[ARM] Masked load and store and predicate tests. NFC
[llvm-complete.git] / unittests / ADT / IntervalMapTest.cpp
blob170d1523a5dea442e57b51c3b4459f927b5711e4
1 //===---- ADT/IntervalMapTest.cpp - IntervalMap unit tests ------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
9 #include "llvm/ADT/IntervalMap.h"
10 #include "gtest/gtest.h"
12 using namespace llvm;
14 namespace {
16 typedef IntervalMap<unsigned, unsigned, 4> UUMap;
17 typedef IntervalMap<unsigned, unsigned, 4,
18 IntervalMapHalfOpenInfo<unsigned>> UUHalfOpenMap;
20 // Empty map tests
21 TEST(IntervalMapTest, EmptyMap) {
22 UUMap::Allocator allocator;
23 UUMap map(allocator);
24 EXPECT_TRUE(map.empty());
26 // Lookup on empty map.
27 EXPECT_EQ(0u, map.lookup(0));
28 EXPECT_EQ(7u, map.lookup(0, 7));
29 EXPECT_EQ(0u, map.lookup(~0u-1));
30 EXPECT_EQ(7u, map.lookup(~0u-1, 7));
32 // Iterators.
33 EXPECT_TRUE(map.begin() == map.begin());
34 EXPECT_TRUE(map.begin() == map.end());
35 EXPECT_TRUE(map.end() == map.end());
36 EXPECT_FALSE(map.begin() != map.begin());
37 EXPECT_FALSE(map.begin() != map.end());
38 EXPECT_FALSE(map.end() != map.end());
39 EXPECT_FALSE(map.begin().valid());
40 EXPECT_FALSE(map.end().valid());
41 UUMap::iterator I = map.begin();
42 EXPECT_FALSE(I.valid());
43 EXPECT_TRUE(I == map.end());
45 // Default constructor and cross-constness compares.
46 UUMap::const_iterator CI;
47 CI = map.begin();
48 EXPECT_TRUE(CI == I);
49 UUMap::iterator I2;
50 I2 = map.end();
51 EXPECT_TRUE(I2 == CI);
54 // Single entry map tests
55 TEST(IntervalMapTest, SingleEntryMap) {
56 UUMap::Allocator allocator;
57 UUMap map(allocator);
58 map.insert(100, 150, 1);
59 EXPECT_FALSE(map.empty());
61 // Lookup around interval.
62 EXPECT_EQ(0u, map.lookup(0));
63 EXPECT_EQ(0u, map.lookup(99));
64 EXPECT_EQ(1u, map.lookup(100));
65 EXPECT_EQ(1u, map.lookup(101));
66 EXPECT_EQ(1u, map.lookup(125));
67 EXPECT_EQ(1u, map.lookup(149));
68 EXPECT_EQ(1u, map.lookup(150));
69 EXPECT_EQ(0u, map.lookup(151));
70 EXPECT_EQ(0u, map.lookup(200));
71 EXPECT_EQ(0u, map.lookup(~0u-1));
73 // Iterators.
74 EXPECT_TRUE(map.begin() == map.begin());
75 EXPECT_FALSE(map.begin() == map.end());
76 EXPECT_TRUE(map.end() == map.end());
77 EXPECT_TRUE(map.begin().valid());
78 EXPECT_FALSE(map.end().valid());
80 // Iter deref.
81 UUMap::iterator I = map.begin();
82 ASSERT_TRUE(I.valid());
83 EXPECT_EQ(100u, I.start());
84 EXPECT_EQ(150u, I.stop());
85 EXPECT_EQ(1u, I.value());
87 // Preincrement.
88 ++I;
89 EXPECT_FALSE(I.valid());
90 EXPECT_FALSE(I == map.begin());
91 EXPECT_TRUE(I == map.end());
93 // PreDecrement.
94 --I;
95 ASSERT_TRUE(I.valid());
96 EXPECT_EQ(100u, I.start());
97 EXPECT_EQ(150u, I.stop());
98 EXPECT_EQ(1u, I.value());
99 EXPECT_TRUE(I == map.begin());
100 EXPECT_FALSE(I == map.end());
102 // Change the value.
