""" Field classes. """ import copy import datetime import os import re import urlparse from decimal import Decimal, DecimalException try: from cStringIO import StringIO except ImportError: from StringIO import StringIO from django.core.exceptions import ValidationError from django.core import validators from django.utils import formats from django.utils.translation import ugettext_lazy as _ from django.utils.encoding import smart_unicode, smart_str, force_unicode from django.utils.ipv6 import clean_ipv6_address # Provide this import for backwards compatibility. from django.core.validators import EMPTY_VALUES from util import ErrorList from widgets import (TextInput, PasswordInput, HiddenInput, MultipleHiddenInput, ClearableFileInput, CheckboxInput, Select, NullBooleanSelect, SelectMultiple, DateInput, DateTimeInput, TimeInput, SplitDateTimeWidget, SplitHiddenDateTimeWidget, FILE_INPUT_CONTRADICTION) __all__ = ( 'Field', 'CharField', 'IntegerField', 'DateField', 'TimeField', 'DateTimeField', 'TimeField', 'RegexField', 'EmailField', 'FileField', 'ImageField', 'URLField', 'BooleanField', 'NullBooleanField', 'ChoiceField', 'MultipleChoiceField', 'ComboField', 'MultiValueField', 'FloatField', 'DecimalField', 'SplitDateTimeField', 'IPAddressField', 'GenericIPAddressField', 'FilePathField', 'SlugField', 'TypedChoiceField', 'TypedMultipleChoiceField' ) class Field(object): widget = TextInput # Default widget to use when rendering this type of Field. hidden_widget = HiddenInput # Default widget to use when rendering this as "hidden". default_validators = [] # Default set of validators default_error_messages = { 'required': _(u'This field is required.'), 'invalid': _(u'Enter a valid value.'), } # Tracks each time a Field instance is created. Used to retain order. creation_counter = 0 def __init__(self, required=True, widget=None, label=None, initial=None, help_text=None, error_messages=None, show_hidden_initial=False, validators=[], localize=False): # required -- Boolean that specifies whether the field is required. # True by default. # widget -- A Widget class, or instance of a Widget class, that should # be used for this Field when displaying it. Each Field has a # default Widget that it'll use if you don't specify this. In # most cases, the default widget is TextInput. # label -- A verbose name for this field, for use in displaying this # field in a form. By default, Django will use a "pretty" # version of the form field name, if the Field is part of a # Form. # initial -- A value to use in this Field's initial display. This value # is *not* used as a fallback if data isn't given. # help_text -- An optional string to use as "help text" for this Field. # error_messages -- An optional dictionary to override the default # messages that the field will raise. # show_hidden_initial -- Boolean that specifies if it is needed to render a # hidden widget with initial value after widget. # validators -- List of addtional validators to use # localize -- Boolean that specifies if the field should be localized. if label is not None: label = smart_unicode(label) self.required, self.label, self.initial = required, label, initial self.show_hidden_initial = show_hidden_initial if help_text is None: self.help_text = u'' else: self.help_text = smart_unicode(help_text) widget = widget or self.widget if isinstance(widget, type): widget = widget() # Trigger the localization machinery if needed. self.localize = localize if self.localize: widget.is_localized = True # Let the widget know whether it should display as required. widget.is_required = self.required # Hook into self.widget_attrs() for any Field-specific HTML attributes. extra_attrs = self.widget_attrs(widget) if extra_attrs: widget.attrs.update(extra_attrs) self.widget = widget # Increase the creation counter, and save our local copy. self.creation_counter = Field.creation_counter Field.creation_counter += 1 messages = {} for c in reversed(self.__class__.