/usr/lib/python3/dist-packages/behave/model.py is in python3-behave 1.2.5-2.
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from behave import step_registry
from behave.textutil import text as _text
import copy
import difflib
import itertools
import logging
import os.path
import six
from six.moves import zip
import sys
import time
import traceback
class Argument(object):
'''An argument found in a *feature file* step name and extracted using
step decorator `parameters`_.
The attributes are:
.. attribute:: original
The actual text matched in the step name.
.. attribute:: value
The potentially type-converted value of the argument.
.. attribute:: name
The name of the argument. This will be None if the parameter is
anonymous.
.. attribute:: start
The start index in the step name of the argument. Used for display.
.. attribute:: end
The end index in the step name of the argument. Used for display.
'''
def __init__(self, start, end, original, value, name=None):
self.start = start
self.end = end
self.original = original
self.value = value
self.name = name
# @total_ordering
# class FileLocation(unicode):
class FileLocation(object):
"""
Provides a value object for file location objects.
A file location consists of:
* filename
* line (number), optional
LOCATION SCHEMA:
* "{filename}:{line}" or
* "{filename}" (if line number is not present)
"""
# -- pylint: disable=R0904
# R0904: 30,0:FileLocation: Too many public methods (43/30) => unicode
__pychecker__ = "missingattrs=line" # -- Ignore warnings for 'line'.
def __init__(self, filename, line=None):
self.filename = filename
self.line = line
def get(self):
return self.filename
def abspath(self):
return os.path.abspath(self.filename)
def basename(self):
return os.path.basename(self.filename)
def dirname(self):
return os.path.dirname(self.filename)
def relpath(self, start=os.curdir):
"""
Compute relative path for start to filename.
:param start: Base path or start directory (default=current dir).
:return: Relative path from start to filename
"""
return os.path.relpath(self.filename, start)
def exists(self):
return os.path.exists(self.filename)
def _line_lessthan(self, other_line):
if self.line is None:
return not (other_line is None)
elif other_line is None:
return False
else:
return self.line < other_line
def __eq__(self, other):
if isinstance(other, FileLocation):
return self.filename == other.filename and self.line == other.line
elif isinstance(other, six.string_types):
return self.filename == other
else:
raise AttributeError("Cannot compare FileLocation with %s:%s" % \
(type(other), other))
def __ne__(self, other):
return not self == other
def __lt__(self, other):
if isinstance(other, FileLocation):
if self.filename < other.filename:
return True
elif self.filename > other.filename:
return False
else:
assert self.filename == other.filename
return self._line_lessthan(other.line)
elif isinstance(other, six.string_types):
return self.filename < other
else:
raise AttributeError("Cannot compare FileLocation with %s:%s" % \
(type(other), other))
def __le__(self, other):
# -- SEE ALSO: python2.7, functools.total_ordering
return not other < self
def __gt__(self, other):
# -- SEE ALSO: python2.7, functools.total_ordering
if isinstance(other, FileLocation):
return other < self
else:
return self.filename > other
def __ge__(self, other):
# -- SEE ALSO: python2.7, functools.total_ordering
return not self < other
def __repr__(self):
return '<FileLocation: filename="%s", line=%s>' % \
(self.filename, self.line)
def __str__(self):
filename = self.filename
if isinstance(filename, six.binary_type):
filename = _text(filename, "utf-8")
if self.line is None:
return filename
return "%s:%d" % (filename, self.line)
if six.PY2:
__unicode__ = __str__
__str__ = lambda self: self.__unicode__().encode("utf-8")
class BasicStatement(object):
def __init__(self, filename, line, keyword, name):
filename = filename or '<string>'
filename = os.path.relpath(filename, os.getcwd()) # -- NEEDS: abspath?
self.location = FileLocation(filename, line)
assert isinstance(keyword, six.text_type)
assert isinstance(name, six.text_type)
self.keyword = keyword
self.name = name
@property
def filename(self):
# return os.path.abspath(self.location.filename)
return self.location.filename
@property
def line(self):
return self.location.line
# @property
# def location(self):
# p = os.path.relpath(self.filename, os.getcwd())
# return '%s:%d' % (p, self.line)
def __hash__(self):
# -- NEEDED-FOR: PYTHON3
# return id((self.keyword, self.name))
return id(self)
def __eq__(self, other):
# -- PYTHON3 SUPPORT, ORDERABLE:
# NOTE: Ignore potential FileLocation differences.
return (self.keyword, self.name) == (other.keyword, other.name)
def __lt__(self, other):
# -- PYTHON3 SUPPORT, ORDERABLE:
# NOTE: Ignore potential FileLocation differences.
return (self.keyword, self.name) < (other.keyword, other.name)
def __ne__(self, other):
return not self.__eq__(other)
def __le__(self, other):
# -- SEE ALSO: python2.7, functools.total_ordering
return not other < self
def __gt__(self, other):
# -- SEE ALSO: python2.7, functools.total_ordering
assert isinstance(other, BasicStatement)
return other < self
def __ge__(self, other):
# -- SEE ALSO: python2.7, functools.total_ordering
return not self < other
# def __cmp__(self, other):
# # -- NOTE: Ignore potential FileLocation differences.
# return cmp((self.keyword, self.name), (other.keyword, other.name))
class TagStatement(BasicStatement):
def __init__(self, filename, line, keyword, name, tags):
super(TagStatement, self).__init__(filename, line, keyword, name)
self.tags = tags
class TagAndStatusStatement(BasicStatement):
final_status = ('passed', 'failed', 'skipped')
def __init__(self, filename, line, keyword, name, tags):
super(TagAndStatusStatement, self).__init__(filename, line, keyword, name)
self.tags = tags
self.should_skip = False
self.skip_reason = None
self._cached_status = None
@property
def status(self):
if self._cached_status not in self.final_status:
# -- RECOMPUTE: As long as final status is not reached.
self._cached_status = self.compute_status()
return self._cached_status
def reset(self):
self.should_skip = False
self.skip_reason = None
self._cached_status = None
def compute_status(self):
raise NotImplementedError
class Replayable(object):
type = None
def replay(self, formatter):
getattr(formatter, self.type)(self)
class Feature(TagAndStatusStatement, Replayable):
'''A `feature`_ parsed from a *feature file*.
