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Redo after corrupted codebase.
Redo after corrupted codebase.
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nbconvertapp.py
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/ IPython / nbconvert / nbconvertapp.py
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#!/usr/bin/env python
"""NBConvert is a utility for conversion of .ipynb files.
Command-line interface for the NbConvert conversion utility.
"""
#-----------------------------------------------------------------------------
#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
#-----------------------------------------------------------------------------
# Stdlib imports
from __future__ import print_function
import sys
import os
import glob
# From IPython
from IPython.core.application import BaseIPythonApplication, base_aliases, base_flags
from IPython.config import catch_config_error, Configurable
from IPython.utils.traitlets import (
Unicode, List, Instance, DottedObjectName, Type, CaselessStrEnum,
)
from IPython.utils.importstring import import_item
from .exporters.export import export_by_name, get_export_names, ExporterNameError
from IPython.nbconvert import exporters, transformers, writers, post_processors
from .utils.base import NbConvertBase
from .utils.exceptions import ConversionException
#-----------------------------------------------------------------------------
#Classes and functions
#-----------------------------------------------------------------------------
class DottedOrNone(DottedObjectName):
"""
A string holding a valid dotted object name in Python, such as A.b3._c
Also allows for None type."""
default_value = u''
def validate(self, obj, value):
if value is not None and len(value) > 0:
return super(DottedOrNone, self).validate(obj, value)
else:
return value
nbconvert_aliases = {}
nbconvert_aliases.update(base_aliases)
nbconvert_aliases.update({
'to' : 'NbConvertApp.export_format',
'template' : 'Exporter.template_file',
'notebooks' : 'NbConvertApp.notebooks',
'writer' : 'NbConvertApp.writer_class',
'post': 'NbConvertApp.post_processor_class'
})
nbconvert_flags = {}
nbconvert_flags.update(base_flags)
nbconvert_flags.update({
'stdout' : (
{'NbConvertApp' : {'writer_class' : "StdoutWriter"}},
"Write notebook output to stdout instead of files."
),
'serve' : (
{'NbConvertApp' : {'writer_class' : "ServeWriter"}},
"Write notebook to a file and serve it."
)
})
class NbConvertApp(BaseIPythonApplication):
"""Application used to convert to and from notebook file type (*.ipynb)"""
name = 'ipython-nbconvert'
aliases = nbconvert_aliases
flags = nbconvert_flags
def _classes_default(self):
classes = [NbConvertBase]
for pkg in (exporters, transformers, writers):
for name in dir(pkg):
cls = getattr(pkg, name)
if isinstance(cls, type) and issubclass(cls, Configurable):
classes.append(cls)
return classes
description = Unicode(
u"""This application is used to convert notebook files (*.ipynb)
to various other formats.
WARNING: THE COMMANDLINE INTERFACE MAY CHANGE IN FUTURE RELEASES.""")
examples = Unicode(u"""
The simplest way to use nbconvert is
> ipython nbconvert mynotebook.ipynb
which will convert mynotebook.ipynb to the default format (probably HTML).
You can specify the export format with `--to`.
Options include {0}
> ipython nbconvert --to latex mynotebook.ipnynb
Both HTML and LaTeX support multiple output templates. LaTeX includes
'basic', 'book', and 'article'. HTML includes 'basic' and 'full'. You
can specify the flavor of the format used.
> ipython nbconvert --to html --template basic mynotebook.ipynb
You can also pipe the output to stdout, rather than a file
> ipython nbconvert mynotebook.ipynb --stdout
A post-processor can be used to compile a PDF
> ipython nbconvert mynotebook.ipynb --to latex --post PDF
Multiple notebooks can be given at the command line in a couple of
different ways:
> ipython nbconvert notebook*.ipynb
> ipython nbconvert notebook1.ipynb notebook2.ipynb
or you can specify the notebooks list in a config file, containing::
c.NbConvertApp.notebooks = ["my_notebook.ipynb"]
> ipython nbconvert --config mycfg.py
""".format(get_export_names()))
# Writer specific variables
writer = Instance('IPython.nbconvert.writers.base.WriterBase',
help="""Instance of the writer class used to write the
results of the conversion.""")
