Unit of Work and Transactions
MikroORM uses the Identity Map pattern to track objects. Whenever you fetch an object from
the database, MikroORM will keep a reference to this object inside its UnitOfWork.
This allows MikroORM room for optimizations. If you call the EntityManager and ask for an entity with a specific ID twice, it will return the same instance:
Only one SELECT query will be fired against the database here. In the second findOne()
call MikroORM will check the identity map first and will skip the database round trip as
it will find the entity already loaded.
The identity map being indexed by primary keys only allows shortcuts when you ask for objects by primary key. When you query by other properties, you will still get the same reference, but two separate database calls will be made:
MikroORM only knows objects by id, so a query for different criteria has to go to the database,
even if it was executed just before. But instead of creating a second Author object MikroORM
first gets the primary key from the row and checks if it already has an object inside the
UnitOfWork with that primary key.
Persisting Managed Entities#
The identity map has a second use-case. When you call em.flush(), MikroORM will
ask the identity map for all objects that are currently managed. This means you don't have to
call em.persist() over and over again to pass known objects to the
EntityManager. This is a NO-OP for known entities, but leads to much code written that is
confusing to other developers.
The following code WILL update your database with the changes made to the Author object,
even if you did not call em.persist():
How MikroORM Detects Changes#
MikroORM is a data-mapper that tries to achieve persistence-ignorance (PI). This means you map JS objects into a relational database that do not necessarily know about the database at all. A natural question would now be, "how does MikroORM even detect objects have changed?".
For this MikroORM keeps a second map inside the UnitOfWork. Whenever you fetch an object
from the database MikroORM will keep a copy of all the properties and associations inside
the UnitOfWork.
Now whenever you call em.flush() MikroORM will iterate over all entities you
previously marked for persisting via em.persist(). For each object it will
compare the original property and association values with the values that are currently set
on the object. If changes are detected then the object is queued for a UPDATE operation.
Only the fields that actually changed are updated.
Implicit Transactions#
First and most important implication of having Unit of Work is that it allows handling transactions automatically.
When you call em.flush(), all computed changes are queried inside a database
transaction (if supported by given driver). This means that you can control the boundaries
of transactions simply by calling em.persist() and once all your changes
are ready, simply calling flush() will run them inside a transaction.
You can also control the transaction boundaries manually via
em.transactional(cb).
You can find more information about transactions in Transactions and concurrency page.
This part of documentation is highly inspired by doctrine internals docs as the behaviour here is pretty much the same.