The attributes are:
.. attribute:: keyword
This is the keyword as seen in the *feature file*. In English this will
be "Feature".
.. attribute:: name
The name of the feature (the text after "Feature".)
.. attribute:: description
The description of the feature as seen in the *feature file*. This is
stored as a list of text lines.
.. attribute:: background
The :class:`~behave.model.Background` for this feature, if any.
.. attribute:: scenarios
A list of :class:`~behave.model.Scenario` making up this feature.
.. attribute:: tags
A list of @tags (as :class:`~behave.model.Tag` which are basically
glorified strings) attached to the feature.
See :ref:`controlling things with tags`.
.. attribute:: status
Read-Only. A summary status of the feature's run. If read before the
feature is fully tested it will return "untested" otherwise it will
return one of:
"untested"
The feature was has not been completely tested yet.
"skipped"
One or more steps of this feature was passed over during testing.
"passed"
The feature was tested successfully.
"failed"
One or more steps of this feature failed.
.. attribute:: duration
The time, in seconds, that it took to test this feature. If read before
the feature is tested it will return 0.0.
.. attribute:: filename
The file name (or "<string>") of the *feature file* where the feature
was found.
.. attribute:: line
The line number of the *feature file* where the feature was found.
.. _`feature`: gherkin.html#features
'''
type = "feature"
def __init__(self, filename, line, keyword, name, tags=None,
description=None, scenarios=None, background=None):
tags = tags or []
super(Feature, self).__init__(filename, line, keyword, name, tags)
self.description = description or []
self.scenarios = []
self.background = background
self.parser = None
if scenarios:
for scenario in scenarios:
self.add_scenario(scenario)
def reset(self):
'''
Reset to clean state before a test run.
'''
super(Feature, self).reset()
for scenario in self.scenarios:
scenario.reset()
def __repr__(self):
return '<Feature "%s": %d scenario(s)>' % \
(self.name, len(self.scenarios))
def __iter__(self):
return iter(self.scenarios)
def add_scenario(self, scenario):
scenario.feature = self
scenario.background = self.background
self.scenarios.append(scenario)
def compute_status(self):
"""
Compute the status of this feature based on its:
* scenarios
* scenario outlines
:return: Computed status (as string-enum).
"""
skipped = True
passed_count = 0
for scenario in self.scenarios:
scenario_status = scenario.status
if scenario_status == 'failed':
return 'failed'
elif scenario_status == 'untested':
if passed_count > 0:
return 'failed' # ABORTED: Some passed, now untested.
return 'untested'
if scenario_status != 'skipped':
skipped = False
if scenario_status == 'passed':
passed_count += 1
return skipped and 'skipped' or 'passed'
@property
def duration(self):
# -- NEW: Background is executed N times, now part of scenarios.
feature_duration = 0.0
for scenario in self.scenarios:
feature_duration += scenario.duration
return feature_duration
def walk_scenarios(self, with_outlines=False):
"""
Provides a flat list of all scenarios of this feature.
A ScenarioOutline element adds its scenarios to this list.
But the ScenarioOutline element itself is only added when specified.
A flat scenario list is useful when all scenarios of a features
should be processed.
:param with_outlines: If ScenarioOutline items should be added, too.
:return: List of all scenarios of this feature.
"""
all_scenarios = []
for scenario in self.scenarios:
if isinstance(scenario, ScenarioOutline):
scenario_outline = scenario
if with_outlines:
all_scenarios.append(scenario_outline)
all_scenarios.extend(scenario_outline.scenarios)
else:
all_scenarios.append(scenario)
return all_scenarios
def should_run(self, config=None):
"""
Determines if this Feature (and its scenarios) should run.
Implements the run decision logic for a feature.
The decision depends on:
* if the Feature is marked as skipped
* if the config.tags (tag expression) enable/disable this feature
:param config: Runner configuration to use (optional).
:return: True, if scenario should run. False, otherwise.
"""
answer = not self.should_skip
if answer and config:
answer = self.should_run_with_tags(config.tags)
return answer
def should_run_with_tags(self, tag_expression):
'''
Determines if this feature should run when the tag expression is used.
A feature should run if:
* it should run according to its tags
* any of its scenarios should run according to its tags
:param tag_expression: Runner/config environment tags to use.
:return: True, if feature should run. False, otherwise (skip it).
'''
run_feature = tag_expression.check(self.tags)
if not run_feature:
for scenario in self:
if scenario.should_run_with_tags(tag_expression):
run_feature = True
break
return run_feature
def mark_skipped(self):
"""Marks this feature (and all its scenarios and steps) as skipped.
Note this function may be called before the feature is executed.
"""
self.skip(require_not_executed=True)
assert self.status == "skipped"
def skip(self, reason=None, require_not_executed=False):
"""Skip executing this feature or the remaining parts of it.
Note that this feature may be already partly executed
when this function is called.
:param reason: Optional reason why feature should be skipped (as string).
:param require_not_executed: Optional, requires that feature is not
executed yet (default: false).
"""
if reason:
logger = logging.getLogger("behave")
logger.warn("SKIP FEATURE %s: %s" % (self.name, reason))
self._cached_status = None
self.should_skip = True
self.skip_reason = reason
for scenario in self.scenarios:
scenario.skip(reason, require_not_executed)
if not self.scenarios:
# -- SPECIAL CASE: Feature without scenarios
self._cached_status = "skipped"
assert self.status in self.final_status #< skipped, failed or passed.
