crates/itertools/src/duplicates_impl.rs - platform/external/rust/android-crates-io - Git at Google

 use std::hash::Hash;

 mod private {
     use std::collections::HashMap;
     use std::fmt;
     use std::hash::Hash;

     #[derive(Clone)]
     #[must_use = "iterator adaptors are lazy and do nothing unless consumed"]
     pub struct DuplicatesBy<I: Iterator, Key, F> {
         pub(crate) iter: I,
         pub(crate) meta: Meta<Key, F>,
     }

     impl<I, V, F> fmt::Debug for DuplicatesBy<I, V, F>
     where
         I: Iterator + fmt::Debug,
         V: fmt::Debug + Hash + Eq,
     {
         debug_fmt_fields!(DuplicatesBy, iter, meta.used);
     }

     impl<I: Iterator, Key: Eq + Hash, F> DuplicatesBy<I, Key, F> {
         pub(crate) fn new(iter: I, key_method: F) -> Self {
             Self {
                 iter,
                 meta: Meta {
                     used: HashMap::new(),
                     pending: 0,
                     key_method,
                 },
             }
         }
     }

     #[derive(Clone)]
     pub struct Meta<Key, F> {
         used: HashMap<Key, bool>,
         pending: usize,
         key_method: F,
     }

     impl<Key, F> Meta<Key, F>
     where
         Key: Eq + Hash,
     {
         /// Takes an item and returns it back to the caller if it's the second time we see it.
         /// Otherwise the item is consumed and None is returned
         #[inline(always)]
         fn filter<I>(&mut self, item: I) -> Option<I>
         where
             F: KeyMethod<Key, I>,
         {
             let kv = self.key_method.make(item);
             match self.used.get_mut(kv.key_ref()) {
                 None => {
                     self.used.insert(kv.key(), false);
                     self.pending += 1;
                     None
                 }
                 Some(true) => None,
                 Some(produced) => {
                     *produced = true;
                     self.pending -= 1;
                     Some(kv.value())
                 }
             }
         }
     }

     impl<I, Key, F> Iterator for DuplicatesBy<I, Key, F>
     where
         I: Iterator,
         Key: Eq + Hash,
         F: KeyMethod<Key, I::Item>,
     {
         type Item = I::Item;

         fn next(&mut self) -> Option<Self::Item> {
             let Self { iter, meta } = self;
             iter.find_map(|v| meta.filter(v))
         }

         #[inline]
         fn size_hint(&self) -> (usize, Option<usize>) {
             let (_, hi) = self.iter.size_hint();
             let hi = hi.map(|hi| {
                 if hi <= self.meta.pending {
                     // fewer or equally many iter-remaining elements than pending elements
                     // => at most, each iter-remaining element is matched
                     hi
                 } else {
                     // fewer pending elements than iter-remaining elements
                     // => at most:
                     //    * each pending element is matched
                     //    * the other iter-remaining elements come in pairs
                     self.meta.pending + (hi - self.meta.pending) / 2
                 }
             });
             // The lower bound is always 0 since we might only get unique items from now on
             (0, hi)
         }
     }

     impl<I, Key, F> DoubleEndedIterator for DuplicatesBy<I, Key, F>
     where
         I: DoubleEndedIterator,
         Key: Eq + Hash,
         F: KeyMethod<Key, I::Item>,
     {
         fn next_back(&mut self) -> Option<Self::Item> {
             let Self { iter, meta } = self;
             iter.rev().find_map(|v| meta.filter(v))
         }
     }

     /// A keying method for use with `DuplicatesBy`
     pub trait KeyMethod<K, V> {
         type Container: KeyXorValue<K, V>;

         fn make(&mut self, value: V) -> Self::Container;
     }

     /// Apply the identity function to elements before checking them for equality.
     #[derive(Debug, Clone)]
     pub struct ById;
     impl<V> KeyMethod<V, V> for ById {
         type Container = JustValue<V>;

         fn make(&mut self, v: V) -> Self::Container {
             JustValue(v)
         }
     }

     /// Apply a user-supplied function to elements before checking them for equality.
     #[derive(Clone)]
     pub struct ByFn<F>(pub(crate) F);
     impl<F> fmt::Debug for ByFn<F> {
         debug_fmt_fields!(ByFn,);
     }
     impl<K, V, F> KeyMethod<K, V> for ByFn<F>
     where
         F: FnMut(&V) -> K,
     {
         type Container = KeyValue<K, V>;

         fn make(&mut self, v: V) -> Self::Container {
             KeyValue((self.0)(&v), v)
         }
     }

