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1 use criterion::{black_box, criterion_group, criterion_main, Criterion};
2 use itertools::Itertools;
3 use itertools::free::cloned;
4 use itertools::iproduct;
5 
6 use std::iter::repeat;
7 use std::cmp;
8 use std::ops::{Add, Range};
9 
10 mod extra;
11 
12 use crate::extra::ZipSlices;
13 
slice_iter(c: &mut Criterion)14 fn slice_iter(c: &mut Criterion) {
15     let xs: Vec<_> = repeat(1i32).take(20).collect();
16 
17     c.bench_function("slice iter", move |b| {
18         b.iter(|| for elt in xs.iter() {
19             black_box(elt);
20         })
21     });
22 }
23 
slice_iter_rev(c: &mut Criterion)24 fn slice_iter_rev(c: &mut Criterion) {
25     let xs: Vec<_> = repeat(1i32).take(20).collect();
26 
27     c.bench_function("slice iter rev", move |b| {
28         b.iter(|| for elt in xs.iter().rev() {
29             black_box(elt);
30         })
31     });
32 }
33 
zip_default_zip(c: &mut Criterion)34 fn zip_default_zip(c: &mut Criterion) {
35     let xs = vec![0; 1024];
36     let ys = vec![0; 768];
37     let xs = black_box(xs);
38     let ys = black_box(ys);
39 
40     c.bench_function("zip default zip", move |b| {
41         b.iter(|| {
42             for (&x, &y) in xs.iter().zip(&ys) {
43                 black_box(x);
44                 black_box(y);
45             }
46         })
47     });
48 }
49 
zipdot_i32_default_zip(c: &mut Criterion)50 fn zipdot_i32_default_zip(c: &mut Criterion) {
51     let xs = vec![2; 1024];
52     let ys = vec![2; 768];
53     let xs = black_box(xs);
54     let ys = black_box(ys);
55 
56     c.bench_function("zipdot i32 default zip", move |b| {
57         b.iter(|| {
58             let mut s = 0;
59             for (&x, &y) in xs.iter().zip(&ys) {
60                 s += x * y;
61             }
62             s
63         })
64     });
65 }
66 
zipdot_f32_default_zip(c: &mut Criterion)67 fn zipdot_f32_default_zip(c: &mut Criterion) {
68     let xs = vec![2f32; 1024];
69     let ys = vec![2f32; 768];
70     let xs = black_box(xs);
71     let ys = black_box(ys);
72 
73     c.bench_function("zipdot f32 default zip", move |b| {
74         b.iter(|| {
75             let mut s = 0.;
76             for (&x, &y) in xs.iter().zip(&ys) {
77                 s += x * y;
78             }
79             s
80         })
81     });
82 }
83 
zip_default_zip3(c: &mut Criterion)84 fn zip_default_zip3(c: &mut Criterion) {
85     let xs = vec![0; 1024];
86     let ys = vec![0; 768];
87     let zs = vec![0; 766];
88     let xs = black_box(xs);
89     let ys = black_box(ys);
90     let zs = black_box(zs);
91 
92     c.bench_function("zip default zip3", move |b| {
93         b.iter(|| {
94             for ((&x, &y), &z) in xs.iter().zip(&ys).zip(&zs) {
95                 black_box(x);
96                 black_box(y);
97                 black_box(z);
98             }
99         })
100     });
101 }
102 
zip_slices_ziptuple(c: &mut Criterion)103 fn zip_slices_ziptuple(c: &mut Criterion) {
104     let xs = vec![0; 1024];
105     let ys = vec![0; 768];
106 
107     c.bench_function("zip slices ziptuple", move |b| {
108         b.iter(|| {
109             let xs = black_box(&xs);
110             let ys = black_box(&ys);
111             for (&x, &y) in itertools::multizip((xs, ys)) {
112                 black_box(x);
113                 black_box(y);
114             }
115         })
116     });
117 }
118 
zipslices(c: &mut Criterion)119 fn zipslices(c: &mut Criterion) {
120     let xs = vec![0; 1024];
121     let ys = vec![0; 768];
122     let xs = black_box(xs);
123     let ys = black_box(ys);
124 
125     c.bench_function("zipslices", move |b| {
