Thu, 26 Aug 2021 22:04:33 +0300
removed some alias tests that aren't mandated by the official header specification
from warnings import warn class ProblemType: severities = ['hold', 'warning'] # in descending order def __init__(self, name, severity, message): if severity not in ProblemType.severities: raise ValueError(str.format( 'bad severity {severity!r}', severity = severity, )) self.name = name self.severity = severity self.message = message def __call__(self, bad_object, **args): return Problem( problem_class = self, bad_object = bad_object, **args, ) def placeholder_message(self): if callable(self.message): import inspect spec = inspect.getfullargspec(self.message) args = {} assert not spec.varargs and not spec.varkw for argname in spec.args + spec.kwonlyargs: args[argname] = '<' + argname.replace('_', ' ') + '>' return self.message(**args) else: return self.message class Problem: def __init__(self, problem_class, bad_object, **args): self.problem_class = problem_class self.severity = problem_class.severity self.object = bad_object self.args = args def __str__(self): if callable(self.problem_class.message): return self.problem_class.message(**self.args) else: return self.problem_class.message def problem_type(problem_name, **args): def wrapper(function): if not hasattr(function, 'ldcheck_problem_types'): function.ldcheck_problem_types = {} new_type = ProblemType(name = problem_name, **args) function.ldcheck_problem_types[problem_name] = new_type return function return wrapper def report_problem(problem_name, *, bad_object, **args): return {'type': problem_name, 'bad-object': bad_object, 'args': args} def name_of_package(package): if isinstance(package, tuple): return package[1] else: return package.name def test_discovery(): ''' Finds all test modules and yields their names. ''' from pkgutil import walk_packages import tests yield from sorted( 'tests.' + name_of_package(result) for result in walk_packages(tests.__path__) ) def load_tests(): ''' Imports test modules and combines their manifests into a test suite. ''' test_suite = {'tests': []} for module_name in test_discovery(): from importlib import import_module module = import_module(module_name) if hasattr(module, 'manifest'): # Merge the data from the manifest test_suite['tests'] += module.manifest['tests'] else: warn(str.format('Module {} does not have a manifest', module_name)) test_suite['tests'].sort(key = lambda f: f.__name__) return test_suite def problem_key(problem): rank = ProblemType.severities.index(problem.severity) # sort by severity return (rank, problem.line_number) def build_problem(test_function, problem_params): problem_name = problem_params['type'] problem_type = test_function.ldcheck_problem_types[problem_name] problem_object = problem_type( bad_object = problem_params['bad-object'], **problem_params['args'], ) return problem_object def check_model(model, test_suite = None): if not test_suite: test_suite = load_tests() problems = [] line_numbers = { element: (i, i + 1) for i, element in enumerate(model.body) } for test_function in test_suite['tests']: for problem_params in test_function(model): problem = build_problem(test_function, problem_params) # add line numbers to the problem problem.body_index, problem.line_number \ = line_numbers[problem.object] problem.object = None problems.append(problem) return { 'passed': not any( problem.severity == 'hold' for problem in problems ), 'problems': sorted(problems, key = problem_key), } def problem_text(problem, test_suite): message = problem.problem_class.message if callable(message): message = message(**problem.args) return message def iterate_problems(test_suite): for test_function in test_suite['tests']: yield from test_function.ldcheck_problem_types.values() def all_problem_types(test_suite): return sorted( iterate_problems(test_suite), key = lambda problem_type: problem_type.name ) def all_problem_type_names(test_suite): return set( problem_type.name for problem_type in iterate_problems(test_suite) ) if __name__ == '__main__': from pprint import pprint pprint(load_tests())