/* Unit test suite for msvcrt C++ objects * * Copyright 2003 Jon Griffiths * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * NOTES * This tests is only valid for ix86 platforms, on others it's a no-op. * Some tests cannot be checked with ok(), for example the dtors. We simply * call them to ensure we don't crash ;-) * * If we build this test with VC++ in debug mode, we will fail in _chkstk() * or at program exit malloc() checking if these methods haven't been * implemented correctly (they have). * * Tested with a range of native msvcrt's from v4 -> v7. */ #include "wine/test.h" #include "winbase.h" #include "winnt.h" #ifndef __i386__ /* Skip these tests for non x86 platforms */ START_TEST(cpp) { } #else typedef struct __exception { void *vtable; char *name; int do_free; } exception; typedef struct __type_info { void *vtable; char *name; char mangled[16]; } type_info; /* Function pointers. We need to use these to call these funcs as __thiscall */ static HMODULE hMsvcrt; static void* (*poperator_new)(unsigned int); static void (*poperator_delete)(void*); static void* (*pmalloc)(unsigned int); static void (*pfree)(void*); /* exception */ static void (WINAPI *pexception_ctor)(exception*,LPCSTR*); static void (WINAPI *pexception_copy_ctor)(exception*,exception*); static void (WINAPI *pexception_default_ctor)(exception*); static void (WINAPI *pexception_dtor)(exception*); static exception* (WINAPI *pexception_opequals)(exception*,exception*); static char* (WINAPI *pexception_what)(exception*); static void* (WINAPI *pexception_vtable)(exception*); static void (WINAPI *pexception_vector_dtor)(exception*,unsigned int); static void (WINAPI *pexception_scalar_dtor)(exception*,unsigned int); /* bad_typeid */ static void (WINAPI *pbad_typeid_ctor)(exception*,LPCSTR); static void (WINAPI *pbad_typeid_ctor_closure)(exception*); static void (WINAPI *pbad_typeid_copy_ctor)(exception*,exception*); static void (WINAPI *pbad_typeid_dtor)(exception*); static exception* (WINAPI *pbad_typeid_opequals)(exception*,exception*); static char* (WINAPI *pbad_typeid_what)(exception*); static void* (WINAPI *pbad_typeid_vtable)(exception*); static void (WINAPI *pbad_typeid_vector_dtor)(exception*,unsigned int); static void (WINAPI *pbad_typeid_scalar_dtor)(exception*,unsigned int); /* bad_cast */ static void (WINAPI *pbad_cast_ctor)(exception*,LPCSTR*); static void (WINAPI *pbad_cast_ctor2)(exception*,LPCSTR); static void (WINAPI *pbad_cast_ctor_closure)(exception*); static void (WINAPI *pbad_cast_copy_ctor)(exception*,exception*); static void (WINAPI *pbad_cast_dtor)(exception*); static exception* (WINAPI *pbad_cast_opequals)(exception*,exception*); static char* (WINAPI *pbad_cast_what)(exception*); static void* (WINAPI *pbad_cast_vtable)(exception*); static void (WINAPI *pbad_cast_vector_dtor)(exception*,unsigned int); static void (WINAPI *pbad_cast_scalar_dtor)(exception*,unsigned int); /* __non_rtti_object */ static void (WINAPI *p__non_rtti_object_ctor)(exception*,LPCSTR); static void (WINAPI *p__non_rtti_object_copy_ctor)(exception*,exception*); static void (WINAPI *p__non_rtti_object_dtor)(exception*); static exception* (WINAPI *p__non_rtti_object_opequals)(exception*,exception*); static char* (WINAPI *p__non_rtti_object_what)(exception*); static void* (WINAPI *p__non_rtti_object_vtable)(exception*); static void (WINAPI *p__non_rtti_object_vector_dtor)(exception*,unsigned int); static void (WINAPI *p__non_rtti_object_scalar_dtor)(exception*,unsigned int); /* type_info */ static void (WINAPI *ptype_info_dtor)(type_info*); static char* (WINAPI *ptype_info_raw_name)(type_info*); static char* (WINAPI *ptype_info_name)(type_info*); static int (WINAPI *ptype_info_before)(type_info*,type_info*); static int (WINAPI *ptype_info_opequals_equals)(type_info*,type_info*); static int (WINAPI *ptype_info_opnot_equals)(type_info*,type_info*); /* RTTI */ static type_info* (*p__RTtypeid)(void*); static void* (*p__RTCastToVoid)(void*); static void* (*p__RTDynamicCast)(void*,int,void*,void*,int); /* _very_ early native versions have serious RTTI bugs, so we check */ static void* bAncientVersion; /* Emulate a __thiscall */ #ifdef _MSC_VER inline static void* do_call_func1(void *func, void *_this) { volatile void* retval = 0; __asm { push ecx mov ecx, _this call func mov retval, eax pop ecx } return (void*)retval; } inline static void* do_call_func2(void *func, void *_this, void* arg) { volatile void* retval = 0; __asm { push ecx push arg mov ecx, _this call func mov retval, eax pop ecx } return (void*)retval; } #else static void* do_call_func1(void *func, void *_this) { void* ret; __asm__ __volatile__ ("pushl %%ecx;\n\tmovl %2, %%ecx;\n\tcall *%1;\n\tpopl %%ecx;" : "=a" (ret) : "g" (func), "m" (_this) : "memory" ); return ret; } static void* do_call_func2(void *func, void *_this, void* arg) { void* ret; __asm__ __volatile__ ("pushl %%ecx;\n\tpushl %2;\n\t" "movl %3, %%ecx;\n\tcall *%1;\n\tpopl %%ecx;" : "=a" (ret) : "g" (func), "m" (arg), "m" (_this) : "memory" ); return ret; } #endif #define call_func1(x,y) do_call_func1((void*)x,(void*)y) #define call_func2(x,y,z) do_call_func2((void*)x,(void*)y,(void*)z) /* Some exports are only available in later versions */ #define SETNOFAIL(x,y) x = (void*)GetProcAddress(hMsvcrt,y) #define SET(x,y) SETNOFAIL(x,y); ok(x != NULL, "Export '%s' not found\n", y) static void InitFunctionPtrs() { hMsvcrt = LoadLibraryA("msvcrt.dll"); ok(hMsvcrt != 0, "LoadLibraryA failed\n"); if (hMsvcrt) { SETNOFAIL(poperator_new, "??_U@YAPAXI@Z"); SETNOFAIL(poperator_delete, "??_V@YAXPAX@Z"); SET(pmalloc, "malloc"); SET(pfree, "free"); if (!poperator_new) poperator_new = pmalloc; if (!poperator_delete) poperator_delete = pfree; SET(pexception_ctor, "??0exception@@QAE@ABQBD@Z"); SET(pexception_copy_ctor, "??0exception@@QAE@ABV0@@Z"); SET(pexception_default_ctor, "??0exception@@QAE@XZ"); SET(pexception_dtor, "??1exception@@UAE@XZ"); SET(pexception_opequals, "??4exception@@QAEAAV0@ABV0@@Z"); SET(pexception_what, "?what@exception@@UBEPBDXZ"); SET(pexception_vtable, "??_7exception@@6B@"); SET(pexception_vector_dtor, "??_Eexception@@UAEPAXI@Z"); SET(pexception_scalar_dtor, "??_Gexception@@UAEPAXI@Z"); SET(pbad_typeid_ctor, "??0bad_typeid@@QAE@PBD@Z"); SETNOFAIL(pbad_typeid_ctor_closure, "??_Fbad_typeid@@QAEXXZ"); SET(pbad_typeid_copy_ctor, "??0bad_typeid@@QAE@ABV0@@Z"); SET(pbad_typeid_dtor, "??1bad_typeid@@UAE@XZ"); SET(pbad_typeid_opequals, "??4bad_typeid@@QAEAAV0@ABV0@@Z"); SET(pbad_typeid_what, "?what@exception@@UBEPBDXZ"); SET(pbad_typeid_vtable, "??_7bad_typeid@@6B@"); SET(pbad_typeid_vector_dtor, "??_Ebad_typeid@@UAEPAXI@Z"); SET(pbad_typeid_scalar_dtor, "??_Gbad_typeid@@UAEPAXI@Z"); SETNOFAIL(pbad_cast_ctor, "??0bad_cast@@QAE@ABQBD@Z"); if (!pbad_cast_ctor) SET(pbad_cast_ctor, "??0bad_cast@@AAE@PBQBD@Z"); SETNOFAIL(pbad_cast_ctor2, "??0bad_cast@@QAE@PBD@Z"); SETNOFAIL(pbad_cast_ctor_closure, "??