""" Form classes """ from __future__ import unicode_literals import copy from collections import OrderedDict from django.core.exceptions import NON_FIELD_ERRORS, ValidationError # BoundField is imported for backwards compatibility in Django 1.9 from django.forms.boundfield import BoundField # NOQA from django.forms.fields import Field, FileField # pretty_name is imported for backwards compatibility in Django 1.9 from django.forms.utils import ErrorDict, ErrorList, pretty_name # NOQA from django.forms.widgets import Media, MediaDefiningClass from django.utils import six from django.utils.encoding import force_text, python_2_unicode_compatible from django.utils.functional import cached_property from django.utils.html import conditional_escape, html_safe from django.utils.safestring import mark_safe from django.utils.translation import ugettext as _ __all__ = ('BaseForm', 'Form') class DeclarativeFieldsMetaclass(MediaDefiningClass): """ Metaclass that collects Fields declared on the base classes. """ def __new__(mcs, name, bases, attrs): # Collect fields from current class. current_fields = [] for key, value in list(attrs.items()): if isinstance(value, Field): current_fields.append((key, value)) attrs.pop(key) current_fields.sort(key=lambda x: x[1].creation_counter) attrs['declared_fields'] = OrderedDict(current_fields) new_class = super(DeclarativeFieldsMetaclass, mcs).__new__(mcs, name, bases, attrs) # Walk through the MRO. declared_fields = OrderedDict() for base in reversed(new_class.__mro__): # Collect fields from base class. if hasattr(base, 'declared_fields'): declared_fields.update(base.declared_fields) # Field shadowing. for attr, value in base.__dict__.items(): if value is None and attr in declared_fields: declared_fields.pop(attr) new_class.base_fields = declared_fields new_class.declared_fields = declared_fields return new_class @html_safe @python_2_unicode_compatible class BaseForm(object): # This is the main implementation of all the Form logic. Note that this # class is different than Form. See the comments by the Form class for more # information. Any improvements to the form API should be made to *this* # class, not to the Form class. field_order = None prefix = None use_required_attribute = True def __init__(self, data=None, files=None, auto_id='id_%s', prefix=None, initial=None, error_class=ErrorList, label_suffix=None, empty_permitted=False, field_order=None, use_required_attribute=None): self.is_bound = data is not None or files is not None self.data = data or {} self.files = files or {} self.auto_id = auto_id if prefix is not None: self.prefix = prefix self.initial = initial or {} self.error_class = error_class # Translators: This is the default suffix added to form field labels self.label_suffix = label_suffix if label_suffix is not None else _(':') self.empty_permitted = empty_permitted self._errors = None # Stores the errors after clean() has been called. # The base_fields class attribute is the *class-wide* definition of # fields. Because a particular *instance* of the class might want to # alter self.fields, we create self.fields here by copying base_fields. # Instances should always modify self.fields; they should not modify # self.base_fields. self.fields = copy.deepcopy(self.base_fields) self._bound_fields_cache = {} self.order_fields(self.field_order if field_order is None else field_order) if use_required_attribute is not None: self.use_required_attribute = use_required_attribute def order_fields(self, field_order): """ Rearranges the fields according to field_order. field_order is a list of field names specifying the order. Fields not included in the list are appended in the default order for backward compatibility with subclasses not overriding field_order. If field_order is None, all fields are kept in the order defined in the class. Unknown fields in field_order are ignored to allow disabling fields in form subclasses without redefining ordering. """ if field_order is None: return fields = OrderedDict() for key in field_order: try: fields[key] = self.fields.pop(key) except KeyError: # ignore unknown fields pass fields.update(self.fields) # add remaining fields in original order self.fields = fields def __str__(self): return self.as_table() def __repr__(self): if self._errors is None: is_valid = "Unknown" else: is_valid = self.is_bound and not bool(self._errors) return '<%(cls)s bound=%(bound)s, valid=%(valid)s, fields=(%(fields)s)>' % { 'cls': self.__class__.__name__, 'bound': self.is_bound, 'valid': is_valid, 'fields': ';'.join(self.fields), } def __iter__(self): for name in self.fields: yield self[name] def __getitem__(self, name): "Returns a BoundField with the given name." try: field = self.fields[name] except KeyError: raise KeyError( "Key '%s' not found in '%s'. Choices are: %s." % ( name, self.