BDD for pytest
Project description
BDD library for the py.test runner
==================================
.. image:: https://api.travis-ci.org/olegpidsadnyi/pytest-bdd.png
:target: https://travis-ci.org/olegpidsadnyi/pytest-bdd
.. image:: https://pypip.in/v/pytest-bdd/badge.png
:target: https://crate.io/packages/pytest-bdd/
.. image:: https://coveralls.io/repos/olegpidsadnyi/pytest-bdd/badge.png?branch=master
:target: https://coveralls.io/r/olegpidsadnyi/pytest-bdd
pytest-bdd implements a subset of Gherkin language for the automation of the project
requirements testing and easier behavioral driven development.
Unlike many other BDD tools it doesn't require a separate runner and benefits from
the power and flexibility of the pytest. It allows to unify your unit and functional
tests, easier continuous integration server configuration and maximal reuse of the
tests setup.
Pytest fixtures written for the unit tests can be reused for the setup and actions
mentioned in the feature steps with dependency injection, which allows a true BDD
just-enough specification of the requirements without maintaining any context object
containing the side effects of the Gherkin imperative declarations.
Install pytest-bdd
------------------
::
pip install pytest-bdd
Example
-------
publish\_article.feature:
.. code-block:: feature
Feature: Blog
A site where you can publish your articles.
Scenario: Publishing the article
Given I'm an author user
And I have an article
When I go to the article page
And I press the publish button
Then I should not see the error message
And the article should be published # Note: will query the database
test\_publish\_article.py:
.. code-block:: python
from pytest_bdd import scenario, given, when, then
@scenario('publish_article.feature', 'Publishing the article')
def test_publish():
pass
@given('I have an article')
def article(author):
return create_test_article(author=author)
@when('I go to the article page')
def go_to_article(article, browser):
browser.visit(urljoin(browser.url, '/manage/articles/{0}/'.format(article.id)))
@when('I press the publish button')
def publish_article(browser):
browser.find_by_css('button[name=publish]').first.click()
@then('I should not see the error message')
def no_error_message(browser):
with pytest.raises(ElementDoesNotExist):
browser.find_by_css('.message.error').first
@then('And the article should be published')
def article_is_published(article):
article.refresh() # Refresh the object in the SQLAlchemy session
assert article.is_published
Step aliases
------------
Sometimes it is needed to declare the same fixtures or steps with the
different names for better readability. In order to use the same step
function with multiple step names simply decorate it multiple times:
.. code-block:: python
@given('I have an article')
@given('there\'s an article')
def article(author):
return create_test_article(author=author)
Note that the given step aliases are independent and will be executed
when mentioned.
For example if you associate your resource to some owner or not. Admin
user can’t be an author of the article, but articles should have a
default author.
.. code-block:: feature
Scenario: I'm the author
Given I'm an author
And I have an article
Scenario: I'm the admin
Given I'm the admin
And there is an article
Step arguments
--------------
Often it's possible to reuse steps giving them a parameter(s).
This allows to have single implementation and multiple use, so less code.
Also opens the possibility to use same step twice in single scenario and with different arguments!
Important thing that argumented step names are not just strings but regular expressions.
Example:
.. code-block:: feature
Scenario: Arguments for given, when, thens
Given there are 5 cucumbers
When I eat 3 cucumbers
And I eat 2 cucumbers
Then I should have 0 cucumbers
The code will look like:
.. code-block:: python
import re
from pytest_bdd import scenario, given, when, then
@scenario('arguments.feature', 'Arguments for given, when, thens')
def test_arguments():
pass
@given(re.compile('there are (?P<start>\d+) cucumbers'), converters=dict(start=int))
def start_cucumbers(start):
return dict(start=start, eat=0)
@when(re.compile('I eat (?P<eat>\d+) cucumbers'), converters=dict(eat=int))
def eat_cucumbers(start_cucumbers, eat):
start_cucumbers['eat'] += eat
@then(re.compile('I should have (?P<left>\d+) cucumbers'), converters=dict(left=int))
def should_have_left_cucumbers(start_cucumbers, start, left):
assert start_cucumbers['start'] == start
assert start - start_cucumbers['eat'] == left
Example code also shows possibility to pass argument converters which may be useful if you need argument types
different than strings.