126         b.iter(|| {
127             for (&x, &y) in ZipSlices::new(&xs, &ys) {
128                 black_box(x);
129                 black_box(y);
130             }
131         })
132     });
133 }
134 
zipslices_mut(c: &mut Criterion)135 fn zipslices_mut(c: &mut Criterion) {
136     let xs = vec![0; 1024];
137     let ys = vec![0; 768];
138     let xs = black_box(xs);
139     let mut ys = black_box(ys);
140 
141     c.bench_function("zipslices mut", move |b| {
142         b.iter(|| {
143             for (&x, &mut y) in ZipSlices::from_slices(&xs[..], &mut ys[..]) {
144                 black_box(x);
145                 black_box(y);
146             }
147         })
148     });
149 }
150 
zipdot_i32_zipslices(c: &mut Criterion)151 fn zipdot_i32_zipslices(c: &mut Criterion) {
152     let xs = vec![2; 1024];
153     let ys = vec![2; 768];
154     let xs = black_box(xs);
155     let ys = black_box(ys);
156 
157     c.bench_function("zipdot i32 zipslices", move |b| {
158         b.iter(|| {
159             let mut s = 0i32;
160             for (&x, &y) in ZipSlices::new(&xs, &ys) {
161                 s += x * y;
162             }
163             s
164         })
165     });
166 }
167 
zipdot_f32_zipslices(c: &mut Criterion)168 fn zipdot_f32_zipslices(c: &mut Criterion) {
169     let xs = vec![2f32; 1024];
170     let ys = vec![2f32; 768];
171     let xs = black_box(xs);
172     let ys = black_box(ys);
173 
174     c.bench_function("zipdot f32 zipslices", move |b| {
175         b.iter(|| {
176             let mut s = 0.;
177             for (&x, &y) in ZipSlices::new(&xs, &ys) {
178                 s += x * y;
179             }
180             s
181         })
182     });
183 }
184 
zip_checked_counted_loop(c: &mut Criterion)185 fn zip_checked_counted_loop(c: &mut Criterion) {
186     let xs = vec![0; 1024];
187     let ys = vec![0; 768];
188     let xs = black_box(xs);
189     let ys = black_box(ys);
190 
191     c.bench_function("zip checked counted loop", move |b| {
192         b.iter(|| {
193             // Must slice to equal lengths, and then bounds checks are eliminated!
194             let len = cmp::min(xs.len(), ys.len());
195             let xs = &xs[..len];
196             let ys = &ys[..len];
197 
198             for i in 0..len {
199                 let x = xs[i];
200                 let y = ys[i];
201                 black_box(x);
202                 black_box(y);
203             }
204         })
205     });
206 }
207 
zipdot_i32_checked_counted_loop(c: &mut Criterion)208 fn zipdot_i32_checked_counted_loop(c: &mut Criterion) {
209     let xs = vec![2; 1024];
210     let ys = vec![2; 768];
211     let xs = black_box(xs);
212     let ys = black_box(ys);
213 
214     c.bench_function("zipdot i32 checked counted loop", move |b| {
215         b.iter(|| {
216             // Must slice to equal lengths, and then bounds checks are eliminated!
217             let len = cmp::min(xs.len(), ys.len());
218             let xs = &xs[..len];
219             let ys = &ys[..len];
220 
221             let mut s = 0i32;
222 
223             for i in 0..len {
224                 s += xs[i] * ys[i];
225             }
226             s
227         })
228     });
229 }
230 
zipdot_f32_checked_counted_loop(c: &mut Criterion)231 fn zipdot_f32_checked_counted_loop(c: &mut Criterion) {
232     let xs = vec![2f32; 1024];
233     let ys = vec![2f32; 768];
234     let xs = black_box(xs);
235     let ys = black_box(ys);
236 
237     c.bench_function("zipdot f32 checked counted loop", move |b| {
238         b.iter(|| {
239             // Must slice to equal lengths, and then bounds checks are eliminated!
