def test_suite_with_only_single_sub_suite_SHOULD_not_include_root_suite_as_test_suite(self):
# ARRANGE #
suite_with_single_case = test_suite('suite with single case', [], [
test_case('the test case')
])
root_suite = test_suite('root suite file name', [
suite_with_single_case,
], [])
suites = [
root_suite,
suite_with_single_case,
]
# ACT #
actual = execute_with_case_processing_with_constant_result(tcp.new_executed(FULL_RESULT_PASS),
root_suite,
Path(),
suites)
# ASSERT #
expected_xml = _suites_xml([
suite_xml(attributes={
'name': 'suite with single case',
'package': '.',
'id': '1',
'tests': '1',
'errors': '0',
'failures': '0',
},
test_case_elements=[successful_test_case_xml('the test case')]
),
])
expected_output = expected_output_from(expected_xml)
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
self.assertEqual(expected_output, replace_xml_variables(actual.stdout))
def test_suite_with_only_single_sub_suite_SHOULD_not_include_root_suite_as_test_suite(self):
# ARRANGE #
suite_with_single_case = test_suite('suite with single case', [], [
test_case('the test case')
])
root_suite = test_suite('root suite file name', [
suite_with_single_case,
], [])
suites = [
root_suite,
suite_with_single_case,
]
# ACT #
actual = execute_with_case_processing_with_constant_result(tcp.new_executed(FULL_RESULT_PASS),
root_suite,
Path(),
suites)
# ASSERT #
expected_xml = _suites_xml([
suite_xml(attributes={
'name': 'suite with single case',
'package': '.',
'id': '1',
'tests': '1',
'errors': '0',
'failures': '0',
},
test_case_elements=[successful_test_case_xml('the test case')]
),
])
expected__assertion = asrt_etree.str_as_xml_equals(expected_xml)
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
expected__assertion.apply_with_message(self,
replace_xml_variables(actual.stdout),
'suite xml on stdout')
def runTest(self):
# ARRANGE #
path_cases = [
NameAndValue(
'relative file name',
TestCaseFileReference(Path('test.case'),
Path('reference') / 'relativity')),
NameAndValue(
'absolute file name',
TestCaseFileReference(Path.cwd() / 'test.case', Path.cwd())),
]
for path_case in path_cases:
test_case_paths_expectation = asrt.matches_sequence(
[equals_test_case_reference(path_case.value)])
suite_with_case = test_suite(
source_file_name='ignored',
sub_test_suites=[],
test_cases=[path_case.value],
)
suite_cases = [
NameAndValue(
'case in root suite',
suite_with_case,
),
NameAndValue(
'case in sub suite',
test_suite(source_file_name='ignored',
sub_test_suites=[suite_with_case],
test_cases=[]),
),
]
for suite_case in suite_cases:
with self.subTest(path_case=path_case.name,
suite_case=suite_case.name):
suite_hierarchy_reader = ReaderThatGivesConstantSuite(
suite_case.value)
reporter = ProcessingReporterThatDoesNothing()
path_registering_processor = TestCaseProcessorThatJustRegistersTestCaseFileReference(
)
processor = sut.Processor(
DUMMY_CASE_PROCESSING, suite_hierarchy_reader,
reporter, DepthFirstEnumerator(),
lambda config: path_registering_processor)
# ACT #
return_value = processor.process(
suite_case.value.source_file,
null_output_reporting_environment())
# ASSERT #
self.assertEqual(
ProcessingReporterThatDoesNothing.
VALID_SUITE_EXIT_CODE, return_value,
'Sanity check of result indicator')
test_case_paths_expectation.apply_without_message(
self, path_registering_processor.recording_media)
def runTest(self):
# ARRANGE #
path_cases = [
NameAndValue('relative file name',
TestCaseFileReference(Path('test.case'),
Path('reference') / 'relativity')
),
NameAndValue('absolute file name',
TestCaseFileReference(Path.cwd() / 'test.case',
Path.cwd())),
]
for path_case in path_cases:
test_case_file_refs_expectation = asrt.matches_sequence([
equals_test_case_reference(path_case.value)
])
suite_with_case = test_suite(
source_file_name='ignored',
sub_test_suites=[],
test_cases=[path_case.value],
)
suite_cases = [
NameAndValue('case in root suite',
suite_with_case,
),
NameAndValue('case in sub suite',
test_suite(
source_file_name='ignored',
sub_test_suites=[suite_with_case],
test_cases=[]
),
),
]
for suite_case in suite_cases:
with self.subTest(path_case=path_case.name,
suite_case=suite_case.name):
suite_hierarchy_reader = ReaderThatGivesConstantSuite(suite_case.value)
reporter = ProcessingReporterThatDoesNothing()