_Fbad_cast@@QAEXXZ"); SET(pbad_cast_copy_ctor, "??0bad_cast@@QAE@ABV0@@Z"); SET(pbad_cast_dtor, "??1bad_cast@@UAE@XZ"); SET(pbad_cast_opequals, "??4bad_cast@@QAEAAV0@ABV0@@Z"); SET(pbad_cast_what, "?what@exception@@UBEPBDXZ"); SET(pbad_cast_vtable, "??_7bad_cast@@6B@"); SET(pbad_cast_vector_dtor, "??_Ebad_cast@@UAEPAXI@Z"); SET(pbad_cast_scalar_dtor, "??_Gbad_cast@@UAEPAXI@Z"); SET(p__non_rtti_object_ctor, "??0__non_rtti_object@@QAE@PBD@Z"); SET(p__non_rtti_object_copy_ctor, "??0__non_rtti_object@@QAE@ABV0@@Z"); SET(p__non_rtti_object_dtor, "??1__non_rtti_object@@UAE@XZ"); SET(p__non_rtti_object_opequals, "??4__non_rtti_object@@QAEAAV0@ABV0@@Z"); SET(p__non_rtti_object_what, "?what@exception@@UBEPBDXZ"); SET(p__non_rtti_object_vtable, "??_7__non_rtti_object@@6B@"); SET(p__non_rtti_object_vector_dtor, "??_E__non_rtti_object@@UAEPAXI@Z"); SET(p__non_rtti_object_scalar_dtor, "??_G__non_rtti_object@@UAEPAXI@Z"); SET(ptype_info_dtor, "??1type_info@@UAE@XZ"); SET(ptype_info_raw_name, "?raw_name@type_info@@QBEPBDXZ"); SET(ptype_info_name, "?name@type_info@@QBEPBDXZ"); SET(ptype_info_before, "?before@type_info@@QBEHABV1@@Z"); SET(ptype_info_opequals_equals, "??8type_info@@QBEHABV0@@Z"); SET(ptype_info_opnot_equals, "??9type_info@@QBEHABV0@@Z"); SET(p__RTtypeid, "__RTtypeid"); SET(p__RTCastToVoid, "__RTCastToVoid"); SET(p__RTDynamicCast, "__RTDynamicCast"); /* Extremely early versions export logic_error, and crash in RTTI */ SETNOFAIL(bAncientVersion, "??0logic_error@@QAE@ABQBD@Z"); } } static void test_exception(void) { static const char* e_name = "An exception name"; char* name; exception e, e2, e3, *pe; if (!poperator_new || !poperator_delete || !pexception_ctor || !pexception_copy_ctor || !pexception_default_ctor || !pexception_dtor || !pexception_opequals || !pexception_what || !pexception_vtable || !pexception_vector_dtor || !pexception_scalar_dtor) return; /* 'const char*&' ctor */ memset(&e, 0, sizeof(e)); call_func2(pexception_ctor, &e, &e_name); ok(e.vtable != NULL, "Null exception vtable for e\n"); ok(e.name && e.name != e_name && !strcmp(e.name, "An exception name"), "Bad name '%s' for e\n", e.name); ok(e.do_free == 1, "do_free set to %d for e\n", e.do_free); /* Copy ctor */ memset(&e2, 0, sizeof(e2)); call_func2(pexception_copy_ctor, &e2, &e); ok(e2.vtable != NULL, "Null exception vtable for e2\n"); ok(e2.name && e2.name != e.name && !strcmp(e2.name, "An exception name"), "Bad exception name for e2\n"); ok(e2.do_free == 1, "do_free set to %d for e2\n", e2.do_free); /* Default ctor */ memset(&e3, 1, sizeof(e3)); call_func1(pexception_default_ctor, &e3); ok(e3.vtable != NULL, "Null exception vtable for e3\n"); ok(e3.name == NULL, "Bad exception name for e3\n"); ok(e3.do_free == 0, "do_free set to %d for e3\n", e3.do_free); ok(e.vtable == e2.vtable && e.vtable == e3.vtable, "exception vtables differ!\n"); /* Test calling the dtors */ call_func1(pexception_dtor, &e2); call_func1(pexception_dtor, &e3); /* Operator equals */ memset(&e2, 0, sizeof(e2)); pe = call_func2(pexception_opequals, &e2, &e); ok(e2.vtable != NULL, "Null exception vtable for e2\n"); ok(e2.name && e2.name != e.name && !strcmp(e2.name, "An exception name"), "Bad exception name for e2\n"); ok(e2.do_free == 1, "do_free set to %d for e2\n", e2.do_free); ok(pe == &e2, "opequals didn't return e2\n"); /* what() */ name = call_func1(pexception_what, &e2); ok(e2.name == name, "Bad