Source code for mechanize._form_controls
#!/usr/bin/env python
# vim:fileencoding=utf-8
from __future__ import absolute_import
import random
import re
import sys
import warnings
from io import BytesIO
from mimetypes import guess_type
from . import _request
from .polyglot import (as_unicode, is_py2, iteritems, unicode_type, urlencode,
urlparse, urlunparse)
if is_py2:
from cStringIO import StringIO
else:
class StringIO(BytesIO):
def write(self, x):
if isinstance(x, str):
x = x.encode('utf-8')
BytesIO.write(self, x)
class Missing:
pass
class LocateError(ValueError):
pass
class AmbiguityError(LocateError):
pass
class ControlNotFoundError(LocateError):
pass
class ItemNotFoundError(LocateError):
pass
class ItemCountError(ValueError):
pass
_compress_re = re.compile(r"\s+")
def deprecation(message, stack_offset=0):
warnings.warn(message, DeprecationWarning, stacklevel=3 + stack_offset)
def compress_whitespace(text):
return re.sub(r'\s+', ' ', text or '').strip()
def isstringlike(x):
if isinstance(x, (bytes, unicode_type)):
return True
try:
x + ""
return True
except Exception:
return False
def choose_boundary():
"""Return a string usable as a multipart boundary."""
# follow IE and firefox
nonce = "".join(str(random.randint(0, sys.maxsize - 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:
.. code-block:: python
f = <open the output file>
w = MimeWriter(f)
...call w.addheader(key, value) 0 or more times...
followed by either:
.. code-block:: python
f = w.startbody(content_type)
...call f.write(data) for body data...
or:
.. code-block:: python
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)
# 2.2 urllib2 doesn't normalize header case
self._http_hdrs.append((key.capitalize(), value))
else:
for i in range(1, len(lines)):
lines[i] = " " + lines[i].strip()
value = "\r\n".join(lines) + "\r\n"
line = key.title() + ": " + value
if prefix:
self._headers.insert(0, line)
else:
self._headers.append(line)
def flushheaders(self):
for line in self._headers:
self._fp.write(line)
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 Label:
def __init__(self, text, for_id=None):
self.id = for_id
self.text = compress_whitespace(text or '')
def __repr__(self):
return "<Label(id=%r, text=%r)>" % (self.id, self.text)
__str__ = __repr__
def _get_label(attrs):
text = attrs.get("__label")
if text is not None:
return Label(text)
[docs]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:
:ivar str type: string describing type of control (see the keys of the
HTMLForm.type2class dictionary for the allowable values) (readonly)
:ivar str name: name of control (readonly)
:ivar value: current value of control (subclasses may allow a single value,
a sequence of values, or either)
:ivar bool disabled: disabled state
:ivar bool readonly: readonly state
:ivar str 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()
[docs] 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"' % as_unicode(name),
1)
f = mw2.startbody(prefix=0)
f.write(value)
def __str__(self):
raise NotImplementedError()
[docs] 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
# ---------------------------------------------------
[docs]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:
:ivar dict 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 = 'disabled' in attrs
self.readonly = 'readonly' in attrs
self.id = attrs.get("id")
self.attrs = dict(attrs)
self._clicked = False
self._urlparse = urlparse
self._urlunparse = urlunparse
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)
# ---------------------------------------------------
[docs]class TextControl(ScalarControl):
"""Textual input control.
Covers HTML elements: 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"
# ---------------------------------------------------
[docs]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: :meth:`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
[docs] def add_file(self, file_object, content_type=None, filename=None):
''' Add data from the specified file to be uploaded. content_type and
filename are sent in the HTTP headers if specified. '''
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:
if getattr(file_object, 'name', None):
content_type = guess_type(file_object.name)[0]
content_type = content_type or "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, "")]
# If enctype is application/x-www-form-urlencoded and there's a FILE
# control present, what should be sent? Strictly, it should be 'name=data'
# (see HTML 4.01 spec., section 17.13.2), but code sends "name=" ATM. What
# about multiple file upload?
def _write_mime_data(self, mw, _name, _value):
# called by HTMLForm
# assert _name == self.name and _value == ''
if len(self._upload_data) < 2:
if len(self._upload_data) == 0:
file_object = BytesIO()
content_type = "application/octet-stream"
filename = ""
else:
file_object, content_type, filename = self._upload_data[0]
if filename is None:
filename = ""
mw2 = mw.nextpart()
fn_part = '; filename="%s"' % filename
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())
else:
# 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()
if filename is None:
filename = ""
fn_part = '; filename="%s"' % filename
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)
# ---------------------------------------------------
# ---------------------------------------------------
[docs]class IgnoreControl(ScalarControl):
"""Control that we're not interested in.
Covers html elements: 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": 'disabled' in attrs,
"_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):
# XXX appending the attrs without distinguishing them from name and id
# is silly
attrs = [("name", self.name), ("id", self.id)] + list(
iteritems(self.attrs))
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 iteritems(kwds):
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]
[docs]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:
.. code-block:: python
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")
self._closed = False
# 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
[docs] 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
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 label in l.text:
break
else:
continue
if id is not None and o.id != id:
continue
items.append(o)
return items
[docs] 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 (e.g. 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.
