def __init__(self, output, settings):
self.result = None
self._output = output
self._settings = settings
self._variables = VariableScopes(settings)
self._suite = None
self._suite_status = None
self._executed_tests = None
def __init__(self, output, settings):
self.result = None
self._output = output
self._settings = settings
self._variables = VariableScopes(settings)
self._suite = None
self._suite_status = None
self._executed = [NormalizedDict(ignore='_')]
self._skipped_tags = TagPatterns(settings.skip)
def __init__(self, output, settings):
self.result = None
self._output = output
self._settings = settings
self._variables = VariableScopes(settings)
self._suite = None
self._suite_status = None
self._executed_tests = None
def __init__(self, name, BuiltIn=True, variable_getters=None):
"""Initialize with a `name`
and optional additional variable lookup functions.
- If a Variable is not found in the Robot's Variables dictionary,
the `variable_getters` will be called in the given order
with the Variable string in Robot syntax ($/@{...})
until no `LookupError` or `DataError` is raised.
(Used by the `robot_shell` to extend Variables lookup
to IPython's `user_ns` and Python's `builtins`).
:param BuiltIn: Import RFW's BuiltIn Library by default?
:param variable_getters: A sequence of callables.
"""
self.name = name
self.debug = False
try:
GLOBAL_VARIABLES
except NameError:
# Robot 2.9+
self._variables = VariableScopes(RobotSettings())
else:
# Robot 2.8
if not GLOBAL_VARIABLES: # HACK
init_global_variables(RobotSettings())
self._variables = GLOBAL_VARIABLES.copy()
# HACK even more to extend variable lookup
self._variables.__class__ = variablesclass(
self._variables.__class__, extra_getters=variable_getters)
self._output = Output()
self._context = Context(testrobot=self)
self._suite = TestSuite(name)
argspec = getargspec(Namespace.__init__)
namespace = partial(
Namespace, suite=self._suite, variables=self._variables)
if 'resource' in argspec.args:
# Robot 3.0
self._namespace = namespace(resource=self._suite.resource)
else:
namespace.keywords.update(user_keywords=[], imports=None)
if 'parent_variables' in argspec.args:
# Robot 2.8
self._namespace = namespace(parent_variables=None)
else:
# Robot 2.9
self._namespace = namespace()
if BuiltIn:
self.Import('BuiltIn')
class Runner(SuiteVisitor):
def __init__(self, output, settings):
self.result = None
self._output = output
self._settings = settings
self._variables = VariableScopes(settings)
self._suite = None
self._suite_status = None
self._executed_tests = None
@property
def _context(self):
return EXECUTION_CONTEXTS.current
def start_suite(self, suite):
self._output.library_listeners.new_suite_scope()
result = TestSuite(source=suite.source,
name=suite.name,
doc=suite.doc,
metadata=suite.metadata,
starttime=get_timestamp(),
rpa=self._settings.rpa)
if not self.result:
result.set_criticality(self._settings.critical_tags,
self._settings.non_critical_tags)
self.result = Result(root_suite=result, rpa=self._settings.rpa)
self.result.configure(status_rc=self._settings.status_rc,
stat_config=self._settings.statistics_config)
else:
self._suite.suites.append(result)
self._suite = result
self._suite_status = SuiteStatus(self._suite_status,
self._settings.exit_on_failure,
self._settings.exit_on_error,
self._settings.skip_teardown_on_exit)
ns = Namespace(self._variables, result, suite.resource)
ns.start_suite()
ns.variables.set_from_variable_table(suite.resource.variables)
EXECUTION_CONTEXTS.start_suite(result, ns, self._output,
self._settings.dry_run)
self._context.set_suite_variables(result)
if not self._suite_status.failures:
ns.handle_imports()
ns.variables.resolve_delayed()
result.doc = self._resolve_setting(result.doc)
result.metadata = [(self._resolve_setting(n), self._resolve_setting(v))
