[Zope-Checkins] SVN: Zope/branches/2.10/lib/python/ClientForm.py
removed, using an svn:external now
Andreas Jung
andreas at andreas-jung.com
Sat Aug 19 08:52:39 EDT 2006
Log message for revision 69686:
removed, using an svn:external now
Changed:
D Zope/branches/2.10/lib/python/ClientForm.py
-=-
Deleted: Zope/branches/2.10/lib/python/ClientForm.py
===================================================================
--- Zope/branches/2.10/lib/python/ClientForm.py 2006-08-19 10:02:16 UTC (rev 69685)
+++ Zope/branches/2.10/lib/python/ClientForm.py 2006-08-19 12:52:39 UTC (rev 69686)
@@ -1,3216 +0,0 @@
-"""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 2002-2006 John J. Lee <jjl at pobox.com>
-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 License (see the file COPYING included with
-the distribution).
-
-"""
-
-# XXX
-# Remove unescape_attr method
-# Remove parser testing hack
-# safeUrl()-ize action
-# Really should to merge CC, CF, pp and mechanize as soon as mechanize
-# goes to beta...
-# Add url attribute to ParseError
-# 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.
-# Controls can have name=None (e.g. forms constructed partly with
-# JavaScript), but find_control can't be told to find a control
-# with that name, because None there means 'unspecified'. Can still
-# get at by nr, but would be nice to be able to specify something
-# equivalent to name=None, too.
-# 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.
-
-
-try: True
-except NameError:
- True = 1
- False = 0
-
-try: bool
-except NameError:
- def bool(expr):
- if expr: return True
- else: return False
-
-try:
- import logging
-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
-
- try:
- raise Exception()
- except:
- caller_name = (
- sys.exc_info()[2].tb_frame.f_back.f_back.f_code.co_name)
- 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)
-
-import sys, urllib, urllib2, types, mimetools, copy, urlparse, \
- htmlentitydefs, re, random
-from urlparse import urljoin
-from cStringIO import StringIO
-
-try:
- import warnings
-except ImportError:
- def deprecation(message):
- pass
-else:
- def deprecation(message):
- warnings.warn(message, DeprecationWarning, stacklevel=2)
-
-VERSION = "0.2.2"
-
-CHUNK = 1024 # size of chunks fed to parser, in bytes
-
-DEFAULT_ENCODING = "latin-1"
-
-_compress_re = re.compile(r"\s+")
-def compress_text(text): return _compress_re.sub(" ", text.strip())
-
-# This version of urlencode is from my Python 1.5.2 back-port of the
-# Python 2.1 CVS maintenance branch of urllib. It will accept a sequence
-# of pairs instead of a mapping -- the 2.0 version only accepts a mapping.
-def urlencode(query,doseq=False,):
- """Encode a sequence of two-element tuples or dictionary into a URL query \
-string.
-
- If any values in the query arg are sequences and doseq is true, each
- sequence element is converted to a separate parameter.
-
- If the query arg is a sequence of two-element tuples, the order of the
- parameters in the output will match the order of parameters in the
- input.
- """
-
- if hasattr(query,"items"):
- # mapping objects
- query = query.items()
- else:
- # it's a bother at times that strings and string-like objects are
- # sequences...
- try:
- # non-sequence items should not work with len()
- x = len(query)
- # non-empty strings will fail this
- if len(query) and type(query[0]) != types.TupleType:
- raise TypeError()
- # zero-length sequences of all types will get here and succeed,
- # but that's a minor nit - since the original implementation
- # allowed empty dicts that type of behavior probably should be
- # preserved for consistency
- except TypeError:
- ty,va,tb = sys.exc_info()
- raise TypeError("not a valid non-string sequence or mapping "
- "object", tb)
-
- l = []
- if not doseq:
- # preserve old behavior
- for k, v in query:
- k = urllib.quote_plus(str(k))
- v = urllib.quote_plus(str(v))
- l.append(k + '=' + v)
- else:
- for k, v in query:
- k = urllib.quote_plus(str(k))
- if type(v) == types.StringType:
- v = urllib.quote_plus(v)
- l.append(k + '=' + v)
- elif type(v) == types.UnicodeType:
- # is there a reasonable way to convert to ASCII?
- # encode generates a string, but "replace" or "ignore"
- # lose information and "strict" can raise UnicodeError
- v = urllib.quote_plus(v.encode("ASCII","replace"))
- l.append(k + '=' + v)
- else:
- try:
- # is this a sufficient test for sequence-ness?
- x = len(v)
- except TypeError:
- # not a sequence
- v = urllib.quote_plus(str(v))
- l.append(k + '=' + v)
- else:
- # loop over the sequence
- for elt in v:
- l.append(k + '=' + urllib.quote_plus(str(elt)))
- return '&'.join(l)
-
-def unescape(data, entities, encoding=DEFAULT_ENCODING):
- if data is None or "&" not in data:
- return data
-
- def replace_entities(match, entities=entities, encoding=encoding):
- ent = match.group()
- if ent[1] == "#":
- return unescape_charref(ent[2:-1], encoding)
-
- repl = entities.get(ent)
- if repl is not None:
- if type(repl) != type(""):
- try:
- repl = repl.encode(encoding)
- except UnicodeError:
- repl = ent
- else:
- repl = ent
-
- return repl
-
- return re.sub(r"&#?[A-Za-z0-9]+?;", replace_entities, data)
-
-def unescape_charref(data, encoding):
- name, base = data, 10
- if name.startswith("x"):
- name, base= name[1:], 16
- uc = unichr(int(name, base))
- if encoding is None:
- return uc
- else:
- try:
- repl = uc.encode(encoding)
- except UnicodeError:
- repl = "&#%s;" % data
- return repl
-
-def get_entitydefs():
- import htmlentitydefs
- from codecs import latin_1_decode
- entitydefs = {}
- try:
- htmlentitydefs.name2codepoint
- except AttributeError:
- entitydefs = {}
- for name, char in htmlentitydefs.entitydefs.items():
- uc = latin_1_decode(char)[0]
- if uc.startswith("&#") and uc.endswith(";"):
- uc = unescape_charref(uc[2:-1], None)
- entitydefs["&%s;" % name] = uc
- else:
- for name, codepoint in htmlentitydefs.name2codepoint.items():
- entitydefs["&%s;" % name] = unichr(codepoint)
- return entitydefs
-
-
-def issequence(x):
- try:
- x[0]
- except (TypeError, KeyError):
- return False
- except IndexError:
- pass
- return True
-
-def isstringlike(x):
- try: x+""
- except: return False
- else: return True
-
-
-def choose_boundary():
- """Return a string usable as a multipart boundary."""
- # follow IE and firefox
- nonce = "".join([str(random.randint(0, sys.maxint-1)) for i in 0,1,2])
- return "-"*27 + nonce
-
-# This cut-n-pasted MimeWriter from standard library is here so can add
-# to HTTP headers rather than message body when appropriate. It also uses
-# \r\n in place of \n. This is a bit nasty.
-class MimeWriter:
-
- """Generic MIME writer.
-
- Methods:
-
- __init__()
- addheader()
- flushheaders()
- startbody()
- startmultipartbody()
- nextpart()
- lastpart()
-
- A MIME writer is much more primitive than a MIME parser. It
- doesn't seek around on the output file, and it doesn't use large
- amounts of buffer space, so you have to write the parts in the
- order they should occur on the output file. It does buffer the
- headers you add, allowing you to rearrange their order.
-
- General usage is:
-
- f = <open the output file>
- 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=<flag>' 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)
- self._http_hdrs.append((key, value))
- else:
- for i in range(1, len(lines)):
- lines[i] = " " + lines[i].strip()
- value = "\r\n".join(lines) + "\r\n"
- line = key + ": " + 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
-
-
-class ParseError(Exception): 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
-
- def do_base(self, attrs):
- debug("%s", attrs)
- for key, value in attrs:
- if key == "href":
- self.base = value
-
- def end_body(self):
- debug("")
- if self._current_label is not None:
- self.end_label()
- if self._current_form is not None:
- self.end_form()
-
- def start_form(self, attrs):
- debug("%s", attrs)
- if self._current_form is not None:
- 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 = value
- elif key == "action":
- action = value
- elif key == "method":
- method = value.upper()
- elif key == "enctype":
- enctype = value.lower()
- d[key] = 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 None:
- raise ParseError("end of FORM before start")
- self.forms.append(self._current_form)
- self._current_form = None
-
- def start_select(self, attrs):
- debug("%s", attrs)
- if self._current_form is None:
- raise ParseError("start of SELECT before start of FORM")
- 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] = val
-
- self._select = d
- self._add_label(d)
-
- self._append_select_control({"__select": d})
-
- def end_select(self):
- debug("")
- if self._current_form is None:
- raise ParseError("end of SELECT before start of FORM")
- 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] = 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] = val
-
- self._option = {}
- self._option.update(d)
- if (self._optgroup and self._optgroup.has_key("disabled") and
- not self._option.has_key("disabled")):
- 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 not self._option.has_key("value"):
- self._option["value"] = contents
- if not self._option.has_key("label"):
- 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._current_form is None:
- raise ParseError("start of TEXTAREA before start of FORM")
- 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] = val
- self._add_label(d)
-
- self._textarea = d
-
- def end_textarea(self):
- debug("")
- if self._current_form is None:
- raise ParseError("end of TEXTAREA before start of FORM")
- 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] = 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
- label["__text"] = label["__text"]
- # 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 self._current_label["__taken"]:
- self.end_label() # be fuzzy
- else:
- 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"
- # not if within option or textarea
- elif self._current_label is not None:
- map = self._current_label
- key = "__text"
- else:
- return
-
- if not map.has_key(key):
- map[key] = data
- else:
- map[key] = map[key] + data
-
- def do_button(self, attrs):
- debug("%s", attrs)
- if self._current_form is None:
- raise ParseError("start of BUTTON before start of FORM")
- d = {}
- d["type"] = "submit" # default
- for key, val in attrs:
- d[key] = 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)
- if self._current_form is None:
- raise ParseError("start of INPUT before start of FORM")
- d = {}
- d["type"] = "text" # default
- for key, val in attrs:
- d[key] = 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)
- if self._current_form is None:
- raise ParseError("start of ISINDEX before start of FORM")
- d = {}
- for key, val in attrs:
- d[key] = 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)
-
-
-# HTMLParser.HTMLParser is recent, so live without it if it's not available
-# (also, htmllib.HTMLParser is much more tolerant of bad HTML)
-try:
- import HTMLParser
-except ImportError:
- 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 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
-
-import sgmllib
-# monkeypatch to fix http://www.python.org/sf/803422 :-(
-sgmllib.charref = re.compile("&#(x?[0-9a-fA-F]+)[^0-9a-fA-F]")
-class _AbstractSgmllibParser(_AbstractFormParser):
- def do_option(self, attrs):
- _AbstractFormParser._start_option(self, attrs)
-
- 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)
-
-try:
- if sys.version_info[:2] < (2, 2):
- raise ImportError # BeautifulSoup uses generators
- import BeautifulSoup
-except ImportError:
- pass
-else:
- 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)
-
- class RobustFormParser(_AbstractBSFormParser, BeautifulSoup.BeautifulSoup):
- """Tries to be highly tolerant of incorrect HTML."""
