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godot/modules/gdscript/gdscript_compiler.cpp
George Marques 3d13588057
GDScript: Fix loading of interdependent autoloads 
Move the autoload resolution to runtime by loading it into the stack
with an extra instruction. This allows an autoload to use another
autoload singleton independent of load order.
2021-09-01 16:06:30 -03:00

2658 lines
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/*************************************************************************/
/* gdscript_compiler.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2021 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_compiler.h"
#include "gdscript.h"
#include "gdscript_byte_codegen.h"
#include "gdscript_cache.h"
#include "gdscript_utility_functions.h"
#include "core/config/project_settings.h"
bool GDScriptCompiler::_is_class_member_property(CodeGen &codegen, const StringName &p_name) {
if (codegen.function_node && codegen.function_node->is_static) {
return false;
}
if (codegen.locals.has(p_name)) {
return false; //shadowed
}
return _is_class_member_property(codegen.script, p_name);
}
bool GDScriptCompiler::_is_class_member_property(GDScript *owner, const StringName &p_name) {
GDScript *scr = owner;
GDScriptNativeClass *nc = nullptr;
while (scr) {
if (scr->native.is_valid()) {
nc = scr->native.ptr();
}
scr = scr->_base;
}
ERR_FAIL_COND_V(!nc, false);
return ClassDB::has_property(nc->get_name(), p_name);
}
void GDScriptCompiler::_set_error(const String &p_error, const GDScriptParser::Node *p_node) {
if (error != "") {
return;
}
error = p_error;
if (p_node) {
err_line = p_node->start_line;
err_column = p_node->leftmost_column;
} else {
err_line = 0;
err_column = 0;
}
}
GDScriptDataType GDScriptCompiler::_gdtype_from_datatype(const GDScriptParser::DataType &p_datatype, GDScript *p_owner) const {
if (!p_datatype.is_set() || !p_datatype.is_hard_type()) {
return GDScriptDataType();
}
GDScriptDataType result;
result.has_type = true;
switch (p_datatype.kind) {
case GDScriptParser::DataType::VARIANT: {
result.has_type = false;
} break;
case GDScriptParser::DataType::BUILTIN: {
result.kind = GDScriptDataType::BUILTIN;
result.builtin_type = p_datatype.builtin_type;
} break;
case GDScriptParser::DataType::NATIVE: {
result.kind = GDScriptDataType::NATIVE;
result.native_type = p_datatype.native_type;
} break;
case GDScriptParser::DataType::SCRIPT: {
result.kind = GDScriptDataType::SCRIPT;
result.script_type_ref = Ref<Script>(p_datatype.script_type);
result.script_type = result.script_type_ref.ptr();
result.native_type = result.script_type->get_instance_base_type();
} break;
case GDScriptParser::DataType::CLASS: {
// Locate class by constructing the path to it and following that path
GDScriptParser::ClassNode *class_type = p_datatype.class_type;
if (class_type) {
if ((!main_script->path.is_empty() && class_type->fqcn.begins_with(main_script->path)) || (!main_script->name.is_empty() && class_type->fqcn.begins_with(main_script->name))) {
// Local class.
List<StringName> names;
while (class_type->outer) {
names.push_back(class_type->identifier->name);
class_type = class_type->outer;
}
Ref<GDScript> script = Ref<GDScript>(main_script);
while (names.back()) {
if (!script->subclasses.has(names.back()->get())) {
ERR_PRINT("Parser bug: Cannot locate datatype class.");
result.has_type = false;
return GDScriptDataType();
}
script = script->subclasses[names.back()->get()];
names.pop_back();
}
result.kind = GDScriptDataType::GDSCRIPT;
result.script_type = script.ptr();
result.native_type = script->get_instance_base_type();
} else {
result.kind = GDScriptDataType::GDSCRIPT;
result.script_type_ref = GDScriptCache::get_shallow_script(p_datatype.script_path, main_script->path);
result.script_type = result.script_type_ref.ptr();
result.native_type = p_datatype.native_type;
}
}
} break;
case GDScriptParser::DataType::ENUM:
case GDScriptParser::DataType::ENUM_VALUE:
result.has_type = true;
result.kind = GDScriptDataType::BUILTIN;
result.builtin_type = Variant::INT;
break;
case GDScriptParser::DataType::UNRESOLVED: {
ERR_PRINT("Parser bug: converting unresolved type.");
return GDScriptDataType();
}
}
if (p_datatype.has_container_element_type()) {
result.set_container_element_type(_gdtype_from_datatype(p_datatype.get_container_element_type()));
}
// Only hold strong reference to the script if it's not the owner of the
// element qualified with this type, to avoid cyclic references (leaks).
if (result.script_type && result.script_type == p_owner) {
result.script_type_ref = Ref<Script>();
}
return result;
}
static bool _is_exact_type(const PropertyInfo &p_par_type, const GDScriptDataType &p_arg_type) {
if (!p_arg_type.has_type) {
return false;
}
if (p_par_type.type == Variant::NIL) {
return false;
}
if (p_par_type.type == Variant::OBJECT) {
if (p_arg_type.kind == GDScriptDataType::BUILTIN) {
return false;
}
StringName class_name;
if (p_arg_type.kind == GDScriptDataType::NATIVE) {
class_name = p_arg_type.native_type;
} else {
class_name = p_arg_type.native_type == StringName() ? p_arg_type.script_type->get_instance_base_type() : p_arg_type.native_type;
}
return p_par_type.class_name == class_name || ClassDB::is_parent_class(class_name, p_par_type.class_name);
} else {
if (p_arg_type.kind != GDScriptDataType::BUILTIN) {
return false;
}
return p_par_type.type == p_arg_type.builtin_type;
}
}
static bool _have_exact_arguments(const MethodBind *p_method, const Vector<GDScriptCodeGenerator::Address> &p_arguments) {
if (p_method->get_argument_count() != p_arguments.size()) {
// ptrcall won't work with default arguments.
return false;
}
MethodInfo info;
ClassDB::get_method_info(p_method->get_instance_class(), p_method->get_name(), &info);
for (int i = 0; i < p_arguments.size(); i++) {
const PropertyInfo &prop = info.arguments[i];
if (!_is_exact_type(prop, p_arguments[i].type)) {
return false;
}
}
return true;
}
GDScriptCodeGenerator::Address GDScriptCompiler::_parse_expression(CodeGen &codegen, Error &r_error, const GDScriptParser::ExpressionNode *p_expression, bool p_root, bool p_initializer, const GDScriptCodeGenerator::Address &p_index_addr) {
if (p_expression->is_constant) {
return codegen.add_constant(p_expression->reduced_value);
}
GDScriptCodeGenerator *gen = codegen.generator;
switch (p_expression->type) {
case GDScriptParser::Node::IDENTIFIER: {
// Look for identifiers in current scope.
const GDScriptParser::IdentifierNode *in = static_cast<const GDScriptParser::IdentifierNode *>(p_expression);
StringName identifier = in->name;
// Try function parameters.
if (codegen.parameters.has(identifier)) {
return codegen.parameters[identifier];
}
// Try local variables and constants.
if (!p_initializer && codegen.locals.has(identifier)) {
return codegen.locals[identifier];
}
// Try class members.
if (_is_class_member_property(codegen, identifier)) {
// Get property.
GDScriptCodeGenerator::Address temp = codegen.add_temporary(); // TODO: Could get the type of the class member here.
gen->write_get_member(temp, identifier);
return temp;
}
// Try members.
if (!codegen.function_node || !codegen.function_node->is_static) {
// Try member variables.
if (codegen.script->member_indices.has(identifier)) {
if (codegen.script->member_indices[identifier].getter != StringName() && codegen.script->member_indices[identifier].getter != codegen.function_name) {
// Perform getter.
GDScriptCodeGenerator::Address temp = codegen.add_temporary();
Vector<GDScriptCodeGenerator::Address> args; // No argument needed.
gen->write_call_self(temp, codegen.script->member_indices[identifier].getter, args);
return temp;
} else {
// No getter or inside getter: direct member access.,
int idx = codegen.script->member_indices[identifier].index;
return GDScriptCodeGenerator::Address(GDScriptCodeGenerator::Address::MEMBER, idx, codegen.script->get_member_type(identifier));
}
}
}
// Try class constants.
{
GDScript *owner = codegen.script;
while (owner) {
GDScript *scr = owner;
GDScriptNativeClass *nc = nullptr;
while (scr) {
if (scr->constants.has(identifier)) {
return codegen.add_constant(scr->constants[identifier]); // TODO: Get type here.
}
if (scr->native.is_valid()) {
nc = scr->native.ptr();
}
scr = scr->_base;
}
// Class C++ integer constant.
if (nc) {
bool success = false;
int constant = ClassDB::get_integer_constant(nc->get_name(), identifier, &success);
if (success) {
return codegen.add_constant(constant);
}
}
owner = owner->_owner;
}
}
// Try signals and methods (can be made callables).
{
if (codegen.class_node->members_indices.has(identifier)) {
const GDScriptParser::ClassNode::Member &member = codegen.class_node->members[codegen.class_node->members_indices[identifier]];
if (member.type == GDScriptParser::ClassNode::Member::FUNCTION || member.type == GDScriptParser::ClassNode::Member::SIGNAL) {
// Get like it was a property.
GDScriptCodeGenerator::Address temp = codegen.add_temporary(); // TODO: Get type here.
GDScriptCodeGenerator::Address self(GDScriptCodeGenerator::Address::SELF);
gen->write_get_named(temp, identifier, self);
return temp;
}
}
// Try in native base.
GDScript *scr = codegen.script;
GDScriptNativeClass *nc = nullptr;
while (scr) {
if (scr->native.is_valid()) {
nc = scr->native.ptr();
}
scr = scr->_base;
}
if (nc && (ClassDB::has_signal(nc->get_name(), identifier) || ClassDB::has_method(nc->get_name(), identifier))) {
// Get like it was a property.
GDScriptCodeGenerator::Address temp = codegen.add_temporary(); // TODO: Get type here.
GDScriptCodeGenerator::Address self(GDScriptCodeGenerator::Address::SELF);
gen->write_get_named(temp, identifier, self);
return temp;
}
}
// Try globals.
if (GDScriptLanguage::get_singleton()->get_global_map().has(identifier)) {
// If it's an autoload singleton, we postpone to load it at runtime.
// This is so one autoload doesn't try to load another before it's compiled.
OrderedHashMap<StringName, ProjectSettings::AutoloadInfo> autoloads = ProjectSettings::get_singleton()->get_autoload_list();
if (autoloads.has(identifier) && autoloads[identifier].is_singleton) {
GDScriptCodeGenerator::Address global = codegen.add_temporary(_gdtype_from_datatype(in->get_datatype()));
int idx = GDScriptLanguage::get_singleton()->get_global_map()[identifier];
gen->write_store_global(global, idx);
return global;
} else {
int idx = GDScriptLanguage::get_singleton()->get_global_map()[identifier];
Variant global = GDScriptLanguage::get_singleton()->get_global_array()[idx];
return codegen.add_constant(global);
}
}
// Try global classes.
if (ScriptServer::is_global_class(identifier)) {
const GDScriptParser::ClassNode *class_node = codegen.class_node;
while (class_node->outer) {
class_node = class_node->outer;
}
RES res;
if (class_node->identifier && class_node->identifier->name == identifier) {
res = Ref<GDScript>(main_script);
} else {
res = ResourceLoader::load(ScriptServer::get_global_class_path(identifier));
if (res.is_null()) {
_set_error("Can't load global class " + String(identifier) + ", cyclic reference?", p_expression);
r_error = ERR_COMPILATION_FAILED;
return GDScriptCodeGenerator::Address();
}
}
return codegen.add_constant(res);
}
#ifdef TOOLS_ENABLED
if (GDScriptLanguage::get_singleton()->get_named_globals_map().has(identifier)) {
GDScriptCodeGenerator::Address global = codegen.add_temporary(); // TODO: Get type.
gen->write_store_named_global(global, identifier);
return global;
}
#endif
// Not found, error.
