from django import forms from django.conf import settings from django.core import validators from django.core.exceptions import ValidationError from django.utils import six, timezone from django.utils.datastructures import SortedDict from django.utils.dateparse import parse_date, parse_datetime, parse_time from django.utils.encoding import is_protected_type from django.utils.translation import ugettext_lazy as _ from rest_framework import ISO_8601 from rest_framework.compat import smart_text, EmailValidator, MinValueValidator, MaxValueValidator, URLValidator from rest_framework.settings import api_settings from rest_framework.utils import html, representation, humanize_datetime import copy import datetime import decimal import inspect import re class empty: """ This class is used to represent no data being provided for a given input or output value. It is required because `None` may be a valid input or output value. """ pass def is_simple_callable(obj): """ True if the object is a callable that takes no arguments. """ function = inspect.isfunction(obj) method = inspect.ismethod(obj) if not (function or method): return False args, _, _, defaults = inspect.getargspec(obj) len_args = len(args) if function else len(args) - 1 len_defaults = len(defaults) if defaults else 0 return len_args <= len_defaults def get_attribute(instance, attrs): """ Similar to Python's built in `getattr(instance, attr)`, but takes a list of nested attributes, instead of a single attribute. Also accepts either attribute lookup on objects or dictionary lookups. """ for attr in attrs: try: instance = getattr(instance, attr) except AttributeError as exc: try: return instance[attr] except (KeyError, TypeError, AttributeError): raise exc return instance def set_value(dictionary, keys, value): """ Similar to Python's built in `dictionary[key] = value`, but takes a list of nested keys instead of a single key. set_value({'a': 1}, [], {'b': 2}) -> {'a': 1, 'b': 2} set_value({'a': 1}, ['x'], 2) -> {'a': 1, 'x': 2} set_value({'a': 1}, ['x', 'y'], 2) -> {'a': 1, 'x': {'y': 2}} """ if not keys: dictionary.update(value) return for key in keys[:-1]: if key not in dictionary: dictionary[key] = {} dictionary = dictionary[key] dictionary[keys[-1]] = value class SkipField(Exception): pass NOT_READ_ONLY_WRITE_ONLY = 'May not set both `read_only` and `write_only`' NOT_READ_ONLY_REQUIRED = 'May not set both `read_only` and `required`' NOT_READ_ONLY_DEFAULT = 'May not set both `read_only` and `default`' NOT_REQUIRED_DEFAULT = 'May not set both `required` and `default`' USE_READONLYFIELD = 'Field(read_only=True) should be ReadOnlyField' MISSING_ERROR_MESSAGE = ( 'ValidationError raised by `{class_name}`, but error key `{key}` does ' 'not exist in the `error_messages` dictionary.' ) class Field(object): _creation_counter = 0 default_error_messages = { 'required': _('This field is required.'), 'null': _('This field may not be null.') } default_validators = [] default_empty_html = None initial = None def __init__(self, read_only=False, write_only=False, required=None, default=empty, initial=empty, source=None, label=None, help_text=None, style=None, error_messages=None, validators=[], allow_null=False): self._creation_counter = Field._creation_counter Field._creation_counter += 1 # If `required` is unset, then use `True` unless a default is provided. if required is None: required = default is empty and not read_only # Some combinations of keyword arguments do not make sense. assert not (read_only and write_only), NOT_READ_ONLY_WRITE_ONLY assert not (read_only and required), NOT_READ_ONLY_REQUIRED assert not (read_only and default is not empty), NOT_READ_ONLY_DEFAULT assert not (required and default is not empty), NOT_REQUIRED_DEFAULT assert not (read_only and self.__class__ == Field), USE_READONLYFIELD self.read_only = read_only self.write_only = write_only self.required = required self.default = default self.source = source self.initial = self.initial if (initial is empty) else initial self.label = label self.help_text = help_text self.style = {} if style is None else style self.validators = validators or self.default_validators[:] self.allow_null = allow_null # These are set up by `.bind()` when the field is added to a serializer. self.field_name = None self.parent = None # Collect default error message from self and parent classes messages = {} for cls in reversed(self.__class__.