/*************************************************************************/ /* gdscript_parser.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_parser.h" #include "core/config/project_settings.h" #include "core/io/file_access.h" #include "core/io/resource_loader.h" #include "core/math/math_defs.h" #include "gdscript.h" #ifdef DEBUG_ENABLED #include "core/os/os.h" #include "core/string/string_builder.h" #include "gdscript_warning.h" #endif // DEBUG_ENABLED #ifdef TOOLS_ENABLED #include "editor/editor_settings.h" #endif // TOOLS_ENABLED static HashMap builtin_types; Variant::Type GDScriptParser::get_builtin_type(const StringName &p_type) { if (builtin_types.is_empty()) { builtin_types["bool"] = Variant::BOOL; builtin_types["int"] = Variant::INT; builtin_types["float"] = Variant::FLOAT; builtin_types["String"] = Variant::STRING; builtin_types["Vector2"] = Variant::VECTOR2; builtin_types["Vector2i"] = Variant::VECTOR2I; builtin_types["Rect2"] = Variant::RECT2; builtin_types["Rect2i"] = Variant::RECT2I; builtin_types["Transform2D"] = Variant::TRANSFORM2D; builtin_types["Vector3"] = Variant::VECTOR3; builtin_types["Vector3i"] = Variant::VECTOR3I; builtin_types["Vector4"] = Variant::VECTOR4; builtin_types["Vector4i"] = Variant::VECTOR4I; builtin_types["AABB"] = Variant::AABB; builtin_types["Plane"] = Variant::PLANE; builtin_types["Quaternion"] = Variant::QUATERNION; builtin_types["Basis"] = Variant::BASIS; builtin_types["Transform3D"] = Variant::TRANSFORM3D; builtin_types["Projection"] = Variant::PROJECTION; builtin_types["Color"] = Variant::COLOR; builtin_types["RID"] = Variant::RID; builtin_types["Object"] = Variant::OBJECT; builtin_types["StringName"] = Variant::STRING_NAME; builtin_types["NodePath"] = Variant::NODE_PATH; builtin_types["Dictionary"] = Variant::DICTIONARY; builtin_types["Callable"] = Variant::CALLABLE; builtin_types["Signal"] = Variant::SIGNAL; builtin_types["Array"] = Variant::ARRAY; builtin_types["PackedByteArray"] = Variant::PACKED_BYTE_ARRAY; builtin_types["PackedInt32Array"] = Variant::PACKED_INT32_ARRAY; builtin_types["PackedInt64Array"] = Variant::PACKED_INT64_ARRAY; builtin_types["PackedFloat32Array"] = Variant::PACKED_FLOAT32_ARRAY; builtin_types["PackedFloat64Array"] = Variant::PACKED_FLOAT64_ARRAY; builtin_types["PackedStringArray"] = Variant::PACKED_STRING_ARRAY; builtin_types["PackedVector2Array"] = Variant::PACKED_VECTOR2_ARRAY; builtin_types["PackedVector3Array"] = Variant::PACKED_VECTOR3_ARRAY; builtin_types["PackedColorArray"] = Variant::PACKED_COLOR_ARRAY; // NIL is not here, hence the -1. if (builtin_types.size() != Variant::VARIANT_MAX - 1) { ERR_PRINT("Outdated parser: amount of built-in types don't match the amount of types in Variant."); } } if (builtin_types.has(p_type)) { return builtin_types[p_type]; } return Variant::VARIANT_MAX; } void GDScriptParser::cleanup() { builtin_types.clear(); } void GDScriptParser::get_annotation_list(List *r_annotations) const { for (const KeyValue &E : valid_annotations) { r_annotations->push_back(E.value.info); } } bool GDScriptParser::annotation_exists(const String &p_annotation_name) const { return valid_annotations.has(p_annotation_name); } GDScriptParser::GDScriptParser() { // Register valid annotations. // TODO: Should this be static? register_annotation(MethodInfo("@tool"), AnnotationInfo::SCRIPT, &GDScriptParser::tool_annotation); register_annotation(MethodInfo("@icon", PropertyInfo(Variant::STRING, "icon_path")), AnnotationInfo::SCRIPT, &GDScriptParser::icon_annotation); register_annotation(MethodInfo("@onready"), AnnotationInfo::VARIABLE, &GDScriptParser::onready_annotation); // Export annotations. register_annotation(MethodInfo("@export"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_enum", PropertyInfo(Variant::STRING, "names")), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations, varray(), true); register_annotation(MethodInfo("@export_file", PropertyInfo(Variant::STRING, "filter")), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations, varray(""), true); register_annotation(MethodInfo("@export_dir"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_global_file", PropertyInfo(Variant::STRING, "filter")), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations, varray(""), true); register_annotation(MethodInfo("@export_global_dir"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_multiline"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_placeholder"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_range", PropertyInfo(Variant::FLOAT, "min"), PropertyInfo(Variant::FLOAT, "max"), PropertyInfo(Variant::FLOAT, "step"), PropertyInfo(Variant::STRING, "extra_hints")), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations, varray(1.0, ""), true); register_annotation(MethodInfo("@export_exp_easing", PropertyInfo(Variant::STRING, "hints")), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations, varray(""), true); register_annotation(MethodInfo("@export_color_no_alpha"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_node_path", PropertyInfo(Variant::STRING, "type")), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations, varray(""), true); register_annotation(MethodInfo("@export_flags", PropertyInfo(Variant::STRING, "names")), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations, varray(), true); register_annotation(MethodInfo("@export_flags_2d_render"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_flags_2d_physics"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_flags_2d_navigation"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_flags_3d_render"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_flags_3d_physics"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); register_annotation(MethodInfo("@export_flags_3d_navigation"), AnnotationInfo::VARIABLE, &GDScriptParser::export_annotations); // Export grouping annotations. register_annotation(MethodInfo("@export_category", PropertyInfo(Variant::STRING, "name")), AnnotationInfo::STANDALONE, &GDScriptParser::export_group_annotations); register_annotation(MethodInfo("@export_group", PropertyInfo(Variant::STRING, "name"), PropertyInfo(Variant::STRING, "prefix")), AnnotationInfo::STANDALONE, &GDScriptParser::export_group_annotations, varray("")); register_annotation(MethodInfo("@export_subgroup", PropertyInfo(Variant::STRING, "name"), PropertyInfo(Variant::STRING, "prefix")), AnnotationInfo::STANDALONE, &GDScriptParser::export_group_annotations, varray("")); // Warning annotations. register_annotation(MethodInfo("@warning_ignore", PropertyInfo(Variant::STRING, "warning")), AnnotationInfo::CLASS | AnnotationInfo::VARIABLE | AnnotationInfo::SIGNAL | AnnotationInfo::CONSTANT | AnnotationInfo::FUNCTION | AnnotationInfo::STATEMENT, &GDScriptParser::warning_annotations, varray(), true); // Networking. register_annotation(MethodInfo("@rpc", PropertyInfo(Variant::STRING, "mode"), PropertyInfo(Variant::STRING, "sync"), PropertyInfo(Variant::STRING, "transfer_mode"), PropertyInfo(Variant::INT, "transfer_channel")), AnnotationInfo::FUNCTION, &GDScriptParser::network_annotations, varray("", "", "", 0), true); } GDScriptParser::~GDScriptParser() { clear(); } void GDScriptParser::clear() { while (list != nullptr) { Node *element = list; list = list->next; memdelete(element); } head = nullptr; list = nullptr; _is_tool = false; for_completion = false; errors.clear(); multiline_stack.clear(); nodes_in_progress.clear(); } void GDScriptParser::push_error(const String &p_message, const Node *p_origin) { // TODO: Improve error reporting by pointing at source code. // TODO: Errors might point at more than one place at once (e.g. show previous declaration). panic_mode = true; // TODO: Improve positional information. if (p_origin == nullptr) { errors.push_back({ p_message, current.start_line, current.start_column }); } else { errors.push_back({ p_message, p_origin->start_line, p_origin->leftmost_column }); } } #ifdef DEBUG_ENABLED void GDScriptParser::push_warning(const Node *p_source, GDScriptWarning::Code p_code, const String &p_symbol1, const String &p_symbol2, const String &p_symbol3, const String &p_symbol4) { ERR_FAIL_COND(p_source == nullptr); Vector symbols; if (!p_symbol1.is_empty()) { symbols.push_back(p_symbol1); } if (!p_symbol2.is_empty()) { symbols.push_back(p_symbol2); } if (!p_symbol3.is_empty()) { symbols.push_back(p_symbol3); } if (!p_symbol4.is_empty()) { symbols.push_back(p_symbol4); } push_warning(p_source, p_code, symbols); } void GDScriptParser::push_warning(const Node *p_source, GDScriptWarning::Code p_code, const Vector &p_symbols) { ERR_FAIL_COND(p_source == nullptr); if (is_ignoring_warnings) { return; } if (GLOBAL_GET("debug/gdscript/warnings/exclude_addons").booleanize() && script_path.begins_with("res://addons/")) { return; } if (ignored_warning_codes.has(p_code)) { return; } String warn_name = GDScriptWarning::get_name_from_code((GDScriptWarning::Code)p_code).to_lower(); if (ignored_warnings.has(warn_name)) { return; } int warn_level = (int)GLOBAL_GET(GDScriptWarning::get_settings_path_from_code(p_code)); if (!warn_level) { return; } GDScriptWarning warning; warning.code = p_code; warning.symbols = p_symbols; warning.start_line = p_source->start_line; warning.end_line = p_source->end_line; warning.leftmost_column = p_source->leftmost_column; warning.rightmost_column = p_source->rightmost_column; if (warn_level == GDScriptWarning::WarnLevel::ERROR) { push_error(warning.get_message(), p_source); return; } List::Element *before = nullptr; for (List::Element *E = warnings.front(); E; E = E->next()) { if (E->get().start_line > warning.start_line) { break; } before = E; } if (before) { warnings.insert_after(before, warning); } else { warnings.push_front(warning); } } #endif void GDScriptParser::make_completion_context(CompletionType p_type, Node *p_node, int p_argument, bool p_force) { if (!for_completion || (!p_force && completion_context.type != COMPLETION_NONE)) { return; } if (previous.cursor_place != GDScriptTokenizer::CURSOR_MIDDLE && previous.cursor_place != GDScriptTokenizer::CURSOR_END && current.cursor_place == GDScriptTokenizer::CURSOR_NONE) { return; } CompletionContext context; context.type = p_type; context.current_class = current_class; context.current_function = current_function; context.current_suite = current_suite; context.current_line = tokenizer.get_cursor_line(); context.current_argument = p_argument; context.node = p_node; completion_context = context; } void GDScriptParser::make_completion_context(CompletionType p_type, Variant::Type p_builtin_type, bool p_force) { if (!for_completion || (!p_force && completion_context.type != COMPLETION_NONE)) { return; } if (previous.cursor_place != GDScriptTokenizer::CURSOR_MIDDLE && previous.cursor_place != GDScriptTokenizer::CURSOR_END && current.cursor_place == GDScriptTokenizer::CURSOR_NONE) { return; } CompletionContext context; context.type = p_type; context.current_class = current_class; context.current_function = current_function; context.current_suite = current_suite; context.current_line = tokenizer.get_cursor_line(); context.builtin_type = p_builtin_type; completion_context = context; } void GDScriptParser::push_completion_call(Node *p_call) { if (!for_completion) { return; } CompletionCall call; call.call = p_call; call.argument = 0; completion_call_stack.push_back(call); if (previous.cursor_place == GDScriptTokenizer::CURSOR_MIDDLE || previous.cursor_place == GDScriptTokenizer::CURSOR_END || current.cursor_place == GDScriptTokenizer::CURSOR_BEGINNING) { completion_call = call; } } void GDScriptParser::pop_completion_call() { if (!for_completion) { return; } ERR_FAIL_COND_MSG(completion_call_stack.is_empty(), "Trying to pop empty completion call stack"); completion_call_stack.pop_back(); } void GDScriptParser::set_last_completion_call_arg(int p_argument) { if (!for_completion || passed_cursor) { return; } ERR_FAIL_COND_MSG(completion_call_stack.is_empty(), "Trying to set argument on empty completion call stack"); completion_call_stack.back()->get().argument = p_argument; } Error GDScriptParser::parse(const String &p_source_code, const String &p_script_path, bool p_for_completion) { clear(); String source = p_source_code; int cursor_line = -1; int cursor_column = -1; for_completion = p_for_completion; int tab_size = 4; #ifdef TOOLS_ENABLED if (EditorSettings::get_singleton()) { tab_size = EditorSettings::get_singleton()->get_setting("text_editor/behavior/indent/size"); } #endif // TOOLS_ENABLED if (p_for_completion) { // Remove cursor sentinel char. const Vector lines = p_source_code.split("\n"); cursor_line = 1; cursor_column = 1; for (int i = 0; i < lines.size(); i++) { bool found = false; const String &line = lines[i]; for (int j = 0; j < line.size(); j++) { if (line[j] == char32_t(0xFFFF)) { found = true; break; } else if (line[j] == '\t') { cursor_column += tab_size - 1; } cursor_column++; } if (found) { break; } cursor_line++; cursor_column = 1; } source = source.replace_first(String::chr(0xFFFF), String()); } tokenizer.set_source_code(source); tokenizer.set_cursor_position(cursor_line, cursor_column); script_path = p_script_path; current = tokenizer.scan(); // Avoid error or newline as the first token. // The latter can mess with the parser when opening files filled exclusively with comments and newlines. while (current.type == GDScriptTokenizer::Token::ERROR || current.type == GDScriptTokenizer::Token::NEWLINE) { if (current.type == GDScriptTokenizer::Token::ERROR) { push_error(current.literal); } current = tokenizer.scan(); } #ifdef DEBUG_ENABLED // Warn about parsing an empty script file: if (current.type == GDScriptTokenizer::Token::TK_EOF) { // Create a dummy Node for the warning, pointing to the very beginning of the file Node *nd = alloc_node(); nd->start_line = 1; nd->start_column = 0; nd->end_line = 1; nd->leftmost_column = 0; nd->rightmost_column = 0; push_warning(nd, GDScriptWarning::EMPTY_FILE); } #endif push_multiline(false); // Keep one for the whole parsing. parse_program(); pop_multiline(); #ifdef DEBUG_ENABLED if (multiline_stack.size() > 0) { ERR_PRINT("Parser bug: Imbalanced multiline stack."); } #endif if (errors.is_empty()) { return OK; } else { return ERR_PARSE_ERROR; } } GDScriptTokenizer::Token GDScriptParser::advance() { lambda_ended = false; // Empty marker since we're past the end in any case. if (current.type == GDScriptTokenizer::Token::TK_EOF) { ERR_FAIL_COND_V_MSG(current.type == GDScriptTokenizer::Token::TK_EOF, current, "GDScript parser bug: Trying to advance past the end of stream."); } if (for_completion && !completion_call_stack.is_empty()) { if (completion_call.call == nullptr && tokenizer.is_past_cursor()) { completion_call = completion_call_stack.back()->get(); passed_cursor = true; } } previous = current; current = tokenizer.scan(); while (current.type == GDScriptTokenizer::Token::ERROR) { push_error(current.literal); current = tokenizer.scan(); } for (Node *n : nodes_in_progress) { update_extents(n); } return previous; } bool GDScriptParser::match(GDScriptTokenizer::Token::Type p_token_type) { if (!check(p_token_type)) { return false; } advance(); return true; } bool GDScriptParser::check(GDScriptTokenizer::Token::Type p_token_type) const { if (p_token_type == GDScriptTokenizer::Token::IDENTIFIER) { return current.is_identifier(); } return current.type == p_token_type; } bool GDScriptParser::consume(GDScriptTokenizer::Token::Type p_token_type, const String &p_error_message) { if (match(p_token_type)) { return true; } push_error(p_error_message); return false; } bool GDScriptParser::is_at_end() const { return check(GDScriptTokenizer::Token::TK_EOF); } void GDScriptParser::synchronize() { panic_mode = false; while (!is_at_end()) { if (previous.type == GDScriptTokenizer::Token::NEWLINE || previous.type == GDScriptTokenizer::Token::SEMICOLON) { return; } switch (current.type) { case GDScriptTokenizer::Token::CLASS: case GDScriptTokenizer::Token::FUNC: case GDScriptTokenizer::Token::STATIC: case GDScriptTokenizer::Token::VAR: case GDScriptTokenizer::Token::CONST: case GDScriptTokenizer::Token::SIGNAL: //case GDScriptTokenizer::Token::IF: // Can also be inside expressions. case GDScriptTokenizer::Token::FOR: case GDScriptTokenizer::Token::WHILE: case GDScriptTokenizer::Token::MATCH: case GDScriptTokenizer::Token::RETURN: case GDScriptTokenizer::Token::ANNOTATION: return; default: // Do nothing. break; } advance(); } } void GDScriptParser::push_multiline(bool p_state) { multiline_stack.push_back(p_state); tokenizer.set_multiline_mode(p_state); if (p_state) { // Consume potential whitespace tokens already waiting in line. while (current.type == GDScriptTokenizer::Token::NEWLINE || current.type == GDScriptTokenizer::Token::INDENT || current.type == GDScriptTokenizer::Token::DEDENT) { current = tokenizer.scan(); // Don't call advance() here, as we don't want to change the previous token. } } } void GDScriptParser::pop_multiline() { ERR_FAIL_COND_MSG(multiline_stack.size() == 0, "Parser bug: trying to pop from multiline stack without available value."); multiline_stack.pop_back(); tokenizer.set_multiline_mode(multiline_stack.size() > 0 ? multiline_stack.back()->get() : false); } bool GDScriptParser::is_statement_end_token() const { return check(GDScriptTokenizer::Token::NEWLINE) || check(GDScriptTokenizer::Token::SEMICOLON) || check(GDScriptTokenizer::Token::TK_EOF); } bool GDScriptParser::is_statement_end() const { return lambda_ended || in_lambda || is_statement_end_token(); } void GDScriptParser::end_statement(const String &p_context) { bool found = false; while (is_statement_end() && !is_at_end()) { // Remove sequential newlines/semicolons. if (is_statement_end_token()) { // Only consume if this is an actual token. advance(); } else if (lambda_ended) { lambda_ended = false; // Consume this "token". found = true; break; } else { if (!found) { lambda_ended = true; // Mark the lambda as done since we found something else to end the statement. found = true; } break; } found = true; } if (!found && !is_at_end()) { push_error(vformat(R"(Expected end of statement after %s, found "%s" instead.)", p_context, current.get_name())); } } void GDScriptParser::parse_program() { head = alloc_node(); current_class = head; // If we happen to parse an annotation before extends or class_name keywords, track it. // @tool is allowed, but