- Understand what an Object Relational Mapper(ORM) is.
- Gain ability to implement characteristics of an ORM when using a relational database management system (RDBMS) in a ruby program.
This lab involves building a basic ORM for a Dog object. The Dog
class defined in lib/dog.rb
implements behaviors of a basic ORM.
- Environment
Our environment is going to be a single point of requires and loads. It is also going to define a constant,
DB
, whose sole responsibility is setting up and maintaining connection to our application's database.-
DB = {:conn => SQLite3::Database.new("db/dogs.db")}
DB
is set equal to a hash, which has a single key,:conn
. The key,:conn
, will have a value of a connection to a sqlite3 database in the db directory.However, in our spec_helper, which is our testing environment, we're going to redefine the value of that key (not of the constant) to point to an in-memory database. This will allow our tests to run in isolation of our production database. Whenever we want to refer to the applications connection to the database, we will simply rely on
DB[:conn]
.
-
###Start with these methods
#attributes
The first test is concerned solely with making sure that our dogs have all the required attributes and that they are readable and writeable.
The #initialize
method accepts a hash or keyword argument value with key-value pairs as an argument. key-value pairs need to contain id, name, and breed.
::create_table
Your task here is to define a class method on Dog that will execute the correct SQL to create a dogs table.
describe '::create_table' do
it 'creates a dogs table' do
DB[:conn].execute('DROP TABLE IF EXISTS dogs')
Dog.create_table
table_check_sql = "SELECT tbl_name FROM sqlite_master WHERE type='table' AND tbl_name='dogs';"
expect(DB[:conn].execute(table_check_sql)[0]).to eq(['dogs'])
end
end
Our test first makes sure that we are starting with a clean database by executing the SQL command DROP TABLE IF EXISTS dogs
.
Next we call the soon to be defined create_table
method, which is responsible for creating a table called dogs with the appropriate columns.
::drop_table
This method will drop the dogs table from the database.
describe '::drop_table' do
it "drops the dogs table" do
Dog.drop_table
table_check_sql = "SELECT tbl_name FROM sqlite_master WHERE type='table' AND tbl_name='dogs';"
expect(DB[:conn].execute(table_check_sql)[0]).to be_nil
end
end
It is basically the exact opposite of the previous test. Your job is to define a class method on Dog
that will execute the correct SQL to drop a dogs table.
-
::new_from_db
This is an interesting method. Ultimately, the database is going to return an array representing a dog's data. We need a way to cast that data into the appropriate attributes of a dog. This method encapsulates that functionality. You can even think of it as
new_from_array
. Methods like this, that return instances of the class, are known as constructors, just like::new
, except that they extend the functionality of::new
without overwritinginitialize
. -
::find_by_name
This spec will first insert a dog into the database and then attempt to find it by calling the find_by_name method. The expectations are that an instance of the dog class that has all the properties of a dog is returned, not primitive data.
Internally, what will the
find_by_name
method do to find a dog; which SQL statement must it run? Additionally, what method mightfind_by_name
use internally to quickly take a row and create an instance to represent that data? -
#update
This spec will create and insert a dog, and after, it will change the name of the dog instance and call update. The expectations are that after this operation, there is no dog left in the database with the old name. If we query the database for a dog with the new name, we should find that dog and the ID of that dog should be the same as the original, signifying this is the same dog, they just changed their name.
-
#save
This spec ensures that given an instance of a dog, simply calling
save
will trigger the correct operation. To implement this, you will have to figure out a way for an instance to determine whether it has been persisted into the DB.In the first test we create an instance, specify, since it has never been saved before, that the instance will receive a method call to
insert
.In the next test, we create an instance, save it, change its name, and then specify that a call to the save method should trigger an
update
.
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