godot/editor/project_converter_3_to_4.cpp

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/**************************************************************************/
/* project_converter_3_to_4.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 "project_converter_3_to_4.h"
#ifndef DISABLE_DEPRECATED
#include "modules/modules_enabled.gen.h" // For regex.
#ifdef MODULE_REGEX_ENABLED
#include "core/error/error_macros.h"
#include "core/io/dir_access.h"
#include "core/io/file_access.h"
#include "core/object/ref_counted.h"
#include "core/os/time.h"
#include "core/templates/hash_map.h"
#include "core/templates/list.h"
#include "editor/renames_map_3_to_4.h"
#include "modules/regex/regex.h"
// Find "OS.set_property(x)", capturing x into $1.
static String make_regex_gds_os_property_set(String name_set) {
return String("\\bOS\\.") + name_set + "\\s*\\((.*)\\)";
}
// Find "OS.property = x", capturing x into $1 or $2.
static String make_regex_gds_os_property_assign(String name) {
return String("\\bOS\\.") + name + "\\s*=\\s*([^#]+)";
}
// Find "OS.property" OR "OS.get_property()" / "OS.is_property()".
static String make_regex_gds_os_property_get(String name, String get) {
return String("\\bOS\\.(") + get + "_)?" + name + "(\\s*\\(\\s*\\))?";
}
class ProjectConverter3To4::RegExContainer {
public:
// Custom GDScript.
RegEx reg_is_empty = RegEx("\\bempty\\(");
RegEx reg_super = RegEx("([\t ])\\.([a-zA-Z_])");
RegEx reg_json_to = RegEx("\\bto_json\\b");
RegEx reg_json_parse = RegEx("([\t ]{0,})([^\n]+)parse_json\\(([^\n]+)");
RegEx reg_json_non_new = RegEx("([\t ]{0,})([^\n]+)JSON\\.parse\\(([^\n]+)");
RegEx reg_json_print = RegEx("\\bJSON\\b\\.print\\(");
RegEx reg_export_simple = RegEx("export\\(([a-zA-Z0-9_]+)\\)[ ]+var[ ]+([a-zA-Z0-9_]+)");
RegEx reg_export_typed = RegEx("export\\(([a-zA-Z0-9_]+)\\)[ ]+var[ ]+([a-zA-Z0-9_]+)[ ]*:[ ]*[a-zA-Z0-9_]+");
RegEx reg_export_inferred_type = RegEx("export\\([a-zA-Z0-9_]+\\)[ ]+var[ ]+([a-zA-Z0-9_]+)[ ]*:[ ]*=");
RegEx reg_export_advanced = RegEx("export\\(([^)^\n]+)\\)[ ]+var[ ]+([a-zA-Z0-9_]+)([^\n]+)");
RegEx reg_setget_setget = RegEx("var[ ]+([a-zA-Z0-9_]+)([^\n]+?)[ \t]*setget[ \t]+([a-zA-Z0-9_]+)[ \t]*,[ \t]*([a-zA-Z0-9_]+)");
RegEx reg_setget_set = RegEx("var[ ]+([a-zA-Z0-9_]+)([^\n]+?)[ \t]*setget[ \t]+([a-zA-Z0-9_]+)[ \t]*[,]*[^\n]*$");
RegEx reg_setget_get = RegEx("var[ ]+([a-zA-Z0-9_]+)([^\n]+?)[ \t]*setget[ \t]+,[ \t]*([a-zA-Z0-9_]+)[ \t]*$");
RegEx reg_join = RegEx("([\\(\\)a-zA-Z0-9_]+)\\.join\\(([^\n^\\)]+)\\)");
RegEx reg_image_lock = RegEx("([a-zA-Z0-9_\\.]+)\\.lock\\(\\)");
RegEx reg_image_unlock = RegEx("([a-zA-Z0-9_\\.]+)\\.unlock\\(\\)");
RegEx reg_instantiate = RegEx("\\.instance\\(([^\\)]*)\\)");
// Simple OS properties with getters/setters.
RegEx reg_os_current_screen = RegEx("\\bOS\\.((set_|get_)?)current_screen\\b");
RegEx reg_os_min_window_size = RegEx("\\bOS\\.((set_|get_)?)min_window_size\\b");
RegEx reg_os_max_window_size = RegEx("\\bOS\\.((set_|get_)?)max_window_size\\b");
RegEx reg_os_window_position = RegEx("\\bOS\\.((set_|get_)?)window_position\\b");
RegEx reg_os_window_size = RegEx("\\bOS\\.((set_|get_)?)window_size\\b");
RegEx reg_os_getset_screen_orient = RegEx("\\bOS\\.(s|g)et_screen_orientation\\b");
// OS property getters/setters for non trivial replacements.
RegEx reg_os_set_window_resizable = RegEx(make_regex_gds_os_property_set("set_window_resizable"));
RegEx reg_os_assign_window_resizable = RegEx(make_regex_gds_os_property_assign("window_resizable"));
RegEx reg_os_is_window_resizable = RegEx(make_regex_gds_os_property_get("window_resizable", "is"));
RegEx reg_os_set_fullscreen = RegEx(make_regex_gds_os_property_set("set_window_fullscreen"));
RegEx reg_os_assign_fullscreen = RegEx(make_regex_gds_os_property_assign("window_fullscreen"));
RegEx reg_os_is_fullscreen = RegEx(make_regex_gds_os_property_get("window_fullscreen", "is"));
RegEx reg_os_set_maximized = RegEx(make_regex_gds_os_property_set("set_window_maximized"));
RegEx reg_os_assign_maximized = RegEx(make_regex_gds_os_property_assign("window_maximized"));
RegEx reg_os_is_maximized = RegEx(make_regex_gds_os_property_get("window_maximized", "is"));
RegEx reg_os_set_minimized = RegEx(make_regex_gds_os_property_set("set_window_minimized"));
RegEx reg_os_assign_minimized = RegEx(make_regex_gds_os_property_assign("window_minimized"));
RegEx reg_os_is_minimized = RegEx(make_regex_gds_os_property_get("window_minimized", "is"));
RegEx reg_os_set_vsync = RegEx(make_regex_gds_os_property_set("set_use_vsync"));
RegEx reg_os_assign_vsync = RegEx(make_regex_gds_os_property_assign("vsync_enabled"));
RegEx reg_os_is_vsync = RegEx(make_regex_gds_os_property_get("vsync_enabled", "is"));
// OS properties specific cases & specific replacements.
RegEx reg_os_assign_screen_orient = RegEx("^(\\s*)OS\\.screen_orientation\\s*=\\s*([^#]+)"); // $1 - indent, $2 - value
RegEx reg_os_set_always_on_top = RegEx(make_regex_gds_os_property_set("set_window_always_on_top"));
RegEx reg_os_is_always_on_top = RegEx("\\bOS\\.is_window_always_on_top\\s*\\(.*\\)");
RegEx reg_os_set_borderless = RegEx(make_regex_gds_os_property_set("set_borderless_window"));
RegEx reg_os_get_borderless = RegEx("\\bOS\\.get_borderless_window\\s*\\(\\s*\\)");
RegEx reg_os_screen_orient_enum = RegEx("\\bOS\\.SCREEN_ORIENTATION_(\\w+)\\b"); // $1 - constant suffix
// GDScript keywords.
RegEx keyword_gdscript_tool = RegEx("^tool");
RegEx keyword_gdscript_export_single = RegEx("^export");
RegEx keyword_gdscript_export_mutli = RegEx("([\t]+)export\\b");
RegEx keyword_gdscript_onready = RegEx("^onready");
RegEx keyword_gdscript_remote = RegEx("^remote func");
RegEx keyword_gdscript_remotesync = RegEx("^remotesync func");
RegEx keyword_gdscript_sync = RegEx("^sync func");
RegEx keyword_gdscript_slave = RegEx("^slave func");
RegEx keyword_gdscript_puppet = RegEx("^puppet func");
RegEx keyword_gdscript_puppetsync = RegEx("^puppetsync func");
RegEx keyword_gdscript_master = RegEx("^master func");
RegEx keyword_gdscript_mastersync = RegEx("^mastersync func");
RegEx gdscript_comment = RegEx("^\\s*#");
RegEx csharp_comment = RegEx("^\\s*\\/\\/");
// CSharp keywords.
RegEx keyword_csharp_remote = RegEx("\\[Remote(Attribute)?(\\(\\))?\\]");
RegEx keyword_csharp_remotesync = RegEx("\\[(Remote)?Sync(Attribute)?(\\(\\))?\\]");
RegEx keyword_csharp_puppet = RegEx("\\[(Puppet|Slave)(Attribute)?(\\(\\))?\\]");
RegEx keyword_csharp_puppetsync = RegEx("\\[PuppetSync(Attribute)?(\\(\\))?\\]");
RegEx keyword_csharp_master = RegEx("\\[Master(Attribute)?(\\(\\))?\\]");
RegEx keyword_csharp_mastersync = RegEx("\\[MasterSync(Attribute)?(\\(\\))?\\]");
// Colors.
LocalVector<RegEx *> color_regexes;
LocalVector<String> color_renamed;
RegEx color_hexadecimal_short_constructor = RegEx("Color\\(\"#?([a-fA-F0-9]{1})([a-fA-F0-9]{3})\\b");
RegEx color_hexadecimal_full_constructor = RegEx("Color\\(\"#?([a-fA-F0-9]{2})([a-fA-F0-9]{6})\\b");
// Classes.
LocalVector<RegEx *> class_tscn_regexes;
LocalVector<RegEx *> class_gd_regexes;
LocalVector<RegEx *> class_shader_regexes;
// Keycode.
RegEx input_map_keycode = RegEx("\\b,\"((physical_)?)scancode\":(\\d+)\\b");
// Button index and joypad axis.
RegEx joypad_button_index = RegEx("\\b,\"button_index\":(\\d+),(\"pressure\":\\d+\\.\\d+,\"pressed\":(false|true))\\b");
RegEx joypad_axis = RegEx("\\b,\"axis\":(\\d+)\\b");
// Index represents Godot 3's value, entry represents Godot 4 value equivalency.
// i.e: Button4(L1 - Godot3) -> joypad_button_mappings[4]=9 -> Button9(L1 - Godot4).
int joypad_button_mappings[23] = { 0, 1, 2, 3, 9, 10, -1 /*L2*/, -1 /*R2*/, 7, 8, 4, 6, 11, 12, 13, 14, 5, 15, 16, 17, 18, 19, 20 };
// Entries for L2 and R2 are -1 since they match to joypad axes and no longer to joypad buttons in Godot 4.
LocalVector<RegEx *> class_regexes;
RegEx class_temp_tscn = RegEx("\\bTEMP_RENAMED_CLASS.tscn\\b");
RegEx class_temp_gd = RegEx("\\bTEMP_RENAMED_CLASS.gd\\b");
RegEx class_temp_shader = RegEx("\\bTEMP_RENAMED_CLASS.shader\\b");
LocalVector<String> class_temp_tscn_renames;
LocalVector<String> class_temp_gd_renames;
LocalVector<String> class_temp_shader_renames;
// Common.
LocalVector<RegEx *> enum_regexes;
LocalVector<RegEx *> gdscript_function_regexes;
LocalVector<RegEx *> project_settings_regexes;
LocalVector<RegEx *> project_godot_regexes;
LocalVector<RegEx *> input_map_regexes;
LocalVector<RegEx *> gdscript_properties_regexes;
LocalVector<RegEx *> gdscript_signals_regexes;
LocalVector<RegEx *> shaders_regexes;
LocalVector<RegEx *> builtin_types_regexes;
LocalVector<RegEx *> theme_override_regexes;
LocalVector<RegEx *> csharp_function_regexes;
LocalVector<RegEx *> csharp_properties_regexes;
LocalVector<RegEx *> csharp_signal_regexes;
RegExContainer() {
// Common.
{
// Enum.
for (unsigned int current_index = 0; RenamesMap3To4::enum_renames[current_index][0]; current_index++) {
enum_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::enum_renames[current_index][0] + "\\b")));
}
// GDScript functions.
for (unsigned int current_index = 0; RenamesMap3To4::gdscript_function_renames[current_index][0]; current_index++) {
gdscript_function_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::gdscript_function_renames[current_index][0] + "\\b")));
}
// Project Settings in scripts.
for (unsigned int current_index = 0; RenamesMap3To4::project_settings_renames[current_index][0]; current_index++) {
project_settings_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::project_settings_renames[current_index][0] + "\\b")));
}
// Project Settings in project.godot.
for (unsigned int current_index = 0; RenamesMap3To4::project_godot_renames[current_index][0]; current_index++) {
project_godot_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::project_godot_renames[current_index][0] + "\\b")));
}
// Input Map.
for (unsigned int current_index = 0; RenamesMap3To4::input_map_renames[current_index][0]; current_index++) {
input_map_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::input_map_renames[current_index][0] + "\\b")));
}
// GDScript properties.
for (unsigned int current_index = 0; RenamesMap3To4::gdscript_properties_renames[current_index][0]; current_index++) {
gdscript_properties_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::gdscript_properties_renames[current_index][0] + "\\b")));
}
// GDScript Signals.
for (unsigned int current_index = 0; RenamesMap3To4::gdscript_signals_renames[current_index][0]; current_index++) {
gdscript_signals_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::gdscript_signals_renames[current_index][0] + "\\b")));
}
// Shaders.
for (unsigned int current_index = 0; RenamesMap3To4::shaders_renames[current_index][0]; current_index++) {
shaders_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::shaders_renames[current_index][0] + "\\b")));
}
// Builtin types.
for (unsigned int current_index = 0; RenamesMap3To4::builtin_types_renames[current_index][0]; current_index++) {
builtin_types_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::builtin_types_renames[current_index][0] + "\\b")));
}
// Theme overrides.
for (unsigned int current_index = 0; RenamesMap3To4::theme_override_renames[current_index][0]; current_index++) {
theme_override_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::theme_override_renames[current_index][0] + "\\b")));
}
// CSharp function renames.
for (unsigned int current_index = 0; RenamesMap3To4::csharp_function_renames[current_index][0]; current_index++) {
csharp_function_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::csharp_function_renames[current_index][0] + "\\b")));
}
// CSharp properties renames.
for (unsigned int current_index = 0; RenamesMap3To4::csharp_properties_renames[current_index][0]; current_index++) {
csharp_properties_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::csharp_properties_renames[current_index][0] + "\\b")));
}
// CSharp signals renames.
for (unsigned int current_index = 0; RenamesMap3To4::csharp_signals_renames[current_index][0]; current_index++) {
csharp_signal_regexes.push_back(memnew(RegEx(String("\\b") + RenamesMap3To4::csharp_signals_renames[current_index][0] + "\\b")));
}
}
// Colors.
{
for (unsigned int current_index = 0; RenamesMap3To4::color_renames[current_index][0]; current_index++) {
color_regexes.push_back(memnew(RegEx(String("\\bColor.") + RenamesMap3To4::color_renames[current_index][0] + "\\b")));
color_renamed.push_back(String("Color.") + RenamesMap3To4::color_renames[current_index][1]);
}
}
// Classes.
{
for (unsigned int current_index = 0; RenamesMap3To4::class_renames[current_index][0]; current_index++) {
const String class_name = RenamesMap3To4::class_renames[current_index][0];
class_tscn_regexes.push_back(memnew(RegEx(String("\\b") + class_name + ".tscn\\b")));
class_gd_regexes.push_back(memnew(RegEx(String("\\b") + class_name + ".gd\\b")));
class_shader_regexes.push_back(memnew(RegEx(String("\\b") + class_name + ".shader\\b")));
class_regexes.push_back(memnew(RegEx(String("\\b") + class_name + "\\b")));
class_temp_tscn_renames.push_back(class_name + ".tscn");
class_temp_gd_renames.push_back(class_name + ".gd");
class_temp_shader_renames.push_back(class_name + ".shader");
}
}
}
~RegExContainer() {
for (RegEx *regex : color_regexes) {
memdelete(regex);
}
for (unsigned int i = 0; i < class_tscn_regexes.size(); i++) {
memdelete(class_tscn_regexes[i]);
memdelete(class_gd_regexes[i]);
memdelete(class_shader_regexes[i]);
memdelete(class_regexes[i]);
}
for (RegEx *regex : enum_regexes) {
memdelete(regex);
}
for (RegEx *regex : gdscript_function_regexes) {
memdelete(regex);
}
for (RegEx *regex : project_settings_regexes) {
memdelete(regex);
}
for (RegEx *regex : project_godot_regexes) {
memdelete(regex);
}
for (RegEx *regex : input_map_regexes) {
memdelete(regex);
}
for (RegEx *regex : gdscript_properties_regexes) {
memdelete(regex);
}
for (RegEx *regex : gdscript_signals_regexes) {
memdelete(regex);
}
for (RegEx *regex : shaders_regexes) {
memdelete(regex);
}
for (RegEx *regex : builtin_types_regexes) {
memdelete(regex);
}
for (RegEx *regex : theme_override_regexes) {
memdelete(regex);
}
for (RegEx *regex : csharp_function_regexes) {
memdelete(regex);
}
for (RegEx *regex : csharp_properties_regexes) {
memdelete(regex);
}
for (RegEx *regex : csharp_signal_regexes) {
memdelete(regex);
}
}
};
ProjectConverter3To4::ProjectConverter3To4(int p_maximum_file_size_kb, int p_maximum_line_length) {
maximum_file_size = p_maximum_file_size_kb * 1024;
maximum_line_length = p_maximum_line_length;
}
// Function responsible for converting project.
bool ProjectConverter3To4::convert() {
print_line("Starting conversion.");
uint64_t conversion_start_time = Time::get_singleton()->get_ticks_msec();
RegExContainer reg_container = RegExContainer();
int cached_maximum_line_length = maximum_line_length;
maximum_line_length = 10000; // Use only for tests bigger value, to not break them.