others should fail. AnnotationNode *premature_annotation = nullptr; if (match(GDScriptTokenizer::Token::ANNOTATION)) { // Check for @tool, script-level, or standalone annotation. AnnotationNode *annotation = parse_annotation(AnnotationInfo::SCRIPT | AnnotationInfo::STANDALONE | AnnotationInfo::CLASS_LEVEL); if (annotation != nullptr) { if (annotation->name == SNAME("@tool")) { // TODO: don't allow @tool anywhere else. (Should all script annotations be the first thing?). _is_tool = true; if (previous.type != GDScriptTokenizer::Token::NEWLINE) { push_error(R"(Expected newline after "@tool" annotation.)"); } // @tool annotation has no specific target. annotation->apply(this, nullptr); } else if (annotation->applies_to(AnnotationInfo::SCRIPT | AnnotationInfo::STANDALONE)) { premature_annotation = annotation; if (previous.type != GDScriptTokenizer::Token::NEWLINE) { push_error(R"(Expected newline after a standalone annotation.)"); } annotation->apply(this, head); } else { premature_annotation = annotation; annotation_stack.push_back(annotation); } } } for (bool should_break = false; !should_break;) { // Order here doesn't matter, but there should be only one of each at most. switch (current.type) { case GDScriptTokenizer::Token::CLASS_NAME: if (premature_annotation != nullptr) { push_error(R"("class_name" should be used before annotations (except @tool).)"); } advance(); if (head->identifier != nullptr) { push_error(R"("class_name" can only be used once.)"); } else { parse_class_name(); } break; case GDScriptTokenizer::Token::EXTENDS: if (premature_annotation != nullptr) { push_error(R"("extends" should be used before annotations (except @tool).)"); } advance(); if (head->extends_used) { push_error(R"("extends" can only be used once.)"); } else { parse_extends(); end_statement("superclass"); } break; default: should_break = true; break; } if (panic_mode) { synchronize(); } } if (match(GDScriptTokenizer::Token::ANNOTATION)) { // Check for a script-level, or standalone annotation. AnnotationNode *annotation = parse_annotation(AnnotationInfo::SCRIPT | AnnotationInfo::STANDALONE | AnnotationInfo::CLASS_LEVEL); if (annotation != nullptr) { if (annotation->applies_to(AnnotationInfo::SCRIPT | AnnotationInfo::STANDALONE)) { if (previous.type != GDScriptTokenizer::Token::NEWLINE) { push_error(R"(Expected newline after a standalone annotation.)"); } annotation->apply(this, head); } else { annotation_stack.push_back(annotation); } } } parse_class_body(true); complete_extents(head); #ifdef TOOLS_ENABLED for (const KeyValue &E : tokenizer.get_comments()) { if (E.value.new_line && E.value.comment.begins_with("##")) { class_doc_line = MIN(class_doc_line, E.key); } } if (has_comment(class_doc_line)) { get_class_doc_comment(class_doc_line, head->doc_brief_description, head->doc_description, head->doc_tutorials, false); } #endif // TOOLS_ENABLED if (!check(GDScriptTokenizer::Token::TK_EOF)) { push_error("Expected end of file."); } clear_unused_annotations(); } GDScriptParser::ClassNode *GDScriptParser::parse_class() { ClassNode *n_class = alloc_node(); ClassNode *previous_class = current_class; current_class = n_class; n_class->outer = previous_class; if (consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected identifier for the class name after "class".)")) { n_class->identifier = parse_identifier(); } if (match(GDScriptTokenizer::Token::EXTENDS)) { parse_extends(); } consume(GDScriptTokenizer::Token::COLON, R"(Expected ":" after class declaration.)"); bool multiline = match(GDScriptTokenizer::Token::NEWLINE); if (multiline && !consume(GDScriptTokenizer::Token::INDENT, R"(Expected indented block after class declaration.)")) { current_class = previous_class; complete_extents(n_class); return n_class; } if (match(GDScriptTokenizer::Token::EXTENDS)) { if (n_class->extends_used) { push_error(R"(Cannot use "extends" more than once in the same class.)"); } parse_extends(); end_statement("superclass"); } parse_class_body(multiline); complete_extents(n_class); if (multiline) { consume(GDScriptTokenizer::Token::DEDENT, R"(Missing unindent at the end of the class body.)"); } current_class = previous_class; return n_class; } void GDScriptParser::parse_class_name() { if (consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected identifier for the global class name after "class_name".)")) { current_class->identifier = parse_identifier(); } // TODO: Move this to annotation if (match(GDScriptTokenizer::Token::COMMA)) { // Icon path. if (consume(GDScriptTokenizer::Token::LITERAL, R"(Expected class icon path string after ",".)")) { if (previous.literal.get_type() != Variant::STRING) { push_error(vformat(R"(Only strings can be used for the class icon path, found "%s" instead.)", Variant::get_type_name(previous.literal.get_type()))); } current_class->icon_path = previous.literal; } } if (match(GDScriptTokenizer::Token::EXTENDS)) { // Allow extends on the same line. parse_extends(); end_statement("superclass"); } else { end_statement("class_name statement"); } } void GDScriptParser::parse_extends() { current_class->extends_used = true; int chain_index = 0; if (match(GDScriptTokenizer::Token::LITERAL)) { if (previous.literal.get_type() != Variant::STRING) { push_error(vformat(R"(Only strings or identifiers can be used after "extends", found "%s" instead.)", Variant::get_type_name(previous.literal.get_type()))); } current_class->extends_path = previous.literal; if (!match(GDScriptTokenizer::Token::PERIOD)) { return; } } make_completion_context(COMPLETION_INHERIT_TYPE, current_class, chain_index++); if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected superclass name after "extends".)")) { return; } current_class->extends.push_back(previous.literal); while (match(GDScriptTokenizer::Token::PERIOD)) { make_completion_context(COMPLETION_INHERIT_TYPE, current_class, chain_index++); if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected superclass name after ".".)")) { return; } current_class->extends.push_back(previous.literal); } } template void GDScriptParser::parse_class_member(T *(GDScriptParser::*p_parse_function)(), AnnotationInfo::TargetKind p_target, const String &p_member_kind) { advance(); #ifdef TOOLS_ENABLED int doc_comment_line = previous.start_line - 1; #endif // TOOLS_ENABLED // Consume annotations. List annotations; while (!annotation_stack.is_empty()) { AnnotationNode *last_annotation = annotation_stack.back()->get(); if (last_annotation->applies_to(p_target)) { annotations.push_front(last_annotation); annotation_stack.pop_back(); } else { push_error(vformat(R"(Annotation "%s" cannot be applied to a %s.)", last_annotation->name, p_member_kind)); clear_unused_annotations(); } #ifdef TOOLS_ENABLED if (last_annotation->start_line == doc_comment_line) { doc_comment_line--; } #endif // TOOLS_ENABLED } T *member = (this->*p_parse_function)(); if (member == nullptr) { return; } // Apply annotations. for (AnnotationNode *&annotation : annotations) { member->annotations.push_back(annotation); } #ifdef TOOLS_ENABLED // Consume doc comments. class_doc_line = MIN(class_doc_line, doc_comment_line - 1); if (has_comment(doc_comment_line)) { if constexpr (std::is_same_v) { get_class_doc_comment(doc_comment_line, member->doc_brief_description, member->doc_description, member->doc_tutorials, true); } else { member->doc_description = get_doc_comment(doc_comment_line); } } #endif // TOOLS_ENABLED if (member->identifier != nullptr) { if (!((String)member->identifier->name).is_empty()) { // Enums may be unnamed. #ifdef DEBUG_ENABLED List gdscript_funcs; GDScriptLanguage::get_singleton()->get_public_functions(&gdscript_funcs); for (MethodInfo &info : gdscript_funcs) { if (info.name == member->identifier->name) { push_warning(member->identifier, GDScriptWarning::SHADOWED_GLOBAL_IDENTIFIER, p_member_kind, member->identifier->name, "built-in function"); } } if (Variant::has_utility_function(member->identifier->name)) { push_warning(member->identifier, GDScriptWarning::SHADOWED_GLOBAL_IDENTIFIER, p_member_kind, member->identifier->name, "built-in function"); } #endif if (current_class->members_indices.has(member->identifier->name)) { push_error(vformat(R"(%s "%s" has the same name as a previously declared %s.)", p_member_kind.capitalize(), member->identifier->name, current_class->get_member(member->identifier->name).get_type_name()), member->identifier); } else { current_class->add_member(member); } } else { current_class->add_member(member); } } } void GDScriptParser::parse_class_body(bool p_is_multiline) { bool class_end = false; while (!class_end && !is_at_end()) { switch (current.type) { case GDScriptTokenizer::Token::VAR: parse_class_member(&GDScriptParser::parse_variable, AnnotationInfo::VARIABLE, "variable"); break; case GDScriptTokenizer::Token::CONST: parse_class_member(&GDScriptParser::parse_constant, AnnotationInfo::CONSTANT, "constant"); break; case GDScriptTokenizer::Token::SIGNAL: parse_class_member(&GDScriptParser::parse_signal, AnnotationInfo::SIGNAL, "signal"); break; case GDScriptTokenizer::Token::STATIC: case GDScriptTokenizer::Token::FUNC: parse_class_member(&GDScriptParser::parse_function, AnnotationInfo::FUNCTION, "function"); break; case GDScriptTokenizer::Token::CLASS: parse_class_member(&GDScriptParser::parse_class, AnnotationInfo::CLASS, "class"); break; case GDScriptTokenizer::Token::ENUM: parse_class_member(&GDScriptParser::parse_enum, AnnotationInfo::NONE, "enum"); break; case GDScriptTokenizer::Token::ANNOTATION: { advance(); // Check for class-level annotations. AnnotationNode *annotation = parse_annotation(AnnotationInfo::STANDALONE | AnnotationInfo::CLASS_LEVEL); if (annotation != nullptr) { if (annotation->applies_to(AnnotationInfo::STANDALONE)) { if (previous.type != GDScriptTokenizer::Token::NEWLINE) { push_error(R"(Expected newline after a standalone annotation.)"); } annotation->apply(this, head); } else { annotation_stack.push_back(annotation); } } break; } case GDScriptTokenizer::Token::PASS: advance(); end_statement(R"("pass")"); break; case GDScriptTokenizer::Token::DEDENT: class_end = true; break; default: // Display a completion with identifiers. make_completion_context(COMPLETION_IDENTIFIER, nullptr); push_error(vformat(R"(Unexpected "%s" in class body.)", current.get_name())); advance(); break; } if (panic_mode) { synchronize(); } if (!p_is_multiline) { class_end = true; } } } GDScriptParser::VariableNode *GDScriptParser::parse_variable() { return parse_variable(true); } GDScriptParser::VariableNode *GDScriptParser::parse_variable(bool p_allow_property) { VariableNode *variable = alloc_node(); if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected variable name after "var".)")) { complete_extents(variable); return nullptr; } variable->identifier = parse_identifier(); variable->export_info.name = variable->identifier->name; if (match(GDScriptTokenizer::Token::COLON)) { if (check(GDScriptTokenizer::Token::NEWLINE)) { if (p_allow_property) { advance(); return parse_property(variable, true); } else { push_error(R"(Expected type after ":")"); complete_extents(variable); return nullptr; } } else if (check((GDScriptTokenizer::Token::EQUAL))) { // Infer type. variable->infer_datatype = true; } else { if (p_allow_property) { make_completion_context(COMPLETION_PROPERTY_DECLARATION_OR_TYPE, variable); if (check(GDScriptTokenizer::Token::IDENTIFIER)) { // Check if get or set. if (current.get_identifier() == "get" || current.get_identifier() == "set") { return parse_property(variable, false); } } } // Parse type. variable->datatype_specifier = parse_type(); } } if (match(GDScriptTokenizer::Token::EQUAL)) { // Initializer. variable->initializer = parse_expression(false); if (variable->initializer == nullptr) { push_error(R"(Expected expression for variable initial value after "=".)"); } variable->assignments++; } if (p_allow_property && match(GDScriptTokenizer::Token::COLON)) { if (match(GDScriptTokenizer::Token::NEWLINE)) { return parse_property(variable, true); } else { return parse_property(variable, false); } } complete_extents(variable); end_statement("variable declaration"); return variable; } GDScriptParser::VariableNode *GDScriptParser::parse_property(VariableNode *p_variable, bool p_need_indent) { if (p_need_indent) { if (!consume(GDScriptTokenizer::Token::INDENT, R"(Expected indented block for property after ":".)")) { complete_extents(p_variable); return nullptr; } } VariableNode *property = p_variable; make_completion_context(COMPLETION_PROPERTY_DECLARATION, property); if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected "get" or "set" for property declaration.)")) { complete_extents(p_variable); return nullptr; } IdentifierNode *function = parse_identifier(); if (check(GDScriptTokenizer::Token::EQUAL)) { p_variable->property = VariableNode::PROP_SETGET; } else { p_variable->property = VariableNode::PROP_INLINE; if (!p_need_indent) { push_error("Property with inline code must go to an indented block."); } } bool getter_used = false; bool setter_used = false; // Run with a loop because order doesn't matter. for (int i = 0; i < 2; i++) { if (function->name == "set") { if (setter_used) { push_error(R"(Properties can only have one setter.)"); } else { parse_property_setter(property); setter_used = true; } } else if (function->name == "get") { if (getter_used) { push_error(R"(Properties can only have one getter.)"); } else { parse_property_getter(property); getter_used = true; } } else { // TODO: Update message to only have the missing one if it's the case. push_error(R"(Expected "get" or "set" for property declaration.)"); } if (i == 0 && p_variable->property == VariableNode::PROP_SETGET) { if (match(GDScriptTokenizer::Token::COMMA)) { // Consume potential newline. if (match(GDScriptTokenizer::Token::NEWLINE)) { if (!p_need_indent) { push_error(R"(Inline setter/getter setting cannot span across multiple lines (use "\\"" if needed).)"); } } } else { break; } } if (!match(GDScriptTokenizer::Token::IDENTIFIER)) { break; } function = parse_identifier(); } complete_extents(p_variable); if (p_variable->property == VariableNode::PROP_SETGET) { end_statement("property declaration"); } if (p_need_indent) { consume(GDScriptTokenizer::Token::DEDENT, R"(Expected end of indented block for property.)"); } return property; } void GDScriptParser::parse_property_setter(VariableNode *p_variable) { switch (p_variable->property) { case VariableNode::PROP_INLINE: { FunctionNode *function = alloc_node(); IdentifierNode *identifier = alloc_node(); complete_extents(identifier); identifier->name = "@" + p_variable->identifier->name + "_setter"; function->identifier = identifier; consume(GDScriptTokenizer::Token::PARENTHESIS_OPEN, R"(Expected "(" after "set".)"); ParameterNode *parameter = alloc_node(); if (consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected parameter name after "(".)")) { reset_extents(parameter, previous); p_variable->setter_parameter = parse_identifier(); parameter->identifier = p_variable->setter_parameter; function->parameters_indices[parameter->identifier->name] = 0; function->parameters.push_back(parameter); } complete_extents(parameter); consume(GDScriptTokenizer::Token::PARENTHESIS_CLOSE, R"*(Expected ")" after parameter name.)*"); consume(GDScriptTokenizer::Token::COLON, R"*(Expected ":" after ")".)*"); FunctionNode *previous_function = current_function; current_function = function; if (p_variable->setter_parameter != nullptr) { SuiteNode *body = alloc_node(); body->add_local(parameter, function); function->body = parse_suite("setter declaration", body); p_variable->setter = function; } current_function = previous_function; complete_extents(function); break; } case VariableNode::PROP_SETGET: consume(GDScriptTokenizer::Token::EQUAL, R"(Expected "=" after "set")"); make_completion_context(COMPLETION_PROPERTY_METHOD, p_variable); if (consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected setter function name after "=".)")) { p_variable->setter_pointer = parse_identifier(); } break; case VariableNode::PROP_NONE: break; // Unreachable. } } void GDScriptParser::parse_property_getter(VariableNode *p_variable) { switch (p_variable->property) { case VariableNode::PROP_INLINE: { FunctionNode *function = alloc_node(); consume(GDScriptTokenizer::Token::COLON, R"(Expected ":" after "get".)"); IdentifierNode *identifier = alloc_node(); complete_extents(identifier); identifier->name = "@" + p_variable->identifier->name + "_getter"; function->identifier = identifier; FunctionNode *previous_function = current_function; current_function = function; SuiteNode *body = alloc_node(); function->body = parse_suite("getter declaration", body); p_variable->getter = function; current_function = previous_function; complete_extents(function); break; } case VariableNode::PROP_SETGET: consume(GDScriptTokenizer::Token::EQUAL, R"(Expected "=" after "get")"); make_completion_context(COMPLETION_PROPERTY_METHOD, p_variable); if (consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected getter function name after "=".)")) { p_variable->getter_pointer = parse_identifier(); } break; case VariableNode::PROP_NONE: break; // Unreachable. } } GDScriptParser::ConstantNode *GDScriptParser::parse_constant() { ConstantNode *constant = alloc_node(); if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected constant name after "const".)")) { return nullptr; } constant->identifier = parse_identifier(); if (match(GDScriptTokenizer::Token::COLON)) { if (check((GDScriptTokenizer::Token::EQUAL))) { // Infer type. constant->infer_datatype = true; } else { // Parse type. constant->datatype_specifier = parse_type(); } } if (consume(GDScriptTokenizer::Token::EQUAL, R"(Expected initializer after constant name.)")) { // Initializer. constant->initializer = parse_expression(false); if (constant->initializer == nullptr) { push_error(R"(Expected initializer expression for constant.)"); complete_extents(constant); return nullptr; } } else { complete_extents(constant); return nullptr; } complete_extents(constant); end_statement("constant declaration"); return constant; } GDScriptParser::ParameterNode *GDScriptParser::parse_parameter() { if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected parameter name.)")) { return nullptr; } ParameterNode *parameter = alloc_node(); parameter->identifier = parse_identifier(); if (match(GDScriptTokenizer::Token::COLON)) { if (check((GDScriptTokenizer::Token::EQUAL))) { // Infer type. parameter->infer_datatype = true; } else { // Parse type. make_completion_context(COMPLETION_TYPE_NAME, parameter); parameter->datatype_specifier = parse_type(); } } if (match(GDScriptTokenizer::Token::EQUAL)) { // Default value. parameter->default_value = parse_expression(false); } complete_extents(parameter); return parameter; } GDScriptParser::SignalNode *GDScriptParser::parse_signal() { SignalNode *signal = alloc_node(); if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected signal name after "signal".)")) { complete_extents(signal); return nullptr; } signal->identifier = parse_identifier(); if (check(GDScriptTokenizer::Token::PARENTHESIS_OPEN)) { push_multiline(true); advance(); do { if (check(GDScriptTokenizer::Token::PARENTHESIS_CLOSE)) { // Allow for trailing comma. break; } ParameterNode *parameter = parse_parameter(); if (parameter == nullptr) { push_error("Expected signal parameter name."); break; } if (parameter->default_value != nullptr) { push_error(R"(Signal parameters cannot have a default value.)"); } if (signal->parameters_indices.has(parameter->identifier->name)) { push_error(vformat(R"(Parameter with name "%s" was already declared for this signal.)", parameter->identifier->name)); } else { signal->parameters_indices[parameter->identifier->name] = signal->parameters.size(); signal->parameters.push_back(parameter); } } while (match(GDScriptTokenizer::Token::COMMA) && !is_at_end()); pop_multiline(); consume(GDScriptTokenizer::Token::PARENTHESIS_CLOSE, R"*(Expected closing ")" after signal parameters.)