[Alignment][NFC] Use Align with TargetLowering::setMinFunctionAlignment
[llvm-core.git] / unittests / ADT / SimpleIListTest.cpp
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1 //===- unittests/ADT/SimpleIListTest.cpp - simple_ilist unit tests --------===//
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/simple_ilist.h"
10 #include "gtest/gtest.h"
12 using namespace llvm;
14 namespace {
16 struct Node : ilist_node<Node> {};
17 bool operator<(const Node &L, const Node &R) { return &L < &R; }
18 bool makeFalse(const Node &, const Node &) { return false; }
20 struct deleteNode : std::default_delete<Node> {};
21 void doNothing(Node *) {}
23 TEST(SimpleIListTest, DefaultConstructor) {
24 simple_ilist<Node> L;
25 EXPECT_EQ(L.begin(), L.end());
26 EXPECT_TRUE(L.empty());
27 EXPECT_EQ(0u, L.size());
30 TEST(SimpleIListTest, pushPopFront) {
31 simple_ilist<Node> L;
32 Node A, B;
33 L.push_front(B);
34 L.push_front(A);
35 EXPECT_EQ(&A, &L.front());
36 EXPECT_EQ(&B, &L.back());
37 EXPECT_FALSE(L.empty());
38 EXPECT_EQ(2u, L.size());
40 // Pop front and check the new front.
41 L.pop_front();
42 EXPECT_EQ(&B, &L.front());
44 // Pop to empty.
45 L.pop_front();
46 EXPECT_TRUE(L.empty());
49 TEST(SimpleIListTest, pushPopBack) {
50 simple_ilist<Node> L;
51 Node A, B;
52 L.push_back(A);
53 L.push_back(B);
54 EXPECT_EQ(&A, &L.front());
55 EXPECT_EQ(&B, &L.back());
56 EXPECT_FALSE(L.empty());
57 EXPECT_EQ(2u, L.size());
59 // Pop back and check the new front.
60 L.pop_back();
61 EXPECT_EQ(&A, &L.back());
63 // Pop to empty.
64 L.pop_back();
65 EXPECT_TRUE(L.empty());
68 TEST(SimpleIListTest, swap) {
69 simple_ilist<Node> L1, L2;
70 Node A, B;
71 L1.push_back(A);
72 L1.push_back(B);
73 L1.swap(L2);
74 EXPECT_TRUE(L1.empty());
75 EXPECT_EQ(0u, L1.size());
76 EXPECT_EQ(&A, &L2.front());
77 EXPECT_EQ(&B, &L2.back());
78 EXPECT_FALSE(L2.empty());
79 EXPECT_EQ(2u, L2.size());
82 TEST(SimpleIListTest, insertEraseAtEnd) {
83 simple_ilist<Node> L;
84 Node A, B;
85 L.insert(L.end(), A);
86 L.insert(L.end(), B);
87 EXPECT_EQ(&A, &L.front());
88 EXPECT_EQ(&B, &L.back());
89 EXPECT_FALSE(L.empty());
90 EXPECT_EQ(2u, L.size());
93 TEST(SimpleIListTest, insertAtBegin) {
94 simple_ilist<Node> L;
95 Node A, B;
96 L.insert(L.begin(), B);
97 L.insert(L.begin(), A);
98 EXPECT_EQ(&A, &L.front());
99 EXPECT_EQ(&B, &L.back());
100 EXPECT_FALSE(L.empty());
101 EXPECT_EQ(2u, L.size());
104 TEST(SimpleIListTest, remove) {
105 simple_ilist<Node> L;
106 Node A, B, C;
107 L.push_back(A);
108 L.push_back(B);
109 L.push_back(C);
110 EXPECT_EQ(&A, &L.front());
111 EXPECT_EQ(&B, &*++L.begin());
112 EXPECT_EQ(&C, &L.back());
113 EXPECT_EQ(3u, L.size());
115 L.remove(B);
116 EXPECT_EQ(&A, &L.front());
117 EXPECT_EQ(&C, &L.back());
118 EXPECT_EQ(2u, L.size());
120 L.remove(A);
121 EXPECT_EQ(&C, &L.front());
122 EXPECT_EQ(1u, L.size());
124 L.remove(C);
125 EXPECT_TRUE(L.empty());
128 TEST(SimpleIListTest, removeAndDispose) {
