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372 lines
12 KiB
Markdown
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[#]: subject: "Perform unit tests using GoogleTest and CTest"
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[#]: via: "https://opensource.com/article/22/1/unit-testing-googletest-ctest"
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[#]: author: "Stephan Avenwedde https://opensource.com/users/hansic99"
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[#]: collector: "lujun9972"
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[#]: translator: " "
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[#]: reviewer: " "
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[#]: publisher: " "
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[#]: url: " "
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Perform unit tests using GoogleTest and CTest
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======
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Using unit tests will likely improve your code's quality and do so
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without disturbing your workflow.
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![Team checklist and to dos][1]
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This article is a follow-up to my last article [Set up a build system with CMake and VSCodium][2].
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In the last article, I showed how to configure a build system based on [VSCodium][3] and [CMake][4]. This article refines this setup by integrating meaningful unit tests using [GoogleTest][5] and [CTest][6].
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If not already done, clone the [repository][7], open it in VSCodium and checkout the tag _devops_2_ by clicking on the _main_-branch symbol (red marker) and choosing the branch (yellow marker):
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![VSCodium tag][8]
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Stephan Avenwedde (CC BY-SA 4.0)
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Alternatively, open the command line and type:
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```
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`$ git checkout tags/devops_2`
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```
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### GoogleTest
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GoogleTest is a platform-independent, open source C++ testing framework. Even though GoogleTest is not meant to be exclusively for unit tests, I will use it to define unit tests for the _Generator_ library. In general, a unit test should verify the behavior of a single, logical unit. The _Generator_ library is one unit, so I'll write some meaningful tests to ensure proper function.
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Using GoogleTest, the test cases are defined by assertions macros. Processing an assertion generates one of the following results:
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* _Success_: Test passed.
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* _Nonfatal failure_: Test failed, but the test function will continue.
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* _Fatal failure_: Test failed, and the test function will be aborted.
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The assertions macros follow this scheme to distinguish a fatal from a nonfatal failure:
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* `ASSERT_*` fatal failure, function is aborted.
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* `EXPECT_*` nonfatal failure, function is not aborted.
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Google recommends using `EXPECT_*` macros as they allow the test to continue when the tests define multiple assertions. An assertion macro takes two arguments: The first argument is the name of the test group (a freely selectable string), and the second argument is the name of the test itself. The _Generator_ library just defines the function _generate(...)_, therefore the tests in this article belong to the same group: _GeneratorTest_.
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The following unit tests for the _generate(...)_ function can be found in [GeneratorTest.cpp][9].
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#### Reference check
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The [generate(...)][10] function takes a reference to a [std::stringstream][11] as an argument and returns the same reference. So the first test is to check if the passed reference is the same reference which the function returns.
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```
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TEST(GeneratorTest, ReferenceCheck){
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const int NumberOfElements = 10;
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std::stringstream buffer;
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EXPECT_EQ(
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std::addressof(buffer),
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std::addressof(Generator::generate(buffer, NumberOfElements))
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);
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}
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```
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Here I use [std::addressof][12] to check if the address of the returned object refers to the same object I provided as input.
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#### Number of elements
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This test checks if the number of elements in the stringstream reference matches the number given as an argument.
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```
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TEST(GeneratorTest, NumberOfElements){
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const int NumberOfElements = 50;
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int nCalcNoElements = 0;
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std::stringstream buffer;
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Generator::generate(buffer, NumberOfElements);
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std::string s_no;
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while(std::getline(buffer, s_no, ' ')) {
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nCalcNoElements++;
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}
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EXPECT_EQ(nCalcNoElements, NumberOfElements);
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}
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```
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#### Shuffle
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This test checks the proper working of the random engine. If I invoke the _generate_ function two times in a row, I expect not to get the same result.
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```
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TEST(GeneratorTest, Shuffle){
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const int NumberOfElements = 50;
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std::stringstream buffer_A;
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std::stringstream buffer_B;
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Generator::generate(buffer_A, NumberOfElements);
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Generator::generate(buffer_B, NumberOfElements);
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EXPECT_NE(buffer_A.str(), buffer_B.str());
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}
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```
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#### Checksum
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This is the largest test. It checks whether the sum of the digits of a numerical series from 1 to _n_ is the same as the sum of the shuffled output series. I expect that the sum matches as the _generate(...)_ function should simply create a shuffled variant of such a series.
