/// Implements a test on a unary operation using proptest. /// /// Compares the vector operation to the equivalent scalar operation. #[macro_export] macro_rules! impl_unary_op_test { { $vector:ty, $scalar:ty, $trait:ident :: $fn:ident, $scalar_fn:expr } => { test_helpers::test_lanes! { fn $fn() { test_helpers::test_unary_elementwise( &<$vector as core::ops::$trait>::$fn, &$scalar_fn, &|_| true, ); } } }; { $vector:ty, $scalar:ty, $trait:ident :: $fn:ident } => { impl_unary_op_test! { $vector, $scalar, $trait::$fn, <$scalar as core::ops::$trait>::$fn } }; } /// Implements a test on a binary operation using proptest. /// /// Compares the vector operation to the equivalent scalar operation. #[macro_export] macro_rules! impl_binary_op_test { { $vector:ty, $scalar:ty, $trait:ident :: $fn:ident, $trait_assign:ident :: $fn_assign:ident, $scalar_fn:expr } => { mod $fn { use super::*; test_helpers::test_lanes! { fn normal() { test_helpers::test_binary_elementwise( &<$vector as core::ops::$trait>::$fn, &$scalar_fn, &|_, _| true, ); } fn scalar_rhs() { test_helpers::test_binary_scalar_rhs_elementwise( &<$vector as core::ops::$trait<$scalar>>::$fn, &$scalar_fn, &|_, _| true, ); } fn scalar_lhs() { test_helpers::test_binary_scalar_lhs_elementwise( &<$scalar as core::ops::$trait<$vector>>::$fn, &$scalar_fn, &|_, _| true, ); } fn assign() { test_helpers::test_binary_elementwise( &|mut a, b| { <$vector as core::ops::$trait_assign>::$fn_assign(&mut a, b); a }, &$scalar_fn, &|_, _| true, ); } fn assign_scalar_rhs() { test_helpers::test_binary_scalar_rhs_elementwise( &|mut a, b| { <$vector as core::ops::$trait_assign<$scalar>>::$fn_assign(&mut a, b); a }, &$scalar_fn, &|_, _| true, ); } } } }; { $vector:ty, $scalar:ty, $trait:ident :: $fn:ident, $trait_assign:ident :: $fn_assign:ident } => { impl_binary_op_test! { $vector, $scalar, $trait::$fn, $trait_assign::$fn_assign, <$scalar as core::ops::$trait>::$fn } }; } /// Implements a test on a binary operation using proptest. /// /// Like `impl_binary_op_test`, but allows providing a function for rejecting particular inputs /// (like the `proptest_assume` macro). /// /// Compares the vector operation to the equivalent scalar operation. #[macro_export] macro_rules! impl_binary_checked_op_test { { $vector:ty, $scalar:ty, $trait:ident :: $fn:ident, $trait_assign:ident :: $fn_assign:ident, $scalar_fn:expr, $check_fn:expr } => { mod $fn { use super::*; test_helpers::test_lanes! { fn normal() { test_helpers::test_binary_elementwise( &<$vector as core::ops::$trait>::$fn, &$scalar_fn, &|x, y| x.iter().zip(y.iter()).all(|(x, y)| $check_fn(*x, *y)), ); } fn scalar_rhs() { test_helpers::test_binary_scalar_rhs_elementwise( &<$vector as core::ops::$trait<$scalar>>::$fn, &$scalar_fn, &|x, y| x.iter().all(|x| $check_fn(*x, y)), ); } fn scalar_lhs() { test_helpers::test_binary_scalar_lhs_elementwise( &<$scalar as core::ops::$trait<$vector>>::$fn, &$scalar_fn, &|x, y| y.iter().all(|y| $check_fn(x, *y)), ); } fn assign() { test_helpers::test_binary_elementwise( &|mut a, b| { <$vector as