*"); } complete_extents(signal); end_statement("signal declaration"); return signal; } GDScriptParser::EnumNode *GDScriptParser::parse_enum() { EnumNode *enum_node = alloc_node(); bool named = false; if (check(GDScriptTokenizer::Token::IDENTIFIER)) { advance(); enum_node->identifier = parse_identifier(); named = true; } push_multiline(true); consume(GDScriptTokenizer::Token::BRACE_OPEN, vformat(R"(Expected "{" after %s.)", named ? "enum name" : R"("enum")")); HashMap elements; #ifdef DEBUG_ENABLED List gdscript_funcs; GDScriptLanguage::get_singleton()->get_public_functions(&gdscript_funcs); #endif do { if (check(GDScriptTokenizer::Token::BRACE_CLOSE)) { break; // Allow trailing comma. } if (consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected identifier for enum key.)")) { EnumNode::Value item; GDScriptParser::IdentifierNode *identifier = parse_identifier(); #ifdef DEBUG_ENABLED for (MethodInfo &info : gdscript_funcs) { if (info.name == identifier->name) { push_warning(identifier, GDScriptWarning::SHADOWED_GLOBAL_IDENTIFIER, "enum member", identifier->name, "built-in function"); } } if (Variant::has_utility_function(identifier->name)) { push_warning(identifier, GDScriptWarning::SHADOWED_GLOBAL_IDENTIFIER, "enum member", identifier->name, "built-in function"); } else if (ClassDB::class_exists(identifier->name)) { push_warning(identifier, GDScriptWarning::SHADOWED_GLOBAL_IDENTIFIER, "enum member", identifier->name, "global class"); } #endif item.identifier = identifier; item.parent_enum = enum_node; item.line = previous.start_line; item.leftmost_column = previous.leftmost_column; item.rightmost_column = previous.rightmost_column; if (elements.has(item.identifier->name)) { push_error(vformat(R"(Name "%s" was already in this enum (at line %d).)", item.identifier->name, elements[item.identifier->name]), item.identifier); } else if (!named) { // TODO: Abstract this recursive member check. ClassNode *parent = current_class; while (parent != nullptr) { if (parent->members_indices.has(item.identifier->name)) { push_error(vformat(R"(Name "%s" is already used as a class %s.)", item.identifier->name, parent->get_member(item.identifier->name).get_type_name())); break; } parent = parent->outer; } } elements[item.identifier->name] = item.line; if (match(GDScriptTokenizer::Token::EQUAL)) { ExpressionNode *value = parse_expression(false); if (value == nullptr) { push_error(R"(Expected expression value after "=".)"); } item.custom_value = value; } item.index = enum_node->values.size(); enum_node->values.push_back(item); if (!named) { // Add as member of current class. current_class->add_member(item); } } } while (match(GDScriptTokenizer::Token::COMMA)); pop_multiline(); consume(GDScriptTokenizer::Token::BRACE_CLOSE, R"(Expected closing "}" for enum.)"); #ifdef TOOLS_ENABLED // Enum values documentation. for (int i = 0; i < enum_node->values.size(); i++) { if (i == enum_node->values.size() - 1) { // If close bracket is same line as last value. if (enum_node->values[i].line != previous.start_line && has_comment(enum_node->values[i].line)) { if (named) { enum_node->values.write[i].doc_description = get_doc_comment(enum_node->values[i].line, true); } else { current_class->set_enum_value_doc(enum_node->values[i].identifier->name, get_doc_comment(enum_node->values[i].line, true)); } } } else { // If two values are same line. if (enum_node->values[i].line != enum_node->values[i + 1].line && has_comment(enum_node->values[i].line)) { if (named) { enum_node->values.write[i].doc_description = get_doc_comment(enum_node->values[i].line, true); } else { current_class->set_enum_value_doc(enum_node->values[i].identifier->name, get_doc_comment(enum_node->values[i].line, true)); } } } } #endif // TOOLS_ENABLED complete_extents(enum_node); end_statement("enum"); return enum_node; } void GDScriptParser::parse_function_signature(FunctionNode *p_function, SuiteNode *p_body, const String &p_type) { if (!check(GDScriptTokenizer::Token::PARENTHESIS_CLOSE) && !is_at_end()) { bool default_used = false; do { if (check(GDScriptTokenizer::Token::PARENTHESIS_CLOSE)) { // Allow for trailing comma. break; } ParameterNode *parameter = parse_parameter(); if (parameter == nullptr) { break; } if (parameter->default_value != nullptr) { default_used = true; } else { if (default_used) { push_error("Cannot have a mandatory parameters after optional parameters."); continue; } } if (p_function->parameters_indices.has(parameter->identifier->name)) { push_error(vformat(R"(Parameter with name "%s" was already declared for this %s.)", parameter->identifier->name, p_type)); } else { p_function->parameters_indices[parameter->identifier->name] = p_function->parameters.size(); p_function->parameters.push_back(parameter); p_body->add_local(parameter, current_function); } } while (match(GDScriptTokenizer::Token::COMMA)); } pop_multiline(); consume(GDScriptTokenizer::Token::PARENTHESIS_CLOSE, vformat(R"*(Expected closing ")" after %s parameters.)*", p_type)); if (match(GDScriptTokenizer::Token::FORWARD_ARROW)) { make_completion_context(COMPLETION_TYPE_NAME_OR_VOID, p_function); p_function->return_type = parse_type(true); if (p_function->return_type == nullptr) { push_error(R"(Expected return type or "void" after "->".)"); } } // TODO: Improve token consumption so it synchronizes to a statement boundary. This way we can get into the function body with unrecognized tokens. consume(GDScriptTokenizer::Token::COLON, vformat(R"(Expected ":" after %s declaration.)", p_type)); } GDScriptParser::FunctionNode *GDScriptParser::parse_function() { FunctionNode *function = alloc_node(); bool _static = false; if (previous.type == GDScriptTokenizer::Token::STATIC) { // TODO: Improve message if user uses "static" with "var" or "const" if (!consume(GDScriptTokenizer::Token::FUNC, R"(Expected "func" after "static".)")) { complete_extents(function); return nullptr; } _static = true; } make_completion_context(COMPLETION_OVERRIDE_METHOD, function); if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected function name after "func".)")) { complete_extents(function); return nullptr; } FunctionNode *previous_function = current_function; current_function = function; function->identifier = parse_identifier(); function->is_static = _static; SuiteNode *body = alloc_node(); SuiteNode *previous_suite = current_suite; current_suite = body; push_multiline(true); consume(GDScriptTokenizer::Token::PARENTHESIS_OPEN, R"(Expected opening "(" after function name.)"); parse_function_signature(function, body, "function"); current_suite = previous_suite; function->body = parse_suite("function declaration", body); current_function = previous_function; complete_extents(function); return function; } GDScriptParser::AnnotationNode *GDScriptParser::parse_annotation(uint32_t p_valid_targets) { AnnotationNode *annotation = alloc_node(); annotation->name = previous.literal; make_completion_context(COMPLETION_ANNOTATION, annotation); bool valid = true; if (!valid_annotations.has(annotation->name)) { push_error(vformat(R"(Unrecognized annotation: "%s".)", annotation->name)); valid = false; } annotation->info = &valid_annotations[annotation->name]; if (!annotation->applies_to(p_valid_targets)) { push_error(vformat(R"(Annotation "%s" is not allowed in this level.)", annotation->name)); valid = false; } if (match(GDScriptTokenizer::Token::PARENTHESIS_OPEN)) { // Arguments. push_completion_call(annotation); make_completion_context(COMPLETION_ANNOTATION_ARGUMENTS, annotation, 0, true); if (!check(GDScriptTokenizer::Token::PARENTHESIS_CLOSE) && !is_at_end()) { push_multiline(true); int argument_index = 0; do { make_completion_context(COMPLETION_ANNOTATION_ARGUMENTS, annotation, argument_index, true); set_last_completion_call_arg(argument_index++); ExpressionNode *argument = parse_expression(false); if (argument == nullptr) { valid = false; continue; } annotation->arguments.push_back(argument); } while (match(GDScriptTokenizer::Token::COMMA)); pop_multiline(); consume(GDScriptTokenizer::Token::PARENTHESIS_CLOSE, R"*(Expected ")" after annotation arguments.)*"); } pop_completion_call(); } complete_extents(annotation); match(GDScriptTokenizer::Token::NEWLINE); // Newline after annotation is optional. if (valid) { valid = validate_annotation_arguments(annotation); } return valid ? annotation : nullptr; } void GDScriptParser::clear_unused_annotations() { for (const AnnotationNode *annotation : annotation_stack) { push_error(vformat(R"(Annotation "%s" does not precedes a valid target, so it will have no effect.)", annotation->name), annotation); } annotation_stack.clear(); } bool GDScriptParser::register_annotation(const MethodInfo &p_info, uint32_t p_target_kinds, AnnotationAction p_apply, const Vector &p_default_arguments, bool p_is_vararg) { ERR_FAIL_COND_V_MSG(valid_annotations.has(p_info.name), false, vformat(R"(Annotation "%s" already registered.)", p_info.name)); AnnotationInfo new_annotation; new_annotation.info = p_info; new_annotation.info.default_arguments = p_default_arguments; if (p_is_vararg) { new_annotation.info.flags |= METHOD_FLAG_VARARG; } new_annotation.apply = p_apply; new_annotation.target_kind = p_target_kinds; valid_annotations[p_info.name] = new_annotation; return true; } GDScriptParser::SuiteNode *GDScriptParser::parse_suite(const String &p_context, SuiteNode *p_suite, bool p_for_lambda) { SuiteNode *suite = p_suite != nullptr ? p_suite : alloc_node(); suite->parent_block = current_suite; suite->parent_function = current_function; current_suite = suite; bool multiline = false; if (match(GDScriptTokenizer::Token::NEWLINE)) { multiline = true; } if (multiline) { if (!consume(GDScriptTokenizer::Token::INDENT, vformat(R"(Expected indented block after %s.)", p_context))) { current_suite = suite->parent_block; complete_extents(suite); return suite; } } reset_extents(suite, current); int error_count = 0; do { if (!multiline && previous.type == GDScriptTokenizer::Token::SEMICOLON && check(GDScriptTokenizer::Token::NEWLINE)) { break; } Node *statement = parse_statement(); if (statement == nullptr) { if (error_count++ > 100) { push_error("Too many statement errors.", suite); break; } continue; } suite->statements.push_back(statement); // Register locals. switch (statement->type) { case Node::VARIABLE: { VariableNode *variable = static_cast(statement); const SuiteNode::Local &local = current_suite->get_local(variable->identifier->name); if (local.type != SuiteNode::Local::UNDEFINED) { push_error(vformat(R"(There is already a %s named "%s" declared in this scope.)", local.get_name(), variable->identifier->name)); } current_suite->add_local(variable, current_function); break; } case Node::CONSTANT: { ConstantNode *constant = static_cast(statement); const SuiteNode::Local &local = current_suite->get_local(constant->identifier->name); if (local.type != SuiteNode::Local::UNDEFINED) { String name; if (local.type == SuiteNode::Local::CONSTANT) { name = "constant"; } else { name = "variable"; } push_error(vformat(R"(There is already a %s named "%s" declared in this scope.)", name, constant->identifier->name)); } current_suite->add_local(constant, current_function); break; } default: break; } } while ((multiline || previous.type == GDScriptTokenizer::Token::SEMICOLON) && !check(GDScriptTokenizer::Token::DEDENT) && !lambda_ended && !is_at_end()); complete_extents(suite); if (multiline) { if (!lambda_ended) { consume(GDScriptTokenizer::Token::DEDENT, vformat(R"(Missing unindent at the end of %s.)", p_context)); } else { match(GDScriptTokenizer::Token::DEDENT); } } else if (previous.type == GDScriptTokenizer::Token::SEMICOLON) { consume(GDScriptTokenizer::Token::NEWLINE, vformat(R"(Expected newline after ";" at the end of %s.)", p_context)); } if (p_for_lambda) { lambda_ended = true; } current_suite = suite->parent_block; return suite; } GDScriptParser::Node *GDScriptParser::parse_statement() { Node *result = nullptr; #ifdef DEBUG_ENABLED bool unreachable = current_suite->has_return && !current_suite->has_unreachable_code; #endif bool is_annotation = false; switch (current.type) { case GDScriptTokenizer::Token::PASS: advance(); result = alloc_node(); complete_extents(result); end_statement(R"("pass")"); break; case GDScriptTokenizer::Token::VAR: advance(); result = parse_variable(); break; case GDScriptTokenizer::Token::CONST: advance(); result = parse_constant(); break; case GDScriptTokenizer::Token::IF: advance(); result = parse_if(); break; case GDScriptTokenizer::Token::FOR: advance(); result = parse_for(); break; case GDScriptTokenizer::Token::WHILE: advance(); result = parse_while(); break; case GDScriptTokenizer::Token::MATCH: advance(); result = parse_match(); break; case GDScriptTokenizer::Token::BREAK: advance(); result = parse_break(); break; case GDScriptTokenizer::Token::CONTINUE: advance(); result = parse_continue(); break; case GDScriptTokenizer::Token::RETURN: { advance(); ReturnNode *n_return = alloc_node(); if (!is_statement_end()) { if (current_function && current_function->identifier->name == GDScriptLanguage::get_singleton()->strings._init) { push_error(R"(Constructor cannot return a value.)"); } n_return->return_value = parse_expression(false); } else if (in_lambda && !is_statement_end_token()) { // Try to parse it anyway as this might not be the statement end in a lambda. // If this fails the expression will be nullptr, but that's the same as no return, so it's fine. n_return->return_value = parse_expression(false); } complete_extents(n_return); result = n_return; current_suite->has_return = true; end_statement("return statement"); break; } case GDScriptTokenizer::Token::BREAKPOINT: advance(); result = alloc_node(); complete_extents(result); end_statement(R"("breakpoint")"); break; case GDScriptTokenizer::Token::ASSERT: advance(); result = parse_assert(); break; case GDScriptTokenizer::Token::ANNOTATION: { advance(); is_annotation = true; AnnotationNode *annotation = parse_annotation(AnnotationInfo::STATEMENT); if (annotation != nullptr) { annotation_stack.push_back(annotation); } break; } default: { // Expression statement. ExpressionNode *expression = parse_expression(true); // Allow assignment here. bool has_ended_lambda = false; if (expression == nullptr) { if (in_lambda) { // If it's not a valid expression beginning, it might be the continuation of the outer expression where this lambda is. lambda_ended = true; has_ended_lambda = true; } else { advance(); push_error(vformat(R"(Expected statement, found "%s" instead.)", previous.get_name())); } } else { end_statement("expression"); } lambda_ended = lambda_ended || has_ended_lambda; result = expression; #ifdef DEBUG_ENABLED if (expression != nullptr) { switch (expression->type) { case Node::CALL: case Node::ASSIGNMENT: case Node::AWAIT: // Fine. break; case Node::LAMBDA: // Standalone lambdas can't be used, so make this an error. push_error("Standalone lambdas cannot be accessed. Consider assigning it to a variable.", expression); break; default: push_warning(expression, GDScriptWarning::STANDALONE_EXPRESSION); } } #endif break; } } // Apply annotations to statement. while (!is_annotation && result != nullptr && !annotation_stack.is_empty()) { AnnotationNode *last_annotation = annotation_stack.back()->get(); if (last_annotation->applies_to(AnnotationInfo::STATEMENT)) { result->annotations.push_front(last_annotation); annotation_stack.pop_back(); } else { push_error(vformat(R"(Annotation "%s" cannot be applied to a statement.)", last_annotation->name)); clear_unused_annotations(); } } #ifdef DEBUG_ENABLED if (unreachable && result != nullptr) { current_suite->has_unreachable_code = true; if (current_function) { push_warning(result, GDScriptWarning::UNREACHABLE_CODE, current_function->identifier ? current_function->identifier->name : ""); } else { // TODO: Properties setters and getters with unreachable code are not being warned } } #endif if (panic_mode) { synchronize(); } return result; } GDScriptParser::AssertNode *GDScriptParser::parse_assert() { // TODO: Add assert message. AssertNode *assert = alloc_node(); consume(GDScriptTokenizer::Token::PARENTHESIS_OPEN, R"(Expected "(" after "assert".)"); assert->condition = parse_expression(false); if (assert->condition == nullptr) { push_error("Expected expression to assert."); complete_extents(assert); return nullptr; } if (match(GDScriptTokenizer::Token::COMMA)) { // Error message. assert->message = parse_expression(false); if (assert->message == nullptr) { push_error(R"(Expected error message for assert after ",".)"); complete_extents(assert); return nullptr; } } consume(GDScriptTokenizer::Token::PARENTHESIS_CLOSE, R"*(Expected ")" after assert expression.)