Gitiles
Code Review Sign In
gerrit.avm99963.com / monorail-avm99963 / f779fa013a7948106b73568525602c66c658d734 / . / third_party / markdown.py
blob: f6a9a87cbe13367b8aabae77087aebe626612e1c [file] [log] [blame]
#!/usr/bin/python
"""markdown.py: A Markdown-styled-text to HTML converter in Python.
Usage:
./markdown.py textfile.markdown
Calling:
import markdown
somehtml = markdown.markdown(sometext)
For other versions of markdown, see:
http://www.freewisdom.org/projects/python-markdown/
http://en.wikipedia.org/wiki/Markdown
"""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import md5
import re
import sys
__version__ = '1.0.1-2' # port of 1.0.1
__license__ = "GNU GPL 2"
__author__ = [
'John Gruber <http://daringfireball.net/>',
'Tollef Fog Heen <tfheen@err.no>',
'Aaron Swartz <me@aaronsw.com>'
]
def htmlquote(text):
"""Encodes `text` for raw use in HTML."""
text = text.replace("&", "&amp;") # Must be done first!
text = text.replace("<", "&lt;")
text = text.replace(">", "&gt;")
text = text.replace("'", "&#39;")
text = text.replace('"', "&quot;")
return text
def semirandom(seed):
x = 0
for c in md5.new(seed).digest(): x += ord(c)
return x / (255*16.)
class _Markdown:
emptyelt = " />"
tabwidth = 4
escapechars = '\\`*_{}[]()>#+-.!'
escapetable = {}
for char in escapechars:
escapetable[char] = md5.new(char).hexdigest()
r_multiline = re.compile("\n{2,}")
r_stripspace = re.compile(r"^[ \t]+$", re.MULTILINE)
def parse(self, text):
self.urls = {}
self.titles = {}
self.html_blocks = {}
self.list_level = 0
text = text.replace("\r\n", "\n")
text = text.replace("\r", "\n")
text += "\n\n"
text = self._Detab(text)
text = self.r_stripspace.sub("", text)
text = self._HashHTMLBlocks(text)
text = self._StripLinkDefinitions(text)
text = self._RunBlockGamut(text)
text = self._UnescapeSpecialChars(text)
return text
r_StripLinkDefinitions = re.compile(r"""
^[ ]{0,%d}\[(.+)\]: # id = $1
[ \t]*\n?[ \t]*
<?(\S+?)>? # url = $2
[ \t]*\n?[ \t]*
(?:
(?<=\s) # lookbehind for whitespace
[\"\(] # " is backlashed so it colorizes our code right
(.+?) # title = $3
[\"\)]
[ \t]*
)? # title is optional
(?:\n+|\Z)
""" % (tabwidth-1), re.MULTILINE|re.VERBOSE)
def _StripLinkDefinitions(self, text):
def replacefunc(matchobj):
(t1, t2, t3) = matchobj.groups()
#@@ case sensitivity?
self.urls[t1.lower()] = self._EncodeAmpsAndAngles(t2)
if t3 is not None:
self.titles[t1.lower()] = t3.replace('"', '&quot;')
return ""
text = self.r_StripLinkDefinitions.sub(replacefunc, text)
return text
blocktagsb = r"p|div|h[1-6]|blockquote|pre|table|dl|ol|ul|script|math"
blocktagsa = blocktagsb + "|ins|del"
r_HashHTMLBlocks1 = re.compile(r"""
( # save in $1
^ # start of line (with /m)
<(%s) # start tag = $2
\b # word break
(.*\n)*? # any number of lines, minimally matching
</\2> # the matching end tag
[ \t]* # trailing spaces/tabs
(?=\n+|$) # followed by a newline or end of document
)
""" % blocktagsa, re.MULTILINE | re.VERBOSE)
r_HashHTMLBlocks2 = re.compile(r"""
( # save in $1
^ # start of line (with /m)
<(%s) # start tag = $2
\b # word break
(.*\n)*? # any number of lines, minimally matching
.*</\2> # the matching end tag
[ \t]* # trailing spaces/tabs
(?=\n+|\Z) # followed by a newline or end of document
)
""" % blocktagsb, re.MULTILINE | re.VERBOSE)
r_HashHR = re.compile(r"""
(?:
(?<=\n\n) # Starting after a blank line
| # or
\A\n? # the beginning of the doc
)
( # save in $1
[ ]{0,%d}
<(hr) # start tag = $2
\b # word break
([^<>])*? #
/?> # the matching end tag
[ \t]*
(?=\n{2,}|\Z)# followed by a blank line or end of document
)
""" % (tabwidth-1), re.VERBOSE)
r_HashComment = re.compile(r"""
(?:
(?<=\n\n) # Starting after a blank line
| # or
\A\n? # the beginning of the doc
)
( # save in $1
[ ]{0,%d}
(?:
<!
