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.
4
5 #include "sync/internal_api/public/util/immutable.h"
6
7 #include <algorithm>
8 #include <cstddef>
9 #include <deque>
10 #include <list>
11 #include <set>
12 #include <string>
13 #include <vector>
14
15 #include "base/basictypes.h"
16 #include "base/memory/ref_counted.h"
17 #include "testing/gtest/include/gtest/gtest.h"
18
19 namespace syncer {
20
21 // Helper class that keeps track of the token passed in at
22 // construction and how many times that token is copied.
23 class TokenCore : public base::RefCounted<TokenCore> {
24 public:
TokenCore(const char * token)25 explicit TokenCore(const char* token) : token_(token), copy_count_(0) {}
26
GetToken() const27 const char* GetToken() const { return token_; }
28
RecordCopy()29 void RecordCopy() { ++copy_count_; }
30
GetCopyCount() const31 int GetCopyCount() const { return copy_count_; }
32
33 private:
34 friend class base::RefCounted<TokenCore>;
35
~TokenCore()36 ~TokenCore() {}
37
38 const char* const token_;
39 int copy_count_;
40 };
41
42 enum SwapBehavior {
43 USE_DEFAULT_SWAP,
44 USE_FAST_SWAP_VIA_ADL,
45 USE_FAST_SWAP_VIA_SPECIALIZATION
46 };
47
48 const char kEmptyToken[] = "<empty token>";
49
50 // Base class for various token classes, differing in swap behavior.
51 template <SwapBehavior>
52 class TokenBase {
53 public:
TokenBase()54 TokenBase() : core_(new TokenCore(kEmptyToken)) {}
55
TokenBase(const char * token)56 explicit TokenBase(const char* token) : core_(new TokenCore(token)) {}
57
TokenBase(const TokenBase & other)58 TokenBase(const TokenBase& other) : core_(other.core_) {
59 core_->RecordCopy();
60 }
61
operator =(const TokenBase & other)62 TokenBase& operator=(const TokenBase& other) {
63 core_ = other.core_;
64 core_->RecordCopy();
65 return *this;
66 }
67
GetToken() const68 const char* GetToken() const {
69 return core_->GetToken();
70 }
71
GetCopyCount() const72 int GetCopyCount() const {
73 return core_->GetCopyCount();
74 }
75
76 // For associative containers.
operator <(const TokenBase & other) const77 bool operator<(const TokenBase& other) const {
78 return std::string(GetToken()) < std::string(other.GetToken());
79 }
80
81 // STL-style swap.
swap(TokenBase & other)82 void swap(TokenBase& other) {
83 using std::swap;
84 swap(other.core_, core_);
85 }
86
87 // Google-style swap.
Swap(TokenBase * other)88 void Swap(TokenBase* other) {
89 using std::swap;
90 swap(other->core_, core_);
91 }
92
93 private:
94 scoped_refptr<TokenCore> core_;
95 };
96
97 typedef TokenBase<USE_DEFAULT_SWAP> Token;
98 typedef TokenBase<USE_FAST_SWAP_VIA_ADL> ADLToken;
99 typedef TokenBase<USE_FAST_SWAP_VIA_SPECIALIZATION> SpecializationToken;
100
swap(ADLToken & t1,ADLToken & t2)101 void swap(ADLToken& t1, ADLToken& t2) {
102 t1.Swap(&t2);
103 }
104
105 } // namespace syncer
106
107 // Allowed by the standard (17.4.3.1/1).
108 namespace std {
109
110 template <>
swap(syncer::SpecializationToken & t1,syncer::SpecializationToken & t2)111 void swap(syncer::SpecializationToken& t1,
112 syncer::SpecializationToken& t2) {
113 t1.Swap(&t2);
114 }
115
116 } // namespace
117
118 namespace syncer {
119 namespace {
120
121 class ImmutableTest : public ::testing::Test {};
122
TEST_F(ImmutableTest,Int)123 TEST_F(ImmutableTest, Int) {
124 int x = 5;
125 Immutable<int> ix(&x);
126 EXPECT_EQ(5, ix.Get());
127 EXPECT_EQ(0, x);
128 }
129
TEST_F(ImmutableTest,IntCopy)130 TEST_F(ImmutableTest, IntCopy) {
131 int x = 5;
132 Immutable<int> ix = Immutable<int>(&x);
133 EXPECT_EQ(5, ix.Get());
134 EXPECT_EQ(0, x);
135 }
136
TEST_F(ImmutableTest,IntAssign)137 TEST_F(ImmutableTest, IntAssign) {
138 int x = 5;
139 Immutable<int> ix;
140 EXPECT_EQ(0, ix.Get());
141 ix = Immutable<int>(&x);
142 EXPECT_EQ(5, ix.Get());
143 EXPECT_EQ(0, x);
144 }
145
