#!/usr/bin/env python """html2text: Turn HTML into equivalent Markdown-structured text.""" __version__ = "3.200.3" __author__ = "Aaron Swartz (me@aaronsw.com)" __copyright__ = "(C) 2004-2008 Aaron Swartz. GNU GPL 3." __contributors__ = ["Martin 'Joey' Schulze", "Ricardo Reyes", "Kevin Jay North"] # TODO: # Support decoded entities with unifiable. try: True except NameError: setattr(__builtins__, 'True', 1) setattr(__builtins__, 'False', 0) def has_key(x, y): if hasattr(x, 'has_key'): return x.has_key(y) else: return y in x try: import htmlentitydefs import urlparse import HTMLParser except ImportError: #Python3 import html.entities as htmlentitydefs import urllib.parse as urlparse import html.parser as HTMLParser try: #Python3 import urllib.request as urllib except: import urllib import optparse, re, sys, codecs, types try: from textwrap import wrap except: pass # Use Unicode characters instead of their ascii psuedo-replacements UNICODE_SNOB = 0 # Escape all special characters. Output is less readable, but avoids corner case formatting issues. ESCAPE_SNOB = 0 # Put the links after each paragraph instead of at the end. LINKS_EACH_PARAGRAPH = 0 # Wrap long lines at position. 0 for no wrapping. (Requires Python 2.3.) BODY_WIDTH = 78 # Don't show internal links (href="#local-anchor") -- corresponding link targets # won't be visible in the plain text file anyway. SKIP_INTERNAL_LINKS = True # Use inline, rather than reference, formatting for images and links INLINE_LINKS = True # Number of pixels Google indents nested lists GOOGLE_LIST_INDENT = 36 IGNORE_ANCHORS = False IGNORE_IMAGES = False IGNORE_EMPHASIS = False ### Entity Nonsense ### def name2cp(k): if k == 'apos': return ord("'") if hasattr(htmlentitydefs, "name2codepoint"): # requires Python 2.3 return htmlentitydefs.name2codepoint[k] else: k = htmlentitydefs.entitydefs[k] if k.startswith("&#") and k.endswith(";"): return int(k[2:-1]) # not in latin-1 return ord(codecs.latin_1_decode(k)[0]) unifiable = {'rsquo':"'", 'lsquo':"'", 'rdquo':'"', 'ldquo':'"', 'copy':'(C)', 'mdash':'--', 'nbsp':' ', 'rarr':'->', 'larr':'<-', 'middot':'*', 'ndash':'-', 'oelig':'oe', 'aelig':'ae', 'agrave':'a', 'aacute':'a', 'acirc':'a', 'atilde':'a', 'auml':'a', 'aring':'a', 'egrave':'e', 'eacute':'e', 'ecirc':'e', 'euml':'e', 'igrave':'i', 'iacute':'i', 'icirc':'i', 'iuml':'i', 'ograve':'o', 'oacute':'o', 'ocirc':'o', 'otilde':'o', 'ouml':'o', 'ugrave':'u', 'uacute':'u', 'ucirc':'u', 'uuml':'u', 'lrm':'', 'rlm':''} unifiable_n = {} for k in unifiable.keys(): unifiable_n[name2cp(k)] = unifiable[k] ### End Entity Nonsense ### def onlywhite(line): """Return true if the line does only consist of whitespace characters.""" for c in line: if c is not ' ' and c is not ' ': return c is ' ' return line def hn(tag): if tag[0] == 'h' and len(tag) == 2: try: n = int(tag[1]) if n in range(1, 10): return n except ValueError: return 0 def dumb_property_dict(style): """returns a hash of css attributes""" return dict([(x.strip(), y.strip()) for x, y in [z.split(':', 1) for z in style.split(';') if ':' in z]]); def dumb_css_parser(data): """returns a hash of css selectors, each of which contains a hash of css attributes""" # remove @import sentences data += ';' importIndex = data.find('@import') while importIndex != -1: data = data[0:importIndex] + data[data.find(';', importIndex) + 1:] importIndex = data.find('@import') # parse the css. reverted from dictionary compehension in order to support older pythons elements = [x.split('{') for x in data.split('}') if '{' in x.strip()] try: elements = dict([(a.strip(), dumb_property_dict(b)) for a, b in elements]) except ValueError: elements = {} # not that important return elements def element_style(attrs, style_def, parent_style): """returns a hash of the 'final' style