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Let's say I have a desktop app that acts as a garage for a bunch of cars:

@Entity
public class Garage {
    private List<Car> cars = new ArrayList<Car>();
    ...
}

The desktop app has a "simulation" button that starts a new thread and starts calling methods on the Garage, Car, Wheel, etc etc. This simulation can take as long as 10 minutes to run. At the moment I have a class that looks like this:

beginTransaction();
Garage garage = garageDao.findGarage(1);
List<Car> cars = garage.getCars();
for (Car car : cars) {
    // call methods on the car to lazily fetch other things like wheels...
}
commitTransaction();

This code only does "reads" and never "writes"

So the above can take a long time depending on how badly the cars need a service. While the above is happening, the user may continue working using the desktop app. They may choose to change the color of a car that is being used in the above transaction.

My question is whether the above long transaction is going to prevent the changing of the car color? i.e. the user changing the color of the car in the desktop app will be prevented from committing the change until the long transaction is finished?

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Why do you need a transaction to read? Are you using lazy fetching? –  saugata Dec 20 '10 at 7:18
    
Must the 'update thread' be a single transactional unit? Or are there no updates? You say "This code only does 'reads' and never 'writes'. Then - like saugata asked - why do you need transactions? –  Steven K. Dec 20 '10 at 7:36
    
yes the methods that are called on a Car could be something like getWheels() and they are being lazily fetched –  digiarnie Dec 20 '10 at 8:12

3 Answers 3

up vote 4 down vote accepted

Why should it? You're, by default, using optimistic transactions, so there is no locking to be applied to rows being read (unless you're not showing us some JPA2 lock() calls). Commit of the transaction should then check on optimistic version of the records (if you have a version defined) and use that to decide whether to commit the changes.

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nope, no lock() calls –  digiarnie Dec 20 '10 at 8:13

The answer will most likely depend on which database you use, and more important which transaction isolation level.

But the answer is in general no: They should not block(But as I said, depend on database and transaction level).

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As above:

Normally, read-only operations should not block write operations in a database. So your long, reading thread should not block the short write operations.

I suppose it is possible to configure an isolation level for your database and connection that writes can be blocked by long reading statements but this is NOT the default on any of the database types I know.

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