TEST_F(ImmutableTest,IntMakeImmutable)146 TEST_F(ImmutableTest, IntMakeImmutable) {
147 int x = 5;
148 Immutable<int> ix = MakeImmutable(&x);
149 EXPECT_EQ(5, ix.Get());
150 EXPECT_EQ(0, x);
151 }
152
153 template <typename T, typename ImmutableT>
RunTokenTest(const char * token,bool expect_copies)154 void RunTokenTest(const char* token, bool expect_copies) {
155 SCOPED_TRACE(token);
156 T t(token);
157 EXPECT_EQ(token, t.GetToken());
158 EXPECT_EQ(0, t.GetCopyCount());
159
160 ImmutableT immutable_t(&t);
161 EXPECT_EQ(token, immutable_t.Get().GetToken());
162 EXPECT_EQ(kEmptyToken, t.GetToken());
163 EXPECT_EQ(expect_copies, immutable_t.Get().GetCopyCount() > 0);
164 EXPECT_EQ(expect_copies, t.GetCopyCount() > 0);
165 }
166
TEST_F(ImmutableTest,Token)167 TEST_F(ImmutableTest, Token) {
168 RunTokenTest<Token, Immutable<Token> >("Token", true /* expect_copies */);
169 }
170
TEST_F(ImmutableTest,TokenSwapMemFnByRef)171 TEST_F(ImmutableTest, TokenSwapMemFnByRef) {
172 RunTokenTest<Token, Immutable<Token, HasSwapMemFnByRef<Token> > >(
173 "TokenSwapMemFnByRef", false /* expect_copies */);
174 }
175
TEST_F(ImmutableTest,TokenSwapMemFnByPtr)176 TEST_F(ImmutableTest, TokenSwapMemFnByPtr) {
177 RunTokenTest<Token, Immutable<Token, HasSwapMemFnByPtr<Token> > >(
178 "TokenSwapMemFnByPtr", false /* expect_copies */);
179 }
180
TEST_F(ImmutableTest,ADLToken)181 TEST_F(ImmutableTest, ADLToken) {
182 RunTokenTest<ADLToken, Immutable<ADLToken> >(
183 "ADLToken", false /* expect_copies */);
184 }
185
TEST_F(ImmutableTest,SpecializationToken)186 TEST_F(ImmutableTest, SpecializationToken) {
187 RunTokenTest<SpecializationToken, Immutable<SpecializationToken> >(
188 "SpecializationToken", false /* expect_copies */);
189 }
190
191 template <typename C, typename ImmutableC>
RunTokenContainerTest(const char * token)192 void RunTokenContainerTest(const char* token) {
193 SCOPED_TRACE(token);
194 const Token tokens[] = { Token(), Token(token) };
195 const size_t token_count = arraysize(tokens);
196 C c(tokens, tokens + token_count);
197 const int copy_count = c.begin()->GetCopyCount();
198 EXPECT_GT(copy_count, 0);
199 for (typename C::const_iterator it = c.begin(); it != c.end(); ++it) {
200 EXPECT_EQ(copy_count, it->GetCopyCount());
201 }
202
203 // Make sure that making the container immutable doesn't incur any
204 // copies of the tokens.
205 ImmutableC immutable_c(&c);
206 EXPECT_TRUE(c.empty());
207 ASSERT_EQ(token_count, immutable_c.Get().size());
208 int i = 0;
209 for (typename C::const_iterator it = c.begin(); it != c.end(); ++it) {
210 EXPECT_EQ(tokens[i].GetToken(), it->GetToken());
211 EXPECT_EQ(copy_count, it->GetCopyCount());
212 ++i;
213 }
214 }
215
TEST_F(ImmutableTest,Vector)216 TEST_F(ImmutableTest, Vector) {
217 RunTokenContainerTest<std::vector<Token>, Immutable<std::vector<Token> > >(
218 "Vector");
219 }
220
TEST_F(ImmutableTest,VectorSwapMemFnByRef)221 TEST_F(ImmutableTest, VectorSwapMemFnByRef) {
222 RunTokenContainerTest<
223 std::vector<Token>,
224 Immutable<std::vector<Token>, HasSwapMemFnByRef<std::vector<Token> > > >(
225 "VectorSwapMemFnByRef");
226 }
227
228 // http://crbug.com/129128
229 #if defined(OS_WIN)
230 #define MAYBE_Deque DISABLED_Deque
231 #else
232 #define MAYBE_Deque Deque
233 #endif
TEST_F(ImmutableTest,MAYBE_Deque)234 TEST_F(ImmutableTest, MAYBE_Deque) {
235 RunTokenContainerTest<std::deque<Token>, Immutable<std::deque<Token> > >(
236 "Deque");
237 }
238
TEST_F(ImmutableTest,List)239 TEST_F(ImmutableTest, List) {
240 RunTokenContainerTest<std::list<Token>, Immutable<std::list<Token> > >(
241 "List");
242 }
243
TEST_F(ImmutableTest,Set)244 TEST_F(ImmutableTest, Set) {
245 RunTokenContainerTest<std::set<Token>, Immutable<std::set<Token> > >(
246 "Set");
247 }
248
249 } // namespace
250 } // namespace syncer
251