import datetime import math import os import re import sys import uuid import warnings from decimal import ROUND_DOWN, ROUND_UP, Decimal from enum import auto from unittest.mock import patch import pytest try: import pytz except ImportError: pytz = None from django.core.exceptions import ValidationError as DjangoValidationError from django.db.models import IntegerChoices, TextChoices from django.http import QueryDict from django.test import TestCase, override_settings from django.utils.timezone import activate, deactivate, override import rest_framework from rest_framework import exceptions, serializers from rest_framework.fields import ( BuiltinSignatureError, DjangoImageField, SkipField, empty, is_simple_callable ) from tests.models import UUIDForeignKeyTarget if sys.version_info >= (3, 9): from zoneinfo import ZoneInfo else: from backports.zoneinfo import ZoneInfo utc = datetime.timezone.utc # Tests for helper functions. # --------------------------- class TestIsSimpleCallable: def test_method(self): class Foo: @classmethod def classmethod(cls): pass def valid(self): pass def valid_kwargs(self, param='value'): pass def valid_vargs_kwargs(self, *args, **kwargs): pass def invalid(self, param): pass assert is_simple_callable(Foo.classmethod) # unbound methods assert not is_simple_callable(Foo.valid) assert not is_simple_callable(Foo.valid_kwargs) assert not is_simple_callable(Foo.valid_vargs_kwargs) assert not is_simple_callable(Foo.invalid) # bound methods assert is_simple_callable(Foo().valid) assert is_simple_callable(Foo().valid_kwargs) assert is_simple_callable(Foo().valid_vargs_kwargs) assert not is_simple_callable(Foo().invalid) def test_function(self): def simple(): pass def valid(param='value', param2='value'): pass def valid_vargs_kwargs(*args, **kwargs): pass def invalid(param, param2='value'): pass assert is_simple_callable(simple) assert is_simple_callable(valid) assert is_simple_callable(valid_vargs_kwargs) assert not is_simple_callable(invalid) @pytest.mark.parametrize('obj', (True, None, "str", b'bytes', 123, 1.23)) def test_not_callable(self, obj): assert not is_simple_callable(obj) def test_4602_regression(self): from django.db import models class ChoiceModel(models.Model): choice_field = models.CharField( max_length=1, default='a', choices=(('a', 'A'), ('b', 'B')), ) class Meta: app_label = 'tests' assert is_simple_callable(ChoiceModel().get_choice_field_display) def test_builtin_function(self): # Built-in function signatures are not easily inspectable, so the # current expectation is to just raise a helpful error message. timestamp = datetime.datetime.now() with pytest.raises(BuiltinSignatureError) as exc_info: is_simple_callable(timestamp.date) assert str(exc_info.value) == ( 'Built-in function signatures are not inspectable. Wrap the ' 'function call in a simple, pure Python function.') def test_type_annotation(self): # The annotation will otherwise raise a syntax error in python < 3.5 locals = {} exec("def valid(param: str='value'): pass", locals) valid = locals['valid'] assert is_simple_callable(valid) # Tests for field keyword arguments and core functionality. # --------------------------------------------------------- class TestEmpty: """ Tests for `required`, `allow_null`, `allow_blank`, `default`. """ def test_required(self): """ By default a field must be included in the input. """ field = serializers.IntegerField() with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation() assert exc_info.value.detail == ['This field is required.'] def test_not_required(self): """ If `required=False` then a field may be omitted from the input. """ field = serializers.IntegerField(required=False) with pytest.raises(serializers.SkipField): field.run_validation() def test_disallow_null(self): """ By default `None` is not a valid input. """ field = serializers.IntegerField() with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation(None) assert exc_info.value.detail == ['This field may not be null.'] def test_allow_null(self): """ If `allow_null=True` then `None` is a valid input. """ field = serializers.IntegerField(allow_null=True) output = field.run_validation(None) assert output is None def test_disallow_blank(self): """ By default '' is not a valid input. """ field = serializers.CharField() with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation('') assert exc_info.value.detail == ['This field may not be blank.'] def test_allow_blank(self): """ If `allow_blank=True` then '' is a valid input. """ field = serializers.CharField(allow_blank=True) output = field.run_validation('') assert output == '' def test_default(self): """ If `default` is set, then omitted values get the default input. """ field = serializers.IntegerField(default=123) output = field.run_validation() assert output == 123 class TestSource: def test_source(self): class ExampleSerializer(serializers.Serializer): example_field = serializers.CharField(source='other') serializer = ExampleSerializer(data={'example_field': 'abc'}) assert serializer.is_valid() assert serializer.validated_data == {'other': 'abc'} def test_redundant_source(self): class ExampleSerializer(serializers.Serializer): example_field = serializers.CharField(source='example_field') with pytest.raises(AssertionError) as exc_info: ExampleSerializer().fields assert str(exc_info.value) == ( "It is redundant to specify `source='example_field'` on field " "'CharField' in serializer 'ExampleSerializer', because it is the " "same as the field name. Remove the `source` keyword argument." ) def test_callable_source(self): class ExampleSerializer(serializers.Serializer): example_field = serializers.CharField(source='example_callable') class ExampleInstance: def example_callable(self): return 'example callable value' serializer = ExampleSerializer(ExampleInstance()) assert serializer.data['example_field'] == 'example callable value' def test_callable_source_raises(self): class ExampleSerializer(serializers.Serializer): example_field = serializers.CharField(source='example_callable', read_only=True) class ExampleInstance: def example_callable(self): raise AttributeError('method call failed') with pytest.raises(ValueError) as exc_info: serializer = ExampleSerializer(ExampleInstance()) serializer.data.items() assert 'method call failed' in str(exc_info.value) def test_builtin_callable_source_raises(self): class BuiltinSerializer(serializers.Serializer): date = serializers.ReadOnlyField(source='timestamp.date') with pytest.raises(BuiltinSignatureError) as exc_info: BuiltinSerializer({'timestamp': datetime.datetime.now()}).data assert str(exc_info.value) == ( 'Field source for `BuiltinSerializer.date` maps to a built-in ' 'function type and is invalid. Define a property or method on ' 'the `dict` instance that wraps the call to the built-in function.') class TestReadOnly: def setup_method(self): class TestSerializer(serializers.Serializer): read_only = serializers.ReadOnlyField(default="789") writable = serializers.IntegerField() self.Serializer = TestSerializer def test_writable_fields(self): """ Read-only fields should not be writable, even with default () """ serializer = self.Serializer() assert len(list(serializer._writable_fields)) == 1 def test_validate_read_only(self): """ Read-only serializers.should not be included in validation. """ data = {'read_only': 123, 'writable': 456} serializer = self.Serializer(data=data) assert serializer.is_valid() assert serializer.validated_data == {'writable': 456} def test_serialize_read_only(self): """ Read-only serializers.should be serialized. """ instance = {'read_only': 123, 'writable': 456} serializer = self.Serializer(instance) assert serializer.data == {'read_only': 123, 'writable': 456} class TestWriteOnly: def setup_method(self): class TestSerializer(serializers.Serializer): write_only = serializers.IntegerField(write_only=True) readable = serializers.IntegerField() self.Serializer = TestSerializer def test_validate_write_only(self): """ Write-only serializers.should be included in validation. """ data = {'write_only': 123, 'readable': 456} serializer = self.Serializer(data=data) assert serializer.is_valid() assert serializer.validated_data == {'write_only': 123, 'readable': 456} def test_serialize_write_only(self): """ Write-only serializers.should not be serialized. """ instance = {'write_only': 123, 'readable': 456} serializer = self.Serializer(instance) assert serializer.data == {'readable': 456} class TestInitial: def setup_method(self): class TestSerializer(serializers.Serializer): initial_field = serializers.IntegerField(initial=123) blank_field = serializers.IntegerField() self.serializer = TestSerializer() def test_initial(self): """ Initial values should be included when serializing a new representation. """ assert self.serializer.data == { 'initial_field': 123, 'blank_field': None } class TestInitialWithCallable: def setup_method(self): def initial_value(): return 123 class TestSerializer(serializers.Serializer): initial_field = serializers.IntegerField(initial=initial_value) self.serializer = TestSerializer() def test_initial_should_accept_callable(self): """ Follows the default ``Field.initial`` behaviour where they accept a callable to produce the initial value""" assert self.serializer.data == { 'initial_field': 123, } class TestLabel: def setup_method(self): class TestSerializer(serializers.Serializer): labeled = serializers.IntegerField(label='My label') self.serializer = TestSerializer() def test_label(self): """ A field's label may be set with the `label` argument. """ fields = self.serializer.fields assert fields['labeled'].label == 'My label' class TestInvalidErrorKey: def setup_method(self): class ExampleField(serializers.Field): def to_native(self, data): self.fail('incorrect') self.field = ExampleField() def test_invalid_error_key(self): """ If a field raises a validation error, but does not have a corresponding error message, then raise an appropriate assertion error. """ with pytest.raises(AssertionError) as exc_info: self.field.to_native(123) expected = ( 'ValidationError raised by `ExampleField`, but error key ' '`incorrect` does not exist in the `error_messages` dictionary.' ) assert str(exc_info.value) == expected class TestBooleanHTMLInput: def test_empty_html_checkbox(self): """ HTML checkboxes do not send any value, but should be treated as `False` by BooleanField if allow_null=False. """ class TestSerializer(serializers.Serializer): archived = serializers.BooleanField() serializer = TestSerializer(data=QueryDict('')) assert serializer.is_valid() assert serializer.validated_data == {'archived': False} def test_empty_html_checkbox_not_required(self): """ HTML checkboxes do not send any value, but should be treated as `False` by BooleanField when the field is required=False and allow_null=False. """ class TestSerializer(serializers.Serializer): archived = serializers.BooleanField(required=False) serializer = TestSerializer(data=QueryDict('')) assert serializer.is_valid() assert serializer.validated_data == {'archived': False} def test_empty_html_checkbox_allow_null(self): """ HTML checkboxes do not send any value and should be treated as `None` by BooleanField if allow_null is True. """ class TestSerializer(serializers.Serializer): archived = serializers.BooleanField(allow_null=True) serializer = TestSerializer(data=QueryDict('')) assert serializer.is_valid() assert serializer.validated_data == {'archived': None} def test_empty_html_checkbox_allow_null_with_default(self): """ BooleanField should respect default if set and still allow setting null values. """ class TestSerializer(serializers.Serializer): archived = serializers.BooleanField(allow_null=True, default=True) serializer = TestSerializer(data=QueryDict('')) assert serializer.is_valid() assert serializer.validated_data == {'archived': True} serializer = TestSerializer(data=QueryDict('archived=')) assert serializer.is_valid() assert serializer.validated_data == {'archived': None} class TestHTMLInput: def test_empty_html_charfield_with_default(self): class TestSerializer(serializers.Serializer): message = serializers.CharField(default='happy') serializer = TestSerializer(data=QueryDict('')) assert serializer.is_valid() assert serializer.validated_data == {'message': 'happy'} def test_empty_html_charfield_without_default(self): class TestSerializer(serializers.Serializer): message = serializers.CharField(allow_blank=True) serializer = TestSerializer(data=QueryDict('message=')) assert serializer.is_valid() assert serializer.validated_data == {'message': ''} def test_empty_html_charfield_without_default_not_required(self): class TestSerializer(serializers.Serializer): message = serializers.CharField(allow_blank=True, required=False) serializer = TestSerializer(data=QueryDict('message=')) assert serializer.is_valid() assert serializer.validated_data == {'message': ''} def test_empty_html_integerfield(self): class TestSerializer(serializers.Serializer): message = serializers.IntegerField(default=123) serializer = TestSerializer(data=QueryDict('message=')) assert serializer.is_valid() assert serializer.validated_data == {'message': 123} def test_empty_html_uuidfield_with_default(self): class TestSerializer(serializers.Serializer): message = serializers.UUIDField(default=uuid.uuid4) serializer = TestSerializer(data=QueryDict('message=')) assert serializer.is_valid() assert list(serializer.validated_data) == ['message'] def test_empty_html_uuidfield_with_optional(self): class TestSerializer(serializers.Serializer): message = serializers.UUIDField(required=False) serializer = TestSerializer(data=QueryDict('message=')) assert serializer.is_valid() assert list(serializer.validated_data) == [] def test_empty_html_charfield_allow_null(self): class TestSerializer(serializers.Serializer): message = serializers.CharField(allow_null=True) serializer = TestSerializer(data=QueryDict('message=')) assert serializer.is_valid() assert serializer.validated_data == {'message': None} def test_empty_html_datefield_allow_null(self): class TestSerializer(serializers.Serializer): expiry = serializers.DateField(allow_null=True) serializer = TestSerializer(data=QueryDict('expiry=')) assert serializer.is_valid() assert serializer.validated_data == {'expiry': None} def test_empty_html_charfield_allow_null_allow_blank(self): class TestSerializer(serializers.Serializer): message = serializers.CharField(allow_null=True, allow_blank=True) serializer = TestSerializer(data=QueryDict('message=')) assert serializer.is_valid() assert serializer.validated_data == {'message': ''} def test_empty_html_charfield_required_false(self): class TestSerializer(serializers.Serializer): message = serializers.CharField(required=False) serializer = TestSerializer(data=QueryDict('')) assert serializer.is_valid() assert serializer.validated_data == {} def test_querydict_list_input(self): class TestSerializer(serializers.Serializer): scores = serializers.ListField(child=serializers.IntegerField()) serializer = TestSerializer(data=QueryDict('scores=1&scores=3')) assert serializer.is_valid() assert serializer.validated_data == {'scores': [1, 3]} def test_querydict_list_input_only_one_input(self): class TestSerializer(serializers.Serializer): scores = serializers.ListField(child=serializers.IntegerField()) serializer = TestSerializer(data=QueryDict('scores=1&')) assert serializer.is_valid() assert serializer.validated_data == {'scores': [1]} def test_querydict_list_input_no_values_uses_default(self): """ When there are no values passed in, and default is set The field should return the default value """ class TestSerializer(serializers.Serializer): a = serializers.IntegerField(required=True) scores = serializers.ListField(default=lambda: [1, 3]) serializer = TestSerializer(data=QueryDict('a=1&')) assert serializer.is_valid() assert serializer.validated_data == {'a': 1, 'scores': [1, 3]} def test_querydict_list_input_supports_indexed_keys(self): """ When data is passed in the format `scores[0]=1&scores[1]=3` The field should return the correct list, ignoring the default """ class TestSerializer(serializers.Serializer): scores = serializers.ListField(default=lambda: [1, 3]) serializer = TestSerializer(data=QueryDict("scores[0]=5&scores[1]=6")) assert serializer.is_valid() assert serializer.validated_data == {'scores': ['5', '6']} def test_querydict_list_input_no_values_no_default_and_not_required(self): """ When there are no keys passed, there is no default, and required=False The field should be skipped """ class TestSerializer(serializers.Serializer): scores = serializers.ListField(required=False) serializer = TestSerializer(data=QueryDict('')) assert serializer.is_valid() assert serializer.validated_data == {} def test_querydict_list_input_posts_key_but_no_values(self): """ When there are no keys passed, there is no default, and required=False The field should return an array of 1 item, blank """ class TestSerializer(serializers.Serializer): scores = serializers.ListField(required=False) serializer = TestSerializer(data=QueryDict('scores=&')) assert serializer.is_valid() assert serializer.validated_data == {'scores': ['']} class TestCreateOnlyDefault: def setup_method(self): default = serializers.CreateOnlyDefault('2001-01-01') class TestSerializer(serializers.Serializer): published = serializers.HiddenField(default=default) text = serializers.CharField() self.Serializer = TestSerializer def test_create_only_default_is_provided(self): serializer = self.Serializer(data={'text': 'example'}) assert serializer.is_valid() assert serializer.validated_data == { 'text': 'example', 'published': '2001-01-01' } def test_create_only_default_is_not_provided_on_update(self): instance = { 'text': 'example', 'published': '2001-01-01' } serializer = self.Serializer(instance, data={'text': 'example'}) assert serializer.is_valid() assert serializer.validated_data == { 'text': 'example', } def test_create_only_default_callable_sets_context(self): """ CreateOnlyDefault instances with a callable default should set context on the callable if possible """ class TestCallableDefault: requires_context = True def __call__(self, field=None): return "success" if field is not None else "failure" class