"""HTML form handling for web clients.
ClientForm is a Python module for handling HTML forms on the client
side, useful for parsing HTML forms, filling them in and returning the
completed forms to the server. It has developed from a port of Gisle
Aas' Perl module HTML::Form, from the libwww-perl library, but the
interface is not the same.
The most useful docstring is the one for HTMLForm.
RFC 1866: HTML 2.0
RFC 1867: Form-based File Upload in HTML
RFC 2388: Returning Values from Forms: multipart/form-data
HTML 3.2 Specification, W3C Recommendation 14 January 1997 (for ISINDEX)
HTML 4.01 Specification, W3C Recommendation 24 December 1999
Copyright 2002-2007 John J. Lee
Copyright 2005 Gary Poster
Copyright 2005 Zope Corporation
Copyright 1998-2000 Gisle Aas.
This code is free software; you can redistribute it and/or modify it
under the terms of the BSD or ZPL 2.1 licenses (see the file
COPYING.txt included with the distribution).
"""
# XXX
# Remove parser testing hack
# safeUrl()-ize action
# Switch to unicode throughout (would be 0.3.x)
# See Wichert Akkerman's 2004-01-22 message to c.l.py.
# Add charset parameter to Content-type headers? How to find value??
# Add some more functional tests
# Especially single and multiple file upload on the internet.
# Does file upload work when name is missing? Sourceforge tracker form
# doesn't like it. Check standards, and test with Apache. Test
# binary upload with Apache.
# mailto submission & enctype text/plain
# I'm not going to fix this unless somebody tells me what real servers
# that want this encoding actually expect: If enctype is
# application/x-www-form-urlencoded and there's a FILE control present.
# Strictly, it should be 'name=data' (see HTML 4.01 spec., section
# 17.13.2), but I send "name=" ATM. What about multiple file upload??
# Would be nice, but I'm not going to do it myself:
# -------------------------------------------------
# Maybe a 0.4.x?
# Replace by_label etc. with moniker / selector concept. Allows, eg.,
# a choice between selection by value / id / label / element
# contents. Or choice between matching labels exactly or by
# substring. Etc.
# Remove deprecated methods.
# ...what else?
# Work on DOMForm.
# XForms? Don't know if there's a need here.
__all__ = ['AmbiguityError', 'CheckboxControl', 'Control',
'ControlNotFoundError', 'FileControl', 'FormParser', 'HTMLForm',
'HiddenControl', 'IgnoreControl', 'ImageControl', 'IsindexControl',
'Item', 'ItemCountError', 'ItemNotFoundError', 'Label',
'ListControl', 'LocateError', 'Missing', 'ParseError', 'ParseFile',
'ParseFileEx', 'ParseResponse', 'ParseResponseEx','PasswordControl',
'RadioControl', 'ScalarControl', 'SelectControl',
'SubmitButtonControl', 'SubmitControl', 'TextControl',
'TextareaControl', 'XHTMLCompatibleFormParser']
try:
import logging
import inspect
except ImportError:
def debug(msg, *args, **kwds):
pass
else:
_logger = logging.getLogger("ClientForm")
OPTIMIZATION_HACK = True
def debug(msg, *args, **kwds):
if OPTIMIZATION_HACK:
return
caller_name = inspect.stack()[1][3]
extended_msg = '%%s %s' % msg
extended_args = (caller_name,)+args
debug = _logger.debug(extended_msg, *extended_args, **kwds)
def _show_debug_messages():
global OPTIMIZATION_HACK
OPTIMIZATION_HACK = False
_logger.setLevel(logging.DEBUG)
handler = logging.StreamHandler(sys.stdout)
handler.setLevel(logging.DEBUG)
_logger.addHandler(handler)
try:
from thirdparty import six
from thirdparty.six import unichr as _unichr
from thirdparty.six.moves import cStringIO as _cStringIO
from thirdparty.six.moves import html_entities as _html_entities
from thirdparty.six.moves import urllib as _urllib
except ImportError:
import six
from six import unichr as _unichr
from six.moves import cStringIO as _cStringIO
from six.moves import html_entities as _html_entities
from six.moves import urllib as _urllib
try:
import sgmllib
except ImportError:
from lib.utils import sgmllib
import sys, re, random
if sys.version_info >= (3, 0):
xrange = range
# monkeypatch to fix http://www.python.org/sf/803422 :-(
sgmllib.charref = re.compile("&#(x?[0-9a-fA-F]+)[^0-9a-fA-F]")
# HTMLParser.HTMLParser is recent, so live without it if it's not available
# (also, sgmllib.SGMLParser is much more tolerant of bad HTML)
try:
import HTMLParser
except ImportError:
HAVE_MODULE_HTMLPARSER = False
else:
HAVE_MODULE_HTMLPARSER = True
try:
import warnings
except ImportError:
def deprecation(message, stack_offset=0):
pass
else:
def deprecation(message, stack_offset=0):
warnings.warn(message, DeprecationWarning, stacklevel=3+stack_offset)
VERSION = "0.2.10"
CHUNK = 1024 # size of chunks fed to parser, in bytes
DEFAULT_ENCODING = "latin-1"
class Missing: pass
_compress_re = re.compile(r"\s+")
def compress_text(text): return _compress_re.sub(" ", text.strip())
def normalize_line_endings(text):
return re.sub(r"(?:(?
