Sweden-Number/dlls/msvcp90/misc.c

2883 lines
91 KiB
C

/*
* Copyright 2010 Piotr Caban for CodeWeavers
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "config.h"
#include <stdarg.h>
#include <limits.h>
#include <errno.h>
#include "msvcp90.h"
#include "windef.h"
#include "winbase.h"
#include "winternl.h"
#include "wine/debug.h"
#include "wine/exception.h"
WINE_DEFAULT_DEBUG_CHANNEL(msvcp);
#if _MSVCP_VER >= 110
/* error strings generated with glibc strerror */
static const char str_EPERM[] = "operation not permitted";
static const char str_ENOENT[] = "no such file or directory";
static const char str_ESRCH[] = "no such process";
static const char str_EINTR[] = "interrupted system call";
static const char str_EIO[] = "input/output error";
static const char str_ENXIO[] = "no such device or address";
static const char str_E2BIG[] = "argument list too long";
static const char str_ENOEXEC[] = "exec format error";
static const char str_EBADF[] = "bad file descriptor";
static const char str_ECHILD[] = "no child processes";
static const char str_EAGAIN[] = "resource temporarily unavailable";
static const char str_ENOMEM[] = "cannot allocate memory";
static const char str_EACCES[] = "permission denied";
static const char str_EFAULT[] = "bad address";
static const char str_EBUSY[] = "device or resource busy";
static const char str_EEXIST[] = "file exists";
static const char str_EXDEV[] = "invalid cross-device link";
static const char str_ENODEV[] = "no such device";
static const char str_ENOTDIR[] = "not a directory";
static const char str_EISDIR[] = "is a directory";
static const char str_EINVAL[] = "invalid argument";
static const char str_ENFILE[] = "too many open files in system";
static const char str_EMFILE[] = "too many open files";
static const char str_ENOTTY[] = "inappropriate ioctl for device";
static const char str_EFBIG[] = "file too large";
static const char str_ENOSPC[] = "no space left on device";
static const char str_ESPIPE[] = "illegal seek";
static const char str_EROFS[] = "read-only file system";
static const char str_EMLINK[] = "too many links";
static const char str_EPIPE[] = "broken pipe";
static const char str_EDOM[] = "numerical argument out of domain";
static const char str_ERANGE[] = "numerical result out of range";
static const char str_EDEADLK[] = "resource deadlock avoided";
static const char str_ENAMETOOLONG[] = "file name too long";
static const char str_ENOLCK[] = "no locks available";
static const char str_ENOSYS[] = "function not implemented";
static const char str_ENOTEMPTY[] = "directory not empty";
static const char str_EILSEQ[] = "invalid or incomplete multibyte or wide character";
static const char str_EADDRINUSE[] = "address already in use";
static const char str_EADDRNOTAVAIL[] = "cannot assign requested address";
static const char str_EAFNOSUPPORT[] = "address family not supported by protocol";
static const char str_EALREADY[] = "operation already in progress";
static const char str_EBADMSG[] = "not a data message";
static const char str_ECANCELED[] = "operation Canceled";
static const char str_ECONNABORTED[] = "software caused connection abort";
static const char str_ECONNREFUSED[] = "connection refused";
static const char str_ECONNRESET[] = "connection reset by peer";
static const char str_EDESTADDRREQ[] = "destination address required";
static const char str_EHOSTUNREACH[] = "no route to host";
static const char str_EIDRM[] = "identifier removed";
static const char str_EINPROGRESS[] = "operation now in progress";
static const char str_EISCONN[] = "transport endpoint is already connected";
static const char str_ELOOP[] = "too many symbolic links encountered";
static const char str_EMSGSIZE[] = "message too long";
static const char str_ENETDOWN[] = "network is down";
static const char str_ENETRESET[] = "network dropped connection because of reset";
static const char str_ENETUNREACH[] = "network is unreachable";
static const char str_ENOBUFS[] = "no buffer space available";
static const char str_ENODATA[] = "no data available";
static const char str_ENOLINK[] = "link has been severed";
static const char str_ENOMSG[] = "no message of desired type";
static const char str_ENOPROTOOPT[] = "protocol not available";
static const char str_ENOSR[] = "out of streams resources";
static const char str_ENOSTR[] = "device not a stream";
static const char str_ENOTCONN[] = "transport endpoint is not connected";
static const char str_ENOTRECOVERABLE[] = "state not recoverable";
static const char str_ENOTSOCK[] = "socket operation on non-socket";
static const char str_ENOTSUP[] = "not supported";
static const char str_EOPNOTSUPP[] = "operation not supported on transport endpoint";
static const char str_EOVERFLOW[] = "value too large for defined data type";
static const char str_EOWNERDEAD[] = "owner died";
static const char str_EPROTO[] = "protocol error";
static const char str_EPROTONOSUPPORT[] = "protocol not supported";
static const char str_EPROTOTYPE[] = "protocol wrong type for socket";
static const char str_ETIME[] = "timer expired";
static const char str_ETIMEDOUT[] = "connection timed out";
static const char str_ETXTBSY[] = "text file busy";
static const char str_EWOULDBLOCK[] = "operation would block";
static const struct {
int err;
const char *str;
} syserror_map[] =
{
{EPERM, str_EPERM},
{ENOENT, str_ENOENT},
{ESRCH, str_ESRCH},
{EINTR, str_EINTR},
{EIO, str_EIO},
{ENXIO, str_ENXIO},
{E2BIG, str_E2BIG},
{ENOEXEC, str_ENOEXEC},
{EBADF, str_EBADF},
{ECHILD, str_ECHILD},
{EAGAIN, str_EAGAIN},
{ENOMEM, str_ENOMEM},
{EACCES, str_EACCES},
{EFAULT, str_EFAULT},
{EBUSY, str_EBUSY},
{EEXIST, str_EEXIST},
{EXDEV, str_EXDEV},
{ENODEV, str_ENODEV},
{ENOTDIR, str_ENOTDIR},
{EISDIR, str_EISDIR},
{EINVAL, str_EINVAL},
{ENFILE, str_ENFILE},
{EMFILE, str_EMFILE},
{ENOTTY, str_ENOTTY},
{EFBIG, str_EFBIG},
{ENOSPC, str_ENOSPC},
{ESPIPE, str_ESPIPE},
{EROFS, str_EROFS},
{EMLINK, str_EMLINK},
{EPIPE, str_EPIPE},
{EDOM, str_EDOM},
{ERANGE, str_ERANGE},
{EDEADLK, str_EDEADLK},
{ENAMETOOLONG, str_ENAMETOOLONG},
{ENOLCK, str_ENOLCK},
{ENOSYS, str_ENOSYS},
{ENOTEMPTY, str_ENOTEMPTY},
{EILSEQ, str_EILSEQ},
{EADDRINUSE, str_EADDRINUSE},
{EADDRNOTAVAIL, str_EADDRNOTAVAIL},
{EAFNOSUPPORT, str_EAFNOSUPPORT},
{EALREADY, str_EALREADY},
{EBADMSG, str_EBADMSG},
{ECANCELED, str_ECANCELED},
{ECONNABORTED, str_ECONNABORTED},
{ECONNREFUSED, str_ECONNREFUSED},
{ECONNRESET, str_ECONNRESET},
{EDESTADDRREQ, str_EDESTADDRREQ},
{EHOSTUNREACH, str_EHOSTUNREACH},
{EIDRM, str_EIDRM},
{EINPROGRESS, str_EINPROGRESS},
{EISCONN, str_EISCONN},
{ELOOP, str_ELOOP},
{EMSGSIZE, str_EMSGSIZE},
{ENETDOWN, str_ENETDOWN},
{ENETRESET, str_ENETRESET},
{ENETUNREACH, str_ENETUNREACH},
{ENOBUFS, str_ENOBUFS},
{ENODATA, str_ENODATA},
{ENOLINK, str_ENOLINK},
{ENOMSG, str_ENOMSG},
{ENOPROTOOPT, str_ENOPROTOOPT},
{ENOSR, str_ENOSR},
{ENOSTR, str_ENOSTR},
{ENOTCONN, str_ENOTCONN},
{ENOTRECOVERABLE, str_ENOTRECOVERABLE},
{ENOTSOCK, str_ENOTSOCK},
{ENOTSUP, str_ENOTSUP},
{EOPNOTSUPP, str_EOPNOTSUPP},
{EOVERFLOW, str_EOVERFLOW},
{EOWNERDEAD, str_EOWNERDEAD},
{EPROTO, str_EPROTO},
{EPROTONOSUPPORT, str_EPROTONOSUPPORT},
{EPROTOTYPE, str_EPROTOTYPE},
{ETIME, str_ETIME},
{ETIMEDOUT, str_ETIMEDOUT},
{ETXTBSY, str_ETXTBSY},
{EWOULDBLOCK, str_EWOULDBLOCK},
};
#endif
#if _MSVCP_VER >= 140
static const struct {
int winerr;
int doserr;
} winerror_map[] =
{
{ERROR_INVALID_FUNCTION, ENOSYS}, {ERROR_FILE_NOT_FOUND, ENOENT},
{ERROR_PATH_NOT_FOUND, ENOENT}, {ERROR_TOO_MANY_OPEN_FILES, EMFILE},
{ERROR_ACCESS_DENIED, EACCES}, {ERROR_INVALID_HANDLE, EINVAL},
{ERROR_NOT_ENOUGH_MEMORY, ENOMEM}, {ERROR_INVALID_ACCESS, EACCES},
{ERROR_OUTOFMEMORY, ENOMEM}, {ERROR_INVALID_DRIVE, ENODEV},
{ERROR_CURRENT_DIRECTORY, EACCES}, {ERROR_NOT_SAME_DEVICE, EXDEV},
{ERROR_WRITE_PROTECT, EACCES}, {ERROR_BAD_UNIT, ENODEV},
{ERROR_NOT_READY, EAGAIN}, {ERROR_SEEK, EIO}, {ERROR_WRITE_FAULT, EIO},
{ERROR_READ_FAULT, EIO}, {ERROR_SHARING_VIOLATION, EACCES},
{ERROR_LOCK_VIOLATION, ENOLCK}, {ERROR_HANDLE_DISK_FULL, ENOSPC},
{ERROR_NOT_SUPPORTED, ENOTSUP}, {ERROR_DEV_NOT_EXIST, ENODEV},
{ERROR_FILE_EXISTS, EEXIST}, {ERROR_CANNOT_MAKE, EACCES},
{ERROR_INVALID_PARAMETER, EINVAL}, {ERROR_OPEN_FAILED, EIO},
{ERROR_BUFFER_OVERFLOW, ENAMETOOLONG}, {ERROR_DISK_FULL, ENOSPC},
{ERROR_INVALID_NAME, EINVAL}, {ERROR_NEGATIVE_SEEK, EINVAL},
{ERROR_BUSY_DRIVE, EBUSY}, {ERROR_DIR_NOT_EMPTY, ENOTEMPTY},
{ERROR_BUSY, EBUSY}, {ERROR_ALREADY_EXISTS, EEXIST},
{ERROR_LOCKED, ENOLCK}, {ERROR_DIRECTORY, EINVAL},
{ERROR_OPERATION_ABORTED, ECANCELED}, {ERROR_NOACCESS, EACCES},
{ERROR_CANTOPEN, EIO}, {ERROR_CANTREAD, EIO}, {ERROR_CANTWRITE, EIO},
{ERROR_RETRY, EAGAIN}, {ERROR_OPEN_FILES, EBUSY},
{ERROR_DEVICE_IN_USE, EBUSY}, {ERROR_REPARSE_TAG_INVALID, EINVAL},
{WSAEINTR, EINTR}, {WSAEBADF, EBADF}, {WSAEACCES, EACCES},
{WSAEFAULT, EFAULT}, {WSAEINVAL, EINVAL}, {WSAEMFILE, EMFILE},
{WSAEWOULDBLOCK, EWOULDBLOCK}, {WSAEINPROGRESS, EINPROGRESS},
{WSAEALREADY, EALREADY}, {WSAENOTSOCK, ENOTSOCK},
{WSAEDESTADDRREQ, EDESTADDRREQ}, {WSAEMSGSIZE, EMSGSIZE},
{WSAEPROTOTYPE, EPROTOTYPE}, {WSAENOPROTOOPT, ENOPROTOOPT},
{WSAEPROTONOSUPPORT, EPROTONOSUPPORT}, {WSAEOPNOTSUPP, EOPNOTSUPP},
{WSAEAFNOSUPPORT, EAFNOSUPPORT}, {WSAEADDRINUSE, EADDRINUSE},
{WSAEADDRNOTAVAIL, EADDRNOTAVAIL}, {WSAENETDOWN, ENETDOWN},
{WSAENETUNREACH, ENETUNREACH}, {WSAENETRESET, ENETRESET},
{WSAECONNABORTED, ECONNABORTED}, {WSAECONNRESET, ECONNRESET},
{WSAENOBUFS, ENOBUFS}, {WSAEISCONN, EISCONN}, {WSAENOTCONN, ENOTCONN},
{WSAETIMEDOUT, ETIMEDOUT}, {WSAECONNREFUSED, ECONNREFUSED},
{WSAENAMETOOLONG, ENAMETOOLONG}, {WSAEHOSTUNREACH, EHOSTUNREACH}
};
#endif
struct __Container_proxy;
typedef struct {
struct __Container_proxy *proxy;
} _Container_base12;
typedef struct __Iterator_base12 {
struct __Container_proxy *proxy;
struct __Iterator_base12 *next;
} _Iterator_base12;
typedef struct __Container_proxy {
const _Container_base12 *cont;
_Iterator_base12 *head;
} _Container_proxy;
/* ??0_Mutex@std@@QAE@XZ */
/* ??0_Mutex@std@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(mutex_ctor, 4)
mutex* __thiscall mutex_ctor(mutex *this)
{
CRITICAL_SECTION *cs = MSVCRT_operator_new(sizeof(*cs));
if(!cs) {
ERR("Out of memory\n");
throw_exception(EXCEPTION_BAD_ALLOC, NULL);
}
InitializeCriticalSection(cs);
cs->DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": _Mutex critical section");
this->mutex = cs;
return this;
}
/* ??1_Mutex@std@@QAE@XZ */
/* ??1_Mutex@std@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(mutex_dtor, 4)
