1
0
mirror of https://github.com/django/django.git synced 2024-12-23 01:25:58 +00:00
django/tests/inspectdb/tests.py

Ignoring revisions in .git-blame-ignore-revs. Click here to bypass and see the normal blame view.

671 lines
27 KiB
Python
Raw Normal View History

import re
from io import StringIO
from unittest import mock, skipUnless
from django.core.management import call_command
from django.core.management.commands import inspectdb
from django.db import connection
from django.db.backends.base.introspection import TableInfo
from django.test import TestCase, TransactionTestCase, skipUnlessDBFeature
from .models import PeopleMoreData, test_collation
def inspectdb_tables_only(table_name):
"""
Limit introspection to tables created for models of this app.
Some databases such as Oracle are extremely slow at introspection.
"""
return table_name.startswith("inspectdb_")
def inspectdb_views_only(table_name):
return table_name.startswith("inspectdb_") and table_name.endswith(
("_materialized", "_view")
)
def special_table_only(table_name):
return table_name.startswith("inspectdb_special")
class InspectDBTestCase(TestCase):
unique_re = re.compile(r".*unique_together = \((.+),\).*")
def test_stealth_table_name_filter_option(self):
out = StringIO()
call_command("inspectdb", table_name_filter=inspectdb_tables_only, stdout=out)
error_message = (
"inspectdb has examined a table that should have been filtered out."
)
# contrib.contenttypes is one of the apps always installed when running
# the Django test suite, check that one of its tables hasn't been
# inspected
self.assertNotIn(
"class DjangoContentType(models.Model):", out.getvalue(), msg=error_message
)
def test_table_option(self):
"""
inspectdb can inspect a subset of tables by passing the table names as
arguments.
"""
out = StringIO()
call_command("inspectdb", "inspectdb_people", stdout=out)
output = out.getvalue()
self.assertIn("class InspectdbPeople(models.Model):", output)
self.assertNotIn("InspectdbPeopledata", output)
def make_field_type_asserter(self):
"""
Call inspectdb and return a function to validate a field type in its
output.
"""
out = StringIO()
call_command("inspectdb", "inspectdb_columntypes", stdout=out)
output = out.getvalue()
def assertFieldType(name, definition):
out_def = re.search(r"^\s*%s = (models.*)$" % name, output, re.MULTILINE)[1]
self.assertEqual(definition, out_def)
return assertFieldType
def test_field_types(self):
"""Test introspection of various Django field types"""
assertFieldType = self.make_field_type_asserter()
introspected_field_types = connection.features.introspected_field_types
char_field_type = introspected_field_types["CharField"]
# Inspecting Oracle DB doesn't produce correct results (#19884):
# - it reports fields as blank=True when they aren't.
if (
not connection.features.interprets_empty_strings_as_nulls
and char_field_type == "CharField"
):
assertFieldType("char_field", "models.CharField(max_length=10)")
assertFieldType(
"null_char_field",
"models.CharField(max_length=10, blank=True, null=True)",
)
assertFieldType("email_field", "models.CharField(max_length=254)")
assertFieldType("file_field", "models.CharField(max_length=100)")
assertFieldType("file_path_field", "models.CharField(max_length=100)")
assertFieldType("slug_field", "models.CharField(max_length=50)")
assertFieldType("text_field", "models.TextField()")
assertFieldType("url_field", "models.CharField(max_length=200)")
if char_field_type == "TextField":
assertFieldType("char_field", "models.TextField()")
assertFieldType(
"null_char_field", "models.TextField(blank=True, null=True)"
)
assertFieldType("email_field", "models.TextField()")
assertFieldType("file_field", "models.TextField()")
assertFieldType("file_path_field", "models.TextField()")
assertFieldType("slug_field", "models.TextField()")
assertFieldType("text_field", "models.TextField()")
assertFieldType("url_field", "models.TextField()")
assertFieldType("date_field", "models.DateField()")
assertFieldType("date_time_field", "models.DateTimeField()")
if introspected_field_types["GenericIPAddressField"] == "GenericIPAddressField":
assertFieldType("gen_ip_address_field", "models.GenericIPAddressField()")
elif not connection.features.interprets_empty_strings_as_nulls:
assertFieldType("gen_ip_address_field", "models.CharField(max_length=39)")
assertFieldType(
"time_field", "models.%s()" % introspected_field_types["TimeField"]
)
if connection.features.has_native_uuid_field:
assertFieldType("uuid_field", "models.UUIDField()")
elif not connection.features.interprets_empty_strings_as_nulls:
assertFieldType("uuid_field", "models.CharField(max_length=32)")
@skipUnlessDBFeature("can_introspect_json_field", "supports_json_field")
def test_json_field(self):
out = StringIO()
call_command("inspectdb", "inspectdb_jsonfieldcolumntype", stdout=out)
output = out.getvalue()
if not connection.features.interprets_empty_strings_as_nulls:
self.assertIn("json_field = models.JSONField()", output)
self.assertIn(
"null_json_field = models.JSONField(blank=True, null=True)", output
)
@skipUnlessDBFeature("supports_comments")
def test_db_comments(self):
out = StringIO()
call_command("inspectdb", "inspectdb_dbcomment", stdout=out)
output = out.getvalue()
integer_field_type = connection.features.introspected_field_types[
"IntegerField"
]
self.assertIn(
f"rank = models.{integer_field_type}("
f"db_comment=\"'Rank' column comment\")",
output,
)
self.assertIn(
" db_table_comment = 'Custom table comment'",
output,
)
@skipUnlessDBFeature("supports_collation_on_charfield")
@skipUnless(test_collation, "Language collations are not supported.")