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```
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TEST(GeneratorTest, CheckSum){
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const int NumberOfElements = 50;
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int nChecksum_in = 0;
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int nChecksum_out = 0;
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std::vector<int> vNumbersRef(NumberOfElements); // Input vector
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std::iota(vNumbersRef.begin(), vNumbersRef.end(), 1); // Populate vector
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// Calculate reference checksum
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for(const int n : vNumbersRef){
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nChecksum_in += n;
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}
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std::stringstream buffer;
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Generator::generate(buffer, NumberOfElements);
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std::vector<int> vNumbersGen; // Output vector
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std::string s_no;
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// Read the buffer back back to the output vector
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while(std::getline(buffer, s_no, ' ')) {
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vNumbersGen.push_back(std::stoi(s_no));
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}
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// Calculate output checksum
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for(const int n : vNumbersGen){
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nChecksum_out += n;
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}
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EXPECT_EQ(nChecksum_in, nChecksum_out);
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}
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```
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The above tests can also be debugged like an ordinary C++ application.
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### CTest
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In addition to the in-code unit test, the [CTest][6] utility lets me define tests that can be performed on executables. In a nutshell, I call the executable with certain arguments and match the output with [regular expressions][13]. This lets me simply check how the executable behaves with incorrect command-line arguments. The tests are defined in the top level [CMakeLists.txt][14]. Here is a closer look at three test cases:
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#### Regular usage
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If a positive integer is provided as a command-line argument, I expect the executable to produce a series of numbers separated by whitespace:
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```
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add_test(NAME RegularUsage COMMAND Producer 10)
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set_tests_properties(RegularUsage
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PROPERTIES PASS_REGULAR_EXPRESSION "^[0-9 ]+"
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)
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```
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#### No argument
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If no argument is provided, the program should exit immediately and display the reason why:
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```
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add_test(NAME NoArg COMMAND Producer)
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set_tests_properties(NoArg
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PROPERTIES PASS_REGULAR_EXPRESSION "^Enter the number of elements as argument"
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)
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```
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#### Wrong argument
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Providing an argument that cannot be converted into an integer should also cause an immediate exit with an error message. This test invokes the _Producer_ executable with the command line parameter*"ABC"*:
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```
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add_test(NAME WrongArg COMMAND Producer ABC)
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set_tests_properties(WrongArg
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PROPERTIES PASS_REGULAR_EXPRESSION "^Error: Cannot parse"
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)
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```
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#### Testing the tests
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To run a single test and see how it is processed, invoke `ctest` from the command line providing the following arguments:
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* Run single tst: `-R <test-name>`
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* Enable verbose output: `-VV`
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Here is the command `ctest -R Usage -VV:`
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```
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$ ctest -R Usage -VV
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UpdatecTest Configuration from :/home/stephan/Documents/cpp_testing sample/build/DartConfiguration.tcl
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UpdateCTestConfiguration from :/home/stephan/Documents/cpp_testing sample/build/DartConfiguration.tcl
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Test project /home/stephan/Documents/cpp_testing sample/build
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Constructing a list of tests
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Done constructing a list of tests
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Updating test list for fixtures
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Added 0 tests to meet fixture requirements
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Checking test dependency graph...
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Checking test dependency graph end
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```
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In this code block, I invoked a test named _Usage_.
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This ran the executable with no command-line arguments:
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```
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test 3
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Start 3: Usage
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3: Test command: /home/stephan/Documents/cpp testing sample/build/Producer
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```
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The test failed because the output didn't match the regular expression `[^[0-9]+]`.
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```
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3: Enter the number of elements as argument
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1/1 test #3. Usage ................
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Failed Required regular expression not found.
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Regex=[^[0-9]+]
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0.00 sec round.
