484 lines
19 KiB
Markdown
484 lines
19 KiB
Markdown
# GoogleTest Primer
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## Introduction: Why GoogleTest?
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*GoogleTest* helps you write better C++ tests.
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GoogleTest is a testing framework developed by the Testing Technology team with
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Google's specific requirements and constraints in mind. Whether you work on
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Linux, Windows, or a Mac, if you write C++ code, GoogleTest can help you. And it
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supports *any* kind of tests, not just unit tests.
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So what makes a good test, and how does GoogleTest fit in? We believe:
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1. Tests should be *independent* and *repeatable*. It's a pain to debug a test
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that succeeds or fails as a result of other tests. GoogleTest isolates the
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tests by running each of them on a different object. When a test fails,
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GoogleTest allows you to run it in isolation for quick debugging.
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2. Tests should be well *organized* and reflect the structure of the tested
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code. GoogleTest groups related tests into test suites that can share data
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and subroutines. This common pattern is easy to recognize and makes tests
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easy to maintain. Such consistency is especially helpful when people switch
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projects and start to work on a new code base.
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3. Tests should be *portable* and *reusable*. Google has a lot of code that is
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platform-neutral; its tests should also be platform-neutral. GoogleTest
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works on different OSes, with different compilers, with or without
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exceptions, so GoogleTest tests can work with a variety of configurations.
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4. When tests fail, they should provide as much *information* about the problem
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as possible. GoogleTest doesn't stop at the first test failure. Instead, it
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only stops the current test and continues with the next. You can also set up
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tests that report non-fatal failures after which the current test continues.
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Thus, you can detect and fix multiple bugs in a single run-edit-compile
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cycle.
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5. The testing framework should liberate test writers from housekeeping chores
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and let them focus on the test *content*. GoogleTest automatically keeps
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track of all tests defined, and doesn't require the user to enumerate them
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in order to run them.
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6. Tests should be *fast*. With GoogleTest, you can reuse shared resources
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across tests and pay for the set-up/tear-down only once, without making
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tests depend on each other.
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Since GoogleTest is based on the popular xUnit architecture, you'll feel right
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at home if you've used JUnit or PyUnit before. If not, it will take you about 10
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minutes to learn the basics and get started. So let's go!
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## Beware of the Nomenclature
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{: .callout .note}
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*Note:* There might be some confusion arising from different definitions of the
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terms *Test*, *Test Case* and *Test Suite*, so beware of misunderstanding these.
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Historically, GoogleTest started to use the term *Test Case* for grouping
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related tests, whereas current publications, including International Software
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Testing Qualifications Board ([ISTQB](http://www.istqb.org/)) materials and
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various textbooks on software quality, use the term
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*[Test Suite][istqb test suite]* for this.
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The related term *Test*, as it is used in GoogleTest, corresponds to the term
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*[Test Case][istqb test case]* of ISTQB and others.
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The term *Test* is commonly of broad enough sense, including ISTQB's definition
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of *Test Case*, so it's not much of a problem here. But the term *Test Case* as
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was used in Google Test is of contradictory sense and thus confusing.
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GoogleTest recently started replacing the term *Test Case* with *Test Suite*.
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The preferred API is *TestSuite*. The older TestCase API is being slowly
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deprecated and refactored away.
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So please be aware of the different definitions of the terms:
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Meaning | GoogleTest Term | [ISTQB](http://www.istqb.org/) Term
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:----------------------------------------------------------------------------------- | :---------------------- | :----------------------------------
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Exercise a particular program path with specific input values and verify the results | [TEST()](#simple-tests) | [Test Case][istqb test case]
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[istqb test case]: http://glossary.istqb.org/en/search/test%20case
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[istqb test suite]: http://glossary.istqb.org/en/search/test%20suite
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## Basic Concepts
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When using GoogleTest, you start by writing *assertions*, which are statements
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that check whether a condition is true. An assertion's result can be *success*,
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*nonfatal failure*, or *fatal failure*. If a fatal failure occurs, it aborts the
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current function; otherwise the program continues normally.
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*Tests* use assertions to verify the tested code's behavior. If a test crashes
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or has a failed assertion, then it *fails*; otherwise it *succeeds*.
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A *test suite* contains one or many tests. You should group your tests into test
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suites that reflect the structure of the tested code. When multiple tests in a
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test suite need to share common objects and subroutines, you can put them into a
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*test fixture* class.
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A *test program* can contain multiple test suites.
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We'll now explain how to write a test program, starting at the individual
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assertion level and building up to tests and test suites.
