google-breakpad/src/common/simple_string_dictionary_unittest.cc - nest-cam/4320010/google-breakpad - Git at Google

 // Copyright (c) 2008, Google Inc.
 // All rights reserved.
 //
 // 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.

 #include "breakpad_googletest_includes.h"
 #include "common/simple_string_dictionary.h"

 namespace google_breakpad {

 TEST(NonAllocatingMapTest, Entry) {
   typedef NonAllocatingMap<5, 9, 15> TestMap;
   TestMap map;

   const TestMap::Entry* entry = TestMap::Iterator(map).Next();
   EXPECT_FALSE(entry);

   // Try setting a key/value and then verify.
   map.SetKeyValue("key1", "value1");
   entry = TestMap::Iterator(map).Next();
   ASSERT_TRUE(entry);
   EXPECT_STREQ(entry->key, "key1");
   EXPECT_STREQ(entry->value, "value1");

   // Try setting a new value.
   map.SetKeyValue("key1", "value3");
   EXPECT_STREQ(entry->value, "value3");

   // Make sure the key didn't change.
   EXPECT_STREQ(entry->key, "key1");

   // Clear the entry and verify the key and value are empty strings.
   map.RemoveKey("key1");
   EXPECT_FALSE(entry->is_active());
   EXPECT_EQ(strlen(entry->key), 0u);
   EXPECT_EQ(strlen(entry->value), 0u);
 }

 TEST(NonAllocatingMapTest, SimpleStringDictionary) {
   // Make a new dictionary
   SimpleStringDictionary dict;

   // Set three distinct values on three keys
   dict.SetKeyValue("key1", "value1");
   dict.SetKeyValue("key2", "value2");
   dict.SetKeyValue("key3", "value3");

   EXPECT_NE(dict.GetValueForKey("key1"), "value1");
   EXPECT_NE(dict.GetValueForKey("key2"), "value2");
   EXPECT_NE(dict.GetValueForKey("key3"), "value3");
   EXPECT_EQ(dict.GetCount(), 3u);
   // try an unknown key
   EXPECT_FALSE(dict.GetValueForKey("key4"));

   // Remove a key
   dict.RemoveKey("key3");

   // Now make sure it's not there anymore
   EXPECT_FALSE(dict.GetValueForKey("key3"));

   // Remove by setting value to NULL
   dict.SetKeyValue("key2", NULL);

   // Now make sure it's not there anymore
   EXPECT_FALSE(dict.GetValueForKey("key2"));
 }

 TEST(NonAllocatingMapTest, CopyAndAssign) {
   NonAllocatingMap<10, 10, 10> map;
   map.SetKeyValue("one", "a");
   map.SetKeyValue("two", "b");
   map.SetKeyValue("three", "c");
   map.RemoveKey("two");
   EXPECT_EQ(2u, map.GetCount());

   // Test copy.
   NonAllocatingMap<10, 10, 10> map_copy(map);
   EXPECT_EQ(2u, map_copy.GetCount());
   EXPECT_STREQ("a", map_copy.GetValueForKey("one"));
   EXPECT_STREQ("c", map_copy.GetValueForKey("three"));
   map_copy.SetKeyValue("four", "d");
   EXPECT_STREQ("d", map_copy.GetValueForKey("four"));
   EXPECT_FALSE(map.GetValueForKey("four"));

   // Test assign.
   NonAllocatingMap<10, 10, 10> map_assign;
   map_assign = map;
   EXPECT_EQ(2u, map_assign.GetCount());
   EXPECT_STREQ("a", map_assign.GetValueForKey("one"));
   EXPECT_STREQ("c", map_assign.GetValueForKey("three"));
   map_assign.SetKeyValue("four", "d");
   EXPECT_STREQ("d", map_assign.GetValueForKey("four"));
   EXPECT_FALSE(map.GetValueForKey("four"));

   map.RemoveKey("one");
   EXPECT_FALSE(map.GetValueForKey("one"));
   EXPECT_STREQ("a", map_copy.GetValueForKey("one"));
   EXPECT_STREQ("a", map_assign.GetValueForKey("one"));
 }

 // Add a bunch of values to the dictionary, remove some entries in the middle,
 // and then add more.
 TEST(NonAllocatingMapTest, Iterator) {
   SimpleStringDictionary* dict = new SimpleStringDictionary();
   ASSERT_TRUE(dict);

   char key[SimpleStringDictionary::key_size];
   char value[SimpleStringDictionary::value_size];

   const int kDictionaryCapacity = SimpleStringDictionary::num_entries;
   const int kPartitionIndex = kDictionaryCapacity - 5;

