// Copyright © SixtyFPS GmbH // SPDX-License-Identifier: GPL-3.0-only OR LicenseRef-Slint-Royalty-free-1.1 OR LicenseRef-Slint-commercial #define CATCH_CONFIG_MAIN #include "catch2/catch.hpp" #include #include SCENARIO("Value API") { using namespace slint::interpreter; Value value; REQUIRE(value.type() == Value::Type::Void); SECTION("Construct a string") { REQUIRE(!value.to_string().has_value()); slint::SharedString cpp_str("Hello World"); value = Value(cpp_str); REQUIRE(value.type() == Value::Type::String); auto string_opt = value.to_string(); REQUIRE(string_opt.has_value()); REQUIRE(string_opt.value() == "Hello World"); } SECTION("Construct a number") { REQUIRE(!value.to_number().has_value()); const double number = 42.0; value = Value(number); REQUIRE(value.type() == Value::Type::Number); auto number_opt = value.to_number(); REQUIRE(number_opt.has_value()); REQUIRE(number_opt.value() == number); Value v2 = 42; REQUIRE(v2.type() == Value::Type::Number); REQUIRE(v2 == value); REQUIRE(*v2.to_number() == number); } SECTION("Construct a bool") { REQUIRE(!value.to_bool().has_value()); value = Value(true); REQUIRE(value.type() == Value::Type::Bool); auto bool_opt = value.to_bool(); REQUIRE(bool_opt.has_value()); REQUIRE(bool_opt.value() == true); } SECTION("Construct an array") { REQUIRE(!value.to_array().has_value()); slint::SharedVector array { Value(42.0), Value(true) }; value = Value(array); REQUIRE(value.type() == Value::Type::Model); auto array_opt = value.to_array(); REQUIRE(array_opt.has_value()); auto extracted_array = array_opt.value(); REQUIRE(extracted_array.size() == 2); REQUIRE(extracted_array[0].to_number().value() == 42); REQUIRE(extracted_array[1].to_bool().value()); } SECTION("Construct a brush") { REQUIRE(!value.to_brush().has_value()); slint::Brush brush(slint::Color::from_rgb_uint8(255, 0, 255)); value = Value(brush); REQUIRE(value.type() == Value::Type::Brush); auto brush_opt = value.to_brush(); REQUIRE(brush_opt.has_value()); REQUIRE(brush_opt.value() == brush); } SECTION("Construct a struct") { REQUIRE(!value.to_struct().has_value()); slint::interpreter::Struct struc; value = Value(struc); REQUIRE(value.type() == Value::Type::Struct); auto struct_opt = value.to_struct(); REQUIRE(struct_opt.has_value()); } SECTION("Construct an image") { REQUIRE(!value.to_image().has_value()); slint::Image image = slint::Image::load_from_path( SOURCE_DIR "/../../../logo/slint-logo-square-light-128x128.png"); REQUIRE(image.size().width == 128); value = Value(image); REQUIRE(value.type() == Value::Type::Image); auto image2 = value.to_image(); REQUIRE(image2.has_value()); REQUIRE(image2->size().width == 128); REQUIRE(image == *image2); } SECTION("Construct a model") { // And test that it is properly destroyed when the value is destroyed struct M : slint::VectorModel { bool *destroyed; explicit M(bool *destroyed) : destroyed(destroyed) { } void play() { this->push_back(Value(4.)); this->set_row_data(0, Value(9.)); } ~M() { *destroyed = true; } }; bool destroyed = false; auto m = std::make_shared(&destroyed); { Value value(m); REQUIRE(value.type() == Value::Type::Model); REQUIRE(!destroyed); m->play(); m = nullptr; REQUIRE(!destroyed); // play a bit with the value to test the copy and move Value v2 = value; Value v3 = std::move(v2); REQUIRE(!destroyed); } REQUIRE(destroyed); } SECTION("Compare Values") { Value str1 { slint::SharedString("Hello1") }; Value str2 { slint::SharedString("Hello2") }; Value fl1 { 10. }; Value fl2 { 12. }; REQUIRE(str1 == str1); REQUIRE(str1 != str2); REQUIRE(str1 != fl2); REQUIRE(fl1 == fl1); REQUIRE(fl1 != fl2); REQUIRE(Value() == Value()); REQUIRE(Value() != str1); REQUIRE(str1 == slint::SharedString("Hello1")); REQUIRE(str1 != slint::SharedString("Hello2")); REQUIRE(slint::SharedString("Hello2") == str2); REQUIRE(fl1 != slint::SharedString("Hello2")); REQUIRE(fl2 == 12.); } } SCENARIO("Struct API") { using namespace slint::interpreter; Struct struc; REQUIRE(!struc.get_field("not_there")); struc.set_field("field_a", Value(slint::SharedString("Hallo"))); auto