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/*************************************************************************/
/* gdscript_analyzer.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2022 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2022 Godot Engine contributors (cf. AUTHORS.md). */
/* */
/* 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 "gdscript_analyzer.h"
#include "core/config/engine.h"
#include "core/config/project_settings.h"
#include "core/core_string_names.h"
#include "core/io/file_access.h"
#include "core/io/resource_loader.h"
#include "core/object/class_db.h"
#include "core/object/script_language.h"
#include "core/templates/hash_map.h"
#include "gdscript.h"
#include "gdscript_utility_functions.h"
#include "scene/resources/packed_scene.h"
static MethodInfo info_from_utility_func(const StringName &p_function) {
ERR_FAIL_COND_V(!Variant::has_utility_function(p_function), MethodInfo());
MethodInfo info(p_function);
if (Variant::has_utility_function_return_value(p_function)) {
info.return_val.type = Variant::get_utility_function_return_type(p_function);
if (info.return_val.type == Variant::NIL) {
info.return_val.usage |= PROPERTY_USAGE_NIL_IS_VARIANT;
}
}
if (Variant::is_utility_function_vararg(p_function)) {
info.flags |= METHOD_FLAG_VARARG;
} else {
for (int i = 0; i < Variant::get_utility_function_argument_count(p_function); i++) {
PropertyInfo pi;
#ifdef DEBUG_METHODS_ENABLED
pi.name = Variant::get_utility_function_argument_name(p_function, i);
#else
pi.name = "arg" + itos(i + 1);
#endif
pi.type = Variant::get_utility_function_argument_type(p_function, i);
if (pi.type == Variant::NIL) {
pi.usage |= PROPERTY_USAGE_NIL_IS_VARIANT;
}
info.arguments.push_back(pi);
}
}
return info;
}
static GDScriptParser::DataType make_callable_type(const MethodInfo &p_info) {
GDScriptParser::DataType type;
type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
type.kind = GDScriptParser::DataType::BUILTIN;
type.builtin_type = Variant::CALLABLE;
type.is_constant = true;
type.method_info = p_info;
return type;
}
static GDScriptParser::DataType make_signal_type(const MethodInfo &p_info) {
GDScriptParser::DataType type;
type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
type.kind = GDScriptParser::DataType::BUILTIN;
type.builtin_type = Variant::SIGNAL;
type.is_constant = true;
type.method_info = p_info;
return type;
}
static GDScriptParser::DataType make_native_meta_type(const StringName &p_class_name) {
GDScriptParser::DataType type;
type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
type.kind = GDScriptParser::DataType::NATIVE;
type.builtin_type = Variant::OBJECT;
type.is_constant = true;
type.native_type = p_class_name;
type.is_meta_type = true;
return type;
}
static GDScriptParser::DataType make_native_enum_type(const StringName &p_native_class, const StringName &p_enum_name) {
GDScriptParser::DataType type;
type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
type.kind = GDScriptParser::DataType::ENUM;
type.builtin_type = Variant::INT;
type.is_constant = true;
type.is_meta_type = true;
List<StringName> enum_values;
ClassDB::get_enum_constants(p_native_class, p_enum_name, &enum_values);
for (const StringName &E : enum_values) {
type.enum_values[E] = ClassDB::get_integer_constant(p_native_class, E);
}
return type;
}
static GDScriptParser::DataType make_builtin_meta_type(Variant::Type p_type) {
GDScriptParser::DataType type;
type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
type.kind = GDScriptParser::DataType::BUILTIN;
type.builtin_type = p_type;
type.is_constant = true;
type.is_meta_type = true;
return type;
}
bool GDScriptAnalyzer::has_member_name_conflict_in_script_class(const StringName &p_member_name, const GDScriptParser::ClassNode *p_class, const GDScriptParser::Node *p_member) {
if (p_class->members_indices.has(p_member_name)) {
int index = p_class->members_indices[p_member_name];
const GDScriptParser::ClassNode::Member *member = &p_class->members[index];
if (member->type == GDScriptParser::ClassNode::Member::VARIABLE ||
member->type == GDScriptParser::ClassNode::Member::CONSTANT ||
member->type == GDScriptParser::ClassNode::Member::ENUM ||
member->type == GDScriptParser::ClassNode::Member::ENUM_VALUE ||
member->type == GDScriptParser::ClassNode::Member::CLASS ||
member->type == GDScriptParser::ClassNode::Member::SIGNAL) {
return true;
}
if (p_member->type != GDScriptParser::Node::FUNCTION && member->type == GDScriptParser::ClassNode::Member::FUNCTION) {
return true;
}
}
return false;
}
bool GDScriptAnalyzer::has_member_name_conflict_in_native_type(const StringName &p_member_name, const StringName &p_native_type_string) {
if (ClassDB::has_signal(p_native_type_string, p_member_name)) {
return true;
}
if (ClassDB::has_property(p_native_type_string, p_member_name)) {
return true;
}
if (ClassDB::has_integer_constant(p_native_type_string, p_member_name)) {
return true;
}
if (p_member_name == CoreStringNames::get_singleton()->_script) {
return true;
}
return false;
}
Error GDScriptAnalyzer::check_native_member_name_conflict(const StringName &p_member_name, const GDScriptParser::Node *p_member_node, const StringName &p_native_type_string) {
if (has_member_name_conflict_in_native_type(p_member_name, p_native_type_string)) {
push_error(vformat(R"(Member "%s" redefined (original in native class '%s'))", p_member_name, p_native_type_string), p_member_node);
return ERR_PARSE_ERROR;
}
if (class_exists(p_member_name)) {
push_error(vformat(R"(The member "%s" shadows a native class.)", p_member_name), p_member_node);
return ERR_PARSE_ERROR;
}
if (GDScriptParser::get_builtin_type(p_member_name) != Variant::VARIANT_MAX) {
push_error(vformat(R"(The member "%s" cannot have the same name as a builtin type.)", p_member_name), p_member_node);
return ERR_PARSE_ERROR;
}
return OK;
}
Error GDScriptAnalyzer::check_class_member_name_conflict(const GDScriptParser::ClassNode *p_class_node, const StringName &p_member_name, const GDScriptParser::Node *p_member_node) {
const GDScriptParser::DataType *current_data_type = &p_class_node->base_type;
while (current_data_type && current_data_type->kind == GDScriptParser::DataType::Kind::CLASS) {
GDScriptParser::ClassNode *current_class_node = current_data_type->class_type;
if (has_member_name_conflict_in_script_class(p_member_name, current_class_node, p_member_node)) {
push_error(vformat(R"(The member "%s" already exists in parent class %s.)", p_member_name, current_class_node->identifier->name),
p_member_node);
return ERR_PARSE_ERROR;
}
current_data_type = ¤t_class_node->base_type;
}
// No need for native class recursion because Node exposes all Object's properties.
if (current_data_type && current_data_type->kind == GDScriptParser::DataType::Kind::NATIVE) {
if (current_data_type->native_type != StringName()) {
return check_native_member_name_conflict(
p_member_name,
p_member_node,
current_data_type->native_type);
}
}
return OK;
}
Error GDScriptAnalyzer::resolve_inheritance(GDScriptParser::ClassNode *p_class, bool p_recursive) {
if (p_class->base_type.is_set()) {
// Already resolved
return OK;
}
if (p_class->identifier) {
StringName class_name = p_class->identifier->name;
if (class_exists(class_name)) {
push_error(vformat(R"(Class "%s" hides a native class.)", class_name), p_class->identifier);
} else if (ScriptServer::is_global_class(class_name) && (ScriptServer::get_global_class_path(class_name) != parser->script_path || p_class != parser->head)) {
push_error(vformat(R"(Class "%s" hides a global script class.)", class_name), p_class->identifier);
} else if (ProjectSettings::get_singleton()->has_autoload(class_name) && ProjectSettings::get_singleton()->get_autoload(class_name).is_singleton) {
push_error(vformat(R"(Class "%s" hides an autoload singleton.)", class_name), p_class->identifier);
}
}
GDScriptParser::DataType result;
// Set datatype for class.
GDScriptParser::DataType class_type;
class_type.is_constant = true;
class_type.is_meta_type = true;
class_type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
class_type.kind = GDScriptParser::DataType::CLASS;
class_type.class_type = p_class;
class_type.script_path = parser->script_path;
class_type.builtin_type = Variant::OBJECT;
p_class->set_datatype(class_type);
if (!p_class->extends_used) {
result.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
result.kind = GDScriptParser::DataType::NATIVE;
result.native_type = SNAME("RefCounted");
} else {
result.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
GDScriptParser::DataType base;
int extends_index = 0;
if (!p_class->extends_path.is_empty()) {
if (p_class->extends_path.is_relative_path()) {
p_class->extends_path = class_type.script_path.get_base_dir().path_join(p_class->extends_path).simplify_path();
}
Ref<GDScriptParserRef> ext_parser = get_parser_for(p_class->extends_path);
if (ext_parser.is_null()) {
push_error(vformat(R"(Could not resolve super class path "%s".)", p_class->extends_path), p_class);
return ERR_PARSE_ERROR;
}
Error err = ext_parser->raise_status(GDScriptParserRef::INTERFACE_SOLVED);
if (err != OK) {
push_error(vformat(R"(Could not resolve super class inheritance from "%s".)", p_class->extends_path), p_class);
return err;
}
base = ext_parser->get_parser()->head->get_datatype();
} else {
if (p_class->extends.is_empty()) {
push_error("Could not resolve an empty super class path.", p_class);
return ERR_PARSE_ERROR;
}
const StringName &name = p_class->extends[extends_index++];
base.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
if (ScriptServer::is_global_class(name)) {
String base_path = ScriptServer::get_global_class_path(name);
if (base_path == parser->script_path) {
base = parser->head->get_datatype();
} else {
Ref<GDScriptParserRef> base_parser = get_parser_for(base_path);
if (base_parser.is_null()) {
push_error(vformat(R"(Could not resolve super class "%s".)", name), p_class);
return ERR_PARSE_ERROR;
}
Error err = base_parser->raise_status(GDScriptParserRef::INTERFACE_SOLVED);
if (err != OK) {
push_error(vformat(R"(Could not resolve super class inheritance from "%s".)", name), p_class);
return err;
}
base = base_parser->get_parser()->head->get_datatype();
}
} else if (ProjectSettings::get_singleton()->has_autoload(name) && ProjectSettings::get_singleton()->get_autoload(name).is_singleton) {
const ProjectSettings::AutoloadInfo &info = ProjectSettings::get_singleton()->get_autoload(name);
if (info.path.get_extension().to_lower() != ".gd") {
push_error(vformat(R"(Singleton %s is not a GDScript.)", info.name), p_class);
return ERR_PARSE_ERROR;
}
Ref<GDScriptParserRef> info_parser = get_parser_for(info.path);
if (info_parser.is_null()) {
push_error(vformat(R"(Could not parse singleton from "%s".)", info.path), p_class);
return ERR_PARSE_ERROR;
}
Error err = info_parser->raise_status(GDScriptParserRef::INTERFACE_SOLVED);
if (err != OK) {
push_error(vformat(R"(Could not resolve super class inheritance from "%s".)", name), p_class);
return err;
}
} else if (class_exists(name) && ClassDB::can_instantiate(name)) {
base.kind = GDScriptParser::DataType::NATIVE;
base.native_type = name;
} else {
// Look for other classes in script.
GDScriptParser::ClassNode *look_class = p_class;
bool found = false;
while (look_class != nullptr) {
if (look_class->identifier && look_class->identifier->name == name) {
if (!look_class->get_datatype().is_set()) {
Error err = resolve_inheritance(look_class, false);
if (err) {
return err;
}
}
base = look_class->get_datatype();
found = true;
break;
}
if (look_class->members_indices.has(name) && look_class->get_member(name).type == GDScriptParser::ClassNode::Member::CLASS) {
GDScriptParser::ClassNode::Member member = look_class->get_member(name);
if (!member.m_class->get_datatype().is_set()) {
Error err = resolve_inheritance(member.m_class, false);
if (err) {
return err;
}
}
base = member.m_class->get_datatype();
found = true;
break;
}
look_class = look_class->outer;
}
if (!found) {
push_error(vformat(R"(Could not find base class "%s".)", name), p_class);
return ERR_PARSE_ERROR;
}
}
}
for (int index = extends_index; index < p_class->extends.size(); index++) {
if (base.kind != GDScriptParser::DataType::CLASS) {
push_error(R"(Super type "%s" is not a GDScript. Cannot get nested types.)", p_class);
return ERR_PARSE_ERROR;
}
// TODO: Extends could use identifier nodes. That way errors can be pointed out properly and it can be used here.
GDScriptParser::IdentifierNode *id = parser->alloc_node<GDScriptParser::IdentifierNode>();
id->name = p_class->extends[index];
reduce_identifier_from_base(id, &base);
GDScriptParser::DataType id_type = id->get_datatype();
if (!id_type.is_set()) {
push_error(vformat(R"(Could not find type "%s" under base "%s".)", id->name, base.to_string()), p_class);
}
base = id_type;
}
result = base;
}
if (!result.is_set()) {
// TODO: More specific error messages.
push_error(vformat(R"(Could not resolve inheritance for class "%s".)", p_class->identifier == nullptr ? "<main>" : p_class->identifier->name), p_class);
return ERR_PARSE_ERROR;
}
// Check for cyclic inheritance.
const GDScriptParser::ClassNode *base_class = result.class_type;
while (base_class) {
if (base_class->fqcn == p_class->fqcn) {
push_error("Cyclic inheritance.", p_class);
return ERR_PARSE_ERROR;
}
base_class = base_class->base_type.class_type;
}
p_class->base_type = result;
class_type.native_type = result.native_type;
p_class->set_datatype(class_type);
if (p_recursive) {
for (int i = 0; i < p_class->members.size(); i++) {
if (p_class->members[i].type == GDScriptParser::ClassNode::Member::CLASS) {
Error err = resolve_inheritance(p_class->members[i].m_class, true);
if (err) {
return err;
}
}
}
}
return OK;
}
GDScriptParser::DataType GDScriptAnalyzer::resolve_datatype(GDScriptParser::TypeNode *p_type) {
GDScriptParser::DataType result;
if (p_type == nullptr) {
result.kind = GDScriptParser::DataType::VARIANT;
return result;
}
result.type_source = result.ANNOTATED_EXPLICIT;
result.builtin_type = Variant::OBJECT;
if (p_type->type_chain.is_empty()) {
// void.
result.kind = GDScriptParser::DataType::BUILTIN;
result.builtin_type = Variant::NIL;
p_type->set_datatype(result);
return result;
}
StringName first = p_type->type_chain[0]->name;
if (first == SNAME("Variant")) {
result.kind = GDScriptParser::DataType::VARIANT;
if (p_type->type_chain.size() > 1) {
push_error(R"("Variant" type don't contain nested types.)", p_type->type_chain[1]);
return GDScriptParser::DataType();
}
return result;
}
if (first == SNAME("Object")) {
result.kind = GDScriptParser::DataType::NATIVE;
result.native_type = SNAME("Object");
if (p_type->type_chain.size() > 1) {
push_error(R"("Object" type don't contain nested types.)", p_type->type_chain[1]);
return GDScriptParser::DataType();
}
return result;
}
if (GDScriptParser::get_builtin_type(first) < Variant::VARIANT_MAX) {
// Built-in types.
if (p_type->type_chain.size() > 1) {
push_error(R"(Built-in types don't contain nested types.)", p_type->type_chain[1]);
return GDScriptParser::DataType();
}
result.kind = GDScriptParser::DataType::BUILTIN;
result.builtin_type = GDScriptParser::get_builtin_type(first);
if (result.builtin_type == Variant::ARRAY) {
GDScriptParser::DataType container_type = resolve_datatype(p_type->container_type);
if (container_type.kind != GDScriptParser::DataType::VARIANT) {
container_type.is_meta_type = false;
container_type.is_constant = false;
result.set_container_element_type(container_type);
}
}
} else if (class_exists(first)) {
// Native engine classes.
result.kind = GDScriptParser::DataType::NATIVE;
result.native_type = first;
} else if (ScriptServer::is_global_class(first)) {
if (parser->script_path == ScriptServer::get_global_class_path(first)) {
result = parser->head->get_datatype();
} else {
String path = ScriptServer::get_global_class_path(first);
String ext = path.get_extension();
if (ext == GDScriptLanguage::get_singleton()->get_extension()) {
Ref<GDScriptParserRef> ref = get_parser_for(path);
if (!ref.is_valid() || ref->raise_status(GDScriptParserRef::INTERFACE_SOLVED) != OK) {
push_error(vformat(R"(Could not parse global class "%s" from "%s".)", first, ScriptServer::get_global_class_path(first)), p_type);
return GDScriptParser::DataType();
}
result = ref->get_parser()->head->get_datatype();
} else {
result.kind = GDScriptParser::DataType::SCRIPT;
result.native_type = ScriptServer::get_global_class_native_base(first);
result.script_type = ResourceLoader::load(path, "Script");
result.script_path = path;
result.is_constant = true;
result.is_meta_type = false;
}
}
} else if (ProjectSettings::get_singleton()->has_autoload(first) && ProjectSettings::get_singleton()->get_autoload(first).is_singleton) {
const ProjectSettings::AutoloadInfo &autoload = ProjectSettings::get_singleton()->get_autoload(first);
Ref<GDScriptParserRef> ref = get_parser_for(autoload.path);
if (ref->raise_status(GDScriptParserRef::INTERFACE_SOLVED) != OK) {
push_error(vformat(R"(Could not parse singleton "%s" from "%s".)", first, autoload.path), p_type);
return GDScriptParser::DataType();
}
result = ref->get_parser()->head->get_datatype();
} else if (ClassDB::has_enum(parser->current_class->base_type.native_type, first)) {
// Native enum in current class.
result = make_native_enum_type(parser->current_class->base_type.native_type, first);
} else {
// Classes in current scope.
GDScriptParser::ClassNode *script_class = parser->current_class;
bool found = false;
while (!found && script_class != nullptr) {
if (script_class->identifier && script_class->identifier->name == first) {
result = script_class->get_datatype();
found = true;
break;
}
if (script_class->members_indices.has(first)) {
GDScriptParser::ClassNode::Member member = script_class->members[script_class->members_indices[first]];
switch (member.type) {
case GDScriptParser::ClassNode::Member::CLASS:
result = member.m_class->get_datatype();
found = true;
break;
case GDScriptParser::ClassNode::Member::ENUM:
result = member.m_enum->get_datatype();
found = true;
break;
case GDScriptParser::ClassNode::Member::CONSTANT:
if (member.constant->get_datatype().is_meta_type) {
result = member.constant->get_datatype();
result.is_meta_type = false;
found = true;
break;
} else if (Ref<Script>(member.constant->initializer->reduced_value).is_valid()) {
Ref<GDScript> gdscript = member.constant->initializer->reduced_value;
if (gdscript.is_valid()) {
Ref<GDScriptParserRef> ref = get_parser_for(gdscript->get_path());
if (ref->raise_status(GDScriptParserRef::INTERFACE_SOLVED) != OK) {
push_error(vformat(R"(Could not parse script from "%s".)", gdscript->get_path()), p_type);
return GDScriptParser::DataType();
}
result = ref->get_parser()->head->get_datatype();
result.is_meta_type = false;
} else {
Ref<Script> script = member.constant->initializer->reduced_value;
result.kind = GDScriptParser::DataType::SCRIPT;
result.builtin_type = Variant::OBJECT;
result.script_type = script;
result.script_path = script->get_path();
result.native_type = script->get_instance_base_type();
result.is_meta_type = false;
}
break;
}
[[fallthrough]];
default:
push_error(vformat(R"("%s" is a %s but does not contain a type.)", first, member.get_type_name()), p_type);
return GDScriptParser::DataType();
}
}
script_class = script_class->outer;
}
}
if (!result.is_set()) {
push_error(vformat(R"("%s" was not found in the current scope.)", first), p_type);
result.kind = GDScriptParser::DataType::VARIANT; // Leave Variant anyway so future type check don't use an unresolved type.
return result;
}
if (p_type->type_chain.size() > 1) {
if (result.kind == GDScriptParser::DataType::CLASS) {
for (int i = 1; i < p_type->type_chain.size(); i++) {
GDScriptParser::DataType base = result;
reduce_identifier_from_base(p_type->type_chain[i], &base);
result = p_type->type_chain[i]->get_datatype();
if (!result.is_set()) {
push_error(vformat(R"(Could not find type "%s" under base "%s".)", p_type->type_chain[i]->name, base.to_string()), p_type->type_chain[1]);
result.kind = GDScriptParser::DataType::VARIANT; // Leave Variant anyway so future type check don't use an unresolved type.
return result;
} else if (!result.is_meta_type) {
push_error(vformat(R"(Member "%s" under base "%s" is not a valid type.)", p_type->type_chain[i]->name, base.to_string()), p_type->type_chain[1]);
result.kind = GDScriptParser::DataType::VARIANT; // Leave Variant anyway so future type check don't use an unresolved type.
return result;
}
}
} else if (result.kind == GDScriptParser::DataType::NATIVE) {
// Only enums allowed for native.
if (ClassDB::has_enum(result.native_type, p_type->type_chain[1]->name)) {
if (p_type->type_chain.size() > 2) {
push_error(R"(Enums cannot contain nested types.)", p_type->type_chain[2]);
} else {
result = make_native_enum_type(result.native_type, p_type->type_chain[1]->name);
}
}
} else {
push_error(vformat(R"(Could not find nested type "%s" under base "%s".)", p_type->type_chain[1]->name, result.to_string()), p_type->type_chain[1]);
result.kind = GDScriptParser::DataType::VARIANT; // Leave Variant anyway so future type check don't use an unresolved type.
return result;
}
}
if (result.builtin_type != Variant::ARRAY && p_type->container_type != nullptr) {
push_error("Only arrays can specify the collection element type.", p_type);
}
p_type->set_datatype(result);
return result;
}
void GDScriptAnalyzer::resolve_class_interface(GDScriptParser::ClassNode *p_class) {
if (p_class->resolved_interface) {
return;
}
p_class->resolved_interface = true;
GDScriptParser::ClassNode *previous_class = parser->current_class;
parser->current_class = p_class;
for (int i = 0; i < p_class->members.size(); i++) {
GDScriptParser::ClassNode::Member member = p_class->members[i];
switch (member.type) {
case GDScriptParser::ClassNode::Member::VARIABLE: {
check_class_member_name_conflict(p_class, member.variable->identifier->name, member.variable);
GDScriptParser::DataType datatype;
datatype.kind = GDScriptParser::DataType::VARIANT;
datatype.type_source = GDScriptParser::DataType::UNDETECTED;
GDScriptParser::DataType specified_type;
if (member.variable->datatype_specifier != nullptr) {
specified_type = resolve_datatype(member.variable->datatype_specifier);
specified_type.is_meta_type = false;
}
if (member.variable->initializer != nullptr) {
member.variable->set_datatype(datatype); // Allow recursive usage.
reduce_expression(member.variable->initializer);
if ((member.variable->infer_datatype || (member.variable->datatype_specifier != nullptr && specified_type.has_container_element_type())) && member.variable->initializer->type == GDScriptParser::Node::ARRAY) {
// Typed array.
