554c776e08
The order of numbers is not changed except for Transform2D. All logic is done inside of their structures (and not in Variant). For the number of decimals printed, they now use String::num_real which works best with real_t, except for Color which is fixed at 4 decimals (this is a reliable number of float digits when converting from 16-bpc so it seems like a good choice)
467 lines
20 KiB
C++
467 lines
20 KiB
C++
/*************************************************************************/
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/* test_rect2.h */
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/*************************************************************************/
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/* This file is part of: */
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/* GODOT ENGINE */
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/* https://godotengine.org */
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/*************************************************************************/
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/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
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/* Copyright (c) 2014-2021 Godot Engine contributors (cf. AUTHORS.md). */
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/* */
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/* Permission is hereby granted, free of charge, to any person obtaining */
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/* a copy of this software and associated documentation files (the */
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/* "Software"), to deal in the Software without restriction, including */
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/* without limitation the rights to use, copy, modify, merge, publish, */
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/* distribute, sublicense, and/or sell copies of the Software, and to */
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/* permit persons to whom the Software is furnished to do so, subject to */
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/* the following conditions: */
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/* */
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/* The above copyright notice and this permission notice shall be */
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/* included in all copies or substantial portions of the Software. */
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/* */
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/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
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/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
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/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
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/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
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/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
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/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
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/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
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/*************************************************************************/
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#ifndef TEST_RECT2_H
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#define TEST_RECT2_H
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#include "core/math/rect2.h"
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#include "thirdparty/doctest/doctest.h"
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namespace TestRect2 {
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// We also test Rect2i here, for consistency with the source code where Rect2
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// and Rect2i are defined in the same file.
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// Rect2
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TEST_CASE("[Rect2] Constructor methods") {
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const Rect2 rect = Rect2(0, 100, 1280, 720);
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const Rect2 rect_vector = Rect2(Vector2(0, 100), Vector2(1280, 720));
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const Rect2 rect_copy_rect = Rect2(rect);
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const Rect2 rect_copy_recti = Rect2(Rect2i(0, 100, 1280, 720));
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CHECK_MESSAGE(
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rect == rect_vector,
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"Rect2s created with the same dimensions but by different methods should be equal.");
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CHECK_MESSAGE(
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rect == rect_copy_rect,
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"Rect2s created with the same dimensions but by different methods should be equal.");
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CHECK_MESSAGE(
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rect == rect_copy_recti,
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"Rect2s created with the same dimensions but by different methods should be equal.");
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}
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TEST_CASE("[Rect2] String conversion") {
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// Note: This also depends on the Vector2 string representation.
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CHECK_MESSAGE(
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String(Rect2(0, 100, 1280, 720)) == "[P: (0, 100), S: (1280, 720)]",
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"The string representation should match the expected value.");
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}
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TEST_CASE("[Rect2] Basic getters") {
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const Rect2 rect = Rect2(0, 100, 1280, 720);
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CHECK_MESSAGE(
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rect.get_position().is_equal_approx(Vector2(0, 100)),
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"get_position() should return the expected value.");
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CHECK_MESSAGE(
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rect.get_size().is_equal_approx(Vector2(1280, 720)),
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"get_size() should return the expected value.");
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CHECK_MESSAGE(
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rect.get_end().is_equal_approx(Vector2(1280, 820)),
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"get_end() should return the expected value.");
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}
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TEST_CASE("[Rect2] Basic setters") {
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Rect2 rect = Rect2(0, 100, 1280, 720);
