Sweden-Number/dlls/msvcp120/tests/msvcp120.c

3356 lines
137 KiB
C

/*
* Copyright 2014 Yifu Wang for ESRI
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <locale.h>
#include <stdio.h>
#include <math.h>
#include <limits.h>
#include "wine/test.h"
#include "winbase.h"
DWORD expect_idx;
static int vector_alloc_count;
static int vector_elem_count;
typedef struct blocks_to_free{
size_t first_block;
void *blocks[sizeof(void*)*8];
int size_check;
}compact_block;
#define DEFINE_EXPECT(func) \
BOOL expect_ ## func, called_ ## func
struct expect_struct {
DEFINE_EXPECT(queue_char__Allocate_page);
DEFINE_EXPECT(queue_char__Deallocate_page);
DEFINE_EXPECT(queue_char__Move_item);
DEFINE_EXPECT(queue_char__Copy_item);
DEFINE_EXPECT(queue_char__Assign_and_destroy_item);
DEFINE_EXPECT(concurrent_vector_int_alloc);
DEFINE_EXPECT(concurrent_vector_int_destroy);
DEFINE_EXPECT(concurrent_vector_int_copy);
DEFINE_EXPECT(concurrent_vector_int_assign);
};
#define SET_EXPECT(func) \
do { \
struct expect_struct *p = TlsGetValue(expect_idx); \
ok(p != NULL, "expect_struct not initialized\n"); \
p->expect_ ## func = TRUE; \
}while(0)
#define CHECK_EXPECT2(func) \
do { \
struct expect_struct *p = TlsGetValue(expect_idx); \
ok(p != NULL, "expect_struct not initialized\n"); \
ok(p->expect_ ##func, "unexpected call " #func "\n"); \
p->called_ ## func = TRUE; \
}while(0)
#define CHECK_EXPECT(func) \
do { \
struct expect_struct *p = TlsGetValue(expect_idx); \
ok(p != NULL, "expect_struct not initialized\n"); \
CHECK_EXPECT2(func); \
p->expect_ ## func = FALSE; \
}while(0)
#define CHECK_CALLED(func) \
do { \
struct expect_struct *p = TlsGetValue(expect_idx); \
ok(p != NULL, "expect_struct not initialized\n"); \
ok(p->called_ ## func, "expected " #func "\n"); \
p->expect_ ## func = p->called_ ## func = FALSE; \
}while(0)
static void alloc_expect_struct(void)
{
struct expect_struct *p = malloc(sizeof(*p));
memset(p, 0, sizeof(*p));
ok(TlsSetValue(expect_idx, p), "TlsSetValue failed\n");
}
static void free_expect_struct(void)
{
struct expect_struct *p = TlsGetValue(expect_idx);
ok(TlsSetValue(expect_idx, NULL), "TlsSetValue failed\n");
free(p);
}
#undef __thiscall
#ifdef __i386__
#define __thiscall __stdcall
#else
#define __thiscall __cdecl
#endif
/* Emulate a __thiscall */
#ifdef __i386__
#include "pshpack1.h"
struct thiscall_thunk
{
BYTE pop_eax; /* popl %eax (ret addr) */
BYTE pop_edx; /* popl %edx (func) */
BYTE pop_ecx; /* popl %ecx (this) */
BYTE push_eax; /* pushl %eax */
WORD jmp_edx; /* jmp *%edx */
};
#include "poppack.h"
static void * (WINAPI *call_thiscall_func1)( void *func, void *this );
static void * (WINAPI *call_thiscall_func2)( void *func, void *this, const void *a );
static void * (WINAPI *call_thiscall_func3)( void *func, void *this, const void *a,
const void *b );
static void * (WINAPI *call_thiscall_func4)( void *func, void *this, const void *a,
const void *b, const void *c );
static void * (WINAPI *call_thiscall_func5)( void *func, void *this, const void *a,
const void *b, const void *c, const void *d );
static void * (WINAPI *call_thiscall_func6)( void *func, void *this, const void *a,
const void *b, const void *c, const void *d, const void *e );
static void * (WINAPI *call_thiscall_func7)( void *func, void *this, const void *a,
const void *b, const void *c, const void *d, const void *e, const void *f );
static void init_thiscall_thunk(void)
{
struct thiscall_thunk *thunk = VirtualAlloc( NULL, sizeof(*thunk),
MEM_COMMIT, PAGE_EXECUTE_READWRITE );
thunk->pop_eax = 0x58; /* popl %eax */
thunk->pop_edx = 0x5a; /* popl %edx */
thunk->pop_ecx = 0x59; /* popl %ecx */
thunk->push_eax = 0x50; /* pushl %eax */
thunk->jmp_edx = 0xe2ff; /* jmp *%edx */
call_thiscall_func1 = (void *)thunk;
call_thiscall_func2 = (void *)thunk;
call_thiscall_func3 = (void *)thunk;
call_thiscall_func4 = (void *)thunk;
call_thiscall_func5 = (void *)thunk;
call_thiscall_func6 = (void *)thunk;
call_thiscall_func7 = (void *)thunk;
}
#define call_func1(func,_this) call_thiscall_func1(func,_this)
#define call_func2(func,_this,a) call_thiscall_func2(func,_this,(const void*)(a))
#define call_func3(func,_this,a,b) call_thiscall_func3(func,_this,(const void*)(a),\
(const void*)(b))
#define call_func4(func,_this,a,b,c) call_thiscall_func4(func,_this,(const void*)(a),\
(const void*)(b),(const void*)(c))
#define call_func5(func,_this,a,b,c,d) call_thiscall_func5(func,_this,(const void*)(a),\
(const void*)(b),(const void*)(c),(const void*)(d))
#define call_func6(func,_this,a,b,c,d,e) call_thiscall_func6(func,_this,(const void*)(a),\
(const void*)(b),(const void*)(c),(const void*)(d),(const void*)(e))
#define call_func7(func,_this,a,b,c,d,e,f) call_thiscall_func7(func,_this,(const void*)(a),\
(const void*)(b),(const void*)(c),(const void*)(d),(const void*)(e),(const void*)(f))
#else
#define init_thiscall_thunk()
#define call_func1(func,_this) func(_this)
#define call_func2(func,_this,a) func(_this,a)
#define call_func3(func,_this,a,b) func(_this,a,b)
#define call_func4(func,_this,a,b,c) func(_this,a,b,c)
#define call_func5(func,_this,a,b,c,d) func(_this,a,b,c,d)
#define call_func6(func,_this,a,b,c,d,e) func(_this,a,b,c,d,e)
#define call_func7(func,_this,a,b,c,d,e,f) func(_this,a,b,c,d,e,f)
#endif /* __i386__ */
static inline float __port_infinity(void)
{
static const unsigned __inf_bytes = 0x7f800000;
return *(const float *)&__inf_bytes;
}
#define INFINITY __port_infinity()
static inline float __port_nan(void)
{
static const unsigned __nan_bytes = 0x7fc00000;
return *(const float *)&__nan_bytes;
}
#define NAN __port_nan()
typedef int MSVCRT_long;
typedef unsigned char MSVCP_bool;
/* xtime */
typedef struct {
__time64_t sec;
MSVCRT_long nsec;
} xtime;
typedef struct {
unsigned page;
int mb_max;
int unk;
BYTE isleadbyte[32];
} _Cvtvec;
struct space_info {
ULONGLONG capacity;
ULONGLONG free;
ULONGLONG available;
};
enum file_type {
status_unknown, file_not_found, regular_file, directory_file,
symlink_file, block_file, character_file, fifo_file, socket_file,
type_unknown
};
static BOOL compare_float(float f, float g, unsigned int ulps)
{
int x = *(int *)&f;
int y = *(int *)&g;
if (x < 0)
x = INT_MIN - x;
if (y < 0)
y = INT_MIN - y;
if (abs(x - y) > ulps)
return FALSE;
return TRUE;
}
static char* (__cdecl *p_setlocale)(int, const char*);
static int (__cdecl *p__setmbcp)(int);
static int (__cdecl *p__ismbblead)(unsigned int);
static MSVCRT_long (__cdecl *p__Xtime_diff_to_millis2)(const xtime*, const xtime*);
static int (__cdecl *p_xtime_get)(xtime*, int);
static _Cvtvec* (__cdecl *p__Getcvt)(_Cvtvec*);
static void (CDECL *p__Call_once)(int *once, void (CDECL *func)(void));
static void (CDECL *p__Call_onceEx)(int *once, void (CDECL *func)(void*), void *argv);
static void (CDECL *p__Do_call)(void *this);
static short (__cdecl *p__Dtest)(double *d);
static short (__cdecl *p__Dscale)(double *d, int exp);
static short (__cdecl *p__FExp)(float *x, float y, int exp);
/* filesystem */
static ULONGLONG(__cdecl *p_tr2_sys__File_size)(char const*);
static ULONGLONG(__cdecl *p_tr2_sys__File_size_wchar)(WCHAR const*);
static int (__cdecl *p_tr2_sys__Equivalent)(char const*, char const*);
static int (__cdecl *p_tr2_sys__Equivalent_wchar)(WCHAR const*, WCHAR const*);
static char* (__cdecl *p_tr2_sys__Current_get)(char *);
static WCHAR* (__cdecl *p_tr2_sys__Current_get_wchar)(WCHAR *);
static MSVCP_bool (__cdecl *p_tr2_sys__Current_set)(char const*);
static MSVCP_bool (__cdecl *p_tr2_sys__Current_set_wchar)(WCHAR const*);
static int (__cdecl *p_tr2_sys__Make_dir)(char const*);
static int (__cdecl *p_tr2_sys__Make_dir_wchar)(WCHAR const*);
static MSVCP_bool (__cdecl *p_tr2_sys__Remove_dir)(char const*);
static MSVCP_bool (__cdecl *p_tr2_sys__Remove_dir_wchar)(WCHAR const*);
static int (__cdecl *p_tr2_sys__Copy_file)(char const*, char const*, MSVCP_bool);
static int (__cdecl *p_tr2_sys__Copy_file_wchar)(WCHAR const*, WCHAR const*, MSVCP_bool);
static int (__cdecl *p_tr2_sys__Rename)(char const*, char const*);
static int (__cdecl *p_tr2_sys__Rename_wchar)(WCHAR const*, WCHAR const*);
static struct space_info* (__cdecl *p_tr2_sys__Statvfs)(struct space_info*, char const*);
static struct space_info* (__cdecl *p_tr2_sys__Statvfs_wchar)(struct space_info*, WCHAR const*);
static enum file_type (__cdecl *p_tr2_sys__Stat)(char const*, int *);
static enum file_type (__cdecl *p_tr2_sys__Stat_wchar)(WCHAR const*, int *);
static enum file_type (__cdecl *p_tr2_sys__Lstat)(char const*, int *);
static enum file_type (__cdecl *p_tr2_sys__Lstat_wchar)(WCHAR const*, int *);
static __int64 (__cdecl *p_tr2_sys__Last_write_time)(char const*);
static __int64 (__cdecl *p_tr2_sys__Last_write_time_wchar)(WCHAR const*);
static void (__cdecl *p_tr2_sys__Last_write_time_set)(char const*, __int64);
static void* (__cdecl *p_tr2_sys__Open_dir)(char*, char const*, int *, enum file_type*);
static char* (__cdecl *p_tr2_sys__Read_dir)(char*, void*, enum file_type*);
static void (__cdecl *p_tr2_sys__Close_dir)(void*);
static int (__cdecl *p_tr2_sys__Link)(char const*, char const*);
static int (__cdecl *p_tr2_sys__Symlink)(char const*, char const*);
static int (__cdecl *p_tr2_sys__Unlink)(char const*);
/* thrd */
typedef struct
{
HANDLE hnd;
DWORD id;
} _Thrd_t;
#define TIMEDELTA 250 /* 250 ms uncertainty allowed */
typedef int (__cdecl *_Thrd_start_t)(void*);
static int (__cdecl *p__Thrd_equal)(_Thrd_t, _Thrd_t);
static int (__cdecl *p__Thrd_lt)(_Thrd_t, _Thrd_t);
static void (__cdecl *p__Thrd_sleep)(const xtime*);
static _Thrd_t (__cdecl *p__Thrd_current)(void);
static int (__cdecl *p__Thrd_create)(_Thrd_t*, _Thrd_start_t, void*);
static int (__cdecl *p__Thrd_join)(_Thrd_t, int*);
static int (__cdecl *p__Thrd_detach)(_Thrd_t);
#ifdef __i386__
static ULONGLONG (__cdecl *p_i386_Thrd_current)(void);
static _Thrd_t __cdecl i386_Thrd_current(void)
{
union {
_Thrd_t thr;
ULONGLONG ull;
} r;
r.ull = p_i386_Thrd_current();
return r.thr;
}
#endif
/* mtx */
typedef struct cs_queue
{
struct cs_queue *next;
BOOL free;
int unknown;
} cs_queue;
typedef struct
{
ULONG_PTR unk_thread_id;
cs_queue unk_active;
void *unknown[2];
cs_queue *head;
void *tail;
} critical_section;
typedef struct
{
DWORD flags;
critical_section cs;
DWORD thread_id;
DWORD count;
} *_Mtx_t;
static int (__cdecl *p__Mtx_init)(_Mtx_t*, int);
static void (__cdecl *p__Mtx_destroy)(_Mtx_t*);
static int (__cdecl *p__Mtx_lock)(_Mtx_t*);
static int (__cdecl *p__Mtx_unlock)(_Mtx_t*);
/* cnd */
typedef void *_Cnd_t;
static int (__cdecl *p__Cnd_init)(_Cnd_t*);
static void (__cdecl *p__Cnd_destroy)(_Cnd_t*);
static int (__cdecl *p__Cnd_wait)(_Cnd_t*, _Mtx_t*);
static int (__cdecl *p__Cnd_timedwait)(_Cnd_t*, _Mtx_t*, const xtime*);
static int (__cdecl *p__Cnd_broadcast)(_Cnd_t*);
static int (__cdecl *p__Cnd_signal)(_Cnd_t*);
static void (__cdecl *p__Cnd_register_at_thread_exit)(_Cnd_t*, _Mtx_t*, int*);
static void (__cdecl *p__Cnd_unregister_at_thread_exit)(_Mtx_t*);
static void (__cdecl *p__Cnd_do_broadcast_at_thread_exit)(void);
/* _Pad */
typedef void (*vtable_ptr)(void);
typedef struct
{
const vtable_ptr *vtable;
_Cnd_t cnd;
_Mtx_t mtx;
MSVCP_bool launched;
} _Pad;
static _Pad* (__thiscall *p__Pad_ctor)(_Pad*);
static _Pad* (__thiscall *p__Pad_copy_ctor)(_Pad*, const _Pad*);
static void (__thiscall *p__Pad_dtor)(_Pad*);
static _Pad* (__thiscall *p__Pad_op_assign)(_Pad*, const _Pad*);
static void (__thiscall *p__Pad__Launch)(_Pad*, _Thrd_t*);
static void (__thiscall *p__Pad__Release)(_Pad*);
static void (__cdecl *p_threads__Mtx_new)(void **mtx);
static void (__cdecl *p_threads__Mtx_delete)(void *mtx);
static void (__cdecl *p_threads__Mtx_lock)(void *mtx);
static void (__cdecl *p_threads__Mtx_unlock)(void *mtx);
static BOOLEAN (WINAPI *pCreateSymbolicLinkA)(LPCSTR,LPCSTR,DWORD);
static size_t (__cdecl *p_vector_base_v4__Segment_index_of)(size_t);
typedef struct
{
const vtable_ptr *vtable;
void *data;
size_t alloc_count;
size_t item_size;
} queue_base_v4;
typedef struct
{
struct _Page *_Next;
size_t _Mask;
char data[1];
} _Page;
static queue_base_v4* (__thiscall *p_queue_base_v4_ctor)(queue_base_v4*, size_t);
static void (__thiscall *p_queue_base_v4_dtor)(queue_base_v4*);
static MSVCP_bool (__thiscall *p_queue_base_v4__Internal_empty)(queue_base_v4*);
static size_t (__thiscall *p_queue_base_v4__Internal_size)(queue_base_v4*);
static void (__thiscall *p_queue_base_v4__Internal_push)(queue_base_v4*, const void*);
static void (__thiscall *p_queue_base_v4__Internal_move_push)(queue_base_v4*, void*);
static MSVCP_bool (__thiscall *p_queue_base_v4__Internal_pop_if_present)(queue_base_v4*, void*);
static void (__thiscall *p_queue_base_v4__Internal_finish_clear)(queue_base_v4*);
typedef struct vector_base_v4
{
void* (__cdecl *allocator)(struct vector_base_v4*, size_t);
void *storage[3];
size_t first_block;
size_t early_size;
void **segment;
} vector_base_v4;
static void (__thiscall *p_vector_base_v4_dtor)(vector_base_v4*);
static size_t (__thiscall *p_vector_base_v4__Internal_capacity)(vector_base_v4*);
static void* (__thiscall *p_vector_base_v4__Internal_push_back)(
vector_base_v4*, size_t, size_t*);
static size_t (__thiscall *p_vector_base_v4__Internal_clear)(
vector_base_v4*, void (__cdecl*)(void*, size_t));
static void (__thiscall *p_vector_base_v4__Internal_copy)(
vector_base_v4*, vector_base_v4*, size_t, void (__cdecl*)(void*, const void*, size_t));
static void (__thiscall *p_vector_base_v4__Internal_assign)(
vector_base_v4*, vector_base_v4*, size_t, void (__cdecl*)(void*, size_t),
void (__cdecl*)(void*, const void*, size_t), void (__cdecl*)(void*, const void*, size_t));
static void (__thiscall *p_vector_base_v4__Internal_swap)(
vector_base_v4*, const vector_base_v4*);
static void* (__thiscall *p_vector_base_v4__Internal_compact)(
vector_base_v4*, size_t, void*, void (__cdecl*)(void*, size_t),
void (__cdecl*)(void*, const void*, size_t));
static size_t (__thiscall *p_vector_base_v4__Internal_grow_by)(
vector_base_v4*, size_t, size_t, void (__cdecl*)(void*, const void*, size_t), const void *);
static size_t (__thiscall *p_vector_base_v4__Internal_grow_to_at_least_with_result)(
vector_base_v4*, size_t, size_t, void (__cdecl*)(void*, const void*, size_t), const void *);
static void (__thiscall *p_vector_base_v4__Internal_reserve)(
vector_base_v4*, size_t, size_t, size_t);
static void (__thiscall *p_vector_base_v4__Internal_resize)(
vector_base_v4*, size_t, size_t, size_t, void (__cdecl*)(void*, size_t),
void (__cdecl *copy)(void*, const void*, size_t), const void*);
static HMODULE msvcp;
#define SETNOFAIL(x,y) x = (void*)GetProcAddress(msvcp,y)
#define SET(x,y) do { SETNOFAIL(x,y); ok(x != NULL, "Export '%s' not found\n", y); } while(0)
static BOOL init(void)
{
HANDLE hdll;
msvcp = LoadLibraryA("msvcp120.dll");
if(!msvcp)
{
win_skip("msvcp120.dll not installed\n");