GDScriptParser::ArrayNode *array = static_cast<GDScriptParser::ArrayNode *>(member.variable->initializer);
// Can only infer typed array if it has elements.
if ((member.variable->infer_datatype && array->elements.size() > 0) || member.variable->datatype_specifier != nullptr) {
update_array_literal_element_type(specified_type, array);
}
}
datatype = member.variable->initializer->get_datatype();
if (datatype.type_source != GDScriptParser::DataType::UNDETECTED) {
datatype.type_source = GDScriptParser::DataType::INFERRED;
}
}
// Check if initializer is an unset identifier (ie: a variable within scope, but declared below)
if (member.variable->initializer && !member.variable->initializer->get_datatype().is_set()) {
if (member.variable->initializer->type == GDScriptParser::Node::IDENTIFIER) {
GDScriptParser::IdentifierNode *initializer_identifier = static_cast<GDScriptParser::IdentifierNode *>(member.variable->initializer);
push_error(vformat(R"(Identifier "%s" must be declared above current variable.)", initializer_identifier->name), member.variable->initializer);
} else {
ERR_PRINT("Parser bug (please report): tried to assign unset node without an identifier.");
}
}
if (member.variable->datatype_specifier != nullptr) {
datatype = specified_type;
if (member.variable->initializer != nullptr) {
if (!is_type_compatible(datatype, member.variable->initializer->get_datatype(), true, member.variable->initializer)) {
// Try reverse test since it can be a masked subtype.
if (!is_type_compatible(member.variable->initializer->get_datatype(), datatype, true, member.variable->initializer)) {
push_error(vformat(R"(Value of type "%s" cannot be assigned to a variable of type "%s".)", member.variable->initializer->get_datatype().to_string(), datatype.to_string()), member.variable->initializer);
} else {
// TODO: Add warning.
mark_node_unsafe(member.variable->initializer);
member.variable->use_conversion_assign = true;
}
} else if (datatype.builtin_type == Variant::INT && member.variable->initializer->get_datatype().builtin_type == Variant::FLOAT) {
#ifdef DEBUG_ENABLED
parser->push_warning(member.variable->initializer, GDScriptWarning::NARROWING_CONVERSION);
#endif
}
if (member.variable->initializer->get_datatype().is_variant()) {
// TODO: Warn unsafe assign.
mark_node_unsafe(member.variable->initializer);
member.variable->use_conversion_assign = true;
}
}
} else if (member.variable->infer_datatype) {
if (member.variable->initializer == nullptr) {
push_error(vformat(R"(Cannot infer the type of "%s" variable because there's no default value.)", member.variable->identifier->name), member.variable->identifier);
} else if (!datatype.is_set() || datatype.has_no_type()) {
push_error(vformat(R"(Cannot infer the type of "%s" variable because the initial value doesn't have a set type.)", member.variable->identifier->name), member.variable->initializer);
} else if (datatype.is_variant()) {
push_error(vformat(R"(Cannot infer the type of "%s" variable because the initial value is Variant. Use explicit "Variant" type if this is intended.)", member.variable->identifier->name), member.variable->initializer);
} else if (datatype.builtin_type == Variant::NIL) {
push_error(vformat(R"(Cannot infer the type of "%s" variable because the initial value is "null".)", member.variable->identifier->name), member.variable->initializer);
}
datatype.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
}
datatype.is_constant = false;
member.variable->set_datatype(datatype);
// Apply annotations.
for (GDScriptParser::AnnotationNode *&E : member.variable->annotations) {
E->apply(parser, member.variable);
}
} break;
case GDScriptParser::ClassNode::Member::CONSTANT: {
check_class_member_name_conflict(p_class, member.constant->identifier->name, member.constant);
reduce_expression(member.constant->initializer);
GDScriptParser::DataType specified_type;
if (member.constant->datatype_specifier != nullptr) {
specified_type = resolve_datatype(member.constant->datatype_specifier);
specified_type.is_meta_type = false;
}
GDScriptParser::DataType datatype;
if (member.constant->initializer) {
datatype = member.constant->initializer->get_datatype();
if (member.constant->initializer->type == GDScriptParser::Node::ARRAY) {
GDScriptParser::ArrayNode *array = static_cast<GDScriptParser::ArrayNode *>(member.constant->initializer);
const_fold_array(array);
// Can only infer typed array if it has elements.
if (array->elements.size() > 0 || (member.constant->datatype_specifier != nullptr && specified_type.has_container_element_type())) {
update_array_literal_element_type(specified_type, array);
}
} else if (member.constant->initializer->type == GDScriptParser::Node::DICTIONARY) {
const_fold_dictionary(static_cast<GDScriptParser::DictionaryNode *>(member.constant->initializer));
}
if (!member.constant->initializer->is_constant) {
push_error(R"(Initializer for a constant must be a constant expression.)", member.constant->initializer);
}
if (member.constant->datatype_specifier != nullptr) {
datatype = specified_type;
if (!is_type_compatible(datatype, member.constant->initializer->get_datatype(), true)) {
push_error(vformat(R"(Value of type "%s" cannot be initialized to constant of type "%s".)", member.constant->initializer->get_datatype().to_string(), datatype.to_string()), member.constant->initializer);
} else if (datatype.builtin_type == Variant::INT && member.constant->initializer->get_datatype().builtin_type == Variant::FLOAT) {
#ifdef DEBUG_ENABLED
parser->push_warning(member.constant->initializer, GDScriptWarning::NARROWING_CONVERSION);
#endif
}
}
}
datatype.is_constant = true;
member.constant->set_datatype(datatype);
// Apply annotations.
for (GDScriptParser::AnnotationNode *&E : member.constant->annotations) {
E->apply(parser, member.constant);
}
} break;
case GDScriptParser::ClassNode::Member::SIGNAL: {
check_class_member_name_conflict(p_class, member.signal->identifier->name, member.signal);
for (int j = 0; j < member.signal->parameters.size(); j++) {
GDScriptParser::DataType signal_type = resolve_datatype(member.signal->parameters[j]->datatype_specifier);
signal_type.is_meta_type = false;
member.signal->parameters[j]->set_datatype(signal_type);
}
// TODO: Make MethodInfo from signal.
GDScriptParser::DataType signal_type;
signal_type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
signal_type.kind = GDScriptParser::DataType::BUILTIN;
signal_type.builtin_type = Variant::SIGNAL;
member.signal->set_datatype(signal_type);
// Apply annotations.
for (GDScriptParser::AnnotationNode *&E : member.signal->annotations) {
E->apply(parser, member.signal);
}
} break;
case GDScriptParser::ClassNode::Member::ENUM: {
check_class_member_name_conflict(p_class, member.m_enum->identifier->name, member.m_enum);
GDScriptParser::DataType enum_type;
enum_type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
enum_type.kind = GDScriptParser::DataType::ENUM;
enum_type.builtin_type = Variant::DICTIONARY;
enum_type.enum_type = member.m_enum->identifier->name;
enum_type.native_type = p_class->fqcn + "." + member.m_enum->identifier->name;
enum_type.is_meta_type = true;
enum_type.is_constant = true;
// Enums can't be nested, so we can safely override this.
current_enum = member.m_enum;
for (int j = 0; j < member.m_enum->values.size(); j++) {
GDScriptParser::EnumNode::Value &element = member.m_enum->values.write[j];
if (element.custom_value) {
reduce_expression(element.custom_value);
if (!element.custom_value->is_constant) {
push_error(R"(Enum values must be constant.)", element.custom_value);
} else if (element.custom_value->reduced_value.get_type() != Variant::INT) {
push_error(R"(Enum values must be integers.)", element.custom_value);
} else {
element.value = element.custom_value->reduced_value;
element.resolved = true;
}
} else {
if (element.index > 0) {
element.value = element.parent_enum->values[element.index - 1].value + 1;
} else {
element.value = 0;
}
element.resolved = true;
}
enum_type.enum_values[element.identifier->name] = element.value;
}
current_enum = nullptr;
member.m_enum->set_datatype(enum_type);
// Apply annotations.
for (GDScriptParser::AnnotationNode *&E : member.m_enum->annotations) {
E->apply(parser, member.m_enum);
}
} break;
case GDScriptParser::ClassNode::Member::FUNCTION:
resolve_function_signature(member.function);
break;
case GDScriptParser::ClassNode::Member::ENUM_VALUE: {
if (member.enum_value.custom_value) {
check_class_member_name_conflict(p_class, member.enum_value.identifier->name, member.enum_value.custom_value);
current_enum = member.enum_value.parent_enum;
reduce_expression(member.enum_value.custom_value);
current_enum = nullptr;
if (!member.enum_value.custom_value->is_constant) {
push_error(R"(Enum values must be constant.)", member.enum_value.custom_value);
} else if (member.enum_value.custom_value->reduced_value.get_type() != Variant::INT) {
push_error(R"(Enum values must be integers.)", member.enum_value.custom_value);
} else {
member.enum_value.value = member.enum_value.custom_value->reduced_value;
member.enum_value.resolved = true;
}
} else {
check_class_member_name_conflict(p_class, member.enum_value.identifier->name, member.enum_value.parent_enum);
if (member.enum_value.index > 0) {
member.enum_value.value = member.enum_value.parent_enum->values[member.enum_value.index - 1].value + 1;
} else {
member.enum_value.value = 0;
}
member.enum_value.resolved = true;
}
// Also update the original references.
member.enum_value.parent_enum->values.write[member.enum_value.index] = member.enum_value;
p_class->members.write[i].enum_value = member.enum_value;
} break;
case GDScriptParser::ClassNode::Member::CLASS:
check_class_member_name_conflict(p_class, member.m_class->identifier->name, member.m_class);
break;
case GDScriptParser::ClassNode::Member::GROUP:
// No-op, but needed to silence warnings.
break;
case GDScriptParser::ClassNode::Member::UNDEFINED:
ERR_PRINT("Trying to resolve undefined member.");
break;
}
}
// Recurse nested classes.
for (int i = 0; i < p_class->members.size(); i++) {
GDScriptParser::ClassNode::Member member = p_class->members[i];
if (member.type != GDScriptParser::ClassNode::Member::CLASS) {
continue;
}
resolve_class_interface(member.m_class);
}
parser->current_class = previous_class;
}
void GDScriptAnalyzer::resolve_class_body(GDScriptParser::ClassNode *p_class) {
if (p_class->resolved_body) {
return;
}
p_class->resolved_body = true;
GDScriptParser::ClassNode *previous_class = parser->current_class;
parser->current_class = p_class;
// Do functions and properties now.
for (int i = 0; i < p_class->members.size(); i++) {
GDScriptParser::ClassNode::Member member = p_class->members[i];
if (member.type == GDScriptParser::ClassNode::Member::FUNCTION) {
// Apply annotations.
for (GDScriptParser::AnnotationNode *&E : member.function->annotations) {
E->apply(parser, member.function);
}
#ifdef DEBUG_ENABLED
HashSet<uint32_t> previously_ignored = parser->ignored_warning_codes;
for (uint32_t ignored_warning : member.function->ignored_warnings) {
parser->ignored_warning_codes.insert(ignored_warning);
}
#endif // DEBUG_ENABLED
resolve_function_body(member.function);
#ifdef DEBUG_ENABLED
parser->ignored_warning_codes = previously_ignored;
#endif // DEBUG_ENABLED
} else if (member.type == GDScriptParser::ClassNode::Member::VARIABLE && member.variable->property != GDScriptParser::VariableNode::PROP_NONE) {
if (member.variable->property == GDScriptParser::VariableNode::PROP_INLINE) {
if (member.variable->getter != nullptr) {
member.variable->getter->set_datatype(member.variable->datatype);
resolve_function_body(member.variable->getter);
}
if (member.variable->setter != nullptr) {
resolve_function_signature(member.variable->setter);
if (member.variable->setter->parameters.size() > 0) {
member.variable->setter->parameters[0]->datatype_specifier = member.variable->datatype_specifier;
member.variable->setter->parameters[0]->set_datatype(member.get_datatype());
}
resolve_function_body(member.variable->setter);
}
}
}
}
parser->current_class = previous_class;
// Recurse nested classes.
for (int i = 0; i < p_class->members.size(); i++) {
GDScriptParser::ClassNode::Member member = p_class->members[i];
if (member.type != GDScriptParser::ClassNode::Member::CLASS) {
continue;
}
resolve_class_body(member.m_class);
}
// Check unused variables and datatypes of property getters and setters.
for (int i = 0; i < p_class->members.size(); i++) {
GDScriptParser::ClassNode::Member member = p_class->members[i];
if (member.type == GDScriptParser::ClassNode::Member::VARIABLE) {
#ifdef DEBUG_ENABLED
HashSet<uint32_t> previously_ignored = parser->ignored_warning_codes;
for (uint32_t ignored_warning : member.function->ignored_warnings) {
parser->ignored_warning_codes.insert(ignored_warning);
}
if (member.variable->usages == 0 && String(member.variable->identifier->name).begins_with("_")) {
parser->push_warning(member.variable->identifier, GDScriptWarning::UNUSED_PRIVATE_CLASS_VARIABLE, member.variable->identifier->name);
}
#endif
if (member.variable->property == GDScriptParser::VariableNode::PROP_SETGET) {
GDScriptParser::FunctionNode *getter_function = nullptr;
GDScriptParser::FunctionNode *setter_function = nullptr;
bool has_valid_getter = false;
bool has_valid_setter = false;
if (member.variable->getter_pointer != nullptr) {
if (p_class->has_function(member.variable->getter_pointer->name)) {
getter_function = p_class->get_member(member.variable->getter_pointer->name).function;
}
if (getter_function == nullptr) {
push_error(vformat(R"(Getter "%s" not found.)", member.variable->getter_pointer->name), member.variable);
} else {
GDScriptParser::DataType return_datatype = getter_function->datatype;
if (getter_function->return_type != nullptr) {
return_datatype = getter_function->return_type->datatype;
return_datatype.is_meta_type = false;
}
if (getter_function->parameters.size() != 0 || return_datatype.has_no_type()) {
push_error(vformat(R"(Function "%s" cannot be used as getter because of its signature.)", getter_function->identifier->name), member.variable);
} else if (!is_type_compatible(member.variable->datatype, return_datatype, true)) {
push_error(vformat(R"(Function with return type "%s" cannot be used as getter for a property of type "%s".)", return_datatype.to_string(), member.variable->datatype.to_string()), member.variable);
} else {
has_valid_getter = true;
#ifdef DEBUG_ENABLED
if (member.variable->datatype.builtin_type == Variant::INT && return_datatype.builtin_type == Variant::FLOAT) {
parser->push_warning(member.variable, GDScriptWarning::NARROWING_CONVERSION);
}
#endif
}
}
}
if (member.variable->setter_pointer != nullptr) {
if (p_class->has_function(member.variable->setter_pointer->name)) {
setter_function = p_class->get_member(member.variable->setter_pointer->name).function;
}
if (setter_function == nullptr) {
push_error(vformat(R"(Setter "%s" not found.)", member.variable->setter_pointer->name), member.variable);
} else if (setter_function->parameters.size() != 1) {
push_error(vformat(R"(Function "%s" cannot be used as setter because of its signature.)", setter_function->identifier->name), member.variable);
} else if (!is_type_compatible(member.variable->datatype, setter_function->parameters[0]->datatype, true)) {
push_error(vformat(R"(Function with argument type "%s" cannot be used as setter for a property of type "%s".)", setter_function->parameters[0]->datatype.to_string(), member.variable->datatype.to_string()), member.variable);
} else {
has_valid_setter = true;
#ifdef DEBUG_ENABLED
if (member.variable->datatype.builtin_type == Variant::FLOAT && setter_function->parameters[0]->datatype.builtin_type == Variant::INT) {
parser->push_warning(member.variable, GDScriptWarning::NARROWING_CONVERSION);
}
#endif
}
}
if (member.variable->datatype.is_variant() && has_valid_getter && has_valid_setter) {
if (!is_type_compatible(getter_function->datatype, setter_function->parameters[0]->datatype, true)) {
push_error(vformat(R"(Getter with type "%s" cannot be used along with setter of type "%s".)", getter_function->datatype.to_string(), setter_function->parameters[0]->datatype.to_string()), member.variable);
}
}
#ifdef DEBUG_ENABLED
parser->ignored_warning_codes = previously_ignored;
#endif // DEBUG_ENABLED
}
}
}
}
void GDScriptAnalyzer::resolve_node(GDScriptParser::Node *p_node, bool p_is_root) {
ERR_FAIL_COND_MSG(p_node == nullptr, "Trying to resolve type of a null node.");
switch (p_node->type) {
case GDScriptParser::Node::NONE:
break; // Unreachable.
case GDScriptParser::Node::CLASS:
resolve_class_interface(static_cast<GDScriptParser::ClassNode *>(p_node));
resolve_class_body(static_cast<GDScriptParser::ClassNode *>(p_node));
break;
case GDScriptParser::Node::CONSTANT:
resolve_constant(static_cast<GDScriptParser::ConstantNode *>(p_node));
break;
case GDScriptParser::Node::FOR:
resolve_for(static_cast<GDScriptParser::ForNode *>(p_node));
break;
case GDScriptParser::Node::FUNCTION:
resolve_function_signature(static_cast<GDScriptParser::FunctionNode *>(p_node));
resolve_function_body(static_cast<GDScriptParser::FunctionNode *>(p_node));
break;
case GDScriptParser::Node::IF:
resolve_if(static_cast<GDScriptParser::IfNode *>(p_node));
break;
case GDScriptParser::Node::SUITE:
resolve_suite(static_cast<GDScriptParser::SuiteNode *>(p_node));
break;
case GDScriptParser::Node::VARIABLE:
resolve_variable(static_cast<GDScriptParser::VariableNode *>(p_node));
break;
case GDScriptParser::Node::WHILE:
resolve_while(static_cast<GDScriptParser::WhileNode *>(p_node));
break;
case GDScriptParser::Node::ANNOTATION:
resolve_annotation(static_cast<GDScriptParser::AnnotationNode *>(p_node));
break;
case GDScriptParser::Node::ASSERT:
resolve_assert(static_cast<GDScriptParser::AssertNode *>(p_node));
break;
case GDScriptParser::Node::MATCH:
resolve_match(static_cast<GDScriptParser::MatchNode *>(p_node));
break;
case GDScriptParser::Node::MATCH_BRANCH:
resolve_match_branch(static_cast<GDScriptParser::MatchBranchNode *>(p_node), nullptr);
break;
case GDScriptParser::Node::PARAMETER:
resolve_parameter(static_cast<GDScriptParser::ParameterNode *>(p_node));
break;
case GDScriptParser::Node::PATTERN:
resolve_match_pattern(static_cast<GDScriptParser::PatternNode *>(p_node), nullptr);
break;
case GDScriptParser::Node::RETURN:
resolve_return(static_cast<GDScriptParser::ReturnNode *>(p_node));
break;
case GDScriptParser::Node::TYPE:
resolve_datatype(static_cast<GDScriptParser::TypeNode *>(p_node));
break;
// Resolving expression is the same as reducing them.
case GDScriptParser::Node::ARRAY:
case GDScriptParser::Node::ASSIGNMENT:
case GDScriptParser::Node::AWAIT:
case GDScriptParser::Node::BINARY_OPERATOR:
case GDScriptParser::Node::CALL:
case GDScriptParser::Node::CAST:
case GDScriptParser::Node::DICTIONARY:
case GDScriptParser::Node::GET_NODE:
case GDScriptParser::Node::IDENTIFIER:
case GDScriptParser::Node::LAMBDA:
case GDScriptParser::Node::LITERAL:
case GDScriptParser::Node::PRELOAD:
case GDScriptParser::Node::SELF:
case GDScriptParser::Node::SUBSCRIPT:
case GDScriptParser::Node::TERNARY_OPERATOR:
case GDScriptParser::Node::UNARY_OPERATOR:
reduce_expression(static_cast<GDScriptParser::ExpressionNode *>(p_node), p_is_root);
break;
case GDScriptParser::Node::BREAK:
case GDScriptParser::Node::BREAKPOINT:
case GDScriptParser::Node::CONTINUE:
case GDScriptParser::Node::ENUM:
case GDScriptParser::Node::PASS:
case GDScriptParser::Node::SIGNAL:
// Nothing to do.
break;
}
}
void GDScriptAnalyzer::resolve_annotation(GDScriptParser::AnnotationNode *p_annotation) {
// TODO: Add second validation function for annotations, so they can use checked types.
