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Diffstat (limited to 'third_party/protobuf/3.0.0/src/google/protobuf/map_test.cc')
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1 files changed, 3067 insertions, 0 deletions
diff --git a/third_party/protobuf/3.0.0/src/google/protobuf/map_test.cc b/third_party/protobuf/3.0.0/src/google/protobuf/map_test.cc new file mode 100644 index 0000000000..03954e75f1 --- /dev/null +++ b/third_party/protobuf/3.0.0/src/google/protobuf/map_test.cc @@ -0,0 +1,3067 @@ +// Protocol Buffers - Google's data interchange format +// Copyright 2008 Google Inc. All rights reserved. +// https://developers.google.com/protocol-buffers/ +// +// Redistribution and use in source and binary forms, with or without +// modification, are permitted provided that the following conditions are +// met: +// +// * Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// * Redistributions in binary form must reproduce the above +// copyright notice, this list of conditions and the following disclaimer +// in the documentation and/or other materials provided with the +// distribution. +// * Neither the name of Google Inc. nor the names of its +// contributors may be used to endorse or promote products derived from +// this software without specific prior written permission. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +// A hack to include windows.h first, which ensures the GetMessage macro can +// be undefined when we include <google/protobuf/stubs/common.h> +#if defined(_WIN32) +#define _WINSOCKAPI_ // to avoid re-definition in WinSock2.h +#define NOMINMAX // to avoid defining min/max macros +#include <windows.h> +#endif // _WIN32 + +#include <algorithm> +#include <google/protobuf/stubs/hash.h> +#include <map> +#include <memory> +#ifndef _SHARED_PTR_H +#include <google/protobuf/stubs/shared_ptr.h> +#endif +#include <set> +#include <sstream> +#include <vector> + +#include <google/protobuf/stubs/casts.h> +#include <google/protobuf/stubs/logging.h> +#include <google/protobuf/stubs/common.h> +#include <google/protobuf/stubs/stringprintf.h> +#include <google/protobuf/testing/file.h> +#include <google/protobuf/arena_test_util.h> +#include <google/protobuf/map_proto2_unittest.pb.h> +#include <google/protobuf/map_unittest.pb.h> +#include <google/protobuf/map_test_util.h> +#include <google/protobuf/test_util.h> +#include <google/protobuf/unittest.pb.h> +#include <google/protobuf/descriptor.pb.h> +#include <google/protobuf/descriptor.h> +#include <google/protobuf/descriptor_database.h> +#include <google/protobuf/dynamic_message.h> +#include <google/protobuf/map.h> +#include <google/protobuf/map_field_inl.h> +#include <google/protobuf/message.h> +#include <google/protobuf/reflection.h> +#include <google/protobuf/reflection_ops.h> +#include <google/protobuf/text_format.h> +#include <google/protobuf/wire_format.h> +#include <google/protobuf/wire_format_lite_inl.h> +#include <google/protobuf/io/coded_stream.h> +#include <google/protobuf/io/tokenizer.h> +#include <google/protobuf/io/zero_copy_stream_impl.h> +#include <google/protobuf/util/time_util.h> +#include <google/protobuf/util/message_differencer.h> +#include <google/protobuf/stubs/strutil.h> +#include <google/protobuf/stubs/substitute.h> +#include <gmock/gmock.h> +#include <google/protobuf/testing/googletest.h> +#include <gtest/gtest.h> + +namespace google { + +using google::protobuf::unittest::ForeignMessage; +using google::protobuf::unittest::TestAllTypes; +using google::protobuf::unittest::TestMap; +using google::protobuf::unittest::TestRecursiveMapMessage; + +namespace protobuf { +namespace internal { + +// Map API Test ===================================================== + +// Parameterized tests on whether to use old style maps. +class MapImplTest : public testing::TestWithParam<bool> { + protected: + MapImplTest() + : map_ptr_(new Map<int32, int32>(GetParam())), + map_(*map_ptr_), + const_map_(*map_ptr_) { + EXPECT_TRUE(map_.empty()); + EXPECT_EQ(0, map_.size()); + } + ~MapImplTest() {} + + void ExpectSingleElement(int32 key, int32 value) { + EXPECT_FALSE(map_.empty()); + EXPECT_EQ(1, map_.size()); + ExpectElement(key, value); + } + + void ExpectElements(const std::map<int32, int32>& map) { + EXPECT_FALSE(map_.empty()); + EXPECT_EQ(map.size(), map_.size()); + for (std::map<int32, int32>::const_iterator it = map.begin(); + it != map.end(); ++it) { + ExpectElement(it->first, it->second); + } + } + + void ExpectElement(int32 key, int32 value) { + // Test map size is correct. + EXPECT_EQ(value, map_[key]); + EXPECT_EQ(1, map_.count(key)); + + // Check mutable at and find work correctly. + EXPECT_EQ(value, map_.at(key)); + Map<int32, int32>::iterator it = map_.find(key); + + // interator dereferenceable + EXPECT_EQ(key, (*it).first); + EXPECT_EQ(value, (*it).second); + EXPECT_EQ(key, it->first); + EXPECT_EQ(value, it->second); + + // iterator mutable + ((*it).second) = value + 1; + EXPECT_EQ(value + 1, map_[key]); + ((*it).second) = value; + EXPECT_EQ(value, map_[key]); + + it->second = value + 1; + EXPECT_EQ(value + 1, map_[key]); + it->second = value; + EXPECT_EQ(value, map_[key]); + + // copy constructor + Map<int32, int32>::iterator it_copy = it; + EXPECT_EQ(key, it_copy->first); + EXPECT_EQ(value, it_copy->second); + + // Immutable API ================================================ + + // Check immutable at and find work correctly. + EXPECT_EQ(value, const_map_.at(key)); + Map<int32, int32>::const_iterator const_it = const_map_.find(key); + + // interator dereferenceable + EXPECT_EQ(key, (*const_it).first); + EXPECT_EQ(value, (*const_it).second); + EXPECT_EQ(key, const_it->first); + EXPECT_EQ(value, const_it->second); + + // copy constructor + Map<int32, int32>::const_iterator const_it_copy = const_it; + EXPECT_EQ(key, const_it_copy->first); + EXPECT_EQ(value, const_it_copy->second); + } + + google::protobuf::scoped_ptr<Map<int32, int32> > map_ptr_; + Map<int32, int32>& map_; + const Map<int32, int32>& const_map_; +}; + +TEST_P(MapImplTest, OperatorBracket) { + int32 key = 0; + int32 value1 = 100; + int32 value2 = 101; + + EXPECT_EQ(0, map_[key]); + + map_[key] = value1; + ExpectSingleElement(key, value1); + + map_[key] = value2; + ExpectSingleElement(key, value2); +} + +TEST_P(MapImplTest, OperatorBracketNonExist) { + int32 key = 0; + int32 default_value = 0; + + EXPECT_EQ(default_value, map_[key]); + ExpectSingleElement(key, default_value); +} + +TEST_P(MapImplTest, MutableAt) { + int32 key = 0; + int32 value1 = 100; + int32 value2 = 101; + + map_[key] = value1; + ExpectSingleElement(key, value1); + + map_.at(key) = value2; + ExpectSingleElement(key, value2); +} + +#ifdef PROTOBUF_HAS_DEATH_TEST + +TEST_P(MapImplTest, MutableAtNonExistDeathTest) { + EXPECT_DEATH(map_.at(0), ""); +} + +TEST_P(MapImplTest, ImmutableAtNonExistDeathTest) { + EXPECT_DEATH(const_map_.at(0), ""); +} + +TEST_P(MapImplTest, UsageErrors) { + MapKey key; + key.SetInt64Value(1); + EXPECT_DEATH(key.GetUInt64Value(), + "Protocol Buffer map usage error:\n" + "MapKey::GetUInt64Value type does not match\n" + " Expected : uint64\n" + " Actual : int64"); + + MapValueRef value; + EXPECT_DEATH(value.SetFloatValue(0.1), + "Protocol Buffer map usage error:\n" + "MapValueRef::type MapValueRef is not initialized."); +} + +#endif // PROTOBUF_HAS_DEATH_TEST + +TEST_P(MapImplTest, CountNonExist) { + EXPECT_EQ(0, map_.count(0)); +} + +TEST_P(MapImplTest, MutableFindNonExist) { + EXPECT_TRUE(map_.end() == map_.find(0)); +} + +TEST_P(MapImplTest, ImmutableFindNonExist) { + EXPECT_TRUE(const_map_.end() == const_map_.find(0)); +} + +TEST_P(MapImplTest, ConstEnd) { + EXPECT_TRUE(const_map_.end() == const_map_.cend()); +} + +TEST_P(MapImplTest, GetReferenceFromIterator) { + for (int i = 0; i < 10; i++) { + map_[i] = i; + } + + for (Map<int32, int32>::const_iterator it = map_.cbegin(); + it != map_.cend();) { + Map<int32, int32>::const_reference entry = *it++; + EXPECT_EQ(entry.first, entry.second); + } + + for (Map<int32, int32>::const_iterator it = const_map_.begin(); + it != const_map_.end();) { + Map<int32, int32>::const_reference entry = *it++; + EXPECT_EQ(entry.first, entry.second); + } + + for (Map<int32, int32>::iterator it = map_.begin(); it != map_.end();) { + Map<int32, int32>::reference entry = *it++; + EXPECT_EQ(entry.first + 1, ++entry.second); + } +} + +TEST_P(MapImplTest, IteratorBasic) { + map_[0] = 0; + + // Default constructible (per forward iterator requirements). + Map<int, int>::const_iterator cit; + Map<int, int>::iterator it; + + it = map_.begin(); + cit = it; // Converts to const_iterator + + // Can compare between them. + EXPECT_TRUE(it == cit); + EXPECT_FALSE(cit != it); + + // Pre increment. + EXPECT_FALSE(it == ++cit); + + // Post increment. + EXPECT_FALSE(it++ == cit); + EXPECT_TRUE(it == cit); +} + +template <typename Iterator> +static int64 median(Iterator i0, Iterator i1) { + vector<int64> v(i0, i1); + std::nth_element(v.begin(), v.begin() + v.size() / 2, v.end()); + return v[v.size() / 2]; +} + +static int64 Now() { + return google::protobuf::util::TimeUtil::TimestampToNanoseconds( + google::protobuf::util::TimeUtil::GetCurrentTime()); +} + +// Arbitrary odd integers for creating test data. +static int k0 = 812398771; +static int k1 = 1312938717; +static int k2 = 1321555333; + +// A naive begin() implementation will cause begin() to get slower and slower +// if one erases elements at the "front" of the hash map, and we'd like to +// avoid that, as std::unordered_map does. +TEST_P(MapImplTest, BeginIsFast) { + // Disable this test for both new and old implementations. + if (/*GetParam()*/true) return; + Map<int32, int32> map(false); // This test uses new-style maps only. + const int kTestSize = 250000; + // Create a random-looking map of size n. Use non-negative integer keys. + uint32 frog = 123983; + int last_key = 0; + int counter = 0; + while (map.size() < kTestSize) { + frog *= static_cast<uint32>(k0); + frog ^= frog >> 17; + frog += counter++; + last_key = + static_cast<int>(frog) >= 0 ? static_cast<int>(frog) : last_key ^ 1; + GOOGLE_DCHECK_GE(last_key, 0); + map[last_key] = last_key ^ 1; + } + vector<int64> times; + // We're going to do map.erase(map.begin()) over and over again. But, + // just in case one iteration is fast compared to the granularity of + // our time keeping, we measure kChunkSize iterations per outer-loop iter. + const int kChunkSize = 1000; + GOOGLE_CHECK_EQ(kTestSize % kChunkSize, 0); + do { + const int64 start = Now(); + for (int i = 0; i < kChunkSize; i++) { + map.erase(map.begin()); + } + const int64 end = Now(); + if (end > start) { + times.push_back(end - start); + } + } while (!map.empty()); + if (times.size() < .99 * kTestSize / kChunkSize) { + GOOGLE_LOG(WARNING) << "Now() isn't helping us measure time"; + return; + } + int64 x0 = median(times.begin(), times.begin() + 9); + int64 x1 = median(times.begin() + times.size() - 9, times.end()); + GOOGLE_LOG(INFO) << "x0=" << x0 << ", x1=" << x1; + // x1 will greatly exceed x0 if the code we just executed took O(n^2) time. + // And we'll probably time out and never get here. So, this test is + // intentionally loose: we check that x0 and x1 are within a factor of 8. + EXPECT_GE(x1, x0 / 8); + EXPECT_GE(x0, x1 / 8); +} + +// Try to create kTestSize keys that will land in just a few buckets, and +// time the insertions, to get a rough estimate of whether an O(n^2) worst case +// was triggered. This test is a hacky, but probably better than nothing. +TEST_P(MapImplTest, HashFlood) { + const int kTestSize = 1024; // must be a power of 2 + std::set<int> s; + for (int i = 0; s.size() < kTestSize; i++) { + if ((map_.hash_function()(i) & (kTestSize - 1)) < 3) { + s.insert(i); + } + } + // Create hash table with kTestSize entries that hash flood a table with + // 1024 (or 512 or 2048 or ...) entries. This assumes that map_ uses powers + // of 2 for table sizes, and that it's sufficient to "flood" with respect to + // the low bits of the output of map_.hash_function(). + vector<int64> times; + std::set<int>::iterator it = s.begin(); + int count = 0; + do { + const int64 start = Now(); + map_[*it] = 0; + const int64 end = Now(); + if (end > start) { + times.push_back(end - start); + } + ++count; + ++it; + } while (it != s.end()); + if (times.size() < .99 * count) return; + int64 x0 = median(times.begin(), times.begin() + 9); + int64 x1 = median(times.begin() + times.size() - 9, times.end()); + // x1 will greatly exceed x0 if the code we just executed took O(n^2) time. + // But we want to allow O(n log n). A factor of 20 should be generous enough. + EXPECT_LE(x1, x0 * 20); +} + +template <typename T, typename U> +static void TestValidityForAllKeysExcept(int key_to_avoid, + const T& check_map, + const U& map) { + typedef typename U::value_type value_type; // a key-value pair + for (typename U::const_iterator it = map.begin(); it != map.end(); ++it) { + const int key = it->first; + if (key == key_to_avoid) continue; + // All iterators relevant to this key, whether old (from check_map) or new, + // must point to the same memory. So, test pointer equality here. + const value_type* check_val = &*check_map.find(key)->second; + EXPECT_EQ(check_val, &*it); + EXPECT_EQ(check_val, &*map.find(key)); + } +} + +// EXPECT i0 and i1 to be the same. Advancing them should have the same effect, +// too. +template <typename Iter> +static void TestEqualIterators(Iter i0, Iter i1, Iter end) { + const int kMaxAdvance = 10; + for (int i = 0; i < kMaxAdvance; i++) { + EXPECT_EQ(i0 == end, i1 == end); + if (i0 == end) return; + EXPECT_EQ(&*i0, &*i1) << "iter " << i; + ++i0; + ++i1; + } +} + +template <typename IteratorType> +static void TestOldVersusNewIterator(int skip, Map<int, int>* m) { + const int initial_size = m->size(); + IteratorType it = m->begin(); + for (int i = 0; i < skip && it != m->end(); it++, i++) {} + if (it == m->end()) return; + const IteratorType old = it; + GOOGLE_LOG(INFO) << "skip=" << skip << ", old->first=" << old->first; + const int target_size = + initial_size < 100 ? initial_size * 5 : initial_size * 5 / 4; + for (int i = 0; m->size() <= target_size; i++) { + (*m)[i] = 0; + } + // Iterator 'old' should still work just fine despite the growth of *m. + const IteratorType after_growth = m->find(old->first); + TestEqualIterators<IteratorType>(old, after_growth, m->end()); + + // Now shrink the number of elements. Do this with a mix of erases and + // inserts to increase the chance that the hashtable will resize to a lower + // number of buckets. (But, in any case, the test is still useful.) + for (int i = 0; i < 2 * (target_size - initial_size); i++) { + if (i != old->first) { + m->erase(i); + } + if (((i ^ m->begin()->first) & 15) == 0) { + (*m)[i * 342] = i; + } + } + // Now, the table has grown and shrunk; test again. + TestEqualIterators<IteratorType>(old, m->find(old->first), m->end()); + TestEqualIterators<IteratorType>(old, after_growth, m->end()); +} + +// Create and test an n-element Map, with emphasis on iterator correctness. +static void StressTestIterators(int n, bool test_old_style_proto2_maps) { + GOOGLE_LOG(INFO) << "StressTestIterators " << n; + GOOGLE_CHECK_GT(n, 0); + // Create a random-looking map of size n. Use non-negative integer keys. + Map<int, int> m(test_old_style_proto2_maps); + uint32 frog = 123987 + n; + int last_key = 0; + int counter = 0; + while (m.size() < n) { + frog *= static_cast<uint32>(k0); + frog ^= frog >> 17; + frog += counter++; + last_key = + static_cast<int>(frog) >= 0 ? static_cast<int>(frog) : last_key ^ 1; + GOOGLE_DCHECK_GE(last_key, 0); + m[last_key] = last_key ^ 1; + } + // Test it. + ASSERT_EQ(n, m.size()); + // Create maps of pointers and iterators. + // These should remain valid even if we modify m. + hash_map<int, Map<int, int>::value_type*> mp(n); + hash_map<int, Map<int, int>::iterator> mi(n); + for (Map<int, int>::iterator it = m.begin(); it != m.end(); ++it) { + mp[it->first] = &*it; + mi[it->first] = it; + } + ASSERT_EQ(m.size(), mi.size()); + ASSERT_EQ(m.size(), mp.size()); + m.erase(last_key); + ASSERT_EQ(n - 1, m.size()); + TestValidityForAllKeysExcept(last_key, mp, m); + TestValidityForAllKeysExcept(last_key, mi, m); + + m[last_key] = 0; + ASSERT_EQ(n, m.size()); + // Test old iterator vs new iterator, with table modification in between. + TestOldVersusNewIterator<Map<int, int>::const_iterator>(n % 3, &m); + TestOldVersusNewIterator<Map<int, int>::iterator>(n % (1 + (n / 40)), &m); + // Finally, ensure erase(iterator) doesn't reorder anything, because that is + // what its documentation says. + m[last_key] = m[last_key ^ 999] = 0; + vector<Map<int, int>::iterator> v; + v.reserve(m.size()); + int position_of_last_key = 0; + for (Map<int, int>::iterator it = m.begin(); it != m.end(); ++it) { + if (it->first == last_key) { + position_of_last_key = v.size(); + } + v.push_back(it); + } + ASSERT_EQ(m.size(), v.size()); + const Map<int, int>::iterator erase_result = m.erase(m.find(last_key)); + int index = 0; + for (Map<int, int>::iterator it = m.begin(); it != m.end(); ++it, ++index) { + if (index == position_of_last_key) { + EXPECT_EQ(&*erase_result, &*v[++index]); + } + ASSERT_EQ(&*it, &*v[index]); + } +} + +TEST_P(MapImplTest, IteratorInvalidation) { + // As multiple underlying hash_map implementations do not follow the + // validation requirement, the test is disabled for old-style maps. + if (GetParam()) return; + // Create a set of pseudo-random sizes to test. +#ifndef NDEBUG + const int kMaxSizeToTest = 100 * 1000; +#else + const int kMaxSizeToTest = 1000 * 1000; +#endif + std::set<int> s; + int n = kMaxSizeToTest; + int frog = k1 + n; + while (n > 1 && s.size() < 25) { + s.insert(n); + n = static_cast<int>(n * 100 / (101.0 + (frog & 63))); + frog *= k2; + frog ^= frog >> 17; + } + // Ensure we test a few small sizes. + s.insert(1); + s.insert(2); + s.insert(3); + // Now, the real work. + for (std::set<int>::iterator i = s.begin(); i != s.end(); ++i) { + StressTestIterators(*i, GetParam()); + } +} + +// Test that erase() revalidates iterators. +TEST_P(MapImplTest, EraseRevalidates) { + // As multiple underlying hash_map implementations do not follow the + // validation requirement, the test is disabled for old-style maps. + if (GetParam()) return; + map_[3] = map_[13] = map_[20] = 0; + const int initial_size = map_.size(); + EXPECT_EQ(3, initial_size); + vector<Map<int, int>::iterator> v; + for (Map<int, int>::iterator it = map_.begin(); it != map_.end(); ++it) { + v.push_back(it); + } + EXPECT_EQ(initial_size, v.size()); + for (int i = 0; map_.size() <= initial_size * 20; i++) { + map_[i] = 0; + } + const int larger_size = map_.size(); + // We've greatly increased the size of the map, so it is highly likely that + // the following will corrupt m if erase() doesn't properly revalidate + // iterators passed to it. Finishing this routine without crashing indicates + // success. + for (int i = 0; i < v.size(); i++) { + map_.erase(v[i]); + } + EXPECT_EQ(larger_size - v.size(), map_.size()); +} + +template <typename T> +bool IsConstHelper(T& /*t*/) { // NOLINT. We want to catch non-const refs here. + return false; +} +template <typename T> +bool IsConstHelper(const T& /*t*/) { + return true; +} + +TEST_P(MapImplTest, IteratorConstness) { + map_[0] = 0; + EXPECT_TRUE(IsConstHelper(*map_.cbegin())); + EXPECT_TRUE(IsConstHelper(*const_map_.begin())); + EXPECT_FALSE(IsConstHelper(*map_.begin())); +} + +bool IsForwardIteratorHelper(std::forward_iterator_tag /*tag*/) { return true; } +template <typename T> +bool IsForwardIteratorHelper(T /*t*/) { + return false; +} + +TEST_P(MapImplTest, IteratorCategory) { + EXPECT_TRUE(IsForwardIteratorHelper( + std::iterator_traits<Map<int, int>::iterator>::iterator_category())); + EXPECT_TRUE(IsForwardIteratorHelper(std::iterator_traits< + Map<int, int>::const_iterator>::iterator_category())); +} + +TEST_P(MapImplTest, InsertSingle) { + int32 key = 0; + int32 value1 = 100; + int32 value2 = 101; + + // Insert a non-existed key. + std::pair<Map<int32, int32>::iterator, bool> result1 = + map_.insert(Map<int32, int32>::value_type(key, value1)); + ExpectSingleElement(key, value1); + + Map<int32, int32>::iterator it1 = result1.first; + EXPECT_EQ(key, it1->first); + EXPECT_EQ(value1, it1->second); + EXPECT_TRUE(result1.second); + + // Insert an existed key. + std::pair<Map<int32, int32>::iterator, bool> result2 = + map_.insert(Map<int32, int32>::value_type(key, value2)); + ExpectSingleElement(key, value1); + + Map<int32, int32>::iterator it2 = result2.first; + EXPECT_TRUE(it1 == it2); + EXPECT_FALSE(result2.second); +} + +TEST_P(MapImplTest, InsertByIterator) { + int32 key1 = 0; + int32 key2 = 1; + int32 value1a = 100; + int32 value1b = 101; + int32 value2a = 200; + int32 value2b = 201; + + std::map<int32, int32> map1; + map1[key1] = value1a; + map1[key2] = value2a; + + map_.insert(map1.begin(), map1.end()); + ExpectElements(map1); + + std::map<int32, int32> map2; + map2[key1] = value1b; + map2[key2] = value2b; + + map_.insert(map2.begin(), map2.end()); + ExpectElements(map1); +} + +TEST_P(MapImplTest, EraseSingleByKey) { + int32 key = 0; + int32 value = 100; + + map_[key] = value; + ExpectSingleElement(key, value); + + // Erase an existing key. + EXPECT_EQ(1, map_.erase(key)); + EXPECT_TRUE(map_.empty()); + EXPECT_EQ(0, map_.size()); + EXPECT_TRUE(map_.end() == map_.find(key)); + EXPECT_TRUE(map_.begin() == map_.end()); + + // Erase a non-existing key. + EXPECT_EQ(0, map_.erase(key)); +} + +TEST_P(MapImplTest, EraseMutipleByKey) { + // erase in one specific order to trigger corner cases + for (int i = 0; i < 5; i++) { + map_[i] = i; + } + + map_.erase(0); + EXPECT_EQ(4, map_.size()); + EXPECT_TRUE(map_.end() == map_.find(0)); + + map_.erase(1); + EXPECT_EQ(3, map_.size()); + EXPECT_TRUE(map_.end() == map_.find(1)); + + map_.erase(3); + EXPECT_EQ(2, map_.size()); + EXPECT_TRUE(map_.end() == map_.find(3)); + + map_.erase(4); + EXPECT_EQ(1, map_.size()); + EXPECT_TRUE(map_.end() == map_.find(4)); + + map_.erase(2); + EXPECT_EQ(0, map_.size()); + EXPECT_TRUE(map_.end() == map_.find(2)); +} + +TEST_P(MapImplTest, EraseSingleByIterator) { + int32 key = 0; + int32 value = 100; + + map_[key] = value; + ExpectSingleElement(key, value); + + Map<int32, int32>::iterator it = map_.find(key); + map_.erase(it); + EXPECT_TRUE(map_.empty()); + EXPECT_EQ(0, map_.size()); + EXPECT_TRUE(map_.end() == map_.find(key)); + EXPECT_TRUE(map_.begin() == map_.end()); +} + +TEST_P(MapImplTest, ValidIteratorAfterErase) { + for (int i = 0; i < 10; i++) { + map_[i] = i; + } + + int count = 0; + + for (Map<int32, int32>::iterator it = map_.begin(); it != map_.end();) { + count++; + if (it->first % 2 == 1) { + map_.erase(it++); + } else { + ++it; + } + } + + EXPECT_EQ(10, count); + EXPECT_EQ(5, map_.size()); +} + +TEST_P(MapImplTest, EraseByIterator) { + int32 key1 = 0; + int32 key2 = 1; + int32 value1 = 100; + int32 value2 = 101; + + std::map<int32, int32> map; + map[key1] = value1; + map[key2] = value2; + + map_.insert(map.begin(), map.end()); + ExpectElements(map); + + map_.erase(map_.begin(), map_.end()); + EXPECT_TRUE(map_.empty()); + EXPECT_EQ(0, map_.size()); + EXPECT_TRUE(map_.end() == map_.find(key1)); + EXPECT_TRUE(map_.end() == map_.find(key2)); + EXPECT_TRUE(map_.begin() == map_.end()); +} + +TEST_P(MapImplTest, Clear) { + int32 key = 0; + int32 value = 100; + + map_[key] = value; + ExpectSingleElement(key, value); + + map_.clear(); + + EXPECT_TRUE(map_.empty()); + EXPECT_EQ(0, map_.size()); + EXPECT_TRUE(map_.end() == map_.find(key)); + EXPECT_TRUE(map_.begin() == map_.end()); +} + +static void CopyConstructorHelper(Arena* arena, Map<int32, int32>* m) { + int32 key1 = 0; + int32 key2 = 1; + int32 value1 = 100; + int32 value2 = 101; + + std::map<int32, int32> map; + map[key1] = value1; + map[key2] = value2; + + m->insert(map.begin(), map.end()); + + Map<int32, int32> other(*m); + + EXPECT_EQ(2, other.size()); + EXPECT_EQ(value1, other.at(key1)); + EXPECT_EQ(value2, other.at(key2)); +} + +TEST_P(MapImplTest, CopyConstructorWithArena) { + Arena a; + CopyConstructorHelper(&a, &map_); +} + +TEST_P(MapImplTest, CopyConstructorWithoutArena) { + CopyConstructorHelper(NULL, &map_); +} + +TEST_P(MapImplTest, IterConstructor) { + int32 key1 = 0; + int32 key2 = 1; + int32 value1 = 100; + int32 value2 = 101; + + std::map<int32, int32> map; + map[key1] = value1; + map[key2] = value2; + + Map<int32, int32> new_map(map.begin(), map.end(), + GetParam()); + + EXPECT_EQ(2, new_map.size()); + EXPECT_EQ(value1, new_map.at(key1)); + EXPECT_EQ(value2, new_map.at(key2)); +} + +TEST_P(MapImplTest, Assigner) { + int32 key1 = 0; + int32 key2 = 1; + int32 value1 = 100; + int32 value2 = 101; + + std::map<int32, int32> map; + map[key1] = value1; + map[key2] = value2; + + map_.insert(map.begin(), map.end()); + + Map<int32, int32> other(GetParam()); + int32 key_other = 123; + int32 value_other = 321; + other[key_other] = value_other; + EXPECT_EQ(1, other.size()); + + other = map_; + + EXPECT_EQ(2, other.size()); + EXPECT_EQ(value1, other.at(key1)); + EXPECT_EQ(value2, other.at(key2)); + EXPECT_TRUE(other.find(key_other) == other.end()); + + // Self assign + other = other; + EXPECT_EQ(2, other.size()); + EXPECT_EQ(value1, other.at(key1)); + EXPECT_EQ(value2, other.at(key2)); + + // Try assignment to a map with a different choice of "style." + Map<int32, int32> m(!GetParam()); + m = other; + EXPECT_EQ(2, m.size()); + EXPECT_EQ(value1, m.at(key1)); + EXPECT_EQ(value2, m.at(key2)); +} + +TEST_P(MapImplTest, Rehash) { + const int test_size = 50; + std::map<int32, int32> reference_map; + for (int i = 0; i < test_size; i++) { + reference_map[i] = i; + } + for (int i = 0; i < test_size; i++) { + map_[i] = reference_map[i]; + EXPECT_EQ(reference_map[i], map_[i]); + } + for (int i = 0; i < test_size; i++) { + map_.erase(i); + EXPECT_TRUE(map_.end() == map_.find(i)); + } + EXPECT_TRUE(map_.empty()); +} + +TEST_P(MapImplTest, EqualRange) { + int key = 100, key_missing = 101; + map_[key] = 100; + + std::pair<google::protobuf::Map<int32, int32>::iterator, + google::protobuf::Map<int32, int32>::iterator> range = map_.equal_range(key); + EXPECT_TRUE(map_.find(key) == range.first); + EXPECT_TRUE(++map_.find(key) == range.second); + + range = map_.equal_range(key_missing); + EXPECT_TRUE(map_.end() == range.first); + EXPECT_TRUE(map_.end() == range.second); + + std::pair<google::protobuf::Map<int32, int32>::const_iterator, + google::protobuf::Map<int32, int32>::const_iterator> const_range = + const_map_.equal_range(key); + EXPECT_TRUE(const_map_.find(key) == const_range.first); + EXPECT_TRUE(++const_map_.find(key) == const_range.second); + + const_range = const_map_.equal_range(key_missing); + EXPECT_TRUE(const_map_.end() == const_range.first); + EXPECT_TRUE(const_map_.end() == const_range.second); +} + +TEST_P(MapImplTest, ConvertToStdMap) { + map_[100] = 101; + std::map<int32, int32> std_map(map_.begin(), map_.end()); + EXPECT_EQ(1, std_map.size()); + EXPECT_EQ(101, std_map[100]); +} + +TEST_P(MapImplTest, ConvertToStdVectorOfPairs) { + map_[100] = 101; + std::vector<std::pair<int32, int32> > std_vec(map_.begin(), map_.end()); + EXPECT_EQ(1, std_vec.size()); + EXPECT_EQ(100, std_vec[0].first); + EXPECT_EQ(101, std_vec[0].second); +} + +TEST_P(MapImplTest, SwapSameStyle) { + Map<int32, int32> another(GetParam()); // same old_style_ value + map_[9398] = 41999; + another[9398] = 41999; + another[8070] = 42056; + another.swap(map_); + EXPECT_THAT(another, testing::UnorderedElementsAre( + testing::Pair(9398, 41999))); + EXPECT_THAT(map_, testing::UnorderedElementsAre( + testing::Pair(8070, 42056), + testing::Pair(9398, 41999))); +} + +TEST_P(MapImplTest, SwapDifferentStyle) { + Map<int32, int32> another(!GetParam()); // different old_style_ value + map_[9398] = 41999; + another[9398] = 41999; + another[8070] = 42056; + another.swap(map_); + EXPECT_THAT(another, testing::UnorderedElementsAre( + testing::Pair(9398, 41999))); + EXPECT_THAT(map_, testing::UnorderedElementsAre( + testing::Pair(8070, 42056), + testing::Pair(9398, 41999))); +} + +TEST_P(MapImplTest, SwapArena) { + Arena arena1, arena2; + Map<int32, int32> m1(&arena1, false); + Map<int32, int32> m2(&arena2, false); + map_[9398] = 41999; + m1[9398] = 41999; + m1[8070] = 42056; + m2[10244] = 10247; + m2[8070] = 42056; + m1.swap(map_); + EXPECT_THAT(m1, testing::UnorderedElementsAre( + testing::Pair(9398, 41999))); + EXPECT_THAT(map_, testing::UnorderedElementsAre( + testing::Pair(8070, 42056), + testing::Pair(9398, 41999))); + m2.swap(m1); + EXPECT_THAT(m1, testing::UnorderedElementsAre( + testing::Pair(8070, 42056), + testing::Pair(10244, 10247))); + EXPECT_THAT(m2, testing::UnorderedElementsAre( + testing::Pair(9398, 41999))); +} + +INSTANTIATE_TEST_CASE_P(BoolSequence, MapImplTest, testing::Bool()); + +// Map Field Reflection Test ======================================== + +static int Func(int i, int j) { + return i * j; +} + +static string StrFunc(int i, int j) { + string str; + SStringPrintf(&str, "%d", Func(i, j)); + return str; +} + +static int Int(const string& value) { + int result = 0; + std::istringstream(value) >> result; + return result; +} + +class MapFieldReflectionTest : public testing::Test { + protected: + typedef FieldDescriptor FD; +}; + +TEST_F(MapFieldReflectionTest, RegularFields) { + TestMap message; + const Reflection* refl = message.GetReflection(); + const Descriptor* desc = message.GetDescriptor(); + + Map<int32, int32>* map_int32_int32 = message.mutable_map_int32_int32(); + Map<int32, double>* map_int32_double = message.mutable_map_int32_double(); + Map<string, string>* map_string_string = message.mutable_map_string_string(); + Map<int32, ForeignMessage>* map_int32_foreign_message = + message.mutable_map_int32_foreign_message(); + + for (int i = 0; i < 10; ++i) { + (*map_int32_int32)[i] = Func(i, 1); + (*map_int32_double)[i] = Func(i, 2); + (*map_string_string)[StrFunc(i, 1)] = StrFunc(i, 5); + (*map_int32_foreign_message)[i].set_c(Func(i, 6)); + } + + // Get FieldDescriptors for all the fields of interest. + const FieldDescriptor* fd_map_int32_int32 = + desc->FindFieldByName("map_int32_int32"); + const FieldDescriptor* fd_map_int32_double = + desc->FindFieldByName("map_int32_double"); + const FieldDescriptor* fd_map_string_string = + desc->FindFieldByName("map_string_string"); + const FieldDescriptor* fd_map_int32_foreign_message = + desc->FindFieldByName("map_int32_foreign_message"); + + const FieldDescriptor* fd_map_int32_in32_key = + fd_map_int32_int32->message_type()->FindFieldByName("key"); + const FieldDescriptor* fd_map_int32_in32_value = + fd_map_int32_int32->message_type()->FindFieldByName("value"); + const FieldDescriptor* fd_map_int32_double_key = + fd_map_int32_double->message_type()->FindFieldByName("key"); + const FieldDescriptor* fd_map_int32_double_value = + fd_map_int32_double->message_type()->FindFieldByName("value"); + const FieldDescriptor* fd_map_string_string_key = + fd_map_string_string->message_type()->FindFieldByName("key"); + const FieldDescriptor* fd_map_string_string_value = + fd_map_string_string->message_type()->FindFieldByName("value"); + const FieldDescriptor* fd_map_int32_foreign_message_key = + fd_map_int32_foreign_message->message_type()->FindFieldByName("key"); + const FieldDescriptor* fd_map_int32_foreign_message_value = + fd_map_int32_foreign_message->message_type()->FindFieldByName("value"); + + // Get RepeatedPtrField objects for all fields of interest. + const RepeatedPtrField<Message>& mf_int32_int32 = + refl->GetRepeatedPtrField<Message>(message, fd_map_int32_int32); + const RepeatedPtrField<Message>& mf_int32_double = + refl->GetRepeatedPtrField<Message>(message, fd_map_int32_double); + const RepeatedPtrField<Message>& mf_string_string = + refl->GetRepeatedPtrField<Message>(message, fd_map_string_string); + const RepeatedPtrField<Message>& + mf_int32_foreign_message = + refl->GetRepeatedPtrField<Message>( + message, fd_map_int32_foreign_message); + + // Get mutable RepeatedPtrField objects for all fields of interest. + RepeatedPtrField<Message>* mmf_int32_int32 = + refl->MutableRepeatedPtrField<Message>(&message, fd_map_int32_int32); + RepeatedPtrField<Message>* mmf_int32_double = + refl->MutableRepeatedPtrField<Message>(&message, fd_map_int32_double); + RepeatedPtrField<Message>* mmf_string_string = + refl->MutableRepeatedPtrField<Message>(&message, fd_map_string_string); + RepeatedPtrField<Message>* mmf_int32_foreign_message = + refl->MutableRepeatedPtrField<Message>( + &message, fd_map_int32_foreign_message); + + // Make sure we can do gets through the RepeatedPtrField objects. + for (int i = 0; i < 10; ++i) { + { + // Check gets through const objects. + const Message& message_int32_int32 = mf_int32_int32.Get(i); + int32 key_int32_int32 = message_int32_int32.GetReflection()->GetInt32( + message_int32_int32, fd_map_int32_in32_key); + int32 value_int32_int32 = message_int32_int32.GetReflection()->GetInt32( + message_int32_int32, fd_map_int32_in32_value); + EXPECT_EQ(value_int32_int32, Func(key_int32_int32, 1)); + + const Message& message_int32_double = mf_int32_double.Get(i); + int32 key_int32_double = message_int32_double.GetReflection()->GetInt32( + message_int32_double, fd_map_int32_double_key); + double value_int32_double = + message_int32_double.GetReflection()->GetDouble( + message_int32_double, fd_map_int32_double_value); + EXPECT_EQ(value_int32_double, Func(key_int32_double, 2)); + + const Message& message_string_string = mf_string_string.Get(i); + string key_string_string = + message_string_string.GetReflection()->GetString( + message_string_string, fd_map_string_string_key); + string value_string_string = + message_string_string.GetReflection()->GetString( + message_string_string, fd_map_string_string_value); + EXPECT_EQ(value_string_string, StrFunc(Int(key_string_string), 5)); + + const Message& message_int32_message = mf_int32_foreign_message.Get(i); + int32 key_int32_message = message_int32_message.GetReflection()->GetInt32( + message_int32_message, fd_map_int32_foreign_message_key); + const ForeignMessage& value_int32_message = + down_cast<const ForeignMessage&>( + message_int32_message.GetReflection() + ->GetMessage(message_int32_message, + fd_map_int32_foreign_message_value)); + EXPECT_EQ(value_int32_message.c(), Func(key_int32_message, 6)); + } + + { + // Check gets through mutable objects. + const Message& message_int32_int32 = mmf_int32_int32->Get(i); + int32 key_int32_int32 = message_int32_int32.GetReflection()->GetInt32( + message_int32_int32, fd_map_int32_in32_key); + int32 value_int32_int32 = message_int32_int32.GetReflection()->GetInt32( + message_int32_int32, fd_map_int32_in32_value); + EXPECT_EQ(value_int32_int32, Func(key_int32_int32, 1)); + + const Message& message_int32_double = mmf_int32_double->Get(i); + int32 key_int32_double = message_int32_double.GetReflection()->GetInt32( + message_int32_double, fd_map_int32_double_key); + double value_int32_double = + message_int32_double.GetReflection()->GetDouble( + message_int32_double, fd_map_int32_double_value); + EXPECT_EQ(value_int32_double, Func(key_int32_double, 2)); + + const Message& message_string_string = mmf_string_string->Get(i); + string key_string_string = + message_string_string.GetReflection()->GetString( + message_string_string, fd_map_string_string_key); + string value_string_string = + message_string_string.GetReflection()->GetString( + message_string_string, fd_map_string_string_value); + EXPECT_EQ(value_string_string, StrFunc(Int(key_string_string), 5)); + + const Message& message_int32_message = mmf_int32_foreign_message->Get(i); + int32 key_int32_message = message_int32_message.GetReflection()->GetInt32( + message_int32_message, fd_map_int32_foreign_message_key); + const ForeignMessage& value_int32_message = + down_cast<const ForeignMessage&>( + message_int32_message.GetReflection() + ->GetMessage(message_int32_message, + fd_map_int32_foreign_message_value)); + EXPECT_EQ(value_int32_message.c(), Func(key_int32_message, 6)); + } + } + + // Do sets through the RepeatedPtrField objects. + for (int i = 0; i < 10; i++) { + { + Message* message_int32_int32 = mmf_int32_int32->Mutable(i); + int32 key_int32_int32 = message_int32_int32->GetReflection()->GetInt32( + *message_int32_int32, fd_map_int32_in32_key); + message_int32_int32->GetReflection()->SetInt32(message_int32_int32, + fd_map_int32_in32_value, + Func(key_int32_int32, -1)); + + Message* message_int32_double = mmf_int32_double->Mutable(i); + int32 key_int32_double = message_int32_double->GetReflection()->GetInt32( + *message_int32_double, fd_map_int32_double_key); + message_int32_double->GetReflection()->SetDouble( + message_int32_double, fd_map_int32_double_value, + Func(key_int32_double, -2)); + + Message* message_string_string = mmf_string_string->Mutable(i); + string key_string_string = + message_string_string->GetReflection()->GetString( + *message_string_string, fd_map_string_string_key); + message_string_string->GetReflection()->SetString( + message_string_string, fd_map_string_string_value, + StrFunc(Int(key_string_string), -5)); + + Message* message_int32_message = mmf_int32_foreign_message->Mutable(i); + int32 key_int32_message = + message_int32_message->GetReflection()->GetInt32( + *message_int32_message, fd_map_int32_foreign_message_key); + ForeignMessage* value_int32_message = down_cast<ForeignMessage*>( + message_int32_message->GetReflection() + ->MutableMessage(message_int32_message, + fd_map_int32_foreign_message_value)); + value_int32_message->set_c(Func(key_int32_message, -6)); + } + } + + // Check gets through mutable objects. + for (int i = 0; i < 10; i++) { + EXPECT_EQ(Func(i, -1), message.map_int32_int32().at(i)); + EXPECT_EQ(Func(i, -2), message.map_int32_double().at(i)); + EXPECT_EQ(StrFunc(i, -5), message.map_string_string().at(StrFunc(i, 1))); + EXPECT_EQ(Func(i, -6), message.map_int32_foreign_message().at(i).c()); + } +} + +TEST_F(MapFieldReflectionTest, RepeatedFieldRefForRegularFields) { + TestMap message; + const Reflection* refl = message.GetReflection(); + const Descriptor* desc = message.GetDescriptor(); + + Map<int32, int32>* map_int32_int32 = message.mutable_map_int32_int32(); + Map<int32, double>* map_int32_double = message.mutable_map_int32_double(); + Map<string, string>* map_string_string = message.mutable_map_string_string(); + Map<int32, ForeignMessage>* map_int32_foreign_message = + message.mutable_map_int32_foreign_message(); + + for (int i = 0; i < 10; ++i) { + (*map_int32_int32)[i] = Func(i, 1); + (*map_int32_double)[i] = Func(i, 2); + (*map_string_string)[StrFunc(i, 1)] = StrFunc(i, 5); + (*map_int32_foreign_message)[i].set_c(Func(i, 6)); + } + + // Get FieldDescriptors for all the fields of interest. + const FieldDescriptor* fd_map_int32_int32 = + desc->FindFieldByName("map_int32_int32"); + const FieldDescriptor* fd_map_int32_double = + desc->FindFieldByName("map_int32_double"); + const FieldDescriptor* fd_map_string_string = + desc->FindFieldByName("map_string_string"); + const FieldDescriptor* fd_map_int32_foreign_message = + desc->FindFieldByName("map_int32_foreign_message"); + + const FieldDescriptor* fd_map_int32_in32_key = + fd_map_int32_int32->message_type()->FindFieldByName("key"); + const FieldDescriptor* fd_map_int32_in32_value = + fd_map_int32_int32->message_type()->FindFieldByName("value"); + const FieldDescriptor* fd_map_int32_double_key = + fd_map_int32_double->message_type()->FindFieldByName("key"); + const FieldDescriptor* fd_map_int32_double_value = + fd_map_int32_double->message_type()->FindFieldByName("value"); + const FieldDescriptor* fd_map_string_string_key = + fd_map_string_string->message_type()->FindFieldByName("key"); + const FieldDescriptor* fd_map_string_string_value = + fd_map_string_string->message_type()->FindFieldByName("value"); + const FieldDescriptor* fd_map_int32_foreign_message_key = + fd_map_int32_foreign_message->message_type()->FindFieldByName("key"); + const FieldDescriptor* fd_map_int32_foreign_message_value = + fd_map_int32_foreign_message->message_type()->FindFieldByName("value"); + + // Get RepeatedFieldRef objects for all fields of interest. + const RepeatedFieldRef<Message> mf_int32_int32 = + refl->GetRepeatedFieldRef<Message>(message, fd_map_int32_int32); + const RepeatedFieldRef<Message> mf_int32_double = + refl->GetRepeatedFieldRef<Message>(message, fd_map_int32_double); + const RepeatedFieldRef<Message> mf_string_string = + refl->GetRepeatedFieldRef<Message>(message, fd_map_string_string); + const RepeatedFieldRef<Message> mf_int32_foreign_message = + refl->GetRepeatedFieldRef<Message>(message, fd_map_int32_foreign_message); + + // Get mutable RepeatedFieldRef objects for all fields of interest. + const MutableRepeatedFieldRef<Message> mmf_int32_int32 = + refl->GetMutableRepeatedFieldRef<Message>(&message, fd_map_int32_int32); + const MutableRepeatedFieldRef<Message> mmf_int32_double = + refl->GetMutableRepeatedFieldRef<Message>(&message, fd_map_int32_double); + const MutableRepeatedFieldRef<Message> mmf_string_string = + refl->GetMutableRepeatedFieldRef<Message>(&message, fd_map_string_string); + const MutableRepeatedFieldRef<Message> + mmf_int32_foreign_message = + refl->GetMutableRepeatedFieldRef<Message>( + &message, fd_map_int32_foreign_message); + + // Get entry default instances + google::protobuf::scoped_ptr<Message> entry_int32_int32( + MessageFactory::generated_factory() + ->GetPrototype(fd_map_int32_int32->message_type()) + ->New()); + google::protobuf::scoped_ptr<Message> entry_int32_double( + MessageFactory::generated_factory() + ->GetPrototype(fd_map_int32_double->message_type()) + ->New()); + google::protobuf::scoped_ptr<Message> entry_string_string( + MessageFactory::generated_factory() + ->GetPrototype(fd_map_string_string->message_type()) + ->New()); + google::protobuf::scoped_ptr<Message> entry_int32_foreign_message( + MessageFactory::generated_factory() + ->GetPrototype(fd_map_int32_foreign_message->message_type()) + ->New()); + + EXPECT_EQ(10, mf_int32_int32.size()); + EXPECT_EQ(10, mmf_int32_int32.size()); + EXPECT_EQ(10, mf_int32_double.size()); + EXPECT_EQ(10, mmf_int32_double.size()); + EXPECT_EQ(10, mf_string_string.size()); + EXPECT_EQ(10, mmf_string_string.size()); + EXPECT_EQ(10, mf_int32_foreign_message.size()); + EXPECT_EQ(10, mmf_int32_foreign_message.size()); + + EXPECT_FALSE(mf_int32_int32.empty()); + EXPECT_FALSE(mmf_int32_int32.empty()); + EXPECT_FALSE(mf_int32_double.empty()); + EXPECT_FALSE(mmf_int32_double.empty()); + EXPECT_FALSE(mf_string_string.empty()); + EXPECT_FALSE(mmf_string_string.empty()); + EXPECT_FALSE(mf_int32_foreign_message.empty()); + EXPECT_FALSE(mmf_int32_foreign_message.empty()); + + // Make sure we can do gets through the RepeatedFieldRef objects. + for (int i = 0; i < 10; ++i) { + { + // Check gets through const objects. + const Message& message_int32_int32 = + mf_int32_int32.Get(i, entry_int32_int32.get()); + int32 key_int32_int32 = message_int32_int32.GetReflection()->GetInt32( + message_int32_int32, fd_map_int32_in32_key); + int32 value_int32_int32 = message_int32_int32.GetReflection()->GetInt32( + message_int32_int32, fd_map_int32_in32_value); + EXPECT_EQ(value_int32_int32, Func(key_int32_int32, 1)); + + const Message& message_int32_double = + mf_int32_double.Get(i, entry_int32_double.get()); + int32 key_int32_double = message_int32_double.GetReflection()->GetInt32( + message_int32_double, fd_map_int32_double_key); + double value_int32_double = + message_int32_double.GetReflection()->GetDouble( + message_int32_double, fd_map_int32_double_value); + EXPECT_EQ(value_int32_double, Func(key_int32_double, 2)); + + const Message& message_string_string = + mf_string_string.Get(i, entry_string_string.get()); + string key_string_string = + message_string_string.GetReflection()->GetString( + message_string_string, fd_map_string_string_key); + string value_string_string = + message_string_string.GetReflection()->GetString( + message_string_string, fd_map_string_string_value); + EXPECT_EQ(value_string_string, StrFunc(Int(key_string_string), 5)); + + const Message& message_int32_message = + mf_int32_foreign_message.Get(i, entry_int32_foreign_message.get()); + int32 key_int32_message = message_int32_message.GetReflection()->GetInt32( + message_int32_message, fd_map_int32_foreign_message_key); + const ForeignMessage& value_int32_message = + down_cast<const ForeignMessage&>( + message_int32_message.GetReflection() + ->GetMessage(message_int32_message, + fd_map_int32_foreign_message_value)); + EXPECT_EQ(value_int32_message.c(), Func(key_int32_message, 6)); + } + + { + // Check gets through mutable objects. + const Message& message_int32_int32 = + mmf_int32_int32.Get(i, entry_int32_int32.get()); + int32 key_int32_int32 = message_int32_int32.GetReflection()->GetInt32( + message_int32_int32, fd_map_int32_in32_key); + int32 value_int32_int32 = message_int32_int32.GetReflection()->GetInt32( + message_int32_int32, fd_map_int32_in32_value); + EXPECT_EQ(value_int32_int32, Func(key_int32_int32, 1)); + + const Message& message_int32_double = + mmf_int32_double.Get(i, entry_int32_double.get()); + int32 key_int32_double = message_int32_double.GetReflection()->GetInt32( + message_int32_double, fd_map_int32_double_key); + double value_int32_double = + message_int32_double.GetReflection()->GetDouble( + message_int32_double, fd_map_int32_double_value); + EXPECT_EQ(value_int32_double, Func(key_int32_double, 2)); + + const Message& message_string_string = + mmf_string_string.Get(i, entry_string_string.get()); + string key_string_string = + message_string_string.GetReflection()->GetString( + message_string_string, fd_map_string_string_key); + string value_string_string = + message_string_string.GetReflection()->GetString( + message_string_string, fd_map_string_string_value); + EXPECT_EQ(value_string_string, StrFunc(Int(key_string_string), 5)); + + const Message& message_int32_message = + mmf_int32_foreign_message.Get(i, entry_int32_foreign_message.get()); + int32 key_int32_message = message_int32_message.GetReflection()->GetInt32( + message_int32_message, fd_map_int32_foreign_message_key); + const ForeignMessage& value_int32_message = + down_cast<const ForeignMessage&>( + message_int32_message.GetReflection() + ->GetMessage(message_int32_message, + fd_map_int32_foreign_message_value)); + EXPECT_EQ(value_int32_message.c(), Func(key_int32_message, 6)); + } + } + + // Make sure we can do sets through the RepeatedFieldRef objects. + for (int i = 0; i < 10; i++) { + const Message& message_int32_int32 = + mmf_int32_int32.Get(i, entry_int32_int32.get()); + int key = message_int32_int32.GetReflection()->GetInt32( + message_int32_int32, fd_map_int32_in32_key); + + entry_int32_int32->GetReflection()->SetInt32( + entry_int32_int32.get(), fd_map_int32_int32->message_type()->field(0), + key); + entry_int32_int32->GetReflection()->SetInt32( + entry_int32_int32.get(), fd_map_int32_int32->message_type()->field(1), + Func(key, -1)); + entry_int32_double->GetReflection()->SetInt32( + entry_int32_double.get(), fd_map_int32_double->message_type()->field(0), + key); + entry_int32_double->GetReflection()->SetDouble( + entry_int32_double.get(), fd_map_int32_double->message_type()->field(1), + Func(key, -2)); + entry_string_string->GetReflection()->SetString( + entry_string_string.get(), + fd_map_string_string->message_type()->field(0), StrFunc(key, 1)); + entry_string_string->GetReflection()->SetString( + entry_string_string.get(), + fd_map_string_string->message_type()->field(1), StrFunc(key, -5)); + entry_int32_foreign_message->GetReflection()->SetInt32( + entry_int32_foreign_message.get(), + fd_map_int32_foreign_message->message_type()->field(0), key); + Message* value_message = + entry_int32_foreign_message->GetReflection()->MutableMessage( + entry_int32_foreign_message.get(), + fd_map_int32_foreign_message->message_type()->field(1)); + value_message->GetReflection()->SetInt32( + value_message, value_message->GetDescriptor()->FindFieldByName("c"), + Func(key, -6)); + + mmf_int32_int32.Set(i, *entry_int32_int32); + mmf_int32_double.Set(i, *entry_int32_double); + mmf_string_string.Set(i, *entry_string_string); + mmf_int32_foreign_message.Set(i, *entry_int32_foreign_message); + } + + for (int i = 0; i < 10; i++) { + EXPECT_EQ(Func(i, -1), message.map_int32_int32().at(i)); + EXPECT_EQ(Func(i, -2), message.map_int32_double().at(i)); + EXPECT_EQ(StrFunc(i, -5), message.map_string_string().at(StrFunc(i, 1))); + EXPECT_EQ(Func(i, -6), message.map_int32_foreign_message().at(i).c()); + } + + // Test iterators. + { + int index = 0; + hash_map<int32, int32> result; + for (RepeatedFieldRef<Message>::iterator it = mf_int32_int32.begin(); + it != mf_int32_int32.end(); ++it) { + const Message& message = *it; + int32 key = + message.GetReflection()->GetInt32(message, fd_map_int32_in32_key); + int32 value = + message.GetReflection()->GetInt32(message, fd_map_int32_in32_value); + result[key] = value; + ++index; + } + EXPECT_EQ(10, index); + for (hash_map<int32, int32>::const_iterator it = result.begin(); + it != result.end(); ++it) { + EXPECT_EQ(message.map_int32_int32().at(it->first), it->second); + } + } + + { + int index = 0; + hash_map<int32, double> result; + for (RepeatedFieldRef<Message>::iterator it = mf_int32_double.begin(); + it != mf_int32_double.end(); ++it) { + const Message& message = *it; + int32 key = + message.GetReflection()->GetInt32(message, fd_map_int32_double_key); + double value = message.GetReflection()->GetDouble( + message, fd_map_int32_double_value); + result[key] = value; + ++index; + } + EXPECT_EQ(10, index); + for (hash_map<int32, double>::const_iterator it = result.begin(); + it != result.end(); ++it) { + EXPECT_EQ(message.map_int32_double().at(it->first), it->second); + } + } + + { + int index = 0; + hash_map<string, string> result; + for (RepeatedFieldRef<Message>::iterator it = mf_string_string.begin(); + it != mf_string_string.end(); ++it) { + const Message& message = *it; + string key = + message.GetReflection()->GetString(message, fd_map_string_string_key); + string value = message.GetReflection()->GetString( + message, fd_map_string_string_value); + result[key] = value; + ++index; + } + EXPECT_EQ(10, index); + for (hash_map<string, string>::const_iterator it = result.begin(); + it != result.end(); ++it) { + EXPECT_EQ(message.map_string_string().at(it->first), it->second); + } + } + + { + int index = 0; + std::map<int32, ForeignMessage> result; + for (RepeatedFieldRef<Message>::iterator it = + mf_int32_foreign_message.begin(); + it != mf_int32_foreign_message.end(); ++it) { + const Message& message = *it; + int32 key = message.GetReflection()->GetInt32( + message, fd_map_int32_foreign_message_key); + const ForeignMessage& sub_message = down_cast<const ForeignMessage&>( + message.GetReflection() + ->GetMessage(message, fd_map_int32_foreign_message_value)); + result[key].MergeFrom(sub_message); + ++index; + } + EXPECT_EQ(10, index); + for (std::map<int32, ForeignMessage>::const_iterator it = result.begin(); + it != result.end(); ++it) { + EXPECT_EQ(message.map_int32_foreign_message().at(it->first).c(), + it->second.c()); + } + } + + // Test MutableRepeatedFieldRef::Add() + entry_int32_int32->GetReflection()->SetInt32( + entry_int32_int32.get(), fd_map_int32_int32->message_type()->field(0), + 4321); + entry_int32_int32->GetReflection()->SetInt32( + entry_int32_int32.get(), fd_map_int32_int32->message_type()->field(1), + 1234); + mmf_int32_int32.Add(*entry_int32_int32); + EXPECT_EQ(1234, message.map_int32_int32().at(4321)); + + entry_int32_double->GetReflection()->SetInt32( + entry_int32_double.get(), fd_map_int32_double->message_type()->field(0), + 4321); + entry_int32_double->GetReflection()->SetDouble( + entry_int32_double.get(), fd_map_int32_double->message_type()->field(1), + 1234.0); + mmf_int32_double.Add(*entry_int32_double); + EXPECT_EQ(1234.0, message.map_int32_double().at(4321)); + + entry_string_string->GetReflection()->SetString( + entry_string_string.get(), + fd_map_string_string->message_type()->field(0), "4321"); + entry_string_string->GetReflection()->SetString( + entry_string_string.get(), fd_map_string_string->message_type()->field(1), + "1234"); + mmf_string_string.Add(*entry_string_string); + EXPECT_EQ("1234", message.map_string_string().at("4321")); + + entry_int32_foreign_message->GetReflection()->SetInt32( + entry_int32_foreign_message.get(), + fd_map_int32_foreign_message->message_type()->field(0), 4321); + Message* value_message = + entry_int32_foreign_message->GetReflection()->MutableMessage( + entry_int32_foreign_message.get(), + fd_map_int32_foreign_message->message_type()->field(1)); + ForeignMessage