mono::object CScriptDomain::BoxAnyValue(MonoAnyValue &any) { switch(any.type) { case eMonoAnyType_Boolean: return (mono::object)mono_value_box(m_pDomain, mono_get_boolean_class(), &any.b); case eMonoAnyType_Integer: return (mono::object)mono_value_box(m_pDomain, mono_get_int32_class(), &any.i); case eMonoAnyType_UnsignedInteger: return (mono::object)mono_value_box(m_pDomain, mono_get_uint32_class(), &any.u); case eMonoAnyType_Short: return (mono::object)mono_value_box(m_pDomain, mono_get_int16_class(), &any.i); case eMonoAnyType_UnsignedShort: return (mono::object)mono_value_box(m_pDomain, mono_get_uint16_class(), &any.u); case eMonoAnyType_Float: return (mono::object)mono_value_box(m_pDomain, mono_get_single_class(), &any.f); case eMonoAnyType_String: return (mono::object)CreateMonoString(any.str); case eMonoAnyType_EntityId: { IMonoClass *pEntityIdClass = g_pScriptSystem->GetCryBraryAssembly()->GetClass("EntityId"); return pEntityIdClass->BoxObject(&mono::entityId(any.u), this); } case eMonoAnyType_Vec3: { IMonoClass *pVec3Class = g_pScriptSystem->GetCryBraryAssembly()->GetClass("Vec3"); Vec3 vec3(any.vec4.x, any.vec4.y, any.vec4.z); return pVec3Class->BoxObject(&vec3, this); } break; case eMonoAnyType_Quat: { IMonoClass *pQuatClass = g_pScriptSystem->GetCryBraryAssembly()->GetClass("Quat"); return pQuatClass->BoxObject(&any.vec4, this); } break; case eMonoAnyType_Array: case eMonoAnyType_Unknown: return any.monoObject; } return nullptr; }
MonoArray * ves_icall_System_Diagnostics_Process_GetProcesses_internal (void) { MonoError error; MonoArray *procs; gboolean ret; DWORD needed; int count; DWORD *pids; count = 512; do { pids = g_new0 (DWORD, count); ret = mono_process_win_enum_processes (pids, count * sizeof (guint32), &needed); if (ret == FALSE) { MonoException *exc; g_free (pids); pids = NULL; exc = mono_get_exception_not_supported ("This system does not support EnumProcesses"); mono_set_pending_exception (exc); return NULL; } if (needed < (count * sizeof (guint32))) break; g_free (pids); pids = NULL; count = (count * 3) / 2; } while (TRUE); count = needed / sizeof (guint32); procs = mono_array_new_checked (mono_domain_get (), mono_get_int32_class (), count, &error); if (mono_error_set_pending_exception (&error)) { g_free (pids); return NULL; } memcpy (mono_array_addr (procs, guint32, 0), pids, needed); g_free (pids); pids = NULL; return procs; }
mono::object CScriptDomain::BoxAnyValue(MonoAnyValue &any) { switch(any.type) { case eMonoAnyType_Boolean: return (mono::object)mono_value_box(m_pDomain, mono_get_boolean_class(), &any.b); case eMonoAnyType_Integer: return (mono::object)mono_value_box(m_pDomain, mono_get_int32_class(), &any.i); case eMonoAnyType_UnsignedInteger: return (mono::object)mono_value_box(m_pDomain, mono_get_uint32_class(), &any.u); case eMonoAnyType_EntityId: { IMonoClass *pEntityIdClass = g_pScriptSystem->GetCryBraryAssembly()->GetClass("EntityId"); return pEntityIdClass->BoxObject(&mono::entityId(any.u), this)->GetManagedObject(); } case eMonoAnyType_Short: return (mono::object)mono_value_box(m_pDomain, mono_get_int16_class(), &any.i); case eMonoAnyType_UnsignedShort: return (mono::object)mono_value_box(m_pDomain, mono_get_uint16_class(), &any.u); case eMonoAnyType_Float: return (mono::object)mono_value_box(m_pDomain, mono_get_single_class(), &any.f); case eMonoAnyType_String: MonoWarning("IMonoConverter::BoxAnyValue does not support strings, utilize ToMonoString instead"); case eMonoAnyType_Vec3: { IMonoClass *pVec3Class = g_pScriptSystem->GetCryBraryAssembly()->GetClass("Vec3"); Vec3 vec3(any.vec4.x, any.vec4.y, any.vec4.z); return pVec3Class->BoxObject(&vec3, this)->GetManagedObject(); } break; case eMonoAnyType_Quat: { IMonoClass *pQuatClass = g_pScriptSystem->GetCryBraryAssembly()->GetClass("Quat"); return pQuatClass->BoxObject(&any.vec4, this)->GetManagedObject(); } break; } return nullptr; }
