/**************************************************************************/ /* class_db.cpp */ /**************************************************************************/ /* This file is part of: */ /* GODOT ENGINE */ /* https://godotengine.org */ /**************************************************************************/ /* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */ /* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */ /* */ /* Permission is hereby granted, free of charge, to any person obtaining */ /* a copy of this software and associated documentation files (the */ /* "Software"), to deal in the Software without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of the Software, and to */ /* permit persons to whom the Software is furnished to do so, subject to */ /* the following conditions: */ /* */ /* The above copyright notice and this permission notice shall be */ /* included in all copies or substantial portions of the Software. */ /* */ /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */ /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */ /* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */ /* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */ /* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */ /* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */ /* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /**************************************************************************/ #include "class_db.h" #include "core/config/engine.h" #include "core/object/script_language.h" #include "core/os/mutex.h" #include "core/version.h" #define OBJTYPE_RLOCK RWLockRead _rw_lockr_(lock); #define OBJTYPE_WLOCK RWLockWrite _rw_lockw_(lock); #ifdef DEBUG_METHODS_ENABLED MethodDefinition D_METHODP(const char *p_name, const char *const **p_args, uint32_t p_argcount) { MethodDefinition md; md.name = StaticCString::create(p_name); md.args.resize(p_argcount); for (uint32_t i = 0; i < p_argcount; i++) { md.args.write[i] = StaticCString::create(*p_args[i]); } return md; } #endif ClassDB::APIType ClassDB::current_api = API_CORE; HashMap ClassDB::api_hashes_cache; void ClassDB::set_current_api(APIType p_api) { DEV_ASSERT(!api_hashes_cache.has(p_api)); // This API type may not be suitable for caching of hash if it can change later. current_api = p_api; } ClassDB::APIType ClassDB::get_current_api() { return current_api; } HashMap ClassDB::classes; HashMap ClassDB::resource_base_extensions; HashMap ClassDB::compat_classes; bool ClassDB::_is_parent_class(const StringName &p_class, const StringName &p_inherits) { if (!classes.has(p_class)) { return false; } StringName inherits = p_class; while (inherits.operator String().length()) { if (inherits == p_inherits) { return true; } inherits = _get_parent_class(inherits); } return false; } bool ClassDB::is_parent_class(const StringName &p_class, const StringName &p_inherits) { OBJTYPE_RLOCK; return _is_parent_class(p_class, p_inherits); } void ClassDB::get_class_list(List *p_classes) { OBJTYPE_RLOCK; for (const KeyValue &E : classes) { p_classes->push_back(E.key); } p_classes->sort(); } void ClassDB::get_inheriters_from_class(const StringName &p_class, List *p_classes) { OBJTYPE_RLOCK; for (const KeyValue &E : classes) { if (E.key != p_class && _is_parent_class(E.key, p_class)) { p_classes->push_back(E.key); } } } void ClassDB::get_direct_inheriters_from_class(const StringName &p_class, List *p_classes) { OBJTYPE_RLOCK; for (const KeyValue &E : classes) { if (E.key != p_class && _get_parent_class(E.key) == p_class) { p_classes->push_back(E.key); } } } StringName ClassDB::get_parent_class_nocheck(const StringName &p_class) { OBJTYPE_RLOCK; ClassInfo *ti = classes.getptr(p_class); if (!ti) { return StringName(); } return ti->inherits; } StringName ClassDB::get_compatibility_remapped_class(const StringName &p_class) { if (classes.has(p_class)) { return p_class; } if (compat_classes.has(p_class)) { return compat_classes[p_class]; } return p_class; } StringName ClassDB::_get_parent_class(const StringName &p_class) { ClassInfo *ti = classes.getptr(p_class); ERR_FAIL_NULL_V_MSG(ti, StringName(), "Cannot get class '" + String(p_class) + "'."); return ti->inherits; } StringName ClassDB::get_parent_class(const StringName &p_class) { OBJTYPE_RLOCK; return _get_parent_class(p_class); } ClassDB::APIType ClassDB::get_api_type(const StringName &p_class) { OBJTYPE_RLOCK; ClassInfo *ti = classes.getptr(p_class); ERR_FAIL_NULL_V_MSG(ti, API_NONE, "Cannot get class '" + String(p_class) + "'."); return ti->api; } uint32_t ClassDB::get_api_hash(APIType p_api) { OBJTYPE_RLOCK; #ifdef DEBUG_METHODS_ENABLED if (api_hashes_cache.has(p_api)) { return api_hashes_cache[p_api]; } uint64_t hash = hash_murmur3_one_64(HashMapHasherDefault::hash(VERSION_FULL_CONFIG)); List class_list; ClassDB::get_class_list(&class_list); // Must be alphabetically sorted for hash to compute. class_list.sort_custom(); for (const StringName &E : class_list) { ClassInfo *t = classes.getptr(E); ERR_FAIL_NULL_V_MSG(t, 0, "Cannot get class '" + String(E) + "'."); if (t->api != p_api || !t->exposed) { continue; } hash = hash_murmur3_one_64(t->name.hash(), hash); hash = hash_murmur3_one_64(t->inherits.hash(), hash); { //methods List snames; for (const KeyValue &F : t->method_map) { String name = F.key.operator String(); ERR_CONTINUE(name.is_empty()); if (name[0] == '_') { continue; // Ignore non-virtual methods that start with