382 lines
17 KiB
Python
382 lines
17 KiB
Python
import contextlib
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import copy
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from decimal import Decimal
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from django.apps.registry import Apps
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from django.db.backends.base.schema import BaseDatabaseSchemaEditor
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from django.db.backends.ddl_references import Statement
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from django.db.transaction import atomic
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from django.db.utils import NotSupportedError
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class DatabaseSchemaEditor(BaseDatabaseSchemaEditor):
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sql_delete_table = "DROP TABLE %(table)s"
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sql_create_fk = None
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sql_create_inline_fk = "REFERENCES %(to_table)s (%(to_column)s) DEFERRABLE INITIALLY DEFERRED"
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sql_create_unique = "CREATE UNIQUE INDEX %(name)s ON %(table)s (%(columns)s)"
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sql_delete_unique = "DROP INDEX %(name)s"
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def __enter__(self):
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# Some SQLite schema alterations need foreign key constraints to be
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# disabled. Enforce it here for the duration of the transaction.
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self.connection.disable_constraint_checking()
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return super().__enter__()
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def __exit__(self, exc_type, exc_value, traceback):
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super().__exit__(exc_type, exc_value, traceback)
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self.connection.enable_constraint_checking()
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def quote_value(self, value):
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# The backend "mostly works" without this function and there are use
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# cases for compiling Python without the sqlite3 libraries (e.g.
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# security hardening).
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try:
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import sqlite3
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value = sqlite3.adapt(value)
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except ImportError:
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pass
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except sqlite3.ProgrammingError:
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pass
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# Manual emulation of SQLite parameter quoting
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if isinstance(value, bool):
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return str(int(value))
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elif isinstance(value, (Decimal, float, int)):
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return str(value)
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elif isinstance(value, str):
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return "'%s'" % value.replace("\'", "\'\'")
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elif value is None:
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return "NULL"
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elif isinstance(value, (bytes, bytearray, memoryview)):
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# Bytes are only allowed for BLOB fields, encoded as string
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# literals containing hexadecimal data and preceded by a single "X"
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# character.
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return "X'%s'" % value.hex()
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else:
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raise ValueError("Cannot quote parameter value %r of type %s" % (value, type(value)))
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def _is_referenced_by_fk_constraint(self, table_name, column_name=None, ignore_self=False):
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"""
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Return whether or not the provided table name is referenced by another
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one. If `column_name` is specified, only references pointing to that
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column are considered. If `ignore_self` is True, self-referential
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constraints are ignored.
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"""
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with self.connection.cursor() as cursor:
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for other_table in self.connection.introspection.get_table_list(cursor):
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if ignore_self and other_table.name == table_name:
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continue
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constraints = self.connection.introspection._get_foreign_key_constraints(cursor, other_table.name)
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for constraint in constraints.values():
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constraint_table, constraint_column = constraint['foreign_key']
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if (constraint_table == table_name and
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(column_name is None or constraint_column == column_name)):
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return True
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return False
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def alter_db_table(self, model, old_db_table, new_db_table, disable_constraints=True):
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if disable_constraints and self._is_referenced_by_fk_constraint(old_db_table):
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if self.connection.in_atomic_block:
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raise NotSupportedError((
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'Renaming the %r table while in a transaction is not '
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'supported on SQLite because it would break referential '
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'integrity. Try adding `atomic = False` to the Migration class.'
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) % old_db_table)
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self.connection.enable_constraint_checking()
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super().alter_db_table(model, old_db_table, new_db_table)
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self.connection.disable_constraint_checking()
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else:
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super().alter_db_table(model, old_db_table, new_db_table)
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def alter_field(self, model, old_field, new_field, strict=False):
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old_field_name = old_field.name
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table_name = model._meta.db_table
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_, old_column_name = old_field.get_attname_column()
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if (new_field.name != old_field_name and
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self._is_referenced_by_fk_constraint(table_name, old_column_name, ignore_self=True)):
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if self.connection.in_atomic_block:
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raise NotSupportedError((
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'Renaming the %r.%r column while in a transaction is not '
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'supported on SQLite because it would break referential '
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'integrity. Try adding `atomic = False` to the Migration class.'
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) % (model._meta.db_table, old_field_name))
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with atomic(self.connection.alias):
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super().alter_field(model, old_field, new_field, strict=strict)
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# Follow SQLite's documented procedure for performing changes
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# that don't affect the on-disk content.
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# https://sqlite.org/lang_altertable.html#otheralter
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with self.connection.cursor() as cursor:
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schema_version = cursor.execute('PRAGMA schema_version').fetchone()[0]
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cursor.execute('PRAGMA writable_schema = 1')
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references_template = ' REFERENCES "%s" ("%%s") ' % table_name
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new_column_name = new_field.get_attname_column()[1]
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search = references_template % old_column_name
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replacement = references_template % new_column_name
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cursor.execute('UPDATE sqlite_master SET sql = replace(sql, %s, %s)', (search, replacement))
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cursor.execute('PRAGMA schema_version = %d' % (schema_version + 1))
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cursor.execute('PRAGMA writable_schema = 0')
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# The integrity check will raise an exception and rollback
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# the transaction if the sqlite_master updates corrupt the
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# database.