exception name from e2::what()\n"); /* vtable ptr */ ok(e2.vtable == pexception_vtable, "Bad vtable for e2\n"); call_func1(pexception_dtor, &e2); /* new() */ pe = poperator_new(sizeof(exception)); ok(pe != NULL, "new() failed\n"); if (pe) { call_func2(pexception_ctor, pe, &e_name); /* scalar dtor */ call_func2(pexception_scalar_dtor, pe, 0); /* Shouldn't delete pe */ pe->name = NULL; pe->do_free = 0; call_func2(pexception_scalar_dtor, pe, 1); /* Should delete pe */ } pe = poperator_new(sizeof(exception)); ok(pe != NULL, "new() failed\n"); if (pe) { /* vector dtor, single element */ call_func2(pexception_ctor, pe, &e_name); call_func2(pexception_vector_dtor, pe, 1); /* Should delete pe as single element*/ } pe = poperator_new(sizeof(exception) * 4 + sizeof(int)); ok(pe != NULL, "new() failed\n"); if (pe) { /* vector dtor, multiple elements */ char name[] = "a constant"; *((int*)pe) = 3; pe = (exception*)((int*)pe + 1); call_func2(pexception_ctor, &pe[0], &e_name); call_func2(pexception_ctor, &pe[1], &e_name); call_func2(pexception_ctor, &pe[2], &e_name); pe[3].name = name; pe[3].do_free = 1; /* Crash if we try to free this */ call_func2(pexception_vector_dtor, pe, 3); /* Should delete all 3 and then pe block */ } /* test our exported vtable is kosher */ pe = (void*)pexception_vtable; /* Use the exception struct to get vtable ptrs */ pexception_vector_dtor = (void*)pe->vtable; pexception_what = (void*)pe->name; name = call_func1(pexception_what, &e); ok(e.name == name, "Bad exception name from vtable e::what()\n"); if (p__RTtypeid && !bAncientVersion) { /* Check the rtti */ type_info *ti = p__RTtypeid(&e); ok (ti && ti->mangled && !strcmp(ti->mangled, ".?AVexception@@"), "bad rtti for e\n"); if (ti) { /* Check the returned type_info has rtti too */ type_info *ti2 = p__RTtypeid(ti); ok (ti2 != NULL && !strcmp(ti2->mangled, ".?AVtype_info@@"), "bad rtti for e's type_info\n"); } } call_func2(pexception_vector_dtor, &e, 0); /* Should delete e.name, but not e */ } /* This test is basically a cut 'n' paste of the exception test. but it verifies that * bad_typeid works the exact same way... */ static void test_bad_typeid(void) { static const char* e_name = "A bad_typeid name"; char* name; exception e, e2, e3, *pe; if (!poperator_new || !poperator_delete || !pbad_typeid_ctor || !pbad_typeid_copy_ctor || !pbad_typeid_dtor || !pbad_typeid_opequals || !pbad_typeid_what || !pbad_typeid_vtable || !pbad_typeid_vector_dtor || !pbad_typeid_scalar_dtor) return; /* 'const char*' ctor */ memset(&e, 0, sizeof(e)); call_func2(pbad_typeid_ctor, &e, e_name); ok(e.vtable != NULL, "Null bad_typeid vtable for e\n"); ok(e.name && e.name != e_name && !strcmp(e.name, "A bad_typeid name"), "Bad name '%s' for e\n", e.name); ok(e.do_free == 1, "do_free set to %d for e\n", e.do_free); /* Copy ctor */ memset(&e2, 0, sizeof(e2)); call_func2(pbad_typeid_copy_ctor, &e2, &e); ok(e2.vtable != NULL, "Null bad_typeid vtable for e2\n"); ok(e2.name && e2.name != e.name && !strcmp(e2.name, "A bad_typeid name"), "Bad name '%s' for e2\n", e2.name); ok(e2.do_free == 1, "do_free set to %d for e2\n", e2.do_free); /* Ctor closure */ if (pbad_typeid_ctor_closure) { memset(&e3, 1, sizeof(e3)); call_func1(pbad_typeid_ctor_closure, &e3); ok(e3.vtable != NULL, "Null bad_typeid vtable for e3\n"); ok(e3.name && !strcmp(e3.name, "bad typeid"), "Bad bad_typeid name for e3\n"); ok(e3.do_free == 1, "do_free set to %d for e3\n", e3.do_free); ok(e.vtable == e3.vtable, "bad_typeid closure vtables differ!