file_ref_registering_processor = TestCaseProcessorThatJustRegistersTestCaseFileReference()
processor = sut.Processor(DUMMY_CASE_PROCESSING,
suite_hierarchy_reader,
reporter,
DepthFirstEnumerator(),
lambda config: file_ref_registering_processor)
# ACT #
return_value = processor.process(suite_case.value.source_file, null_output_files())
# ASSERT #
self.assertEqual(ProcessingReporterThatDoesNothing.VALID_SUITE_EXIT_CODE,
return_value,
'Sanity check of result indicator')
test_case_file_refs_expectation.apply_without_message(
self,
file_ref_registering_processor.recording_media
)
def test_single_case_with_error(self):
cases = [
FULL_RESULT_HARD_ERROR,
FULL_RESULT_VALIDATE,
FULL_RESULT_INTERNAL_ERROR,
]
for case_result in cases:
with self.subTest(case_result_status=case_result.status):
# ARRANGE #
expected_xml = suite_xml(attributes={
'name': 'suite with error',
'tests': '1',
'errors': '1',
'failures': '0'},
test_case_elements=[
erroneous_test_case_xml('test case file name',
error_type=case_result.status.name,
failure_message=error_message_for_full_result(case_result))])
expected__assertion = asrt_etree.str_as_xml_equals(expected_xml)
root_suite = test_suite('suite with error', [], [test_case('test case file name')])
test_suites = [root_suite]
# ACT #
actual = execute_with_case_processing_with_constant_result(
tcp.new_executed(case_result),
root_suite,
Path(),
test_suites)
# ASSERT #
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
expected__assertion.apply_with_message(self,
replace_xml_variables(actual.stdout),
'suite xml on stdout')
def test_empty_suite(self):
# ARRANGE #
expected_xml = suite_xml(
attributes={
'name': 'root file name',
'tests': '0',
'errors': '0',
'failures': '0',
},
test_case_elements=[],
)
expected__assertion = asrt_etree.str_as_xml_equals(expected_xml)
root_suite = test_suite('root file name', [], [])
test_suites = [root_suite]
# ACT #
actual = execute_with_case_processing_with_constant_result(FULL_RESULT_PASS,
root_suite,
Path(),
test_suites)
# ASSERT #
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
expected__assertion.apply_with_message(self,
replace_xml_variables(actual.stdout),
'suite xml on stdout')
def test_single_case_that_passes(self):
cases = [
FULL_RESULT_PASS,
FULL_RESULT_XFAIL,
FULL_RESULT_SKIP,
]
for case_result in cases:
with self.subTest(case_result_status=case_result.status):
# ARRANGE #
expected_xml = suite_xml(attributes={
'name': 'suite that passes',
'tests': '1',
'errors': '0',
'failures': '0',
},
test_case_elements=[successful_test_case_xml('test case file name')]
)
expected__assertion = asrt_etree.str_as_xml_equals(expected_xml)
root_suite = test_suite('suite that passes', [], [test_case('test case file name')])
test_suites = [root_suite]
# ACT #
actual = execute_with_case_processing_with_constant_result(
tcp.new_executed(case_result),
root_suite,
Path(),
test_suites)
# ASSERT #
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
expected__assertion.apply_with_message(self,
replace_xml_variables(actual.stdout),
'suite xml on stdout')
def test_single_case_that_passes(self):
cases = [
FULL_RESULT_PASS,
FULL_RESULT_XFAIL,
FULL_RESULT_SKIP,
]
for case_result in cases:
with self.subTest(case_result_status=case_result.status):
# ARRANGE #
expected_xml = suite_xml(attributes={
'name': 'suite that passes',
'tests': '1',
'errors': '0',
'failures': '0',
},
test_case_elements=[successful_test_case_xml('test case file name')]
)
expected_output = expected_output_from(expected_xml)
root_suite = test_suite('suite that passes', [], [test_case('test case file name')])
test_suites = [root_suite]
# ACT #
actual = execute_with_case_processing_with_constant_result(
tcp.new_executed(case_result),
root_suite,
Path(),
test_suites)
# ASSERT #
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
self.assertEqual(expected_output, replace_xml_variables(actual.stdout))
def test_single_case_with_error_due_to_failure_to_execute(self):
cases = [
(tcp.new_internal_error(error_info.of_message('error message')),
tcp.Status.INTERNAL_ERROR.name),
(tcp.new_access_error(AccessErrorType.FILE_ACCESS_ERROR,
error_info.of_message('error message')),
AccessErrorType.FILE_ACCESS_ERROR.name),
]
for case_result, error_type in cases:
with self.subTest(case_result_status=case_result.status):
