wpimath/src/test/native/cpp/geometry/Twist2dTest.cpp

// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.

#include <cmath>

#include <wpi/math>

#include "frc/geometry/Pose2d.h"
#include "gtest/gtest.h"

using namespace frc;

static constexpr double kEpsilon = 1E-9;

TEST(Twist2dTest, Straight) {
  const Twist2d straight{5.0_m, 0.0_m, 0.0_rad};
  const auto straightPose = Pose2d().Exp(straight);

  EXPECT_NEAR(straightPose.X().to<double>(), 5.0, kEpsilon);
  EXPECT_NEAR(straightPose.Y().to<double>(), 0.0, kEpsilon);
  EXPECT_NEAR(straightPose.Rotation().Radians().to<double>(), 0.0, kEpsilon);
}

TEST(Twist2dTest, QuarterCircle) {
  const Twist2d quarterCircle{5.0_m / 2.0 * wpi::math::pi, 0_m,
                              units::radian_t(wpi::math::pi / 2.0)};
  const auto quarterCirclePose = Pose2d().Exp(quarterCircle);

  EXPECT_NEAR(quarterCirclePose.X().to<double>(), 5.0, kEpsilon);
  EXPECT_NEAR(quarterCirclePose.Y().to<double>(), 5.0, kEpsilon);
  EXPECT_NEAR(quarterCirclePose.Rotation().Degrees().to<double>(), 90.0,
              kEpsilon);
}

TEST(Twist2dTest, DiagonalNoDtheta) {
  const Twist2d diagonal{2.0_m, 2.0_m, 0.0_deg};
  const auto diagonalPose = Pose2d().Exp(diagonal);

  EXPECT_NEAR(diagonalPose.X().to<double>(), 2.0, kEpsilon);
  EXPECT_NEAR(diagonalPose.Y().to<double>(), 2.0, kEpsilon);
  EXPECT_NEAR(diagonalPose.Rotation().Degrees().to<double>(), 0.0, kEpsilon);
}

TEST(Twist2dTest, Equality) {
  const Twist2d one{5.0_m, 1.0_m, 3.0_rad};
  const Twist2d two{5.0_m, 1.0_m, 3.0_rad};
  EXPECT_TRUE(one == two);
}

TEST(Twist2dTest, Inequality) {
  const Twist2d one{5.0_m, 1.0_m, 3.0_rad};
  const Twist2d two{5.0_m, 1.2_m, 3.0_rad};
  EXPECT_TRUE(one != two);
}

TEST(Twist2dTest, Pose2dLog) {
  const Pose2d end{5_m, 5_m, Rotation2d(90_deg)};
  const Pose2d start{};

  const auto twist = start.Log(end);

  EXPECT_NEAR(twist.dx.to<double>(), 5 / 2.0 * wpi::math::pi, kEpsilon);
  EXPECT_NEAR(twist.dy.to<double>(), 0.0, kEpsilon);
  EXPECT_NEAR(twist.dtheta.to<double>(), wpi::math::pi / 2.0, kEpsilon);
}
Remove year from file copyright message (NFC) (#2972) Also update copyright to include "and other WPILib contributors" and clarify license referral language to not be restricted to FIRST teams. 2020-12-26 14:12:05 -08:00			`// Copyright (c) FIRST and other WPILib contributors.`
			`// Open Source Software; you can modify and/or share it under the terms of`
			`// the WPILib BSD license file in the root directory of this project.`
Add geometry classes (#1766) These classes introduce ways to represent poses and provide easy ways to transform, rotate, and translate poses across 2d space. This classes will be especially useful for a planned odometry and kinematics suite. Furthermore, these classes can also be used to simply represent waypoints on a field, do superstructure motion planning, etc. 2019-07-24 02:57:39 -04:00
			`#include <cmath>`

wpilibc: Add unit-safety to C++ geometry classes (#1811) 2019-08-17 01:00:33 -04:00			`#include <wpi/math>`

Add geometry classes (#1766) These classes introduce ways to represent poses and provide easy ways to transform, rotate, and translate poses across 2d space. This classes will be especially useful for a planned odometry and kinematics suite. Furthermore, these classes can also be used to simply represent waypoints on a field, do superstructure motion planning, etc. 2019-07-24 02:57:39 -04:00			`#include "frc/geometry/Pose2d.h"`
			`#include "gtest/gtest.h"`

			`using namespace frc;`

			`static constexpr double kEpsilon = 1E-9;`

			`TEST(Twist2dTest, Straight) {`
wpilibc: Add unit-safety to C++ geometry classes (#1811) 2019-08-17 01:00:33 -04:00			`const Twist2d straight{5.0_m, 0.0_m, 0.0_rad};`
Add geometry classes (#1766) These classes introduce ways to represent poses and provide easy ways to transform, rotate, and translate poses across 2d space. This classes will be especially useful for a planned odometry and kinematics suite. Furthermore, these classes can also be used to simply represent waypoints on a field, do superstructure motion planning, etc. 2019-07-24 02:57:39 -04:00			`const auto straightPose = Pose2d().Exp(straight);`