\n"); call_func1(pbad_typeid_dtor, &e3); } ok(e.vtable == e2.vtable, "bad_typeid vtables differ!\n"); /* Test calling the dtors */ call_func1(pbad_typeid_dtor, &e2); /* Operator equals */ memset(&e2, 1, sizeof(e2)); pe = call_func2(pbad_typeid_opequals, &e2, &e); ok(e2.vtable != NULL, "Null bad_typeid vtable for e2\n"); ok(e2.name && e2.name != e.name && !strcmp(e2.name, "A bad_typeid name"), "Bad bad_typeid name for e2\n"); ok(e2.do_free == 1, "do_free set to %d for e2\n", e2.do_free); ok(pe == &e2, "opequals didn't return e2\n"); /* what() */ name = call_func1(pbad_typeid_what, &e2); ok(e2.name == name, "Bad bad_typeid name from e2::what()\n"); /* vtable ptr */ ok(e2.vtable == pexception_vtable, "Bad vtable for e2\n"); call_func1(pbad_typeid_dtor, &e2); /* new() */ pe = poperator_new(sizeof(exception)); ok(pe != NULL, "new() failed\n"); if (pe) { call_func2(pbad_typeid_ctor, pe, e_name); /* scalar dtor */ call_func2(pbad_typeid_scalar_dtor, pe, 0); /* Shouldn't delete pe */ pe->name = NULL; pe->do_free = 0; call_func2(pbad_typeid_scalar_dtor, pe, 1); /* Should delete pe */ } pe = poperator_new(sizeof(exception)); ok(pe != NULL, "new() failed\n"); if (pe) { /* vector dtor, single element */ call_func2(pbad_typeid_ctor, pe, e_name); call_func2(pbad_typeid_vector_dtor, pe, 1); /* Should delete pe as single element*/ } pe = poperator_new(sizeof(exception) * 4 + sizeof(int)); ok(pe != NULL, "new() failed\n"); if (pe) { /* vector dtor, multiple elements */ *((int*)pe) = 3; pe = (exception*)((int*)pe + 1); call_func2(pbad_typeid_ctor, &pe[0], e_name); call_func2(pbad_typeid_ctor, &pe[1], e_name); call_func2(pbad_typeid_ctor, &pe[2], e_name); pe[3].name = 0; pe[3].do_free = 1; /* Crash if we try to free this element */ call_func2(pbad_typeid_vector_dtor, pe, 3); /* Should delete all 3 and then pe block */ } /* test our exported vtable is kosher */ pe = (void*)pbad_typeid_vtable; /* Use the exception struct to get vtable ptrs */ pbad_typeid_vector_dtor = (void*)pe->vtable; pbad_typeid_what = (void*)pe->name; name = call_func1(pbad_typeid_what, &e); ok(e.name == name, "Bad bad_typeid name from vtable e::what()\n"); if (p__RTtypeid && !bAncientVersion) { /* Check the rtti */ type_info *ti = p__RTtypeid(&e); ok (ti != NULL && !strcmp(ti->mangled, ".?AVbad_typeid@@"), "bad rtti for e (%s)\n", !ti ? "null" : ti->mangled); } call_func2(pbad_typeid_vector_dtor, &e, 0); /* Should delete e.name, but not e */ } /* Ditto for this test... */ static void test_bad_cast(void) { static const char* e_name = "A bad_cast name"; char* name; exception e, e2, e3, *pe; if (!poperator_new || !poperator_delete || !pbad_cast_ctor || !pbad_cast_copy_ctor || !pbad_cast_dtor || !pbad_cast_opequals || !pbad_cast_what || !pbad_cast_vtable || !pbad_cast_vector_dtor || !pbad_cast_scalar_dtor) return; if (pbad_cast_ctor2) { /* 'const char*' ctor */ memset(&e, 0, sizeof(e)); call_func2(pbad_cast_ctor2, &e, e_name); ok(e.vtable != NULL, "Null bad_cast vtable for e\n"); ok(e.name && e.name != e_name && !strcmp(e.name, "A bad_cast name"), "Bad name '%s' for e\n", e.name); ok(e.do_free == 1, "do_free set to %d for e\n", e.do_free); call_func1(pbad_cast_dtor, &e); } /* 'const char*&' ctor */ memset(&e, 0, sizeof(e)); call_func2(pbad_cast_ctor, &e, &e_name); ok(e.vtable != NULL, "Null bad_cast vtable for e\n"); ok(e.name && e.name != e_name && !strcmp(e.name, "A