ERR_FAIL_COND_V_MSG(!test_array_names(), false, "Cannot start converting due to problems with data in arrays.");
ERR_FAIL_COND_V_MSG(!test_conversion(reg_container), false, "Aborting conversion due to validation tests failing");
maximum_line_length = cached_maximum_line_length;
// Checking if folder contains valid Godot 3 project.
// Project should not be converted more than once.
{
String converter_text = "; Project was converted by built-in tool to Godot 4";
ERR_FAIL_COND_V_MSG(!FileAccess::exists("project.godot"), false, "Current working directory doesn't contain a \"project.godot\" file for a Godot 3 project.");
Error err = OK;
String project_godot_content = FileAccess::get_file_as_string("project.godot", &err);
ERR_FAIL_COND_V_MSG(err != OK, false, "Unable to read \"project.godot\".");
ERR_FAIL_COND_V_MSG(project_godot_content.contains(converter_text), false, "Project was already converted with this tool.");
Ref<FileAccess> file = FileAccess::open("project.godot", FileAccess::WRITE);
ERR_FAIL_COND_V_MSG(file.is_null(), false, "Unable to open \"project.godot\".");
file->store_string(converter_text + "\n" + project_godot_content);
}
Vector<String> collected_files = check_for_files();
uint32_t converted_files = 0;
// Check file by file.
for (int i = 0; i < collected_files.size(); i++) {
String file_name = collected_files[i];
Vector<SourceLine> source_lines;
uint32_t ignored_lines = 0;
{
Ref<FileAccess> file = FileAccess::open(file_name, FileAccess::READ);
ERR_CONTINUE_MSG(file.is_null(), vformat("Unable to read content of \"%s\".", file_name));
while (!file->eof_reached()) {
String line = file->get_line();
SourceLine source_line;
source_line.line = line;
source_line.is_comment = reg_container.gdscript_comment.search_all(line).size() > 0 || reg_container.csharp_comment.search_all(line).size() > 0;
source_lines.append(source_line);
}
}
String file_content_before = collect_string_from_vector(source_lines);
uint64_t hash_before = file_content_before.hash();
uint64_t file_size = file_content_before.size();
print_line(vformat("Trying to convert\t%d/%d file - \"%s\" with size - %d KB", i + 1, collected_files.size(), file_name.trim_prefix("res://"), file_size / 1024));
Vector<String> reason;
bool is_ignored = false;
uint64_t start_time = Time::get_singleton()->get_ticks_msec();
if (file_name.ends_with(".shader")) {
DirAccess::remove_file_or_error(file_name.trim_prefix("res://"));
file_name = file_name.replace(".shader", ".gdshader");
}
if (file_size < uint64_t(maximum_file_size)) {
// ".tscn" must work exactly the same as ".gd" files because they may contain built-in Scripts.
if (file_name.ends_with(".gd")) {
fix_tool_declaration(source_lines, reg_container);
rename_classes(source_lines, reg_container); // Using only specialized function.
rename_common(RenamesMap3To4::enum_renames, reg_container.enum_regexes, source_lines);
rename_colors(source_lines, reg_container); // Require to additional rename.
rename_common(RenamesMap3To4::gdscript_function_renames, reg_container.gdscript_function_regexes, source_lines);
rename_gdscript_functions(source_lines, reg_container, false); // Require to additional rename.
rename_common(RenamesMap3To4::project_settings_renames, reg_container.project_settings_regexes, source_lines);
rename_gdscript_keywords(source_lines, reg_container, false);
rename_common(RenamesMap3To4::gdscript_properties_renames, reg_container.gdscript_properties_regexes, source_lines);
rename_common(RenamesMap3To4::gdscript_signals_renames, reg_container.gdscript_signals_regexes, source_lines);
rename_common(RenamesMap3To4::shaders_renames, reg_container.shaders_regexes, source_lines);
rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, source_lines);
rename_common(RenamesMap3To4::theme_override_renames, reg_container.theme_override_regexes, source_lines);
custom_rename(source_lines, "\\.shader", ".gdshader");
convert_hexadecimal_colors(source_lines, reg_container);
} else if (file_name.ends_with(".tscn")) {
fix_pause_mode(source_lines, reg_container);
rename_classes(source_lines, reg_container); // Using only specialized function.
rename_common(RenamesMap3To4::enum_renames, reg_container.enum_regexes, source_lines);
rename_colors(source_lines, reg_container); // Require to do additional renames.
rename_common(RenamesMap3To4::gdscript_function_renames, reg_container.gdscript_function_regexes, source_lines);
rename_gdscript_functions(source_lines, reg_container, true); // Require to do additional renames.
rename_common(RenamesMap3To4::project_settings_renames, reg_container.project_settings_regexes, source_lines);
rename_gdscript_keywords(source_lines, reg_container, true);
rename_common(RenamesMap3To4::gdscript_properties_renames, reg_container.gdscript_properties_regexes, source_lines);
rename_common(RenamesMap3To4::gdscript_signals_renames, reg_container.gdscript_signals_regexes, source_lines);
rename_common(RenamesMap3To4::shaders_renames, reg_container.shaders_regexes, source_lines);
rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, source_lines);
rename_common(RenamesMap3To4::theme_override_renames, reg_container.theme_override_regexes, source_lines);
custom_rename(source_lines, "\\.shader", ".gdshader");
convert_hexadecimal_colors(source_lines, reg_container);
} else if (file_name.ends_with(".cs")) { // TODO, C# should use different methods.
rename_classes(source_lines, reg_container); // Using only specialized function.
rename_common(RenamesMap3To4::csharp_function_renames, reg_container.csharp_function_regexes, source_lines);
rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, source_lines);
rename_common(RenamesMap3To4::csharp_properties_renames, reg_container.csharp_properties_regexes, source_lines);
rename_common(RenamesMap3To4::csharp_signals_renames, reg_container.csharp_signal_regexes, source_lines);
rename_csharp_functions(source_lines, reg_container);
rename_csharp_attributes(source_lines, reg_container);
custom_rename(source_lines, "public class ", "public partial class ");
convert_hexadecimal_colors(source_lines, reg_container);
} else if (file_name.ends_with(".gdshader") || file_name.ends_with(".shader")) {
rename_common(RenamesMap3To4::shaders_renames, reg_container.shaders_regexes, source_lines);
} else if (file_name.ends_with("tres")) {
rename_classes(source_lines, reg_container); // Using only specialized function.
rename_common(RenamesMap3To4::shaders_renames, reg_container.shaders_regexes, source_lines);
rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, source_lines);
custom_rename(source_lines, "\\.shader", ".gdshader");
} else if (file_name.ends_with("project.godot")) {
rename_common(RenamesMap3To4::project_godot_renames, reg_container.project_godot_regexes, source_lines);
rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, source_lines);
rename_input_map_scancode(source_lines, reg_container);
rename_joypad_buttons_and_axes(source_lines, reg_container);
rename_common(RenamesMap3To4::input_map_renames, reg_container.input_map_regexes, source_lines);
custom_rename(source_lines, "config_version=4", "config_version=5");
} else if (file_name.ends_with(".csproj")) {
// TODO
} else if (file_name.ends_with(".import")) {
for (SourceLine &source_line : source_lines) {
String &line = source_line.line;
if (line.contains("nodes/root_type=\"Spatial\"")) {
line = "nodes/root_type=\"Node3D\"";
} else if (line == "importer=\"ogg_vorbis\"") {
line = "importer=\"oggvorbisstr\"";
}
}
} else {
ERR_PRINT(file_name + " is not supported!");
continue;
}
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) > maximum_line_length) {
ignored_lines += 1;
}
}
} else {
reason.append(vformat(" ERROR: File has exceeded the maximum size allowed - %d KB", maximum_file_size / 1024));
is_ignored = true;
}
uint64_t end_time = Time::get_singleton()->get_ticks_msec();
if (is_ignored) {
String end_message = vformat(" Checking file took %d ms.", end_time - start_time);
print_line(end_message);
} else {
String file_content_after = collect_string_from_vector(source_lines);
uint64_t hash_after = file_content_after.hash64();
// Don't need to save file without any changes.
// Save if this is a shader, because it was renamed.
if (hash_before != hash_after || file_name.ends_with(".gdshader")) {
converted_files++;
Ref<FileAccess> file = FileAccess::open(file_name, FileAccess::WRITE);
ERR_CONTINUE_MSG(file.is_null(), vformat("Unable to apply changes to \"%s\", no writing access.", file_name));
file->store_string(file_content_after);
reason.append(vformat(" File was changed, conversion took %d ms.", end_time - start_time));
} else {
reason.append(vformat(" File was left unchanged, checking took %d ms.", end_time - start_time));
}
if (ignored_lines != 0) {
reason.append(vformat(" Ignored %d lines, because their length exceeds maximum allowed characters - %d.", ignored_lines, maximum_line_length));
}
}
for (int k = 0; k < reason.size(); k++) {
print_line(reason[k]);
}
}
print_line(vformat("Conversion ended - all files(%d), converted files: (%d), not converted files: (%d).", collected_files.size(), converted_files, collected_files.size() - converted_files));
uint64_t conversion_end_time = Time::get_singleton()->get_ticks_msec();
print_line(vformat("Conversion of all files took %10.3f seconds.", (conversion_end_time - conversion_start_time) / 1000.0));
return true;
}
// Function responsible for validating project conversion.
bool ProjectConverter3To4::validate_conversion() {
print_line("Starting checking if project conversion can be done.");
uint64_t conversion_start_time = Time::get_singleton()->get_ticks_msec();
RegExContainer reg_container = RegExContainer();
int cached_maximum_line_length = maximum_line_length;
maximum_line_length = 10000; // To avoid breaking the tests, only use this for the their larger value.
ERR_FAIL_COND_V_MSG(!test_array_names(), false, "Cannot start converting due to problems with data in arrays.");
ERR_FAIL_COND_V_MSG(!test_conversion(reg_container), false, "Aborting conversion due to validation tests failing");
maximum_line_length = cached_maximum_line_length;
// Checking if folder contains valid Godot 3 project.
// Project should not be converted more than once.
{
String conventer_text = "; Project was converted by built-in tool to Godot 4";
ERR_FAIL_COND_V_MSG(!FileAccess::exists("project.godot"), false, "Current directory doesn't contain any Godot 3 project");
Error err = OK;
String project_godot_content = FileAccess::get_file_as_string("project.godot", &err);
ERR_FAIL_COND_V_MSG(err != OK, false, "Failed to read content of \"project.godot\" file.");
ERR_FAIL_COND_V_MSG(project_godot_content.contains(conventer_text), false, "Project already was converted with this tool.");
}
Vector<String> collected_files = check_for_files();
uint32_t converted_files = 0;
// Check file by file.
for (int i = 0; i < collected_files.size(); i++) {
String file_name = collected_files[i];
Vector<String> lines;
uint32_t ignored_lines = 0;
uint64_t file_size = 0;
{
Ref<FileAccess> file = FileAccess::open(file_name, FileAccess::READ);
ERR_CONTINUE_MSG(file.is_null(), vformat("Unable to read content of \"%s\".", file_name));
while (!file->eof_reached()) {
String line = file->get_line();
file_size += line.size();
lines.append(line);
}
}
print_line(vformat("Checking for conversion - %d/%d file - \"%s\" with size - %d KB", i + 1, collected_files.size(), file_name.trim_prefix("res://"), file_size / 1024));
Vector<String> changed_elements;
Vector<String> reason;
bool is_ignored = false;
uint64_t start_time = Time::get_singleton()->get_ticks_msec();
if (file_name.ends_with(".shader")) {
reason.append("\tFile extension will be renamed from \"shader\" to \"gdshader\".");
}
if (file_size < uint64_t(maximum_file_size)) {
if (file_name.ends_with(".gd")) {
changed_elements.append_array(check_for_rename_classes(lines, reg_container));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::enum_renames, reg_container.enum_regexes, lines));
changed_elements.append_array(check_for_rename_colors(lines, reg_container));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::gdscript_function_renames, reg_container.gdscript_function_regexes, lines));
changed_elements.append_array(check_for_rename_gdscript_functions(lines, reg_container, false));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::project_settings_renames, reg_container.project_settings_regexes, lines));
changed_elements.append_array(check_for_rename_gdscript_keywords(lines, reg_container, false));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::gdscript_properties_renames, reg_container.gdscript_properties_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::gdscript_signals_renames, reg_container.gdscript_signals_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::shaders_renames, reg_container.shaders_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::theme_override_renames, reg_container.theme_override_regexes, lines));
changed_elements.append_array(check_for_custom_rename(lines, "\\.shader", ".gdshader"));
} else if (file_name.ends_with(".tscn")) {
changed_elements.append_array(check_for_rename_classes(lines, reg_container));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::enum_renames, reg_container.enum_regexes, lines));
changed_elements.append_array(check_for_rename_colors(lines, reg_container));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::gdscript_function_renames, reg_container.gdscript_function_regexes, lines));
changed_elements.append_array(check_for_rename_gdscript_functions(lines, reg_container, true));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::project_settings_renames, reg_container.project_settings_regexes, lines));
changed_elements.append_array(check_for_rename_gdscript_keywords(lines, reg_container, true));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::gdscript_properties_renames, reg_container.gdscript_properties_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::gdscript_signals_renames, reg_container.gdscript_signals_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::shaders_renames, reg_container.shaders_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::theme_override_renames, reg_container.theme_override_regexes, lines));
changed_elements.append_array(check_for_custom_rename(lines, "\\.shader", ".gdshader"));
} else if (file_name.ends_with(".cs")) {
changed_elements.append_array(check_for_rename_classes(lines, reg_container));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::csharp_function_renames, reg_container.csharp_function_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::csharp_properties_renames, reg_container.csharp_properties_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::csharp_signals_renames, reg_container.csharp_signal_regexes, lines));
changed_elements.append_array(check_for_rename_csharp_functions(lines, reg_container));
changed_elements.append_array(check_for_rename_csharp_attributes(lines, reg_container));
changed_elements.append_array(check_for_custom_rename(lines, "public class ", "public partial class "));
} else if (file_name.ends_with(".gdshader") || file_name.ends_with(".shader")) {
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::shaders_renames, reg_container.shaders_regexes, lines));
} else if (file_name.ends_with("tres")) {
changed_elements.append_array(check_for_rename_classes(lines, reg_container));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::shaders_renames, reg_container.shaders_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, lines));
changed_elements.append_array(check_for_custom_rename(lines, "\\.shader", ".gdshader"));
} else if (file_name.ends_with("project.godot")) {
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::project_godot_renames, reg_container.project_godot_regexes, lines));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, lines));
changed_elements.append_array(check_for_rename_input_map_scancode(lines, reg_container));
changed_elements.append_array(check_for_rename_joypad_buttons_and_axes(lines, reg_container));
changed_elements.append_array(check_for_rename_common(RenamesMap3To4::input_map_renames, reg_container.input_map_regexes, lines));
} else if (file_name.ends_with(".csproj")) {
// TODO
} else {
ERR_PRINT(vformat("\"%s\", is not supported!", file_name));
continue;
}
for (String &line : lines) {
if (uint64_t(line.length()) > maximum_line_length) {
ignored_lines += 1;
}
}
} else {
reason.append(vformat("\tERROR: File has exceeded the maximum size allowed - %d KB.", maximum_file_size / 1024));
is_ignored = true;
}
uint64_t end_time = Time::get_singleton()->get_ticks_msec();
String end_message = vformat(" Checking file took %10.3f ms.", (end_time - start_time) / 1000.0);
if (ignored_lines != 0) {
end_message += vformat(" Ignored %d lines, because their length exceeds maximum allowed characters - %d.", ignored_lines, maximum_line_length);
}
print_line(end_message);
for (int k = 0; k < reason.size(); k++) {
print_line(reason[k]);
}
if (changed_elements.size() > 0 && !is_ignored) {
converted_files++;
for (int k = 0; k < changed_elements.size(); k++) {
print_line(String("\t\t") + changed_elements[k]);
}
}
}
print_line(vformat("Checking for valid conversion ended - all files(%d), files which would be converted(%d), files which would not be converted(%d).", collected_files.size(), converted_files, collected_files.size() - converted_files));
uint64_t conversion_end_time = Time::get_singleton()->get_ticks_msec();
print_line(vformat("Conversion of all files took %10.3f seconds.", (conversion_end_time - conversion_start_time) / 1000.0));
return true;
}
// Collect files which will be checked, excluding ".txt", ".mp4", ".wav" etc. files.