_set_error("Identifier not found: " + String(identifier), p_expression);
r_error = ERR_COMPILATION_FAILED;
return GDScriptCodeGenerator::Address();
} break;
case GDScriptParser::Node::LITERAL: {
// Return constant.
const GDScriptParser::LiteralNode *cn = static_cast<const GDScriptParser::LiteralNode *>(p_expression);
return codegen.add_constant(cn->value);
} break;
case GDScriptParser::Node::SELF: {
//return constant
if (codegen.function_node && codegen.function_node->is_static) {
_set_error("'self' not present in static function!", p_expression);
r_error = ERR_COMPILATION_FAILED;
return GDScriptCodeGenerator::Address();
}
return GDScriptCodeGenerator::Address(GDScriptCodeGenerator::Address::SELF);
} break;
case GDScriptParser::Node::ARRAY: {
const GDScriptParser::ArrayNode *an = static_cast<const GDScriptParser::ArrayNode *>(p_expression);
Vector<GDScriptCodeGenerator::Address> values;
// Create the result temporary first since it's the last to be killed.
GDScriptDataType array_type = _gdtype_from_datatype(an->get_datatype());
GDScriptCodeGenerator::Address result = codegen.add_temporary(array_type);
for (int i = 0; i < an->elements.size(); i++) {
GDScriptCodeGenerator::Address val = _parse_expression(codegen, r_error, an->elements[i]);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
values.push_back(val);
}
if (array_type.has_container_element_type()) {
gen->write_construct_typed_array(result, array_type.get_container_element_type(), values);
} else {
gen->write_construct_array(result, values);
}
for (int i = 0; i < values.size(); i++) {
if (values[i].mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
}
return result;
} break;
case GDScriptParser::Node::DICTIONARY: {
const GDScriptParser::DictionaryNode *dn = static_cast<const GDScriptParser::DictionaryNode *>(p_expression);
Vector<GDScriptCodeGenerator::Address> elements;
// Create the result temporary first since it's the last to be killed.
GDScriptDataType dict_type;
dict_type.has_type = true;
dict_type.kind = GDScriptDataType::BUILTIN;
dict_type.builtin_type = Variant::DICTIONARY;
GDScriptCodeGenerator::Address result = codegen.add_temporary(dict_type);
for (int i = 0; i < dn->elements.size(); i++) {
// Key.
GDScriptCodeGenerator::Address element;
switch (dn->style) {
case GDScriptParser::DictionaryNode::PYTHON_DICT:
// Python-style: key is any expression.
element = _parse_expression(codegen, r_error, dn->elements[i].key);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
break;
case GDScriptParser::DictionaryNode::LUA_TABLE:
// Lua-style: key is an identifier interpreted as StringName.
StringName key = static_cast<const GDScriptParser::IdentifierNode *>(dn->elements[i].key)->name;
element = codegen.add_constant(key);
break;
}
elements.push_back(element);
element = _parse_expression(codegen, r_error, dn->elements[i].value);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
elements.push_back(element);
}
gen->write_construct_dictionary(result, elements);
for (int i = 0; i < elements.size(); i++) {
if (elements[i].mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
}
return result;
} break;
case GDScriptParser::Node::CAST: {
const GDScriptParser::CastNode *cn = static_cast<const GDScriptParser::CastNode *>(p_expression);
GDScriptDataType cast_type = _gdtype_from_datatype(cn->cast_type->get_datatype());
// Create temporary for result first since it will be deleted last.
GDScriptCodeGenerator::Address result = codegen.add_temporary(cast_type);
GDScriptCodeGenerator::Address source = _parse_expression(codegen, r_error, cn->operand);
gen->write_cast(result, source, cast_type);
if (source.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
return result;
} break;
case GDScriptParser::Node::CALL: {
const GDScriptParser::CallNode *call = static_cast<const GDScriptParser::CallNode *>(p_expression);
GDScriptDataType type = _gdtype_from_datatype(call->get_datatype());
GDScriptCodeGenerator::Address result = codegen.add_temporary(type);
Vector<GDScriptCodeGenerator::Address> arguments;
for (int i = 0; i < call->arguments.size(); i++) {
GDScriptCodeGenerator::Address arg = _parse_expression(codegen, r_error, call->arguments[i]);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
arguments.push_back(arg);
}
if (!call->is_super && call->callee->type == GDScriptParser::Node::IDENTIFIER && GDScriptParser::get_builtin_type(call->function_name) != Variant::VARIANT_MAX) {
// Construct a built-in type.
Variant::Type vtype = GDScriptParser::get_builtin_type(static_cast<GDScriptParser::IdentifierNode *>(call->callee)->name);
gen->write_construct(result, vtype, arguments);
} else if (!call->is_super && call->callee->type == GDScriptParser::Node::IDENTIFIER && Variant::has_utility_function(call->function_name)) {
// Variant utility function.
gen->write_call_utility(result, call->function_name, arguments);
} else if (!call->is_super && call->callee->type == GDScriptParser::Node::IDENTIFIER && GDScriptUtilityFunctions::function_exists(call->function_name)) {
// GDScript utility function.
gen->write_call_gdscript_utility(result, GDScriptUtilityFunctions::get_function(call->function_name), arguments);
} else {
// Regular function.
const GDScriptParser::ExpressionNode *callee = call->callee;
if (call->is_super) {
// Super call.
gen->write_super_call(result, call->function_name, arguments);
} else {
if (callee->type == GDScriptParser::Node::IDENTIFIER) {
// Self function call.
if (ClassDB::has_method(codegen.script->native->get_name(), call->function_name)) {
// Native method, use faster path.
GDScriptCodeGenerator::Address self;
self.mode = GDScriptCodeGenerator::Address::SELF;
MethodBind *method = ClassDB::get_method(codegen.script->native->get_name(), call->function_name);
if (_have_exact_arguments(method, arguments)) {
// Exact arguments, use ptrcall.
gen->write_call_ptrcall(result, self, method, arguments);
} else {
// Not exact arguments, but still can use method bind call.
gen->write_call_method_bind(result, self, method, arguments);
}
} else if ((codegen.function_node && codegen.function_node->is_static) || call->function_name == "new") {
GDScriptCodeGenerator::Address self;
self.mode = GDScriptCodeGenerator::Address::CLASS;
if (within_await) {
gen->write_call_async(result, self, call->function_name, arguments);
} else {
gen->write_call(result, self, call->function_name, arguments);
}
} else {
if (within_await) {
gen->write_call_self_async(result, call->function_name, arguments);
} else {
gen->write_call_self(result, call->function_name, arguments);
}
}
} else if (callee->type == GDScriptParser::Node::SUBSCRIPT) {
const GDScriptParser::SubscriptNode *subscript = static_cast<const GDScriptParser::SubscriptNode *>(call->callee);
if (subscript->is_attribute) {
// May be static built-in method call.
if (!call->is_super && subscript->base->type == GDScriptParser::Node::IDENTIFIER && GDScriptParser::get_builtin_type(static_cast<GDScriptParser::IdentifierNode *>(subscript->base)->name) < Variant::VARIANT_MAX) {
gen->write_call_builtin_type_static(result, GDScriptParser::get_builtin_type(static_cast<GDScriptParser::IdentifierNode *>(subscript->base)->name), subscript->attribute->name, arguments);
} else {
GDScriptCodeGenerator::Address base = _parse_expression(codegen, r_error, subscript->base);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
if (within_await) {
gen->write_call_async(result, base, call->function_name, arguments);
} else if (base.type.has_type && base.type.kind != GDScriptDataType::BUILTIN) {
// Native method, use faster path.
StringName class_name;
if (base.type.kind == GDScriptDataType::NATIVE) {
class_name = base.type.native_type;
} else {
class_name = base.type.native_type == StringName() ? base.type.script_type->get_instance_base_type() : base.type.native_type;
}
if (ClassDB::class_exists(class_name) && ClassDB::has_method(class_name, call->function_name)) {
MethodBind *method = ClassDB::get_method(class_name, call->function_name);
if (_have_exact_arguments(method, arguments)) {
// Exact arguments, use ptrcall.
gen->write_call_ptrcall(result, base, method, arguments);
} else {
// Not exact arguments, but still can use method bind call.
gen->write_call_method_bind(result, base, method, arguments);
}
} else {
gen->write_call(result, base, call->function_name, arguments);
}
} else if (base.type.has_type && base.type.kind == GDScriptDataType::BUILTIN) {
gen->write_call_builtin_type(result, base, base.type.builtin_type, call->function_name, arguments);
} else {
gen->write_call(result, base, call->function_name, arguments);
}
if (base.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
}
} else {
_set_error("Cannot call something that isn't a function.", call->callee);
r_error = ERR_COMPILATION_FAILED;
return GDScriptCodeGenerator::Address();
}
} else {
r_error = ERR_COMPILATION_FAILED;
return GDScriptCodeGenerator::Address();
}
}
}
for (int i = 0; i < arguments.size(); i++) {
if (arguments[i].mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
}
return result;
} break;
case GDScriptParser::Node::GET_NODE: {
const GDScriptParser::GetNodeNode *get_node = static_cast<const GDScriptParser::GetNodeNode *>(p_expression);
String node_name;
if (get_node->string != nullptr) {
node_name += String(get_node->string->value);
} else {
for (int i = 0; i < get_node->chain.size(); i++) {
if (i > 0) {
node_name += "/";
}
node_name += get_node->chain[i]->name;
}
}
Vector<GDScriptCodeGenerator::Address> args;
args.push_back(codegen.add_constant(NodePath(node_name)));
GDScriptCodeGenerator::Address result = codegen.add_temporary(_gdtype_from_datatype(get_node->get_datatype()));
MethodBind *get_node_method = ClassDB::get_method("Node", "get_node");
gen->write_call_ptrcall(result, GDScriptCodeGenerator::Address(GDScriptCodeGenerator::Address::SELF), get_node_method, args);
return result;
} break;
case GDScriptParser::Node::PRELOAD: {
const GDScriptParser::PreloadNode *preload = static_cast<const GDScriptParser::PreloadNode *>(p_expression);
// Add resource as constant.
return codegen.add_constant(preload->resource);
} break;
case GDScriptParser::Node::AWAIT: {
const GDScriptParser::AwaitNode *await = static_cast<const GDScriptParser::AwaitNode *>(p_expression);
GDScriptCodeGenerator::Address result = codegen.add_temporary(_gdtype_from_datatype(p_expression->get_datatype()));
within_await = true;
GDScriptCodeGenerator::Address argument = _parse_expression(codegen, r_error, await->to_await);
within_await = false;
if (r_error) {
return GDScriptCodeGenerator::Address();
}
gen->write_await(result, argument);
if (argument.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
return result;
} break;
// Indexing operator.
