test_core.rs - mozsearch

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//! Licensed under the Apache License, Version 2.0

//! https://www.apache.org/licenses/LICENSE-2.0 or the MIT license

//! https://opensource.org/licenses/MIT, at your

//! option. This file may not be copied, modified, or distributed

//! except according to those terms.

#![no_std]

#![allow(deprecated)]

use crate::it::chain;

use crate::it::free::put_back;

use crate::it::interleave;

use crate::it::intersperse;

use crate::it::intersperse_with;

use crate::it::iproduct;

use crate::it::izip;

use crate::it::multizip;

use crate::it::Itertools;

use core::iter;

use itertools as it;

#[allow(dead_code)]

fn get_esi_then_esi<I: ExactSizeIterator + Clone>(it: I) {

    fn is_esi(_: impl ExactSizeIterator) {}

    is_esi(it.clone().get(1..4));

    is_esi(it.clone().get(1..=4));

    is_esi(it.clone().get(1..));

    is_esi(it.clone().get(..4));

    is_esi(it.clone().get(..=4));

    is_esi(it.get(..));

#[allow(dead_code)]

fn get_dei_esi_then_dei_esi<I: DoubleEndedIterator + ExactSizeIterator + Clone>(it: I) {

    fn is_dei_esi(_: impl DoubleEndedIterator + ExactSizeIterator) {}

    is_dei_esi(it.clone().get(1..4));

    is_dei_esi(it.clone().get(1..=4));

    is_dei_esi(it.clone().get(1..));

    is_dei_esi(it.clone().get(..4));

    is_dei_esi(it.clone().get(..=4));

    is_dei_esi(it.get(..));

#[test]

fn get_1_max() {

    let mut it = (0..5).get(1..=usize::MAX);

    assert_eq!(it.next(), Some(1));

    assert_eq!(it.next_back(), Some(4));

#[test]

#[should_panic]

fn get_full_range_inclusive() {

    let _it = (0..5).get(0..=usize::MAX);

#[test]

fn product0() {

    let mut prod = iproduct!();

    assert_eq!(prod.next(), Some(()));

    assert!(prod.next().is_none());

#[test]

fn iproduct1() {

    let s = "αβ";

    let mut prod = iproduct!(s.chars());

    assert_eq!(prod.next(), Some(('α',)));

    assert_eq!(prod.next(), Some(('β',)));

    assert!(prod.next().is_none());

#[test]

fn product2() {

    let s = "αβ";

    let mut prod = iproduct!(s.chars(), 0..2);

    assert!(prod.next() == Some(('α', 0)));

    assert!(prod.next() == Some(('α', 1)));

    assert!(prod.next() == Some(('β', 0)));

    assert!(prod.next() == Some(('β', 1)));

    assert!(prod.next().is_none());

#[test]

fn product_temporary() {

    for (_x, _y, _z) in iproduct!(

        [0, 1, 2].iter().cloned(),

        [0, 1, 2].iter().cloned(),

        [0, 1, 2].iter().cloned()

) {

        // ok

#[test]

fn izip_macro() {

    let mut zip = izip!(2..3);

    assert!(zip.next() == Some(2));

    assert!(zip.next().is_none());

    let mut zip = izip!(0..3, 0..2, 0..2i8);

    for i in 0..2 {

        assert!((i as usize, i, i as i8) == zip.next().unwrap());

    assert!(zip.next().is_none());

    let xs: [isize; 0] = [];

    let mut zip = izip!(0..3, 0..2, 0..2i8, &xs);

    assert!(zip.next().is_none());

#[test]

fn izip2() {

    let _zip1: iter::Zip<_, _> = izip!(1.., 2..);

    let _zip2: iter::Zip<_, _> = izip!(1.., 2..,);

#[test]

fn izip3() {

    let mut zip: iter::Map<iter::Zip<_, _>, _> = izip!(0..3, 0..2, 0..2i8);

    for i in 0..2 {

        assert!((i as usize, i, i as i8) == zip.next().unwrap());

    assert!(zip.next().is_none());