240             let len = cmp::min(xs.len(), ys.len());
241             let xs = &xs[..len];
242             let ys = &ys[..len];
243 
244             let mut s = 0.;
245 
246             for i in 0..len {
247                 s += xs[i] * ys[i];
248             }
249             s
250         })
251     });
252 }
253 
zipdot_f32_checked_counted_unrolled_loop(c: &mut Criterion)254 fn zipdot_f32_checked_counted_unrolled_loop(c: &mut Criterion) {
255     let xs = vec![2f32; 1024];
256     let ys = vec![2f32; 768];
257     let xs = black_box(xs);
258     let ys = black_box(ys);
259 
260     c.bench_function("zipdot f32 checked counted unrolled loop", move |b| {
261         b.iter(|| {
262             // Must slice to equal lengths, and then bounds checks are eliminated!
263             let len = cmp::min(xs.len(), ys.len());
264             let mut xs = &xs[..len];
265             let mut ys = &ys[..len];
266 
267             let mut s = 0.;
268             let (mut p0, mut p1, mut p2, mut p3, mut p4, mut p5, mut p6, mut p7) =
269                 (0., 0., 0., 0., 0., 0., 0., 0.);
270 
271             // how to unroll and have bounds checks eliminated (by cristicbz)
272             // split sum into eight parts to enable vectorization (by bluss)
273             while xs.len() >= 8 {
274                 p0 += xs[0] * ys[0];
275                 p1 += xs[1] * ys[1];
276                 p2 += xs[2] * ys[2];
277                 p3 += xs[3] * ys[3];
278                 p4 += xs[4] * ys[4];
279                 p5 += xs[5] * ys[5];
280                 p6 += xs[6] * ys[6];
281                 p7 += xs[7] * ys[7];
282 
283                 xs = &xs[8..];
284                 ys = &ys[8..];
285             }
286             s += p0 + p4;
287             s += p1 + p5;
288             s += p2 + p6;
289             s += p3 + p7;
290 
291             for i in 0..xs.len() {
292                 s += xs[i] * ys[i];
293             }
294             s
295         })
296     });
297 }
298 
zip_unchecked_counted_loop(c: &mut Criterion)299 fn zip_unchecked_counted_loop(c: &mut Criterion) {
300     let xs = vec![0; 1024];
301     let ys = vec![0; 768];
302     let xs = black_box(xs);
303     let ys = black_box(ys);
304 
305     c.bench_function("zip unchecked counted loop", move |b| {
306         b.iter(|| {
307             let len = cmp::min(xs.len(), ys.len());
308             for i in 0..len {
309                 unsafe {
310                 let x = *xs.get_unchecked(i);
311                 let y = *ys.get_unchecked(i);
312                 black_box(x);
313                 black_box(y);
314                 }
315             }
316         })
317     });
318 }
319 
zipdot_i32_unchecked_counted_loop(c: &mut Criterion)320 fn zipdot_i32_unchecked_counted_loop(c: &mut Criterion) {
321     let xs = vec![2; 1024];
322     let ys = vec![2; 768];
323     let xs = black_box(xs);
324     let ys = black_box(ys);
325 
326     c.bench_function("zipdot i32 unchecked counted loop", move |b| {
327         b.iter(|| {
328             let len = cmp::min(xs.len(), ys.len());
329             let mut s = 0i32;
330             for i in 0..len {
331                 unsafe {
332                 let x = *xs.get_unchecked(i);
333                 let y = *ys.get_unchecked(i);
334                 s += x * y;
335                 }
336             }
337             s
338         })
339     });
340 }
341 
zipdot_f32_unchecked_counted_loop(c: &mut Criterion)342 fn zipdot_f32_unchecked_counted_loop(c: &mut Criterion) {
343     let xs = vec![2.; 1024];
344     let ys = vec![2.; 768];
345     let xs = black_box(xs);
346     let ys = black_box(ys);
347 
348     c.bench_function("zipdot f32 unchecked counted loop", move |b| {
349         b.iter(|| {
350             let len = cmp::min(xs.len(), ys.len());
351             let mut s = 0f32;