case GDScriptParser::Node::SUBSCRIPT: {
const GDScriptParser::SubscriptNode *subscript = static_cast<const GDScriptParser::SubscriptNode *>(p_expression);
GDScriptCodeGenerator::Address result = codegen.add_temporary(_gdtype_from_datatype(subscript->get_datatype()));
GDScriptCodeGenerator::Address base = _parse_expression(codegen, r_error, subscript->base);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
bool named = subscript->is_attribute;
StringName name;
GDScriptCodeGenerator::Address index;
if (p_index_addr.mode != GDScriptCodeGenerator::Address::NIL) {
index = p_index_addr;
} else if (subscript->is_attribute) {
if (subscript->base->type == GDScriptParser::Node::SELF && codegen.script) {
GDScriptParser::IdentifierNode *identifier = subscript->attribute;
const Map<StringName, GDScript::MemberInfo>::Element *MI = codegen.script->member_indices.find(identifier->name);
#ifdef DEBUG_ENABLED
if (MI && MI->get().getter == codegen.function_name) {
String n = identifier->name;
_set_error("Must use '" + n + "' instead of 'self." + n + "' in getter.", identifier);
r_error = ERR_COMPILATION_FAILED;
return GDScriptCodeGenerator::Address();
}
#endif
if (MI && MI->get().getter == "") {
// Remove result temp as we don't need it.
gen->pop_temporary();
// Faster than indexing self (as if no self. had been used).
return GDScriptCodeGenerator::Address(GDScriptCodeGenerator::Address::MEMBER, MI->get().index, _gdtype_from_datatype(subscript->get_datatype()));
}
}
name = subscript->attribute->name;
named = true;
} else {
if (subscript->index->is_constant && subscript->index->reduced_value.get_type() == Variant::STRING_NAME) {
// Also, somehow, named (speed up anyway).
name = subscript->index->reduced_value;
named = true;
} else {
// Regular indexing.
index = _parse_expression(codegen, r_error, subscript->index);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
}
}
if (named) {
gen->write_get_named(result, name, base);
} else {
gen->write_get(result, index, base);
}
if (index.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
if (base.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
return result;
} break;
case GDScriptParser::Node::UNARY_OPERATOR: {
const GDScriptParser::UnaryOpNode *unary = static_cast<const GDScriptParser::UnaryOpNode *>(p_expression);
GDScriptCodeGenerator::Address result = codegen.add_temporary(_gdtype_from_datatype(unary->get_datatype()));
GDScriptCodeGenerator::Address operand = _parse_expression(codegen, r_error, unary->operand);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
gen->write_unary_operator(result, unary->variant_op, operand);
if (operand.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
return result;
}
case GDScriptParser::Node::BINARY_OPERATOR: {
const GDScriptParser::BinaryOpNode *binary = static_cast<const GDScriptParser::BinaryOpNode *>(p_expression);
GDScriptCodeGenerator::Address result = codegen.add_temporary(_gdtype_from_datatype(binary->get_datatype()));
switch (binary->operation) {
case GDScriptParser::BinaryOpNode::OP_LOGIC_AND: {
// AND operator with early out on failure.
GDScriptCodeGenerator::Address left_operand = _parse_expression(codegen, r_error, binary->left_operand);
gen->write_and_left_operand(left_operand);
GDScriptCodeGenerator::Address right_operand = _parse_expression(codegen, r_error, binary->right_operand);
gen->write_and_right_operand(right_operand);
gen->write_end_and(result);
if (right_operand.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
if (left_operand.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
} break;
case GDScriptParser::BinaryOpNode::OP_LOGIC_OR: {
// OR operator with early out on success.
GDScriptCodeGenerator::Address left_operand = _parse_expression(codegen, r_error, binary->left_operand);
gen->write_or_left_operand(left_operand);
GDScriptCodeGenerator::Address right_operand = _parse_expression(codegen, r_error, binary->right_operand);
gen->write_or_right_operand(right_operand);
gen->write_end_or(result);
if (right_operand.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
if (left_operand.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
} break;
case GDScriptParser::BinaryOpNode::OP_TYPE_TEST: {
GDScriptCodeGenerator::Address operand = _parse_expression(codegen, r_error, binary->left_operand);
if (binary->right_operand->type == GDScriptParser::Node::IDENTIFIER && GDScriptParser::get_builtin_type(static_cast<const GDScriptParser::IdentifierNode *>(binary->right_operand)->name) != Variant::VARIANT_MAX) {
// `is` with builtin type)
Variant::Type type = GDScriptParser::get_builtin_type(static_cast<const GDScriptParser::IdentifierNode *>(binary->right_operand)->name);
gen->write_type_test_builtin(result, operand, type);
} else {
GDScriptCodeGenerator::Address type = _parse_expression(codegen, r_error, binary->right_operand);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
gen->write_type_test(result, operand, type);
if (type.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
}
if (operand.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
} break;
default: {
GDScriptCodeGenerator::Address left_operand = _parse_expression(codegen, r_error, binary->left_operand);
GDScriptCodeGenerator::Address right_operand = _parse_expression(codegen, r_error, binary->right_operand);
gen->write_binary_operator(result, binary->variant_op, left_operand, right_operand);
if (right_operand.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
if (left_operand.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
}
}
return result;
} break;
case GDScriptParser::Node::TERNARY_OPERATOR: {
// x IF a ELSE y operator with early out on failure.
const GDScriptParser::TernaryOpNode *ternary = static_cast<const GDScriptParser::TernaryOpNode *>(p_expression);
GDScriptCodeGenerator::Address result = codegen.add_temporary(_gdtype_from_datatype(ternary->get_datatype()));
gen->write_start_ternary(result);
GDScriptCodeGenerator::Address condition = _parse_expression(codegen, r_error, ternary->condition);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
gen->write_ternary_condition(condition);
if (condition.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
GDScriptCodeGenerator::Address true_expr = _parse_expression(codegen, r_error, ternary->true_expr);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
gen->write_ternary_true_expr(true_expr);
if (true_expr.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
GDScriptCodeGenerator::Address false_expr = _parse_expression(codegen, r_error, ternary->false_expr);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
gen->write_ternary_false_expr(false_expr);
if (false_expr.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
gen->write_end_ternary();
return result;
} break;
case GDScriptParser::Node::ASSIGNMENT: {
const GDScriptParser::AssignmentNode *assignment = static_cast<const GDScriptParser::AssignmentNode *>(p_expression);
if (assignment->assignee->type == GDScriptParser::Node::SUBSCRIPT) {
// SET (chained) MODE!
const GDScriptParser::SubscriptNode *subscript = static_cast<GDScriptParser::SubscriptNode *>(assignment->assignee);
#ifdef DEBUG_ENABLED
if (subscript->is_attribute && subscript->base->type == GDScriptParser::Node::SELF && codegen.script) {
const Map<StringName, GDScript::MemberInfo>::Element *MI = codegen.script->member_indices.find(subscript->attribute->name);
if (MI && MI->get().setter == codegen.function_name) {
String n = subscript->attribute->name;
_set_error("Must use '" + n + "' instead of 'self." + n + "' in setter.", subscript);
r_error = ERR_COMPILATION_FAILED;
return GDScriptCodeGenerator::Address();
}
}
#endif
/* Find chain of sets */
StringName assign_property;
List<const GDScriptParser::SubscriptNode *> chain;
{
// Create get/set chain.
const GDScriptParser::SubscriptNode *n = subscript;
while (true) {
chain.push_back(n);
if (n->base->type != GDScriptParser::Node::SUBSCRIPT) {
// Check for a built-in property.
if (n->base->type == GDScriptParser::Node::IDENTIFIER) {
GDScriptParser::IdentifierNode *identifier = static_cast<GDScriptParser::IdentifierNode *>(n->base);
if (_is_class_member_property(codegen, identifier->name)) {
assign_property = identifier->name;
}
}
break;
}
n = static_cast<const GDScriptParser::SubscriptNode *>(n->base);
}
}
/* Chain of gets */
// Get at (potential) root stack pos, so it can be returned.
GDScriptCodeGenerator::Address base = _parse_expression(codegen, r_error, chain.back()->get()->base);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
GDScriptCodeGenerator::Address prev_base = base;
struct ChainInfo {
bool is_named = false;
GDScriptCodeGenerator::Address base;
GDScriptCodeGenerator::Address key;
StringName name;
};
List<ChainInfo> set_chain;
for (List<const GDScriptParser::SubscriptNode *>::Element *E = chain.back(); E; E = E->prev()) {
if (E == chain.front()) {
// Skip the main subscript, since we'll assign to that.
break;
}
const GDScriptParser::SubscriptNode *subscript_elem = E->get();
GDScriptCodeGenerator::Address value = codegen.add_temporary(_gdtype_from_datatype(subscript_elem->get_datatype()));
GDScriptCodeGenerator::Address key;
StringName name;
if (subscript_elem->is_attribute) {
name = subscript_elem->attribute->name;
gen->write_get_named(value, name, prev_base);
} else {
key = _parse_expression(codegen, r_error, subscript_elem->index);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
gen->write_get(value, key, prev_base);
}
// Store base and key for setting it back later.
set_chain.push_front({ subscript_elem->is_attribute, prev_base, key, name }); // Push to front to invert the list.
prev_base = value;
}
// Get value to assign.
GDScriptCodeGenerator::Address assigned = _parse_expression(codegen, r_error, assignment->assigned_value);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
// Get the key if needed.
GDScriptCodeGenerator::Address key;
StringName name;
if (subscript->is_attribute) {
name = subscript->attribute->name;
} else {
key = _parse_expression(codegen, r_error, subscript->index);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
}
// Perform operator if any.
if (assignment->operation != GDScriptParser::AssignmentNode::OP_NONE) {
GDScriptCodeGenerator::Address value = codegen.add_temporary();
if (subscript->is_attribute) {
gen->write_get_named(value, name, prev_base);
} else {
gen->write_get(value, key, prev_base);
}
gen->write_binary_operator(value, assignment->variant_op, value, assigned);
if (assigned.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
assigned = value;
}
// Perform assignment.
if (subscript->is_attribute) {
gen->write_set_named(prev_base, name, assigned);
} else {
gen->write_set(prev_base, key, assigned);
}
if (key.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
if (assigned.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
assigned = prev_base;
// Set back the values into their bases.
for (const ChainInfo &info : set_chain) {
if (!info.is_named) {
gen->write_set(info.base, info.key, assigned);
if (info.key.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
} else {
gen->write_set_named(info.base, info.name, assigned);
}
if (assigned.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
assigned = info.base;
}
// If this is a local member, also assign to it.
// This allow things like: position.x += 2.0
if (assign_property != StringName()) {
gen->write_set_member(assigned, assign_property);
}
if (assigned.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
} else if (assignment->assignee->type == GDScriptParser::Node::IDENTIFIER && _is_class_member_property(codegen, static_cast<GDScriptParser::IdentifierNode *>(assignment->assignee)->name)) {
// Assignment to member property.