w = MimeWriter(f)
...call w.addheader(key, value) 0 or more times...
followed by either:
f = w.startbody(content_type)
...call f.write(data) for body data...
or:
w.startmultipartbody(subtype)
for each part:
subwriter = w.nextpart()
...use the subwriter's methods to create the subpart...
w.lastpart()
The subwriter is another MimeWriter instance, and should be
treated in the same way as the toplevel MimeWriter. This way,
writing recursive body parts is easy.
Warning: don't forget to call lastpart()!
XXX There should be more state so calls made in the wrong order
are detected.
Some special cases:
- startbody() just returns the file passed to the constructor;
but don't use this knowledge, as it may be changed.
- startmultipartbody() actually returns a file as well;
this can be used to write the initial 'if you can read this your
mailer is not MIME-aware' message.
- If you call flushheaders(), the headers accumulated so far are
written out (and forgotten); this is useful if you don't need a
body part at all, e.g. for a subpart of type message/rfc822
that's (mis)used to store some header-like information.
- Passing a keyword argument 'prefix=' to addheader(),
start*body() affects where the header is inserted; 0 means
append at the end, 1 means insert at the start; default is
append for addheader(), but insert for start*body(), which use
it to determine where the Content-type header goes.
"""
def __init__(self, fp, http_hdrs=None):
self._http_hdrs = http_hdrs
self._fp = fp
self._headers = []
self._boundary = []
self._first_part = True
def addheader(self, key, value, prefix=0,
add_to_http_hdrs=0):
"""
prefix is ignored if add_to_http_hdrs is true.
"""
lines = value.split("\r\n")
while lines and not lines[-1]: del lines[-1]
while lines and not lines[0]: del lines[0]
if add_to_http_hdrs:
value = "".join(lines)
# 2.2 urllib2 doesn't normalize header case
self._http_hdrs.append((key.capitalize(), value))
else:
for i in xrange(1, len(lines)):
lines[i] = " " + lines[i].strip()
value = "\r\n".join(lines) + "\r\n"
line = key.title() + ": " + value
if prefix:
self._headers.insert(0, line)
else:
self._headers.append(line)
def flushheaders(self):
self._fp.writelines(self._headers)
self._headers = []
def startbody(self, ctype=None, plist=[], prefix=1,
add_to_http_hdrs=0, content_type=1):
"""
prefix is ignored if add_to_http_hdrs is true.