# ARRANGE #
expected_xml = suite_xml(attributes={
'name': 'suite with error',
'tests': '1',
'errors': '1',
'failures': '0'},
test_case_elements=[
erroneous_test_case_xml('test case file name',
error_type=error_type,
failure_message=error_message_for_error_info(case_result.error_info))
])
expected_output = expected_output_from(expected_xml)
root_suite = test_suite('suite with error', [], [test_case('test case file name')])
test_suites = [root_suite]
# ACT #
actual = execute_with_case_processing_with_constant_result(
case_result,
root_suite,
Path(),
test_suites)
# ASSERT #
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
self.assertEqual(expected_output, replace_xml_variables(actual.stdout))
def test_single_case_with_error(self):
cases = [
FULL_RESULT_HARD_ERROR,
FULL_RESULT_VALIDATE,
FULL_RESULT_IMPLEMENTATION_ERROR,
]
for case_result in cases:
with self.subTest(case_result_status=case_result.status):
# ARRANGE #
expected_xml = suite_xml(attributes={
'name': 'suite with error',
'tests': '1',
'errors': '1',
'failures': '0'},
test_case_elements=[
erroneous_test_case_xml('test case file name',
error_type=case_result.status.name,
failure_message=error_message_for_full_result(case_result))])
expected_output = expected_output_from(expected_xml)
root_suite = test_suite('suite with error', [], [test_case('test case file name')])
test_suites = [root_suite]
# ACT #
actual = execute_with_case_processing_with_constant_result(
tcp.new_executed(case_result),
root_suite,
Path(),
test_suites)
# ASSERT #
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
self.assertEqual(expected_output, replace_xml_variables(actual.stdout))
def test_that_report_of_failing_tests_are_grouped_by_exit_identifiers(
self):
cases = [
(FULL_RESULT_FAIL, case_ev.EXECUTION__FAIL),
(FULL_RESULT_HARD_ERROR, case_ev.EXECUTION__HARD_ERROR),
(FULL_RESULT_VALIDATE, case_ev.EXECUTION__VALIDATION_ERROR),
(FULL_RESULT_INTERNAL_ERROR, case_ev.EXECUTION__INTERNAL_ERROR),
]
test_case_file_name = 'test-case-file'
for case_result, expected_case_exit_value in cases:
with self.subTest(
case_result_status=case_result.status,
expected_case_exit_value=expected_case_exit_value):
# ARRANGE #
root_suite = test_suite('root file name', [],
[test_case(test_case_file_name)])
test_suites = [root_suite]
std_output_files = StringStdOutFiles()
executor = _suite_executor_for_case_processing_that_unconditionally(
case_result, root_suite, std_output_files, Path())
# ACT #
executor.execute_and_report(test_suites)
# ASSERT #
std_output_files.finish()
stderr_contents = std_output_files.stderr_contents
exit_ident_pos = stderr_contents.find(
expected_case_exit_value.exit_identifier)
self.assertNotEqual(-1, exit_ident_pos,
'stderr must contain the exit identifier')
start_of_exit_ident_group = stderr_contents[exit_ident_pos:]
group_elements = start_of_exit_ident_group.split()
self.assertEqual(
len(group_elements), 2,
'Expecting to find EXIT_IDENTIFIER followed by CASE-FILE-NAME as final contents of stderr'
)
self.assertEqual(
expected_case_exit_value.exit_identifier,
group_elements[0],
'Expects the exit identifier as a single word')
self.assertEqual(
test_case_file_name, group_elements[1],
'Expects the test case file name to follow the exit identifier'
)
def test_suite_execution_order_using_empty_suites(self):
# ARRANGE #
reporter = ExecutionTracingProcessingReporter()
str_std_out_files = StringStdOutFiles()
sub11 = test_suite('11', [], [])
sub12 = test_suite('12', [], [])
sub1 = test_suite('1', [sub11, sub12], [])
sub21 = test_suite('21', [], [])
sub2 = test_suite('2', [sub21], [])
root = test_suite('root', [sub1, sub2], [])
expected_suites = [
ExpectedSuiteReporting(sub11, []),
ExpectedSuiteReporting(sub12, []),
ExpectedSuiteReporting(sub1, []),
ExpectedSuiteReporting(sub21, []),
ExpectedSuiteReporting(sub2, []),
ExpectedSuiteReporting(root, []),
]
suite_hierarchy_reader = ReaderThatGivesConstantSuite(root)
processor = Processor(
DUMMY_CASE_PROCESSING, suite_hierarchy_reader, reporter,
DepthFirstEnumerator(),
lambda config: TestCaseProcessorThatGivesConstantPerCase({}))
# ACT #
exit_code = processor.process(pathlib.Path('root-suite-file'),
str_std_out_files.reporting_environment)
# ASSERT #
check_exit_code_and_empty_stdout(
self, ExecutionTracingRootSuiteReporter.VALID_SUITE_EXIT_CODE,
