import functools import os import subprocess import unittest def run_subprocess(command, working_dir='.', env=None, expected_returncode=0): """ Helper function to run a shell command and report success/failure depending on the exit status of the shell command. """ if env is not None: env_ = os.environ.copy() env_.update(env) env = env_ # Note we need to capture stdout/stderr from the subprocess, # then print it, which nose/unittest will then capture and # buffer appropriately print(working_dir + " > " + " ".join(command)) result = subprocess.run( command, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, cwd=working_dir, env=env, ) print(result.stdout.decode('utf-8')) assert(result.returncode == expected_returncode) return result.stdout.decode('utf-8') def make(*args, working_dir='.', env=None, **kwargs): """ Runs a make target in the specified working directory Usage: make('clean', 'targetb', SCHEME='bla') """ if os.name == 'nt': make_command = ['nmake', '/f', 'Makefile.Microsoft_nmake', '/E'] # we need SCHEME_UPPERCASE and IMPLEMENTATION_UPPERCASE with nmake for envvar in ['IMPLEMENTATION', 'SCHEME']: if envvar in kwargs: kwargs['{}_UPPERCASE'.format(envvar)] = kwargs[envvar].upper().replace('-', '') else: make_command = ['make'] return run_subprocess( [ *make_command, *['{}={}'.format(k, v) for k, v in kwargs.items()], *args, ], working_dir=working_dir, env=env, ) def skip_windows(message="This test is not supported on Windows"): def wrapper(f): @functools.wraps(f) def skip_windows(*args, **kwargs): raise unittest.SkipTest(message) if os.name == 'nt': return skip_windows else: return f return wrapper