return FALSE;
}
SET(p__Xtime_diff_to_millis2,
"_Xtime_diff_to_millis2");
SET(p_xtime_get,
"xtime_get");
SET(p__Getcvt,
"_Getcvt");
SET(p__Call_once,
"_Call_once");
SET(p__Call_onceEx,
"_Call_onceEx");
SET(p__Do_call,
"_Do_call");
SET(p__Dtest,
"_Dtest");
SET(p__Dscale,
"_Dscale");
SET(p__FExp,
"_FExp");
if(sizeof(void*) == 8) { /* 64-bit initialization */
SET(p_tr2_sys__File_size,
"?_File_size@sys@tr2@std@@YA_KPEBD@Z");
SET(p_tr2_sys__File_size_wchar,
"?_File_size@sys@tr2@std@@YA_KPEB_W@Z");
SET(p_tr2_sys__Equivalent,
"?_Equivalent@sys@tr2@std@@YAHPEBD0@Z");
SET(p_tr2_sys__Equivalent_wchar,
"?_Equivalent@sys@tr2@std@@YAHPEB_W0@Z");
SET(p_tr2_sys__Current_get,
"?_Current_get@sys@tr2@std@@YAPEADAEAY0BAE@D@Z");
SET(p_tr2_sys__Current_get_wchar,
"?_Current_get@sys@tr2@std@@YAPEA_WAEAY0BAE@_W@Z");
SET(p_tr2_sys__Current_set,
"?_Current_set@sys@tr2@std@@YA_NPEBD@Z");
SET(p_tr2_sys__Current_set_wchar,
"?_Current_set@sys@tr2@std@@YA_NPEB_W@Z");
SET(p_tr2_sys__Make_dir,
"?_Make_dir@sys@tr2@std@@YAHPEBD@Z");
SET(p_tr2_sys__Make_dir_wchar,
"?_Make_dir@sys@tr2@std@@YAHPEB_W@Z");
SET(p_tr2_sys__Remove_dir,
"?_Remove_dir@sys@tr2@std@@YA_NPEBD@Z");
SET(p_tr2_sys__Remove_dir_wchar,
"?_Remove_dir@sys@tr2@std@@YA_NPEB_W@Z");
SET(p_tr2_sys__Copy_file,
"?_Copy_file@sys@tr2@std@@YAHPEBD0_N@Z");
SET(p_tr2_sys__Copy_file_wchar,
"?_Copy_file@sys@tr2@std@@YAHPEB_W0_N@Z");
SET(p_tr2_sys__Rename,
"?_Rename@sys@tr2@std@@YAHPEBD0@Z");
SET(p_tr2_sys__Rename_wchar,
"?_Rename@sys@tr2@std@@YAHPEB_W0@Z");
SET(p_tr2_sys__Statvfs,
"?_Statvfs@sys@tr2@std@@YA?AUspace_info@123@PEBD@Z");
SET(p_tr2_sys__Statvfs_wchar,
"?_Statvfs@sys@tr2@std@@YA?AUspace_info@123@PEB_W@Z");
SET(p_tr2_sys__Stat,
"?_Stat@sys@tr2@std@@YA?AW4file_type@123@PEBDAEAH@Z");
SET(p_tr2_sys__Stat_wchar,
"?_Stat@sys@tr2@std@@YA?AW4file_type@123@PEB_WAEAH@Z");
SET(p_tr2_sys__Lstat,
"?_Lstat@sys@tr2@std@@YA?AW4file_type@123@PEBDAEAH@Z");
SET(p_tr2_sys__Lstat_wchar,
"?_Lstat@sys@tr2@std@@YA?AW4file_type@123@PEB_WAEAH@Z");
SET(p_tr2_sys__Last_write_time,
"?_Last_write_time@sys@tr2@std@@YA_JPEBD@Z");
SET(p_tr2_sys__Last_write_time_wchar,
"?_Last_write_time@sys@tr2@std@@YA_JPEB_W@Z");
SET(p_tr2_sys__Last_write_time_set,
"?_Last_write_time@sys@tr2@std@@YAXPEBD_J@Z");
SET(p_tr2_sys__Open_dir,
"?_Open_dir@sys@tr2@std@@YAPEAXAEAY0BAE@DPEBDAEAHAEAW4file_type@123@@Z");
SET(p_tr2_sys__Read_dir,
"?_Read_dir@sys@tr2@std@@YAPEADAEAY0BAE@DPEAXAEAW4file_type@123@@Z");
SET(p_tr2_sys__Close_dir,
"?_Close_dir@sys@tr2@std@@YAXPEAX@Z");
SET(p_tr2_sys__Link,
"?_Link@sys@tr2@std@@YAHPEBD0@Z");
SET(p_tr2_sys__Symlink,
"?_Symlink@sys@tr2@std@@YAHPEBD0@Z");
SET(p_tr2_sys__Unlink,
"?_Unlink@sys@tr2@std@@YAHPEBD@Z");
SET(p__Thrd_current,
"_Thrd_current");
SET(p__Pad_ctor,
"??0_Pad@std@@QEAA@XZ");
SET(p__Pad_copy_ctor,
"??0_Pad@std@@QEAA@AEBV01@@Z");
SET(p__Pad_dtor,
"??1_Pad@std@@QEAA@XZ");
SET(p__Pad_op_assign,
"??4_Pad@std@@QEAAAEAV01@AEBV01@@Z");
SET(p__Pad__Launch,
"?_Launch@_Pad@std@@QEAAXPEAU_Thrd_imp_t@@@Z");
SET(p__Pad__Release,
"?_Release@_Pad@std@@QEAAXXZ");
SET(p_threads__Mtx_new,
"?_Mtx_new@threads@stdext@@YAXAEAPEAX@Z");
SET(p_threads__Mtx_delete,
"?_Mtx_delete@threads@stdext@@YAXPEAX@Z");
SET(p_threads__Mtx_lock,
"?_Mtx_lock@threads@stdext@@YAXPEAX@Z");
SET(p_threads__Mtx_unlock,
"?_Mtx_unlock@threads@stdext@@YAXPEAX@Z");
SET(p_vector_base_v4__Segment_index_of,
"?_Segment_index_of@_Concurrent_vector_base_v4@details@Concurrency@@KA_K_K@Z");
SET(p_queue_base_v4_ctor,
"??0_Concurrent_queue_base_v4@details@Concurrency@@IEAA@_K@Z");
SET(p_queue_base_v4_dtor,
"??1_Concurrent_queue_base_v4@details@Concurrency@@MEAA@XZ");
SET(p_queue_base_v4__Internal_empty,
"?_Internal_empty@_Concurrent_queue_base_v4@details@Concurrency@@IEBA_NXZ");
SET(p_queue_base_v4__Internal_size,
"?_Internal_size@_Concurrent_queue_base_v4@details@Concurrency@@IEBA_KXZ");
SET(p_queue_base_v4__Internal_push,
"?_Internal_push@_Concurrent_queue_base_v4@details@Concurrency@@IEAAXPEBX@Z");
SET(p_queue_base_v4__Internal_move_push,
"?_Internal_move_push@_Concurrent_queue_base_v4@details@Concurrency@@IEAAXPEAX@Z");
SET(p_queue_base_v4__Internal_pop_if_present,
"?_Internal_pop_if_present@_Concurrent_queue_base_v4@details@Concurrency@@IEAA_NPEAX@Z");
SET(p_queue_base_v4__Internal_finish_clear,
"?_Internal_finish_clear@_Concurrent_queue_base_v4@details@Concurrency@@IEAAXXZ");
SET(p_vector_base_v4_dtor,
"??1_Concurrent_vector_base_v4@details@Concurrency@@IEAA@XZ");
SET(p_vector_base_v4__Internal_capacity,
"?_Internal_capacity@_Concurrent_vector_base_v4@details@Concurrency@@IEBA_KXZ");
SET(p_vector_base_v4__Internal_push_back,
"?_Internal_push_back@_Concurrent_vector_base_v4@details@Concurrency@@IEAAPEAX_KAEA_K@Z");
SET(p_vector_base_v4__Internal_clear,
"?_Internal_clear@_Concurrent_vector_base_v4@details@Concurrency@@IEAA_KP6AXPEAX_K@Z@Z");
SET(p_vector_base_v4__Internal_copy,
"?_Internal_copy@_Concurrent_vector_base_v4@details@Concurrency@@IEAAXAEBV123@_KP6AXPEAXPEBX1@Z@Z");
SET(p_vector_base_v4__Internal_assign,
"?_Internal_assign@_Concurrent_vector_base_v4@details@Concurrency@@IEAAXAEBV123@_KP6AXPEAX1@ZP6AX2PEBX1@Z5@Z");
SET(p_vector_base_v4__Internal_swap,
"?_Internal_swap@_Concurrent_vector_base_v4@details@Concurrency@@IEAAXAEAV123@@Z");
SET(p_vector_base_v4__Internal_compact,
"?_Internal_compact@_Concurrent_vector_base_v4@details@Concurrency@@IEAAPEAX_KPEAXP6AX10@ZP6AX1PEBX0@Z@Z");
SET(p_vector_base_v4__Internal_grow_by,
"?_Internal_grow_by@_Concurrent_vector_base_v4@details@Concurrency@@IEAA_K_K0P6AXPEAXPEBX0@Z2@Z");
SET(p_vector_base_v4__Internal_grow_to_at_least_with_result,
"?_Internal_grow_to_at_least_with_result@_Concurrent_vector_base_v4@details@Concurrency@@IEAA_K_K0P6AXPEAXPEBX0@Z2@Z");
SET(p_vector_base_v4__Internal_reserve,
"?_Internal_reserve@_Concurrent_vector_base_v4@details@Concurrency@@IEAAX_K00@Z");
SET(p_vector_base_v4__Internal_resize,
"?_Internal_resize@_Concurrent_vector_base_v4@details@Concurrency@@IEAAX_K00P6AXPEAX0@ZP6AX1PEBX0@Z3@Z");
} else {
SET(p_tr2_sys__File_size,
"?_File_size@sys@tr2@std@@YA_KPBD@Z");
SET(p_tr2_sys__File_size_wchar,
"?_File_size@sys@tr2@std@@YA_KPB_W@Z");
SET(p_tr2_sys__Equivalent,
"?_Equivalent@sys@tr2@std@@YAHPBD0@Z");
SET(p_tr2_sys__Equivalent_wchar,
"?_Equivalent@sys@tr2@std@@YAHPB_W0@Z");
SET(p_tr2_sys__Current_get,
"?_Current_get@sys@tr2@std@@YAPADAAY0BAE@D@Z");
SET(p_tr2_sys__Current_get_wchar,
"?_Current_get@sys@tr2@std@@YAPA_WAAY0BAE@_W@Z");
SET(p_tr2_sys__Current_set,
"?_Current_set@sys@tr2@std@@YA_NPBD@Z");
SET(p_tr2_sys__Current_set_wchar,
"?_Current_set@sys@tr2@std@@YA_NPB_W@Z");
SET(p_tr2_sys__Make_dir,
"?_Make_dir@sys@tr2@std@@YAHPBD@Z");
SET(p_tr2_sys__Make_dir_wchar,
"?_Make_dir@sys@tr2@std@@YAHPB_W@Z");
SET(p_tr2_sys__Remove_dir,
"?_Remove_dir@sys@tr2@std@@YA_NPBD@Z");
SET(p_tr2_sys__Remove_dir_wchar,
"?_Remove_dir@sys@tr2@std@@YA_NPB_W@Z");
SET(p_tr2_sys__Copy_file,
"?_Copy_file@sys@tr2@std@@YAHPBD0_N@Z");
SET(p_tr2_sys__Copy_file_wchar,
"?_Copy_file@sys@tr2@std@@YAHPB_W0_N@Z");
SET(p_tr2_sys__Rename,
"?_Rename@sys@tr2@std@@YAHPBD0@Z");
SET(p_tr2_sys__Rename_wchar,
"?_Rename@sys@tr2@std@@YAHPB_W0@Z");
SET(p_tr2_sys__Statvfs,
"?_Statvfs@sys@tr2@std@@YA?AUspace_info@123@PBD@Z");
SET(p_tr2_sys__Statvfs_wchar,
"?_Statvfs@sys@tr2@std@@YA?AUspace_info@123@PB_W@Z");
SET(p_tr2_sys__Stat,
"?_Stat@sys@tr2@std@@YA?AW4file_type@123@PBDAAH@Z");
SET(p_tr2_sys__Stat_wchar,
"?_Stat@sys@tr2@std@@YA?AW4file_type@123@PB_WAAH@Z");
SET(p_tr2_sys__Lstat,
"?_Lstat@sys@tr2@std@@YA?AW4file_type@123@PBDAAH@Z");
SET(p_tr2_sys__Lstat_wchar,
"?_Lstat@sys@tr2@std@@YA?AW4file_type@123@PB_WAAH@Z");
SET(p_tr2_sys__Last_write_time,
"?_Last_write_time@sys@tr2@std@@YA_JPBD@Z");
SET(p_tr2_sys__Last_write_time_wchar,
"?_Last_write_time@sys@tr2@std@@YA_JPB_W@Z");
SET(p_tr2_sys__Last_write_time_set,
"?_Last_write_time@sys@tr2@std@@YAXPBD_J@Z");
SET(p_tr2_sys__Open_dir,
"?_Open_dir@sys@tr2@std@@YAPAXAAY0BAE@DPBDAAHAAW4file_type@123@@Z");
SET(p_tr2_sys__Read_dir,
"?_Read_dir@sys@tr2@std@@YAPADAAY0BAE@DPAXAAW4file_type@123@@Z");
SET(p_tr2_sys__Close_dir,
"?_Close_dir@sys@tr2@std@@YAXPAX@Z");
SET(p_tr2_sys__Link,
"?_Link@sys@tr2@std@@YAHPBD0@Z");
SET(p_tr2_sys__Symlink,
"?_Symlink@sys@tr2@std@@YAHPBD0@Z");
SET(p_tr2_sys__Unlink,
"?_Unlink@sys@tr2@std@@YAHPBD@Z");
SET(p_threads__Mtx_new,
"?_Mtx_new@threads@stdext@@YAXAAPAX@Z");
SET(p_threads__Mtx_delete,
"?_Mtx_delete@threads@stdext@@YAXPAX@Z");
SET(p_threads__Mtx_lock,
"?_Mtx_lock@threads@stdext@@YAXPAX@Z");
SET(p_threads__Mtx_unlock,
"?_Mtx_unlock@threads@stdext@@YAXPAX@Z");
SET(p_vector_base_v4__Segment_index_of,
"?_Segment_index_of@_Concurrent_vector_base_v4@details@Concurrency@@KAII@Z");
#ifdef __i386__
SET(p_i386_Thrd_current,
"_Thrd_current");
p__Thrd_current = i386_Thrd_current;
SET(p__Pad_ctor,
"??0_Pad@std@@QAE@XZ");
SET(p__Pad_copy_ctor,
"??0_Pad@std@@QAE@ABV01@@Z");
SET(p__Pad_dtor,
"??1_Pad@std@@QAE@XZ");
SET(p__Pad_op_assign,
"??4_Pad@std@@QAEAAV01@ABV01@@Z");
SET(p__Pad__Launch,
"?_Launch@_Pad@std@@QAEXPAU_Thrd_imp_t@@@Z");
SET(p__Pad__Release,
"?_Release@_Pad@std@@QAEXXZ");
SET(p_queue_base_v4_ctor,
"??0_Concurrent_queue_base_v4@details@Concurrency@@IAE@I@Z");
SET(p_queue_base_v4_dtor,
"??1_Concurrent_queue_base_v4@details@Concurrency@@MAE@XZ");
SET(p_queue_base_v4__Internal_empty,
"?_Internal_empty@_Concurrent_queue_base_v4@details@Concurrency@@IBE_NXZ");
SET(p_queue_base_v4__Internal_size,
"?_Internal_size@_Concurrent_queue_base_v4@details@Concurrency@@IBEIXZ");
SET(p_queue_base_v4__Internal_push,
"?_Internal_push@_Concurrent_queue_base_v4@details@Concurrency@@IAEXPBX@Z");
SET(p_queue_base_v4__Internal_move_push,
"?_Internal_move_push@_Concurrent_queue_base_v4@details@Concurrency@@IAEXPAX@Z");
SET(p_queue_base_v4__Internal_pop_if_present,
"?_Internal_pop_if_present@_Concurrent_queue_base_v4@details@Concurrency@@IAE_NPAX@Z");
SET(p_queue_base_v4__Internal_finish_clear,
"?_Internal_finish_clear@_Concurrent_queue_base_v4@details@Concurrency@@IAEXXZ");
SET(p_vector_base_v4_dtor,
"??1_Concurrent_vector_base_v4@details@Concurrency@@IAE@XZ");
SET(p_vector_base_v4__Internal_capacity,
"?_Internal_capacity@_Concurrent_vector_base_v4@details@Concurrency@@IBEIXZ");
SET(p_vector_base_v4__Internal_push_back,
"?_Internal_push_back@_Concurrent_vector_base_v4@details@Concurrency@@IAEPAXIAAI@Z");
SET(p_vector_base_v4__Internal_clear,
"?_Internal_clear@_Concurrent_vector_base_v4@details@Concurrency@@IAEIP6AXPAXI@Z@Z");
SET(p_vector_base_v4__Internal_copy,
"?_Internal_copy@_Concurrent_vector_base_v4@details@Concurrency@@IAEXABV123@IP6AXPAXPBXI@Z@Z");
SET(p_vector_base_v4__Internal_assign,
"?_Internal_assign@_Concurrent_vector_base_v4@details@Concurrency@@IAEXABV123@IP6AXPAXI@ZP6AX1PBXI@Z4@Z");
SET(p_vector_base_v4__Internal_swap,
"?_Internal_swap@_Concurrent_vector_base_v4@details@Concurrency@@IAEXAAV123@@Z");
SET(p_vector_base_v4__Internal_compact,
"?_Internal_compact@_Concurrent_vector_base_v4@details@Concurrency@@IAEPAXIPAXP6AX0I@ZP6AX0PBXI@Z@Z");
SET(p_vector_base_v4__Internal_grow_by,
"?_Internal_grow_by@_Concurrent_vector_base_v4@details@Concurrency@@IAEIIIP6AXPAXPBXI@Z1@Z");
SET(p_vector_base_v4__Internal_grow_to_at_least_with_result,
"?_Internal_grow_to_at_least_with_result@_Concurrent_vector_base_v4@details@Concurrency@@IAEIIIP6AXPAXPBXI@Z1@Z");
SET(p_vector_base_v4__Internal_reserve,
"?_Internal_reserve@_Concurrent_vector_base_v4@details@Concurrency@@IAEXIII@Z");
SET(p_vector_base_v4__Internal_resize,
"?_Internal_resize@_Concurrent_vector_base_v4@details@Concurrency@@IAEXIIIP6AXPAXI@ZP6AX0PBXI@Z2@Z");
#else
SET(p__Thrd_current,
"_Thrd_current");
SET(p__Pad_ctor,
"??0_Pad@std@@QAA@XZ");
SET(p__Pad_copy_ctor,
"??0_Pad@std@@QAA@ABV01@@Z");
SET(p__Pad_dtor,
"??1_Pad@std@@QAA@XZ");
SET(p__Pad_op_assign,
"??4_Pad@std@@QAAAAV01@ABV01@@Z");
SET(p__Pad__Launch,
"?_Launch@_Pad@std@@QAAXPAU_Thrd_imp_t@@@Z");
SET(p__Pad__Release,
"?_Release@_Pad@std@@QAAXXZ");
SET(p_queue_base_v4_ctor,
"??0_Concurrent_queue_base_v4@details@Concurrency@@IAA@I@Z");
SET(p_queue_base_v4_dtor,
"??1_Concurrent_queue_base_v4@details@Concurrency@@MAA@XZ");
SET(p_queue_base_v4__Internal_empty,
"?_Internal_empty@_Concurrent_queue_base_v4@details@Concurrency@@IBA_NXZ");
SET(p_queue_base_v4__Internal_size,
"?_Internal_size@_Concurrent_queue_base_v4@details@Concurrency@@IBAIXZ");
SET(p_queue_base_v4__Internal_push,
"?_Internal_push@_Concurrent_queue_base_v4@details@Concurrency@@IAAXPBX@Z");
SET(p_queue_base_v4__Internal_move_push,
"?_Internal_move_push@_Concurrent_queue_base_v4@details@Concurrency@@IAAXPAX@Z");
SET(p_queue_base_v4__Internal_pop_if_present,
"?_Internal_pop_if_present@_Concurrent_queue_base_v4@details@Concurrency@@IAA_NPAX@Z");
SET(p_queue_base_v4__Internal_finish_clear,
"?_Internal_finish_clear@_Concurrent_queue_base_v4@details@Concurrency@@IAAXXZ");
SET(p_vector_base_v4_dtor,
"??1_Concurrent_vector_base_v4@details@Concurrency@@IAA@XZ");
SET(p_vector_base_v4__Internal_capacity,
"?_Internal_capacity@_Concurrent_vector_base_v4@details@Concurrency@@IBAIXZ");
SET(p_vector_base_v4__Internal_push_back,
"?_Internal_push_back@_Concurrent_vector_base_v4@details@Concurrency@@IAAPAXIAAI@Z");
SET(p_vector_base_v4__Internal_clear,
"?_Internal_clear@_Concurrent_vector_base_v4@details@Concurrency@@IAAIP6AXPAXI@Z@Z");
SET(p_vector_base_v4__Internal_copy,
"?_Internal_copy@_Concurrent_vector_base_v4@details@Concurrency@@IAAXABV123@IP6AXPAXPBXI@Z@Z");
SET(p_vector_base_v4__Internal_assign,
"?_Internal_assign@_Concurrent_vector_base_v4@details@Concurrency@@IAAXABV123@IP6AXPAXI@ZP6AX1PBXI@Z4@Z");
SET(p_vector_base_v4__Internal_swap,
"?_Internal_swap@_Concurrent_vector_base_v4@details@Concurrency@@IAAXAAV123@@Z");
SET(p_vector_base_v4__Internal_compact,
"?_Internal_compact@_Concurrent_vector_base_v4@details@Concurrency@@IAAPAXIPAXP6AX0I@ZP6AX0PBXI@Z@Z");
SET(p_vector_base_v4__Internal_grow_by,
"?_Internal_grow_by@_Concurrent_vector_base_v4@details@Concurrency@@IAAIIIP6AXPAXPBXI@Z1@Z");
SET(p_vector_base_v4__Internal_grow_to_at_least_with_result,
"?_Internal_grow_to_at_least_with_result@_Concurrent_vector_base_v4@details@Concurrency@@IAAIIIP6AXPAXPBXI@Z1@Z");
SET(p_vector_base_v4__Internal_reserve,
"?_Internal_reserve@_Concurrent_vector_base_v4@details@Concurrency@@IAAXIII@Z");
SET(p_vector_base_v4__Internal_resize,
"?_Internal_resize@_Concurrent_vector_base_v4@details@Concurrency@@IAEXIIIP6AXPAXI@ZP6AX0PBXI@Z2@Z");
#endif
}
SET(p__Thrd_equal,
"_Thrd_equal");
SET(p__Thrd_lt,
"_Thrd_lt");
SET(p__Thrd_sleep,
"_Thrd_sleep");
SET(p__Thrd_create,
"_Thrd_create");
SET(p__Thrd_join,
"_Thrd_join");
SET(p__Thrd_detach,
"_Thrd_detach");
SET(p__Mtx_init,
"_Mtx_init");
SET(p__Mtx_destroy,
"_Mtx_destroy");
SET(p__Mtx_lock,
"_Mtx_lock");
SET(p__Mtx_unlock,
"_Mtx_unlock");
SET(p__Cnd_init,
"_Cnd_init");
SET(p__Cnd_destroy,
"_Cnd_destroy");
SET(p__Cnd_wait,
"_Cnd_wait");
SET(p__Cnd_timedwait,
