'''Add syntax highlighting to Python source code''' __author__ = 'Raymond Hettinger' import keyword, tokenize, cgi, re, functools try: import builtins except ImportError: import __builtin__ as builtins #### Analyze Python Source ################################# def is_builtin(s): 'Return True if s is the name of a builtin' return hasattr(builtins, s) def combine_range(lines, start, end): 'Join content from a range of lines between start and end' (srow, scol), (erow, ecol) = start, end if srow == erow: return lines[srow-1][scol:ecol], end rows = [lines[srow-1][scol:]] + lines[srow: erow-1] + [lines[erow-1][:ecol]] return ''.join(rows), end def analyze_python(source): '''Generate and classify chunks of Python for syntax highlighting. Yields tuples in the form: (category, categorized_text). ''' lines = source.splitlines(True) lines.append('') readline = functools.partial(next, iter(lines), '') kind = tok_str = '' tok_type = tokenize.COMMENT written = (1, 0) for tok in tokenize.generate_tokens(readline): prev_tok_type, prev_tok_str = tok_type, tok_str tok_type, tok_str, (srow, scol), (erow, ecol), logical_lineno = tok kind = '' if tok_type == tokenize.COMMENT: kind = 'comment' elif tok_type == tokenize.OP and tok_str[:1] not in '{}[](),.:;@': kind = 'operator' elif tok_type == tokenize.STRING: kind = 'string' if prev_tok_type == tokenize.INDENT or scol==0: kind = 'docstring' elif tok_type == tokenize.NAME: if tok_str in ('def', 'class', 'import', 'from'): kind = 'definition' elif prev_tok_str in ('def', 'class'): kind = 'defname' elif keyword.iskeyword(tok_str): kind = 'keyword' elif is_builtin(tok_str) and prev_tok_str != '.': kind = 'builtin' if kind: if written != (srow, scol): text, written = combine_range(lines, written, (srow, scol)) yield '', text text, written = tok_str, (erow, ecol) yield kind, text line_upto_token, written = combine_range(lines, written, (erow, ecol)) yield '', line_upto_token #### Raw Output ########################################### def raw_highlight(classified_text): 'Straight text display of text classifications' result = [] for kind, text in classified_text: result.append('%15s: %r\n' % (kind or 'plain', text)) return ''.join(result) #### ANSI Output ########################################### default_ansi = { 'comment': ('\033[0;31m', '\033[0m'), 'string': ('\033[0;32m', '\033[0m'), 'docstring': ('\033[0;32m', '\033[0m'), 'keyword': ('\033[0;33m', '\033[0m'), 'builtin': ('\033[0;35m', '\033[0m'), 'definition': ('\033[0;33m', '\033[0m'), 'defname': ('\033[0;34m', '\033[0m'), 'operator': ('\033[0;33m', '\033[0m'), } def ansi_highlight(classified_text, colors=default_ansi): 'Add syntax highlighting to source code using ANSI escape sequences' # http://en.wikipedia.org/wiki/ANSI_escape_code result = [] for kind, text in classified_text: opener, closer = colors.get(kind, ('', '')) result += [opener, text, closer] return ''.join(result) #### HTML Output ########################################### def html_highlight(classified_text,opener='
\n', closer='
\n'): 'Convert classified text to an HTML fragment' result = [opener] for kind, text in classified_text: if kind: result.append('' % kind) result.append(cgi.escape(text)) if kind: result.append('') result.append(closer) return ''.join(result) default_css = { '.comment': '{color: crimson;}', '.string': '{color: forestgreen;}', '.docstring': '{color: forestgreen; font-style:italic;}', '.keyword': '{color: darkorange;}', '.builtin': '{color: purple;}', '.definition': '{color: darkorange; font-weight:bold;}', '.defname': '{color: blue;}', '.operator': '{color: brown;}', } default_html = '''\ {title} {body} ''' def build_html_page(classified_text, title='python', css=default_css, html=default_html): 'Create