couch-ar is a thin active record implementation for couchDB
Motivation
The idea behind couch-ar is to provide an easy to use active record implementation while keeping the speed of node.js. For this reason couch-ar does not add a lot of abstraction. My aim is to provide an easy way to have full domain constructors while writing only the required information to the db document.
Domain constructors are defined in advance with couch-ar in a simple format that includes a list of properties to write to the DB.
Please feel free to write with any comments or suggestions: scott@bulldoginfo.com
Installation
npm install cradle (this is a dependency)
npm install couch-ar
NOTE: We also use 'fs'
Quickstart
There is a quick example in the example directory. This is also a good way to see if you have everything setup correctly.
cd example
node example
The example does not contain all of the functions. Just basic save/read/remove. It is recommended that you read the 'How to use' section to get more detail.
The most complete way to see how it works is to examine and run the included tests. cd to test ./specs.sh
The tests are written using jasmine-node. For information on how to run the tests using this module, please refer to the jasmin-node documentation. I have included only enough to run the tests.
How to use
The first step is to run the init method to generate the database and read your domain files.
require('couch-ar').init({
dbName: 'couch-ar-test', // The database name - couch-ar will create the database
root: __dirname + '../testDomain' // The root of the domain constructors
host: 'myHost' // (optional) The hostname
port: 9999 // (optional) The port
connectionOptions: {} // (optional) Cradle config options
}, function(db){ // passes back the cradle connection });
Next, create your domain files in ../testDomain like this:
var domain = require('couch-ar');
domain.create('TestUser',{
dbName: 'couch-ar-test', // Optional - choose the db to use for this domain constructor
properties:{
username: {},
password: {},
firstName:{},
lastName: {},
fullName: {finders:false} // Turns off the creation of finders (findByXXX) for this property
},
hasMany: {
phoneNumbers: 'PhoneNumber',
children: {type: 'Child', singular: 'child'}
},
views: {
firstOrLastName: {map: function(doc) {
emit(doc.firstName, doc);
emit(doc.lastName, doc);
}}
}
}, function(that) {
this.beforeSave = function() {
that.fullName = that.firstName + ' ' + that.lastName;
},
that.afterSave = function(res, callback) {
// do something and callback with (err, res)
callback(undefined, res);
};
return that;
});
Constructor
Domain definitions can contain a constructor function as an argument. 'this' in constructor functions points to the instantiated object itself so that you can use the constructor function to modify the instantiated object or the provided 'that' argument.
I am using Douglas Crockford's parasitic inheritance and power constructors. To understand my code it is best to understand this style.
After running init() the domain constructors are available from the couch-ar object.
var domain = require('couch-ar');
domain.TestUser.create({}) or domain['my-db-name'].TestUser.create({})
Before Hooks
domain constructors can include a hook beforeSave() that will be run before a document is saved or updated in the DB.
After Hooks
domain constructors can include a hook afterSave(res, cb) that will run after a document is saved. See the previous example for the format.
create()
couch-ar adds a static factory for constructing domain objects using a parameter map. Simply call Domain.create({}) passing a map of parameters to add to the object.
example: domain.TestUser.create({username:'me'})
save()
Saves or updates an existing document.
user.save(function(err, res){ })
remove()
Removes a document from the DB:
user.remove(function(err, res) {});
list()
List all documents
domain.TestUser.list(function(users){});
findByXxx() / findAllByXxx()
Every property that does not have a "finders:false" in it's config gets a findBy or findAllBy method. The usage is pretty simple:
domain.TestUser.findAllByUsername('scott', function(users){ // passed the user objects })
domain.TestUser.findById('xxxxxx', function(user){})
findAllByXxx() can find documents in a range by passing an array as the value with the start and end keys
domain.TestUser.findAllByUsername(['a','aZ'], function(users) { // passed the user objects where username starts with 'a'})
addView()
You can also add views after a domain constructor is initialized by using the addView() method
var view = {
map: function(doc) {
emit(doc.firstName + ':' + doc.lastName, doc);
}
}
function callbqack(){}
domain.TestUser.addView('lastAndFirstName', view, callback);
After that the view is available as finders just like any other view
domain.TestUser.findAllByFirstAndLastName('Scott:Burch', function(users) {})
domain.TestUser.findByFirstAndLastName('Scott:Burch', function(user) {})
properties
id = the DB id
rev = the DB revision
dateCreated = the date the object was first saved to the DB
lastUpdated = the date the object was last updated
constructor properties
viewNames = the list of view names
custom views
You can also add custom views to any domain constructor
The following example will create a view to find a user by first or last name:
domain.create('TestUser',{
dbName: 'my-db'
properties:{
username: {},
password: {},
firstName:{},
lastName: {},
},
hasMany: {
phoneNumbers: 'PhoneNumber',
children: {type: 'Child', singular: 'child'}
},
views: {
firstOrLastName: {map: function(doc) {
emit(doc.firstName, doc);
emit(doc.lastName, doc);
}}
}
});
This code will also add static finders:
domain.TestUser.findAllByFirstOrLastName('Test',function() {});
domain.TestUser.findByFirstOrLastName('Tester',function() {});
Associations
couch-ar now supports hasMany associations. To define a hasMany association pass a hasMany in the config as shown above. The value 'PhoneNumber' and 'Child' is a previously defined model.
When you only supply a string then the singular names will be converted by chopping the 's' off the end. The result is three new methods.
Assuming the hasMany definition above the result will be 6 methods:
- addPhoneNumber(pn)
- getPhoneNumbers(callback)
- removePhoneNumber(pn)
- addChild(c)
- getChildren(callback)
- removeChild(c)
the add and remove can take a phone number directly. However, getters requires a callback which will be passed the result. The items passed to add and remove must be persisted before trying to add or remove them.
License
Provided under the MIT license. In other words, do what you want with it.