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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
# Common utility functions used by various script execution tests
# e.g. test_cmd_line, test_cmd_line_script and test_runpy
import sys
import os
import re
import os.path
import tempfile
import subprocess
import py_compile
import contextlib
import shutil
try:
import zipfile
except ImportError:
# If Python is build without Unicode support, importing _io will
# fail, which, in turn, means that zipfile cannot be imported
# Most of this module can then still be used.
pass
from test.test_support import strip_python_stderr
_IS_JYTHON_WINDOWS = sys.platform.startswith('java') and os._name == 'nt'
# Executing the interpreter in a subprocess
def _assert_python(expected_success, *args, **env_vars):
cmd_line = [sys.executable]
if not env_vars:
cmd_line.append('-E')
cmd_line.extend(args)
# Need to preserve the original environment, for in-place testing of
# shared library builds.
env = os.environ.copy()
env.update(env_vars)
p = subprocess.Popen(cmd_line, stdin=subprocess.PIPE,
stdout=subprocess.PIPE, stderr=subprocess.PIPE,
env=env)
try:
out, err = p.communicate()
finally:
subprocess._cleanup()
p.stdout.close()
p.stderr.close()
rc = p.returncode
err = strip_python_stderr(err)
if (rc and expected_success) or (not rc and not expected_success):
raise AssertionError(
"Process return code is %d, "
"stderr follows:\n%s" % (rc, err.decode('ascii', 'ignore')))
return rc, out, err
def assert_python_ok(*args, **env_vars):
"""
Assert that running the interpreter with `args` and optional environment
variables `env_vars` is ok and return a (return code, stdout, stderr) tuple.
"""
return _assert_python(True, *args, **env_vars)
def assert_python_failure(*args, **env_vars):
"""
Assert that running the interpreter with `args` and optional environment
variables `env_vars` fails and return a (return code, stdout, stderr) tuple.
"""
return _assert_python(False, *args, **env_vars)
def python_exit_code(*args):
cmd_line = [sys.executable, '-E']
cmd_line.extend(args)
with open(os.devnull, 'w') as devnull:
return subprocess.call(cmd_line, stdout=devnull,
stderr=subprocess.STDOUT)
def spawn_python(*args, **kwargs):
cmd_line = [sys.executable, '-E']
cmd_line.extend(args)
return subprocess.Popen(cmd_line, stdin=subprocess.PIPE,
stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
**kwargs)
def kill_python(p):
p.stdin.close()
data = p.stdout.read()
p.stdout.close()
# try to cleanup the child so we don't appear to leak when running
# with regrtest -R.
p.wait()
subprocess._cleanup()
return data
def run_python(*args, **kwargs):
if __debug__:
p = spawn_python(*args, **kwargs)
else:
p = spawn_python('-O', *args, **kwargs)
stdout_data = kill_python(p)
return p.wait(), stdout_data
# Script creation utilities
@contextlib.contextmanager
def temp_dir():
dirname = tempfile.mkdtemp()
dirname = os.path.realpath(dirname)
try:
yield dirname
finally:
# On Windows, unlink failures within rmtree often mask the true nature
# of a failing test (or sometimes a passing one).
shutil.rmtree(dirname, ignore_errors=_IS_JYTHON_WINDOWS)
def make_script(script_dir, script_basename, source):
script_filename = script_basename+os.extsep+'py'
script_name = os.path.join(script_dir, script_filename)
script_file = open(script_name, 'w')
script_file.write(source)
script_file.close()
return script_name
def compile_script(script_name):
py_compile.compile(script_name, doraise=True)
compiled_name = script_name[:-3] + '$py.class'
return compiled_name
def make_zip_script(zip_dir, zip_basename, script_name, name_in_zip=None):
zip_filename = zip_basename+os.extsep+'zip'
zip_name = os.path.join(zip_dir, zip_filename)
zip_file = zipfile.ZipFile(zip_name, 'w')
if name_in_zip is None:
name_in_zip = os.path.basename(script_name)
zip_file.write(script_name, name_in_zip)
zip_file.close()
#if test.test_support.verbose:
# zip_file = zipfile.ZipFile(zip_name, 'r')
# print 'Contents of %r:' % zip_name
# zip_file.printdir()
# zip_file.close()
return zip_name, os.path.join(zip_name, name_in_zip)
def make_pkg(pkg_dir):
os.mkdir(pkg_dir)
make_script(pkg_dir, '__init__', '')
def make_zip_pkg(zip_dir, zip_basename, pkg_name, script_basename,
source, depth=1, compiled=False):
unlink = []
init_name = make_script(zip_dir, '__init__', '')
unlink.append(init_name)
init_basename = os.path.basename(init_name)
script_name = make_script(zip_dir, script_basename, source)
unlink.append(script_name)
if compiled:
init_name = compile_script(init_name)
script_name = compile_script(script_name)
unlink.extend((init_name, script_name))
pkg_names = [os.sep.join([pkg_name]*i) for i in range(1, depth+1)]
script_name_in_zip = os.path.join(pkg_names[-1], os.path.basename(script_name))
zip_filename = zip_basename+os.extsep+'zip'
zip_name = os.path.join(zip_dir, zip_filename)
zip_file = zipfile.ZipFile(zip_name, 'w')
for name in pkg_names:
init_name_in_zip = os.path.join(name, init_basename)
zip_file.write(init_name, init_name_in_zip)
zip_file.write(script_name, script_name_in_zip)
zip_file.close()
for name in unlink:
os.unlink(name)
#if test.test_support.verbose:
# zip_file = zipfile.ZipFile(zip_name, 'r')
# print 'Contents of %r:' % zip_name
# zip_file.printdir()
# zip_file.close()
return zip_name, os.path.join(zip_name, script_name_in_zip)