#!/usr/bin/env python """Convert IPython notebooks to other formats, such as ReST, and HTML. Example: ./nbconvert.py --format html file.ipynb Produces 'file.rst' and 'file.html', along with auto-generated figure files called nb_figure_NN.png. To avoid the two-step process, ipynb -> rst -> html, use '--format quick-html' which will do ipynb -> html, but won't look as pretty. """ from __future__ import print_function import codecs import logging import os import pprint import re import subprocess import sys from IPython.external import argparse from IPython.nbformat import current as nbformat from IPython.utils.text import indent from decorators import DocInherit def remove_ansi(src): """Strip all ANSI color escape sequences from input string. Parameters ---------- src : string Returns ------- string """ return re.sub(r'\033\[(0|\d;\d\d)m', '', src) # Pandoc-dependent code def markdown2latex(src): """Convert a markdown string to LaTeX via pandoc. This function will raise an error if pandoc is not installed. Any error messages generated by pandoc are printed to stderr. Parameters ---------- src : string Input string, assumed to be valid markdown. Returns ------- out : string Output as returned by pandoc. """ p = subprocess.Popen('pandoc -f markdown -t latex'.split(), stdin=subprocess.PIPE, stdout=subprocess.PIPE) out, err = p.communicate(src) if err: print(err, file=sys.stderr) #print('*'*20+'\n', out, '\n'+'*'*20) # dbg return out # Cell converters def rst_directive(directive, text=''): out = [directive, ''] if text: out.extend([indent(text), '']) return out # Converters for parts of a cell. class ConversionException(Exception): pass class Converter(object): default_encoding = 'utf-8' extension = str() figures_counter = 0 infile = str() infile_dir = str() infile_root = str() files_dir = str() with_preamble = True user_preamble = None output = str() raw_as_verbatim = False def __init__(self, infile): self.infile = infile self.infile_dir = os.path.dirname(infile) infile_root = os.path.splitext(infile)[0] files_dir = infile_root + '_files' if not os.path.isdir(files_dir): os.mkdir(files_dir) self.infile_root = infile_root self.files_dir = files_dir def dispatch(self, cell_type): """return cell_type dependent render method, for example render_code """ return getattr(self, 'render_' + cell_type, self.render_unknown) def convert(self): lines = [] lines.extend(self.optional_header()) for worksheet in self.nb.worksheets: for cell in worksheet.cells: #print(cell.cell_type) # dbg conv_fn = self.dispatch(cell.cell_type) lines.extend(conv_fn(cell)) lines.append('') lines.extend(self.optional_footer()) return '\n'.join(lines) def render(self): "read, convert, and save self.infile" self.read() self.output = self.convert() return self.save() def read(self): "read and parse notebook into NotebookNode called self.nb" with open(self.infile) as f: self.nb = nbformat.read(f, 'json') def save(self, infile=None, encoding=None): "read and parse notebook into self.nb" if infile is None: infile = os.path.splitext(self.infile)[0] + '.' + self.extension if encoding is None: encoding = self.default_encoding with open(infile, 'w') as f: f.write(self.output.encode(encoding)) return infile def optional_header(self): return [] def optional_footer(self): return [] def _new_figure(self, data, fmt): """Create a new figure file in the given format. Returns a path relative to the input file. """ figname = '%s_fig_%02i.%s' % (self.infile_root, self.figures_counter, fmt) self.figures_counter += 1 fullname = os.path.join(self.files_dir, figname) # Binary files are base64-encoded, SVG is already XML if fmt in ('png', 'jpg', 'pdf'): data = data.decode('base64') fopen = lambda fname: open(fname, 'wb') else: fopen = lambda fname: codecs.open(fname, 'wb', self.default_encoding) with fopen(fullname) as f: f.write(data) return fullname def render_heading(self, cell): """convert a heading cell Returns list.""" raise NotImplementedError def render_code(self, cell): """Convert a code cell Returns list.""" raise NotImplementedError def render_markdown(self, cell): """convert a markdown cell