for n, v in result.metadata.items()]
self._context.set_suite_variables(result)
self._output.start_suite(ModelCombiner(suite, result,
tests=suite.tests,
suites=suite.suites,
test_count=suite.test_count))
self._output.register_error_listener(self._suite_status.error_occurred)
self._run_setup(suite.keywords.setup, self._suite_status)
self._executed_tests = NormalizedDict(ignore='_')
def _resolve_setting(self, value):
if is_list_like(value):
return self._variables.replace_list(value, ignore_errors=True)
return self._variables.replace_string(value, ignore_errors=True)
def end_suite(self, suite):
self._suite.message = self._suite_status.message
self._context.report_suite_status(self._suite.status,
self._suite.full_message)
with self._context.suite_teardown():
failure = self._run_teardown(suite.keywords.teardown, self._suite_status)
if failure:
self._suite.suite_teardown_failed(unic(failure))
if self._suite.statistics.critical.failed:
self._suite_status.critical_failure_occurred()
self._suite.endtime = get_timestamp()
self._suite.message = self._suite_status.message
self._context.end_suite(ModelCombiner(suite, self._suite))
self._suite = self._suite.parent
self._suite_status = self._suite_status.parent
self._output.library_listeners.discard_suite_scope()
def visit_test(self, test):
if test.name in self._executed_tests:
self._output.warn("Multiple test cases with name '%s' executed in "
"test suite '%s'." % (test.name, self._suite.longname))
self._executed_tests[test.name] = True
result = self._suite.tests.create(name=test.name,
doc=self._resolve_setting(test.doc),
tags=self._resolve_setting(test.tags),
starttime=get_timestamp(),
timeout=self._get_timeout(test))
self._context.start_test(result)
self._output.start_test(ModelCombiner(test, result))
status = TestStatus(self._suite_status, result.critical)
if status.exit:
self._add_exit_combine()
result.tags.add('robot:exit')
if not status.failures and not test.name:
status.test_failed('Test case name cannot be empty.')
if not status.failures and not test.keywords.normal:
status.test_failed('Test case contains no keywords.')
self._run_setup(test.keywords.setup, status, result)
try:
if not status.failures:
StepRunner(self._context,
test.template).run_steps(test.keywords.normal)
else:
status.test_failed(status.message)
except PassExecution as exception:
err = exception.earlier_failures
if err:
status.test_failed(err)
else:
result.message = exception.message
except ExecutionStatus as err:
status.test_failed(err)
result.status = status.status
result.message = status.message or result.message
if status.teardown_allowed:
with self._context.test_teardown(result):
failure = self._run_teardown(test.keywords.teardown, status,
result)
if failure and result.critical:
status.critical_failure_occurred()
if not status.failures and result.timeout and result.timeout.timed_out():
status.test_failed(result.timeout.get_message())
result.message = status.message
result.status = status.status
result.endtime = get_timestamp()
self._output.end_test(ModelCombiner(test, result))
self._context.end_test(result)
def _add_exit_combine(self):
exit_combine = ('NOT robot:exit', '')
if exit_combine not in self._settings['TagStatCombine']:
self._settings['TagStatCombine'].append(exit_combine)
def _get_timeout(self, test):
if not test.timeout:
return None
return TestTimeout(test.timeout.value, test.timeout.message,
self._variables, rpa=test.parent.rpa)
def _run_setup(self, setup, status, result=None):
if not status.failures:
exception = self._run_setup_or_teardown(setup)
status.setup_executed(exception)
if result and isinstance(exception, PassExecution):
result.message = exception.message
def _run_teardown(self, teardown, status, result=None):
if status.teardown_allowed:
exception = self._run_setup_or_teardown(teardown)
status.teardown_executed(exception)
failed = not isinstance(exception, PassExecution)
if result and exception:
result.message = status.message if failed else exception.message
return exception if failed else None
def _run_setup_or_teardown(self, data):
if not data:
return None
try:
name = self._variables.replace_string(data.name)
except DataError as err:
if self._settings.dry_run:
return None
return err
if name.upper() in ('', 'NONE'):
return None
try:
StepRunner(self._context).run_step(data, name=name)
except ExecutionStatus as err:
return err
class Runner(SuiteVisitor):
def __init__(self, output, settings):
self.result = None
self._output = output
self._settings = settings
self._variables = VariableScopes(settings)
self._suite = None
self._suite_status = None
self._executed_tests = None
@property
def _context(self):
return EXECUTION_CONTEXTS.current
def start_suite(self, suite):
result = TestSuite(source=suite.source,
name=suite.name,
doc=suite.doc,
metadata=suite.metadata,
starttime=get_timestamp())
if not self.result:
result.set_criticality(self._settings.critical_tags,
self._settings.non_critical_tags)
self.result = Result(root_suite=result)
self.result.configure(status_rc=self._settings.status_rc,
stat_config=self._settings.statistics_config)
else:
self._suite.suites.append(result)
self._suite = result
self._suite_status = SuiteStatus(self._suite_status,
self._settings.exit_on_failure,
self._settings.exit_on_error,
self._settings.skip_teardown_on_exit)
ns = Namespace(self._variables, result, suite.resource.keywords,
suite.resource.imports)
ns.start_suite()
ns.variables.set_from_variable_table(suite.resource.variables)
EXECUTION_CONTEXTS.start_suite(ns, self._output, self._settings.dry_run)
self._context.set_suite_variables(result)
if not self._suite_status.failures:
ns.handle_imports()
ns.variables.resolve_delayed()
result.doc = self._resolve_setting(result.doc)
result.metadata = [(self._resolve_setting(n), self._resolve_setting(v))
for n, v in result.metadata.items()]
self._context.set_suite_variables(result)
self._output.start_suite(ModelCombiner(result, suite,
tests=suite.tests,
suites=suite.suites,
test_count=suite.test_count))
self._output.register_error_listener(self._suite_status.error_occurred)
self._run_setup(suite.keywords.setup, self._suite_status)
self._executed_tests = NormalizedDict(ignore='_')
def _resolve_setting(self, value):
return self._variables.replace_string(value, ignore_errors=True)
def end_suite(self, suite):
self._suite.message = self._suite_status.message
self._context.report_suite_status(self._suite.status,
self._suite.full_message)
with self._context.suite_teardown():
failure = self._run_teardown(suite.keywords.teardown, self._suite_status)
if failure:
self._suite.suite_teardown_failed(unicode(failure))
if self._suite.statistics.critical.failed:
self._suite_status.critical_failure_occurred()
self._suite.endtime = get_timestamp()
self._suite.message = self._suite_status.message
self._context.end_suite(self._suite)
self._suite = self._suite.parent
self._suite_status = self._suite_status.parent
def visit_test(self, test):
if test.name in self._executed_tests:
self._output.warn("Multiple test cases with name '%s' executed in "
"test suite '%s'." % (test.name, self._suite.longname))
self._executed_tests[test.name] = True
result = self._suite.tests.create(name=test.name,
doc=self._resolve_setting(test.doc),
tags=test.tags,
starttime=get_timestamp(),
timeout=self._get_timeout(test))
status = TestStatus(self._suite_status, result.critical)
if not status.failures and not test.name:
status.test_failed('Test case name cannot be empty.')
if not status.failures and not test.keywords.normal:
status.test_failed('Test case contains no keywords.')
