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1 // Protocol Buffers - Google's data interchange format
2 // Copyright 2008 Google Inc.  All rights reserved.
3 // https://developers.google.com/protocol-buffers/
4 //
5 // Redistribution and use in source and binary forms, with or without
6 // modification, are permitted provided that the following conditions are
7 // met:
8 //
9 //     * Redistributions of source code must retain the above copyright
10 // notice, this list of conditions and the following disclaimer.
11 //     * Redistributions in binary form must reproduce the above
12 // copyright notice, this list of conditions and the following disclaimer
13 // in the documentation and/or other materials provided with the
14 // distribution.
15 //     * Neither the name of Google Inc. nor the names of its
16 // contributors may be used to endorse or promote products derived from
17 // this software without specific prior written permission.
18 //
19 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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30 
31 // A hack to include windows.h first, which ensures the GetMessage macro can
32 // be undefined when we include <google/protobuf/stubs/common.h>
33 #if defined(_WIN32)
34 #define _WINSOCKAPI_  // to avoid re-definition in WinSock2.h
35 #define NOMINMAX      // to avoid defining min/max macros
36 #include <windows.h>
37 #endif  // _WIN32
38 
39 #include <algorithm>
40 #include <google/protobuf/stubs/hash.h>
41 #include <map>
42 #include <memory>
43 #ifndef _SHARED_PTR_H
44 #include <google/protobuf/stubs/shared_ptr.h>
45 #endif
46 #include <set>
47 #include <sstream>
48 #include <vector>
49 
50 #include <google/protobuf/stubs/casts.h>
51 #include <google/protobuf/stubs/logging.h>
52 #include <google/protobuf/stubs/common.h>
53 #include <google/protobuf/stubs/scoped_ptr.h>
54 #include <google/protobuf/stubs/stringprintf.h>
55 #include <google/protobuf/testing/file.h>
56 #include <google/protobuf/arena_test_util.h>
57 #include <google/protobuf/map_proto2_unittest.pb.h>
58 #include <google/protobuf/map_unittest.pb.h>
59 #include <google/protobuf/map_test_util.h>
60 #include <google/protobuf/test_util.h>
61 #include <google/protobuf/unittest.pb.h>
62 #include <google/protobuf/descriptor.pb.h>
63 #include <google/protobuf/descriptor.h>
64 #include <google/protobuf/descriptor_database.h>
65 #include <google/protobuf/dynamic_message.h>
66 #include <google/protobuf/map.h>
67 #include <google/protobuf/map_field_inl.h>
68 #include <google/protobuf/message.h>
69 #include <google/protobuf/reflection.h>
70 #include <google/protobuf/reflection_ops.h>
71 #include <google/protobuf/text_format.h>
72 #include <google/protobuf/wire_format.h>
73 #include <google/protobuf/wire_format_lite_inl.h>
74 #include <google/protobuf/io/coded_stream.h>
75 #include <google/protobuf/io/tokenizer.h>
76 #include <google/protobuf/io/zero_copy_stream_impl.h>
77 #include <google/protobuf/util/time_util.h>
78 #include <google/protobuf/stubs/strutil.h>
79 #include <google/protobuf/stubs/substitute.h>
80 #include <google/protobuf/testing/googletest.h>
81 #include <gtest/gtest.h>
82 
83 namespace google {
84 
85 using google::protobuf::unittest::ForeignMessage;
86 using google::protobuf::unittest::TestAllTypes;
87 using google::protobuf::unittest::TestMap;
88 using google::protobuf::unittest::TestRecursiveMapMessage;
89 
90 namespace protobuf {
91 namespace internal {
92 
93 // Map API Test =====================================================
94 
95 // Parameterized tests on whether to use old style maps.
96 class MapImplTest : public testing::TestWithParam<bool> {
97  protected:
MapImplTest()98   MapImplTest()
99       : map_ptr_(new Map<int32, int32>(GetParam())),
100         map_(*map_ptr_),
101         const_map_(*map_ptr_) {
102     EXPECT_TRUE(map_.empty());
103     EXPECT_EQ(0, map_.size());
104   }
~MapImplTest()105   ~MapImplTest() {}
106 
ExpectSingleElement(int32 key,int32 value)107   void ExpectSingleElement(int32 key, int32 value) {
108     EXPECT_FALSE(map_.empty());
109     EXPECT_EQ(1, map_.size());
110     ExpectElement(key, value);
111   }
112 
ExpectElements(const std::map<int32,int32> & map)113   void ExpectElements(const std::map<int32, int32>& map) {
114     EXPECT_FALSE(map_.empty());
115     EXPECT_EQ(map.size(), map_.size());
116     for (std::map<int32, int32>::const_iterator it = map.begin();
117          it != map.end(); ++it) {
118       ExpectElement(it->first, it->second);
119     }
120   }
121 
ExpectElement(int32 key,int32 value)122   void ExpectElement(int32 key, int32 value) {
123     // Test map size is correct.
124     EXPECT_EQ(value, map_[key]);
125     EXPECT_EQ(1, map_.count(key));
126 
127     // Check mutable at and find work correctly.
128     EXPECT_EQ(value, map_.at(key));
129     Map<int32, int32>::iterator it = map_.find(key);
130 
131     // interator dereferenceable
132     EXPECT_EQ(key,   (*it).first);
133     EXPECT_EQ(value, (*it).second);
134     EXPECT_EQ(key,   it->first);
135     EXPECT_EQ(value, it->second);
136 
137     // iterator mutable
138     ((*it).second) = value + 1;
139     EXPECT_EQ(value + 1, map_[key]);
140     ((*it).second) = value;
141     EXPECT_EQ(value, map_[key]);
142 
143     it->second = value + 1;
144     EXPECT_EQ(value + 1, map_[key]);
145     it->second = value;
146     EXPECT_EQ(value, map_[key]);
147 
148     // copy constructor
149     Map<int32, int32>::iterator it_copy = it;
150     EXPECT_EQ(key, it_copy->first);
151     EXPECT_EQ(value, it_copy->second);
152 
153     // Immutable API ================================================
154 
155     // Check immutable at and find work correctly.
156     EXPECT_EQ(value, const_map_.at(key));
157     Map<int32, int32>::const_iterator const_it = const_map_.find(key);
158 
159     // interator dereferenceable
160     EXPECT_EQ(key, (*const_it).first);
161     EXPECT_EQ(value, (*const_it).second);
162     EXPECT_EQ(key, const_it->first);
163     EXPECT_EQ(value, const_it->second);
164 
165     // copy constructor
166     Map<int32, int32>::const_iterator const_it_copy = const_it;
167     EXPECT_EQ(key, const_it_copy->first);
168     EXPECT_EQ(value, const_it_copy->second);
169   }
170 
171   google::protobuf::scoped_ptr<Map<int32, int32> > map_ptr_;
172   Map<int32, int32>& map_;
173   const Map<int32, int32>& const_map_;
174 };
175 
TEST_P(MapImplTest,OperatorBracket)176 TEST_P(MapImplTest, OperatorBracket) {
177   int32 key = 0;
178   int32 value1 = 100;
179   int32 value2 = 101;
180 
181   EXPECT_EQ(0, map_[key]);
182 
183   map_[key] = value1;
184   ExpectSingleElement(key, value1);
185 
186   map_[key] = value2;
187   ExpectSingleElement(key, value2);
188 }
189 
TEST_P(MapImplTest,OperatorBracketNonExist)190 TEST_P(MapImplTest, OperatorBracketNonExist) {
191   int32 key = 0;
192   int32 default_value = 0;
193 
194   EXPECT_EQ(default_value, map_[key]);
195   ExpectSingleElement(key, default_value);
196 }
197 
TEST_P(MapImplTest,MutableAt)198 TEST_P(MapImplTest, MutableAt) {
199   int32 key = 0;
200   int32 value1 = 100;
201   int32 value2 = 101;
202 
203   map_[key] = value1;
204   ExpectSingleElement(key, value1);
205 
206   map_.at(key) = value2;
207   ExpectSingleElement(key, value2);
208 }
209 
210 #ifdef PROTOBUF_HAS_DEATH_TEST
211 
TEST_P(MapImplTest,MutableAtNonExistDeathTest)212 TEST_P(MapImplTest, MutableAtNonExistDeathTest) {
213   EXPECT_DEATH(map_.at(0), "");
214 }
215 
TEST_P(MapImplTest,ImmutableAtNonExistDeathTest)216 TEST_P(MapImplTest, ImmutableAtNonExistDeathTest) {
217   EXPECT_DEATH(const_map_.at(0), "");
218 }
219 
TEST_P(MapImplTest,UsageErrors)220 TEST_P(MapImplTest, UsageErrors) {
221   MapKey key;
222   key.SetInt64Value(1);
223   EXPECT_DEATH(key.GetUInt64Value(),
224                "Protocol Buffer map usage error:\n"
225                "MapKey::GetUInt64Value type does not match\n"
226                "  Expected : uint64\n"
227                "  Actual   : int64");
228 
229   MapValueRef value;
230   EXPECT_DEATH(value.SetFloatValue(0.1),
231                "Protocol Buffer map usage error:\n"
232                "MapValueRef::type MapValueRef is not initialized.");
233 }
234 
235 #endif  // PROTOBUF_HAS_DEATH_TEST
236 
TEST_P(MapImplTest,CountNonExist)237 TEST_P(MapImplTest, CountNonExist) {
238   EXPECT_EQ(0, map_.count(0));
239 }
240 
TEST_P(MapImplTest,MutableFindNonExist)241 TEST_P(MapImplTest, MutableFindNonExist) {
242   EXPECT_TRUE(map_.end() == map_.find(0));
243 }
244 
TEST_P(MapImplTest,ImmutableFindNonExist)245 TEST_P(MapImplTest, ImmutableFindNonExist) {
246   EXPECT_TRUE(const_map_.end() == const_map_.find(0));
247 }
248 
TEST_P(MapImplTest,ConstEnd)249 TEST_P(MapImplTest, ConstEnd) {
250   EXPECT_TRUE(const_map_.end() == const_map_.cend());
251 }
252 
TEST_P(MapImplTest,GetReferenceFromIterator)253 TEST_P(MapImplTest, GetReferenceFromIterator) {
254   for (int i = 0; i < 10; i++) {
255     map_[i] = i;
256   }
257 
258   for (Map<int32, int32>::const_iterator it = map_.cbegin();
259        it != map_.cend();) {
260     Map<int32, int32>::const_reference entry = *it++;
261     EXPECT_EQ(entry.first, entry.second);
262   }
263 
264   for (Map<int32, int32>::const_iterator it = const_map_.begin();
265        it != const_map_.end();) {
266     Map<int32, int32>::const_reference entry = *it++;
267     EXPECT_EQ(entry.first, entry.second);
268   }
269 
270   for (Map<int32, int32>::iterator it = map_.begin(); it != map_.end();) {
271     Map<int32, int32>::reference entry = *it++;
272     EXPECT_EQ(entry.first + 1, ++entry.second);
273   }
274 }
275 
TEST_P(MapImplTest,IteratorBasic)276 TEST_P(MapImplTest, IteratorBasic) {
277   map_[0] = 0;
278 
279   // Default constructible (per forward iterator requirements).
280   Map<int, int>::const_iterator cit;
281   Map<int, int>::iterator it;
282 
283   it = map_.begin();
284   cit = it;  // Converts to const_iterator
285 
286   // Can compare between them.
287   EXPECT_TRUE(it == cit);
288   EXPECT_FALSE(cit != it);
289 
290   // Pre increment.
291   EXPECT_FALSE(it == ++cit);
292 
293   // Post increment.
294   EXPECT_FALSE(it++ == cit);
295   EXPECT_TRUE(it == cit);
296 }
297 
298 template <typename Iterator>
median(Iterator i0,Iterator i1)299 static int64 median(Iterator i0, Iterator i1) {
300   vector<int64> v(i0, i1);
301   std::nth_element(v.begin(), v.begin() + v.size() / 2, v.end());
302   return v[v.size() / 2];
303 }
304 
Now()305 static int64 Now() {
306   return google::protobuf::util::TimeUtil::TimestampToNanoseconds(
307       google::protobuf::util::TimeUtil::GetCurrentTime());
308 }
309 
310 // Arbitrary odd integers for creating test data.
311 static int k0 = 812398771;
312 static int k1 = 1312938717;
313 static int k2 = 1321555333;
314 
315 // A naive begin() implementation will cause begin() to get slower and slower
316 // if one erases elements at the "front" of the hash map, and we'd like to
317 // avoid that, as std::unordered_map does.
TEST_P(MapImplTest,BeginIsFast)318 TEST_P(MapImplTest, BeginIsFast) {
319   // Disable this test for both new and old implementations.
320   if (/*GetParam()*/true) return;
321   Map<int32, int32> map(false);  // This test uses new-style maps only.
322   const int kTestSize = 250000;
323   // Create a random-looking map of size n.  Use non-negative integer keys.
324   uint32 frog = 123983;
325   int last_key = 0;
326   int counter = 0;
327   while (map.size() < kTestSize) {
328     frog *= static_cast<uint32>(k0);
329     frog ^= frog >> 17;
330     frog += counter++;
331     last_key =
332         static_cast<int>(frog) >= 0 ? static_cast<int>(frog) : last_key ^ 1;
333     GOOGLE_DCHECK_GE(last_key, 0);
334     map[last_key] = last_key ^ 1;
335   }
336   vector<int64> times;
337   // We're going to do map.erase(map.begin()) over and over again.  But,
338   // just in case one iteration is fast compared to the granularity of
339   // our time keeping, we measure kChunkSize iterations per outer-loop iter.
340   const int kChunkSize = 1000;
341   GOOGLE_CHECK_EQ(kTestSize % kChunkSize, 0);
342   do {
343     const int64 start = Now();
344     for (int i = 0; i < kChunkSize; i++) {
345       map.erase(map.begin());
346     }
347     const int64 end = Now();
348     if (end > start) {
349       times.push_back(end - start);
350     }
351   } while (!map.empty());
352   if (times.size() < .99 * kTestSize / kChunkSize) {
353     GOOGLE_LOG(WARNING) << "Now() isn't helping us measure time";
354     return;
355   }
356   int64 x0 = median(times.begin(), times.begin() + 9);
357   int64 x1 = median(times.begin() + times.size() - 9, times.end());
358   GOOGLE_LOG(INFO) << "x0=" << x0 << ", x1=" << x1;
359   // x1 will greatly exceed x0 if the code we just executed took O(n^2) time.
360   // And we'll probably time out and never get here.  So, this test is
361   // intentionally loose: we check that x0 and x1 are within a factor of 8.
362   EXPECT_GE(x1, x0 / 8);
363   EXPECT_GE(x0, x1 / 8);
364 }
365 
366 // Try to create kTestSize keys that will land in just a few buckets, and
367 // time the insertions, to get a rough estimate of whether an O(n^2) worst case
368 // was triggered.  This test is a hacky, but probably better than nothing.
TEST_P(MapImplTest,HashFlood)369 TEST_P(MapImplTest, HashFlood) {
370   const int kTestSize = 1024;  // must be a power of 2
371   std::set<int> s;
372   for (int i = 0; s.size() < kTestSize; i++) {
373     if ((map_.hash_function()(i) & (kTestSize - 1)) < 3) {
374       s.insert(i);
375     }
376   }
377   // Create hash table with kTestSize entries that hash flood a table with
378   // 1024 (or 512 or 2048 or ...) entries.  This assumes that map_ uses powers
379   // of 2 for table sizes, and that it's sufficient to "flood" with respect to
380   // the low bits of the output of map_.hash_function().
381   vector<int64> times;
382   std::set<int>::iterator it = s.begin();
383   int count = 0;
384   do {
385     const int64 start = Now();
386     map_[*it] = 0;
387     const int64 end = Now();
388     if (end > start) {
389       times.push_back(end - start);
390     }
391     ++count;
392     ++it;
393   } while (it != s.end());
394   if (times.size() < .99 * count) return;
395   int64 x0 = median(times.begin(), times.begin() + 9);
396   int64 x1 = median(times.begin() + times.size() - 9, times.end());
397   // x1 will greatly exceed x0 if the code we just executed took O(n^2) time.
398   // But we want to allow O(n log n).  A factor of 20 should be generous enough.