"""
if content_type and ctype:
for name, value in plist:
ctype = ctype + ';\r\n %s=%s' % (name, value)
self.addheader("Content-Type", ctype, prefix=prefix,
add_to_http_hdrs=add_to_http_hdrs)
self.flushheaders()
if not add_to_http_hdrs: self._fp.write("\r\n")
self._first_part = True
return self._fp
def startmultipartbody(self, subtype, boundary=None, plist=[], prefix=1,
add_to_http_hdrs=0, content_type=1):
boundary = boundary or choose_boundary()
self._boundary.append(boundary)
return self.startbody("multipart/" + subtype,
[("boundary", boundary)] + plist,
prefix=prefix,
add_to_http_hdrs=add_to_http_hdrs,
content_type=content_type)
def nextpart(self):
boundary = self._boundary[-1]
if self._first_part:
self._first_part = False
else:
self._fp.write("\r\n")
self._fp.write("--" + boundary + "\r\n")
return self.__class__(self._fp)
def lastpart(self):
if self._first_part:
self.nextpart()
boundary = self._boundary.pop()
self._fp.write("\r\n--" + boundary + "--\r\n")
class LocateError(ValueError): pass
class AmbiguityError(LocateError): pass
class ControlNotFoundError(LocateError): pass
class ItemNotFoundError(LocateError): pass
class ItemCountError(ValueError): pass
# for backwards compatibility, ParseError derives from exceptions that were
# raised by versions of ClientForm <= 0.2.5
if HAVE_MODULE_HTMLPARSER:
SGMLLIB_PARSEERROR = sgmllib.SGMLParseError
class ParseError(sgmllib.SGMLParseError,
HTMLParser.HTMLParseError,
):
pass
else:
if hasattr(sgmllib, "SGMLParseError"):
SGMLLIB_PARSEERROR = sgmllib.SGMLParseError
class ParseError(sgmllib.SGMLParseError):
pass
else:
SGMLLIB_PARSEERROR = RuntimeError
class ParseError(RuntimeError):
pass
class _AbstractFormParser:
"""forms attribute contains HTMLForm instances on completion."""
# thanks to Moshe Zadka for an example of sgmllib/htmllib usage
def __init__(self, entitydefs=None, encoding=DEFAULT_ENCODING):
if entitydefs is None:
entitydefs = get_entitydefs()
self._entitydefs = entitydefs
self._encoding = encoding
self.base = None
self.forms = []
self.labels = []
self._current_label = None
self._current_form = None
self._select = None
self._optgroup = None
self._option = None
self._textarea = None
# forms[0] will contain all controls that are outside of any form
# self._global_form is an alias for self.forms[0]
self._global_form = None
self.start_form([])
self.end_form()
self._current_form = self._global_form = self.forms[0]
def do_base(self, attrs):
debug("%s", attrs)
for key, value in attrs:
if key == "href":
self.base = self.unescape_attr_if_required(value)
def end_body(self):
debug("")
if self._current_label is not None:
self.end_label()
if self._current_form is not self._global_form:
self.end_form()
def start_form(self, attrs):
debug("%s", attrs)
if self._current_form is not self._global_form:
raise ParseError("nested FORMs")
name = None
action = None
enctype = "application/x-www-form-urlencoded"
method = "GET"
d = {}
for key, value in attrs:
if key == "name":
name = self.unescape_attr_if_required(value)
elif key == "action":
action = self.unescape_attr_if_required(value)
elif key == "method":
method = self.unescape_attr_if_required(value.upper())
elif key == "enctype":
enctype = self.unescape_attr_if_required(value.lower())
d[key] = self.unescape_attr_if_required(value)
controls = []
self._current_form = (name, action, method, enctype), d, controls
def end_form(self):
debug("")
if self._current_label is not None:
self.end_label()
if self._current_form is self._global_form:
raise ParseError("end of FORM before start")
self.forms.append(self._current_form)
self._current_form = self._global_form
def start_select(self, attrs):
debug("%s", attrs)
if self._select is not None:
raise ParseError("nested SELECTs")
if self._textarea is not None:
raise ParseError("SELECT inside TEXTAREA")
d = {}
for key, val in attrs:
d[key] = self.unescape_attr_if_required(val)
self._select = d
self._add_label(d)
self._append_select_control({"__select": d})
def end_select(self):
debug("")
if self._select is None:
raise ParseError("end of SELECT before start")
if self._option is not None:
self._end_option()
self._select = None
def start_optgroup(self, attrs):
debug("%s", attrs)
if self._select is None:
raise ParseError("OPTGROUP outside of SELECT")
d = {}
for key, val in attrs:
d[key] = self.unescape_attr_if_required(val)
self._optgroup = d
def end_optgroup(self):
debug("")
if self._optgroup is None:
raise ParseError("end of OPTGROUP before start")
self._optgroup = None
def _start_option(self, attrs):
debug("%s", attrs)
if self._select is None:
raise ParseError("OPTION outside of SELECT")
if self._option is not None:
self._end_option()
d = {}
for key, val in attrs:
d[key] = self.unescape_attr_if_required(val)
self._option = {}
self._option.update(d)