exit_code, str_std_out_files)
ExpectedSuiteReporting.check_list(self, expected_suites,
reporter.complete_suite_reporter)
def test_single_suite_with_test_cases_with_different_result(self):
# ARRANGE #
reporter = ExecutionTracingProcessingReporter()
str_std_out_files = StringStdOutFiles()
tc_internal_error = test_case_reference_of_source_file(Path('internal error'))
tc_access_error = test_case_reference_of_source_file(Path('access error'))
tc_executed = test_case_reference_of_source_file(Path('executed'))
root = test_suite(
'root',
[],
[
tc_internal_error,
tc_access_error,
tc_executed,
])
test_case_processor = TestCaseProcessorThatGivesConstantPerCase({
id(tc_internal_error): new_internal_error(error_info.of_message('message')),
id(tc_access_error): new_access_error(
tcp.AccessErrorType.SYNTAX_ERROR, error_info.of_message('syntax error')),
id(tc_executed): new_executed(FULL_RESULT_PASS),
})
expected_suites = [
ExpectedSuiteReporting(root,
[
(tc_internal_error, tcp.Status.INTERNAL_ERROR),
(tc_access_error, tcp.Status.ACCESS_ERROR),
(tc_executed, tcp.Status.EXECUTED),
])
]
suite_hierarchy_reader = ReaderThatGivesConstantSuite(root)
processor = Processor(DUMMY_CASE_PROCESSING,
suite_hierarchy_reader,
reporter,
DepthFirstEnumerator(),
lambda config: test_case_processor)
# ACT #
exit_code = processor.process(pathlib.Path('root-suite-file'), str_std_out_files.stdout_files)
# ASSERT #
check_exit_code_and_empty_stdout(self,
ExecutionTracingRootSuiteReporter.VALID_SUITE_EXIT_CODE,
exit_code,
str_std_out_files)
ExpectedSuiteReporting.check_list(
self,
expected_suites,
reporter.complete_suite_reporter)
def test_single_suite_with_test_cases_with_different_result(self):
# ARRANGE #
reporter = ExecutionTracingProcessingReporter()
str_std_out_files = StringStdOutFiles()
tc_internal_error = test_case_reference_of_source_file(
Path('internal error'))
tc_access_error = test_case_reference_of_source_file(
Path('access error'))
tc_executed = test_case_reference_of_source_file(Path('executed'))
root = test_suite('root', [], [
tc_internal_error,
tc_access_error,
tc_executed,
])
test_case_processor = TestCaseProcessorThatGivesConstantPerCase({
id(tc_internal_error):
new_internal_error(error_info.of_message('message')),
id(tc_access_error):
new_access_error(tcp.AccessErrorType.SYNTAX_ERROR,
error_info.of_message('syntax error')),
id(tc_executed):
new_executed(FULL_RESULT_PASS),
})
expected_suites = [
ExpectedSuiteReporting(root, [
(tc_internal_error, tcp.Status.INTERNAL_ERROR),
(tc_access_error, tcp.Status.ACCESS_ERROR),
(tc_executed, tcp.Status.EXECUTED),
])
]
suite_hierarchy_reader = ReaderThatGivesConstantSuite(root)
processor = Processor(DUMMY_CASE_PROCESSING, suite_hierarchy_reader,
reporter, DepthFirstEnumerator(),
lambda config: test_case_processor)
# ACT #
exit_code = processor.process(pathlib.Path('root-suite-file'),
str_std_out_files.reporting_environment)
# ASSERT #
check_exit_code_and_empty_stdout(
self, ExecutionTracingRootSuiteReporter.VALID_SUITE_EXIT_CODE,
exit_code, str_std_out_files)
ExpectedSuiteReporting.check_list(self, expected_suites,
reporter.complete_suite_reporter)
def test_single_sub_suite_with_test_cases_with_different_results(self):
# ARRANGE #
tc_pass = test_case('successful case')
tc_fail = test_case('failing case')
tc_error = test_case('erroneous case')
root_suite = test_suite('suite file name', [], [
tc_pass,
tc_fail,
tc_error,
])
suites = [root_suite]
test_case_processor = TestCaseProcessorThatGivesConstantPerCase({
id(tc_pass): tcp.new_executed(FULL_RESULT_PASS),
id(tc_fail): tcp.new_executed(FULL_RESULT_FAIL),
id(tc_error): tcp.new_executed(FULL_RESULT_HARD_ERROR),
})
# ACT #
actual = execute_with_case_processing_with_constant_processor(test_case_processor,
root_suite,
Path(),
suites)
# ASSERT #
expected_xml = suite_xml(attributes={
'name': 'suite file name',
'tests': '3',
'errors': '1',
'failures': '1',
},
test_case_elements=[
successful_test_case_xml('successful case'),
failing_test_case_xml('failing case',
failure_type=FULL_RESULT_FAIL.status.name,
failure_message=error_message_for_full_result(FULL_RESULT_FAIL)),
erroneous_test_case_xml('erroneous case',
error_type=FULL_RESULT_HARD_ERROR.status.name,
failure_message=error_message_for_full_result(FULL_RESULT_HARD_ERROR)),