*"); complete_extents(assert); end_statement(R"("assert")"); return assert; } GDScriptParser::BreakNode *GDScriptParser::parse_break() { if (!can_break) { push_error(R"(Cannot use "break" outside of a loop.)"); } BreakNode *break_node = alloc_node(); complete_extents(break_node); end_statement(R"("break")"); return break_node; } GDScriptParser::ContinueNode *GDScriptParser::parse_continue() { if (!can_continue) { push_error(R"(Cannot use "continue" outside of a loop or pattern matching block.)"); } current_suite->has_continue = true; ContinueNode *cont = alloc_node(); cont->is_for_match = is_continue_match; complete_extents(cont); end_statement(R"("continue")"); return cont; } GDScriptParser::ForNode *GDScriptParser::parse_for() { ForNode *n_for = alloc_node(); if (consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected loop variable name after "for".)")) { n_for->variable = parse_identifier(); } consume(GDScriptTokenizer::Token::IN, R"(Expected "in" after "for" variable name.)"); n_for->list = parse_expression(false); if (!n_for->list) { push_error(R"(Expected a list or range after "in".)"); } consume(GDScriptTokenizer::Token::COLON, R"(Expected ":" after "for" condition.)"); // Save break/continue state. bool could_break = can_break; bool could_continue = can_continue; bool was_continue_match = is_continue_match; // Allow break/continue. can_break = true; can_continue = true; is_continue_match = false; SuiteNode *suite = alloc_node(); if (n_for->variable) { const SuiteNode::Local &local = current_suite->get_local(n_for->variable->name); if (local.type != SuiteNode::Local::UNDEFINED) { push_error(vformat(R"(There is already a %s named "%s" declared in this scope.)", local.get_name(), n_for->variable->name), n_for->variable); } suite->add_local(SuiteNode::Local(n_for->variable, current_function)); } suite->parent_for = n_for; n_for->loop = parse_suite(R"("for" block)", suite); complete_extents(n_for); // Reset break/continue state. can_break = could_break; can_continue = could_continue; is_continue_match = was_continue_match; return n_for; } GDScriptParser::IfNode *GDScriptParser::parse_if(const String &p_token) { IfNode *n_if = alloc_node(); n_if->condition = parse_expression(false); if (n_if->condition == nullptr) { push_error(vformat(R"(Expected conditional expression after "%s".)", p_token)); } consume(GDScriptTokenizer::Token::COLON, vformat(R"(Expected ":" after "%s" condition.)", p_token)); n_if->true_block = parse_suite(vformat(R"("%s" block)", p_token)); n_if->true_block->parent_if = n_if; if (n_if->true_block->has_continue) { current_suite->has_continue = true; } if (match(GDScriptTokenizer::Token::ELIF)) { SuiteNode *else_block = alloc_node(); IfNode *elif = parse_if("elif"); else_block->statements.push_back(elif); complete_extents(else_block); n_if->false_block = else_block; } else if (match(GDScriptTokenizer::Token::ELSE)) { consume(GDScriptTokenizer::Token::COLON, R"(Expected ":" after "else".)"); n_if->false_block = parse_suite(R"("else" block)"); } complete_extents(n_if); if (n_if->false_block != nullptr && n_if->false_block->has_return && n_if->true_block->has_return) { current_suite->has_return = true; } if (n_if->false_block != nullptr && n_if->false_block->has_continue) { current_suite->has_continue = true; } return n_if; } GDScriptParser::MatchNode *GDScriptParser::parse_match() { MatchNode *match = alloc_node(); match->test = parse_expression(false); if (match->test == nullptr) { push_error(R"(Expected expression to test after "match".)"); } consume(GDScriptTokenizer::Token::COLON, R"(Expected ":" after "match" expression.)"); consume(GDScriptTokenizer::Token::NEWLINE, R"(Expected a newline after "match" statement.)"); if (!consume(GDScriptTokenizer::Token::INDENT, R"(Expected an indented block after "match" statement.)")) { complete_extents(match); return match; } #ifdef DEBUG_ENABLED bool all_have_return = true; bool have_wildcard = false; bool have_wildcard_without_continue = false; #endif while (!check(GDScriptTokenizer::Token::DEDENT) && !is_at_end()) { MatchBranchNode *branch = parse_match_branch(); if (branch == nullptr) { advance(); continue; } #ifdef DEBUG_ENABLED if (have_wildcard_without_continue && !branch->patterns.is_empty()) { push_warning(branch->patterns[0], GDScriptWarning::UNREACHABLE_PATTERN); } if (branch->has_wildcard) { have_wildcard = true; if (!branch->block->has_continue) { have_wildcard_without_continue = true; } } if (!branch->block->has_return) { all_have_return = false; } #endif match->branches.push_back(branch); } complete_extents(match); consume(GDScriptTokenizer::Token::DEDENT, R"(Expected an indented block after "match" statement.)"); #ifdef DEBUG_ENABLED if (all_have_return && have_wildcard) { current_suite->has_return = true; } #endif return match; } GDScriptParser::MatchBranchNode *GDScriptParser::parse_match_branch() { MatchBranchNode *branch = alloc_node(); reset_extents(branch, current); bool has_bind = false; do { PatternNode *pattern = parse_match_pattern(); if (pattern == nullptr) { continue; } if (pattern->binds.size() > 0) { has_bind = true; } if (branch->patterns.size() > 0 && has_bind) { push_error(R"(Cannot use a variable bind with multiple patterns.)"); } if (pattern->pattern_type == PatternNode::PT_REST) { push_error(R"(Rest pattern can only be used inside array and dictionary patterns.)"); } else if (pattern->pattern_type == PatternNode::PT_BIND || pattern->pattern_type == PatternNode::PT_WILDCARD) { branch->has_wildcard = true; } branch->patterns.push_back(pattern); } while (match(GDScriptTokenizer::Token::COMMA)); if (branch->patterns.is_empty()) { push_error(R"(No pattern found for "match" branch.)"); } if (!consume(GDScriptTokenizer::Token::COLON, R"(Expected ":" after "match" patterns.)")) { complete_extents(branch); return nullptr; } // Save continue state. bool could_continue = can_continue; bool was_continue_match = is_continue_match; // Allow continue for match. can_continue = true; is_continue_match = true; SuiteNode *suite = alloc_node(); if (branch->patterns.size() > 0) { for (const KeyValue &E : branch->patterns[0]->binds) { SuiteNode::Local local(E.value, current_function); local.type = SuiteNode::Local::PATTERN_BIND; suite->add_local(local); } } branch->block = parse_suite("match pattern block", suite); complete_extents(branch); // Restore continue state. can_continue = could_continue; is_continue_match = was_continue_match; return branch; } GDScriptParser::PatternNode *GDScriptParser::parse_match_pattern(PatternNode *p_root_pattern) { PatternNode *pattern = alloc_node(); reset_extents(pattern, current); switch (current.type) { case GDScriptTokenizer::Token::VAR: { // Bind. advance(); if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected bind name after "var".)")) { complete_extents(pattern); return nullptr; } pattern->pattern_type = PatternNode::PT_BIND; pattern->bind = parse_identifier(); PatternNode *root_pattern = p_root_pattern == nullptr ? pattern : p_root_pattern; if (p_root_pattern != nullptr) { if (p_root_pattern->has_bind(pattern->bind->name)) { push_error(vformat(R"(Bind variable name "%s" was already used in this pattern.)", pattern->bind->name)); complete_extents(pattern); return nullptr; } } if (current_suite->has_local(pattern->bind->name)) { push_error(vformat(R"(There's already a %s named "%s" in this scope.)", current_suite->get_local(pattern->bind->name).get_name(), pattern->bind->name)); complete_extents(pattern); return nullptr; } root_pattern->binds[pattern->bind->name] = pattern->bind; } break; case GDScriptTokenizer::Token::UNDERSCORE: // Wildcard. advance(); pattern->pattern_type = PatternNode::PT_WILDCARD; break; case GDScriptTokenizer::Token::PERIOD_PERIOD: // Rest. advance(); pattern->pattern_type = PatternNode::PT_REST; break; case GDScriptTokenizer::Token::BRACKET_OPEN: { // Array. advance(); pattern->pattern_type = PatternNode::PT_ARRAY; if (!check(GDScriptTokenizer::Token::BRACKET_CLOSE)) { do { PatternNode *sub_pattern = parse_match_pattern(p_root_pattern != nullptr ? p_root_pattern : pattern); if (sub_pattern == nullptr) { continue; } if (pattern->rest_used) { push_error(R"(The ".." pattern must be the last element in the pattern array.)"); } else if (sub_pattern->pattern_type == PatternNode::PT_REST) { pattern->rest_used = true; } pattern->array.push_back(sub_pattern); } while (match(GDScriptTokenizer::Token::COMMA)); } consume(GDScriptTokenizer::Token::BRACKET_CLOSE, R"(Expected "]" to close the array pattern.)"); break; } case GDScriptTokenizer::Token::BRACE_OPEN: { // Dictionary. advance(); pattern->pattern_type = PatternNode::PT_DICTIONARY; do { if (check(GDScriptTokenizer::Token::BRACE_CLOSE) || is_at_end()) { break; } if (match(GDScriptTokenizer::Token::PERIOD_PERIOD)) { // Rest. if (pattern->rest_used) { push_error(R"(The ".." pattern must be the last element in the pattern dictionary.)"); } else { PatternNode *sub_pattern = alloc_node(); complete_extents(sub_pattern); sub_pattern->pattern_type = PatternNode::PT_REST; pattern->dictionary.push_back({ nullptr, sub_pattern }); pattern->rest_used = true; } } else { ExpressionNode *key = parse_expression(false); if (key == nullptr) { push_error(R"(Expected expression as key for dictionary pattern.)"); } if (match(GDScriptTokenizer::Token::COLON)) { // Value pattern. PatternNode *sub_pattern = parse_match_pattern(p_root_pattern != nullptr ? p_root_pattern : pattern); if (sub_pattern == nullptr) { continue; } if (pattern->rest_used) { push_error(R"(The ".." pattern must be the last element in the pattern dictionary.)"); } else if (sub_pattern->pattern_type == PatternNode::PT_REST) { push_error(R"(The ".." pattern cannot be used as a value.)"); } else { pattern->dictionary.push_back({ key, sub_pattern }); } } else { // Key match only. pattern->dictionary.push_back({ key, nullptr }); } } } while (match(GDScriptTokenizer::Token::COMMA)); consume(GDScriptTokenizer::Token::BRACE_CLOSE, R"(Expected "}" to close the dictionary pattern.)"); break; } default: { // Expression. ExpressionNode *expression = parse_expression(false); if (expression == nullptr) { push_error(R"(Expected expression for match pattern.)"); return nullptr; } else { if (expression->type == GDScriptParser::Node::LITERAL) { pattern->pattern_type = PatternNode::PT_LITERAL; } else { pattern->pattern_type = PatternNode::PT_EXPRESSION; } pattern->expression = expression; } break; } } complete_extents(pattern); return pattern; } bool GDScriptParser::PatternNode::has_bind(const StringName &p_name) { return binds.has(p_name); } GDScriptParser::IdentifierNode *GDScriptParser::PatternNode::get_bind(const StringName &p_name) { return binds[p_name]; } GDScriptParser::WhileNode *GDScriptParser::parse_while() { WhileNode *n_while = alloc_node(); n_while->condition = parse_expression(false); if (n_while->condition == nullptr) { push_error(R"(Expected conditional expression after "while".)"); } consume(GDScriptTokenizer::Token::COLON, R"(Expected ":" after "while" condition.)"); // Save break/continue state. bool could_break = can_break; bool could_continue = can_continue; bool was_continue_match = is_continue_match; // Allow break/continue. can_break = true; can_continue = true; is_continue_match = false; n_while->loop = parse_suite(R"("while" block)"); complete_extents(n_while); // Reset break/continue state. can_break = could_break; can_continue = could_continue; is_continue_match = was_continue_match; return n_while; } GDScriptParser::ExpressionNode *GDScriptParser::parse_precedence(Precedence p_precedence, bool p_can_assign, bool p_stop_on_assign) { // Switch multiline mode on for grouping tokens. // Do this early to avoid the tokenizer generating whitespace tokens. switch (current.type) { case GDScriptTokenizer::Token::PARENTHESIS_OPEN: case GDScriptTokenizer::Token::BRACE_OPEN: case GDScriptTokenizer::Token::BRACKET_OPEN: push_multiline(true); break; default: break; // Nothing to do. } // Completion can appear whenever an expression is expected. make_completion_context(COMPLETION_IDENTIFIER, nullptr); GDScriptTokenizer::Token token = current; ParseFunction prefix_rule = get_rule(token.type)->prefix; if (prefix_rule == nullptr) { // Expected expression. Let the caller give the proper error message. return nullptr; } advance(); // Only consume the token if there's a valid rule. ExpressionNode *previous_operand = (this->*prefix_rule)(nullptr, p_can_assign); while (p_precedence <= get_rule(current.type)->precedence) { if (previous_operand == nullptr || (p_stop_on_assign && current.type == GDScriptTokenizer::Token::EQUAL) || (previous_operand->type == Node::LAMBDA && lambda_ended)) { return previous_operand; } // Also switch multiline mode on here for infix operators. switch (current.type) { // case GDScriptTokenizer::Token::BRACE_OPEN: // Not an infix operator. case GDScriptTokenizer::Token::PARENTHESIS_OPEN: case GDScriptTokenizer::Token::BRACKET_OPEN: push_multiline(true); break; default: break; // Nothing to do. } token = advance(); ParseFunction infix_rule = get_rule(token.type)->infix; previous_operand = (this->*infix_rule)(previous_operand, p_can_assign); } return previous_operand; } GDScriptParser::ExpressionNode *GDScriptParser::parse_expression(bool p_can_assign, bool p_stop_on_assign) { return parse_precedence(PREC_ASSIGNMENT, p_can_assign, p_stop_on_assign); } GDScriptParser::IdentifierNode *GDScriptParser::parse_identifier() { return static_cast(parse_identifier(nullptr, false)); } GDScriptParser::ExpressionNode *GDScriptParser::parse_identifier(ExpressionNode *p_previous_operand, bool p_can_assign) { if (!previous.is_identifier()) { ERR_FAIL_V_MSG(nullptr, "Parser bug: parsing literal node without literal token."); } IdentifierNode *identifier = alloc_node(); complete_extents(identifier); identifier->name = previous.get_identifier(); if (current_suite != nullptr && current_suite->has_local(identifier->name)) { const SuiteNode::Local &declaration = current_suite->get_local(identifier->name); identifier->source_function = declaration.source_function; switch (declaration.type) { case SuiteNode::Local::CONSTANT: identifier->source = IdentifierNode::LOCAL_CONSTANT; identifier->constant_source = declaration.constant; declaration.constant->usages++; break; case SuiteNode::Local::VARIABLE: identifier->source = IdentifierNode::LOCAL_VARIABLE; identifier->variable_source = declaration.variable; declaration.variable->usages++; break; case SuiteNode::Local::PARAMETER: identifier->source = IdentifierNode::FUNCTION_PARAMETER; identifier->parameter_source = declaration.parameter; declaration.parameter->usages++; break; case SuiteNode::Local::FOR_VARIABLE: identifier->source = IdentifierNode::LOCAL_ITERATOR; identifier->bind_source = declaration.bind; declaration.bind->usages++; break; case SuiteNode::Local::PATTERN_BIND: identifier->source = IdentifierNode::LOCAL_BIND; identifier->bind_source = declaration.bind; declaration.bind->usages++; break; case SuiteNode::Local::UNDEFINED: ERR_FAIL_V_MSG(nullptr, "Undefined local found."); } } return identifier; } GDScriptParser::LiteralNode *GDScriptParser::parse_literal() { return static_cast(parse_literal(nullptr, false)); } GDScriptParser::ExpressionNode *GDScriptParser::parse_literal(ExpressionNode *p_previous_operand, bool p_can_assign) { if (previous.type != GDScriptTokenizer::Token::LITERAL) { push_error("Parser bug: parsing literal node without literal token."); ERR_FAIL_V_MSG(nullptr, "Parser bug: parsing literal node without literal token."); } LiteralNode *literal = alloc_node(); complete_extents(literal); literal->value = previous.literal; return literal; } GDScriptParser::ExpressionNode *GDScriptParser::parse_self(ExpressionNode *p_previous_operand, bool p_can_assign) { if (current_function && current_function->is_static) { push_error(R"(Cannot use "self" inside a static function.)"); } SelfNode *self = alloc_node(); complete_extents(self); self->current_class = current_class; return self; } GDScriptParser::ExpressionNode *GDScriptParser::parse_builtin_constant(ExpressionNode *p_previous_operand, bool p_can_assign) { GDScriptTokenizer::Token::Type op_type = previous.type; LiteralNode *constant = alloc_node(); complete_extents(constant); switch (op_type) { case GDScriptTokenizer::Token::CONST_PI: constant->value = Math_PI; break; case GDScriptTokenizer::Token::CONST_TAU: constant->value = Math_TAU; break; case GDScriptTokenizer::Token::CONST_INF: constant->value = INFINITY; break; case GDScriptTokenizer::Token::CONST_NAN: constant->value = NAN; break; default: return nullptr; // Unreachable. } return constant; } GDScriptParser::ExpressionNode *GDScriptParser::parse_unary_operator(ExpressionNode *p_previous_operand, bool p_can_assign) { GDScriptTokenizer::Token::Type op_type = previous.type; UnaryOpNode *operation = alloc_node(); switch (op_type) { case GDScriptTokenizer::Token::MINUS: operation->operation = UnaryOpNode::OP_NEGATIVE; operation->variant_op = Variant::OP_NEGATE; operation->operand = parse_precedence(PREC_SIGN, false); if (operation->operand == nullptr) { push_error(R"(Expected expression after "-" operator.)"); } break; case GDScriptTokenizer::Token::PLUS: operation->operation = UnaryOpNode::OP_POSITIVE; operation->variant_op = Variant::OP_POSITIVE; operation->operand = parse_precedence(PREC_SIGN, false); if (operation->operand == nullptr) { push_error(R"(Expected expression after "+" operator.)"); } break; case GDScriptTokenizer::Token::TILDE: operation->operation = UnaryOpNode::OP_COMPLEMENT; operation->variant_op = Variant::OP_BIT_NEGATE; operation->operand = parse_precedence(PREC_BIT_NOT, false); if (operation->operand == nullptr) { push_error(R"(Expected expression after "~" operator.)"); } break; case GDScriptTokenizer::Token::NOT: case GDScriptTokenizer::Token::BANG: operation->operation = UnaryOpNode::OP_LOGIC_NOT; operation->variant_op = Variant::OP_NOT; operation->operand = parse_precedence(PREC_LOGIC_NOT, false); if (operation->operand == nullptr) { push_error(vformat(R"(Expected expression after "%s" operator.)", op_type == GDScriptTokenizer::Token::NOT ? "not" : "!")); } break; default: complete_extents(operation); return nullptr; // Unreachable. } complete_extents(operation); return operation; } GDScriptParser::ExpressionNode *GDScriptParser::parse_binary_not_in_operator(ExpressionNode *p_previous_operand, bool p_can_assign) { // check that NOT is followed by IN by consuming it before calling