def run(self, runner):
self._cached_status = None
runner.context._push()
runner.context.feature = self
# run this feature if the tags say so or any one of its scenarios
run_feature = self.should_run(runner.config)
if run_feature or runner.config.show_skipped:
for formatter in runner.formatters:
formatter.feature(self)
# current tags as a set
runner.context.tags = set(self.tags)
hooks_called = False
if not runner.config.dry_run and run_feature:
hooks_called = True
for tag in self.tags:
runner.run_hook('before_tag', runner.context, tag)
runner.run_hook('before_feature', runner.context, self)
# -- RE-EVALUATE SHOULD-RUN STATE:
# Hook may call feature.mark_skipped() to exclude it.
run_feature = self.should_run()
if self.background and (run_feature or runner.config.show_skipped):
for formatter in runner.formatters:
formatter.background(self.background)
failed_count = 0
for scenario in self.scenarios:
# -- OPTIONAL: Select scenario by name (regular expressions).
if (runner.config.name and
not scenario.should_run_with_name_select(runner.config)):
scenario.mark_skipped()
continue
failed = scenario.run(runner)
if failed:
failed_count += 1
if runner.config.stop or runner.aborted:
# -- FAIL-EARLY: Stop after first failure.
break
if not self.scenarios and not run_feature:
# -- SPECIAL CASE: Feature without scenarios
self._cached_status = 'skipped'
if hooks_called:
runner.run_hook('after_feature', runner.context, self)
for tag in self.tags:
runner.run_hook('after_tag', runner.context, tag)
runner.context._pop()
if run_feature or runner.config.show_skipped:
for formatter in runner.formatters:
formatter.eof()
failed = (failed_count > 0)
return failed
class Background(BasicStatement, Replayable):
'''A `background`_ parsed from a *feature file*.
The attributes are:
.. attribute:: keyword
This is the keyword as seen in the *feature file*. In English this will
typically be "Background".
.. attribute:: name
The name of the background (the text after "Background:".)
.. attribute:: steps
A list of :class:`~behave.model.Step` making up this background.
.. attribute:: duration
The time, in seconds, that it took to run this background. If read
before the background is run it will return 0.0.
.. attribute:: filename
The file name (or "<string>") of the *feature file* where the background
was found.
.. attribute:: line
The line number of the *feature file* where the background was found.
.. _`background`: gherkin.html#backgrounds
'''
type = "background"
def __init__(self, filename, line, keyword, name, steps=None):
super(Background, self).__init__(filename, line, keyword, name)
self.steps = steps or []
def __repr__(self):
return '<Background "%s">' % self.name
def __iter__(self):
return iter(self.steps)
@property
def duration(self):
duration = 0
for step in self.steps:
duration += step.duration
return duration
class Scenario(TagAndStatusStatement, Replayable):
'''A `scenario`_ parsed from a *feature file*.
The attributes are:
.. attribute:: keyword
This is the keyword as seen in the *feature file*. In English this will
typically be "Scenario".
.. attribute:: name
The name of the scenario (the text after "Scenario:".)
.. attribute:: description
The description of the scenario as seen in the *feature file*.
This is stored as a list of text lines.
.. attribute:: feature
The :class:`~behave.model.Feature` this scenario belongs to.
.. attribute:: steps
A list of :class:`~behave.model.Step` making up this scenario.
.. attribute:: tags
A list of @tags (as :class:`~behave.model.Tag` which are basically
glorified strings) attached to the scenario.
See :ref:`controlling things with tags`.
.. attribute:: status
Read-Only. A summary status of the scenario's run. If read before the
scenario is fully tested it will return "untested" otherwise it will
return one of:
"untested"
The scenario was has not been completely tested yet.
"skipped"
One or more steps of this scenario was passed over during testing.
"passed"
The scenario was tested successfully.
"failed"
One or more steps of this scenario failed.
.. attribute:: duration
The time, in seconds, that it took to test this scenario. If read before
the scenario is tested it will return 0.0.
.. attribute:: filename
The file name (or "<string>") of the *feature file* where the scenario
was found.
.. attribute:: line
The line number of the *feature file* where the scenario was found.
.. _`scenario`: gherkin.html#scenarios
'''
type = "scenario"
def __init__(self, filename, line, keyword, name, tags=None, steps=None,
description=None):
tags = tags or []
super(Scenario, self).__init__(filename, line, keyword, name, tags)
self.description = description or []
self.steps = steps or []
self.background = None
self.feature = None # REFER-TO: owner=Feature
self._background_steps = None
self._row = None
self.was_dry_run = False
self.stderr = None
self.stdout = None
def reset(self):
'''
Reset the internal data to reintroduce new-born state just after the
ctor was called.
'''
super(Scenario, self).reset()
self._row = None
self.was_dry_run = False
self.stderr = None
self.stdout = None
for step in self.all_steps:
step.reset()
@property
def background_steps(self):
'''
Provide background steps if feature has a background.
Lazy init that copies the background steps.
Note that a copy of the background steps is needed to ensure
that the background step status is specific to the scenario.
:return: List of background steps or empty list
'''
if self._background_steps is None:
# -- LAZY-INIT (need copy of background.steps):
# Each scenario needs own background.steps status.
# Otherwise, background step status of the last scenario is used.
steps = []
if self.background:
steps = [copy.copy(step) for step in self.background.steps]
self._background_steps = steps
return self._background_steps
@property
def all_steps(self):
"""Returns iterator to all steps, including background steps if any."""
if self.background is not None:
return itertools.chain(self.background_steps, self.steps)
else:
return iter(self.steps)
def __repr__(self):
return '<Scenario "%s">' % self.name
def __iter__(self):
return self.all_steps
def compute_status(self):
"""Compute the status of the scenario from its steps.
:return: Computed status (as string).
"""
for step in self.all_steps:
if step.status == 'undefined':
if self.was_dry_run:
# -- SPECIAL CASE: In dry-run with undefined-step discovery
# Undefined steps should not cause failed scenario.
return 'untested'
else:
# -- NORMALLY: Undefined steps cause failed scenario.
return 'failed'
elif step.status != 'passed':
assert step.status in ('failed', 'skipped', 'untested')
return step.status
#elif step.status == 'failed':
# return 'failed'
#elif step.status == 'skipped':
# return 'skipped'
#elif step.status == 'untested':
# return 'untested'
return 'passed'
@property
def duration(self):
# -- ORIG: for step in self.steps: Background steps were excluded.
scenario_duration = 0
for step in self.all_steps:
scenario_duration += step.duration
return scenario_duration
@property
def effective_tags(self):
"""
Effective tags for this scenario:
* own tags
* tags inherited from its feature
"""
tags = self.tags
if self.feature:
tags = self.feature.tags + self.tags
return tags
def should_run(self, config=None):
"""
Determines if this Scenario (or ScenarioOutline) should run.