103 I.setValue(2);
104 ASSERT_TRUE(I.valid());
105 EXPECT_EQ(100u, I.start());
106 EXPECT_EQ(150u, I.stop());
107 EXPECT_EQ(2u, I.value());
109 // Grow the bounds.
110 I.setStart(0);
111 ASSERT_TRUE(I.valid());
112 EXPECT_EQ(0u, I.start());
113 EXPECT_EQ(150u, I.stop());
114 EXPECT_EQ(2u, I.value());
116 I.setStop(200);
117 ASSERT_TRUE(I.valid());
118 EXPECT_EQ(0u, I.start());
119 EXPECT_EQ(200u, I.stop());
120 EXPECT_EQ(2u, I.value());
122 // Shrink the bounds.
123 I.setStart(150);
124 ASSERT_TRUE(I.valid());
125 EXPECT_EQ(150u, I.start());
126 EXPECT_EQ(200u, I.stop());
127 EXPECT_EQ(2u, I.value());
129 // Shrink the interval to have a length of 1
130 I.setStop(150);
131 ASSERT_TRUE(I.valid());
132 EXPECT_EQ(150u, I.start());
133 EXPECT_EQ(150u, I.stop());
134 EXPECT_EQ(2u, I.value());
136 I.setStop(160);
137 ASSERT_TRUE(I.valid());
138 EXPECT_EQ(150u, I.start());
139 EXPECT_EQ(160u, I.stop());
140 EXPECT_EQ(2u, I.value());
142 // Shrink the interval to have a length of 1
143 I.setStart(160);
144 ASSERT_TRUE(I.valid());
145 EXPECT_EQ(160u, I.start());
146 EXPECT_EQ(160u, I.stop());
147 EXPECT_EQ(2u, I.value());
149 // Erase last elem.
150 I.erase();
151 EXPECT_TRUE(map.empty());
152 EXPECT_EQ(0, std::distance(map.begin(), map.end()));
155 // Single entry half-open map tests
156 TEST(IntervalMapTest, SingleEntryHalfOpenMap) {
157 UUHalfOpenMap::Allocator allocator;
158 UUHalfOpenMap map(allocator);
159 map.insert(100, 150, 1);
160 EXPECT_FALSE(map.empty());
162 UUHalfOpenMap::iterator I = map.begin();
163 ASSERT_TRUE(I.valid());
165 // Shrink the interval to have a length of 1
166 I.setStart(149);
167 ASSERT_TRUE(I.valid());
168 EXPECT_EQ(149u, I.start());
169 EXPECT_EQ(150u, I.stop());
170 EXPECT_EQ(1u, I.value());
172 I.setStop(160);
173 ASSERT_TRUE(I.valid());
174 EXPECT_EQ(149u, I.start());
175 EXPECT_EQ(160u, I.stop());
176 EXPECT_EQ(1u, I.value());
178 // Shrink the interval to have a length of 1
179 I.setStop(150);
180 ASSERT_TRUE(I.valid());
181 EXPECT_EQ(149u, I.start());
182 EXPECT_EQ(150u, I.stop());
183 EXPECT_EQ(1u, I.value());
186 // Flat coalescing tests.
187 TEST(IntervalMapTest, RootCoalescing) {
188 UUMap::Allocator allocator;
189 UUMap map(allocator);
190 map.insert(100, 150, 1);
192 // Coalesce from the left.
193 map.insert(90, 99, 1);
194 EXPECT_EQ(1, std::distance(map.begin(), map.end()));
195 EXPECT_EQ(90u, map.start());
196 EXPECT_EQ(150u, map.stop());
198 // Coalesce from the right.
199 map.insert(151, 200, 1);
200 EXPECT_EQ(1, std::distance(map.begin(), map.end()));
201 EXPECT_EQ(90u, map.start());
202 EXPECT_EQ(200u, map.stop());
204 // Non-coalesce from the left.