129 simple_ilist<Node> L;
130 Node A, C;
131 Node *B = new Node;
132 L.push_back(A);
133 L.push_back(*B);
134 L.push_back(C);
135 EXPECT_EQ(&A, &L.front());
136 EXPECT_EQ(B, &*++L.begin());
137 EXPECT_EQ(&C, &L.back());
138 EXPECT_EQ(3u, L.size());
140 L.removeAndDispose(*B, deleteNode());
141 EXPECT_EQ(&A, &L.front());
142 EXPECT_EQ(&C, &L.back());
143 EXPECT_EQ(2u, L.size());
146 TEST(SimpleIListTest, removeAndDisposeNullDeleter) {
147 simple_ilist<Node> L;
148 Node A, B, C;
149 L.push_back(A);
150 L.push_back(B);
151 L.push_back(C);
152 EXPECT_EQ(&A, &L.front());
153 EXPECT_EQ(&B, &*++L.begin());
154 EXPECT_EQ(&C, &L.back());
155 EXPECT_EQ(3u, L.size());
157 L.removeAndDispose(B, doNothing);
158 EXPECT_EQ(&A, &L.front());
159 EXPECT_EQ(&C, &L.back());
160 EXPECT_EQ(2u, L.size());
163 TEST(SimpleIListTest, erase) {
164 simple_ilist<Node> L;
165 Node A, B, C;
166 L.push_back(A);
167 L.push_back(B);
168 L.push_back(C);
169 EXPECT_EQ(&A, &L.front());
170 EXPECT_EQ(&B, &*++L.begin());
171 EXPECT_EQ(&C, &L.back());
172 EXPECT_EQ(3u, L.size());
174 EXPECT_EQ(C.getIterator(), L.erase(B.getIterator()));
175 EXPECT_EQ(&A, &L.front());
176 EXPECT_EQ(&C, &L.back());
177 EXPECT_EQ(2u, L.size());
180 TEST(SimpleIListTest, reverse_iterator) {
181 simple_ilist<Node> L;
182 Node A, B, C;
183 L.push_back(A);
184 L.push_back(B);
185 L.push_back(C);
187 auto ReverseIter = L.rbegin();
188 EXPECT_EQ(C.getReverseIterator(), ReverseIter);
189 ++ReverseIter;
190 EXPECT_EQ(B.getReverseIterator(), ReverseIter);
191 ++ReverseIter;
192 EXPECT_EQ(A.getReverseIterator(), ReverseIter);
193 ++ReverseIter;
194 EXPECT_EQ(L.rend(), ReverseIter);
197 TEST(SimpleIListTest, eraseAndDispose) {
198 simple_ilist<Node> L;
199 Node A, C;
200 Node *B = new Node;
201 L.push_back(A);
202 L.push_back(*B);
203 L.push_back(C);
204 EXPECT_EQ(&A, &L.front());
205 EXPECT_EQ(B, &*++L.begin());
206 EXPECT_EQ(&C, &L.back());
207 EXPECT_EQ(3u, L.size());
209 L.eraseAndDispose(B->getIterator(), deleteNode());
210 EXPECT_EQ(&A, &L.front());
211 EXPECT_EQ(&C, &L.back());
212 EXPECT_EQ(2u, L.size());
215 TEST(SimpleIListTest, eraseAndDisposeNullDeleter) {
216 simple_ilist<Node> L;
217 Node A, B, C;
218 L.push_back(A);
219 L.push_back(B);
220 L.push_back(C);
221 EXPECT_EQ(&A, &L.front());
222 EXPECT_EQ(&B, &*++L.begin());
223 EXPECT_EQ(&C, &L.back());
224 EXPECT_EQ(3u, L.size());
226 L.eraseAndDispose(B.getIterator(), doNothing);
227 EXPECT_EQ(&A, &L.front());
228 EXPECT_EQ(&C, &L.back());
229 EXPECT_EQ(2u, L.size());
232 TEST(SimpleIListTest, eraseRange) {
233 simple_ilist<Node> L;
234 Node A, B, C, D, E;
235 L.push_back(A);
236 L.push_back(B);
237 L.push_back(C);
238 L.push_back(D);
239 L.push_back(E);
240 auto I = L.begin();
241 EXPECT_EQ(&A, &*I++);
242 EXPECT_EQ(&B, &*I++);
243 EXPECT_EQ(&C, &*I++);
244 EXPECT_EQ(&D, &*I++);
245 EXPECT_EQ(&E, &*I++);
246 EXPECT_EQ(L.end(), I);
247 EXPECT_EQ(5u, L.size());
249 // Erase a range.