Implements the run decision logic for a scenario.
The decision depends on:
* if the Scenario is marked as skipped
* if the config.tags (tag expression) enable/disable this scenario
* if the scenario is selected by name
:param config: Runner configuration to use (optional).
:return: True, if scenario should run. False, otherwise.
"""
answer = not self.should_skip
if answer and config:
answer = (self.should_run_with_tags(config.tags) and
self.should_run_with_name_select(config))
return answer
def should_run_with_tags(self, tag_expression):
"""
Determines if this scenario should run when the tag expression is used.
:param tag_expression: Runner/config environment tags to use.
:return: True, if scenario should run. False, otherwise (skip it).
"""
return tag_expression.check(self.effective_tags)
def should_run_with_name_select(self, config):
"""Determines if this scenario should run when it is selected by name.
:param config: Runner/config environment name regexp (if any).
:return: True, if scenario should run. False, otherwise (skip it).
"""
# -- SELECT-ANY: If select by name is not specified (not config.name).
return not config.name or config.name_re.search(self.name)
def mark_skipped(self):
"""Marks this scenario (and all its steps) as skipped.
Note that this method can be called before the scenario is executed.
"""
self.skip(require_not_executed=True)
assert self.status == "skipped", "OOPS: scenario.status=%s" % self.status
def skip(self, reason=None, require_not_executed=False):
"""Skip from executing this scenario or the remaining parts of it.
Note that the scenario may be already partly executed
when this method is called.
:param reason: Optional reason why it should be skipped (as string).
"""
if reason:
scenario_type = self.__class__.__name__
logger = logging.getLogger("behave")
logger.warn("SKIP %s %s: %s" % (scenario_type, self.name, reason))
self._cached_status = None
self.should_skip = True
self.skip_reason = reason
for step in self.all_steps:
not_executed = step.status in ("untested", "skipped")
if not_executed:
step.status = "skipped"
else:
assert not require_not_executed, \
"REQUIRE NOT-EXECUTED, but step is %s" % step.status
if not self.all_steps:
# -- SPECIAL CASE: Scenario without steps
self._cached_status = "skipped"
assert self.status in self.final_status #< skipped, failed or passed
def run(self, runner):
self._cached_status = None
failed = False
run_scenario = self.should_run(runner.config)
run_steps = run_scenario and not runner.config.dry_run
dry_run_scenario = run_scenario and runner.config.dry_run
self.was_dry_run = dry_run_scenario
if run_scenario or runner.config.show_skipped:
for formatter in runner.formatters:
formatter.scenario(self)
runner.context._push()
runner.context.scenario = self
runner.context.tags = set(self.effective_tags)
hooks_called = False
if not runner.config.dry_run and run_scenario:
hooks_called = True
for tag in self.tags:
runner.run_hook('before_tag', runner.context, tag)
runner.run_hook('before_scenario', runner.context, self)
# -- RE-EVALUATE SHOULD-RUN STATE:
# Hook may call scenario.mark_skipped() to exclude it.
run_scenario = run_steps = self.should_run()
runner.setup_capture()
if run_scenario or runner.config.show_skipped:
for step in self:
for formatter in runner.formatters:
formatter.step(step)
for step in self.all_steps:
if run_steps:
if not step.run(runner):
run_steps = False
failed = True
runner.context._set_root_attribute('failed', True)
self._cached_status = 'failed'
elif self.should_skip:
# -- CASE: Step skipped remaining scenario.
# assert self.status == "skipped", "Status: %s" % self.status
run_steps = False
elif failed or dry_run_scenario:
# -- SKIP STEPS: After failure/undefined-step occurred.
# BUT: Detect all remaining undefined steps.
step.status = 'skipped'
if dry_run_scenario:
step.status = 'untested'
found_step = step_registry.registry.find_match(step)
if not found_step:
step.status = 'undefined'
runner.undefined_steps.append(step)
else:
# -- SKIP STEPS: For disabled scenario.
# CASES:
# * Undefined steps are not detected (by intention).
# * Step skipped remaining scenario.
step.status = 'skipped'
if not run_scenario:
# -- SPECIAL CASE: Scenario without steps.
self._cached_status = 'skipped'
# Attach the stdout and stderr if generate Junit report
if runner.config.junit:
self.stdout = runner.context.stdout_capture.getvalue()
self.stderr = runner.context.stderr_capture.getvalue()
runner.teardown_capture()
if hooks_called:
runner.run_hook('after_scenario', runner.context, self)
for tag in self.tags:
runner.run_hook('after_tag', runner.context, tag)
runner.context._pop()
return failed
class ScenarioOutlineBuilder(object):
"""Helper class to use a ScenarioOutline as a template and
build its scenarios (as template instances).
"""
def __init__(self, annotation_schema):
self.annotation_schema = annotation_schema
@staticmethod
def render_template(text, row=None, params=None):
"""Render a text template with placeholders, ala "Hello <name>".
:param row: As placeholder provider (dict-like).
:param params: As additional placeholder provider (as dict).
:return: Rendered text, known placeholders are substituted w/ values.
"""
if not ('<' in text and '>' in text):
return text
safe_values = False
for placeholders in (row, params):
if not placeholders:
continue
for name, value in list(placeholders.items()):
if safe_values and ('<' in value and '>' in value):
continue # -- OOPS, value looks like placeholder.
text = text.replace("<%s>" % name, value)
return text
def make_scenario_name(self, outline_name, example, row, params=None):
"""Build a scenario name for an example row of this scenario outline.
Placeholders for row data are replaced by values.
SCHEMA: "{outline_name} -*- {examples.name}@{row.id}"
:param outline_name: ScenarioOutline's name (as template).
:param example: Examples object.
:param row: Row of this example.
:param params: Additional placeholders for example/row.
:return: Computed name for the scenario representing example/row.