205 map.insert(60, 89, 2);
206 EXPECT_EQ(2, std::distance(map.begin(), map.end()));
207 EXPECT_EQ(60u, map.start());
208 EXPECT_EQ(200u, map.stop());
209 EXPECT_EQ(2u, map.lookup(89));
210 EXPECT_EQ(1u, map.lookup(90));
212 UUMap::iterator I = map.begin();
213 EXPECT_EQ(60u, I.start());
214 EXPECT_EQ(89u, I.stop());
215 EXPECT_EQ(2u, I.value());
216 ++I;
217 EXPECT_EQ(90u, I.start());
218 EXPECT_EQ(200u, I.stop());
219 EXPECT_EQ(1u, I.value());
220 ++I;
221 EXPECT_FALSE(I.valid());
223 // Non-coalesce from the right.
224 map.insert(201, 210, 2);
225 EXPECT_EQ(3, std::distance(map.begin(), map.end()));
226 EXPECT_EQ(60u, map.start());
227 EXPECT_EQ(210u, map.stop());
228 EXPECT_EQ(2u, map.lookup(201));
229 EXPECT_EQ(1u, map.lookup(200));
231 // Erase from the left.
232 map.begin().erase();
233 EXPECT_EQ(2, std::distance(map.begin(), map.end()));
234 EXPECT_EQ(90u, map.start());
235 EXPECT_EQ(210u, map.stop());
237 // Erase from the right.
238 (--map.end()).erase();
239 EXPECT_EQ(1, std::distance(map.begin(), map.end()));
240 EXPECT_EQ(90u, map.start());
241 EXPECT_EQ(200u, map.stop());
243 // Add non-coalescing, then trigger coalescing with setValue.
244 map.insert(80, 89, 2);
245 map.insert(201, 210, 2);
246 EXPECT_EQ(3, std::distance(map.begin(), map.end()));
247 (++map.begin()).setValue(2);
248 EXPECT_EQ(1, std::distance(map.begin(), map.end()));
249 I = map.begin();
250 ASSERT_TRUE(I.valid());
251 EXPECT_EQ(80u, I.start());
252 EXPECT_EQ(210u, I.stop());
253 EXPECT_EQ(2u, I.value());
256 // Flat multi-coalescing tests.
257 TEST(IntervalMapTest, RootMultiCoalescing) {
258 UUMap::Allocator allocator;
259 UUMap map(allocator);
260 map.insert(140, 150, 1);
261 map.insert(160, 170, 1);
262 map.insert(100, 110, 1);
263 map.insert(120, 130, 1);
264 EXPECT_EQ(4, std::distance(map.begin(), map.end()));
265 EXPECT_EQ(100u, map.start());
266 EXPECT_EQ(170u, map.stop());
268 // Verify inserts.
269 UUMap::iterator I = map.begin();
270 EXPECT_EQ(100u, I.start());
271 EXPECT_EQ(110u, I.stop());
272 ++I;
273 EXPECT_EQ(120u, I.start());
274 EXPECT_EQ(130u, I.stop());
275 ++I;
276 EXPECT_EQ(140u, I.start());
277 EXPECT_EQ(150u, I.stop());
278 ++I;
279 EXPECT_EQ(160u, I.start());
280 EXPECT_EQ(170u, I.stop());
281 ++I;
282 EXPECT_FALSE(I.valid());
284 // Test advanceTo on flat tree.
285 I = map.begin();
286 I.advanceTo(135);
287 ASSERT_TRUE(I.valid());
288 EXPECT_EQ(140u, I.start());
289 EXPECT_EQ(150u, I.stop());
291 I.advanceTo(145);
292 ASSERT_TRUE(I.valid());
293 EXPECT_EQ(140u, I.start());
294 EXPECT_EQ(150u, I.stop());
296 I.advanceTo(200);
297 EXPECT_FALSE(I.valid());
299 I.advanceTo(300);
300 EXPECT_FALSE(I.valid());
302 // Coalesce left with followers.