__mro__): messages.update(getattr(cls, 'default_error_messages', {})) messages.update(error_messages or {}) self.error_messages = messages def bind(self, field_name, parent): """ Initializes the field name and parent for the field instance. Called when a field is added to the parent serializer instance. """ # In order to enforce a consistent style, we error if a redundant # 'source' argument has been used. For example: # my_field = serializer.CharField(source='my_field') assert self.source != field_name, ( "It is redundant to specify `source='%s'` on field '%s' in " "serializer '%s', because it is the same as the field name. " "Remove the `source` keyword argument." % (field_name, self.__class__.__name__, parent.__class__.__name__) ) self.field_name = field_name self.parent = parent # `self.label` should default to being based on the field name. if self.label is None: self.label = field_name.replace('_', ' ').capitalize() # self.source should default to being the same as the field name. if self.source is None: self.source = field_name # self.source_attrs is a list of attributes that need to be looked up # when serializing the instance, or populating the validated data. if self.source == '*': self.source_attrs = [] else: self.source_attrs = self.source.split('.') def get_initial(self): """ Return a value to use when the field is being returned as a primative value, without any object instance. """ return self.initial def get_value(self, dictionary): """ Given the *incoming* primative data, return the value for this field that should be validated and transformed to a native value. """ if html.is_html_input(dictionary): # HTML forms will represent empty fields as '', and cannot # represent None or False values directly. ret = dictionary.get(self.field_name, '') return self.default_empty_html if (ret == '') else ret return dictionary.get(self.field_name, empty) def get_field_representation(self, instance): """ Given the outgoing object instance, return the primative value that should be used for this field. """ attribute = get_attribute(instance, self.source_attrs) if attribute is None: return None return self.to_representation(attribute) def get_default(self): """ Return the default value to use when validating data if no input is provided for this field. If a default has not been set for this field then this will simply return `empty`, indicating that no value should be set in the validated data for this field. """ if self.default is empty: raise SkipField() return self.default def run_validation(self, data=empty): """ Validate a simple representation and return the internal value. The provided data may be `empty` if no representation was included in the input. May raise `SkipField` if the field should not be included in the validated data. """ if data is empty: if getattr(self.root, 'partial', False): raise SkipField() if self.required: self.fail('required') return self.get_default() if data is None: if not self.allow_null: self.fail('null') return None value = self.to_internal_value(data) self.run_validators(value) self.validate(value) return value def run_validators(self, value): """ Test the given value against all the validators on the field, and either raise a `ValidationError` or simply return. """ errors = [] for validator in self.validators: if getattr(validator, 'requires_context', False): validator.serializer_field = self try: validator(value) except ValidationError as exc: errors.extend(exc.messages) if errors: raise ValidationError(errors) def validate(self, value): pass def to_internal_value(self, data): """ Transform the *incoming* primative data into a native value. """ raise NotImplementedError('to_internal_value() must be implemented.') def to_representation(self, value): """ Transform the *outgoing* native value into primative data. """ raise NotImplementedError('to_representation() must be implemented.') def fail(self, key, **kwargs): """ A helper method that simply raises a validation error. """ try: msg = self.error_messages[key] except KeyError: class_name = self.__class__.__name__ msg = MISSING_ERROR_MESSAGE.format(class_name=class_name, key=key) raise AssertionError(msg) raise ValidationError(msg.format(**kwargs)) @property def root(self): """ Returns the top-level serializer for this field. """ root = self while root.parent is not None: root = root.parent return root @property def context(self): """ Returns the context as passed to the root serializer on initialization. """ return getattr(self.root, '_context', {}) def __new__(cls, *args, **kwargs): """ When a field is instantiated, we store the arguments that were used, so that we can present a helpful representation of the object. """ instance = super(Field, cls).