"""
if params is None:
params = {}
params["examples.name"] = example.name or ""
params.setdefault("examples.index", example.index)
params.setdefault("row.index", row.index)
params.setdefault("row.id", row.id)
# -- STEP: Replace placeholders in scenario/example name (if any).
examples_name = self.render_template(example.name, row, params)
params["examples.name"] = examples_name
scenario_name = self.render_template(outline_name, row, params)
class Data(object):
def __init__(self, name, index):
self.name = name
self.index = index
self.id = name
example_data = Data(examples_name, example.index)
row_data = Data(row.id, row.index)
return self.annotation_schema.format(name=scenario_name,
examples=example_data, row=row_data)
@classmethod
def make_row_tags(cls, outline_tags, row, params=None):
if not outline_tags:
return None
tags = []
for tag in outline_tags:
if '<' in tag and '>' in tag:
tag = cls.render_template(tag, row, params)
if '<' in tag or '>' in tag:
# -- OOPS: Unknown placeholder, drop tag.
continue
new_tag = Tag.make_name(tag, unescape=True)
tags.append(new_tag)
return tags
@classmethod
def make_step_for_row(cls, outline_step, row, params=None):
# -- BASED-ON: new_step = outline_step.set_values(row)
new_step = copy.deepcopy(outline_step)
new_step.name = cls.render_template(new_step.name, row, params)
if new_step.text:
new_step.text = cls.render_template(new_step.text, row)
if new_step.table:
for name, value in list(row.items()):
for row in new_step.table:
for i, cell in enumerate(row.cells):
row.cells[i] = cell.replace("<%s>" % name, value)
return new_step
def build_scenarios(self, scenario_outline):
"""Build scenarios for a ScenarioOutline from its examples."""
# -- BUILD SCENARIOS (once): For this ScenarioOutline from examples.
params = {
"examples.name": None,
"examples.index": None,
"row.index": None,
"row.id": None,
}
scenarios = []
for example_index, example in enumerate(scenario_outline.examples):
example.index = example_index+1
params["examples.name"] = example.name
params["examples.index"] = _text(example.index)
for row_index, row in enumerate(example.table):
row.index = row_index+1
row.id = "%d.%d" % (example.index, row.index)
params["row.id"] = row.id
params["row.index"] = _text(row.index)
scenario_name = self.make_scenario_name(scenario_outline.name,
example, row, params)
row_tags = self.make_row_tags(scenario_outline.tags, row, params)
new_steps = []
for outline_step in scenario_outline.steps:
new_step = self.make_step_for_row(outline_step, row, params)
new_steps.append(new_step)
# -- STEP: Make Scenario name for this row.
# scenario_line = example.line + 2 + row_index
scenario_line = row.line
scenario = Scenario(scenario_outline.filename, scenario_line,
scenario_outline.keyword,
scenario_name, row_tags, new_steps)
scenario.feature = scenario_outline.feature
scenario.background = scenario_outline.background
scenario._row = row
scenarios.append(scenario)
return scenarios
class ScenarioOutline(Scenario):
"""A `scenario outline`_ parsed from a *feature file*.
A scenario outline extends the existing :class:`~behave.model.Scenario`
class with the addition of the :class:`~behave.model.Examples` tables of
data from the *feature file*.
The attributes are:
.. attribute:: keyword
This is the keyword as seen in the *feature file*. In English this will
typically be "Scenario Outline".
.. attribute:: name
The name of the scenario (the text after "Scenario Outline:".)
.. attribute:: description
The description of the `scenario outline`_ as seen in the *feature file*.
This is stored as a list of text lines.
.. attribute:: feature
The :class:`~behave.model.Feature` this scenario outline belongs to.
.. attribute:: steps
A list of :class:`~behave.model.Step` making up this scenario outline.
.. attribute:: examples
A list of :class:`~behave.model.Examples` used by this scenario outline.
.. attribute:: tags
A list of @tags (as :class:`~behave.model.Tag` which are basically
glorified strings) attached to the scenario.
See :ref:`controlling things with tags`.
.. attribute:: status
Read-Only. A summary status of the scenario outlines's run. If read
before the scenario is fully tested it will return "untested" otherwise
it will return one of:
"untested"
The scenario was has not been completely tested yet.
"skipped"
One or more scenarios of this outline was passed over during testing.
"passed"
The scenario was tested successfully.
"failed"
One or more scenarios of this outline failed.
.. attribute:: duration
The time, in seconds, that it took to test the scenarios of this
outline. If read before the scenarios are tested it will return 0.0.
.. attribute:: filename
The file name (or "<string>") of the *feature file* where the scenario
was found.
.. attribute:: line
The line number of the *feature file* where the scenario was found.
.. _`scenario outline`: gherkin.html#scenario-outlines
"""
type = "scenario_outline"
annotation_schema = "{name} -- @{row.id} {examples.name}"
def __init__(self, filename, line, keyword, name, tags=None,
steps=None, examples=None, description=None):
super(ScenarioOutline, self).__init__(filename, line, keyword, name,
tags, steps, description)
self.examples = examples or []
self._scenarios = []
def reset(self):
"""Reset runtime temporary data like before a test run."""
super(ScenarioOutline, self).reset()
for scenario in self._scenarios: # -- AVOID: BUILD-SCENARIOS
scenario.reset()
@property
def scenarios(self):
"""Return the scenarios with the steps altered to take the values from
the examples.
"""
if self._scenarios:
return self._scenarios
# -- BUILD SCENARIOS (once): For this ScenarioOutline from examples.
builder = ScenarioOutlineBuilder(self.annotation_schema)
self._scenarios = builder.build_scenarios(self)
return self._scenarios
def __repr__(self):
return '<ScenarioOutline "%s">' % self.name
def __iter__(self):
return iter(self.scenarios) # -- REQUIRE: BUILD-SCENARIOS
def compute_status(self):
skipped_count = 0
for scenario in self._scenarios: # -- AVOID: BUILD-SCENARIOS
scenario_status = scenario.status
if scenario_status in ("failed", "untested"):
return scenario_status
elif scenario_status == "skipped":
skipped_count += 1
if skipped_count == len(self._scenarios):
# -- ALL SKIPPED:
return "skipped"
# -- OTHERWISE: ALL PASSED
return "passed"
@property
def duration(self):
outline_duration = 0
for scenario in self._scenarios: # -- AVOID: BUILD-SCENARIOS
outline_duration += scenario.duration
return outline_duration
def should_run_with_tags(self, tag_expression):
"""
Determines if this scenario outline (or one of its scenarios)
should run when the tag expression is used.