try:
result.tags = self._context.variables.replace_list(result.tags)
except DataError as err:
status.test_failed('Replacing variables from test tags failed: %s'
% unicode(err))
self._context.start_test(result)
self._output.start_test(ModelCombiner(result, test))
if status.exit:
self._add_exit_combine()
result.tags.add('robot-exit')
self._run_setup(test.keywords.setup, status, result)
try:
if not status.failures:
runner = KeywordRunner(self._context, bool(test.template))
runner.run_keywords(test.keywords.normal)
else:
status.test_failed(status.message)
except PassExecution as exception:
err = exception.earlier_failures
if err:
status.test_failed(err)
else:
result.message = exception.message
except ExecutionFailed as err:
status.test_failed(err)
result.status = status.status
result.message = status.message or result.message
if status.teardown_allowed:
with self._context.test_teardown(result):
failure = self._run_teardown(test.keywords.teardown, status,
result)
if failure and result.critical:
status.critical_failure_occurred()
if not status.failures and result.timeout and result.timeout.timed_out():
status.test_failed(result.timeout.get_message())
result.message = status.message
result.status = status.status
result.endtime = get_timestamp()
self._output.end_test(ModelCombiner(result, test))
self._context.end_test(result)
def _add_exit_combine(self):
exit_combine = ('NOT robot-exit', '')
if exit_combine not in self._settings['TagStatCombine']:
self._settings['TagStatCombine'].append(exit_combine)
def _get_timeout(self, test):
if not test.timeout:
return None
timeout = TestTimeout(test.timeout.value, test.timeout.message,
self._variables)
timeout.start()
return timeout
def _run_setup(self, setup, status, result=None):
if not status.failures:
exception = self._run_setup_or_teardown(setup)
status.setup_executed(exception)
if result and isinstance(exception, PassExecution):
result.message = exception.message
def _run_teardown(self, teardown, status, result=None):
if status.teardown_allowed:
exception = self._run_setup_or_teardown(teardown)
status.teardown_executed(exception)
failed = not isinstance(exception, PassExecution)
if result and exception:
result.message = status.message if failed else exception.message
return exception if failed else None
def _run_setup_or_teardown(self, data):
if not data:
return None
try:
name = self._variables.replace_string(data.name)
except DataError as err:
return err
if name.upper() in ('', 'NONE'):
return None
runner = KeywordRunner(self._context)
try:
runner.run_keyword(data, name=name)
except ExecutionFailed as err:
return err
class SuiteRunner(SuiteVisitor):
def __init__(self, output, settings):
self.result = None
self._output = output
self._settings = settings
self._variables = VariableScopes(settings)
self._suite = None
self._suite_status = None
self._executed = [NormalizedDict(ignore='_')]
self._skipped_tags = TagPatterns(settings.skip)
@property
def _context(self):
return EXECUTION_CONTEXTS.current
def start_suite(self, suite):
if suite.name in self._executed[-1] and suite.parent.source:
self._output.warn(
f"Multiple suites with name '{suite.name}' executed in "
f"suite '{suite.parent.longname}'.")
self._executed[-1][suite.name] = True
self._executed.append(NormalizedDict(ignore='_'))
self._output.library_listeners.new_suite_scope()
result = TestSuite(source=suite.source,
name=suite.name,
doc=suite.doc,
metadata=suite.metadata,
starttime=get_timestamp(),
rpa=self._settings.rpa)
if not self.result:
self.result = Result(root_suite=result, rpa=self._settings.rpa)
self.result.configure(status_rc=self._settings.status_rc,
stat_config=self._settings.statistics_config)
else:
self._suite.suites.append(result)
self._suite = result
self._suite_status = SuiteStatus(self._suite_status,
self._settings.exit_on_failure,
self._settings.exit_on_error,
self._settings.skip_teardown_on_exit)
ns = Namespace(self._variables, result, suite.resource,
self._settings.languages)
ns.start_suite()
ns.variables.set_from_variable_table(suite.resource.variables)
EXECUTION_CONTEXTS.start_suite(result, ns, self._output,
self._settings.dry_run)
self._context.set_suite_variables(result)
if not self._suite_status.failed:
ns.handle_imports()
ns.variables.resolve_delayed()
result.doc = self._resolve_setting(result.doc)
result.metadata = [(self._resolve_setting(n), self._resolve_setting(v))
for n, v in result.metadata.items()]
self._context.set_suite_variables(result)
self._output.start_suite(
ModelCombiner(suite,
result,
tests=suite.tests,
suites=suite.suites,
test_count=suite.test_count))
self._output.register_error_listener(self._suite_status.error_occurred)
self._run_setup(suite.setup, self._suite_status)
def _resolve_setting(self, value):
if is_list_like(value):
return self._variables.replace_list(value, ignore_errors=True)