void __thiscall mutex_dtor(mutex *this)
{
((CRITICAL_SECTION*)this->mutex)->DebugInfo->Spare[0] = 0;
DeleteCriticalSection(this->mutex);
MSVCRT_operator_delete(this->mutex);
}
/* ?_Lock@_Mutex@std@@QAEXXZ */
/* ?_Lock@_Mutex@std@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(mutex_lock, 4)
void __thiscall mutex_lock(mutex *this)
{
EnterCriticalSection(this->mutex);
}
/* ?_Unlock@_Mutex@std@@QAEXXZ */
/* ?_Unlock@_Mutex@std@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(mutex_unlock, 4)
void __thiscall mutex_unlock(mutex *this)
{
LeaveCriticalSection(this->mutex);
}
/* ?_Mutex_Lock@_Mutex@std@@CAXPAV12@@Z */
/* ?_Mutex_Lock@_Mutex@std@@CAXPEAV12@@Z */
void CDECL mutex_mutex_lock(mutex *m)
{
mutex_lock(m);
}
/* ?_Mutex_Unlock@_Mutex@std@@CAXPAV12@@Z */
/* ?_Mutex_Unlock@_Mutex@std@@CAXPEAV12@@Z */
void CDECL mutex_mutex_unlock(mutex *m)
{
mutex_unlock(m);
}
/* ?_Mutex_ctor@_Mutex@std@@CAXPAV12@@Z */
/* ?_Mutex_ctor@_Mutex@std@@CAXPEAV12@@Z */
void CDECL mutex_mutex_ctor(mutex *m)
{
mutex_ctor(m);
}
/* ?_Mutex_dtor@_Mutex@std@@CAXPAV12@@Z */
/* ?_Mutex_dtor@_Mutex@std@@CAXPEAV12@@Z */
void CDECL mutex_mutex_dtor(mutex *m)
{
mutex_dtor(m);
}
static CRITICAL_SECTION lockit_cs[_MAX_LOCK];
#if _MSVCP_VER >= 70
static inline int get_locktype( _Lockit *lockit ) { return lockit->locktype; }
static inline void set_locktype( _Lockit *lockit, int type ) { lockit->locktype = type; }
#else
static inline int get_locktype( _Lockit *lockit ) { return 0; }
static inline void set_locktype( _Lockit *lockit, int type ) { }
#endif
/* ?_Lockit_ctor@_Lockit@std@@SAXH@Z */
void __cdecl _Lockit_init(int locktype) {
InitializeCriticalSection(&lockit_cs[locktype]);
lockit_cs[locktype].DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": _Lockit critical section");
}
/* ?_Lockit_dtor@_Lockit@std@@SAXH@Z */
void __cdecl _Lockit_free(int locktype)
{
lockit_cs[locktype].DebugInfo->Spare[0] = 0;
DeleteCriticalSection(&lockit_cs[locktype]);
}
void init_lockit(void) {
int i;
for(i=0; i<_MAX_LOCK; i++)
_Lockit_init(i);
}
void free_lockit(void) {
int i;
for(i=0; i<_MAX_LOCK; i++)
_Lockit_free(i);
}
/* ?_Lockit_ctor@_Lockit@std@@CAXPAV12@H@Z */
/* ?_Lockit_ctor@_Lockit@std@@CAXPEAV12@H@Z */
void __cdecl _Lockit__Lockit_ctor_locktype(_Lockit *lockit, int locktype)
{
set_locktype( lockit, locktype );
EnterCriticalSection(&lockit_cs[locktype]);
}
/* ?_Lockit_ctor@_Lockit@std@@CAXPAV12@@Z */
/* ?_Lockit_ctor@_Lockit@std@@CAXPEAV12@@Z */
void __cdecl _Lockit__Lockit_ctor(_Lockit *lockit)
{
_Lockit__Lockit_ctor_locktype(lockit, 0);
}
/* ??0_Lockit@std@@QAE@H@Z */
/* ??0_Lockit@std@@QEAA@H@Z */
DEFINE_THISCALL_WRAPPER(_Lockit_ctor_locktype, 8)
_Lockit* __thiscall _Lockit_ctor_locktype(_Lockit *this, int locktype)
{
_Lockit__Lockit_ctor_locktype(this, locktype);
return this;
}
/* ??0_Lockit@std@@QAE@XZ */
/* ??0_Lockit@std@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Lockit_ctor, 4)
_Lockit* __thiscall _Lockit_ctor(_Lockit *this)
{
_Lockit__Lockit_ctor_locktype(this, 0);
return this;
}
/* ?_Lockit_dtor@_Lockit@std@@CAXPAV12@@Z */
/* ?_Lockit_dtor@_Lockit@std@@CAXPEAV12@@Z */
void __cdecl _Lockit__Lockit_dtor(_Lockit *lockit)
{
LeaveCriticalSection(&lockit_cs[get_locktype( lockit )]);
}
/* ??1_Lockit@std@@QAE@XZ */
/* ??1_Lockit@std@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Lockit_dtor, 4)
void __thiscall _Lockit_dtor(_Lockit *this)
{
_Lockit__Lockit_dtor(this);
}
/* wctype */
unsigned short __cdecl wctype(const char *property)
{
static const struct {
const char *name;
unsigned short mask;
} properties[] = {
{ "alnum", _DIGIT|_ALPHA },
{ "alpha", _ALPHA },
{ "cntrl", _CONTROL },
{ "digit", _DIGIT },
{ "graph", _DIGIT|_PUNCT|_ALPHA },
{ "lower", _LOWER },
{ "print", _DIGIT|_PUNCT|_BLANK|_ALPHA },
{ "punct", _PUNCT },
{ "space", _SPACE },
{ "upper", _UPPER },
{ "xdigit", _HEX }
};
unsigned int i;
for(i = 0; i < ARRAY_SIZE(properties); i++)
if(!strcmp(property, properties[i].name))
return properties[i].mask;
return 0;
}
typedef void (__cdecl *MSVCP_new_handler_func)(void);
static MSVCP_new_handler_func MSVCP_new_handler;
static int __cdecl new_handler_wrapper(MSVCP_size_t unused)
{
MSVCP_new_handler();
return 1;
}
/* ?set_new_handler@std@@YAP6AXXZP6AXXZ@Z */
MSVCP_new_handler_func __cdecl set_new_handler(MSVCP_new_handler_func new_handler)
{
MSVCP_new_handler_func old_handler = MSVCP_new_handler;
TRACE("%p\n", new_handler);
MSVCP_new_handler = new_handler;
MSVCRT_set_new_handler(new_handler ? new_handler_wrapper : NULL);
return old_handler;
}
/* ?set_new_handler@std@@YAP6AXXZH@Z */
MSVCP_new_handler_func __cdecl set_new_handler_reset(int unused)
{
return set_new_handler(NULL);
}
/* _Container_base0 is used by apps compiled without iterator checking
* (i.e. with _ITERATOR_DEBUG_LEVEL=0 ).
* It provides empty versions of methods used by visual c++'s stl's
* iterator checking.
* msvcr100 has to provide them in case apps are compiled with /Od
* or the optimizer fails to inline those (empty) calls.
*/
/* ?_Orphan_all@_Container_base0@std@@QAEXXZ */
/* ?_Orphan_all@_Container_base0@std@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(Container_base0_Orphan_all, 4)
void __thiscall Container_base0_Orphan_all(void *this)
{
}
/* ?_Swap_all@_Container_base0@std@@QAEXAAU12@@Z */
/* ?_Swap_all@_Container_base0@std@@QEAAXAEAU12@@Z */
DEFINE_THISCALL_WRAPPER(Container_base0_Swap_all, 8)
void __thiscall Container_base0_Swap_all(void *this, void *that)
{
}
/* ??4_Container_base0@std@@QAEAAU01@ABU01@@Z */
/* ??4_Container_base0@std@@QEAAAEAU01@AEBU01@@Z */
DEFINE_THISCALL_WRAPPER(Container_base0_op_assign, 8)
void* __thiscall Container_base0_op_assign(void *this, const void *that)
{
return this;
}
/* ??0_Container_base12@std@@QAE@ABU01@@Z */
/* ??0_Container_base12@std@@QEAA@AEBU01@@Z */
DEFINE_THISCALL_WRAPPER(_Container_base12_copy_ctor, 8)
_Container_base12* __thiscall _Container_base12_copy_ctor(
_Container_base12 *this, _Container_base12 *that)
{
this->proxy = NULL;
return this;
}
/* ??0_Container_base12@std@@QAE@XZ */
/* ??0_Container_base12@std@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Container_base12_ctor, 4)
_Container_base12* __thiscall _Container_base12_ctor(_Container_base12 *this)
{
this->proxy = NULL;
return this;
}
/* ??1_Container_base12@std@@QAE@XZ */
/* ??1_Container_base12@std@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Container_base12_dtor, 4)
void __thiscall _Container_base12_dtor(_Container_base12 *this)
{
}
/* ??4_Container_base12@std@@QAEAAU01@ABU01@@Z */
/* ??4_Container_base12@std@@QEAAAEAU01@AEBU01@@ */
DEFINE_THISCALL_WRAPPER(_Container_base12_op_assign, 8)
_Container_base12* __thiscall _Container_base12_op_assign(
_Container_base12 *this, const _Container_base12 *that)
{
return this;
}
/* ?_Getpfirst@_Container_base12@std@@QBEPAPAU_Iterator_base12@2@XZ */
/* ?_Getpfirst@_Container_base12@std@@QEBAPEAPEAU_Iterator_base12@2@XZ */
DEFINE_THISCALL_WRAPPER(_Container_base12__Getpfirst, 4)
_Iterator_base12** __thiscall _Container_base12__Getpfirst(_Container_base12 *this)
{
return this->proxy ? &this->proxy->head : NULL;
}
/* ?_Orphan_all@_Container_base12@std@@QAEXXZ */
/* ?_Orphan_all@_Container_base12@std@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_Container_base12__Orphan_all, 4)
void __thiscall _Container_base12__Orphan_all(_Container_base12 *this)
{
}
/* ?_Swap_all@_Container_base12@std@@QAEXAAU12@@Z */
/* ?_Swap_all@_Container_base12@std@@QEAAXAEAU12@@Z */
DEFINE_THISCALL_WRAPPER(_Container_base12__Swap_all, 8)
void __thiscall _Container_base12__Swap_all(
_Container_base12 *this, _Container_base12 *that)
{
_Container_proxy *tmp;
tmp = this->proxy;
this->proxy = that->proxy;
that->proxy = tmp;
if(this->proxy)
this->proxy->cont = this;
if(that->proxy)
that->proxy->cont = that;
}
#if _MSVCP_VER >= 110
#define SECSPERDAY 86400
/* 1601 to 1970 is 369 years plus 89 leap days */
#define SECS_1601_TO_1970 ((369 * 365 + 89) * (ULONGLONG)SECSPERDAY)
#define TICKSPERSEC 10000000
#define TICKS_1601_TO_1970 (SECS_1601_TO_1970 * TICKSPERSEC)
#define NANOSEC_PER_MILLISEC 1000000
#define MILLISEC_PER_SEC 1000
#define NANOSEC_PER_SEC (NANOSEC_PER_MILLISEC * MILLISEC_PER_SEC)
typedef int MSVCRT_long;
/* xtime */
typedef struct {
__time64_t sec;
MSVCRT_long nsec;
} xtime;
/* _Xtime_get_ticks */
LONGLONG __cdecl _Xtime_get_ticks(void)
{
FILETIME ft;
TRACE("\n");
GetSystemTimeAsFileTime(&ft);
return ((LONGLONG)ft.dwHighDateTime<<32) + ft.dwLowDateTime - TICKS_1601_TO_1970;
}
/* _xtime_get */
int __cdecl xtime_get(xtime* t, int unknown)
{
LONGLONG ticks;
TRACE("(%p)\n", t);
if(unknown != 1)
return 0;
ticks = _Xtime_get_ticks();
t->sec = ticks / TICKSPERSEC;
t->nsec = ticks % TICKSPERSEC * 100;
return 1;
}
/* _Xtime_diff_to_millis2 */
MSVCRT_long __cdecl _Xtime_diff_to_millis2(const xtime *t1, const xtime *t2)
{
LONGLONG diff_sec, diff_nsec;
TRACE("(%p, %p)\n", t1, t2);
diff_sec = t1->sec - t2->sec;
diff_nsec = t1->nsec - t2->nsec;
diff_sec += diff_nsec / NANOSEC_PER_SEC;
diff_nsec %= NANOSEC_PER_SEC;
if (diff_nsec < 0) {
diff_sec -= 1;
diff_nsec += NANOSEC_PER_SEC;
}
if (diff_sec<0 || (diff_sec==0 && diff_nsec<0))
return 0;
return diff_sec * MILLISEC_PER_SEC +
(diff_nsec + NANOSEC_PER_MILLISEC - 1) / NANOSEC_PER_MILLISEC;
}
/* _Xtime_diff_to_millis */
MSVCRT_long __cdecl _Xtime_diff_to_millis(const xtime *t)
{
xtime now;
TRACE("%p\n", t);
xtime_get(&now, 1);
return _Xtime_diff_to_millis2(t, &now);
}
#endif
#if _MSVCP_VER >= 90
unsigned int __cdecl _Random_device(void)
{
unsigned int ret;
TRACE("\n");
/* TODO: throw correct exception in case of failure */
if(rand_s(&ret))
throw_exception(EXCEPTION, "random number generator failed\n");
return ret;
}
#endif
#if _MSVCP_VER >= 110
#if defined(__i386__)
extern void *call_thiscall_func;
__ASM_GLOBAL_FUNC(call_thiscall_func,
"popl %eax\n\t"
"popl %edx\n\t"
"popl %ecx\n\t"
"pushl %eax\n\t"
"jmp *%edx\n\t")
#define call_func1(func,this) ((void* (WINAPI*)(void*,void*))&call_thiscall_func)(func,this)
#else /* __i386__ */
#define call_func1(func,this) func(this)
#endif /* __i386__ */
#define MTX_PLAIN 0x1
#define MTX_TRY 0x2
#define MTX_TIMED 0x4
#define MTX_RECURSIVE 0x100
#define MTX_LOCKED 3
typedef struct
{
DWORD flags;
critical_section cs;
DWORD thread_id;
DWORD count;
} *_Mtx_t;
#if _MSVCP_VER >= 140
typedef _Mtx_t _Mtx_arg_t;
#define MTX_T_FROM_ARG(m) (m)
#define MTX_T_TO_ARG(m) (m)
#else
typedef _Mtx_t *_Mtx_arg_t;
#define MTX_T_FROM_ARG(m) (*(m))
