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- // Copyright 2005, 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.
- //
- // Author: wan@google.com (Zhanyong Wan)
- //
- // Tests for Google Test itself. This verifies that the basic constructs of
- // Google Test work.
- #include "gtest/gtest.h"
- // Verifies that the command line flag variables can be accessed
- // in code once <gtest/gtest.h> has been #included.
- // Do not move it after other #includes.
- TEST(CommandLineFlagsTest, CanBeAccessedInCodeOnceGTestHIsIncluded) {
- bool dummy = testing::GTEST_FLAG(also_run_disabled_tests)
- || testing::GTEST_FLAG(break_on_failure)
- || testing::GTEST_FLAG(catch_exceptions)
- || testing::GTEST_FLAG(color) != "unknown"
- || testing::GTEST_FLAG(filter) != "unknown"
- || testing::GTEST_FLAG(list_tests)
- || testing::GTEST_FLAG(output) != "unknown"
- || testing::GTEST_FLAG(print_time)
- || testing::GTEST_FLAG(random_seed)
- || testing::GTEST_FLAG(repeat) > 0
- || testing::GTEST_FLAG(show_internal_stack_frames)
- || testing::GTEST_FLAG(shuffle)
- || testing::GTEST_FLAG(stack_trace_depth) > 0
- || testing::GTEST_FLAG(stream_result_to) != "unknown"
- || testing::GTEST_FLAG(throw_on_failure);
- EXPECT_TRUE(dummy || !dummy); // Suppresses warning that dummy is unused.
- }
- #include <limits.h> // For INT_MAX.
- #include <stdlib.h>
- #include <string.h>
- #include <time.h>
- #include <map>
- #include <vector>
- #include <ostream>
- #include "gtest/gtest-spi.h"
- // Indicates that this translation unit is part of Google Test's
- // implementation. It must come before gtest-internal-inl.h is
- // included, or there will be a compiler error. This trick is to
- // prevent a user from accidentally including gtest-internal-inl.h in
- // his code.
- #define GTEST_IMPLEMENTATION_ 1
- #include "src/gtest-internal-inl.h"
- #undef GTEST_IMPLEMENTATION_
- namespace testing {
- namespace internal {
- #if GTEST_CAN_STREAM_RESULTS_
- class StreamingListenerTest : public Test {
- public:
- class FakeSocketWriter : public StreamingListener::AbstractSocketWriter {
- public:
- // Sends a string to the socket.
- virtual void Send(const string& message) { output_ += message; }
- string output_;
- };
- StreamingListenerTest()
- : fake_sock_writer_(new FakeSocketWriter),
- streamer_(fake_sock_writer_),
- test_info_obj_("FooTest", "Bar", NULL, NULL,
- CodeLocation(__FILE__, __LINE__), 0, NULL) {}
- protected:
- string* output() { return &(fake_sock_writer_->output_); }
- FakeSocketWriter* const fake_sock_writer_;
- StreamingListener streamer_;
- UnitTest unit_test_;
- TestInfo test_info_obj_; // The name test_info_ was taken by testing::Test.
- };
- TEST_F(StreamingListenerTest, OnTestProgramEnd) {
- *output() = "";
- streamer_.OnTestProgramEnd(unit_test_);
- EXPECT_EQ("event=TestProgramEnd&passed=1\n", *output());
- }
- TEST_F(StreamingListenerTest, OnTestIterationEnd) {
- *output() = "";
- streamer_.OnTestIterationEnd(unit_test_, 42);
- EXPECT_EQ("event=TestIterationEnd&passed=1&elapsed_time=0ms\n", *output());
- }
- TEST_F(StreamingListenerTest, OnTestCaseStart) {
- *output() = "";
- streamer_.OnTestCaseStart(TestCase("FooTest", "Bar", NULL, NULL));
- EXPECT_EQ("event=TestCaseStart&name=FooTest\n", *output());
- }
- TEST_F(StreamingListenerTest, OnTestCaseEnd) {
- *output() = "";
- streamer_.OnTestCaseEnd(TestCase("FooTest", "Bar", NULL, NULL));
- EXPECT_EQ("event=TestCaseEnd&passed=1&elapsed_time=0ms\n", *output());
- }
- TEST_F(StreamingListenerTest, OnTestStart) {
- *output() = "";
- streamer_.OnTestStart(test_info_obj_);
- EXPECT_EQ("event=TestStart&name=Bar\n", *output());
- }
- TEST_F(StreamingListenerTest, OnTestEnd) {
- *output() = "";
- streamer_.OnTestEnd(test_info_obj_);
- EXPECT_EQ("event=TestEnd&passed=1&elapsed_time=0ms\n", *output());
- }
- TEST_F(StreamingListenerTest, OnTestPartResult) {
- *output() = "";
- streamer_.OnTestPartResult(TestPartResult(
- TestPartResult::kFatalFailure, "foo.cc", 42, "failed=\n&%"));
- // Meta characters in the failure message should be properly escaped.
- EXPECT_EQ(
- "event=TestPartResult&file=foo.cc&line=42&message=failed%3D%0A%26%25\n",
- *output());
- }
- #endif // GTEST_CAN_STREAM_RESULTS_
- // Provides access to otherwise private parts of the TestEventListeners class
- // that are needed to test it.
- class TestEventListenersAccessor {
- public:
- static TestEventListener* GetRepeater(TestEventListeners* listeners) {
- return listeners->repeater();
- }
- static void SetDefaultResultPrinter(TestEventListeners* listeners,
- TestEventListener* listener) {
- listeners->SetDefaultResultPrinter(listener);
- }
- static void SetDefaultXmlGenerator(TestEventListeners* listeners,
- TestEventListener* listener) {
- listeners->SetDefaultXmlGenerator(listener);
- }
- static bool EventForwardingEnabled(const TestEventListeners& listeners) {
- return listeners.EventForwardingEnabled();
- }
- static void SuppressEventForwarding(TestEventListeners* listeners) {
- listeners->SuppressEventForwarding();
- }
- };
- class UnitTestRecordPropertyTestHelper : public Test {
- protected:
- UnitTestRecordPropertyTestHelper() {}
- // Forwards to UnitTest::RecordProperty() to bypass access controls.
- void UnitTestRecordProperty(const char* key, const std::string& value) {
- unit_test_.RecordProperty(key, value);
- }
- UnitTest unit_test_;
- };
- } // namespace internal
- } // namespace testing
- using testing::AssertionFailure;
- using testing::AssertionResult;
- using testing::AssertionSuccess;
- using testing::DoubleLE;
- using testing::EmptyTestEventListener;
- using testing::Environment;
- using testing::FloatLE;
- using testing::GTEST_FLAG(also_run_disabled_tests);
- using testing::GTEST_FLAG(break_on_failure);
- using testing::GTEST_FLAG(catch_exceptions);
- using testing::GTEST_FLAG(color);
- using testing::GTEST_FLAG(death_test_use_fork);
- using testing::GTEST_FLAG(filter);
- using testing::GTEST_FLAG(list_tests);
- using testing::GTEST_FLAG(output);
- using testing::GTEST_FLAG(print_time);
- using testing::GTEST_FLAG(random_seed);
- using testing::GTEST_FLAG(repeat);
- using testing::GTEST_FLAG(show_internal_stack_frames);
- using testing::GTEST_FLAG(shuffle);
- using testing::GTEST_FLAG(stack_trace_depth);
- using testing::GTEST_FLAG(stream_result_to);
- using testing::GTEST_FLAG(throw_on_failure);
- using testing::IsNotSubstring;
- using testing::IsSubstring;
- using testing::Message;
- using testing::ScopedFakeTestPartResultReporter;
- using testing::StaticAssertTypeEq;
- using testing::Test;
- using testing::TestCase;
- using testing::TestEventListeners;
- using testing::TestInfo;
- using testing::TestPartResult;
- using testing::TestPartResultArray;
- using testing::TestProperty;
- using testing::TestResult;
- using testing::TimeInMillis;
- using testing::UnitTest;
- using testing::internal::AddReference;
- using testing::internal::AlwaysFalse;
- using testing::internal::AlwaysTrue;
- using testing::internal::AppendUserMessage;
- using testing::internal::ArrayAwareFind;
- using testing::internal::ArrayEq;
- using testing::internal::CodePointToUtf8;
- using testing::internal::CompileAssertTypesEqual;
- using testing::internal::CopyArray;
- using testing::internal::CountIf;
- using testing::internal::EqFailure;
- using testing::internal::FloatingPoint;
- using testing::internal::ForEach;
- using testing::internal::FormatEpochTimeInMillisAsIso8601;
- using testing::internal::FormatTimeInMillisAsSeconds;
- using testing::internal::GTestFlagSaver;
- using testing::internal::GetCurrentOsStackTraceExceptTop;
- using testing::internal::GetElementOr;
- using testing::internal::GetNextRandomSeed;
- using testing::internal::GetRandomSeedFromFlag;
- using testing::internal::GetTestTypeId;
- using testing::internal::GetTimeInMillis;
- using testing::internal::GetTypeId;
- using testing::internal::GetUnitTestImpl;
- using testing::internal::ImplicitlyConvertible;
- using testing::internal::Int32;
- using testing::internal::Int32FromEnvOrDie;
- using testing::internal::IsAProtocolMessage;
- using testing::internal::IsContainer;
- using testing::internal::IsContainerTest;
- using testing::internal::IsNotContainer;
- using testing::internal::NativeArray;
- using testing::internal::ParseInt32Flag;
- using testing::internal::RelationToSourceCopy;
- using testing::internal::RelationToSourceReference;
- using testing::internal::RemoveConst;
- using testing::internal::RemoveReference;
- using testing::internal::ShouldRunTestOnShard;
- using testing::internal::ShouldShard;
- using testing::internal::ShouldUseColor;
- using testing::internal::Shuffle;
- using testing::internal::ShuffleRange;
- using testing::internal::SkipPrefix;
- using testing::internal::StreamableToString;
- using testing::internal::String;
- using testing::internal::TestEventListenersAccessor;
- using testing::internal::TestResultAccessor;
- using testing::internal::UInt32;
- using testing::internal::WideStringToUtf8;
- using testing::internal::edit_distance::CalculateOptimalEdits;
- using testing::internal::edit_distance::CreateUnifiedDiff;
- using testing::internal::edit_distance::EditType;
- using testing::internal::kMaxRandomSeed;
- using testing::internal::kTestTypeIdInGoogleTest;
- using testing::kMaxStackTraceDepth;
- #if GTEST_HAS_STREAM_REDIRECTION
- using testing::internal::CaptureStdout;
- using testing::internal::GetCapturedStdout;
- #endif
- #if GTEST_IS_THREADSAFE
- using testing::internal::ThreadWithParam;
- #endif
- class TestingVector : public std::vector<int> {
- };
- ::std::ostream& operator<<(::std::ostream& os,
- const TestingVector& vector) {
- os << "{ ";
- for (size_t i = 0; i < vector.size(); i++) {
- os << vector[i] << " ";
- }
- os << "}";
- return os;
- }
- // This line tests that we can define tests in an unnamed namespace.
- namespace {
- TEST(GetRandomSeedFromFlagTest, HandlesZero) {
- const int seed = GetRandomSeedFromFlag(0);
- EXPECT_LE(1, seed);
- EXPECT_LE(seed, static_cast<int>(kMaxRandomSeed));
- }
- TEST(GetRandomSeedFromFlagTest, PreservesValidSeed) {
- EXPECT_EQ(1, GetRandomSeedFromFlag(1));
- EXPECT_EQ(2, GetRandomSeedFromFlag(2));
- EXPECT_EQ(kMaxRandomSeed - 1, GetRandomSeedFromFlag(kMaxRandomSeed - 1));
- EXPECT_EQ(static_cast<int>(kMaxRandomSeed),
- GetRandomSeedFromFlag(kMaxRandomSeed));
- }
- TEST(GetRandomSeedFromFlagTest, NormalizesInvalidSeed) {
- const int seed1 = GetRandomSeedFromFlag(-1);
- EXPECT_LE(1, seed1);
- EXPECT_LE(seed1, static_cast<int>(kMaxRandomSeed));
- const int seed2 = GetRandomSeedFromFlag(kMaxRandomSeed + 1);
- EXPECT_LE(1, seed2);
- EXPECT_LE(seed2, static_cast<int>(kMaxRandomSeed));
- }
- TEST(GetNextRandomSeedTest, WorksForValidInput) {
- EXPECT_EQ(2, GetNextRandomSeed(1));
- EXPECT_EQ(3, GetNextRandomSeed(2));
- EXPECT_EQ(static_cast<int>(kMaxRandomSeed),
- GetNextRandomSeed(kMaxRandomSeed - 1));
- EXPECT_EQ(1, GetNextRandomSeed(kMaxRandomSeed));
- // We deliberately don't test GetNextRandomSeed() with invalid
- // inputs, as that requires death tests, which are expensive. This
- // is fine as GetNextRandomSeed() is internal and has a
- // straightforward definition.
- }
- static void ClearCurrentTestPartResults() {
- TestResultAccessor::ClearTestPartResults(
- GetUnitTestImpl()->current_test_result());
- }
- // Tests GetTypeId.
- TEST(GetTypeIdTest, ReturnsSameValueForSameType) {
- EXPECT_EQ(GetTypeId<int>(), GetTypeId<int>());
- EXPECT_EQ(GetTypeId<Test>(), GetTypeId<Test>());
- }
- class SubClassOfTest : public Test {};
- class AnotherSubClassOfTest : public Test {};
- TEST(GetTypeIdTest, ReturnsDifferentValuesForDifferentTypes) {
- EXPECT_NE(GetTypeId<int>(), GetTypeId<const int>());
- EXPECT_NE(GetTypeId<int>(), GetTypeId<char>());
- EXPECT_NE(GetTypeId<int>(), GetTestTypeId());
- EXPECT_NE(GetTypeId<SubClassOfTest>(), GetTestTypeId());
- EXPECT_NE(GetTypeId<AnotherSubClassOfTest>(), GetTestTypeId());
- EXPECT_NE(GetTypeId<AnotherSubClassOfTest>(), GetTypeId<SubClassOfTest>());
- }
- // Verifies that GetTestTypeId() returns the same value, no matter it
- // is called from inside Google Test or outside of it.
- TEST(GetTestTypeIdTest, ReturnsTheSameValueInsideOrOutsideOfGoogleTest) {
- EXPECT_EQ(kTestTypeIdInGoogleTest, GetTestTypeId());
- }
- // Tests FormatTimeInMillisAsSeconds().
- TEST(FormatTimeInMillisAsSecondsTest, FormatsZero) {
- EXPECT_EQ("0", FormatTimeInMillisAsSeconds(0));
- }
- TEST(FormatTimeInMillisAsSecondsTest, FormatsPositiveNumber) {
- EXPECT_EQ("0.003", FormatTimeInMillisAsSeconds(3));
- EXPECT_EQ("0.01", FormatTimeInMillisAsSeconds(10));
- EXPECT_EQ("0.2", FormatTimeInMillisAsSeconds(200));
- EXPECT_EQ("1.2", FormatTimeInMillisAsSeconds(1200));
- EXPECT_EQ("3", FormatTimeInMillisAsSeconds(3000));
- }
- TEST(FormatTimeInMillisAsSecondsTest, FormatsNegativeNumber) {
- EXPECT_EQ("-0.003", FormatTimeInMillisAsSeconds(-3));
- EXPECT_EQ("-0.01", FormatTimeInMillisAsSeconds(-10));
- EXPECT_EQ("-0.2", FormatTimeInMillisAsSeconds(-200));
- EXPECT_EQ("-1.2", FormatTimeInMillisAsSeconds(-1200));
- EXPECT_EQ("-3", FormatTimeInMillisAsSeconds(-3000));
- }
- // Tests FormatEpochTimeInMillisAsIso8601(). The correctness of conversion
- // for particular dates below was verified in Python using
- // datetime.datetime.fromutctimestamp(<timetamp>/1000).
- // FormatEpochTimeInMillisAsIso8601 depends on the current timezone, so we
- // have to set up a particular timezone to obtain predictable results.
- class FormatEpochTimeInMillisAsIso8601Test : public Test {
- public:
- // On Cygwin, GCC doesn't allow unqualified integer literals to exceed
- // 32 bits, even when 64-bit integer types are available. We have to
- // force the constants to have a 64-bit type here.
- static const TimeInMillis kMillisPerSec = 1000;
- private:
- virtual void SetUp() {
- saved_tz_ = NULL;
- GTEST_DISABLE_MSC_WARNINGS_PUSH_(4996 /* getenv, strdup: deprecated */)
- if (getenv("TZ"))
- saved_tz_ = strdup(getenv("TZ"));
- GTEST_DISABLE_MSC_WARNINGS_POP_()
- // Set up the time zone for FormatEpochTimeInMillisAsIso8601 to use. We
- // cannot use the local time zone because the function's output depends
- // on the time zone.
- SetTimeZone("UTC+00");
- }
- virtual void TearDown() {
- SetTimeZone(saved_tz_);
- free(const_cast<char*>(saved_tz_));
- saved_tz_ = NULL;
- }
- static void SetTimeZone(const char* time_zone) {
- // tzset() distinguishes between the TZ variable being present and empty
- // and not being present, so we have to consider the case of time_zone
- // being NULL.
- #if _MSC_VER
- // ...Unless it's MSVC, whose standard library's _putenv doesn't
- // distinguish between an empty and a missing variable.
- const std::string env_var =
- std::string("TZ=") + (time_zone ? time_zone : "");
- _putenv(env_var.c_str());
- GTEST_DISABLE_MSC_WARNINGS_PUSH_(4996 /* deprecated function */)
- tzset();
- GTEST_DISABLE_MSC_WARNINGS_POP_()
- #else
- if (time_zone) {
- setenv(("TZ"), time_zone, 1);
- } else {
- unsetenv("TZ");
- }
- tzset();
- #endif
- }
- const char* saved_tz_;
- };
- const TimeInMillis FormatEpochTimeInMillisAsIso8601Test::kMillisPerSec;
- TEST_F(FormatEpochTimeInMillisAsIso8601Test, PrintsTwoDigitSegments) {
- EXPECT_EQ("2011-10-31T18:52:42",
- FormatEpochTimeInMillisAsIso8601(1320087162 * kMillisPerSec));
- }
- TEST_F(FormatEpochTimeInMillisAsIso8601Test, MillisecondsDoNotAffectResult) {
- EXPECT_EQ(
- "2011-10-31T18:52:42",
- FormatEpochTimeInMillisAsIso8601(1320087162 * kMillisPerSec + 234));
- }
- TEST_F(FormatEpochTimeInMillisAsIso8601Test, PrintsLeadingZeroes) {
- EXPECT_EQ("2011-09-03T05:07:02",
- FormatEpochTimeInMillisAsIso8601(1315026422 * kMillisPerSec));
- }
- TEST_F(FormatEpochTimeInMillisAsIso8601Test, Prints24HourTime) {
- EXPECT_EQ("2011-09-28T17:08:22",
- FormatEpochTimeInMillisAsIso8601(1317229702 * kMillisPerSec));
- }
- TEST_F(FormatEpochTimeInMillisAsIso8601Test, PrintsEpochStart) {
- EXPECT_EQ("1970-01-01T00:00:00", FormatEpochTimeInMillisAsIso8601(0));
- }
- #if GTEST_CAN_COMPARE_NULL
- # ifdef __BORLANDC__
- // Silences warnings: "Condition is always true", "Unreachable code"
- # pragma option push -w-ccc -w-rch
- # endif
- // Tests that GTEST_IS_NULL_LITERAL_(x) is true when x is a null
- // pointer literal.
- TEST(NullLiteralTest, IsTrueForNullLiterals) {
- EXPECT_TRUE(GTEST_IS_NULL_LITERAL_(NULL));
- EXPECT_TRUE(GTEST_IS_NULL_LITERAL_(0));
- EXPECT_TRUE(GTEST_IS_NULL_LITERAL_(0U));
- EXPECT_TRUE(GTEST_IS_NULL_LITERAL_(0L));
- }
- // Tests that GTEST_IS_NULL_LITERAL_(x) is false when x is not a null
- // pointer literal.
- TEST(NullLiteralTest, IsFalseForNonNullLiterals) {
- EXPECT_FALSE(GTEST_IS_NULL_LITERAL_(1));
- EXPECT_FALSE(GTEST_IS_NULL_LITERAL_(0.0));
- EXPECT_FALSE(GTEST_IS_NULL_LITERAL_('a'));
- EXPECT_FALSE(GTEST_IS_NULL_LITERAL_(static_cast<void*>(NULL)));
- }
- # ifdef __BORLANDC__
- // Restores warnings after previous "#pragma option push" suppressed them.
- # pragma option pop
- # endif
- #endif // GTEST_CAN_COMPARE_NULL
- //
- // Tests CodePointToUtf8().
- // Tests that the NUL character L'\0' is encoded correctly.
- TEST(CodePointToUtf8Test, CanEncodeNul) {
- EXPECT_EQ("", CodePointToUtf8(L'\0'));
- }
- // Tests that ASCII characters are encoded correctly.
- TEST(CodePointToUtf8Test, CanEncodeAscii) {
- EXPECT_EQ("a", CodePointToUtf8(L'a'));
- EXPECT_EQ("Z", CodePointToUtf8(L'Z'));
- EXPECT_EQ("&", CodePointToUtf8(L'&'));
- EXPECT_EQ("\x7F", CodePointToUtf8(L'\x7F'));
- }
- // Tests that Unicode code-points that have 8 to 11 bits are encoded
- // as 110xxxxx 10xxxxxx.
- TEST(CodePointToUtf8Test, CanEncode8To11Bits) {
- // 000 1101 0011 => 110-00011 10-010011
- EXPECT_EQ("\xC3\x93", CodePointToUtf8(L'\xD3'));
- // 101 0111 0110 => 110-10101 10-110110
- // Some compilers (e.g., GCC on MinGW) cannot handle non-ASCII codepoints
- // in wide strings and wide chars. In order to accomodate them, we have to
- // introduce such character constants as integers.
- EXPECT_EQ("\xD5\xB6",
- CodePointToUtf8(static_cast<wchar_t>(0x576)));
- }
- // Tests that Unicode code-points that have 12 to 16 bits are encoded
- // as 1110xxxx 10xxxxxx 10xxxxxx.
- TEST(CodePointToUtf8Test, CanEncode12To16Bits) {
- // 0000 1000 1101 0011 => 1110-0000 10-100011 10-010011
- EXPECT_EQ("\xE0\xA3\x93",
- CodePointToUtf8(static_cast<wchar_t>(0x8D3)));
- // 1100 0111 0100 1101 => 1110-1100 10-011101 10-001101
- EXPECT_EQ("\xEC\x9D\x8D",
- CodePointToUtf8(static_cast<wchar_t>(0xC74D)));
- }
- #if !GTEST_WIDE_STRING_USES_UTF16_
- // Tests in this group require a wchar_t to hold > 16 bits, and thus
- // are skipped on Windows, Cygwin, and Symbian, where a wchar_t is
- // 16-bit wide. This code may not compile on those systems.
- // Tests that Unicode code-points that have 17 to 21 bits are encoded
- // as 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx.
- TEST(CodePointToUtf8Test, CanEncode17To21Bits) {
- // 0 0001 0000 1000 1101 0011 => 11110-000 10-010000 10-100011 10-010011
- EXPECT_EQ("\xF0\x90\xA3\x93", CodePointToUtf8(L'\x108D3'));
- // 0 0001 0000 0100 0000 0000 => 11110-000 10-010000 10-010000 10-000000
- EXPECT_EQ("\xF0\x90\x90\x80", CodePointToUtf8(L'\x10400'));
- // 1 0000 1000 0110 0011 0100 => 11110-100 10-001000 10-011000 10-110100
- EXPECT_EQ("\xF4\x88\x98\xB4", CodePointToUtf8(L'\x108634'));
- }
- // Tests that encoding an invalid code-point generates the expected result.
- TEST(CodePointToUtf8Test, CanEncodeInvalidCodePoint) {
- EXPECT_EQ("(Invalid Unicode 0x1234ABCD)", CodePointToUtf8(L'\x1234ABCD'));
- }
- #endif // !GTEST_WIDE_STRING_USES_UTF16_
- // Tests WideStringToUtf8().
- // Tests that the NUL character L'\0' is encoded correctly.
- TEST(WideStringToUtf8Test, CanEncodeNul) {
- EXPECT_STREQ("", WideStringToUtf8(L"", 0).c_str());
- EXPECT_STREQ("", WideStringToUtf8(L"", -1).c_str());
- }
- // Tests that ASCII strings are encoded correctly.
- TEST(WideStringToUtf8Test, CanEncodeAscii) {
- EXPECT_STREQ("a", WideStringToUtf8(L"a", 1).c_str());
- EXPECT_STREQ("ab", WideStringToUtf8(L"ab", 2).c_str());
- EXPECT_STREQ("a", WideStringToUtf8(L"a", -1).c_str());
- EXPECT_STREQ("ab", WideStringToUtf8(L"ab", -1).c_str());
- }
- // Tests that Unicode code-points that have 8 to 11 bits are encoded
- // as 110xxxxx 10xxxxxx.
- TEST(WideStringToUtf8Test, CanEncode8To11Bits) {
- // 000 1101 0011 => 110-00011 10-010011
- EXPECT_STREQ("\xC3\x93", WideStringToUtf8(L"\xD3", 1).c_str());
- EXPECT_STREQ("\xC3\x93", WideStringToUtf8(L"\xD3", -1).c_str());
- // 101 0111 0110 => 110-10101 10-110110
- const wchar_t s[] = { 0x576, '\0' };
- EXPECT_STREQ("\xD5\xB6", WideStringToUtf8(s, 1).c_str());
- EXPECT_STREQ("\xD5\xB6", WideStringToUtf8(s, -1).c_str());
- }
- // Tests that Unicode code-points that have 12 to 16 bits are encoded
- // as 1110xxxx 10xxxxxx 10xxxxxx.
- TEST(WideStringToUtf8Test, CanEncode12To16Bits) {
- // 0000 1000 1101 0011 => 1110-0000 10-100011 10-010011
- const wchar_t s1[] = { 0x8D3, '\0' };
- EXPECT_STREQ("\xE0\xA3\x93", WideStringToUtf8(s1, 1).c_str());
- EXPECT_STREQ("\xE0\xA3\x93", WideStringToUtf8(s1, -1).c_str());
- // 1100 0111 0100 1101 => 1110-1100 10-011101 10-001101
- const wchar_t s2[] = { 0xC74D, '\0' };
- EXPECT_STREQ("\xEC\x9D\x8D", WideStringToUtf8(s2, 1).c_str());
- EXPECT_STREQ("\xEC\x9D\x8D", WideStringToUtf8(s2, -1).c_str());
- }
- // Tests that the conversion stops when the function encounters \0 character.
- TEST(WideStringToUtf8Test, StopsOnNulCharacter) {
- EXPECT_STREQ("ABC", WideStringToUtf8(L"ABC\0XYZ", 100).c_str());
- }
- // Tests that the conversion stops when the function reaches the limit
- // specified by the 'length' parameter.
- TEST(WideStringToUtf8Test, StopsWhenLengthLimitReached) {
- EXPECT_STREQ("ABC", WideStringToUtf8(L"ABCDEF", 3).c_str());
- }
- #if !GTEST_WIDE_STRING_USES_UTF16_
- // Tests that Unicode code-points that have 17 to 21 bits are encoded
- // as 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx. This code may not compile
- // on the systems using UTF-16 encoding.
- TEST(WideStringToUtf8Test, CanEncode17To21Bits) {
- // 0 0001 0000 1000 1101 0011 => 11110-000 10-010000 10-100011 10-010011
- EXPECT_STREQ("\xF0\x90\xA3\x93", WideStringToUtf8(L"\x108D3", 1).c_str());
- EXPECT_STREQ("\xF0\x90\xA3\x93", WideStringToUtf8(L"\x108D3", -1).c_str());
- // 1 0000 1000 0110 0011 0100 => 11110-100 10-001000 10-011000 10-110100
- EXPECT_STREQ("\xF4\x88\x98\xB4", WideStringToUtf8(L"\x108634", 1).c_str());
- EXPECT_STREQ("\xF4\x88\x98\xB4", WideStringToUtf8(L"\x108634", -1).c_str());
- }
- // Tests that encoding an invalid code-point generates the expected result.
- TEST(WideStringToUtf8Test, CanEncodeInvalidCodePoint) {
- EXPECT_STREQ("(Invalid Unicode 0xABCDFF)",
- WideStringToUtf8(L"\xABCDFF", -1).c_str());
- }
- #else // !GTEST_WIDE_STRING_USES_UTF16_
- // Tests that surrogate pairs are encoded correctly on the systems using
- // UTF-16 encoding in the wide strings.
- TEST(WideStringToUtf8Test, CanEncodeValidUtf16SUrrogatePairs) {
- const wchar_t s[] = { 0xD801, 0xDC00, '\0' };
- EXPECT_STREQ("\xF0\x90\x90\x80", WideStringToUtf8(s, -1).c_str());
- }
- // Tests that encoding an invalid UTF-16 surrogate pair
- // generates the expected result.
- TEST(WideStringToUtf8Test, CanEncodeInvalidUtf16SurrogatePair) {
- // Leading surrogate is at the end of the string.
- const wchar_t s1[] = { 0xD800, '\0' };
- EXPECT_STREQ("\xED\xA0\x80", WideStringToUtf8(s1, -1).c_str());
- // Leading surrogate is not followed by the trailing surrogate.
- const wchar_t s2[] = { 0xD800, 'M', '\0' };
- EXPECT_STREQ("\xED\xA0\x80M", WideStringToUtf8(s2, -1).c_str());
- // Trailing surrogate appearas without a leading surrogate.
- const wchar_t s3[] = { 0xDC00, 'P', 'Q', 'R', '\0' };
- EXPECT_STREQ("\xED\xB0\x80PQR", WideStringToUtf8(s3, -1).c_str());
- }
- #endif // !GTEST_WIDE_STRING_USES_UTF16_
- // Tests that codepoint concatenation works correctly.
- #if !GTEST_WIDE_STRING_USES_UTF16_
- TEST(WideStringToUtf8Test, ConcatenatesCodepointsCorrectly) {
- const wchar_t s[] = { 0x108634, 0xC74D, '\n', 0x576, 0x8D3, 0x108634, '\0'};
- EXPECT_STREQ(
- "\xF4\x88\x98\xB4"
- "\xEC\x9D\x8D"
- "\n"
- "\xD5\xB6"
- "\xE0\xA3\x93"
- "\xF4\x88\x98\xB4",
- WideStringToUtf8(s, -1).c_str());
- }
- #else
- TEST(WideStringToUtf8Test, ConcatenatesCodepointsCorrectly) {
- const wchar_t s[] = { 0xC74D, '\n', 0x576, 0x8D3, '\0'};
- EXPECT_STREQ(
- "\xEC\x9D\x8D" "\n" "\xD5\xB6" "\xE0\xA3\x93",
- WideStringToUtf8(s, -1).c_str());
- }
- #endif // !GTEST_WIDE_STRING_USES_UTF16_
- // Tests the Random class.
- TEST(RandomDeathTest, GeneratesCrashesOnInvalidRange) {
- testing::internal::Random random(42);
- EXPECT_DEATH_IF_SUPPORTED(
- random.Generate(0),
- "Cannot generate a number in the range \\[0, 0\\)");
- EXPECT_DEATH_IF_SUPPORTED(
- random.Generate(testing::internal::Random::kMaxRange + 1),
- "Generation of a number in \\[0, 2147483649\\) was requested, "
- "but this can only generate numbers in \\[0, 2147483648\\)");
- }
- TEST(RandomTest, GeneratesNumbersWithinRange) {
- const UInt32 kRange = 10000;
- testing::internal::Random random(12345);
- for (int i = 0; i < 10; i++) {
- EXPECT_LT(random.Generate(kRange), kRange) << " for iteration " << i;
- }
- testing::internal::Random random2(testing::internal::Random::kMaxRange);
- for (int i = 0; i < 10; i++) {
- EXPECT_LT(random2.Generate(kRange), kRange) << " for iteration " << i;
- }
- }
- TEST(RandomTest, RepeatsWhenReseeded) {
- const int kSeed = 123;
- const int kArraySize = 10;
- const UInt32 kRange = 10000;
- UInt32 values[kArraySize];
- testing::internal::Random random(kSeed);
- for (int i = 0; i < kArraySize; i++) {
- values[i] = random.Generate(kRange);
- }
- random.Reseed(kSeed);
- for (int i = 0; i < kArraySize; i++) {
- EXPECT_EQ(values[i], random.Generate(kRange)) << " for iteration " << i;
- }
- }
- // Tests STL container utilities.
- // Tests CountIf().
- static bool IsPositive(int n) { return n > 0; }
- TEST(ContainerUtilityTest, CountIf) {
- std::vector<int> v;
- EXPECT_EQ(0, CountIf(v, IsPositive)); // Works for an empty container.
- v.push_back(-1);
- v.push_back(0);
- EXPECT_EQ(0, CountIf(v, IsPositive)); // Works when no value satisfies.
- v.push_back(2);
- v.push_back(-10);
- v.push_back(10);
- EXPECT_EQ(2, CountIf(v, IsPositive));
- }
- // Tests ForEach().
- static int g_sum = 0;
- static void Accumulate(int n) { g_sum += n; }
- TEST(ContainerUtilityTest, ForEach) {
- std::vector<int> v;
- g_sum = 0;
- ForEach(v, Accumulate);
- EXPECT_EQ(0, g_sum); // Works for an empty container;
- g_sum = 0;
- v.push_back(1);
- ForEach(v, Accumulate);
- EXPECT_EQ(1, g_sum); // Works for a container with one element.
- g_sum = 0;
- v.push_back(20);
- v.push_back(300);
- ForEach(v, Accumulate);
- EXPECT_EQ(321, g_sum);
- }
- // Tests GetElementOr().
- TEST(ContainerUtilityTest, GetElementOr) {
- std::vector<char> a;
- EXPECT_EQ('x', GetElementOr(a, 0, 'x'));
- a.push_back('a');
- a.push_back('b');
- EXPECT_EQ('a', GetElementOr(a, 0, 'x'));
- EXPECT_EQ('b', GetElementOr(a, 1, 'x'));
- EXPECT_EQ('x', GetElementOr(a, -2, 'x'));
- EXPECT_EQ('x', GetElementOr(a, 2, 'x'));
- }
- TEST(ContainerUtilityDeathTest, ShuffleRange) {
- std::vector<int> a;
- a.push_back(0);
- a.push_back(1);
- a.push_back(2);
- testing::internal::Random random(1);
- EXPECT_DEATH_IF_SUPPORTED(
- ShuffleRange(&random, -1, 1, &a),
- "Invalid shuffle range start -1: must be in range \\[0, 3\\]");
- EXPECT_DEATH_IF_SUPPORTED(
- ShuffleRange(&random, 4, 4, &a),
- "Invalid shuffle range start 4: must be in range \\[0, 3\\]");
- EXPECT_DEATH_IF_SUPPORTED(
- ShuffleRange(&random, 3, 2, &a),
- "Invalid shuffle range finish 2: must be in range \\[3, 3\\]");
- EXPECT_DEATH_IF_SUPPORTED(
- ShuffleRange(&random, 3, 4, &a),
- "Invalid shuffle range finish 4: must be in range \\[3, 3\\]");
- }
- class VectorShuffleTest : public Test {
- protected:
- static const int kVectorSize = 20;
- VectorShuffleTest() : random_(1) {
- for (int i = 0; i < kVectorSize; i++) {
- vector_.push_back(i);
- }
- }
- static bool VectorIsCorrupt(const TestingVector& vector) {
- if (kVectorSize != static_cast<int>(vector.size())) {
- return true;
- }
- bool found_in_vector[kVectorSize] = { false };
- for (size_t i = 0; i < vector.size(); i++) {
- const int e = vector[i];
- if (e < 0 || e >= kVectorSize || found_in_vector[e]) {
- return true;
- }
- found_in_vector[e] = true;
- }
- // Vector size is correct, elements' range is correct, no
- // duplicate elements. Therefore no corruption has occurred.
