gtsam/gtsam_unstable/slam/tests/testMultiProjectionFactor.cpp

/* ----------------------------------------------------------------------------

 * GTSAM Copyright 2010, Georgia Tech Research Corporation,
 * Atlanta, Georgia 30332-0415
 * All Rights Reserved
 * Authors: Frank Dellaert, et al. (see THANKS for the full author list)

 * See LICENSE for the license information

 * -------------------------------------------------------------------------- */

/**
 *  @file  testProjectionFactor.cpp
 *  @brief Unit tests for ProjectionFactor Class
 *  @author Frank Dellaert
 *  @date Nov 2009
 */

#include <gtsam/slam/BetweenFactor.h>
#include <gtsam/slam/ProjectionFactor.h>
#include <gtsam_unstable/slam/MultiProjectionFactor.h>
#include <gtsam/nonlinear/ISAM2.h>
#include <gtsam/nonlinear/LevenbergMarquardtOptimizer.h>
#include <gtsam/nonlinear/NonlinearFactorGraph.h>
#include <gtsam/nonlinear/LinearContainerFactor.h>
#include <gtsam/inference/Ordering.h>
#include <gtsam/nonlinear/Values.h>
#include <gtsam/inference/Symbol.h>
#include <gtsam/inference/Key.h>
#include <gtsam/inference/JunctionTree.h>
#include <gtsam/geometry/Pose3.h>
#include <gtsam/geometry/Point3.h>
#include <gtsam/geometry/Point2.h>
#include <gtsam/geometry/Cal3DS2.h>
#include <gtsam/geometry/Cal3_S2.h>
#include <CppUnitLite/TestHarness.h>


using namespace std;
using namespace gtsam;

// make a realistic calibration matrix
static double fov = 60; // degrees
static int w=640,h=480;
static Cal3_S2::shared_ptr K(new Cal3_S2(fov,w,h));

// Create a noise model for the pixel error
static SharedNoiseModel model(noiseModel::Unit::Create(2));

// Convenience for named keys
//using symbol_shorthand::X;
//using symbol_shorthand::L;

//typedef GenericProjectionFactor<Pose3, Point3> TestProjectionFactor;


///* ************************************************************************* */
TEST( MultiProjectionFactor, create ){
  Values theta;
  NonlinearFactorGraph graph;

  Symbol x1('X',  1);
  Symbol x2('X',  2);
  Symbol x3('X',  3);

  Symbol l1('l',  1);
  Vector n_measPixel(6); // Pixel measurements from 3 cameras observing landmark 1
  n_measPixel << 10, 10, 10, 10, 10, 10;
  const SharedDiagonal noiseProjection = noiseModel::Isotropic::Sigma(2, 1);

  KeySet views;
  views.insert(x1);
  views.insert(x2);
  views.insert(x3);

  MultiProjectionFactor<Pose3, Point3> mpFactor(n_measPixel, noiseProjection, views, l1, K);
  graph += mpFactor;


