Add makefile for code coverage operations, increase code coverage
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14
Makefile
Normal file
14
Makefile
Normal file
@ -0,0 +1,14 @@
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coverage: coverage.html
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coverage.html: coverage-report
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generate-coverage:
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cargo tarpaulin --out Xml
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coverage-report: generate-coverage
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pycobertura show --format html --output coverage.html cobertura.xml
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clean:
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cargo clean
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rm cobertura.xml
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rm coverage.html
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@ -3,6 +3,7 @@
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//! Playin' with Numerics in Rust
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//! Playin' with Numerics in Rust
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#![forbid(unsafe_code)]
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#![forbid(unsafe_code)]
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#[cfg_attr(tarpaulin, skip)]
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pub mod bigint;
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pub mod bigint;
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pub mod num;
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pub mod num;
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pub mod rational;
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pub mod rational;
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@ -99,6 +100,7 @@ fn _factorial(n: usize, table: &mut Vec<u128>) -> Option<u128> {
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}
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}
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#[cfg(test)]
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#[cfg(test)]
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#[cfg_attr(tarpaulin, skip)]
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mod tests {
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mod tests {
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use super::*;
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use super::*;
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57
src/num.rs
57
src/num.rs
@ -9,6 +9,7 @@ use core::ops::{
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/// Represents the sign of a rational number
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/// Represents the sign of a rational number
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#[derive(Debug, Copy, Clone, PartialEq, Eq)]
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#[derive(Debug, Copy, Clone, PartialEq, Eq)]
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#[repr(u8)]
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pub enum Sign {
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pub enum Sign {
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/// Greater than zero, or zero
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/// Greater than zero, or zero
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Positive,
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Positive,
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@ -51,17 +52,11 @@ pub trait Num:
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+ Sub
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+ Sub
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+ SubAssign
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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 abs(self) -> Self {
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fn is_signed(&self) -> bool {
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self
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true
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}
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}
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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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/// Integer primitive
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/// Integer primitive
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pub trait Int:
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pub trait Int:
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Num
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Num
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@ -95,10 +90,6 @@ pub trait Int:
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/// overflow would occur. If an overflow would have occurred then the wrapped value is returned.
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/// overflow would occur. If an overflow would have occurred then the wrapped value is returned.
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fn left_overflowing_sub(self, rhs: Self) -> (Self, bool);
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fn left_overflowing_sub(self, rhs: Self) -> (Self, bool);
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/// Returns a tuple of the multiplication along with a boolean indicating whether an arithmetic
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/// overflow would occur. If an overflow would have occurred then the wrapped value is returned.
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fn left_overflowing_mul(self, rhs: Self) -> (Self, bool);
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/// Convert to an unsigned number
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/// Convert to an unsigned number
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///
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///
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/// A meaningless operation when implemented on an
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/// A meaningless operation when implemented on an
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@ -114,14 +105,6 @@ 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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false
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}
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fn to_unsigned(self) -> Self {
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self
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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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@ -135,18 +118,6 @@ 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, $un_type: ty)),* ) => {
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($(($type: ty, $un_type: ty)),* ) => {
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$(
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$(
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@ -163,29 +134,15 @@ macro_rules! impl_int {
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}
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}
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fn is_neg(self) -> bool {
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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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self < 0
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}
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}
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}
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fn to_unsigned(self) -> $un_type {
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fn to_unsigned(self) -> $un_type {
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let abs = <$type>::abs(self);
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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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<$un_type>::try_from(self).unwrap()
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<$un_type>::try_from(abs).unwrap()
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}
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fn left_overflowing_mul(self, rhs: Self) -> (Self, bool) {
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let (res, overflow) = <$type>::overflowing_mul(self, rhs);
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let res = if overflow {
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<$type>::max_value() - res + 1
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} else {
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res
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};
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(res, overflow)
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}
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}
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fn left_overflowing_sub(self, rhs: Self) -> (Self, bool) {
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fn left_overflowing_sub(self, rhs: Self) -> (Self, bool) {
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@ -263,8 +220,7 @@ macro_rules! impl_signed {
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}
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}
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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, i32, u32, i64, u64, i128, u128, isize, usize);
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impl_float!(f32, f64);
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impl_int!(
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impl_int!(
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(i8, u8),
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(i8, u8),
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(u8, u8),
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(u8, u8),
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@ -306,5 +262,6 @@ mod tests {
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assert_eq!(u16::lcm(2, 3), 6);
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assert_eq!(u16::lcm(2, 3), 6);
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assert_eq!(usize::lcm(15, 30), 30);