Scenario parameters
-------------------
Scenario decorator can accept such optional keyword arguments:
* `encoding` - decode content of feature file in specific encoding. UTF-8 is default.
* `example_converters` - mapping to pass functions to convert example values provided in feature files.
Scenario outlines
-----------------
Scenarios can be parametrized to cover few cases. In Gherkin the variable
templates are written using corner braces as <somevalue>.
`Scenario outlines <http://docs.behat.org/guides/1.gherkin.html#scenario-outlines>`_ are supported by pytest-bdd
exactly as it's described in be behave docs.
Example:
.. code-block:: feature
Scenario Outline: Outlined given, when, thens
Given there are <start> cucumbers
When I eat <eat> cucumbers
Then I should have <left> cucumbers
Examples:
| start | eat | left |
| 12 | 5 | 7 |
pytest-bdd feature file format also supports example tables in different way:
.. code-block:: feature
Scenario Outline: Outlined given, when, thens
Given there are <start> cucumbers
When I eat <eat> cucumbers
Then I should have <left> cucumbers
Examples: Vertical
| start | 12 | 2 |
| eat | 5 | 1 |
| left | 7 | 1 |
This form allows to have tables with lots of columns keeping the maximum text width predictable without significant
readability change.
The code will look like:
.. code-block:: python
from pytest_bdd import given, when, then, scenario
@scenario(
'outline.feature',
'Outlined given, when, thens',
example_converters=dict(start=int, eat=float, left=str)
)
def test_outlined():
pass
@given('there are <start> cucumbers')
def start_cucumbers(start):
assert isinstance(start, int)
return dict(start=start)
@when('I eat <eat> cucumbers')
def eat_cucumbers(start_cucumbers, eat):
assert isinstance(eat, float)
start_cucumbers['eat'] = eat
@then('I should have <left> cucumbers')
def should_have_left_cucumbers(start_cucumbers, start, eat, left):
assert isinstance(left, str)
assert start - eat == int(left)
assert start_cucumbers['start'] == start
assert start_cucumbers['eat'] == eat
Example code also shows possibility to pass example converters which may be useful if you need parameter types
different than strings.
It's also possible to parametrize the scenario on the python side.
The reason for this is that it is sometimes not needed to mention example table for every scenario.
The code will look like:
.. code-block:: python
import pytest
from pytest_bdd import mark, given, when, then
# Here we use pytest to parametrize the test with the parameters table
@pytest.mark.parametrize(
['start', 'eat', 'left'],
[(12, 5, 7)])
@mark.scenario(
'parametrized.feature',
'Parametrized given, when, thens',
)
# Note that we should take the same arguments in the test function that we use
# for the test parametrization either directly or indirectly (fixtures depend on them).
def test_parametrized(start, eat, left):
"""We don't need to do anything here, everything will be managed by the scenario decorator."""
@given('there are <start> cucumbers')
def start_cucumbers(start):
return dict(start=start)
@when('I eat <eat> cucumbers')
def eat_cucumbers(start_cucumbers, start, eat):
start_cucumbers['eat'] = eat
@then('I should have <left> cucumbers')
def should_have_left_cucumbers(start_cucumbers, start, eat, left):
assert start - eat == left
assert start_cucumbers['start'] == start
assert start_cucumbers['eat'] == eat
The significant downside of this approach is inability to see the test table from the feature file.
Test setup
----------
Test setup is implemented within the Given section. Even though these steps
are executed imperatively to apply possible side-effects, pytest-bdd is trying
to benefit of the PyTest fixtures which is based on the dependency injection
and makes the setup more declarative style.
.. code-block:: python
@given('I have a beautiful article')
def article():
return Article(is_beautiful=True)
This also declares a PyTest fixture "article" and any other step can depend on it.