bad_cast name"), "Bad name '%s' for e\n", e.name); ok(e.do_free == 1, "do_free set to %d for e\n", e.do_free); /* Copy ctor */ memset(&e2, 0, sizeof(e2)); call_func2(pbad_cast_copy_ctor, &e2, &e); ok(e2.vtable != NULL, "Null bad_cast vtable for e2\n"); ok(e2.name && e2.name != e.name && !strcmp(e2.name, "A bad_cast name"), "Bad name '%s' for e2\n", e2.name); ok(e2.do_free == 1, "do_free set to %d for e2\n", e2.do_free); /* Ctor closure */ if (pbad_cast_ctor_closure) { memset(&e3, 1, sizeof(e3)); call_func1(pbad_cast_ctor_closure, &e3); ok(e3.vtable != NULL, "Null bad_cast vtable for e3\n"); ok(e3.name && !strcmp(e3.name, "bad cast"), "Bad bad_cast name for e3\n"); ok(e3.do_free == 1, "do_free set to %d for e3\n", e3.do_free); ok(e.vtable == e3.vtable, "bad_cast closure vtables differ!\n"); call_func1(pbad_cast_dtor, &e3); } ok(e.vtable == e2.vtable, "bad_cast vtables differ!\n"); /* Test calling the dtors */ call_func1(pbad_cast_dtor, &e2); /* Operator equals */ memset(&e2, 1, sizeof(e2)); pe = call_func2(pbad_cast_opequals, &e2, &e); ok(e2.vtable != NULL, "Null bad_cast vtable for e2\n"); ok(e2.name && e2.name != e.name && !strcmp(e2.name, "A bad_cast name"), "Bad bad_cast name for e2\n"); ok(e2.do_free == 1, "do_free set to %d for e2\n", e2.do_free); ok(pe == &e2, "opequals didn't return e2\n"); /* what() */ name = call_func1(pbad_cast_what, &e2); ok(e2.name == name, "Bad bad_cast name from e2::what()\n"); /* vtable ptr */ ok(e2.vtable == pexception_vtable, "Bad vtable for e2\n"); call_func1(pbad_cast_dtor, &e2); /* new() */ pe = poperator_new(sizeof(exception)); ok(pe != NULL, "new() failed\n"); if (pe) { call_func2(pbad_cast_ctor, pe, &e_name); /* scalar dtor */ call_func2(pbad_cast_scalar_dtor, pe, 0); /* Shouldn't delete pe */ pe->name = NULL; pe->do_free = 0; call_func2(pbad_cast_scalar_dtor, pe, 1); /* Should delete pe */ } pe = poperator_new(sizeof(exception)); ok(pe != NULL, "new() failed\n"); if (pe) { /* vector dtor, single element */ call_func2(pbad_cast_ctor, pe, &e_name); call_func2(pbad_cast_vector_dtor, pe, 1); /* Should delete pe as single element*/ } pe = poperator_new(sizeof(exception) * 4 + sizeof(int)); ok(pe != NULL, "new() failed\n"); if (pe) { /* vector dtor, multiple elements */ *((int*)pe) = 3; pe = (exception*)((int*)pe + 1); call_func2(pbad_cast_ctor, &pe[0], &e_name); call_func2(pbad_cast_ctor, &pe[1], &e_name); call_func2(pbad_cast_ctor, &pe[2], &e_name); pe[3].name = 0; pe[3].do_free = 1; /* Crash if we try to free this element */ call_func2(pbad_cast_vector_dtor, pe, 3); /* Should delete all 3 and then pe block */ } /* test our exported vtable is kosher */ pe = (void*)pbad_cast_vtable; /* Use the exception struct to get vtable ptrs */ pbad_cast_vector_dtor = (void*)pe->vtable; pbad_cast_what = (void*)pe->name; name = call_func1(pbad_cast_what, &e); ok(e.name == name, "Bad bad_cast name from vtable e::what()\n"); if (p__RTtypeid && !bAncientVersion) { /* Check the rtti */ type_info *ti = p__RTtypeid(&e); ok (ti != NULL && !strcmp(ti->mangled, ".?AVbad_cast@@"), "bad rtti for e\n"); } call_func2(pbad_cast_vector_dtor, &e, 0); /* Should delete e.name, but not e */ } /* ... and this one */ static void test___non_rtti_object(void) { static const char* e_name = "A __non_rtti_object name"; char* name; exception e, e2, *pe; if (!poperator_new || !poperator_delete || !p__non_rtti_object_ctor || !p__non_rtti_object_copy_ctor || !p__non_rtti_object_dtor || !p__non_rtti_object_opequals || !p__non_rtti_object_what || !p__non_rtti_object_vtable || !p__non_rtti_object_vector_dtor || !p__non_rtti_object_scalar_dtor) return; /* 'const char*' ctor */ memset(&e, 0, sizeof(e)); call_func2(p__non_rtti_object_ctor, &e, e_name); ok(e.vtable != NULL, "Null __non_rtti_object vtable for e\n"); ok(e.name && e.name != e_name && !strcmp(e.name, "A __non_rtti_object name"), "Bad name '%s' for e\n", e.name); ok(e.do_free == 1, "do_free set to %d for e\n", e.do_free); /* Copy ctor */ memset(&e2, 0, sizeof(e2)); call_func2(p__non_rtti_object_copy_ctor, &e2, &e); ok(e2.vtable != NULL, "Null __non_rtti_object vtable for e2\n"); ok(e2.name && e2.name != e.name && !strcmp(e2.name, "A __non_rtti_object name"), "Bad name '%s' for e2\n", e2.name); ok(e2.do_free == 1, "do_free set to %d for e2\n", e2.do_free); ok(e.vtable == e2.vtable, "__non_rtti_object vtables differ!\n"); /* Test calling the dtors */ call_func1(p__non_rtti_object_dtor, &e2); /* Operator equals */ memset(&e2, 1, sizeof(e2)); pe = call_func2(p__non_rtti_object_opequals, &e2, &e); ok(e2.vtable != NULL, "Null __non_rtti_object vtable for e2\n"); ok(e2.name && e2.name != e.name && !strcmp(e2.name, "A __non_rtti_object name"), "Bad __non_rtti_object name for e2\n"); ok(e2.do_free == 1, "do_free set to %d for e2\n", e2.do_free); ok(pe == &e2, "opequals didn't return e2\n"); /* what() */ name = call_func1(p__non_rtti_object_what, &e2); ok(e2.name == name, "Bad __non_rtti_object name from e2::what()\n"); /* vtable ptr */ ok(e2.vtable == pexception_vtable, "Bad vtable for e2\n"); call_func1(p__non_rtti_object_dtor, &e2); /* new() */ pe = poperator_new(sizeof(exception)); ok(pe != NULL, "new() failed\n"); if (pe) { call_func2(p__non_rtti_object_ctor, pe, e_name); /* scalar dtor */ call_func2(p__non_rtti_object_scalar_dtor, pe, 0); /* Shouldn't delete pe */ pe->name = NULL; pe->do_free = 0; call_func2(p__non_rtti_object_scalar_dtor, pe, 1); /* Should delete pe */ } pe = poperator_new(sizeof(exception)); ok(pe != NULL, "new() failed\n"); if (pe) { /* vector dtor, single element */ call_func2(p__non_rtti_object_ctor, pe, e_name); call_func2(p__non_rtti_object_vector_dtor, pe, 1); /* Should delete pe as single element*/ } pe = poperator_new(sizeof(exception) * 4 + sizeof(int)); ok(pe != NULL, "new() failed\n"); if (pe) { /* vector dtor, multiple elements */ *((int*)pe) = 3; pe = (exception*)((int*)pe + 1); call_func2(p__non_rtti_object_ctor, &pe[0], e_name); call_func2(p__non_rtti_object_ctor, &pe[1], e_name); call_func2(p__non_rtti_object_ctor, &pe[2], e_name); pe[3].name = 0; pe[3].do_free = 1; /* Crash if we try to free this element */ call_func2(p__non_rtti_object_vector_dtor, pe, 3); /* Should delete all 3 and then pe block */ } /* test our exported vtable is kosher */ pe = (void*)p__non_rtti_object_vtable; /* Use the exception struct to get vtable ptrs */ p__non_rtti_object_vector_dtor = (void*)pe->vtable; p__non_rtti_object_what = (void*)pe->name; name = call_func1(p__non_rtti_object_what, &e); ok(e.name == name, "Bad __non_rtti_object name from vtable e::what()\n"); if (p__RTtypeid && !bAncientVersion) { /* Check the rtti */ type_info *ti = p__RTtypeid(&e); ok (ti != NULL && !strcmp(ti->mangled, ".?AV__non_rtti_object@@"), "bad rtti for e\n"); } call_func2(p__non_rtti_object_vector_dtor, &e, 0); /* Should delete e.name, but not e */ } static void test_type_info(void) { static