- bs_base_class = BeautifulSoup.BeautifulSoup
- class NestingRobustFormParser(_AbstractBSFormParser,
- BeautifulSoup.ICantBelieveItsBeautifulSoup):
- """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).
-
- """
- bs_base_class = BeautifulSoup.ICantBelieveItsBeautifulSoup
-
-#FormParser = XHTMLCompatibleFormParser # testing hack
-#FormParser = RobustFormParser # testing hack
-
-def ParseResponse(response, select_default=False,
- ignore_errors=False, # ignored!
- form_parser_class=FormParser,
- request_class=urllib2.Request,
- entitydefs=None,
- backwards_compat=True,
- encoding=DEFAULT_ENCODING,
- ):
- """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
- urllib2.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 ParseFile(response, response.geturl(), select_default,
- False,
- form_parser_class,
- request_class,
- entitydefs,
- backwards_compat,
- encoding,
- )
-
-def ParseFile(file, base_uri, select_default=False,
- ignore_errors=False, # ignored!
- form_parser_class=FormParser,
- request_class=urllib2.Request,
- entitydefs=None,
- backwards_compat=True,
- encoding=DEFAULT_ENCODING,
- ):
- """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__.
-
- """
- if backwards_compat:
- deprecation("operating in backwards-compatibility mode")
- fp = form_parser_class(entitydefs, encoding)
- while 1:
- data = file.read(CHUNK)
- try:
- fp.feed(data)
- except ParseError, e:
- e.base_uri = base_uri
- raise
- if len(data) != CHUNK: break
- 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 = urljoin(base_uri, action)
- action = fp.unescape_attr_if_required(action)
- name = fp.unescape_attr_if_required(name)
- attrs = fp.unescape_attrs_if_required(attrs)
- # 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)
- for ii in range(len(controls)):
- type, name, attrs = controls[ii]
- attrs = fp.unescape_attrs_if_required(attrs)
- name = fp.unescape_attr_if_required(name)
- # 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:
- form.fixup()
- 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 "<Label(id=%r, text=%r)>" % (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 <label> tag, that will be the first
- label; all other labels, connected by 'for' and 'id', are in the order
- that appear in the HTML.
-
- """
- res = []
- if self._label:
- res.append(self._label)
- if self.id:
- res.extend(self._form._id_to_labels.get(self.id, ()))
- return res
-
-
-#---------------------------------------------------
-class ScalarControl(Control):
- """Control whose value is not restricted to one of a prescribed set.
-
- Some ScalarControls don't accept any value attribute. Otherwise, takes a
- single value, which must be string-like.
-
- Additional read-only public attribute:
-
- attrs: dictionary mapping the names of original HTML attributes of the
- control to their values
-
- """
- def __init__(self, type, name, attrs, index=None):
- self._index = index
- self._label = _get_label(attrs)
- self.__dict__["type"] = type.lower()
- self.__dict__["name"] = name
- self._value = attrs.get("value")
- self.disabled = attrs.has_key("disabled")
- self.readonly = attrs.has_key("readonly")
- self.id = attrs.get("id")
-
- self.attrs = attrs.copy()
-
- self._clicked = False
-
- def __getattr__(self, name):
- if name == "value":
- return self.__dict__["_value"]
- else:
- raise AttributeError("%s instance has no attribute '%s'" %
- (self.__class__.__name__, name))
-
- def __setattr__(self, name, value):
- if name == "value":
- if not isstringlike(value):
- raise TypeError("must assign a string")
- elif self.readonly:
- raise AttributeError("control '%s' is readonly" % self.name)
- elif self.disabled:
- raise AttributeError("control '%s' is disabled" % self.name)
- self.__dict__["_value"] = value
- elif name in ("name", "type"):
- raise AttributeError("%s attribute is readonly" % name)
- else:
- self.__dict__[name] = value
-
- def _totally_ordered_pairs(self):
- name = self.name
- value = self.value
- if name is None or value is None or self.disabled:
- return []
- return [(self._index, name, value)]
-
- def clear(self):
- if self.readonly:
- raise AttributeError("control '%s' is readonly" % self.name)
- self.__dict__["_value"] = None
-
- def __str__(self):
- name = self.name
- value = self.value
- if name is None: name = "<None>"
- if value is None: value = "<None>"
-
- infos = []
- if self.disabled: infos.append("disabled")
- if self.readonly: infos.append("readonly")
- info = ", ".join(infos)
- if info: info = " (%s)" % info
-
- return "<%s(%s=%s)%s>" % (self.__class__.__name__, name, value, info)
-
-
-#---------------------------------------------------
-class TextControl(ScalarControl):
- """Textual input control.
-
- Covers:
-
- INPUT/TEXT
- INPUT/PASSWORD
- INPUT/HIDDEN
- TEXTAREA
-
- """
- def __init__(self, type, name, attrs, index=None):
- ScalarControl.__init__(self, type, name, attrs, index)
- if self.type == "hidden": self.readonly = True
- if self._value is None:
- self._value = ""
-
- def is_of_kind(self, kind): return kind == "text"
-
-#---------------------------------------------------
-class FileControl(ScalarControl):
- """File upload with INPUT TYPE=FILE.
-
- The value attribute of a FileControl is always None. Use add_file instead.
-
- Additional public method: add_file
-
- """
-
- def __init__(self, type, name, attrs, index=None):
- ScalarControl.__init__(self, type, name, attrs, index)
- self._value = None
- self._upload_data = []
-
- def is_of_kind(self, kind): return kind == "file"
-
- def clear(self):
- if self.readonly:
- raise AttributeError("control '%s' is readonly" % self.name)
- self._upload_data = []
-
- def __setattr__(self, name, value):
- if name in ("value", "name", "type"):
- raise AttributeError("%s attribute is readonly" % name)
- else:
- self.__dict__[name] = value
-
- def add_file(self, file_object, content_type=None, filename=None):
- if not hasattr(file_object, "read"):
- raise TypeError("file-like object must have read method")
- if content_type is not None and not isstringlike(content_type):
- raise TypeError("content type must be None or string-like")
- if filename is not None and not isstringlike(filename):
- raise TypeError("filename must be None or string-like")
- if content_type is None:
- content_type = "application/octet-stream"
- self._upload_data.append((file_object, content_type, filename))
-
- def _totally_ordered_pairs(self):
- # XXX should it be successful even if unnamed?
- if self.name is None or self.disabled:
- return []
- return [(self._index, self.name, "")]
-
- def _write_mime_data(self, mw, _name, _value):
- # called by HTMLForm
- # assert _name == self.name and _value == ''
- if len(self._upload_data) == 1:
- # single file
- file_object, content_type, filename = self._upload_data[0]
- mw2 = mw.nextpart()
- fn_part = filename and ('; filename="%s"' % filename) or ""
- disp = 'form-data; name="%s"%s' % (self.name, fn_part)
- mw2.addheader("Content-disposition", disp, prefix=1)
- fh = mw2.startbody(content_type, prefix=0)
- fh.write(file_object.read())
- elif len(self._upload_data) != 0:
- # multiple files
- mw2 = mw.nextpart()
- disp = 'form-data; name="%s"' % self.name
- mw2.addheader("Content-disposition", disp, prefix=1)
- fh = mw2.startmultipartbody("mixed", prefix=0)
- for file_object, content_type, filename in self._upload_data:
- mw3 = mw2.nextpart()
- fn_part = filename and ('; filename="%s"' % filename) or ""
- disp = "file%s" % fn_part
- mw3.addheader("Content-disposition", disp, prefix=1)
- fh2 = mw3.startbody(content_type, prefix=0)
- fh2.write(file_object.read())
- mw2.lastpart()
-
- def __str__(self):
- name = self.name
- if name is None: name = "<None>"
-
- if not self._upload_data:
- value = "<No files added>"
- else:
- value = []
- for file, ctype, filename in self._upload_data:
- if filename is None:
- value.append("<Unnamed file>")
- else:
- value.append(filename)
- value = ", ".join(value)
-
- info = []
- if self.disabled: info.append("disabled")
- if self.readonly: info.append("readonly")
- info = ", ".join(info)
- if info: info = " (%s)" % info
-
- return "<%s(%s=%s)%s>" % (self.__class__.__name__, name, value, info)
-
-
-#---------------------------------------------------
-class IsindexControl(ScalarControl):
- """ISINDEX control.
