Sort of get fractions to work from signed or unsigned numbers
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fb87807227
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aae00e2031
85
src/num.rs
85
src/num.rs
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@ -1,14 +1,38 @@
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//! Numeric Helper Traits
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//! Numeric Helper Traits
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use std::convert::TryFrom;
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#![allow(unused_comparisons)]
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use std::ops::{
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use core::convert::TryFrom;
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use core::fmt::Debug;
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use core::ops::{
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Add, AddAssign, BitAnd, BitAndAssign, BitOr, BitOrAssign, BitXor, BitXorAssign, Div, DivAssign,
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Add, AddAssign, BitAnd, BitAndAssign, BitOr, BitOrAssign, BitXor, BitXorAssign, Div, DivAssign,
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Mul, MulAssign, Not, Rem, RemAssign, Shl, ShlAssign, Shr, ShrAssign, Sub, SubAssign,
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Mul, MulAssign, Not, Rem, RemAssign, Shl, ShlAssign, Shr, ShrAssign, Sub, SubAssign,
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};
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};
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/// Native number type
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/// Native number type
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pub trait Num:
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pub trait Num:
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Add + AddAssign + Div + DivAssign + Mul + MulAssign + Rem + RemAssign + Copy + Sub + SubAssign
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Add
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+ AddAssign
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+ Debug
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+ Div
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+ DivAssign
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+ Mul
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+ MulAssign
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+ Rem
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+ RemAssign
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+ PartialOrd
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+ PartialEq
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+ Copy
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+ Sub
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+ SubAssign
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{
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{
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/// Is this number type signed?
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fn is_signed(&self) -> bool {
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true
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}
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}
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/// Float primitive
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pub trait Float: Num {
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fn is_neg(self) -> bool;
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}
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}
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/// Integer primitive
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/// Integer primitive
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@ -33,6 +57,9 @@ pub trait Int:
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/// Is this a zero value?
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/// Is this a zero value?
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fn is_zero(self) -> bool;
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fn is_zero(self) -> bool;
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/// Is this number less than zero?
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fn is_neg(self) -> bool;
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}
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}
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/// A Trait representing unsigned integer primitives
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/// A Trait representing unsigned integer primitives
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@ -43,14 +70,16 @@ pub trait Unsigned: Int {
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/// Find the least common multiple of two numbers
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/// Find the least common multiple of two numbers
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fn lcm(a: Self, b: Self) -> Self;
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fn lcm(a: Self, b: Self) -> Self;
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fn is_signed(self) -> bool;
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fn is_signed(self) -> bool {
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false
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}
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}
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}
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/// A Trait representing signed integer primitives
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/// A Trait representing signed integer primitives
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pub trait Signed<U=Unsigned>: Int {
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pub trait Signed: Int {
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fn is_neg(self) -> bool;
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type Un;
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fn to_unsigned<U>(self) -> U;
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fn to_unsigned(self) -> Self::Un;
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}
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}
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#[derive(Debug, Copy, Clone, PartialEq, Eq)]
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#[derive(Debug, Copy, Clone, PartialEq, Eq)]
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@ -86,6 +115,18 @@ macro_rules! impl_num {
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}
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}
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}
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}
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macro_rules! impl_float {
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($( $Type: ty ),* ) => {
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$(
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impl Float for $Type {
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fn is_neg(self) -> bool {
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self < 0.0
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}
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}
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)*
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}
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}
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macro_rules! impl_int {
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macro_rules! impl_int {
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($( $Type: ty ),* ) => {
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($( $Type: ty ),* ) => {
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$(
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$(
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@ -97,6 +138,16 @@ macro_rules! impl_int {
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fn max_value() -> $Type {
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fn max_value() -> $Type {
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<$Type>::max_value()
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<$Type>::max_value()
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}
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}
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/// Is this number less than zero?