(--.*?--\s*)+
>
)
[ \t]*
(?=\n{2,}|\Z)# followed by a blank line or end of document
)
""" % (tabwidth-1), re.VERBOSE)
def _HashHTMLBlocks(self, text):
def handler(m):
key = md5.new(m.group(1)).hexdigest()
self.html_blocks[key] = m.group(1)
return "\n\n%s\n\n" % key
text = self.r_HashHTMLBlocks1.sub(handler, text)
text = self.r_HashHTMLBlocks2.sub(handler, text)
oldtext = text
text = self.r_HashHR.sub(handler, text)
text = self.r_HashComment.sub(handler, text)
return text
#@@@ wrong!
r_hr1 = re.compile(r'^[ ]{0,2}([ ]?\*[ ]?){3,}[ \t]*$', re.M)
r_hr2 = re.compile(r'^[ ]{0,2}([ ]?-[ ]?){3,}[ \t]*$', re.M)
r_hr3 = re.compile(r'^[ ]{0,2}([ ]?_[ ]?){3,}[ \t]*$', re.M)
def _RunBlockGamut(self, text):
text = self._DoHeaders(text)
for x in [self.r_hr1, self.r_hr2, self.r_hr3]:
text = x.sub("\n<hr%s\n" % self.emptyelt, text);
text = self._DoLists(text)
text = self._DoCodeBlocks(text)
text = self._DoBlockQuotes(text)
# We did this in parse()
# to escape the source
# now it's stuff _we_ made
# so we don't wrap it in <p>s.
text = self._HashHTMLBlocks(text)
text = self._FormParagraphs(text)
return text
r_NewLine = re.compile(" {2,}\n")
def _RunSpanGamut(self, text):
text = self._DoCodeSpans(text)
text = self._EscapeSpecialChars(text)
text = self._DoImages(text)
text = self._DoAnchors(text)
text = self._DoAutoLinks(text)
text = self._EncodeAmpsAndAngles(text)
text = self._DoItalicsAndBold(text)
text = self.r_NewLine.sub(" <br%s\n" % self.emptyelt, text)
return text
def _EscapeSpecialChars(self, text):
tokens = self._TokenizeHTML(text)
text = ""
for cur_token in tokens:
if cur_token[0] == "tag":
cur_token[1] = cur_token[1].replace('*', self.escapetable["*"])
cur_token[1] = cur_token[1].replace('_', self.escapetable["_"])
text += cur_token[1]
else:
text += self._EncodeBackslashEscapes(cur_token[1])
return text
r_DoAnchors1 = re.compile(
r""" ( # wrap whole match in $1
\[
(.*?) # link text = $2
# [for bracket nesting, see below]
\]
[ ]? # one optional space
(?:\n[ ]*)? # one optional newline followed by spaces
\[
(.*?) # id = $3
\]
)
""", re.S|re.VERBOSE)
r_DoAnchors2 = re.compile(
r""" ( # wrap whole match in $1
\[
(.*?) # link text = $2
\]
\( # literal paren
[ \t]*
<?(.+?)>? # href = $3
[ \t]*
( # $4
([\'\"]) # quote char = $5
(.*?) # Title = $6
\5 # matching quote
)? # title is optional
\)
)
""", re.S|re.VERBOSE)
def _DoAnchors(self, text):
