I have a Ruby on Rails app, where I have a Model called “Fruits” which contains an underlying database,
I this DB I have columns like “Type”, “Value” and few other columns, under Type column I have data like “Apple”, “Orange”, and “Mango”.
I have other models like “Apple”, “Orange”, “Mango” all of which do not have an underlying DB but inherits from the model “Fruits” (the one which I mentioned earlier).
In my code when I write Apple.find_by_Value(some value) , how does this returns data related only to Apple ?
You are looking at a Single Table Inheritance (STI). It allows you to use several models for the same table, using the type column to store the name of the model for each record.
Related documentation : http://api.rubyonrails.org/classes/ActiveRecord/Inheritance.html
Related
New Rails guy here...
I have a SimpleForm model which belongs to a Parts table belonging to another schema that's not Rails application.
What's the best way to model this association so that my form can do a lookup of the Parts table for part_id and the model can validate the part_id foreign key against the legacy Parts table?
possibilities:
create a database view and activerecord model in rails app?
create a readonly model with query/connection to Parts table?
Please be specific, as I really don't know much within Rails.
I am using Rails with Oracle and Windows, so any solution has to work with these.
Thanks in advance!
I ended up using database migration to create a database view and created readonly model for it.
In my SimpleForm, setup belongs_to relationship to the new Parts model and validates_presence_of to enforce the foreign constraint on inserts and edits.
Looks like this is pretty good way to do readonly foreign key reference by granting only "select" permission to legacy table and also setting Rails model to readonly.
I want to aggregate data from different sources, Twitter lastfm and that sort. I just can't figure out how to store the data. Clearly in a database but I can't figure out how abstract to make the table to hold all this data without compromising the logical understanding of the data in each column.
I was wondering if anybody else had experience with this and now they tackled it in rails.
One option, if you want to stick with SQL, would be to have a Model/Table which contains fields common to every data source (title, url, summary) which is associated to other Models/Tables which contain the fields specific to individual data sources. The associations could be regular or polymorphic. And if you wanted to get in to some metaprogramming you could use method_missing to delegate method calls for fields not present in the 'common' Model to the associated models. This would work best with a polymorphic join. Psudeo-code:
class DataSource
belongs_to :data_source_extension, :polymorphic => true
def method_missing(method)
if data_source_extension.responds_to? method
data_source_extension.send(method)
else
super
end
end
end
The other option would be STI, so one table with all fields and a 'type' field which tells Rails which model the record should be wrapped in. This depends on how many different sources you have and how different they are from each other.
If the fields don't need to be searchable storing a Hash in a Text field works well. See Serialize and the attr_bucket gem.
Or if you want to trendy a NoSQL type database allows on-the-fly fields to be generated.
What you need is a document-oriented database (I recommend you MongoDB), and then having a set of adapters, one for each type of provider.
Document oriented database
I'm using Ruby on Rails and the paths_of_glory gem
I need to access the types of achievements that a user accomplishes in order to display a picture along with each particular achievement. When I try to access it via #user.achievements.type, I get an error that says that it wants to return "array" (as in achievements is an array) instead of actually returning the elements in the type column of my database.
Since every ruby object has a method called type, my call to access the type column of the database fails. When I try to change the entry in the table, the paths_of_glory gem says it needs a type column in order to function properly.
I'm not quite sure where to go from here in order to access that column in the database. Any suggestions?
Not entirely sure what you're asking here, but maybe this will help.
For the first thing, #user.achievements is an array because you have multiple achievements, and the type method is for individual elements of #user.achievements which is why that won't work just like that. You'll have to do something like this:
#user.achievements.each do |achievement|
# Do stuff here
end
Regarding the type column, type is a reserved column in Rails used specifically for Single Table Inheritance, where multiple Rails models use a single database table. So you can't access it directly. I assume that paths_of_glory uses STI in some manner. You can access the model's class with something like achievement.class, then if you want just the name of it you can try achievement.class.to_s.
