Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/nbconvert/exporters/exporter.py

326 lines
11 KiB
Python

"""This module defines a base Exporter class. For Jinja template-based export,
see templateexporter.py.
"""
# Copyright (c) Jupyter Development Team.
# Distributed under the terms of the Modified BSD License.
from __future__ import print_function, absolute_import
import io
import os
import copy
import collections
import datetime
import sys
import nbformat
from traitlets.config.configurable import LoggingConfigurable
from traitlets.config import Config
from traitlets import Bool, HasTraits, Unicode, List, TraitError
from traitlets.utils.importstring import import_item
from typing import Optional
class ResourcesDict(collections.defaultdict):
def __missing__(self, key):
return ''
class FilenameExtension(Unicode):
"""A trait for filename extensions."""
default_value = u''
info_text = 'a filename extension, beginning with a dot'
def validate(self, obj, value):
# cast to proper unicode
value = super().validate(obj, value)
# check that it starts with a dot
if value and not value.startswith('.'):
msg = "FileExtension trait '{}' does not begin with a dot: {!r}"
raise TraitError(msg.format(self.name, value))
return value
class Exporter(LoggingConfigurable):
"""
Class containing methods that sequentially run a list of preprocessors on a
NotebookNode object and then return the modified NotebookNode object and
accompanying resources dict.
"""
enabled = Bool(True,
help = "Disable this exporter (and any exporters inherited from it)."
).tag(config=True)
file_extension = FilenameExtension(
help="Extension of the file that should be written to disk"
).tag(config=True)
# MIME type of the result file, for HTTP response headers.
# This is *not* a traitlet, because we want to be able to access it from
# the class, not just on instances.
output_mimetype = ''
# Should this converter be accessible from the notebook front-end?
# If so, should be a friendly name to display (and possibly translated).
export_from_notebook = None
#Configurability, allows the user to easily add filters and preprocessors.
preprocessors = List(
help="""List of preprocessors, by name or namespace, to enable."""
).tag(config=True)
_preprocessors = List()
default_preprocessors = List([
'nbconvert.preprocessors.TagRemovePreprocessor',
'nbconvert.preprocessors.RegexRemovePreprocessor',
'nbconvert.preprocessors.ClearOutputPreprocessor',
'nbconvert.preprocessors.ExecutePreprocessor',
'nbconvert.preprocessors.coalesce_streams',
'nbconvert.preprocessors.SVG2PDFPreprocessor',
'nbconvert.preprocessors.LatexPreprocessor',
'nbconvert.preprocessors.HighlightMagicsPreprocessor',
'nbconvert.preprocessors.ExtractOutputPreprocessor',
'nbconvert.preprocessors.ClearMetadataPreprocessor',
],
help="""List of preprocessors available by default, by name, namespace,
instance, or type."""
).tag(config=True)
def __init__(self, config=None, **kw):
"""
Public constructor
Parameters
----------
config : ``traitlets.config.Config``
User configuration instance.
`**kw`
Additional keyword arguments passed to parent __init__
"""
with_default_config = self.default_config
if config:
with_default_config.merge(config)
super().__init__(config=with_default_config, **kw)
self._init_preprocessors()
@property
def default_config(self):
return Config()
def from_notebook_node(self, nb, resources=None, **kw):
"""
Convert a notebook from a notebook node instance.
Parameters
----------
nb : `nbformat.NotebookNode`
Notebook node (dict-like with attr-access)
resources : dict
Additional resources that can be accessed read/write by
preprocessors and filters.
`**kw`
Ignored
"""
nb_copy = copy.deepcopy(nb)
resources = self._init_resources(resources)
if 'language' in nb['metadata']:
resources['language'] = nb['metadata']['language'].lower()
# Preprocess
nb_copy, resources = self._preprocess(nb_copy, resources)
return nb_copy, resources
def from_filename(self, filename: str, resources: Optional[dict] = None, **kw):
"""
Convert a notebook from a notebook file.
Parameters
----------
filename : str
Full filename of the notebook file to open and convert.
resources : dict
Additional resources that can be accessed read/write by
preprocessors and filters.