.. code-block:: feature
Given I have a beautiful article
When I publish this article
When step is referring the article to publish it.
.. code-block:: python
@when('I publish this article')
def publish_article(article):
article.publish()
Many other BDD toolkits operate a global context and put the side effects there.
This makes it very difficult to implement the steps, because the dependencies
appear only as the side-effects in the run-time and not declared in the code.
The publish article step has to trust that the article is already in the context,
has to know the name of the attribute it is stored there, the type etc.
In pytest-bdd you just declare an argument of the step function that it depends on
and the PyTest will make sure to provide it.
Still side effects can be applied in the imperative style by design of the BDD.
.. code-block:: feature
Given I have a beautiful article
And my article is published
Functional tests can reuse your fixture libraries created for the unit-tests and upgrade
them by applying the side effects.
.. code-block:: python
given('I have a beautiful article', fixture='article')
@given('my article is published')
def published_article(article):
article.publish()
return article
This way side-effects were applied to our article and PyTest makes sure that all
steps that require the "article" fixture will receive the same object. The value
of the "published_article" and the "article" fixtures is the same object.
Fixtures are evaluated only once within the PyTest scope and their values are cached.
In case of Given steps and the step arguments mentioning the same given step makes
no sense. It won't be executed second time.
.. code-block:: feature
Given I have a beautiful article
And some other thing
And I have a beautiful article # Won't be executed, exception is raised
pytest-bdd will raise an exception even in the case of the steps that use regular expression
patterns to get arguments.
.. code-block:: feature
Given I have 1 cucumbers
And I have 2 cucumbers # Exception is raised
Will raise an exception if the step is using the regular expression pattern.
.. code-block:: python
@given(re.compile('I have (?P<n>\d+) cucumbers'))
def cucumbers(n):
return create_cucumbers(n)
Reusing fixtures
----------------
Sometimes scenarios define new names for the fixture that can be
inherited. Fixtures can be reused with other names using given():
.. code-block:: python
given('I have beautiful article', fixture='article')
Reusing steps
-------------
It is possible to define some common steps in the parent conftest.py and
simply expect them in the child test file.
common\_steps.feature:
.. code-block:: feature
Scenario: All steps are declared in the conftest
Given I have a bar
Then bar should have value "bar"
conftest.py:
.. code-block:: python
from pytest_bdd import given, then
@given('I have a bar')
def bar():
return 'bar'
@then('bar should have value "bar"')
def bar_is_bar(bar):
assert bar == 'bar'
test\_common.py:
.. code-block:: python
@scenario('common_steps.feature', 'All steps are declared in the conftest')
def test_conftest():
pass
There are no definitions of the steps in the test file. They were
collected from the parent conftests.
Feature file paths
------------------
But default, pytest-bdd will use current module’s path as base path for
finding feature files, but this behaviour can be changed by having
fixture named ‘pytestbdd\_feature\_base\_dir’ which should return the
new base path.
test\_publish\_article.py:
.. code-block:: python
import pytest
from pytest_bdd import scenario
@pytest.fixture
def pytestbdd_feature_base_dir():
return '/home/user/projects/foo.bar/features'
@scenario('publish_article.feature', 'Publishing the article')
def test_publish():
pass
Avoid retyping the feature file name
------------------------------------
If you want to avoid retyping the feature file name when defining your scenarios in a test file, use functools.partial.
This will make your life much easier when defining multiple scenarios in a test file.
For example:
test\_publish\_article.py:
.. code-block:: python
from functools import partial
import pytest_bdd
scenario = partial(pytest_bdd.scenario, '/path/to/publish_article.feature')
@scenario('Publishing the article')
def test_publish():
pass
@scenario('Publishing the article as unprivileged user')
def test_publish_unprivileged():
pass
You can learn more about `functools.partial <http://docs.python.org/2/library/functools.html#functools.partial>`_ in the Python docs.
