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exporter.py
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/ nbconvert / api / exporter.py
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"""Exporter for the notebook conversion pipeline.
This module defines Exporter, a highly configurable converter
that uses Jinja2 to export notebook files into different format.
You can register both pre-transformers that will act on the notebook format
before conversion and jinja filter that would then be available in the templates
"""
#-----------------------------------------------------------------------------
# Copyright (c) 2013, the IPython Development Team.
#
# Distributed under the terms of the Modified BSD License.
#
# The full license is in the file COPYING.txt, distributed with this software.
#-----------------------------------------------------------------------------
#-----------------------------------------------------------------------------
# Imports
#-----------------------------------------------------------------------------
from __future__ import print_function, absolute_import
# Stdlib imports
import io
import os
import copy
# IPython imports
from IPython.config.configurable import Configurable
from IPython.nbformat import current as nbformat
from IPython.utils.traitlets import MetaHasTraits, Unicode, List, Bool
from IPython.utils.text import indent
# other libs/dependencies
from jinja2 import Environment, FileSystemLoader
from markdown import markdown
# local import
import filters.strings
import filters.markdown
import filters.latex
import filters.datatypefilter
import filters.pygments
import filters.ansi
import transformers.extractfigure
import transformers.coalescestreams
#-----------------------------------------------------------------------------
# Globals and constants
#-----------------------------------------------------------------------------
#Standard Jinja2 environment constants
TEMPLATE_PATH = "/../templates/"
TEMPLATE_SKELETON_PATH = "/../templates/skeleton/"
TEMPLATE_EXTENSION = ".tpl"
#Jinja2 extensions to load.
JINJA_EXTENSIONS = ['jinja2.ext.loopcontrols']
#-----------------------------------------------------------------------------
# Classes and functions
#-----------------------------------------------------------------------------
class Exporter(Configurable):
""" A Jinja2 base converter templates
Pre-process the IPYNB files, feed it through Jinja2 templates,
and spit an converted files and a data object with other data
should be mostly configurable
"""
pre_transformer_order = List(['haspyout_transformer'],
config=True,
help= """
An ordered list of pre-transformer to apply to the IPYNB
file before running through templates
"""
)
template_file = Unicode(
'', config=True,
help="Name of the template file to use")
file_extension = Unicode(
'txt', config=True,
help="Extension of the file that should be written to disk"
)
stdout = Bool(
True, config=True,
help="""Whether to print the converted IPYNB file to stdout
"use full do diff files without actually writing a new file"""
)
write = Bool(
False, config=True,
help="""Should the converted notebook file be written to disk
along with potential extracted resources."""
)
#Processors that process the input data prior to the export, set in the
#constructor for this class.
preprocessors = []
# Public Constructor #####################################################
def __init__(self, preprocessors=None, jinja_filters=None, config=None, **kw):
""" Init a new converter.
config: the Configurable config object to pass around.
preprocessors: dict of **available** key/value function to run on
ipynb json data before conversion to extract/in-line file.
See `transformer.py` and `ConfigurableTransformers`
set the order in which the transformers should apply
with the `pre_transformer_order` trait of this class
transformers registered by this key will take precedence on
default one.
jinja_filters: dict of supplementary jinja filter that should be made
available in template. If those are of Configurable Class type,
they will be instanciated with the config object as argument.
user defined filter will overwrite the one available by default.
"""
#Call the base class constructor
super(Exporter, self).__init__(config=config, **kw)
#Standard environment
self.ext = TEMPLATE_EXTENSION
self._init_environment()
#TODO: Implement reflection style methods to get user transformers.
