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allwpilib/wpimath/src/test/native/cpp/kinematics/ChassisAccelerationsTest.cpp

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// 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 "wpi/math/kinematics/ChassisAccelerations.hpp"
#include <numbers>
#include <gtest/gtest.h>
#include "wpi/units/acceleration.hpp"
#include "wpi/units/angular_acceleration.hpp"
using namespace wpi::math;
static constexpr double kEpsilon = 1E-9;
TEST(ChassisAccelerationsTest, DefaultConstructor) {
ChassisAccelerations accelerations;
EXPECT_NEAR(accelerations.ax.value(), 0.0, kEpsilon);
EXPECT_NEAR(accelerations.ay.value(), 0.0, kEpsilon);
EXPECT_NEAR(accelerations.alpha.value(), 0.0, kEpsilon);
}
TEST(ChassisAccelerationsTest, ParameterizedConstructor) {
ChassisAccelerations accelerations{1.0_mps_sq, 2.0_mps_sq, 3.0_rad_per_s_sq};
EXPECT_NEAR(accelerations.ax.value(), 1.0, kEpsilon);
EXPECT_NEAR(accelerations.ay.value(), 2.0, kEpsilon);
EXPECT_NEAR(accelerations.alpha.value(), 3.0, kEpsilon);
}
TEST(ChassisAccelerationsTest, ToRobotRelative) {
const auto chassisAccelerations =
ChassisAccelerations{1.0_mps_sq, 0.0_mps_sq, 0.5_rad_per_s_sq}
.ToRobotRelative(Rotation2d{-90_deg});
EXPECT_NEAR(chassisAccelerations.ax.value(), 0.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.ay.value(), 1.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.alpha.value(), 0.5, kEpsilon);
}
TEST(ChassisAccelerationsTest, ToFieldRelative) {
const auto chassisAccelerations =
ChassisAccelerations{1.0_mps_sq, 0.0_mps_sq, 0.5_rad_per_s_sq}
.ToFieldRelative(Rotation2d{45_deg});
EXPECT_NEAR(chassisAccelerations.ax.value(), 1.0 / std::sqrt(2.0), kEpsilon);
EXPECT_NEAR(chassisAccelerations.ay.value(), 1.0 / std::sqrt(2.0), kEpsilon);
EXPECT_NEAR(chassisAccelerations.alpha.value(), 0.5, kEpsilon);
}
TEST(ChassisAccelerationsTest, Plus) {
const ChassisAccelerations left{1.0_mps_sq, 0.5_mps_sq, 0.75_rad_per_s_sq};
const ChassisAccelerations right{2.0_mps_sq, 1.5_mps_sq, 0.25_rad_per_s_sq};
const auto chassisAccelerations = left + right;
EXPECT_NEAR(chassisAccelerations.ax.value(), 3.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.ay.value(), 2.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.alpha.value(), 1.0, kEpsilon);
}
TEST(ChassisAccelerationsTest, Minus) {
const ChassisAccelerations left{1.0_mps_sq, 0.5_mps_sq, 0.75_rad_per_s_sq};
const ChassisAccelerations right{2.0_mps_sq, 0.5_mps_sq, 0.25_rad_per_s_sq};
const auto chassisAccelerations = left - right;
EXPECT_NEAR(chassisAccelerations.ax.value(), -1.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.ay.value(), 0.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.alpha.value(), 0.5, kEpsilon);
}
TEST(ChassisAccelerationsTest, UnaryMinus) {
const auto chassisAccelerations =
-ChassisAccelerations{1.0_mps_sq, 0.5_mps_sq, 0.75_rad_per_s_sq};
EXPECT_NEAR(chassisAccelerations.ax.value(), -1.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.ay.value(), -0.5, kEpsilon);
EXPECT_NEAR(chassisAccelerations.alpha.value(), -0.75, kEpsilon);
}
TEST(ChassisAccelerationsTest, Multiplication) {
const auto chassisAccelerations =
ChassisAccelerations{1.0_mps_sq, 0.5_mps_sq, 0.75_rad_per_s_sq} * 2.0;
EXPECT_NEAR(chassisAccelerations.ax.value(), 2.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.ay.value(), 1.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.alpha.value(), 1.5, kEpsilon);
}
TEST(ChassisAccelerationsTest, Division) {
const auto chassisAccelerations =
ChassisAccelerations{2.0_mps_sq, 1.0_mps_sq, 1.5_rad_per_s_sq} / 2.0;
EXPECT_NEAR(chassisAccelerations.ax.value(), 1.0, kEpsilon);
EXPECT_NEAR(chassisAccelerations.ay.value(), 0.5, kEpsilon);
EXPECT_NEAR(chassisAccelerations.alpha.value(), 0.75, kEpsilon);
}