}
void GDScriptAnalyzer::resolve_function_signature(GDScriptParser::FunctionNode *p_function) {
if (p_function->resolved_signature) {
return;
}
p_function->resolved_signature = true;
GDScriptParser::FunctionNode *previous_function = parser->current_function;
parser->current_function = p_function;
#ifdef TOOLS_ENABLED
int default_value_count = 0;
#endif // TOOLS_ENABLED
for (int i = 0; i < p_function->parameters.size(); i++) {
resolve_parameter(p_function->parameters[i]);
#ifdef DEBUG_ENABLED
if (p_function->parameters[i]->usages == 0 && !String(p_function->parameters[i]->identifier->name).begins_with("_")) {
parser->push_warning(p_function->parameters[i]->identifier, GDScriptWarning::UNUSED_PARAMETER, p_function->identifier->name, p_function->parameters[i]->identifier->name);
}
is_shadowing(p_function->parameters[i]->identifier, "function parameter");
#endif // DEBUG_ENABLED
#ifdef TOOLS_ENABLED
if (p_function->parameters[i]->default_value) {
default_value_count++;
if (p_function->parameters[i]->default_value->is_constant) {
p_function->default_arg_values.push_back(p_function->parameters[i]->default_value->reduced_value);
}
}
#endif // TOOLS_ENABLED
}
if (p_function->identifier->name == GDScriptLanguage::get_singleton()->strings._init) {
// Constructor.
GDScriptParser::DataType return_type = parser->current_class->get_datatype();
return_type.is_meta_type = false;
p_function->set_datatype(return_type);
if (p_function->return_type) {
GDScriptParser::DataType declared_return = resolve_datatype(p_function->return_type);
if (declared_return.kind != GDScriptParser::DataType::BUILTIN || declared_return.builtin_type != Variant::NIL) {
push_error("Constructor cannot have an explicit return type.", p_function->return_type);
}
}
} else {
if (p_function->return_type != nullptr) {
p_function->set_datatype(resolve_datatype(p_function->return_type));
} else {
// In case the function is not typed, we can safely assume it's a Variant, so it's okay to mark as "inferred" here.
// It's not "undetected" to not mix up with unknown functions.
GDScriptParser::DataType return_type;
return_type.type_source = GDScriptParser::DataType::INFERRED;
return_type.kind = GDScriptParser::DataType::VARIANT;
p_function->set_datatype(return_type);
}
#ifdef TOOLS_ENABLED
// Check if the function signature matches the parent. If not it's an error since it breaks polymorphism.
// Not for the constructor which can vary in signature.
GDScriptParser::DataType base_type = parser->current_class->base_type;
GDScriptParser::DataType parent_return_type;
List<GDScriptParser::DataType> parameters_types;
int default_par_count = 0;
bool is_static = false;
bool is_vararg = false;
if (get_function_signature(p_function, false, base_type, p_function->identifier->name, parent_return_type, parameters_types, default_par_count, is_static, is_vararg)) {
bool valid = p_function->is_static == is_static;
valid = valid && parent_return_type == p_function->get_datatype();
int par_count_diff = p_function->parameters.size() - parameters_types.size();
valid = valid && par_count_diff >= 0;
valid = valid && default_value_count >= default_par_count + par_count_diff;
int i = 0;
for (const GDScriptParser::DataType &par_type : parameters_types) {
valid = valid && par_type == p_function->parameters[i++]->get_datatype();
}
if (!valid) {
// Compute parent signature as a string to show in the error message.
String parent_signature = parent_return_type.is_hard_type() ? parent_return_type.to_string() : "Variant";
if (parent_signature == "null") {
parent_signature = "void";
}
parent_signature += " " + p_function->identifier->name.operator String() + "(";
int j = 0;
for (const GDScriptParser::DataType &par_type : parameters_types) {
if (j > 0) {
parent_signature += ", ";
}
String parameter = par_type.to_string();
if (parameter == "null") {
parameter = "Variant";
}
parent_signature += parameter;
if (j == parameters_types.size() - default_par_count) {
parent_signature += " = default";
}
j++;
}
parent_signature += ")";
push_error(vformat(R"(The function signature doesn't match the parent. Parent signature is "%s".)", parent_signature), p_function);
}
}
#endif // TOOLS_ENABLED
}
parser->current_function = previous_function;
}
void GDScriptAnalyzer::resolve_function_body(GDScriptParser::FunctionNode *p_function) {
if (p_function->resolved_body) {
return;
}
p_function->resolved_body = true;
GDScriptParser::FunctionNode *previous_function = parser->current_function;
parser->current_function = p_function;
resolve_suite(p_function->body);
GDScriptParser::DataType return_type = p_function->body->get_datatype();
if (!p_function->get_datatype().is_hard_type() && return_type.is_set()) {
// Use the suite inferred type if return isn't explicitly set.
return_type.type_source = GDScriptParser::DataType::INFERRED;
p_function->set_datatype(p_function->body->get_datatype());
} else if (p_function->get_datatype().is_hard_type() && (p_function->get_datatype().kind != GDScriptParser::DataType::BUILTIN || p_function->get_datatype().builtin_type != Variant::NIL)) {
if (!p_function->body->has_return && p_function->identifier->name != GDScriptLanguage::get_singleton()->strings._init) {
push_error(R"(Not all code paths return a value.)", p_function);
}
}
parser->current_function = previous_function;
}
void GDScriptAnalyzer::decide_suite_type(GDScriptParser::Node *p_suite, GDScriptParser::Node *p_statement) {
if (p_statement == nullptr) {
return;
}
switch (p_statement->type) {
case GDScriptParser::Node::IF:
case GDScriptParser::Node::FOR:
case GDScriptParser::Node::MATCH:
case GDScriptParser::Node::PATTERN:
case GDScriptParser::Node::RETURN:
case GDScriptParser::Node::WHILE:
// Use return or nested suite type as this suite type.
if (p_suite->get_datatype().is_set() && (p_suite->get_datatype() != p_statement->get_datatype())) {
// Mixed types.
// TODO: This could use the common supertype instead.
p_suite->datatype.kind = GDScriptParser::DataType::VARIANT;
p_suite->datatype.type_source = GDScriptParser::DataType::UNDETECTED;
} else {
p_suite->set_datatype(p_statement->get_datatype());
p_suite->datatype.type_source = GDScriptParser::DataType::INFERRED;
}
break;
default:
break;
}
}
void GDScriptAnalyzer::resolve_suite(GDScriptParser::SuiteNode *p_suite) {
for (int i = 0; i < p_suite->statements.size(); i++) {
GDScriptParser::Node *stmt = p_suite->statements[i];
for (GDScriptParser::AnnotationNode *&annotation : stmt->annotations) {
annotation->apply(parser, stmt);
}
#ifdef DEBUG_ENABLED
HashSet<uint32_t> previously_ignored = parser->ignored_warning_codes;
for (uint32_t ignored_warning : stmt->ignored_warnings) {
parser->ignored_warning_codes.insert(ignored_warning);
}
#endif // DEBUG_ENABLED
resolve_node(stmt);
#ifdef DEBUG_ENABLED
parser->ignored_warning_codes = previously_ignored;
#endif // DEBUG_ENABLED
decide_suite_type(p_suite, stmt);
}
}
void GDScriptAnalyzer::resolve_if(GDScriptParser::IfNode *p_if) {
reduce_expression(p_if->condition);
resolve_suite(p_if->true_block);
p_if->set_datatype(p_if->true_block->get_datatype());
if (p_if->false_block != nullptr) {
resolve_suite(p_if->false_block);
decide_suite_type(p_if, p_if->false_block);
}
}
void GDScriptAnalyzer::resolve_for(GDScriptParser::ForNode *p_for) {
bool list_resolved = false;
// Optimize constant range() call to not allocate an array.
// Use int, Vector2i, Vector3i instead, which also can be used as range iterators.
if (p_for->list && p_for->list->type == GDScriptParser::Node::CALL) {
GDScriptParser::CallNode *call = static_cast<GDScriptParser::CallNode *>(p_for->list);
GDScriptParser::Node::Type callee_type = call->get_callee_type();
if (callee_type == GDScriptParser::Node::IDENTIFIER) {
GDScriptParser::IdentifierNode *callee = static_cast<GDScriptParser::IdentifierNode *>(call->callee);
if (callee->name == "range") {
list_resolved = true;
if (call->arguments.size() < 1) {
push_error(R"*(Invalid call for "range()" function. Expected at least 1 argument, none given.)*", call->callee);
} else if (call->arguments.size() > 3) {
push_error(vformat(R"*(Invalid call for "range()" function. Expected at most 3 arguments, %d given.)*", call->arguments.size()), call->callee);
} else {
// Now we can optimize it.
bool all_is_constant = true;
Vector<Variant> args;
args.resize(call->arguments.size());
for (int i = 0; i < call->arguments.size(); i++) {
reduce_expression(call->arguments[i]);
if (!call->arguments[i]->is_constant) {
all_is_constant = false;
} else if (all_is_constant) {
args.write[i] = call->arguments[i]->reduced_value;
}
GDScriptParser::DataType arg_type = call->arguments[i]->get_datatype();
if (!arg_type.is_variant()) {
if (arg_type.kind != GDScriptParser::DataType::BUILTIN) {
all_is_constant = false;
push_error(vformat(R"*(Invalid argument for "range()" call. Argument %d should be int or float but "%s" was given.)*", i + 1, arg_type.to_string()), call->arguments[i]);
} else if (arg_type.builtin_type != Variant::INT && arg_type.builtin_type != Variant::FLOAT) {
all_is_constant = false;
push_error(vformat(R"*(Invalid argument for "range()" call. Argument %d should be int or float but "%s" was given.)*", i + 1, arg_type.to_string()), call->arguments[i]);
}
}
}
Variant reduced;
if (all_is_constant) {
switch (args.size()) {
case 1:
reduced = (int32_t)args[0];
break;
case 2:
reduced = Vector2i(args[0], args[1]);
break;
case 3:
reduced = Vector3i(args[0], args[1], args[2]);
break;
}
p_for->list->is_constant = true;
p_for->list->reduced_value = reduced;
}
}
if (p_for->list->is_constant) {
p_for->list->set_datatype(type_from_variant(p_for->list->reduced_value, p_for->list));
} else {
GDScriptParser::DataType list_type;
list_type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
list_type.kind = GDScriptParser::DataType::BUILTIN;
list_type.builtin_type = Variant::ARRAY;
p_for->list->set_datatype(list_type);
}
}
}
}
GDScriptParser::DataType variable_type;
if (list_resolved) {
variable_type.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
variable_type.kind = GDScriptParser::DataType::BUILTIN;
variable_type.builtin_type = Variant::INT; // Can this ever be a float or something else?
p_for->variable->set_datatype(variable_type);
} else if (p_for->list) {
resolve_node(p_for->list, false);
if (p_for->list->datatype.has_container_element_type()) {
variable_type = p_for->list->datatype.get_container_element_type();
variable_type.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
} else if (p_for->list->datatype.is_typed_container_type()) {
variable_type = p_for->list->datatype.get_typed_container_type();
variable_type.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
} else {
// Last resort
// TODO: Must other cases be handled? Must we mark as unsafe?
variable_type.type_source = GDScriptParser::DataType::UNDETECTED;
variable_type.kind = GDScriptParser::DataType::VARIANT;
}
}
if (p_for->variable) {
p_for->variable->set_datatype(variable_type);
}
resolve_suite(p_for->loop);
p_for->set_datatype(p_for->loop->get_datatype());
#ifdef DEBUG_ENABLED
if (p_for->variable) {
is_shadowing(p_for->variable, R"("for" iterator variable)");
}
#endif
}
void GDScriptAnalyzer::resolve_while(GDScriptParser::WhileNode *p_while) {
resolve_node(p_while->condition, false);
resolve_suite(p_while->loop);
p_while->set_datatype(p_while->loop->get_datatype());
}
void GDScriptAnalyzer::resolve_variable(GDScriptParser::VariableNode *p_variable) {
GDScriptParser::DataType type;
type.kind = GDScriptParser::DataType::VARIANT; // By default.
GDScriptParser::DataType specified_type;
if (p_variable->datatype_specifier != nullptr) {
specified_type = resolve_datatype(p_variable->datatype_specifier);
specified_type.is_meta_type = false;
}
if (p_variable->initializer != nullptr) {
reduce_expression(p_variable->initializer);
if ((p_variable->infer_datatype || (p_variable->datatype_specifier != nullptr && specified_type.has_container_element_type())) && p_variable->initializer->type == GDScriptParser::Node::ARRAY) {
// Typed array.
GDScriptParser::ArrayNode *array = static_cast<GDScriptParser::ArrayNode *>(p_variable->initializer);
// Can only infer typed array if it has elements.
if ((p_variable->infer_datatype && array->elements.size() > 0) || p_variable->datatype_specifier != nullptr) {
update_array_literal_element_type(specified_type, array);
}
}
type = p_variable->initializer->get_datatype();
if (p_variable->infer_datatype) {
type.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
if (type.has_no_type()) {
push_error(vformat(R"(Could not infer the type of the variable "%s" because the initial value does not have a set type.)", p_variable->identifier->name), p_variable->initializer);
} else if (type.is_variant()) {
push_error(vformat(R"(Could not infer the type of the variable "%s" because the initial value is a variant. Use explicit "Variant" type if this is intended.)", p_variable->identifier->name), p_variable->initializer);
} else if (type.kind == GDScriptParser::DataType::BUILTIN && type.builtin_type == Variant::NIL) {
push_error(vformat(R"(Could not infer the type of the variable "%s" because the initial value is "null".)", p_variable->identifier->name), p_variable->initializer);
}
} else {
type.type_source = GDScriptParser::DataType::INFERRED;
}
#ifdef DEBUG_ENABLED
if (p_variable->initializer->type == GDScriptParser::Node::CALL && type.kind == GDScriptParser::DataType::BUILTIN && type.builtin_type == Variant::NIL) {
parser->push_warning(p_variable->initializer, GDScriptWarning::VOID_ASSIGNMENT, static_cast<GDScriptParser::CallNode *>(p_variable->initializer)->function_name);
}
#endif
}
if (p_variable->datatype_specifier != nullptr) {
type = specified_type;
type.is_meta_type = false;
if (p_variable->initializer != nullptr) {
if (!is_type_compatible(type, p_variable->initializer->get_datatype(), true, p_variable->initializer)) {
// Try reverse test since it can be a masked subtype.
if (!is_type_compatible(p_variable->initializer->get_datatype(), type, true, p_variable->initializer)) {
push_error(vformat(R"(Value of type "%s" cannot be assigned to a variable of type "%s".)", p_variable->initializer->get_datatype().to_string(), type.to_string()), p_variable->initializer);
} else {
// TODO: Add warning.
mark_node_unsafe(p_variable->initializer);
p_variable->use_conversion_assign = true;
}
#ifdef DEBUG_ENABLED
} else if (type.builtin_type == Variant::INT && p_variable->initializer->get_datatype().builtin_type == Variant::FLOAT) {
parser->push_warning(p_variable->initializer, GDScriptWarning::NARROWING_CONVERSION);
#endif
}
if (p_variable->initializer->get_datatype().is_variant() && !type.is_variant()) {
// TODO: Warn unsafe assign.
mark_node_unsafe(p_variable->initializer);
p_variable->use_conversion_assign = true;
}
}
} else if (p_variable->infer_datatype) {
if (type.has_no_type()) {
push_error(vformat(R"(Cannot infer the type of variable "%s" because the initial value doesn't have a set type.)", p_variable->identifier->name), p_variable->identifier);
}
type.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
}
type.is_constant = false;
p_variable->set_datatype(type);
#ifdef DEBUG_ENABLED
if (p_variable->usages == 0 && !String(p_variable->identifier->name).begins_with("_")) {
parser->push_warning(p_variable, GDScriptWarning::UNUSED_VARIABLE, p_variable->identifier->name);
} else if (p_variable->assignments == 0) {
parser->push_warning(p_variable, GDScriptWarning::UNASSIGNED_VARIABLE, p_variable->identifier->name);
}
is_shadowing(p_variable->identifier, "variable");
#endif
}
void GDScriptAnalyzer::resolve_constant(GDScriptParser::ConstantNode *p_constant) {
GDScriptParser::DataType type;
GDScriptParser::DataType explicit_type;
if (p_constant->datatype_specifier != nullptr) {
explicit_type = resolve_datatype(p_constant->datatype_specifier);
explicit_type.is_meta_type = false;
}
if (p_constant->initializer != nullptr) {
reduce_expression(p_constant->initializer);
if (p_constant->initializer->type == GDScriptParser::Node::ARRAY) {
GDScriptParser::ArrayNode *array = static_cast<GDScriptParser::ArrayNode *>(p_constant->initializer);
const_fold_array(array);
// Can only infer typed array if it has elements.
if (array->elements.size() > 0 || (p_constant->datatype_specifier != nullptr && explicit_type.has_container_element_type())) {
update_array_literal_element_type(explicit_type, array);
}
} else if (p_constant->initializer->type == GDScriptParser::Node::DICTIONARY) {
const_fold_dictionary(static_cast<GDScriptParser::DictionaryNode *>(p_constant->initializer));
}
if (!p_constant->initializer->is_constant) {
push_error(vformat(R"(Assigned value for constant "%s" isn't a constant expression.)", p_constant->identifier->name), p_constant->initializer);
}
type = p_constant->initializer->get_datatype();
#ifdef DEBUG_ENABLED
if (p_constant->initializer->type == GDScriptParser::Node::CALL && type.kind == GDScriptParser::DataType::BUILTIN && type.builtin_type == Variant::NIL) {
parser->push_warning(p_constant->initializer, GDScriptWarning::VOID_ASSIGNMENT, static_cast<GDScriptParser::CallNode *>(p_constant->initializer)->function_name);
}
#endif
}
if (p_constant->datatype_specifier != nullptr) {
if (!is_type_compatible(explicit_type, type)) {
push_error(vformat(R"(Assigned value for constant "%s" has type %s which is not compatible with defined type %s.)", p_constant->identifier->name, type.to_string(), explicit_type.to_string()), p_constant->initializer);
#ifdef DEBUG_ENABLED
} else if (explicit_type.builtin_type == Variant::INT && type.builtin_type == Variant::FLOAT) {
parser->push_warning(p_constant->initializer, GDScriptWarning::NARROWING_CONVERSION);
#endif
}
type = explicit_type;
} else if (p_constant->infer_datatype) {
if (type.has_no_type()) {
push_error(vformat(R"(Cannot infer the type of constant "%s" because the initial value doesn't have a set type.)", p_constant->identifier->name), p_constant->identifier);
}
type.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
}
type.is_constant = true;
p_constant->set_datatype(type);
#ifdef DEBUG_ENABLED
if (p_constant->usages == 0) {
parser->push_warning(p_constant, GDScriptWarning::UNUSED_LOCAL_CONSTANT, p_constant->identifier->name);
}
is_shadowing(p_constant->identifier, "constant");
#endif
}
void GDScriptAnalyzer::resolve_assert(GDScriptParser::AssertNode *p_assert) {
reduce_expression(p_assert->condition);
if (p_assert->message != nullptr) {
reduce_expression(p_assert->message);
if (!p_assert->message->get_datatype().has_no_type() && (p_assert->message->get_datatype().kind != GDScriptParser::DataType::BUILTIN || p_assert->message->get_datatype().builtin_type != Variant::STRING)) {
push_error(R"(Expected string for assert error message.)", p_assert->message);
}
}
p_assert->set_datatype(p_assert->condition->get_datatype());
#ifdef DEBUG_ENABLED
if (p_assert->condition->is_constant) {
if (p_assert->condition->reduced_value.booleanize()) {
parser->push_warning(p_assert->condition, GDScriptWarning::ASSERT_ALWAYS_TRUE);
} else {
parser->push_warning(p_assert->condition, GDScriptWarning::ASSERT_ALWAYS_FALSE);
}
}
#endif
}
void GDScriptAnalyzer::resolve_match(GDScriptParser::MatchNode *p_match) {
reduce_expression(p_match->test);
for (int i = 0; i < p_match->branches.size(); i++) {
resolve_match_branch(p_match->branches[i], p_match->test);
decide_suite_type(p_match, p_match->branches[i]);
}
}
void GDScriptAnalyzer::resolve_match_branch(GDScriptParser::MatchBranchNode *p_match_branch, GDScriptParser::ExpressionNode *p_match_test) {
for (int i = 0; i < p_match_branch->patterns.size(); i++) {
resolve_match_pattern(p_match_branch->patterns[i], p_match_test);
}
resolve_suite(p_match_branch->block);
decide_suite_type(p_match_branch, p_match_branch->block);
}
void GDScriptAnalyzer::resolve_match_pattern(GDScriptParser::PatternNode *p_match_pattern, GDScriptParser::ExpressionNode *p_match_test) {
if (p_match_pattern == nullptr) {
return;
}
GDScriptParser::DataType result;
switch (p_match_pattern->pattern_type) {
case GDScriptParser::PatternNode::PT_LITERAL:
if (p_match_pattern->literal) {
reduce_literal(p_match_pattern->literal);
result = p_match_pattern->literal->get_datatype();
}
break;
case GDScriptParser::PatternNode::PT_EXPRESSION:
if (p_match_pattern->expression) {
reduce_expression(p_match_pattern->expression);
if (!p_match_pattern->expression->is_constant) {
push_error(R"(Expression in match pattern must be a constant.)", p_match_pattern->expression);
}
result = p_match_pattern->expression->get_datatype();
}
break;
case GDScriptParser::PatternNode::PT_BIND:
if (p_match_test != nullptr) {
result = p_match_test->get_datatype();
} else {
result.kind = GDScriptParser::DataType::VARIANT;
}
p_match_pattern->bind->set_datatype(result);
#ifdef DEBUG_ENABLED
is_shadowing(p_match_pattern->bind, "pattern bind");
if (p_match_pattern->bind->usages == 0 && !String(p_match_pattern->bind->name).begins_with("_")) {
parser->push_warning(p_match_pattern->bind, GDScriptWarning::UNUSED_VARIABLE, p_match_pattern->bind->name);
}
#endif
break;
case GDScriptParser::PatternNode::PT_ARRAY:
for (int i = 0; i < p_match_pattern->array.size(); i++) {
resolve_match_pattern(p_match_pattern->array[i], nullptr);
decide_suite_type(p_match_pattern, p_match_pattern->array[i]);
}
result = p_match_pattern->get_datatype();
break;
case GDScriptParser::PatternNode::PT_DICTIONARY:
for (int i = 0; i < p_match_pattern->dictionary.size(); i++) {
if (p_match_pattern->dictionary[i].key) {
reduce_expression(p_match_pattern->dictionary[i].key);
if (!p_match_pattern->dictionary[i].key->is_constant) {
push_error(R"(Expression in dictionary pattern key must be a constant.)", p_match_pattern->dictionary[i].key);
}
}
if (p_match_pattern->dictionary[i].value_pattern) {
resolve_match_pattern(p_match_pattern->dictionary[i].value_pattern, nullptr);
decide_suite_type(p_match_pattern, p_match_pattern->dictionary[i].value_pattern);
}
}
result = p_match_pattern->get_datatype();
break;
case GDScriptParser::PatternNode::PT_WILDCARD:
case GDScriptParser::PatternNode::PT_REST:
result.kind = GDScriptParser::DataType::VARIANT;
break;
}
p_match_pattern->set_datatype(result);
}
void GDScriptAnalyzer::resolve_parameter(GDScriptParser::ParameterNode *p_parameter) {
GDScriptParser::DataType result;
result.kind = GDScriptParser::DataType::VARIANT;
if (p_parameter->default_value != nullptr) {
reduce_expression(p_parameter->default_value);
result = p_parameter->default_value->get_datatype();
if (p_parameter->infer_datatype) {
result.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
} else {
result.type_source = GDScriptParser::DataType::INFERRED;
}
}
if (p_parameter->datatype_specifier != nullptr) {
result = resolve_datatype(p_parameter->datatype_specifier);
result.is_meta_type = false;
if (p_parameter->default_value != nullptr) {
if (!is_type_compatible(result, p_parameter->default_value->get_datatype())) {
push_error(vformat(R"(Type of default value for parameter "%s" (%s) is not compatible with parameter type (%s).)", p_parameter->identifier->name, p_parameter->default_value->get_datatype().to_string(), p_parameter->datatype_specifier->get_datatype().to_string()), p_parameter->default_value);
} else if (p_parameter->default_value->get_datatype().is_variant()) {
mark_node_unsafe(p_parameter);
}
}
}
if (result.builtin_type == Variant::Type::NIL && result.type_source == GDScriptParser::DataType::ANNOTATED_INFERRED && p_parameter->datatype_specifier == nullptr) {
push_error(vformat(R"(Could not infer the type of the variable "%s" because the initial value is "null".)", p_parameter->identifier->name), p_parameter->default_value);
}
result.is_constant = false;
p_parameter->set_datatype(result);
}
void GDScriptAnalyzer::resolve_return(GDScriptParser::ReturnNode *p_return) {
GDScriptParser::DataType result;
GDScriptParser::DataType expected_type;
bool has_expected_type = false;
if (parser->current_function != nullptr) {
expected_type = parser->current_function->get_datatype();
has_expected_type = true;
}
if (p_return->return_value != nullptr) {
reduce_expression(p_return->return_value);
if (p_return->return_value->type == GDScriptParser::Node::ARRAY) {
// Check if assigned value is an array literal, so we can make it a typed array too if appropriate.