foreign_message; + foreign_message.set_c(1234); + value_message->CopyFrom(foreign_message); + + mmf_int32_foreign_message.Add(*entry_int32_foreign_message); + EXPECT_EQ(1234, message.map_int32_foreign_message().at(4321).c()); + + // Test Reflection::AddAllocatedMessage + Message* free_entry_string_string = MessageFactory::generated_factory() + ->GetPrototype(fd_map_string_string->message_type()) + ->New(); + entry_string_string->GetReflection()->SetString( + free_entry_string_string, + fd_map_string_string->message_type()->field(0), "4321"); + entry_string_string->GetReflection()->SetString( + free_entry_string_string, fd_map_string_string->message_type()->field(1), + "1234"); + refl->AddAllocatedMessage(&message, fd_map_string_string, + free_entry_string_string); + + // Test MutableRepeatedFieldRef::RemoveLast() + mmf_int32_int32.RemoveLast(); + mmf_int32_double.RemoveLast(); + mmf_string_string.RemoveLast(); + mmf_int32_foreign_message.RemoveLast(); + EXPECT_EQ(10, message.map_int32_int32().size()); + EXPECT_EQ(10, message.map_int32_double().size()); + EXPECT_EQ(11, message.map_string_string().size()); + EXPECT_EQ(10, message.map_int32_foreign_message().size()); + + // Test MutableRepeatedFieldRef::SwapElements() + { + const Message& message0a = mmf_int32_int32.Get(0, entry_int32_int32.get()); + int32 int32_value0a = + message0a.GetReflection()->GetInt32(message0a, fd_map_int32_in32_value); + const Message& message9a = mmf_int32_int32.Get(9, entry_int32_int32.get()); + int32 int32_value9a = + message9a.GetReflection()->GetInt32(message9a, fd_map_int32_in32_value); + + mmf_int32_int32.SwapElements(0, 9); + + const Message& message0b = mmf_int32_int32.Get(0, entry_int32_int32.get()); + int32 int32_value0b = + message0b.GetReflection()->GetInt32(message0b, fd_map_int32_in32_value); + const Message& message9b = mmf_int32_int32.Get(9, entry_int32_int32.get()); + int32 int32_value9b = + message9b.GetReflection()->GetInt32(message9b, fd_map_int32_in32_value); + + EXPECT_EQ(int32_value9a, int32_value0b); + EXPECT_EQ(int32_value0a, int32_value9b); + } + + { + const Message& message0a = + mmf_int32_double.Get(0, entry_int32_double.get()); + double double_value0a = message0a.GetReflection()->GetDouble( + message0a, fd_map_int32_double_value); + const Message& message9a = + mmf_int32_double.Get(9, entry_int32_double.get()); + double double_value9a = message9a.GetReflection()->GetDouble( + message9a, fd_map_int32_double_value); + + mmf_int32_double.SwapElements(0, 9); + + const Message& message0b = + mmf_int32_double.Get(0, entry_int32_double.get()); + double double_value0b = message0b.GetReflection()->GetDouble( + message0b, fd_map_int32_double_value); + const Message& message9b = + mmf_int32_double.Get(9, entry_int32_double.get()); + double double_value9b = message9b.GetReflection()->GetDouble( + message9b, fd_map_int32_double_value); + + EXPECT_EQ(double_value9a, double_value0b); + EXPECT_EQ(double_value0a, double_value9b); + } + + { + const Message& message0a = + mmf_string_string.Get(0, entry_string_string.get()); + string string_value0a = message0a.GetReflection()->GetString( + message0a, fd_map_string_string_value); + const Message& message9a = + mmf_string_string.Get(9, entry_string_string.get()); + string string_value9a = message9a.GetReflection()->GetString( + message9a, fd_map_string_string_value); + + mmf_string_string.SwapElements(0, 9); + + const Message& message0b = + mmf_string_string.Get(0, entry_string_string.get()); + string string_value0b = message0b.GetReflection()->GetString( + message0b, fd_map_string_string_value); + const Message& message9b = + mmf_string_string.Get(9, entry_string_string.get()); + string string_value9b = message9b.GetReflection()->GetString( + message9b, fd_map_string_string_value); + + EXPECT_EQ(string_value9a, string_value0b); + EXPECT_EQ(string_value0a, string_value9b); + } + + { + const Message& message0a = + mmf_int32_foreign_message.Get(0, entry_int32_foreign_message.get()); + const ForeignMessage& sub_message0a = down_cast<const ForeignMessage&>( + message0a.GetReflection() + ->GetMessage(message0a, fd_map_int32_foreign_message_value)); + int32 int32_value0a = sub_message0a.c(); + const Message& message9a = + mmf_int32_foreign_message.Get(9, entry_int32_foreign_message.get()); + const ForeignMessage& sub_message9a = down_cast<const ForeignMessage&>( + message9a.GetReflection() + ->GetMessage(message9a, fd_map_int32_foreign_message_value)); + int32 int32_value9a = sub_message9a.c(); + + mmf_int32_foreign_message.SwapElements(0, 9); + + const Message& message0b = + mmf_int32_foreign_message.Get(0, entry_int32_foreign_message.get()); + const ForeignMessage& sub_message0b = down_cast<const ForeignMessage&>( + message0b.GetReflection() + ->GetMessage(message0b, fd_map_int32_foreign_message_value)); + int32 int32_value0b = sub_message0b.c(); + const Message& message9b = + mmf_int32_foreign_message.Get(9, entry_int32_foreign_message.get()); + const ForeignMessage& sub_message9b = down_cast<const ForeignMessage&>( + message9b.GetReflection() + ->GetMessage(message9b, fd_map_int32_foreign_message_value)); + int32 int32_value9b = sub_message9b.c(); + + EXPECT_EQ(int32_value9a, int32_value0b); + EXPECT_EQ(int32_value0a, int32_value9b); + } +} + +TEST_F(MapFieldReflectionTest, RepeatedFieldRefMergeFromAndSwap) { + // Set-up message content. + TestMap m0, m1, m2; + for (int i = 0; i < 10; ++i) { + (*m0.mutable_map_int32_int32())[i] = Func(i, 1); + (*m0.mutable_map_int32_double())[i] = Func(i, 2); + (*m0.mutable_map_string_string())[StrFunc(i, 1)] = StrFunc(i, 5); + (*m0.mutable_map_int32_foreign_message())[i].set_c(Func(i, 6)); + (*m1.mutable_map_int32_int32())[i + 10] = Func(i, 11); + (*m1.mutable_map_int32_double())[i + 10] = Func(i, 12); + (*m1.mutable_map_string_string())[StrFunc(i + 10, 1)] = StrFunc(i, 15); + (*m1.mutable_map_int32_foreign_message())[i + 10].set_c(Func(i, 16)); + (*m2.mutable_map_int32_int32())[i + 20] = Func(i, 21); + (*m2.mutable_map_int32_double())[i + 20] = Func(i, 22); + (*m2.mutable_map_string_string())[StrFunc(i + 20, 1)] = StrFunc(i, 25); + (*m2.mutable_map_int32_foreign_message())[i + 20].set_c(Func(i, 26)); + } + + const Reflection* refl = m0.GetReflection(); + const Descriptor* desc = m0.GetDescriptor(); + + // Get FieldDescriptors for all the fields of interest. + const FieldDescriptor* fd_map_int32_int32 = + desc->FindFieldByName("map_int32_int32"); + const FieldDescriptor* fd_map_int32_double = + desc->FindFieldByName("map_int32_double"); + const FieldDescriptor* fd_map_string_string = + desc->FindFieldByName("map_string_string"); + const FieldDescriptor* fd_map_int32_foreign_message = + desc->FindFieldByName("map_int32_foreign_message"); + + // Get MutableRepeatedFieldRef objects for all fields of interest. + const MutableRepeatedFieldRef<Message> mmf_int32_int32 = + refl->GetMutableRepeatedFieldRef<Message>( + &m0, fd_map_int32_int32); + const MutableRepeatedFieldRef<Message> mmf_int32_double = + refl->GetMutableRepeatedFieldRef<Message>( + &m0, fd_map_int32_double); + const MutableRepeatedFieldRef<Message> mmf_string_string = + refl->GetMutableRepeatedFieldRef<Message>( + &m0, fd_map_string_string); + const MutableRepeatedFieldRef<Message> + mmf_int32_foreign_message = + refl->GetMutableRepeatedFieldRef<Message>( + &m0, fd_map_int32_foreign_message); + + // Test MutableRepeatedRef::CopyFrom + mmf_int32_int32.CopyFrom( + refl->GetRepeatedFieldRef<Message>( + m1, fd_map_int32_int32)); + mmf_int32_double.CopyFrom( + refl->GetRepeatedFieldRef<Message>( + m1, fd_map_int32_double)); + mmf_string_string.CopyFrom( + refl->GetRepeatedFieldRef<Message>( + m1, fd_map_string_string)); + mmf_int32_foreign_message.CopyFrom( + refl->GetRepeatedFieldRef<Message>( + m1, fd_map_int32_foreign_message)); + + for (int i = 0; i < 10; ++i) { + EXPECT_EQ(Func(i, 11), m0.map_int32_int32().at(i + 10)); + EXPECT_EQ(Func(i, 12), m0.map_int32_double().at(i + 10)); + EXPECT_EQ(StrFunc(i, 15), m0.map_string_string().at(StrFunc(i + 10, 1))); + EXPECT_EQ(Func(i, 16), m0.map_int32_foreign_message().at(i + 10).c()); + } + + // Test MutableRepeatedRef::MergeFrom + mmf_int32_int32.MergeFrom( + refl->GetRepeatedFieldRef<Message>( + m2, fd_map_int32_int32)); + mmf_int32_double.MergeFrom( + refl->GetRepeatedFieldRef<Message>( + m2, fd_map_int32_double)); + mmf_string_string.MergeFrom( + refl->GetRepeatedFieldRef<Message>( + m2, fd_map_string_string)); + mmf_int32_foreign_message.MergeFrom( + refl->GetRepeatedFieldRef<Message>( + m2, fd_map_int32_foreign_message)); + for (int i = 0; i < 10; ++i) { + EXPECT_EQ(Func(i, 21), m0.map_int32_int32().at(i + 20)); + EXPECT_EQ(Func(i, 22), m0.map_int32_double().at(i + 20)); + EXPECT_EQ(StrFunc(i, 25), m0.map_string_string().at(StrFunc(i + 20, 1))); + EXPECT_EQ(Func(i, 26), m0.map_int32_foreign_message().at(i + 20).c()); + } + + // Test MutableRepeatedRef::Swap + // Swap between m0 and m2. + mmf_int32_int32.Swap( + refl->GetMutableRepeatedFieldRef<Message>( + &m2, fd_map_int32_int32)); + mmf_int32_double.Swap( + refl->GetMutableRepeatedFieldRef<Message>( + &m2, fd_map_int32_double)); + mmf_string_string.Swap( + refl->GetMutableRepeatedFieldRef<Message>( + &m2, fd_map_string_string)); + mmf_int32_foreign_message.Swap( + refl->GetMutableRepeatedFieldRef<Message>( + &m2, fd_map_int32_foreign_message)); + for (int i = 0; i < 10; ++i) { + // Check the content of m0. + EXPECT_EQ(Func(i, 21), m0.map_int32_int32().at(i + 20)); + EXPECT_EQ(Func(i, 22), m0.map_int32_double().at(i + 20)); + EXPECT_EQ(StrFunc(i, 25), m0.map_string_string().at(StrFunc(i + 20, 1))); + EXPECT_EQ(Func(i, 26), m0.map_int32_foreign_message().at(i + 20).c()); + + // Check the content of m2. + EXPECT_EQ(Func(i, 11), m2.map_int32_int32().at(i + 10)); + EXPECT_EQ(Func(i, 12), m2.map_int32_double().at(i + 10)); + EXPECT_EQ(StrFunc(i, 15), m2.map_string_string().at(StrFunc(i + 10, 1))); + EXPECT_EQ(Func(i, 16), m2.map_int32_foreign_message().at(i + 10).c()); + EXPECT_EQ(Func(i, 21), m2.map_int32_int32().at(i + 20)); + EXPECT_EQ(Func(i, 22), m2.map_int32_double().at(i + 20)); + EXPECT_EQ(StrFunc(i, 25), m2.map_string_string().at(StrFunc(i + 20, 1))); + EXPECT_EQ(Func(i, 26), m2.map_int32_foreign_message().at(i + 20).c()); + } + + // TODO(teboring): add test for duplicated key +} + +// Generated Message Test =========================================== + +TEST(GeneratedMapFieldTest, Accessors) { + unittest::TestMap message; + + MapTestUtil::SetMapFields(&message); + MapTestUtil::ExpectMapFieldsSet(message); + + MapTestUtil::ModifyMapFields(&message); + MapTestUtil::ExpectMapFieldsModified(message); +} + +TEST(GeneratedMapFieldTest, SetMapFieldsInitialized) { + unittest::TestMap message; + + MapTestUtil::SetMapFieldsInitialized(&message); + MapTestUtil::ExpectMapFieldsSetInitialized(message); +} + +TEST(GeneratedMapFieldTest, Proto2SetMapFieldsInitialized) { + unittest::TestEnumMap message; + EXPECT_EQ(unittest::PROTO2_MAP_ENUM_FOO, + (*message.mutable_known_map_field())[0]); +} + +TEST(GeneratedMapFieldTest, Clear) { + unittest::TestMap message; + + MapTestUtil::SetMapFields(&message); + message.Clear(); + MapTestUtil::ExpectClear(message); +} + +TEST(GeneratedMapFieldTest, ClearMessageMap) { + unittest::TestMessageMap message; + + // Creates a TestAllTypes with default value + TestUtil::ExpectClear((*message.mutable_map_int32_message())[0]); +} + +TEST(GeneratedMapFieldTest, CopyFrom) { + unittest::TestMap message1, message2; + + MapTestUtil::SetMapFields(&message1); + message2.CopyFrom(message1); + MapTestUtil::ExpectMapFieldsSet(message2); + + // Copying from self should be a no-op. + message2.CopyFrom(message2); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +TEST(GeneratedMapFieldTest, CopyFromMessageMap) { + unittest::TestMessageMap message1, message2; + + (*message1.mutable_map_int32_message())[0].add_repeated_int32(100); + (*message2.mutable_map_int32_message())[0].add_repeated_int32(101); + + message1.CopyFrom(message2); + + // Checks repeated field is overwritten. + EXPECT_EQ(1, message1.map_int32_message().at(0).repeated_int32_size()); + EXPECT_EQ(101, message1.map_int32_message().at(0).repeated_int32(0)); +} + +TEST(GeneratedMapFieldTest, SwapWithEmpty) { + unittest::TestMap message1, message2; + + MapTestUtil::SetMapFields(&message1); + MapTestUtil::ExpectMapFieldsSet(message1); + MapTestUtil::ExpectClear(message2); + + message1.Swap(&message2); + MapTestUtil::ExpectMapFieldsSet(message2); + MapTestUtil::ExpectClear(message1); +} + +TEST(GeneratedMapFieldTest, SwapWithSelf) { + unittest::TestMap message; + + MapTestUtil::SetMapFields(&message); + MapTestUtil::ExpectMapFieldsSet(message); + + message.Swap(&message); + MapTestUtil::ExpectMapFieldsSet(message); +} + +TEST(GeneratedMapFieldTest, SwapWithOther) { + unittest::TestMap message1, message2; + + MapTestUtil::SetMapFields(&message1); + MapTestUtil::SetMapFields(&message2); + MapTestUtil::ModifyMapFields(&message2); + + message1.Swap(&message2); + MapTestUtil::ExpectMapFieldsModified(message1); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +TEST(GeneratedMapFieldTest, CopyConstructor) { + unittest::TestMap message1; + MapTestUtil::SetMapFields(&message1); + + unittest::TestMap