"_Cnd_timedwait");
SET(p__Cnd_broadcast,
"_Cnd_broadcast");
SET(p__Cnd_signal,
"_Cnd_signal");
SET(p__Cnd_register_at_thread_exit,
"_Cnd_register_at_thread_exit");
SET(p__Cnd_unregister_at_thread_exit,
"_Cnd_unregister_at_thread_exit");
SET(p__Cnd_do_broadcast_at_thread_exit,
"_Cnd_do_broadcast_at_thread_exit");
hdll = GetModuleHandleA("msvcr120.dll");
p_setlocale = (void*)GetProcAddress(hdll, "setlocale");
p__setmbcp = (void*)GetProcAddress(hdll, "_setmbcp");
p__ismbblead = (void*)GetProcAddress(hdll, "_ismbblead");
hdll = GetModuleHandleA("kernel32.dll");
pCreateSymbolicLinkA = (void*)GetProcAddress(hdll, "CreateSymbolicLinkA");
init_thiscall_thunk();
return TRUE;
}
static void test__Xtime_diff_to_millis2(void)
{
struct {
__time64_t sec_before;
MSVCRT_long nsec_before;
__time64_t sec_after;
MSVCRT_long nsec_after;
MSVCRT_long expect;
} tests[] = {
{1, 0, 2, 0, 1000},
{0, 1000000000, 0, 2000000000, 1000},
{1, 100000000, 2, 100000000, 1000},
{1, 100000000, 1, 200000000, 100},
{0, 0, 0, 1000000000, 1000},
{0, 0, 0, 1200000000, 1200},
{0, 0, 0, 1230000000, 1230},
{0, 0, 0, 1234000000, 1234},
{0, 0, 0, 1234100000, 1235},
{0, 0, 0, 1234900000, 1235},
{0, 0, 0, 1234010000, 1235},
{0, 0, 0, 1234090000, 1235},
{0, 0, 0, 1234000001, 1235},
{0, 0, 0, 1234000009, 1235},
{0, 0, -1, 0, 0},
{1, 0, 0, 0, 0},
{0, 1000000000, 0, 0, 0},
{0x7FFFFFFF / 1000, 0, 0, 0, 0},
{2147484, 0, 0, 0, 0}, /* ceil(0x80000000 / 1000) */
{2147485, 0, 0, 0, 0}, /* ceil(0x80000000 / 1000) + 1*/
{0, 0, 0x7FFFFFFF / 1000, 0, 2147483000},
{0, 0, 0x7FFFFFFF / 1000, 647000000, 0x7FFFFFFF}, /* max */
{0, 0, 0x7FFFFFFF / 1000, 647000001, -2147483648}, /* overflow. */
{0, 0, 2147484, 0, -2147483296}, /* ceil(0x80000000 / 1000), overflow*/
{0, 0, 0, -10000000, 0},
{0, 0, -1, -100000000, 0},
{-1, 0, 0, 0, 1000},
{0, -100000000, 0, 0, 100},
{-1, -100000000, 0, 0, 1100},
{0, 0, -1, 2000000000, 1000},
{0, 0, -2, 2000000000, 0},
{0, 0, -2, 2100000000, 100},
{0, 0, _I64_MAX / 1000, 0, -808}, /* Still fits in a signed 64 bit number */
{0, 0, _I64_MAX / 1000, 1000000000, 192}, /* Overflows a signed 64 bit number */
{0, 0, (((ULONGLONG)0x80000000 << 32) | 0x1000) / 1000, 1000000000, 4192}, /* 64 bit overflow */
{_I64_MAX - 2, 0, _I64_MAX, 0, 2000}, /* Not an overflow */
{_I64_MAX, 0, _I64_MAX - 2, 0, 0}, /* Not an overflow */
/* October 11th 2017, 12:34:59 UTC */
{1507725144, 983274000, 0, 0, 0},
{0, 0, 1507725144, 983274000, 191624088},
{1507725144, 983274000, 1507725145, 983274000, 1000},
{1507725145, 983274000, 1507725145, 983274000, 0},
};
int i;
MSVCRT_long ret;
xtime t1, t2;
for(i = 0; i < ARRAY_SIZE(tests); ++ i)
{
t1.sec = tests[i].sec_before;
t1.nsec = tests[i].nsec_before;
t2.sec = tests[i].sec_after;
t2.nsec = tests[i].nsec_after;
ret = p__Xtime_diff_to_millis2(&t2, &t1);
ok(ret == tests[i].expect,
"_Xtime_diff_to_millis2(): test: %d expect: %d, got: %d\n",
i, tests[i].expect, ret);
}
}
static void test_xtime_get(void)
{
static const MSVCRT_long tests[] = {1, 50, 100, 200, 500};
MSVCRT_long diff;
xtime before, after;
int i;
for(i = 0; i < ARRAY_SIZE(tests); i ++)
{
p_xtime_get(&before, 1);
Sleep(tests[i]);
p_xtime_get(&after, 1);
diff = p__Xtime_diff_to_millis2(&after, &before);
ok(diff >= tests[i],
"xtime_get() not functioning correctly, test: %d, expect: %d, got: %d\n",
i, tests[i], diff);
}
/* Test parameter and return value */
before.sec = 0xdeadbeef, before.nsec = 0xdeadbeef;
i = p_xtime_get(&before, 0);
ok(i == 0, "expect xtime_get() to return 0, got: %d\n", i);
ok(before.sec == 0xdeadbeef && before.nsec == 0xdeadbeef,
"xtime_get() shouldn't have modified the xtime struct with the given option\n");
before.sec = 0xdeadbeef, before.nsec = 0xdeadbeef;
i = p_xtime_get(&before, 1);
ok(i == 1, "expect xtime_get() to return 1, got: %d\n", i);
ok(before.sec != 0xdeadbeef && before.nsec != 0xdeadbeef,
"xtime_get() should have modified the xtime struct with the given option\n");
}
static void test__Getcvt(void)
{
_Cvtvec cvtvec;
int i;
p__Getcvt(&cvtvec);
ok(cvtvec.page == 0, "cvtvec.page = %d\n", cvtvec.page);
ok(cvtvec.mb_max == 1, "cvtvec.mb_max = %d\n", cvtvec.mb_max);
todo_wine ok(cvtvec.unk == 1, "cvtvec.unk = %d\n", cvtvec.unk);
for(i=0; i<32; i++)
ok(cvtvec.isleadbyte[i] == 0, "cvtvec.isleadbyte[%d] = %x\n", i, cvtvec.isleadbyte[i]);
if(!p_setlocale(LC_ALL, ".936")) {
win_skip("_Getcvt tests\n");
return;
}
p__Getcvt(&cvtvec);
ok(cvtvec.page == 936, "cvtvec.page = %d\n", cvtvec.page);
ok(cvtvec.mb_max == 2, "cvtvec.mb_max = %d\n", cvtvec.mb_max);
ok(cvtvec.unk == 0, "cvtvec.unk = %d\n", cvtvec.unk);
for(i=0; i<32; i++) {
BYTE b = 0;
int j;
for(j=0; j<8; j++)
b |= (p__ismbblead(i*8+j) ? 1 : 0) << j;
ok(cvtvec.isleadbyte[i] ==b, "cvtvec.isleadbyte[%d] = %x (%x)\n", i, cvtvec.isleadbyte[i], b);
}
p__setmbcp(936);
p__Getcvt(&cvtvec);
ok(cvtvec.page == 936, "cvtvec.page = %d\n", cvtvec.page);
ok(cvtvec.mb_max == 2, "cvtvec.mb_max = %d\n", cvtvec.mb_max);
ok(cvtvec.unk == 0, "cvtvec.unk = %d\n", cvtvec.unk);
for(i=0; i<32; i++) {
BYTE b = 0;
int j;
for(j=0; j<8; j++)
b |= (p__ismbblead(i*8+j) ? 1 : 0) << j;
ok(cvtvec.isleadbyte[i] ==b, "cvtvec.isleadbyte[%d] = %x (%x)\n", i, cvtvec.isleadbyte[i], b);
}
}
static int cnt;
static int once;
static void __cdecl call_once_func(void)
{
ok(!once, "once != 0\n");
cnt += 0x10000;
}
static void __cdecl call_once_ex_func(void *arg)
{
int *i = arg;
ok(!once, "once != 0\n");
(*i)++;
}
static DWORD WINAPI call_once_thread(void *arg)
{
p__Call_once(&once, call_once_func);
return 0;
}
static DWORD WINAPI call_once_ex_thread(void *arg)
{
p__Call_onceEx(&once, call_once_ex_func, &cnt);
return 0;
}
static void test__Call_once(void)
{
HANDLE h[4];
int i;
for(i=0; i<4; i++)
h[i] = CreateThread(NULL, 0, call_once_thread, &once, 0, NULL);
ok(WaitForMultipleObjects(4, h, TRUE, INFINITE) == WAIT_OBJECT_0,
"error waiting for all threads to finish\n");
ok(cnt == 0x10000, "cnt = %x\n", cnt);
ok(once == 1, "once = %x\n", once);
once = cnt = 0;
for(i=0; i<4; i++)
h[i] = CreateThread(NULL, 0, call_once_ex_thread, &once, 0, NULL);
ok(WaitForMultipleObjects(4, h, TRUE, INFINITE) == WAIT_OBJECT_0,
"error waiting for all threads to finish\n");
ok(cnt == 1, "cnt = %x\n", cnt);
ok(once == 1, "once = %x\n", once);
}
static void **vtbl_func0;
#ifdef __i386__
/* TODO: this should be a __thiscall function */
static void __stdcall thiscall_func(void)
{
cnt = 1;
}
#else
static void __cdecl thiscall_func(void *this)
{
ok(this == &vtbl_func0, "incorrect this value\n");
cnt = 1;
}
#endif
static void test__Do_call(void)
{
void *pfunc = thiscall_func;
cnt = 0;
vtbl_func0 = &pfunc;
p__Do_call(&vtbl_func0);
ok(cnt == 1, "func was not called\n");
}
static void test__Dtest(void)
{
double d;
short ret;
d = 0;
ret = p__Dtest(&d);
ok(ret == FP_ZERO, "_Dtest(0) returned %x\n", ret);
d = 1;
ret = p__Dtest(&d);
ok(ret == FP_NORMAL, "_Dtest(1) returned %x\n", ret);
d = -1;
ret = p__Dtest(&d);
ok(ret == FP_NORMAL, "_Dtest(-1) returned %x\n", ret);
d = INFINITY;
ret = p__Dtest(&d);
ok(ret == FP_INFINITE, "_Dtest(INF) returned %x\n", ret);
d = NAN;
ret = p__Dtest(&d);
ok(ret == FP_NAN, "_Dtest(NAN) returned %x\n", ret);
}
static void test__Dscale(void)
{
double d;
short ret;
d = 0;
ret = p__Dscale(&d, 0);
ok(d == 0, "d = %f\n", d);
ok(ret == FP_ZERO, "ret = %x\n", ret);
d = 0;
ret = p__Dscale(&d, 1);
ok(d == 0, "d = %f\n", d);
ok(ret == FP_ZERO, "ret = %x\n", ret);
d = 0;
ret = p__Dscale(&d, -1);
ok(d == 0, "d = %f\n", d);
ok(ret == FP_ZERO, "ret = %x\n", ret);
d = 1;
ret = p__Dscale(&d, 0);
ok(d == 1, "d = %f\n", d);
ok(ret == FP_NORMAL, "ret = %x\n", ret);
d = 1;
ret = p__Dscale(&d, 1);
ok(d == 2, "d = %f\n", d);
ok(ret == FP_NORMAL, "ret = %x\n", ret);
d = 1;
ret = p__Dscale(&d, -1);
ok(d == 0.5, "d = %f\n", d);
ok(ret == FP_NORMAL, "ret = %x\n", ret);
d = 1;
ret = p__Dscale(&d, -99999);
ok(d == 0, "d = %f\n", d);
ok(ret == FP_ZERO, "ret = %x\n", ret);
d = 1;
ret = p__Dscale(&d, 999999);
ok(d == INFINITY, "d = %f\n", d);
ok(ret == FP_INFINITE, "ret = %x\n", ret);
d = NAN;
ret = p__Dscale(&d, 1);
ok(ret == FP_NAN, "ret = %x\n", ret);
}
static void test__FExp(void)
{
float d;
short ret;
d = 0;
ret = p__FExp(&d, 0, 0);
ok(d == 0, "d = %f\n", d);
ok(ret == FP_ZERO, "ret = %x\n", ret);
d = 0;
ret = p__FExp(&d, 1, 0);
ok(d == 1.0, "d = %f\n", d);
ok(ret == FP_NORMAL, "ret = %x\n", ret);
d = 0;
ret = p__FExp(&d, 1, 1);
ok(d == 2.0, "d = %f\n", d);
ok(ret == FP_NORMAL, "ret = %x\n", ret);
d = 0;
ret = p__FExp(&d, 1, 2);
ok(d == 4.0, "d = %f\n", d);
ok(ret == FP_NORMAL, "ret = %x\n", ret);
d = 0;
ret = p__FExp(&d, 10, 0);
ok(d == 10.0, "d = %f\n", d);
ok(ret == FP_NORMAL, "ret = %x\n", ret);
d = 1;
ret = p__FExp(&d, 0, 0);
ok(d == 0, "d = %f\n", d);
ok(ret == FP_ZERO, "ret = %x\n", ret);
d = 1;
ret = p__FExp(&d, 1, 0);
ok(compare_float(d, 2.7182817, 4), "d = %f\n", d);
ok(ret == FP_NORMAL, "ret = %x\n", ret);
d = 9e20;
ret = p__FExp(&d, 0, 0);
ok(d == 0, "d = %f\n", d);
ok(ret == FP_ZERO, "ret = %x\n", ret);
d = 90;
ret = p__FExp(&d, 1, 0);
ok(ret == FP_INFINITE, "ret = %x\n", ret);
d = 90;
ret = p__FExp(&d, 1, -50);
ok(compare_float(d, 1.0839359e+024, 4), "d = %g\n", d);
ok(ret == FP_NORMAL, "ret = %x\n", ret);
}
static void test_tr2_sys__File_size(void)
{
ULONGLONG val;
HANDLE file;
LARGE_INTEGER file_size;
WCHAR testW[] = {'t','r','2','_','t','e','s','t','_','d','i','r','/','f','1',0};
CreateDirectoryA("tr2_test_dir", NULL);
file = CreateFileA("tr2_test_dir/f1", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
file_size.QuadPart = 7;
ok(SetFilePointerEx(file, file_size, NULL, FILE_BEGIN), "SetFilePointerEx failed\n");
ok(SetEndOfFile(file), "SetEndOfFile failed\n");
CloseHandle(file);
val = p_tr2_sys__File_size("tr2_test_dir/f1");
ok(val == 7, "file_size is %s\n", wine_dbgstr_longlong(val));
val = p_tr2_sys__File_size_wchar(testW);
ok(val == 7, "file_size is %s\n", wine_dbgstr_longlong(val));
file = CreateFileA("tr2_test_dir/f2", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
CloseHandle(file);
val = p_tr2_sys__File_size("tr2_test_dir/f2");
ok(val == 0, "file_size is %s\n", wine_dbgstr_longlong(val));
val = p_tr2_sys__File_size("tr2_test_dir");
ok(val == 0, "file_size is %s\n", wine_dbgstr_longlong(val));
errno = 0xdeadbeef;
val = p_tr2_sys__File_size("tr2_test_dir/not_exists_file");
ok(val == 0, "file_size is %s\n", wine_dbgstr_longlong(val));
ok(errno == 0xdeadbeef, "errno = %d\n", errno);
errno = 0xdeadbeef;
val = p_tr2_sys__File_size(NULL);
ok(val == 0, "file_size is %s\n", wine_dbgstr_longlong(val));
ok(errno == 0xdeadbeef, "errno = %d\n", errno);
ok(DeleteFileA("tr2_test_dir/f1"), "expect tr2_test_dir/f1 to exist\n");
ok(DeleteFileA("tr2_test_dir/f2"), "expect tr2_test_dir/f2 to exist\n");
ok(p_tr2_sys__Remove_dir("tr2_test_dir"), "expect tr2_test_dir to exist\n");
}
static void test_tr2_sys__Equivalent(void)
{
int val, i;
HANDLE file;
char temp_path[MAX_PATH], current_path[MAX_PATH];
WCHAR testW[] = {'t','r','2','_','t','e','s','t','_','d','i','r','/','f','1',0};
WCHAR testW2[] = {'t','r','2','_','t','e','s','t','_','d','i','r','/','f','2',0};
struct {
char const *path1;
char const *path2;
int equivalent;
} tests[] = {
{ NULL, NULL, -1 },
{ NULL, "f1", -1 },
{ "f1", NULL, -1 },
{ "f1", "tr2_test_dir", -1 },
{ "tr2_test_dir", "f1", -1 },
{ "tr2_test_dir", "tr2_test_dir", -1 },
{ "tr2_test_dir/./f1", "tr2_test_dir/f2", 0 },
{ "tr2_test_dir/f1" , "tr2_test_dir/f1", 1 },
{ "not_exists_file" , "tr2_test_dir/f1", 0 },
{ "tr2_test_dir\\f1" , "tr2_test_dir/./f1", 1 },
{ "not_exists_file" , "not_exists_file", -1 },
{ "tr2_test_dir/f1" , "not_exists_file", 0 },
{ "tr2_test_dir/../tr2_test_dir/f1", "tr2_test_dir/f1", 1 }
};
memset(current_path, 0, MAX_PATH);
GetCurrentDirectoryA(MAX_PATH, current_path);
memset(temp_path, 0, MAX_PATH);
GetTempPathA(MAX_PATH, temp_path);
ok(SetCurrentDirectoryA(temp_path), "SetCurrentDirectoryA to temp_path failed\n");
CreateDirectoryA("tr2_test_dir", NULL);
file = CreateFileA("tr2_test_dir/f1", 0, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
CloseHandle(file);
file = CreateFileA("tr2_test_dir/f2", 0, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
CloseHandle(file);
for(i=0; i<ARRAY_SIZE(tests); i++) {
errno = 0xdeadbeef;
val = p_tr2_sys__Equivalent(tests[i].path1, tests[i].path2);
ok(tests[i].equivalent == val, "tr2_sys__Equivalent(): test %d expect: %d, got %d\n", i+1, tests[i].equivalent, val);
ok(errno == 0xdeadbeef, "errno = %d\n", errno);
}
val = p_tr2_sys__Equivalent_wchar(testW, testW);
ok(val == 1, "tr2_sys__Equivalent(): expect: 1, got %d\n", val);
val = p_tr2_sys__Equivalent_wchar(testW, testW2);
ok(val == 0, "tr2_sys__Equivalent(): expect: 0, got %d\n", val);
ok(DeleteFileA("tr2_test_dir/f1"), "expect tr2_test_dir/f1 to exist\n");
ok(DeleteFileA("tr2_test_dir/f2"), "expect tr2_test_dir/f2 to exist\n");
ok(p_tr2_sys__Remove_dir("tr2_test_dir"), "expect tr2_test_dir to exist\n");
ok(SetCurrentDirectoryA(current_path), "SetCurrentDirectoryA failed\n");
}
static void test_tr2_sys__Current_get(void)
{
char temp_path[MAX_PATH], current_path[MAX_PATH], origin_path[MAX_PATH];
char *temp;
WCHAR temp_path_wchar[MAX_PATH], current_path_wchar[MAX_PATH];
WCHAR *temp_wchar;
memset(origin_path, 0, MAX_PATH);
GetCurrentDirectoryA(MAX_PATH, origin_path);
memset(temp_path, 0, MAX_PATH);
GetTempPathA(MAX_PATH, temp_path);
ok(SetCurrentDirectoryA(temp_path), "SetCurrentDirectoryA to temp_path failed\n");
memset(current_path, 0, MAX_PATH);
temp = p_tr2_sys__Current_get(current_path);
ok(temp == current_path, "p_tr2_sys__Current_get returned different buffer\n");
temp[strlen(temp)] = '\\';
ok(!strcmp(temp_path, current_path), "test_tr2_sys__Current_get(): expect: %s, got %s\n", temp_path, current_path);
GetTempPathW(MAX_PATH, temp_path_wchar);
ok(SetCurrentDirectoryW(temp_path_wchar), "SetCurrentDirectoryW to temp_path_wchar failed\n");
memset(current_path_wchar, 0, MAX_PATH);
temp_wchar = p_tr2_sys__Current_get_wchar(current_path_wchar);
ok(temp_wchar == current_path_wchar, "p_tr2_sys__Current_get_wchar returned different buffer\n");
temp_wchar[wcslen(temp_wchar)] = '\\';
ok(!wcscmp(temp_path_wchar, current_path_wchar), "test_tr2_sys__Current_get(): expect: %s, got %s\n", wine_dbgstr_w(temp_path_wchar), wine_dbgstr_w(current_path_wchar));
ok(SetCurrentDirectoryA(origin_path), "SetCurrentDirectoryA to origin_path failed\n");
memset(current_path, 0, MAX_PATH);
temp = p_tr2_sys__Current_get(current_path);
ok(temp == current_path, "p_tr2_sys__Current_get returned different buffer\n");
ok(!strcmp(origin_path, current_path), "test_tr2_sys__Current_get(): expect: %s, got %s\n", origin_path, current_path);
}
static void test_tr2_sys__Current_set(void)
{
char temp_path[MAX_PATH], current_path[MAX_PATH], origin_path[MAX_PATH];
char *temp;
WCHAR testW[] = {'.','/',0};
memset(temp_path, 0, MAX_PATH);
GetTempPathA(MAX_PATH, temp_path);