type_info t1 = { NULL, NULL,{'.','?','A','V','t','e','s','t','1','@','@',0,0,0,0,0 } }; static type_info t1_1 = { NULL, NULL,{'?','?','A','V','t','e','s','t','1','@','@',0,0,0,0,0 } }; static type_info t2 = { NULL, NULL, {'.','?','A','V','t','e','s','t','2','@','@',0,0,0,0,0 } }; char* name; int res; if (!pmalloc || !pfree || !ptype_info_dtor || !ptype_info_raw_name || !ptype_info_name || !ptype_info_before || !ptype_info_opequals_equals || !ptype_info_opnot_equals) return; /* Test calling the dtors */ call_func1(ptype_info_dtor, &t1); /* No effect, since name is NULL */ t1.name = pmalloc(64); strcpy(t1.name, "foo"); call_func1(ptype_info_dtor, &t1); /* Frees t1.name using 'free' */ /* raw_name */ t1.name = NULL; name = call_func1(ptype_info_raw_name, &t1); /* FIXME: This fails on native; it shouldn't though - native bug? * ok(name && !strcmp(name, t1.mangled), "bad raw_name '%s' for t1 (expected '%s')\n", name, t1.mangled); */ ok(t1.name == NULL, "raw_name() set name for t1\n"); /* name */ t1.name = NULL; name = call_func1(ptype_info_name, &t1); ok(name && t1.name && !strcmp(name, t1.name), "bad name '%s' for t1\n", name); todo_wine { /* Demangling doesn't work yet, since __unDName() is a stub */ ok(t1.name && !strcmp(t1.name, "class test1"), "demangled to '%s' for t1\n", t1.name); } call_func1(ptype_info_dtor, &t1); /* before */ t1.name = NULL; res = (int)call_func2(ptype_info_before, &t1, &t1); ok(res == 0, "expected 0, got %d\n", res); res = (int)call_func2(ptype_info_before, &t2, &t1); ok(res == 0, "expected 0, got %d\n", res); res = (int)call_func2(ptype_info_before, &t1, &t2); ok(res == 1, "expected 1, got %d\n", res); /* Doesn't check first char */ res = (int)call_func2(ptype_info_before, &t1, &t1_1); ok(res == 0, "expected 0, got %d\n", res); /* opequals_equals */ t1.name = NULL; res = (int)call_func2(ptype_info_opequals_equals, &t1, &t1); ok(res == 1, "expected 1, got %d\n", res); res = (int)call_func2(ptype_info_opequals_equals, &t1, &t2); ok(res == 0, "expected 0, got %d\n", res); res = (int)call_func2(ptype_info_opequals_equals, &t2, &t1); ok(res == 0, "expected 0, got %d\n", res); /* opnot_equals */ t1.name = NULL; res = (int)call_func2(ptype_info_opnot_equals, &t1, &t1); ok(res == 0, "expected 0, got %d\n", res); res = (int)call_func2(ptype_info_opnot_equals, &t1, &t2); ok(res == 1, "expected 1, got %d\n", res); res = (int)call_func2(ptype_info_opnot_equals, &t2, &t1); ok(res == 1, "expected 1, got %d\n", res); } /* Test RTTI functions */ static void test_rtti(void) { static const char* e_name = "name"; type_info *ti,*bti; exception e,b; void *casted; if (bAncientVersion || !p__RTCastToVoid || !p__RTtypeid || !pexception_ctor || !pbad_typeid_ctor || !p__RTDynamicCast) return; call_func2(pexception_ctor, &e, &e_name); call_func2(pbad_typeid_ctor, &b, e_name); /* dynamic_cast to void* */ casted = p__RTCastToVoid(&e); ok (casted == (void*)&e, "failed cast to void\n"); /* dynamic_cast up */ ti = p__RTtypeid(&e); bti = p__RTtypeid(&b); casted = p__RTDynamicCast(&b, 0, NULL, ti, 0); ok (casted == (void*)&b, "failed cast from bad_cast to exception\n"); /* dynamic_cast down */ casted = p__RTDynamicCast(&e, 0, NULL, bti, 0); ok (casted == NULL, "Cast succeeded\n"); } START_TEST(cpp) { InitFunctionPtrs(); test_exception(); test_bad_typeid(); test_bad_cast(); test___non_rtti_object(); test_type_info(); test_rtti(); if (hMsvcrt) FreeLibrary(hMsvcrt); } #endif /* __i386__ */