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cursor.execute('PRAGMA integrity_check')
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# Perform a VACUUM to refresh the database representation from
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# the sqlite_master table.
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with self.connection.cursor() as cursor:
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cursor.execute('VACUUM')
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else:
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super().alter_field(model, old_field, new_field, strict=strict)
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def _remake_table(self, model, create_field=None, delete_field=None, alter_field=None,
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add_constraint=None, remove_constraint=None):
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"""
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Shortcut to transform a model from old_model into new_model
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The essential steps are:
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1. rename the model's existing table, e.g. "app_model" to "app_model__old"
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2. create a table with the updated definition called "app_model"
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3. copy the data from the old renamed table to the new table
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4. delete the "app_model__old" table
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"""
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# Self-referential fields must be recreated rather than copied from
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# the old model to ensure their remote_field.field_name doesn't refer
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# to an altered field.
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def is_self_referential(f):
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return f.is_relation and f.remote_field.model is model
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# Work out the new fields dict / mapping
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body = {
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f.name: f.clone() if is_self_referential(f) else f
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for f in model._meta.local_concrete_fields
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}
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# Since mapping might mix column names and default values,
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# its values must be already quoted.
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mapping = {f.column: self.quote_name(f.column) for f in model._meta.local_concrete_fields}
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# This maps field names (not columns) for things like unique_together
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rename_mapping = {}
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# If any of the new or altered fields is introducing a new PK,
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# remove the old one
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restore_pk_field = None
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if getattr(create_field, 'primary_key', False) or (
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alter_field and getattr(alter_field[1], 'primary_key', False)):
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for name, field in list(body.items()):
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if field.primary_key:
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field.primary_key = False
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restore_pk_field = field
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if field.auto_created:
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del body[name]
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del mapping[field.column]
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# Add in any created fields
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if create_field:
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body[create_field.name] = create_field
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# Choose a default and insert it into the copy map
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if not create_field.many_to_many and create_field.concrete:
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mapping[create_field.column] = self.quote_value(
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self.effective_default(create_field)
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)
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# Add in any altered fields
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if alter_field:
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old_field, new_field = alter_field
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body.pop(old_field.name, None)
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mapping.pop(old_field.column, None)
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body[new_field.name] = new_field
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if old_field.null and not new_field.null:
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case_sql = "coalesce(%(col)s, %(default)s)" % {
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'col': self.quote_name(old_field.column),
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'default': self.quote_value(self.effective_default(new_field))
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}
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mapping[new_field.column] = case_sql
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else:
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mapping[new_field.column] = self.quote_name(old_field.column)
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rename_mapping[old_field.name] = new_field.name
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# Remove any deleted fields
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if delete_field:
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del body[delete_field.name]
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del mapping[delete_field.column]
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# Remove any implicit M2M tables
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if delete_field.many_to_many and delete_field.remote_field.through._meta.auto_created:
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return self.delete_model(delete_field.remote_field.through)
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# Work inside a new app registry
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apps = Apps()
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# Provide isolated instances of the fields to the new model body so
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# that the existing model's internals aren't interfered with when
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# the dummy model is constructed.
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body = copy.deepcopy(body)
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# Work out the new value of unique_together, taking renames into
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# account
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unique_together = [
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[rename_mapping.get(n, n) for n in unique]
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for unique in model._meta.unique_together
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]
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# Work out the new value for index_together, taking renames into
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# account
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index_together = [
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[rename_mapping.get(n, n) for n in index]
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for index in model._meta.index_together
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]
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indexes = model._meta.indexes
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if delete_field:
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indexes = [
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index for index in indexes
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if delete_field.name not in index.fields
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]
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constraints = list(model._meta.constraints)
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if add_constraint:
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constraints.append(add_constraint)
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if remove_constraint:
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constraints = [
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constraint for constraint in constraints
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if remove_constraint.name != constraint.name
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]
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# Construct a new model for the new state
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meta_contents = {
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'app_label': model._meta.app_label,
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'db_table': model._meta.db_table,
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'unique_together': unique_together,
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'index_together': index_together,
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'indexes': indexes,
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'constraints': constraints,
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'apps': apps,
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}
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meta = type("Meta", (), meta_contents)
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body['Meta'] = meta
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body['__module__'] = model.__module__
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temp_model = type(model._meta.object_name, model.__bases__, body)
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# We need to modify model._meta.db_table, but everything explodes
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# if the change isn't reversed before the end of this method. This
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# context manager helps us avoid that situation.