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## Assertions
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GoogleTest assertions are macros that resemble function calls. You test a class
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or function by making assertions about its behavior. When an assertion fails,
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GoogleTest prints the assertion's source file and line number location, along
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with a failure message. You may also supply a custom failure message which will
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be appended to GoogleTest's message.
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The assertions come in pairs that test the same thing but have different effects
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on the current function. `ASSERT_*` versions generate fatal failures when they
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fail, and **abort the current function**. `EXPECT_*` versions generate nonfatal
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failures, which don't abort the current function. Usually `EXPECT_*` are
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preferred, as they allow more than one failure to be reported in a test.
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However, you should use `ASSERT_*` if it doesn't make sense to continue when the
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assertion in question fails.
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Since a failed `ASSERT_*` returns from the current function immediately,
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possibly skipping clean-up code that comes after it, it may cause a space leak.
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Depending on the nature of the leak, it may or may not be worth fixing - so keep
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this in mind if you get a heap checker error in addition to assertion errors.
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To provide a custom failure message, simply stream it into the macro using the
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`<<` operator or a sequence of such operators. See the following example, using
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the [`ASSERT_EQ` and `EXPECT_EQ`](reference/assertions.md#EXPECT_EQ) macros to
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verify value equality:
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```c++
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ASSERT_EQ(x.size(), y.size()) << "Vectors x and y are of unequal length";
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for (int i = 0; i < x.size(); ++i) {
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EXPECT_EQ(x[i], y[i]) << "Vectors x and y differ at index " << i;
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}
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```
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Anything that can be streamed to an `ostream` can be streamed to an assertion
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macro--in particular, C strings and `string` objects. If a wide string
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(`wchar_t*`, `TCHAR*` in `UNICODE` mode on Windows, or `std::wstring`) is
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streamed to an assertion, it will be translated to UTF-8 when printed.
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GoogleTest provides a collection of assertions for verifying the behavior of
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your code in various ways. You can check Boolean conditions, compare values
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based on relational operators, verify string values, floating-point values, and
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much more. There are even assertions that enable you to verify more complex
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states by providing custom predicates. For the complete list of assertions
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provided by GoogleTest, see the [Assertions Reference](reference/assertions.md).
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## Simple Tests
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To create a test:
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1. Use the `TEST()` macro to define and name a test function. These are
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ordinary C++ functions that don't return a value.
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2. In this function, along with any valid C++ statements you want to include,
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use the various GoogleTest assertions to check values.
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3. The test's result is determined by the assertions; if any assertion in the
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test fails (either fatally or non-fatally), or if the test crashes, the
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entire test fails. Otherwise, it succeeds.
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```c++
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TEST(TestSuiteName, TestName) {
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... test body ...
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}
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```
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`TEST()` arguments go from general to specific. The *first* argument is the name
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of the test suite, and the *second* argument is the test's name within the test
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suite. Both names must be valid C++ identifiers, and they should not contain any
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underscores (`_`). A test's *full name* consists of its containing test suite
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and its individual name. Tests from different test suites can have the same
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individual name.
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For example, let's take a simple integer function:
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```c++
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int Factorial(int n); // Returns the factorial of n
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```
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A test suite for this function might look like:
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```c++
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// Tests factorial of 0.
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TEST(FactorialTest, HandlesZeroInput) {
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EXPECT_EQ(Factorial(0), 1);
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}
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// Tests factorial of positive numbers.
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TEST(FactorialTest, HandlesPositiveInput) {
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EXPECT_EQ(Factorial(1), 1);
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EXPECT_EQ(Factorial(2), 2);
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EXPECT_EQ(Factorial(3), 6);
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EXPECT_EQ(Factorial(8), 40320);
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}
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```
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GoogleTest groups the test results by test suites, so logically related tests
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should be in the same test suite; in other words, the first argument to their
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`TEST()` should be the same. In the above example, we have two tests,
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`HandlesZeroInput` and `HandlesPositiveInput`, that belong to the same test
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suite `FactorialTest`.
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When naming your test suites and tests, you should follow the same convention as
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for
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[naming functions and classes](https://google.github.io/styleguide/cppguide.html#Function_Names).
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**Availability**: Linux, Windows, Mac.
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## Test Fixtures: Using the Same Data Configuration for Multiple Tests {#same-data-multiple-tests}
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If you find yourself writing two or more tests that operate on similar data, you
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can use a *test fixture*. This allows you to reuse the same configuration of
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objects for several different tests.
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To create a fixture:
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1. Derive a class from `::testing::Test` . Start its body with `protected:`, as
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we'll want to access fixture members from sub-classes.
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2. Inside the class, declare any objects you plan to use.