if (has_expected_type && expected_type.has_container_element_type() && p_return->return_value->type == GDScriptParser::Node::ARRAY) {
update_array_literal_element_type(expected_type, static_cast<GDScriptParser::ArrayNode *>(p_return->return_value));
}
}
result = p_return->return_value->get_datatype();
} else {
// Return type is null by default.
result.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
result.kind = GDScriptParser::DataType::BUILTIN;
result.builtin_type = Variant::NIL;
result.is_constant = true;
}
if (has_expected_type) {
expected_type.is_meta_type = false;
if (expected_type.is_hard_type()) {
if (!is_type_compatible(expected_type, result)) {
// Try other way. Okay but not safe.
if (!is_type_compatible(result, expected_type)) {
push_error(vformat(R"(Cannot return value of type "%s" because the function return type is "%s".)", result.to_string(), expected_type.to_string()), p_return);
} else {
// TODO: Add warning.
mark_node_unsafe(p_return);
}
#ifdef DEBUG_ENABLED
} else if (expected_type.builtin_type == Variant::INT && result.builtin_type == Variant::FLOAT) {
parser->push_warning(p_return, GDScriptWarning::NARROWING_CONVERSION);
} else if (result.is_variant()) {
mark_node_unsafe(p_return);
#endif
}
}
}
p_return->set_datatype(result);
}
void GDScriptAnalyzer::reduce_expression(GDScriptParser::ExpressionNode *p_expression, bool p_is_root) {
// This one makes some magic happen.
if (p_expression == nullptr) {
return;
}
if (p_expression->reduced) {
// Don't do this more than once.
return;
}
p_expression->reduced = true;
switch (p_expression->type) {
case GDScriptParser::Node::ARRAY:
reduce_array(static_cast<GDScriptParser::ArrayNode *>(p_expression));
break;
case GDScriptParser::Node::ASSIGNMENT:
reduce_assignment(static_cast<GDScriptParser::AssignmentNode *>(p_expression));
break;
case GDScriptParser::Node::AWAIT:
reduce_await(static_cast<GDScriptParser::AwaitNode *>(p_expression));
break;
case GDScriptParser::Node::BINARY_OPERATOR:
reduce_binary_op(static_cast<GDScriptParser::BinaryOpNode *>(p_expression));
break;
case GDScriptParser::Node::CALL:
reduce_call(static_cast<GDScriptParser::CallNode *>(p_expression), false, p_is_root);
break;
case GDScriptParser::Node::CAST:
reduce_cast(static_cast<GDScriptParser::CastNode *>(p_expression));
break;
case GDScriptParser::Node::DICTIONARY:
reduce_dictionary(static_cast<GDScriptParser::DictionaryNode *>(p_expression));
break;
case GDScriptParser::Node::GET_NODE:
reduce_get_node(static_cast<GDScriptParser::GetNodeNode *>(p_expression));
break;
case GDScriptParser::Node::IDENTIFIER:
reduce_identifier(static_cast<GDScriptParser::IdentifierNode *>(p_expression));
break;
case GDScriptParser::Node::LAMBDA:
reduce_lambda(static_cast<GDScriptParser::LambdaNode *>(p_expression));
break;
case GDScriptParser::Node::LITERAL:
reduce_literal(static_cast<GDScriptParser::LiteralNode *>(p_expression));
break;
case GDScriptParser::Node::PRELOAD:
reduce_preload(static_cast<GDScriptParser::PreloadNode *>(p_expression));
break;
case GDScriptParser::Node::SELF:
reduce_self(static_cast<GDScriptParser::SelfNode *>(p_expression));
break;
case GDScriptParser::Node::SUBSCRIPT:
reduce_subscript(static_cast<GDScriptParser::SubscriptNode *>(p_expression));
break;
case GDScriptParser::Node::TERNARY_OPERATOR:
reduce_ternary_op(static_cast<GDScriptParser::TernaryOpNode *>(p_expression));
break;
case GDScriptParser::Node::UNARY_OPERATOR:
reduce_unary_op(static_cast<GDScriptParser::UnaryOpNode *>(p_expression));
break;
// Non-expressions. Here only to make sure new nodes aren't forgotten.
case GDScriptParser::Node::NONE:
case GDScriptParser::Node::ANNOTATION:
case GDScriptParser::Node::ASSERT:
case GDScriptParser::Node::BREAK:
case GDScriptParser::Node::BREAKPOINT:
case GDScriptParser::Node::CLASS:
case GDScriptParser::Node::CONSTANT:
case GDScriptParser::Node::CONTINUE:
case GDScriptParser::Node::ENUM:
case GDScriptParser::Node::FOR:
case GDScriptParser::Node::FUNCTION:
case GDScriptParser::Node::IF:
case GDScriptParser::Node::MATCH:
case GDScriptParser::Node::MATCH_BRANCH:
case GDScriptParser::Node::PARAMETER:
case GDScriptParser::Node::PASS:
case GDScriptParser::Node::PATTERN:
case GDScriptParser::Node::RETURN:
case GDScriptParser::Node::SIGNAL:
case GDScriptParser::Node::SUITE:
case GDScriptParser::Node::TYPE:
case GDScriptParser::Node::VARIABLE:
case GDScriptParser::Node::WHILE:
ERR_FAIL_MSG("Reaching unreachable case");
}
}
void GDScriptAnalyzer::reduce_array(GDScriptParser::ArrayNode *p_array) {
for (int i = 0; i < p_array->elements.size(); i++) {
GDScriptParser::ExpressionNode *element = p_array->elements[i];
reduce_expression(element);
}
// It's array in any case.
GDScriptParser::DataType arr_type;
arr_type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
arr_type.kind = GDScriptParser::DataType::BUILTIN;
arr_type.builtin_type = Variant::ARRAY;
arr_type.is_constant = true;
p_array->set_datatype(arr_type);
}
// When an array literal is stored (or passed as function argument) to a typed context, we then assume the array is typed.
// This function determines which type is that (if any).
void GDScriptAnalyzer::update_array_literal_element_type(const GDScriptParser::DataType &p_base_type, GDScriptParser::ArrayNode *p_array_literal) {
GDScriptParser::DataType array_type = p_array_literal->get_datatype();
if (p_array_literal->elements.size() == 0) {
// Empty array literal, just make the same type as the storage.
array_type.set_container_element_type(p_base_type.get_container_element_type());
} else {
// Check if elements match.
bool all_same_type = true;
bool all_have_type = true;
GDScriptParser::DataType element_type;
for (int i = 0; i < p_array_literal->elements.size(); i++) {
if (i == 0) {
element_type = p_array_literal->elements[0]->get_datatype();
} else {
GDScriptParser::DataType this_element_type = p_array_literal->elements[i]->get_datatype();
if (this_element_type.has_no_type()) {
all_same_type = false;
all_have_type = false;
break;
} else if (element_type != this_element_type) {
if (!is_type_compatible(element_type, this_element_type, false)) {
if (is_type_compatible(this_element_type, element_type, false)) {
// This element is a super-type to the previous type, so we use the super-type.
element_type = this_element_type;
} else {
// It's incompatible.
all_same_type = false;
break;
}
}
}
}
}
if (all_same_type) {
element_type.is_constant = false;
array_type.set_container_element_type(element_type);
} else if (all_have_type) {
push_error(vformat(R"(Variant array is not compatible with an array of type "%s".)", p_base_type.get_container_element_type().to_string()), p_array_literal);
}
}
// Update the type on the value itself.
p_array_literal->set_datatype(array_type);
}
void GDScriptAnalyzer::reduce_assignment(GDScriptParser::AssignmentNode *p_assignment) {
reduce_expression(p_assignment->assignee);
reduce_expression(p_assignment->assigned_value);
if (p_assignment->assigned_value == nullptr || p_assignment->assignee == nullptr) {
return;
}
GDScriptParser::DataType assignee_type = p_assignment->assignee->get_datatype();
// Check if assigned value is an array literal, so we can make it a typed array too if appropriate.
if (assignee_type.has_container_element_type() && p_assignment->assigned_value->type == GDScriptParser::Node::ARRAY) {
update_array_literal_element_type(assignee_type, static_cast<GDScriptParser::ArrayNode *>(p_assignment->assigned_value));
}
GDScriptParser::DataType assigned_value_type = p_assignment->assigned_value->get_datatype();
if (assignee_type.is_constant) {
push_error("Cannot assign a new value to a constant.", p_assignment->assignee);
}
bool compatible = true;
GDScriptParser::DataType op_type = assigned_value_type;
if (p_assignment->operation != GDScriptParser::AssignmentNode::OP_NONE) {
op_type = get_operation_type(p_assignment->variant_op, assignee_type, assigned_value_type, compatible, p_assignment->assigned_value);
}
p_assignment->set_datatype(op_type);
if (!assignee_type.is_variant() && assigned_value_type.is_hard_type()) {
if (compatible) {
compatible = is_type_compatible(assignee_type, op_type, true, p_assignment->assigned_value);
if (!compatible) {
if (assignee_type.is_hard_type()) {
// Try reverse test since it can be a masked subtype.
if (!is_type_compatible(op_type, assignee_type, true, p_assignment->assigned_value)) {
push_error(vformat(R"(Cannot assign a value of type "%s" to a target of type "%s".)", assigned_value_type.to_string(), assignee_type.to_string()), p_assignment->assigned_value);
} else {
// TODO: Add warning.
mark_node_unsafe(p_assignment);
p_assignment->use_conversion_assign = true;
}
} else {
// TODO: Warning in this case.
mark_node_unsafe(p_assignment);
}
}
} else {
push_error(vformat(R"(Invalid operands "%s" and "%s" for assignment operator.)", assignee_type.to_string(), assigned_value_type.to_string()), p_assignment);
}
}
if (assignee_type.has_no_type() || assigned_value_type.is_variant()) {
mark_node_unsafe(p_assignment);
if (assignee_type.is_hard_type() && !assignee_type.is_variant()) {
p_assignment->use_conversion_assign = true;
}
}
if (p_assignment->assignee->type == GDScriptParser::Node::IDENTIFIER) {
// Change source type so it's not wrongly detected later.
GDScriptParser::IdentifierNode *identifier = static_cast<GDScriptParser::IdentifierNode *>(p_assignment->assignee);
switch (identifier->source) {
case GDScriptParser::IdentifierNode::MEMBER_VARIABLE: {
GDScriptParser::DataType id_type = identifier->variable_source->get_datatype();
if (!id_type.is_hard_type()) {
id_type.kind = GDScriptParser::DataType::VARIANT;
id_type.type_source = GDScriptParser::DataType::UNDETECTED;
identifier->variable_source->set_datatype(id_type);
}
} break;
case GDScriptParser::IdentifierNode::FUNCTION_PARAMETER: {
GDScriptParser::DataType id_type = identifier->parameter_source->get_datatype();
if (!id_type.is_hard_type()) {
id_type.kind = GDScriptParser::DataType::VARIANT;
id_type.type_source = GDScriptParser::DataType::UNDETECTED;
identifier->parameter_source->set_datatype(id_type);
}
} break;
case GDScriptParser::IdentifierNode::LOCAL_VARIABLE: {
GDScriptParser::DataType id_type = identifier->variable_source->get_datatype();
if (!id_type.is_hard_type()) {
id_type.kind = GDScriptParser::DataType::VARIANT;
id_type.type_source = GDScriptParser::DataType::UNDETECTED;
identifier->variable_source->set_datatype(id_type);
}
} break;
case GDScriptParser::IdentifierNode::LOCAL_ITERATOR: {
GDScriptParser::DataType id_type = identifier->bind_source->get_datatype();
if (!id_type.is_hard_type()) {
id_type.kind = GDScriptParser::DataType::VARIANT;
id_type.type_source = GDScriptParser::DataType::UNDETECTED;
identifier->variable_source->set_datatype(id_type);
}
} break;
default:
// Nothing to do.
break;
}
}
#ifdef DEBUG_ENABLED
if (p_assignment->assigned_value->type == GDScriptParser::Node::CALL && assigned_value_type.kind == GDScriptParser::DataType::BUILTIN && assigned_value_type.builtin_type == Variant::NIL) {
parser->push_warning(p_assignment->assigned_value, GDScriptWarning::VOID_ASSIGNMENT, static_cast<GDScriptParser::CallNode *>(p_assignment->assigned_value)->function_name);
} else if (assignee_type.is_hard_type() && assignee_type.builtin_type == Variant::INT && assigned_value_type.builtin_type == Variant::FLOAT) {
parser->push_warning(p_assignment->assigned_value, GDScriptWarning::NARROWING_CONVERSION);
}
#endif
}
void GDScriptAnalyzer::reduce_await(GDScriptParser::AwaitNode *p_await) {
if (p_await->to_await == nullptr) {
GDScriptParser::DataType await_type;
await_type.kind = GDScriptParser::DataType::VARIANT;
p_await->set_datatype(await_type);
return;
}
GDScriptParser::DataType awaiting_type;
if (p_await->to_await->type == GDScriptParser::Node::CALL) {
reduce_call(static_cast<GDScriptParser::CallNode *>(p_await->to_await), true);
awaiting_type = p_await->to_await->get_datatype();
} else {
reduce_expression(p_await->to_await);
}
if (p_await->to_await->is_constant) {
p_await->is_constant = p_await->to_await->is_constant;
p_await->reduced_value = p_await->to_await->reduced_value;
awaiting_type = p_await->to_await->get_datatype();
} else {
awaiting_type.kind = GDScriptParser::DataType::VARIANT;
awaiting_type.type_source = GDScriptParser::DataType::UNDETECTED;
}
p_await->set_datatype(awaiting_type);
#ifdef DEBUG_ENABLED
awaiting_type = p_await->to_await->get_datatype();
if (!(awaiting_type.has_no_type() || awaiting_type.is_coroutine || awaiting_type.builtin_type == Variant::SIGNAL)) {
parser->push_warning(p_await, GDScriptWarning::REDUNDANT_AWAIT);
}
#endif
}
void GDScriptAnalyzer::reduce_binary_op(GDScriptParser::BinaryOpNode *p_binary_op) {
reduce_expression(p_binary_op->left_operand);
if (p_binary_op->operation == GDScriptParser::BinaryOpNode::OP_TYPE_TEST && p_binary_op->right_operand && p_binary_op->right_operand->type == GDScriptParser::Node::IDENTIFIER) {
reduce_identifier(static_cast<GDScriptParser::IdentifierNode *>(p_binary_op->right_operand), true);
} else {
reduce_expression(p_binary_op->right_operand);
}
// TODO: Right operand must be a valid type with the `is` operator. Need to check here.
GDScriptParser::DataType left_type;
if (p_binary_op->left_operand) {
left_type = p_binary_op->left_operand->get_datatype();
}
GDScriptParser::DataType right_type;
if (p_binary_op->right_operand) {
right_type = p_binary_op->right_operand->get_datatype();
}
if (!left_type.is_set() || !right_type.is_set()) {
return;
}
#ifdef DEBUG_ENABLED
if (p_binary_op->variant_op == Variant::OP_DIVIDE && left_type.builtin_type == Variant::INT && right_type.builtin_type == Variant::INT) {
parser->push_warning(p_binary_op, GDScriptWarning::INTEGER_DIVISION);
}
#endif
if (p_binary_op->left_operand->is_constant && p_binary_op->right_operand->is_constant) {
p_binary_op->is_constant = true;
if (p_binary_op->variant_op < Variant::OP_MAX) {
bool valid = false;
Variant::evaluate(p_binary_op->variant_op, p_binary_op->left_operand->reduced_value, p_binary_op->right_operand->reduced_value, p_binary_op->reduced_value, valid);
if (!valid) {
if (p_binary_op->reduced_value.get_type() == Variant::STRING) {
push_error(vformat(R"(%s in operator %s.)", p_binary_op->reduced_value, Variant::get_operator_name(p_binary_op->variant_op)), p_binary_op);
} else {
push_error(vformat(R"(Invalid operands to operator %s, %s and %s.)",
Variant::get_operator_name(p_binary_op->variant_op),
Variant::get_type_name(p_binary_op->left_operand->reduced_value.get_type()),
Variant::get_type_name(p_binary_op->right_operand->reduced_value.get_type())),
p_binary_op);
}
}
} else {
if (p_binary_op->operation == GDScriptParser::BinaryOpNode::OP_TYPE_TEST) {
GDScriptParser::DataType test_type = right_type;
test_type.is_meta_type = false;
if (!is_type_compatible(test_type, p_binary_op->left_operand->get_datatype(), false)) {
push_error(vformat(R"(Expression is of type "%s" so it can't be of type "%s".)"), p_binary_op->left_operand);
p_binary_op->reduced_value = false;
} else {
p_binary_op->reduced_value = true;
}
} else {
ERR_PRINT("Parser bug: unknown binary operation.");
}
}
p_binary_op->set_datatype(type_from_variant(p_binary_op->reduced_value, p_binary_op));
return;
}
GDScriptParser::DataType result;
if (left_type.is_variant() || right_type.is_variant()) {
// Cannot infer type because one operand can be anything.
result.kind = GDScriptParser::DataType::VARIANT;
mark_node_unsafe(p_binary_op);
} else {
if (p_binary_op->variant_op < Variant::OP_MAX) {
bool valid = false;
result = get_operation_type(p_binary_op->variant_op, left_type, right_type, valid, p_binary_op);
if (!valid) {
push_error(vformat(R"(Invalid operands "%s" and "%s" for "%s" operator.)", left_type.to_string(), right_type.to_string(), Variant::get_operator_name(p_binary_op->variant_op)), p_binary_op);
}
} else {
if (p_binary_op->operation == GDScriptParser::BinaryOpNode::OP_TYPE_TEST) {
GDScriptParser::DataType test_type = right_type;
test_type.is_meta_type = false;
if (!is_type_compatible(test_type, p_binary_op->left_operand->get_datatype(), false)) {
// Test reverse as well to consider for subtypes.
if (!is_type_compatible(p_binary_op->left_operand->get_datatype(), test_type, false)) {
if (p_binary_op->left_operand->get_datatype().is_hard_type()) {
push_error(vformat(R"(Expression is of type "%s" so it can't be of type "%s".)", p_binary_op->left_operand->get_datatype().to_string(), test_type.to_string()), p_binary_op->left_operand);
} else {
// TODO: Warning.
mark_node_unsafe(p_binary_op);
}
}
}
// "is" operator is always a boolean anyway.
result.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
result.kind = GDScriptParser::DataType::BUILTIN;
result.builtin_type = Variant::BOOL;
} else {
ERR_PRINT("Parser bug: unknown binary operation.");
}
}
}
p_binary_op->set_datatype(result);
}
void GDScriptAnalyzer::reduce_call(GDScriptParser::CallNode *p_call, bool p_is_await, bool p_is_root) {
bool all_is_constant = true;
HashMap<int, GDScriptParser::ArrayNode *> arrays; // For array literal to potentially type when passing.
for (int i = 0; i < p_call->arguments.size(); i++) {
reduce_expression(p_call->arguments[i]);
if (p_call->arguments[i]->type == GDScriptParser::Node::ARRAY) {
arrays[i] = static_cast<GDScriptParser::ArrayNode *>(p_call->arguments[i]);
}
all_is_constant = all_is_constant && p_call->arguments[i]->is_constant;
}
GDScriptParser::Node::Type callee_type = p_call->get_callee_type();
GDScriptParser::DataType call_type;
if (!p_call->is_super && callee_type == GDScriptParser::Node::IDENTIFIER) {
// Call to name directly.
