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Merge pull request #222 from whitequark/master 

Implement comparesf2/comparedf2 intrinsics
master
Alex Crichton 2018-01-13 17:27:55 -06:00 committed by GitHub
parent 0ba07e4926 205322baf0
commit bf912e607e
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8 changed files with 544 additions and 14 deletions
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20
README.md
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@ -52,16 +52,20 @@ features = ["c"]
## Contributing
1. Pick one or more intrinsics from the [pending list](#progress).
2. Fork this repository
3. Port the intrinsic(s) and their corresponding [unit tests][1] from their [C implementation][2] to
Rust.
4. Send a Pull Request (PR)
5. Once the PR passes our extensive [testing infrastructure][3], we'll merge it!
2. Fork this repository.
3. Port the intrinsic(s) and their corresponding [unit tests][1] from their
[C implementation][2] to Rust.
4. Implement a [test generator][3] to compare the behavior of the ported intrinsic(s)
with their implementation on the testing host. Note that randomized compiler-builtin tests
should be run using `cargo test --features gen-tests`.
4. Send a Pull Request (PR).
5. Once the PR passes our extensive [testing infrastructure][4], we'll merge it!
6. Celebrate :tada:
[1]: https://github.com/rust-lang/compiler-rt/tree/8598065bd965d9713bfafb6c1e766d63a7b17b89/test/builtins/Unit
[2]: https://github.com/rust-lang/compiler-rt/tree/8598065bd965d9713bfafb6c1e766d63a7b17b89/lib/builtins
[3]: https://travis-ci.org/rust-lang-nursery/compiler-builtins
[3]: https://github.com/rust-lang-nursery/compiler-builtins/blob/0ba07e49264a54cb5bbd4856fcea083bb3fbec15/build.rs#L180-L265
[4]: https://travis-ci.org/rust-lang-nursery/compiler-builtins
### Porting Reminders
@ -133,6 +137,8 @@ features = ["c"]
- [ ] arm/unordsf2vfp.S
- [x] ashldi3.c
- [x] ashrdi3.c
- [x] comparedf2.c
- [x] comparesf2.c
- [x] divdf3.c
- [x] divdi3.c
- [x] divmoddi4.c
@ -301,8 +307,6 @@ These builtins are never called by LLVM.
- ~~clzti2.c~~
- ~~cmpdi2.c~~
- ~~cmpti2.c~~
- ~~comparedf2.c~~
- ~~comparesf2.c~~
- ~~ctzdi2.c~~
- ~~ctzsi2.c~~
- ~~ctzti2.c~~