399   EXPECT_LE(x1, x0 * 20);
400 }
401 
402 template <typename T, typename U>
TestValidityForAllKeysExcept(int key_to_avoid,const T & check_map,const U & map)403 static void TestValidityForAllKeysExcept(int key_to_avoid,
404                                          const T& check_map,
405                                          const U& map) {
406   typedef typename U::value_type value_type;  // a key-value pair
407   for (typename U::const_iterator it = map.begin(); it != map.end(); ++it) {
408     const int key = it->first;
409     if (key == key_to_avoid) continue;
410     // All iterators relevant to this key, whether old (from check_map) or new,
411     // must point to the same memory.  So, test pointer equality here.
412     const value_type* check_val = &*check_map.find(key)->second;
413     EXPECT_EQ(check_val, &*it);
414     EXPECT_EQ(check_val, &*map.find(key));
415   }
416 }
417 
418 // EXPECT i0 and i1 to be the same.  Advancing them should have the same effect,
419 // too.
420 template <typename Iter>
TestEqualIterators(Iter i0,Iter i1,Iter end)421 static void TestEqualIterators(Iter i0, Iter i1, Iter end) {
422   const int kMaxAdvance = 10;
423   for (int i = 0; i < kMaxAdvance; i++) {
424     EXPECT_EQ(i0 == end, i1 == end);
425     if (i0 == end) return;
426     EXPECT_EQ(&*i0, &*i1) << "iter " << i;
427     ++i0;
428     ++i1;
429   }
430 }
431 
432 template <typename IteratorType>
TestOldVersusNewIterator(int skip,Map<int,int> * m)433 static void TestOldVersusNewIterator(int skip, Map<int, int>* m) {
434   const int initial_size = m->size();
435   IteratorType it = m->begin();
436   for (int i = 0; i < skip && it != m->end(); it++, i++) {}
437   if (it == m->end()) return;
438   const IteratorType old = it;
439   GOOGLE_LOG(INFO) << "skip=" << skip << ", old->first=" << old->first;
440   const int target_size =
441       initial_size < 100 ? initial_size * 5 : initial_size * 5 / 4;
442   for (int i = 0; m->size() <= target_size; i++) {
443     (*m)[i] = 0;
444   }
445   // Iterator 'old' should still work just fine despite the growth of *m.
446   const IteratorType after_growth = m->find(old->first);
447   TestEqualIterators<IteratorType>(old, after_growth, m->end());
448 
449   // Now shrink the number of elements.  Do this with a mix of erases and
450   // inserts to increase the chance that the hashtable will resize to a lower
451   // number of buckets.  (But, in any case, the test is still useful.)
452   for (int i = 0; i < 2 * (target_size - initial_size); i++) {
453     if (i != old->first) {
454       m->erase(i);
455     }
456     if (((i ^ m->begin()->first) & 15) == 0) {
457       (*m)[i * 342] = i;
458     }
459   }
460   // Now, the table has grown and shrunk; test again.
461   TestEqualIterators<IteratorType>(old, m->find(old->first), m->end());
462   TestEqualIterators<IteratorType>(old, after_growth, m->end());
463 }
464 
465 // Create and test an n-element Map, with emphasis on iterator correctness.
StressTestIterators(int n,bool test_old_style_proto2_maps)466 static void StressTestIterators(int n, bool test_old_style_proto2_maps) {
467   GOOGLE_LOG(INFO) << "StressTestIterators " << n;
468   GOOGLE_CHECK_GT(n, 0);
469   // Create a random-looking map of size n.  Use non-negative integer keys.
470   Map<int, int> m(test_old_style_proto2_maps);
471   uint32 frog = 123987 + n;
472   int last_key = 0;
473   int counter = 0;
474   while (m.size() < n) {
475     frog *= static_cast<uint32>(k0);
476     frog ^= frog >> 17;
477     frog += counter++;
478     last_key =
479         static_cast<int>(frog) >= 0 ? static_cast<int>(frog) : last_key ^ 1;
480     GOOGLE_DCHECK_GE(last_key, 0);
481     m[last_key] = last_key ^ 1;
482   }
483   // Test it.
484   ASSERT_EQ(n, m.size());
485   // Create maps of pointers and iterators.
486   // These should remain valid even if we modify m.
487   hash_map<int, Map<int, int>::value_type*> mp(n);
488   hash_map<int, Map<int, int>::iterator> mi(n);
489   for (Map<int, int>::iterator it = m.begin(); it != m.end(); ++it) {
490     mp[it->first] = &*it;
491     mi[it->first] = it;
492   }
493   ASSERT_EQ(m.size(), mi.size());
494   ASSERT_EQ(m.size(), mp.size());
495   m.erase(last_key);
496   ASSERT_EQ(n - 1, m.size());
497   TestValidityForAllKeysExcept(last_key, mp, m);
498   TestValidityForAllKeysExcept(last_key, mi, m);
499 
500   m[last_key] = 0;
501   ASSERT_EQ(n, m.size());
502   // Test old iterator vs new iterator, with table modification in between.
503   TestOldVersusNewIterator<Map<int, int>::const_iterator>(n % 3, &m);
504   TestOldVersusNewIterator<Map<int, int>::iterator>(n % (1 + (n / 40)), &m);
505   // Finally, ensure erase(iterator) doesn't reorder anything, becuase that is
506   // what its documentation says.
507   m[last_key] = m[last_key ^ 999] = 0;
508   vector<Map<int, int>::iterator> v;
509   v.reserve(m.size());
510   int position_of_last_key = 0;
511   for (Map<int, int>::iterator it = m.begin(); it != m.end(); ++it) {
512     if (it->first == last_key) {
513       position_of_last_key = v.size();
514     }
515     v.push_back(it);
516   }
517   ASSERT_EQ(m.size(), v.size());
518   const Map<int, int>::iterator erase_result = m.erase(m.find(last_key));
519   int index = 0;
520   for (Map<int, int>::iterator it = m.begin(); it != m.end(); ++it, ++index) {
521     if (index == position_of_last_key) {
522       EXPECT_EQ(&*erase_result, &*v[++index]);
523     }
524     ASSERT_EQ(&*it, &*v[index]);
525   }
526 }
527 
TEST_P(MapImplTest,IteratorInvalidation)528 TEST_P(MapImplTest, IteratorInvalidation) {
529   // As multiple underlying hash_map implementations do not follow the
530   // validation requirement, the test is disabled for old-style maps.
531   if (GetParam()) return;
532   // Create a set of pseudo-random sizes to test.
533 #ifndef NDEBUG
534   const int kMaxSizeToTest = 100 * 1000;
535 #else
536   const int kMaxSizeToTest = 1000 * 1000;
537 #endif
538   std::set<int> s;
539   int n = kMaxSizeToTest;
540   int frog = k1 + n;
541   while (n > 1 && s.size() < 25) {
542     s.insert(n);
543     n = static_cast<int>(n * 100 / (101.0 + (frog & 63)));
544     frog *= k2;
545     frog ^= frog >> 17;
546   }
547   // Ensure we test a few small sizes.
548   s.insert(1);
549   s.insert(2);
550   s.insert(3);
551   // Now, the real work.
552   for (std::set<int>::iterator i = s.begin(); i != s.end(); ++i) {
553     StressTestIterators(*i, GetParam());
554   }
555 }
556 
557 // Test that erase() revalidates iterators.
TEST_P(MapImplTest,EraseRevalidates)558 TEST_P(MapImplTest, EraseRevalidates) {
559   // As multiple underlying hash_map implementations do not follow the
560   // validation requirement, the test is disabled for old-style maps.
561   if (GetParam()) return;
562   map_[3] = map_[13] = map_[20] = 0;
563   const int initial_size = map_.size();
564   EXPECT_EQ(3, initial_size);
565   vector<Map<int, int>::iterator> v;
566   for (Map<int, int>::iterator it = map_.begin(); it != map_.end(); ++it) {
567     v.push_back(it);
568   }
569   EXPECT_EQ(initial_size, v.size());
570   for (int i = 0; map_.size() <= initial_size * 20; i++) {
571     map_[i] = 0;
572   }
573   const int larger_size = map_.size();
574   // We've greatly increased the size of the map, so it is highly likely that
575   // the following will corrupt m if erase() doesn't properly revalidate
576   // iterators passed to it.  Finishing this routine without crashing indicates
577   // success.
578   for (int i = 0; i < v.size(); i++) {
579     map_.erase(v[i]);
580   }
581   EXPECT_EQ(larger_size - v.size(), map_.size());
582 }
583 
584 template <typename T>
IsConstHelper(T &)585 bool IsConstHelper(T& /*t*/) {  // NOLINT. We want to catch non-const refs here.
586   return false;
587 }
588 template <typename T>
IsConstHelper(const T &)589 bool IsConstHelper(const T& /*t*/) {
590   return true;
591 }
592 
TEST_P(MapImplTest,IteratorConstness)593 TEST_P(MapImplTest, IteratorConstness) {
594   map_[0] = 0;
595   EXPECT_TRUE(IsConstHelper(*map_.cbegin()));
596   EXPECT_TRUE(IsConstHelper(*const_map_.begin()));
597   EXPECT_FALSE(IsConstHelper(*map_.begin()));
598 }
599 
IsForwardIteratorHelper(std::forward_iterator_tag)600 bool IsForwardIteratorHelper(std::forward_iterator_tag /*tag*/) { return true; }
601 template <typename T>
IsForwardIteratorHelper(T)602 bool IsForwardIteratorHelper(T /*t*/) {
603   return false;
604 }
605 
TEST_P(MapImplTest,IteratorCategory)606 TEST_P(MapImplTest, IteratorCategory) {
607   EXPECT_TRUE(IsForwardIteratorHelper(
608       std::iterator_traits<Map<int, int>::iterator>::iterator_category()));
609   EXPECT_TRUE(IsForwardIteratorHelper(std::iterator_traits<
610       Map<int, int>::const_iterator>::iterator_category()));
611 }
612 
TEST_P(MapImplTest,InsertSingle)613 TEST_P(MapImplTest, InsertSingle) {
614   int32 key = 0;
615   int32 value1 = 100;
616   int32 value2 = 101;
617 
618   // Insert a non-existed key.
619   std::pair<Map<int32, int32>::iterator, bool> result1 =
620       map_.insert(Map<int32, int32>::value_type(key, value1));
621   ExpectSingleElement(key, value1);
622 
623   Map<int32, int32>::iterator it1 = result1.first;
624   EXPECT_EQ(key, it1->first);
625   EXPECT_EQ(value1, it1->second);
626   EXPECT_TRUE(result1.second);
627 
628   // Insert an existed key.
629   std::pair<Map<int32, int32>::iterator, bool> result2 =
630       map_.insert(Map<int32, int32>::value_type(key, value2));
631   ExpectSingleElement(key, value1);
632 
633   Map<int32, int32>::iterator it2 = result2.first;
634   EXPECT_TRUE(it1 == it2);
635   EXPECT_FALSE(result2.second);
636 }
637 
TEST_P(MapImplTest,InsertByIterator)638 TEST_P(MapImplTest, InsertByIterator) {
639   int32 key1 = 0;
640   int32 key2 = 1;
641   int32 value1a = 100;
642   int32 value1b = 101;
643   int32 value2a = 200;
644   int32 value2b = 201;
645 
646   std::map<int32, int32> map1;
647   map1[key1] = value1a;
648   map1[key2] = value2a;
649 
650   map_.insert(map1.begin(), map1.end());
651   ExpectElements(map1);
652 
653   std::map<int32, int32> map2;
654   map2[key1] = value1b;
655   map2[key2] = value2b;
656 
657   map_.insert(map2.begin(), map2.end());
658   ExpectElements(map1);
659 }
660 
TEST_P(MapImplTest,EraseSingleByKey)661 TEST_P(MapImplTest, EraseSingleByKey) {
662   int32 key = 0;
663   int32 value = 100;
664 
665   map_[key] = value;
666   ExpectSingleElement(key, value);
667 
668   // Erase an existing key.
669   EXPECT_EQ(1, map_.erase(key));
670   EXPECT_TRUE(map_.empty());
671   EXPECT_EQ(0, map_.size());
672   EXPECT_TRUE(map_.end() == map_.find(key));
673   EXPECT_TRUE(map_.begin() == map_.end());
674 
675   // Erase a non-existing key.
676   EXPECT_EQ(0, map_.erase(key));
677 }
678 
TEST_P(MapImplTest,EraseMutipleByKey)679 TEST_P(MapImplTest, EraseMutipleByKey) {
680   // erase in one specific order to trigger corner cases
681   for (int i = 0; i < 5; i++) {
682     map_[i] = i;
683   }
684 
685   map_.erase(0);
686   EXPECT_EQ(4, map_.size());
687   EXPECT_TRUE(map_.end() == map_.find(0));
688 
689   map_.erase(1);
690   EXPECT_EQ(3, map_.size());
691   EXPECT_TRUE(map_.end() == map_.find(1));
692 
693   map_.erase(3);
694   EXPECT_EQ(2, map_.size());
695   EXPECT_TRUE(map_.end() == map_.find(3));
696 
697   map_.erase(4);
698   EXPECT_EQ(1, map_.size());
699   EXPECT_TRUE(map_.end() == map_.find(4));
700 
701   map_.erase(2);
702   EXPECT_EQ(0, map_.size());
703   EXPECT_TRUE(map_.end() == map_.find(2));
704 }
705 
TEST_P(MapImplTest,EraseSingleByIterator)706 TEST_P(MapImplTest, EraseSingleByIterator) {
707   int32 key = 0;
708   int32 value = 100;
709 
710   map_[key] = value;
711   ExpectSingleElement(key, value);
712 
713   Map<int32, int32>::iterator it = map_.find(key);
714   map_.erase(it);
715   EXPECT_TRUE(map_.empty());
716   EXPECT_EQ(0, map_.size());
717   EXPECT_TRUE(map_.end() == map_.find(key));
718   EXPECT_TRUE(map_.begin() == map_.end());
719 }
720 
TEST_P(MapImplTest,ValidIteratorAfterErase)721 TEST_P(MapImplTest, ValidIteratorAfterErase) {
722   for (int i = 0; i < 10; i++) {
723     map_[i] = i;
724   }
725 
726   int count = 0;
727 
728   for (Map<int32, int32>::iterator it = map_.begin(); it != map_.end();) {
729     count++;
730     if (it->first % 2 == 1) {
731       map_.erase(it++);
732     } else {
733       ++it;
734     }
735   }
736 
737   EXPECT_EQ(10, count);
738   EXPECT_EQ(5, map_.size());
739 }
740 
TEST_P(MapImplTest,EraseByIterator)741 TEST_P(MapImplTest, EraseByIterator) {
742   int32 key1 = 0;
743   int32 key2 = 1;
744   int32 value1 = 100;
745   int32 value2 = 101;
746 
747   std::map<int32, int32> map;
748   map[key1] = value1;
749   map[key2] = value2;
750 
751   map_.insert(map.begin(), map.end());
752   ExpectElements(map);
753 
754   map_.erase(map_.begin(), map_.end());
755   EXPECT_TRUE(map_.empty());
756   EXPECT_EQ(0, map_.size());
757   EXPECT_TRUE(map_.end() == map_.find(key1));
758   EXPECT_TRUE(map_.end() == map_.find(key2));
759   EXPECT_TRUE(map_.begin() == map_.end());
760 }
761 
TEST_P(MapImplTest,Clear)762 TEST_P(MapImplTest, Clear) {
763   int32 key = 0;
764   int32 value = 100;
765 
766   map_[key] = value;
767   ExpectSingleElement(key, value);
768 
769   map_.clear();
770 
771   EXPECT_TRUE(map_.empty());
772   EXPECT_EQ(0, map_.size());
773   EXPECT_TRUE(map_.end() == map_.find(key));
774   EXPECT_TRUE(map_.begin() == map_.end());
775 }
776 
CopyConstructorHelper(Arena * arena,Map<int32,int32> * m)777 static void CopyConstructorHelper(Arena* arena, Map<int32, int32>* m) {
778   int32 key1 = 0;
779   int32 key2 = 1;
780   int32 value1 = 100;
781   int32 value2 = 101;
782 
783   std::map<int32, int32> map;
784   map[key1] = value1;
785   map[key2] = value2;
786 
787   m->insert(map.begin(), map.end());
788 
789   Map<int32, int32> other(*m);
790 
791   EXPECT_EQ(2, other.size());
792   EXPECT_EQ(value1, other.at(key1));
793   EXPECT_EQ(value2, other.at(key2));
794 }
795 
TEST_P(MapImplTest,CopyConstructorWithArena)796 TEST_P(MapImplTest, CopyConstructorWithArena) {
797   Arena a;
798   CopyConstructorHelper(&a, &map_);
799 }
800 
TEST_P(MapImplTest,CopyConstructorWithoutArena)801 TEST_P(MapImplTest, CopyConstructorWithoutArena) {
802   CopyConstructorHelper(NULL, &map_);
803 }
804 
TEST_P(MapImplTest,IterConstructor)805 TEST_P(MapImplTest, IterConstructor) {
806   int32 key1 = 0;
807   int32 key2 = 1;
808   int32 value1 = 100;
809   int32 value2 = 101;
810 
811   std::map<int32, int32> map;
812   map[key1] = value1;
813   map[key2] = value2;
814 
815   Map<int32, int32> new_map(map.begin(), map.end(),
816                             GetParam());
817 
818   EXPECT_EQ(2, new_map.size());
819   EXPECT_EQ(value1, new_map.at(key1));
820   EXPECT_EQ(value2, new_map.at(key2));
821 }
822 
TEST_P(MapImplTest,Assigner)823 TEST_P(MapImplTest, Assigner) {
824   int32 key1 = 0;
825   int32 key2 = 1;
826   int32 value1 = 100;
827   int32 value2 = 101;
828 
829   std::map<int32, int32> map;
830   map[key1] = value1;
831   map[key2] = value2;
832 
833   map_.insert(map.begin(), map.end());
834 
835   Map<int32, int32> other(GetParam());
836   int32 key_other = 123;
837   int32 value_other = 321;
838   other[key_other] = value_other;
839   EXPECT_EQ(1, other.size());
840 
841   other = map_;
842 
843   EXPECT_EQ(2, other.size());
844   EXPECT_EQ(value1, other.at(key1));
845   EXPECT_EQ(value2, other.at(key2));
846   EXPECT_TRUE(other.find(key_other) == other.end());
847 
848   // Self assign
849   other = other;
850   EXPECT_EQ(2, other.size());
851   EXPECT_EQ(value1, other.at(key1));
852   EXPECT_EQ(value2, other.at(key2));
853 
854   // Try assignment to a map with a different choice of "style."