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rect.set_end(Vector2(4000, 4000));
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CHECK_MESSAGE(
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rect.is_equal_approx(Rect2(0, 100, 4000, 3900)),
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"set_end() should result in the expected Rect2.");
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rect = Rect2(0, 100, 1280, 720);
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rect.set_position(Vector2(4000, 4000));
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CHECK_MESSAGE(
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rect.is_equal_approx(Rect2(4000, 4000, 1280, 720)),
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"set_position() should result in the expected Rect2.");
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rect = Rect2(0, 100, 1280, 720);
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rect.set_size(Vector2(4000, 4000));
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CHECK_MESSAGE(
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rect.is_equal_approx(Rect2(0, 100, 4000, 4000)),
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"set_size() should result in the expected Rect2.");
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}
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TEST_CASE("[Rect2] Area getters") {
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CHECK_MESSAGE(
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Math::is_equal_approx(Rect2(0, 100, 1280, 720).get_area(), 921'600),
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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Math::is_equal_approx(Rect2(0, 100, -1280, -720).get_area(), 921'600),
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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Math::is_equal_approx(Rect2(0, 100, 1280, -720).get_area(), -921'600),
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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Math::is_equal_approx(Rect2(0, 100, -1280, 720).get_area(), -921'600),
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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Math::is_zero_approx(Rect2(0, 100, 0, 720).get_area()),
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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!Rect2(0, 100, 1280, 720).has_no_area(),
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"has_no_area() should return the expected value on Rect2 with an area.");
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CHECK_MESSAGE(
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Rect2(0, 100, 0, 500).has_no_area(),
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"has_no_area() should return the expected value on Rect2 with no area.");
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CHECK_MESSAGE(
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Rect2(0, 100, 500, 0).has_no_area(),
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"has_no_area() should return the expected value on Rect2 with no area.");
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CHECK_MESSAGE(
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Rect2(0, 100, 0, 0).has_no_area(),
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"has_no_area() should return the expected value on Rect2 with no area.");
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}
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TEST_CASE("[Rect2] Absolute coordinates") {
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).abs().is_equal_approx(Rect2(0, 100, 1280, 720)),
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"abs() should return the expected Rect2.");
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CHECK_MESSAGE(
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Rect2(0, -100, 1280, 720).abs().is_equal_approx(Rect2(0, -100, 1280, 720)),
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"abs() should return the expected Rect2.");
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CHECK_MESSAGE(
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Rect2(0, -100, -1280, -720).abs().is_equal_approx(Rect2(-1280, -820, 1280, 720)),
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"abs() should return the expected Rect2.");
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CHECK_MESSAGE(
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Rect2(0, 100, -1280, 720).abs().is_equal_approx(Rect2(-1280, 100, 1280, 720)),
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"abs() should return the expected Rect2.");
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}
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TEST_CASE("[Rect2] Intersection") {
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).intersection(Rect2(0, 300, 100, 100)).is_equal_approx(Rect2(0, 300, 100, 100)),
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"intersection() with fully enclosed Rect2 should return the expected result.");
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// The resulting Rect2 is 100 pixels high because the first Rect2 is vertically offset by 100 pixels.
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).intersection(Rect2(1200, 700, 100, 100)).is_equal_approx(Rect2(1200, 700, 80, 100)),
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"intersection() with partially enclosed Rect2 should return the expected result.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).intersection(Rect2(-4000, -4000, 100, 100)).is_equal_approx(Rect2()),
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"intersection() with non-enclosed Rect2 should return the expected result.");
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}
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TEST_CASE("[Rect2] Enclosing") {
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).encloses(Rect2(0, 300, 100, 100)),
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"encloses() with fully contained Rect2 should return the expected result.");
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CHECK_MESSAGE(
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!Rect2(0, 100, 1280, 720).encloses(Rect2(1200, 700, 100, 100)),
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"encloses() with partially contained Rect2 should return the expected result.");
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CHECK_MESSAGE(
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!Rect2(0, 100, 1280, 720).encloses(Rect2(-4000, -4000, 100, 100)),
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"encloses() with non-contained Rect2 should return the expected result.");
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}
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TEST_CASE("[Rect2] Expanding") {
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).expand(Vector2(500, 600)).is_equal_approx(Rect2(0, 100, 1280, 720)),
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"expand() with contained Vector2 should return the expected result.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).expand(Vector2(0, 0)).is_equal_approx(Rect2(0, 0, 1280, 820)),
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"expand() with non-contained Vector2 should return the expected result.");