]
)
expected__assertion = asrt_etree.str_as_xml_equals(expected_xml)
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
expected__assertion.apply_with_message(self,
replace_xml_variables(actual.stdout),
'suite xml on stdout')
def test_single_empty_suite(self):
# ARRANGE #
expected_exit_value = suite_ev.ALL_PASS
expected_output = lines_content_with_os_linesep([
_suite_begin('root file name'),
_suite_end('root file name'),
expected_exit_value.exit_identifier,
])
root_suite = test_suite('root file name', [], [])
test_suites = [root_suite]
std_output_files = StringStdOutFiles()
executor = _suite_executor_for_case_processing_that_unconditionally(
FULL_RESULT_PASS, root_suite, std_output_files, Path())
# ACT #
exit_code = executor.execute_and_report(test_suites)
# ASSERT #
std_output_files.finish()
self.assertEqual(expected_exit_value.exit_code, exit_code)
self.assertEqual(expected_output, std_output_files.stdout_contents)
def test_empty_suite(self):
# ARRANGE #
expected_xml = suite_xml(attributes={
'name': 'root file name',
'tests': '0',
'errors': '0',
'failures': '0',
},
test_case_elements=[])
expected_output = expected_output_from(expected_xml)
root_suite = test_suite('root file name', [], [])
test_suites = [root_suite]
# ACT #
actual = execute_with_case_processing_with_constant_result(FULL_RESULT_PASS,
root_suite,
Path(),
test_suites)
# ASSERT #
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
self.assertEqual(expected_output, replace_xml_variables(actual.stdout))
def test_suite_with_single_case(self):
cases = [
(FULL_RESULT_PASS, case_ev.EXECUTION__PASS, suite_ev.ALL_PASS),
(FULL_RESULT_FAIL, case_ev.EXECUTION__FAIL, suite_ev.FAILED_TESTS),
(FULL_RESULT_SKIP, case_ev.EXECUTION__SKIPPED, suite_ev.ALL_PASS),
(FULL_RESULT_HARD_ERROR, case_ev.EXECUTION__HARD_ERROR,
suite_ev.FAILED_TESTS),
(FULL_RESULT_VALIDATE, case_ev.EXECUTION__VALIDATION_ERROR,
suite_ev.FAILED_TESTS),
(FULL_RESULT_INTERNAL_ERROR, case_ev.EXECUTION__INTERNAL_ERROR,
suite_ev.FAILED_TESTS),
]
for case_result, expected_case_exit_value, expected_suite_exit_value in cases:
with self.subTest(
case_result_status=case_result.status,
expected_case_exit_value=expected_case_exit_value,
expected_suite_exit_value=expected_suite_exit_value):
# ARRANGE #
expected_output = lines_content_with_os_linesep([
_suite_begin('root file name'),
_case('test case file', expected_case_exit_value),
_suite_end('root file name'),
expected_suite_exit_value.exit_identifier,
])
root_suite = test_suite('root file name', [],
[test_case('test case file')])
test_suites = [root_suite]
std_output_files = StringStdOutFiles()
executor = _suite_executor_for_case_processing_that_unconditionally(
case_result, root_suite, std_output_files, Path())
# ACT #
exit_code = executor.execute_and_report(test_suites)
# ASSERT #
std_output_files.finish()
self.assertEqual(expected_suite_exit_value.exit_code,
exit_code)
stdout_contents_prepared_for_assertion = _replace_seconds_with_const(
std_output_files.stdout_contents)
self.assertEqual(expected_output,
stdout_contents_prepared_for_assertion)
def test_single_sub_suite_with_test_cases_with_different_results(self):
# ARRANGE #
tc_pass = test_case('successful case')
tc_fail = test_case('failing case')
tc_error = test_case('erroneous case')
root_suite = test_suite('suite file name', [], [
tc_pass,
tc_fail,
tc_error,
])
suites = [root_suite]
test_case_processor = TestCaseProcessorThatGivesConstantPerCase({
id(tc_pass): tcp.new_executed(FULL_RESULT_PASS),
id(tc_fail): tcp.new_executed(FULL_RESULT_FAIL),
id(tc_error): tcp.new_executed(FULL_RESULT_HARD_ERROR),
})
# ACT #
actual = execute_with_case_processing_with_constant_processor(test_case_processor,
root_suite,
Path(),
suites)
# ASSERT #
expected_xml = suite_xml(attributes={
'name': 'suite file name',
'tests': '3',
'errors': '1',
'failures': '1',
},
test_case_elements=[
successful_test_case_xml('successful case'),
failing_test_case_xml('failing case',
failure_type=FULL_RESULT_FAIL.status.name,
failure_message=error_message_for_full_result(FULL_RESULT_FAIL)),
erroneous_test_case_xml('erroneous case',
error_type=FULL_RESULT_HARD_ERROR.status.name,
failure_message=error_message_for_full_result(FULL_RESULT_HARD_ERROR)),
]
)
expected_output = expected_output_from(expected_xml)