# We here don't do the same as the perl version, as python's regex
# engine gives us no way to match brackets.
def handler1(m):
whole_match = m.group(1)
link_text = m.group(2)
link_id = m.group(3).lower()
if not link_id: link_id = link_text.lower()
title = self.titles.get(link_id, None)
if self.urls.has_key(link_id):
url = self.urls[link_id]
url = url.replace("*", self.escapetable["*"])
url = url.replace("_", self.escapetable["_"])
res = '<a href="%s"' % htmlquote(url)
if title:
title = title.replace("*", self.escapetable["*"])
title = title.replace("_", self.escapetable["_"])
res += ' title="%s"' % htmlquote(title)
res += ">%s</a>" % htmlquote(link_text)
else:
res = whole_match
return res
def handler2(m):
whole_match = m.group(1)
link_text = m.group(2)
url = m.group(3)
title = m.group(6)
url = url.replace("*", self.escapetable["*"])
url = url.replace("_", self.escapetable["_"])
res = '''<a href="%s"''' % htmlquote(url)
if title:
title = title.replace('"', '&quot;')
title = title.replace("*", self.escapetable["*"])
title = title.replace("_", self.escapetable["_"])
res += ' title="%s"' % htmlquote(title)
res += ">%s</a>" % htmlquote(link_text)
return res
text = self.r_DoAnchors1.sub(handler1, text)
text = self.r_DoAnchors2.sub(handler2, text)
return text
r_DoImages1 = re.compile(
r""" ( # wrap whole match in $1
!\[
(.*?) # alt text = $2
\]
[ ]? # one optional space
(?:\n[ ]*)? # one optional newline followed by spaces
\[
(.*?) # id = $3
\]
)
""", re.VERBOSE|re.S)
r_DoImages2 = re.compile(
r""" ( # wrap whole match in $1
!\[
(.*?) # alt text = $2
\]
\( # literal paren
[ \t]*
<?(\S+?)>? # src url = $3
[ \t]*
( # $4
([\'\"]) # quote char = $5
(.*?) # title = $6
\5 # matching quote
[ \t]*
)? # title is optional
\)
)
""", re.VERBOSE|re.S)
def _DoImages(self, text):
def handler1(m):
whole_match = m.group(1)
alt_text = m.group(2)
link_id = m.group(3).lower()
if not link_id:
link_id = alt_text.lower()
alt_text = alt_text.replace('"', "&quot;")
if self.urls.has_key(link_id):
url = self.urls[link_id]
url = url.replace("*", self.escapetable["*"])
url = url.replace("_", self.escapetable["_"])
res = '''<img src="%s" alt="%s"''' % (htmlquote(url), htmlquote(alt_text))
if self.titles.has_key(link_id):
title = self.titles[link_id]
title = title.replace("*", self.escapetable["*"])
title = title.replace("_", self.escapetable["_"])
res += ' title="%s"' % htmlquote(title)
res += self.emptyelt
else:
res = whole_match
return res
def handler2(m):
whole_match = m.group(1)
alt_text = m.group(2)
url = m.group(3)
title = m.group(6) or ''
alt_text = alt_text.replace('"', "&quot;")
title = title.replace('"', "&quot;")
url = url.replace("*", self.escapetable["*"])
url = url.replace("_", self.escapetable["_"])
res = '<img src="%s" alt="%s"' % (htmlquote(url), htmlquote(alt_text))
if title is not None:
title = title.replace("*", self.escapetable["*"])
title = title.replace("_", self.escapetable["_"])
res += ' title="%s"' % htmlquote(title)
res += self.emptyelt
return res
text = self.r_DoImages1.sub(handler1, text)
text = self.r_DoImages2.sub(handler2, text)
return text
r_DoHeaders = re.compile(r"^(\#{1,6})[ \t]*(.+?)[ \t]*\#*\n+", re.VERBOSE|re.M)
def _DoHeaders(self, text):
def findheader(text, c, n):
textl = text.split('\n')
for i in range(len(textl)):
if i >= len(textl): continue
count = textl[i].strip().count(c)
if count > 0 and count == len(textl[i].strip()) and textl[i+1].strip() == '' and textl[i-1].strip() != '':
textl = textl[:i] + textl[i+1:]
textl[i-1] = '<h'+n+'>'+self._RunSpanGamut(textl[i-1])+'</h'+n+'>'
textl = textl[:i] + textl[i+1:]
text = '\n'.join(textl)
return text
def handler(m):
level = len(m.group(1))
header = self._RunSpanGamut(m.group(2))
return "<h%s>%s</h%s>\n\n" % (level, header, level)
text = findheader(text, '=', '1')
text = findheader(text, '-', '2')
text = self.r_DoHeaders.sub(handler, text)
return text
rt_l = r"""
(
(
[ ]{0,%d}
([*+-]|\d+[.])
[ \t]+
)
(?:.+?)