#[test]

fn multizip3() {

    let mut zip = multizip((0..3, 0..2, 0..2i8));

    for i in 0..2 {

        assert!((i as usize, i, i as i8) == zip.next().unwrap());

    assert!(zip.next().is_none());

    let xs: [isize; 0] = [];

    let mut zip = multizip((0..3, 0..2, 0..2i8, xs.iter()));

    assert!(zip.next().is_none());

    for (_, _, _, _, _) in multizip((0..3, 0..2, xs.iter(), &xs, xs.to_vec())) {

        /* test compiles */

#[test]

fn chain_macro() {

    let mut chain = chain!(2..3);

    assert!(chain.next() == Some(2));

    assert!(chain.next().is_none());

    let mut chain = chain!(0..2, 2..3, 3..5i8);

    for i in 0..5i8 {

        assert_eq!(Some(i), chain.next());

    assert!(chain.next().is_none());

    let mut chain = chain!();

    assert_eq!(chain.next(), Option::<()>::None);

#[test]

fn chain2() {

    let _ = chain!(1.., 2..);

    let _ = chain!(1.., 2..,);

#[test]

fn write_to() {

    let xs = [7, 9, 8];

    let mut ys = [0; 5];

    let cnt = ys.iter_mut().set_from(xs.iter().copied());

    assert!(cnt == xs.len());

    assert!(ys == [7, 9, 8, 0, 0]);

    let cnt = ys.iter_mut().set_from(0..10);

    assert!(cnt == ys.len());

    assert!(ys == [0, 1, 2, 3, 4]);

#[test]

fn test_interleave() {

    let xs: [u8; 0] = [];

    let ys = [7u8, 9, 8, 10];

    let zs = [2u8, 77];

    let it = interleave(xs.iter(), ys.iter());

    it::assert_equal(it, ys.iter());

    let rs = [7u8, 2, 9, 77, 8, 10];

    let it = interleave(ys.iter(), zs.iter());

    it::assert_equal(it, rs.iter());

#[test]

fn test_intersperse() {

    let xs = [1u8, 2, 3];

    let ys = [1u8, 0, 2, 0, 3];

    let it = intersperse(&xs, &0);

    it::assert_equal(it, ys.iter());

#[test]

fn test_intersperse_with() {

    let xs = [1u8, 2, 3];

    let ys = [1u8, 10, 2, 10, 3];

    let i = 10;

    let it = intersperse_with(&xs, || &i);

    it::assert_equal(it, ys.iter());

#[test]

fn dropping() {

    let xs = [1, 2, 3];

    let mut it = xs.iter().dropping(2);

    assert_eq!(it.next(), Some(&3));

    assert!(it.next().is_none());

    let mut it = xs.iter().dropping(5);

    assert!(it.next().is_none());

#[test]

fn batching() {

    let xs = [0, 1, 2, 1, 3];

    let ys = [(0, 1), (2, 1)];

    // An iterator that gathers elements up in pairs

    let pit = xs

        .iter()

        .cloned()

        .batching(|it| it.next().and_then(|x| it.next().map(|y| (x, y))));

    it::assert_equal(pit, ys.iter().cloned());

#[test]

fn test_put_back() {

    let xs = [0, 1, 1, 1, 2, 1, 3, 3];

    let mut pb = put_back(xs.iter().cloned());

    pb.next();

    pb.put_back(1);

    pb.put_back(0);

    it::assert_equal(pb, xs.iter().cloned());

#[test]

fn merge() {

    it::assert_equal((0..10).step_by(2).merge((1..10).step_by(2)), 0..10);

#[test]

fn repeatn() {

    let s = "α";

    let mut it = it::repeat_n(s, 3);

    assert_eq!(it.len(), 3);

    assert_eq!(it.next(), Some(s));

    assert_eq!(it.next(), Some(s));

    assert_eq!(it.next(), Some(s));

    assert_eq!(it.next(), None);

    assert_eq!(it.next(), None);

#[test]

fn count_clones() {

    // Check that RepeatN only clones N - 1 times.

    use core::cell::Cell;

    #[derive(PartialEq, Debug)]

    struct Foo {

        n: Cell<usize>,

    impl Clone for Foo {

        fn clone(&self) -> Self {

            let n = self.n.get();

            self.n.set(n + 1);