321
build.rs
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@ -89,6 +89,12 @@ mod tests {
Adddf3,
Addsf3,
// float/cmp.rs
Gedf2,
Gesf2,
Ledf2,
Lesf2,
// float/conv.rs
Fixdfdi,
Fixdfsi,
@ -2529,6 +2535,318 @@ fn floatuntidf() {
}
}
#[derive(Eq, Hash, PartialEq)]
pub struct Gedf2 {
a: u64,
b: u64,
c: i32,
}
impl TestCase for Gedf2 {
fn name() -> &'static str {
"gedf2"
}
fn generate<R>(rng: &mut R) -> Option<Self>
where
R: Rng,
Self: Sized,
{
let a = gen_f64(rng);
let b = gen_f64(rng);
// TODO accept NaNs. We don't do that right now because we can't check
// for NaN-ness on the thumb targets (due to missing intrinsics)
if a.is_nan() || b.is_nan() {
return None;
}
let c;
if a.is_nan() || b.is_nan() {
c = -1;
} else if a < b {
c = -1;
} else if a > b {
c = 1;
} else {
c = 0;
}
Some(Gedf2 { a: to_u64(a), b: to_u64(b), c })
}
fn to_string(&self, buffer: &mut String) {
writeln!(
buffer,
"(({a}, {b}), {c}),",
a = self.a,
b = self.b,
c = self.c
)
.unwrap();
}
fn prologue() -> &'static str {
"
use std::mem;
use compiler_builtins::float::cmp::__gedf2;
fn to_f64(x: u64) -> f64 {
unsafe { mem::transmute(x) }
}
static TEST_CASES: &[((u64, u64), i32)] = &[
"
}
fn epilogue() -> &'static str {
"
];
#[test]
fn gedf2() {
for &((a, b), c) in TEST_CASES {
let c_ = __gedf2(to_f64(a), to_f64(b));
assert_eq!(((a, b), c), ((a, b), c_));
}
}
"
}
}
#[derive(Eq, Hash, PartialEq)]
pub struct Gesf2 {
a: u32,
b: u32,
c: i32,
}
impl TestCase for Gesf2 {
fn name() -> &'static str {
"gesf2"
}
fn generate<R>(rng: &mut R) -> Option<Self>
where
R: Rng,
Self: Sized,
{
let a = gen_f32(rng);
let b = gen_f32(rng);
// TODO accept NaNs. We don't do that right now because we can't check
// for NaN-ness on the thumb targets (due to missing intrinsics)
if a.is_nan() || b.is_nan() {
return None;
}
let c;
if a.is_nan() || b.is_nan() {
c = -1;
} else if a < b {
c = -1;
} else if a > b {
c = 1;
} else {
c = 0;
}
Some(Gesf2 { a: to_u32(a), b: to_u32(b), c })
}
fn to_string(&self, buffer: &mut String) {
writeln!(
buffer,
"(({a}, {b}), {c}),",
a = self.a,
b = self.b,
c = self.c
)
.unwrap();
}
fn prologue() -> &'static str {
"
use std::mem;
use compiler_builtins::float::cmp::__gesf2;
fn to_f32(x: u32) -> f32 {
unsafe { mem::transmute(x) }
}
static TEST_CASES: &[((u32, u32), i32)] = &[
"
}
fn epilogue() -> &'static str {
"
];
#[test]
fn gesf2() {
for &((a, b), c) in TEST_CASES {
let c_ = __gesf2(to_f32(a), to_f32(b));
assert_eq!(((a, b), c), ((a, b), c_));
}
}
"
}
}
#[derive(Eq, Hash, PartialEq)]
pub struct Ledf2 {
a: u64,
b: u64,
c: i32,
}
impl TestCase for Ledf2 {
fn name() -> &'static str {
"ledf2"
}
fn generate<R>(rng: &mut R) -> Option<Self>
where
R: Rng,
Self: Sized,
{
let a = gen_f64(rng);
let b = gen_f64(rng);
// TODO accept NaNs. We don't do that right now because we can't check
// for NaN-ness on the thumb targets (due to missing intrinsics)
if a.is_nan() || b.is_nan() {
return None;
}
let c;
if a.is_nan() || b.is_nan() {
c = 1;
} else if a < b {
c = -1;
} else if a > b {
c = 1;
} else {
c = 0;
}
Some(Ledf2 { a: to_u64(a), b: to_u64(b), c })
}
fn to_string(&self, buffer: &mut String) {
writeln!(
buffer,
"(({a}, {b}), {c}),",
a = self.a,
b = self.b,
c = self.c
)
.unwrap();
}
fn prologue() -> &'static str {
"
use std::mem;
use compiler_builtins::float::cmp::__ledf2;
fn to_f64(x: u64) -> f64 {
unsafe { mem::transmute(x) }
}
static TEST_CASES: &[((u64, u64), i32)] = &[
"
}
fn epilogue() -> &'static str {
"
];
#[test]
fn ledf2() {
for &((a, b), c) in TEST_CASES {
let c_ = __ledf2(to_f64(a), to_f64(b));
assert_eq!(((a, b), c), ((a, b), c_));
}
}
"
}
}
#[derive(Eq, Hash, PartialEq)]
pub struct Lesf2 {
a: u32,
b: u32,
c: i32,
}
impl TestCase for Lesf2 {
fn name() -> &'static str {
"lesf2"
}
fn generate<R>(rng: &mut R) -> Option<Self>
where
R: Rng,
Self: Sized,
{
let a = gen_f32(rng);
let b = gen_f32(rng);
// TODO accept NaNs. We don't do that right now because we can't check
// for NaN-ness on the thumb targets (due to missing intrinsics)
if a.is_nan() || b.is_nan() {
return None;
}
let c;
if a.is_nan() || b.is_nan() {
c = 1;
} else if a < b {
c = -1;
} else if a > b {
c = 1;
} else {
c = 0;
}
Some(Lesf2 { a: to_u32(a), b: to_u32(b), c })
}
fn to_string(&self, buffer: &mut String) {
writeln!(
buffer,
"(({a}, {b}), {c}),",
a = self.a,
b = self.b,
c = self.c
)
.unwrap();
}
fn prologue() -> &'static str {
"
use std::mem;
use compiler_builtins::float::cmp::__lesf2;
fn to_f32(x: u32) -> f32 {
unsafe { mem::transmute(x) }
}
static TEST_CASES: &[((u32, u32), i32)] = &[
"
}
fn epilogue() -> &'static str {
"
];
#[test]
fn lesf2() {
for &((a, b), c) in TEST_CASES {
let c_ = __lesf2(to_f32(a), to_f32(b));
assert_eq!(((a, b), c), ((a, b), c_));
}
}
"
}
}
#[derive(Eq, Hash, PartialEq)]
pub struct Moddi3 {
a: i64,
@ -4982,8 +5300,6 @@ mod c {
"clzdi2.c",
"clzsi2.c",
"cmpdi2.c",
"comparedf2.c",
"comparesf2.c",
"ctzdi2.c",
"ctzsi2.c",
"divdc3.c",
@ -5127,7 +5443,6 @@ mod c {
"arm/bswapsi2.S",
"arm/clzdi2.S",
"arm/clzsi2.S",
"arm/comparesf2.S",
"arm/divmodsi4.S",
"arm/modsi3.S",
"arm/switch16.S",

