def test_child_program(self):
child_program = 'tests/test_files/req_module.py'
d = main.consolidate_dependencies(needs_ipython=False, child_program=child_program,
requirement_files=None, manual_dependencies=None)
self.assertDictEqual(d, {'pypi': {Requirement.parse('foo'), Requirement.parse('bar')}})
def listContributors(session):
"""Return a list of Contributor Identifier, Contributor Name tuples.
Pickle file caching equivalent of::
list(iterContributors(session))
"""
index_filename = resource_filename(
Requirement.parse('archiveshub'),
'dbs/ead/indexes/idx-vdbid/idx-vdbid.index_TERMIDS'
)
pickle_filename = resource_filename(
Requirement.parse('archiveshub'),
'www/ead/html/searchContributors.pickle'
)
if (
os.path.exists(pickle_filename) and
os.stat(index_filename).st_mtime < os.stat(pickle_filename).st_mtime
):
with open(pickle_filename, 'rb') as pfh:
try:
return pickle.load(pfh)
except:
pass
# Generate and cache the list
contributorCache = list(iterContributors(session))
with open(pickle_filename, 'wb') as pfh:
pickle.dump(contributorCache, pfh)
return contributorCache
def find_required(venv, file_):
pkgdir = os.path.join(os.path.abspath(venv), "lib/python2.7/site-packages")
working_set = WorkingSet([pkgdir])
#We need a version of nose & pylint, preferably our version, but if someone
# insists on adding it to requirements.txt, we should accomodate them.
nose_fulfilled = False
pylint_fulfilled = False
with open(file_, 'r') as fp:
required = [Requirement.parse(req) for req in fp \
if not req.startswith("#")]
requested = []
for requirement in required:
if requirement.project_name == 'nose':
nose_fulfilled = True
if requirement.project_name == 'pylint':
pylint_fulfilled = True
if not version_in_working_set(requirement, working_set):
requested.append(requirement)
if not nose_fulfilled:
requirement = Requirement.parse('nose==1.2.1')
if not version_in_working_set(requirement, working_set):
requested.append(requirement)
if not pylint_fulfilled:
requirement = Requirement.parse('pylint==0.26.0')
if not version_in_working_set(requirement, working_set):
requested.append(requirement)
return requested
def read_release_version():
try:
filename = os.path.join(sys.prefix,
"share", "MyCluster", "RELEASE-VERSION")
if os.path.isfile(filename):
f = open(filename, 'r')
else:
filename = os.path.join(sys.prefix,
"local", "share", "MyCluster",
"RELEASE-VERSION")
if os.path.isfile(filename):
f = open(filename, 'r')
else:
filename = resource_filename(Requirement.parse("MyCluster"),
"share/MyCluster/RELEASE-VERSION")
if os.path.isfile(filename):
f = open(filename, 'r')
else:
filename = resource_filename(
Requirement.parse("MyCluster"),
"RELEASE-VERSION")
f = open(filename, 'r')
try:
version = f.readlines()[0]
return version.strip()
finally:
f.close()
except:
return None
def __init__(self, host, database, username, password):
self.host = host
self.database = database
self.username = username
self.password = password
self.liquibaseJar = resource_filename(Requirement.parse('liquipy'), 'externals/liquibase.jar')
self.mysqlJar = resource_filename(Requirement.parse('liquipy'), 'externals/mysql-connector-java-5.1.17-bin.jar')
def get_all_valid_reqs(cls, requirements, requirements_txt):
from collections import namedtuple
from pkg_resources import Requirement
import re
numbered_item = namedtuple("numbered_item", ["position", "data"])
numbered_list = lambda dataset: [numbered_item(*ni) for ni in enumerate(dataset)]
named_dataset = namedtuple("named_dataset", ["name", "dataset"])
inputs = [
named_dataset(name="command line", dataset=numbered_list(requirements)),
]
if requirements_txt is not None:
file_lines = re.split("[\n\r]", open(requirements_txt).read())
inputs.append(named_dataset(
name="file: {0}".format(requirements_txt), dataset=numbered_list(file_lines)
))
valid_reqs = []
whitespace = re.compile("^\s*$")
for name, dataset in inputs:
for position, req in dataset:
try:
Requirement.parse(req)
valid_reqs.append(req)
except ValueError:
if whitespace.match(req) is None: # Don't warn if empty string or whitespace
cls.logger.warn("Invalid requirement \"{0}\" at " \
"position {1} from {2}\n".format(req, position + 1, name))
return valid_reqs
def copyConfig():
'''copyConfig()
Copies samples configuration if necessary to /etc/odinsys directory.'''
from pkg_resources import Requirement, resource_filename
# Get our file.
filename_odinsys = resource_filename(Requirement.parse("odinsys"),
"config/odinsys.sample.conf")
filename_odinsys_log = resource_filename(Requirement.parse("odinsys"),
"config/odinsyslogger.sample.conf")
try:
import shutil
# Create the directory.
if not os.path.exists("/opt/odinsys"):
os.mkdir("/opt/odinsys")
# Copy the configuration. Don't clobber existing files.
if not os.path.exists("/etc/odinsys/odinsys.conf"):
shutil.copyfile(filename_odinsys, "/etc/odinsys/odinsys.conf")
if not os.path.exists("/etc/odinsys/odinsyslogger.conf"):
shutil.copyfile(filename_odinsys_log, "/etc/odinsys/odinsyslogger.conf")
except IOError:
print "Unable to copy configuration file to /etc/odinsys directory."
def populate_source(self, source, dependency=False):
super(SetupEggSubRecipe, self).populate_source(
source, load_options=not dependency)
if 'egg' not in source:
source['egg'] = self.name
source['requirement'] = Requirement.parse(source['egg'])
source['egg'] = str(source['requirement'])
source['find-requirement'] = Requirement.parse(source['find-egg']) \
if 'find-egg' in source else source['requirement']
source['find-egg'] = str(source['find-requirement'])
source.setdefault('build', True)
egg_directories = []
if 'develop-eggs-directory' in self.recipe.buildout['buildout']:
egg_directories.append(self.recipe.buildout['buildout']['develop-eggs-directory'])
if 'eggs-directory' in self.recipe.buildout['buildout']:
egg_directories.append(self.recipe.buildout['buildout']['eggs-directory'])
source.setdefault('egg-path',
[source['location']] if 'location' in source else [] +
source.get('extra-paths', []) + egg_directories +
buildout_and_setuptools_path)
source.setdefault('location',
self.default_eggs_directory(develop=source.get('develop', False)))
source['egg-environment'] = Environment(source['egg-path'])
source['build-options'] = {}
if not dependency:
for src_key, dst_key in [(key, re.sub('-', '_', key)) for key in
[option for option in self.options
if option in BUILD_EXT_OPTIONS]]:
source['build-options'][dst_key] = self.options[src_key]
source.setdefault('signature', self.resolve_signature(source))
def test_show_distributions_skips_multi_develop_dists(self):
import re
from pkg_resources import Requirement
logged = []
target, path, cheeseshop_path = self._makeDirs()
compoze = Requirement.parse('compoze')
nose = Requirement.parse('nose')
cheeseshop = self._makeIndex(compoze, compoze, nose,
target=cheeseshop_path,
develop=('compoze',))
local = self._makeIndex(compoze, target=target)
def _factory(index_url, search_path=None):
if index_url == 'http://pypi.python.org/simple':
assert search_path is None
return cheeseshop
if index_url == target:
assert search_path is ()
return local
raise ValueError(index_url)
informer = self._makeOne('--verbose', 'compoze', 'nose',
logger=logged.append)
informer.index_factory = _factory
informer.tmpdir = target
informer.show_distributions()
log = '\n'.join(logged)
skipped = re.compile(r'Skipping.*<compoze')
found = re.compile(r'nose: /tmp/.*/cheeseshop/nose')
self.failUnless(skipped.search(log))
self.failUnless(found.search(log))
def test_show_distributions_multiple_w_only_best(self):
import re
from pkg_resources import Requirement
logged = []
target, path, cheeseshop_path = self._makeDirs()
nose = Requirement.parse('nose')
nose2 = Requirement.parse('nose')
cheeseshop = self._makeIndex(nose, nose2,
target=cheeseshop_path,
)
def _factory(index_url, search_path=None):
assert index_url == 'http://pypi.python.org/simple'
assert search_path is None
return cheeseshop
informer = self._makeOne('--verbose', '--show-only-best',
'nose',
logger=logged.append)
informer.index_factory = _factory
informer.tmpdir = target
informer.show_distributions()
log = '\n'.join(logged)
found = re.findall(r'nose: /tmp/.*/cheeseshop/nose', log)
self.assertEqual(len(found), 1)
def read_release_version():
try:
filename = os.path.join(sys.prefix,
"share", __application__, "RELEASE-VERSION")
if os.path.isfile(filename):
f = open(filename, 'r')
else:
filename = os.path.join(sys.prefix,
"local", "share", __application__,
"RELEASE-VERSION")
if os.path.isfile(filename):
f = open(filename, 'r')
else:
filename = resource_filename(
Requirement.parse(__application__),
"share/"+__application__+"/RELEASE-VERSION"
)
if os.path.isfile(filename):
f = open(filename, 'r')
else:
filename = resource_filename(
Requirement.parse(__application__),
"RELEASE-VERSION")
f = open(filename, 'r')
try:
version = f.readlines()[0]
return version.strip()
finally:
f.close()
except Exception, e:
print 'read_release_version exception: '+e
return None
def test_show_distributions_skips_develop_dists(self):
import re
from pkg_resources import Requirement
logged = []
target, path, cheeseshop_path = self._makeDirs()
compoze = Requirement.parse("compoze")
nose = Requirement.parse("nose")
cheeseshop = self._makeIndex(compoze, nose, target=cheeseshop_path, develop=("compoze",))
local = self._makeIndex(compoze, target=target)
def _factory(index_url, search_path=None):
if index_url == "http://pypi.python.org/simple":
assert search_path is None
return cheeseshop
if index_url == target:
assert search_path is ()
return local
raise ValueError(index_url)
informer = self._makeOne("--verbose", "compoze", "nose", logger=logged.append)
informer.index_factory = _factory
informer.tmpdir = target
informer.show_distributions()
log = "\n".join(logged)
skipped = re.compile(r"Skipping.*<compoze")
found = re.compile(r"nose: /tmp/.*/cheeseshop/nose")
self.assertTrue(skipped.search(log))
self.assertTrue(found.search(log))
def runtestMulti(tmpdir,name,threshMLBL,threshLG,threshOG):
infile = resource_filename(Requirement.parse("molSimplify"),"tests/inputs/"+name+".in")
newinfile = parse4test(infile,tmpdir,True)
args =['main.py','-i', newinfile]
#Need to make the ligand file visible to the input file
startgen(args,False,False)
myjobdir=jobdir(infile)+"/"
print "Test input file: ", newinfile
print "Test output files are generated in ",myjobdir
refdir = resource_filename(Requirement.parse("molSimplify"),"tests/refs/"+name+"/")
[passMultiFileCheck,myfiles]=checkMultiFileGen(myjobdir,refdir)
pass_structures=[]
if passMultiFileCheck==False:
print "Test failed for checking number and names of generated files. Test ends"
else:
print "Checking each generated structure..."