}


///* ************************************************************************* */
//TEST( ProjectionFactor, nonStandard ) {
//  GenericProjectionFactor<Pose3, Point3, Cal3DS2> f;
//}
//
///* ************************************************************************* */
//TEST( ProjectionFactor, Constructor) {
//  Key poseKey(X(1));
//  Key pointKey(L(1));
//
//  Point2 measurement(323.0, 240.0);
//
//  TestProjectionFactor factor(measurement, model, poseKey, pointKey, K);
//}
//
///* ************************************************************************* */
//TEST( ProjectionFactor, ConstructorWithTransform) {
//  Key poseKey(X(1));
//  Key pointKey(L(1));
//
//  Point2 measurement(323.0, 240.0);
//  Pose3 body_P_sensor(Rot3::RzRyRx(-M_PI_2, 0.0, -M_PI_2), Point3(0.25, -0.10, 1.0));
//
//  TestProjectionFactor factor(measurement, model, poseKey, pointKey, K, body_P_sensor);
//}
//
///* ************************************************************************* */
//TEST( ProjectionFactor, Equals ) {
//  // Create two identical factors and make sure they're equal
//  Point2 measurement(323.0, 240.0);
//
//  TestProjectionFactor factor1(measurement, model, X(1), L(1), K);
//  TestProjectionFactor factor2(measurement, model, X(1), L(1), K);
//
//  CHECK(assert_equal(factor1, factor2));
//}
//
///* ************************************************************************* */
//TEST( ProjectionFactor, EqualsWithTransform ) {
//  // Create two identical factors and make sure they're equal
//  Point2 measurement(323.0, 240.0);
//  Pose3 body_P_sensor(Rot3::RzRyRx(-M_PI_2, 0.0, -M_PI_2), Point3(0.25, -0.10, 1.0));
//
//  TestProjectionFactor factor1(measurement, model, X(1), L(1), K, body_P_sensor);
//  TestProjectionFactor factor2(measurement, model, X(1), L(1), K, body_P_sensor);
//
//  CHECK(assert_equal(factor1, factor2));
//}
//
///* ************************************************************************* */
//TEST( ProjectionFactor, Error ) {
//  // Create the factor with a measurement that is 3 pixels off in x
//  Key poseKey(X(1));
//  Key pointKey(L(1));
//  Point2 measurement(323.0, 240.0);
//  TestProjectionFactor factor(measurement, model, poseKey, pointKey, K);
//
//  // Set the linearization point
//  Pose3 pose(Rot3(), Point3(0,0,-6));
//  Point3 point(0.0, 0.0, 0.0);
//
//  // Use the factor to calculate the error
//  Vector actualError(factor.evaluateError(pose, point));
//
//  // The expected error is (-3.0, 0.0) pixels / UnitCovariance
//  Vector expectedError = Vector2(-3.0, 0.0);
//
//  // Verify we get the expected error
//  CHECK(assert_equal(expectedError, actualError, 1e-9));
//}
//
///* ************************************************************************* */
//TEST( ProjectionFactor, ErrorWithTransform ) {
//  // Create the factor with a measurement that is 3 pixels off in x
//  Key poseKey(X(1));
//  Key pointKey(L(1));
//  Point2 measurement(323.0, 240.0);
//  Pose3 body_P_sensor(Rot3::RzRyRx(-M_PI_2, 0.0, -M_PI_2), Point3(0.25, -0.10, 1.0));
//  TestProjectionFactor factor(measurement, model, poseKey, pointKey, K, body_P_sensor);
//
//  // Set the linearization point. The vehicle pose has been selected to put the camera at (-6, 0, 0)
//  Pose3 pose(Rot3(), Point3(-6.25, 0.10 , -1.0));
//  Point3 point(0.0, 0.0, 0.0);
//
//  // Use the factor to calculate the error
//  Vector actualError(factor.evaluateError(pose, point));
//
//  // The expected error is (-3.0, 0.0) pixels / UnitCovariance
//  Vector expectedError = Vector2(-3.0, 0.0);
//
//  // Verify we get the expected error
//  CHECK(assert_equal(expectedError, actualError, 1e-9));
//}
//
///* ************************************************************************* */
//TEST( ProjectionFactor, Jacobian ) {
//  // Create the factor with a measurement that is 3 pixels off in x
//  Key poseKey(X(1));
//  Key pointKey(L(1));
//  Point2 measurement(323.0, 240.0);
//  TestProjectionFactor factor(measurement, model, poseKey, pointKey, K);
//
//  // Set the linearization point
//  Pose3 pose(Rot3(), Point3(0,0,-6));
//  Point3 point(0.0, 0.0, 0.0);
//
//  // Use the factor to calculate the Jacobians
//  Matrix H1Actual, H2Actual;
//  factor.evaluateError(pose, point, H1Actual, H2Actual);
//
//  // The expected Jacobians
//  Matrix H1Expected = (Matrix(2, 6) <<  0., -554.256, 0., -92.376, 0., 0., 554.256, 0., 0., 0., -92.376, 0.).finished();
//  Matrix H2Expected = (Matrix(2, 3) <<  92.376, 0., 0., 0., 92.376, 0.).finished();
//
//  // Verify the Jacobians are correct
//  CHECK(assert_equal(H1Expected, H1Actual, 1e-3));
//  CHECK(assert_equal(H2Expected, H2Actual, 1e-3));
//}
//
///* ************************************************************************* */
//TEST( ProjectionFactor, JacobianWithTransform ) {
//  // Create the factor with a measurement that is 3 pixels off in x
//  Key poseKey(X(1));
//  Key pointKey(L(1));
//  Point2 measurement(323.0, 240.0);
//  Pose3 body_P_sensor(Rot3::RzRyRx(-M_PI_2, 0.0, -M_PI_2), Point3(0.25, -0.10, 1.0));
//  TestProjectionFactor factor(measurement, model, poseKey, pointKey, K, body_P_sensor);
//
//  // Set the linearization point. The vehicle pose has been selected to put the camera at (-6, 0, 0)
//  Pose3 pose(Rot3(), Point3(-6.25, 0.10 , -1.0));
//  Point3 point(0.0, 0.0, 0.0);
//
//  // Use the factor to calculate the Jacobians
//  Matrix H1Actual, H2Actual;
//  factor.evaluateError(pose, point, H1Actual, H2Actual);
//
//  // The expected Jacobians
//  Matrix H1Expected = (Matrix(2, 6) <<  -92.376, 0., 577.350, 0., 92.376, 0., -9.2376, -577.350, 0., 0., 0., 92.376).finished();
//  Matrix H2Expected = (Matrix(2, 3) <<  0., -92.376, 0., 0., 0., -92.376).finished();
//
//  // Verify the Jacobians are correct
//  CHECK(assert_equal(H1Expected, H1Actual, 1e-3));
//  CHECK(assert_equal(H2Expected, H2Actual, 1e-3));
//}

