cgmath/tests/quaternion.rs

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// Copyright 2013-2014 The CGMath Developers. For a full listing of the authors,
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// refer to the Cargo.toml file at the top-level directory of this distribution.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
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#[macro_use]
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extern crate cgmath;
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mod to_from_euler {
use std::f32;
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use cgmath::*;
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fn check_euler(pitch: Rad<f32>, yaw: Rad<f32>, roll: Rad<f32>) {
let quat = Quaternion::from_euler(pitch, yaw, roll);
let (found_pitch, found_yaw, found_roll) = quat.to_euler();
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assert_approx_eq_eps!(pitch, found_pitch, 0.001);
assert_approx_eq_eps!(yaw, found_yaw, 0.001);
assert_approx_eq_eps!(roll, found_roll, 0.001);
}
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const HPI: f32 = f32::consts::FRAC_PI_2;
#[test] fn test_zero() { check_euler(rad(0f32), rad(0f32), rad(0f32)); }
#[test] fn test_yaw_pos_1() { check_euler(rad(0f32), rad(1f32), rad(0f32)); }
#[test] fn test_yaw_neg_1() { check_euler(rad(0f32), rad(-1f32), rad(0f32)); }
#[test] fn test_pitch_pos_1() { check_euler(rad(1f32), rad(0f32), rad(0f32)); }
#[test] fn test_pitch_neg_1() { check_euler(rad(-1f32), rad(0f32), rad(0f32)); }
#[test] fn test_roll_pos_1() { check_euler(rad(0f32), rad(0f32), rad(1f32)); }
#[test] fn test_roll_neg_1() { check_euler(rad(0f32), rad(0f32), rad(-1f32)); }
#[test] fn test_pitch_yaw_roll_pos_1() { check_euler(rad(1f32), rad(1f32), rad(1f32)); }
#[test] fn test_pitch_yaw_roll_neg_1() { check_euler(rad(-1f32), rad(-1f32), rad(-1f32)); }
#[test] fn test_pitch_yaw_roll_pos_hp() { check_euler(rad(0f32), rad(HPI), rad(1f32)); }
#[test] fn test_pitch_yaw_roll_neg_hp() { check_euler(rad(0f32), rad(-HPI), rad(1f32)); }
}
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mod from {
mod matrix3 {
use cgmath::*;
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fn check_with_euler(x: Rad<f32>, y: Rad<f32>, z: Rad<f32>) {
let matrix3 = Matrix3::from_euler(x, y, z);
let quaternion = Quaternion::from(matrix3);
let quaternion_matrix3 = Matrix3::from(quaternion);
assert_approx_eq!(matrix3, quaternion_matrix3);
}
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// triggers: trace >= S::zero()
#[test]
fn test_positive_trace() {
check_with_euler(rad(0.0f32), rad(0.0), rad(0.0f32));
}
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// triggers: (mat[0][0] > mat[1][1]) && (mat[0][0] > mat[2][2])
#[test]
fn test_xx_maximum() {
check_with_euler(rad(2.0f32), rad(1.0), rad(-1.2f32));
}
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// triggers: mat[1][1] > mat[2][2]
#[test]
fn test_yy_maximum() {
check_with_euler(rad(2.0f32), rad(1.0), rad(3.0f32));
}
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// base case
#[test]
fn test_zz_maximum() {
check_with_euler(rad(1.0f32), rad(1.0), rad(3.0f32));
}
}
}