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}
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TEST_CASE("[Rect2] Growing") {
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).grow(100).is_equal_approx(Rect2(-100, 0, 1480, 920)),
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"grow() with positive value should return the expected Rect2.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).grow(-100).is_equal_approx(Rect2(100, 200, 1080, 520)),
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"grow() with negative value should return the expected Rect2.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).grow(-4000).is_equal_approx(Rect2(4000, 4100, -6720, -7280)),
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"grow() with large negative value should return the expected Rect2.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).grow_individual(100, 200, 300, 400).is_equal_approx(Rect2(-100, -100, 1680, 1320)),
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"grow_individual() with positive values should return the expected Rect2.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).grow_individual(-100, 200, 300, -400).is_equal_approx(Rect2(100, -100, 1480, 520)),
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"grow_individual() with positive and negative values should return the expected Rect2.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).grow_side(SIDE_TOP, 500).is_equal_approx(Rect2(0, -400, 1280, 1220)),
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"grow_side() with positive value should return the expected Rect2.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).grow_side(SIDE_TOP, -500).is_equal_approx(Rect2(0, 600, 1280, 220)),
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"grow_side() with negative value should return the expected Rect2.");
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}
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TEST_CASE("[Rect2] Has point") {
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).has_point(Vector2(500, 600)),
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"has_point() with contained Vector2 should return the expected result.");
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CHECK_MESSAGE(
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!Rect2(0, 100, 1280, 720).has_point(Vector2(0, 0)),
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"has_point() with non-contained Vector2 should return the expected result.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).has_point(Vector2(0, 110)),
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"has_point() with positive Vector2 on left edge should return the expected result.");
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CHECK_MESSAGE(
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!Rect2(0, 100, 1280, 720).has_point(Vector2(1280, 110)),
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"has_point() with positive Vector2 on right edge should return the expected result.");
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CHECK_MESSAGE(
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Rect2(-4000, 100, 1280, 720).has_point(Vector2(-4000, 110)),
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"has_point() with negative Vector2 on left edge should return the expected result.");
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CHECK_MESSAGE(
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!Rect2(-4000, 100, 1280, 720).has_point(Vector2(-2720, 110)),
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"has_point() with negative Vector2 on right edge should return the expected result.");
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}
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TEST_CASE("[Rect2] Intersection") {
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).intersects(Rect2(0, 300, 100, 100)),
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"intersects() with fully enclosed Rect2 should return the expected result.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).intersects(Rect2(1200, 700, 100, 100)),
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"intersects() with partially enclosed Rect2 should return the expected result.");
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CHECK_MESSAGE(
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!Rect2(0, 100, 1280, 720).intersects(Rect2(-4000, -4000, 100, 100)),
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"intersects() with non-enclosed Rect2 should return the expected result.");
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}
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TEST_CASE("[Rect2] Merging") {
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).merge(Rect2(0, 300, 100, 100)).is_equal_approx(Rect2(0, 100, 1280, 720)),
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"merge() with fully enclosed Rect2 should return the expected result.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).merge(Rect2(1200, 700, 100, 100)).is_equal_approx(Rect2(0, 100, 1300, 720)),
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"merge() with partially enclosed Rect2 should return the expected result.");
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CHECK_MESSAGE(
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Rect2(0, 100, 1280, 720).merge(Rect2(-4000, -4000, 100, 100)).is_equal_approx(Rect2(-4000, -4000, 5280, 4820)),
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"merge() with non-enclosed Rect2 should return the expected result.");
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}
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// Rect2i
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TEST_CASE("[Rect2i] Constructor methods") {
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Rect2i recti = Rect2i(0, 100, 1280, 720);
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Rect2i recti_vector = Rect2i(Vector2i(0, 100), Vector2i(1280, 720));
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Rect2i recti_copy_recti = Rect2i(recti);
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Rect2i recti_copy_rect = Rect2i(Rect2(0, 100, 1280, 720));
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CHECK_MESSAGE(
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recti == recti_vector,
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"Rect2is created with the same dimensions but by different methods should be equal.");
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CHECK_MESSAGE(
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recti == recti_copy_recti,
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"Rect2is created with the same dimensions but by different methods should be equal.");
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CHECK_MESSAGE(
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recti == recti_copy_rect,
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"Rect2is created with the same dimensions but by different methods should be equal.");
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}
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TEST_CASE("[Rect2i] String conversion") {
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// Note: This also depends on the Vector2 string representation.
