#[doc = " Generic functions that have been defined for all numeric types (may very well go away again soon) "]; #[doc = "Returns the minimum of two values"] pure fn min(x: T, y: T) -> T { if x < y { x } else { y} } #[doc = "Returns the maximum of two values"] pure fn max(x: T, y: T) -> T { if x < y { y } else { x } } #[test] fn test_max_min() { assert max(0, 1) == 1; assert min(0, 1) == 0; assert max(0, -1) == 0; assert min(0, -1) == -1; assert max(0.0, 1.0) == 1.0; assert min(0.0, 1.0) == 0.0; } // FIXME use macros to execute the tests below for all float types /* #[test] fn test_trig() { assert sin(0.0) == 0.0; assert sin(-0.0) == 0.0; assert float::isNaN(sin(float::infinity)); assert float::isNaN(sin(float::neg_infinity)); assert cos(0.0) == 1.0; assert cos(-0.0) == 1.0; assert float::isNaN(cos(float::infinity)); assert float::isNaN(cos(float::neg_infinity)); assert tan(0.0) == 0.0; assert tan(-0.0) == 0.0;; assert float::isNaN(tan(float::infinity)); assert float::isNaN(tan(float::neg_infinity)); } #[test] fn test_inv_trig() { assert asin(0.0) == 0.0; assert asin(-0.0) == -0.0; assert float::isNaN(asin(1.1)); assert float::isNaN(asin(-1.1)); assert acos(1.0) == 0.0; assert float::isNaN(acos(1.1)); assert float::isNaN(acos(-1.1)); assert atan(0.0) == 0.0; assert atan(-0.0) == 0.0; assert atan(float::infinity) == consts::frac_pi_2; assert atan(float::neg_infinity) == - consts::frac_pi_2; assert atan2(0.0, -0.0) == consts::pi; assert atan2(-0.0, -0.0) == -consts::pi; assert atan2(0.0, 0.0) == 0.0; assert atan2(-0.0, 0.0) == -0.0; assert atan2(0.0, -1.0) == consts::pi; assert atan2(-0.0, -1.0) == -consts::pi; assert atan2(0.0, 1.0) == 0.0; assert atan2(-0.0, 1.0) == -0.0; assert atan2(1.0, 0.0) == consts::frac_pi_2; assert atan2(1.0, -0.0) == consts::frac_pi_2; } // FIXME (1222): The commented-out tests give different results on windows #[test] fn test_pow() { assert pow(2.0, 4.0) == 16.0; assert pow(0.0, -3.0) == float::infinity; assert pow(-0.0, -3.0) == float::neg_infinity; assert pow(0.0, -4.0) == float::infinity; assert pow(-0.0, -4.0) == float::infinity; assert pow(0.0, 3.0) == 0.0; assert pow(-0.0, 3.0) == -0.0; assert pow(0.0, 4.0) == 0.0; assert pow(-0.0, 4.0) == 0.0; assert pow(-1.0, float::infinity) == 1.0; //assert pow(-1.0, float::neg_infinity) == 1.0; assert pow(1.0, 4.0) == 1.0; assert pow(1.0, 0.0) == 1.0; assert pow(1.0, -0.0) == 1.0; //assert pow(1.0, float::NaN) == 1.0; assert pow(1.0, float::infinity) == 1.0; //assert pow(1.0, float::neg_infinity) == 1.0; assert pow(1.0, -3.0) == 1.0; assert pow(1.0, -4.0) == 1.0; assert pow(4.0, 0.0) == 1.0; assert pow(0.0, 0.0) == 1.0; assert pow(-0.0, 0.0) == 1.0; //assert pow(float::NaN, 0.0) == 1.0; assert pow(float::infinity, 0.0) == 1.0; assert pow(float::neg_infinity, 0.0) == 1.0; assert pow(-3.0, 0.0) == 1.0; assert pow(-4.0, 0.0) == 1.0; assert pow(4.0, -0.0) == 1.0; assert pow(0.0, -0.0) == 1.0; assert pow(-0.0, -0.0) == 1.0; //assert pow(float::NaN, -0.0) == 1.0; assert pow(float::infinity, -0.0) == 1.0; assert pow(float::neg_infinity, -0.0) == 1.0; assert pow(-3.0, -0.0) == 1.0; assert pow(-4.0, -0.0) == 1.0; assert float::isNaN(pow(-1.0, -1.5)); assert float::isNaN(pow(-1.0, 1.5)); assert float::isNaN(pow(-1.2, -1.5)); assert float::isNaN(pow(-1.2, 1.5)); assert pow(0.5, float::neg_infinity) == float::infinity; assert pow(-0.5, float::neg_infinity) == float::infinity; assert pow(1.5, float::neg_infinity) == 0.0; assert pow(-1.5, float::neg_infinity) == 0.0; assert pow(0.5, float::infinity) == 0.0; assert pow(-0.5, float::infinity) == 0.0; assert pow(-1.5, float::infinity) == float::infinity; assert pow(1.5, float::infinity) == float::infinity; assert pow(float::neg_infinity, -3.0) == -0.0; assert pow(float::neg_infinity, -4.0) == 0.0; assert pow(float::neg_infinity, 3.0) == float::neg_infinity; assert pow(float::neg_infinity, 4.0) == float::infinity; assert pow(float::infinity, -16.0) == 0.0; assert pow(float::infinity, 16.0) == float::infinity; } // FIXME (1222): The commented-out tests give different results on