NAME
Mongoose::Intro - an introduction
MOTIVATION
This module is an attempt to bring together the full power of Moose into one of the hottest new databases out there: MongoDB.
Before using this module you should take a little time to read on MongoDB.
Why not use KiokuDB?
KiokuDB is an awesome module that maps objects to data and caters to a wide variety of backends. Currently there's even a MongoDB backend that may suit your needs.
So, why use Mongoose instead?
You want your objects to have their own collection. KiokuDB stores all objects in a single collection. MongoDB performs best the more collections you have.
You want to be able to store relations as either embedded documents or foreign documents. KiokuDB embeds everything. Here you get to choose.
You want to abstract your data from your class representation. KiokuDB stores an extra field called __CLASS__ that ties data to its representation. It's not a bad decision, it's just a design choice.
You don't need to keep a scope. KiokuDB will keep objects in scope for you, avoiding breakage in relationships. Here nothing is kept in scope.
You don't plan to use transactions. KiokuDB is transaction ready. But MongoDB is not. So, what's the point here?
You feel adventurous.
If you don't need any of this, go grab KiokuDB instead. It's much more configurable, stable and you can painlessly switch backends in the future.
REQUIREMENTS
To use this module, you need:
MongoDB installed somewhere in your network.
Grab a pre-built copy for your OS from here, or build it from sources.
After intalling the software, start the Mongo daemon:
mongod -dbpath /path/to/data
The MongoDB Perl driver
cpan MongoDB
cpan Mongoose
Set the MONGOOSEDB
environment variable to your MongoDB connection in case it's not standard (localhost).
make
export MONGOOSEDB=host,mongodb://localhost,db_name,mytestdb
make test
make install
Moose classes
Create some Moose classes to start using Mongoose;
package MyClass;
use Moose;
with 'Mongoose::Document';
has 'yada' => ( is=>'rw', isa=>'Str' );
FEATURES
Some of Mongoose features:
It's fast. Not as fast as working with MongoDB documents directly though. But it's way faster than any other ORM and relational mapping modules out there.
It handles most object relationships, circular references included.
No persistency. It doesn't manage states for your object. If you save your object twice, it writes twice to the database. In most cases, this is actually faster than trying to manage states.
Primary keys. This is quite a extraneuos concept for objects, and it's not mandatory. But it allows you to automatically control when new objects translate to new MongoDB documents, or just update them.
This is an experimental feature. There are other ways to do this anyway with the MongoDB built-in
_id
primary-key attribute.Schema-less data. MongoDB does not need a schema. You can create new attributes for your object and delete old ones at your leasure.
No data-object binding means that you may reuse collections, and peruse inheritance to great extent.
CAVEATS
This is very much *BETA* software. In fact it's almost alpha, except that the API is so simple it will probably not change, so let's call it "beta".
This module intrusively imports singleton based methods into your class. It's the price to pay for a simpler user interface and less keystrokes.
Object expansion from the database is done using plain bless most of the time. Which means your attribute triggers, etc. will not be fired during expansion. There are exceptions to this rule though.
After saving or loading objects from the database, your object will have an extra attribute,
_id
. This is a unique identifier. The _id value can be overwritten if you wish.
GETTING STARTED
There are only two steps to start using Mongoose in your code:
1) Create at least one class that consumes a Mongoose::Document role.
2) Connect to a Mongo database in your main program.
MongoDB does not require you to previously create a database, a collection or a document schema for your collection. This is done on the fly for you.
To make your Moose classes "Mongoable", all they need is to consume either one of two roles: Mongoose::Document or Mongoose::EmbeddedDocument. Read on for details on the difference.
Turning your classes into Mongo Documents
There are two roles to make your Moose class a Mongoose document:
The difference between these roles lies in the way objects of different classes will be joined and stored (collapsed) into the DB.
Read the MongoDB docs if you don't understand the difference.
Document
Akin to a row in the relational model. Objects are stored into independent collections. Relationships are stored using references, MongoDB's foreign key system.
EmbbededDocument
Tells Mongoose to store your class as an embedded document, inside a parent document.
This is usually faster than using document-to-document reference joins. But it's not meant for object reuse by foreign documents.
Methods you get when using the Document roles
Both Document
and EmbeddedDocument
will import into your class the following methods:
save
Saves the current object to the database, inserting the document if needed.
$person->save;
delete
Deletes the correspondind document from the database.
