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Merge pull request #1064 from SergeyKrivohatskiy/fix-axisAngle-for-small-angles
Fix axis angle implementation for near zero angles and near PI angles #1064
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820607ad2b
@ -1,26 +1,37 @@
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/// @ref gtx_matrix_interpolation
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#include "../gtc/constants.hpp"
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#include "../ext/scalar_constants.hpp"
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#include <limits>
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namespace glm
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{
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template<typename T, qualifier Q>
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GLM_FUNC_QUALIFIER void axisAngle(mat<4, 4, T, Q> const& m, vec<3, T, Q> & axis, T& angle)
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GLM_FUNC_QUALIFIER void axisAngle(mat<4, 4, T, Q> const& m, vec<3, T, Q>& axis, T& angle)
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{
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T epsilon = static_cast<T>(0.01);
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T epsilon2 = static_cast<T>(0.1);
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T const epsilon =
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std::numeric_limits<T>::epsilon() * static_cast<T>(1e2);
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if((abs(m[1][0] - m[0][1]) < epsilon) && (abs(m[2][0] - m[0][2]) < epsilon) && (abs(m[2][1] - m[1][2]) < epsilon))
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bool const nearSymmetrical =
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abs(m[1][0] - m[0][1]) < epsilon &&
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abs(m[2][0] - m[0][2]) < epsilon &&
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abs(m[2][1] - m[1][2]) < epsilon;
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if(nearSymmetrical)
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{
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if ((abs(m[1][0] + m[0][1]) < epsilon2) && (abs(m[2][0] + m[0][2]) < epsilon2) && (abs(m[2][1] + m[1][2]) < epsilon2) && (abs(m[0][0] + m[1][1] + m[2][2] - static_cast<T>(3.0)) < epsilon2))
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bool const nearIdentity =
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abs(m[1][0] + m[0][1]) < epsilon &&
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abs(m[2][0] + m[0][2]) < epsilon &&
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abs(m[2][1] + m[1][2]) < epsilon &&
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abs(m[0][0] + m[1][1] + m[2][2] - T(3.0)) < epsilon;
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if (nearIdentity)
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{
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angle = static_cast<T>(0.0);
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axis.x = static_cast<T>(1.0);
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axis.y = static_cast<T>(0.0);
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axis.z = static_cast<T>(0.0);
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axis = vec<3, T, Q>(
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static_cast<T>(1.0), static_cast<T>(0.0), static_cast<T>(0.0));
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return;
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}
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angle = static_cast<T>(3.1415926535897932384626433832795);
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angle = pi<T>();
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T xx = (m[0][0] + static_cast<T>(1.0)) * static_cast<T>(0.5);
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T yy = (m[1][1] + static_cast<T>(1.0)) * static_cast<T>(0.5);
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T zz = (m[2][2] + static_cast<T>(1.0)) * static_cast<T>(0.5);
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@ -74,9 +85,7 @@ namespace glm
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}
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return;
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}
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T s = sqrt((m[2][1] - m[1][2]) * (m[2][1] - m[1][2]) + (m[2][0] - m[0][2]) * (m[2][0] - m[0][2]) + (m[1][0] - m[0][1]) * (m[1][0] - m[0][1]));
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if (glm::abs(s) < T(0.001))
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s = static_cast<T>(1);
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T const angleCos = (m[0][0] + m[1][1] + m[2][2] - static_cast<T>(1)) * static_cast<T>(0.5);
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if(angleCos >= static_cast<T>(1.0))
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{
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@ -90,9 +99,9 @@ namespace glm
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{
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angle = acos(angleCos);
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}
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axis.x = (m[1][2] - m[2][1]) / s;
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axis.y = (m[2][0] - m[0][2]) / s;
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axis.z = (m[0][1] - m[1][0]) / s;
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axis = glm::normalize(glm::vec<3, T, Q>(
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m[1][2] - m[2][1], m[2][0] - m[0][2], m[0][1] - m[1][0]));
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}
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template<typename T, qualifier Q>
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@ -1,8 +1,12 @@
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#define GLM_ENABLE_EXPERIMENTAL
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#include <glm/gtc/quaternion.hpp>
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#include <glm/gtx/component_wise.hpp>
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#include <glm/gtx/matrix_interpolation.hpp>
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#include <iostream>
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#include <limits>