__mro__): messages.update(getattr(c, 'default_error_messages', {})) messages.update(error_messages or {}) self.error_messages = messages self.validators = self.default_validators + validators def prepare_value(self, value): return value def to_python(self, value): return value def validate(self, value): if value in validators.EMPTY_VALUES and self.required: raise ValidationError(self.error_messages['required']) def run_validators(self, value): if value in validators.EMPTY_VALUES: return errors = [] for v in self.validators: try: v(value) except ValidationError, e: if hasattr(e, 'code') and e.code in self.error_messages: message = self.error_messages[e.code] if e.params: message = message % e.params errors.append(message) else: errors.extend(e.messages) if errors: raise ValidationError(errors) def clean(self, value): """ Validates the given value and returns its "cleaned" value as an appropriate Python object. Raises ValidationError for any errors. """ value = self.to_python(value) self.validate(value) self.run_validators(value) return value def bound_data(self, data, initial): """ Return the value that should be shown for this field on render of a bound form, given the submitted POST data for the field and the initial data, if any. For most fields, this will simply be data; FileFields need to handle it a bit differently. """ return data def widget_attrs(self, widget): """ Given a Widget instance (*not* a Widget class), returns a dictionary of any HTML attributes that should be added to the Widget, based on this Field. """ return {} def __deepcopy__(self, memo): result = copy.copy(self) memo[id(self)] = result result.widget = copy.deepcopy(self.widget, memo) return result class CharField(Field): def __init__(self, max_length=None, min_length=None, *args, **kwargs): self.max_length, self.min_length = max_length, min_length super(CharField, self).__init__(*args, **kwargs) if min_length is not None: self.validators.append(validators.MinLengthValidator(min_length)) if max_length is not None: self.validators.append(validators.MaxLengthValidator(max_length)) def to_python(self, value): "Returns a Unicode object." if value in validators.EMPTY_VALUES: return u'' return smart_unicode(value) def widget_attrs(self, widget): if self.max_length is not None and isinstance(widget, (TextInput, PasswordInput)): # The HTML attribute is maxlength, not max_length. return {'maxlength': str(self.max_length)} class IntegerField(Field): default_error_messages = { 'invalid': _(u'Enter a whole number.'), 'max_value': _(u'Ensure this value is less than or equal to %(limit_value)s.'), 'min_value': _(u'Ensure this value is greater than or equal to %(limit_value)s.'), } def __init__(self, max_value=None, min_value=None, *args, **kwargs): self.max_value, self.min_value = max_value, min_value super(IntegerField, self).__init__(*args, **kwargs) if max_value is not None: self.validators.append(validators.MaxValueValidator(max_value)) if min_value is not None: self.validators.append(validators.MinValueValidator(min_value)) def to_python(self, value): """ Validates that int() can be called on the input. Returns the result of int(). Returns None for empty values. """ value = super(IntegerField, self).to_python(value) if value in validators.EMPTY_VALUES: return None if self.localize: value = formats.sanitize_separators(value) try: value = int(str(value)) except (ValueError, TypeError): raise ValidationError(self.error_messages['invalid']) return value class FloatField(IntegerField): default_error_messages = { 'invalid': _(u'Enter a number.'), } def to_python(self, value): """ Validates that float() can be called on the input. Returns the result of float(). Returns None for empty values. """ value = super(IntegerField, self).to_python(value) if value in validators.EMPTY_VALUES: return None if self.localize: value = formats.sanitize_separators(value) try: value = float(value) except (ValueError, TypeError): raise ValidationError(self.error_messages['invalid']) return value class DecimalField(Field): default_error_messages = { 'invalid': _(u'Enter a number.'), 'max_value': _(u'Ensure this value is less than or equal to %(limit_value)s.'), 'min_value': _(u'Ensure this value is greater than or equal to %(limit_value)s.'), 'max_digits': _('Ensure that there are no more than %s digits in total.'), 'max_decimal_places': _('Ensure that there are no more than %s decimal places.'), 'max_whole_digits': _('Ensure that there are no more than %s digits before the decimal point.') } def __init__(self, max_value=None, min_value=None, max_digits=None, decimal_places=None, *args, **kwargs): self.max_value, self.min_value = max_value, min_value self.max_digits, self.decimal_places = max_digits, decimal_places Field.