attributes of the element""" style = parent_style.copy() if 'class' in attrs: for css_class in attrs['class'].split(): css_style = style_def['.' + css_class] style.update(css_style) if 'style' in attrs: immediate_style = dumb_property_dict(attrs['style']) style.update(immediate_style) return style def google_list_style(style): """finds out whether this is an ordered or unordered list""" if 'list-style-type' in style: list_style = style['list-style-type'] if list_style in ['disc', 'circle', 'square', 'none']: return 'ul' return 'ol' def google_has_height(style): """check if the style of the element has the 'height' attribute explicitly defined""" if 'height' in style: return True return False def google_text_emphasis(style): """return a list of all emphasis modifiers of the element""" emphasis = [] if 'text-decoration' in style: emphasis.append(style['text-decoration']) if 'font-style' in style: emphasis.append(style['font-style']) if 'font-weight' in style: emphasis.append(style['font-weight']) return emphasis def google_fixed_width_font(style): """check if the css of the current element defines a fixed width font""" font_family = '' if 'font-family' in style: font_family = style['font-family'] if 'Courier New' == font_family or 'Consolas' == font_family: return True return False def list_numbering_start(attrs): """extract numbering from list element attributes""" if 'start' in attrs: return int(attrs['start']) - 1 else: return 0 class HTML2Text(HTMLParser.HTMLParser): def __init__(self, out=None, baseurl=''): HTMLParser.HTMLParser.__init__(self) # Config options self.unicode_snob = UNICODE_SNOB self.escape_snob = ESCAPE_SNOB self.links_each_paragraph = LINKS_EACH_PARAGRAPH self.body_width = BODY_WIDTH self.skip_internal_links = SKIP_INTERNAL_LINKS self.inline_links = INLINE_LINKS self.google_list_indent = GOOGLE_LIST_INDENT self.ignore_links = IGNORE_ANCHORS self.ignore_images = IGNORE_IMAGES self.ignore_emphasis = IGNORE_EMPHASIS self.google_doc = False self.ul_item_mark = '*' self.emphasis_mark = '_' self.strong_mark = '**' if out is None: self.out = self.outtextf else: self.out = out self.outtextlist = [] # empty list to store output characters before they are "joined" try: self.outtext = unicode() except NameError: # Python3 self.outtext = str() self.quiet = 0 self.p_p = 0 # number of newline character to print before next output self.outcount = 0 self.start = 1 self.space = 0 self.a = [] self.astack = [] self.maybe_automatic_link = None self.absolute_url_matcher = re.compile(r'^[a-zA-Z+]+://') self.acount = 0 self.list = [] self.blockquote = 0 self.pre = 0 self.startpre = 0 self.code = False self.br_toggle = '' self.lastWasNL = 0 self.lastWasList = False self.style = 0 self.style_def = {} self.tag_stack = [] self.emphasis = 0 self.drop_white_space = 0 self.inheader = False self.abbr_title = None # current abbreviation definition self.abbr_data = None # last inner HTML (for abbr being defined) self.abbr_list = {} # stack of abbreviations to write later self.baseurl = baseurl try: del unifiable_n[name2cp('nbsp')] except KeyError: pass unifiable['nbsp'] = ' _place_holder;' def feed(self, data): data = data.replace("", "") HTMLParser.HTMLParser.feed(self, data) def handle(self, data): self.feed(data) self.feed("") return self.optwrap(self.close()) def outtextf(self, s): self.outtextlist.append(s) if s: self.lastWasNL = s[-1] == '\n' def close(self): HTMLParser.HTMLParser.close(self) self.pbr() self.o('', 0, 'end') self.outtext = self.outtext.join(self.outtextlist) if self.unicode_snob: nbsp = unichr(name2cp('nbsp')) else: nbsp = u' ' self.outtext = self.outtext.replace(u' _place_holder;', nbsp) return self.outtext def handle_charref(self, c): self.o(self.charref(c), 1) def handle_entityref(self, c): self.o(self.entityref(c), 