diff options
Diffstat (limited to 'vendor/itertools/src/lib.rs')
-rw-r--r-- | vendor/itertools/src/lib.rs | 261 |
1 files changed, 222 insertions, 39 deletions
diff --git a/vendor/itertools/src/lib.rs b/vendor/itertools/src/lib.rs index f91968870..c23a65db5 100644 --- a/vendor/itertools/src/lib.rs +++ b/vendor/itertools/src/lib.rs @@ -146,6 +146,7 @@ pub mod structs { pub use crate::repeatn::RepeatN; #[allow(deprecated)] pub use crate::sources::{RepeatCall, Unfold, Iterate}; + pub use crate::take_while_inclusive::TakeWhileInclusive; #[cfg(feature = "use_alloc")] pub use crate::tee::Tee; pub use crate::tuple_impl::{TupleBuffer, TupleWindows, CircularTupleWindows, Tuples}; @@ -233,6 +234,7 @@ mod rciter_impl; mod repeatn; mod size_hint; mod sources; +mod take_while_inclusive; #[cfg(feature = "use_alloc")] mod tee; mod tuple_impl; @@ -904,7 +906,7 @@ pub trait Itertools : Iterator { /// Return an iterator adaptor that flattens every `Result::Ok` value into /// a series of `Result::Ok` values. `Result::Err` values are unchanged. - /// + /// /// This is useful when you have some common error type for your crate and /// need to propagate it upwards, but the `Result::Ok` case needs to be flattened. /// @@ -914,7 +916,7 @@ pub trait Itertools : Iterator { /// let input = vec![Ok(0..2), Err(false), Ok(2..4)]; /// let it = input.iter().cloned().flatten_ok(); /// itertools::assert_equal(it.clone(), vec![Ok(0), Ok(1), Err(false), Ok(2), Ok(3)]); - /// + /// /// // This can also be used to propagate errors when collecting. /// let output_result: Result<Vec<i32>, bool> = it.collect(); /// assert_eq!(output_result, Err(false)); @@ -926,6 +928,43 @@ pub trait Itertools : Iterator { flatten_ok::flatten_ok(self) } + /// “Lift” a function of the values of the current iterator so as to process + /// an iterator of `Result` values instead. + /// + /// `processor` is a closure that receives an adapted version of the iterator + /// as the only argument — the adapted iterator produces elements of type `T`, + /// as long as the original iterator produces `Ok` values. + /// + /// If the original iterable produces an error at any point, the adapted + /// iterator ends and it will return the error iself. + /// + /// Otherwise, the return value from the closure is returned wrapped + /// inside `Ok`. + /// + /// # Example + /// + /// ``` + /// use itertools::Itertools; + /// + /// type Item = Result<i32, &'static str>; + /// + /// let first_values: Vec<Item> = vec![Ok(1), Ok(0), Ok(3)]; + /// let second_values: Vec<Item> = vec![Ok(2), Ok(1), Err("overflow")]; + /// + /// // “Lift” the iterator .max() method to work on the Ok-values. + /// let first_max = first_values.into_iter().process_results(|iter| iter.max().unwrap_or(0)); + /// let second_max = second_values.into_iter().process_results(|iter| iter.max().unwrap_or(0)); + /// + /// assert_eq!(first_max, Ok(3)); + /// assert!(second_max.is_err()); + /// ``` + fn process_results<F, T, E, R>(self, processor: F) -> Result<R, E> + where Self: Iterator<Item = Result<T, E>> + Sized, + F: FnOnce(ProcessResults<Self, E>) -> R + { + process_results(self, processor) + } + /// Return an iterator adaptor that merges the two base iterators in /// ascending order. If both base iterators are sorted (ascending), the /// result is sorted. @@ -935,8 +974,8 @@ pub trait Itertools : Iterator { /// ``` /// use itertools::Itertools; /// - /// let a = (0..11).step(3); - /// let b = (0..11).step(5); + /// let a = (0..11).step_by(3); + /// let b = (0..11).step_by(5); /// let it = a.merge(b); /// itertools::assert_equal(it, vec![0, 0, 3, 5, 6, 9, 10]); /// ``` @@ -975,7 +1014,10 @@ pub trait Itertools : Iterator { /// Create an iterator