/**************************************************************************/ /* doc_data.h */ /**************************************************************************/ /* 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. */ /**************************************************************************/ #ifndef DOC_DATA_H #define DOC_DATA_H #include "core/io/xml_parser.h" #include "core/variant/variant.h" struct ScriptMemberInfo { PropertyInfo propinfo; String doc_string; StringName setter; StringName getter; bool has_default_value = false; Variant default_value; }; class DocData { public: struct ArgumentDoc { String name; String type; String enumeration; String default_value; bool operator<(const ArgumentDoc &p_arg) const { if (name == p_arg.name) { return type < p_arg.type; } return name < p_arg.name; } static ArgumentDoc from_dict(const Dictionary &p_dict) { ArgumentDoc doc; if (p_dict.has("name")) { doc.name = p_dict["name"]; } if (p_dict.has("type")) { doc.type = p_dict["type"]; } if (p_dict.has("enumeration")) { doc.enumeration = p_dict["enumeration"]; } if (p_dict.has("default_value")) { doc.default_value = p_dict["default_value"]; } return doc; } }; struct MethodDoc { String name; String return_type; String return_enum; String qualifiers; String description; bool is_deprecated = false; bool is_experimental = false; Vector arguments; Vector errors_returned; bool operator<(const MethodDoc &p_method) const { if (name == p_method.name) { // Must be an operator or a constructor since there is no other overloading if (name.left(8) == "operator") { if (arguments.size() == p_method.arguments.size()) { if (arguments.size() == 0) { return false; } return arguments[0].type < p_method.arguments[0].type; } return arguments.size() < p_method.arguments.size(); } else { // Must be a constructor // We want this arbitrary order for a class "Foo": // - 1. Default constructor: Foo() // - 2. Copy constructor: Foo(Foo) // - 3+. Other constructors Foo(Bar, ...) based on first argument's name if (arguments.size() == 0 || p_method.arguments.size() == 0) { // 1. return arguments.size() < p_method.arguments.size(); } if (arguments[0].type == return_type || p_method.arguments[0].type == p_method.return_type) { // 2. return (arguments[0].type == return_type) || (p_method.arguments[0].type != p_method.return_type); } return arguments[0] < p_method.arguments[0]; } } return name < p_method.name; } static MethodDoc from_dict(const Dictionary &p_dict) { MethodDoc doc; if (p_dict.has("name")) { doc.name = p_dict["name"]; } if (p_dict.has("return_type")) { doc.return_type = p_dict["return_type"]; } if (p_dict.has("return_enum")) { doc.return_enum = p_dict["return_enum"]; } if (p_dict.has("qualifiers")) { doc.qualifiers = p_dict["qualifiers"]; } if (p_dict.has("description")) { doc.description = p_dict["description"]; } if (p_dict.has("is_deprecated")) { doc.is_deprecated = p_dict["is_deprecated"]; } if (p_dict.has("is_experimental")) { doc.is_experimental = p_dict["is_experimental"]; } Array arguments; if (p_dict.has("arguments")) { arguments = p_dict["arguments"]; } for (int i = 0; i < arguments.size(); i++) { doc.arguments.push_back(ArgumentDoc::from_dict(arguments[i])); } Array errors_returned; if (p_dict.has("errors_returned")) { errors_returned = p_dict["errors_returned"]; } for (int i = 0; i < errors_returned.size(); i++) { doc.errors_returned.push_back(errors_returned[i]); } return doc; } }; struct ConstantDoc { String name; String value; bool is_value_valid = false; String enumeration; bool is_bitfield = false; String description; bool is_deprecated = false; bool is_experimental = false; bool operator<(const ConstantDoc &p_const) const { return name < p_const.name; } static ConstantDoc from_dict(const Dictionary &p_dict) { ConstantDoc doc; if (p_dict.has("name")) { doc.name = p_dict["name"]; } if (p_dict.has("value")) { doc.value = p_dict["value"]; } if (p_dict.has("is_value_valid")) { doc.is_value_valid = p_dict["is_value_valid"]; } if (p_dict.has("enumeration")) { doc.enumeration = p_dict["enumeration"]; } if (p_dict.has("is_bitfield")) { doc.is_bitfield = p_dict["is_bitfield"]; } if (p_dict.has("description")) { doc.description = p_dict["description"]; } if (p_dict.has("is_deprecated")) { doc.is_deprecated = p_dict["is_deprecated"]; } if (p_dict.has("is_experimental")) { doc.is_experimental = p_dict["is_experimental"]; } return doc; } }; struct EnumDoc { String name = "@unnamed_enum"; bool is_bitfield = false; String description; Vector values; static EnumDoc from_dict(const Dictionary &p_dict) { EnumDoc doc; if (p_dict.has("name")) { doc.name = p_dict["name"]; } if (p_dict.has("is_bitfield")) { doc.is_bitfield = p_dict["is_bitfield"]; } if (p_dict.has("description")) { doc.description = p_dict["description"]; } Array values; if (p_dict.has("values")) { values = p_dict["values"]; } for (int i = 0; i < values.size(); i++) { doc.values.push_back(ConstantDoc::from_dict(values[i])); } return doc; } }; struct PropertyDoc { String name; String type; String enumeration; String description; String setter, getter; String default_value; bool overridden = false; String overrides; bool is_deprecated = false; bool is_experimental = false; bool operator<(const PropertyDoc &p_prop) const { return name < p_prop.name; } static PropertyDoc from_dict(const Dictionary &p_dict) { PropertyDoc doc; if (p_dict.has("name")) { doc.name = p_dict["name"]; } if (p_dict.has("type")) { doc.type = p_dict["type"]; } if (p_dict.has("enumeration")) { doc.enumeration = p_dict["enumeration"]; } if (p_dict.has("description")) { doc.description = p_dict["description"]; } if (p_dict.has("setter")) { doc.setter = p_dict["setter"]; } if (p_dict.has("getter")) { doc.getter = p_dict["getter"]; } if (p_dict.has("default_value")) { doc.default_value = p_dict["default_value"]; } if (p_dict.has("overridden")) { doc.overridden = p_dict["overridden"]; } if (p_dict.has("overrides")) { doc.overrides = p_dict["overrides"]; } if (p_dict.has("is_deprecated")) { doc.is_deprecated = p_dict["is_deprecated"]; } if (p_dict.has("is_experimental")) { doc.is_experimental = p_dict["is_experimental"]; } return doc; } }; struct ThemeItemDoc { String name; String type; String data_type; String description; String default_value; bool operator<(const ThemeItemDoc &p_theme_item) const { // First sort by the data type, then by name. if (data_type == p_theme_item.data_type) { return name < p_theme_item.name; } return data_type < p_theme_item.data_type; } static ThemeItemDoc from_dict(const Dictionary &p_dict) { ThemeItemDoc doc; if (p_dict.has("name")) { doc.name = p_dict["name"]; } if (p_dict.has("type")) { doc.type = p_dict["type"]; } if (p_dict.has("data_type")) { doc.data_type = p_dict["data_type"]; } if (p_dict.has("description")) { doc.description = p_dict["description"]; } if (p_dict.has("default_value")) { doc.default_value = p_dict["default_value"]; } return doc; } }; struct TutorialDoc { String link; String title; static TutorialDoc from_dict(const Dictionary &p_dict) { TutorialDoc doc; if (p_dict.has("link")) { doc.link = p_dict["link"]; } if (p_dict.has("title")) { doc.title = p_dict["title"]; } return doc; } }; struct ClassDoc { String name; String inherits; String brief_description; String description; Vector tutorials; Vector constructors; Vector methods; Vector operators; Vector signals; Vector