250 EXPECT_EQ(E.getIterator(), L.erase(B.getIterator(), E.getIterator()));
251 EXPECT_EQ(&A, &L.front());
252 EXPECT_EQ(&E, &L.back());
253 EXPECT_EQ(2u, L.size());
256 TEST(SimpleIListTest, eraseAndDisposeRange) {
257 simple_ilist<Node> L;
258 Node A, *B = new Node, *C = new Node, *D = new Node, E;
259 L.push_back(A);
260 L.push_back(*B);
261 L.push_back(*C);
262 L.push_back(*D);
263 L.push_back(E);
264 auto I = L.begin();
265 EXPECT_EQ(&A, &*I++);
266 EXPECT_EQ(B, &*I++);
267 EXPECT_EQ(C, &*I++);
268 EXPECT_EQ(D, &*I++);
269 EXPECT_EQ(&E, &*I++);
270 EXPECT_EQ(L.end(), I);
271 EXPECT_EQ(5u, L.size());
273 // Erase a range.
274 EXPECT_EQ(E.getIterator(),
275 L.eraseAndDispose(B->getIterator(), E.getIterator(), deleteNode()));
276 EXPECT_EQ(&A, &L.front());
277 EXPECT_EQ(&E, &L.back());
278 EXPECT_EQ(2u, L.size());
281 TEST(SimpleIListTest, eraseAndDisposeRangeNullDeleter) {
282 simple_ilist<Node> L;
283 Node A, B, C, D, E;
284 L.push_back(A);
285 L.push_back(B);
286 L.push_back(C);
287 L.push_back(D);
288 L.push_back(E);
289 auto I = L.begin();
290 EXPECT_EQ(&A, &*I++);
291 EXPECT_EQ(&B, &*I++);
292 EXPECT_EQ(&C, &*I++);
293 EXPECT_EQ(&D, &*I++);
294 EXPECT_EQ(&E, &*I++);
295 EXPECT_EQ(L.end(), I);
296 EXPECT_EQ(5u, L.size());
298 // Erase a range.
299 EXPECT_EQ(E.getIterator(),
300 L.eraseAndDispose(B.getIterator(), E.getIterator(), doNothing));
301 EXPECT_EQ(&A, &L.front());
302 EXPECT_EQ(&E, &L.back());
303 EXPECT_EQ(2u, L.size());
306 TEST(SimpleIListTest, clear) {
307 simple_ilist<Node> L;
308 Node A, B;
309 L.push_back(A);
310 L.push_back(B);
311 L.clear();
312 EXPECT_TRUE(L.empty());
313 EXPECT_EQ(0u, L.size());
316 TEST(SimpleIListTest, clearAndDispose) {
317 simple_ilist<Node> L;
318 Node *A = new Node;
319 Node *B = new Node;
320 L.push_back(*A);
321 L.push_back(*B);
322 L.clearAndDispose(deleteNode());
323 EXPECT_TRUE(L.empty());
324 EXPECT_EQ(0u, L.size());
327 TEST(SimpleIListTest, clearAndDisposeNullDeleter) {
328 simple_ilist<Node> L;
329 Node A, B;
330 L.push_back(A);
331 L.push_back(B);
332 L.clearAndDispose(doNothing);
333 EXPECT_TRUE(L.empty());
334 EXPECT_EQ(0u, L.size());
337 TEST(SimpleIListTest, spliceList) {
338 simple_ilist<Node> L1, L2;
339 Node A, B, C, D;
341 // [A, D].
