# Copyright 2012 Nebula, Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
from collections import defaultdict
from collections import OrderedDict
import copy
import logging
import types
import warnings
from django.conf import settings
from django.core import urlresolvers
from django import shortcuts
from django.template.loader import render_to_string # noqa
from django.utils.functional import Promise # noqa
from django.utils.http import urlencode # noqa
from django.utils.translation import pgettext_lazy
from django.utils.translation import ugettext_lazy as _
from django.utils.translation import ungettext_lazy
import six
from horizon import messages
from horizon.utils import functions
from horizon.utils import html
from horizon.utils import settings as utils_settings
LOG = logging.getLogger(__name__)
# For Bootstrap integration; can be overridden in settings.
ACTION_CSS_CLASSES = ()
STRING_SEPARATOR = "__"
class BaseActionMetaClass(type):
"""Metaclass for adding all actions options from inheritance tree
to action.
This way actions can inherit from each other but still use
the class attributes DSL. Meaning, all attributes of Actions are
defined as class attributes, but in the background, it will be used as
parameters for the initializer of the object. The object is then
initialized clean way. Similar principle is used in DataTableMetaclass.
"""
def __new__(mcs, name, bases, attrs):
# Options of action are set as class attributes, loading them.
options = {}
if attrs:
options = attrs
# Iterate in reverse to preserve final order
for base in bases[::-1]:
# It actually throws all super classes away except immediate
# superclass. But it's fine, immediate super-class base_options
# includes everything because superclasses was created also by
# this metaclass. Same principle is used in DataTableMetaclass.
if hasattr(base, 'base_options') and base.base_options:
base_options = {}
# Updating options by superclasses.
base_options.update(base.base_options)
# Updating superclass options by actual class options.
base_options.update(options)
options = base_options
# Saving all options to class attribute, this will be used for
# instantiating of the specific Action.
attrs['base_options'] = options
return type.__new__(mcs, name, bases, attrs)
def __call__(cls, *args, **kwargs):
cls.base_options.update(kwargs)
# Adding cls.base_options to each init call.
klass = super(BaseActionMetaClass, cls).__call__(
*args, **cls.base_options)
return klass
@six.add_metaclass(BaseActionMetaClass)
class BaseAction(html.HTMLElement):
"""Common base class for all ``Action`` classes."""
def __init__(self, **kwargs):
super(BaseAction, self).__init__()
self.datum = kwargs.get('datum', None)
self.table = kwargs.get('table', None)
self.handles_multiple = kwargs.get('handles_multiple', False)
self.requires_input = kwargs.get('requires_input', False)
self.preempt = kwargs.get('preempt', False)
self.policy_rules = kwargs.get('policy_rules', None)
self.action_type = kwargs.get('action_type', 'default')
def data_type_matched(self, datum):
"""Method to see if the action is allowed for a certain type of data.
Only affects mixed data type tables.
"""
if datum:
action_data_types = getattr(self, "allowed_data_types", [])
# If the data types of this action is empty, we assume it accepts
# all kinds of data and this method will return True.
if action_data_types:
datum_type = getattr(datum, self.table._meta.data_type_name,
None)
if datum_type and (datum_type not in action_data_types):
return False
return True
def get_policy_target(self, request, datum):
"""Provide the target for a policy request.
This method is meant to be overridden to return target details when
one of the policy checks requires them. E.g., {"user_id": datum.id}
"""
return {}
def allowed(self, request, datum):
"""Determine whether this action is allowed for the current request.
This method is meant to be overridden with more specific checks.
"""
return True
def _allowed(self, request, datum):
policy_check = utils_settings.import_setting("POLICY_CHECK_FUNCTION")
if policy_check and self.policy_rules:
target = self.get_policy_target(request, datum)
return (policy_check(self.policy_rules, request, target) and
self.allowed(request, datum))
return self.allowed(request, datum)
def update(self, request, datum):
"""Allows per-action customization based on current conditions.
This is particularly useful when you wish to create a "toggle"
action that will be rendered differently based on the value of an
attribute on the current row's data.
By default this method is a no-op.
"""
pass
def get_default_classes(self):
"""Returns a list of the default classes for the action. Defaults to
``["btn", "btn-default", "btn-sm"]``.