- return false;
- }
- static bool VectorIsNotCorrupt(const TestingVector& vector) {
- return !VectorIsCorrupt(vector);
- }
- static bool RangeIsShuffled(const TestingVector& vector, int begin, int end) {
- for (int i = begin; i < end; i++) {
- if (i != vector[i]) {
- return true;
- }
- }
- return false;
- }
- static bool RangeIsUnshuffled(
- const TestingVector& vector, int begin, int end) {
- return !RangeIsShuffled(vector, begin, end);
- }
- static bool VectorIsShuffled(const TestingVector& vector) {
- return RangeIsShuffled(vector, 0, static_cast<int>(vector.size()));
- }
- static bool VectorIsUnshuffled(const TestingVector& vector) {
- return !VectorIsShuffled(vector);
- }
- testing::internal::Random random_;
- TestingVector vector_;
- }; // class VectorShuffleTest
- const int VectorShuffleTest::kVectorSize;
- TEST_F(VectorShuffleTest, HandlesEmptyRange) {
- // Tests an empty range at the beginning...
- ShuffleRange(&random_, 0, 0, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- ASSERT_PRED1(VectorIsUnshuffled, vector_);
- // ...in the middle...
- ShuffleRange(&random_, kVectorSize/2, kVectorSize/2, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- ASSERT_PRED1(VectorIsUnshuffled, vector_);
- // ...at the end...
- ShuffleRange(&random_, kVectorSize - 1, kVectorSize - 1, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- ASSERT_PRED1(VectorIsUnshuffled, vector_);
- // ...and past the end.
- ShuffleRange(&random_, kVectorSize, kVectorSize, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- ASSERT_PRED1(VectorIsUnshuffled, vector_);
- }
- TEST_F(VectorShuffleTest, HandlesRangeOfSizeOne) {
- // Tests a size one range at the beginning...
- ShuffleRange(&random_, 0, 1, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- ASSERT_PRED1(VectorIsUnshuffled, vector_);
- // ...in the middle...
- ShuffleRange(&random_, kVectorSize/2, kVectorSize/2 + 1, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- ASSERT_PRED1(VectorIsUnshuffled, vector_);
- // ...and at the end.
- ShuffleRange(&random_, kVectorSize - 1, kVectorSize, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- ASSERT_PRED1(VectorIsUnshuffled, vector_);
- }
- // Because we use our own random number generator and a fixed seed,
- // we can guarantee that the following "random" tests will succeed.
- TEST_F(VectorShuffleTest, ShufflesEntireVector) {
- Shuffle(&random_, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- EXPECT_FALSE(VectorIsUnshuffled(vector_)) << vector_;
- // Tests the first and last elements in particular to ensure that
- // there are no off-by-one problems in our shuffle algorithm.
- EXPECT_NE(0, vector_[0]);
- EXPECT_NE(kVectorSize - 1, vector_[kVectorSize - 1]);
- }
- TEST_F(VectorShuffleTest, ShufflesStartOfVector) {
- const int kRangeSize = kVectorSize/2;
- ShuffleRange(&random_, 0, kRangeSize, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- EXPECT_PRED3(RangeIsShuffled, vector_, 0, kRangeSize);
- EXPECT_PRED3(RangeIsUnshuffled, vector_, kRangeSize, kVectorSize);
- }
- TEST_F(VectorShuffleTest, ShufflesEndOfVector) {
- const int kRangeSize = kVectorSize / 2;
- ShuffleRange(&random_, kRangeSize, kVectorSize, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- EXPECT_PRED3(RangeIsUnshuffled, vector_, 0, kRangeSize);
- EXPECT_PRED3(RangeIsShuffled, vector_, kRangeSize, kVectorSize);
- }
- TEST_F(VectorShuffleTest, ShufflesMiddleOfVector) {
- int kRangeSize = kVectorSize/3;
- ShuffleRange(&random_, kRangeSize, 2*kRangeSize, &vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- EXPECT_PRED3(RangeIsUnshuffled, vector_, 0, kRangeSize);
- EXPECT_PRED3(RangeIsShuffled, vector_, kRangeSize, 2*kRangeSize);
- EXPECT_PRED3(RangeIsUnshuffled, vector_, 2*kRangeSize, kVectorSize);
- }
- TEST_F(VectorShuffleTest, ShufflesRepeatably) {
- TestingVector vector2;
- for (int i = 0; i < kVectorSize; i++) {
- vector2.push_back(i);
- }
- random_.Reseed(1234);
- Shuffle(&random_, &vector_);
- random_.Reseed(1234);
- Shuffle(&random_, &vector2);
- ASSERT_PRED1(VectorIsNotCorrupt, vector_);
- ASSERT_PRED1(VectorIsNotCorrupt, vector2);
- for (int i = 0; i < kVectorSize; i++) {
- EXPECT_EQ(vector_[i], vector2[i]) << " where i is " << i;
- }
- }
- // Tests the size of the AssertHelper class.
- TEST(AssertHelperTest, AssertHelperIsSmall) {
- // To avoid breaking clients that use lots of assertions in one
- // function, we cannot grow the size of AssertHelper.
- EXPECT_LE(sizeof(testing::internal::AssertHelper), sizeof(void*));
- }
- // Tests String::EndsWithCaseInsensitive().
- TEST(StringTest, EndsWithCaseInsensitive) {
- EXPECT_TRUE(String::EndsWithCaseInsensitive("foobar", "BAR"));
- EXPECT_TRUE(String::EndsWithCaseInsensitive("foobaR", "bar"));
- EXPECT_TRUE(String::EndsWithCaseInsensitive("foobar", ""));
- EXPECT_TRUE(String::EndsWithCaseInsensitive("", ""));
- EXPECT_FALSE(String::EndsWithCaseInsensitive("Foobar", "foo"));
- EXPECT_FALSE(String::EndsWithCaseInsensitive("foobar", "Foo"));
- EXPECT_FALSE(String::EndsWithCaseInsensitive("", "foo"));
- }
- // C++Builder's preprocessor is buggy; it fails to expand macros that
- // appear in macro parameters after wide char literals. Provide an alias
- // for NULL as a workaround.
- static const wchar_t* const kNull = NULL;
- // Tests String::CaseInsensitiveWideCStringEquals
- TEST(StringTest, CaseInsensitiveWideCStringEquals) {
- EXPECT_TRUE(String::CaseInsensitiveWideCStringEquals(NULL, NULL));
- EXPECT_FALSE(String::CaseInsensitiveWideCStringEquals(kNull, L""));
- EXPECT_FALSE(String::CaseInsensitiveWideCStringEquals(L"", kNull));
- EXPECT_FALSE(String::CaseInsensitiveWideCStringEquals(kNull, L"foobar"));
- EXPECT_FALSE(String::CaseInsensitiveWideCStringEquals(L"foobar", kNull));
- EXPECT_TRUE(String::CaseInsensitiveWideCStringEquals(L"foobar", L"foobar"));
- EXPECT_TRUE(String::CaseInsensitiveWideCStringEquals(L"foobar", L"FOOBAR"));
- EXPECT_TRUE(String::CaseInsensitiveWideCStringEquals(L"FOOBAR", L"foobar"));
- }
- #if GTEST_OS_WINDOWS
- // Tests String::ShowWideCString().
- TEST(StringTest, ShowWideCString) {
- EXPECT_STREQ("(null)",
- String::ShowWideCString(NULL).c_str());
- EXPECT_STREQ("", String::ShowWideCString(L"").c_str());
- EXPECT_STREQ("foo", String::ShowWideCString(L"foo").c_str());
- }
- # if GTEST_OS_WINDOWS_MOBILE
- TEST(StringTest, AnsiAndUtf16Null) {
- EXPECT_EQ(NULL, String::AnsiToUtf16(NULL));
- EXPECT_EQ(NULL, String::Utf16ToAnsi(NULL));
- }
- TEST(StringTest, AnsiAndUtf16ConvertBasic) {
- const char* ansi = String::Utf16ToAnsi(L"str");
- EXPECT_STREQ("str", ansi);
- delete [] ansi;
- const WCHAR* utf16 = String::AnsiToUtf16("str");
- EXPECT_EQ(0, wcsncmp(L"str", utf16, 3));
- delete [] utf16;
- }
- TEST(StringTest, AnsiAndUtf16ConvertPathChars) {
- const char* ansi = String::Utf16ToAnsi(L".:\\ \"*?");
- EXPECT_STREQ(".:\\ \"*?", ansi);
- delete [] ansi;
- const WCHAR* utf16 = String::AnsiToUtf16(".:\\ \"*?");
- EXPECT_EQ(0, wcsncmp(L".:\\ \"*?", utf16, 3));
- delete [] utf16;
- }
- # endif // GTEST_OS_WINDOWS_MOBILE
- #endif // GTEST_OS_WINDOWS
- // Tests TestProperty construction.
- TEST(TestPropertyTest, StringValue) {
- TestProperty property("key", "1");
- EXPECT_STREQ("key", property.key());
- EXPECT_STREQ("1", property.value());
- }
- // Tests TestProperty replacing a value.
- TEST(TestPropertyTest, ReplaceStringValue) {
- TestProperty property("key", "1");
- EXPECT_STREQ("1", property.value());
- property.SetValue("2");
- EXPECT_STREQ("2", property.value());
- }
- // AddFatalFailure() and AddNonfatalFailure() must be stand-alone
- // functions (i.e. their definitions cannot be inlined at the call
- // sites), or C++Builder won't compile the code.
- static void AddFatalFailure() {
- FAIL() << "Expected fatal failure.";
- }
- static void AddNonfatalFailure() {
- ADD_FAILURE() << "Expected non-fatal failure.";
- }
- class ScopedFakeTestPartResultReporterTest : public Test {
- public: // Must be public and not protected due to a bug in g++ 3.4.2.
- enum FailureMode {
- FATAL_FAILURE,
- NONFATAL_FAILURE
- };
- static void AddFailure(FailureMode failure) {
- if (failure == FATAL_FAILURE) {
- AddFatalFailure();
- } else {
- AddNonfatalFailure();
- }
- }
- };
- // Tests that ScopedFakeTestPartResultReporter intercepts test
- // failures.
- TEST_F(ScopedFakeTestPartResultReporterTest, InterceptsTestFailures) {
- TestPartResultArray results;
- {
- ScopedFakeTestPartResultReporter reporter(
- ScopedFakeTestPartResultReporter::INTERCEPT_ONLY_CURRENT_THREAD,
- &results);
- AddFailure(NONFATAL_FAILURE);
- AddFailure(FATAL_FAILURE);
- }
- EXPECT_EQ(2, results.size());
- EXPECT_TRUE(results.GetTestPartResult(0).nonfatally_failed());
- EXPECT_TRUE(results.GetTestPartResult(1).fatally_failed());
- }
- TEST_F(ScopedFakeTestPartResultReporterTest, DeprecatedConstructor) {
- TestPartResultArray results;
- {
- // Tests, that the deprecated constructor still works.
- ScopedFakeTestPartResultReporter reporter(&results);
- AddFailure(NONFATAL_FAILURE);
- }
- EXPECT_EQ(1, results.size());
- }
- #if GTEST_IS_THREADSAFE
- class ScopedFakeTestPartResultReporterWithThreadsTest
- : public ScopedFakeTestPartResultReporterTest {
- protected:
- static void AddFailureInOtherThread(FailureMode failure) {
- ThreadWithParam<FailureMode> thread(&AddFailure, failure, NULL);
- thread.Join();
- }
- };
- TEST_F(ScopedFakeTestPartResultReporterWithThreadsTest,
- InterceptsTestFailuresInAllThreads) {
- TestPartResultArray results;
- {
- ScopedFakeTestPartResultReporter reporter(
- ScopedFakeTestPartResultReporter::INTERCEPT_ALL_THREADS, &results);
- AddFailure(NONFATAL_FAILURE);
- AddFailure(FATAL_FAILURE);
- AddFailureInOtherThread(NONFATAL_FAILURE);
- AddFailureInOtherThread(FATAL_FAILURE);
- }
- EXPECT_EQ(4, results.size());
- EXPECT_TRUE(results.GetTestPartResult(0).nonfatally_failed());
- EXPECT_TRUE(results.GetTestPartResult(1).fatally_failed());
- EXPECT_TRUE(results.GetTestPartResult(2).nonfatally_failed());
- EXPECT_TRUE(results.GetTestPartResult(3).fatally_failed());
- }
- #endif // GTEST_IS_THREADSAFE
- // Tests EXPECT_FATAL_FAILURE{,ON_ALL_THREADS}. Makes sure that they
- // work even if the failure is generated in a called function rather than
- // the current context.
- typedef ScopedFakeTestPartResultReporterTest ExpectFatalFailureTest;
- TEST_F(ExpectFatalFailureTest, CatchesFatalFaliure) {
- EXPECT_FATAL_FAILURE(AddFatalFailure(), "Expected fatal failure.");
- }
- #if GTEST_HAS_GLOBAL_STRING
- TEST_F(ExpectFatalFailureTest, AcceptsStringObject) {
- EXPECT_FATAL_FAILURE(AddFatalFailure(), ::string("Expected fatal failure."));
- }
- #endif
- TEST_F(ExpectFatalFailureTest, AcceptsStdStringObject) {
- EXPECT_FATAL_FAILURE(AddFatalFailure(),
- ::std::string("Expected fatal failure."));
- }
- TEST_F(ExpectFatalFailureTest, CatchesFatalFailureOnAllThreads) {
- // We have another test below to verify that the macro catches fatal
- // failures generated on another thread.
- EXPECT_FATAL_FAILURE_ON_ALL_THREADS(AddFatalFailure(),
- "Expected fatal failure.");
- }
- #ifdef __BORLANDC__
- // Silences warnings: "Condition is always true"
- # pragma option push -w-ccc
- #endif
- // Tests that EXPECT_FATAL_FAILURE() can be used in a non-void
- // function even when the statement in it contains ASSERT_*.
- int NonVoidFunction() {
- EXPECT_FATAL_FAILURE(ASSERT_TRUE(false), "");
- EXPECT_FATAL_FAILURE_ON_ALL_THREADS(FAIL(), "");
- return 0;
- }
- TEST_F(ExpectFatalFailureTest, CanBeUsedInNonVoidFunction) {
- NonVoidFunction();
- }
- // Tests that EXPECT_FATAL_FAILURE(statement, ...) doesn't abort the
- // current function even though 'statement' generates a fatal failure.
- void DoesNotAbortHelper(bool* aborted) {
- EXPECT_FATAL_FAILURE(ASSERT_TRUE(false), "");
- EXPECT_FATAL_FAILURE_ON_ALL_THREADS(FAIL(), "");
- *aborted = false;
- }
- #ifdef __BORLANDC__
- // Restores warnings after previous "#pragma option push" suppressed them.
- # pragma option pop
- #endif
- TEST_F(ExpectFatalFailureTest, DoesNotAbort) {
- bool aborted = true;
- DoesNotAbortHelper(&aborted);
- EXPECT_FALSE(aborted);
- }
- // Tests that the EXPECT_FATAL_FAILURE{,_ON_ALL_THREADS} accepts a
- // statement that contains a macro which expands to code containing an
- // unprotected comma.
- static int global_var = 0;
- #define GTEST_USE_UNPROTECTED_COMMA_ global_var++, global_var++
- TEST_F(ExpectFatalFailureTest, AcceptsMacroThatExpandsToUnprotectedComma) {
- #ifndef __BORLANDC__
- // ICE's in C++Builder.
- EXPECT_FATAL_FAILURE({
- GTEST_USE_UNPROTECTED_COMMA_;
- AddFatalFailure();
- }, "");
- #endif
- EXPECT_FATAL_FAILURE_ON_ALL_THREADS({
- GTEST_USE_UNPROTECTED_COMMA_;
- AddFatalFailure();
- }, "");
- }
- // Tests EXPECT_NONFATAL_FAILURE{,ON_ALL_THREADS}.
- typedef ScopedFakeTestPartResultReporterTest ExpectNonfatalFailureTest;
- TEST_F(ExpectNonfatalFailureTest, CatchesNonfatalFailure) {
- EXPECT_NONFATAL_FAILURE(AddNonfatalFailure(),
- "Expected non-fatal failure.");
- }
- #if GTEST_HAS_GLOBAL_STRING
- TEST_F(ExpectNonfatalFailureTest, AcceptsStringObject) {
- EXPECT_NONFATAL_FAILURE(AddNonfatalFailure(),
- ::string("Expected non-fatal failure."));
- }
- #endif
- TEST_F(ExpectNonfatalFailureTest, AcceptsStdStringObject) {
- EXPECT_NONFATAL_FAILURE(AddNonfatalFailure(),
- ::std::string("Expected non-fatal failure."));
- }
- TEST_F(ExpectNonfatalFailureTest, CatchesNonfatalFailureOnAllThreads) {
- // We have another test below to verify that the macro catches
- // non-fatal failures generated on another thread.
- EXPECT_NONFATAL_FAILURE_ON_ALL_THREADS(AddNonfatalFailure(),
- "Expected non-fatal failure.");
- }
- // Tests that the EXPECT_NONFATAL_FAILURE{,_ON_ALL_THREADS} accepts a
- // statement that contains a macro which expands to code containing an
- // unprotected comma.
- TEST_F(ExpectNonfatalFailureTest, AcceptsMacroThatExpandsToUnprotectedComma) {
- EXPECT_NONFATAL_FAILURE({
- GTEST_USE_UNPROTECTED_COMMA_;
- AddNonfatalFailure();
- }, "");
- EXPECT_NONFATAL_FAILURE_ON_ALL_THREADS({
- GTEST_USE_UNPROTECTED_COMMA_;
- AddNonfatalFailure();
- }, "");
- }
- #if GTEST_IS_THREADSAFE
- typedef ScopedFakeTestPartResultReporterWithThreadsTest
- ExpectFailureWithThreadsTest;
- TEST_F(ExpectFailureWithThreadsTest, ExpectFatalFailureOnAllThreads) {
- EXPECT_FATAL_FAILURE_ON_ALL_THREADS(AddFailureInOtherThread(FATAL_FAILURE),
- "Expected fatal failure.");
- }
- TEST_F(ExpectFailureWithThreadsTest, ExpectNonFatalFailureOnAllThreads) {
- EXPECT_NONFATAL_FAILURE_ON_ALL_THREADS(
- AddFailureInOtherThread(NONFATAL_FAILURE), "Expected non-fatal failure.");
- }
- #endif // GTEST_IS_THREADSAFE
- // Tests the TestProperty class.
- TEST(TestPropertyTest, ConstructorWorks) {
- const TestProperty property("key", "value");
- EXPECT_STREQ("key", property.key());
- EXPECT_STREQ("value", property.value());
- }
- TEST(TestPropertyTest, SetValue) {
- TestProperty property("key", "value_1");
- EXPECT_STREQ("key", property.key());
- property.SetValue("value_2");
- EXPECT_STREQ("key", property.key());
- EXPECT_STREQ("value_2", property.value());
- }
- // Tests the TestResult class
- // The test fixture for testing TestResult.
- class TestResultTest : public Test {
- protected:
- typedef std::vector<TestPartResult> TPRVector;
- // We make use of 2 TestPartResult objects,
- TestPartResult * pr1, * pr2;
- // ... and 3 TestResult objects.
- TestResult * r0, * r1, * r2;
- virtual void SetUp() {
- // pr1 is for success.
- pr1 = new TestPartResult(TestPartResult::kSuccess,
- "foo/bar.cc",
- 10,
- "Success!");
- // pr2 is for fatal failure.
- pr2 = new TestPartResult(TestPartResult::kFatalFailure,
- "foo/bar.cc",
- -1, // This line number means "unknown"
- "Failure!");
- // Creates the TestResult objects.
- r0 = new TestResult();
- r1 = new TestResult();
- r2 = new TestResult();
- // In order to test TestResult, we need to modify its internal
- // state, in particular the TestPartResult vector it holds.
- // test_part_results() returns a const reference to this vector.
- // We cast it to a non-const object s.t. it can be modified (yes,
- // this is a hack).
- TPRVector* results1 = const_cast<TPRVector*>(
- &TestResultAccessor::test_part_results(*r1));
- TPRVector* results2 = const_cast<TPRVector*>(
- &TestResultAccessor::test_part_results(*r2));
- // r0 is an empty TestResult.
- // r1 contains a single SUCCESS TestPartResult.
- results1->push_back(*pr1);
- // r2 contains a SUCCESS, and a FAILURE.
- results2->push_back(*pr1);
- results2->push_back(*pr2);
- }
- virtual void TearDown() {
- delete pr1;
- delete pr2;
- delete r0;
- delete r1;
- delete r2;
- }
- // Helper that compares two two TestPartResults.
- static void CompareTestPartResult(const TestPartResult& expected,
- const TestPartResult& actual) {
- EXPECT_EQ(expected.type(), actual.type());
- EXPECT_STREQ(expected.file_name(), actual.file_name());
- EXPECT_EQ(expected.line_number(), actual.line_number());
- EXPECT_STREQ(expected.summary(), actual.summary());
- EXPECT_STREQ(expected.message(), actual.message());
- EXPECT_EQ(expected.passed(), actual.passed());
- EXPECT_EQ(expected.failed(), actual.failed());
- EXPECT_EQ(expected.nonfatally_failed(), actual.nonfatally_failed());
- EXPECT_EQ(expected.fatally_failed(), actual.fatally_failed());
- }
- };
- // Tests TestResult::total_part_count().
- TEST_F(TestResultTest, total_part_count) {
- ASSERT_EQ(0, r0->total_part_count());
- ASSERT_EQ(1, r1->total_part_count());
- ASSERT_EQ(2, r2->total_part_count());
- }
- // Tests TestResult::Passed().
- TEST_F(TestResultTest, Passed) {
- ASSERT_TRUE(r0->Passed());
- ASSERT_TRUE(r1->Passed());
- ASSERT_FALSE(r2->Passed());
- }
- // Tests TestResult::Failed().
- TEST_F(TestResultTest, Failed) {
- ASSERT_FALSE(r0->Failed());
- ASSERT_FALSE(r1->Failed());
- ASSERT_TRUE(r2->Failed());
- }
- // Tests TestResult::GetTestPartResult().
- typedef TestResultTest TestResultDeathTest;
- TEST_F(TestResultDeathTest, GetTestPartResult) {
- CompareTestPartResult(*pr1, r2->GetTestPartResult(0));
- CompareTestPartResult(*pr2, r2->GetTestPartResult(1));
- EXPECT_DEATH_IF_SUPPORTED(r2->GetTestPartResult(2), "");
- EXPECT_DEATH_IF_SUPPORTED(r2->GetTestPartResult(-1), "");
- }
- // Tests TestResult has no properties when none are added.
- TEST(TestResultPropertyTest, NoPropertiesFoundWhenNoneAreAdded) {
- TestResult test_result;
- ASSERT_EQ(0, test_result.test_property_count());
- }
- // Tests TestResult has the expected property when added.
- TEST(TestResultPropertyTest, OnePropertyFoundWhenAdded) {
- TestResult test_result;
- TestProperty property("key_1", "1");
- TestResultAccessor::RecordProperty(&test_result, "testcase", property);
- ASSERT_EQ(1, test_result.test_property_count());
- const TestProperty& actual_property = test_result.GetTestProperty(0);
- EXPECT_STREQ("key_1", actual_property.key());
- EXPECT_STREQ("1", actual_property.value());
- }
- // Tests TestResult has multiple properties when added.
- TEST(TestResultPropertyTest, MultiplePropertiesFoundWhenAdded) {
- TestResult test_result;
- TestProperty property_1("key_1", "1");
- TestProperty property_2("key_2", "2");
- TestResultAccessor::RecordProperty(&test_result, "testcase", property_1);
- TestResultAccessor::RecordProperty(&test_result, "testcase", property_2);
- ASSERT_EQ(2, test_result.test_property_count());
- const TestProperty& actual_property_1 = test_result.GetTestProperty(0);
- EXPECT_STREQ("key_1", actual_property_1.key());
- EXPECT_STREQ("1", actual_property_1.value());
- const TestProperty& actual_property_2 = test_result.GetTestProperty(1);
- EXPECT_STREQ("key_2", actual_property_2.key());
- EXPECT_STREQ("2", actual_property_2.value());
- }
- // Tests TestResult::RecordProperty() overrides values for duplicate keys.
- TEST(TestResultPropertyTest, OverridesValuesForDuplicateKeys) {
- TestResult test_result;
- TestProperty property_1_1("key_1", "1");
- TestProperty property_2_1("key_2", "2");
- TestProperty property_1_2("key_1", "12");
- TestProperty property_2_2("key_2", "22");
- TestResultAccessor::RecordProperty(&test_result, "testcase", property_1_1);
- TestResultAccessor::RecordProperty(&test_result, "testcase", property_2_1);
- TestResultAccessor::RecordProperty(&test_result, "testcase", property_1_2);
- TestResultAccessor::RecordProperty(&test_result, "testcase", property_2_2);
- ASSERT_EQ(2, test_result.test_property_count());
- const TestProperty& actual_property_1 = test_result.GetTestProperty(0);
- EXPECT_STREQ("key_1", actual_property_1.key());
- EXPECT_STREQ("12", actual_property_1.value());
- const TestProperty& actual_property_2 = test_result.GetTestProperty(1);
- EXPECT_STREQ("key_2", actual_property_2.key());
- EXPECT_STREQ("22", actual_property_2.value());
- }
- // Tests TestResult::GetTestProperty().
- TEST(TestResultPropertyTest, GetTestProperty) {
- TestResult test_result;
- TestProperty property_1("key_1", "1");
- TestProperty property_2("key_2", "2");
- TestProperty property_3("key_3", "3");
- TestResultAccessor::RecordProperty(&test_result, "testcase", property_1);
- TestResultAccessor::RecordProperty(&test_result, "testcase", property_2);
- TestResultAccessor::RecordProperty(&test_result, "testcase", property_3);
- const TestProperty& fetched_property_1 = test_result.GetTestProperty(0);
- const TestProperty& fetched_property_2 = test_result.GetTestProperty(1);
- const TestProperty& fetched_property_3 = test_result.GetTestProperty(2);
- EXPECT_STREQ("key_1", fetched_property_1.key());
- EXPECT_STREQ("1", fetched_property_1.value());
- EXPECT_STREQ("key_2", fetched_property_2.key());
- EXPECT_STREQ("2", fetched_property_2.value());
- EXPECT_STREQ("key_3", fetched_property_3.key());
- EXPECT_STREQ("3", fetched_property_3.value());
- EXPECT_DEATH_IF_SUPPORTED(test_result.GetTestProperty(3), "");
- EXPECT_DEATH_IF_SUPPORTED(test_result.GetTestProperty(-1), "");
- }
- // Tests the Test class.
- //
- // It's difficult to test every public method of this class (we are
- // already stretching the limit of Google Test by using it to test itself!).
- // Fortunately, we don't have to do that, as we are already testing
- // the functionalities of the Test class extensively by using Google Test
- // alone.
- //
- // Therefore, this section only contains one test.
- // Tests that GTestFlagSaver works on Windows and Mac.
- class GTestFlagSaverTest : public Test {
- protected:
- // Saves the Google Test flags such that we can restore them later, and
- // then sets them to their default values. This will be called
- // before the first test in this test case is run.
- static void SetUpTestCase() {
- saver_ = new GTestFlagSaver;
- GTEST_FLAG(also_run_disabled_tests) = false;
- GTEST_FLAG(break_on_failure) = false;
- GTEST_FLAG(catch_exceptions) = false;
- GTEST_FLAG(death_test_use_fork) = false;
- GTEST_FLAG(color) = "auto";
- GTEST_FLAG(filter) = "";
- GTEST_FLAG(list_tests) = false;
- GTEST_FLAG(output) = "";
- GTEST_FLAG(print_time) = true;
- GTEST_FLAG(random_seed) = 0;
- GTEST_FLAG(repeat) = 1;
- GTEST_FLAG(shuffle) = false;
- GTEST_FLAG(stack_trace_depth) = kMaxStackTraceDepth;
- GTEST_FLAG(stream_result_to) = "";
- GTEST_FLAG(throw_on_failure) = false;
- }
- // Restores the Google Test flags that the tests have modified. This will
- // be called after the last test in this test case is run.
- static void TearDownTestCase() {
- delete saver_;
- saver_ = NULL;
- }
- // Verifies that the Google Test flags have their default values, and then
- // modifies each of them.
- void VerifyAndModifyFlags() {
- EXPECT_FALSE(GTEST_FLAG(also_run_disabled_tests));
- EXPECT_FALSE(GTEST_FLAG(break_on_failure));
- EXPECT_FALSE(GTEST_FLAG(catch_exceptions));
- EXPECT_STREQ("auto", GTEST_FLAG(color).c_str());
- EXPECT_FALSE(GTEST_FLAG(death_test_use_fork));
- EXPECT_STREQ("", GTEST_FLAG(filter).c_str());
- EXPECT_FALSE(GTEST_FLAG(list_tests));
- EXPECT_STREQ("", GTEST_FLAG(output).c_str());
- EXPECT_TRUE(GTEST_FLAG(print_time));
- EXPECT_EQ(0, GTEST_FLAG(random_seed));
- EXPECT_EQ(1, GTEST_FLAG(repeat));
- EXPECT_FALSE(GTEST_FLAG(shuffle));
- EXPECT_EQ(kMaxStackTraceDepth, GTEST_FLAG(stack_trace_depth));
- EXPECT_STREQ("", GTEST_FLAG(stream_result_to).c_str());
- EXPECT_FALSE(GTEST_FLAG(throw_on_failure));
- GTEST_FLAG(also_run_disabled_tests) = true;
- GTEST_FLAG(break_on_failure) = true;
- GTEST_FLAG(catch_exceptions) = true;
- GTEST_FLAG(color) = "no";
- GTEST_FLAG(death_test_use_fork) = true;
- GTEST_FLAG(filter) = "abc";
- GTEST_FLAG(list_tests) = true;
- GTEST_FLAG(output) = "xml:foo.xml";
- GTEST_FLAG(print_time) = false;
- GTEST_FLAG(random_seed) = 1;
- GTEST_FLAG(repeat) = 100;
- GTEST_FLAG(shuffle) = true;
- GTEST_FLAG(stack_trace_depth) = 1;
- GTEST_FLAG(stream_result_to) = "localhost:1234";
- GTEST_FLAG(throw_on_failure) = true;
- }
- private:
- // For saving Google Test flags during this test case.
- static GTestFlagSaver* saver_;
- };
- GTestFlagSaver* GTestFlagSaverTest::saver_ = NULL;
- // Google Test doesn't guarantee the order of tests. The following two
- // tests are designed to work regardless of their order.
- // Modifies the Google Test flags in the test body.
- TEST_F(GTestFlagSaverTest, ModifyGTestFlags) {
- VerifyAndModifyFlags();
- }
- // Verifies that the Google Test flags in the body of the previous test were
- // restored to their original values.
- TEST_F(GTestFlagSaverTest, VerifyGTestFlags) {
- VerifyAndModifyFlags();
- }
- // Sets an environment variable with the given name to the given
- // value. If the value argument is "", unsets the environment
- // variable. The caller must ensure that both arguments are not NULL.
- static void SetEnv(const char* name, const char* value) {
- #if GTEST_OS_WINDOWS_MOBILE
- // Environment variables are not supported on Windows CE.
- return;
- #elif defined(__BORLANDC__) || defined(__SunOS_5_8) || defined(__SunOS_5_9)
- // C++Builder's putenv only stores a pointer to its parameter; we have to
- // ensure that the string remains valid as long as it might be needed.
- // We use an std::map to do so.
- static std::map<std::string, std::string*> added_env;
- // Because putenv stores a pointer to the string buffer, we can't delete the
- // previous string (if present) until after it's replaced.
- std::string *prev_env = NULL;
- if (added_env.find(name) != added_env.end()) {
- prev_env = added_env[name];
- }
- added_env[name] = new std::string(
- (Message() << name << "=" << value).GetString());
- // The standard signature of putenv accepts a 'char*' argument. Other
- // implementations, like C++Builder's, accept a 'const char*'.
- // We cast away the 'const' since that would work for both variants.
- putenv(const_cast<char*>(added_env[name]->c_str()));
- delete prev_env;
- #elif GTEST_OS_WINDOWS // If we are on Windows proper.
- _putenv((Message() << name << "=" << value).GetString().c_str());
- #else
- if (*value == '\0') {
- unsetenv(name);
- } else {
- setenv(name, value, 1);
- }
- #endif // GTEST_OS_WINDOWS_MOBILE
- }
- #if !GTEST_OS_WINDOWS_MOBILE
- // Environment variables are not supported on Windows CE.
- using testing::internal::Int32FromGTestEnv;
- // Tests Int32FromGTestEnv().
- // Tests that Int32FromGTestEnv() returns the default value when the
- // environment variable is not set.
- TEST(Int32FromGTestEnvTest, ReturnsDefaultWhenVariableIsNotSet) {
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "TEMP", "");
- EXPECT_EQ(10, Int32FromGTestEnv("temp", 10));
- }
- # if !defined(GTEST_GET_INT32_FROM_ENV_)
- // Tests that Int32FromGTestEnv() returns the default value when the
- // environment variable overflows as an Int32.
- TEST(Int32FromGTestEnvTest, ReturnsDefaultWhenValueOverflows) {
- printf("(expecting 2 warnings)\n");
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "TEMP", "12345678987654321");
- EXPECT_EQ(20, Int32FromGTestEnv("temp", 20));
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "TEMP", "-12345678987654321");
- EXPECT_EQ(30, Int32FromGTestEnv("temp", 30));
- }
- // Tests that Int32FromGTestEnv() returns the default value when the
- // environment variable does not represent a valid decimal integer.
- TEST(Int32FromGTestEnvTest, ReturnsDefaultWhenValueIsInvalid) {
- printf("(expecting 2 warnings)\n");
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "TEMP", "A1");
- EXPECT_EQ(40, Int32FromGTestEnv("temp", 40));
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "TEMP", "12X");
- EXPECT_EQ(50, Int32FromGTestEnv("temp", 50));
- }
- # endif // !defined(GTEST_GET_INT32_FROM_ENV_)
- // Tests that Int32FromGTestEnv() parses and returns the value of the
- // environment variable when it represents a valid decimal integer in
- // the range of an Int32.