352             for i in 0..len {
353                 unsafe {
354                 let x = *xs.get_unchecked(i);
355                 let y = *ys.get_unchecked(i);
356                 s += x * y;
357                 }
358             }
359             s
360         })
361     });
362 }
363 
zip_unchecked_counted_loop3(c: &mut Criterion)364 fn zip_unchecked_counted_loop3(c: &mut Criterion) {
365     let xs = vec![0; 1024];
366     let ys = vec![0; 768];
367     let zs = vec![0; 766];
368     let xs = black_box(xs);
369     let ys = black_box(ys);
370     let zs = black_box(zs);
371 
372     c.bench_function("zip unchecked counted loop3", move |b| {
373         b.iter(|| {
374             let len = cmp::min(xs.len(), cmp::min(ys.len(), zs.len()));
375             for i in 0..len {
376                 unsafe {
377                 let x = *xs.get_unchecked(i);
378                 let y = *ys.get_unchecked(i);
379                 let z = *zs.get_unchecked(i);
380                 black_box(x);
381                 black_box(y);
382                 black_box(z);
383                 }
384             }
385         })
386     });
387 }
388 
group_by_lazy_1(c: &mut Criterion)389 fn group_by_lazy_1(c: &mut Criterion) {
390     let mut data = vec![0; 1024];
391     for (index, elt) in data.iter_mut().enumerate() {
392         *elt = index / 10;
393     }
394 
395     let data = black_box(data);
396 
397     c.bench_function("group by lazy 1", move |b| {
398         b.iter(|| {
399             for (_key, group) in &data.iter().group_by(|elt| **elt) {
400                 for elt in group {
401                     black_box(elt);
402                 }
403             }
404         })
405     });
406 }
407 
group_by_lazy_2(c: &mut Criterion)408 fn group_by_lazy_2(c: &mut Criterion) {
409     let mut data = vec![0; 1024];
410     for (index, elt) in data.iter_mut().enumerate() {
411         *elt = index / 2;
412     }
413 
414     let data = black_box(data);
415 
416     c.bench_function("group by lazy 2", move |b| {
417         b.iter(|| {
418             for (_key, group) in &data.iter().group_by(|elt| **elt) {
419                 for elt in group {
420                     black_box(elt);
421                 }
422             }
423         })
424     });
425 }
426 
slice_chunks(c: &mut Criterion)427 fn slice_chunks(c: &mut Criterion) {
428     let data = vec![0; 1024];
429 
430     let data = black_box(data);
431     let sz = black_box(10);
432 
433     c.bench_function("slice chunks", move |b| {
434         b.iter(|| {
435             for group in data.chunks(sz) {
436                 for elt in group {
437                     black_box(elt);
438                 }
439             }
440         })
441     });
442 }
443 
chunks_lazy_1(c: &mut Criterion)444 fn chunks_lazy_1(c: &mut Criterion) {
445     let data = vec![0; 1024];
446 
447     let data = black_box(data);
448     let sz = black_box(10);
449 
450     c.bench_function("chunks lazy 1", move |b| {
451         b.iter(|| {
452             for group in &data.iter().chunks(sz) {
453                 for elt in group {
454                     black_box(elt);
455                 }
456             }
457         })
458     });
459 }
460 
equal(c: &mut Criterion)461 fn equal(c: &mut Criterion) {
462     let data = vec![7; 1024];
463     let l = data.len();
464     let alpha = black_box(&data[1..]);
465     let beta = black_box(&data[..l - 1]);
466 
467     c.bench_function("equal", move |b| {
468         b.iter(|| {
469             itertools::equal(alpha, beta)
470         })
471     });
472 }
473 
merge_default(c: &mut Criterion)474 fn merge_default(c: &mut Criterion) {
475     let mut data1 = vec![0; 1024];
476     let mut data2 = vec![0; 800];
477     let mut x = 0;
478     for (_, elt) in data1.iter_mut().enumerate() {
479         *elt = x;
480         x += 1;