:param tag_expression: Runner/config environment tags to use.
:return: True, if scenario should run. False, otherwise (skip it).
"""
if tag_expression.check(self.effective_tags):
return True
for scenario in self.scenarios: # -- REQUIRE: BUILD-SCENARIOS
if scenario.should_run_with_tags(tag_expression):
return True
# -- NOTHING SELECTED:
return False
def should_run_with_name_select(self, config):
"""Determines if this scenario should run when it is selected by name.
:param config: Runner/config environment name regexp (if any).
:return: True, if scenario should run. False, otherwise (skip it).
"""
if not config.name:
return True # -- SELECT-ALL: Select by name is not specified.
for scenario in self.scenarios: # -- REQUIRE: BUILD-SCENARIOS
if scenario.should_run_with_name_select(config):
return True
# -- NOTHING SELECTED:
return False
def mark_skipped(self):
"""Marks this scenario outline (and all its scenarios/steps) as skipped.
Note that this method may be called before the scenario outline
is executed.
"""
self.skip(require_not_executed=True)
assert self.status == "skipped"
def skip(self, reason=None, require_not_executed=False):
"""Skip from executing this scenario outline or its remaining parts.
Note that the scenario outline may be already partly executed
when this method is called.
:param reason: Optional reason why it should be skipped (as string).
"""
if reason:
logger = logging.getLogger("behave")
logger.warn("SKIP ScenarioOutline %s: %s" % (self.name, reason))
self._cached_status = None
self.should_skip = True
for scenario in self.scenarios:
scenario.skip(reason, require_not_executed)
if not self.scenarios:
# -- SPECIAL CASE: ScenarioOutline without scenarios/examples
self._cached_status = "skipped"
assert self.status in self.final_status #< skipped, failed or passed
def run(self, runner):
self._cached_status = None
failed_count = 0
for scenario in self.scenarios: # -- REQUIRE: BUILD-SCENARIOS
runner.context._set_root_attribute('active_outline', scenario._row)
failed = scenario.run(runner)
if failed:
failed_count += 1
if runner.config.stop or runner.aborted:
# -- FAIL-EARLY: Stop after first failure.
break
runner.context._set_root_attribute('active_outline', None)
return failed_count > 0
class Examples(BasicStatement, Replayable):
'''A table parsed from a `scenario outline`_ in a *feature file*.
The attributes are:
.. attribute:: keyword
This is the keyword as seen in the *feature file*. In English this will
typically be "Example".
.. attribute:: name
The name of the example (the text after "Example:".)
.. attribute:: table
An instance of :class:`~behave.model.Table` that came with the example
in the *feature file*.
.. attribute:: filename
The file name (or "<string>") of the *feature file* where the example
was found.
.. attribute:: line
The line number of the *feature file* where the example was found.
.. _`examples`: gherkin.html#examples
'''
type = "examples"
def __init__(self, filename, line, keyword, name, table=None):
super(Examples, self).__init__(filename, line, keyword, name)
self.table = table
self.index = None
class Step(BasicStatement, Replayable):
'''A single `step`_ parsed from a *feature file*.
The attributes are:
.. attribute:: keyword
This is the keyword as seen in the *feature file*. In English this will
typically be "Given", "When", "Then" or a number of other words.
.. attribute:: name
The name of the step (the text after "Given" etc.)
.. attribute:: step_type
The type of step as determined by the keyword. If the keyword is "and"
then the previous keyword in the *feature file* will determine this
step's step_type.
.. attribute:: text
An instance of :class:`~behave.model.Text` that came with the step
in the *feature file*.
.. attribute:: table
An instance of :class:`~behave.model.Table` that came with the step
in the *feature file*.
.. attribute:: status
Read-Only. A summary status of the step's run. If read before the
step is tested it will return "untested" otherwise it will
return one of:
"skipped"
This step was passed over during testing.
"passed"
The step was tested successfully.
"failed"
The step failed.
.. attribute:: duration
The time, in seconds, that it took to test this step. If read before the
step is tested it will return 0.0.
.. attribute:: error_message
If the step failed then this will hold any error information, as a
single string. It will otherwise be None.
.. attribute:: filename
The file name (or "<string>") of the *feature file* where the step was
found.
.. attribute:: line
The line number of the *feature file* where the step was found.
.. _`step`: gherkin.html#steps
'''
type = "step"
def __init__(self, filename, line, keyword, step_type, name, text=None,
table=None):
super(Step, self).__init__(filename, line, keyword, name)
self.step_type = step_type
self.text = text
self.table = table
self.status = 'untested'
self.duration = 0
self.exception = None
self.exc_traceback = None
self.error_message = None
def reset(self):
'''Reset temporary runtime data to reach clean state again.'''
self.status = 'untested'
self.duration = 0
self.exception = None
self.exc_traceback = None
self.error_message = None
def store_exception_context(self, exception):
self.exception = exception
self.exc_traceback = sys.exc_info()[2]
def __repr__(self):
return '<%s "%s">' % (self.step_type, self.name)
def __eq__(self, other):
return (self.step_type, self.name) == (other.step_type, other.name)
def __hash__(self):
return hash(self.step_type) + hash(self.name)
def set_values(self, table_row):
"""Clone a new step from this one, used for ScenarioOutline.
Replace ScenarioOutline placeholders w/ values.
:param table_row: Placeholder data for example row.
:return: Cloned, adapted step object.
.. note:: Deprecating
Use 'ScenarioOutlineBuilder.make_step_for_row()' instead.
