src/test/ui/numbers-arithmetic/u128-as-f32.rs - third_party/rust - Git at Google

 // run-pass

 #![feature(test)]
 #![deny(overflowing_literals)]
 extern crate test;

 use std::f32;
 use std::u128;
 use test::black_box;

 macro_rules! test {
     ($val:expr, $src_ty:ident -> $dest_ty:ident, $expected:expr) => ({
         {
             const X: $src_ty = $val;
             const Y: $dest_ty = X as $dest_ty;
             assert_eq!(Y, $expected,
                         "const eval {} -> {}", stringify!($src_ty), stringify!($dest_ty));
         }
         // black_box disables constant evaluation to test run-time conversions:
         assert_eq!(black_box::<$src_ty>($val) as $dest_ty, $expected,
                     "run-time {} -> {}", stringify!($src_ty), stringify!($dest_ty));
     });
 }

 pub fn main() {
     // nextDown(f32::MAX) = 2^128 - 2 * 2^104
     const SECOND_LARGEST_F32: f32 = 340282326356119256160033759537265639424.;

     // f32::MAX - 0.5 ULP and smaller should be rounded down
     test!(0xfffffe00000000000000000000000000, u128 -> f32, SECOND_LARGEST_F32);
     test!(0xfffffe7fffffffffffffffffffffffff, u128 -> f32, SECOND_LARGEST_F32);
     test!(0xfffffe80000000000000000000000000, u128 -> f32, SECOND_LARGEST_F32);
     // numbers within < 0.5 ULP of f32::MAX it should be rounded to f32::MAX
     test!(0xfffffe80000000000000000000000001, u128 -> f32, f32::MAX);
     test!(0xfffffeffffffffffffffffffffffffff, u128 -> f32, f32::MAX);
     test!(0xffffff00000000000000000000000000, u128 -> f32, f32::MAX);
     test!(0xffffff00000000000000000000000001, u128 -> f32, f32::MAX);
     test!(0xffffff7fffffffffffffffffffffffff, u128 -> f32, f32::MAX);
     // f32::MAX + 0.5 ULP and greater should be rounded to infinity
     test!(0xffffff80000000000000000000000000, u128 -> f32, f32::INFINITY);
     test!(0xffffff80000000f00000000000000000, u128 -> f32, f32::INFINITY);
     test!(0xffffff87ffffffffffffffff00000001, u128 -> f32, f32::INFINITY);

     // u128->f64 should not be affected by the u128->f32 checks
     test!(0xffffff80000000000000000000000000, u128 -> f64,
           340282356779733661637539395458142568448.0);
     test!(u128::MAX, u128 -> f64, 340282366920938463463374607431768211455.0);
 }
	// run-pass

	#![feature(test)]
	#![deny(overflowing_literals)]
	extern crate test;

	use std::f32;
	use std::u128;
	use test::black_box;

	macro_rules! test {
	($val:expr, $src_ty:ident -> $dest_ty:ident, $expected:expr) => ({
	{
	const X: $src_ty = $val;
	const Y: $dest_ty = X as $dest_ty;
	assert_eq!(Y, $expected,
	"const eval {} -> {}", stringify!($src_ty), stringify!($dest_ty));
	}
	// black_box disables constant evaluation to test run-time conversions:
	assert_eq!(black_box::<$src_ty>($val) as $dest_ty, $expected,
	"run-time {} -> {}", stringify!($src_ty), stringify!($dest_ty));
	});
	}

	pub fn main() {
	// nextDown(f32::MAX) = 2^128 - 2 * 2^104
	const SECOND_LARGEST_F32: f32 = 340282326356119256160033759537265639424.;

	// f32::MAX - 0.5 ULP and smaller should be rounded down
	test!(0xfffffe00000000000000000000000000, u128 -> f32, SECOND_LARGEST_F32);
	test!(0xfffffe7fffffffffffffffffffffffff, u128 -> f32, SECOND_LARGEST_F32);
	test!(0xfffffe80000000000000000000000000, u128 -> f32, SECOND_LARGEST_F32);
	// numbers within < 0.5 ULP of f32::MAX it should be rounded to f32::MAX
	test!(0xfffffe80000000000000000000000001, u128 -> f32, f32::MAX);
	test!(0xfffffeffffffffffffffffffffffffff, u128 -> f32, f32::MAX);
	test!(0xffffff00000000000000000000000000, u128 -> f32, f32::MAX);
	test!(0xffffff00000000000000000000000001, u128 -> f32, f32::MAX);
	test!(0xffffff7fffffffffffffffffffffffff, u128 -> f32, f32::MAX);
	// f32::MAX + 0.5 ULP and greater should be rounded to infinity
	test!(0xffffff80000000000000000000000000, u128 -> f32, f32::INFINITY);
	test!(0xffffff80000000f00000000000000000, u128 -> f32, f32::INFINITY);
	test!(0xffffff87ffffffffffffffff00000001, u128 -> f32, f32::INFINITY);

	// u128->f64 should not be affected by the u128->f32 checks
	test!(0xffffff80000000000000000000000000, u128 -> f64,
	340282356779733661637539395458142568448.0);
	test!(u128::MAX, u128 -> f64, 340282366920938463463374607431768211455.0);
	}