core::ops::$trait_assign>::$fn_assign(&mut a, b); a }, &$scalar_fn, &|x, y| x.iter().zip(y.iter()).all(|(x, y)| $check_fn(*x, *y)), ) } fn assign_scalar_rhs() { test_helpers::test_binary_scalar_rhs_elementwise( &|mut a, b| { <$vector as core::ops::$trait_assign<$scalar>>::$fn_assign(&mut a, b); a }, &$scalar_fn, &|x, y| x.iter().all(|x| $check_fn(*x, y)), ) } } } }; { $vector:ty, $scalar:ty, $trait:ident :: $fn:ident, $trait_assign:ident :: $fn_assign:ident, $check_fn:expr } => { impl_binary_nonzero_rhs_op_test! { $vector, $scalar, $trait::$fn, $trait_assign::$fn_assign, <$scalar as core::ops::$trait>::$fn, $check_fn } }; } #[macro_export] macro_rules! impl_common_integer_tests { { $vector:ident, $scalar:ident } => { test_helpers::test_lanes! { fn horizontal_sum() { test_helpers::test_1(&|x| { test_helpers::prop_assert_biteq! ( $vector::::from_array(x).horizontal_sum(), x.iter().copied().fold(0 as $scalar, $scalar::wrapping_add), ); Ok(()) }); } fn horizontal_product() { test_helpers::test_1(&|x| { test_helpers::prop_assert_biteq! ( $vector::::from_array(x).horizontal_product(), x.iter().copied().fold(1 as $scalar, $scalar::wrapping_mul), ); Ok(()) }); } fn horizontal_and() { test_helpers::test_1(&|x| { test_helpers::prop_assert_biteq! ( $vector::::from_array(x).horizontal_and(), x.iter().copied().fold(-1i8 as $scalar, <$scalar as core::ops::BitAnd>::bitand), ); Ok(()) }); } fn horizontal_or() { test_helpers::test_1(&|x| { test_helpers::prop_assert_biteq! ( $vector::::from_array(x).horizontal_or(), x.iter().copied().fold(0 as $scalar, <$scalar as core::ops::BitOr>::bitor), ); Ok(()) }); } fn horizontal_xor() { test_helpers::test_1(&|x| { test_helpers::prop_assert_biteq! ( $vector::::from_array(x).horizontal_xor(), x.iter().copied().fold(0 as $scalar, <$scalar as core::ops::BitXor>::bitxor), ); Ok(()) }); } fn horizontal_max() { test_helpers::test_1(&|x| { test_helpers::prop_assert_biteq! ( $vector::::from_array(x).horizontal_max(), x.iter().copied().max().unwrap(), ); Ok(()) }); } fn horizontal_min() { test_helpers::test_1(&|x| { test_helpers::prop_assert_biteq! ( $vector::::from_array(x).horizontal_min(), x.iter().copied().min().unwrap(), ); Ok(()) }); } } } } /// Implement tests for signed integers. #[macro_export] macro_rules! impl_signed_tests { { $vector:ident, $scalar:tt } => { mod $scalar { type Vector = core_simd::$vector; type Scalar = $scalar; impl_common_integer_tests! { Vector, Scalar } test_helpers::test_lanes! { fn neg() { test_helpers::test_unary_elementwise( & as core::ops::Neg>::neg, &::neg, &|x| !x.contains(&Scalar::MIN), ); } fn is_positive() { test_helpers::test_unary_mask_elementwise( &Vector::::is_positive, &Scalar::is_positive, &|_| true, ); } fn is_negative() { test_helpers::test_unary_mask_elementwise( &Vector::::is_negative, &Scalar::is_negative, &|_| true, ); } fn signum() { test_helpers::test_unary_elementwise( &Vector::::signum, &Scalar::signum, &|_| true, ) } } test_helpers::test_lanes_panic! { fn div_min_overflow_panics() { let a = Vector::::splat(Scalar::MIN); let b = Vector::::splat(-1); let _ = a / b; } fn div_by_all_zeros_panics() { let a = Vector::::splat(42); let b = Vector::::splat(0); let _ = a / b; } fn div_by_one_zero_panics() { let a = Vector::::splat(42); let mut b = Vector::::splat(21); b[0] = 0 as _; let _ = a / b; } fn rem_min_overflow_panic() { let a = Vector::::splat(Scalar::MIN); let b = Vector::::splat(-1); let _ = a % b; } fn rem_zero_panic() { let a = Vector::::splat(42); let b = Vector::::splat(0); let _ = a % b; } } test_helpers::test_lanes! { fn div_neg_one_no_panic() { let a = Vector::::splat(42); let b = Vector::::splat(-1); let _ = a / b; } fn rem_neg_one_no_panic() { let a = Vector::::splat(42); let b = Vector::::splat(-1); let _ = a % b; } } impl_binary_op_test!(Vector, Scalar, Add::add, AddAssign::add_assign, Scalar::wrapping_add); impl_binary_op_test!(Vector, Scalar, Sub::sub, SubAssign::sub_assign, Scalar::wrapping_sub); impl_binary_op_test!(Vector, Scalar, Mul::mul, MulAssign::mul_assign, Scalar::wrapping_mul); // Exclude Div and Rem panicking cases impl_binary_checked_op_test!(Vector, Scalar, Div::div, DivAssign::div_assign, Scalar::wrapping_div, |x, y| y != 0 && !(x == Scalar::MIN && y == -1)); impl_binary_checked_op_test!(Vector, Scalar, Rem::rem, RemAssign::rem_assign, Scalar::wrapping_rem, |x, y| y != 0 && !(x == Scalar::MIN && y == -1)); impl_unary_op_test!(Vector, Scalar, Not::not); impl_binary_op_test!(Vector, Scalar, BitAnd::bitand, BitAndAssign::bitand_assign); impl_binary_op_test!(Vector, Scalar, BitOr::bitor, BitOrAssign::bitor_assign); impl_binary_op_test!(Vector, Scalar, BitXor::bitxor, BitXorAssign::bitxor_assign); } } } /// Implement tests for unsigned integers. #[macro_export] macro_rules! impl_unsigned_tests { { $vector:ident, $scalar:tt } => { mod $scalar { type Vector = core_simd::$vector; type Scalar = $scalar; impl_common_integer_tests! { Vector, Scalar } test_helpers::test_lanes_panic! { fn rem_zero_panic() { let a = Vector::::splat(42); let b = Vector::::splat(0); let _ = a % b; } } impl_binary_op_test!(Vector, Scalar, Add::add, AddAssign::add_assign, Scalar::wrapping_add); impl_binary_op_test!(Vector, Scalar, Sub::sub, SubAssign::sub_assign, Scalar::wrapping_sub); impl_binary_op_test!(Vector, Scalar, Mul::mul, MulAssign::mul_assign, Scalar::wrapping_mul); // Exclude Div and Rem panicking cases impl_binary_checked_op_test!(Vector, Scalar, Div::div, DivAssign::div_assign, Scalar::wrapping_div, |_, y| y != 0); impl_binary_checked_op_test!(Vector, Scalar, Rem::rem, RemAssign::rem_assign, Scalar::wrapping_rem, |_, y| y != 0); impl_unary_op_test!(Vector, Scalar, Not::not); impl_binary_op_test!(Vector, Scalar, BitAnd::bitand, BitAndAssign::bitand_assign); impl_binary_op_test!(Vector, Scalar, BitOr::bitor, BitOrAssign::bitor_assign); impl_binary_op_test!(Vector, Scalar, BitXor::bitxor, BitXorAssign::bitxor_assign); } } } /// Implement tests for floating point numbers. #[macro_export] macro_rules! impl_float_tests { { $vector:ident, $scalar:tt, $int_scalar:tt } => { mod $scalar { type Vector = core_simd::$vector; type Scalar = $scalar; impl_unary_op_test!