303 // [100;110] [120;130] [140;150] [160;170]
304 map.insert(111, 115, 1);
305 I = map.begin();
306 ASSERT_TRUE(I.valid());
307 EXPECT_EQ(100u, I.start());
308 EXPECT_EQ(115u, I.stop());
309 ++I;
310 ASSERT_TRUE(I.valid());
311 EXPECT_EQ(120u, I.start());
312 EXPECT_EQ(130u, I.stop());
313 ++I;
314 ASSERT_TRUE(I.valid());
315 EXPECT_EQ(140u, I.start());
316 EXPECT_EQ(150u, I.stop());
317 ++I;
318 ASSERT_TRUE(I.valid());
319 EXPECT_EQ(160u, I.start());
320 EXPECT_EQ(170u, I.stop());
321 ++I;
322 EXPECT_FALSE(I.valid());
324 // Coalesce right with followers.
325 // [100;115] [120;130] [140;150] [160;170]
326 map.insert(135, 139, 1);
327 I = map.begin();
328 ASSERT_TRUE(I.valid());
329 EXPECT_EQ(100u, I.start());
330 EXPECT_EQ(115u, I.stop());
331 ++I;
332 ASSERT_TRUE(I.valid());
333 EXPECT_EQ(120u, I.start());
334 EXPECT_EQ(130u, I.stop());
335 ++I;
336 ASSERT_TRUE(I.valid());
337 EXPECT_EQ(135u, I.start());
338 EXPECT_EQ(150u, I.stop());
339 ++I;
340 ASSERT_TRUE(I.valid());
341 EXPECT_EQ(160u, I.start());
342 EXPECT_EQ(170u, I.stop());
343 ++I;
344 EXPECT_FALSE(I.valid());
346 // Coalesce left and right with followers.
347 // [100;115] [120;130] [135;150] [160;170]
348 map.insert(131, 134, 1);
349 I = map.begin();
350 ASSERT_TRUE(I.valid());
351 EXPECT_EQ(100u, I.start());
352 EXPECT_EQ(115u, I.stop());
353 ++I;
354 ASSERT_TRUE(I.valid());
355 EXPECT_EQ(120u, I.start());
356 EXPECT_EQ(150u, I.stop());
357 ++I;
358 ASSERT_TRUE(I.valid());
359 EXPECT_EQ(160u, I.start());
360 EXPECT_EQ(170u, I.stop());
361 ++I;
362 EXPECT_FALSE(I.valid());
364 // Test clear() on non-branched map.
365 map.clear();
366 EXPECT_TRUE(map.empty());
367 EXPECT_TRUE(map.begin() == map.end());
370 // Branched, non-coalescing tests.
371 TEST(IntervalMapTest, Branched) {
372 UUMap::Allocator allocator;
373 UUMap map(allocator);
375 // Insert enough intervals to force a branched tree.
376 // This creates 9 leaf nodes with 11 elements each, tree height = 1.
377 for (unsigned i = 1; i < 100; ++i) {
378 map.insert(10*i, 10*i+5, i);
379 EXPECT_EQ(10u, map.start());
380 EXPECT_EQ(10*i+5, map.stop());
383 // Tree limits.
384 EXPECT_FALSE(map.empty());
385 EXPECT_EQ(10u, map.start());
386 EXPECT_EQ(995u, map.stop());
388 // Tree lookup.
389 for (unsigned i = 1; i < 100; ++i) {
390 EXPECT_EQ(0u, map.lookup(10*i-1));
391 EXPECT_EQ(i, map.lookup(10*i));
392 EXPECT_EQ(i, map.lookup(10*i+5));
393 EXPECT_EQ(0u, map.lookup(10*i+6));
396 // Forward iteration.
397 UUMap::iterator I = map.begin();
398 for (unsigned i = 1; i < 100; ++i) {
399 ASSERT_TRUE(I.valid());
400 EXPECT_EQ(10*i, I.start());
401 EXPECT_EQ(10*i+5, I.stop());
402 EXPECT_EQ(i, *I);
403 ++I;
405 EXPECT_FALSE(I.valid());
406 EXPECT_TRUE(I == map.end());
408 // Backwards iteration.