parse_binary_operator which will only receive a plain IN UnaryOpNode *operation = alloc_node(); reset_extents(operation, p_previous_operand); update_extents(operation); consume(GDScriptTokenizer::Token::IN, R"(Expected "in" after "not" in content-test operator.)"); ExpressionNode *in_operation = parse_binary_operator(p_previous_operand, p_can_assign); operation->operation = UnaryOpNode::OP_LOGIC_NOT; operation->variant_op = Variant::OP_NOT; operation->operand = in_operation; complete_extents(operation); return operation; } GDScriptParser::ExpressionNode *GDScriptParser::parse_binary_operator(ExpressionNode *p_previous_operand, bool p_can_assign) { GDScriptTokenizer::Token op = previous; BinaryOpNode *operation = alloc_node(); reset_extents(operation, p_previous_operand); update_extents(operation); Precedence precedence = (Precedence)(get_rule(op.type)->precedence + 1); operation->left_operand = p_previous_operand; operation->right_operand = parse_precedence(precedence, false); complete_extents(operation); if (operation->right_operand == nullptr) { push_error(vformat(R"(Expected expression after "%s" operator.")", op.get_name())); } // TODO: Also for unary, ternary, and assignment. switch (op.type) { case GDScriptTokenizer::Token::PLUS: operation->operation = BinaryOpNode::OP_ADDITION; operation->variant_op = Variant::OP_ADD; break; case GDScriptTokenizer::Token::MINUS: operation->operation = BinaryOpNode::OP_SUBTRACTION; operation->variant_op = Variant::OP_SUBTRACT; break; case GDScriptTokenizer::Token::STAR: operation->operation = BinaryOpNode::OP_MULTIPLICATION; operation->variant_op = Variant::OP_MULTIPLY; break; case GDScriptTokenizer::Token::SLASH: operation->operation = BinaryOpNode::OP_DIVISION; operation->variant_op = Variant::OP_DIVIDE; break; case GDScriptTokenizer::Token::PERCENT: operation->operation = BinaryOpNode::OP_MODULO; operation->variant_op = Variant::OP_MODULE; break; case GDScriptTokenizer::Token::STAR_STAR: operation->operation = BinaryOpNode::OP_POWER; operation->variant_op = Variant::OP_POWER; break; case GDScriptTokenizer::Token::LESS_LESS: operation->operation = BinaryOpNode::OP_BIT_LEFT_SHIFT; operation->variant_op = Variant::OP_SHIFT_LEFT; break; case GDScriptTokenizer::Token::GREATER_GREATER: operation->operation = BinaryOpNode::OP_BIT_RIGHT_SHIFT; operation->variant_op = Variant::OP_SHIFT_RIGHT; break; case GDScriptTokenizer::Token::AMPERSAND: operation->operation = BinaryOpNode::OP_BIT_AND; operation->variant_op = Variant::OP_BIT_AND; break; case GDScriptTokenizer::Token::PIPE: operation->operation = BinaryOpNode::OP_BIT_OR; operation->variant_op = Variant::OP_BIT_OR; break; case GDScriptTokenizer::Token::CARET: operation->operation = BinaryOpNode::OP_BIT_XOR; operation->variant_op = Variant::OP_BIT_XOR; break; case GDScriptTokenizer::Token::AND: case GDScriptTokenizer::Token::AMPERSAND_AMPERSAND: operation->operation = BinaryOpNode::OP_LOGIC_AND; operation->variant_op = Variant::OP_AND; break; case GDScriptTokenizer::Token::OR: case GDScriptTokenizer::Token::PIPE_PIPE: operation->operation = BinaryOpNode::OP_LOGIC_OR; operation->variant_op = Variant::OP_OR; break; case GDScriptTokenizer::Token::IS: operation->operation = BinaryOpNode::OP_TYPE_TEST; break; case GDScriptTokenizer::Token::IN: operation->operation = BinaryOpNode::OP_CONTENT_TEST; operation->variant_op = Variant::OP_IN; break; case GDScriptTokenizer::Token::EQUAL_EQUAL: operation->operation = BinaryOpNode::OP_COMP_EQUAL; operation->variant_op = Variant::OP_EQUAL; break; case GDScriptTokenizer::Token::BANG_EQUAL: operation->operation = BinaryOpNode::OP_COMP_NOT_EQUAL; operation->variant_op = Variant::OP_NOT_EQUAL; break; case GDScriptTokenizer::Token::LESS: operation->operation = BinaryOpNode::OP_COMP_LESS; operation->variant_op = Variant::OP_LESS; break; case GDScriptTokenizer::Token::LESS_EQUAL: operation->operation = BinaryOpNode::OP_COMP_LESS_EQUAL; operation->variant_op = Variant::OP_LESS_EQUAL; break; case GDScriptTokenizer::Token::GREATER: operation->operation = BinaryOpNode::OP_COMP_GREATER; operation->variant_op = Variant::OP_GREATER; break; case GDScriptTokenizer::Token::GREATER_EQUAL: operation->operation = BinaryOpNode::OP_COMP_GREATER_EQUAL; operation->variant_op = Variant::OP_GREATER_EQUAL; break; default: return nullptr; // Unreachable. } return operation; } GDScriptParser::ExpressionNode *GDScriptParser::parse_ternary_operator(ExpressionNode *p_previous_operand, bool p_can_assign) { // Only one ternary operation exists, so no abstraction here. TernaryOpNode *operation = alloc_node(); reset_extents(operation, p_previous_operand); update_extents(operation); operation->true_expr = p_previous_operand; operation->condition = parse_precedence(PREC_TERNARY, false); if (operation->condition == nullptr) { push_error(R"(Expected expression as ternary condition after "if".)"); } consume(GDScriptTokenizer::Token::ELSE, R"(Expected "else" after ternary operator condition.)"); operation->false_expr = parse_precedence(PREC_TERNARY, false); if (operation->false_expr == nullptr) { push_error(R"(Expected expression after "else".)"); } complete_extents(operation); return operation; } GDScriptParser::ExpressionNode *GDScriptParser::parse_assignment(ExpressionNode *p_previous_operand, bool p_can_assign) { if (!p_can_assign) { push_error("Assignment is not allowed inside an expression."); return parse_expression(false); // Return the following expression. } if (p_previous_operand == nullptr) { return parse_expression(false); // Return the following expression. } #ifdef DEBUG_ENABLED VariableNode *source_variable = nullptr; #endif switch (p_previous_operand->type) { case Node::IDENTIFIER: { #ifdef DEBUG_ENABLED // Get source to store assignment count. // Also remove one usage since assignment isn't usage. IdentifierNode *id = static_cast(p_previous_operand); switch (id->source) { case IdentifierNode::LOCAL_VARIABLE: source_variable = id->variable_source; id->variable_source->usages--; break; case IdentifierNode::LOCAL_CONSTANT: id->constant_source->usages--; break; case IdentifierNode::FUNCTION_PARAMETER: id->parameter_source->usages--; break; case IdentifierNode::LOCAL_ITERATOR: case IdentifierNode::LOCAL_BIND: id->bind_source->usages--; break; default: break; } #endif } break; case Node::SUBSCRIPT: // Okay. break; default: push_error(R"(Only identifier, attribute access, and subscription access can be used as assignment target.)"); return parse_expression(false); // Return the following expression. } AssignmentNode *assignment = alloc_node(); reset_extents(assignment, p_previous_operand); update_extents(assignment); make_completion_context(COMPLETION_ASSIGN, assignment); #ifdef DEBUG_ENABLED bool has_operator = true; #endif switch (previous.type) { case GDScriptTokenizer::Token::EQUAL: assignment->operation = AssignmentNode::OP_NONE; assignment->variant_op = Variant::OP_MAX; #ifdef DEBUG_ENABLED has_operator = false; #endif break; case GDScriptTokenizer::Token::PLUS_EQUAL: assignment->operation = AssignmentNode::OP_ADDITION; assignment->variant_op = Variant::OP_ADD; break; case GDScriptTokenizer::Token::MINUS_EQUAL: assignment->operation = AssignmentNode::OP_SUBTRACTION; assignment->variant_op = Variant::OP_SUBTRACT; break; case GDScriptTokenizer::Token::STAR_EQUAL: assignment->operation = AssignmentNode::OP_MULTIPLICATION; assignment->variant_op = Variant::OP_MULTIPLY; break; case GDScriptTokenizer::Token::STAR_STAR_EQUAL: assignment->operation = AssignmentNode::OP_POWER; assignment->variant_op = Variant::OP_POWER; break; case GDScriptTokenizer::Token::SLASH_EQUAL: assignment->operation = AssignmentNode::OP_DIVISION; assignment->variant_op = Variant::OP_DIVIDE; break; case GDScriptTokenizer::Token::PERCENT_EQUAL: assignment->operation = AssignmentNode::OP_MODULO; assignment->variant_op = Variant::OP_MODULE; break; case GDScriptTokenizer::Token::LESS_LESS_EQUAL: assignment->operation = AssignmentNode::OP_BIT_SHIFT_LEFT; assignment->variant_op = Variant::OP_SHIFT_LEFT; break; case GDScriptTokenizer::Token::GREATER_GREATER_EQUAL: assignment->operation = AssignmentNode::OP_BIT_SHIFT_RIGHT; assignment->variant_op = Variant::OP_SHIFT_RIGHT; break; case GDScriptTokenizer::Token::AMPERSAND_EQUAL: assignment->operation = AssignmentNode::OP_BIT_AND; assignment->variant_op = Variant::OP_BIT_AND; break; case GDScriptTokenizer::Token::PIPE_EQUAL: assignment->operation = AssignmentNode::OP_BIT_OR; assignment->variant_op = Variant::OP_BIT_OR; break; case GDScriptTokenizer::Token::CARET_EQUAL: assignment->operation = AssignmentNode::OP_BIT_XOR; assignment->variant_op = Variant::OP_BIT_XOR; break; default: break; // Unreachable. } assignment->assignee = p_previous_operand; assignment->assigned_value = parse_expression(false); if (assignment->assigned_value == nullptr) { push_error(R"(Expected an expression after "=".)"); } complete_extents(assignment); #ifdef DEBUG_ENABLED if (source_variable != nullptr) { if (has_operator && source_variable->assignments == 0) { push_warning(assignment, GDScriptWarning::UNASSIGNED_VARIABLE_OP_ASSIGN, source_variable->identifier->name); } source_variable->assignments += 1; } #endif return assignment; } GDScriptParser::ExpressionNode *GDScriptParser::parse_await(ExpressionNode *p_previous_operand, bool p_can_assign) { AwaitNode *await = alloc_node(); ExpressionNode *element = parse_precedence(PREC_AWAIT, false); if (element == nullptr) { push_error(R"(Expected signal or coroutine after "await".)"); } await->to_await = element; complete_extents(await); if (current_function) { // Might be null in a getter or setter. current_function->is_coroutine = true; } return await; } GDScriptParser::ExpressionNode *GDScriptParser::parse_array(ExpressionNode *p_previous_operand, bool p_can_assign) { ArrayNode *array = alloc_node(); if (!check(GDScriptTokenizer::Token::BRACKET_CLOSE)) { do { if (check(GDScriptTokenizer::Token::BRACKET_CLOSE)) { // Allow for trailing comma. break; } ExpressionNode *element = parse_expression(false); if (element == nullptr) { push_error(R"(Expected expression as array element.)"); } else { array->elements.push_back(element); } } while (match(GDScriptTokenizer::Token::COMMA) && !is_at_end()); } pop_multiline(); consume(GDScriptTokenizer::Token::BRACKET_CLOSE, R"(Expected closing "]" after array elements.)"); complete_extents(array); return array; } GDScriptParser::ExpressionNode *GDScriptParser::parse_dictionary(ExpressionNode *p_previous_operand, bool p_can_assign) { DictionaryNode *dictionary = alloc_node(); bool decided_style = false; if (!check(GDScriptTokenizer::Token::BRACE_CLOSE)) { do { if (check(GDScriptTokenizer::Token::BRACE_CLOSE)) { // Allow for trailing comma. break; } // Key. ExpressionNode *key = parse_expression(false, true); // Stop on "=" so we can check for Lua table style. if (key == nullptr) { push_error(R"(Expected expression as dictionary key.)"); } if (!decided_style) { switch (current.type) { case GDScriptTokenizer::Token::COLON: dictionary->style = DictionaryNode::PYTHON_DICT; break; case GDScriptTokenizer::Token::EQUAL: dictionary->style = DictionaryNode::LUA_TABLE; break; default: push_error(R"(Expected ":" or "=" after dictionary key.)"); break; } decided_style = true; } switch (dictionary->style) { case DictionaryNode::LUA_TABLE: if (key != nullptr && key->type != Node::IDENTIFIER && key->type != Node::LITERAL) { push_error("Expected identifier or string as LUA-style dictionary key."); advance(); break; } if (key != nullptr && key->type == Node::LITERAL && static_cast(key)->value.get_type() != Variant::STRING) { push_error("Expected identifier or string as LUA-style dictionary key."); advance(); break; } if (!match(GDScriptTokenizer::Token::EQUAL)) { if (match(GDScriptTokenizer::Token::COLON)) { push_error(R"(Expected "=" after dictionary key. Mixing dictionary styles is not allowed.)"); advance(); // Consume wrong separator anyway. } else { push_error(R"(Expected "=" after dictionary key.)"); } } if (key != nullptr) { key->is_constant = true; if (key->type == Node::IDENTIFIER) { key->reduced_value = static_cast(key)->name; } else if (key->type == Node::LITERAL) { key->reduced_value = StringName(static_cast(key)->value.operator String()); } } break; case DictionaryNode::PYTHON_DICT: if (!match(GDScriptTokenizer::Token::COLON)) { if (match(GDScriptTokenizer::Token::EQUAL)) { push_error(R"(Expected ":" after dictionary key. Mixing dictionary styles is not allowed.)"); advance(); // Consume wrong separator anyway. } else { push_error(R"(Expected ":" after dictionary key.)"); } } break; } // Value. ExpressionNode *value = parse_expression(false); if (value == nullptr) { push_error(R"(Expected expression as dictionary value.)"); } if (key != nullptr && value != nullptr) { dictionary->elements.push_back({ key, value }); } } while (match(GDScriptTokenizer::Token::COMMA) && !is_at_end()); } pop_multiline(); consume(GDScriptTokenizer::Token::BRACE_CLOSE, R"(Expected closing "}" after dictionary elements.)"); complete_extents(dictionary); return dictionary; } GDScriptParser::ExpressionNode *GDScriptParser::parse_grouping(ExpressionNode *p_previous_operand, bool p_can_assign) { ExpressionNode *grouped = parse_expression(false); pop_multiline(); if (grouped == nullptr) { push_error(R"(Expected grouping expression.)"); } else { consume(GDScriptTokenizer::Token::PARENTHESIS_CLOSE, R"*(Expected closing ")" after grouping expression.)*"); } return grouped; } GDScriptParser::ExpressionNode *GDScriptParser::parse_attribute(ExpressionNode *p_previous_operand, bool p_can_assign) { SubscriptNode *attribute = alloc_node(); reset_extents(attribute, p_previous_operand); update_extents(attribute); if (for_completion) { bool is_builtin = false; if (p_previous_operand && p_previous_operand->type == Node::IDENTIFIER) { const IdentifierNode *id = static_cast(p_previous_operand); Variant::Type builtin_type = get_builtin_type(id->name); if (builtin_type < Variant::VARIANT_MAX) { make_completion_context(COMPLETION_BUILT_IN_TYPE_CONSTANT_OR_STATIC_METHOD, builtin_type, true); is_builtin = true; } } if (!is_builtin) { make_completion_context(COMPLETION_ATTRIBUTE, attribute, -1, true); } } attribute->base = p_previous_operand; if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected identifier after "." for attribute access.)")) { complete_extents(attribute); return attribute; } attribute->is_attribute = true; attribute->attribute = parse_identifier(); complete_extents(attribute); return attribute; } GDScriptParser::ExpressionNode *GDScriptParser::parse_subscript(ExpressionNode *p_previous_operand, bool p_can_assign) { SubscriptNode *subscript = alloc_node(); reset_extents(subscript, p_previous_operand); update_extents(subscript); make_completion_context(COMPLETION_SUBSCRIPT, subscript); subscript->base = p_previous_operand; subscript->index = parse_expression(false); if (subscript->index == nullptr) { push_error(R"(Expected expression after "[".)"); } pop_multiline(); consume(GDScriptTokenizer::Token::BRACKET_CLOSE, R"(Expected "]" after subscription index.)"); complete_extents(subscript); return subscript; } GDScriptParser::ExpressionNode *GDScriptParser::parse_cast(ExpressionNode *p_previous_operand, bool p_can_assign) { CastNode *cast = alloc_node(); reset_extents(cast, p_previous_operand); update_extents(cast); cast->operand = p_previous_operand; cast->cast_type = parse_type(); complete_extents(cast); if (cast->cast_type == nullptr) { push_error(R"(Expected type specifier after "as".)"); return p_previous_operand; } return cast; } GDScriptParser::ExpressionNode *GDScriptParser::parse_call(ExpressionNode *p_previous_operand, bool p_can_assign) { CallNode *call = alloc_node(); reset_extents(call, p_previous_operand); if (previous.type == GDScriptTokenizer::Token::SUPER) { // Super call. call->is_super = true; push_multiline(true); if (match(GDScriptTokenizer::Token::PARENTHESIS_OPEN)) { // Implicit call to the parent method of the same name. if (current_function == nullptr) { push_error(R"(Cannot use implicit "super" call outside of a function.)"); pop_multiline(); complete_extents(call); return nullptr; } if (current_function->identifier) { call->function_name = current_function->identifier->name; } else { call->function_name = SNAME(""); } } else { consume(GDScriptTokenizer::Token::PERIOD, R"(Expected "." or "(" after "super".)"); make_completion_context(COMPLETION_SUPER_METHOD, call, true); if (!consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected function name after ".".)")) { pop_multiline(); complete_extents(call); return nullptr; } IdentifierNode *identifier = parse_identifier(); call->callee = identifier; call->function_name = identifier->name; consume(GDScriptTokenizer::Token::PARENTHESIS_OPEN, R"(Expected "(" after function name.)"); } } else { call->callee = p_previous_operand; if (call->callee == nullptr) { push_error(R"*(Cannot call on an expression. Use ".call()" if it's a Callable.)*"); } else if (call->callee->type == Node::IDENTIFIER) { call->function_name = static_cast(call->callee)->name; make_completion_context(COMPLETION_METHOD, call->callee); } else if (call->callee->type == Node::SUBSCRIPT) { SubscriptNode *attribute = static_cast(call->callee); if (attribute->is_attribute) { if (attribute->attribute) { call->function_name = attribute->attribute->name; } make_completion_context(COMPLETION_ATTRIBUTE_METHOD, call->callee); } else { // TODO: The analyzer can see if this is actually a Callable and give better error message. push_error(R"*(Cannot call on an expression. Use ".call()" if it's a Callable.)*"); } } else { push_error(R"*(Cannot call on an expression. Use ".call()" if it's a Callable.)*"); } } // Arguments. CompletionType ct = COMPLETION_CALL_ARGUMENTS; if (call->function_name == "load") { ct = COMPLETION_RESOURCE_PATH; } push_completion_call(call); int argument_index = 0; do { make_completion_context(ct, call, argument_index++, true); if (check(GDScriptTokenizer::Token::PARENTHESIS_CLOSE)) { // Allow for trailing comma. break; } ExpressionNode *argument = parse_expression(false); if (argument == nullptr) { push_error(R"(Expected expression as the function argument.)"); } else { call->arguments.push_back(argument); } ct = COMPLETION_CALL_ARGUMENTS; } while (match(GDScriptTokenizer::Token::COMMA)); pop_completion_call(); pop_multiline(); consume(GDScriptTokenizer::Token::PARENTHESIS_CLOSE, R"*(Expected closing ")" after call arguments.)