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@contextlib.contextmanager
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def altered_table_name(model, temporary_table_name):
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original_table_name = model._meta.db_table
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model._meta.db_table = temporary_table_name
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yield
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model._meta.db_table = original_table_name
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with altered_table_name(model, model._meta.db_table + "__old"):
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# Rename the old table to make way for the new
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self.alter_db_table(
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model, temp_model._meta.db_table, model._meta.db_table,
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disable_constraints=False,
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)
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# Create a new table with the updated schema.
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self.create_model(temp_model)
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# Copy data from the old table into the new table
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field_maps = list(mapping.items())
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self.execute("INSERT INTO %s (%s) SELECT %s FROM %s" % (
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self.quote_name(temp_model._meta.db_table),
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', '.join(self.quote_name(x) for x, y in field_maps),
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', '.join(y for x, y in field_maps),
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self.quote_name(model._meta.db_table),
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))
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# Delete the old table
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self.delete_model(model, handle_autom2m=False)
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# Run deferred SQL on correct table
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for sql in self.deferred_sql:
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self.execute(sql)
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self.deferred_sql = []
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# Fix any PK-removed field
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if restore_pk_field:
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restore_pk_field.primary_key = True
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def delete_model(self, model, handle_autom2m=True):
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if handle_autom2m:
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super().delete_model(model)
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else:
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# Delete the table (and only that)
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self.execute(self.sql_delete_table % {
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"table": self.quote_name(model._meta.db_table),
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})
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# Remove all deferred statements referencing the deleted table.
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for sql in list(self.deferred_sql):
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if isinstance(sql, Statement) and sql.references_table(model._meta.db_table):
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self.deferred_sql.remove(sql)
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def add_field(self, model, field):
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"""
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Create a field on a model. Usually involves adding a column, but may
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involve adding a table instead (for M2M fields).
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"""
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# Special-case implicit M2M tables
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if field.many_to_many and field.remote_field.through._meta.auto_created:
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return self.create_model(field.remote_field.through)
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self._remake_table(model, create_field=field)
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def remove_field(self, model, field):
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"""
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Remove a field from a model. Usually involves deleting a column,
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but for M2Ms may involve deleting a table.
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"""
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# M2M fields are a special case
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if field.many_to_many:
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# For implicit M2M tables, delete the auto-created table
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if field.remote_field.through._meta.auto_created:
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self.delete_model(field.remote_field.through)
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# For explicit "through" M2M fields, do nothing
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# For everything else, remake.
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else:
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# It might not actually have a column behind it
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if field.db_parameters(connection=self.connection)['type'] is None:
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return
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self._remake_table(model, delete_field=field)
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def _alter_field(self, model, old_field, new_field, old_type, new_type,
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old_db_params, new_db_params, strict=False):
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"""Perform a "physical" (non-ManyToMany) field update."""
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# Alter by remaking table
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self._remake_table(model, alter_field=(old_field, new_field))
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# Rebuild tables with FKs pointing to this field if the PK type changed.
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if old_field.primary_key and new_field.primary_key and old_type != new_type:
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for rel in new_field.model._meta.related_objects:
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if not rel.many_to_many:
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self._remake_table(rel.related_model)
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def _alter_many_to_many(self, model, old_field, new_field, strict):
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"""Alter M2Ms to repoint their to= endpoints."""
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if old_field.remote_field.through._meta.db_table == new_field.remote_field.through._meta.db_table:
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# The field name didn't change, but some options did; we have to propagate this altering.
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self._remake_table(
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old_field.remote_field.through,
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alter_field=(
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# We need the field that points to the target model, so we can tell alter_field to change it -
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# this is m2m_reverse_field_name() (as opposed to m2m_field_name, which points to our model)
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old_field.remote_field.through._meta.get_field(old_field.m2m_reverse_field_name()),
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new_field.remote_field.through._meta.get_field(new_field.m2m_reverse_field_name()),
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),
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)
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return
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# Make a new through table
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self.create_model(new_field.remote_field.through)
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# Copy the data across
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self.execute("INSERT INTO %s (%s) SELECT %s FROM %s" % (
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self.quote_name(new_field.remote_field.through._meta.db_table),
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', '.join([
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"id",
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new_field.m2m_column_name(),
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new_field.m2m_reverse_name(),
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]),
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', '.join([
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"id",
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old_field.m2m_column_name(),
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old_field.m2m_reverse_name(),
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]),
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self.quote_name(old_field.remote_field.through._meta.db_table),
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))
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# Delete the old through table
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self.delete_model(old_field.remote_field.through)
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def add_constraint(self, model, constraint):
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self._remake_table(model, add_constraint=constraint)
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def remove_constraint(self, model, constraint):
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self._remake_table(model, remove_constraint=constraint)
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