481     }
482 
483     let mut y = 0;
484     for (i, elt) in data2.iter_mut().enumerate() {
485         *elt += y;
486         if i % 3 == 0 {
487             y += 3;
488         } else {
489             y += 0;
490         }
491     }
492     let data1 = black_box(data1);
493     let data2 = black_box(data2);
494 
495     c.bench_function("merge default", move |b| {
496         b.iter(|| {
497             data1.iter().merge(&data2).count()
498         })
499     });
500 }
501 
merge_by_cmp(c: &mut Criterion)502 fn merge_by_cmp(c: &mut Criterion) {
503     let mut data1 = vec![0; 1024];
504     let mut data2 = vec![0; 800];
505     let mut x = 0;
506     for (_, elt) in data1.iter_mut().enumerate() {
507         *elt = x;
508         x += 1;
509     }
510 
511     let mut y = 0;
512     for (i, elt) in data2.iter_mut().enumerate() {
513         *elt += y;
514         if i % 3 == 0 {
515             y += 3;
516         } else {
517             y += 0;
518         }
519     }
520     let data1 = black_box(data1);
521     let data2 = black_box(data2);
522 
523     c.bench_function("merge by cmp", move |b| {
524         b.iter(|| {
525             data1.iter().merge_by(&data2, PartialOrd::le).count()
526         })
527     });
528 }
529 
merge_by_lt(c: &mut Criterion)530 fn merge_by_lt(c: &mut Criterion) {
531     let mut data1 = vec![0; 1024];
532     let mut data2 = vec![0; 800];
533     let mut x = 0;
534     for (_, elt) in data1.iter_mut().enumerate() {
535         *elt = x;
536         x += 1;
537     }
538 
539     let mut y = 0;
540     for (i, elt) in data2.iter_mut().enumerate() {
541         *elt += y;
542         if i % 3 == 0 {
543             y += 3;
544         } else {
545             y += 0;
546         }
547     }
548     let data1 = black_box(data1);
549     let data2 = black_box(data2);
550 
551     c.bench_function("merge by lt", move |b| {
552         b.iter(|| {
553             data1.iter().merge_by(&data2, |a, b| a <= b).count()
554         })
555     });
556 }
557 
kmerge_default(c: &mut Criterion)558 fn kmerge_default(c: &mut Criterion) {
559     let mut data1 = vec![0; 1024];
560     let mut data2 = vec![0; 800];
561     let mut x = 0;
562     for (_, elt) in data1.iter_mut().enumerate() {
563         *elt = x;
564         x += 1;
565     }
566 
567     let mut y = 0;
568     for (i, elt) in data2.iter_mut().enumerate() {
569         *elt += y;
570         if i % 3 == 0 {
571             y += 3;
572         } else {
573             y += 0;
574         }
575     }
576     let data1 = black_box(data1);
577     let data2 = black_box(data2);
578     let its = &[data1.iter(), data2.iter()];
579 
580     c.bench_function("kmerge default", move |b| {
581         b.iter(|| {
582             its.iter().cloned().kmerge().count()
583         })
584     });
585 }
586 
kmerge_tenway(c: &mut Criterion)587 fn kmerge_tenway(c: &mut Criterion) {
588     let mut data = vec![0; 10240];
589 
590     let mut state = 1729u16;
591     fn rng(state: &mut u16) -> u16 {
592         let new = state.wrapping_mul(31421) + 6927;
593         *state = new;
594         new
595     }
596 
597     for elt in &mut data {
598         *elt = rng(&mut state);
599     }
600 
601     let mut chunks = Vec::new();
602     let mut rest = &mut data[..];
603     while rest.len() > 0 {
604         let chunk_len = 1 + rng(&mut state) % 512;
605         let chunk_len = cmp::min(rest.len(), chunk_len as usize);
606         let (fst, tail) = {rest}.split_at_mut(chunk_len);
607         fst.sort();
608         chunks.push(fst.iter().cloned());
609         rest = tail;
610     }
611 
612     // println!("Chunk lengths: {}", chunks.iter().format_with(", ", |elt, f| f(&elt.len())));
613 
614     c.bench_function("kmerge tenway", move |b| {
615         b.iter(|| {
616             chunks.iter().cloned().kmerge().count()