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
self.assertEqual(expected_output, replace_xml_variables(actual.stdout))
def _check(self, result: tcp.Result):
# ARRANGE #
str_std_out_files = StringStdOutFiles()
test_case = test_case_reference_of_source_file(Path('test-case'))
root = test_suite('root', [], [test_case])
suite_hierarchy_reader = ReaderThatGivesConstantSuite(root)
reporter = ExecutionTracingProcessingReporter()
executor = Processor(
DUMMY_CASE_PROCESSING, suite_hierarchy_reader, reporter,
DepthFirstEnumerator(),
lambda config: TestCaseProcessorThatGivesConstant(result))
# ACT #
exit_code = executor.process(pathlib.Path('root-suite-file'),
str_std_out_files.reporting_environment)
# ASSERT #
check_exit_code_and_empty_stdout(
self, ExecutionTracingRootSuiteReporter.VALID_SUITE_EXIT_CODE,
exit_code, str_std_out_files)
ExpectedSuiteReporting.check_list(
self, [ExpectedSuiteReporting(root, [(test_case, result.status)])],
reporter.complete_suite_reporter)
def test_single_empty_suite(self):
# ARRANGE #
expected_exit_value = suite_ev.ALL_PASS
expected_output = lines_content_with_os_linesep([
_suite_begin('root file name'),
_suite_end('root file name'),
expected_exit_value.exit_identifier,
])
root_suite = test_suite('root file name', [], [])
test_suites = [root_suite]
std_output_files = StringStdOutFiles()
executor = _suite_executor_for_case_processing_that_unconditionally(FULL_RESULT_PASS,
root_suite,
std_output_files,
Path())
# ACT #
exit_code = executor.execute_and_report(test_suites)
# ASSERT #
std_output_files.finish()
self.assertEqual(expected_exit_value.exit_code, exit_code)
self.assertEqual(expected_output, std_output_files.stdout_contents)
def test_internal_error_in_test_case_processor(self):
# ARRANGE #
str_std_out_files = StringStdOutFiles()
test_case = test_case_reference_of_source_file(Path('test-case'))
root = test_suite('root', [], [test_case])
suite_hierarchy_reader = ReaderThatGivesConstantSuite(root)
reporter = ExecutionTracingProcessingReporter()
processor = Processor(DUMMY_CASE_PROCESSING,
suite_hierarchy_reader,
reporter,
DepthFirstEnumerator(),
lambda config: TestCaseProcessorThatRaisesUnconditionally())
# ACT #
exit_code = processor.process(pathlib.Path('root-suite-file'), str_std_out_files.stdout_files)
# ASSERT #
check_exit_code_and_empty_stdout(self,
ExecutionTracingRootSuiteReporter.VALID_SUITE_EXIT_CODE,
exit_code,
str_std_out_files)
ExpectedSuiteReporting.check_list(
self,
[ExpectedSuiteReporting(root, [(test_case, tcp.Status.INTERNAL_ERROR)])],
reporter.complete_suite_reporter)
def test_single_case_with_error_due_to_failure_to_execute(self):
cases = [
(tcp.new_internal_error(error_info.of_message('error message')),
tcp.Status.INTERNAL_ERROR.name),
(tcp.new_access_error(AccessErrorType.FILE_ACCESS_ERROR,
error_info.of_message('error message')),
AccessErrorType.FILE_ACCESS_ERROR.name),
]
for case_result, error_type in cases:
with self.subTest(case_result_status=case_result.status):
# ARRANGE #
expected_xml = suite_xml(attributes={
'name': 'suite with error',
'tests': '1',
'errors': '1',
'failures': '0'},
test_case_elements=[
erroneous_test_case_xml('test case file name',
error_type=error_type,
failure_message=error_message_for_error_info(case_result.error_info))
])
expected__assertion = asrt_etree.str_as_xml_equals(expected_xml)
root_suite = test_suite('suite with error', [], [test_case('test case file name')])
test_suites = [root_suite]
# ACT #
actual = execute_with_case_processing_with_constant_result(
case_result,
root_suite,
Path(),
test_suites)
# ASSERT #
self.assertEqual(sut.UNCONDITIONAL_EXIT_CODE, actual.exit_code)
expected__assertion.apply_with_message(self,
replace_xml_variables(actual.stdout),
'suite xml on stdout')
def test_suite_with_single_case(self):
cases = [
(FULL_RESULT_PASS, case_ev.EXECUTION__PASS, suite_ev.ALL_PASS),
(FULL_RESULT_FAIL, case_ev.EXECUTION__FAIL, suite_ev.FAILED_TESTS),
(FULL_RESULT_SKIP, case_ev.EXECUTION__SKIPPED, suite_ev.ALL_PASS),
(FULL_RESULT_HARD_ERROR, case_ev.EXECUTION__HARD_ERROR, suite_ev.FAILED_TESTS),
(FULL_RESULT_VALIDATE, case_ev.EXECUTION__VALIDATION_ERROR, suite_ev.FAILED_TESTS),
(FULL_RESULT_IMPLEMENTATION_ERROR, case_ev.EXECUTION__IMPLEMENTATION_ERROR, suite_ev.FAILED_TESTS),
]
