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trick/trick_source/trick_utils/math/test/UnitTestEulerQuat.cpp
Michael Vetter 18f0d7e871 Remove trailing whitespaces 
Makes it easier to edit the files. So if we press 'end of line' we are
really at the end of line.
2016-11-08 10:25:07 +01:00

399 lines
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#include <gtest/gtest.h>
#include "trick/trick_math.h"
#include "trick/reference_frame.h"
using namespace std;
class EulerQuatTest : public ::testing::Test {
public:
TRANSFORM init_data;
bool pass;
int num_tests;
int num_pass;
int method;
double quat[4];
double mat[3][3];
EulerQuatTest() {
this->num_tests = 100;
this->num_pass = 0;
this->pass = false;
}
~EulerQuatTest() {}
void SetUp() {}
void TearDown() {}
void compare_euler(double eul[3]){
double eul_error[3];
double mat_test[3][3];
double mat_error[3][3];
M_IDENT(mat_error);
M_IDENT(mat_test);
V_INIT(eul_error);
euler_matrix(eul, mat_test, 0 , this->init_data.euler_sequence);
MxMt(mat_error, mat_test, this->mat);
euler_matrix(eul_error, mat_error, 0 , this->init_data.euler_sequence);
if(V_MAG(eul_error) < 0.00001){
this->num_pass ++;
pass = true;
} else{
pass = false;
printf("EulerAngle = %lf %lf %lf\n",this->init_data.euler_angles[0],
this->init_data.euler_angles[1],
this->init_data.euler_angles[2]);
}
return;
}
void compare_quat(double Q[4]){
double Q_error[4];
double mat_error[3][3];
double eul_error[3];
M_IDENT(mat_error);
V_INIT(eul_error);
QxQt(Q_error, Q, quat);
quat_to_mat(mat_error, Q_error);
euler_matrix(eul_error, mat_error, 0 , this->init_data.euler_sequence);
if(V_MAG(eul_error) < 0.00001){
this->num_pass ++;
this->pass = true;
} else{
this->pass = false;
printf("EulerAngle = %lf %lf %lf\n",this->init_data.euler_angles[0],
this->init_data.euler_angles[1],
this->init_data.euler_angles[2]);
}
return;
}
void test_euler_to_quat(){
double Q[4];
euler_quat(this->init_data.euler_angles, Q, 0, this->init_data.euler_sequence);
compare_quat( Q );
return;
}
void test_quat_to_euler(int test){
double eul[3];
this->method = test;
if(this->method == 1){
euler_quat(eul, this->quat, this->method, this->init_data.euler_sequence);
}
else {
switch (this->init_data.euler_sequence) {
case Roll_Pitch_Yaw:
euler123_quat( eul, this->quat, 2, this->init_data.euler_angles );
break;
case Roll_Yaw_Pitch:
euler132_quat( eul, this->quat, 2, this->init_data.euler_angles );
break;
case Pitch_Yaw_Roll:
euler231_quat( eul, this->quat, 2, this->init_data.euler_angles );
break;
case Pitch_Roll_Yaw:
euler213_quat( eul, this->quat, 2, this->init_data.euler_angles );
break;
case Yaw_Roll_Pitch:
euler312_quat( eul, this->quat, 2, this->init_data.euler_angles );
break;
case Yaw_Pitch_Roll:
euler321_quat( eul, this->quat, 2, this->init_data.euler_angles );
break;
}
}
compare_euler(eul);
return;
}
};
TEST_F(EulerQuatTest, euler123_to_quat)
{
init_data.euler_sequence = Roll_Pitch_Yaw;
num_pass = 0;
srand(time(NULL));
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_euler_to_quat();
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, euler132_to_quat)
{
init_data.euler_sequence = Roll_Yaw_Pitch;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_euler_to_quat();
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, euler231_to_quat)
{
init_data.euler_sequence = Pitch_Yaw_Roll;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_euler_to_quat();
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, euler213_to_quat)
{
init_data.euler_sequence = Pitch_Roll_Yaw;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_euler_to_quat();
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, euler312_to_quat)
{
init_data.euler_sequence = Yaw_Roll_Pitch;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_euler_to_quat();
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, euler321_to_quat)
{
init_data.euler_sequence = Yaw_Pitch_Roll;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_euler_to_quat();
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler123_method1)
{
init_data.euler_sequence = Roll_Pitch_Yaw;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(1);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler123_method2)
{
init_data.euler_sequence = Roll_Pitch_Yaw;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(2);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler132_method1)
{
init_data.euler_sequence = Roll_Yaw_Pitch;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(1);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler132_method2)
{
init_data.euler_sequence = Roll_Yaw_Pitch;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(2);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler231_method1)
{
init_data.euler_sequence = Pitch_Yaw_Roll;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(1);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler231_method2)
{
init_data.euler_sequence = Pitch_Yaw_Roll;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(2);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler213_method1)
{
init_data.euler_sequence = Pitch_Roll_Yaw;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(1);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler213_method2)
{
init_data.euler_sequence = Pitch_Roll_Yaw;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(2);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler312_method1)
{
init_data.euler_sequence = Yaw_Roll_Pitch;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(1);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler312_method2)
{
init_data.euler_sequence = Yaw_Roll_Pitch;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(2);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler321_method1)
{
init_data.euler_sequence = Yaw_Pitch_Roll;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(1);
}
EXPECT_EQ(num_pass, num_tests);
}
TEST_F(EulerQuatTest, quat_to_euler321_method2)
{
init_data.euler_sequence = Yaw_Pitch_Roll;
num_pass = 0;
for (int ii=0; ii<num_tests; ii++){
// Randomly input euler angles:
init_data.euler_angles[0] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[1] = (rand()%num_tests) * (2*M_PI/num_tests);
init_data.euler_angles[2] = (rand()%num_tests) * (2*M_PI/num_tests);
euler_matrix(init_data.euler_angles, mat, 0 , init_data.euler_sequence);
mat_to_quat(quat, mat);
test_quat_to_euler(2);
}
EXPECT_EQ(num_pass, num_tests);
}
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