Returns list.""" raise NotImplementedError def render_pyout(self, output): """convert pyout part of a code cell Returns list.""" raise NotImplementedError def render_pyerr(self, output): """convert pyerr part of a code cell Returns list.""" raise NotImplementedError def _img_lines(self, img_file): """Return list of lines to include an image file.""" # Note: subclasses may choose to implement format-specific _FMT_lines # methods if they so choose (FMT in {png, svg, jpg, pdf}). raise NotImplementedError def render_display_data(self, output): """convert display data from the output of a code cell Returns list. """ lines = [] for fmt in ['png', 'svg', 'jpg', 'pdf']: if fmt in output: img_file = self._new_figure(output[fmt], fmt) # Subclasses can have format-specific render functions (e.g., # latex has to auto-convert all SVG to PDF first). lines_fun = getattr(self, '_%s_lines' % fmt, None) if not lines_fun: lines_fun = self._img_lines lines.extend(lines_fun(img_file)) return lines def render_stream(self, cell): """convert stream part of a code cell Returns list.""" raise NotImplementedError def render_raw(self, cell): """convert a cell with raw text Returns list.""" raise NotImplementedError def render_unknown(self, cell): """Render cells of unkown type Returns list.""" data = pprint.pformat(cell) logging.warning('Unknown cell:\n%s' % data) return self._unknown_lines(data) def _unknown_lines(self, data): """Return list of lines for an unknown cell. Parameters ---------- data : str The content of the unknown data as a single string. """ raise NotImplementedError class ConverterRST(Converter): extension = 'rst' heading_level = {1: '=', 2: '-', 3: '`', 4: '\'', 5: '.', 6: '~'} @DocInherit def render_heading(self, cell): marker = self.heading_level[cell.level] return ['{0}\n{1}\n'.format(cell.source, marker * len(cell.source))] @DocInherit def render_code(self, cell): if not cell.input: return [] lines = ['In[%s]:' % cell.prompt_number, ''] lines.extend(rst_directive('.. code:: python', cell.input)) for output in cell.outputs: conv_fn = self.dispatch(output.output_type) lines.extend(conv_fn(output)) return lines @DocInherit def render_markdown(self, cell): return [cell.source] @DocInherit def render_raw(self, cell): if self.raw_as_verbatim: return ['::', '', indent(cell.source), ''] else: return [cell.source] @DocInherit def render_pyout(self, output): lines = ['Out[%s]:' % output.prompt_number, ''] # output is a dictionary like object with type as a key if 'latex' in output: lines.extend(rst_directive('.. math::', output.latex)) if 'text' in output: lines.extend(rst_directive('.. parsed-literal::', output.text)) return lines @DocInherit def render_pyerr(self, output): # Note: a traceback is a *list* of frames. return ['::', '', indent(remove_ansi('\n'.join(output.traceback))), ''] @DocInherit def _img_lines(self, img_file): return ['.. image:: %s' % img_file, ''] @DocInherit def render_stream(self, output): lines = [] if 'text' in output: lines.extend(rst_directive('.. parsed-literal::', output.text)) return lines @DocInherit def _unknown_lines(self, data): return rst_directive('.. warning:: Unknown cell') + [data] class ConverterQuickHTML(Converter): extension = 'html' def in_tag(self, tag, src): """Return a list of elements bracketed by the given tag""" return ['<%s>' % tag, src, '' % tag] def optional_header(self): # XXX: inject the IPython standard CSS into here s = """ """ return s.splitlines() def optional_footer(self): s = """ """ return s.splitlines() @DocInherit def render_heading(self, cell): marker = cell.level return ['\n {0}\n'.format(cell.source, marker)] @DocInherit def render_code(self, cell): if not cell.input: return [] lines = [''] lines.append('') for output in cell.outputs: lines.append('') lines.append('
In [%s]:' % cell.prompt_number) lines.append("
\n".join(cell.input.splitlines())) lines.append('
') conv_fn = self.dispatch(output.output_type) lines.extend(conv_fn(output)) lines.append('