If no item is found, or if items are found but nr is specified and not
found, raises ItemNotFoundError.
Optionally excludes disabled items.
"""
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)
[docs] 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)
[docs] 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)
if item.disabled:
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
[docs] 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)
[docs] 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)
[docs] 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
[docs] def set_item_disabled(self, disabled, name, by_label=False, nr=None):
"""Set disabled state of named list item in a ListControl.
:arg disabled: boolean disabled state
"""
deprecation("control.get(...).disabled = <boolean>")
self._get(name, by_label, nr).disabled = disabled
[docs] def set_all_items_disabled(self, disabled):
"""Set disabled state of all list items in a ListControl.
:arg disabled: boolean disabled state
"""
for o in self.items:
o.disabled = disabled
[docs] 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 close_control(self):
self._closed = True
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
if self.name is None:
# always count nameless elements as separate controls
Control.add_to_form(self, form)
else:
for ii in range(len(form.controls) - 1, -1, -1):
control = form.controls[ii]
if control.name == self.name and control.type == self.type:
if control._closed:
Control.add_to_form(self, form)
else:
control.merge_control(self)
break
else:
Control.add_to_form(self, form)
def merge_control(self, control):
assert bool(control.multiple) == bool(self.multiple)
# usually, isinstance(control, self.__class__)
self.items.extend(control.items)
[docs] 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 :class:`mechanize.ListControl` 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":
if self.name is None:
return []
return [
o.name for o in self.items if o.selected and (not o.disabled)
]
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:
for o in self.items:
if not o.disabled:
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):
turn_on = [] # transactional-ish
turn_off = [
item for item in self.items
if item.selected and (not item.disabled)
]
names = {}
for nn in value:
names[nn] = names.setdefault(nn, 0) + 1
for name, count in iteritems(names):
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
[docs] 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: 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:
# 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)
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 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
[docs] def get_value_by_label(self):
"""Return the value of the control as given by normalized labels."""
res = []
for o in self.items:
if (not o.disabled) and o.selected:
for l in o.get_labels():
if l.text:
res.append(l.text)
break
else:
res.append(None)
return res
[docs] 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 or self.name is None:
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)
[docs]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"] = 'checked' in attrs
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 []
[docs]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"] = 'checked' in attrs
def get_labels(self):
return []
[docs]class SelectControl(ListControl):
"""
Covers:
SELECT (and OPTION)
OPTION 'values', in HTML parlance, are Item 'names' in mechanize 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 = dict(attrs["__select"])
self.__dict__["_label"] = _get_label(self.attrs)
self.__dict__["id"] = self.attrs.get("id")
self.__dict__["multiple"] = 'multiple' in self.attrs
# the majority of the contents, label, and value dance already happened
contents = attrs.get("contents")
attrs = dict(attrs)
del attrs["__select"]
ListControl.__init__(
self,
type,
name,
self.attrs,
select_default,
called_as_base_class=True,
index=index)
self.disabled = 'disabled' in self.attrs
self.readonly = 'readonly' in self.attrs
if 'value' in attrs:
# otherwise it is a marker 'select started' token
o = Item(self, attrs, index)
o.__dict__["_selected"] = 'selected' in attrs
# 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(label))
if contents and contents != label:
o._labels.append(Label(contents))
elif contents:
o._labels.append(Label(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
# ---------------------------------------------------
[docs]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.__dict__['_value'] = ""
self.readonly = True
def get_labels(self):
res = []
if self.value:
res.append(Label(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=_request.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)
# ---------------------------------------------------
[docs]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")
[docs]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 :func:`mechanize.urlopen` (or the click_request_data or
click_pairs methods for integration with third-party code).
Usually, HTMLForm instances are not created directly. Instead, they are
automatically created when visting a page with a mechanize Browser. If you
do construct HTMLForm objects yourself, however, note that an HTMLForm
instance is only properly initialised after the fixup method has been
called. See :class:`mechanize.ListControl` 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 :class:`mechanize.SelectControl`
for more on these defaulting rules).
To select, deselect or otherwise manipulate individual list items, use the
:meth:`mechanize.HTMLForm.find_control()` and
:meth:`mechanize.ListControl.get()` methods. To set the whole value, do as
for any other control: use indexing or the `set_value/get_value` methods.
Example:
.. code-block:: python
# 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:
.. code-block:: python
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:
.. code-block:: python
"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:
.. code-block:: python
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 :class:`mechanize.SelectControl` and
:meth:`mechanize.ListControl.get_item_attrs()` 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:
.. code-block:: python
form.set_all_readonly(False)
To clear a control's value attribute, so that it is not successful (until a
value is subsequently set):
.. code-block:: python
form.clear("cheeses")
More examples:
.. code-block:: python
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 :meth:`mechanize.HTMLForm.find_control()`.
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:
:ivar action: full (absolute URI) form action
:ivar method: "GET" or "POST"
:ivar enctype: form transfer encoding MIME type
:ivar name: name of form (None if no name was specified)
:ivar attrs: dictionary mapping original HTML form attributes to their
values
:ivar 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
:meth:`mechanize.HTMLForm.find_control()` for details of the name, type,
kind, label and nr arguments.
