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require File.expand_path(File.dirname(__FILE__) + '/edgecase') | |
# Greed is a dice game where you roll up to five dice to accumulate | |
# points. The following "score" function will be used calculate the | |
# score of a single roll of the dice. | |
# | |
# A greed roll is scored as follows: | |
# | |
# * A set of three ones is 1000 points | |
# | |
# * A set of three numbers (other than ones) is worth 100 times the | |
# number. (e.g. three fives is 500 points). | |
# | |
# * A one (that is not part of a set of three) is worth 100 points. | |
# | |
# * A five (that is not part of a set of three) is worth 50 points. | |
# | |
# * Everything else is worth 0 points. | |
# | |
# | |
# Examples: | |
# | |
# score([1,1,1,5,1]) => 1150 points | |
# score([2,3,4,6,2]) => 0 points | |
# score([3,4,5,3,3]) => 350 points | |
# score([1,5,1,2,4]) => 250 points | |
# | |
# More scoring examples are given in the tests below: | |
# | |
# Your goal is to write the score method. | |
def grouping(xs, &block) | |
unless xs.empty? | |
ys = xs.take_while {|x| x == xs.first} | |
rest = xs.drop(ys.count) | |
ys = yield ys if block_given? | |
block = lambda {|x| x} unless block_given? | |
[ys] + grouping(rest, &block) | |
else | |
xs | |
end | |
end | |
def score(dice) | |
scores = grouping(dice.sort) do |rolled| | |
score_roll rolled.first, rolled.count | |
end | |
scores.reduce 0, :+ | |
end | |
def score_roll(die, count) | |
if count >= 3 | |
points = die == 1 ? 1000 : (die * 100) | |
points + score_roll(die, count - 3) | |
else | |
points = {1 => 100, 5 => 50}.fetch(die, 0) | |
points * count | |
end | |
end | |
class AboutScoringAssignment < EdgeCase::Koan | |
def test_score_of_an_empty_list_is_zero | |
assert_equal 0, score([]) | |
end | |
def test_score_of_a_single_roll_of_5_is_50 | |
assert_equal 50, score([5]) | |
end | |
def test_score_of_a_single_roll_of_1_is_100 | |
assert_equal 100, score([1]) | |
end | |
def test_score_of_multiple_1s_and_5s_is_the_sum_of_individual_scores | |
assert_equal 300, score([1,5,5,1]) | |
end | |
def test_score_of_single_2s_3s_4s_and_6s_are_zero | |
assert_equal 0, score([2,3,4,6]) | |
end | |
def test_grouping_empty_array_returns_empty_array | |
assert_equal [], grouping([]) | |
end | |
def test_grouping_single_element_array_returns_nested_array | |
assert_equal [[5]], grouping([5]) | |
end | |
def test_grouping_of_array_returns_subarrays | |
assert_equal [[1,1], [5,5]], grouping([1,1,5,5]) | |
end | |
def test_score_of_a_triple_1_is_1000 | |
assert_equal 1000, score([1,1,1]) | |
end | |
def test_score_of_other_triples_is_100x | |
assert_equal 200, score([2,2,2]) | |
assert_equal 300, score([3,3,3]) | |
assert_equal 400, score([4,4,4]) | |
assert_equal 500, score([5,5,5]) | |
assert_equal 600, score([6,6,6]) | |
end | |
def test_score_of_mixed_is_sum | |
assert_equal 250, score([2,5,2,2,3]) | |
assert_equal 550, score([5,5,5,5]) | |
end | |
end |
Ah, I'm on 1.8.7 and spent a lot of time looking for something that already did what I used grouping
for. It's called partition-by
in Clojure. I'm not sure I would have seized upon slice_before
, that's a very clever trick with your returning
clause. And you're right about our solutions being similar, I believe that reduce
was abandoned for inject
in 1.9.
The last thing I would direct your attention to would be to my scoring function's {1 => 100, 5 => 50}.fetch(die, 0), which is a one line if/then/else statement. I was pretty proud of that. My next refactoring would be to put it in the Integer class, exactly as you did.
Every language needs a Test-Driven Learning Experience like rubykoans.com. Heck, every developer should have to keep their own diary of distilled problems they've solved and test-cases around them. Kind of the pilot's flight-log of software development.
Something I'm noticing as I look at this Nate, your grouping function is essentially a reimplementation of the slice_before function in ruby 1.9.2's enumerable with the slicing predicate hardcoded. At that point I think the only real difference between your solution here and the one I did over here: http://gist.github.com/580960 is that I put the scoring logic in the integer class.
Thanks for the feedback. I'm really digging playing with Ruby's Enumberable.