writer_class = DottedObjectName('FilesWriter', config=True,
help="""Writer class used to write the
results of the conversion""")
writer_aliases = {'FilesWriter': 'IPython.nbconvert.writers.files.FilesWriter',
'DebugWriter': 'IPython.nbconvert.writers.debug.DebugWriter',
'StdoutWriter': 'IPython.nbconvert.writers.stdout.StdoutWriter',
'ServeWriter': 'IPython.nbconvert.writers.serve.ServeWriter'}
writer_factory = Type()
def _writer_class_changed(self, name, old, new):
if new in self.writer_aliases:
new = self.writer_aliases[new]
self.writer_factory = import_item(new)
# Post-processor specific variables
post_processor = Instance('IPython.nbconvert.post_processors.base.PostProcessorBase',
help="""Instance of the PostProcessor class used to write the
results of the conversion.""")
post_processor_class = DottedOrNone(config=True,
help="""PostProcessor class used to write the
results of the conversion""")
post_processor_aliases = {'PDF': 'IPython.nbconvert.post_processors.pdf.PDFPostProcessor'}
post_processor_factory = Type()
def _post_processor_class_changed(self, name, old, new):
if new in self.post_processor_aliases:
new = self.post_processor_aliases[new]
if new:
self.post_processor_factory = import_item(new)
# Other configurable variables
export_format = CaselessStrEnum(get_export_names(),
default_value="html",
config=True,
help="""The export format to be used."""
)
notebooks = List([], config=True, help="""List of notebooks to convert.
Wildcards are supported.
Filenames passed positionally will be added to the list.
""")
@catch_config_error
def initialize(self, argv=None):
super(NbConvertApp, self).initialize(argv)
self.init_syspath()
self.init_notebooks()
self.init_writer()
self.init_post_processor()
def init_syspath(self):
"""
Add the cwd to the sys.path ($PYTHONPATH)
"""
sys.path.insert(0, os.getcwd())
def init_notebooks(self):
"""Construct the list of notebooks.
If notebooks are passed on the command-line,
they override notebooks specified in config files.
Glob each notebook to replace notebook patterns with filenames.
"""
# Specifying notebooks on the command-line overrides (rather than adds)
# the notebook list
if self.extra_args:
patterns = self.extra_args
else:
patterns = self.notebooks
# Use glob to replace all the notebook patterns with filenames.
filenames = []
for pattern in patterns:
# Use glob to find matching filenames. Allow the user to convert
# notebooks without having to type the extension.
globbed_files = glob.glob(pattern)
globbed_files.extend(glob.glob(pattern + '.ipynb'))
for filename in globbed_files:
if not filename in filenames:
filenames.append(filename)
self.notebooks = filenames
def init_writer(self):
"""
Initialize the writer (which is stateless)
"""
self._writer_class_changed(None, self.writer_class, self.writer_class)
self.writer = self.writer_factory(parent=self)
def init_post_processor(self):
"""
Initialize the post_processor (which is stateless)
"""
self._post_processor_class_changed(None, self.post_processor_class,
self.post_processor_class)
if self.post_processor_factory:
self.post_processor = self.post_processor_factory(parent=self)
def start(self):
"""
Ran after initialization completed
"""
super(NbConvertApp, self).start()
self.convert_notebooks()
self.serve_files()
def convert_notebooks(self):
"""
Convert the notebooks in the self.notebook traitlet
"""
# Export each notebook
conversion_success = 0
for notebook_filename in self.notebooks:
# Get a unique key for the notebook and set it in the resources object.
basename = os.path.basename(notebook_filename)
notebook_name = basename[:basename.rfind('.')]
resources = {}
resources['unique_key'] = notebook_name
resources['output_files_dir'] = '%s_files' % notebook_name
# Try to export
try:
output, resources = export_by_name(self.export_format,
notebook_filename,
resources=resources,
config=self.config)
except ExporterNameError as e:
print("Error while converting '%s': '%s' exporter not found."
%(notebook_filename, self.export_format),
file=sys.stderr)
print("Known exporters are:",
"\n\t" + "\n\t".join(get_export_names()),
file=sys.stderr)
self.exit(1)
except ConversionException as e:
print("Error while converting '%s': %s" %(notebook_filename, e),
file=sys.stderr)
self.exit(1)
else:
write_resultes = self.writer.write(output, resources, notebook_name=notebook_name)
#Post-process if post processor has been defined.
if hasattr(self, 'post_processor') and self.post_processor:
self.post_processor(write_resultes)
conversion_success += 1
# If nothing was converted successfully, help the user.
if conversion_success == 0:
self.print_help()
sys.exit(-1)
def serve_files(self):
"""
Serve the resulting files arter nbconversion.
"""
self.writer.serve(self.export_format)
#-----------------------------------------------------------------------------
# Main entry point
#-----------------------------------------------------------------------------
launch_new_instance = NbConvertApp.launch_instance