def test_char_field_db_collation(self):
out = StringIO()
call_command("inspectdb", "inspectdb_charfielddbcollation", stdout=out)
output = out.getvalue()
if not connection.features.interprets_empty_strings_as_nulls:
self.assertIn(
"char_field = models.CharField(max_length=10, "
"db_collation='%s')" % test_collation,
output,
)
else:
self.assertIn(
"char_field = models.CharField(max_length=10, "
"db_collation='%s', blank=True, null=True)" % test_collation,
output,
)
@skipUnlessDBFeature("supports_collation_on_textfield")
@skipUnless(test_collation, "Language collations are not supported.")
def test_text_field_db_collation(self):
out = StringIO()
call_command("inspectdb", "inspectdb_textfielddbcollation", stdout=out)
output = out.getvalue()
if not connection.features.interprets_empty_strings_as_nulls:
self.assertIn(
"text_field = models.TextField(db_collation='%s')" % test_collation,
output,
)
else:
self.assertIn(
"text_field = models.TextField(db_collation='%s, blank=True, "
"null=True)" % test_collation,
output,
)
@skipUnlessDBFeature("supports_unlimited_charfield")
def test_char_field_unlimited(self):
out = StringIO()
call_command("inspectdb", "inspectdb_charfieldunlimited", stdout=out)
output = out.getvalue()
self.assertIn("char_field = models.CharField()", output)
def test_number_field_types(self):
"""Test introspection of various Django field types"""
assertFieldType = self.make_field_type_asserter()
introspected_field_types = connection.features.introspected_field_types
auto_field_type = connection.features.introspected_field_types["AutoField"]
if auto_field_type != "AutoField":
assertFieldType(
"id", "models.%s(primary_key=True) # AutoField?" % auto_field_type
)
assertFieldType(
"big_int_field", "models.%s()" % introspected_field_types["BigIntegerField"]
)
bool_field_type = introspected_field_types["BooleanField"]
assertFieldType("bool_field", "models.{}()".format(bool_field_type))
assertFieldType(
"null_bool_field",
"models.{}(blank=True, null=True)".format(bool_field_type),
)
if connection.vendor != "sqlite":
assertFieldType(
"decimal_field", "models.DecimalField(max_digits=6, decimal_places=1)"
)
else: # Guessed arguments on SQLite, see #5014
assertFieldType(
"decimal_field",
"models.DecimalField(max_digits=10, decimal_places=5) "
"# max_digits and decimal_places have been guessed, "
"as this database handles decimal fields as float",
)
assertFieldType("float_field", "models.FloatField()")
assertFieldType(
"int_field", "models.%s()" % introspected_field_types["IntegerField"]
)
assertFieldType(
"pos_int_field",
"models.%s()" % introspected_field_types["PositiveIntegerField"],
)
assertFieldType(
"pos_big_int_field",
"models.%s()" % introspected_field_types["PositiveBigIntegerField"],
)
assertFieldType(
"pos_small_int_field",
"models.%s()" % introspected_field_types["PositiveSmallIntegerField"],
)
assertFieldType(
"small_int_field",
"models.%s()" % introspected_field_types["SmallIntegerField"],
)
@skipUnlessDBFeature("can_introspect_foreign_keys")
def test_attribute_name_not_python_keyword(self):
out = StringIO()
call_command("inspectdb", table_name_filter=inspectdb_tables_only, stdout=out)
output = out.getvalue()
error_message = (
"inspectdb generated an attribute name which is a Python keyword"
)
# Recursive foreign keys should be set to 'self'
self.assertIn("parent = models.ForeignKey('self', models.DO_NOTHING)", output)
self.assertNotIn(
"from = models.ForeignKey(InspectdbPeople, models.DO_NOTHING)",
output,
msg=error_message,
)
