src/fns.rs - platform/external/rust/crates/futures-util - Git at Google

 use core::marker::PhantomData;
 use core::fmt::{self, Debug};

 pub trait FnOnce1<A> {
     type Output;
     fn call_once(self, arg: A) -> Self::Output;
 }

 impl<T, A, R> FnOnce1<A> for T
 where
     T: FnOnce(A) -> R
 {
     type Output = R;
     fn call_once(self, arg: A) -> R {
         self(arg)
     }
 }

 pub trait FnMut1<A>: FnOnce1<A> {
     fn call_mut(&mut self, arg: A) -> Self::Output;
 }

 impl<T, A, R> FnMut1<A> for T
 where
     T: FnMut(A) -> R
 {
     fn call_mut(&mut self, arg: A) -> R {
         self(arg)
     }
 }

 // Not used, but present for completeness
 #[allow(unreachable_pub)]
 pub trait Fn1<A>: FnMut1<A> {
     fn call(&self, arg: A) -> Self::Output;
 }

 impl<T, A, R> Fn1<A> for T
 where
     T: Fn(A) -> R
 {
     fn call(&self, arg: A) -> R {
         self(arg)
     }
 }

 macro_rules! trivial_fn_impls {
     ($name:ident <$($arg:ident),*> $t:ty = $debug:literal) => {
         impl<$($arg),*> Copy for $t {}
         impl<$($arg),*> Clone for $t {
             fn clone(&self) -> Self { *self }
         }
         impl<$($arg),*> Debug for $t {
             fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
                 f.write_str($debug)
             }
         }
         impl<$($arg,)* A> FnMut1<A> for $t where Self: FnOnce1<A> {
             fn call_mut(&mut self, arg: A) -> Self::Output {
                 self.call_once(arg)
             }
         }
         impl<$($arg,)* A> Fn1<A> for $t where Self: FnOnce1<A> {
             fn call(&self, arg: A) -> Self::Output {
                 self.call_once(arg)
             }
         }
         pub(crate) fn $name<$($arg),*>() -> $t {
             Default::default()
         }
     }
 }

 pub struct OkFn<E>(PhantomData<fn(E)>);

 impl<E> Default for OkFn<E> {
     fn default() -> Self {
         OkFn(PhantomData)
     }
 }

 impl<A, E> FnOnce1<A> for OkFn<E> {
     type Output = Result<A, E>;
     fn call_once(self, arg: A) -> Self::Output {
         Ok(arg)
     }
 }

 trivial_fn_impls!(ok_fn <T> OkFn<T> = "Ok");

 #[derive(Debug, Copy, Clone, Default)]
 pub struct ChainFn<F, G>(F, G);

 impl<F, G, A> FnOnce1<A> for ChainFn<F, G>
 where
     F: FnOnce1<A>,
     G: FnOnce1<F::Output>,
 {
     type Output = G::Output;
     fn call_once(self, arg: A) -> Self::Output {
         self.1.call_once(self.0.call_once(arg))
     }
 }
 impl<F, G, A> FnMut1<A> for ChainFn<F, G>
 where
     F: FnMut1<A>,
     G: FnMut1<F::Output>,
 {
     fn call_mut(&mut self, arg: A) -> Self::Output {
         self.1.call_mut(self.0.call_mut(arg))
     }
 }
 impl<F, G, A> Fn1<A> for ChainFn<F, G>
 where
     F: Fn1<A>,
     G: Fn1<F::Output>,
 {
     fn call(&self, arg: A) -> Self::Output {
         self.1.call(self.0.call(arg))
     }
 }
 pub(crate) fn chain_fn<F, G>(f: F, g: G) -> ChainFn<F, G> {
     ChainFn(f, g)
 }

 #[derive(Default)]
 pub struct MergeResultFn;

 impl<T> FnOnce1<Result<T, T>> for MergeResultFn {
     type Output = T;
     fn call_once(self, arg: Result<T, T>) -> Self::Output {
         match arg {
             Ok(x) => x,
             Err(x) => x,
         }
     }
 }
 trivial_fn_impls!(merge_result_fn <> MergeResultFn = "merge_result");