for f in myfiles:
if ".xyz" in f:
r=f.replace(".xyz",".report")
output_xyz = output_xyz = myjobdir +f
ref_xyz = refdir+f
output_report = myjobdir+r
ref_report = refdir+r
print "Output xyz file: ", output_xyz
print "Reference xyz file: ", ref_xyz
print "Test report file: ", output_report
print "Reference report file: ", ref_report
pass_xyz=compareGeo(output_xyz,ref_xyz,threshMLBL,threshLG,threshOG)
[passNumAtoms,passMLBL,passLG,passOG] = pass_xyz
pass_report = compare_report_new(output_report,ref_report)
pass_structures.append([f,passNumAtoms, passMLBL, passLG, passOG, pass_report])
return [passMultiFileCheck,pass_structures]
def testOptionsAndHashing(self):
r1 = Requirement.parse("Twisted[foo,bar]>=1.2")
r2 = Requirement.parse("Twisted[bar,FOO]>=1.2")
assert r1 == r2
assert r1.extras == ("foo", "bar")
assert r2.extras == ("bar", "foo") # extras are normalized
assert hash(r1) == hash(r2)
assert hash(r1) == hash(("twisted", packaging.specifiers.SpecifierSet(">=1.2"), frozenset(["foo", "bar"])))
def copy_resources_to_log_dir(log_dir):
"""Copies the necessary static assets to the log_dir and returns the path
of the main css file."""
css_path = resource_filename(Requirement.parse("egat"), "/egat/data/default.css")
header_path = resource_filename(Requirement.parse("egat"), "/egat/data/egat_header.png")
shutil.copyfile(css_path, log_dir + "/style.css")
shutil.copyfile(header_path, log_dir + "/egat_header.png")
return log_dir + os.sep + "style.css"
def load_plugins(build_configuration, plugins, working_set):
"""Load named plugins from the current working_set into the supplied build_configuration
"Loading" a plugin here refers to calling registration methods -- it is assumed each plugin
is already on the path and an error will be thrown if it is not. Plugins should define their
entrypoints in the `pantsbuild.plugin` group when configuring their distribution.
Like source backends, the `build_file_aliases`, `global_subsystems` and `register_goals` methods
are called if those entry points are defined.
* Plugins are loaded in the order they are provided. *
This is important as loading can add, remove or replace existing tasks installed by other plugins.
If a plugin needs to assert that another plugin is registered before it, it can define an
entrypoint "load_after" which can return a list of plugins which must have been loaded before it
can be loaded. This does not change the order or what plugins are loaded in any way -- it is
purely an assertion to guard against misconfiguration.
:param BuildConfiguration build_configuration: The BuildConfiguration (for adding aliases).
:param list<str> plugins: A list of plugin names optionally with versions, in requirement format.
eg ['widgetpublish', 'widgetgen==1.2'].
:param WorkingSet working_set: A pkg_resources.WorkingSet to load plugins from.
"""
loaded = {}
for plugin in plugins:
req = Requirement.parse(plugin)
dist = working_set.find(req)
if not dist:
raise PluginNotFound('Could not find plugin: {}'.format(req))
entries = dist.get_entry_map().get('pantsbuild.plugin', {})
if 'load_after' in entries:
deps = entries['load_after'].load()()
for dep_name in deps:
dep = Requirement.parse(dep_name)
if dep.key not in loaded:
raise PluginLoadOrderError('Plugin {0} must be loaded after {1}'.format(plugin, dep))
if 'build_file_aliases' in entries:
aliases = entries['build_file_aliases'].load()()
build_configuration.register_aliases(aliases)
if 'register_goals' in entries:
entries['register_goals'].load()()
if 'global_subsystems' in entries:
subsystems = entries['global_subsystems'].load()()
build_configuration.register_optionables(subsystems)
if 'rules' in entries:
rules = entries['rules'].load()()
build_configuration.register_rules(rules)
loaded[dist.as_requirement().key] = dist
def testSetuptoolsProjectName(self):
"""
The setuptools project should implement the setuptools package.
"""
assert Requirement.parse("setuptools").project_name == "setuptools"
# setuptools 0.7 and higher means setuptools.
assert Requirement.parse("setuptools == 0.7").project_name == "setuptools"
assert Requirement.parse("setuptools == 0.7a1").project_name == "setuptools"
assert Requirement.parse("setuptools >= 0.7").project_name == "setuptools"
def testBasics(self):
r = Requirement.parse("Twisted>=1.2")
self.assertEqual(str(r),"Twisted>=1.2")
self.assertEqual(repr(r),"Requirement.parse('Twisted>=1.2')")
self.assertEqual(r, Requirement("Twisted", [('>=','1.2')], ()))
self.assertEqual(r, Requirement("twisTed", [('>=','1.2')], ()))
self.assertNotEqual(r, Requirement("Twisted", [('>=','2.0')], ()))
self.assertNotEqual(r, Requirement("Zope", [('>=','1.2')], ()))
self.assertNotEqual(r, Requirement("Zope", [('>=','3.0')], ()))
self.assertNotEqual(r, Requirement.parse("Twisted[extras]>=1.2"))
def testBasics(self):
r = Requirement.parse("Twisted>=1.2")
assert str(r) == "Twisted>=1.2"
assert repr(r) == "Requirement.parse('Twisted>=1.2')"
assert r == Requirement("Twisted", [('>=','1.2')], ())
assert r == Requirement("twisTed", [('>=','1.2')], ())
assert r != Requirement("Twisted", [('>=','2.0')], ())
assert r != Requirement("Zope", [('>=','1.2')], ())
assert r != Requirement("Zope", [('>=','3.0')], ())
assert r != Requirement.parse("Twisted[extras]>=1.2")
def test_empty_iteration():
crawler_mock = mock.create_autospec(Crawler, spec_set=True)
crawler_mock.crawl.return_value = []
iterator = Iterator(crawler=crawler_mock)
assert list(iterator.iter(Requirement.parse('foo'))) == []
assert len(crawler_mock.crawl.mock_calls) == 1
_, args, kwargs = crawler_mock.crawl.mock_calls[0]
assert list(args[0]) == list(PyPIFetcher().urls(Requirement.parse('foo')))
assert kwargs == {'follow_links': False}
def test_get_requirements(self):
"""
It is possible to get a list of requirements from a requirements.txt
file.
"""
requirements_path = FilePath(self.mktemp())
requirements_path.setContent("\n".join(["eliot==0.7.0", "Twisted==15.2.0"]))
requirements = get_requirements(requirements_path)
self.assertEqual(requirements, [Requirement.parse("eliot==0.7.0"), Requirement.parse("Twisted==15.2.0")])
def testOptionsAndHashing(self):
r1 = Requirement.parse("Twisted[foo,bar]>=1.2")
r2 = Requirement.parse("Twisted[bar,FOO]>=1.2")
self.assertEqual(r1,r2)
self.assertEqual(r1.extras, ("foo","bar"))
self.assertEqual(r2.extras, ("bar","foo")) # extras are normalized
self.assertEqual(hash(r1), hash(r2))
self.assertEqual(
hash(r1), hash(("twisted", packaging.specifiers.SpecifierSet(">=1.2"),
frozenset(["foo","bar"])))
)
def _setuptools_req(self, req_rhs):
"""Counter distribute's hack that replaces setuptools requirements.
if distribute is not around, this is simply a normal requirement
parsing.
"""
if not DISTRIBUTE:
return Requirement.parse('setuptools' + req_rhs)
req = Requirement.parse('willbesetuptools' + req_rhs)
req.key = req.project_name = 'setuptools'
return req
def test_two_different(self):
requirement_files = [create_tempfile(self, ['1', '2'])]
manual_dependencies = ['vcs::3', 'vcs::4']
d = main.consolidate_dependencies(needs_ipython=False, child_program=None,
requirement_files=requirement_files,
manual_dependencies=manual_dependencies)
self.assertEqual(d, {
'pypi': {Requirement.parse('1'), Requirement.parse('2')},
'vcs': {parsing.VCSDependency('3'), parsing.VCSDependency('4')}
})
def __init__(self, config, logger=None):
self._path = config.get('python-setup', 'interpreter_cache')
setuptools_req = 'setuptools==%s' % config.get('python-setup', 'setuptools_version')
try:
self._setuptools_requirement = Requirement.parse(setuptools_req, replacement=False)
except TypeError:
self._setuptools_requirement = Requirement.parse(setuptools_req)
safe_mkdir(self._path)
self._fetchers = MultiResolver.fetchers(config)
self._crawler = MultiResolver.crawler(config)
self._interpreters = set()
self._logger = logger or (lambda msg: True)
def test_two_same_repo(self):
requirement_files = [create_tempfile(self, ['1', '2'])]
manual_dependencies = ['3', '4']
d = main.consolidate_dependencies(needs_ipython=False, child_program=None,
requirement_files=requirement_files,
manual_dependencies=manual_dependencies)
self.assertDictEqual(d, {
'pypi': {Requirement.parse('1'), Requirement.parse('2'), Requirement.parse('3'),
Requirement.parse('4')}
})
def grab_distrib(req, index=None, dest='.', search_pypi=True):
"""\
Downloads a distribution from the given package index(s) based on the
given requirement string(s). Downloaded distributions are placed in the
specified destination or the current directory if no destination is
specified. If a distribution cannot be found in the given index(s), the
Python Package Index will be searched as a last resort unless
search_pypi is False. This does NOT install the distribution.
