gtsam/cpp/testPose2Config.cpp

/**
 *  @file  testPose2Config.cpp
 *  @authors Frank Dellaert
 **/

#include <iostream>

#include <CppUnitLite/TestHarness.h>
#include "pose2SLAM.h"

using namespace std;
using namespace gtsam;

/* ************************************************************************* */
TEST( Pose2Config, pose2Circle )
{
	// expected is 4 poses tangent to circle with radius 1m
	Pose2Config expected;
	expected.insert(0, Pose2( 1,  0,   M_PI_2));
	expected.insert(1, Pose2( 0,  1, - M_PI  ));
	expected.insert(2, Pose2(-1,  0, - M_PI_2));
	expected.insert(3, Pose2( 0, -1,   0     ));

	Pose2Config actual = pose2SLAM::circle(4,1.0);
	CHECK(assert_equal(expected,actual));
}

/* ************************************************************************* */
TEST( Pose2Config, expmap )
{
	// expected is circle shifted to right
	Pose2Config expected;
	expected.insert(0, Pose2( 1.1,  0,   M_PI_2));
	expected.insert(1, Pose2( 0.1,  1, - M_PI  ));
	expected.insert(2, Pose2(-0.9,  0, - M_PI_2));
	expected.insert(3, Pose2( 0.1, -1,   0     ));

	// Note expmap coordinates are in local coordinates, so shifting to right requires thought !!!
	Vector delta = Vector_(12, 0.0,-0.1,0.0, -0.1,0.0,0.0, 0.0,0.1,0.0, 0.1,0.0,0.0);
	Pose2Config actual = expmap(pose2SLAM::circle(4,1.0),delta);
	CHECK(assert_equal(expected,actual));
}

/* ************************************************************************* */
int main() {
	TestResult tr;
	return TestRegistry::runAllTests(tr);
}
/* ************************************************************************* */
pose2Circle 2010-01-10 23:46:18 +08:00			`/**`
			`* @file testPose2Config.cpp`
			`* @authors Frank Dellaert`
			`**/`

			`#include <iostream>`

			`#include <CppUnitLite/TestHarness.h>`
2D Pose SLAM: created a new templated factor to accommodate GPS measurements, and as part of the refactor I consolidated all Pose2 SLAM classes in pose2SLAM.h. For backwards compatibility it contains typedef pose2SLAM::Prior Pose2Prior; typedef pose2SLAM::Odometry Pose2Factor; typedef pose2SLAM::Constraint Pose2Constraint; typedef pose2SLAM::Config Pose2Config; typedef pose2SLAM::Graph Pose2Graph; 2010-01-17 02:01:16 +08:00			`#include "pose2SLAM.h"`
pose2Circle 2010-01-10 23:46:18 +08:00
			`using namespace std;`
			`using namespace gtsam;`

			`/* ************************************************************************* */`
			`TEST( Pose2Config, pose2Circle )`
			`{`
			`// expected is 4 poses tangent to circle with radius 1m`
			`Pose2Config expected;`
Large gtsam refactoring To support faster development and better performance Richard and I pushed through a large refactoring of NonlinearFactors. The following are the biggest changes: 1) NonLinearFactor1 and NonLinearFactor2 are now templated on Config, Key type, and X type, where X is the argument to the measurement function. 2) The measurement itself is no longer kept in the nonlinear factor. Instead, a derived class (see testVSLAMFactor, testNonlinearEquality, testPose3Factor etc...) has to implement a function to compute the errors, "evaluateErrors". Instead of (h(x)-z), it needs to return (z-h(x)), so Ax-b is an approximation of the error. IMPORTANT: evaluateErrors needs - if asked - combine the calculation of the function value h(x) and the derivatives dh(x)/dx. This was a major performance issue. To do this, boost::optional<Matrix&> arguments are provided, and tin EvaluateErrors you just says something like if (H) *H = Matrix_(3,6,....); 3) We are no longer using int or strings for nonlinear factors. Instead, the preferred key type is now Symbol, defined in Key.h. This is both fast and cool: you can construct it from an int, and cast it to a strong. It also does type checking: a Symbol<Pose3,'x'> will not match a Symbol<Pose2,'x'> 4) minor: take a look at LieConfig.h: it help you avoid writing a lot of code bu automatically creating configs for a certain type. See e.g. Pose3Config.h. A "double" LieConfig is on the way - Thanks Richard and Manohar ! 2010-01-14 06:25:03 +08:00			`expected.insert(0, Pose2( 1, 0, M_PI_2));`
			`expected.insert(1, Pose2( 0, 1, - M_PI ));`
			`expected.insert(2, Pose2(-1, 0, - M_PI_2));`
			`expected.insert(3, Pose2( 0, -1, 0 ));`
pose2Circle 2010-01-10 23:46:18 +08:00
2D Pose SLAM: created a new templated factor to accommodate GPS measurements, and as part of the refactor I consolidated all Pose2 SLAM classes in pose2SLAM.h. For backwards compatibility it contains typedef pose2SLAM::Prior Pose2Prior; typedef pose2SLAM::Odometry Pose2Factor; typedef pose2SLAM::Constraint Pose2Constraint; typedef pose2SLAM::Config Pose2Config; typedef pose2SLAM::Graph Pose2Graph; 2010-01-17 02:01:16 +08:00			`Pose2Config actual = pose2SLAM::circle(4,1.0);`
pose2Circle 2010-01-10 23:46:18 +08:00			`CHECK(assert_equal(expected,actual));`
			`}`