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CHECK_MESSAGE(
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String(Rect2i(0, 100, 1280, 720)) == "[P: (0, 100), S: (1280, 720)]",
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"The string representation should match the expected value.");
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}
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TEST_CASE("[Rect2i] Basic getters") {
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const Rect2i rect = Rect2i(0, 100, 1280, 720);
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CHECK_MESSAGE(
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rect.get_position() == Vector2i(0, 100),
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"get_position() should return the expected value.");
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CHECK_MESSAGE(
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rect.get_size() == Vector2i(1280, 720),
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"get_size() should return the expected value.");
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CHECK_MESSAGE(
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rect.get_end() == Vector2i(1280, 820),
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"get_end() should return the expected value.");
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}
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TEST_CASE("[Rect2i] Basic setters") {
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Rect2i rect = Rect2i(0, 100, 1280, 720);
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rect.set_end(Vector2i(4000, 4000));
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CHECK_MESSAGE(
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rect == Rect2i(0, 100, 4000, 3900),
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"set_end() should result in the expected Rect2i.");
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rect = Rect2i(0, 100, 1280, 720);
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rect.set_position(Vector2i(4000, 4000));
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CHECK_MESSAGE(
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rect == Rect2i(4000, 4000, 1280, 720),
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"set_position() should result in the expected Rect2i.");
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rect = Rect2i(0, 100, 1280, 720);
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rect.set_size(Vector2i(4000, 4000));
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CHECK_MESSAGE(
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rect == Rect2i(0, 100, 4000, 4000),
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"set_size() should result in the expected Rect2i.");
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}
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TEST_CASE("[Rect2i] Area getters") {
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).get_area() == 921'600,
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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Rect2i(0, 100, -1280, -720).get_area() == 921'600,
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, -720).get_area() == -921'600,
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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Rect2i(0, 100, -1280, 720).get_area() == -921'600,
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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Rect2i(0, 100, 0, 720).get_area() == 0,
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"get_area() should return the expected value.");
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CHECK_MESSAGE(
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!Rect2i(0, 100, 1280, 720).has_no_area(),
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"has_no_area() should return the expected value on Rect2i with an area.");
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CHECK_MESSAGE(
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Rect2i(0, 100, 0, 500).has_no_area(),
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"has_no_area() should return the expected value on Rect2i with no area.");
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CHECK_MESSAGE(
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Rect2i(0, 100, 500, 0).has_no_area(),
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"has_no_area() should return the expected value on Rect2i with no area.");
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CHECK_MESSAGE(
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Rect2i(0, 100, 0, 0).has_no_area(),
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"has_no_area() should return the expected value on Rect2i with no area.");
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}
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TEST_CASE("[Rect2i] Absolute coordinates") {
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).abs() == Rect2i(0, 100, 1280, 720),
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"abs() should return the expected Rect2i.");
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CHECK_MESSAGE(
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Rect2i(0, -100, 1280, 720).abs() == Rect2i(0, -100, 1280, 720),
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"abs() should return the expected Rect2i.");
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CHECK_MESSAGE(
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Rect2i(0, -100, -1280, -720).abs() == Rect2i(-1280, -820, 1280, 720),
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"abs() should return the expected Rect2i.");
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CHECK_MESSAGE(
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Rect2i(0, 100, -1280, 720).abs() == Rect2i(-1280, 100, 1280, 720),
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"abs() should return the expected Rect2i.");
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}
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TEST_CASE("[Rect2i] Intersection") {
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).intersection(Rect2i(0, 300, 100, 100)) == Rect2i(0, 300, 100, 100),
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"intersection() with fully enclosed Rect2i should return the expected result.");
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// The resulting Rect2i is 100 pixels high because the first Rect2i is vertically offset by 100 pixels.