"""
# allow multiple package indexes to be specified
if index is None:
index = []
elif isinstance(index, basestring):
index = [index]
# else just assume it's some iterator of indexes
# add PyPI as last place to search if it wasn't already specified
if search_pypi and _pypi not in index and (_pypi+'/') not in index:
index.append(_pypi)
# allow specification of single or multiple requirements
if isinstance(req, basestring):
reqs = [Requirement.parse(req)]
elif isinstance(req, Requirement):
reqs = [req]
else:
reqs = []
for rr in req:
if isinstance(rr, basestring):
reqs.append(Requirement.parse(rr))
elif isinstance(rr, Requirement):
reqs.append(rr)
else:
raise TypeError("supplied requirement arg must be a string"+
" or a Requirement, but given type is %s" %
type(rr))
index_list = [PackageIndex(idx,search_path=[]) for idx in index]
for req in reqs:
fetched = None
for idx in index_list:
_logger.info('Looking for %s at package index %s' % (req, idx.index_url))
fetched = idx.download(req, dest)
if fetched:
_logger.info(' %s successfully downloaded' % fetched)
break
else:
_logger.error("couldn't find distrib for %s" % req)
return fetched
def testVersionEquality(self):
r1 = Requirement.parse("foo==0.3a2")
r2 = Requirement.parse("foo!=0.3a4")
d = Distribution.from_filename
assert d("foo-0.3a4.egg") not in r1
assert d("foo-0.3a1.egg") not in r1
assert d("foo-0.3a4.egg") not in r2
assert d("foo-0.3a2.egg") in r1
assert d("foo-0.3a2.egg") in r2
assert d("foo-0.3a3.egg") in r2
assert d("foo-0.3a5.egg") in r2
def testOptionsAndHashing(self):
r1 = Requirement.parse("Twisted[foo,bar]>=1.2")
r2 = Requirement.parse("Twisted[bar,FOO]>=1.2")
r3 = Requirement.parse("Twisted[BAR,FOO]>=1.2.0")
self.assertEqual(r1,r2)
self.assertEqual(r1,r3)
self.assertEqual(r1.extras, ("foo","bar"))
self.assertEqual(r2.extras, ("bar","foo")) # extras are normalized
self.assertEqual(hash(r1), hash(r2))
self.assertEqual(
hash(r1), hash(("twisted", ((">=",parse_version("1.2")),),
frozenset(["foo","bar"])))
)
def current_week_pdf(self):
"""Lucky numbers for current or next week in pdf format."""
change_hour = 15
numbers = LuckyNumber.current_week(change_hour)
if len(numbers) == 0:
return redirect(url('lucky_week'))
# Register fonts
ubuntu_r = resource_filename(Requirement.parse("SIS"), "resources/Ubuntu-R.ttf")
ubuntu_b = resource_filename(Requirement.parse("SIS"), "resources/Ubuntu-B.ttf")
pdfmetrics.registerFont(TTFont('Ubuntu', ubuntu_r))
pdfmetrics.registerFont(TTFont('Ubuntu Bold', ubuntu_b))
numbers_pdf = StringIO.StringIO()
doc = SimpleDocTemplate(numbers_pdf, pagesize=A4, topMargin=A4[1]*0.26)
doc.author = 'SIS'
doc.title = 'SzczÄÅliwy numerek'
data = []
for number in numbers:
date = number.date.strftime("%d.%m.%y")
data.append(('{0} -'.format(date), str(number.number)))
table = Table(data)
table.setStyle(TableStyle([
('FONT', (0, 0), (0, -1), 'Ubuntu', 80),
('FONT', (1, 0), (1, -1), 'Ubuntu Bold', 80),
]))
def header_and_footer(canvas, document):
canvas.saveState()
size = document.pagesize
center = size[0] / 2
canvas.setFont('Ubuntu', 80)
canvas.drawCentredString(center,
size[1] - document.topMargin / 2, "SZCZÄÅLIWY")
canvas.drawCentredString(center, size[1] - document.topMargin + 20, 'NUMEREK')
canvas.setFont('Ubuntu', 15)
canvas.drawRightString(size[0] - document.rightMargin,
document.bottomMargin - 20, "SamorzÄ
d Uczniowski")
canvas.restoreState()
doc.build([table], onFirstPage=header_and_footer,
onLaterPages=header_and_footer)
response.headers['Content-type'] = 'application/pdf'
return numbers_pdf.getvalue()
def bind_load(userbind, bindcores):
globs = globalvars()
if '~' in userbind:
homedir = os.path.expanduser("~")
userbind = userbind.replace('~', homedir)
emsg = False
bind = mol3D() # initialize binding molecule
bsmi = False # flag for smiles
### check if binding molecule exists in dictionary
if userbind in bindcores.keys():
# load bind mol file (with hydrogens)
# fbind = installdir+'Bind/'+bindcores[userbind][0]
if globs.custom_path:
fbind = globs.custom_path + "/Bind/" + bindcores[userbind][0]
else:
fbind = resource_filename(
Requirement.parse("molSimplify"),
"molSimplify/Bind/" + bindcores[userbind][0])
# check if bind xyz/mol file exists
if not glob.glob(fbind):
emsg = "We can't find the binding species structure file %s right now! Something is amiss. Exiting..\n" % fbind
print emsg
return False, False, emsg
if ('.xyz' in fbind):
bind.OBMol = bind.getOBMol(fbind, 'xyzf')
elif ('.mol' in fbind):
bind.OBMol = bind.getOBMol(fbind, 'molf')
elif ('.smi' in fbind):
bind.OBMol = bind.getOBMol(fbind, 'smif')
bind.charge = bind.OBMol.GetTotalCharge()
### load from file
elif ('.mol' in userbind or '.xyz' in userbind or '.smi' in userbind):
if glob.glob(userbind):
ftype = userbind.split('.')[-1]
# try and catch error if conversion doesn't work
try:
bind.OBMol = bind.getOBMol(userbind,
ftype + 'f') # convert from file
bind.charge = bind.OBMol.GetTotalCharge()
except IOError:
emsg = 'Failed converting file ' + userbind + ' to molecule..Check your file.\n'
return False, emsg
bind.ident = userbind.rsplit('/')[-1]
bind.ident = bind.ident.split('.' + ftype)[0]
else:
emsg = 'Binding species file ' + userbind + ' does not exist. Exiting..\n'
return False, emsg
### if not, try converting from SMILES
else:
# check for transition metals
userbind = checkTMsmiles(userbind)
# try and catch error if conversion doesn't work
try:
bind.OBMol = bind.getOBMol(userbind, 'smi') # convert from smiles
bind.charge = bind.OBMol.GetTotalCharge()
bsmi = True
bind.ident = 'smi'
except IOError:
emsg = "We tried converting the string '%s' to a molecule but it wasn't a valid SMILES string.\n" % userbind
emsg += "Furthermore, we couldn't find the binding species structure: '%s' in the binding species dictionary. Try again!\n" % userbind
print emsg
return False, False, emsg
return bind, bsmi, emsg
def add_requirement(self, r, nodeps=False, parent=None, level=1):
"""Add a new requirement to the depgraph
Requirements for this requirements are automatically added.
Return True unless if this requirement (`r`) is already satisfied
recursively.
Raises PackageNotFound if not distribution found matching r.
"""
if not isinstance(r, Requirement):
r = Requirement.parse(r)
if str(r) in self._added_requirements:
return
self._added_requirements.add(str(r))
LOG.debug('ADDREQ:%s%s, parent=%s' % (' ' * level, r, parent))
name = req_name(r)
ret = False
# Current list of requirements for this package; these requirements all
# must be satisfied.
to_satisfy = [r]
node = self.nodes.get(name, None)
if node:
to_satisfy.extend(sum(self.edges[name].values(), []))
releases = self.get_available_distributions(name)
if not releases:
raise PackageNotFound(r, parent)
# Note: we may have installed packages that is not in the ``releases``
# eg: numpy-2.x maybe installed, yet, the repo (and thus ``releases``)
# may have only 1.5 and 1.4.
satisfying_packages = [
p for p in releases \
if all([p.version in req for req in to_satisfy])]
if not satisfying_packages:
raise PackageNotFound(req2str(*to_satisfy), parent)
p = satisfying_packages[0]
if node:
# This package was already marked for install(ed); should we upgrade
# or downgrade to `p`?
# node_pkg: package currently marked to be installed.
node_pkg = node.pkg1 or node.pkg
assert node_pkg
change = True
if p.version_key == node_pkg.version_key:
# No change in version; skip.
# TEST: 'pypm install --nodeps fabric' followed by
# 'pypm install fabrics' should ideally install the deps now
change = False
elif p.version_key < node_pkg.version_key:
# Downgrade, unless the (possibly latest) installed package
# satisfies all requirements
# TEST:
# numpy-2 is installed, but repo has only 1.5
# 'pypm install matpotlib' should NOT downgrade numpy-2
# TEST:
# 'pypm install numpy<1.999' should downgrade it, though
for req in to_satisfy:
if node_pkg.version not in req:
# So, it doesn't. We must downgrade.
break
else:
# So, let's keep the installed/marked on. The user seems
# to have installed a latest package that is not in the
# configured repo.
change = False
if change:
# downgrade or upgrade
node = self._mark_for_change(name, p, parent, r)
if node.pkg1:
ret = True
# TODO: adjust requirements
rl0 = tuple(node_pkg.get_requirements(r.extras))
rl1 = tuple(node.pkg1.get_requirements(r.extras))
if not nodeps and rl0 != rl1:
msg = ((
'need to implement requirements differing across versions;'
'\n %s-%s [%s]\n -> %s-%s [%s]') %
(name, node_pkg.printable_version,
req2str(*rl0), name,
node.pkg1.printable_version, req2str(*rl1)))
LOG.warn(msg)
else:
# Just mark anyway to process its (missing?) dependencies
self._mark_new_requirement(name, parent, r)
else:
# This package is not marked for install; do it now.
node = self._mark_for_install(name, p, parent, r)
ret = True
if not nodeps:
pkg = node.pkg1 or node.pkg # check requirements even if the package is installed
assert pkg
for r in pkg.get_requirements(r.extras):
ret = any([
ret,
self.add_requirement(r,
nodeps=nodeps,
parent=node and node.name,
level=level + 1)
])
return ret
# -*- coding: latin_1 -*-
# test_charset.py
"""unittest cases for dicom.charset module"""
# Copyright (c) 2008 Darcy Mason
# This file is part of pydicom, released under a modified MIT license.
# See the file license.txt included with this distribution, also
# available at http://pydicom.googlecode.com
import unittest
import dicom
import os.path
from pkg_resources import Requirement, resource_filename
testcharset_dir = resource_filename(Requirement.parse("pydicom"),
"dicom/testcharsetfiles")
latin1_file = os.path.join(testcharset_dir, "chrFren.dcm")
jp_file = os.path.join(testcharset_dir, "chrH31.dcm")
multiPN_file = os.path.join(testcharset_dir, "chrFrenMulti.dcm")
sq_encoding_file = os.path.join(testcharset_dir, "chrSQEncoding.dcm")
test_dir = resource_filename(Requirement.parse("pydicom"), "dicom/testfiles")
normal_file = os.path.join(test_dir, "CT_small.dcm")
class charsetTests(unittest.TestCase):
def testLatin1(self):
"""charset: can read and decode latin_1 file........................"""