that merges items from both this and the specified /// iterator in ascending order. /// - /// It chooses whether to pair elements based on the `Ordering` returned by the + /// The function can either return an `Ordering` variant or a boolean. + /// + /// If `cmp_fn` returns `Ordering`, + /// it chooses whether to pair elements based on the `Ordering` returned by the /// specified compare function. At any point, inspecting the tip of the /// iterators `I` and `J` as items `i` of type `I::Item` and `j` of type /// `J::Item` respectively, the resulting iterator will: @@ -991,18 +1033,46 @@ pub trait Itertools : Iterator { /// use itertools::Itertools; /// use itertools::EitherOrBoth::{Left, Right, Both}; /// - /// let multiples_of_2 = (0..10).step(2); - /// let multiples_of_3 = (0..10).step(3); + /// let a = vec![0, 2, 4, 6, 1].into_iter(); + /// let b = (0..10).step_by(3); /// /// itertools::assert_equal( - /// multiples_of_2.merge_join_by(multiples_of_3, |i, j| i.cmp(j)), - /// vec![Both(0, 0), Left(2), Right(3), Left(4), Both(6, 6), Left(8), Right(9)] + /// a.merge_join_by(b, |i, j| i.cmp(j)), + /// vec![Both(0, 0), Left(2), Right(3), Left(4), Both(6, 6), Left(1), Right(9)] + /// ); + /// ``` + /// + /// If `cmp_fn` returns `bool`, + /// it chooses whether to pair elements based on the boolean returned by the + /// specified function. At any point, inspecting the tip of the + /// iterators `I` and `J` as items `i` of type `I::Item` and `j` of type + /// `J::Item` respectively, the resulting iterator will: + /// + /// - Emit `Either::Left(i)` when `true`, + /// and remove `i` from its source iterator + /// - Emit `Either::Right(j)` when `false`, + /// and remove `j` from its source iterator + /// + /// It is similar to the `Ordering` case if the first argument is considered + /// "less" than the second argument. + /// + /// ``` + /// use itertools::Itertools; + /// use itertools::Either::{Left, Right}; + /// + /// let a = vec![0, 2, 4, 6, 1].into_iter(); + /// let b = (0..10).step_by(3); + /// + /// itertools::assert_equal( + /// a.merge_join_by(b, |i, j| i <= j), + /// vec![Left(0), Right(0), Left(2), Right(3), Left(4), Left(6), Left(1), Right(6), Right(9)] /// ); /// ``` #[inline] - fn merge_join_by<J, F>(self, other: J, cmp_fn: F) -> MergeJoinBy<Self, J::IntoIter, F> + fn merge_join_by<J, F, T>(self, other: J, cmp_fn: F) -> MergeJoinBy<Self, J::IntoIter, F> where J: IntoIterator, - F: FnMut(&Self::Item, &J::Item) -> std::cmp::Ordering, + F: FnMut(&Self::Item, &J::Item) -> T, + T: merge_join::OrderingOrBool<Self::Item, J::Item>, Self: Sized { merge_join_by(self, other, cmp_fn) @@ -1018,9 +1088,9 @@ pub trait Itertools : Iterator { /// ``` /// use itertools::Itertools; /// - /// let a = (0..6).step(3); - /// let b = (1..6).step(3); - /// let c = (2..6).step(3); + /// let a = (0..6).step_by(3); + /// let b = (1..6).step_by(3); + /// let c = (2..6).step_by(3); /// let it = vec![a, b, c].into_iter().kmerge(); /// itertools::assert_equal(it, vec![0, 1, 2, 3, 4, 5]); /// ``` @@ -1389,6 +1459,74 @@ pub trait Itertools : Iterator { adaptors::take_while_ref(self, accept) } + /// Returns an iterator adaptor that consumes elements while the given + /// predicate is `true`, *including* the element for which the predicate + /// first returned `false`. + /// + /// The [`.take_while()`][std::iter::Iterator::take_while] adaptor is useful + /// when you want items satisfying a predicate, but to know when to stop + /// taking elements, we have to consume that first element that doesn't + /// satisfy the predicate. This adaptor includes that element where + /// [`.take_while()`][std::iter::Iterator::take_while] would drop it. + /// + /// The [`.take_while_ref()`][crate::Itertools::take_while_ref] adaptor + /// serves a similar purpose, but this adaptor doesn't require [`Clone`]ing + /// the underlying elements. + /// + /// ```rust + /// # use itertools::Itertools; + /// let items = vec![1, 2, 3, 4, 5]; + /// let filtered: Vec<_> = items + /// .into_iter() + /// .take_while_inclusive(|&n| n % 3 != 0) + /// .collect(); + /// + /// assert_eq!