__init__(self, *args, **kwargs) if max_value is not None: self.validators.append(validators.MaxValueValidator(max_value)) if min_value is not None: self.validators.append(validators.MinValueValidator(min_value)) def to_python(self, value): """ Validates that the input is a decimal number. Returns a Decimal instance. Returns None for empty values. Ensures that there are no more than max_digits in the number, and no more than decimal_places digits after the decimal point. """ if value in validators.EMPTY_VALUES: return None if self.localize: value = formats.sanitize_separators(value) value = smart_str(value).strip() try: value = Decimal(value) except DecimalException: raise ValidationError(self.error_messages['invalid']) return value def validate(self, value): super(DecimalField, self).validate(value) if value in validators.EMPTY_VALUES: return # Check for NaN, Inf and -Inf values. We can't compare directly for NaN, # since it is never equal to itself. However, NaN is the only value that # isn't equal to itself, so we can use this to identify NaN if value != value or value == Decimal("Inf") or value == Decimal("-Inf"): raise ValidationError(self.error_messages['invalid']) sign, digittuple, exponent = value.as_tuple() decimals = abs(exponent) # digittuple doesn't include any leading zeros. digits = len(digittuple) if decimals > digits: # We have leading zeros up to or past the decimal point. Count # everything past the decimal point as a digit. We do not count # 0 before the decimal point as a digit since that would mean # we would not allow max_digits = decimal_places. digits = decimals whole_digits = digits - decimals if self.max_digits is not None and digits > self.max_digits: raise ValidationError(self.error_messages['max_digits'] % self.max_digits) if self.decimal_places is not None and decimals > self.decimal_places: raise ValidationError(self.error_messages['max_decimal_places'] % self.decimal_places) if self.max_digits is not None and self.decimal_places is not None and whole_digits > (self.max_digits - self.decimal_places): raise ValidationError(self.error_messages['max_whole_digits'] % (self.max_digits - self.decimal_places)) return value class BaseTemporalField(Field): def __init__(self, input_formats=None, *args, **kwargs): super(BaseTemporalField, self).__init__(*args, **kwargs) if input_formats is not None: self.input_formats = input_formats def to_python(self, value): # Try to coerce the value to unicode. unicode_value = force_unicode(value, strings_only=True) if isinstance(unicode_value, unicode): value = unicode_value.strip() # If unicode, try to strptime against each input format. if isinstance(value, unicode): for format in self.input_formats: try: return self.strptime(value, format) except ValueError: if format.endswith('.%f'): if value.count('.') != 1: continue try: datetime_str, usecs_str = value.rsplit('.', 1) usecs = int(usecs_str) dt = datetime.datetime.strptime(datetime_str, format[:-3]) return dt.replace(microsecond=usecs) except ValueError: continue raise ValidationError(self.error_messages['invalid']) def strptime(self, value, format): raise NotImplementedError('Subclasses must define this method.') class DateField(BaseTemporalField): widget = DateInput input_formats = formats.get_format_lazy('DATE_INPUT_FORMATS') default_error_messages = { 'invalid': _(u'Enter a valid date.'), } def to_python(self, value): """ Validates that the input can be converted to a date. Returns a Python datetime.date object. """ if value in validators.EMPTY_VALUES: return None if isinstance(value, datetime.datetime): return value.date() if isinstance(value, datetime.date): return value return super(DateField, self).to_python(value) def strptime(self, value, format): return datetime.datetime.strptime(value, format).date() class TimeField(BaseTemporalField): widget = TimeInput input_formats = formats.get_format_lazy('TIME_INPUT_FORMATS') default_error_messages = { 'invalid': _(u'Enter a valid time.') } def to_python(self, value): """ Validates that the input can be converted to a time. Returns a Python datetime.time object. """ if value in validators.EMPTY_VALUES: return None if isinstance(value, datetime.time): return value return super(TimeField, self).to_python(value) def strptime(self, value, format): return datetime.datetime.strptime(value, format).time() class DateTimeField(BaseTemporalField): widget = DateTimeInput input_formats = formats.get_format_lazy('DATETIME_INPUT_FORMATS') default_error_messages = { 'invalid': _(u'Enter a valid date/time.'), } def to_python(self, value): """ Validates that the input can be converted to a datetime. Returns a Python datetime.datetime object. """ if value in validators.EMPTY_VALUES: return None if isinstance(value, datetime.datetime): return value if isinstance(value, datetime.date): return datetime.datetime(value.year, value.month, value.day) if