for case_result, expected_case_exit_value, expected_suite_exit_value in cases:
with self.subTest(case_result_status=case_result.status,
expected_case_exit_value=expected_case_exit_value,
expected_suite_exit_value=expected_suite_exit_value):
# ARRANGE #
expected_output = lines_content_with_os_linesep([
_suite_begin('root file name'),
_case('test case file', expected_case_exit_value),
_suite_end('root file name'),
expected_suite_exit_value.exit_identifier,
])
root_suite = test_suite('root file name', [], [test_case('test case file')])
test_suites = [root_suite]
std_output_files = StringStdOutFiles()
executor = _suite_executor_for_case_processing_that_unconditionally(case_result,
root_suite,
std_output_files,
Path())
# ACT #
exit_code = executor.execute_and_report(test_suites)
# ASSERT #
std_output_files.finish()
self.assertEqual(expected_suite_exit_value.exit_code, exit_code)
stdout_contents_prepared_for_assertion = _replace_seconds_with_const(std_output_files.stdout_contents)
self.assertEqual(expected_output,
stdout_contents_prepared_for_assertion)
def test_suite_execution_order_using_empty_suites(self):
# ARRANGE #
reporter = ExecutionTracingProcessingReporter()
str_std_out_files = StringStdOutFiles()
sub11 = test_suite('11', [], [])
sub12 = test_suite('12', [], [])
sub1 = test_suite('1', [sub11, sub12], [])
sub21 = test_suite('21', [], [])
sub2 = test_suite('2', [sub21], [])
root = test_suite('root', [sub1, sub2], [])
expected_suites = [
ExpectedSuiteReporting(sub11, []),
ExpectedSuiteReporting(sub12, []),
ExpectedSuiteReporting(sub1, []),
ExpectedSuiteReporting(sub21, []),
ExpectedSuiteReporting(sub2, []),
ExpectedSuiteReporting(root, []),
]
suite_hierarchy_reader = ReaderThatGivesConstantSuite(root)
processor = Processor(DUMMY_CASE_PROCESSING,
suite_hierarchy_reader,
reporter,
DepthFirstEnumerator(),
lambda config: TestCaseProcessorThatGivesConstantPerCase({}))
# ACT #
exit_code = processor.process(pathlib.Path('root-suite-file'), str_std_out_files.stdout_files)
# ASSERT #
check_exit_code_and_empty_stdout(self,
ExecutionTracingRootSuiteReporter.VALID_SUITE_EXIT_CODE,
exit_code,
str_std_out_files)
ExpectedSuiteReporting.check_list(
self,
expected_suites,
reporter.complete_suite_reporter)
def test_complex_suite_structure_with_test_cases(self):
# ARRANGE #
reporter = ExecutionTracingProcessingReporter()
str_std_out_files = StringStdOutFiles()
tc_internal_error_11 = test_case_reference_of_source_file(
Path('internal error 11'))
tc_internal_error_21 = test_case_reference_of_source_file(
Path('internal error 21'))
tc_access_error_1 = test_case_reference_of_source_file(
Path('access error A'))
tc_access_error_12 = test_case_reference_of_source_file(
Path('access error 12'))
tc_executed_11 = test_case_reference_of_source_file(
Path('executed 11'))
tc_executed_12 = test_case_reference_of_source_file(
Path('executed 12'))
tc_executed_1 = test_case_reference_of_source_file(Path('executed 1'))
tc_executed_2 = test_case_reference_of_source_file(Path('executed 2'))
tc_executed_root = test_case_reference_of_source_file(
Path('executed root'))
test_case_processor = TestCaseProcessorThatGivesConstantPerCase({
id(tc_internal_error_11):
new_internal_error(error_info.of_message('message A')),
id(tc_internal_error_21):
new_internal_error(error_info.of_message('message B')),
id(tc_access_error_1):
new_access_error(tcp.AccessErrorType.SYNTAX_ERROR,
error_info.of_message('syntax error')),
id(tc_access_error_12):
new_access_error(tcp.AccessErrorType.FILE_ACCESS_ERROR,
error_info.of_message('file access error')),
id(tc_executed_11):
new_executed(FULL_RESULT_PASS),
id(tc_executed_12):
new_executed(FULL_RESULT_PASS),
id(tc_executed_1):
new_executed(FULL_RESULT_PASS),
id(tc_executed_2):
new_executed(FULL_RESULT_PASS),
id(tc_executed_root):
new_executed(FULL_RESULT_PASS),
})
sub11 = test_suite('11', [], [tc_internal_error_11, tc_executed_11])
sub12 = test_suite('12', [], [tc_executed_12, tc_access_error_12])
sub1 = test_suite('1', [sub11, sub12],
[tc_access_error_1, tc_executed_1])
sub21 = test_suite('21', [], [tc_internal_error_21])
sub2 = test_suite('2', [sub21], [tc_executed_2])
sub3 = test_suite('2', [], [])
root = test_suite('root', [sub1, sub2, sub3], [tc_executed_root])
expected_suites = [
ExpectedSuiteReporting(
sub11, [(tc_internal_error_11, tcp.Status.INTERNAL_ERROR),
