/** * @file m3math_test.cpp * @author Adroit * @date 2007-03 * @brief Test cases of m3math.h * * $LicenseInfo:firstyear=2007&license=viewergpl$ * * Copyright (c) 2007-2009, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at * http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include "linden_common.h" #include "../m3math.h" #include "../v3math.h" #include "../v4math.h" #include "../m4math.h" #include "../llquaternion.h" #include "../v3dmath.h" #include "../test/lltut.h" namespace tut { struct m3math_test { }; typedef test_group m3math_test_t; typedef m3math_test_t::object m3math_test_object_t; tut::m3math_test_t tut_m3math_test("m3math_test"); //test case for setIdentity() fn. template<> template<> void m3math_test_object_t::test<1>() { LLMatrix3 llmat3_obj; llmat3_obj.setIdentity(); ensure("LLMatrix3::setIdentity failed", 1.f == llmat3_obj.mMatrix[0][0] && 0.f == llmat3_obj.mMatrix[0][1] && 0.f == llmat3_obj.mMatrix[0][2] && 0.f == llmat3_obj.mMatrix[1][0] && 1.f == llmat3_obj.mMatrix[1][1] && 0.f == llmat3_obj.mMatrix[1][2] && 0.f == llmat3_obj.mMatrix[2][0] && 0.f == llmat3_obj.mMatrix[2][1] && 1.f == llmat3_obj.mMatrix[2][2]); } //test case for LLMatrix3& setZero() fn. template<> template<> void m3math_test_object_t::test<2>() { LLMatrix3 llmat3_obj(30, 1, 2, 3); llmat3_obj.setZero(); ensure("LLMatrix3::setZero failed", 0.f == llmat3_obj.setZero().mMatrix[0][0] && 0.f == llmat3_obj.setZero().mMatrix[0][1] && 0.f == llmat3_obj.setZero().mMatrix[0][2] && 0.f == llmat3_obj.setZero().mMatrix[1][0] && 0.f == llmat3_obj.setZero().mMatrix[1][1] && 0.f == llmat3_obj.setZero().mMatrix[1][2] && 0.f == llmat3_obj.setZero().mMatrix[2][0] && 0.f == llmat3_obj.setZero().mMatrix[2][1] && 0.f == llmat3_obj.setZero().mMatrix[2][2]); } //test case for setRows(const LLVector3 &x_axis, const LLVector3 &y_axis, const LLVector3 &z_axis) fns. template<> template<> void m3math_test_object_t::test<3>() { LLMatrix3 llmat3_obj; LLVector3 vect1(2, 1, 4); LLVector3 vect2(3, 5, 7); LLVector3 vect3(6, 9, 7); llmat3_obj.setRows(vect1, vect2, vect3); ensure("LLVector3::setRows failed ", 2 == llmat3_obj.mMatrix[0][0] && 1 == llmat3_obj.mMatrix[0][1] && 4 == llmat3_obj.mMatrix[0][2] && 3 == llmat3_obj.mMatrix[1][0] && 5 == llmat3_obj.mMatrix[1][1] && 7 == llmat3_obj.mMatrix[1][2] && 6 == llmat3_obj.mMatrix[2][0] && 9 == llmat3_obj.mMatrix[2][1] && 7 == llmat3_obj.mMatrix[2][2]); } //test case for getFwdRow(), getLeftRow(), getUpRow() fns. template<> template<> void m3math_test_object_t::test<4>() { LLMatrix3 llmat3_obj; LLVector3 vect1(2, 1, 4); LLVector3 vect2(3, 5, 7); LLVector3 vect3(6, 9, 7); llmat3_obj.setRows(vect1, vect2, vect3); ensure("LLVector3::getFwdRow failed ", vect1 == llmat3_obj.getFwdRow()); ensure("LLVector3::getLeftRow failed ", vect2 == llmat3_obj.getLeftRow()); ensure("LLVector3::getUpRow failed ", vect3 == llmat3_obj.getUpRow()); } //test case for operator*(const LLMatrix3 &a, const LLMatrix3 &b) template<> template<> void m3math_test_object_t::test<5>() { LLMatrix3 llmat_obj1; LLMatrix3 llmat_obj2; LLMatrix3 llmat_obj3; LLVector3 llvec1(1, 3, 5); LLVector3 llvec2(3, 6, 1); LLVector3 llvec3(4, 6, 9); LLVector3 llvec4(1, 1, 5); LLVector3 llvec5(3, 6, 8); LLVector3 llvec6(8, 6, 2); LLVector3 llvec7(0, 0, 0); LLVector3 llvec8(0, 0, 0); LLVector3 llvec9(0, 0, 0); llmat_obj1.setRows(llvec1, llvec2, llvec3); llmat_obj2.setRows(llvec4, llvec5, llvec6); llmat_obj3.setRows(llvec7, llvec8, llvec9); llmat_obj3 = llmat_obj1 * llmat_obj2; ensure("LLMatrix3::operator*(const LLMatrix3 &a, const LLMatrix3 &b) failed", 50 == llmat_obj3.mMatrix[0][0] && 49 == llmat_obj3.mMatrix[0][1] && 39 == llmat_obj3.mMatrix[0][2] && 29 == llmat_obj3.mMatrix[1][0] && 45 == llmat_obj3.mMatrix[1][1] && 65 == llmat_obj3.mMatrix[1][2] && 94 == llmat_obj3.mMatrix[2][0] && 94 == llmat_obj3.mMatrix[2][1] && 86 == llmat_obj3.mMatrix[2][2]); } //test case for operator*(const LLVector3 &a, const LLMatrix3 &b) template<> template<> void m3math_test_object_t::test<6>() { LLMatrix3 llmat_obj1; LLVector3 llvec(1, 3, 5); LLVector3 res_vec(0, 0, 0); LLVector3 llvec1(1, 3, 5); LLVector3 llvec2(3, 6, 1); LLVector3 llvec3(4, 6, 9); llmat_obj1.setRows(llvec1, llvec2, llvec3); res_vec = llvec * llmat_obj1; LLVector3 expected_result(30, 51, 53); ensure("LLMatrix3::operator*(const LLVector3 &a, const LLMatrix3 &b) failed", res_vec == expected_result); } //test case for operator*(const LLVector3d &a, const LLMatrix3 &b) template<> template<> void m3math_test_object_t::test<7>() { LLMatrix3 llmat_obj1; LLVector3d llvec3d1; LLVector3d llvec3d2(0, 3, 4); LLVector3 llvec1(1, 3, 5); LLVector3 llvec2(3, 2, 1); LLVector3 llvec3(4, 6, 0); llmat_obj1.setRows(llvec1, llvec2, llvec3); llvec3d1 = llvec3d2 * llmat_obj1; LLVector3d expected_result(25, 30, 3); ensure("LLMatrix3::operator*(const LLVector3 &a, const LLMatrix3 &b) failed", llvec3d1 == expected_result); } // test case for operator==(const LLMatrix3 &a, const LLMatrix3 &b) template<> template<> void m3math_test_object_t::test<8>() { LLMatrix3 llmat_obj1; LLMatrix3 llmat_obj2; LLVector3 llvec1(1, 3, 5); LLVector3 llvec2(3, 6, 1); LLVector3 llvec3(4, 6, 9); llmat_obj1.setRows(llvec1, llvec2, llvec3); llmat_obj2.setRows(llvec1, llvec2, llvec3); ensure("LLMatrix3::operator==(const LLMatrix3 &a, const LLMatrix3 &b) failed", llmat_obj1 == llmat_obj2); llmat_obj2.setRows(llvec2, llvec2, llvec3); ensure("LLMatrix3::operator!