Transactions¶
Peewee provides several interfaces for working with transactions. The most
general is the Database.atomic() method, which also supports nested
transactions. atomic() blocks will be run in a transaction
or savepoint, depending on the level of nesting.
If an exception occurs in a wrapped block, the current transaction/savepoint will be rolled back. Otherwise the statements will be committed at the end of the wrapped block.
Note
While inside a block wrapped by the atomic() context
manager, you can explicitly rollback or commit at any point by calling
Transaction.rollback() or Transaction.commit(). When you
do this inside a wrapped block of code, a new transaction will be started
automatically.
with db.atomic() as transaction: # Opens new transaction.
try:
save_some_objects()
except ErrorSavingData:
# Because this block of code is wrapped with "atomic", a
# new transaction will begin automatically after the call
# to rollback().
transaction.rollback()
error_saving = True
create_report(error_saving=error_saving)
# Note: no need to call commit. Since this marks the end of the
# wrapped block of code, the `atomic` context manager will
# automatically call commit for us.
Note
atomic() can be used as either a context manager or
a decorator.
Context manager¶
Using atomic as context manager:
db = SqliteDatabase(':memory:')
with db.atomic() as txn:
# This is the outer-most level, so this block corresponds to
# a transaction.
User.create(username='charlie')
with db.atomic() as nested_txn:
# This block corresponds to a savepoint.
User.create(username='huey')
# This will roll back the above create() query.
nested_txn.rollback()
User.create(username='mickey')
# When the block ends, the transaction is committed (assuming no error
# occurs). At that point there will be two users, "charlie" and "mickey".
You can use the atomic method to perform get or create operations as
well:
try:
with db.atomic():
user = User.create(username=username)
return 'Success'
except peewee.IntegrityError:
return 'Failure: %s is already in use.' % username
Decorator¶
Using atomic as a decorator:
@db.atomic()
def create_user(username):
# This statement will run in a transaction. If the caller is already
# running in an `atomic` block, then a savepoint will be used instead.
return User.create(username=username)
create_user('charlie')
Nesting Transactions¶
atomic() provides transparent nesting of transactions. When
using atomic(), the outer-most call will be wrapped in a
transaction, and any nested calls will use savepoints.
with db.atomic() as txn:
perform_operation()
with db.atomic() as nested_txn:
perform_another_operation()
Peewee supports nested transactions through the use of savepoints (for more
information, see savepoint()).
Explicit transaction¶
If you wish to explicitly run code in a transaction, you can use
transaction(). Like atomic(),
transaction() can be used as a context manager or as a
decorator.
If an exception occurs in a wrapped block, the transaction will be rolled back. Otherwise the statements will be committed at the end of the wrapped block.
db = SqliteDatabase(':memory:')
with db.transaction() as txn:
# Delete the user and their associated tweets.
user.delete_instance(recursive=True)
Transactions can be explicitly committed or rolled-back within the wrapped block. When this happens, a new transaction will be started.
with db.transaction() as txn:
User.create(username='mickey')
txn.commit() # Changes are saved and a new transaction begins.
User.create(username='huey')
# Roll back. "huey" will not be saved, but since "mickey" was already
# committed, that row will remain in the database.
txn.rollback()
with db.transaction() as txn:
User.create(username='whiskers')
# Roll back changes, which removes "whiskers".
txn.rollback()
# Create a new row for "mr. whiskers" which will be implicitly committed
# at the end of the `with` block.
User.create(username='mr. whiskers')
Note
If you attempt to nest transactions with peewee using the
transaction() context manager, only the outer-most
transaction will be used. However if an exception occurs in a nested block,
this can lead to unpredictable behavior, so it is strongly recommended that
you use atomic().
Explicit Savepoints¶
Just as you can explicitly create transactions, you can also explicitly create
savepoints using the savepoint() method. Savepoints must
occur within a transaction, but can be nested arbitrarily deep.
with db.transaction() as txn:
with db.savepoint() as sp:
User.create(username='mickey')
with db.savepoint() as sp2:
User.create(username='zaizee')
sp2.rollback() # "zaizee" will not be saved, but "mickey" will be.
Warning
If you manually commit or roll back a savepoint, a new savepoint will
not automatically be created. This differs from the behavior of
transaction, which will automatically open a new transaction
after manual commit/rollback.
Autocommit Mode¶
By default, Peewee operates in autocommit mode, such that any statements
executed outside of a transaction are run in their own transaction. To group
multiple statements into a transaction, Peewee provides the
atomic() context-manager/decorator. This should cover all
use-cases, but in the unlikely event you want to temporarily disable Peewee’s
transaction management completely, you can use the
Database.manual_commit() context-manager/decorator.
Here is how you might emulate the behavior of the
transaction() context manager:
with db.manual_commit():
db.begin() # Have to begin transaction explicitly.
try:
user.delete_instance(recursive=True)
except:
db.rollback() # Rollback! An error occurred.
raise
else:
try:
db.commit() # Commit changes.
except:
db.rollback()
raise
Again – I don’t anticipate anyone needing this, but it’s here just in case.