342 L1.push_back(A);
343 L1.push_back(D);
345 // [B, C].
346 L2.push_back(B);
347 L2.push_back(C);
349 // Splice in L2, giving [A, B, C, D].
350 L1.splice(--L1.end(), L2);
351 EXPECT_TRUE(L2.empty());
352 EXPECT_EQ(4u, L1.size());
353 auto I = L1.begin();
354 EXPECT_EQ(&A, &*I++);
355 EXPECT_EQ(&B, &*I++);
356 EXPECT_EQ(&C, &*I++);
357 EXPECT_EQ(&D, &*I++);
358 EXPECT_EQ(L1.end(), I);
361 TEST(SimpleIListTest, spliceSingle) {
362 simple_ilist<Node> L1, L2;
363 Node A, B, C, D, E;
365 // [A, C].
366 L1.push_back(A);
367 L1.push_back(C);
369 // [D, B, E].
370 L2.push_back(D);
371 L2.push_back(B);
372 L2.push_back(E);
374 // Splice B from L2 to L1, giving [A, B, C] and [D, E].
375 L1.splice(--L1.end(), L2, ++L2.begin());
376 auto I = L1.begin();
377 EXPECT_EQ(&A, &*I++);
378 EXPECT_EQ(&B, &*I++);
379 EXPECT_EQ(&C, &*I++);
380 EXPECT_EQ(L1.end(), I);
382 I = L2.begin();
383 EXPECT_EQ(&D, &*I++);
384 EXPECT_EQ(&E, &*I++);
385 EXPECT_EQ(L2.end(), I);
388 TEST(SimpleIListTest, spliceRange) {
389 simple_ilist<Node> L1, L2;
390 Node A, B, C, D, E, F;
392 // [A, D].
393 L1.push_back(A);
394 L1.push_back(D);
396 // [E, B, C, F].
397 L2.push_back(E);
398 L2.push_back(B);
399 L2.push_back(C);
400 L2.push_back(F);
402 // Splice B from L2 to L1, giving [A, B, C, D] and [E, F].
403 L1.splice(--L1.end(), L2, ++L2.begin(), --L2.end());
404 auto I = L1.begin();
405 EXPECT_EQ(&A, &*I++);
406 EXPECT_EQ(&B, &*I++);
407 EXPECT_EQ(&C, &*I++);
408 EXPECT_EQ(&D, &*I++);
409 EXPECT_EQ(L1.end(), I);
411 I = L2.begin();
412 EXPECT_EQ(&E, &*I++);
413 EXPECT_EQ(&F, &*I++);
414 EXPECT_EQ(L2.end(), I);
417 TEST(SimpleIListTest, merge) {
418 for (bool IsL1LHS : {false, true}) {
419 simple_ilist<Node> L1, L2;
420 Node Ns[10];
422 // Fill L1.
423 L1.push_back(Ns[0]);
424 L1.push_back(Ns[3]);
425 L1.push_back(Ns[4]);
426 L1.push_back(Ns[8]);
428 // Fill L2.
429 L2.push_back(Ns[1]);
430 L2.push_back(Ns[2]);
431 L2.push_back(Ns[5]);
432 L2.push_back(Ns[6]);
433 L2.push_back(Ns[7]);
434 L2.push_back(Ns[9]);
436 // Check setup.
437 EXPECT_EQ(4u, L1.size());
438 EXPECT_EQ(6u, L2.size());
439 EXPECT_TRUE(std::is_sorted(L1.begin(), L1.end()));
440 EXPECT_TRUE(std::is_sorted(L2.begin(), L2.end()));
442 // Merge.
