/greeting-cli-v-000

Primary LanguageRubyOtherNOASSERTION

Greeting Cli

Objectives

  1. Build a CLI (command line interface) application.
  2. Become familiar with the structure of a CLI application.
  3. Get comfortable reading test output for a CLI application.

Overview

2001 Space Odyssey

The year is 2001, humanity has discovered a mysterious object buried beneath the Lunar surface. Before Earth's most capable (and heroic) scientists can board the Discovery One and investigate, we must program the super-intelligent computer, HAL 9000. Luckily for us, however, most of HAL's functionality is already up and running. Our job is to program HAL's greeting for the user.

Our program will:

  1. Greet the user.
  2. Ask the user to input their name.
  3. Capture and store the user's input using the #gets method.
  4. Use that captured input to puts out a string that greets the user by name, using string interpolation.

Check out the video below to see the final product in action:

<iframe width="560" height="315" src="https://www.youtube.com/embed/sBQBP1Aaxzk" frameborder="0" allowfullscreen></iframe>

Notice that the the program is run with ruby bin/greet––we are using Ruby to run the code in the executable file that lives in our bin directory. Let's take a closer look at our project structure now.

Project Structure

Check out the file structure below.

bin
   |–– greet
lib
   |–– greeting.rb
spec
   |–– 01_greeting_spec.rb
   |–– 02_cli_spec.rb
   |–– spec_helper.rb
...

Let's take a moment to review:

The bin Directory

The bin directory holds our executable file. This file is responsible for running the program. It contains code that actually enacts the command line interaction - i.e. greeting the user, asking the user for input, storing that input and then acting on it.

The lib Directory

The lib directory is where we place the code that our program relies on to run. It is the meat of our CLI application. Our executable file requires the files in the lib directory and uses the code (for example, calling on any methods we might define) to enact the CLI.

The spec Directory

This directory contains the tests for our program. We have tests for the code in the lib directory in spec/01_greeting_spec.rb and tests for the CLI, i.e. the user interaction portion of our application, in spec/02_cli_spec.rb. We'll use the test output from running learn along with the guidelines below to get our program working.

Instructions

Part I: The greeting Method

Before we worry about building the CLI, we need to build the core functionality of our program––that is, the actions that will be carried out once we obtain the user's input. That code belongs in the lib directory.

Open up lib/greeting.rb. This is where we'll be writing our code. This part of the lab is test-driven. So, run the test for just this section by typing learn spec/01_greeting_spec.rb in your terminal.

In order to get our tests passing, we'll need to define a method, #greeting that takes in an argument of a person's name and uses string interpolation to print "Hello #{name}. It's nice to meet you.".

Once you get these tests passing, you're ready to move on to the next section.

Part II: The CLI

Our CLI code belongs in the bin directory. Open up bin/greet. Notice that, according to convention, our executable file does not have a file extension (such as .rb). Take a look at the first lines of the file:

#!/usr/bin/env ruby
require_relative '../lib/greeting.rb'

First, we have our shebang line that tells the terminal which interpreter to use to execute the remainder of the file. Second, we are requiring the greeting.rb file, from within the lib directory. This gives our executable file access to whatever code we write in that lib file.

If we run learn spec/02_cli_spec.rb we can see from the test output that the following is required:

  1. Use #puts to output the string "Hi! I'm HAL, what's your name?"
  2. Use the #gets.strip method to store the user's input and set it equal to a variable called name.
  3. Call the #greeting method with an argument of the user's name (captured using #gets in step 2) to output the interpolated welcome string.

Reading CLI Error Messages

Let's walk through some of the error messages from running the CLI spec together.

In your terminal, once you have your spec/01_greeting_spec.rb tests passing, run rspec spec/02_cli_spec.rb.

The first failure and error message should look something like this:

Failures:

  1) ./bin/greet executing a CLI Application outputs a welcome message and asks the user for input
     Failure/Error: expect($stdout).to receive(:puts).with("Hi! I'm HAL, what's your name?"), "Make sure bin/greet has code that can output 'Hi! I'm HAL, what's your name?' exactly."
       (#<IO:0x007fafb88ca568>).puts("Hi! I'm HAL, what's your name?")
           expected: 1 time with arguments: ("Hi! I'm HAL, what's your name?")
           received: 0 times
     # ./spec/02_cli_spec.rb:7:in `block (2 levels) in <top (required)>'

The portion that is significant for us comes at the beginning:

1) ./bin/greet executing a CLI Application outputs a welcome message and asks the user for input
     Failure/Error: expect($stdout).to receive(:puts).with("Hi! I'm HAL, what's your name?"), "Make sure bin/greet has code that can output 'Hi! I'm HAL, what's your name?' exactly."

The first part is a description of what is being tested. It means "running ./bin/greet to execute the CLI application should output a welcome message and ask the user for input".

Then, we see the description of our failure:

Failure/Error: expect($stdout).to receive(:puts).with("Hi! I'm HAL, what's your name?"), "Make sure bin/greet has code that can output 'Hi! I'm HAL, what's your name?' exactly."

The helpful part of this error message can be found at the end, after the , .

"Make sure bin/greet has code that can output 'Hi! I'm HAL, what's your name?' exactly."

The error message is letting us know that what we need to do to get the test passing.

Let's take a look at our second error message:

2) ./bin/greet executing a CLI Application uses #gets.strip to capture the user input and set it equal to a variable called name
     Failure/Error: name = get_variable_from_file("./bin/greet", "name")
     NameError:
       local variable `name' not defined in ./bin/greet.

Once again, it starts with a description that means "Running ./bin/greet should execute a CLI application that uses the gets.strip method to capture the user's input and set it equal to a variable called 'name'".

The important part of our error message is at the bottom of the Failure/Error portion of the text:

local variable `name' not defined in ./bin/greet.

This is telling us that the bin/greet file fails to set a variable called name equal to the user's input that is captured via the #gets.strip methods.

Now that you have a basic sense of how to read these error messages, as well as some guidelines for getting those tests passing, go ahead and get HAL working properly!

When you're done, run learn to confirm all tests are passing.

<iframe width="560" height="315" src="https://www.youtube.com/embed/7R0mD3uWk5c" frameborder="0" allowfullscreen></iframe>

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View Greeting CLI Lab on Learn.co and start learning to code for free.