GDScriptCodeGenerator::Address assigned = _parse_expression(codegen, r_error, assignment->assigned_value);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
GDScriptCodeGenerator::Address assign_temp = assigned;
StringName name = static_cast<GDScriptParser::IdentifierNode *>(assignment->assignee)->name;
if (assignment->operation != GDScriptParser::AssignmentNode::OP_NONE) {
GDScriptCodeGenerator::Address member = codegen.add_temporary();
gen->write_get_member(member, name);
gen->write_binary_operator(assigned, assignment->variant_op, member, assigned);
gen->pop_temporary();
}
gen->write_set_member(assigned, name);
if (assign_temp.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
} else {
// Regular assignment.
GDScriptCodeGenerator::Address target;
bool has_setter = false;
bool is_in_setter = false;
StringName setter_function;
if (assignment->assignee->type == GDScriptParser::Node::IDENTIFIER) {
StringName var_name = static_cast<const GDScriptParser::IdentifierNode *>(assignment->assignee)->name;
if (!codegen.locals.has(var_name) && codegen.script->member_indices.has(var_name)) {
setter_function = codegen.script->member_indices[var_name].setter;
if (setter_function != StringName()) {
has_setter = true;
is_in_setter = setter_function == codegen.function_name;
target.mode = GDScriptCodeGenerator::Address::MEMBER;
target.address = codegen.script->member_indices[var_name].index;
}
}
}
if (has_setter) {
if (!is_in_setter) {
// Store stack slot for the temp value.
target = codegen.add_temporary(_gdtype_from_datatype(assignment->assignee->get_datatype()));
}
} else {
target = _parse_expression(codegen, r_error, assignment->assignee);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
}
GDScriptCodeGenerator::Address assigned = _parse_expression(codegen, r_error, assignment->assigned_value);
GDScriptCodeGenerator::Address op_result;
if (r_error) {
return GDScriptCodeGenerator::Address();
}
if (assignment->operation != GDScriptParser::AssignmentNode::OP_NONE) {
// Perform operation.
op_result = codegen.add_temporary();
gen->write_binary_operator(op_result, assignment->variant_op, target, assigned);
} else {
op_result = assigned;
assigned = GDScriptCodeGenerator::Address();
}
GDScriptDataType assign_type = _gdtype_from_datatype(assignment->assignee->get_datatype());
if (has_setter && !is_in_setter) {
// Call setter.
Vector<GDScriptCodeGenerator::Address> args;
args.push_back(op_result);
gen->write_call(GDScriptCodeGenerator::Address(), GDScriptCodeGenerator::Address(GDScriptCodeGenerator::Address::SELF), setter_function, args);
} else {
// Just assign.
if (assignment->use_conversion_assign) {
gen->write_assign_with_conversion(target, op_result);
} else {
gen->write_assign(target, op_result);
}
}
if (op_result.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
if (assigned.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
if (target.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
}
return GDScriptCodeGenerator::Address(); // Assignment does not return a value.
} break;
case GDScriptParser::Node::LAMBDA: {
const GDScriptParser::LambdaNode *lambda = static_cast<const GDScriptParser::LambdaNode *>(p_expression);
GDScriptCodeGenerator::Address result = codegen.add_temporary(_gdtype_from_datatype(lambda->get_datatype()));
Vector<GDScriptCodeGenerator::Address> captures;
captures.resize(lambda->captures.size());
for (int i = 0; i < lambda->captures.size(); i++) {
captures.write[i] = _parse_expression(codegen, r_error, lambda->captures[i]);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
}
GDScriptFunction *function = _parse_function(r_error, codegen.script, codegen.class_node, lambda->function, false, true);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
gen->write_lambda(result, function, captures);
for (int i = 0; i < captures.size(); i++) {
if (captures[i].mode == GDScriptCodeGenerator::Address::TEMPORARY) {
gen->pop_temporary();
}
}
return result;
} break;
default: {
ERR_FAIL_V_MSG(GDScriptCodeGenerator::Address(), "Bug in bytecode compiler, unexpected node in parse tree while parsing expression."); // Unreachable code.
} break;
}
}
GDScriptCodeGenerator::Address GDScriptCompiler::_parse_match_pattern(CodeGen &codegen, Error &r_error, const GDScriptParser::PatternNode *p_pattern, const GDScriptCodeGenerator::Address &p_value_addr, const GDScriptCodeGenerator::Address &p_type_addr, const GDScriptCodeGenerator::Address &p_previous_test, bool p_is_first, bool p_is_nested) {
switch (p_pattern->pattern_type) {
case GDScriptParser::PatternNode::PT_LITERAL: {
if (p_is_nested) {
codegen.generator->write_and_left_operand(p_previous_test);
} else if (!p_is_first) {
codegen.generator->write_or_left_operand(p_previous_test);
}
// Get literal type into constant map.
GDScriptCodeGenerator::Address literal_type_addr = codegen.add_constant((int)p_pattern->literal->value.get_type());
// Equality is always a boolean.
GDScriptDataType equality_type;
equality_type.has_type = true;
equality_type.kind = GDScriptDataType::BUILTIN;
equality_type.builtin_type = Variant::BOOL;
// Check type equality.
GDScriptCodeGenerator::Address type_equality_addr = codegen.add_temporary(equality_type);
codegen.generator->write_binary_operator(type_equality_addr, Variant::OP_EQUAL, p_type_addr, literal_type_addr);
codegen.generator->write_and_left_operand(type_equality_addr);
// Get literal.
GDScriptCodeGenerator::Address literal_addr = _parse_expression(codegen, r_error, p_pattern->literal);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
// Check value equality.
GDScriptCodeGenerator::Address equality_addr = codegen.add_temporary(equality_type);
codegen.generator->write_binary_operator(equality_addr, Variant::OP_EQUAL, p_value_addr, literal_addr);
codegen.generator->write_and_right_operand(equality_addr);
// AND both together (reuse temporary location).
codegen.generator->write_end_and(type_equality_addr);
codegen.generator->pop_temporary(); // Remove equality_addr from stack.
if (literal_addr.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
// If this isn't the first, we need to OR with the previous pattern. If it's nested, we use AND instead.
if (p_is_nested) {
// Use the previous value as target, since we only need one temporary variable.
codegen.generator->write_and_right_operand(type_equality_addr);
codegen.generator->write_end_and(p_previous_test);
} else if (!p_is_first) {
// Use the previous value as target, since we only need one temporary variable.
codegen.generator->write_or_right_operand(type_equality_addr);
codegen.generator->write_end_or(p_previous_test);
} else {
// Just assign this value to the accumulator temporary.
codegen.generator->write_assign(p_previous_test, type_equality_addr);
}
codegen.generator->pop_temporary(); // Remove type_equality_addr.
return p_previous_test;
} break;
case GDScriptParser::PatternNode::PT_EXPRESSION: {
if (p_is_nested) {
codegen.generator->write_and_left_operand(p_previous_test);
} else if (!p_is_first) {
codegen.generator->write_or_left_operand(p_previous_test);
}
// Create the result temps first since it's the last to go away.
GDScriptCodeGenerator::Address result_addr = codegen.add_temporary();
GDScriptCodeGenerator::Address equality_test_addr = codegen.add_temporary();
// Evaluate expression.
GDScriptCodeGenerator::Address expr_addr;
expr_addr = _parse_expression(codegen, r_error, p_pattern->expression);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
// Evaluate expression type.
Vector<GDScriptCodeGenerator::Address> typeof_args;
typeof_args.push_back(expr_addr);
codegen.generator->write_call_utility(result_addr, "typeof", typeof_args);
// Check type equality.
codegen.generator->write_binary_operator(result_addr, Variant::OP_EQUAL, p_type_addr, result_addr);
codegen.generator->write_and_left_operand(result_addr);
// Check value equality.
codegen.generator->write_binary_operator(equality_test_addr, Variant::OP_EQUAL, p_value_addr, expr_addr);
codegen.generator->write_and_right_operand(equality_test_addr);
// AND both type and value equality.
codegen.generator->write_end_and(result_addr);
// We don't need the expression temporary anymore.
if (expr_addr.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
codegen.generator->pop_temporary(); // Remove type equality temporary.
// If this isn't the first, we need to OR with the previous pattern. If it's nested, we use AND instead.
if (p_is_nested) {
// Use the previous value as target, since we only need one temporary variable.
codegen.generator->write_and_right_operand(result_addr);
codegen.generator->write_end_and(p_previous_test);
} else if (!p_is_first) {
// Use the previous value as target, since we only need one temporary variable.
codegen.generator->write_or_right_operand(result_addr);
codegen.generator->write_end_or(p_previous_test);
} else {
// Just assign this value to the accumulator temporary.
codegen.generator->write_assign(p_previous_test, result_addr);
}
codegen.generator->pop_temporary(); // Remove temp result addr.
return p_previous_test;
} break;
case GDScriptParser::PatternNode::PT_ARRAY: {
if (p_is_nested) {
codegen.generator->write_and_left_operand(p_previous_test);
} else if (!p_is_first) {
codegen.generator->write_or_left_operand(p_previous_test);
}
// Get array type into constant map.
GDScriptCodeGenerator::Address array_type_addr = codegen.add_constant((int)Variant::ARRAY);
// Equality is always a boolean.
GDScriptDataType temp_type;
temp_type.has_type = true;
temp_type.kind = GDScriptDataType::BUILTIN;
temp_type.builtin_type = Variant::BOOL;
// Check type equality.
GDScriptCodeGenerator::Address result_addr = codegen.add_temporary(temp_type);
codegen.generator->write_binary_operator(result_addr, Variant::OP_EQUAL, p_type_addr, array_type_addr);
codegen.generator->write_and_left_operand(result_addr);
// Store pattern length in constant map.
GDScriptCodeGenerator::Address array_length_addr = codegen.add_constant(p_pattern->rest_used ? p_pattern->array.size() - 1 : p_pattern->array.size());
// Get value length.
temp_type.builtin_type = Variant::INT;
GDScriptCodeGenerator::Address value_length_addr = codegen.add_temporary(temp_type);
Vector<GDScriptCodeGenerator::Address> len_args;
len_args.push_back(p_value_addr);
codegen.generator->write_call_gdscript_utility(value_length_addr, GDScriptUtilityFunctions::get_function("len"), len_args);
// Test length compatibility.
temp_type.builtin_type = Variant::BOOL;
GDScriptCodeGenerator::Address length_compat_addr = codegen.add_temporary(temp_type);
codegen.generator->write_binary_operator(length_compat_addr, p_pattern->rest_used ? Variant::OP_GREATER_EQUAL : Variant::OP_EQUAL, value_length_addr, array_length_addr);
codegen.generator->write_and_right_operand(length_compat_addr);
// AND type and length check.
codegen.generator->write_end_and(result_addr);
// Remove length temporaries.
codegen.generator->pop_temporary();
codegen.generator->pop_temporary();
// If this isn't the first, we need to OR with the previous pattern. If it's nested, we use AND instead.
if (p_is_nested) {
// Use the previous value as target, since we only need one temporary variable.
codegen.generator->write_and_right_operand(result_addr);
codegen.generator->write_end_and(p_previous_test);
} else if (!p_is_first) {
// Use the previous value as target, since we only need one temporary variable.
codegen.generator->write_or_right_operand(result_addr);
codegen.generator->write_end_or(p_previous_test);
} else {
// Just assign this value to the accumulator temporary.
codegen.generator->write_assign(p_previous_test, result_addr);
}
codegen.generator->pop_temporary(); // Remove temp result addr.