.. code-block:: python
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:
.. code-block:: python
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:
.. code-block:: python
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,
"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=_request.Request,
forms=None,
labels=None,
id_to_labels=None,
encoding=None):
"""
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.form_encoding = encoding or 'utf-8'
self.name = name
if attrs is not None:
self.attrs = dict(attrs)
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._urlunparse = urlunparse
self._urlparse = urlparse
[docs] 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 mechanize. Don't call it
yourself 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
:class:`mechanize.ListControl` for further information.
:arg type: type of control (see :class:`mechanize.Control` for a list)
:arg attrs: HTML attributes of control
:arg ignore_unknown: if true, use a dummy Control instance for controls
of unknown type; otherwise, use a TextControl
:arg 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)
:arg 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 = dict(attrs)
if issubclass(klass, ListControl):
control = klass(type, name, a, select_default, index)
else:
control = klass(type, name, a, index)
if type == "select" and len(attrs) == 1:
for ii in range(len(self.controls) - 1, -1, -1):
ctl = self.controls[ii]
if ctl.type == "select":
ctl.close_control()
break
control.add_to_form(self)
control._urlparse = self._urlparse
control._urlunparse = self._urlunparse
[docs] 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()
control.form_encoding = self.form_encoding
# ---------------------------------------------------
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 as e:
raise ValueError(str(e))
[docs] 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
.. code-block:: python
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
[docs] 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
.. code-block:: python
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
[docs] 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()
[docs] 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)
[docs] def clear_all(self):
"""Clear the value attributes of all controls in the form.
See :meth:`mechanize.HTMLForm.clear()`
"""
for control in self.controls:
control.clear()
[docs] 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.
[docs] 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)
[docs] 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.
:arg selected: boolean selected state
"""
self._find_list_control(name, type, kind, id, label, nr).set(
selected, item_name, by_label)
[docs] 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)
[docs] 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:
.. code-block:: python
control.toggle("on")
control.toggle_single()
""" # by_label ignored and deprecated
self._find_list_control(name, type, kind, id, label,
nr).set_single(selected)
[docs] 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 :meth:`mechanize.HTMLForm.set_single()`
""" # by_label ignored and deprecated
self._find_list_control(name, type, kind, id, label,
nr).toggle_single()
# ---------------------------------------------------
# Form-filling method applying only to FileControls.
[docs] 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.
:arg file_object: file-like object (with read method) from which to
read data to upload
:arg content_type: MIME content type of data to upload
:arg 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.
At the moment, guessed content type is always application/octet-stream.
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.
[docs] def click(self,
name=None,
type=None,
id=None,
nr=0,
coord=(1, 1),
request_class=_request.Request,
label=None):
"""Return request that would result from clicking on a control.
The request object is a mechanize.Request instance, which you can pass
to mechanize.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)
[docs] def click_request_data(self,
name=None,
type=None,
id=None,
nr=0,
coord=(1, 1),
request_class=_request.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 mechanize. Otherwise,
use the click method.
"""
return self._click(name, type, id, label, nr, coord, "request_data",
self._request_class)
[docs] 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 urllib.urlencode. This is
usually only useful if you're using httplib or urllib rather than
mechanize. 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 mechanize, use click_request_data.
"""
return self._click(name, type, id, label, nr, coord, "pairs",
self._request_class)
# ---------------------------------------------------
[docs] 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").
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.
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 (name is not Missing) 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
for control in self.controls:
if ((name is not None and name != control.name) and
(name is not Missing or control.name is not None)):
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" % repr(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=_request.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
(label 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:
originals = self.method, self.action, self.enctype
try:
if isinstance(control, ScalarControl):
self.method = control.attrs.get(
'formmethod') or self.method
self.action = control.attrs.get(
'formaction') or self.action
self.enctype = control.attrs.get(
'formenctype') or self.enctype
return control._click(self, coord, return_type, request_class)
finally:
self.method, self.action, self.enctype = originals
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():
if ii is None:
ii = -1
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()
parts = self._urlparse(self.action)
rest, (query, frag) = parts[:-2], parts[-2:]
frag
def encode_data(x):
if isinstance(x, unicode_type):
x = x.encode(self.form_encoding)
return x
def encode_query():
p = [(encode_data(k), encode_data(v)) for k, v in self._pairs()]
return urlencode(p)
if method == "GET":
if self.enctype != "application/x-www-form-urlencoded":
raise ValueError("unknown GET form encoding type '%s'" %
self.enctype)
parts = rest + (encode_query(), None)
uri = self._urlunparse(parts)
return uri, None, []
elif method == "POST":
parts = rest + (query, None)
uri = self._urlunparse(parts)
if self.enctype == "application/x-www-form-urlencoded":
return (uri, encode_query(),
[("Content-Type", self.enctype)])
elif self.enctype == "multipart/form-data":
data = StringIO()
http_hdrs = []
mw = MimeWriter(data, http_hdrs)
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, encode_data(k), encode_data(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=_request.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