`**kw`
Ignored
"""
# Pull the metadata from the filesystem.
if resources is None:
resources = ResourcesDict()
if not 'metadata' in resources or resources['metadata'] == '':
resources['metadata'] = ResourcesDict()
path, basename = os.path.split(filename)
notebook_name = os.path.splitext(basename)[0]
resources['metadata']['name'] = notebook_name
resources['metadata']['path'] = path
modified_date = datetime.datetime.fromtimestamp(os.path.getmtime(filename))
# datetime.strftime date format for ipython
if sys.platform == 'win32':
date_format = "%B %d, %Y"
else:
date_format = "%B %-d, %Y"
resources['metadata']['modified_date'] = modified_date.strftime(date_format)
with io.open(filename, encoding='utf-8') as f:
return self.from_file(f, resources=resources, **kw)
def from_file(self, file_stream, resources=None, **kw):
"""
Convert a notebook from a notebook file.
Parameters
----------
file_stream : file-like object
Notebook file-like object to convert.
resources : dict
Additional resources that can be accessed read/write by
preprocessors and filters.
`**kw`
Ignored
"""
return self.from_notebook_node(nbformat.read(file_stream, as_version=4), resources=resources, **kw)
def register_preprocessor(self, preprocessor, enabled=False):
"""
Register a preprocessor.
Preprocessors are classes that act upon the notebook before it is
passed into the Jinja templating engine. preprocessors are also
capable of passing additional information to the Jinja
templating engine.
Parameters
----------
preprocessor : `Preprocessor`
A dotted module name, a type, or an instance
enabled : bool
Mark the preprocessor as enabled
"""
if preprocessor is None:
raise TypeError('preprocessor must not be None')
isclass = isinstance(preprocessor, type)
constructed = not isclass
# Handle preprocessor's registration based on it's type
if constructed and isinstance(preprocessor, str,):
# Preprocessor is a string, import the namespace and recursively call
# this register_preprocessor method
preprocessor_cls = import_item(preprocessor)
return self.register_preprocessor(preprocessor_cls, enabled)
if constructed and hasattr(preprocessor, '__call__'):
# Preprocessor is a function, no need to construct it.
# Register and return the preprocessor.
if enabled:
preprocessor.enabled = True
self._preprocessors.append(preprocessor)
return preprocessor
elif isclass and issubclass(preprocessor, HasTraits):
# Preprocessor is configurable. Make sure to pass in new default for
# the enabled flag if one was specified.
self.register_preprocessor(preprocessor(parent=self), enabled)
elif isclass:
# Preprocessor is not configurable, construct it
self.register_preprocessor(preprocessor(), enabled)
else:
# Preprocessor is an instance of something without a __call__
# attribute.
raise TypeError('preprocessor must be callable or an importable constructor, got %r' % preprocessor)
def _init_preprocessors(self):
"""
Register all of the preprocessors needed for this exporter, disabled
unless specified explicitly.
"""
self._preprocessors = []
# Load default preprocessors (not necessarily enabled by default).
for preprocessor in self.default_preprocessors:
self.register_preprocessor(preprocessor)
# Load user-specified preprocessors. Enable by default.
for preprocessor in self.preprocessors:
self.register_preprocessor(preprocessor, enabled=True)
def _init_resources(self, resources):
#Make sure the resources dict is of ResourcesDict type.
if resources is None:
resources = ResourcesDict()
if not isinstance(resources, ResourcesDict):
new_resources = ResourcesDict()
new_resources.update(resources)
resources = new_resources
#Make sure the metadata extension exists in resources
if 'metadata' in resources:
if not isinstance(resources['metadata'], ResourcesDict):
new_metadata = ResourcesDict()
new_metadata.update(resources['metadata'])
resources['metadata'] = new_metadata
else:
resources['metadata'] = ResourcesDict()
if not resources['metadata']['name']:
resources['metadata']['name'] = 'Notebook'
#Set the output extension
resources['output_extension'] = self.file_extension
return resources
def _preprocess(self, nb, resources):
"""
Preprocess the notebook before passing it into the Jinja engine.
To preprocess the notebook is to successively apply all the
enabled preprocessors. Output from each preprocessor is passed
along to the next one.
Parameters
----------
nb : notebook node
notebook that is being exported.
resources : a dict of additional resources that
can be accessed read/write by preprocessors
"""
# Do a copy.deepcopy first,
# we are never safe enough with what the preprocessors could do.
nbc = copy.deepcopy(nb)
resc = copy.deepcopy(resources)
# Run each preprocessor on the notebook. Carry the output along
# to each preprocessor
for preprocessor in self._preprocessors:
nbc, resc = preprocessor(nbc, resc)
try:
nbformat.validate(nbc, relax_add_props=True)
except nbformat.ValidationError:
self.log.error('Notebook is invalid after preprocessor %s',
preprocessor)
raise
return nbc, resc