/**************************************************************************/ /* gdscript_warning.cpp */ /**************************************************************************/ /* This file is part of: */ /* GODOT ENGINE */ /* https://godotengine.org */ /**************************************************************************/ /* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */ /* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */ /* */ /* Permission is hereby granted, free of charge, to any person obtaining */ /* a copy of this software and associated documentation files (the */ /* "Software"), to deal in the Software without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of the Software, and to */ /* permit persons to whom the Software is furnished to do so, subject to */ /* the following conditions: */ /* */ /* The above copyright notice and this permission notice shall be */ /* included in all copies or substantial portions of the Software. */ /* */ /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */ /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */ /* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */ /* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */ /* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */ /* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */ /* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /**************************************************************************/ #include "gdscript_warning.h" #include "core/variant/variant.h" #ifdef DEBUG_ENABLED String GDScriptWarning::get_message() const { #define CHECK_SYMBOLS(m_amount) ERR_FAIL_COND_V(symbols.size() < m_amount, String()); switch (code) { case UNASSIGNED_VARIABLE: CHECK_SYMBOLS(1); return vformat(R"(The variable "%s" is used before being assigned a value.)", symbols[0]); case UNASSIGNED_VARIABLE_OP_ASSIGN: CHECK_SYMBOLS(2); return vformat(R"(The variable "%s" is modified with the compound-assignment operator "%s=" but was not previously initialized.)", symbols[0], symbols[1]); case UNUSED_VARIABLE: CHECK_SYMBOLS(1); return vformat(R"(The local variable "%s" is declared but never used in the block. If this is intended, prefix it with an underscore: "_%s".)", symbols[0], symbols[0]); case UNUSED_LOCAL_CONSTANT: CHECK_SYMBOLS(1); return vformat(R"(The local constant "%s" is declared but never used in the block. If this is intended, prefix it with an underscore: "_%s".)", symbols[0], symbols[0]); case UNUSED_PRIVATE_CLASS_VARIABLE: CHECK_SYMBOLS(1); return vformat(R"(The class variable "%s" is declared but never used in the class.)", symbols[0]); case UNUSED_PARAMETER: CHECK_SYMBOLS(2); return vformat(R"*(The parameter "%s" is never used in the function "%s()". If this is intended, prefix it with an underscore: "_%s".)*", symbols[1], symbols[0], symbols[1]); case UNUSED_SIGNAL: CHECK_SYMBOLS(1); return vformat(R"(The signal "%s" is declared but never explicitly used in the class.)", symbols[0]); case SHADOWED_VARIABLE: CHECK_SYMBOLS(4); return vformat(R"(The local %s "%s" is shadowing an already-declared %s at line %s in the current class.)", symbols[0], symbols[1], symbols[2], symbols[3]); case SHADOWED_VARIABLE_BASE_CLASS: CHECK_SYMBOLS(4); if (symbols.size() > 4) { return vformat(R"(The local %s "%s" is shadowing an already-declared %s at line %s in the base class "%s".)", symbols[0], symbols[1], symbols[2], symbols[3], symbols[4]); } return vformat(R"(The local %s "%s" is shadowing an already-declared %s in the base class "%s".)", symbols[0], symbols[1], symbols[2], symbols[3]); case SHADOWED_GLOBAL_IDENTIFIER: CHECK_SYMBOLS(3); return vformat(R"(The %s "%s" has the same name as a %s.)", symbols[0], symbols[1], symbols[2]); case UNREACHABLE_CODE: CHECK_SYMBOLS(1); return vformat(R"*(Unreachable code (statement after return) in function "%s()".)