#define MTX_T_TO_ARG(m) (&(m))
#endif
void __cdecl _Mtx_init_in_situ(_Mtx_t mtx, int flags)
{
if(flags & ~(MTX_PLAIN | MTX_TRY | MTX_TIMED | MTX_RECURSIVE))
FIXME("unknown flags ignored: %x\n", flags);
mtx->flags = flags;
call_func1(critical_section_ctor, &mtx->cs);
mtx->thread_id = -1;
mtx->count = 0;
}
int __cdecl _Mtx_init(_Mtx_t *mtx, int flags)
{
*mtx = MSVCRT_operator_new(sizeof(**mtx));
_Mtx_init_in_situ(*mtx, flags);
return 0;
}
void __cdecl _Mtx_destroy_in_situ(_Mtx_t mtx)
{
call_func1(critical_section_dtor, &mtx->cs);
}
void __cdecl _Mtx_destroy(_Mtx_arg_t mtx)
{
call_func1(critical_section_dtor, &MTX_T_FROM_ARG(mtx)->cs);
MSVCRT_operator_delete(MTX_T_FROM_ARG(mtx));
}
int __cdecl _Mtx_current_owns(_Mtx_arg_t mtx)
{
return MTX_T_FROM_ARG(mtx)->thread_id == GetCurrentThreadId();
}
int __cdecl _Mtx_lock(_Mtx_arg_t mtx)
{
if(MTX_T_FROM_ARG(mtx)->thread_id != GetCurrentThreadId()) {
call_func1(critical_section_lock, &MTX_T_FROM_ARG(mtx)->cs);
MTX_T_FROM_ARG(mtx)->thread_id = GetCurrentThreadId();
}else if(!(MTX_T_FROM_ARG(mtx)->flags & MTX_RECURSIVE)
&& MTX_T_FROM_ARG(mtx)->flags != MTX_PLAIN) {
return MTX_LOCKED;
}
MTX_T_FROM_ARG(mtx)->count++;
return 0;
}
int __cdecl _Mtx_unlock(_Mtx_arg_t mtx)
{
if(--MTX_T_FROM_ARG(mtx)->count)
return 0;
MTX_T_FROM_ARG(mtx)->thread_id = -1;
call_func1(critical_section_unlock, &MTX_T_FROM_ARG(mtx)->cs);
return 0;
}
int __cdecl _Mtx_trylock(_Mtx_arg_t mtx)
{
if(MTX_T_FROM_ARG(mtx)->thread_id != GetCurrentThreadId()) {
if(!call_func1(critical_section_trylock, &MTX_T_FROM_ARG(mtx)->cs))
return MTX_LOCKED;
MTX_T_FROM_ARG(mtx)->thread_id = GetCurrentThreadId();
}else if(!(MTX_T_FROM_ARG(mtx)->flags & MTX_RECURSIVE)
&& MTX_T_FROM_ARG(mtx)->flags != MTX_PLAIN) {
return MTX_LOCKED;
}
MTX_T_FROM_ARG(mtx)->count++;
return 0;
}
critical_section* __cdecl _Mtx_getconcrtcs(_Mtx_arg_t mtx)
{
return &MTX_T_FROM_ARG(mtx)->cs;
}
static inline LONG interlocked_dec_if_nonzero( LONG *dest )
{
LONG val, tmp;
for (val = *dest;; val = tmp)
{
if (!val || (tmp = InterlockedCompareExchange( dest, val - 1, val )) == val)
break;
}
return val;
}
#define CND_TIMEDOUT 2
typedef struct
{
CONDITION_VARIABLE cv;
} *_Cnd_t;
#if _MSVCP_VER >= 140
typedef _Cnd_t _Cnd_arg_t;
#define CND_T_FROM_ARG(c) (c)
#define CND_T_TO_ARG(c) (c)
#else
typedef _Cnd_t *_Cnd_arg_t;
#define CND_T_FROM_ARG(c) (*(c))
#define CND_T_TO_ARG(c) (&(c))
#endif
static HANDLE keyed_event;
void __cdecl _Cnd_init_in_situ(_Cnd_t cnd)
{
InitializeConditionVariable(&cnd->cv);
if(!keyed_event) {
HANDLE event;
NtCreateKeyedEvent(&event, GENERIC_READ|GENERIC_WRITE, NULL, 0);
if(InterlockedCompareExchangePointer(&keyed_event, event, NULL) != NULL)
NtClose(event);
}
}
int __cdecl _Cnd_init(_Cnd_t *cnd)
{
*cnd = MSVCRT_operator_new(sizeof(**cnd));
_Cnd_init_in_situ(*cnd);
return 0;
}
int __cdecl _Cnd_wait(_Cnd_arg_t cnd, _Mtx_arg_t mtx)
{
CONDITION_VARIABLE *cv = &CND_T_FROM_ARG(cnd)->cv;
InterlockedExchangeAdd( (LONG *)&cv->Ptr, 1 );
_Mtx_unlock(mtx);
NtWaitForKeyedEvent(keyed_event, &cv->Ptr, FALSE, NULL);
_Mtx_lock(mtx);
return 0;
}
int __cdecl _Cnd_timedwait(_Cnd_arg_t cnd, _Mtx_arg_t mtx, const xtime *xt)
{
CONDITION_VARIABLE *cv = &CND_T_FROM_ARG(cnd)->cv;
LARGE_INTEGER timeout;
NTSTATUS status;
InterlockedExchangeAdd( (LONG *)&cv->Ptr, 1 );
_Mtx_unlock(mtx);
timeout.QuadPart = (ULONGLONG)(ULONG)_Xtime_diff_to_millis(xt) * -10000;
status = NtWaitForKeyedEvent(keyed_event, &cv->Ptr, FALSE, &timeout);
if (status)
{
if (!interlocked_dec_if_nonzero( (LONG *)&cv->Ptr ))
status = NtWaitForKeyedEvent( keyed_event, &cv->Ptr, FALSE, NULL );
}
_Mtx_lock(mtx);
return status ? CND_TIMEDOUT : 0;
}
int __cdecl _Cnd_broadcast(_Cnd_arg_t cnd)
{
CONDITION_VARIABLE *cv = &CND_T_FROM_ARG(cnd)->cv;
LONG val = InterlockedExchange( (LONG *)&cv->Ptr, 0 );
while (val-- > 0)
NtReleaseKeyedEvent( keyed_event, &cv->Ptr, FALSE, NULL );
return 0;
}
int __cdecl _Cnd_signal(_Cnd_arg_t cnd)
{
CONDITION_VARIABLE *cv = &CND_T_FROM_ARG(cnd)->cv;
if (interlocked_dec_if_nonzero( (LONG *)&cv->Ptr ))
NtReleaseKeyedEvent( keyed_event, &cv->Ptr, FALSE, NULL );
return 0;
}
void __cdecl _Cnd_destroy_in_situ(_Cnd_t cnd)
{
_Cnd_broadcast(CND_T_TO_ARG(cnd));
}
void __cdecl _Cnd_destroy(_Cnd_arg_t cnd)
{
if(cnd) {
_Cnd_broadcast(cnd);
MSVCRT_operator_delete(CND_T_FROM_ARG(cnd));
}
}
static struct {
int used;
int size;
struct _to_broadcast {
DWORD thread_id;
_Cnd_arg_t cnd;
_Mtx_arg_t mtx;
int *p;
} *to_broadcast;
} broadcast_at_thread_exit;
static CRITICAL_SECTION broadcast_at_thread_exit_cs;
static CRITICAL_SECTION_DEBUG broadcast_at_thread_exit_cs_debug =
{
0, 0, &broadcast_at_thread_exit_cs,
{ &broadcast_at_thread_exit_cs_debug.ProcessLocksList, &broadcast_at_thread_exit_cs_debug.ProcessLocksList },
0, 0, { (DWORD_PTR)(__FILE__ ": broadcast_at_thread_exit_cs") }
};
static CRITICAL_SECTION broadcast_at_thread_exit_cs = { &broadcast_at_thread_exit_cs_debug, -1, 0, 0, 0, 0 };
void __cdecl _Cnd_register_at_thread_exit(_Cnd_arg_t cnd, _Mtx_arg_t mtx, int *p)
{
struct _to_broadcast *add;
TRACE("(%p %p %p)\n", cnd, mtx, p);
EnterCriticalSection(&broadcast_at_thread_exit_cs);
if(!broadcast_at_thread_exit.size) {
broadcast_at_thread_exit.to_broadcast = HeapAlloc(GetProcessHeap(),
0, 8*sizeof(broadcast_at_thread_exit.to_broadcast[0]));
if(!broadcast_at_thread_exit.to_broadcast) {
LeaveCriticalSection(&broadcast_at_thread_exit_cs);
return;
}
broadcast_at_thread_exit.size = 8;
} else if(broadcast_at_thread_exit.size == broadcast_at_thread_exit.used) {
add = HeapReAlloc(GetProcessHeap(), 0, broadcast_at_thread_exit.to_broadcast,
broadcast_at_thread_exit.size*2*sizeof(broadcast_at_thread_exit.to_broadcast[0]));
if(!add) {
LeaveCriticalSection(&broadcast_at_thread_exit_cs);
return;
}
broadcast_at_thread_exit.to_broadcast = add;
broadcast_at_thread_exit.size *= 2;
}
add = broadcast_at_thread_exit.to_broadcast + broadcast_at_thread_exit.used++;
add->thread_id = GetCurrentThreadId();
add->cnd = cnd;
add->mtx = mtx;
add->p = p;
LeaveCriticalSection(&broadcast_at_thread_exit_cs);
}
void __cdecl _Cnd_unregister_at_thread_exit(_Mtx_arg_t mtx)
{
int i;
TRACE("(%p)\n", mtx);
EnterCriticalSection(&broadcast_at_thread_exit_cs);
for(i=0; i<broadcast_at_thread_exit.used; i++) {
if(broadcast_at_thread_exit.to_broadcast[i].mtx != mtx)
continue;
memmove(broadcast_at_thread_exit.to_broadcast+i, broadcast_at_thread_exit.to_broadcast+i+1,
(broadcast_at_thread_exit.used-i-1)*sizeof(broadcast_at_thread_exit.to_broadcast[0]));
broadcast_at_thread_exit.used--;
i--;
}
LeaveCriticalSection(&broadcast_at_thread_exit_cs);
}
void __cdecl _Cnd_do_broadcast_at_thread_exit(void)
{
int i, id = GetCurrentThreadId();
TRACE("()\n");
EnterCriticalSection(&broadcast_at_thread_exit_cs);
for(i=0; i<broadcast_at_thread_exit.used; i++) {
if(broadcast_at_thread_exit.to_broadcast[i].thread_id != id)
continue;
_Mtx_unlock(broadcast_at_thread_exit.to_broadcast[i].mtx);
_Cnd_broadcast(broadcast_at_thread_exit.to_broadcast[i].cnd);
if(broadcast_at_thread_exit.to_broadcast[i].p)
*broadcast_at_thread_exit.to_broadcast[i].p = 1;
memmove(broadcast_at_thread_exit.to_broadcast+i, broadcast_at_thread_exit.to_broadcast+i+1,
(broadcast_at_thread_exit.used-i-1)*sizeof(broadcast_at_thread_exit.to_broadcast[0]));
broadcast_at_thread_exit.used--;
i--;
}
LeaveCriticalSection(&broadcast_at_thread_exit_cs);
}
#endif
#if _MSVCP_VER == 100
typedef struct {
const vtable_ptr *vtable;
} error_category;
typedef struct {
error_category base;
const char *type;
} custom_category;
static custom_category iostream_category;
DEFINE_RTTI_DATA0(error_category, 0, ".?AVerror_category@std@@")
DEFINE_RTTI_DATA1(iostream_category, 0, &error_category_rtti_base_descriptor, ".?AV_Iostream_error_category@std@@")
extern const vtable_ptr MSVCP_iostream_category_vtable;
static void iostream_category_ctor(custom_category *this)
{
this->base.vtable = &MSVCP_iostream_category_vtable;
this->type = "iostream";
}
DEFINE_THISCALL_WRAPPER(custom_category_vector_dtor, 8)
custom_category* __thiscall custom_category_vector_dtor(custom_category *this, unsigned int flags)
{
TRACE("(%p %x)\n", this, flags);
if(flags & 2) {
/* we have an array, with the number of elements stored before the first object */
INT_PTR i, *ptr = (INT_PTR *)this-1;
for(i=*ptr-1; i>=0; i--)
MSVCRT_operator_delete(ptr);
} else {
if(flags & 1)
MSVCRT_operator_delete(this);
}
return this;
}
DEFINE_THISCALL_WRAPPER(custom_category_name, 4)
const char* __thiscall custom_category_name(const custom_category *this)
{
return this->type;
}
DEFINE_THISCALL_WRAPPER(custom_category_message, 12)
basic_string_char* __thiscall custom_category_message(const custom_category *this,
basic_string_char *ret, int err)
{
return MSVCP_basic_string_char_ctor_cstr(ret, strerror(err));
}
DEFINE_THISCALL_WRAPPER(custom_category_default_error_condition, 12)
/*error_condition*/void* __thiscall custom_category_default_error_condition(
custom_category *this, /*error_condition*/void *ret, int code)
{
FIXME("(%p %p %x) stub\n", this, ret, code);
return NULL;
}
DEFINE_THISCALL_WRAPPER(custom_category_equivalent, 12)
MSVCP_bool __thiscall custom_category_equivalent(const custom_category *this,
int code, const /*error_condition*/void *condition)
{
FIXME("(%p %x %p) stub\n", this, code, condition);
return FALSE;
}
DEFINE_THISCALL_WRAPPER(custom_category_equivalent_code, 12)
MSVCP_bool __thiscall custom_category_equivalent_code(custom_category *this,
const /*error_code*/void *code, int condition)
{
FIXME("(%p %p %x) stub\n", this, code, condition);
return FALSE;
}
DEFINE_THISCALL_WRAPPER(iostream_category_message, 12)
basic_string_char* __thiscall iostream_category_message(const custom_category *this,
basic_string_char *ret, int err)
{
if(err == 1) return MSVCP_basic_string_char_ctor_cstr(ret, "iostream error");
return MSVCP_basic_string_char_ctor_cstr(ret, strerror(err));
}
/* ?iostream_category@std@@YAABVerror_category@1@XZ */
/* ?iostream_category@std@@YAAEBVerror_category@1@XZ */
const error_category* __cdecl std_iostream_category(void)
{
TRACE("()\n");
return &iostream_category.base;
}
static custom_category system_category;
DEFINE_RTTI_DATA1(system_category, 0, &error_category_rtti_base_descriptor, ".?AV_System_error_category@std@@")
extern const vtable_ptr MSVCP_system_category_vtable;
static void system_category_ctor(custom_category *this)
{
this->base.vtable = &MSVCP_system_category_vtable;
this->type = "system";
}
/* ?system_category@std@@YAABVerror_category@1@XZ */