-
- ISINDEX is the odd-one-out of HTML form controls. In fact, it isn't really
- part of regular HTML forms at all, and predates it. You're only allowed
- one ISINDEX per HTML document. ISINDEX and regular form submission are
- mutually exclusive -- either submit a form, or the ISINDEX.
-
- Having said this, since ISINDEX controls may appear in forms (which is
- probably bad HTML), ParseFile / ParseResponse will include them in the
- HTMLForm instances it returns. You can set the ISINDEX's value, as with
- any other control (but note that ISINDEX controls have no name, so you'll
- need to use the type argument of set_value!). When you submit the form,
- the ISINDEX will not be successful (ie., no data will get returned to the
- server as a result of its presence), unless you click on the ISINDEX
- control, in which case the ISINDEX gets submitted instead of the form:
-
- form.set_value("my isindex value", type="isindex")
- urllib2.urlopen(form.click(type="isindex"))
-
- ISINDEX elements outside of FORMs are ignored. If you want to submit one
- by hand, do it like so:
-
- url = urlparse.urljoin(page_uri, "?"+urllib.quote_plus("my isindex value"))
- result = urllib2.urlopen(url)
-
- """
- def __init__(self, type, name, attrs, index=None):
- ScalarControl.__init__(self, type, name, attrs, index)
- if self._value is None:
- self._value = ""
-
- def is_of_kind(self, kind): return kind in ["text", "clickable"]
-
- def _totally_ordered_pairs(self):
- return []
-
- def _click(self, form, coord, return_type, request_class=urllib2.Request):
- # Relative URL for ISINDEX submission: instead of "foo=bar+baz",
- # want "bar+baz".
- # This doesn't seem to be specified in HTML 4.01 spec. (ISINDEX is
- # deprecated in 4.01, but it should still say how to submit it).
- # Submission of ISINDEX is explained in the HTML 3.2 spec, though.
- parts = urlparse.urlparse(form.action)
- rest, (query, frag) = parts[:-2], parts[-2:]
- parts = rest + (urllib.quote_plus(self.value), "")
- url = urlparse.urlunparse(parts)
- req_data = url, None, []
-
- if return_type == "pairs":
- return []
- elif return_type == "request_data":
- return req_data
- else:
- return request_class(url)
-
- def __str__(self):
- value = self.value
- if value is None: value = "<None>"
-
- infos = []
- if self.disabled: infos.append("disabled")
- if self.readonly: infos.append("readonly")
- info = ", ".join(infos)
- if info: info = " (%s)" % info
-
- return "<%s(%s)%s>" % (self.__class__.__name__, value, info)
-
-
-#---------------------------------------------------
-class IgnoreControl(ScalarControl):
- """Control that we're not interested in.
-
- Covers:
-
- INPUT/RESET
- BUTTON/RESET
- INPUT/BUTTON
- BUTTON/BUTTON
-
- These controls are always unsuccessful, in the terminology of HTML 4 (ie.
- they never require any information to be returned to the server).
-
- BUTTON/BUTTON is used to generate events for script embedded in HTML.
-
- The value attribute of IgnoreControl is always None.
-
- """
- def __init__(self, type, name, attrs, index=None):
- ScalarControl.__init__(self, type, name, attrs, index)
- self._value = None
-
- def is_of_kind(self, kind): return False
-
- def __setattr__(self, name, value):
- if name == "value":
- raise AttributeError(
- "control '%s' is ignored, hence read-only" % self.name)
- elif name in ("name", "type"):
- raise AttributeError("%s attribute is readonly" % name)
- else:
- self.__dict__[name] = value
-
-
-#---------------------------------------------------
-# ListControls
-
-# helpers and subsidiary classes
-
-class Item:
- def __init__(self, control, attrs, index=None):
- label = _get_label(attrs)
- self.__dict__.update({
- "name": attrs["value"],
- "_labels": label and [label] or [],
- "attrs": attrs,
- "_control": control,
- "disabled": attrs.has_key("disabled"),
- "_selected": False,
- "id": attrs.get("id"),
- "_index": index,
- })
- control.items.append(self)
-
- def get_labels(self):
- """Return all labels (Label instances) for this item.
-
- For items that represent radio buttons or checkboxes, if the item was
- surrounded by a <label> tag, that will be the first label; all other
- labels, connected by 'for' and 'id', are in the order that appear in
- the HTML.
-
- For items that represent select options, if the option had a label
- attribute, that will be the first label. If the option has contents
- (text within the option tags) and it is not the same as the label
- attribute (if any), that will be a label. There is nothing in the
- spec to my knowledge that makes an option with an id unable to be the
- target of a label's for attribute, so those are included, if any, for
- the sake of consistency and completeness.
-
- """
- res = []
- res.extend(self._labels)
- if self.id:
- res.extend(self._control._form._id_to_labels.get(self.id, ()))
- return res
-
- def __getattr__(self, name):
- if name=="selected":
- return self._selected
- raise AttributeError(name)
-
- def __setattr__(self, name, value):
- if name == "selected":
- self._control._set_selected_state(self, value)
- elif name == "disabled":
- self.__dict__["disabled"] = bool(value)
- else:
- raise AttributeError(name)
-
- def __str__(self):
- res = self.name
- if self.selected:
- res = "*" + res
- if self.disabled:
- res = "(%s)" % res
- return res
-
- def __repr__(self):
- attrs = [("name", self.name), ("id", self.id)]+self.attrs.items()
- return "<%s %s>" % (
- self.__class__.__name__,
- " ".join(["%s=%r" % (k, v) for k, v in attrs])
- )
-
-def disambiguate(items, nr, **kwds):
- msgs = []
- for key, value in kwds.items():
- msgs.append("%s=%r" % (key, value))
- msg = " ".join(msgs)
- if not items:
- raise ItemNotFoundError(msg)
- if nr is None:
- if len(items) > 1:
- raise AmbiguityError(msg)
- nr = 0
- if len(items) <= nr:
- raise ItemNotFoundError(msg)
- return items[nr]
-
-class ListControl(Control):
- """Control representing a sequence of items.
-
- The value attribute of a ListControl represents the successful list items
- in the control. The successful list items are those that are selected and
- not disabled.
-
- ListControl implements both list controls that take a length-1 value
- (single-selection) and those that take length >1 values
- (multiple-selection).
-
- ListControls accept sequence values only. Some controls only accept
- sequences of length 0 or 1 (RADIO, and single-selection SELECT).
- In those cases, ItemCountError is raised if len(sequence) > 1. CHECKBOXes
- and multiple-selection SELECTs (those having the "multiple" HTML attribute)
- accept sequences of any length.
-
- Note the following mistake:
-
- control.value = some_value
- assert control.value == some_value # not necessarily true
-
- The reason for this is that the value attribute always gives the list items
- in the order they were listed in the HTML.
-
- ListControl items can also be referred to by their labels instead of names.
- Use the label argument to .get(), and the .set_value_by_label(),
- .get_value_by_label() methods.
-
- Note that, rather confusingly, though SELECT controls are represented in
- HTML by SELECT elements (which contain OPTION elements, representing
- individual list items), CHECKBOXes and RADIOs are not represented by *any*
- element. Instead, those controls are represented by a collection of INPUT
- elements. For example, this is a SELECT control, named "control1":
-
- <select name="control1">
- <option>foo</option>
- <option value="1">bar</option>
- </select>
-
- and this is a CHECKBOX control, named "control2":
-
- <input type="checkbox" name="control2" value="foo" id="cbe1">
- <input type="checkbox" name="control2" value="bar" id="cbe2">
-
- The id attribute of a CHECKBOX or RADIO ListControl is always that of its
- first element (for example, "cbe1" above).
-
-
- Additional read-only public attribute: multiple.
-
- """
-
- # ListControls are built up by the parser from their component items by
- # creating one ListControl per item, consolidating them into a single
- # master ListControl held by the HTMLForm:
-
- # -User calls form.new_control(...)
- # -Form creates Control, and calls control.add_to_form(self).
- # -Control looks for a Control with the same name and type in the form,
- # and if it finds one, merges itself with that control by calling
- # control.merge_control(self). The first Control added to the form, of
- # a particular name and type, is the only one that survives in the
- # form.
- # -Form calls control.fixup for all its controls. ListControls in the
- # form know they can now safely pick their default values.
-
- # To create a ListControl without an HTMLForm, use:
-
- # control.merge_control(new_control)
-
- # (actually, it's much easier just to use ParseFile)
-
- _label = None
-
- def __init__(self, type, name, attrs={}, select_default=False,
- called_as_base_class=False, index=None):
- """
- select_default: for RADIO and multiple-selection SELECT controls, pick
- the first item as the default if no 'selected' HTML attribute is
- present
-
- """
- if not called_as_base_class:
- raise NotImplementedError()
-
- self.__dict__["type"] = type.lower()
- self.__dict__["name"] = name
- self._value = attrs.get("value")
- self.disabled = False
- self.readonly = False
- self.id = attrs.get("id")
-
- # As Controls are merged in with .merge_control(), self.attrs will
- # refer to each Control in turn -- always the most recently merged
- # control. Each merged-in Control instance corresponds to a single
- # list item: see ListControl.__doc__.
- self.items = []
- self._form = None
-
- self._select_default = select_default
- self._clicked = False
-
- def clear(self):
- self.value = []
-
- def is_of_kind(self, kind):
- if kind == "list":
- return True
- elif kind == "multilist":
- return bool(self.multiple)
- elif kind == "singlelist":
- return not self.multiple
- else:
- return False
-
- def get_items(self, name=None, label=None, id=None,
- exclude_disabled=False):
- """Return matching items by name or label.