409 for (unsigned i = 99; i; --i) {
410 --I;
411 ASSERT_TRUE(I.valid());
412 EXPECT_EQ(10*i, I.start());
413 EXPECT_EQ(10*i+5, I.stop());
414 EXPECT_EQ(i, *I);
416 EXPECT_TRUE(I == map.begin());
418 // Test advanceTo in same node.
419 I.advanceTo(20);
420 ASSERT_TRUE(I.valid());
421 EXPECT_EQ(20u, I.start());
422 EXPECT_EQ(25u, I.stop());
424 // Change value, no coalescing.
425 I.setValue(0);
426 ASSERT_TRUE(I.valid());
427 EXPECT_EQ(20u, I.start());
428 EXPECT_EQ(25u, I.stop());
429 EXPECT_EQ(0u, I.value());
431 // Close the gap right, no coalescing.
432 I.setStop(29);
433 ASSERT_TRUE(I.valid());
434 EXPECT_EQ(20u, I.start());
435 EXPECT_EQ(29u, I.stop());
436 EXPECT_EQ(0u, I.value());
438 // Change value, no coalescing.
439 I.setValue(2);
440 ASSERT_TRUE(I.valid());
441 EXPECT_EQ(20u, I.start());
442 EXPECT_EQ(29u, I.stop());
443 EXPECT_EQ(2u, I.value());
445 // Change value, now coalescing.
446 I.setValue(3);
447 ASSERT_TRUE(I.valid());
448 EXPECT_EQ(20u, I.start());
449 EXPECT_EQ(35u, I.stop());
450 EXPECT_EQ(3u, I.value());
452 // Close the gap, now coalescing.
453 I.setValue(4);
454 ASSERT_TRUE(I.valid());
455 I.setStop(39);
456 ASSERT_TRUE(I.valid());
457 EXPECT_EQ(20u, I.start());
458 EXPECT_EQ(45u, I.stop());
459 EXPECT_EQ(4u, I.value());
461 // advanceTo another node.
462 I.advanceTo(200);
463 ASSERT_TRUE(I.valid());
464 EXPECT_EQ(200u, I.start());
465 EXPECT_EQ(205u, I.stop());
467 // Close the gap left, no coalescing.
468 I.setStart(196);
469 ASSERT_TRUE(I.valid());
470 EXPECT_EQ(196u, I.start());
471 EXPECT_EQ(205u, I.stop());
472 EXPECT_EQ(20u, I.value());
474 // Change value, no coalescing.
475 I.setValue(0);
476 ASSERT_TRUE(I.valid());
477 EXPECT_EQ(196u, I.start());
478 EXPECT_EQ(205u, I.stop());
479 EXPECT_EQ(0u, I.value());
481 // Change value, now coalescing.
482 I.setValue(19);
483 ASSERT_TRUE(I.valid());
484 EXPECT_EQ(190u, I.start());
485 EXPECT_EQ(205u, I.stop());
486 EXPECT_EQ(19u, I.value());
488 // Close the gap, now coalescing.
489 I.setValue(18);
490 ASSERT_TRUE(I.valid());
491 I.setStart(186);
492 ASSERT_TRUE(I.valid());
493 EXPECT_EQ(180u, I.start());
494 EXPECT_EQ(205u, I.stop());
495 EXPECT_EQ(18u, I.value());
497 // Erase from the front.
498 I = map.begin();
499 for (unsigned i = 0; i != 20; ++i) {
500 I.erase();
501 EXPECT_TRUE(I == map.begin());
502 EXPECT_FALSE(map.empty());
503 EXPECT_EQ(I.start(), map.start());
504 EXPECT_EQ(995u, map.stop());
507 // Test clear() on branched map.
508 map.clear();
509 EXPECT_TRUE(map.empty());
510 EXPECT_TRUE(map.begin() == map.end());
513 // Branched, high, non-coalescing tests.