if (self._optgroup and "disabled" in self._optgroup and
"disabled" not in self._option):
self._option["disabled"] = None
def _end_option(self):
debug("")
if self._option is None:
raise ParseError("end of OPTION before start")
contents = self._option.get("contents", "").strip()
self._option["contents"] = contents
if "value" not in self._option:
self._option["value"] = contents
if "label" not in self._option:
self._option["label"] = contents
# stuff dict of SELECT HTML attrs into a special private key
# (gets deleted again later)
self._option["__select"] = self._select
self._append_select_control(self._option)
self._option = None
def _append_select_control(self, attrs):
debug("%s", attrs)
controls = self._current_form[2]
name = self._select.get("name")
controls.append(("select", name, attrs))
def start_textarea(self, attrs):
debug("%s", attrs)
if self._textarea is not None:
raise ParseError("nested TEXTAREAs")
if self._select is not None:
raise ParseError("TEXTAREA inside SELECT")
d = {}
for key, val in attrs:
d[key] = self.unescape_attr_if_required(val)
self._add_label(d)
self._textarea = d
def end_textarea(self):
debug("")
if self._textarea is None:
raise ParseError("end of TEXTAREA before start")
controls = self._current_form[2]
name = self._textarea.get("name")
controls.append(("textarea", name, self._textarea))
self._textarea = None
def start_label(self, attrs):
debug("%s", attrs)
if self._current_label:
self.end_label()
d = {}
for key, val in attrs:
d[key] = self.unescape_attr_if_required(val)
taken = bool(d.get("for")) # empty id is invalid
d["__text"] = ""
d["__taken"] = taken
if taken:
self.labels.append(d)
self._current_label = d
def end_label(self):
debug("")
label = self._current_label
if label is None:
# something is ugly in the HTML, but we're ignoring it
return
self._current_label = None
# if it is staying around, it is True in all cases
del label["__taken"]
def _add_label(self, d):
#debug("%s", d)
if self._current_label is not None:
if not self._current_label["__taken"]:
self._current_label["__taken"] = True
d["__label"] = self._current_label
def handle_data(self, data):
debug("%s", data)
if self._option is not None:
# self._option is a dictionary of the OPTION element's HTML
# attributes, but it has two special keys, one of which is the
# special "contents" key contains text between OPTION tags (the
# other is the "__select" key: see the end_option method)
map = self._option
key = "contents"
elif self._textarea is not None:
map = self._textarea
key = "value"
data = normalize_line_endings(data)
# not if within option or textarea
elif self._current_label is not None:
map = self._current_label
key = "__text"
else:
return
if data and key not in map:
# according to
# http://www.w3.org/TR/html4/appendix/notes.html#h-B.3.1 line break
# immediately after start tags or immediately before end tags must
# be ignored, but real browsers only ignore a line break after a
# start tag, so we'll do that.
if data[0:2] == "\r\n":
data = data[2:]
elif data[0:1] in ["\n", "\r"]:
data = data[1:]
map[key] = data
else:
map[key] = (map[key].decode("utf8", "replace") if isinstance(map[key], six.binary_type) else map[key]) + data
def do_button(self, attrs):
debug("%s", attrs)
d = {}
d["type"] = "submit" # default
for key, val in attrs:
d[key] = self.unescape_attr_if_required(val)
controls = self._current_form[2]
type = d["type"]
name = d.get("name")
# we don't want to lose information, so use a type string that
# doesn't clash with INPUT TYPE={SUBMIT,RESET,BUTTON}
# e.g. type for BUTTON/RESET is "resetbutton"
# (type for INPUT/RESET is "reset")
type = type+"button"
self._add_label(d)
controls.append((type, name, d))
def do_input(self, attrs):
debug("%s", attrs)
d = {}
d["type"] = "text" # default
for key, val in attrs:
d[key] = self.unescape_attr_if_required(val)
controls = self._current_form[2]
type = d["type"]
name = d.get("name")
self._add_label(d)
controls.append((type, name, d))
def do_isindex(self, attrs):
debug("%s", attrs)
d = {}
for key, val in attrs:
d[key] = self.unescape_attr_if_required(val)
controls = self._current_form[2]
self._add_label(d)
# isindex doesn't have type or name HTML attributes
controls.append(("isindex", None, d))
def handle_entityref(self, name):
#debug("%s", name)
self.handle_data(unescape(
'&%s;' % name, self._entitydefs, self._encoding))
def handle_charref(self, name):
#debug("%s", name)
self.handle_data(unescape_charref(name, self._encoding))
def unescape_attr(self, name):
#debug("%s", name)
return unescape(name, self._entitydefs, self._encoding)
def unescape_attrs(self, attrs):
#debug("%s", attrs)
escaped_attrs = {}
for key, val in attrs.items():
try:
val.items
except AttributeError:
escaped_attrs[key] = self.unescape_attr(val)
else:
# e.g. "__select" -- yuck!
escaped_attrs[key] = self.unescape_attrs(val)
return escaped_attrs
def unknown_entityref(self, ref): self.handle_data("&%s;" % ref)
def unknown_charref(self, ref): self.handle_data("&#%s;" % ref)
if not HAVE_MODULE_HTMLPARSER:
class XHTMLCompatibleFormParser:
def __init__(self, entitydefs=None, encoding=DEFAULT_ENCODING):
raise ValueError("HTMLParser could not be imported")
else:
class XHTMLCompatibleFormParser(_AbstractFormParser, HTMLParser.HTMLParser):
"""Good for XHTML, bad for tolerance of incorrect HTML."""
# thanks to Michael Howitz for this!
def __init__(self, entitydefs=None, encoding=DEFAULT_ENCODING):
HTMLParser.HTMLParser.__init__(self)
_AbstractFormParser.__init__(self, entitydefs, encoding)
def feed(self, data):
try:
HTMLParser.HTMLParser.feed(self, data)
except HTMLParser.HTMLParseError as exc:
raise ParseError(exc)
def start_option(self, attrs):
_AbstractFormParser._start_option(self, attrs)
def end_option(self):
_AbstractFormParser._end_option(self)
def handle_starttag(self, tag, attrs):
try:
method = getattr(self, "start_" + tag)
except AttributeError:
try:
method = getattr(self, "do_" + tag)
except AttributeError:
pass # unknown tag
else:
method(attrs)
else:
method(attrs)
def handle_endtag(self, tag):
try:
method = getattr(self, "end_" + tag)
except AttributeError:
pass # unknown tag
else:
method()
def unescape(self, name):
# Use the entitydefs passed into constructor, not
# HTMLParser.HTMLParser's entitydefs.
return self.unescape_attr(name)
def unescape_attr_if_required(self, name):
return name # HTMLParser.HTMLParser already did it
def unescape_attrs_if_required(self, attrs):
return attrs # ditto
def close(self):
HTMLParser.HTMLParser.close(self)
self.end_body()
class _AbstractSgmllibParser(_AbstractFormParser):
def do_option(self, attrs):
_AbstractFormParser._start_option(self, attrs)
if sys.version_info[:2] >= (2,5):
# we override this attr to decode hex charrefs
entity_or_charref = re.compile(
'&(?:([a-zA-Z][-.a-zA-Z0-9]*)|#(x?[0-9a-fA-F]+))(;?)')
def convert_entityref(self, name):
return unescape("&%s;" % name, self._entitydefs, self._encoding)
def convert_charref(self, name):
return unescape_charref("%s" % name, self._encoding)
def unescape_attr_if_required(self, name):
return name # sgmllib already did it
def unescape_attrs_if_required(self, attrs):
return attrs # ditto
else:
def unescape_attr_if_required(self, name):
return self.unescape_attr(name)
def unescape_attrs_if_required(self, attrs):
return self.unescape_attrs(attrs)
class FormParser(_AbstractSgmllibParser, sgmllib.SGMLParser):
"""Good for tolerance of incorrect HTML, bad for XHTML."""