- TEST(Int32FromGTestEnvTest, ParsesAndReturnsValidValue) {
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "TEMP", "123");
- EXPECT_EQ(123, Int32FromGTestEnv("temp", 0));
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "TEMP", "-321");
- EXPECT_EQ(-321, Int32FromGTestEnv("temp", 0));
- }
- #endif // !GTEST_OS_WINDOWS_MOBILE
- // Tests ParseInt32Flag().
- // Tests that ParseInt32Flag() returns false and doesn't change the
- // output value when the flag has wrong format
- TEST(ParseInt32FlagTest, ReturnsFalseForInvalidFlag) {
- Int32 value = 123;
- EXPECT_FALSE(ParseInt32Flag("--a=100", "b", &value));
- EXPECT_EQ(123, value);
- EXPECT_FALSE(ParseInt32Flag("a=100", "a", &value));
- EXPECT_EQ(123, value);
- }
- // Tests that ParseInt32Flag() returns false and doesn't change the
- // output value when the flag overflows as an Int32.
- TEST(ParseInt32FlagTest, ReturnsDefaultWhenValueOverflows) {
- printf("(expecting 2 warnings)\n");
- Int32 value = 123;
- EXPECT_FALSE(ParseInt32Flag("--abc=12345678987654321", "abc", &value));
- EXPECT_EQ(123, value);
- EXPECT_FALSE(ParseInt32Flag("--abc=-12345678987654321", "abc", &value));
- EXPECT_EQ(123, value);
- }
- // Tests that ParseInt32Flag() returns false and doesn't change the
- // output value when the flag does not represent a valid decimal
- // integer.
- TEST(ParseInt32FlagTest, ReturnsDefaultWhenValueIsInvalid) {
- printf("(expecting 2 warnings)\n");
- Int32 value = 123;
- EXPECT_FALSE(ParseInt32Flag("--abc=A1", "abc", &value));
- EXPECT_EQ(123, value);
- EXPECT_FALSE(ParseInt32Flag("--abc=12X", "abc", &value));
- EXPECT_EQ(123, value);
- }
- // Tests that ParseInt32Flag() parses the value of the flag and
- // returns true when the flag represents a valid decimal integer in
- // the range of an Int32.
- TEST(ParseInt32FlagTest, ParsesAndReturnsValidValue) {
- Int32 value = 123;
- EXPECT_TRUE(ParseInt32Flag("--" GTEST_FLAG_PREFIX_ "abc=456", "abc", &value));
- EXPECT_EQ(456, value);
- EXPECT_TRUE(ParseInt32Flag("--" GTEST_FLAG_PREFIX_ "abc=-789",
- "abc", &value));
- EXPECT_EQ(-789, value);
- }
- // Tests that Int32FromEnvOrDie() parses the value of the var or
- // returns the correct default.
- // Environment variables are not supported on Windows CE.
- #if !GTEST_OS_WINDOWS_MOBILE
- TEST(Int32FromEnvOrDieTest, ParsesAndReturnsValidValue) {
- EXPECT_EQ(333, Int32FromEnvOrDie(GTEST_FLAG_PREFIX_UPPER_ "UnsetVar", 333));
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "UnsetVar", "123");
- EXPECT_EQ(123, Int32FromEnvOrDie(GTEST_FLAG_PREFIX_UPPER_ "UnsetVar", 333));
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "UnsetVar", "-123");
- EXPECT_EQ(-123, Int32FromEnvOrDie(GTEST_FLAG_PREFIX_UPPER_ "UnsetVar", 333));
- }
- #endif // !GTEST_OS_WINDOWS_MOBILE
- // Tests that Int32FromEnvOrDie() aborts with an error message
- // if the variable is not an Int32.
- TEST(Int32FromEnvOrDieDeathTest, AbortsOnFailure) {
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "VAR", "xxx");
- EXPECT_DEATH_IF_SUPPORTED(
- Int32FromEnvOrDie(GTEST_FLAG_PREFIX_UPPER_ "VAR", 123),
- ".*");
- }
- // Tests that Int32FromEnvOrDie() aborts with an error message
- // if the variable cannot be represnted by an Int32.
- TEST(Int32FromEnvOrDieDeathTest, AbortsOnInt32Overflow) {
- SetEnv(GTEST_FLAG_PREFIX_UPPER_ "VAR", "1234567891234567891234");
- EXPECT_DEATH_IF_SUPPORTED(
- Int32FromEnvOrDie(GTEST_FLAG_PREFIX_UPPER_ "VAR", 123),
- ".*");
- }
- // Tests that ShouldRunTestOnShard() selects all tests
- // where there is 1 shard.
- TEST(ShouldRunTestOnShardTest, IsPartitionWhenThereIsOneShard) {
- EXPECT_TRUE(ShouldRunTestOnShard(1, 0, 0));
- EXPECT_TRUE(ShouldRunTestOnShard(1, 0, 1));
- EXPECT_TRUE(ShouldRunTestOnShard(1, 0, 2));
- EXPECT_TRUE(ShouldRunTestOnShard(1, 0, 3));
- EXPECT_TRUE(ShouldRunTestOnShard(1, 0, 4));
- }
- class ShouldShardTest : public testing::Test {
- protected:
- virtual void SetUp() {
- index_var_ = GTEST_FLAG_PREFIX_UPPER_ "INDEX";
- total_var_ = GTEST_FLAG_PREFIX_UPPER_ "TOTAL";
- }
- virtual void TearDown() {
- SetEnv(index_var_, "");
- SetEnv(total_var_, "");
- }
- const char* index_var_;
- const char* total_var_;
- };
- // Tests that sharding is disabled if neither of the environment variables
- // are set.
- TEST_F(ShouldShardTest, ReturnsFalseWhenNeitherEnvVarIsSet) {
- SetEnv(index_var_, "");
- SetEnv(total_var_, "");
- EXPECT_FALSE(ShouldShard(total_var_, index_var_, false));
- EXPECT_FALSE(ShouldShard(total_var_, index_var_, true));
- }
- // Tests that sharding is not enabled if total_shards == 1.
- TEST_F(ShouldShardTest, ReturnsFalseWhenTotalShardIsOne) {
- SetEnv(index_var_, "0");
- SetEnv(total_var_, "1");
- EXPECT_FALSE(ShouldShard(total_var_, index_var_, false));
- EXPECT_FALSE(ShouldShard(total_var_, index_var_, true));
- }
- // Tests that sharding is enabled if total_shards > 1 and
- // we are not in a death test subprocess.
- // Environment variables are not supported on Windows CE.
- #if !GTEST_OS_WINDOWS_MOBILE
- TEST_F(ShouldShardTest, WorksWhenShardEnvVarsAreValid) {
- SetEnv(index_var_, "4");
- SetEnv(total_var_, "22");
- EXPECT_TRUE(ShouldShard(total_var_, index_var_, false));
- EXPECT_FALSE(ShouldShard(total_var_, index_var_, true));
- SetEnv(index_var_, "8");
- SetEnv(total_var_, "9");
- EXPECT_TRUE(ShouldShard(total_var_, index_var_, false));
- EXPECT_FALSE(ShouldShard(total_var_, index_var_, true));
- SetEnv(index_var_, "0");
- SetEnv(total_var_, "9");
- EXPECT_TRUE(ShouldShard(total_var_, index_var_, false));
- EXPECT_FALSE(ShouldShard(total_var_, index_var_, true));
- }
- #endif // !GTEST_OS_WINDOWS_MOBILE
- // Tests that we exit in error if the sharding values are not valid.
- typedef ShouldShardTest ShouldShardDeathTest;
- TEST_F(ShouldShardDeathTest, AbortsWhenShardingEnvVarsAreInvalid) {
- SetEnv(index_var_, "4");
- SetEnv(total_var_, "4");
- EXPECT_DEATH_IF_SUPPORTED(ShouldShard(total_var_, index_var_, false), ".*");
- SetEnv(index_var_, "4");
- SetEnv(total_var_, "-2");
- EXPECT_DEATH_IF_SUPPORTED(ShouldShard(total_var_, index_var_, false), ".*");
- SetEnv(index_var_, "5");
- SetEnv(total_var_, "");
- EXPECT_DEATH_IF_SUPPORTED(ShouldShard(total_var_, index_var_, false), ".*");
- SetEnv(index_var_, "");
- SetEnv(total_var_, "5");
- EXPECT_DEATH_IF_SUPPORTED(ShouldShard(total_var_, index_var_, false), ".*");
- }
- // Tests that ShouldRunTestOnShard is a partition when 5
- // shards are used.
- TEST(ShouldRunTestOnShardTest, IsPartitionWhenThereAreFiveShards) {
- // Choose an arbitrary number of tests and shards.
- const int num_tests = 17;
- const int num_shards = 5;
- // Check partitioning: each test should be on exactly 1 shard.
- for (int test_id = 0; test_id < num_tests; test_id++) {
- int prev_selected_shard_index = -1;
- for (int shard_index = 0; shard_index < num_shards; shard_index++) {
- if (ShouldRunTestOnShard(num_shards, shard_index, test_id)) {
- if (prev_selected_shard_index < 0) {
- prev_selected_shard_index = shard_index;
- } else {
- ADD_FAILURE() << "Shard " << prev_selected_shard_index << " and "
- << shard_index << " are both selected to run test " << test_id;
- }
- }
- }
- }
- // Check balance: This is not required by the sharding protocol, but is a
- // desirable property for performance.
- for (int shard_index = 0; shard_index < num_shards; shard_index++) {
- int num_tests_on_shard = 0;
- for (int test_id = 0; test_id < num_tests; test_id++) {
- num_tests_on_shard +=
- ShouldRunTestOnShard(num_shards, shard_index, test_id);
- }
- EXPECT_GE(num_tests_on_shard, num_tests / num_shards);
- }
- }
- // For the same reason we are not explicitly testing everything in the
- // Test class, there are no separate tests for the following classes
- // (except for some trivial cases):
- //
- // TestCase, UnitTest, UnitTestResultPrinter.
- //
- // Similarly, there are no separate tests for the following macros:
- //
- // TEST, TEST_F, RUN_ALL_TESTS
- TEST(UnitTestTest, CanGetOriginalWorkingDir) {
- ASSERT_TRUE(UnitTest::GetInstance()->original_working_dir() != NULL);
- EXPECT_STRNE(UnitTest::GetInstance()->original_working_dir(), "");
- }
- TEST(UnitTestTest, ReturnsPlausibleTimestamp) {
- EXPECT_LT(0, UnitTest::GetInstance()->start_timestamp());
- EXPECT_LE(UnitTest::GetInstance()->start_timestamp(), GetTimeInMillis());
- }
- // When a property using a reserved key is supplied to this function, it
- // tests that a non-fatal failure is added, a fatal failure is not added,
- // and that the property is not recorded.
- void ExpectNonFatalFailureRecordingPropertyWithReservedKey(
- const TestResult& test_result, const char* key) {
- EXPECT_NONFATAL_FAILURE(Test::RecordProperty(key, "1"), "Reserved key");
- ASSERT_EQ(0, test_result.test_property_count()) << "Property for key '" << key
- << "' recorded unexpectedly.";
- }
- void ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTest(
- const char* key) {
- const TestInfo* test_info = UnitTest::GetInstance()->current_test_info();
- ASSERT_TRUE(test_info != NULL);
- ExpectNonFatalFailureRecordingPropertyWithReservedKey(*test_info->result(),
- key);
- }
- void ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTestCase(
- const char* key) {
- const TestCase* test_case = UnitTest::GetInstance()->current_test_case();
- ASSERT_TRUE(test_case != NULL);
- ExpectNonFatalFailureRecordingPropertyWithReservedKey(
- test_case->ad_hoc_test_result(), key);
- }
- void ExpectNonFatalFailureRecordingPropertyWithReservedKeyOutsideOfTestCase(
- const char* key) {
- ExpectNonFatalFailureRecordingPropertyWithReservedKey(
- UnitTest::GetInstance()->ad_hoc_test_result(), key);
- }
- // Tests that property recording functions in UnitTest outside of tests
- // functions correcly. Creating a separate instance of UnitTest ensures it
- // is in a state similar to the UnitTest's singleton's between tests.
- class UnitTestRecordPropertyTest :
- public testing::internal::UnitTestRecordPropertyTestHelper {
- public:
- static void SetUpTestCase() {
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTestCase(
- "disabled");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTestCase(
- "errors");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTestCase(
- "failures");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTestCase(
- "name");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTestCase(
- "tests");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTestCase(
- "time");
- Test::RecordProperty("test_case_key_1", "1");
- const TestCase* test_case = UnitTest::GetInstance()->current_test_case();
- ASSERT_TRUE(test_case != NULL);
- ASSERT_EQ(1, test_case->ad_hoc_test_result().test_property_count());
- EXPECT_STREQ("test_case_key_1",
- test_case->ad_hoc_test_result().GetTestProperty(0).key());
- EXPECT_STREQ("1",
- test_case->ad_hoc_test_result().GetTestProperty(0).value());
- }
- };
- // Tests TestResult has the expected property when added.
- TEST_F(UnitTestRecordPropertyTest, OnePropertyFoundWhenAdded) {
- UnitTestRecordProperty("key_1", "1");
- ASSERT_EQ(1, unit_test_.ad_hoc_test_result().test_property_count());
- EXPECT_STREQ("key_1",
- unit_test_.ad_hoc_test_result().GetTestProperty(0).key());
- EXPECT_STREQ("1",
- unit_test_.ad_hoc_test_result().GetTestProperty(0).value());
- }
- // Tests TestResult has multiple properties when added.
- TEST_F(UnitTestRecordPropertyTest, MultiplePropertiesFoundWhenAdded) {
- UnitTestRecordProperty("key_1", "1");
- UnitTestRecordProperty("key_2", "2");
- ASSERT_EQ(2, unit_test_.ad_hoc_test_result().test_property_count());
- EXPECT_STREQ("key_1",
- unit_test_.ad_hoc_test_result().GetTestProperty(0).key());
- EXPECT_STREQ("1", unit_test_.ad_hoc_test_result().GetTestProperty(0).value());
- EXPECT_STREQ("key_2",
- unit_test_.ad_hoc_test_result().GetTestProperty(1).key());
- EXPECT_STREQ("2", unit_test_.ad_hoc_test_result().GetTestProperty(1).value());
- }
- // Tests TestResult::RecordProperty() overrides values for duplicate keys.
- TEST_F(UnitTestRecordPropertyTest, OverridesValuesForDuplicateKeys) {
- UnitTestRecordProperty("key_1", "1");
- UnitTestRecordProperty("key_2", "2");
- UnitTestRecordProperty("key_1", "12");
- UnitTestRecordProperty("key_2", "22");
- ASSERT_EQ(2, unit_test_.ad_hoc_test_result().test_property_count());
- EXPECT_STREQ("key_1",
- unit_test_.ad_hoc_test_result().GetTestProperty(0).key());
- EXPECT_STREQ("12",
- unit_test_.ad_hoc_test_result().GetTestProperty(0).value());
- EXPECT_STREQ("key_2",
- unit_test_.ad_hoc_test_result().GetTestProperty(1).key());
- EXPECT_STREQ("22",
- unit_test_.ad_hoc_test_result().GetTestProperty(1).value());
- }
- TEST_F(UnitTestRecordPropertyTest,
- AddFailureInsideTestsWhenUsingTestCaseReservedKeys) {
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTest(
- "name");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTest(
- "value_param");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTest(
- "type_param");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTest(
- "status");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTest(
- "time");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyForCurrentTest(
- "classname");
- }
- TEST_F(UnitTestRecordPropertyTest,
- AddRecordWithReservedKeysGeneratesCorrectPropertyList) {
- EXPECT_NONFATAL_FAILURE(
- Test::RecordProperty("name", "1"),
- "'classname', 'name', 'status', 'time', 'type_param', and 'value_param'"
- " are reserved");
- }
- class UnitTestRecordPropertyTestEnvironment : public Environment {
- public:
- virtual void TearDown() {
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyOutsideOfTestCase(
- "tests");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyOutsideOfTestCase(
- "failures");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyOutsideOfTestCase(
- "disabled");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyOutsideOfTestCase(
- "errors");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyOutsideOfTestCase(
- "name");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyOutsideOfTestCase(
- "timestamp");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyOutsideOfTestCase(
- "time");
- ExpectNonFatalFailureRecordingPropertyWithReservedKeyOutsideOfTestCase(
- "random_seed");
- }
- };
- // This will test property recording outside of any test or test case.
- static Environment* record_property_env =
- AddGlobalTestEnvironment(new UnitTestRecordPropertyTestEnvironment);
- // This group of tests is for predicate assertions (ASSERT_PRED*, etc)
- // of various arities. They do not attempt to be exhaustive. Rather,
- // view them as smoke tests that can be easily reviewed and verified.
- // A more complete set of tests for predicate assertions can be found
- // in gtest_pred_impl_unittest.cc.
- // First, some predicates and predicate-formatters needed by the tests.
- // Returns true iff the argument is an even number.
- bool IsEven(int n) {
- return (n % 2) == 0;
- }
- // A functor that returns true iff the argument is an even number.
- struct IsEvenFunctor {
- bool operator()(int n) { return IsEven(n); }
- };
- // A predicate-formatter function that asserts the argument is an even
- // number.
- AssertionResult AssertIsEven(const char* expr, int n) {
- if (IsEven(n)) {
- return AssertionSuccess();
- }
- Message msg;
- msg << expr << " evaluates to " << n << ", which is not even.";
- return AssertionFailure(msg);
- }
- // A predicate function that returns AssertionResult for use in
- // EXPECT/ASSERT_TRUE/FALSE.
- AssertionResult ResultIsEven(int n) {
- if (IsEven(n))
- return AssertionSuccess() << n << " is even";
- else
- return AssertionFailure() << n << " is odd";
- }
- // A predicate function that returns AssertionResult but gives no
- // explanation why it succeeds. Needed for testing that
- // EXPECT/ASSERT_FALSE handles such functions correctly.
- AssertionResult ResultIsEvenNoExplanation(int n) {
- if (IsEven(n))
- return AssertionSuccess();
- else
- return AssertionFailure() << n << " is odd";
- }
- // A predicate-formatter functor that asserts the argument is an even
- // number.
- struct AssertIsEvenFunctor {
- AssertionResult operator()(const char* expr, int n) {
- return AssertIsEven(expr, n);
- }
- };
- // Returns true iff the sum of the arguments is an even number.
- bool SumIsEven2(int n1, int n2) {
- return IsEven(n1 + n2);
- }
- // A functor that returns true iff the sum of the arguments is an even
- // number.
- struct SumIsEven3Functor {
- bool operator()(int n1, int n2, int n3) {
- return IsEven(n1 + n2 + n3);
- }
- };
- // A predicate-formatter function that asserts the sum of the
- // arguments is an even number.
- AssertionResult AssertSumIsEven4(
- const char* e1, const char* e2, const char* e3, const char* e4,
- int n1, int n2, int n3, int n4) {
- const int sum = n1 + n2 + n3 + n4;
- if (IsEven(sum)) {
- return AssertionSuccess();
- }
- Message msg;
- msg << e1 << " + " << e2 << " + " << e3 << " + " << e4
- << " (" << n1 << " + " << n2 << " + " << n3 << " + " << n4
- << ") evaluates to " << sum << ", which is not even.";
- return AssertionFailure(msg);
- }
- // A predicate-formatter functor that asserts the sum of the arguments
- // is an even number.
- struct AssertSumIsEven5Functor {
- AssertionResult operator()(
- const char* e1, const char* e2, const char* e3, const char* e4,
- const char* e5, int n1, int n2, int n3, int n4, int n5) {
- const int sum = n1 + n2 + n3 + n4 + n5;
- if (IsEven(sum)) {
- return AssertionSuccess();
- }
- Message msg;
- msg << e1 << " + " << e2 << " + " << e3 << " + " << e4 << " + " << e5
- << " ("
- << n1 << " + " << n2 << " + " << n3 << " + " << n4 << " + " << n5
- << ") evaluates to " << sum << ", which is not even.";
- return AssertionFailure(msg);
- }
- };
- // Tests unary predicate assertions.
- // Tests unary predicate assertions that don't use a custom formatter.
- TEST(Pred1Test, WithoutFormat) {
- // Success cases.
- EXPECT_PRED1(IsEvenFunctor(), 2) << "This failure is UNEXPECTED!";
- ASSERT_PRED1(IsEven, 4);
- // Failure cases.
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED1(IsEven, 5) << "This failure is expected.";
- }, "This failure is expected.");
- EXPECT_FATAL_FAILURE(ASSERT_PRED1(IsEvenFunctor(), 5),
- "evaluates to false");
- }
- // Tests unary predicate assertions that use a custom formatter.
- TEST(Pred1Test, WithFormat) {
- // Success cases.
- EXPECT_PRED_FORMAT1(AssertIsEven, 2);
- ASSERT_PRED_FORMAT1(AssertIsEvenFunctor(), 4)
- << "This failure is UNEXPECTED!";
- // Failure cases.
- const int n = 5;
- EXPECT_NONFATAL_FAILURE(EXPECT_PRED_FORMAT1(AssertIsEvenFunctor(), n),
- "n evaluates to 5, which is not even.");
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_PRED_FORMAT1(AssertIsEven, 5) << "This failure is expected.";
- }, "This failure is expected.");
- }
- // Tests that unary predicate assertions evaluates their arguments
- // exactly once.
- TEST(Pred1Test, SingleEvaluationOnFailure) {
- // A success case.
- static int n = 0;
- EXPECT_PRED1(IsEven, n++);
- EXPECT_EQ(1, n) << "The argument is not evaluated exactly once.";
- // A failure case.
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_PRED_FORMAT1(AssertIsEvenFunctor(), n++)
- << "This failure is expected.";
- }, "This failure is expected.");
- EXPECT_EQ(2, n) << "The argument is not evaluated exactly once.";
- }
- // Tests predicate assertions whose arity is >= 2.
- // Tests predicate assertions that don't use a custom formatter.
- TEST(PredTest, WithoutFormat) {
- // Success cases.
- ASSERT_PRED2(SumIsEven2, 2, 4) << "This failure is UNEXPECTED!";
- EXPECT_PRED3(SumIsEven3Functor(), 4, 6, 8);
- // Failure cases.
- const int n1 = 1;
- const int n2 = 2;
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED2(SumIsEven2, n1, n2) << "This failure is expected.";
- }, "This failure is expected.");
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_PRED3(SumIsEven3Functor(), 1, 2, 4);
- }, "evaluates to false");
- }
- // Tests predicate assertions that use a custom formatter.
- TEST(PredTest, WithFormat) {
- // Success cases.
- ASSERT_PRED_FORMAT4(AssertSumIsEven4, 4, 6, 8, 10) <<
- "This failure is UNEXPECTED!";
- EXPECT_PRED_FORMAT5(AssertSumIsEven5Functor(), 2, 4, 6, 8, 10);
- // Failure cases.
- const int n1 = 1;
- const int n2 = 2;
- const int n3 = 4;
- const int n4 = 6;
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED_FORMAT4(AssertSumIsEven4, n1, n2, n3, n4);
- }, "evaluates to 13, which is not even.");
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_PRED_FORMAT5(AssertSumIsEven5Functor(), 1, 2, 4, 6, 8)
- << "This failure is expected.";
- }, "This failure is expected.");
- }
- // Tests that predicate assertions evaluates their arguments
- // exactly once.
- TEST(PredTest, SingleEvaluationOnFailure) {
- // A success case.
- int n1 = 0;
- int n2 = 0;
- EXPECT_PRED2(SumIsEven2, n1++, n2++);
- EXPECT_EQ(1, n1) << "Argument 1 is not evaluated exactly once.";
- EXPECT_EQ(1, n2) << "Argument 2 is not evaluated exactly once.";
- // Another success case.
- n1 = n2 = 0;
- int n3 = 0;
- int n4 = 0;
- int n5 = 0;
- ASSERT_PRED_FORMAT5(AssertSumIsEven5Functor(),
- n1++, n2++, n3++, n4++, n5++)
- << "This failure is UNEXPECTED!";
- EXPECT_EQ(1, n1) << "Argument 1 is not evaluated exactly once.";
- EXPECT_EQ(1, n2) << "Argument 2 is not evaluated exactly once.";
- EXPECT_EQ(1, n3) << "Argument 3 is not evaluated exactly once.";
- EXPECT_EQ(1, n4) << "Argument 4 is not evaluated exactly once.";
- EXPECT_EQ(1, n5) << "Argument 5 is not evaluated exactly once.";
- // A failure case.
- n1 = n2 = n3 = 0;
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED3(SumIsEven3Functor(), ++n1, n2++, n3++)
- << "This failure is expected.";
- }, "This failure is expected.");
- EXPECT_EQ(1, n1) << "Argument 1 is not evaluated exactly once.";
- EXPECT_EQ(1, n2) << "Argument 2 is not evaluated exactly once.";
- EXPECT_EQ(1, n3) << "Argument 3 is not evaluated exactly once.";
- // Another failure case.
- n1 = n2 = n3 = n4 = 0;
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED_FORMAT4(AssertSumIsEven4, ++n1, n2++, n3++, n4++);
- }, "evaluates to 1, which is not even.");
- EXPECT_EQ(1, n1) << "Argument 1 is not evaluated exactly once.";
- EXPECT_EQ(1, n2) << "Argument 2 is not evaluated exactly once.";
- EXPECT_EQ(1, n3) << "Argument 3 is not evaluated exactly once.";
- EXPECT_EQ(1, n4) << "Argument 4 is not evaluated exactly once.";
- }
- // Some helper functions for testing using overloaded/template
- // functions with ASSERT_PREDn and EXPECT_PREDn.
- bool IsPositive(double x) {
- return x > 0;
- }
- template <typename T>
- bool IsNegative(T x) {
- return x < 0;
- }
- template <typename T1, typename T2>
- bool GreaterThan(T1 x1, T2 x2) {
- return x1 > x2;
- }
- // Tests that overloaded functions can be used in *_PRED* as long as
- // their types are explicitly specified.
- TEST(PredicateAssertionTest, AcceptsOverloadedFunction) {
- // C++Builder requires C-style casts rather than static_cast.
- EXPECT_PRED1((bool (*)(int))(IsPositive), 5); // NOLINT
- ASSERT_PRED1((bool (*)(double))(IsPositive), 6.0); // NOLINT
- }
- // Tests that template functions can be used in *_PRED* as long as
- // their types are explicitly specified.
- TEST(PredicateAssertionTest, AcceptsTemplateFunction) {
- EXPECT_PRED1(IsNegative<int>, -5);
- // Makes sure that we can handle templates with more than one
- // parameter.
- ASSERT_PRED2((GreaterThan<int, int>), 5, 0);
- }
- // Some helper functions for testing using overloaded/template
- // functions with ASSERT_PRED_FORMATn and EXPECT_PRED_FORMATn.
- AssertionResult IsPositiveFormat(const char* /* expr */, int n) {
- return n > 0 ? AssertionSuccess() :
- AssertionFailure(Message() << "Failure");
- }
- AssertionResult IsPositiveFormat(const char* /* expr */, double x) {
- return x > 0 ? AssertionSuccess() :
- AssertionFailure(Message() << "Failure");
- }
- template <typename T>
- AssertionResult IsNegativeFormat(const char* /* expr */, T x) {
- return x < 0 ? AssertionSuccess() :
- AssertionFailure(Message() << "Failure");
- }
- template <typename T1, typename T2>
- AssertionResult EqualsFormat(const char* /* expr1 */, const char* /* expr2 */,
- const T1& x1, const T2& x2) {
- return x1 == x2 ? AssertionSuccess() :
- AssertionFailure(Message() << "Failure");
- }
- // Tests that overloaded functions can be used in *_PRED_FORMAT*
- // without explicitly specifying their types.
- TEST(PredicateFormatAssertionTest, AcceptsOverloadedFunction) {
- EXPECT_PRED_FORMAT1(IsPositiveFormat, 5);
- ASSERT_PRED_FORMAT1(IsPositiveFormat, 6.0);
- }
- // Tests that template functions can be used in *_PRED_FORMAT* without
- // explicitly specifying their types.
- TEST(PredicateFormatAssertionTest, AcceptsTemplateFunction) {
- EXPECT_PRED_FORMAT1(IsNegativeFormat, -5);
- ASSERT_PRED_FORMAT2(EqualsFormat, 3, 3);
- }
- // Tests string assertions.
- // Tests ASSERT_STREQ with non-NULL arguments.
- TEST(StringAssertionTest, ASSERT_STREQ) {
- const char * const p1 = "good";
- ASSERT_STREQ(p1, p1);
- // Let p2 have the same content as p1, but be at a different address.
- const char p2[] = "good";
- ASSERT_STREQ(p1, p2);
- EXPECT_FATAL_FAILURE(ASSERT_STREQ("bad", "good"),
- "Expected: \"bad\"");
- }
- // Tests ASSERT_STREQ with NULL arguments.
- TEST(StringAssertionTest, ASSERT_STREQ_Null) {
- ASSERT_STREQ(static_cast<const char *>(NULL), NULL);
- EXPECT_FATAL_FAILURE(ASSERT_STREQ(NULL, "non-null"),
- "non-null");
- }
- // Tests ASSERT_STREQ with NULL arguments.
- TEST(StringAssertionTest, ASSERT_STREQ_Null2) {
- EXPECT_FATAL_FAILURE(ASSERT_STREQ("non-null", NULL),
- "non-null");
- }
- // Tests ASSERT_STRNE.
- TEST(StringAssertionTest, ASSERT_STRNE) {
- ASSERT_STRNE("hi", "Hi");
- ASSERT_STRNE("Hi", NULL);
- ASSERT_STRNE(NULL, "Hi");
- ASSERT_STRNE("", NULL);
- ASSERT_STRNE(NULL, "");
- ASSERT_STRNE("", "Hi");
- ASSERT_STRNE("Hi", "");
- EXPECT_FATAL_FAILURE(ASSERT_STRNE("Hi", "Hi"),
- "\"Hi\" vs \"Hi\"");
- }
- // Tests ASSERT_STRCASEEQ.
- TEST(StringAssertionTest, ASSERT_STRCASEEQ) {
- ASSERT_STRCASEEQ("hi", "Hi");
- ASSERT_STRCASEEQ(static_cast<const char *>(NULL), NULL);
- ASSERT_STRCASEEQ("", "");
- EXPECT_FATAL_FAILURE(ASSERT_STRCASEEQ("Hi", "hi2"),
- "Ignoring case");
- }
- // Tests ASSERT_STRCASENE.
- TEST(StringAssertionTest, ASSERT_STRCASENE) {
- ASSERT_STRCASENE("hi1", "Hi2");
- ASSERT_STRCASENE("Hi", NULL);
- ASSERT_STRCASENE(NULL, "Hi");
- ASSERT_STRCASENE("", NULL);
- ASSERT_STRCASENE(NULL, "");
- ASSERT_STRCASENE("", "Hi");
- ASSERT_STRCASENE("Hi", "");
- EXPECT_FATAL_FAILURE(ASSERT_STRCASENE("Hi", "hi"),
- "(ignoring case)");
- }
- // Tests *_STREQ on wide strings.
- TEST(StringAssertionTest, STREQ_Wide) {
- // NULL strings.
- ASSERT_STREQ(static_cast<const wchar_t *>(NULL), NULL);
- // Empty strings.
- ASSERT_STREQ(L"", L"");
- // Non-null vs NULL.
- EXPECT_NONFATAL_FAILURE(EXPECT_STREQ(L"non-null", NULL),
- "non-null");
- // Equal strings.
- EXPECT_STREQ(L"Hi", L"Hi");
- // Unequal strings.
- EXPECT_NONFATAL_FAILURE(EXPECT_STREQ(L"abc", L"Abc"),
- "Abc");
- // Strings containing wide characters.
- EXPECT_NONFATAL_FAILURE(EXPECT_STREQ(L"abc\x8119", L"abc\x8120"),
- "abc");
- // The streaming variation.
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_STREQ(L"abc\x8119", L"abc\x8121") << "Expected failure";
- }, "Expected failure");
- }
- // Tests *_STRNE on wide strings.
- TEST(StringAssertionTest, STRNE_Wide) {
- // NULL strings.
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_STRNE(static_cast<const wchar_t *>(NULL), NULL);
- }, "");
- // Empty strings.
- EXPECT_NONFATAL_FAILURE(EXPECT_STRNE(L"", L""),
- "L\"\"");
- // Non-null vs NULL.
- ASSERT_STRNE(L"non-null", NULL);
- // Equal strings.
- EXPECT_NONFATAL_FAILURE(EXPECT_STRNE(L"Hi", L"Hi"),
- "L\"Hi\"");
- // Unequal strings.
- EXPECT_STRNE(L"abc", L"Abc");
- // Strings containing wide characters.
- EXPECT_NONFATAL_FAILURE(EXPECT_STRNE(L"abc\x8119", L"abc\x8119"),
- "abc");
- // The streaming variation.
- ASSERT_STRNE(L"abc\x8119", L"abc\x8120") << "This shouldn't happen";
- }
- // Tests for ::testing::IsSubstring().
- // Tests that IsSubstring() returns the correct result when the input
- // argument type is const char*.
- TEST(IsSubstringTest, ReturnsCorrectResultForCString) {
- EXPECT_FALSE(IsSubstring("", "", NULL, "a"));
- EXPECT_FALSE(IsSubstring("", "", "b", NULL));
- EXPECT_FALSE(IsSubstring("", "", "needle", "haystack"));
- EXPECT_TRUE(IsSubstring("", "", static_cast<const char*>(NULL), NULL));
- EXPECT_TRUE(IsSubstring("", "", "needle", "two needles"));
- }
- // Tests that IsSubstring() returns the correct result when the input
- // argument type is const wchar_t*.
- TEST(IsSubstringTest, ReturnsCorrectResultForWideCString) {
- EXPECT_FALSE(IsSubstring("", "", kNull, L"a"));
- EXPECT_FALSE(IsSubstring("", "", L"b", kNull));
- EXPECT_FALSE(IsSubstring("", "", L"needle", L"haystack"));
- EXPECT_TRUE(IsSubstring("", "", static_cast<const wchar_t*>(NULL), NULL));
- EXPECT_TRUE(IsSubstring("", "", L"needle", L"two needles"));
- }
- // Tests that IsSubstring() generates the correct message when the input
- // argument type is const char*.
- TEST(IsSubstringTest, GeneratesCorrectMessageForCString) {
- EXPECT_STREQ("Value of: needle_expr\n"
- " Actual: \"needle\"\n"
- "Expected: a substring of haystack_expr\n"
- "Which is: \"haystack\"",
- IsSubstring("needle_expr", "haystack_expr",
- "needle", "haystack").failure_message());
- }
- // Tests that IsSubstring returns the correct result when the input
- // argument type is ::std::string.
- TEST(IsSubstringTest, ReturnsCorrectResultsForStdString) {
- EXPECT_TRUE(IsSubstring("", "", std::string("hello"), "ahellob"));
- EXPECT_FALSE(IsSubstring("", "", "hello", std::string("world")));
- }
- #if GTEST_HAS_STD_WSTRING
- // Tests that IsSubstring returns the correct result when the input
- // argument type is ::std::wstring.