"""
return getattr(settings, "ACTION_CSS_CLASSES", ACTION_CSS_CLASSES)
def get_default_attrs(self):
"""Returns a list of the default HTML attributes for the action.
Defaults to returning an ``id`` attribute with the value
``{{ table.name }}__action_{{ action.name }}__{{ creation counter }}``.
"""
if self.datum is not None:
bits = (self.table.name,
"row_%s" % self.table.get_object_id(self.datum),
"action_%s" % self.name)
else:
bits = (self.table.name, "action_%s" % self.name)
return {"id": STRING_SEPARATOR.join(bits)}
def __repr__(self):
return "<%s: %s>" % (self.__class__.__name__, self.name)
def associate_with_table(self, table):
self.table = table
[docs]class Action(BaseAction):
"""Represents an action which can be taken on this table's data.
.. attribute:: name
Required. The short name or "slug" representing this
action. This name should not be changed at runtime.
.. attribute:: verbose_name
A descriptive name used for display purposes. Defaults to the
value of ``name`` with the first letter of each word capitalized.
.. attribute:: verbose_name_plural
Used like ``verbose_name`` in cases where ``handles_multiple`` is
``True``. Defaults to ``verbose_name`` with the letter "s" appended.
.. attribute:: method
The HTTP method for this action. Defaults to ``POST``. Other methods
may or may not succeed currently.
.. attribute:: requires_input
Boolean value indicating whether or not this action can be taken
without any additional input (e.g. an object id). Defaults to ``True``.
.. attribute:: preempt
Boolean value indicating whether this action should be evaluated in
the period after the table is instantiated but before the data has
been loaded.
This can allow actions which don't need access to the full table data
to bypass any API calls and processing which would otherwise be
required to load the table.
.. attribute:: allowed_data_types
A list that contains the allowed data types of the action. If the
datum's type is in this list, the action will be shown on the row
for the datum.
Default to be an empty list (``[]``). When set to empty, the action
will accept any kind of data.
.. attribute:: policy_rules
list of scope and rule tuples to do policy checks on, the
composition of which is (scope, rule)
scope: service type managing the policy for action
rule: string representing the action to be checked
for a policy that requires a single rule check:
policy_rules should look like
"(("compute", "compute:create_instance"),)"
for a policy that requires multiple rule checks:
rules should look like
"(("identity", "identity:list_users"),
("identity", "identity:list_roles"))"
At least one of the following methods must be defined:
.. method:: single(self, data_table, request, object_id)
Handler for a single-object action.
.. method:: multiple(self, data_table, request, object_ids)
Handler for multi-object actions.
.. method:: handle(self, data_table, request, object_ids)
If a single function can work for both single-object and
multi-object cases then simply providing a ``handle`` function
will internally route both ``single`` and ``multiple`` requests
to ``handle`` with the calls from ``single`` being transformed
into a list containing only the single object id.
"""
def __init__(self, single_func=None, multiple_func=None, handle_func=None,
attrs=None, **kwargs):
super(Action, self).__init__(**kwargs)
self.method = kwargs.get('method', "POST")
self.requires_input = kwargs.get('requires_input', True)
self.verbose_name = kwargs.get('verbose_name', self.name.title())
self.verbose_name_plural = kwargs.get('verbose_name_plural',
"%ss" % self.verbose_name)
self.allowed_data_types = kwargs.get('allowed_data_types', [])
self.icon = kwargs.get('icon', None)
if attrs:
self.attrs.update(attrs)
# Don't set these if they're None
if single_func:
self.single = single_func
if multiple_func:
self.multiple = multiple_func
if handle_func:
self.handle = handle_func
# Ensure we have the appropriate methods
has_handler = hasattr(self, 'handle') and callable(self.handle)
has_single = hasattr(self, 'single') and callable(self.single)
has_multiple = hasattr(self, 'multiple') and callable(self.multiple)
if has_handler or has_multiple:
self.handles_multiple = True
if not has_handler and (not has_single or has_multiple):
cls_name = self.__class__.__name__
raise NotImplementedError('You must define either a "handle" '
'method or a "single" or "multiple" '
'method on %s.' % cls_name)
if not has_single:
def single(self, data_table, request, object_id):
return self.handle(data_table, request, [object_id])
self.single = types.MethodType(single, self)
if not has_multiple and self.handles_multiple:
def multiple(self, data_table, request, object_ids):
return self.handle(data_table, request, object_ids)
self.multiple = types.MethodType(multiple, self)
[docs] def get_param_name(self):
"""Returns the full POST parameter name for this action.