TestSerializer(serializers.Serializer): context_set = serializers.CharField(default=serializers.CreateOnlyDefault(TestCallableDefault())) serializer = TestSerializer(data={}) assert serializer.is_valid() assert serializer.validated_data['context_set'] == 'success' class Test5087Regression: def test_parent_binding(self): parent = serializers.Serializer() field = serializers.CharField() assert field.root is field field.bind('name', parent) assert field.root is parent class TestTyping(TestCase): @pytest.mark.skipif( sys.version_info < (3, 7), reason="subscriptable classes requires Python 3.7 or higher", ) def test_field_is_subscriptable(self): assert serializers.Field is serializers.Field["foo"] # Tests for field input and output values. # ---------------------------------------- def get_items(mapping_or_list_of_two_tuples): # Tests accept either lists of two tuples, or dictionaries. if isinstance(mapping_or_list_of_two_tuples, dict): # {value: expected} return mapping_or_list_of_two_tuples.items() # [(value, expected), ...] return mapping_or_list_of_two_tuples class FieldValues: """ Base class for testing valid and invalid input values. """ def test_valid_inputs(self, *args): """ Ensure that valid values return the expected validated data. """ for input_value, expected_output in get_items(self.valid_inputs): assert self.field.run_validation(input_value) == expected_output, \ 'input value: {}'.format(repr(input_value)) def test_invalid_inputs(self, *args): """ Ensure that invalid values raise the expected validation error. """ for input_value, expected_failure in get_items(self.invalid_inputs): with pytest.raises(serializers.ValidationError) as exc_info: self.field.run_validation(input_value) assert exc_info.value.detail == expected_failure, \ 'input value: {}'.format(repr(input_value)) def test_outputs(self, *args): for output_value, expected_output in get_items(self.outputs): assert self.field.to_representation(output_value) == expected_output, \ 'output value: {}'.format(repr(output_value)) # Boolean types... class TestBooleanField(FieldValues): """ Valid and invalid values for `BooleanField`. """ valid_inputs = { 'True': True, 'TRUE': True, 'tRuE': True, 't': True, 'T': True, 'true': True, 'on': True, 'ON': True, 'oN': True, 'False': False, 'FALSE': False, 'fALse': False, 'f': False, 'F': False, 'false': False, 'off': False, 'OFF': False, 'oFf': False, '1': True, '0': False, 1: True, 0: False, True: True, False: False, } invalid_inputs = { 'foo': ['Must be a valid boolean.'], None: ['This field may not be null.'] } outputs = { 'True': True, 'TRUE': True, 'tRuE': True, 't': True, 'T': True, 'true': True, 'on': True, 'ON': True, 'oN': True, 'False': False, 'FALSE': False, 'fALse': False, 'f': False, 'F': False, 'false': False, 'off': False, 'OFF': False, 'oFf': False, '1': True, '0': False, 1: True, 0: False, True: True, False: False, 'other': True } field = serializers.BooleanField() def test_disallow_unhashable_collection_types(self): inputs = ( [], {}, ) field = self.field for input_value in inputs: with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation(input_value) expected = ['Must be a valid boolean.'] assert exc_info.value.detail == expected class TestNullableBooleanField(TestBooleanField): """ Valid and invalid values for `BooleanField` when `allow_null=True`. """ valid_inputs = { 'true': True, 'false': False, 'null': None, True: True, False: False, None: None } invalid_inputs = { 'foo': ['Must be a valid boolean.'], } outputs = { 'true': True, 'false': False, 'null': None, True: True, False: False, None: None, 'other': True } field = serializers.BooleanField(allow_null=True) # String types... class TestCharField(FieldValues): """ Valid and invalid values for `CharField`. """ valid_inputs = { 1: '1', 'abc': 'abc' } invalid_inputs = { (): ['Not a valid string.'], True: ['Not a valid string.'], '': ['This field may not be blank.'] } outputs = { 1: '1', 'abc': 'abc' } field = serializers.CharField() def test_trim_whitespace_default(self): field = serializers.CharField() assert field.to_internal_value(' abc ') == 'abc' def test_trim_whitespace_disabled(self): field = serializers.CharField(trim_whitespace=False) assert field.to_internal_value(' abc ') == ' abc ' def test_disallow_blank_with_trim_whitespace(self): field = serializers.CharField(allow_blank=False, trim_whitespace=True) with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation(' ') assert exc_info.value.detail == ['This field may not be blank.'] def test_null_bytes(self): field = serializers.CharField() for value in ('\0', 'foo\0', '\0foo', 'foo\0foo'): with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation(value) assert exc_info.value.detail == [ 'Null characters are not allowed.' ] def test_surrogate_characters(self): field = serializers.CharField() for code_point, expected_message in ( (0xD800, 'Surrogate characters are not allowed: U+D800.'), (0xDFFF, 'Surrogate characters are not allowed: U+DFFF.'), ): with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation(chr(code_point)) assert exc_info.value.detail[0].code == 'surrogate_characters_not_allowed' assert str(exc_info.value.detail[0]) == expected_message for code_point in (0xD800 - 1, 0xDFFF + 1): field.run_validation(chr(code_point)) def test_iterable_validators(self): """ Ensure `validators` parameter is compatible with reasonable iterables. """ value = 'example' for validators in ([], (), set()): field = serializers.CharField(validators=validators) field.run_validation(value) def raise_exception(value): raise exceptions.ValidationError('Raised error') for validators in ([raise_exception], (raise_exception,), {raise_exception}): field = serializers.CharField(validators=validators) with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation(value) assert exc_info.value.detail == ['Raised error'] class TestEmailField(FieldValues): """ Valid and invalid values for `EmailField`. """ valid_inputs = { 'example@example.com': 'example@example.com', ' example@example.com ': 'example@example.com', } invalid_inputs = { 'examplecom': ['Enter a valid email address.'] } outputs = {} field = serializers.EmailField() class TestRegexField(FieldValues): """ Valid and invalid values for `RegexField`. """ valid_inputs = { 'a9': 'a9', } invalid_inputs = { 'A9': ["This value does not match the required pattern."] } outputs = {} field = serializers.RegexField(regex='[a-z][0-9]') class TestiCompiledRegexField(FieldValues): """ Valid and invalid values for `RegexField`. """ valid_inputs = { 'a9': 'a9', } invalid_inputs = { 'A9': ["This value does not match the required pattern."] } outputs = {} field = serializers.RegexField(regex=re.compile('[a-z][0-9]')) class TestSlugField(FieldValues): """ Valid and invalid values for `SlugField`. """ valid_inputs = { 'slug-99': 'slug-99', } invalid_inputs = { 'slug 99': ['Enter a valid "slug" consisting of letters, numbers, underscores or hyphens.'] } outputs = {} field = serializers.SlugField() def test_allow_unicode_true(self): field = serializers.SlugField(allow_unicode=True) validation_error = False try: field.run_validation('slug-99-\u0420') except serializers.ValidationError: validation_error = True assert not validation_error class TestURLField(FieldValues): """ Valid and invalid values for `URLField`. """ valid_inputs = { 'http://example.com': 'http://example.com', } invalid_inputs = { 'example.com': ['Enter a valid URL.'] } outputs = {} field = serializers.URLField() class TestUUIDField(FieldValues): """ Valid and invalid values for `UUIDField`. """ valid_inputs = { '825d7aeb-05a9-45b5-a5b7-05df87923cda': uuid.UUID('825d7aeb-05a9-45b5-a5b7-05df87923cda'), '825d7aeb05a945b5a5b705df87923cda': uuid.UUID('825d7aeb-05a9-45b5-a5b7-05df87923cda'), 'urn:uuid:213b7d9b-244f-410d-828c-dabce7a2615d': uuid.UUID('213b7d9b-244f-410d-828c-dabce7a2615d'), 284758210125106368185219588917561929842: uuid.UUID('d63a6fb6-88d5-40c7-a91c-9edf73283072') } invalid_inputs = { '825d7aeb-05a9-45b5-a5b7': ['Must be a valid UUID.'], (1, 2, 3): ['Must be a valid UUID.'] } outputs = { uuid.UUID('825d7aeb-05a9-45b5-a5b7-05df87923cda'): '825d7aeb-05a9-45b5-a5b7-05df87923cda' } field = serializers.UUIDField() def _test_format(self, uuid_format, formatted_uuid_0): field = serializers.UUIDField(format=uuid_format) assert field.to_representation(uuid.UUID(int=0)) == formatted_uuid_0 assert field.to_internal_value(formatted_uuid_0) == uuid.UUID(int=0) def test_formats(self): self._test_format('int', 0) self._test_format('hex_verbose', '00000000-0000-0000-0000-000000000000') self._test_format('urn', 'urn:uuid:00000000-0000-0000-0000-000000000000') self._test_format('hex', '0' * 32) class TestIPAddressField(FieldValues): """ Valid and invalid values for `IPAddressField` """ valid_inputs = { '127.0.0.1': '127.0.0.1', '192.168.33.255': '192.168.33.255', '2001:0db8:85a3:0042:1000:8a2e:0370:7334': '2001:db8:85a3:42:1000:8a2e:370:7334', '2001:cdba:0:0:0:0:3257:9652': '2001:cdba::3257:9652', '2001:cdba::3257:9652': '2001:cdba::3257:9652' } invalid_inputs = { '127001': ['Enter a valid IPv4 or IPv6 address.'], '127.122.111.2231': ['Enter a valid IPv4 or IPv6 