memset(origin_path, 0, MAX_PATH);
GetCurrentDirectoryA(MAX_PATH, origin_path);
temp = p_tr2_sys__Current_get(origin_path);
ok(temp == origin_path, "p_tr2_sys__Current_get returned different buffer\n");
ok(p_tr2_sys__Current_set(temp_path), "p_tr2_sys__Current_set to temp_path failed\n");
memset(current_path, 0, MAX_PATH);
temp = p_tr2_sys__Current_get(current_path);
ok(temp == current_path, "p_tr2_sys__Current_get returned different buffer\n");
temp[strlen(temp)] = '\\';
ok(!strcmp(temp_path, current_path), "test_tr2_sys__Current_get(): expect: %s, got %s\n", temp_path, current_path);
ok(p_tr2_sys__Current_set_wchar(testW), "p_tr2_sys__Current_set_wchar to temp_path failed\n");
memset(current_path, 0, MAX_PATH);
temp = p_tr2_sys__Current_get(current_path);
ok(temp == current_path, "p_tr2_sys__Current_get returned different buffer\n");
temp[strlen(temp)] = '\\';
ok(!strcmp(temp_path, current_path), "test_tr2_sys__Current_get(): expect: %s, got %s\n", temp_path, current_path);
errno = 0xdeadbeef;
ok(!p_tr2_sys__Current_set("not_exisist_dir"), "p_tr2_sys__Current_set to not_exist_dir succeed\n");
ok(errno == 0xdeadbeef, "errno = %d\n", errno);
errno = 0xdeadbeef;
ok(!p_tr2_sys__Current_set("??invalid_name>>"), "p_tr2_sys__Current_set to ??invalid_name>> succeed\n");
ok(errno == 0xdeadbeef, "errno = %d\n", errno);
ok(p_tr2_sys__Current_set(origin_path), "p_tr2_sys__Current_set to origin_path failed\n");
memset(current_path, 0, MAX_PATH);
temp = p_tr2_sys__Current_get(current_path);
ok(temp == current_path, "p_tr2_sys__Current_get returned different buffer\n");
ok(!strcmp(origin_path, current_path), "test_tr2_sys__Current_get(): expect: %s, got %s\n", origin_path, current_path);
}
static void test_tr2_sys__Make_dir(void)
{
int ret, i;
WCHAR testW[] = {'w','d',0};
struct {
char const *path;
int val;
} tests[] = {
{ "tr2_test_dir", 1 },
{ "tr2_test_dir", 0 },
{ NULL, -1 },
{ "??invalid_name>>", -1 }
};
for(i=0; i<ARRAY_SIZE(tests); i++) {
errno = 0xdeadbeef;
ret = p_tr2_sys__Make_dir(tests[i].path);
ok(ret == tests[i].val, "tr2_sys__Make_dir(): test %d expect: %d, got %d\n", i+1, tests[i].val, ret);
ok(errno == 0xdeadbeef, "tr2_sys__Make_dir(): test %d errno expect 0xdeadbeef, got %d\n", i+1, errno);
}
ret = p_tr2_sys__Make_dir_wchar(testW);
ok(ret == 1, "tr2_sys__Make_dir(): expect: 1, got %d\n", ret);
ok(p_tr2_sys__Remove_dir("tr2_test_dir"), "expect tr2_test_dir to exist\n");
ok(p_tr2_sys__Remove_dir_wchar(testW), "expect wd to exist\n");
}
static void test_tr2_sys__Remove_dir(void)
{
MSVCP_bool ret;
int i;
struct {
char const *path;
MSVCP_bool val;
} tests[] = {
{ "tr2_test_dir", TRUE },
{ "tr2_test_dir", FALSE },
{ NULL, FALSE },
{ "??invalid_name>>", FALSE }
};
ok(p_tr2_sys__Make_dir("tr2_test_dir"), "tr2_sys__Make_dir() failed\n");
for(i=0; i<ARRAY_SIZE(tests); i++) {
errno = 0xdeadbeef;
ret = p_tr2_sys__Remove_dir(tests[i].path);
ok(ret == tests[i].val, "test_tr2_sys__Remove_dir(): test %d expect: %d, got %d\n", i+1, tests[i].val, ret);
ok(errno == 0xdeadbeef, "test_tr2_sys__Remove_dir(): test %d errno expect 0xdeadbeef, got %d\n", i+1, errno);
}
}
static void test_tr2_sys__Copy_file(void)
{
HANDLE file;
int ret, i;
LARGE_INTEGER file_size;
WCHAR testW[] = {'f','1',0}, testW2[] = {'f','w',0};
struct {
char const *source;
char const *dest;
MSVCP_bool fail_if_exists;
int last_error;
int last_error2;
} tests[] = {
{ "f1", "f1_copy", TRUE, ERROR_SUCCESS, ERROR_SUCCESS },
{ "f1", "tr2_test_dir\\f1_copy", TRUE, ERROR_SUCCESS, ERROR_SUCCESS },
{ "f1", "tr2_test_dir\\f1_copy", TRUE, ERROR_FILE_EXISTS, ERROR_FILE_EXISTS },
{ "f1", "tr2_test_dir\\f1_copy", FALSE, ERROR_SUCCESS, ERROR_SUCCESS },
{ "tr2_test_dir", "f1", TRUE, ERROR_ACCESS_DENIED, ERROR_ACCESS_DENIED },
{ "tr2_test_dir", "tr2_test_dir_copy", TRUE, ERROR_ACCESS_DENIED, ERROR_ACCESS_DENIED },
{ NULL, "f1", TRUE, ERROR_INVALID_PARAMETER, ERROR_INVALID_PARAMETER },
{ "f1", NULL, TRUE, ERROR_INVALID_PARAMETER, ERROR_INVALID_PARAMETER },
{ "not_exist", "tr2_test_dir", TRUE, ERROR_FILE_NOT_FOUND, ERROR_FILE_NOT_FOUND },
{ "f1", "not_exist_dir\\f1_copy", TRUE, ERROR_PATH_NOT_FOUND, ERROR_FILE_NOT_FOUND },
{ "f1", "tr2_test_dir", TRUE, ERROR_ACCESS_DENIED, ERROR_FILE_EXISTS }
};
ret = p_tr2_sys__Make_dir("tr2_test_dir");
ok(ret == 1, "test_tr2_sys__Make_dir(): expect 1 got %d\n", ret);
file = CreateFileA("f1", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
file_size.QuadPart = 7;
ok(SetFilePointerEx(file, file_size, NULL, FILE_BEGIN), "SetFilePointerEx failed\n");
ok(SetEndOfFile(file), "SetEndOfFile failed\n");
CloseHandle(file);
for(i=0; i<ARRAY_SIZE(tests); i++) {
errno = 0xdeadbeef;
ret = p_tr2_sys__Copy_file(tests[i].source, tests[i].dest, tests[i].fail_if_exists);
ok(ret == tests[i].last_error || ret == tests[i].last_error2,
"test_tr2_sys__Copy_file(): test %d expect: %d, got %d\n", i+1, tests[i].last_error, ret);
ok(errno == 0xdeadbeef, "test_tr2_sys__Copy_file(): test %d errno expect 0xdeadbeef, got %d\n", i+1, errno);
if(ret == ERROR_SUCCESS)
ok(p_tr2_sys__File_size(tests[i].source) == p_tr2_sys__File_size(tests[i].dest),
"test_tr2_sys__Copy_file(): test %d failed, two files' size are not equal\n", i+1);
}
ret = p_tr2_sys__Copy_file_wchar(testW, testW2, TRUE);
ok(ret == ERROR_SUCCESS, "test_tr2_sys__Copy_file_wchar() expect ERROR_SUCCESS, got %d\n", ret);
ok(DeleteFileA("f1"), "expect f1 to exist\n");
ok(DeleteFileW(testW2), "expect fw to exist\n");
ok(DeleteFileA("f1_copy"), "expect f1_copy to exist\n");
ok(DeleteFileA("tr2_test_dir/f1_copy"), "expect tr2_test_dir/f1 to exist\n");
ret = p_tr2_sys__Remove_dir("tr2_test_dir");
ok(ret == 1, "test_tr2_sys__Remove_dir(): expect 1 got %d\n", ret);
}
static void test_tr2_sys__Rename(void)
{
int ret, i;
HANDLE file, h1, h2;
BY_HANDLE_FILE_INFORMATION info1, info2;
char temp_path[MAX_PATH], current_path[MAX_PATH];
LARGE_INTEGER file_size;
static const WCHAR testW[] = {'t','r','2','_','t','e','s','t','_','d','i','r','/','f','1',0};
static const struct {
char const *old_path;
char const *new_path;
int val;
} tests[] = {
{ "tr2_test_dir\\f1", "tr2_test_dir\\f1_rename", ERROR_SUCCESS },
{ "tr2_test_dir\\f1", NULL, ERROR_INVALID_PARAMETER },
{ "tr2_test_dir\\f1", "tr2_test_dir\\f1_rename", ERROR_FILE_NOT_FOUND },
{ NULL, "tr2_test_dir\\NULL_rename", ERROR_INVALID_PARAMETER },
{ "tr2_test_dir\\f1_rename", "tr2_test_dir\\??invalid_name>>", ERROR_INVALID_NAME },
{ "tr2_test_dir\\not_exist_file", "tr2_test_dir\\not_exist_rename", ERROR_FILE_NOT_FOUND }
};
static const WCHAR f1_renameW[] =
{'t','r','2','_','t','e','s','t','_','d','i','r','\\','f','1','_','r','e','n','a','m','e',0};
static const WCHAR f1_rename2W[] =
{'t','r','2','_','t','e','s','t','_','d','i','r','\\','f','1','_','r','e','n','a','m','e','2',0};
static const WCHAR not_existW[] =
{'t','r','2','_','t','e','s','t','_','d','i','r','\\','n','o','t','_','e','x','i','s','t',0};
static const WCHAR not_exist2W[] =
{'t','r','2','_','t','e','s','t','_','d','i','r','\\','n','o','t','_','e','x','i','s','t','2',0};
static const WCHAR invalidW[] =
{'t','r','2','_','t','e','s','t','_','d','i','r','\\','?','?','i','n','v','a','l','i','d','>',0};
static const struct {
const WCHAR *old_path;
const WCHAR *new_path;
int val;
} testsW[] = {
{ testW, f1_renameW, ERROR_SUCCESS },
{ testW, NULL, ERROR_FILE_NOT_FOUND }, /* Differs from the A version */
{ testW, f1_renameW, ERROR_FILE_NOT_FOUND },
{ NULL, f1_rename2W, ERROR_PATH_NOT_FOUND }, /* Differs from the A version */
{ f1_renameW, invalidW, ERROR_INVALID_NAME },
{ not_existW, not_exist2W, ERROR_FILE_NOT_FOUND },
{ not_existW, invalidW, ERROR_FILE_NOT_FOUND }
};
memset(current_path, 0, MAX_PATH);
GetCurrentDirectoryA(MAX_PATH, current_path);
memset(temp_path, 0, MAX_PATH);
GetTempPathA(MAX_PATH, temp_path);
ok(SetCurrentDirectoryA(temp_path), "SetCurrentDirectoryA to temp_path failed\n");
ret = p_tr2_sys__Make_dir("tr2_test_dir");
ok(ret == 1, "test_tr2_sys__Make_dir(): expect 1 got %d\n", ret);
file = CreateFileA("tr2_test_dir\\f1", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
CloseHandle(file);
ret = p_tr2_sys__Rename("tr2_test_dir\\f1", "tr2_test_dir\\f1");
ok(ERROR_SUCCESS == ret, "test_tr2_sys__Rename(): expect: ERROR_SUCCESS, got %d\n", ret);
for(i=0; i<ARRAY_SIZE(tests); i++) {
errno = 0xdeadbeef;
if(tests[i].val == ERROR_SUCCESS) {
h1 = CreateFileA(tests[i].old_path, 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, 0);
ok(h1 != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
ok(GetFileInformationByHandle(h1, &info1), "GetFileInformationByHandle failed\n");
CloseHandle(h1);
}
SetLastError(0xdeadbeef);
ret = p_tr2_sys__Rename(tests[i].old_path, tests[i].new_path);
ok(ret == tests[i].val, "test_tr2_sys__Rename(): test %d expect: %d, got %d\n", i+1, tests[i].val, ret);
ok(errno == 0xdeadbeef, "test_tr2_sys__Rename(): test %d errno expect 0xdeadbeef, got %d\n", i+1, errno);
if(ret == ERROR_SUCCESS) {
h2 = CreateFileA(tests[i].new_path, 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, 0);
ok(h2 != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
ok(GetFileInformationByHandle(h2, &info2), "GetFileInformationByHandle failed\n");
CloseHandle(h2);
ok(info1.nFileIndexHigh == info2.nFileIndexHigh
&& info1.nFileIndexLow == info2.nFileIndexLow,
"test_tr2_sys__Rename(): test %d expect two files equivalent\n", i+1);
}
}
file = CreateFileA("tr2_test_dir\\f1", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
file_size.QuadPart = 7;
ok(SetFilePointerEx(file, file_size, NULL, FILE_BEGIN), "SetFilePointerEx failed\n");
ok(SetEndOfFile(file), "SetEndOfFile failed\n");
CloseHandle(file);
ret = p_tr2_sys__Rename("tr2_test_dir\\f1", "tr2_test_dir\\f1_rename");
ok(ret == ERROR_ALREADY_EXISTS, "test_tr2_sys__Rename(): expect: ERROR_ALREADY_EXISTS, got %d\n", ret);
ok(p_tr2_sys__File_size("tr2_test_dir\\f1") == 7, "test_tr2_sys__Rename(): expect: 7, got %s\n", wine_dbgstr_longlong(p_tr2_sys__File_size("tr2_test_dir\\f1")));
ok(p_tr2_sys__File_size("tr2_test_dir\\f1_rename") == 0, "test_tr2_sys__Rename(): expect: 0, got %s\n",wine_dbgstr_longlong(p_tr2_sys__File_size("tr2_test_dir\\f1_rename")));
ok(DeleteFileA("tr2_test_dir\\f1_rename"), "expect f1_rename to exist\n");
for(i=0; i<ARRAY_SIZE(testsW); i++) {
errno = 0xdeadbeef;
if(testsW[i].val == ERROR_SUCCESS) {
h1 = CreateFileW(testsW[i].old_path, 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, 0);
ok(h1 != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
ok(GetFileInformationByHandle(h1, &info1), "GetFileInformationByHandle failed\n");
CloseHandle(h1);
}
SetLastError(0xdeadbeef);
ret = p_tr2_sys__Rename_wchar(testsW[i].old_path, testsW[i].new_path);
ok(ret == testsW[i].val, "test_tr2_sys__Rename_wchar(): test %d expect: %d, got %d\n", i+1, testsW[i].val, ret);
ok(errno == 0xdeadbeef, "test_tr2_sys__Rename_wchar(): test %d errno expect 0xdeadbeef, got %d\n", i+1, errno);
if(ret == ERROR_SUCCESS) {
h2 = CreateFileW(testsW[i].new_path, 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, 0);
ok(h2 != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
ok(GetFileInformationByHandle(h2, &info2), "GetFileInformationByHandle failed\n");
CloseHandle(h2);
ok(info1.nFileIndexHigh == info2.nFileIndexHigh
&& info1.nFileIndexLow == info2.nFileIndexLow,
"test_tr2_sys__Rename_wchar(): test %d expect two files equivalent\n", i+1);
}
}
ok(DeleteFileA("tr2_test_dir\\f1_rename"), "expect f1_rename to exist\n");
ret = p_tr2_sys__Remove_dir("tr2_test_dir");
ok(ret == 1, "test_tr2_sys__Remove_dir(): expect %d got %d\n", 1, ret);
ok(SetCurrentDirectoryA(current_path), "SetCurrentDirectoryA failed\n");
}
static void test_tr2_sys__Statvfs(void)
{
struct space_info info;
char current_path[MAX_PATH];
WCHAR current_path_wchar[MAX_PATH];
memset(current_path, 0, MAX_PATH);
p_tr2_sys__Current_get(current_path);
memset(current_path_wchar, 0, MAX_PATH);
p_tr2_sys__Current_get_wchar(current_path_wchar);
p_tr2_sys__Statvfs(&info, current_path);
ok(info.capacity >= info.free, "test_tr2_sys__Statvfs(): info.capacity < info.free\n");
ok(info.free >= info.available, "test_tr2_sys__Statvfs(): info.free < info.available\n");
p_tr2_sys__Statvfs_wchar(&info, current_path_wchar);
ok(info.capacity >= info.free, "tr2_sys__Statvfs_wchar(): info.capacity < info.free\n");
ok(info.free >= info.available, "tr2_sys__Statvfs_wchar(): info.free < info.available\n");
p_tr2_sys__Statvfs(&info, NULL);
ok(info.available == 0, "test_tr2_sys__Statvfs(): info.available expect: %d, got %s\n",
0, wine_dbgstr_longlong(info.available));
ok(info.capacity == 0, "test_tr2_sys__Statvfs(): info.capacity expect: %d, got %s\n",
0, wine_dbgstr_longlong(info.capacity));
ok(info.free == 0, "test_tr2_sys__Statvfs(): info.free expect: %d, got %s\n",
0, wine_dbgstr_longlong(info.free));
p_tr2_sys__Statvfs(&info, "not_exist");
ok(info.available == 0, "test_tr2_sys__Statvfs(): info.available expect: %d, got %s\n",
0, wine_dbgstr_longlong(info.available));
ok(info.capacity == 0, "test_tr2_sys__Statvfs(): info.capacity expect: %d, got %s\n",
0, wine_dbgstr_longlong(info.capacity));
ok(info.free == 0, "test_tr2_sys__Statvfs(): info.free expect: %d, got %s\n",
0, wine_dbgstr_longlong(info.free));
}
static void test_tr2_sys__Stat(void)
{
int i, err_code, ret;
HANDLE file;
enum file_type val;
struct {
char const *path;
enum file_type ret;
int err_code;
int is_todo;
} tests[] = {
{ NULL, status_unknown, ERROR_INVALID_PARAMETER, FALSE },
{ "tr2_test_dir", directory_file, ERROR_SUCCESS, FALSE },
{ "tr2_test_dir\\f1", regular_file, ERROR_SUCCESS, FALSE },
{ "tr2_test_dir\\not_exist_file ", file_not_found, ERROR_SUCCESS, FALSE },
{ "tr2_test_dir\\??invalid_name>>", file_not_found, ERROR_SUCCESS, FALSE },
{ "tr2_test_dir\\f1_link" , regular_file, ERROR_SUCCESS, TRUE },
{ "tr2_test_dir\\dir_link", directory_file, ERROR_SUCCESS, TRUE },
};
WCHAR testW[] = {'t','r','2','_','t','e','s','t','_','d','i','r',0};
WCHAR testW2[] = {'t','r','2','_','t','e','s','t','_','d','i','r','/','f','1',0};
CreateDirectoryA("tr2_test_dir", NULL);
file = CreateFileA("tr2_test_dir/f1", 0, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
ok(CloseHandle(file), "CloseHandle\n");
SetLastError(0xdeadbeef);
ret = pCreateSymbolicLinkA ? pCreateSymbolicLinkA("tr2_test_dir/f1_link", "tr2_test_dir/f1", 0) : FALSE;
if(!ret && (!pCreateSymbolicLinkA || GetLastError()==ERROR_PRIVILEGE_NOT_HELD||GetLastError()==ERROR_INVALID_FUNCTION)) {
tests[5].ret = tests[6].ret = file_not_found;
win_skip("Privilege not held or symbolic link not supported, skipping symbolic link tests.\n");
}else {
ok(ret, "CreateSymbolicLinkA failed\n");
ok(pCreateSymbolicLinkA("tr2_test_dir/dir_link", "tr2_test_dir", 1), "CreateSymbolicLinkA failed\n");
}
file = CreateNamedPipeA("\\\\.\\PiPe\\tests_pipe.c",
PIPE_ACCESS_DUPLEX, PIPE_TYPE_BYTE | PIPE_WAIT, 2, 1024, 1024,