-
- For argument docs, see the docstring for .get()
-
- """
- if name is not None and not isstringlike(name):
- raise TypeError("item name must be string-like")
- if label is not None and not isstringlike(label):
- raise TypeError("item label must be string-like")
- if id is not None and not isstringlike(id):
- raise TypeError("item id must be string-like")
- items = [] # order is important
- compat = self._form.backwards_compat
- for o in self.items:
- if exclude_disabled and o.disabled:
- continue
- if name is not None and o.name != name:
- continue
- if label is not None:
- for l in o.get_labels():
- if ((compat and l.text == label) or
- (not compat and l.text.find(label) > -1)):
- break
- else:
- continue
- if id is not None and o.id != id:
- continue
- items.append(o)
- return items
-
- def get(self, name=None, label=None, id=None, nr=None,
- exclude_disabled=False):
- """Return item by name or label, disambiguating if necessary with nr.
-
- All arguments must be passed by name, with the exception of 'name',
- which may be used as a positional argument.
-
- If name is specified, then the item must have the indicated name.
-
- If label is specified, then the item must have a label whose
- whitespace-compressed, stripped, text substring-matches the indicated
- label string (eg. label="please choose" will match
- " Do please choose an item ").
-
- If id is specified, then the item must have the indicated id.
-
- nr is an optional 0-based index of the items matching the query.
-
- If nr is the default None value and more than item is found, raises
- AmbiguityError (unless the HTMLForm instance's backwards_compat
- attribute is true).
-
- If no item is found, or if items are found but nr is specified and not
- found, raises ItemNotFoundError.
-
- Optionally excludes disabled items.
-
- """
- if nr is None and self._form.backwards_compat:
- nr = 0 # :-/
- items = self.get_items(name, label, id, exclude_disabled)
- return disambiguate(items, nr, name=name, label=label, id=id)
-
- def _get(self, name, by_label=False, nr=None, exclude_disabled=False):
- # strictly for use by deprecated methods
- if by_label:
- name, label = None, name
- else:
- name, label = name, None
- return self.get(name, label, nr, exclude_disabled)
-
- def toggle(self, name, by_label=False, nr=None):
- """Deprecated: given a name or label and optional disambiguating index
- nr, toggle the matching item's selection.
-
- Selecting items follows the behavior described in the docstring of the
- 'get' method.
-
- if the item is disabled, or this control is disabled or readonly,
- raise AttributeError.
-
- """
- deprecation(
- "item = control.get(...); item.selected = not item.selected")
- o = self._get(name, by_label, nr)
- self._set_selected_state(o, not o.selected)
-
- def set(self, selected, name, by_label=False, nr=None):
- """Deprecated: given a name or label and optional disambiguating index
- nr, set the matching item's selection to the bool value of selected.
-
- Selecting items follows the behavior described in the docstring of the
- 'get' method.
-
- if the item is disabled, or this control is disabled or readonly,
- raise AttributeError.
-
- """
- deprecation(
- "control.get(...).selected = <boolean>")
- self._set_selected_state(self._get(name, by_label, nr), selected)
-
- def _set_selected_state(self, item, action):
- # action:
- # bool False: off
- # bool True: on
- if self.disabled:
- raise AttributeError("control '%s' is disabled" % self.name)
- if self.readonly:
- raise AttributeError("control '%s' is readonly" % self.name)
- action == bool(action)
- compat = self._form.backwards_compat
- if not compat and item.disabled:
- raise AttributeError("item is disabled")
- else:
- if compat and item.disabled and action:
- raise AttributeError("item is disabled")
- if self.multiple:
- item.__dict__["_selected"] = action
- else:
- if not action:
- item.__dict__["_selected"] = False
- else:
- for o in self.items:
- o.__dict__["_selected"] = False
- item.__dict__["_selected"] = True
-
- def toggle_single(self, by_label=None):
- """Deprecated: toggle the selection of the single item in this control.
-
- Raises ItemCountError if the control does not contain only one item.
-
- by_label argument is ignored, and included only for backwards
- compatibility.
-
- """
- deprecation(
- "control.items[0].selected = not control.items[0].selected")
- if len(self.items) != 1:
- raise ItemCountError(
- "'%s' is not a single-item control" % self.name)
- item = self.items[0]
- self._set_selected_state(item, not item.selected)
-
- def set_single(self, selected, by_label=None):
- """Deprecated: set the selection of the single item in this control.
-
- Raises ItemCountError if the control does not contain only one item.
-
- by_label argument is ignored, and included only for backwards
- compatibility.
-
- """
- deprecation(
- "control.items[0].selected = <boolean>")
- if len(self.items) != 1:
- raise ItemCountError(
- "'%s' is not a single-item control" % self.name)
- self._set_selected_state(self.items[0], selected)
-
- def get_item_disabled(self, name, by_label=False, nr=None):
- """Get disabled state of named list item in a ListControl."""
- deprecation(
- "control.get(...).disabled")
- return self._get(name, by_label, nr).disabled
-
- def set_item_disabled(self, disabled, name, by_label=False, nr=None):
- """Set disabled state of named list item in a ListControl.
-
- disabled: boolean disabled state
-
- """
- deprecation(
- "control.get(...).disabled = <boolean>")
- self._get(name, by_label, nr).disabled = disabled
-
- def set_all_items_disabled(self, disabled):
- """Set disabled state of all list items in a ListControl.
-
- disabled: boolean disabled state
-
- """
- for o in self.items:
- o.disabled = disabled
-
- def get_item_attrs(self, name, by_label=False, nr=None):
- """Return dictionary of HTML attributes for a single ListControl item.
-
- The HTML element types that describe list items are: OPTION for SELECT
- controls, INPUT for the rest. These elements have HTML attributes that
- you may occasionally want to know about -- for example, the "alt" HTML
- attribute gives a text string describing the item (graphical browsers
- usually display this as a tooltip).
-
- The returned dictionary maps HTML attribute names to values. The names
- and values are taken from the original HTML.
-
- """
- deprecation(
- "control.get(...).attrs")
- return self._get(name, by_label, nr).attrs
-
- def add_to_form(self, form):
- assert self._form is None or form == self._form, (
- "can't add control to more than one form")
- self._form = form
- try:
- control = form.find_control(self.name, self.type)
- except ControlNotFoundError:
- Control.add_to_form(self, form)
- else:
- control.merge_control(self)
-
- def merge_control(self, control):
- assert bool(control.multiple) == bool(self.multiple)
- # usually, isinstance(control, self.__class__)
- self.items.extend(control.items)
-
- def fixup(self):
- """
- ListControls are built up from component list items (which are also
- ListControls) during parsing. This method should be called after all
- items have been added. See ListControl.__doc__ for the reason this is
- required.
-
- """
- # Need to set default selection where no item was indicated as being
- # selected by the HTML:
-
- # CHECKBOX:
- # Nothing should be selected.
- # SELECT/single, SELECT/multiple and RADIO:
- # RFC 1866 (HTML 2.0): says first item should be selected.
- # W3C HTML 4.01 Specification: says that client behaviour is
- # undefined in this case. For RADIO, exactly one must be selected,
- # though which one is undefined.
- # Both Netscape and Microsoft Internet Explorer (IE) choose first
- # item for SELECT/single. However, both IE5 and Mozilla (both 1.0
- # and Firebird 0.6) leave all items unselected for RADIO and
- # SELECT/multiple.
-
- # Since both Netscape and IE all choose the first item for
- # SELECT/single, we do the same. OTOH, both Netscape and IE
- # leave SELECT/multiple with nothing selected, in violation of RFC 1866
- # (but not in violation of the W3C HTML 4 standard); the same is true
- # of RADIO (which *is* in violation of the HTML 4 standard). We follow
- # RFC 1866 if the _select_default attribute is set, and Netscape and IE
- # otherwise. RFC 1866 and HTML 4 are always violated insofar as you
- # can deselect all items in a RadioControl.
-
- for o in self.items:
- # set items' controls to self, now that we've merged
- o.__dict__["_control"] = self
-
- def __getattr__(self, name):
- if name == "value":
- compat = self._form.backwards_compat
- return [o.name for o in self.items if o.selected and
- (not o.disabled or compat)]
- else:
- raise AttributeError("%s instance has no attribute '%s'" %
- (self.__class__.__name__, name))
-
- def __setattr__(self, name, value):
- if name == "value":
- if self.disabled:
- raise AttributeError("control '%s' is disabled" % self.name)
- if self.readonly:
- raise AttributeError("control '%s' is readonly" % self.name)
- self._set_value(value)
- elif name in ("name", "type", "multiple"):
- raise AttributeError("%s attribute is readonly" % name)
- else:
- self.__dict__[name] = value
-
- def _set_value(self, value):
- if value is None or isstringlike(value):
- raise TypeError("ListControl, must set a sequence")
- if not value:
- compat = self._form.backwards_compat
- for o in self.items:
- if not o.disabled or compat:
- o.selected = False
- elif self.multiple:
- self._multiple_set_value(value)
- elif len(value) > 1:
- raise ItemCountError(
- "single selection list, must set sequence of "
- "length 0 or 1")
- else:
- self._single_set_value(value)
-
- def _get_items(self, name, target=1):
- all_items = self.get_items(name)
- items = [o for o in all_items if not o.disabled]
- if len(items) < target:
- if len(all_items) < target:
- raise ItemNotFoundError(
- "insufficient items with name %r" % name)
- else:
- raise AttributeError(
- "insufficient non-disabled items with name %s" % name)
- on = []
- off = []
- for o in items:
- if o.selected:
- on.append(o)
- else:
- off.append(o)
- return on, off
-
- def _single_set_value(self, value):
- assert len(value) == 1
- on, off = self._get_items(value[0])
- assert len(on) <= 1
- if not on:
- off[0].selected = True
-
- def _multiple_set_value(self, value):
- compat = self._form.backwards_compat
- turn_on = [] # transactional-ish
- turn_off = [item for item in self.items if
- item.selected and (not item.disabled or compat)]
- names = {}
- for nn in value:
- if nn in names.keys():
- names[nn] += 1
- else:
- names[nn] = 1
- for name, count in names.items():
- on, off = self._get_items(name, count)
- for i in range(count):
- if on:
- item = on[0]
- del on[0]
- del turn_off[turn_off.index(item)]
- else:
- item = off[0]
- del off[0]
- turn_on.append(item)
- for item in turn_off:
- item.selected = False
- for item in turn_on:
- item.selected = True
-
- def set_value_by_label(self, value):
- """Set the value of control by item labels.