constants; HashMap enums; Vector properties; Vector annotations; Vector theme_properties; bool is_deprecated = false; bool is_experimental = false; bool is_script_doc = false; String script_path; bool operator<(const ClassDoc &p_class) const { return name < p_class.name; } static ClassDoc from_dict(const Dictionary &p_dict) { ClassDoc doc; if (p_dict.has("name")) { doc.name = p_dict["name"]; } if (p_dict.has("inherits")) { doc.inherits = p_dict["inherits"]; } if (p_dict.has("brief_description")) { doc.brief_description = p_dict["brief_description"]; } if (p_dict.has("description")) { doc.description = p_dict["description"]; } Array tutorials; if (p_dict.has("tutorials")) { tutorials = p_dict["tutorials"]; } for (int i = 0; i < tutorials.size(); i++) { doc.tutorials.push_back(TutorialDoc::from_dict(tutorials[i])); } Array constructors; if (p_dict.has("constructors")) { constructors = p_dict["constructors"]; } for (int i = 0; i < constructors.size(); i++) { doc.constructors.push_back(MethodDoc::from_dict(constructors[i])); } Array methods; if (p_dict.has("methods")) { methods = p_dict["methods"]; } for (int i = 0; i < methods.size(); i++) { doc.methods.push_back(MethodDoc::from_dict(methods[i])); } Array operators; if (p_dict.has("operators")) { operators = p_dict["operators"]; } for (int i = 0; i < operators.size(); i++) { doc.operators.push_back(MethodDoc::from_dict(operators[i])); } Array signals; if (p_dict.has("signals")) { signals = p_dict["signals"]; } for (int i = 0; i < signals.size(); i++) { doc.signals.push_back(MethodDoc::from_dict(signals[i])); } Array constants; if (p_dict.has("constants")) { constants = p_dict["constants"]; } for (int i = 0; i < constants.size(); i++) { doc.constants.push_back(ConstantDoc::from_dict(constants[i])); } Dictionary enums; if (p_dict.has("enums")) { enums = p_dict["enums"]; } for (int i = 0; i < enums.size(); i++) { doc.enums[enums.get_key_at_index(i)] = enums.get_value_at_index(i); } Array properties; if (p_dict.has("properties")) { properties = p_dict["properties"]; } for (int i = 0; i < properties.size(); i++) { doc.properties.push_back(PropertyDoc::from_dict(properties[i])); } Array annotations; if (p_dict.has("annotations")) { annotations = p_dict["annotations"]; } for (int i = 0; i < annotations.size(); i++) { doc.annotations.push_back(MethodDoc::from_dict(annotations[i])); } Array theme_properties; if (p_dict.has("theme_properties")) { theme_properties = p_dict["theme_properties"]; } for (int i = 0; i < theme_properties.size(); i++) { doc.theme_properties.push_back(ThemeItemDoc::from_dict(theme_properties[i])); } if (p_dict.has("is_deprecated")) { doc.is_deprecated = p_dict["is_deprecated"]; } if (p_dict.has("is_experimental")) { doc.is_experimental = p_dict["is_experimental"]; } if (p_dict.has("is_script_doc")) { doc.is_script_doc = p_dict["is_script_doc"]; } if (p_dict.has("script_path")) { doc.script_path = p_dict["script_path"]; } return doc; } }; static void return_doc_from_retinfo(DocData::MethodDoc &p_method, const PropertyInfo &p_retinfo); static void argument_doc_from_arginfo(DocData::ArgumentDoc &p_argument, const PropertyInfo &p_arginfo); static void property_doc_from_scriptmemberinfo(DocData::PropertyDoc &p_property, const ScriptMemberInfo &p_memberinfo); static void method_doc_from_methodinfo(DocData::MethodDoc &p_method, const MethodInfo &p_methodinfo, const String &p_desc); static void constant_doc_from_variant(DocData::ConstantDoc &p_const, const StringName &p_name, const Variant &p_value, const String &p_desc); static void signal_doc_from_methodinfo(DocData::MethodDoc &p_signal, const MethodInfo &p_methodinfo, const String &p_desc); }; #endif // DOC_DATA_H