// Create temporaries outside the loop so they can be reused.
GDScriptCodeGenerator::Address element_addr = codegen.add_temporary();
GDScriptCodeGenerator::Address element_type_addr = codegen.add_temporary();
GDScriptCodeGenerator::Address test_addr = p_previous_test;
// Evaluate element by element.
for (int i = 0; i < p_pattern->array.size(); i++) {
if (p_pattern->array[i]->pattern_type == GDScriptParser::PatternNode::PT_REST) {
// Don't want to access an extra element of the user array.
break;
}
// Use AND here too, as we don't want to be checking elements if previous test failed (which means this might be an invalid get).
codegen.generator->write_and_left_operand(test_addr);
// Add index to constant map.
GDScriptCodeGenerator::Address index_addr = codegen.add_constant(i);
// Get the actual element from the user-sent array.
codegen.generator->write_get(element_addr, index_addr, p_value_addr);
// Also get type of element.
Vector<GDScriptCodeGenerator::Address> typeof_args;
typeof_args.push_back(element_addr);
codegen.generator->write_call_utility(element_type_addr, "typeof", typeof_args);
// Try the pattern inside the element.
test_addr = _parse_match_pattern(codegen, r_error, p_pattern->array[i], element_addr, element_type_addr, p_previous_test, false, true);
if (r_error != OK) {
return GDScriptCodeGenerator::Address();
}
codegen.generator->write_and_right_operand(test_addr);
codegen.generator->write_end_and(test_addr);
}
// Remove element temporaries.
codegen.generator->pop_temporary();
codegen.generator->pop_temporary();
return test_addr;
} break;
case GDScriptParser::PatternNode::PT_DICTIONARY: {
if (p_is_nested) {
codegen.generator->write_and_left_operand(p_previous_test);
} else if (!p_is_first) {
codegen.generator->write_or_left_operand(p_previous_test);
}
// Get dictionary type into constant map.
GDScriptCodeGenerator::Address dict_type_addr = codegen.add_constant((int)Variant::DICTIONARY);
// Equality is always a boolean.
GDScriptDataType temp_type;
temp_type.has_type = true;
temp_type.kind = GDScriptDataType::BUILTIN;
temp_type.builtin_type = Variant::BOOL;
// Check type equality.
GDScriptCodeGenerator::Address result_addr = codegen.add_temporary(temp_type);
codegen.generator->write_binary_operator(result_addr, Variant::OP_EQUAL, p_type_addr, dict_type_addr);
codegen.generator->write_and_left_operand(result_addr);
// Store pattern length in constant map.
GDScriptCodeGenerator::Address dict_length_addr = codegen.add_constant(p_pattern->rest_used ? p_pattern->dictionary.size() - 1 : p_pattern->dictionary.size());
// Get user's dictionary length.
temp_type.builtin_type = Variant::INT;
GDScriptCodeGenerator::Address value_length_addr = codegen.add_temporary(temp_type);
Vector<GDScriptCodeGenerator::Address> func_args;
func_args.push_back(p_value_addr);
codegen.generator->write_call_gdscript_utility(value_length_addr, GDScriptUtilityFunctions::get_function("len"), func_args);
// Test length compatibility.
temp_type.builtin_type = Variant::BOOL;
GDScriptCodeGenerator::Address length_compat_addr = codegen.add_temporary(temp_type);
codegen.generator->write_binary_operator(length_compat_addr, p_pattern->rest_used ? Variant::OP_GREATER_EQUAL : Variant::OP_EQUAL, value_length_addr, dict_length_addr);
codegen.generator->write_and_right_operand(length_compat_addr);
// AND type and length check.
codegen.generator->write_end_and(result_addr);
// Remove length temporaries.
codegen.generator->pop_temporary();
codegen.generator->pop_temporary();
// If this isn't the first, we need to OR with the previous pattern. If it's nested, we use AND instead.
if (p_is_nested) {
// Use the previous value as target, since we only need one temporary variable.
codegen.generator->write_and_right_operand(result_addr);
codegen.generator->write_end_and(p_previous_test);
} else if (!p_is_first) {
// Use the previous value as target, since we only need one temporary variable.
codegen.generator->write_or_right_operand(result_addr);
codegen.generator->write_end_or(p_previous_test);
} else {
// Just assign this value to the accumulator temporary.
codegen.generator->write_assign(p_previous_test, result_addr);
}
codegen.generator->pop_temporary(); // Remove temp result addr.
// Create temporaries outside the loop so they can be reused.
temp_type.builtin_type = Variant::BOOL;
GDScriptCodeGenerator::Address test_result = codegen.add_temporary(temp_type);
GDScriptCodeGenerator::Address element_addr = codegen.add_temporary();
GDScriptCodeGenerator::Address element_type_addr = codegen.add_temporary();
GDScriptCodeGenerator::Address test_addr = p_previous_test;
// Evaluate element by element.
for (int i = 0; i < p_pattern->dictionary.size(); i++) {
const GDScriptParser::PatternNode::Pair &element = p_pattern->dictionary[i];
if (element.value_pattern && element.value_pattern->pattern_type == GDScriptParser::PatternNode::PT_REST) {
// Ignore rest pattern.
break;
}
// Use AND here too, as we don't want to be checking elements if previous test failed (which means this might be an invalid get).
codegen.generator->write_and_left_operand(test_addr);
// Get the pattern key.
GDScriptCodeGenerator::Address pattern_key_addr = _parse_expression(codegen, r_error, element.key);
if (r_error) {
return GDScriptCodeGenerator::Address();
}
// Check if pattern key exists in user's dictionary. This will be AND-ed with next result.
func_args.clear();
func_args.push_back(pattern_key_addr);
codegen.generator->write_call(test_result, p_value_addr, "has", func_args);
if (element.value_pattern != nullptr) {
// Use AND here too, as we don't want to be checking elements if previous test failed (which means this might be an invalid get).
codegen.generator->write_and_left_operand(test_result);
// Get actual value from user dictionary.
codegen.generator->write_get(element_addr, pattern_key_addr, p_value_addr);
// Also get type of value.
func_args.clear();
func_args.push_back(element_addr);
codegen.generator->write_call_utility(element_type_addr, "typeof", func_args);
// Try the pattern inside the value.
test_addr = _parse_match_pattern(codegen, r_error, element.value_pattern, element_addr, element_type_addr, test_addr, false, true);
if (r_error != OK) {
return GDScriptCodeGenerator::Address();
}
codegen.generator->write_and_right_operand(test_addr);
codegen.generator->write_end_and(test_addr);
}
codegen.generator->write_and_right_operand(test_addr);
codegen.generator->write_end_and(test_addr);
// Remove pattern key temporary.
if (pattern_key_addr.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
}
// Remove element temporaries.
codegen.generator->pop_temporary();
codegen.generator->pop_temporary();
codegen.generator->pop_temporary();
return test_addr;
} break;
case GDScriptParser::PatternNode::PT_REST:
// Do nothing.
return p_previous_test;
break;
case GDScriptParser::PatternNode::PT_BIND: {
if (p_is_nested) {
codegen.generator->write_and_left_operand(p_previous_test);
} else if (!p_is_first) {
codegen.generator->write_or_left_operand(p_previous_test);
}
// Get the bind address.
GDScriptCodeGenerator::Address bind = codegen.locals[p_pattern->bind->name];
// Assign value to bound variable.
codegen.generator->write_assign(bind, p_value_addr);
}
[[fallthrough]]; // Act like matching anything too.
case GDScriptParser::PatternNode::PT_WILDCARD:
// If this is a fall through we don't want to do this again.
if (p_pattern->pattern_type != GDScriptParser::PatternNode::PT_BIND) {
if (p_is_nested) {
codegen.generator->write_and_left_operand(p_previous_test);
} else if (!p_is_first) {
codegen.generator->write_or_left_operand(p_previous_test);
}
}
// This matches anything so just do the same as `if(true)`.
// If this isn't the first, we need to OR with the previous pattern. If it's nested, we use AND instead.
if (p_is_nested) {
// Use the operator with the `true` constant so it works as always matching.
GDScriptCodeGenerator::Address constant = codegen.add_constant(true);
codegen.generator->write_and_right_operand(constant);
codegen.generator->write_end_and(p_previous_test);
} else if (!p_is_first) {
// Use the operator with the `true` constant so it works as always matching.
GDScriptCodeGenerator::Address constant = codegen.add_constant(true);
codegen.generator->write_or_right_operand(constant);
codegen.generator->write_end_or(p_previous_test);
} else {
// Just assign this value to the accumulator temporary.
codegen.generator->write_assign_true(p_previous_test);
}
return p_previous_test;
}
ERR_FAIL_V_MSG(p_previous_test, "Reaching the end of pattern compilation without matching a pattern.");
}
void GDScriptCompiler::_add_locals_in_block(CodeGen &codegen, const GDScriptParser::SuiteNode *p_block) {
for (int i = 0; i < p_block->locals.size(); i++) {
if (p_block->locals[i].type == GDScriptParser::SuiteNode::Local::PARAMETER || p_block->locals[i].type == GDScriptParser::SuiteNode::Local::FOR_VARIABLE) {
// Parameters are added directly from function and loop variables are declared explicitly.
continue;
}
codegen.add_local(p_block->locals[i].name, _gdtype_from_datatype(p_block->locals[i].get_datatype()));
}
}
Error GDScriptCompiler::_parse_block(CodeGen &codegen, const GDScriptParser::SuiteNode *p_block, bool p_add_locals) {
Error error = OK;
GDScriptCodeGenerator *gen = codegen.generator;
codegen.start_block();
if (p_add_locals) {
_add_locals_in_block(codegen, p_block);
}
for (int i = 0; i < p_block->statements.size(); i++) {
const GDScriptParser::Node *s = p_block->statements[i];
#ifdef DEBUG_ENABLED
// Add a newline before each statement, since the debugger needs those.
gen->write_newline(s->start_line);
#endif
switch (s->type) {
case GDScriptParser::Node::MATCH: {
const GDScriptParser::MatchNode *match = static_cast<const GDScriptParser::MatchNode *>(s);
gen->start_match();
codegen.start_block();
// Evaluate the match expression.
GDScriptCodeGenerator::Address value = codegen.add_local("@match_value", _gdtype_from_datatype(match->test->get_datatype()));
GDScriptCodeGenerator::Address value_expr = _parse_expression(codegen, error, match->test);
if (error) {
return error;
}
// Assign to local.
// TODO: This can be improved by passing the target to parse_expression().
gen->write_assign(value, value_expr);
if (value_expr.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
// Then, let's save the type of the value in the stack too, so we can reuse for later comparisons.
GDScriptDataType typeof_type;
typeof_type.has_type = true;
typeof_type.kind = GDScriptDataType::BUILTIN;
typeof_type.builtin_type = Variant::INT;
GDScriptCodeGenerator::Address type = codegen.add_local("@match_type", typeof_type);
Vector<GDScriptCodeGenerator::Address> typeof_args;
typeof_args.push_back(value);
gen->write_call_utility(type, "typeof", typeof_args);
// Now we can actually start testing.