ds = dicom.read_file(latin1_file)
ds.decode()
# Make sure don't get unicode encode error on converting to string
# The full license is in the file LICENSE, distributed with this software.
# ----------------------------------------------------------------------------
from pkg_resources import Requirement, resource_filename
import qiime2
from q2_types.feature_data import DNAIterator
import pandas as pd
import skbio
import redbiom.search
import redbiom.summarize
import redbiom.fetch
from q2_american_gut._type import QiitaMetadata
CLASSIFIER = (Requirement.parse('q2_american_gut'),
'q2_american_gut/assets/gg-13-8-99-515-806-nb-classifier.qza')
GG_TREE = (Requirement.parse('q2_american_gut'),
'q2_american_gut/assets/97_otus.tree')
DEBUG_PHY = (Requirement.parse('q2_american_gut'),
'q2_american_gut/assets/reference_phylogeny_tiny.qza')
DEBUG_ALN = (Requirement.parse('q2_american_gut'),
'q2_american_gut/assets/reference_alignment_tiny.qza')
def _determine_context(processing_type, trim_length, instrument='illumina'):
"""Determine the processing context in redbiom to use
Parameters
----------
processing_type : str, {deblur, closed-reference}
def get_module_include_path(self, name):
from pkg_resources import Requirement, resource_filename
return resource_filename(Requirement.parse(name), "%s/include" % name)
def parse_line(cls, line: str) -> 'Requirement':
"""
Parses a Requirement from a non-editable requirement.
See: pip/req.py:from_line()
:param line: a "non-editable" requirement
:returns: a Requirement instance for the given line
:raises: ValueError on an invalid requirement
"""
req = cls(line)
vcs_match: Optional[Match[str]] = VCS_REGEX.match(line)
uri_match: Optional[Match[str]] = URI_REGEX.match(line)
local_match: Optional[Match[str]] = LOCAL_REGEX.match(line)
if vcs_match is not None:
groups = vcs_match.groupdict()
if groups.get('login'):
req.uri = '{scheme}://{login}@{path}'.format(
**groups) # type: ignore
else:
req.uri = '{scheme}://{path}'.format(**groups) # type: ignore
req.revision = groups['revision'] # type: ignore
if groups['fragment']:
fragment = parse_fragment(groups['fragment'])
egg = fragment.get('egg')
req.name, req.extras = parse_extras_require(
egg) # type: ignore
req.hash_name, req.hash = get_hash_info(
fragment) # type: ignore
req.subdirectory = fragment.get('subdirectory') # type: ignore
for vcs in VCS:
if str(req.uri).startswith(vcs):
req.vcs = vcs # type: ignore
elif uri_match is not None:
groups = uri_match.groupdict()
req.uri = '{scheme}://{path}'.format(**groups) # type: ignore
if groups['fragment']:
fragment = parse_fragment(groups['fragment'])
egg = fragment.get('egg')
req.name, req.extras = parse_extras_require(
egg) # type: ignore
req.hash_name, req.hash = get_hash_info(
fragment) # type: ignore
req.subdirectory = fragment.get('subdirectory') # type: ignore
if groups['scheme'] == 'file':
req.local_file = True
elif '#egg=' in line:
# Assume a local file match
assert local_match is not None, 'This should match everything'
groups = local_match.groupdict()
req.local_file = True
if groups['fragment']:
fragment = parse_fragment(groups['fragment'])
egg = fragment.get('egg')
name, extras = parse_extras_require(egg)
req.name = fragment.get('egg') # type: ignore
req.hash_name, req.hash = get_hash_info(
fragment) # type: ignore
req.subdirectory = fragment.get('subdirectory') # type: ignore
req.path = groups['path'] # type: ignore
else:
# This is a requirement specifier.
# Delegate to pkg_resources and hope for the best
req.specifier = True
pkg_req = Req.parse(line)
req.name = pkg_req.unsafe_name # type: ignore
req.extras = list(pkg_req.extras)
req.specs = pkg_req.specs # type: ignore
return req
# FMSPy - Copyright (c) 2009 Andrey Smirnov.
#
# See COPYRIGHT for details.
"""
Configuration file handling.
"""
import ConfigParser
config = ConfigParser.SafeConfigParser()
config_files = []
try:
from pkg_resources import Requirement, resource_filename, DistributionNotFound
try:
config_files.append(
resource_filename(Requirement.parse("fmspy"), "etc/fmspy.cfg"))
except DistributionNotFound:
pass
except ImportError:
pass
config_files.extend(
['/etc/fmspy.cfg', '/usr/local/etc/fmspy.cfg', 'fmspy.cfg'])
config.read(config_files)
def main(args=None):
if args is None:
args = sys.argv[1:]
parser = OptionParser()
parser.add_option(
"--dev",
action="store_true",
dest='dev',
help=
"if present, a development script will be generated instead of a release script"
)
parser.add_option("--dest",
action="store",
type="string",
dest='dest',
help="specify destination directory",
default='.')
parser.add_option(
"-f",
"--findlinks",
action="store",
type="string",
dest="findlinks",
default='http://openmdao.org/dists',
help=
"default URL where openmdao packages and dependencies are searched for first (before PyPI)"
)
(options, args) = parser.parse_args(args)
if len(args) > 0:
print 'unrecognized args: %s' % args
parser.print_help()
sys.exit(-1)
if options.dev:
openmdao_packages.extend(openmdao_dev_packages)
sout = StringIO.StringIO()
pprint.pprint(openmdao_packages, sout)
pkgstr = sout.getvalue()
make_dev_eggs = """
# now install dev eggs for all of the openmdao packages
topdir = os.path.abspath(os.path.dirname(__file__))
startdir = os.getcwd()
absbin = os.path.abspath(bin_dir)
openmdao_packages = %s
try:
for pkg, pdir, _ in openmdao_packages:
if options.nogui and pkg == 'openmdao.gui':
continue
os.chdir(join(topdir, pdir, pkg))
cmdline = [join(absbin, 'python'), 'setup.py',
'develop', '-N'] + cmds
try:
call_subprocess(cmdline, show_stdout=True, raise_on_returncode=True)
except OSError:
failures.append(pkg)
finally:
os.chdir(startdir)
""" % pkgstr
else: # making a release installer
make_dev_eggs = ''
script_str = """
openmdao_prereqs = %(openmdao_prereqs)s
def extend_parser(parser):
parser.add_option("-r","--req", action="append", type="string", dest='reqs',
help="specify additional required distributions", default=[])
parser.add_option("--noprereqs", action="store_true", dest='noprereqs',
help="don't check for any prerequisites, e.g., numpy or scipy")
parser.add_option("--nogui", action="store_true", dest='nogui',
help="don't install the openmdao graphical user interface or its dependencies")
parser.add_option("-f", "--findlinks", action="store", type="string",
dest="findlinks",
help="default URL where openmdao packages and dependencies are searched for first (before PyPI)")
parser.add_option("--testurl", action="store", type="string", dest='testurl',
help="specify url where openmdao.* distribs are located (used for release testing only)")
# hack to force use of setuptools for now because using 'distribute' causes issues
os.environ['VIRTUALENV_USE_SETUPTOOLS'] = '1'
%(adjust_options)s
def _single_install(cmds, req, bin_dir, failures, dodeps=False):
global logger
if dodeps:
extarg = '-Z'
else:
extarg = '-NZ'
cmdline = [join(bin_dir, 'easy_install'), extarg] + cmds + [req]
# pip seems more robust than easy_install, but won't install binary distribs :(
#cmdline = [join(bin_dir, 'pip'), 'install'] + cmds + [req]
#logger.debug("running command: %%s" %% ' '.join(cmdline))
try:
call_subprocess(cmdline, show_stdout=True, raise_on_returncode=True)
except OSError:
failures.append(req)
def after_install(options, home_dir):
global logger, openmdao_prereqs
reqs = %(reqs)s
guireqs = %(guireqs)s
if options.findlinks is None:
url = '%(url)s'
else:
url = options.findlinks
# for testing we allow one to specify a url where the openmdao
# package dists are located that may be different from the main
# url where the dependencies are located. We do this because
# setuptools only allows us to specify a single -f parameter,
# which would force us to mirror the entire openmdao distribution
# directory in order to test our releases because setuptools will
# barf if it can't find everything in the same location (or on PyPI).
# TODO: get rid of this after we quit using setuptools.
if options.testurl:
openmdao_url = options.testurl
else:
openmdao_url = url
etc = join(home_dir, 'etc')
if sys.platform == 'win32':
lib_dir = join(home_dir, 'Lib')
bin_dir = join(home_dir, 'Scripts')
else:
lib_dir = join(home_dir, 'lib', py_version)
bin_dir = join(home_dir, 'bin')
if not os.path.exists(etc):
os.makedirs(etc)
failed_imports = []
for pkg in openmdao_prereqs:
try:
__import__(pkg)
except ImportError:
failed_imports.append(pkg)
if failed_imports:
if options.noprereqs:
logger.warn("\\n**** The following prerequisites could not be imported: %%s." %% failed_imports)
logger.warn("**** As a result, some OpenMDAO components will not work.")