message2(message1); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +TEST(GeneratedMapFieldTest, CopyAssignmentOperator) { + unittest::TestMap message1; + MapTestUtil::SetMapFields(&message1); + + unittest::TestMap message2; + message2 = message1; + MapTestUtil::ExpectMapFieldsSet(message2); + + // Make sure that self-assignment does something sane. + message2.operator=(message2); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +#if !defined(PROTOBUF_TEST_NO_DESCRIPTORS) || \ + !defined(GOOGLE_PROTOBUF_NO_RTTI) +TEST(GeneratedMapFieldTest, UpcastCopyFrom) { + // Test the CopyFrom method that takes in the generic const Message& + // parameter. + unittest::TestMap message1, message2; + + MapTestUtil::SetMapFields(&message1); + + const Message* source = implicit_cast<const Message*>(&message1); + message2.CopyFrom(*source); + + MapTestUtil::ExpectMapFieldsSet(message2); +} +#endif + +#ifndef PROTOBUF_TEST_NO_DESCRIPTORS + +TEST(GeneratedMapFieldTest, CopyFromDynamicMessage) { + // Test copying from a DynamicMessage, which must fall back to using + // reflection. + unittest::TestMap message2; + + // Construct a new version of the dynamic message via the factory. + DynamicMessageFactory factory; + google::protobuf::scoped_ptr<Message> message1; + message1.reset( + factory.GetPrototype(unittest::TestMap::descriptor())->New()); + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + reflection_tester.SetMapFieldsViaReflection(message1.get()); + reflection_tester.ExpectMapFieldsSetViaReflection(*message1); + reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message1.get()); + message2.CopyFrom(*message1); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +TEST(GeneratedMapFieldTest, CopyFromDynamicMessageMapReflection) { + unittest::TestMap message2; + + // Construct a new version of the dynamic message via the factory. + DynamicMessageFactory factory; + google::protobuf::scoped_ptr<Message> message1; + message1.reset( + factory.GetPrototype(unittest::TestMap::descriptor())->New()); + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + reflection_tester.SetMapFieldsViaMapReflection(message1.get()); + reflection_tester.ExpectMapFieldsSetViaReflection(*message1); + reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message1.get()); + message2.CopyFrom(*message1); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +TEST(GeneratedMapFieldTest, DynamicMessageCopyFrom) { + // Test copying to a DynamicMessage, which must fall back to using reflection. + unittest::TestMap message2; + MapTestUtil::SetMapFields(&message2); + + // Construct a new version of the dynamic message via the factory. + DynamicMessageFactory factory; + google::protobuf::scoped_ptr<Message> message1; + message1.reset( + factory.GetPrototype(unittest::TestMap::descriptor())->New()); + + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + message1->MergeFrom(message2); + reflection_tester.ExpectMapFieldsSetViaReflection(*message1); + reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message1.get()); +} + +TEST(GeneratedMapFieldTest, DynamicMessageCopyFromMapReflection) { + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + unittest::TestMap message2; + reflection_tester.SetMapFieldsViaMapReflection(&message2); + + // Construct a dynamic message via the factory. + DynamicMessageFactory factory; + google::protobuf::scoped_ptr<Message> message1; + message1.reset( + factory.GetPrototype(unittest::TestMap::descriptor())->New()); + + message1->MergeFrom(message2); + reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message1.get()); + reflection_tester.ExpectMapFieldsSetViaReflection(*message1); +} + +TEST(GeneratedMapFieldTest, SyncDynamicMapWithRepeatedField) { + // Construct a dynamic message via the factory. + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + DynamicMessageFactory factory; + google::protobuf::scoped_ptr<Message> message; + message.reset( + factory.GetPrototype(unittest::TestMap::descriptor())->New()); + reflection_tester.SetMapFieldsViaReflection(message.get()); + reflection_tester.ExpectMapFieldsSetViaReflectionIterator(message.get()); + reflection_tester.ExpectMapFieldsSetViaReflection(*message); +} + +#endif // !PROTOBUF_TEST_NO_DESCRIPTORS + +TEST(GeneratedMapFieldTest, NonEmptyMergeFrom) { + unittest::TestMap message1, message2; + + MapTestUtil::SetMapFields(&message1); + + // This field will test merging into an empty spot. + (*message2.mutable_map_int32_int32())[1] = 1; + message1.mutable_map_int32_int32()->erase(1); + + // This tests overwriting. + (*message2.mutable_map_int32_double())[1] = 1; + (*message1.mutable_map_int32_double())[1] = 2; + + message1.MergeFrom(message2); + MapTestUtil::ExpectMapFieldsSet(message1); +} + +TEST(GeneratedMapFieldTest, MergeFromMessageMap) { + unittest::TestMessageMap message1, message2; + + (*message1.mutable_map_int32_message())[0].add_repeated_int32(100); + (*message2.mutable_map_int32_message())[0].add_repeated_int32(101); + + message1.MergeFrom(message2); + + // Checks repeated field is overwritten. + EXPECT_EQ(1, message1.map_int32_message().at(0).repeated_int32_size()); + EXPECT_EQ(101, message1.map_int32_message().at(0).repeated_int32(0)); +} + +// Test the generated SerializeWithCachedSizesToArray() +TEST(GeneratedMapFieldTest, SerializationToArray) { + unittest::TestMap message1, message2; + string data; + MapTestUtil::SetMapFields(&message1); + int size = message1.ByteSize(); + data.resize(size); + uint8* start = reinterpret_cast<uint8*>(string_as_array(&data)); + uint8* end = message1.SerializeWithCachedSizesToArray(start); + EXPECT_EQ(size, end - start); + EXPECT_TRUE(message2.ParseFromString(data)); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +// Test the generated SerializeWithCachedSizes() +TEST(GeneratedMapFieldTest, SerializationToStream) { + unittest::TestMap message1, message2; + MapTestUtil::SetMapFields(&message1); + int size = message1.ByteSize(); + string data; + data.resize(size); + { + // Allow the output stream to buffer only one byte at a time. + io::ArrayOutputStream array_stream(string_as_array(&data), size, 1); + io::CodedOutputStream output_stream(&array_stream); + message1.SerializeWithCachedSizes(&output_stream); + EXPECT_FALSE(output_stream.HadError()); + EXPECT_EQ(size, output_stream.ByteCount()); + } + EXPECT_TRUE(message2.ParseFromString(data)); + MapTestUtil::ExpectMapFieldsSet(message2); +} + + +TEST(GeneratedMapFieldTest, SameTypeMaps) { + const Descriptor* map1 = unittest::TestSameTypeMap::descriptor() + ->FindFieldByName("map1") + ->message_type(); + const Descriptor* map2 = unittest::TestSameTypeMap::descriptor() + ->FindFieldByName("map2") + ->message_type(); + + const Message* map1_entry = + MessageFactory::generated_factory()->GetPrototype(map1); + const Message* map2_entry = + MessageFactory::generated_factory()->GetPrototype(map2); + + EXPECT_EQ(map1, map1_entry->GetDescriptor()); + EXPECT_EQ(map2, map2_entry->GetDescriptor()); +} + +TEST(GeneratedMapFieldTest, Proto2UnknownEnum) { + unittest::TestEnumMapPlusExtra from; + (*from.mutable_known_map_field())[0] = unittest::E_PROTO2_MAP_ENUM_FOO; + (*from.mutable_unknown_map_field())[0] = unittest::E_PROTO2_MAP_ENUM_EXTRA; + string data; + from.SerializeToString(&data); + + unittest::TestEnumMap to; + EXPECT_TRUE(to.ParseFromString(data)); + EXPECT_EQ(0, to.unknown_map_field().size()); + const UnknownFieldSet& unknown_field_set = + to.GetReflection()->GetUnknownFields(to); + EXPECT_EQ(1, unknown_field_set.field_count()); + EXPECT_EQ(1, to.known_map_field().size()); + EXPECT_EQ(unittest::PROTO2_MAP_ENUM_FOO, to.known_map_field().at(0)); + + data.clear(); + from.Clear(); + to.SerializeToString(&data); + EXPECT_TRUE(from.ParseFromString(data)); + EXPECT_EQ(0, from.GetReflection()->GetUnknownFields(from).field_count()); + EXPECT_EQ(1, from.known_map_field().size()); + EXPECT_EQ(unittest::E_PROTO2_MAP_ENUM_FOO, from.known_map_field().at(0)); + EXPECT_EQ(1, from.unknown_map_field().size()); + EXPECT_EQ(unittest::E_PROTO2_MAP_ENUM_EXTRA, from.unknown_map_field().at(0)); +} + +TEST(GeneratedMapFieldTest, StandardWireFormat) { + unittest::TestMap message; + string data = "\x0A\x04\x08\x01\x10\x01"; + + EXPECT_TRUE(message.ParseFromString(data)); + EXPECT_EQ(1, message.map_int32_int32().size()); + EXPECT_EQ(1, message.map_int32_int32().at(1)); +} + +TEST(GeneratedMapFieldTest, UnorderedWireFormat) { + unittest::TestMap message; + + // put value before key in wire format + string data = "\x0A\x04\x10\x01\x08\x02"; + + EXPECT_TRUE(message.ParseFromString(data)); + EXPECT_EQ(1, message.map_int32_int32().size()); + EXPECT_EQ(1, message.map_int32_int32().at(2)); +} + +TEST(GeneratedMapFieldTest, DuplicatedKeyWireFormat) { + unittest::TestMap message; + + // Two key fields in wire format + string data = "\x0A\x06\x08\x01\x08\x02\x10\x01"; + + EXPECT_TRUE(message.ParseFromString(data)); + EXPECT_EQ(1, message.map_int32_int32().size()); + EXPECT_EQ(1, message.map_int32_int32().at(2)); + + // A similar test, but with a map from int to a message type. + // Again, we want to be sure that the "second one wins" when + // there are two separate entries with the same key. + const int key = 99; + unittest::TestRequiredMessageMap map_message; + unittest::TestRequired with_dummy4; + with_dummy4.set_a(0); + with_dummy4.set_b(0); + with_dummy4.set_c(0); + with_dummy4.set_dummy4(11); + (*map_message.mutable_map_field())[key] = with_dummy4; + string s = map_message.SerializeAsString(); + unittest::TestRequired with_dummy5; + with_dummy5.set_a(0); + with_dummy5.set_b(0); + with_dummy5.set_c(0); + with_dummy5.set_dummy5(12); + (*map_message.mutable_map_field())[key] = with_dummy5; + string both = s + map_message.SerializeAsString(); + // We don't expect a merge now. The "second one wins." + ASSERT_TRUE(map_message.ParseFromString(both)); + ASSERT_EQ(1, map_message.map_field().size()); + ASSERT_EQ(1, map_message.map_field().count(key)); + EXPECT_EQ(0, map_message.map_field().find(key)->second.a()); + EXPECT_EQ(0, map_message.map_field().find(key)->second.b()); + EXPECT_EQ(0, map_message.map_field().find(key)->second.c()); + EXPECT_FALSE(map_message.map_field().find(key)->second.has_dummy4()); + ASSERT_TRUE(map_message.map_field().find(key)->second.has_dummy5()); + EXPECT_EQ(12, map_message.map_field().find(key)->second.dummy5()); +} + +// Exhaustive combinations of keys, values, and junk in any order. +// This re-tests some of the things tested above, but if it fails +// it's more work to determine what went wrong, so it isn't necessarily +// bad that we have the simpler tests too. +TEST(GeneratedMapFieldTest, KeysValuesUnknownsWireFormat) { + unittest::TestMap message; + const int kMaxNumKeysAndValuesAndJunk = 4; + const char kKeyTag = 0x08; + const char kValueTag = 0x10; + const char kJunkTag = 0x20; + for (int items = 0; items <= kMaxNumKeysAndValuesAndJunk; items++) { + string data = "\x0A"; + // Encode length of what will follow. + data.push_back(items * 2); + static const int kBitsOfIPerItem = 4; + static const int mask = (1 << kBitsOfIPerItem) - 1; + // Each iteration of the following is a test. It uses i as bit vector + // encoding the keys and values to put in the wire format. + for (int i = 0; i < (1 << (items * kBitsOfIPerItem)); i++) { + string wire_format = data; + int expected_key = 0; + int expected_value = 0; + for (int k = i, j = 0; j < items; j++, k >>= kBitsOfIPerItem) { + bool is_key = k & 0x1; + bool is_value = !is_key && (k & 0x2); + wire_format.push_back(is_key ? kKeyTag : + is_value ? kValueTag : kJunkTag); + char c = static_cast<char>(k & mask) >> 2; // One char after the tag. + wire_format.push_back(c); + if (is_key) expected_key = static_cast<int>(c); + if (is_value) expected_value = static_cast<int>(c); + ASSERT_TRUE(message.ParseFromString(wire_format)); + ASSERT_EQ(1, message.map_int32_int32().size()); + ASSERT_EQ(expected_key, message.map_int32_int32().begin()->first); + ASSERT_EQ(expected_value, message.map_int32_int32().begin()->second); + } + } + } +} + +TEST(GeneratedMapFieldTest, DuplicatedValueWireFormat) { + unittest::TestMap message; + + // Two value fields in wire format + string data = "\x0A\x06\x08\x01\x10\x01\x10\x02"; + + EXPECT_TRUE(message.ParseFromString(data)); + EXPECT_EQ(1, message.map_int32_int32().size()); + EXPECT_EQ(2, message.map_int32_int32().at(1)); +} + +TEST(GeneratedMapFieldTest, MissedKeyWireFormat) { + unittest::TestMap message; + + // No key field in wire format + string data = "\x0A\x02\x10\x01"; + + EXPECT_TRUE(message.ParseFromString(data)); + EXPECT_EQ(1, message.map_int32_int32().size()); + EXPECT_EQ(1, message.map_int32_int32().at(0)); +} + +TEST(GeneratedMapFieldTest, MissedValueWireFormat) { + unittest::TestMap message; + + // No value field in wire format + string data = "\x0A\x02\x08\x01"; + + EXPECT_TRUE(message.ParseFromString(data)); + EXPECT_EQ(1, message.map_int32_int32().size()); + EXPECT_EQ(0, message.map_int32_int32().at(1)); +} + +TEST(GeneratedMapFieldTest, MissedValueTextFormat) { + unittest::TestMap message; + + // No value field in text format + string text = + "map_int32_foreign_message {\n" + " key: 