/* ************************************************************************* */
int main() { TestResult tr; return TestRegistry::runAllTests(tr); }
/* ************************************************************************* */
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00			`/* ----------------------------------------------------------------------------`

			`* GTSAM Copyright 2010, Georgia Tech Research Corporation,`
			`* Atlanta, Georgia 30332-0415`
			`* All Rights Reserved`
			`* Authors: Frank Dellaert, et al. (see THANKS for the full author list)`

			`* See LICENSE for the license information`

			`* -------------------------------------------------------------------------- */`

			`/**`
			`* @file testProjectionFactor.cpp`
			`* @brief Unit tests for ProjectionFactor Class`
			`* @author Frank Dellaert`
			`* @date Nov 2009`
			`*/`

			`#include <gtsam/slam/BetweenFactor.h>`
			`#include <gtsam/slam/ProjectionFactor.h>`
			`#include <gtsam_unstable/slam/MultiProjectionFactor.h>`
			`#include <gtsam/nonlinear/ISAM2.h>`
			`#include <gtsam/nonlinear/LevenbergMarquardtOptimizer.h>`
			`#include <gtsam/nonlinear/NonlinearFactorGraph.h>`
			`#include <gtsam/nonlinear/LinearContainerFactor.h>`
Enabled more unit tests and either fixed them or have them print a "disabled" message during make check 2013-08-12 02:41:08 +08:00			`#include <gtsam/inference/Ordering.h>`
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00			`#include <gtsam/nonlinear/Values.h>`
Moved Symbol and LabeledSymbol to inference as they are no longer specific to nonlinear optimization 2013-08-19 23:32:16 +08:00			`#include <gtsam/inference/Symbol.h>`
Enabled more unit tests and either fixed them or have them print a "disabled" message during make check 2013-08-12 02:41:08 +08:00			`#include <gtsam/inference/Key.h>`
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00			`#include <gtsam/inference/JunctionTree.h>`
			`#include <gtsam/geometry/Pose3.h>`
			`#include <gtsam/geometry/Point3.h>`
			`#include <gtsam/geometry/Point2.h>`
			`#include <gtsam/geometry/Cal3DS2.h>`
			`#include <gtsam/geometry/Cal3_S2.h>`
			`#include <CppUnitLite/TestHarness.h>`


			`using namespace std;`
			`using namespace gtsam;`

			`// make a realistic calibration matrix`
			`static double fov = 60; // degrees`
"Fixed" more unit tests 2013-08-12 03:01:06 +08:00			`static int w=640,h=480;`
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00			`static Cal3_S2::shared_ptr K(new Cal3_S2(fov,w,h));`

			`// Create a noise model for the pixel error`
			`static SharedNoiseModel model(noiseModel::Unit::Create(2));`

			`// Convenience for named keys`
			`//using symbol_shorthand::X;`
			`//using symbol_shorthand::L;`

			`//typedef GenericProjectionFactor<Pose3, Point3> TestProjectionFactor;`


			`///* ************************************************************************* */`
			`TEST( MultiProjectionFactor, create ){`
			`Values theta;`
			`NonlinearFactorGraph graph;`

			`Symbol x1('X', 1);`
			`Symbol x2('X', 2);`
			`Symbol x3('X', 3);`

			`Symbol l1('l', 1);`
			`Vector n_measPixel(6); // Pixel measurements from 3 cameras observing landmark 1`
			`n_measPixel << 10, 10, 10, 10, 10, 10;`
			`const SharedDiagonal noiseProjection = noiseModel::Isotropic::Sigma(2, 1);`