855   Map<int32, int32> m(!GetParam());
856   m = other;
857   EXPECT_EQ(2, m.size());
858   EXPECT_EQ(value1, m.at(key1));
859   EXPECT_EQ(value2, m.at(key2));
860 }
861 
TEST_P(MapImplTest,Rehash)862 TEST_P(MapImplTest, Rehash) {
863   const int test_size = 50;
864   std::map<int32, int32> reference_map;
865   for (int i = 0; i < test_size; i++) {
866     reference_map[i] = i;
867   }
868   for (int i = 0; i < test_size; i++) {
869     map_[i] = reference_map[i];
870     EXPECT_EQ(reference_map[i], map_[i]);
871   }
872   for (int i = 0; i < test_size; i++) {
873     map_.erase(i);
874     EXPECT_TRUE(map_.end() == map_.find(i));
875   }
876   EXPECT_TRUE(map_.empty());
877 }
878 
TEST_P(MapImplTest,EqualRange)879 TEST_P(MapImplTest, EqualRange) {
880   int key = 100, key_missing = 101;
881   map_[key] = 100;
882 
883   std::pair<google::protobuf::Map<int32, int32>::iterator,
884             google::protobuf::Map<int32, int32>::iterator> range = map_.equal_range(key);
885   EXPECT_TRUE(map_.find(key) == range.first);
886   EXPECT_TRUE(++map_.find(key) == range.second);
887 
888   range = map_.equal_range(key_missing);
889   EXPECT_TRUE(map_.end() == range.first);
890   EXPECT_TRUE(map_.end() == range.second);
891 
892   std::pair<google::protobuf::Map<int32, int32>::const_iterator,
893             google::protobuf::Map<int32, int32>::const_iterator> const_range =
894       const_map_.equal_range(key);
895   EXPECT_TRUE(const_map_.find(key) == const_range.first);
896   EXPECT_TRUE(++const_map_.find(key) == const_range.second);
897 
898   const_range = const_map_.equal_range(key_missing);
899   EXPECT_TRUE(const_map_.end() == const_range.first);
900   EXPECT_TRUE(const_map_.end() == const_range.second);
901 }
902 
TEST_P(MapImplTest,ConvertToStdMap)903 TEST_P(MapImplTest, ConvertToStdMap) {
904   map_[100] = 101;
905   std::map<int32, int32> std_map(map_.begin(), map_.end());
906   EXPECT_EQ(1, std_map.size());
907   EXPECT_EQ(101, std_map[100]);
908 }
909 
TEST_P(MapImplTest,ConvertToStdVectorOfPairs)910 TEST_P(MapImplTest, ConvertToStdVectorOfPairs) {
911   map_[100] = 101;
912   std::vector<std::pair<int32, int32> > std_vec(map_.begin(), map_.end());
913   EXPECT_EQ(1, std_vec.size());
914   EXPECT_EQ(100, std_vec[0].first);
915   EXPECT_EQ(101, std_vec[0].second);
916 }
917 
918 INSTANTIATE_TEST_CASE_P(BoolSequence, MapImplTest, testing::Bool());
919 
920 // Map Field Reflection Test ========================================
921 
Func(int i,int j)922 static int Func(int i, int j) {
923   return i * j;
924 }
925 
StrFunc(int i,int j)926 static string StrFunc(int i, int j) {
927   string str;
928   SStringPrintf(&str, "%d", Func(i, j));
929   return str;
930 }
931 
Int(const string & value)932 static int Int(const string& value) {
933   int result = 0;
934   std::istringstream(value) >> result;
935   return result;
936 }
937 
938 class MapFieldReflectionTest : public testing::Test {
939  protected:
940   typedef FieldDescriptor FD;
941 };
942 
TEST_F(MapFieldReflectionTest,RegularFields)943 TEST_F(MapFieldReflectionTest, RegularFields) {
944   TestMap message;
945   const Reflection* refl = message.GetReflection();
946   const Descriptor* desc = message.GetDescriptor();
947 
948   Map<int32, int32>* map_int32_int32 = message.mutable_map_int32_int32();
949   Map<int32, double>* map_int32_double = message.mutable_map_int32_double();
950   Map<string, string>* map_string_string = message.mutable_map_string_string();
951   Map<int32, ForeignMessage>* map_int32_foreign_message =
952       message.mutable_map_int32_foreign_message();
953 
954   for (int i = 0; i < 10; ++i) {
955     (*map_int32_int32)[i] = Func(i, 1);
956     (*map_int32_double)[i] = Func(i, 2);
957     (*map_string_string)[StrFunc(i, 1)] = StrFunc(i, 5);
958     (*map_int32_foreign_message)[i].set_c(Func(i, 6));
959   }
960 
961   // Get FieldDescriptors for all the fields of interest.
962   const FieldDescriptor* fd_map_int32_int32 =
963       desc->FindFieldByName("map_int32_int32");
964   const FieldDescriptor* fd_map_int32_double =
965       desc->FindFieldByName("map_int32_double");
966   const FieldDescriptor* fd_map_string_string =
967       desc->FindFieldByName("map_string_string");
968   const FieldDescriptor* fd_map_int32_foreign_message =
969       desc->FindFieldByName("map_int32_foreign_message");
970 
971   const FieldDescriptor* fd_map_int32_in32_key =
972       fd_map_int32_int32->message_type()->FindFieldByName("key");
973   const FieldDescriptor* fd_map_int32_in32_value =
974       fd_map_int32_int32->message_type()->FindFieldByName("value");
975   const FieldDescriptor* fd_map_int32_double_key =
976       fd_map_int32_double->message_type()->FindFieldByName("key");
977   const FieldDescriptor* fd_map_int32_double_value =
978       fd_map_int32_double->message_type()->FindFieldByName("value");
979   const FieldDescriptor* fd_map_string_string_key =
980       fd_map_string_string->message_type()->FindFieldByName("key");
981   const FieldDescriptor* fd_map_string_string_value =
982       fd_map_string_string->message_type()->FindFieldByName("value");
983   const FieldDescriptor* fd_map_int32_foreign_message_key =
984       fd_map_int32_foreign_message->message_type()->FindFieldByName("key");
985   const FieldDescriptor* fd_map_int32_foreign_message_value =
986       fd_map_int32_foreign_message->message_type()->FindFieldByName("value");
987 
988   // Get RepeatedPtrField objects for all fields of interest.
989   const RepeatedPtrField<Message>& mf_int32_int32 =
990       refl->GetRepeatedPtrField<Message>(message, fd_map_int32_int32);
991   const RepeatedPtrField<Message>& mf_int32_double =
992       refl->GetRepeatedPtrField<Message>(message, fd_map_int32_double);
993   const RepeatedPtrField<Message>& mf_string_string =
994       refl->GetRepeatedPtrField<Message>(message, fd_map_string_string);
995   const RepeatedPtrField<Message>&
996       mf_int32_foreign_message =
997           refl->GetRepeatedPtrField<Message>(
998               message, fd_map_int32_foreign_message);
999 
1000   // Get mutable RepeatedPtrField objects for all fields of interest.
1001   RepeatedPtrField<Message>* mmf_int32_int32 =
1002       refl->MutableRepeatedPtrField<Message>(&message, fd_map_int32_int32);
1003   RepeatedPtrField<Message>* mmf_int32_double =
1004       refl->MutableRepeatedPtrField<Message>(&message, fd_map_int32_double);
1005   RepeatedPtrField<Message>* mmf_string_string =
1006       refl->MutableRepeatedPtrField<Message>(&message, fd_map_string_string);
1007   RepeatedPtrField<Message>* mmf_int32_foreign_message =
1008       refl->MutableRepeatedPtrField<Message>(
1009           &message, fd_map_int32_foreign_message);
1010 
1011   // Make sure we can do gets through the RepeatedPtrField objects.
1012   for (int i = 0; i < 10; ++i) {
1013     {
1014       // Check gets through const objects.
1015       const Message& message_int32_int32 = mf_int32_int32.Get(i);
1016       int32 key_int32_int32 = message_int32_int32.GetReflection()->GetInt32(
1017           message_int32_int32, fd_map_int32_in32_key);
1018       int32 value_int32_int32 = message_int32_int32.GetReflection()->GetInt32(
1019           message_int32_int32, fd_map_int32_in32_value);
1020       EXPECT_EQ(value_int32_int32, Func(key_int32_int32, 1));
1021 
1022       const Message& message_int32_double = mf_int32_double.Get(i);
1023       int32 key_int32_double = message_int32_double.GetReflection()->GetInt32(
1024           message_int32_double, fd_map_int32_double_key);
1025       double value_int32_double =
1026           message_int32_double.GetReflection()->GetDouble(
1027               message_int32_double, fd_map_int32_double_value);
1028       EXPECT_EQ(value_int32_double, Func(key_int32_double, 2));
1029 
1030       const Message& message_string_string = mf_string_string.Get(i);
1031       string key_string_string =
1032           message_string_string.GetReflection()->GetString(
1033               message_string_string, fd_map_string_string_key);
1034       string value_string_string =
1035           message_string_string.GetReflection()->GetString(
1036               message_string_string, fd_map_string_string_value);
1037       EXPECT_EQ(value_string_string, StrFunc(Int(key_string_string), 5));
1038 
1039       const Message& message_int32_message = mf_int32_foreign_message.Get(i);
1040       int32 key_int32_message = message_int32_message.GetReflection()->GetInt32(
1041           message_int32_message, fd_map_int32_foreign_message_key);
1042       const ForeignMessage& value_int32_message =
1043           down_cast<const ForeignMessage&>(
1044               message_int32_message.GetReflection()
1045                   ->GetMessage(message_int32_message,
1046                                fd_map_int32_foreign_message_value));
1047       EXPECT_EQ(value_int32_message.c(), Func(key_int32_message, 6));
1048     }
1049 
1050     {
1051       // Check gets through mutable objects.
1052       const Message& message_int32_int32 = mmf_int32_int32->Get(i);
1053       int32 key_int32_int32 = message_int32_int32.GetReflection()->GetInt32(
1054           message_int32_int32, fd_map_int32_in32_key);
1055       int32 value_int32_int32 = message_int32_int32.GetReflection()->GetInt32(
1056           message_int32_int32, fd_map_int32_in32_value);
1057       EXPECT_EQ(value_int32_int32, Func(key_int32_int32, 1));
1058 
1059       const Message& message_int32_double = mmf_int32_double->Get(i);
1060       int32 key_int32_double = message_int32_double.GetReflection()->GetInt32(
1061           message_int32_double, fd_map_int32_double_key);
1062       double value_int32_double =
1063           message_int32_double.GetReflection()->GetDouble(
1064               message_int32_double, fd_map_int32_double_value);
1065       EXPECT_EQ(value_int32_double, Func(key_int32_double, 2));
1066 
1067       const Message& message_string_string = mmf_string_string->Get(i);
1068       string key_string_string =
1069           message_string_string.GetReflection()->GetString(
1070               message_string_string, fd_map_string_string_key);
1071       string value_string_string =
1072           message_string_string.GetReflection()->GetString(
1073               message_string_string, fd_map_string_string_value);
1074       EXPECT_EQ(value_string_string, StrFunc(Int(key_string_string), 5));
1075 
1076       const Message& message_int32_message = mmf_int32_foreign_message->Get(i);
1077       int32 key_int32_message = message_int32_message.GetReflection()->GetInt32(
1078           message_int32_message, fd_map_int32_foreign_message_key);
1079       const ForeignMessage& value_int32_message =
1080           down_cast<const ForeignMessage&>(
1081               message_int32_message.GetReflection()
1082                   ->GetMessage(message_int32_message,
1083                                fd_map_int32_foreign_message_value));
1084       EXPECT_EQ(value_int32_message.c(), Func(key_int32_message, 6));
1085     }
1086   }
1087 
1088   // Do sets through the RepeatedPtrField objects.
1089   for (int i = 0; i < 10; i++) {
1090     {
1091       Message* message_int32_int32 = mmf_int32_int32->Mutable(i);
1092       int32 key_int32_int32 = message_int32_int32->GetReflection()->GetInt32(
1093           *message_int32_int32, fd_map_int32_in32_key);
1094       message_int32_int32->GetReflection()->SetInt32(message_int32_int32,
1095                                                      fd_map_int32_in32_value,
1096                                                      Func(key_int32_int32, -1));
1097 
1098       Message* message_int32_double = mmf_int32_double->Mutable(i);
1099       int32 key_int32_double = message_int32_double->GetReflection()->GetInt32(
1100           *message_int32_double, fd_map_int32_double_key);
1101       message_int32_double->GetReflection()->SetDouble(
1102           message_int32_double, fd_map_int32_double_value,
1103           Func(key_int32_double, -2));
1104 
1105       Message* message_string_string = mmf_string_string->Mutable(i);
1106       string key_string_string =
1107           message_string_string->GetReflection()->GetString(
1108               *message_string_string, fd_map_string_string_key);
1109       message_string_string->GetReflection()->SetString(
1110           message_string_string, fd_map_string_string_value,
1111           StrFunc(Int(key_string_string), -5));
1112 
1113       Message* message_int32_message = mmf_int32_foreign_message->Mutable(i);
1114       int32 key_int32_message =
1115           message_int32_message->GetReflection()->GetInt32(
1116               *message_int32_message, fd_map_int32_foreign_message_key);
1117       ForeignMessage* value_int32_message = down_cast<ForeignMessage*>(
1118           message_int32_message->GetReflection()
1119               ->MutableMessage(message_int32_message,
1120                                fd_map_int32_foreign_message_value));
1121       value_int32_message->set_c(Func(key_int32_message, -6));
1122     }
1123   }
1124 
1125   // Check gets through mutable objects.