514 TEST(IntervalMapTest, Branched2) {
515 UUMap::Allocator allocator;
516 UUMap map(allocator);
518 // Insert enough intervals to force a height >= 2 tree.
519 for (unsigned i = 1; i < 1000; ++i)
520 map.insert(10*i, 10*i+5, i);
522 // Tree limits.
523 EXPECT_FALSE(map.empty());
524 EXPECT_EQ(10u, map.start());
525 EXPECT_EQ(9995u, map.stop());
527 // Tree lookup.
528 for (unsigned i = 1; i < 1000; ++i) {
529 EXPECT_EQ(0u, map.lookup(10*i-1));
530 EXPECT_EQ(i, map.lookup(10*i));
531 EXPECT_EQ(i, map.lookup(10*i+5));
532 EXPECT_EQ(0u, map.lookup(10*i+6));
535 // Forward iteration.
536 UUMap::iterator I = map.begin();
537 for (unsigned i = 1; i < 1000; ++i) {
538 ASSERT_TRUE(I.valid());
539 EXPECT_EQ(10*i, I.start());
540 EXPECT_EQ(10*i+5, I.stop());
541 EXPECT_EQ(i, *I);
542 ++I;
544 EXPECT_FALSE(I.valid());
545 EXPECT_TRUE(I == map.end());
547 // Backwards iteration.
548 for (unsigned i = 999; i; --i) {
549 --I;
550 ASSERT_TRUE(I.valid());
551 EXPECT_EQ(10*i, I.start());
552 EXPECT_EQ(10*i+5, I.stop());
553 EXPECT_EQ(i, *I);
555 EXPECT_TRUE(I == map.begin());
557 // Test advanceTo in same node.
558 I.advanceTo(20);
559 ASSERT_TRUE(I.valid());
560 EXPECT_EQ(20u, I.start());
561 EXPECT_EQ(25u, I.stop());
563 // advanceTo sibling leaf node.
564 I.advanceTo(200);
565 ASSERT_TRUE(I.valid());
566 EXPECT_EQ(200u, I.start());
567 EXPECT_EQ(205u, I.stop());
569 // advanceTo further.
570 I.advanceTo(2000);
571 ASSERT_TRUE(I.valid());
572 EXPECT_EQ(2000u, I.start());
573 EXPECT_EQ(2005u, I.stop());
575 // advanceTo beyond end()
576 I.advanceTo(20000);
577 EXPECT_FALSE(I.valid());
579 // end().advanceTo() is valid as long as x > map.stop()
580 I.advanceTo(30000);
581 EXPECT_FALSE(I.valid());
583 // Test clear() on branched map.
584 map.clear();
585 EXPECT_TRUE(map.empty());
586 EXPECT_TRUE(map.begin() == map.end());
589 // Random insertions, coalescing to a single interval.
590 TEST(IntervalMapTest, RandomCoalescing) {
591 UUMap::Allocator allocator;
592 UUMap map(allocator);
594 // This is a poor PRNG with maximal period:
595 // x_n = 5 x_{n-1} + 1 mod 2^N
597 unsigned x = 100;
598 for (unsigned i = 0; i != 4096; ++i) {
599 map.insert(10*x, 10*x+9, 1);
600 EXPECT_GE(10*x, map.start());
601 EXPECT_LE(10*x+9, map.stop());
602 x = (5*x+1)%4096;
605 // Map should be fully coalesced after that exercise.