(filtered, vec![1, 2, 3]); + /// ``` + /// + /// ```rust + /// # use itertools::Itertools; + /// let items = vec![1, 2, 3, 4, 5]; + /// + /// let take_while_inclusive_result: Vec<_> = items + /// .iter() + /// .copied() + /// .take_while_inclusive(|&n| n % 3 != 0) + /// .collect(); + /// let take_while_result: Vec<_> = items + /// .into_iter() + /// .take_while(|&n| n % 3 != 0) + /// .collect(); + /// + /// assert_eq!(take_while_inclusive_result, vec![1, 2, 3]); + /// assert_eq!(take_while_result, vec![1, 2]); + /// // both iterators have the same items remaining at this point---the 3 + /// // is lost from the `take_while` vec + /// ``` + /// + /// ```rust + /// # use itertools::Itertools; + /// #[derive(Debug, PartialEq)] + /// struct NoCloneImpl(i32); + /// + /// let non_clonable_items: Vec<_> = vec![1, 2, 3, 4, 5] + /// .into_iter() + /// .map(NoCloneImpl) + /// .collect(); + /// let filtered: Vec<_> = non_clonable_items + /// .into_iter() + /// .take_while_inclusive(|n| n.0 % 3 != 0) + /// .collect(); + /// let expected: Vec<_> = vec![1, 2, 3].into_iter().map(NoCloneImpl).collect(); + /// assert_eq!(filtered, expected); + fn take_while_inclusive<F>(&mut self, accept: F) -> TakeWhileInclusive<Self, F> + where + Self: Sized, + F: FnMut(&Self::Item) -> bool, + { + take_while_inclusive::TakeWhileInclusive::new(self, accept) + } + /// Return an iterator adaptor that filters `Option<A>` iterator elements /// and produces `A`. Stops on the first `None` encountered. /// @@ -1620,24 +1758,24 @@ pub trait Itertools : Iterator { pad_tail::pad_using(self, min, f) } - /// Return an iterator adaptor that wraps each element in a `Position` to + /// Return an iterator adaptor that combines each element with a `Position` to /// ease special-case handling of the first or last elements. /// /// Iterator element type is - /// [`Position<Self::Item>`](Position) + /// [`(Position, Self::Item)`](Position) /// /// ``` /// use itertools::{Itertools, Position}; /// /// let it = (0..4).with_position(); /// itertools::assert_equal(it, - /// vec![Position::First(0), - /// Position::Middle(1), - /// Position::Middle(2), - /// Position::Last(3)]); + /// vec![(Position::First, 0), + /// (Position::Middle, 1), + /// (Position::Middle, 2), + /// (Position::Last, 3)]); /// /// let it = (0..1).with_position(); - /// itertools::assert_equal(it, vec![Position::Only(0)]); + /// itertools::assert_equal(it, vec![(Position::Only, 0)]); /// ``` fn with_position(self) -> WithPosition<Self> where Self: Sized, @@ -1810,14 +1948,14 @@ pub trait Itertools : Iterator { /// /// #[derive(PartialEq, Debug)] /// enum Enum { A, B, C, D, E, } - /// + /// /// let mut iter = vec![Enum::A, Enum::B, Enum::C, Enum::D].into_iter(); - /// + /// /// // search `iter` for `B` /// assert_eq!(iter.contains(&Enum::B), true); /// // `B` was found, so the iterator now rests at the item after `B` (i.e, `C`). /// assert_eq!(iter.next(), Some(Enum::C)); - /// + /// /// // search `iter` for `E` /// assert_eq!(iter.contains(&Enum::E), false); /// // `E` wasn't found, so `iter` is now exhausted @@ -1858,6 +1996,37 @@ pub trait Itertools : Iterator { } } + /// If there are elements and they are all equal, return a single copy of that element. + /// If there are no elements, return an Error containing None. + /// If there are elements and they are not all equal, return a tuple containing the first + /// two non-equal elements found. + /// + /// ``` + /// use itertools::Itertools; + /// + /// let data = vec![1, 1, 1, 2, 2, 3, 3, 3, 4, 5, 5]; + /// assert_eq!