/* ?system_category@std@@YAAEBVerror_category@1@XZ */
const error_category* __cdecl std_system_category(void)
{
TRACE("()\n");
return &system_category.base;
}
static custom_category generic_category;
DEFINE_RTTI_DATA1(generic_category, 0, &error_category_rtti_base_descriptor, ".?AV_Generic_error_category@std@@")
extern const vtable_ptr MSVCP_generic_category_vtable;
static void generic_category_ctor(custom_category *this)
{
this->base.vtable = &MSVCP_generic_category_vtable;
this->type = "generic";
}
/* ?generic_category@std@@YAABVerror_category@1@XZ */
/* ?generic_category@std@@YAAEBVerror_category@1@XZ */
const error_category* __cdecl std_generic_category(void)
{
TRACE("()\n");
return &generic_category.base;
}
#endif
#if _MSVCP_VER >= 110
static CRITICAL_SECTION call_once_cs;
static CRITICAL_SECTION_DEBUG call_once_cs_debug =
{
0, 0, &call_once_cs,
{ &call_once_cs_debug.ProcessLocksList, &call_once_cs_debug.ProcessLocksList },
0, 0, { (DWORD_PTR)(__FILE__ ": call_once_cs") }
};
static CRITICAL_SECTION call_once_cs = { &call_once_cs_debug, -1, 0, 0, 0, 0 };
void __cdecl _Call_onceEx(int *once, void (__cdecl *func)(void*), void *argv)
{
TRACE("%p %p %p\n", once, func, argv);
EnterCriticalSection(&call_once_cs);
if(!*once) {
/* FIXME: handle exceptions */
func(argv);
*once = 1;
}
LeaveCriticalSection(&call_once_cs);
}
static void __cdecl call_once_func_wrapper(void *func)
{
((void (__cdecl*)(void))func)();
}
void __cdecl _Call_once(int *once, void (__cdecl *func)(void))
{
TRACE("%p %p\n", once, func);
_Call_onceEx(once, call_once_func_wrapper, func);
}
void __cdecl _Do_call(void *this)
{
CALL_VTBL_FUNC(this, 0, void, (void*), (this));
}
#endif
#if _MSVCP_VER >= 110
typedef struct
{
HANDLE hnd;
DWORD id;
} _Thrd_t;
typedef int (__cdecl *_Thrd_start_t)(void*);
#define _THRD_ERROR 4
int __cdecl _Thrd_equal(_Thrd_t a, _Thrd_t b)
{
TRACE("(%p %u %p %u)\n", a.hnd, a.id, b.hnd, b.id);
return a.id == b.id;
}
int __cdecl _Thrd_lt(_Thrd_t a, _Thrd_t b)
{
TRACE("(%p %u %p %u)\n", a.hnd, a.id, b.hnd, b.id);
return a.id < b.id;
}
void __cdecl _Thrd_sleep(const xtime *t)
{
TRACE("(%p)\n", t);
Sleep(_Xtime_diff_to_millis(t));
}
void __cdecl _Thrd_yield(void)
{
TRACE("()\n");
Sleep(0);
}
static _Thrd_t thread_current(void)
{
_Thrd_t ret;
if(DuplicateHandle(GetCurrentProcess(), GetCurrentThread(),
GetCurrentProcess(), &ret.hnd, 0, FALSE, DUPLICATE_SAME_ACCESS)) {
CloseHandle(ret.hnd);
} else {
ret.hnd = 0;
}
ret.id = GetCurrentThreadId();
TRACE("(%p %u)\n", ret.hnd, ret.id);
return ret;
}
#ifndef __i386__
_Thrd_t __cdecl _Thrd_current(void)
{
return thread_current();
}
#else
ULONGLONG __cdecl _Thrd_current(void)
{
union {
_Thrd_t thr;
ULONGLONG ull;
} ret;
C_ASSERT(sizeof(_Thrd_t) <= sizeof(ULONGLONG));
ret.thr = thread_current();
return ret.ull;
}
#endif
int __cdecl _Thrd_join(_Thrd_t thr, int *code)
{
TRACE("(%p %u %p)\n", thr.hnd, thr.id, code);
if (WaitForSingleObject(thr.hnd, INFINITE))
return _THRD_ERROR;
if (code)
GetExitCodeThread(thr.hnd, (DWORD *)code);
CloseHandle(thr.hnd);
return 0;
}
int __cdecl _Thrd_start(_Thrd_t *thr, LPTHREAD_START_ROUTINE proc, void *arg)
{
TRACE("(%p %p %p)\n", thr, proc, arg);
thr->hnd = CreateThread(NULL, 0, proc, arg, 0, &thr->id);
return thr->hnd ? 0 : _THRD_ERROR;
}
typedef struct
{
_Thrd_start_t proc;
void *arg;
} thread_proc_arg;
static DWORD WINAPI thread_proc_wrapper(void *arg)
{
thread_proc_arg wrapped_arg = *((thread_proc_arg*)arg);
free(arg);
return wrapped_arg.proc(wrapped_arg.arg);
}
int __cdecl _Thrd_create(_Thrd_t *thr, _Thrd_start_t proc, void *arg)
{
thread_proc_arg *wrapped_arg;
int ret;
TRACE("(%p %p %p)\n", thr, proc, arg);
wrapped_arg = malloc(sizeof(*wrapped_arg));
if(!wrapped_arg)
return _THRD_ERROR; /* TODO: probably different error should be returned here */
wrapped_arg->proc = proc;
wrapped_arg->arg = arg;
ret = _Thrd_start(thr, thread_proc_wrapper, wrapped_arg);
if(ret) free(wrapped_arg);
return ret;
}
int __cdecl _Thrd_detach(_Thrd_t thr)
{
return CloseHandle(thr.hnd) ? 0 : _THRD_ERROR;
}
typedef struct
{
const vtable_ptr *vtable;
_Cnd_t cnd;
_Mtx_t mtx;
MSVCP_bool launched;
} _Pad;
DEFINE_RTTI_DATA0(_Pad, 0, ".?AV_Pad@std@@")
/* ??_7_Pad@std@@6B@ */
extern const vtable_ptr MSVCP__Pad_vtable;
unsigned int __cdecl _Thrd_hardware_concurrency(void)
{
static unsigned int val = -1;
TRACE("()\n");
if(val == -1) {
SYSTEM_INFO si;
GetSystemInfo(&si);
val = si.dwNumberOfProcessors;
}
return val;
}
unsigned int __cdecl _Thrd_id(void)
{
TRACE("()\n");
return GetCurrentThreadId();
}
/* ??0_Pad@std@@QAE@XZ */
/* ??0_Pad@std@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Pad_ctor, 4)
_Pad* __thiscall _Pad_ctor(_Pad *this)
{
TRACE("(%p)\n", this);
this->vtable = &MSVCP__Pad_vtable;
_Cnd_init(&this->cnd);
_Mtx_init(&this->mtx, 0);
this->launched = FALSE;
_Mtx_lock(MTX_T_TO_ARG(this->mtx));
return this;
}
/* ??4_Pad@std@@QAEAAV01@ABV01@@Z */
/* ??4_Pad@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(_Pad_op_assign, 8)
_Pad* __thiscall _Pad_op_assign(_Pad *this, const _Pad *copy)
{
TRACE("(%p %p)\n", this, copy);
this->cnd = copy->cnd;
this->mtx = copy->mtx;
this->launched = copy->launched;
return this;
}
/* ??0_Pad@std@@QAE@ABV01@@Z */
/* ??0_Pad@std@@QEAA@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(_Pad_copy_ctor, 8)
_Pad* __thiscall _Pad_copy_ctor(_Pad *this, const _Pad *copy)
{
TRACE("(%p %p)\n", this, copy);
this->vtable = &MSVCP__Pad_vtable;
return _Pad_op_assign(this, copy);
}
/* ??1_Pad@std@@QAE@XZ */
/* ??1_Pad@std@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Pad_dtor, 4)
void __thiscall _Pad_dtor(_Pad *this)
{
TRACE("(%p)\n", this);
_Mtx_unlock(MTX_T_TO_ARG(this->mtx));
_Mtx_destroy(MTX_T_TO_ARG(this->mtx));
_Cnd_destroy(CND_T_TO_ARG(this->cnd));
}
DEFINE_THISCALL_WRAPPER(_Pad__Go, 4)
#define call__Pad__Go(this) CALL_VTBL_FUNC(this, 0, unsigned int, (_Pad*), (this))
unsigned int __thiscall _Pad__Go(_Pad *this)
{
ERR("(%p) should not be called\n", this);
return 0;
}
static DWORD WINAPI launch_thread_proc(void *arg)
{
_Pad *this = arg;
return call__Pad__Go(this);
}
/* ?_Launch@_Pad@std@@QAEXPAU_Thrd_imp_t@@@Z */
/* ?_Launch@_Pad@std@@QEAAXPEAU_Thrd_imp_t@@@Z */
DEFINE_THISCALL_WRAPPER(_Pad__Launch, 8)
void __thiscall _Pad__Launch(_Pad *this, _Thrd_t *thr)
{
TRACE("(%p %p)\n", this, thr);
_Thrd_start(thr, launch_thread_proc, this);
_Cnd_wait(CND_T_TO_ARG(this->cnd), MTX_T_TO_ARG(this->mtx));
}
/* ?_Release@_Pad@std@@QAEXXZ */
/* ?_Release@_Pad@std@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_Pad__Release, 4)
void __thiscall _Pad__Release(_Pad *this)
{
TRACE("(%p)\n", this);
_Mtx_lock(MTX_T_TO_ARG(this->mtx));
this->launched = TRUE;
_Cnd_signal(CND_T_TO_ARG(this->cnd));
_Mtx_unlock(MTX_T_TO_ARG(this->mtx));
}
#endif
#if _MSVCP_VER >= 100
typedef struct _Page
{
struct _Page *_Next;
MSVCP_size_t _Mask;
char data[1];
} _Page;
typedef struct
{
LONG lock;
_Page *head;
_Page *tail;
MSVCP_size_t head_pos;
MSVCP_size_t tail_pos;
} threadsafe_queue;
#define QUEUES_NO 8
typedef struct
{
MSVCP_size_t tail_pos;
MSVCP_size_t head_pos;
threadsafe_queue queues[QUEUES_NO];
} queue_data;
typedef struct
{
const vtable_ptr *vtable;
queue_data *data; /* queue_data structure is not binary compatible */
MSVCP_size_t alloc_count;
MSVCP_size_t item_size;
} _Concurrent_queue_base_v4;
extern const vtable_ptr MSVCP__Concurrent_queue_base_v4_vtable;
#if _MSVCP_VER == 100
#define call__Concurrent_queue_base_v4__Move_item call__Concurrent_queue_base_v4__Copy_item
#define call__Concurrent_queue_base_v4__Copy_item(this,dst,idx,src) CALL_VTBL_FUNC(this, \
0, void, (_Concurrent_queue_base_v4*,_Page*,MSVCP_size_t,const void*), (this,dst,idx,src))
#define call__Concurrent_queue_base_v4__Assign_and_destroy_item(this,dst,src,idx) CALL_VTBL_FUNC(this, \
4, void, (_Concurrent_queue_base_v4*,void*,_Page*,MSVCP_size_t), (this,dst,src,idx))
#define call__Concurrent_queue_base_v4__Allocate_page(this) CALL_VTBL_FUNC(this, \
12, _Page*, (_Concurrent_queue_base_v4*), (this))
#define call__Concurrent_queue_base_v4__Deallocate_page(this, page) CALL_VTBL_FUNC(this, \
16, void, (_Concurrent_queue_base_v4*,_Page*), (this,page))
#else
#define call__Concurrent_queue_base_v4__Move_item(this,dst,idx,src) CALL_VTBL_FUNC(this, \
0, void, (_Concurrent_queue_base_v4*,_Page*,MSVCP_size_t,void*), (this,dst,idx,src))
#define call__Concurrent_queue_base_v4__Copy_item(this,dst,idx,src) CALL_VTBL_FUNC(this, \
4, void, (_Concurrent_queue_base_v4*,_Page*,MSVCP_size_t,const void*), (this,dst,idx,src))
#define call__Concurrent_queue_base_v4__Assign_and_destroy_item(this,dst,src,idx) CALL_VTBL_FUNC(this, \
8, void, (_Concurrent_queue_base_v4*,void*,_Page*,MSVCP_size_t), (this,dst,src,idx))
#define call__Concurrent_queue_base_v4__Allocate_page(this) CALL_VTBL_FUNC(this, \
16, _Page*, (_Concurrent_queue_base_v4*), (this))
#define call__Concurrent_queue_base_v4__Deallocate_page(this, page) CALL_VTBL_FUNC(this, \
20, void, (_Concurrent_queue_base_v4*,_Page*), (this,page))
#endif
/* ?_Internal_throw_exception@_Concurrent_queue_base_v4@details@Concurrency@@IBEXXZ */
/* ?_Internal_throw_exception@_Concurrent_queue_base_v4@details@Concurrency@@IEBAXXZ */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4__Internal_throw_exception, 4)
void __thiscall _Concurrent_queue_base_v4__Internal_throw_exception(
const _Concurrent_queue_base_v4 *this)
{
TRACE("(%p)\n", this);
throw_exception(EXCEPTION_BAD_ALLOC, NULL);
}
/* ??0_Concurrent_queue_base_v4@details@Concurrency@@IAE@I@Z */
/* ??0_Concurrent_queue_base_v4@details@Concurrency@@IEAA@_K@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4_ctor, 8)
_Concurrent_queue_base_v4* __thiscall _Concurrent_queue_base_v4_ctor(
_Concurrent_queue_base_v4 *this, MSVCP_size_t size)
{
TRACE("(%p %ld)\n", this, size);
this->data = MSVCRT_operator_new(sizeof(*this->data));
memset(this->data, 0, sizeof(*this->data));
this->vtable = &MSVCP__Concurrent_queue_base_v4_vtable;
this->item_size = size;
/* alloc_count needs to be power of 2 */
this->alloc_count =
size <= 8 ? 32 :
size <= 16 ? 16 :
size <= 32 ? 8 :
size <= 64 ? 4 :
size <= 128 ? 2 : 1;
return this;
}
/* ??1_Concurrent_queue_base_v4@details@Concurrency@@MAE@XZ */
/* ??1_Concurrent_queue_base_v4@details@Concurrency@@MEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4_dtor, 4)
void __thiscall _Concurrent_queue_base_v4_dtor(_Concurrent_queue_base_v4 *this)
{
TRACE("(%p)\n", this);
MSVCRT_operator_delete(this->data);
}
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4_vector_dtor, 8)