StringName function_name = p_call->function_name;
Variant::Type builtin_type = GDScriptParser::get_builtin_type(function_name);
if (builtin_type < Variant::VARIANT_MAX) {
// Is a builtin constructor.
call_type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
call_type.kind = GDScriptParser::DataType::BUILTIN;
call_type.builtin_type = builtin_type;
if (builtin_type == Variant::OBJECT) {
call_type.kind = GDScriptParser::DataType::NATIVE;
call_type.native_type = function_name; // "Object".
}
bool safe_to_fold = true;
switch (builtin_type) {
// Those are stored by reference so not suited for compile-time construction.
// Because in this case they would be the same reference in all constructed values.
case Variant::OBJECT:
case Variant::DICTIONARY:
case Variant::ARRAY:
case Variant::PACKED_BYTE_ARRAY:
case Variant::PACKED_INT32_ARRAY:
case Variant::PACKED_INT64_ARRAY:
case Variant::PACKED_FLOAT32_ARRAY:
case Variant::PACKED_FLOAT64_ARRAY:
case Variant::PACKED_STRING_ARRAY:
case Variant::PACKED_VECTOR2_ARRAY:
case Variant::PACKED_VECTOR3_ARRAY:
case Variant::PACKED_COLOR_ARRAY:
safe_to_fold = false;
break;
default:
break;
}
if (all_is_constant && safe_to_fold) {
// Construct here.
Vector<const Variant *> args;
for (int i = 0; i < p_call->arguments.size(); i++) {
args.push_back(&(p_call->arguments[i]->reduced_value));
}
Callable::CallError err;
Variant value;
Variant::construct(builtin_type, value, (const Variant **)args.ptr(), args.size(), err);
switch (err.error) {
case Callable::CallError::CALL_ERROR_INVALID_ARGUMENT:
push_error(vformat(R"(Invalid argument for %s constructor: argument %d should be %s but is %s.)", Variant::get_type_name(builtin_type), err.argument + 1,
Variant::get_type_name(Variant::Type(err.expected)), p_call->arguments[err.argument]->get_datatype().to_string()),
p_call->arguments[err.argument]);
break;
case Callable::CallError::CALL_ERROR_INVALID_METHOD: {
String signature = Variant::get_type_name(builtin_type) + "(";
for (int i = 0; i < p_call->arguments.size(); i++) {
if (i > 0) {
signature += ", ";
}
signature += p_call->arguments[i]->get_datatype().to_string();
}
signature += ")";
push_error(vformat(R"(No constructor of "%s" matches the signature "%s".)", Variant::get_type_name(builtin_type), signature), p_call->callee);
} break;
case Callable::CallError::CALL_ERROR_TOO_MANY_ARGUMENTS:
push_error(vformat(R"(Too many arguments for %s constructor. Received %d but expected %d.)", Variant::get_type_name(builtin_type), p_call->arguments.size(), err.expected), p_call);
break;
case Callable::CallError::CALL_ERROR_TOO_FEW_ARGUMENTS:
push_error(vformat(R"(Too few arguments for %s constructor. Received %d but expected %d.)", Variant::get_type_name(builtin_type), p_call->arguments.size(), err.expected), p_call);
break;
case Callable::CallError::CALL_ERROR_INSTANCE_IS_NULL:
case Callable::CallError::CALL_ERROR_METHOD_NOT_CONST:
break; // Can't happen in a builtin constructor.
case Callable::CallError::CALL_OK:
p_call->is_constant = true;
p_call->reduced_value = value;
break;
}
} else {
// TODO: Check constructors without constants.
// If there's one argument, try to use copy constructor (those aren't explicitly defined).
if (p_call->arguments.size() == 1) {
GDScriptParser::DataType arg_type = p_call->arguments[0]->get_datatype();
if (arg_type.is_variant()) {
mark_node_unsafe(p_call->arguments[0]);
} else {
if (arg_type.kind == GDScriptParser::DataType::BUILTIN && arg_type.builtin_type == builtin_type) {
// Okay.
p_call->set_datatype(call_type);
return;
}
}
}
List<MethodInfo> constructors;
Variant::get_constructor_list(builtin_type, &constructors);
bool match = false;
for (const MethodInfo &info : constructors) {
if (p_call->arguments.size() < info.arguments.size() - info.default_arguments.size()) {
continue;
}
if (p_call->arguments.size() > info.arguments.size()) {
continue;
}
bool types_match = true;
for (int i = 0; i < p_call->arguments.size(); i++) {
GDScriptParser::DataType par_type = type_from_property(info.arguments[i]);
if (!is_type_compatible(par_type, p_call->arguments[i]->get_datatype(), true)) {
types_match = false;
break;
#ifdef DEBUG_ENABLED
} else {
if (par_type.builtin_type == Variant::INT && p_call->arguments[i]->get_datatype().builtin_type == Variant::FLOAT && builtin_type != Variant::INT) {
parser->push_warning(p_call, GDScriptWarning::NARROWING_CONVERSION, p_call->function_name);
}
#endif
}
}
if (types_match) {
match = true;
call_type = type_from_property(info.return_val);
break;
}
}
if (!match) {
String signature = Variant::get_type_name(builtin_type) + "(";
for (int i = 0; i < p_call->arguments.size(); i++) {
if (i > 0) {
signature += ", ";
}
signature += p_call->arguments[i]->get_datatype().to_string();
}
signature += ")";
push_error(vformat(R"(No constructor of "%s" matches the signature "%s".)", Variant::get_type_name(builtin_type), signature), p_call);
}
}
p_call->set_datatype(call_type);
return;
} else if (GDScriptUtilityFunctions::function_exists(function_name)) {
MethodInfo function_info = GDScriptUtilityFunctions::get_function_info(function_name);
if (all_is_constant && GDScriptUtilityFunctions::is_function_constant(function_name)) {
// Can call on compilation.
Vector<const Variant *> args;
for (int i = 0; i < p_call->arguments.size(); i++) {
args.push_back(&(p_call->arguments[i]->reduced_value));
}
Variant value;
Callable::CallError err;
GDScriptUtilityFunctions::get_function(function_name)(&value, (const Variant **)args.ptr(), args.size(), err);
switch (err.error) {
case Callable::CallError::CALL_ERROR_INVALID_ARGUMENT: {
PropertyInfo wrong_arg = function_info.arguments[err.argument];
push_error(vformat(R"*(Invalid argument for "%s()" function: argument %d should be %s but is %s.)*", function_name, err.argument + 1,
type_from_property(wrong_arg).to_string(), p_call->arguments[err.argument]->get_datatype().to_string()),
p_call->arguments[err.argument]);
} break;
case Callable::CallError::CALL_ERROR_INVALID_METHOD:
push_error(vformat(R"(Invalid call for function "%s".)", function_name), p_call);
break;
case Callable::CallError::CALL_ERROR_TOO_MANY_ARGUMENTS:
push_error(vformat(R"*(Too many arguments for "%s()" call. Expected at most %d but received %d.)*", function_name, err.expected, p_call->arguments.size()), p_call);
break;
case Callable::CallError::CALL_ERROR_TOO_FEW_ARGUMENTS:
push_error(vformat(R"*(Too few arguments for "%s()" call. Expected at least %d but received %d.)*", function_name, err.expected, p_call->arguments.size()), p_call);
break;
case Callable::CallError::CALL_ERROR_METHOD_NOT_CONST:
case Callable::CallError::CALL_ERROR_INSTANCE_IS_NULL:
break; // Can't happen in a builtin constructor.
case Callable::CallError::CALL_OK:
p_call->is_constant = true;
p_call->reduced_value = value;
break;
}
} else {
validate_call_arg(function_info, p_call);
}
p_call->set_datatype(type_from_property(function_info.return_val));
return;
} else if (Variant::has_utility_function(function_name)) {
MethodInfo function_info = info_from_utility_func(function_name);
if (all_is_constant && Variant::get_utility_function_type(function_name) == Variant::UTILITY_FUNC_TYPE_MATH) {
// Can call on compilation.
Vector<const Variant *> args;
for (int i = 0; i < p_call->arguments.size(); i++) {
args.push_back(&(p_call->arguments[i]->reduced_value));
}
Variant value;
Callable::CallError err;
Variant::call_utility_function(function_name, &value, (const Variant **)args.ptr(), args.size(), err);
switch (err.error) {
case Callable::CallError::CALL_ERROR_INVALID_ARGUMENT: {
String expected_type_name;
if (err.argument < function_info.arguments.size()) {
expected_type_name = type_from_property(function_info.arguments[err.argument]).to_string();
} else {
expected_type_name = Variant::get_type_name((Variant::Type)err.expected);
}
push_error(vformat(R"*(Invalid argument for "%s()" function: argument %d should be %s but is %s.)*", function_name, err.argument + 1,
expected_type_name, p_call->arguments[err.argument]->get_datatype().to_string()),
p_call->arguments[err.argument]);
} break;
case Callable::CallError::CALL_ERROR_INVALID_METHOD:
push_error(vformat(R"(Invalid call for function "%s".)", function_name), p_call);
break;
case Callable::CallError::CALL_ERROR_TOO_MANY_ARGUMENTS:
push_error(vformat(R"*(Too many arguments for "%s()" call. Expected at most %d but received %d.)*", function_name, err.expected, p_call->arguments.size()), p_call);
break;
case Callable::CallError::CALL_ERROR_TOO_FEW_ARGUMENTS:
push_error(vformat(R"*(Too few arguments for "%s()" call. Expected at least %d but received %d.)*", function_name, err.expected, p_call->arguments.size()), p_call);
break;
case Callable::CallError::CALL_ERROR_METHOD_NOT_CONST:
case Callable::CallError::CALL_ERROR_INSTANCE_IS_NULL:
break; // Can't happen in a builtin constructor.
case Callable::CallError::CALL_OK:
p_call->is_constant = true;
p_call->reduced_value = value;
break;
}
} else {
validate_call_arg(function_info, p_call);
}
p_call->set_datatype(type_from_property(function_info.return_val));
return;
}
}
GDScriptParser::DataType base_type;
call_type.kind = GDScriptParser::DataType::VARIANT;
bool is_self = false;
if (p_call->is_super) {
base_type = parser->current_class->base_type;
base_type.is_meta_type = false;
is_self = true;
if (p_call->callee == nullptr && !lambda_stack.is_empty()) {
push_error("Cannot use `super()` inside a lambda.", p_call);
}
} else if (callee_type == GDScriptParser::Node::IDENTIFIER) {
base_type = parser->current_class->get_datatype();
base_type.is_meta_type = false;
is_self = true;
} else if (callee_type == GDScriptParser::Node::SUBSCRIPT) {
GDScriptParser::SubscriptNode *subscript = static_cast<GDScriptParser::SubscriptNode *>(p_call->callee);
if (subscript->base == nullptr) {
// Invalid syntax, error already set on parser.
p_call->set_datatype(call_type);
mark_node_unsafe(p_call);
return;
}
if (!subscript->is_attribute) {
// Invalid call. Error already sent in parser.
// TODO: Could check if Callable here.
p_call->set_datatype(call_type);
mark_node_unsafe(p_call);
return;
}
if (subscript->attribute == nullptr) {
// Invalid call. Error already sent in parser.
p_call->set_datatype(call_type);
mark_node_unsafe(p_call);
return;
}
GDScriptParser::IdentifierNode *base_id = nullptr;
if (subscript->base->type == GDScriptParser::Node::IDENTIFIER) {
base_id = static_cast<GDScriptParser::IdentifierNode *>(subscript->base);
}
if (base_id && GDScriptParser::get_builtin_type(base_id->name) < Variant::VARIANT_MAX) {
base_type = make_builtin_meta_type(GDScriptParser::get_builtin_type(base_id->name));
} else {
reduce_expression(subscript->base);
base_type = subscript->base->get_datatype();
}
} else {
// Invalid call. Error already sent in parser.
// TODO: Could check if Callable here too.
p_call->set_datatype(call_type);
mark_node_unsafe(p_call);
return;
}
bool is_static = false;
bool is_vararg = false;
int default_arg_count = 0;
GDScriptParser::DataType return_type;
List<GDScriptParser::DataType> par_types;
bool is_constructor = (base_type.is_meta_type || (p_call->callee && p_call->callee->type == GDScriptParser::Node::IDENTIFIER)) && p_call->function_name == SNAME("new");
if (get_function_signature(p_call, is_constructor, base_type, p_call->function_name, return_type, par_types, default_arg_count, is_static, is_vararg)) {
// If the function require typed arrays we must make literals be typed.
for (const KeyValue<int, GDScriptParser::ArrayNode *> &E : arrays) {
int index = E.key;
if (index < par_types.size() && par_types[index].has_container_element_type()) {
update_array_literal_element_type(par_types[index], E.value);
}
}
validate_call_arg(par_types, default_arg_count, is_vararg, p_call);
if (base_type.kind == GDScriptParser::DataType::ENUM && base_type.is_meta_type) {
// Enum type is treated as a dictionary value for function calls.
base_type.is_meta_type = false;
}
if (is_self && parser->current_function != nullptr && parser->current_function->is_static && !is_static) {
// Get the parent function above any lambda.
GDScriptParser::FunctionNode *parent_function = parser->current_function;
while (parent_function->source_lambda) {
parent_function = parent_function->source_lambda->parent_function;
}
push_error(vformat(R"*(Cannot call non-static function "%s()" from static function "%s()".)*", p_call->function_name, parent_function->identifier->name), p_call);
} else if (!is_self && base_type.is_meta_type && !is_static) {
base_type.is_meta_type = false; // For `to_string()`.
push_error(vformat(R"*(Cannot call non-static function "%s()" on the class "%s" directly. Make an instance instead.)*", p_call->function_name, base_type.to_string()), p_call);
} else if (is_self && !is_static) {
mark_lambda_use_self();
}
#ifdef DEBUG_ENABLED
if (p_is_root && return_type.kind != GDScriptParser::DataType::UNRESOLVED && return_type.builtin_type != Variant::NIL) {
parser->push_warning(p_call, GDScriptWarning::RETURN_VALUE_DISCARDED, p_call->function_name);
}
if (is_static && !base_type.is_meta_type && !(is_self && parser->current_function != nullptr && parser->current_function->is_static)) {
String caller_type = String(base_type.native_type);
if (caller_type.is_empty()) {
caller_type = base_type.to_string();
}
parser->push_warning(p_call, GDScriptWarning::STATIC_CALLED_ON_INSTANCE, p_call->function_name, caller_type);
}
#endif // DEBUG_ENABLED
call_type = return_type;
} else {
bool found = false;
// Check if the name exists as something else.
if (!p_call->is_super && callee_type != GDScriptParser::Node::NONE) {
GDScriptParser::IdentifierNode *callee_id;
if (callee_type == GDScriptParser::Node::IDENTIFIER) {
callee_id = static_cast<GDScriptParser::IdentifierNode *>(p_call->callee);
} else {
// Can only be attribute.
callee_id = static_cast<GDScriptParser::SubscriptNode *>(p_call->callee)->attribute;
}
if (callee_id) {
reduce_identifier_from_base(callee_id, &base_type);
GDScriptParser::DataType callee_datatype = callee_id->get_datatype();
if (callee_datatype.is_set() && !callee_datatype.is_variant()) {
found = true;
if (callee_datatype.builtin_type == Variant::CALLABLE) {
push_error(vformat(R"*(Name "%s" is a Callable. You can call it with "%s.call()" instead.)*", p_call->function_name, p_call->function_name), p_call->callee);
} else {
push_error(vformat(R"*(Name "%s" called as a function but is a "%s".)*", p_call->function_name, callee_datatype.to_string()), p_call->callee);
}
#ifdef DEBUG_ENABLED
} else if (!is_self && !(base_type.is_hard_type() && base_type.kind == GDScriptParser::DataType::BUILTIN)) {
parser->push_warning(p_call, GDScriptWarning::UNSAFE_METHOD_ACCESS, p_call->function_name, base_type.to_string());
mark_node_unsafe(p_call);
#endif
}
}
}
if (!found && (is_self || (base_type.is_hard_type() && base_type.kind == GDScriptParser::DataType::BUILTIN))) {
String base_name = is_self && !p_call->is_super ? "self" : base_type.to_string();
push_error(vformat(R"*(Function "%s()" not found in base %s.)*", p_call->function_name, base_name), p_call->is_super ? p_call : p_call->callee);
} else if (!found && (!p_call->is_super && base_type.is_hard_type() && base_type.kind == GDScriptParser::DataType::NATIVE && base_type.is_meta_type)) {
push_error(vformat(R"*(Static function "%s()" not found in base "%s".)*", p_call->function_name, base_type.native_type.operator String()), p_call);
}
}
if (call_type.is_coroutine && !p_is_await && !p_is_root) {
push_error(vformat(R"*(Function "%s()" is a coroutine, so it must be called with "await".)*", p_call->function_name), p_call);
}
p_call->set_datatype(call_type);
}
void GDScriptAnalyzer::reduce_cast(GDScriptParser::CastNode *p_cast) {
reduce_expression(p_cast->operand);
GDScriptParser::DataType cast_type = resolve_datatype(p_cast->cast_type);
if (!cast_type.is_set()) {
mark_node_unsafe(p_cast);
return;
}
cast_type = type_from_metatype(cast_type); // The casted value won't be a type name.
p_cast->set_datatype(cast_type);
if (!cast_type.is_variant()) {
GDScriptParser::DataType op_type = p_cast->operand->get_datatype();
if (!op_type.is_variant()) {
bool valid = false;
if (op_type.kind == GDScriptParser::DataType::ENUM && cast_type.kind == GDScriptParser::DataType::ENUM) {
// Enum types are compatible between each other, so it's a safe cast.
valid = true;
} else if (op_type.kind == GDScriptParser::DataType::BUILTIN && op_type.builtin_type == Variant::INT && cast_type.kind == GDScriptParser::DataType::ENUM) {
// Convertint int to enum is always valid.
valid = true;
} else if (op_type.kind == GDScriptParser::DataType::BUILTIN && cast_type.kind == GDScriptParser::DataType::BUILTIN) {
valid = Variant::can_convert(op_type.builtin_type, cast_type.builtin_type);
} else if (op_type.kind != GDScriptParser::DataType::BUILTIN && cast_type.kind != GDScriptParser::DataType::BUILTIN) {
valid = is_type_compatible(cast_type, op_type) || is_type_compatible(op_type, cast_type);
}
if (!valid) {
push_error(vformat(R"(Invalid cast. Cannot convert from "%s" to "%s".)", op_type.to_string(), cast_type.to_string()), p_cast->cast_type);
}
}
} else {
mark_node_unsafe(p_cast);
}
#ifdef DEBUG_ENABLED
if (p_cast->operand->get_datatype().is_variant()) {
parser->push_warning(p_cast, GDScriptWarning::UNSAFE_CAST, cast_type.to_string());
mark_node_unsafe(p_cast);
}
#endif
// TODO: Perform cast on constants.
}
void GDScriptAnalyzer::reduce_dictionary(GDScriptParser::DictionaryNode *p_dictionary) {
HashMap<Variant, GDScriptParser::ExpressionNode *, VariantHasher, VariantComparator> elements;
for (int i = 0; i < p_dictionary->elements.size(); i++) {
const GDScriptParser::DictionaryNode::Pair &element = p_dictionary->elements[i];
if (p_dictionary->style == GDScriptParser::DictionaryNode::PYTHON_DICT) {
reduce_expression(element.key);
}
reduce_expression(element.value);
if (element.key->is_constant) {
if (elements.has(element.key->reduced_value)) {
push_error(vformat(R"(Key "%s" was already used in this dictionary (at line %d).)", element.key->reduced_value, elements[element.key->reduced_value]->start_line), element.key);
} else {
elements[element.key->reduced_value] = element.value;
}
}
}
// It's dictionary in any case.