(data.iter().all_equal_value(), Err(Some((&1, &2)))); + /// assert_eq!(data[0..3].iter().all_equal_value(), Ok(&1)); + /// assert_eq!(data[3..5].iter().all_equal_value(), Ok(&2)); + /// assert_eq!(data[5..8].iter().all_equal_value(), Ok(&3)); + /// + /// let data : Option<usize> = None; + /// assert_eq!(data.into_iter().all_equal_value(), Err(None)); + /// ``` + fn all_equal_value(&mut self) -> Result<Self::Item, Option<(Self::Item, Self::Item)>> + where + Self: Sized, + Self::Item: PartialEq + { + let first = self.next().ok_or(None)?; + let other = self.find(|x| x != &first); + if let Some(other) = other { + Err(Some((first, other))) + } else { + Ok(first) + } + } + /// Check whether all elements are unique (non equal). /// /// Empty iterators are considered to have unique elements: @@ -2481,6 +2650,8 @@ pub trait Itertools : Iterator { /// **Note:** This consumes the entire iterator, uses the /// [`slice::sort_unstable`] method and returns the result as a new /// iterator that owns its elements. + /// + /// This sort is unstable (i.e., may reorder equal elements). /// /// The sorted iterator, if directly collected to a `Vec`, is converted /// without any extra copying or allocation cost. @@ -2510,6 +2681,8 @@ pub trait Itertools : Iterator { /// **Note:** This consumes the entire iterator, uses the /// [`slice::sort_unstable_by`] method and returns the result as a new /// iterator that owns its elements. + /// + /// This sort is unstable (i.e., may reorder equal elements). /// /// The sorted iterator, if directly collected to a `Vec`, is converted /// without any extra copying or allocation cost. @@ -2543,6 +2716,8 @@ pub trait Itertools : Iterator { /// **Note:** This consumes the entire iterator, uses the /// [`slice::sort_unstable_by_key`] method and returns the result as a new /// iterator that owns its elements. + /// + /// This sort is unstable (i.e., may reorder equal elements). /// /// The sorted iterator, if directly collected to a `Vec`, is converted /// without any extra copying or allocation cost. @@ -2577,6 +2752,8 @@ pub trait Itertools : Iterator { /// **Note:** This consumes the entire iterator, uses the /// [`slice::sort`] method and returns the result as a new /// iterator that owns its elements. + /// + /// This sort is stable (i.e., does not reorder equal elements). /// /// The sorted iterator, if directly collected to a `Vec`, is converted /// without any extra copying or allocation cost. @@ -2606,6 +2783,8 @@ pub trait Itertools : Iterator { /// **Note:** This consumes the entire iterator, uses the /// [`slice::sort_by`] method and returns the result as a new /// iterator that owns its elements. + /// + /// This sort is stable (i.e., does not reorder equal elements). /// /// The sorted iterator, if directly collected to a `Vec`, is converted /// without any extra copying or allocation cost. @@ -2614,7 +2793,7 @@ pub trait Itertools : Iterator { /// use itertools::Itertools; /// /// // sort people in descending order by age - /// let people = vec![("Jane", 20), ("John", 18), ("Jill", 30), ("Jack", 27)]; + /// let people = vec![("Jane", 20), ("John", 18), ("Jill", 30), ("Jack", 30)]; /// /// let oldest_people_first = people /// .into_iter() @@ -2639,6 +2818,8 @@ pub trait Itertools : Iterator { /// **Note:** This consumes the entire iterator, uses the /// [`slice::sort_by_key`] method and returns the result as a new /// iterator that owns its elements. + /// + /// This