// For each branch.
for (int j = 0; j < match->branches.size(); j++) {
if (j > 0) {
// Use `else` to not check the next branch after matching.
gen->write_else();
}
const GDScriptParser::MatchBranchNode *branch = match->branches[j];
gen->start_match_branch(); // Need so lower level code can patch 'continue' jumps.
codegen.start_block(); // Create an extra block around for binds.
// Add locals in block before patterns, so temporaries don't use the stack address for binds.
_add_locals_in_block(codegen, branch->block);
#ifdef DEBUG_ENABLED
// Add a newline before each branch, since the debugger needs those.
gen->write_newline(branch->start_line);
#endif
// For each pattern in branch.
GDScriptCodeGenerator::Address pattern_result = codegen.add_temporary();
for (int k = 0; k < branch->patterns.size(); k++) {
pattern_result = _parse_match_pattern(codegen, error, branch->patterns[k], value, type, pattern_result, k == 0, false);
if (error != OK) {
return error;
}
}
// Check if pattern did match.
gen->write_if(pattern_result);
// Remove the result from stack.
gen->pop_temporary();
// Parse the branch block.
error = _parse_block(codegen, branch->block, false); // Don't add locals again.
if (error) {
return error;
}
codegen.end_block(); // Get out of extra block.
}
// End all nested `if`s.
for (int j = 0; j < match->branches.size(); j++) {
gen->write_endif();
}
gen->end_match();
} break;
case GDScriptParser::Node::IF: {
const GDScriptParser::IfNode *if_n = static_cast<const GDScriptParser::IfNode *>(s);
GDScriptCodeGenerator::Address condition = _parse_expression(codegen, error, if_n->condition);
if (error) {
return error;
}
gen->write_if(condition);
if (condition.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
error = _parse_block(codegen, if_n->true_block);
if (error) {
return error;
}
if (if_n->false_block) {
gen->write_else();
error = _parse_block(codegen, if_n->false_block);
if (error) {
return error;
}
}
gen->write_endif();
} break;
case GDScriptParser::Node::FOR: {
const GDScriptParser::ForNode *for_n = static_cast<const GDScriptParser::ForNode *>(s);
codegen.start_block();
GDScriptCodeGenerator::Address iterator = codegen.add_local(for_n->variable->name, _gdtype_from_datatype(for_n->variable->get_datatype()));
gen->start_for(iterator.type, _gdtype_from_datatype(for_n->list->get_datatype()));
GDScriptCodeGenerator::Address list = _parse_expression(codegen, error, for_n->list);
if (error) {
return error;
}
gen->write_for_assignment(iterator, list);
if (list.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
gen->write_for();
error = _parse_block(codegen, for_n->loop);
if (error) {
return error;
}
gen->write_endfor();
codegen.end_block();
} break;
case GDScriptParser::Node::WHILE: {
const GDScriptParser::WhileNode *while_n = static_cast<const GDScriptParser::WhileNode *>(s);
gen->start_while_condition();
GDScriptCodeGenerator::Address condition = _parse_expression(codegen, error, while_n->condition);
if (error) {
return error;
}
gen->write_while(condition);
if (condition.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
error = _parse_block(codegen, while_n->loop);
if (error) {
return error;
}
gen->write_endwhile();
} break;
case GDScriptParser::Node::BREAK: {
gen->write_break();
} break;
case GDScriptParser::Node::CONTINUE: {
const GDScriptParser::ContinueNode *cont = static_cast<const GDScriptParser::ContinueNode *>(s);
if (cont->is_for_match) {
gen->write_continue_match();
} else {
gen->write_continue();
}
} break;
case GDScriptParser::Node::RETURN: {
const GDScriptParser::ReturnNode *return_n = static_cast<const GDScriptParser::ReturnNode *>(s);
GDScriptCodeGenerator::Address return_value;
if (return_n->return_value != nullptr) {
return_value = _parse_expression(codegen, error, return_n->return_value);
if (error) {
return error;
}
}
gen->write_return(return_value);
if (return_value.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
} break;
case GDScriptParser::Node::ASSERT: {
#ifdef DEBUG_ENABLED
const GDScriptParser::AssertNode *as = static_cast<const GDScriptParser::AssertNode *>(s);
GDScriptCodeGenerator::Address condition = _parse_expression(codegen, error, as->condition);
if (error) {
return error;
}
GDScriptCodeGenerator::Address message;
if (as->message) {
message = _parse_expression(codegen, error, as->message);
if (error) {
return error;
}
}
gen->write_assert(condition, message);
if (condition.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
if (message.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
#endif
} break;
case GDScriptParser::Node::BREAKPOINT: {
#ifdef DEBUG_ENABLED
gen->write_breakpoint();
#endif
} break;
case GDScriptParser::Node::VARIABLE: {
const GDScriptParser::VariableNode *lv = static_cast<const GDScriptParser::VariableNode *>(s);
// Should be already in stack when the block began.
GDScriptCodeGenerator::Address local = codegen.locals[lv->identifier->name];
GDScriptParser::DataType local_type = lv->get_datatype();
if (lv->initializer != nullptr) {
// For typed arrays we need to make sure this is already initialized correctly so typed assignment work.
if (local_type.is_hard_type() && local_type.builtin_type == Variant::ARRAY) {
if (local_type.has_container_element_type()) {
codegen.generator->write_construct_typed_array(local, _gdtype_from_datatype(local_type.get_container_element_type(), codegen.script), Vector<GDScriptCodeGenerator::Address>());
} else {
codegen.generator->write_construct_array(local, Vector<GDScriptCodeGenerator::Address>());
}
}
GDScriptCodeGenerator::Address src_address = _parse_expression(codegen, error, lv->initializer);
if (error) {
return error;
}
if (lv->use_conversion_assign) {
gen->write_assign_with_conversion(local, src_address);
} else {
gen->write_assign(local, src_address);
}
if (src_address.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
} else if (lv->get_datatype().is_hard_type()) {
// Initialize with default for type.
if (local_type.has_container_element_type()) {
codegen.generator->write_construct_typed_array(local, _gdtype_from_datatype(local_type.get_container_element_type(), codegen.script), Vector<GDScriptCodeGenerator::Address>());
} else if (local_type.kind == GDScriptParser::DataType::BUILTIN) {
codegen.generator->write_construct(local, local_type.builtin_type, Vector<GDScriptCodeGenerator::Address>());
}
// The `else` branch is for objects, in such case we leave it as `null`.
}
} break;
case GDScriptParser::Node::CONSTANT: {
// Local constants.
const GDScriptParser::ConstantNode *lc = static_cast<const GDScriptParser::ConstantNode *>(s);
if (!lc->initializer->is_constant) {
_set_error("Local constant must have a constant value as initializer.", lc->initializer);
return ERR_PARSE_ERROR;
}
codegen.add_local_constant(lc->identifier->name, lc->initializer->reduced_value);
} break;
case GDScriptParser::Node::PASS:
// Nothing to do.
break;
default: {
// Expression.
if (s->is_expression()) {
GDScriptCodeGenerator::Address expr = _parse_expression(codegen, error, static_cast<const GDScriptParser::ExpressionNode *>(s), true);
if (error) {
return error;
}
if (expr.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
} else {
ERR_FAIL_V_MSG(ERR_INVALID_DATA, "Bug in bytecode compiler, unexpected node in parse tree while parsing statement."); // Unreachable code.
}
} break;
}
}
codegen.end_block();
return OK;
}
GDScriptFunction *GDScriptCompiler::_parse_function(Error &r_error, GDScript *p_script, const GDScriptParser::ClassNode *p_class, const GDScriptParser::FunctionNode *p_func, bool p_for_ready, bool p_for_lambda) {
r_error = OK;
CodeGen codegen;
codegen.generator = memnew(GDScriptByteCodeGenerator);
codegen.class_node = p_class;
codegen.script = p_script;
codegen.function_node = p_func;
StringName func_name;
bool is_static = false;
MultiplayerAPI::RPCConfig rpc_config;
GDScriptDataType return_type;
return_type.has_type = true;
return_type.kind = GDScriptDataType::BUILTIN;
return_type.builtin_type = Variant::NIL;
if (p_func) {
if (p_func->identifier) {
func_name = p_func->identifier->name;
} else {
func_name = "<anonymous lambda>";
}
is_static = p_func->is_static;
rpc_config = p_func->rpc_config;
return_type = _gdtype_from_datatype(p_func->get_datatype(), p_script);
} else {
if (p_for_ready) {
func_name = "_ready";
} else {
func_name = "@implicit_new";
}
}
codegen.function_name = func_name;
codegen.generator->write_start(p_script, func_name, is_static, rpc_config, return_type);
int optional_parameters = 0;
if (p_func) {
for (int i = 0; i < p_func->parameters.size(); i++) {
const GDScriptParser::ParameterNode *parameter = p_func->parameters[i];
GDScriptDataType par_type = _gdtype_from_datatype(parameter->get_datatype(), p_script);
uint32_t par_addr = codegen.generator->add_parameter(parameter->identifier->name, parameter->default_value != nullptr, par_type);
codegen.parameters[parameter->identifier->name] = GDScriptCodeGenerator::Address(GDScriptCodeGenerator::Address::FUNCTION_PARAMETER, par_addr, par_type);
if (p_func->parameters[i]->default_value != nullptr) {
optional_parameters++;
}
}
}
// Parse initializer if applies.
bool is_implicit_initializer = !p_for_ready && !p_func && !p_for_lambda;
bool is_initializer = p_func && !p_for_lambda && String(p_func->identifier->name) == GDScriptLanguage::get_singleton()->strings._init;
bool is_for_ready = p_for_ready || (p_func && !p_for_lambda && String(p_func->identifier->name) == "_ready");
if (!p_for_lambda && (is_implicit_initializer || is_for_ready)) {
// Initialize class fields.
for (int i = 0; i < p_class->members.size(); i++) {
if (p_class->members[i].type != GDScriptParser::ClassNode::Member::VARIABLE) {
continue;
}
const GDScriptParser::VariableNode *field = p_class->members[i].variable;
if (field->onready != is_for_ready) {
// Only initialize in _ready.
continue;
}
GDScriptParser::DataType field_type = field->get_datatype();
GDScriptCodeGenerator::Address dst_address(GDScriptCodeGenerator::Address::MEMBER, codegen.script->member_indices[field->identifier->name].index, _gdtype_from_datatype(field->get_datatype()));
if (field->initializer) {
// Emit proper line change.
codegen.generator->write_newline(field->initializer->start_line);
// For typed arrays we need to make sure this is already initialized correctly so typed assignment work.
if (field_type.is_hard_type() && field_type.builtin_type == Variant::ARRAY && field_type.has_container_element_type()) {
if (field_type.has_container_element_type()) {
codegen.generator->write_construct_typed_array(dst_address, _gdtype_from_datatype(field_type.get_container_element_type(), codegen.script), Vector<GDScriptCodeGenerator::Address>());
} else {
codegen.generator->write_construct_array(dst_address, Vector<GDScriptCodeGenerator::Address>());
}
}
GDScriptCodeGenerator::Address src_address = _parse_expression(codegen, r_error, field->initializer, false, true);
if (r_error) {
memdelete(codegen.generator);
return nullptr;
}
if (field->use_conversion_assign) {
codegen.generator->write_assign_with_conversion(dst_address, src_address);
} else {
codegen.generator->write_assign(dst_address, src_address);
}
if (src_address.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
} else if (field->get_datatype().is_hard_type()) {
codegen.generator->write_newline(field->start_line);
// Initialize with default for type.
if (field_type.has_container_element_type()) {
codegen.generator->write_construct_typed_array(dst_address, _gdtype_from_datatype(field_type.get_container_element_type(), codegen.script), Vector<GDScriptCodeGenerator::Address>());
} else if (field_type.kind == GDScriptParser::DataType::BUILTIN) {
codegen.generator->write_construct(dst_address, field_type.builtin_type, Vector<GDScriptCodeGenerator::Address>());
}
// The `else` branch is for objects, in such case we leave it as `null`.