GDScriptParser::DataType dict_type;
dict_type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
dict_type.kind = GDScriptParser::DataType::BUILTIN;
dict_type.builtin_type = Variant::DICTIONARY;
dict_type.is_constant = true;
p_dictionary->set_datatype(dict_type);
}
void GDScriptAnalyzer::reduce_get_node(GDScriptParser::GetNodeNode *p_get_node) {
GDScriptParser::DataType result;
result.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
result.kind = GDScriptParser::DataType::NATIVE;
result.native_type = SNAME("Node");
result.builtin_type = Variant::OBJECT;
if (!ClassDB::is_parent_class(parser->current_class->base_type.native_type, result.native_type)) {
push_error(R"*(Cannot use shorthand "get_node()" notation ("$") on a class that isn't a node.)*", p_get_node);
}
mark_lambda_use_self();
p_get_node->set_datatype(result);
}
GDScriptParser::DataType GDScriptAnalyzer::make_global_class_meta_type(const StringName &p_class_name, const GDScriptParser::Node *p_source) {
GDScriptParser::DataType type;
String path = ScriptServer::get_global_class_path(p_class_name);
String ext = path.get_extension();
if (ext == GDScriptLanguage::get_singleton()->get_extension()) {
Ref<GDScriptParserRef> ref = get_parser_for(path);
if (ref.is_null()) {
push_error(vformat(R"(Could not find script for class "%s".)", p_class_name), p_source);
type.type_source = GDScriptParser::DataType::UNDETECTED;
type.kind = GDScriptParser::DataType::VARIANT;
return type;
}
Error err = ref->raise_status(GDScriptParserRef::INTERFACE_SOLVED);
if (err) {
push_error(vformat(R"(Could not resolve class "%s", because of a parser error.)", p_class_name), p_source);
type.type_source = GDScriptParser::DataType::UNDETECTED;
type.kind = GDScriptParser::DataType::VARIANT;
return type;
}
type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
type.kind = GDScriptParser::DataType::CLASS;
type.builtin_type = Variant::OBJECT;
type.native_type = ScriptServer::get_global_class_native_base(p_class_name);
type.class_type = ref->get_parser()->head;
type.script_path = ref->get_parser()->script_path;
type.is_constant = true;
type.is_meta_type = true;
return type;
} else {
type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
type.kind = GDScriptParser::DataType::SCRIPT;
type.builtin_type = Variant::OBJECT;
type.native_type = ScriptServer::get_global_class_native_base(p_class_name);
type.script_type = ResourceLoader::load(path, "Script");
type.script_path = path;
type.is_constant = true;
type.is_meta_type = true;
return type;
}
}
void GDScriptAnalyzer::reduce_identifier_from_base(GDScriptParser::IdentifierNode *p_identifier, GDScriptParser::DataType *p_base) {
GDScriptParser::DataType base;
if (p_base == nullptr) {
base = type_from_metatype(parser->current_class->get_datatype());
} else {
base = *p_base;
}
const StringName &name = p_identifier->name;
if (base.kind == GDScriptParser::DataType::ENUM) {
if (base.is_meta_type) {
if (base.enum_values.has(name)) {
p_identifier->is_constant = true;
p_identifier->reduced_value = base.enum_values[name];
GDScriptParser::DataType result;
result.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
result.kind = GDScriptParser::DataType::ENUM;
result.is_constant = true;
result.builtin_type = Variant::INT;
result.native_type = base.native_type;
result.enum_type = base.enum_type;
result.enum_values = base.enum_values;
p_identifier->set_datatype(result);
return;
} else {
// Consider as a Dictionary, so it can be anything.
// This will be evaluated in the next if block.
base.kind = GDScriptParser::DataType::BUILTIN;
base.builtin_type = Variant::DICTIONARY;
base.is_meta_type = false;
}
} else {
push_error(R"(Cannot get property from enum value.)", p_identifier);
return;
}
}
if (base.kind == GDScriptParser::DataType::BUILTIN) {
if (base.is_meta_type) {
bool valid = true;
Variant result = Variant::get_constant_value(base.builtin_type, name, &valid);
if (valid) {
p_identifier->is_constant = true;
p_identifier->reduced_value = result;
p_identifier->set_datatype(type_from_variant(result, p_identifier));
} else if (base.is_hard_type()) {
push_error(vformat(R"(Cannot find constant "%s" on type "%s".)", name, base.to_string()), p_identifier);
}
} else {
switch (base.builtin_type) {
case Variant::NIL: {
if (base.is_hard_type()) {
push_error(vformat(R"(Invalid get index "%s" on base Nil)", name), p_identifier);
}
return;
}
case Variant::DICTIONARY: {
GDScriptParser::DataType dummy;
dummy.kind = GDScriptParser::DataType::VARIANT;
p_identifier->set_datatype(dummy);
return;
}
default: {
Callable::CallError temp;
Variant dummy;
Variant::construct(base.builtin_type, dummy, nullptr, 0, temp);
List<PropertyInfo> properties;
dummy.get_property_list(&properties);
for (const PropertyInfo &prop : properties) {
if (prop.name == name) {
p_identifier->set_datatype(type_from_property(prop));
return;
}
}
if (base.is_hard_type()) {
push_error(vformat(R"(Cannot find property "%s" on base "%s".)", name, base.to_string()), p_identifier);
}
}
}
}
return;
}
GDScriptParser::ClassNode *base_class = base.class_type;
// TODO: Switch current class/function/suite here to avoid misrepresenting identifiers (in recursive reduce calls).
while (base_class != nullptr) {
if (base_class->identifier && base_class->identifier->name == name) {
p_identifier->set_datatype(base_class->get_datatype());
return;
}
if (base_class->has_member(name)) {
const GDScriptParser::ClassNode::Member &member = base_class->get_member(name);
p_identifier->set_datatype(member.get_datatype());
switch (member.type) {
case GDScriptParser::ClassNode::Member::CONSTANT:
// For out-of-order resolution:
reduce_expression(member.constant->initializer);
p_identifier->is_constant = true;
p_identifier->reduced_value = member.constant->initializer->reduced_value;
p_identifier->set_datatype(member.constant->initializer->get_datatype());
p_identifier->source = GDScriptParser::IdentifierNode::MEMBER_CONSTANT;
p_identifier->constant_source = member.constant;
break;
case GDScriptParser::ClassNode::Member::ENUM_VALUE:
p_identifier->is_constant = true;
p_identifier->reduced_value = member.enum_value.value;
p_identifier->source = GDScriptParser::IdentifierNode::MEMBER_CONSTANT;
break;
case GDScriptParser::ClassNode::Member::VARIABLE:
p_identifier->source = GDScriptParser::IdentifierNode::MEMBER_VARIABLE;
p_identifier->variable_source = member.variable;
member.variable->usages += 1;
break;
case GDScriptParser::ClassNode::Member::SIGNAL:
p_identifier->source = GDScriptParser::IdentifierNode::MEMBER_SIGNAL;
break;
case GDScriptParser::ClassNode::Member::FUNCTION:
resolve_function_signature(member.function);
p_identifier->set_datatype(make_callable_type(member.function->info));
break;
case GDScriptParser::ClassNode::Member::CLASS:
// For out-of-order resolution:
resolve_class_interface(member.m_class);
p_identifier->set_datatype(member.m_class->get_datatype());
break;
default:
break; // Type already set.
}
return;
}
// Check outer constants.
// TODO: Allow outer static functions.
GDScriptParser::ClassNode *outer = base_class->outer;
while (outer != nullptr) {
if (outer->has_member(name)) {
const GDScriptParser::ClassNode::Member &member = outer->get_member(name);
switch (member.type) {
case GDScriptParser::ClassNode::Member::CONSTANT: {
// TODO: Make sure loops won't cause problem. And make special error message for those.
// For out-of-order resolution:
reduce_expression(member.constant->initializer);
p_identifier->set_datatype(member.get_datatype());
p_identifier->is_constant = true;
p_identifier->reduced_value = member.constant->initializer->reduced_value;
return;
} break;
case GDScriptParser::ClassNode::Member::ENUM_VALUE: {
p_identifier->set_datatype(member.get_datatype());
p_identifier->is_constant = true;
p_identifier->reduced_value = member.enum_value.value;
return;
} break;
case GDScriptParser::ClassNode::Member::ENUM: {
p_identifier->set_datatype(member.get_datatype());
p_identifier->is_constant = false;
return;
} break;
case GDScriptParser::ClassNode::Member::CLASS: {
resolve_class_interface(member.m_class);
p_identifier->set_datatype(member.m_class->get_datatype());
return;
} break;
default:
break;
}
}
outer = outer->outer;
}
base_class = base_class->base_type.class_type;
}
// Check native members. No need for native class recursion because Node exposes all Object's properties.
const StringName &native = base.native_type;
if (class_exists(native)) {
MethodInfo method_info;
if (ClassDB::has_property(native, name)) {
StringName getter_name = ClassDB::get_property_getter(native, name);
MethodBind *getter = ClassDB::get_method(native, getter_name);
if (getter != nullptr) {
p_identifier->set_datatype(type_from_property(getter->get_return_info()));
p_identifier->source = GDScriptParser::IdentifierNode::INHERITED_VARIABLE;
}
return;
}
if (ClassDB::get_method_info(native, name, &method_info)) {
// Method is callable.
p_identifier->set_datatype(make_callable_type(method_info));
p_identifier->source = GDScriptParser::IdentifierNode::INHERITED_VARIABLE;
return;
}
if (ClassDB::get_signal(native, name, &method_info)) {
// Signal is a type too.
p_identifier->set_datatype(make_signal_type(method_info));
p_identifier->source = GDScriptParser::IdentifierNode::INHERITED_VARIABLE;
return;
}
if (ClassDB::has_enum(native, name)) {
p_identifier->set_datatype(make_native_enum_type(native, name));
p_identifier->source = GDScriptParser::IdentifierNode::MEMBER_CONSTANT;
return;
}
bool valid = false;
int64_t int_constant = ClassDB::get_integer_constant(native, name, &valid);
if (valid) {
p_identifier->is_constant = true;
p_identifier->reduced_value = int_constant;
p_identifier->set_datatype(type_from_variant(int_constant, p_identifier));
p_identifier->source = GDScriptParser::IdentifierNode::MEMBER_CONSTANT;
return;
}
}
}
void GDScriptAnalyzer::reduce_identifier(GDScriptParser::IdentifierNode *p_identifier, bool can_be_builtin) {
// TODO: This is opportunity to further infer types.
// Check if we are inside and enum. This allows enum values to access other elements of the same enum.
if (current_enum) {
for (int i = 0; i < current_enum->values.size(); i++) {
const GDScriptParser::EnumNode::Value &element = current_enum->values[i];
if (element.identifier->name == p_identifier->name) {
GDScriptParser::DataType type;
type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
type.kind = element.parent_enum->identifier ? GDScriptParser::DataType::ENUM : GDScriptParser::DataType::BUILTIN;
type.builtin_type = Variant::INT;
type.is_constant = true;
if (element.parent_enum->identifier) {
type.enum_type = element.parent_enum->identifier->name;
}
p_identifier->set_datatype(type);
if (element.resolved) {
p_identifier->is_constant = true;
p_identifier->reduced_value = element.value;
} else {
push_error(R"(Cannot use another enum element before it was declared.)", p_identifier);
}
return; // Found anyway.
}
}
}
bool found_source = false;
// Check if identifier is local.
// If that's the case, the declaration already was solved before.
switch (p_identifier->source) {
case GDScriptParser::IdentifierNode::FUNCTION_PARAMETER:
p_identifier->set_datatype(p_identifier->parameter_source->get_datatype());
found_source = true;
break;
case GDScriptParser::IdentifierNode::LOCAL_CONSTANT:
case GDScriptParser::IdentifierNode::MEMBER_CONSTANT:
p_identifier->set_datatype(p_identifier->constant_source->get_datatype());
p_identifier->is_constant = true;
// TODO: Constant should have a value on the node itself.
p_identifier->reduced_value = p_identifier->constant_source->initializer->reduced_value;
found_source = true;
break;
case GDScriptParser::IdentifierNode::MEMBER_SIGNAL:
case GDScriptParser::IdentifierNode::INHERITED_VARIABLE:
mark_lambda_use_self();
break;
case GDScriptParser::IdentifierNode::MEMBER_VARIABLE:
mark_lambda_use_self();
p_identifier->variable_source->usages++;
[[fallthrough]];
case GDScriptParser::IdentifierNode::LOCAL_VARIABLE:
p_identifier->set_datatype(p_identifier->variable_source->get_datatype());
found_source = true;
break;
case GDScriptParser::IdentifierNode::LOCAL_ITERATOR:
p_identifier->set_datatype(p_identifier->bind_source->get_datatype());
found_source = true;
break;
case GDScriptParser::IdentifierNode::LOCAL_BIND: {
GDScriptParser::DataType result = p_identifier->bind_source->get_datatype();
result.is_constant = true;
p_identifier->set_datatype(result);
found_source = true;
} break;
case GDScriptParser::IdentifierNode::UNDEFINED_SOURCE:
break;
}
// Not a local, so check members.
if (!found_source) {
reduce_identifier_from_base(p_identifier);
if (p_identifier->source != GDScriptParser::IdentifierNode::UNDEFINED_SOURCE || p_identifier->get_datatype().is_set()) {
// Found.
found_source = true;
}
}
if (found_source) {
if ((p_identifier->source == GDScriptParser::IdentifierNode::MEMBER_VARIABLE || p_identifier->source == GDScriptParser::IdentifierNode::INHERITED_VARIABLE) && parser->current_function && parser->current_function->is_static) {
// Get the parent function above any lambda.
GDScriptParser::FunctionNode *parent_function = parser->current_function;
while (parent_function->source_lambda) {
parent_function = parent_function->source_lambda->parent_function;
}
push_error(vformat(R"*(Cannot access instance variable "%s" from the static function "%s()".)*", p_identifier->name, parent_function->identifier->name), p_identifier);
}
if (!lambda_stack.is_empty()) {
// If the identifier is a member variable (including the native class properties), we consider the lambda to be using `self`, so we keep a reference to the current instance.
if (p_identifier->source == GDScriptParser::IdentifierNode::MEMBER_VARIABLE || p_identifier->source == GDScriptParser::IdentifierNode::INHERITED_VARIABLE) {
mark_lambda_use_self();
return; // No need to capture.
}
// If the identifier is local, check if it's any kind of capture by comparing their source function.
// Only capture locals and enum values. Constants are still accessible from the lambda using the script reference. If not, this method is done.
if (p_identifier->source == GDScriptParser::IdentifierNode::UNDEFINED_SOURCE || p_identifier->source == GDScriptParser::IdentifierNode::MEMBER_CONSTANT) {
return;
}
GDScriptParser::FunctionNode *function_test = lambda_stack.back()->get()->function;
// Make sure we aren't capturing variable in the same lambda.
// This also add captures for nested lambdas.
while (function_test != nullptr && function_test != p_identifier->source_function && function_test->source_lambda != nullptr && !function_test->source_lambda->captures_indices.has(p_identifier->name)) {
function_test->source_lambda->captures_indices[p_identifier->name] = function_test->source_lambda->captures.size();
function_test->source_lambda->captures.push_back(p_identifier);
function_test = function_test->source_lambda->parent_function;
}
}
return;
}
StringName name = p_identifier->name;
p_identifier->source = GDScriptParser::IdentifierNode::UNDEFINED_SOURCE;
// Check globals. We make an exception for Variant::OBJECT because it's the base class for
// non-builtin types so we allow doing e.g. Object.new()
Variant::Type builtin_type = GDScriptParser::get_builtin_type(name);
if (builtin_type != Variant::OBJECT && builtin_type < Variant::VARIANT_MAX) {
if (can_be_builtin) {
p_identifier->set_datatype(make_builtin_meta_type(builtin_type));
return;
} else {
push_error(R"(Builtin type cannot be used as a name on its own.)", p_identifier);
}
}
if (class_exists(name)) {
p_identifier->set_datatype(make_native_meta_type(name));
return;
}
if (ScriptServer::is_global_class(name)) {
p_identifier->set_datatype(make_global_class_meta_type(name, p_identifier));
return;
}
// Try singletons.
// Do this before globals because this might be a singleton loading another one before it's compiled.
if (ProjectSettings::get_singleton()->has_autoload(name)) {
const ProjectSettings::AutoloadInfo &autoload = ProjectSettings::get_singleton()->get_autoload(name);
if (autoload.is_singleton) {
// Singleton exists, so it's at least a Node.
GDScriptParser::DataType result;
result.kind = GDScriptParser::DataType::NATIVE;
result.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
if (ResourceLoader::get_resource_type(autoload.path) == "GDScript") {
Ref<GDScriptParserRef> singl_parser = get_parser_for(autoload.path);
if (singl_parser.is_valid()) {
Error err = singl_parser->raise_status(GDScriptParserRef::INTERFACE_SOLVED);
if (err == OK) {
result = type_from_metatype(singl_parser->get_parser()->head->get_datatype());
}
}
} else if (ResourceLoader::get_resource_type(autoload.path) == "PackedScene") {
if (GDScriptLanguage::get_singleton()->get_named_globals_map().has(name)) {
Variant constant = GDScriptLanguage::get_singleton()->get_named_globals_map()[name];
Node *node = Object::cast_to<Node>(constant);
if (node != nullptr) {
Ref<Script> scr = node->get_script();
if (scr.is_valid()) {
Ref<GDScriptParserRef> singl_parser = get_parser_for(scr->get_path());
if (singl_parser.is_valid()) {
Error err = singl_parser->raise_status(GDScriptParserRef::INTERFACE_SOLVED);
if (err == OK) {
result = type_from_metatype(singl_parser->get_parser()->head->get_datatype());
}
}
}
}
}
}
result.is_constant = true;
p_identifier->set_datatype(result);
return;
}
}
if (GDScriptLanguage::get_singleton()->get_global_map().has(name)) {
int idx = GDScriptLanguage::get_singleton()->get_global_map()[name];
Variant constant = GDScriptLanguage::get_singleton()->get_global_array()[idx];
p_identifier->set_datatype(type_from_variant(constant, p_identifier));
p_identifier->is_constant = true;
p_identifier->reduced_value = constant;
return;
}
if (GDScriptLanguage::get_singleton()->get_named_globals_map().has(name)) {
Variant constant = GDScriptLanguage::get_singleton()->get_named_globals_map()[name];
p_identifier->set_datatype(type_from_variant(constant, p_identifier));
p_identifier->is_constant = true;
p_identifier->reduced_value = constant;
return;
}
// Not found.
// Check if it's a builtin function.
if (GDScriptUtilityFunctions::function_exists(name)) {
push_error(vformat(R"(Built-in function "%s" cannot be used as an identifier.)", name), p_identifier);
} else {
push_error(vformat(R"(Identifier "%s" not declared in the current scope.)", name), p_identifier);
}
GDScriptParser::DataType dummy;
dummy.kind = GDScriptParser::DataType::VARIANT;
p_identifier->set_datatype(dummy); // Just so type is set to something.
}
void GDScriptAnalyzer::reduce_lambda(GDScriptParser::LambdaNode *p_lambda) {
// Lambda is always a Callable.
GDScriptParser::DataType lambda_type;
lambda_type.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
lambda_type.kind = GDScriptParser::DataType::BUILTIN;
lambda_type.builtin_type = Variant::CALLABLE;
p_lambda->set_datatype(lambda_type);
if (p_lambda->function == nullptr) {
return;
}
GDScriptParser::FunctionNode *previous_function = parser->current_function;
parser->current_function = p_lambda->function;
lambda_stack.push_back(p_lambda);
for (int i = 0; i < p_lambda->function->parameters.size(); i++) {
resolve_parameter(p_lambda->function->parameters[i]);
}
resolve_suite(p_lambda->function->body);
int captures_amount = p_lambda->captures.size();
if (captures_amount > 0) {
// Create space for lambda parameters.
// At the beginning to not mess with optional parameters.
int param_count = p_lambda->function->parameters.size();
p_lambda->function->parameters.resize(param_count + captures_amount);
for (int i = param_count - 1; i >= 0; i--) {
p_lambda->function->parameters.write[i + captures_amount] = p_lambda->function->parameters[i];
p_lambda->function->parameters_indices[p_lambda->function->parameters[i]->identifier->name] = i + captures_amount;
}
// Add captures as extra parameters at the beginning.
for (int i = 0; i < p_lambda->captures.size(); i++) {
GDScriptParser::IdentifierNode *capture = p_lambda->captures[i];
GDScriptParser::ParameterNode *capture_param = parser->alloc_node<GDScriptParser::ParameterNode>();
capture_param->identifier = capture;
capture_param->usages = capture->usages;
capture_param->set_datatype(capture->get_datatype());
p_lambda->function->parameters.write[i] = capture_param;
p_lambda->function->parameters_indices[capture->name] = i;
}
}
lambda_stack.pop_back();
parser->current_function = previous_function;
}
void GDScriptAnalyzer::reduce_literal(GDScriptParser::LiteralNode *p_literal) {
p_literal->reduced_value = p_literal->value;
p_literal->is_constant = true;
p_literal->set_datatype(type_from_variant(p_literal->reduced_value, p_literal));
}
void GDScriptAnalyzer::reduce_preload(GDScriptParser::PreloadNode *p_preload) {
if (!p_preload->path) {
return;
}
reduce_expression(p_preload->path);
if (!p_preload->path->is_constant) {
push_error("Preloaded path must be a constant string.", p_preload->path);
return;
}
if (p_preload->path->reduced_value.get_type() != Variant::STRING) {
push_error("Preloaded path must be a constant string.", p_preload->path);
} else {
p_preload->resolved_path = p_preload->path->reduced_value;
// TODO: Save this as script dependency.
if (p_preload->resolved_path.is_relative_path()) {
p_preload->resolved_path = parser->script_path.get_base_dir().path_join(p_preload->resolved_path);
}
p_preload->resolved_path = p_preload->resolved_path.simplify_path();
if (!ResourceLoader::exists(p_preload->resolved_path)) {
Ref<FileAccess> file_check = FileAccess::create(FileAccess::ACCESS_RESOURCES);
if (file_check->file_exists(p_preload->resolved_path)) {
push_error(vformat(R"(Preload file "%s" has no resource loaders (unrecognized file extension).)", p_preload->resolved_path), p_preload->path);
} else {
push_error(vformat(R"(Preload file "%s" does not exist.)", p_preload->resolved_path), p_preload->path);
}
} else {
// TODO: Don't load if validating: use completion cache.
