/* Minetest Copyright (C) 2018 nerzhul, Loic Blot This program is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "test.h" #include "voxel.h" class TestVoxelArea : public TestBase { public: TestVoxelArea() { TestManager::registerTestModule(this); } const char *getName() { return "TestVoxelArea"; } void runTests(IGameDef *gamedef); void test_addarea(); void test_pad(); void test_extent(); void test_volume(); void test_contains_voxelarea(); void test_contains_point(); void test_contains_i(); void test_equal(); void test_plus(); void test_minor(); void test_intersect(); void test_index_xyz_all_pos(); void test_index_xyz_x_neg(); void test_index_xyz_y_neg(); void test_index_xyz_z_neg(); void test_index_xyz_xy_neg(); void test_index_xyz_xz_neg(); void test_index_xyz_yz_neg(); void test_index_xyz_all_neg(); void test_index_v3s16_all_pos(); void test_index_v3s16_x_neg(); void test_index_v3s16_y_neg(); void test_index_v3s16_z_neg(); void test_index_v3s16_xy_neg(); void test_index_v3s16_xz_neg(); void test_index_v3s16_yz_neg(); void test_index_v3s16_all_neg(); void test_add_x(); void test_add_y(); void test_add_z(); void test_add_p(); }; static TestVoxelArea g_test_instance; void TestVoxelArea::runTests(IGameDef *gamedef) { TEST(test_addarea); TEST(test_pad); TEST(test_extent); TEST(test_volume); TEST(test_contains_voxelarea); TEST(test_contains_point); TEST(test_contains_i); TEST(test_equal); TEST(test_plus); TEST(test_minor); TEST(test_intersect); TEST(test_index_xyz_all_pos); TEST(test_index_xyz_x_neg); TEST(test_index_xyz_y_neg); TEST(test_index_xyz_z_neg); TEST(test_index_xyz_xy_neg); TEST(test_index_xyz_xz_neg); TEST(test_index_xyz_yz_neg); TEST(test_index_xyz_all_neg); TEST(test_index_v3s16_all_pos); TEST(test_index_v3s16_x_neg); TEST(test_index_v3s16_y_neg); TEST(test_index_v3s16_z_neg); TEST(test_index_v3s16_xy_neg); TEST(test_index_v3s16_xz_neg); TEST(test_index_v3s16_yz_neg); TEST(test_index_v3s16_all_neg); TEST(test_add_x); TEST(test_add_y); TEST(test_add_z); TEST(test_add_p); } void TestVoxelArea::test_addarea() { VoxelArea v1(v3s16(-1447, 8854, -875), v3s16(-147, -9547, 669)); VoxelArea v2(v3s16(-887, 4445, -5478), v3s16(447, -8779, 4778)); v1.addArea(v2); UASSERT(v1.MinEdge == v3s16(-1447, 4445, -5478)); UASSERT(v1.MaxEdge == v3s16(447, -8779, 4778)); } void TestVoxelArea::test_pad() { VoxelArea v1(v3s16(-1447, 8854, -875), v3s16(-147, -9547, 669)); v1.pad(v3s16(100, 200, 300)); UASSERT(v1.MinEdge == v3s16(-1547, 8654, -1175)); UASSERT(v1.MaxEdge == v3s16(-47, -9347, 969)); } void TestVoxelArea::test_extent() { VoxelArea v1(v3s16(-1337, -547, -789), v3s16(-147, 447, 669)); UASSERT(v1.getExtent() == v3s16(1191, 995, 1459)); VoxelArea v2(v3s16(32493, -32507, 32752), v3s16(32508, -32492, 32767)); UASSERT(v2.getExtent() == v3s16(16, 16, 16)); } void TestVoxelArea::test_volume() { VoxelArea v1(v3s16(-1337, -547, -789), v3s16(-147, 447, 669)); UASSERTEQ(s32, v1.getVolume(), 1728980655); VoxelArea v2(v3s16(32493, -32507, 32752), v3s16(32508, -32492, 32767)); UASSERTEQ(s32, v2.getVolume(), 4096); } void TestVoxelArea::test_contains_voxelarea() { VoxelArea v1(v3s16(-1337, -9547, -789), v3s16(-147, 750, 669)); UASSERTEQ(bool, v1.contains(VoxelArea(v3s16(-200, 10, 10), v3s16(-150, 10, 10))), true); UASSERTEQ(bool, v1.contains(VoxelArea(v3s16(-2550, 10, 10), v3s16(10, 10, 