}
}
}
// Parse default argument code if applies.
if (p_func) {
if (optional_parameters > 0) {
codegen.generator->start_parameters();
for (int i = p_func->parameters.size() - optional_parameters; i < p_func->parameters.size(); i++) {
const GDScriptParser::ParameterNode *parameter = p_func->parameters[i];
GDScriptCodeGenerator::Address src_addr = _parse_expression(codegen, r_error, parameter->default_value, true);
if (r_error) {
memdelete(codegen.generator);
return nullptr;
}
GDScriptCodeGenerator::Address dst_addr = codegen.parameters[parameter->identifier->name];
codegen.generator->write_assign_default_parameter(dst_addr, src_addr);
if (src_addr.mode == GDScriptCodeGenerator::Address::TEMPORARY) {
codegen.generator->pop_temporary();
}
}
codegen.generator->end_parameters();
}
r_error = _parse_block(codegen, p_func->body);
if (r_error) {
memdelete(codegen.generator);
return nullptr;
}
}
#ifdef DEBUG_ENABLED
if (EngineDebugger::is_active()) {
String signature;
// Path.
if (p_script->get_path() != String()) {
signature += p_script->get_path();
}
// Location.
if (p_func) {
signature += "::" + itos(p_func->body->start_line);
} else {
signature += "::0";
}
// Function and class.
if (p_class->identifier) {
signature += "::" + String(p_class->identifier->name) + "." + String(func_name);
} else {
signature += "::" + String(func_name);
}
if (p_for_lambda) {
signature += "(lambda)";
}
codegen.generator->set_signature(signature);
}
#endif
if (p_func) {
codegen.generator->set_initial_line(p_func->start_line);
#ifdef TOOLS_ENABLED
if (!p_for_lambda) {
p_script->member_lines[func_name] = p_func->start_line;
p_script->doc_functions[func_name] = p_func->doc_description;
}
#endif
} else {
codegen.generator->set_initial_line(0);
}
GDScriptFunction *gd_function = codegen.generator->write_end();
if (is_initializer) {
p_script->initializer = gd_function;
} else if (is_implicit_initializer) {
p_script->implicit_initializer = gd_function;
}
if (p_func) {
// if no return statement -> return type is void not unresolved Variant
if (p_func->body->has_return) {
gd_function->return_type = _gdtype_from_datatype(p_func->get_datatype());
} else {
gd_function->return_type = GDScriptDataType();
gd_function->return_type.has_type = true;
gd_function->return_type.kind = GDScriptDataType::BUILTIN;
gd_function->return_type.builtin_type = Variant::NIL;
}
#ifdef TOOLS_ENABLED
gd_function->default_arg_values = p_func->default_arg_values;
#endif
}
if (!p_for_lambda) {
p_script->member_functions[func_name] = gd_function;
}
memdelete(codegen.generator);
return gd_function;
}
Error GDScriptCompiler::_parse_setter_getter(GDScript *p_script, const GDScriptParser::ClassNode *p_class, const GDScriptParser::VariableNode *p_variable, bool p_is_setter) {
Error error = OK;
CodeGen codegen;
codegen.generator = memnew(GDScriptByteCodeGenerator);
codegen.class_node = p_class;
codegen.script = p_script;
StringName func_name;
if (p_is_setter) {
func_name = "@" + p_variable->identifier->name + "_setter";
} else {
func_name = "@" + p_variable->identifier->name + "_getter";
}
codegen.function_name = func_name;
GDScriptDataType return_type;
if (p_is_setter) {
return_type.has_type = true;
return_type.kind = GDScriptDataType::BUILTIN;
return_type.builtin_type = Variant::NIL;
} else {
return_type = _gdtype_from_datatype(p_variable->get_datatype(), p_script);
}
codegen.generator->write_start(p_script, func_name, false, MultiplayerAPI::RPCConfig(), return_type);
if (p_is_setter) {
uint32_t par_addr = codegen.generator->add_parameter(p_variable->setter_parameter->name, false, _gdtype_from_datatype(p_variable->get_datatype()));
codegen.parameters[p_variable->setter_parameter->name] = GDScriptCodeGenerator::Address(GDScriptCodeGenerator::Address::FUNCTION_PARAMETER, par_addr, _gdtype_from_datatype(p_variable->get_datatype()));
}
error = _parse_block(codegen, p_is_setter ? p_variable->setter : p_variable->getter);
if (error) {
memdelete(codegen.generator);
return error;
}
GDScriptFunction *gd_function = codegen.generator->write_end();
p_script->member_functions[func_name] = gd_function;
#ifdef DEBUG_ENABLED
if (EngineDebugger::is_active()) {
String signature;
//path
if (p_script->get_path() != String()) {
signature += p_script->get_path();
}
//loc
signature += "::" + itos(p_is_setter ? p_variable->setter->start_line : p_variable->getter->start_line);
//function and class
if (p_class->identifier) {
signature += "::" + String(p_class->identifier->name) + "." + String(func_name);
} else {
signature += "::" + String(func_name);
}
codegen.generator->set_signature(signature);
}
#endif
codegen.generator->set_initial_line(p_is_setter ? p_variable->setter->start_line : p_variable->getter->start_line);
#ifdef TOOLS_ENABLED
p_script->member_lines[func_name] = p_is_setter ? p_variable->setter->start_line : p_variable->getter->start_line;
#endif
memdelete(codegen.generator);
return OK;
}
Error GDScriptCompiler::_parse_class_level(GDScript *p_script, const GDScriptParser::ClassNode *p_class, bool p_keep_state) {
parsing_classes.insert(p_script);
if (p_class->outer && p_class->outer->outer) {
// Owner is not root
if (!parsed_classes.has(p_script->_owner)) {
if (parsing_classes.has(p_script->_owner)) {
_set_error("Cyclic class reference for '" + String(p_class->identifier->name) + "'.", p_class);
return ERR_PARSE_ERROR;
}
Error err = _parse_class_level(p_script->_owner, p_class->outer, p_keep_state);
if (err) {
return err;
}
}
}
#ifdef TOOLS_ENABLED
p_script->doc_functions.clear();
p_script->doc_variables.clear();
p_script->doc_constants.clear();
p_script->doc_enums.clear();
p_script->doc_signals.clear();
p_script->doc_tutorials.clear();
p_script->doc_brief_description = p_class->doc_brief_description;
p_script->doc_description = p_class->doc_description;
for (int i = 0; i < p_class->doc_tutorials.size(); i++) {
DocData::TutorialDoc td;
td.title = p_class->doc_tutorials[i].first;
td.link = p_class->doc_tutorials[i].second;
p_script->doc_tutorials.append(td);
}
#endif
p_script->native = Ref<GDScriptNativeClass>();
p_script->base = Ref<GDScript>();
p_script->_base = nullptr;
p_script->members.clear();
p_script->constants.clear();
for (Map<StringName, GDScriptFunction *>::Element *E = p_script->member_functions.front(); E; E = E->next()) {
memdelete(E->get());
}
p_script->member_functions.clear();
p_script->member_indices.clear();
p_script->member_info.clear();
p_script->_signals.clear();
p_script->initializer = nullptr;
p_script->tool = parser->is_tool();
p_script->name = p_class->identifier ? p_class->identifier->name : "";
Ref<GDScriptNativeClass> native;
GDScriptDataType base_type = _gdtype_from_datatype(p_class->base_type);
// Inheritance
switch (base_type.kind) {
case GDScriptDataType::NATIVE: {
int native_idx = GDScriptLanguage::get_singleton()->get_global_map()[base_type.native_type];
native = GDScriptLanguage::get_singleton()->get_global_array()[native_idx];
ERR_FAIL_COND_V(native.is_null(), ERR_BUG);
p_script->native = native;
} break;
case GDScriptDataType::GDSCRIPT: {
Ref<GDScript> base = Ref<GDScript>(base_type.script_type);
p_script->base = base;
p_script->_base = base.ptr();
if (p_class->base_type.kind == GDScriptParser::DataType::CLASS && p_class->base_type.class_type != nullptr) {
if (p_class->base_type.script_path == main_script->path) {
if (!parsed_classes.has(p_script->_base)) {
if (parsing_classes.has(p_script->_base)) {
String class_name = p_class->identifier ? p_class->identifier->name : "<main>";
_set_error("Cyclic class reference for '" + class_name + "'.", p_class);
return ERR_PARSE_ERROR;
}
Error err = _parse_class_level(p_script->_base, p_class->base_type.class_type, p_keep_state);
if (err) {
return err;
}
}
} else {
Error err = OK;
base = GDScriptCache::get_full_script(p_class->base_type.script_path, err, main_script->path);
if (err) {
return err;
}
if (base.is_null() || !base->is_valid()) {
return ERR_COMPILATION_FAILED;
}
}
}
p_script->member_indices = base->member_indices;
native = base->native;
p_script->native = native;
} break;
default: {
_set_error("Parser bug: invalid inheritance.", p_class);
return ERR_BUG;
} break;
}
for (int i = 0; i < p_class->members.size(); i++) {
const GDScriptParser::ClassNode::Member &member = p_class->members[i];
switch (member.type) {
case GDScriptParser::ClassNode::Member::VARIABLE: {
const GDScriptParser::VariableNode *variable = member.variable;
StringName name = variable->identifier->name;
GDScript::MemberInfo minfo;
minfo.index = p_script->member_indices.size();
switch (variable->property) {
case GDScriptParser::VariableNode::PROP_NONE:
break; // Nothing to do.