Vector<String> ProjectConverter3To4::check_for_files() {
Vector<String> collected_files = Vector<String>();
Vector<String> directories_to_check = Vector<String>();
directories_to_check.push_back("res://");
while (!directories_to_check.is_empty()) {
String path = directories_to_check.get(directories_to_check.size() - 1); // Is there any pop_back function?
directories_to_check.resize(directories_to_check.size() - 1); // Remove last element
Ref<DirAccess> dir = DirAccess::open(path);
if (dir.is_valid()) {
dir->set_include_hidden(true);
dir->list_dir_begin();
String current_dir = dir->get_current_dir();
String file_name = dir->_get_next();
while (file_name != "") {
if (file_name == ".git" || file_name == ".godot") {
file_name = dir->_get_next();
continue;
}
if (dir->current_is_dir()) {
directories_to_check.append(current_dir.path_join(file_name) + "/");
} else {
bool proper_extension = false;
if (file_name.ends_with(".gd") || file_name.ends_with(".shader") || file_name.ends_with(".gdshader") || file_name.ends_with(".tscn") || file_name.ends_with(".tres") || file_name.ends_with(".godot") || file_name.ends_with(".cs") || file_name.ends_with(".csproj") || file_name.ends_with(".import"))
proper_extension = true;
if (proper_extension) {
collected_files.append(current_dir.path_join(file_name));
}
}
file_name = dir->_get_next();
}
} else {
print_verbose("Failed to open " + path);
}
}
return collected_files;
}
Vector<SourceLine> ProjectConverter3To4::split_lines(const String &text) {
Vector<String> lines = text.split("\n");
Vector<SourceLine> source_lines;
for (String &line : lines) {
SourceLine source_line;
source_line.line = line;
source_line.is_comment = false;
source_lines.append(source_line);
}
return source_lines;
}
// Test expected results of gdscript
bool ProjectConverter3To4::test_conversion_gdscript_builtin(String name, String expected, void (ProjectConverter3To4::*func)(Vector<SourceLine> &, const RegExContainer &, bool), String what, const RegExContainer &reg_container, bool builtin_script) {
Vector<SourceLine> got = split_lines(name);
(this->*func)(got, reg_container, builtin_script);
String got_str = collect_string_from_vector(got);
ERR_FAIL_COND_V_MSG(expected != got_str, false, vformat("Failed to convert %s \"%s\" to \"%s\", got instead \"%s\"", what, name, expected, got_str));
return true;
}
bool ProjectConverter3To4::test_conversion_with_regex(String name, String expected, void (ProjectConverter3To4::*func)(Vector<SourceLine> &, const RegExContainer &), String what, const RegExContainer &reg_container) {
Vector<SourceLine> got = split_lines(name);
(this->*func)(got, reg_container);
String got_str = collect_string_from_vector(got);
ERR_FAIL_COND_V_MSG(expected != got_str, false, vformat("Failed to convert %s \"%s\" to \"%s\", got instead \"%s\"", what, name, expected, got_str));
return true;
}
bool ProjectConverter3To4::test_conversion_basic(String name, String expected, const char *array[][2], LocalVector<RegEx *> &regex_cache, String what) {
Vector<SourceLine> got = split_lines(name);
rename_common(array, regex_cache, got);
String got_str = collect_string_from_vector(got);
ERR_FAIL_COND_V_MSG(expected != got_str, false, vformat("Failed to convert %s \"%s\" to \"%s\", got instead \"%s\"", what, name, expected, got_str));
return true;
}
// Validate if conversions are proper.
bool ProjectConverter3To4::test_conversion(RegExContainer &reg_container) {
bool valid = true;
valid = valid && test_conversion_with_regex("tool", "@tool", &ProjectConverter3To4::fix_tool_declaration, "gdscript keyword", reg_container);
valid = valid && test_conversion_with_regex("\n tool", "\n tool", &ProjectConverter3To4::fix_tool_declaration, "gdscript keyword", reg_container);
valid = valid && test_conversion_with_regex("\n\ntool", "@tool\n\n", &ProjectConverter3To4::fix_tool_declaration, "gdscript keyword", reg_container);
valid = valid && test_conversion_with_regex("pause_mode = 2", "pause_mode = 3", &ProjectConverter3To4::fix_pause_mode, "pause_mode", reg_container);
valid = valid && test_conversion_with_regex("pause_mode = 1", "pause_mode = 1", &ProjectConverter3To4::fix_pause_mode, "pause_mode", reg_container);
valid = valid && test_conversion_with_regex("pause_mode = 3", "pause_mode = 3", &ProjectConverter3To4::fix_pause_mode, "pause_mode", reg_container);
valid = valid && test_conversion_with_regex("somepause_mode = 2", "somepause_mode = 2", &ProjectConverter3To4::fix_pause_mode, "pause_mode", reg_container);
valid = valid && test_conversion_with_regex("pause_mode_ext = 2", "pause_mode_ext = 2", &ProjectConverter3To4::fix_pause_mode, "pause_mode", reg_container);
valid = valid && test_conversion_basic("TYPE_REAL", "TYPE_FLOAT", RenamesMap3To4::enum_renames, reg_container.enum_regexes, "enum");
valid = valid && test_conversion_basic("can_instance", "can_instantiate", RenamesMap3To4::gdscript_function_renames, reg_container.gdscript_function_regexes, "gdscript function");
valid = valid && test_conversion_basic("CanInstance", "CanInstantiate", RenamesMap3To4::csharp_function_renames, reg_container.csharp_function_regexes, "csharp function");
valid = valid && test_conversion_basic("translation", "position", RenamesMap3To4::gdscript_properties_renames, reg_container.gdscript_properties_regexes, "gdscript property");
valid = valid && test_conversion_basic("Translation", "Position", RenamesMap3To4::csharp_properties_renames, reg_container.csharp_properties_regexes, "csharp property");
valid = valid && test_conversion_basic("NORMALMAP", "NORMAL_MAP", RenamesMap3To4::shaders_renames, reg_container.shaders_regexes, "shader");
valid = valid && test_conversion_basic("text_entered", "text_submitted", RenamesMap3To4::gdscript_signals_renames, reg_container.gdscript_signals_regexes, "gdscript signal");
valid = valid && test_conversion_basic("TextEntered", "TextSubmitted", RenamesMap3To4::csharp_signals_renames, reg_container.csharp_signal_regexes, "csharp signal");
valid = valid && test_conversion_basic("audio/channel_disable_threshold_db", "audio/buses/channel_disable_threshold_db", RenamesMap3To4::project_settings_renames, reg_container.project_settings_regexes, "project setting");
valid = valid && test_conversion_basic("\"device\":-1,\"alt\":false,\"shift\":false,\"control\":false,\"meta\":false,\"doubleclick\":false,\"scancode\":0,\"physical_scancode\":16777254,\"script\":null", "\"device\":-1,\"alt_pressed\":false,\"shift_pressed\":false,\"ctrl_pressed\":false,\"meta_pressed\":false,\"double_click\":false,\"keycode\":0,\"physical_keycode\":16777254,\"script\":null", RenamesMap3To4::input_map_renames, reg_container.input_map_regexes, "input map");
valid = valid && test_conversion_basic("Transform", "Transform3D", RenamesMap3To4::builtin_types_renames, reg_container.builtin_types_regexes, "builtin type");
valid = valid && test_conversion_basic("custom_constants/margin_right", "theme_override_constants/margin_right", RenamesMap3To4::theme_override_renames, reg_container.theme_override_regexes, "theme overrides");
// Custom Renames.
valid = valid && test_conversion_with_regex("(Connect(A,B,C,D,E,F,G) != OK):", "(Connect(A, new Callable(B, C), D, E, F, G) != OK):", &ProjectConverter3To4::rename_csharp_functions, "custom rename csharp", reg_container);
valid = valid && test_conversion_with_regex("(Disconnect(A,B,C) != OK):", "(Disconnect(A, new Callable(B, C)) != OK):", &ProjectConverter3To4::rename_csharp_functions, "custom rename csharp", reg_container);
valid = valid && test_conversion_with_regex("(IsConnected(A,B,C) != OK):", "(IsConnected(A, new Callable(B, C)) != OK):", &ProjectConverter3To4::rename_csharp_functions, "custom rename", reg_container);
valid = valid && test_conversion_with_regex("[Remote]", "[RPC(MultiplayerAPI.RPCMode.AnyPeer)]", &ProjectConverter3To4::rename_csharp_attributes, "custom rename csharp", reg_container);
valid = valid && test_conversion_with_regex("[RemoteSync]", "[RPC(MultiplayerAPI.RPCMode.AnyPeer, CallLocal = true)]", &ProjectConverter3To4::rename_csharp_attributes, "custom rename csharp", reg_container);
valid = valid && test_conversion_with_regex("[Sync]", "[RPC(MultiplayerAPI.RPCMode.AnyPeer, CallLocal = true)]", &ProjectConverter3To4::rename_csharp_attributes, "custom rename csharp", reg_container);
valid = valid && test_conversion_with_regex("[Slave]", "[RPC]", &ProjectConverter3To4::rename_csharp_attributes, "custom rename csharp", reg_container);
valid = valid && test_conversion_with_regex("[Puppet]", "[RPC]", &ProjectConverter3To4::rename_csharp_attributes, "custom rename csharp", reg_container);
valid = valid && test_conversion_with_regex("[PuppetSync]", "[RPC(CallLocal = true)]", &ProjectConverter3To4::rename_csharp_attributes, "custom rename csharp", reg_container);
valid = valid && test_conversion_with_regex("[Master]", "The master and mastersync rpc behavior is not officially supported anymore. Try using another keyword or making custom logic using Multiplayer.GetRemoteSenderId()\n[RPC]", &ProjectConverter3To4::rename_csharp_attributes, "custom rename csharp", reg_container);
valid = valid && test_conversion_with_regex("[MasterSync]", "The master and mastersync rpc behavior is not officially supported anymore. Try using another keyword or making custom logic using Multiplayer.GetRemoteSenderId()\n[RPC(CallLocal = true)]", &ProjectConverter3To4::rename_csharp_attributes, "custom rename csharp", reg_container);
valid = valid && test_conversion_gdscript_builtin("\tif OS.window_resizable: pass", "\tif (not get_window().unresizable): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.is_window_resizable(): pass", "\tif (not get_window().unresizable): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.set_window_resizable(Settings.resizable)", "\tget_window().unresizable = not (Settings.resizable)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.window_resizable = Settings.resizable", "\tget_window().unresizable = not (Settings.resizable)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.window_fullscreen: pass", "\tif ((get_window().mode == Window.MODE_EXCLUSIVE_FULLSCREEN) or (get_window().mode == Window.MODE_FULLSCREEN)): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.is_window_fullscreen(): pass", "\tif ((get_window().mode == Window.MODE_EXCLUSIVE_FULLSCREEN) or (get_window().mode == Window.MODE_FULLSCREEN)): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.set_window_fullscreen(Settings.fullscreen)", "\tget_window().mode = Window.MODE_EXCLUSIVE_FULLSCREEN if (Settings.fullscreen) else Window.MODE_WINDOWED", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.window_fullscreen = Settings.fullscreen", "\tget_window().mode = Window.MODE_EXCLUSIVE_FULLSCREEN if (Settings.fullscreen) else Window.MODE_WINDOWED", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.window_maximized: pass", "\tif (get_window().mode == Window.MODE_MAXIMIZED): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.is_window_maximized(): pass", "\tif (get_window().mode == Window.MODE_MAXIMIZED): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.set_window_maximized(Settings.maximized)", "\tget_window().mode = Window.MODE_MAXIMIZED if (Settings.maximized) else Window.MODE_WINDOWED", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.window_maximized = Settings.maximized", "\tget_window().mode = Window.MODE_MAXIMIZED if (Settings.maximized) else Window.MODE_WINDOWED", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.window_minimized: pass", "\tif (get_window().mode == Window.MODE_MINIMIZED): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.is_window_minimized(): pass", "\tif (get_window().mode == Window.MODE_MINIMIZED): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.set_window_minimized(Settings.minimized)", "\tget_window().mode = Window.MODE_MINIMIZED if (Settings.minimized) else Window.MODE_WINDOWED", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.window_minimized = Settings.minimized", "\tget_window().mode = Window.MODE_MINIMIZED if (Settings.minimized) else Window.MODE_WINDOWED", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.vsync_enabled: pass", "\tif (DisplayServer.window_get_vsync_mode() != DisplayServer.VSYNC_DISABLED): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.is_vsync_enabled(): pass", "\tif (DisplayServer.window_get_vsync_mode() != DisplayServer.VSYNC_DISABLED): pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.set_use_vsync(Settings.vsync)", "\tDisplayServer.window_set_vsync_mode(DisplayServer.VSYNC_ENABLED if (Settings.vsync) else DisplayServer.VSYNC_DISABLED)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.vsync_enabled = Settings.vsync", "\tDisplayServer.window_set_vsync_mode(DisplayServer.VSYNC_ENABLED if (Settings.vsync) else DisplayServer.VSYNC_DISABLED)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.screen_orientation = OS.SCREEN_ORIENTATION_VERTICAL: pass", "\tif DisplayServer.screen_get_orientation() = DisplayServer.SCREEN_VERTICAL: pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.get_screen_orientation() = OS.SCREEN_ORIENTATION_LANDSCAPE: pass", "\tif DisplayServer.screen_get_orientation() = DisplayServer.SCREEN_LANDSCAPE: pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.set_screen_orientation(Settings.orient)", "\tDisplayServer.screen_set_orientation(Settings.orient)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.screen_orientation = Settings.orient", "\tDisplayServer.screen_set_orientation(Settings.orient)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.is_window_always_on_top(): pass", "\tif get_window().always_on_top: pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.set_window_always_on_top(Settings.alwaystop)", "\tget_window().always_on_top = (Settings.alwaystop)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tif OS.get_borderless_window(): pass", "\tif get_window().borderless: pass", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tOS.set_borderless_window(Settings.borderless)", "\tget_window().borderless = (Settings.borderless)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tvar aa = roman(r.move_and_slide( a, b, c, d, e, f )) # Roman", "\tr.set_velocity(a)\n\tr.set_up_direction(b)\n\tr.set_floor_stop_on_slope_enabled(c)\n\tr.set_max_slides(d)\n\tr.set_floor_max_angle(e)\n\t# TODOConverter3To4 infinite_inertia were removed in Godot 4 - previous value `f`\n\tr.move_and_slide()\n\tvar aa = roman(r.velocity) # Roman", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tmove_and_slide( a, b, c, d, e, f ) # Roman", "\tset_velocity(a)\n\tset_up_direction(b)\n\tset_floor_stop_on_slope_enabled(c)\n\tset_max_slides(d)\n\tset_floor_max_angle(e)\n\t# TODOConverter3To4 infinite_inertia were removed in Godot 4 - previous value `f`\n\tmove_and_slide() # Roman", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tvar aa = roman(r.move_and_slide_with_snap( a, g, b, c, d, e, f )) # Roman", "\tr.set_velocity(a)\n\t# TODOConverter3To4 looks that snap in Godot 4 is float, not vector like in Godot 3 - previous value `g`\n\tr.set_up_direction(b)\n\tr.set_floor_stop_on_slope_enabled(c)\n\tr.set_max_slides(d)\n\tr.set_floor_max_angle(e)\n\t# TODOConverter3To4 infinite_inertia were removed in Godot 4 - previous value `f`\n\tr.move_and_slide()\n\tvar aa = roman(r.velocity) # Roman", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tmove_and_slide_with_snap( a, g, b, c, d, e, f ) # Roman", "\tset_velocity(a)\n\t# TODOConverter3To4 looks that snap in Godot 4 is float, not vector like in Godot 3 - previous value `g`\n\tset_up_direction(b)\n\tset_floor_stop_on_slope_enabled(c)\n\tset_max_slides(d)\n\tset_floor_max_angle(e)\n\t# TODOConverter3To4 infinite_inertia were removed in Godot 4 - previous value `f`\n\tmove_and_slide() # Roman", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("remove_and_slide(a,b,c,d,e,f)", "remove_and_slide(a,b,c,d,e,f)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("list_dir_begin( a , b )", "list_dir_begin() # TODOConverter3To4 fill missing arguments https://github.com/godotengine/godot/pull/40547", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("list_dir_begin( a )", "list_dir_begin() # TODOConverter3To4 fill missing arguments https://github.com/godotengine/godot/pull/40547", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("list_dir_begin( )", "list_dir_begin() # TODOConverter3To4 fill missing arguments https://github.com/godotengine/godot/pull/40547", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("sort_custom( a , b )", "sort_custom(Callable(a, b))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("func c(var a, var b)", "func c(a, b)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("draw_line(1, 2, 3, 4, 5)", "draw_line(1, 2, 3, 4)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\timage.lock()", "\tfalse # image.lock() # TODOConverter3To4, Image no longer requires locking, `false` helps to not break one line if/else, so it can freely be removed", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\timage.unlock()", "\tfalse # image.unlock() # TODOConverter3To4, Image no longer requires locking, `false` helps to not break one line if/else, so it can freely be removed", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\troman.image.unlock()", "\tfalse # roman.image.unlock() # TODOConverter3To4, Image no longer requires locking, `false` helps to not break one line if/else, so it can freely be removed", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tmtx.lock()", "\tmtx.lock()", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tmutex.unlock()", "\tmutex.unlock()", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_with_regex("extends CSGBox", "extends CSGBox3D", &ProjectConverter3To4::rename_classes, "classes", reg_container);
valid = valid && test_conversion_with_regex("CSGBox", "CSGBox3D", &ProjectConverter3To4::rename_classes, "classes", reg_container);
valid = valid && test_conversion_with_regex("Spatial", "Node3D", &ProjectConverter3To4::rename_classes, "classes", reg_container);
valid = valid && test_conversion_with_regex("Spatial.tscn", "Spatial.tscn", &ProjectConverter3To4::rename_classes, "classes", reg_container);
valid = valid && test_conversion_with_regex("Spatial.gd", "Spatial.gd", &ProjectConverter3To4::rename_classes, "classes", reg_container);
valid = valid && test_conversion_with_regex("Spatial.shader", "Spatial.shader", &ProjectConverter3To4::rename_classes, "classes", reg_container);