# As InspectdbPeople model is defined after InspectdbMessage, it should
# be quoted.
self.assertIn(
"from_field = models.ForeignKey('InspectdbPeople', models.DO_NOTHING, "
"db_column='from_id')",
output,
)
self.assertIn(
"people_pk = models.OneToOneField(InspectdbPeople, models.DO_NOTHING, "
"primary_key=True)",
output,
)
self.assertIn(
"people_unique = models.OneToOneField(InspectdbPeople, models.DO_NOTHING)",
output,
)
@skipUnlessDBFeature("can_introspect_foreign_keys")
def test_foreign_key_to_field(self):
out = StringIO()
call_command("inspectdb", "inspectdb_foreignkeytofield", stdout=out)
self.assertIn(
"to_field_fk = models.ForeignKey('InspectdbPeoplemoredata', "
"models.DO_NOTHING, to_field='people_unique_id')",
out.getvalue(),
)
def test_digits_column_name_introspection(self):
"""Introspection of column names consist/start with digits (#16536/#17676)"""
char_field_type = connection.features.introspected_field_types["CharField"]
out = StringIO()
call_command("inspectdb", "inspectdb_digitsincolumnname", stdout=out)
output = out.getvalue()
error_message = "inspectdb generated a model field name which is a number"
self.assertNotIn(
" 123 = models.%s" % char_field_type, output, msg=error_message
)
self.assertIn("number_123 = models.%s" % char_field_type, output)
error_message = (
"inspectdb generated a model field name which starts with a digit"
)
self.assertNotIn(
" 4extra = models.%s" % char_field_type, output, msg=error_message
)
self.assertIn("number_4extra = models.%s" % char_field_type, output)
self.assertNotIn(
" 45extra = models.%s" % char_field_type, output, msg=error_message
)
self.assertIn("number_45extra = models.%s" % char_field_type, output)
def test_special_column_name_introspection(self):
"""
Introspection of column names containing special characters,
unsuitable for Python identifiers
"""
out = StringIO()
call_command("inspectdb", table_name_filter=special_table_only, stdout=out)
output = out.getvalue()
base_name = connection.introspection.identifier_converter("Field")
integer_field_type = connection.features.introspected_field_types[
"IntegerField"
]
self.assertIn("field = models.%s()" % integer_field_type, output)
self.assertIn(
"field_field = models.%s(db_column='%s_')"
% (integer_field_type, base_name),
output,
)
self.assertIn(
"field_field_0 = models.%s(db_column='%s__')"
% (integer_field_type, base_name),
output,
)
self.assertIn(
"field_field_1 = models.%s(db_column='__field')" % integer_field_type,
output,
)
self.assertIn(
"prc_x = models.{}(db_column='prc(%) x')".format(integer_field_type), output
)
self.assertIn("tamaño = models.%s()" % integer_field_type, output)
def test_table_name_introspection(self):
"""
Introspection of table names containing special characters,
unsuitable for Python identifiers
"""
out = StringIO()
call_command("inspectdb", table_name_filter=special_table_only, stdout=out)
output = out.getvalue()
self.assertIn("class InspectdbSpecialTableName(models.Model):", output)
def test_custom_normalize_table_name(self):
def pascal_case_table_only(table_name):
return table_name.startswith("inspectdb_pascal")
class MyCommand(inspectdb.Command):
def normalize_table_name(self, table_name):
normalized_name = table_name.split(".")[1]
if connection.features.ignores_table_name_case:
normalized_name = normalized_name.lower()
return normalized_name
out = StringIO()
call_command(MyCommand(), table_name_filter=pascal_case_table_only, stdout=out)
if connection.features.ignores_table_name_case:
expected_model_name = "pascalcase"
else:
expected_model_name = "PascalCase"
self.assertIn(f"class {expected_model_name}(models.Model):", out.getvalue())
@skipUnlessDBFeature("supports_expression_indexes")
def test_table_with_func_unique_constraint(self):
out = StringIO()
call_command("inspectdb", "inspectdb_funcuniqueconstraint", stdout=out)
output = out.getvalue()
self.assertIn("class InspectdbFuncuniqueconstraint(models.Model):", output)
def test_managed_models(self):
"""
By default the command generates models with `Meta.managed = False`.