443 auto &LHS = IsL1LHS ? L1 : L2;
444 auto &RHS = IsL1LHS ? L2 : L1;
445 LHS.merge(RHS);
446 EXPECT_TRUE(RHS.empty());
447 EXPECT_FALSE(LHS.empty());
448 EXPECT_TRUE(std::is_sorted(LHS.begin(), LHS.end()));
449 auto I = LHS.begin();
450 for (Node &N : Ns)
451 EXPECT_EQ(&N, &*I++);
452 EXPECT_EQ(LHS.end(), I);
456 TEST(SimpleIListTest, mergeIsStable) {
457 simple_ilist<Node> L1, L2;
458 Node Ns[5];
460 auto setup = [&]() {
461 EXPECT_TRUE(L1.empty());
462 EXPECT_TRUE(L2.empty());
464 // Fill L1.
465 L1.push_back(Ns[0]);
466 L1.push_back(Ns[3]);
467 L1.push_back(Ns[4]);
469 // Fill L2.
470 L2.push_back(Ns[1]);
471 L2.push_back(Ns[2]);
473 // Check setup.
474 EXPECT_EQ(3u, L1.size());
475 EXPECT_EQ(2u, L2.size());
476 EXPECT_TRUE(std::is_sorted(L1.begin(), L1.end(), makeFalse));
477 EXPECT_TRUE(std::is_sorted(L2.begin(), L2.end(), makeFalse));
480 // Merge. Should be stable.
481 setup();
482 L1.merge(L2, makeFalse);
483 EXPECT_TRUE(L2.empty());
484 EXPECT_FALSE(L1.empty());
485 EXPECT_TRUE(std::is_sorted(L1.begin(), L1.end(), makeFalse));
486 auto I = L1.begin();
487 EXPECT_EQ(&Ns[0], &*I++);
488 EXPECT_EQ(&Ns[3], &*I++);
489 EXPECT_EQ(&Ns[4], &*I++);
490 EXPECT_EQ(&Ns[1], &*I++);
491 EXPECT_EQ(&Ns[2], &*I++);
492 EXPECT_EQ(L1.end(), I);
494 // Merge the other way. Should be stable.
495 L1.clear();
496 setup();
497 L2.merge(L1, makeFalse);
498 EXPECT_TRUE(L1.empty());
499 EXPECT_FALSE(L2.empty());
500 EXPECT_TRUE(std::is_sorted(L2.begin(), L2.end(), makeFalse));
501 I = L2.begin();
502 EXPECT_EQ(&Ns[1], &*I++);
503 EXPECT_EQ(&Ns[2], &*I++);
504 EXPECT_EQ(&Ns[0], &*I++);
505 EXPECT_EQ(&Ns[3], &*I++);
506 EXPECT_EQ(&Ns[4], &*I++);
507 EXPECT_EQ(L2.end(), I);
510 TEST(SimpleIListTest, mergeEmpty) {
511 for (bool IsL1LHS : {false, true}) {
512 simple_ilist<Node> L1, L2;
513 Node Ns[4];
515 // Fill L1.
516 L1.push_back(Ns[0]);
517 L1.push_back(Ns[1]);
518 L1.push_back(Ns[2]);
519 L1.push_back(Ns[3]);
521 // Check setup.
522 EXPECT_EQ(4u, L1.size());
523 EXPECT_TRUE(L2.empty());
524 EXPECT_TRUE(std::is_sorted(L1.begin(), L1.end()));
526 // Merge.
527 auto &LHS = IsL1LHS ? L1 : L2;
528 auto &RHS = IsL1LHS ? L2 : L1;
529 LHS.merge(RHS);
530 EXPECT_TRUE(RHS.empty());
531 EXPECT_FALSE(LHS.empty());
532 EXPECT_TRUE(std::is_sorted(LHS.begin(), LHS.end()));
533 auto I = LHS.begin();
534 for (Node &N : Ns)
535 EXPECT_EQ(&N, &*I++);
536 EXPECT_EQ(LHS.end(), I);
540 TEST(SimpleIListTest, mergeBothEmpty) {
541 simple_ilist<Node> L1, L2;
542 L1.merge(L2);
543 EXPECT_TRUE(L1.empty());
544 EXPECT_TRUE(L2.empty());
547 TEST(SimpleIListTest, sort) {
548 simple_ilist<Node> L;
549 Node Ns[10];
551 // Fill L.
