7. Code Coverage
Wikipedia:
In computer science, code coverage is a measure used to describe the degree to which the source code of a program is tested by a particular test suite. A program with high code coverage has been more thoroughly tested and has a lower chance of containing software bugs than a program with low code coverage.
In this chapter you will learn all about PHPUnit’s code coverage functionality that provides an insight into what parts of the production code are executed when the tests are run. It makes use of the php-code-coverage library, which in turn leverages the code coverage functionality provided by the PCOV or Xdebug extensions for PHP.
Note
If you see a warning while running tests that no code coverage driver is
available, it means that you are using the PHP CLI binary (php
) and do not
have PCOV or Xdebug loaded.
Note
When you want to use Xdebug for the collection of code coverage data then you have to activate Xdebug’s coverage mode.
PHPUnit can generate a code coverage report in HTML format as well as XML-based logfiles with code coverage information in various formats (Clover, Cobertura, Crap4J, PHPUnit). Code coverage information can also be reported as text (and printed to STDOUT) and exported as PHP code for further processing.
Please refer to The Command-Line Test Runner for a list of command-line options that control code coverage functionality as well as The <source> Element and The <coverage> Element for the relevant configuration settings for reporting code coverage.
Software Metrics for Code Coverage
Various software metrics exist to measure code coverage:
Line Coverage
The Line Coverage software metric measures whether each executable line was executed.
Branch Coverage
The Branch Coverage software metric measures whether the boolean expression of each control structure evaluated to both
true
andfalse
while running the test suite.
Path Coverage
The Path Coverage software metric measures whether each of the possible execution paths in a function or method has been followed while running the test suite. An execution path is a unique sequence of branches from the entry of the function or method to its exit.
Function and Method Coverage
The Function and Method Coverage software metric measures whether each function or method has been invoked. php-code-coverage only considers a function or method as covered when all of its executable lines are covered.
Class and Trait Coverage
The Class and Trait Coverage software metric measures whether each method of a class or trait is covered. php-code-coverage only considers a class or trait as covered when all of its methods are covered.
Change Risk Anti-Patterns (CRAP) Index
The Change Risk Anti-Patterns (CRAP) Index is calculated based on the cyclomatic complexity and code coverage of a unit of code. Code that is not too complex and has an adequate test coverage will have a low CRAP index. The CRAP index can be lowered by writing tests and by refactoring the code to lower its complexity.
The library used by PHPUnit supports all code coverage software metrics listed above. To report branch coverage and path coverage, code coverage data has to be collected using Xdebug as PCOV only supports line coverage.
Including Files
It is mandatory to configure which source code files you consider your own and therefore
want to be included in the code coverage report. As other features of PHPUnit also need
to know which source code files you consider your own, it is best practice to configure
this in the XML configuration file (see The <include> Element).
Alternatively, you may use the --coverage-filter
command-line
option.
The includeUncoveredFiles
configuration setting is available to configure how the filter is used:
includeUncoveredFiles="true"
(default) means that all files are included in the code coverage report even if not a single line of code of such a file is executedincludeUncoveredFiles="false"
means that only files that have at least one line of executed code are included in the code coverage report
In order to get a complete and honest code coverage report, it is highly recommended to use the default setting.
Targeting Units of Code
The PHPUnit\Framework\Attributes\CoversClass
, PHPUnit\Framework\Attributes\CoversMethod
,
and PHPUnit\Framework\Attributes\CoversFunction
attributes can be used in the test code to
specify which units of code a test class intends to cover.
When these attributes are used on a test case class, code coverage information is only collected for the listed units of code when the test methods of this test case class are executed.
Example 7.1 shows an example.
<?php declare(strict_types=1);
use PHPUnit\Framework\Attributes\CoversClass;
use PHPUnit\Framework\Attributes\UsesClass;
use PHPUnit\Framework\TestCase;
#[CoversClass(Invoice::class)]
#[UsesClass(Money::class)]
final class InvoiceTest extends TestCase
{
public function testAmountInitiallyIsEmpty(): void
{
$this->assertEquals(new Money, (new Invoice)->amount());
}
}
The PHPUnit\Framework\Attributes\UsesClass
, PHPUnit\Framework\Attributes\UsesMethod
,
and PHPUnit\Framework\Attributes\UsesFunction
attributes can be used to specify units of code
that should be ignored for code coverage, but which are allowed to be used by the code that is
covered. This is explained in the section on unintentionally covered code.
In the example shown above, the #[CoversClass(Invoice::class)]
attribute tells PHPUnit that
the tests of this test case class intend to cover the code of the Invoice
class. When the
tests of this test case class are run, only code coverage information for the Invoice
class
will be processed and code coverage information for all other code that may also be run while
these tests are running will be ignored.
In the example shown above, the #[UsesClass(Money::class)]
attribute tells PHPUnit that
it is expected and allowed that code from the Money
class is also run while the tests of this
test case class are run. This is important when it comes to considering a test risky when it
runs code that is not expected to be run.
As it is technically not possible to test a subclass in isolation from its base class(es),
the #[CoversClass]
and #[UsesClass]
attributes consider the class whose name has been
specified as well as all of its parent classes, if it has any.
The PHPUnit\Framework\Attributes\CoversNothing
attribute can be used to specify that tests
should not contribute to code coverage at all. This can be helpful when writing integration tests
and to make sure you only generate code coverage with smaller tests.
<?php declare(strict_types=1);
use PHPUnit\Framework\Attributes\CoversNothing;
use PHPUnit\Framework\TestCase;
#[CoversNothing]
final class IntegrationTest extends TestCase
{
public function testRegisteredUserCanLogIn(): void
{
// ...
}
}
Ignoring Code Blocks
Sometimes you have units of code, or even just individual lines of code, that you cannot test
and that you may want to ignore during code coverage analysis. PHPUnit lets you do this
using the @codeCoverageIgnore
, @codeCoverageIgnoreStart
, and @codeCoverageIgnoreEnd
annotations that can be used in code comments in production code:
<?php declare(strict_types=1);
/**
* @codeCoverageIgnore
*/
final class Foo
{
public function bar(): void
{
}
}
final class Bar
{
/**
* @codeCoverageIgnore
*/
public function foo(): void
{
}
}
if (false) {
// @codeCoverageIgnoreStart
print '*';
// @codeCoverageIgnoreEnd
}
exit; // @codeCoverageIgnore
In the example shown above, the @codeCoverageIgnore
annotation is used to ignore
all code of the Foo
class, all code of the Bar::foo()
method, and the single
line of code with the exit;
statement. The line with the print '*';
statement
is ignored using // @codeCoverageIgnoreStart
and // @codeCoverageIgnoreEnd
.
Note
Please note that while annotations in code comments in test code have been deprecated
and support for them will be removed in PHPUnit 12, the @codeCoverageIgnore
,
@codeCoverageIgnoreStart
, and @codeCoverageIgnoreEnd
annotations in code
comments in production code have not been deprecated and support for them will not be
removed.