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).intersection(Rect2i(1200, 700, 100, 100)) == Rect2i(1200, 700, 80, 100),
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"intersection() with partially enclosed Rect2i should return the expected result.");
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).intersection(Rect2i(-4000, -4000, 100, 100)) == Rect2i(),
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"intersection() with non-enclosed Rect2i should return the expected result.");
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}
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TEST_CASE("[Rect2i] Enclosing") {
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).encloses(Rect2i(0, 300, 100, 100)),
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"encloses() with fully contained Rect2i should return the expected result.");
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CHECK_MESSAGE(
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!Rect2i(0, 100, 1280, 720).encloses(Rect2i(1200, 700, 100, 100)),
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"encloses() with partially contained Rect2i should return the expected result.");
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CHECK_MESSAGE(
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!Rect2i(0, 100, 1280, 720).encloses(Rect2i(-4000, -4000, 100, 100)),
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"encloses() with non-contained Rect2i should return the expected result.");
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}
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TEST_CASE("[Rect2i] Expanding") {
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).expand(Vector2i(500, 600)) == Rect2i(0, 100, 1280, 720),
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"expand() with contained Vector2i should return the expected result.");
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).expand(Vector2i(0, 0)) == Rect2i(0, 0, 1280, 820),
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"expand() with non-contained Vector2i should return the expected result.");
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}
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TEST_CASE("[Rect2i] Growing") {
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).grow(100) == Rect2i(-100, 0, 1480, 920),
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"grow() with positive value should return the expected Rect2i.");
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CHECK_MESSAGE(
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Rect2i(0, 100, 1280, 720).grow(-100) == Rect2i(100, 200, 1080, 520),
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"grow() with negative value should return the expected Rect2i.");
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).grow(-4000) == Rect2i(4000, 4100, -6720, -7280),
|
|
"grow() with large negative value should return the expected Rect2i.");
|
|
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).grow_individual(100, 200, 300, 400) == Rect2i(-100, -100, 1680, 1320),
|
|
"grow_individual() with positive values should return the expected Rect2i.");
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).grow_individual(-100, 200, 300, -400) == Rect2i(100, -100, 1480, 520),
|
|
"grow_individual() with positive and negative values should return the expected Rect2i.");
|
|
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).grow_side(SIDE_TOP, 500) == Rect2i(0, -400, 1280, 1220),
|
|
"grow_side() with positive value should return the expected Rect2i.");
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).grow_side(SIDE_TOP, -500) == Rect2i(0, 600, 1280, 220),
|
|
"grow_side() with negative value should return the expected Rect2i.");
|
|
}
|
|
|
|
TEST_CASE("[Rect2i] Has point") {
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).has_point(Vector2i(500, 600)),
|
|
"has_point() with contained Vector2i should return the expected result.");
|
|
CHECK_MESSAGE(
|
|
!Rect2i(0, 100, 1280, 720).has_point(Vector2i(0, 0)),
|
|
"has_point() with non-contained Vector2i should return the expected result.");
|
|
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).has_point(Vector2(0, 110)),
|
|
"has_point() with positive Vector2 on left edge should return the expected result.");
|
|
CHECK_MESSAGE(
|
|
!Rect2i(0, 100, 1280, 720).has_point(Vector2(1280, 110)),
|
|
"has_point() with positive Vector2 on right edge should return the expected result.");
|
|
|
|
CHECK_MESSAGE(
|
|
Rect2i(-4000, 100, 1280, 720).has_point(Vector2(-4000, 110)),
|
|
"has_point() with negative Vector2 on left edge should return the expected result.");
|
|
CHECK_MESSAGE(
|
|
!Rect2i(-4000, 100, 1280, 720).has_point(Vector2(-2720, 110)),
|
|
"has_point() with negative Vector2 on right edge should return the expected result.");
|
|
}
|
|
|
|
TEST_CASE("[Rect2i] Intersection") {
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).intersects(Rect2i(0, 300, 100, 100)),
|
|
"intersects() with fully enclosed Rect2i should return the expected result.");
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).intersects(Rect2i(1200, 700, 100, 100)),
|
|
"intersects() with partially enclosed Rect2i should return the expected result.");
|
|
CHECK_MESSAGE(
|
|
!Rect2i(0, 100, 1280, 720).intersects(Rect2i(-4000, -4000, 100, 100)),
|
|
"intersects() with non-enclosed Rect2i should return the expected result.");
|
|
}
|
|
|
|
TEST_CASE("[Rect2i] Merging") {
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).merge(Rect2i(0, 300, 100, 100)) == Rect2i(0, 100, 1280, 720),
|
|
"merge() with fully enclosed Rect2i should return the expected result.");
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).merge(Rect2i(1200, 700, 100, 100)) == Rect2i(0, 100, 1300, 720),
|
|
"merge() with partially enclosed Rect2i should return the expected result.");
|
|
CHECK_MESSAGE(
|
|
Rect2i(0, 100, 1280, 720).merge(Rect2i(-4000, -4000, 100, 100)) == Rect2i(-4000, -4000, 5280, 4820),
|
|
"merge() with non-enclosed Rect2i should return the expected result.");
|
|
}
|
|
} // namespace TestRect2
|
|
|
|
#endif // TEST_RECT2_H
|