Hooks
-----
pytest-bdd exposes several pytest `hooks <http://pytest.org/latest/plugins.html#well-specified-hooks>`_
which might be helpful building useful reporting, visualization, etc on top of it:
* pytest_bdd_before_step(request, feature, scenario, step, step_func, step_func_args) - Called before step function
is executed
* pytest_bdd_after_step(request, feature, scenario, step, step_func, step_func_args) - Called after step function
is successfully executed
* pytest_bdd_step_error(request, feature, scenario, step, step_func, step_func_args, exception) - Called when step
function failed to execute
* pytest_bdd_step_validation_error(request, feature, scenario, step, step_func, step_func_args, exception) - Called
when step failed to validate
* pytest_bdd_step_func_lookup_error(request, feature, scenario, step, exception) - Called when step lookup failed
Browser testing
---------------
Tools recommended to use for browser testing:
* pytest-splinter - pytest splinter integration for the real browser testing
Migration of your tests from versions 0.x.x-1.x.x
-------------------------------------------------
In version 2.0.0, the backward-incompartible change was introduced: scenario function can now only be used as a
decorator. Reasons for that:
* test code readability is much higher using normal python function syntax;
* pytest-bdd internals are much cleaner and shorter when using single approach instead of supporting two;
* after moving to parsing-on-import-time approach for feature files, it's not possible to detect whether it's a
decorator more or not, so to support it along with functional approach there needed to be special parameter
for that, which is also a backward-incompartible change.
To help users migrate to newer version, there's migration console script provided with **migrate** extra:
::
# install extra for migration
pip install pytest-bdd[migrate]
# run migration script
pytestbdd_migrate_tests <your test folder>
Under the hood the script does the replacement from this:
.. code-block:: python
test_function = scenario('publish_article.feature', 'Publishing the article')
to this:
.. code-block:: python
@scenario('publish_article.feature', 'Publishing the article')
def test_function():
pass
License
-------
This software is licensed under the `MIT license <http://en.wikipedia.org/wiki/MIT_License>`_.
© 2013 Oleg Pidsadnyi
Changelog
=========
2.0.0
-----
- Pure pytest parametrization for scenario outlines (bubenkoff)
- Argumented steps now support converters (transformations) (bubenkoff)
- scenario supports only decorator form (bubenkoff)
- Code generation refactoring and cleanup (bubenkoff)
1.0.0
-----
- Implemented scenario outlines (bubenkoff)
0.6.10
-----
- Fixed step arguments conflict with the fixtures having the same name (olegpidsadnyi)
0.6.9
-----
- Implemented support of Gherkin "Feature:" (olegpidsadnyi)
0.6.8
-----
- Implemented several hooks to allow reporting/error handling (bubenkoff)
0.6.6
-----
- Fixes to unnecessary mentioning of pytest-bdd package files in py.test log with -v (bubenkoff)
0.6.5
-----
- Compartibility with recent pytest (bubenkoff)
0.6.4
-----
- More unicode fixes (amakhnach)
0.6.3
-----
- Added unicode support for feature files. Removed buggy module replacement for scenario. (amakhnach)
0.6.2
-----
- Removed unnecessary mention of pytest-bdd package files in py.test log with -v (bubenkoff)
0.6.1
-----
- Step arguments in whens when there are no given arguments used. (amakhnach, bubenkoff)
0.6.0
-----
- Added step arguments support. (curzona, olegpidsadnyi, bubenkoff)
- Added checking of the step type order. (markon, olegpidsadnyi)
0.5.2
-----
- Added extra info into output when FeatureError exception raises. (amakhnach)
0.5.0
-----
- Added parametrization to scenarios
- Coveralls.io integration
- Test coverage improvement/fixes
- Correct wrapping of step functions to preserve function docstring
0.4.7
-----
- Fixed Python 3.3 support
0.4.6
-----
- Fixed a bug when py.test --fixtures showed incorrect filenames for the steps.
0.4.5
-----
- Fixed a bug with the reuse of the fixture by given steps being evaluated multiple times.
0.4.3
-----
- Update the license file and PYPI related documentation.