static MonoArray* create_group_sizes_array (const gint *gs, gint ml) { MonoArray *ret; int i, len = 0; for (i = 0; i < ml; i++) { if (gs [i] == -1) break; len++; } ret = mono_array_new_cached (mono_domain_get (), mono_get_int32_class (), len); for(i = 0; i < len; i++) mono_array_set (ret, gint32, i, gs [i]); return ret; }
static MonoArray* create_group_sizes_array (const gint *gs, gint ml, MonoError *error) { MonoArray *ret; int i, len = 0; error_init (error); for (i = 0; i < ml; i++) { if (gs [i] == -1) break; len++; } ret = mono_array_new_cached (mono_domain_get (), mono_get_int32_class (), len, error); return_val_if_nok (error, NULL); for(i = 0; i < len; i++) mono_array_set (ret, gint32, i, gs [i]); return ret; }
void update_corlib_cache() { CACHE_CLASS_AND_CHECK(MonoObject, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_object_class())); CACHE_CLASS_AND_CHECK(bool, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_boolean_class())); CACHE_CLASS_AND_CHECK(int8_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_sbyte_class())); CACHE_CLASS_AND_CHECK(int16_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_int16_class())); CACHE_CLASS_AND_CHECK(int32_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_int32_class())); CACHE_CLASS_AND_CHECK(int64_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_int64_class())); CACHE_CLASS_AND_CHECK(uint8_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_byte_class())); CACHE_CLASS_AND_CHECK(uint16_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_uint16_class())); CACHE_CLASS_AND_CHECK(uint32_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_uint32_class())); CACHE_CLASS_AND_CHECK(uint64_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_uint64_class())); CACHE_CLASS_AND_CHECK(float, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_single_class())); CACHE_CLASS_AND_CHECK(double, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_double_class())); CACHE_CLASS_AND_CHECK(String, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_string_class())); CACHE_CLASS_AND_CHECK(IntPtr, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_intptr_class())); #ifdef DEBUG_ENABLED CACHE_CLASS_AND_CHECK(System_Diagnostics_StackTrace, GDMono::get_singleton()->get_corlib_assembly()->get_class("System.Diagnostics", "StackTrace")); CACHE_METHOD_THUNK_AND_CHECK(System_Diagnostics_StackTrace, GetFrames, (StackTrace_GetFrames)CACHED_CLASS(System_Diagnostics_StackTrace)->get_method_thunk("GetFrames")); CACHE_METHOD_AND_CHECK(System_Diagnostics_StackTrace, ctor_bool, CACHED_CLASS(System_Diagnostics_StackTrace)->get_method_with_desc("System.Diagnostics.StackTrace:.ctor(bool)", true)); CACHE_METHOD_AND_CHECK(System_Diagnostics_StackTrace, ctor_Exception_bool, CACHED_CLASS(System_Diagnostics_StackTrace)->get_method_with_desc("System.Diagnostics.StackTrace:.ctor(System.Exception,bool)", true)); #endif CACHE_CLASS_AND_CHECK(KeyNotFoundException, GDMono::get_singleton()->get_corlib_assembly()->get_class("System.Collections.Generic", "KeyNotFoundException")); mono_cache.corlib_cache_updated = true; }
MonoObject* JniManager::toMonoObject(JNIEnv* env, jobject obj) { assert(env); MonoDomain* monoDomain = getMonoDomain(); MonoObject* result = NULL; jclass clazz = env->GetObjectClass(obj); jstring clazzName = (jstring)env->CallObjectMethod(clazz, typeConverter->getClassName); string className = string(typeConverter->convertToC<string>(env, clazzName)); if (className == "java.lang.Integer") { int value = typeConverter->convertToC<int>(env, obj); result = mono_value_box(monoDomain, mono_get_int32_class(), &value); } if (className == "java.lang.String") { string value = typeConverter->convertToC<string>(env, obj); result = (MonoObject*)mono_string_new(monoDomain, value.c_str()); } if (className == "java.lang.Boolean") { bool value = typeConverter->convertToC<bool>(env, obj); result = (MonoObject*)mono_value_box(monoDomain, mono_get_boolean_class(), &value); } if (className == "java.lang.Character") { char value = typeConverter->convertToC<char>(env, obj); result = (MonoObject*)mono_value_box(monoDomain, mono_get_char_class(), &value); } if (className == "java.lang.Long") { long value = typeConverter->convertToC<long>(env, obj); result = (MonoObject*)mono_value_box(monoDomain, mono_get_int64_class(), &value); } if (className == "java.lang.Short") { short value = typeConverter->convertToC<short>(env, obj); result = (MonoObject*)mono_value_box(monoDomain, mono_get_int16_class(), &value); } if (className =="java.lang.Byte") { byte value = typeConverter->convertToC<byte>(env, obj); result = (MonoObject*)mono_value_box(monoDomain, mono_get_byte_class(), &value); } if (className == "java.lang.Double" ) { double value = typeConverter->convertToC<double>(env, obj); result = (MonoObject*)mono_value_box(monoDomain, mono_get_double_class(), &value); } if (className == "java.lang.Float" ) { float value = typeConverter->convertToC<float>(env, obj); result = (MonoObject*)mono_value_box(monoDomain, mono_get_single_class(), &value); } if (className == "[B") { vector<byte> value = typeConverter->convertToC< vector<byte> >(env, obj); int vectorSize = value.size(); MonoArray *data = mono_array_new (monoDomain, mono_get_byte_class (), vectorSize); for (int i=0; i<vectorSize; i++) { mono_array_set(data, uint8_t, i, value[i]); } result = (MonoObject*)data; } env->DeleteLocalRef(obj); return result; }
static caddr_t sa_to_dk (MonoArray *mono_list, int ofs, int mode, void *udt) { guint32 ret_type; int clr_object = 0; MonoObject *type, *value; caddr_t ret = NULL; MonoClass *cls; int len = mono_array_length (mono_list), inx; dk_set_t ret_set = NULL; type = (MonoObject *)mono_array_get (mono_list, gpointer, ofs + 0); ret_type = *(guint32 *)((char *)type + sizeof (MonoObject)); if (!ret_type) { char *error_text; caddr_t err = NULL; value = (MonoObject *)mono_array_get (mono_list, gpointer, ofs + 1); error_text = mono_string_to_utf8 ((MonoString *)value); if (error_text) err = srv_make_new_error ("42000", "MN002", "Mono error : %.200s", mono_class_get_name (mono_object_get_class (value)), error_text); else err = srv_make_new_error ("42000", "MN003", "Unknown mono error"); g_free (error_text); sqlr_resignal (err); } /* get type of object */ clr_object = 0; if (ret_type == 5 || ret_type == 6) clr_object = 1; for (inx = 1; inx < len; inx++) { value = (MonoObject *)mono_array_get (mono_list, gpointer, ofs + inx); if (value) { cls = mono_object_get_class (value); if (cls == mono_get_int32_class ()) { gint32 v = *(gint32 *)((char *)value + sizeof (MonoObject)); if (clr_object) { void * what_udt; if (mode) { /*add_id (v);*/ ret = box_num (v); } else { what_udt = udt_find_class_for_clr_instance (v, udt); if (what_udt) { /*add_id (v);*/ ret = cpp_udt_clr_instance_allocate (v, what_udt); } else { sqlr_new_error ("22023", "MN005", "Can't map Mono result to PL type"); } } } else ret = box_num (v); } else if (cls == mono_get_uint32_class()) ret = box_num (*(guint32 *)((char *)value + sizeof (MonoObject))); else if (cls == mono_get_single_class ()) ret = box_float (*(float *)((char *)value + sizeof (MonoObject))); else if (cls == mono_get_double_class ()) ret = box_double (*(double *)((char *)value + sizeof (MonoObject))); else if (cls == mono_get_boolean_class ()) ret = box_num (*(guint8 *)((guint8 *)value + sizeof (MonoObject))); else if (cls == mono_get_string_class ()) { char *utf8 = mono_string_to_utf8 ((MonoString *)value); ret = box_utf8_as_wide_char (utf8, NULL, strlen (utf8), 0, DV_WIDE); g_free (utf8); } else { const char *name = mono_class_get_name (cls); sqlr_new_error ("22023", "MN006", "Can't map CLR result of type (%s) to PL type", name ? name : "<unknown>"); } } else ret = NULL; if (ret_type != 3 && ret_type != 4 && ret_type != 5) return ret; else dk_set_push (&ret_set, ret); } return list_to_array (dk_set_nreverse (ret_set)); }
