We started redesigning GpuMemoryBuffer interface to handle multiple buffers [0].
[chromium-blink-merge.git] / sync / syncable / model_type_unittest.cc
blob2869f315f5617e286fe3908d7dd40f016b6b95fe
1 // Copyright (c) 2012 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 "sync/internal_api/public/base/model_type.h"
7 #include <string>
9 #include "base/memory/scoped_ptr.h"
10 #include "base/test/values_test_util.h"
11 #include "base/values.h"
12 #include "sync/protocol/sync.pb.h"
13 #include "testing/gtest/include/gtest/gtest.h"
15 namespace syncer {
16 namespace {
18 class ModelTypeTest : public testing::Test {};
20 TEST_F(ModelTypeTest, ModelTypeToValue) {
21 for (int i = FIRST_REAL_MODEL_TYPE; i < MODEL_TYPE_COUNT; ++i) {
22 ModelType model_type = ModelTypeFromInt(i);
23 base::ExpectStringValue(ModelTypeToString(model_type),
24 ModelTypeToValue(model_type));
26 base::ExpectStringValue("Top-level folder",
27 ModelTypeToValue(TOP_LEVEL_FOLDER));
28 base::ExpectStringValue("Unspecified",
29 ModelTypeToValue(UNSPECIFIED));
32 TEST_F(ModelTypeTest, ModelTypeFromValue) {
33 for (int i = FIRST_REAL_MODEL_TYPE; i < MODEL_TYPE_COUNT; ++i) {
34 ModelType model_type = ModelTypeFromInt(i);
35 scoped_ptr<base::StringValue> value(ModelTypeToValue(model_type));
36 EXPECT_EQ(model_type, ModelTypeFromValue(*value));
40 TEST_F(ModelTypeTest, ModelTypeSetToValue) {
41 const ModelTypeSet model_types(BOOKMARKS, APPS);
43 scoped_ptr<base::ListValue> value(ModelTypeSetToValue(model_types));
44 EXPECT_EQ(2u, value->GetSize());
45 std::string types[2];
46 EXPECT_TRUE(value->GetString(0, &types[0]));
47 EXPECT_TRUE(value->GetString(1, &types[1]));
48 EXPECT_EQ("Bookmarks", types[0]);
49 EXPECT_EQ("Apps", types[1]);
52 TEST_F(ModelTypeTest, ModelTypeSetFromValue) {
53 // Try empty set first.
54 ModelTypeSet model_types;
55 scoped_ptr<base::ListValue> value(ModelTypeSetToValue(model_types));
56 EXPECT_TRUE(model_types.Equals(ModelTypeSetFromValue(*value)));
58 // Now try with a few random types.
59 model_types.Put(BOOKMARKS);
60 model_types.Put(APPS);
61 value.reset(ModelTypeSetToValue(model_types));
62 EXPECT_TRUE(model_types.Equals(ModelTypeSetFromValue(*value)));
65 TEST_F(ModelTypeTest, IsRealDataType) {
66 EXPECT_FALSE(IsRealDataType(UNSPECIFIED));
67 EXPECT_FALSE(IsRealDataType(MODEL_TYPE_COUNT));
68 EXPECT_FALSE(IsRealDataType(TOP_LEVEL_FOLDER));
69 EXPECT_TRUE(IsRealDataType(FIRST_REAL_MODEL_TYPE));
70 EXPECT_TRUE(IsRealDataType(BOOKMARKS));
71 EXPECT_TRUE(IsRealDataType(APPS));
74 TEST_F(ModelTypeTest, IsProxyType) {
75 EXPECT_FALSE(IsProxyType(BOOKMARKS));
76 EXPECT_FALSE(IsProxyType(MODEL_TYPE_COUNT));
77 EXPECT_TRUE(IsProxyType(PROXY_TABS));
80 // Make sure we can convert ModelTypes to and from specifics field
81 // numbers.
82 TEST_F(ModelTypeTest, ModelTypeToFromSpecificsFieldNumber) {
83 ModelTypeSet protocol_types = ProtocolTypes();
84 for (ModelTypeSet::Iterator iter = protocol_types.First(); iter.Good();
85 iter.Inc()) {
86 int field_number = GetSpecificsFieldNumberFromModelType(iter.Get());
87 EXPECT_EQ(iter.Get(),
88 GetModelTypeFromSpecificsFieldNumber(field_number));
92 TEST_F(ModelTypeTest, ModelTypeOfInvalidSpecificsFieldNumber) {
93 EXPECT_EQ(UNSPECIFIED, GetModelTypeFromSpecificsFieldNumber(0));
96 TEST_F(ModelTypeTest, ModelTypeHistogramMapping) {
97 std::set<int> histogram_values;
98 ModelTypeSet all_types = ModelTypeSet::All();
99 for (ModelTypeSet::Iterator it = all_types.First(); it.Good(); it.Inc()) {
100 SCOPED_TRACE(ModelTypeToString(it.Get()));
101 int histogram_value = ModelTypeToHistogramInt(it.Get());
103 EXPECT_TRUE(histogram_values.insert(histogram_value).second)
104 << "Expected histogram values to be unique";
106 // This is not necessary for the mapping to be valid, but most instances of
107 // UMA_HISTOGRAM that use this mapping specify MODEL_TYPE_COUNT as the
108 // maximum possible value. If you break this assumption, you should update
109 // those histograms.
110 EXPECT_LT(histogram_value, MODEL_TYPE_COUNT);
114 TEST_F(ModelTypeTest, ModelTypeSetFromString) {
115 syncer::ModelTypeSet empty;
116 syncer::ModelTypeSet one(BOOKMARKS);
117 syncer::ModelTypeSet two(BOOKMARKS, TYPED_URLS);
119 EXPECT_TRUE(
120 empty.Equals(ModelTypeSetFromString(ModelTypeSetToString(empty))));
121 EXPECT_TRUE(
122 one.Equals(ModelTypeSetFromString(ModelTypeSetToString(one))));
123 EXPECT_TRUE(
124 two.Equals(ModelTypeSetFromString(ModelTypeSetToString(two))));
127 TEST_F(ModelTypeTest, DefaultFieldValues) {
128 syncer::ModelTypeSet types = syncer::ProtocolTypes();
129 for (ModelTypeSet::Iterator it = types.First(); it.Good(); it.Inc()) {
130 SCOPED_TRACE(ModelTypeToString(it.Get()));
132 sync_pb::EntitySpecifics specifics;
133 syncer::AddDefaultFieldValue(it.Get(), &specifics);
134 EXPECT_TRUE(specifics.IsInitialized());
136 std::string tmp;
137 EXPECT_TRUE(specifics.SerializeToString(&tmp));
139 sync_pb::EntitySpecifics from_string;
140 EXPECT_TRUE(from_string.ParseFromString(tmp));
141 EXPECT_TRUE(from_string.IsInitialized());
143 EXPECT_EQ(it.Get(), syncer::GetModelTypeFromSpecifics(from_string));
147 } // namespace
148 } // namespace syncer