"""
import warnings
warnings.warn("Use 'ScenarioOutline.make_step_for_row()' instead",
PendingDeprecationWarning, stacklevel=2)
outline_step = self
return ScenarioOutlineBuilder.make_step_for_row(outline_step, table_row)
def run(self, runner, quiet=False, capture=True):
# -- RESET: Run information.
self.exception = self.exc_traceback = self.error_message = None
self.status = 'untested'
# access module var here to allow test mocking to work
match = step_registry.registry.find_match(self)
if match is None:
runner.undefined_steps.append(self)
if not quiet:
for formatter in runner.formatters:
formatter.match(NoMatch())
self.status = 'undefined'
if not quiet:
for formatter in runner.formatters:
formatter.result(self)
return False
keep_going = True
if not quiet:
for formatter in runner.formatters:
formatter.match(match)
runner.run_hook('before_step', runner.context, self)
if capture:
runner.start_capture()
try:
start = time.time()
# -- ENSURE:
# * runner.context.text/.table attributes are reset (#66).
# * Even EMPTY multiline text is available in context.
runner.context.text = self.text
runner.context.table = self.table
match.run(runner.context)
if self.status == 'untested':
# -- NOTE: Executed step may have skipped scenario and itself.
self.status = 'passed'
except KeyboardInterrupt as e:
runner.aborted = True
error = "ABORTED: By user (KeyboardInterrupt)."
self.status = 'failed'
self.store_exception_context(e)
except AssertionError as e:
self.status = 'failed'
self.store_exception_context(e)
if e.args:
message = _text(e)
error = 'Assertion Failed: '+ message
else:
# no assertion text; format the exception
error = _text(traceback.format_exc())
except Exception as e:
self.status = 'failed'
error = _text(traceback.format_exc())
self.store_exception_context(e)
self.duration = time.time() - start
if capture:
runner.stop_capture()
# flesh out the failure with details
if self.status == 'failed':
assert isinstance(error, six.text_type)
if capture:
# -- CAPTURE-ONLY: Non-nested step failures.
if runner.config.stdout_capture:
output = runner.stdout_capture.getvalue()
if output:
output = _text(output)
error += '\nCaptured stdout:\n' + output
if runner.config.stderr_capture:
output = runner.stderr_capture.getvalue()
if output:
output = _text(output)
error += '\nCaptured stderr:\n' + output
if runner.config.log_capture:
output = runner.log_capture.getvalue()
if output:
output = _text(output)
error += '\nCaptured logging:\n' + output
self.error_message = error
keep_going = False
if not quiet:
for formatter in runner.formatters:
formatter.result(self)
runner.run_hook('after_step', runner.context, self)
return keep_going
class Table(Replayable):
'''A `table`_ extracted from a *feature file*.
Table instance data is accessible using a number of methods:
**iteration**
Iterating over the Table will yield the :class:`~behave.model.Row`
instances from the .rows attribute.
**indexed access**
Individual rows may be accessed directly by index on the Table instance;
table[0] gives the first non-heading row and table[-1] gives the last
row.
The attributes are:
.. attribute:: headings
The headings of the table as a list of strings.
.. attribute:: rows
An list of instances of :class:`~behave.model.Row` that make up the body
of the table in the *feature file*.
Tables are also comparable, for what that's worth. Headings and row data
are compared.
.. _`table`: gherkin.html#table
'''
type = "table"
def __init__(self, headings, line=None, rows=None):
Replayable.__init__(self)
self.headings = headings
self.line = line
self.rows = []
if rows:
for row in rows:
self.add_row(row, line)
def add_row(self, row, line=None):
self.rows.append(Row(self.headings, row, line))
def add_column(self, column_name, values=None, default_value=""):
"""
Adds a new column to this table.
Uses :param:`default_value` for new cells (if :param:`values` are
not provided). param:`values` are extended with :param:`default_value`
if values list is smaller than the number of table rows.
:param column_name: Name of new column (as string).
:param values: Optional list of cell values in new column.
:param default_value: Default value for cell (if values not provided).
:returns: Index of new column (as number).
"""
# assert isinstance(column_name, unicode)
assert not self.has_column(column_name)
if values is None:
values = [default_value] * len(self.rows)
elif not isinstance(values, list):
values = list(values)
if len(values) < len(self.rows):
more_size = len(self.rows) - len(values)
more_values = [default_value] * more_size
values.extend(more_values)
new_column_index = len(self.headings)
self.headings.append(column_name)
for row, value in zip(self.rows, values):
assert len(row.cells) == new_column_index
row.cells.append(value)
return new_column_index
def remove_column(self, column_name):
if not isinstance(column_name, int):
try:
column_index = self.get_column_index(column_name)
except ValueError:
raise KeyError("column=%s is unknown" % column_name)
assert isinstance(column_index, int)
assert column_index < len(self.headings)
del self.headings[column_index]
for row in self.rows:
assert column_index < len(row.cells)
del row.cells[column_index]
def remove_columns(self, column_names):
for column_name in column_names:
self.remove_column(column_name)
def has_column(self, column_name):
return column_name in self.headings
def get_column_index(self, column_name):
return self.headings.index(column_name)
def require_column(self, column_name):
"""
Require that a column exists in the table.
Raise an AssertionError if the column does not exist.
:param column_name: Name of new column (as string).
:return: Index of column (as number) if it exists.
"""
if not self.has_column(column_name):
columns = ", ".join(self.headings)
msg = "REQUIRE COLUMN: %s (columns: %s)" % (column_name, columns)
raise AssertionError(msg)
return self.get_column_index(column_name)
def require_columns(self, column_names):
for column_name in column_names:
self.require_column(column_name)
def ensure_column_exists(self, column_name):
"""
Ensures that a column with the given name exists.
If the column does not exist, the column is added.
:param column_name: Name of column (as string).
:return: Index of column (as number).
"""
if self.has_column(column_name):
return self.get_column_index(column_name)
else:
return self.add_column(column_name)
def __repr__(self):
return "<Table: %dx%d>" % (len(self.headings), len(self.rows))
def __eq__(self, other):
if isinstance(other, Table):
if self.headings != other.headings:
return False
for my_row, their_row in zip(self.rows, other.rows):
if my_row != their_row:
return False
else:
# -- ASSUME: table <=> raw data comparison
other_rows = other
for my_row, their_row in zip(self.rows, other_rows):
if my_row != their_row:
return False
return True
def __ne__(self, other):
return not self == other
def __iter__(self):
return iter(self.rows)
def __getitem__(self, index):
return self.rows[index]
def assert_equals(self, data):
'''Assert that this table's cells are the same as the supplied "data".
