""" The `ModelSerializer` and `HyperlinkedModelSerializer` classes are essentially shortcuts for automatically creating serializers based on a given model class. These tests deal with ensuring that we correctly map the model fields onto an appropriate set of serializer fields for each case. """ from __future__ import unicode_literals import django import pytest from django.core.exceptions import ImproperlyConfigured from django.core.validators import ( MaxValueValidator, MinLengthValidator, MinValueValidator ) from django.db import models from django.test import TestCase from django.utils import six from rest_framework import serializers from rest_framework.compat import DurationField as ModelDurationField from rest_framework.compat import unicode_repr def dedent(blocktext): return '\n'.join([line[12:] for line in blocktext.splitlines()[1:-1]]) # Tests for regular field mappings. # --------------------------------- class CustomField(models.Field): """ A custom model field simply for testing purposes. """ pass class OneFieldModel(models.Model): char_field = models.CharField(max_length=100) class RegularFieldsModel(models.Model): """ A model class for testing regular flat fields. """ auto_field = models.AutoField(primary_key=True) big_integer_field = models.BigIntegerField() boolean_field = models.BooleanField(default=False) char_field = models.CharField(max_length=100) comma_separated_integer_field = models.CommaSeparatedIntegerField(max_length=100) date_field = models.DateField() datetime_field = models.DateTimeField() decimal_field = models.DecimalField(max_digits=3, decimal_places=1) email_field = models.EmailField(max_length=100) float_field = models.FloatField() integer_field = models.IntegerField() null_boolean_field = models.NullBooleanField() positive_integer_field = models.PositiveIntegerField() positive_small_integer_field = models.PositiveSmallIntegerField() slug_field = models.SlugField(max_length=100) small_integer_field = models.SmallIntegerField() text_field = models.TextField() time_field = models.TimeField() url_field = models.URLField(max_length=100) custom_field = CustomField() def method(self): return 'method' COLOR_CHOICES = (('red', 'Red'), ('blue', 'Blue'), ('green', 'Green')) class FieldOptionsModel(models.Model): value_limit_field = models.IntegerField(validators=[MinValueValidator(1), MaxValueValidator(10)]) length_limit_field = models.CharField(validators=[MinLengthValidator(3)], max_length=12) blank_field = models.CharField(blank=True, max_length=10) null_field = models.IntegerField(null=True) default_field = models.IntegerField(default=0) descriptive_field = models.IntegerField(help_text='Some help text', verbose_name='A label') choices_field = models.CharField(max_length=100, choices=COLOR_CHOICES) class TestModelSerializer(TestCase): def test_create_method(self): class TestSerializer(serializers.ModelSerializer): non_model_field = serializers.CharField() class Meta: model = OneFieldModel fields = ('char_field', 'non_model_field') serializer = TestSerializer(data={ 'char_field': 'foo', 'non_model_field': 'bar', }) serializer.is_valid() with self.assertRaises(TypeError) as excinfo: serializer.save() msginitial = 'Got a `TypeError` when calling `OneFieldModel.objects.create()`.' assert str(excinfo.exception).startswith(msginitial) def test_abstract_model(self): """ Test that trying to use ModelSerializer with Abstract Models throws a ValueError exception. """ class AbstractModel(models.Model): afield = models.CharField(max_length=255) class Meta: abstract = True class TestSerializer(serializers.ModelSerializer): class Meta: model = AbstractModel fields = ('afield',) serializer = TestSerializer(data={ 'afield': 'foo', }) with self.assertRaises(ValueError) as excinfo: serializer.is_valid() msginitial = 'Cannot use ModelSerializer with Abstract Models.' assert str(excinfo.exception).startswith(msginitial) class TestRegularFieldMappings(TestCase): def test_regular_fields(self): """ Model fields should map to their equivelent serializer fields. """ class TestSerializer(serializers.ModelSerializer): class Meta: model = RegularFieldsModel expected = dedent(""" TestSerializer(): auto_field = IntegerField(read_only=True) big_integer_field = IntegerField() boolean_field = BooleanField(required=False) char_field = CharField(max_length=100) comma_separated_integer_field = CharField(max_length=100, validators=[]) date_field = DateField() datetime_field = DateTimeField() decimal_field = DecimalField(decimal_places=1, max_digits=3) email_field = EmailField(max_length=100) float_field = FloatField() integer_field = IntegerField() null_boolean_field = NullBooleanField(required=False) positive_integer_field = IntegerField() positive_small_integer_field = IntegerField() slug_field = SlugField(max_length=100) small_integer_field = IntegerField() text_field = CharField(style={'base_template': 'textarea.html'}) time_field = TimeField() url_field = URLField(max_length=100) custom_field = ModelField(model_field=) """) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_field_options(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = FieldOptionsModel expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) value_limit_field = IntegerField(max_value=10, min_value=1) length_limit_field = CharField(max_length=12, min_length=3) blank_field = CharField(allow_blank=True, max_length=10, required=False) null_field = IntegerField(allow_null=True, required=False) default_field = IntegerField(required=False) descriptive_field = IntegerField(help_text='Some help text', label='A label') choices_field = ChoiceField(choices=[('red', 'Red'), ('blue', 'Blue'), ('green', 'Green')]) """) if six.PY2: # This particular case is too awkward to resolve fully across # both py2 and py3. expected = expected.replace( "('red', 'Red'), ('blue', 'Blue'), ('green', 'Green')", "(u'red', u'Red'), (u'blue', u'Blue'), (u'green', u'Green')" ) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_method_field(self): """ Properties and methods on the model should be allowed as `Meta.fields` values, and should map to `ReadOnlyField`. """ class TestSerializer(serializers.ModelSerializer): class Meta: model = RegularFieldsModel fields = ('auto_field', 'method') expected = dedent(""" TestSerializer(): auto_field = IntegerField(read_only=True) method = ReadOnlyField() """) self.assertEqual(repr(TestSerializer()), expected) def test_pk_fields(self): """ Both `pk` and the actual primary key name are valid in `Meta.fields`. """ class TestSerializer(serializers.ModelSerializer): class Meta: model = RegularFieldsModel fields = ('pk', 'auto_field') expected = dedent(""" TestSerializer(): pk = IntegerField(label='Auto field', read_only=True) auto_field = IntegerField(read_only=True) """) self.assertEqual(repr(TestSerializer()), expected) def test_extra_field_kwargs(self): """ Ensure `extra_kwargs` are passed to generated fields. """ class TestSerializer(serializers.ModelSerializer): class Meta: model = RegularFieldsModel fields = ('auto_field', 'char_field') extra_kwargs = {'char_field': {'default': 'extra'}} expected = dedent(""" TestSerializer(): auto_field = IntegerField(read_only=True) char_field = CharField(default='extra', max_length=100) """) self.assertEqual(repr(TestSerializer()), expected) def test_invalid_field(self): """ Field names that do not map to a model field or relationship should raise a configuration errror. """ class TestSerializer(serializers.ModelSerializer): class Meta: model = RegularFieldsModel fields = ('auto_field', 'invalid') with self.assertRaises(ImproperlyConfigured) as excinfo: TestSerializer().fields expected = 'Field name `invalid` is not valid for model `RegularFieldsModel`.' assert str(excinfo.exception) == expected def test_missing_field(self): """ Fields that have been declared on the serializer class must be included in the `Meta.fields` if it exists. """ class TestSerializer(serializers.ModelSerializer): missing = serializers.ReadOnlyField() class Meta: model = RegularFieldsModel fields = ('auto_field',) with self.assertRaises(AssertionError) as excinfo: TestSerializer().fields expected = ( "The field 'missing' was declared on serializer TestSerializer, " "but has not been included in the 'fields' option." ) assert str(excinfo.exception) == expected def test_missing_superclass_field(self): """ Fields that have been declared on a parent of the serializer class may be excluded from the `Meta.fields` option. """ class TestSerializer(serializers.ModelSerializer): missing = serializers.ReadOnlyField() class Meta: model = RegularFieldsModel class ChildSerializer(TestSerializer): missing = serializers.ReadOnlyField() class Meta: model = RegularFieldsModel fields = ('auto_field',) ChildSerializer().fields @pytest.mark.skipif(django.VERSION < (1, 8), reason='DurationField is only available for django1.8+') class TestDurationFieldMapping(TestCase): def test_duration_field(self): class DurationFieldModel(models.Model): """ A model that defines DurationField. """ duration_field = ModelDurationField() class TestSerializer(serializers.ModelSerializer): class Meta: model = DurationFieldModel expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) duration_field = DurationField() """) self.assertEqual(unicode_repr(TestSerializer()), expected) # Tests for relational field mappings. # ------------------------------------ class ForeignKeyTargetModel(models.Model): name = models.CharField(max_length=100) class ManyToManyTargetModel(models.Model): name = models.CharField(max_length=100) class OneToOneTargetModel(models.Model): name = models.CharField(max_length=100) class ThroughTargetModel(models.Model): name = models.CharField(max_length=100) class Supplementary(models.Model): extra = models.IntegerField() forwards = models.ForeignKey('ThroughTargetModel') backwards = models.ForeignKey('RelationalModel') class RelationalModel(models.Model): foreign_key = models.ForeignKey(ForeignKeyTargetModel, related_name='reverse_foreign_key') many_to_many = models.ManyToManyField(ManyToManyTargetModel, related_name='reverse_many_to_many') one_to_one = models.OneToOneField(OneToOneTargetModel, related_name='reverse_one_to_one') through = models.ManyToManyField(ThroughTargetModel, through=Supplementary, related_name='reverse_through') class UniqueTogetherModel(models.Model): foreign_key = models.ForeignKey(ForeignKeyTargetModel, related_name='unique_foreign_key') one_to_one = models.OneToOneField(OneToOneTargetModel, related_name='unique_one_to_one') class Meta: unique_together = ("foreign_key", "one_to_one") class TestRelationalFieldMappings(TestCase): def test_pk_relations(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = RelationalModel expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) foreign_key = PrimaryKeyRelatedField(queryset=ForeignKeyTargetModel.objects.all()) one_to_one = PrimaryKeyRelatedField(queryset=OneToOneTargetModel.objects.all(), validators=[]) many_to_many = PrimaryKeyRelatedField(many=True, queryset=ManyToManyTargetModel.objects.all()) through = PrimaryKeyRelatedField(many=True, read_only=True) """) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_nested_relations(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = RelationalModel depth = 1 expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) foreign_key = NestedSerializer(read_only=True): id = IntegerField(label='ID', read_only=True) name = CharField(max_length=100) one_to_one = NestedSerializer(read_only=True): id = IntegerField(label='ID', read_only=True) name = CharField(max_length=100) many_to_many = NestedSerializer(many=True, read_only=True): id = IntegerField(label='ID', read_only=True) name = CharField(max_length=100) through = NestedSerializer(many=True, read_only=True): id = IntegerField(label='ID', read_only=True) name = CharField(max_length=100) """) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_hyperlinked_relations(self): class TestSerializer(serializers.HyperlinkedModelSerializer): class Meta: model = RelationalModel expected = dedent(""" TestSerializer(): url = HyperlinkedIdentityField(view_name='relationalmodel-detail') foreign_key = HyperlinkedRelatedField(queryset=ForeignKeyTargetModel.objects.all(), view_name='foreignkeytargetmodel-detail') one_to_one = HyperlinkedRelatedField(queryset=OneToOneTargetModel.objects.all(), validators=[], view_name='onetoonetargetmodel-detail') many_to_many = HyperlinkedRelatedField(many=True, queryset=ManyToManyTargetModel.objects.all(), view_name='manytomanytargetmodel-detail') through = HyperlinkedRelatedField(many=True, read_only=True, view_name='throughtargetmodel-detail') """) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_nested_hyperlinked_relations(self): class TestSerializer(serializers.HyperlinkedModelSerializer): class Meta: model = RelationalModel depth = 1 expected = dedent(""" TestSerializer(): url = HyperlinkedIdentityField(view_name='relationalmodel-detail') foreign_key = NestedSerializer(read_only=True): url = HyperlinkedIdentityField(view_name='foreignkeytargetmodel-detail') name = CharField(max_length=100) one_to_one = NestedSerializer(read_only=True): url = HyperlinkedIdentityField(view_name='onetoonetargetmodel-detail') name = CharField(max_length=100) many_to_many = NestedSerializer(many=True, read_only=True): url = HyperlinkedIdentityField(view_name='manytomanytargetmodel-detail') name = CharField(max_length=100) through = NestedSerializer(many=True, read_only=True): url = HyperlinkedIdentityField(view_name='throughtargetmodel-detail') name = CharField(max_length=100) """) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_nested_unique_together_relations(self): class TestSerializer(serializers.HyperlinkedModelSerializer): class Meta: model = UniqueTogetherModel depth = 1 expected = dedent(""" TestSerializer(): url = HyperlinkedIdentityField(view_name='uniquetogethermodel-detail') foreign_key = NestedSerializer(read_only=True): url = HyperlinkedIdentityField(view_name='foreignkeytargetmodel-detail') name = CharField(max_length=100) one_to_one = NestedSerializer(read_only=True): url = HyperlinkedIdentityField(view_name='onetoonetargetmodel-detail') name = CharField(max_length=100) class Meta: validators = [] """) if six.PY2: # This case is also too awkward to resolve fully across both py2 # and py3. (See above) expected = expected.replace( "('foreign_key', 'one_to_one')", "(u'foreign_key', u'one_to_one')" ) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_pk_reverse_foreign_key(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = ForeignKeyTargetModel fields = ('id', 'name', 'reverse_foreign_key') expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) name = CharField(max_length=100) reverse_foreign_key = PrimaryKeyRelatedField(many=True, queryset=RelationalModel.objects.all()) """) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_pk_reverse_one_to_one(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = OneToOneTargetModel fields = ('id', 'name', 'reverse_one_to_one') expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) name = CharField(max_length=100) reverse_one_to_one = PrimaryKeyRelatedField(queryset=RelationalModel.objects.all()) """) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_pk_reverse_many_to_many(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = ManyToManyTargetModel fields = ('id', 'name', 'reverse_many_to_many') expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) name = CharField(max_length=100) reverse_many_to_many = PrimaryKeyRelatedField(many=True, queryset=RelationalModel.objects.all()) """) self.assertEqual(unicode_repr(TestSerializer()), expected) def test_pk_reverse_through(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = ThroughTargetModel fields = ('id', 'name', 'reverse_through') expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) name = CharField(max_length=100) reverse_through = PrimaryKeyRelatedField(many=True, read_only=True) """) self.assertEqual(unicode_repr(TestSerializer()), expected) class TestIntegration(TestCase): def setUp(self): self.foreign_key_target = ForeignKeyTargetModel.objects.create( name='foreign_key' ) self.one_to_one_target = OneToOneTargetModel.objects.create( name='one_to_one' ) self.many_to_many_targets = [ ManyToManyTargetModel.objects.create( name='many_to_many (%d)' % idx ) for idx in range(3) ] self.instance = RelationalModel.objects.create( foreign_key=self.foreign_key_target, one_to_one=self.one_to_one_target, ) self.instance.many_to_many = self.many_to_many_targets self.instance.save() def test_pk_retrival(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = RelationalModel serializer = TestSerializer(self.instance) expected = { 'id': self.instance.pk, 'foreign_key': self.foreign_key_target.pk, 'one_to_one': self.one_to_one_target.pk, 'many_to_many': [item.pk for item in self.many_to_many_targets], 'through': [] } self.assertEqual(serializer.data, expected) def test_pk_create(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = RelationalModel new_foreign_key = ForeignKeyTargetModel.objects.create( name='foreign_key' ) new_one_to_one = OneToOneTargetModel.objects.create( name='one_to_one' ) new_many_to_many = [ ManyToManyTargetModel.objects.create( name='new many_to_many (%d)' % idx ) for idx in range(3) ] data = { 'foreign_key': new_foreign_key.pk, 'one_to_one': new_one_to_one.pk, 'many_to_many': [item.pk for item in new_many_to_many], } # Serializer should validate okay. serializer = TestSerializer(data=data) assert serializer.is_valid() # Creating the