This 3-part homework gives some basic practice in Ruby as well as getting you accustomed to making testing a regular part of your workflow.
NOTE: If you are working on a local computer, do not clone this repo to your workspace. Fork it first, then clone your fork.
After completing this assignment, you will know how to:
- Write simple code that uses basic constructs in the Ruby language, including methods and arguments, conditionals, string and array manipulation, regular expressions, and basic object-oriented programming mechanisms
- Understand the Ruby project conventions for where code files and test files are located in a project's directory hierarchy
- Run individual tests or suites of tests using the RSpec unit testing tool
- Understand the basic syntax of RSpec unit tests
You may find the Ruby documentation at ruby-doc.org helpful to have on hand.
The repo for this assigment follows a fairly standard Ruby convention for codebases: the code
files are stored in lib/
and the test files are stored in spec/
.
(We use the RSpec unit-testing framework; if we were using Ruby's default
framework, known as Test::Unit
, the test files would be under
test/
.)
We've placed "starter code" in lib/ruby_intro.rb
; when you're all done, you
can submit this single file to the autograder.
However, you can test each of the 3 parts separately. The files
spec/part[123]_spec.rb
contain RSpec tests for each of the three
parts. For example, to test your answers to Part 1, say rspec spec/part1_spec.rb
. rspec
with no arguments runs the tests in all
the files spec/*_spec.rb
.
- The line numbers in the RSpec error report will
give you guidance as to which tests failed. (You can check the RSpec
documentation to see how the
.rspec
file can be used to customize the output format.)
If you are working in Codio, you are ready to move on to the next part. If you are working on a local computer, proceed with the following steps.
Local computer setup |
---|
To ensure you have the rspec gem installed you need bundler and can then |
run bundle install like so: |
$ gem install bundler
$ cd assignment
$ bundle
When the above completes successfully you'll have RSpec installed and can
run rspec
from the command line to test your code.
Check the Ruby 2.x documentation on Array
,
Hash
and Enumerable
as they could help tremendously with these
exercises. :-)
-
Define a method
sum(array)
that takes an array of integers as an argument and returns the sum of its elements. For an empty array it should return zero. Run associated tests via:$ rspec -e '#sum ' spec/part1_spec.rb
(Make sure you are in the correct directory:cd assignment
) -
Define a method
max_2_sum(array)
which takes an array of integers as an argument and returns the sum of its two largest elements. For an empty array it should return zero. For an array with just one element, it should return that element. Run associated tests via:$ rspec -e '#max_2_sum' spec/part1_spec.rb
-
Define a method
sum_to_n?(array, n)
that takes an array of integers and an additional integer, n, as arguments and returns true if any two elements in the array of integers sum to n.sum_to_n?([], n)
should return false for any value of n, by definition. Run associated tests via:$ rspec -e '#sum_to_n' spec/part1_spec.rb
You can check your progress on all of the above by running $ rspec spec/part1_spec.rb
.
Check the documentation on String and Regexp as they could help tremendously with these exercises. :-)
-
Define a method
hello(name)
that takes a string representing a name and returns the string "Hello, " concatenated with the name. Run associated tests via:$ rspec -e '#hello' spec/part2_spec.rb
(Make sure you are in the correct directory:cd assignment
) -
Define a method
starts_with_consonant?(s)
that takes a string and returns true if it starts with a consonant and false otherwise. (For our purposes, a consonant is any letter other than A, E, I, O, U.) NOTE: be sure it works for both upper and lower case and for nonletters! Run associated tests via:$ rspec -e '#starts_with_consonant?' spec/part2_spec.rb
-
Define a method
binary_multiple_of_4?(s)
that takes a string and returns true if the string represents a binary number that is a multiple of 4. NOTE: be sure it returns false if the string is not a valid binary number! Run associated tests via:$ rspec -e '#binary_multiple_of_4?' spec/part2_spec.rb
You can check your progress on all of the above by running $ rspec spec/part2_spec.rb
.
Define a class BookInStock
which represents a book with an ISBN number, isbn
, and price of the book as a floating-point number, price
, as attributes. Run associated tests via: $ rspec -e 'getters and setters' spec/part3_spec.rb
(Make sure you are in the correct directory: cd assignment
)
The constructor should accept the ISBN number (a string, since in real life ISBN numbers can begin with zero and can include hyphens) as the first argument and price as second argument, and should raise ArgumentError
(one of Ruby's built-in exception types) if the ISBN number is the empty string or if the price is less than or equal to zero. Include the proper getters and setters for these attributes. Run associated tests via: $ rspec -e 'constructor' spec/part3_spec.rb
Include a method price_as_string
that returns the price of the book formatted with a leading dollar sign and two decimal places, that is, a price of 20 should format as $20.00
and a price of 33.8 should format as $33.80
. Run associated tests via: $ rspec -e '#price_as_string' spec/part3_spec.rb
You can check your progress on all of the above by running rspec spec/part3_spec.rb
.
-
Try getting setup with an automated test framework such as guard or autotest. Guard or AutoTest can be set up so that they will run all the tests in
spec/
, but every time you edit and save your code file, the tests are automatically re-run, so you don't have to run them manually. As we'll see later, this is the "watch the test fail" part of the TDD or test-driven process of development: write the tests before you write the code, watch the test fail, fill in the code and save the code file, then watch the test pass! -
Try pairing using the one-undermanship pair programming style