| // run-pass |
| // compile-flags: -C debug-assertions |
| |
| // Check that we do *not* overflow on a number of edge cases. |
| // (compare with test/run-fail/overflowing-{lsh,rsh}*.rs) |
| |
| fn main() { |
| test_left_shift(); |
| test_right_shift(); |
| } |
| |
| pub static mut HACK: i32 = 0; |
| |
| // Work around constant-evaluation |
| // The point of this test is to exercise the code generated for execution at runtime, |
| // `id` can never be flagged as a const fn by future aggressive analyses... |
| // due to the modification of the static |
| #[inline(never)] |
| fn id<T>(x: T) -> T { |
| unsafe { HACK += 1; } |
| x |
| } |
| |
| fn test_left_shift() { |
| // negative rhs can panic, but values in [0,N-1] are okay for iN |
| |
| macro_rules! tests { |
| ($iN:ty, $uN:ty, $max_rhs:expr, $expect_i:expr, $expect_u:expr) => { { |
| let x = (1 as $iN) << id(0); |
| assert_eq!(x, 1); |
| let x = (1 as $uN) << id(0); |
| assert_eq!(x, 1); |
| let x = (1 as $iN) << id($max_rhs); |
| assert_eq!(x, $expect_i); |
| let x = (1 as $uN) << id($max_rhs); |
| assert_eq!(x, $expect_u); |
| // high-order bits on LHS are silently discarded without panic. |
| let x = (3 as $iN) << id($max_rhs); |
| assert_eq!(x, $expect_i); |
| let x = (3 as $uN) << id($max_rhs); |
| assert_eq!(x, $expect_u); |
| } } |
| } |
| |
| let x = 1_i8 << id(0); |
| assert_eq!(x, 1); |
| let x = 1_u8 << id(0); |
| assert_eq!(x, 1); |
| let x = 1_i8 << id(7); |
| assert_eq!(x, std::i8::MIN); |
| let x = 1_u8 << id(7); |
| assert_eq!(x, 0x80); |
| // high-order bits on LHS are silently discarded without panic. |
| let x = 3_i8 << id(7); |
| assert_eq!(x, std::i8::MIN); |
| let x = 3_u8 << id(7); |
| assert_eq!(x, 0x80); |
| |
| // above is (approximately) expanded from: |
| tests!(i8, u8, 7, std::i8::MIN, 0x80_u8); |
| |
| tests!(i16, u16, 15, std::i16::MIN, 0x8000_u16); |
| tests!(i32, u32, 31, std::i32::MIN, 0x8000_0000_u32); |
| tests!(i64, u64, 63, std::i64::MIN, 0x8000_0000_0000_0000_u64); |
| } |
| |
| fn test_right_shift() { |
| // negative rhs can panic, but values in [0,N-1] are okay for iN |
| |
| macro_rules! tests { |
| ($iN:ty, $uN:ty, $max_rhs:expr, |
| $signbit_i:expr, $highbit_i:expr, $highbit_u:expr) => |
| { { |
| let x = (1 as $iN) >> id(0); |
| assert_eq!(x, 1); |
| let x = (1 as $uN) >> id(0); |
| assert_eq!(x, 1); |
| let x = ($highbit_i) >> id($max_rhs-1); |
| assert_eq!(x, 1); |
| let x = ($highbit_u) >> id($max_rhs); |
| assert_eq!(x, 1); |
| // sign-bit is carried by arithmetic right shift |
| let x = ($signbit_i) >> id($max_rhs); |
| assert_eq!(x, -1); |
| // low-order bits on LHS are silently discarded without panic. |
| let x = ($highbit_i + 1) >> id($max_rhs-1); |
| assert_eq!(x, 1); |
| let x = ($highbit_u + 1) >> id($max_rhs); |
| assert_eq!(x, 1); |
| let x = ($signbit_i + 1) >> id($max_rhs); |
| assert_eq!(x, -1); |
| } } |
| } |
| |
| tests!(i8, u8, 7, std::i8::MIN, 0x40_i8, 0x80_u8); |
| tests!(i16, u16, 15, std::i16::MIN, 0x4000_u16, 0x8000_u16); |
| tests!(i32, u32, 31, std::i32::MIN, 0x4000_0000_u32, 0x8000_0000_u32); |
| tests!(i64, u64, 63, std::i64::MIN, |
| 0x4000_0000_0000_0000_u64, 0x8000_0000_0000_0000_u64); |
| } |