1) def handle_starttag(self, tag, attrs): self.handle_tag(tag, attrs, 1) def handle_endtag(self, tag): self.handle_tag(tag, None, 0) def previousIndex(self, attrs): """ returns the index of certain set of attributes (of a link) in the self.a list If the set of attributes is not found, returns None """ if not has_key(attrs, 'href'): return None i = -1 for a in self.a: i += 1 match = 0 if has_key(a, 'href') and a['href'] == attrs['href']: if has_key(a, 'title') or has_key(attrs, 'title'): if (has_key(a, 'title') and has_key(attrs, 'title') and a['title'] == attrs['title']): match = True else: match = True if match: return i def drop_last(self, nLetters): if not self.quiet: self.outtext = self.outtext[:-nLetters] def handle_emphasis(self, start, tag_style, parent_style): """handles various text emphases""" tag_emphasis = google_text_emphasis(tag_style) parent_emphasis = google_text_emphasis(parent_style) # handle Google's text emphasis strikethrough = 'line-through' in tag_emphasis and self.hide_strikethrough bold = 'bold' in tag_emphasis and not 'bold' in parent_emphasis italic = 'italic' in tag_emphasis and not 'italic' in parent_emphasis fixed = google_fixed_width_font(tag_style) and not \ google_fixed_width_font(parent_style) and not self.pre if start: # crossed-out text must be handled before other attributes # in order not to output qualifiers unnecessarily if bold or italic or fixed: self.emphasis += 1 if strikethrough: self.quiet += 1 if italic: self.o(self.emphasis_mark) self.drop_white_space += 1 if bold: self.o(self.strong_mark) self.drop_white_space += 1 if fixed: self.o('`') self.drop_white_space += 1 self.code = True else: if bold or italic or fixed: # there must not be whitespace before closing emphasis mark self.emphasis -= 1 self.space = 0 self.outtext = self.outtext.rstrip() if fixed: if self.drop_white_space: # empty emphasis, drop it self.drop_last(1) self.drop_white_space -= 1 else: self.o('`') self.code = False if bold: if self.drop_white_space: # empty emphasis, drop it self.drop_last(2) self.drop_white_space -= 1 else: self.o(self.strong_mark) if italic: if self.drop_white_space: # empty emphasis, drop it self.drop_last(1) self.drop_white_space -= 1 else: self.o(self.emphasis_mark) # space is only allowed after *all* emphasis marks if (bold or italic) and not self.emphasis: self.o(" ") if strikethrough: self.quiet -= 1 def handle_tag(self, tag, attrs, start): #attrs = fixattrs(attrs) if attrs is None: attrs = {} else: attrs = dict(attrs) if self.google_doc: # the attrs parameter is empty for a closing tag. in addition, we # need the attributes of the parent nodes in order to get a # complete style description for the current element. we assume # that google docs export well formed html. parent_style = {} if start: if self.tag_stack: parent_style = self.tag_stack[-1][2] tag_style = element_style(attrs, self.style_def, parent_style) self.tag_stack.append((tag, attrs, tag_style)) else: dummy, attrs, tag_style = self.tag_stack.pop() if self.tag_stack: parent_style = self.tag_stack[-1][2] if hn(tag): self.p() if start: self.inheader = True self.o(hn(tag)*"#" + ' ') else: self.inheader = False return # prevent redundant emphasis marks on headers if tag in ['p', 'div']: if self.google_doc: if start and google_has_height(tag_style): self.p() else: self.soft_br() else: self.p() if tag == "br" and start: self.o(" \n") if tag == "hr" and start: self.p() self.o("* * *") self.p() if tag in ["head", "style", 'script']: if start: self.quiet += 1 else: self.quiet -= 1 if tag == "style": if start: self.style += 1 else: self.style -= 1 if tag in ["body"]: self.quiet = 0 # sites like 9rules.com never close if tag == "blockquote": if start: self.p(); self.o('> ', 0, 1); self.start = 1 self.blockquote += 1 else: self.blockquote -= 1 self.p() if tag in ['em', 'i', 'u'] and not self.ignore_emphasis: self.o(self.emphasis_mark) if tag in ['strong', 'b'] and not self.ignore_emphasis: self.o(self.strong_mark) if tag in ['del', 'strike', 's']: if start: self.o("<"+tag+">") else: self.o("") if self.google_doc: if not self.inheader: # handle some font attributes, but leave headers clean self.handle_emphasis(start, tag_style, parent_style) if tag in ["code", "tt"] and not self.pre: self.o('`') #TODO: `` `this` `` if tag == "abbr": if start: self.abbr_title = None self.abbr_data = '' if has_key(attrs, 'title'): self.abbr_title = attrs['title'] else: if self.abbr_title != None: self.abbr_list[self.abbr_data] = self.abbr_title self.abbr_title = None self.abbr_data = '' if tag == "a" and not self.ignore_links: if start: if has_key(attrs, 'href') and not (self.skip_internal_links and attrs['href'].startswith('#')): self.astack.append(attrs) self.maybe_automatic_link = attrs['href'] else: self.astack.append(None) else: if self.astack: a = self.astack.pop() if self.maybe_automatic_link: self.maybe_automatic_link = None elif a: if self.inline_links: self.o("](" + escape_md(a['href']) + ")") else: i = self.previousIndex(a) if i is not None: a = self.a[i] else: self.acount += 1 a['count'] = self.acount a['outcount'] = self.outcount self.a.append(a) self.o("][" + str(a['count']) + "]") if tag == "img" and start and not self.ignore_images: if has_key(attrs, 'src'): attrs['href'] = attrs['src'] alt = attrs.get('alt', '') self.o("![" + escape_md(alt) + "]") if self.inline_links: self.o("(" + escape_md(attrs['href']) + ")") else: i = self.previousIndex(attrs) if i is not None: attrs = self.a[i] else: self.acount += 1 attrs['count'] = self.acount attrs['outcount'] = self.outcount self.a.append(attrs) self.o("[" + str(attrs['count']) + "]") if tag == 'dl' and start: self.p() if tag == 'dt' and not start: self.pbr() if tag == 'dd' and start: self.o(' ') if tag == 'dd' and not start: self.pbr() if tag in ["ol", "ul"]: # Google Docs create sub lists as top level lists if (not self.list) and (not self.lastWasList): self.p() if start: if self.google_doc: list_style = google_list_style(tag_style) else: list_style = tag numbering_start = list_numbering_start(attrs) self.list.append({'name':list_style, 'num':numbering_start}) else: if self.list: self.list.pop() self.lastWasList = True else: self.lastWasList = False if tag == 'li': self.pbr() if start: if self.list: li = self.list[-1] else: li = {'name':'ul', 'num':0} if self.google_doc: nest_count = self.google_nest_count(tag_style) else: nest_count = len(self.list) self.o(" " * nest_count) #TODO: line up
  1. s > 9 correctly. if li['name'] == "ul": self.o(self.ul_item_mark + " ") elif li['name'] == "ol": li['num'] += 1 self.o(str(li['num'])+". ") self.start = 1 if tag in ["table", "tr"] and start: self.p() if tag == 'td': self.pbr() if tag == "pre": if start: self.startpre = 1 self.pre = 1 else: self.pre = 0 self.p() def pbr(self): if self.p_p == 0: self.p_p = 1 def p(self): self.p_p = 2 def soft_br(self): self.pbr() self.br_toggle = ' ' def o(self, data, puredata=0, force=0): if self.abbr_data is not None: self.abbr_data += data if not self.quiet: if self.google_doc: # prevent white space immediately after 'begin emphasis' marks ('**' and '_') lstripped_data = data.lstrip() if self.drop_white_space and not (self.pre or self.code): data = lstripped_data if lstripped_data != '': self.drop_white_space = 0 if puredata and not self.pre: data = re.sub('\s+', ' ', data) if data and data[0] == ' ': self.space = 1 data = data[1:] if not data and not force: return if self.startpre: #self.out(" :") #TODO: not output when already one there if not data.startswith("\n"): #
    stuff...
                        data = "\n" + data
    