// Must load GDScript and PackedScenes separately to permit cyclic references
// as ResourceLoader::load() detect and reject those.
if (ResourceLoader::get_resource_type(p_preload->resolved_path) == "GDScript") {
Error err = OK;
Ref<GDScript> res = GDScriptCache::get_shallow_script(p_preload->resolved_path, err, parser->script_path);
p_preload->resource = res;
if (err != OK) {
push_error(vformat(R"(Could not preload resource script "%s".)", p_preload->resolved_path), p_preload->path);
}
} else if (ResourceLoader::get_resource_type(p_preload->resolved_path) == "PackedScene") {
Error err = OK;
Ref<PackedScene> res = GDScriptCache::get_packed_scene(p_preload->resolved_path, err, parser->script_path);
p_preload->resource = res;
if (err != OK) {
push_error(vformat(R"(Could not preload resource scene "%s".)", p_preload->resolved_path), p_preload->path);
}
} else {
p_preload->resource = ResourceLoader::load(p_preload->resolved_path);
if (p_preload->resource.is_null()) {
push_error(vformat(R"(Could not preload resource file "%s".)", p_preload->resolved_path), p_preload->path);
}
}
}
}
p_preload->is_constant = true;
p_preload->reduced_value = p_preload->resource;
p_preload->set_datatype(type_from_variant(p_preload->reduced_value, p_preload));
}
void GDScriptAnalyzer::reduce_self(GDScriptParser::SelfNode *p_self) {
p_self->is_constant = false;
p_self->set_datatype(type_from_metatype(parser->current_class->get_datatype()));
mark_lambda_use_self();
}
void GDScriptAnalyzer::reduce_subscript(GDScriptParser::SubscriptNode *p_subscript) {
if (p_subscript->base == nullptr) {
return;
}
if (p_subscript->base->type == GDScriptParser::Node::IDENTIFIER) {
reduce_identifier(static_cast<GDScriptParser::IdentifierNode *>(p_subscript->base), true);
} else {
reduce_expression(p_subscript->base);
if (p_subscript->base->type == GDScriptParser::Node::ARRAY) {
const_fold_array(static_cast<GDScriptParser::ArrayNode *>(p_subscript->base));
} else if (p_subscript->base->type == GDScriptParser::Node::DICTIONARY) {
const_fold_dictionary(static_cast<GDScriptParser::DictionaryNode *>(p_subscript->base));
}
}
GDScriptParser::DataType result_type;
if (p_subscript->is_attribute) {
if (p_subscript->attribute == nullptr) {
return;
}
if (p_subscript->base->is_constant) {
// Just try to get it.
bool valid = false;
Variant value = p_subscript->base->reduced_value.get_named(p_subscript->attribute->name, valid);
// If it's a GDScript instance, try to get the full script. Maybe it's not still completely loaded.
Ref<GDScript> gdscr = Ref<GDScript>(p_subscript->base->reduced_value);
if (!valid && gdscr.is_valid()) {
Error err = OK;
GDScriptCache::get_full_script(gdscr->get_path(), err);
if (err == OK) {
value = p_subscript->base->reduced_value.get_named(p_subscript->attribute->name, valid);
}
}
if (!valid) {
push_error(vformat(R"(Cannot get member "%s" from "%s".)", p_subscript->attribute->name, p_subscript->base->reduced_value), p_subscript->index);
result_type.kind = GDScriptParser::DataType::VARIANT;
} else {
p_subscript->is_constant = true;
p_subscript->reduced_value = value;
result_type = type_from_variant(value, p_subscript);
}
} else {
GDScriptParser::DataType base_type = p_subscript->base->get_datatype();
if (base_type.is_variant() || !base_type.is_hard_type()) {
result_type.kind = GDScriptParser::DataType::VARIANT;
mark_node_unsafe(p_subscript);
} else {
reduce_identifier_from_base(p_subscript->attribute, &base_type);
GDScriptParser::DataType attr_type = p_subscript->attribute->get_datatype();
if (attr_type.is_set()) {
result_type = attr_type;
p_subscript->is_constant = p_subscript->attribute->is_constant;
p_subscript->reduced_value = p_subscript->attribute->reduced_value;
} else {
if (base_type.kind == GDScriptParser::DataType::BUILTIN) {
push_error(vformat(R"(Cannot find member "%s" in base "%s".)", p_subscript->attribute->name, base_type.to_string()), p_subscript->attribute);
#ifdef DEBUG_ENABLED
} else {
parser->push_warning(p_subscript, GDScriptWarning::UNSAFE_PROPERTY_ACCESS, p_subscript->attribute->name, base_type.to_string());
#endif
}
result_type.kind = GDScriptParser::DataType::VARIANT;
}
}
}
} else {
if (p_subscript->index == nullptr) {
return;
}
reduce_expression(p_subscript->index);
if (p_subscript->base->is_constant && p_subscript->index->is_constant) {
// Just try to get it.
bool valid = false;
Variant value = p_subscript->base->reduced_value.get(p_subscript->index->reduced_value, &valid);
if (!valid) {
push_error(vformat(R"(Cannot get index "%s" from "%s".)", p_subscript->index->reduced_value, p_subscript->base->reduced_value), p_subscript->index);
} else {
p_subscript->is_constant = true;
p_subscript->reduced_value = value;
result_type = type_from_variant(value, p_subscript);
}
result_type.kind = GDScriptParser::DataType::VARIANT;
} else {
GDScriptParser::DataType base_type = p_subscript->base->get_datatype();
GDScriptParser::DataType index_type = p_subscript->index->get_datatype();
if (base_type.is_variant()) {
result_type.kind = GDScriptParser::DataType::VARIANT;
mark_node_unsafe(p_subscript);
} else {
if (base_type.kind == GDScriptParser::DataType::BUILTIN && !index_type.is_variant()) {
// Check if indexing is valid.
bool error = index_type.kind != GDScriptParser::DataType::BUILTIN && base_type.builtin_type != Variant::DICTIONARY;
if (!error) {
switch (base_type.builtin_type) {
// Expect int or real as index.
case Variant::PACKED_BYTE_ARRAY:
case Variant::PACKED_COLOR_ARRAY:
case Variant::PACKED_FLOAT32_ARRAY:
case Variant::PACKED_FLOAT64_ARRAY:
case Variant::PACKED_INT32_ARRAY:
case Variant::PACKED_INT64_ARRAY:
case Variant::PACKED_STRING_ARRAY:
case Variant::PACKED_VECTOR2_ARRAY:
case Variant::PACKED_VECTOR3_ARRAY:
case Variant::ARRAY:
case Variant::STRING:
error = index_type.builtin_type != Variant::INT && index_type.builtin_type != Variant::FLOAT;
break;
// Expect String only.
case Variant::RECT2:
case Variant::RECT2I:
case Variant::PLANE:
case Variant::QUATERNION:
case Variant::AABB:
case Variant::OBJECT:
error = index_type.builtin_type != Variant::STRING;
break;
// Expect String or number.
case Variant::BASIS:
case Variant::VECTOR2:
case Variant::VECTOR2I:
case Variant::VECTOR3:
case Variant::VECTOR3I:
case Variant::VECTOR4:
case Variant::VECTOR4I:
case Variant::TRANSFORM2D:
case Variant::TRANSFORM3D:
case Variant::PROJECTION:
error = index_type.builtin_type != Variant::INT && index_type.builtin_type != Variant::FLOAT &&
index_type.builtin_type != Variant::STRING;
break;
// Expect String or int.
case Variant::COLOR:
error = index_type.builtin_type != Variant::INT && index_type.builtin_type != Variant::STRING;
break;
// Don't support indexing, but we will check it later.
case Variant::RID:
case Variant::BOOL:
case Variant::CALLABLE:
case Variant::FLOAT:
case Variant::INT:
case Variant::NIL:
case Variant::NODE_PATH:
case Variant::SIGNAL:
case Variant::STRING_NAME:
break;
// Here for completeness.
case Variant::DICTIONARY:
case Variant::VARIANT_MAX:
break;
}
if (error) {
push_error(vformat(R"(Invalid index type "%s" for a base of type "%s".)", index_type.to_string(), base_type.to_string()), p_subscript->index);
}
}
} else if (base_type.kind != GDScriptParser::DataType::BUILTIN && !index_type.is_variant()) {
if (index_type.builtin_type != Variant::STRING && index_type.builtin_type != Variant::STRING_NAME) {
push_error(vformat(R"(Only String or StringName can be used as index for type "%s", but received a "%s".)", base_type.to_string(), index_type.to_string()), p_subscript->index);
}
}
// Check resulting type if possible.
result_type.builtin_type = Variant::NIL;
result_type.kind = GDScriptParser::DataType::BUILTIN;
result_type.type_source = base_type.is_hard_type() ? GDScriptParser::DataType::ANNOTATED_INFERRED : GDScriptParser::DataType::INFERRED;
if (base_type.kind != GDScriptParser::DataType::BUILTIN) {
base_type.builtin_type = Variant::OBJECT;
}
switch (base_type.builtin_type) {
// Can't index at all.
case Variant::RID:
case Variant::BOOL:
case Variant::CALLABLE:
case Variant::FLOAT:
case Variant::INT:
case Variant::NIL:
case Variant::NODE_PATH:
case Variant::SIGNAL:
case Variant::STRING_NAME:
result_type.kind = GDScriptParser::DataType::VARIANT;
push_error(vformat(R"(Cannot use subscript operator on a base of type "%s".)", base_type.to_string()), p_subscript->base);
break;
// Return int.
case Variant::PACKED_BYTE_ARRAY:
case Variant::PACKED_INT32_ARRAY:
case Variant::PACKED_INT64_ARRAY:
case Variant::VECTOR2I:
case Variant::VECTOR3I:
case Variant::VECTOR4I:
result_type.builtin_type = Variant::INT;
break;
// Return float.
case Variant::PACKED_FLOAT32_ARRAY:
case Variant::PACKED_FLOAT64_ARRAY:
case Variant::VECTOR2:
case Variant::VECTOR3:
case Variant::VECTOR4:
case Variant::QUATERNION:
result_type.builtin_type = Variant::FLOAT;
break;
// Return Color.
case Variant::PACKED_COLOR_ARRAY:
result_type.builtin_type = Variant::COLOR;
break;
// Return String.
case Variant::PACKED_STRING_ARRAY:
case Variant::STRING:
result_type.builtin_type = Variant::STRING;
break;
// Return Vector2.
case Variant::PACKED_VECTOR2_ARRAY:
case Variant::TRANSFORM2D:
case Variant::RECT2:
result_type.builtin_type = Variant::VECTOR2;
break;
// Return Vector2I.
case Variant::RECT2I:
result_type.builtin_type = Variant::VECTOR2I;
break;
// Return Vector3.
case Variant::PACKED_VECTOR3_ARRAY:
case Variant::AABB:
case Variant::BASIS:
result_type.builtin_type = Variant::VECTOR3;
break;
// Depends on the index.
case Variant::TRANSFORM3D:
case Variant::PROJECTION:
case Variant::PLANE:
case Variant::COLOR:
case Variant::DICTIONARY:
case Variant::OBJECT:
result_type.kind = GDScriptParser::DataType::VARIANT;
result_type.type_source = GDScriptParser::DataType::UNDETECTED;
break;
// Can have an element type.
case Variant::ARRAY:
if (base_type.has_container_element_type()) {
result_type = base_type.get_container_element_type();
result_type.type_source = base_type.type_source;
} else {
result_type.kind = GDScriptParser::DataType::VARIANT;
result_type.type_source = GDScriptParser::DataType::UNDETECTED;
}
break;
// Here for completeness.
case Variant::VARIANT_MAX:
break;
}
}
}
}
p_subscript->set_datatype(result_type);
}
void GDScriptAnalyzer::reduce_ternary_op(GDScriptParser::TernaryOpNode *p_ternary_op) {
reduce_expression(p_ternary_op->condition);
reduce_expression(p_ternary_op->true_expr);
reduce_expression(p_ternary_op->false_expr);
GDScriptParser::DataType result;
if (p_ternary_op->condition && p_ternary_op->condition->is_constant && p_ternary_op->true_expr->is_constant && p_ternary_op->false_expr && p_ternary_op->false_expr->is_constant) {
p_ternary_op->is_constant = true;
if (p_ternary_op->condition->reduced_value.booleanize()) {
p_ternary_op->reduced_value = p_ternary_op->true_expr->reduced_value;
} else {
p_ternary_op->reduced_value = p_ternary_op->false_expr->reduced_value;
}
}
GDScriptParser::DataType true_type;
if (p_ternary_op->true_expr) {
true_type = p_ternary_op->true_expr->get_datatype();
} else {
true_type.kind = GDScriptParser::DataType::VARIANT;
}
GDScriptParser::DataType false_type;
if (p_ternary_op->false_expr) {
false_type = p_ternary_op->false_expr->get_datatype();
} else {
false_type.kind = GDScriptParser::DataType::VARIANT;
}
if (true_type.is_variant() || false_type.is_variant()) {
result.kind = GDScriptParser::DataType::VARIANT;
} else {
result = true_type;
if (!is_type_compatible(true_type, false_type)) {
result = false_type;
if (!is_type_compatible(false_type, true_type)) {
result.type_source = GDScriptParser::DataType::UNDETECTED;
result.kind = GDScriptParser::DataType::VARIANT;
#ifdef DEBUG_ENABLED
parser->push_warning(p_ternary_op, GDScriptWarning::INCOMPATIBLE_TERNARY);
#endif
}
}
}
p_ternary_op->set_datatype(result);
}
void GDScriptAnalyzer::reduce_unary_op(GDScriptParser::UnaryOpNode *p_unary_op) {
reduce_expression(p_unary_op->operand);
GDScriptParser::DataType result;
if (p_unary_op->operand == nullptr) {
result.kind = GDScriptParser::DataType::VARIANT;
p_unary_op->set_datatype(result);
return;
}
if (p_unary_op->operand->is_constant) {
p_unary_op->is_constant = true;
p_unary_op->reduced_value = Variant::evaluate(p_unary_op->variant_op, p_unary_op->operand->reduced_value, Variant());
result = type_from_variant(p_unary_op->reduced_value, p_unary_op);
} else if (p_unary_op->operand->get_datatype().is_variant()) {
result.kind = GDScriptParser::DataType::VARIANT;
mark_node_unsafe(p_unary_op);
} else {
bool valid = false;
result = get_operation_type(p_unary_op->variant_op, p_unary_op->operand->get_datatype(), valid, p_unary_op);
if (!valid) {
push_error(vformat(R"(Invalid operand of type "%s" for unary operator "%s".)", p_unary_op->operand->get_datatype().to_string(), Variant::get_operator_name(p_unary_op->variant_op)), p_unary_op->operand);
}
}
p_unary_op->set_datatype(result);
}
void GDScriptAnalyzer::const_fold_array(GDScriptParser::ArrayNode *p_array) {
bool all_is_constant = true;
for (int i = 0; i < p_array->elements.size(); i++) {
GDScriptParser::ExpressionNode *element = p_array->elements[i];
if (element->type == GDScriptParser::Node::ARRAY) {
const_fold_array(static_cast<GDScriptParser::ArrayNode *>(element));
} else if (element->type == GDScriptParser::Node::DICTIONARY) {
const_fold_dictionary(static_cast<GDScriptParser::DictionaryNode *>(element));
}
all_is_constant = all_is_constant && element->is_constant;
if (!all_is_constant) {
return;
}
}
Array array;
array.resize(p_array->elements.size());
for (int i = 0; i < p_array->elements.size(); i++) {
array[i] = p_array->elements[i]->reduced_value;
}
p_array->is_constant = true;
p_array->reduced_value = array;
}
void GDScriptAnalyzer::const_fold_dictionary(GDScriptParser::DictionaryNode *p_dictionary) {
bool all_is_constant = true;
for (int i = 0; i < p_dictionary->elements.size(); i++) {
const GDScriptParser::DictionaryNode::Pair &element = p_dictionary->elements[i];
if (element.value->type == GDScriptParser::Node::ARRAY) {
const_fold_array(static_cast<GDScriptParser::ArrayNode *>(element.value));
} else if (element.value->type == GDScriptParser::Node::DICTIONARY) {
const_fold_dictionary(static_cast<GDScriptParser::DictionaryNode *>(element.value));
}
all_is_constant = all_is_constant && element.key->is_constant && element.value->is_constant;
if (!all_is_constant) {
return;
}
}
Dictionary dict;
for (int i = 0; i < p_dictionary->elements.size(); i++) {
const GDScriptParser::DictionaryNode::Pair &element = p_dictionary->elements[i];
dict[element.key->reduced_value] = element.value->reduced_value;
}
p_dictionary->is_constant = true;
p_dictionary->reduced_value = dict;
}
GDScriptParser::DataType GDScriptAnalyzer::type_from_variant(const Variant &p_value, const GDScriptParser::Node *p_source) {
GDScriptParser::DataType result;
result.is_constant = true;
result.kind = GDScriptParser::DataType::BUILTIN;
result.builtin_type = p_value.get_type();
result.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT; // Constant has explicit type.
if (p_value.get_type() == Variant::OBJECT) {
Object *obj = p_value;
if (!obj) {
return GDScriptParser::DataType();
}
result.native_type = obj->get_class_name();
Ref<Script> scr = p_value; // Check if value is a script itself.
if (scr.is_valid()) {
result.is_meta_type = true;
} else {
result.is_meta_type = false;
scr = obj->get_script();
}
if (scr.is_valid()) {
result.script_type = scr;
result.script_path = scr->get_path();
Ref<GDScript> gds = scr;
if (gds.is_valid()) {
result.kind = GDScriptParser::DataType::CLASS;
// This might be an inner class, so we want to get the parser for the root.
// But still get the inner class from that tree.
GDScript *current = gds.ptr();
List<StringName> class_chain;
while (current->_owner) {
// Push to front so it's in reverse.
class_chain.push_front(current->name);
current = current->_owner;
}
Ref<GDScriptParserRef> ref = get_parser_for(current->get_path());
if (ref.is_null()) {
push_error("Could not find script in path.", p_source);
GDScriptParser::DataType error_type;
error_type.kind = GDScriptParser::DataType::VARIANT;
return error_type;
}
ref->raise_status(GDScriptParserRef::INTERFACE_SOLVED);
GDScriptParser::ClassNode *found = ref->get_parser()->head;
// It should be okay to assume this exists, since we have a complete script already.
for (const StringName &E : class_chain) {
found = found->get_member(E).m_class;
}
result.class_type = found;
result.script_path = ref->get_parser()->script_path;
} else {
result.kind = GDScriptParser::DataType::SCRIPT;
}
result.native_type = scr->get_instance_base_type();
} else {
result.kind = GDScriptParser::DataType::NATIVE;
if (result.native_type == GDScriptNativeClass::get_class_static()) {
result.is_meta_type = true;
}
}
}
return result;
}
GDScriptParser::DataType GDScriptAnalyzer::type_from_metatype(const GDScriptParser::DataType &p_meta_type) const {
GDScriptParser::DataType result = p_meta_type;
result.is_meta_type = false;
result.is_constant = false;
if (p_meta_type.kind == GDScriptParser::DataType::ENUM) {
result.builtin_type = Variant::INT;
}
return result;
}
GDScriptParser::DataType GDScriptAnalyzer::type_from_property(const PropertyInfo &p_property) const {
GDScriptParser::DataType result;
result.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
if (p_property.type == Variant::NIL && (p_property.usage & PROPERTY_USAGE_NIL_IS_VARIANT)) {
// Variant
result.kind = GDScriptParser::DataType::VARIANT;
return result;
}
result.builtin_type = p_property.type;
if (p_property.type == Variant::OBJECT) {
result.kind = GDScriptParser::DataType::NATIVE;
result.native_type = p_property.class_name == StringName() ? SNAME("Object") : p_property.class_name;
} else {
result.kind = GDScriptParser::DataType::BUILTIN;
result.builtin_type = p_property.type;
if (p_property.type == Variant::ARRAY && p_property.hint == PROPERTY_HINT_ARRAY_TYPE) {
// Check element type.
StringName elem_type_name = p_property.hint_string;
GDScriptParser::DataType elem_type;
elem_type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
Variant::Type elem_builtin_type = GDScriptParser::get_builtin_type(elem_type_name);
if (elem_builtin_type < Variant::VARIANT_MAX) {
// Builtin type.
elem_type.kind = GDScriptParser::DataType::BUILTIN;
elem_type.builtin_type = elem_builtin_type;
} else if (class_exists(elem_type_name)) {
elem_type.kind = GDScriptParser::DataType::NATIVE;
elem_type.builtin_type = Variant::OBJECT;
elem_type.native_type = p_property.hint_string;
} else if (ScriptServer::is_global_class(elem_type_name)) {
// Just load this as it shouldn't be a GDScript.