*"); complete_extents(call); return call; } GDScriptParser::ExpressionNode *GDScriptParser::parse_get_node(ExpressionNode *p_previous_operand, bool p_can_assign) { if (!current.is_node_name() && !check(GDScriptTokenizer::Token::LITERAL) && !check(GDScriptTokenizer::Token::SLASH) && !check(GDScriptTokenizer::Token::PERCENT)) { push_error(vformat(R"(Expected node path as string or identifier after "%s".)", previous.get_name())); return nullptr; } if (check(GDScriptTokenizer::Token::LITERAL)) { if (current.literal.get_type() != Variant::STRING) { push_error(vformat(R"(Expected node path as string or identifier after "%s".)", previous.get_name())); return nullptr; } } GetNodeNode *get_node = alloc_node(); // Store the last item in the path so the parser knows what to expect. // Allow allows more specific error messages. enum PathState { PATH_STATE_START, PATH_STATE_SLASH, PATH_STATE_PERCENT, PATH_STATE_NODE_NAME, } path_state = PATH_STATE_START; if (previous.type == GDScriptTokenizer::Token::DOLLAR) { // Detect initial slash, which will be handled in the loop if it matches. match(GDScriptTokenizer::Token::SLASH); #ifdef DEBUG_ENABLED } else { get_node->use_dollar = false; #endif } int context_argument = 0; do { if (previous.type == GDScriptTokenizer::Token::PERCENT) { if (path_state != PATH_STATE_START && path_state != PATH_STATE_SLASH) { push_error(R"("%" is only valid in the beginning of a node name (either after "$" or after "/"))"); complete_extents(get_node); return nullptr; } get_node->full_path += "%"; path_state = PATH_STATE_PERCENT; } else if (previous.type == GDScriptTokenizer::Token::SLASH) { if (path_state != PATH_STATE_START && path_state != PATH_STATE_NODE_NAME) { push_error(R"("/" is only valid at the beginning of the path or after a node name.)"); complete_extents(get_node); return nullptr; } get_node->full_path += "/"; path_state = PATH_STATE_SLASH; } make_completion_context(COMPLETION_GET_NODE, get_node, context_argument++); if (match(GDScriptTokenizer::Token::LITERAL)) { if (previous.literal.get_type() != Variant::STRING) { String previous_token; switch (path_state) { case PATH_STATE_START: previous_token = "$"; break; case PATH_STATE_PERCENT: previous_token = "%"; break; case PATH_STATE_SLASH: previous_token = "/"; break; default: break; } push_error(vformat(R"(Expected node path as string or identifier after "%s".)", previous_token)); complete_extents(get_node); return nullptr; } get_node->full_path += previous.literal.operator String(); path_state = PATH_STATE_NODE_NAME; } else if (current.is_node_name()) { advance(); get_node->full_path += previous.get_identifier(); path_state = PATH_STATE_NODE_NAME; } else if (!check(GDScriptTokenizer::Token::SLASH) && !check(GDScriptTokenizer::Token::PERCENT)) { push_error(vformat(R"(Unexpected "%s" in node path.)", current.get_name())); complete_extents(get_node); return nullptr; } } while (match(GDScriptTokenizer::Token::SLASH) || match(GDScriptTokenizer::Token::PERCENT)); complete_extents(get_node); return get_node; } GDScriptParser::ExpressionNode *GDScriptParser::parse_preload(ExpressionNode *p_previous_operand, bool p_can_assign) { PreloadNode *preload = alloc_node(); preload->resolved_path = ""; push_multiline(true); consume(GDScriptTokenizer::Token::PARENTHESIS_OPEN, R"(Expected "(" after "preload".)"); make_completion_context(COMPLETION_RESOURCE_PATH, preload); push_completion_call(preload); preload->path = parse_expression(false); if (preload->path == nullptr) { push_error(R"(Expected resource path after "(".)"); } pop_completion_call(); pop_multiline(); consume(GDScriptTokenizer::Token::PARENTHESIS_CLOSE, R"*(Expected ")" after preload path.)*"); complete_extents(preload); return preload; } GDScriptParser::ExpressionNode *GDScriptParser::parse_lambda(ExpressionNode *p_previous_operand, bool p_can_assign) { LambdaNode *lambda = alloc_node(); lambda->parent_function = current_function; FunctionNode *function = alloc_node(); function->source_lambda = lambda; function->is_static = current_function != nullptr ? current_function->is_static : false; if (match(GDScriptTokenizer::Token::IDENTIFIER)) { function->identifier = parse_identifier(); } bool multiline_context = multiline_stack.back()->get(); // Reset the multiline stack since we don't want the multiline mode one in the lambda body. push_multiline(false); if (multiline_context) { tokenizer.push_expression_indented_block(); } push_multiline(true); // For the parameters. if (function->identifier) { consume(GDScriptTokenizer::Token::PARENTHESIS_OPEN, R"(Expected opening "(" after lambda name.)"); } else { consume(GDScriptTokenizer::Token::PARENTHESIS_OPEN, R"(Expected opening "(" after "func".)"); } FunctionNode *previous_function = current_function; current_function = function; SuiteNode *body = alloc_node(); body->parent_function = current_function; body->parent_block = current_suite; SuiteNode *previous_suite = current_suite; current_suite = body; parse_function_signature(function, body, "lambda"); current_suite = previous_suite; bool previous_in_lambda = in_lambda; in_lambda = true; function->body = parse_suite("lambda declaration", body, true); complete_extents(function); complete_extents(lambda); pop_multiline(); if (multiline_context) { // If we're in multiline mode, we want to skip the spurious DEDENT and NEWLINE tokens. while (check(GDScriptTokenizer::Token::DEDENT) || check(GDScriptTokenizer::Token::INDENT) || check(GDScriptTokenizer::Token::NEWLINE)) { current = tokenizer.scan(); // Not advance() since we don't want to change the previous token. } tokenizer.pop_expression_indented_block(); } current_function = previous_function; in_lambda = previous_in_lambda; lambda->function = function; return lambda; } GDScriptParser::ExpressionNode *GDScriptParser::parse_yield(ExpressionNode *p_previous_operand, bool p_can_assign) { push_error(R"("yield" was removed in Godot 4.0. Use "await" instead.)"); return nullptr; } GDScriptParser::ExpressionNode *GDScriptParser::parse_invalid_token(ExpressionNode *p_previous_operand, bool p_can_assign) { // Just for better error messages. GDScriptTokenizer::Token::Type invalid = previous.type; switch (invalid) { case GDScriptTokenizer::Token::QUESTION_MARK: push_error(R"(Unexpected "?" in source. If you want a ternary operator, use "truthy_value if true_condition else falsy_value".)"); break; default: return nullptr; // Unreachable. } // Return the previous expression. return p_previous_operand; } GDScriptParser::TypeNode *GDScriptParser::parse_type(bool p_allow_void) { TypeNode *type = alloc_node(); make_completion_context(p_allow_void ? COMPLETION_TYPE_NAME_OR_VOID : COMPLETION_TYPE_NAME, type); if (!match(GDScriptTokenizer::Token::IDENTIFIER)) { if (match(GDScriptTokenizer::Token::VOID)) { if (p_allow_void) { complete_extents(type); TypeNode *void_type = type; return void_type; } else { push_error(R"("void" is only allowed for a function return type.)"); } } // Leave error message to the caller who knows the context. complete_extents(type); return nullptr; } IdentifierNode *type_element = parse_identifier(); type->type_chain.push_back(type_element); if (match(GDScriptTokenizer::Token::BRACKET_OPEN)) { // Typed collection (like Array[int]). type->container_type = parse_type(false); // Don't allow void for array element type. if (type->container_type == nullptr) { push_error(R"(Expected type for collection after "[".)"); complete_extents(type); type = nullptr; } else if (type->container_type->container_type != nullptr) { push_error("Nested typed collections are not supported."); } consume(GDScriptTokenizer::Token::BRACKET_CLOSE, R"(Expected closing "]" after collection type.)"); if (type != nullptr) { complete_extents(type); } return type; } int chain_index = 1; while (match(GDScriptTokenizer::Token::PERIOD)) { make_completion_context(COMPLETION_TYPE_ATTRIBUTE, type, chain_index++); if (consume(GDScriptTokenizer::Token::IDENTIFIER, R"(Expected inner type name after ".".)")) { type_element = parse_identifier(); type->type_chain.push_back(type_element); } } complete_extents(type); return type; } #ifdef TOOLS_ENABLED static bool _in_codeblock(String p_line, bool p_already_in, int *r_block_begins = nullptr) { int start_block = p_line.rfind("[codeblock]"); int end_block = p_line.rfind("[/codeblock]"); if (start_block != -1 && r_block_begins) { *r_block_begins = start_block; } if (p_already_in) { if (end_block == -1) { return true; } else if (start_block == -1) { return false; } else { return start_block > end_block; } } else { if (start_block == -1) { return false; } else if (end_block == -1) { return true; } else { return start_block > end_block; } } } bool GDScriptParser::has_comment(int p_line) { return tokenizer.get_comments().has(p_line); } String GDScriptParser::get_doc_comment(int p_line, bool p_single_line) { const HashMap &comments = tokenizer.get_comments(); ERR_FAIL_COND_V(!comments.has(p_line), String()); if (p_single_line) { if (comments[p_line].comment.begins_with("##")) { return comments[p_line].comment.trim_prefix("##").strip_edges(); } return ""; } String doc; int line = p_line; bool in_codeblock = false; while (comments.has(line - 1)) { if (!comments[line - 1].new_line || !comments[line - 1].comment.begins_with("##")) { break; } line--; } int codeblock_begins = 0; while (comments.has(line)) { if (!comments[line].new_line || !comments[line].comment.begins_with("##")) { break; } String doc_line = comments[line].comment.trim_prefix("##"); in_codeblock = _in_codeblock(doc_line, in_codeblock, &codeblock_begins); if (in_codeblock) { int i = 0; for (; i < codeblock_begins; i++) { if (doc_line[i] != ' ') { break; } } doc_line = doc_line.substr(i); } else { doc_line = doc_line.strip_edges(); } String line_join = (in_codeblock) ? "\n" : " "; doc = (doc.is_empty()) ? doc_line : doc + line_join + doc_line; line++; } return doc; } void GDScriptParser::get_class_doc_comment(int p_line, String &p_brief, String &p_desc, Vector> &p_tutorials, bool p_inner_class) { const HashMap &comments = tokenizer.get_comments(); if (!comments.has(p_line)) { return; } ERR_FAIL_COND(!p_brief.is_empty() || !p_desc.is_empty() || p_tutorials.size() != 0); int line = p_line; bool in_codeblock = false; enum Mode { BRIEF, DESC, TUTORIALS, DONE, }; Mode mode = BRIEF; if (p_inner_class) { while (comments.has(line - 1)) { if (!comments[line - 1].new_line || !comments[line - 1].comment.begins_with("##")) { break; } line--; } } int codeblock_begins = 0; while (comments.has(line)) { if (!comments[line].new_line || !comments[line].comment.begins_with("##")) { break; } String title, link; // For tutorials. String doc_line = comments[line++].comment.trim_prefix("##"); String stripped_line = doc_line.strip_edges(); // Set the read mode. if (stripped_line.is_empty() && mode == BRIEF && !p_brief.is_empty()) { mode = DESC; continue; } else if (stripped_line.begins_with("@tutorial")) { int begin_scan = String("@tutorial").length(); if (begin_scan >= stripped_line.length()) { continue; // invalid syntax. } if (stripped_line[begin_scan] == ':') { // No title. // Syntax: ## @tutorial: https://godotengine.org/ // The title argument is optional. title = ""; link = stripped_line.trim_prefix("@tutorial:").strip_edges(); } else { /* Syntax: * @tutorial ( The Title Here ) : https://the.url/ * ^ open ^ close ^ colon ^ url */ int open_bracket_pos = begin_scan, close_bracket_pos = 0; while (open_bracket_pos < stripped_line.length() && (stripped_line[open_bracket_pos] == ' ' || stripped_line[open_bracket_pos] == '\t')) { open_bracket_pos++; } if (open_bracket_pos == stripped_line.length() || stripped_line[open_bracket_pos++] != '(') { continue; // invalid syntax. } close_bracket_pos = open_bracket_pos; while (close_bracket_pos < stripped_line.length() && stripped_line[close_bracket_pos] != ')') { close_bracket_pos++; } if (close_bracket_pos == stripped_line.length()) { continue; // invalid syntax. } int colon_pos = close_bracket_pos + 1; while (colon_pos < stripped_line.length() && (stripped_line[colon_pos] == ' ' || stripped_line[colon_pos] == '\t')) { colon_pos++; } if (colon_pos == stripped_line.length() || stripped_line[colon_pos++] != ':') { continue; // invalid syntax. } title = stripped_line.substr(open_bracket_pos, close_bracket_pos - open_bracket_pos).strip_edges(); link = stripped_line.substr(colon_pos).strip_edges(); } mode = TUTORIALS; in_codeblock = false; } else if (stripped_line.is_empty()) { continue; } else { // Tutorial docs are single line, we need a @tag after it. if (mode == TUTORIALS) { mode = DONE; } in_codeblock = _in_codeblock(doc_line, in_codeblock, &codeblock_begins); } if (in_codeblock) { int i = 0; for (; i < codeblock_begins; i++) { if (doc_line[i] != ' ') { break; } } doc_line = doc_line.substr(i); } else { doc_line = stripped_line; } String line_join = (in_codeblock) ? "\n" : " "; switch (mode) { case BRIEF: p_brief = (p_brief.length() == 0) ? doc_line : p_brief + line_join + doc_line; break; case DESC: p_desc = (p_desc.length() == 0) ? doc_line : p_desc + line_join + doc_line; break; case TUTORIALS: p_tutorials.append(Pair(title, link)); break; case DONE: break; } } if (current_class->members.size() > 0) { const ClassNode::Member &m = current_class->members[0]; int first_member_line = m.get_line(); if (first_member_line == line) { p_brief = ""; p_desc = ""; p_tutorials.clear(); } } } #endif // TOOLS_ENABLED GDScriptParser::ParseRule *GDScriptParser::get_rule(GDScriptTokenizer::Token::Type p_token_type) { // Function table for expression parsing. // clang-format destroys the alignment here, so turn off for the table. /* clang-format off */ static ParseRule rules[] = { // PREFIX INFIX PRECEDENCE (for infix) { nullptr, nullptr, PREC_NONE }, // EMPTY, // Basic { nullptr, nullptr, PREC_NONE }, // ANNOTATION, { &GDScriptParser::parse_identifier, nullptr, PREC_NONE }, // IDENTIFIER, { &GDScriptParser::parse_literal, nullptr, PREC_NONE }, // LITERAL, // Comparison { nullptr, &GDScriptParser::parse_binary_operator, PREC_COMPARISON }, // LESS, { nullptr, &GDScriptParser::parse_binary_operator, PREC_COMPARISON }, // LESS_EQUAL, { nullptr, &GDScriptParser::parse_binary_operator, PREC_COMPARISON }, // GREATER, { nullptr, &GDScriptParser::parse_binary_operator, PREC_COMPARISON }, // GREATER_EQUAL, { nullptr, &GDScriptParser::parse_binary_operator, PREC_COMPARISON }, // EQUAL_EQUAL, { nullptr, &GDScriptParser::parse_binary_operator, PREC_COMPARISON }, // BANG_EQUAL, // Logical { nullptr, &GDScriptParser::parse_binary_operator, PREC_LOGIC_AND }, // AND, { nullptr, &GDScriptParser::parse_binary_operator, PREC_LOGIC_OR }, // OR, { &GDScriptParser::parse_unary_operator, &GDScriptParser::parse_binary_not_in_operator, PREC_CONTENT_TEST }, // NOT, { nullptr, &GDScriptParser::parse_binary_operator, PREC_LOGIC_AND }, // AMPERSAND_AMPERSAND, { nullptr, &GDScriptParser::parse_binary_operator, PREC_LOGIC_OR }, // PIPE_PIPE, { &GDScriptParser::parse_unary_operator, nullptr, PREC_NONE }, // BANG, // Bitwise { nullptr, &GDScriptParser::parse_binary_operator, PREC_BIT_AND }, // AMPERSAND, { nullptr, &GDScriptParser::parse_binary_operator, PREC_BIT_OR }, // PIPE, { &GDScriptParser::parse_unary_operator, nullptr, PREC_NONE }, // TILDE, { nullptr, &GDScriptParser::parse_binary_operator, PREC_BIT_XOR }, // CARET, { nullptr, &GDScriptParser::parse_binary_operator, PREC_BIT_SHIFT }, // LESS_LESS, { nullptr, &GDScriptParser::parse_binary_operator, PREC_BIT_SHIFT }, // GREATER_GREATER, // Math { &GDScriptParser::parse_unary_operator, &GDScriptParser::parse_binary_operator, PREC_ADDITION_SUBTRACTION }, // PLUS, { &GDScriptParser::parse_unary_operator, &GDScriptParser::parse_binary_operator, PREC_ADDITION_SUBTRACTION }, // MINUS, { nullptr, &GDScriptParser::parse_binary_operator, PREC_FACTOR }, // STAR, { nullptr, &GDScriptParser::parse_binary_operator, PREC_POWER }, // STAR_STAR, { nullptr, &GDScriptParser::parse_binary_operator, PREC_FACTOR }, // SLASH, { &GDScriptParser::parse_get_node, &GDScriptParser::parse_binary_operator, PREC_FACTOR }, // PERCENT, // Assignment { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // PLUS_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // MINUS_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // STAR_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // STAR_STAR_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // SLASH_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // PERCENT_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // LESS_LESS_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // GREATER_GREATER_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // AMPERSAND_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // PIPE_EQUAL, { nullptr, &GDScriptParser::parse_assignment, PREC_ASSIGNMENT }, // CARET_EQUAL, // Control flow { nullptr, &GDScriptParser::parse_ternary_operator, PREC_TERNARY }, // IF, { nullptr, nullptr, PREC_NONE }, // ELIF, { nullptr, nullptr, PREC_NONE }, // ELSE, { nullptr, nullptr, PREC_NONE }, // FOR, { nullptr, nullptr, PREC_NONE }, // WHILE, { nullptr, nullptr, PREC_NONE }, // BREAK, { nullptr, nullptr, PREC_NONE }, // CONTINUE, { nullptr, nullptr, PREC_NONE }, // PASS, { nullptr, nullptr, PREC_NONE }, // RETURN, { nullptr, nullptr, PREC_NONE }, // MATCH, // Keywords { nullptr, &GDScriptParser::parse_cast, PREC_CAST }, // AS, { nullptr, nullptr, PREC_NONE }, // ASSERT, { &GDScriptParser::parse_await, nullptr, PREC_NONE }, // AWAIT, { nullptr, nullptr, PREC_NONE }, // BREAKPOINT, { nullptr, nullptr, PREC_NONE }, // CLASS, { nullptr, nullptr, PREC_NONE }, // CLASS_NAME, { nullptr, nullptr, PREC_NONE }, // CONST, { nullptr, nullptr, PREC_NONE }, // ENUM, { nullptr, nullptr, PREC_NONE }, // EXTENDS, { &GDScriptParser::parse_lambda, nullptr, PREC_NONE }, // FUNC, { nullptr, &GDScriptParser::parse_binary_operator, PREC_CONTENT_TEST }, // IN, { nullptr, &GDScriptParser::parse_binary_operator, PREC_TYPE_TEST }, // IS, { nullptr, nullptr, PREC_NONE }, // NAMESPACE, { &GDScriptParser::parse_preload, nullptr, PREC_NONE }, // PRELOAD, { &GDScriptParser::parse_self, nullptr, PREC_NONE }, // SELF, { nullptr, nullptr, PREC_NONE }, // SIGNAL, { nullptr, nullptr, PREC_NONE }, // STATIC, { &GDScriptParser::parse_call, nullptr, PREC_NONE }, // SUPER, { nullptr, nullptr, PREC_NONE }, // TRAIT, { nullptr, nullptr, PREC_NONE }, // VAR, { nullptr, nullptr, PREC_NONE }, // VOID, { &GDScriptParser::parse_yield, nullptr, PREC_NONE }, // YIELD, // Punctuation { &GDScriptParser::parse_array, &GDScriptParser::parse_subscript, PREC_SUBSCRIPT }, // BRACKET_OPEN, { nullptr, nullptr, PREC_NONE }, // BRACKET_CLOSE, { &GDScriptParser::parse_dictionary, nullptr, PREC_NONE }, // BRACE_OPEN, { nullptr, nullptr, PREC_NONE }, // BRACE_CLOSE, { &GDScriptParser::parse_grouping, &GDScriptParser::parse_call, PREC_CALL }, // PARENTHESIS_OPEN, { nullptr, nullptr, PREC_NONE }, // PARENTHESIS_CLOSE, { nullptr, nullptr, PREC_NONE }, // COMMA, { nullptr, nullptr, PREC_NONE }, // SEMICOLON, { nullptr, &GDScriptParser::parse_attribute, PREC_ATTRIBUTE }, // PERIOD, { nullptr, nullptr, PREC_NONE }, // PERIOD_PERIOD, { nullptr, nullptr, PREC_NONE }, // COLON, { &GDScriptParser::parse_get_node, nullptr, PREC_NONE }, // DOLLAR, { nullptr, nullptr, PREC_NONE }, // FORWARD_ARROW, { nullptr, nullptr, PREC_NONE }, // UNDERSCORE, // Whitespace { nullptr, nullptr, PREC_NONE }, // NEWLINE, { nullptr, nullptr, PREC_NONE }, // INDENT, { nullptr, nullptr, PREC_NONE }, // DEDENT, // Constants { &GDScriptParser::parse_builtin_constant, nullptr, PREC_NONE }, // CONST_PI, { &GDScriptParser::parse_builtin_constant, nullptr, PREC_NONE }, // CONST_TAU, { &GDScriptParser::parse_builtin_constant, nullptr, PREC_NONE }, // CONST_INF, { &GDScriptParser::parse_builtin_constant, nullptr, PREC_NONE }, // CONST_NAN, // Error message improvement { nullptr, nullptr, PREC_NONE }, // VCS_CONFLICT_MARKER, { nullptr, nullptr, PREC_NONE }, // BACKTICK, { nullptr, &GDScriptParser::parse_invalid_token, PREC_CAST }, // QUESTION_MARK, // Special { nullptr, nullptr, PREC_NONE }, // ERROR, { nullptr, nullptr, PREC_NONE }, // TK_EOF, }; /* clang-format on */ // Avoid desync. static_assert(sizeof(rules) / sizeof(rules[0]) == GDScriptTokenizer::Token::TK_MAX, "Amount of parse rules don't match the amount of token types."); // Let's assume this is never invalid, since nothing generates a TK_MAX. return &rules[p_token_type]; } bool GDScriptParser::SuiteNode::has_local(const StringName &p_name) const { if (locals_indices.has(p_name)) { return true; } if (parent_block != nullptr) { return parent_block->has_local(p_name); } return false; } const GDScriptParser::SuiteNode::Local &GDScriptParser::SuiteNode::get_local(const StringName &p_name) const { if (locals_indices.has(p_name)) { return locals[locals_indices[p_name]]; } if (parent_block != nullptr) { return parent_block->get_local(p_name); } return empty; } bool GDScriptParser::AnnotationNode::apply(GDScriptParser *p_this, Node *p_target) const { return (p_this->*(p_this->valid_annotations[name].apply))(this, p_target); } bool GDScriptParser::AnnotationNode::applies_to(uint32_t p_target_kinds) const { return (info->target_kind & p_target_kinds) > 0; } bool GDScriptParser::validate_annotation_arguments(AnnotationNode *p_annotation) { ERR_FAIL_COND_V_MSG(!valid_annotations.has(p_annotation->name), false, vformat(R"(Annotation "%s" not found to validate.)", p_annotation->name)); const MethodInfo &info = valid_annotations[p_annotation->name].info; if (((info.flags & METHOD_FLAG_VARARG) == 0) && p_annotation->arguments.size() > info.arguments.size()) { push_error(vformat(R"(Annotation "%s" requires at most %d arguments, but %d were given.)", p_annotation->name, info.arguments.size(), p_annotation->arguments.size())); return false; } if (p_annotation->arguments.size() < info.arguments.size() - info.default_arguments.size()) { push_error(vformat(R"(Annotation "%s" requires at least %d arguments, but %d were given.)", p_annotation->name, info.arguments.size() - info.default_arguments.size(), p_annotation->arguments.size())); return false; } const List::Element *E = info.arguments.front(); for (int i = 0; i < p_annotation->arguments.size(); i++) { ExpressionNode *argument = p_annotation->arguments[i]; const PropertyInfo ¶meter = E->get(); if (E->next() != nullptr) { E = E->next(); } switch (parameter.type) { case Variant::STRING: case Variant::STRING_NAME: case Variant::NODE_PATH: // Allow "quote-less strings", as long as they are recognized as identifiers. if (argument->type == Node::IDENTIFIER) { IdentifierNode *string = static_cast(argument); Callable::CallError error; Vector args = varray(string->name); const Variant *name = args.ptr(); Variant r; Variant::construct(parameter.type, r, &(name), 1, error); p_annotation->resolved_arguments.push_back(r); if (error.error != Callable::CallError::CALL_OK) { push_error(vformat(R"(Expected %s as argument %d of annotation "%s".)", Variant::get_type_name(parameter.type), i + 1, p_annotation->name)); p_annotation->resolved_arguments.remove_at(p_annotation->resolved_arguments.size() - 1); return false; } break; } [[fallthrough]]; default: { if (argument->type != Node::LITERAL) { push_error(vformat(R"(Expected %s as argument %d of annotation "%s".)", Variant::get_type_name(parameter.type), i + 1, p_annotation->name)); return false; } Variant value = static_cast(argument)->value; if (!Variant::can_convert_strict(value.get_type(), parameter.type)) { push_error(vformat(R"(Expected %s as argument %d of annotation "%s".)", Variant::get_type_name(parameter.type), i + 1, p_annotation->name)); return false; } Callable::CallError error; const Variant *args = &value; Variant r; Variant::construct(parameter.type, r, &(args), 1, error); p_annotation->resolved_arguments.push_back(r); if (error.error != Callable::CallError::CALL_OK) { push_error(vformat(R"(Expected %s as argument %d of annotation "%s".)", Variant::get_type_name(parameter.type), i + 1, p_annotation->name)); p_annotation->resolved_arguments.remove_at(p_annotation->resolved_arguments.size() - 1); return false; } break; } } } return true; } bool GDScriptParser::tool_annotation(const AnnotationNode *p_annotation, Node *p_node) { this->_is_tool = true; return true; } bool GDScriptParser::icon_annotation(const AnnotationNode *p_annotation, Node *p_node) { ERR_FAIL_COND_V_MSG(p_node->type != Node::CLASS, false, R"("@icon" annotation can only be applied to classes.)"); ClassNode *p_class = static_cast(p_node); p_class->icon_path = p_annotation->resolved_arguments[0]; return true; } bool GDScriptParser::onready_annotation(const AnnotationNode *p_annotation, Node *p_node) { ERR_FAIL_COND_V_MSG(p_node->type != Node::VARIABLE, false, R"("@onready" annotation can only be applied to class variables.)"); VariableNode *variable = static_cast(p_node); if (variable->onready) { push_error(R"("@onready" annotation can only be used once per variable.)"); return false; } variable->onready = true; current_class->onready_used = true; return true; } template bool GDScriptParser::export_annotations(const AnnotationNode *p_annotation, Node *p_node) { ERR_FAIL_COND_V_MSG(p_node->type != Node::VARIABLE, false, vformat(R"("%s" annotation can only be applied to variables.)", p_annotation->name)); { const int max_flags = 32; if (t_hint == PropertyHint::PROPERTY_HINT_FLAGS && p_annotation->resolved_arguments.size() > max_flags) { push_error(vformat(R"(The argument count limit for "@export_flags" is exceeded (%d/%d).)", p_annotation->resolved_arguments.size(), max_flags), p_annotation); return false; } } VariableNode *variable = static_cast(p_node); if (variable->exported) { push_error(vformat(R"(Annotation "%s" cannot be used with another "@export" annotation.)", p_annotation->name), p_annotation); return false; } variable->exported = true; variable->export_info.type = t_type; variable->export_info.hint = t_hint; String hint_string; for (int i = 0; i < p_annotation->resolved_arguments.size(); i++) { if (i > 0) { hint_string += ","; } hint_string += String(p_annotation->resolved_arguments[i]); } variable->export_info.hint_string = hint_string; // This is called after the analyzer is done finding the type, so this should be set here. DataType export_type = variable->get_datatype(); if (p_annotation->name == SNAME("@export")) { if (variable->datatype_specifier == nullptr && variable->initializer == nullptr) { push_error(R"(Cannot use simple "@export" annotation with variable without type or initializer, since type can't be inferred.)", p_annotation); return false; } bool is_array = false; if (export_type.builtin_type == Variant::ARRAY && export_type.has_container_element_type()) { export_type = export_type.get_container_element_type(); // Use inner type for. is_array = true; } if (export_type.is_variant() || export_type.has_no_type()) { push_error(R"(Cannot use simple "@export" annotation because the type of the initialized value can't be inferred.)", p_annotation); return false; } switch (export_type.kind) { case GDScriptParser::DataType::BUILTIN: variable->export_info.type = export_type.builtin_type; variable->export_info.hint = PROPERTY_HINT_NONE; variable->export_info.hint_string = Variant::get_type_name(export_type.builtin_type); break; case GDScriptParser::DataType::NATIVE: if (ClassDB::is_parent_class(export_type.native_type, SNAME("Resource"))) { variable->export_info.type = Variant::OBJECT; variable->export_info.hint = PROPERTY_HINT_RESOURCE_TYPE; variable->export_info.hint_string = export_type.native_type; } else if (ClassDB::is_parent_class(export_type.native_type, SNAME("Node"))) { variable->export_info.type = Variant::OBJECT; variable->export_info.hint = PROPERTY_HINT_NODE_TYPE; variable->export_info.hint_string = export_type.native_type; } else { push_error(R"(Export type can only be built-in, a resource, a node, or an enum.)", variable); return false; } break; case GDScriptParser::DataType::ENUM: { variable->export_info.type = Variant::INT; variable->export_info.hint = PROPERTY_HINT_ENUM; String enum_hint_string; bool first = true; for (const KeyValue &E : export_type.enum_values) { if (!first) { enum_hint_string += ","; } else { first = false; } enum_hint_string += E.key.operator String().capitalize().xml_escape(); enum_hint_string += ":"; enum_hint_string += String::num_int64(E.value).xml_escape(); } variable->export_info.hint_string = enum_hint_string; } break; default: // TODO: Allow custom user resources. push_error(R"(Export type can only be built-in, a resource, or an enum.)", variable); break; } if (is_array) { String hint_prefix = itos(variable->export_info.type); if (variable->export_info.hint) { hint_prefix += "/" + itos(variable->export_info.hint); } variable->export_info.hint = PROPERTY_HINT_TYPE_STRING; variable->export_info.hint_string = hint_prefix + ":" + variable->export_info.hint_string; variable->export_info.type = Variant::ARRAY; } } else { // Validate variable type with export. if (!export_type.is_variant() && (export_type.kind != DataType::BUILTIN || export_type.builtin_type != t_type)) { // Allow float/int conversion. if ((t_type != Variant::FLOAT || export_type.builtin_type != Variant::INT) && (t_type != Variant::INT || export_type.builtin_type != Variant::FLOAT)) { push_error(vformat(R"("%s" annotation requires a variable of type "%s" but type "%s" was given instead.)", p_annotation->name.operator String(), Variant::get_type_name(t_type), export_type.to_string()), variable); return false; } } } return true; } template bool GDScriptParser::export_group_annotations(const AnnotationNode *p_annotation, Node *p_node) { AnnotationNode *annotation = const_cast(p_annotation); annotation->export_info.name = annotation->resolved_arguments[0]; switch (t_usage) { case PROPERTY_USAGE_CATEGORY: { annotation->export_info.usage = t_usage; } break; case PROPERTY_USAGE_GROUP: { annotation->export_info.usage = t_usage; if (annotation->resolved_arguments.size() == 2) { annotation->export_info.hint_string = annotation->resolved_arguments[1]; } } break; case PROPERTY_USAGE_SUBGROUP: { annotation->export_info.usage = t_usage; if (annotation->resolved_arguments.size() == 2) { annotation->export_info.hint_string = annotation->resolved_arguments[1]; } } break; } current_class->add_member_group(annotation); return true; } bool GDScriptParser::warning_annotations(const AnnotationNode *p_annotation, Node *p_node) { #ifdef DEBUG_ENABLED bool has_error = false; for (const Variant &warning_name : p_annotation->resolved_arguments) { GDScriptWarning::Code warning = GDScriptWarning::get_code_from_name(String(warning_name).to_upper()); if (warning == GDScriptWarning::WARNING_MAX) { push_error(vformat(R"(Invalid warning name: "%s".)", warning_name), p_annotation); has_error = true; } else { p_node->ignored_warnings.push_back(warning); } } return !has_error; #else // ! DEBUG_ENABLED // Only available in debug builds. return true; #endif // DEBUG_ENABLED } template bool GDScriptParser::network_annotations(const AnnotationNode *p_annotation, Node *p_node) { ERR_FAIL_COND_V_MSG(p_node->type != Node::VARIABLE && p_node->type != Node::FUNCTION, false, vformat(R"("%s" annotation can only be applied to variables and functions.)", p_annotation->name)); Multiplayer::RPCConfig rpc_config; rpc_config.rpc_mode = t_mode; if (p_annotation->resolved_arguments.size()) { int last = p_annotation->resolved_arguments.size() - 1; if (p_annotation->resolved_arguments[last].get_type() == Variant::INT) { rpc_config.channel = p_annotation->resolved_arguments[last].operator int(); last -= 1; } if (last > 3) { push_error(R"(Invalid RPC arguments. At most 4 arguments are allowed, where only the last argument can be an integer to specify the channel.')", p_annotation); return false; } for (int i = last; i >= 0; i--) { String mode = p_annotation->resolved_arguments[i].operator String(); if (mode == "any_peer") { rpc_config.rpc_mode = Multiplayer::RPC_MODE_ANY_PEER; } else if (mode == "authority") { rpc_config.rpc_mode = Multiplayer::RPC_MODE_AUTHORITY; } else if (mode == "call_local") { rpc_config.call_local = true; } else if (mode == "call_remote") { rpc_config.call_local = false; } else if (mode == "reliable") { rpc_config.transfer_mode = Multiplayer::TRANSFER_MODE_RELIABLE; } else if (mode == "unreliable") { rpc_config.transfer_mode = Multiplayer::TRANSFER_MODE_UNRELIABLE; } else if (mode == "unreliable_ordered") { rpc_config.transfer_mode = Multiplayer::TRANSFER_MODE_UNRELIABLE_ORDERED; } else { push_error(R"(Invalid RPC argument. Must be one of: 'call_local'/'call_remote' (local calls), 'any_peer'/'authority' (permission), 'reliable'/'unreliable'/'unreliable_ordered' (transfer mode).)", p_annotation); } } } switch (p_node->type) { case Node::FUNCTION: { FunctionNode *function = static_cast(p_node); if (function->rpc_config.rpc_mode != Multiplayer::RPC_MODE_DISABLED) { push_error(R"(RPC annotations can only be used once per function.)", p_annotation); return false; } function->rpc_config = rpc_config; break; } default: return false; // Unreachable. } return true; } GDScriptParser::DataType GDScriptParser::SuiteNode::Local::get_datatype() const { switch (type) { case CONSTANT: return constant->get_datatype(); case VARIABLE: return variable->get_datatype(); case PARAMETER: return parameter->get_datatype(); case FOR_VARIABLE: case PATTERN_BIND: return bind->get_datatype(); case UNDEFINED: return DataType(); } return DataType(); } String GDScriptParser::SuiteNode::Local::get_name() const { String name; switch (type) { case SuiteNode::Local::PARAMETER: name = "parameter"; break; case SuiteNode::Local::CONSTANT: name = "constant"; break; case SuiteNode::Local::VARIABLE: name = "variable"; break; case SuiteNode::Local::FOR_VARIABLE: name = "for loop iterator"; break; case SuiteNode::Local::PATTERN_BIND: name = "pattern_bind"; break; case SuiteNode::Local::UNDEFINED: name = ""; break; } return name; } String GDScriptParser::DataType::to_string() const { switch (kind) { case VARIANT: return "Variant"; case BUILTIN: if (builtin_type == Variant::NIL) { return "null"; } if (builtin_type == Variant::ARRAY && has_container_element_type()) { return vformat("Array[%s]", container_element_type->to_string()); } return Variant::get_type_name(builtin_type); case NATIVE: if (is_meta_type) { return GDScriptNativeClass::get_class_static(); } return native_type.operator String(); case CLASS: if (is_meta_type) { return GDScript::get_class_static(); } if (class_type->identifier != nullptr) { return class_type->identifier->name.operator String(); } return class_type->fqcn; case SCRIPT: { if (is_meta_type) { return script_type->get_class_name().operator String(); } String name = script_type->get_name(); if (!name.is_empty()) { return name; } name = script_path; if (!name.is_empty()) { return name; } return native_type.operator String(); } case ENUM: return enum_type.operator String() + " (enum)"; case UNRESOLVED: return ""; } ERR_FAIL_V_MSG("get() != p_node) { ERR_PRINT("Parser bug: Mismatch in extents tracking stack."); nodes_in_progress.pop_back(); } if (nodes_in_progress.is_empty()) { ERR_PRINT("Parser bug: Extents tracking stack is empty."); } else { nodes_in_progress.pop_back(); } } void GDScriptParser::update_extents(Node *p_node) { p_node->end_line = previous.end_line; p_node->end_column = previous.end_column; p_node->leftmost_column = MIN(p_node->leftmost_column, previous.leftmost_column); p_node->rightmost_column = MAX(p_node->rightmost_column, previous.rightmost_column); } void GDScriptParser::reset_extents(Node *p_node, GDScriptTokenizer::Token p_token) { p_node->start_line = p_token.start_line; p_node->end_line = p_token.end_line; p_node->start_column = p_token.start_column; p_node->end_column = p_token.end_column; p_node->leftmost_column = p_token.leftmost_column; p_node->rightmost_column = p_token.rightmost_column; } void GDScriptParser::reset_extents(Node *p_node, Node *p_from) { if (p_from == nullptr) { return; } p_node->start_line = p_from->start_line; p_node->end_line = p_from->end_line; p_node->start_column = p_from->start_column; p_node->end_column = p_from->end_column; p_node->leftmost_column = p_from->leftmost_column; p_node->rightmost_column = p_from->rightmost_column; } /*---------- PRETTY PRINT FOR DEBUG ----------*/ #ifdef DEBUG_ENABLED void GDScriptParser::TreePrinter::increase_indent() { indent_level++; indent = ""; for (int i = 0; i < indent_level * 4; i++) { if (i % 4 == 0) { indent += "|"; } else { indent += " "; } } } void GDScriptParser::TreePrinter::decrease_indent() { indent_level--; indent = ""; for (int i = 0; i < indent_level * 4; i++) { if (i % 4 == 0) { indent += "|"; } else { indent += " "; } } } void GDScriptParser::TreePrinter::push_line(const