(
\Z
|
\n{2,}
(?=\S)
(?![ \t]* ([*+-]|\d+[.])[ \t]+)
)
)
""" % (tabwidth - 1)
r_DoLists = re.compile('^'+rt_l, re.M | re.VERBOSE | re.S)
r_DoListsTop = re.compile(
r'(?:\A\n?|(?<=\n\n))'+rt_l, re.M | re.VERBOSE | re.S)
def _DoLists(self, text):
def handler(m):
list_type = "ol"
if m.group(3) in [ "*", "-", "+" ]:
list_type = "ul"
listn = m.group(1)
listn = self.r_multiline.sub("\n\n\n", listn)
res = self._ProcessListItems(listn)
res = "<%s>\n%s</%s>\n" % (list_type, res, list_type)
return res
if self.list_level:
text = self.r_DoLists.sub(handler, text)
else:
text = self.r_DoListsTop.sub(handler, text)
return text
r_multiend = re.compile(r"\n{2,}\Z")
r_ProcessListItems = re.compile(r"""
(\n)? # leading line = $1
(^[ \t]*) # leading whitespace = $2
([*+-]|\d+[.]) [ \t]+ # list marker = $3
((?:.+?) # list item text = $4
(\n{1,2}))
(?= \n* (\Z | \2 ([*+-]|\d+[.]) [ \t]+))
""", re.VERBOSE | re.M | re.S)
def _ProcessListItems(self, text):
self.list_level += 1
text = self.r_multiend.sub("\n", text)
def handler(m):
item = m.group(4)
leading_line = m.group(1)
leading_space = m.group(2)
if leading_line or self.r_multiline.search(item):
item = self._RunBlockGamut(self._Outdent(item))
else:
item = self._DoLists(self._Outdent(item))
if item[-1] == "\n": item = item[:-1] # chomp
item = self._RunSpanGamut(item)
return "<li>%s</li>\n" % item
text = self.r_ProcessListItems.sub(handler, text)
self.list_level -= 1
return text
r_DoCodeBlocks = re.compile(r"""
(?:\n\n|\A)
( # $1 = the code block
(?:
(?:[ ]{%d} | \t) # Lines must start with a tab or equiv
.*\n+
)+
)
((?=^[ ]{0,%d}\S)|\Z) # Lookahead for non-space/end of doc
""" % (tabwidth, tabwidth), re.M | re.VERBOSE)
def _DoCodeBlocks(self, text):
def handler(m):
codeblock = m.group(1)
codeblock = self._EncodeCode(self._Outdent(codeblock))
codeblock = self._Detab(codeblock)
codeblock = codeblock.lstrip("\n")
codeblock = codeblock.rstrip()
res = "\n\n<pre><code>%s\n</code></pre>\n\n" % codeblock
return res
text = self.r_DoCodeBlocks.sub(handler, text)
return text
r_DoCodeSpans = re.compile(r"""
(`+) # $1 = Opening run of `
(.+?) # $2 = The code block
(?<!`)
\1 # Matching closer
(?!`)
""", re.I|re.VERBOSE)
def _DoCodeSpans(self, text):
def handler(m):
c = m.group(2)
c = c.strip()
c = self._EncodeCode(c)
return "<code>%s</code>" % c
text = self.r_DoCodeSpans.sub(handler, text)
return text
def _EncodeCode(self, text):
text = text.replace("&","&amp;")
text = text.replace("<","&lt;")
text = text.replace(">","&gt;")
for c in "*_{}[]\\":
text = text.replace(c, self.escapetable[c])
return text
r_DoBold = re.compile(r"(\*\*|__) (?=\S) (.+?[*_]*) (?<=\S) \1", re.VERBOSE | re.S)
r_DoItalics = re.compile(r"(\*|_) (?=\S) (.+?) (?<=\S) \1", re.VERBOSE | re.S)
def _DoItalicsAndBold(self, text):
text = self.r_DoBold.sub(r"<strong>\2</strong>", text)
text = self.r_DoItalics.sub(r"<em>\2</em>", text)
return text
r_start = re.compile(r"^", re.M)
r_DoBlockQuotes1 = re.compile(r"^[ \t]*>[ \t]?", re.M)
r_DoBlockQuotes2 = re.compile(r"^[ \t]+$", re.M)
r_DoBlockQuotes3 = re.compile(r"""
( # Wrap whole match in $1
(
^[ \t]*>[ \t]? # '>' at the start of a line
.+\n # rest of the first line
(.+\n)* # subsequent consecutive lines
\n* # blanks
)+
)""", re.M | re.VERBOSE)
r_protectpre = re.compile(r'(\s*<pre>.+?</pre>)', re.S)
r_propre = re.compile(r'^ ', re.M)
def _DoBlockQuotes(self, text):
def prehandler(m):
return self.r_propre.sub('', m.group(1))
def handler(m):
bq = m.group(1)
bq = self.r_DoBlockQuotes1.sub("", bq)
bq = self.r_DoBlockQuotes2.sub("", bq)
bq = self._RunBlockGamut(bq)
bq = self.r_start.sub(" ", bq)
bq = self.r_protectpre.sub(prehandler, bq)
return "<blockquote>\n%s\n</blockquote>\n\n" % bq
text = self.r_DoBlockQuotes3.sub(handler, text)
return text
r_tabbed = re.compile(r"^([ \t]*)")
def _FormParagraphs(self, text):
text = text.strip("\n")
grafs = self.r_multiline.split(text)
for g in range(len(grafs)):
t = grafs[g].strip() #@@?