The data passed in must be a list of lists giving:
[
[row 1],
[row 2],
[row 3],
]
If the cells do not match then a useful AssertionError will be raised.
'''
assert self == data
raise NotImplementedError
class Row(object):
'''One row of a `table`_ parsed from a *feature file*.
Row data is accessible using a number of methods:
**iteration**
Iterating over the Row will yield the individual cells as strings.
**named access**
Individual cells may be accessed by heading name; row['name'] would give
the cell value for the column with heading "name".
**indexed access**
Individual cells may be accessed directly by index on the Row instance;
row[0] gives the first cell and row[-1] gives the last cell.
The attributes are:
.. attribute:: cells
The list of strings that form the cells of this row.
.. attribute:: headings
The headings of the table as a list of strings.
Rows are also comparable, for what that's worth. Only the cells are
compared.
.. _`table`: gherkin.html#table
'''
def __init__(self, headings, cells, line=None, comments=None):
self.headings = headings
self.comments = comments
for c in cells:
assert isinstance(c, six.text_type)
self.cells = cells
self.line = line
def __getitem__(self, name):
try:
index = self.headings.index(name)
except ValueError:
if isinstance(name, int):
index = name
else:
raise KeyError('"%s" is not a row heading' % name)
return self.cells[index]
def __repr__(self):
return '<Row %r>' % (self.cells,)
def __eq__(self, other):
return self.cells == other.cells
def __ne__(self, other):
return not self == other
def __len__(self):
return len(self.cells)
def __iter__(self):
return iter(self.cells)
def items(self):
return list(zip(self.headings, self.cells))
def get(self, key, default=None):
try:
return self[key]
except KeyError:
return default
def as_dict(self):
"""
Converts the row and its cell data into a dictionary.
:return: Row data as dictionary (without comments, line info).
"""
from behave.compat.collections import OrderedDict
return OrderedDict(list(self.items()))
class Tag(six.text_type):
"""Tags appear may be associated with Features or Scenarios.
They're a subclass of regular strings (unicode pre-Python 3) with an
additional ``line`` number attribute (where the tag was seen in the source
feature file.
See :ref:`controlling things with tags`.
"""
def __new__(cls, name, line):
o = six.text_type.__new__(cls, name)
o.line = line
return o
@staticmethod
def make_name(text, unescape=False):
"""Translate text into a "valid tag" without whitespace, etc.
Translation rules are:
* alnum chars => same, kept
* space chars => '_'
* other chars => deleted
:param text: Unicode text as input for name.
:return: Unicode name that can be used as tag.
"""
assert isinstance(text, six.text_type)
if unescape:
# -- UNESCAPE: Some escaped sequences
text = text.replace("\\t", "\t").replace("\\n", "\n")
allowed_chars = '._-'
chars = []
for char in text:
if char.isalnum() or char in allowed_chars:
chars.append(char)
elif char.isspace():
chars.append('_')
return "".join(chars)
class Text(six.text_type):
'''Store multiline text from a Step definition.
The attributes are:
.. attribute:: value
The actual text parsed from the *feature file*.
.. attribute:: content_type
Currently only 'text/plain'.
'''
def __new__(cls, value, content_type='text/plain', line=0):
assert isinstance(value, six.text_type)
assert isinstance(content_type, six.text_type)
o = six.text_type.__new__(cls, value)
o.content_type = content_type
o.line = line
return o
def line_range(self):
line_count = len(self.splitlines())
return (self.line, self.line + line_count + 1)
def replace(self, old, new):
return Text(super(Text, self).replace(old, new), self.content_type,
self.line)
def assert_equals(self, expected):
'''Assert that my text is identical to the "expected" text.
A nice context diff will be displayed if they do not match.
'''
if self == expected:
return True
diff = []
for line in difflib.unified_diff(self.splitlines(),
expected.splitlines()):
diff.append(line)
# strip unnecessary diff prefix
diff = ['Text does not match:'] + diff[3:]
raise AssertionError('\n'.join(diff))
class Match(Replayable):
'''An parameter-matched *feature file* step name extracted using
step decorator `parameters`_.
.. attribute:: func
The step function that this match will be applied to.
.. attribute:: arguments
A list of :class:`behave.model.Argument` instances containing the
matched parameters from the step name.
'''
type = "match"
def __init__(self, func, arguments=None):
super(Match, self).__init__()
self.func = func
self.arguments = arguments
self.location = None
if func:
self.location = self.make_location(func)
def __repr__(self):
if self.func:
func_name = self.func.__name__
else:
func_name = '<no function>'
return '<Match %s, %s>' % (func_name, self.location)
def __eq__(self, other):
if not isinstance(other, Match):
return False
return (self.func, self.location) == (other.func, other.location)
def with_arguments(self, arguments):
match = copy.copy(self)
match.arguments = arguments
return match
def run(self, context):
args = []
kwargs = {}
for arg in self.arguments:
if arg.name is not None:
kwargs[arg.name] = arg.value
else:
args.append(arg.value)
with context.user_mode():
self.func(context, *args, **kwargs)
@staticmethod
def make_location(step_function):
'''
Extracts the location information from the step function and builds
the location string (schema: "{source_filename}:{line_number}").
:param step_function: Function whose location should be determined.
:return: Step function location as string.
'''
step_function_code = six.get_function_code(step_function)
filename = os.path.relpath(step_function_code.co_filename, os.getcwd())
line_number = step_function_code.co_firstlineno
return FileLocation(filename, line_number)
class NoMatch(Match):
'''
Used for an "undefined step" when it can not be matched with a
step definition.
'''
def __init__(self):
Match.__init__(self, func=None)
self.func = None
self.arguments = []
self.location = None
def reset_model(model_elements):
"""
Reset the test run information stored in model elements.
:param model_elements: List of model elements (Feature, Scenario, ...)
"""
for model_element in model_elements:
model_element.reset()
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