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| ## Test cases |
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| While **doctest** fully supports the traditional, xUnit, style of class-based fixtures containing test case methods this is not the preferred style. Instead **doctest** provides a powerful mechanism for nesting subcases within a test case. For a more detailed discussion see the [**tutorial**](tutorial.html#test-cases-and-subcases). |
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| Test cases and subcases are very easy to use in practice: |
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| * **TEST_CASE(** _test name_ **)** |
| * **SUBCASE(** _subcase name_ **)** |
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| _test name_ and _subcase name_ are free form, quoted, strings. Test names don't have to be unique within the **doctest** executable. They should also be string literals. |
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| Keep in mind that even though **doctest** is [**thread-safe**](faq.html#is-doctest-thread-aware) - using subcases has to be done only in the main test runner thread. |
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| For examples see the [Tutorial](tutorial.html) |
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| Test cases can also be parameterized - see the [documentation](parameterized-tests.html) |
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| Test cases and subcases can be filtered through the use of the [**command line**](commandline.html) |
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| ## BDD-style test cases |
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| In addition to **doctest**'s take on the classic style of test cases, **doctest** supports an alternative syntax that allow tests to be written as "executable specifications" (one of the early goals of [Behaviour Driven Development](http://dannorth.net/introducing-bdd/)). This set of macros map on to ```TEST_CASE```s and ```SUBCASE```s, with a little internal support to make them smoother to work with. |
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| * **SCENARIO(** _scenario name_ **)** |
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| This macro maps onto ```TEST_CASE``` and works in the same way, except that the test case name will be prefixed by "Scenario: " |
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| * **SCENARIO_TEMPLATE(** _scenario name_, _type_, _list of types_ **)** |
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| This macro maps onto ```TEST_CASE_TEMPLATE``` and works in the same way, except that the test case name will be prefixed by "Scenario: " |
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| * **SCENARIO_TEMPLATE_DEFINE(** _scenario name_, _type_, _id_ **)** |
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| This macro maps onto ```TEST_CASE_TEMPLATE_DEFINE``` and works in the same way, except that the test case name will be prefixed by "Scenario: " |
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| * **GIVEN(** _something_ **)** |
| * **WHEN(** _something_ **)** |
| * **THEN(** _something_ **)** |
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| These macros map onto ```SUBCASE```s except that the subcase names are the _something_s prefixed by "given: ", "when: " or "then: " respectively. |
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| * **AND_WHEN(** _something_ **)** |
| * **AND_THEN(** _something_ **)** |
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| Similar to ```WHEN``` and ```THEN``` except that the prefixes start with "and ". These are used to chain ```WHEN```s and ```THEN```s together. |
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| When any of these macros are used the console reporter recognises them and formats the test case header such that the Givens, Whens and Thens are aligned to aid readability. |
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| Other than the additional prefixes and the formatting in the console reporter these macros behave exactly as ```TEST_CASE```s and ```SUBCASE```s. As such there is nothing enforcing the correct sequencing of these macros - that's up to the programmer! |
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| ## Test fixtures |
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| Although **doctest** allows you to group tests together as subcases within a test case, it can still be convenient, sometimes, to group them using a more traditional test fixture. **doctest** fully supports this too. You define the test fixture as a simple structure: |
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| ``` |
| class UniqueTestsFixture { |
| private: |
| static int uniqueID; |
| protected: |
| DBConnection conn; |
| public: |
| UniqueTestsFixture() : conn(DBConnection::createConnection("myDB")) {} |
| protected: |
| int getID() { |
| return ++uniqueID; |
| } |
| }; |
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| int UniqueTestsFixture::uniqueID = 0; |
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| TEST_CASE_FIXTURE(UniqueTestsFixture, "Create Employee/No Name") { |
| REQUIRE_THROWS(conn.executeSQL("INSERT INTO employee (id, name) VALUES (?, ?)", getID(), "")); |
| } |
| TEST_CASE_FIXTURE(UniqueTestsFixture, "Create Employee/Normal") { |