isinstance(value, list): # Input comes from a SplitDateTimeWidget, for example. So, it's two # components: date and time. if len(value) != 2: raise ValidationError(self.error_messages['invalid']) if value[0] in validators.EMPTY_VALUES and value[1] in validators.EMPTY_VALUES: return None value = '%s %s' % tuple(value) return super(DateTimeField, self).to_python(value) def strptime(self, value, format): return datetime.datetime.strptime(value, format) class RegexField(CharField): def __init__(self, regex, max_length=None, min_length=None, error_message=None, *args, **kwargs): """ regex can be either a string or a compiled regular expression object. error_message is an optional error message to use, if 'Enter a valid value' is too generic for you. """ # error_message is just kept for backwards compatibility: if error_message: error_messages = kwargs.get('error_messages') or {} error_messages['invalid'] = error_message kwargs['error_messages'] = error_messages super(RegexField, self).__init__(max_length, min_length, *args, **kwargs) if isinstance(regex, basestring): regex = re.compile(regex) self.regex = regex self.validators.append(validators.RegexValidator(regex=regex)) class EmailField(CharField): default_error_messages = { 'invalid': _(u'Enter a valid e-mail address.'), } default_validators = [validators.validate_email] def clean(self, value): value = self.to_python(value).strip() return super(EmailField, self).clean(value) class FileField(Field): widget = ClearableFileInput default_error_messages = { 'invalid': _(u"No file was submitted. Check the encoding type on the form."), 'missing': _(u"No file was submitted."), 'empty': _(u"The submitted file is empty."), 'max_length': _(u'Ensure this filename has at most %(max)d characters (it has %(length)d).'), 'contradiction': _(u'Please either submit a file or check the clear checkbox, not both.') } def __init__(self, *args, **kwargs): self.max_length = kwargs.pop('max_length', None) self.allow_empty_file = kwargs.pop('allow_empty_file', False) super(FileField, self).__init__(*args, **kwargs) def to_python(self, data): if data in validators.EMPTY_VALUES: return None # UploadedFile objects should have name and size attributes. try: file_name = data.name file_size = data.size except AttributeError: raise ValidationError(self.error_messages['invalid']) if self.max_length is not None and len(file_name) > self.max_length: error_values = {'max': self.max_length, 'length': len(file_name)} raise ValidationError(self.error_messages['max_length'] % error_values) if not file_name: raise ValidationError(self.error_messages['invalid']) if not self.allow_empty_file and not file_size: raise ValidationError(self.error_messages['empty']) return data def clean(self, data, initial=None): # If the widget got contradictory inputs, we raise a validation error if data is FILE_INPUT_CONTRADICTION: raise ValidationError(self.error_messages['contradiction']) # False means the field value should be cleared; further validation is # not needed. if data is False: if not self.required: return False # If the field is required, clearing is not possible (the widget # shouldn't return False data in that case anyway). False is not # in validators.EMPTY_VALUES; if a False value makes it this far # it should be validated from here on out as None (so it will be # caught by the required check). data = None if not data and initial: return initial return super(FileField, self).clean(data) def bound_data(self, data, initial): if data in (None, FILE_INPUT_CONTRADICTION): return initial return data class ImageField(FileField): default_error_messages = { 'invalid_image': _(u"Upload a valid image. The file you uploaded was either not an image or a corrupted image."), } def to_python(self, data): """ Checks that the file-upload field data contains a valid image (GIF, JPG, PNG, possibly others -- whatever the Python Imaging Library supports). """ f = super(ImageField, self).to_python(data) if f is None: return None # Try to import PIL in either of the two ways it can end up installed. try: from PIL import Image except ImportError: import Image # We need to get a file object for PIL. We might have a path or we might # have to read the data into memory. if hasattr(data, 'temporary_file_path'): file = data.temporary_file_path() else: if hasattr(data, 'read'): file = StringIO(data.read()) else: file = StringIO(data['content']) try: # load() is the only method that can spot a truncated JPEG, # but it cannot be called sanely after verify() trial_image = Image.open(file) trial_image.load() # Since we're about to use the file again we have to reset the # file object if possible. if hasattr(file, 'reset'): file.reset() # verify() is the only method that can spot a corrupt PNG, # but it must be called immediately after the constructor trial_image = Image.open(file) trial_image.verify() except ImportError: # Under PyPy, it is possible to import PIL. However, the underlying # _imaging C module isn't available, so an ImportError will be # raised. Catch and re-raise. raise except Exception: # Python Imaging Library doesn't recognize it as an image raise ValidationError(self.error_messages['invalid_image']) if hasattr(f, 'seek') and callable(f.seek): f.seek(0) return f class URLField(CharField): default_error_messages = { 'invalid': _(u'Enter a valid URL.'), 'invalid_link': _(u'This URL appears to be a broken link.'), } def __init__(self, max_length=None, min_length=None, verify_exists=False, validator_user_agent=validators.URL_VALIDATOR_USER_AGENT, *args, **kwargs): super(URLField, self).__init__(max_length, min_length, *args, **kwargs) self.validators.append(validators.URLValidator(verify_exists=verify_exists, validator_user_agent=validator_user_agent)) def to_python(self, value): if value: url_fields = list(urlparse.urlsplit(value)) if not url_fields[0]: # If no URL scheme given, assume http:// url_fields[0] = 'http' if not url_fields[1]: # Assume that if no domain is provided, that the path segment # contains the domain. url_fields[1] = url_fields[2] url_fields[2] = '' # Rebuild the url_fields list, since the domain segment may now # contain the path too. value = urlparse.urlunsplit(url_fields) url_fields = list(urlparse.urlsplit(value)) if not url_fields[2]: # the path portion may need to be added before query params url_fields[2] = '/' value = urlparse.urlunsplit(url_fields) return super(URLField, self).to_python(value) class BooleanField(Field): widget = CheckboxInput def to_python(self, value): """Returns a Python boolean object.""" # Explicitly check for the string 'False', which is what a hidden field # will submit for False. Also check for '0', since this is what # RadioSelect will provide. Because bool("True") == bool('1') == True, # we don't need to handle that explicitly. if isinstance(value, basestring) and value.lower() in ('false', '0'): value = False else: value = bool(value) value = super(BooleanField, self).to_python(value) if not value and self.required: raise ValidationError(self.error_messages['required']) return value class NullBooleanField(BooleanField): """ A field whose valid values are None, True and False. Invalid values are cleaned to None. """ widget = NullBooleanSelect def to_python(self, value): """ Explicitly checks for the string 'True' and 'False', which is what a hidden field will submit for True and False, and for '1' and '0', which is what a RadioField will submit. Unlike the Booleanfield we need to explicitly check for True, because we are not using the bool() function """ if value in (True, 'True', '1'): return True elif value in (False, 'False', '0'): return False else: return None def validate(self, value): pass class ChoiceField(Field): widget = Select default_error_messages = { 'invalid_choice': _(u'Select a valid choice. %(value)s is not one of the available choices.'), } def __init__(self, choices=(), required=True, widget=None, label=None, initial=None, help_text=None, *args, **kwargs): super(ChoiceField, self).__init__(required=required, widget=widget, label=label, initial=initial, help_text=help_text, *args, **kwargs) self.choices = choices def _get_choices(self): return self._choices def _set_choices(self, value): # Setting choices also sets the choices on the widget. # choices can be any iterable, but we call list() on it because # it will be consumed more than once. self._choices = self.widget.choices = list(value) choices = property(_get_choices, _set_choices) def to_python(self, value): "Returns a Unicode object." if value in validators.EMPTY_VALUES: return u'' return smart_unicode(value) def validate(self, value): """ Validates that the input is in self.choices. """ super(ChoiceField, self).validate(value) if value and not self.valid_value(value): raise ValidationError(self.error_messages['invalid_choice'] % {'value': value}) def valid_value(self, value): "Check to see if the provided value is a valid choice" for k, v in self.choices: if isinstance(v, (list, tuple)): # This is an optgroup, so look inside the group for options for k2, v2 in v: if value == smart_unicode(k2): return True else: if value == smart_unicode(k): return True return False class TypedChoiceField(ChoiceField): def __init__(self, *args, **kwargs): self.coerce = kwargs.pop('coerce', lambda val: val) self.empty_value = kwargs.pop('empty_value', '') super(TypedChoiceField, self).