_Concurrent_queue_base_v4* __thiscall _Concurrent_queue_base_v4_vector_dtor(
_Concurrent_queue_base_v4 *this, unsigned int flags)
{
TRACE("(%p %x)\n", this, flags);
if(flags & 2) {
/* we have an array, with the number of elements stored before the first object */
INT_PTR i, *ptr = (INT_PTR *)this-1;
for(i=*ptr-1; i>=0; i--)
_Concurrent_queue_base_v4_dtor(this+i);
MSVCRT_operator_delete(ptr);
} else {
if(flags & 1)
_Concurrent_queue_base_v4_dtor(this);
MSVCRT_operator_delete(this);
}
return this;
}
/* ?_Internal_finish_clear@_Concurrent_queue_base_v4@details@Concurrency@@IAEXXZ */
/* ?_Internal_finish_clear@_Concurrent_queue_base_v4@details@Concurrency@@IEAAXXZ */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4__Internal_finish_clear, 4)
void __thiscall _Concurrent_queue_base_v4__Internal_finish_clear(
_Concurrent_queue_base_v4 *this)
{
int i;
TRACE("(%p)\n", this);
for(i=0; i<QUEUES_NO; i++)
{
if(this->data->queues[i].tail)
call__Concurrent_queue_base_v4__Deallocate_page(this, this->data->queues[i].tail);
}
}
/* ?_Internal_empty@_Concurrent_queue_base_v4@details@Concurrency@@IBE_NXZ */
/* ?_Internal_empty@_Concurrent_queue_base_v4@details@Concurrency@@IEBA_NXZ */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4__Internal_empty, 4)
MSVCP_bool __thiscall _Concurrent_queue_base_v4__Internal_empty(
const _Concurrent_queue_base_v4 *this)
{
TRACE("(%p)\n", this);
return this->data->head_pos == this->data->tail_pos;
}
/* ?_Internal_size@_Concurrent_queue_base_v4@details@Concurrency@@IBEIXZ */
/* ?_Internal_size@_Concurrent_queue_base_v4@details@Concurrency@@IEBA_KXZ */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4__Internal_size, 4)
MSVCP_size_t __thiscall _Concurrent_queue_base_v4__Internal_size(
const _Concurrent_queue_base_v4 *this)
{
TRACE("(%p)\n", this);
return this->data->tail_pos - this->data->head_pos;
}
static void spin_wait(int *counter)
{
static int spin_limit = -1;
if(spin_limit == -1)
{
SYSTEM_INFO si;
GetSystemInfo(&si);
spin_limit = si.dwNumberOfProcessors>1 ? 4000 : 0;
}
if(*counter >= spin_limit)
{
*counter = 0;
Sleep(0);
}
else
{
(*counter)++;
}
}
#ifdef _WIN64
static MSVCP_size_t InterlockedIncrementSizeT(MSVCP_size_t volatile *dest)
{
MSVCP_size_t v;
do
{
v = *dest;
} while(InterlockedCompareExchange64((LONGLONG*)dest, v+1, v) != v);
return v+1;
}
#else
#define InterlockedIncrementSizeT(dest) InterlockedIncrement((LONG*)dest)
#endif
static void CALLBACK queue_push_finally(BOOL normal, void *ctx)
{
threadsafe_queue *queue = ctx;
InterlockedIncrementSizeT(&queue->tail_pos);
}
static void threadsafe_queue_push(threadsafe_queue *queue, MSVCP_size_t id,
void *e, _Concurrent_queue_base_v4 *parent, BOOL copy)
{
MSVCP_size_t page_id = id & ~(parent->alloc_count-1);
int spin;
_Page *p;
spin = 0;
while(queue->tail_pos != id)
spin_wait(&spin);
if(page_id == id)
{
/* TODO: Add exception handling */
p = call__Concurrent_queue_base_v4__Allocate_page(parent);
p->_Next = NULL;
p->_Mask = 0;
spin = 0;
while(InterlockedCompareExchange(&queue->lock, 1, 0))
spin_wait(&spin);
if(queue->tail)
queue->tail->_Next = p;
queue->tail = p;
if(!queue->head)
queue->head = p;
queue->lock = 0;
}
else
{
p = queue->tail;
}
__TRY
{
if(copy)
call__Concurrent_queue_base_v4__Copy_item(parent, p, id-page_id, e);
else
call__Concurrent_queue_base_v4__Move_item(parent, p, id-page_id, e);
p->_Mask |= 1 << (id - page_id);
}
__FINALLY_CTX(queue_push_finally, queue);
}
static BOOL threadsafe_queue_pop(threadsafe_queue *queue, MSVCP_size_t id,
void *e, _Concurrent_queue_base_v4 *parent)
{
MSVCP_size_t page_id = id & ~(parent->alloc_count-1);
int spin;
_Page *p;
BOOL ret = FALSE;
spin = 0;
while(queue->tail_pos <= id)
spin_wait(&spin);
spin = 0;
while(queue->head_pos != id)
spin_wait(&spin);
p = queue->head;
if(p->_Mask & (1 << (id-page_id)))
{
/* TODO: Add exception handling */
call__Concurrent_queue_base_v4__Assign_and_destroy_item(parent, e, p, id-page_id);
ret = TRUE;
}
if(id == page_id+parent->alloc_count-1)
{
spin = 0;
while(InterlockedCompareExchange(&queue->lock, 1, 0))
spin_wait(&spin);
queue->head = p->_Next;
if(!queue->head)
queue->tail = NULL;
queue->lock = 0;
/* TODO: Add exception handling */
call__Concurrent_queue_base_v4__Deallocate_page(parent, p);
}
InterlockedIncrementSizeT(&queue->head_pos);
return ret;
}
/* ?_Internal_push@_Concurrent_queue_base_v4@details@Concurrency@@IAEXPBX@Z */
/* ?_Internal_push@_Concurrent_queue_base_v4@details@Concurrency@@IEAAXPEBX@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4__Internal_push, 8)
void __thiscall _Concurrent_queue_base_v4__Internal_push(
_Concurrent_queue_base_v4 *this, void *e)
{
MSVCP_size_t id;
TRACE("(%p %p)\n", this, e);
id = InterlockedIncrementSizeT(&this->data->tail_pos)-1;
threadsafe_queue_push(this->data->queues + id % QUEUES_NO,
id / QUEUES_NO, e, this, TRUE);
}
/* ?_Internal_move_push@_Concurrent_queue_base_v4@details@Concurrency@@IAEXPAX@Z */
/* ?_Internal_move_push@_Concurrent_queue_base_v4@details@Concurrency@@IEAAXPEAX@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4__Internal_move_push, 8)
void __thiscall _Concurrent_queue_base_v4__Internal_move_push(
_Concurrent_queue_base_v4 *this, void *e)
{
MSVCP_size_t id;
TRACE("(%p %p)\n", this, e);
id = InterlockedIncrementSizeT(&this->data->tail_pos)-1;
threadsafe_queue_push(this->data->queues + id % QUEUES_NO,
id / QUEUES_NO, e, this, FALSE);
}
/* ?_Internal_pop_if_present@_Concurrent_queue_base_v4@details@Concurrency@@IAE_NPAX@Z */
/* ?_Internal_pop_if_present@_Concurrent_queue_base_v4@details@Concurrency@@IEAA_NPEAX@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4__Internal_pop_if_present, 8)
MSVCP_bool __thiscall _Concurrent_queue_base_v4__Internal_pop_if_present(
_Concurrent_queue_base_v4 *this, void *e)
{
MSVCP_size_t id;
TRACE("(%p %p)\n", this, e);
do
{
do
{
id = this->data->head_pos;
if(id == this->data->tail_pos) return FALSE;
} while(InterlockedCompareExchangePointer((void**)&this->data->head_pos,
(void*)(id+1), (void*)id) != (void*)id);
} while(!threadsafe_queue_pop(this->data->queues + id % QUEUES_NO,
id / QUEUES_NO, e, this));
return TRUE;
}
/* ?_Internal_swap@_Concurrent_queue_base_v4@details@Concurrency@@IAEXAAV123@@Z */
/* ?_Internal_swap@_Concurrent_queue_base_v4@details@Concurrency@@IEAAXAEAV123@@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4__Internal_swap, 8)
void __thiscall _Concurrent_queue_base_v4__Internal_swap(
_Concurrent_queue_base_v4 *this, _Concurrent_queue_base_v4 *r)
{
FIXME("(%p %p) stub\n", this, r);
}
DEFINE_THISCALL_WRAPPER(_Concurrent_queue_base_v4_dummy, 4)
void __thiscall _Concurrent_queue_base_v4_dummy(_Concurrent_queue_base_v4 *this)
{
ERR("unexpected call\n");
}
DEFINE_RTTI_DATA0(_Concurrent_queue_base_v4, 0, ".?AV_Concurrent_queue_base_v4@details@Concurrency@@")
static int _Runtime_object_id;
typedef struct
{
const vtable_ptr *vtable;
int id;
} _Runtime_object;
extern const vtable_ptr MSVCP__Runtime_object_vtable;
/* ??0_Runtime_object@details@Concurrency@@QAE@H@Z */
/* ??0_Runtime_object@details@Concurrency@@QEAA@H@Z */
DEFINE_THISCALL_WRAPPER(_Runtime_object_ctor_id, 8)
_Runtime_object* __thiscall _Runtime_object_ctor_id(_Runtime_object *this, int id)
{
TRACE("(%p %d)\n", this, id);
this->vtable = &MSVCP__Runtime_object_vtable;
this->id = id;
return this;
}
/* ??0_Runtime_object@details@Concurrency@@QAE@XZ */
/* ??0_Runtime_object@details@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Runtime_object_ctor, 4)
_Runtime_object* __thiscall _Runtime_object_ctor(_Runtime_object *this)
{
TRACE("(%p)\n", this);
this->vtable = &MSVCP__Runtime_object_vtable;
this->id = InterlockedExchangeAdd(&_Runtime_object_id, 2);
return this;
}
DEFINE_THISCALL_WRAPPER(_Runtime_object__GetId, 4)
int __thiscall _Runtime_object__GetId(_Runtime_object *this)
{
TRACE("(%p)\n", this);
return this->id;
}
DEFINE_RTTI_DATA0(_Runtime_object, 0, ".?AV_Runtime_object@details@Concurrency@@")
#endif
#if _MSVCP_VER >= 100
typedef struct __Concurrent_vector_base_v4
{
void* (__cdecl *allocator)(struct __Concurrent_vector_base_v4 *, MSVCP_size_t);
void *storage[3];
MSVCP_size_t first_block;
MSVCP_size_t early_size;
void **segment;
} _Concurrent_vector_base_v4;
#define STORAGE_SIZE ARRAY_SIZE(this->storage)
#define SEGMENT_SIZE (sizeof(void*) * 8)
typedef struct compact_block
{
MSVCP_size_t first_block;
void *blocks[SEGMENT_SIZE];
int size_check;
}compact_block;
/* based on wined3d_log2i from wined3d.h */
/* Return the integer base-2 logarithm of (x|1). Result is 0 for x == 0. */
static inline unsigned int log2i(unsigned int x)
{
#ifdef HAVE___BUILTIN_CLZ
return __builtin_clz(x|1) ^ 0x1f;
#else
static const unsigned int l[] =
{
~0u, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3, 3, 3,
4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4,
5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5,
5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5,
6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6,
6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6,
6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6,
6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6,
7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
};
unsigned int i;
x |= 1;
return (i = x >> 16) ? (x = i >> 8) ? l[x] + 24 : l[i] + 16 : (i = x >> 8) ? l[i] + 8 : l[x];
#endif
}
/* ?_Segment_index_of@_Concurrent_vector_base_v4@details@Concurrency@@KAII@Z */
/* ?_Segment_index_of@_Concurrent_vector_base_v4@details@Concurrency@@KA_K_K@Z */
MSVCP_size_t __cdecl _vector_base_v4__Segment_index_of(MSVCP_size_t x)
{
unsigned int half;
TRACE("(%lu)\n", x);
if((sizeof(x) == 8) && (half = x >> 32))
return log2i(half) + 32;
return log2i(x);
}
/* ?_Internal_throw_exception@_Concurrent_vector_base_v4@details@Concurrency@@IBEXI@Z */
/* ?_Internal_throw_exception@_Concurrent_vector_base_v4@details@Concurrency@@IEBAX_K@Z */
DEFINE_THISCALL_WRAPPER(_vector_base_v4__Internal_throw_exception, 8)
void __thiscall _vector_base_v4__Internal_throw_exception(void/*_vector_base_v4*/ *this, MSVCP_size_t idx)
{
static const struct {
exception_type type;
const char *msg;
} exceptions[] = {
{ EXCEPTION_OUT_OF_RANGE, "Index out of range" },
{ EXCEPTION_OUT_OF_RANGE, "Index out of segments table range" },
{ EXCEPTION_RANGE_ERROR, "Index is inside segment which failed to be allocated" },
};
TRACE("(%p %lu)\n", this, idx);
if(idx < ARRAY_SIZE(exceptions))
throw_exception(exceptions[idx].type, exceptions[idx].msg);
}
#ifdef _WIN64