__class__.__name__, ', '.join(sorted(f for f in self.fields)), ) ) if name not in self._bound_fields_cache: self._bound_fields_cache[name] = field.get_bound_field(self, name) return self._bound_fields_cache[name] @property def errors(self): "Returns an ErrorDict for the data provided for the form" if self._errors is None: self.full_clean() return self._errors def is_valid(self): """ Returns True if the form has no errors. Otherwise, False. If errors are being ignored, returns False. """ return self.is_bound and not self.errors def add_prefix(self, field_name): """ Returns the field name with a prefix appended, if this Form has a prefix set. Subclasses may wish to override. """ return '%s-%s' % (self.prefix, field_name) if self.prefix else field_name def add_initial_prefix(self, field_name): """ Add a 'initial' prefix for checking dynamic initial values """ return 'initial-%s' % self.add_prefix(field_name) def _html_output(self, normal_row, error_row, row_ender, help_text_html, errors_on_separate_row): "Helper function for outputting HTML. Used by as_table(), as_ul(), as_p()." top_errors = self.non_field_errors() # Errors that should be displayed above all fields. output, hidden_fields = [], [] for name, field in self.fields.items(): html_class_attr = '' bf = self[name] # Escape and cache in local variable. bf_errors = self.error_class([conditional_escape(error) for error in bf.errors]) if bf.is_hidden: if bf_errors: top_errors.extend( [_('(Hidden field %(name)s) %(error)s') % {'name': name, 'error': force_text(e)} for e in bf_errors]) hidden_fields.append(six.text_type(bf)) else: # Create a 'class="..."' attribute if the row should have any # CSS classes applied. css_classes = bf.css_classes() if css_classes: html_class_attr = ' class="%s"' % css_classes if errors_on_separate_row and bf_errors: output.append(error_row % force_text(bf_errors)) if bf.label: label = conditional_escape(force_text(bf.label)) label = bf.label_tag(label) or '' else: label = '' if field.help_text: help_text = help_text_html % force_text(field.help_text) else: help_text = '' output.append(normal_row % { 'errors': force_text(bf_errors), 'label': force_text(label), 'field': six.text_type(bf), 'help_text': help_text, 'html_class_attr': html_class_attr, 'css_classes': css_classes, 'field_name': bf.html_name, }) if top_errors: output.insert(0, error_row % force_text(top_errors)) if hidden_fields: # Insert any hidden fields in the last row. str_hidden = ''.join(hidden_fields) if output: last_row = output[-1] # Chop off the trailing row_ender (e.g. '') and # insert the hidden fields. if not last_row.endswith(row_ender): # This can happen in the as_p() case (and possibly others # that users write): if there are only top errors, we may # not be able to conscript the last row for our purposes, # so insert a new, empty row. last_row = (normal_row % { 'errors': '', 'label': '', 'field': '', 'help_text': '', 'html_class_attr': html_class_attr, 'css_classes': '', 'field_name': '', }) output.append(last_row) output[-1] = last_row[:-len(row_ender)] + str_hidden + row_ender else: # If there aren't any rows in the output, just append the # hidden fields. output.append(str_hidden) return mark_safe('\n'.join(output)) def as_table(self): "Returns this form rendered as HTML
s." return self._html_output( normal_row='
%(label)s %(field)s%(help_text)s
', error_row='%s', row_ender='', help_text_html=' %s', errors_on_separate_row=True) def non_field_errors(self): """ Returns an ErrorList of errors that aren't associated with a particular field -- i.e., from Form.clean(). Returns an empty ErrorList if there are none. """ return self.errors.get(NON_FIELD_ERRORS, self.error_class(error_class='nonfield')) def add_error(self, field, error): """ Update the content of `self._errors`. The `field` argument is the name of the field to which the errors should be added. If its value is None the errors will be treated as NON_FIELD_ERRORS. The `error` argument can be a single error, a list of errors, or a dictionary that maps field names to lists of errors. What we define as an "error" can be either a simple string or an instance of ValidationError with its message attribute set and what we define as list or dictionary can be an actual `list` or `dict` or an instance of ValidationError with its `error_list` or `error_dict` attribute set. If `error` is a dictionary, the `field` argument *must* be None and errors will be added to the fields that correspond to the keys of the dictionary. """ if not isinstance(error, ValidationError): # Normalize to ValidationError and let its constructor # do the hard work of making sense of the input. error = ValidationError(error) if hasattr(error, 'error_dict'): if field is not None: raise TypeError( "The argument `field` must be `None` when the `error` " "argument contains errors for multiple fields." ) else: error = error.error_dict else: error = {field or NON_FIELD_ERRORS: error.error_list} for field, error_list in error.items(): if field not in self.errors: if field != NON_FIELD_ERRORS and field not in self.fields: raise ValueError( "'%s' has no field named '%s'." % (self.