/* This file is auto-generated, do not edit. */ #include #include #include "vrclient_private.h" #include "flatapi.h" WINE_DEFAULT_DEBUG_CHANNEL(vrclient); DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_001_Open, 24) DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_001_Close, 12) DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_001_Read, 24) DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_001_Write, 20) DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_001_PropertyContainer, 12) uint32_t __thiscall winIVRIOBuffer_IVRIOBuffer_001_Open(struct w_steam_iface *_this, const char *pchPath, uint32_t mode, uint32_t unElementSize, uint32_t unElements, uint64_t *pulBuffer) { struct IVRIOBuffer_IVRIOBuffer_001_Open_params params = { .linux_side = _this->u_iface, .pchPath = pchPath, .mode = mode, .unElementSize = unElementSize, .unElements = unElements, .pulBuffer = pulBuffer, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_001_Open, ¶ms ); return params._ret; } uint32_t __thiscall winIVRIOBuffer_IVRIOBuffer_001_Close(struct w_steam_iface *_this, uint64_t ulBuffer) { struct IVRIOBuffer_IVRIOBuffer_001_Close_params params = { .linux_side = _this->u_iface, .ulBuffer = ulBuffer, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_001_Close, ¶ms ); return params._ret; } uint32_t __thiscall winIVRIOBuffer_IVRIOBuffer_001_Read(struct w_steam_iface *_this, uint64_t ulBuffer, void *pDst, uint32_t unBytes, uint32_t *punRead) { struct IVRIOBuffer_IVRIOBuffer_001_Read_params params = { .linux_side = _this->u_iface, .ulBuffer = ulBuffer, .pDst = pDst, .unBytes = unBytes, .punRead = punRead, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_001_Read, ¶ms ); return params._ret; } uint32_t __thiscall winIVRIOBuffer_IVRIOBuffer_001_Write(struct w_steam_iface *_this, uint64_t ulBuffer, void *pSrc, uint32_t unBytes) { struct IVRIOBuffer_IVRIOBuffer_001_Write_params params = { .linux_side = _this->u_iface, .ulBuffer = ulBuffer, .pSrc = pSrc, .unBytes = unBytes, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_001_Write, ¶ms ); return params._ret; } uint64_t __thiscall winIVRIOBuffer_IVRIOBuffer_001_PropertyContainer(struct w_steam_iface *_this, uint64_t ulBuffer) { struct IVRIOBuffer_IVRIOBuffer_001_PropertyContainer_params params = { .linux_side = _this->u_iface, .ulBuffer = ulBuffer, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_001_PropertyContainer, ¶ms ); return params._ret; } extern vtable_ptr winIVRIOBuffer_IVRIOBuffer_001_vtable; DEFINE_RTTI_DATA0(winIVRIOBuffer_IVRIOBuffer_001, 0, ".?AVIVRIOBuffer@@") __ASM_BLOCK_BEGIN(winIVRIOBuffer_IVRIOBuffer_001_vtables) __ASM_VTABLE(winIVRIOBuffer_IVRIOBuffer_001, VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_001_Open) VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_001_Close) VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_001_Read) VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_001_Write) VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_001_PropertyContainer) ); __ASM_BLOCK_END struct w_steam_iface *create_winIVRIOBuffer_IVRIOBuffer_001(void *u_iface) { struct w_steam_iface *r = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*r)); TRACE("-> %p\n", r); r->vtable = &winIVRIOBuffer_IVRIOBuffer_001_vtable; r->u_iface = u_iface; return r; } void destroy_winIVRIOBuffer_IVRIOBuffer_001(struct w_steam_iface *object) { TRACE("%p\n", object); HeapFree(GetProcessHeap(), 0, object); } struct w_steam_iface *create_winIVRIOBuffer_IVRIOBuffer_001_FnTable(void *u_iface) { struct w_steam_iface *r = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*r)); struct thunk *thunks = alloc_thunks(5); struct thunk **vtable = HeapAlloc(GetProcessHeap(), 0, 5 * sizeof(*vtable)); int i; TRACE("-> %p, vtable %p, thunks %p\n", r, vtable, thunks); init_thunk(&thunks[0], r, winIVRIOBuffer_IVRIOBuffer_001_Open, 5, FALSE, FALSE); init_thunk(&thunks[1], r, winIVRIOBuffer_IVRIOBuffer_001_Close, 1, FALSE, FALSE); init_thunk(&thunks[2], r, winIVRIOBuffer_IVRIOBuffer_001_Read, 4, FALSE, FALSE); init_thunk(&thunks[3], r, winIVRIOBuffer_IVRIOBuffer_001_Write, 3, FALSE, FALSE); init_thunk(&thunks[4], r, winIVRIOBuffer_IVRIOBuffer_001_PropertyContainer, 1, FALSE, FALSE); for (i = 0; i < 5; i++) vtable[i] = &thunks[i]; r->u_iface = u_iface; r->vtable = (void *)vtable; return r; } void destroy_winIVRIOBuffer_IVRIOBuffer_001_FnTable(struct w_steam_iface *object) { TRACE("%p\n", object); VirtualFree(object->vtable[0], 0, MEM_RELEASE); HeapFree(GetProcessHeap(), 0, object->vtable); HeapFree(GetProcessHeap(), 0, object); } DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_002_Open, 24) DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_002_Close, 12) DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_002_Read, 24) DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_002_Write, 20) DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_002_PropertyContainer, 12) DEFINE_THISCALL_WRAPPER(winIVRIOBuffer_IVRIOBuffer_002_HasReaders, 12) uint32_t __thiscall winIVRIOBuffer_IVRIOBuffer_002_Open(struct w_steam_iface *_this, const char *pchPath, uint32_t mode, uint32_t unElementSize, uint32_t unElements, uint64_t *pulBuffer) { struct IVRIOBuffer_IVRIOBuffer_002_Open_params params = { .linux_side = _this->u_iface, .pchPath = pchPath, .mode = mode, .unElementSize = unElementSize, .unElements = unElements, .pulBuffer = pulBuffer, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_002_Open, ¶ms ); return params._ret; } uint32_t __thiscall winIVRIOBuffer_IVRIOBuffer_002_Close(struct w_steam_iface *_this, uint64_t ulBuffer) { struct IVRIOBuffer_IVRIOBuffer_002_Close_params params = { .linux_side = _this->u_iface, .ulBuffer = ulBuffer, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_002_Close, ¶ms ); return params._ret; } uint32_t __thiscall winIVRIOBuffer_IVRIOBuffer_002_Read(struct w_steam_iface *_this, uint64_t ulBuffer, void *pDst, uint32_t unBytes, uint32_t *punRead) { struct IVRIOBuffer_IVRIOBuffer_002_Read_params params = { .linux_side = _this->u_iface, .ulBuffer = ulBuffer, .pDst = pDst, .unBytes = unBytes, .punRead = punRead, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_002_Read, ¶ms ); return params._ret; } uint32_t __thiscall winIVRIOBuffer_IVRIOBuffer_002_Write(struct w_steam_iface *_this, uint64_t ulBuffer, void *pSrc, uint32_t unBytes) { struct IVRIOBuffer_IVRIOBuffer_002_Write_params params = { .linux_side = _this->u_iface, .ulBuffer = ulBuffer, .pSrc = pSrc, .unBytes = unBytes, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_002_Write, ¶ms ); return params._ret; } uint64_t __thiscall winIVRIOBuffer_IVRIOBuffer_002_PropertyContainer(struct w_steam_iface *_this, uint64_t ulBuffer) { struct IVRIOBuffer_IVRIOBuffer_002_PropertyContainer_params params = { .linux_side = _this->u_iface, .ulBuffer = ulBuffer, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_002_PropertyContainer, ¶ms ); return params._ret; } int8_t __thiscall winIVRIOBuffer_IVRIOBuffer_002_HasReaders(struct w_steam_iface *_this, uint64_t ulBuffer) { struct IVRIOBuffer_IVRIOBuffer_002_HasReaders_params params = { .linux_side = _this->u_iface, .ulBuffer = ulBuffer, }; TRACE("%p\n", _this); VRCLIENT_CALL( IVRIOBuffer_IVRIOBuffer_002_HasReaders, ¶ms ); return params._ret; } extern vtable_ptr winIVRIOBuffer_IVRIOBuffer_002_vtable; DEFINE_RTTI_DATA0(winIVRIOBuffer_IVRIOBuffer_002, 0, ".?AVIVRIOBuffer@@") __ASM_BLOCK_BEGIN(winIVRIOBuffer_IVRIOBuffer_002_vtables) __ASM_VTABLE(winIVRIOBuffer_IVRIOBuffer_002, VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_002_Open) VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_002_Close) VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_002_Read) VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_002_Write) VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_002_PropertyContainer) VTABLE_ADD_FUNC(winIVRIOBuffer_IVRIOBuffer_002_HasReaders) ); __ASM_BLOCK_END struct w_steam_iface *create_winIVRIOBuffer_IVRIOBuffer_002(void *u_iface) { struct w_steam_iface *r = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*r)); TRACE("-> %p\n", r); r->vtable = &winIVRIOBuffer_IVRIOBuffer_002_vtable; r->u_iface = u_iface; return r; } void destroy_winIVRIOBuffer_IVRIOBuffer_002(struct w_steam_iface *object) { TRACE("%p\n", object); HeapFree(GetProcessHeap(), 0, object); } struct w_steam_iface *create_winIVRIOBuffer_IVRIOBuffer_002_FnTable(void *u_iface) { struct w_steam_iface *r = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*r)); struct thunk *thunks = alloc_thunks(6); struct thunk **vtable = HeapAlloc(GetProcessHeap(), 0, 6 * sizeof(*vtable)); int i; TRACE("-> %p, vtable %p, thunks %p\n", r, vtable, thunks); init_thunk(&thunks[0], r, winIVRIOBuffer_IVRIOBuffer_002_Open, 5, FALSE, FALSE); init_thunk(&thunks[1], r, winIVRIOBuffer_IVRIOBuffer_002_Close, 1, FALSE, FALSE); init_thunk(&thunks[2], r, winIVRIOBuffer_IVRIOBuffer_002_Read, 4, FALSE, FALSE); init_thunk(&thunks[3], r, winIVRIOBuffer_IVRIOBuffer_002_Write, 3, FALSE, FALSE); init_thunk(&thunks[4], r, winIVRIOBuffer_IVRIOBuffer_002_PropertyContainer, 1, FALSE, FALSE); init_thunk(&thunks[5], r, winIVRIOBuffer_IVRIOBuffer_002_HasReaders, 1, FALSE, FALSE); for (i = 0; i < 6; i++) vtable[i] = &thunks[i]; r->u_iface = u_iface; r->vtable = (void *)vtable; return r; } void destroy_winIVRIOBuffer_IVRIOBuffer_002_FnTable(struct w_steam_iface *object) { TRACE("%p\n", object); VirtualFree(object->vtable[0], 0, MEM_RELEASE); HeapFree(GetProcessHeap(), 0, object->vtable); HeapFree(GetProcessHeap(), 0, object); } void init_winIVRIOBuffer_rtti( char *base ) { #ifdef __x86_64__ init_winIVRIOBuffer_IVRIOBuffer_001_rtti( base ); init_winIVRIOBuffer_IVRIOBuffer_002_rtti( base ); #endif /* __x86_64__ */ }