Globally replaced FastSet<Key> with KeySet. 2015-06-21 09:38:25 +08:00			`KeySet views;`
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00			`views.insert(x1);`
			`views.insert(x2);`
			`views.insert(x3);`

			`MultiProjectionFactor<Pose3, Point3> mpFactor(n_measPixel, noiseProjection, views, l1, K);`
Enabled more unit tests and either fixed them or have them print a "disabled" message during make check 2013-08-12 02:41:08 +08:00			`graph += mpFactor;`
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00

			`}`



			`///* ************************************************************************* */`
			`//TEST( ProjectionFactor, nonStandard ) {`
			`// GenericProjectionFactor<Pose3, Point3, Cal3DS2> f;`
			`//}`
			`//`
			`///* ************************************************************************* */`
			`//TEST( ProjectionFactor, Constructor) {`
			`// Key poseKey(X(1));`
			`// Key pointKey(L(1));`
			`//`
			`// Point2 measurement(323.0, 240.0);`
			`//`
			`// TestProjectionFactor factor(measurement, model, poseKey, pointKey, K);`
			`//}`
			`//`
			`///* ************************************************************************* */`
			`//TEST( ProjectionFactor, ConstructorWithTransform) {`
			`// Key poseKey(X(1));`
			`// Key pointKey(L(1));`
			`//`
			`// Point2 measurement(323.0, 240.0);`
			`// Pose3 body_P_sensor(Rot3::RzRyRx(-M_PI_2, 0.0, -M_PI_2), Point3(0.25, -0.10, 1.0));`
			`//`
			`// TestProjectionFactor factor(measurement, model, poseKey, pointKey, K, body_P_sensor);`
			`//}`
			`//`
			`///* ************************************************************************* */`
			`//TEST( ProjectionFactor, Equals ) {`
			`// // Create two identical factors and make sure they're equal`
			`// Point2 measurement(323.0, 240.0);`
			`//`
			`// TestProjectionFactor factor1(measurement, model, X(1), L(1), K);`
			`// TestProjectionFactor factor2(measurement, model, X(1), L(1), K);`
			`//`
			`// CHECK(assert_equal(factor1, factor2));`
			`//}`
			`//`
			`///* ************************************************************************* */`
			`//TEST( ProjectionFactor, EqualsWithTransform ) {`
			`// // Create two identical factors and make sure they're equal`
			`// Point2 measurement(323.0, 240.0);`
			`// Pose3 body_P_sensor(Rot3::RzRyRx(-M_PI_2, 0.0, -M_PI_2), Point3(0.25, -0.10, 1.0));`
			`//`
			`// TestProjectionFactor factor1(measurement, model, X(1), L(1), K, body_P_sensor);`
			`// TestProjectionFactor factor2(measurement, model, X(1), L(1), K, body_P_sensor);`
			`//`
			`// CHECK(assert_equal(factor1, factor2));`
			`//}`
			`//`
			`///* ************************************************************************* */`
			`//TEST( ProjectionFactor, Error ) {`
			`// // Create the factor with a measurement that is 3 pixels off in x`
			`// Key poseKey(X(1));`
			`// Key pointKey(L(1));`
			`// Point2 measurement(323.0, 240.0);`
			`// TestProjectionFactor factor(measurement, model, poseKey, pointKey, K);`
			`//`
			`// // Set the linearization point`
			`// Pose3 pose(Rot3(), Point3(0,0,-6));`
			`// Point3 point(0.0, 0.0, 0.0);`
			`//`
			`// // Use the factor to calculate the error`
			`// Vector actualError(factor.evaluateError(pose, point));`
			`//`
			`// // The expected error is (-3.0, 0.0) pixels / UnitCovariance`
Converted Vector(2\|3) << ... to Vector2(...) or Vector3(...) syntax 2014-11-24 02:22:25 +08:00			`// Vector expectedError = Vector2(-3.0, 0.0);`
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00			`//`
			`// // Verify we get the expected error`
			`// CHECK(assert_equal(expectedError, actualError, 1e-9));`
			`//}`
			`//`
			`///* ************************************************************************* */`
			`//TEST( ProjectionFactor, ErrorWithTransform ) {`
			`// // Create the factor with a measurement that is 3 pixels off in x`
			`// Key poseKey(X(1));`
			`// Key pointKey(L(1));`
			`// Point2 measurement(323.0, 240.0);`