- TEST(IsSubstringTest, ReturnsCorrectResultForStdWstring) {
- EXPECT_TRUE(IsSubstring("", "", ::std::wstring(L"needle"), L"two needles"));
- EXPECT_FALSE(IsSubstring("", "", L"needle", ::std::wstring(L"haystack")));
- }
- // Tests that IsSubstring() generates the correct message when the input
- // argument type is ::std::wstring.
- TEST(IsSubstringTest, GeneratesCorrectMessageForWstring) {
- EXPECT_STREQ("Value of: needle_expr\n"
- " Actual: L\"needle\"\n"
- "Expected: a substring of haystack_expr\n"
- "Which is: L\"haystack\"",
- IsSubstring(
- "needle_expr", "haystack_expr",
- ::std::wstring(L"needle"), L"haystack").failure_message());
- }
- #endif // GTEST_HAS_STD_WSTRING
- // Tests for ::testing::IsNotSubstring().
- // Tests that IsNotSubstring() returns the correct result when the input
- // argument type is const char*.
- TEST(IsNotSubstringTest, ReturnsCorrectResultForCString) {
- EXPECT_TRUE(IsNotSubstring("", "", "needle", "haystack"));
- EXPECT_FALSE(IsNotSubstring("", "", "needle", "two needles"));
- }
- // Tests that IsNotSubstring() returns the correct result when the input
- // argument type is const wchar_t*.
- TEST(IsNotSubstringTest, ReturnsCorrectResultForWideCString) {
- EXPECT_TRUE(IsNotSubstring("", "", L"needle", L"haystack"));
- EXPECT_FALSE(IsNotSubstring("", "", L"needle", L"two needles"));
- }
- // Tests that IsNotSubstring() generates the correct message when the input
- // argument type is const wchar_t*.
- TEST(IsNotSubstringTest, GeneratesCorrectMessageForWideCString) {
- EXPECT_STREQ("Value of: needle_expr\n"
- " Actual: L\"needle\"\n"
- "Expected: not a substring of haystack_expr\n"
- "Which is: L\"two needles\"",
- IsNotSubstring(
- "needle_expr", "haystack_expr",
- L"needle", L"two needles").failure_message());
- }
- // Tests that IsNotSubstring returns the correct result when the input
- // argument type is ::std::string.
- TEST(IsNotSubstringTest, ReturnsCorrectResultsForStdString) {
- EXPECT_FALSE(IsNotSubstring("", "", std::string("hello"), "ahellob"));
- EXPECT_TRUE(IsNotSubstring("", "", "hello", std::string("world")));
- }
- // Tests that IsNotSubstring() generates the correct message when the input
- // argument type is ::std::string.
- TEST(IsNotSubstringTest, GeneratesCorrectMessageForStdString) {
- EXPECT_STREQ("Value of: needle_expr\n"
- " Actual: \"needle\"\n"
- "Expected: not a substring of haystack_expr\n"
- "Which is: \"two needles\"",
- IsNotSubstring(
- "needle_expr", "haystack_expr",
- ::std::string("needle"), "two needles").failure_message());
- }
- #if GTEST_HAS_STD_WSTRING
- // Tests that IsNotSubstring returns the correct result when the input
- // argument type is ::std::wstring.
- TEST(IsNotSubstringTest, ReturnsCorrectResultForStdWstring) {
- EXPECT_FALSE(
- IsNotSubstring("", "", ::std::wstring(L"needle"), L"two needles"));
- EXPECT_TRUE(IsNotSubstring("", "", L"needle", ::std::wstring(L"haystack")));
- }
- #endif // GTEST_HAS_STD_WSTRING
- // Tests floating-point assertions.
- template <typename RawType>
- class FloatingPointTest : public Test {
- protected:
- // Pre-calculated numbers to be used by the tests.
- struct TestValues {
- RawType close_to_positive_zero;
- RawType close_to_negative_zero;
- RawType further_from_negative_zero;
- RawType close_to_one;
- RawType further_from_one;
- RawType infinity;
- RawType close_to_infinity;
- RawType further_from_infinity;
- RawType nan1;
- RawType nan2;
- };
- typedef typename testing::internal::FloatingPoint<RawType> Floating;
- typedef typename Floating::Bits Bits;
- virtual void SetUp() {
- const size_t max_ulps = Floating::kMaxUlps;
- // The bits that represent 0.0.
- const Bits zero_bits = Floating(0).bits();
- // Makes some numbers close to 0.0.
- values_.close_to_positive_zero = Floating::ReinterpretBits(
- zero_bits + max_ulps/2);
- values_.close_to_negative_zero = -Floating::ReinterpretBits(
- zero_bits + max_ulps - max_ulps/2);
- values_.further_from_negative_zero = -Floating::ReinterpretBits(
- zero_bits + max_ulps + 1 - max_ulps/2);
- // The bits that represent 1.0.
- const Bits one_bits = Floating(1).bits();
- // Makes some numbers close to 1.0.
- values_.close_to_one = Floating::ReinterpretBits(one_bits + max_ulps);
- values_.further_from_one = Floating::ReinterpretBits(
- one_bits + max_ulps + 1);
- // +infinity.
- values_.infinity = Floating::Infinity();
- // The bits that represent +infinity.
- const Bits infinity_bits = Floating(values_.infinity).bits();
- // Makes some numbers close to infinity.
- values_.close_to_infinity = Floating::ReinterpretBits(
- infinity_bits - max_ulps);
- values_.further_from_infinity = Floating::ReinterpretBits(
- infinity_bits - max_ulps - 1);
- // Makes some NAN's. Sets the most significant bit of the fraction so that
- // our NaN's are quiet; trying to process a signaling NaN would raise an
- // exception if our environment enables floating point exceptions.
- values_.nan1 = Floating::ReinterpretBits(Floating::kExponentBitMask
- | (static_cast<Bits>(1) << (Floating::kFractionBitCount - 1)) | 1);
- values_.nan2 = Floating::ReinterpretBits(Floating::kExponentBitMask
- | (static_cast<Bits>(1) << (Floating::kFractionBitCount - 1)) | 200);
- }
- void TestSize() {
- EXPECT_EQ(sizeof(RawType), sizeof(Bits));
- }
- static TestValues values_;
- };
- template <typename RawType>
- typename FloatingPointTest<RawType>::TestValues
- FloatingPointTest<RawType>::values_;
- // Instantiates FloatingPointTest for testing *_FLOAT_EQ.
- typedef FloatingPointTest<float> FloatTest;
- // Tests that the size of Float::Bits matches the size of float.
- TEST_F(FloatTest, Size) {
- TestSize();
- }
- // Tests comparing with +0 and -0.
- TEST_F(FloatTest, Zeros) {
- EXPECT_FLOAT_EQ(0.0, -0.0);
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(-0.0, 1.0),
- "1.0");
- EXPECT_FATAL_FAILURE(ASSERT_FLOAT_EQ(0.0, 1.5),
- "1.5");
- }
- // Tests comparing numbers close to 0.
- //
- // This ensures that *_FLOAT_EQ handles the sign correctly and no
- // overflow occurs when comparing numbers whose absolute value is very
- // small.
- TEST_F(FloatTest, AlmostZeros) {
- // In C++Builder, names within local classes (such as used by
- // EXPECT_FATAL_FAILURE) cannot be resolved against static members of the
- // scoping class. Use a static local alias as a workaround.
- // We use the assignment syntax since some compilers, like Sun Studio,
- // don't allow initializing references using construction syntax
- // (parentheses).
- static const FloatTest::TestValues& v = this->values_;
- EXPECT_FLOAT_EQ(0.0, v.close_to_positive_zero);
- EXPECT_FLOAT_EQ(-0.0, v.close_to_negative_zero);
- EXPECT_FLOAT_EQ(v.close_to_positive_zero, v.close_to_negative_zero);
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_FLOAT_EQ(v.close_to_positive_zero,
- v.further_from_negative_zero);
- }, "v.further_from_negative_zero");
- }
- // Tests comparing numbers close to each other.
- TEST_F(FloatTest, SmallDiff) {
- EXPECT_FLOAT_EQ(1.0, values_.close_to_one);
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(1.0, values_.further_from_one),
- "values_.further_from_one");
- }
- // Tests comparing numbers far apart.
- TEST_F(FloatTest, LargeDiff) {
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(2.5, 3.0),
- "3.0");
- }
- // Tests comparing with infinity.
- //
- // This ensures that no overflow occurs when comparing numbers whose
- // absolute value is very large.
- TEST_F(FloatTest, Infinity) {
- EXPECT_FLOAT_EQ(values_.infinity, values_.close_to_infinity);
- EXPECT_FLOAT_EQ(-values_.infinity, -values_.close_to_infinity);
- #if !GTEST_OS_SYMBIAN
- // Nokia's STLport crashes if we try to output infinity or NaN.
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(values_.infinity, -values_.infinity),
- "-values_.infinity");
- // This is interesting as the representations of infinity and nan1
- // are only 1 DLP apart.
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(values_.infinity, values_.nan1),
- "values_.nan1");
- #endif // !GTEST_OS_SYMBIAN
- }
- // Tests that comparing with NAN always returns false.
- TEST_F(FloatTest, NaN) {
- #if !GTEST_OS_SYMBIAN
- // Nokia's STLport crashes if we try to output infinity or NaN.
- // In C++Builder, names within local classes (such as used by
- // EXPECT_FATAL_FAILURE) cannot be resolved against static members of the
- // scoping class. Use a static local alias as a workaround.
- // We use the assignment syntax since some compilers, like Sun Studio,
- // don't allow initializing references using construction syntax
- // (parentheses).
- static const FloatTest::TestValues& v = this->values_;
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(v.nan1, v.nan1),
- "v.nan1");
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(v.nan1, v.nan2),
- "v.nan2");
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(1.0, v.nan1),
- "v.nan1");
- EXPECT_FATAL_FAILURE(ASSERT_FLOAT_EQ(v.nan1, v.infinity),
- "v.infinity");
- #endif // !GTEST_OS_SYMBIAN
- }
- // Tests that *_FLOAT_EQ are reflexive.
- TEST_F(FloatTest, Reflexive) {
- EXPECT_FLOAT_EQ(0.0, 0.0);
- EXPECT_FLOAT_EQ(1.0, 1.0);
- ASSERT_FLOAT_EQ(values_.infinity, values_.infinity);
- }
- // Tests that *_FLOAT_EQ are commutative.
- TEST_F(FloatTest, Commutative) {
- // We already tested EXPECT_FLOAT_EQ(1.0, values_.close_to_one).
- EXPECT_FLOAT_EQ(values_.close_to_one, 1.0);
- // We already tested EXPECT_FLOAT_EQ(1.0, values_.further_from_one).
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(values_.further_from_one, 1.0),
- "1.0");
- }
- // Tests EXPECT_NEAR.
- TEST_F(FloatTest, EXPECT_NEAR) {
- EXPECT_NEAR(-1.0f, -1.1f, 0.2f);
- EXPECT_NEAR(2.0f, 3.0f, 1.0f);
- EXPECT_NONFATAL_FAILURE(EXPECT_NEAR(1.0f,1.5f, 0.25f), // NOLINT
- "The difference between 1.0f and 1.5f is 0.5, "
- "which exceeds 0.25f");
- // To work around a bug in gcc 2.95.0, there is intentionally no
- // space after the first comma in the previous line.
- }
- // Tests ASSERT_NEAR.
- TEST_F(FloatTest, ASSERT_NEAR) {
- ASSERT_NEAR(-1.0f, -1.1f, 0.2f);
- ASSERT_NEAR(2.0f, 3.0f, 1.0f);
- EXPECT_FATAL_FAILURE(ASSERT_NEAR(1.0f,1.5f, 0.25f), // NOLINT
- "The difference between 1.0f and 1.5f is 0.5, "
- "which exceeds 0.25f");
- // To work around a bug in gcc 2.95.0, there is intentionally no
- // space after the first comma in the previous line.
- }
- // Tests the cases where FloatLE() should succeed.
- TEST_F(FloatTest, FloatLESucceeds) {
- EXPECT_PRED_FORMAT2(FloatLE, 1.0f, 2.0f); // When val1 < val2,
- ASSERT_PRED_FORMAT2(FloatLE, 1.0f, 1.0f); // val1 == val2,
- // or when val1 is greater than, but almost equals to, val2.
- EXPECT_PRED_FORMAT2(FloatLE, values_.close_to_positive_zero, 0.0f);
- }
- // Tests the cases where FloatLE() should fail.
- TEST_F(FloatTest, FloatLEFails) {
- // When val1 is greater than val2 by a large margin,
- EXPECT_NONFATAL_FAILURE(EXPECT_PRED_FORMAT2(FloatLE, 2.0f, 1.0f),
- "(2.0f) <= (1.0f)");
- // or by a small yet non-negligible margin,
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED_FORMAT2(FloatLE, values_.further_from_one, 1.0f);
- }, "(values_.further_from_one) <= (1.0f)");
- #if !GTEST_OS_SYMBIAN && !defined(__BORLANDC__)
- // Nokia's STLport crashes if we try to output infinity or NaN.
- // C++Builder gives bad results for ordered comparisons involving NaNs
- // due to compiler bugs.
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED_FORMAT2(FloatLE, values_.nan1, values_.infinity);
- }, "(values_.nan1) <= (values_.infinity)");
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED_FORMAT2(FloatLE, -values_.infinity, values_.nan1);
- }, "(-values_.infinity) <= (values_.nan1)");
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_PRED_FORMAT2(FloatLE, values_.nan1, values_.nan1);
- }, "(values_.nan1) <= (values_.nan1)");
- #endif // !GTEST_OS_SYMBIAN && !defined(__BORLANDC__)
- }
- // Instantiates FloatingPointTest for testing *_DOUBLE_EQ.
- typedef FloatingPointTest<double> DoubleTest;
- // Tests that the size of Double::Bits matches the size of double.
- TEST_F(DoubleTest, Size) {
- TestSize();
- }
- // Tests comparing with +0 and -0.
- TEST_F(DoubleTest, Zeros) {
- EXPECT_DOUBLE_EQ(0.0, -0.0);
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(-0.0, 1.0),
- "1.0");
- EXPECT_FATAL_FAILURE(ASSERT_DOUBLE_EQ(0.0, 1.0),
- "1.0");
- }
- // Tests comparing numbers close to 0.
- //
- // This ensures that *_DOUBLE_EQ handles the sign correctly and no
- // overflow occurs when comparing numbers whose absolute value is very
- // small.
- TEST_F(DoubleTest, AlmostZeros) {
- // In C++Builder, names within local classes (such as used by
- // EXPECT_FATAL_FAILURE) cannot be resolved against static members of the
- // scoping class. Use a static local alias as a workaround.
- // We use the assignment syntax since some compilers, like Sun Studio,
- // don't allow initializing references using construction syntax
- // (parentheses).
- static const DoubleTest::TestValues& v = this->values_;
- EXPECT_DOUBLE_EQ(0.0, v.close_to_positive_zero);
- EXPECT_DOUBLE_EQ(-0.0, v.close_to_negative_zero);
- EXPECT_DOUBLE_EQ(v.close_to_positive_zero, v.close_to_negative_zero);
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_DOUBLE_EQ(v.close_to_positive_zero,
- v.further_from_negative_zero);
- }, "v.further_from_negative_zero");
- }
- // Tests comparing numbers close to each other.
- TEST_F(DoubleTest, SmallDiff) {
- EXPECT_DOUBLE_EQ(1.0, values_.close_to_one);
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(1.0, values_.further_from_one),
- "values_.further_from_one");
- }
- // Tests comparing numbers far apart.
- TEST_F(DoubleTest, LargeDiff) {
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(2.0, 3.0),
- "3.0");
- }
- // Tests comparing with infinity.
- //
- // This ensures that no overflow occurs when comparing numbers whose
- // absolute value is very large.
- TEST_F(DoubleTest, Infinity) {
- EXPECT_DOUBLE_EQ(values_.infinity, values_.close_to_infinity);
- EXPECT_DOUBLE_EQ(-values_.infinity, -values_.close_to_infinity);
- #if !GTEST_OS_SYMBIAN
- // Nokia's STLport crashes if we try to output infinity or NaN.
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(values_.infinity, -values_.infinity),
- "-values_.infinity");
- // This is interesting as the representations of infinity_ and nan1_
- // are only 1 DLP apart.
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(values_.infinity, values_.nan1),
- "values_.nan1");
- #endif // !GTEST_OS_SYMBIAN
- }
- // Tests that comparing with NAN always returns false.
- TEST_F(DoubleTest, NaN) {
- #if !GTEST_OS_SYMBIAN
- // In C++Builder, names within local classes (such as used by
- // EXPECT_FATAL_FAILURE) cannot be resolved against static members of the
- // scoping class. Use a static local alias as a workaround.
- // We use the assignment syntax since some compilers, like Sun Studio,
- // don't allow initializing references using construction syntax
- // (parentheses).
- static const DoubleTest::TestValues& v = this->values_;
- // Nokia's STLport crashes if we try to output infinity or NaN.
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(v.nan1, v.nan1),
- "v.nan1");
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(v.nan1, v.nan2), "v.nan2");
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(1.0, v.nan1), "v.nan1");
- EXPECT_FATAL_FAILURE(ASSERT_DOUBLE_EQ(v.nan1, v.infinity),
- "v.infinity");
- #endif // !GTEST_OS_SYMBIAN
- }
- // Tests that *_DOUBLE_EQ are reflexive.
- TEST_F(DoubleTest, Reflexive) {
- EXPECT_DOUBLE_EQ(0.0, 0.0);
- EXPECT_DOUBLE_EQ(1.0, 1.0);
- #if !GTEST_OS_SYMBIAN
- // Nokia's STLport crashes if we try to output infinity or NaN.
- ASSERT_DOUBLE_EQ(values_.infinity, values_.infinity);
- #endif // !GTEST_OS_SYMBIAN
- }
- // Tests that *_DOUBLE_EQ are commutative.
- TEST_F(DoubleTest, Commutative) {
- // We already tested EXPECT_DOUBLE_EQ(1.0, values_.close_to_one).
- EXPECT_DOUBLE_EQ(values_.close_to_one, 1.0);
- // We already tested EXPECT_DOUBLE_EQ(1.0, values_.further_from_one).
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(values_.further_from_one, 1.0),
- "1.0");
- }
- // Tests EXPECT_NEAR.
- TEST_F(DoubleTest, EXPECT_NEAR) {
- EXPECT_NEAR(-1.0, -1.1, 0.2);
- EXPECT_NEAR(2.0, 3.0, 1.0);
- EXPECT_NONFATAL_FAILURE(EXPECT_NEAR(1.0, 1.5, 0.25), // NOLINT
- "The difference between 1.0 and 1.5 is 0.5, "
- "which exceeds 0.25");
- // To work around a bug in gcc 2.95.0, there is intentionally no
- // space after the first comma in the previous statement.
- }
- // Tests ASSERT_NEAR.
- TEST_F(DoubleTest, ASSERT_NEAR) {
- ASSERT_NEAR(-1.0, -1.1, 0.2);
- ASSERT_NEAR(2.0, 3.0, 1.0);
- EXPECT_FATAL_FAILURE(ASSERT_NEAR(1.0, 1.5, 0.25), // NOLINT
- "The difference between 1.0 and 1.5 is 0.5, "
- "which exceeds 0.25");
- // To work around a bug in gcc 2.95.0, there is intentionally no
- // space after the first comma in the previous statement.
- }
- // Tests the cases where DoubleLE() should succeed.
- TEST_F(DoubleTest, DoubleLESucceeds) {
- EXPECT_PRED_FORMAT2(DoubleLE, 1.0, 2.0); // When val1 < val2,
- ASSERT_PRED_FORMAT2(DoubleLE, 1.0, 1.0); // val1 == val2,
- // or when val1 is greater than, but almost equals to, val2.
- EXPECT_PRED_FORMAT2(DoubleLE, values_.close_to_positive_zero, 0.0);
- }
- // Tests the cases where DoubleLE() should fail.
- TEST_F(DoubleTest, DoubleLEFails) {
- // When val1 is greater than val2 by a large margin,
- EXPECT_NONFATAL_FAILURE(EXPECT_PRED_FORMAT2(DoubleLE, 2.0, 1.0),
- "(2.0) <= (1.0)");
- // or by a small yet non-negligible margin,
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED_FORMAT2(DoubleLE, values_.further_from_one, 1.0);
- }, "(values_.further_from_one) <= (1.0)");
- #if !GTEST_OS_SYMBIAN && !defined(__BORLANDC__)
- // Nokia's STLport crashes if we try to output infinity or NaN.
- // C++Builder gives bad results for ordered comparisons involving NaNs
- // due to compiler bugs.
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED_FORMAT2(DoubleLE, values_.nan1, values_.infinity);
- }, "(values_.nan1) <= (values_.infinity)");
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_PRED_FORMAT2(DoubleLE, -values_.infinity, values_.nan1);
- }, " (-values_.infinity) <= (values_.nan1)");
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_PRED_FORMAT2(DoubleLE, values_.nan1, values_.nan1);
- }, "(values_.nan1) <= (values_.nan1)");
- #endif // !GTEST_OS_SYMBIAN && !defined(__BORLANDC__)
- }
- // Verifies that a test or test case whose name starts with DISABLED_ is
- // not run.
- // A test whose name starts with DISABLED_.
- // Should not run.
- TEST(DisabledTest, DISABLED_TestShouldNotRun) {
- FAIL() << "Unexpected failure: Disabled test should not be run.";
- }
- // A test whose name does not start with DISABLED_.
- // Should run.
- TEST(DisabledTest, NotDISABLED_TestShouldRun) {
- EXPECT_EQ(1, 1);
- }
- // A test case whose name starts with DISABLED_.
- // Should not run.
- TEST(DISABLED_TestCase, TestShouldNotRun) {
- FAIL() << "Unexpected failure: Test in disabled test case should not be run.";
- }
- // A test case and test whose names start with DISABLED_.
- // Should not run.
- TEST(DISABLED_TestCase, DISABLED_TestShouldNotRun) {
- FAIL() << "Unexpected failure: Test in disabled test case should not be run.";
- }
- // Check that when all tests in a test case are disabled, SetupTestCase() and
- // TearDownTestCase() are not called.
- class DisabledTestsTest : public Test {
- protected:
- static void SetUpTestCase() {
- FAIL() << "Unexpected failure: All tests disabled in test case. "
- "SetupTestCase() should not be called.";
- }
- static void TearDownTestCase() {
- FAIL() << "Unexpected failure: All tests disabled in test case. "
- "TearDownTestCase() should not be called.";
- }
- };
- TEST_F(DisabledTestsTest, DISABLED_TestShouldNotRun_1) {
- FAIL() << "Unexpected failure: Disabled test should not be run.";
- }
- TEST_F(DisabledTestsTest, DISABLED_TestShouldNotRun_2) {
- FAIL() << "Unexpected failure: Disabled test should not be run.";
- }
- // Tests that disabled typed tests aren't run.
- #if GTEST_HAS_TYPED_TEST
- template <typename T>
- class TypedTest : public Test {
- };
- typedef testing::Types<int, double> NumericTypes;
- TYPED_TEST_CASE(TypedTest, NumericTypes);
- TYPED_TEST(TypedTest, DISABLED_ShouldNotRun) {
- FAIL() << "Unexpected failure: Disabled typed test should not run.";
- }
- template <typename T>
- class DISABLED_TypedTest : public Test {
- };
- TYPED_TEST_CASE(DISABLED_TypedTest, NumericTypes);
- TYPED_TEST(DISABLED_TypedTest, ShouldNotRun) {
- FAIL() << "Unexpected failure: Disabled typed test should not run.";
- }
- #endif // GTEST_HAS_TYPED_TEST
- // Tests that disabled type-parameterized tests aren't run.
- #if GTEST_HAS_TYPED_TEST_P
- template <typename T>
- class TypedTestP : public Test {
- };
- TYPED_TEST_CASE_P(TypedTestP);
- TYPED_TEST_P(TypedTestP, DISABLED_ShouldNotRun) {
- FAIL() << "Unexpected failure: "
- << "Disabled type-parameterized test should not run.";
- }
- REGISTER_TYPED_TEST_CASE_P(TypedTestP, DISABLED_ShouldNotRun);
- INSTANTIATE_TYPED_TEST_CASE_P(My, TypedTestP, NumericTypes);
- template <typename T>
- class DISABLED_TypedTestP : public Test {
- };
- TYPED_TEST_CASE_P(DISABLED_TypedTestP);
- TYPED_TEST_P(DISABLED_TypedTestP, ShouldNotRun) {
- FAIL() << "Unexpected failure: "
- << "Disabled type-parameterized test should not run.";
- }
- REGISTER_TYPED_TEST_CASE_P(DISABLED_TypedTestP, ShouldNotRun);
- INSTANTIATE_TYPED_TEST_CASE_P(My, DISABLED_TypedTestP, NumericTypes);
- #endif // GTEST_HAS_TYPED_TEST_P
- // Tests that assertion macros evaluate their arguments exactly once.
- class SingleEvaluationTest : public Test {
- public: // Must be public and not protected due to a bug in g++ 3.4.2.
- // This helper function is needed by the FailedASSERT_STREQ test
- // below. It's public to work around C++Builder's bug with scoping local
- // classes.
- static void CompareAndIncrementCharPtrs() {
- ASSERT_STREQ(p1_++, p2_++);
- }
- // This helper function is needed by the FailedASSERT_NE test below. It's
- // public to work around C++Builder's bug with scoping local classes.
- static void CompareAndIncrementInts() {
- ASSERT_NE(a_++, b_++);
- }
- protected:
- SingleEvaluationTest() {
- p1_ = s1_;
- p2_ = s2_;
- a_ = 0;
- b_ = 0;
- }
- static const char* const s1_;
- static const char* const s2_;
- static const char* p1_;
- static const char* p2_;
- static int a_;
- static int b_;
- };
- const char* const SingleEvaluationTest::s1_ = "01234";
- const char* const SingleEvaluationTest::s2_ = "abcde";
- const char* SingleEvaluationTest::p1_;
- const char* SingleEvaluationTest::p2_;
- int SingleEvaluationTest::a_;
- int SingleEvaluationTest::b_;
- // Tests that when ASSERT_STREQ fails, it evaluates its arguments
- // exactly once.
- TEST_F(SingleEvaluationTest, FailedASSERT_STREQ) {
- EXPECT_FATAL_FAILURE(SingleEvaluationTest::CompareAndIncrementCharPtrs(),
- "p2_++");
- EXPECT_EQ(s1_ + 1, p1_);
- EXPECT_EQ(s2_ + 1, p2_);
- }
- // Tests that string assertion arguments are evaluated exactly once.
- TEST_F(SingleEvaluationTest, ASSERT_STR) {
- // successful EXPECT_STRNE
- EXPECT_STRNE(p1_++, p2_++);
- EXPECT_EQ(s1_ + 1, p1_);
- EXPECT_EQ(s2_ + 1, p2_);
- // failed EXPECT_STRCASEEQ
- EXPECT_NONFATAL_FAILURE(EXPECT_STRCASEEQ(p1_++, p2_++),
- "Ignoring case");
- EXPECT_EQ(s1_ + 2, p1_);
- EXPECT_EQ(s2_ + 2, p2_);
- }
- // Tests that when ASSERT_NE fails, it evaluates its arguments exactly
- // once.
- TEST_F(SingleEvaluationTest, FailedASSERT_NE) {
- EXPECT_FATAL_FAILURE(SingleEvaluationTest::CompareAndIncrementInts(),
- "(a_++) != (b_++)");
- EXPECT_EQ(1, a_);
- EXPECT_EQ(1, b_);
- }
- // Tests that assertion arguments are evaluated exactly once.
- TEST_F(SingleEvaluationTest, OtherCases) {
- // successful EXPECT_TRUE
- EXPECT_TRUE(0 == a_++); // NOLINT
- EXPECT_EQ(1, a_);
- // failed EXPECT_TRUE
- EXPECT_NONFATAL_FAILURE(EXPECT_TRUE(-1 == a_++), "-1 == a_++");
- EXPECT_EQ(2, a_);
- // successful EXPECT_GT
- EXPECT_GT(a_++, b_++);
- EXPECT_EQ(3, a_);
- EXPECT_EQ(1, b_);
- // failed EXPECT_LT
- EXPECT_NONFATAL_FAILURE(EXPECT_LT(a_++, b_++), "(a_++) < (b_++)");
- EXPECT_EQ(4, a_);
- EXPECT_EQ(2, b_);
- // successful ASSERT_TRUE
- ASSERT_TRUE(0 < a_++); // NOLINT
- EXPECT_EQ(5, a_);
- // successful ASSERT_GT
- ASSERT_GT(a_++, b_++);
- EXPECT_EQ(6, a_);
- EXPECT_EQ(3, b_);
- }
- #if GTEST_HAS_EXCEPTIONS
- void ThrowAnInteger() {
- throw 1;
- }
- // Tests that assertion arguments are evaluated exactly once.
- TEST_F(SingleEvaluationTest, ExceptionTests) {
- // successful EXPECT_THROW
- EXPECT_THROW({ // NOLINT
- a_++;
- ThrowAnInteger();
- }, int);
- EXPECT_EQ(1, a_);
- // failed EXPECT_THROW, throws different
- EXPECT_NONFATAL_FAILURE(EXPECT_THROW({ // NOLINT
- a_++;
- ThrowAnInteger();
- }, bool), "throws a different type");
- EXPECT_EQ(2, a_);
- // failed EXPECT_THROW, throws nothing
- EXPECT_NONFATAL_FAILURE(EXPECT_THROW(a_++, bool), "throws nothing");
- EXPECT_EQ(3, a_);
- // successful EXPECT_NO_THROW
- EXPECT_NO_THROW(a_++);
- EXPECT_EQ(4, a_);
- // failed EXPECT_NO_THROW
- EXPECT_NONFATAL_FAILURE(EXPECT_NO_THROW({ // NOLINT
- a_++;
- ThrowAnInteger();
- }), "it throws");
- EXPECT_EQ(5, a_);
- // successful EXPECT_ANY_THROW
- EXPECT_ANY_THROW({ // NOLINT
- a_++;
- ThrowAnInteger();
- });
- EXPECT_EQ(6, a_);
- // failed EXPECT_ANY_THROW
- EXPECT_NONFATAL_FAILURE(EXPECT_ANY_THROW(a_++), "it doesn't");
- EXPECT_EQ(7, a_);
- }
- #endif // GTEST_HAS_EXCEPTIONS
- // Tests {ASSERT|EXPECT}_NO_FATAL_FAILURE.
- class NoFatalFailureTest : public Test {
- protected:
- void Succeeds() {}
- void FailsNonFatal() {
- ADD_FAILURE() << "some non-fatal failure";
- }
- void Fails() {
- FAIL() << "some fatal failure";
- }
- void DoAssertNoFatalFailureOnFails() {
- ASSERT_NO_FATAL_FAILURE(Fails());
- ADD_FAILURE() << "shold not reach here.";
- }
- void DoExpectNoFatalFailureOnFails() {
- EXPECT_NO_FATAL_FAILURE(Fails());
- ADD_FAILURE() << "other failure";
- }
- };
- TEST_F(NoFatalFailureTest, NoFailure) {
- EXPECT_NO_FATAL_FAILURE(Succeeds());
- ASSERT_NO_FATAL_FAILURE(Succeeds());
- }
- TEST_F(NoFatalFailureTest, NonFatalIsNoFailure) {
- EXPECT_NONFATAL_FAILURE(
- EXPECT_NO_FATAL_FAILURE(FailsNonFatal()),
- "some non-fatal failure");
- EXPECT_NONFATAL_FAILURE(
- ASSERT_NO_FATAL_FAILURE(FailsNonFatal()),
- "some non-fatal failure");
- }
- TEST_F(NoFatalFailureTest, AssertNoFatalFailureOnFatalFailure) {
- TestPartResultArray gtest_failures;
- {
- ScopedFakeTestPartResultReporter gtest_reporter(>est_failures);
- DoAssertNoFatalFailureOnFails();
- }
- ASSERT_EQ(2, gtest_failures.size());
- EXPECT_EQ(TestPartResult::kFatalFailure,
- gtest_failures.GetTestPartResult(0).type());
- EXPECT_EQ(TestPartResult::kFatalFailure,
- gtest_failures.GetTestPartResult(1).type());
- EXPECT_PRED_FORMAT2(testing::IsSubstring, "some fatal failure",
- gtest_failures.GetTestPartResult(0).message());
- EXPECT_PRED_FORMAT2(testing::IsSubstring, "it does",
- gtest_failures.GetTestPartResult(1).message());
- }
- TEST_F(NoFatalFailureTest, ExpectNoFatalFailureOnFatalFailure) {
- TestPartResultArray gtest_failures;
- {
- ScopedFakeTestPartResultReporter gtest_reporter(>est_failures);
- DoExpectNoFatalFailureOnFails();
- }
- ASSERT_EQ(3, gtest_failures.size());
- EXPECT_EQ(TestPartResult::kFatalFailure,
- gtest_failures.GetTestPartResult(0).type());
- EXPECT_EQ(TestPartResult::kNonFatalFailure,
- gtest_failures.GetTestPartResult(1).type());
- EXPECT_EQ(TestPartResult::kNonFatalFailure,
- gtest_failures.GetTestPartResult(2).type());
- EXPECT_PRED_FORMAT2(testing::IsSubstring, "some fatal failure",
- gtest_failures.GetTestPartResult(0).message());
- EXPECT_PRED_FORMAT2(testing::IsSubstring, "it does",
- gtest_failures.GetTestPartResult(1).message());
- EXPECT_PRED_FORMAT2(testing::IsSubstring, "other failure",
- gtest_failures.GetTestPartResult(2).message());
- }
- TEST_F(NoFatalFailureTest, MessageIsStreamable) {
- TestPartResultArray gtest_failures;
- {
- ScopedFakeTestPartResultReporter gtest_reporter(>est_failures);
- EXPECT_NO_FATAL_FAILURE(FAIL() << "foo") << "my message";
- }
- ASSERT_EQ(2, gtest_failures.size());
- EXPECT_EQ(TestPartResult::kNonFatalFailure,
- gtest_failures.GetTestPartResult(0).type());
- EXPECT_EQ(TestPartResult::kNonFatalFailure,
- gtest_failures.GetTestPartResult(1).type());
- EXPECT_PRED_FORMAT2(testing::IsSubstring, "foo",
- gtest_failures.GetTestPartResult(0).message());
- EXPECT_PRED_FORMAT2(testing::IsSubstring, "my message",
- gtest_failures.GetTestPartResult(1).message());
- }
- // Tests non-string assertions.
- std::string EditsToString(const std::vector<EditType>& edits) {
- std::string out;
- for (size_t i = 0; i < edits.size(); ++i) {
- static const char kEdits[] = " +-/";
- out.append(1, kEdits[edits[i]]);
- }
- return out;
- }
- std::vector<size_t> CharsToIndices(const std::string& str) {
- std::vector<size_t> out;
- for (size_t i = 0; i < str.size(); ++i) {
- out.push_back(str[i]);
- }
- return out;
- }
- std::vector<std::string> CharsToLines(const std::string& str) {
- std::vector<std::string> out;
- for (size_t i = 0; i < str.size(); ++i) {
- out.push_back(str.substr(i, 1));
- }
- return out;
- }
- TEST(EditDistance, TestCases) {
- struct Case {
- int line;
- const char* left;
- const char* right;
- const char* expected_edits;
- const char* expected_diff;
- };
- static const Case kCases[] = {
- // No change.
