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Add intrinsics for floating-point min and max

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varkor committed Jun 6, 2019
1 parent a318483 commit 0e5edc9f1611e5c13864e4f66a9e69ce7776ea91
@@ -1051,6 +1051,19 @@ extern "rust-intrinsic" {
/// Returns the absolute value of an `f64`.
pub fn fabsf64(x: f64) -> f64;

/// Returns the minimum of two `f32` values.
#[cfg(not(bootstrap))]
pub fn minnumf32(x: f32, y: f32) -> f32;
/// Returns the minimum of two `f64` values.
#[cfg(not(bootstrap))]
pub fn minnumf64(x: f64, y: f64) -> f64;
/// Returns the maximum of two `f32` values.
#[cfg(not(bootstrap))]
pub fn maxnumf32(x: f32, y: f32) -> f32;
/// Returns the maximum of two `f64` values.
#[cfg(not(bootstrap))]
pub fn maxnumf64(x: f64, y: f64) -> f64;

/// Copies the sign from `y` to `x` for `f32` values.
pub fn copysignf32(x: f32, y: f32) -> f32;
/// Copies the sign from `y` to `x` for `f64` values.
@@ -1561,3 +1574,47 @@ pub unsafe fn copy<T>(src: *const T, dst: *mut T, count: usize) {
pub unsafe fn write_bytes<T>(dst: *mut T, val: u8, count: usize) {
real_intrinsics::write_bytes(dst, val, count)
}

// Simple bootstrap implementations of minnum/maxnum for stage0 compilation.

/// Returns the minimum of two `f32` values.
#[cfg(bootstrap)]
pub fn minnumf32(x: f32, y: f32) -> f32 {
// IEEE754 says: minNum(x, y) is the canonicalized number x if x < y, y if y < x, the
// canonicalized number if one operand is a number and the other a quiet NaN. Otherwise it
// is either x or y, canonicalized (this means results might differ among implementations).
// When either x or y is a signaling NaN, then the result is according to 6.2.
//
// Since we do not support sNaN in Rust yet, we do not need to handle them.
// FIXME(nagisa): due to https://bugs.llvm.org/show_bug.cgi?id=33303 we canonicalize by
// multiplying by 1.0. Should switch to the `canonicalize` when it works.
(if x < y || y != y { x } else { y }) * 1.0
}

/// Returns the minimum of two `f64` values.
#[cfg(bootstrap)]
pub fn minnumf64(x: f64, y: f64) -> f64 {
// Identical to the `f32` case.
(if x < y || y != y { x } else { y }) * 1.0
}

/// Returns the maximum of two `f32` values.
#[cfg(bootstrap)]
pub fn maxnumf32(x: f32, y: f32) -> f32 {
// IEEE754 says: maxNum(x, y) is the canonicalized number y if x < y, x if y < x, the
// canonicalized number if one operand is a number and the other a quiet NaN. Otherwise it
// is either x or y, canonicalized (this means results might differ among implementations).
// When either x or y is a signaling NaN, then the result is according to 6.2.
//
// Since we do not support sNaN in Rust yet, we do not need to handle them.
// FIXME(nagisa): due to https://bugs.llvm.org/show_bug.cgi?id=33303 we canonicalize by
// multiplying by 1.0. Should switch to the `canonicalize` when it works.
(if x < y || x != x { y } else { x }) * 1.0
}

/// Returns the maximum of two `f64` values.
#[cfg(bootstrap)]
pub fn maxnumf64(x: f64, y: f64) -> f64 {
// Identical to the `f32` case.
(if x < y || x != x { y } else { x }) * 1.0
}
@@ -7,6 +7,9 @@

#![stable(feature = "rust1", since = "1.0.0")]

#[cfg(not(test))]
use crate::intrinsics;

use crate::mem;
use crate::num::FpCategory;

@@ -372,15 +375,7 @@ impl f32 {
#[stable(feature = "rust1", since = "1.0.0")]
#[inline]
pub fn max(self, other: f32) -> f32 {
// IEEE754 says: maxNum(x, y) is the canonicalized number y if x < y, x if y < x, the
// canonicalized number if one operand is a number and the other a quiet NaN. Otherwise it
// is either x or y, canonicalized (this means results might differ among implementations).
// When either x or y is a signalingNaN, then the result is according to 6.2.
//
// Since we do not support sNaN in Rust yet, we do not need to handle them.
// FIXME(nagisa): due to https://bugs.llvm.org/show_bug.cgi?id=33303 we canonicalize by
// multiplying by 1.0. Should switch to the `canonicalize` when it works.
(if self.is_nan() || self < other { other } else { self }) * 1.0
intrinsics::maxnumf32(self, other)
}

/// Returns the minimum of the two numbers.
@@ -396,15 +391,7 @@ impl f32 {
#[stable(feature = "rust1", since = "1.0.0")]
#[inline]
pub fn min(self, other: f32) -> f32 {
// IEEE754 says: minNum(x, y) is the canonicalized number x if x < y, y if y < x, the
// canonicalized number if one operand is a number and the other a quiet NaN. Otherwise it
// is either x or y, canonicalized (this means results might differ among implementations).
// When either x or y is a signalingNaN, then the result is according to 6.2.
//
// Since we do not support sNaN in Rust yet, we do not need to handle them.
// FIXME(nagisa): due to https://bugs.llvm.org/show_bug.cgi?id=33303 we canonicalize by
// multiplying by 1.0. Should switch to the `canonicalize` when it works.
(if other.is_nan() || self < other { self } else { other }) * 1.0
intrinsics::minnumf32(self, other)
}

