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September 21, 2013 22:26
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LET'S PLAY
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# Exercise 1 | |
Define three local variables: home_address, home_city, and home_state. Define and assign them the values of your own personal home address, city, and state, respectively. | |
# Exercise 2 | |
Explain the difference between the following lines of code in plain English. "Plain English" means use language Edward, your non-programming second cousin from Ames, IA, would understand. | |
If any of the lines are invalid, explain why. | |
first_name = "Khara" | |
first_name == "Khara" | |
"Muniz" = first_name | |
"Muniz" == first_name | |
# Exercise 3 | |
Define a method called fancy_pants that takes three arguments named first_name, middle_name, and last_name (in that order). The body of the method can be empty — we're just looking for the method definition. | |
# Exercise 4 | |
Explain in plain English what the following method does: | |
def foobar(arg) | |
if arg > 42 | |
puts "Danger! Danger!" | |
elsif arg == 42 | |
puts "Just right!" | |
else | |
puts "She needs more power, cap'n!" | |
end | |
end | |
# Exercise 5 | |
Consider the following array: | |
["ruby", "is", "the", "best", "programming", "language", "ever"] | |
Answer the following questions: | |
What value is stored at index 3? | |
What is the index of the word "ruby?" | |
What is the length of the array? | |
# Exercise 6 | |
Create a method new_cat which takes as its input two strings. It should concatenate the strings and return the concatenated value, without modifying either of the input strings. For example, | |
One does not simply walk into... | |
new_cat("Mor", "dor") # => "Mordor" | |
Call this method and send your first and last name as arguments. | |
# Exercise 7 | |
Write a method called product which takes as its input an array of integers and returns their product. For example | |
product([1,2,3]) # returns 6 | |
product([0,-1,-10]) # returns 0 | |
product([1,-1,-10]) # returns -11 | |
If you need to iterate over the array, please use Array#each. Don't use, e.g., inject. | |
# Exercise 8 | |
Write a method called product_odd which takes as its input an array of integers and returns the product of all the odd integers in the array. Remember that technically 0 is an even integer. | |
For example: | |
product_odd([1,2,3]) # returns 3, because 2 is even | |
product_odd([0,-1,-10]) # returns -1, because 0 and -10 are even | |
product_odd([1,2,3,4,5]) # returns 15, because 4 and 2 are even | |
If you need to iterate over the array, please use Array#each. Don't use, e.g., inject. | |
# Exercise 9 | |
Write a method called fizzblam that prints the numbers from 1 to 1000. But for multiples of 5 print "Fizz" instead of the number and for the multiples of 7 print "Blam". For numbers which are multiples of both 5 and 7 print "FizzBlam." | |
# Exercise 10 | |
Consider the following code examples. In each case assume the input array is an array of integers. | |
For each example, explain in a one or two plain-English sentences what the given method does when passed an array of positive integers. | |
Choose one method (not the first!) and refactor it into something shorter. Give the working code of the refactored method. | |
Hint: If you can't figure out what these methods do by reading the code, run them locally and try to figure it out by experimenting with the input parameters. | |
Code Examples for Exercise 10 | |
def method_1(array) | |
array.each do |num| | |
puts num*100 | |
end | |
end | |
def method_2(array) | |
foo = array.first | |
array.each do |num| | |
if num > foo | |
foo = num | |
end | |
end | |
return foo | |
end | |
def method_3(array) | |
results = [] | |
array.each do |num| | |
if num > 0 | |
results << num | |
end | |
end | |
return results | |
end | |
def method_4(array) | |
results = [] | |
array.each do |num| | |
if num % 2 == 0 | |
results << num | |
end | |
end | |
return results | |
end | |
# Exercise 11 | |
Consider the following method: | |
def print_value(hash, key) | |
puts hash[key].inspect | |
end | |
What will the following code print to the console and why? | |
hash = {:dog => 'woof', 'cat' => 'meow', 'duck' => 'quack'} | |
print_value(hash, :dog) | |
print_value(hash, 'dog') | |
print_value(hash, 'cat') | |
print_value(hash, 'quack') | |
print_value(hash, :duck) | |
# Exercise 12 | |
Explain in plain English the difference between return and puts. You're free to use code examples to illustrate your point. | |
# Exercise 13 | |
Using pseudocode, write a simple hangman game. The point of pseudocode is to represent the logical structure of a program without getting bogged down in the syntax of a particular language. | |
For example, a program to select the largest integer from an array of integers might be written like this in pseudocode | |
initialize max_so_far to the first element of the array | |
for each element of the array | |
if element is greater than max_so_far | |
set max_so_far to element | |
return max_so_far | |
The particular conventions are not important. The point is to express the logical structure in a kind of English that another programmer could both understand and, witih a little effort, translate into working code in their language of choice. | |
Whew, you're done! | |
Time for a nap. |
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def evaluate_guess(baby_array, answer_array, guess)
end
baby_array = ["b", "a", "b", "y"]
answer_array = ["", "", "", ""]
puts "We're playing hangman. What is your guess?"
guess = gets.chomp
baby_array = ["b", "a", "b", "y"]
answer_array = ["", "", "", ""]
evaluate_guess(baby_array, answer_array, guess)
p answer_array