def __init__(self, entitydefs=None, encoding=DEFAULT_ENCODING):
sgmllib.SGMLParser.__init__(self)
_AbstractFormParser.__init__(self, entitydefs, encoding)
def feed(self, data):
try:
sgmllib.SGMLParser.feed(self, data)
except SGMLLIB_PARSEERROR as exc:
raise ParseError(exc)
def close(self):
sgmllib.SGMLParser.close(self)
self.end_body()
# sigh, must support mechanize by allowing dynamic creation of classes based on
# its bundled copy of BeautifulSoup (which was necessary because of dependency
# problems)
def _create_bs_classes(bs,
icbinbs,
):
class _AbstractBSFormParser(_AbstractSgmllibParser):
bs_base_class = None
def __init__(self, entitydefs=None, encoding=DEFAULT_ENCODING):
_AbstractFormParser.__init__(self, entitydefs, encoding)
self.bs_base_class.__init__(self)
def handle_data(self, data):
_AbstractFormParser.handle_data(self, data)
self.bs_base_class.handle_data(self, data)
def feed(self, data):
try:
self.bs_base_class.feed(self, data)
except SGMLLIB_PARSEERROR as exc:
raise ParseError(exc)
def close(self):
self.bs_base_class.close(self)
self.end_body()
class RobustFormParser(_AbstractBSFormParser, bs):
"""Tries to be highly tolerant of incorrect HTML."""
pass
RobustFormParser.bs_base_class = bs
class NestingRobustFormParser(_AbstractBSFormParser, icbinbs):
"""Tries to be highly tolerant of incorrect HTML.
Different from RobustFormParser in that it more often guesses nesting
above missing end tags (see BeautifulSoup docs).
"""
pass
NestingRobustFormParser.bs_base_class = icbinbs
return RobustFormParser, NestingRobustFormParser
try:
if sys.version_info[:2] < (2, 2):
raise ImportError # BeautifulSoup uses generators
import BeautifulSoup
except ImportError:
pass
else:
RobustFormParser, NestingRobustFormParser = _create_bs_classes(
BeautifulSoup.BeautifulSoup, BeautifulSoup.ICantBelieveItsBeautifulSoup
)
__all__ += ['RobustFormParser', 'NestingRobustFormParser']
#FormParser = XHTMLCompatibleFormParser # testing hack
#FormParser = RobustFormParser # testing hack
def ParseResponseEx(response,
select_default=False,
form_parser_class=FormParser,
request_class=_urllib.request.Request,
entitydefs=None,
encoding=DEFAULT_ENCODING,
# private
_urljoin=_urllib.parse.urljoin,
_urlparse=_urllib.parse.urlparse,
_urlunparse=_urllib.parse.urlunparse,
):
"""Identical to ParseResponse, except that:
1. The returned list contains an extra item. The first form in the list
contains all controls not contained in any FORM element.
2. The arguments ignore_errors and backwards_compat have been removed.
3. Backwards-compatibility mode (backwards_compat=True) is not available.
"""
return _ParseFileEx(response, response.geturl(),
select_default,
False,
form_parser_class,
request_class,
entitydefs,
False,
encoding,
_urljoin=_urljoin,
_urlparse=_urlparse,
_urlunparse=_urlunparse,
)
def ParseFileEx(file, base_uri,
select_default=False,
form_parser_class=FormParser,
request_class=_urllib.request.Request,
entitydefs=None,
encoding=DEFAULT_ENCODING,
# private
_urljoin=_urllib.parse.urljoin,
_urlparse=_urllib.parse.urlparse,
_urlunparse=_urllib.parse.urlunparse,
):
"""Identical to ParseFile, except that:
1. The returned list contains an extra item. The first form in the list
contains all controls not contained in any FORM element.
2. The arguments ignore_errors and backwards_compat have been removed.
3. Backwards-compatibility mode (backwards_compat=True) is not available.
"""
return _ParseFileEx(file, base_uri,
select_default,
False,
form_parser_class,
request_class,
entitydefs,
False,
encoding,
_urljoin=_urljoin,
_urlparse=_urlparse,
_urlunparse=_urlunparse,
)
def ParseResponse(response, *args, **kwds):
"""Parse HTTP response and return a list of HTMLForm instances.
The return value of urllib2.urlopen can be conveniently passed to this
function as the response parameter.