NMPWAIT_USE_DEFAULT_WAIT, NULL);
ok(file != INVALID_HANDLE_VALUE, "CreateNamedPipe failed\n");
err_code = 0xdeadbeef;
val = p_tr2_sys__Stat("\\\\.\\PiPe\\tests_pipe.c", &err_code);
todo_wine ok(regular_file == val, "tr2_sys__Stat(): expect: regular_file, got %d\n", val);
todo_wine ok(ERROR_SUCCESS == err_code, "tr2_sys__Stat(): err_code expect: ERROR_SUCCESS, got %d\n", err_code);
err_code = 0xdeadbeef;
val = p_tr2_sys__Lstat("\\\\.\\PiPe\\tests_pipe.c", &err_code);
ok(status_unknown == val, "tr2_sys__Lstat(): expect: status_unknown, got %d\n", val);
todo_wine ok(ERROR_PIPE_BUSY == err_code, "tr2_sys__Lstat(): err_code expect: ERROR_PIPE_BUSY, got %d\n", err_code);
ok(CloseHandle(file), "CloseHandle\n");
file = CreateNamedPipeA("\\\\.\\PiPe\\tests_pipe.c",
PIPE_ACCESS_DUPLEX, PIPE_TYPE_BYTE | PIPE_WAIT, 2, 1024, 1024,
NMPWAIT_USE_DEFAULT_WAIT, NULL);
ok(file != INVALID_HANDLE_VALUE, "CreateNamedPipe failed\n");
err_code = 0xdeadbeef;
val = p_tr2_sys__Lstat("\\\\.\\PiPe\\tests_pipe.c", &err_code);
todo_wine ok(regular_file == val, "tr2_sys__Lstat(): expect: regular_file, got %d\n", val);
todo_wine ok(ERROR_SUCCESS == err_code, "tr2_sys__Lstat(): err_code expect: ERROR_SUCCESS, got %d\n", err_code);
ok(CloseHandle(file), "CloseHandle\n");
for(i=0; i<ARRAY_SIZE(tests); i++) {
err_code = 0xdeadbeef;
val = p_tr2_sys__Stat(tests[i].path, &err_code);
todo_wine_if(tests[i].is_todo)
ok(tests[i].ret == val, "tr2_sys__Stat(): test %d expect: %d, got %d\n", i+1, tests[i].ret, val);
ok(tests[i].err_code == err_code, "tr2_sys__Stat(): test %d err_code expect: %d, got %d\n",
i+1, tests[i].err_code, err_code);
/* test tr2_sys__Lstat */
err_code = 0xdeadbeef;
val = p_tr2_sys__Lstat(tests[i].path, &err_code);
todo_wine_if(tests[i].is_todo)
ok(tests[i].ret == val, "tr2_sys__Lstat(): test %d expect: %d, got %d\n", i+1, tests[i].ret, val);
ok(tests[i].err_code == err_code, "tr2_sys__Lstat(): test %d err_code expect: %d, got %d\n",
i+1, tests[i].err_code, err_code);
}
err_code = 0xdeadbeef;
val = p_tr2_sys__Stat_wchar(testW, &err_code);
ok(directory_file == val, "tr2_sys__Stat_wchar() expect directory_file, got %d\n", val);
ok(ERROR_SUCCESS == err_code, "tr2_sys__Stat_wchar(): err_code expect ERROR_SUCCESS, got %d\n", err_code);
err_code = 0xdeadbeef;
val = p_tr2_sys__Lstat_wchar(testW2, &err_code);
ok(regular_file == val, "tr2_sys__Lstat_wchar() expect regular_file, got %d\n", val);
ok(ERROR_SUCCESS == err_code, "tr2_sys__Lstat_wchar(): err_code expect ERROR_SUCCESS, got %d\n", err_code);
if(ret) {
todo_wine ok(DeleteFileA("tr2_test_dir/f1_link"), "expect tr2_test_dir/f1_link to exist\n");
todo_wine ok(RemoveDirectoryA("tr2_test_dir/dir_link"), "expect tr2_test_dir/dir_link to exist\n");
}
ok(DeleteFileA("tr2_test_dir/f1"), "expect tr2_test_dir/f1 to exist\n");
ok(RemoveDirectoryA("tr2_test_dir"), "expect tr2_test_dir to exist\n");
}
static void test_tr2_sys__Last_write_time(void)
{
HANDLE file;
int ret;
__int64 last_write_time, newtime;
static const WCHAR fileW[] = {'t','r','2','_','t','e','s','t','_','d','i','r','/','f','1',0};
ret = p_tr2_sys__Make_dir("tr2_test_dir");
ok(ret == 1, "tr2_sys__Make_dir() expect 1 got %d\n", ret);
file = CreateFileA("tr2_test_dir/f1", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
CloseHandle(file);
last_write_time = p_tr2_sys__Last_write_time("tr2_test_dir/f1");
newtime = p_tr2_sys__Last_write_time_wchar(fileW);
ok(last_write_time == newtime, "last_write_time = %s, newtime = %s\n",
wine_dbgstr_longlong(last_write_time), wine_dbgstr_longlong(newtime));
newtime = last_write_time + 123456789;
p_tr2_sys__Last_write_time_set("tr2_test_dir/f1", newtime);
todo_wine ok(last_write_time == p_tr2_sys__Last_write_time("tr2_test_dir/f1"),
"last_write_time should have changed: %s\n",
wine_dbgstr_longlong(last_write_time));
errno = 0xdeadbeef;
last_write_time = p_tr2_sys__Last_write_time("not_exist");
ok(errno == 0xdeadbeef, "tr2_sys__Last_write_time(): errno expect 0xdeadbeef, got %d\n", errno);
ok(last_write_time == 0, "expect 0 got %s\n", wine_dbgstr_longlong(last_write_time));
last_write_time = p_tr2_sys__Last_write_time(NULL);
ok(last_write_time == 0, "expect 0 got %s\n", wine_dbgstr_longlong(last_write_time));
p_tr2_sys__Last_write_time_set("not_exist", newtime);
errno = 0xdeadbeef;
p_tr2_sys__Last_write_time_set(NULL, newtime);
ok(errno == 0xdeadbeef, "tr2_sys__Last_write_time(): errno expect 0xdeadbeef, got %d\n", errno);
ok(DeleteFileA("tr2_test_dir/f1"), "expect tr2_test_dir/f1 to exist\n");
ret = p_tr2_sys__Remove_dir("tr2_test_dir");
ok(ret == 1, "test_tr2_sys__Remove_dir(): expect 1 got %d\n", ret);
}
static void test_tr2_sys__dir_operation(void)
{
char *file_name, first_file_name[MAX_PATH], dest[MAX_PATH], longer_path[MAX_PATH];
HANDLE file, result_handle;
enum file_type type;
int err, num_of_f1 = 0, num_of_f2 = 0, num_of_sub_dir = 0, num_of_other_files = 0;
CreateDirectoryA("tr2_test_dir", NULL);
file = CreateFileA("tr2_test_dir/f1", 0, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
CloseHandle(file);
file = CreateFileA("tr2_test_dir/f2", 0, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
CloseHandle(file);
CreateDirectoryA("tr2_test_dir/sub_dir", NULL);
file = CreateFileA("tr2_test_dir/sub_dir/sub_f1", 0, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
CloseHandle(file);
memset(longer_path, 0, MAX_PATH);
GetCurrentDirectoryA(MAX_PATH, longer_path);
strcat(longer_path, "\\tr2_test_dir\\");
while(lstrlenA(longer_path) < MAX_PATH-1)
strcat(longer_path, "s");
ok(lstrlenA(longer_path) == MAX_PATH-1, "tr2_sys__Open_dir(): expect MAX_PATH, got %d\n", lstrlenA(longer_path));
memset(first_file_name, 0xff, MAX_PATH);
type = err = 0xdeadbeef;
result_handle = NULL;
result_handle = p_tr2_sys__Open_dir(first_file_name, longer_path, &err, &type);
ok(result_handle == NULL, "tr2_sys__Open_dir(): expect NULL, got %p\n", result_handle);
ok(!*first_file_name, "tr2_sys__Open_dir(): expect: 0, got %s\n", first_file_name);
ok(err == ERROR_BAD_PATHNAME, "tr2_sys__Open_dir(): expect: ERROR_BAD_PATHNAME, got %d\n", err);
ok((int)type == 0xdeadbeef, "tr2_sys__Open_dir(): expect 0xdeadbeef, got %d\n", type);
memset(first_file_name, 0xff, MAX_PATH);
memset(dest, 0, MAX_PATH);
err = type = 0xdeadbeef;
result_handle = NULL;
result_handle = p_tr2_sys__Open_dir(first_file_name, "tr2_test_dir", &err, &type);
ok(result_handle != NULL, "tr2_sys__Open_dir(): expect: not NULL, got %p\n", result_handle);
ok(err == ERROR_SUCCESS, "tr2_sys__Open_dir(): expect: ERROR_SUCCESS, got %d\n", err);
file_name = first_file_name;
while(*file_name) {
if (!strcmp(file_name, "f1")) {
++num_of_f1;
ok(type == regular_file, "expect regular_file, got %d\n", type);
}else if(!strcmp(file_name, "f2")) {
++num_of_f2;
ok(type == regular_file, "expect regular_file, got %d\n", type);
}else if(!strcmp(file_name, "sub_dir")) {
++num_of_sub_dir;
ok(type == directory_file, "expect directory_file, got %d\n", type);
}else {
++num_of_other_files;
}
file_name = p_tr2_sys__Read_dir(dest, result_handle, &type);
}
ok(type == status_unknown, "p_tr2_sys__Read_dir(): expect: status_unknown, got %d\n", type);
p_tr2_sys__Close_dir(result_handle);
ok(result_handle != NULL, "tr2_sys__Open_dir(): expect: not NULL, got %p\n", result_handle);
ok(num_of_f1 == 1, "found f1 %d times\n", num_of_f1);
ok(num_of_f2 == 1, "found f2 %d times\n", num_of_f2);
ok(num_of_sub_dir == 1, "found sub_dir %d times\n", num_of_sub_dir);
ok(num_of_other_files == 0, "found %d other files\n", num_of_other_files);
memset(first_file_name, 0xff, MAX_PATH);
err = type = 0xdeadbeef;
result_handle = file;
result_handle = p_tr2_sys__Open_dir(first_file_name, "not_exist", &err, &type);
ok(result_handle == NULL, "tr2_sys__Open_dir(): expect: NULL, got %p\n", result_handle);
ok(err == ERROR_BAD_PATHNAME, "tr2_sys__Open_dir(): expect: ERROR_BAD_PATHNAME, got %d\n", err);
ok((int)type == 0xdeadbeef, "tr2_sys__Open_dir(): expect: 0xdeadbeef, got %d\n", type);
ok(!*first_file_name, "tr2_sys__Open_dir(): expect: 0, got %s\n", first_file_name);
CreateDirectoryA("empty_dir", NULL);
memset(first_file_name, 0xff, MAX_PATH);
err = type = 0xdeadbeef;
result_handle = file;
result_handle = p_tr2_sys__Open_dir(first_file_name, "empty_dir", &err, &type);
ok(result_handle == NULL, "tr2_sys__Open_dir(): expect: NULL, got %p\n", result_handle);
ok(err == ERROR_SUCCESS, "tr2_sys__Open_dir(): expect: ERROR_SUCCESS, got %d\n", err);
ok(type == status_unknown, "tr2_sys__Open_dir(): expect: status_unknown, got %d\n", type);
ok(!*first_file_name, "tr2_sys__Open_dir(): expect: 0, got %s\n", first_file_name);
p_tr2_sys__Close_dir(result_handle);
ok(result_handle == NULL, "tr2_sys__Open_dir(): expect: NULL, got %p\n", result_handle);
ok(RemoveDirectoryA("empty_dir"), "expect empty_dir to exist\n");
ok(DeleteFileA("tr2_test_dir/sub_dir/sub_f1"), "expect tr2_test_dir/sub_dir/sub_f1 to exist\n");
ok(RemoveDirectoryA("tr2_test_dir/sub_dir"), "expect tr2_test_dir/sub_dir to exist\n");
ok(DeleteFileA("tr2_test_dir/f1"), "expect tr2_test_dir/f1 to exist\n");
ok(DeleteFileA("tr2_test_dir/f2"), "expect tr2_test_dir/f2 to exist\n");
ok(RemoveDirectoryA("tr2_test_dir"), "expect tr2_test_dir to exist\n");
}
static void test_tr2_sys__Link(void)
{
int ret, i;
HANDLE file, h1, h2;
BY_HANDLE_FILE_INFORMATION info1, info2;
char temp_path[MAX_PATH], current_path[MAX_PATH];
LARGE_INTEGER file_size;
struct {
char const *existing_path;
char const *new_path;
MSVCP_bool fail_if_exists;
int last_error;
} tests[] = {
{ "f1", "f1_link", TRUE, ERROR_SUCCESS },
{ "f1", "tr2_test_dir\\f1_link", TRUE, ERROR_SUCCESS },
{ "tr2_test_dir\\f1_link", "tr2_test_dir\\f1_link_link", TRUE, ERROR_SUCCESS },
{ "tr2_test_dir", "dir_link", TRUE, ERROR_ACCESS_DENIED },
{ NULL, "NULL_link", TRUE, ERROR_INVALID_PARAMETER },
{ "f1", NULL, TRUE, ERROR_INVALID_PARAMETER },
{ "not_exist", "not_exist_link", TRUE, ERROR_FILE_NOT_FOUND },
{ "f1", "not_exist_dir\\f1_link", TRUE, ERROR_PATH_NOT_FOUND }
};
memset(current_path, 0, MAX_PATH);
GetCurrentDirectoryA(MAX_PATH, current_path);
memset(temp_path, 0, MAX_PATH);
GetTempPathA(MAX_PATH, temp_path);
ok(SetCurrentDirectoryA(temp_path), "SetCurrentDirectoryA to temp_path failed\n");
ret = p_tr2_sys__Make_dir("tr2_test_dir");
ok(ret == 1, "test_tr2_sys__Make_dir(): expect 1 got %d\n", ret);
file = CreateFileA("f1", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
file_size.QuadPart = 7;
ok(SetFilePointerEx(file, file_size, NULL, FILE_BEGIN), "SetFilePointerEx failed\n");
ok(SetEndOfFile(file), "SetEndOfFile failed\n");
CloseHandle(file);
for(i=0; i<ARRAY_SIZE(tests); i++) {
errno = 0xdeadbeef;
ret = p_tr2_sys__Link(tests[i].existing_path, tests[i].new_path);
ok(ret == tests[i].last_error, "tr2_sys__Link(): test %d expect: %d, got %d\n",
i+1, tests[i].last_error, ret);
ok(errno == 0xdeadbeef, "tr2_sys__Link(): test %d errno expect 0xdeadbeef, got %d\n", i+1, errno);
if(ret == ERROR_SUCCESS)
ok(p_tr2_sys__File_size(tests[i].existing_path) == p_tr2_sys__File_size(tests[i].new_path),
"tr2_sys__Link(): test %d failed, two files' size are not equal\n", i+1);
}
ok(DeleteFileA("f1"), "expect f1 to exist\n");
ok(p_tr2_sys__File_size("f1_link") == p_tr2_sys__File_size("tr2_test_dir/f1_link") &&
p_tr2_sys__File_size("tr2_test_dir/f1_link") == p_tr2_sys__File_size("tr2_test_dir/f1_link_link"),
"tr2_sys__Link(): expect links' size are equal, got %s\n", wine_dbgstr_longlong(p_tr2_sys__File_size("tr2_test_dir/f1_link_link")));
ok(p_tr2_sys__File_size("f1_link") == 7, "tr2_sys__Link(): expect f1_link's size equals to 7, got %s\n", wine_dbgstr_longlong(p_tr2_sys__File_size("f1_link")));
file = CreateFileA("f1_link", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
file_size.QuadPart = 20;
ok(SetFilePointerEx(file, file_size, NULL, FILE_BEGIN), "SetFilePointerEx failed\n");
ok(SetEndOfFile(file), "SetEndOfFile failed\n");
CloseHandle(file);
h1 = CreateFileA("f1_link", 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, 0);
ok(h1 != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
ok(GetFileInformationByHandle(h1, &info1), "GetFileInformationByHandle failed\n");
CloseHandle(h1);
h2 = CreateFileA("tr2_test_dir/f1_link", 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, 0);
ok(h2 != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
ok(GetFileInformationByHandle(h2, &info2), "GetFileInformationByHandle failed\n");
CloseHandle(h2);
ok(info1.nFileIndexHigh == info2.nFileIndexHigh
&& info1.nFileIndexLow == info2.nFileIndexLow,
"tr2_sys__Link(): test %d expect two files equivalent\n", i+1);
ok(p_tr2_sys__File_size("f1_link") == 20, "tr2_sys__Link(): expect f1_link's size equals to 20, got %s\n", wine_dbgstr_longlong(p_tr2_sys__File_size("f1_link")));
ok(DeleteFileA("f1_link"), "expect f1_link to exist\n");
ok(DeleteFileA("tr2_test_dir/f1_link"), "expect tr2_test_dir/f1_link to exist\n");
ok(DeleteFileA("tr2_test_dir/f1_link_link"), "expect tr2_test_dir/f1_link_link to exist\n");
ret = p_tr2_sys__Remove_dir("tr2_test_dir");
ok(ret == 1, "tr2_sys__Remove_dir(): expect 1 got %d\n", ret);
ok(SetCurrentDirectoryA(current_path), "SetCurrentDirectoryA failed\n");
}
static void test_tr2_sys__Symlink(void)
{
int ret, i;
HANDLE file;
LARGE_INTEGER file_size;
struct {
char const *existing_path;
char const *new_path;
int last_error;
MSVCP_bool is_todo;
} tests[] = {
{ "f1", "f1_link", ERROR_SUCCESS, FALSE },
{ "f1", "tr2_test_dir\\f1_link", ERROR_SUCCESS, FALSE },
{ "tr2_test_dir\\f1_link", "tr2_test_dir\\f1_link_link", ERROR_SUCCESS, FALSE },
{ "tr2_test_dir", "dir_link", ERROR_SUCCESS, FALSE },
{ NULL, "NULL_link", ERROR_INVALID_PARAMETER, FALSE },
{ "f1", NULL, ERROR_INVALID_PARAMETER, FALSE },
{ "not_exist", "not_exist_link", ERROR_SUCCESS, FALSE },
{ "f1", "not_exist_dir\\f1_link", ERROR_PATH_NOT_FOUND, TRUE }
};
ret = p_tr2_sys__Make_dir("tr2_test_dir");
ok(ret == 1, "test_tr2_sys__Make_dir(): expect 1 got %d\n", ret);
file = CreateFileA("f1", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
file_size.QuadPart = 7;
ok(SetFilePointerEx(file, file_size, NULL, FILE_BEGIN), "SetFilePointerEx failed\n");
ok(SetEndOfFile(file), "SetEndOfFile failed\n");
CloseHandle(file);
for(i=0; i<ARRAY_SIZE(tests); i++) {
errno = 0xdeadbeef;
SetLastError(0xdeadbeef);
ret = p_tr2_sys__Symlink(tests[i].existing_path, tests[i].new_path);
if(!i && (ret==ERROR_PRIVILEGE_NOT_HELD || ret==ERROR_INVALID_FUNCTION || ret==ERROR_CALL_NOT_IMPLEMENTED)) {
win_skip("Privilege not held or symbolic link not supported, skipping symbolic link tests.\n");
ok(DeleteFileA("f1"), "expect f1 to exist\n");
ret = p_tr2_sys__Remove_dir("tr2_test_dir");
ok(ret == 1, "tr2_sys__Remove_dir(): expect 1 got %d\n", ret);
return;
}
ok(errno == 0xdeadbeef, "tr2_sys__Symlink(): test %d errno expect 0xdeadbeef, got %d\n", i+1, errno);
todo_wine_if(tests[i].is_todo)