     // Implementors of this trait can hold onto a key and a value but only give access to one of them
     // at a time. This allows the key and the value to be the same value internally
     pub trait KeyXorValue<K, V> {
         fn key_ref(&self) -> &K;
         fn key(self) -> K;
         fn value(self) -> V;
     }

     #[derive(Debug)]
     pub struct KeyValue<K, V>(K, V);
     impl<K, V> KeyXorValue<K, V> for KeyValue<K, V> {
         fn key_ref(&self) -> &K {
             &self.0
         }
         fn key(self) -> K {
             self.0
         }
         fn value(self) -> V {
             self.1
         }
     }

     #[derive(Debug)]
     pub struct JustValue<V>(V);
     impl<V> KeyXorValue<V, V> for JustValue<V> {
         fn key_ref(&self) -> &V {
             &self.0
         }
         fn key(self) -> V {
             self.0
         }
         fn value(self) -> V {
             self.0
         }
     }
 }

 /// An iterator adapter to filter for duplicate elements.
 ///
 /// See [`.duplicates_by()`](crate::Itertools::duplicates_by) for more information.
 pub type DuplicatesBy<I, V, F> = private::DuplicatesBy<I, V, private::ByFn<F>>;

 /// Create a new `DuplicatesBy` iterator.
 pub fn duplicates_by<I, Key, F>(iter: I, f: F) -> DuplicatesBy<I, Key, F>
 where
     Key: Eq + Hash,
     F: FnMut(&I::Item) -> Key,
     I: Iterator,
 {
     DuplicatesBy::new(iter, private::ByFn(f))
 }

 /// An iterator adapter to filter out duplicate elements.
 ///
 /// See [`.duplicates()`](crate::Itertools::duplicates) for more information.
 pub type Duplicates<I> = private::DuplicatesBy<I, <I as Iterator>::Item, private::ById>;

 /// Create a new `Duplicates` iterator.
 pub fn duplicates<I>(iter: I) -> Duplicates<I>
 where
     I: Iterator,
     I::Item: Eq + Hash,
 {
     Duplicates::new(iter, private::ById)
 }
	use std::hash::Hash;

	mod private {
	use std::collections::HashMap;
	use std::fmt;
	use std::hash::Hash;

	#[derive(Clone)]
	#[must_use = "iterator adaptors are lazy and do nothing unless consumed"]
	pub struct DuplicatesBy<I: Iterator, Key, F> {
	pub(crate) iter: I,
	pub(crate) meta: Meta<Key, F>,
	}

	impl<I, V, F> fmt::Debug for DuplicatesBy<I, V, F>
	where
	I: Iterator + fmt::Debug,
	V: fmt::Debug + Hash + Eq,
	{
	debug_fmt_fields!(DuplicatesBy, iter, meta.used);
	}

	impl<I: Iterator, Key: Eq + Hash, F> DuplicatesBy<I, Key, F> {
	pub(crate) fn new(iter: I, key_method: F) -> Self {
	Self {
	iter,
	meta: Meta {
	used: HashMap::new(),
	pending: 0,
	key_method,
	},
	}
	}
	}

	#[derive(Clone)]
	pub struct Meta<Key, F> {
	used: HashMap<Key, bool>,
	pending: usize,
	key_method: F,
	}

	impl<Key, F> Meta<Key, F>
	where
	Key: Eq + Hash,
	{
	/// Takes an item and returns it back to the caller if it's the second time we see it.
	/// Otherwise the item is consumed and None is returned
	#[inline(always)]
	fn filter<I>(&mut self, item: I) -> Option<I>
	where
	F: KeyMethod<Key, I>,
	{
	let kv = self.key_method.make(item);
	match self.used.get_mut(kv.key_ref()) {
	None => {
	self.used.insert(kv.key(), false);
	self.pending += 1;
	None
	}
	Some(true) => None,
	Some(produced) => {
	*produced = true;
	self.pending -= 1;
	Some(kv.value())
	}
	}
	}
	}

	impl<I, Key, F> Iterator for DuplicatesBy<I, Key, F>
	where
	I: Iterator,
	Key: Eq + Hash,
	F: KeyMethod<Key, I::Item>,
	{
	type Item = I::Item;

	fn next(&mut self) -> Option<Self::Item> {
	let Self { iter, meta } = self;
	iter.find_map(\|v\| meta.filter(v))
	}