windows #[test] fn test_exp_and_mod() { assert exp(0.0) == 1.0; assert exp(-0.0) == 1.0; assert exp(float::neg_infinity) == 0.0; assert exp(float::infinity) == float::infinity; let d1: c_int = 1 as c_int; assert frexp(0.0, d1) == 0.0; assert frexp(-0.0, d1) == 0.0; //assert frexp(float::infinity, d1) == float::infinity; //assert frexp(float::neg_infinity, d1) == float::neg_infinity; assert float::isNaN(frexp(float::NaN, d1)); let d2: float = 1.0; assert modf(float::infinity, d2) == 0.0; assert d2 == float::infinity; assert modf(float::neg_infinity, d2) == -0.0; assert d2 == float::neg_infinity; assert float::isNaN(modf(float::NaN, d2)); assert float::isNaN(d2); } #[test] fn test_round_and_abs() { assert abs(0.0) == 0.0; assert abs(-0.0) == 0.0; assert abs(float::infinity) == float::infinity; assert abs(float::neg_infinity) == float::infinity; assert abs(-2.5) == 2.5; assert abs(2.5) == 2.5; assert ceil(0.0) == 0.0; assert ceil(-0.0) == -0.0; assert ceil(float::infinity) == float::infinity; assert ceil(float::neg_infinity) == float::neg_infinity; assert ceil(1.9) == 2.0; assert ceil(-1.9) == -1.0; assert floor(0.0) == 0.0; assert floor(-0.0) == -0.0; assert floor(float::infinity) == float::infinity; assert floor(float::neg_infinity) == float::neg_infinity; assert floor(1.9) == 1.0; assert floor(-1.9) == -2.0; assert trunc(0.0) == 0.0; assert trunc(-0.0) == -0.0; assert trunc(float::infinity) == float::infinity; assert trunc(float::neg_infinity) == float::neg_infinity; assert trunc(1.5) == 1.0; assert trunc(1.2) == 1.0; assert trunc(1.0) == 1.0; assert trunc(1.9) == 1.0; assert trunc(-1.5) == -1.0; assert trunc(-1.2) == -1.0; assert trunc(-1.0) == -1.0; assert trunc(-1.9) == -1.0; assert round(0.0) == 0.0; assert round(-0.0) == -0.0; assert round(float::infinity) == float::infinity; assert round(float::neg_infinity) == float::neg_infinity; assert rint(0.0) == 0.0; assert rint(-0.0) == -0.0; assert rint(float::infinity) == float::infinity; assert rint(float::neg_infinity) == float::neg_infinity; } #[test] fn test_hyp_trig() { assert sinh(0.0) == 0.0; assert sinh(-0.0) == 0.0; assert sinh(float::infinity) == float::infinity; assert sinh(float::neg_infinity) == float::neg_infinity; assert cosh(0.0) == 1.0; assert cosh(-0.0) == 1.0; assert cosh(float::infinity) == float::infinity; assert cosh(float::neg_infinity) == float::infinity; assert tanh(0.0) == 0.0; assert tanh(-0.0) == 0.0; assert tanh(float::infinity) == 1.0; assert tanh(float::neg_infinity) == -1.0; } #[test] fn test_sqrt() { assert sqrt(9.0) == 3.0; assert sqrt(4.0) == 2.0; assert sqrt(1.0) == 1.0; assert sqrt(0.0) == 0.0; } #[test] fn test_angle() { fn angle(vec: (float, float)) -> float { alt vec { (0f, y) if y < 0f { 1.5 * consts::pi } (0f, y) { 0.5 * consts::pi } (x, y) { float::atan(y / x) } } } assert angle((1f, 0f)) == 0f; assert angle((1f, 1f)) == 0.25 * consts::pi; assert angle((0f, 1f)) == 0.5 * consts::pi; } #[test] fn test_log_functions() { assert ln(1.0) == 0.0; assert log2(1.0) == 0.0; assert log10(1.0) == 0.0; // FIXME remove round-up due to valgrind weirdness assert ceil(ln(consts::e)) == 1.0; /* ln(e) == 0.999.. under valgrind */ assert log2(2.0) == 1.0; assert log10(10.0) == 1.0; // FIXME remove round-up due to valgrind weirdness assert ceil(ln(consts::e*consts::e*consts::e*consts::e)) == 4.0; assert log2(256.0) == 8.0; assert log10(1000.0) == 3.0; assert ln(0.0) == float::neg_infinity; assert log2(0.0) == float::neg_infinity; assert log10(0.0) == float::neg_infinity; assert ln(-0.0) == float::neg_infinity; assert log2(-0.0) == float::neg_infinity; assert log10(-0.0) == float::neg_infinity; assert float::isNaN(ln(-1.0)); assert float::isNaN(log2(-1.0)); assert float::isNaN(log10(-1.0)); assert ln(float::infinity) == float::infinity; assert log2(float::infinity) == float::infinity; assert log10(float::infinity) == float::infinity; assert ln1p(0.0) == 0.0; assert ln1p(-0.0) == 0.0; assert ln1p(-1.0) == float::neg_infinity; assert float::isNaN(ln1p(-2.0f)); assert ln1p(float::infinity) == float::infinity; } */