') return lines @DocInherit def render_markdown(self, cell): return self.in_tag('pre', cell.source) @DocInherit def render_raw(self, cell): if self.raw_as_verbatim: return self.in_tag('pre', cell.source) else: return [cell.source] @DocInherit def render_pyout(self, output): lines = ['Out[%s]:' % output.prompt_number, ''] # output is a dictionary like object with type as a key for out_type in ('text', 'latex'): if out_type in output: lines.extend(self.in_tag('pre', indent(output[out_type]))) return lines @DocInherit def render_pyerr(self, output): # Note: a traceback is a *list* of frames. return self.in_tag('pre', remove_ansi('\n'.join(output.traceback))) @DocInherit def _img_lines(self, img_file): return ['' % img_file, ''] @DocInherit def render_stream(self, output): lines = [] if 'text' in output: lines.append(output.text) return lines @DocInherit def _unknown_lines(self, data): return ['

Warning:: Unknown cell

'] + self.in_tag('pre', data) class ConverterLaTeX(Converter): """Converts a notebook to a .tex file suitable for pdflatex. Note: this converter *needs*: - `pandoc`: for all conversion of markdown cells. If your notebook only has Raw cells, pandoc will not be needed. - `inkscape`: if your notebook has SVG figures. These need to be converted to PDF before inclusion in the TeX file, as LaTeX doesn't understand SVG natively. You will in general obtain much better final PDF results if you configure the matplotlib backend to create SVG output with %config InlineBackend.figure_format = 'svg' (or set the equivalent flag at startup or in your configuration profile). """ extension = 'tex' documentclass = 'article' documentclass_options = '11pt,english' heading_map = {1: r'\section', 2: r'\subsection', 3: r'\subsubsection', 4: r'\paragraph', 5: r'\subparagraph', 6: r'\subparagraph'} def in_env(self, environment, lines): """Return list of environment lines for input lines Parameters ---------- env : string Name of the environment to bracket with begin/end. lines: """ out = [r'\begin{%s}' % environment] if isinstance(lines, basestring): out.append(lines) else: # list out.extend(lines) out.append(r'\end{%s}' % environment) return out def convert(self): # The main body is done by the logic in the parent class, and that's # all we need if preamble support has been turned off. body = super(ConverterLaTeX, self).convert() if not self.with_preamble: return body # But if preamble is on, then we need to construct a proper, standalone # tex file. # Tag the document at the top and set latex class final = [ r'%% This file was auto-generated by IPython, do NOT edit', r'%% Conversion from the original notebook file:', r'%% {0}'.format(self.infile), r'%%', r'\documentclass[%s]{%s}' % (self.documentclass_options, self.documentclass), '', ] # Load our own preamble, which is stored next to the main file. We # need to be careful in case the script entry point is a symlink myfile = __file__ if not os.path.islink(__file__) else \ os.readlink(__file__) with open(os.path.join(os.path.dirname(myfile), 'preamble.tex')) as f: final.append(f.read()) # Load any additional user-supplied preamble if self.user_preamble: final.extend(['', '%% Adding user preamble from file:', '%% {0}'.format(self.user_preamble), '']) with open(self.user_preamble) as f: final.append(f.read()) # Include document body final.extend([ r'\begin{document}', '', body, r'\end{document}', '']) # Retun value must be a string return '\n'.join(final) @DocInherit def render_heading(self, cell): marker = self.heading_map[cell.level] return ['%s{%s}\n\n' % (marker, cell.source) ] @DocInherit def render_code(self, cell): if not cell.input: return [] # Cell codes first carry input code, we use lstlisting for that lines = [r'\begin{codecell}'] lines.extend(self.in_env('codeinput', self.in_env('lstlisting', cell.input))) outlines = [] for output in cell.outputs: conv_fn = self.dispatch(output.output_type) outlines.extend(conv_fn(output)) # And then output of many possible types; use a frame for all of it. if outlines: lines.extend(self.in_env('codeoutput', outlines)) lines.append(r'\end{codecell}') return lines @DocInherit def _img_lines(self, img_file): return self.in_env('center', [r'\includegraphics[width=3in]{%s}' % img_file, r'\par']) def _svg_lines(self, img_file): base_file = os.path.splitext(img_file)[0] pdf_file = base_file + '.pdf' subprocess.check_call(['inkscape', '--export-pdf=%s' % pdf_file, img_file]) return self._img_lines(pdf_file) @DocInherit def render_stream(self, output): lines = [] if 'text' in output: lines.extend(self.in_env('verbatim', output.text.strip())) return lines @DocInherit def render_markdown(self, cell): return [markdown2latex(cell['source'])] @DocInherit def render_pyout(self, output): lines = [] # output is a dictionary like object with type as a key if 'latex' in output: lines.extend(output.latex) if 'text' in output: lines.extend(self.in_env('verbatim', output.text)) return lines @DocInherit def render_pyerr(self, output): # Note: a traceback is a *list* of frames. return self.in_env('traceback', self.in_env('verbatim', remove_ansi('\n'.join(output.traceback)))) @DocInherit def render_raw(self, cell): if self.raw_as_verbatim: return self.in_env('verbatim', cell.source) else: return [cell.source] @DocInherit def _unknown_lines(self, data): return [r'{\vspace{5mm}\bf WARNING:: unknown cell:}'] + \ self.in_env('verbatim', data) def rst2simplehtml(infile): """Convert a rst file to simplified html suitable for blogger. This just runs rst2html with certain parameters to produce really simple html and strips the document header, so the resulting file can be easily pasted into a blogger edit window. """ # This is the template for the rst2html call that produces the cleanest, # simplest html I could find. This should help in making it easier to # paste into the blogspot html window, though I'm still having problems # with linebreaks there... cmd_template = ("rst2html --link-stylesheet --no-xml-declaration " "--no-generator --no-datestamp --no-source-link " "--no-toc-backlinks --no-section-numbering " "--strip-comments ") cmd = "%s %s" % (cmd_template, infile) proc = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=True) html, stderr = proc.communicate() if stderr: raise IOError(stderr) # Make an iterator so breaking out holds state. Our implementation of # searching for the html body below is basically a trivial little state # machine, so we need this. walker = iter(html.splitlines()) # Find start of main text, break out to then print until we find end /div. # This may only work if there's a real title defined so we get a 'div class' # tag, I haven't really tried. for line in walker: if line.startswith(''): break newfname = os.path.splitext(infile)[0] + '.html' with open(newfname, 'w') as f: for line in walker: if line.startswith(''): break f.write(line) f.write('\n') return newfname known_formats = "rst (default), html, quick-html, latex" def main(infile, format='rst'): """Convert a notebook to html in one step""" # XXX: this is just quick and dirty for now. When adding a new format, # make sure to add it to the `known_formats` string above, which gets # printed in in the catch-all else, as well as in the help if format == 'rst': converter = ConverterRST(infile) converter.render() elif format == 'html': #Currently, conversion to html is a 2 step process, nb->rst->html converter = ConverterRST(infile) rstfname = converter.render() rst2simplehtml(rstfname) elif format == 'quick-html': converter = ConverterQuickHTML(infile) rstfname = converter.render() elif format == 'latex': converter = ConverterLaTeX(infile) latexfname = converter.render() else: raise SystemExit("Unknown format '%s', " % format + "known formats are: " + known_formats) if __name__ == '__main__': parser = argparse.ArgumentParser(description=__doc__, formatter_class=argparse.RawTextHelpFormatter) # TODO: consider passing file like object around, rather than filenames # would allow us to process stdin, or even http streams #parser.add_argument('infile', nargs='?', type=argparse.FileType('r'), default=sys.stdin) #Require a filename as a positional argument parser.add_argument('infile', nargs=1) parser.add_argument('-f', '--format', default='rst', help='Output format. Supported formats: \n' + known_formats) args = parser.parse_args() main(infile=args.infile[0], format=args.format)