606 EXPECT_FALSE(map.empty());
607 EXPECT_EQ(0u, map.start());
608 EXPECT_EQ(40959u, map.stop());
609 EXPECT_EQ(1, std::distance(map.begin(), map.end()));
613 TEST(IntervalMapTest, Overlaps) {
614 UUMap::Allocator allocator;
615 UUMap map(allocator);
616 map.insert(10, 20, 0);
617 map.insert(30, 40, 0);
618 map.insert(50, 60, 0);
620 EXPECT_FALSE(map.overlaps(0, 9));
621 EXPECT_TRUE(map.overlaps(0, 10));
622 EXPECT_TRUE(map.overlaps(0, 15));
623 EXPECT_TRUE(map.overlaps(0, 25));
624 EXPECT_TRUE(map.overlaps(0, 45));
625 EXPECT_TRUE(map.overlaps(10, 45));
626 EXPECT_TRUE(map.overlaps(30, 45));
627 EXPECT_TRUE(map.overlaps(35, 36));
628 EXPECT_TRUE(map.overlaps(40, 45));
629 EXPECT_FALSE(map.overlaps(45, 45));
630 EXPECT_TRUE(map.overlaps(60, 60));
631 EXPECT_TRUE(map.overlaps(60, 66));
632 EXPECT_FALSE(map.overlaps(66, 66));
635 TEST(IntervalMapTest, OverlapsHalfOpen) {
636 UUHalfOpenMap::Allocator allocator;
637 UUHalfOpenMap map(allocator);
638 map.insert(10, 20, 0);
639 map.insert(30, 40, 0);
640 map.insert(50, 60, 0);
642 EXPECT_FALSE(map.overlaps(0, 9));
643 EXPECT_FALSE(map.overlaps(0, 10));
644 EXPECT_TRUE(map.overlaps(0, 15));
645 EXPECT_TRUE(map.overlaps(0, 25));
646 EXPECT_TRUE(map.overlaps(0, 45));
647 EXPECT_TRUE(map.overlaps(10, 45));
648 EXPECT_TRUE(map.overlaps(30, 45));
649 EXPECT_TRUE(map.overlaps(35, 36));
650 EXPECT_FALSE(map.overlaps(40, 45));
651 EXPECT_FALSE(map.overlaps(45, 46));
652 EXPECT_FALSE(map.overlaps(60, 61));
653 EXPECT_FALSE(map.overlaps(60, 66));
654 EXPECT_FALSE(map.overlaps(66, 67));
657 TEST(IntervalMapOverlapsTest, SmallMaps) {
658 typedef IntervalMapOverlaps<UUMap,UUMap> UUOverlaps;
659 UUMap::Allocator allocator;
660 UUMap mapA(allocator);
661 UUMap mapB(allocator);
663 // empty, empty.
664 EXPECT_FALSE(UUOverlaps(mapA, mapB).valid());
666 mapA.insert(1, 2, 3);
668 // full, empty
669 EXPECT_FALSE(UUOverlaps(mapA, mapB).valid());
670 // empty, full
671 EXPECT_FALSE(UUOverlaps(mapB, mapA).valid());
673 mapB.insert(3, 4, 5);
675 // full, full, non-overlapping
676 EXPECT_FALSE(UUOverlaps(mapA, mapB).valid());
677 EXPECT_FALSE(UUOverlaps(mapB, mapA).valid());
679 // Add an overlapping segment.
680 mapA.insert(4, 5, 6);
682 UUOverlaps AB(mapA, mapB);
683 ASSERT_TRUE(AB.valid());
684 EXPECT_EQ(4u, AB.a().start());
685 EXPECT_EQ(3u, AB.b().start());
686 ++AB;
687 EXPECT_FALSE(AB.valid());
689 UUOverlaps BA(mapB, mapA);
690 ASSERT_TRUE(BA.valid());
691 EXPECT_EQ(3u, BA.a().start());
692 EXPECT_EQ(4u, BA.b().start());
693 // advance past end.
694 BA.advanceTo(6);
695 EXPECT_FALSE(BA.valid());
696 // advance an invalid iterator.
697 BA.advanceTo(7);
698 EXPECT_FALSE(BA.valid());
701 TEST(IntervalMapOverlapsTest, BigMaps) {
702 typedef IntervalMapOverlaps<UUMap,UUMap> UUOverlaps;
703 UUMap::Allocator allocator;
704 UUMap mapA(allocator);
705 UUMap mapB(allocator);
707 // [0;4] [10;14] [20;24] ...
708 for (unsigned n = 0; n != 100; ++n)
709 mapA.insert(10*n, 10*n+4, n);
711 // [5;6] [15;16] [25;26] ...
