OpenTally/src/numbers/rational_num.rs

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/* OpenTally: Open-source election vote counting
* Copyright © 2021 Lee Yingtong Li (RunasSudo)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
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use super::{Assign, Number};
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use num_traits::{Num, One, Signed, Zero};
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use std::cmp::{Ord, Ordering, PartialEq, PartialOrd};
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use std::fmt;
use std::ops;
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type RatioBase = num_bigint::BigInt;
type RatioType = num_rational::BigRational;
/// Rational number
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#[derive(Clone, Debug, PartialEq, PartialOrd)]
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pub struct Rational(RatioType);
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impl Number for Rational {
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fn new() -> Self { Self(RatioType::zero()) }
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fn describe() -> String { "--numbers rational".to_string() }
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fn describe_opt() -> String { String::new() }
fn pow_assign(&mut self, exponent: i32) {
self.0 = self.0.pow(exponent);
}
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fn floor_mut(&mut self, dps: usize) {
if dps == 0 {
self.0 = self.0.floor();
} else {
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let factor = RatioType::from_integer(RatioBase::from(10)).pow(dps as i32);
self.0 *= &factor;
self.0 = self.0.floor();
self.0 /= factor;
}
}
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fn ceil_mut(&mut self, dps: usize) {
if dps == 0 {
self.0 = self.0.ceil();
} else {
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let factor = RatioType::from_integer(RatioBase::from(10)).pow(dps as i32);
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self.0 *= &factor;
self.0 = self.0.ceil();
self.0 /= factor;
}
}
fn round_mut(&mut self, dps: usize) {
if dps == 0 {
self.0 = self.0.round();
} else {
// TODO: Streamline
let mut factor = Self::from(10);
factor.pow_assign(-(dps as i32));
factor /= Self::from(2);
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*self = self.clone() + factor;
self.floor_mut(dps);
}
}
fn parse(s: &str) -> Self {
// Parse decimal
if s.contains('.') {
let (whole, decimal) = s.split_once('.').unwrap();
let whole = match RatioBase::from_str_radix(whole, 10) {
Ok(value) => RatioType::from_integer(value),
Err(_) => panic!("Syntax Error"),
};
let decimal = match RatioBase::from_str_radix(decimal, 10) {
Ok(value) => RatioType::from_integer(value),
Err(_) => panic!("Syntax Error"),
} / RatioBase::from(10).pow(decimal.len() as u32);
return Self(whole + decimal);
}
// Parse integer
if let Ok(value) = Self::from_str_radix(s, 10) {
return value;
} else {
panic!("Syntax Error");
}
}
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}
impl Num for Rational {
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type FromStrRadixErr = <RatioBase as Num>::FromStrRadixErr;
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fn from_str_radix(str: &str, radix: u32) -> Result<Self, Self::FromStrRadixErr> {
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match RatioBase::from_str_radix(str, radix) {
Ok(value) => Ok(Self(RatioType::from_integer(value))),
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Err(err) => Err(err)
}
}
}
impl Assign for Rational {
fn assign(&mut self, src: Self) { self.0 = src.0 }
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}
impl Assign<&Rational> for Rational {
fn assign(&mut self, src: &Rational) { self.0 = src.0.clone() }
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}
impl From<usize> for Rational {
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fn from(n: usize) -> Self { Self(RatioType::from_integer(RatioBase::from(n))) }
}
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impl fmt::Display for Rational {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
if let Some(precision) = f.precision() {
if precision == 0 {
let result = self.0.round().to_integer().to_string();
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return f.write_str(&result);
} else {
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let base = RatioBase::from(10).pow(precision as u32);
let mut result = (&self.0 * base).abs().round().to_integer().to_string();
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let should_add_minus = (self.0 < RatioType::zero()) && result != "0";
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// Add leading 0s
result = format!("{0:0>1$}", result, precision + 1);
// Add the decimal point
result.insert(result.len() - precision, '.');
// Add the sign
if should_add_minus {
result.insert(0, '-');
}
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return f.write_str(&result);
}
} else {
return self.0.fmt(f);
}
}
}
impl One for Rational {
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fn one() -> Self { Self(RatioType::one()) }
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}
impl Zero for Rational {
fn zero() -> Self { Self::new() }
fn is_zero(&self) -> bool { self.0.is_zero() }
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}
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impl Eq for Rational {}
impl Ord for Rational {
fn cmp(&self, other: &Self) -> Ordering { self.0.partial_cmp(&other.0).unwrap() }
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}
impl ops::Neg for Rational {
type Output = Rational;
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fn neg(self) -> Self::Output { Self(-self.0) }
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}
impl ops::Add for Rational {
type Output = Rational;
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fn add(self, rhs: Self) -> Self::Output { Self(self.0 + rhs.0) }
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}
impl ops::Sub for Rational {
type Output = Rational;
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fn sub(self, rhs: Self) -> Self::Output { Self(self.0 - rhs.0) }