sort is stable (i.e., does not reorder equal elements). /// /// The sorted iterator, if directly collected to a `Vec`, is converted /// without any extra copying or allocation cost. @@ -2647,7 +2828,7 @@ pub trait Itertools : Iterator { /// use itertools::Itertools; /// /// // sort people in descending order by age - /// let people = vec![("Jane", 20), ("John", 18), ("Jill", 30), ("Jack", 27)]; + /// let people = vec![("Jane", 20), ("John", 18), ("Jill", 30), ("Jack", 30)]; /// /// let oldest_people_first = people /// .into_iter() @@ -2674,6 +2855,8 @@ pub trait Itertools : Iterator { /// **Note:** This consumes the entire iterator, uses the /// [`slice::sort_by_cached_key`] method and returns the result as a new /// iterator that owns its elements. + /// + /// This sort is stable (i.e., does not reorder equal elements). /// /// The sorted iterator, if directly collected to a `Vec`, is converted /// without any extra copying or allocation cost. @@ -2682,7 +2865,7 @@ pub trait Itertools : Iterator { /// use itertools::Itertools; /// /// // sort people in descending order by age - /// let people = vec![("Jane", 20), ("John", 18), ("Jill", 30), ("Jack", 27)]; + /// let people = vec![("Jane", 20), ("John", 18), ("Jill", 30), ("Jack", 30)]; /// /// let oldest_people_first = people /// .into_iter() @@ -2867,13 +3050,13 @@ pub trait Itertools : Iterator { group_map::into_group_map_by(self, f) } - /// Constructs a `GroupingMap` to be used later with one of the efficient + /// Constructs a `GroupingMap` to be used later with one of the efficient /// group-and-fold operations it allows to perform. - /// + /// /// The input iterator must yield item in the form of `(K, V)` where the /// value of type `K` will be used as key to identify the groups and the /// value of type `V` as value for the folding operation. - /// + /// /// See [`GroupingMap`] for more informations /// on what operations are available. #[cfg(feature = "use_std")] @@ -2884,12 +3067,12 @@ pub trait Itertools : Iterator { grouping_map::new(self) } - /// Constructs a `GroupingMap` to be used later with one of the efficient + /// Constructs a `GroupingMap` to be used later with one of the efficient /// group-and-fold operations it allows to perform. - /// + /// /// The values from this iterator will be used as values for the folding operation /// while the keys will be obtained from the values by calling `key_mapper`. - /// + /// /// See [`GroupingMap`] for more informations /// on what operations are available. #[cfg(feature = "use_std")] @@ -3059,7 +3242,7 @@ pub trait Itertools : Iterator { ) } - /// Return all minimum elements of an iterator, as determined by + /// Return all maximum elements of an iterator, as determined by /// the specified function. /// /// # Examples @@ -3600,7 +3783,7 @@ pub trait Itertools : Iterator { /// first_name: &'static str, /// last_name: &'static str, /// } - /// + /// /// let characters = /// vec![ /// Character { first_name: "Amy", last_name: "Pond" }, @@ -3611,12 +3794,12 @@ pub trait Itertools : Iterator { /// Character { first_name: "James", last_name: "Norington" }, /// Character { first_name: "James", last_name: "Kirk" }, /// ]; - /// - /// let first_name_frequency = + /// + /// let first_name_frequency = /// characters /// .into_iter() /// .counts_by(|c| c.first_name); - /// + /// /// assert_eq!(first_name_frequency["Amy"], 3); /// assert_eq!(first_name_frequency["James"], 4); /// assert_eq!(first_name_frequency.contains_key("Asha"), false); @@ -3637,7 +3820,7 @@ pub trait Itertools : Iterator { /// column. /// /// This function is, in some sense, the opposite of [`multizip`]. - /// + /// /// ``` /// use itertools::Itertools; /// |