1126   for (int i = 0; i < 10; i++) {
1127     EXPECT_EQ(Func(i, -1), message.map_int32_int32().at(i));
1128     EXPECT_EQ(Func(i, -2), message.map_int32_double().at(i));
1129     EXPECT_EQ(StrFunc(i, -5), message.map_string_string().at(StrFunc(i, 1)));
1130     EXPECT_EQ(Func(i, -6), message.map_int32_foreign_message().at(i).c());
1131   }
1132 }
1133 
TEST_F(MapFieldReflectionTest,RepeatedFieldRefForRegularFields)1134 TEST_F(MapFieldReflectionTest, RepeatedFieldRefForRegularFields) {
1135   TestMap message;
1136   const Reflection* refl = message.GetReflection();
1137   const Descriptor* desc = message.GetDescriptor();
1138 
1139   Map<int32, int32>* map_int32_int32 = message.mutable_map_int32_int32();
1140   Map<int32, double>* map_int32_double = message.mutable_map_int32_double();
1141   Map<string, string>* map_string_string = message.mutable_map_string_string();
1142   Map<int32, ForeignMessage>* map_int32_foreign_message =
1143       message.mutable_map_int32_foreign_message();
1144 
1145   for (int i = 0; i < 10; ++i) {
1146     (*map_int32_int32)[i] = Func(i, 1);
1147     (*map_int32_double)[i] = Func(i, 2);
1148     (*map_string_string)[StrFunc(i, 1)] = StrFunc(i, 5);
1149     (*map_int32_foreign_message)[i].set_c(Func(i, 6));
1150   }
1151 
1152   // Get FieldDescriptors for all the fields of interest.
1153   const FieldDescriptor* fd_map_int32_int32 =
1154       desc->FindFieldByName("map_int32_int32");
1155   const FieldDescriptor* fd_map_int32_double =
1156       desc->FindFieldByName("map_int32_double");
1157   const FieldDescriptor* fd_map_string_string =
1158       desc->FindFieldByName("map_string_string");
1159   const FieldDescriptor* fd_map_int32_foreign_message =
1160       desc->FindFieldByName("map_int32_foreign_message");
1161 
1162   const FieldDescriptor* fd_map_int32_in32_key =
1163       fd_map_int32_int32->message_type()->FindFieldByName("key");
1164   const FieldDescriptor* fd_map_int32_in32_value =
1165       fd_map_int32_int32->message_type()->FindFieldByName("value");
1166   const FieldDescriptor* fd_map_int32_double_key =
1167       fd_map_int32_double->message_type()->FindFieldByName("key");
1168   const FieldDescriptor* fd_map_int32_double_value =
1169       fd_map_int32_double->message_type()->FindFieldByName("value");
1170   const FieldDescriptor* fd_map_string_string_key =
1171       fd_map_string_string->message_type()->FindFieldByName("key");
1172   const FieldDescriptor* fd_map_string_string_value =
1173       fd_map_string_string->message_type()->FindFieldByName("value");
1174   const FieldDescriptor* fd_map_int32_foreign_message_key =
1175       fd_map_int32_foreign_message->message_type()->FindFieldByName("key");
1176   const FieldDescriptor* fd_map_int32_foreign_message_value =
1177       fd_map_int32_foreign_message->message_type()->FindFieldByName("value");
1178 
1179   // Get RepeatedFieldRef objects for all fields of interest.
1180   const RepeatedFieldRef<Message> mf_int32_int32 =
1181       refl->GetRepeatedFieldRef<Message>(message, fd_map_int32_int32);
1182   const RepeatedFieldRef<Message> mf_int32_double =
1183       refl->GetRepeatedFieldRef<Message>(message, fd_map_int32_double);
1184   const RepeatedFieldRef<Message> mf_string_string =
1185       refl->GetRepeatedFieldRef<Message>(message, fd_map_string_string);
1186   const RepeatedFieldRef<Message> mf_int32_foreign_message =
1187       refl->GetRepeatedFieldRef<Message>(message, fd_map_int32_foreign_message);
1188 
1189   // Get mutable RepeatedFieldRef objects for all fields of interest.
1190   const MutableRepeatedFieldRef<Message> mmf_int32_int32 =
1191       refl->GetMutableRepeatedFieldRef<Message>(&message, fd_map_int32_int32);
1192   const MutableRepeatedFieldRef<Message> mmf_int32_double =
1193       refl->GetMutableRepeatedFieldRef<Message>(&message, fd_map_int32_double);
1194   const MutableRepeatedFieldRef<Message> mmf_string_string =
1195       refl->GetMutableRepeatedFieldRef<Message>(&message, fd_map_string_string);
1196   const MutableRepeatedFieldRef<Message>
1197       mmf_int32_foreign_message =
1198           refl->GetMutableRepeatedFieldRef<Message>(
1199               &message, fd_map_int32_foreign_message);
1200 
1201   // Get entry default instances
1202   google::protobuf::scoped_ptr<Message> entry_int32_int32(
1203       MessageFactory::generated_factory()
1204           ->GetPrototype(fd_map_int32_int32->message_type())
1205           ->New());
1206   google::protobuf::scoped_ptr<Message> entry_int32_double(
1207       MessageFactory::generated_factory()
1208           ->GetPrototype(fd_map_int32_double->message_type())
1209           ->New());
1210   google::protobuf::scoped_ptr<Message> entry_string_string(
1211       MessageFactory::generated_factory()
1212           ->GetPrototype(fd_map_string_string->message_type())
1213           ->New());
1214   google::protobuf::scoped_ptr<Message> entry_int32_foreign_message(
1215       MessageFactory::generated_factory()
1216           ->GetPrototype(fd_map_int32_foreign_message->message_type())
1217           ->New());
1218 
1219   EXPECT_EQ(10, mf_int32_int32.size());
1220   EXPECT_EQ(10, mmf_int32_int32.size());
1221   EXPECT_EQ(10, mf_int32_double.size());
1222   EXPECT_EQ(10, mmf_int32_double.size());
1223   EXPECT_EQ(10, mf_string_string.size());
1224   EXPECT_EQ(10, mmf_string_string.size());
1225   EXPECT_EQ(10, mf_int32_foreign_message.size());
1226   EXPECT_EQ(10, mmf_int32_foreign_message.size());
1227 
1228   EXPECT_FALSE(mf_int32_int32.empty());
1229   EXPECT_FALSE(mmf_int32_int32.empty());
1230   EXPECT_FALSE(mf_int32_double.empty());
1231   EXPECT_FALSE(mmf_int32_double.empty());
1232   EXPECT_FALSE(mf_string_string.empty());
1233   EXPECT_FALSE(mmf_string_string.empty());
1234   EXPECT_FALSE(mf_int32_foreign_message.empty());
1235   EXPECT_FALSE(mmf_int32_foreign_message.empty());
1236 
1237   // Make sure we can do gets through the RepeatedFieldRef objects.
1238   for (int i = 0; i < 10; ++i) {
1239     {
1240       // Check gets through const objects.
1241       const Message& message_int32_int32 =
1242           mf_int32_int32.Get(i, entry_int32_int32.get());
1243       int32 key_int32_int32 = message_int32_int32.GetReflection()->GetInt32(
1244           message_int32_int32, fd_map_int32_in32_key);
1245       int32 value_int32_int32 = message_int32_int32.GetReflection()->GetInt32(
1246           message_int32_int32, fd_map_int32_in32_value);
1247       EXPECT_EQ(value_int32_int32, Func(key_int32_int32, 1));
1248 
1249       const Message& message_int32_double =
1250           mf_int32_double.Get(i, entry_int32_double.get());
1251       int32 key_int32_double = message_int32_double.GetReflection()->GetInt32(
1252           message_int32_double, fd_map_int32_double_key);
1253       double value_int32_double =
1254           message_int32_double.GetReflection()->GetDouble(
1255               message_int32_double, fd_map_int32_double_value);
1256       EXPECT_EQ(value_int32_double, Func(key_int32_double, 2));
1257 
1258       const Message& message_string_string =
1259           mf_string_string.Get(i, entry_string_string.get());
1260       string key_string_string =
1261           message_string_string.GetReflection()->GetString(
1262               message_string_string, fd_map_string_string_key);
1263       string value_string_string =
1264           message_string_string.GetReflection()->GetString(
1265               message_string_string, fd_map_string_string_value);
1266       EXPECT_EQ(value_string_string, StrFunc(Int(key_string_string), 5));
1267 
1268       const Message& message_int32_message =
1269           mf_int32_foreign_message.Get(i, entry_int32_foreign_message.get());
1270       int32 key_int32_message = message_int32_message.GetReflection()->GetInt32(
1271           message_int32_message, fd_map_int32_foreign_message_key);
1272       const ForeignMessage& value_int32_message =
1273           down_cast<const ForeignMessage&>(
1274               message_int32_message.GetReflection()
1275                   ->GetMessage(message_int32_message,
1276                                fd_map_int32_foreign_message_value));
1277       EXPECT_EQ(value_int32_message.c(), Func(key_int32_message, 6));
1278     }
1279 
1280     {
1281       // Check gets through mutable objects.
1282       const Message& message_int32_int32 =
1283           mmf_int32_int32.Get(i, entry_int32_int32.get());
1284       int32 key_int32_int32 = message_int32_int32.GetReflection()->GetInt32(
1285           message_int32_int32, fd_map_int32_in32_key);
1286       int32 value_int32_int32 = message_int32_int32.GetReflection()->GetInt32(
1287           message_int32_int32, fd_map_int32_in32_value);
1288       EXPECT_EQ(value_int32_int32, Func(key_int32_int32, 1));
1289 
1290       const Message& message_int32_double =
1291           mmf_int32_double.Get(i, entry_int32_double.get());
1292       int32 key_int32_double = message_int32_double.GetReflection()->GetInt32(
1293           message_int32_double, fd_map_int32_double_key);
1294       double value_int32_double =
1295           message_int32_double.GetReflection()->GetDouble(
1296               message_int32_double, fd_map_int32_double_value);
1297       EXPECT_EQ(value_int32_double, Func(key_int32_double, 2));
1298 
1299       const Message& message_string_string =
1300           mmf_string_string.Get(i, entry_string_string.get());
1301       string key_string_string =
1302           message_string_string.GetReflection()->GetString(
1303               message_string_string, fd_map_string_string_key);
1304       string value_string_string =
1305           message_string_string.GetReflection()->GetString(
1306               message_string_string, fd_map_string_string_value);
1307       EXPECT_EQ(value_string_string, StrFunc(Int(key_string_string), 5));
1308 
1309       const Message& message_int32_message =
1310           mmf_int32_foreign_message.Get(i, entry_int32_foreign_message.get());
1311       int32 key_int32_message = message_int32_message.GetReflection()->GetInt32(
1312           message_int32_message, fd_map_int32_foreign_message_key);
1313       const ForeignMessage& value_int32_message =
1314           down_cast<const ForeignMessage&>(
1315               message_int32_message.GetReflection()
1316                   ->GetMessage(message_int32_message,
1317                                fd_map_int32_foreign_message_value));
1318       EXPECT_EQ(value_int32_message.c(), Func(key_int32_message, 6));
1319     }
1320   }
1321 
1322   // Make sure we can do sets through the RepeatedFieldRef objects.
1323   for (int i = 0; i < 10; i++) {
1324     const Message& message_int32_int32 =
1325         mmf_int32_int32.Get(i, entry_int32_int32.get());
1326     int key = message_int32_int32.GetReflection()->GetInt32(
1327         message_int32_int32, fd_map_int32_in32_key);
1328 
1329     entry_int32_int32->GetReflection()->SetInt32(
1330         entry_int32_int32.get(), fd_map_int32_int32->message_type()->field(0),
1331         key);
1332     entry_int32_int32->GetReflection()->SetInt32(
1333         entry_int32_int32.get(), fd_map_int32_int32->message_type()->field(1),
1334         Func(key, -1));
1335     entry_int32_double->GetReflection()->SetInt32(
1336         entry_int32_double.get(), fd_map_int32_double->message_type()->field(0),
1337         key);
1338     entry_int32_double->GetReflection()->SetDouble(
1339         entry_int32_double.get(), fd_map_int32_double->message_type()->field(1),
1340         Func(key, -2));
1341     entry_string_string->GetReflection()->SetString(
1342         entry_string_string.get(),
1343         fd_map_string_string->message_type()->field(0), StrFunc(key, 1));
1344     entry_string_string->GetReflection()->SetString(
1345         entry_string_string.get(),
1346         fd_map_string_string->message_type()->field(1), StrFunc(key, -5));
1347     entry_int32_foreign_message->GetReflection()->SetInt32(
1348         entry_int32_foreign_message.get(),
1349         fd_map_int32_foreign_message->message_type()->field(0), key);
1350     Message* value_message =
1351         entry_int32_foreign_message->GetReflection()->MutableMessage(
1352             entry_int32_foreign_message.get(),
1353             fd_map_int32_foreign_message->message_type()->field(1));
1354     value_message->GetReflection()->SetInt32(
1355         value_message, value_message->GetDescriptor()->FindFieldByName("c"),
1356         Func(key, -6));
1357 
1358     mmf_int32_int32.Set(i, *entry_int32_int32);
1359     mmf_int32_double.Set(i, *entry_int32_double);
1360     mmf_string_string.Set(i, *entry_string_string);
1361     mmf_int32_foreign_message.Set(i, *entry_int32_foreign_message);
1362   }
1363 
1364   for (int i = 0; i < 10; i++) {
1365     EXPECT_EQ(Func(i, -1), message.map_int32_int32().at(i));
1366     EXPECT_EQ(Func(i, -2), message.map_int32_double().at(i));
1367     EXPECT_EQ(StrFunc(i, -5), message.map_string_string().at(StrFunc(i, 1)));
1368     EXPECT_EQ(Func(i, -6), message.map_int32_foreign_message().at(i).c());
1369   }
1370 
1371   // Test iterators.