*", symbols[0]); case UNREACHABLE_PATTERN: return "Unreachable pattern (pattern after wildcard or bind)."; case STANDALONE_EXPRESSION: return "Standalone expression (the line may have no effect)."; case STANDALONE_TERNARY: return "Standalone ternary operator (the return value is being discarded)."; case INCOMPATIBLE_TERNARY: return "Values of the ternary operator are not mutually compatible."; case UNTYPED_DECLARATION: CHECK_SYMBOLS(2); if (symbols[0] == "Function") { return vformat(R"*(%s "%s()" has no static return type.)*", symbols[0], symbols[1]); } return vformat(R"(%s "%s" has no static type.)", symbols[0], symbols[1]); case INFERRED_DECLARATION: CHECK_SYMBOLS(2); return vformat(R"(%s "%s" has an implicitly inferred static type.)", symbols[0], symbols[1]); case UNSAFE_PROPERTY_ACCESS: CHECK_SYMBOLS(2); return vformat(R"(The property "%s" is not present on the inferred type "%s" (but may be present on a subtype).)", symbols[0], symbols[1]); case UNSAFE_METHOD_ACCESS: CHECK_SYMBOLS(2); return vformat(R"*(The method "%s()" is not present on the inferred type "%s" (but may be present on a subtype).)*", symbols[0], symbols[1]); case UNSAFE_CAST: CHECK_SYMBOLS(1); return vformat(R"(Casting "Variant" to "%s" is unsafe.)", symbols[0]); case UNSAFE_CALL_ARGUMENT: CHECK_SYMBOLS(5); return vformat(R"*(The argument %s of the %s "%s()" requires the subtype "%s" but the supertype "%s" was provided.)*", symbols[0], symbols[1], symbols[2], symbols[3], symbols[4]); case UNSAFE_VOID_RETURN: CHECK_SYMBOLS(2); return vformat(R"*(The method "%s()" returns "void" but it's trying to return a call to "%s()" that can't be ensured to also be "void".)*", symbols[0], symbols[1]); case RETURN_VALUE_DISCARDED: CHECK_SYMBOLS(1); return vformat(R"*(The function "%s()" returns a value that will be discarded if not used.)*", symbols[0]); case STATIC_CALLED_ON_INSTANCE: CHECK_SYMBOLS(2); return vformat(R"*(The function "%s()" is a static function but was called from an instance. Instead, it should be directly called from the type: "%s.%s()".)*", symbols[0], symbols[1], symbols[0]); case MISSING_TOOL: return R"(The base class script has the "@tool" annotation, but this script does not have it.)"; case REDUNDANT_STATIC_UNLOAD: return R"(The "@static_unload" annotation is redundant because the file does not have a class with static variables.)"; case REDUNDANT_AWAIT: return R"("await" keyword is unnecessary because the expression isn't a coroutine nor a signal.)"; case ASSERT_ALWAYS_TRUE: return "Assert statement is redundant because the expression is always true."; case ASSERT_ALWAYS_FALSE: return "Assert statement will raise an error because the expression is always false."; case INTEGER_DIVISION: return "Integer division. Decimal part will be discarded."; case NARROWING_CONVERSION: return "Narrowing conversion (float is converted to int and loses precision)."; case INT_AS_ENUM_WITHOUT_CAST: return "Integer used when an enum value is expected. If this is intended, cast the integer to the enum type using the \"as\" keyword."; case INT_AS_ENUM_WITHOUT_MATCH: CHECK_SYMBOLS(3); return vformat(R"(Cannot %s %s as Enum "%s": no enum member has matching value.)", symbols[0], symbols[1], symbols[2]); case ENUM_VARIABLE_WITHOUT_DEFAULT: CHECK_SYMBOLS(1); return vformat(R"(The variable "%s" has an enum type and does not set an explicit default value. The default will be set to "0".)", symbols[0]); case EMPTY_FILE: return "Empty script file."; case DEPRECATED_KEYWORD: CHECK_SYMBOLS(2); return vformat(R"(The "%s" keyword is deprecated and will be removed in a future release. Please replace it with "%s".)", symbols[0], symbols[1]); case CONFUSABLE_IDENTIFIER: CHECK_SYMBOLS(1); return vformat(R"(The identifier "%s" has misleading characters and might be confused with something else.)", symbols[0]); case CONFUSABLE_LOCAL_DECLARATION: CHECK_SYMBOLS(2); return vformat(R"(The %s "%s" is declared below in the parent block.)", symbols[0], symbols[1]); case CONFUSABLE_LOCAL_USAGE: CHECK_SYMBOLS(1); return vformat(R"(The identifier "%s" will be shadowed below in the block.)", symbols[0]); case CONFUSABLE_CAPTURE_REASSIGNMENT: CHECK_SYMBOLS(1); return vformat(R"(Reassigning lambda capture does not modify the outer local variable "%s".)", symbols[0]); case INFERENCE_ON_VARIANT: CHECK_SYMBOLS(1); return vformat("The %s type is being inferred from a Variant value, so it will be typed as Variant.", symbols[0]); case NATIVE_METHOD_OVERRIDE: CHECK_SYMBOLS(2); return vformat(R"*(The method "%s()" overrides a method from native class "%s". This won't be called by the engine and may not work as expected.)