617         })
618     });
619 }
620 
fast_integer_sum<I>(iter: I) -> I::Item where I: IntoIterator, I::Item: Default + Add<Output=I::Item>621 fn fast_integer_sum<I>(iter: I) -> I::Item
622     where I: IntoIterator,
623           I::Item: Default + Add<Output=I::Item>
624 {
625     iter.into_iter().fold(<_>::default(), |x, y| x + y)
626 }
627 
step_vec_2(c: &mut Criterion)628 fn step_vec_2(c: &mut Criterion) {
629     let v = vec![0; 1024];
630 
631     c.bench_function("step vec 2", move |b| {
632         b.iter(|| {
633             fast_integer_sum(cloned(v.iter().step_by(2)))
634         })
635     });
636 }
637 
step_vec_10(c: &mut Criterion)638 fn step_vec_10(c: &mut Criterion) {
639     let v = vec![0; 1024];
640 
641     c.bench_function("step vec 10", move |b| {
642         b.iter(|| {
643             fast_integer_sum(cloned(v.iter().step_by(10)))
644         })
645     });
646 }
647 
step_range_2(c: &mut Criterion)648 fn step_range_2(c: &mut Criterion) {
649     let v = black_box(0..1024);
650 
651     c.bench_function("step range 2", move |b| {
652         b.iter(|| {
653             fast_integer_sum(v.clone().step_by(2))
654         })
655     });
656 }
657 
step_range_10(c: &mut Criterion)658 fn step_range_10(c: &mut Criterion) {
659     let v = black_box(0..1024);
660 
661     c.bench_function("step range 10", move |b| {
662         b.iter(|| {
663             fast_integer_sum(v.clone().step_by(10))
664         })
665     });
666 }
667 
cartesian_product_iterator(c: &mut Criterion)668 fn cartesian_product_iterator(c: &mut Criterion) {
669     let xs = vec![0; 16];
670 
671     c.bench_function("cartesian product iterator", move |b| {
672         b.iter(|| {
673             let mut sum = 0;
674             for (&x, &y, &z) in iproduct!(&xs, &xs, &xs) {
675                 sum += x;
676                 sum += y;
677                 sum += z;
678             }
679             sum
680         })
681     });
682 }
683 
cartesian_product_fold(c: &mut Criterion)684 fn cartesian_product_fold(c: &mut Criterion) {
685     let xs = vec![0; 16];
686 
687     c.bench_function("cartesian product fold", move |b| {
688         b.iter(|| {
689             let mut sum = 0;
690             iproduct!(&xs, &xs, &xs).fold((), |(), (&x, &y, &z)| {
691                 sum += x;
692                 sum += y;
693                 sum += z;
694             });
695             sum
696         })
697     });
698 }
699 
multi_cartesian_product_iterator(c: &mut Criterion)700 fn multi_cartesian_product_iterator(c: &mut Criterion) {
701     let xs = [vec![0; 16], vec![0; 16], vec![0; 16]];
702 
703     c.bench_function("multi cartesian product iterator", move |b| {
704         b.iter(|| {
705             let mut sum = 0;
706             for x in xs.iter().multi_cartesian_product() {
707                 sum += x[0];
708                 sum += x[1];
709                 sum += x[2];
710             }
711             sum
712         })
713     });
714 }
715 
multi_cartesian_product_fold(c: &mut Criterion)716 fn multi_cartesian_product_fold(c: &mut Criterion) {
717     let xs = [vec![0; 16], vec![0; 16], vec![0; 16]];
718 
719     c.bench_function("multi cartesian product fold", move |b| {
720         b.iter(|| {
721             let mut sum = 0;
722             xs.iter().multi_cartesian_product().fold((), |(), x| {
723                 sum += x[0];
724                 sum += x[1];
725                 sum += x[2];
726             });
727             sum
728         })
729     });
730 }
731 
cartesian_product_nested_for(c: &mut Criterion)732 fn cartesian_product_nested_for(c: &mut Criterion) {
733     let xs = vec![0; 16];
734 
735     c.bench_function("cartesian product nested for", move |b| {
736         b.iter(|| {
737             let mut sum = 0;
738             for &x in &xs {
739                 for &y in &xs {