"""
out = StringIO()
call_command("inspectdb", "inspectdb_columntypes", stdout=out)
output = out.getvalue()
self.longMessage = False
self.assertIn(
" managed = False",
output,
msg="inspectdb should generate unmanaged models.",
)
def test_unique_together_meta(self):
out = StringIO()
call_command("inspectdb", "inspectdb_uniquetogether", stdout=out)
output = out.getvalue()
self.assertIn(" unique_together = (('", output)
unique_together_match = self.unique_re.findall(output)
# There should be one unique_together tuple.
self.assertEqual(len(unique_together_match), 1)
fields = unique_together_match[0]
# Fields with db_column = field name.
self.assertIn("('field1', 'field2')", fields)
# Fields from columns whose names are Python keywords.
self.assertIn("('field1', 'field2')", fields)
# Fields whose names normalize to the same Python field name and hence
# are given an integer suffix.
self.assertIn("('non_unique_column', 'non_unique_column_0')", fields)
@skipUnless(connection.vendor == "postgresql", "PostgreSQL specific SQL")
def test_unsupported_unique_together(self):
"""Unsupported index types (COALESCE here) are skipped."""
with connection.cursor() as c:
c.execute(
"CREATE UNIQUE INDEX Findex ON %s "
"(id, people_unique_id, COALESCE(message_id, -1))"
% PeopleMoreData._meta.db_table
)
try:
out = StringIO()
call_command(
"inspectdb",
table_name_filter=lambda tn: tn.startswith(
PeopleMoreData._meta.db_table
),
stdout=out,
)
output = out.getvalue()
self.assertIn("# A unique constraint could not be introspected.", output)
self.assertEqual(
self.unique_re.findall(output), ["('id', 'people_unique')"]
)
finally:
with connection.cursor() as c:
c.execute("DROP INDEX Findex")
@skipUnless(
connection.vendor == "sqlite",
"Only patched sqlite's DatabaseIntrospection.data_types_reverse for this test",
)
def test_custom_fields(self):
"""
Introspection of columns with a custom field (#21090)
"""
out = StringIO()
with mock.patch(
"django.db.connection.introspection.data_types_reverse."
"base_data_types_reverse",
{
"text": "myfields.TextField",
"bigint": "BigIntegerField",
},
):
call_command("inspectdb", "inspectdb_columntypes", stdout=out)
output = out.getvalue()
self.assertIn("text_field = myfields.TextField()", output)
self.assertIn("big_int_field = models.BigIntegerField()", output)
def test_introspection_errors(self):
"""
Introspection errors should not crash the command, and the error should
be visible in the output.
"""
out = StringIO()
with mock.patch(
"django.db.connection.introspection.get_table_list",
return_value=[TableInfo(name="nonexistent", type="t")],
):
call_command("inspectdb", stdout=out)
output = out.getvalue()
self.assertIn("# Unable to inspect table 'nonexistent'", output)
# The error message depends on the backend
self.assertIn("# The error was:", output)
def test_same_relations(self):
out = StringIO()
call_command("inspectdb", "inspectdb_message", stdout=out)
self.assertIn(
"author = models.ForeignKey('InspectdbPeople', models.DO_NOTHING, "
"related_name='inspectdbmessage_author_set')",
out.getvalue(),
)
class InspectDBTransactionalTests(TransactionTestCase):
available_apps = ["inspectdb"]
def test_include_views(self):
"""inspectdb --include-views creates models for database views."""
with connection.cursor() as cursor:
cursor.execute(
"CREATE VIEW inspectdb_people_view AS "
"SELECT id, name FROM inspectdb_people"
)
out = StringIO()
view_model = "class InspectdbPeopleView(models.Model):"
view_managed = "managed = False # Created from a view."
try:
call_command(
"inspectdb",
table_name_filter=inspectdb_views_only,
stdout=out,
)
no_views_output = out.getvalue()
self.assertNotIn(view_model, no_views_output)
self.assertNotIn(view_managed, no_views_output)
call_command(
"inspectdb",
table_name_filter=inspectdb_views_only,
include_views=True,
stdout=out,
)
with_views_output = out.getvalue()
self.assertIn(view_model, with_views_output)
self.assertIn(view_managed, with_views_output)
finally:
with connection.cursor() as cursor:
cursor.execute("DROP VIEW inspectdb_people_view")
@skipUnlessDBFeature("can_introspect_materialized_views")
def test_include_materialized_views(self):
"""inspectdb --include-views creates models for materialized views."""
with connection.cursor() as cursor:
cursor.execute(
"CREATE MATERIALIZED VIEW inspectdb_people_materialized AS "
"SELECT id, name FROM inspectdb_people"
)
out = StringIO()
view_model = "class InspectdbPeopleMaterialized(models.Model):"
view_managed = "managed = False # Created from a view."
