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Formatted testCal3DFIsheye.cpp

release/4.3a0
Glen Haggin 2020-04-22 12:28:47 -04:00
parent 5bb0bbdcc4
commit fd0ea0e5e4
1 changed files with 52 additions and 49 deletions
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45
gtsam/geometry/tests/testCal3DFisheye.cpp
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@ -15,7 +15,6 @@
* @author ghaggin * @author ghaggin
*/ */
#include <CppUnitLite/TestHarness.h> #include <CppUnitLite/TestHarness.h>
#include <gtsam/base/Testable.h> #include <gtsam/base/Testable.h>
#include <gtsam/base/numericalDerivative.h> #include <gtsam/base/numericalDerivative.h>
@ -26,18 +25,21 @@ using namespace gtsam;
GTSAM_CONCEPT_TESTABLE_INST(Cal3Fisheye) GTSAM_CONCEPT_TESTABLE_INST(Cal3Fisheye)
GTSAM_CONCEPT_MANIFOLD_INST(Cal3Fisheye) GTSAM_CONCEPT_MANIFOLD_INST(Cal3Fisheye)
static Cal3Fisheye K(500, 100, 0.1, 320, 240, -0.013721808247486035, 0.020727425669427896, -0.012786476702685545, 0.0025242267320687625); static const double fx = 250, fy = 260, s = 0.1, u0 = 320, v0 = 240;
static Cal3Fisheye K(fx, fy, s, u0, v0, -0.013721808247486035,
0.020727425669427896, -0.012786476702685545,
0.0025242267320687625);
static Point2 p(2, 3); static Point2 p(2, 3);
/* ************************************************************************* */ /* ************************************************************************* */
TEST( Cal3Fisheye, uncalibrate) TEST(Cal3Fisheye, uncalibrate1) {
{
// Calculate the solution // Calculate the solution
const double xi = p.x(), yi = p.y(); const double xi = p.x(), yi = p.y();
const double r = sqrt(xi * xi + yi * yi); const double r = sqrt(xi * xi + yi * yi);
const double t = atan(r); const double t = atan(r);
const double tt = t * t, t4 = tt * tt, t6 = tt * t4, t8 = t4 * t4; const double tt = t * t, t4 = tt * tt, t6 = tt * t4, t8 = t4 * t4;
const double td = t*(1 + K.k1()*tt + K.k2()*t4 + K.k3()*t6 + K.k4()*t8); const double td =
t * (1 + K.k1() * tt + K.k2() * t4 + K.k3() * t6 + K.k4() * t8);
Vector3 pd(td / r * xi, td / r * yi, 1); Vector3 pd(td / r * xi, td / r * yi, 1);
Vector3 v = K.K() * pd; Vector3 v = K.K() * pd;
@ -47,8 +49,7 @@ TEST( Cal3Fisheye, uncalibrate)
CHECK(assert_equal(uv, uv_sol)); CHECK(assert_equal(uv, uv_sol));
} }
TEST( Cal3Fisheye, calibrate ) TEST(Cal3Fisheye, calibrate) {
{
Point2 pi; Point2 pi;
Point2 uv; Point2 uv;
Point2 pi_hat; Point2 pi_hat;
@ -56,7 +57,8 @@ TEST( Cal3Fisheye, calibrate )
pi = Point2(0.5, 0.5); // point in intrinsic coordinates pi = Point2(0.5, 0.5); // point in intrinsic coordinates
uv = K.uncalibrate(pi); // map intrinsic coord to image plane (pi) uv = K.uncalibrate(pi); // map intrinsic coord to image plane (pi)
pi_hat = K.calibrate(uv); // map image coords (pi) back to intrinsic coords pi_hat = K.calibrate(uv); // map image coords (pi) back to intrinsic coords
CHECK( traits<Point2>::Equals(pi, pi_hat, 1e-5)); // check that the inv mapping works CHECK(traits<Point2>::Equals(pi, pi_hat,
1e-5)); // check that the inv mapping works
pi = Point2(-0.7, -1.2); pi = Point2(-0.7, -1.2);
uv = K.uncalibrate(pi); uv = K.uncalibrate(pi);
@ -74,11 +76,12 @@ TEST( Cal3Fisheye, calibrate )
CHECK(traits<Point2>::Equals(pi, pi_hat, 1e-5)); CHECK(traits<Point2>::Equals(pi, pi_hat, 1e-5));
} }
Point2 uncalibrate_(const Cal3Fisheye& k, const Point2& pt) { return k.uncalibrate(pt); } Point2 uncalibrate_(const Cal3Fisheye& k, const Point2& pt) {
return k.uncalibrate(pt);
}
/* ************************************************************************* */ /* ************************************************************************* */
TEST( Cal3Fisheye, Duncalibrate1) TEST(Cal3Fisheye, Duncalibrate1) {
{
Matrix computed; Matrix computed;
K.uncalibrate(p, computed, boost::none); K.uncalibrate(p, computed, boost::none);
Matrix numerical = numericalDerivative21(uncalibrate_, K, p, 1e-7); Matrix numerical = numericalDerivative21(uncalibrate_, K, p, 1e-7);
@ -88,8 +91,7 @@ TEST( Cal3Fisheye, Duncalibrate1)
} }
/* ************************************************************************* */ /* ************************************************************************* */
TEST( Cal3Fisheye, Duncalibrate2) TEST(Cal3Fisheye, Duncalibrate2) {
{
Matrix computed; Matrix computed;
K.uncalibrate(p, boost::none, computed); K.uncalibrate(p, boost::none, computed);
Matrix numerical = numericalDerivative22(uncalibrate_, K, p, 1e-7); Matrix numerical = numericalDerivative22(uncalibrate_, K, p, 1e-7);
@ -99,15 +101,13 @@ TEST( Cal3Fisheye, Duncalibrate2)
} }
/* ************************************************************************* */ /* ************************************************************************* */
TEST( Cal3Fisheye, assert_equal) TEST(Cal3Fisheye, assert_equal) { CHECK(assert_equal(K, K, 1e-5)); }
{
CHECK(assert_equal(K,K,1e-5));
}
/* ************************************************************************* */ /* ************************************************************************* */
TEST( Cal3Fisheye, retract) TEST(Cal3Fisheye, retract) {
{ Cal3Fisheye expected(K.fx() + 1, K.fy() + 2, K.skew() + 3, K.px() + 4,
Cal3Fisheye expected(K.fx() + 1, K.fy() + 2, K.skew() + 3, K.px() + 4, K.py() + 5, K.k1() + 6, K.k2() + 7, K.k3() + 8, K.k4() + 9); K.py() + 5, K.k1() + 6, K.k2() + 7, K.k3() + 8,
K.k4() + 9);
Vector d(9); Vector d(9);
d << 1, 2, 3, 4, 5, 6, 7, 8, 9; d << 1, 2, 3, 4, 5, 6, 7, 8, 9;
Cal3Fisheye actual = K.retract(d); Cal3Fisheye actual = K.retract(d);
@ -116,5 +116,8 @@ TEST( Cal3Fisheye, retract)
} }
/* ************************************************************************* */ /* ************************************************************************* */
int main() { TestResult tr; return TestRegistry::runAllTests(tr); } int main() {
TestResult tr;
return TestRegistry::runAllTests(tr);
}
/* ************************************************************************* */ /* ************************************************************************* */