	#[inline]
	fn size_hint(&self) -> (usize, Option<usize>) {
	let (_, hi) = self.iter.size_hint();
	let hi = hi.map(\|hi\| {
	if hi <= self.meta.pending {
	// fewer or equally many iter-remaining elements than pending elements
	// => at most, each iter-remaining element is matched
	hi
	} else {
	// fewer pending elements than iter-remaining elements
	// => at most:
	// * each pending element is matched
	// * the other iter-remaining elements come in pairs
	self.meta.pending + (hi - self.meta.pending) / 2
	}
	});
	// The lower bound is always 0 since we might only get unique items from now on
	(0, hi)
	}
	}

	impl<I, Key, F> DoubleEndedIterator for DuplicatesBy<I, Key, F>
	where
	I: DoubleEndedIterator,
	Key: Eq + Hash,
	F: KeyMethod<Key, I::Item>,
	{
	fn next_back(&mut self) -> Option<Self::Item> {
	let Self { iter, meta } = self;
	iter.rev().find_map(\|v\| meta.filter(v))
	}
	}

	/// A keying method for use with `DuplicatesBy`
	pub trait KeyMethod<K, V> {
	type Container: KeyXorValue<K, V>;

	fn make(&mut self, value: V) -> Self::Container;
	}

	/// Apply the identity function to elements before checking them for equality.
	#[derive(Debug, Clone)]
	pub struct ById;
	impl<V> KeyMethod<V, V> for ById {
	type Container = JustValue<V>;

	fn make(&mut self, v: V) -> Self::Container {
	JustValue(v)
	}
	}

	/// Apply a user-supplied function to elements before checking them for equality.
	#[derive(Clone)]
	pub struct ByFn<F>(pub(crate) F);
	impl<F> fmt::Debug for ByFn<F> {
	debug_fmt_fields!(ByFn,);
	}
	impl<K, V, F> KeyMethod<K, V> for ByFn<F>
	where
	F: FnMut(&V) -> K,
	{
	type Container = KeyValue<K, V>;

	fn make(&mut self, v: V) -> Self::Container {
	KeyValue((self.0)(&v), v)
	}
	}

	// Implementors of this trait can hold onto a key and a value but only give access to one of them
	// at a time. This allows the key and the value to be the same value internally
	pub trait KeyXorValue<K, V> {
	fn key_ref(&self) -> &K;
	fn key(self) -> K;
	fn value(self) -> V;
	}

	#[derive(Debug)]
	pub struct KeyValue<K, V>(K, V);
	impl<K, V> KeyXorValue<K, V> for KeyValue<K, V> {
	fn key_ref(&self) -> &K {
	&self.0
	}
	fn key(self) -> K {
	self.0
	}
	fn value(self) -> V {
	self.1
	}
	}

	#[derive(Debug)]
	pub struct JustValue<V>(V);
	impl<V> KeyXorValue<V, V> for JustValue<V> {
	fn key_ref(&self) -> &V {
	&self.0
	}
	fn key(self) -> V {
	self.0
	}
	fn value(self) -> V {
	self.0
	}
	}
	}

	/// An iterator adapter to filter for duplicate elements.
	///
	/// See [`.duplicates_by()`](crate::Itertools::duplicates_by) for more information.
	pub type DuplicatesBy<I, V, F> = private::DuplicatesBy<I, V, private::ByFn<F>>;

	/// Create a new `DuplicatesBy` iterator.
	pub fn duplicates_by<I, Key, F>(iter: I, f: F) -> DuplicatesBy<I, Key, F>
	where
	Key: Eq + Hash,
	F: FnMut(&I::Item) -> Key,
	I: Iterator,
	{
	DuplicatesBy::new(iter, private::ByFn(f))
	}

	/// An iterator adapter to filter out duplicate elements.
	///
	/// See [`.duplicates()`](crate::Itertools::duplicates) for more information.
	pub type Duplicates<I> = private::DuplicatesBy<I, <I as Iterator>::Item, private::ById>;

	/// Create a new `Duplicates` iterator.
	pub fn duplicates<I>(iter: I) -> Duplicates<I>
	where
	I: Iterator,
	I::Item: Eq + Hash,
	{
	Duplicates::new(iter, private::ById)
	}