ok(ret == tests[i].last_error, "tr2_sys__Symlink(): test %d expect: %d, got %d\n", i+1, tests[i].last_error, ret);
if(ret == ERROR_SUCCESS)
ok(p_tr2_sys__File_size(tests[i].new_path) == 0, "tr2_sys__Symlink(): expect 0, got %s\n", wine_dbgstr_longlong(p_tr2_sys__File_size(tests[i].new_path)));
}
ok(DeleteFileA("f1"), "expect f1 to exist\n");
todo_wine ok(DeleteFileA("f1_link"), "expect f1_link to exist\n");
todo_wine ok(DeleteFileA("tr2_test_dir/f1_link"), "expect tr2_test_dir/f1_link to exist\n");
todo_wine ok(DeleteFileA("tr2_test_dir/f1_link_link"), "expect tr2_test_dir/f1_link_link to exist\n");
todo_wine ok(DeleteFileA("not_exist_link"), "expect not_exist_link to exist\n");
todo_wine ok(DeleteFileA("dir_link"), "expect dir_link to exist\n");
ret = p_tr2_sys__Remove_dir("tr2_test_dir");
ok(ret == 1, "tr2_sys__Remove_dir(): expect 1 got %d\n", ret);
}
static void test_tr2_sys__Unlink(void)
{
char temp_path[MAX_PATH], current_path[MAX_PATH];
int ret, i;
HANDLE file;
LARGE_INTEGER file_size;
struct {
char const *path;
int last_error;
MSVCP_bool is_todo;
} tests[] = {
{ "tr2_test_dir\\f1_symlink", ERROR_SUCCESS, TRUE },
{ "tr2_test_dir\\f1_link", ERROR_SUCCESS, FALSE },
{ "tr2_test_dir\\f1", ERROR_SUCCESS, FALSE },
{ "tr2_test_dir", ERROR_ACCESS_DENIED, FALSE },
{ "not_exist", ERROR_FILE_NOT_FOUND, FALSE },
{ "not_exist_dir\\not_exist_file", ERROR_PATH_NOT_FOUND, FALSE },
{ NULL, ERROR_PATH_NOT_FOUND, FALSE }
};
GetCurrentDirectoryA(MAX_PATH, current_path);
GetTempPathA(MAX_PATH, temp_path);
ok(SetCurrentDirectoryA(temp_path), "SetCurrentDirectoryA to temp_path failed\n");
ret = p_tr2_sys__Make_dir("tr2_test_dir");
ok(ret == 1, "tr2_sys__Make_dir(): expect 1 got %d\n", ret);
file = CreateFileA("tr2_test_dir/f1", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, NULL);
ok(file != INVALID_HANDLE_VALUE, "create file failed: INVALID_HANDLE_VALUE\n");
file_size.QuadPart = 7;
ok(SetFilePointerEx(file, file_size, NULL, FILE_BEGIN), "SetFilePointerEx failed\n");
ok(SetEndOfFile(file), "SetEndOfFile failed\n");
CloseHandle(file);
ret = p_tr2_sys__Symlink("tr2_test_dir/f1", "tr2_test_dir/f1_symlink");
if(ret==ERROR_PRIVILEGE_NOT_HELD || ret==ERROR_INVALID_FUNCTION || ret==ERROR_CALL_NOT_IMPLEMENTED) {
tests[0].last_error = ERROR_FILE_NOT_FOUND;
win_skip("Privilege not held or symbolic link not supported, skipping symbolic link tests.\n");
}else {
ok(ret == ERROR_SUCCESS, "tr2_sys__Symlink(): expect: ERROR_SUCCESS, got %d\n", ret);
}
ret = p_tr2_sys__Link("tr2_test_dir/f1", "tr2_test_dir/f1_link");
ok(ret == ERROR_SUCCESS, "tr2_sys__Link(): expect: ERROR_SUCCESS, got %d\n", ret);
for(i=0; i<ARRAY_SIZE(tests); i++) {
errno = 0xdeadbeef;
ret = p_tr2_sys__Unlink(tests[i].path);
todo_wine_if(tests[i].is_todo)
ok(ret == tests[i].last_error, "tr2_sys__Unlink(): test %d expect: %d, got %d\n",
i+1, tests[i].last_error, ret);
ok(errno == 0xdeadbeef, "tr2_sys__Unlink(): test %d errno expect: 0xdeadbeef, got %d\n", i+1, ret);
}
ok(!DeleteFileA("tr2_test_dir/f1"), "expect tr2_test_dir/f1 not to exist\n");
ok(!DeleteFileA("tr2_test_dir/f1_link"), "expect tr2_test_dir/f1_link not to exist\n");
ok(!DeleteFileA("tr2_test_dir/f1_symlink"), "expect tr2_test_dir/f1_symlink not to exist\n");
ret = p_tr2_sys__Remove_dir("tr2_test_dir");
ok(ret == 1, "tr2_sys__Remove_dir(): expect 1 got %d\n", ret);
ok(SetCurrentDirectoryA(current_path), "SetCurrentDirectoryA failed\n");
}
static int __cdecl thrd_thread(void *arg)
{
_Thrd_t *thr = arg;
if(thr)
*thr = p__Thrd_current();
return 0x42;
}
static void test_thrd(void)
{
int ret, i, r;
struct test {
_Thrd_t a;
_Thrd_t b;
int r;
};
const HANDLE hnd1 = (HANDLE)0xcccccccc;
const HANDLE hnd2 = (HANDLE)0xdeadbeef;
xtime xt, before, after;
MSVCRT_long diff;
_Thrd_t ta, tb;
struct test testeq[] = {
{ {0, 0}, {0, 0}, 1 },
{ {0, 1}, {0, 0}, 0 },
{ {hnd1, 0}, {hnd1, 1}, 0 },
{ {hnd1, 0}, {hnd2, 0}, 1 }
};
struct test testlt[] = {
{ {0, 0}, {0, 0}, 0 },
{ {0, 0}, {0, 1}, 1 },
{ {0, 1}, {0, 0}, 0 },
{ {hnd1, 0}, {hnd2, 0}, 0 },
{ {hnd1, 0}, {hnd2, 1}, 1 }
};
/* test for equal */
for(i=0; i<ARRAY_SIZE(testeq); i++) {
ret = p__Thrd_equal(testeq[i].a, testeq[i].b);
ok(ret == testeq[i].r, "(%p %u) = (%p %u) expected %d, got %d\n",
testeq[i].a.hnd, testeq[i].a.id, testeq[i].b.hnd, testeq[i].b.id, testeq[i].r, ret);
}
/* test for less than */
for(i=0; i<ARRAY_SIZE(testlt); i++) {
ret = p__Thrd_lt(testlt[i].a, testlt[i].b);
ok(ret == testlt[i].r, "(%p %u) < (%p %u) expected %d, got %d\n",
testlt[i].a.hnd, testlt[i].a.id, testlt[i].b.hnd, testlt[i].b.id, testlt[i].r, ret);
}
/* test for sleep */
if (0) /* crash on Windows */
p__Thrd_sleep(NULL);
p_xtime_get(&xt, 1);
xt.sec += 2;
p_xtime_get(&before, 1);
p__Thrd_sleep(&xt);
p_xtime_get(&after, 1);
diff = p__Xtime_diff_to_millis2(&after, &before);
ok(diff > 2000 - TIMEDELTA, "got %d\n", diff);
/* test for current */
ta = p__Thrd_current();
tb = p__Thrd_current();
ok(ta.id == tb.id, "got a %d b %d\n", ta.id, tb.id);
ok(ta.id == GetCurrentThreadId(), "expected %d, got %d\n", GetCurrentThreadId(), ta.id);
/* these can be different if new threads are created at same time */
ok(ta.hnd == tb.hnd, "got a %p b %p\n", ta.hnd, tb.hnd);
ok(!CloseHandle(ta.hnd), "handle %p not closed\n", ta.hnd);
ok(!CloseHandle(tb.hnd), "handle %p not closed\n", tb.hnd);
/* test for create/join */
if (0) /* crash on Windows */
{
p__Thrd_create(NULL, thrd_thread, NULL);
p__Thrd_create(&ta, NULL, NULL);
}
r = -1;
ret = p__Thrd_create(&ta, thrd_thread, (void*)&tb);
ok(!ret, "failed to create thread, got %d\n", ret);
ret = p__Thrd_join(ta, &r);
ok(!ret, "failed to join thread, got %d\n", ret);
ok(ta.id == tb.id, "expected %d, got %d\n", ta.id, tb.id);
ok(ta.hnd != tb.hnd, "same handles, got %p\n", ta.hnd);
ok(r == 0x42, "expected 0x42, got %d\n", r);
ret = p__Thrd_detach(ta);
ok(ret == 4, "_Thrd_detach should have failed with error 4, got %d\n", ret);
ret = p__Thrd_create(&ta, thrd_thread, NULL);
ok(!ret, "failed to create thread, got %d\n", ret);
ret = p__Thrd_detach(ta);
ok(!ret, "_Thrd_detach failed, got %d\n", ret);
}
#define NUM_THREADS 10
struct cndmtx
{
HANDLE initialized;
int started;
int thread_no;
_Cnd_t cnd;
_Mtx_t mtx;
BOOL timed_wait;
};
static int __cdecl cnd_wait_thread(void *arg)
{
struct cndmtx *cm = arg;
int r;
p__Mtx_lock(&cm->mtx);
if(InterlockedIncrement(&cm->started) == cm->thread_no)
SetEvent(cm->initialized);
if(cm->timed_wait) {
xtime xt;
p_xtime_get(&xt, 1);
xt.sec += 2;
r = p__Cnd_timedwait(&cm->cnd, &cm->mtx, &xt);
ok(!r, "timed wait failed\n");
} else {
r = p__Cnd_wait(&cm->cnd, &cm->mtx);
ok(!r, "wait failed\n");
}
p__Mtx_unlock(&cm->mtx);
return 0;
}
static void test_cnd(void)
{
_Thrd_t threads[NUM_THREADS];
xtime xt, before, after;
MSVCRT_long diff;
struct cndmtx cm;
_Cnd_t cnd;
_Mtx_t mtx;
int r, i;
r = p__Cnd_init(&cnd);
ok(!r, "failed to init cnd\n");
r = p__Mtx_init(&mtx, 0);
ok(!r, "failed to init mtx\n");
if (0) /* crash on Windows */
{
p__Cnd_init(NULL);
p__Cnd_wait(NULL, &mtx);
p__Cnd_wait(&cnd, NULL);
p__Cnd_timedwait(NULL, &mtx, &xt);
p__Cnd_timedwait(&cnd, &mtx, &xt);
}
p__Cnd_destroy(NULL);
/* test _Cnd_signal/_Cnd_wait */
cm.initialized = CreateEventW(NULL, FALSE, FALSE, NULL);
cm.started = 0;
cm.thread_no = 1;
cm.cnd = cnd;
cm.mtx = mtx;
cm.timed_wait = FALSE;
p__Thrd_create(&threads[0], cnd_wait_thread, (void*)&cm);
WaitForSingleObject(cm.initialized, INFINITE);
p__Mtx_lock(&mtx);
p__Mtx_unlock(&mtx);
r = p__Cnd_signal(&cm.cnd);
ok(!r, "failed to signal\n");
p__Thrd_join(threads[0], NULL);
/* test _Cnd_timedwait time out */
p__Mtx_lock(&mtx);
p_xtime_get(&before, 1);
xt = before;
xt.sec += 1;
r = p__Cnd_timedwait(&cnd, &mtx, &xt);
p_xtime_get(&after, 1);
p__Mtx_unlock(&mtx);
diff = p__Xtime_diff_to_millis2(&after, &before);
ok(r == 2, "should have timed out\n");
ok(diff > 1000 - TIMEDELTA, "got %d\n", diff);
/* test _Cnd_timedwait */
cm.started = 0;
cm.timed_wait = TRUE;
p__Thrd_create(&threads[0], cnd_wait_thread, (void*)&cm);
WaitForSingleObject(cm.initialized, INFINITE);
p__Mtx_lock(&mtx);
p__Mtx_unlock(&mtx);
r = p__Cnd_signal(&cm.cnd);
ok(!r, "failed to signal\n");
p__Thrd_join(threads[0], NULL);
/* test _Cnd_do_broadcast_at_thread_exit */
cm.started = 0;
cm.timed_wait = FALSE;
p__Thrd_create(&threads[0], cnd_wait_thread, (void*)&cm);
WaitForSingleObject(cm.initialized, INFINITE);
p__Mtx_lock(&mtx);
r = 0xcafe;
p__Cnd_unregister_at_thread_exit((_Mtx_t*)0xdeadbeef);
p__Cnd_register_at_thread_exit(&cnd, &mtx, &r);
ok(r == 0xcafe, "r = %x\n", r);
p__Cnd_register_at_thread_exit(&cnd, &mtx, &r);
p__Cnd_unregister_at_thread_exit(&mtx);
p__Cnd_do_broadcast_at_thread_exit();
ok(mtx->count == 1, "mtx.count = %d\n", mtx->count);
p__Cnd_register_at_thread_exit(&cnd, &mtx, &r);
ok(r == 0xcafe, "r = %x\n", r);
p__Cnd_do_broadcast_at_thread_exit();
ok(r == 1, "r = %x\n", r);
p__Thrd_join(threads[0], NULL);
/* crash if _Cnd_do_broadcast_at_thread_exit is called on exit */
p__Cnd_register_at_thread_exit((_Cnd_t*)0xdeadbeef, (_Mtx_t*)0xdeadbeef, (int*)0xdeadbeef);
/* test _Cnd_broadcast */
cm.started = 0;
cm.thread_no = NUM_THREADS;
for(i = 0; i < cm.thread_no; i++)
p__Thrd_create(&threads[i], cnd_wait_thread, (void*)&cm);
WaitForSingleObject(cm.initialized, INFINITE);
p__Mtx_lock(&mtx);
p__Mtx_unlock(&mtx);
r = p__Cnd_broadcast(&cnd);
ok(!r, "failed to broadcast\n");
for(i = 0; i < cm.thread_no; i++)
p__Thrd_join(threads[i], NULL);
/* test broadcast with _Cnd_destroy */
cm.started = 0;
for(i = 0; i < cm.thread_no; i++)
p__Thrd_create(&threads[i], cnd_wait_thread, (void*)&cm);
WaitForSingleObject(cm.initialized, INFINITE);
p__Mtx_lock(&mtx);
p__Mtx_unlock(&mtx);
p__Cnd_destroy(&cnd);
for(i = 0; i < cm.thread_no; i++)
p__Thrd_join(threads[i], NULL);
p__Mtx_destroy(&mtx);
CloseHandle(cm.initialized);
}
static struct {
int value[2];
const char* export_name;
} vbtable_size_exports_list[] = {
{{0x20, 0x20}, "??_8?$basic_iostream@DU?$char_traits@D@std@@@std@@7B?$basic_istream@DU?$char_traits@D@std@@@1@@"},
{{0x10, 0x10}, "??_8?$basic_iostream@DU?$char_traits@D@std@@@std@@7B?$basic_ostream@DU?$char_traits@D@std@@@1@@"},
{{0x20, 0x20}, "??_8?$basic_iostream@GU?$char_traits@G@std@@@std@@7B?$basic_istream@GU?$char_traits@G@std@@@1@@"},
{{0x10, 0x10}, "??_8?$basic_iostream@GU?$char_traits@G@std@@@std@@7B?$basic_ostream@GU?$char_traits@G@std@@@1@@"},
{{0x20, 0x20}, "??_8?$basic_iostream@_WU?$char_traits@_W@std@@@std@@7B?$basic_istream@_WU?$char_traits@_W@std@@@1@@"},
{{0x10, 0x10}, "??_8?$basic_iostream@_WU?$char_traits@_W@std@@@std@@7B?$basic_ostream@_WU?$char_traits@_W@std@@@1@@"},
{{0x18, 0x18}, "??_8?$basic_istream@DU?$char_traits@D@std@@@std@@7B@"},
{{0x18, 0x18}, "??_8?$basic_istream@GU?$char_traits@G@std@@@std@@7B@"},
{{0x18, 0x18}, "??_8?$basic_istream@_WU?$char_traits@_W@std@@@std@@7B@"},
{{ 0x8, 0x10}, "??_8?$basic_ostream@DU?$char_traits@D@std@@@std@@7B@"},
{{ 0x8, 0x10}, "??_8?$basic_ostream@GU?$char_traits@G@std@@@std@@7B@"},
{{ 0x8, 0x10}, "??_8?$basic_ostream@_WU?$char_traits@_W@std@@@std@@7B@"},
{{ 0x0, 0x0}, 0}
};
static void test_vbtable_size_exports(void)
{
int i;
const int *p_vbtable;
int arch_idx = (sizeof(void*) == 8);
for (i = 0; vbtable_size_exports_list[i].export_name; i++)
{
SET(p_vbtable, vbtable_size_exports_list[i].export_name);
ok(p_vbtable[0] == 0, "vbtable[0] wrong, got 0x%x\n", p_vbtable[0]);
ok(p_vbtable[1] == vbtable_size_exports_list[i].value[arch_idx],
"%d: %s[1] wrong, got 0x%x\n", i, vbtable_size_exports_list[i].export_name, p_vbtable[1]);
}
}
HANDLE _Pad__Launch_returned;
_Pad pad;
#ifdef __i386__
/* TODO: this should be a __thiscall function */
static unsigned int __stdcall vtbl_func__Go(void)
#else
static unsigned int __cdecl vtbl_func__Go(_Pad *this)
#endif
{
DWORD ret;
ret = WaitForSingleObject(_Pad__Launch_returned, 100);
ok(ret == WAIT_TIMEOUT, "WiatForSingleObject returned %x\n", ret);
ok(!pad.mtx->count, "pad.mtx.count = %d\n", pad.mtx->count);
ok(!pad.launched, "pad.launched = %x\n", pad.launched);
call_func1(p__Pad__Release, &pad);
ok(pad.launched, "pad.launched = %x\n", pad.launched);
ret = WaitForSingleObject(_Pad__Launch_returned, 100);
ok(ret == WAIT_OBJECT_0, "WiatForSingleObject returned %x\n", ret);
ok(pad.mtx->count == 1, "pad.mtx.count = %d\n", pad.mtx->count);
return 0;
}
static void test__Pad(void)
{
_Pad pad_copy;
_Thrd_t thrd;
vtable_ptr pfunc = (vtable_ptr)&vtbl_func__Go;
_Pad__Launch_returned = CreateEventW(NULL, FALSE, FALSE, NULL);
pad.vtable = (void*)1;
pad.cnd = (void*)2;
pad.mtx = (void*)3;
pad.launched = TRUE;
memset(&pad_copy, 0, sizeof(pad_copy));
call_func2(p__Pad_copy_ctor, &pad_copy, &pad);
ok(pad_copy.vtable != (void*)1, "pad_copy.vtable was not set\n");
ok(pad_copy.cnd == (void*)2, "pad_copy.cnd = %p\n", pad_copy.cnd);
ok(pad_copy.mtx == (void*)3, "pad_copy.mtx = %p\n", pad_copy.mtx);
ok(pad_copy.launched, "pad_copy.launched = %x\n", pad_copy.launched);
memset(&pad_copy, 0xde, sizeof(pad_copy));
pad_copy.vtable = (void*)4;
pad_copy.cnd = (void*)5;
pad_copy.mtx = (void*)6;
pad_copy.launched = FALSE;
call_func2(p__Pad_op_assign, &pad_copy, &pad);
ok(pad_copy.vtable == (void*)4, "pad_copy.vtable was set\n");
ok(pad_copy.cnd == (void*)2, "pad_copy.cnd = %p\n", pad_copy.cnd);
ok(pad_copy.mtx == (void*)3, "pad_copy.mtx = %p\n", pad_copy.mtx);
ok(pad_copy.launched, "pad_copy.launched = %x\n", pad_copy.launched);
call_func1(p__Pad_ctor, &pad);
call_func2(p__Pad_copy_ctor, &pad_copy, &pad);
ok(pad.vtable == pad_copy.vtable, "pad.vtable = %p, pad_copy.vtable = %p\n", pad.vtable, pad_copy.vtable);
ok(pad.cnd == pad_copy.cnd, "pad.cnd = %p, pad_copy.cnd = %p\n", pad.cnd, pad_copy.cnd);
ok(pad.mtx == pad_copy.mtx, "pad.mtx = %p, pad_copy.mtx = %p\n", pad.mtx, pad_copy.mtx);
ok(pad.launched == pad_copy.launched, "pad.launched = %x, pad_copy.launched = %x\n", pad.launched, pad_copy.launched);
call_func1(p__Pad_dtor, &pad);
/* call_func1(p__Pad_dtor, &pad_copy); - copy constructor is broken, this causes a crash */
memset(&pad, 0xfe, sizeof(pad));
call_func1(p__Pad_ctor, &pad);
ok(!pad.launched, "pad.launched = %x\n", pad.launched);
ok(pad.mtx->count == 1, "pad.mtx.count = %d\n", pad.mtx->count);
pad.vtable = &pfunc;
call_func2(p__Pad__Launch, &pad, &thrd);
SetEvent(_Pad__Launch_returned);
ok(!p__Thrd_join(thrd, NULL), "_Thrd_join failed\n");
call_func1(p__Pad_dtor, &pad);
CloseHandle(_Pad__Launch_returned);
}
static void test_threads__Mtx(void)
{
void *mtx = NULL;
p_threads__Mtx_new(&mtx);
ok(mtx != NULL, "mtx == NULL\n");
p_threads__Mtx_lock(mtx);
p_threads__Mtx_lock(mtx);
p_threads__Mtx_unlock(mtx);
p_threads__Mtx_unlock(mtx);
p_threads__Mtx_unlock(mtx);
p_threads__Mtx_delete(mtx);
}
static void test_vector_base_v4__Segment_index_of(void)
{
size_t i;
size_t ret;
struct {
size_t x;
size_t expect;
} tests[] = {
{0, 0},
{1, 0},
{2, 1},
{3, 1},
{4, 2},
{7, 2},
{8, 3},
{15, 3},
{16, 4},
{31, 4},