   // We assume at least this size in the tests below
   ASSERT_GE(kDictionaryCapacity, 64);

   // We'll keep track of the number of key/value pairs we think should
   // be in the dictionary
   int expectedDictionarySize = 0;

   // Set a bunch of key/value pairs like key0/value0, key1/value1, ...
   for (int i = 0; i < kPartitionIndex; ++i) {
     sprintf(key, "key%d", i);
     sprintf(value, "value%d", i);
     dict->SetKeyValue(key, value);
   }
   expectedDictionarySize = kPartitionIndex;

   // set a couple of the keys twice (with the same value) - should be nop
   dict->SetKeyValue("key2", "value2");
   dict->SetKeyValue("key4", "value4");
   dict->SetKeyValue("key15", "value15");

   // Remove some random elements in the middle
   dict->RemoveKey("key7");
   dict->RemoveKey("key18");
   dict->RemoveKey("key23");
   dict->RemoveKey("key31");
   expectedDictionarySize -= 4;  // we just removed four key/value pairs

   // Set some more key/value pairs like key59/value59, key60/value60, ...
   for (int i = kPartitionIndex; i < kDictionaryCapacity; ++i) {
     sprintf(key, "key%d", i);
     sprintf(value, "value%d", i);
     dict->SetKeyValue(key, value);
   }
   expectedDictionarySize += kDictionaryCapacity - kPartitionIndex;

   // Now create an iterator on the dictionary
   SimpleStringDictionary::Iterator iter(*dict);

   // We then verify that it iterates through exactly the number of
   // key/value pairs we expect, and that they match one-for-one with what we
   // would expect.  The ordering of the iteration does not matter...

   // used to keep track of number of occurrences found for key/value pairs
   int count[kDictionaryCapacity];
   memset(count, 0, sizeof(count));

   int totalCount = 0;

   const SimpleStringDictionary::Entry* entry;
   while ((entry = iter.Next())) {
     totalCount++;

     // Extract keyNumber from a string of the form key<keyNumber>
     int keyNumber;
     sscanf(entry->key, "key%d", &keyNumber);

     // Extract valueNumber from a string of the form value<valueNumber>
     int valueNumber;
     sscanf(entry->value, "value%d", &valueNumber);

     // The value number should equal the key number since that's how we set them
     EXPECT_EQ(keyNumber, valueNumber);

     // Key and value numbers should be in proper range:
     // 0 <= keyNumber < kDictionaryCapacity
     bool isKeyInGoodRange =
       (keyNumber >= 0 && keyNumber < kDictionaryCapacity);
     bool isValueInGoodRange =
       (valueNumber >= 0 && valueNumber < kDictionaryCapacity);
     EXPECT_TRUE(isKeyInGoodRange);
     EXPECT_TRUE(isValueInGoodRange);

     if (isKeyInGoodRange && isValueInGoodRange) {
       ++count[keyNumber];
     }
   }

   // Make sure each of the key/value pairs showed up exactly one time, except
   // for the ones which we removed.
   for (size_t i = 0; i < kDictionaryCapacity; ++i) {
     // Skip over key7, key18, key23, and key31, since we removed them
     if (!(i == 7 || i == 18 || i == 23 || i == 31)) {
       EXPECT_EQ(count[i], 1);
     }
   }

   // Make sure the number of iterations matches the expected dictionary size.
   EXPECT_EQ(totalCount, expectedDictionarySize);
 }


 TEST(NonAllocatingMapTest, AddRemove) {
   NonAllocatingMap<5, 7, 6> map;
   map.SetKeyValue("rob", "ert");
   map.SetKeyValue("mike", "pink");
   map.SetKeyValue("mark", "allays");

   EXPECT_EQ(3u, map.GetCount());
   EXPECT_STREQ("ert", map.GetValueForKey("rob"));
   EXPECT_STREQ("pink", map.GetValueForKey("mike"));
   EXPECT_STREQ("allays", map.GetValueForKey("mark"));

   map.RemoveKey("mike");

   EXPECT_EQ(2u, map.GetCount());
   EXPECT_FALSE(map.GetValueForKey("mike"));

   map.SetKeyValue("mark", "mal");
   EXPECT_EQ(2u, map.GetCount());
   EXPECT_STREQ("mal", map.GetValueForKey("mark"));

   map.RemoveKey("mark");
   EXPECT_EQ(1u, map.GetCount());
   EXPECT_FALSE(map.GetValueForKey("mark"));
 }