- {__LINE__, "A", "A", " ", ""},
- {__LINE__, "ABCDE", "ABCDE", " ", ""},
- // Simple adds.
- {__LINE__, "X", "XA", " +", "@@ +1,2 @@\n X\n+A\n"},
- {__LINE__, "X", "XABCD", " ++++", "@@ +1,5 @@\n X\n+A\n+B\n+C\n+D\n"},
- // Simple removes.
- {__LINE__, "XA", "X", " -", "@@ -1,2 @@\n X\n-A\n"},
- {__LINE__, "XABCD", "X", " ----", "@@ -1,5 @@\n X\n-A\n-B\n-C\n-D\n"},
- // Simple replaces.
- {__LINE__, "A", "a", "/", "@@ -1,1 +1,1 @@\n-A\n+a\n"},
- {__LINE__, "ABCD", "abcd", "////",
- "@@ -1,4 +1,4 @@\n-A\n-B\n-C\n-D\n+a\n+b\n+c\n+d\n"},
- // Path finding.
- {__LINE__, "ABCDEFGH", "ABXEGH1", " -/ - +",
- "@@ -1,8 +1,7 @@\n A\n B\n-C\n-D\n+X\n E\n-F\n G\n H\n+1\n"},
- {__LINE__, "AAAABCCCC", "ABABCDCDC", "- / + / ",
- "@@ -1,9 +1,9 @@\n-A\n A\n-A\n+B\n A\n B\n C\n+D\n C\n-C\n+D\n C\n"},
- {__LINE__, "ABCDE", "BCDCD", "- +/",
- "@@ -1,5 +1,5 @@\n-A\n B\n C\n D\n-E\n+C\n+D\n"},
- {__LINE__, "ABCDEFGHIJKL", "BCDCDEFGJKLJK", "- ++ -- ++",
- "@@ -1,4 +1,5 @@\n-A\n B\n+C\n+D\n C\n D\n"
- "@@ -6,7 +7,7 @@\n F\n G\n-H\n-I\n J\n K\n L\n+J\n+K\n"},
- {}};
- for (const Case* c = kCases; c->left; ++c) {
- EXPECT_TRUE(c->expected_edits ==
- EditsToString(CalculateOptimalEdits(CharsToIndices(c->left),
- CharsToIndices(c->right))))
- << "Left <" << c->left << "> Right <" << c->right << "> Edits <"
- << EditsToString(CalculateOptimalEdits(
- CharsToIndices(c->left), CharsToIndices(c->right))) << ">";
- EXPECT_TRUE(c->expected_diff == CreateUnifiedDiff(CharsToLines(c->left),
- CharsToLines(c->right)))
- << "Left <" << c->left << "> Right <" << c->right << "> Diff <"
- << CreateUnifiedDiff(CharsToLines(c->left), CharsToLines(c->right))
- << ">";
- }
- }
- // Tests EqFailure(), used for implementing *EQ* assertions.
- TEST(AssertionTest, EqFailure) {
- const std::string foo_val("5"), bar_val("6");
- const std::string msg1(
- EqFailure("foo", "bar", foo_val, bar_val, false)
- .failure_message());
- EXPECT_STREQ(
- " Expected: foo\n"
- " Which is: 5\n"
- "To be equal to: bar\n"
- " Which is: 6",
- msg1.c_str());
- const std::string msg2(
- EqFailure("foo", "6", foo_val, bar_val, false)
- .failure_message());
- EXPECT_STREQ(
- " Expected: foo\n"
- " Which is: 5\n"
- "To be equal to: 6",
- msg2.c_str());
- const std::string msg3(
- EqFailure("5", "bar", foo_val, bar_val, false)
- .failure_message());
- EXPECT_STREQ(
- " Expected: 5\n"
- "To be equal to: bar\n"
- " Which is: 6",
- msg3.c_str());
- const std::string msg4(
- EqFailure("5", "6", foo_val, bar_val, false).failure_message());
- EXPECT_STREQ(
- " Expected: 5\n"
- "To be equal to: 6",
- msg4.c_str());
- const std::string msg5(
- EqFailure("foo", "bar",
- std::string("\"x\""), std::string("\"y\""),
- true).failure_message());
- EXPECT_STREQ(
- " Expected: foo\n"
- " Which is: \"x\"\n"
- "To be equal to: bar\n"
- " Which is: \"y\"\n"
- "Ignoring case",
- msg5.c_str());
- }
- TEST(AssertionTest, EqFailureWithDiff) {
- const std::string left(
- "1\\n2XXX\\n3\\n5\\n6\\n7\\n8\\n9\\n10\\n11\\n12XXX\\n13\\n14\\n15");
- const std::string right(
- "1\\n2\\n3\\n4\\n5\\n6\\n7\\n8\\n9\\n11\\n12\\n13\\n14");
- const std::string msg1(
- EqFailure("left", "right", left, right, false).failure_message());
- EXPECT_STREQ(
- " Expected: left\n"
- " Which is: "
- "1\\n2XXX\\n3\\n5\\n6\\n7\\n8\\n9\\n10\\n11\\n12XXX\\n13\\n14\\n15\n"
- "To be equal to: right\n"
- " Which is: 1\\n2\\n3\\n4\\n5\\n6\\n7\\n8\\n9\\n11\\n12\\n13\\n14\n"
- "With diff:\n@@ -1,5 +1,6 @@\n 1\n-2XXX\n+2\n 3\n+4\n 5\n 6\n"
- "@@ -7,8 +8,6 @@\n 8\n 9\n-10\n 11\n-12XXX\n+12\n 13\n 14\n-15\n",
- msg1.c_str());
- }
- // Tests AppendUserMessage(), used for implementing the *EQ* macros.
- TEST(AssertionTest, AppendUserMessage) {
- const std::string foo("foo");
- Message msg;
- EXPECT_STREQ("foo",
- AppendUserMessage(foo, msg).c_str());
- msg << "bar";
- EXPECT_STREQ("foo\nbar",
- AppendUserMessage(foo, msg).c_str());
- }
- #ifdef __BORLANDC__
- // Silences warnings: "Condition is always true", "Unreachable code"
- # pragma option push -w-ccc -w-rch
- #endif
- // Tests ASSERT_TRUE.
- TEST(AssertionTest, ASSERT_TRUE) {
- ASSERT_TRUE(2 > 1); // NOLINT
- EXPECT_FATAL_FAILURE(ASSERT_TRUE(2 < 1),
- "2 < 1");
- }
- // Tests ASSERT_TRUE(predicate) for predicates returning AssertionResult.
- TEST(AssertionTest, AssertTrueWithAssertionResult) {
- ASSERT_TRUE(ResultIsEven(2));
- #ifndef __BORLANDC__
- // ICE's in C++Builder.
- EXPECT_FATAL_FAILURE(ASSERT_TRUE(ResultIsEven(3)),
- "Value of: ResultIsEven(3)\n"
- " Actual: false (3 is odd)\n"
- "Expected: true");
- #endif
- ASSERT_TRUE(ResultIsEvenNoExplanation(2));
- EXPECT_FATAL_FAILURE(ASSERT_TRUE(ResultIsEvenNoExplanation(3)),
- "Value of: ResultIsEvenNoExplanation(3)\n"
- " Actual: false (3 is odd)\n"
- "Expected: true");
- }
- // Tests ASSERT_FALSE.
- TEST(AssertionTest, ASSERT_FALSE) {
- ASSERT_FALSE(2 < 1); // NOLINT
- EXPECT_FATAL_FAILURE(ASSERT_FALSE(2 > 1),
- "Value of: 2 > 1\n"
- " Actual: true\n"
- "Expected: false");
- }
- // Tests ASSERT_FALSE(predicate) for predicates returning AssertionResult.
- TEST(AssertionTest, AssertFalseWithAssertionResult) {
- ASSERT_FALSE(ResultIsEven(3));
- #ifndef __BORLANDC__
- // ICE's in C++Builder.
- EXPECT_FATAL_FAILURE(ASSERT_FALSE(ResultIsEven(2)),
- "Value of: ResultIsEven(2)\n"
- " Actual: true (2 is even)\n"
- "Expected: false");
- #endif
- ASSERT_FALSE(ResultIsEvenNoExplanation(3));
- EXPECT_FATAL_FAILURE(ASSERT_FALSE(ResultIsEvenNoExplanation(2)),
- "Value of: ResultIsEvenNoExplanation(2)\n"
- " Actual: true\n"
- "Expected: false");
- }
- #ifdef __BORLANDC__
- // Restores warnings after previous "#pragma option push" supressed them
- # pragma option pop
- #endif
- // Tests using ASSERT_EQ on double values. The purpose is to make
- // sure that the specialization we did for integer and anonymous enums
- // isn't used for double arguments.
- TEST(ExpectTest, ASSERT_EQ_Double) {
- // A success.
- ASSERT_EQ(5.6, 5.6);
- // A failure.
- EXPECT_FATAL_FAILURE(ASSERT_EQ(5.1, 5.2),
- "5.1");
- }
- // Tests ASSERT_EQ.
- TEST(AssertionTest, ASSERT_EQ) {
- ASSERT_EQ(5, 2 + 3);
- EXPECT_FATAL_FAILURE(ASSERT_EQ(5, 2*3),
- " Expected: 5\n"
- "To be equal to: 2*3\n"
- " Which is: 6");
- }
- // Tests ASSERT_EQ(NULL, pointer).
- #if GTEST_CAN_COMPARE_NULL
- TEST(AssertionTest, ASSERT_EQ_NULL) {
- // A success.
- const char* p = NULL;
- // Some older GCC versions may issue a spurious waring in this or the next
- // assertion statement. This warning should not be suppressed with
- // static_cast since the test verifies the ability to use bare NULL as the
- // expected parameter to the macro.
- ASSERT_EQ(NULL, p);
- // A failure.
- static int n = 0;
- EXPECT_FATAL_FAILURE(ASSERT_EQ(NULL, &n),
- "To be equal to: &n\n");
- }
- #endif // GTEST_CAN_COMPARE_NULL
- // Tests ASSERT_EQ(0, non_pointer). Since the literal 0 can be
- // treated as a null pointer by the compiler, we need to make sure
- // that ASSERT_EQ(0, non_pointer) isn't interpreted by Google Test as
- // ASSERT_EQ(static_cast<void*>(NULL), non_pointer).
- TEST(ExpectTest, ASSERT_EQ_0) {
- int n = 0;
- // A success.
- ASSERT_EQ(0, n);
- // A failure.
- EXPECT_FATAL_FAILURE(ASSERT_EQ(0, 5.6),
- "Expected: 0");
- }
- // Tests ASSERT_NE.
- TEST(AssertionTest, ASSERT_NE) {
- ASSERT_NE(6, 7);
- EXPECT_FATAL_FAILURE(ASSERT_NE('a', 'a'),
- "Expected: ('a') != ('a'), "
- "actual: 'a' (97, 0x61) vs 'a' (97, 0x61)");
- }
- // Tests ASSERT_LE.
- TEST(AssertionTest, ASSERT_LE) {
- ASSERT_LE(2, 3);
- ASSERT_LE(2, 2);
- EXPECT_FATAL_FAILURE(ASSERT_LE(2, 0),
- "Expected: (2) <= (0), actual: 2 vs 0");
- }
- // Tests ASSERT_LT.
- TEST(AssertionTest, ASSERT_LT) {
- ASSERT_LT(2, 3);
- EXPECT_FATAL_FAILURE(ASSERT_LT(2, 2),
- "Expected: (2) < (2), actual: 2 vs 2");
- }
- // Tests ASSERT_GE.
- TEST(AssertionTest, ASSERT_GE) {
- ASSERT_GE(2, 1);
- ASSERT_GE(2, 2);
- EXPECT_FATAL_FAILURE(ASSERT_GE(2, 3),
- "Expected: (2) >= (3), actual: 2 vs 3");
- }
- // Tests ASSERT_GT.
- TEST(AssertionTest, ASSERT_GT) {
- ASSERT_GT(2, 1);
- EXPECT_FATAL_FAILURE(ASSERT_GT(2, 2),
- "Expected: (2) > (2), actual: 2 vs 2");
- }
- #if GTEST_HAS_EXCEPTIONS
- void ThrowNothing() {}
- // Tests ASSERT_THROW.
- TEST(AssertionTest, ASSERT_THROW) {
- ASSERT_THROW(ThrowAnInteger(), int);
- # ifndef __BORLANDC__
- // ICE's in C++Builder 2007 and 2009.
- EXPECT_FATAL_FAILURE(
- ASSERT_THROW(ThrowAnInteger(), bool),
- "Expected: ThrowAnInteger() throws an exception of type bool.\n"
- " Actual: it throws a different type.");
- # endif
- EXPECT_FATAL_FAILURE(
- ASSERT_THROW(ThrowNothing(), bool),
- "Expected: ThrowNothing() throws an exception of type bool.\n"
- " Actual: it throws nothing.");
- }
- // Tests ASSERT_NO_THROW.
- TEST(AssertionTest, ASSERT_NO_THROW) {
- ASSERT_NO_THROW(ThrowNothing());
- EXPECT_FATAL_FAILURE(ASSERT_NO_THROW(ThrowAnInteger()),
- "Expected: ThrowAnInteger() doesn't throw an exception."
- "\n Actual: it throws.");
- }
- // Tests ASSERT_ANY_THROW.
- TEST(AssertionTest, ASSERT_ANY_THROW) {
- ASSERT_ANY_THROW(ThrowAnInteger());
- EXPECT_FATAL_FAILURE(
- ASSERT_ANY_THROW(ThrowNothing()),
- "Expected: ThrowNothing() throws an exception.\n"
- " Actual: it doesn't.");
- }
- #endif // GTEST_HAS_EXCEPTIONS
- // Makes sure we deal with the precedence of <<. This test should
- // compile.
- TEST(AssertionTest, AssertPrecedence) {
- ASSERT_EQ(1 < 2, true);
- bool false_value = false;
- ASSERT_EQ(true && false_value, false);
- }
- // A subroutine used by the following test.
- void TestEq1(int x) {
- ASSERT_EQ(1, x);
- }
- // Tests calling a test subroutine that's not part of a fixture.
- TEST(AssertionTest, NonFixtureSubroutine) {
- EXPECT_FATAL_FAILURE(TestEq1(2),
- "To be equal to: x");
- }
- // An uncopyable class.
- class Uncopyable {
- public:
- explicit Uncopyable(int a_value) : value_(a_value) {}
- int value() const { return value_; }
- bool operator==(const Uncopyable& rhs) const {
- return value() == rhs.value();
- }
- private:
- // This constructor deliberately has no implementation, as we don't
- // want this class to be copyable.
- Uncopyable(const Uncopyable&); // NOLINT
- int value_;
- };
- ::std::ostream& operator<<(::std::ostream& os, const Uncopyable& value) {
- return os << value.value();
- }
- bool IsPositiveUncopyable(const Uncopyable& x) {
- return x.value() > 0;
- }
- // A subroutine used by the following test.
- void TestAssertNonPositive() {
- Uncopyable y(-1);
- ASSERT_PRED1(IsPositiveUncopyable, y);
- }
- // A subroutine used by the following test.
- void TestAssertEqualsUncopyable() {
- Uncopyable x(5);
- Uncopyable y(-1);
- ASSERT_EQ(x, y);
- }
- // Tests that uncopyable objects can be used in assertions.
- TEST(AssertionTest, AssertWorksWithUncopyableObject) {
- Uncopyable x(5);
- ASSERT_PRED1(IsPositiveUncopyable, x);
- ASSERT_EQ(x, x);
- EXPECT_FATAL_FAILURE(TestAssertNonPositive(),
- "IsPositiveUncopyable(y) evaluates to false, where\ny evaluates to -1");
- EXPECT_FATAL_FAILURE(TestAssertEqualsUncopyable(),
- "Expected: x\n Which is: 5\nTo be equal to: y\n Which is: -1");
- }
- // Tests that uncopyable objects can be used in expects.
- TEST(AssertionTest, ExpectWorksWithUncopyableObject) {
- Uncopyable x(5);
- EXPECT_PRED1(IsPositiveUncopyable, x);
- Uncopyable y(-1);
- EXPECT_NONFATAL_FAILURE(EXPECT_PRED1(IsPositiveUncopyable, y),
- "IsPositiveUncopyable(y) evaluates to false, where\ny evaluates to -1");
- EXPECT_EQ(x, x);
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(x, y),
- "Expected: x\n Which is: 5\nTo be equal to: y\n Which is: -1");
- }
- enum NamedEnum {
- kE1 = 0,
- kE2 = 1
- };
- TEST(AssertionTest, NamedEnum) {
- EXPECT_EQ(kE1, kE1);
- EXPECT_LT(kE1, kE2);
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(kE1, kE2), "Which is: 0");
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(kE1, kE2), "Which is: 1");
- }
- // The version of gcc used in XCode 2.2 has a bug and doesn't allow
- // anonymous enums in assertions. Therefore the following test is not
- // done on Mac.
- // Sun Studio and HP aCC also reject this code.
- #if !GTEST_OS_MAC && !defined(__SUNPRO_CC) && !defined(__HP_aCC)
- // Tests using assertions with anonymous enums.
- enum {
- kCaseA = -1,
- # if GTEST_OS_LINUX
- // We want to test the case where the size of the anonymous enum is
- // larger than sizeof(int), to make sure our implementation of the
- // assertions doesn't truncate the enums. However, MSVC
- // (incorrectly) doesn't allow an enum value to exceed the range of
- // an int, so this has to be conditionally compiled.
- //
- // On Linux, kCaseB and kCaseA have the same value when truncated to
- // int size. We want to test whether this will confuse the
- // assertions.
- kCaseB = testing::internal::kMaxBiggestInt,
- # else
- kCaseB = INT_MAX,
- # endif // GTEST_OS_LINUX
- kCaseC = 42
- };
- TEST(AssertionTest, AnonymousEnum) {
- # if GTEST_OS_LINUX
- EXPECT_EQ(static_cast<int>(kCaseA), static_cast<int>(kCaseB));
- # endif // GTEST_OS_LINUX
- EXPECT_EQ(kCaseA, kCaseA);
- EXPECT_NE(kCaseA, kCaseB);
- EXPECT_LT(kCaseA, kCaseB);
- EXPECT_LE(kCaseA, kCaseB);
- EXPECT_GT(kCaseB, kCaseA);
- EXPECT_GE(kCaseA, kCaseA);
- EXPECT_NONFATAL_FAILURE(EXPECT_GE(kCaseA, kCaseB),
- "(kCaseA) >= (kCaseB)");
- EXPECT_NONFATAL_FAILURE(EXPECT_GE(kCaseA, kCaseC),
- "-1 vs 42");
- ASSERT_EQ(kCaseA, kCaseA);
- ASSERT_NE(kCaseA, kCaseB);
- ASSERT_LT(kCaseA, kCaseB);
- ASSERT_LE(kCaseA, kCaseB);
- ASSERT_GT(kCaseB, kCaseA);
- ASSERT_GE(kCaseA, kCaseA);
- # ifndef __BORLANDC__
- // ICE's in C++Builder.
- EXPECT_FATAL_FAILURE(ASSERT_EQ(kCaseA, kCaseB),
- "To be equal to: kCaseB");
- EXPECT_FATAL_FAILURE(ASSERT_EQ(kCaseA, kCaseC),
- "Which is: 42");
- # endif
- EXPECT_FATAL_FAILURE(ASSERT_EQ(kCaseA, kCaseC),
- "Which is: -1");
- }
- #endif // !GTEST_OS_MAC && !defined(__SUNPRO_CC)
- #if GTEST_OS_WINDOWS
- static HRESULT UnexpectedHRESULTFailure() {
- return E_UNEXPECTED;
- }
- static HRESULT OkHRESULTSuccess() {
- return S_OK;
- }
- static HRESULT FalseHRESULTSuccess() {
- return S_FALSE;
- }
- // HRESULT assertion tests test both zero and non-zero
- // success codes as well as failure message for each.
- //
- // Windows CE doesn't support message texts.
- TEST(HRESULTAssertionTest, EXPECT_HRESULT_SUCCEEDED) {
- EXPECT_HRESULT_SUCCEEDED(S_OK);
- EXPECT_HRESULT_SUCCEEDED(S_FALSE);
- EXPECT_NONFATAL_FAILURE(EXPECT_HRESULT_SUCCEEDED(UnexpectedHRESULTFailure()),
- "Expected: (UnexpectedHRESULTFailure()) succeeds.\n"
- " Actual: 0x8000FFFF");
- }
- TEST(HRESULTAssertionTest, ASSERT_HRESULT_SUCCEEDED) {
- ASSERT_HRESULT_SUCCEEDED(S_OK);
- ASSERT_HRESULT_SUCCEEDED(S_FALSE);
- EXPECT_FATAL_FAILURE(ASSERT_HRESULT_SUCCEEDED(UnexpectedHRESULTFailure()),
- "Expected: (UnexpectedHRESULTFailure()) succeeds.\n"
- " Actual: 0x8000FFFF");
- }
- TEST(HRESULTAssertionTest, EXPECT_HRESULT_FAILED) {
- EXPECT_HRESULT_FAILED(E_UNEXPECTED);
- EXPECT_NONFATAL_FAILURE(EXPECT_HRESULT_FAILED(OkHRESULTSuccess()),
- "Expected: (OkHRESULTSuccess()) fails.\n"
- " Actual: 0x0");
- EXPECT_NONFATAL_FAILURE(EXPECT_HRESULT_FAILED(FalseHRESULTSuccess()),
- "Expected: (FalseHRESULTSuccess()) fails.\n"
- " Actual: 0x1");
- }
- TEST(HRESULTAssertionTest, ASSERT_HRESULT_FAILED) {
- ASSERT_HRESULT_FAILED(E_UNEXPECTED);
- # ifndef __BORLANDC__
- // ICE's in C++Builder 2007 and 2009.
- EXPECT_FATAL_FAILURE(ASSERT_HRESULT_FAILED(OkHRESULTSuccess()),
- "Expected: (OkHRESULTSuccess()) fails.\n"
- " Actual: 0x0");
- # endif
- EXPECT_FATAL_FAILURE(ASSERT_HRESULT_FAILED(FalseHRESULTSuccess()),
- "Expected: (FalseHRESULTSuccess()) fails.\n"
- " Actual: 0x1");
- }
- // Tests that streaming to the HRESULT macros works.
- TEST(HRESULTAssertionTest, Streaming) {
- EXPECT_HRESULT_SUCCEEDED(S_OK) << "unexpected failure";
- ASSERT_HRESULT_SUCCEEDED(S_OK) << "unexpected failure";
- EXPECT_HRESULT_FAILED(E_UNEXPECTED) << "unexpected failure";
- ASSERT_HRESULT_FAILED(E_UNEXPECTED) << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(
- EXPECT_HRESULT_SUCCEEDED(E_UNEXPECTED) << "expected failure",
- "expected failure");
- # ifndef __BORLANDC__
- // ICE's in C++Builder 2007 and 2009.
- EXPECT_FATAL_FAILURE(
- ASSERT_HRESULT_SUCCEEDED(E_UNEXPECTED) << "expected failure",
- "expected failure");
- # endif
- EXPECT_NONFATAL_FAILURE(
- EXPECT_HRESULT_FAILED(S_OK) << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(
- ASSERT_HRESULT_FAILED(S_OK) << "expected failure",
- "expected failure");
- }
- #endif // GTEST_OS_WINDOWS
- #ifdef __BORLANDC__
- // Silences warnings: "Condition is always true", "Unreachable code"
- # pragma option push -w-ccc -w-rch
- #endif
- // Tests that the assertion macros behave like single statements.
- TEST(AssertionSyntaxTest, BasicAssertionsBehavesLikeSingleStatement) {
- if (AlwaysFalse())
- ASSERT_TRUE(false) << "This should never be executed; "
- "It's a compilation test only.";
- if (AlwaysTrue())
- EXPECT_FALSE(false);
- else
- ; // NOLINT
- if (AlwaysFalse())
- ASSERT_LT(1, 3);
- if (AlwaysFalse())
- ; // NOLINT
- else
- EXPECT_GT(3, 2) << "";
- }
- #if GTEST_HAS_EXCEPTIONS
- // Tests that the compiler will not complain about unreachable code in the
- // EXPECT_THROW/EXPECT_ANY_THROW/EXPECT_NO_THROW macros.
- TEST(ExpectThrowTest, DoesNotGenerateUnreachableCodeWarning) {
- int n = 0;
- EXPECT_THROW(throw 1, int);
- EXPECT_NONFATAL_FAILURE(EXPECT_THROW(n++, int), "");
- EXPECT_NONFATAL_FAILURE(EXPECT_THROW(throw 1, const char*), "");
- EXPECT_NO_THROW(n++);
- EXPECT_NONFATAL_FAILURE(EXPECT_NO_THROW(throw 1), "");
- EXPECT_ANY_THROW(throw 1);
- EXPECT_NONFATAL_FAILURE(EXPECT_ANY_THROW(n++), "");
- }
- TEST(AssertionSyntaxTest, ExceptionAssertionsBehavesLikeSingleStatement) {
- if (AlwaysFalse())
- EXPECT_THROW(ThrowNothing(), bool);
- if (AlwaysTrue())
- EXPECT_THROW(ThrowAnInteger(), int);
- else
- ; // NOLINT
- if (AlwaysFalse())
- EXPECT_NO_THROW(ThrowAnInteger());
- if (AlwaysTrue())
- EXPECT_NO_THROW(ThrowNothing());
- else
- ; // NOLINT
- if (AlwaysFalse())
- EXPECT_ANY_THROW(ThrowNothing());
- if (AlwaysTrue())
- EXPECT_ANY_THROW(ThrowAnInteger());
- else
- ; // NOLINT
- }
- #endif // GTEST_HAS_EXCEPTIONS
- TEST(AssertionSyntaxTest, NoFatalFailureAssertionsBehavesLikeSingleStatement) {
- if (AlwaysFalse())
- EXPECT_NO_FATAL_FAILURE(FAIL()) << "This should never be executed. "
- << "It's a compilation test only.";
- else
- ; // NOLINT
- if (AlwaysFalse())
- ASSERT_NO_FATAL_FAILURE(FAIL()) << "";
- else
- ; // NOLINT
- if (AlwaysTrue())
- EXPECT_NO_FATAL_FAILURE(SUCCEED());
- else
- ; // NOLINT
- if (AlwaysFalse())
- ; // NOLINT
- else
- ASSERT_NO_FATAL_FAILURE(SUCCEED());
- }
- // Tests that the assertion macros work well with switch statements.
- TEST(AssertionSyntaxTest, WorksWithSwitch) {
- switch (0) {
- case 1:
- break;
- default:
- ASSERT_TRUE(true);
- }
- switch (0)
- case 0:
- EXPECT_FALSE(false) << "EXPECT_FALSE failed in switch case";
- // Binary assertions are implemented using a different code path
- // than the Boolean assertions. Hence we test them separately.
- switch (0) {
- case 1:
- default:
- ASSERT_EQ(1, 1) << "ASSERT_EQ failed in default switch handler";
- }
- switch (0)
- case 0:
- EXPECT_NE(1, 2);
- }
- #if GTEST_HAS_EXCEPTIONS
- void ThrowAString() {
- throw "std::string";
- }
- // Test that the exception assertion macros compile and work with const
- // type qualifier.
- TEST(AssertionSyntaxTest, WorksWithConst) {
- ASSERT_THROW(ThrowAString(), const char*);
- EXPECT_THROW(ThrowAString(), const char*);
- }
- #endif // GTEST_HAS_EXCEPTIONS
- } // namespace
- namespace testing {
- // Tests that Google Test tracks SUCCEED*.
- TEST(SuccessfulAssertionTest, SUCCEED) {
- SUCCEED();
- SUCCEED() << "OK";
- EXPECT_EQ(2, GetUnitTestImpl()->current_test_result()->total_part_count());
- }
- // Tests that Google Test doesn't track successful EXPECT_*.
- TEST(SuccessfulAssertionTest, EXPECT) {
- EXPECT_TRUE(true);
- EXPECT_EQ(0, GetUnitTestImpl()->current_test_result()->total_part_count());
- }
- // Tests that Google Test doesn't track successful EXPECT_STR*.
- TEST(SuccessfulAssertionTest, EXPECT_STR) {
- EXPECT_STREQ("", "");
- EXPECT_EQ(0, GetUnitTestImpl()->current_test_result()->total_part_count());
- }
- // Tests that Google Test doesn't track successful ASSERT_*.
- TEST(SuccessfulAssertionTest, ASSERT) {
- ASSERT_TRUE(true);
- EXPECT_EQ(0, GetUnitTestImpl()->current_test_result()->total_part_count());
- }
- // Tests that Google Test doesn't track successful ASSERT_STR*.
- TEST(SuccessfulAssertionTest, ASSERT_STR) {
- ASSERT_STREQ("", "");
- EXPECT_EQ(0, GetUnitTestImpl()->current_test_result()->total_part_count());
- }
- } // namespace testing
- namespace {
- // Tests the message streaming variation of assertions.
- TEST(AssertionWithMessageTest, EXPECT) {
- EXPECT_EQ(1, 1) << "This should succeed.";
- EXPECT_NONFATAL_FAILURE(EXPECT_NE(1, 1) << "Expected failure #1.",
- "Expected failure #1");
- EXPECT_LE(1, 2) << "This should succeed.";
- EXPECT_NONFATAL_FAILURE(EXPECT_LT(1, 0) << "Expected failure #2.",
- "Expected failure #2.");
- EXPECT_GE(1, 0) << "This should succeed.";
- EXPECT_NONFATAL_FAILURE(EXPECT_GT(1, 2) << "Expected failure #3.",
- "Expected failure #3.");
- EXPECT_STREQ("1", "1") << "This should succeed.";
- EXPECT_NONFATAL_FAILURE(EXPECT_STRNE("1", "1") << "Expected failure #4.",
- "Expected failure #4.");
- EXPECT_STRCASEEQ("a", "A") << "This should succeed.";
- EXPECT_NONFATAL_FAILURE(EXPECT_STRCASENE("a", "A") << "Expected failure #5.",
- "Expected failure #5.");
- EXPECT_FLOAT_EQ(1, 1) << "This should succeed.";
- EXPECT_NONFATAL_FAILURE(EXPECT_DOUBLE_EQ(1, 1.2) << "Expected failure #6.",
- "Expected failure #6.");
- EXPECT_NEAR(1, 1.1, 0.2) << "This should succeed.";
- }
- TEST(AssertionWithMessageTest, ASSERT) {
- ASSERT_EQ(1, 1) << "This should succeed.";
- ASSERT_NE(1, 2) << "This should succeed.";
- ASSERT_LE(1, 2) << "This should succeed.";
- ASSERT_LT(1, 2) << "This should succeed.";
- ASSERT_GE(1, 0) << "This should succeed.";
- EXPECT_FATAL_FAILURE(ASSERT_GT(1, 2) << "Expected failure.",
- "Expected failure.");
- }
- TEST(AssertionWithMessageTest, ASSERT_STR) {
- ASSERT_STREQ("1", "1") << "This should succeed.";
- ASSERT_STRNE("1", "2") << "This should succeed.";
- ASSERT_STRCASEEQ("a", "A") << "This should succeed.";
- EXPECT_FATAL_FAILURE(ASSERT_STRCASENE("a", "A") << "Expected failure.",
- "Expected failure.");
- }
- TEST(AssertionWithMessageTest, ASSERT_FLOATING) {
- ASSERT_FLOAT_EQ(1, 1) << "This should succeed.";
- ASSERT_DOUBLE_EQ(1, 1) << "This should succeed.";
- EXPECT_FATAL_FAILURE(ASSERT_NEAR(1,1.2, 0.1) << "Expect failure.", // NOLINT
- "Expect failure.");
- // To work around a bug in gcc 2.95.0, there is intentionally no
- // space after the first comma in the previous statement.
- }
- // Tests using ASSERT_FALSE with a streamed message.
- TEST(AssertionWithMessageTest, ASSERT_FALSE) {
- ASSERT_FALSE(false) << "This shouldn't fail.";
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_FALSE(true) << "Expected failure: " << 2 << " > " << 1
- << " evaluates to " << true;
- }, "Expected failure");
- }
- // Tests using FAIL with a streamed message.
- TEST(AssertionWithMessageTest, FAIL) {
- EXPECT_FATAL_FAILURE(FAIL() << 0,
- "0");
- }
- // Tests using SUCCEED with a streamed message.
- TEST(AssertionWithMessageTest, SUCCEED) {
- SUCCEED() << "Success == " << 1;
- }
- // Tests using ASSERT_TRUE with a streamed message.
- TEST(AssertionWithMessageTest, ASSERT_TRUE) {
- ASSERT_TRUE(true) << "This should succeed.";
- ASSERT_TRUE(true) << true;
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_TRUE(false) << static_cast<const char *>(NULL)
- << static_cast<char *>(NULL);
- }, "(null)(null)");
- }
- #if GTEST_OS_WINDOWS
- // Tests using wide strings in assertion messages.
- TEST(AssertionWithMessageTest, WideStringMessage) {
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_TRUE(false) << L"This failure is expected.\x8119";
- }, "This failure is expected.");
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_EQ(1, 2) << "This failure is "
- << L"expected too.\x8120";
- }, "This failure is expected too.");
- }
- #endif // GTEST_OS_WINDOWS
- // Tests EXPECT_TRUE.
- TEST(ExpectTest, EXPECT_TRUE) {
- EXPECT_TRUE(true) << "Intentional success";
- EXPECT_NONFATAL_FAILURE(EXPECT_TRUE(false) << "Intentional failure #1.",
- "Intentional failure #1.");
- EXPECT_NONFATAL_FAILURE(EXPECT_TRUE(false) << "Intentional failure #2.",
- "Intentional failure #2.");
- EXPECT_TRUE(2 > 1); // NOLINT
- EXPECT_NONFATAL_FAILURE(EXPECT_TRUE(2 < 1),
- "Value of: 2 < 1\n"
- " Actual: false\n"
- "Expected: true");
- EXPECT_NONFATAL_FAILURE(EXPECT_TRUE(2 > 3),
- "2 > 3");
- }
- // Tests EXPECT_TRUE(predicate) for predicates returning AssertionResult.
- TEST(ExpectTest, ExpectTrueWithAssertionResult) {
- EXPECT_TRUE(ResultIsEven(2));
- EXPECT_NONFATAL_FAILURE(EXPECT_TRUE(ResultIsEven(3)),
- "Value of: ResultIsEven(3)\n"
- " Actual: false (3 is odd)\n"
- "Expected: true");
- EXPECT_TRUE(ResultIsEvenNoExplanation(2));
- EXPECT_NONFATAL_FAILURE(EXPECT_TRUE(ResultIsEvenNoExplanation(3)),
- "Value of: ResultIsEvenNoExplanation(3)\n"
- " Actual: false (3 is odd)\n"
- "Expected: true");
- }
- // Tests EXPECT_FALSE with a streamed message.