 #[derive(Debug, Copy, Clone, Default)]
 pub struct InspectFn<F>(F);

 impl<F, A> FnOnce1<A> for InspectFn<F>
 where
     F: for<'a> FnOnce1<&'a A, Output=()>,
 {
     type Output = A;
     fn call_once(self, arg: A) -> Self::Output {
         self.0.call_once(&arg);
         arg
     }
 }
 impl<F, A> FnMut1<A> for InspectFn<F>
 where
     F: for<'a> FnMut1<&'a A, Output=()>,
 {
     fn call_mut(&mut self, arg: A) -> Self::Output {
         self.0.call_mut(&arg);
         arg
     }
 }
 impl<F, A> Fn1<A> for InspectFn<F>
 where
     F: for<'a> Fn1<&'a A, Output=()>,
 {
     fn call(&self, arg: A) -> Self::Output {
         self.0.call(&arg);
         arg
     }
 }
 pub(crate) fn inspect_fn<F>(f: F) -> InspectFn<F> {
     InspectFn(f)
 }

 #[derive(Debug, Copy, Clone, Default)]
 pub struct MapOkFn<F>(F);

 impl<F, T, E> FnOnce1<Result<T, E>> for MapOkFn<F>
 where
     F: FnOnce1<T>,
 {
     type Output = Result<F::Output, E>;
     fn call_once(self, arg: Result<T, E>) -> Self::Output {
         arg.map(|x| self.0.call_once(x))
     }
 }
 impl<F, T, E> FnMut1<Result<T, E>> for MapOkFn<F>
 where
     F: FnMut1<T>,
 {
     fn call_mut(&mut self, arg: Result<T, E>) -> Self::Output {
         arg.map(|x| self.0.call_mut(x))
     }
 }
 impl<F, T, E> Fn1<Result<T, E>> for MapOkFn<F>
 where
     F: Fn1<T>,
 {
     fn call(&self, arg: Result<T, E>) -> Self::Output {
         arg.map(|x| self.0.call(x))
     }
 }
 pub(crate) fn map_ok_fn<F>(f: F) -> MapOkFn<F> {
     MapOkFn(f)
 }

 #[derive(Debug, Copy, Clone, Default)]
 pub struct MapErrFn<F>(F);

 impl<F, T, E> FnOnce1<Result<T, E>> for MapErrFn<F>
 where
     F: FnOnce1<E>,
 {
     type Output = Result<T, F::Output>;
     fn call_once(self, arg: Result<T, E>) -> Self::Output {
         arg.map_err(|x| self.0.call_once(x))
     }
 }
 impl<F, T, E> FnMut1<Result<T, E>> for MapErrFn<F>
 where
     F: FnMut1<E>,
 {
     fn call_mut(&mut self, arg: Result<T, E>) -> Self::Output {
         arg.map_err(|x| self.0.call_mut(x))
     }
 }
 impl<F, T, E> Fn1<Result<T, E>> for MapErrFn<F>
 where
     F: Fn1<E>,
 {
     fn call(&self, arg: Result<T, E>) -> Self::Output {
         arg.map_err(|x| self.0.call(x))
     }
 }
 pub(crate) fn map_err_fn<F>(f: F) -> MapErrFn<F> {
     MapErrFn(f)
 }

 #[derive(Debug, Copy, Clone)]
 pub struct InspectOkFn<F>(F);