(Vector, Scalar, Neg::neg); impl_binary_op_test!(Vector, Scalar, Add::add, AddAssign::add_assign); impl_binary_op_test!(Vector, Scalar, Sub::sub, SubAssign::sub_assign); impl_binary_op_test!(Vector, Scalar, Mul::mul, MulAssign::mul_assign); impl_binary_op_test!(Vector, Scalar, Div::div, DivAssign::div_assign); impl_binary_op_test!(Vector, Scalar, Rem::rem, RemAssign::rem_assign); test_helpers::test_lanes! { fn is_sign_positive() { test_helpers::test_unary_mask_elementwise( &Vector::::is_sign_positive, &Scalar::is_sign_positive, &|_| true, ); } fn is_sign_negative() { test_helpers::test_unary_mask_elementwise( &Vector::::is_sign_negative, &Scalar::is_sign_negative, &|_| true, ); } fn is_finite() { test_helpers::test_unary_mask_elementwise( &Vector::::is_finite, &Scalar::is_finite, &|_| true, ); } fn is_infinite() { test_helpers::test_unary_mask_elementwise( &Vector::::is_infinite, &Scalar::is_infinite, &|_| true, ); } fn is_nan() { test_helpers::test_unary_mask_elementwise( &Vector::::is_nan, &Scalar::is_nan, &|_| true, ); } fn is_normal() { test_helpers::test_unary_mask_elementwise( &Vector::::is_normal, &Scalar::is_normal, &|_| true, ); } fn is_subnormal() { test_helpers::test_unary_mask_elementwise( &Vector::::is_subnormal, &Scalar::is_subnormal, &|_| true, ); } fn abs() { test_helpers::test_unary_elementwise( &Vector::::abs, &Scalar::abs, &|_| true, ) } fn sqrt() { test_helpers::test_unary_elementwise( &Vector::::sqrt, &Scalar::sqrt, &|_| true, ) } fn recip() { test_helpers::test_unary_elementwise( &Vector::::recip, &Scalar::recip, &|_| true, ) } fn to_degrees() { test_helpers::test_unary_elementwise( &Vector::::to_degrees, &Scalar::to_degrees, &|_| true, ) } fn to_radians() { test_helpers::test_unary_elementwise( &Vector::::to_radians, &Scalar::to_radians, &|_| true, ) } fn signum() { test_helpers::test_unary_elementwise( &Vector::::signum, &Scalar::signum, &|_| true, ) } fn copysign() { test_helpers::test_binary_elementwise( &Vector::::copysign, &Scalar::copysign, &|_, _| true, ) } fn horizontal_sum() { test_helpers::test_1(&|x| { test_helpers::prop_assert_biteq! ( Vector::::from_array(x).horizontal_sum(), x.iter().sum(), ); Ok(()) }); } fn horizontal_product() { test_helpers::test_1(&|x| { test_helpers::prop_assert_biteq! ( Vector::::from_array(x).horizontal_product(), x.iter().product(), ); Ok(()) }); } fn horizontal_max() { test_helpers::test_1(&|x| { let vmax = Vector::::from_array(x).horizontal_max(); let smax = x.iter().copied().fold(Scalar::NAN, Scalar::max); // 0 and -0 are treated the same if !(x.contains(&0.) && x.contains(&-0.) && vmax.abs() == 0. && smax.abs() == 0.) { test_helpers::prop_assert_biteq!(vmax, smax); } Ok(()) }); } fn horizontal_min() { test_helpers::test_1(&|x| { let vmax = Vector::::from_array(x).horizontal_min(); let smax = x.iter().copied().fold(Scalar::NAN, Scalar::min); // 0 and -0 are treated the same if !(x.contains(&0.) && x.contains(&-0.) && vmax.abs() == 0. && smax.abs() == 0.) { test_helpers::prop_assert_biteq!(vmax, smax); } Ok(()) }); } } } } }