#define InterlockedCompareExchangeSizeT(dest, exchange, cmp) InterlockedCompareExchangeSize((MSVCP_size_t *)dest, (MSVCP_size_t)exchange, (MSVCP_size_t)cmp)
static MSVCP_size_t InterlockedCompareExchangeSize(MSVCP_size_t volatile *dest, MSVCP_size_t exchange, MSVCP_size_t cmp)
{
MSVCP_size_t v;
v = InterlockedCompareExchange64((LONGLONG*)dest, exchange, cmp);
return v;
}
#else
#define InterlockedCompareExchangeSizeT(dest, exchange, cmp) InterlockedCompareExchange((LONG*)dest, (MSVCP_size_t)exchange, (MSVCP_size_t)cmp)
#endif
#define SEGMENT_ALLOC_MARKER ((void*)1)
static void concurrent_vector_alloc_segment(_Concurrent_vector_base_v4 *this,
MSVCP_size_t seg, MSVCP_size_t element_size)
{
int spin;
while(!this->segment[seg] || this->segment[seg] == SEGMENT_ALLOC_MARKER)
{
spin = 0;
while(this->segment[seg] == SEGMENT_ALLOC_MARKER)
spin_wait(&spin);
if(!InterlockedCompareExchangeSizeT((this->segment + seg),
SEGMENT_ALLOC_MARKER, 0))
__TRY
{
if(seg == 0)
this->segment[seg] = this->allocator(this, element_size * (1 << this->first_block));
else if(seg < this->first_block)
this->segment[seg] = (BYTE**)this->segment[0]
+ element_size * (1 << seg);
else
this->segment[seg] = this->allocator(this, element_size * (1 << seg));
}
__EXCEPT_ALL
{
this->segment[seg] = NULL;
throw_exception(EXCEPTION_RERAISE, NULL);
}
__ENDTRY
if(!this->segment[seg])
_vector_base_v4__Internal_throw_exception(this, 2);
}
}
/* ??1_Concurrent_vector_base_v4@details@Concurrency@@IAE@XZ */
/* ??1_Concurrent_vector_base_v4@details@Concurrency@@IEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4_dtor, 4)
void __thiscall _Concurrent_vector_base_v4_dtor(
_Concurrent_vector_base_v4 *this)
{
TRACE("(%p)\n", this);
if(this->segment != this->storage)
free(this->segment);
}
/* ?_Internal_capacity@_Concurrent_vector_base_v4@details@Concurrency@@IBEIXZ */
/* ?_Internal_capacity@_Concurrent_vector_base_v4@details@Concurrency@@IEBA_KXZ */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_capacity, 4)
MSVCP_size_t __thiscall _Concurrent_vector_base_v4__Internal_capacity(
const _Concurrent_vector_base_v4 *this)
{
MSVCP_size_t last_block;
int i;
TRACE("(%p)\n", this);
last_block = (this->segment == this->storage ? STORAGE_SIZE : SEGMENT_SIZE);
for(i = 0; i < last_block; i++)
{
if(!this->segment[i])
return !i ? 0 : 1 << i;
}
return 1 << i;
}
/* ?_Internal_reserve@_Concurrent_vector_base_v4@details@Concurrency@@IAEXIII@Z */
/* ?_Internal_reserve@_Concurrent_vector_base_v4@details@Concurrency@@IEAAX_K00@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_reserve, 16)
void __thiscall _Concurrent_vector_base_v4__Internal_reserve(
_Concurrent_vector_base_v4 *this, MSVCP_size_t size,
MSVCP_size_t element_size, MSVCP_size_t max_size)
{
MSVCP_size_t block_idx, capacity;
int i;
void **new_segment;
TRACE("(%p %ld %ld %ld)\n", this, size, element_size, max_size);
if(size > max_size) _vector_base_v4__Internal_throw_exception(this, 0);
capacity = _Concurrent_vector_base_v4__Internal_capacity(this);
if(size <= capacity) return;
block_idx = _vector_base_v4__Segment_index_of(size - 1);
if(!this->first_block)
InterlockedCompareExchangeSizeT(&this->first_block, block_idx + 1, 0);
i = _vector_base_v4__Segment_index_of(capacity);
if(this->storage == this->segment) {
for(; i <= block_idx && i < STORAGE_SIZE; i++)
concurrent_vector_alloc_segment(this, i, element_size);
if(block_idx >= STORAGE_SIZE) {
new_segment = malloc(SEGMENT_SIZE * sizeof(void*));
if(new_segment == NULL) _vector_base_v4__Internal_throw_exception(this, 2);
memset(new_segment, 0, SEGMENT_SIZE * sizeof(*new_segment));
memcpy(new_segment, this->storage, STORAGE_SIZE * sizeof(*new_segment));
if(InterlockedCompareExchangePointer((void*)&this->segment, new_segment,
this->storage) != this->storage)
free(new_segment);
}
}
for(; i <= block_idx; i++)
concurrent_vector_alloc_segment(this, i, element_size);
}
/* ?_Internal_clear@_Concurrent_vector_base_v4@details@Concurrency@@IAEIP6AXPAXI@Z@Z */
/* ?_Internal_clear@_Concurrent_vector_base_v4@details@Concurrency@@IEAA_KP6AXPEAX_K@Z@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_clear, 8)
MSVCP_size_t __thiscall _Concurrent_vector_base_v4__Internal_clear(
_Concurrent_vector_base_v4 *this, void (__cdecl *clear)(void*, MSVCP_size_t))
{
MSVCP_size_t seg_no, elems;
int i;
TRACE("(%p %p)\n", this, clear);
seg_no = this->early_size ? _vector_base_v4__Segment_index_of(this->early_size) + 1 : 0;
for(i = seg_no - 1; i >= 0; i--) {
elems = this->early_size - (1 << i & ~1);
clear(this->segment[i], elems);
this->early_size -= elems;
}
while(seg_no < (this->segment == this->storage ? STORAGE_SIZE : SEGMENT_SIZE)) {
if(!this->segment[seg_no]) break;
seg_no++;
}
return seg_no;
}
/* ?_Internal_compact@_Concurrent_vector_base_v4@details@Concurrency@@IAEPAXIPAXP6AX0I@ZP6AX0PBXI@Z@Z */
/* ?_Internal_compact@_Concurrent_vector_base_v4@details@Concurrency@@IEAAPEAX_KPEAXP6AX10@ZP6AX1PEBX0@Z@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_compact, 20)
void * __thiscall _Concurrent_vector_base_v4__Internal_compact(
_Concurrent_vector_base_v4 *this, MSVCP_size_t element_size, void *v,
void (__cdecl *clear)(void*, MSVCP_size_t),
void (__cdecl *copy)(void*, const void*, MSVCP_size_t))
{
compact_block *b;
MSVCP_size_t size, alloc_size, seg_no, alloc_seg, copy_element, clear_element;
int i;
TRACE("(%p %ld %p %p %p)\n", this, element_size, v, clear, copy);
size = this->early_size;
alloc_size = _Concurrent_vector_base_v4__Internal_capacity(this);
if(alloc_size == 0) return NULL;
alloc_seg = _vector_base_v4__Segment_index_of(alloc_size - 1);
if(!size) {
this->first_block = 0;
b = v;
b->first_block = alloc_seg + 1;
memset(b->blocks, 0, sizeof(b->blocks));
memcpy(b->blocks, this->segment,
(alloc_seg + 1) * sizeof(this->segment[0]));
memset(this->segment, 0, sizeof(this->segment[0]) * (alloc_seg + 1));
return v;
}
seg_no = _vector_base_v4__Segment_index_of(size - 1);
if(this->first_block == (seg_no + 1) && seg_no == alloc_seg) return NULL;
b = v;
b->first_block = this->first_block;
memset(b->blocks, 0, sizeof(b->blocks));
memcpy(b->blocks, this->segment,
(alloc_seg + 1) * sizeof(this->segment[0]));
if(this->first_block == (seg_no + 1) && seg_no != alloc_seg) {
memset(b->blocks, 0, sizeof(b->blocks[0]) * (seg_no + 1));
memset(&this->segment[seg_no + 1], 0, sizeof(this->segment[0]) * (alloc_seg - seg_no));
return v;
}
memset(this->segment, 0,
(alloc_seg + 1) * sizeof(this->segment[0]));
this->first_block = 0;
_Concurrent_vector_base_v4__Internal_reserve(this, size, element_size,
MSVCP_SIZE_T_MAX / element_size);
for(i = 0; i < seg_no; i++)
copy(this->segment[i], b->blocks[i], i ? 1 << i : 2);
copy_element = size - ((1 << seg_no) & ~1);
if(copy_element > 0)
copy(this->segment[seg_no], b->blocks[seg_no], copy_element);
for(i = 0; i < seg_no; i++)
clear(b->blocks[i], i ? 1 << i : 2);
clear_element = size - ((1 << seg_no) & ~1);
if(clear_element > 0)
clear(b->blocks[seg_no], clear_element);
return v;
}
/* ?_Internal_copy@_Concurrent_vector_base_v4@details@Concurrency@@IAEXABV123@IP6AXPAXPBXI@Z@Z */
/* ?_Internal_copy@_Concurrent_vector_base_v4@details@Concurrency@@IEAAXAEBV123@_KP6AXPEAXPEBX1@Z@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_copy, 16)
void __thiscall _Concurrent_vector_base_v4__Internal_copy(
_Concurrent_vector_base_v4 *this, const _Concurrent_vector_base_v4 *v,
MSVCP_size_t element_size, void (__cdecl *copy)(void*, const void*, MSVCP_size_t))
{
MSVCP_size_t seg_no, v_size;
int i;
TRACE("(%p %p %ld %p)\n", this, v, element_size, copy);
v_size = v->early_size;
if(!v_size) {
this->early_size = 0;
return;
}
_Concurrent_vector_base_v4__Internal_reserve(this, v_size,
element_size, MSVCP_SIZE_T_MAX / element_size);
seg_no = _vector_base_v4__Segment_index_of(v_size - 1);
for(i = 0; i < seg_no; i++)
copy(this->segment[i], v->segment[i], i ? 1 << i : 2);
copy(this->segment[i], v->segment[i], v_size - (1 << i & ~1));
this->early_size = v_size;
}
/* ?_Internal_assign@_Concurrent_vector_base_v4@details@Concurrency@@IAEXABV123@IP6AXPAXI@ZP6AX1PBXI@Z4@Z */
/* ?_Internal_assign@_Concurrent_vector_base_v4@details@Concurrency@@IEAAXAEBV123@_KP6AXPEAX1@ZP6AX2PEBX1@Z5@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_assign, 24)
void __thiscall _Concurrent_vector_base_v4__Internal_assign(
_Concurrent_vector_base_v4 *this, const _Concurrent_vector_base_v4 *v,
MSVCP_size_t element_size, void (__cdecl *clear)(void*, MSVCP_size_t),
void (__cdecl *assign)(void*, const void*, MSVCP_size_t),
void (__cdecl *copy)(void*, const void*, MSVCP_size_t))
{
MSVCP_size_t v_size, seg_no, v_seg_no, remain_element;
int i;
TRACE("(%p %p %ld %p %p %p)\n", this, v, element_size, clear, assign, copy);
v_size = v->early_size;
if(!v_size) {
_Concurrent_vector_base_v4__Internal_clear(this, clear);
return;
}
if(!this->early_size) {
_Concurrent_vector_base_v4__Internal_copy(this, v, element_size, copy);
return;
}
seg_no = _vector_base_v4__Segment_index_of(this->early_size - 1);
v_seg_no = _vector_base_v4__Segment_index_of(v_size - 1);
for(i = 0; i < min(seg_no, v_seg_no); i++)
assign(this->segment[i], v->segment[i], i ? 1 << i : 2);
remain_element = min(this->early_size, v_size) - (1 << i & ~1);
if(remain_element != 0)
assign(this->segment[i], v->segment[i], remain_element);
if(this->early_size > v_size)
{
if((i ? 1 << i : 2) - remain_element > 0)
clear((BYTE**)this->segment[i] + element_size * remain_element,
(i ? 1 << i : 2) - remain_element);
if(i < seg_no)
{
for(i++; i < seg_no; i++)
clear(this->segment[i], 1 << i);
clear(this->segment[i], this->early_size - (1 << i));
}
}
else if(this->early_size < v_size)
{
if((i ? 1 << i : 2) - remain_element > 0)
copy((BYTE**)this->segment[i] + element_size * remain_element,
(BYTE**)v->segment[i] + element_size * remain_element,
(i ? 1 << i : 2) - remain_element);
if(i < v_seg_no)
{
_Concurrent_vector_base_v4__Internal_reserve(this, v_size,
element_size, MSVCP_SIZE_T_MAX / element_size);
for(i++; i < v_seg_no; i++)
copy(this->segment[i], v->segment[i], 1 << i);
copy(this->segment[i], v->segment[i], v->early_size - (1 << i));
}
}
this->early_size = v_size;
}
/* ?_Internal_grow_by@_Concurrent_vector_base_v4@details@Concurrency@@IAEIIIP6AXPAXPBXI@Z1@Z */
/* ?_Internal_grow_by@_Concurrent_vector_base_v4@details@Concurrency@@IEAA_K_K0P6AXPEAXPEBX0@Z2@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_grow_by, 20)
MSVCP_size_t __thiscall _Concurrent_vector_base_v4__Internal_grow_by(