- TEST(ExpectTest, EXPECT_FALSE) {
- EXPECT_FALSE(2 < 1); // NOLINT
- EXPECT_FALSE(false) << "Intentional success";
- EXPECT_NONFATAL_FAILURE(EXPECT_FALSE(true) << "Intentional failure #1.",
- "Intentional failure #1.");
- EXPECT_NONFATAL_FAILURE(EXPECT_FALSE(true) << "Intentional failure #2.",
- "Intentional failure #2.");
- EXPECT_NONFATAL_FAILURE(EXPECT_FALSE(2 > 1),
- "Value of: 2 > 1\n"
- " Actual: true\n"
- "Expected: false");
- EXPECT_NONFATAL_FAILURE(EXPECT_FALSE(2 < 3),
- "2 < 3");
- }
- // Tests EXPECT_FALSE(predicate) for predicates returning AssertionResult.
- TEST(ExpectTest, ExpectFalseWithAssertionResult) {
- EXPECT_FALSE(ResultIsEven(3));
- EXPECT_NONFATAL_FAILURE(EXPECT_FALSE(ResultIsEven(2)),
- "Value of: ResultIsEven(2)\n"
- " Actual: true (2 is even)\n"
- "Expected: false");
- EXPECT_FALSE(ResultIsEvenNoExplanation(3));
- EXPECT_NONFATAL_FAILURE(EXPECT_FALSE(ResultIsEvenNoExplanation(2)),
- "Value of: ResultIsEvenNoExplanation(2)\n"
- " Actual: true\n"
- "Expected: false");
- }
- #ifdef __BORLANDC__
- // Restores warnings after previous "#pragma option push" supressed them
- # pragma option pop
- #endif
- // Tests EXPECT_EQ.
- TEST(ExpectTest, EXPECT_EQ) {
- EXPECT_EQ(5, 2 + 3);
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(5, 2*3),
- " Expected: 5\n"
- "To be equal to: 2*3\n"
- " Which is: 6");
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(5, 2 - 3),
- "2 - 3");
- }
- // Tests using EXPECT_EQ on double values. The purpose is to make
- // sure that the specialization we did for integer and anonymous enums
- // isn't used for double arguments.
- TEST(ExpectTest, EXPECT_EQ_Double) {
- // A success.
- EXPECT_EQ(5.6, 5.6);
- // A failure.
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(5.1, 5.2),
- "5.1");
- }
- #if GTEST_CAN_COMPARE_NULL
- // Tests EXPECT_EQ(NULL, pointer).
- TEST(ExpectTest, EXPECT_EQ_NULL) {
- // A success.
- const char* p = NULL;
- // Some older GCC versions may issue a spurious warning in this or the next
- // assertion statement. This warning should not be suppressed with
- // static_cast since the test verifies the ability to use bare NULL as the
- // expected parameter to the macro.
- EXPECT_EQ(NULL, p);
- // A failure.
- int n = 0;
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(NULL, &n),
- "To be equal to: &n\n");
- }
- #endif // GTEST_CAN_COMPARE_NULL
- // Tests EXPECT_EQ(0, non_pointer). Since the literal 0 can be
- // treated as a null pointer by the compiler, we need to make sure
- // that EXPECT_EQ(0, non_pointer) isn't interpreted by Google Test as
- // EXPECT_EQ(static_cast<void*>(NULL), non_pointer).
- TEST(ExpectTest, EXPECT_EQ_0) {
- int n = 0;
- // A success.
- EXPECT_EQ(0, n);
- // A failure.
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(0, 5.6),
- "Expected: 0");
- }
- // Tests EXPECT_NE.
- TEST(ExpectTest, EXPECT_NE) {
- EXPECT_NE(6, 7);
- EXPECT_NONFATAL_FAILURE(EXPECT_NE('a', 'a'),
- "Expected: ('a') != ('a'), "
- "actual: 'a' (97, 0x61) vs 'a' (97, 0x61)");
- EXPECT_NONFATAL_FAILURE(EXPECT_NE(2, 2),
- "2");
- char* const p0 = NULL;
- EXPECT_NONFATAL_FAILURE(EXPECT_NE(p0, p0),
- "p0");
- // Only way to get the Nokia compiler to compile the cast
- // is to have a separate void* variable first. Putting
- // the two casts on the same line doesn't work, neither does
- // a direct C-style to char*.
- void* pv1 = (void*)0x1234; // NOLINT
- char* const p1 = reinterpret_cast<char*>(pv1);
- EXPECT_NONFATAL_FAILURE(EXPECT_NE(p1, p1),
- "p1");
- }
- // Tests EXPECT_LE.
- TEST(ExpectTest, EXPECT_LE) {
- EXPECT_LE(2, 3);
- EXPECT_LE(2, 2);
- EXPECT_NONFATAL_FAILURE(EXPECT_LE(2, 0),
- "Expected: (2) <= (0), actual: 2 vs 0");
- EXPECT_NONFATAL_FAILURE(EXPECT_LE(1.1, 0.9),
- "(1.1) <= (0.9)");
- }
- // Tests EXPECT_LT.
- TEST(ExpectTest, EXPECT_LT) {
- EXPECT_LT(2, 3);
- EXPECT_NONFATAL_FAILURE(EXPECT_LT(2, 2),
- "Expected: (2) < (2), actual: 2 vs 2");
- EXPECT_NONFATAL_FAILURE(EXPECT_LT(2, 1),
- "(2) < (1)");
- }
- // Tests EXPECT_GE.
- TEST(ExpectTest, EXPECT_GE) {
- EXPECT_GE(2, 1);
- EXPECT_GE(2, 2);
- EXPECT_NONFATAL_FAILURE(EXPECT_GE(2, 3),
- "Expected: (2) >= (3), actual: 2 vs 3");
- EXPECT_NONFATAL_FAILURE(EXPECT_GE(0.9, 1.1),
- "(0.9) >= (1.1)");
- }
- // Tests EXPECT_GT.
- TEST(ExpectTest, EXPECT_GT) {
- EXPECT_GT(2, 1);
- EXPECT_NONFATAL_FAILURE(EXPECT_GT(2, 2),
- "Expected: (2) > (2), actual: 2 vs 2");
- EXPECT_NONFATAL_FAILURE(EXPECT_GT(2, 3),
- "(2) > (3)");
- }
- #if GTEST_HAS_EXCEPTIONS
- // Tests EXPECT_THROW.
- TEST(ExpectTest, EXPECT_THROW) {
- EXPECT_THROW(ThrowAnInteger(), int);
- EXPECT_NONFATAL_FAILURE(EXPECT_THROW(ThrowAnInteger(), bool),
- "Expected: ThrowAnInteger() throws an exception of "
- "type bool.\n Actual: it throws a different type.");
- EXPECT_NONFATAL_FAILURE(
- EXPECT_THROW(ThrowNothing(), bool),
- "Expected: ThrowNothing() throws an exception of type bool.\n"
- " Actual: it throws nothing.");
- }
- // Tests EXPECT_NO_THROW.
- TEST(ExpectTest, EXPECT_NO_THROW) {
- EXPECT_NO_THROW(ThrowNothing());
- EXPECT_NONFATAL_FAILURE(EXPECT_NO_THROW(ThrowAnInteger()),
- "Expected: ThrowAnInteger() doesn't throw an "
- "exception.\n Actual: it throws.");
- }
- // Tests EXPECT_ANY_THROW.
- TEST(ExpectTest, EXPECT_ANY_THROW) {
- EXPECT_ANY_THROW(ThrowAnInteger());
- EXPECT_NONFATAL_FAILURE(
- EXPECT_ANY_THROW(ThrowNothing()),
- "Expected: ThrowNothing() throws an exception.\n"
- " Actual: it doesn't.");
- }
- #endif // GTEST_HAS_EXCEPTIONS
- // Make sure we deal with the precedence of <<.
- TEST(ExpectTest, ExpectPrecedence) {
- EXPECT_EQ(1 < 2, true);
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(true, true && false),
- "To be equal to: true && false");
- }
- // Tests the StreamableToString() function.
- // Tests using StreamableToString() on a scalar.
- TEST(StreamableToStringTest, Scalar) {
- EXPECT_STREQ("5", StreamableToString(5).c_str());
- }
- // Tests using StreamableToString() on a non-char pointer.
- TEST(StreamableToStringTest, Pointer) {
- int n = 0;
- int* p = &n;
- EXPECT_STRNE("(null)", StreamableToString(p).c_str());
- }
- // Tests using StreamableToString() on a NULL non-char pointer.
- TEST(StreamableToStringTest, NullPointer) {
- int* p = NULL;
- EXPECT_STREQ("(null)", StreamableToString(p).c_str());
- }
- // Tests using StreamableToString() on a C string.
- TEST(StreamableToStringTest, CString) {
- EXPECT_STREQ("Foo", StreamableToString("Foo").c_str());
- }
- // Tests using StreamableToString() on a NULL C string.
- TEST(StreamableToStringTest, NullCString) {
- char* p = NULL;
- EXPECT_STREQ("(null)", StreamableToString(p).c_str());
- }
- // Tests using streamable values as assertion messages.
- // Tests using std::string as an assertion message.
- TEST(StreamableTest, string) {
- static const std::string str(
- "This failure message is a std::string, and is expected.");
- EXPECT_FATAL_FAILURE(FAIL() << str,
- str.c_str());
- }
- // Tests that we can output strings containing embedded NULs.
- // Limited to Linux because we can only do this with std::string's.
- TEST(StreamableTest, stringWithEmbeddedNUL) {
- static const char char_array_with_nul[] =
- "Here's a NUL\0 and some more string";
- static const std::string string_with_nul(char_array_with_nul,
- sizeof(char_array_with_nul)
- - 1); // drops the trailing NUL
- EXPECT_FATAL_FAILURE(FAIL() << string_with_nul,
- "Here's a NUL\\0 and some more string");
- }
- // Tests that we can output a NUL char.
- TEST(StreamableTest, NULChar) {
- EXPECT_FATAL_FAILURE({ // NOLINT
- FAIL() << "A NUL" << '\0' << " and some more string";
- }, "A NUL\\0 and some more string");
- }
- // Tests using int as an assertion message.
- TEST(StreamableTest, int) {
- EXPECT_FATAL_FAILURE(FAIL() << 900913,
- "900913");
- }
- // Tests using NULL char pointer as an assertion message.
- //
- // In MSVC, streaming a NULL char * causes access violation. Google Test
- // implemented a workaround (substituting "(null)" for NULL). This
- // tests whether the workaround works.
- TEST(StreamableTest, NullCharPtr) {
- EXPECT_FATAL_FAILURE(FAIL() << static_cast<const char*>(NULL),
- "(null)");
- }
- // Tests that basic IO manipulators (endl, ends, and flush) can be
- // streamed to testing::Message.
- TEST(StreamableTest, BasicIoManip) {
- EXPECT_FATAL_FAILURE({ // NOLINT
- FAIL() << "Line 1." << std::endl
- << "A NUL char " << std::ends << std::flush << " in line 2.";
- }, "Line 1.\nA NUL char \\0 in line 2.");
- }
- // Tests the macros that haven't been covered so far.
- void AddFailureHelper(bool* aborted) {
- *aborted = true;
- ADD_FAILURE() << "Intentional failure.";
- *aborted = false;
- }
- // Tests ADD_FAILURE.
- TEST(MacroTest, ADD_FAILURE) {
- bool aborted = true;
- EXPECT_NONFATAL_FAILURE(AddFailureHelper(&aborted),
- "Intentional failure.");
- EXPECT_FALSE(aborted);
- }
- // Tests ADD_FAILURE_AT.
- TEST(MacroTest, ADD_FAILURE_AT) {
- // Verifies that ADD_FAILURE_AT does generate a nonfatal failure and
- // the failure message contains the user-streamed part.
- EXPECT_NONFATAL_FAILURE(ADD_FAILURE_AT("foo.cc", 42) << "Wrong!", "Wrong!");
- // Verifies that the user-streamed part is optional.
- EXPECT_NONFATAL_FAILURE(ADD_FAILURE_AT("foo.cc", 42), "Failed");
- // Unfortunately, we cannot verify that the failure message contains
- // the right file path and line number the same way, as
- // EXPECT_NONFATAL_FAILURE() doesn't get to see the file path and
- // line number. Instead, we do that in gtest_output_test_.cc.
- }
- // Tests FAIL.
- TEST(MacroTest, FAIL) {
- EXPECT_FATAL_FAILURE(FAIL(),
- "Failed");
- EXPECT_FATAL_FAILURE(FAIL() << "Intentional failure.",
- "Intentional failure.");
- }
- // Tests SUCCEED
- TEST(MacroTest, SUCCEED) {
- SUCCEED();
- SUCCEED() << "Explicit success.";
- }
- // Tests for EXPECT_EQ() and ASSERT_EQ().
- //
- // These tests fail *intentionally*, s.t. the failure messages can be
- // generated and tested.
- //
- // We have different tests for different argument types.
- // Tests using bool values in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, Bool) {
- EXPECT_EQ(true, true);
- EXPECT_FATAL_FAILURE({
- bool false_value = false;
- ASSERT_EQ(false_value, true);
- }, "To be equal to: true");
- }
- // Tests using int values in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, Int) {
- ASSERT_EQ(32, 32);
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(32, 33),
- "33");
- }
- // Tests using time_t values in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, Time_T) {
- EXPECT_EQ(static_cast<time_t>(0),
- static_cast<time_t>(0));
- EXPECT_FATAL_FAILURE(ASSERT_EQ(static_cast<time_t>(0),
- static_cast<time_t>(1234)),
- "1234");
- }
- // Tests using char values in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, Char) {
- ASSERT_EQ('z', 'z');
- const char ch = 'b';
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ('\0', ch),
- "ch");
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ('a', ch),
- "ch");
- }
- // Tests using wchar_t values in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, WideChar) {
- EXPECT_EQ(L'b', L'b');
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(L'\0', L'x'),
- " Expected: L'\0'\n"
- " Which is: L'\0' (0, 0x0)\n"
- "To be equal to: L'x'\n"
- " Which is: L'x' (120, 0x78)");
- static wchar_t wchar;
- wchar = L'b';
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(L'a', wchar),
- "wchar");
- wchar = 0x8119;
- EXPECT_FATAL_FAILURE(ASSERT_EQ(static_cast<wchar_t>(0x8120), wchar),
- "To be equal to: wchar");
- }
- // Tests using ::std::string values in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, StdString) {
- // Compares a const char* to an std::string that has identical
- // content.
- ASSERT_EQ("Test", ::std::string("Test"));
- // Compares two identical std::strings.
- static const ::std::string str1("A * in the middle");
- static const ::std::string str2(str1);
- EXPECT_EQ(str1, str2);
- // Compares a const char* to an std::string that has different
- // content
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ("Test", ::std::string("test")),
- "\"test\"");
- // Compares an std::string to a char* that has different content.
- char* const p1 = const_cast<char*>("foo");
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(::std::string("bar"), p1),
- "p1");
- // Compares two std::strings that have different contents, one of
- // which having a NUL character in the middle. This should fail.
- static ::std::string str3(str1);
- str3.at(2) = '\0';
- EXPECT_FATAL_FAILURE(ASSERT_EQ(str1, str3),
- "To be equal to: str3\n"
- " Which is: \"A \\0 in the middle\"");
- }
- #if GTEST_HAS_STD_WSTRING
- // Tests using ::std::wstring values in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, StdWideString) {
- // Compares two identical std::wstrings.
- const ::std::wstring wstr1(L"A * in the middle");
- const ::std::wstring wstr2(wstr1);
- ASSERT_EQ(wstr1, wstr2);
- // Compares an std::wstring to a const wchar_t* that has identical
- // content.
- const wchar_t kTestX8119[] = { 'T', 'e', 's', 't', 0x8119, '\0' };
- EXPECT_EQ(::std::wstring(kTestX8119), kTestX8119);
- // Compares an std::wstring to a const wchar_t* that has different
- // content.
- const wchar_t kTestX8120[] = { 'T', 'e', 's', 't', 0x8120, '\0' };
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_EQ(::std::wstring(kTestX8119), kTestX8120);
- }, "kTestX8120");
- // Compares two std::wstrings that have different contents, one of
- // which having a NUL character in the middle.
- ::std::wstring wstr3(wstr1);
- wstr3.at(2) = L'\0';
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(wstr1, wstr3),
- "wstr3");
- // Compares a wchar_t* to an std::wstring that has different
- // content.
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_EQ(const_cast<wchar_t*>(L"foo"), ::std::wstring(L"bar"));
- }, "");
- }
- #endif // GTEST_HAS_STD_WSTRING
- #if GTEST_HAS_GLOBAL_STRING
- // Tests using ::string values in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, GlobalString) {
- // Compares a const char* to a ::string that has identical content.
- EXPECT_EQ("Test", ::string("Test"));
- // Compares two identical ::strings.
- const ::string str1("A * in the middle");
- const ::string str2(str1);
- ASSERT_EQ(str1, str2);
- // Compares a ::string to a const char* that has different content.
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(::string("Test"), "test"),
- "test");
- // Compares two ::strings that have different contents, one of which
- // having a NUL character in the middle.
- ::string str3(str1);
- str3.at(2) = '\0';
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(str1, str3),
- "str3");
- // Compares a ::string to a char* that has different content.
- EXPECT_FATAL_FAILURE({ // NOLINT
- ASSERT_EQ(::string("bar"), const_cast<char*>("foo"));
- }, "");
- }
- #endif // GTEST_HAS_GLOBAL_STRING
- #if GTEST_HAS_GLOBAL_WSTRING
- // Tests using ::wstring values in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, GlobalWideString) {
- // Compares two identical ::wstrings.
- static const ::wstring wstr1(L"A * in the middle");
- static const ::wstring wstr2(wstr1);
- EXPECT_EQ(wstr1, wstr2);
- // Compares a const wchar_t* to a ::wstring that has identical content.
- const wchar_t kTestX8119[] = { 'T', 'e', 's', 't', 0x8119, '\0' };
- ASSERT_EQ(kTestX8119, ::wstring(kTestX8119));
- // Compares a const wchar_t* to a ::wstring that has different
- // content.
- const wchar_t kTestX8120[] = { 'T', 'e', 's', 't', 0x8120, '\0' };
- EXPECT_NONFATAL_FAILURE({ // NOLINT
- EXPECT_EQ(kTestX8120, ::wstring(kTestX8119));
- }, "Test\\x8119");
- // Compares a wchar_t* to a ::wstring that has different content.
- wchar_t* const p1 = const_cast<wchar_t*>(L"foo");
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(p1, ::wstring(L"bar")),
- "bar");
- // Compares two ::wstrings that have different contents, one of which
- // having a NUL character in the middle.
- static ::wstring wstr3;
- wstr3 = wstr1;
- wstr3.at(2) = L'\0';
- EXPECT_FATAL_FAILURE(ASSERT_EQ(wstr1, wstr3),
- "wstr3");
- }
- #endif // GTEST_HAS_GLOBAL_WSTRING
- // Tests using char pointers in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, CharPointer) {
- char* const p0 = NULL;
- // Only way to get the Nokia compiler to compile the cast
- // is to have a separate void* variable first. Putting
- // the two casts on the same line doesn't work, neither does
- // a direct C-style to char*.
- void* pv1 = (void*)0x1234; // NOLINT
- void* pv2 = (void*)0xABC0; // NOLINT
- char* const p1 = reinterpret_cast<char*>(pv1);
- char* const p2 = reinterpret_cast<char*>(pv2);
- ASSERT_EQ(p1, p1);
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(p0, p2),
- "To be equal to: p2");
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(p1, p2),
- "p2");
- EXPECT_FATAL_FAILURE(ASSERT_EQ(reinterpret_cast<char*>(0x1234),
- reinterpret_cast<char*>(0xABC0)),
- "ABC0");
- }
- // Tests using wchar_t pointers in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, WideCharPointer) {
- wchar_t* const p0 = NULL;
- // Only way to get the Nokia compiler to compile the cast
- // is to have a separate void* variable first. Putting
- // the two casts on the same line doesn't work, neither does
- // a direct C-style to char*.
- void* pv1 = (void*)0x1234; // NOLINT
- void* pv2 = (void*)0xABC0; // NOLINT
- wchar_t* const p1 = reinterpret_cast<wchar_t*>(pv1);
- wchar_t* const p2 = reinterpret_cast<wchar_t*>(pv2);
- EXPECT_EQ(p0, p0);
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(p0, p2),
- "To be equal to: p2");
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(p1, p2),
- "p2");
- void* pv3 = (void*)0x1234; // NOLINT
- void* pv4 = (void*)0xABC0; // NOLINT
- const wchar_t* p3 = reinterpret_cast<const wchar_t*>(pv3);
- const wchar_t* p4 = reinterpret_cast<const wchar_t*>(pv4);
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(p3, p4),
- "p4");
- }
- // Tests using other types of pointers in {EXPECT|ASSERT}_EQ.
- TEST(EqAssertionTest, OtherPointer) {
- ASSERT_EQ(static_cast<const int*>(NULL),
- static_cast<const int*>(NULL));
- EXPECT_FATAL_FAILURE(ASSERT_EQ(static_cast<const int*>(NULL),
- reinterpret_cast<const int*>(0x1234)),
- "0x1234");
- }
- // A class that supports binary comparison operators but not streaming.
- class UnprintableChar {
- public:
- explicit UnprintableChar(char ch) : char_(ch) {}
- bool operator==(const UnprintableChar& rhs) const {
- return char_ == rhs.char_;
- }
- bool operator!=(const UnprintableChar& rhs) const {
- return char_ != rhs.char_;
- }
- bool operator<(const UnprintableChar& rhs) const {
- return char_ < rhs.char_;
- }
- bool operator<=(const UnprintableChar& rhs) const {
- return char_ <= rhs.char_;
- }
- bool operator>(const UnprintableChar& rhs) const {
- return char_ > rhs.char_;
- }
- bool operator>=(const UnprintableChar& rhs) const {
- return char_ >= rhs.char_;
- }
- private:
- char char_;
- };
- // Tests that ASSERT_EQ() and friends don't require the arguments to
- // be printable.
- TEST(ComparisonAssertionTest, AcceptsUnprintableArgs) {
- const UnprintableChar x('x'), y('y');
- ASSERT_EQ(x, x);
- EXPECT_NE(x, y);
- ASSERT_LT(x, y);
- EXPECT_LE(x, y);
- ASSERT_GT(y, x);
- EXPECT_GE(x, x);
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(x, y), "1-byte object <78>");
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(x, y), "1-byte object <79>");
- EXPECT_NONFATAL_FAILURE(EXPECT_LT(y, y), "1-byte object <79>");
- EXPECT_NONFATAL_FAILURE(EXPECT_GT(x, y), "1-byte object <78>");
- EXPECT_NONFATAL_FAILURE(EXPECT_GT(x, y), "1-byte object <79>");
- // Code tested by EXPECT_FATAL_FAILURE cannot reference local
- // variables, so we have to write UnprintableChar('x') instead of x.
- #ifndef __BORLANDC__
- // ICE's in C++Builder.
- EXPECT_FATAL_FAILURE(ASSERT_NE(UnprintableChar('x'), UnprintableChar('x')),
- "1-byte object <78>");
- EXPECT_FATAL_FAILURE(ASSERT_LE(UnprintableChar('y'), UnprintableChar('x')),
- "1-byte object <78>");
- #endif
- EXPECT_FATAL_FAILURE(ASSERT_LE(UnprintableChar('y'), UnprintableChar('x')),
- "1-byte object <79>");
- EXPECT_FATAL_FAILURE(ASSERT_GE(UnprintableChar('x'), UnprintableChar('y')),
- "1-byte object <78>");
- EXPECT_FATAL_FAILURE(ASSERT_GE(UnprintableChar('x'), UnprintableChar('y')),
- "1-byte object <79>");
- }
- // Tests the FRIEND_TEST macro.
- // This class has a private member we want to test. We will test it
- // both in a TEST and in a TEST_F.
- class Foo {
- public:
- Foo() {}
- private:
- int Bar() const { return 1; }
- // Declares the friend tests that can access the private member
- // Bar().
- FRIEND_TEST(FRIEND_TEST_Test, TEST);
- FRIEND_TEST(FRIEND_TEST_Test2, TEST_F);
- };
- // Tests that the FRIEND_TEST declaration allows a TEST to access a
- // class's private members. This should compile.
- TEST(FRIEND_TEST_Test, TEST) {
- ASSERT_EQ(1, Foo().Bar());
- }
- // The fixture needed to test using FRIEND_TEST with TEST_F.
- class FRIEND_TEST_Test2 : public Test {
- protected:
- Foo foo;
- };
- // Tests that the FRIEND_TEST declaration allows a TEST_F to access a
- // class's private members. This should compile.
- TEST_F(FRIEND_TEST_Test2, TEST_F) {
- ASSERT_EQ(1, foo.Bar());
- }
- // Tests the life cycle of Test objects.
- // The test fixture for testing the life cycle of Test objects.
- //
- // This class counts the number of live test objects that uses this
- // fixture.
- class TestLifeCycleTest : public Test {
- protected:
- // Constructor. Increments the number of test objects that uses
- // this fixture.
- TestLifeCycleTest() { count_++; }
- // Destructor. Decrements the number of test objects that uses this
- // fixture.
- ~TestLifeCycleTest() { count_--; }
- // Returns the number of live test objects that uses this fixture.
- int count() const { return count_; }
- private:
- static int count_;
- };
- int TestLifeCycleTest::count_ = 0;
- // Tests the life cycle of test objects.
- TEST_F(TestLifeCycleTest, Test1) {
- // There should be only one test object in this test case that's
- // currently alive.
- ASSERT_EQ(1, count());
- }
- // Tests the life cycle of test objects.
- TEST_F(TestLifeCycleTest, Test2) {
- // After Test1 is done and Test2 is started, there should still be
- // only one live test object, as the object for Test1 should've been
- // deleted.
- ASSERT_EQ(1, count());
- }
- } // namespace
- // Tests that the copy constructor works when it is NOT optimized away by
- // the compiler.
- TEST(AssertionResultTest, CopyConstructorWorksWhenNotOptimied) {
- // Checks that the copy constructor doesn't try to dereference NULL pointers
- // in the source object.
- AssertionResult r1 = AssertionSuccess();
- AssertionResult r2 = r1;
- // The following line is added to prevent the compiler from optimizing
- // away the constructor call.
- r1 << "abc";
- AssertionResult r3 = r1;
- EXPECT_EQ(static_cast<bool>(r3), static_cast<bool>(r1));
- EXPECT_STREQ("abc", r1.message());
- }
- // Tests that AssertionSuccess and AssertionFailure construct
- // AssertionResult objects as expected.
- TEST(AssertionResultTest, ConstructionWorks) {
- AssertionResult r1 = AssertionSuccess();
- EXPECT_TRUE(r1);
- EXPECT_STREQ("", r1.message());
- AssertionResult r2 = AssertionSuccess() << "abc";
- EXPECT_TRUE(r2);
- EXPECT_STREQ("abc", r2.message());
- AssertionResult r3 = AssertionFailure();
- EXPECT_FALSE(r3);
- EXPECT_STREQ("", r3.message());
- AssertionResult r4 = AssertionFailure() << "def";
- EXPECT_FALSE(r4);
- EXPECT_STREQ("def", r4.message());
- AssertionResult r5 = AssertionFailure(Message() << "ghi");
- EXPECT_FALSE(r5);
- EXPECT_STREQ("ghi", r5.message());
- }
- // Tests that the negation flips the predicate result but keeps the message.
- TEST(AssertionResultTest, NegationWorks) {
- AssertionResult r1 = AssertionSuccess() << "abc";
- EXPECT_FALSE(!r1);
- EXPECT_STREQ("abc", (!r1).message());
- AssertionResult r2 = AssertionFailure() << "def";
- EXPECT_TRUE(!r2);
- EXPECT_STREQ("def", (!r2).message());
- }
- TEST(AssertionResultTest, StreamingWorks) {
- AssertionResult r = AssertionSuccess();
- r << "abc" << 'd' << 0 << true;
- EXPECT_STREQ("abcd0true", r.message());
- }
- TEST(AssertionResultTest, CanStreamOstreamManipulators) {
- AssertionResult r = AssertionSuccess();
- r << "Data" << std::endl << std::flush << std::ends << "Will be visible";
- EXPECT_STREQ("Data\n\\0Will be visible", r.message());
- }
- // The next test uses explicit conversion operators -- a C++11 feature.
- #if GTEST_LANG_CXX11
- TEST(AssertionResultTest, ConstructibleFromContextuallyConvertibleToBool) {
- struct ExplicitlyConvertibleToBool {
- explicit operator bool() const { return value; }
- bool value;
- };
- ExplicitlyConvertibleToBool v1 = {false};
- ExplicitlyConvertibleToBool v2 = {true};
- EXPECT_FALSE(v1);
- EXPECT_TRUE(v2);
- }
- #endif // GTEST_LANG_CXX11
- struct ConvertibleToAssertionResult {
- operator AssertionResult() const { return AssertionResult(true); }
- };
- TEST(AssertionResultTest, ConstructibleFromImplicitlyConvertible) {
- ConvertibleToAssertionResult obj;
- EXPECT_TRUE(obj);
- }
- // Tests streaming a user type whose definition and operator << are
- // both in the global namespace.
- class Base {
- public:
- explicit Base(int an_x) : x_(an_x) {}
- int x() const { return x_; }
- private:
- int x_;
- };
- std::ostream& operator<<(std::ostream& os,
- const Base& val) {
- return os << val.x();
- }
- std::ostream& operator<<(std::ostream& os,
- const Base* pointer) {
- return os << "(" << pointer->x() << ")";
- }
- TEST(MessageTest, CanStreamUserTypeInGlobalNameSpace) {
- Message msg;
- Base a(1);
- msg << a << &a; // Uses ::operator<<.
- EXPECT_STREQ("1(1)", msg.GetString().c_str());
- }
- // Tests streaming a user type whose definition and operator<< are
- // both in an unnamed namespace.
- namespace {
- class MyTypeInUnnamedNameSpace : public Base {
- public:
- explicit MyTypeInUnnamedNameSpace(int an_x): Base(an_x) {}
- };
- std::ostream& operator<<(std::ostream& os,
- const MyTypeInUnnamedNameSpace& val) {
- return os << val.x();
- }
- std::ostream& operator<<(std::ostream& os,
- const MyTypeInUnnamedNameSpace* pointer) {
- return os << "(" << pointer->x() << ")";
- }
- } // namespace
- TEST(MessageTest, CanStreamUserTypeInUnnamedNameSpace) {
- Message msg;
- MyTypeInUnnamedNameSpace a(1);
- msg << a << &a; // Uses <unnamed_namespace>::operator<<.
- EXPECT_STREQ("1(1)", msg.GetString().c_str());
- }
- // Tests streaming a user type whose definition and operator<< are
- // both in a user namespace.
- namespace namespace1 {
- class MyTypeInNameSpace1 : public Base {
- public:
- explicit MyTypeInNameSpace1(int an_x): Base(an_x) {}
- };
- std::ostream& operator<<(std::ostream& os,
- const MyTypeInNameSpace1& val) {
- return os << val.x();
- }
- std::ostream& operator<<(std::ostream& os,
- const MyTypeInNameSpace1* pointer) {
- return os << "(" << pointer->x() << ")";
- }
- } // namespace namespace1
- TEST(MessageTest, CanStreamUserTypeInUserNameSpace) {
- Message msg;
- namespace1::MyTypeInNameSpace1 a(1);
- msg << a << &a; // Uses namespace1::operator<<.
- EXPECT_STREQ("1(1)", msg.GetString().c_str());
- }
- // Tests streaming a user type whose definition is in a user namespace
- // but whose operator<< is in the global namespace.
- namespace namespace2 {
- class MyTypeInNameSpace2 : public ::Base {
- public:
- explicit MyTypeInNameSpace2(int an_x): Base(an_x) {}
- };
- } // namespace namespace2
- std::ostream& operator<<(std::ostream& os,
- const namespace2::MyTypeInNameSpace2& val) {
- return os << val.x();
- }
- std::ostream& operator<<(std::ostream& os,
- const namespace2::MyTypeInNameSpace2* pointer) {
- return os << "(" << pointer->x() << ")";
- }
- TEST(MessageTest, CanStreamUserTypeInUserNameSpaceWithStreamOperatorInGlobal) {
- Message msg;
- namespace2::MyTypeInNameSpace2 a(1);
- msg << a << &a; // Uses ::operator<<.
- EXPECT_STREQ("1(1)", msg.GetString().c_str());
- }
- // Tests streaming NULL pointers to testing::Message.
- TEST(MessageTest, NullPointers) {
- Message msg;
- char* const p1 = NULL;
- unsigned char* const p2 = NULL;
- int* p3 = NULL;
- double* p4 = NULL;
- bool* p5 = NULL;
- Message* p6 = NULL;
- msg << p1 << p2 << p3 << p4 << p5 << p6;
- ASSERT_STREQ("(null)(null)(null)(null)(null)(null)",
- msg.GetString().c_str());
- }
- // Tests streaming wide strings to testing::Message.
- TEST(MessageTest, WideStrings) {
- // Streams a NULL of type const wchar_t*.
- const wchar_t* const_wstr = NULL;
- EXPECT_STREQ("(null)",
- (Message() << const_wstr).GetString().c_str());
- // Streams a NULL of type wchar_t*.
- wchar_t* wstr = NULL;
- EXPECT_STREQ("(null)",
- (Message() << wstr).GetString().c_str());
- // Streams a non-NULL of type const wchar_t*.
- const_wstr = L"abc\x8119";
- EXPECT_STREQ("abc\xe8\x84\x99",
- (Message() << const_wstr).GetString().c_str());
- // Streams a non-NULL of type wchar_t*.
- wstr = const_cast<wchar_t*>(const_wstr);
- EXPECT_STREQ("abc\xe8\x84\x99",
- (Message() << wstr).GetString().c_str());
- }
- // This line tests that we can define tests in the testing namespace.
- namespace testing {
- // Tests the TestInfo class.
- class TestInfoTest : public Test {
- protected:
- static const TestInfo* GetTestInfo(const char* test_name) {
- const TestCase* const test_case = GetUnitTestImpl()->
- GetTestCase("TestInfoTest", "", NULL, NULL);
- for (int i = 0; i < test_case->total_test_count(); ++i) {
- const TestInfo* const test_info = test_case->GetTestInfo(i);
- if (strcmp(test_name, test_info->name()) == 0)
- return test_info;
- }
- return NULL;
- }
- static const TestResult* GetTestResult(
- const TestInfo* test_info) {
- return test_info->result();
- }
- };
- // Tests TestInfo::test_case_name() and TestInfo::name().
- TEST_F(TestInfoTest, Names) {
- const TestInfo* const test_info = GetTestInfo("Names");
- ASSERT_STREQ("TestInfoTest", test_info->test_case_name());
- ASSERT_STREQ("Names", test_info->name());
- }
- // Tests TestInfo::result().