String &p_line) { if (!p_line.is_empty()) { push_text(p_line); } printed += "\n"; pending_indent = true; } void GDScriptParser::TreePrinter::push_text(const String &p_text) { if (pending_indent) { printed += indent; pending_indent = false; } printed += p_text; } void GDScriptParser::TreePrinter::print_annotation(const AnnotationNode *p_annotation) { push_text(p_annotation->name); push_text(" ("); for (int i = 0; i < p_annotation->arguments.size(); i++) { if (i > 0) { push_text(" , "); } print_expression(p_annotation->arguments[i]); } push_line(")"); } void GDScriptParser::TreePrinter::print_array(ArrayNode *p_array) { push_text("[ "); for (int i = 0; i < p_array->elements.size(); i++) { if (i > 0) { push_text(" , "); } print_expression(p_array->elements[i]); } push_text(" ]"); } void GDScriptParser::TreePrinter::print_assert(AssertNode *p_assert) { push_text("Assert ( "); print_expression(p_assert->condition); push_line(" )"); } void GDScriptParser::TreePrinter::print_assignment(AssignmentNode *p_assignment) { switch (p_assignment->assignee->type) { case Node::IDENTIFIER: print_identifier(static_cast(p_assignment->assignee)); break; case Node::SUBSCRIPT: print_subscript(static_cast(p_assignment->assignee)); break; default: break; // Unreachable. } push_text(" "); switch (p_assignment->operation) { case AssignmentNode::OP_ADDITION: push_text("+"); break; case AssignmentNode::OP_SUBTRACTION: push_text("-"); break; case AssignmentNode::OP_MULTIPLICATION: push_text("*"); break; case AssignmentNode::OP_DIVISION: push_text("/"); break; case AssignmentNode::OP_MODULO: push_text("%"); break; case AssignmentNode::OP_POWER: push_text("**"); break; case AssignmentNode::OP_BIT_SHIFT_LEFT: push_text("<<"); break; case AssignmentNode::OP_BIT_SHIFT_RIGHT: push_text(">>"); break; case AssignmentNode::OP_BIT_AND: push_text("&"); break; case AssignmentNode::OP_BIT_OR: push_text("|"); break; case AssignmentNode::OP_BIT_XOR: push_text("^"); break; case AssignmentNode::OP_NONE: break; } push_text("= "); print_expression(p_assignment->assigned_value); push_line(); } void GDScriptParser::TreePrinter::print_await(AwaitNode *p_await) { push_text("Await "); print_expression(p_await->to_await); } void GDScriptParser::TreePrinter::print_binary_op(BinaryOpNode *p_binary_op) { // Surround in parenthesis for disambiguation. push_text("("); print_expression(p_binary_op->left_operand); switch (p_binary_op->operation) { case BinaryOpNode::OP_ADDITION: push_text(" + "); break; case BinaryOpNode::OP_SUBTRACTION: push_text(" - "); break; case BinaryOpNode::OP_MULTIPLICATION: push_text(" * "); break; case BinaryOpNode::OP_DIVISION: push_text(" / "); break; case BinaryOpNode::OP_MODULO: push_text(" % "); break; case BinaryOpNode::OP_POWER: push_text(" ** "); break; case BinaryOpNode::OP_BIT_LEFT_SHIFT: push_text(" << "); break; case BinaryOpNode::OP_BIT_RIGHT_SHIFT: push_text(" >> "); break; case BinaryOpNode::OP_BIT_AND: push_text(" & "); break; case BinaryOpNode::OP_BIT_OR: push_text(" | "); break; case BinaryOpNode::OP_BIT_XOR: push_text(" ^ "); break; case BinaryOpNode::OP_LOGIC_AND: push_text(" AND "); break; case BinaryOpNode::OP_LOGIC_OR: push_text(" OR "); break; case BinaryOpNode::OP_TYPE_TEST: push_text(" IS "); break; case BinaryOpNode::OP_CONTENT_TEST: push_text(" IN "); break; case BinaryOpNode::OP_COMP_EQUAL: push_text(" == "); break; case BinaryOpNode::OP_COMP_NOT_EQUAL: push_text(" != "); break; case BinaryOpNode::OP_COMP_LESS: push_text(" < "); break; case BinaryOpNode::OP_COMP_LESS_EQUAL: push_text(" <= "); break; case BinaryOpNode::OP_COMP_GREATER: push_text(" > "); break; case BinaryOpNode::OP_COMP_GREATER_EQUAL: push_text(" >= "); break; } print_expression(p_binary_op->right_operand); // Surround in parenthesis for disambiguation. push_text(")"); } void GDScriptParser::TreePrinter::print_call(CallNode *p_call) { if (p_call->is_super) { push_text("super"); if (p_call->callee != nullptr) { push_text("."); print_expression(p_call->callee); } } else { print_expression(p_call->callee); } push_text("( "); for (int i = 0; i < p_call->arguments.size(); i++) { if (i > 0) { push_text(" , "); } print_expression(p_call->arguments[i]); } push_text(" )"); } void GDScriptParser::TreePrinter::print_cast(CastNode *p_cast) { print_expression(p_cast->operand); push_text(" AS "); print_type(p_cast->cast_type); } void GDScriptParser::TreePrinter::print_class(ClassNode *p_class) { push_text("Class "); if (p_class->identifier == nullptr) { push_text(""); } else { print_identifier(p_class->identifier); } if (p_class->extends_used) { bool first = true; push_text(" Extends "); if (!p_class->extends_path.is_empty()) { push_text(vformat(R"("%s")", p_class->extends_path)); first = false; } for (int i = 0; i < p_class->extends.size(); i++) { if (!first) { push_text("."); } else { first = false; } push_text(p_class->extends[i]); } } push_line(" :"); increase_indent(); for (int i = 0; i < p_class->members.size(); i++) { const ClassNode::Member &m = p_class->members[i]; switch (m.type) { case ClassNode::Member::CLASS: print_class(m.m_class); break; case ClassNode::Member::VARIABLE: print_variable(m.variable); break; case ClassNode::Member::CONSTANT: print_constant(m.constant); break; case ClassNode::Member::SIGNAL: print_signal(m.signal); break; case ClassNode::Member::FUNCTION: print_function(m.function); break; case ClassNode::Member::ENUM: print_enum(m.m_enum); break; case ClassNode::Member::ENUM_VALUE: break; // Nothing. Will be printed by enum. case ClassNode::Member::GROUP: break; // Nothing. Groups are only used by inspector. case ClassNode::Member::UNDEFINED: push_line(""); break; } } decrease_indent(); } void GDScriptParser::TreePrinter::print_constant(ConstantNode *p_constant) { push_text("Constant "); print_identifier(p_constant->identifier); increase_indent(); push_line(); push_text("= "); if (p_constant->initializer == nullptr) { push_text(""); } else { print_expression(p_constant->initializer); } decrease_indent(); push_line(); } void GDScriptParser::TreePrinter::print_dictionary(DictionaryNode *p_dictionary) { push_line("{"); increase_indent(); for (int i = 0; i < p_dictionary->elements.size(); i++) { print_expression(p_dictionary->elements[i].key); if (p_dictionary->style == DictionaryNode::PYTHON_DICT) { push_text(" : "); } else { push_text(" = "); } print_expression(p_dictionary->elements[i].value); push_line(" ,"); } decrease_indent(); push_text("}"); } void GDScriptParser::TreePrinter::print_expression(ExpressionNode *p_expression) { if (p_expression == nullptr) { push_text(""); return; } switch (p_expression->type) { case Node::ARRAY: print_array(static_cast(p_expression)); break; case Node::ASSIGNMENT: print_assignment(static_cast(p_expression)); break; case Node::AWAIT: print_await(static_cast(p_expression)); break; case Node::BINARY_OPERATOR: print_binary_op(static_cast(p_expression)); break; case Node::CALL: print_call(static_cast(p_expression)); break; case Node::CAST: print_cast(static_cast(p_expression)); break; case Node::DICTIONARY: print_dictionary(static_cast(p_expression)); break; case Node::GET_NODE: print_get_node(static_cast(p_expression)); break; case Node::IDENTIFIER: print_identifier(static_cast(p_expression)); break; case Node::LAMBDA: print_lambda(static_cast(p_expression)); break; case Node::LITERAL: print_literal(static_cast(p_expression)); break; case Node::PRELOAD: print_preload(static_cast(p_expression)); break; case Node::SELF: print_self(static_cast(p_expression)); break; case Node::SUBSCRIPT: print_subscript(static_cast(p_expression)); break; case Node::TERNARY_OPERATOR: print_ternary_op(static_cast(p_expression)); break; case Node::UNARY_OPERATOR: print_unary_op(static_cast(p_expression)); break; default: push_text(vformat("", p_expression->type)); break; } } void GDScriptParser::TreePrinter::print_enum(EnumNode *p_enum) { push_text("Enum "); if (p_enum->identifier != nullptr) { print_identifier(p_enum->identifier); } else { push_text(""); } push_line(" {"); increase_indent(); for (int i = 0; i < p_enum->values.size(); i++) { const EnumNode::Value &item = p_enum->values[i]; print_identifier(item.identifier); push_text(" = "); push_text(itos(item.value)); push_line(" ,"); } decrease_indent(); push_line("}"); } void GDScriptParser::TreePrinter::print_for(ForNode *p_for) { push_text("For "); print_identifier(p_for->variable); push_text(" IN "); print_expression(p_for->list); push_line(" :"); increase_indent(); print_suite(p_for->loop); decrease_indent(); } void GDScriptParser::TreePrinter::print_function(FunctionNode *p_function, const String &p_context) { for (const AnnotationNode *E : p_function->annotations) { print_annotation(E); } push_text(p_context); push_text(" "); if (p_function->identifier) { print_identifier(p_function->identifier); } else { push_text(""); } push_text("( "); for (int i = 0; i < p_function->parameters.size(); i++) { if (i > 0) { push_text(" , "); } print_parameter(p_function->parameters[i]); } push_line(" ) :"); increase_indent(); print_suite(p_function->body); decrease_indent(); } void GDScriptParser::TreePrinter::print_get_node(GetNodeNode *p_get_node) { if (p_get_node->use_dollar) { push_text("$"); } push_text(p_get_node->full_path); } void GDScriptParser::TreePrinter::print_identifier(IdentifierNode *p_identifier) { if (p_identifier != nullptr) { push_text(p_identifier->name); } else { push_text(""); } } void GDScriptParser::TreePrinter::print_if(IfNode *p_if, bool p_is_elif) { if (p_is_elif) { push_text("Elif "); } else { push_text("If "); } print_expression(p_if->condition); push_line(" :"); increase_indent(); print_suite(p_if->true_block); decrease_indent(); // FIXME: Properly detect "elif" blocks. if (p_if->false_block != nullptr) { push_line("Else :"); increase_indent(); print_suite(p_if->false_block); decrease_indent(); } } void GDScriptParser::TreePrinter::print_lambda(LambdaNode *p_lambda) { print_function(p_lambda->function, "Lambda"); push_text("| captures [ "); for (int i = 0; i < p_lambda->captures.size(); i++) { if (i > 0) { push_text(" , "); } push_text(p_lambda->captures[i]->name.operator String()); } push_line(" ]"); } void GDScriptParser::TreePrinter::print_literal(LiteralNode *p_literal) { // Prefix for string types. switch (p_literal->value.get_type()) { case Variant::NODE_PATH: push_text("^\""); break; case Variant::STRING: push_text("\""); break; case Variant::STRING_NAME: push_text("&\""); break; default: break; } push_text(p_literal->value); // Suffix for string types. switch (p_literal->value.get_type()) { case Variant::NODE_PATH: case Variant::STRING: case Variant::STRING_NAME: push_text("\""); break; default: break; } } void GDScriptParser::TreePrinter::print_match(MatchNode *p_match) { push_text("Match "); print_expression(p_match->test); push_line(" :"); increase_indent(); for (int i = 0; i < p_match->branches.size(); i++) { print_match_branch(p_match->branches[i]); } decrease_indent(); } void GDScriptParser::TreePrinter::print_match_branch(MatchBranchNode *p_match_branch) { for (int i = 0; i < p_match_branch->patterns.size(); i++) { if (i > 0) { push_text(" , "); } print_match_pattern(p_match_branch->patterns[i]); } push_line(" :"); increase_indent(); print_suite(p_match_branch->block); decrease_indent(); } void GDScriptParser::TreePrinter::print_match_pattern(PatternNode *p_match_pattern) { switch (p_match_pattern->pattern_type) { case PatternNode::PT_LITERAL: print_literal(p_match_pattern->literal); break; case PatternNode::PT_WILDCARD: push_text("_"); break; case PatternNode::PT_REST: push_text(".."); break; case PatternNode::PT_BIND: push_text("Var "); print_identifier(p_match_pattern->bind); break; case PatternNode::PT_EXPRESSION: print_expression(p_match_pattern->expression); break; case PatternNode::PT_ARRAY: push_text("[ "); for (int i = 0; i < p_match_pattern->array.size(); i++) { if (i > 0) { push_text(" , "); } print_match_pattern(p_match_pattern->array[i]); } push_text(" ]"); break; case PatternNode::PT_DICTIONARY: push_text("{ "); for (int i = 0; i < p_match_pattern->dictionary.size(); i++) { if (i > 0) { push_text(" , "); } if (p_match_pattern->dictionary[i].key != nullptr) { // Key can be null for rest pattern. print_expression(p_match_pattern->dictionary[i].key); push_text(" : "); } print_match_pattern(p_match_pattern->dictionary[i].value_pattern); } push_text(" }"); break; } } void GDScriptParser::TreePrinter::print_parameter(ParameterNode *p_parameter) { print_identifier(p_parameter->identifier); if (p_parameter->datatype_specifier != nullptr) { push_text(" : "); print_type(p_parameter->datatype_specifier); } if (p_parameter->default_value != nullptr) { push_text(" = "); print_expression(p_parameter->default_value); } } void GDScriptParser::TreePrinter::print_preload(PreloadNode *p_preload) { push_text(R"(Preload ( ")"); push_text(p_preload->resolved_path); push_text(R"(" )"); } void GDScriptParser::TreePrinter::print_return(ReturnNode *p_return) { push_text("Return"); if (p_return->return_value != nullptr) { push_text(" "); print_expression(p_return->return_value); } push_line(); } void GDScriptParser::TreePrinter::print_self(SelfNode *p_self) { push_text("Self("); if (p_self->current_class->identifier != nullptr) { print_identifier(p_self->current_class->identifier); } else { push_text("
"); } push_text(")"); } void GDScriptParser::TreePrinter::print_signal(SignalNode *p_signal) { push_text("Signal "); print_identifier(p_signal->identifier); push_text("( "); for (int i = 0; i < p_signal->parameters.size(); i++) { print_parameter(p_signal->parameters[i]); } push_line(" )"); } void GDScriptParser::TreePrinter::print_subscript(SubscriptNode *p_subscript) { print_expression(p_subscript->base); if (p_subscript->is_attribute) { push_text("."); print_identifier(p_subscript->attribute); } else { push_text("[ "); print_expression(p_subscript->index); push_text(" ]"); } } void GDScriptParser::TreePrinter::print_statement(Node *p_statement) { switch (p_statement->type) { case Node::ASSERT: print_assert(static_cast(p_statement)); break; case Node::VARIABLE: print_variable(static_cast(p_statement)); break; case Node::CONSTANT: print_constant(static_cast(p_statement)); break; case Node::IF: print_if(static_cast(p_statement)); break; case Node::FOR: print_for(static_cast(p_statement)); break; case Node::WHILE: print_while(static_cast(p_statement)); break; case Node::MATCH: print_match(static_cast(p_statement)); break; case Node::RETURN: print_return(static_cast(p_statement)); break; case Node::BREAK: push_line("Break"); break; case Node::CONTINUE: push_line("Continue"); break; case Node::PASS: push_line("Pass"); break; case Node::BREAKPOINT: push_line("Breakpoint"); break; case Node::ASSIGNMENT: print_assignment(static_cast(p_statement)); break; default: if (p_statement->is_expression()) { print_expression(static_cast(p_statement)); push_line(); } else { push_line(vformat("", p_statement->type)); } break; } } void GDScriptParser::TreePrinter::print_suite(SuiteNode *p_suite) { for (int i = 0; i < p_suite->statements.size(); i++) { print_statement(p_suite->statements[i]); } } void GDScriptParser::TreePrinter::print_ternary_op(TernaryOpNode *p_ternary_op) { // Surround in parenthesis for disambiguation. push_text("("); print_expression(p_ternary_op->true_expr); push_text(") IF ("); print_expression(p_ternary_op->condition); push_text(") ELSE ("); print_expression(p_ternary_op->false_expr); push_text(")"); } void GDScriptParser::TreePrinter::print_type(TypeNode *p_type) { if (p_type->type_chain.is_empty()) { push_text("Void"); } else { for (int i = 0; i < p_type->type_chain.size(); i++) { if (i > 0) { push_text("."); } print_identifier(p_type->type_chain[i]); } } } void GDScriptParser::TreePrinter::print_unary_op(UnaryOpNode *p_unary_op) { // Surround in parenthesis for disambiguation. push_text("("); switch (p_unary_op->operation) { case UnaryOpNode::OP_POSITIVE: push_text("+"); break; case UnaryOpNode::OP_NEGATIVE: push_text("-"); break; case UnaryOpNode::OP_LOGIC_NOT: push_text("NOT"); break; case UnaryOpNode::OP_COMPLEMENT: push_text("~"); break; } print_expression(p_unary_op->operand); // Surround in parenthesis for disambiguation. push_text(")"); } void GDScriptParser::TreePrinter::print_variable(VariableNode *p_variable) { for (const AnnotationNode *E : p_variable->annotations) { print_annotation(E); } push_text("Variable "); print_identifier(p_variable->identifier); push_text(" : "); if (p_variable->datatype_specifier != nullptr) { print_type(p_variable->datatype_specifier); } else if (p_variable->infer_datatype) { push_text(""); } else { push_text("Variant"); } increase_indent(); push_line(); push_text("= "); if (p_variable->initializer == nullptr) { push_text(""); } else { print_expression(p_variable->initializer); } push_line(); if (p_variable->property != VariableNode::PROP_NONE) { if (p_variable->getter != nullptr) { push_text("Get"); if (p_variable->property == VariableNode::PROP_INLINE) { push_line(":"); increase_indent(); print_suite(p_variable->getter->body); decrease_indent(); } else { push_line(" ="); increase_indent(); print_identifier(p_variable->getter_pointer); push_line(); decrease_indent(); } } if (p_variable->setter != nullptr) { push_text("Set ("); if (p_variable->property == VariableNode::PROP_INLINE) { if (p_variable->setter_parameter != nullptr) { print_identifier(p_variable->setter_parameter); } else { push_text(""); } push_line("):"); increase_indent(); print_suite(p_variable->setter->body); decrease_indent(); } else { push_line(" ="); increase_indent(); print_identifier(p_variable->setter_pointer); push_line(); decrease_indent(); } } } decrease_indent(); push_line(); } void GDScriptParser::TreePrinter::print_while(WhileNode *p_while) { push_text("While "); print_expression(p_while->condition); push_line(" :"); increase_indent(); print_suite(p_while->loop); decrease_indent(); } void GDScriptParser::TreePrinter::print_tree(const GDScriptParser &p_parser) { ERR_FAIL_COND_MSG(p_parser.get_tree() == nullptr, "Parse the code before printing the parse tree."); if (p_parser.is_tool()) { push_line("@tool"); } if (!p_parser.get_tree()->icon_path.is_empty()) { push_text(R"(@icon (")"); push_text(p_parser.get_tree()->icon_path); push_line("\")"); } print_class(p_parser.get_tree()); print_line(String(printed)); } #endif // DEBUG_ENABLED