 impl<'a, F, T, E> FnOnce1<&'a Result<T, E>> for InspectOkFn<F>
 where
     F: FnOnce1<&'a T, Output=()>
 {
     type Output = ();
     fn call_once(self, arg: &'a Result<T, E>) -> Self::Output {
         if let Ok(x) = arg { self.0.call_once(x) }
     }
 }
 impl<'a, F, T, E> FnMut1<&'a Result<T, E>> for InspectOkFn<F>
 where
     F: FnMut1<&'a T, Output=()>,
 {
     fn call_mut(&mut self, arg: &'a Result<T, E>) -> Self::Output {
         if let Ok(x) = arg { self.0.call_mut(x) }
     }
 }
 impl<'a, F, T, E> Fn1<&'a Result<T, E>> for InspectOkFn<F>
 where
     F: Fn1<&'a T, Output=()>,
 {
     fn call(&self, arg: &'a Result<T, E>) -> Self::Output {
         if let Ok(x) = arg { self.0.call(x) }
     }
 }
 pub(crate) fn inspect_ok_fn<F>(f: F) -> InspectOkFn<F> {
     InspectOkFn(f)
 }

 #[derive(Debug, Copy, Clone)]
 pub struct InspectErrFn<F>(F);

 impl<'a, F, T, E> FnOnce1<&'a Result<T, E>> for InspectErrFn<F>
 where
     F: FnOnce1<&'a E, Output=()>
 {
     type Output = ();
     fn call_once(self, arg: &'a Result<T, E>) -> Self::Output {
         if let Err(x) = arg { self.0.call_once(x) }
     }
 }
 impl<'a, F, T, E> FnMut1<&'a Result<T, E>> for InspectErrFn<F>
 where
     F: FnMut1<&'a E, Output=()>,
 {
     fn call_mut(&mut self, arg: &'a Result<T, E>) -> Self::Output {
         if let Err(x) = arg { self.0.call_mut(x) }
     }
 }
 impl<'a, F, T, E> Fn1<&'a Result<T, E>> for InspectErrFn<F>
 where
     F: Fn1<&'a E, Output=()>,
 {
     fn call(&self, arg: &'a Result<T, E>) -> Self::Output {
         if let Err(x) = arg { self.0.call(x) }
     }
 }
 pub(crate) fn inspect_err_fn<F>(f: F) -> InspectErrFn<F> {
     InspectErrFn(f)
 }

 pub(crate) type MapOkOrElseFn<F, G> = ChainFn<MapOkFn<F>, ChainFn<MapErrFn<G>, MergeResultFn>>;
 pub(crate) fn map_ok_or_else_fn<F, G>(f: F, g: G) -> MapOkOrElseFn<F, G> {
     chain_fn(map_ok_fn(f), chain_fn(map_err_fn(g), merge_result_fn()))
 }

 #[derive(Debug, Copy, Clone, Default)]
 pub struct UnwrapOrElseFn<F>(F);

 impl<F, T, E> FnOnce1<Result<T, E>> for UnwrapOrElseFn<F>
 where
     F: FnOnce1<E, Output=T>,
 {
     type Output = T;
     fn call_once(self, arg: Result<T, E>) -> Self::Output {
         arg.unwrap_or_else(|x| self.0.call_once(x))
     }
 }
 impl<F, T, E> FnMut1<Result<T, E>> for UnwrapOrElseFn<F>
 where
     F: FnMut1<E, Output=T>,
 {
     fn call_mut(&mut self, arg: Result<T, E>) -> Self::Output {
         arg.unwrap_or_else(|x| self.0.call_mut(x))
     }
 }
 impl<F, T, E> Fn1<Result<T, E>> for UnwrapOrElseFn<F>
 where
     F: Fn1<E, Output=T>,
 {
     fn call(&self, arg: Result<T, E>) -> Self::Output {
         arg.unwrap_or_else(|x| self.0.call(x))
     }
 }
 pub(crate) fn unwrap_or_else_fn<F>(f: F) -> UnwrapOrElseFn<F> {
     UnwrapOrElseFn(f)
 }

 pub struct IntoFn<T>(PhantomData<fn() -> T>);

 impl<T> Default for IntoFn<T> {
     fn default() -> Self {
         IntoFn(PhantomData)
     }
 }
 impl<A, T> FnOnce1<A> for IntoFn<T> where A: Into<T> {
     type Output = T;
     fn call_once(self, arg: A) -> Self::Output {
         arg.into()
     }
 }

