Are you using asynchronous or synchronous execution modes? The difference between them is that asynchronous execution runs in the background while your application continues to run. Your application will then have to listen for a dispatched event and then carry out any subsequent operations. In synchronous mode, however, the user will not be able to interact with the application until the database operation is complete since those operations run in the same execution sequence as the application. Synchronous mode is conceptually simpler to implement, but asynchronous mode will yield better usability.
The first time
SQLStatement.execute() on a
SQLStatement instance, the statement is prepared automatically before executing. Subsequent calls will execute faster as long as the
SQLStatement.text property has not changed. Using the same
SQLStatement instances is better than creating new instances again and again. If you need to change your queries, then consider using parameterized statements.
You can also use techniques such as deferring what data you need at runtime. If you only need a subset of data, pull that back first and then retrieve other data as necessary. This may depend on your application scope and what needs you have to fulfill though.
Specifying the database with the table names will prevent the runtime from checking each database to find a matching table if you have multiple databases. It also helps prevent the runtime will choose the wrong database if this isn't specified. Do
SELECT email FROM main.users; instead of
SELECT email FROM users; even if you only have one single database. (
main is automatically assigned as the database name when you call
If you happen to be writing lots of changes to the database (multiple
UPDATE statements), then consider wrapping it in a transaction. Changes will made in memory by the runtime and then written to disk. If you don't use a transaction, each statement will result in multiple disk writes to the database file which can be slow and consume lots of time.
Try to avoid any schema changes. The table definition data is kept at the start of the database file. The runtime loads these definitions when the database connection is opened. Data added to tables is kept after the table definition data in the database file. If changes such as adding columns or tables, the new table definitions will be mixed in with table data in the database file. The effect of this is that the runtime will have to read the table definition data from different parts of the file rather than at the beginning. The
SQLConnection.compact() method restructures the table definition data so it is at the the beginning of the file, but its downside is that this method can also consume much time and more so if the database file is large.
Lastly, as Benoit pointed out in his comment, consider improving your own SQL queries and table structure that you're using. It would be helpful to know your database structure and queries are the actual cause of the slow performance or not. My guess is that you're using synchronous execution. If you switch to asynchronous mode, you'll see better performance but that doesn't mean it has to stop there.
The Adobe Flex documentation online has more information on improving database performance and best practices working with local SQL databases.