Modifying RottenPotatoes

Rails Intro: add features to RottenPotatoes

In this homework you will add a feature to an existing simple Rails app and deploy the result publicly on the Heroku cloud hosting service. We will run live integration tests against your deployed version.

General advice: This homework involves modifying RottenPotatoes in various ways. Git is your friend: commit frequently in case you inadvertently break something that was working before! That way you can always back up to an earlier revision, or just visually compare what changed in each file since your last “good” commit.

Remember, commit early and often!

Preparation: get RottenPotatoes running locally

The actual RottenPotatoes starter app you will use is in another public repo: saasbook/rottenpotatoes-rails-intro. Fork that repo, then clone your fork onto your development computer:

git clone git@github.com:yourusername/rottenpotatoes-rails-intro

Whenever you start working on a Rails project, the first thing you should do is to run Bundler, to make sure all the app's gems are installed. Switch to the app's root directory (presumably rails-intro) and run bundle install --without production (you only need to specify --without production the first time, as this setting will be remembered on future runs of Bundler for this project).

Finally, get the local database created:

rake db:migrate

  • Self-check: how does Rails decide where and how to create the development database? (Hint: check the db subdirectory)

This creates a local development database and runs the migrations to create the app's schema. It also creates the file db/schema.rb to reflect the latest database schema. You should place this file under version control.

  • Self-check: what tables got created by the migrations?

...And insert "seed data" into the database--initial data items that the app needs to run:

rake db:seed

  • Self-check: what seed data was inserted and where was it specified? (Hint: rake -T db:seed explains the seed task; rake -T explains other available Rake tasks)

At this point you should be able to run the app locally (rails server) and navigating to http://localhost:3000/movies in your browser.

Preparation: deploy to Heroku

If you have deployed to Heroku before, just create a new app container with heroku create. If this is your first time deploying to Heroku, you will need to do two things. First, sign up for a free Heroku account. Then set up ssh keys to securely communicate with Heroku for app deployments. The three basic commands you need are the following, but see the Heroku page for more details.

ssh-keygen -t rsa
heroku login
heroku keys:add

Once your keys are set up (a one-time process), you should be able to create an "app container" on Heroku into which you'll deploy RottenPotatoes:

heroku create

Heroku will assign your app a whimsical name such as luminous-coconut-237; once your app is deployed, you would access it at http://luminous-coconut-237.herokuapp.com. You can login to the Heroku website if you want to change the name of your app.

Finally, we deploy our app to Heroku:

git push heroku master

(It is normal to see the following warning the first time---answer "yes", and in the future you shouldn't see it anymore:)

The authenticity of host 'heroku.com (50.19.85.132)' can't be established.
RSA key fingerprint is 8b:48:5e:67:0e:c9:16:47:32:f2:87:0c:1f:c8:60:ad.
Are you sure you want to continue connecting (yes/no)? 
Please type 'yes' or 'no':

Is the app running on Heroku? No, because just as we ran rake db:setup to do first-time database creation locally, we must also cause a database to be created on the Heroku side:

heroku run rake db:setup

Now you should be able to navigate to your app's URL. heroku open opens your browser to that URL in case you forgot it.

Note: don't proceed past this point until you are able to complete the above successfully, or you won't be able to complete this assignment!

Part 1: Sort the list of movies (15 points)

On the list of all movies page, make the column headings for "Movie Title" and "Release Date" into clickable links. Clicking one of them should cause the list to be reloaded but sorted in ascending order on that column. For example, clicking the "release date" column heading should redisplay the list of movies with the earliest-released movies first; clicking the "title" header should list the movies alphabetically by title. (For movies whose names begin with non-letters, the sort order should match the behavior of String#<=>.)

When the listing page is redisplayed with sorting-on-a-column enabled, the column header that was selected for sorting should appear with a yellow background, as shown below. You should do this by setting controller variables that are used to conditionally set the CSS class of the appropriate table heading to hilite, and pasting this simple CSS into RottenPotatoes app/assets/stylesheets/default.css file:

css table#movies th.hilite {
  background-color: yellow;
}

The result should look something like this:

IMPORTANT for grading purposes:

The link (that is, the <a> tag) for sorting by "title" should have the HTML element id title_header, and the link for sorting by release date should have the HTML element id release_date_header. The table containing the list of movies should have the HTML element id movies (this has already been set for you by the starter code).

Hints and caveats:

  • The current RottenPotatoes views use the Rails-provided "resource-based routes" helper movies_path to generate the correct URI for the movies index page. You may find it helpful to know that if you pass this helper method a hash of additional parameters, those parameters will be parsed by Rails and available in the params[] hash.

  • Databases are pretty good at returning collections of rows in sorted order according to one or more attributes. Before you rush to sort the collection returned from the database, look at the documentation for ActiveRecord.find and see if you can get the database to do the work for you.

  • Don't put code in your views! The view shouldn't have to sort the collection itself--its job is just to show stuff. The controller should spoon-feed the view exactly what is to be displayed.

Submission

You'll submit the code for this part after you deploy on Heroku and when you supply your Heroku deployment URL in part 3.

For now, commit all the changes you have made so far, and deploy them to check that they work on Heroku before moving on to the next section:

git commit -a -m "hw 2 part 1 complete"
git push heroku master

Part 2: Filter the list of movies by rating (15 points)

Enhance RottenPotatoes as follows. At the top of the All Movies listing, add some checkboxes that allow the user to filter the list to show only movies with certain MPAA ratings:

When the Refresh button is pressed, the list of movies is redisplayed showing only those movies whose ratings were checked.