- TEST_F(TestInfoTest, result) {
- const TestInfo* const test_info = GetTestInfo("result");
- // Initially, there is no TestPartResult for this test.
- ASSERT_EQ(0, GetTestResult(test_info)->total_part_count());
- // After the previous assertion, there is still none.
- ASSERT_EQ(0, GetTestResult(test_info)->total_part_count());
- }
- #define VERIFY_CODE_LOCATION \
- const int expected_line = __LINE__ - 1; \
- const TestInfo* const test_info = GetUnitTestImpl()->current_test_info(); \
- ASSERT_TRUE(test_info); \
- EXPECT_STREQ(__FILE__, test_info->file()); \
- EXPECT_EQ(expected_line, test_info->line())
- TEST(CodeLocationForTEST, Verify) {
- VERIFY_CODE_LOCATION;
- }
- class CodeLocationForTESTF : public Test {
- };
- TEST_F(CodeLocationForTESTF, Verify) {
- VERIFY_CODE_LOCATION;
- }
- class CodeLocationForTESTP : public TestWithParam<int> {
- };
- TEST_P(CodeLocationForTESTP, Verify) {
- VERIFY_CODE_LOCATION;
- }
- INSTANTIATE_TEST_CASE_P(, CodeLocationForTESTP, Values(0));
- template <typename T>
- class CodeLocationForTYPEDTEST : public Test {
- };
- TYPED_TEST_CASE(CodeLocationForTYPEDTEST, int);
- TYPED_TEST(CodeLocationForTYPEDTEST, Verify) {
- VERIFY_CODE_LOCATION;
- }
- template <typename T>
- class CodeLocationForTYPEDTESTP : public Test {
- };
- TYPED_TEST_CASE_P(CodeLocationForTYPEDTESTP);
- TYPED_TEST_P(CodeLocationForTYPEDTESTP, Verify) {
- VERIFY_CODE_LOCATION;
- }
- REGISTER_TYPED_TEST_CASE_P(CodeLocationForTYPEDTESTP, Verify);
- INSTANTIATE_TYPED_TEST_CASE_P(My, CodeLocationForTYPEDTESTP, int);
- #undef VERIFY_CODE_LOCATION
- // Tests setting up and tearing down a test case.
- class SetUpTestCaseTest : public Test {
- protected:
- // This will be called once before the first test in this test case
- // is run.
- static void SetUpTestCase() {
- printf("Setting up the test case . . .\n");
- // Initializes some shared resource. In this simple example, we
- // just create a C string. More complex stuff can be done if
- // desired.
- shared_resource_ = "123";
- // Increments the number of test cases that have been set up.
- counter_++;
- // SetUpTestCase() should be called only once.
- EXPECT_EQ(1, counter_);
- }
- // This will be called once after the last test in this test case is
- // run.
- static void TearDownTestCase() {
- printf("Tearing down the test case . . .\n");
- // Decrements the number of test cases that have been set up.
- counter_--;
- // TearDownTestCase() should be called only once.
- EXPECT_EQ(0, counter_);
- // Cleans up the shared resource.
- shared_resource_ = NULL;
- }
- // This will be called before each test in this test case.
- virtual void SetUp() {
- // SetUpTestCase() should be called only once, so counter_ should
- // always be 1.
- EXPECT_EQ(1, counter_);
- }
- // Number of test cases that have been set up.
- static int counter_;
- // Some resource to be shared by all tests in this test case.
- static const char* shared_resource_;
- };
- int SetUpTestCaseTest::counter_ = 0;
- const char* SetUpTestCaseTest::shared_resource_ = NULL;
- // A test that uses the shared resource.
- TEST_F(SetUpTestCaseTest, Test1) {
- EXPECT_STRNE(NULL, shared_resource_);
- }
- // Another test that uses the shared resource.
- TEST_F(SetUpTestCaseTest, Test2) {
- EXPECT_STREQ("123", shared_resource_);
- }
- // The InitGoogleTestTest test case tests testing::InitGoogleTest().
- // The Flags struct stores a copy of all Google Test flags.
- struct Flags {
- // Constructs a Flags struct where each flag has its default value.
- Flags() : also_run_disabled_tests(false),
- break_on_failure(false),
- catch_exceptions(false),
- death_test_use_fork(false),
- filter(""),
- list_tests(false),
- output(""),
- print_time(true),
- random_seed(0),
- repeat(1),
- shuffle(false),
- stack_trace_depth(kMaxStackTraceDepth),
- stream_result_to(""),
- throw_on_failure(false) {}
- // Factory methods.
- // Creates a Flags struct where the gtest_also_run_disabled_tests flag has
- // the given value.
- static Flags AlsoRunDisabledTests(bool also_run_disabled_tests) {
- Flags flags;
- flags.also_run_disabled_tests = also_run_disabled_tests;
- return flags;
- }
- // Creates a Flags struct where the gtest_break_on_failure flag has
- // the given value.
- static Flags BreakOnFailure(bool break_on_failure) {
- Flags flags;
- flags.break_on_failure = break_on_failure;
- return flags;
- }
- // Creates a Flags struct where the gtest_catch_exceptions flag has
- // the given value.
- static Flags CatchExceptions(bool catch_exceptions) {
- Flags flags;
- flags.catch_exceptions = catch_exceptions;
- return flags;
- }
- // Creates a Flags struct where the gtest_death_test_use_fork flag has
- // the given value.
- static Flags DeathTestUseFork(bool death_test_use_fork) {
- Flags flags;
- flags.death_test_use_fork = death_test_use_fork;
- return flags;
- }
- // Creates a Flags struct where the gtest_filter flag has the given
- // value.
- static Flags Filter(const char* filter) {
- Flags flags;
- flags.filter = filter;
- return flags;
- }
- // Creates a Flags struct where the gtest_list_tests flag has the
- // given value.
- static Flags ListTests(bool list_tests) {
- Flags flags;
- flags.list_tests = list_tests;
- return flags;
- }
- // Creates a Flags struct where the gtest_output flag has the given
- // value.
- static Flags Output(const char* output) {
- Flags flags;
- flags.output = output;
- return flags;
- }
- // Creates a Flags struct where the gtest_print_time flag has the given
- // value.
- static Flags PrintTime(bool print_time) {
- Flags flags;
- flags.print_time = print_time;
- return flags;
- }
- // Creates a Flags struct where the gtest_random_seed flag has
- // the given value.
- static Flags RandomSeed(Int32 random_seed) {
- Flags flags;
- flags.random_seed = random_seed;
- return flags;
- }
- // Creates a Flags struct where the gtest_repeat flag has the given
- // value.
- static Flags Repeat(Int32 repeat) {
- Flags flags;
- flags.repeat = repeat;
- return flags;
- }
- // Creates a Flags struct where the gtest_shuffle flag has
- // the given value.
- static Flags Shuffle(bool shuffle) {
- Flags flags;
- flags.shuffle = shuffle;
- return flags;
- }
- // Creates a Flags struct where the GTEST_FLAG(stack_trace_depth) flag has
- // the given value.
- static Flags StackTraceDepth(Int32 stack_trace_depth) {
- Flags flags;
- flags.stack_trace_depth = stack_trace_depth;
- return flags;
- }
- // Creates a Flags struct where the GTEST_FLAG(stream_result_to) flag has
- // the given value.
- static Flags StreamResultTo(const char* stream_result_to) {
- Flags flags;
- flags.stream_result_to = stream_result_to;
- return flags;
- }
- // Creates a Flags struct where the gtest_throw_on_failure flag has
- // the given value.
- static Flags ThrowOnFailure(bool throw_on_failure) {
- Flags flags;
- flags.throw_on_failure = throw_on_failure;
- return flags;
- }
- // These fields store the flag values.
- bool also_run_disabled_tests;
- bool break_on_failure;
- bool catch_exceptions;
- bool death_test_use_fork;
- const char* filter;
- bool list_tests;
- const char* output;
- bool print_time;
- Int32 random_seed;
- Int32 repeat;
- bool shuffle;
- Int32 stack_trace_depth;
- const char* stream_result_to;
- bool throw_on_failure;
- };
- // Fixture for testing InitGoogleTest().
- class InitGoogleTestTest : public Test {
- protected:
- // Clears the flags before each test.
- virtual void SetUp() {
- GTEST_FLAG(also_run_disabled_tests) = false;
- GTEST_FLAG(break_on_failure) = false;
- GTEST_FLAG(catch_exceptions) = false;
- GTEST_FLAG(death_test_use_fork) = false;
- GTEST_FLAG(filter) = "";
- GTEST_FLAG(list_tests) = false;
- GTEST_FLAG(output) = "";
- GTEST_FLAG(print_time) = true;
- GTEST_FLAG(random_seed) = 0;
- GTEST_FLAG(repeat) = 1;
- GTEST_FLAG(shuffle) = false;
- GTEST_FLAG(stack_trace_depth) = kMaxStackTraceDepth;
- GTEST_FLAG(stream_result_to) = "";
- GTEST_FLAG(throw_on_failure) = false;
- }
- // Asserts that two narrow or wide string arrays are equal.
- template <typename CharType>
- static void AssertStringArrayEq(size_t size1, CharType** array1,
- size_t size2, CharType** array2) {
- ASSERT_EQ(size1, size2) << " Array sizes different.";
- for (size_t i = 0; i != size1; i++) {
- ASSERT_STREQ(array1[i], array2[i]) << " where i == " << i;
- }
- }
- // Verifies that the flag values match the expected values.
- static void CheckFlags(const Flags& expected) {
- EXPECT_EQ(expected.also_run_disabled_tests,
- GTEST_FLAG(also_run_disabled_tests));
- EXPECT_EQ(expected.break_on_failure, GTEST_FLAG(break_on_failure));
- EXPECT_EQ(expected.catch_exceptions, GTEST_FLAG(catch_exceptions));
- EXPECT_EQ(expected.death_test_use_fork, GTEST_FLAG(death_test_use_fork));
- EXPECT_STREQ(expected.filter, GTEST_FLAG(filter).c_str());
- EXPECT_EQ(expected.list_tests, GTEST_FLAG(list_tests));
- EXPECT_STREQ(expected.output, GTEST_FLAG(output).c_str());
- EXPECT_EQ(expected.print_time, GTEST_FLAG(print_time));
- EXPECT_EQ(expected.random_seed, GTEST_FLAG(random_seed));
- EXPECT_EQ(expected.repeat, GTEST_FLAG(repeat));
- EXPECT_EQ(expected.shuffle, GTEST_FLAG(shuffle));
- EXPECT_EQ(expected.stack_trace_depth, GTEST_FLAG(stack_trace_depth));
- EXPECT_STREQ(expected.stream_result_to,
- GTEST_FLAG(stream_result_to).c_str());
- EXPECT_EQ(expected.throw_on_failure, GTEST_FLAG(throw_on_failure));
- }
- // Parses a command line (specified by argc1 and argv1), then
- // verifies that the flag values are expected and that the
- // recognized flags are removed from the command line.
- template <typename CharType>
- static void TestParsingFlags(int argc1, const CharType** argv1,
- int argc2, const CharType** argv2,
- const Flags& expected, bool should_print_help) {
- const bool saved_help_flag = ::testing::internal::g_help_flag;
- ::testing::internal::g_help_flag = false;
- #if GTEST_HAS_STREAM_REDIRECTION
- CaptureStdout();
- #endif
- // Parses the command line.
- internal::ParseGoogleTestFlagsOnly(&argc1, const_cast<CharType**>(argv1));
- #if GTEST_HAS_STREAM_REDIRECTION
- const std::string captured_stdout = GetCapturedStdout();
- #endif
- // Verifies the flag values.
- CheckFlags(expected);
- // Verifies that the recognized flags are removed from the command
- // line.
- AssertStringArrayEq(argc1 + 1, argv1, argc2 + 1, argv2);
- // ParseGoogleTestFlagsOnly should neither set g_help_flag nor print the
- // help message for the flags it recognizes.
- EXPECT_EQ(should_print_help, ::testing::internal::g_help_flag);
- #if GTEST_HAS_STREAM_REDIRECTION
- const char* const expected_help_fragment =
- "This program contains tests written using";
- if (should_print_help) {
- EXPECT_PRED_FORMAT2(IsSubstring, expected_help_fragment, captured_stdout);
- } else {
- EXPECT_PRED_FORMAT2(IsNotSubstring,
- expected_help_fragment, captured_stdout);
- }
- #endif // GTEST_HAS_STREAM_REDIRECTION
- ::testing::internal::g_help_flag = saved_help_flag;
- }
- // This macro wraps TestParsingFlags s.t. the user doesn't need
- // to specify the array sizes.
- #define GTEST_TEST_PARSING_FLAGS_(argv1, argv2, expected, should_print_help) \
- TestParsingFlags(sizeof(argv1)/sizeof(*argv1) - 1, argv1, \
- sizeof(argv2)/sizeof(*argv2) - 1, argv2, \
- expected, should_print_help)
- };
- // Tests parsing an empty command line.
- TEST_F(InitGoogleTestTest, Empty) {
- const char* argv[] = {
- NULL
- };
- const char* argv2[] = {
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags(), false);
- }
- // Tests parsing a command line that has no flag.
- TEST_F(InitGoogleTestTest, NoFlag) {
- const char* argv[] = {
- "foo.exe",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags(), false);
- }
- // Tests parsing a bad --gtest_filter flag.
- TEST_F(InitGoogleTestTest, FilterBad) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_filter",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- "--gtest_filter",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Filter(""), true);
- }
- // Tests parsing an empty --gtest_filter flag.
- TEST_F(InitGoogleTestTest, FilterEmpty) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_filter=",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Filter(""), false);
- }
- // Tests parsing a non-empty --gtest_filter flag.
- TEST_F(InitGoogleTestTest, FilterNonEmpty) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_filter=abc",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Filter("abc"), false);
- }
- // Tests parsing --gtest_break_on_failure.
- TEST_F(InitGoogleTestTest, BreakOnFailureWithoutValue) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_break_on_failure",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::BreakOnFailure(true), false);
- }
- // Tests parsing --gtest_break_on_failure=0.
- TEST_F(InitGoogleTestTest, BreakOnFailureFalse_0) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_break_on_failure=0",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::BreakOnFailure(false), false);
- }
- // Tests parsing --gtest_break_on_failure=f.
- TEST_F(InitGoogleTestTest, BreakOnFailureFalse_f) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_break_on_failure=f",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::BreakOnFailure(false), false);
- }
- // Tests parsing --gtest_break_on_failure=F.
- TEST_F(InitGoogleTestTest, BreakOnFailureFalse_F) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_break_on_failure=F",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::BreakOnFailure(false), false);
- }
- // Tests parsing a --gtest_break_on_failure flag that has a "true"
- // definition.
- TEST_F(InitGoogleTestTest, BreakOnFailureTrue) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_break_on_failure=1",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::BreakOnFailure(true), false);
- }
- // Tests parsing --gtest_catch_exceptions.
- TEST_F(InitGoogleTestTest, CatchExceptions) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_catch_exceptions",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::CatchExceptions(true), false);
- }
- // Tests parsing --gtest_death_test_use_fork.
- TEST_F(InitGoogleTestTest, DeathTestUseFork) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_death_test_use_fork",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::DeathTestUseFork(true), false);
- }
- // Tests having the same flag twice with different values. The
- // expected behavior is that the one coming last takes precedence.
- TEST_F(InitGoogleTestTest, DuplicatedFlags) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_filter=a",
- "--gtest_filter=b",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Filter("b"), false);
- }
- // Tests having an unrecognized flag on the command line.
- TEST_F(InitGoogleTestTest, UnrecognizedFlag) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_break_on_failure",
- "bar", // Unrecognized by Google Test.
- "--gtest_filter=b",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- "bar",
- NULL
- };
- Flags flags;
- flags.break_on_failure = true;
- flags.filter = "b";
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, flags, false);
- }
- // Tests having a --gtest_list_tests flag
- TEST_F(InitGoogleTestTest, ListTestsFlag) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_list_tests",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::ListTests(true), false);
- }
- // Tests having a --gtest_list_tests flag with a "true" value
- TEST_F(InitGoogleTestTest, ListTestsTrue) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_list_tests=1",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::ListTests(true), false);
- }
- // Tests having a --gtest_list_tests flag with a "false" value
- TEST_F(InitGoogleTestTest, ListTestsFalse) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_list_tests=0",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::ListTests(false), false);
- }
- // Tests parsing --gtest_list_tests=f.
- TEST_F(InitGoogleTestTest, ListTestsFalse_f) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_list_tests=f",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::ListTests(false), false);
- }
- // Tests parsing --gtest_list_tests=F.
- TEST_F(InitGoogleTestTest, ListTestsFalse_F) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_list_tests=F",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::ListTests(false), false);
- }
- // Tests parsing --gtest_output (invalid).
- TEST_F(InitGoogleTestTest, OutputEmpty) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_output",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- "--gtest_output",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags(), true);
- }
- // Tests parsing --gtest_output=xml
- TEST_F(InitGoogleTestTest, OutputXml) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_output=xml",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Output("xml"), false);
- }
- // Tests parsing --gtest_output=xml:file
- TEST_F(InitGoogleTestTest, OutputXmlFile) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_output=xml:file",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Output("xml:file"), false);
- }
- // Tests parsing --gtest_output=xml:directory/path/
- TEST_F(InitGoogleTestTest, OutputXmlDirectory) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_output=xml:directory/path/",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2,
- Flags::Output("xml:directory/path/"), false);
- }
- // Tests having a --gtest_print_time flag
- TEST_F(InitGoogleTestTest, PrintTimeFlag) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_print_time",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::PrintTime(true), false);
- }
- // Tests having a --gtest_print_time flag with a "true" value
- TEST_F(InitGoogleTestTest, PrintTimeTrue) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_print_time=1",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::PrintTime(true), false);
- }
- // Tests having a --gtest_print_time flag with a "false" value
- TEST_F(InitGoogleTestTest, PrintTimeFalse) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_print_time=0",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::PrintTime(false), false);
- }
- // Tests parsing --gtest_print_time=f.
- TEST_F(InitGoogleTestTest, PrintTimeFalse_f) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_print_time=f",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::PrintTime(false), false);
- }
- // Tests parsing --gtest_print_time=F.
- TEST_F(InitGoogleTestTest, PrintTimeFalse_F) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_print_time=F",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::PrintTime(false), false);
- }
- // Tests parsing --gtest_random_seed=number
- TEST_F(InitGoogleTestTest, RandomSeed) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_random_seed=1000",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::RandomSeed(1000), false);
- }
- // Tests parsing --gtest_repeat=number
- TEST_F(InitGoogleTestTest, Repeat) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_repeat=1000",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Repeat(1000), false);
- }
- // Tests having a --gtest_also_run_disabled_tests flag
- TEST_F(InitGoogleTestTest, AlsoRunDisabledTestsFlag) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_also_run_disabled_tests",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2,
- Flags::AlsoRunDisabledTests(true), false);
- }
- // Tests having a --gtest_also_run_disabled_tests flag with a "true" value
- TEST_F(InitGoogleTestTest, AlsoRunDisabledTestsTrue) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_also_run_disabled_tests=1",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2,
- Flags::AlsoRunDisabledTests(true), false);
- }
- // Tests having a --gtest_also_run_disabled_tests flag with a "false" value
- TEST_F(InitGoogleTestTest, AlsoRunDisabledTestsFalse) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_also_run_disabled_tests=0",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2,
- Flags::AlsoRunDisabledTests(false), false);
- }
- // Tests parsing --gtest_shuffle.
- TEST_F(InitGoogleTestTest, ShuffleWithoutValue) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_shuffle",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Shuffle(true), false);
- }
- // Tests parsing --gtest_shuffle=0.
- TEST_F(InitGoogleTestTest, ShuffleFalse_0) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_shuffle=0",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Shuffle(false), false);
- }
- // Tests parsing a --gtest_shuffle flag that has a "true"
- // definition.
- TEST_F(InitGoogleTestTest, ShuffleTrue) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_shuffle=1",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Shuffle(true), false);
- }
- // Tests parsing --gtest_stack_trace_depth=number.
- TEST_F(InitGoogleTestTest, StackTraceDepth) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_stack_trace_depth=5",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::StackTraceDepth(5), false);
- }
- TEST_F(InitGoogleTestTest, StreamResultTo) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_stream_result_to=localhost:1234",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(
- argv, argv2, Flags::StreamResultTo("localhost:1234"), false);
- }
- // Tests parsing --gtest_throw_on_failure.
- TEST_F(InitGoogleTestTest, ThrowOnFailureWithoutValue) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_throw_on_failure",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::ThrowOnFailure(true), false);
- }
- // Tests parsing --gtest_throw_on_failure=0.
- TEST_F(InitGoogleTestTest, ThrowOnFailureFalse_0) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_throw_on_failure=0",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::ThrowOnFailure(false), false);
- }
- // Tests parsing a --gtest_throw_on_failure flag that has a "true"
- // definition.
- TEST_F(InitGoogleTestTest, ThrowOnFailureTrue) {
- const char* argv[] = {
- "foo.exe",
- "--gtest_throw_on_failure=1",
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::ThrowOnFailure(true), false);
- }
- #if GTEST_OS_WINDOWS
- // Tests parsing wide strings.
- TEST_F(InitGoogleTestTest, WideStrings) {
- const wchar_t* argv[] = {
- L"foo.exe",
- L"--gtest_filter=Foo*",
- L"--gtest_list_tests=1",
- L"--gtest_break_on_failure",
- L"--non_gtest_flag",
- NULL
- };
- const wchar_t* argv2[] = {
- L"foo.exe",
- L"--non_gtest_flag",
- NULL
- };
- Flags expected_flags;
- expected_flags.break_on_failure = true;
- expected_flags.filter = "Foo*";
- expected_flags.list_tests = true;
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, expected_flags, false);
- }
- # endif // GTEST_OS_WINDOWS
- #if GTEST_USE_OWN_FLAGFILE_FLAG_
- class FlagfileTest : public InitGoogleTestTest {
- public:
- virtual void SetUp() {
- InitGoogleTestTest::SetUp();
- testdata_path_.Set(internal::FilePath(
- internal::TempDir() + internal::GetCurrentExecutableName().string() +
- "_flagfile_test"));
- testing::internal::posix::RmDir(testdata_path_.c_str());
- EXPECT_TRUE(testdata_path_.CreateFolder());
- }
- virtual void TearDown() {
- testing::internal::posix::RmDir(testdata_path_.c_str());
- InitGoogleTestTest::TearDown();
- }
- internal::FilePath CreateFlagfile(const char* contents) {
- internal::FilePath file_path(internal::FilePath::GenerateUniqueFileName(
- testdata_path_, internal::FilePath("unique"), "txt"));
- FILE* f = testing::internal::posix::FOpen(file_path.c_str(), "w");
- fprintf(f, "%s", contents);
- fclose(f);
- return file_path;
- }
- private:
- internal::FilePath testdata_path_;
- };
- // Tests an empty flagfile.
- TEST_F(FlagfileTest, Empty) {
- internal::FilePath flagfile_path(CreateFlagfile(""));
- std::string flagfile_flag =
- std::string("--" GTEST_FLAG_PREFIX_ "flagfile=") + flagfile_path.c_str();
- const char* argv[] = {
- "foo.exe",
- flagfile_flag.c_str(),
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags(), false);
- }
- // Tests passing a non-empty --gtest_filter flag via --gtest_flagfile.
- TEST_F(FlagfileTest, FilterNonEmpty) {
- internal::FilePath flagfile_path(CreateFlagfile(
- "--" GTEST_FLAG_PREFIX_ "filter=abc"));
- std::string flagfile_flag =
- std::string("--" GTEST_FLAG_PREFIX_ "flagfile=") + flagfile_path.c_str();
- const char* argv[] = {
- "foo.exe",
- flagfile_flag.c_str(),
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, Flags::Filter("abc"), false);
- }
- // Tests passing several flags via --gtest_flagfile.
- TEST_F(FlagfileTest, SeveralFlags) {
- internal::FilePath flagfile_path(CreateFlagfile(
- "--" GTEST_FLAG_PREFIX_ "filter=abc\n"
- "--" GTEST_FLAG_PREFIX_ "break_on_failure\n"
- "--" GTEST_FLAG_PREFIX_ "list_tests"));
- std::string flagfile_flag =
- std::string("--" GTEST_FLAG_PREFIX_ "flagfile=") + flagfile_path.c_str();
- const char* argv[] = {
- "foo.exe",
- flagfile_flag.c_str(),
- NULL
- };
- const char* argv2[] = {
- "foo.exe",
- NULL
- };
- Flags expected_flags;
- expected_flags.break_on_failure = true;
- expected_flags.filter = "abc";
- expected_flags.list_tests = true;
- GTEST_TEST_PARSING_FLAGS_(argv, argv2, expected_flags, false);
- }
- #endif // GTEST_USE_OWN_FLAGFILE_FLAG_
- // Tests current_test_info() in UnitTest.
- class CurrentTestInfoTest : public Test {
- protected:
- // Tests that current_test_info() returns NULL before the first test in
- // the test case is run.
- static void SetUpTestCase() {
- // There should be no tests running at this point.
- const TestInfo* test_info =
- UnitTest::GetInstance()->current_test_info();
- EXPECT_TRUE(test_info == NULL)
- << "There should be no tests running at this point.";
- }
- // Tests that current_test_info() returns NULL after the last test in
- // the test case has run.
- static void TearDownTestCase() {
- const TestInfo* test_info =
- UnitTest::GetInstance()->current_test_info();
- EXPECT_TRUE(test_info == NULL)
- << "There should be no tests running at this point.";
- }
- };
- // Tests that current_test_info() returns TestInfo for currently running
- // test by checking the expected test name against the actual one.
- TEST_F(CurrentTestInfoTest, WorksForFirstTestInATestCase) {
- const TestInfo* test_info =
- UnitTest::GetInstance()->current_test_info();
- ASSERT_TRUE(NULL != test_info)
- << "There is a test running so we should have a valid TestInfo.";
- EXPECT_STREQ("CurrentTestInfoTest", test_info->test_case_name())
- << "Expected the name of the currently running test case.";
- EXPECT_STREQ("WorksForFirstTestInATestCase", test_info->name())
- << "Expected the name of the currently running test.";
- }
- // Tests that current_test_info() returns TestInfo for currently running
- // test by checking the expected test name against the actual one. We
- // use this test to see that the TestInfo object actually changed from
- // the previous invocation.
- TEST_F(CurrentTestInfoTest, WorksForSecondTestInATestCase) {
- const TestInfo* test_info =
- UnitTest::GetInstance()->current_test_info();
- ASSERT_TRUE(NULL != test_info)
- << "There is a test running so we should have a valid TestInfo.";
- EXPECT_STREQ("CurrentTestInfoTest", test_info->test_case_name())
- << "Expected the name of the currently running test case.";
- EXPECT_STREQ("WorksForSecondTestInATestCase", test_info->name())
- << "Expected the name of the currently running test.";
- }
- } // namespace testing
- // These two lines test that we can define tests in a namespace that
- // has the name "testing" and is nested in another namespace.
- namespace my_namespace {
- namespace testing {
- // Makes sure that TEST knows to use ::testing::Test instead of
- // ::my_namespace::testing::Test.
- class Test {};
- // Makes sure that an assertion knows to use ::testing::Message instead of
- // ::my_namespace::testing::Message.
- class Message {};
- // Makes sure that an assertion knows to use
- // ::testing::AssertionResult instead of
- // ::my_namespace::testing::AssertionResult.
- class AssertionResult {};
- // Tests that an assertion that should succeed works as expected.
- TEST(NestedTestingNamespaceTest, Success) {
- EXPECT_EQ(1, 1) << "This shouldn't fail.";
- }
- // Tests that an assertion that should fail works as expected.
- TEST(NestedTestingNamespaceTest, Failure) {
- EXPECT_FATAL_FAILURE(FAIL() << "This failure is expected.",
- "This failure is expected.");
- }
- } // namespace testing
- } // namespace my_namespace
- // Tests that one can call superclass SetUp and TearDown methods--
- // that is, that they are not private.
- // No tests are based on this fixture; the test "passes" if it compiles
- // successfully.
- class ProtectedFixtureMethodsTest : public Test {
- protected:
- virtual void SetUp() {
- Test::SetUp();
- }
- virtual void TearDown() {
- Test::TearDown();
- }
- };
- // StreamingAssertionsTest tests the streaming versions of a representative
- // sample of assertions.
- TEST(StreamingAssertionsTest, Unconditional) {
- SUCCEED() << "expected success";
- EXPECT_NONFATAL_FAILURE(ADD_FAILURE() << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(FAIL() << "expected failure",
- "expected failure");
- }
- #ifdef __BORLANDC__
- // Silences warnings: "Condition is always true", "Unreachable code"
- # pragma option push -w-ccc -w-rch
- #endif
- TEST(StreamingAssertionsTest, Truth) {
- EXPECT_TRUE(true) << "unexpected failure";
- ASSERT_TRUE(true) << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_TRUE(false) << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_TRUE(false) << "expected failure",
- "expected failure");
- }
- TEST(StreamingAssertionsTest, Truth2) {
- EXPECT_FALSE(false) << "unexpected failure";
- ASSERT_FALSE(false) << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_FALSE(true) << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_FALSE(true) << "expected failure",
- "expected failure");
- }
- #ifdef __BORLANDC__
- // Restores warnings after previous "#pragma option push" supressed them
- # pragma option pop
- #endif
- TEST(StreamingAssertionsTest, IntegerEquals) {
- EXPECT_EQ(1, 1) << "unexpected failure";
- ASSERT_EQ(1, 1) << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_EQ(1, 2) << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_EQ(1, 2) << "expected failure",
- "expected failure");
- }
- TEST(StreamingAssertionsTest, IntegerLessThan) {
- EXPECT_LT(1, 2) << "unexpected failure";
- ASSERT_LT(1, 2) << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_LT(2, 1) << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_LT(2, 1) << "expected failure",
- "expected failure");
- }
- TEST(StreamingAssertionsTest, StringsEqual) {
- EXPECT_STREQ("foo", "foo") << "unexpected failure";
- ASSERT_STREQ("foo", "foo") << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_STREQ("foo", "bar") << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_STREQ("foo", "bar") << "expected failure",
- "expected failure");
- }
- TEST(StreamingAssertionsTest, StringsNotEqual) {
- EXPECT_STRNE("foo", "bar") << "unexpected failure";
- ASSERT_STRNE("foo", "bar") << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_STRNE("foo", "foo") << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_STRNE("foo", "foo") << "expected failure",
- "expected failure");
- }
- TEST(StreamingAssertionsTest, StringsEqualIgnoringCase) {
- EXPECT_STRCASEEQ("foo", "FOO") << "unexpected failure";
- ASSERT_STRCASEEQ("foo", "FOO") << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_STRCASEEQ("foo", "bar") << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_STRCASEEQ("foo", "bar") << "expected failure",
- "expected failure");
- }
- TEST(StreamingAssertionsTest, StringNotEqualIgnoringCase) {
- EXPECT_STRCASENE("foo", "bar") << "unexpected failure";
- ASSERT_STRCASENE("foo", "bar") << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_STRCASENE("foo", "FOO") << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_STRCASENE("bar", "BAR") << "expected failure",
- "expected failure");
- }
- TEST(StreamingAssertionsTest, FloatingPointEquals) {
- EXPECT_FLOAT_EQ(1.0, 1.0) << "unexpected failure";
- ASSERT_FLOAT_EQ(1.0, 1.0) << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_FLOAT_EQ(0.0, 1.0) << "expected failure",
- "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_FLOAT_EQ(0.0, 1.0) << "expected failure",
- "expected failure");
- }
- #if GTEST_HAS_EXCEPTIONS
- TEST(StreamingAssertionsTest, Throw) {
- EXPECT_THROW(ThrowAnInteger(), int) << "unexpected failure";
- ASSERT_THROW(ThrowAnInteger(), int) << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_THROW(ThrowAnInteger(), bool) <<
- "expected failure", "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_THROW(ThrowAnInteger(), bool) <<
- "expected failure", "expected failure");
- }
- TEST(StreamingAssertionsTest, NoThrow) {
- EXPECT_NO_THROW(ThrowNothing()) << "unexpected failure";
- ASSERT_NO_THROW(ThrowNothing()) << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_NO_THROW(ThrowAnInteger()) <<
- "expected failure", "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_NO_THROW(ThrowAnInteger()) <<
- "expected failure", "expected failure");
- }
- TEST(StreamingAssertionsTest, AnyThrow) {
- EXPECT_ANY_THROW(ThrowAnInteger()) << "unexpected failure";
- ASSERT_ANY_THROW(ThrowAnInteger()) << "unexpected failure";
- EXPECT_NONFATAL_FAILURE(EXPECT_ANY_THROW(ThrowNothing()) <<
- "expected failure", "expected failure");
- EXPECT_FATAL_FAILURE(ASSERT_ANY_THROW(ThrowNothing()) <<
- "expected failure", "expected failure");
- }
- #endif // GTEST_HAS_EXCEPTIONS
- // Tests that Google Test correctly decides whether to use colors in the output.
- TEST(ColoredOutputTest, UsesColorsWhenGTestColorFlagIsYes) {
- GTEST_FLAG(color) = "yes";
- SetEnv("TERM", "xterm"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- EXPECT_TRUE(ShouldUseColor(false)); // Stdout is not a TTY.
- SetEnv("TERM", "dumb"); // TERM doesn't support colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- EXPECT_TRUE(ShouldUseColor(false)); // Stdout is not a TTY.
- }
- TEST(ColoredOutputTest, UsesColorsWhenGTestColorFlagIsAliasOfYes) {
- SetEnv("TERM", "dumb"); // TERM doesn't support colors.
- GTEST_FLAG(color) = "True";
- EXPECT_TRUE(ShouldUseColor(false)); // Stdout is not a TTY.
- GTEST_FLAG(color) = "t";
- EXPECT_TRUE(ShouldUseColor(false)); // Stdout is not a TTY.
- GTEST_FLAG(color) = "1";
- EXPECT_TRUE(ShouldUseColor(false)); // Stdout is not a TTY.
- }
- TEST(ColoredOutputTest, UsesNoColorWhenGTestColorFlagIsNo) {
- GTEST_FLAG(color) = "no";
- SetEnv("TERM", "xterm"); // TERM supports colors.
- EXPECT_FALSE(ShouldUseColor(true)); // Stdout is a TTY.
- EXPECT_FALSE(ShouldUseColor(false)); // Stdout is not a TTY.
- SetEnv("TERM", "dumb"); // TERM doesn't support colors.
- EXPECT_FALSE(ShouldUseColor(true)); // Stdout is a TTY.
- EXPECT_FALSE(ShouldUseColor(false)); // Stdout is not a TTY.
- }
- TEST(ColoredOutputTest, UsesNoColorWhenGTestColorFlagIsInvalid) {
- SetEnv("TERM", "xterm"); // TERM supports colors.
- GTEST_FLAG(color) = "F";
- EXPECT_FALSE(ShouldUseColor(true)); // Stdout is a TTY.
- GTEST_FLAG(color) = "0";
- EXPECT_FALSE(ShouldUseColor(true)); // Stdout is a TTY.