#if not preprocessors is None:
# for name in self.pre_transformer_order:
# # get the user-defined transformer first
# transformer = preprocessors.get(name, getattr(trans, name, None))
# if isinstance(transformer, MetaHasTraits):
# transformer = transformer(config=config)
# self.preprocessors.append(transformer)
#Add transformers
self._register_transformers()
#Add filters to the Jinja2 environment
self._register_filters()
#Load user filters. Overwrite existing filters if need be.
if not jinja_filters is None:
for key, user_filter in jinja_filters.iteritems():
if isinstance(user_filter, MetaHasTraits):
self.environment.filters[key] = user_filter(config=config)
else:
self.environment.filters[key] = user_filter
#Set the default datatype priority.
self._set_datatype_priority(['svg', 'png', 'latex', 'jpg', 'jpeg','text'])
# Public methods #########################################
def from_notebook_node(self, nb):
"""Export NotebookNode instance
nb: NotebookNode to export.
Returns both the converted ipynb file and a dict containing the
resources created along the way via the transformers and Jinja2
processing.
"""
nb, resources = self._preprocess(nb)
#Load the template file.
self.template = self.environment.get_template(self.template_file+self.ext)
return self.template.render(nb=nb, resources=resources), resources
def from_filename(self, filename):
"""Read and export a notebook from a filename
filename: Filename of the notebook file to export.
Returns both the converted ipynb file and a dict containing the
resources created along the way via the transformers and Jinja2
processing.
"""
with io.open(filename) as f:
return self.from_notebook_node(nbformat.read(f, 'json'))
def from_file(self, file_stream):
"""Read and export a notebook from a file stream
file_stream: File handle of file that contains notebook data.
Returns both the converted ipynb file and a dict containing the
resources created along the way via the transformers and Jinja2
processing.
"""
return self.from_notebook_node(nbformat.read(file_stream, 'json'))
def register_transformer(self, transformer):
if MetaHasTraits(transformer):
self.preprocessors.append(transformer(config=self.config))
else:
self.preprocessors.append(transformer)
def register_filter(self, name, filter):
if MetaHasTraits(filter):
self.environment.filters[name] = filter(config=self.config)
else:
self.environment.filters[name] = filter
return self.environment.filters[name]
# Protected and Private methods #########################################
def _register_transformers(self):
self.register_transformer(transformers.coalescestreams.coalesce_streams)
#Remember the figure extraction transformer so it can be enabled and
#disabled easily later.
self.extract_figure_transformer = self.register_transformer(transformers.extractfigure.ExtractFigureTransformer)
self.extract_figure_transformer.enabled = False
def _register_filters(self):
self.register_filter('indent', indent)
self.register_filter('markdown', markdown)
self.register_filter('ansi2html', filters.ansi.ansi2html)
self.register_filter('filter_data_type', filters.datatypefilter.DataTypeFilter)
self.register_filter('get_lines', filters.strings.get_lines)
self.register_filter('highlight', filters.pygments.highlight)
self.register_filter('highlight2html', filters.pygments.highlight)
self.register_filter('highlight2latex', filters.pygments.highlight2latex)
self.register_filter('markdown2latex', filters.markdown.markdown2latex)
self.register_filter('markdown2rst', filters.markdown.markdown2rst)
self.register_filter('pycomment', filters.strings.python_comment)
self.register_filter('rm_ansi', filters.ansi.remove_ansi)
self.register_filter('rm_dollars', filters.strings.strip_dollars)
self.register_filter('rm_fake', filters.strings.rm_fake)
self.register_filter('rm_math_space', filters.latex.rm_math_space)
self.register_filter('wrap', filters.strings.wrap)
def _set_datatype_priority(self, priority):
self.extract_figure_transformer.display_data_priority=copy.copy(priority)
self.display_data_priority=copy.copy(priority)
def _init_environment(self):
self.environment = Environment(
loader=FileSystemLoader([
os.path.dirname(os.path.realpath(__file__)) + TEMPLATE_PATH,
os.path.dirname(os.path.realpath(__file__)) + TEMPLATE_SKELETON_PATH,
]),
extensions=JINJA_EXTENSIONS
)
def _preprocess(self, nb):
""" Preprocess the notebook using the transformers specific
for the current export format.
nb: Notebook to preprocess
"""
#Dict of 'resources' that can be filled by the preprocessors.
resources = {}
#Run each transformer on the notebook. Carry the output along
#to each transformer
for transformer in self.preprocessors:
nb, resources = transformer(nb, resources)
return nb, resources