Defaults to
``{{ table.name }}__{{ action.name }}``.
"""
return "__".join([self.table.name, self.name])
[docs]class LinkAction(BaseAction):
"""A table action which is simply a link rather than a form POST.
.. attribute:: name
Required. The short name or "slug" representing this
action. This name should not be changed at runtime.
.. attribute:: verbose_name
A string which will be rendered as the link text. (Required)
.. attribute:: url
A string or a callable which resolves to a url to be used as the link
target. You must either define the ``url`` attribute or override
the ``get_link_url`` method on the class.
.. attribute:: allowed_data_types
A list that contains the allowed data types of the action. If the
datum's type is in this list, the action will be shown on the row
for the datum.
Defaults to be an empty list (``[]``). When set to empty, the action
will accept any kind of data.
"""
# class attribute name is used for ordering of Actions in table
name = "link"
ajax = False
def __init__(self, attrs=None, **kwargs):
super(LinkAction, self).__init__(**kwargs)
self.method = kwargs.get('method', "GET")
self.bound_url = kwargs.get('bound_url', None)
self.name = kwargs.get('name', self.name)
self.verbose_name = kwargs.get('verbose_name', self.name.title())
self.url = kwargs.get('url', None)
self.allowed_data_types = kwargs.get('allowed_data_types', [])
self.icon = kwargs.get('icon', None)
self.kwargs = kwargs
self.action_type = kwargs.get('action_type', 'default')
if not kwargs.get('verbose_name', None):
raise NotImplementedError('A LinkAction object must have a '
'verbose_name attribute.')
if attrs:
self.attrs.update(attrs)
if self.ajax:
self.classes = list(self.classes) + ['ajax-update']
def get_ajax_update_url(self):
table_url = self.table.get_absolute_url()
params = urlencode(
OrderedDict([("action", self.name), ("table", self.table.name)])
)
return "%s?%s" % (table_url, params)
def render(self, **kwargs):
action_dict = copy.copy(kwargs)
action_dict.update({"action": self, "is_single": True})
return render_to_string("horizon/common/_data_table_action.html",
action_dict)
def associate_with_table(self, table):
super(LinkAction, self).associate_with_table(table)
if self.ajax:
self.attrs['data-update-url'] = self.get_ajax_update_url()
[docs] def get_link_url(self, datum=None):
"""Returns the final URL based on the value of ``url``.
If ``url`` is callable it will call the function.
If not, it will then try to call ``reverse`` on ``url``.
Failing that, it will simply return the value of ``url`` as-is.
When called for a row action, the current row data object will be
passed as the first parameter.
"""
if not self.url:
raise NotImplementedError('A LinkAction class must have a '
'url attribute or define its own '
'get_link_url method.')
if callable(self.url):
return self.url(datum, **self.kwargs)
try:
if datum:
obj_id = self.table.get_object_id(datum)
return urlresolvers.reverse(self.url, args=(obj_id,))
else:
return urlresolvers.reverse(self.url)
except urlresolvers.NoReverseMatch as ex:
LOG.info('No reverse found for "%s": %s' % (self.url, ex))
return self.url
[docs]class FilterAction(BaseAction):
"""A base class representing a filter action for a table.
.. attribute:: name
The short name or "slug" representing this action. Defaults to
``"filter"``.
.. attribute:: verbose_name
A descriptive name used for display purposes. Defaults to the
value of ``name`` with the first letter of each word capitalized.
.. attribute:: param_name
A string representing the name of the request parameter used for the
search term. Default: ``"q"``.
.. attribute:: filter_type
A string representing the type of this filter. If this is set to
``"server"`` then ``filter_choices`` must also be provided.
Default: ``"query"``.
.. attribute:: filter_choices
Required for server type filters. A tuple of tuples representing the
filter options. Tuple composition should evaluate to (string, string,
boolean), representing the filter parameter, display value, and whether
or not it should be applied to the API request as an API query
attribute. API type filters do not need to be accounted for in the
filter method since the API will do the filtering. However, server
type filters in general will need to be performed in the filter method.
