#include // for Message #include // for SuiteApiResolver, TestFactoryImpl, TestPartResult #include // for allocator, basic_string, string #include // for vector #include "ftxui/dom/elements.hpp" // for text, operator|, Element, flex_grow, flex_shrink, hbox #include "ftxui/dom/node.hpp" // for Render #include "ftxui/screen/color.hpp" // for ftxui #include "ftxui/screen/screen.hpp" // for Screen #include "gtest/gtest_pred_impl.h" // for Test, EXPECT_EQ, TEST using namespace ftxui; using namespace ftxui; TEST(HBoxTest, NoFlex_NoFlex_NoFlex) { auto root = hbox({ text("012"), text("abc"), text("ABC"), }); std::vector expectations = { "", // "0", // "0a", // "0aA", // "01aA", // "01abA", // "01abAB", // "012abAB", // "012abcAB", // "012abcABC", // "012abcABC ", // "012abcABC ", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, FlexGrow_NoFlex_NoFlex) { auto root = hbox({ text("012") | flex_grow, text("abc"), text("ABC"), }); std::vector expectations = { "", // "0", // "0a", // "0aA", // "01aA", // "01abA", // "01abAB", // "012abAB", // "012abcAB", // "012abcABC", // "012 abcABC", // "012 abcABC", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, NoFlex_FlexGrow_NoFlex) { auto root = hbox({ text("012"), text("abc") | flex_grow, text("ABC"), }); std::vector expectations = { "", // "0", // "0a", // "0aA", // "01aA", // "01abA", // "01abAB", // "012abAB", // "012abcAB", // "012abcABC", // "012abc ABC", // "012abc ABC", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, NoFlex_NoFlex_FlexGrow) { auto root = hbox({ text("012"), text("abc"), text("ABC") | flex_grow, }); std::vector expectations = { "", // "0", // "0a", // "0aA", // "01aA", // "01abA", // "01abAB", // "012abAB", // "012abcAB", // "012abcABC", // "012abcABC ", // "012abcABC ", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, FlexGrow_NoFlex_FlexGrow) { auto root = hbox({ text("012") | flex_grow, text("abc"), text("ABC") | flex_grow, }); std::vector expectations = { "", // "0", // "0a", // "0aA", // "01aA", // "01abA", // "01abAB", // "012abAB", // "012abcAB", // "012abcABC", // "012abcABC ", // "012 abcABC ", // "012 abcABC ", // "012 abcABC ", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, FlexGrow_FlexGrow_FlexGrow) { auto root = hbox({ text("012") | flex_grow, text("abc") | flex_grow, text("ABC") | flex_grow, }); std::vector expectations = { "", // "0", // "0a", // "0aA", // "01aA", // "01abA", // "01abAB", // "012abAB", // "012abcAB", // "012abcABC", // "012abcABC ", // "012abc ABC ", // "012 abc ABC ", // "012 abc ABC ", // "012 abc ABC ", // "012 abc ABC ", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } // ------ TEST(HBoxTest, FlexShrink_NoFlex_NoFlex) { auto root = hbox({ text("012") | flex_shrink, text("abc"), text("ABC"), }); std::vector expectations = { "", // "a", // "aA", // "abA", // "abAB", // "abcAB", // "abcABC", // "0abcABC", // "01abcABC", // "012abcABC", // "012abcABC ", // "012abcABC ", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, NoFlex_FlexShrink_NoFlex) { auto root = hbox({ text("012"), text("abc") | flex_shrink, text("ABC"), }); std::vector expectations = { "", // "0", // "0A", // "01A", // "01AB", // "012AB", // "012ABC", // "012aABC", // "012abABC", // "012abcABC", // "012abcABC ", // "012abcABC ", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, NoFlex_NoFlex_FlexShrink) { auto root = hbox({ text("012"), text("abc"), text("ABC") | flex_shrink, }); std::vector expectations = { "", // "0", // "0a", // "01a", // "01ab", // "012ab", // "012abc", // "012abcA", // "012abcAB", // "012abcABC", // "012abcABC ", // "012abcABC ", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, FlexShrink_NoFlex_FlexShrink) { auto root = hbox({ text("012") | flex_shrink, text("abc"), text("ABC") | flex_shrink, }); std::vector expectations = { "", // "a", // "ab", // "abc", // "0abc", // "0abcA", // "01abcA", // "01abcAB", // "012abcAB", // "012abcABC", // "012abcABC ", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, FlexShrink_FlexShrink_FlexShrink) { auto root = hbox({ text("012") | flex_shrink, text("abc") | flex_shrink, text("ABC") | flex_shrink, }); std::vector expectations = { "", // "0", // "0a", // "0aA", // "01aA", // "01abA", // "01abAB", // "012abAB", // "012abcAB", // "012abcABC", // "012abcABC ", // "012abcABC ", // "012abcABC ", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } TEST(HBoxTest, FlexGrow_NoFlex_FlewShrink) { auto root = hbox({ text("012") | flex_grow, text("abc"), text("ABC") | flex_shrink, }); std::vector expectations = { "", // "0", // "0a", // "01a", // "01ab", // "012ab", // "012abc", // "012abcA", // "012abcAB", // "012abcABC", // "012 abcABC", // "012 abcABC", // "012 abcABC", // }; for (size_t i = 0; i < expectations.size(); ++i) { Screen screen(i, 1); Render(screen, root); EXPECT_EQ(expectations[i], screen.ToString()); } } // Copyright 2020 Arthur Sonzogni. All rights reserved. // Use of this source code is governed by the MIT license that can be found in // the LICENSE file.