__new__(cls) instance._args = args instance._kwargs = kwargs return instance def __deepcopy__(self, memo): """ When cloning fields we instantiate using the arguments it was originally created with, rather than copying the complete state. """ args = copy.deepcopy(self._args) kwargs = copy.deepcopy(self._kwargs) return self.__class__(*args, **kwargs) def __repr__(self): """ Fields are represented using their initial calling arguments. This allows us to create descriptive representations for serializer instances that show all the declared fields on the serializer. """ return representation.field_repr(self) # Boolean types... class BooleanField(Field): default_error_messages = { 'invalid': _('`{input}` is not a valid boolean.') } default_empty_html = False initial = False TRUE_VALUES = set(('t', 'T', 'true', 'True', 'TRUE', '1', 1, True)) FALSE_VALUES = set(('f', 'F', 'false', 'False', 'FALSE', '0', 0, 0.0, False)) def __init__(self, **kwargs): assert 'allow_null' not in kwargs, '`allow_null` is not a valid option. Use `NullBooleanField` instead.' super(BooleanField, self).__init__(**kwargs) def to_internal_value(self, data): if data in self.TRUE_VALUES: return True elif data in self.FALSE_VALUES: return False self.fail('invalid', input=data) def to_representation(self, value): if value in self.TRUE_VALUES: return True elif value in self.FALSE_VALUES: return False return bool(value) class NullBooleanField(Field): default_error_messages = { 'invalid': _('`{input}` is not a valid boolean.') } default_empty_html = None initial = None TRUE_VALUES = set(('t', 'T', 'true', 'True', 'TRUE', '1', 1, True)) FALSE_VALUES = set(('f', 'F', 'false', 'False', 'FALSE', '0', 0, 0.0, False)) NULL_VALUES = set(('n', 'N', 'null', 'Null', 'NULL', '', None)) def __init__(self, **kwargs): assert 'allow_null' not in kwargs, '`allow_null` is not a valid option.' kwargs['allow_null'] = True super(NullBooleanField, self).__init__(**kwargs) def to_internal_value(self, data): if data in self.TRUE_VALUES: return True elif data in self.FALSE_VALUES: return False elif data in self.NULL_VALUES: return None self.fail('invalid', input=data) def to_representation(self, value): if value in self.NULL_VALUES: return None if value in self.TRUE_VALUES: return True elif value in self.FALSE_VALUES: return False return bool(value) # String types... class CharField(Field): default_error_messages = { 'blank': _('This field may not be blank.') } default_empty_html = '' initial = '' def __init__(self, **kwargs): self.allow_blank = kwargs.pop('allow_blank', False) self.max_length = kwargs.pop('max_length', None) self.min_length = kwargs.pop('min_length', None) super(CharField, self).__init__(**kwargs) def run_validation(self, data=empty): # Test for the empty string here so that it does not get validated, # and so that subclasses do not need to handle it explicitly # inside the `to_internal_value()` method. if data == '': if not self.allow_blank: self.fail('blank') return '' return super(CharField, self).run_validation(data) def to_internal_value(self, data): return six.text_type(data) def to_representation(self, value): return six.text_type(value) class EmailField(CharField): default_error_messages = { 'invalid': _('Enter a valid email address.') } def __init__(self, **kwargs): super(EmailField, self).__init__(**kwargs) validator = EmailValidator(message=self.error_messages['invalid']) self.validators.append(validator) def to_internal_value(self, data): return six.text_type(data).strip() def to_representation(self, value): return six.text_type(value).strip() class RegexField(CharField): default_error_messages = { 'invalid': _('This value does not match the required pattern.') } def __init__(self, regex, **kwargs): super(RegexField, self).__init__(**kwargs) validator = validators.RegexValidator(regex, message=self.error_messages['invalid']) self.validators.append(validator) class SlugField(CharField): default_error_messages = { 'invalid': _("Enter a valid 'slug' consisting of letters, numbers, underscores or hyphens.") } def __init__(self, **kwargs): super(SlugField, self).__init__(**kwargs) slug_regex = re.compile(r'^[-a-zA-Z0-9_]+$') validator = validators.RegexValidator(slug_regex, message=self.error_messages['invalid']) self.validators.append(validator) class URLField(CharField): default_error_messages = { 'invalid': _("Enter a valid URL.") } def __init__(self, **kwargs): super(URLField, self).