By default this attribute is not provided.
.. attribute:: needs_preloading
If True, the filter function will be called for the initial
GET request with an empty ``filter_string``, regardless of the
value of ``method``.
"""
# TODO(gabriel): The method for a filter action should be a GET,
# but given the form structure of the table that's currently impossible.
# At some future date this needs to be reworked to get the filter action
# separated from the table's POST form.
# class attribute name is used for ordering of Actions in table
name = "filter"
def __init__(self, **kwargs):
super(FilterAction, self).__init__(**kwargs)
self.method = kwargs.get('method', "POST")
self.name = kwargs.get('name', self.name)
self.verbose_name = kwargs.get('verbose_name', _("Filter"))
self.filter_type = kwargs.get('filter_type', "query")
self.filter_choices = kwargs.get('filter_choices')
self.needs_preloading = kwargs.get('needs_preloading', False)
self.param_name = kwargs.get('param_name', 'q')
self.icon = "search"
if self.filter_type == 'server' and self.filter_choices is None:
raise NotImplementedError(
'A FilterAction object with the '
'filter_type attribute set to "server" must also have a '
'filter_choices attribute.')
[docs] def get_param_name(self):
"""Returns the full query parameter name for this action.
Defaults to
``{{ table.name }}__{{ action.name }}__{{ action.param_name }}``.
"""
return "__".join([self.table.name, self.name, self.param_name])
def assign_type_string(self, table, data, type_string):
for datum in data:
setattr(datum, table._meta.data_type_name, type_string)
def data_type_filter(self, table, data, filter_string):
filtered_data = []
for data_type in table._meta.data_types:
func_name = "filter_%s_data" % data_type
filter_func = getattr(self, func_name, None)
if not filter_func and not callable(filter_func):
# The check of filter function implementation should happen
# in the __init__. However, the current workflow of DataTable
# and actions won't allow it. Need to be fixed in the future.
cls_name = self.__class__.__name__
raise NotImplementedError(
"You must define a %(func_name)s method for %(data_type)s"
" data type in %(cls_name)s."
% {'func_name': func_name,
'data_type': data_type,
'cls_name': cls_name})
_data = filter_func(table, data, filter_string)
self.assign_type_string(table, _data, data_type)
filtered_data.extend(_data)
return filtered_data
[docs] def filter(self, table, data, filter_string):
"""Provides the actual filtering logic.
This method must be overridden by subclasses and return
the filtered data.
"""
return data
[docs] def is_api_filter(self, filter_field):
"""Determine if the given filter field should be used as an
API filter.
"""
if self.filter_type == 'server':
for choice in self.filter_choices:
if (choice[0] == filter_field and len(choice) > 2 and
choice[2] is True):
return True
return False
[docs] def get_select_options(self):
"""Provide the value, string, and help_text (if applicable)
for the template to render.
"""
if self.filter_choices:
return [x[:4] for x in self.filter_choices]
class NameFilterAction(FilterAction):
"""A filter action for name property."""
def filter(self, table, items, filter_string):
"""Naive case-insensitive search."""
query = filter_string.lower()
return [item for item in items
if query in item.name.lower()]
[docs]class FixedFilterAction(FilterAction):
"""A filter action with fixed buttons."""
def __init__(self, **kwargs):
super(FixedFilterAction, self).__init__(**kwargs)
self.filter_type = kwargs.get('filter_type', "fixed")
self.needs_preloading = kwargs.get('needs_preloading', True)
self.fixed_buttons = self.get_fixed_buttons()
self.filter_string = ''
def filter(self, table, images, filter_string):
self.filter_string = filter_string
categories = self.categorize(table, images)
self.categories = defaultdict(list, categories)
for button in self.fixed_buttons:
button['count'] = len(self.categories[button['value']])
if not filter_string:
return images
return self.categories[filter_string]
[docs] def categorize(self, table, rows):
"""Override to separate rows into categories.
To have filtering working properly on the client, each row will need
CSS class(es) beginning with 'category-', followed by the value of the
fixed button.
Return a dict with a key for the value of each fixed button,
and a value that is a list of rows in that category.
"""
return {}
[docs]class BatchAction(Action):
"""A table action which takes batch action on one or more
objects. This action should not require user input on a
per-object basis.