valid = valid && test_conversion_with_regex("Spatial.other", "Node3D.other", &ProjectConverter3To4::rename_classes, "classes", reg_container);
valid = valid && test_conversion_gdscript_builtin("\nonready", "\n@onready", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("onready", "@onready", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(" onready", " onready", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\nexport", "\n@export", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\texport", "\t@export", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\texport_dialog", "\texport_dialog", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("export", "@export", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(" export", " export", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\n\nremote func", "\n\n@rpc(\"any_peer\") func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\n\nremote func", "\n\n@rpc(\\\"any_peer\\\") func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, true);
valid = valid && test_conversion_gdscript_builtin("\n\nremotesync func", "\n\n@rpc(\"any_peer\", \"call_local\") func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\n\nremotesync func", "\n\n@rpc(\\\"any_peer\\\", \\\"call_local\\\") func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, true);
valid = valid && test_conversion_gdscript_builtin("\n\nsync func", "\n\n@rpc(\"any_peer\", \"call_local\") func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\n\nsync func", "\n\n@rpc(\\\"any_peer\\\", \\\"call_local\\\") func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, true);
valid = valid && test_conversion_gdscript_builtin("\n\nslave func", "\n\n@rpc func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\n\npuppet func", "\n\n@rpc func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\n\npuppetsync func", "\n\n@rpc(\"call_local\") func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\n\npuppetsync func", "\n\n@rpc(\\\"call_local\\\") func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, true);
valid = valid && test_conversion_gdscript_builtin("\n\nmaster func", "\n\nThe master and mastersync rpc behavior is not officially supported anymore. Try using another keyword or making custom logic using get_multiplayer().get_remote_sender_id()\n@rpc func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\n\nmastersync func", "\n\nThe master and mastersync rpc behavior is not officially supported anymore. Try using another keyword or making custom logic using get_multiplayer().get_remote_sender_id()\n@rpc(\"call_local\") func", &ProjectConverter3To4::rename_gdscript_keywords, "gdscript keyword", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("var size: Vector2 = Vector2() setget set_function, get_function", "var size: Vector2 = Vector2(): get = get_function, set = set_function", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("var size: Vector2 = Vector2() setget set_function, ", "var size: Vector2 = Vector2(): set = set_function", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("var size: Vector2 = Vector2() setget set_function", "var size: Vector2 = Vector2(): set = set_function", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("var size: Vector2 = Vector2() setget , get_function", "var size: Vector2 = Vector2(): get = get_function", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("get_node(@", "get_node(", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("yield(this, \"timeout\")", "await this.timeout", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("yield(this, \\\"timeout\\\")", "await this.timeout", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, true);
valid = valid && test_conversion_gdscript_builtin(" Transform.xform(Vector3(a,b,c) + Vector3.UP) ", " Transform * (Vector3(a,b,c) + Vector3.UP) ", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(" Transform.xform_inv(Vector3(a,b,c) + Vector3.UP) ", " (Vector3(a,b,c) + Vector3.UP) * Transform ", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("export(float) var lifetime = 3.0", "export var lifetime: float = 3.0", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("export(String, 'AnonymousPro', 'CourierPrime') var _font_name = 'AnonymousPro'", "export var _font_name = 'AnonymousPro' # (String, 'AnonymousPro', 'CourierPrime')", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false); // TODO, this is only a workaround
valid = valid && test_conversion_gdscript_builtin("export(PackedScene) var mob_scene", "export var mob_scene: PackedScene", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("export(float) var lifetime: float = 3.0", "export var lifetime: float = 3.0", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("export var lifetime: float = 3.0", "export var lifetime: float = 3.0", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("export var lifetime := 3.0", "export var lifetime := 3.0", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("export(float) var lifetime := 3.0", "export var lifetime := 3.0", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("var d = parse_json(roman(sfs))", "var test_json_conv = JSON.new()\ntest_json_conv.parse(roman(sfs))\nvar d = test_json_conv.get_data()", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("to_json( AA ) szon", "JSON.new().stringify( AA ) szon", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("s to_json", "s JSON.new().stringify", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("AF to_json2", "AF to_json2", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("var rr = JSON.parse(a)", "var test_json_conv = JSON.new()\ntest_json_conv.parse(a)\nvar rr = test_json_conv.get_data()", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("empty()", "is_empty()", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(".empty", ".empty", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(").roman(", ").roman(", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\t.roman(", "\tsuper.roman(", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(" .roman(", " super.roman(", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(".1", ".1", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(" .1", " .1", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("'.'", "'.'", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("'.a'", "'.a'", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\t._input(_event)", "\tsuper._input(_event)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(connect(A,B,C) != OK):", "(connect(A, Callable(B, C)) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(connect(A,B,C,D) != OK):", "(connect(A, Callable(B, C).bind(D)) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(connect(A,B,C,[D]) != OK):", "(connect(A, Callable(B, C).bind(D)) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(connect(A,B,C,[D,E]) != OK):", "(connect(A, Callable(B, C).bind(D,E)) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(connect(A,B,C,[D,E],F) != OK):", "(connect(A, Callable(B, C).bind(D,E), F) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(connect(A,B,C,D,E) != OK):", "(connect(A, Callable(B, C).bind(D), E) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(".connect(A,B,C)", ".connect(A, Callable(B, C))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("abc.connect(A,B,C)", "abc.connect(A, Callable(B, C))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("\tconnect(A,B,C)", "\tconnect(A, Callable(B, C))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin(" connect(A,B,C)", " connect(A, Callable(B, C))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("_connect(A,B,C)", "_connect(A,B,C)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("do_connect(A,B,C)", "do_connect(A,B,C)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("$connect(A,B,C)", "$connect(A,B,C)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("@connect(A,B,C)", "@connect(A,B,C)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(start(A,B) != OK):", "(start(Callable(A, B)) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("func start(A,B):", "func start(A,B):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(start(A,B,C,D,E,F,G) != OK):", "(start(Callable(A, B).bind(C), D, E, F, G) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("disconnect(A,B,C) != OK):", "disconnect(A, Callable(B, C)) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("is_connected(A,B,C) != OK):", "is_connected(A, Callable(B, C)) != OK):", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("is_connected(A,B,C))", "is_connected(A, Callable(B, C)))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(tween_method(A,B,C,D,E).foo())", "(tween_method(Callable(A, B), C, D, E).foo())", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(tween_method(A,B,C,D,E,[F,G]).foo())", "(tween_method(Callable(A, B).bind(F,G), C, D, E).foo())", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(tween_callback(A,B).foo())", "(tween_callback(Callable(A, B)).foo())", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("(tween_callback(A,B,[C,D]).foo())", "(tween_callback(Callable(A, B).bind(C,D)).foo())", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("func _init(", "func _init(", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("func _init(a,b,c).(d,e,f):", "func _init(a,b,c):\n\tsuper(d,e,f)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("func _init(a,b,c).(a.b(),c.d()):", "func _init(a,b,c):\n\tsuper(a.b(),c.d())", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("func _init(p_x:int)->void:", "func _init(p_x:int)->void:", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("func _init(a: int).(d,e,f) -> void:", "func _init(a: int) -> void:\n\tsuper(d,e,f)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("q_PackedDataContainer._iter_init(variable1)", "q_PackedDataContainer._iter_init(variable1)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("create_from_image(aa, bb)", "create_from_image(aa) #,bb", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("q_ImageTexture.create_from_image(variable1, variable2)", "q_ImageTexture.create_from_image(variable1) #,variable2", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("set_cell_item(a, b, c, d ,e) # AA", "set_cell_item(Vector3(a, b, c), d, e) # AA", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("set_cell_item(a, b)", "set_cell_item(a, b)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("get_cell_item_orientation(a, b,c)", "get_cell_item_orientation(Vector3i(a, b, c))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("get_cell_item(a, b,c)", "get_cell_item(Vector3i(a, b, c))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("map_to_world(a, b,c)", "map_to_local(Vector3i(a, b, c))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("PackedStringArray(req_godot).join('.')", "'.'.join(PackedStringArray(req_godot))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("=PackedStringArray(req_godot).join('.')", "='.'.join(PackedStringArray(req_godot))", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("apply_force(position, impulse)", "apply_force(impulse, position)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("apply_impulse(position, impulse)", "apply_impulse(impulse, position)", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("draw_rect(a,b,c,d,e).abc", "draw_rect(a, b, c, d).abc# e) TODOConverter3To4 Antialiasing argument is missing", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("get_focus_owner()", "get_viewport().gui_get_focus_owner()", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("button.pressed = 1", "button.button_pressed = 1", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("button.pressed=1", "button.button_pressed=1", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_gdscript_builtin("button.pressed SF", "button.pressed SF", &ProjectConverter3To4::rename_gdscript_functions, "custom rename", reg_container, false);
valid = valid && test_conversion_with_regex("Color(\"#f47d\")", "Color(\"#47df\")", &ProjectConverter3To4::convert_hexadecimal_colors, "color literals", reg_container);
valid = valid && test_conversion_with_regex("Color(\"#ff478cbf\")", "Color(\"#478cbfff\")", &ProjectConverter3To4::convert_hexadecimal_colors, "color literals", reg_container);
valid = valid && test_conversion_with_regex("Color(\"#de32bf\")", "Color(\"#de32bf\")", &ProjectConverter3To4::convert_hexadecimal_colors, "color literals", reg_container);
valid = valid && test_conversion_with_regex("AAA Color.white AF", "AAA Color.WHITE AF", &ProjectConverter3To4::rename_colors, "color constants", reg_container);
// Note: Do not change to *scancode*, it is applied before that conversion.
valid = valid && test_conversion_with_regex("\"device\":-1,\"scancode\":16777231,\"physical_scancode\":16777232", "\"device\":-1,\"scancode\":4194319,\"physical_scancode\":4194320", &ProjectConverter3To4::rename_input_map_scancode, "custom rename", reg_container);
valid = valid && test_conversion_with_regex("\"device\":-1,\"scancode\":65,\"physical_scancode\":66", "\"device\":-1,\"scancode\":65,\"physical_scancode\":66", &ProjectConverter3To4::rename_input_map_scancode, "custom rename", reg_container);
valid = valid && test_conversion_with_regex("\"device\":0,\"button_index\":5,\"pressure\":0.0,\"pressed\":false,", "\"device\":0,\"button_index\":10,\"pressure\":0.0,\"pressed\":false,", &ProjectConverter3To4::rename_joypad_buttons_and_axes, "custom rename", reg_container);
valid = valid && test_conversion_with_regex("\"device\":0,\"axis\":6,", "\"device\":0,\"axis\":4,", &ProjectConverter3To4::rename_joypad_buttons_and_axes, "custom rename", reg_container);
valid = valid && test_conversion_with_regex("InputEventJoypadButton,\"button_index\":7,\"pressure\":0.0,\"pressed\":false,\"script\":null", "InputEventJoypadMotion,\"axis\":5,\"axis_value\":1.0,\"script\":null", &ProjectConverter3To4::rename_joypad_buttons_and_axes, "custom rename", reg_container);
// Custom rule conversion
{
String from = "instance";
String to = "instantiate";
String name = "AA.instance()";
Vector<SourceLine> got = split_lines(name);
String expected = "AA.instantiate()";
custom_rename(got, from, to);
String got_str = collect_string_from_vector(got);
if (got_str != expected) {
ERR_PRINT(vformat("Failed to convert custom rename \"%s\" to \"%s\", got \"%s\", instead.", name, expected, got_str));
}
valid = valid && (got_str == expected);
}
// get_object_of_execution
{
String base = "var roman = kieliszek.";
String expected = "kieliszek.";
String got = get_object_of_execution(base);
if (got != expected) {
ERR_PRINT(vformat("Failed to get proper data from get_object_of_execution. \"%s\" should return \"%s\"(%d), got \"%s\"(%d), instead.", base, expected, expected.size(), got, got.size()));
}
valid = valid && (got == expected);
}
{
String base = "r.";
String expected = "r.";
String got = get_object_of_execution(base);
if (got != expected) {
ERR_PRINT(vformat("Failed to get proper data from get_object_of_execution. \"%s\" should return \"%s\"(%d), got \"%s\"(%d), instead.", base, expected, expected.size(), got, got.size()));
}
valid = valid && (got == expected);
}
{
String base = "mortadela(";
String expected = "";
String got = get_object_of_execution(base);
if (got != expected) {
ERR_PRINT(vformat("Failed to get proper data from get_object_of_execution. \"%s\" should return \"%s\"(%d), got \"%s\"(%d), instead.", base, expected, expected.size(), got, got.size()));
}
valid = valid && (got == expected);
}
{
String base = "var node = $world/ukraine/lviv.";
String expected = "$world/ukraine/lviv.";
String got = get_object_of_execution(base);
if (got != expected) {
ERR_PRINT(vformat("Failed to get proper data from get_object_of_execution. \"%s\" should return \"%s\"(%d), got \"%s\"(%d), instead.", base, expected, expected.size(), got, got.size()));
}
valid = valid && (got == expected);
}
// get_starting_space
{
String base = "\t\t\t var roman = kieliszek.";
String expected = "\t\t\t";
String got = get_starting_space(base);
if (got != expected) {
ERR_PRINT(vformat("Failed to get proper data from get_object_of_execution. \"%s\" should return \"%s\"(%d), got \"%s\"(%d), instead.", base, expected, expected.size(), got, got.size()));
}
valid = valid && (got == expected);
}
// Parse Arguments
{
String line = "( )";
Vector<String> got_vector = parse_arguments(line);
String got = "";
String expected = "";
for (String &part : got_vector) {
got += part + "|||";
}
if (got != expected) {
ERR_PRINT(vformat("Failed to get proper data from parse_arguments. \"%s\" should return \"%s\"(%d), got \"%s\"(%d), instead.", line, expected, expected.size(), got, got.size()));
}
valid = valid && (got == expected);
}
{
String line = "(a , b , c)";
Vector<String> got_vector = parse_arguments(line);
String got = "";
String expected = "a|||b|||c|||";
for (String &part : got_vector) {
got += part + "|||";
}
if (got != expected) {
ERR_PRINT(vformat("Failed to get proper data from parse_arguments. \"%s\" should return \"%s\"(%d), got \"%s\"(%d), instead.", line, expected, expected.size(), got, got.size()));
}
valid = valid && (got == expected);
}
{
String line = "(a , \"b,\" , c)";
Vector<String> got_vector = parse_arguments(line);
String got = "";
String expected = "a|||\"b,\"|||c|||";
for (String &part : got_vector) {
got += part + "|||";
}
if (got != expected) {
ERR_PRINT(vformat("Failed to get proper data from parse_arguments. \"%s\" should return \"%s\"(%d), got \"%s\"(%d), instead.", line, expected, expected.size(), got, got.size()));
}
valid = valid && (got == expected);
}
{
String line = "(a , \"(,),,,,\" , c)";
Vector<String> got_vector = parse_arguments(line);
String got = "";
String expected = "a|||\"(,),,,,\"|||c|||";
for (String &part : got_vector) {
got += part + "|||";
}
if (got != expected) {
ERR_PRINT(vformat("Failed to get proper data from parse_arguments. \"%s\" should return \"%s\"(%d), got \"%s\"(%d), instead.", line, expected, expected.size(), got, got.size()));
}
valid = valid && (got == expected);
}
return valid;
}
// Validate in all arrays if names don't do cyclic renames "Node" -> "Node2D" | "Node2D" -> "2DNode"
bool ProjectConverter3To4::test_array_names() {
bool valid = true;
Vector<String> names = Vector<String>();
// Validate if all classes are valid.