1234567890\n" + "}"; + + EXPECT_TRUE(google::protobuf::TextFormat::ParseFromString(text, &message)); + EXPECT_EQ(1, message.map_int32_foreign_message().size()); + EXPECT_EQ(11, message.ByteSize()); +} + +TEST(GeneratedMapFieldTest, UnknownFieldWireFormat) { + unittest::TestMap message; + + // Unknown field in wire format + string data = "\x0A\x06\x08\x02\x10\x03\x18\x01"; + + EXPECT_TRUE(message.ParseFromString(data)); + EXPECT_EQ(1, message.map_int32_int32().size()); + EXPECT_EQ(3, message.map_int32_int32().at(2)); +} + +TEST(GeneratedMapFieldTest, CorruptedWireFormat) { + unittest::TestMap message; + + // corrupted data in wire format + string data = "\x0A\x06\x08\x02\x11\x03"; + + EXPECT_FALSE(message.ParseFromString(data)); +} + +TEST(GeneratedMapFieldTest, IsInitialized) { + unittest::TestRequiredMessageMap map_message; + + // Add an uninitialized message. + (*map_message.mutable_map_field())[0]; + EXPECT_FALSE(map_message.IsInitialized()); + + // Initialize uninitialized message + (*map_message.mutable_map_field())[0].set_a(0); + (*map_message.mutable_map_field())[0].set_b(0); + (*map_message.mutable_map_field())[0].set_c(0); + EXPECT_TRUE(map_message.IsInitialized()); +} + +TEST(GeneratedMapFieldTest, MessagesMustMerge) { + unittest::TestRequiredMessageMap map_message; + unittest::TestRequired with_dummy4; + with_dummy4.set_a(97); + with_dummy4.set_b(0); + with_dummy4.set_c(0); + with_dummy4.set_dummy4(98); + + EXPECT_TRUE(with_dummy4.IsInitialized()); + (*map_message.mutable_map_field())[0] = with_dummy4; + EXPECT_TRUE(map_message.IsInitialized()); + string s = map_message.SerializeAsString(); + + // Modify s so that there are two values in the entry for key 0. + // The first will have no value for c. The second will have no value for a. + // Those are required fields. Also, make some other little changes, to + // ensure we are merging the two values (because they're messages). + ASSERT_EQ(s.size() - 2, s[1]); // encoding of the length of what follows + string encoded_val(s.data() + 4, s.data() + s.size()); + // In s, change the encoding of c to an encoding of dummy32. + s[s.size() - 3] -= 8; + // Make encoded_val slightly different from what's in s. + encoded_val[encoded_val.size() - 1] += 33; // Encode c = 33. + for (int i = 0; i < encoded_val.size(); i++) { + if (encoded_val[i] == 97) { + // Encode b = 91 instead of a = 97. But this won't matter, because + // we also encode b = 0 right after this. The point is to leave out + // a required field, and make sure the parser doesn't complain, because + // every required field is set after the merge of the two values. + encoded_val[i - 1] += 16; + encoded_val[i] = 91; + } else if (encoded_val[i] == 98) { + // Encode dummy5 = 99 instead of dummy4 = 98. + encoded_val[i - 1] += 8; // The tag for dummy5 is 8 more. + encoded_val[i]++; + break; + } + } + + s += encoded_val; // Add the second message. + s[1] += encoded_val.size(); // Adjust encoded size. + + // Test key then value then value. + int key = 0; + ASSERT_TRUE(map_message.ParseFromString(s)); + ASSERT_EQ(1, map_message.map_field().size()); + ASSERT_EQ(1, map_message.map_field().count(key)); + EXPECT_EQ(97, map_message.map_field().find(key)->second.a()); + EXPECT_EQ(0, map_message.map_field().find(key)->second.b()); + EXPECT_EQ(33, map_message.map_field().find(key)->second.c()); + EXPECT_EQ(98, map_message.map_field().find(key)->second.dummy4()); + EXPECT_EQ(99, map_message.map_field().find(key)->second.dummy5()); + + // Test key then value then value then key. + s.push_back(s[2]); // Copy the key's tag. + key = 19; + s.push_back(key); // Second key is 19 instead of 0. + s[1] += 2; // Adjust encoded size. + ASSERT_TRUE(map_message.ParseFromString(s)); + ASSERT_EQ(1, map_message.map_field().size()); + ASSERT_EQ(1, map_message.map_field().count(key)); + EXPECT_EQ(97, map_message.map_field().find(key)->second.a()); + EXPECT_EQ(0, map_message.map_field().find(key)->second.b()); + EXPECT_EQ(33, map_message.map_field().find(key)->second.c()); + EXPECT_EQ(98, map_message.map_field().find(key)->second.dummy4()); + EXPECT_EQ(99, map_message.map_field().find(key)->second.dummy5()); +} + +// Generated Message Reflection Test ================================ + +TEST(GeneratedMapFieldReflectionTest, SpaceUsed) { + unittest::TestMap message; + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + reflection_tester.SetMapFieldsViaReflection(&message); + + EXPECT_LT(0, message.GetReflection()->SpaceUsed(message)); +} + +TEST(GeneratedMapFieldReflectionTest, Accessors) { + // Set every field to a unique value then go back and check all those + // values. + unittest::TestMap message; + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + reflection_tester.SetMapFieldsViaReflection(&message); + MapTestUtil::ExpectMapFieldsSet(message); + reflection_tester.ExpectMapFieldsSetViaReflection(message); + reflection_tester.ExpectMapFieldsSetViaReflectionIterator(&message); + + reflection_tester.ModifyMapFieldsViaReflection(&message); + MapTestUtil::ExpectMapFieldsModified(message); +} + +TEST(GeneratedMapFieldReflectionTest, Swap) { + unittest::TestMap message1; + unittest::TestMap message2; + + MapTestUtil::SetMapFields(&message1); + + const Reflection* reflection = message1.GetReflection(); + reflection->Swap(&message1, &message2); + + MapTestUtil::ExpectClear(message1); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +TEST(GeneratedMapFieldReflectionTest, SwapWithBothSet) { + unittest::TestMap message1; + unittest::TestMap message2; + + MapTestUtil::SetMapFields(&message1); + MapTestUtil::SetMapFields(&message2); + MapTestUtil::ModifyMapFields(&message2); + + const Reflection* reflection = message1.GetReflection(); + reflection->Swap(&message1, &message2); + + MapTestUtil::ExpectMapFieldsModified(message1); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +TEST(GeneratedMapFieldReflectionTest, SwapFields) { + unittest::TestMap message1; + unittest::TestMap message2; + + MapTestUtil::SetMapFields(&message2); + + vector<const FieldDescriptor*> fields; + const Reflection* reflection = message1.GetReflection(); + reflection->ListFields(message2, &fields); + reflection->SwapFields(&message1, &message2, fields); + + MapTestUtil::ExpectMapFieldsSet(message1); + MapTestUtil::ExpectClear(message2); +} + +TEST(GeneratedMapFieldReflectionTest, ClearField) { + unittest::TestMap message; + MapTestUtil::SetMapFields(&message); + MapTestUtil::ExpectMapFieldsSet(message); + + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + reflection_tester.ClearMapFieldsViaReflection(&message); + reflection_tester.ExpectClearViaReflection(message); + reflection_tester.ExpectClearViaReflectionIterator(&message); +} + +TEST(GeneratedMapFieldReflectionTest, RemoveLast) { + unittest::TestMap message; + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + + MapTestUtil::SetMapFields(&message); + MapTestUtil::ExpectMapsSize(message, 2); + std::vector<const Message*> expected_entries = + MapTestUtil::GetMapEntries(message, 0); + + reflection_tester.RemoveLastMapsViaReflection(&message); + + MapTestUtil::ExpectMapsSize(message, 1); + std::vector<const Message*> remained_entries = + MapTestUtil::GetMapEntries(message, 0); + EXPECT_TRUE(expected_entries == remained_entries); +} + +TEST(GeneratedMapFieldReflectionTest, ReleaseLast) { + unittest::TestMap message; + const Descriptor* descriptor = message.GetDescriptor(); + MapReflectionTester reflection_tester(descriptor); + + MapTestUtil::SetMapFields(&message); + + MapTestUtil::ExpectMapsSize(message, 2); + + reflection_tester.ReleaseLastMapsViaReflection(&message); + + MapTestUtil::ExpectMapsSize(message, 1); + + // Now test that we actually release the right message. + message.Clear(); + MapTestUtil::SetMapFields(&message); + + MapTestUtil::ExpectMapsSize(message, 2); + std::vector<const Message*> expect_last = + MapTestUtil::GetMapEntries(message, 1); + std::vector<const Message*> release_last = + MapTestUtil::GetMapEntriesFromRelease(&message); + MapTestUtil::ExpectMapsSize(message, 1); + EXPECT_TRUE(expect_last == release_last); + for (std::vector<const Message*>::iterator it = release_last.begin(); + it != release_last.end(); ++it) { + delete *it; + } +} + +TEST(GeneratedMapFieldReflectionTest, SwapElements) { + unittest::TestMap message; + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + + MapTestUtil::SetMapFields(&message); + + // Get pointers of map entries at their original position + std::vector<const Message*> entries0 = MapTestUtil::GetMapEntries(message, 0); + std::vector<const Message*> entries1 = MapTestUtil::GetMapEntries(message, 1); + + // Swap the first time. + reflection_tester.SwapMapsViaReflection(&message); + + // Get pointer of map entry after swap once. + std::vector<const Message*> entries0_once = + MapTestUtil::GetMapEntries(message, 0); + std::vector<const Message*> entries1_once = + MapTestUtil::GetMapEntries(message, 1); + + // Test map entries are swapped. + MapTestUtil::ExpectMapsSize(message, 2); + EXPECT_TRUE(entries0 == entries1_once); + EXPECT_TRUE(entries1 == entries0_once); + + // Swap the second time. + reflection_tester.SwapMapsViaReflection(&message); + + // Get pointer of map entry after swap once. + std::vector<const Message*> entries0_twice = + MapTestUtil::GetMapEntries(message, 0); + std::vector<const Message*> entries1_twice = + MapTestUtil::GetMapEntries(message, 1); + + // Test map entries are swapped back. + MapTestUtil::ExpectMapsSize(message, 2); + EXPECT_TRUE(entries0 == entries0_twice); + EXPECT_TRUE(entries1 == entries1_twice); +} + +TEST(GeneratedMapFieldReflectionTest, MutableUnknownFields) { + unittest::TestMap message; + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + reflection_tester.MutableUnknownFieldsOfMapFieldsViaReflection(&message); +} + +TEST(GeneratedMapFieldReflectionTest, EmbedProto2Message) { + unittest::TestMessageMap message; + + const FieldDescriptor* map_field = + unittest::TestMessageMap::descriptor()->FindFieldByName( + "map_int32_message"); + const FieldDescriptor* value = + map_field->message_type()->FindFieldByName("value"); + + Message* entry_message = + message.GetReflection()->AddMessage(&message, map_field); + EXPECT_EQ( + &entry_message->GetReflection()->GetMessage(*entry_message, value), + reinterpret_cast<const Message*>(&TestAllTypes::default_instance())); + + Message* proto2_message = + entry_message->GetReflection()->MutableMessage(entry_message, value); + EXPECT_EQ(unittest::TestAllTypes::descriptor(), + proto2_message->GetDescriptor()); + ASSERT_EQ(1, message.map_int32_message().size()); +} + +TEST(GeneratedMapFieldReflectionTest, MergeFromClearMapEntry) { + unittest::TestMap message; + const FieldDescriptor* map_field = + unittest::TestMap::descriptor()->FindFieldByName("map_int32_int32"); + const FieldDescriptor* key = + map_field->message_type()->FindFieldByName("key"); + const FieldDescriptor* value = + map_field->message_type()->FindFieldByName("value"); + + Message* entry_message1 = + message.GetReflection()->AddMessage(&message, map_field); + EXPECT_FALSE(entry_message1->GetReflection()->HasField(*entry_message1, key)); + EXPECT_FALSE( + entry_message1->GetReflection()->HasField(*entry_message1, value)); + + Message* entry_message2 = + message.GetReflection()->AddMessage(&message, map_field); + EXPECT_FALSE(entry_message2->GetReflection()->HasField(*entry_message2, key)); + EXPECT_FALSE( + entry_message2->GetReflection()->HasField(*entry_message2, value)); + + entry_message1->MergeFrom(*entry_message2); + EXPECT_FALSE(entry_message1->GetReflection()->HasField(*entry_message1, key)); + EXPECT_FALSE( + entry_message1->GetReflection()->HasField(*entry_message1, value)); +} + +TEST(GeneratedMapFieldReflectionTest, MapEntryClear) { + unittest::TestMap message; + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + reflection_tester.MutableUnknownFieldsOfMapFieldsViaReflection(&message); +} + +TEST(GeneratedMapFieldReflectionTest, Proto2MapEntryClear) { + unittest::TestEnumMap message; + const Descriptor* descriptor = message.GetDescriptor(); + const FieldDescriptor* field_descriptor = + descriptor->FindFieldByName("known_map_field"); + const FieldDescriptor* value_descriptor = + field_descriptor->message_type()->FindFieldByName("value"); + Message* sub_message = + message.GetReflection()->AddMessage(&message, field_descriptor); + EXPECT_EQ(0, sub_message->GetReflection()->GetEnumValue(*sub_message, + value_descriptor)); +} + +// Map Reflection API Test ========================================= + +TEST(GeneratedMapFieldReflectionTest, SetViaMapReflection) { + unittest::TestMap message; + MapReflectionTester reflection_tester( + unittest::TestMap::descriptor()); + reflection_tester.SetMapFieldsViaMapReflection(&message); + reflection_tester.ExpectMapFieldsSetViaReflection(message); + reflection_tester.ExpectMapFieldsSetViaReflectionIterator(&message); +} + +// Dynamic Message Test ============================================= + +class MapFieldInDynamicMessageTest : public testing::Test { + protected: + const DescriptorPool* pool_; + DynamicMessageFactory factory_; + const Descriptor* map_descriptor_; + const Descriptor* recursive_map_descriptor_; + const