_Concurrent_vector_base_v4 *this, MSVCP_size_t count, MSVCP_size_t element_size,
void (__cdecl *copy)(void*, const void*, MSVCP_size_t), const void *v)
{
MSVCP_size_t size, seg_no, last_seg_no, remain_size;
TRACE("(%p %ld %ld %p %p)\n", this, count, element_size, copy, v);
if(count == 0) return this->early_size;
do {
size = this->early_size;
_Concurrent_vector_base_v4__Internal_reserve(this, size + count, element_size,
MSVCP_SIZE_T_MAX / element_size);
} while(InterlockedCompareExchangeSizeT(&this->early_size, size + count, size) != size);
seg_no = size ? _vector_base_v4__Segment_index_of(size - 1) : 0;
last_seg_no = _vector_base_v4__Segment_index_of(size + count - 1);
remain_size = min(size + count, 1 << (seg_no + 1)) - size;
if(remain_size > 0)
copy(((BYTE**)this->segment[seg_no] + element_size * (size - ((1 << seg_no) & ~1))), v,
remain_size);
if(seg_no != last_seg_no)
{
for(seg_no++; seg_no < last_seg_no; seg_no++)
copy(this->segment[seg_no], v, 1 << seg_no);
copy(this->segment[last_seg_no], v, size + count - (1 << last_seg_no));
}
return size;
}
/* ?_Internal_grow_to_at_least_with_result@_Concurrent_vector_base_v4@details@Concurrency@@IAEIIIP6AXPAXPBXI@Z1@Z */
/* ?_Internal_grow_to_at_least_with_result@_Concurrent_vector_base_v4@details@Concurrency@@IEAA_K_K0P6AXPEAXPEBX0@Z2@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_grow_to_at_least_with_result, 20)
MSVCP_size_t __thiscall _Concurrent_vector_base_v4__Internal_grow_to_at_least_with_result(
_Concurrent_vector_base_v4 *this, MSVCP_size_t count, MSVCP_size_t element_size,
void (__cdecl *copy)(void*, const void*, MSVCP_size_t), const void *v)
{
MSVCP_size_t size, seg_no, last_seg_no, remain_size;
TRACE("(%p %ld %ld %p %p)\n", this, count, element_size, copy, v);
_Concurrent_vector_base_v4__Internal_reserve(this, count, element_size,
MSVCP_SIZE_T_MAX / element_size);
do {
size = this->early_size;
if(size >= count) return size;
} while(InterlockedCompareExchangeSizeT(&this->early_size, count, size) != size);
seg_no = size ? _vector_base_v4__Segment_index_of(size - 1) : 0;
last_seg_no = _vector_base_v4__Segment_index_of(count - 1);
remain_size = min(count, 1 << (seg_no + 1)) - size;
if(remain_size > 0)
copy(((BYTE**)this->segment[seg_no] + element_size * (size - ((1 << seg_no) & ~1))), v,
remain_size);
if(seg_no != last_seg_no)
{
for(seg_no++; seg_no < last_seg_no; seg_no++)
copy(this->segment[seg_no], v, 1 << seg_no);
copy(this->segment[last_seg_no], v, count - (1 << last_seg_no));
}
return size;
}
/* ?_Internal_push_back@_Concurrent_vector_base_v4@details@Concurrency@@IAEPAXIAAI@Z */
/* ?_Internal_push_back@_Concurrent_vector_base_v4@details@Concurrency@@IEAAPEAX_KAEA_K@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_push_back, 12)
void * __thiscall _Concurrent_vector_base_v4__Internal_push_back(
_Concurrent_vector_base_v4 *this, MSVCP_size_t element_size, MSVCP_size_t *idx)
{
MSVCP_size_t index, seg, segment_base;
void *data;
TRACE("(%p %ld %p)\n", this, element_size, idx);
do {
index = this->early_size;
_Concurrent_vector_base_v4__Internal_reserve(this, index + 1,
element_size, MSVCP_SIZE_T_MAX / element_size);
} while(InterlockedCompareExchangeSizeT(&this->early_size, index + 1, index) != index);
seg = _vector_base_v4__Segment_index_of(index);
segment_base = (seg == 0) ? 0 : (1 << seg);
data = (BYTE*)this->segment[seg] + element_size * (index - segment_base);
*idx = index;
return data;
}
/* ?_Internal_resize@_Concurrent_vector_base_v4@details@Concurrency@@IAEXIIIP6AXPAXI@ZP6AX0PBXI@Z2@Z */
/* ?_Internal_resize@_Concurrent_vector_base_v4@details@Concurrency@@IEAAX_K00P6AXPEAX0@ZP6AX1PEBX0@Z3@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_resize, 28)
void __thiscall _Concurrent_vector_base_v4__Internal_resize(
_Concurrent_vector_base_v4 *this, MSVCP_size_t resize, MSVCP_size_t element_size,
MSVCP_size_t max_size, void (__cdecl *clear)(void*, MSVCP_size_t),
void (__cdecl *copy)(void*, const void*, MSVCP_size_t), const void *v)
{
MSVCP_size_t size, seg_no, end_seg_no, clear_element;
TRACE("(%p %ld %ld %ld %p %p %p)\n", this, resize, element_size, max_size, clear, copy, v);
if(resize > max_size) _vector_base_v4__Internal_throw_exception(this, 0);
size = this->early_size;
if(resize > size)
_Concurrent_vector_base_v4__Internal_grow_to_at_least_with_result(this,
resize, element_size, copy, v);
else if(resize == 0)
_Concurrent_vector_base_v4__Internal_clear(this, clear);
else if(resize < size)
{
seg_no = _vector_base_v4__Segment_index_of(size - 1);
end_seg_no = _vector_base_v4__Segment_index_of(resize - 1);
clear_element = size - (seg_no ? 1 << seg_no : 2);
if(clear_element > 0)
clear(this->segment[seg_no], clear_element);
if(seg_no) seg_no--;
for(; seg_no > end_seg_no; seg_no--)
clear(this->segment[seg_no], 1 << seg_no);
clear_element = (1 << (end_seg_no + 1)) - resize;
if(clear_element > 0)
clear((BYTE**)this->segment[end_seg_no] + element_size * (resize - ((1 << end_seg_no) & ~1)),
clear_element);
this->early_size = resize;
}
}
/* ?_Internal_swap@_Concurrent_vector_base_v4@details@Concurrency@@IAEXAAV123@@Z */
/* ?_Internal_swap@_Concurrent_vector_base_v4@details@Concurrency@@IEAAXAEAV123@@Z */
DEFINE_THISCALL_WRAPPER(_Concurrent_vector_base_v4__Internal_swap, 8)
void __thiscall _Concurrent_vector_base_v4__Internal_swap(
_Concurrent_vector_base_v4 *this, _Concurrent_vector_base_v4 *v)
{
_Concurrent_vector_base_v4 temp;
TRACE("(%p %p)\n", this, v);
temp = *this;
*this = *v;
*v = temp;
if(v->segment == this->storage)
v->segment = v->storage;
if(this->segment == v->storage)
this->segment = this->storage;
}
#endif
#ifndef __GNUC__
void __asm_dummy_vtables(void) {
#endif
#if _MSVCP_VER == 100
__ASM_VTABLE(iostream_category,
VTABLE_ADD_FUNC(custom_category_vector_dtor)
VTABLE_ADD_FUNC(custom_category_name)
VTABLE_ADD_FUNC(iostream_category_message)
VTABLE_ADD_FUNC(custom_category_default_error_condition)
VTABLE_ADD_FUNC(custom_category_equivalent)
VTABLE_ADD_FUNC(custom_category_equivalent_code));
__ASM_VTABLE(system_category,
VTABLE_ADD_FUNC(custom_category_vector_dtor)
VTABLE_ADD_FUNC(custom_category_name)
VTABLE_ADD_FUNC(custom_category_message)
VTABLE_ADD_FUNC(custom_category_default_error_condition)
VTABLE_ADD_FUNC(custom_category_equivalent)
VTABLE_ADD_FUNC(custom_category_equivalent_code));
__ASM_VTABLE(generic_category,
VTABLE_ADD_FUNC(custom_category_vector_dtor)
VTABLE_ADD_FUNC(custom_category_name)
VTABLE_ADD_FUNC(custom_category_message)
VTABLE_ADD_FUNC(custom_category_default_error_condition)
VTABLE_ADD_FUNC(custom_category_equivalent)
VTABLE_ADD_FUNC(custom_category_equivalent_code));
#endif
#if _MSVCP_VER >= 100
__ASM_VTABLE(_Concurrent_queue_base_v4,
#if _MSVCP_VER >= 110
VTABLE_ADD_FUNC(_Concurrent_queue_base_v4_dummy)
#endif
VTABLE_ADD_FUNC(_Concurrent_queue_base_v4_dummy)
VTABLE_ADD_FUNC(_Concurrent_queue_base_v4_dummy)
VTABLE_ADD_FUNC(_Concurrent_queue_base_v4_vector_dtor)
VTABLE_ADD_FUNC(_Concurrent_queue_base_v4_dummy)
VTABLE_ADD_FUNC(_Concurrent_queue_base_v4_dummy));
__ASM_VTABLE(_Runtime_object,
VTABLE_ADD_FUNC(_Runtime_object__GetId));
#endif
#if _MSVCP_VER >= 110
__ASM_VTABLE(_Pad,
VTABLE_ADD_FUNC(_Pad__Go));
#endif
#ifndef __GNUC__
}
#endif
/*********************************************************************
* __crtInitializeCriticalSectionEx (MSVCP140.@)
*/
BOOL CDECL MSVCP__crtInitializeCriticalSectionEx(
CRITICAL_SECTION *cs, DWORD spin_count, DWORD flags)
{
TRACE("(%p %x %x)\n", cs, spin_count, flags);
return InitializeCriticalSectionEx(cs, spin_count, flags);
}
/*********************************************************************
* __crtCreateEventExW (MSVCP140.@)
*/
HANDLE CDECL MSVCP__crtCreateEventExW(
SECURITY_ATTRIBUTES *attribs, LPCWSTR name, DWORD flags, DWORD access)
{
TRACE("(%p %s 0x%08x 0x%08x)\n", attribs, debugstr_w(name), flags, access);
return CreateEventExW(attribs, name, flags, access);
}
/*********************************************************************
* __crtGetTickCount64 (MSVCP140.@)
*/
ULONGLONG CDECL MSVCP__crtGetTickCount64(void)
{
return GetTickCount64();
}
/*********************************************************************
* __crtGetCurrentProcessorNumber (MSVCP140.@)
*/
DWORD CDECL MSVCP__crtGetCurrentProcessorNumber(void)
{
return GetCurrentProcessorNumber();
}
/*********************************************************************
* __crtFlushProcessWriteBuffers (MSVCP140.@)
*/
VOID CDECL MSVCP__crtFlushProcessWriteBuffers(void)
{
return FlushProcessWriteBuffers();
}
/*********************************************************************
* __crtCreateSemaphoreExW (MSVCP140.@)
*/
HANDLE CDECL MSVCP__crtCreateSemaphoreExW(
SECURITY_ATTRIBUTES *attribs, LONG initial_count, LONG max_count, LPCWSTR name,
DWORD flags, DWORD access)
{
TRACE("(%p %d %d %s 0x%08x 0x%08x)\n", attribs, initial_count, max_count, debugstr_w(name),
flags, access);
return CreateSemaphoreExW(attribs, initial_count, max_count, name, flags, access);
}
/*********************************************************************
* __crtCreateThreadpoolTimer (MSVCP140.@)
*/
PTP_TIMER CDECL MSVCP__crtCreateThreadpoolTimer(PTP_TIMER_CALLBACK callback,
PVOID userdata, TP_CALLBACK_ENVIRON *environment)
{
TRACE("(%p %p %p)\n", callback, userdata, environment);
return CreateThreadpoolTimer(callback, userdata, environment);
}
/*********************************************************************
* __crtCloseThreadpoolTimer (MSVCP140.@)
*/
VOID CDECL MSVCP__crtCloseThreadpoolTimer(TP_TIMER *timer)
{
TRACE("(%p)\n", timer);
CloseThreadpoolTimer(timer);
}
/*********************************************************************
* __crtSetThreadpoolTimer (MSVCP140.@)
*/
VOID CDECL MSVCP__crtSetThreadpoolTimer(TP_TIMER *timer,
FILETIME *due_time, DWORD period, DWORD window_length)
{
TRACE("(%p %p 0x%08x 0x%08x)\n", timer, due_time, period, window_length);
return SetThreadpoolTimer(timer, due_time, period, window_length);
}
/*********************************************************************
* __crtWaitForThreadpoolTimerCallbacks (MSVCP140.@)
*/
VOID CDECL MSVCP__crtWaitForThreadpoolTimerCallbacks(TP_TIMER *timer, BOOL cancel)
{
TRACE("(%p %d)\n", timer, cancel);
WaitForThreadpoolTimerCallbacks(timer, cancel);
}
/*********************************************************************
* __crtCreateThreadpoolWait (MSVCP140.@)
*/
PTP_WAIT CDECL MSVCP__crtCreateThreadpoolWait(PTP_WAIT_CALLBACK callback,
PVOID userdata, TP_CALLBACK_ENVIRON *environment)
{
TRACE("(%p %p %p)\n", callback, userdata, environment);