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0% tests passed, 1 tests failed out of 1
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Total Test time (real) =
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0.00 sec
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The following tests FAILED:
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3 - Usage (Failed)
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Errors while running CTest
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$
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```
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To run all tests (including the one defined with GoogleTest), navigate to the _build_ directory and run `ctest`:
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![CTest run][15]
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Stephan Avenwedde (CC BY-SA 4.0)
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Inside VSCodium, click on the area marked yellow in the info bar to invoke CTest. If all tests pass, the following output is displayed:
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![VSCodium][16]
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Stephan Avenwedde (CC BY-SA 4.0)
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### Automate testing with Git Hooks
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By now, running the tests is an additional step for the developer. The developer could also commit and push code that doesn't pass the tests. Thanks to [Git Hooks][17], I can implement a mechanism that automatically runs the tests and prevents the developer from accidentally committing faulty code.
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Navigate to `.git/hooks`, create an empty file named _pre-commit_, and copy and paste the following code:
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```
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#!/usr/bin/sh
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(cd build; ctest --output-on-failure -j6)
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```
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After it, make this file executable:
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```
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`$ chmod +x pre-commit`
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```
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This script invokes CTest when trying to perform a commit. If a test fails, like in the screenshot below, the commit is aborted:
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![Commit failed][18]
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Stephan Avenwedde (CC BY-SA 4.0)
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If the tests succeed, the commit is processed, and the output looks like this:
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![Commit succeeded][19]
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Stephan Avenwedde (CC BY-SA 4.0)
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The described mechanism is only a soft barrier: A developer could still commit faulty code using `git commit --no-verify`. I can ensure that only working code is pushed by configuring a build server. This topic will be part of a separate article.
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### Summary
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The techniques mentioned in this article are easy to implement and help you quickly find bugs in your code. Using unit tests will likely improve your code's quality and, as I have shown, do so without disturbing your workflow. The GoogleTest framework provides features for every conceivable scenario; I only used a subset of its functionality. At this point, I also want to mention the [GoogleTest Primer][20], which gives you an overview of the ideas, opportunities, and features of the framework.
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--------------------------------------------------------------------------------
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via: https://opensource.com/article/22/1/unit-testing-googletest-ctest
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作者:[Stephan Avenwedde][a]
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选题:[lujun9972][b]
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译者:[译者ID](https://github.com/译者ID)
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校对:[校对者ID](https://github.com/校对者ID)
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本文由 [LCTT](https://github.com/LCTT/TranslateProject) 原创编译,[Linux中国](https://linux.cn/) 荣誉推出
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[a]: https://opensource.com/users/hansic99
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[b]: https://github.com/lujun9972
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[1]: https://opensource.com/sites/default/files/styles/image-full-size/public/lead-images/todo_checklist_team_metrics_report.png?itok=oB5uQbzf (Team checklist and to dos)
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[2]: https://opensource.com/article/22/1/devops-cmake
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[3]: https://vscodium.com/
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[4]: https://cmake.org/
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[5]: https://github.com/google/googletest
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[6]: https://cmake.org/cmake/help/latest/manual/ctest.1.html
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[7]: https://github.com/hANSIc99/cpp_testing_sample
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[8]: https://opensource.com/sites/default/files/cpp_unit_test_vscodium_tag.png (VSCodium tag)
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[9]: https://github.com/hANSIc99/cpp_testing_sample/blob/main/Generator/GeneratorTest.cpp
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[10]: https://github.com/hANSIc99/cpp_testing_sample/blob/main/Generator/Generator.cpp
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[11]: https://en.cppreference.com/w/cpp/io/basic_stringstream
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[12]: https://en.cppreference.com/w/cpp/memory/addressof
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[13]: https://en.wikipedia.org/wiki/Regular_expression
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[14]: https://github.com/hANSIc99/cpp_testing_sample/blob/main/CMakeLists.txt
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[15]: https://opensource.com/sites/default/files/cpp_unit_test_ctest_run.png (CTest run)
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[16]: https://opensource.com/sites/default/files/cpp_unit_test_ctest_vscodium.png (VSCodium)
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[17]: https://git-scm.com/book/en/v2/Customizing-Git-Git-Hooks
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[18]: https://opensource.com/sites/default/files/cpp_unit_test_git_hook_commit_failed.png (Commit failed)
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[19]: https://opensource.com/sites/default/files/cpp_unit_test_git_hook_commit_succeeded.png (Commit succeeded)
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[20]: https://google.github.io/googletest/primer.html
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