/// Raw transmutation to `u32`.
@@ -7,6 +7,9 @@

#![stable(feature = "rust1", since = "1.0.0")]

#[cfg(not(test))]
use crate::intrinsics;

use crate::mem;
use crate::num::FpCategory;

@@ -385,15 +388,7 @@ impl f64 {
#[stable(feature = "rust1", since = "1.0.0")]
#[inline]
pub fn max(self, other: f64) -> f64 {
// IEEE754 says: maxNum(x, y) is the canonicalized number y if x < y, x if y < x, the
// canonicalized number if one operand is a number and the other a quiet NaN. Otherwise it
// is either x or y, canonicalized (this means results might differ among implementations).
// When either x or y is a signalingNaN, then the result is according to 6.2.
//
// Since we do not support sNaN in Rust yet, we do not need to handle them.
// FIXME(nagisa): due to https://bugs.llvm.org/show_bug.cgi?id=33303 we canonicalize by
// multiplying by 1.0. Should switch to the `canonicalize` when it works.
(if self.is_nan() || self < other { other } else { self }) * 1.0
intrinsics::maxnumf64(self, other)
}

/// Returns the minimum of the two numbers.
@@ -409,15 +404,7 @@ impl f64 {
#[stable(feature = "rust1", since = "1.0.0")]
#[inline]
pub fn min(self, other: f64) -> f64 {
// IEEE754 says: minNum(x, y) is the canonicalized number x if x < y, y if y < x, the
// canonicalized number if one operand is a number and the other a quiet NaN. Otherwise it
// is either x or y, canonicalized (this means results might differ among implementations).
// When either x or y is a signalingNaN, then the result is according to 6.2.
//
// Since we do not support sNaN in Rust yet, we do not need to handle them.
// FIXME(nagisa): due to https://bugs.llvm.org/show_bug.cgi?id=33303 we canonicalize by
// multiplying by 1.0. Should switch to the `canonicalize` when it works.
(if other.is_nan() || self < other { self } else { other }) * 1.0
intrinsics::minnumf64(self, other)
}

/// Raw transmutation to `u64`.
@@ -645,6 +645,11 @@ impl CodegenCx<'b, 'tcx> {
ifn!("llvm.fabs.v4f64", fn(t_v4f64) -> t_v4f64);
ifn!("llvm.fabs.v8f64", fn(t_v8f64) -> t_v8f64);

ifn!("llvm.minnum.f32", fn(t_f32, t_f32) -> t_f32);
ifn!("llvm.minnum.f64", fn(t_f64, t_f64) -> t_f64);
ifn!("llvm.maxnum.f32", fn(t_f32, t_f32) -> t_f32);
ifn!("llvm.maxnum.f64", fn(t_f64, t_f64) -> t_f64);

ifn!("llvm.floor.f32", fn(t_f32) -> t_f32);
ifn!("llvm.floor.v2f32", fn(t_v2f32) -> t_v2f32);
ifn!("llvm.floor.v4f32", fn(t_v4f32) -> t_v4f32);
@@ -55,6 +55,10 @@ fn get_simple_intrinsic(cx: &CodegenCx<'ll, '_>, name: &str) -> Option<&'ll Valu
"fmaf64" => "llvm.fma.f64",
"fabsf32" => "llvm.fabs.f32",
"fabsf64" => "llvm.fabs.f64",
"minnumf32" => "llvm.minnum.f32",
"minnumf64" => "llvm.minnum.f64",
"maxnumf32" => "llvm.maxnum.f32",
"maxnumf64" => "llvm.maxnum.f64",
"copysignf32" => "llvm.copysign.f32",
"copysignf64" => "llvm.copysign.f64",
"floorf32" => "llvm.floor.f32",
@@ -70,7 +70,8 @@ pub fn intrisic_operation_unsafety(intrinsic: &str) -> hir::Unsafety {
"overflowing_add" | "overflowing_sub" | "overflowing_mul" |
"saturating_add" | "saturating_sub" |
"rotate_left" | "rotate_right" |
"ctpop" | "ctlz" | "cttz" | "bswap" | "bitreverse"
"ctpop" | "ctlz" | "cttz" | "bswap" | "bitreverse" |
"minnumf32" | "minnumf64" | "maxnumf32" | "maxnumf64"
=> hir::Unsafety::Normal,
_ => hir::Unsafety::Unsafe,
}
@@ -272,6 +273,10 @@ pub fn check_intrinsic_type<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>,
}
"fabsf32" => (0, vec![ tcx.types.f32 ], tcx.types.f32),
"fabsf64" => (0, vec![ tcx.types.f64 ], tcx.types.f64),
"minnumf32" => (0, vec![ tcx.types.f32, tcx.types.f32 ], tcx.types.f32),
"minnumf64" => (0, vec![ tcx.types.f64, tcx.types.f64 ], tcx.types.f64),
"maxnumf32" => (0, vec![ tcx.types.f32, tcx.types.f32 ], tcx.types.f32),
"maxnumf64" => (0, vec![ tcx.types.f64, tcx.types.f64 ], tcx.types.f64),
"copysignf32" => (0, vec![ tcx.types.f32, tcx.types.f32 ], tcx.types.f32),
"copysignf64" => (0, vec![ tcx.types.f64, tcx.types.f64 ], tcx.types.f64),
"floorf32" => (0, vec![ tcx.types.f32 ], tcx.types.f32),

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