Supervised user whitelists: Cleanup
[chromium-blink-merge.git] / ui / accessibility / ax_tree_serializer_unittest.cc
blob733e289f0f5616107caa42c11d1d721db561a5c2
1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "base/memory/scoped_ptr.h"
6 #include "base/strings/string_number_conversions.h"
7 #include "testing/gtest/include/gtest/gtest.h"
8 #include "ui/accessibility/ax_node.h"
9 #include "ui/accessibility/ax_serializable_tree.h"
10 #include "ui/accessibility/ax_tree.h"
11 #include "ui/accessibility/ax_tree_serializer.h"
13 namespace ui {
15 // The framework for these tests is that each test sets up |treedata0_|
16 // and |treedata1_| and then calls GetTreeSerializer, which creates a
17 // serializer for a tree that's initially in state |treedata0_|, but then
18 // changes to state |treedata1_|. This allows each test to check the
19 // updates created by AXTreeSerializer or unit-test its private
20 // member functions.
21 class AXTreeSerializerTest : public testing::Test {
22 public:
23 AXTreeSerializerTest() {}
24 ~AXTreeSerializerTest() override {}
26 protected:
27 void CreateTreeSerializer();
29 AXTreeUpdate treedata0_;
30 AXTreeUpdate treedata1_;
31 scoped_ptr<AXSerializableTree> tree0_;
32 scoped_ptr<AXSerializableTree> tree1_;
33 scoped_ptr<AXTreeSource<const AXNode*> > tree0_source_;
34 scoped_ptr<AXTreeSource<const AXNode*> > tree1_source_;
35 scoped_ptr<AXTreeSerializer<const AXNode*> > serializer_;
37 private:
38 DISALLOW_COPY_AND_ASSIGN(AXTreeSerializerTest);
41 void AXTreeSerializerTest::CreateTreeSerializer() {
42 if (serializer_)
43 return;
45 tree0_.reset(new AXSerializableTree(treedata0_));
46 tree1_.reset(new AXSerializableTree(treedata1_));
48 // Serialize tree0 so that AXTreeSerializer thinks that its client
49 // is totally in sync.
50 tree0_source_.reset(tree0_->CreateTreeSource());
51 serializer_.reset(new AXTreeSerializer<const AXNode*>(tree0_source_.get()));
52 AXTreeUpdate unused_update;
53 serializer_->SerializeChanges(tree0_->root(), &unused_update);
55 // Pretend that tree0_ turned into tree1_. The next call to
56 // AXTreeSerializer will force it to consider these changes to
57 // the tree and send them as part of the next update.
58 tree1_source_.reset(tree1_->CreateTreeSource());
59 serializer_->ChangeTreeSourceForTesting(tree1_source_.get());
62 // In this test, one child is added to the root. Only the root and
63 // new child should be added.
64 TEST_F(AXTreeSerializerTest, UpdateContainsOnlyChangedNodes) {
65 // (1 (2 3))
66 treedata0_.nodes.resize(3);
67 treedata0_.nodes[0].id = 1;
68 treedata0_.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
69 treedata0_.nodes[0].child_ids.push_back(2);
70 treedata0_.nodes[0].child_ids.push_back(3);
71 treedata0_.nodes[1].id = 2;
72 treedata0_.nodes[2].id = 3;
74 // (1 (4 2 3))
75 treedata1_.nodes.resize(4);
76 treedata1_.nodes[0].id = 1;
77 treedata1_.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
78 treedata1_.nodes[0].child_ids.push_back(4);
79 treedata1_.nodes[0].child_ids.push_back(2);
80 treedata1_.nodes[0].child_ids.push_back(3);
81 treedata1_.nodes[1].id = 2;
82 treedata1_.nodes[2].id = 3;
83 treedata1_.nodes[3].id = 4;
85 CreateTreeSerializer();
86 AXTreeUpdate update;
87 serializer_->SerializeChanges(tree1_->GetFromId(1), &update);
89 // The update should only touch nodes 1 and 4 - nodes 2 and 3 are unchanged
90 // and shouldn't be affected.