an underscore } snames.push_back(F.key); } snames.sort_custom(); for (const StringName &F : snames) { MethodBind *mb = t->method_map[F]; hash = hash_murmur3_one_64(mb->get_name().hash(), hash); hash = hash_murmur3_one_64(mb->get_argument_count(), hash); hash = hash_murmur3_one_64(mb->get_argument_type(-1), hash); //return for (int i = 0; i < mb->get_argument_count(); i++) { const PropertyInfo info = mb->get_argument_info(i); hash = hash_murmur3_one_64(info.type, hash); hash = hash_murmur3_one_64(info.name.hash(), hash); hash = hash_murmur3_one_64(info.hint, hash); hash = hash_murmur3_one_64(info.hint_string.hash(), hash); } hash = hash_murmur3_one_64(mb->get_default_argument_count(), hash); for (int i = 0; i < mb->get_default_argument_count(); i++) { //hash should not change, i hope for tis Variant da = mb->get_default_argument(i); hash = hash_murmur3_one_64(da.hash(), hash); } hash = hash_murmur3_one_64(mb->get_hint_flags(), hash); } } { //constants List snames; for (const KeyValue &F : t->constant_map) { snames.push_back(F.key); } snames.sort_custom(); for (const StringName &F : snames) { hash = hash_murmur3_one_64(F.hash(), hash); hash = hash_murmur3_one_64(t->constant_map[F], hash); } } { //signals List snames; for (const KeyValue &F : t->signal_map) { snames.push_back(F.key); } snames.sort_custom(); for (const StringName &F : snames) { MethodInfo &mi = t->signal_map[F]; hash = hash_murmur3_one_64(F.hash(), hash); for (int i = 0; i < mi.arguments.size(); i++) { hash = hash_murmur3_one_64(mi.arguments[i].type, hash); } } } { //properties List snames; for (const KeyValue &F : t->property_setget) { snames.push_back(F.key); } snames.sort_custom(); for (const StringName &F : snames) { PropertySetGet *psg = t->property_setget.getptr(F); ERR_FAIL_NULL_V(psg, 0); hash = hash_murmur3_one_64(F.hash(), hash); hash = hash_murmur3_one_64(psg->setter.hash(), hash); hash = hash_murmur3_one_64(psg->getter.hash(), hash); } } //property list for (const PropertyInfo &F : t->property_list) { hash = hash_murmur3_one_64(F.name.hash(), hash); hash = hash_murmur3_one_64(F.type, hash); hash = hash_murmur3_one_64(F.hint, hash); hash = hash_murmur3_one_64(F.hint_string.hash(), hash); hash = hash_murmur3_one_64(F.usage, hash); } } hash = hash_fmix32(hash); // Extension API changes at runtime; let's just not cache them by now. if (p_api != API_EXTENSION && p_api != API_EDITOR_EXTENSION) { api_hashes_cache[p_api] = hash; } return hash; #else return 0; #endif } bool ClassDB::class_exists(const StringName &p_class) { OBJTYPE_RLOCK; return classes.has(p_class); } void ClassDB::add_compatibility_class(const StringName &p_class, const StringName &p_fallback) { OBJTYPE_WLOCK; compat_classes[p_class] = p_fallback; } StringName ClassDB::get_compatibility_class(const StringName &p_class) { if (compat_classes.has(p_class)) { return compat_classes[p_class]; } return StringName(); } Object *ClassDB::instantiate(const StringName &p_class) { ClassInfo *ti; { OBJTYPE_RLOCK; ti = classes.getptr(p_class); if (!ti || ti->disabled || !ti->creation_func || (ti->gdextension && !ti->gdextension->create_instance)) { if (compat_classes.has(p_class)) { ti = classes.getptr(compat_classes[p_class]); } } ERR_FAIL_NULL_V_MSG(ti, nullptr, "Cannot get class '" + String(p_class) + "'."); ERR_FAIL_COND_V_MSG(ti->disabled, nullptr, "Class '" + String(p_class) + "' is disabled."); ERR_FAIL_NULL_V_MSG(ti->creation_func, nullptr, "Class '" + String(p_class) + "' or its base class cannot be instantiated."); } #ifdef TOOLS_ENABLED if (ti->api == API_EDITOR && !Engine::get_singleton()->is_editor_hint()) { ERR_PRINT("Class '" + String(p_class) + "' can only be instantiated by editor."); return nullptr; } #endif if (ti->gdextension && ti->gdextension->create_instance) { return (Object *)ti->gdextension->create_instance(ti->gdextension->class_userdata); } else { return ti->creation_func(); } } void ClassDB::set_object_extension_instance(Object *p_object, const StringName &p_class, GDExtensionClassInstancePtr p_instance) { ERR_FAIL_NULL(p_object); ClassInfo *ti; { OBJTYPE_RLOCK; ti = classes.getptr(p_class); if (!ti || ti->disabled || !ti->creation_func || (ti->gdextension && !ti->gdextension->create_instance)) { if (compat_classes.has(p_class)) { ti = classes.getptr(compat_classes[p_class]); } } ERR_FAIL_NULL_MSG(ti, "Cannot get class '" + String(p_class) + "'."); ERR_FAIL_COND_MSG(ti->disabled, "Class '" + String(p_class) + "' is disabled."); ERR_FAIL_NULL_MSG(ti->gdextension, "Class '" + String(p_class) + "' has no native extension."); } p_object->_extension = ti->gdextension; p_object->_extension_instance = p_instance; } bool ClassDB::can_instantiate(const StringName &p_class) { OBJTYPE_RLOCK; ClassInfo *ti = classes.getptr(p_class); ERR_FAIL_NULL_V_MSG(ti, false, "Cannot get class '" + String(p_class) + "'."); #ifdef TOOLS_ENABLED if (ti->api == API_EDITOR && !Engine::get_singleton()->is_editor_hint()) { return false; } #endif return (!ti->disabled && ti->creation_func != nullptr && !(ti->gdextension && !ti->gdextension->create_instance)); } bool ClassDB::is_virtual(const StringName &p_class) { OBJTYPE_RLOCK; ClassInfo *ti = classes.getptr(p_class); if (!ti) { if (!ScriptServer::is_global_class(p_class)) { ERR_FAIL_V_MSG(false, "Cannot get class '" + String(p_class) + "'."); } return false; } #ifdef TOOLS_ENABLED if (ti->api == API_EDITOR && !Engine::get_singleton()->is_editor_hint()) { return false; } #endif return (!ti->disabled && ti->creation_func != nullptr && !