==================================
.. image:: https://api.travis-ci.org/olegpidsadnyi/pytest-bdd.png
:target: https://travis-ci.org/olegpidsadnyi/pytest-bdd
.. image:: https://pypip.in/v/pytest-bdd/badge.png
:target: https://crate.io/packages/pytest-bdd/
.. image:: https://coveralls.io/repos/olegpidsadnyi/pytest-bdd/badge.png?branch=master
:target: https://coveralls.io/r/olegpidsadnyi/pytest-bdd
pytest-bdd implements a subset of Gherkin language for the automation of the project
requirements testing and easier behavioral driven development.
Unlike many other BDD tools it doesn't require a separate runner and benefits from
the power and flexibility of the pytest. It allows to unify your unit and functional
tests, easier continuous integration server configuration and maximal reuse of the
tests setup.
Pytest fixtures written for the unit tests can be reused for the setup and actions
mentioned in the feature steps with dependency injection, which allows a true BDD
just-enough specification of the requirements without maintaining any context object
containing the side effects of the Gherkin imperative declarations.
Install pytest-bdd
------------------
::
pip install pytest-bdd
Example
-------
publish\_article.feature:
.. code-block:: feature
Feature: Blog
A site where you can publish your articles.
Scenario: Publishing the article
Given I'm an author user
And I have an article
When I go to the article page
And I press the publish button
Then I should not see the error message
And the article should be published # Note: will query the database
test\_publish\_article.py:
.. code-block:: python
from pytest_bdd import scenario, given, when, then
@scenario('publish_article.feature', 'Publishing the article')
def test_publish():
pass
@given('I have an article')
def article(author):
return create_test_article(author=author)
@when('I go to the article page')
def go_to_article(article, browser):
browser.visit(urljoin(browser.url, '/manage/articles/{0}/'.format(article.id)))
@when('I press the publish button')
def publish_article(browser):
browser.find_by_css('button[name=publish]').first.click()
@then('I should not see the error message')
def no_error_message(browser):
with pytest.raises(ElementDoesNotExist):
browser.find_by_css('.message.error').first
@then('And the article should be published')
def article_is_published(article):
article.refresh() # Refresh the object in the SQLAlchemy session
assert article.is_published
Step aliases
------------
Sometimes it is needed to declare the same fixtures or steps with the
different names for better readability. In order to use the same step
function with multiple step names simply decorate it multiple times:
.. code-block:: python
@given('I have an article')
@given('there\'s an article')
def article(author):
return create_test_article(author=author)
Note that the given step aliases are independent and will be executed
when mentioned.
For example if you associate your resource to some owner or not. Admin
user can’t be an author of the article, but articles should have a
default author.
.. code-block:: feature
Scenario: I'm the author
Given I'm an author
And I have an article
Scenario: I'm the admin
Given I'm the admin
And there is an article
Step arguments
--------------
Often it's possible to reuse steps giving them a parameter(s).
This allows to have single implementation and multiple use, so less code.
Also opens the possibility to use same step twice in single scenario and with different arguments!
Important thing that argumented step names are not just strings but regular expressions.
Example:
.. code-block:: feature
Scenario: Arguments for given, when, thens
Given there are 5 cucumbers
When I eat 3 cucumbers
And I eat 2 cucumbers
Then I should have 0 cucumbers
The code will look like:
.. code-block:: python
import re
from pytest_bdd import scenario, given, when, then
@scenario('arguments.feature', 'Arguments for given, when, thens')
def test_arguments():
pass
@given(re.compile('there are (?P<start>\d+) cucumbers'), converters=dict(start=int))
def start_cucumbers(start):
return dict(start=start, eat=0)
@when(re.compile('I eat (?P<eat>\d+) cucumbers'), converters=dict(eat=int))
def eat_cucumbers(start_cucumbers, eat):
start_cucumbers['eat'] += eat
@then(re.compile('I should have (?P<left>\d+) cucumbers'), converters=dict(left=int))
def should_have_left_cucumbers(start_cucumbers, start, left):
assert start_cucumbers['start'] == start
assert start - start_cucumbers['eat'] == left
Example code also shows possibility to pass argument converters which may be useful if you need argument types
different than strings.