740                     for &z in &xs {
741                         sum += x;
742                         sum += y;
743                         sum += z;
744                     }
745                 }
746             }
747             sum
748         })
749     });
750 }
751 
all_equal(c: &mut Criterion)752 fn all_equal(c: &mut Criterion) {
753     let mut xs = vec![0; 5_000_000];
754     xs.extend(vec![1; 5_000_000]);
755 
756     c.bench_function("all equal", move |b| {
757         b.iter(|| xs.iter().all_equal())
758     });
759 }
760 
all_equal_for(c: &mut Criterion)761 fn all_equal_for(c: &mut Criterion) {
762     let mut xs = vec![0; 5_000_000];
763     xs.extend(vec![1; 5_000_000]);
764 
765     c.bench_function("all equal for", move |b| {
766         b.iter(|| {
767             for &x in &xs {
768                 if x != xs[0] {
769                     return false;
770                 }
771             }
772             true
773         })
774     });
775 }
776 
all_equal_default(c: &mut Criterion)777 fn all_equal_default(c: &mut Criterion) {
778     let mut xs = vec![0; 5_000_000];
779     xs.extend(vec![1; 5_000_000]);
780 
781     c.bench_function("all equal default", move |b| {
782         b.iter(|| xs.iter().dedup().nth(1).is_none())
783     });
784 }
785 
786 const PERM_COUNT: usize = 6;
787 
permutations_iter(c: &mut Criterion)788 fn permutations_iter(c: &mut Criterion) {
789     struct NewIterator(Range<usize>);
790 
791     impl Iterator for NewIterator {
792         type Item = usize;
793 
794         fn next(&mut self) -> Option<Self::Item> {
795             self.0.next()
796         }
797     }
798 
799     c.bench_function("permutations iter", move |b| {
800         b.iter(|| {
801             for _ in NewIterator(0..PERM_COUNT).permutations(PERM_COUNT) {
802 
803             }
804         })
805     });
806 }
807 
permutations_range(c: &mut Criterion)808 fn permutations_range(c: &mut Criterion) {
809     c.bench_function("permutations range", move |b| {
810         b.iter(|| {
811             for _ in (0..PERM_COUNT).permutations(PERM_COUNT) {
812 
813             }
814         })
815     });
816 }
817 
permutations_slice(c: &mut Criterion)818 fn permutations_slice(c: &mut Criterion) {
819     let v = (0..PERM_COUNT).collect_vec();
820 
821     c.bench_function("permutations slice", move |b| {
822         b.iter(|| {
823             for _ in v.as_slice().iter().permutations(PERM_COUNT) {
824 
825             }
826         })
827     });
828 }
829 
830 criterion_group!(
831     benches,
832     slice_iter,
833     slice_iter_rev,
834     zip_default_zip,
835     zipdot_i32_default_zip,
836     zipdot_f32_default_zip,
837     zip_default_zip3,
838     zip_slices_ziptuple,
839     zipslices,
840     zipslices_mut,
841     zipdot_i32_zipslices,
842     zipdot_f32_zipslices,
843     zip_checked_counted_loop,
844     zipdot_i32_checked_counted_loop,
845     zipdot_f32_checked_counted_loop,
846     zipdot_f32_checked_counted_unrolled_loop,
847     zip_unchecked_counted_loop,
848     zipdot_i32_unchecked_counted_loop,
849     zipdot_f32_unchecked_counted_loop,
850     zip_unchecked_counted_loop3,
851     group_by_lazy_1,
852     group_by_lazy_2,
853     slice_chunks,
854     chunks_lazy_1,
855     equal,
856     merge_default,
857     merge_by_cmp,
858     merge_by_lt,
859     kmerge_default,
860     kmerge_tenway,
861     step_vec_2,
862     step_vec_10,
863     step_range_2,
864     step_range_10,
865     cartesian_product_iterator,
866     cartesian_product_fold,
867     multi_cartesian_product_iterator,
868     multi_cartesian_product_fold,
869     cartesian_product_nested_for,
870     all_equal,
871     all_equal_for,
872     all_equal_default,
873     permutations_iter,
874     permutations_range,
875     permutations_slice,
876 );
877 criterion_main!(benches);
878