else:
logger.error("ERROR: the following prerequisites could not be imported: %%s." %% failed_imports)
logger.error("These must be installed in the system level python before installing OpenMDAO.")
logger.error("To run a limited version of OpenMDAO without the prerequisites, try 'python %%s --noprereqs'" %% __file__)
sys.exit(-1)
cmds = ['-f', url]
openmdao_cmds = ['-f', openmdao_url]
try:
allreqs = reqs[:]
failures = []
if not options.nogui:
allreqs = allreqs + guireqs
for req in allreqs:
if req.startswith('openmdao.'):
_single_install(openmdao_cmds, req, bin_dir, failures)
else:
_single_install(cmds, req, bin_dir, failures)
%(make_dev_eggs)s
# add any additional packages specified on the command line
for req in options.reqs:
_single_install(cmds, req, bin_dir, failures, dodeps=True)
except Exception as err:
logger.error("ERROR: build failed: %%s" %% str(err))
sys.exit(-1)
abshome = os.path.abspath(home_dir)
if failures:
failmsg = ' (with failures).'
failures.sort()
print '\\n\\n***** The following packages failed to install: %%s.' %% failures
else:
failmsg = '.'
print '\\n\\nThe OpenMDAO virtual environment has been installed in\\n %%s%%s' %% (abshome, failmsg)
print '\\nFrom %%s, type:\\n' %% abshome
if sys.platform == 'win32':
print r'Scripts\\activate'
else:
print '. bin/activate'
print "\\nto activate your environment and start using OpenMDAO."
sys.exit(1 if failures else 0)
"""
reqs = set()
guireqs = set()
version = '?.?.?'
excludes = set(['setuptools', 'distribute', 'SetupDocs'] +
openmdao_prereqs)
dists = working_set.resolve([
Requirement.parse(r[0]) for r in openmdao_packages
if r[0] != 'openmdao.gui'
])
distnames = set([d.project_name for d in dists]) - excludes
gui_dists = working_set.resolve([Requirement.parse('openmdao.gui')])
guinames = set([d.project_name for d in gui_dists]) - distnames - excludes
try:
setupdoc_dist = working_set.resolve([Requirement.parse('setupdocs')
])[0]
except:
setupdoc_dist = None
for dist in dists:
if dist.project_name not in distnames:
continue
if dist.project_name == 'openmdao.main':
version = dist.version
if options.dev: # in a dev build, exclude openmdao stuff because we'll make them 'develop' eggs
if not dist.project_name.startswith('openmdao.'):
reqs.add('%s' % dist.as_requirement())
else:
reqs.add('%s' % dist.as_requirement())
for dist in gui_dists:
if dist.project_name not in guinames:
continue
if options.dev: # in a dev build, exclude openmdao stuff because we'll make them 'develop' eggs
if not dist.project_name.startswith('openmdao.'):
guireqs.add('%s' % dist.as_requirement())
else:
guireqs.add('%s' % dist.as_requirement())
# adding setupdocs req is a workaround to prevent Traits from looking elsewhere for it
if setupdoc_dist:
_reqs = [str(setupdoc_dist.as_requirement())]
else:
_reqs = ['setupdocs>=1.0']
reqs = _reqs + list(reqs)
guireqs = list(guireqs)
optdict = {
'reqs': reqs,
'guireqs': guireqs,
'version': version,
'url': options.findlinks,
'make_dev_eggs': make_dev_eggs,
'adjust_options': _get_adjust_options(options, version),
'openmdao_prereqs': openmdao_prereqs,
}
dest = os.path.abspath(options.dest)
if options.dev:
scriptname = os.path.join(dest, 'go-openmdao-dev.py')
else:
scriptname = os.path.join(dest, 'go-openmdao-%s.py' % version)
with open(scriptname, 'wb') as f:
f.write(virtualenv.create_bootstrap_script(script_str % optdict))
os.chmod(scriptname, 0755)
from pkg_resources import Requirement, resource_filename
import sys
import json
import logging
config_file = resource_filename(Requirement.parse("NetWrok-Server"),
"netwrok/data/netwrok_default.ini")
config = {}
with open(config_file, "r") as f:
config.update(json.load(f))
if len(sys.argv) > 1:
config_file = sys.argv[1]
with open(config_file, "r") as f:
config.update(json.load(f))
loglevel = getattr(logging, config["SERVER"]["LOG_LEVEL"].upper())
logging.basicConfig(filename=config["SERVER"]["LOG_PATH"], level=loglevel)
logging.info("NetWrok Started")
import pytest
import argparse
import os
import openbabel as ob
import numpy as np
from molSimplify.Scripts.inparse import *
from molSimplify.Scripts.generator import *
from molSimplify.Classes.globalvars import *
from molSimplify.Classes.mol3D import mol3D
from molSimplify.Classes.mol3D import distance
from molSimplify.Classes.atom3D import atom3D
from pkg_resources import resource_filename, Requirement
infile = resource_filename(Requirement.parse("molSimplify"),
"tests/inputs/example_1_noff.in")
args = ['main.py', '-i', infile]
startgen(args, False, False)
infile = resource_filename(Requirement.parse("molSimplify"),
"tests/inputs/example_1.in")
args = ['main.py', '-i', infile]
startgen(args, False, False)
# ts test
infile = resource_filename(Requirement.parse("molSimplify"),
"tests/inputs/example_9.in")
args = ['main.py', '-i', infile]
startgen(args, False, False)
def find_resource(project, resource_path, alt_path=None, return_path=False):
""" Returns a file object or file path pointing to the desired resource.
Parameters
----------
project : str
The name of the project to look for the resource in. Can be the name or
a requirement string. Ex: 'MyProject', 'MyProject>1.0', 'MyProject==1.1'
resource_path : str
The path to the file from inside the package. If the file desired is
MyProject/data/image.jpg, resource_path would be 'data/image.jpg'.
alt_path : str
The path to the resource relative to the location of the application's
top-level script (the one with __main__). If this function is called in
code/scripts/myscript.py and the resource is code/data/image.jpg, the
alt_path would be '../data/image.jpg'. This path is only used if the
resource cannot be found using setuptools.
return_path : bool
Determines whether the function should return a file object or a full
path to the resource.
Returns
-------
file : file object or file path
A file object containing the resource. If return_path is True, 'file'
will be the full path to the resource. If the file is not found or
cannot be opened, None is returned.
Description
-----------
This function will find a desired resource file and return an opened file
object. The main method of finding the resource uses the pkg_resources
resource_stream method, which searches your working set for the installed
project specified and appends the resource_path given to the project
path, leading it to the file. If setuptools is not installed or it cannot
find/open the resource, find_resource will use the sys.path[0] to find the
resource if alt_path is defined.
"""
try:
# Get the image using the pkg_resources resource_stream module, which
# will find the file by getting the Chaco install path and appending the
# image path. This method works in all cases as long as setuptools is
# installed. If setuptools isn't installed, the backup sys.path[0]
# method is used.
from pkg_resources import resource_stream, working_set, Requirement
# Get a requirement for the project
requirement = Requirement.parse(project)
if return_path:
dist = working_set.find(requirement)
full_path = os.path.join(dist.location, resource_path)
# If the path exists, return it
if os.path.exists(full_path):
return full_path
else:
raise
else:
return resource_stream(requirement, resource_path)
except:
# Setuptools was either not installed, or it failed to find the file.
# First check to see if the package was installed using egginst by
# looking for the file at: site-packages\\resouce_path
full_path = os.path.join(get_python_lib(), resource_path)
if os.path.exists(full_path):
if return_path:
return full_path
else:
return open(full_path, 'rb')
# Get the image using sys.path[0], which is the directory that the
# running script lives in. The path to the file is then constructed by
# navigating from the script's location. This method only works if this
# script is called directly from the command line using
# 'python %SOMEPATH%/<script>'
if alt_path is None:
return
if return_path:
return os.path.join(sys.path[0], alt_path)
# Try to open the file, return None on exception
try:
return open(os.path.join(sys.path[0], alt_path), 'rb')
except:
return
class PythonInterpreter(object):
REGEXEN = (
re.compile(r'jython$'),
re.compile(r'python$'),
re.compile(r'python[23].[0-9]$'),
re.compile(r'pypy$'),
re.compile(r'pypy-1.[0-9]$'),
)
CACHE = {} # memoize executable => PythonInterpreter
try:
# Versions of distribute prior to the setuptools merge would automatically replace
# 'setuptools' requirements with 'distribute'. It provided the 'replacement' kwarg
# to toggle this, but it was removed post-merge.
COMPATIBLE_SETUPTOOLS = Requirement.parse('setuptools>=1.0',
replacement=False)
except TypeError:
COMPATIBLE_SETUPTOOLS = Requirement.parse('setuptools>=1.0')
class Error(Exception):
pass
class IdentificationError(Error):
pass
class InterpreterNotFound(Error):
pass
@classmethod
def get(cls):
return cls.from_binary(sys.executable)
@classmethod
def all(cls, paths=None):
if paths is None:
paths = os.getenv('PATH', '').split(':')
return cls.filter(cls.find(paths))
@classmethod
def _parse_extras(cls, output_lines):
def iter_lines():
for line in output_lines:
try:
dist_name, dist_version, location = line.split()
except ValueError:
raise cls.IdentificationError(
'Could not identify requirement: %s' % line)
yield ((dist_name, dist_version), location)
return dict(iter_lines())
@classmethod
def _from_binary_internal(cls, path_extras):
def iter_extras():
for item in sys.path + list(path_extras):
for dist in find_distributions(item):
if dist.version:
yield ((dist.key, dist.version), dist.location)
return cls(sys.executable, PythonIdentity.get(), dict(iter_extras()))
@classmethod
def _from_binary_external(cls, binary, path_extras):
environ = cls.sanitized_environment()
environ['PYTHONPATH'] = ':'.join(path_extras)
po = subprocess.Popen([binary],
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
env=environ)
so, _ = po.communicate(ID_PY)
output = so.decode('utf8').splitlines()
if len(output) == 0:
raise cls.IdentificationError(
'Could not establish identity of %s' % binary)
identity, extras = output[0], output[1:]
return cls(binary,
PythonIdentity.from_id_string(identity),
extras=cls._parse_extras(extras))
@classmethod
def expand_path(cls, path):
if os.path.isfile(path):
return [path]
elif os.path.isdir(path):
return [os.path.join(path, fn) for fn in os.listdir(path)]
return []
@classmethod
def from_env(cls, hashbang):
"""Resolve a PythonInterpreter as /usr/bin/env would.
