Ruby Collaborating Objects Lab

Objective

  • Gain a deeper understanding of object relations.
  • Build classes that interact with one another through associations and behavior.

Instructions

This is a test-driven lab. Use the test file and test output to understand what is being asked of you as you follow the guidelines below.

In this lab, we'll be dealing with an Artist class, a Song class, and an MP3Importer class.

Because of the relationships between your classes, the Artist tests, i.e. the tests in spec/artist_spec.rb, rely on some code in the Song class and vice versa. So, as you proceed through solving this lab, you will go back and forth between coding in Artist and Song.

We recommend starting out by getting some of the initial Artist tests passing and switching to write code in the Song class as directed by the test output. Because of the complexity, let's walk through a guideline of how to think about the problem as you're building out the solution.

Overview

You will be building an Artist class, a Song class, and an MP3Importer class. At the top level, you can think about what we'll be doing in 3 steps:

  1. The MP3Importer class will parse all the filenames in the spec/fixtures folder and send the filenames to the Song class
  2. The Song class will be responsible for creating songs given each filename and sending the artist's name (a string) to the Artist class
  3. The Artist class will be responsible for either creating the artist (if the artist doesn't exist in our program yet) or finding the instance of that artist (if the artist does exist).

Thinking about it this way will get us started. From this breakdown, it looks like the MP3Importer relies on Song in order to do its job of parsing filenames. Song relies on the Artist instances to build associations. Therefore, we'll start by working on Artist. Keep in mind though, that you will need to be build out related classes together in order to pass some tests, as they work in collaboration.

Artist class

An Artist be initialized with a name and should have an attribute accessor for this name. The class should have an @@all class variable and store all Artist instances in this variable.

Artist.all

This class method should return all Artist instances.

Artist#add_song

This instance method receives an instance of a Song and associates it belongs to this Artist instance.

Artist#songs

This instance method returns an Array of all songs that belong to this Artist instance. This method should get all existing Song instances from Song and select only the ones that are associated with this Artist instance.

Artist.find_or_create_by_name

This class method should take the name that is passed in (remember, it will be a string), and do one of two things. Find the artist instance that has that name or create one if it doesn't exist. Either way, the return value of the method will be an instance of an artist with the name attribute filled out.

Artist#print_songs

This instance methods outputs the names of all songs associated with this Artist instance.

Song class

A Song should be iniitialized with a name and have attribute accessors for name and artist. The Song class should have an @@all class variable and store all Song instances in this variable.

Song.all

This class method should return all Song instances.

Song.new_by_filename

This method will do four things:

  1. It must parse a filename to find the song name and artist name. (Hint: every file separates the song and artist with a " - "). Now we put those values to use.

  2. From here, we will create a new song instance using the string we gathered from the filename.

  3. We'll also want to associate that new song with an artist. Use the artist attribute accessor to assign this

  4. Return the new song instance.

You may have seen something similar in the past where we have the instance of the artist. If we had the artist object, we could simply assign the artist to the song with some code that looks like this: our_song_instance.artist = our_artist_instance. Since we only have the artist name as a string (not an instance of the Artist class), we'll create a method that takes in the name and gets the artist object. Let's call this Song#artist_name=.

Song#artist_name=

This method will do two things. Both of these things will involve collaboration with the Artist class:

  1. Turn the artist's name as a string into an Artist object

    First we need to get the instance of the Artist class that represents that artist. There are two possibilities here:

    1. Either we have to create that Artist instance
    2. Or it already exists and we have to find that Artist instance.

    To achieve this, we'll need to collaborate with the Artist class. We want to send an artist's name (a string--remember we are getting this from the parsed filename) to the Artist class to achieve the functionality described above in #1 and #2. This sounds like a great place to use method Artist.find_or_create_by_name.

  2. Assign the song to the artist (Since an artist has many songs, we'll want to make this association)

    Now that we have the artist instance, we'll want to again collaborate with the Artist class by calling on the Artist#add_song(some_song) method.

MP3Importer class

Build an MP3Importer class that parses a directory of files and sends the filenames to a song class to create a library of music with artists that are unique. To do this, you'll need two methods: Mp3Importer#files and MP3Importer#import. Your MP3Importer class should also have a path attribute that gets set on initialization.

You should write code that responds to MP3Importer.new('./spec/fixtures').import. Google around for how to get a list of files in a directory! Make sure you only get .mp3 files.

Since we have to send the filenames to the Song class, we'll end up calling the following code in the #import method: Song.new_by_filename(some_filename). This will send us to the Song class, specifically Song.new_by_filename and handle the creation of Song instances and their associated Artist instances.

Conclusion

These are just a few hints and guidelines to help you through this lab. Rely on the guides here, refer to the previous lessons on object relations, and read the test output and test files. Never forget to ask a question on Learn if you are stuck. Good luck!

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