
,I4
,-1);
8388 VARIMP(UI4
,0,I1
,0,I4
,-1);
8389 VARIMP(UI4
,0,UI1
,1,I4
,-1);
8390 VARIMP(UI4
,0,UI2
,1,I4
,-1);
8391 VARIMP(UI4
,0,UI4
,1,I4
,-1);
8392 if (HAVE_OLEAUT32_I8
)
8394 VARIMP(UI4
,0,I8
,1,I8
,-1);
8395 VARIMP(UI4
,0,UI8
,1,I4
,-1);
8397 VARIMP(UI4
,0,INT
,-1,I4
,-1);
8398 VARIMP(UI4
,0,UINT
,1,I4
,-1);
8399 if (HAVE_OLEAUT32_I8
)
8401 VARIMP(I8
,-1,EMPTY
,0,I8
,0);
8402 VARIMP(I8
,-1,NULL
,0,NULL
,0);
8403 VARIMP(I8
,-1,I2
,-1,I8
,-1);
8404 VARIMP(I8
,-1,I4
,-1,I8
,-1);
8405 VARIMP(I8
,-1,R4
,0.0f
,I8
,0);
8406 VARIMP(I8
,-1,R8
,-1.0,I8
,-1);
8407 VARIMP(I8
,-1,DATE
,0,I8
,0);
8408 VARIMP(I8
,-1,BSTR
,true_str
,I8
,-1);
8409 VARIMP(I8
,-1,BOOL
,VARIANT_FALSE
,I8
,0);
8410 VARIMP(I8
,-1,I1
,0,I8
,0);
8411 VARIMP(I8
,-1,UI1
,1,I8
,1);
8412 VARIMP(I8
,-1,UI2
,1,I8
,1);
8413 VARIMP(I8
,-1,UI4
,1,I8
,1);
8414 VARIMP(I8
,-1,I8
,1,I8
,1);
8415 VARIMP(I8
,-1,UI8
,1,I8
,1);
8416 VARIMP(I8
,-1,UINT
,1,I8
,1);
8417 VARIMP(UI8
,0,EMPTY
,0,I4
,-1);
8418 VARIMP(UI8
,0,NULL
,0,I4
,-1);
8419 VARIMP(UI8
,0,I2
,-1,I4
,-1);
8420 VARIMP(UI8
,0,I4
,-1,I4
,-1);
8421 VARIMP(UI8
,0,R4
,0.0f
,I4
,-1);
8422 VARIMP(UI8
,0,R8
,-1.0,I4
,-1);
8423 VARIMP(UI8
,0,DATE
,0,I4
,-1);
8424 VARIMP(UI8
,0,BSTR
,true_str
,I4
,-1);
8425 VARIMP(UI8
,0,BOOL
,VARIANT_FALSE
,I4
,-1);
8426 VARIMP(UI8
,0,I1
,0,I4
,-1);
8427 VARIMP(UI8
,0,UI1
,1,I4
,-1);
8428 VARIMP(UI8
,0,UI2
,1,I4
,-1);
8429 VARIMP(UI8
,0,UI4
,1,I4
,-1);
8430 VARIMP(UI8
,0,I8
,1,I8
,-1);
8431 VARIMP(UI8
,0,UI8
,1,I4
,-1);
8432 VARIMP(UI8
,0,INT
,-1,I4
,-1);
8433 VARIMP(UI8
,0,UINT
,1,I4
,-1);
8435 VARIMP(INT
,-1,EMPTY
,0,I4
,0);
8436 VARIMP(INT
,-1,NULL
,0,NULL
,0);
8437 VARIMP(INT
,-1,I2
,-1,I4
,-1);
8438 VARIMP(INT
,-1,I4
,-1,I4
,-1);
8439 VARIMP(INT
,-1,R4
,0.0f
,I4
,0);
8440 VARIMP(INT
,-1,R8
,-1.0,I4
,-1);
8441 VARIMP(INT
,-1,DATE
,0,I4
,0);
8442 VARIMP(INT
,-1,BSTR
,true_str
,I4
,-1);
8443 VARIMP(INT
,-1,BOOL
,VARIANT_FALSE
,I4
,0);
8444 VARIMP(INT
,-1,I1
,0,I4
,0);
8445 VARIMP(INT
,-1,UI1
,1,I4
,1);
8446 VARIMP(INT
,-1,UI2
,1,I4
,1);
8447 VARIMP(INT
,-1,UI4
,1,I4
,1);
8448 if (HAVE_OLEAUT32_I8
)
8450 VARIMP(INT
,-1,I8
,1,I8
,1);
8451 VARIMP(INT
,-1,UI8
,1,I4
,1);
8453 VARIMP(INT
,-1,INT
,-1,I4
,-1);
8454 VARIMP(INT
,-1,UINT
,1,I4
,1);
8455 VARIMP(UINT
,1,EMPTY
,0,I4
,-2);
8456 VARIMP(UINT
,1,NULL
,0,I4
,-2);
8457 VARIMP(UINT
,1,I2
,-1,I4
,-1);
8458 VARIMP(UINT
,1,I4
,-1,I4
,-1);
8459 VARIMP(UINT
,1,R4
,0.0f
,I4
,-2);
8460 VARIMP(UINT
,1,R8
,-1.0,I4
,-1);
8461 VARIMP(UINT
,1,DATE
,0,I4
,-2);
8462 VARIMP(UINT
,1,BSTR
,true_str
,I4
,-1);
8463 VARIMP(UINT
,1,BOOL
,VARIANT_FALSE
,I4
,-2);
8464 VARIMP(UINT
,1,I1
,0,I4
,-2);
8465 VARIMP(UINT
,1,UI1
,1,I4
,-1);
8466 VARIMP(UINT
,1,UI2
,1,I4
,-1);
8467 VARIMP(UINT
,1,UI4
,1,I4
,-1);
8468 if (HAVE_OLEAUT32_I8
)
8470 VARIMP(UINT
,1,I8
,1,I8
,-1);
8471 VARIMP(UINT
,1,UI8
,1,I4
,-1);
8473 VARIMP(UINT
,1,INT
,-1,I4
,-1);
8474 VARIMP(UINT
,1,UINT
,1,I4
,-1);
8476 /* Manually test some VT_CY, VT_DECIMAL variants */
