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gstreamer/fraction: Add impls for various other arithmetic operations on fractions

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Any arithmetic operation on plain values or references in any order
should be possible now, and on fractions with i32.
This commit is contained in:
Sebastian Dröge 2019-06-03 10:56:40 +03:00 committed by Sebastian Dröge
parent c774bd8114
commit b2ffe98d59
1 changed files with 151 additions and 76 deletions
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227
gstreamer/src/value.rs
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@ -66,85 +66,135 @@ impl AsRef<Rational32> for Fraction {
}
}
impl ops::Mul<Fraction> for Fraction {
type Output = Fraction;
macro_rules! impl_fraction_binop {
($name:ident, $f:ident, $name_assign:ident, $f_assign:ident) => {
impl ops::$name<Fraction> for Fraction {
type Output = Fraction;
fn mul(self, other: Fraction) -> Fraction {
Fraction(self.0.mul(other.0))
}
fn $f(self, other: Fraction) -> Fraction {
Fraction((self.0).$f(other.0))
}
}
impl ops::$name<Fraction> for &Fraction {
type Output = Fraction;
fn $f(self, other: Fraction) -> Fraction {
Fraction((self.0).$f(other.0))
}
}
impl ops::$name<&Fraction> for Fraction {
type Output = Fraction;
fn $f(self, other: &Fraction) -> Fraction {
Fraction((self.0).$f(other.0))
}
}
impl ops::$name<&Fraction> for &Fraction {
type Output = Fraction;
fn $f(self, other: &Fraction) -> Fraction {
Fraction((self.0).$f(other.0))
}
}
impl ops::$name<i32> for Fraction {
type Output = Fraction;
fn $f(self, other: i32) -> Fraction {
self.$f(Fraction::from(other))
}
}
impl ops::$name<i32> for &Fraction {
type Output = Fraction;
fn $f(self, other: i32) -> Fraction {
self.$f(Fraction::from(other))
}
}
impl ops::$name<&i32> for Fraction {
type Output = Fraction;
fn $f(self, other: &i32) -> Fraction {
self.$f(Fraction::from(*other))
}
}
impl ops::$name<&i32> for &Fraction {
type Output = Fraction;
fn $f(self, other: &i32) -> Fraction {
self.$f(Fraction::from(*other))
}
}
impl ops::$name<Fraction> for i32 {
type Output = Fraction;
fn $f(self, other: Fraction) -> Fraction {
Fraction::from(self).$f(other)
}
}
impl ops::$name<&Fraction> for i32 {
type Output = Fraction;
fn $f(self, other: &Fraction) -> Fraction {
Fraction::from(self).$f(other)
}
}
impl ops::$name<Fraction> for &i32 {
type Output = Fraction;
fn $f(self, other: Fraction) -> Fraction {
Fraction::from(*self).$f(other)
}
}
impl ops::$name<&Fraction> for &i32 {
type Output = Fraction;
fn $f(self, other: &Fraction) -> Fraction {
Fraction::from(*self).$f(other)
}
}
impl ops::$name_assign<Fraction> for Fraction {
fn $f_assign(&mut self, other: Fraction) {
(self.0).$f_assign(other.0)
}
}
impl ops::$name_assign<&Fraction> for Fraction {
fn $f_assign(&mut self, other: &Fraction) {
(self.0).$f_assign(other.0)
}
}
impl ops::$name_assign<i32> for Fraction {
fn $f_assign(&mut self, other: i32) {
(self.0).$f_assign(other)
}
}
impl ops::$name_assign<&i32> for Fraction {
fn $f_assign(&mut self, other: &i32) {
(self.0).$f_assign(other)
}
}
};
}
impl ops::Mul<i32> for Fraction {
type Output = Fraction;
fn mul(self, other: i32) -> Fraction {
self.mul(Fraction::from(other))
}
}
impl ops::Div<Fraction> for Fraction {
type Output = Fraction;
fn div(self, other: Fraction) -> Fraction {
Fraction(self.0.div(other.0))
}
}
impl ops::Div<i32> for Fraction {
type Output = Fraction;
fn div(self, other: i32) -> Fraction {
self.div(Fraction::from(other))
}
}
impl ops::Add<Fraction> for Fraction {
type Output = Fraction;
fn add(self, other: Fraction) -> Fraction {
Fraction(self.0.add(other.0))
}
}
impl ops::Add<i32> for Fraction {
type Output = Fraction;
fn add(self, other: i32) -> Fraction {
self.add(Fraction::from(other))
}
}
impl ops::Sub<Fraction> for Fraction {
type Output = Fraction;
fn sub(self, other: Fraction) -> Fraction {
Fraction(self.0.sub(other.0))
}
}
impl ops::Sub<i32> for Fraction {
type Output = Fraction;
fn sub(self, other: i32) -> Fraction {
self.sub(Fraction::from(other))
}
}
impl ops::Rem<Fraction> for Fraction {
type Output = Fraction;
fn rem(self, other: Fraction) -> Fraction {
Fraction(self.0.rem(other.0))
}
}
impl ops::Rem<i32> for Fraction {
type Output = Fraction;
fn rem(self, other: i32) -> Fraction {
self.rem(Fraction::from(other))
}
}
impl_fraction_binop!(Add, add, AddAssign, add_assign);
impl_fraction_binop!(Sub, sub, SubAssign, sub_assign);
impl_fraction_binop!(Div, div, DivAssign, div_assign);
impl_fraction_binop!(Mul, mul, MulAssign, mul_assign);
impl_fraction_binop!(Rem, rem, RemAssign, rem_assign);
impl ops::Neg for Fraction {
type Output = Fraction;
@ -154,6 +204,14 @@ impl ops::Neg for Fraction {
}
}
impl ops::Neg for &Fraction {
type Output = Fraction;
fn neg(self) -> Fraction {
Fraction(self.0.neg())
}
}
impl From<i32> for Fraction {
fn from(x: i32) -> Fraction {
assert_initialized_main_thread!();
@ -842,3 +900,20 @@ impl GstValueExt for glib::Value {
}
}
}
#[cfg(test)]
mod tests {
#[test]
fn test_fraction() {
::init().unwrap();
let f1 = ::Fraction::new(1, 2);
let f2 = ::Fraction::new(2, 3);
let mut f3 = f1 * f2;
let f4 = f1 * &f2;
f3 *= f2;
f3 *= &f4;
assert_eq!(f3, ::Fraction::new(2, 27));
}
}