.. attribute:: name
A short name or "slug" representing this action.
Should be one word such as "delete", "add", "disable", etc.
.. method:: action_present
Method accepting an integer/long parameter and returning the display
forms of the name properly pluralised (depending on the integer) and
translated in a string or tuple/list.
.. attribute:: action_present (Deprecated)
String or tuple/list. The display forms of the name.
Should be a transitive verb, capitalized and translated. ("Delete",
"Rotate", etc.) If tuple or list - then setting
self.current_present_action = n will set the current active item
from the list(action_present[n])
You can pass a complete action name including 'data_type' by specifying
'%(data_type)s' substitution in action_present ("Delete %(data_type)s").
Otherwise a complete action name is a format of "<action> <data_type>".
<data_type> is determined based on the number of items.
By passing a complete action name you allow translators to control
the order of words as they want.
NOTE: action_present attribute is bad for translations and should be
avoided. Please use the action_present method instead.
This form is kept for legacy.
.. method:: action_past
Method accepting an integer/long parameter and returning the display
forms of the name properly pluralised (depending on the integer) and
translated in a string or tuple/list.
.. attribute:: action_past (Deprecated)
String or tuple/list. The past tense of action_present. ("Deleted",
"Rotated", etc.) If tuple or list - then
setting self.current_past_action = n will set the current active item
from the list(action_past[n])
NOTE: action_past attribute is bad for translations and should be
avoided. Please use the action_past method instead.
This form is kept for legacy.
.. attribute:: data_type_singular (Deprecated)
Optional display name (if the data_type method is not defined) for the
type of data that receives the action. ("Key Pair", "Floating IP", etc.)
.. attribute:: data_type_plural (Deprecated)
Optional plural word (if the data_type method is not defined) for the
type of data being acted on. Defaults to appending 's'. Relying on the
default is bad for translations and should not be done, so it's absence
will raise a DeprecationWarning. It is currently kept as optional for
legacy code.
NOTE: data_type_singular and data_type_plural attributes are bad for
translations and should not be used. Please use the action_present and
action_past methods. This form is kept temporarily for legacy code but
will be removed.
.. attribute:: success_url
Optional location to redirect after completion of the delete
action. Defaults to the current page.
.. attribute:: help_text
Optional message for providing an appropriate help text for
the horizon user.
"""
help_text = _("This action cannot be undone.")
def __init__(self, **kwargs):
super(BatchAction, self).__init__(**kwargs)
action_present_method = False
if hasattr(self, 'action_present'):
if callable(self.action_present):
action_present_method = True
else:
warnings.warn(DeprecationWarning(
'The %s BatchAction class must have an action_present '
'method instead of attribute.' % self.__class__.__name__
))
action_past_method = False
if hasattr(self, 'action_past'):
if callable(self.action_past):
action_past_method = True
else:
warnings.warn(DeprecationWarning(
'The %s BatchAction class must have an action_past '
'method instead of attribute.' % self.__class__.__name__
))
action_methods = action_present_method and action_past_method
has_action_method = action_present_method or action_past_method
if has_action_method and not action_methods:
raise NotImplementedError(
'The %s BatchAction class must have both action_past and'
'action_present methods.' % self.__class__.__name__
)
if not action_methods:
if not kwargs.get('data_type_singular'):
raise NotImplementedError(
'The %s BatchAction class must have a data_type_singular '
'attribute when action_past and action_present attributes '
'are used.' % self.__class__.__name__
)
self.data_type_singular = kwargs.get('data_type_singular')
self.data_type_plural = kwargs.get('data_type_plural',
self.data_type_singular + 's')
# TODO(ygbo): get rid of self.use_action_method once action_present and
# action_past are changed to methods handling plurals.
self.use_action_method = action_methods
self.success_url = kwargs.get('success_url', None)
# If setting a default name, don't initialize it too early
self.verbose_name = kwargs.get('verbose_name', self._get_action_name)
self.verbose_name_plural = kwargs.get(
'verbose_name_plural',
lambda: self._get_action_name('plural'))
self.current_present_action = 0
self.current_past_action = 0
# Keep record of successfully handled objects
self.success_ids = []
self.help_text = kwargs.get('help_text', self.help_text)
def _allowed(self, request, datum=None):
# Override the default internal action method to prevent batch
# actions from appearing on tables with no data.
if not self.table.data and not datum:
return False
return super(BatchAction, self)._allowed(request, datum)
def _get_action_name(self, items=None, past=False):
"""Builds combinations like 'Delete Object' and 'Deleted
Objects' based on the number of items and `past` flag.