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}
impl ops::Mul for Rational {
type Output = Rational;
fn mul(self, rhs: Self) -> Self::Output { Self(self.0 * rhs.0) }
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}
impl ops::Div for Rational {
type Output = Rational;
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fn div(self, rhs: Self) -> Self::Output { Self(self.0 / rhs.0) }
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}
impl ops::Rem for Rational {
type Output = Rational;
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fn rem(self, rhs: Self) -> Self::Output { Self(self.0 % rhs.0) }
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}
impl ops::Add<&Rational> for Rational {
type Output = Rational;
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fn add(self, rhs: &Rational) -> Self::Output { Self(self.0 + &rhs.0) }
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}
impl ops::Sub<&Rational> for Rational {
type Output = Rational;
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fn sub(self, rhs: &Rational) -> Self::Output { Self(self.0 - &rhs.0) }
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}
impl ops::Mul<&Rational> for Rational {
type Output = Rational;
fn mul(self, rhs: &Rational) -> Self::Output { Rational(self.0 * &rhs.0) }
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}
impl ops::Div<&Rational> for Rational {
type Output = Rational;
fn div(self, rhs: &Rational) -> Self::Output { Rational(self.0 / &rhs.0) }
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}
impl ops::Rem<&Rational> for Rational {
type Output = Rational;
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fn rem(self, rhs: &Rational) -> Self::Output { Rational(self.0 % &rhs.0) }
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}
impl ops::AddAssign for Rational {
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fn add_assign(&mut self, rhs: Self) { self.0 += rhs.0; }
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}
impl ops::SubAssign for Rational {
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fn sub_assign(&mut self, rhs: Self) { self.0 -= rhs.0; }
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}
impl ops::MulAssign for Rational {
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fn mul_assign(&mut self, rhs: Self) { self.0 *= rhs.0; }
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}
impl ops::DivAssign for Rational {
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fn div_assign(&mut self, rhs: Self) { self.0 /= &rhs.0; }
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}
impl ops::RemAssign for Rational {
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fn rem_assign(&mut self, rhs: Self) { self.0 %= &rhs.0; }
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}
impl ops::AddAssign<&Rational> for Rational {
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fn add_assign(&mut self, rhs: &Rational) { self.0 += &rhs.0; }
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}
impl ops::SubAssign<&Rational> for Rational {
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fn sub_assign(&mut self, rhs: &Rational) { self.0 -= &rhs.0; }
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}
impl ops::MulAssign<&Rational> for Rational {
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fn mul_assign(&mut self, rhs: &Rational) { self.0 *= &rhs.0; }
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}
impl ops::DivAssign<&Rational> for Rational {
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fn div_assign(&mut self, rhs: &Rational) { self.0 /= &rhs.0; }
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}
impl ops::RemAssign<&Rational> for Rational {
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fn rem_assign(&mut self, rhs: &Rational) { self.0 %= &rhs.0; }
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}
impl ops::Neg for &Rational {
type Output = Rational;
fn neg(self) -> Self::Output { Rational(-&self.0) }
}
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impl ops::Add<Self> for &Rational {
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type Output = Rational;
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fn add(self, rhs: &Rational) -> Self::Output { Rational(&self.0 + &rhs.0) }
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}
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impl ops::Sub<Self> for &Rational {
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type Output = Rational;
fn sub(self, rhs: &Rational) -> Self::Output { Rational(&self.0 - &rhs.0) }
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}
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impl ops::Mul<Self> for &Rational {
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type Output = Rational;
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fn mul(self, rhs: &Rational) -> Self::Output { Rational(&self.0 * &rhs.0) }
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}
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impl ops::Div<Self> for &Rational {
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type Output = Rational;
fn div(self, rhs: &Rational) -> Self::Output { Rational(&self.0 / &rhs.0) }
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}
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impl ops::Rem<Self> for &Rational {
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type Output = Rational;
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fn rem(self, rhs: &Rational) -> Self::Output { Rational(&self.0 % &rhs.0) }
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}
/*
impl ops::Add<&&NativeFloat> for &NativeFloat {
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}
impl ops::Sub<&&NativeFloat> for &NativeFloat {
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}
impl ops::Mul<&&NativeFloat> for &NativeFloat {
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}
impl ops::Div<&&NativeFloat> for &NativeFloat {
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}
impl ops::Rem<&&NativeFloat> for &NativeFloat {
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}
*/