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fn is_neg(self) -> bool {
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if self.is_signed() == false {
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false
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} else {
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self < 0
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}
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}
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}
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}
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)*
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)*
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}
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}
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@ -156,16 +207,14 @@ macro_rules! impl_unsigned {
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macro_rules! impl_signed {
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macro_rules! impl_signed {
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($(($type: ty, $un_type: ty)),* ) => {
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($(($type: ty, $un_type: ty)),* ) => {
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$(
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$(
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impl Signed<U=$un_type> for $type {
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impl Signed for $type {
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fn is_neg(self) -> bool {
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type Un = $un_type;
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self < 0
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}
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fn to_unsigned<U>(self) -> U {
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fn to_unsigned(self) -> $un_type {
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// Converting from signed to unsigned should always be safe
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// Converting from signed to unsigned should always be safe
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// when using the absolute value, especially since I'm converting
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// when using the absolute value, especially since I'm converting
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// between the same bit size
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// between the same bit size
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<U>::try_from(self).unwrap()
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<$un_type>::try_from(self).unwrap()
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}
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}
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}
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}
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)*
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)*
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@ -173,9 +222,17 @@ macro_rules! impl_signed {
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}
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}
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impl_num!(i8, u8, i16, u16, f32, i32, u32, f64, i64, u64, i128, u128, isize, usize);
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impl_num!(i8, u8, i16, u16, f32, i32, u32, f64, i64, u64, i128, u128, isize, usize);
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impl_float!(f32, f64);
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impl_int!(i8, u8, i16, u16, i32, u32, i64, u64, i128, u128, isize, usize);
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impl_int!(i8, u8, i16, u16, i32, u32, i64, u64, i128, u128, isize, usize);
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impl_unsigned!(u8, u16, u32, u64, u128, usize);
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impl_unsigned!(u8, u16, u32, u64, u128, usize);
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impl_signed!((i8,u8),(i16,u16),(i32,u32),(i64,u64),(i128,u128),(isize,usize));
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impl_signed!(
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(i8, u8),
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(i16, u16),
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(i32, u32),
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(i64, u64),
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(i128, u128),
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(isize, usize)
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);
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#[cfg(test)]
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#[cfg(test)]
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mod tests {
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mod tests {
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@ -24,66 +24,36 @@ pub struct Frac<T: Unsigned = usize> {
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#[macro_export]
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#[macro_export]
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macro_rules! frac {
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macro_rules! frac {
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($n:literal / $d:literal) => {
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($n:literal / $d:literal) => {
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Frac::new_conv($n, $d)
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frac($n, $d)
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};
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($n:literal / $d:literal) => {
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frac($n, $d)
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};
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};
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}
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}
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/* macro_rules! impl_from_signed {
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/// Create a new rational number
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($(($in_type: ty, $out_type: ty)),* ) => {
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pub fn frac<S: Signed + Signed<Un = U>, U: Unsigned>(n: S, d: S) -> Frac<U> {
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$(
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// Converting from signed to unsigned should always be safe
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impl Frac<$in_type> {
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// when using the absolute value, especially since I'm converting
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pub fn new(n: $in_type, d: $in_type) -> Frac<$out_type> {
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// between the same bit size
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// Converting from signed to unsigned should always be safe
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let mut sign = Sign::Positive;
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// when using the absolute value, especially since I'm converting
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let numer = n.to_unsigned();
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// between the same bit size
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let denom = d.to_unsigned();
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let mut sign = $crate::num::Sign::Positive;
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let numer = <$out_type>::try_from(n.abs()).unwrap();
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let denom = <$out_type>::try_from(d.abs()).unwrap();
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if n < 0 {
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if n.is_neg() {
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sign = !sign;
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sign = !sign;
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}
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if d < 0 {
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sign = !sign;
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}
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Frac::new_signed(numer, denom, sign)
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}
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fn new_signed(n: $in_type, d: $in_type, _: $crate::num::Sign) -> Frac<$out_type> {
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Self::new(n, d)
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}
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}
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)*
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};
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}
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impl_from_signed!((i8, u8), (i16, u16), (i32, u32), (i64, u64), (i128, u128), (isize, usize)); */
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impl<T: Signed, U: Unsigned> Frac<U> {
