// =====================================================================================================================
// fennec, a free and open source game engine
// Copyright © 2025 Medusa Slockbower
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see .
// =====================================================================================================================
#ifndef FENNEC_TEST_MATH_TRIGONOMETRIC_H
#define FENNEC_TEST_MATH_TRIGONOMETRIC_H
#include
#include
#include "../../test.h"
namespace fennec
{
namespace test
{
inline void fennec_test_math_trigonometric()
{
fennec_test_section("angle conversions");
fennec_test_spacer(1);
fennec_test_run(fennec::radians( 45.0f), fennec::quarter_pi());
fennec_test_run(fennec::radians( 90.0f), fennec::half_pi());
fennec_test_run(fennec::radians(180.0f), fennec::pi());
fennec_test_run(fennec::radians(270.0f), fennec::three_halves_pi());
fennec_test_run(fennec::radians(360.0f), fennec::two_pi());
fennec_test_spacer(1);
fennec_test_run(fennec::degrees(fennec::quarter_pi()), 45.0f);
fennec_test_run(fennec::degrees(fennec::half_pi()), 90.0f);
fennec_test_run(fennec::degrees(fennec::pi()), 180.0f);
fennec_test_run(fennec::degrees(fennec::three_halves_pi()), 270.0f);
fennec_test_run(fennec::degrees(fennec::two_pi()), 360.0f);
fennec_test_spacer(2);
fennec_test_section("trig functions");
fennec_test_spacer(1);
fennec_test_run(fennec::sin(fennec::sixth_pi()), one_half());
fennec_test_run(fennec::cos(fennec::sixth_pi()), sqrt_three() / 2.0f);
fennec_test_run(fennec::tan(fennec::sixth_pi()), sqrt_three() / 3.0f);
fennec_test_spacer(1);
fennec_test_run(fennec::asin(one_half()), fennec::sixth_pi());
fennec_test_run(fennec::acos(sqrt_three() / 2.0f), fennec::sixth_pi());
fennec_test_run(fennec::atan(sqrt_three() / 3.0f), fennec::sixth_pi());
fennec_test_spacer(2);
fennec_test_run(fennec::sin(fennec::quarter_pi()), sqrt_two() / 2.0f);
fennec_test_run(fennec::cos(fennec::quarter_pi()), sqrt_two() / 2.0f);
fennec_test_run(fennec::tan(fennec::quarter_pi()), 1.0f);
fennec_test_spacer(1);
fennec_test_run(fennec::asin(sqrt_two() / 2.0f), fennec::quarter_pi());
fennec_test_run(fennec::acos(sqrt_two() / 2.0f), fennec::quarter_pi());
fennec_test_run(fennec::atan(1.0f), fennec::quarter_pi());
fennec_test_spacer(2);
fennec_test_section("hyperbolic functions");
fennec_test_spacer(1);
fennec_test_run(fennec::sinh(0.0f), 0.0f);
fennec_test_run(fennec::cosh(0.0f), 1.0f);
fennec_test_run(fennec::tanh(0.0f), 0.0f);
fennec_test_spacer(1);
fennec_test_run(fennec::asinh(0.0f), 0.0f);
fennec_test_run(fennec::acosh(1.0f), 0.0f);
fennec_test_run(fennec::atanh(0.0f), 0.0f);
fennec_test_spacer(2);
fennec_test_run(fennec::sinh(1.0f), (fennec::e() - fennec::one_over_e()) / 2.0f);
fennec_test_run(fennec::cosh(1.0f), (fennec::e() + fennec::one_over_e()) / 2.0f);
fennec_test_run(fennec::tanh(1.0f), ((fennec::e_raised_two() - 1) / (fennec::e_raised_two() + 1)));
fennec_test_spacer(1);
fennec_test_run(fennec::asinh((fennec::e() - fennec::one_over_e()) / 2.0f), 1.0f);
fennec_test_run(fennec::acosh((fennec::e() + fennec::one_over_e()) / 2.0f), 1.0f);
fennec_test_run(fennec::atanh(((fennec::e_raised_two() - 1) / (fennec::e_raised_two() + 1))), 1.0f);
fennec_test_spacer(2);
}
}
}
#endif // FENNEC_TEST_MATH_TRIGONOMETRIC_H