Message* map_prototype_; + + MapFieldInDynamicMessageTest() + : pool_(DescriptorPool::generated_pool()), factory_(pool_) {} + + virtual void SetUp() { + map_descriptor_ = + pool_->FindMessageTypeByName("protobuf_unittest.TestMap"); + recursive_map_descriptor_ = + pool_->FindMessageTypeByName("protobuf_unittest.TestRecursiveMapMessage"); + ASSERT_TRUE(map_descriptor_ != NULL); + ASSERT_TRUE(recursive_map_descriptor_ != NULL); + map_prototype_ = factory_.GetPrototype(map_descriptor_); + } +}; + +TEST_F(MapFieldInDynamicMessageTest, MapIndependentOffsets) { + // Check that all fields have independent offsets by setting each + // one to a unique value then checking that they all still have those + // unique values (i.e. they don't stomp each other). + google::protobuf::scoped_ptr<Message> message(map_prototype_->New()); + MapReflectionTester reflection_tester(map_descriptor_); + + reflection_tester.SetMapFieldsViaReflection(message.get()); + reflection_tester.ExpectMapFieldsSetViaReflection(*message); +} + +TEST_F(MapFieldInDynamicMessageTest, DynamicMapReflection) { + // Check that map fields work properly. + google::protobuf::scoped_ptr<Message> message(map_prototype_->New()); + + // Check set functions. + MapReflectionTester reflection_tester(map_descriptor_); + reflection_tester.SetMapFieldsViaMapReflection(message.get()); + reflection_tester.ExpectMapFieldsSetViaReflection(*message); +} + +TEST_F(MapFieldInDynamicMessageTest, MapSpaceUsed) { + // Test that SpaceUsed() works properly + + // Since we share the implementation with generated messages, we don't need + // to test very much here. Just make sure it appears to be working. + + google::protobuf::scoped_ptr<Message> message(map_prototype_->New()); + MapReflectionTester reflection_tester(map_descriptor_); + + int initial_space_used = message->SpaceUsed(); + + reflection_tester.SetMapFieldsViaReflection(message.get()); + EXPECT_LT(initial_space_used, message->SpaceUsed()); +} + +TEST_F(MapFieldInDynamicMessageTest, RecursiveMap) { + TestRecursiveMapMessage from; + (*from.mutable_a())[""]; + string data = from.SerializeAsString(); + google::protobuf::scoped_ptr<Message> to( + factory_.GetPrototype(recursive_map_descriptor_)->New()); + ASSERT_TRUE(to->ParseFromString(data)); +} + +// ReflectionOps Test =============================================== + +TEST(ReflectionOpsForMapFieldTest, MapSanityCheck) { + unittest::TestMap message; + + MapTestUtil::SetMapFields(&message); + MapTestUtil::ExpectMapFieldsSet(message); +} + +TEST(ReflectionOpsForMapFieldTest, MapCopy) { + unittest::TestMap message, message2; + + MapTestUtil::SetMapFields(&message); + + ReflectionOps::Copy(message, &message2); + + MapTestUtil::ExpectMapFieldsSet(message2); + + // Copying from self should be a no-op. + ReflectionOps::Copy(message2, &message2); + MapTestUtil::ExpectMapFieldsSet(message2); +} + +TEST(ReflectionOpsForMapFieldTest, MergeMap) { + // Note: Copy is implemented in terms of Merge() so technically the Copy + // test already tested most of this. + + unittest::TestMap message, message2; + + MapTestUtil::SetMapFields(&message); + + ReflectionOps::Merge(message2, &message); + + MapTestUtil::ExpectMapFieldsSet(message); +} + +TEST(ReflectionOpsForMapFieldTest, ClearMap) { + unittest::TestMap message; + + MapTestUtil::SetMapFields(&message); + + ReflectionOps::Clear(&message); + + MapTestUtil::ExpectClear(message); +} + +TEST(ReflectionOpsForMapFieldTest, MapDiscardUnknownFields) { + unittest::TestMap message; + MapTestUtil::SetMapFields(&message); + + // Set some unknown fields in message. + message.GetReflection()->MutableUnknownFields(&message)-> + AddVarint(123456, 654321); + + // Discard them. + ReflectionOps::DiscardUnknownFields(&message); + MapTestUtil::ExpectMapFieldsSet(message); + + EXPECT_EQ(0, message.GetReflection()-> + GetUnknownFields(message).field_count()); +} + +// Wire Format Test ================================================= + +TEST(WireFormatForMapFieldTest, ParseMap) { + unittest::TestMap source, dest; + string data; + + // Serialize using the generated code. + MapTestUtil::SetMapFields(&source); + source.SerializeToString(&data); + + // Parse using WireFormat. + io::ArrayInputStream raw_input(data.data(), data.size()); + io::CodedInputStream input(&raw_input); + WireFormat::ParseAndMergePartial(&input, &dest); + + // Check. + MapTestUtil::ExpectMapFieldsSet(dest); +} + +TEST(WireFormatForMapFieldTest, MapByteSize) { + unittest::TestMap message; + MapTestUtil::SetMapFields(&message); + + EXPECT_EQ(message.ByteSize(), WireFormat::ByteSize(message)); + message.Clear(); + EXPECT_EQ(0, message.ByteSize()); + EXPECT_EQ(0, WireFormat::ByteSize(message)); +} + +TEST(WireFormatForMapFieldTest, SerializeMap) { + unittest::TestMap message; + string generated_data; + string dynamic_data; + + MapTestUtil::SetMapFields(&message); + + // Serialize using the generated code. + { + message.ByteSize(); + io::StringOutputStream raw_output(&generated_data); + io::CodedOutputStream output(&raw_output); + message.SerializeWithCachedSizes(&output); + ASSERT_FALSE(output.HadError()); + } + + // Serialize using WireFormat. + { + io::StringOutputStream raw_output(&dynamic_data); + io::CodedOutputStream output(&raw_output); + int size = WireFormat::ByteSize(message); + WireFormat::SerializeWithCachedSizes(message, size, &output); + ASSERT_FALSE(output.HadError()); + } + + // Should be the same. + // Don't use EXPECT_EQ here because we're comparing raw binary data and + // we really don't want it dumped to stdout on failure. + EXPECT_TRUE(dynamic_data == generated_data); +} + +TEST(WireFormatForMapFieldTest, MapParseHelpers) { + string data; + + { + // Set up. + protobuf_unittest::TestMap message; + MapTestUtil::SetMapFields(&message); + message.SerializeToString(&data); + } + + { + // Test ParseFromString. + protobuf_unittest::TestMap message; + EXPECT_TRUE(message.ParseFromString(data)); + MapTestUtil::ExpectMapFieldsSet(message); + } + + { + // Test ParseFromIstream. + protobuf_unittest::TestMap message; + stringstream stream(data); + EXPECT_TRUE(message.ParseFromIstream(&stream)); + EXPECT_TRUE(stream.eof()); + MapTestUtil::ExpectMapFieldsSet(message); + } + + { + // Test ParseFromBoundedZeroCopyStream. + string data_with_junk(data); + data_with_junk.append("some junk on the end"); + io::ArrayInputStream stream(data_with_junk.data(), data_with_junk.size()); + protobuf_unittest::TestMap message; + EXPECT_TRUE(message.ParseFromBoundedZeroCopyStream(&stream, data.size())); + MapTestUtil::ExpectMapFieldsSet(message); + } + + { + // Test that ParseFromBoundedZeroCopyStream fails (but doesn't crash) if + // EOF is reached before the expected number of bytes. + io::ArrayInputStream stream(data.data(), data.size()); + protobuf_unittest::TestAllTypes message; + EXPECT_FALSE( + message.ParseFromBoundedZeroCopyStream(&stream, data.size() + 1)); + } +} + +// Deterministic Serialization Test ========================================== + +template <typename T> +static string DeterministicSerialization(const T& t) { + const int size = t.ByteSize(); + string result(size, '\0'); + io::ArrayOutputStream array_stream(string_as_array(&result), size); + io::CodedOutputStream output_stream(&array_stream); + output_stream.SetSerializationDeterministic(true); + t.SerializeWithCachedSizes(&output_stream); + EXPECT_FALSE(output_stream.HadError()); + EXPECT_EQ(size, output_stream.ByteCount()); + return result; +} + +// Helper to test the serialization of the first arg against a golden file. +static void TestDeterministicSerialization(const protobuf_unittest::TestMaps& t, + const string& filename) { + string expected; + GOOGLE_CHECK_OK(File::GetContents( + TestSourceDir() + "/google/protobuf/testdata/" + filename, + &expected, true)); + const string actual = DeterministicSerialization(t); + EXPECT_EQ(expected, actual); + protobuf_unittest::TestMaps u; + EXPECT_TRUE(u.ParseFromString(actual)); + EXPECT_TRUE(google::protobuf::util::MessageDifferencer::Equals(u, t)); +} + +// Helper for MapSerializationTest. Return a 7-bit ASCII string. +static string ConstructKey(uint64 n) { + string s(n % static_cast<uint64>(9), '\0'); + if (s.empty()) { + return StrCat(n); + } else { + while (n != 0) { + s[n % s.size()] = (n >> 10) & 0x7f; + n /= 888; + } + return s; + } +} + +TEST(MapSerializationTest, Deterministic) { + const int kIters = 25; + protobuf_unittest::TestMaps t; + protobuf_unittest::TestIntIntMap inner; + (*inner.mutable_m())[0] = (*inner.mutable_m())[10] = + (*inner.mutable_m())[-200] = 0; + uint64 frog = 9; + const uint64 multiplier = 0xa29cd16f; + for (int i = 0; i < kIters; i++) { + const int32 i32 = static_cast<int32>(frog & 0xffffffff); + const uint32 u32 = static_cast<uint32>(i32) * 91919; + const int64 i64 = static_cast<int64>(frog); + const uint64 u64 = frog * static_cast<uint64>(187321); + const bool b = i32 > 0; + const string s = ConstructKey(frog); + (*inner.mutable_m())[i] = i32; + (*t.mutable_m_int32())[i32] = (*t.mutable_m_sint32())[i32] = + (*t.mutable_m_sfixed32())[i32] = inner; + (*t.mutable_m_uint32())[u32] = (*t.mutable_m_fixed32())[u32] = inner; + (*t.mutable_m_int64())[i64] = (*t.mutable_m_sint64())[i64] = + (*t.mutable_m_sfixed64())[i64] = inner; + (*t.mutable_m_uint64())[u64] = (*t.mutable_m_fixed64())[u64] = inner; + (*t.mutable_m_bool())[b] = inner; + (*t.mutable_m_string())[s] = inner; + (*t.mutable_m_string())[s + string(1 << (u32 % static_cast<uint32>(9)), + b)] = inner; + inner.mutable_m()->erase(i); + frog = frog * multiplier + i; + frog ^= (frog >> 41); + } + TestDeterministicSerialization(t, "golden_message_maps"); +} + +// Text Format Test ================================================= + +TEST(TextFormatMapTest, SerializeAndParse) { + unittest::TestMap source; + unittest::TestMap dest; + MapTestUtil::SetMapFields(&source); + string output; + + // Test compact ASCII + TextFormat::Printer printer; + printer.PrintToString(source, &output); + TextFormat::Parser parser; + EXPECT_TRUE(parser.ParseFromString(output, &dest)); + MapTestUtil::ExpectMapFieldsSet(dest); +} + +TEST(TextFormatMapTest, Sorted) { + unittest::TestMap message; + MapReflectionTester tester(message.GetDescriptor()); + tester.SetMapFieldsViaReflection(&message); + + string expected_text; + GOOGLE_CHECK_OK(File::GetContents( + TestSourceDir() + + "/google/protobuf/" + "testdata/map_test_data.txt", + &expected_text, true)); + + EXPECT_EQ(message.DebugString(), expected_text); + + // Test again on the reverse order. + unittest::TestMap message2; + tester.SetMapFieldsViaReflection(&message2); + tester.SwapMapsViaReflection(&message2); + EXPECT_EQ(message2.DebugString(), expected_text); +} + + +// arena support ================================================= +TEST(ArenaTest, ParsingAndSerializingNoHeapAllocation) { + // Allocate a large initial block to avoid mallocs during hooked test. + std::vector<char> arena_block(128 * 1024); + ArenaOptions options; + options.initial_block = &arena_block[0]; + options.initial_block_size = arena_block.size(); + Arena arena(options); + string data; + data.reserve(128 * 1024); + + { + // TODO(teboring): Enable no heap check when ArenaStringPtr is used in map. + // NoHeapChecker no_heap; + + unittest::TestArenaMap* from = + Arena::CreateMessage<unittest::TestArenaMap>(&arena); + MapTestUtil::SetArenaMapFields(from); + from->SerializeToString(&data); + + unittest::TestArenaMap* to = + Arena::CreateMessage<unittest::TestArenaMap>(&arena); + to->ParseFromString(data); + MapTestUtil::ExpectArenaMapFieldsSet(*to); + } +} + +// Use text format parsing and serializing to test reflection api. +TEST(ArenaTest, RelfectionInTextFormat) { + Arena arena; + string data; + + TextFormat::Printer printer; + TextFormat::Parser parser; + + unittest::TestArenaMap* from = + Arena::CreateMessage<unittest::TestArenaMap>(&arena); + unittest::TestArenaMap* to = + Arena::CreateMessage<unittest::TestArenaMap>(&arena); + + MapTestUtil::SetArenaMapFields(from); + printer.PrintToString(*from, &data); + + EXPECT_TRUE(parser.ParseFromString(data, to)); + MapTestUtil::ExpectArenaMapFieldsSet(*to); +} + +// Make sure the memory allocated for string in map is deallocated. +TEST(ArenaTest, StringMapNoLeak) { + Arena arena; + unittest::TestArenaMap* message = + Arena::CreateMessage<unittest::TestArenaMap>(&arena); + string data; + // String with length less than 16 will not be allocated from heap. + int original_capacity = data.capacity(); + while (data.capacity() <= original_capacity) { + data.append("a"); + } + (*message->mutable_map_string_string())[data] = data; + // We rely on heap checkers to detect memory leak for us. + ASSERT_FALSE(message == NULL); +} + +TEST(ArenaTest, IsInitialized) { + // Allocate a large initial polluted block. + std::vector<char> arena_block(128 * 1024); + std::fill(arena_block.begin(), arena_block.end(), '\xff'); + + ArenaOptions options; + options.initial_block = &arena_block[0]; + options.initial_block_size = arena_block.size(); + Arena arena(options); + + unittest::TestArenaMap* message = + Arena::CreateMessage<unittest::TestArenaMap>(&arena); + EXPECT_EQ(0, (*message->mutable_map_int32_int32())[0]); +} + +} // namespace internal +} // namespace protobuf +} // namespace google |