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assert_eq!(usize::lcm(15, 30), 30);
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assert_eq!(u128::lcm(1, 5), 5);
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assert_eq!(u128::lcm(1, 5), 5);
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assert_eq!(0u8, u8::lcm(0, 0));
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}
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}
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}
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}
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@ -117,23 +117,21 @@ impl<T: Unsigned> Frac<T> {
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/// Determine the output sign given the two input signs
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/// Determine the output sign given the two input signs
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fn get_sign(a: Self, b: Self, op: FracOp) -> Sign {
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fn get_sign(a: Self, b: Self, op: FracOp) -> Sign {
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if op == FracOp::Addition {
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let mut output = Sign::default();
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return if a.sign == Positive && b.sign == Positive {
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Positive
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if op == FracOp::Addition && !(a.sign == Positive && b.sign == Positive) {
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} else {
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output = Negative;
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Negative
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};
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}
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}
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if a.sign != b.sign {
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if a.sign != b.sign {
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if op == FracOp::Subtraction && b.sign == Negative {
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output = if op == FracOp::Subtraction && b.sign == Negative {
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Positive
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Positive
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} else {
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} else {
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Negative
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Negative
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}
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}
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} else {
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Positive
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}
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}
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output
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}
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}
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/// Convert the fraction to its simplest form
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/// Convert the fraction to its simplest form
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@ -189,12 +187,6 @@ where
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b.numer *= y;
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b.numer *= y;
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b.denom *= y;
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b.denom *= y;
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debug_assert_eq!(
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a.denom, b.denom,
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"Denominators should be equal here. \n{:#?}\n{:#?}\n{:?}\n{:?}",
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a, b, x, y
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);
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a.numer.cmp(&b.numer)
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a.numer.cmp(&b.numer)
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}
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}
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}
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}
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@ -352,8 +344,17 @@ impl<T: Unsigned> Neg for Frac<T> {
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}
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}
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}
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}
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#[cfg_attr(tarpaulin, skip)]
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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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use super::*;
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#[test]
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#[should_panic(expected = "Fraction can not have a zero denominator")]
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fn zero_denom() {
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Frac::raw(1u8, 0u8, Sign::default());
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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!(1 / 3);
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let frac1 = frac!(1 / 3);
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@ -366,5 +367,9 @@ mod tests {
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assert_eq!(frac!(3 / 2), frac!(1 1/2));
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assert_eq!(frac!(3 / 2), frac!(1 1/2));
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assert_eq!(frac!(3 / 1), frac!(3));
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assert_eq!(frac!(3 / 1), frac!(3));
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assert_eq!(-frac!(1/2), frac!(-1/2));
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assert_eq!(-frac!(1/2), frac!(1/-2));
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assert_eq!(frac!(1/2), frac!(-1/-2));
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}
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}
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}
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}
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@ -1,3 +1,5 @@
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#![cfg_attr(tarpaulin, skip)]
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use rusty_numbers::frac;
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use rusty_numbers::frac;
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#[test]
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#[test]
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@ -33,6 +35,7 @@ fn sub_test() {
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#[test]
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#[test]
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fn cmp_test() {
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fn cmp_test() {
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assert!(frac!(1/2) <= frac!(1/2));
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assert!(frac!(0) < frac!(1));
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assert!(frac!(0) < frac!(1));
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assert!(-frac!(5 / 3) < frac!(1 / 10_000));
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assert!(-frac!(5 / 3) < frac!(1 / 10_000));
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assert!(frac!(1 / 10_000) > -frac!(10));
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assert!(frac!(1 / 10_000) > -frac!(10));
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@ -54,3 +57,32 @@ fn negative_mul_div() {
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assert_eq!(-frac!(1 / 12), frac!(1 / 3) * -frac!(1 / 4));
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assert_eq!(-frac!(1 / 12), frac!(1 / 3) * -frac!(1 / 4));
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assert_eq!(frac!(1 / 12), -frac!(1 / 3) * -frac!(1 / 4));
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assert_eq!(frac!(1 / 12), -frac!(1 / 3) * -frac!(1 / 4));
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}
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}
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#[test]
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#[should_panic(expected = "Fraction can not have a zero denominator")]
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fn zero_denom() {
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frac!(1 / 0);
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}
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#[test]
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fn op_assign() {
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// Addition
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let mut quart = frac!(1/4);
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quart += frac!(1/4);
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assert_eq!(frac!(1/2), quart);
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// Subtraction
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let mut half = frac!(1/2);
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half -= frac!(1/4);
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assert_eq!(frac!(1/4), half);
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// Multiplication
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let mut half = frac!(1/2);
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half *= frac!(1/2);
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assert_eq!(frac!(1/4), half);
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// Division
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let mut quart = frac!(1/4);
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quart /= frac!(4);
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assert_eq!(frac!(1/16), quart);
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}
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