-
- value is expected to be an iterable of strings that are substrings of
- the item labels that should be selected. Before substring matching is
- performed, the original label text is whitespace-compressed
- (consecutive whitespace characters are converted to a single space
- character) and leading and trailing whitespace is stripped. Ambiguous
- labels are accepted without complaint if the form's backwards_compat is
- True; otherwise, it will not complain as long as all ambiguous labels
- share the same item name (e.g. OPTION value).
-
- """
- if isstringlike(value):
- raise TypeError(value)
- if not self.multiple and len(value) > 1:
- raise ItemCountError(
- "single selection list, must set sequence of "
- "length 0 or 1")
- items = []
- for nn in value:
- found = self.get_items(label=nn)
- if len(found) > 1:
- if not self._form.backwards_compat:
- # ambiguous labels are fine as long as item names (e.g.
- # OPTION values) are same
- opt_name = found[0].name
- if [o for o in found[1:] if o.name != opt_name]:
- raise AmbiguityError(nn)
- else:
- # OK, we'll guess :-( Assume first available item.
- found = found[:1]
- for o in found:
- # For the multiple-item case, we could try to be smarter,
- # saving them up and trying to resolve, but that's too much.
- if self._form.backwards_compat or o not in items:
- items.append(o)
- break
- else: # all of them are used
- raise ItemNotFoundError(nn)
- # now we have all the items that should be on
- # let's just turn everything off and then back on.
- self.value = []
- for o in items:
- o.selected = True
-
- def get_value_by_label(self):
- """Return the value of the control as given by normalized labels."""
- res = []
- compat = self._form.backwards_compat
- for o in self.items:
- if (not o.disabled or compat) and o.selected:
- for l in o.get_labels():
- if l.text:
- res.append(l.text)
- break
- else:
- res.append(None)
- return res
-
- def possible_items(self, by_label=False):
- """Deprecated: return the names or labels of all possible items.
-
- Includes disabled items, which may be misleading for some use cases.
-
- """
- deprecation(
- "[item.name for item in self.items]")
- if by_label:
- res = []
- for o in self.items:
- for l in o.get_labels():
- if l.text:
- res.append(l.text)
- break
- else:
- res.append(None)
- return res
- return [o.name for o in self.items]
-
- def _totally_ordered_pairs(self):
- if self.disabled:
- return []
- else:
- return [(o._index, self.name, o.name) for o in self.items
- if o.selected and not o.disabled]
-
- def __str__(self):
- name = self.name
- if name is None: name = "<None>"
-
- display = [str(o) for o in self.items]
-
- infos = []
- if self.disabled: infos.append("disabled")
- if self.readonly: infos.append("readonly")
- info = ", ".join(infos)
- if info: info = " (%s)" % info
-
- return "<%s(%s=[%s])%s>" % (self.__class__.__name__,
- name, ", ".join(display), info)
-
-
-class RadioControl(ListControl):
- """
- Covers:
-
- INPUT/RADIO
-
- """
- def __init__(self, type, name, attrs, select_default=False, index=None):
- attrs.setdefault("value", "on")
- ListControl.__init__(self, type, name, attrs, select_default,
- called_as_base_class=True, index=index)
- self.__dict__["multiple"] = False
- o = Item(self, attrs, index)
- o.__dict__["_selected"] = attrs.has_key("checked")
-
- def fixup(self):
- ListControl.fixup(self)
- found = [o for o in self.items if o.selected and not o.disabled]
- if not found:
- if self._select_default:
- for o in self.items:
- if not o.disabled:
- o.selected = True
- break
- else:
- # Ensure only one item selected. Choose the last one,
- # following IE and Firefox.
- for o in found[:-1]:
- o.selected = False
-
- def get_labels(self):
- return []
-
-class CheckboxControl(ListControl):
- """
- Covers:
-
- INPUT/CHECKBOX
-
- """
- def __init__(self, type, name, attrs, select_default=False, index=None):
- attrs.setdefault("value", "on")
- ListControl.__init__(self, type, name, attrs, select_default,
- called_as_base_class=True, index=index)
- self.__dict__["multiple"] = True
- o = Item(self, attrs, index)
- o.__dict__["_selected"] = attrs.has_key("checked")
-
- def get_labels(self):
- return []
-
-
-class SelectControl(ListControl):
- """
- Covers:
-
- SELECT (and OPTION)
-
-
- OPTION 'values', in HTML parlance, are Item 'names' in ClientForm parlance.
-
-
- OPTION 'values', in HTML parlance, are Item 'names' in ClientForm parlance.
-
- SELECT control values and labels are subject to some messy defaulting
- rules. For example, if the HTML representation of the control is:
-
- <SELECT name=year>
- <OPTION value=0 label="2002">current year</OPTION>
- <OPTION value=1>2001</OPTION>
- <OPTION>2000</OPTION>
- </SELECT>
-
- The items, in order, have labels "2002", "2001" and "2000", whereas their
- names (the OPTION values) are "0", "1" and "2000" respectively. Note that
- the value of the last OPTION in this example defaults to its contents, as
- specified by RFC 1866, as do the labels of the second and third OPTIONs.
-
- The OPTION labels are sometimes more meaningful than the OPTION values,
- which can make for more maintainable code.
-
- Additional read-only public attribute: attrs
-
- The attrs attribute is a dictionary of the original HTML attributes of the
- SELECT element. Other ListControls do not have this attribute, because in
- other cases the control as a whole does not correspond to any single HTML
- element. control.get(...).attrs may be used as usual to get at the HTML
- attributes of the HTML elements corresponding to individual list items (for
- SELECT controls, these are OPTION elements).
-
- Another special case is that the Item.attrs dictionaries have a special key
- "contents" which does not correspond to any real HTML attribute, but rather
- contains the contents of the OPTION element:
-
- <OPTION>this bit</OPTION>
-
- """
- # HTML attributes here are treated slightly differently from other list
- # controls:
- # -The SELECT HTML attributes dictionary is stuffed into the OPTION
- # HTML attributes dictionary under the "__select" key.
- # -The content of each OPTION element is stored under the special
- # "contents" key of the dictionary.
- # After all this, the dictionary is passed to the SelectControl constructor
- # as the attrs argument, as usual. However:
- # -The first SelectControl constructed when building up a SELECT control
- # has a constructor attrs argument containing only the __select key -- so
- # this SelectControl represents an empty SELECT control.
- # -Subsequent SelectControls have both OPTION HTML-attribute in attrs and
- # the __select dictionary containing the SELECT HTML-attributes.
-
- def __init__(self, type, name, attrs, select_default=False, index=None):
- # fish out the SELECT HTML attributes from the OPTION HTML attributes
- # dictionary
- self.attrs = attrs["__select"].copy()
- self.__dict__["_label"] = _get_label(self.attrs)
- self.__dict__["id"] = self.attrs.get("id")
- self.__dict__["multiple"] = self.attrs.has_key("multiple")
- # the majority of the contents, label, and value dance already happened
- contents = attrs.get("contents")
- attrs = attrs.copy()
- del attrs["__select"]
-
- ListControl.__init__(self, type, name, self.attrs, select_default,
- called_as_base_class=True, index=index)
- self.disabled = self.attrs.has_key("disabled")
- self.readonly = self.attrs.has_key("readonly")
- if attrs.has_key("value"):
- # otherwise it is a marker 'select started' token
- o = Item(self, attrs, index)
- o.__dict__["_selected"] = attrs.has_key("selected")
- # add 'label' label and contents label, if different. If both are
- # provided, the 'label' label is used for display in HTML
- # 4.0-compliant browsers (and any lower spec? not sure) while the
- # contents are used for display in older or less-compliant
- # browsers. We make label objects for both, if the values are
- # different.
- label = attrs.get("label")
- if label:
- o._labels.append(Label({"__text": label}))
- if contents and contents != label:
- o._labels.append(Label({"__text": contents}))
- elif contents:
- o._labels.append(Label({"__text": contents}))
-
- def fixup(self):
- ListControl.fixup(self)
- # Firefox doesn't exclude disabled items from those considered here
- # (i.e. from 'found', for both branches of the if below). Note that
- # IE6 doesn't support the disabled attribute on OPTIONs at all.
- found = [o for o in self.items if o.selected]
- if not found:
- if not self.multiple or self._select_default:
- for o in self.items:
- if not o.disabled:
- was_disabled = self.disabled
- self.disabled = False
- try:
- o.selected = True
- finally:
- o.disabled = was_disabled
- break
- elif not self.multiple:
- # Ensure only one item selected. Choose the last one,
- # following IE and Firefox.
- for o in found[:-1]:
- o.selected = False
-
-
-#---------------------------------------------------
-class SubmitControl(ScalarControl):
- """
- Covers:
-
- INPUT/SUBMIT
- BUTTON/SUBMIT
-
- """
- def __init__(self, type, name, attrs, index=None):
- ScalarControl.__init__(self, type, name, attrs, index)
- # IE5 defaults SUBMIT value to "Submit Query"; Firebird 0.6 leaves it
- # blank, Konqueror 3.1 defaults to "Submit". HTML spec. doesn't seem
- # to define this.