1372   {
1373     int index = 0;
1374     hash_map<int32, int32> result;
1375     for (RepeatedFieldRef<Message>::iterator it = mf_int32_int32.begin();
1376          it != mf_int32_int32.end(); ++it) {
1377       const Message& message = *it;
1378       int32 key =
1379           message.GetReflection()->GetInt32(message, fd_map_int32_in32_key);
1380       int32 value =
1381           message.GetReflection()->GetInt32(message, fd_map_int32_in32_value);
1382       result[key] = value;
1383       ++index;
1384     }
1385     EXPECT_EQ(10, index);
1386     for (hash_map<int32, int32>::const_iterator it = result.begin();
1387          it != result.end(); ++it) {
1388       EXPECT_EQ(message.map_int32_int32().at(it->first), it->second);
1389     }
1390   }
1391 
1392   {
1393     int index = 0;
1394     hash_map<int32, double> result;
1395     for (RepeatedFieldRef<Message>::iterator it = mf_int32_double.begin();
1396          it != mf_int32_double.end(); ++it) {
1397       const Message& message = *it;
1398       int32 key =
1399           message.GetReflection()->GetInt32(message, fd_map_int32_double_key);
1400       double value = message.GetReflection()->GetDouble(
1401           message, fd_map_int32_double_value);
1402       result[key] = value;
1403       ++index;
1404     }
1405     EXPECT_EQ(10, index);
1406     for (hash_map<int32, double>::const_iterator it = result.begin();
1407          it != result.end(); ++it) {
1408       EXPECT_EQ(message.map_int32_double().at(it->first), it->second);
1409     }
1410   }
1411 
1412   {
1413     int index = 0;
1414     hash_map<string, string> result;
1415     for (RepeatedFieldRef<Message>::iterator it = mf_string_string.begin();
1416          it != mf_string_string.end(); ++it) {
1417       const Message& message = *it;
1418       string key =
1419           message.GetReflection()->GetString(message, fd_map_string_string_key);
1420       string value = message.GetReflection()->GetString(
1421           message, fd_map_string_string_value);
1422       result[key] = value;
1423       ++index;
1424     }
1425     EXPECT_EQ(10, index);
1426     for (hash_map<string, string>::const_iterator it = result.begin();
1427          it != result.end(); ++it) {
1428       EXPECT_EQ(message.map_string_string().at(it->first), it->second);
1429     }
1430   }
1431 
1432   {
1433     int index = 0;
1434     std::map<int32, ForeignMessage> result;
1435     for (RepeatedFieldRef<Message>::iterator it =
1436              mf_int32_foreign_message.begin();
1437          it != mf_int32_foreign_message.end(); ++it) {
1438       const Message& message = *it;
1439       int32 key = message.GetReflection()->GetInt32(
1440           message, fd_map_int32_foreign_message_key);
1441       const ForeignMessage& sub_message = down_cast<const ForeignMessage&>(
1442           message.GetReflection()
1443               ->GetMessage(message, fd_map_int32_foreign_message_value));
1444       result[key].MergeFrom(sub_message);
1445       ++index;
1446     }
1447     EXPECT_EQ(10, index);
1448     for (std::map<int32, ForeignMessage>::const_iterator it = result.begin();
1449          it != result.end(); ++it) {
1450       EXPECT_EQ(message.map_int32_foreign_message().at(it->first).c(),
1451                 it->second.c());
1452     }
1453   }
1454 
1455   // Test MutableRepeatedFieldRef::Add()
1456   entry_int32_int32->GetReflection()->SetInt32(
1457       entry_int32_int32.get(), fd_map_int32_int32->message_type()->field(0),
1458       4321);
1459   entry_int32_int32->GetReflection()->SetInt32(
1460       entry_int32_int32.get(), fd_map_int32_int32->message_type()->field(1),
1461       1234);
1462   mmf_int32_int32.Add(*entry_int32_int32);
1463   EXPECT_EQ(1234, message.map_int32_int32().at(4321));
1464 
1465   entry_int32_double->GetReflection()->SetInt32(
1466       entry_int32_double.get(), fd_map_int32_double->message_type()->field(0),
1467       4321);
1468   entry_int32_double->GetReflection()->SetDouble(
1469       entry_int32_double.get(), fd_map_int32_double->message_type()->field(1),
1470       1234.0);
1471   mmf_int32_double.Add(*entry_int32_double);
1472   EXPECT_EQ(1234.0, message.map_int32_double().at(4321));
1473 
1474   entry_string_string->GetReflection()->SetString(
1475       entry_string_string.get(),
1476       fd_map_string_string->message_type()->field(0), "4321");
1477   entry_string_string->GetReflection()->SetString(
1478       entry_string_string.get(), fd_map_string_string->message_type()->field(1),
1479       "1234");
1480   mmf_string_string.Add(*entry_string_string);
1481   EXPECT_EQ("1234", message.map_string_string().at("4321"));
1482 
1483   entry_int32_foreign_message->GetReflection()->SetInt32(
1484       entry_int32_foreign_message.get(),
1485       fd_map_int32_foreign_message->message_type()->field(0), 4321);
1486   Message* value_message =
1487       entry_int32_foreign_message->GetReflection()->MutableMessage(
1488           entry_int32_foreign_message.get(),
1489           fd_map_int32_foreign_message->message_type()->field(1));
1490   ForeignMessage foreign_message;
1491   foreign_message.set_c(1234);
1492   value_message->CopyFrom(foreign_message);
1493 
1494   mmf_int32_foreign_message.Add(*entry_int32_foreign_message);
1495   EXPECT_EQ(1234, message.map_int32_foreign_message().at(4321).c());
1496 
1497   // Test Reflection::AddAllocatedMessage
1498   Message* free_entry_string_string = MessageFactory::generated_factory()
1499       ->GetPrototype(fd_map_string_string->message_type())
1500       ->New();
1501   entry_string_string->GetReflection()->SetString(
1502       free_entry_string_string,
1503       fd_map_string_string->message_type()->field(0), "4321");
1504   entry_string_string->GetReflection()->SetString(
1505       free_entry_string_string, fd_map_string_string->message_type()->field(1),
1506       "1234");
1507   refl->AddAllocatedMessage(&message, fd_map_string_string,
1508                             free_entry_string_string);
1509 
1510   // Test MutableRepeatedFieldRef::RemoveLast()
1511   mmf_int32_int32.RemoveLast();
1512   mmf_int32_double.RemoveLast();
1513   mmf_string_string.RemoveLast();
1514   mmf_int32_foreign_message.RemoveLast();
1515   EXPECT_EQ(10, message.map_int32_int32().size());
1516   EXPECT_EQ(10, message.map_int32_double().size());
1517   EXPECT_EQ(11, message.map_string_string().size());
1518   EXPECT_EQ(10, message.map_int32_foreign_message().size());
1519 
1520   // Test MutableRepeatedFieldRef::SwapElements()
1521   {
1522     const Message& message0a = mmf_int32_int32.Get(0, entry_int32_int32.get());
1523     int32 int32_value0a =
1524         message0a.GetReflection()->GetInt32(message0a, fd_map_int32_in32_value);
1525     const Message& message9a = mmf_int32_int32.Get(9, entry_int32_int32.get());
1526     int32 int32_value9a =
1527         message9a.GetReflection()->GetInt32(message9a, fd_map_int32_in32_value);
1528 
1529     mmf_int32_int32.SwapElements(0, 9);
1530 
1531     const Message& message0b = mmf_int32_int32.Get(0, entry_int32_int32.get());
1532     int32 int32_value0b =
1533         message0b.GetReflection()->GetInt32(message0b, fd_map_int32_in32_value);
1534     const Message& message9b = mmf_int32_int32.Get(9, entry_int32_int32.get());
1535     int32 int32_value9b =
1536         message9b.GetReflection()->GetInt32(message9b, fd_map_int32_in32_value);
1537 
1538     EXPECT_EQ(int32_value9a, int32_value0b);
1539     EXPECT_EQ(int32_value0a, int32_value9b);
1540   }
1541 
1542   {
1543     const Message& message0a =
1544         mmf_int32_double.Get(0, entry_int32_double.get());
1545     double double_value0a = message0a.GetReflection()->GetDouble(
1546         message0a, fd_map_int32_double_value);
1547     const Message& message9a =
1548         mmf_int32_double.Get(9, entry_int32_double.get());
1549     double double_value9a = message9a.GetReflection()->GetDouble(
1550         message9a, fd_map_int32_double_value);
1551 
1552     mmf_int32_double.SwapElements(0, 9);
1553 
1554     const Message& message0b =
1555         mmf_int32_double.Get(0, entry_int32_double.get());
1556     double double_value0b = message0b.GetReflection()->GetDouble(
1557         message0b, fd_map_int32_double_value);
1558     const Message& message9b =
1559         mmf_int32_double.Get(9, entry_int32_double.get());
1560     double double_value9b = message9b.GetReflection()->GetDouble(
1561         message9b, fd_map_int32_double_value);
1562 
1563     EXPECT_EQ(double_value9a, double_value0b);
1564     EXPECT_EQ(double_value0a, double_value9b);
1565   }
1566 
1567   {
1568     const Message& message0a =
1569         mmf_string_string.Get(0, entry_string_string.get());
1570     string string_value0a = message0a.GetReflection()->GetString(
1571         message0a, fd_map_string_string_value);
1572     const Message& message9a =
1573         mmf_string_string.Get(9, entry_string_string.get());
1574     string string_value9a = message9a.GetReflection()->GetString(
1575         message9a, fd_map_string_string_value);
1576 
1577     mmf_string_string.SwapElements(0, 9);
1578 
1579     const Message& message0b =
1580         mmf_string_string.Get(0, entry_string_string.get());
1581     string string_value0b = message0b.GetReflection()->GetString(
1582         message0b, fd_map_string_string_value);
1583     const Message& message9b =
1584         mmf_string_string.Get(9, entry_string_string.get());
1585     string string_value9b = message9b.GetReflection()->GetString(
1586         message9b, fd_map_string_string_value);
1587 
1588     EXPECT_EQ(string_value9a, string_value0b);
1589     EXPECT_EQ(string_value0a, string_value9b);
1590   }
1591 
1592   {
1593     const Message& message0a =
1594         mmf_int32_foreign_message.Get(0, entry_int32_foreign_message.get());
1595     const ForeignMessage& sub_message0a = down_cast<const ForeignMessage&>(
1596         message0a.GetReflection()
1597             ->GetMessage(message0a, fd_map_int32_foreign_message_value));
1598     int32 int32_value0a = sub_message0a.c();
1599     const Message& message9a =
1600         mmf_int32_foreign_message.Get(9, entry_int32_foreign_message.get());
1601     const ForeignMessage& sub_message9a = down_cast<const ForeignMessage&>(
1602         message9a.GetReflection()
1603             ->GetMessage(message9a, fd_map_int32_foreign_message_value));
1604     int32 int32_value9a = sub_message9a.c();
1605 
1606     mmf_int32_foreign_message.SwapElements(0, 9);
1607 
1608     const Message& message0b =
1609         mmf_int32_foreign_message.Get(0, entry_int32_foreign_message.get());
1610     const ForeignMessage& sub_message0b = down_cast<const ForeignMessage&>(
1611         message0b.GetReflection()
1612             ->GetMessage(message0b, fd_map_int32_foreign_message_value));
1613     int32 int32_value0b = sub_message0b.c();
1614     const Message& message9b =
1615         mmf_int32_foreign_message.Get(9, entry_int32_foreign_message.get());
1616     const ForeignMessage& sub_message9b = down_cast<const ForeignMessage&>(
1617         message9b.GetReflection()
1618             ->GetMessage(message9b, fd_map_int32_foreign_message_value));
1619     int32 int32_value9b = sub_message9b.c();
1620 
1621     EXPECT_EQ(int32_value9a, int32_value0b);
1622     EXPECT_EQ(int32_value0a, int32_value9b);
1623   }
1624 }
1625 
TEST_F(MapFieldReflectionTest,RepeatedFieldRefMergeFromAndSwap)1626 TEST_F(MapFieldReflectionTest, RepeatedFieldRefMergeFromAndSwap) {
1627   // Set-up message content.
1628   TestMap m0, m1, m2;
1629   for (int i = 0; i < 10; ++i) {
1630     (*m0.mutable_map_int32_int32())[i] = Func(i, 1);
1631     (*m0.mutable_map_int32_double())[i] = Func(i, 2);
1632     (*m0.mutable_map_string_string())[StrFunc(i, 1)] = StrFunc(i, 5);
1633     (*m0.mutable_map_int32_foreign_message())[i].set_c(Func(i, 6));
1634     (*m1.mutable_map_int32_int32())[i + 10] = Func(i, 11);
1635     (*m1.mutable_map_int32_double())[i + 10] = Func(i, 12);
1636     (*m1.mutable_map_string_string())[StrFunc(i + 10, 1)] = StrFunc(i, 15);
1637     (*m1.mutable_map_int32_foreign_message())[i + 10].set_c(Func(i, 16));
1638     (*m2.mutable_map_int32_int32())[i + 20] = Func(i, 21);
1639     (*m2.mutable_map_int32_double())[i + 20] = Func(i, 22);
1640     (*m2.mutable_map_string_string())[StrFunc(i + 20, 1)] = StrFunc(i, 25);
1641     (*m2.mutable_map_int32_foreign_message())[i + 20].set_c(Func(i, 26));
1642   }
1643 
1644   const Reflection* refl = m0.GetReflection();
1645   const Descriptor* desc = m0.GetDescriptor();
1646 
1647   // Get FieldDescriptors for all the fields of interest.
1648   const FieldDescriptor* fd_map_int32_int32 =
1649       desc->FindFieldByName("map_int32_int32");
1650   const FieldDescriptor* fd_map_int32_double =
1651       desc->FindFieldByName("map_int32_double");
1652   const FieldDescriptor* fd_map_string_string =
1653       desc->FindFieldByName("map_string_string");
1654   const FieldDescriptor* fd_map_int32_foreign_message =
1655       desc->FindFieldByName("map_int32_foreign_message");
1656 
1657     // Get MutableRepeatedFieldRef objects for all fields of interest.
1658   const MutableRepeatedFieldRef<Message> mmf_int32_int32 =
1659       refl->GetMutableRepeatedFieldRef<Message>(
1660           &m0, fd_map_int32_int32);
1661   const MutableRepeatedFieldRef<Message> mmf_int32_double =
1662       refl->GetMutableRepeatedFieldRef<Message>(
1663           &m0, fd_map_int32_double);
1664   const MutableRepeatedFieldRef<Message> mmf_string_string =
1665       refl->GetMutableRepeatedFieldRef<Message>(
1666           &m0, fd_map_string_string);
1667   const MutableRepeatedFieldRef<Message>
1668       mmf_int32_foreign_message =
1669           refl->GetMutableRepeatedFieldRef<Message>(
1670               &m0, fd_map_int32_foreign_message);
1671 
1672   // Test MutableRepeatedRef::CopyFrom
1673   mmf_int32_int32.CopyFrom(
1674       refl->GetRepeatedFieldRef<Message>(
1675           m1, fd_map_int32_int32));
1676   mmf_int32_double.CopyFrom(
1677       refl->GetRepeatedFieldRef<Message>(
1678           m1, fd_map_int32_double));
1679   mmf_string_string.CopyFrom(
1680       refl->GetRepeatedFieldRef<Message>(
1681           m1, fd_map_string_string));
1682   mmf_int32_foreign_message.CopyFrom(
1683       refl->GetRepeatedFieldRef<Message>(
1684           m1, fd_map_int32_foreign_message));
1685 
1686   for (int i = 0; i < 10; ++i) {
1687     EXPECT_EQ(Func(i, 11), m0.map_int32_int32().at(i + 10));
1688     EXPECT_EQ(Func(i, 12), m0.map_int32_double().at(i + 10));
1689     EXPECT_EQ(StrFunc(i, 15), m0.map_string_string().at(StrFunc(i + 10, 1)));
1690     EXPECT_EQ(Func(i, 16), m0.map_int32_foreign_message().at(i + 10).c());
1691   }
1692 
1693   // Test MutableRepeatedRef::MergeFrom
1694   mmf_int32_int32.MergeFrom(
1695       refl->GetRepeatedFieldRef<Message>(
1696           m2, fd_map_int32_int32));
1697   mmf_int32_double.MergeFrom(
1698       refl->GetRepeatedFieldRef<Message>(
1699           m2, fd_map_int32_double));
1700   mmf_string_string.MergeFrom(
1701       refl->GetRepeatedFieldRef<Message>(
1702           m2, fd_map_string_string));
1703   mmf_int32_foreign_message.MergeFrom(
1704       refl->GetRepeatedFieldRef<Message>(
1705           m2, fd_map_int32_foreign_message));
1706   for (int i = 0; i < 10; ++i) {
1707     EXPECT_EQ(Func(i, 21), m0.map_int32_int32().at(i + 20));
1708     EXPECT_EQ(Func(i, 22), m0.map_int32_double().at(i + 20));
1709     EXPECT_EQ(StrFunc(i, 25), m0.map_string_string().at(StrFunc(i + 20, 1)));
1710     EXPECT_EQ(Func(i, 26), m0.map_int32_foreign_message().at(i + 20).c());
1711   }
1712 
1713   // Test MutableRepeatedRef::Swap
1714   // Swap between m0 and m2.
1715   mmf_int32_int32.Swap(
1716       refl->GetMutableRepeatedFieldRef<Message>(
1717           &m2, fd_map_int32_int32));
1718   mmf_int32_double.Swap(
1719       refl->GetMutableRepeatedFieldRef<Message>(
1720           &m2, fd_map_int32_double));
1721   mmf_string_string.Swap(
1722       refl->GetMutableRepeatedFieldRef<Message>(
1723           &m2, fd_map_string_string));
1724   mmf_int32_foreign_message.Swap(
1725       refl->GetMutableRepeatedFieldRef<Message>(
1726           &m2, fd_map_int32_foreign_message));
1727   for (int i = 0; i < 10; ++i) {
1728     // Check the content of m0.
1729     EXPECT_EQ(Func(i, 21), m0.map_int32_int32().at(i + 20));
1730     EXPECT_EQ(Func(i, 22), m0.map_int32_double().at(i + 20));
1731     EXPECT_EQ(StrFunc(i, 25), m0.map_string_string().at(StrFunc(i + 20, 1)));
1732     EXPECT_EQ(Func(i, 26), m0.map_int32_foreign_message().at(i + 20).c());
1733 
1734     // Check the content of m2.