a complete HTML page with colorized source code' css_str = '\n'.join(['%s %s' % item for item in css.items()]) result = html_highlight(classified_text) title = cgi.escape(title) return html.format(title=title, css=css_str, body=result) #### LaTeX Output ########################################## default_latex_commands = { 'comment': '{\color{red}#1}', 'string': '{\color{ForestGreen}#1}', 'docstring': '{\emph{\color{ForestGreen}#1}}', 'keyword': '{\color{orange}#1}', 'builtin': '{\color{purple}#1}', 'definition': '{\color{orange}#1}', 'defname': '{\color{blue}#1}', 'operator': '{\color{brown}#1}', } default_latex_document = r''' \documentclass{article} \usepackage{alltt} \usepackage{upquote} \usepackage{color} \usepackage[usenames,dvipsnames]{xcolor} \usepackage[cm]{fullpage} %(macros)s \begin{document} \center{\LARGE{%(title)s}} \begin{alltt} %(body)s \end{alltt} \end{document} ''' def alltt_escape(s): 'Replace backslash and braces with their escaped equivalents' xlat = {'{': r'\{', '}': r'\}', '\\': r'\textbackslash{}'} return re.sub(r'[\\{}]', lambda mo: xlat[mo.group()], s) def latex_highlight(classified_text, title = 'python', commands = default_latex_commands, document = default_latex_document): 'Create a complete LaTeX document with colorized source code' macros = '\n'.join(r'\newcommand{\py%s}[1]{%s}' % c for c in commands.items()) result = [] for kind, text in classified_text: if kind: result.append(r'\py%s{' % kind) result.append(alltt_escape(text)) if kind: result.append('}') return default_latex_document % dict(title=title, macros=macros, body=''.join(result)) if __name__ == '__main__': import sys, argparse, webbrowser, os, textwrap parser = argparse.ArgumentParser( description = 'Add syntax highlighting to Python source code', formatter_class=argparse.RawDescriptionHelpFormatter, epilog = textwrap.dedent(''' examples: # Show syntax highlighted code in the terminal window $ ./highlight.py myfile.py # Colorize myfile.py and display in a browser $ ./highlight.py -b myfile.py # Create an HTML section to embed in an existing webpage ./highlight.py -s myfile.py # Create a complete HTML file $ ./highlight.py -c myfile.py > myfile.html # Create a PDF using LaTeX $ ./highlight.py -l myfile.py | pdflatex ''')) parser.add_argument('sourcefile', metavar = 'SOURCEFILE', help = 'file containing Python sourcecode') parser.add_argument('-b', '--browser', action = 'store_true', help = 'launch a browser to show results') parser.add_argument('-c', '--complete', action = 'store_true', help = 'build a complete html webpage') parser.add_argument('-l', '--latex', action = 'store_true', help = 'build a LaTeX document') parser.add_argument('-r', '--raw', action = 'store_true', help = 'raw parse of categorized text') parser.add_argument('-s', '--section', action = 'store_true', help = 'show an HTML section rather than a complete webpage') args = parser.parse_args() if args.section and (args.browser or args.complete): parser.error('The -s/--section option is incompatible with ' 'the -b/--browser or -c/--complete options') sourcefile = args.sourcefile with open(sourcefile) as f: source = f.read() classified_text = analyze_python(source) if args.raw: encoded = raw_highlight(classified_text) elif args.complete or args.browser: encoded = build_html_page(classified_text, title=sourcefile) elif args.section: encoded = html_highlight(classified_text) elif args.latex: encoded = latex_highlight(classified_text, title=sourcefile) else: encoded = ansi_highlight(classified_text) if args.browser: htmlfile = os.path.splitext(os.path.basename(sourcefile))[0] + '.html' with open(htmlfile, 'w') as f: f.write(encoded) webbrowser.open('file://' + os.path.abspath(htmlfile)) else: sys.stdout.write(encoded)