Master Code
The master code will look like this when compiled:
#!/usr/bin/env ruby
=begin
|====================================|
| Req Ruby Ver | Req Ruby Gems Ver |
|--------------|---------------------|
| >= v2.0.0 | >= v2.6.0 |
|====================================|
=end
class PlayRockPaperScissorsGame
module RockPaperScissors
VERSION = "2.3.7" # define version constant
end
# intiate the colorize gem
require "colorized_string"
ColorizedString.colors
ColorizedString.modes
module Constants
NTRY_TO_SYM = { # define constants from an entry to a symbol class
'p' => :PAPER,
'r' => :ROCK,
's' => :SCISSORS
}
VALID_ENTRIES = NTRY_TO_SYM.keys # create valid entries
COMPUTER_CHOICES = NTRY_TO_SYM.values # define computer choices
WINNERS = [ # define winners
# format: player choice, computer choice
[:SCISSORS, :PAPER],
[:PAPER, :ROCK],
[:ROCK, :SCISSORS]
]
LOSERS = WINNERS.map { |i,j| [j,i] } # this will take the original WINNERS array and flip the symbols, thus returning a loss for the user/player
INIT_STRINGS = [
ColorizedString["You are about to enter a rock-paper-scissors best of 3 match."].colorize(:green),
ColorizedString["Press the return/enter key to continue..."].colorize(:green),
""
]
end
protected_methods :Constants # make the constants module protected
class << self # define a self calling method in the parent class
def continue(str1,str2,str3) # pass in 3 parameters
puts ColorizedString[str1].colorize(:color => :green)
print ColorizedString[str2].colorize(:color => :green)
gets # press enter or return to continue
puts str3
end
end
continue(Constants::INIT_STRINGS[0], Constants::INIT_STRINGS[1], Constants::INIT_STRINGS[2]) # call continue class
def initialize # initialize variables
@player_score = @computer_score = @ties = 0
end
def play(winning_score)
while @player_score < winning_score && @computer_score < winning_score # both the computer's score and the player's score have to be less than the value passed in for the winning score at the end
puts ColorizedString["Player score: #{@player_score}, "].colorize(:blue) +
ColorizedString["Computer score: #{@computer_score}, Ties: #{@ties}"].colorize(:blue)
player = PrivateMethods.player_choice
computer = Constants::COMPUTER_CHOICES.sample # chooses a random option
puts ColorizedString["\nPlayer chooses #{player.to_s.downcase}"].colorize(:blue)
puts ColorizedString["Computer chooses #{computer.to_s.downcase}"].colorize(:blue)
case PrivateMethods.player_outcome [player, computer] # define a reference call for player and computer for the arrays called in the player_outcome method
when :WIN
puts ColorizedString["#{player.to_s.capitalize} beats #{computer.to_s.downcase}, player wins the round"].colorize(:red)
@player_score += 1 # @player_score = @player_score + 1
when :LOSE
puts ColorizedString["#{computer.to_s.capitalize} beats #{player.to_s.downcase}, computer wins the round"].colorize(:red)
@computer_score += 1
else # since there is only 1 option left, there is no need to define when :TIE
puts ColorizedString["Tie, choose again"].colorize(:red)
@ties += 1
# since tie is not in the original pass-in argument for the while loop, it will not be affected by the winning score
end
end
puts ColorizedString["\nFinal score: player: #{@player_score}, "].colorize(:blue) +
ColorizedString["computer: #{@computer_score} (ties: #{@ties})"].colorize(:blue)
# define a case for the final outcomes
case PrivateMethods.final_outcome(@player_score, @computer_score)
when :WIN
puts ColorizedString["Player wins!"].colorize(:red)
when :LOSE
puts ColorizedString["Computer wins!"].colorize(:red)
else
puts ColorizedString["It's a tie!"].colorize(:red)
end
gets
end
module PrivateMethods
class << self # make all methods below self calling methods of this class (PlayRockPaperScissorsGame) so that the other methods will not to call their parents of these methods
def player_choice
loop do # for loop with no arguments passed in
print ColorizedString["Choose rock (r), paper (p) or scissors (s): "].colorize(:green)
choice = gets.chomp.downcase # read user input and convert all to lower case
# define valid and invalid entries by using an if else-if statement(s)
if Constants::NTRY_TO_SYM.key?(choice) # if the NTRY_TO_SYM array's key is one of the keys defined in the original array
return Constants::NTRY_TO_SYM[choice] # return the users choice
elsif choice != Constants::VALID_ENTRIES # else if it is not one of the valid entries...
puts ColorizedString["That entry is invalid. Please re-enter."].colorize(:red) # return an error message
end
# # one may also do this (albeit more useless):
# case
# when Constants::NTRY_TO_SYM.key?(choice)
# return Constants::NTRY_TO_SYM[choice]
# when choice != Constants::VALID_ENTRIES
# puts ColorizedString["That entry is invalid. Please re-enter."].colorize(:green)
# end
end
end
def player_outcome(plays) # define method for the player's outcome while passing in a parameter of type array
return :WIN if Constants::WINNERS.include?(plays) # return a win if the one of the sub-arrays in the winners array is called
return :LOSE if Constants::LOSERS.include?(plays) # return a loss if any of the mapped sub-arrays in the losers constant is present
return :TIE if !:WIN | !:LOSE
end
def final_outcome(pl,co) # define final outcome method
return :WIN if pl > co
return :LOSE if pl < co
return :TIE if pl = co # this can never happen due to the code in the play method, but it is worth noting
end
end
end
private_methods :PrivateMethods
end
PlayRockPaperScissorsGame.new.play(2) # call the play method and pass in 3 for the winning score
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