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#include <math.h>
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static int test_axisAngle()
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{
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@ -34,6 +38,64 @@ static int test_axisAngle()
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return Error;
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}
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template <class T>
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int testForAxisAngle(glm::vec<3, T, glm::defaultp> const axisTrue, T const angleTrue)
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{
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T const eps = std::sqrt(std::numeric_limits<T>::epsilon());
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glm::mat<4, 4, T, glm::defaultp> const matTrue = glm::axisAngleMatrix(axisTrue, angleTrue);
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glm::vec<3, T, glm::defaultp> axis;
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T angle;
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glm::axisAngle(matTrue, axis, angle);
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glm::mat<4, 4, T, glm::defaultp> const matRebuilt = glm::axisAngleMatrix(axis, angle);
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glm::mat<4, 4, T, glm::defaultp> const errMat = matTrue - matRebuilt;
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T const maxErr = glm::compMax(glm::vec<4, T, glm::defaultp>(
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glm::compMax(glm::abs(errMat[0])),
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glm::compMax(glm::abs(errMat[1])),
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glm::compMax(glm::abs(errMat[2])),
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glm::compMax(glm::abs(errMat[3]))
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));
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return maxErr < eps ? 0 : 1;
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}
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static int test_axisAngle2()
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{
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int Error = 0;
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Error += testForAxisAngle(glm::vec3(0.0f, 1.0f, 0.0f), 0.0f);
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Error += testForAxisAngle(glm::vec3(0.358f, 0.0716f, 0.9309f), 0.00001f);
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Error += testForAxisAngle(glm::vec3(1.0f, 0.0f, 0.0f), 0.0001f);
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Error += testForAxisAngle(glm::vec3(0.0f, 0.0f, 1.0f), 0.001f);
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Error += testForAxisAngle(glm::vec3(0.0f, 0.0f, 1.0f), 0.001f);
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Error += testForAxisAngle(glm::vec3(0.0f, 1.0f, 0.0f), 0.005f);
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Error += testForAxisAngle(glm::vec3(0.0f, 0.0f, 1.0f), 0.005f);
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Error += testForAxisAngle(glm::vec3(0.358f, 0.0716f, 0.9309f), 0.03f);
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Error += testForAxisAngle(glm::vec3(0.358f, 0.0716f, 0.9309f), 0.0003f);
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Error += testForAxisAngle(glm::vec3(0.0f, 0.0f, 1.0f), 0.01f);
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Error += testForAxisAngle(glm::dvec3(0.0f, 1.0f, 0.0f), 0.00005);
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Error += testForAxisAngle(glm::dvec3(-1.0f, 0.0f, 0.0f), 0.000001);
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Error += testForAxisAngle(glm::dvec3(0.7071f, 0.7071f, 0.0f), 0.5);
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Error += testForAxisAngle(glm::dvec3(0.7071f, 0.0f, 0.7071f), 0.0002);
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Error += testForAxisAngle(glm::dvec3(0.7071f, 0.0f, 0.7071f), 0.00002);
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Error += testForAxisAngle(glm::dvec3(0.7071f, 0.0f, 0.7071f), 0.000002);
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Error += testForAxisAngle(glm::dvec3(0.7071f, 0.0f, 0.7071f), 0.0000002);
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Error += testForAxisAngle(glm::vec3(0.0f, 0.7071f, 0.7071f), 1.3f);
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Error += testForAxisAngle(glm::vec3(0.0f, 0.7071f, 0.7071f), 6.3f);
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Error += testForAxisAngle(glm::vec3(1.0f, 0.0f, 0.0f), -0.23456f);
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Error += testForAxisAngle(glm::vec3(1.0f, 0.0f, 0.0f), glm::pi<float>());
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Error += testForAxisAngle(glm::vec3(0.0f, 1.0f, 0.0f), -glm::pi<float>());
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Error += testForAxisAngle(glm::vec3(0.358f, 0.0716f, 0.9309f), -glm::pi<float>());
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Error += testForAxisAngle(glm::vec3(1.0f, 0.0f, 0.0f), glm::pi<float>() + 2e-6f);
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Error += testForAxisAngle(glm::vec3(1.0f, 0.0f, 0.0f), glm::pi<float>() + 1e-4f);
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Error += testForAxisAngle(glm::vec3(0.0f, 1.0f, 0.0f), -glm::pi<float>() + 1e-3f);
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Error += testForAxisAngle(glm::vec3(0.358f, 0.0716f, 0.9309f), -glm::pi<float>() + 5e-3f);
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return Error;
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}
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static int test_rotate()
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{
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glm::mat4 m2(1.0);
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@ -51,6 +113,7 @@ int main()
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int Error = 0;
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Error += test_axisAngle();
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Error += test_axisAngle2();
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Error += test_rotate();
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return Error;
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