return self._variables.replace_string(value, ignore_errors=True)
def end_suite(self, suite):
self._suite.message = self._suite_status.message
self._context.report_suite_status(self._suite.status,
self._suite.full_message)
with self._context.suite_teardown():
failure = self._run_teardown(suite.teardown, self._suite_status)
if failure:
if failure.skip:
self._suite.suite_teardown_skipped(str(failure))
else:
self._suite.suite_teardown_failed(str(failure))
self._suite.endtime = get_timestamp()
self._suite.message = self._suite_status.message
self._context.end_suite(ModelCombiner(suite, self._suite))
self._executed.pop()
self._suite = self._suite.parent
self._suite_status = self._suite_status.parent
self._output.library_listeners.discard_suite_scope()
def visit_test(self, test):
settings = self._settings
if test.tags.robot('exclude'):
return
if test.name in self._executed[-1]:
self._output.warn(
test_or_task(
f"Multiple {{test}}s with name '{test.name}' executed in "
f"suite '{test.parent.longname}'.", settings.rpa))
self._executed[-1][test.name] = True
result = self._suite.tests.create(self._resolve_setting(test.name),
self._resolve_setting(test.doc),
self._resolve_setting(test.tags),
self._get_timeout(test),
test.lineno,
starttime=get_timestamp())
self._context.start_test(result)
self._output.start_test(ModelCombiner(test, result))
status = TestStatus(self._suite_status, result,
settings.skip_on_failure, settings.rpa)
if status.exit:
self._add_exit_combine()
result.tags.add('robot:exit')
if status.passed:
if not test.name:
status.test_failed(
test_or_task('{Test} name cannot be empty.', settings.rpa))
elif not test.body:
status.test_failed(
test_or_task('{Test} contains no keywords.', settings.rpa))
elif test.tags.robot('skip'):
status.test_skipped(
test_or_task("{Test} skipped using 'robot:skip' tag.",
settings.rpa))
elif self._skipped_tags.match(test.tags):
status.test_skipped(
test_or_task(
"{Test} skipped using '--skip' command line option.",
settings.rpa))
self._run_setup(test.setup, status, result)
if status.passed:
try:
BodyRunner(self._context,
templated=bool(test.template)).run(test.body)
except PassExecution as exception:
err = exception.earlier_failures
if err:
status.test_failed(error=err)
else:
result.message = exception.message
except ExecutionStatus as err:
status.test_failed(error=err)
elif status.skipped:
status.test_skipped(status.message)
else:
status.test_failed(status.message)
result.status = status.status
result.message = status.message or result.message
with self._context.test_teardown(result):
self._run_teardown(test.teardown, status, result)
if status.passed and result.timeout and result.timeout.timed_out():
status.test_failed(result.timeout.get_message())
result.message = status.message
if status.skip_on_failure_after_tag_changes:
result.message = status.message or result.message
result.status = status.status
result.endtime = get_timestamp()
failed_before_listeners = result.failed
self._output.end_test(ModelCombiner(test, result))
if result.failed and not failed_before_listeners:
status.failure_occurred()
self._context.end_test(result)
def _add_exit_combine(self):
exit_combine = ('NOT robot:exit', '')
if exit_combine not in self._settings['TagStatCombine']:
self._settings['TagStatCombine'].append(exit_combine)
def _get_timeout(self, test):
if not test.timeout:
return None
return TestTimeout(test.timeout, self._variables, rpa=test.parent.rpa)
def _run_setup(self, setup, status, result=None):
if status.passed:
exception = self._run_setup_or_teardown(setup)
status.setup_executed(exception)
if result and isinstance(exception, PassExecution):
result.message = exception.message
elif status.parent and status.parent.skipped:
status.skipped = True
def _run_teardown(self, teardown, status, result=None):
if status.teardown_allowed:
exception = self._run_setup_or_teardown(teardown)
status.teardown_executed(exception)
failed = exception and not isinstance(exception, PassExecution)
if result and exception:
if failed or status.skipped or exception.skip:
result.message = status.message
else:
# Pass execution used in teardown,
# and it overrides previous failure message
result.message = exception.message
return exception if failed else None
def _run_setup_or_teardown(self, data):
if not data:
return None
try:
name = self._variables.replace_string(data.name)
except DataError as err:
if self._settings.dry_run:
return None
return ExecutionFailed(message=err.message)
if name.upper() in ('', 'NONE'):
return None
try:
KeywordRunner(self._context).run(data, name=name)
except ExecutionStatus as err:
return err
def wrapper(*args, **kwargs):
timeout_msg = func.__name__ + " timed out !!"
timeout = KeywordTimeout(timeoutinseconds, timeout_msg,
VariableScopes(RobotSettings()))
timeout.start()
return timeout.run(func, args, kwargs)
