django-rest-framework/tests/test_fields.py
Stephen Chisholm 93e75ec138 Catch OverflowError for "out of range" datetimes (#5546)
* Add test for #5545 
* Catch OverflowError for "out of range" datetimes
2017-10-31 10:17:08 +01:00

1994 lines
61 KiB
Python

import datetime
import os
import re
import unittest
import uuid
from decimal import Decimal
import django
import pytest
from django.http import QueryDict
from django.test import TestCase, override_settings
from django.utils import six
from django.utils.timezone import activate, deactivate, utc
import rest_framework
from rest_framework import compat, serializers
from rest_framework.fields import is_simple_callable
try:
import pytz
except ImportError:
pytz = None
try:
import typings
except ImportError:
typings = False
# 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)
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)
@unittest.skipUnless(typings, 'requires python 3.5')
def test_type_annotation(self):
# The annotation will otherwise raise a syntax error in python < 3.5
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 is 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(object):
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(object):
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)
class TestReadOnly:
def setup(self):
class TestSerializer(serializers.Serializer):
read_only = serializers.ReadOnlyField()
writable = serializers.IntegerField()
self.Serializer = TestSerializer
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(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(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(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(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(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.
"""
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, even if the field is required=False.
"""
class TestSerializer(serializers.Serializer):
archived = serializers.BooleanField(required=False)
serializer = TestSerializer(data=QueryDict(''))
assert serializer.is_valid()
assert serializer.validated_data == {'archived': False}
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.keys()) == ['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.keys()) == []
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]}
class TestCreateOnlyDefault:
def setup(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:
def set_context(self, serializer_field):
self.field = serializer_field
def __call__(self):
return "success" if hasattr(self, 'field') 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
# 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):
"""
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):
"""
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):
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,
'false': False,
'1': True,
'0': False,
1: True,
0: False,
True: True,
False: False,
}
invalid_inputs = {
'foo': ['"foo" is not a valid boolean.'],
None: ['This field may not be null.']
}
outputs = {
'true': True,
'false': 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 = ['"{0}" is not a valid boolean.'.format(input_value)]
assert exc_info.value.detail == expected
class TestNullBooleanField(TestBooleanField):
"""
Valid and invalid values for `BooleanField`.
"""
valid_inputs = {
'true': True,
'false': False,
'null': None,
True: True,
False: False,
None: None
}
invalid_inputs = {
'foo': ['"foo" is not a valid boolean.'],
}
outputs = {
'true': True,
'false': False,
'null': None,
True: True,
False: False,
None: None,
'other': True
}
field = serializers.NullBooleanField()
# 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.']
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(u'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': ['"825d7aeb-05a9-45b5-a5b7" is not a valid UUID.'],
(1, 2, 3): ['"(1, 2, 3)" is not 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 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 = (
('abc', ["A valid number is required."]),
(Decimal('Nan'), ["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 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
)
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(USE_L10N=True, 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(USE_L10N=True, 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')), six.string_types)
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 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)
# 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]].'],
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',
six.text_type('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',
six.text_type('2016-01-10T00:00:00'): '2016-01-10T00:00:00',
None: None,
'': None,
}
field = serializers.DateTimeField(default_timezone=utc)
if django.VERSION[:2] <= (1, 8):
# Doesn't raise an error on earlier versions of Django
TestDateTimeField.invalid_inputs.pop('2018-08-16 22:00-24:00')
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)
class TestNaiveDateTimeField(FieldValues):
"""
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)
@pytest.mark.skipif(pytz is None, reason='pytz not installed')
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 = pytz.timezone('Asia/Kolkata')
cls.valid_inputs = {
'2016-12-19T10:00:00': kolkata.localize(datetime.datetime(2016, 12, 19, 10)),
'2016-12-19T10:00:00+05:30': kolkata.localize(datetime.datetime(2016, 12, 19, 10)),
datetime.datetime(2016, 12, 19, 10): kolkata.localize(datetime.datetime(2016, 12, 19, 10)),
}
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)
@pytest.mark.skipif(pytz is None, reason='pytz not installed')
@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 = pytz.timezone('Asia/Kolkata')
def test_default_timezone(self):
assert self.field.default_timezone() == utc
def test_current_timezone(self):
assert self.field.default_timezone() == utc
activate(self.kolkata)
assert self.field.default_timezone() == self.kolkata
deactivate()
assert self.field.default_timezone() == utc
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 MockTimezone:
@staticmethod
def localize(value, is_dst):
raise compat.InvalidTimeError()
def __str__(self):
return 'America/New_York'
field = serializers.DateTimeField(default_timezone=MockTimezone())
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 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),
}
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].'],
}
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) is 1
with pytest.raises(serializers.ValidationError) as exc_info:
field.run_validation(2)
assert exc_info.value.detail == ['"2" is not a valid choice.']
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',): set(['aircon']),
('aircon', 'manual'): set(['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'], set(['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)
# Stub out mock Django `forms.ImageField` class so we don't *actually*
# call into it's regular validation, or require PIL for testing.
class FailImageValidation(object):
def to_python(self, value):
raise serializers.ValidationError(self.error_messages['invalid_image'])
class PassImageValidation(object):
def to_python(self, value):
return value
class TestInvalidImageField(FieldValues):
"""
Values for an invalid `ImageField`.
"""
valid_inputs = {}
invalid_inputs = [
(MockFile(name='example.txt', size=10), ['Upload a valid image. The file you uploaded was either not an image or a corrupted image.'])
]
outputs = {}
field = serializers.ImageField(_DjangoImageField=FailImageValidation)
class TestValidImageField(FieldValues):
"""
Values for an valid `ImageField`.
"""
valid_inputs = [
(MockFile(name='example.txt', size=10), MockFile(name='example.txt', 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'], ['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".']
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 `ListField` with CharField as child.
"""
valid_inputs = [
({'a': 1, 'b': '2', 3: 3}, {'a': '1', 'b': '2', '3': '3'}),
]
invalid_inputs = [
({'a': 1, 'b': None}, ['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
class TestDictFieldWithNullChild(FieldValues):
"""
Values for `ListField` 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 `ListField` 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 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 FieldField.
# ---------------------
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 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):
class ExampleSerializer(serializers.Serializer):
example_field = serializers.SerializerMethodField('get_example_field')
with pytest.raises(AssertionError) as exc_info:
ExampleSerializer().fields
assert str(exc_info.value) == (
"It is redundant to specify `get_example_field` on "
"SerializerMethodField 'example_field' in serializer "
"'ExampleSerializer', because it is the same as the default "
"method name. Remove the `method_name` argument."
)