address.'], '2001:::9652': ['Enter a valid IPv4 or IPv6 address.'], '2001:0db8:85a3:0042:1000:8a2e:0370:73341': ['Enter a valid IPv4 or IPv6 address.'], 1000: ['Enter a valid IPv4 or IPv6 address.'], } outputs = {} field = serializers.IPAddressField() class TestIPv4AddressField(FieldValues): """ Valid and invalid values for `IPAddressField` """ valid_inputs = { '127.0.0.1': '127.0.0.1', '192.168.33.255': '192.168.33.255', } invalid_inputs = { '127001': ['Enter a valid IPv4 address.'], '127.122.111.2231': ['Enter a valid IPv4 address.'], } outputs = {} field = serializers.IPAddressField(protocol='IPv4') class TestIPv6AddressField(FieldValues): """ Valid and invalid values for `IPAddressField` """ valid_inputs = { '2001:0db8:85a3:0042:1000:8a2e:0370:7334': '2001:db8:85a3:42:1000:8a2e:370:7334', '2001:cdba:0:0:0:0:3257:9652': '2001:cdba::3257:9652', '2001:cdba::3257:9652': '2001:cdba::3257:9652' } invalid_inputs = { '2001:::9652': ['Enter a valid IPv4 or IPv6 address.'], '2001:0db8:85a3:0042:1000:8a2e:0370:73341': ['Enter a valid IPv4 or IPv6 address.'], } outputs = {} field = serializers.IPAddressField(protocol='IPv6') class TestFilePathField(FieldValues): """ Valid and invalid values for `FilePathField` """ valid_inputs = { __file__: __file__, } invalid_inputs = { 'wrong_path': ['"wrong_path" is not a valid path choice.'] } outputs = { } field = serializers.FilePathField( path=os.path.abspath(os.path.dirname(__file__)) ) # Number types... class TestIntegerField(FieldValues): """ Valid and invalid values for `IntegerField`. """ valid_inputs = { '1': 1, '0': 0, 1: 1, 0: 0, 1.0: 1, 0.0: 0, '1.0': 1 } invalid_inputs = { 0.5: ['A valid integer is required.'], 'abc': ['A valid integer is required.'], '0.5': ['A valid integer is required.'] } outputs = { '1': 1, '0': 0, 1: 1, 0: 0, 1.0: 1, 0.0: 0 } field = serializers.IntegerField() class TestMinMaxIntegerField(FieldValues): """ Valid and invalid values for `IntegerField` with min and max limits. """ valid_inputs = { '1': 1, '3': 3, 1: 1, 3: 3, } invalid_inputs = { 0: ['Ensure this value is greater than or equal to 1.'], 4: ['Ensure this value is less than or equal to 3.'], '0': ['Ensure this value is greater than or equal to 1.'], '4': ['Ensure this value is less than or equal to 3.'], } outputs = {} field = serializers.IntegerField(min_value=1, max_value=3) class TestFloatField(FieldValues): """ Valid and invalid values for `FloatField`. """ valid_inputs = { '1': 1.0, '0': 0.0, 1: 1.0, 0: 0.0, 1.0: 1.0, 0.0: 0.0, } invalid_inputs = { 'abc': ["A valid number is required."] } outputs = { '1': 1.0, '0': 0.0, 1: 1.0, 0: 0.0, 1.0: 1.0, 0.0: 0.0, } field = serializers.FloatField() class TestMinMaxFloatField(FieldValues): """ Valid and invalid values for `FloatField` with min and max limits. """ valid_inputs = { '1': 1, '3': 3, 1: 1, 3: 3, 1.0: 1.0, 3.0: 3.0, } invalid_inputs = { 0.9: ['Ensure this value is greater than or equal to 1.'], 3.1: ['Ensure this value is less than or equal to 3.'], '0.0': ['Ensure this value is greater than or equal to 1.'], '3.1': ['Ensure this value is less than or equal to 3.'], } outputs = {} field = serializers.FloatField(min_value=1, max_value=3) class TestFloatFieldOverFlowError(TestCase): def test_overflow_error_float_field(self): field = serializers.FloatField() with pytest.raises(serializers.ValidationError) as exec_info: field.to_internal_value(data=math.factorial(171)) assert "Integer value too large to convert to float" in str(exec_info.value.detail) class TestDecimalField(FieldValues): """ Valid and invalid values for `DecimalField`. """ valid_inputs = { '12.3': Decimal('12.3'), '0.1': Decimal('0.1'), 10: Decimal('10'), 0: Decimal('0'), 12.3: Decimal('12.3'), 0.1: Decimal('0.1'), '2E+1': Decimal('20'), } invalid_inputs = ( (None, ["This field may not be null."]), ('', ["A valid number is required."]), (' ', ["A valid number is required."]), ('abc', ["A valid number is required."]), (Decimal('Nan'), ["A valid number is required."]), (Decimal('Snan'), ["A valid number is required."]), (Decimal('Inf'), ["A valid number is required."]), ('12.345', ["Ensure that there are no more than 3 digits in total."]), (200000000000.0, ["Ensure that there are no more than 3 digits in total."]), ('0.01', ["Ensure that there are no more than 1 decimal places."]), (123, ["Ensure that there are no more than 2 digits before the decimal point."]), ('2E+2', ["Ensure that there are no more than 2 digits before the decimal point."]) ) outputs = { '1': '1.0', '0': '0.0', '1.09': '1.1', '0.04': '0.0', 1: '1.0', 0: '0.0', Decimal('1.0'): '1.0', Decimal('0.0'): '0.0', Decimal('1.09'): '1.1', Decimal('0.04'): '0.0' } field = serializers.DecimalField(max_digits=3, decimal_places=1) class TestAllowNullDecimalField(FieldValues): valid_inputs = { None: None, '': None, ' ': None, } invalid_inputs = {} outputs = { None: '', } field = serializers.DecimalField(max_digits=3, decimal_places=1, allow_null=True) class TestAllowNullNoStringCoercionDecimalField(FieldValues): valid_inputs = { None: None, '': None, ' ': None, } invalid_inputs = {} outputs = { None: None, } field = serializers.DecimalField(max_digits=3, decimal_places=1, allow_null=True, coerce_to_string=False) class TestMinMaxDecimalField(FieldValues): """ Valid and invalid values for `DecimalField` with min and max limits. """ valid_inputs = { '10.0': Decimal('10.0'), '20.0': Decimal('20.0'), } invalid_inputs = { '9.9': ['Ensure this value is greater than or equal to 10.'], '20.1': ['Ensure this value is less than or equal to 20.'], } outputs = {} field = serializers.DecimalField( max_digits=3, decimal_places=1, min_value=10, max_value=20 ) def test_warning_when_not_decimal_types(self, caplog): with warnings.catch_warnings(record=True) as w: warnings.simplefilter('always') serializers.DecimalField( max_digits=3, decimal_places=1, min_value=10, max_value=20 ) assert len(w) == 2 assert all(issubclass(i.category, UserWarning) for i in w) assert 'max_value should be a Decimal instance' in str(w[0].message) assert 'min_value should be a Decimal instance' in str(w[1].message) class TestAllowEmptyStrDecimalFieldWithValidators(FieldValues): """ Check that empty string ('', ' ') is acceptable value for the DecimalField if allow_null=True and there are max/min validators """ valid_inputs = { None: None, '': None, ' ': None, ' ': None, 5: Decimal('5'), '0': Decimal('0'), '10': Decimal('10'), } invalid_inputs = { -1: ['Ensure this value is greater than or equal to 0.'], 11: ['Ensure this value is less than or equal to 10.'], } outputs = { None: '', } field = serializers.DecimalField(max_digits=3, decimal_places=1, allow_null=True, min_value=0, max_value=10) class TestNoMaxDigitsDecimalField(FieldValues): field = serializers.DecimalField( max_value=100, min_value=0, decimal_places=2, max_digits=None ) valid_inputs = { '10': Decimal('10.00') } invalid_inputs = {} outputs = {} class TestNoStringCoercionDecimalField(FieldValues): """ Output values for `DecimalField` with `coerce_to_string=False`. """ valid_inputs = {} invalid_inputs = {} outputs = { 1.09: Decimal('1.1'), 0.04: Decimal('0.0'), '1.09': Decimal('1.1'), '0.04': Decimal('0.0'), Decimal('1.09'): Decimal('1.1'), Decimal('0.04'): Decimal('0.0'), } field = serializers.DecimalField( max_digits=3, decimal_places=1, coerce_to_string=False ) class TestLocalizedDecimalField(TestCase): @override_settings(LANGUAGE_CODE='pl') def test_to_internal_value(self): field = serializers.DecimalField(max_digits=2, decimal_places=1, localize=True) assert field.to_internal_value('1,1') == Decimal('1.1') @override_settings(LANGUAGE_CODE='pl') def test_to_representation(self): field = serializers.DecimalField(max_digits=2, decimal_places=1, localize=True) assert field.to_representation(Decimal('1.1')) == '1,1' def test_localize_forces_coerce_to_string(self): field = serializers.DecimalField(max_digits=2, decimal_places=1, coerce_to_string=False, localize=True) assert isinstance(field.to_representation(Decimal('1.1')), str) class TestQuantizedValueForDecimal(TestCase): def test_int_quantized_value_for_decimal(self): field = serializers.DecimalField(max_digits=4, decimal_places=2) value = field.to_internal_value(12).as_tuple() expected_digit_tuple = (0, (1, 2, 0, 0), -2) assert value == expected_digit_tuple def test_string_quantized_value_for_decimal(self): field = serializers.DecimalField(max_digits=4, decimal_places=2) value = field.to_internal_value('12').as_tuple() expected_digit_tuple = (0, (1, 2, 0, 0), -2) assert value == expected_digit_tuple def test_part_precision_string_quantized_value_for_decimal(self): field = serializers.DecimalField(max_digits=4, decimal_places=2) value = field.to_internal_value('12.0').as_tuple() expected_digit_tuple = (0, (1, 2, 0, 0), -2) assert value == expected_digit_tuple class TestNormalizedOutputValueDecimalField(TestCase): """ Test that we get the expected behavior of on DecimalField when normalize=True """ def test_normalize_output(self): field = serializers.DecimalField(max_digits=4, decimal_places=3, normalize_output=True) output = field.to_representation(Decimal('1.000')) assert output == '1' def