Expand description
Extra iterator adaptors, functions and macros.
To extend Iterator
with methods in this crate, import
the Itertools
trait:
use itertools::Itertools;
Now, new methods like interleave
are available on all iterators:
use itertools::Itertools;
let it = (1..3).interleave(vec![-1, -2]);
itertools::assert_equal(it, vec![1, -1, 2, -2]);
Most iterator methods are also provided as functions (with the benefit
that they convert parameters using IntoIterator
):
use itertools::interleave;
for elt in interleave(&[1, 2, 3], &[2, 3, 4]) {
/* loop body */
}
Crate Features
use_std
- Enabled by default.
- Disable to compile itertools using
#![no_std]
. This disables any items that depend on collections (likegroup_by
,unique
,kmerge
,join
and many more).
Rust Version
This version of itertools requires Rust 1.32 or later.
Re-exports
pub use crate::structs::*;
Modules
The concrete iterator types.
Traits helpful for using certain Itertools
methods in generic contexts.
Macros
Create an iterator over the “cartesian product” of iterators.
Create an iterator running multiple iterators in lockstep.
Enums
The enum Either
with variants Left
and Right
is a general purpose
sum type with two cases.
Value that either holds a single A or B, or both.
An enum used for controlling the execution of .fold_while()
.
MinMaxResult
is an enum returned by minmax
. See Itertools::minmax()
for
more detail.
A value yielded by WithPosition
.
Indicates the position of this element in the iterator results.
Traits
An iterator that allows peeking at an element before deciding to accept it.
Functions
Test whether the predicate holds for all elements in the iterable.
Test whether the predicate holds for any elements in the iterable.
Assert that two iterables produce equal sequences, with the same semantics as equal(a, b).
Create an iterator that first iterates i
and then j
.
Create an iterator that clones each element from &T to T
Combine all an iterator’s elements into one element by using Extend
.
Create an iterator that maps for example iterators of
((A, B), C)
to (A, B, C)
.
Compares every element yielded by both i
and j
with the given function in lock-step and
returns a Diff
which describes how j
differs from i
.
Iterate iterable
with a running index.
Return true
if both iterables produce equal sequences
(elements pairwise equal and sequences of the same length),
false
otherwise.
Perform a fold operation over the iterable.
Create an iterator that interleaves elements in i
and j
.
Creates a new iterator that infinitely applies function to value and yields results.
Combine all iterator elements into one String, seperated by sep
.
Create an iterator that merges elements of the contained iterators using the ordering function.
Create an iterator that merges elements of the contained iterators.
Return the maximum value of the iterable.
Create an iterator that merges elements in i
and j
.
Return an iterator adaptor that merge-joins items from the two base iterators in ascending order.
Return the minimum value of the iterable.
An iterator adaptor that allows the user to peek at multiple .next()
values without advancing the base iterator.
An iterator that generalizes .zip() and allows running multiple iterators in lockstep.
Partition a sequence using predicate pred
so that elements
that map to true
are placed before elements which map to false
.
“Lift” a function of the values of an iterator so that it can process
an iterator of Result
values instead.
Create an iterator where you can put back a single item
Create an iterator where you can put back multiple values to the front of the iteration.
Return an iterator inside a Rc<RefCell<_>>
wrapper.
An iterator source that produces elements indefinitely by calling a given closure.
Create an iterator that produces n
repetitions of element
.
Iterate iterable
in reverse.
Sort all iterator elements into a new iterator in ascending order.
Creates a new unfold source with the specified closure as the “iterator function” and an initial state to eventually pass to the closure
Iterate i
and j
in lock step.
Iterate i
and j
in lock step.