- if self.value is None: self.value = ""
- self.readonly = True
-
- def get_labels(self):
- res = []
- if self.value:
- res.append(Label({"__text": self.value}))
- res.extend(ScalarControl.get_labels(self))
- return res
-
- def is_of_kind(self, kind): return kind == "clickable"
-
- def _click(self, form, coord, return_type, request_class=urllib2.Request):
- self._clicked = coord
- r = form._switch_click(return_type, request_class)
- self._clicked = False
- return r
-
- def _totally_ordered_pairs(self):
- if not self._clicked:
- return []
- return ScalarControl._totally_ordered_pairs(self)
-
-
-#---------------------------------------------------
-class ImageControl(SubmitControl):
- """
- Covers:
-
- INPUT/IMAGE
-
- Coordinates are specified using one of the HTMLForm.click* methods.
-
- """
- def __init__(self, type, name, attrs, index=None):
- SubmitControl.__init__(self, type, name, attrs, index)
- self.readonly = False
-
- def _totally_ordered_pairs(self):
- clicked = self._clicked
- if self.disabled or not clicked:
- return []
- name = self.name
- if name is None: return []
- pairs = [
- (self._index, "%s.x" % name, str(clicked[0])),
- (self._index+1, "%s.y" % name, str(clicked[1])),
- ]
- value = self._value
- if value:
- pairs.append((self._index+2, name, value))
- return pairs
-
- get_labels = ScalarControl.get_labels
-
-# aliases, just to make str(control) and str(form) clearer
-class PasswordControl(TextControl): pass
-class HiddenControl(TextControl): pass
-class TextareaControl(TextControl): pass
-class SubmitButtonControl(SubmitControl): pass
-
-
-def is_listcontrol(control): return control.is_of_kind("list")
-
-
-class HTMLForm:
- """Represents a single HTML <form> ... </form> element.
-
- A form consists of a sequence of controls that usually have names, and
- which can take on various values. The values of the various types of
- controls represent variously: text, zero-or-one-of-many or many-of-many
- choices, and files to be uploaded. Some controls can be clicked on to
- submit the form, and clickable controls' values sometimes include the
- coordinates of the click.
-
- Forms can be filled in with data to be returned to the server, and then
- submitted, using the click method to generate a request object suitable for
- passing to urllib2.urlopen (or the click_request_data or click_pairs
- methods if you're not using urllib2).
-
- import ClientForm
- forms = ClientForm.ParseFile(html, base_uri)
- form = forms[0]
-
- form["query"] = "Python"
- form.find_control("nr_results").get("lots").selected = True
-
- response = urllib2.urlopen(form.click())
-
- Usually, HTMLForm instances are not created directly. Instead, the
- ParseFile or ParseResponse factory functions are used. If you do construct
- HTMLForm objects yourself, however, note that an HTMLForm instance is only
- properly initialised after the fixup method has been called (ParseFile and
- ParseResponse do this for you). See ListControl.__doc__ for the reason
- this is required.
-
- Indexing a form (form["control_name"]) returns the named Control's value
- attribute. Assignment to a form index (form["control_name"] = something)
- is equivalent to assignment to the named Control's value attribute. If you
- need to be more specific than just supplying the control's name, use the
- set_value and get_value methods.
-
- ListControl values are lists of item names (specifically, the names of the
- items that are selected and not disabled, and hence are "successful" -- ie.
- cause data to be returned to the server). The list item's name is the
- value of the corresponding HTML element's"value" attribute.
-
- Example:
-
- <INPUT type="CHECKBOX" name="cheeses" value="leicester"></INPUT>
- <INPUT type="CHECKBOX" name="cheeses" value="cheddar"></INPUT>
-
- defines a CHECKBOX control with name "cheeses" which has two items, named
- "leicester" and "cheddar".
-
- Another example:
-
- <SELECT name="more_cheeses">
- <OPTION>1</OPTION>
- <OPTION value="2" label="CHEDDAR">cheddar</OPTION>
- </SELECT>
-
- defines a SELECT control with name "more_cheeses" which has two items,
- named "1" and "2" (because the OPTION element's value HTML attribute
- defaults to the element contents -- see SelectControl.__doc__ for more on
- these defaulting rules).
-
- To select, deselect or otherwise manipulate individual list items, use the
- HTMLForm.find_control() and ListControl.get() methods. To set the whole
- value, do as for any other control: use indexing or the set_/get_value
- methods.
-
- Example:
-
- # select *only* the item named "cheddar"
- form["cheeses"] = ["cheddar"]
- # select "cheddar", leave other items unaffected
- form.find_control("cheeses").get("cheddar").selected = True
-
- Some controls (RADIO and SELECT without the multiple attribute) can only
- have zero or one items selected at a time. Some controls (CHECKBOX and
- SELECT with the multiple attribute) can have multiple items selected at a
- time. To set the whole value of a ListControl, assign a sequence to a form
- index:
-
- form["cheeses"] = ["cheddar", "leicester"]
-
- If the ListControl is not multiple-selection, the assigned list must be of
- length one.
-
- To check if a control has an item, if an item is selected, or if an item is
- successful (selected and not disabled), respectively:
-
- "cheddar" in [item.name for item in form.find_control("cheeses").items]
- "cheddar" in [item.name for item in form.find_control("cheeses").items and
- item.selected]
- "cheddar" in form["cheeses"] # (or "cheddar" in form.get_value("cheeses"))
-
- Note that some list items may be disabled (see below).
-
- Note the following mistake:
-
- form[control_name] = control_value
- assert form[control_name] == control_value # not necessarily true
-
- The reason for this is that form[control_name] always gives the list items
- in the order they were listed in the HTML.
-
- List items (hence list values, too) can be referred to in terms of list
- item labels rather than list item names using the appropriate label
- arguments. Note that each item may have several labels.
-
- The question of default values of OPTION contents, labels and values is
- somewhat complicated: see SelectControl.__doc__ and
- ListControl.get_item_attrs.__doc__ if you think you need to know.
-
- Controls can be disabled or readonly. In either case, the control's value
- cannot be changed until you clear those flags (see example below).
- Disabled is the state typically represented by browsers by 'greying out' a
- control. Disabled controls are not 'successful' -- they don't cause data
- to get returned to the server. Readonly controls usually appear in
- browsers as read-only text boxes. Readonly controls are successful. List
- items can also be disabled. Attempts to select or deselect disabled items
- fail with AttributeError.
-
- If a lot of controls are readonly, it can be useful to do this:
-
- form.set_all_readonly(False)
-
- To clear a control's value attribute, so that it is not successful (until a
- value is subsequently set):
-
- form.clear("cheeses")
-
- More examples:
-
- control = form.find_control("cheeses")
- control.disabled = False
- control.readonly = False
- control.get("gruyere").disabled = True
- control.items[0].selected = True
-
- See the various Control classes for further documentation. Many methods
- take name, type, kind, id, label and nr arguments to specify the control to
- be operated on: see HTMLForm.find_control.__doc__.
-
- ControlNotFoundError (subclass of ValueError) is raised if the specified
- control can't be found. This includes occasions where a non-ListControl
- is found, but the method (set, for example) requires a ListControl.
- ItemNotFoundError (subclass of ValueError) is raised if a list item can't
- be found. ItemCountError (subclass of ValueError) is raised if an attempt
- is made to select more than one item and the control doesn't allow that, or
- set/get_single are called and the control contains more than one item.
- AttributeError is raised if a control or item is readonly or disabled and
- an attempt is made to alter its value.
-
- Security note: Remember that any passwords you store in HTMLForm instances
- will be saved to disk in the clear if you pickle them (directly or
- indirectly). The simplest solution to this is to avoid pickling HTMLForm
- objects. You could also pickle before filling in any password, or just set
- the password to "" before pickling.
-
-
- Public attributes:
-
- action: full (absolute URI) form action
- method: "GET" or "POST"
- enctype: form transfer encoding MIME type
- name: name of form (None if no name was specified)
- attrs: dictionary mapping original HTML form attributes to their values
-
- controls: list of Control instances; do not alter this list
- (instead, call form.new_control to make a Control and add it to the
- form, or control.add_to_form if you already have a Control instance)
-
-
-
- Methods for form filling:
- -------------------------
-
- Most of the these methods have very similar arguments. See
- HTMLForm.find_control.__doc__ for details of the name, type, kind, label
- and nr arguments.
-
- def find_control(self,
- name=None, type=None, kind=None, id=None, predicate=None,
- nr=None, label=None)
-
- get_value(name=None, type=None, kind=None, id=None, nr=None,
- by_label=False, # by_label is deprecated
- label=None)
- set_value(value,
- name=None, type=None, kind=None, id=None, nr=None,
- by_label=False, # by_label is deprecated
- label=None)
-
- clear_all()
- clear(name=None, type=None, kind=None, id=None, nr=None, label=None)
-
- set_all_readonly(readonly)
-
-
- Method applying only to FileControls:
-
- add_file(file_object,
- content_type="application/octet-stream", filename=None,
- name=None, id=None, nr=None, label=None)
-
-
- Methods applying only to clickable controls:
-
- click(name=None, type=None, id=None, nr=0, coord=(1,1), label=None)
- click_request_data(name=None, type=None, id=None, nr=0, coord=(1,1),
- label=None)
- click_pairs(name=None, type=None, id=None, nr=0, coord=(1,1), label=None)
-
- """
-
- type2class = {
- "text": TextControl,
- "password": PasswordControl,
- "hidden": HiddenControl,
- "textarea": TextareaControl,
-
- "isindex": IsindexControl,
-
- "file": FileControl,
-
- "button": IgnoreControl,
- "buttonbutton": IgnoreControl,
- "reset": IgnoreControl,
- "resetbutton": IgnoreControl,
-
- "submit": SubmitControl,
- "submitbutton": SubmitButtonControl,
- "image": ImageControl,
-
- "radio": RadioControl,
- "checkbox": CheckboxControl,
- "select": SelectControl,
- }
-
-#---------------------------------------------------
-# Initialisation. Use ParseResponse / ParseFile instead.
-
- def __init__(self, action, method="GET",
- enctype="application/x-www-form-urlencoded",
- name=None, attrs=None,
- request_class=urllib2.Request,
- forms=None, labels=None, id_to_labels=None,
- backwards_compat=True):
- """
- In the usual case, use ParseResponse (or ParseFile) to create new
- HTMLForm objects.