{32, 5},
{~0, 8*sizeof(void*)-1}
};
for(i=0; i<ARRAY_SIZE(tests); i++) {
ret = p_vector_base_v4__Segment_index_of(tests[i].x);
ok(ret == tests[i].expect, "expected %ld, got %ld for %ld\n",
(long)tests[i].expect, (long)ret, (long)tests[i].x);
}
}
static HANDLE block_start, block_end;
static BOOL block;
static void __thiscall queue_char__Move_item(
#ifndef __i386__
queue_base_v4 *this,
#endif
_Page *dst, size_t idx, void *src)
{
CHECK_EXPECT(queue_char__Move_item);
if(block) {
block = FALSE;
SetEvent(block_start);
WaitForSingleObject(block_end, INFINITE);
}
memcpy(dst->data + idx, src, sizeof(char));
}
static void __thiscall queue_char__Copy_item(
#ifndef __i386__
queue_base_v4 *this,
#endif
_Page *dst, size_t idx, const void *src)
{
CHECK_EXPECT(queue_char__Copy_item);
if(block) {
block = FALSE;
SetEvent(block_start);
WaitForSingleObject(block_end, INFINITE);
}
memcpy(dst->data + idx, src, sizeof(char));
}
static void __thiscall queue_char__Assign_and_destroy_item(
#ifndef __i386__
queue_base_v4 *this,
#endif
void *dst, _Page *src, size_t idx)
{
CHECK_EXPECT(queue_char__Assign_and_destroy_item);
if(block) {
block = FALSE;
SetEvent(block_start);
WaitForSingleObject(block_end, INFINITE);
}
memcpy(dst, src->data + idx, sizeof(char));
}
#ifndef __i386__
static _Page* __thiscall queue_char__Allocate_page(queue_base_v4 *this)
#else
static _Page* __thiscall queue_char__Allocate_page(void)
#endif
{
CHECK_EXPECT(queue_char__Allocate_page);
return malloc(sizeof(_Page) + sizeof(char[256]));
}
static void __thiscall queue_char__Deallocate_page(
#ifndef __i386__
queue_base_v4 *this,
#endif
_Page *page)
{
CHECK_EXPECT2(queue_char__Deallocate_page);
free(page);
}
static const void* queue_char_vtbl[] =
{
queue_char__Move_item,
queue_char__Copy_item,
queue_char__Assign_and_destroy_item,
NULL, /* dtor */
queue_char__Allocate_page,
queue_char__Deallocate_page
};
static DWORD WINAPI queue_move_push_thread(void *arg)
{
queue_base_v4 *queue = arg;
char c = 'm';
alloc_expect_struct();
SET_EXPECT(queue_char__Allocate_page); /* ignore page allocations */
SET_EXPECT(queue_char__Move_item);
call_func2(p_queue_base_v4__Internal_move_push, queue, &c);
CHECK_CALLED(queue_char__Move_item);
free_expect_struct();
return 0;
}
static DWORD WINAPI queue_push_thread(void *arg)
{
queue_base_v4 *queue = arg;
char c = 'c';
alloc_expect_struct();
SET_EXPECT(queue_char__Copy_item);
call_func2(p_queue_base_v4__Internal_push, queue, &c);
CHECK_CALLED(queue_char__Copy_item);
free_expect_struct();
return 0;
}
static DWORD WINAPI queue_pop_thread(void*arg)
{
queue_base_v4 *queue = arg;
char c;
alloc_expect_struct();
SET_EXPECT(queue_char__Assign_and_destroy_item);
call_func2(p_queue_base_v4__Internal_pop_if_present, queue, &c);
CHECK_CALLED(queue_char__Assign_and_destroy_item);
free_expect_struct();
return 0;
}
static void* __cdecl concurrent_vector_int_alloc(vector_base_v4 *this, size_t n)
{
CHECK_EXPECT(concurrent_vector_int_alloc);
vector_alloc_count++;
return malloc(n*sizeof(int));
}
static void __cdecl concurrent_vector_int_destroy(void *ptr, size_t n)
{
CHECK_EXPECT2(concurrent_vector_int_destroy);
ok(vector_elem_count >= n, "invalid destroy\n");
vector_elem_count -= n;
memset(ptr, 0xff, sizeof(int)*n);
}
static void concurrent_vector_int_ctor(vector_base_v4 *this)
{
memset(this, 0, sizeof(*this));
this->allocator = concurrent_vector_int_alloc;
this->segment = &this->storage[0];
}
static void concurrent_vector_int_dtor(vector_base_v4 *this)
{
size_t blocks;
blocks = (size_t)call_func2(p_vector_base_v4__Internal_clear,
this, concurrent_vector_int_destroy);
for(blocks--; blocks >= this->first_block; blocks--) {
vector_alloc_count--;
free(this->segment[blocks]);
}
if(this->first_block) {
vector_alloc_count--;
free(this->segment[0]);
}
call_func1(p_vector_base_v4_dtor, this);
}
static void __cdecl concurrent_vector_int_copy(void *dst, const void *src, size_t n)
{
CHECK_EXPECT2(concurrent_vector_int_copy);
vector_elem_count += n;
memcpy(dst, src, n*sizeof(int));
}
static void __cdecl concurrent_vector_int_assign(void *dst, const void *src, size_t n)
{
CHECK_EXPECT2(concurrent_vector_int_assign);
memcpy(dst, src, n*sizeof(int));
}
static void test_queue_base_v4(void)
{
queue_base_v4 queue;
HANDLE thread[2];
MSVCP_bool b;
size_t size;
DWORD ret;
int i;
char c;
block_start = CreateEventW(NULL, FALSE, FALSE, NULL);
block_end = CreateEventW(NULL, FALSE, FALSE, NULL);
call_func2(p_queue_base_v4_ctor, &queue, 0);
ok(queue.data != NULL, "queue.data = NULL\n");
ok(queue.alloc_count == 32, "queue.alloc_count = %ld\n", (long)queue.alloc_count);
ok(queue.item_size == 0, "queue.item_size = %ld\n", (long)queue.item_size);
call_func1(p_queue_base_v4_dtor, &queue);
call_func2(p_queue_base_v4_ctor, &queue, 8);
ok(queue.data != NULL, "queue.data = NULL\n");
ok(queue.alloc_count == 32, "queue.alloc_count = %ld\n", (long)queue.alloc_count);
ok(queue.item_size == 8, "queue.item_size = %ld\n", (long)queue.item_size);
call_func1(p_queue_base_v4_dtor, &queue);
call_func2(p_queue_base_v4_ctor, &queue, 16);
ok(queue.data != NULL, "queue.data = NULL\n");
ok(queue.alloc_count == 16, "queue.alloc_count = %ld\n", (long)queue.alloc_count);
ok(queue.item_size == 16, "queue.item_size = %ld\n", (long)queue.item_size);
b = (DWORD_PTR)call_func1(p_queue_base_v4__Internal_empty, &queue);
ok(b, "queue is not empty\n");
size = (size_t)call_func1(p_queue_base_v4__Internal_size, &queue);
ok(!size, "size = %ld\n", (long)size);
call_func1(p_queue_base_v4_dtor, &queue);
call_func2(p_queue_base_v4_ctor, &queue, 1);
queue.vtable = (void*)&queue_char_vtbl;
for(i=0; i<8; i++) {
SET_EXPECT(queue_char__Allocate_page);
SET_EXPECT(queue_char__Copy_item);
c = 'a'+i;
call_func2(p_queue_base_v4__Internal_push, &queue, &c);
CHECK_CALLED(queue_char__Allocate_page);
CHECK_CALLED(queue_char__Copy_item);
b = (MSVCP_bool)(DWORD_PTR)call_func1(p_queue_base_v4__Internal_empty, &queue);
ok(!b, "queue is empty\n");
size = (size_t)call_func1(p_queue_base_v4__Internal_size, &queue);
ok(size == i+1, "size = %ld, expected %ld\n", (long)size, (long)i);
}
SET_EXPECT(queue_char__Copy_item);
c = 'a'+i;
call_func2(p_queue_base_v4__Internal_push, &queue, &c);
CHECK_CALLED(queue_char__Copy_item);
for(i=0; i<9; i++) {
SET_EXPECT(queue_char__Assign_and_destroy_item);
b = (DWORD_PTR)call_func2(p_queue_base_v4__Internal_pop_if_present, &queue, &c);
CHECK_CALLED(queue_char__Assign_and_destroy_item);
ok(b, "pop returned false\n");
ok(c == 'a'+i, "got '%c', expected '%c'\n", c, 'a'+i);
}
b = (DWORD_PTR)call_func2(p_queue_base_v4__Internal_pop_if_present, &queue, &c);
ok(!b, "pop returned true\n");
for(i=0; i<247; i++) {
SET_EXPECT(queue_char__Copy_item);
c = 'a'+i;
call_func2(p_queue_base_v4__Internal_push, &queue, &c);
CHECK_CALLED(queue_char__Copy_item);
size = (size_t)call_func1(p_queue_base_v4__Internal_size, &queue);
ok(size == i+1, "size = %ld, expected %ld\n", (long)size, (long)i);
}
SET_EXPECT(queue_char__Allocate_page);
SET_EXPECT(queue_char__Copy_item);
c = 'a'+i;
call_func2(p_queue_base_v4__Internal_push, &queue, &c);
CHECK_CALLED(queue_char__Allocate_page);
CHECK_CALLED(queue_char__Copy_item);
for(i=0; i<239; i++) {
SET_EXPECT(queue_char__Assign_and_destroy_item);
b = (DWORD_PTR)call_func2(p_queue_base_v4__Internal_pop_if_present, &queue, &c);
CHECK_CALLED(queue_char__Assign_and_destroy_item);
ok(b, "pop returned false\n");
ok(c == (char)('a'+i), "got '%c', expected '%c'\n", c, 'a'+i);
}
SET_EXPECT(queue_char__Assign_and_destroy_item);
SET_EXPECT(queue_char__Deallocate_page);
b = (DWORD_PTR)call_func2(p_queue_base_v4__Internal_pop_if_present, &queue, &c);
CHECK_CALLED(queue_char__Assign_and_destroy_item);
CHECK_CALLED(queue_char__Deallocate_page);
ok(b, "pop returned false\n");
ok(c == (char)('a'+i), "got '%c', expected '%c'\n", c, 'a'+i);
/* destructor doesn't clear the memory, _Internal_finish_clear needs to be called */
SET_EXPECT(queue_char__Deallocate_page);
call_func1(p_queue_base_v4__Internal_finish_clear, &queue);
CHECK_CALLED(queue_char__Deallocate_page);
call_func1(p_queue_base_v4_dtor, &queue);
/* test parallel push */
call_func2(p_queue_base_v4_ctor, &queue, 1);
queue.vtable = (void*)&queue_char_vtbl;
block = TRUE;
thread[0] = CreateThread(NULL, 0, queue_move_push_thread, &queue, 0, NULL);
WaitForSingleObject(block_start, INFINITE);
c = 'a';
for(i=0; i<7; i++) {
SET_EXPECT(queue_char__Allocate_page);
SET_EXPECT(queue_char__Copy_item);
call_func2(p_queue_base_v4__Internal_push, &queue, &c);
CHECK_CALLED(queue_char__Allocate_page);
CHECK_CALLED(queue_char__Copy_item);
}
thread[1] = CreateThread(NULL, 0, queue_push_thread, &queue, 0, NULL);
ret = WaitForSingleObject(thread[1], 100);
ok(ret == WAIT_TIMEOUT, "WaitForSingleObject returned %x\n", ret);
SetEvent(block_end);
WaitForSingleObject(thread[0], INFINITE);
WaitForSingleObject(thread[1], INFINITE);
CloseHandle(thread[0]);
CloseHandle(thread[1]);
/* test parallel pop */
block = TRUE;
thread[0] = CreateThread(NULL, 0, queue_pop_thread, &queue, 0, NULL);
WaitForSingleObject(block_start, INFINITE);
for(i=0; i<7; i++) {
SET_EXPECT(queue_char__Assign_and_destroy_item);
b = (DWORD_PTR)call_func2(p_queue_base_v4__Internal_pop_if_present, &queue, &c);
CHECK_CALLED(queue_char__Assign_and_destroy_item);
ok(b, "pop returned false\n");
ok(c == 'a', "got '%c', expected 'a'\n", c);
}
thread[1] = CreateThread(NULL, 0, queue_pop_thread, &queue, 0, NULL);
ret = WaitForSingleObject(thread[1], 100);
ok(ret == WAIT_TIMEOUT, "WaitForSingleObject returned %x\n", ret);
SetEvent(block_end);
WaitForSingleObject(thread[0], INFINITE);
WaitForSingleObject(thread[1], INFINITE);
CloseHandle(thread[0]);
CloseHandle(thread[1]);
/* test parallel push/pop */
for(i=0; i<8; i++) {
SET_EXPECT(queue_char__Copy_item);
call_func2(p_queue_base_v4__Internal_push, &queue, &c);
CHECK_CALLED(queue_char__Copy_item);
}
block = TRUE;
thread[0] = CreateThread(NULL, 0, queue_push_thread, &queue, 0, NULL);
WaitForSingleObject(block_start, INFINITE);
SET_EXPECT(queue_char__Assign_and_destroy_item);
call_func2(p_queue_base_v4__Internal_pop_if_present, &queue, &c);
CHECK_CALLED(queue_char__Assign_and_destroy_item);
SetEvent(block_end);
WaitForSingleObject(thread[0], INFINITE);
CloseHandle(thread[0]);
for(i=0; i<8; i++) {
SET_EXPECT(queue_char__Assign_and_destroy_item);
call_func2(p_queue_base_v4__Internal_pop_if_present, &queue, &c);
CHECK_CALLED(queue_char__Assign_and_destroy_item);
}
SET_EXPECT(queue_char__Deallocate_page);
call_func1(p_queue_base_v4__Internal_finish_clear, &queue);
CHECK_CALLED(queue_char__Deallocate_page);
call_func1(p_queue_base_v4_dtor, &queue);
CloseHandle(block_start);
CloseHandle(block_end);
}
static void test_vector_base_v4(void)
{
vector_base_v4 vector, v2;
size_t idx, size;
compact_block b;
int i, *data;
concurrent_vector_int_ctor(&vector);
size = (size_t)call_func1(p_vector_base_v4__Internal_capacity, &vector);
ok(size == 0, "size of vector got %ld expected 0\n", (long)size);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &vector, sizeof(int), &idx);
if(!data) {
skip("_Internal_push_back not yet implemented\n");
return;
}
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
ok(idx == 0, "idx got %ld expected %d\n", (long)idx, 0);
vector_elem_count++;
*data = 1;
ok(data == vector.storage[0], "vector.storage[0] got %p expected %p\n",
vector.storage[0], data);
ok(vector.first_block == 1, "vector.first_block got %ld expected 1\n",
(long)vector.first_block);
ok(vector.early_size == 1, "vector.early_size got %ld expected 1\n",
(long)vector.early_size);
ok(vector.segment == vector.storage, "vector.segment got %p expected %p\n",
vector.segment, vector.storage);
size = (size_t)call_func1(p_vector_base_v4__Internal_capacity, &vector);
ok(size == 2, "size of vector got %ld expected 2\n", (long)size);
data = call_func3(p_vector_base_v4__Internal_push_back, &vector, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
ok(idx == 1, "idx got %ld expected 1\n", (long)idx);
vector_elem_count++;
*data = 2;
ok(vector.first_block == 1, "vector.first_block got %ld expected 1\n",
(long)vector.first_block);
ok(vector.early_size == 2, "vector.early_size got %ld expected 2\n",
(long)vector.early_size);
size = (size_t)call_func1(p_vector_base_v4__Internal_capacity, &vector);
ok(size == 2, "size of vector got %ld expected 2\n", (long)size);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &vector, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
ok(idx == 2, "idx got %ld expected 2\n", (long)idx);
vector_elem_count++;
*data = 3;
ok(vector.segment == vector.storage, "vector.segment got %p expected %p\n",
vector.segment, vector.storage);
ok(vector.first_block == 1, "vector.first_block got %ld expected 1\n",
(long)vector.first_block);
ok(vector.early_size == 3, "vector.early_size got %ld expected 3\n",
(long)vector.early_size);
size = (size_t)call_func1(p_vector_base_v4__Internal_capacity, &vector);
ok(size == 4, "size of vector got %ld expected %d\n", (long)size, 4);
data = call_func3(p_vector_base_v4__Internal_push_back, &vector, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
ok(idx == 3, "idx got %ld expected 3\n", (long)idx);
vector_elem_count++;
*data = 4;
size = (size_t)call_func1(p_vector_base_v4__Internal_capacity, &vector);
ok(size == 4, "size of vector got %ld expected 4\n", (long)size);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &vector, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
ok(idx == 4, "idx got %ld expected 4\n", (long)idx);
vector_elem_count++;
*data = 5;
ok(vector.segment == vector.storage, "vector.segment got %p expected %p\n",
vector.segment, vector.storage);
size = (size_t)call_func1(p_vector_base_v4__Internal_capacity, &vector);
ok(size == 8, "size of vector got %ld expected 8\n", (long)size);
concurrent_vector_int_ctor(&v2);
SET_EXPECT(concurrent_vector_int_alloc);
SET_EXPECT(concurrent_vector_int_copy);
call_func4(p_vector_base_v4__Internal_copy, &v2, &vector,
sizeof(int), concurrent_vector_int_copy);
CHECK_CALLED(concurrent_vector_int_alloc);
CHECK_CALLED(concurrent_vector_int_copy);
ok(v2.first_block == 3, "v2.first_block got %ld expected 3\n",
(long)v2.first_block);
ok(v2.early_size == 5, "v2.early_size got %ld expected 5\n",
(long)v2.early_size);
ok(v2.segment == v2.storage, "v2.segment got %p expected %p\n",
v2.segment, v2.storage);
SET_EXPECT(concurrent_vector_int_destroy);
size = (size_t)call_func2(p_vector_base_v4__Internal_clear,
&v2, concurrent_vector_int_destroy);
CHECK_CALLED(concurrent_vector_int_destroy);
ok(size == 3, "_Internal_clear returned %ld expected 3\n", (long)size);
concurrent_vector_int_dtor(&v2);
concurrent_vector_int_ctor(&v2);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
CHECK_CALLED(concurrent_vector_int_alloc);
vector_elem_count += 3;
ok(idx == 2, "idx got %ld expected 2\n", (long)idx);