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3. If necessary, write a default constructor or `SetUp()` function to prepare
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the objects for each test. A common mistake is to spell `SetUp()` as
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**`Setup()`** with a small `u` - Use `override` in C++11 to make sure you
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spelled it correctly.
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4. If necessary, write a destructor or `TearDown()` function to release any
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resources you allocated in `SetUp()` . To learn when you should use the
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constructor/destructor and when you should use `SetUp()/TearDown()`, read
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the [FAQ](faq.md#CtorVsSetUp).
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5. If needed, define subroutines for your tests to share.
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When using a fixture, use `TEST_F()` instead of `TEST()` as it allows you to
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access objects and subroutines in the test fixture:
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```c++
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TEST_F(TestFixtureClassName, TestName) {
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... test body ...
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}
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```
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Unlike `TEST()`, in `TEST_F()` the first argument must be the name of the test
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fixture class. (`_F` stands for "Fixture"). No test suite name is specified for
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this macro.
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Unfortunately, the C++ macro system does not allow us to create a single macro
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that can handle both types of tests. Using the wrong macro causes a compiler
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error.
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Also, you must first define a test fixture class before using it in a
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`TEST_F()`, or you'll get the compiler error "`virtual outside class
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declaration`".
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For each test defined with `TEST_F()`, GoogleTest will create a *fresh* test
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fixture at runtime, immediately initialize it via `SetUp()`, run the test, clean
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up by calling `TearDown()`, and then delete the test fixture. Note that
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different tests in the same test suite have different test fixture objects, and
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GoogleTest always deletes a test fixture before it creates the next one.
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GoogleTest does **not** reuse the same test fixture for multiple tests. Any
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changes one test makes to the fixture do not affect other tests.
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As an example, let's write tests for a FIFO queue class named `Queue`, which has
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the following interface:
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```c++
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template <typename E> // E is the element type.
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class Queue {
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public:
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Queue();
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void Enqueue(const E& element);
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E* Dequeue(); // Returns NULL if the queue is empty.
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size_t size() const;
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...
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};
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```
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First, define a fixture class. By convention, you should give it the name
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`FooTest` where `Foo` is the class being tested.
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```c++
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class QueueTest : public ::testing::Test {
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protected:
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void SetUp() override {
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// q0_ remains empty
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q1_.Enqueue(1);
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q2_.Enqueue(2);
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q2_.Enqueue(3);
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}
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// void TearDown() override {}
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Queue<int> q0_;
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Queue<int> q1_;
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Queue<int> q2_;
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};
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```
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In this case, `TearDown()` is not needed since we don't have to clean up after
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each test, other than what's already done by the destructor.
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Now we'll write tests using `TEST_F()` and this fixture.
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```c++
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TEST_F(QueueTest, IsEmptyInitially) {
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EXPECT_EQ(q0_.size(), 0);
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}
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TEST_F(QueueTest, DequeueWorks) {
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int* n = q0_.Dequeue();
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EXPECT_EQ(n, nullptr);
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n = q1_.Dequeue();
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ASSERT_NE(n, nullptr);
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EXPECT_EQ(*n, 1);
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EXPECT_EQ(q1_.size(), 0);
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delete n;
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n = q2_.Dequeue();
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ASSERT_NE(n, nullptr);
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EXPECT_EQ(*n, 2);
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EXPECT_EQ(q2_.size(), 1);
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delete n;
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}
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```
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The above uses both `ASSERT_*` and `EXPECT_*` assertions. The rule of thumb is
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to use `EXPECT_*` when you want the test to continue to reveal more errors after
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the assertion failure, and use `ASSERT_*` when continuing after failure doesn't
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make sense. For example, the second assertion in the `Dequeue` test is
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`ASSERT_NE(n, nullptr)`, as we need to dereference the pointer `n` later, which
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would lead to a segfault when `n` is `NULL`.
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When these tests run, the following happens:
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1. GoogleTest constructs a `QueueTest` object (let's call it `t1`).
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2. `t1.SetUp()` initializes `t1`.
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3. The first test (`IsEmptyInitially`) runs on `t1`.
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4. `t1.TearDown()` cleans up after the test finishes.
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5. `t1` is destructed.
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6. The above steps are repeated on another `QueueTest` object, this time
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running the `DequeueWorks` test.
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**Availability**: Linux, Windows, Mac.
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## Invoking the Tests
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`TEST()` and `TEST_F()` implicitly register their tests with GoogleTest. So,
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unlike with many other C++ testing frameworks, you don't have to re-list all
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your defined tests in order to run them.