*", symbols[0], symbols[1]); case GET_NODE_DEFAULT_WITHOUT_ONREADY: CHECK_SYMBOLS(1); return vformat(R"*(The default value uses "%s" which won't return nodes in the scene tree before "_ready()" is called. Use the "@onready" annotation to solve this.)*", symbols[0]); case ONREADY_WITH_EXPORT: return R"("@onready" will set the default value after "@export" takes effect and will override it.)"; #ifndef DISABLE_DEPRECATED // Never produced. These warnings migrated from 3.x by mistake. case PROPERTY_USED_AS_FUNCTION: // There is already an error. case CONSTANT_USED_AS_FUNCTION: // There is already an error. case FUNCTION_USED_AS_PROPERTY: // This is valid, returns `Callable`. break; #endif case WARNING_MAX: break; // Can't happen, but silences warning. } ERR_FAIL_V_MSG(String(), vformat(R"(Invalid GDScript warning "%s".)", get_name_from_code(code))); #undef CHECK_SYMBOLS } int GDScriptWarning::get_default_value(Code p_code) { ERR_FAIL_INDEX_V_MSG(p_code, WARNING_MAX, WarnLevel::IGNORE, "Getting default value of invalid warning code."); return default_warning_levels[p_code]; } PropertyInfo GDScriptWarning::get_property_info(Code p_code) { return PropertyInfo(Variant::INT, get_settings_path_from_code(p_code), PROPERTY_HINT_ENUM, "Ignore,Warn,Error"); } String GDScriptWarning::get_name() const { return get_name_from_code(code); } String GDScriptWarning::get_name_from_code(Code p_code) { ERR_FAIL_COND_V(p_code < 0 || p_code >= WARNING_MAX, String()); static const char *names[] = { PNAME("UNASSIGNED_VARIABLE"), PNAME("UNASSIGNED_VARIABLE_OP_ASSIGN"), PNAME("UNUSED_VARIABLE"), PNAME("UNUSED_LOCAL_CONSTANT"), PNAME("UNUSED_PRIVATE_CLASS_VARIABLE"), PNAME("UNUSED_PARAMETER"), PNAME("UNUSED_SIGNAL"), PNAME("SHADOWED_VARIABLE"), PNAME("SHADOWED_VARIABLE_BASE_CLASS"), PNAME("SHADOWED_GLOBAL_IDENTIFIER"), PNAME("UNREACHABLE_CODE"), PNAME("UNREACHABLE_PATTERN"), PNAME("STANDALONE_EXPRESSION"), PNAME("STANDALONE_TERNARY"), PNAME("INCOMPATIBLE_TERNARY"), PNAME("UNTYPED_DECLARATION"), PNAME("INFERRED_DECLARATION"), PNAME("UNSAFE_PROPERTY_ACCESS"), PNAME("UNSAFE_METHOD_ACCESS"), PNAME("UNSAFE_CAST"), PNAME("UNSAFE_CALL_ARGUMENT"), PNAME("UNSAFE_VOID_RETURN"), PNAME("RETURN_VALUE_DISCARDED"), PNAME("STATIC_CALLED_ON_INSTANCE"), PNAME("MISSING_TOOL"), PNAME("REDUNDANT_STATIC_UNLOAD"), PNAME("REDUNDANT_AWAIT"), PNAME("ASSERT_ALWAYS_TRUE"), PNAME("ASSERT_ALWAYS_FALSE"), PNAME("INTEGER_DIVISION"), PNAME("NARROWING_CONVERSION"), PNAME("INT_AS_ENUM_WITHOUT_CAST"), PNAME("INT_AS_ENUM_WITHOUT_MATCH"), PNAME("ENUM_VARIABLE_WITHOUT_DEFAULT"), PNAME("EMPTY_FILE"), PNAME("DEPRECATED_KEYWORD"), PNAME("CONFUSABLE_IDENTIFIER"), PNAME("CONFUSABLE_LOCAL_DECLARATION"), PNAME("CONFUSABLE_LOCAL_USAGE"), PNAME("CONFUSABLE_CAPTURE_REASSIGNMENT"), PNAME("INFERENCE_ON_VARIANT"), PNAME("NATIVE_METHOD_OVERRIDE"), PNAME("GET_NODE_DEFAULT_WITHOUT_ONREADY"), PNAME("ONREADY_WITH_EXPORT"), #ifndef DISABLE_DEPRECATED "PROPERTY_USED_AS_FUNCTION", "CONSTANT_USED_AS_FUNCTION", "FUNCTION_USED_AS_PROPERTY", #endif }; static_assert(std::size(names) == WARNING_MAX, "Amount of warning types don't match the amount of warning names."); return names[(int)p_code]; } String GDScriptWarning::get_settings_path_from_code(Code p_code) { return "debug/gdscript/warnings/" + get_name_from_code(p_code).to_lower(); } GDScriptWarning::Code GDScriptWarning::get_code_from_name(const String &p_name) { for (int i = 0; i < WARNING_MAX; i++) { if (get_name_from_code((Code)i) == p_name) { return (Code)i; } } return WARNING_MAX; } #endif // DEBUG_ENABLED