Partially revert a272d753f5

This partially reverts commit "Convert float_to_int! into a function"
This commit is contained in:
est31 2017-09-29 02:20:27 +02:00
parent a20840262e
commit c781759498

View File

@ -1,5 +1,5 @@
use float::Float;
use int::{Int, CastInto};
use int::Int;
macro_rules! int_to_float {
($i:expr, $ity:ty, $fty:ty) => ({
@ -137,34 +137,32 @@ enum Sign {
Negative
}
fn float_to_int<F: Float, I: Int>(f: F) -> I where
F::Int: CastInto<u32>,
F::Int: CastInto<I>,
{
let f = f;
let fixint_min = I::min_value();
let fixint_max = I::max_value();
let fixint_bits = I::BITS;
let fixint_unsigned = fixint_min == I::ZERO;
macro_rules! float_to_int {
($f:expr, $fty:ty, $ity:ty) => ({
let f = $f;
let fixint_min = <$ity>::min_value();
let fixint_max = <$ity>::max_value();
let fixint_bits = <$ity>::BITS as usize;
let fixint_unsigned = fixint_min == 0;
let sign_bit = F::SIGN_MASK;
let significand_bits = F::SIGNIFICAND_BITS;
let exponent_bias = F::EXPONENT_BIAS;
//let exponent_max = F::exponent_max() as usize;
let sign_bit = <$fty>::SIGN_MASK;
let significand_bits = <$fty>::SIGNIFICAND_BITS as usize;
let exponent_bias = <$fty>::EXPONENT_BIAS as usize;
//let exponent_max = <$fty>::exponent_max() as usize;
// Break a into sign, exponent, significand
let a_rep = F::repr(f);
let a_rep = <$fty>::repr(f);
let a_abs = a_rep & !sign_bit;
// this is used to work around -1 not being available for unsigned
let sign = if (a_rep & sign_bit) == F::Int::ZERO { Sign::Positive } else { Sign::Negative };
let mut exponent: u32 = (a_abs >> significand_bits).cast();
let significand = (a_abs & F::SIGNIFICAND_MASK) | F::IMPLICIT_BIT;
let sign = if (a_rep & sign_bit) == 0 { Sign::Positive } else { Sign::Negative };
let mut exponent = (a_abs >> significand_bits) as usize;
let significand = (a_abs & <$fty>::SIGNIFICAND_MASK) | <$fty>::IMPLICIT_BIT;
// if < 1 or unsigned & negative
if exponent < exponent_bias ||
fixint_unsigned && sign == Sign::Negative {
return I::ZERO;
return 0
}
exponent -= exponent_bias;
@ -176,77 +174,78 @@ fn float_to_int<F: Float, I: Int>(f: F) -> I where
// If 0 <= exponent < significand_bits, right shift to get the result.
// Otherwise, shift left.
// (sign - 1) will never overflow as negative signs are already returned as 0 for unsigned
let r: I = if exponent < significand_bits {
(significand >> (significand_bits - exponent)).cast()
let r = if exponent < significand_bits {
(significand >> (significand_bits - exponent)) as $ity
} else {
(significand << (exponent - significand_bits)).cast()
(significand as $ity) << (exponent - significand_bits)
};
if sign == Sign::Negative {
(!r).wrapping_add(I::ONE)
(!r).wrapping_add(1)
} else {
r
}
})
}
intrinsics! {
#[arm_aeabi_alias = __aeabi_f2iz]
pub extern "C" fn __fixsfsi(f: f32) -> i32 {
float_to_int(f)
float_to_int!(f, f32, i32)
}
#[arm_aeabi_alias = __aeabi_f2lz]
pub extern "C" fn __fixsfdi(f: f32) -> i64 {
float_to_int(f)
float_to_int!(f, f32, i64)
}
#[unadjusted_on_win64]
pub extern "C" fn __fixsfti(f: f32) -> i128 {
float_to_int(f)
float_to_int!(f, f32, i128)
}
#[arm_aeabi_alias = __aeabi_d2iz]
pub extern "C" fn __fixdfsi(f: f64) -> i32 {
float_to_int(f)
float_to_int!(f, f64, i32)
}
#[arm_aeabi_alias = __aeabi_d2lz]
pub extern "C" fn __fixdfdi(f: f64) -> i64 {
float_to_int(f)
float_to_int!(f, f64, i64)
}
#[unadjusted_on_win64]
pub extern "C" fn __fixdfti(f: f64) -> i128 {
float_to_int(f)
float_to_int!(f, f64, i128)
}
#[arm_aeabi_alias = __aeabi_f2uiz]
pub extern "C" fn __fixunssfsi(f: f32) -> u32 {
float_to_int(f)
float_to_int!(f, f32, u32)
}
#[arm_aeabi_alias = __aeabi_f2ulz]
pub extern "C" fn __fixunssfdi(f: f32) -> u64 {
float_to_int(f)
float_to_int!(f, f32, u64)
}
#[unadjusted_on_win64]
pub extern "C" fn __fixunssfti(f: f32) -> u128 {
float_to_int(f)
float_to_int!(f, f32, u128)
}
#[arm_aeabi_alias = __aeabi_d2uiz]
pub extern "C" fn __fixunsdfsi(f: f64) -> u32 {
float_to_int(f)
float_to_int!(f, f64, u32)
}
#[arm_aeabi_alias = __aeabi_d2ulz]
pub extern "C" fn __fixunsdfdi(f: f64) -> u64 {
float_to_int(f)
float_to_int!(f, f64, u64)
}
#[unadjusted_on_win64]
pub extern "C" fn __fixunsdfti(f: f64) -> u128 {
float_to_int(f)
float_to_int!(f, f64, u128)
}
}