__init__(**kwargs) validator = URLValidator(message=self.error_messages['invalid']) self.validators.append(validator) # Number types... class IntegerField(Field): default_error_messages = { 'invalid': _('A valid integer is required.'), 'max_value': _('Ensure this value is less than or equal to {max_value}.'), 'min_value': _('Ensure this value is greater than or equal to {min_value}.'), } def __init__(self, **kwargs): max_value = kwargs.pop('max_value', None) min_value = kwargs.pop('min_value', None) super(IntegerField, self).__init__(**kwargs) if max_value is not None: message = self.error_messages['max_value'].format(max_value=max_value) self.validators.append(MaxValueValidator(max_value, message=message)) if min_value is not None: message = self.error_messages['min_value'].format(min_value=min_value) self.validators.append(MinValueValidator(min_value, message=message)) def to_internal_value(self, data): try: data = int(six.text_type(data)) except (ValueError, TypeError): self.fail('invalid') return data def to_representation(self, value): return int(value) class FloatField(Field): default_error_messages = { 'invalid': _("A valid number is required."), 'max_value': _('Ensure this value is less than or equal to {max_value}.'), 'min_value': _('Ensure this value is greater than or equal to {min_value}.'), } def __init__(self, **kwargs): max_value = kwargs.pop('max_value', None) min_value = kwargs.pop('min_value', None) super(FloatField, self).__init__(**kwargs) if max_value is not None: message = self.error_messages['max_value'].format(max_value=max_value) self.validators.append(MaxValueValidator(max_value, message=message)) if min_value is not None: message = self.error_messages['min_value'].format(min_value=min_value) self.validators.append(MinValueValidator(min_value, message=message)) def to_internal_value(self, value): try: return float(value) except (TypeError, ValueError): self.fail('invalid') def to_representation(self, value): return float(value) class DecimalField(Field): default_error_messages = { 'invalid': _('A valid number is required.'), 'max_value': _('Ensure this value is less than or equal to {max_value}.'), 'min_value': _('Ensure this value is greater than or equal to {min_value}.'), 'max_digits': _('Ensure that there are no more than {max_digits} digits in total.'), 'max_decimal_places': _('Ensure that there are no more than {max_decimal_places} decimal places.'), 'max_whole_digits': _('Ensure that there are no more than {max_whole_digits} digits before the decimal point.') } coerce_to_string = api_settings.COERCE_DECIMAL_TO_STRING def __init__(self, max_digits, decimal_places, coerce_to_string=None, max_value=None, min_value=None, **kwargs): self.max_digits = max_digits self.decimal_places = decimal_places self.coerce_to_string = coerce_to_string if (coerce_to_string is not None) else self.coerce_to_string super(DecimalField, self).__init__(**kwargs) if max_value is not None: message = self.error_messages['max_value'].format(max_value=max_value) self.validators.append(MaxValueValidator(max_value, message=message)) if min_value is not None: message = self.error_messages['min_value'].format(min_value=min_value) self.validators.append(MinValueValidator(min_value, message=message)) def to_internal_value(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. """ value = smart_text(value).strip() try: value = decimal.Decimal(value) except decimal.DecimalException: self.fail('invalid') # Check for NaN. It is the only value that isn't equal to itself, # so we can use this to identify NaN values. if value != value: self.fail('invalid') # Check for infinity and negative infinity. if value in (decimal.Decimal('Inf'), decimal.Decimal('-Inf')): self.fail('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: self.fail('max_digits', max_digits=self.max_digits) if self.decimal_places is not None and decimals > self.decimal_places: self.fail('max_decimal_places', 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): self.fail('max_whole_digits', max_whole_digits=self.max_digits - self.decimal_places) return value def to_representation(self, value): if not isinstance(value, decimal.Decimal): value = decimal.Decimal(six.text_type(value).strip()) context = decimal.getcontext().copy() context.prec = self.max_digits quantized = value.quantize( decimal.Decimal('.1') ** self.decimal_places, context=context ) if not self.coerce_to_string: return quantized return '{0:f}'.format(quantized) # Date & time fields... class DateTimeField(Field): default_error_messages = { 'invalid': _('Datetime has wrong format. Use one of these formats instead: {format}'), 'date': _('Expected a datetime but got a date.'), } format = api_settings.DATETIME_FORMAT input_formats = api_settings.DATETIME_INPUT_FORMATS default_timezone = timezone.get_default_timezone() if settings.USE_TZ else None def __init__(self, format=empty, input_formats=None, default_timezone=None, *args, **kwargs): self.format = format if format is not empty else self.format self.input_formats = input_formats if input_formats is not None else self.input_formats self.default_timezone = default_timezone if default_timezone is not None else self.default_timezone super(DateTimeField, self).__init__(*args, **kwargs) def enforce_timezone(self, value): """ When `self.default_timezone` is `None`, always return naive datetimes. When `self.default_timezone` is not `None`, always return aware datetimes. """ if (self.default_timezone is not None) and not timezone.is_aware(value): return timezone.make_aware(value, self.default_timezone) elif (self.default_timezone is None) and timezone.is_aware(value): return timezone.make_naive(value, timezone.UTC()) return value def to_internal_value(self, value): if isinstance(value, datetime.date) and not isinstance(value, datetime.datetime): self.fail('date') if isinstance(value, datetime.datetime): return self.enforce_timezone(value) for format in self.input_formats: if format.lower() == ISO_8601: try: parsed = parse_datetime(value) except (ValueError, TypeError): pass else: if parsed is not None: return self.enforce_timezone(parsed) else: try: parsed = datetime.datetime.strptime(value, format) except (ValueError, TypeError): pass else: return self.enforce_timezone(parsed) humanized_format = humanize_datetime.datetime_formats(self.input_formats) self.fail('invalid', format=humanized_format) def to_representation(self, value): if self.format is None: return value if self.format.lower() == ISO_8601: ret = value.isoformat() if ret.endswith('+00:00'): ret = ret[:-6] + 'Z' return ret return value.strftime(self.format) class DateField(Field): default_error_messages = { 'invalid': _('Date has wrong format. Use one of these formats instead: {format}'), 'datetime': _('Expected a date but got a datetime.'), } format = api_settings.DATE_FORMAT input_formats = api_settings.DATE_INPUT_FORMATS def __init__(self, format=empty, input_formats=None, *args, **kwargs): self.format = format if format is not empty else self.format self.input_formats = input_formats if input_formats is not None else self.input_formats super(DateField, self).__init__(*args, **kwargs) def to_internal_value(self, value): if isinstance(value, datetime.datetime): self.fail('datetime') if isinstance(value, datetime.date): return value for format in self.input_formats: if format.lower() == ISO_8601: try: parsed = parse_date(value) except (ValueError, TypeError): pass else: if parsed is not None: return parsed else: try: parsed = datetime.datetime.strptime(value, format) except (ValueError, TypeError): pass else: return parsed.date() humanized_format = humanize_datetime.date_formats(self.input_formats) self.fail('invalid', format=humanized_format) def to_representation(self, value): if self.format is None: return value # Applying a `DateField` to a datetime value is almost always # not a sensible thing to do, as it means naively dropping # any explicit or implicit timezone info. assert not isinstance(value, datetime.datetime), ( 'Expected a `date`, but got a `datetime`. Refusing to coerce, ' 'as this may mean losing timezone information. Use a custom ' 'read-only field and deal with timezone issues explicitly.' ) if self.format.lower() == ISO_8601: return value.isoformat() return value.strftime(self.format) class TimeField(Field): default_error_messages = { 'invalid': _('Time has wrong format. Use one of these formats instead: {format}'), } format = api_settings.TIME_FORMAT input_formats = api_settings.TIME_INPUT_FORMATS def __init__(self, format=empty, input_formats=None, *args, **kwargs): self.format = format if format is not empty else self.format self.input_formats = input_formats if input_formats is not None else self.input_formats super(TimeField, self).