[ARM] MVE big endian loads/stores
[llvm-complete.git] / unittests / ADT / IListTest.cpp
blob18f6c41a64807636d32bd9613631db5dbd646583
1 //===- unittests/ADT/IListTest.cpp - 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/ilist.h"
10 #include "llvm/ADT/STLExtras.h"
11 #include "llvm/ADT/ilist_node.h"
12 #include "gtest/gtest.h"
13 #include <ostream>
15 using namespace llvm;
17 namespace {
19 struct Node : ilist_node<Node> {
20 int Value;
22 Node() {}
23 Node(int Value) : Value(Value) {}
24 Node(const Node&) = default;
25 ~Node() { Value = -1; }
28 TEST(IListTest, Basic) {
29 ilist<Node> List;
30 List.push_back(new Node(1));
31 EXPECT_EQ(1, List.back().Value);
32 EXPECT_EQ(nullptr, List.getPrevNode(List.back()));
33 EXPECT_EQ(nullptr, List.getNextNode(List.back()));
35 List.push_back(new Node(2));
36 EXPECT_EQ(2, List.back().Value);
37 EXPECT_EQ(2, List.getNextNode(List.front())->Value);
38 EXPECT_EQ(1, List.getPrevNode(List.back())->Value);
40 const ilist<Node> &ConstList = List;
41 EXPECT_EQ(2, ConstList.back().Value);
42 EXPECT_EQ(2, ConstList.getNextNode(ConstList.front())->Value);
43 EXPECT_EQ(1, ConstList.getPrevNode(ConstList.back())->Value);
46 TEST(IListTest, cloneFrom) {
47 Node L1Nodes[] = {Node(0), Node(1)};
48 Node L2Nodes[] = {Node(0), Node(1)};
49 ilist<Node> L1, L2, L3;
51 // Build L1 from L1Nodes.
52 L1.push_back(&L1Nodes[0]);
53 L1.push_back(&L1Nodes[1]);
55 // Build L2 from L2Nodes, based on L1 nodes.
56 L2.cloneFrom(L1, [&](const Node &N) { return &L2Nodes[N.Value]; });
58 // Add a node to L3 to be deleted, and then rebuild L3 by copying L1.
59 L3.push_back(new Node(7));
60 L3.cloneFrom(L1, [](const Node &N) { return new Node(N); });
62 EXPECT_EQ(2u, L1.size());
63 EXPECT_EQ(&L1Nodes[0], &L1.front());
64 EXPECT_EQ(&L1Nodes[1], &L1.back());
65 EXPECT_EQ(2u, L2.size());
66 EXPECT_EQ(&L2Nodes[0], &L2.front());
67 EXPECT_EQ(&L2Nodes[1], &L2.back());
68 EXPECT_EQ(2u, L3.size());
69 EXPECT_EQ(0, L3.front().Value);
70 EXPECT_EQ(1, L3.back().Value);
72 // Don't free nodes on the stack.
73 L1.clearAndLeakNodesUnsafely();
74 L2.clearAndLeakNodesUnsafely();
77 TEST(IListTest, SpliceOne) {
78 ilist<Node> List;
79 List.push_back(new Node(1));
81 // The single-element splice operation supports noops.
82 List.splice(List.begin(), List, List.begin());
83 EXPECT_EQ(1u, List.size());
84 EXPECT_EQ(1, List.front().Value);
85 EXPECT_TRUE(std::next(List.begin()) == List.end());
87 // Altenative noop. Move the first element behind itself.
88 List.push_back(new Node(2));
89 List.push_back(new Node(3));
90 List.splice(std::next(List.begin()), List, List.begin());
91 EXPECT_EQ(3u, List.size());
92 EXPECT_EQ(1, List.front().Value);
93 EXPECT_EQ(2, std::next(List.begin())->Value);
94 EXPECT_EQ(3, List.back().Value);
97 TEST(IListTest, SpliceSwap) {
98 ilist<Node> L;
99 Node N0(0);
100 Node N1(1);
101 L.insert(L.end(), &N0);
102 L.insert(L.end(), &N1);
103 EXPECT_EQ(0, L.front().Value);
104 EXPECT_EQ(1, L.back().Value);
106 L.splice(L.begin(), L, ++L.begin());
107 EXPECT_EQ(1, L.front().Value);
108 EXPECT_EQ(0, L.back().Value);
110 L.clearAndLeakNodesUnsafely();
113 TEST(IListTest, SpliceSwapOtherWay) {
114 ilist<Node> L;
115 Node N0(0);
116 Node N1(1);
117 L.insert(L.end(), &N0);
118 L.insert(L.end(), &N1);
119 EXPECT_EQ(0, L.front().Value);
120 EXPECT_EQ(1, L.back().Value);
122 L.splice(L.end(), L, L.begin());
123 EXPECT_EQ(1, L.front().Value);
124 EXPECT_EQ(0, L.back().Value);
126 L.clearAndLeakNodesUnsafely();
129 TEST(IListTest, UnsafeClear) {
130 ilist<Node> List;
132 // Before even allocating a sentinel.
133 List.clearAndLeakNodesUnsafely();
134 EXPECT_EQ(0u, List.size());
136 // Empty list with sentinel.
137 ilist<Node>::iterator E = List.end();
138 List.clearAndLeakNodesUnsafely();
139 EXPECT_EQ(0u, List.size());
140 // The sentinel shouldn't change.
141 EXPECT_TRUE(E == List.end());
143 // List with contents.
144 List.push_back(new Node(1));
145 ASSERT_EQ(1u, List.size());
146 Node *N = &*List.begin();
147 EXPECT_EQ(1, N->Value);
148 List.clearAndLeakNodesUnsafely();
149 EXPECT_EQ(0u, List.size());
150 ASSERT_EQ(1, N->Value);
151 delete N;
153 // List is still functional.