 trivial_fn_impls!(into_fn <T> IntoFn<T> = "Into::into");
	use core::marker::PhantomData;
	use core::fmt::{self, Debug};

	pub trait FnOnce1<A> {
	type Output;
	fn call_once(self, arg: A) -> Self::Output;
	}

	impl<T, A, R> FnOnce1<A> for T
	where
	T: FnOnce(A) -> R
	{
	type Output = R;
	fn call_once(self, arg: A) -> R {
	self(arg)
	}
	}

	pub trait FnMut1<A>: FnOnce1<A> {
	fn call_mut(&mut self, arg: A) -> Self::Output;
	}

	impl<T, A, R> FnMut1<A> for T
	where
	T: FnMut(A) -> R
	{
	fn call_mut(&mut self, arg: A) -> R {
	self(arg)
	}
	}

	// Not used, but present for completeness
	#[allow(unreachable_pub)]
	pub trait Fn1<A>: FnMut1<A> {
	fn call(&self, arg: A) -> Self::Output;
	}

	impl<T, A, R> Fn1<A> for T
	where
	T: Fn(A) -> R
	{
	fn call(&self, arg: A) -> R {
	self(arg)
	}
	}

	macro_rules! trivial_fn_impls {
	($name:ident <$($arg:ident),*> $t:ty = $debug:literal) => {
	impl<$($arg),*> Copy for $t {}
	impl<$($arg),*> Clone for $t {
	fn clone(&self) -> Self { *self }
	}
	impl<$($arg),*> Debug for $t {
	fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
	f.write_str($debug)
	}
	}
	impl<$($arg,)* A> FnMut1<A> for $t where Self: FnOnce1<A> {
	fn call_mut(&mut self, arg: A) -> Self::Output {
	self.call_once(arg)
	}
	}
	impl<$($arg,)* A> Fn1<A> for $t where Self: FnOnce1<A> {
	fn call(&self, arg: A) -> Self::Output {
	self.call_once(arg)
	}
	}
	pub(crate) fn $name<$($arg),*>() -> $t {
	Default::default()
	}
	}
	}

	pub struct OkFn<E>(PhantomData<fn(E)>);

	impl<E> Default for OkFn<E> {
	fn default() -> Self {
	OkFn(PhantomData)
	}
	}

	impl<A, E> FnOnce1<A> for OkFn<E> {
	type Output = Result<A, E>;
	fn call_once(self, arg: A) -> Self::Output {
	Ok(arg)
	}
	}

	trivial_fn_impls!(ok_fn <T> OkFn<T> = "Ok");

	#[derive(Debug, Copy, Clone, Default)]
	pub struct ChainFn<F, G>(F, G);

	impl<F, G, A> FnOnce1<A> for ChainFn<F, G>
	where
	F: FnOnce1<A>,
	G: FnOnce1<F::Output>,
	{
	type Output = G::Output;
	fn call_once(self, arg: A) -> Self::Output {
	self.1.call_once(self.0.call_once(arg))
	}
	}
	impl<F, G, A> FnMut1<A> for ChainFn<F, G>
	where
	F: FnMut1<A>,
	G: FnMut1<F::Output>,
	{
	fn call_mut(&mut self, arg: A) -> Self::Output {
	self.1.call_mut(self.0.call_mut(arg))
	}
	}
	impl<F, G, A> Fn1<A> for ChainFn<F, G>
	where
	F: Fn1<A>,
	G: Fn1<F::Output>,
	{
	fn call(&self, arg: A) -> Self::Output {
	self.1.call(self.0.call(arg))
	}
	}
	pub(crate) fn chain_fn<F, G>(f: F, g: G) -> ChainFn<F, G> {
	ChainFn(f, g)
	}

	#[derive(Default)]
	pub struct MergeResultFn;

	impl<T> FnOnce1<Result<T, T>> for MergeResultFn {
	type Output = T;
	fn call_once(self, arg: Result<T, T>) -> Self::Output {
	match arg {
	Ok(x) => x,
	Err(x) => x,
	}
	}
	}
	trivial_fn_impls!(merge_result_fn <> MergeResultFn = "merge_result");