__init__(*args, **kwargs) def to_internal_value(self, value): if isinstance(value, datetime.time): return value for format in self.input_formats: if format.lower() == ISO_8601: try: parsed = parse_time(value) except (ValueError, TypeError): pass else: if parsed is not None: return parsed else: try: parsed = datetime.datetime.strptime(value, format) except (ValueError, TypeError): pass else: return parsed.time() humanized_format = humanize_datetime.time_formats(self.input_formats) self.fail('invalid', format=humanized_format) def to_representation(self, value): if self.format is None: return value # Applying a `TimeField` to a datetime value is almost always # not a sensible thing to do, as it means naively dropping # any explicit or implicit timezone info. assert not isinstance(value, datetime.datetime), ( 'Expected a `time`, but got a `datetime`. Refusing to coerce, ' 'as this may mean losing timezone information. Use a custom ' 'read-only field and deal with timezone issues explicitly.' ) if self.format.lower() == ISO_8601: return value.isoformat() return value.strftime(self.format) # Choice types... class ChoiceField(Field): default_error_messages = { 'invalid_choice': _('`{input}` is not a valid choice.') } def __init__(self, choices, **kwargs): # Allow either single or paired choices style: # choices = [1, 2, 3] # choices = [(1, 'First'), (2, 'Second'), (3, 'Third')] pairs = [ isinstance(item, (list, tuple)) and len(item) == 2 for item in choices ] if all(pairs): self.choices = SortedDict([(key, display_value) for key, display_value in choices]) else: self.choices = SortedDict([(item, item) for item in choices]) # Map the string representation of choices to the underlying value. # Allows us to deal with eg. integer choices while supporting either # integer or string input, but still get the correct datatype out. self.choice_strings_to_values = dict([ (six.text_type(key), key) for key in self.choices.keys() ]) super(ChoiceField, self).__init__(**kwargs) def to_internal_value(self, data): try: return self.choice_strings_to_values[six.text_type(data)] except KeyError: self.fail('invalid_choice', input=data) def to_representation(self, value): return self.choice_strings_to_values[six.text_type(value)] class MultipleChoiceField(ChoiceField): default_error_messages = { 'invalid_choice': _('`{input}` is not a valid choice.'), 'not_a_list': _('Expected a list of items but got type `{input_type}`') } def to_internal_value(self, data): if isinstance(data, type('')) or not hasattr(data, '__iter__'): self.fail('not_a_list', input_type=type(data).__name__) return set([ super(MultipleChoiceField, self).to_internal_value(item) for item in data ]) def to_representation(self, value): return set([ self.choice_strings_to_values[six.text_type(item)] for item in value ]) # File types... class FileField(Field): default_error_messages = { 'required': _("No file was submitted."), 'invalid': _("The submitted data was not a file. Check the encoding type on the form."), 'no_name': _("No filename could be determined."), 'empty': _("The submitted file is empty."), 'max_length': _('Ensure this filename has at most {max_length} characters (it has {length}).'), } use_url = api_settings.UPLOADED_FILES_USE_URL def __init__(self, *args, **kwargs): self.max_length = kwargs.pop('max_length', None) self.allow_empty_file = kwargs.pop('allow_empty_file', False) self.use_url = kwargs.pop('use_url', self.use_url) super(FileField, self).__init__(*args, **kwargs) def to_internal_value(self, data): try: # `UploadedFile` objects should have name and size attributes. file_name = data.name file_size = data.size except AttributeError: self.fail('invalid') if not file_name: self.fail('no_name') if not self.allow_empty_file and not file_size: self.fail('empty') if self.max_length and len(file_name) > self.max_length: self.fail('max_length', max_length=self.max_length, length=len(file_name)) return data def to_representation(self, value): if self.use_url: url = settings.MEDIA_URL + value.url request = self.context.get('request', None) if request is not None: return request.build_absolute_uri(url) return url return value.name class ImageField(FileField): default_error_messages = { 'invalid_image': _( 'Upload a valid image. The file you uploaded was either not an ' 'image or a corrupted image.' ), } def __init__(self, *args, **kwargs): self._DjangoImageField = kwargs.pop('_DjangoImageField', forms.ImageField) super(ImageField, self).