test_non_normalize_output(self): field = serializers.DecimalField(max_digits=4, decimal_places=3, normalize_output=False) output = field.to_representation(Decimal('1.000')) assert output == '1.000' def test_normalize_coeherce_to_string(self): field = serializers.DecimalField(max_digits=4, decimal_places=3, normalize_output=True, coerce_to_string=False) output = field.to_representation(Decimal('1.000')) assert output == Decimal('1') class TestNoDecimalPlaces(FieldValues): valid_inputs = { '0.12345': Decimal('0.12345'), } invalid_inputs = { '0.1234567': ['Ensure that there are no more than 6 digits in total.'] } outputs = { '1.2345': '1.2345', '0': '0', '1.1': '1.1', } field = serializers.DecimalField(max_digits=6, decimal_places=None) class TestRoundingDecimalField(TestCase): def test_valid_rounding(self): field = serializers.DecimalField(max_digits=4, decimal_places=2, rounding=ROUND_UP) assert field.to_representation(Decimal('1.234')) == '1.24' field = serializers.DecimalField(max_digits=4, decimal_places=2, rounding=ROUND_DOWN) assert field.to_representation(Decimal('1.234')) == '1.23' def test_invalid_rounding(self): with pytest.raises(AssertionError) as excinfo: serializers.DecimalField(max_digits=1, decimal_places=1, rounding='ROUND_UNKNOWN') assert 'Invalid rounding option' in str(excinfo.value) # Date & time serializers... class TestDateField(FieldValues): """ Valid and invalid values for `DateField`. """ valid_inputs = { '2001-01-01': datetime.date(2001, 1, 1), datetime.date(2001, 1, 1): datetime.date(2001, 1, 1), } invalid_inputs = { 'abc': ['Date has wrong format. Use one of these formats instead: YYYY-MM-DD.'], '2001-99-99': ['Date has wrong format. Use one of these formats instead: YYYY-MM-DD.'], '2001-01': ['Date has wrong format. Use one of these formats instead: YYYY-MM-DD.'], '2001': ['Date has wrong format. Use one of these formats instead: YYYY-MM-DD.'], datetime.datetime(2001, 1, 1, 12, 00): ['Expected a date but got a datetime.'], } outputs = { datetime.date(2001, 1, 1): '2001-01-01', '2001-01-01': '2001-01-01', str('2016-01-10'): '2016-01-10', None: None, '': None, } field = serializers.DateField() class TestCustomInputFormatDateField(FieldValues): """ Valid and invalid values for `DateField` with a custom input format. """ valid_inputs = { '1 Jan 2001': datetime.date(2001, 1, 1), } invalid_inputs = { '2001-01-01': ['Date has wrong format. Use one of these formats instead: DD [Jan-Dec] YYYY.'] } outputs = {} field = serializers.DateField(input_formats=['%d %b %Y']) class TestCustomOutputFormatDateField(FieldValues): """ Values for `DateField` with a custom output format. """ valid_inputs = {} invalid_inputs = {} outputs = { datetime.date(2001, 1, 1): '01 Jan 2001' } field = serializers.DateField(format='%d %b %Y') class TestNoOutputFormatDateField(FieldValues): """ Values for `DateField` with no output format. """ valid_inputs = {} invalid_inputs = {} outputs = { datetime.date(2001, 1, 1): datetime.date(2001, 1, 1) } field = serializers.DateField(format=None) class TestDateTimeField(FieldValues): """ Valid and invalid values for `DateTimeField`. """ valid_inputs = { '2001-01-01 13:00': datetime.datetime(2001, 1, 1, 13, 00, tzinfo=utc), '2001-01-01T13:00': datetime.datetime(2001, 1, 1, 13, 00, tzinfo=utc), '2001-01-01T13:00Z': datetime.datetime(2001, 1, 1, 13, 00, tzinfo=utc), datetime.datetime(2001, 1, 1, 13, 00): datetime.datetime(2001, 1, 1, 13, 00, tzinfo=utc), datetime.datetime(2001, 1, 1, 13, 00, tzinfo=utc): datetime.datetime(2001, 1, 1, 13, 00, tzinfo=utc), } invalid_inputs = { 'abc': ['Datetime has wrong format. Use one of these formats instead: YYYY-MM-DDThh:mm[:ss[.uuuuuu]][+HH:MM|-HH:MM|Z].'], '2001-99-99T99:00': ['Datetime has wrong format. Use one of these formats instead: YYYY-MM-DDThh:mm[:ss[.uuuuuu]][+HH:MM|-HH:MM|Z].'], '2018-08-16 22:00-24:00': ['Datetime has wrong format. Use one of these formats instead: YYYY-MM-DDThh:mm[:ss[.uuuuuu]][+HH:MM|-HH:MM|Z].'], datetime.date(2001, 1, 1): ['Expected a datetime but got a date.'], '9999-12-31T21:59:59.99990-03:00': ['Datetime value out of range.'], } outputs = { datetime.datetime(2001, 1, 1, 13, 00): '2001-01-01T13:00:00Z', datetime.datetime(2001, 1, 1, 13, 00, tzinfo=utc): '2001-01-01T13:00:00Z', '2001-01-01T00:00:00': '2001-01-01T00:00:00', str('2016-01-10T00:00:00'): '2016-01-10T00:00:00', None: None, '': None, } field = serializers.DateTimeField(default_timezone=utc) class TestCustomInputFormatDateTimeField(FieldValues): """ Valid and invalid values for `DateTimeField` with a custom input format. """ valid_inputs = { '1:35pm, 1 Jan 2001': datetime.datetime(2001, 1, 1, 13, 35, tzinfo=utc), } invalid_inputs = { '2001-01-01T20:50': ['Datetime has wrong format. Use one of these formats instead: hh:mm[AM|PM], DD [Jan-Dec] YYYY.'] } outputs = {} field = serializers.DateTimeField(default_timezone=utc, input_formats=['%I:%M%p, %d %b %Y']) class TestCustomOutputFormatDateTimeField(FieldValues): """ Values for `DateTimeField` with a custom output format. """ valid_inputs = {} invalid_inputs = {} outputs = { datetime.datetime(2001, 1, 1, 13, 00): '01:00PM, 01 Jan 2001', } field = serializers.DateTimeField(format='%I:%M%p, %d %b %Y') class TestNoOutputFormatDateTimeField(FieldValues): """ Values for `DateTimeField` with no output format. """ valid_inputs = {} invalid_inputs = {} outputs = { datetime.datetime(2001, 1, 1, 13, 00): datetime.datetime(2001, 1, 1, 13, 00), } field = serializers.DateTimeField(format=None) @override_settings(TIME_ZONE='UTC', USE_TZ=False) class TestNaiveDateTimeField(FieldValues, TestCase): """ Valid and invalid values for `DateTimeField` with naive datetimes. """ valid_inputs = { datetime.datetime(2001, 1, 1, 13, 00, tzinfo=utc): datetime.datetime(2001, 1, 1, 13, 00), '2001-01-01 13:00': datetime.datetime(2001, 1, 1, 13, 00), } invalid_inputs = {} outputs = { datetime.datetime(2001, 1, 1, 13, 00): '2001-01-01T13:00:00', datetime.datetime(2001, 1, 1, 13, 00, tzinfo=utc): '2001-01-01T13:00:00', } field = serializers.DateTimeField(default_timezone=None) class TestTZWithDateTimeField(FieldValues): """ Valid and invalid values for `DateTimeField` when not using UTC as the timezone. """ @classmethod def setup_class(cls): # use class setup method, as class-level attribute will still be evaluated even if test is skipped kolkata = ZoneInfo('Asia/Kolkata') cls.valid_inputs = { '2016-12-19T10:00:00': datetime.datetime(2016, 12, 19, 10, tzinfo=kolkata), '2016-12-19T10:00:00+05:30': datetime.datetime(2016, 12, 19, 10, tzinfo=kolkata), datetime.datetime(2016, 12, 19, 10): datetime.datetime(2016, 12, 19, 10, tzinfo=kolkata), } cls.invalid_inputs = {} cls.outputs = { datetime.datetime(2016, 12, 19, 10): '2016-12-19T10:00:00+05:30', datetime.datetime(2016, 12, 19, 4, 30, tzinfo=utc): '2016-12-19T10:00:00+05:30', } cls.field = serializers.DateTimeField(default_timezone=kolkata) @override_settings(TIME_ZONE='UTC', USE_TZ=True) class TestDefaultTZDateTimeField(TestCase): """ Test the current/default timezone handling in `DateTimeField`. """ @classmethod def setup_class(cls): cls.field = serializers.DateTimeField() cls.kolkata = ZoneInfo('Asia/Kolkata') def assertUTC(self, tzinfo): """ Check UTC for datetime.timezone, ZoneInfo, and pytz tzinfo instances. """ assert ( tzinfo is utc or (getattr(tzinfo, "key", None) or getattr(tzinfo, "zone", None)) == "UTC" ) def test_default_timezone(self): self.assertUTC(self.field.default_timezone()) def test_current_timezone(self): self.assertUTC(self.field.default_timezone()) activate(self.kolkata) assert self.field.default_timezone() == self.kolkata deactivate() self.assertUTC(self.field.default_timezone()) @override_settings(TIME_ZONE='UTC', USE_TZ=True) class TestCustomTimezoneForDateTimeField(TestCase): @classmethod def setup_class(cls): cls.kolkata = ZoneInfo('Asia/Kolkata') cls.date_format = '%d/%m/%Y %H:%M' def test_should_render_date_time_in_default_timezone(self): field = serializers.DateTimeField(default_timezone=self.kolkata, format=self.date_format) dt = datetime.datetime(2018, 2, 8, 14, 15, 16, tzinfo=ZoneInfo("UTC")) with override(self.kolkata): rendered_date = field.to_representation(dt) rendered_date_in_timezone = dt.astimezone(self.kolkata).strftime(self.date_format) assert rendered_date == rendered_date_in_timezone @pytest.mark.skipif(pytz is None, reason="Django 5.0 has removed pytz; this test should eventually be able to get removed.") class TestPytzNaiveDayLightSavingTimeTimeZoneDateTimeField(FieldValues): """ Invalid values for `DateTimeField` with datetime in DST shift (non-existing or ambiguous) and timezone with DST. Timezone America/New_York has DST shift from 2017-03-12T02:00:00 to 2017-03-12T03:00:00 and from 2017-11-05T02:00:00 to 2017-11-05T01:00:00 in 2017. """ valid_inputs = {} invalid_inputs = { '2017-03-12T02:30:00': ['Invalid datetime for the timezone "America/New_York".'], '2017-11-05T01:30:00': ['Invalid datetime for the timezone "America/New_York".'] } outputs = {} if pytz: class MockTimezone(pytz.BaseTzInfo): @staticmethod def localize(value, is_dst): raise pytz.InvalidTimeError() def __str__(self): return 