                bq = (">" * self.blockquote)
                if not (force and data and data[0] == ">") and self.blockquote: bq += " "
    
                if self.pre:
                    if not self.list:
                        bq += "    "
                    #else: list content is already partially indented
                    for i in range(len(self.list)):
                        bq += "    "
                    data = data.replace("\n", "\n"+bq)
    
                if self.startpre:
                    self.startpre = 0
                    if self.list:
                        data = data.lstrip("\n") # use existing initial indentation
    
                if self.start:
                    self.space = 0
                    self.p_p = 0
                    self.start = 0
    
                if force == 'end':
                    # It's the end.
                    self.p_p = 0
                    self.out("\n")
                    self.space = 0
    
                if self.p_p:
                    self.out((self.br_toggle+'\n'+bq)*self.p_p)
                    self.space = 0
                    self.br_toggle = ''
    
                if self.space:
                    if not self.lastWasNL: self.out(' ')
                    self.space = 0
    
                if self.a and ((self.p_p == 2 and self.links_each_paragraph) or force == "end"):
                    if force == "end": self.out("\n")
    
                    newa = []
                    for link in self.a:
                        if self.outcount > link['outcount']:
                            self.out("   ["+ str(link['count']) +"]: " + urlparse.urljoin(self.baseurl, link['href']))
                            if has_key(link, 'title'): self.out(" ("+link['title']+")")
                            self.out("\n")
                        else:
                            newa.append(link)
    
                    if self.a != newa: self.out("\n") # Don't need an extra line when nothing was done.
    
                    self.a = newa
    
                if self.abbr_list and force == "end":
                    for abbr, definition in self.abbr_list.items():
                        self.out("  *[" + abbr + "]: " + definition + "\n")
    
                self.p_p = 0
                self.out(data)
                self.outcount += 1
    
        def handle_data(self, data):
            if r'\/script>' in data: self.quiet -= 1
    
            if self.style:
                self.style_def.update(dumb_css_parser(data))
    
            if not self.maybe_automatic_link is None:
                href = self.maybe_automatic_link
                if href == data and self.absolute_url_matcher.match(href):
                    self.o("<" + data + ">")
                    return
                else:
                    self.o("[")
                    self.maybe_automatic_link = None
    
            if not self.code and not self.pre:
                data = escape_md_section(data, snob=self.escape_snob)
            self.o(data, 1)
    
        def unknown_decl(self, data): pass
    
        def charref(self, name):
            if name[0] in ['x','X']:
                c = int(name[1:], 16)
            else:
                c = int(name)
    
            if not self.unicode_snob and c in unifiable_n.keys():
                return unifiable_n[c]
            else:
                try:
                    return unichr(c)
                except NameError: #Python3
                    return chr(c)
    