Ref<Script> script = ResourceLoader::load(ScriptServer::get_global_class_path(elem_type_name));
elem_type.kind = GDScriptParser::DataType::SCRIPT;
elem_type.builtin_type = Variant::OBJECT;
elem_type.native_type = script->get_instance_base_type();
elem_type.script_type = script;
} else {
ERR_FAIL_V_MSG(result, "Could not find element type from property hint of a typed array.");
}
elem_type.is_constant = false;
result.set_container_element_type(elem_type);
}
}
return result;
}
bool GDScriptAnalyzer::get_function_signature(GDScriptParser::Node *p_source, bool p_is_constructor, GDScriptParser::DataType p_base_type, const StringName &p_function, GDScriptParser::DataType &r_return_type, List<GDScriptParser::DataType> &r_par_types, int &r_default_arg_count, bool &r_static, bool &r_vararg) {
r_static = false;
r_vararg = false;
r_default_arg_count = 0;
StringName function_name = p_function;
if (p_base_type.kind == GDScriptParser::DataType::ENUM) {
if (p_base_type.is_meta_type) {
// Enum type can be treated as a dictionary value.
p_base_type.kind = GDScriptParser::DataType::BUILTIN;
p_base_type.builtin_type = Variant::DICTIONARY;
p_base_type.is_meta_type = false;
} else {
push_error("Cannot call function on enum value.", p_source);
return false;
}
}
if (p_base_type.kind == GDScriptParser::DataType::BUILTIN) {
// Construct a base type to get methods.
Callable::CallError err;
Variant dummy;
Variant::construct(p_base_type.builtin_type, dummy, nullptr, 0, err);
if (err.error != Callable::CallError::CALL_OK) {
ERR_FAIL_V_MSG(false, "Could not construct base Variant type.");
}
List<MethodInfo> methods;
dummy.get_method_list(&methods);
for (const MethodInfo &E : methods) {
if (E.name == p_function) {
function_signature_from_info(E, r_return_type, r_par_types, r_default_arg_count, r_static, r_vararg);
r_static = Variant::is_builtin_method_static(p_base_type.builtin_type, function_name);
return true;
}
}
return false;
}
if (p_is_constructor) {
function_name = "_init";
r_static = true;
}
GDScriptParser::ClassNode *base_class = p_base_type.class_type;
GDScriptParser::FunctionNode *found_function = nullptr;
while (found_function == nullptr && base_class != nullptr) {
if (base_class->has_member(function_name)) {
if (base_class->get_member(function_name).type != GDScriptParser::ClassNode::Member::FUNCTION) {
// TODO: If this is Callable it can have a better error message.
push_error(vformat(R"(Member "%s" is not a function.)", function_name), p_source);
return false;
}
found_function = base_class->get_member(function_name).function;
}
base_class = base_class->base_type.class_type;
}
if (found_function != nullptr) {
r_static = p_is_constructor || found_function->is_static;
for (int i = 0; i < found_function->parameters.size(); i++) {
r_par_types.push_back(found_function->parameters[i]->get_datatype());
if (found_function->parameters[i]->default_value != nullptr) {
r_default_arg_count++;
}
}
r_return_type = found_function->get_datatype();
r_return_type.is_meta_type = false;
r_return_type.is_coroutine = found_function->is_coroutine;
return true;
}
Ref<Script> base_script = p_base_type.script_type;
while (base_script.is_valid() && base_script->has_method(function_name)) {
MethodInfo info = base_script->get_method_info(function_name);
if (!(info == MethodInfo())) {
return function_signature_from_info(info, r_return_type, r_par_types, r_default_arg_count, r_static, r_vararg);
}
base_script = base_script->get_base_script();
}
// If the base is a script, it might be trying to access members of the Script class itself.
if (p_base_type.is_meta_type && !p_is_constructor && (p_base_type.kind == GDScriptParser::DataType::SCRIPT || p_base_type.kind == GDScriptParser::DataType::CLASS)) {
MethodInfo info;
StringName script_class = p_base_type.kind == GDScriptParser::DataType::SCRIPT ? p_base_type.script_type->get_class_name() : StringName(GDScript::get_class_static());
if (ClassDB::get_method_info(script_class, function_name, &info)) {
return function_signature_from_info(info, r_return_type, r_par_types, r_default_arg_count, r_static, r_vararg);
}
}
StringName base_native = p_base_type.native_type;
#ifdef DEBUG_ENABLED
if (base_native != StringName()) {
// Empty native class might happen in some Script implementations.
// Just ignore it.
if (!class_exists(base_native)) {
ERR_FAIL_V_MSG(false, vformat("Native class %s used in script doesn't exist or isn't exposed.", base_native));
}
}
#endif
if (p_is_constructor) {
// Native types always have a default constructor.
r_return_type = p_base_type;
r_return_type.type_source = GDScriptParser::DataType::ANNOTATED_EXPLICIT;
r_return_type.is_meta_type = false;
return true;
}
MethodInfo info;
if (ClassDB::get_method_info(base_native, function_name, &info)) {
bool valid = function_signature_from_info(info, r_return_type, r_par_types, r_default_arg_count, r_static, r_vararg);
if (valid && Engine::get_singleton()->has_singleton(base_native)) {
r_static = true;
}
return valid;
}
return false;
}
bool GDScriptAnalyzer::function_signature_from_info(const MethodInfo &p_info, GDScriptParser::DataType &r_return_type, List<GDScriptParser::DataType> &r_par_types, int &r_default_arg_count, bool &r_static, bool &r_vararg) {
r_return_type = type_from_property(p_info.return_val);
r_default_arg_count = p_info.default_arguments.size();
r_vararg = (p_info.flags & METHOD_FLAG_VARARG) != 0;
r_static = (p_info.flags & METHOD_FLAG_STATIC) != 0;
for (const PropertyInfo &E : p_info.arguments) {
r_par_types.push_back(type_from_property(E));
}
return true;
}
bool GDScriptAnalyzer::validate_call_arg(const MethodInfo &p_method, const GDScriptParser::CallNode *p_call) {
List<GDScriptParser::DataType> arg_types;
for (const PropertyInfo &E : p_method.arguments) {
arg_types.push_back(type_from_property(E));
}
return validate_call_arg(arg_types, p_method.default_arguments.size(), (p_method.flags & METHOD_FLAG_VARARG) != 0, p_call);
}
bool GDScriptAnalyzer::validate_call_arg(const List<GDScriptParser::DataType> &p_par_types, int p_default_args_count, bool p_is_vararg, const GDScriptParser::CallNode *p_call) {
bool valid = true;
if (p_call->arguments.size() < p_par_types.size() - p_default_args_count) {
push_error(vformat(R"*(Too few arguments for "%s()" call. Expected at least %d but received %d.)*", p_call->function_name, p_par_types.size() - p_default_args_count, p_call->arguments.size()), p_call);
valid = false;
}
if (!p_is_vararg && p_call->arguments.size() > p_par_types.size()) {
push_error(vformat(R"*(Too many arguments for "%s()" call. Expected at most %d but received %d.)*", p_call->function_name, p_par_types.size(), p_call->arguments.size()), p_call->arguments[p_par_types.size()]);
valid = false;
}
for (int i = 0; i < p_call->arguments.size(); i++) {
if (i >= p_par_types.size()) {
// Already on vararg place.
break;
}
GDScriptParser::DataType par_type = p_par_types[i];
GDScriptParser::DataType arg_type = p_call->arguments[i]->get_datatype();
if (arg_type.is_variant()) {
// Argument can be anything, so this is unsafe.
mark_node_unsafe(p_call->arguments[i]);
} else if (par_type.is_hard_type() && !is_type_compatible(par_type, arg_type, true)) {
// Supertypes are acceptable for dynamic compliance, but it's unsafe.
mark_node_unsafe(p_call);
if (!is_type_compatible(arg_type, par_type)) {
push_error(vformat(R"*(Invalid argument for "%s()" function: argument %d should be %s but is %s.)*",
p_call->function_name, i + 1, par_type.to_string(), arg_type.to_string()),
p_call->arguments[i]);
valid = false;
}
#ifdef DEBUG_ENABLED
} else {
if (par_type.kind == GDScriptParser::DataType::BUILTIN && par_type.builtin_type == Variant::INT && arg_type.kind == GDScriptParser::DataType::BUILTIN && arg_type.builtin_type == Variant::FLOAT) {
parser->push_warning(p_call, GDScriptWarning::NARROWING_CONVERSION, p_call->function_name);
}
#endif
}
}
return valid;
}
#ifdef DEBUG_ENABLED
bool GDScriptAnalyzer::is_shadowing(GDScriptParser::IdentifierNode *p_local, const String &p_context) {
const StringName &name = p_local->name;
GDScriptParser::DataType base = parser->current_class->get_datatype();
GDScriptParser::ClassNode *base_class = base.class_type;
{
List<MethodInfo> gdscript_funcs;
GDScriptLanguage::get_singleton()->get_public_functions(&gdscript_funcs);
for (MethodInfo &info : gdscript_funcs) {
if (info.name == name) {
parser->push_warning(p_local, GDScriptWarning::SHADOWED_GLOBAL_IDENTIFIER, p_context, name, "built-in function");
return true;
}
}
if (Variant::has_utility_function(name)) {
parser->push_warning(p_local, GDScriptWarning::SHADOWED_GLOBAL_IDENTIFIER, p_context, name, "built-in function");
return true;
} else if (ClassDB::class_exists(name)) {
parser->push_warning(p_local, GDScriptWarning::SHADOWED_GLOBAL_IDENTIFIER, p_context, name, "global class");
return true;
}
}
while (base_class != nullptr) {
if (base_class->has_member(name)) {
parser->push_warning(p_local, GDScriptWarning::SHADOWED_VARIABLE, p_context, p_local->name, base_class->get_member(name).get_type_name(), itos(base_class->get_member(name).get_line()));
return true;
}
base_class = base_class->base_type.class_type;
}
StringName base_native = base.native_type;
ERR_FAIL_COND_V_MSG(!class_exists(base_native), false, "Non-existent native base class.");
StringName parent = base_native;
while (parent != StringName()) {
if (ClassDB::has_method(parent, name, true)) {
parser->push_warning(p_local, GDScriptWarning::SHADOWED_VARIABLE_BASE_CLASS, p_context, p_local->name, "method", parent);
return true;
} else if (ClassDB::has_signal(parent, name, true)) {
parser->push_warning(p_local, GDScriptWarning::SHADOWED_VARIABLE_BASE_CLASS, p_context, p_local->name, "signal", parent);
return true;
} else if (ClassDB::has_property(parent, name, true)) {
parser->push_warning(p_local, GDScriptWarning::SHADOWED_VARIABLE_BASE_CLASS, p_context, p_local->name, "property", parent);
return true;
} else if (ClassDB::has_integer_constant(parent, name, true)) {
parser->push_warning(p_local, GDScriptWarning::SHADOWED_VARIABLE_BASE_CLASS, p_context, p_local->name, "constant", parent);
return true;
} else if (ClassDB::has_enum(parent, name, true)) {
parser->push_warning(p_local, GDScriptWarning::SHADOWED_VARIABLE_BASE_CLASS, p_context, p_local->name, "enum", parent);
return true;
}
parent = ClassDB::get_parent_class(parent);
}
return false;
}
#endif
GDScriptParser::DataType GDScriptAnalyzer::get_operation_type(Variant::Operator p_operation, const GDScriptParser::DataType &p_a, bool &r_valid, const GDScriptParser::Node *p_source) {
// Unary version.
GDScriptParser::DataType nil_type;
nil_type.builtin_type = Variant::NIL;
nil_type.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
return get_operation_type(p_operation, p_a, nil_type, r_valid, p_source);
}
GDScriptParser::DataType GDScriptAnalyzer::get_operation_type(Variant::Operator p_operation, const GDScriptParser::DataType &p_a, const GDScriptParser::DataType &p_b, bool &r_valid, const GDScriptParser::Node *p_source) {
GDScriptParser::DataType result;
result.kind = GDScriptParser::DataType::VARIANT;
Variant::Type a_type = p_a.builtin_type;
Variant::Type b_type = p_b.builtin_type;
if (p_a.kind == GDScriptParser::DataType::ENUM) {
if (p_a.is_meta_type) {
a_type = Variant::DICTIONARY;
} else {
a_type = Variant::INT;
}
}
if (p_b.kind == GDScriptParser::DataType::ENUM) {
if (p_b.is_meta_type) {
b_type = Variant::DICTIONARY;
} else {
b_type = Variant::INT;
}
}
Variant::ValidatedOperatorEvaluator op_eval = Variant::get_validated_operator_evaluator(p_operation, a_type, b_type);
bool hard_operation = p_a.is_hard_type() && p_b.is_hard_type();
bool validated = op_eval != nullptr;
if (hard_operation && !validated) {
r_valid = false;
return result;
} else if (hard_operation && validated) {
r_valid = true;
result.type_source = GDScriptParser::DataType::ANNOTATED_INFERRED;
result.kind = GDScriptParser::DataType::BUILTIN;
result.builtin_type = Variant::get_operator_return_type(p_operation, a_type, b_type);
} else if (!hard_operation && !validated) {
r_valid = true;
result.type_source = GDScriptParser::DataType::UNDETECTED;
result.kind = GDScriptParser::DataType::VARIANT;
result.builtin_type = Variant::NIL;
} else if (!hard_operation && validated) {
r_valid = true;
result.type_source = GDScriptParser::DataType::INFERRED;
result.kind = GDScriptParser::DataType::BUILTIN;
result.builtin_type = Variant::get_operator_return_type(p_operation, a_type, b_type);
}
return result;
}
// TODO: Add safe/unsafe return variable (for variant cases)
bool GDScriptAnalyzer::is_type_compatible(const GDScriptParser::DataType &p_target, const GDScriptParser::DataType &p_source, bool p_allow_implicit_conversion, const GDScriptParser::Node *p_source_node) {
// These return "true" so it doesn't affect users negatively.
ERR_FAIL_COND_V_MSG(!p_target.is_set(), true, "Parser bug (please report): Trying to check compatibility of unset target type");
ERR_FAIL_COND_V_MSG(!p_source.is_set(), true, "Parser bug (please report): Trying to check compatibility of unset value type");
if (p_target.kind == GDScriptParser::DataType::VARIANT) {
// Variant can receive anything.
return true;
}
if (p_source.kind == GDScriptParser::DataType::VARIANT) {
// TODO: This is acceptable but unsafe. Make sure unsafe line is set.
return true;
}
if (p_target.kind == GDScriptParser::DataType::BUILTIN) {
bool valid = p_source.kind == GDScriptParser::DataType::BUILTIN && p_target.builtin_type == p_source.builtin_type;
if (!valid && p_allow_implicit_conversion) {
valid = Variant::can_convert_strict(p_source.builtin_type, p_target.builtin_type);
}
if (!valid && p_target.builtin_type == Variant::INT && p_source.kind == GDScriptParser::DataType::ENUM && !p_source.is_meta_type) {
// Enum value is also integer.
valid = true;
}
if (valid && p_target.builtin_type == Variant::ARRAY && p_source.builtin_type == Variant::ARRAY) {
// Check the element type.
if (p_target.has_container_element_type()) {
if (!p_source.has_container_element_type()) {
// TODO: Maybe this is valid but unsafe?
// Variant array can't be appended to typed array.
valid = false;
} else {
valid = is_type_compatible(p_target.get_container_element_type(), p_source.get_container_element_type(), false);
}
}
}
return valid;
}
if (p_target.kind == GDScriptParser::DataType::ENUM) {
if (p_source.kind == GDScriptParser::DataType::BUILTIN && p_source.builtin_type == Variant::INT) {
#ifdef DEBUG_ENABLED
if (p_source_node) {
parser->push_warning(p_source_node, GDScriptWarning::INT_ASSIGNED_TO_ENUM);
}
#endif
return true;
}
if (p_source.kind == GDScriptParser::DataType::ENUM) {
if (p_source.native_type == p_target.native_type) {
return true;
}
}
return false;
}
// From here on the target type is an object, so we have to test polymorphism.
if (p_source.kind == GDScriptParser::DataType::BUILTIN && p_source.builtin_type == Variant::NIL) {
// null is acceptable in object.
return true;
}
StringName src_native;
Ref<Script> src_script;
const GDScriptParser::ClassNode *src_class = nullptr;
switch (p_source.kind) {
case GDScriptParser::DataType::NATIVE:
if (p_target.kind != GDScriptParser::DataType::NATIVE) {
// Non-native class cannot be supertype of native.
return false;
}
if (p_source.is_meta_type) {
src_native = GDScriptNativeClass::get_class_static();
} else {
src_native = p_source.native_type;
}
break;
case GDScriptParser::DataType::SCRIPT:
if (p_target.kind == GDScriptParser::DataType::CLASS) {
// A script type cannot be a subtype of a GDScript class.
return false;
}
if (p_source.is_meta_type) {
src_native = p_source.script_type->get_class_name();
} else {
src_script = p_source.script_type;
src_native = src_script->get_instance_base_type();
}
break;
case GDScriptParser::DataType::CLASS:
if (p_source.is_meta_type) {
src_native = GDScript::get_class_static();
} else {
src_class = p_source.class_type;
const GDScriptParser::ClassNode *base = src_class;
while (base->base_type.kind == GDScriptParser::DataType::CLASS) {
base = base->base_type.class_type;
}
src_native = base->base_type.native_type;
src_script = base->base_type.script_type;
}
break;
case GDScriptParser::DataType::VARIANT:
case GDScriptParser::DataType::BUILTIN:
case GDScriptParser::DataType::ENUM:
case GDScriptParser::DataType::UNRESOLVED:
break; // Already solved before.
}
switch (p_target.kind) {
case GDScriptParser::DataType::NATIVE: {
if (p_target.is_meta_type) {
return ClassDB::is_parent_class(src_native, GDScriptNativeClass::get_class_static());
}
return ClassDB::is_parent_class(src_native, p_target.native_type);
}
case GDScriptParser::DataType::SCRIPT:
if (p_target.is_meta_type) {
return ClassDB::is_parent_class(src_native, p_target.script_type->get_class_name());
}
while (src_script.is_valid()) {
if (src_script == p_target.script_type) {
return true;
}
src_script = src_script->get_base_script();
}
return false;
case GDScriptParser::DataType::CLASS:
if (p_target.is_meta_type) {
return ClassDB::is_parent_class(src_native, GDScript::get_class_static());
}
while (src_class != nullptr) {
if (src_class->fqcn == p_target.class_type->fqcn) {
return true;
}
src_class = src_class->base_type.class_type;
}
return false;
case GDScriptParser::DataType::VARIANT:
case GDScriptParser::DataType::BUILTIN:
case GDScriptParser::DataType::ENUM:
case GDScriptParser::DataType::UNRESOLVED:
break; // Already solved before.
}
return false;
}
void GDScriptAnalyzer::push_error(const String &p_message, const GDScriptParser::Node *p_origin) {
mark_node_unsafe(p_origin);
parser->push_error(p_message, p_origin);
}
void GDScriptAnalyzer::mark_node_unsafe(const GDScriptParser::Node *p_node) {
#ifdef DEBUG_ENABLED
for (int i = p_node->start_line; i <= p_node->end_line; i++) {
parser->unsafe_lines.insert(i);
}
#endif
}
void GDScriptAnalyzer::mark_lambda_use_self() {
for (GDScriptParser::LambdaNode *lambda : lambda_stack) {
lambda->use_self = true;
}
}
bool GDScriptAnalyzer::class_exists(const StringName &p_class) const {
return ClassDB::class_exists(p_class) && ClassDB::is_class_exposed(p_class);
}
Ref<GDScriptParserRef> GDScriptAnalyzer::get_parser_for(const String &p_path) {
Ref<GDScriptParserRef> ref;
if (depended_parsers.has(p_path)) {
ref = depended_parsers[p_path];
} else {
Error err = OK;
ref = GDScriptCache::get_parser(p_path, GDScriptParserRef::EMPTY, err, parser->script_path);
if (ref.is_valid()) {
depended_parsers[p_path] = ref;
}
}
return ref;
}
Error GDScriptAnalyzer::resolve_inheritance() {
return resolve_inheritance(parser->head);
}
Error GDScriptAnalyzer::resolve_interface() {
resolve_class_interface(parser->head);
return parser->errors.is_empty() ? OK : ERR_PARSE_ERROR;
}
Error GDScriptAnalyzer::resolve_body() {
resolve_class_body(parser->head);
return parser->errors.is_empty() ? OK : ERR_PARSE_ERROR;
}
Error GDScriptAnalyzer::resolve_program() {
resolve_class_interface(parser->head);
resolve_class_body(parser->head);
for (KeyValue<String, Ref<GDScriptParserRef>> &K : depended_parsers) {
if (K.value.is_null()) {
return ERR_PARSE_ERROR;
}
K.value->raise_status(GDScriptParserRef::FULLY_SOLVED);
}
return parser->errors.is_empty() ? OK : ERR_PARSE_ERROR;
}
Error GDScriptAnalyzer::analyze() {
parser->errors.clear();
Error err = resolve_inheritance(parser->head);
if (err) {
return err;
}
return resolve_program();
}
GDScriptAnalyzer::GDScriptAnalyzer(GDScriptParser *p_parser) {
parser = p_parser;
}
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