Scenario parameters
-------------------
Scenario decorator can accept such optional keyword arguments:
* `encoding` - decode content of feature file in specific encoding. UTF-8 is default.
* `example_converters` - mapping to pass functions to convert example values provided in feature files.
Scenario outlines
-----------------
Scenarios can be parametrized to cover few cases. In Gherkin the variable
templates are written using corner braces as <somevalue>.
`Scenario outlines <http://docs.behat.org/guides/1.gherkin.html#scenario-outlines>`_ are supported by pytest-bdd
exactly as it's described in be behave docs.
Example:
.. code-block:: feature
Scenario Outline: Outlined given, when, thens
Given there are <start> cucumbers
When I eat <eat> cucumbers
Then I should have <left> cucumbers
Examples:
| start | eat | left |
| 12 | 5 | 7 |
pytest-bdd feature file format also supports example tables in different way:
.. code-block:: feature
Scenario Outline: Outlined given, when, thens
Given there are <start> cucumbers
When I eat <eat> cucumbers
Then I should have <left> cucumbers
Examples: Vertical
| start | 12 | 2 |
| eat | 5 | 1 |
| left | 7 | 1 |
This form allows to have tables with lots of columns keeping the maximum text width predictable without significant
readability change.
The code will look like:
.. code-block:: python
from pytest_bdd import given, when, then, scenario
@scenario(
'outline.feature',
'Outlined given, when, thens',
example_converters=dict(start=int, eat=float, left=str)
)
def test_outlined():
pass
@given('there are <start> cucumbers')
def start_cucumbers(start):
assert isinstance(start, int)
return dict(start=start)
@when('I eat <eat> cucumbers')
def eat_cucumbers(start_cucumbers, eat):
assert isinstance(eat, float)
start_cucumbers['eat'] = eat
@then('I should have <left> cucumbers')
def should_have_left_cucumbers(start_cucumbers, start, eat, left):
assert isinstance(left, str)
assert start - eat == int(left)
assert start_cucumbers['start'] == start
assert start_cucumbers['eat'] == eat
Example code also shows possibility to pass example converters which may be useful if you need parameter types
different than strings.
It's also possible to parametrize the scenario on the python side.
The reason for this is that it is sometimes not needed to mention example table for every scenario.
The code will look like:
.. code-block:: python
import pytest
from pytest_bdd import mark, given, when, then
# Here we use pytest to parametrize the test with the parameters table
@pytest.mark.parametrize(
['start', 'eat', 'left'],
[(12, 5, 7)])
@mark.scenario(
'parametrized.feature',
'Parametrized given, when, thens',
)
# Note that we should take the same arguments in the test function that we use
# for the test parametrization either directly or indirectly (fixtures depend on them).
def test_parametrized(start, eat, left):
"""We don't need to do anything here, everything will be managed by the scenario decorator."""
@given('there are <start> cucumbers')
def start_cucumbers(start):
return dict(start=start)
@when('I eat <eat> cucumbers')
def eat_cucumbers(start_cucumbers, start, eat):
start_cucumbers['eat'] = eat
@then('I should have <left> cucumbers')
def should_have_left_cucumbers(start_cucumbers, start, eat, left):
assert start - eat == left
assert start_cucumbers['start'] == start
assert start_cucumbers['eat'] == eat
The significant downside of this approach is inability to see the test table from the feature file.
Test setup
----------
Test setup is implemented within the Given section. Even though these steps
are executed imperatively to apply possible side-effects, pytest-bdd is trying
to benefit of the PyTest fixtures which is based on the dependency injection
and makes the setup more declarative style.
.. code-block:: python
@given('I have a beautiful article')
def article():
return Article(is_beautiful=True)
This also declares a PyTest fixture "article" and any other step can depend on it.