#user.achievements.each do |achievement|
model = achievement.class # => MyAwesomeAchievementClass
#image = model.picture # You could write some method in the model like this
end
I have a user table, and a teacher that I newly created. The teacher is sub class of user, so, I use scaffold generator to generate the teacher table, than, I modify the model to do teacher is subclass of user. After all that, I did a db:migrate. Then, I go to
http://localhost:3000/teachers/new
It shows an error:
undefined method `teacherSalary' for #<Teacher:0x103331900>
So, my question is what did I do wrong? I want to create a page for doing user register, the user can ONLY be a teacher / student. But I can't add a teacher record ... ... Moreover, I go to
http://localhost:3000/users/new
I want to have a combo box that allow user register their user to be a "teacher" or a "student". But everything seems not work like I expected. What I need to do? Thank you very very much for your help.
Within your database you should have a single table called users. This table should have a string column which by default is called type. If you use another name for this column then you will have to set the inheritance column name manually using self.inheritance_column = "column_name"
Within your application you have three models, User, Student and Teacher. User inherits from ActiveRecord::Base as usual, Student and Teacher both inherit from User.
You should then be able to instantiate new Teacher and Student objects. Internally this works by writing the model name to the type field on the user tables and then when you use Student.find it adds a clause to the SQL to only return rows where the type = 'Student'
You can add shared behaviour to the User class, e.g. validations etc then add additional behaviour to the inherited classes.
A fuller description of how STI works can be found in Martin Fowlers Book(Patterns of Enterprise Application Architecture).
I found this definition really handy:
STI means one table contains the data of more than one model, usually differentiated by the "type" column. ("users" table contains data for the models "Teacher", ""Pupil", "Employee", "Assistant", etc.)
Keeps similar models in the same table instead of creating new ones.
A Polymorphic Association means that one model can be associated with more than one other model(Comment can belong to post, image, file, user_type...)
To prevent foreign key conflicts, the association is reperesented with the *_id and *_type columns instead of only *_id.
For what you have here , I am not sure if STI is the best way go . STI should generally be used when there is a OO like inheritance and the Models have the same Attribute but different behaviour . In your case Teacher and Student can sure have a few shared attributed , but they are also bound to have different ones as well .
You might want to experiment with a polymorphic association as well .
I am having trouble understanding ORM in Ruby on Rails. From what I understand there is a 1:1 relationship between tables/columns and objects/attributes. So every record is an object.
Also what exactly is a Model? I know it maps to a table.
What I'm really after is a deeper understanding of the above. Thank you in advance for your help
I'm a Web developer going from PHP to Ruby on Rails.
"From what I understand there is a 1:1 relationship between tables/columns and objects/attributes. So every record is an object."
That is not exactly correct, unless you use the term "object" very loosely. Tables are modelled by classes, while table records are modeled by instances of those classes.
Let's say you have a clients table, with columns id (autonum) and name (varchar). Let's say that it has only one record, id=1 and a name="Ford". Then:
The DB table clients will map to the model class Client.
The record will map to a model instance, meaning that you have to create the object and assign it to a variable in order to work with the record. The most common way would be to do ford = Client.find(1)
The two columns of the table will map to methods on the ford variable. You can do ford.id and you will get 1. You can do ford.name and you will get the string "Ford". You can also change the name of the client by doing ford.name = "Chevrolet", and then commit the changes on the database by doing ford.save.
"Also what exactly is a Model? I know it maps to a table"
Models are just classes with lots of very useful methods for manipulating your database. Here are some examples:
Validations: Besides the typical db-driven validations ("this field can't be null") you can implement much complex validations in ruby ("this field must be a valid email" is the most typical one). Validations are run just before you invoke "save" on a model instance.
Relationships: The foreign keys can also be mapped onto models. For example, if you had a brands table (with its corresponding Brand model) associated via a foreign key to your ford client, you could do ford.brands and you would get an array of objects representing all the records on the brands table that have a client_id = 1.
