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229 lines
8.3 KiB
Markdown
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# Tutorial
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**Contents**<br>
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[Getting Catch2](#getting-catch2)<br>
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[Writing tests](#writing-tests)<br>
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[Test cases and sections](#test-cases-and-sections)<br>
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[BDD style testing](#bdd-style-testing)<br>
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[Data and Type driven tests](#data-and-type-driven-tests)<br>
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[Next steps](#next-steps)<br>
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## Getting Catch2
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Ideally you should be using Catch2 through its [CMake integration](cmake-integration.md#top).
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Catch2 also provides pkg-config files and two file (header + cpp)
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distribution, but this documentation will assume you are using CMake. If
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you are using the two file distribution instead, remember to replace
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the included header with `catch_amalgamated.hpp` ([step by step instructions](migrate-v2-to-v3.md#how-to-migrate-projects-from-v2-to-v3)).
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## Writing tests
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Let's start with a really simple example ([code](../examples/010-TestCase.cpp)). Say you have written a function to calculate factorials and now you want to test it (let's leave aside TDD for now).
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```c++
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unsigned int Factorial( unsigned int number ) {
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return number <= 1 ? number : Factorial(number-1)*number;
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}
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```
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```c++
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#include <catch2/catch_test_macros.hpp>
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unsigned int Factorial( unsigned int number ) {
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return number <= 1 ? number : Factorial(number-1)*number;
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}
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TEST_CASE( "Factorials are computed", "[factorial]" ) {
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REQUIRE( Factorial(1) == 1 );
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REQUIRE( Factorial(2) == 2 );
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REQUIRE( Factorial(3) == 6 );
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REQUIRE( Factorial(10) == 3628800 );
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}
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```
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This will compile to a complete executable which responds to [command line arguments](command-line.md#top). If you just run it with no arguments it will execute all test cases (in this case there is just one), report any failures, report a summary of how many tests passed and failed and return the number of failed tests (useful for if you just want a yes/ no answer to: "did it work").
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Anyway, as the tests above as written will pass, but there is a bug.
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The problem is that `Factorial(0)` should return 1 (due to [its
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definition](https://en.wikipedia.org/wiki/Factorial#Factorial_of_zero)).
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Let's add that as an assertion to the test case:
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```c++
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TEST_CASE( "Factorials are computed", "[factorial]" ) {
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REQUIRE( Factorial(0) == 1 );
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REQUIRE( Factorial(1) == 1 );
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REQUIRE( Factorial(2) == 2 );
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REQUIRE( Factorial(3) == 6 );
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REQUIRE( Factorial(10) == 3628800 );
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}
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```
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After another compile & run cycle, we will see a test failure. The output
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will look something like:
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```
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Example.cpp:9: FAILED:
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REQUIRE( Factorial(0) == 1 )
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with expansion:
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0 == 1
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```
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Note that the output contains both the original expression,
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`REQUIRE( Factorial(0) == 1 )` and the actual value returned by the call
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to the `Factorial` function: `0`.
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We can fix this bug by slightly modifying the `Factorial` function to:
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```c++
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unsigned int Factorial( unsigned int number ) {
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return number > 1 ? Factorial(number-1)*number : 1;
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}
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```
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### What did we do here?
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Although this was a simple test it's been enough to demonstrate a few
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things about how Catch2 is used. Let's take a moment to consider those
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before we move on.
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* We introduce test cases with the `TEST_CASE` macro. This macro takes
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one or two string arguments - a free form test name and, optionally,
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one or more tags (for more see [Test cases and Sections](#test-cases-and-sections)).
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* The test automatically self-registers with the test runner, and user
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does not have do anything more to ensure that it is picked up by the test
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framework. _Note that you can run specific test, or set of tests,
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through the [command line](command-line.md#top)._
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* The individual test assertions are written using the `REQUIRE` macro.
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It accepts a boolean expression, and uses expression templates to
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internally decompose it, so that it can be individually stringified
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on test failure.
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On the last point, note that there are more testing macros available,
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because not all useful checks can be expressed as a simple boolean
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expression. As an example, checking that an expression throws an exception
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is done with the `REQUIRE_THROWS` macro. More on that later.