[wpilib] Add X and Y component getters to Pose2d and Transform2d (#2563) pose.Translation().X() and pose.Translation.Y() are common operations, so shortening them to pose.X() and pose.Y() would be convenient. Java uses the getX() convention so that is used instead of X() for Java. 2020-07-02 18:09:36 -07:00			`EXPECT_NEAR(straightPose.X().to<double>(), 5.0, kEpsilon);`
			`EXPECT_NEAR(straightPose.Y().to<double>(), 0.0, kEpsilon);`
wpilibc: Add unit-safety to C++ geometry classes (#1811) 2019-08-17 01:00:33 -04:00			`EXPECT_NEAR(straightPose.Rotation().Radians().to<double>(), 0.0, kEpsilon);`
Add geometry classes (#1766) These classes introduce ways to represent poses and provide easy ways to transform, rotate, and translate poses across 2d space. This classes will be especially useful for a planned odometry and kinematics suite. Furthermore, these classes can also be used to simply represent waypoints on a field, do superstructure motion planning, etc. 2019-07-24 02:57:39 -04:00			`}`

			`TEST(Twist2dTest, QuarterCircle) {`
wpilibc: Add unit-safety to C++ geometry classes (#1811) 2019-08-17 01:00:33 -04:00			`const Twist2d quarterCircle{5.0_m / 2.0 * wpi::math::pi, 0_m,`
			`units::radian_t(wpi::math::pi / 2.0)};`
Add geometry classes (#1766) These classes introduce ways to represent poses and provide easy ways to transform, rotate, and translate poses across 2d space. This classes will be especially useful for a planned odometry and kinematics suite. Furthermore, these classes can also be used to simply represent waypoints on a field, do superstructure motion planning, etc. 2019-07-24 02:57:39 -04:00			`const auto quarterCirclePose = Pose2d().Exp(quarterCircle);`

[wpilib] Add X and Y component getters to Pose2d and Transform2d (#2563) pose.Translation().X() and pose.Translation.Y() are common operations, so shortening them to pose.X() and pose.Y() would be convenient. Java uses the getX() convention so that is used instead of X() for Java. 2020-07-02 18:09:36 -07:00			`EXPECT_NEAR(quarterCirclePose.X().to<double>(), 5.0, kEpsilon);`
			`EXPECT_NEAR(quarterCirclePose.Y().to<double>(), 5.0, kEpsilon);`
wpilibc: Add unit-safety to C++ geometry classes (#1811) 2019-08-17 01:00:33 -04:00			`EXPECT_NEAR(quarterCirclePose.Rotation().Degrees().to<double>(), 90.0,`
			`kEpsilon);`
Add geometry classes (#1766) These classes introduce ways to represent poses and provide easy ways to transform, rotate, and translate poses across 2d space. This classes will be especially useful for a planned odometry and kinematics suite. Furthermore, these classes can also be used to simply represent waypoints on a field, do superstructure motion planning, etc. 2019-07-24 02:57:39 -04:00			`}`

			`TEST(Twist2dTest, DiagonalNoDtheta) {`
wpilibc: Add unit-safety to C++ geometry classes (#1811) 2019-08-17 01:00:33 -04:00			`const Twist2d diagonal{2.0_m, 2.0_m, 0.0_deg};`
Add geometry classes (#1766) These classes introduce ways to represent poses and provide easy ways to transform, rotate, and translate poses across 2d space. This classes will be especially useful for a planned odometry and kinematics suite. Furthermore, these classes can also be used to simply represent waypoints on a field, do superstructure motion planning, etc. 2019-07-24 02:57:39 -04:00			`const auto diagonalPose = Pose2d().Exp(diagonal);`

[wpilib] Add X and Y component getters to Pose2d and Transform2d (#2563) pose.Translation().X() and pose.Translation.Y() are common operations, so shortening them to pose.X() and pose.Y() would be convenient. Java uses the getX() convention so that is used instead of X() for Java. 2020-07-02 18:09:36 -07:00			`EXPECT_NEAR(diagonalPose.X().to<double>(), 2.0, kEpsilon);`
			`EXPECT_NEAR(diagonalPose.Y().to<double>(), 2.0, kEpsilon);`
wpilibc: Add unit-safety to C++ geometry classes (#1811) 2019-08-17 01:00:33 -04:00			`EXPECT_NEAR(diagonalPose.Rotation().Degrees().to<double>(), 0.0, kEpsilon);`
Add geometry classes (#1766) These classes introduce ways to represent poses and provide easy ways to transform, rotate, and translate poses across 2d space. This classes will be especially useful for a planned odometry and kinematics suite. Furthermore, these classes can also be used to simply represent waypoints on a field, do superstructure motion planning, etc. 2019-07-24 02:57:39 -04:00			`}`
Add equality comparator to geometry classes (#1882) 2019-09-08 14:20:26 -04:00
			`TEST(Twist2dTest, Equality) {`
			`const Twist2d one{5.0_m, 1.0_m, 3.0_rad};`
			`const Twist2d two{5.0_m, 1.0_m, 3.0_rad};`
			`EXPECT_TRUE(one == two);`
			`}`

			`TEST(Twist2dTest, Inequality) {`
			`const Twist2d one{5.0_m, 1.0_m, 3.0_rad};`
			`const Twist2d two{5.0_m, 1.2_m, 3.0_rad};`
			`EXPECT_TRUE(one != two);`
			`}`
Add trajectory generation using hermite splines (#1843) 2019-09-28 18:40:56 -04:00
			`TEST(Twist2dTest, Pose2dLog) {`
			`const Pose2d end{5_m, 5_m, Rotation2d(90_deg)};`
			`const Pose2d start{};`

			`const auto twist = start.Log(end);`

			`EXPECT_NEAR(twist.dx.to<double>(), 5 / 2.0 * wpi::math::pi, kEpsilon);`
			`EXPECT_NEAR(twist.dy.to<double>(), 0.0, kEpsilon);`
			`EXPECT_NEAR(twist.dtheta.to<double>(), wpi::math::pi / 2.0, kEpsilon);`
			`}`