def __init__(self, name, content, public=True, user=None, env_name=None): self.aserver_api = get_binstar() self.name = parameterize(name) self.content = content self.summary = "IPython notebook" self.public = public self.username = user self.env_name = env_name if self.username is None: self.username = self.aserver_api.user()['login']
def __init__(self, name, content): self.aserver_api = get_server_api() self.name = parameterize(name) self.content = content self.summary = self.metadata.get("summary", "Jupyter Notebook") self.username = self.metadata.get("organization", None) if self.metadata.get("attach-environment", None): self.env_name = self.metadata.get("environment", None) if self.env_name is None: self.env_name = self.default_env() else: self.env_name = None if self.username is None: self.username = self.aserver_api.user()['login']
def __init__(self, name, content): self.aserver_api = get_server_api() self.name = parameterize(name) self.content = content self.summary = self.metadata.get("summary", "Jupyter Notebook") self.username = self.metadata.get("organization", None) if self.metadata.get("attach-environment", None): self.env_name = self.metadata.get("environment", None) if self.env_name is None: ksname = self.ksname if ksname in ["python2", "python3"]: # we are dealing with the native kernel, so let's find out # the name of the env where that kernel lives self.env_name = self.default_env() else: # ksname comes in the form conda-env-name-[py/r] or # conda-root-[py/r] so split them and catch the name self.env_name = ksname.split("-")[-2] else: self.env_name = None if self.username is None: self.username = self.aserver_api.user()['login']
def test_one_directory(self): self.assertEqual(inflection.parameterize(u"Donald E. Knuth"), 'donald-e-knuth')