        def entityref(self, c):
            if not self.unicode_snob and c in unifiable.keys():
                return unifiable[c]
            else:
                try: name2cp(c)
                except KeyError: return "&" + c + ';'
                else:
                    try:
                        return unichr(name2cp(c))
                    except NameError: #Python3
                        return chr(name2cp(c))
    
        def replaceEntities(self, s):
            s = s.group(1)
            if s[0] == "#":
                return self.charref(s[1:])
            else: return self.entityref(s)
    
        r_unescape = re.compile(r"&(#?[xX]?(?:[0-9a-fA-F]+|\w{1,8}));")
        def unescape(self, s):
            return self.r_unescape.sub(self.replaceEntities, s)
    
        def google_nest_count(self, style):
            """calculate the nesting count of google doc lists"""
            nest_count = 0
            if 'margin-left' in style:
                nest_count = int(style['margin-left'][:-2]) / self.google_list_indent
            return nest_count
    
    
        def optwrap(self, text):
            """Wrap all paragraphs in the provided text."""
            if not self.body_width:
                return text
    
            assert wrap, "Requires Python 2.3."
            result = ''
            newlines = 0
            for para in text.split("\n"):
                if len(para) > 0:
                    if not skipwrap(para):
                        result += "\n".join(wrap(para, self.body_width))
                        if para.endswith('  '):
                            result += "  \n"
                            newlines = 1
                        else:
                            result += "\n\n"
                            newlines = 2
                    else:
                        if not onlywhite(para):
                            result += para + "\n"
                            newlines = 1
                else:
                    if newlines < 2:
                        result += "\n"
                        newlines += 1
            return result
    
    ordered_list_matcher = re.compile(r'\d+\.\s')
    unordered_list_matcher = re.compile(r'[-\*\+]\s')
    md_chars_matcher = re.compile(r"([\\\[\]\(\)])")
    md_chars_matcher_all = re.compile(r"([`\*_{}\[\]\(\)#!])")
    md_dot_matcher = re.compile(r"""
        ^             # start of line
        (\s*\d+)      # optional whitespace and a number
        (\.)          # dot
        (?=\s)        # lookahead assert whitespace
        """, re.MULTILINE | re.VERBOSE)
    md_plus_matcher = re.compile(r"""
        ^
        (\s*)
        (\+)
        (?=\s)
        """, flags=re.MULTILINE | re.VERBOSE)
    md_dash_matcher = re.compile(r"""
        ^
        (\s*)
        (-)
        (?=\s|\-)     # followed by whitespace (bullet list, or spaced out hr)
                      # or another dash (header or hr)
        """, flags=re.MULTILINE | re.VERBOSE)
    slash_chars = r'\`*_{}[]()#+-.!'
    md_backslash_matcher = re.compile(r'''
        (\\)          # match one slash
        (?=[%s])      # followed by a char that requires escaping
        ''' % re.escape(slash_chars),
        flags=re.VERBOSE)
    