91 EXPECT_EQ(0, update.node_id_to_clear);
92 ASSERT_EQ(static_cast<size_t>(2), update.nodes.size());
93 EXPECT_EQ(1, update.nodes[0].id);
94 EXPECT_EQ(4, update.nodes[1].id);
97 // When the root changes, the whole tree is updated, even if some of it
98 // is unaffected.
99 TEST_F(AXTreeSerializerTest, NewRootUpdatesEntireTree) {
100 // (1 (2 (3 (4))))
101 treedata0_.nodes.resize(4);
102 treedata0_.nodes[0].id = 1;
103 treedata0_.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
104 treedata0_.nodes[0].child_ids.push_back(2);
105 treedata0_.nodes[1].id = 2;
106 treedata0_.nodes[1].child_ids.push_back(3);
107 treedata0_.nodes[2].id = 3;
108 treedata0_.nodes[2].child_ids.push_back(4);
109 treedata0_.nodes[3].id = 4;
111 // (5 (2 (3 (4))))
112 treedata1_.nodes.resize(4);
113 treedata1_.nodes[0].id = 5;
114 treedata1_.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
115 treedata1_.nodes[0].child_ids.push_back(2);
116 treedata1_.nodes[1].id = 2;
117 treedata1_.nodes[1].child_ids.push_back(3);
118 treedata1_.nodes[2].id = 3;
119 treedata1_.nodes[2].child_ids.push_back(4);
120 treedata1_.nodes[3].id = 4;
122 CreateTreeSerializer();
123 AXTreeUpdate update;
124 serializer_->SerializeChanges(tree1_->GetFromId(4), &update);
126 // The update should delete the subtree rooted at node id=1, and
127 // then include all four nodes in the update, even though the
128 // subtree rooted at id=2 didn't actually change.
129 EXPECT_EQ(1, update.node_id_to_clear);
130 ASSERT_EQ(static_cast<size_t>(4), update.nodes.size());
131 EXPECT_EQ(5, update.nodes[0].id);
132 EXPECT_EQ(2, update.nodes[1].id);
133 EXPECT_EQ(3, update.nodes[2].id);
134 EXPECT_EQ(4, update.nodes[3].id);
137 // When a node is reparented, the subtree including both the old parent
138 // and new parent of the reparented node must be deleted and recreated.
139 TEST_F(AXTreeSerializerTest, ReparentingUpdatesSubtree) {
140 // (1 (2 (3 (4) 5)))
141 treedata0_.nodes.resize(5);
142 treedata0_.nodes[0].id = 1;
143 treedata0_.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
144 treedata0_.nodes[0].child_ids.push_back(2);
145 treedata0_.nodes[1].id = 2;
146 treedata0_.nodes[1].child_ids.push_back(3);
147 treedata0_.nodes[1].child_ids.push_back(5);
148 treedata0_.nodes[2].id = 3;
149 treedata0_.nodes[2].child_ids.push_back(4);
150 treedata0_.nodes[3].id = 4;
151 treedata0_.nodes[4].id = 5;
153 // Node 5 has been reparented from being a child of node 2,
154 // to a child of node 4.
155 // (1 (2 (3 (4 (5)))))
156 treedata1_.nodes.resize(5);
157 treedata1_.nodes[0].id = 1;
158 treedata1_.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
159 treedata1_.nodes[0].child_ids.push_back(2);
160 treedata1_.nodes[1].id = 2;
161 treedata1_.nodes[1].child_ids.push_back(3);
162 treedata1_.nodes[2].id = 3;
163 treedata1_.nodes[2].child_ids.push_back(4);
164 treedata1_.nodes[3].id = 4;
165 treedata1_.nodes[3].child_ids.push_back(5);
166 treedata1_.nodes[4].id = 5;
168 CreateTreeSerializer();
169 AXTreeUpdate update;
170 serializer_->SerializeChanges(tree1_->GetFromId(4), &update);
172 // The update should delete the subtree rooted at node id=2, and
173 // then include nodes 2...5.
174 EXPECT_EQ(2, update.node_id_to_clear);
175 ASSERT_EQ(static_cast<size_t>(4), update.nodes.size());
176 EXPECT_EQ(2, update.nodes[0].id);
177 EXPECT_EQ(3, update.nodes[1].id);
178 EXPECT_EQ(4, update.nodes[2].id);
179 EXPECT_EQ(5, update.nodes[3].id);
182 } // namespace ui