-
- action: full (absolute URI) form action
- method: "GET" or "POST"
- enctype: form transfer encoding MIME type
- name: name of form
- attrs: dictionary mapping original HTML form attributes to their values
-
- """
- self.action = action
- self.method = method
- self.enctype = enctype
- self.name = name
- if attrs is not None:
- self.attrs = attrs.copy()
- else:
- self.attrs = {}
- self.controls = []
- self._request_class = request_class
-
- # these attributes are used by zope.testbrowser
- self._forms = forms # this is a semi-public API!
- self._labels = labels # this is a semi-public API!
- self._id_to_labels = id_to_labels # this is a semi-public API!
-
- self.backwards_compat = backwards_compat # note __setattr__
-
- def __getattr__(self, name):
- if name == "backwards_compat":
- return self._backwards_compat
- return getattr(HTMLForm, name)
-
- def __setattr__(self, name, value):
- # yuck
- if name == "backwards_compat":
- name = "_backwards_compat"
- value = bool(value)
- for cc in self.controls:
- try:
- items = cc.items
- except AttributeError:
- continue
- else:
- for ii in items:
- for ll in ii.get_labels():
- ll._backwards_compat = value
- self.__dict__[name] = value
-
- def new_control(self, type, name, attrs,
- ignore_unknown=False, select_default=False, index=None):
- """Adds a new control to the form.
-
- This is usually called by ParseFile and ParseResponse. Don't call it
- youself unless you're building your own Control instances.
-
- Note that controls representing lists of items are built up from
- controls holding only a single list item. See ListControl.__doc__ for
- further information.
-
- type: type of control (see Control.__doc__ for a list)
- attrs: HTML attributes of control
- ignore_unknown: if true, use a dummy Control instance for controls of
- unknown type; otherwise, use a TextControl
- select_default: for RADIO and multiple-selection SELECT controls, pick
- the first item as the default if no 'selected' HTML attribute is
- present (this defaulting happens when the HTMLForm.fixup method is
- called)
- index: index of corresponding element in HTML (see
- MoreFormTests.test_interspersed_controls for motivation)
-
- """
- type = type.lower()
- klass = self.type2class.get(type)
- if klass is None:
- if ignore_unknown:
- klass = IgnoreControl
- else:
- klass = TextControl
-
- a = attrs.copy()
- if issubclass(klass, ListControl):
- control = klass(type, name, a, select_default, index)
- else:
- control = klass(type, name, a, index)
- control.add_to_form(self)
-
- def fixup(self):
- """Normalise form after all controls have been added.
-
- This is usually called by ParseFile and ParseResponse. Don't call it
- youself unless you're building your own Control instances.
-
- This method should only be called once, after all controls have been
- added to the form.
-
- """
- for control in self.controls:
- control.fixup()
- self.backwards_compat = self._backwards_compat
-
-#---------------------------------------------------
- def __str__(self):
- header = "%s%s %s %s" % (
- (self.name and self.name+" " or ""),
- self.method, self.action, self.enctype)
- rep = [header]
- for control in self.controls:
- rep.append(" %s" % str(control))
- return "<%s>" % "\n".join(rep)
-
-#---------------------------------------------------
-# Form-filling methods.
-
- def __getitem__(self, name):
- return self.find_control(name).value
- def __contains__(self, name):
- return bool(self.find_control(name))
- def __setitem__(self, name, value):
- control = self.find_control(name)
- try:
- control.value = value
- except AttributeError, e:
- raise ValueError(str(e))
-
- def get_value(self,
- name=None, type=None, kind=None, id=None, nr=None,
- by_label=False, # by_label is deprecated
- label=None):
- """Return value of control.
-
- If only name and value arguments are supplied, equivalent to
-
- form[name]
-
- """
- if by_label:
- deprecation("form.get_value_by_label(...)")
- c = self.find_control(name, type, kind, id, label=label, nr=nr)
- if by_label:
- try:
- meth = c.get_value_by_label
- except AttributeError:
- raise NotImplementedError(
- "control '%s' does not yet support by_label" % c.name)
- else:
- return meth()
- else:
- return c.value
- def set_value(self, value,
- name=None, type=None, kind=None, id=None, nr=None,
- by_label=False, # by_label is deprecated
- label=None):
- """Set value of control.
-
- If only name and value arguments are supplied, equivalent to
-
- form[name] = value
-
- """
- if by_label:
- deprecation("form.get_value_by_label(...)")
- c = self.find_control(name, type, kind, id, label=label, nr=nr)
- if by_label:
- try:
- meth = c.set_value_by_label
- except AttributeError:
- raise NotImplementedError(
- "control '%s' does not yet support by_label" % c.name)
- else:
- meth(value)
- else:
- c.value = value
- def get_value_by_label(
- self, name=None, type=None, kind=None, id=None, label=None, nr=None):
- """
-
- All arguments should be passed by name.
-
- """
- c = self.find_control(name, type, kind, id, label=label, nr=nr)
- return c.get_value_by_label()
-
- def set_value_by_label(
- self, value,
- name=None, type=None, kind=None, id=None, label=None, nr=None):
- """
-
- All arguments should be passed by name.
-
- """
- c = self.find_control(name, type, kind, id, label=label, nr=nr)
- c.set_value_by_label(value)
-
- def set_all_readonly(self, readonly):
- for control in self.controls:
- control.readonly = bool(readonly)
-
- def clear_all(self):
- """Clear the value attributes of all controls in the form.
-
- See HTMLForm.clear.__doc__.
-
- """
- for control in self.controls:
- control.clear()
-
- def clear(self,
- name=None, type=None, kind=None, id=None, nr=None, label=None):
- """Clear the value attribute of a control.
-
- As a result, the affected control will not be successful until a value
- is subsequently set. AttributeError is raised on readonly controls.
-
- """
- c = self.find_control(name, type, kind, id, label=label, nr=nr)
- c.clear()
-
-
-#---------------------------------------------------
-# Form-filling methods applying only to ListControls.
-
- def possible_items(self, # deprecated
- name=None, type=None, kind=None, id=None,
- nr=None, by_label=False, label=None):
- """Return a list of all values that the specified control can take."""
- c = self._find_list_control(name, type, kind, id, label, nr)
- return c.possible_items(by_label)
-
- def set(self, selected, item_name, # deprecated
- name=None, type=None, kind=None, id=None, nr=None,
- by_label=False, label=None):
- """Select / deselect named list item.
-
- selected: boolean selected state
-
- """
- self._find_list_control(name, type, kind, id, label, nr).set(
- selected, item_name, by_label)
- def toggle(self, item_name, # deprecated
- name=None, type=None, kind=None, id=None, nr=None,
- by_label=False, label=None):
- """Toggle selected state of named list item."""
- self._find_list_control(name, type, kind, id, label, nr).toggle(
- item_name, by_label)
-
- def set_single(self, selected, # deprecated
- name=None, type=None, kind=None, id=None,
- nr=None, by_label=None, label=None):
- """Select / deselect list item in a control having only one item.
-
- If the control has multiple list items, ItemCountError is raised.
-
- This is just a convenience method, so you don't need to know the item's
- name -- the item name in these single-item controls is usually
- something meaningless like "1" or "on".
-
- For example, if a checkbox has a single item named "on", the following
- two calls are equivalent:
-
- control.toggle("on")
- control.toggle_single()
-
- """ # by_label ignored and deprecated
- self._find_list_control(
- name, type, kind, id, label, nr).set_single(selected)
- def toggle_single(self, name=None, type=None, kind=None, id=None,
- nr=None, by_label=None, label=None): # deprecated
- """Toggle selected state of list item in control having only one item.
-
- The rest is as for HTMLForm.set_single.__doc__.
-
- """ # by_label ignored and deprecated
- self._find_list_control(name, type, kind, id, label, nr).toggle_single()
-
-#---------------------------------------------------
-# Form-filling method applying only to FileControls.
-
- def add_file(self, file_object, content_type=None, filename=None,
- name=None, id=None, nr=None, label=None):
- """Add a file to be uploaded.
-
- file_object: file-like object (with read method) from which to read
- data to upload
- content_type: MIME content type of data to upload
- filename: filename to pass to server
-
- If filename is None, no filename is sent to the server.
-
- If content_type is None, the content type is guessed based on the
- filename and the data from read from the file object.
-
- XXX
- At the moment, guessed content type is always application/octet-stream.
- Use sndhdr, imghdr modules. Should also try to guess HTML, XML, and
- plain text.
-
- Note the following useful HTML attributes of file upload controls (see
- HTML 4.01 spec, section 17):
-
- accept: comma-separated list of content types that the server will
- handle correctly; you can use this to filter out non-conforming files
- size: XXX IIRC, this is indicative of whether form wants multiple or
- single files
- maxlength: XXX hint of max content length in bytes?
-
- """
- self.find_control(name, "file", id=id, label=label, nr=nr).add_file(
- file_object, content_type, filename)
-
-#---------------------------------------------------
-# Form submission methods, applying only to clickable controls.
-
- def click(self, name=None, type=None, id=None, nr=0, coord=(1,1),
- request_class=urllib2.Request,
- label=None):
- """Return request that would result from clicking on a control.
-
- The request object is a urllib2.Request instance, which you can pass to
- urllib2.urlopen (or ClientCookie.urlopen).
-
- Only some control types (INPUT/SUBMIT & BUTTON/SUBMIT buttons and
- IMAGEs) can be clicked.
-
- Will click on the first clickable control, subject to the name, type
- and nr arguments (as for find_control). If no name, type, id or number
- is specified and there are no clickable controls, a request will be
- returned for the form in its current, un-clicked, state.
-
- IndexError is raised if any of name, type, id or nr is specified but no
- matching control is found. ValueError is raised if the HTMLForm has an
- enctype attribute that is not recognised.