Pose2Config is now simply a typedef (note that for linking specific template instantiations were needed). 2010-01-11 00:17:55 +08:00			`/* ************************************************************************* */`
			`TEST( Pose2Config, expmap )`
			`{`
			`// expected is circle shifted to right`
			`Pose2Config expected;`
Large gtsam refactoring To support faster development and better performance Richard and I pushed through a large refactoring of NonlinearFactors. The following are the biggest changes: 1) NonLinearFactor1 and NonLinearFactor2 are now templated on Config, Key type, and X type, where X is the argument to the measurement function. 2) The measurement itself is no longer kept in the nonlinear factor. Instead, a derived class (see testVSLAMFactor, testNonlinearEquality, testPose3Factor etc...) has to implement a function to compute the errors, "evaluateErrors". Instead of (h(x)-z), it needs to return (z-h(x)), so Ax-b is an approximation of the error. IMPORTANT: evaluateErrors needs - if asked - combine the calculation of the function value h(x) and the derivatives dh(x)/dx. This was a major performance issue. To do this, boost::optional<Matrix&> arguments are provided, and tin EvaluateErrors you just says something like if (H) *H = Matrix_(3,6,....); 3) We are no longer using int or strings for nonlinear factors. Instead, the preferred key type is now Symbol, defined in Key.h. This is both fast and cool: you can construct it from an int, and cast it to a strong. It also does type checking: a Symbol<Pose3,'x'> will not match a Symbol<Pose2,'x'> 4) minor: take a look at LieConfig.h: it help you avoid writing a lot of code bu automatically creating configs for a certain type. See e.g. Pose3Config.h. A "double" LieConfig is on the way - Thanks Richard and Manohar ! 2010-01-14 06:25:03 +08:00			`expected.insert(0, Pose2( 1.1, 0, M_PI_2));`
			`expected.insert(1, Pose2( 0.1, 1, - M_PI ));`
			`expected.insert(2, Pose2(-0.9, 0, - M_PI_2));`
			`expected.insert(3, Pose2( 0.1, -1, 0 ));`
Pose2Config is now simply a typedef (note that for linking specific template instantiations were needed). 2010-01-11 00:17:55 +08:00
			`// Note expmap coordinates are in local coordinates, so shifting to right requires thought !!!`
			`Vector delta = Vector_(12, 0.0,-0.1,0.0, -0.1,0.0,0.0, 0.0,0.1,0.0, 0.1,0.0,0.0);`
2D Pose SLAM: created a new templated factor to accommodate GPS measurements, and as part of the refactor I consolidated all Pose2 SLAM classes in pose2SLAM.h. For backwards compatibility it contains typedef pose2SLAM::Prior Pose2Prior; typedef pose2SLAM::Odometry Pose2Factor; typedef pose2SLAM::Constraint Pose2Constraint; typedef pose2SLAM::Config Pose2Config; typedef pose2SLAM::Graph Pose2Graph; 2010-01-17 02:01:16 +08:00			`Pose2Config actual = expmap(pose2SLAM::circle(4,1.0),delta);`
Pose2Config is now simply a typedef (note that for linking specific template instantiations were needed). 2010-01-11 00:17:55 +08:00			`CHECK(assert_equal(expected,actual));`
			`}`

pose2Circle 2010-01-10 23:46:18 +08:00			`/* ************************************************************************* */`
			`int main() {`
			`TestResult tr;`
			`return TestRegistry::runAllTests(tr);`
			`}`
			`/* ************************************************************************* */`