if not self.html_blocks.has_key(t):
t = self._RunSpanGamut(t)
t = self.r_tabbed.sub(r"<p>", t)
t += "</p>"
grafs[g] = t
for g in range(len(grafs)):
t = grafs[g].strip()
if self.html_blocks.has_key(t):
grafs[g] = self.html_blocks[t]
return "\n\n".join(grafs)
r_EncodeAmps = re.compile(r"&(?!#?[xX]?(?:[0-9a-fA-F]+|\w+);)")
r_EncodeAngles = re.compile(r"<(?![a-z/?\$!])")
def _EncodeAmpsAndAngles(self, text):
text = self.r_EncodeAmps.sub("&amp;", text)
text = self.r_EncodeAngles.sub("&lt;", text)
return text
def _EncodeBackslashEscapes(self, text):
for char in self.escapechars:
text = text.replace("\\" + char, self.escapetable[char])
return text
r_link = re.compile(r"<((https?|ftp):[^\'\">\s]+)>", re.I)
r_email = re.compile(r"""
<
(?:mailto:)?
(
[-.\w]+
\@
[-a-z0-9]+(\.[-a-z0-9]+)*\.[a-z]+
)
>""", re.VERBOSE|re.I)
def _DoAutoLinks(self, text):
text = self.r_link.sub(r'<a href="\1">\1</a>', text)
def handler(m):
l = m.group(1)
return self._EncodeEmailAddress(self._UnescapeSpecialChars(l))
text = self.r_email.sub(handler, text)
return text
r_EncodeEmailAddress = re.compile(r">.+?:")
def _EncodeEmailAddress(self, text):
encode = [
lambda x: "&#%s;" % ord(x),
lambda x: "&#x%X;" % ord(x),
lambda x: x
]
text = "mailto:" + text
addr = ""
for c in text:
if c == ':': addr += c; continue
r = semirandom(addr)
if r < 0.45:
addr += encode[1](c)
elif r > 0.9 and c != '@':
addr += encode[2](c)
else:
addr += encode[0](c)
text = '<a href="%s">%s</a>' % (addr, addr)
text = self.r_EncodeEmailAddress.sub('>', text)
return text
def _UnescapeSpecialChars(self, text):
for key in self.escapetable.keys():
text = text.replace(self.escapetable[key], key)
return text
tokenize_depth = 6
tokenize_nested_tags = '|'.join([r'(?:<[a-z/!$](?:[^<>]'] * tokenize_depth) + (')*>)' * tokenize_depth)
r_TokenizeHTML = re.compile(
r"""(?: <! ( -- .*? -- \s* )+ > ) | # comment
(?: <\? .*? \?> ) | # processing instruction
%s # nested tags
""" % tokenize_nested_tags, re.I|re.VERBOSE)
def _TokenizeHTML(self, text):
pos = 0
tokens = []
matchobj = self.r_TokenizeHTML.search(text, pos)
while matchobj:
whole_tag = matchobj.string[matchobj.start():matchobj.end()]
sec_start = matchobj.end()
tag_start = sec_start - len(whole_tag)
if pos < tag_start:
tokens.append(["text", matchobj.string[pos:tag_start]])
tokens.append(["tag", whole_tag])
pos = sec_start
matchobj = self.r_TokenizeHTML.search(text, pos)
if pos < len(text):
tokens.append(["text", text[pos:]])
return tokens
r_Outdent = re.compile(r"""^(\t|[ ]{1,%d})""" % tabwidth, re.M)
def _Outdent(self, text):
text = self.r_Outdent.sub("", text)
return text
def _Detab(self, text): return text.expandtabs(self.tabwidth)
def Markdown(*args, **kw): return _Markdown().parse(*args, **kw)
markdown = Markdown
if __name__ == '__main__':
if len(sys.argv) > 1:
print(Markdown(open(sys.argv[1]).read()))
else:
print(Markdown(sys.stdin.read()))