__class__.__name__, field)) if field == NON_FIELD_ERRORS: self._errors[field] = self.error_class(error_class='nonfield') else: self._errors[field] = self.error_class() self._errors[field].extend(error_list) if field in self.cleaned_data: del self.cleaned_data[field] def has_error(self, field, code=None): if code is None: return field in self.errors if field in self.errors: for error in self.errors.as_data()[field]: if error.code == code: return True return False def full_clean(self): """ Cleans all of self.data and populates self._errors and self.cleaned_data. """ self._errors = ErrorDict() if not self.is_bound: # Stop further processing. return self.cleaned_data = {} # If the form is permitted to be empty, and none of the form data has # changed from the initial data, short circuit any validation. if self.empty_permitted and not self.has_changed(): return self._clean_fields() self._clean_form() self._post_clean() def _clean_fields(self): for name, field in self.fields.items(): # value_from_datadict() gets the data from the data dictionaries. # Each widget type knows how to retrieve its own data, because some # widgets split data over several HTML fields. if field.disabled: value = self.initial.get(name, field.initial) else: value = field.widget.value_from_datadict(self.data, self.files, self.add_prefix(name)) try: if isinstance(field, FileField): initial = self.initial.get(name, field.initial) value = field.clean(value, initial) else: value = field.clean(value) self.cleaned_data[name] = value if hasattr(self, 'clean_%s' % name): value = getattr(self, 'clean_%s' % name)() self.cleaned_data[name] = value except ValidationError as e: self.add_error(name, e) def _clean_form(self): try: cleaned_data = self.clean() except ValidationError as e: self.add_error(None, e) else: if cleaned_data is not None: self.cleaned_data = cleaned_data def _post_clean(self): """ An internal hook for performing additional cleaning after form cleaning is complete. Used for model validation in model forms. """ pass def clean(self): """ Hook for doing any extra form-wide cleaning after Field.clean() has been called on every field. Any ValidationError raised by this method will not be associated with a particular field; it will have a special-case association with the field named '__all__'. """ return self.cleaned_data def has_changed(self): """ Returns True if data differs from initial. """ return bool(self.changed_data) @cached_property def changed_data(self): data = [] for name, field in self.fields.items(): prefixed_name = self.add_prefix(name) data_value = field.widget.value_from_datadict(self.data, self.files, prefixed_name) if not field.show_hidden_initial: initial_value = self.initial.get(name, field.initial) if callable(initial_value): initial_value = initial_value() else: initial_prefixed_name = self.add_initial_prefix(name) hidden_widget = field.hidden_widget() try: initial_value = field.to_python(hidden_widget.value_from_datadict( self.data, self.files, initial_prefixed_name)) except ValidationError: # Always assume data has changed if validation fails. data.append(name) continue if field.has_changed(initial_value, data_value): data.append(name) return data @property def media(self): """ Provide a description of all media required to render the widgets on this form """ media = Media() for field in self.fields.values(): media = media + field.widget.media return media def is_multipart(self): """ Returns True if the form needs to be multipart-encoded, i.e. it has FileInput. Otherwise, False. """ for field in self.fields.values(): if field.widget.needs_multipart_form: return True return False def hidden_fields(self): """ Returns a list of all the BoundField objects that are hidden fields. Useful for manual form layout in templates. """ return [field for field in self if field.is_hidden] def visible_fields(self): """ Returns a list of BoundField objects that aren't hidden fields. The opposite of the hidden_fields() method. """ return [field for field in self if not field.is_hidden] class Form(six.with_metaclass(DeclarativeFieldsMetaclass, BaseForm)): "A collection of Fields, plus their associated data." # This is a separate class from BaseForm in order to abstract the way # self.fields is specified. This class (Form) is the one that does the # fancy metaclass stuff purely for the semantic sugar -- it allows one # to define a form using declarative syntax. # BaseForm itself has no way of designating self.fields.