(tc_executed_11, tcp.Status.EXECUTED)]),
ExpectedSuiteReporting(
sub12, [(tc_executed_12, tcp.Status.EXECUTED),
(tc_access_error_12, tcp.Status.ACCESS_ERROR)]),
ExpectedSuiteReporting(
sub1, [(tc_access_error_1, tcp.Status.ACCESS_ERROR),
(tc_executed_1, tcp.Status.EXECUTED)]),
ExpectedSuiteReporting(
sub21, [(tc_internal_error_21, tcp.Status.INTERNAL_ERROR)]),
ExpectedSuiteReporting(sub2,
[(tc_executed_2, tcp.Status.EXECUTED)]),
ExpectedSuiteReporting(sub3, []),
ExpectedSuiteReporting(root,
[(tc_executed_root, tcp.Status.EXECUTED)]),
]
suite_hierarchy_reader = ReaderThatGivesConstantSuite(root)
processor = Processor(DUMMY_CASE_PROCESSING, suite_hierarchy_reader,
reporter, DepthFirstEnumerator(),
lambda config: test_case_processor)
# ACT #
exit_code = processor.process(pathlib.Path('root-suite-file'),
str_std_out_files.reporting_environment)
# ASSERT #
check_exit_code_and_empty_stdout(
self, ExecutionTracingRootSuiteReporter.VALID_SUITE_EXIT_CODE,
exit_code, str_std_out_files)
ExpectedSuiteReporting.check_list(self, expected_suites,
reporter.complete_suite_reporter)
def test_complex_suite_structure_with_test_cases(self):
# ARRANGE #
reporter = ExecutionTracingProcessingReporter()
str_std_out_files = StringStdOutFiles()
tc_internal_error_11 = test_case_reference_of_source_file(Path('internal error 11'))
tc_internal_error_21 = test_case_reference_of_source_file(Path('internal error 21'))
tc_access_error_1 = test_case_reference_of_source_file(Path('access error A'))
tc_access_error_12 = test_case_reference_of_source_file(Path('access error 12'))
tc_executed_11 = test_case_reference_of_source_file(Path('executed 11'))
tc_executed_12 = test_case_reference_of_source_file(Path('executed 12'))
tc_executed_1 = test_case_reference_of_source_file(Path('executed 1'))
tc_executed_2 = test_case_reference_of_source_file(Path('executed 2'))
tc_executed_root = test_case_reference_of_source_file(Path('executed root'))
test_case_processor = TestCaseProcessorThatGivesConstantPerCase({
id(tc_internal_error_11): new_internal_error(error_info.of_message('message A')),
id(tc_internal_error_21): new_internal_error(error_info.of_message('message B')),
id(tc_access_error_1): new_access_error(
tcp.AccessErrorType.SYNTAX_ERROR, error_info.of_message('syntax error')),
id(tc_access_error_12): new_access_error(tcp.AccessErrorType.FILE_ACCESS_ERROR,
error_info.of_message('file access error')),
id(tc_executed_11): new_executed(FULL_RESULT_PASS),
id(tc_executed_12): new_executed(FULL_RESULT_PASS),
id(tc_executed_1): new_executed(FULL_RESULT_PASS),
id(tc_executed_2): new_executed(FULL_RESULT_PASS),
id(tc_executed_root): new_executed(FULL_RESULT_PASS),
})
sub11 = test_suite('11', [], [tc_internal_error_11,
tc_executed_11])
sub12 = test_suite('12', [], [tc_executed_12,
tc_access_error_12])
sub1 = test_suite('1', [sub11, sub12], [tc_access_error_1,
tc_executed_1])
sub21 = test_suite('21', [], [tc_internal_error_21])
sub2 = test_suite('2', [sub21], [tc_executed_2])
sub3 = test_suite('2', [], [])
root = test_suite('root', [sub1, sub2, sub3], [tc_executed_root])
expected_suites = [
ExpectedSuiteReporting(sub11, [(tc_internal_error_11, tcp.Status.INTERNAL_ERROR),
(tc_executed_11, tcp.Status.EXECUTED)]),
ExpectedSuiteReporting(sub12, [(tc_executed_12, tcp.Status.EXECUTED),
(tc_access_error_12, tcp.Status.ACCESS_ERROR)]),
ExpectedSuiteReporting(sub1, [(tc_access_error_1, tcp.Status.ACCESS_ERROR),
(tc_executed_1, tcp.Status.EXECUTED)]),
ExpectedSuiteReporting(sub21, [(tc_internal_error_21, tcp.Status.INTERNAL_ERROR)]),
ExpectedSuiteReporting(sub2, [(tc_executed_2, tcp.Status.EXECUTED)]),
ExpectedSuiteReporting(sub3, []),
ExpectedSuiteReporting(root, [(tc_executed_root, tcp.Status.EXECUTED)]),
]
suite_hierarchy_reader = ReaderThatGivesConstantSuite(root)
processor = Processor(DUMMY_CASE_PROCESSING,
suite_hierarchy_reader,
reporter,
DepthFirstEnumerator(),
lambda config: test_case_processor)
# ACT #
exit_code = processor.process(pathlib.Path('root-suite-file'), str_std_out_files.stdout_files)
# ASSERT #
check_exit_code_and_empty_stdout(self,
ExecutionTracingRootSuiteReporter.VALID_SUITE_EXIT_CODE,
exit_code,
str_std_out_files)
ExpectedSuiteReporting.check_list(
self,
expected_suites,
reporter.complete_suite_reporter)