172
src/float/cmp.rs Normal file
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@ -0,0 +1,172 @@
#![allow(unreachable_code)]
use int::{Int, CastInto};
use float::Float;
#[derive(Clone, Copy)]
enum Result {
Less,
Equal,
Greater,
Unordered
}
impl Result {
fn to_le_abi(self) -> i32 {
match self {
Result::Less => -1,
Result::Equal => 0,
Result::Greater => 1,
Result::Unordered => 1
}
}
fn to_ge_abi(self) -> i32 {
match self {
Result::Less => -1,
Result::Equal => 0,
Result::Greater => 1,
Result::Unordered => -1
}
}
}
fn cmp<F: Float>(a: F, b: F) -> Result where
u32: CastInto<F::Int>,
F::Int: CastInto<u32>,
i32: CastInto<F::Int>,
F::Int: CastInto<i32>,
{
let one = F::Int::ONE;
let zero = F::Int::ZERO;
let szero = F::SignedInt::ZERO;
let sign_bit = F::SIGN_MASK as F::Int;
let abs_mask = sign_bit - one;
let exponent_mask = F::EXPONENT_MASK;
let inf_rep = exponent_mask;
let a_rep = a.repr();
let b_rep = b.repr();
let a_abs = a_rep & abs_mask;
let b_abs = b_rep & abs_mask;
// If either a or b is NaN, they are unordered.
if a_abs > inf_rep || b_abs > inf_rep {
return Result::Unordered
}
// If a and b are both zeros, they are equal.
if a_abs | b_abs == zero {
return Result::Equal
}
let a_srep = a.signed_repr();
let b_srep = b.signed_repr();
// If at least one of a and b is positive, we get the same result comparing
// a and b as signed integers as we would with a fp_ting-point compare.
if a_srep & b_srep >= szero {
if a_srep < b_srep {
return Result::Less
} else if a_srep == b_srep {
return Result::Equal
} else {
return Result::Greater
}
}
// Otherwise, both are negative, so we need to flip the sense of the
// comparison to get the correct result. (This assumes a twos- or ones-
// complement integer representation; if integers are represented in a
// sign-magnitude representation, then this flip is incorrect).
else {
if a_srep > b_srep {
return Result::Less
} else if a_srep == b_srep {
return Result::Equal
} else {
return Result::Greater
}
}
}
fn unord<F: Float>(a: F, b: F) -> bool where
u32: CastInto<F::Int>,
F::Int: CastInto<u32>,
i32: CastInto<F::Int>,
F::Int: CastInto<i32>,
{
let one = F::Int::ONE;
let sign_bit = F::SIGN_MASK as F::Int;
let abs_mask = sign_bit - one;
let exponent_mask = F::EXPONENT_MASK;
let inf_rep = exponent_mask;
let a_rep = a.repr();
let b_rep = b.repr();
let a_abs = a_rep & abs_mask;
let b_abs = b_rep & abs_mask;
a_abs > inf_rep || b_abs > inf_rep
}
intrinsics! {
pub extern "C" fn __lesf2(a: f32, b: f32) -> i32 {
cmp(a, b).to_le_abi()
}
pub extern "C" fn __gesf2(a: f32, b: f32) -> i32 {
cmp(a, b).to_ge_abi()
}
#[arm_aeabi_alias = fcmpun]
pub extern "C" fn __unordsf2(a: f32, b: f32) -> i32 {
unord(a, b) as i32
}
pub extern "C" fn __eqsf2(a: f32, b: f32) -> i32 {
cmp(a, b).to_le_abi()
}
pub extern "C" fn __ltsf2(a: f32, b: f32) -> i32 {
cmp(a, b).to_le_abi()
}
pub extern "C" fn __nesf2(a: f32, b: f32) -> i32 {
cmp(a, b).to_le_abi()
}
pub extern "C" fn __gtsf2(a: f32, b: f32) -> i32 {
cmp(a, b).to_ge_abi()
}
pub extern "C" fn __ledf2(a: f64, b: f64) -> i32 {
cmp(a, b).to_le_abi()
}
pub extern "C" fn __gedf2(a: f64, b: f64) -> i32 {
cmp(a, b).to_ge_abi()
}
#[arm_aeabi_alias = dcmpun]
pub extern "C" fn __unorddf2(a: f64, b: f64) -> i32 {
unord(a, b) as i32
}
pub extern "C" fn __eqdf2(a: f64, b: f64) -> i32 {
cmp(a, b).to_le_abi()
}
pub extern "C" fn __ltdf2(a: f64, b: f64) -> i32 {
cmp(a, b).to_le_abi()
}
pub extern "C" fn __nedf2(a: f64, b: f64) -> i32 {
cmp(a, b).to_le_abi()
}
pub extern "C" fn __gtdf2(a: f32, b: f32) -> i32 {
cmp(a, b).to_ge_abi()
}
}