154 List.push_back(new Node(5));
155 List.push_back(new Node(6));
156 ASSERT_EQ(2u, List.size());
157 EXPECT_EQ(5, List.front().Value);
158 EXPECT_EQ(6, List.back().Value);
161 struct Empty {};
162 TEST(IListTest, HasObsoleteCustomizationTrait) {
163 // Negative test for HasObsoleteCustomization.
164 static_assert(!ilist_detail::HasObsoleteCustomization<Empty, Node>::value,
165 "Empty has no customizations");
168 struct GetNext {
169 Node *getNext(Node *);
171 TEST(IListTest, HasGetNextTrait) {
172 static_assert(ilist_detail::HasGetNext<GetNext, Node>::value,
173 "GetNext has a getNext(Node*)");
174 static_assert(ilist_detail::HasObsoleteCustomization<GetNext, Node>::value,
175 "Empty should be obsolete because of getNext()");
177 // Negative test for HasGetNext.
178 static_assert(!ilist_detail::HasGetNext<Empty, Node>::value,
179 "Empty does not have a getNext(Node*)");
182 struct CreateSentinel {
183 Node *createSentinel();
185 TEST(IListTest, HasCreateSentinelTrait) {
186 static_assert(ilist_detail::HasCreateSentinel<CreateSentinel>::value,
187 "CreateSentinel has a getNext(Node*)");
188 static_assert(
189 ilist_detail::HasObsoleteCustomization<CreateSentinel, Node>::value,
190 "Empty should be obsolete because of createSentinel()");
192 // Negative test for HasCreateSentinel.
193 static_assert(!ilist_detail::HasCreateSentinel<Empty>::value,
194 "Empty does not have a createSentinel()");
197 struct NodeWithCallback : ilist_node<NodeWithCallback> {
198 int Value = 0;
199 bool IsInList = false;
200 bool WasTransferred = false;
202 NodeWithCallback() = default;
203 NodeWithCallback(int Value) : Value(Value) {}
204 NodeWithCallback(const NodeWithCallback &) = delete;
207 } // end namespace
209 namespace llvm {
210 // These nodes are stack-allocated for testing purposes, so don't let the ilist
211 // own or delete them.
212 template <> struct ilist_alloc_traits<NodeWithCallback> {
213 static void deleteNode(NodeWithCallback *) {}
216 template <> struct ilist_callback_traits<NodeWithCallback> {
217 void addNodeToList(NodeWithCallback *N) { N->IsInList = true; }
218 void removeNodeFromList(NodeWithCallback *N) { N->IsInList = false; }
219 template <class Iterator>
220 void transferNodesFromList(ilist_callback_traits &Other, Iterator First,
221 Iterator Last) {
222 for (; First != Last; ++First) {
223 First->WasTransferred = true;
224 Other.removeNodeFromList(&*First);
225 addNodeToList(&*First);
229 } // end namespace llvm
231 namespace {
233 TEST(IListTest, addNodeToList) {
234 ilist<NodeWithCallback> L1, L2;
235 NodeWithCallback N(7);
236 ASSERT_FALSE(N.IsInList);
237 ASSERT_FALSE(N.WasTransferred);
239 L1.insert(L1.begin(), &N);
240 ASSERT_EQ(1u, L1.size());
241 ASSERT_EQ(&N, &L1.front());
242 ASSERT_TRUE(N.IsInList);
243 ASSERT_FALSE(N.WasTransferred);
245 L2.splice(L2.end(), L1);
246 ASSERT_EQ(&N, &L2.front());
247 ASSERT_TRUE(N.IsInList);
248 ASSERT_TRUE(N.WasTransferred);
250 L1.remove(&N);
251 ASSERT_EQ(0u, L1.size());
252 ASSERT_FALSE(N.IsInList);
253 ASSERT_TRUE(N.WasTransferred);
256 TEST(IListTest, sameListSplice) {
257 NodeWithCallback N1(1);
258 NodeWithCallback N2(2);
259 ASSERT_FALSE(N1.WasTransferred);
260 ASSERT_FALSE(N2.WasTransferred);
262 ilist<NodeWithCallback> L1;
263 L1.insert(L1.end(), &N1);
264 L1.insert(L1.end(), &N2);
265 ASSERT_EQ(2u, L1.size());
266 ASSERT_EQ(&N1, &L1.front());
267 ASSERT_FALSE(N1.WasTransferred);
268 ASSERT_FALSE(N2.WasTransferred);
270 // Swap the nodes with splice inside the same list. Check that we get the
271 // transfer callback.
272 L1.splice(L1.begin(), L1, std::next(L1.begin()), L1.end());
273 ASSERT_EQ(2u, L1.size());
274 ASSERT_EQ(&N1, &L1.back());
275 ASSERT_EQ(&N2, &L1.front());
276 ASSERT_FALSE(N1.WasTransferred);
277 ASSERT_TRUE(N2.WasTransferred);
280 struct PrivateNode : private ilist_node<PrivateNode> {
281 friend struct llvm::ilist_detail::NodeAccess;
283 int Value = 0;
285 PrivateNode() = default;
286 PrivateNode(int Value) : Value(Value) {}
287 PrivateNode(const PrivateNode &) = delete;
290 TEST(IListTest, privateNode) {
291 // Instantiate various APIs to be sure they're callable when ilist_node is
292 // inherited privately.
293 ilist<PrivateNode> L;
294 PrivateNode N(7);
295 L.insert(L.begin(), &N);
296 ++L.begin();
297 (void)*L.begin();
298 (void)(L.begin() == L.end());
300 ilist<PrivateNode> L2;
301 L2.splice(L2.end(), L);
302 L2.remove(&N);
305 } // end namespace