:param items:
A list or tuple of items (or container with a __len__ method) to
count the number of concerned items for which this method is
called.
When this method is called for a single item (by the BatchAction
itself), this parameter can be omitted and the number of items
will be considered as "one".
If we want to evaluate to "zero" this parameter must not be omitted
(and should be an empty container).
:param past:
Boolean flag indicating if the action took place in the past.
By default a present action is considered.
"""
action_type = "past" if past else "present"
if items is None:
# Called without items parameter (by a single instance.)
count = 1
else:
count = len(items)
# TODO(ygbo): get rid of self.use_action_method once action_present and
# action_past are changed to methods handling plurals.
action_attr = getattr(self, "action_%s" % action_type)
if self.use_action_method:
action_attr = action_attr(count)
if isinstance(action_attr, (six.string_types, Promise)):
action = action_attr
else:
toggle_selection = getattr(self, "current_%s_action" % action_type)
action = action_attr[toggle_selection]
if self.use_action_method:
return action
# TODO(ygbo): get rid of all this bellow once action_present and
# action_past are changed to methods handling plurals.
data_type = ungettext_lazy(
self.data_type_singular,
self.data_type_plural,
count
)
if '%(data_type)s' in action:
# If full action string is specified, use action as format string.
msgstr = action
else:
if action_type == "past":
msgstr = pgettext_lazy(u"past", "%(action)s %(data_type)s")
else:
msgstr = pgettext_lazy(u"present", "%(action)s %(data_type)s")
return msgstr % {'action': action, 'data_type': data_type}
[docs] def action(self, request, datum_id):
"""Required. Accepts a single object id and performs the specific
action.
Return values are discarded, errors raised are caught and logged.
"""
[docs] def update(self, request, datum):
"""Switches the action verbose name, if needed."""
if getattr(self, 'action_present', False):
self.verbose_name = self._get_action_name()
self.verbose_name_plural = self._get_action_name('plural')
[docs] def get_success_url(self, request=None):
"""Returns the URL to redirect to after a successful action."""
if self.success_url:
return self.success_url
return request.get_full_path()
[docs] def get_default_attrs(self):
"""Returns a list of the default HTML attributes for the action."""
attrs = super(BatchAction, self).get_default_attrs()
attrs.update({'data-batch-action': 'true'})
return attrs
def handle(self, table, request, obj_ids):
action_success = []
action_failure = []
action_not_allowed = []
for datum_id in obj_ids:
datum = table.get_object_by_id(datum_id)
datum_display = table.get_object_display(datum) or datum_id
if not table._filter_action(self, request, datum):
action_not_allowed.append(datum_display)
LOG.warning(u'Permission denied to %(name)s: "%(dis)s"', {
'name': self._get_action_name(past=True).lower(),
'dis': datum_display
})
continue
try:
self.action(request, datum_id)
# Call update to invoke changes if needed
self.update(request, datum)
action_success.append(datum_display)
self.success_ids.append(datum_id)
LOG.info(u'%s: "%s"' %
(self._get_action_name(past=True), datum_display))
except Exception as ex:
# Handle the exception but silence it since we'll display
# an aggregate error message later. Otherwise we'd get
# multiple error messages displayed to the user.
action_failure.append(datum_display)
action_description = (
self._get_action_name(past=True).lower(), datum_display)
LOG.warning(
'Action %(action)s Failed for %(reason)s', {
'action': action_description, 'reason': ex})
# Begin with success message class, downgrade to info if problems.
success_message_level = messages.success
if action_not_allowed:
msg = _('You are not allowed to %(action)s: %(objs)s')
params = {"action":
self._get_action_name(action_not_allowed).lower(),
"objs": functions.lazy_join(", ", action_not_allowed)}
messages.error(request, msg % params)
success_message_level = messages.info
if action_failure:
msg = _('Unable to %(action)s: %(objs)s')
params = {"action": self._get_action_name(action_failure).lower(),
"objs": functions.lazy_join(", ", action_failure)}
messages.error(request, msg % params)
success_message_level = messages.info
if action_success:
msg = _('%(action)s: %(objs)s')
params = {"action":
self._get_action_name(action_success, past=True),
"objs": functions.lazy_join(", ", action_success)}
success_message_level(request, msg % params)
return shortcuts.redirect(self.get_success_url(request))
[docs]class DeleteAction(BatchAction):
"""A table action used to perform delete operations on table data.
