NAME
ORLite - Extremely light weight SQLite-specific ORM
SYNOPSIS
package Foo;
use strict;
use ORLite 'data/sqlite.db';
my @cool_kids = Foo::Person->select('where first_name = ?', 'Adam');
1;
DESCRIPTION
THIS CODE IS EXPERIMENTAL AND SUBJECT TO CHANGE WITHOUT NOTICE
YOU HAVE BEEN WARNED!
SQLite is a light weight single file SQL database that provides an excellent platform for embedded storage of structured data.
However, while it is superficially similar to a regular server-side SQL database, SQLite has some significant attributes that make using it like a traditional database difficult.
For example, SQLite is extremely fast to connect to compared to server databases (1000 connections per second is not unknown) and is particularly bad at concurrency, as it can only lock transactions at a database-wide level.
This role as a superfast internal data store can clash with the roles and designs of traditional object-relational modules like Class::DBI or DBIx::Class.
What this situation would seem to need is an object-relation system that is designed specifically for SQLite and is aligned with its idiosyncracies.
ORLite is an object-relation system specifically for SQLite that follows many of the same principles as the ::Tiny series of modules and has a design that aligns directly to the capabilities of SQLite.
Further documentation will be available at a later time, but the synopsis gives a pretty good idea of how it will work.
How it Works
In short, ORLite discovers the schema of a SQLite database, and then uses code generation to build a set of packages for talking to that database.
In the simplest form, your target root package "uses" ORLite, which will do the schema discovery and code generation at compile-time.
When called, ORLite generates two types of package.
Firstly, it builds database connectivity, transaction support, and other purely database level functionality into your root namespace.
Then it will create one sub-package underneath the root package for each table contained in the database.
ROOT PACKAGE METHODS
All ORLite root packages receive an identical set of methods for controlling connections to the database, transactions, and the issueing of queries of various types to the database.
The example root package Foo::Bar is used in any examples.
All methods are static, ORLite does not allow the creation of a Foo::Bar object (although you may wish to add this capability yourself).
dsn
my $string = Foo::Bar->dsn;
The dsn
accessor returns the dbi connection string used to connect to the SQLite database as a string.
dbh
my $handle = Foo::Bar->dbh;
To reliably prevent potential SQLite deadlocks resulting from multiple connections in a single process, each ORLite package will only ever maintain a single connection to the database.
During a transaction, this will be the same (cached) database handle.
Although in most situations you should not need a direct DBI connection handle, the dbh
method provides a method for getting a direct connection in a way that is compatible with ORLite's connection management.
Please note that these connections should be short-lived, you should never hold onto a connection beyond the immediate scope.
The transaction system in ORLite is specifically designed so that code using the database should never have to know whether or not it is in a transation.
Because of this, you should never call the ->disconnect method on the database handles yourself, as the handle may be that of a currently running transaction.
Further, you should do your own transaction management on a handle provided by the <dbh> method.
In cases where there are extreme needs, and you absolutely have to violate these connection handling rules, you should create your own completely manual DBI->connect call to the database, using the connect string provided by the dsn
method.
The dbh
method returns a DBI::db object, or throws an exception on error.
begin
Foo::Bar->begin;
The begin
method indicates the start of a transaction.
In the same way that ORLite allows only a single connection, likewise it allows only a single application-wide transaction.
No indication is given as to whether you are currently in a transaction or not, all code should be written neutrally so that it works either way or doesn't need to care.
Returns true or throws an exception on error.
commit
Foo::Bar->commit;
The commit
method commits the current transaction. If called outside of a current transaction, it is accepted and treated as a null operation.
Once the commit has been completed, the database connection falls back into auto-commit state. If you wish to immediately start another transaction, you will need to issue a separate ->begin call.
Returns true or throws an exception on error.
rollback
The rollback
method rolls back the current transaction. If called outside of a current transaction, it is accepted and treated as a null operation.
Once the rollback has been completed, the database connection falls back into auto-commit state. If you wish to immediately start another transaction, you will need to issue a separate ->begin call.
If a transaction exists at END-time as the process exits, it will be automatically rolled back.
Returns true or throws an exception on error.
do
Foo::Bar->do('insert into table (foo, bar) values (?, ?)', {},
$foo_value,
$bar_value,
);
The do
method is a direct wrapper around the equivalent DBI method, but applied to the appropriate locally-provided connection or transaction.
It takes the same parameters and has the same return values and error behaviour.
selectall_arrayref
The selectall_arrayref
method is a direct wrapper around the equivalent DBI method, but applied to the appropriate locally-provided connection or transaction.
It takes the same parameters and has the same return values and error behaviour.
selectall_hashref
The selectall_hashref
method is a direct wrapper around the equivalent DBI method, but applied to the appropriate locally-provided connection or transaction.
It takes the same parameters and has the same return values and error behaviour.
selectcol_arrayref
The selectcol_arrayref
method is a direct wrapper around the equivalent DBI method, but applied to the appropriate locally-provided connection or transaction.
It takes the same parameters and has the same return values and error behaviour.
selectrow_array
The selectrow_array
method is a direct wrapper around the equivalent DBI method, but applied to the appropriate locally-provided connection or transaction.
It takes the same parameters and has the same return values and error behaviour.
selectrow_arrayref
The selectrow_arrayref
method is a direct wrapper around the equivalent DBI method, but applied to the appropriate locally-provided connection or transaction.
It takes the same parameters and has the same return values and error behaviour.
selectrow_hashref
The selectrow_hashref
method is a direct wrapper around the equivalent DBI method, but applied to the appropriate locally-provided connection or transaction.
It takes the same parameters and has the same return values and error behaviour.
prepare
The prepare
method is a direct wrapper around the equivalent DBI method, but applied to the appropriate locally-provided connection or transaction
It takes the same parameters and has the same return values and error behaviour.
In general though, you should try to avoid the use of your own prepared statements if possible, although this is only a recommendation and by no means prohibited.
TABLE PACKAGE METHODS
The example root package Foo::Bar::TableName is used in any examples.
TO BE COMPLETED
TO DO
- Support for intuiting reverse relations from foreign keys
SUPPORT
Bugs should be reported via the CPAN bug tracker at
http://rt.cpan.org/NoAuth/ReportBug.html?Queue=Perl-Metrics
For other issues, contact the author.
AUTHOR
Adam Kennedy <adamk@cpan.org>
COPYRIGHT
Copyright 2008 Adam Kennedy.
This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself.
The full text of the license can be found in the LICENSE file included with this module.