instance, relationship attributes should be set. instance = serializer.save() assert instance.foreign_key.pk == new_foreign_key.pk assert instance.one_to_one.pk == new_one_to_one.pk assert [ item.pk for item in instance.many_to_many.all() ] == [ item.pk for item in new_many_to_many ] assert list(instance.through.all()) == [] # Representation should be correct. expected = { 'id': instance.pk, 'foreign_key': new_foreign_key.pk, 'one_to_one': new_one_to_one.pk, 'many_to_many': [item.pk for item in new_many_to_many], 'through': [] } self.assertEqual(serializer.data, expected) def test_pk_update(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = RelationalModel new_foreign_key = ForeignKeyTargetModel.objects.create( name='foreign_key' ) new_one_to_one = OneToOneTargetModel.objects.create( name='one_to_one' ) new_many_to_many = [ ManyToManyTargetModel.objects.create( name='new many_to_many (%d)' % idx ) for idx in range(3) ] data = { 'foreign_key': new_foreign_key.pk, 'one_to_one': new_one_to_one.pk, 'many_to_many': [item.pk for item in new_many_to_many], } # Serializer should validate okay. serializer = TestSerializer(self.instance, data=data) assert serializer.is_valid() # Creating the instance, relationship attributes should be set. instance = serializer.save() assert instance.foreign_key.pk == new_foreign_key.pk assert instance.one_to_one.pk == new_one_to_one.pk assert [ item.pk for item in instance.many_to_many.all() ] == [ item.pk for item in new_many_to_many ] assert list(instance.through.all()) == [] # Representation should be correct. expected = { 'id': self.instance.pk, 'foreign_key': new_foreign_key.pk, 'one_to_one': new_one_to_one.pk, 'many_to_many': [item.pk for item in new_many_to_many], 'through': [] } self.assertEqual(serializer.data, expected) # Tests for bulk create using `ListSerializer`. class BulkCreateModel(models.Model): name = models.CharField(max_length=10) class TestBulkCreate(TestCase): def test_bulk_create(self): class BasicModelSerializer(serializers.ModelSerializer): class Meta: model = BulkCreateModel fields = ('name',) class BulkCreateSerializer(serializers.ListSerializer): child = BasicModelSerializer() data = [{'name': 'a'}, {'name': 'b'}, {'name': 'c'}] serializer = BulkCreateSerializer(data=data) assert serializer.is_valid() # Objects are returned by save(). instances = serializer.save() assert len(instances) == 3 assert [item.name for item in instances] == ['a', 'b', 'c'] # Objects have been created in the database. assert BulkCreateModel.objects.count() == 3 assert list(BulkCreateModel.objects.values_list('name', flat=True)) == ['a', 'b', 'c'] # Serializer returns correct data. assert serializer.data == data class TestMetaClassModel(models.Model): text = models.CharField(max_length=100) class TestSerializerMetaClass(TestCase): def test_meta_class_fields_option(self): class ExampleSerializer(serializers.ModelSerializer): class Meta: model = TestMetaClassModel fields = 'text' with self.assertRaises(TypeError) as result: ExampleSerializer().fields exception = result.exception assert str(exception).startswith( "The `fields` option must be a list or tuple" ) def test_meta_class_exclude_option(self): class ExampleSerializer(serializers.ModelSerializer): class Meta: model = TestMetaClassModel exclude = 'text' with self.assertRaises(TypeError) as result: ExampleSerializer().fields exception = result.exception assert str(exception).startswith( "The `exclude` option must be a list or tuple" ) def test_meta_class_fields_and_exclude_options(self): class ExampleSerializer(serializers.ModelSerializer): class Meta: model = TestMetaClassModel fields = ('text',) exclude = ('text',) with self.assertRaises(AssertionError) as result: ExampleSerializer().fields exception = result.exception self.assertEqual( str(exception), "Cannot set both 'fields' and 'exclude' options on serializer ExampleSerializer." ) class Issue2704TestCase(TestCase): def test_queryset_all(self): class TestSerializer(serializers.ModelSerializer): additional_attr = serializers.CharField() class Meta: model = OneFieldModel fields = ('char_field', 'additional_attr') OneFieldModel.objects.create(char_field='abc') qs = OneFieldModel.objects.all() for o in qs: o.additional_attr = '123' serializer = TestSerializer(instance=qs, many=True) expected = [{ 'char_field': 'abc', 'additional_attr': '123', }] assert serializer.data == expected