case GDScriptParser::VariableNode::PROP_SETGET:
if (variable->setter_pointer != nullptr) {
minfo.setter = variable->setter_pointer->name;
}
if (variable->getter_pointer != nullptr) {
minfo.getter = variable->getter_pointer->name;
}
break;
case GDScriptParser::VariableNode::PROP_INLINE:
if (variable->setter != nullptr) {
minfo.setter = "@" + variable->identifier->name + "_setter";
}
if (variable->getter != nullptr) {
minfo.getter = "@" + variable->identifier->name + "_getter";
}
break;
}
minfo.data_type = _gdtype_from_datatype(variable->get_datatype(), p_script);
PropertyInfo prop_info = minfo.data_type;
prop_info.name = name;
PropertyInfo export_info = variable->export_info;
if (variable->exported) {
if (!minfo.data_type.has_type) {
prop_info.type = export_info.type;
prop_info.class_name = export_info.class_name;
}
prop_info.hint = export_info.hint;
prop_info.hint_string = export_info.hint_string;
prop_info.usage = export_info.usage | PROPERTY_USAGE_SCRIPT_VARIABLE;
} else {
prop_info.usage = PROPERTY_USAGE_SCRIPT_VARIABLE;
}
#ifdef TOOLS_ENABLED
p_script->doc_variables[name] = variable->doc_description;
#endif
p_script->member_info[name] = prop_info;
p_script->member_indices[name] = minfo;
p_script->members.insert(name);
#ifdef TOOLS_ENABLED
if (variable->initializer != nullptr && variable->initializer->is_constant) {
p_script->member_default_values[name] = variable->initializer->reduced_value;
} else {
p_script->member_default_values.erase(name);
}
p_script->member_lines[name] = variable->start_line;
#endif
} break;
case GDScriptParser::ClassNode::Member::CONSTANT: {
const GDScriptParser::ConstantNode *constant = member.constant;
StringName name = constant->identifier->name;
p_script->constants.insert(name, constant->initializer->reduced_value);
#ifdef TOOLS_ENABLED
p_script->member_lines[name] = constant->start_line;
if (constant->doc_description != String()) {
p_script->doc_constants[name] = constant->doc_description;
}
#endif
} break;
case GDScriptParser::ClassNode::Member::ENUM_VALUE: {
const GDScriptParser::EnumNode::Value &enum_value = member.enum_value;
StringName name = enum_value.identifier->name;
p_script->constants.insert(name, enum_value.value);
#ifdef TOOLS_ENABLED
p_script->member_lines[name] = enum_value.identifier->start_line;
if (!p_script->doc_enums.has("@unnamed_enums")) {
p_script->doc_enums["@unnamed_enums"] = DocData::EnumDoc();
p_script->doc_enums["@unnamed_enums"].name = "@unnamed_enums";
}
DocData::ConstantDoc const_doc;
const_doc.name = enum_value.identifier->name;
const_doc.value = Variant(enum_value.value).operator String(); // TODO-DOC: enum value currently is int.
const_doc.description = enum_value.doc_description;
p_script->doc_enums["@unnamed_enums"].values.push_back(const_doc);
#endif
} break;
case GDScriptParser::ClassNode::Member::SIGNAL: {
const GDScriptParser::SignalNode *signal = member.signal;
StringName name = signal->identifier->name;
GDScript *c = p_script;
while (c) {
if (c->_signals.has(name)) {
_set_error("Signal '" + name + "' redefined (in current or parent class)", p_class);
return ERR_ALREADY_EXISTS;
}
if (c->base.is_valid()) {
c = c->base.ptr();
} else {
c = nullptr;
}
}
if (native.is_valid()) {
if (ClassDB::has_signal(native->get_name(), name)) {
_set_error("Signal '" + name + "' redefined (original in native class '" + String(native->get_name()) + "')", p_class);
return ERR_ALREADY_EXISTS;
}
}
Vector<StringName> parameters_names;
parameters_names.resize(signal->parameters.size());
for (int j = 0; j < signal->parameters.size(); j++) {
parameters_names.write[j] = signal->parameters[j]->identifier->name;
}
p_script->_signals[name] = parameters_names;
#ifdef TOOLS_ENABLED
if (!signal->doc_description.is_empty()) {
p_script->doc_signals[name] = signal->doc_description;
}
#endif
} break;
case GDScriptParser::ClassNode::Member::ENUM: {
const GDScriptParser::EnumNode *enum_n = member.m_enum;
// TODO: Make enums not be just a dictionary?
Dictionary new_enum;
for (int j = 0; j < enum_n->values.size(); j++) {
int value = enum_n->values[j].value;
// Needs to be string because Variant::get will convert to String.
new_enum[String(enum_n->values[j].identifier->name)] = value;
}
p_script->constants.insert(enum_n->identifier->name, new_enum);
#ifdef TOOLS_ENABLED
p_script->member_lines[enum_n->identifier->name] = enum_n->start_line;
p_script->doc_enums[enum_n->identifier->name] = DocData::EnumDoc();
p_script->doc_enums[enum_n->identifier->name].name = enum_n->identifier->name;
p_script->doc_enums[enum_n->identifier->name].description = enum_n->doc_description;
for (int j = 0; j < enum_n->values.size(); j++) {
DocData::ConstantDoc const_doc;
const_doc.name = enum_n->values[j].identifier->name;
const_doc.value = Variant(enum_n->values[j].value).operator String();
const_doc.description = enum_n->values[j].doc_description;
p_script->doc_enums[enum_n->identifier->name].values.push_back(const_doc);
}
#endif
} break;
default:
break; // Nothing to do here.
}
}
parsed_classes.insert(p_script);
parsing_classes.erase(p_script);
//parse sub-classes
for (int i = 0; i < p_class->members.size(); i++) {
const GDScriptParser::ClassNode::Member &member = p_class->members[i];
if (member.type != member.CLASS) {
continue;
}
const GDScriptParser::ClassNode *inner_class = member.m_class;
StringName name = inner_class->identifier->name;
Ref<GDScript> &subclass = p_script->subclasses[name];
GDScript *subclass_ptr = subclass.ptr();
// Subclass might still be parsing, just skip it
if (!parsed_classes.has(subclass_ptr) && !parsing_classes.has(subclass_ptr)) {
Error err = _parse_class_level(subclass_ptr, inner_class, p_keep_state);
if (err) {
return err;
}
}
#ifdef TOOLS_ENABLED
p_script->member_lines[name] = inner_class->start_line;
#endif
p_script->constants.insert(name, subclass); //once parsed, goes to the list of constants
}
return OK;
}
Error GDScriptCompiler::_parse_class_blocks(GDScript *p_script, const GDScriptParser::ClassNode *p_class, bool p_keep_state) {
//parse methods
bool has_ready = false;
for (int i = 0; i < p_class->members.size(); i++) {
const GDScriptParser::ClassNode::Member &member = p_class->members[i];
if (member.type == member.FUNCTION) {
const GDScriptParser::FunctionNode *function = member.function;
if (!has_ready && function->identifier->name == "_ready") {
has_ready = true;
}
Error err = OK;
_parse_function(err, p_script, p_class, function);
if (err) {
return err;
}
} else if (member.type == member.VARIABLE) {
const GDScriptParser::VariableNode *variable = member.variable;
if (variable->property == GDScriptParser::VariableNode::PROP_INLINE) {
if (variable->setter != nullptr) {
Error err = _parse_setter_getter(p_script, p_class, variable, true);
if (err) {
return err;
}
}
if (variable->getter != nullptr) {
Error err = _parse_setter_getter(p_script, p_class, variable, false);
if (err) {
return err;
}
}
}
}
}
{
// Create an implicit constructor in any case.
Error err = OK;
_parse_function(err, p_script, p_class, nullptr);
if (err) {
return err;
}
}
if (!has_ready && p_class->onready_used) {
//create a _ready constructor
Error err = OK;
_parse_function(err, p_script, p_class, nullptr, true);
if (err) {
return err;
}
}
#ifdef DEBUG_ENABLED
//validate instances if keeping state
if (p_keep_state) {
for (Set<Object *>::Element *E = p_script->instances.front(); E;) {
Set<Object *>::Element *N = E->next();
ScriptInstance *si = E->get()->get_script_instance();
if (si->is_placeholder()) {
#ifdef TOOLS_ENABLED
PlaceHolderScriptInstance *psi = static_cast<PlaceHolderScriptInstance *>(si);
if (p_script->is_tool()) {
//re-create as an instance
p_script->placeholders.erase(psi); //remove placeholder
GDScriptInstance *instance = memnew(GDScriptInstance);
instance->base_ref_counted = Object::cast_to<RefCounted>(E->get());
instance->members.resize(p_script->member_indices.size());
instance->script = Ref<GDScript>(p_script);
instance->owner = E->get();
//needed for hot reloading
for (Map<StringName, GDScript::MemberInfo>::Element *F = p_script->member_indices.front(); F; F = F->next()) {
instance->member_indices_cache[F->key()] = F->get().index;
}
instance->owner->set_script_instance(instance);
/* STEP 2, INITIALIZE AND CONSTRUCT */
Callable::CallError ce;
p_script->initializer->call(instance, nullptr, 0, ce);
if (ce.error != Callable::CallError::CALL_OK) {
//well, tough luck, not gonna do anything here
}
}
#endif
} else {
GDScriptInstance *gi = static_cast<GDScriptInstance *>(si);
gi->reload_members();
}
E = N;
}
}
#endif
for (int i = 0; i < p_class->members.size(); i++) {
if (p_class->members[i].type != GDScriptParser::ClassNode::Member::CLASS) {
continue;
}
const GDScriptParser::ClassNode *inner_class = p_class->members[i].m_class;
StringName name = inner_class->identifier->name;
GDScript *subclass = p_script->subclasses[name].ptr();
Error err = _parse_class_blocks(subclass, inner_class, p_keep_state);
if (err) {
return err;
}
}
p_script->valid = true;
return OK;
}
void GDScriptCompiler::_make_scripts(GDScript *p_script, const GDScriptParser::ClassNode *p_class, bool p_keep_state) {
Map<StringName, Ref<GDScript>> old_subclasses;
if (p_keep_state) {
old_subclasses = p_script->subclasses;
}
p_script->subclasses.clear();
for (int i = 0; i < p_class->members.size(); i++) {
if (p_class->members[i].type != GDScriptParser::ClassNode::Member::CLASS) {
continue;
}
const GDScriptParser::ClassNode *inner_class = p_class->members[i].m_class;
StringName name = inner_class->identifier->name;
Ref<GDScript> subclass;
String fully_qualified_name = p_script->fully_qualified_name + "::" + name;
if (old_subclasses.has(name)) {
subclass = old_subclasses[name];
} else {
Ref<GDScript> orphan_subclass = GDScriptLanguage::get_singleton()->get_orphan_subclass(fully_qualified_name);
if (orphan_subclass.is_valid()) {
subclass = orphan_subclass;
} else {
subclass.instantiate();
}
}
subclass->_owner = p_script;
subclass->fully_qualified_name = fully_qualified_name;
p_script->subclasses.insert(name, subclass);
_make_scripts(subclass.ptr(), inner_class, false);
}
}
Error GDScriptCompiler::compile(const GDScriptParser *p_parser, GDScript *p_script, bool p_keep_state) {
err_line = -1;
err_column = -1;
error = "";
parser = p_parser;
main_script = p_script;
const GDScriptParser::ClassNode *root = parser->get_tree();
source = p_script->get_path();
// The best fully qualified name for a base level script is its file path
p_script->fully_qualified_name = p_script->path;
// Create scripts for subclasses beforehand so they can be referenced
_make_scripts(p_script, root, p_keep_state);
p_script->_owner = nullptr;
Error err = _parse_class_level(p_script, root, p_keep_state);
if (err) {
return err;
}
err = _parse_class_blocks(p_script, root, p_keep_state);
if (err) {
return err;
}
return GDScriptCache::finish_compiling(p_script->get_path());
}
String GDScriptCompiler::get_error() const {
return error;
}
int GDScriptCompiler::get_error_line() const {
return err_line;
}
int GDScriptCompiler::get_error_column() const {
return err_column;
}
GDScriptCompiler::GDScriptCompiler() {
}
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