:param hashbang: A string, e.g. "python3.3" representing some binary on the $PATH.
"""
paths = os.getenv('PATH', '').split(':')
for path in paths:
for fn in cls.expand_path(path):
basefile = os.path.basename(fn)
if hashbang == basefile:
try:
return cls.from_binary(fn)
except Exception as e:
TRACER.log('Could not identify %s: %s' % (fn, e))
@classmethod
def from_binary(cls, binary, path_extras=None):
path_extras = path_extras or ()
if binary not in cls.CACHE:
if binary == sys.executable:
cls.CACHE[binary] = cls._from_binary_internal(path_extras)
else:
cls.CACHE[binary] = cls._from_binary_external(
binary, path_extras)
return cls.CACHE[binary]
@classmethod
def find(cls, paths):
"""
Given a list of files or directories, try to detect python interpreters amongst them.
Returns a list of PythonInterpreter objects.
"""
pythons = []
for path in paths:
for fn in cls.expand_path(path):
basefile = os.path.basename(fn)
if any(
matcher.match(basefile) is not None
for matcher in cls.REGEXEN):
try:
pythons.append(cls.from_binary(fn))
except Exception as e:
TRACER.log('Could not identify %s: %s' % (fn, e))
continue
return pythons
@classmethod
def filter(cls, pythons):
"""
Given a map of python interpreters in the format provided by PythonInterpreter.find(),
filter out duplicate versions and versions we would prefer not to use.
Returns a map in the same format as find.
"""
good = []
MAJOR, MINOR, SUBMINOR = range(3)
def version_filter(version):
return (version[MAJOR] == 2 and version[MINOR] >= 6
or version[MAJOR] == 3 and version[MINOR] >= 2)
all_versions = set(interpreter.identity.version
for interpreter in pythons)
good_versions = filter(version_filter, all_versions)
for version in good_versions:
# For each candidate, use the latest version we find on the filesystem.
candidates = defaultdict(list)
for interp in pythons:
if interp.identity.version == version:
candidates[interp.identity.interpreter].append(interp)
for interp_class in candidates:
candidates[interp_class].sort(
key=lambda interp: os.path.getmtime(interp.binary),
reverse=True)
good.append(candidates[interp_class].pop(0))
return good
@classmethod
def sanitized_environment(cls):
# N.B. This is merely a hack because sysconfig.py on the default OS X
# installation of 2.6/2.7 breaks.
env_copy = os.environ.copy()
env_copy.pop('MACOSX_DEPLOYMENT_TARGET', None)
return env_copy
@classmethod
def replace(cls, requirement):
self = cls.get()
if self.identity.matches(requirement):
return False
for pi in cls.all():
if pi.identity.matches(requirement):
break
else:
raise cls.InterpreterNotFound(
'Could not find interpreter matching filter!')
os.execve(pi.binary, [pi.binary] + sys.argv,
cls.sanitized_environment())
def __init__(self, binary, identity, extras=None):
"""Construct a PythonInterpreter.
You should probably PythonInterpreter.from_binary instead.
:param binary: The full path of the python binary.
:param identity: The :class:`PythonIdentity` of the PythonInterpreter.
:param extras: A mapping from (dist.key, dist.version) to dist.location
of the extras associated with this interpreter.
"""
self._binary = os.path.realpath(binary)
self._binary_stat = os.stat(self._binary)
self._extras = extras or {}
self._identity = identity
def with_extra(self, key, version, location):
extras = self._extras.copy()
extras[(key, version)] = location
return self.__class__(self._binary, self._identity, extras)
@property
def extras(self):
return self._extras.copy()
@property
def binary(self):
return self._binary
@property
def identity(self):
return self._identity
@property
def python(self):
return self._identity.python
@property
def version(self):
return self._identity.version
@property
def version_string(self):
return str(self._identity)
def satisfies(self, capability):
if not isinstance(capability, PythonCapability):
raise TypeError('Capability must be a PythonCapability, got %s' %
type(capability))
return not any(self.get_location(req) is None for req in capability)
def get_location(self, req):
req = maybe_requirement(req)
for dist, location in self.extras.items():
dist_name, dist_version = dist
if req.key == dist_name and dist_version in req:
return location
def __hash__(self):
return hash(self._binary_stat)
def __eq__(self, other):
if not isinstance(other, PythonInterpreter):
return False
return self._binary_stat == other._binary_stat
def __lt__(self, other):
if not isinstance(other, PythonInterpreter):
return False
return self.version < other.version
def __repr__(self):
return '%s(%r, %r, %r)' % (self.__class__.__name__, self._binary,
self._identity, self._extras)
def parse_requirement_arg(spec):
try:
return Requirement.parse(spec)
except ValueError:
raise DistutilsError(
"Not a URL, existing file, or requirement spec: %r" % (spec, ))
# variable SAGE_DOC_MATHJAX is set to "no" or "False". (Note that if
# the user does not set this variable, then the script sage-env sets
# it to "True".)
if (os.environ.get('SAGE_DOC_MATHJAX', 'no') != 'no'
and os.environ.get('SAGE_DOC_MATHJAX', 'no') != 'False'):
extensions.append('sphinx.ext.mathjax')
mathjax_path = 'MathJax.js?config=TeX-AMS_HTML-full,../mathjax_sage.js'
from sage.misc.latex_macros import sage_mathjax_macros
# this is broken for now
# html_theme_options['mathjax_macros'] = sage_mathjax_macros()
from pkg_resources import Requirement, working_set
sagenb_path = working_set.find(Requirement.parse('sagenb')).location
mathjax_relative = os.path.join('sagenb', 'data', 'mathjax')
# It would be really nice if sphinx would copy the entire mathjax directory,
# (so we could have a _static/mathjax directory), rather than the contents of the directory
mathjax_static = os.path.join(sagenb_path, mathjax_relative)
html_static_path.append(mathjax_static)
exclude_patterns = [
'**/' + os.path.join(mathjax_relative, i)
for i in ('docs', 'README*', 'test', 'unpacked', 'LICENSE')
]
else:
extensions.append('sphinx.ext.pngmath')
# This is to make the verbatim font smaller;
def _pkg_sphinx_info(startdir, pkg, outfile, show_undoc=False, underline='-'):
"""Generate Sphinx autodoc directives for all of the modules in
the given package.
"""
# locate the package directory
topdir = pkg
pkgdir = pkg
dist = working_set.find(Requirement.parse(pkg))
if dist is None:
logging.error('no dist found for Requirement(%s)' % pkg)
print >> outfile, 'Package %s' % pkg
print >> outfile, underline * (len('Package ') + len(pkg))
print >> outfile, '\n\n'
# this behaves strangely, maybe because we use namespace pkgs?
# mod points to module 'openmdao', not 'openmdao.whatever', so we
# have to access 'whatever' through the 'openmdao' module
mod = __import__(pkg)
docs = getattr(mod, pkg.split('.')[1]).__doc__
if docs:
print >> outfile, docs, '\n'
#excluding traits now since they need to be sorted separately
_names = list(
_get_resource_files(dist, [
'*__init__.py', '*setup.py', '*datatypes*.py', '*/gui/*/views.py',
'*/gui/*/models.py', '*/gui/manage.py', '*/gui/urls.py',
'*/gui/*/urls.py', '*/gui/projdb/admin.py'
], ['*.py']))
names = []
for n in _names:
parts = n.split('/')
if parts[0] == 'openmdao' and parts[1] == 'test':
if len(parts) > 2 and parts[2] != 'plugins':
names.append(n)
elif 'test' not in parts:
names.append(n)
names.sort()
#wanted to sort traits separately based only on filenames despite differing paths
traitz = list(
_get_resource_files(dist, ['*__init__.py', '*setup.py', '*/test/*.py'],
['*datatypes*.py']))
sorted_traitz = sorted(traitz, cmp=_compare_traits_path)
names.extend(sorted_traitz)
exdirs = ['build', 'examples']
oldheader = None
newheader = None
for name in names:
if os.path.basename(name) == 'releaseinfo.py':
continue
for ex in exdirs:
if name.startswith('%s/' % ex) or '/%s/' % ex in name:
break
else:
x = name.split('/')
#kind of dirty, but the other sections don't need api header.
if os.path.basename(name) == 'api.py' and x[1] == 'lib':
newheader = 'api'
if len(x) >= 4:
newheader = x[2]
if (oldheader != newheader):
print >> outfile, '**%s**' % newheader.upper()
print >> outfile, '_' * (4 + len(newheader)) + '\n'
oldheader = newheader
_mod_sphinx_info(name, outfile, show_undoc=show_undoc)
def _find_pycuda_include_path():
from pkg_resources import Requirement, resource_filename
return resource_filename(Requirement.parse("pycuda"), "pycuda/cuda")
def get_examples_paths():
"""Generator of possible paths for examples."""
yield os.path.join(os.path.dirname(os.path.dirname(__file__)),
"examples")
yield resource_filename(Requirement.parse("weblate"), "examples")
def mkpseudo(argv=None):
"""A command line script (mkpseudo) points to this. It generates a
source distribution package that's empty aside from
having a number of dependencies on other packages.
usage: ``make_pseudopkg <pkg_name> <version> [-d <dest_dir>] [-l <links_url>] [-r req1] ... [-r req_n]``
If ``pkg_name`` contains dots, a namespace package will be built.
Required dependencies are specified using the same notation used by
``setuptools/easy_install/distribute/pip``.
.. note:: If your required dependencies use the "<" or ">" characters, you must put the
entire requirement in quotes to avoid misinterpretation by the shell.