{
for (unsigned int current_index = 0; RenamesMap3To4::class_renames[current_index][0]; current_index++) {
const String old_class = RenamesMap3To4::class_renames[current_index][0];
const String new_class = RenamesMap3To4::class_renames[current_index][1];
// Light2D, Texture, Viewport are special classes(probably virtual ones).
if (ClassDB::class_exists(StringName(old_class)) && old_class != "Light2D" && old_class != "Texture" && old_class != "Viewport") {
ERR_PRINT(vformat("Class \"%s\" exists in Godot 4, so it cannot be renamed to something else.", old_class));
valid = false; // This probably should be only a warning, but not 100% sure - this would need to be added to CI.
}
// Callable is special class, to which normal classes may be renamed.
if (!ClassDB::class_exists(StringName(new_class)) && new_class != "Callable") {
ERR_PRINT(vformat("Class \"%s\" does not exist in Godot 4, so it cannot be used in the conversion.", old_class));
valid = false; // This probably should be only a warning, but not 100% sure - this would need to be added to CI.
}
}
}
{
HashSet<String> all_functions;
// List of excluded functions from builtin types and global namespace, because currently it is not possible to get list of functions from them.
// This will be available when https://github.com/godotengine/godot/pull/49053 or similar will be included into Godot.
static const char *builtin_types_excluded_functions[] = { "dict_to_inst", "inst_to_dict", "bytes_to_var", "bytes_to_var_with_objects", "db_to_linear", "deg_to_rad", "linear_to_db", "rad_to_deg", "randf_range", "snapped", "str_to_var", "var_to_str", "var_to_bytes", "var_to_bytes_with_objects", "move_toward", "uri_encode", "uri_decode", "remove_at", "get_rotation_quaternion", "limit_length", "grow_side", "is_absolute_path", "is_valid_int", "lerp", "to_ascii_buffer", "to_utf8_buffer", "to_utf32_buffer", "to_wchar_buffer", "snapped", "remap", "rfind", nullptr };
for (int current_index = 0; builtin_types_excluded_functions[current_index]; current_index++) {
all_functions.insert(builtin_types_excluded_functions[current_index]);
}
//for (int type = Variant::Type::NIL + 1; type < Variant::Type::VARIANT_MAX; type++) {
// List<MethodInfo> method_list;
// Variant::get_method_list_by_type(&method_list, Variant::Type(type));
// for (MethodInfo &function_data : method_list) {
// if (!all_functions.has(function_data.name)) {
// all_functions.insert(function_data.name);
// }
// }
//}
List<StringName> classes_list;
ClassDB::get_class_list(&classes_list);
for (StringName &name_of_class : classes_list) {
List<MethodInfo> method_list;
ClassDB::get_method_list(name_of_class, &method_list, true);
for (MethodInfo &function_data : method_list) {
if (!all_functions.has(function_data.name)) {
all_functions.insert(function_data.name);
}
}
}
int current_element = 0;
while (RenamesMap3To4::gdscript_function_renames[current_element][0] != nullptr) {
String name_3_x = RenamesMap3To4::gdscript_function_renames[current_element][0];
String name_4_0 = RenamesMap3To4::gdscript_function_renames[current_element][1];
if (!all_functions.has(name_4_0)) {
ERR_PRINT(vformat("Missing GDScript function in pair (%s - ===> %s <===)", name_3_x, name_4_0));
valid = false;
}
current_element++;
}
}
if (!valid) {
ERR_PRINT("Found function which is used in the converter, but it cannot be found in Godot 4. Rename this element or remove its entry if it's obsolete.");
}
valid = valid && test_single_array(RenamesMap3To4::enum_renames);
valid = valid && test_single_array(RenamesMap3To4::class_renames, true);
valid = valid && test_single_array(RenamesMap3To4::gdscript_function_renames, true);
valid = valid && test_single_array(RenamesMap3To4::csharp_function_renames, true);
valid = valid && test_single_array(RenamesMap3To4::gdscript_properties_renames, true);
valid = valid && test_single_array(RenamesMap3To4::csharp_properties_renames, true);
valid = valid && test_single_array(RenamesMap3To4::shaders_renames, true);
valid = valid && test_single_array(RenamesMap3To4::gdscript_signals_renames);
valid = valid && test_single_array(RenamesMap3To4::project_settings_renames);
valid = valid && test_single_array(RenamesMap3To4::project_godot_renames);
valid = valid && test_single_array(RenamesMap3To4::input_map_renames);
valid = valid && test_single_array(RenamesMap3To4::builtin_types_renames);
valid = valid && test_single_array(RenamesMap3To4::color_renames);
return valid;
}
// Validates the array to prevent cyclic renames, such as `Node` -> `Node2D`, then `Node2D` -> `2DNode`.
// Also checks if names contain leading or trailing spaces.
bool ProjectConverter3To4::test_single_array(const char *p_array[][2], bool p_ignore_4_0_name) {
bool valid = true;
Vector<String> names = Vector<String>();
for (unsigned int current_index = 0; p_array[current_index][0]; current_index++) {
String name_3_x = p_array[current_index][0];
String name_4_0 = p_array[current_index][1];
if (name_3_x != name_3_x.strip_edges()) {
ERR_PRINT(vformat("Invalid Entry \"%s\" contains leading or trailing spaces.", name_3_x));
valid = false;
}
if (names.has(name_3_x)) {
ERR_PRINT(vformat("Found duplicated entry, pair ( -> %s , %s)", name_3_x, name_4_0));
valid = false;
}
names.append(name_3_x);
if (name_4_0 != name_4_0.strip_edges()) {
ERR_PRINT(vformat("Invalid Entry \"%s\" contains leading or trailing spaces.", name_3_x));
valid = false;
}
if (names.has(name_4_0)) {
ERR_PRINT(vformat("Found duplicated entry, pair ( -> %s , %s)", name_3_x, name_4_0));
valid = false;
}
if (!p_ignore_4_0_name) {
names.append(name_4_0);
}
}
return valid;
};
// Returns arguments from given function execution, this cannot be really done as regex.
// `abc(d,e(f,g),h)` -> [d], [e(f,g)], [h]
Vector<String> ProjectConverter3To4::parse_arguments(const String &line) {
Vector<String> parts;
int string_size = line.length();
int start_part = 0; // Index of beginning of start part.
int parts_counter = 0;
char32_t previous_character = '\0';
bool is_inside_string = false; // If true, it ignores these 3 characters ( , ) inside string.
ERR_FAIL_COND_V_MSG(line.count("(") != line.count(")"), parts, vformat("Converter internal bug: substring should have equal number of open and close parentheses in line - \"%s\".", line));
for (int current_index = 0; current_index < string_size; current_index++) {
char32_t character = line.get(current_index);
switch (character) {
case '(':
case '[':
case '{': {
parts_counter++;
if (parts_counter == 1 && !is_inside_string) {
start_part = current_index;
}
break;
};
case ')':
case '}': {
parts_counter--;
if (parts_counter == 0 && !is_inside_string) {
parts.append(line.substr(start_part + 1, current_index - start_part - 1));
start_part = current_index;
}
break;
};
case ']': {
parts_counter--;
if (parts_counter == 0 && !is_inside_string) {
parts.append(line.substr(start_part, current_index - start_part));
start_part = current_index;
}
break;
};
case ',': {
if (parts_counter == 1 && !is_inside_string) {
parts.append(line.substr(start_part + 1, current_index - start_part - 1));
start_part = current_index;
}
break;
};
case '"': {
if (previous_character != '\\')
is_inside_string = !is_inside_string;
}
}
previous_character = character;
}
Vector<String> clean_parts;
for (String &part : parts) {
part = part.strip_edges();
if (!part.is_empty()) {
clean_parts.append(part);
}
}
return clean_parts;
}
// Finds latest parenthesis owned by function.
// `function(abc(a,b),DD)):` finds this parenthess `function(abc(a,b),DD => ) <= ):`
int ProjectConverter3To4::get_end_parenthesis(const String &line) const {
int current_state = 0;
for (int current_index = 0; line.length() > current_index; current_index++) {
char32_t character = line.get(current_index);
if (character == '(') {
current_state++;
}
if (character == ')') {
current_state--;
if (current_state == 0) {
return current_index;
}
}
}
return -1;
}
// Merges multiple arguments into a single String.
// Needed when after processing e.g. 2 arguments, later arguments are not changed in any way.
String ProjectConverter3To4::connect_arguments(const Vector<String> &arguments, int from, int to) const {
if (to == -1) {
to = arguments.size();
}
String value;
if (arguments.size() > 0 && from != 0 && from < to) {
value = ", ";
}
for (int i = from; i < to; i++) {
value += arguments[i];
if (i != to - 1) {
value += ", ";
}
}
return value;
}
// Returns the indentation (spaces and tabs) at the start of the line e.g. `\t\tmove_this` returns `\t\t`.
String ProjectConverter3To4::get_starting_space(const String &line) const {
String empty_space;
int current_character = 0;
if (line.is_empty()) {
return empty_space;
}
if (line[0] == ' ') {
while (current_character < line.size()) {
if (line[current_character] == ' ') {
empty_space += ' ';
current_character++;
} else {
break;
}
}
}
if (line[0] == '\t') {
while (current_character < line.size()) {
if (line[current_character] == '\t') {
empty_space += '\t';
current_character++;
} else {
break;
}
}
}
return empty_space;
}
// Returns the object thats executing the function in the line.
// e.g. Passing the line "var roman = kieliszek.funkcja()" to this function returns "kieliszek".
String ProjectConverter3To4::get_object_of_execution(const String &line) const {
int end = line.size() - 1; // Last one is \0
int variable_start = end - 1;
int start = end - 1;
bool is_possibly_nodepath = false;
bool is_valid_nodepath = false;
while (start >= 0) {
char32_t character = line[start];
bool is_variable_char = (character >= 'A' && character <= 'Z') || (character >= 'a' && character <= 'z') || character == '.' || character == '_';
bool is_nodepath_start = character == '$';
bool is_nodepath_sep = character == '/';
if (is_variable_char || is_nodepath_start || is_nodepath_sep) {
if (start == 0) {
break;
} else if (is_nodepath_sep) {
// Freeze variable_start, try to fetch more chars since this might be a Node path literal.
is_possibly_nodepath = true;
} else if (is_nodepath_start) {
// Found $, this is a Node path literal.
is_valid_nodepath = true;
break;
}
if (!is_possibly_nodepath) {
variable_start--;
}
start--;
continue;
} else {
// Abandon all hope, this is neither a variable nor a Node path literal.
variable_start++; // Found invalid character, needs to be ignored.
break;
}
}
if (is_valid_nodepath) {
variable_start = start;
}
return line.substr(variable_start, (end - variable_start));
}
void ProjectConverter3To4::rename_colors(Vector<SourceLine> &source_lines, const RegExContainer &reg_container) {
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
if (line.contains("Color.")) {
for (unsigned int current_index = 0; RenamesMap3To4::color_renames[current_index][0]; current_index++) {
line = reg_container.color_regexes[current_index]->sub(line, reg_container.color_renamed[current_index], true);
}
}
}
}
};
// Convert hexadecimal colors from ARGB to RGBA
void ProjectConverter3To4::convert_hexadecimal_colors(Vector<SourceLine> &source_lines, const RegExContainer &reg_container) {
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
if (line.contains("Color(\"")) {
line = reg_container.color_hexadecimal_short_constructor.sub(line, "Color(\"#$2$1", true);
line = reg_container.color_hexadecimal_full_constructor.sub(line, "Color(\"#$2$1", true);
}
}
}
}
Vector<String> ProjectConverter3To4::check_for_rename_colors(Vector<String> &lines, const RegExContainer &reg_container) {
Vector<String> found_renames;
int current_line = 1;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
if (line.contains("Color.")) {
for (unsigned int current_index = 0; RenamesMap3To4::color_renames[current_index][0]; current_index++) {
TypedArray<RegExMatch> reg_match = reg_container.color_regexes[current_index]->search_all(line);
if (reg_match.size() > 0) {
found_renames.append(line_formatter(current_line, RenamesMap3To4::color_renames[current_index][0], RenamesMap3To4::color_renames[current_index][1], line));
}
}
}
}
current_line++;
}
return found_renames;
}
void ProjectConverter3To4::fix_tool_declaration(Vector<SourceLine> &source_lines, const RegExContainer &reg_container) {
// In godot4, "tool" became "@tool" and must be located at the top of the file.
for (int i = 0; i < source_lines.size(); ++i) {
if (source_lines[i].line == "tool") {
source_lines.remove_at(i);
source_lines.insert(0, { "@tool", false });
return; // assuming there's at most 1 tool declaration.
}
}
}
void ProjectConverter3To4::fix_pause_mode(Vector<SourceLine> &source_lines, const RegExContainer &reg_container) {
// In Godot 3, the pause_mode 2 equals the PAUSE_MODE_PROCESS value.
// In Godot 4, the pause_mode PAUSE_MODE_PROCESS was renamed to PROCESS_MODE_ALWAYS and equals the number 3.
// We therefore convert pause_mode = 2 to pause_mode = 3.
for (SourceLine &source_line : source_lines) {
String &line = source_line.line;
if (line == "pause_mode = 2") {
// Note: pause_mode is renamed to process_mode later on, so no need to do it here.
line = "pause_mode = 3";
}
}
}
void ProjectConverter3To4::rename_classes(Vector<SourceLine> &source_lines, const RegExContainer &reg_container) {
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
for (unsigned int current_index = 0; RenamesMap3To4::class_renames[current_index][0]; current_index++) {
if (line.contains(RenamesMap3To4::class_renames[current_index][0])) {
bool found_ignored_items = false;
// Renaming Spatial.tscn to TEMP_RENAMED_CLASS.tscn.
if (line.contains(String(RenamesMap3To4::class_renames[current_index][0]) + ".")) {
found_ignored_items = true;
line = reg_container.class_tscn_regexes[current_index]->sub(line, "TEMP_RENAMED_CLASS.tscn", true);
line = reg_container.class_gd_regexes[current_index]->sub(line, "TEMP_RENAMED_CLASS.gd", true);
line = reg_container.class_shader_regexes[current_index]->sub(line, "TEMP_RENAMED_CLASS.shader", true);
}
// Causal renaming Spatial -> Node3D.
line = reg_container.class_regexes[current_index]->sub(line, RenamesMap3To4::class_renames[current_index][1], true);
// Restore Spatial.tscn from TEMP_RENAMED_CLASS.tscn.
if (found_ignored_items) {
line = reg_container.class_temp_tscn.sub(line, reg_container.class_temp_tscn_renames[current_index], true);
line = reg_container.class_temp_gd.sub(line, reg_container.class_temp_gd_renames[current_index], true);
line = reg_container.class_temp_shader.sub(line, reg_container.class_temp_shader_renames[current_index], true);
}
}
}
}
}
};
Vector<String> ProjectConverter3To4::check_for_rename_classes(Vector<String> &lines, const RegExContainer &reg_container) {
Vector<String> found_renames;
int current_line = 1;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
for (unsigned int current_index = 0; RenamesMap3To4::class_renames[current_index][0]; current_index++) {
if (line.contains(RenamesMap3To4::class_renames[current_index][0])) {
String old_line = line;
bool found_ignored_items = false;
// Renaming Spatial.tscn to TEMP_RENAMED_CLASS.tscn.
if (line.contains(String(RenamesMap3To4::class_renames[current_index][0]) + ".")) {
found_ignored_items = true;
line = reg_container.class_tscn_regexes[current_index]->sub(line, "TEMP_RENAMED_CLASS.tscn", true);
line = reg_container.class_gd_regexes[current_index]->sub(line, "TEMP_RENAMED_CLASS.gd", true);
line = reg_container.class_shader_regexes[current_index]->sub(line, "TEMP_RENAMED_CLASS.shader", true);
}
// Causal renaming Spatial -> Node3D.
TypedArray<RegExMatch> reg_match = reg_container.class_regexes[current_index]->search_all(line);
if (reg_match.size() > 0) {
found_renames.append(line_formatter(current_line, RenamesMap3To4::class_renames[current_index][0], RenamesMap3To4::class_renames[current_index][1], old_line));
}
// Restore Spatial.tscn from TEMP_RENAMED_CLASS.tscn.
if (found_ignored_items) {
line = reg_container.class_temp_tscn.sub(line, reg_container.class_temp_tscn_renames[current_index], true);
line = reg_container.class_temp_gd.sub(line, reg_container.class_temp_gd_renames[current_index], true);
line = reg_container.class_temp_shader.sub(line, reg_container.class_temp_shader_renames[current_index], true);
}
}
}
}
current_line++;
}
return found_renames;
}
void ProjectConverter3To4::rename_gdscript_functions(Vector<SourceLine> &source_lines, const RegExContainer &reg_container, bool builtin) {
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
process_gdscript_line(line, reg_container, builtin);
}
}
};
Vector<String> ProjectConverter3To4::check_for_rename_gdscript_functions(Vector<String> &lines, const RegExContainer &reg_container, bool builtin) {
int current_line = 1;
Vector<String> found_renames;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
String old_line = line;
process_gdscript_line(line, reg_container, builtin);
if (old_line != line) {
found_renames.append(simple_line_formatter(current_line, old_line, line));
}
}
}
return found_renames;
}
bool ProjectConverter3To4::contains_function_call(String &line, String function) const {
// We want to convert the function only if it is completely standalone.