			`// Pose3 body_P_sensor(Rot3::RzRyRx(-M_PI_2, 0.0, -M_PI_2), Point3(0.25, -0.10, 1.0));`
			`// TestProjectionFactor factor(measurement, model, poseKey, pointKey, K, body_P_sensor);`
			`//`
			`// // Set the linearization point. The vehicle pose has been selected to put the camera at (-6, 0, 0)`
			`// Pose3 pose(Rot3(), Point3(-6.25, 0.10 , -1.0));`
			`// Point3 point(0.0, 0.0, 0.0);`
			`//`
			`// // Use the factor to calculate the error`
			`// Vector actualError(factor.evaluateError(pose, point));`
			`//`
			`// // The expected error is (-3.0, 0.0) pixels / UnitCovariance`
Converted Vector(2\|3) << ... to Vector2(...) or Vector3(...) syntax 2014-11-24 02:22:25 +08:00			`// Vector expectedError = Vector2(-3.0, 0.0);`
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00			`//`
			`// // Verify we get the expected error`
			`// CHECK(assert_equal(expectedError, actualError, 1e-9));`
			`//}`
			`//`
			`///* ************************************************************************* */`
			`//TEST( ProjectionFactor, Jacobian ) {`
			`// // Create the factor with a measurement that is 3 pixels off in x`
			`// Key poseKey(X(1));`
			`// Key pointKey(L(1));`
			`// Point2 measurement(323.0, 240.0);`
			`// TestProjectionFactor factor(measurement, model, poseKey, pointKey, K);`
			`//`
			`// // Set the linearization point`
			`// Pose3 pose(Rot3(), Point3(0,0,-6));`
			`// Point3 point(0.0, 0.0, 0.0);`
			`//`
			`// // Use the factor to calculate the Jacobians`
			`// Matrix H1Actual, H2Actual;`
			`// factor.evaluateError(pose, point, H1Actual, H2Actual);`
			`//`
			`// // The expected Jacobians`
Updated all comma initializer usages to use .finished() 2014-11-23 08:35:27 +08:00			`// Matrix H1Expected = (Matrix(2, 6) << 0., -554.256, 0., -92.376, 0., 0., 554.256, 0., 0., 0., -92.376, 0.).finished();`
			`// Matrix H2Expected = (Matrix(2, 3) << 92.376, 0., 0., 0., 92.376, 0.).finished();`
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00			`//`
			`// // Verify the Jacobians are correct`
			`// CHECK(assert_equal(H1Expected, H1Actual, 1e-3));`
			`// CHECK(assert_equal(H2Expected, H2Actual, 1e-3));`
			`//}`
			`//`
			`///* ************************************************************************* */`
			`//TEST( ProjectionFactor, JacobianWithTransform ) {`
			`// // Create the factor with a measurement that is 3 pixels off in x`
			`// Key poseKey(X(1));`
			`// Key pointKey(L(1));`
			`// Point2 measurement(323.0, 240.0);`
			`// Pose3 body_P_sensor(Rot3::RzRyRx(-M_PI_2, 0.0, -M_PI_2), Point3(0.25, -0.10, 1.0));`
			`// TestProjectionFactor factor(measurement, model, poseKey, pointKey, K, body_P_sensor);`
			`//`
			`// // Set the linearization point. The vehicle pose has been selected to put the camera at (-6, 0, 0)`
			`// Pose3 pose(Rot3(), Point3(-6.25, 0.10 , -1.0));`
			`// Point3 point(0.0, 0.0, 0.0);`
			`//`
			`// // Use the factor to calculate the Jacobians`
			`// Matrix H1Actual, H2Actual;`
			`// factor.evaluateError(pose, point, H1Actual, H2Actual);`
			`//`
			`// // The expected Jacobians`
Updated all comma initializer usages to use .finished() 2014-11-23 08:35:27 +08:00			`// Matrix H1Expected = (Matrix(2, 6) << -92.376, 0., 577.350, 0., 92.376, 0., -9.2376, -577.350, 0., 0., 0., 92.376).finished();`
			`// Matrix H2Expected = (Matrix(2, 3) << 0., -92.376, 0., 0., 0., -92.376).finished();`
Added MultiProjectionFactor, invoving n views (camera poses) observing a single landmark: work in progress 2013-08-01 02:02:56 +08:00			`//`
			`// // Verify the Jacobians are correct`
			`// CHECK(assert_equal(H1Expected, H1Actual, 1e-3));`
			`// CHECK(assert_equal(H2Expected, H2Actual, 1e-3));`
			`//}`

			`/* ************************************************************************* */`
			`int main() { TestResult tr; return TestRegistry::runAllTests(tr); }`
			`/* ************************************************************************* */`