This will require a couple of pieces of code. We have provided the code that generates the checkboxes form, which you can include in the index.html.haml template:

= form_tag movies_path, :method => :get do
  Include:
  - @all_ratings.each do |rating|
    = rating
    = check_box_tag "ratings[#{rating}]"
  = submit_tag 'Refresh'

BUT, you have to do a bit of work to use the above code: as you can see, it expects the variable @all_ratings to be an enumerable collection of all possible values of a movie rating, such as ['G','PG','PG-13','R']. The controller method needs to set up this variable. And since the possible values of movie ratings are really the responsibility of the Movie model, it's best if the controller sets this variable by consulting the Model. Hence, you should create a class method of Movie that returns an appropriate value for this collection.

You will also need code that figures out (i) how to figure out which boxes the user checked and (ii) how to restrict the database query based on that result.

Regarding (i), try viewing the source of the movie listings with the checkbox form, and you'll see that the checkboxes have field names like ratings[G], ratings[PG], etc. This trick will cause Rails to aggregate the values into a single hash called ratings, whose keys will be the names of the checked boxes only, and whose values will be the value attribute of the checkbox (which is "1" by default, since we didn't specify another value when calling the check_box_tag helper). That is, if the user checks the G and R boxes, params will include as one if its values :ratings=>{"G"=>"1", "R"=>"1"}. Check out the Hash documentation for an easy way to grab just the keys of a hash, since we don't care about the values in this case (checkboxes that weren't checked don't appear in the params hash at all).

Regarding (ii), you'll probably end up replacing Movie.all in the controller method with Movie.find, which has various options to help you restrict the database query.

IMPORTANT for grading purposes

  • Your form tag should have the id ratings_form.
  • The form submit button for filtering by ratings should have an HTML element id of ratings_submit
  • Each checkbox should have an HTML element id of ratings_#{rating}, where the interpolated rating should be the rating itself, such as ratings_PG-13, ratings_G, and so on.

Hints and caveats

Make sure that you don't break the sorted-column functionality you added previously! That is, sorting by column headers should still work, and if the user then clicks the "Movie Title" column header to sort by movie title, the displayed results should both be sorted but do not need to be limited by the checked ratings (we'll get to that in part 3).

If the user checks (say) G and PG and then redisplays the list, the checkboxes that were used to filter the output should appear checked when the list is redisplayed. This will require you to modify the checkbox form slightly from the version we provided above.

The first time the user visits the page, all checkboxes should be checked by default (so the user will see all movies). For now, ignore the case when the user unchecks all checkboxes--you will get to this in the next part.

Reminder: Don't put code in your views! Set up an instance variable in the controller that remembers which ratings were actually used to do the filtering, and make that variable available to the view so that the appropriate boxes can be pre-checked when the index view is reloaded.

You'll submit this part after you deploy on Heroku and when you supply your Heroku deployment URL in part 3. But you can commit all the changes you have made so far to git, deploy them to Heroku and check that they work on Heroku before moving on to the next section:

git commit -a -m "hw 2 part 2 complete"
git push heroku master

Part 3: Remember the sorting and filtering settings (70 points)

OK, so the user can now click on the "Movie Title" or "Release Date" headings and see movies sorted by those columns, and can additionally use the checkboxes to restrict the listing to movies with certain ratings only. And we have preserved RESTfulness, because the URI itself always contains the parameters that will control sorting and filtering.

The last step is to remember these settings. That is, if the user has selected any combination of column sorting and restrict-by-rating constraints, and then the user clicks to see the details of one of the movies (for example), when she clicks the Back to Movie List on the detail page, the movie listing should "remember" her sorting and filtering settings from before.

(Clicking away from the list to see the details of a movie is only one example; the settings should be remembered regardless what actions the user takes, so that any time she visits the index page, the settings are correctly reinstated.)

The best way to do the "remembering" will be to use the session[] hash. The session is like the flash[], except that once you set something in the session[] it is remembered "forever" until you nuke the session with session.clear or selectively delete things from it with session.delete(:some_key). That way, in the index method, you can selectively apply the settings from the session[] even if the incoming URI doesn’t have the appropriate params[] set.

Hints and caveats

If the user explicitly includes new sorting/filtering settings in params[], the session should not override them. Instead, these new settings should be remembered in the session.

If a user unchecks all checkboxes, use the settings stored in the session[] hash, since it doesn't make sense for a user to uncheck all the boxes.

To be RESTful, we want to preserve the property that a URI that results in a sorted/filtered view always contains the corresponding sorting/filtering parameters. Therefore, if you find that the incoming URI is lacking the right params[] and you're forced to fill them in from the session[], the RESTful thing to do is to redirect_to the new URI containing the appropriate parameters. There is an important corner case to keep in mind here, though: if the previous action had placed a message in the flash[] to display after a redirect to the movies page, your additional redirect will delete that message and it will never appear, since the flash[] only survives across a single redirect. To fix this, use flash.keep right before your additional redirect.

When you're done with this part

Deploy to Heroku by following the same process as before:

git commit -a -m "hw 2 part 3 complete"
git push heroku master

How to submit when you're all done

Deploying your finished app to Heroku by the homework deadline is part of the grading process. Even if you have code checked in that works properly, you still need to also deploy it to Heroku to get full credit.

Once you're confident the functionality works correctly on Heroku, submit the URI of your deployed Heroku app in a text file with no other contents.

Please be careful to use http and not https, that is, submit http://your-app.herokuapp.com and NOT https://your-app.herokuapp.com.