- GTEST_FLAG(color) = "unknown";
- EXPECT_FALSE(ShouldUseColor(true)); // Stdout is a TTY.
- }
- TEST(ColoredOutputTest, UsesColorsWhenStdoutIsTty) {
- GTEST_FLAG(color) = "auto";
- SetEnv("TERM", "xterm"); // TERM supports colors.
- EXPECT_FALSE(ShouldUseColor(false)); // Stdout is not a TTY.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- }
- TEST(ColoredOutputTest, UsesColorsWhenTermSupportsColors) {
- GTEST_FLAG(color) = "auto";
- #if GTEST_OS_WINDOWS
- // On Windows, we ignore the TERM variable as it's usually not set.
- SetEnv("TERM", "dumb");
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "");
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "xterm");
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- #else
- // On non-Windows platforms, we rely on TERM to determine if the
- // terminal supports colors.
- SetEnv("TERM", "dumb"); // TERM doesn't support colors.
- EXPECT_FALSE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "emacs"); // TERM doesn't support colors.
- EXPECT_FALSE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "vt100"); // TERM doesn't support colors.
- EXPECT_FALSE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "xterm-mono"); // TERM doesn't support colors.
- EXPECT_FALSE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "xterm"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "xterm-color"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "xterm-256color"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "screen"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "screen-256color"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "tmux"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "tmux-256color"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "rxvt-unicode"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "rxvt-unicode-256color"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "linux"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- SetEnv("TERM", "cygwin"); // TERM supports colors.
- EXPECT_TRUE(ShouldUseColor(true)); // Stdout is a TTY.
- #endif // GTEST_OS_WINDOWS
- }
- // Verifies that StaticAssertTypeEq works in a namespace scope.
- static bool dummy1 GTEST_ATTRIBUTE_UNUSED_ = StaticAssertTypeEq<bool, bool>();
- static bool dummy2 GTEST_ATTRIBUTE_UNUSED_ =
- StaticAssertTypeEq<const int, const int>();
- // Verifies that StaticAssertTypeEq works in a class.
- template <typename T>
- class StaticAssertTypeEqTestHelper {
- public:
- StaticAssertTypeEqTestHelper() { StaticAssertTypeEq<bool, T>(); }
- };
- TEST(StaticAssertTypeEqTest, WorksInClass) {
- StaticAssertTypeEqTestHelper<bool>();
- }
- // Verifies that StaticAssertTypeEq works inside a function.
- typedef int IntAlias;
- TEST(StaticAssertTypeEqTest, CompilesForEqualTypes) {
- StaticAssertTypeEq<int, IntAlias>();
- StaticAssertTypeEq<int*, IntAlias*>();
- }
- TEST(GetCurrentOsStackTraceExceptTopTest, ReturnsTheStackTrace) {
- testing::UnitTest* const unit_test = testing::UnitTest::GetInstance();
- // We don't have a stack walker in Google Test yet.
- EXPECT_STREQ("", GetCurrentOsStackTraceExceptTop(unit_test, 0).c_str());
- EXPECT_STREQ("", GetCurrentOsStackTraceExceptTop(unit_test, 1).c_str());
- }
- TEST(HasNonfatalFailureTest, ReturnsFalseWhenThereIsNoFailure) {
- EXPECT_FALSE(HasNonfatalFailure());
- }
- static void FailFatally() { FAIL(); }
- TEST(HasNonfatalFailureTest, ReturnsFalseWhenThereIsOnlyFatalFailure) {
- FailFatally();
- const bool has_nonfatal_failure = HasNonfatalFailure();
- ClearCurrentTestPartResults();
- EXPECT_FALSE(has_nonfatal_failure);
- }
- TEST(HasNonfatalFailureTest, ReturnsTrueWhenThereIsNonfatalFailure) {
- ADD_FAILURE();
- const bool has_nonfatal_failure = HasNonfatalFailure();
- ClearCurrentTestPartResults();
- EXPECT_TRUE(has_nonfatal_failure);
- }
- TEST(HasNonfatalFailureTest, ReturnsTrueWhenThereAreFatalAndNonfatalFailures) {
- FailFatally();
- ADD_FAILURE();
- const bool has_nonfatal_failure = HasNonfatalFailure();
- ClearCurrentTestPartResults();
- EXPECT_TRUE(has_nonfatal_failure);
- }
- // A wrapper for calling HasNonfatalFailure outside of a test body.
- static bool HasNonfatalFailureHelper() {
- return testing::Test::HasNonfatalFailure();
- }
- TEST(HasNonfatalFailureTest, WorksOutsideOfTestBody) {
- EXPECT_FALSE(HasNonfatalFailureHelper());
- }
- TEST(HasNonfatalFailureTest, WorksOutsideOfTestBody2) {
- ADD_FAILURE();
- const bool has_nonfatal_failure = HasNonfatalFailureHelper();
- ClearCurrentTestPartResults();
- EXPECT_TRUE(has_nonfatal_failure);
- }
- TEST(HasFailureTest, ReturnsFalseWhenThereIsNoFailure) {
- EXPECT_FALSE(HasFailure());
- }
- TEST(HasFailureTest, ReturnsTrueWhenThereIsFatalFailure) {
- FailFatally();
- const bool has_failure = HasFailure();
- ClearCurrentTestPartResults();
- EXPECT_TRUE(has_failure);
- }
- TEST(HasFailureTest, ReturnsTrueWhenThereIsNonfatalFailure) {
- ADD_FAILURE();
- const bool has_failure = HasFailure();
- ClearCurrentTestPartResults();
- EXPECT_TRUE(has_failure);
- }
- TEST(HasFailureTest, ReturnsTrueWhenThereAreFatalAndNonfatalFailures) {
- FailFatally();
- ADD_FAILURE();
- const bool has_failure = HasFailure();
- ClearCurrentTestPartResults();
- EXPECT_TRUE(has_failure);
- }
- // A wrapper for calling HasFailure outside of a test body.
- static bool HasFailureHelper() { return testing::Test::HasFailure(); }
- TEST(HasFailureTest, WorksOutsideOfTestBody) {
- EXPECT_FALSE(HasFailureHelper());
- }
- TEST(HasFailureTest, WorksOutsideOfTestBody2) {
- ADD_FAILURE();
- const bool has_failure = HasFailureHelper();
- ClearCurrentTestPartResults();
- EXPECT_TRUE(has_failure);
- }
- class TestListener : public EmptyTestEventListener {
- public:
- TestListener() : on_start_counter_(NULL), is_destroyed_(NULL) {}
- TestListener(int* on_start_counter, bool* is_destroyed)
- : on_start_counter_(on_start_counter),
- is_destroyed_(is_destroyed) {}
- virtual ~TestListener() {
- if (is_destroyed_)
- *is_destroyed_ = true;
- }
- protected:
- virtual void OnTestProgramStart(const UnitTest& /*unit_test*/) {
- if (on_start_counter_ != NULL)
- (*on_start_counter_)++;
- }
- private:
- int* on_start_counter_;
- bool* is_destroyed_;
- };
- // Tests the constructor.
- TEST(TestEventListenersTest, ConstructionWorks) {
- TestEventListeners listeners;
- EXPECT_TRUE(TestEventListenersAccessor::GetRepeater(&listeners) != NULL);
- EXPECT_TRUE(listeners.default_result_printer() == NULL);
- EXPECT_TRUE(listeners.default_xml_generator() == NULL);
- }
- // Tests that the TestEventListeners destructor deletes all the listeners it
- // owns.
- TEST(TestEventListenersTest, DestructionWorks) {
- bool default_result_printer_is_destroyed = false;
- bool default_xml_printer_is_destroyed = false;
- bool extra_listener_is_destroyed = false;
- TestListener* default_result_printer = new TestListener(
- NULL, &default_result_printer_is_destroyed);
- TestListener* default_xml_printer = new TestListener(
- NULL, &default_xml_printer_is_destroyed);
- TestListener* extra_listener = new TestListener(
- NULL, &extra_listener_is_destroyed);
- {
- TestEventListeners listeners;
- TestEventListenersAccessor::SetDefaultResultPrinter(&listeners,
- default_result_printer);
- TestEventListenersAccessor::SetDefaultXmlGenerator(&listeners,
- default_xml_printer);
- listeners.Append(extra_listener);
- }
- EXPECT_TRUE(default_result_printer_is_destroyed);
- EXPECT_TRUE(default_xml_printer_is_destroyed);
- EXPECT_TRUE(extra_listener_is_destroyed);
- }
- // Tests that a listener Append'ed to a TestEventListeners list starts
- // receiving events.
- TEST(TestEventListenersTest, Append) {
- int on_start_counter = 0;
- bool is_destroyed = false;
- TestListener* listener = new TestListener(&on_start_counter, &is_destroyed);
- {
- TestEventListeners listeners;
- listeners.Append(listener);
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- EXPECT_EQ(1, on_start_counter);
- }
- EXPECT_TRUE(is_destroyed);
- }
- // Tests that listeners receive events in the order they were appended to
- // the list, except for *End requests, which must be received in the reverse
- // order.
- class SequenceTestingListener : public EmptyTestEventListener {
- public:
- SequenceTestingListener(std::vector<std::string>* vector, const char* id)
- : vector_(vector), id_(id) {}
- protected:
- virtual void OnTestProgramStart(const UnitTest& /*unit_test*/) {
- vector_->push_back(GetEventDescription("OnTestProgramStart"));
- }
- virtual void OnTestProgramEnd(const UnitTest& /*unit_test*/) {
- vector_->push_back(GetEventDescription("OnTestProgramEnd"));
- }
- virtual void OnTestIterationStart(const UnitTest& /*unit_test*/,
- int /*iteration*/) {
- vector_->push_back(GetEventDescription("OnTestIterationStart"));
- }
- virtual void OnTestIterationEnd(const UnitTest& /*unit_test*/,
- int /*iteration*/) {
- vector_->push_back(GetEventDescription("OnTestIterationEnd"));
- }
- private:
- std::string GetEventDescription(const char* method) {
- Message message;
- message << id_ << "." << method;
- return message.GetString();
- }
- std::vector<std::string>* vector_;
- const char* const id_;
- GTEST_DISALLOW_COPY_AND_ASSIGN_(SequenceTestingListener);
- };
- TEST(EventListenerTest, AppendKeepsOrder) {
- std::vector<std::string> vec;
- TestEventListeners listeners;
- listeners.Append(new SequenceTestingListener(&vec, "1st"));
- listeners.Append(new SequenceTestingListener(&vec, "2nd"));
- listeners.Append(new SequenceTestingListener(&vec, "3rd"));
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- ASSERT_EQ(3U, vec.size());
- EXPECT_STREQ("1st.OnTestProgramStart", vec[0].c_str());
- EXPECT_STREQ("2nd.OnTestProgramStart", vec[1].c_str());
- EXPECT_STREQ("3rd.OnTestProgramStart", vec[2].c_str());
- vec.clear();
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramEnd(
- *UnitTest::GetInstance());
- ASSERT_EQ(3U, vec.size());
- EXPECT_STREQ("3rd.OnTestProgramEnd", vec[0].c_str());
- EXPECT_STREQ("2nd.OnTestProgramEnd", vec[1].c_str());
- EXPECT_STREQ("1st.OnTestProgramEnd", vec[2].c_str());
- vec.clear();
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestIterationStart(
- *UnitTest::GetInstance(), 0);
- ASSERT_EQ(3U, vec.size());
- EXPECT_STREQ("1st.OnTestIterationStart", vec[0].c_str());
- EXPECT_STREQ("2nd.OnTestIterationStart", vec[1].c_str());
- EXPECT_STREQ("3rd.OnTestIterationStart", vec[2].c_str());
- vec.clear();
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestIterationEnd(
- *UnitTest::GetInstance(), 0);
- ASSERT_EQ(3U, vec.size());
- EXPECT_STREQ("3rd.OnTestIterationEnd", vec[0].c_str());
- EXPECT_STREQ("2nd.OnTestIterationEnd", vec[1].c_str());
- EXPECT_STREQ("1st.OnTestIterationEnd", vec[2].c_str());
- }
- // Tests that a listener removed from a TestEventListeners list stops receiving
- // events and is not deleted when the list is destroyed.
- TEST(TestEventListenersTest, Release) {
- int on_start_counter = 0;
- bool is_destroyed = false;
- // Although Append passes the ownership of this object to the list,
- // the following calls release it, and we need to delete it before the
- // test ends.
- TestListener* listener = new TestListener(&on_start_counter, &is_destroyed);
- {
- TestEventListeners listeners;
- listeners.Append(listener);
- EXPECT_EQ(listener, listeners.Release(listener));
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- EXPECT_TRUE(listeners.Release(listener) == NULL);
- }
- EXPECT_EQ(0, on_start_counter);
- EXPECT_FALSE(is_destroyed);
- delete listener;
- }
- // Tests that no events are forwarded when event forwarding is disabled.
- TEST(EventListenerTest, SuppressEventForwarding) {
- int on_start_counter = 0;
- TestListener* listener = new TestListener(&on_start_counter, NULL);
- TestEventListeners listeners;
- listeners.Append(listener);
- ASSERT_TRUE(TestEventListenersAccessor::EventForwardingEnabled(listeners));
- TestEventListenersAccessor::SuppressEventForwarding(&listeners);
- ASSERT_FALSE(TestEventListenersAccessor::EventForwardingEnabled(listeners));
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- EXPECT_EQ(0, on_start_counter);
- }
- // Tests that events generated by Google Test are not forwarded in
- // death test subprocesses.
- TEST(EventListenerDeathTest, EventsNotForwardedInDeathTestSubprecesses) {
- EXPECT_DEATH_IF_SUPPORTED({
- GTEST_CHECK_(TestEventListenersAccessor::EventForwardingEnabled(
- *GetUnitTestImpl()->listeners())) << "expected failure";},
- "expected failure");
- }
- // Tests that a listener installed via SetDefaultResultPrinter() starts
- // receiving events and is returned via default_result_printer() and that
- // the previous default_result_printer is removed from the list and deleted.
- TEST(EventListenerTest, default_result_printer) {
- int on_start_counter = 0;
- bool is_destroyed = false;
- TestListener* listener = new TestListener(&on_start_counter, &is_destroyed);
- TestEventListeners listeners;
- TestEventListenersAccessor::SetDefaultResultPrinter(&listeners, listener);
- EXPECT_EQ(listener, listeners.default_result_printer());
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- EXPECT_EQ(1, on_start_counter);
- // Replacing default_result_printer with something else should remove it
- // from the list and destroy it.
- TestEventListenersAccessor::SetDefaultResultPrinter(&listeners, NULL);
- EXPECT_TRUE(listeners.default_result_printer() == NULL);
- EXPECT_TRUE(is_destroyed);
- // After broadcasting an event the counter is still the same, indicating
- // the listener is not in the list anymore.
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- EXPECT_EQ(1, on_start_counter);
- }
- // Tests that the default_result_printer listener stops receiving events
- // when removed via Release and that is not owned by the list anymore.
- TEST(EventListenerTest, RemovingDefaultResultPrinterWorks) {
- int on_start_counter = 0;
- bool is_destroyed = false;
- // Although Append passes the ownership of this object to the list,
- // the following calls release it, and we need to delete it before the
- // test ends.
- TestListener* listener = new TestListener(&on_start_counter, &is_destroyed);
- {
- TestEventListeners listeners;
- TestEventListenersAccessor::SetDefaultResultPrinter(&listeners, listener);
- EXPECT_EQ(listener, listeners.Release(listener));
- EXPECT_TRUE(listeners.default_result_printer() == NULL);
- EXPECT_FALSE(is_destroyed);
- // Broadcasting events now should not affect default_result_printer.
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- EXPECT_EQ(0, on_start_counter);
- }
- // Destroying the list should not affect the listener now, too.
- EXPECT_FALSE(is_destroyed);
- delete listener;
- }
- // Tests that a listener installed via SetDefaultXmlGenerator() starts
- // receiving events and is returned via default_xml_generator() and that
- // the previous default_xml_generator is removed from the list and deleted.
- TEST(EventListenerTest, default_xml_generator) {
- int on_start_counter = 0;
- bool is_destroyed = false;
- TestListener* listener = new TestListener(&on_start_counter, &is_destroyed);
- TestEventListeners listeners;
- TestEventListenersAccessor::SetDefaultXmlGenerator(&listeners, listener);
- EXPECT_EQ(listener, listeners.default_xml_generator());
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- EXPECT_EQ(1, on_start_counter);
- // Replacing default_xml_generator with something else should remove it
- // from the list and destroy it.
- TestEventListenersAccessor::SetDefaultXmlGenerator(&listeners, NULL);
- EXPECT_TRUE(listeners.default_xml_generator() == NULL);
- EXPECT_TRUE(is_destroyed);
- // After broadcasting an event the counter is still the same, indicating
- // the listener is not in the list anymore.
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- EXPECT_EQ(1, on_start_counter);
- }
- // Tests that the default_xml_generator listener stops receiving events
- // when removed via Release and that is not owned by the list anymore.
- TEST(EventListenerTest, RemovingDefaultXmlGeneratorWorks) {
- int on_start_counter = 0;
- bool is_destroyed = false;
- // Although Append passes the ownership of this object to the list,
- // the following calls release it, and we need to delete it before the
- // test ends.
- TestListener* listener = new TestListener(&on_start_counter, &is_destroyed);
- {
- TestEventListeners listeners;
- TestEventListenersAccessor::SetDefaultXmlGenerator(&listeners, listener);
- EXPECT_EQ(listener, listeners.Release(listener));
- EXPECT_TRUE(listeners.default_xml_generator() == NULL);
- EXPECT_FALSE(is_destroyed);
- // Broadcasting events now should not affect default_xml_generator.
- TestEventListenersAccessor::GetRepeater(&listeners)->OnTestProgramStart(
- *UnitTest::GetInstance());
- EXPECT_EQ(0, on_start_counter);
- }
- // Destroying the list should not affect the listener now, too.
- EXPECT_FALSE(is_destroyed);
- delete listener;
- }
- // Sanity tests to ensure that the alternative, verbose spellings of
- // some of the macros work. We don't test them thoroughly as that
- // would be quite involved. Since their implementations are
- // straightforward, and they are rarely used, we'll just rely on the
- // users to tell us when they are broken.
- GTEST_TEST(AlternativeNameTest, Works) { // GTEST_TEST is the same as TEST.
- GTEST_SUCCEED() << "OK"; // GTEST_SUCCEED is the same as SUCCEED.
- // GTEST_FAIL is the same as FAIL.
- EXPECT_FATAL_FAILURE(GTEST_FAIL() << "An expected failure",
- "An expected failure");
- // GTEST_ASSERT_XY is the same as ASSERT_XY.
- GTEST_ASSERT_EQ(0, 0);
- EXPECT_FATAL_FAILURE(GTEST_ASSERT_EQ(0, 1) << "An expected failure",
- "An expected failure");
- EXPECT_FATAL_FAILURE(GTEST_ASSERT_EQ(1, 0) << "An expected failure",
- "An expected failure");
- GTEST_ASSERT_NE(0, 1);
- GTEST_ASSERT_NE(1, 0);
- EXPECT_FATAL_FAILURE(GTEST_ASSERT_NE(0, 0) << "An expected failure",
- "An expected failure");
- GTEST_ASSERT_LE(0, 0);
- GTEST_ASSERT_LE(0, 1);
- EXPECT_FATAL_FAILURE(GTEST_ASSERT_LE(1, 0) << "An expected failure",
- "An expected failure");
- GTEST_ASSERT_LT(0, 1);
- EXPECT_FATAL_FAILURE(GTEST_ASSERT_LT(0, 0) << "An expected failure",
- "An expected failure");
- EXPECT_FATAL_FAILURE(GTEST_ASSERT_LT(1, 0) << "An expected failure",
- "An expected failure");
- GTEST_ASSERT_GE(0, 0);
- GTEST_ASSERT_GE(1, 0);
- EXPECT_FATAL_FAILURE(GTEST_ASSERT_GE(0, 1) << "An expected failure",
- "An expected failure");
- GTEST_ASSERT_GT(1, 0);
- EXPECT_FATAL_FAILURE(GTEST_ASSERT_GT(0, 1) << "An expected failure",
- "An expected failure");
- EXPECT_FATAL_FAILURE(GTEST_ASSERT_GT(1, 1) << "An expected failure",
- "An expected failure");
- }
- // Tests for internal utilities necessary for implementation of the universal
- // printing.
- // TODO(vladl@google.com): Find a better home for them.
- class ConversionHelperBase {};
- class ConversionHelperDerived : public ConversionHelperBase {};
- // Tests that IsAProtocolMessage<T>::value is a compile-time constant.
- TEST(IsAProtocolMessageTest, ValueIsCompileTimeConstant) {
- GTEST_COMPILE_ASSERT_(IsAProtocolMessage<ProtocolMessage>::value,
- const_true);
- GTEST_COMPILE_ASSERT_(!IsAProtocolMessage<int>::value, const_false);
- }
- // Tests that IsAProtocolMessage<T>::value is true when T is
- // proto2::Message or a sub-class of it.
- TEST(IsAProtocolMessageTest, ValueIsTrueWhenTypeIsAProtocolMessage) {
- EXPECT_TRUE(IsAProtocolMessage< ::proto2::Message>::value);
- EXPECT_TRUE(IsAProtocolMessage<ProtocolMessage>::value);
- }
- // Tests that IsAProtocolMessage<T>::value is false when T is neither
- // ProtocolMessage nor a sub-class of it.
- TEST(IsAProtocolMessageTest, ValueIsFalseWhenTypeIsNotAProtocolMessage) {
- EXPECT_FALSE(IsAProtocolMessage<int>::value);
- EXPECT_FALSE(IsAProtocolMessage<const ConversionHelperBase>::value);
- }
- // Tests that CompileAssertTypesEqual compiles when the type arguments are
- // equal.
- TEST(CompileAssertTypesEqual, CompilesWhenTypesAreEqual) {
- CompileAssertTypesEqual<void, void>();
- CompileAssertTypesEqual<int*, int*>();
- }
- // Tests that RemoveReference does not affect non-reference types.
- TEST(RemoveReferenceTest, DoesNotAffectNonReferenceType) {
- CompileAssertTypesEqual<int, RemoveReference<int>::type>();
- CompileAssertTypesEqual<const char, RemoveReference<const char>::type>();
- }
- // Tests that RemoveReference removes reference from reference types.
- TEST(RemoveReferenceTest, RemovesReference) {
- CompileAssertTypesEqual<int, RemoveReference<int&>::type>();
- CompileAssertTypesEqual<const char, RemoveReference<const char&>::type>();
- }
- // Tests GTEST_REMOVE_REFERENCE_.
- template <typename T1, typename T2>
- void TestGTestRemoveReference() {
- CompileAssertTypesEqual<T1, GTEST_REMOVE_REFERENCE_(T2)>();
- }
- TEST(RemoveReferenceTest, MacroVersion) {
- TestGTestRemoveReference<int, int>();
- TestGTestRemoveReference<const char, const char&>();
- }
- // Tests that RemoveConst does not affect non-const types.
- TEST(RemoveConstTest, DoesNotAffectNonConstType) {
- CompileAssertTypesEqual<int, RemoveConst<int>::type>();
- CompileAssertTypesEqual<char&, RemoveConst<char&>::type>();
- }
- // Tests that RemoveConst removes const from const types.
- TEST(RemoveConstTest, RemovesConst) {
- CompileAssertTypesEqual<int, RemoveConst<const int>::type>();
- CompileAssertTypesEqual<char[2], RemoveConst<const char[2]>::type>();
- CompileAssertTypesEqual<char[2][3], RemoveConst<const char[2][3]>::type>();
- }
- // Tests GTEST_REMOVE_CONST_.
- template <typename T1, typename T2>
- void TestGTestRemoveConst() {
- CompileAssertTypesEqual<T1, GTEST_REMOVE_CONST_(T2)>();
- }
- TEST(RemoveConstTest, MacroVersion) {
- TestGTestRemoveConst<int, int>();
- TestGTestRemoveConst<double&, double&>();
- TestGTestRemoveConst<char, const char>();
- }
- // Tests GTEST_REMOVE_REFERENCE_AND_CONST_.
- template <typename T1, typename T2>
- void TestGTestRemoveReferenceAndConst() {
- CompileAssertTypesEqual<T1, GTEST_REMOVE_REFERENCE_AND_CONST_(T2)>();
- }
- TEST(RemoveReferenceToConstTest, Works) {
- TestGTestRemoveReferenceAndConst<int, int>();
- TestGTestRemoveReferenceAndConst<double, double&>();
- TestGTestRemoveReferenceAndConst<char, const char>();
- TestGTestRemoveReferenceAndConst<char, const char&>();
- TestGTestRemoveReferenceAndConst<const char*, const char*>();
- }
- // Tests that AddReference does not affect reference types.
- TEST(AddReferenceTest, DoesNotAffectReferenceType) {
- CompileAssertTypesEqual<int&, AddReference<int&>::type>();
- CompileAssertTypesEqual<const char&, AddReference<const char&>::type>();
- }
- // Tests that AddReference adds reference to non-reference types.
- TEST(AddReferenceTest, AddsReference) {
- CompileAssertTypesEqual<int&, AddReference<int>::type>();
- CompileAssertTypesEqual<const char&, AddReference<const char>::type>();
- }
- // Tests GTEST_ADD_REFERENCE_.
- template <typename T1, typename T2>
- void TestGTestAddReference() {
- CompileAssertTypesEqual<T1, GTEST_ADD_REFERENCE_(T2)>();
- }
- TEST(AddReferenceTest, MacroVersion) {
- TestGTestAddReference<int&, int>();
- TestGTestAddReference<const char&, const char&>();
- }
- // Tests GTEST_REFERENCE_TO_CONST_.
- template <typename T1, typename T2>
- void TestGTestReferenceToConst() {
- CompileAssertTypesEqual<T1, GTEST_REFERENCE_TO_CONST_(T2)>();
- }
- TEST(GTestReferenceToConstTest, Works) {
- TestGTestReferenceToConst<const char&, char>();
- TestGTestReferenceToConst<const int&, const int>();
- TestGTestReferenceToConst<const double&, double>();
- TestGTestReferenceToConst<const std::string&, const std::string&>();
- }
- // Tests that ImplicitlyConvertible<T1, T2>::value is a compile-time constant.
- TEST(ImplicitlyConvertibleTest, ValueIsCompileTimeConstant) {
- GTEST_COMPILE_ASSERT_((ImplicitlyConvertible<int, int>::value), const_true);
- GTEST_COMPILE_ASSERT_((!ImplicitlyConvertible<void*, int*>::value),
- const_false);
- }
- // Tests that ImplicitlyConvertible<T1, T2>::value is true when T1 can
- // be implicitly converted to T2.
- TEST(ImplicitlyConvertibleTest, ValueIsTrueWhenConvertible) {
- EXPECT_TRUE((ImplicitlyConvertible<int, double>::value));
- EXPECT_TRUE((ImplicitlyConvertible<double, int>::value));
- EXPECT_TRUE((ImplicitlyConvertible<int*, void*>::value));
- EXPECT_TRUE((ImplicitlyConvertible<int*, const int*>::value));
- EXPECT_TRUE((ImplicitlyConvertible<ConversionHelperDerived&,
- const ConversionHelperBase&>::value));
- EXPECT_TRUE((ImplicitlyConvertible<const ConversionHelperBase,
- ConversionHelperBase>::value));
- }
- // Tests that ImplicitlyConvertible<T1, T2>::value is false when T1
- // cannot be implicitly converted to T2.
- TEST(ImplicitlyConvertibleTest, ValueIsFalseWhenNotConvertible) {
- EXPECT_FALSE((ImplicitlyConvertible<double, int*>::value));
- EXPECT_FALSE((ImplicitlyConvertible<void*, int*>::value));
- EXPECT_FALSE((ImplicitlyConvertible<const int*, int*>::value));
- EXPECT_FALSE((ImplicitlyConvertible<ConversionHelperBase&,
- ConversionHelperDerived&>::value));
- }
- // Tests IsContainerTest.
- class NonContainer {};
- TEST(IsContainerTestTest, WorksForNonContainer) {
- EXPECT_EQ(sizeof(IsNotContainer), sizeof(IsContainerTest<int>(0)));
- EXPECT_EQ(sizeof(IsNotContainer), sizeof(IsContainerTest<char[5]>(0)));
- EXPECT_EQ(sizeof(IsNotContainer), sizeof(IsContainerTest<NonContainer>(0)));
- }
- TEST(IsContainerTestTest, WorksForContainer) {
- EXPECT_EQ(sizeof(IsContainer),
- sizeof(IsContainerTest<std::vector<bool> >(0)));
- EXPECT_EQ(sizeof(IsContainer),
- sizeof(IsContainerTest<std::map<int, double> >(0)));
- }
- // Tests ArrayEq().
- TEST(ArrayEqTest, WorksForDegeneratedArrays) {
- EXPECT_TRUE(ArrayEq(5, 5L));
- EXPECT_FALSE(ArrayEq('a', 0));
- }
- TEST(ArrayEqTest, WorksForOneDimensionalArrays) {
- // Note that a and b are distinct but compatible types.
- const int a[] = { 0, 1 };
- long b[] = { 0, 1 };
- EXPECT_TRUE(ArrayEq(a, b));
- EXPECT_TRUE(ArrayEq(a, 2, b));
- b[0] = 2;
- EXPECT_FALSE(ArrayEq(a, b));
- EXPECT_FALSE(ArrayEq(a, 1, b));
- }
- TEST(ArrayEqTest, WorksForTwoDimensionalArrays) {
- const char a[][3] = { "hi", "lo" };
- const char b[][3] = { "hi", "lo" };
- const char c[][3] = { "hi", "li" };
- EXPECT_TRUE(ArrayEq(a, b));
- EXPECT_TRUE(ArrayEq(a, 2, b));
- EXPECT_FALSE(ArrayEq(a, c));
- EXPECT_FALSE(ArrayEq(a, 2, c));
- }
- // Tests ArrayAwareFind().
- TEST(ArrayAwareFindTest, WorksForOneDimensionalArray) {
- const char a[] = "hello";
- EXPECT_EQ(a + 4, ArrayAwareFind(a, a + 5, 'o'));
- EXPECT_EQ(a + 5, ArrayAwareFind(a, a + 5, 'x'));
- }
- TEST(ArrayAwareFindTest, WorksForTwoDimensionalArray) {
- int a[][2] = { { 0, 1 }, { 2, 3 }, { 4, 5 } };
- const int b[2] = { 2, 3 };
- EXPECT_EQ(a + 1, ArrayAwareFind(a, a + 3, b));
- const int c[2] = { 6, 7 };
- EXPECT_EQ(a + 3, ArrayAwareFind(a, a + 3, c));
- }
- // Tests CopyArray().
- TEST(CopyArrayTest, WorksForDegeneratedArrays) {
- int n = 0;
- CopyArray('a', &n);
- EXPECT_EQ('a', n);
- }
- TEST(CopyArrayTest, WorksForOneDimensionalArrays) {
- const char a[3] = "hi";
- int b[3];
- #ifndef __BORLANDC__ // C++Builder cannot compile some array size deductions.
- CopyArray(a, &b);
- EXPECT_TRUE(ArrayEq(a, b));
- #endif
- int c[3];
- CopyArray(a, 3, c);
- EXPECT_TRUE(ArrayEq(a, c));
- }
- TEST(CopyArrayTest, WorksForTwoDimensionalArrays) {
- const int a[2][3] = { { 0, 1, 2 }, { 3, 4, 5 } };
- int b[2][3];
- #ifndef __BORLANDC__ // C++Builder cannot compile some array size deductions.
- CopyArray(a, &b);
- EXPECT_TRUE(ArrayEq(a, b));
- #endif
- int c[2][3];
- CopyArray(a, 2, c);
- EXPECT_TRUE(ArrayEq(a, c));
- }
- // Tests NativeArray.
- TEST(NativeArrayTest, ConstructorFromArrayWorks) {
- const int a[3] = { 0, 1, 2 };
- NativeArray<int> na(a, 3, RelationToSourceReference());
- EXPECT_EQ(3U, na.size());
- EXPECT_EQ(a, na.begin());
- }
- TEST(NativeArrayTest, CreatesAndDeletesCopyOfArrayWhenAskedTo) {
- typedef int Array[2];
- Array* a = new Array[1];
- (*a)[0] = 0;
- (*a)[1] = 1;
- NativeArray<int> na(*a, 2, RelationToSourceCopy());
- EXPECT_NE(*a, na.begin());
- delete[] a;
- EXPECT_EQ(0, na.begin()[0]);
- EXPECT_EQ(1, na.begin()[1]);
- // We rely on the heap checker to verify that na deletes the copy of
- // array.
- }
- TEST(NativeArrayTest, TypeMembersAreCorrect) {
- StaticAssertTypeEq<char, NativeArray<char>::value_type>();
- StaticAssertTypeEq<int[2], NativeArray<int[2]>::value_type>();
- StaticAssertTypeEq<const char*, NativeArray<char>::const_iterator>();
- StaticAssertTypeEq<const bool(*)[2], NativeArray<bool[2]>::const_iterator>();
- }
- TEST(NativeArrayTest, MethodsWork) {
- const int a[3] = { 0, 1, 2 };
- NativeArray<int> na(a, 3, RelationToSourceCopy());
- ASSERT_EQ(3U, na.size());
- EXPECT_EQ(3, na.end() - na.begin());
- NativeArray<int>::const_iterator it = na.begin();
- EXPECT_EQ(0, *it);
- ++it;
- EXPECT_EQ(1, *it);
- it++;
- EXPECT_EQ(2, *it);
- ++it;
- EXPECT_EQ(na.end(), it);
- EXPECT_TRUE(na == na);
- NativeArray<int> na2(a, 3, RelationToSourceReference());
- EXPECT_TRUE(na == na2);
- const int b1[3] = { 0, 1, 1 };
- const int b2[4] = { 0, 1, 2, 3 };
- EXPECT_FALSE(na == NativeArray<int>(b1, 3, RelationToSourceReference()));
- EXPECT_FALSE(na == NativeArray<int>(b2, 4, RelationToSourceCopy()));
- }
- TEST(NativeArrayTest, WorksForTwoDimensionalArray) {
- const char a[2][3] = { "hi", "lo" };
- NativeArray<char[3]> na(a, 2, RelationToSourceReference());
- ASSERT_EQ(2U, na.size());
- EXPECT_EQ(a, na.begin());
- }
- // Tests SkipPrefix().
- TEST(SkipPrefixTest, SkipsWhenPrefixMatches) {
- const char* const str = "hello";
- const char* p = str;
- EXPECT_TRUE(SkipPrefix("", &p));
- EXPECT_EQ(str, p);
- p = str;
- EXPECT_TRUE(SkipPrefix("hell", &p));
- EXPECT_EQ(str + 4, p);
- }
- TEST(SkipPrefixTest, DoesNotSkipWhenPrefixDoesNotMatch) {
- const char* const str = "world";
- const char* p = str;
- EXPECT_FALSE(SkipPrefix("W", &p));
- EXPECT_EQ(str, p);
- p = str;
- EXPECT_FALSE(SkipPrefix("world!", &p));
- EXPECT_EQ(str, p);
- }
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