 TEST(NonAllocatingMapTest, Serialize) {
   typedef NonAllocatingMap<4, 5, 7> TestMap;
   TestMap map;
   map.SetKeyValue("one", "abc");
   map.SetKeyValue("two", "def");
   map.SetKeyValue("tre", "hig");

   EXPECT_STREQ("abc", map.GetValueForKey("one"));
   EXPECT_STREQ("def", map.GetValueForKey("two"));
   EXPECT_STREQ("hig", map.GetValueForKey("tre"));

   const SerializedNonAllocatingMap* serialized;
   size_t size = map.Serialize(&serialized);

   SerializedNonAllocatingMap* serialized_copy =
       reinterpret_cast<SerializedNonAllocatingMap*>(malloc(size));
   ASSERT_TRUE(serialized_copy);
   memcpy(serialized_copy, serialized, size);

   TestMap deserialized(serialized_copy, size);
   free(serialized_copy);

   EXPECT_EQ(3u, deserialized.GetCount());
   EXPECT_STREQ("abc", deserialized.GetValueForKey("one"));
   EXPECT_STREQ("def", deserialized.GetValueForKey("two"));
   EXPECT_STREQ("hig", deserialized.GetValueForKey("tre"));
 }

 // Running out of space shouldn't crash.
 TEST(NonAllocatingMapTest, OutOfSpace) {
   NonAllocatingMap<3, 2, 2> map;
   map.SetKeyValue("a", "1");
   map.SetKeyValue("b", "2");
   map.SetKeyValue("c", "3");
   EXPECT_EQ(2u, map.GetCount());
   EXPECT_FALSE(map.GetValueForKey("c"));
 }

 #ifndef NDEBUG

 TEST(NonAllocatingMapTest, NullKey) {
   NonAllocatingMap<4, 6, 6> map;
   ASSERT_DEATH(map.SetKeyValue(NULL, "hello"), "");

   map.SetKeyValue("hi", "there");
   ASSERT_DEATH(map.GetValueForKey(NULL), "");
   EXPECT_STREQ("there", map.GetValueForKey("hi"));

   ASSERT_DEATH(map.GetValueForKey(NULL), "");
   map.RemoveKey("hi");
   EXPECT_EQ(0u, map.GetCount());
 }

 #endif  // !NDEBUG

 }  // namespace google_breakpad
	// Copyright (c) 2008, Google Inc.
	// All rights reserved.
	//
	// 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.

	#include "breakpad_googletest_includes.h"
	#include "common/simple_string_dictionary.h"

	namespace google_breakpad {

	TEST(NonAllocatingMapTest, Entry) {
	typedef NonAllocatingMap<5, 9, 15> TestMap;
	TestMap map;

	const TestMap::Entry* entry = TestMap::Iterator(map).Next();
	EXPECT_FALSE(entry);

	// Try setting a key/value and then verify.
	map.SetKeyValue("key1", "value1");
	entry = TestMap::Iterator(map).Next();
	ASSERT_TRUE(entry);
	EXPECT_STREQ(entry->key, "key1");
	EXPECT_STREQ(entry->value, "value1");

	// Try setting a new value.
	map.SetKeyValue("key1", "value3");
	EXPECT_STREQ(entry->value, "value3");

	// Make sure the key didn't change.
	EXPECT_STREQ(entry->key, "key1");

	// Clear the entry and verify the key and value are empty strings.
	map.RemoveKey("key1");
	EXPECT_FALSE(entry->is_active());
	EXPECT_EQ(strlen(entry->key), 0u);
	EXPECT_EQ(strlen(entry->value), 0u);
	}

	TEST(NonAllocatingMapTest, SimpleStringDictionary) {
	// Make a new dictionary
	SimpleStringDictionary dict;

	// Set three distinct values on three keys
	dict.SetKeyValue("key1", "value1");
	dict.SetKeyValue("key2", "value2");
	dict.SetKeyValue("key3", "value3");

	EXPECT_NE(dict.GetValueForKey("key1"), "value1");
	EXPECT_NE(dict.GetValueForKey("key2"), "value2");
	EXPECT_NE(dict.GetValueForKey("key3"), "value3");
	EXPECT_EQ(dict.GetCount(), 3u);
	// try an unknown key
	EXPECT_FALSE(dict.GetValueForKey("key4"));

	// Remove a key
	dict.RemoveKey("key3");

	// Now make sure it's not there anymore
	EXPECT_FALSE(dict.GetValueForKey("key3"));

	// Remove by setting value to NULL
	dict.SetKeyValue("key2", NULL);