1735     EXPECT_EQ(Func(i, 11), m2.map_int32_int32().at(i + 10));
1736     EXPECT_EQ(Func(i, 12), m2.map_int32_double().at(i + 10));
1737     EXPECT_EQ(StrFunc(i, 15), m2.map_string_string().at(StrFunc(i + 10, 1)));
1738     EXPECT_EQ(Func(i, 16), m2.map_int32_foreign_message().at(i + 10).c());
1739     EXPECT_EQ(Func(i, 21), m2.map_int32_int32().at(i + 20));
1740     EXPECT_EQ(Func(i, 22), m2.map_int32_double().at(i + 20));
1741     EXPECT_EQ(StrFunc(i, 25), m2.map_string_string().at(StrFunc(i + 20, 1)));
1742     EXPECT_EQ(Func(i, 26), m2.map_int32_foreign_message().at(i + 20).c());
1743   }
1744 
1745   // TODO(teboring): add test for duplicated key
1746 }
1747 
1748 // Generated Message Test ===========================================
1749 
TEST(GeneratedMapFieldTest,Accessors)1750 TEST(GeneratedMapFieldTest, Accessors) {
1751   unittest::TestMap message;
1752 
1753   MapTestUtil::SetMapFields(&message);
1754   MapTestUtil::ExpectMapFieldsSet(message);
1755 
1756   MapTestUtil::ModifyMapFields(&message);
1757   MapTestUtil::ExpectMapFieldsModified(message);
1758 }
1759 
TEST(GeneratedMapFieldTest,SetMapFieldsInitialized)1760 TEST(GeneratedMapFieldTest, SetMapFieldsInitialized) {
1761   unittest::TestMap message;
1762 
1763   MapTestUtil::SetMapFieldsInitialized(&message);
1764   MapTestUtil::ExpectMapFieldsSetInitialized(message);
1765 }
1766 
TEST(GeneratedMapFieldTest,Proto2SetMapFieldsInitialized)1767 TEST(GeneratedMapFieldTest, Proto2SetMapFieldsInitialized) {
1768   unittest::TestEnumMap message;
1769   EXPECT_EQ(unittest::PROTO2_MAP_ENUM_FOO,
1770             (*message.mutable_known_map_field())[0]);
1771 }
1772 
TEST(GeneratedMapFieldTest,Clear)1773 TEST(GeneratedMapFieldTest, Clear) {
1774   unittest::TestMap message;
1775 
1776   MapTestUtil::SetMapFields(&message);
1777   message.Clear();
1778   MapTestUtil::ExpectClear(message);
1779 }
1780 
TEST(GeneratedMapFieldTest,ClearMessageMap)1781 TEST(GeneratedMapFieldTest, ClearMessageMap) {
1782   unittest::TestMessageMap message;
1783 
1784   // Creates a TestAllTypes with default value
1785   TestUtil::ExpectClear((*message.mutable_map_int32_message())[0]);
1786 }
1787 
TEST(GeneratedMapFieldTest,CopyFrom)1788 TEST(GeneratedMapFieldTest, CopyFrom) {
1789   unittest::TestMap message1, message2;
1790 
1791   MapTestUtil::SetMapFields(&message1);
1792   message2.CopyFrom(message1);
1793   MapTestUtil::ExpectMapFieldsSet(message2);
1794 
1795   // Copying from self should be a no-op.
1796   message2.CopyFrom(message2);
1797   MapTestUtil::ExpectMapFieldsSet(message2);
1798 }
1799 
TEST(GeneratedMapFieldTest,CopyFromMessageMap)1800 TEST(GeneratedMapFieldTest, CopyFromMessageMap) {
1801   unittest::TestMessageMap message1, message2;
1802 
1803   (*message1.mutable_map_int32_message())[0].add_repeated_int32(100);
1804   (*message2.mutable_map_int32_message())[0].add_repeated_int32(101);
1805 
1806   message1.CopyFrom(message2);
1807 
1808   // Checks repeated field is overwritten.
1809   EXPECT_EQ(1, message1.map_int32_message().at(0).repeated_int32_size());
1810   EXPECT_EQ(101, message1.map_int32_message().at(0).repeated_int32(0));
1811 }
1812 
TEST(GeneratedMapFieldTest,SwapWithEmpty)1813 TEST(GeneratedMapFieldTest, SwapWithEmpty) {
1814   unittest::TestMap message1, message2;
1815 
1816   MapTestUtil::SetMapFields(&message1);
1817   MapTestUtil::ExpectMapFieldsSet(message1);
1818   MapTestUtil::ExpectClear(message2);
1819 
1820   message1.Swap(&message2);
1821   MapTestUtil::ExpectMapFieldsSet(message2);
1822   MapTestUtil::ExpectClear(message1);
1823 }
1824 
TEST(GeneratedMapFieldTest,SwapWithSelf)1825 TEST(GeneratedMapFieldTest, SwapWithSelf) {
1826   unittest::TestMap message;
1827 
1828   MapTestUtil::SetMapFields(&message);
1829   MapTestUtil::ExpectMapFieldsSet(message);
1830 
1831   message.Swap(&message);
1832   MapTestUtil::ExpectMapFieldsSet(message);
1833 }
1834 
TEST(GeneratedMapFieldTest,SwapWithOther)1835 TEST(GeneratedMapFieldTest, SwapWithOther) {
1836   unittest::TestMap message1, message2;
1837 
1838   MapTestUtil::SetMapFields(&message1);
1839   MapTestUtil::SetMapFields(&message2);
1840   MapTestUtil::ModifyMapFields(&message2);
1841 
1842   message1.Swap(&message2);
1843   MapTestUtil::ExpectMapFieldsModified(message1);
1844   MapTestUtil::ExpectMapFieldsSet(message2);
1845 }
1846 
TEST(GeneratedMapFieldTest,CopyConstructor)1847 TEST(GeneratedMapFieldTest, CopyConstructor) {
1848   unittest::TestMap message1;
1849   MapTestUtil::SetMapFields(&message1);
1850 
1851   unittest::TestMap message2(message1);
1852   MapTestUtil::ExpectMapFieldsSet(message2);
1853 }
1854 
TEST(GeneratedMapFieldTest,CopyAssignmentOperator)1855 TEST(GeneratedMapFieldTest, CopyAssignmentOperator) {
1856   unittest::TestMap message1;
1857   MapTestUtil::SetMapFields(&message1);
1858 
1859   unittest::TestMap message2;
1860   message2 = message1;
1861   MapTestUtil::ExpectMapFieldsSet(message2);
1862 
1863   // Make sure that self-assignment does something sane.
1864   message2.operator=(message2);
1865   MapTestUtil::ExpectMapFieldsSet(message2);
1866 }
1867 
1868 #if !defined(PROTOBUF_TEST_NO_DESCRIPTORS) || \
1869         !defined(GOOGLE_PROTOBUF_NO_RTTI)
TEST(GeneratedMapFieldTest,UpcastCopyFrom)1870 TEST(GeneratedMapFieldTest, UpcastCopyFrom) {
1871   // Test the CopyFrom method that takes in the generic const Message&
1872   // parameter.
1873   unittest::TestMap message1, message2;
1874 
1875   MapTestUtil::SetMapFields(&message1);
1876 
1877   const Message* source = implicit_cast<const Message*>(&message1);
1878   message2.CopyFrom(*source);
1879 
1880   MapTestUtil::ExpectMapFieldsSet(message2);
1881 }
1882 #endif
1883 
1884 #ifndef PROTOBUF_TEST_NO_DESCRIPTORS
1885 
TEST(GeneratedMapFieldTest,CopyFromDynamicMessage)1886 TEST(GeneratedMapFieldTest, CopyFromDynamicMessage) {
1887   // Test copying from a DynamicMessage, which must fall back to using
1888   // reflection.
1889   unittest::TestMap message2;
1890 
1891   // Construct a new version of the dynamic message via the factory.
1892   DynamicMessageFactory factory;
1893   google::protobuf::scoped_ptr<Message> message1;
1894   message1.reset(
1895       factory.GetPrototype(unittest::TestMap::descriptor())->New());
1896   MapReflectionTester reflection_tester(
1897       unittest::TestMap::descriptor());
1898   reflection_tester.SetMapFieldsViaReflection(message1.get());
1899   reflection_tester.ExpectMapFieldsSetViaReflection(*message1);
1900   reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message1.get());
1901   message2.CopyFrom(*message1);
1902   MapTestUtil::ExpectMapFieldsSet(message2);
1903 }
1904 
TEST(GeneratedMapFieldTest,CopyFromDynamicMessageMapReflection)1905 TEST(GeneratedMapFieldTest, CopyFromDynamicMessageMapReflection) {
1906   unittest::TestMap message2;
1907 
1908   // Construct a new version of the dynamic message via the factory.
1909   DynamicMessageFactory factory;
1910   google::protobuf::scoped_ptr<Message> message1;
1911   message1.reset(
1912       factory.GetPrototype(unittest::TestMap::descriptor())->New());
1913   MapReflectionTester reflection_tester(
1914       unittest::TestMap::descriptor());
1915   reflection_tester.SetMapFieldsViaMapReflection(message1.get());
1916   reflection_tester.ExpectMapFieldsSetViaReflection(*message1);
1917   reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message1.get());
1918   message2.CopyFrom(*message1);
1919   MapTestUtil::ExpectMapFieldsSet(message2);
1920 }
1921 
TEST(GeneratedMapFieldTest,DynamicMessageCopyFrom)1922 TEST(GeneratedMapFieldTest, DynamicMessageCopyFrom) {
1923   // Test copying to a DynamicMessage, which must fall back to using reflection.
1924   unittest::TestMap message2;
1925   MapTestUtil::SetMapFields(&message2);
1926 
1927   // Construct a new version of the dynamic message via the factory.
1928   DynamicMessageFactory factory;
1929   google::protobuf::scoped_ptr<Message> message1;
1930   message1.reset(
1931       factory.GetPrototype(unittest::TestMap::descriptor())->New());
1932 
1933   MapReflectionTester reflection_tester(
1934       unittest::TestMap::descriptor());
1935   message1->MergeFrom(message2);
1936   reflection_tester.ExpectMapFieldsSetViaReflection(*message1);
1937   reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message1.get());
1938 }
1939 
TEST(GeneratedMapFieldTest,DynamicMessageCopyFromMapReflection)1940 TEST(GeneratedMapFieldTest, DynamicMessageCopyFromMapReflection) {
1941   MapReflectionTester reflection_tester(
1942       unittest::TestMap::descriptor());
1943   unittest::TestMap message2;
1944   reflection_tester.SetMapFieldsViaMapReflection(&message2);
1945 
1946   // Construct a dynamic message via the factory.
1947   DynamicMessageFactory factory;
1948   google::protobuf::scoped_ptr<Message> message1;
1949   message1.reset(
1950       factory.GetPrototype(unittest::TestMap::descriptor())->New());
1951 
1952   message1->MergeFrom(message2);
1953   reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message1.get());
1954   reflection_tester.ExpectMapFieldsSetViaReflection(*message1);
1955 }
1956 
TEST(GeneratedMapFieldTest,SyncDynamicMapWithRepeatedField)1957 TEST(GeneratedMapFieldTest, SyncDynamicMapWithRepeatedField) {
1958   // Construct a dynamic message via the factory.
1959   MapReflectionTester reflection_tester(
1960       unittest::TestMap::descriptor());
1961   DynamicMessageFactory factory;
1962   google::protobuf::scoped_ptr<Message> message;
1963   message.reset(
1964       factory.GetPrototype(unittest::TestMap::descriptor())->New());
1965   reflection_tester.SetMapFieldsViaReflection(message.get());
1966   reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message.get());
1967   reflection_tester.ExpectMapFieldsSetViaReflection(*message);
1968 }
1969 
1970 #endif  // !PROTOBUF_TEST_NO_DESCRIPTORS
1971 
TEST(GeneratedMapFieldTest,NonEmptyMergeFrom)1972 TEST(GeneratedMapFieldTest, NonEmptyMergeFrom) {
1973   unittest::TestMap message1, message2;
1974 
1975   MapTestUtil::SetMapFields(&message1);
1976 
1977   // This field will test merging into an empty spot.
1978   (*message2.mutable_map_int32_int32())[1] = 1;
1979   message1.mutable_map_int32_int32()->erase(1);
1980 
1981   // This tests overwriting.
1982   (*message2.mutable_map_int32_double())[1] = 1;
1983   (*message1.mutable_map_int32_double())[1] = 2;
1984 
1985   message1.MergeFrom(message2);
1986   MapTestUtil::ExpectMapFieldsSet(message1);
1987 }
1988 
TEST(GeneratedMapFieldTest,MergeFromMessageMap)1989 TEST(GeneratedMapFieldTest, MergeFromMessageMap) {
1990   unittest::TestMessageMap message1, message2;
1991 
1992   (*message1.mutable_map_int32_message())[0].add_repeated_int32(100);
1993   (*message2.mutable_map_int32_message())[0].add_repeated_int32(101);
1994 
1995   message1.MergeFrom(message2);
1996 
1997   // Checks repeated field is overwritten.
1998   EXPECT_EQ(1, message1.map_int32_message().at(0).repeated_int32_size());
1999   EXPECT_EQ(101, message1.map_int32_message().at(0).repeated_int32(0));
2000 }
2001 
2002 // Test the generated SerializeWithCachedSizesToArray()
TEST(GeneratedMapFieldTest,SerializationToArray)2003 TEST(GeneratedMapFieldTest, SerializationToArray) {
2004   unittest::TestMap message1, message2;
2005   string data;
2006   MapTestUtil::SetMapFields(&message1);
2007   int size = message1.ByteSize();
2008   data.resize(size);
2009   uint8* start = reinterpret_cast<uint8*>(string_as_array(&data));
2010   uint8* end = message1.SerializeWithCachedSizesToArray(start);
2011   EXPECT_EQ(size, end - start);
2012   EXPECT_TRUE(message2.ParseFromString(data));
2013   MapTestUtil::ExpectMapFieldsSet(message2);
2014 }
2015 
2016 // Test the generated SerializeWithCachedSizes()
TEST(GeneratedMapFieldTest,SerializationToStream)2017 TEST(GeneratedMapFieldTest, SerializationToStream) {
2018   unittest::TestMap message1, message2;
2019   MapTestUtil::SetMapFields(&message1);
2020   int size = message1.ByteSize();
2021   string data;
2022   data.resize(size);
2023   {
2024     // Allow the output stream to buffer only one byte at a time.