value_opt = struc.get_field("field_a"); REQUIRE(value_opt.has_value()); auto value = value_opt.value(); REQUIRE(value.to_string().has_value()); REQUIRE(value.to_string().value() == "Hallo"); int count = 0; for (auto [k, value] : struc) { REQUIRE(count == 0); count++; REQUIRE(k == "field-a"); REQUIRE(value.to_string().value() == "Hallo"); } struc.set_field("field_b", Value(slint::SharedString("World"))); std::map map; for (auto [k, value] : struc) map[std::string(k)] = *value.to_string(); REQUIRE(map == std::map { { "field-a", slint::SharedString("Hallo") }, { "field-b", slint::SharedString("World") } }); } SCENARIO("Struct Iterator Constructor") { using namespace slint::interpreter; std::vector> values = { { "field_a", Value(true) }, { "field_b", Value(42.0) } }; Struct struc(values.begin(), values.end()); REQUIRE(!struc.get_field("foo").has_value()); REQUIRE(struc.get_field("field_a").has_value()); REQUIRE(struc.get_field("field_a").value().to_bool().value()); REQUIRE(struc.get_field("field_b").value().to_number().value() == 42.0); } SCENARIO("Struct Initializer List Constructor") { using namespace slint::interpreter; Struct struc({ { "field_a", Value(true) }, { "field_b", Value(42.0) } }); REQUIRE(!struc.get_field("foo").has_value()); REQUIRE(struc.get_field("field_a").has_value()); REQUIRE(struc.get_field("field_a").value().to_bool().value()); REQUIRE(struc.get_field("field_b").value().to_number().value() == 42.0); } SCENARIO("Struct empty field iteration") { using namespace slint::interpreter; Struct struc; REQUIRE(struc.begin() == struc.end()); } SCENARIO("Struct field iteration") { using namespace slint::interpreter; Struct struc({ { "field_a", Value(true) }, { "field_b", Value(42.0) } }); auto it = struc.begin(); auto end = struc.end(); REQUIRE(it != end); auto check_valid_entry = [](const auto &key, const auto &value) -> bool { if (key == "field-a") return value == Value(true); if (key == "field-b") return value == Value(42.0); return false; }; std::set seen_fields; for (; it != end; ++it) { const auto [key, value] = *it; REQUIRE(check_valid_entry(key, value)); auto value_inserted = seen_fields.insert(std::string(key)).second; REQUIRE(value_inserted); } } SCENARIO("Component Compiler") { using namespace slint::interpreter; using namespace slint; ComponentCompiler compiler; SECTION("configure include paths") { SharedVector in_paths; in_paths.push_back("path1"); in_paths.push_back("path2"); compiler.set_include_paths(in_paths); auto out_paths = compiler.include_paths(); REQUIRE(out_paths.size() == 2); REQUIRE(out_paths[0] == "path1"); REQUIRE(out_paths[1] == "path2"); } SECTION("configure style") { REQUIRE(compiler.style() == ""); compiler.set_style("fluent"); REQUIRE(compiler.style() == "fluent"); } SECTION("Compile failure from source") { auto result = compiler.build_from_source("Syntax Error!!", ""); REQUIRE_FALSE(result.has_value()); } SECTION("Compile from source") { auto result = compiler.build_from_source("export component Dummy {}", ""); REQUIRE(result.has_value()); } SECTION("Compile failure from path") { auto result = compiler.build_from_path(SOURCE_DIR "/file-not-there.slint"); REQUIRE_FALSE(result.has_value()); auto diags = compiler.diagnostics(); REQUIRE(diags.size() == 1); REQUIRE(diags[0].message.starts_with("Could not load")); REQUIRE(diags[0].line == 0); REQUIRE(diags[0].column == 0); } SECTION("Compile from path") { auto result = compiler.build_from_path(SOURCE_DIR "/test.slint"); REQUIRE(result.has_value()); } } SCENARIO("Component Definition Properties") { using namespace slint::interpreter; using namespace slint; ComponentCompiler compiler; auto comp_def = *compiler.build_from_source( "export component Dummy { in property test; callback dummy; }", ""); auto properties = comp_def.properties(); REQUIRE(properties.size() == 1); REQUIRE(properties[0].property_name == "test"); REQUIRE(properties[0].property_type == Value::Type::String); auto callback_names = comp_def.callbacks(); REQUIRE(callback_names.size() == 