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After defining your tests, you can run them with `RUN_ALL_TESTS()`, which
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returns `0` if all the tests are successful, or `1` otherwise. Note that
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`RUN_ALL_TESTS()` runs *all tests* in your link unit--they can be from different
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test suites, or even different source files.
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When invoked, the `RUN_ALL_TESTS()` macro:
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* Saves the state of all GoogleTest flags.
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* Creates a test fixture object for the first test.
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* Initializes it via `SetUp()`.
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* Runs the test on the fixture object.
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* Cleans up the fixture via `TearDown()`.
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* Deletes the fixture.
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* Restores the state of all GoogleTest flags.
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* Repeats the above steps for the next test, until all tests have run.
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If a fatal failure happens the subsequent steps will be skipped.
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{: .callout .important}
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> IMPORTANT: You must **not** ignore the return value of `RUN_ALL_TESTS()`, or
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> you will get a compiler error. The rationale for this design is that the
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> automated testing service determines whether a test has passed based on its
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> exit code, not on its stdout/stderr output; thus your `main()` function must
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> return the value of `RUN_ALL_TESTS()`.
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>
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> Also, you should call `RUN_ALL_TESTS()` only **once**. Calling it more than
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> once conflicts with some advanced GoogleTest features (e.g., thread-safe
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> [death tests](advanced.md#death-tests)) and thus is not supported.
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**Availability**: Linux, Windows, Mac.
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## Writing the main() Function
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Most users should *not* need to write their own `main` function and instead link
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with `gtest_main` (as opposed to with `gtest`), which defines a suitable entry
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point. See the end of this section for details. The remainder of this section
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should only apply when you need to do something custom before the tests run that
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cannot be expressed within the framework of fixtures and test suites.
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If you write your own `main` function, it should return the value of
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`RUN_ALL_TESTS()`.
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You can start from this boilerplate:
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```c++
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#include "this/package/foo.h"
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#include <gtest/gtest.h>
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namespace my {
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namespace project {
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namespace {
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// The fixture for testing class Foo.
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class FooTest : public ::testing::Test {
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protected:
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// You can remove any or all of the following functions if their bodies would
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// be empty.
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FooTest() {
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// You can do set-up work for each test here.
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}
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~FooTest() override {
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// You can do clean-up work that doesn't throw exceptions here.
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}
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// If the constructor and destructor are not enough for setting up
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// and cleaning up each test, you can define the following methods:
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void SetUp() override {
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// Code here will be called immediately after the constructor (right
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// before each test).
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}
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void TearDown() override {
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// Code here will be called immediately after each test (right
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// before the destructor).
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}
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// Class members declared here can be used by all tests in the test suite
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// for Foo.
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};
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// Tests that the Foo::Bar() method does Abc.
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TEST_F(FooTest, MethodBarDoesAbc) {
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const std::string input_filepath = "this/package/testdata/myinputfile.dat";
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const std::string output_filepath = "this/package/testdata/myoutputfile.dat";
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Foo f;
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EXPECT_EQ(f.Bar(input_filepath, output_filepath), 0);
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}
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// Tests that Foo does Xyz.
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TEST_F(FooTest, DoesXyz) {
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// Exercises the Xyz feature of Foo.
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}
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} // namespace
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} // namespace project
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} // namespace my
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int main(int argc, char **argv) {
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::testing::InitGoogleTest(&argc, argv);
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return RUN_ALL_TESTS();
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}
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```
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The `::testing::InitGoogleTest()` function parses the command line for
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GoogleTest flags, and removes all recognized flags. This allows the user to
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control a test program's behavior via various flags, which we'll cover in the
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[AdvancedGuide](advanced.md). You **must** call this function before calling
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`RUN_ALL_TESTS()`, or the flags won't be properly initialized.
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On Windows, `InitGoogleTest()` also works with wide strings, so it can be used
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in programs compiled in `UNICODE` mode as well.
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But maybe you think that writing all those `main` functions is too much work? We
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agree with you completely, and that's why Google Test provides a basic
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implementation of main(). If it fits your needs, then just link your test with
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the `gtest_main` library and you are good to go.
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{: .callout .note}
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NOTE: `ParseGUnitFlags()` is deprecated in favor of `InitGoogleTest()`.
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## Known Limitations
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* Google Test is designed to be thread-safe. The implementation is thread-safe
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on systems where the `pthreads` library is available. It is currently
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*unsafe* to use Google Test assertions from two threads concurrently on
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other systems (e.g. Windows). In most tests this is not an issue as usually
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the assertions are done in the main thread. If you want to help, you can
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volunteer to implement the necessary synchronization primitives in
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`gtest-port.h` for your platform.
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