ClientForm.ParseError is raised on parse errors.
response: file-like object (supporting read() method) with a method
geturl(), returning the URI of the HTTP response
select_default: for multiple-selection SELECT controls and RADIO controls,
pick the first item as the default if none are selected in the HTML
form_parser_class: class to instantiate and use to pass
request_class: class to return from .click() method (default is
_urllib.request.Request)
entitydefs: mapping like {"&": "&", ...} containing HTML entity
definitions (a sensible default is used)
encoding: character encoding used for encoding numeric character references
when matching link text. ClientForm does not attempt to find the encoding
in a META HTTP-EQUIV attribute in the document itself (mechanize, for
example, does do that and will pass the correct value to ClientForm using
this parameter).
backwards_compat: boolean that determines whether the returned HTMLForm
objects are backwards-compatible with old code. If backwards_compat is
true:
- ClientForm 0.1 code will continue to work as before.
- Label searches that do not specify a nr (number or count) will always
get the first match, even if other controls match. If
backwards_compat is False, label searches that have ambiguous results
will raise an AmbiguityError.
- Item label matching is done by strict string comparison rather than
substring matching.
- De-selecting individual list items is allowed even if the Item is
disabled.
The backwards_compat argument will be deprecated in a future release.
Pass a true value for select_default if you want the behaviour specified by
RFC 1866 (the HTML 2.0 standard), which is to select the first item in a
RADIO or multiple-selection SELECT control if none were selected in the
HTML. Most browsers (including Microsoft Internet Explorer (IE) and
Netscape Navigator) instead leave all items unselected in these cases. The
W3C HTML 4.0 standard leaves this behaviour undefined in the case of
multiple-selection SELECT controls, but insists that at least one RADIO
button should be checked at all times, in contradiction to browser
behaviour.
There is a choice of parsers. ClientForm.XHTMLCompatibleFormParser (uses
HTMLParser.HTMLParser) works best for XHTML, ClientForm.FormParser (uses
sgmllib.SGMLParser) (the default) works better for ordinary grubby HTML.
Note that HTMLParser is only available in Python 2.2 and later. You can
pass your own class in here as a hack to work around bad HTML, but at your
own risk: there is no well-defined interface.
"""
return _ParseFileEx(response, response.geturl(), *args, **kwds)[1:]
def ParseFile(file, base_uri, *args, **kwds):
"""Parse HTML and return a list of HTMLForm instances.
ClientForm.ParseError is raised on parse errors.
file: file-like object (supporting read() method) containing HTML with zero
or more forms to be parsed
base_uri: the URI of the document (note that the base URI used to submit
the form will be that given in the BASE element if present, not that of
the document)
For the other arguments and further details, see ParseResponse.__doc__.
"""
return _ParseFileEx(file, base_uri, *args, **kwds)[1:]
def _ParseFileEx(file, base_uri,
select_default=False,
ignore_errors=False,
form_parser_class=FormParser,
request_class=_urllib.request.Request,
entitydefs=None,
backwards_compat=True,
encoding=DEFAULT_ENCODING,
_urljoin=_urllib.parse.urljoin,
_urlparse=_urllib.parse.urlparse,
_urlunparse=_urllib.parse.urlunparse,
):
if backwards_compat:
deprecation("operating in backwards-compatibility mode", 1)
fp = form_parser_class(entitydefs, encoding)
while 1:
data = file.read(CHUNK)
try:
fp.feed(data)
except ParseError as e:
e.base_uri = base_uri
raise
if len(data) != CHUNK: break
fp.close()
if fp.base is not None:
# HTML BASE element takes precedence over document URI
base_uri = fp.base
labels = [] # Label(label) for label in fp.labels]
id_to_labels = {}
for l in fp.labels:
label = Label(l)
labels.append(label)
for_id = l["for"]
coll = id_to_labels.get(for_id)
if coll is None:
id_to_labels[for_id] = [label]
else:
coll.append(label)
forms = []
for (name, action, method, enctype), attrs, controls in fp.forms:
if action is None:
action = base_uri
else:
action = six.text_type(action, "utf8") if action and isinstance(action, six.binary_type) else action
action = _urljoin(base_uri, action)
# would be nice to make HTMLForm class (form builder) pluggable
form = HTMLForm(
action, method, enctype, name, attrs, request_class,
forms, labels, id_to_labels, backwards_compat)
form._urlparse = _urlparse
form._urlunparse = _urlunparse
for ii in xrange(len(controls)):
type, name, attrs = controls[ii]
# index=ii*10 allows ImageControl to return multiple ordered pairs
form.new_control(
type, name, attrs, select_default=select_default, index=ii*10)
forms.append(form)
for form in forms:
try:
form.fixup()
except AttributeError as ex:
if not any(_ in str(ex) for _ in ("is disabled", "is readonly")):
raise
return forms
class Label:
def __init__(self, attrs):
self.id = attrs.get("for")
self._text = attrs.get("__text").strip()
self._ctext = compress_text(self._text)
self.attrs = attrs
self._backwards_compat = False # maintained by HTMLForm
def __getattr__(self, name):
if name == "text":
if self._backwards_compat:
return self._text
else:
return self._ctext
return getattr(Label, name)
def __setattr__(self, name, value):
if name == "text":
# don't see any need for this, so make it read-only
raise AttributeError("text attribute is read-only")
self.__dict__[name] = value
def __str__(self):
return "" % (self.id, self.text)
def _get_label(attrs):
text = attrs.get("__label")
if text is not None:
return Label(text)
else:
return None
class Control:
"""An HTML form control.