| REQUIRE(conn.executeSQL("INSERT INTO employee (id, name) VALUES (?, ?)", getID(), "Joe Bloggs")); |
| } |
| ``` |
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| The two test cases here will create uniquely-named derived classes of UniqueTestsFixture and thus can access the `getID()` protected method and `conn` member variables. This ensures that both the test cases are able to create a DBConnection using the same method (DRY principle) and that any ID's created are unique such that the order that tests are executed does not matter. |
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| ## Test suites |
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| Test cases can be grouped into test suites. This is done with ```TEST_SUITE()``` or ```TEST_SUITE_BEGIN()``` / ```TEST_SUITE_END()```. |
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| For example: |
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| ``` |
| TEST_CASE("") {} // not part of any test suite |
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| TEST_SUITE("math") { |
| TEST_CASE("") {} // part of the math test suite |
| TEST_CASE("") {} // part of the math test suite |
| } |
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| TEST_SUITE_BEGIN("utils"); |
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| TEST_CASE("") {} // part of the utils test suite |
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| TEST_SUITE_END(); |
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| TEST_CASE("") {} // not part of any test suite |
| ``` |
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| Then test cases from specific test suites can be executed with the help of filters - check out the [**command line**](commandline.html) |
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| ## Decorators |
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| Test cases can be *decorated* with additional attributes like this: |
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| ``` |
| TEST_CASE("name" |
| * doctest::description("shouldn't take more than 500ms") |
| * doctest::timeout(0.5)) { |
| // asserts |
| } |
| ``` |
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| Multiple decorators can be used at the same time. These are the currently supported decorators: |
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| - **```skip(bool = true)```** - marks the test case to be skipped from execution - unless the ```--no-skip``` option is used |
| - **```may_fail(bool = true)```** - doesn't fail the test if any given assertion fails (but still reports it) - this can be useful to flag a work-in-progress, or a known issue that you don't want to immediately fix but still want to track in the your tests |
| - **```should_fail(bool = true)```** - like **```may_fail()```** but fails the test if it passes - his can be useful if you want to be notified of accidental, or third-party, fixes |
| - **```expected_failures(int)```** - defines the number of assertions that are expected to fail within the test case - reported as failure when the number of failed assertions is different than the declared expected number of failures |
| - **```timeout(double)```** - fails the test case if its execution exceeds this limit (in seconds) - but doesn't terminate it - that would require subprocess support |
| - **```test_suite("name")```** - can be used on test cases to override (or just set) the test suite they are in |
| - **```description("text")```** - a description of the test case |
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| The values that the decorators take are computed while registering the test cases (during global initialization) - before entering ```main()``` and not just before running them. |
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| Decorators can also be applied to test suite blocks and all test cases in that block inherit them: |
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| ``` |
| TEST_SUITE("some TS" * doctest::description("all tests will have this")) { |
| TEST_CASE("has a description from the surrounding test suite") { |
| // asserts |
| } |
| } |
| TEST_SUITE("some TS") { |
| TEST_CASE("no description even though in the same test suite as the one above") { |
| // asserts |
| } |
| } |
| ``` |
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| Test cases can override the decorators that they inherit from their surrounding test suite: |
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| ``` |
| TEST_SUITE("not longer than 500ms" * doctest::timeout(0.5)) { |
| TEST_CASE("500ms limit") { |
| // asserts |
| } |
| TEST_CASE("200ms limit" * doctest::timeout(0.2)) { |
| // asserts |
| } |
| } |
| ``` |
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| ------ |
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| - Check out the [**subcases and BDD example**](../../examples/all_features/subcases.cpp) |
| - Check out the [**assertion macros example**](../../examples/all_features/assertion_macros.cpp) to see how test suites are used |
| - Tests are registered from top to bottom of each processed cpp after the headers have been preprocessed and included but there is no ordering between cpp files. |
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| --------------- |
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