SET_EXPECT(concurrent_vector_int_assign);
SET_EXPECT(concurrent_vector_int_copy);
SET_EXPECT(concurrent_vector_int_alloc);
call_func6(p_vector_base_v4__Internal_assign, &v2, &vector, sizeof(int),
concurrent_vector_int_destroy, concurrent_vector_int_assign,
concurrent_vector_int_copy);
CHECK_CALLED(concurrent_vector_int_assign);
CHECK_CALLED(concurrent_vector_int_copy);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n",
(long)v2.first_block);
ok(v2.early_size == 5, "v2.early_size got %ld expected 5\n",
(long)v2.early_size);
ok(v2.segment == v2.storage, "v2.segment got %p expected %p\n",
v2.segment, v2.storage);
SET_EXPECT(concurrent_vector_int_destroy);
size = (size_t)call_func2(p_vector_base_v4__Internal_clear,
&v2, concurrent_vector_int_destroy);
CHECK_CALLED(concurrent_vector_int_destroy);
ok(size == 3, "_Internal_clear returned %ld expected 3\n", (long)size);
concurrent_vector_int_dtor(&v2);
concurrent_vector_int_ctor(&v2);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
CHECK_CALLED(concurrent_vector_int_alloc);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
CHECK_CALLED(concurrent_vector_int_alloc);
vector_elem_count += 3;
ok(idx == 2, "idx got %ld expected 2\n", (long)idx);
call_func2(p_vector_base_v4__Internal_swap,
&v2, &vector);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n",
(long)v2.first_block);
ok(v2.early_size == 5, "v2.early_size got %ld expected 5\n",
(long)v2.early_size);
ok(vector.early_size == 3, "vector.early_size got %ld expected 3\n",
(long)vector.early_size);
call_func2(p_vector_base_v4__Internal_swap,
&v2, &vector);
ok(v2.early_size == 3, "v2.early_size got %ld expected 3\n",
(long)v2.early_size);
ok(vector.early_size == 5, "vector.early_size got %ld expected 5\n",
(long)vector.early_size);
SET_EXPECT(concurrent_vector_int_destroy);
size = (size_t)call_func2(p_vector_base_v4__Internal_clear,
&v2, concurrent_vector_int_destroy);
CHECK_CALLED(concurrent_vector_int_destroy);
ok(size == 2, "_Internal_clear returned %ld expected 2\n", (long)size);
concurrent_vector_int_dtor(&v2);
/* test for _Internal_compact */
concurrent_vector_int_ctor(&v2);
for(i=0; i<2; i++) {
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
vector_elem_count += 2;
}
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 4, "v2.early_size got %ld expected 4\n", (long)v2.early_size);
ok(v2.segment == v2.storage, "v2.segment got %p expected %p\n",
v2.segment, v2.storage);
memset(&b, 0xff, sizeof(b));
SET_EXPECT(concurrent_vector_int_alloc);
SET_EXPECT(concurrent_vector_int_copy);
SET_EXPECT(concurrent_vector_int_destroy);
data = call_func5(p_vector_base_v4__Internal_compact,
&v2, sizeof(int), &b, concurrent_vector_int_destroy,
concurrent_vector_int_copy);
CHECK_CALLED(concurrent_vector_int_alloc);
CHECK_CALLED(concurrent_vector_int_copy);
CHECK_CALLED(concurrent_vector_int_destroy);
ok(v2.first_block == 2, "v2.first_block got %ld expected 2\n", (long)v2.first_block);
ok(v2.early_size == 4,"v2.early_size got %ld expected 4\n", (long)v2.early_size);
ok(b.first_block == 1, "b.first_block got %ld expected 1\n", (long)b.first_block);
ok(v2.segment == v2.storage, "v2.segment got %p expected %p\n",
v2.segment, v2.storage);
for(i=0; i<2; i++){
ok(b.blocks[i] != NULL, "b.blocks[%d] got NULL\n", i);
free(b.blocks[i]);
vector_alloc_count--;
}
for(; i<ARRAY_SIZE(b.blocks); i++)
ok(!b.blocks[i], "b.blocks[%d] != NULL\n", i);
ok(b.size_check == -1, "b.size_check = %x\n", b.size_check);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
for(i=0; i<3; i++){
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
}
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
vector_elem_count += 5;
ok(v2.first_block == 2, "v2.first_block got %ld expected 2\n", (long)v2.first_block);
ok(v2.early_size == 9, "v2.early_size got %ld expected 9\n", (long)v2.early_size);
ok(v2.segment != v2.storage, "v2.segment got %p expected %p\n", v2.segment, v2.storage);
for(i = 4;i < 32;i++)
ok(v2.segment[i] == 0, "v2.segment[%d] got %p expected 0\n",
i, v2.segment[i]);
memset(&b, 0xff, sizeof(b));
SET_EXPECT(concurrent_vector_int_alloc);
SET_EXPECT(concurrent_vector_int_copy);
SET_EXPECT(concurrent_vector_int_destroy);
data = call_func5(p_vector_base_v4__Internal_compact,
&v2, sizeof(int), &b, concurrent_vector_int_destroy,
concurrent_vector_int_copy);
CHECK_CALLED(concurrent_vector_int_alloc);
CHECK_CALLED(concurrent_vector_int_copy);
CHECK_CALLED(concurrent_vector_int_destroy);
ok(v2.first_block == 4, "v2.first_block got %ld expected 4\n", (long)v2.first_block);
ok(v2.early_size == 9, "v2.early_size got %ld expected 9\n", (long)v2.early_size);
ok(b.first_block == 2, "b.first_block got %ld expected 2\n", (long)b.first_block);
ok(v2.segment != v2.storage, "v2.segment got %p expected %p\n", v2.segment, v2.storage);
for(i = 4;i < 32;i++)
ok(v2.segment[i] == 0, "v2.segment[%d] got %p\n",
i, v2.segment[i]);
for(i=0; i<4; i++){
ok(b.blocks[i] != NULL, "b.blocks[%d] got NULL\n", i);
/* only b.blocks[0] and b.blocks[>=b.first_block] are used */
if(i == b.first_block-1) continue;
free(b.blocks[i]);
vector_alloc_count--;
}
for(; i<ARRAY_SIZE(b.blocks); i++)
ok(!b.blocks[i], "b.blocks[%d] != NULL\n", i);
SET_EXPECT(concurrent_vector_int_alloc);
call_func4(p_vector_base_v4__Internal_reserve,
&v2, 17, sizeof(int), 32);
CHECK_CALLED(concurrent_vector_int_alloc);
data = call_func5(p_vector_base_v4__Internal_compact,
&v2, sizeof(int), &b, concurrent_vector_int_destroy,
concurrent_vector_int_copy);
ok(v2.first_block == 4, "v2.first_block got %ld expected 4\n", (long)v2.first_block);
ok(v2.early_size == 9, "v2.early_size got %ld expected 9\n", (long)v2.early_size);
ok(b.first_block == 4, "b.first_block got %ld expected 2\n", (long)b.first_block);
ok(v2.segment != v2.storage, "v2.segment got %p expected %p\n", v2.segment, v2.storage);
for(i = 4; i < 32; i++)
ok(v2.segment[i] == 0, "v2.segment[%d] got %p\n",
i, v2.segment[i]);
for(i=0; i<4; i++)
ok(!b.blocks[i], "b.blocks[%d] != NULL\n", i);
for(; i < 5; i++) {
ok(b.blocks[i] != NULL, "b.blocks[%d] got NULL\n", i);
free(b.blocks[i]);
vector_alloc_count--;
}
for(; i<ARRAY_SIZE(b.blocks); i++)
ok(!b.blocks[i], "b.blocks[%d] != NULL\n", i);
SET_EXPECT(concurrent_vector_int_destroy);
size = (size_t)call_func2(p_vector_base_v4__Internal_clear,
&v2, concurrent_vector_int_destroy);
CHECK_CALLED(concurrent_vector_int_destroy);
ok(size == 4, "_Internal_clear returned %ld expected 4\n", (long)size);
concurrent_vector_int_dtor(&v2);
/* test for Internal_grow_by */
concurrent_vector_int_ctor(&v2);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
vector_elem_count += 2;
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 2, "v2.early_size got %ld expected 2\n", (long)v2.early_size);
i = 0;
SET_EXPECT(concurrent_vector_int_alloc);
SET_EXPECT(concurrent_vector_int_copy);
idx = (size_t)call_func5(p_vector_base_v4__Internal_grow_by,
&v2, 1, sizeof(int), concurrent_vector_int_copy, &i);
CHECK_CALLED(concurrent_vector_int_alloc);
CHECK_CALLED(concurrent_vector_int_copy);
ok(idx == 2, "_Internal_grow_by returned %ld expected 2\n", (long)idx);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 3, "v2.early_size got %ld expected 3\n", (long)v2.early_size);
SET_EXPECT(concurrent_vector_int_alloc);
SET_EXPECT(concurrent_vector_int_copy);
idx = (size_t)call_func5(p_vector_base_v4__Internal_grow_by,
&v2, 2, sizeof(int), concurrent_vector_int_copy, &i);
CHECK_CALLED(concurrent_vector_int_alloc);
CHECK_CALLED(concurrent_vector_int_copy);
ok(idx == 3, "_Internal_grow_by returned %ld expected 3\n", (long)idx);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 5, "v2.early_size got %ld expected 5\n", (long)v2.early_size);
SET_EXPECT(concurrent_vector_int_destroy);
size = (size_t)call_func2(p_vector_base_v4__Internal_clear,
&v2, concurrent_vector_int_destroy);
ok(size == 3, "_Internal_clear returned %ld expected 3\n", (long)size);
CHECK_CALLED(concurrent_vector_int_destroy);
concurrent_vector_int_dtor(&v2);
/* test for Internal_grow_to_at_least_with_result */
concurrent_vector_int_ctor(&v2);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
vector_elem_count += 2;
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 2, "v2.early_size got %ld expected 2\n", (long)v2.early_size);
i = 0;
SET_EXPECT(concurrent_vector_int_alloc);
SET_EXPECT(concurrent_vector_int_copy);
idx = (size_t)call_func5(p_vector_base_v4__Internal_grow_to_at_least_with_result,
&v2, 3, sizeof(int), concurrent_vector_int_copy, &i);
CHECK_CALLED(concurrent_vector_int_alloc);
CHECK_CALLED(concurrent_vector_int_copy);
ok(idx == 2, "_Internal_grow_to_at_least_with_result returned %ld expected 2\n", (long)idx);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 3, "v2.early_size got %ld expected 3\n", (long)v2.early_size);
i = 0;
SET_EXPECT(concurrent_vector_int_alloc);
SET_EXPECT(concurrent_vector_int_copy);
idx = (size_t)call_func5(p_vector_base_v4__Internal_grow_to_at_least_with_result,
&v2, 5, sizeof(int), concurrent_vector_int_copy, &i);
CHECK_CALLED(concurrent_vector_int_alloc);
CHECK_CALLED(concurrent_vector_int_copy);
ok(idx == 3, "_Internal_grow_to_at_least_with_result returned %ld expected 3\n", (long)idx);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 5, "v2.early_size got %ld expected 5\n", (long)v2.early_size);
SET_EXPECT(concurrent_vector_int_destroy);
size = (size_t)call_func2(p_vector_base_v4__Internal_clear,
&v2, concurrent_vector_int_destroy);
ok(size == 3, "_Internal_clear returned %ld expected 3\n", (long)size);
CHECK_CALLED(concurrent_vector_int_destroy);
concurrent_vector_int_dtor(&v2);
/* test for _Internal_reserve */
concurrent_vector_int_ctor(&v2);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
vector_elem_count += 2;
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 2, "v2.early_size got %ld expected 2\n", (long)v2.early_size);
SET_EXPECT(concurrent_vector_int_alloc);
call_func4(p_vector_base_v4__Internal_reserve,
&v2, 3, sizeof(int), 4);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 2, "v2.early_size got %ld expected 2\n", (long)v2.early_size);
ok(v2.segment == v2.storage, "v2.segment got %p expected %p\n",
v2.segment, v2.storage);
size = (size_t)call_func1(p_vector_base_v4__Internal_capacity, &v2);
ok(size == 4, "size of vector got %ld expected 4\n", (long)size);
SET_EXPECT(concurrent_vector_int_alloc);
call_func4(p_vector_base_v4__Internal_reserve,
&v2, 5, sizeof(int), 8);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 2, "v2.early_size got %ld expected 2\n", (long)v2.early_size);
ok(v2.segment == v2.storage, "v2.segment got %p expected %p\n",
v2.segment, v2.storage);
size = (size_t)call_func1(p_vector_base_v4__Internal_capacity, &v2);
ok(size == 8, "size of vector got %ld expected 8\n", (long)size);
SET_EXPECT(concurrent_vector_int_alloc);
call_func4(p_vector_base_v4__Internal_reserve,
&v2, 9, sizeof(int), 16);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 2, "v2.early_size got %ld expected 2\n", (long)v2.early_size);
ok(v2.segment != v2.storage, "v2.segment got %p expected %p\n", v2.segment, v2.storage);
for(i = 4;i < 32;i++)
ok(v2.segment[i] == 0, "v2.segment[%d] got %p\n",
i, v2.segment[i]);
size = (size_t)call_func1(p_vector_base_v4__Internal_capacity, &v2);
ok(size == 16, "size of vector got %ld expected 8\n", (long)size);
SET_EXPECT(concurrent_vector_int_destroy);
size = (size_t)call_func2(p_vector_base_v4__Internal_clear,
&v2, concurrent_vector_int_destroy);
ok(size == 4, "_Internal_clear returned %ld expected 4\n", (long)size);
CHECK_CALLED(concurrent_vector_int_destroy);
concurrent_vector_int_dtor(&v2);
/* test for _Internal_resize */
concurrent_vector_int_ctor(&v2);
SET_EXPECT(concurrent_vector_int_alloc);
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
CHECK_CALLED(concurrent_vector_int_alloc);
ok(data != NULL, "_Internal_push_back returned NULL\n");
data = call_func3(p_vector_base_v4__Internal_push_back, &v2, sizeof(int), &idx);
ok(data != NULL, "_Internal_push_back returned NULL\n");
vector_elem_count += 2;
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 2, "v2.early_size got %ld expected 2\n", (long)v2.early_size);
i = 0;
SET_EXPECT(concurrent_vector_int_destroy);
call_func7(p_vector_base_v4__Internal_resize,
&v2, 1, sizeof(int), 4, concurrent_vector_int_destroy, concurrent_vector_int_copy, &i);
CHECK_CALLED(concurrent_vector_int_destroy);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 1, "v2.early_size got %ld expected 1\n", (long)v2.early_size);
SET_EXPECT(concurrent_vector_int_alloc);
SET_EXPECT(concurrent_vector_int_copy);
call_func7(p_vector_base_v4__Internal_resize,
&v2, 3, sizeof(int), 4, concurrent_vector_int_destroy, concurrent_vector_int_copy, &i);
CHECK_CALLED(concurrent_vector_int_alloc);
CHECK_CALLED(concurrent_vector_int_copy);
ok(v2.first_block == 1, "v2.first_block got %ld expected 1\n", (long)v2.first_block);
ok(v2.early_size == 3, "v2.early_size got %ld expected 3\n", (long)v2.early_size);
SET_EXPECT(concurrent_vector_int_destroy);
size = (size_t)call_func2(p_vector_base_v4__Internal_clear,
&v2, concurrent_vector_int_destroy);
ok(size == 2, "_Internal_clear returned %ld expected 2\n", (long)size);
CHECK_CALLED(concurrent_vector_int_destroy);
concurrent_vector_int_dtor(&v2);
SET_EXPECT(concurrent_vector_int_destroy);
size = (size_t)call_func2(p_vector_base_v4__Internal_clear,
&vector, concurrent_vector_int_destroy);
CHECK_CALLED(concurrent_vector_int_destroy);
ok(size == 3, "_Internal_clear returned %ld\n", (long)size);
ok(vector.first_block == 1, "vector.first_block got %ld expected 1\n",
(long)vector.first_block);
ok(vector.early_size == 0, "vector.early_size got %ld expected 0\n",
(long)vector.early_size);
concurrent_vector_int_dtor(&vector);
ok(!vector_elem_count, "vector_elem_count = %d, expected 0\n", vector_elem_count);
ok(!vector_alloc_count, "vector_alloc_count = %d, expected 0\n", vector_alloc_count);
}
START_TEST(msvcp120)
{
if(!init()) return;
expect_idx = TlsAlloc();
ok(expect_idx != TLS_OUT_OF_INDEXES, "TlsAlloc failed\n");
alloc_expect_struct();
test__Xtime_diff_to_millis2();
test_xtime_get();
test__Getcvt();
test__Call_once();
test__Do_call();
test__Dtest();
test__Dscale();
test__FExp();
test_tr2_sys__File_size();
test_tr2_sys__Equivalent();
test_tr2_sys__Current_get();
test_tr2_sys__Current_set();
test_tr2_sys__Make_dir();
test_tr2_sys__Remove_dir();
test_tr2_sys__Copy_file();
test_tr2_sys__Rename();
test_tr2_sys__Statvfs();
test_tr2_sys__Stat();
test_tr2_sys__Last_write_time();
test_tr2_sys__dir_operation();
test_tr2_sys__Link();
test_tr2_sys__Symlink();
test_tr2_sys__Unlink();
test_thrd();
test_cnd();
test__Pad();
test_threads__Mtx();
test_vector_base_v4__Segment_index_of();
test_queue_base_v4();
test_vector_base_v4();
test_vbtable_size_exports();
free_expect_struct();
TlsFree(expect_idx);
FreeLibrary(msvcp);
}