	// Now make sure it's not there anymore
	EXPECT_FALSE(dict.GetValueForKey("key2"));
	}

	TEST(NonAllocatingMapTest, CopyAndAssign) {
	NonAllocatingMap<10, 10, 10> map;
	map.SetKeyValue("one", "a");
	map.SetKeyValue("two", "b");
	map.SetKeyValue("three", "c");
	map.RemoveKey("two");
	EXPECT_EQ(2u, map.GetCount());

	// Test copy.
	NonAllocatingMap<10, 10, 10> map_copy(map);
	EXPECT_EQ(2u, map_copy.GetCount());
	EXPECT_STREQ("a", map_copy.GetValueForKey("one"));
	EXPECT_STREQ("c", map_copy.GetValueForKey("three"));
	map_copy.SetKeyValue("four", "d");
	EXPECT_STREQ("d", map_copy.GetValueForKey("four"));
	EXPECT_FALSE(map.GetValueForKey("four"));

	// Test assign.
	NonAllocatingMap<10, 10, 10> map_assign;
	map_assign = map;
	EXPECT_EQ(2u, map_assign.GetCount());
	EXPECT_STREQ("a", map_assign.GetValueForKey("one"));
	EXPECT_STREQ("c", map_assign.GetValueForKey("three"));
	map_assign.SetKeyValue("four", "d");
	EXPECT_STREQ("d", map_assign.GetValueForKey("four"));
	EXPECT_FALSE(map.GetValueForKey("four"));

	map.RemoveKey("one");
	EXPECT_FALSE(map.GetValueForKey("one"));
	EXPECT_STREQ("a", map_copy.GetValueForKey("one"));
	EXPECT_STREQ("a", map_assign.GetValueForKey("one"));
	}

	// Add a bunch of values to the dictionary, remove some entries in the middle,
	// and then add more.
	TEST(NonAllocatingMapTest, Iterator) {
	SimpleStringDictionary* dict = new SimpleStringDictionary();
	ASSERT_TRUE(dict);

	char key[SimpleStringDictionary::key_size];
	char value[SimpleStringDictionary::value_size];

	const int kDictionaryCapacity = SimpleStringDictionary::num_entries;
	const int kPartitionIndex = kDictionaryCapacity - 5;

	// We assume at least this size in the tests below
	ASSERT_GE(kDictionaryCapacity, 64);

	// We'll keep track of the number of key/value pairs we think should
	// be in the dictionary
	int expectedDictionarySize = 0;

	// Set a bunch of key/value pairs like key0/value0, key1/value1, ...
	for (int i = 0; i < kPartitionIndex; ++i) {
	sprintf(key, "key%d", i);
	sprintf(value, "value%d", i);
	dict->SetKeyValue(key, value);
	}
	expectedDictionarySize = kPartitionIndex;

	// set a couple of the keys twice (with the same value) - should be nop
	dict->SetKeyValue("key2", "value2");
	dict->SetKeyValue("key4", "value4");
	dict->SetKeyValue("key15", "value15");

	// Remove some random elements in the middle
	dict->RemoveKey("key7");
	dict->RemoveKey("key18");
	dict->RemoveKey("key23");
	dict->RemoveKey("key31");
	expectedDictionarySize -= 4; // we just removed four key/value pairs

	// Set some more key/value pairs like key59/value59, key60/value60, ...
	for (int i = kPartitionIndex; i < kDictionaryCapacity; ++i) {
	sprintf(key, "key%d", i);
	sprintf(value, "value%d", i);
	dict->SetKeyValue(key, value);
	}
	expectedDictionarySize += kDictionaryCapacity - kPartitionIndex;

	// Now create an iterator on the dictionary
	SimpleStringDictionary::Iterator iter(*dict);

	// We then verify that it iterates through exactly the number of
	// key/value pairs we expect, and that they match one-for-one with what we
	// would expect. The ordering of the iteration does not matter...