552 for (int I : {3, 4, 0, 8, 1, 2, 6, 7, 9, 5})
553 L.push_back(Ns[I]);
555 // Check setup.
556 EXPECT_EQ(10u, L.size());
557 EXPECT_FALSE(std::is_sorted(L.begin(), L.end()));
559 // Sort.
560 L.sort();
561 EXPECT_TRUE(std::is_sorted(L.begin(), L.end()));
562 auto I = L.begin();
563 for (Node &N : Ns)
564 EXPECT_EQ(&N, &*I++);
565 EXPECT_EQ(L.end(), I);
568 TEST(SimpleIListTest, sortIsStable) {
569 simple_ilist<Node> L;
570 Node Ns[10];
572 // Compare such that nodes are partitioned but not fully sorted.
573 auto partition = [&](const Node &N) { return &N >= &Ns[5]; };
574 auto compare = [&](const Node &L, const Node &R) {
575 return partition(L) < partition(R);
578 // Fill L.
579 for (int I : {3, 4, 7, 8, 1, 2, 6, 0, 9, 5})
580 L.push_back(Ns[I]);
582 // Check setup.
583 EXPECT_EQ(10u, L.size());
584 EXPECT_FALSE(std::is_sorted(L.begin(), L.end(), compare));
586 // Sort.
587 L.sort(compare);
588 EXPECT_TRUE(std::is_sorted(L.begin(), L.end(), compare));
589 auto I = L.begin();
590 for (int O : {3, 4, 1, 2, 0})
591 EXPECT_EQ(&Ns[O], &*I++);
592 for (int O : {7, 8, 6, 9, 5})
593 EXPECT_EQ(&Ns[O], &*I++);
594 EXPECT_EQ(L.end(), I);
597 TEST(SimpleIListTest, sortEmpty) {
598 simple_ilist<Node> L;
599 L.sort();
602 struct Tag1 {};
603 struct Tag2 {};
605 struct DoubleNode : ilist_node<DoubleNode, ilist_tag<Tag1>>,
606 ilist_node<DoubleNode, ilist_tag<Tag2>> {
607 typedef ilist_node<DoubleNode, ilist_tag<Tag1>> Node1Type;
608 typedef ilist_node<DoubleNode, ilist_tag<Tag2>> Node2Type;
610 Node1Type::self_iterator getIterator1() { return Node1Type::getIterator(); }
611 Node2Type::self_iterator getIterator2() { return Node2Type::getIterator(); }
612 Node1Type::const_self_iterator getIterator1() const {
613 return Node1Type::getIterator();
615 Node2Type::const_self_iterator getIterator2() const {
616 return Node2Type::getIterator();
619 typedef simple_ilist<DoubleNode, ilist_tag<Tag1>> TaggedList1Type;
620 typedef simple_ilist<DoubleNode, ilist_tag<Tag2>> TaggedList2Type;
622 TEST(SimpleIListTest, TaggedLists) {
623 TaggedList1Type L1;
624 TaggedList2Type L2;
626 // Build the two lists, sharing a couple of nodes.
627 DoubleNode Ns[10];
628 int Order1[] = {0, 1, 2, 3, 4, 7, 9};
629 int Order2[] = {2, 5, 6, 7, 8, 4, 9, 1};
630 for (int I : Order1)
631 L1.push_back(Ns[I]);
632 for (int I : Order2)
633 L2.push_back(Ns[I]);
635 // Check that each list is correct.
636 EXPECT_EQ(sizeof(Order1) / sizeof(int), L1.size());
637 auto I1 = L1.begin();
638 for (int I : Order1) {
639 EXPECT_EQ(Ns[I].getIterator1(), I1);
640 EXPECT_EQ(&Ns[I], &*I1++);
642 EXPECT_EQ(L1.end(), I1);
644 EXPECT_EQ(sizeof(Order2) / sizeof(int), L2.size());
645 auto I2 = L2.begin();
646 for (int I : Order2) {
647 EXPECT_EQ(Ns[I].getIterator2(), I2);
648 EXPECT_EQ(&Ns[I], &*I2++);
650 EXPECT_EQ(L2.end(), I2);
653 } // end namespace