__init__(*args, **kwargs) def to_internal_value(self, data): # Image validation is a bit grungy, so we'll just outright # defer to Django's implementation so we don't need to # consider it, or treat PIL as a test dependancy. file_object = super(ImageField, self).to_internal_value(data) django_field = self._DjangoImageField() django_field.error_messages = self.error_messages django_field.to_python(file_object) return file_object # Composite field types... class ListField(Field): child = None initial = [] default_error_messages = { 'not_a_list': _('Expected a list of items but got type `{input_type}`') } def __init__(self, *args, **kwargs): self.child = kwargs.pop('child', copy.deepcopy(self.child)) assert self.child is not None, '`child` is a required argument.' assert not inspect.isclass(self.child), '`child` has not been instantiated.' super(ListField, self).__init__(*args, **kwargs) self.child.bind(field_name='', parent=self) def get_value(self, dictionary): # We override the default field access in order to support # lists in HTML forms. if html.is_html_input(dictionary): return html.parse_html_list(dictionary, prefix=self.field_name) return dictionary.get(self.field_name, empty) def to_internal_value(self, data): """ List of dicts of native values <- List of dicts of primitive datatypes. """ if html.is_html_input(data): data = html.parse_html_list(data) if isinstance(data, type('')) or not hasattr(data, '__iter__'): self.fail('not_a_list', input_type=type(data).__name__) return [self.child.run_validation(item) for item in data] def to_representation(self, data): """ List of object instances -> List of dicts of primitive datatypes. """ return [self.child.to_representation(item) for item in data] # Miscellaneous field types... class ReadOnlyField(Field): """ A read-only field that simply returns the field value. If the field is a method with no parameters, the method will be called and it's return value used as the representation. For example, the following would call `get_expiry_date()` on the object: class ExampleSerializer(self): expiry_date = ReadOnlyField(source='get_expiry_date') """ def __init__(self, **kwargs): kwargs['read_only'] = True super(ReadOnlyField, self).__init__(**kwargs) def to_representation(self, value): if is_simple_callable(value): return value() return value class SerializerMethodField(Field): """ A read-only field that get its representation from calling a method on the parent serializer class. The method called will be of the form "get_{field_name}", and should take a single argument, which is the object being serialized. For example: class ExampleSerializer(self): extra_info = SerializerMethodField() def get_extra_info(self, obj): return ... # Calculate some data to return. """ def __init__(self, method_name=None, **kwargs): self.method_name = method_name kwargs['source'] = '*' kwargs['read_only'] = True super(SerializerMethodField, self).__init__(**kwargs) def bind(self, field_name, parent): # In order to enforce a consistent style, we error if a redundant # 'method_name' argument has been used. For example: # my_field = serializer.CharField(source='my_field') default_method_name = 'get_{field_name}'.format(field_name=field_name) assert self.method_name != default_method_name, ( "It is redundant to specify `%s` on SerializerMethodField '%s' in " "serializer '%s', because it is the same as the default method name. " "Remove the `method_name` argument." % (self.method_name, field_name, parent.__class__.__name__) ) # The method name should default to `get_{field_name}`. if self.method_name is None: self.method_name = default_method_name super(SerializerMethodField, self).bind(field_name, parent) def to_representation(self, value): method = getattr(self.parent, self.method_name) return method(value) class ModelField(Field): """ A generic field that can be used against an arbitrary model field. This is used by `ModelSerializer` when dealing with custom model fields, that do not have a serializer field to be mapped to. """ def __init__(self, model_field, **kwargs): self.model_field = model_field kwargs['source'] = '*' super(ModelField, self).__init__(**kwargs) def to_internal_value(self, data): rel = getattr(self.model_field, 'rel', None) if rel is not None: return rel.to._meta.get_field(rel.field_name).to_python(data) return self.model_field.to_python(data) def to_representation(self, obj): value = self.model_field._get_val_from_obj(obj) if is_protected_type(value): return value return self.model_field.value_to_string(obj)