$person->delete;
find
Wraps MongoDB's find method to return a cursor that expands data into objects.
query
my $cursor = Person->query({ age => { '$lt' => 30 } });
find_one
Finds exactly one document.
my $jack = Person->find_one({ first_name => 'Jack' });
collection
Returns the MongoDB::Collection object supporting this class. It's a way to switch quickly back to MongoDB hash documents.
Person->find_one({ name=>'thyself' }); # isa Person
# whereas
Person->collection->find_one({ name=>'thyself' }); # ref = HASH
_id
Not really a method but an attribute used by Mongoose (and MongoDB). Contains a unique MongoDB::OID instance.
Deleting or modifying this attribute may cause your object to be re-inserted on the next save
, instead of being updated.
The Default Engine
Mongoose comes with a default engine, Mongoose::Engine::Base that takes care of expanding and collapsing objects to and from the Mongo database.
Collapsing
Collapsing is the process of serializing classes.
Your Moose objects are collapsed by unblessing them until they become a hash. Relationships are mantained in the process.
Expanding
Expansion is the process of inflating Mongo documents (plain hashes) into Moose objects.
This is done by inspecting the class attribute metadata. The base engine tries to do it's best identifying data types. The document is then bless
ed into your class. This is faster than calling new
, but also means that no special class or attribute methods will be fired, such as default values, setters, triggers or coercion. You've been warned.
Naturally, there are many cases where this guesswork is not enough. These may be addressed in the future using attribute traits, but should be fine for most trivial classes.
CONFIGURATION
Mongoose roles are role parameterized for greater flexibility.
Collection naming
You can control the collection name for an individual class this way:
package My::Mumbo::Jumbo::Class;
use Moose;
with 'Mongoose::Document' => {
-collection_name => 'mumbo_jumbo'
};
Global collection naming stategy
By default, Mongoose will turn package names into collections this way:
Package name | Collection name
----------------------+----------------------
Person | person
Humpty::Dumpty | humpty_dumpty
HumptyDumpty | humpty_dumpty
MyApp::Schema::Jumbo | my_app_schema_jumbo
You can change this standard anytime, by setting the Mongoose::naming
anonymous sub to something of your liking:
# remove prefix and return
# a lower case collection name
Mongoose->naming( sub{
my $pkg = shift;
$pkg =~ s{^MyApp::Schema::}{}g;
return lc $pkg;
});
Primary keys
The standard way MongoDB deals with primary keys is by using the _id
attribute. By default, a MongoDB::OID is assigned to each object you commit to the database with save
.
Checkout this Devel::REPL example:
$ re.pl
> use Person;
> my $hurley = Person->new(name=>'Hurley');
$Person1 = Person=HASH(0x102099d08);
> $hurley->dump;
$VAR1 = bless( {
'name' => 'Hurley'
}, 'Person' );
> $hurley->save;
4c683525a74100a8df000000 $ $hurley->dump;
> $hurley->dump;
$VAR1 = bless( {
'_id' => bless( {
'value' => '4c683525a74100a8df000000'
}, 'MongoDB::OID' ),
'name' => 'Hurley'
}, 'Person' );
This is pretty standard MongoDB stuff.
Now, for a more control over your primary key, use the role parameter -pk
.
package BankAccount;
use Moose;
with 'Mongoose::Document' => {
-pk => [qw/ drivers_license /]
};
has 'drivers_license' => (is=>'rw', isa=>'Int' );
That way, updates use the drivers_license
field and inserts will fail if the primary key exists. (But be sure to set a unique index on your primary key.)
Schema Changes
If you first had a class definition as such:
package Author;
use Moose; with 'Mongoose::Document';
has 'name' => ( is=>'rw', isa=>'Str' );
Saved some objects into the DB:
Author->new( name=>'Mike Old Schema' )->save;
Then, later on, changed it to:
has 'first_name' => ( is=>'rw', isa=>'Str' );
When reading from the database, at expansion time, since the MongoDB document is just blessed into your class the old attribute will be loaded as if nothing had happened:
# load old schema document using the new schema:
my $obj = Author->find_one({ name => 'Mike Old Schema' });
print Dump $obj;
# prints
--- !!perl/hash:MyTestApp::Schema::Author
_id: !!perl/hash:MongoDB::OID
value: 4c723348a741001455000000
name: Mike Old Schema
At this time, no BUILD
or BUILDARGS
methods are called, which could be used to rearrange the object into the new schema. This will be probably fixed soon.
On the meanwhile, you can always invoke an "alignment" method after loading the data, or do a bulk migration:
Author->find->each( sub{
my $obj = shift;
$obj->first_name( delete $obj->{name} );
$obj->save;
});
SEE ALSO
Now head on to the Mongoose::Cookbook.