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## Test cases and sections
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Like most test frameworks, Catch2 supports a class-based fixture mechanism,
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where individual tests are methods on class and setup/teardown can be
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done in constructor/destructor of the type.
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However, their use in Catch2 is rare, because idiomatic Catch2 tests
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instead use _sections_ to share setup and teardown code between test code.
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This is best explained through an example ([code](../examples/100-Fix-Section.cpp)):
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```c++
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TEST_CASE( "vectors can be sized and resized", "[vector]" ) {
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// This setup will be done 4 times in total, once for each section
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std::vector<int> v( 5 );
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REQUIRE( v.size() == 5 );
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REQUIRE( v.capacity() >= 5 );
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SECTION( "resizing bigger changes size and capacity" ) {
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v.resize( 10 );
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REQUIRE( v.size() == 10 );
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REQUIRE( v.capacity() >= 10 );
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}
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SECTION( "resizing smaller changes size but not capacity" ) {
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v.resize( 0 );
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REQUIRE( v.size() == 0 );
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REQUIRE( v.capacity() >= 5 );
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}
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SECTION( "reserving bigger changes capacity but not size" ) {
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v.reserve( 10 );
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REQUIRE( v.size() == 5 );
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REQUIRE( v.capacity() >= 10 );
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}
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SECTION( "reserving smaller does not change size or capacity" ) {
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v.reserve( 0 );
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REQUIRE( v.size() == 5 );
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REQUIRE( v.capacity() >= 5 );
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}
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}
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```
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For each `SECTION` the `TEST_CASE` is **executed from the start**. This means
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that each section is entered with a freshly constructed vector `v`, that
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we know has size 5 and capacity at least 5, because the two assertions
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are also checked before the section is entered. This behaviour may not be
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ideal for tests where setup is expensive. Each run through a test case will
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execute one, and only one, leaf section.
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Section can also be nested, in which case the parent section can be
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entered multiple times, once for each leaf section. Nested sections are
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most useful when you have multiple tests that share part of the set up.
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To continue on the vector example above, you could add a check that
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`std::vector::reserve` does not remove unused excess capacity, like this:
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```cpp
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SECTION( "reserving bigger changes capacity but not size" ) {
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v.reserve( 10 );
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REQUIRE( v.size() == 5 );
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REQUIRE( v.capacity() >= 10 );
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SECTION( "reserving down unused capacity does not change capacity" ) {
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v.reserve( 7 );
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REQUIRE( v.size() == 5 );
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REQUIRE( v.capacity() >= 10 );
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}
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}
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```
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Another way to look at sections is that they are a way to define a tree
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of paths through the test. Each section represents a node, and the final
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tree is walked in depth-first manner, with each path only visiting only
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one leaf node.
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There is no practical limit on nesting sections, as long as your compiler
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can handle them, but keep in mind that overly nested sections can become
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unreadable. From experience, having section nest more than 3 levels is
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usually very hard to follow and not worth the removed duplication.
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## BDD style testing
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Catch2 also provides some basic support for BDD-style testing. There are
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macro aliases for `TEST_CASE` and `SECTIONS` that you can use so that
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the resulting tests read as BDD spec. `SCENARIO` acts as a `TEST_CASE`
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with "Scenario: " name prefix. Then there are `GIVEN`, `WHEN`, `THEN`
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(and their variants with `AND_` prefix), which act as a `SECTION`,
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similarly prefixed with the macro name.
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For more details on the macros look at the [test cases and
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sections](test-cases-and-sections.md#top) part of the reference docs,
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or at the [vector example done with BDD macros](../examples/120-Bdd-ScenarioGivenWhenThen.cpp).
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## Data and Type driven tests
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Test cases in Catch2 can also be driven by types, input data, or both
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at the same time.
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For more details look into the Catch2 reference, either at the
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[type parametrized test cases](test-cases-and-sections.md#type-parametrised-test-cases),
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or [data generators](generators.md#top).
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## Next steps
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This page is a brief introduction to get you up and running with Catch2,
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and to show the basic features of Catch2. The features mentioned here
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can get you quite far, but there are many more. However, you can read
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about these as you go, in the ever-growing [reference section](Readme.md#top)
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of the documentation.
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---
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[Home](Readme.md#top)
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