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Moving handlers to subdir
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nbmanager.py
235 lines | 8.7 KiB | text/x-python | PythonLexer
"""A base class notebook manager.
Authors:
* Brian Granger
"""
#-----------------------------------------------------------------------------
# Copyright (C) 2011 The IPython Development Team
#
# Distributed under the terms of the BSD License. The full license is in
# the file COPYING, distributed as part of this software.
#-----------------------------------------------------------------------------
#-----------------------------------------------------------------------------
# Imports
#-----------------------------------------------------------------------------
import os
import uuid
from tornado import web
from IPython.config.configurable import LoggingConfigurable
from IPython.nbformat import current
from IPython.utils.traitlets import List, Dict, Unicode, TraitError
#-----------------------------------------------------------------------------
# Classes
#-----------------------------------------------------------------------------
class NotebookManager(LoggingConfigurable):
# Todo:
# The notebook_dir attribute is used to mean a couple of different things:
# 1. Where the notebooks are stored if FileNotebookManager is used.
# 2. The cwd of the kernel for a project.
# Right now we use this attribute in a number of different places and
# we are going to have to disentangle all of this.
notebook_dir = Unicode(os.getcwdu(), config=True, help="""
The directory to use for notebooks.
""")
def _notebook_dir_changed(self, name, old, new):
"""do a bit of validation of the notebook dir"""
if not os.path.isabs(new):
# If we receive a non-absolute path, make it absolute.
abs_new = os.path.abspath(new)
self.notebook_dir = abs_new
return
if os.path.exists(new) and not os.path.isdir(new):
raise TraitError("notebook dir %r is not a directory" % new)
if not os.path.exists(new):
self.log.info("Creating notebook dir %s", new)
try:
os.mkdir(new)
except:
raise TraitError("Couldn't create notebook dir %r" % new)
allowed_formats = List([u'json',u'py'])
# Map notebook_ids to notebook names
mapping = Dict()
def load_notebook_names(self):
"""Load the notebook names into memory.
This should be called once immediately after the notebook manager
is created to load the existing notebooks into the mapping in
memory.
"""
self.list_notebooks()
def list_notebooks(self):
"""List all notebooks.
This returns a list of dicts, each of the form::
dict(notebook_id=notebook,name=name)
This list of dicts should be sorted by name::
data = sorted(data, key=lambda item: item['name'])
"""
raise NotImplementedError('must be implemented in a subclass')
def new_notebook_id(self, name):
"""Generate a new notebook_id for a name and store its mapping."""
# TODO: the following will give stable urls for notebooks, but unless
# the notebooks are immediately redirected to their new urls when their
# filemname changes, nasty inconsistencies result. So for now it's
# disabled and instead we use a random uuid4() call. But we leave the
# logic here so that we can later reactivate it, whhen the necessary
# url redirection code is written.
#notebook_id = unicode(uuid.uuid5(uuid.NAMESPACE_URL,
# 'file://'+self.get_path_by_name(name).encode('utf-8')))
notebook_id = unicode(uuid.uuid4())
self.mapping[notebook_id] = name
return notebook_id
def delete_notebook_id(self, notebook_id):
"""Delete a notebook's id in the mapping.
This doesn't delete the actual notebook, only its entry in the mapping.
"""
del self.mapping[notebook_id]
def notebook_exists(self, notebook_id):
"""Does a notebook exist?"""
return notebook_id in self.mapping
def get_notebook(self, notebook_id, format=u'json'):
"""Get the representation of a notebook in format by notebook_id."""
format = unicode(format)
if format not in self.allowed_formats:
raise web.HTTPError(415, u'Invalid notebook format: %s' % format)
last_modified, nb = self.read_notebook_object(notebook_id)
kwargs = {}
if format == 'json':
# don't split lines for sending over the wire, because it
# should match the Python in-memory format.
kwargs['split_lines'] = False
data = current.writes(nb, format, **kwargs)
name = nb.metadata.get('name','notebook')
return last_modified, name, data
def read_notebook_object(self, notebook_id):
"""Get the object representation of a notebook by notebook_id."""
raise NotImplementedError('must be implemented in a subclass')
def save_new_notebook(self, data, name=None, format=u'json'):
"""Save a new notebook and return its notebook_id.
If a name is passed in, it overrides any values in the notebook data
and the value in the data is updated to use that value.
"""
if format not in self.allowed_formats:
raise web.HTTPError(415, u'Invalid notebook format: %s' % format)
try:
nb = current.reads(data.decode('utf-8'), format)
except:
raise web.HTTPError(400, u'Invalid JSON data')
if name is None:
try:
name = nb.metadata.name
except AttributeError:
raise web.HTTPError(400, u'Missing notebook name')
nb.metadata.name = name
notebook_id = self.write_notebook_object(nb)
return notebook_id
def save_notebook(self, notebook_id, data, name=None, format=u'json'):
"""Save an existing notebook by notebook_id."""
if format not in self.allowed_formats:
raise web.HTTPError(415, u'Invalid notebook format: %s' % format)
try:
nb = current.reads(data.decode('utf-8'), format)
except:
raise web.HTTPError(400, u'Invalid JSON data')
if name is not None:
nb.metadata.name = name
self.write_notebook_object(nb, notebook_id)
def write_notebook_object(self, nb, notebook_id=None):
"""Write a notebook object and return its notebook_id.
If notebook_id is None, this method should create a new notebook_id.
If notebook_id is not None, this method should check to make sure it
exists and is valid.
"""
raise NotImplementedError('must be implemented in a subclass')
def delete_notebook(self, notebook_id):
"""Delete notebook by notebook_id."""
raise NotImplementedError('must be implemented in a subclass')
def increment_filename(self, name):
"""Increment a filename to make it unique.
This exists for notebook stores that must have unique names. When a notebook
is created or copied this method constructs a unique filename, typically
by appending an integer to the name.
"""
return name
def new_notebook(self):
"""Create a new notebook and return its notebook_id."""
name = self.increment_filename('Untitled')
metadata = current.new_metadata(name=name)
nb = current.new_notebook(metadata=metadata)
notebook_id = self.write_notebook_object(nb)
return notebook_id
def copy_notebook(self, notebook_id):
"""Copy an existing notebook and return its notebook_id."""
last_mod, nb = self.read_notebook_object(notebook_id)
name = nb.metadata.name + '-Copy'
name = self.increment_filename(name)
nb.metadata.name = name
notebook_id = self.write_notebook_object(nb)
return notebook_id
# Checkpoint-related
def create_checkpoint(self, notebook_id):
"""Create a checkpoint of the current state of a notebook
Returns a checkpoint_id for the new checkpoint.
"""
raise NotImplementedError("must be implemented in a subclass")
def list_checkpoints(self, notebook_id):
"""Return a list of checkpoints for a given notebook"""
return []
def restore_checkpoint(self, notebook_id, checkpoint_id):
"""Restore a notebook from one of its checkpoints"""
raise NotImplementedError("must be implemented in a subclass")
def delete_checkpoint(self, notebook_id, checkpoint_id):
"""delete a checkpoint for a notebook"""
raise NotImplementedError("must be implemented in a subclass")
def log_info(self):
self.log.info(self.info_string())
def info_string(self):
return "Serving notebooks"