try:
call_command(
"inspectdb",
table_name_filter=inspectdb_views_only,
stdout=out,
)
no_views_output = out.getvalue()
self.assertNotIn(view_model, no_views_output)
self.assertNotIn(view_managed, no_views_output)
call_command(
"inspectdb",
table_name_filter=inspectdb_views_only,
include_views=True,
stdout=out,
)
with_views_output = out.getvalue()
self.assertIn(view_model, with_views_output)
self.assertIn(view_managed, with_views_output)
finally:
with connection.cursor() as cursor:
cursor.execute("DROP MATERIALIZED VIEW inspectdb_people_materialized")
@skipUnless(connection.vendor == "postgresql", "PostgreSQL specific SQL")
def test_include_partitions(self):
"""inspectdb --include-partitions creates models for partitions."""
with connection.cursor() as cursor:
cursor.execute(
"""\
CREATE TABLE inspectdb_partition_parent (name text not null)
PARTITION BY LIST (left(upper(name), 1))
"""
)
cursor.execute(
"""\
CREATE TABLE inspectdb_partition_child
PARTITION OF inspectdb_partition_parent
FOR VALUES IN ('A', 'B', 'C')
"""
)
out = StringIO()
partition_model_parent = "class InspectdbPartitionParent(models.Model):"
partition_model_child = "class InspectdbPartitionChild(models.Model):"
partition_managed = "managed = False # Created from a partition."
try:
call_command(
"inspectdb", table_name_filter=inspectdb_tables_only, stdout=out
)
no_partitions_output = out.getvalue()
self.assertIn(partition_model_parent, no_partitions_output)
self.assertNotIn(partition_model_child, no_partitions_output)
self.assertNotIn(partition_managed, no_partitions_output)
call_command(
"inspectdb",
table_name_filter=inspectdb_tables_only,
include_partitions=True,
stdout=out,
)
with_partitions_output = out.getvalue()
self.assertIn(partition_model_parent, with_partitions_output)
self.assertIn(partition_model_child, with_partitions_output)
self.assertIn(partition_managed, with_partitions_output)
finally:
with connection.cursor() as cursor:
cursor.execute("DROP TABLE IF EXISTS inspectdb_partition_child")
cursor.execute("DROP TABLE IF EXISTS inspectdb_partition_parent")
@skipUnless(connection.vendor == "postgresql", "PostgreSQL specific SQL")
def test_foreign_data_wrapper(self):
with connection.cursor() as cursor:
cursor.execute("CREATE EXTENSION IF NOT EXISTS file_fdw")
cursor.execute(
"CREATE SERVER inspectdb_server FOREIGN DATA WRAPPER file_fdw"
)
cursor.execute(
"""
CREATE FOREIGN TABLE inspectdb_iris_foreign_table (
petal_length real,
petal_width real,
sepal_length real,
sepal_width real
) SERVER inspectdb_server OPTIONS (
program 'echo 1,2,3,4',
format 'csv'
)
"""
)
out = StringIO()
foreign_table_model = "class InspectdbIrisForeignTable(models.Model):"
foreign_table_managed = "managed = False"
try:
call_command(
"inspectdb",
table_name_filter=inspectdb_tables_only,
stdout=out,
)
output = out.getvalue()
self.assertIn(foreign_table_model, output)
self.assertIn(foreign_table_managed, output)
finally:
with connection.cursor() as cursor:
cursor.execute(
"DROP FOREIGN TABLE IF EXISTS inspectdb_iris_foreign_table"
)
cursor.execute("DROP SERVER IF EXISTS inspectdb_server")
cursor.execute("DROP EXTENSION IF EXISTS file_fdw")
@skipUnlessDBFeature("create_test_table_with_composite_primary_key")
def test_composite_primary_key(self):
table_name = "test_table_composite_pk"
with connection.cursor() as cursor:
cursor.execute(
connection.features.create_test_table_with_composite_primary_key
)
out = StringIO()
if connection.vendor == "sqlite":
field_type = connection.features.introspected_field_types["AutoField"]
else:
field_type = connection.features.introspected_field_types["IntegerField"]
try:
call_command("inspectdb", table_name, stdout=out)
output = out.getvalue()
self.assertIn(
f"column_1 = models.{field_type}(primary_key=True) # The composite "
f"primary key (column_1, column_2) found, that is not supported. The "
f"first column is selected.",
output,
)
self.assertIn(
"column_2 = models.%s()"
% connection.features.introspected_field_types["IntegerField"],
output,
)
finally:
with connection.cursor() as cursor:
cursor.execute("DROP TABLE %s" % table_name)