#![allow(unused_macros)] #![allow(unreachable_code)] #![cfg_attr(f128_enabled, feature(f128))] use builtins_test::*; mod float_comparisons { use super::*; macro_rules! cmp { ( $f:ty, $x:ident, $y:ident, $apfloat_ty:ident, $sys_available:meta, $($unordered_val:expr, $fn:ident);*; ) => { $( let cmp0 = if apfloat_fallback!( $f, $apfloat_ty, $sys_available, |x: FloatTy| x.is_nan() => no_convert, $x ) || apfloat_fallback!( $f, $apfloat_ty, $sys_available, |y: FloatTy| y.is_nan() => no_convert, $y ) { $unordered_val } else if apfloat_fallback!( $f, $apfloat_ty, $sys_available, |x, y| x < y => no_convert, $x, $y ) { -1 } else if apfloat_fallback!( $f, $apfloat_ty, $sys_available, |x, y| x == y => no_convert, $x, $y ) { 0 } else { 1 }; let cmp1 = $fn($x, $y); if cmp0 != cmp1 { panic!( "{}({:?}, {:?}): std: {:?}, builtins: {:?}", stringify!($fn), $x, $y, cmp0, cmp1 ); } )* }; } #[test] fn cmp_f32() { use compiler_builtins::float::cmp::{ __eqsf2, __gesf2, __gtsf2, __lesf2, __ltsf2, __nesf2, __unordsf2, }; fuzz_float_2(N, |x: f32, y: f32| { assert_eq!(__unordsf2(x, y) != 0, x.is_nan() || y.is_nan()); cmp!(f32, x, y, Single, all(), 1, __ltsf2; 1, __lesf2; 1, __eqsf2; -1, __gesf2; -1, __gtsf2; 1, __nesf2; ); }); } #[test] fn cmp_f64() { use compiler_builtins::float::cmp::{ __eqdf2, __gedf2, __gtdf2, __ledf2, __ltdf2, __nedf2, __unorddf2, }; fuzz_float_2(N, |x: f64, y: f64| { assert_eq!(__unorddf2(x, y) != 0, x.is_nan() || y.is_nan()); cmp!(f64, x, y, Double, all(), 1, __ltdf2; 1, __ledf2; 1, __eqdf2; -1, __gedf2; -1, __gtdf2; 1, __nedf2; ); }); } #[test] #[cfg(f128_enabled)] fn cmp_f128() { #[cfg(any(target_arch = "powerpc", target_arch = "powerpc64"))] use compiler_builtins::float::cmp::{ __eqkf2 as __eqtf2, __gekf2 as __getf2, __gtkf2 as __gttf2, __lekf2 as __letf2, __ltkf2 as __lttf2, __nekf2 as __netf2, __unordkf2 as __unordtf2, }; #[cfg(not(any(target_arch = "powerpc", target_arch = "powerpc64")))] use compiler_builtins::float::cmp::{ __eqtf2, __getf2, __gttf2, __letf2, __lttf2, __netf2, __unordtf2, }; fuzz_float_2(N, |x: f128, y: f128| { let x_is_nan = apfloat_fallback!( f128, Quad, not(feature = "no-sys-f128"), |x: FloatTy| x.is_nan() => no_convert, x ); let y_is_nan = apfloat_fallback!( f128, Quad, not(feature = "no-sys-f128"), |x: FloatTy| x.is_nan() => no_convert, y ); assert_eq!(__unordtf2(x, y) != 0, x_is_nan || y_is_nan); cmp!(f128, x, y, Quad, not(feature = "no-sys-f128"), 1, __lttf2; 1, __letf2; 1, __eqtf2; -1, __getf2; -1, __gttf2; 1, __netf2; ); }); } } #[cfg(target_arch = "arm")] mod float_comparisons_arm { use super::*; macro_rules! cmp2 { ($x:ident, $y:ident, $($unordered_val:expr, $fn_std:expr, $fn_builtins:ident);*;) => { $( let cmp0: i32 = if $x.is_nan() || $y.is_nan() { $unordered_val } else { $fn_std as i32 }; let cmp1: i32 = $fn_builtins($x, $y); if cmp0 != cmp1 { panic!("{}({}, {}): std: {}, builtins: {}", stringify!($fn_builtins), $x, $y, cmp0, cmp1); } )* }; } #[test] fn cmp_f32() { use compiler_builtins::float::cmp::{ __aeabi_fcmpeq, __aeabi_fcmpge, __aeabi_fcmpgt, __aeabi_fcmple, __aeabi_fcmplt, }; fuzz_float_2(N, |x: f32, y: f32| { cmp2!(x, y, 0, x < y, __aeabi_fcmplt; 0, x <= y, __aeabi_fcmple; 0, x == y, __aeabi_fcmpeq; 0, x >= y, __aeabi_fcmpge; 0, x > y, __aeabi_fcmpgt; ); }); } #[test] fn cmp_f64() { use compiler_builtins::float::cmp::{ __aeabi_dcmpeq, __aeabi_dcmpge, __aeabi_dcmpgt, __aeabi_dcmple, __aeabi_dcmplt, }; fuzz_float_2(N, |x: f64, y: f64| { cmp2!(x, y, 0, x < y, __aeabi_dcmplt; 0, x <= y, __aeabi_dcmple; 0, x == y, __aeabi_dcmpeq; 0, x >= y, __aeabi_dcmpge; 0, x > y, __aeabi_dcmpgt; ); }); } }