=(const LLMatrix3 &a, const LLMatrix3 &b) failed", llmat_obj1 != llmat_obj2); } //test case for quaternion() fn. template<> template<> void m3math_test_object_t::test<9>() { LLMatrix3 llmat_obj1; LLQuaternion llmat_quat; LLVector3 llmat1(2.0f, 1.0f, 6.0f); LLVector3 llmat2(1.0f, 1.0f, 3.0f); LLVector3 llmat3(1.0f, 7.0f, 5.0f); llmat_obj1.setRows(llmat1, llmat2, llmat3); llmat_quat = llmat_obj1.quaternion(); ensure("LLMatrix3::quaternion failed ", is_approx_equal(-0.66666669f, llmat_quat.mQ[0]) && is_approx_equal(-0.83333337f, llmat_quat.mQ[1]) && is_approx_equal(0.0f, llmat_quat.mQ[2]) && is_approx_equal(1.5f, llmat_quat.mQ[3])); } //test case for transpose() fn. template<> template<> void m3math_test_object_t::test<10>() { LLMatrix3 llmat_obj; LLVector3 llvec1(1, 2, 3); LLVector3 llvec2(3, 2, 1); LLVector3 llvec3(2, 2, 2); llmat_obj.setRows(llvec1, llvec2, llvec3); llmat_obj.transpose(); LLVector3 resllvec1(1, 3, 2); LLVector3 resllvec2(2, 2, 2); LLVector3 resllvec3(3, 1, 2); LLMatrix3 expectedllmat_obj; expectedllmat_obj.setRows(resllvec1, resllvec2, resllvec3); ensure("LLMatrix3::transpose failed ", llmat_obj == expectedllmat_obj); } //test case for determinant() fn. template<> template<> void m3math_test_object_t::test<11>() { LLMatrix3 llmat_obj1; LLVector3 llvec1(1, 2, 3); LLVector3 llvec2(3, 2, 1); LLVector3 llvec3(2, 2, 2); llmat_obj1.setRows(llvec1, llvec2, llvec3); ensure("LLMatrix3::determinant failed ", 0.0f == llmat_obj1.determinant()); } //test case for orthogonalize() fn. template<> template<> void m3math_test_object_t::test<12>() { LLMatrix3 llmat_obj; LLVector3 llvec1(1, 4, 3); LLVector3 llvec2(1, 2, 0); LLVector3 llvec3(2, 4, 2); llmat_obj.setRows(llvec1, llvec2, llvec3); llmat_obj.orthogonalize(); ensure("LLMatrix3::orthogonalize failed ", is_approx_equal(0.19611613f, llmat_obj.mMatrix[0][0]) && is_approx_equal(0.78446454f, llmat_obj.mMatrix[0][1]) && is_approx_equal(0.58834839f, llmat_obj.mMatrix[0][2]) && is_approx_equal(0.47628206f, llmat_obj.mMatrix[1][0]) && is_approx_equal(0.44826555f, llmat_obj.mMatrix[1][1]) && is_approx_equal(-0.75644791f, llmat_obj.mMatrix[1][2]) && is_approx_equal(-0.85714287f, llmat_obj.mMatrix[2][0]) && is_approx_equal(0.42857143f, llmat_obj.mMatrix[2][1]) && is_approx_equal(-0.28571427f, llmat_obj.mMatrix[2][2])); } //test case for adjointTranspose() fn. template<> template<> void m3math_test_object_t::test<13>() { LLMatrix3 llmat_obj; LLVector3 llvec1(3, 2, 1); LLVector3 llvec2(6, 2, 1); LLVector3 llvec3(3, 6, 8); llmat_obj.setRows(llvec1, llvec2, llvec3); llmat_obj.adjointTranspose(); ensure("LLMatrix3::adjointTranspose failed ", 10 == llmat_obj.mMatrix[0][0] && -45 == llmat_obj.mMatrix[1][0] && 30 == llmat_obj.mMatrix[2][0] && -10 == llmat_obj.mMatrix[0][1] && 21 == llmat_obj.mMatrix[1][1] && -12 == llmat_obj.mMatrix[2][1] && 0 == llmat_obj.mMatrix[0][2] && 3 == llmat_obj.mMatrix[1][2] && -6 == llmat_obj.mMatrix[2][2]); } /* TBD: Need to add test cases for getEulerAngles() and setRot() functions */ }