2025     io::ArrayOutputStream array_stream(string_as_array(&data), size, 1);
2026     io::CodedOutputStream output_stream(&array_stream);
2027     message1.SerializeWithCachedSizes(&output_stream);
2028     EXPECT_FALSE(output_stream.HadError());
2029     EXPECT_EQ(size, output_stream.ByteCount());
2030   }
2031   EXPECT_TRUE(message2.ParseFromString(data));
2032   MapTestUtil::ExpectMapFieldsSet(message2);
2033 }
2034 
2035 
TEST(GeneratedMapFieldTest,SameTypeMaps)2036 TEST(GeneratedMapFieldTest, SameTypeMaps) {
2037   const Descriptor* map1 = unittest::TestSameTypeMap::descriptor()
2038                                ->FindFieldByName("map1")
2039                                ->message_type();
2040   const Descriptor* map2 = unittest::TestSameTypeMap::descriptor()
2041                                ->FindFieldByName("map2")
2042                                ->message_type();
2043 
2044   const Message* map1_entry =
2045       MessageFactory::generated_factory()->GetPrototype(map1);
2046   const Message* map2_entry =
2047       MessageFactory::generated_factory()->GetPrototype(map2);
2048 
2049   EXPECT_EQ(map1, map1_entry->GetDescriptor());
2050   EXPECT_EQ(map2, map2_entry->GetDescriptor());
2051 }
2052 
TEST(GeneratedMapFieldTest,Proto2UnknownEnum)2053 TEST(GeneratedMapFieldTest, Proto2UnknownEnum) {
2054   unittest::TestEnumMapPlusExtra from;
2055   (*from.mutable_known_map_field())[0] = unittest::E_PROTO2_MAP_ENUM_FOO;
2056   (*from.mutable_unknown_map_field())[0] = unittest::E_PROTO2_MAP_ENUM_EXTRA;
2057   string data;
2058   from.SerializeToString(&data);
2059 
2060   unittest::TestEnumMap to;
2061   EXPECT_TRUE(to.ParseFromString(data));
2062   EXPECT_EQ(0, to.unknown_map_field().size());
2063   const UnknownFieldSet& unknown_field_set =
2064       to.GetReflection()->GetUnknownFields(to);
2065   EXPECT_EQ(1, unknown_field_set.field_count());
2066   EXPECT_EQ(1, to.known_map_field().size());
2067   EXPECT_EQ(unittest::PROTO2_MAP_ENUM_FOO, to.known_map_field().at(0));
2068 
2069   data.clear();
2070   from.Clear();
2071   to.SerializeToString(&data);
2072   EXPECT_TRUE(from.ParseFromString(data));
2073   EXPECT_EQ(0, from.GetReflection()->GetUnknownFields(from).field_count());
2074   EXPECT_EQ(1, from.known_map_field().size());
2075   EXPECT_EQ(unittest::E_PROTO2_MAP_ENUM_FOO, from.known_map_field().at(0));
2076   EXPECT_EQ(1, from.unknown_map_field().size());
2077   EXPECT_EQ(unittest::E_PROTO2_MAP_ENUM_EXTRA, from.unknown_map_field().at(0));
2078 }
2079 
TEST(GeneratedMapFieldTest,StandardWireFormat)2080 TEST(GeneratedMapFieldTest, StandardWireFormat) {
2081   unittest::TestMap message;
2082   string data = "\x0A\x04\x08\x01\x10\x01";
2083 
2084   EXPECT_TRUE(message.ParseFromString(data));
2085   EXPECT_EQ(1, message.map_int32_int32().size());
2086   EXPECT_EQ(1, message.map_int32_int32().at(1));
2087 }
2088 
TEST(GeneratedMapFieldTest,UnorderedWireFormat)2089 TEST(GeneratedMapFieldTest, UnorderedWireFormat) {
2090   unittest::TestMap message;
2091 
2092   // put value before key in wire format
2093   string data = "\x0A\x04\x10\x01\x08\x02";
2094 
2095   EXPECT_TRUE(message.ParseFromString(data));
2096   EXPECT_EQ(1, message.map_int32_int32().size());
2097   EXPECT_EQ(1, message.map_int32_int32().at(2));
2098 }
2099 
TEST(GeneratedMapFieldTest,DuplicatedKeyWireFormat)2100 TEST(GeneratedMapFieldTest, DuplicatedKeyWireFormat) {
2101   unittest::TestMap message;
2102 
2103   // Two key fields in wire format
2104   string data = "\x0A\x06\x08\x01\x08\x02\x10\x01";
2105 
2106   EXPECT_TRUE(message.ParseFromString(data));
2107   EXPECT_EQ(1, message.map_int32_int32().size());
2108   EXPECT_EQ(1, message.map_int32_int32().at(2));
2109 }
2110 
TEST(GeneratedMapFieldTest,DuplicatedValueWireFormat)2111 TEST(GeneratedMapFieldTest, DuplicatedValueWireFormat) {
2112   unittest::TestMap message;
2113 
2114   // Two value fields in wire format
2115   string data = "\x0A\x06\x08\x01\x10\x01\x10\x02";
2116 
2117   EXPECT_TRUE(message.ParseFromString(data));
2118   EXPECT_EQ(1, message.map_int32_int32().size());
2119   EXPECT_EQ(2, message.map_int32_int32().at(1));
2120 }
2121 
TEST(GeneratedMapFieldTest,MissedKeyWireFormat)2122 TEST(GeneratedMapFieldTest, MissedKeyWireFormat) {
2123   unittest::TestMap message;
2124 
2125   // No key field in wire format
2126   string data = "\x0A\x02\x10\x01";
2127 
2128   EXPECT_TRUE(message.ParseFromString(data));
2129   EXPECT_EQ(1, message.map_int32_int32().size());
2130   EXPECT_EQ(1, message.map_int32_int32().at(0));
2131 }
2132 
TEST(GeneratedMapFieldTest,MissedValueWireFormat)2133 TEST(GeneratedMapFieldTest, MissedValueWireFormat) {
2134   unittest::TestMap message;
2135 
2136   // No value field in wire format
2137   string data = "\x0A\x02\x08\x01";
2138 
2139   EXPECT_TRUE(message.ParseFromString(data));
2140   EXPECT_EQ(1, message.map_int32_int32().size());
2141   EXPECT_EQ(0, message.map_int32_int32().at(1));
2142 }
2143 
TEST(GeneratedMapFieldTest,MissedValueTextFormat)2144 TEST(GeneratedMapFieldTest, MissedValueTextFormat) {
2145   unittest::TestMap message;
2146 
2147   // No value field in text format
2148   string text =
2149       "map_int32_foreign_message {\n"
2150       "  key: 1234567890\n"
2151       "}";
2152 
2153   EXPECT_TRUE(google::protobuf::TextFormat::ParseFromString(text, &message));
2154   EXPECT_EQ(1, message.map_int32_foreign_message().size());
2155   EXPECT_EQ(11, message.ByteSize());
2156 }
2157 
TEST(GeneratedMapFieldTest,UnknownFieldWireFormat)2158 TEST(GeneratedMapFieldTest, UnknownFieldWireFormat) {
2159   unittest::TestMap message;
2160 
2161   // Unknown field in wire format
2162   string data = "\x0A\x06\x08\x02\x10\x03\x18\x01";
2163 
2164   EXPECT_TRUE(message.ParseFromString(data));
2165   EXPECT_EQ(1, message.map_int32_int32().size());
2166   EXPECT_EQ(3, message.map_int32_int32().at(2));
2167 }
2168 
TEST(GeneratedMapFieldTest,CorruptedWireFormat)2169 TEST(GeneratedMapFieldTest, CorruptedWireFormat) {
2170   unittest::TestMap message;
2171 
2172   // corrupted data in wire format
2173   string data = "\x0A\x06\x08\x02\x11\x03";
2174 
2175   EXPECT_FALSE(message.ParseFromString(data));
2176 }
2177 
TEST(GeneratedMapFieldTest,IsInitialized)2178 TEST(GeneratedMapFieldTest, IsInitialized) {
2179   unittest::TestRequiredMessageMap map_message;
2180 
2181   // Add an uninitialized message.
2182   (*map_message.mutable_map_field())[0];
2183   EXPECT_FALSE(map_message.IsInitialized());
2184 
2185   // Initialize uninitialized message
2186   (*map_message.mutable_map_field())[0].set_a(0);
2187   (*map_message.mutable_map_field())[0].set_b(0);
2188   (*map_message.mutable_map_field())[0].set_c(0);
2189   EXPECT_TRUE(map_message.IsInitialized());
2190 }
2191 
2192 // Generated Message Reflection Test ================================
2193 
TEST(GeneratedMapFieldReflectionTest,SpaceUsed)2194 TEST(GeneratedMapFieldReflectionTest, SpaceUsed) {
2195   unittest::TestMap message;
2196   MapReflectionTester reflection_tester(
2197     unittest::TestMap::descriptor());
2198   reflection_tester.SetMapFieldsViaReflection(&message);
2199 
2200   EXPECT_LT(0, message.GetReflection()->SpaceUsed(message));
2201 }
2202 
TEST(GeneratedMapFieldReflectionTest,Accessors)2203 TEST(GeneratedMapFieldReflectionTest, Accessors) {
2204   // Set every field to a unique value then go back and check all those
2205   // values.
2206   unittest::TestMap message;
2207   MapReflectionTester reflection_tester(
2208     unittest::TestMap::descriptor());
2209   reflection_tester.SetMapFieldsViaReflection(&message);
2210   MapTestUtil::ExpectMapFieldsSet(message);
2211   reflection_tester.ExpectMapFieldsSetViaReflection(message);
2212   reflection_tester.ExpectMapFieldsSetViaReflectionIterator(&message);
2213 
2214   reflection_tester.ModifyMapFieldsViaReflection(&message);
2215   MapTestUtil::ExpectMapFieldsModified(message);
2216 }
2217 
TEST(GeneratedMapFieldReflectionTest,Swap)2218 TEST(GeneratedMapFieldReflectionTest, Swap) {
2219   unittest::TestMap message1;
2220   unittest::TestMap message2;
2221 
2222   MapTestUtil::SetMapFields(&message1);
2223 
2224   const Reflection* reflection = message1.GetReflection();
2225   reflection->Swap(&message1, &message2);
2226 
2227   MapTestUtil::ExpectClear(message1);
2228   MapTestUtil::ExpectMapFieldsSet(message2);
2229 }
2230 
TEST(GeneratedMapFieldReflectionTest,SwapWithBothSet)2231 TEST(GeneratedMapFieldReflectionTest, SwapWithBothSet) {
2232   unittest::TestMap message1;
2233   unittest::TestMap message2;
2234 
2235   MapTestUtil::SetMapFields(&message1);
2236   MapTestUtil::SetMapFields(&message2);
2237   MapTestUtil::ModifyMapFields(&message2);
2238 
2239   const Reflection* reflection = message1.GetReflection();
2240   reflection->Swap(&message1, &message2);
2241 
2242   MapTestUtil::ExpectMapFieldsModified(message1);
2243   MapTestUtil::ExpectMapFieldsSet(message2);
2244 }
2245 
TEST(GeneratedMapFieldReflectionTest,SwapFields)2246 TEST(GeneratedMapFieldReflectionTest, SwapFields) {
2247   unittest::TestMap message1;
2248   unittest::TestMap message2;
2249 
2250   MapTestUtil::SetMapFields(&message2);
2251 
2252   vector<const FieldDescriptor*> fields;
2253   const Reflection* reflection = message1.GetReflection();
2254   reflection->ListFields(message2, &fields);
2255   reflection->SwapFields(&message1, &message2, fields);
2256 
2257   MapTestUtil::ExpectMapFieldsSet(message1);
2258   MapTestUtil::ExpectClear(message2);
2259 }
2260 
TEST(GeneratedMapFieldReflectionTest,ClearField)2261 TEST(GeneratedMapFieldReflectionTest, ClearField) {
2262   unittest::TestMap message;
2263   MapTestUtil::SetMapFields(&message);
2264   MapTestUtil::ExpectMapFieldsSet(message);
2265 
2266   MapReflectionTester reflection_tester(
2267       unittest::TestMap::descriptor());
2268   reflection_tester.ClearMapFieldsViaReflection(&message);
2269   reflection_tester.ExpectClearViaReflection(message);
2270   reflection_tester.ExpectClearViaReflectionIterator(&message);
2271 }
2272 
TEST(GeneratedMapFieldReflectionTest,RemoveLast)2273 TEST(GeneratedMapFieldReflectionTest, RemoveLast) {
2274   unittest::TestMap message;
2275   MapReflectionTester reflection_tester(
2276       unittest::TestMap::descriptor());
2277 
2278   MapTestUtil::SetMapFields(&message);
2279   MapTestUtil::ExpectMapsSize(message, 2);
2280   std::vector<const Message*> expected_entries =
2281       MapTestUtil::GetMapEntries(message, 0);
2282 
2283   reflection_tester.RemoveLastMapsViaReflection(&message);
2284 
2285   MapTestUtil::ExpectMapsSize(message, 1);
2286   std::vector<const Message*> remained_entries =
2287       MapTestUtil::GetMapEntries(message, 0);
2288   EXPECT_TRUE(expected_entries == remained_entries);
2289 }
2290 
TEST(GeneratedMapFieldReflectionTest,ReleaseLast)2291 TEST(GeneratedMapFieldReflectionTest, ReleaseLast) {
2292   unittest::TestMap message;
2293   const Descriptor* descriptor = message.GetDescriptor();
2294   MapReflectionTester reflection_tester(descriptor);
2295 
2296   MapTestUtil::SetMapFields(&message);
2297 
2298   MapTestUtil::ExpectMapsSize(message, 2);
2299 
2300   reflection_tester.ReleaseLastMapsViaReflection(&message);
2301 
2302   MapTestUtil::ExpectMapsSize(message, 1);
2303 
2304   // Now test that we actually release the right message.
2305   message.Clear();
2306   MapTestUtil::SetMapFields(&message);
2307 
2308   MapTestUtil::ExpectMapsSize(message, 2);
2309   std::vector<const Message*> expect_last =
2310       MapTestUtil::GetMapEntries(message, 1);
2311   std::vector<const Message*> release_last =
2312       MapTestUtil::GetMapEntriesFromRelease(&message);
2313   MapTestUtil::ExpectMapsSize(message, 1);
2314   EXPECT_TRUE(expect_last == release_last);
2315   for (std::vector<const Message*>::iterator it = release_last.begin();
2316        it != release_last.end(); ++it) {
2317     delete *it;
2318   }
2319 }
2320 
TEST(GeneratedMapFieldReflectionTest,SwapElements)2321 TEST(GeneratedMapFieldReflectionTest, SwapElements) {
2322   unittest::TestMap message;
2323   MapReflectionTester reflection_tester(
2324     unittest::TestMap::descriptor());
2325 
2326   MapTestUtil::SetMapFields(&message);
2327 
2328   // Get pointers of map entries at their original position
2329   std::vector<const Message*> entries0 = MapTestUtil::GetMapEntries(message, 0);
2330   std::vector<const Message*> entries1 = MapTestUtil::GetMapEntries(message, 1);
2331 
2332   // Swap the first time.
2333   reflection_tester.SwapMapsViaReflection(&message);
2334 
2335   // Get pointer of map entry after swap once.
2336   std::vector<const Message*> entries0_once =
2337       MapTestUtil::GetMapEntries(message, 0);
2338   std::vector<const Message*> entries1_once =
2339       MapTestUtil::GetMapEntries(message, 1);
2340 
2341   // Test map entries are swapped.
2342   MapTestUtil::ExpectMapsSize(message, 2);
2343   EXPECT_TRUE(entries0 == entries1_once);
2344   EXPECT_TRUE(entries1 == entries0_once);
2345 
2346   // Swap the second time.
2347   reflection_tester.SwapMapsViaReflection(&message);
2348 
2349   // Get pointer of map entry after swap once.
2350   std::vector<const Message*> entries0_twice =
2351       MapTestUtil::GetMapEntries(message, 0);
2352   std::vector<const Message*> entries1_twice =
2353       MapTestUtil::GetMapEntries(message, 1);
2354 
2355   // Test map entries are swapped back.
2356   MapTestUtil::ExpectMapsSize(message, 2);
2357   EXPECT_TRUE(entries0 == entries0_twice);
2358   EXPECT_TRUE(entries1 == entries1_twice);
2359 }
2360 
TEST(GeneratedMapFieldReflectionTest,MutableUnknownFields)2361 TEST(GeneratedMapFieldReflectionTest, MutableUnknownFields) {
2362   unittest::TestMap message;
2363   MapReflectionTester reflection_tester(
2364     unittest::TestMap::descriptor());
2365   reflection_tester.MutableUnknownFieldsOfMapFieldsViaReflection(&message);
2366 }
2367 
TEST(GeneratedMapFieldReflectionTest,EmbedProto2Message)2368 TEST(GeneratedMapFieldReflectionTest, EmbedProto2Message) {
2369   unittest::TestMessageMap message;
2370 
2371   const FieldDescriptor* map_field =
2372       unittest::TestMessageMap::descriptor()->FindFieldByName(
2373           "map_int32_message");
2374   const FieldDescriptor* value =
2375       map_field->message_type()->FindFieldByName("value");
2376 
2377   Message* entry_message =
2378       message.GetReflection()->AddMessage(&message, map_field);
2379   EXPECT_EQ(
2380       &entry_message->GetReflection()->GetMessage(*entry_message, value),
2381       reinterpret_cast<const Message*>(&TestAllTypes::default_instance()));
2382 
2383   Message* proto2_message =
2384       entry_message->GetReflection()->MutableMessage(entry_message, value);
2385   EXPECT_EQ(unittest::TestAllTypes::descriptor(),
2386             proto2_message->GetDescriptor());
2387   ASSERT_EQ(1, message.map_int32_message().size());
2388 }
2389 
TEST(GeneratedMapFieldReflectionTest,MergeFromClearMapEntry)2390 TEST(GeneratedMapFieldReflectionTest, MergeFromClearMapEntry) {
2391   unittest::TestMap message;
2392   const FieldDescriptor* map_field =
2393       unittest::TestMap::descriptor()->FindFieldByName("map_int32_int32");
2394   const FieldDescriptor* key =
2395       map_field->message_type()->FindFieldByName("key");
2396   const FieldDescriptor* value =
2397       map_field->message_type()->FindFieldByName("value");
2398 
2399   Message* entry_message1 =
2400       message.GetReflection()->AddMessage(&message, map_field);
2401   EXPECT_FALSE(entry_message1->GetReflection()->HasField(*entry_message1, key));
2402   EXPECT_FALSE(
2403       entry_message1->GetReflection()->HasField(*entry_message1, value));
2404 
2405   Message* entry_message2 =
2406       message.GetReflection()->AddMessage(&message, map_field);
2407   EXPECT_FALSE(entry_message2->GetReflection()->HasField(*entry_message2, key));
2408   EXPECT_FALSE(
2409       entry_message2->GetReflection()->HasField(*entry_message2, value));
2410 
2411   entry_message1->MergeFrom(*entry_message2);
2412   EXPECT_FALSE(entry_message1->GetReflection()->HasField(*entry_message1, key));
2413   EXPECT_FALSE(
2414       entry_message1->GetReflection()->HasField(*entry_message1, value));
2415 }
2416 
TEST(GeneratedMapFieldReflectionTest,MapEntryClear)2417 TEST(GeneratedMapFieldReflectionTest, MapEntryClear) {
2418   unittest::TestMap message;
2419   MapReflectionTester reflection_tester(
2420     unittest::TestMap::descriptor());
2421   reflection_tester.MutableUnknownFieldsOfMapFieldsViaReflection(&message);
2422 }
2423 
TEST(GeneratedMapFieldReflectionTest,Proto2MapEntryClear)2424 TEST(GeneratedMapFieldReflectionTest, Proto2MapEntryClear) {
2425   unittest::TestEnumMap message;
2426   const Descriptor* descriptor = message.GetDescriptor();
2427   const FieldDescriptor* field_descriptor =
2428       descriptor->FindFieldByName("known_map_field");
2429   const FieldDescriptor* value_descriptor =
2430       field_descriptor->message_type()->FindFieldByName("value");
2431   Message* sub_message =
2432       message.GetReflection()->AddMessage(&message, field_descriptor);
2433   EXPECT_EQ(0, sub_message->GetReflection()->GetEnumValue(*sub_message,
2434                                                           value_descriptor));
2435 }
2436 
2437 // Map Reflection API Test =========================================
2438 
TEST(GeneratedMapFieldReflectionTest,SetViaMapReflection)2439 TEST(GeneratedMapFieldReflectionTest, SetViaMapReflection) {
2440   unittest::TestMap message;
2441   MapReflectionTester reflection_tester(
2442       unittest::TestMap::descriptor());
2443   reflection_tester.SetMapFieldsViaMapReflection(&message);
2444   reflection_tester.ExpectMapFieldsSetViaReflection(message);
2445   reflection_tester.ExpectMapFieldsSetViaReflectionIterator(&message);
2446 }
2447 
2448 // Dynamic Message Test =============================================
2449 
2450 class MapFieldInDynamicMessageTest : public testing::Test {
2451  protected:
2452   const DescriptorPool* pool_;
2453   DynamicMessageFactory factory_;
2454   const Descriptor* map_descriptor_;
2455   const Descriptor* recursive_map_descriptor_;
2456   const Message* map_prototype_;
2457 
MapFieldInDynamicMessageTest()2458   MapFieldInDynamicMessageTest()
2459       : pool_(DescriptorPool::generated_pool()), factory_(pool_) {}
2460 
SetUp()2461   virtual void SetUp() {
2462     map_descriptor_ =
2463       pool_->FindMessageTypeByName("protobuf_unittest.TestMap");
2464     recursive_map_descriptor_ =
2465         pool_->FindMessageTypeByName("protobuf_unittest.TestRecursiveMapMessage");
2466     ASSERT_TRUE(map_descriptor_ != NULL);
2467     ASSERT_TRUE(recursive_map_descriptor_ != NULL);
2468     map_prototype_ = factory_.GetPrototype(map_descriptor_);
2469   }
2470 };
2471 
TEST_F(MapFieldInDynamicMessageTest,MapIndependentOffsets)2472 TEST_F(MapFieldInDynamicMessageTest, MapIndependentOffsets) {
2473   // Check that all fields have independent offsets by setting each
2474   // one to a unique value then checking that they all still have those
2475   // unique values (i.e. they don't stomp each other).