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pub fn new_conv(n: T, d: T) -> Self {
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// Converting from signed to unsigned should always be safe
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// when using the absolute value, especially since I'm converting
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// between the same bit size
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let mut sign = Sign::Positive;
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let numer:T::Un = n.to_unsigned();
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let denom:T::Un = d.to_unsigned();
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if n.is_neg() {
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sign = !sign;
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}
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if d.is_neg() {
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sign = !sign;
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}
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Self::new(numer, denom, sign)
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}
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}
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if d.is_neg() {
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sign = !sign;
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}
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Frac { numer, denom, sign }.reduce()
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}
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}
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impl<T: Unsigned> Frac<T> {
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impl<T: Unsigned> Frac<T> {
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/// Create a new rational number
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/// Create a new rational number
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pub fn new(n: T, d: T, s: Sign) -> Self {
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pub fn new(n: T, d: T, s: Sign) -> Frac<T> {
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if d.is_zero() {
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if d.is_zero() {
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panic!("Fraction can not have a zero denominator");
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panic!("Fraction can not have a zero denominator");
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}
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}
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let denom = self.denom * rhs.denom;
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let denom = self.denom * rhs.denom;
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let sign = Self::get_sign(self, rhs);
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let sign = Self::get_sign(self, rhs);
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Self::new_signed(numer, denom, sign)
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Self::new(numer, denom, sign)
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}
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}
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}
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}
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let denom = self.denom * rhs.numer;
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let denom = self.denom * rhs.numer;
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let sign = Self::get_sign(self, rhs);
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let sign = Self::get_sign(self, rhs);
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Self::new_signed(numer, denom, sign)
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Self::new(numer, denom, sign)
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}
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}
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}
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}
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@ -150,9 +120,9 @@ impl<T: Unsigned + Add<Output = T> + Sub<Output = T> + Mul<Output = T>> Add for
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// subtraction is equivalent
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// subtraction is equivalent
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if self.sign != rhs.sign {
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if self.sign != rhs.sign {
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if a.numer > b.numer {
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if a.numer > b.numer {
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return a - b
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return a - b;
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} else if a.numer < b.numer {
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} else if a.numer < b.numer {
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return b - a
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return b - a;
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}
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}
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}
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}
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@ -164,14 +134,14 @@ impl<T: Unsigned + Add<Output = T> + Sub<Output = T> + Mul<Output = T>> Add for
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let denom = a.denom * b.denom;
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let denom = a.denom * b.denom;
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let sign = Self::get_sign(a, b);
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let sign = Self::get_sign(a, b);
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return Self::new_signed(numer, denom, sign);
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return Self::new(numer, denom, sign);
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}
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}
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let numer = a.numer + b.numer;
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let numer = a.numer + b.numer;
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let denom = self.denom;
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let denom = self.denom;
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let sign = Self::get_sign(a, b);
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let sign = Self::get_sign(a, b);
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Self::new_signed(numer, denom, sign)
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Self::new(numer, denom, sign)
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}
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}
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}
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}
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@ -213,17 +183,17 @@ mod tests {
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#[test]
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#[test]
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fn add_test() {
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fn add_test() {
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assert_eq!(frac!(5u8 / 6), frac!(1 / 3) + frac!(1 / 2));
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assert_eq!(frac!(5 / 6), frac!(1 / 3) + frac!(1 / 2));
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}
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}
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#[test]
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#[test]
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fn macro_test() {
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fn macro_test() {
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let frac1 = frac!(1u8 / 3);
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let frac1 = frac!(1 / 3);
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let frac2 = Frac::new(1u8, 3, Sign::Positive);
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let frac2 = Frac::new(1u32, 3, Sign::Positive);
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assert_eq!(frac1, frac2);
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assert_eq!(frac1, frac2);
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let frac1 = -frac!(1u8 / 2);
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let frac1 = -frac!(1 / 2);
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let frac2 = Frac::new(1u8, 2, Sign::Negative);
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let frac2 = Frac::new(1u32, 2, Sign::Negative);
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assert_eq!(frac1, frac2);
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assert_eq!(frac1, frac2);
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}
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}
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}
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}
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