__init__(*args, **kwargs) def to_python(self, value): """ Validates that the value is in self.choices and can be coerced to the right type. """ value = super(TypedChoiceField, self).to_python(value) super(TypedChoiceField, self).validate(value) if value == self.empty_value or value in validators.EMPTY_VALUES: return self.empty_value try: value = self.coerce(value) except (ValueError, TypeError, ValidationError): raise ValidationError(self.error_messages['invalid_choice'] % {'value': value}) return value def validate(self, value): pass class MultipleChoiceField(ChoiceField): hidden_widget = MultipleHiddenInput widget = SelectMultiple default_error_messages = { 'invalid_choice': _(u'Select a valid choice. %(value)s is not one of the available choices.'), 'invalid_list': _(u'Enter a list of values.'), } def to_python(self, value): if not value: return [] elif not isinstance(value, (list, tuple)): raise ValidationError(self.error_messages['invalid_list']) return [smart_unicode(val) for val in value] def validate(self, value): """ Validates that the input is a list or tuple. """ if self.required and not value: raise ValidationError(self.error_messages['required']) # Validate that each value in the value list is in self.choices. for val in value: if not self.valid_value(val): raise ValidationError(self.error_messages['invalid_choice'] % {'value': val}) class TypedMultipleChoiceField(MultipleChoiceField): def __init__(self, *args, **kwargs): self.coerce = kwargs.pop('coerce', lambda val: val) self.empty_value = kwargs.pop('empty_value', []) super(TypedMultipleChoiceField, self).__init__(*args, **kwargs) def to_python(self, value): """ Validates that the values are in self.choices and can be coerced to the right type. """ value = super(TypedMultipleChoiceField, self).to_python(value) super(TypedMultipleChoiceField, self).validate(value) if value == self.empty_value or value in validators.EMPTY_VALUES: return self.empty_value new_value = [] for choice in value: try: new_value.append(self.coerce(choice)) except (ValueError, TypeError, ValidationError): raise ValidationError(self.error_messages['invalid_choice'] % {'value': choice}) return new_value def validate(self, value): pass class ComboField(Field): """ A Field whose clean() method calls multiple Field clean() methods. """ def __init__(self, fields=(), *args, **kwargs): super(ComboField, self).__init__(*args, **kwargs) # Set 'required' to False on the individual fields, because the # required validation will be handled by ComboField, not by those # individual fields. for f in fields: f.required = False self.fields = fields def clean(self, value): """ Validates the given value against all of self.fields, which is a list of Field instances. """ super(ComboField, self).clean(value) for field in self.fields: value = field.clean(value) return value class MultiValueField(Field): """ A Field that aggregates the logic of multiple Fields. Its clean() method takes a "decompressed" list of values, which are then cleaned into a single value according to self.fields. Each value in this list is cleaned by the corresponding field -- the first value is cleaned by the first field, the second value is cleaned by the second field, etc. Once all fields are cleaned, the list of clean values is "compressed" into a single value. Subclasses should not have to implement clean(). Instead, they must implement compress(), which takes a list of valid values and returns a "compressed" version of those values -- a single value. You'll probably want to use this with MultiWidget. """ default_error_messages = { 'invalid': _(u'Enter a list of values.'), } def __init__(self, fields=(), *args, **kwargs): super(MultiValueField, self).