'America/New_York' field = serializers.DateTimeField(default_timezone=MockTimezone()) @patch('rest_framework.utils.timezone.datetime_ambiguous', return_value=True) class TestNaiveDayLightSavingTimeTimeZoneDateTimeField(FieldValues): """ Invalid values for `DateTimeField` with datetime in DST shift (non-existing or ambiguous) and timezone with DST. Timezone America/New_York has DST shift from 2017-03-12T02:00:00 to 2017-03-12T03:00:00 and from 2017-11-05T02:00:00 to 2017-11-05T01:00:00 in 2017. """ valid_inputs = {} invalid_inputs = { '2017-03-12T02:30:00': ['Invalid datetime for the timezone "America/New_York".'], '2017-11-05T01:30:00': ['Invalid datetime for the timezone "America/New_York".'] } outputs = {} class MockZoneInfoTimezone(datetime.tzinfo): def __str__(self): return 'America/New_York' field = serializers.DateTimeField(default_timezone=MockZoneInfoTimezone()) class TestTimeField(FieldValues): """ Valid and invalid values for `TimeField`. """ valid_inputs = { '13:00': datetime.time(13, 00), datetime.time(13, 00): datetime.time(13, 00), } invalid_inputs = { 'abc': ['Time has wrong format. Use one of these formats instead: hh:mm[:ss[.uuuuuu]].'], '99:99': ['Time has wrong format. Use one of these formats instead: hh:mm[:ss[.uuuuuu]].'], } outputs = { datetime.time(13, 0): '13:00:00', datetime.time(0, 0): '00:00:00', '00:00:00': '00:00:00', None: None, '': None, } field = serializers.TimeField() class TestCustomInputFormatTimeField(FieldValues): """ Valid and invalid values for `TimeField` with a custom input format. """ valid_inputs = { '1:00pm': datetime.time(13, 00), } invalid_inputs = { '13:00': ['Time has wrong format. Use one of these formats instead: hh:mm[AM|PM].'], } outputs = {} field = serializers.TimeField(input_formats=['%I:%M%p']) class TestCustomOutputFormatTimeField(FieldValues): """ Values for `TimeField` with a custom output format. """ valid_inputs = {} invalid_inputs = {} outputs = { datetime.time(13, 00): '01:00PM' } field = serializers.TimeField(format='%I:%M%p') class TestNoOutputFormatTimeField(FieldValues): """ Values for `TimeField` with a no output format. """ valid_inputs = {} invalid_inputs = {} outputs = { datetime.time(13, 00): datetime.time(13, 00) } field = serializers.TimeField(format=None) class TestMinMaxDurationField(FieldValues): """ Valid and invalid values for `DurationField` with min and max limits. """ valid_inputs = { '3 08:32:01.000123': datetime.timedelta(days=3, hours=8, minutes=32, seconds=1, microseconds=123), 86401: datetime.timedelta(days=1, seconds=1), } invalid_inputs = { 3600: ['Ensure this value is greater than or equal to 1 day, 0:00:00.'], '4 08:32:01.000123': ['Ensure this value is less than or equal to 4 days, 0:00:00.'], '3600': ['Ensure this value is greater than or equal to 1 day, 0:00:00.'], } outputs = {} field = serializers.DurationField(min_value=datetime.timedelta(days=1), max_value=datetime.timedelta(days=4)) class TestDurationField(FieldValues): """ Valid and invalid values for `DurationField`. """ valid_inputs = { '13': datetime.timedelta(seconds=13), '3 08:32:01.000123': datetime.timedelta(days=3, hours=8, minutes=32, seconds=1, microseconds=123), '08:01': datetime.timedelta(minutes=8, seconds=1), datetime.timedelta(days=3, hours=8, minutes=32, seconds=1, microseconds=123): datetime.timedelta(days=3, hours=8, minutes=32, seconds=1, microseconds=123), 3600: datetime.timedelta(hours=1), '-999999999 00': datetime.timedelta(days=-999999999), '999999999 00': datetime.timedelta(days=999999999), } invalid_inputs = { 'abc': ['Duration has wrong format. Use one of these formats instead: [DD] [HH:[MM:]]ss[.uuuuuu].'], '3 08:32 01.123': ['Duration has wrong format. Use one of these formats instead: [DD] [HH:[MM:]]ss[.uuuuuu].'], '-1000000000 00': ['The number of days must be between -999999999 and 999999999.'], '1000000000 00': ['The number of days must be between -999999999 and 999999999.'], } outputs = { datetime.timedelta(days=3, hours=8, minutes=32, seconds=1, microseconds=123): '3 08:32:01.000123', } field = serializers.DurationField() # Choice types... class TestChoiceField(FieldValues): """ Valid and invalid values for `ChoiceField`. """ valid_inputs = { 'poor': 'poor', 'medium': 'medium', 'good': 'good', } invalid_inputs = { 'amazing': ['"amazing" is not a valid choice.'] } outputs = { 'good': 'good', '': '', 'amazing': 'amazing', } field = serializers.ChoiceField( choices=[ ('poor', 'Poor quality'), ('medium', 'Medium quality'), ('good', 'Good quality'), ] ) def test_allow_blank(self): """ If `allow_blank=True` then '' is a valid input. """ field = serializers.ChoiceField( allow_blank=True, choices=[ ('poor', 'Poor quality'), ('medium', 'Medium quality'), ('good', 'Good quality'), ] ) output = field.run_validation('') assert output == '' def test_allow_null(self): """ If `allow_null=True` then '' on HTML forms is treated as None. """ field = serializers.ChoiceField( allow_null=True, choices=[ 1, 2, 3 ] ) field.field_name = 'example' value = field.get_value(QueryDict('example=')) assert value is None output = field.run_validation(None) assert output is None def test_iter_options(self): """ iter_options() should return a list of options and option groups. """ field = serializers.ChoiceField( choices=[ ('Numbers', ['integer', 'float']), ('Strings', ['text', 'email', 'url']), 'boolean' ] ) items = list(field.iter_options()) assert items[0].start_option_group assert items[0].label == 'Numbers' assert items[1].value == 'integer' assert items[2].value == 'float' assert items[3].end_option_group assert items[4].start_option_group assert items[4].label == 'Strings' assert items[5].value == 'text' assert items[6].value == 'email' assert items[7].value == 'url' assert items[8].end_option_group assert items[9].value == 'boolean' def test_edit_choices(self): field = serializers.ChoiceField( allow_null=True, choices=[ 1, 2, ] ) field.choices = [1] assert field.run_validation(1) == 1 with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation(2) assert exc_info.value.detail == ['"2" is not a valid choice.'] def test_enum_integer_choices(self): from enum import IntEnum class ChoiceCase(IntEnum): first = auto() second = auto() # Enum validate choices = [ (ChoiceCase.first, "1"), (ChoiceCase.second, "2") ] field = serializers.ChoiceField(choices=choices) assert field.run_validation(1) == 1 assert field.run_validation(ChoiceCase.first) == 1 assert field.run_validation("1") == 1 # Enum.value validate choices = [ (ChoiceCase.first.value, "1"), (ChoiceCase.second.value, "2") ] field = serializers.ChoiceField(choices=choices) assert field.run_validation(1) == 1 assert field.run_validation(ChoiceCase.first) == 1 assert field.run_validation("1") == 1 def test_integer_choices(self): class ChoiceCase(IntegerChoices): first = auto() second = auto() # Enum validate choices = [ (ChoiceCase.first, "1"), (ChoiceCase.second, "2") ] field = serializers.ChoiceField(choices=choices) assert field.run_validation(1) == 1 assert field.run_validation(ChoiceCase.first) == 1 assert field.run_validation("1") == 1 choices = [ (ChoiceCase.first.value, "1"), (ChoiceCase.second.value, "2") ] field = serializers.ChoiceField(choices=choices) assert field.run_validation(1) == 1 assert field.run_validation(ChoiceCase.first) == 1 assert field.run_validation("1") == 1 def test_text_choices(self): class ChoiceCase(TextChoices): first = auto() second = auto() # Enum validate choices = [ (ChoiceCase.first, "first"), (ChoiceCase.second, "second") ] field = serializers.ChoiceField(choices=choices) assert field.run_validation(ChoiceCase.first) == "first" assert field.run_validation("first") == "first" choices = [ (ChoiceCase.first.value, "first"), (ChoiceCase.second.value, "second") ] field = serializers.ChoiceField(choices=choices) assert field.run_validation(ChoiceCase.first) == "first" assert field.run_validation("first") == "first" class TestChoiceFieldWithType(FieldValues): """ Valid and invalid values for a `Choice` field that uses an integer type, instead of a char type. """ valid_inputs = { '1': 1, 3: 3, } invalid_inputs = { 5: ['"5" is not a valid choice.'], 'abc': ['"abc" is not a valid choice.'] } outputs = { '1': 1, 1: 1 } field = serializers.ChoiceField( choices=[ (1, 'Poor quality'), (2, 'Medium quality'), (3, 'Good quality'), ] ) class TestChoiceFieldWithListChoices(FieldValues): """ Valid and invalid values for a `Choice` field that uses a flat list for the choices, rather than a list of pairs of (`value`, `description`). """ valid_inputs = { 'poor': 'poor', 'medium': 'medium', 'good': 'good', } invalid_inputs = { 'awful': ['"awful" is not a valid choice.'] } outputs = { 'good': 'good' } field = serializers.ChoiceField(choices=('poor', 'medium', 'good')) class TestChoiceFieldWithGroupedChoices(FieldValues): """ Valid and invalid values for a `Choice` field that uses a grouped list for the choices, rather than a list of pairs of (`value`, `description`). """ valid_inputs = { 'poor': 'poor', 'medium': 'medium', 'good': 'good', } invalid_inputs = { 'awful': ['"awful" is not a valid choice.'] } outputs = { 'good': 'good' } field = serializers.ChoiceField( choices=[ ( 'Category', ( ('poor', 'Poor quality'), ('medium', 'Medium quality'), ), ), ('good', 'Good quality'), ] ) class TestChoiceFieldWithMixedChoices(FieldValues): """ Valid and invalid values for a `Choice` field that uses a single paired or grouped. """ valid_inputs = { 'poor': 'poor', 'medium': 'medium', 'good': 'good', } invalid_inputs = { 'awful': ['"awful" is not a valid choice.'] } outputs = { 'good': 'good' } field = serializers.ChoiceField( choices=[ ( 'Category', ( ('poor', 'Poor quality'), ), ), 'medium', ('good', 'Good quality'), ] ) class TestMultipleChoiceField(FieldValues): """ Valid and invalid values for `MultipleChoiceField`. """ valid_inputs = { (): set(), ('aircon',): {'aircon'}, ('aircon', 'manual'): {'aircon', 'manual'}, } invalid_inputs = { 'abc': ['Expected a list of items but got type "str".'], ('aircon', 'incorrect'): ['"incorrect" is not a valid choice.'] } outputs = [ (['aircon', 'manual', 'incorrect'], {'aircon', 'manual', 'incorrect'}) ] field = serializers.MultipleChoiceField( choices=[ ('aircon', 'AirCon'), ('manual', 'Manual drive'), ('diesel', 'Diesel'), ] ) def test_against_partial_and_full_updates(self): field = serializers.MultipleChoiceField(choices=(('a', 'a'), ('b', 'b'))) field.partial = False assert field.get_value(QueryDict('')) == [] field.partial = True assert field.get_value(QueryDict('')) == rest_framework.fields.empty class TestEmptyMultipleChoiceField(FieldValues): """ Invalid values for `MultipleChoiceField(allow_empty=False)`. """ valid_inputs = { } invalid_inputs = ( ([], ['This selection may not be empty.']), ) outputs = [ ] field = serializers.MultipleChoiceField( choices=[ ('consistency', 'Consistency'), ('availability', 'Availability'), ('partition', 'Partition tolerance'), ], allow_empty=False ) # File serializers... class MockFile: def __init__(self, name='', size=0, url=''): self.name = name self.size = size self.url = url def __eq__(self, other): return ( isinstance(other, MockFile) and self.name == other.name and self.size == other.size and self.url == other.url ) class TestFileField(FieldValues): """ Values for `FileField`. """ valid_inputs = [ (MockFile(name='example', size=10), MockFile(name='example', size=10)) ] invalid_inputs = [ ('invalid', ['The submitted data was not a file. Check the encoding type on the form.']), (MockFile(name='example.txt', size=0), ['The submitted file is empty.']), (MockFile(name='', size=10), ['No filename could be determined.']), (MockFile(name='x' * 100, size=10), ['Ensure this filename has at most 10 characters (it has 100).']) ] outputs = [ (MockFile(name='example.txt', url='/example.txt'), '/example.txt'), ('', None) ] field = serializers.FileField(max_length=10) class TestFieldFieldWithName(FieldValues): """ Values for `FileField` with a filename output instead of URLs. """ valid_inputs = {} invalid_inputs = {} outputs = [ (MockFile(name='example.txt', url='/example.txt'), 'example.txt') ] field = serializers.FileField(use_url=False) def ext_validator(value): if not value.name.endswith('.png'): raise serializers.ValidationError('File extension is not allowed. Allowed extensions is png.') # Stub out mock Django `forms.ImageField` class so we don't *actually* # call into it's regular validation, or require PIL for testing. class PassImageValidation(DjangoImageField): default_validators = [ext_validator] def to_python(self, value): return value class FailImageValidation(PassImageValidation): def to_python(self, value): if value.name == 'badimage.png': raise serializers.ValidationError(self.error_messages['invalid_image']) return value class TestInvalidImageField(FieldValues): """ Values for an invalid `ImageField`. """ valid_inputs = {} invalid_inputs = [ (MockFile(name='badimage.png', size=10), ['Upload a valid image. The file you uploaded was either not an image or a corrupted image.']), (MockFile(name='goodimage.html', size=10), ['File extension is not allowed. Allowed extensions is png.']) ] outputs = {} field = serializers.ImageField(_DjangoImageField=FailImageValidation) class TestValidImageField(FieldValues): """ Values for an valid `ImageField`. """ valid_inputs = [ (MockFile(name='example.png', size=10), MockFile(name='example.png', size=10)) ] invalid_inputs = {} outputs = {} field = serializers.ImageField(_DjangoImageField=PassImageValidation) # Composite serializers... class TestListField(FieldValues): """ Values for `ListField` with IntegerField as child. """ valid_inputs = [ ([1, 2, 3], [1, 2, 3]), (['1', '2', '3'], [1, 2, 3]), ([], []) ] invalid_inputs = [ ('not a list', ['Expected a list of items but got type "str".']), ([1, 2, 'error', 'error'], {2: ['A valid integer is required.'], 3: ['A valid integer is required.']}), ({'one': 'two'}, ['Expected a list of items but got type "dict".']) ] outputs = [ ([1, 2, 3], [1, 2, 3]), (['1', '2', '3'], [1, 2, 3]) ] field = serializers.ListField(child=serializers.IntegerField()) def test_no_source_on_child(self): with pytest.raises(AssertionError) as exc_info: serializers.ListField(child=serializers.IntegerField(source='other')) assert str(exc_info.value) == ( "The `source` argument is not meaningful when applied to a `child=` field. " "Remove `source=` from the field declaration." ) def test_collection_types_are_invalid_input(self): field = serializers.ListField(child=serializers.CharField()) input_value = ({'one': 'two'}) with pytest.raises(serializers.ValidationError) as exc_info: field.to_internal_value(input_value) assert exc_info.value.detail == ['Expected a list of items but got type "dict".'] def test_constructor_misuse_raises(self): # Test that `ListField` can only be instantiated with keyword arguments with pytest.raises(TypeError): serializers.ListField(serializers.CharField()) class TestNestedListField(FieldValues): """ Values for nested `ListField` with IntegerField as child. """ valid_inputs = [ ([[1, 2], [3]], [[1, 2], [3]]), ([[]], [[]]) ] invalid_inputs = [ (['not a list'], {0: ['Expected a list of items but got type "str".']}), ([[1, 2, 'error'], ['error']], {0: {2: ['A valid integer is required.']}, 1: {0: ['A valid integer is required.']}}), ([{'one': 'two'}], {0: ['Expected a list of items but got type "dict".']}) ] outputs = [ ([[1, 2], [3]], [[1, 2], [3]]), ] field = serializers.ListField(child=serializers.ListField(child=serializers.IntegerField())) class TestListFieldWithDjangoValidationErrors(FieldValues, TestCase): """ Values for `ListField` with UUIDField as child (since UUIDField can throw ValidationErrors from Django). The idea is to test that Django's ValidationErrors raised from Django internals are caught and serializers in a way that is structurally consistent with DRF's ValidationErrors. """ valid_inputs = [] invalid_inputs = [ ( ['not-a-valid-uuid', 'd7364368-d1b3-4455-aaa3-56439b460ca2', 'some-other-invalid-uuid'], { 0: [exceptions.ErrorDetail(string='“not-a-valid-uuid” is not a valid UUID.', code='invalid')], 1: [ exceptions.ErrorDetail( string='Invalid pk "d7364368-d1b3-4455-aaa3-56439b460ca2" - object does not exist.', code='does_not_exist', ) ], 2: [exceptions.ErrorDetail(string='“some-other-invalid-uuid” is not a valid UUID.', code='invalid')], }, ), ] outputs = {} field = serializers.ListField(child=serializers.PrimaryKeyRelatedField(queryset=UUIDForeignKeyTarget.objects.all())) class TestEmptyListField(FieldValues): """ Values for `ListField` with allow_empty=False flag. """ valid_inputs = {} invalid_inputs = [ ([], ['This list may not be empty.']) ] outputs = {} field = serializers.ListField(child=serializers.IntegerField(), allow_empty=False) class TestListFieldLengthLimit(FieldValues): valid_inputs = () invalid_inputs = [ ((0, 1), ['Ensure this field has at least 3 elements.']), ((0, 1, 2, 3, 4, 5), ['Ensure this field has no more than 4 elements.']), ] outputs = () field = serializers.ListField(child=serializers.IntegerField(), min_length=3, max_length=4) class TestUnvalidatedListField(FieldValues): """ Values for `ListField` with no `child` argument. """ valid_inputs = [ ([1, '2', True, [4, 5, 6]], [1, '2', True, [4, 5, 6]]), ] invalid_inputs = [ ('not a list', ['Expected a list of items but got type "str".']), ] outputs = [ ([1, '2', True, [4, 5, 6]], [1, '2', True, [4, 5, 6]]), ] field = serializers.ListField() class TestDictField(FieldValues): """ Values for `DictField` with CharField as child. """ valid_inputs = [ ({'a': 1, 'b': '2', 3: 3}, {'a': '1', 'b': '2', '3': '3'}), ({}, {}), ] invalid_inputs = [ ({'a': 1, 'b': None, 'c': None}, {'b': ['This field may not be null.'], 'c': ['This field may not be null.']