An HTMLForm contains a sequence of Controls. The Controls in an HTMLForm
are accessed using the HTMLForm.find_control method or the
HTMLForm.controls attribute.
Control instances are usually constructed using the ParseFile /
ParseResponse functions. If you use those functions, you can ignore the
rest of this paragraph. A Control is only properly initialised after the
fixup method has been called. In fact, this is only strictly necessary for
ListControl instances. This is necessary because ListControls are built up
from ListControls each containing only a single item, and their initial
value(s) can only be known after the sequence is complete.
The types and values that are acceptable for assignment to the value
attribute are defined by subclasses.
If the disabled attribute is true, this represents the state typically
represented by browsers by 'greying out' a control. If the disabled
attribute is true, the Control will raise AttributeError if an attempt is
made to change its value. In addition, the control will not be considered
'successful' as defined by the W3C HTML 4 standard -- ie. it will
contribute no data to the return value of the HTMLForm.click* methods. To
enable a control, set the disabled attribute to a false value.
If the readonly attribute is true, the Control will raise AttributeError if
an attempt is made to change its value. To make a control writable, set
the readonly attribute to a false value.
All controls have the disabled and readonly attributes, not only those that
may have the HTML attributes of the same names.
On assignment to the value attribute, the following exceptions are raised:
TypeError, AttributeError (if the value attribute should not be assigned
to, because the control is disabled, for example) and ValueError.
If the name or value attributes are None, or the value is an empty list, or
if the control is disabled, the control is not successful.
Public attributes:
type: string describing type of control (see the keys of the
HTMLForm.type2class dictionary for the allowable values) (readonly)
name: name of control (readonly)
value: current value of control (subclasses may allow a single value, a
sequence of values, or either)
disabled: disabled state
readonly: readonly state
id: value of id HTML attribute
"""
def __init__(self, type, name, attrs, index=None):
"""
type: string describing type of control (see the keys of the
HTMLForm.type2class dictionary for the allowable values)
name: control name
attrs: HTML attributes of control's HTML element
"""
raise NotImplementedError()
def add_to_form(self, form):
self._form = form
form.controls.append(self)
def fixup(self):
pass
def is_of_kind(self, kind):
raise NotImplementedError()
def clear(self):
raise NotImplementedError()
def __getattr__(self, name): raise NotImplementedError()
def __setattr__(self, name, value): raise NotImplementedError()
def pairs(self):
"""Return list of (key, value) pairs suitable for passing to urlencode.
"""
return [(k, v) for (i, k, v) in self._totally_ordered_pairs()]
def _totally_ordered_pairs(self):
"""Return list of (key, value, index) tuples.
Like pairs, but allows preserving correct ordering even where several
controls are involved.
"""
raise NotImplementedError()
def _write_mime_data(self, mw, name, value):
"""Write data for a subitem of this control to a MimeWriter."""
# called by HTMLForm
mw2 = mw.nextpart()
mw2.addheader("Content-Disposition",
'form-data; name="%s"' % name, 1)
f = mw2.startbody(prefix=0)
f.write(value)
def __str__(self):
raise NotImplementedError()
def get_labels(self):
"""Return all labels (Label instances) for this control.
If the control was surrounded by a