Implement arithmetic with real for complex
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135
src/complex.rs
135
src/complex.rs
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@ -289,6 +289,20 @@ impl<T: Clone + Float> Complex<T> {
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}
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}
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impl<T: Clone + Num> From<T> for Complex<T> {
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#[inline]
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fn from(re: T) -> Complex<T> {
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Complex { re: re, im: T::zero() }
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}
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}
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impl<'a, T: Clone + Num> From<&'a T> for Complex<T> {
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#[inline]
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fn from(re: &T) -> Complex<T> {
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From::from(re.clone())
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}
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}
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macro_rules! forward_val_val_binop {
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(impl $imp:ident, $method:ident) => {
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impl<T: Clone + Num> $imp<Complex<T>> for Complex<T> {
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@ -407,6 +421,93 @@ impl<'a, T: Clone + Num + Neg<Output = T>> Neg for &'a Complex<T> {
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}
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}
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macro_rules! real_arithmetic {
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(@forward $imp:ident::$method:ident for $($real:ident),*) => (
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impl<'a, T: Clone + Num> $imp<&'a T> for Complex<T> {
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type Output = Complex<T>;
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#[inline]
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fn $method(self, other: &T) -> Complex<T> {
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self.$method(other.clone())
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}
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}
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impl<'a, T: Clone + Num> $imp<T> for &'a Complex<T> {
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type Output = Complex<T>;
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#[inline]
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fn $method(self, other: T) -> Complex<T> {
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self.clone().$method(other)
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}
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}
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impl<'a, 'b, T: Clone + Num> $imp<&'a T> for &'b Complex<T> {
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type Output = Complex<T>;
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#[inline]
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fn $method(self, other: &T) -> Complex<T> {
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self.clone().$method(other.clone())
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}
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}
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$(
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impl<'a> $imp<&'a Complex<$real>> for $real {
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type Output = Complex<$real>;
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#[inline]
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fn $method(self, other: &Complex<$real>) -> Complex<$real> {
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self.$method(other.clone())
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}
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}
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impl<'a> $imp<Complex<$real>> for &'a $real {
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type Output = Complex<$real>;
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#[inline]
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fn $method(self, other: Complex<$real>) -> Complex<$real> {
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self.clone().$method(other)
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}
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}
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impl<'a, 'b> $imp<&'a Complex<$real>> for &'b $real {
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type Output = Complex<$real>;
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#[inline]
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fn $method(self, other: &Complex<$real>) -> Complex<$real> {
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self.clone().$method(other.clone())
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}
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}
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)*
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);
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(@implement $imp:ident::$method:ident for $($real:ident),*) => (
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impl<T: Clone + Num> $imp<T> for Complex<T> {
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type Output = Complex<T>;
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#[inline]
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fn $method(self, other: T) -> Complex<T> {
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self.$method(Complex::from(other))
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}
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}
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$(
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impl $imp<Complex<$real>> for $real {
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type Output = Complex<$real>;
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#[inline]
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fn $method(self, other: Complex<$real>) -> Complex<$real> {
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Complex::from(self).$method(other)
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}
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}
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)*
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);
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($($real:ident),*) => (
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real_arithmetic!(@forward Add::add for $($real),*);
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real_arithmetic!(@forward Sub::sub for $($real),*);
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real_arithmetic!(@forward Mul::mul for $($real),*);
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real_arithmetic!(@forward Div::div for $($real),*);
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real_arithmetic!(@implement Add::add for $($real),*);
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real_arithmetic!(@implement Sub::sub for $($real),*);
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real_arithmetic!(@implement Mul::mul for $($real),*);
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real_arithmetic!(@implement Div::div for $($real),*);
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);
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}
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real_arithmetic!(usize, u8, u16, u32, u64, isize, i8, i16, i32, i64, f32, f64);
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/* constants */
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impl<T: Clone + Num> Zero for Complex<T> {
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#[inline]
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@ -838,7 +939,7 @@ mod test {
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}
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}
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mod arith {
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mod complex_arithmetic {
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use super::{_0_0i, _1_0i, _1_1i, _0_1i, _neg1_1i, _05_05i, all_consts};
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use Zero;
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@ -880,6 +981,7 @@ mod test {
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assert_eq!(_1_0i * c, c);
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}
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}
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#[test]
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fn test_div() {
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assert_eq!(_neg1_1i / _0_1i, _1_1i);
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@ -889,6 +991,7 @@ mod test {
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}
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}
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}
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#[test]
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fn test_neg() {
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assert_eq!(-_1_0i + _0_1i, _neg1_1i);
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@ -899,6 +1002,34 @@ mod test {
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}
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}
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mod real_arithmetic {
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use super::super::Complex;
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#[test]
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fn test_add() {
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assert_eq!(Complex::new(4.0, 2.0) + 0.5, Complex::new(4.5, 2.0));
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assert_eq!(0.5 + Complex::new(4.0, 2.0), Complex::new(4.5, 2.0));
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}
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#[test]
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fn test_sub() {
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assert_eq!(Complex::new(4.0, 2.0) - 0.5, Complex::new(3.5, 2.0));
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assert_eq!(0.5 - Complex::new(4.0, 2.0), Complex::new(-3.5, -2.0));
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}
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#[test]
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fn test_mul() {
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assert_eq!(Complex::new(4.0, 2.0) * 0.5, Complex::new(2.0, 1.0));
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assert_eq!(0.5 * Complex::new(4.0, 2.0), Complex::new(2.0, 1.0));
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}
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#[test]
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fn test_div() {
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assert_eq!(Complex::new(4.0, 2.0) / 0.5, Complex::new(8.0, 4.0));
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assert_eq!(0.5 / Complex::new(4.0, 2.0), Complex::new(0.1, -0.05));
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}
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}
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#[test]
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fn test_to_string() {
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fn test(c : Complex64, s: String) {
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@ -915,8 +1046,6 @@ mod test {
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#[test]
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fn test_hash() {
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let a = Complex::new(0i32, 0i32);
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let b = Complex::new(1i32, 0i32);
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let c = Complex::new(0i32, 1i32);
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