}), ('not a dict', ['Expected a dictionary of items but got type "str".']), ] outputs = [ ({'a': 1, 'b': '2', 3: 3}, {'a': '1', 'b': '2', '3': '3'}), ] field = serializers.DictField(child=serializers.CharField()) def test_no_source_on_child(self): with pytest.raises(AssertionError) as exc_info: serializers.DictField(child=serializers.CharField(source='other')) assert str(exc_info.value) == ( "The `source` argument is not meaningful when applied to a `child=` field. " "Remove `source=` from the field declaration." ) def test_allow_null(self): """ If `allow_null=True` then `None` is a valid input. """ field = serializers.DictField(allow_null=True) output = field.run_validation(None) assert output is None def test_allow_empty_disallowed(self): """ If allow_empty is False then an empty dict is not a valid input. """ field = serializers.DictField(allow_empty=False) with pytest.raises(serializers.ValidationError) as exc_info: field.run_validation({}) assert exc_info.value.detail == ['This dictionary may not be empty.'] class TestNestedDictField(FieldValues): """ Values for nested `DictField` with CharField as child. """ valid_inputs = [ ({0: {'a': 1, 'b': '2'}, 1: {3: 3}}, {'0': {'a': '1', 'b': '2'}, '1': {'3': '3'}}), ] invalid_inputs = [ ({0: {'a': 1, 'b': None}, 1: {'c': None}}, {'0': {'b': ['This field may not be null.']}, '1': {'c': ['This field may not be null.']}}), ({0: 'not a dict'}, {'0': ['Expected a dictionary of items but got type "str".']}), ] outputs = [ ({0: {'a': 1, 'b': '2'}, 1: {3: 3}}, {'0': {'a': '1', 'b': '2'}, '1': {'3': '3'}}), ] field = serializers.DictField(child=serializers.DictField(child=serializers.CharField())) class TestDictFieldWithNullChild(FieldValues): """ Values for `DictField` with allow_null CharField as child. """ valid_inputs = [ ({'a': None, 'b': '2', 3: 3}, {'a': None, 'b': '2', '3': '3'}), ] invalid_inputs = [ ] outputs = [ ({'a': None, 'b': '2', 3: 3}, {'a': None, 'b': '2', '3': '3'}), ] field = serializers.DictField(child=serializers.CharField(allow_null=True)) class TestUnvalidatedDictField(FieldValues): """ Values for `DictField` with no `child` argument. """ valid_inputs = [ ({'a': 1, 'b': [4, 5, 6], 1: 123}, {'a': 1, 'b': [4, 5, 6], '1': 123}), ] invalid_inputs = [ ('not a dict', ['Expected a dictionary of items but got type "str".']), ] outputs = [ ({'a': 1, 'b': [4, 5, 6]}, {'a': 1, 'b': [4, 5, 6]}), ] field = serializers.DictField() class TestHStoreField(FieldValues): """ Values for `ListField` with CharField as child. """ valid_inputs = [ ({'a': 1, 'b': '2', 3: 3}, {'a': '1', 'b': '2', '3': '3'}), ({'a': 1, 'b': None}, {'a': '1', 'b': None}), ] invalid_inputs = [ ('not a dict', ['Expected a dictionary of items but got type "str".']), ] outputs = [ ({'a': 1, 'b': '2', 3: 3}, {'a': '1', 'b': '2', '3': '3'}), ] field = serializers.HStoreField() def test_child_is_charfield(self): with pytest.raises(AssertionError) as exc_info: serializers.HStoreField(child=serializers.IntegerField()) assert str(exc_info.value) == ( "The `child` argument must be an instance of `CharField`, " "as the hstore extension stores values as strings." ) def test_no_source_on_child(self): with pytest.raises(AssertionError) as exc_info: serializers.HStoreField(child=serializers.CharField(source='other')) assert str(exc_info.value) == ( "The `source` argument is not meaningful when applied to a `child=` field. " "Remove `source=` from the field declaration." ) def test_allow_null(self): """ If `allow_null=True` then `None` is a valid input. """ field = serializers.HStoreField(allow_null=True) output = field.run_validation(None) assert output is None class TestJSONField(FieldValues): """ Values for `JSONField`. """ valid_inputs = [ ({ 'a': 1, 'b': ['some', 'list', True, 1.23], '3': None }, { 'a': 1, 'b': ['some', 'list', True, 1.23], '3': None }), ] invalid_inputs = [ ({'a': set()}, ['Value must be valid JSON.']), ({'a': float('inf')}, ['Value must be valid JSON.']), ] outputs = [ ({ 'a': 1, 'b': ['some', 'list', True, 1.23], '3': 3 }, { 'a': 1, 'b': ['some', 'list', True, 1.23], '3': 3 }), ] field = serializers.JSONField() def test_html_input_as_json_string(self): """ HTML inputs should be treated as a serialized JSON string. """ class TestSerializer(serializers.Serializer): config = serializers.JSONField() data = QueryDict(mutable=True) data.update({'config': '{"a":1}'}) serializer = TestSerializer(data=data) assert serializer.is_valid() assert serializer.validated_data == {'config': {"a": 1}} class TestBinaryJSONField(FieldValues): """ Values for `JSONField` with binary=True. """ valid_inputs = [ (b'{"a": 1, "3": null, "b": ["some", "list", true, 1.23]}', { 'a': 1, 'b': ['some', 'list', True, 1.23], '3': None }), ] invalid_inputs = [ ('{"a": "unterminated string}', ['Value must be valid JSON.']), ] outputs = [ (['some', 'list', True, 1.23], b'["some", "list", true, 1.23]'), ] field = serializers.JSONField(binary=True) # Tests for FileField. # -------------------- class MockRequest: def build_absolute_uri(self, value): return 'http://example.com' + value class TestFileFieldContext: def test_fully_qualified_when_request_in_context(self): field = serializers.FileField(max_length=10) field._context = {'request': MockRequest()} obj = MockFile(name='example.txt', url='/example.txt') value = field.to_representation(obj) assert value == 'http://example.com/example.txt' # Tests for FilePathField. # -------------------- class TestFilePathFieldRequired: def test_required_passed_to_both_django_file_path_field_and_base(self): field = serializers.FilePathField( path=os.path.abspath(os.path.dirname(__file__)), required=False, ) assert "" in field.choices # Django adds empty choice if not required assert field.required is False with pytest.raises(SkipField): field.run_validation(empty) # Tests for SerializerMethodField. # -------------------------------- class TestSerializerMethodField: def test_serializer_method_field(self): class ExampleSerializer(serializers.Serializer): example_field = serializers.SerializerMethodField() def get_example_field(self, obj): return 'ran get_example_field(%d)' % obj['example_field'] serializer = ExampleSerializer({'example_field': 123}) assert serializer.data == { 'example_field': 'ran get_example_field(123)' } def test_redundant_method_name(self): # Prior to v3.10, redundant method names were not allowed. # This restriction has since been removed. class ExampleSerializer(serializers.Serializer): example_field = serializers.SerializerMethodField('get_example_field') field = ExampleSerializer().fields['example_field'] assert field.method_name == 'get_example_field' # Tests for ModelField. # --------------------- class TestModelField: def test_max_length_init(self): field = serializers.ModelField(None) assert len(field.validators) == 0 field = serializers.ModelField(None, max_length=10) assert len(field.validators) == 1 # Tests for validation errors # --------------------------- class TestValidationErrorCode: @pytest.mark.parametrize('use_list', (False, True)) def test_validationerror_code_with_msg(self, use_list): class ExampleSerializer(serializers.Serializer): password = serializers.CharField() def validate_password(self, obj): err = DjangoValidationError( 'exc_msg %s', code='exc_code', params=('exc_param',), ) if use_list: err = DjangoValidationError([err]) raise err serializer = ExampleSerializer(data={'password': 123}) serializer.is_valid() assert serializer.errors == {'password': ['exc_msg exc_param']} assert serializer.errors['password'][0].code == 'exc_code' @pytest.mark.parametrize('use_list', (False, True)) def test_validationerror_code_with_msg_including_percent(self, use_list): class ExampleSerializer(serializers.Serializer): password = serializers.CharField() def validate_password(self, obj): err = DjangoValidationError('exc_msg with %', code='exc_code') if use_list: err = DjangoValidationError([err]) raise err serializer = ExampleSerializer(data={'password': 123}) serializer.is_valid() assert serializer.errors == {'password': ['exc_msg with %']} assert serializer.errors['password'][0].code == 'exc_code' @pytest.mark.parametrize('code', (None, 'exc_code',)) @pytest.mark.parametrize('use_list', (False, True)) def test_validationerror_code_with_dict(self, use_list, code): class ExampleSerializer(serializers.Serializer): def validate(self, obj): if code is None: err = DjangoValidationError({ 'email': 'email error', }) else: err = DjangoValidationError({ 'email': DjangoValidationError( 'email error', code=code), }) if use_list: err = DjangoValidationError([err]) raise err serializer = ExampleSerializer(data={}) serializer.is_valid() expected_code = code if code else 'invalid' if use_list: assert serializer.errors == { 'non_field_errors': [ exceptions.ErrorDetail( string='email error', code=expected_code ) ] } else: assert serializer.errors == { 'email': ['email error'], } assert serializer.errors['email'][0].code == expected_code @pytest.mark.parametrize('code', (None, 'exc_code',)) def test_validationerror_code_with_dict_list_same_code(self, code): class ExampleSerializer(serializers.Serializer): def validate(self, obj): if code is None: raise DjangoValidationError({'email': ['email error 1', 'email error 2']}) raise DjangoValidationError({'email': [ DjangoValidationError('email error 1', code=code), DjangoValidationError('email error 2', code=code), ]}) serializer = ExampleSerializer(data={}) serializer.is_valid() expected_code = code if code else 'invalid' assert serializer.errors == { 'email': [ exceptions.ErrorDetail( string='email error 1', code=expected_code ), exceptions.ErrorDetail( string='email error 2', code=expected_code ), ] }