    def skipwrap(para):
        # If the text begins with four spaces or one tab, it's a code block; don't wrap
        if para[0:4] == '    ' or para[0] == '\t':
            return True
        # If the text begins with only two "--", possibly preceded by whitespace, that's
        # an emdash; so wrap.
        stripped = para.lstrip()
        if stripped[0:2] == "--" and len(stripped) > 2 and stripped[2] != "-":
            return False
        # I'm not sure what this is for; I thought it was to detect lists, but there's
        # a 
    -inside- case in one of the tests that also depends upon it. if stripped[0:1] == '-' or stripped[0:1] == '*': return True # If the text begins with a single -, *, or +, followed by a space, or an integer, # followed by a ., followed by a space (in either case optionally preceeded by # whitespace), it's a list; don't wrap. if ordered_list_matcher.match(stripped) or unordered_list_matcher.match(stripped): return True return False def wrapwrite(text): text = text.encode('utf-8') try: #Python3 sys.stdout.buffer.write(text) except AttributeError: sys.stdout.write(text) def html2text(html, baseurl=''): h = HTML2Text(baseurl=baseurl) return h.handle(html) def unescape(s, unicode_snob=False): h = HTML2Text() h.unicode_snob = unicode_snob return h.unescape(s) def escape_md(text): """Escapes markdown-sensitive characters within other markdown constructs.""" return md_chars_matcher.sub(r"\\\1", text) def escape_md_section(text, snob=False): """Escapes markdown-sensitive characters across whole document sections.""" text = md_backslash_matcher.sub(r"\\\1", text) if snob: text = md_chars_matcher_all.sub(r"\\\1", text) text = md_dot_matcher.sub(r"\1\\\2", text) text = md_plus_matcher.sub(r"\1\\\2", text) text = md_dash_matcher.sub(r"\1\\\2", text) return text def main(): baseurl = '' p = optparse.OptionParser('%prog [(filename|url) [encoding]]', version='%prog ' + __version__) p.add_option("--ignore-emphasis", dest="ignore_emphasis", action="store_true", default=IGNORE_EMPHASIS, help="don't include any formatting for emphasis") p.add_option("--ignore-links", dest="ignore_links", action="store_true", default=IGNORE_ANCHORS, help="don't include any formatting for links") p.add_option("--ignore-images", dest="ignore_images", action="store_true", default=IGNORE_IMAGES, help="don't include any formatting for images") p.add_option("-g", "--google-doc", action="store_true", dest="google_doc", default=False, help="convert an html-exported Google Document") p.add_option("-d", "--dash-unordered-list", action="store_true", dest="ul_style_dash", default=False, help="use a dash rather than a star for unordered list items") p.add_option("-e", "--asterisk-emphasis", action="store_true", dest="em_style_asterisk", default=False, help="use an asterisk rather than an underscore for emphasized text") p.add_option("-b", "--body-width", dest="body_width", action="store", type="int", default=BODY_WIDTH, help="number of characters per output line, 0 for no wrap") p.add_option("-i", "--google-list-indent", dest="list_indent", action="store", type="int", default=GOOGLE_LIST_INDENT, help="number of pixels Google indents nested lists") p.add_option("-s", "--hide-strikethrough", action="store_true", dest="hide_strikethrough", default=False, help="hide strike-through text. only relevant when -g is specified as well") p.add_option("--escape-all", action="store_true", dest="escape_snob", default=False, help="Escape all special characters. Output is less readable, but avoids corner case formatting issues.") (options, args) = p.parse_args() # process input encoding = "utf-8" if len(args) > 0: file_ = args[0] if len(args) == 2: encoding = args[1] if len(args) > 2: p.error('Too many arguments') if file_.startswith('http://') or file_.startswith('https://'): baseurl = file_ j = urllib.urlopen(baseurl) data = j.read() if encoding is None: try: from feedparser import _getCharacterEncoding as enc except ImportError: enc = lambda x, y: ('utf-8', 1) encoding = enc(j.headers, data)[0] if encoding == 'us-ascii': encoding = 'utf-8' else: data = open(file_, 'rb').read() if encoding is None: try: from chardet import detect except ImportError: detect = lambda x: {'encoding': 'utf-8'} encoding = detect(data)['encoding'] else: data = sys.stdin.read() data = data.decode(encoding) h = HTML2Text(baseurl=baseurl) # handle options if options.ul_style_dash: h.ul_item_mark = '-' if options.em_style_asterisk: h.emphasis_mark = '*' h.strong_mark = '__' h.body_width = options.body_width h.list_indent = options.list_indent h.ignore_emphasis = options.ignore_emphasis h.ignore_links = options.ignore_links h.ignore_images = options.ignore_images h.google_doc = options.google_doc h.hide_strikethrough = options.hide_strikethrough h.escape_snob = options.escape_snob f = open("output.md", "w") f.write(h.handle(data)) print("Conversion complete --> output.md") if __name__ == "__main__": main()