use crate::integer::Integer;
use crate::natural::Natural;
use core::cmp::Ordering;
use malachite_base::num::conversion::from::{SignedFromFloatError, UnsignedFromFloatError};
use malachite_base::num::conversion::traits::{ConvertibleFrom, RoundingFrom};
use malachite_base::rounding_modes::RoundingMode;
macro_rules! float_impls {
($f: ident) => {
impl RoundingFrom<$f> for Integer {
fn rounding_from(value: $f, rm: RoundingMode) -> (Self, Ordering) {
if value >= 0.0 {
let (abs, o) = Natural::rounding_from(value, rm);
(Integer { sign: true, abs }, o)
} else {
let (n, o) = Natural::rounding_from(-value, -rm);
(-n, o.reverse())
}
}
}
impl TryFrom<$f> for Integer {
type Error = SignedFromFloatError;
fn try_from(value: $f) -> Result<Integer, Self::Error> {
Natural::try_from(value.abs())
.map(|n| Integer {
sign: value >= 0.0,
abs: n,
})
.map_err(|e| match e {
UnsignedFromFloatError::FloatInfiniteOrNan => {
SignedFromFloatError::FloatInfiniteOrNan
}
UnsignedFromFloatError::FloatNonIntegerOrOutOfRange => {
SignedFromFloatError::FloatNonIntegerOrOutOfRange
}
_ => unreachable!(),
})
}
}
impl ConvertibleFrom<$f> for Integer {
fn convertible_from(value: $f) -> bool {
Natural::convertible_from(value.abs())
}
}
};
}
apply_to_primitive_floats!(float_impls);