Queries: Models allow you to create queries in ruby, and translate them to SQL themselves. Most people like this feature.
These are just some examples. Active record provides much more functionalities such as translations, scoping in queries, or support for single table inheritance.
Last but not least, you can add your own methods to these classes.
Models are a great way of not writing "spaguetti code", since you are kind of forced to separate your code by functionality.
Models handle database interaction, and business logic
Views handle html rendering and user interaction
Controllers connect Models with Views
ORM in Rails is an implementation of the Active Record pattern from Martin Fowler's Patterns of Enterprise Application Architecture book. Accordingly, the Rails ORM framework is named ActiveRecord.
The basic idea is that a database table is wrapped into a class and an instance of an object corresponds to a single row in that table. So creating a new instance adds a row to the table, updating the object updates the row etc. The wrapper class implements properties for each column in the table. In Rails' ActiveRecord, these properties are made available automatically using Ruby metaprogramming based on the database schema. You can override these properties if required if you need to introduce additional logic. You can also add so-called virtual attributes, which have no corresponding column in the underlying database table.
Rails is a Model-View-Controller (MVC) framework, so a Rails model is the M in MVC. As well as being the ActiveRecord wrapper class described above it contains business logic, including validation logic implemented by ActiveRecord's Validation module.
Further Reading
Rails Database Migrations guide
Rails Active Record Validations and Callbacks guide
Active Record Associations guide
Active Record Query Interface guide
Active Record API documentation
Models: Domain objects such like User, Account or Status. Models are not necessarily supported by a database backend, as for example Status can be just a simple statically-typed enumeration.
ActiveRecord:
Provides dynamic methods for quering database tables. A database table is defined as a class which inherits ActiveRecord class (pseudo-PHP example):
class User extends ActiveRecord {}
//find a record by name, and returns an instance of `User`
$record = User::find_by_name("Imran");
echo $record->name; //prints "Imran"
//there are a lot more dynamic methods for quering
New records are created by creating new instances of ActiveRecord-inherited classes:
class Account extends ActiveRecord {}
$account = new Account();
$account->name = "Bank Account";
$account->save();
There are two pieces here: the ORM and Rails's MVC pattern. ORM is short for "object-relational mapping", and it does pretty much what it says: it maps tables in your database to objects you can work with.
MVC is short for "model-view-controller", the pattern that describes how Rails turns your domain behavior and object representations into useful pages. The MVC pattern breaks down into three chunks:
Models contain a definition of what an object in your domain represents, and how it is related to other models. It also describes how fields and relationships represented in the object map to backing stores (such as a database). Note that, per se, there's nothing about a model which prescribes that you have to use a particular ORM (or even an ORM at all).
Controllers specify how models should interact with each other to produce useful results in response to a user request.
Views take the results created by controllers and render them in the desired way. (By the time you get to your view, you should mostly know what's being rendered, and there should be very little behavior happening.)
The definition from Wikipedia:
Object-relational mapping (ORM, O/RM,
and O/R mapping) in computer software
is a programming technique for
converting data between incompatible
type systems in relational databases
and object-oriented programming
languages. This creates, in effect, a
"virtual object database" that can be
used from within the programming
language.
From a PHP view it will be in the following way(via example)
Connect to the database and get some row from posts table.
Turn that row to an object with attributes like those in the table columns.
If the posts has comments in comments table, you can also do post.comments and you get the comments also as an array of objects as well.
You can define relationships between tables like saying: Posts has_many Comments, a Comment belongs to a post and so.
So basically you are not working with database rows, instead you turn those rows and their relationships to objects with composition or inheritance relationships.
In layman's terms.
A Rails Model is proxy to a table in the database. These models happens to be Ruby classes.
The objects of these classes are proxies to rows in the table of which this model is a proxy.
Finally the attributes of these objects are proxies to the column data for that particular row.
Above is actually the Rails ActiveRecord ORM.
1:1 is not quite correct, since there is object-relation impedance mismatch.