.. attribute:: name
A short name or "slug" representing this action.
Defaults to 'delete'
.. method:: action_present
Method accepting an integer/long parameter and returning the display
forms of the name properly pluralised (depending on the integer) and
translated in a string or tuple/list.
.. attribute:: action_present (Deprecated)
A string containing the transitive verb describing the delete action.
Defaults to 'Delete'
NOTE: action_present attribute is bad for translations and should be
avoided. Please use the action_present method instead.
This form is kept for legacy.
.. method:: action_past
Method accepting an integer/long parameter and returning the display
forms of the name properly pluralised (depending on the integer) and
translated in a string or tuple/list.
.. attribute:: action_past (Deprecated)
A string set to the past tense of action_present.
Defaults to 'Deleted'
NOTE: action_past attribute is bad for translations and should be
avoided. Please use the action_past method instead.
This form is kept for legacy.
.. attribute:: data_type_singular (Deprecated)
A string used to name the data to be deleted.
.. attribute:: data_type_plural (Deprecated)
Optional. Plural of ``data_type_singular``.
Defaults to ``data_type_singular`` appended with an 's'. Relying on
the default is bad for translations and should not be done, so it's
absence will raise a DeprecationWarning. It is currently kept as
optional for legacy code.
NOTE: data_type_singular and data_type_plural attributes are bad for
translations and should not be used. Please use the action_present and
action_past methods. This form is kept temporarily for legacy code but
will be removed.
"""
name = "delete"
def __init__(self, **kwargs):
super(DeleteAction, self).__init__(**kwargs)
self.name = kwargs.get('name', self.name)
if not hasattr(self, "action_present"):
self.action_present = kwargs.get('action_present', _("Delete"))
if not hasattr(self, "action_past"):
self.action_past = kwargs.get('action_past', _("Deleted"))
self.icon = "trash"
self.action_type = "danger"
[docs] def action(self, request, obj_id):
"""Action entry point. Overrides base class' action method.
Accepts a single object id passing it over to the delete method
responsible for the object's destruction.
"""
return self.delete(request, obj_id)
[docs] def delete(self, request, obj_id):
"""Required. Deletes an object referenced by obj_id.
Override to provide delete functionality specific to your data.
"""
class Deprecated(type):
# TODO(lcastell) Replace class with similar functionality from
# oslo_log.versionutils when it's finally added in 11.0
def __new__(meta, name, bases, kwargs):
cls = super(Deprecated, meta).__new__(meta, name, bases, kwargs)
message = ("WARNING:The UpdateAction class defined in module '%s'"
" is deprecated as of Newton and may be removed in "
"Horizon P (12.0). Class '%s' defined at module '%s' "
"shall no longer subclass it.")
if name != 'UpdateAction':
LOG.warning(message % (UpdateAction.__module__,
name,
kwargs['__module__']))
return cls
@six.add_metaclass(Deprecated)
[docs]class UpdateAction(object):
"""**DEPRECATED**: A table action for cell updates by inline editing."""
name = "update"
def action(self, request, datum, obj_id, cell_name, new_cell_value):
self.update_cell(request, datum, obj_id, cell_name, new_cell_value)
@staticmethod
def action_present(count):
return ungettext_lazy(
u"Update Item",
u"Update Items",
count
)
@staticmethod
def action_past(count):
return ungettext_lazy(
u"Updated Item",
u"Updated Items",
count
)
[docs] def update_cell(self, request, datum, obj_id, cell_name, new_cell_value):
"""Method for saving data of the cell.
This method must implements saving logic of the inline edited table
cell.
"""
[docs] def allowed(self, request, datum, cell):
"""Determine whether updating is allowed for the current request.
This method is meant to be overridden with more specific checks.
Data of the row and of the cell are passed to the method.
"""
return True