"""
if argv is None:
argv = sys.argv[1:]
parser = OptionParser()
parser.usage = "mkpseudo <name> <version> [options]"
parser.add_option("-d", "--dest", action="store", type="string", dest='dest', default='.',
help="directory where distribution will be created (optional)")
parser.add_option("-l", "--link", action="append", type="string", dest='deplinks', default=[],
help="URLs to search for dependencies (optional)")
parser.add_option("-r", "--req", action="append", type="string", dest='reqs', default=[],
help="requirement strings for dependent distributions (one or more)")
parser.add_option("", "--dist", action="store_true", dest="dist",
help="make a source distribution after creating the directory structure")
(options, args) = parser.parse_args(argv)
if len(args) != 2:
parser.print_help()
sys.exit(-1)
name = args[0]
names = name.split('.')
version = args[1]
for i, url in enumerate(options.deplinks):
if not url.startswith('http:') and not url.startswith('https:'):
options.deplinks[i] = "http://%s" % url
dest = os.path.abspath(os.path.expandvars(os.path.expanduser(options.dest)))
if len(options.reqs) == 0 and options.dist:
print "No dependencies have been specified, so the distribution will not be built"
options.dist = False
nspkgs = []
for i, nm in enumerate(names[:-1]):
nspkgs.append('.'.join(names[:i + 1]))
dists = working_set.resolve([Requirement.parse(r) for r in options.reqs])
dset = set([("%s" % d).replace(' ', '==') for d in dists])
setup_options = {
'requires': list(dset),
'name': name,
'version': version,
'deplinks': options.deplinks,
'nspkgs': nspkgs,
}
startdir = os.getcwd()
if options.dist:
tdir = tempfile.mkdtemp()
else:
tdir = dest
try:
os.chdir(tdir)
rnames = names[::-1]
for i, ns in enumerate(rnames):
if i == 0:
dct = {'__init__.py': ''}
else:
dct = {
'__init__.py': _ns_template,
rnames[i - 1]: dct,
}
dct = {names[0]: dct}
dirstruct = {
name: {
'setup.py': _setup_py_template % setup_options,
'src': dct,
},
}
if not options.dist:
if os.path.exists(name):
print "'%s' already exists. aborting..." % name
sys.exit(-1)
build_directory(dirstruct)
os.chdir(name)
if options.dist:
tarname = os.path.join(dest, "%s-%s.tar.gz" % (name, version))
zipname = os.path.join(dest, "%s-%s.zip" % (name, version))
for fname in [tarname, zipname]:
if os.path.exists(fname):
print "%s already exists" % fname
sys.exit(-1)
cmd = [sys.executable, 'setup.py', 'sdist', '-d', dest]
subprocess.check_call(cmd)
finally:
os.chdir(startdir)
if options.dist:
shutil.rmtree(tdir, onerror=onerror)
def get_resource(path):
return resource_filename(Requirement.parse('bbctrl'), 'bbctrl/' + path)
def datastream(name):
from pkg_resources import Requirement, resource_stream
return resource_stream(Requirement.parse('bibtools'), 'bibtools/' + name)
def validate(self):
"""Check for required packages are installed."""
# RPM dependency
rpm_deps = {"cortx-sspl-test": None}
# python 3rd party package dependency
pip3_packages_dep = {"Flask": "1.1.1", "coverage": "5.5"}
if not self.coverage_enabled:
pip3_packages_dep.pop("coverage")
# Validate pip3 python pkg with required version.
for pkg, version in pip3_packages_dep.items():
installed_pkg = None
uninstalled_pkg = False
try:
pkg_req = Requirement.parse(f"{pkg}=={version}")
installed_pkg = working_set.find(pkg_req)
except VersionConflict:
cmd = f'pip3 uninstall -y {pkg}'
_, err, ret = SimpleProcess(cmd).run()
if ret:
raise TestException(
"Failed to uninstall the pip3 pkg: %s(v%s), "
"due to an Error: %s" % (pkg, version, err))
uninstalled_pkg = True
except Exception as err:
raise TestException("Failed at verification of pip3 pkg: %s, "
"due to an Error: %s" % (pkg, err))
if not installed_pkg or uninstalled_pkg:
cmd = f'pip3 install {pkg}=={version}'
_, err, ret = SimpleProcess(cmd).run()
if ret:
raise TestException(
"Failed to install the pip3 pkg: %s(v%s), "
"due to an Error: %s" % (pkg, version, err))
logger.info(f"Ensured Package Dependency: {pkg}(v{version}).")
# Validate rpm dependencies
pkg_validator = PkgV()
pkg_validator.validate_rpm_pkgs(host=socket.getfqdn(),
pkgs=rpm_deps,
skip_version_check=True)
# Load global, sspl and test configs
Conf.load(SSPL_CONFIG_INDEX, sspl_config_path)
Conf.load(SSPL_TEST_CONFIG_INDEX, sspl_test_config_path)
# Take copy of supplied config passed to sspl_test and load it
with open(self.sspl_test_gc_copy_file, "w") as f:
f.write("")
self.sspl_test_gc_copy_url = "yaml://%s" % self.sspl_test_gc_copy_file
Conf.load(SSPL_TEST_GLOBAL_CONFIG, self.sspl_test_gc_copy_url)
Conf.load("global_config", self.sspl_test_gc_url)
Conf.copy("global_config", SSPL_TEST_GLOBAL_CONFIG)
# Validate input configs
machine_id = Utility.get_machine_id()
self.node_type = Conf.get(SSPL_TEST_GLOBAL_CONFIG,
"server_node>%s>type" % machine_id)
enclosure_id = Conf.get(
SSPL_TEST_GLOBAL_CONFIG,
"server_node>%s>storage>enclosure_id" % machine_id)
self.enclosure_type = Conf.get(
SSPL_TEST_GLOBAL_CONFIG,
"storage_enclosure>%s>type" % enclosure_id)
def build_docs_and_install(owner, name, version, findlinks): # pragma no cover
tdir = tempfile.mkdtemp()
startdir = os.getcwd()
os.chdir(tdir)
try:
tarpath = download_github_tar(owner, name, version)
# extract the repo tar file
tar = tarfile.open(tarpath)
tar.extractall()
tar.close()
files = os.listdir('.')
files.remove(os.path.basename(tarpath))
if len(files) != 1:
raise RuntimeError("after untarring, found multiple directories: %s"
% files)
os.chdir(files[0]) # should be in distrib directory now
cfg = SafeConfigParser(dict_type=OrderedDict)
try:
cfg.readfp(open('setup.cfg', 'r'), 'setup.cfg')
except IOError as io_error:
raise IOError, \
"OpenMDAO plugins must have a setup.cfg: {}".format(io_error), \
sys.exc_info()[2]
try:
reqs = cfg.get('metadata', 'requires-dist').strip()
reqs = reqs.replace(',', ' ')
reqs = [n.strip() for n in reqs.split()]
try:
flinks = cfg.get('easy_install', 'find_links').strip()
flinks = flinks.split('\n')
flinks = [n.strip() for n in flinks]
flinks.append(findlinks)
findlinks = ' '.join(flinks)
except (NoSectionError, NoOptionError):
pass
except NoOptionError:
# couldn't find requires-dist in setup.cfg, so
# create an sdist so we can query metadata for distrib dependencies
tarname = _bld_sdist_and_install(deps=False)
# now find any dependencies
metadict = get_metadata(tarname)
reqs = metadict.get('requires', [])
# install dependencies (some may be needed by sphinx)
ws = WorkingSet()
for r in reqs:
print "Installing dependency '%s'" % r
req = Requirement.parse(r)
dist = ws.find(req)
if dist is None:
try:
check_call(['easy_install', '-Z', '-f', findlinks, r])
except Exception:
traceback.print_exc()
# build sphinx docs
check_call(['plugin', 'build_docs', files[0]])
# make a new sdist with docs in it and install it
tarname = _bld_sdist_and_install()
finally:
os.chdir(startdir)
shutil.rmtree(tdir, ignore_errors=True)
def parse_extras(extras_str):
"""Turn a string of extras into a parsed extras list"""
extras = Requirement.parse("fakepkg{0}".format(
extras_to_string(extras_str))).extras
return sorted(dedup([extra.lower() for extra in extras]))
'transformer', 'workflow', 'xpathProcessor',
'textmining.tmNormalizer', 'textmining.tmDocumentFactory',
'textmining.tmPreParser', 'textmining.tmTransformer',
'datamining.dmPreParser', 'datamining.dmTransformer',
'grid.srbIndex', 'grid.srbStore']
_major_version = 1
_minor_version = 1
_patch_version = 8
cheshire3Version = (_major_version, _minor_version, _patch_version)
cheshireVersion = cheshire3Version # Included for backward compatibility
# Find Cheshire3 environment
try:
cheshire3Home = resource_filename(Requirement.parse('cheshire3'), '')
except:
# Cheshire3 not yet installed; maybe in a source distro/repo checkout
# Assume local directory
cheshire3Home = '.'