10))), false); UASSERTEQ(bool, v1.contains(VoxelArea(v3s16(-10, 10, 10), v3s16(3500, 10, 10))), false); UASSERTEQ(bool, v1.contains(VoxelArea( v3s16(-800, -400, 669), v3s16(-500, 200, 669))), true); UASSERTEQ(bool, v1.contains(VoxelArea( v3s16(-800, -400, 670), v3s16(-500, 200, 670))), false); } void TestVoxelArea::test_contains_point() { VoxelArea v1(v3s16(-1337, -9547, -789), v3s16(-147, 750, 669)); UASSERTEQ(bool, v1.contains(v3s16(-200, 10, 10)), true); UASSERTEQ(bool, v1.contains(v3s16(-10000, 10, 10)), false); UASSERTEQ(bool, v1.contains(v3s16(-100, 10000, 10)), false); UASSERTEQ(bool, v1.contains(v3s16(-100, 100, 10000)), false); UASSERTEQ(bool, v1.contains(v3s16(-100, 100, -10000)), false); UASSERTEQ(bool, v1.contains(v3s16(10000, 100, 10)), false); } void TestVoxelArea::test_contains_i() { VoxelArea v1(v3s16(-1337, -9547, -789), v3s16(-147, 750, 669)); UASSERTEQ(bool, v1.contains(10), true); UASSERTEQ(bool, v1.contains(v1.getVolume()), false); UASSERTEQ(bool, v1.contains(v1.getVolume() - 1), true); UASSERTEQ(bool, v1.contains(v1.getVolume() + 1), false); UASSERTEQ(bool, v1.contains(-1), false) VoxelArea v2(v3s16(10, 10, 10), v3s16(30, 30, 30)); UASSERTEQ(bool, v2.contains(10), true); UASSERTEQ(bool, v2.contains(0), true); UASSERTEQ(bool, v2.contains(-1), false); } void TestVoxelArea::test_equal() { VoxelArea v1(v3s16(-1337, -9547, -789), v3s16(-147, 750, 669)); UASSERTEQ(bool, v1 == VoxelArea(v3s16(-1337, -9547, -789), v3s16(-147, 750, 669)), true); UASSERTEQ(bool, v1 == VoxelArea(v3s16(0, 0, 0), v3s16(-147, 750, 669)), false); UASSERTEQ(bool, v1 == VoxelArea(v3s16(0, 0, 0), v3s16(-147, 750, 669)), false); UASSERTEQ(bool, v1 == VoxelArea(v3s16(0, 0, 0), v3s16(0, 0, 0)), false); } void TestVoxelArea::test_plus() { VoxelArea v1(v3s16(-10, -10, -10), v3s16(100, 100, 100)); UASSERT(v1 + v3s16(10, 0, 0) == VoxelArea(v3s16(0, -10, -10), v3s16(110, 100, 100))); UASSERT(v1 + v3s16(10, -10, 0) == VoxelArea(v3s16(0, -20, -10), v3s16(110, 90, 100))); UASSERT(v1 + v3s16(0, 0, 35) == VoxelArea(v3s16(-10, -10, 25), v3s16(100, 100, 135))); } void TestVoxelArea::test_minor() { VoxelArea v1(v3s16(-10, -10, -10), v3s16(100, 100, 100)); UASSERT(v1 - v3s16(10, 0, 0) == VoxelArea(v3s16(-20, -10, -10), v3s16(90, 100, 100))); UASSERT(v1 - v3s16(10, -10, 0) == VoxelArea(v3s16(-20, 0, -10), v3s16(90, 110, 100))); UASSERT(v1 - v3s16(0, 0, 35) == VoxelArea(v3s16(-10, -10, -45), v3s16(100, 100, 65))); } void TestVoxelArea::test_intersect() { VoxelArea v1({-10, -10, -10}, {10, 10, 10}); VoxelArea v2({1, 2, 3}, {4, 5, 6}); VoxelArea v3({11, 11, 11}, {11, 11, 11}); VoxelArea v4({-11, -2, -10}, {10, 2, 11}); UASSERT(v2.intersect(v1) == v2); UASSERT(v1.intersect(v2) == v2.intersect(v1)); UASSERT(v1.intersect(v3).hasEmptyExtent()); UASSERT(v3.intersect(v1) == v1.intersect(v3)); UASSERT(v1.intersect(v4) == VoxelArea({-10, -2, -10}, {10, 2, 10})); } void TestVoxelArea::test_index_xyz_all_pos() { VoxelArea v1; UASSERTEQ(s32, v1.index(156, 25, 236), 155); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(156, 25, 236), 1267138774); } void TestVoxelArea::test_index_xyz_x_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(-147, 25, 366), -148); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(-147, 25, 366), -870244825); } void TestVoxelArea::test_index_xyz_y_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(247, -269, 100), 246); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(247, -269, 100), -989760747); } void TestVoxelArea::test_index_xyz_z_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(244, 336, -887), 243); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(244, 336, -887), -191478876); } void TestVoxelArea::test_index_xyz_xy_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(-365, -47, 6978), -366); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(-365, -47, 6978), 1493679101); } void TestVoxelArea::test_index_xyz_yz_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(66, -58, -789), 65); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(66, -58, -789), 1435362734); } void TestVoxelArea::test_index_xyz_xz_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(-36, 589, -992), -37); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(-36, 589, -992), -1934371362); } void TestVoxelArea::test_index_xyz_all_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(-88, -99, -1474), -89); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(-88, -99, -1474), -1343473846); } void TestVoxelArea::test_index_v3s16_all_pos() { VoxelArea v1; UASSERTEQ(s32, v1.index(v3s16(156, 25, 236)), 155); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(v3s16(156, 25, 236)), 1267138774); } void TestVoxelArea::test_index_v3s16_x_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(v3s16(-147, 25, 366)), -148); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(v3s16(-147, 25, 366)), -870244825); } void TestVoxelArea::test_index_v3s16_y_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(v3s16(247, -269, 100)), 246); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(v3s16(247, -269, 100)), -989760747); } void TestVoxelArea::test_index_v3s16_z_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(v3s16(244, 336, -887)), 243); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(v3s16(244, 336, -887)), -191478876); } void TestVoxelArea::test_index_v3s16_xy_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(v3s16(-365, -47, 6978)), -366); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(v3s16(-365, -47, 6978)), 1493679101); } void TestVoxelArea::test_index_v3s16_yz_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(v3s16(66, -58, -789)), 65); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(v3s16(66, -58, -789)), 1435362734); } void TestVoxelArea::test_index_v3s16_xz_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(v3s16(-36, 589, -992)), -37); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(v3s16(-36, 589, -992)), -1934371362); } void TestVoxelArea::test_index_v3s16_all_neg() { VoxelArea v1; UASSERTEQ(s32, v1.index(v3s16(-88, -99, -1474)), -89); VoxelArea v2(v3s16(756, 8854, -875), v3s16(-147, -9547, 669)); UASSERTEQ(s32, v2.index(v3s16(-88, -99, -1474)), -1343473846); } void TestVoxelArea::test_add_x() { v3s16 extent; u32 i = 4; VoxelArea::add_x(extent, i, 8); UASSERTEQ(u32, i, 12) } void TestVoxelArea::test_add_y() { v3s16 extent(740, 16, 87); u32 i = 8; VoxelArea::add_y(extent, i, 88); UASSERTEQ(u32, i, 65128) } void TestVoxelArea::test_add_z() { v3s16 extent(114, 80, 256); u32 i = 4; VoxelArea::add_z(extent, i, 8); UASSERTEQ(u32, i, 72964) } void TestVoxelArea::test_add_p() { v3s16 extent(33, 14, 742); v3s16 a(15, 12, 369); u32 i = 4; VoxelArea::add_p(extent, i, a); UASSERTEQ(u32, i, 170893) }