// For example, when we search for "connect(", we don't want to accidentally convert "reconnect(".
if (!line.contains(function)) {
return false;
}
int index = line.find(function);
if (index == 0) {
return true;
}
char32_t previous_char = line.get(index - 1);
return (previous_char < '0' || previous_char > '9') && (previous_char < 'a' || previous_char > 'z') && (previous_char < 'A' || previous_char > 'Z') && previous_char != '_' && previous_char != '$' && previous_char != '@';
}
// TODO, this function should run only on all ".gd" files and also on lines in ".tscn" files which are parts of built-in Scripts.
void ProjectConverter3To4::process_gdscript_line(String &line, const RegExContainer &reg_container, bool builtin) {
// In this and other functions, reg.sub() is used only after checking lines with str.contains().
// With longer lines, doing so can sometimes be significantly faster.
if ((line.contains(".lock") || line.contains(".unlock")) && !line.contains("mtx") && !line.contains("mutex") && !line.contains("Mutex")) {
line = reg_container.reg_image_lock.sub(line, "false # $1.lock() # TODOConverter3To4, Image no longer requires locking, `false` helps to not break one line if/else, so it can freely be removed", true);
line = reg_container.reg_image_unlock.sub(line, "false # $1.unlock() # TODOConverter3To4, Image no longer requires locking, `false` helps to not break one line if/else, so it can freely be removed", true);
}
// PackedStringArray(req_godot).join('.') -> '.'.join(PackedStringArray(req_godot)) PoolStringArray
if (line.contains(".join")) {
line = reg_container.reg_join.sub(line, "$2.join($1)", true);
}
// -- empty() -> is_empty() Pool*Array
if (line.contains("empty")) {
line = reg_container.reg_is_empty.sub(line, "is_empty(", true);
}
// -- \t.func() -> \tsuper.func() Object
if (line.contains("(") && line.contains(".")) {
line = reg_container.reg_super.sub(line, "$1super.$2", true); // TODO, not sure if possible, but for now this broke String text e.g. "Chosen .gitignore" -> "Chosen super.gitignore"
}
// -- JSON.parse(a) -> JSON.new().parse(a) etc. JSON
if (line.contains("parse")) {
line = reg_container.reg_json_non_new.sub(line, "$1var test_json_conv = JSON.new()\n$1test_json_conv.parse($3\n$1$2test_json_conv.get_data()", true);
}
// -- to_json(a) -> JSON.new().stringify(a) Object
if (line.contains("to_json")) {
line = reg_container.reg_json_to.sub(line, "JSON.new().stringify", true);
}
// -- parse_json(a) -> JSON.get_data() etc. Object
if (line.contains("parse_json")) {
line = reg_container.reg_json_parse.sub(line, "$1var test_json_conv = JSON.new()\n$1test_json_conv.parse($3\n$1$2test_json_conv.get_data()", true);
}
// -- JSON.print( -> JSON.stringify(
if (line.contains("JSON.print(")) {
line = reg_container.reg_json_print.sub(line, "JSON.stringify(", true);
}
// -- get_node(@ -> get_node( Node
if (line.contains("get_node")) {
line = line.replace("get_node(@", "get_node(");
}
if (line.contains("export")) {
// 1. export(float) var lifetime: float = 3.0 -> export var lifetime: float = 3.0
line = reg_container.reg_export_typed.sub(line, "export var $2: $1");
// 2. export(float) var lifetime := 3.0 -> export var lifetime := 3.0
line = reg_container.reg_export_inferred_type.sub(line, "export var $1 :=");
// 3. export(float) var lifetime = 3.0 -> export var lifetime: float = 3.0 GDScript
line = reg_container.reg_export_simple.sub(line, "export var $2: $1");
// 4. export(String, 'AnonymousPro', 'CourierPrime') var _font_name = 'AnonymousPro' -> export var _font_name = 'AnonymousPro' #(String, 'AnonymousPro', 'CourierPrime') GDScript
line = reg_container.reg_export_advanced.sub(line, "export var $2$3 # ($1)");
}
// Setget Setget
if (line.contains("setget")) {
line = reg_container.reg_setget_setget.sub(line, "var $1$2: get = $4, set = $3", true);
}
// Setget set
if (line.contains("setget")) {
line = reg_container.reg_setget_set.sub(line, "var $1$2: set = $3", true);
}
// Setget get
if (line.contains("setget")) {
line = reg_container.reg_setget_get.sub(line, "var $1$2: get = $3", true);
}
if (line.contains("window_resizable")) {
// OS.set_window_resizable(a) -> get_window().unresizable = not (a)
line = reg_container.reg_os_set_window_resizable.sub(line, "get_window().unresizable = not ($1)", true);
// OS.window_resizable = a -> same
line = reg_container.reg_os_assign_window_resizable.sub(line, "get_window().unresizable = not ($1)", true);
// OS.[is_]window_resizable() -> (not get_window().unresizable)
line = reg_container.reg_os_is_window_resizable.sub(line, "(not get_window().unresizable)", true);
}
if (line.contains("window_fullscreen")) {
// OS.window_fullscreen(a) -> get_window().mode = Window.MODE_EXCLUSIVE_FULLSCREEN if (a) else Window.MODE_WINDOWED
line = reg_container.reg_os_set_fullscreen.sub(line, "get_window().mode = Window.MODE_EXCLUSIVE_FULLSCREEN if ($1) else Window.MODE_WINDOWED", true);
// window_fullscreen = a -> same
line = reg_container.reg_os_assign_fullscreen.sub(line, "get_window().mode = Window.MODE_EXCLUSIVE_FULLSCREEN if ($1) else Window.MODE_WINDOWED", true);
// OS.[is_]window_fullscreen() -> ((get_window().mode == Window.MODE_EXCLUSIVE_FULLSCREEN) or (get_window().mode == Window.MODE_FULLSCREEN))
line = reg_container.reg_os_is_fullscreen.sub(line, "((get_window().mode == Window.MODE_EXCLUSIVE_FULLSCREEN) or (get_window().mode == Window.MODE_FULLSCREEN))", true);
}
if (line.contains("window_maximized")) {
// OS.window_maximized(a) -> get_window().mode = Window.MODE_MAXIMIZED if (a) else Window.MODE_WINDOWED
line = reg_container.reg_os_set_maximized.sub(line, "get_window().mode = Window.MODE_MAXIMIZED if ($1) else Window.MODE_WINDOWED", true);
// window_maximized = a -> same
line = reg_container.reg_os_assign_maximized.sub(line, "get_window().mode = Window.MODE_MAXIMIZED if ($1) else Window.MODE_WINDOWED", true);
// OS.[is_]window_maximized() -> (get_window().mode == Window.MODE_MAXIMIZED)
line = reg_container.reg_os_is_maximized.sub(line, "(get_window().mode == Window.MODE_MAXIMIZED)", true);
}
if (line.contains("window_minimized")) {
// OS.window_minimized(a) -> get_window().mode = Window.MODE_MINIMIZED if (a) else Window.MODE_WINDOWED
line = reg_container.reg_os_set_minimized.sub(line, "get_window().mode = Window.MODE_MINIMIZED if ($1) else Window.MODE_WINDOWED", true);
// window_minimized = a -> same
line = reg_container.reg_os_assign_minimized.sub(line, "get_window().mode = Window.MODE_MINIMIZED if ($1) else Window.MODE_WINDOWED", true);
// OS.[is_]window_minimized() -> (get_window().mode == Window.MODE_MINIMIZED)
line = reg_container.reg_os_is_minimized.sub(line, "(get_window().mode == Window.MODE_MINIMIZED)", true);
}
if (line.contains("set_use_vsync")) {
// OS.set_use_vsync(a) -> get_window().window_set_vsync_mode(DisplayServer.VSYNC_ENABLED if (a) else DisplayServer.VSYNC_DISABLED)
line = reg_container.reg_os_set_vsync.sub(line, "DisplayServer.window_set_vsync_mode(DisplayServer.VSYNC_ENABLED if ($1) else DisplayServer.VSYNC_DISABLED)", true);
}
if (line.contains("vsync_enabled")) {
// vsync_enabled = a -> get_window().window_set_vsync_mode(DisplayServer.VSYNC_ENABLED if (a) else DisplayServer.VSYNC_DISABLED)
line = reg_container.reg_os_assign_vsync.sub(line, "DisplayServer.window_set_vsync_mode(DisplayServer.VSYNC_ENABLED if ($1) else DisplayServer.VSYNC_DISABLED)", true);
// OS.[is_]vsync_enabled() -> (DisplayServer.window_get_vsync_mode() != DisplayServer.VSYNC_DISABLED)
line = reg_container.reg_os_is_vsync.sub(line, "(DisplayServer.window_get_vsync_mode() != DisplayServer.VSYNC_DISABLED)", true);
}
if (line.contains("OS.screen_orientation")) { // keep "OS." at start
// OS.screen_orientation = a -> DisplayServer.screen_set_orientation(a)
line = reg_container.reg_os_assign_screen_orient.sub(line, "$1DisplayServer.screen_set_orientation($2)", true); // assignment
line = line.replace("OS.screen_orientation", "DisplayServer.screen_get_orientation()"); // value access
}
if (line.contains("_window_always_on_top")) {
// OS.set_window_always_on_top(a) -> get_window().always_on_top = (a)
line = reg_container.reg_os_set_always_on_top.sub(line, "get_window().always_on_top = ($1)", true);
// OS.is_window_always_on_top() -> get_window().always_on_top
line = reg_container.reg_os_is_always_on_top.sub(line, "get_window().always_on_top", true);
}
if (line.contains("et_borderless_window")) {
// OS.set_borderless_window(a) -> get_window().borderless = (a)
line = reg_container.reg_os_set_borderless.sub(line, "get_window().borderless = ($1)", true);
// OS.get_borderless_window() -> get_window().borderless
line = reg_container.reg_os_get_borderless.sub(line, "get_window().borderless", true);
}
// OS.SCREEN_ORIENTATION_* -> DisplayServer.SCREEN_*
if (line.contains("OS.SCREEN_ORIENTATION_")) {
line = reg_container.reg_os_screen_orient_enum.sub(line, "DisplayServer.SCREEN_$1", true);
}
// OS -> Window simple replacements with optional set/get.
if (line.contains("current_screen")) {
line = reg_container.reg_os_current_screen.sub(line, "get_window().$1current_screen", true);
}
if (line.contains("min_window_size")) {
line = reg_container.reg_os_min_window_size.sub(line, "get_window().$1min_size", true);
}
if (line.contains("max_window_size")) {
line = reg_container.reg_os_max_window_size.sub(line, "get_window().$1max_size", true);
}
if (line.contains("window_position")) {
line = reg_container.reg_os_window_position.sub(line, "get_window().$1position", true);
}
if (line.contains("window_size")) {
line = reg_container.reg_os_window_size.sub(line, "get_window().$1size", true);
}
if (line.contains("et_screen_orientation")) {
line = reg_container.reg_os_getset_screen_orient.sub(line, "DisplayServer.screen_$1et_orientation", true);
}
// Instantiate
if (contains_function_call(line, "instance")) {
line = reg_container.reg_instantiate.sub(line, ".instantiate($1)", true);
}
// -- r.move_and_slide( a, b, c, d, e ) -> r.set_velocity(a) ... r.move_and_slide() KinematicBody
if (contains_function_call(line, "move_and_slide(")) {
int start = line.find("move_and_slide(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
String base_obj = get_object_of_execution(line.substr(0, start));
String starting_space = get_starting_space(line);
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() >= 1) {
String line_new;
// motion_velocity
line_new += starting_space + base_obj + "set_velocity(" + parts[0] + ")\n";
// up_direction
if (parts.size() >= 2) {
line_new += starting_space + base_obj + "set_up_direction(" + parts[1] + ")\n";
}
// stop_on_slope
if (parts.size() >= 3) {
line_new += starting_space + base_obj + "set_floor_stop_on_slope_enabled(" + parts[2] + ")\n";
}
// max_slides
if (parts.size() >= 4) {
line_new += starting_space + base_obj + "set_max_slides(" + parts[3] + ")\n";
}
// floor_max_angle
if (parts.size() >= 5) {
line_new += starting_space + base_obj + "set_floor_max_angle(" + parts[4] + ")\n";
}
// infiinite_interia
if (parts.size() >= 6) {
line_new += starting_space + "# TODOConverter3To4 infinite_inertia were removed in Godot 4 - previous value `" + parts[5] + "`\n";
}
line_new += starting_space + base_obj + "move_and_slide()";
if (!line.begins_with(starting_space + "move_and_slide")) {
line = line_new + "\n" + line.substr(0, start) + "velocity" + line.substr(end + start);
} else {
line = line_new + line.substr(end + start);
}
}
}
}
// -- r.move_and_slide_with_snap( a, b, c, d, e ) -> r.set_velocity(a) ... r.move_and_slide() KinematicBody
if (contains_function_call(line, "move_and_slide_with_snap(")) {
int start = line.find("move_and_slide_with_snap(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
String base_obj = get_object_of_execution(line.substr(0, start));
String starting_space = get_starting_space(line);
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() >= 1) {
String line_new;
// motion_velocity
line_new += starting_space + base_obj + "set_velocity(" + parts[0] + ")\n";
// snap
if (parts.size() >= 2) {
line_new += starting_space + "# TODOConverter3To4 looks that snap in Godot 4 is float, not vector like in Godot 3 - previous value `" + parts[1] + "`\n";
}
// up_direction
if (parts.size() >= 3) {
line_new += starting_space + base_obj + "set_up_direction(" + parts[2] + ")\n";
}
// stop_on_slope
if (parts.size() >= 4) {
line_new += starting_space + base_obj + "set_floor_stop_on_slope_enabled(" + parts[3] + ")\n";
}
// max_slides
if (parts.size() >= 5) {
line_new += starting_space + base_obj + "set_max_slides(" + parts[4] + ")\n";
}
// floor_max_angle
if (parts.size() >= 6) {
line_new += starting_space + base_obj + "set_floor_max_angle(" + parts[5] + ")\n";
}
// infiinite_interia
if (parts.size() >= 7) {
line_new += starting_space + "# TODOConverter3To4 infinite_inertia were removed in Godot 4 - previous value `" + parts[6] + "`\n";
}
line_new += starting_space + base_obj + "move_and_slide()";
if (!line.begins_with(starting_space + "move_and_slide_with_snap")) {
line = line_new + "\n" + line.substr(0, start) + "velocity" + line.substr(end + start);
} else {
line = line_new + line.substr(end + start);
}
}
}
}
// -- sort_custom( a , b ) -> sort_custom(Callable( a , b )) Object
if (contains_function_call(line, "sort_custom(")) {
int start = line.find("sort_custom(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 2) {
line = line.substr(0, start) + "sort_custom(Callable(" + parts[0] + ", " + parts[1] + "))" + line.substr(end + start);
}
}
}
// -- list_dir_begin( ) -> list_dir_begin() Object
if (contains_function_call(line, "list_dir_begin(")) {
int start = line.find("list_dir_begin(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
line = line.substr(0, start) + "list_dir_begin() " + line.substr(end + start) + "# TODOConverter3To4 fill missing arguments https://github.com/godotengine/godot/pull/40547";
}
}
// -- draw_line(1,2,3,4,5) -> draw_line(1, 2, 3, 4) CanvasItem
if (contains_function_call(line, "draw_line(")) {
int start = line.find("draw_line(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 5) {
line = line.substr(0, start) + "draw_line(" + parts[0] + ", " + parts[1] + ", " + parts[2] + ", " + parts[3] + ")" + line.substr(end + start);
}
}
}
// -- func c(var a, var b) -> func c(a, b)
if (line.contains("func ") && line.contains("var ")) {
int start = line.find("func ");
start = line.substr(start).find("(") + start;
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
String start_string = line.substr(0, start) + "(";
for (int i = 0; i < parts.size(); i++) {
start_string += parts[i].strip_edges().trim_prefix("var ");
if (i != parts.size() - 1) {
start_string += ", ";
}
}
line = start_string + ")" + line.substr(end + start);
}
}
// -- yield(this, \"timeout\") -> await this.timeout GDScript
if (contains_function_call(line, "yield(")) {
int start = line.find("yield(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 2) {
if (builtin) {
line = line.substr(0, start) + "await " + parts[0] + "." + parts[1].replace("\\\"", "").replace("\\'", "").replace(" ", "") + line.substr(end + start);
} else {
line = line.substr(0, start) + "await " + parts[0] + "." + parts[1].replace("\"", "").replace("\'", "").replace(" ", "") + line.substr(end + start);
}
}
}
}
// -- parse_json( AA ) -> TODO Object
if (contains_function_call(line, "parse_json(")) {
int start = line.find("parse_json(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
line = line.substr(0, start) + "JSON.new().stringify(" + connect_arguments(parts, 0) + ")" + line.substr(end + start);
}
}
// -- .xform(Vector3(a,b,c)) -> * Vector3(a,b,c) Transform
if (line.contains(".xform(")) {
int start = line.find(".xform(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 1) {
line = line.substr(0, start) + " * (" + parts[0] + ")" + line.substr(end + start);
}
}
}
// -- .xform_inv(Vector3(a,b,c)) -> * Vector3(a,b,c) Transform
if (line.contains(".xform_inv(")) {
int start = line.find(".xform_inv(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
String object_exec = get_object_of_execution(line.substr(0, start));
if (line.contains(object_exec + ".xform")) {
int start2 = line.find(object_exec + ".xform");
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 1) {