__init__(*args, **kwargs) # Set 'required' to False on the individual fields, because the # required validation will be handled by MultiValueField, not by those # individual fields. for f in fields: f.required = False self.fields = fields def validate(self, value): pass def clean(self, value): """ Validates every value in the given list. A value is validated against the corresponding Field in self.fields. For example, if this MultiValueField was instantiated with fields=(DateField(), TimeField()), clean() would call DateField.clean(value[0]) and TimeField.clean(value[1]). """ clean_data = [] errors = ErrorList() if not value or isinstance(value, (list, tuple)): if not value or not [v for v in value if v not in validators.EMPTY_VALUES]: if self.required: raise ValidationError(self.error_messages['required']) else: return self.compress([]) else: raise ValidationError(self.error_messages['invalid']) for i, field in enumerate(self.fields): try: field_value = value[i] except IndexError: field_value = None if self.required and field_value in validators.EMPTY_VALUES: raise ValidationError(self.error_messages['required']) try: clean_data.append(field.clean(field_value)) except ValidationError, e: # Collect all validation errors in a single list, which we'll # raise at the end of clean(), rather than raising a single # exception for the first error we encounter. errors.extend(e.messages) if errors: raise ValidationError(errors) out = self.compress(clean_data) self.validate(out) return out def compress(self, data_list): """ Returns a single value for the given list of values. The values can be assumed to be valid. For example, if this MultiValueField was instantiated with fields=(DateField(), TimeField()), this might return a datetime object created by combining the date and time in data_list. """ raise NotImplementedError('Subclasses must implement this method.') class FilePathField(ChoiceField): def __init__(self, path, match=None, recursive=False, required=True, widget=None, label=None, initial=None, help_text=None, *args, **kwargs): self.path, self.match, self.recursive = path, match, recursive super(FilePathField, self).__init__(choices=(), required=required, widget=widget, label=label, initial=initial, help_text=help_text, *args, **kwargs) if self.required: self.choices = [] else: self.choices = [("", "---------")] if self.match is not None: self.match_re = re.compile(self.match) if recursive: for root, dirs, files in sorted(os.walk(self.path)): for f in files: if self.match is None or self.match_re.search(f): f = os.path.join(root, f) self.choices.append((f, f.replace(path, "", 1))) else: try: for f in sorted(os.listdir(self.path)): full_file = os.path.join(self.path, f) if os.path.isfile(full_file) and (self.match is None or self.match_re.search(f)): self.choices.append((full_file, f)) except OSError: pass self.widget.choices = self.choices class SplitDateTimeField(MultiValueField): widget = SplitDateTimeWidget hidden_widget = SplitHiddenDateTimeWidget default_error_messages = { 'invalid_date': _(u'Enter a valid date.'), 'invalid_time': _(u'Enter a valid time.'), } def __init__(self, input_date_formats=None, input_time_formats=None, *args, **kwargs): errors = self.default_error_messages.copy() if 'error_messages' in kwargs: errors.update(kwargs['error_messages']) localize = kwargs.get('localize', False) fields = ( DateField(input_formats=input_date_formats, error_messages={'invalid': errors['invalid_date']}, localize=localize), TimeField(input_formats=input_time_formats, error_messages={'invalid': errors['invalid_time']}, localize=localize), ) super(SplitDateTimeField, self).__init__(fields, *args, **kwargs) def compress(self, data_list): if data_list: # Raise a validation error if time or date is empty # (possible if SplitDateTimeField has required=False). if data_list[0] in validators.EMPTY_VALUES: raise ValidationError(self.error_messages['invalid_date']) if data_list[1] in validators.EMPTY_VALUES: raise ValidationError(self.error_messages['invalid_time']) return datetime.datetime.combine(*data_list) return None class IPAddressField(CharField): default_error_messages = { 'invalid': _(u'Enter a valid IPv4 address.'), } default_validators = [validators.validate_ipv4_address] class GenericIPAddressField(CharField): default_error_messages = {} def __init__(self, protocol='both', unpack_ipv4=False, *args, **kwargs): self.unpack_ipv4 = unpack_ipv4 self.default_validators, invalid_error_message = \ validators.ip_address_validators(protocol, unpack_ipv4) self.default_error_messages['invalid'] = invalid_error_message super(GenericIPAddressField, self).__init__(*args, **kwargs) def to_python(self, value): if not value: return '' if value and ':' in value: return clean_ipv6_address(value, self.unpack_ipv4, self.error_messages['invalid']) return value class SlugField(CharField): default_error_messages = { 'invalid': _(u"Enter a valid 'slug' consisting of letters, numbers," u" underscores or hyphens."), } default_validators = [validators.validate_slug]