# Allow cheshire3Home to be over-ridden by environmental variable
# e.g. for source code distro/repo checkout
cheshire3Home = os.environ.get('C3HOME', cheshire3Home)
cheshire3Root = os.path.join(cheshire3Home, "cheshire3")
cheshire3Code = os.path.join(cheshire3Root)
cheshire3Dbs = os.path.join(cheshire3Home, "dbs")
cheshire3Www = os.path.join(cheshire3Home, "www")
CONFIG_NS = "http://www.cheshire3.org/schemas/config/"
def plugin_defs():
globs = globalvars()
plugin_path = resource_filename(Requirement.parse("molSimplify"),
"molSimplify/plugindefines_reference.txt")
return plugin_path
def _failsafe_parse(self, requirement):
try:
return Requirement.parse(requirement, replacement=False)
except TypeError:
return Requirement.parse(requirement)
def lig_load(userligand, licores=None):
if licores == None:
licores = getlicores()
#@licores.pop("x", None)
globs = globalvars()
### get groups ###
groups = []
for entry in licores:
groups += licores[entry][3]
groups = sorted(list(set(groups)))
# check if user requested group
if userligand.lower() in groups:
subligs = [
key for key in licores if userligand.lower() in licores[key][3]
]
# randomly select ligand
userligand = random.choice(subligs)
if '~' in userligand:
homedir = os.path.expanduser("~")
userligand = userligand.replace('~', homedir)
emsg = False
lig = mol3D() # initialize ligand molecule
### check if ligand exists in dictionary
if userligand in licores.keys():
print('loading ligand from dictionary')
dbentry = licores[userligand]
# load lig mol file (with hydrogens)
if globs.custom_path:
flig = globs.custom_path + "/Ligands/" + dbentry[0]
else:
flig = resource_filename(Requirement.parse("molSimplify"),
"molSimplify/Ligands/" + dbentry[0])
# check if ligand xyz/mol file exists
if not glob.glob(flig):
emsg = "We can't find the ligand structure file %s right now! Something is amiss. Exiting..\n" % flig
print emsg
return False, emsg
if ('.xyz' in flig):
lig.OBMol = lig.getOBMol(flig, 'xyzf')
elif ('.mol' in flig):
lig.OBMol = lig.getOBMol(flig, 'molf')
elif ('.smi' in flig):
lig.OBMol = lig.getOBMol(flig, 'smif')
### modified the check for length,
### as it parsing string length instead of
### list length!
if isinstance(dbentry[2], (str, unicode)):
lig.denticity = 1
else:
lig.denticity = len(dbentry[2])
lig.ident = dbentry[1]
lig.charge = lig.OBMol.GetTotalCharge()
if 'pi' in dbentry[2]:
lig.cat = [int(l) for l in dbentry[2][:-1]]
lig.cat.append('pi')
else:
if lig.denticity == 1:
lig.cat = [int(dbentry[2])]
else:
lig.cat = [int(l) for l in dbentry[2]]
if lig.denticity > 1:
lig.grps = dbentry[3]
else:
lig.grps = []
if len(dbentry) > 3:
lig.ffopt = dbentry[4][0]
### load from file
elif ('.mol' in userligand or '.xyz' in userligand or '.smi' in userligand
or '.sdf' in userligand):
#flig = resource_filename(Requirement.parse("molSimplify"),"molSimplify/" +userligand)
if glob.glob(userligand):
ftype = userligand.split('.')[-1]
# try and catch error if conversion doesn't work
try:
print('ligand is an ' + ftype + ' file')
lig.OBMol = lig.getOBMol(userligand,
ftype + 'f') # convert from file
# generate coordinates if not existing
lig.charge = lig.OBMol.GetTotalCharge()
print('Ligand successfully converted to OBMol')
except IOError:
emsg = 'Failed converting file ' + userligand + ' to molecule..Check your file.\n'
return False, emsg
lig.ident = userligand.rsplit('/')[-1]
lig.ident = lig.ident.split('.' + ftype)[0]
else:
emsg = 'Ligand file ' + userligand + ' does not exist. Exiting..\n'
print emsg
return False, emsg
### if not, try interpreting as SMILES string
else:
try:
lig.getOBMol(userligand, 'smistring', True) # convert from smiles
lig.convert2mol3D()
assert lig.natoms
lig.charge = lig.OBMol.GetTotalCharge()
print('Ligand successfully interpreted as SMILES')
except:
emsg = "We tried converting the string '%s' to a molecule but it wasn't a valid SMILES string.\n" % userligand
emsg += "Furthermore, we couldn't find the ligand structure: '%s' in the ligands dictionary. Try again!\n" % userligand
emsg += "\nAvailable ligands are: %s\n" % getligs()
emsg += "\nAnd available groups are: %s\n" % getligroups(licores)
print emsg
return False, emsg
lig.ident = 'smi'
lig.name = userligand
return lig, emsg
def _make_license_table(docdir, reqs=None):
"""
Generates a file in docs/licenses/licenses_table.rst that
contains a restructured text table with the name, license, and home-page of
all distributions that openmdao depends on.
"""
meta_names = ['name', 'version', 'license', 'home-page']
headers = [
'**Distribs Used by OpenMDAO**', '**Version**', '**License**',
'**Link**'
]
numcols = len(meta_names)
data_templates = ["%s", "%s", "%s", "%s"]
col_spacer = ' '
max_col_width = 80
license_fname = os.path.join(docdir, 'licenses', 'licenses_table.txt')
if reqs is None:
reqs = [Requirement.parse(p) for p in get_openmdao_packages()]
reqset = set(reqs)
dists = set()
done = set()
while reqset:
req = reqset.pop()
if req.project_name not in done:
done.add(req.project_name)
dist = working_set.find(req)
if dist is not None:
dists.add(dist)
reqset.update(dist.requires())
metadict = {}
for dist in dists:
metadict[dist.project_name] = get_dist_metadata(dist)
for projname, meta in metadict.items():
for i, name in enumerate(meta_names):
try:
meta[name] = data_templates[i] % str(meta[name])
except KeyError:
meta[name] = 'UNKNOWN'
if meta['name'] == 'UNKNOWN':
meta['name'] = projname
# figure out sizes of table columns
colwidths = [len(s) + 1 for s in headers]
for i, name in enumerate(meta_names):
sz = max([len(m[name]) for m in metadict.values()]) + 1
sz = min(sz, max_col_width)
colwidths[i] = max(colwidths[i], sz)
with open(license_fname, 'wb') as outfile:
# write header
outfile.write(_get_border_line(numcols, colwidths, char='='))
for i, header in enumerate(headers):
outfile.write(header + ' ' * (colwidths[i] - len(header)))
outfile.write(col_spacer)
outfile.write('\n')
outfile.write(_get_border_line(numcols, colwidths, char='='))
# write table data
tups = [(k, v) for k, v in metadict.items()]
tups = sorted(tups, lambda x, y: cmp(x[0].lower(), y[0].lower()))
for j, tup in enumerate(tups):
for i, name in enumerate(meta_names):
outfile.write(_get_table_cell(tup[1][name], colwidths[i]))
outfile.write(col_spacer)
outfile.write('\n')
if j < len(tups) - 1:
outfile.write(_get_border_line(numcols, colwidths, char='-'))
# bottom border
outfile.write(_get_border_line(numcols, colwidths, char='='))
outfile.write('\n')
def __init__(self, input_model, output_model, **extra_args):
"""
Prepare remote execution of geosphere wrapper script.
The resulting Application will associate a remote execution like:
geosphere_wrapper.sh [options] <input model <output model>
Options:
-w <working dir> name of the working dir extracted from
.tgz file
-g <grok binary file> path to 'grok' binary. Default in PATH
-h <hgs binary file> path to 'hgs' binary. Default in PATH
-d enable debug
"""
self.input_model = input_model
self.output_model = output_model
inputs = []
outputs = []
geosphere_wrapper_sh = resource_filename(
Requirement.parse("gc3pie"),"gc3libs/etc/geosphere_wrapper.sh"
)
inputs.append((geosphere_wrapper_sh,
os.path.basename(geosphere_wrapper_sh)))
cmd = "./geosphere_wrapper.sh -d "
if 's3cfg' in extra_args:
inputs.append((extra_args['s3cfg'],
"etc/s3cfg"))
if 'grok_bin' in extra_args:
cmd += "-g %s " % extra_args['grok_bin']
inputs.append((extra_args['grok_bin'],
os.path.join("./bin",
os.path.basename(extra_args['grok_bin']))
))
if 'hgs_bin' in extra_args:
cmd += "-h %s " % extra_args['hgs_bin']
inputs.append((extra_args['hgs_bin'],
os.path.join("./bin",
os.path.basename(extra_args['hgs_bin']))
))
# Pass input model location
if self.input_model.scheme == 'file':
# Include local input files as part of Application
inputs.append((str(self.input_model),os.path.join(".",
os.path.basename(
str(self.input_model)))))
cmd += " ./%s " % os.path.basename(str(self.input_model))
else:
# just pass remote input model URI
cmd += "%s" % str(input_model)
# Pass working dir name argument
cmd += " %s " % extra_args['jobname']
# Pass output location argument
if self.output_model.scheme == 'file':
# Include output as part of data to be retrieved locally
outputs.append((os.path.basename(str(self.output_model)),
str(self.output_model)))
cmd += "./%s " % os.path.basename(str(self.output_model))
else:
# just pass remote output model URI
cmd += "%s " % str(self.output_model)
Application.__init__(
self,
# arguments should mimic the command line interface of the command to be
# executed on the remote end
arguments = cmd,
inputs = inputs,
outputs = outputs,
stdout = 'geosphere.log',
join=True,
**extra_args)
def main():
""" Opciones de configuracion para apps django """
parser = OptionParser(usage="usage: %prog [options] [VALUE]")
#parser.add_option("-n", "--no-rotate",
#action="store_true", dest="no_rotate", default=False,
#help="rotate ftp files on upload cmd")
parser.add_option("--version", "-v", action="store_true")
parser.add_option("--list", "-l", action="store_true")
parser.add_option("--get", "-g", action="store", dest="get_option")
parser.add_option("--set",
"-s",
action="store",
dest="set_option",
help="set SET_OPTION parameter to VALUE")
options, args = parser.parse_args()
if options.version:
print("%s v. %s") % (NAME, __VERSION__)
return 0
if os.path.isfile(DEFAULT_CONFIG_FILE):
cfgfile = DEFAULT_CONFIG_FILE
else:
try:
cfgfile = resource_filename(Requirement.parse("apconf"),
"apconf/conf/apconf-sample.ini")
#log.warn("Usando sample config file: %s" % cfgfile)
except:
log.error("No se ha encontrado el fichero de configuraciĆ³n")
parser.print_help()
return 1
opts = Options()
if options.list:
from clint.textui import puts, colored
pformat = "%30s: %s"
puts('')
for section in opts.sections:
puts(pformat % (colored.green("[%s]" % section), ''))
#puts(pformat % (colored.white('Option'), colored.cyan('Value')))
for key, value in opts.items(section):
puts(pformat % (colored.blue(key), colored.white(value)))
puts('')
elif options.get_option:
try:
print(opts.get(options.get_option))
except KeyError:
parser.print_help()
return 1
elif options.set_option:
try:
opts.set(options.set_option, args[0])
opts.write()
except IndexError:
parser.print_help()
return 1
else:
parser.print_help()
return 1
return 0