17
src/float/mod.rs
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@ -4,6 +4,7 @@ use core::ops;
use super::int::Int;
pub mod conv;
pub mod cmp;
pub mod add;
pub mod pow;
pub mod sub;
@ -25,6 +26,9 @@ pub trait Float:
/// A uint of the same with as the float
type Int: Int;
/// A int of the same with as the float
type SignedInt: Int;
const ZERO: Self;
const ONE: Self;
@ -58,6 +62,9 @@ pub trait Float:
/// Returns `self` transmuted to `Self::Int`
fn repr(self) -> Self::Int;
/// Returns `self` transmuted to `Self::SignedInt`
fn signed_repr(self) -> Self::SignedInt;
#[cfg(test)]
/// Checks if two floats have the same bit representation. *Except* for NaNs! NaN can be
/// represented in multiple different ways. This method returns `true` if two NaNs are
@ -77,9 +84,10 @@ pub trait Float:
// FIXME: Some of this can be removed if RFC Issue #1424 is resolved
// https://github.com/rust-lang/rfcs/issues/1424
macro_rules! float_impl {
($ty:ident, $ity:ident, $bits:expr, $significand_bits:expr) => {
($ty:ident, $ity:ident, $sity:ident, $bits:expr, $significand_bits:expr) => {
impl Float for $ty {
type Int = $ity;
type SignedInt = $sity;
const ZERO: Self = 0.0;
const ONE: Self = 1.0;
@ -94,6 +102,9 @@ macro_rules! float_impl {
fn repr(self) -> Self::Int {
unsafe { mem::transmute(self) }
}
fn signed_repr(self) -> Self::SignedInt {
unsafe { mem::transmute(self) }
}
#[cfg(test)]
fn eq_repr(self, rhs: Self) -> bool {
if self.is_nan() && rhs.is_nan() {
@ -119,5 +130,5 @@ macro_rules! float_impl {
}
}
float_impl!(f32, u32, 32, 23);
float_impl!(f64, u64, 64, 52);
float_impl!(f32, u32, i32, 32, 23);
float_impl!(f64, u64, i64, 64, 52);

7
tests/gedf2.rs Normal file
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@ -0,0 +1,7 @@
#![feature(compiler_builtins_lib)]
#![feature(i128_type)]
#![cfg_attr(all(target_arch = "arm", not(any(target_env = "gnu", target_env = "musl")),
target_os = "linux", test),
no_std)]
include!(concat!(env!("OUT_DIR"), "/gedf2.rs"));

7
tests/gesf2.rs Normal file
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@ -0,0 +1,7 @@
#![feature(compiler_builtins_lib)]
#![feature(i128_type)]
#![cfg_attr(all(target_arch = "arm", not(any(target_env = "gnu", target_env = "musl")),
target_os = "linux", test),
no_std)]
include!(concat!(env!("OUT_DIR"), "/gesf2.rs"));

7
tests/ledf2.rs Normal file
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@ -0,0 +1,7 @@
#![feature(compiler_builtins_lib)]
#![feature(i128_type)]
#![cfg_attr(all(target_arch = "arm", not(any(target_env = "gnu", target_env = "musl")),
target_os = "linux", test),
no_std)]
include!(concat!(env!("OUT_DIR"), "/ledf2.rs"));

7
tests/lesf2.rs Normal file
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@ -0,0 +1,7 @@
#![feature(compiler_builtins_lib)]
#![feature(i128_type)]
#![cfg_attr(all(target_arch = "arm", not(any(target_env = "gnu", target_env = "musl")),
target_os = "linux", test),
no_std)]
include!(concat!(env!("OUT_DIR"), "/lesf2.rs"));