return CreateThreadpoolWait(callback, userdata, environment);
}
/*********************************************************************
* __crtCloseThreadpoolWait (MSVCP140.@)
*/
VOID CDECL MSVCP__crtCloseThreadpoolWait(TP_WAIT *wait)
{
TRACE("(%p)\n", wait);
CloseThreadpoolWait(wait);
}
/*********************************************************************
* __crtSetThreadpoolWait (MSVCP140.@)
*/
VOID CDECL MSVCP__crtSetThreadpoolWait(TP_WAIT *wait, HANDLE handle, FILETIME *due_time)
{
TRACE("(%p %p %p)\n", wait, handle, due_time);
return SetThreadpoolWait(wait, handle, due_time);
}
/*********************************************************************
* __crtFreeLibraryWhenCallbackReturns (MSVCP140.@)
*/
VOID CDECL MSVCP__crtFreeLibraryWhenCallbackReturns(PTP_CALLBACK_INSTANCE instance, HMODULE mod)
{
TRACE("(%p %p)\n", instance, mod);
FreeLibraryWhenCallbackReturns(instance, mod);
}
/* ?_Execute_once@std@@YAHAAUonce_flag@1@P6GHPAX1PAPAX@Z1@Z */
/* ?_Execute_once@std@@YAHAEAUonce_flag@1@P6AHPEAX1PEAPEAX@Z1@Z */
BOOL __cdecl _Execute_once(INIT_ONCE *flag, PINIT_ONCE_FN func, void *param)
{
return InitOnceExecuteOnce(flag, func, param, NULL);
}
#if _MSVCP_VER >= 100
void init_misc(void *base)
{
#ifdef __x86_64__
#if _MSVCP_VER == 100
init_error_category_rtti(base);
init_iostream_category_rtti(base);
init_system_category_rtti(base);
init_generic_category_rtti(base);
#endif
#if _MSVCP_VER >= 100
init__Concurrent_queue_base_v4_rtti(base);
init__Runtime_object_rtti(base);
#endif
#if _MSVCP_VER >= 110
init__Pad_rtti(base);
#endif
#endif
#if _MSVCP_VER == 100
iostream_category_ctor(&iostream_category);
system_category_ctor(&system_category);
generic_category_ctor(&generic_category);
#endif
}
void free_misc(void)
{
#if _MSVCP_VER >= 110
if(keyed_event)
NtClose(keyed_event);
HeapFree(GetProcessHeap(), 0, broadcast_at_thread_exit.to_broadcast);
#endif
}
#endif
#if _MSVCP_VER >= 140
LONGLONG __cdecl _Query_perf_counter(void)
{
LARGE_INTEGER li;
QueryPerformanceCounter(&li);
return li.QuadPart;
}
LONGLONG __cdecl _Query_perf_frequency(void)
{
LARGE_INTEGER li;
QueryPerformanceFrequency(&li);
return li.QuadPart;
}
#endif
void __cdecl threads__Mtx_new(void **mtx)
{
*mtx = MSVCRT_operator_new(sizeof(CRITICAL_SECTION));
InitializeCriticalSection(*mtx);
}
void __cdecl threads__Mtx_delete(void *mtx)
{
DeleteCriticalSection(mtx);
}
void __cdecl threads__Mtx_lock(void *mtx)
{
EnterCriticalSection(mtx);
}
void __cdecl threads__Mtx_unlock(void *mtx)
{
LeaveCriticalSection(mtx);
}
#if _MSVCP_VER >= 110
static LONG shared_ptr_lock;
void __cdecl _Lock_shared_ptr_spin_lock(void)
{
LONG l = 0;
while(InterlockedCompareExchange(&shared_ptr_lock, 1, 0) != 0) {
if(l++ == 1000) {
Sleep(0);
l = 0;
}
}
}
void __cdecl _Unlock_shared_ptr_spin_lock(void)
{
shared_ptr_lock = 0;
}
#endif
#if _MSVCP_VER >= 100
/* ?is_current_task_group_canceling@Concurrency@@YA_NXZ */
MSVCP_bool __cdecl is_current_task_group_canceling(void)
{
return Context_IsCurrentTaskCollectionCanceling();
}
/* ?_GetCombinableSize@details@Concurrency@@YAIXZ */
/* ?_GetCombinableSize@details@Concurrency@@YA_KXZ */
MSVCP_size_t __cdecl _GetCombinableSize(void)
{
FIXME("() stub\n");
return 11;
}
#endif
#if _MSVCP_VER >= 140
typedef struct {
void *unk0;
BYTE unk1;
} task_continuation_context;
/* ??0task_continuation_context@Concurrency@@AAE@XZ */
/* ??0task_continuation_context@Concurrency@@AEAA@XZ */
DEFINE_THISCALL_WRAPPER(task_continuation_context_ctor, 4)
task_continuation_context* __thiscall task_continuation_context_ctor(task_continuation_context *this)
{
TRACE("(%p)\n", this);
memset(this, 0, sizeof(*this));
return this;
}
typedef struct {
const vtable_ptr *vtable;
void (__cdecl *func)(void);
int unk[4];
void *unk2[3];
void *this;
} function_void_cdecl_void;
/* ?_Assign@_ContextCallback@details@Concurrency@@AAEXPAX@Z */
/* ?_Assign@_ContextCallback@details@Concurrency@@AEAAXPEAX@Z */
DEFINE_THISCALL_WRAPPER(_ContextCallback__Assign, 8)
void __thiscall _ContextCallback__Assign(void *this, void *v)
{
TRACE("(%p %p)\n", this, v);
}
#define call_function_do_call(this) CALL_VTBL_FUNC(this, 8, void, (function_void_cdecl_void*), (this))
#define call_function_do_clean(this,b) CALL_VTBL_FUNC(this, 16, void, (function_void_cdecl_void*,MSVCP_bool), (this, b))
/* ?_CallInContext@_ContextCallback@details@Concurrency@@QBEXV?$function@$$A6AXXZ@std@@_N@Z */
/* ?_CallInContext@_ContextCallback@details@Concurrency@@QEBAXV?$function@$$A6AXXZ@std@@_N@Z */
DEFINE_THISCALL_WRAPPER(_ContextCallback__CallInContext, 48)
void __thiscall _ContextCallback__CallInContext(const void *this, function_void_cdecl_void func, MSVCP_bool b)
{
TRACE("(%p %p %x)\n", this, func.func, b);
call_function_do_call(func.this);
call_function_do_clean(func.this, func.this!=&func);
}
/* ?_Capture@_ContextCallback@details@Concurrency@@AAEXXZ */
/* ?_Capture@_ContextCallback@details@Concurrency@@AEAAXXZ */
DEFINE_THISCALL_WRAPPER(_ContextCallback__Capture, 4)
void __thiscall _ContextCallback__Capture(void *this)
{
TRACE("(%p)\n", this);
}
/* ?_Reset@_ContextCallback@details@Concurrency@@AAEXXZ */
/* ?_Reset@_ContextCallback@details@Concurrency@@AEAAXXZ */
DEFINE_THISCALL_WRAPPER(_ContextCallback__Reset, 4)
void __thiscall _ContextCallback__Reset(void *this)
{
TRACE("(%p)\n", this);
}
/* ?_IsCurrentOriginSTA@_ContextCallback@details@Concurrency@@CA_NXZ */
MSVCP_bool __cdecl _ContextCallback__IsCurrentOriginSTA(void *this)
{
TRACE("(%p)\n", this);
return FALSE;
}
typedef struct {
/*_Task_impl_base*/void *task;
MSVCP_bool scheduled;
MSVCP_bool started;
} _TaskEventLogger;
/* ?_LogCancelTask@_TaskEventLogger@details@Concurrency@@QAEXXZ */
/* ?_LogCancelTask@_TaskEventLogger@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_TaskEventLogger__LogCancelTask, 4)
void __thiscall _TaskEventLogger__LogCancelTask(_TaskEventLogger *this)
{
TRACE("(%p)\n", this);
}
/* ?_LogScheduleTask@_TaskEventLogger@details@Concurrency@@QAEX_N@Z */
/* ?_LogScheduleTask@_TaskEventLogger@details@Concurrency@@QEAAX_N@Z */
DEFINE_THISCALL_WRAPPER(_TaskEventLogger__LogScheduleTask, 8)
void __thiscall _TaskEventLogger__LogScheduleTask(_TaskEventLogger *this, MSVCP_bool continuation)
{
TRACE("(%p %x)\n", this, continuation);
}
/* ?_LogTaskCompleted@_TaskEventLogger@details@Concurrency@@QAEXXZ */
/* ?_LogTaskCompleted@_TaskEventLogger@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_TaskEventLogger__LogTaskCompleted, 4)
void __thiscall _TaskEventLogger__LogTaskCompleted(_TaskEventLogger *this)
{
TRACE("(%p)\n", this);
}
/* ?_LogTaskExecutionCompleted@_TaskEventLogger@details@Concurrency@@QAEXXZ */
/* ?_LogTaskExecutionCompleted@_TaskEventLogger@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_TaskEventLogger__LogTaskExecutionCompleted, 4)
void __thiscall _TaskEventLogger__LogTaskExecutionCompleted(_TaskEventLogger *this)
{
TRACE("(%p)\n", this);
}
/* ?_LogWorkItemCompleted@_TaskEventLogger@details@Concurrency@@QAEXXZ */
/* ?_LogWorkItemCompleted@_TaskEventLogger@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_TaskEventLogger__LogWorkItemCompleted, 4)
void __thiscall _TaskEventLogger__LogWorkItemCompleted(_TaskEventLogger *this)
{
TRACE("(%p)\n", this);
}
/* ?_LogWorkItemStarted@_TaskEventLogger@details@Concurrency@@QAEXXZ */
/* ?_LogWorkItemStarted@_TaskEventLogger@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_TaskEventLogger__LogWorkItemStarted, 4)
void __thiscall _TaskEventLogger__LogWorkItemStarted(_TaskEventLogger *this)
{
TRACE("(%p)\n", this);
}
typedef struct {
PTP_WORK work;
void (__cdecl *callback)(void*);
void *arg;
} _Threadpool_chore;
/* ?_Reschedule_chore@details@Concurrency@@YAHPBU_Threadpool_chore@12@@Z */
/* ?_Reschedule_chore@details@Concurrency@@YAHPEBU_Threadpool_chore@12@@Z */
int __cdecl _Reschedule_chore(const _Threadpool_chore *chore)
{
TRACE("(%p)\n", chore);
SubmitThreadpoolWork(chore->work);
return 0;
}
static void WINAPI threadpool_callback(PTP_CALLBACK_INSTANCE instance, void *context, PTP_WORK work)
{
_Threadpool_chore *chore = context;
TRACE("calling chore callback: %p\n", chore);
if (chore->callback)
chore->callback(chore->arg);
}
/* ?_Schedule_chore@details@Concurrency@@YAHPAU_Threadpool_chore@12@@Z */
/* ?_Schedule_chore@details@Concurrency@@YAHPEAU_Threadpool_chore@12@@Z */
int __cdecl _Schedule_chore(_Threadpool_chore *chore)
{
TRACE("(%p)\n", chore);
chore->work = CreateThreadpoolWork(threadpool_callback, chore, NULL);
/* FIXME: what should be returned in case of error */
if(!chore->work)
return -1;
return _Reschedule_chore(chore);
}
/* ?_Release_chore@details@Concurrency@@YAXPAU_Threadpool_chore@12@@Z */
/* ?_Release_chore@details@Concurrency@@YAXPEAU_Threadpool_chore@12@@Z */
void __cdecl _Release_chore(_Threadpool_chore *chore)
{
TRACE("(%p)\n", chore);
if(!chore->work) return;
CloseThreadpoolWork(chore->work);
chore->work = NULL;
}
#endif
#if _MSVCP_VER >= 110 && _MSVCP_VER <= 120
typedef struct {
char dummy;
} _Ph;
/* ?_1@placeholders@std@@3V?$_Ph@$00@2@A */
/* ?_20@placeholders@std@@3V?$_Ph@$0BE@@2@A */
_Ph _Ph_1 = {0}, _Ph_2 = {0}, _Ph_3 = {0}, _Ph_4 = {0}, _Ph_5 = {0};
_Ph _Ph_6 = {0}, _Ph_7 = {0}, _Ph_8 = {0}, _Ph_9 = {0}, _Ph_10 = {0};
_Ph _Ph_11 = {0}, _Ph_12 = {0}, _Ph_13 = {0}, _Ph_14 = {0}, _Ph_15 = {0};
_Ph _Ph_16 = {0}, _Ph_17 = {0}, _Ph_18 = {0}, _Ph_19 = {0}, _Ph_20 = {0};
#endif
#if _MSVCP_VER >= 140
/* ?_IsNonBlockingThread@_Task_impl_base@details@Concurrency@@SA_NXZ */
MSVCP_bool __cdecl _Task_impl_base__IsNonBlockingThread(void)
{
FIXME("() stub\n");
return FALSE;
}
#endif
#if _MSVCP_VER >= 110
/* ?_Syserror_map@std@@YAPBDH@Z */
/* ?_Syserror_map@std@@YAPEBDH@Z */
const char* __cdecl _Syserror_map(int err)
{
int i;
TRACE("(%d)\n", err);
for(i = 0; i < ARRAY_SIZE(syserror_map); i++)
{
if(syserror_map[i].err == err)
return syserror_map[i].str;
}
return NULL;
}
#endif
#if _MSVCP_VER >= 140
/* ?_Winerror_message@std@@YAKKPADK@Z */
/* ?_Winerror_message@std@@YAKKPEADK@Z */
ULONG __cdecl _Winerror_message(ULONG err, char *buf, ULONG size)
{
TRACE("(%u %p %u)\n", err, buf, size);
return FormatMessageA(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS,
NULL, err, 0, buf, size, NULL);
}
/* ?_Winerror_map@std@@YAHH@Z */
int __cdecl _Winerror_map(int err)
{
int low = 0, high = ARRAY_SIZE(winerror_map) - 1, mid;
while(low <= high)
{
mid = (low + high) / 2;
if(err == winerror_map[mid].winerr)
return winerror_map[mid].doserr;
if(err > winerror_map[mid].winerr)
low = mid + 1;
else
high = mid - 1;
}
return 0;
}
#endif