	#[derive(Debug, Copy, Clone, Default)]
	pub struct InspectFn<F>(F);

	impl<F, A> FnOnce1<A> for InspectFn<F>
	where
	F: for<'a> FnOnce1<&'a A, Output=()>,
	{
	type Output = A;
	fn call_once(self, arg: A) -> Self::Output {
	self.0.call_once(&arg);
	arg
	}
	}
	impl<F, A> FnMut1<A> for InspectFn<F>
	where
	F: for<'a> FnMut1<&'a A, Output=()>,
	{
	fn call_mut(&mut self, arg: A) -> Self::Output {
	self.0.call_mut(&arg);
	arg
	}
	}
	impl<F, A> Fn1<A> for InspectFn<F>
	where
	F: for<'a> Fn1<&'a A, Output=()>,
	{
	fn call(&self, arg: A) -> Self::Output {
	self.0.call(&arg);
	arg
	}
	}
	pub(crate) fn inspect_fn<F>(f: F) -> InspectFn<F> {
	InspectFn(f)
	}

	#[derive(Debug, Copy, Clone, Default)]
	pub struct MapOkFn<F>(F);

	impl<F, T, E> FnOnce1<Result<T, E>> for MapOkFn<F>
	where
	F: FnOnce1<T>,
	{
	type Output = Result<F::Output, E>;
	fn call_once(self, arg: Result<T, E>) -> Self::Output {
	arg.map(\|x\| self.0.call_once(x))
	}
	}
	impl<F, T, E> FnMut1<Result<T, E>> for MapOkFn<F>
	where
	F: FnMut1<T>,
	{
	fn call_mut(&mut self, arg: Result<T, E>) -> Self::Output {
	arg.map(\|x\| self.0.call_mut(x))
	}
	}
	impl<F, T, E> Fn1<Result<T, E>> for MapOkFn<F>
	where
	F: Fn1<T>,
	{
	fn call(&self, arg: Result<T, E>) -> Self::Output {
	arg.map(\|x\| self.0.call(x))
	}
	}
	pub(crate) fn map_ok_fn<F>(f: F) -> MapOkFn<F> {
	MapOkFn(f)
	}

	#[derive(Debug, Copy, Clone, Default)]
	pub struct MapErrFn<F>(F);

	impl<F, T, E> FnOnce1<Result<T, E>> for MapErrFn<F>
	where
	F: FnOnce1<E>,
	{
	type Output = Result<T, F::Output>;
	fn call_once(self, arg: Result<T, E>) -> Self::Output {
	arg.map_err(\|x\| self.0.call_once(x))
	}
	}
	impl<F, T, E> FnMut1<Result<T, E>> for MapErrFn<F>
	where
	F: FnMut1<E>,
	{
	fn call_mut(&mut self, arg: Result<T, E>) -> Self::Output {
	arg.map_err(\|x\| self.0.call_mut(x))
	}
	}
	impl<F, T, E> Fn1<Result<T, E>> for MapErrFn<F>
	where
	F: Fn1<E>,
	{
	fn call(&self, arg: Result<T, E>) -> Self::Output {
	arg.map_err(\|x\| self.0.call(x))
	}
	}
	pub(crate) fn map_err_fn<F>(f: F) -> MapErrFn<F> {
	MapErrFn(f)
	}

	#[derive(Debug, Copy, Clone)]
	pub struct InspectOkFn<F>(F);

	impl<'a, F, T, E> FnOnce1<&'a Result<T, E>> for InspectOkFn<F>
	where
	F: FnOnce1<&'a T, Output=()>
	{
	type Output = ();
	fn call_once(self, arg: &'a Result<T, E>) -> Self::Output {
	if let Ok(x) = arg { self.0.call_once(x) }
	}
	}
	impl<'a, F, T, E> FnMut1<&'a Result<T, E>> for InspectOkFn<F>
	where
	F: FnMut1<&'a T, Output=()>,
	{
	fn call_mut(&mut self, arg: &'a Result<T, E>) -> Self::Output {
	if let Ok(x) = arg { self.0.call_mut(x) }
	}
	}
	impl<'a, F, T, E> Fn1<&'a Result<T, E>> for InspectOkFn<F>
	where
	F: Fn1<&'a T, Output=()>,
	{
	fn call(&self, arg: &'a Result<T, E>) -> Self::Output {
	if let Ok(x) = arg { self.0.call(x) }
	}
	}
	pub(crate) fn inspect_ok_fn<F>(f: F) -> InspectOkFn<F> {
	InspectOkFn(f)
	}