(ti->gdextension && !ti->gdextension->create_instance) && ti->is_virtual); } void ClassDB::_add_class2(const StringName &p_class, const StringName &p_inherits) { OBJTYPE_WLOCK; const StringName &name = p_class; ERR_FAIL_COND_MSG(classes.has(name), "Class '" + String(p_class) + "' already exists."); classes[name] = ClassInfo(); ClassInfo &ti = classes[name]; ti.name = name; ti.inherits = p_inherits; ti.api = current_api; if (ti.inherits) { ERR_FAIL_COND(!classes.has(ti.inherits)); //it MUST be registered. ti.inherits_ptr = &classes[ti.inherits]; } else { ti.inherits_ptr = nullptr; } } static MethodInfo info_from_bind(MethodBind *p_method) { MethodInfo minfo; minfo.name = p_method->get_name(); minfo.id = p_method->get_method_id(); for (int i = 0; i < p_method->get_argument_count(); i++) { minfo.arguments.push_back(p_method->get_argument_info(i)); } minfo.return_val = p_method->get_return_info(); minfo.flags = p_method->get_hint_flags(); for (int i = 0; i < p_method->get_argument_count(); i++) { if (p_method->has_default_argument(i)) { minfo.default_arguments.push_back(p_method->get_default_argument(i)); } } return minfo; } void ClassDB::get_method_list(const StringName &p_class, List *p_methods, bool p_no_inheritance, bool p_exclude_from_properties) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { if (type->disabled) { if (p_no_inheritance) { break; } type = type->inherits_ptr; continue; } #ifdef DEBUG_METHODS_ENABLED for (const MethodInfo &E : type->virtual_methods) { p_methods->push_back(E); } for (const StringName &E : type->method_order) { if (p_exclude_from_properties && type->methods_in_properties.has(E)) { continue; } MethodBind *method = type->method_map.get(E); MethodInfo minfo = info_from_bind(method); p_methods->push_back(minfo); } #else for (KeyValue &E : type->method_map) { MethodBind *m = E.value; MethodInfo minfo = info_from_bind(m); p_methods->push_back(minfo); } #endif if (p_no_inheritance) { break; } type = type->inherits_ptr; } } bool ClassDB::get_method_info(const StringName &p_class, const StringName &p_method, MethodInfo *r_info, bool p_no_inheritance, bool p_exclude_from_properties) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { if (type->disabled) { if (p_no_inheritance) { break; } type = type->inherits_ptr; continue; } #ifdef DEBUG_METHODS_ENABLED MethodBind **method = type->method_map.getptr(p_method); if (method && *method) { if (r_info != nullptr) { MethodInfo minfo = info_from_bind(*method); *r_info = minfo; } return true; } else if (type->virtual_methods_map.has(p_method)) { if (r_info) { *r_info = type->virtual_methods_map[p_method]; } return true; } #else if (type->method_map.has(p_method)) { if (r_info) { MethodBind *m = type->method_map[p_method]; MethodInfo minfo = info_from_bind(m); *r_info = minfo; } return true; } #endif if (p_no_inheritance) { break; } type = type->inherits_ptr; } return false; } MethodBind *ClassDB::get_method(const StringName &p_class, const StringName &p_name) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { MethodBind **method = type->method_map.getptr(p_name); if (method && *method) { return *method; } type = type->inherits_ptr; } return nullptr; } Vector ClassDB::get_method_compatibility_hashes(const StringName &p_class, const StringName &p_name) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { if (type->method_map_compatibility.has(p_name)) { LocalVector *c = type->method_map_compatibility.getptr(p_name); Vector ret; for (uint32_t i = 0; i < c->size(); i++) { ret.push_back((*c)[i]->get_hash()); } return ret; } type = type->inherits_ptr; } return Vector(); } MethodBind *ClassDB::get_method_with_compatibility(const StringName &p_class, const StringName &p_name, uint64_t p_hash, bool *r_method_exists, bool *r_is_deprecated) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { MethodBind **method = type->method_map.getptr(p_name); if (method && *method) { if (r_method_exists) { *r_method_exists = true; } if ((*method)->get_hash() == p_hash) { return *method; } } LocalVector *compat = type->method_map_compatibility.getptr(p_name); if (compat) { if (r_method_exists) { *r_method_exists = true; } for (uint32_t i = 0; i < compat->size(); i++) { if ((*compat)[i]->get_hash() == p_hash) { if (r_is_deprecated) { *r_is_deprecated = true; } return (*compat)[i]; } } } type = type->inherits_ptr; } return nullptr; } void ClassDB::bind_integer_constant(const StringName &p_class, const StringName &p_enum, const StringName &p_name, int64_t p_constant, bool p_is_bitfield) { OBJTYPE_WLOCK; ClassInfo *type = classes.getptr(p_class); ERR_FAIL_NULL(type); if (type->constant_map.has(p_name)) { ERR_FAIL(); } type->constant_map[p_name] = p_constant; String enum_name = p_enum; if (!enum_name.is_empty()) { if (enum_name.contains(".")) { enum_name = enum_name.get_slicec('.', 1); } ClassInfo::EnumInfo *constants_list = type->enum_map.getptr(enum_name); if (constants_list) { constants_list->constants.push_back(p_name); constants_list->is_bitfield = p_is_bitfield; } else { ClassInfo::EnumInfo new_list; new_list.is_bitfield = p_is_bitfield; new_list.constants.push_back(p_name); type->enum_map[enum_name] = new_list; } } #ifdef DEBUG_METHODS_ENABLED type->constant_order.push_back(p_name); #endif } void ClassDB::get_integer_constant_list(const StringName &p_class, List *p_constants, bool p_no_inheritance) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { #ifdef DEBUG_METHODS_ENABLED for (const StringName &E : type->constant_order) { p_constants->push_back(E); } #else for (const KeyValue &E : type->constant_map) { p_constants->push_back(E.key); } #endif if (p_no_inheritance) { break; } type = type->inherits_ptr; } } int64_t ClassDB::get_integer_constant(const StringName &p_class, const StringName &p_name, bool *p_success) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { int64_t *constant = type->constant_map.getptr(p_name); if (constant) { if (p_success) { *p_success = true; } return *constant; } type = type->inherits_ptr; } if (p_success) { *p_success = false; } return 0; } bool ClassDB::has_integer_constant(const StringName &p_class, const StringName &p_name, bool p_no_inheritance) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { if (type->constant_map.has(p_name)) { return true; } if (p_no_inheritance) { return false; } type = type->inherits_ptr; } return false; } StringName ClassDB::get_integer_constant_enum(const StringName &p_class, const StringName &p_name, bool p_no_inheritance) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { for (KeyValue &E : type->enum_map) { List &constants_list = E.value.constants; const List::Element *found = constants_list.find(p_name); if (found) { return E.key; } } if (p_no_inheritance) { break; } type = type->inherits_ptr; } return StringName(); } void ClassDB::get_enum_list(const StringName &p_class, List *p_enums, bool p_no_inheritance) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { for (KeyValue &E : type->enum_map) { p_enums->push_back(E.key); } if (p_no_inheritance) { break; } type = type->inherits_ptr; } } void ClassDB::get_enum_constants(const StringName &p_class, const StringName &p_enum, List *p_constants, bool p_no_inheritance) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { const ClassInfo::EnumInfo *constants = type->enum_map.getptr(p_enum); if (constants) { for (const List::Element *E = constants->constants.front(); E; E = E->next()) { p_constants->push_back(E->get()); } } if (p_no_inheritance) { break; } type = type->inherits_ptr; } } void ClassDB::set_method_error_return_values(const StringName &p_class, const StringName &p_method, const Vector &p_values) { OBJTYPE_RLOCK; #ifdef DEBUG_METHODS_ENABLED ClassInfo *type = classes.getptr(p_class); ERR_FAIL_NULL(type); type->method_error_values[p_method] = p_values; #endif } Vector ClassDB::get_method_error_return_values(const StringName &p_class, const StringName &p_method) { #ifdef DEBUG_METHODS_ENABLED ClassInfo *type = classes.getptr(p_class); ERR_FAIL_NULL_V(type, Vector()); if (!type->method_error_values.has(p_method)) { return Vector(); } return type->method_error_values[p_method]; #else return Vector(); #endif } bool ClassDB::has_enum(const StringName &p_class, const StringName &p_name, bool p_no_inheritance) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { if (type->enum_map.has(p_name)) { return true; } if (p_no_inheritance) { return false; } type = type->inherits_ptr; } return false; } bool ClassDB::is_enum_bitfield(const StringName &p_class, const StringName &p_name, bool p_no_inheritance) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); while (type) { if (type->enum_map.has(p_name) && type->enum_map[p_name].is_bitfield) { return true; } if (p_no_inheritance) { return false; } type = type->inherits_ptr; } return false; } void ClassDB::add_signal(const StringName &p_class, const MethodInfo &p_signal) { OBJTYPE_WLOCK; ClassInfo *type = classes.getptr(p_class); ERR_FAIL_NULL(type); StringName sname = p_signal.name; #ifdef DEBUG_METHODS_ENABLED ClassInfo *check = type; while (check) { ERR_FAIL_COND_MSG(check->signal_map.has(sname), "Class '" + String(p_class) + "' already has signal '" + String(sname) + "'."); check = check->inherits_ptr; } #endif type->signal_map[sname] = p_signal; } void ClassDB::get_signal_list(const StringName &p_class, List *p_signals, bool p_no_inheritance) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); ERR_FAIL_NULL(type); ClassInfo *check = type; while (check) { for (KeyValue &E : check->signal_map) { p_signals->push_back(E.value); } if (p_no_inheritance) { return; } check = check->inherits_ptr; } } bool ClassDB::has_signal(const StringName &p_class, const StringName &p_signal, bool p_no_inheritance) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { if (check->signal_map.has(p_signal)) { return true; } if (p_no_inheritance) { return false; } check = check->inherits_ptr; } return false; } bool ClassDB::get_signal(const StringName &p_class, const StringName &p_signal, MethodInfo *r_signal) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { if (check->signal_map.has(p_signal)) { if (r_signal) { *r_signal = check->signal_map[p_signal]; } return true; } check = check->inherits_ptr; } return false; } void ClassDB::add_property_group(const StringName &p_class, const String &p_name, const String &p_prefix, int p_indent_depth) { OBJTYPE_WLOCK; ClassInfo *type = classes.getptr(p_class); ERR_FAIL_NULL(type); String prefix = p_prefix; if (p_indent_depth > 0) { prefix = vformat("%s,%d", p_prefix, p_indent_depth); } type->property_list.push_back(PropertyInfo(Variant::NIL, p_name, PROPERTY_HINT_NONE, prefix, PROPERTY_USAGE_GROUP)); } void ClassDB::add_property_subgroup(const StringName &p_class, const String &p_name, const String &p_prefix, int p_indent_depth) { OBJTYPE_WLOCK; ClassInfo *type = classes.getptr(p_class); ERR_FAIL_NULL(type); String prefix = p_prefix; if (p_indent_depth > 0) { prefix = vformat("%s,%d", p_prefix, p_indent_depth); } type->property_list.push_back(PropertyInfo(Variant::NIL, p_name, PROPERTY_HINT_NONE, prefix, PROPERTY_USAGE_SUBGROUP)); } void ClassDB::add_property_array_count(const StringName &p_class, const String &p_label, const StringName &p_count_property, const StringName &p_count_setter, const StringName &p_count_getter, const String &p_array_element_prefix, uint32_t p_count_usage) { add_property(p_class, PropertyInfo(Variant::INT, p_count_property, PROPERTY_HINT_NONE, "", p_count_usage | PROPERTY_USAGE_ARRAY, vformat("%s,%s", p_label, p_array_element_prefix)), p_count_setter, p_count_getter); } void ClassDB::add_property_array(const StringName &p_class, const StringName &p_path, const String &p_array_element_prefix) { OBJTYPE_WLOCK; ClassInfo *type = classes.getptr(p_class); ERR_FAIL_NULL(type); type->property_list.push_back(PropertyInfo(Variant::NIL, p_path, PROPERTY_HINT_NONE, "", PROPERTY_USAGE_EDITOR | PROPERTY_USAGE_ARRAY, p_array_element_prefix)); } // NOTE: For implementation simplicity reasons, this method doesn't allow setters to have optional arguments at the end. void ClassDB::add_property(const StringName &p_class, const PropertyInfo &p_pinfo, const StringName &p_setter, const StringName &p_getter, int p_index) { lock.read_lock(); ClassInfo *type = classes.getptr(p_class); lock.read_unlock(); ERR_FAIL_NULL(type); MethodBind *mb_set = nullptr; if (p_setter) { mb_set = get_method(p_class, p_setter); #ifdef DEBUG_METHODS_ENABLED ERR_FAIL_NULL_MSG(mb_set, "Invalid setter '" + p_class + "::" + p_setter + "' for property '" + p_pinfo.name + "'."); int exp_args = 1 + (p_index >= 0 ? 1 : 0); ERR_FAIL_COND_MSG(mb_set->get_argument_count() != exp_args, "Invalid function for setter '" + p_class + "::" + p_setter + " for property '" + p_pinfo.name + "'."); #endif } MethodBind *mb_get = nullptr; if (p_getter) { mb_get = get_method(p_class, p_getter); #ifdef DEBUG_METHODS_ENABLED ERR_FAIL_NULL_MSG(mb_get, "Invalid getter '" + p_class + "::" + p_getter + "' for property '" + p_pinfo.name + "'."); int exp_args = 0 + (p_index >= 0 ? 1 : 0); ERR_FAIL_COND_MSG(mb_get->get_argument_count() != exp_args, "Invalid function for getter '" + p_class + "::" + p_getter + "' for property: '" + p_pinfo.name + "'."); #endif } #ifdef DEBUG_METHODS_ENABLED ERR_FAIL_COND_MSG(type->property_setget.has(p_pinfo.name), "Object '" + p_class + "' already has property '" + p_pinfo.name + "'."); #endif OBJTYPE_WLOCK type->property_list.push_back(p_pinfo); type->property_map[p_pinfo.name] = p_pinfo; #ifdef DEBUG_METHODS_ENABLED if (mb_get) { type->methods_in_properties.insert(p_getter); } if (mb_set) { type->methods_in_properties.insert(p_setter); } #endif PropertySetGet psg; psg.setter = p_setter; psg.getter = p_getter; psg._setptr = mb_set; psg._getptr = mb_get; psg.index = p_index; psg.type = p_pinfo.type; type->property_setget[p_pinfo.name] = psg; } void ClassDB::set_property_default_value(const StringName &p_class, const StringName &p_name, const Variant &p_default) { if (!default_values.has(p_class)) { default_values[p_class] = HashMap(); } default_values[p_class][p_name] = p_default; } void ClassDB::add_linked_property(const StringName &p_class, const String &p_property, const String &p_linked_property) { #ifdef TOOLS_ENABLED OBJTYPE_WLOCK; ClassInfo *type = classes.getptr(p_class); ERR_FAIL_NULL(type); ERR_FAIL_COND(!type->property_map.has(p_property)); ERR_FAIL_COND(!type->property_map.has(p_linked_property)); if (!type->linked_properties.has(p_property)) { type->linked_properties.insert(p_property, List()); } type->linked_properties[p_property].push_back(p_linked_property); #endif } void ClassDB::get_property_list(const StringName &p_class, List *p_list, bool p_no_inheritance, const Object *p_validator) { OBJTYPE_RLOCK; ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { for (const PropertyInfo &pi : check->property_list) { if (p_validator) { // Making a copy as we may modify it. PropertyInfo pi_mut = pi; p_validator->validate_property(pi_mut); p_list->push_back(pi_mut); } else { p_list->push_back(pi); } } if (p_no_inheritance) { return; } check = check->inherits_ptr; } } void ClassDB::get_linked_properties_info(const StringName &p_class, const StringName &p_property, List *r_properties, bool p_no_inheritance) { #ifdef TOOLS_ENABLED ClassInfo *check = classes.getptr(p_class); while (check) { if (!check->linked_properties.has(p_property)) { return; } for (const StringName &E : check->linked_properties[p_property]) { r_properties->push_back(E); } if (p_no_inheritance) { break; } check = check->inherits_ptr; } #endif } bool ClassDB::get_property_info(const StringName &p_class, const StringName &p_property, PropertyInfo *r_info, bool p_no_inheritance, const Object *p_validator) { OBJTYPE_RLOCK; ClassInfo *check = classes.getptr(p_class); while (check) { if (check->property_map.has(p_property)) { PropertyInfo pinfo = check->property_map[p_property]; if (p_validator) { p_validator->validate_property(pinfo); } if (r_info) { *r_info = pinfo; } return true; } if (p_no_inheritance) { break; } check = check->inherits_ptr; } return false; } bool ClassDB::set_property(Object *p_object, const StringName &p_property, const Variant &p_value, bool *r_valid) { ERR_FAIL_NULL_V(p_object, false); ClassInfo *type = classes.getptr(p_object->get_class_name()); ClassInfo *check = type; while (check) { const PropertySetGet *psg = check->property_setget.getptr(p_property); if (psg) { if (!psg->setter) { if (r_valid) { *r_valid = false; } return true; //return true but do nothing } Callable::CallError ce; if (psg->index >= 0) { Variant index = psg->index; const Variant *arg[2] = { &index, &p_value }; //p_object->call(psg->setter,arg,2,ce); if (psg->_setptr) { psg->_setptr->call(p_object, arg, 2, ce); } else { p_object->callp(psg->setter, arg, 2, ce); } } else { const Variant *arg[1] = { &p_value }; if (psg->_setptr) { psg->_setptr->call(p_object, arg, 1, ce); } else { p_object->callp(psg->setter, arg, 1, ce); } } if (r_valid) { *r_valid = ce.error == Callable::CallError::CALL_OK; } return true; } check = check->inherits_ptr; } return false; } bool ClassDB::get_property(Object *p_object, const StringName &p_property, Variant &r_value) { ERR_FAIL_NULL_V(p_object, false); ClassInfo *type = classes.getptr(p_object->get_class_name()); ClassInfo *check = type; while (check) { const PropertySetGet *psg = check->property_setget.getptr(p_property); if (psg) { if (!psg->getter) { return true; //return true but do nothing } if (psg->index >= 0) { Variant index = psg->index; const Variant *arg[1] = { &index }; Callable::CallError ce; r_value = p_object->callp(psg->getter, arg, 1, ce); } else { Callable::CallError ce; if (psg->_getptr) { r_value = psg->_getptr->call(p_object, nullptr, 0, ce); } else { r_value = p_object->callp(psg->getter, nullptr, 0, ce); } } return true; } const int64_t *c = check->constant_map.getptr(p_property); //constants count if (c) { r_value = *c; return true; } if (check->method_map.has(p_property)) { //methods count r_value = Callable(p_object, p_property); return true; } if (check->signal_map.has(p_property)) { //signals count r_value = Signal(p_object, p_property); return true; } check = check->inherits_ptr; } return false; } int ClassDB::get_property_index(const StringName &p_class, const StringName &p_property, bool *r_is_valid) { ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { const PropertySetGet *psg = check->property_setget.getptr(p_property); if (psg) { if (r_is_valid) { *r_is_valid = true; } return psg->index; } check = check->inherits_ptr; } if (r_is_valid) { *r_is_valid = false; } return -1; } Variant::Type ClassDB::get_property_type(const StringName &p_class, const StringName &p_property, bool *r_is_valid) { ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { const PropertySetGet *psg = check->property_setget.getptr(p_property); if (psg) { if (r_is_valid) { *r_is_valid = true; } return psg->type; } check = check->inherits_ptr; } if (r_is_valid) { *r_is_valid = false; } return Variant::NIL; } StringName ClassDB::get_property_setter(const StringName &p_class, const StringName &p_property) { ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { const PropertySetGet *psg = check->property_setget.getptr(p_property); if (psg) { return psg->setter; } check = check->inherits_ptr; } return StringName(); } StringName ClassDB::get_property_getter(const StringName &p_class, const StringName &p_property) { ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { const PropertySetGet *psg = check->property_setget.getptr(p_property); if (psg) { return psg->getter; } check = check->inherits_ptr; } return StringName(); } bool ClassDB::has_property(const StringName &p_class, const StringName &p_property, bool p_no_inheritance) { ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { if (check->property_setget.has(p_property)) { return true; } if (p_no_inheritance) { break; } check = check->inherits_ptr; } return false; } void ClassDB::set_method_flags(const StringName &p_class, const StringName &p_method, int p_flags) { OBJTYPE_WLOCK; ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; ERR_FAIL_NULL(check); ERR_FAIL_COND(!check->method_map.has(p_method)); check->method_map[p_method]->set_hint_flags(p_flags); } bool ClassDB::has_method(const StringName &p_class, const StringName &p_method, bool p_no_inheritance) { ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { if (check->method_map.has(p_method)) { return true; } if (p_no_inheritance) { return false; } check = check->inherits_ptr; } return false; } void ClassDB::bind_method_custom(const StringName &p_class, MethodBind *p_method) { _bind_method_custom(p_class, p_method, false); } void ClassDB::bind_compatibility_method_custom(const StringName &p_class, MethodBind *p_method) { _bind_method_custom(p_class, p_method, true); } void ClassDB::_bind_compatibility(ClassInfo *type, MethodBind *p_method) { if (!type->method_map_compatibility.has(p_method->get_name())) { type->method_map_compatibility.insert(p_method->get_name(), LocalVector()); } type->method_map_compatibility[p_method->get_name()].push_back(p_method); } void ClassDB::_bind_method_custom(const StringName &p_class, MethodBind *p_method, bool p_compatibility) { ClassInfo *type = classes.getptr(p_class); if (!type) { ERR_FAIL_MSG("Couldn't bind custom method '" + p_method->get_name() + "' for instance '" + p_class + "'."); } if (p_compatibility) { _bind_compatibility(type, p_method); return; } if (type->method_map.has(p_method->get_name())) { // overloading not supported ERR_FAIL_MSG("Method already bound '" + p_class + "::" + p_method->get_name() + "'."); } #ifdef DEBUG_METHODS_ENABLED type->method_order.push_back(p_method->get_name()); #endif