.. code-block:: feature
Given I have a beautiful article
When I publish this article
When step is referring the article to publish it.
.. code-block:: python
@when('I publish this article')
def publish_article(article):
article.publish()
Many other BDD toolkits operate a global context and put the side effects there.
This makes it very difficult to implement the steps, because the dependencies
appear only as the side-effects in the run-time and not declared in the code.
The publish article step has to trust that the article is already in the context,
has to know the name of the attribute it is stored there, the type etc.
In pytest-bdd you just declare an argument of the step function that it depends on
and the PyTest will make sure to provide it.
Still side effects can be applied in the imperative style by design of the BDD.
.. code-block:: feature
Given I have a beautiful article
And my article is published
Functional tests can reuse your fixture libraries created for the unit-tests and upgrade
them by applying the side effects.
.. code-block:: python
given('I have a beautiful article', fixture='article')
@given('my article is published')
def published_article(article):
article.publish()
return article
This way side-effects were applied to our article and PyTest makes sure that all
steps that require the "article" fixture will receive the same object. The value
of the "published_article" and the "article" fixtures is the same object.
Fixtures are evaluated only once within the PyTest scope and their values are cached.
In case of Given steps and the step arguments mentioning the same given step makes
no sense. It won't be executed second time.
.. code-block:: feature
Given I have a beautiful article
And some other thing
And I have a beautiful article # Won't be executed, exception is raised
pytest-bdd will raise an exception even in the case of the steps that use regular expression
patterns to get arguments.
.. code-block:: feature
Given I have 1 cucumbers
And I have 2 cucumbers # Exception is raised
Will raise an exception if the step is using the regular expression pattern.
.. code-block:: python
@given(re.compile('I have (?P<n>\d+) cucumbers'))
def cucumbers(n):
return create_cucumbers(n)
Reusing fixtures
----------------
Sometimes scenarios define new names for the fixture that can be
inherited. Fixtures can be reused with other names using given():
.. code-block:: python
given('I have beautiful article', fixture='article')
Reusing steps
-------------
It is possible to define some common steps in the parent conftest.py and
simply expect them in the child test file.
common\_steps.feature:
.. code-block:: feature
Scenario: All steps are declared in the conftest
Given I have a bar
Then bar should have value "bar"
conftest.py:
.. code-block:: python
from pytest_bdd import given, then
@given('I have a bar')
def bar():
return 'bar'
@then('bar should have value "bar"')
def bar_is_bar(bar):
assert bar == 'bar'
test\_common.py:
.. code-block:: python
@scenario('common_steps.feature', 'All steps are declared in the conftest')
def test_conftest():
pass
There are no definitions of the steps in the test file. They were
collected from the parent conftests.
Feature file paths
------------------
But default, pytest-bdd will use current module’s path as base path for
finding feature files, but this behaviour can be changed by having
fixture named ‘pytestbdd\_feature\_base\_dir’ which should return the
new base path.
test\_publish\_article.py:
.. code-block:: python
import pytest
from pytest_bdd import scenario
@pytest.fixture
def pytestbdd_feature_base_dir():
return '/home/user/projects/foo.bar/features'
@scenario('publish_article.feature', 'Publishing the article')
def test_publish():
pass
Avoid retyping the feature file name
------------------------------------
If you want to avoid retyping the feature file name when defining your scenarios in a test file, use functools.partial.
This will make your life much easier when defining multiple scenarios in a test file.
For example:
test\_publish\_article.py:
.. code-block:: python
from functools import partial
import pytest_bdd
scenario = partial(pytest_bdd.scenario, '/path/to/publish_article.feature')
@scenario('Publishing the article')
def test_publish():
pass
@scenario('Publishing the article as unprivileged user')
def test_publish_unprivileged():
pass
You can learn more about `functools.partial <http://docs.python.org/2/library/functools.html#functools.partial>`_ in the Python docs.