-
- You can optionally specify a coordinate to click at, which only makes a
- difference if you clicked on an image.
-
- """
- return self._click(name, type, id, label, nr, coord, "request",
- self._request_class)
-
- def click_request_data(self,
- name=None, type=None, id=None,
- nr=0, coord=(1,1),
- request_class=urllib2.Request,
- label=None):
- """As for click method, but return a tuple (url, data, headers).
-
- You can use this data to send a request to the server. This is useful
- if you're using httplib or urllib rather than urllib2. Otherwise, use
- the click method.
-
- # Untested. Have to subclass to add headers, I think -- so use urllib2
- # instead!
- import urllib
- url, data, hdrs = form.click_request_data()
- r = urllib.urlopen(url, data)
-
- # Untested. I don't know of any reason to use httplib -- you can get
- # just as much control with urllib2.
- import httplib, urlparse
- url, data, hdrs = form.click_request_data()
- tup = urlparse(url)
- host, path = tup[1], urlparse.urlunparse((None, None)+tup[2:])
- conn = httplib.HTTPConnection(host)
- if data:
- httplib.request("POST", path, data, hdrs)
- else:
- httplib.request("GET", path, headers=hdrs)
- r = conn.getresponse()
-
- """
- return self._click(name, type, id, label, nr, coord, "request_data",
- self._request_class)
-
- def click_pairs(self, name=None, type=None, id=None,
- nr=0, coord=(1,1),
- label=None):
- """As for click_request_data, but returns a list of (key, value) pairs.
-
- You can use this list as an argument to ClientForm.urlencode. This is
- usually only useful if you're using httplib or urllib rather than
- urllib2 or ClientCookie. It may also be useful if you want to manually
- tweak the keys and/or values, but this should not be necessary.
- Otherwise, use the click method.
-
- Note that this method is only useful for forms of MIME type
- x-www-form-urlencoded. In particular, it does not return the
- information required for file upload. If you need file upload and are
- not using urllib2, use click_request_data.
-
- Also note that Python 2.0's urllib.urlencode is slightly broken: it
- only accepts a mapping, not a sequence of pairs, as an argument. This
- messes up any ordering in the argument. Use ClientForm.urlencode
- instead.
-
- """
- return self._click(name, type, id, label, nr, coord, "pairs",
- self._request_class)
-
-#---------------------------------------------------
-
- def find_control(self,
- name=None, type=None, kind=None, id=None,
- predicate=None, nr=None,
- label=None):
- """Locate and return some specific control within the form.
-
- At least one of the name, type, kind, predicate and nr arguments must
- be supplied. If no matching control is found, ControlNotFoundError is
- raised.
-
- If name is specified, then the control must have the indicated name.
-
- If type is specified then the control must have the specified type (in
- addition to the types possible for <input> HTML tags: "text",
- "password", "hidden", "submit", "image", "button", "radio", "checkbox",
- "file" we also have "reset", "buttonbutton", "submitbutton",
- "resetbutton", "textarea", "select" and "isindex").
-
- If kind is specified, then the control must fall into the specified
- group, each of which satisfies a particular interface. The types are
- "text", "list", "multilist", "singlelist", "clickable" and "file".
-
- If id is specified, then the control must have the indicated id.
-
- If predicate is specified, then the control must match that function.
- The predicate function is passed the control as its single argument,
- and should return a boolean value indicating whether the control
- matched.
-
- nr, if supplied, is the sequence number of the control (where 0 is the
- first). Note that control 0 is the first control matching all the
- other arguments (if supplied); it is not necessarily the first control
- in the form. If no nr is supplied, AmbiguityError is raised if
- multiple controls match the other arguments (unless the
- .backwards-compat attribute is true).
-
- If label is specified, then the control must have this label. Note
- that radio controls and checkboxes never have labels: their items do.
-
- """
- if ((name is None) and (type is None) and (kind is None) and
- (id is None) and (label is None) and (predicate is None) and
- (nr is None)):
- raise ValueError(
- "at least one argument must be supplied to specify control")
- return self._find_control(name, type, kind, id, label, predicate, nr)
-
-#---------------------------------------------------
-# Private methods.
-
- def _find_list_control(self,
- name=None, type=None, kind=None, id=None,
- label=None, nr=None):
- if ((name is None) and (type is None) and (kind is None) and
- (id is None) and (label is None) and (nr is None)):
- raise ValueError(
- "at least one argument must be supplied to specify control")
-
- return self._find_control(name, type, kind, id, label,
- is_listcontrol, nr)
-
- def _find_control(self, name, type, kind, id, label, predicate, nr):
- if (name is not None) and not isstringlike(name):
- raise TypeError("control name must be string-like")
- if (type is not None) and not isstringlike(type):
- raise TypeError("control type must be string-like")
- if (kind is not None) and not isstringlike(kind):
- raise TypeError("control kind must be string-like")
- if (id is not None) and not isstringlike(id):
- raise TypeError("control id must be string-like")
- if (label is not None) and not isstringlike(label):
- raise TypeError("control label must be string-like")
- if (predicate is not None) and not callable(predicate):
- raise TypeError("control predicate must be callable")
- if (nr is not None) and nr < 0:
- raise ValueError("control number must be a positive integer")
-
- orig_nr = nr
- found = None
- ambiguous = False
- if nr is None and self.backwards_compat:
- nr = 0
-
- for control in self.controls:
- if name is not None and name != control.name:
- continue
- if type is not None and type != control.type:
- continue
- if kind is not None and not control.is_of_kind(kind):
- continue
- if id is not None and id != control.id:
- continue
- if predicate and not predicate(control):
- continue
- if label:
- for l in control.get_labels():
- if l.text.find(label) > -1:
- break
- else:
- continue
- if nr is not None:
- if nr == 0:
- return control # early exit: unambiguous due to nr
- nr -= 1
- continue
- if found:
- ambiguous = True
- break
- found = control
-
- if found and not ambiguous:
- return found
-
- description = []
- if name is not None: description.append("name '%s'" % name)
- if type is not None: description.append("type '%s'" % type)
- if kind is not None: description.append("kind '%s'" % kind)
- if id is not None: description.append("id '%s'" % id)
- if label is not None: description.append("label '%s'" % label)
- if predicate is not None:
- description.append("predicate %s" % predicate)
- if orig_nr: description.append("nr %d" % orig_nr)
- description = ", ".join(description)
-
- if ambiguous:
- raise AmbiguityError("more than one control matching "+description)
- elif not found:
- raise ControlNotFoundError("no control matching "+description)
- assert False
-
- def _click(self, name, type, id, label, nr, coord, return_type,
- request_class=urllib2.Request):
- try:
- control = self._find_control(
- name, type, "clickable", id, label, None, nr)
- except ControlNotFoundError:
- if ((name is not None) or (type is not None) or (id is not None) or
- (nr != 0)):
- raise
- # no clickable controls, but no control was explicitly requested,
- # so return state without clicking any control
- return self._switch_click(return_type, request_class)
- else:
- return control._click(self, coord, return_type, request_class)
-
- def _pairs(self):
- """Return sequence of (key, value) pairs suitable for urlencoding."""
- return [(k, v) for (i, k, v, c_i) in self._pairs_and_controls()]
-
-
- def _pairs_and_controls(self):
- """Return sequence of (index, key, value, control_index)
- of totally ordered pairs suitable for urlencoding.
-
- control_index is the index of the control in self.controls
- """
- pairs = []
- for control_index in range(len(self.controls)):
- control = self.controls[control_index]
- for ii, key, val in control._totally_ordered_pairs():
- pairs.append((ii, key, val, control_index))
-
- # stable sort by ONLY first item in tuple
- pairs.sort()
-
- return pairs
-
- def _request_data(self):
- """Return a tuple (url, data, headers)."""
- method = self.method.upper()
- #scheme, netloc, path, parameters, query, frag = urlparse.urlparse(self.action)
- parts = urlparse.urlparse(self.action)
- rest, (query, frag) = parts[:-2], parts[-2:]
-
- if method == "GET":
- if self.enctype != "application/x-www-form-urlencoded":
- raise ValueError(
- "unknown GET form encoding type '%s'" % self.enctype)
- parts = rest + (urlencode(self._pairs()), "")
- uri = urlparse.urlunparse(parts)
- return uri, None, []
- elif method == "POST":
- parts = rest + (query, "")
- uri = urlparse.urlunparse(parts)
- if self.enctype == "application/x-www-form-urlencoded":
- return (uri, urlencode(self._pairs()),
- [("Content-type", self.enctype)])
- elif self.enctype == "multipart/form-data":
- data = StringIO()
- http_hdrs = []
- mw = MimeWriter(data, http_hdrs)
- f = mw.startmultipartbody("form-data", add_to_http_hdrs=True,
- prefix=0)
- for ii, k, v, control_index in self._pairs_and_controls():
- self.controls[control_index]._write_mime_data(mw, k, v)
- mw.lastpart()
- return uri, data.getvalue(), http_hdrs
- else:
- raise ValueError(
- "unknown POST form encoding type '%s'" % self.enctype)
- else:
- raise ValueError("Unknown method '%s'" % method)
-
- def _switch_click(self, return_type, request_class=urllib2.Request):
- # This is called by HTMLForm and clickable Controls to hide switching
- # on return_type.
- if return_type == "pairs":
- return self._pairs()
- elif return_type == "request_data":
- return self._request_data()
- else:
- req_data = self._request_data()
- req = request_class(req_data[0], req_data[1])
- for key, val in req_data[2]:
- add_hdr = req.add_header
- if key.lower() == "content-type":
- try:
- add_hdr = req.add_unredirected_header
- except AttributeError:
- # pre-2.4 and not using ClientCookie
- pass
- add_hdr(key, val)
- return req
More information about the Zope-Checkins
mailing list