1); REQUIRE(callback_names[0] == "dummy"); } SCENARIO("Component Definition Properties / Two-way bindings") { using namespace slint::interpreter; using namespace slint; ComponentCompiler compiler; auto comp_def = *compiler.build_from_source( "export component Dummy { in-out property test <=> sub_object.test; " " sub_object := Rectangle { property test; }" "}", ""); auto properties = comp_def.properties(); REQUIRE(properties.size() == 1); REQUIRE(properties[0].property_name == "test"); REQUIRE(properties[0].property_type == Value::Type::String); } SCENARIO("Invoke callback") { using namespace slint::interpreter; using namespace slint; ComponentCompiler compiler; SECTION("valid") { auto result = compiler.build_from_source( "export component Dummy { callback some_callback(string, int) -> string; }", ""); REQUIRE(result.has_value()); auto instance = result->create(); std::string local_string = "_string_on_the_stack_"; REQUIRE(instance->set_callback("some_callback", [local_string](auto args) { SharedString arg1 = *args[0].to_string(); int arg2 = int(*args[1].to_number()); std::string res = std::string(arg1) + ":" + std::to_string(arg2) + local_string; return Value(SharedString(res)); })); Value args[] = { SharedString("Hello"), 42. }; auto res = instance->invoke("some_callback", args); REQUIRE(res.has_value()); REQUIRE(*res->to_string() == SharedString("Hello:42_string_on_the_stack_")); } SECTION("invalid") { auto result = compiler.build_from_source( "export component Dummy { callback foo(string, int) -> string; }", ""); REQUIRE(result.has_value()); auto instance = result->create(); REQUIRE(!instance->set_callback("bar", [](auto) { return Value(); })); Value args[] = { SharedString("Hello"), 42. }; auto res = instance->invoke("bar", args); REQUIRE(!res.has_value()); } } SCENARIO("Array between .slint and C++") { using namespace slint::interpreter; using namespace slint; ComponentCompiler compiler; auto result = compiler.build_from_source( "export component Dummy { in-out property <[int]> array: [1, 2, 3]; }", ""); REQUIRE(result.has_value()); auto instance = result->create(); SECTION(".slint to C++") { auto maybe_array = instance->get_property("array"); REQUIRE(maybe_array.has_value()); REQUIRE(maybe_array->type() == Value::Type::Model); auto array = *maybe_array; REQUIRE(array.to_array() == slint::SharedVector { Value(1.), Value(2.), Value(3.) }); } SECTION("C++ to .slint") { slint::SharedVector cpp_array { Value(4.), Value(5.), Value(6.) }; instance->set_property("array", Value(cpp_array)); auto maybe_array = instance->get_property("array"); REQUIRE(maybe_array.has_value()); REQUIRE(maybe_array->type() == Value::Type::Model); auto actual_array = *maybe_array; REQUIRE(actual_array.to_array() == cpp_array); } } SCENARIO("Angle between .slint and C++") { using namespace slint::interpreter; using namespace slint; ComponentCompiler compiler; auto result = compiler.build_from_source( "export component Dummy { in-out property the_angle: " "0.25turn; out property test: the_angle == 0.5turn; }", ""); REQUIRE(result.has_value()); auto instance = result->create(); SECTION("Read property") { auto angle_value = instance->get_property("the-angle"); REQUIRE(angle_value.has_value()); REQUIRE(angle_value->type() == Value::Type::Number); auto angle = angle_value->to_number(); REQUIRE(angle.has_value()); REQUIRE(*angle == 90); } SECTION("Write property") { REQUIRE(!*instance->get_property("test")->to_bool()); bool ok = instance->set_property("the_angle", 180.); REQUIRE(ok); REQUIRE(*instance->get_property("the_angle")->to_number() == 180); REQUIRE(*instance->get_property("test")->to_bool()); } } SCENARIO("Component Definition Name") { using namespace slint::interpreter; using namespace slint; ComponentCompiler compiler; auto comp_def = *compiler.build_from_source("export component IHaveAName { }", ""); REQUIRE(comp_def.name() == "IHaveAName"); } SCENARIO("Send key events") { using namespace slint::interpreter; using namespace slint; ComponentCompiler compiler; auto comp_def = compiler.build_from_source(R"( export component Dummy { forward-focus: scope; out property result; scope := FocusScope { key-pressed(event) => { if (event.text != Key.Shift && event.text != Key.Control) { result += event.text; } return accept; } } } )", ""); REQUIRE(comp_def.has_value()); auto instance = comp_def->create(); slint::testing::send_keyboard_string_sequence(&*instance, "Hello keys!"); REQUIRE(*instance->get_property("result")->to_string() == "Hello keys!"); } SCENARIO("Global properties") { using namespace slint::interpreter; using namespace slint; ComponentCompiler compiler; auto result = compiler.build_from_source( R"( export global The-Global { in-out property the-property: "€€€"; pure callback to_uppercase(string)->string; public function ff() -> string { return the-property; } } export component Dummy { out property result: The-Global.to_uppercase("abc"); } )", ""); for (auto &&x : compiler.diagnostics()) std::cerr << x.message << std::endl; REQUIRE(result.has_value()); auto component_definition = *result; SECTION("Globals introspection") { auto globals = component_definition.globals(); REQUIRE(globals.size() == 1); REQUIRE(globals[0] == "The-Global"); REQUIRE(!component_definition.global_properties("not there").has_value()); REQUIRE(component_definition.global_properties("The_Global").has_value()); REQUIRE(component_definition.global_properties("The-Global").has_value()); auto properties = *component_definition.global_properties("The-Global"); REQUIRE(properties.size() == 1); REQUIRE(properties[0].property_name == "the-property"); REQUIRE(properties[0].property_type == Value::Type::String); auto callbacks = *component_definition.global_callbacks("The-Global"); REQUIRE(callbacks.size() == 1); REQUIRE(callbacks[0] == "to_uppercase"); } auto instance = component_definition.create(); SECTION("Invalid read") { REQUIRE(!instance->get_global_property("the - global", "the-property").has_value()); REQUIRE(!instance->get_global_property("The-Global", "the property").has_value()); } SECTION("Invalid set") { REQUIRE(!instance->set_global_property("the - global", "the-property", 5.)); REQUIRE(!instance->set_global_property("The-Global", "the property", 5.)); REQUIRE(!instance->set_global_property("The-Global", "the-property", 5.)); } SECTION("get property") { auto value = instance->get_global_property("The_Global", "the-property"); REQUIRE(value.has_value()); REQUIRE(value->to_string().has_value()); REQUIRE(value->to_string().value() == "€€€"); } SECTION("set property") { REQUIRE(instance->set_global_property("The-Global", "the-property", SharedString("§§§"))); auto value = instance->get_global_property("The-Global", "the_property"); REQUIRE(value.has_value()); REQUIRE(value->to_string().has_value()); REQUIRE(value->to_string().value() == "§§§"); } SECTION("set/invoke callback") { REQUIRE(instance->set_global_callback("The-Global", "to_uppercase", [](auto args) { std::string arg1(*args[0].to_string()); std::transform(arg1.begin(), arg1.end(), arg1.begin(), toupper); return SharedString(arg1); })); auto result = instance->get_property("result"); REQUIRE(result.has_value()); REQUIRE(result->to_string().has_value()); REQUIRE(result->to_string().value() == "ABC"); Value args[] = { SharedString("Hello") }; auto res = instance->invoke_global("The_Global", "to-uppercase", args); REQUIRE(res.has_value()); REQUIRE(*res->to_string() == SharedString("HELLO")); } SECTION("callback errors") { REQUIRE(!instance->set_global_callback("TheGlobal", "to_uppercase", [](auto) { return Value {}; })); REQUIRE(!instance->set_global_callback("The-Global", "touppercase", [](auto) { return Value {}; })); REQUIRE(!instance->invoke_global("TheGlobal", "touppercase", {})); REQUIRE(!instance->invoke_global("The-Global", "touppercase", {})); } SECTION("invoke function") { REQUIRE(instance->set_global_property("The-Global", "the-property", SharedString("&&&"))); auto res = instance->invoke_global("The_Global", "ff", {}); REQUIRE(res.has_value()); REQUIRE(*res->to_string() == SharedString("&&&")); } }