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#![feature(portable_simd)]
macro_rules! float_rounding_test {
{ $scalar:tt, $int_scalar:tt } => {
mod $scalar {
use std_float::StdFloat;
type Vector<const LANES: usize> = core_simd::Simd<$scalar, LANES>;
type Scalar = $scalar;
type IntScalar = $int_scalar;
test_helpers::test_lanes! {
fn ceil<const LANES: usize>() {
test_helpers::test_unary_elementwise(
&Vector::<LANES>::ceil,
&Scalar::ceil,
&|_| true,
)
}
fn floor<const LANES: usize>() {
test_helpers::test_unary_elementwise(
&Vector::<LANES>::floor,
&Scalar::floor,
&|_| true,
)
}
fn round<const LANES: usize>() {
test_helpers::test_unary_elementwise(
&Vector::<LANES>::round,
&Scalar::round,
&|_| true,
)
}
fn trunc<const LANES: usize>() {
test_helpers::test_unary_elementwise(
&Vector::<LANES>::trunc,
&Scalar::trunc,
&|_| true,
)
}
fn fract<const LANES: usize>() {
test_helpers::test_unary_elementwise(
&Vector::<LANES>::fract,
&Scalar::fract,
&|_| true,
)
}
}
test_helpers::test_lanes! {
fn to_int_unchecked<const LANES: usize>() {
// The maximum integer that can be represented by the equivalently sized float has
// all of the mantissa digits set to 1, pushed up to the MSB.
const ALL_MANTISSA_BITS: IntScalar = ((1 << <Scalar>::MANTISSA_DIGITS) - 1);
const MAX_REPRESENTABLE_VALUE: Scalar =
(ALL_MANTISSA_BITS << (core::mem::size_of::<Scalar>() * 8 - <Scalar>::MANTISSA_DIGITS as usize - 1)) as Scalar;
let mut runner = test_helpers::make_runner();
runner.run(
&test_helpers::array::UniformArrayStrategy::new(-MAX_REPRESENTABLE_VALUE..MAX_REPRESENTABLE_VALUE),
|x| {
let result_1 = unsafe { Vector::from_array(x).to_int_unchecked::<IntScalar>().to_array() };
let result_2 = {
let mut result: [IntScalar; LANES] = [0; LANES];
for (i, o) in x.iter().zip(result.iter_mut()) {
*o = unsafe { i.to_int_unchecked::<IntScalar>() };
}
result
};
test_helpers::prop_assert_biteq!(result_1, result_2);
Ok(())
},
).unwrap();
}
}
}
}
}
float_rounding_test! { f32, i32 }
float_rounding_test! { f64, i64 }
|