type->method_map[p_method->get_name()] = p_method; } MethodBind *ClassDB::_bind_vararg_method(MethodBind *p_bind, const StringName &p_name, const Vector &p_default_args, bool p_compatibility) { MethodBind *bind = p_bind; bind->set_name(p_name); bind->set_default_arguments(p_default_args); String instance_type = bind->get_instance_class(); ClassInfo *type = classes.getptr(instance_type); if (!type) { memdelete(bind); ERR_FAIL_NULL_V(type, nullptr); } if (p_compatibility) { _bind_compatibility(type, bind); return bind; } if (type->method_map.has(p_name)) { memdelete(bind); // Overloading not supported ERR_FAIL_V_MSG(nullptr, "Method already bound: " + instance_type + "::" + p_name + "."); } type->method_map[p_name] = bind; #ifdef DEBUG_METHODS_ENABLED // FIXME: set_return_type is no longer in MethodBind, so I guess it should be moved to vararg method bind //bind->set_return_type("Variant"); type->method_order.push_back(p_name); #endif return bind; } #ifdef DEBUG_METHODS_ENABLED MethodBind *ClassDB::bind_methodfi(uint32_t p_flags, MethodBind *p_bind, bool p_compatibility, const MethodDefinition &method_name, const Variant **p_defs, int p_defcount) { StringName mdname = method_name.name; #else MethodBind *ClassDB::bind_methodfi(uint32_t p_flags, MethodBind *p_bind, bool p_compatibility, const char *method_name, const Variant **p_defs, int p_defcount) { StringName mdname = StaticCString::create(method_name); #endif OBJTYPE_WLOCK; ERR_FAIL_NULL_V(p_bind, nullptr); p_bind->set_name(mdname); String instance_type = p_bind->get_instance_class(); #ifdef DEBUG_ENABLED ERR_FAIL_COND_V_MSG(!p_compatibility && has_method(instance_type, mdname), nullptr, "Class " + String(instance_type) + " already has a method " + String(mdname) + "."); #endif ClassInfo *type = classes.getptr(instance_type); if (!type) { memdelete(p_bind); ERR_FAIL_V_MSG(nullptr, "Couldn't bind method '" + mdname + "' for instance '" + instance_type + "'."); } if (!p_compatibility && type->method_map.has(mdname)) { memdelete(p_bind); // overloading not supported ERR_FAIL_V_MSG(nullptr, "Method already bound '" + instance_type + "::" + mdname + "'."); } #ifdef DEBUG_METHODS_ENABLED if (method_name.args.size() > p_bind->get_argument_count()) { memdelete(p_bind); ERR_FAIL_V_MSG(nullptr, "Method definition provides more arguments than the method actually has '" + instance_type + "::" + mdname + "'."); } p_bind->set_argument_names(method_name.args); if (!p_compatibility) { type->method_order.push_back(mdname); } #endif if (p_compatibility) { _bind_compatibility(type, p_bind); } else { type->method_map[mdname] = p_bind; } Vector defvals; defvals.resize(p_defcount); for (int i = 0; i < p_defcount; i++) { defvals.write[i] = *p_defs[i]; } p_bind->set_default_arguments(defvals); p_bind->set_hint_flags(p_flags); return p_bind; } void ClassDB::add_virtual_method(const StringName &p_class, const MethodInfo &p_method, bool p_virtual, const Vector &p_arg_names, bool p_object_core) { ERR_FAIL_COND_MSG(!classes.has(p_class), "Request for nonexistent class '" + p_class + "'."); OBJTYPE_WLOCK; #ifdef DEBUG_METHODS_ENABLED MethodInfo mi = p_method; if (p_virtual) { mi.flags |= METHOD_FLAG_VIRTUAL; } if (p_object_core) { mi.flags |= METHOD_FLAG_OBJECT_CORE; } if (!p_object_core) { if (p_arg_names.size() != mi.arguments.size()) { WARN_PRINT("Mismatch argument name count for virtual method: " + String(p_class) + "::" + p_method.name); } else { for (int i = 0; i < p_arg_names.size(); i++) { mi.arguments[i].name = p_arg_names[i]; } } } if (classes[p_class].virtual_methods_map.has(p_method.name)) { // overloading not supported ERR_FAIL_MSG("Virtual method already bound '" + String(p_class) + "::" + p_method.name + "'."); } classes[p_class].virtual_methods.push_back(mi); classes[p_class].virtual_methods_map[p_method.name] = mi; #endif } void ClassDB::get_virtual_methods(const StringName &p_class, List *p_methods, bool p_no_inheritance) { ERR_FAIL_COND_MSG(!classes.has(p_class), "Request for nonexistent class '" + p_class + "'."); #ifdef DEBUG_METHODS_ENABLED ClassInfo *type = classes.getptr(p_class); ClassInfo *check = type; while (check) { for (const MethodInfo &E : check->virtual_methods) { p_methods->push_back(E); } if (p_no_inheritance) { return; } check = check->inherits_ptr; } #endif } void ClassDB::set_class_enabled(const StringName &p_class, bool p_enable) { OBJTYPE_WLOCK; ERR_FAIL_COND_MSG(!classes.has(p_class), "Request for nonexistent class '" + p_class + "'."); classes[p_class].disabled = !p_enable; } bool ClassDB::is_class_enabled(const StringName &p_class) { OBJTYPE_RLOCK; ClassInfo *ti = classes.getptr(p_class); if (!ti || !ti->creation_func) { if (compat_classes.has(p_class)) { ti = classes.getptr(compat_classes[p_class]); } } ERR_FAIL_NULL_V_MSG(ti, false, "Cannot get class '" + String(p_class) + "'."); return !ti->disabled; } bool ClassDB::is_class_exposed(const StringName &p_class) { OBJTYPE_RLOCK; ClassInfo *ti = classes.getptr(p_class); ERR_FAIL_NULL_V_MSG(ti, false, "Cannot get class '" + String(p_class) + "'."); return ti->exposed; } void ClassDB::add_resource_base_extension(const StringName &p_extension, const StringName &p_class) { if (resource_base_extensions.has(p_extension)) { return; } resource_base_extensions[p_extension] = p_class; } void ClassDB::get_resource_base_extensions(List *p_extensions) { for (const KeyValue &E : resource_base_extensions) { p_extensions->push_back(E.key); } } bool