8478 hres
= VarCyFromI4(1, &V_CY(&cy
));
8479 ok(hres
== S_OK
, "VarCyFromI4 failed!\n");
8480 V_VT(&dec
) = VT_DECIMAL
;
8481 hres
= VarDecFromR8(2.0, &V_DECIMAL(&dec
));
8482 ok(hres
== S_OK
, "VarDecFromR4 failed!\n");
8483 memset(&left
, 0, sizeof(left
));
8484 memset(&right
, 0, sizeof(right
));
8485 V_VT(&left
) = VT_I4
;
8487 V_VT(&right
) = VT_I8
;
8490 hres
= pVarImp(&cy
, &cy
, &result
);
8491 ok(hres
== S_OK
&& V_VT(&result
) == VT_I4
,
8492 "VARIMP: expected coerced hres 0x%X type VT_I4, got hres 0x%X type %s!\n",
8493 S_OK
, hres
, vtstr(V_VT(&result
)));
8494 ok(hres
== S_OK
&& V_I4(&result
) == -1,
8495 "VARIMP: CY value %d, expected %d\n", V_I4(&result
), -1);
8497 if (HAVE_OLEAUT32_I8
)
8499 hres
= pVarImp(&cy
, &right
, &result
);
8500 ok(hres
== S_OK
&& V_VT(&result
) == VT_I8
,
8501 "VARIMP: expected coerced hres 0x%X type VT_I8, got hres 0x%X type %s!\n",
8502 S_OK
, hres
, vtstr(V_VT(&result
)));
8503 ok(hres
== S_OK
&& V_I8(&result
) == -2,
8504 "VARIMP: CY value %x%08x, expected %d\n",
8505 (DWORD
)((V_I8(&result
)) >> 32), (DWORD
)(V_I8(&result
)), -2);
8508 hres
= pVarImp(&left
, &cy
, &result
);
8509 ok(hres
== S_OK
&& V_VT(&result
) == VT_I4
,
8510 "VARIMP: expected coerced hres 0x%X type VT_I4, got hres 0x%X type %s!\n",
8511 S_OK
, hres
, vtstr(V_VT(&result
)));
8512 ok(hres
== S_OK
&& V_I4(&result
) == -1,
8513 "VARIMP: CY value %d, expected %d\n", V_I4(&result
), -1);
8515 hres
= pVarImp(&left
, &dec
, &result
);
8516 ok(hres
== S_OK
&& V_VT(&result
) == VT_I4
,
8517 "VARIMP: expected coerced hres 0x%X type VT_I4, got hres 0x%X type %s!\n",
8518 S_OK
, hres
, vtstr(V_VT(&result
)));
8519 ok(hres
== S_OK
&& V_I4(&result
) == -1,
8520 "VARIMP: DECIMAL value %d, expected %d\n", V_I4(&result
), -1);
8522 hres
= pVarImp(&dec
, &dec
, &result
);
8523 ok(hres
== S_OK
&& V_VT(&result
) == VT_I4
,
8524 "VARIMP: expected coerced hres 0x%X type VT_I4, got hres 0x%X type %s!\n",
8525 S_OK
, hres
, vtstr(V_VT(&result
)));
8526 ok(hres
== S_OK
&& V_I4(&result
) == -1,
8527 "VARIMP: DECIMAL value %d, expected %d\n", V_I4(&result
), -1);
8529 if (HAVE_OLEAUT32_I8
)
8531 hres
= pVarImp(&dec
, &right
, &result
);
8532 ok(hres
== S_OK
&& V_VT(&result
) == VT_I8
,
8533 "VARIMP: expected coerced hres 0x%X type VT_I8, got hres 0x%X type %s!\n",
8534 S_OK
, hres
, vtstr(V_VT(&result
)));
8535 ok(hres
== S_OK
&& V_I8(&result
) == -3,
8536 "VARIMP: DECIMAL value 0x%x%08x, expected %d\n",
8537 (DWORD
)(V_I8(&result
) >>32), (DWORD
)V_I8(&result
), -3);
8540 SysFreeString(false_str
);
8541 SysFreeString(true_str
);
8549 test_VariantClear();
8551 test_VariantCopyInd();
8552 test_VarParseNumFromStr();
8553 test_VarNumFromParseNum();
8554 test_VarUdateFromDate();
8555 test_VarDateFromUdate();
8556 test_SystemTimeToVariantTime();
8557 test_VariantTimeToSystemTime();
8558 test_DosDateTimeToVariantTime();
8559 test_VariantTimeToDosDateTime();