Hooks
-----
pytest-bdd exposes several pytest `hooks <http://pytest.org/latest/plugins.html#well-specified-hooks>`_
which might be helpful building useful reporting, visualization, etc on top of it:
* pytest_bdd_before_step(request, feature, scenario, step, step_func, step_func_args) - Called before step function
is executed
* pytest_bdd_after_step(request, feature, scenario, step, step_func, step_func_args) - Called after step function
is successfully executed
* pytest_bdd_step_error(request, feature, scenario, step, step_func, step_func_args, exception) - Called when step
function failed to execute
* pytest_bdd_step_validation_error(request, feature, scenario, step, step_func, step_func_args, exception) - Called
when step failed to validate
* pytest_bdd_step_func_lookup_error(request, feature, scenario, step, exception) - Called when step lookup failed
Browser testing
---------------
Tools recommended to use for browser testing:
* pytest-splinter - pytest splinter integration for the real browser testing
Migration of your tests from versions 0.x.x-1.x.x
-------------------------------------------------
In version 2.0.0, the backward-incompartible change was introduced: scenario function can now only be used as a
decorator. Reasons for that:
* test code readability is much higher using normal python function syntax;
* pytest-bdd internals are much cleaner and shorter when using single approach instead of supporting two;
* after moving to parsing-on-import-time approach for feature files, it's not possible to detect whether it's a
decorator more or not, so to support it along with functional approach there needed to be special parameter
for that, which is also a backward-incompartible change.
To help users migrate to newer version, there's migration console script provided with **migrate** extra:
::
# install extra for migration
pip install pytest-bdd[migrate]
# run migration script
pytestbdd_migrate_tests <your test folder>
Under the hood the script does the replacement from this:
.. code-block:: python
test_function = scenario('publish_article.feature', 'Publishing the article')
to this:
.. code-block:: python
@scenario('publish_article.feature', 'Publishing the article')
def test_function():
pass
License
-------
This software is licensed under the `MIT license <http://en.wikipedia.org/wiki/MIT_License>`_.
© 2013 Oleg Pidsadnyi
Changelog
=========
2.0.0
-----
- Pure pytest parametrization for scenario outlines (bubenkoff)
- Argumented steps now support converters (transformations) (bubenkoff)
- scenario supports only decorator form (bubenkoff)
- Code generation refactoring and cleanup (bubenkoff)
1.0.0
-----
- Implemented scenario outlines (bubenkoff)
0.6.10
-----
- Fixed step arguments conflict with the fixtures having the same name (olegpidsadnyi)
0.6.9
-----
- Implemented support of Gherkin "Feature:" (olegpidsadnyi)
0.6.8
-----
- Implemented several hooks to allow reporting/error handling (bubenkoff)
0.6.6
-----
- Fixes to unnecessary mentioning of pytest-bdd package files in py.test log with -v (bubenkoff)
0.6.5
-----
- Compartibility with recent pytest (bubenkoff)
0.6.4
-----
- More unicode fixes (amakhnach)
0.6.3
-----
- Added unicode support for feature files. Removed buggy module replacement for scenario. (amakhnach)
0.6.2
-----
- Removed unnecessary mention of pytest-bdd package files in py.test log with -v (bubenkoff)
0.6.1
-----
- Step arguments in whens when there are no given arguments used. (amakhnach, bubenkoff)
0.6.0
-----
- Added step arguments support. (curzona, olegpidsadnyi, bubenkoff)
- Added checking of the step type order. (markon, olegpidsadnyi)
0.5.2
-----
- Added extra info into output when FeatureError exception raises. (amakhnach)
0.5.0
-----
- Added parametrization to scenarios
- Coveralls.io integration
- Test coverage improvement/fixes
- Correct wrapping of step functions to preserve function docstring
0.4.7
-----
- Fixed Python 3.3 support
0.4.6
-----
- Fixed a bug when py.test --fixtures showed incorrect filenames for the steps.
0.4.5
-----
- Fixed a bug with the reuse of the fixture by given steps being evaluated multiple times.
0.4.3
-----
- Update the license file and PYPI related documentation.
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