2476   google::protobuf::scoped_ptr<Message> message(map_prototype_->New());
2477   MapReflectionTester reflection_tester(map_descriptor_);
2478 
2479   reflection_tester.SetMapFieldsViaReflection(message.get());
2480   reflection_tester.ExpectMapFieldsSetViaReflection(*message);
2481 }
2482 
TEST_F(MapFieldInDynamicMessageTest,DynamicMapReflection)2483 TEST_F(MapFieldInDynamicMessageTest, DynamicMapReflection) {
2484   // Check that map fields work properly.
2485   google::protobuf::scoped_ptr<Message> message(map_prototype_->New());
2486 
2487   // Check set functions.
2488   MapReflectionTester reflection_tester(map_descriptor_);
2489   reflection_tester.SetMapFieldsViaMapReflection(message.get());
2490   reflection_tester.ExpectMapFieldsSetViaReflection(*message);
2491 }
2492 
TEST_F(MapFieldInDynamicMessageTest,MapSpaceUsed)2493 TEST_F(MapFieldInDynamicMessageTest, MapSpaceUsed) {
2494   // Test that SpaceUsed() works properly
2495 
2496   // Since we share the implementation with generated messages, we don't need
2497   // to test very much here.  Just make sure it appears to be working.
2498 
2499   google::protobuf::scoped_ptr<Message> message(map_prototype_->New());
2500   MapReflectionTester reflection_tester(map_descriptor_);
2501 
2502   int initial_space_used = message->SpaceUsed();
2503 
2504   reflection_tester.SetMapFieldsViaReflection(message.get());
2505   EXPECT_LT(initial_space_used, message->SpaceUsed());
2506 }
2507 
TEST_F(MapFieldInDynamicMessageTest,RecursiveMap)2508 TEST_F(MapFieldInDynamicMessageTest, RecursiveMap) {
2509   TestRecursiveMapMessage from;
2510   (*from.mutable_a())[""];
2511   string data = from.SerializeAsString();
2512   google::protobuf::scoped_ptr<Message> to(
2513       factory_.GetPrototype(recursive_map_descriptor_)->New());
2514   ASSERT_TRUE(to->ParseFromString(data));
2515 }
2516 
2517 // ReflectionOps Test ===============================================
2518 
TEST(ReflectionOpsForMapFieldTest,MapSanityCheck)2519 TEST(ReflectionOpsForMapFieldTest, MapSanityCheck) {
2520   unittest::TestMap message;
2521 
2522   MapTestUtil::SetMapFields(&message);
2523   MapTestUtil::ExpectMapFieldsSet(message);
2524 }
2525 
TEST(ReflectionOpsForMapFieldTest,MapCopy)2526 TEST(ReflectionOpsForMapFieldTest, MapCopy) {
2527   unittest::TestMap message, message2;
2528 
2529   MapTestUtil::SetMapFields(&message);
2530 
2531   ReflectionOps::Copy(message, &message2);
2532 
2533   MapTestUtil::ExpectMapFieldsSet(message2);
2534 
2535   // Copying from self should be a no-op.
2536   ReflectionOps::Copy(message2, &message2);
2537   MapTestUtil::ExpectMapFieldsSet(message2);
2538 }
2539 
TEST(ReflectionOpsForMapFieldTest,MergeMap)2540 TEST(ReflectionOpsForMapFieldTest, MergeMap) {
2541   // Note:  Copy is implemented in terms of Merge() so technically the Copy
2542   //   test already tested most of this.
2543 
2544   unittest::TestMap message, message2;
2545 
2546   MapTestUtil::SetMapFields(&message);
2547 
2548   ReflectionOps::Merge(message2, &message);
2549 
2550   MapTestUtil::ExpectMapFieldsSet(message);
2551 }
2552 
TEST(ReflectionOpsForMapFieldTest,ClearMap)2553 TEST(ReflectionOpsForMapFieldTest, ClearMap) {
2554   unittest::TestMap message;
2555 
2556   MapTestUtil::SetMapFields(&message);
2557 
2558   ReflectionOps::Clear(&message);
2559 
2560   MapTestUtil::ExpectClear(message);
2561 }
2562 
TEST(ReflectionOpsForMapFieldTest,MapDiscardUnknownFields)2563 TEST(ReflectionOpsForMapFieldTest, MapDiscardUnknownFields) {
2564   unittest::TestMap message;
2565   MapTestUtil::SetMapFields(&message);
2566 
2567   // Set some unknown fields in message.
2568   message.GetReflection()->MutableUnknownFields(&message)->
2569       AddVarint(123456, 654321);
2570 
2571   // Discard them.
2572   ReflectionOps::DiscardUnknownFields(&message);
2573   MapTestUtil::ExpectMapFieldsSet(message);
2574 
2575   EXPECT_EQ(0, message.GetReflection()->
2576       GetUnknownFields(message).field_count());
2577 }
2578 
2579 // Wire Format Test =================================================
2580 
TEST(WireFormatForMapFieldTest,ParseMap)2581 TEST(WireFormatForMapFieldTest, ParseMap) {
2582   unittest::TestMap source, dest;
2583   string data;
2584 
2585   // Serialize using the generated code.
2586   MapTestUtil::SetMapFields(&source);
2587   source.SerializeToString(&data);
2588 
2589   // Parse using WireFormat.
2590   io::ArrayInputStream raw_input(data.data(), data.size());
2591   io::CodedInputStream input(&raw_input);
2592   WireFormat::ParseAndMergePartial(&input, &dest);
2593 
2594   // Check.
2595   MapTestUtil::ExpectMapFieldsSet(dest);
2596 }
2597 
TEST(WireFormatForMapFieldTest,MapByteSize)2598 TEST(WireFormatForMapFieldTest, MapByteSize) {
2599   unittest::TestMap message;
2600   MapTestUtil::SetMapFields(&message);
2601 
2602   EXPECT_EQ(message.ByteSize(), WireFormat::ByteSize(message));
2603   message.Clear();
2604   EXPECT_EQ(0, message.ByteSize());
2605   EXPECT_EQ(0, WireFormat::ByteSize(message));
2606 }
2607 
TEST(WireFormatForMapFieldTest,SerializeMap)2608 TEST(WireFormatForMapFieldTest, SerializeMap) {
2609   unittest::TestMap message;
2610   string generated_data;
2611   string dynamic_data;
2612 
2613   MapTestUtil::SetMapFields(&message);
2614 
2615   // Serialize using the generated code.
2616   {
2617     message.ByteSize();
2618     io::StringOutputStream raw_output(&generated_data);
2619     io::CodedOutputStream output(&raw_output);
2620     message.SerializeWithCachedSizes(&output);
2621     ASSERT_FALSE(output.HadError());
2622   }
2623 
2624   // Serialize using WireFormat.
2625   {
2626     io::StringOutputStream raw_output(&dynamic_data);
2627     io::CodedOutputStream output(&raw_output);
2628     int size = WireFormat::ByteSize(message);
2629     WireFormat::SerializeWithCachedSizes(message, size, &output);
2630     ASSERT_FALSE(output.HadError());
2631   }
2632 
2633   // Should be the same.
2634   // Don't use EXPECT_EQ here because we're comparing raw binary data and
2635   // we really don't want it dumped to stdout on failure.
2636   EXPECT_TRUE(dynamic_data == generated_data);
2637 }
2638 
TEST(WireFormatForMapFieldTest,MapParseHelpers)2639 TEST(WireFormatForMapFieldTest, MapParseHelpers) {
2640   string data;
2641 
2642   {
2643     // Set up.
2644     protobuf_unittest::TestMap message;
2645     MapTestUtil::SetMapFields(&message);
2646     message.SerializeToString(&data);
2647   }
2648 
2649   {
2650     // Test ParseFromString.
2651     protobuf_unittest::TestMap message;
2652     EXPECT_TRUE(message.ParseFromString(data));
2653     MapTestUtil::ExpectMapFieldsSet(message);
2654   }
2655 
2656   {
2657     // Test ParseFromIstream.
2658     protobuf_unittest::TestMap message;
2659     stringstream stream(data);
2660     EXPECT_TRUE(message.ParseFromIstream(&stream));
2661     EXPECT_TRUE(stream.eof());
2662     MapTestUtil::ExpectMapFieldsSet(message);
2663   }
2664 
2665   {
2666     // Test ParseFromBoundedZeroCopyStream.
2667     string data_with_junk(data);
2668     data_with_junk.append("some junk on the end");
2669     io::ArrayInputStream stream(data_with_junk.data(), data_with_junk.size());
2670     protobuf_unittest::TestMap message;
2671     EXPECT_TRUE(message.ParseFromBoundedZeroCopyStream(&stream, data.size()));
2672     MapTestUtil::ExpectMapFieldsSet(message);
2673   }
2674 
2675   {
2676     // Test that ParseFromBoundedZeroCopyStream fails (but doesn't crash) if
2677     // EOF is reached before the expected number of bytes.
2678     io::ArrayInputStream stream(data.data(), data.size());
2679     protobuf_unittest::TestAllTypes message;
2680     EXPECT_FALSE(
2681       message.ParseFromBoundedZeroCopyStream(&stream, data.size() + 1));
2682   }
2683 }
2684 
2685 // Text Format Test =================================================
2686 
TEST(TextFormatMapTest,SerializeAndParse)2687 TEST(TextFormatMapTest, SerializeAndParse) {
2688   unittest::TestMap source;
2689   unittest::TestMap dest;
2690   MapTestUtil::SetMapFields(&source);
2691   string output;
2692 
2693   // Test compact ASCII
2694   TextFormat::Printer printer;
2695   printer.PrintToString(source, &output);
2696   TextFormat::Parser parser;
2697   EXPECT_TRUE(parser.ParseFromString(output, &dest));
2698   MapTestUtil::ExpectMapFieldsSet(dest);
2699 }
2700 
TEST(TextFormatMapTest,Sorted)2701 TEST(TextFormatMapTest, Sorted) {
2702   unittest::TestMap message;
2703   MapReflectionTester tester(message.GetDescriptor());
2704   tester.SetMapFieldsViaReflection(&message);
2705 
2706   string expected_text;
2707   GOOGLE_CHECK_OK(File::GetContents(
2708       TestSourceDir() +
2709           "/google/protobuf/"
2710           "testdata/map_test_data.txt",
2711       &expected_text, true));
2712 
2713   EXPECT_EQ(message.DebugString(), expected_text);
2714 
2715   // Test again on the reverse order.
2716   unittest::TestMap message2;
2717   tester.SetMapFieldsViaReflection(&message2);
2718   tester.SwapMapsViaReflection(&message2);
2719   EXPECT_EQ(message2.DebugString(), expected_text);
2720 }
2721 
2722 
2723 // arena support =================================================
TEST(ArenaTest,ParsingAndSerializingNoHeapAllocation)2724 TEST(ArenaTest, ParsingAndSerializingNoHeapAllocation) {
2725   // Allocate a large initial block to avoid mallocs during hooked test.
2726   std::vector<char> arena_block(128 * 1024);
2727   ArenaOptions options;
2728   options.initial_block = &arena_block[0];
2729   options.initial_block_size = arena_block.size();
2730   Arena arena(options);
2731   string data;
2732   data.reserve(128 * 1024);
2733 
2734   {
2735     // TODO(teboring): Enable no heap check when ArenaStringPtr is used in map.
2736     // NoHeapChecker no_heap;
2737 
2738     unittest::TestArenaMap* from =
2739         Arena::CreateMessage<unittest::TestArenaMap>(&arena);
2740     MapTestUtil::SetArenaMapFields(from);
2741     from->SerializeToString(&data);
2742 
2743     unittest::TestArenaMap* to =
2744         Arena::CreateMessage<unittest::TestArenaMap>(&arena);
2745     to->ParseFromString(data);
2746     MapTestUtil::ExpectArenaMapFieldsSet(*to);
2747   }
2748 }
2749 
2750 // Use text format parsing and serializing to test reflection api.
TEST(ArenaTest,RelfectionInTextFormat)2751 TEST(ArenaTest, RelfectionInTextFormat) {
2752   Arena arena;
2753   string data;
2754 
2755   TextFormat::Printer printer;
2756   TextFormat::Parser parser;
2757 
2758   unittest::TestArenaMap* from =
2759       Arena::CreateMessage<unittest::TestArenaMap>(&arena);
2760   unittest::TestArenaMap* to =
2761       Arena::CreateMessage<unittest::TestArenaMap>(&arena);
2762 
2763   MapTestUtil::SetArenaMapFields(from);
2764   printer.PrintToString(*from, &data);
2765 
2766   EXPECT_TRUE(parser.ParseFromString(data, to));
2767   MapTestUtil::ExpectArenaMapFieldsSet(*to);
2768 }
2769 
2770 // Make sure the memory allocated for string in map is deallocated.
TEST(ArenaTest,StringMapNoLeak)2771 TEST(ArenaTest, StringMapNoLeak) {
2772   Arena arena;
2773   unittest::TestArenaMap* message =
2774       Arena::CreateMessage<unittest::TestArenaMap>(&arena);
2775   string data;
2776   // String with length less than 16 will not be allocated from heap.
2777   int original_capacity = data.capacity();
2778   while (data.capacity() <= original_capacity) {
2779     data.append("a");
2780   }
2781   (*message->mutable_map_string_string())[data] = data;
2782   // We rely on heap checkers to detect memory leak for us.
2783   ASSERT_FALSE(message == NULL);
2784 }
2785 
2786 }  // namespace internal
2787 }  // namespace protobuf
2788 }  // namespace google
2789