line = line.substr(0, start2) + "(" + parts[0] + ") * " + object_exec + line.substr(end + start);
}
}
}
}
// -- "(connect(A,B,C,D,E) != OK):", "(connect(A, Callable(B, C).bind(D), E) Object
if (contains_function_call(line, "connect(")) {
int start = line.find("connect(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 3) {
line = line.substr(0, start) + "connect(" + parts[0] + ", Callable(" + parts[1] + ", " + parts[2] + "))" + line.substr(end + start);
} else if (parts.size() >= 4) {
line = line.substr(0, start) + "connect(" + parts[0] + ", Callable(" + parts[1] + ", " + parts[2] + ").bind(" + parts[3].lstrip(" [").rstrip("] ") + ")" + connect_arguments(parts, 4) + ")" + line.substr(end + start);
}
}
}
// -- disconnect(a,b,c) -> disconnect(a,Callable(b,c)) Object
if (contains_function_call(line, "disconnect(")) {
int start = line.find("disconnect(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 3) {
line = line.substr(0, start) + "disconnect(" + parts[0] + ", Callable(" + parts[1] + ", " + parts[2] + "))" + line.substr(end + start);
}
}
}
// -- is_connected(a,b,c) -> is_connected(a,Callable(b,c)) Object
if (contains_function_call(line, "is_connected(")) {
int start = line.find("is_connected(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 3) {
line = line.substr(0, start) + "is_connected(" + parts[0] + ", Callable(" + parts[1] + ", " + parts[2] + "))" + line.substr(end + start);
}
}
}
// -- "(tween_method(A,B,C,D,E) != OK):", "(tween_method(Callable(A,B),C,D,E) Object
// -- "(tween_method(A,B,C,D,E,[F,G]) != OK):", "(tween_method(Callable(A,B).bind(F,G),C,D,E) Object
if (contains_function_call(line, "tween_method(")) {
int start = line.find("tween_method(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 5) {
line = line.substr(0, start) + "tween_method(Callable(" + parts[0] + ", " + parts[1] + "), " + parts[2] + ", " + parts[3] + ", " + parts[4] + ")" + line.substr(end + start);
} else if (parts.size() >= 6) {
line = line.substr(0, start) + "tween_method(Callable(" + parts[0] + ", " + parts[1] + ").bind(" + connect_arguments(parts, 5).substr(1).lstrip(" [").rstrip("] ") + "), " + parts[2] + ", " + parts[3] + ", " + parts[4] + ")" + line.substr(end + start);
}
}
}
// -- "(tween_callback(A,B,[C,D]) != OK):", "(connect(Callable(A,B).bind(C,D)) Object
if (contains_function_call(line, "tween_callback(")) {
int start = line.find("tween_callback(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 2) {
line = line.substr(0, start) + "tween_callback(Callable(" + parts[0] + ", " + parts[1] + "))" + line.substr(end + start);
} else if (parts.size() >= 3) {
line = line.substr(0, start) + "tween_callback(Callable(" + parts[0] + ", " + parts[1] + ").bind(" + connect_arguments(parts, 2).substr(1).lstrip(" [").rstrip("] ") + "))" + line.substr(end + start);
}
}
}
// -- start(a,b) -> start(Callable(a, b)) Thread
// -- start(a,b,c,d) -> start(Callable(a, b).bind(c), d) Thread
if (contains_function_call(line, "start(")) {
int start = line.find("start(");
int end = get_end_parenthesis(line.substr(start)) + 1;
// Protection from 'func start'
if (!line.begins_with("func ")) {
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 2) {
line = line.substr(0, start) + "start(Callable(" + parts[0] + ", " + parts[1] + "))" + line.substr(end + start);
} else if (parts.size() >= 3) {
line = line.substr(0, start) + "start(Callable(" + parts[0] + ", " + parts[1] + ").bind(" + parts[2] + ")" + connect_arguments(parts, 3) + ")" + line.substr(end + start);
}
}
}
}
// -- func _init(p_x:int).(p_x): -> func _init(p_x:int):\n\tsuper(p_x) Object # https://github.com/godotengine/godot/issues/70542
if (line.contains(" _init(") && line.rfind(":") > 0) {
// func _init(p_arg1).(super4, super5, super6)->void:
// ^--^indent ^super_start super_end^
int indent = line.count("\t", 0, line.find("func"));
int super_start = line.find(".(");
int super_end = line.rfind(")");
if (super_start > 0 && super_end > super_start) {
line = line.substr(0, super_start) + line.substr(super_end + 1) + "\n" + String("\t").repeat(indent + 1) + "super" + line.substr(super_start + 1, super_end - super_start);
}
}
// create_from_image(aa, bb) -> create_from_image(aa) #, bb ImageTexture
if (contains_function_call(line, "create_from_image(")) {
int start = line.find("create_from_image(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 2) {
line = line.substr(0, start) + "create_from_image(" + parts[0] + ") " + "#," + parts[1] + line.substr(end + start);
}
}
}
// set_cell_item(a, b, c, d ,e) -> set_cell_item(Vector3(a, b, c), d ,e)
if (contains_function_call(line, "set_cell_item(")) {
int start = line.find("set_cell_item(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() > 2) {
line = line.substr(0, start) + "set_cell_item(Vector3(" + parts[0] + ", " + parts[1] + ", " + parts[2] + ")" + connect_arguments(parts, 3).lstrip(" ") + ")" + line.substr(end + start);
}
}
}
// get_cell_item(a, b, c) -> get_cell_item(Vector3i(a, b, c))
if (contains_function_call(line, "get_cell_item(")) {
int start = line.find("get_cell_item(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 3) {
line = line.substr(0, start) + "get_cell_item(Vector3i(" + parts[0] + ", " + parts[1] + ", " + parts[2] + "))" + line.substr(end + start);
}
}
}
// get_cell_item_orientation(a, b, c) -> get_cell_item_orientation(Vector3i(a, b, c))
if (contains_function_call(line, "get_cell_item_orientation(")) {
int start = line.find("get_cell_item_orientation(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 3) {
line = line.substr(0, start) + "get_cell_item_orientation(Vector3i(" + parts[0] + ", " + parts[1] + ", " + parts[2] + "))" + line.substr(end + start);
}
}
}
// apply_impulse(A, B) -> apply_impulse(B, A)
if (contains_function_call(line, "apply_impulse(")) {
int start = line.find("apply_impulse(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 2) {
line = line.substr(0, start) + "apply_impulse(" + parts[1] + ", " + parts[0] + ")" + line.substr(end + start);
}
}
}
// apply_force(A, B) -> apply_force(B, A)
if (contains_function_call(line, "apply_force(")) {
int start = line.find("apply_force(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 2) {
line = line.substr(0, start) + "apply_force(" + parts[1] + ", " + parts[0] + ")" + line.substr(end + start);
}
}
}
// map_to_world(a, b, c) -> map_to_local(Vector3i(a, b, c))
if (contains_function_call(line, "map_to_world(")) {
int start = line.find("map_to_world(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 3) {
line = line.substr(0, start) + "map_to_local(Vector3i(" + parts[0] + ", " + parts[1] + ", " + parts[2] + "))" + line.substr(end + start);
} else if (parts.size() == 1) {
line = line.substr(0, start) + "map_to_local(" + parts[0] + ")" + line.substr(end + start);
}
}
}
// set_rotating(true) -> set_ignore_rotation(false)
if (contains_function_call(line, "set_rotating(")) {
int start = line.find("set_rotating(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 1) {
String opposite = parts[0] == "true" ? "false" : "true";
line = line.substr(0, start) + "set_ignore_rotation(" + opposite + ")";
}
}
}
// OS.get_window_safe_area() -> DisplayServer.get_display_safe_area()
if (line.contains("OS.get_window_safe_area(")) {
int start = line.find("OS.get_window_safe_area(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 0) {
line = line.substr(0, start) + "DisplayServer.get_display_safe_area()" + line.substr(end + start);
}
}
}
// draw_rect(a,b,c,d,e) -> draw_rect(a,b,c,d)#e) TODOConverter3To4 Antialiasing argument is missing
if (contains_function_call(line, "draw_rect(")) {
int start = line.find("draw_rect(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 5) {
line = line.substr(0, start) + "draw_rect(" + parts[0] + ", " + parts[1] + ", " + parts[2] + ", " + parts[3] + ")" + line.substr(end + start) + "# " + parts[4] + ") TODOConverter3To4 Antialiasing argument is missing";
}
}
}
// get_focus_owner() -> get_viewport().gui_get_focus_owner()
if (contains_function_call(line, "get_focus_owner()")) {
line = line.replace("get_focus_owner()", "get_viewport().gui_get_focus_owner()");
}
// button.pressed = 1 -> button.button_pressed = 1
if (line.contains(".pressed")) {
int start = line.find(".pressed");
bool foundNextEqual = false;
String line_to_check = line.substr(start + String(".pressed").length());
for (int current_index = 0; line_to_check.length() > current_index; current_index++) {
char32_t chr = line_to_check.get(current_index);
if (chr == '\t' || chr == ' ') {
continue;
} else if (chr == '=') {
foundNextEqual = true;
} else {
break;
}
}
if (foundNextEqual) {
line = line.substr(0, start) + ".button_pressed" + line.substr(start + String(".pressed").length());
}
}
// rotating = true -> ignore_rotation = false # reversed "rotating" for Camera2D
if (contains_function_call(line, "rotating")) {
String function_name = "rotating";
int start = line.find(function_name);
bool foundNextEqual = false;
String line_to_check = line.substr(start + function_name.length());
String assigned_value;
for (int current_index = 0; line_to_check.length() > current_index; current_index++) {
char32_t chr = line_to_check.get(current_index);
if (chr == '\t' || chr == ' ') {
continue;
} else if (chr == '=') {
foundNextEqual = true;
assigned_value = line.substr(start + function_name.length() + current_index + 1).strip_edges();
assigned_value = assigned_value == "true" ? "false" : "true";
} else {
break;
}
}
if (foundNextEqual) {
line = line.substr(0, start) + "ignore_rotation = " + assigned_value + " # reversed \"rotating\" for Camera2D";
}
}
// OS -> Time functions
if (line.contains("OS.get_ticks_msec")) {
line = line.replace("OS.get_ticks_msec", "Time.get_ticks_msec");
}
if (line.contains("OS.get_ticks_usec")) {
line = line.replace("OS.get_ticks_usec", "Time.get_ticks_usec");
}
if (line.contains("OS.get_unix_time")) {
line = line.replace("OS.get_unix_time", "Time.get_unix_time_from_system");
}
if (line.contains("OS.get_datetime")) {
line = line.replace("OS.get_datetime", "Time.get_datetime_dict_from_system");
}
// OS -> DisplayServer
if (line.contains("OS.get_display_cutouts")) {
line = line.replace("OS.get_display_cutouts", "DisplayServer.get_display_cutouts");
}
if (line.contains("OS.get_screen_count")) {
line = line.replace("OS.get_screen_count", "DisplayServer.get_screen_count");
}
if (line.contains("OS.get_screen_dpi")) {
line = line.replace("OS.get_screen_dpi", "DisplayServer.screen_get_dpi");
}
if (line.contains("OS.get_screen_max_scale")) {
line = line.replace("OS.get_screen_max_scale", "DisplayServer.screen_get_max_scale");
}
if (line.contains("OS.get_screen_position")) {
line = line.replace("OS.get_screen_position", "DisplayServer.screen_get_position");
}
if (line.contains("OS.get_screen_refresh_rate")) {
line = line.replace("OS.get_screen_refresh_rate", "DisplayServer.screen_get_refresh_rate");
}
if (line.contains("OS.get_screen_scale")) {
line = line.replace("OS.get_screen_scale", "DisplayServer.screen_get_scale");
}
if (line.contains("OS.get_screen_size")) {
line = line.replace("OS.get_screen_size", "DisplayServer.screen_get_size");
}
if (line.contains("OS.set_icon")) {
line = line.replace("OS.set_icon", "DisplayServer.set_icon");
}
if (line.contains("OS.set_native_icon")) {
line = line.replace("OS.set_native_icon", "DisplayServer.set_native_icon");
}
// OS -> Window
if (line.contains("OS.window_borderless")) {
line = line.replace("OS.window_borderless", "get_window().borderless");
}
if (line.contains("OS.get_real_window_size")) {
line = line.replace("OS.get_real_window_size", "get_window().get_size_with_decorations");
}
if (line.contains("OS.is_window_focused")) {
line = line.replace("OS.is_window_focused", "get_window().has_focus");
}
if (line.contains("OS.move_window_to_foreground")) {
line = line.replace("OS.move_window_to_foreground", "get_window().move_to_foreground");
}
if (line.contains("OS.request_attention")) {
line = line.replace("OS.request_attention", "get_window().request_attention");
}
if (line.contains("OS.set_window_title")) {
line = line.replace("OS.set_window_title", "get_window().set_title");
}
// get_tree().set_input_as_handled() -> get_viewport().set_input_as_handled()
if (line.contains("get_tree().set_input_as_handled()")) {
line = line.replace("get_tree().set_input_as_handled()", "get_viewport().set_input_as_handled()");
}
// Fix the simple case of using _unhandled_key_input
// func _unhandled_key_input(event: InputEventKey) -> _unhandled_key_input(event: InputEvent)
if (line.contains("_unhandled_key_input(event: InputEventKey)")) {
line = line.replace("_unhandled_key_input(event: InputEventKey)", "_unhandled_key_input(event: InputEvent)");
}
if (line.contains("Engine.editor_hint")) {
line = line.replace("Engine.editor_hint", "Engine.is_editor_hint()");
}
}
void ProjectConverter3To4::process_csharp_line(String &line, const RegExContainer &reg_container) {
line = line.replace("OS.GetWindowSafeArea()", "DisplayServer.ScreenGetUsableRect()");
// GetTree().SetInputAsHandled() -> GetViewport().SetInputAsHandled()
if (line.contains("GetTree().SetInputAsHandled()")) {
line = line.replace("GetTree().SetInputAsHandled()", "GetViewport().SetInputAsHandled()");
}
// Fix the simple case of using _UnhandledKeyInput
// func _UnhandledKeyInput(InputEventKey @event) -> _UnhandledKeyInput(InputEvent @event)
if (line.contains("_UnhandledKeyInput(InputEventKey @event)")) {
line = line.replace("_UnhandledKeyInput(InputEventKey @event)", "_UnhandledKeyInput(InputEvent @event)");
}
// -- Connect(,,,things) -> Connect(,Callable(,),things) Object
if (line.contains("Connect(")) {
int start = line.find("Connect(");
// Protection from disconnect
if (start == 0 || line.get(start - 1) != 's') {
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() >= 3) {
line = line.substr(0, start) + "Connect(" + parts[0] + ", new Callable(" + parts[1] + ", " + parts[2] + ")" + connect_arguments(parts, 3) + ")" + line.substr(end + start);
}
}
}
}
// -- Disconnect(a,b,c) -> Disconnect(a,Callable(b,c)) Object
if (line.contains("Disconnect(")) {
int start = line.find("Disconnect(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 3) {
line = line.substr(0, start) + "Disconnect(" + parts[0] + ", new Callable(" + parts[1] + ", " + parts[2] + "))" + line.substr(end + start);
}
}
}
// -- IsConnected(a,b,c) -> IsConnected(a,Callable(b,c)) Object
if (line.contains("IsConnected(")) {
int start = line.find("IsConnected(");
int end = get_end_parenthesis(line.substr(start)) + 1;
if (end > -1) {
Vector<String> parts = parse_arguments(line.substr(start, end));
if (parts.size() == 3) {
line = line.substr(0, start) + "IsConnected(" + parts[0] + ", new Callable(" + parts[1] + ", " + parts[2] + "))" + line.substr(end + start);
}
}
}
}
void ProjectConverter3To4::rename_csharp_functions(Vector<SourceLine> &source_lines, const RegExContainer &reg_container) {
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
process_csharp_line(line, reg_container);
}
}
};
Vector<String> ProjectConverter3To4::check_for_rename_csharp_functions(Vector<String> &lines, const RegExContainer &reg_container) {
int current_line = 1;
Vector<String> found_renames;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
String old_line = line;
process_csharp_line(line, reg_container);
if (old_line != line) {
found_renames.append(simple_line_formatter(current_line, old_line, line));
}
}
}
return found_renames;
}
void ProjectConverter3To4::rename_csharp_attributes(Vector<SourceLine> &source_lines, const RegExContainer &reg_container) {
static String error_message = "The master and mastersync rpc behavior is not officially supported anymore. Try using another keyword or making custom logic using Multiplayer.GetRemoteSenderId()\n";
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
line = reg_container.keyword_csharp_remote.sub(line, "[RPC(MultiplayerAPI.RPCMode.AnyPeer)]", true);
line = reg_container.keyword_csharp_remotesync.sub(line, "[RPC(MultiplayerAPI.RPCMode.AnyPeer, CallLocal = true)]", true);
line = reg_container.keyword_csharp_puppet.sub(line, "[RPC]", true);
line = reg_container.keyword_csharp_puppetsync.sub(line, "[RPC(CallLocal = true)]", true);