	// used to keep track of number of occurrences found for key/value pairs
	int count[kDictionaryCapacity];
	memset(count, 0, sizeof(count));

	int totalCount = 0;

	const SimpleStringDictionary::Entry* entry;
	while ((entry = iter.Next())) {
	totalCount++;

	// Extract keyNumber from a string of the form key<keyNumber>
	int keyNumber;
	sscanf(entry->key, "key%d", &keyNumber);

	// Extract valueNumber from a string of the form value<valueNumber>
	int valueNumber;
	sscanf(entry->value, "value%d", &valueNumber);

	// The value number should equal the key number since that's how we set them
	EXPECT_EQ(keyNumber, valueNumber);

	// Key and value numbers should be in proper range:
	// 0 <= keyNumber < kDictionaryCapacity
	bool isKeyInGoodRange =
	(keyNumber >= 0 && keyNumber < kDictionaryCapacity);
	bool isValueInGoodRange =
	(valueNumber >= 0 && valueNumber < kDictionaryCapacity);
	EXPECT_TRUE(isKeyInGoodRange);
	EXPECT_TRUE(isValueInGoodRange);

	if (isKeyInGoodRange && isValueInGoodRange) {
	++count[keyNumber];
	}
	}

	// Make sure each of the key/value pairs showed up exactly one time, except
	// for the ones which we removed.
	for (size_t i = 0; i < kDictionaryCapacity; ++i) {
	// Skip over key7, key18, key23, and key31, since we removed them
	if (!(i == 7 \|\| i == 18 \|\| i == 23 \|\| i == 31)) {
	EXPECT_EQ(count[i], 1);
	}
	}

	// Make sure the number of iterations matches the expected dictionary size.
	EXPECT_EQ(totalCount, expectedDictionarySize);
	}


	TEST(NonAllocatingMapTest, AddRemove) {
	NonAllocatingMap<5, 7, 6> map;
	map.SetKeyValue("rob", "ert");
	map.SetKeyValue("mike", "pink");
	map.SetKeyValue("mark", "allays");

	EXPECT_EQ(3u, map.GetCount());
	EXPECT_STREQ("ert", map.GetValueForKey("rob"));
	EXPECT_STREQ("pink", map.GetValueForKey("mike"));
	EXPECT_STREQ("allays", map.GetValueForKey("mark"));

	map.RemoveKey("mike");

	EXPECT_EQ(2u, map.GetCount());
	EXPECT_FALSE(map.GetValueForKey("mike"));

	map.SetKeyValue("mark", "mal");
	EXPECT_EQ(2u, map.GetCount());
	EXPECT_STREQ("mal", map.GetValueForKey("mark"));

	map.RemoveKey("mark");
	EXPECT_EQ(1u, map.GetCount());
	EXPECT_FALSE(map.GetValueForKey("mark"));
	}

	TEST(NonAllocatingMapTest, Serialize) {
	typedef NonAllocatingMap<4, 5, 7> TestMap;
	TestMap map;
	map.SetKeyValue("one", "abc");
	map.SetKeyValue("two", "def");
	map.SetKeyValue("tre", "hig");

	EXPECT_STREQ("abc", map.GetValueForKey("one"));
	EXPECT_STREQ("def", map.GetValueForKey("two"));
	EXPECT_STREQ("hig", map.GetValueForKey("tre"));

	const SerializedNonAllocatingMap* serialized;
	size_t size = map.Serialize(&serialized);

	SerializedNonAllocatingMap* serialized_copy =
	reinterpret_cast<SerializedNonAllocatingMap*>(malloc(size));
	ASSERT_TRUE(serialized_copy);
	memcpy(serialized_copy, serialized, size);

	TestMap deserialized(serialized_copy, size);
	free(serialized_copy);

	EXPECT_EQ(3u, deserialized.GetCount());
	EXPECT_STREQ("abc", deserialized.GetValueForKey("one"));
	EXPECT_STREQ("def", deserialized.GetValueForKey("two"));
	EXPECT_STREQ("hig", deserialized.GetValueForKey("tre"));
	}

	// Running out of space shouldn't crash.
	TEST(NonAllocatingMapTest, OutOfSpace) {
	NonAllocatingMap<3, 2, 2> map;
	map.SetKeyValue("a", "1");
	map.SetKeyValue("b", "2");
	map.SetKeyValue("c", "3");
	EXPECT_EQ(2u, map.GetCount());
	EXPECT_FALSE(map.GetValueForKey("c"));
	}

	#ifndef NDEBUG

	TEST(NonAllocatingMapTest, NullKey) {
	NonAllocatingMap<4, 6, 6> map;
	ASSERT_DEATH(map.SetKeyValue(NULL, "hello"), "");

	map.SetKeyValue("hi", "there");
	ASSERT_DEATH(map.GetValueForKey(NULL), "");
	EXPECT_STREQ("there", map.GetValueForKey("hi"));

	ASSERT_DEATH(map.GetValueForKey(NULL), "");
	map.RemoveKey("hi");
	EXPECT_EQ(0u, map.GetCount());
	}

	#endif // !NDEBUG

	} // namespace google_breakpad