712 for (unsigned n = 10; n != 20; ++n)
713 mapB.insert(10*n+5, 10*n+6, n);
715 // [208;209] [218;219] ...
716 for (unsigned n = 20; n != 30; ++n)
717 mapB.insert(10*n+8, 10*n+9, n);
719 // insert some overlapping segments.
720 mapB.insert(400, 400, 400);
721 mapB.insert(401, 401, 401);
722 mapB.insert(402, 500, 402);
723 mapB.insert(600, 601, 402);
725 UUOverlaps AB(mapA, mapB);
726 ASSERT_TRUE(AB.valid());
727 EXPECT_EQ(400u, AB.a().start());
728 EXPECT_EQ(400u, AB.b().start());
729 ++AB;
730 ASSERT_TRUE(AB.valid());
731 EXPECT_EQ(400u, AB.a().start());
732 EXPECT_EQ(401u, AB.b().start());
733 ++AB;
734 ASSERT_TRUE(AB.valid());
735 EXPECT_EQ(400u, AB.a().start());
736 EXPECT_EQ(402u, AB.b().start());
737 ++AB;
738 ASSERT_TRUE(AB.valid());
739 EXPECT_EQ(410u, AB.a().start());
740 EXPECT_EQ(402u, AB.b().start());
741 ++AB;
742 ASSERT_TRUE(AB.valid());
743 EXPECT_EQ(420u, AB.a().start());
744 EXPECT_EQ(402u, AB.b().start());
745 AB.skipB();
746 ASSERT_TRUE(AB.valid());
747 EXPECT_EQ(600u, AB.a().start());
748 EXPECT_EQ(600u, AB.b().start());
749 ++AB;
750 EXPECT_FALSE(AB.valid());
752 // Test advanceTo.
753 UUOverlaps AB2(mapA, mapB);
754 AB2.advanceTo(410);
755 ASSERT_TRUE(AB2.valid());
756 EXPECT_EQ(410u, AB2.a().start());
757 EXPECT_EQ(402u, AB2.b().start());
759 // It is valid to advanceTo with any monotonic sequence.
760 AB2.advanceTo(411);
761 ASSERT_TRUE(AB2.valid());
762 EXPECT_EQ(410u, AB2.a().start());
763 EXPECT_EQ(402u, AB2.b().start());
765 // Check reversed maps.
766 UUOverlaps BA(mapB, mapA);
767 ASSERT_TRUE(BA.valid());
768 EXPECT_EQ(400u, BA.b().start());
769 EXPECT_EQ(400u, BA.a().start());
770 ++BA;
771 ASSERT_TRUE(BA.valid());
772 EXPECT_EQ(400u, BA.b().start());
773 EXPECT_EQ(401u, BA.a().start());
774 ++BA;
775 ASSERT_TRUE(BA.valid());
776 EXPECT_EQ(400u, BA.b().start());
777 EXPECT_EQ(402u, BA.a().start());
778 ++BA;
779 ASSERT_TRUE(BA.valid());
780 EXPECT_EQ(410u, BA.b().start());
781 EXPECT_EQ(402u, BA.a().start());
782 ++BA;
783 ASSERT_TRUE(BA.valid());
784 EXPECT_EQ(420u, BA.b().start());
785 EXPECT_EQ(402u, BA.a().start());
786 BA.skipA();
787 ASSERT_TRUE(BA.valid());
788 EXPECT_EQ(600u, BA.b().start());
789 EXPECT_EQ(600u, BA.a().start());
790 ++BA;
791 EXPECT_FALSE(BA.valid());
793 // Test advanceTo.
794 UUOverlaps BA2(mapB, mapA);
795 BA2.advanceTo(410);
796 ASSERT_TRUE(BA2.valid());
797 EXPECT_EQ(410u, BA2.b().start());
798 EXPECT_EQ(402u, BA2.a().start());
800 BA2.advanceTo(411);
801 ASSERT_TRUE(BA2.valid());
802 EXPECT_EQ(410u, BA2.b().start());
803 EXPECT_EQ(402u, BA2.a().start());
806 } // namespace