ClassDB::is_resource_extension(const StringName &p_extension) { return resource_base_extensions.has(p_extension); } void ClassDB::get_extensions_for_type(const StringName &p_class, List *p_extensions) { for (const KeyValue &E : resource_base_extensions) { if (is_parent_class(p_class, E.value) || is_parent_class(E.value, p_class)) { p_extensions->push_back(E.key); } } } HashMap> ClassDB::default_values; HashSet ClassDB::default_values_cached; Variant ClassDB::class_get_default_property_value(const StringName &p_class, const StringName &p_property, bool *r_valid) { if (!default_values_cached.has(p_class)) { if (!default_values.has(p_class)) { default_values[p_class] = HashMap(); } Object *c = nullptr; bool cleanup_c = false; if (Engine::get_singleton()->has_singleton(p_class)) { c = Engine::get_singleton()->get_singleton_object(p_class); cleanup_c = false; } else if (ClassDB::can_instantiate(p_class) && !ClassDB::is_virtual(p_class)) { // Keep this condition in sync with doc_tools.cpp get_documentation_default_value. c = ClassDB::instantiate(p_class); cleanup_c = true; } if (c) { List plist; c->get_property_list(&plist); for (const PropertyInfo &E : plist) { if (E.usage & (PROPERTY_USAGE_STORAGE | PROPERTY_USAGE_EDITOR)) { if (!default_values[p_class].has(E.name)) { Variant v = c->get(E.name); default_values[p_class][E.name] = v; } } } if (cleanup_c) { memdelete(c); } } default_values_cached.insert(p_class); } if (!default_values.has(p_class)) { if (r_valid != nullptr) { *r_valid = false; } return Variant(); } if (!default_values[p_class].has(p_property)) { if (r_valid != nullptr) { *r_valid = false; } return Variant(); } if (r_valid != nullptr) { *r_valid = true; } Variant var = default_values[p_class][p_property]; #ifdef DEBUG_ENABLED // Some properties may have an instantiated Object as default value, // (like Path2D's `curve` used to have), but that's not a good practice. // Instead, those properties should use PROPERTY_USAGE_EDITOR_INSTANTIATE_OBJECT // to be auto-instantiated when created in the editor with the following method: // EditorNode::get_editor_data().instantiate_object_properties(obj); if (var.get_type() == Variant::OBJECT) { Object *obj = var.get_validated_object(); if (obj) { WARN_PRINT(vformat("Instantiated %s used as default value for %s's \"%s\" property.", obj->get_class(), p_class, p_property)); } } #endif return var; } void ClassDB::register_extension_class(ObjectGDExtension *p_extension) { GLOBAL_LOCK_FUNCTION; ERR_FAIL_COND_MSG(classes.has(p_extension->class_name), "Class already registered: " + String(p_extension->class_name)); ERR_FAIL_COND_MSG(!classes.has(p_extension->parent_class_name), "Parent class name for extension class not found: " + String(p_extension->parent_class_name)); ClassInfo *parent = classes.getptr(p_extension->parent_class_name); ClassInfo c; c.api = p_extension->editor_class ? API_EDITOR_EXTENSION : API_EXTENSION; c.gdextension = p_extension; c.name = p_extension->class_name; c.is_virtual = p_extension->is_virtual; if (!p_extension->is_abstract) { // Find the closest ancestor which is either non-abstract or native (or both). ClassInfo *concrete_ancestor = parent; while (concrete_ancestor->creation_func == nullptr && concrete_ancestor->inherits_ptr != nullptr && concrete_ancestor->gdextension != nullptr) { concrete_ancestor = concrete_ancestor->inherits_ptr; } ERR_FAIL_NULL_MSG(concrete_ancestor->creation_func, "Extension class " + String(p_extension->class_name) + " cannot extend native abstract class " + String(concrete_ancestor->name)); c.creation_func = concrete_ancestor->creation_func; } c.inherits = parent->name; c.class_ptr = parent->class_ptr; c.inherits_ptr = parent; c.exposed = p_extension->is_exposed; if (c.exposed) { // The parent classes should be exposed if it has an exposed child class. while (parent && !parent->exposed) { parent->exposed = true; parent = classes.getptr(parent->name); } } classes[p_extension->class_name] = c; } void ClassDB::unregister_extension_class(const StringName &p_class) { ClassInfo *c = classes.getptr(p_class); ERR_FAIL_NULL_MSG(c, "Class '" + String(p_class) + "' does not exist."); for (KeyValue &F : c->method_map) { memdelete(F.value); } classes.erase(p_class); } HashMap ClassDB::native_structs; void ClassDB::register_native_struct(const StringName &p_name, const String &p_code, uint64_t p_current_size) { NativeStruct ns; ns.ccode = p_code; ns.struct_size = p_current_size; native_structs[p_name] = ns; } void ClassDB::get_native_struct_list(List *r_names) { for (const KeyValue &E : native_structs) { r_names->push_back(E.key); } } String ClassDB::get_native_struct_code(const StringName &p_name) { ERR_FAIL_COND_V(!native_structs.has(p_name), String()); return native_structs[p_name].ccode; } uint64_t ClassDB::get_native_struct_size(const StringName &p_name) { ERR_FAIL_COND_V(!native_structs.has(p_name), 0); return native_structs[p_name].struct_size; } RWLock ClassDB::lock; void ClassDB::cleanup_defaults() { default_values.clear(); default_values_cached.clear(); } void ClassDB::cleanup() { //OBJTYPE_LOCK; hah not here for (KeyValue &E : classes) { ClassInfo &ti = E.value; for (KeyValue &F : ti.method_map) { memdelete(F.value); } for (KeyValue> &F : ti.method_map_compatibility) { for (uint32_t i = 0; i < F.value.size(); i++) { memdelete(F.value[i]); } } } classes.clear(); resource_base_extensions.clear(); compat_classes.clear(); native_structs.clear(); } //