advtrains.git - Advtrains mod for minetest.

path: root/advtrains_signals_ks/textures/advtrains_signals_ks_ltm_free.png

	Commit message (Expand)	Author	Age
*	Re-add Zs 3(v) indicators; swap green and yellow lights for realism	ywang	2021-05-28
*	Complete Ks Main signals	orwell96	2018-10-26

/* Minetest Copyright (C) 2013 celeron55, Perttu Ahola <celeron55@gmail.com> 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 "collision.h" class TestCollision : public TestBase { public: TestCollision() { TestManager::registerTestModule(this); } const char *getName() { return "TestCollision"; } void runTests(IGameDef *gamedef); void testAxisAlignedCollision(); }; static TestCollision g_test_instance; void TestCollision::runTests(IGameDef *gamedef) { TEST(testAxisAlignedCollision); } //////////////////////////////////////////////////////////////////////////////// void TestCollision::testAxisAlignedCollision() { for (s16 bx = -3; bx <= 3; bx++) for (s16 by = -3; by <= 3; by++) for (s16 bz = -3; bz <= 3; bz++) { // X- { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx-2, by, bz, bx-1, by+1, bz+1); v3f v(1, 0, 0); f32 dtime = 0; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 0); UASSERT(fabs(dtime - 1.000) < 0.001); } { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx-2, by, bz, bx-1, by+1, bz+1); v3f v(-1, 0, 0); f32 dtime = 0; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == -1); } { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx-2, by+1.5, bz, bx-1, by+2.5, bz-1); v3f v(1, 0, 0); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == -1); } { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx-2, by-1.5, bz, bx-1.5, by+0.5, bz+1); v3f v(0.5, 0.1, 0); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 0); UASSERT(fabs(dtime - 3.000) < 0.001); } { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx-2, by-1.5, bz, bx-1.5, by+0.5, bz+1); v3f v(0.5, 0.1, 0); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 0); UASSERT(fabs(dtime - 3.000) < 0.001); } // X+ { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx+2, by, bz, bx+3, by+1, bz+1); v3f v(-1, 0, 0); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 0); UASSERT(fabs(dtime - 1.000) < 0.001); } { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx+2, by, bz, bx+3, by+1, bz+1); v3f v(1, 0, 0); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == -1); } { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx+2, by, bz+1.5, bx+3, by+1, bz+3.5); v3f v(-1, 0, 0); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == -1); } { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx+2, by-1.5, bz, bx+2.5, by-0.5, bz+1); v3f v(-0.5, 0.2, 0); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 1); // Y, not X! UASSERT(fabs(dtime - 2.500) < 0.001); } { aabb3f s(bx, by, bz, bx+1, by+1, bz+1); aabb3f m(bx+2, by-1.5, bz, bx+2.5, by-0.5, bz+1); v3f v(-0.5, 0.3, 0); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 0); UASSERT(fabs(dtime - 2.000) < 0.001); } // TODO: Y-, Y+, Z-, Z+ // misc { aabb3f s(bx, by, bz, bx+2, by+2, bz+2); aabb3f m(bx+2.3, by+2.29, bz+2.29, bx+4.2, by+4.2, bz+4.2); v3f v(-1./3, -1./3, -1./3); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 0); UASSERT(fabs(dtime - 0.9) < 0.001); } { aabb3f s(bx, by, bz, bx+2, by+2, bz+2); aabb3f m(bx+2.29, by+2.3, bz+2.29, bx+4.2, by+4.2, bz+4.2); v3f v(-1./3, -1./3, -1./3); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 1); UASSERT(fabs(dtime - 0.9) < 0.001); } { aabb3f s(bx, by, bz, bx+2, by+2, bz+2); aabb3f m(bx+2.29, by+2.29, bz+2.3, bx+4.2, by+4.2, bz+4.2); v3f v(-1./3, -1./3, -1./3); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 2); UASSERT(fabs(dtime - 0.9) < 0.001); } { aabb3f s(bx, by, bz, bx+2, by+2, bz+2); aabb3f m(bx-4.2, by-4.2, bz-4.2, bx-2.3, by-2.29, bz-2.29); v3f v(1./7, 1./7, 1./7); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 0); UASSERT(fabs(dtime - 16.1) < 0.001); } { aabb3f s(bx, by, bz, bx+2, by+2, bz+2); aabb3f m(bx-4.2, by-4.2, bz-4.2, bx-2.29, by-2.3, bz-2.29); v3f v(1./7, 1./7, 1./7); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 1); UASSERT(fabs(dtime - 16.1) < 0.001); } { aabb3f s(bx, by, bz, bx+2, by+2, bz+2); aabb3f m(bx-4.2, by-4.2, bz-4.2, bx-2.29, by-2.29, bz-2.3); v3f v(1./7, 1./7, 1./7); f32 dtime; UASSERT(axisAlignedCollision(s, m, v, 0, dtime) == 2); UASSERT(fabs(dtime - 16.1) < 0.001); } } }