            Self {

                n: Cell::new(n + 1),

    for n in 0..10 {

        let f = Foo { n: Cell::new(0) };

        let it = it::repeat_n(f, n);

        // drain it

        let last = it.last();

        if n == 0 {

            assert_eq!(last, None);

        } else {

            assert_eq!(

                last,

                Some(Foo {

                    n: Cell::new(n - 1)

})

);

#[test]

fn part() {

    let mut data = [7, 1, 1, 9, 1, 1, 3];

    let i = it::partition(&mut data, |elt| *elt >= 3);

    assert_eq!(i, 3);

    assert_eq!(data, [7, 3, 9, 1, 1, 1, 1]);

    let i = it::partition(&mut data, |elt| *elt == 1);

    assert_eq!(i, 4);

    assert_eq!(data, [1, 1, 1, 1, 9, 3, 7]);

    let mut data = [1, 2, 3, 4, 5, 6, 7, 8, 9];

    let i = it::partition(&mut data, |elt| *elt % 3 == 0);

    assert_eq!(i, 3);

    assert_eq!(data, [9, 6, 3, 4, 5, 2, 7, 8, 1]);

#[test]

fn tree_reduce() {

    for i in 0..100 {

        assert_eq!((0..i).tree_reduce(|x, y| x + y), (0..i).fold1(|x, y| x + y));

#[test]

fn exactly_one() {

    assert_eq!((0..10).filter(|&x| x == 2).exactly_one().unwrap(), 2);

    assert!((0..10)

        .filter(|&x| x > 1 && x < 4)

        .exactly_one()

        .unwrap_err()

        .eq(2..4));

    assert!((0..10)

        .filter(|&x| x > 1 && x < 5)

        .exactly_one()

        .unwrap_err()

        .eq(2..5));

    assert!((0..10)

        .filter(|&_| false)

        .exactly_one()

        .unwrap_err()

        .eq(0..0));

#[test]

fn at_most_one() {

    assert_eq!((0..10).filter(|&x| x == 2).at_most_one().unwrap(), Some(2));

    assert!((0..10)

        .filter(|&x| x > 1 && x < 4)

        .at_most_one()

        .unwrap_err()

        .eq(2..4));

    assert!((0..10)

        .filter(|&x| x > 1 && x < 5)

        .at_most_one()

        .unwrap_err()

        .eq(2..5));

    assert_eq!((0..10).filter(|&_| false).at_most_one().unwrap(), None);

#[test]

fn sum1() {

    let v: &[i32] = &[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10];

    assert_eq!(v[..0].iter().cloned().sum1::<i32>(), None);

    assert_eq!(v[1..2].iter().cloned().sum1::<i32>(), Some(1));

    assert_eq!(v[1..3].iter().cloned().sum1::<i32>(), Some(3));

    assert_eq!(v.iter().cloned().sum1::<i32>(), Some(55));

#[test]

fn product1() {

    let v: &[i32] = &[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10];

    assert_eq!(v[..0].iter().cloned().product1::<i32>(), None);

    assert_eq!(v[..1].iter().cloned().product1::<i32>(), Some(0));

    assert_eq!(v[1..3].iter().cloned().product1::<i32>(), Some(2));

    assert_eq!(v[1..5].iter().cloned().product1::<i32>(), Some(24));

#[test]

fn next_array() {

    let v = [1, 2, 3, 4, 5];

    let mut iter = v.iter();

    assert_eq!(iter.next_array(), Some([]));

    assert_eq!(iter.next_array().map(|[&x, &y]| [x, y]), Some([1, 2]));

    assert_eq!(iter.next_array().map(|[&x, &y]| [x, y]), Some([3, 4]));

    assert_eq!(iter.next_array::<2>(), None);

#[test]

fn collect_array() {

    let v = [1, 2];

    let iter = v.iter().cloned();

    assert_eq!(iter.collect_array(), Some([1, 2]));

    let v = [1];

    let iter = v.iter().cloned();

    assert_eq!(iter.collect_array::<2>(), None);

    let v = [1, 2, 3];

    let iter = v.iter().cloned();

    assert_eq!(iter.collect_array::<2>(), None);