	#[derive(Debug, Copy, Clone)]
	pub struct InspectErrFn<F>(F);

	impl<'a, F, T, E> FnOnce1<&'a Result<T, E>> for InspectErrFn<F>
	where
	F: FnOnce1<&'a E, Output=()>
	{
	type Output = ();
	fn call_once(self, arg: &'a Result<T, E>) -> Self::Output {
	if let Err(x) = arg { self.0.call_once(x) }
	}
	}
	impl<'a, F, T, E> FnMut1<&'a Result<T, E>> for InspectErrFn<F>
	where
	F: FnMut1<&'a E, Output=()>,
	{
	fn call_mut(&mut self, arg: &'a Result<T, E>) -> Self::Output {
	if let Err(x) = arg { self.0.call_mut(x) }
	}
	}
	impl<'a, F, T, E> Fn1<&'a Result<T, E>> for InspectErrFn<F>
	where
	F: Fn1<&'a E, Output=()>,
	{
	fn call(&self, arg: &'a Result<T, E>) -> Self::Output {
	if let Err(x) = arg { self.0.call(x) }
	}
	}
	pub(crate) fn inspect_err_fn<F>(f: F) -> InspectErrFn<F> {
	InspectErrFn(f)
	}

	pub(crate) type MapOkOrElseFn<F, G> = ChainFn<MapOkFn<F>, ChainFn<MapErrFn<G>, MergeResultFn>>;
	pub(crate) fn map_ok_or_else_fn<F, G>(f: F, g: G) -> MapOkOrElseFn<F, G> {
	chain_fn(map_ok_fn(f), chain_fn(map_err_fn(g), merge_result_fn()))
	}

	#[derive(Debug, Copy, Clone, Default)]
	pub struct UnwrapOrElseFn<F>(F);

	impl<F, T, E> FnOnce1<Result<T, E>> for UnwrapOrElseFn<F>
	where
	F: FnOnce1<E, Output=T>,
	{
	type Output = T;
	fn call_once(self, arg: Result<T, E>) -> Self::Output {
	arg.unwrap_or_else(\|x\| self.0.call_once(x))
	}
	}
	impl<F, T, E> FnMut1<Result<T, E>> for UnwrapOrElseFn<F>
	where
	F: FnMut1<E, Output=T>,
	{
	fn call_mut(&mut self, arg: Result<T, E>) -> Self::Output {
	arg.unwrap_or_else(\|x\| self.0.call_mut(x))
	}
	}
	impl<F, T, E> Fn1<Result<T, E>> for UnwrapOrElseFn<F>
	where
	F: Fn1<E, Output=T>,
	{
	fn call(&self, arg: Result<T, E>) -> Self::Output {
	arg.unwrap_or_else(\|x\| self.0.call(x))
	}
	}
	pub(crate) fn unwrap_or_else_fn<F>(f: F) -> UnwrapOrElseFn<F> {
	UnwrapOrElseFn(f)
	}

	pub struct IntoFn<T>(PhantomData<fn() -> T>);

	impl<T> Default for IntoFn<T> {
	fn default() -> Self {
	IntoFn(PhantomData)
	}
	}
	impl<A, T> FnOnce1<A> for IntoFn<T> where A: Into<T> {
	type Output = T;
	fn call_once(self, arg: A) -> Self::Output {
	arg.into()
	}
	}

	trivial_fn_impls!(into_fn <T> IntoFn<T> = "Into::into");