line = reg_container.keyword_csharp_master.sub(line, error_message + "[RPC]", true);
line = reg_container.keyword_csharp_mastersync.sub(line, error_message + "[RPC(CallLocal = true)]", true);
}
}
}
Vector<String> ProjectConverter3To4::check_for_rename_csharp_attributes(Vector<String> &lines, const RegExContainer &reg_container) {
int current_line = 1;
Vector<String> found_renames;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
String old;
old = line;
line = reg_container.keyword_csharp_remote.sub(line, "[RPC(MultiplayerAPI.RPCMode.AnyPeer)]", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "[Remote]", "[RPC(MultiplayerAPI.RPCMode.AnyPeer)]", line));
}
old = line;
line = reg_container.keyword_csharp_remotesync.sub(line, "[RPC(MultiplayerAPI.RPCMode.AnyPeer, CallLocal = true)]", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "[RemoteSync]", "[RPC(MultiplayerAPI.RPCMode.AnyPeer, CallLocal = true)]", line));
}
old = line;
line = reg_container.keyword_csharp_puppet.sub(line, "[RPC]", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "[Puppet]", "[RPC]", line));
}
old = line;
line = reg_container.keyword_csharp_puppetsync.sub(line, "[RPC(CallLocal = true)]", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "[PuppetSync]", "[RPC(CallLocal = true)]", line));
}
old = line;
line = reg_container.keyword_csharp_master.sub(line, "[RPC]", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "[Master]", "[RPC]", line));
}
old = line;
line = reg_container.keyword_csharp_mastersync.sub(line, "[RPC(CallLocal = true)]", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "[MasterSync]", "[RPC(CallLocal = true)]", line));
}
}
current_line++;
}
return found_renames;
}
_FORCE_INLINE_ static String builtin_escape(const String &p_str, bool p_builtin) {
if (p_builtin) {
return p_str.replace("\"", "\\\"");
} else {
return p_str;
}
}
void ProjectConverter3To4::rename_gdscript_keywords(Vector<SourceLine> &source_lines, const RegExContainer &reg_container, bool builtin) {
static String error_message = "The master and mastersync rpc behavior is not officially supported anymore. Try using another keyword or making custom logic using get_multiplayer().get_remote_sender_id()\n";
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
if (line.contains("export")) {
line = reg_container.keyword_gdscript_export_single.sub(line, "@export", true);
}
if (line.contains("export")) {
line = reg_container.keyword_gdscript_export_mutli.sub(line, "$1@export", true);
}
if (line.contains("onready")) {
line = reg_container.keyword_gdscript_onready.sub(line, "@onready", true);
}
if (line.contains("remote")) {
line = reg_container.keyword_gdscript_remote.sub(line, builtin_escape("@rpc(\"any_peer\") func", builtin), true);
}
if (line.contains("remote")) {
line = reg_container.keyword_gdscript_remotesync.sub(line, builtin_escape("@rpc(\"any_peer\", \"call_local\") func", builtin), true);
}
if (line.contains("sync")) {
line = reg_container.keyword_gdscript_sync.sub(line, builtin_escape("@rpc(\"any_peer\", \"call_local\") func", builtin), true);
}
if (line.contains("slave")) {
line = reg_container.keyword_gdscript_slave.sub(line, "@rpc func", true);
}
if (line.contains("puppet")) {
line = reg_container.keyword_gdscript_puppet.sub(line, "@rpc func", true);
}
if (line.contains("puppet")) {
line = reg_container.keyword_gdscript_puppetsync.sub(line, builtin_escape("@rpc(\"call_local\") func", builtin), true);
}
if (line.contains("master")) {
line = reg_container.keyword_gdscript_master.sub(line, error_message + "@rpc func", true);
}
if (line.contains("master")) {
line = reg_container.keyword_gdscript_mastersync.sub(line, error_message + builtin_escape("@rpc(\"call_local\") func", builtin), true);
}
}
}
}
Vector<String> ProjectConverter3To4::check_for_rename_gdscript_keywords(Vector<String> &lines, const RegExContainer &reg_container, bool builtin) {
Vector<String> found_renames;
int current_line = 1;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
String old;
if (line.contains("tool")) {
old = line;
line = reg_container.keyword_gdscript_tool.sub(line, "@tool", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "tool", "@tool", line));
}
}
if (line.contains("export")) {
old = line;
line = reg_container.keyword_gdscript_export_single.sub(line, "$1@export", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "export", "@export", line));
}
}
if (line.contains("export")) {
old = line;
line = reg_container.keyword_gdscript_export_mutli.sub(line, "@export", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "export", "@export", line));
}
}
if (line.contains("onready")) {
old = line;
line = reg_container.keyword_gdscript_tool.sub(line, "@onready", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "onready", "@onready", line));
}
}
if (line.contains("remote")) {
old = line;
line = reg_container.keyword_gdscript_remote.sub(line, builtin_escape("@rpc(\"any_peer\") func", builtin), true);
if (old != line) {
found_renames.append(line_formatter(current_line, "remote func", builtin_escape("@rpc(\"any_peer\") func", builtin), line));
}
}
if (line.contains("remote")) {
old = line;
line = reg_container.keyword_gdscript_remotesync.sub(line, builtin_escape("@rpc(\"any_peer\", \"call_local\")) func", builtin), true);
if (old != line) {
found_renames.append(line_formatter(current_line, "remotesync func", builtin_escape("@rpc(\"any_peer\", \"call_local\")) func", builtin), line));
}
}
if (line.contains("sync")) {
old = line;
line = reg_container.keyword_gdscript_sync.sub(line, builtin_escape("@rpc(\"any_peer\", \"call_local\")) func", builtin), true);
if (old != line) {
found_renames.append(line_formatter(current_line, "sync func", builtin_escape("@rpc(\"any_peer\", \"call_local\")) func", builtin), line));
}
}
if (line.contains("slave")) {
old = line;
line = reg_container.keyword_gdscript_slave.sub(line, "@rpc func", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "slave func", "@rpc func", line));
}
}
if (line.contains("puppet")) {
old = line;
line = reg_container.keyword_gdscript_puppet.sub(line, "@rpc func", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "puppet func", "@rpc func", line));
}
}
if (line.contains("puppet")) {
old = line;
line = reg_container.keyword_gdscript_puppetsync.sub(line, builtin_escape("@rpc(\"call_local\") func", builtin), true);
if (old != line) {
found_renames.append(line_formatter(current_line, "puppetsync func", builtin_escape("@rpc(\"call_local\") func", builtin), line));
}
}
if (line.contains("master")) {
old = line;
line = reg_container.keyword_gdscript_master.sub(line, "@rpc func", true);
if (old != line) {
found_renames.append(line_formatter(current_line, "master func", "@rpc func", line));
}
}
if (line.contains("master")) {
old = line;
line = reg_container.keyword_gdscript_master.sub(line, builtin_escape("@rpc(\"call_local\") func", builtin), true);
if (old != line) {
found_renames.append(line_formatter(current_line, "mastersync func", builtin_escape("@rpc(\"call_local\") func", builtin), line));
}
}
}
current_line++;
}
return found_renames;
}
void ProjectConverter3To4::rename_input_map_scancode(Vector<SourceLine> &source_lines, const RegExContainer &reg_container) {
// The old Special Key, now colliding with CMD_OR_CTRL.
const int old_spkey = (1 << 24);
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
TypedArray<RegExMatch> reg_match = reg_container.input_map_keycode.search_all(line);
for (int i = 0; i < reg_match.size(); ++i) {
Ref<RegExMatch> match = reg_match[i];
PackedStringArray strings = match->get_strings();
int key = strings[3].to_int();
if (key & old_spkey) {
// Create new key, clearing old Special Key and setting new one.
key = (key & ~old_spkey) | (int)Key::SPECIAL;
line = line.replace(strings[0], String(",\"") + strings[1] + "scancode\":" + String::num_int64(key));
}
}
}
}
}
void ProjectConverter3To4::rename_joypad_buttons_and_axes(Vector<SourceLine> &source_lines, const RegExContainer &reg_container) {
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
// Remap button indexes.
TypedArray<RegExMatch> reg_match = reg_container.joypad_button_index.search_all(line);
for (int i = 0; i < reg_match.size(); ++i) {
Ref<RegExMatch> match = reg_match[i];
PackedStringArray strings = match->get_strings();
String button_index_entry = strings[0];
int button_index_value = strings[1].to_int();
if (button_index_value == 6) { // L2 and R2 are mapped to joypad axes in Godot 4.
line = line.replace("InputEventJoypadButton", "InputEventJoypadMotion");
line = line.replace(button_index_entry, ",\"axis\":4,\"axis_value\":1.0");
} else if (button_index_value == 7) {
line = line.replace("InputEventJoypadButton", "InputEventJoypadMotion");
line = line.replace(button_index_entry, ",\"axis\":5,\"axis_value\":1.0");
} else if (button_index_value < 22) { // There are no mappings for indexes greater than 22 in both Godot 3 & 4.
String pressure_and_pressed_properties = strings[2];
line = line.replace(button_index_entry, ",\"button_index\":" + String::num_int64(reg_container.joypad_button_mappings[button_index_value]) + "," + pressure_and_pressed_properties);
}
}
// Remap axes. Only L2 and R2 need remapping.
reg_match = reg_container.joypad_axis.search_all(line);
for (int i = 0; i < reg_match.size(); ++i) {
Ref<RegExMatch> match = reg_match[i];
PackedStringArray strings = match->get_strings();
String axis_entry = strings[0];
int axis_value = strings[1].to_int();
if (axis_value == 6) {
line = line.replace(axis_entry, ",\"axis\":4");
} else if (axis_value == 7) {
line = line.replace(axis_entry, ",\"axis\":5");
}
}
}
}
}
Vector<String> ProjectConverter3To4::check_for_rename_joypad_buttons_and_axes(Vector<String> &lines, const RegExContainer &reg_container) {
Vector<String> found_renames;
int current_line = 1;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
// Remap button indexes.
TypedArray<RegExMatch> reg_match = reg_container.joypad_button_index.search_all(line);
for (int i = 0; i < reg_match.size(); ++i) {
Ref<RegExMatch> match = reg_match[i];
PackedStringArray strings = match->get_strings();
String button_index_entry = strings[0];
int button_index_value = strings[1].to_int();
if (button_index_value == 6) { // L2 and R2 are mapped to joypad axes in Godot 4.
found_renames.append(line_formatter(current_line, "InputEventJoypadButton", "InputEventJoypadMotion", line));
found_renames.append(line_formatter(current_line, button_index_entry, ",\"axis\":4", line));
} else if (button_index_value == 7) {
found_renames.append(line_formatter(current_line, "InputEventJoypadButton", "InputEventJoypadMotion", line));
found_renames.append(line_formatter(current_line, button_index_entry, ",\"axis\":5", line));
} else if (button_index_value < 22) { // There are no mappings for indexes greater than 22 in both Godot 3 & 4.
found_renames.append(line_formatter(current_line, "\"button_index\":" + strings[1], "\"button_index\":" + String::num_int64(reg_container.joypad_button_mappings[button_index_value]), line));
}
}
// Remap axes. Only L2 and R2 need remapping.
reg_match = reg_container.joypad_axis.search_all(line);
for (int i = 0; i < reg_match.size(); ++i) {
Ref<RegExMatch> match = reg_match[i];
PackedStringArray strings = match->get_strings();
String axis_entry = strings[0];
int axis_value = strings[1].to_int();
if (axis_value == 6) {
found_renames.append(line_formatter(current_line, axis_entry, ",\"axis\":4", line));
} else if (axis_value == 7) {
found_renames.append(line_formatter(current_line, axis_entry, ",\"axis\":5", line));
}
}
current_line++;
}
}
return found_renames;
}
Vector<String> ProjectConverter3To4::check_for_rename_input_map_scancode(Vector<String> &lines, const RegExContainer &reg_container) {
Vector<String> found_renames;
// The old Special Key, now colliding with CMD_OR_CTRL.
const int old_spkey = (1 << 24);
int current_line = 1;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
TypedArray<RegExMatch> reg_match = reg_container.input_map_keycode.search_all(line);
for (int i = 0; i < reg_match.size(); ++i) {
Ref<RegExMatch> match = reg_match[i];
PackedStringArray strings = match->get_strings();
int key = strings[3].to_int();
if (key & old_spkey) {
// Create new key, clearing old Special Key and setting new one.
key = (key & ~old_spkey) | (int)Key::SPECIAL;
found_renames.append(line_formatter(current_line, strings[3], String::num_int64(key), line));
}
}
}
current_line++;
}
return found_renames;
}
void ProjectConverter3To4::custom_rename(Vector<SourceLine> &source_lines, String from, String to) {
RegEx reg = RegEx(String("\\b") + from + "\\b");
CRASH_COND(!reg.is_valid());
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
line = reg.sub(line, to, true);
}
}
};
Vector<String> ProjectConverter3To4::check_for_custom_rename(Vector<String> &lines, String from, String to) {
Vector<String> found_renames;
RegEx reg = RegEx(String("\\b") + from + "\\b");
CRASH_COND(!reg.is_valid());
int current_line = 1;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
TypedArray<RegExMatch> reg_match = reg.search_all(line);
if (reg_match.size() > 0) {
found_renames.append(line_formatter(current_line, from.replace("\\.", "."), to, line)); // Without replacing it will print "\.shader" instead ".shader".
}
}
current_line++;
}
return found_renames;
}
void ProjectConverter3To4::rename_common(const char *array[][2], LocalVector<RegEx *> &cached_regexes, Vector<SourceLine> &source_lines) {
for (SourceLine &source_line : source_lines) {
if (source_line.is_comment) {
continue;
}
String &line = source_line.line;
if (uint64_t(line.length()) <= maximum_line_length) {
for (unsigned int current_index = 0; current_index < cached_regexes.size(); current_index++) {
if (line.contains(array[current_index][0])) {
line = cached_regexes[current_index]->sub(line, array[current_index][1], true);
}
}
}
}
}
Vector<String> ProjectConverter3To4::check_for_rename_common(const char *array[][2], LocalVector<RegEx *> &cached_regexes, Vector<String> &lines) {
Vector<String> found_renames;
int current_line = 1;
for (String &line : lines) {
if (uint64_t(line.length()) <= maximum_line_length) {
for (unsigned int current_index = 0; current_index < cached_regexes.size(); current_index++) {
if (line.contains(array[current_index][0])) {
TypedArray<RegExMatch> reg_match = cached_regexes[current_index]->search_all(line);
if (reg_match.size() > 0) {
found_renames.append(line_formatter(current_line, array[current_index][0], array[current_index][1], line));
}
}
}
}
current_line++;
}
return found_renames;
}
// Prints full info about renamed things e.g.:
// Line (67) remove -> remove_at - LINE """ doubler._blacklist.remove(0) """
String ProjectConverter3To4::line_formatter(int current_line, String from, String to, String line) {
if (from.size() > 200) {
from = from.substr(0, 197) + "...";
}
if (to.size() > 200) {
to = to.substr(0, 197) + "...";
}
if (line.size() > 400) {
line = line.substr(0, 397) + "...";
}
from = from.strip_escapes();
to = to.strip_escapes();
line = line.replace("\r", "").replace("\n", "").strip_edges();
return vformat("Line(%d), %s -> %s - LINE \"\"\" %s \"\"\"", current_line, from, to, line);
}
// Prints only full lines e.g.:
// Line (1) - FULL LINES - """yield(get_tree().create_timer(3), 'timeout')""" =====> """ await get_tree().create_timer(3).timeout """
String ProjectConverter3To4::simple_line_formatter(int current_line, String old_line, String new_line) {
if (old_line.size() > 1000) {
old_line = old_line.substr(0, 997) + "...";
}
if (new_line.size() > 1000) {
new_line = new_line.substr(0, 997) + "...";
}
old_line = old_line.replace("\r", "").replace("\n", "").strip_edges();
new_line = new_line.replace("\r", "").replace("\n", "").strip_edges();
return vformat("Line (%d) - FULL LINES - \"\"\" %s \"\"\" =====> \"\"\" %s \"\"\"", current_line, old_line, new_line);
}
// Collects string from vector strings
String ProjectConverter3To4::collect_string_from_vector(Vector<SourceLine> &vector) {
String string = "";
for (int i = 0; i < vector.size(); i++) {
string += vector[i].line;
if (i != vector.size() - 1) {
string += "\n";
}
}
return string;
}
#endif // MODULE_REGEX_ENABLED
#endif // DISABLE_DEPRECATED