| 1 | /// Absolute value (magnitude) (f32) |
| 2 | /// Calculates the absolute value (magnitude) of the argument `x`, |
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| 3 | /// by direct manipulation of the bit representation of `x`. |
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| 4 | #[cfg_attr (all(test, assert_no_panic), no_panic::no_panic)] |
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| 5 | pub fn fabsf(x: f32) -> f32 { |
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| 6 | // On wasm32 we know that LLVM's intrinsic will compile to an optimized |
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| 7 | // `f32.abs` native instruction, so we can leverage this for both code size |
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| 8 | // and speed. |
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| 9 | llvm_intrinsically_optimized! { |
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| 10 | #[cfg(target_arch = "wasm32" )] { |
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| 11 | return unsafe { ::core::intrinsics::fabsf32(x) } |
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| 12 | } |
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| 13 | } |
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| 14 | f32::from_bits(x.to_bits() & 0x7fffffff) |
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| 15 | } |
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| 16 | |
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| 17 | // PowerPC tests are failing on LLVM 13: https://github.com/rust-lang/rust/issues/88520 |
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| 18 | #[cfg (not(target_arch = "powerpc64" ))] |
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| 19 | #[cfg (test)] |
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| 20 | mod tests { |
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| 21 | use core::f32::*; |
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| 22 | |
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| 23 | use super::*; |
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| 24 | |
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| 25 | #[test ] |
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| 26 | fn sanity_check() { |
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| 27 | assert_eq!(fabsf(-1.0), 1.0); |
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| 28 | assert_eq!(fabsf(2.8), 2.8); |
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| 29 | } |
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| 30 | |
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| 31 | /// The spec: https://en.cppreference.com/w/cpp/numeric/math/fabs |
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| 32 | #[test ] |
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| 33 | fn spec_tests() { |
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| 34 | assert!(fabsf(NAN).is_nan()); |
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| 35 | for f in [0.0, -0.0].iter().copied() { |
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| 36 | assert_eq!(fabsf(f), 0.0); |
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| 37 | } |
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| 38 | for f in [INFINITY, NEG_INFINITY].iter().copied() { |
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| 39 | assert_eq!(fabsf(f), INFINITY); |
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| 40 | } |
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| 41 | } |
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| 42 | } |
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| 43 | |
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