import psycopg2 from django.db.backends.base.schema import BaseDatabaseSchemaEditor class DatabaseSchemaEditor(BaseDatabaseSchemaEditor): sql_alter_column_type = "ALTER COLUMN %(column)s TYPE %(type)s USING %(column)s::%(type)s" sql_create_sequence = "CREATE SEQUENCE %(sequence)s" sql_delete_sequence = "DROP SEQUENCE IF EXISTS %(sequence)s CASCADE" sql_set_sequence_max = "SELECT setval('%(sequence)s', MAX(%(column)s)) FROM %(table)s" sql_create_varchar_index = "CREATE INDEX %(name)s ON %(table)s (%(columns)s varchar_pattern_ops)%(extra)s" sql_create_text_index = "CREATE INDEX %(name)s ON %(table)s (%(columns)s text_pattern_ops)%(extra)s" def quote_value(self, value): return psycopg2.extensions.adapt(value) def add_field(self, model, field): super(DatabaseSchemaEditor, self).add_field(model, field) like_index_statement = self._create_like_index_sql(model, field) if like_index_statement is not None: self.deferred_sql.append(like_index_statement) def _model_indexes_sql(self, model): output = super(DatabaseSchemaEditor, self)._model_indexes_sql(model) if not model._meta.managed or model._meta.proxy or model._meta.swapped: return output for field in model._meta.local_fields: like_index_statement = self._create_like_index_sql(model, field) if like_index_statement is not None: output.append(like_index_statement) return output def _create_like_index_sql(self, model, field): """ Return the statement to create an index with varchar operator pattern when the column type is 'varchar' or 'text', otherwise return None. """ db_type = field.db_type(connection=self.connection) if db_type is not None and (field.db_index or field.unique): # Fields with database column types of `varchar` and `text` need # a second index that specifies their operator class, which is # needed when performing correct LIKE queries outside the # C locale. See #12234. # # The same doesn't apply to array fields such as varchar[size] # and text[size], so skip them. if '[' in db_type: return None if db_type.startswith('varchar'): return self._create_index_sql(model, [field], suffix='_like', sql=self.sql_create_varchar_index) elif db_type.startswith('text'): return self._create_index_sql(model, [field], suffix='_like', sql=self.sql_create_text_index) return None def _alter_column_type_sql(self, table, old_field, new_field, new_type): """ Makes ALTER TYPE with SERIAL make sense. """ if new_type.lower() == "serial": column = new_field.column sequence_name = "%s_%s_seq" % (table, column) return ( ( self.sql_alter_column_type % { "column": self.quote_name(column), "type": "integer", }, [], ), [ ( self.sql_delete_sequence % { "sequence": self.quote_name(sequence_name), }, [], ), ( self.sql_create_sequence % { "sequence": self.quote_name(sequence_name), }, [], ), ( self.sql_alter_column % { "table": self.quote_name(table), "changes": self.sql_alter_column_default % { "column": self.quote_name(column), "default": "nextval('%s')" % self.quote_name(sequence_name), } }, [], ), ( self.sql_set_sequence_max % { "table": self.quote_name(table), "column": self.quote_name(column), "sequence": self.quote_name(sequence_name), }, [], ), ], ) else: return super(DatabaseSchemaEditor, self)._alter_column_type_sql( table, old_field, new_field, new_type ) def _alter_field(self, model, old_field, new_field, old_type, new_type, old_db_params, new_db_params, strict=False): super(DatabaseSchemaEditor, self)._alter_field( model, old_field, new_field, old_type, new_type, old_db_params, new_db_params, strict, ) # Added an index? Create any PostgreSQL-specific indexes. if not old_field.db_index and not old_field.unique and (new_field.db_index or new_field.unique): like_index_statement = self._create_like_index_sql(model, new_field) if like_index_statement is not None: self.execute(like_index_statement) # Removed an index? Drop any PostgreSQL-specific indexes. if (old_field.db_index or old_field.unique) and not (new_field.db_index or new_field.unique): index_to_remove = self._create_index_name(model, [old_field.column], suffix='_like') index_names = self._constraint_names(model, [old_field.column], index=True) for index_name in index_names: if index_name == index_to_remove: self.execute(self._delete_constraint_sql(self.sql_delete_index, model, index_name))