static int param_to_mono_array (caddr_t *list_args, int n_args, MonoArray ** p_i_array, MonoArray **p_o_array) { caddr_t * line; MonoObject *arg = NULL; MonoDomain *domain = virtuoso_domain; MonoArray *i_array, *o_array; guint32 is_object; int inx; i_array = (MonoArray*)mono_array_new (domain, mono_get_object_class (), n_args); o_array = (MonoArray*)mono_array_new (domain, mono_get_intptr_class (), n_args); for (inx = 0; inx < n_args; ++inx) { line = (caddr_t *) list_args[inx]; is_object = 0; if (DV_TYPE_OF (line[1]) == DV_DB_NULL) { arg = NULL; goto put_it; } if (!strncmp (line[0], "System.String", sizeof ("System.String")) || !strncmp (line[0], "String", sizeof ("String"))) { if (!DV_STRINGP (line[1])) goto convert_error; arg = (MonoObject *) mono_string_new (domain, line[1]); } else if (!strncmp (line[0], "Int32", sizeof ("Int32")) || !strncmp (line[0], "System.Int32", sizeof ("System.Int32")) || !strncmp (line[0], "int", sizeof ("int"))) { gint32 ivalue; if (DV_TYPE_OF (line[1]) != DV_LONG_INT) goto convert_error; ivalue = unbox (line[1]); arg = mono_value_box (domain, mono_get_int32_class (), &ivalue); } else if (!strncmp (line[0], "System.Single", sizeof ("System.Single")) || !strncmp (line[0], "Single", sizeof ("Single"))) { float flt_value; if (DV_TYPE_OF (line[1]) != DV_SINGLE_FLOAT) goto convert_error; flt_value = unbox_float (line[1]); arg = mono_value_box (domain, mono_get_single_class (), &flt_value); } else if (!strncmp (line[0], "System.Data.SqlTypes.SqlDouble", sizeof ("System.Data.SqlTypes.SqlDouble")) || !strncmp (line[0], "System.Double", sizeof ("System.Double")) || !strncmp (line[0], "Double", sizeof ("Double"))) { double dbl_value; if (DV_TYPE_OF (line[1]) != DV_DOUBLE_FLOAT) goto convert_error; dbl_value = unbox_double (line[1]); arg = mono_value_box (domain, mono_get_double_class (), &dbl_value); } else /*if (!strncmp (line[0], "CLRObject", sizeof ("CLRObject"))) */ { gint32 ivalue; if (DV_TYPE_OF (line[1]) != DV_LONG_INT) goto convert_error; is_object = unbox (line[1]); arg = mono_value_box (domain, mono_get_int32_class (), &ivalue); } put_it: mono_array_set (i_array, gpointer, inx, arg); mono_array_set (o_array, gpointer, inx, (gpointer) is_object); } *p_i_array = i_array; *p_o_array = o_array; return 0; convert_error: sqlr_new_error ("22023", "XXXXX", "wrong or unknown type"); return 0; }
/* * 将由lua传入的参数表转化为void *[]参数表 * L : 含有参数表的lua_State * base : 参数表在lua_State中的起始位置(靠近栈底的一边) * method : 参数表将要应用到的MonoMethod* * * 该调用只针对Static methods, 和 non-Static methods, 不针对generic methods */ static void *call_method (lua_State *L, int base, MonoObject *thiz, MonoMethod *method, MonoObject **ex) { MonoMethodSignature *sig = mono_method_signature (method); if (!sig) luaL_error (L, "can not get the method's signature."); int n = mono_signature_get_param_count (sig); int cur_n = lua_gettop (L) - base + 1; if (cur_n != n) { /*Fixme : mono_method_full_name 的返回值需要显示 g_free*/ luaL_error (L, "%s need %d arguments, but get %d.", mono_method_full_name (method, 1), n, cur_n); } void **args = 0; if (n > 0) args = new void*[n]; void *iter = 0; MonoType *param_type; for (int i = 0; (param_type = mono_signature_get_params (sig, &iter)) != 0; i++) { /*reference 类型的参数 无论是否加ref关键字, 都是传递改类型对象指针的指针*/ if (mono_type_is_reference (param_type) || mono_type_is_byref (param_type)) { void *p = lua_touserdata (L, base + i); if (!p) luaL_error (L, "%s : %d arg need a reference type.", mono_method_full_name (method, 1), i); args[i] = p; continue; } /*剩下的都是value类型*/ switch (mono_type_get_type (param_type)) { case MONO_TYPE_BOOLEAN: { int b = lua_toboolean (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_boolean_class (), &b); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_CHAR: { /*char 用int来表示*/ int b = luaL_checkint (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_char_class (), &b); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_I1: { int b = luaL_checkint (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_sbyte_class (), &b); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_U1: { unsigned long l = luaL_checkunsigned (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_byte_class (), &l); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_I2: { int b = luaL_checkint (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_int16_class (), &b); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_U2: { unsigned long l = luaL_checkunsigned (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_uint16_class (), &l); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_I4: { int b = luaL_checkint (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_int32_class (), &b); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_VALUETYPE: case MONO_TYPE_U4: { unsigned long l = luaL_checkunsigned (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_uint32_class (), &l); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_I8: { void *u = lua_touserdata (L, base + i); if (!u) luaL_error (L, "%s : %d arg need Int64.", mono_method_full_name (method, 1), i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_int64_class (), u); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_U8: { void *u = lua_touserdata (L, base + i); if (!u) luaL_error (L, "%s : %d arg need UInt64.", mono_method_full_name (method, 1), i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_uint64_class (), u); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_R4: { /*这里的精度损失由使用lua的人负责*/ float f = (float)lua_tonumber (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_single_class (), &f); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_R8: { double d = (double)lua_tonumber (L, base + i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_double_class (), &d); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_I: { void *u = lua_touserdata (L, base + i); if (!u) luaL_error (L, "%s : %d arg need IntPtr.", mono_method_full_name (method, 1), i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_intptr_class (), u); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_U: { void *u = lua_touserdata (L, base + i); if (!u) luaL_error (L, "%s : %d arg need UIntPtr.", mono_method_full_name (method, 1), i); MonoObject *obj = mono_value_box (mono_domain_get (), mono_get_uintptr_class (), u); args[i] = mono_object_unbox (obj); break; } case MONO_TYPE_MVAR: luaL_error (L, "generic method dont be supported."); case MONO_TYPE_PTR: luaL_error (L, "dont support the ptr type."); default: luaL_error (L, "unknow method args type : 0x%02X", mono_type_get_type (param_type)); } } MonoObject *ret = mono_runtime_invoke (method, thiz, args, ex); //MonoType *ret_type = mono_signature_get_return_type (sig); LOGD ("call_method be called!"); return ret; }
void update_corlib_cache() { CACHE_CLASS_AND_CHECK(MonoObject, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_object_class())); CACHE_CLASS_AND_CHECK(bool, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_boolean_class())); CACHE_CLASS_AND_CHECK(int8_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_sbyte_class())); CACHE_CLASS_AND_CHECK(int16_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_int16_class())); CACHE_CLASS_AND_CHECK(int32_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_int32_class())); CACHE_CLASS_AND_CHECK(int64_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_int64_class())); CACHE_CLASS_AND_CHECK(uint8_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_byte_class())); CACHE_CLASS_AND_CHECK(uint16_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_uint16_class())); CACHE_CLASS_AND_CHECK(uint32_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_uint32_class())); CACHE_CLASS_AND_CHECK(uint64_t, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_uint64_class())); CACHE_CLASS_AND_CHECK(float, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_single_class())); CACHE_CLASS_AND_CHECK(double, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_double_class())); CACHE_CLASS_AND_CHECK(String, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_string_class())); CACHE_CLASS_AND_CHECK(IntPtr, GDMono::get_singleton()->get_corlib_assembly()->get_class(mono_get_intptr_class())); }
mono::object DefaultBoxinator::Box(int value) { return this->box(mono_get_int32_class(), &value); }