# A more elegant solution to Ruby Koans' triangle.rb

I have been working through Ruby Koans and made it to about_triangle_project.rb in which you are required to write the code for a method, triangle.

Code for these items are found here:

https://github.com/edgecase/ruby_koans/blob/master/koans/triangle.rb

In triangle.rb, I created the following method:

``````def triangle(a, b, c)
if ((a == b) && (a == c) && (b == c))
return :equilateral
elsif ((a == b) || (a == c) || (b == c))
return :isosceles
else
return :scalene
end
end
``````

I know from reading Chris Pine's "Learn to Program" there is always more than one way to do things. Although the above code works, I can't help but think there is a more elegant way of doing this. Would anyone out there be willing to offer their thoughts on how they might make such a method more efficient and compact?

Another thing I am curious about is why, for determining an equilateral triangle, I was unable to create the condition of (a == b == c). It is the proof for an equilateral triangle -- my mother, a former geometry teacher said as much -- but Ruby hates the syntax. Is there an easy explanation as to why this is?

-
`==` is an operator that accepts to values (like `*` or `/` ). it returns `true` or `false`. it is illegal as to not cause confusion (e.g `1 == 1 == 1` would evaluate to `false` as it is equivalent to `(1 == 1) == 1`). –  glebm Jan 20 '11 at 1:49
You could've saved a bit of code by using the transitive property for `:equilateral`: (a == b) && (b == c) –  pkananen May 19 '11 at 20:35
Python supports the "a == b == c" syntax (or even "a < b <= c"), but among programming languages that is an exception rather than a rule. –  Todd Owen Jun 10 '12 at 5:30

There is an easy explanation for why that is:

`==` in Ruby is an operator, which performs a specific function. Operators have rules for determining what order they're applied in — so, for example, `a + 2 == 3` evaluates the addition before the equality check. But only one operator at a time is evaluated. It doesn't make sense to have two equality checks next to each other, because an equality check evaluates to `true` or `false`. Some languages allow this, but it still doesn't work right, because then you'd be evaluating `true == c` if `a` and `b` were equal, which is obviously not true even if a == b == c in mathematical terms.

As for a more elegant solution:

``````case [a,b,c].uniq.size
when 1 then :equilateral
when 2 then :isosceles
else        :scalene
end
``````

Or, even briefer (but less readable):

``````[:equilateral, :isosceles, :scalene].fetch([a,b,c].uniq.size - 1)
``````
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Thank you, chuck! I haven't reached using case, uniq or fetch yet in koans, but that is extremely cool (and why I love Ruby!). –  erinbrown Jan 20 '11 at 2:05
+1 for `uniq.size`; that's elegant. Interesting that you chose to use `fetch`, as `[...][[...].uniq.size]` is valid. –  Phrogz Jan 20 '11 at 5:01
@Phrogz: I wrote it that way at first, but it was just egregiously unreadable, like the kind of Perl code that people always make fun of, so I figured `fetch` at least approximated something I'd want to read. –  Chuck Jan 20 '11 at 7:02
I came up with this code: `[nil, :equilateral, :isosceles, :scalene][[a,b,c].uniq.size]` but I think yours is a little more readable. –  Pablo B. Apr 12 '11 at 21:06
Great stuff, but note the two typos (isosceles & scalene) in the briefer solution. Too few changes to edit. –  Jamie Schembri Aug 31 '11 at 23:06
show 1 more comment

Another approach:

``````def triangle(a, b, c)
a, b, c = [a, b, c].sort
raise TriangleError if a <= 0 or a + b <= c
return :equilateral if a == c
return :isosceles if a == b or b == c
return :scalene
end
``````
-
+1 Clever use of the ordering to avoid unnecessary comparisons. –  Todd Owen Jun 10 '12 at 5:35
I had to add class TriangleError < StandardError end to the end for this to work. –  SteveO7 Oct 1 '12 at 22:35
``````def triangle(a, b, c)
if a == b && a == c              # associativity => only 2 checks are necessary
:equilateral
elsif a == b || a == c || b == c # == operator has the highest priority
:isosceles
else
:scalene                       # no need for return keyword
end
end
``````
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Thank you, glebm! (And for the answer above, too.) –  erinbrown Jan 20 '11 at 2:05
you mean transitivity :) –  Anurag May 7 '11 at 0:38

I borrowed Chuck's cool uniq.size technique and worked it into an oo solution. Originally I just wanted to extract the argument validation as a guard clause to maintain single responsibility principle, but since both methods were operating on the same data, I thought they belonged together in an object.

``````# for compatibility with the tests
def triangle(a, b, c)
t = Triangle.new(a, b, c)
return t.type
end

class Triangle
def initialize(a, b, c)
@sides = [a, b, c].sort
guard_against_invalid_lengths
end

def type
case @sides.uniq.size
when 1 then :equilateral
when 2 then :isosceles
else :scalene
end
end

private
def guard_against_invalid_lengths
if @sides.any? { |x| x <= 0 }
raise TriangleError, "Sides must be greater than 0"
end

if @sides[0] + @sides[1] <= @sides[2]
raise TriangleError, "Not valid triangle lengths"
end
end
end
``````
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This is great answer to the Tests portion of the about_triangle_project_2.rb as well. I copy/pasta'd your solution which was much more elegant that my machine code version. –  TALLBOY Mar 11 '11 at 0:47

Hmm.. I didn't know about `uniq` - so coming from smalltalk (ages ago) I used:

``````require 'set'
def triangle(a, b, c)
case [a, b, c].to_set.count
when 1 then :equilateral
when 2 then :isosceles
else :scalene
end
end
``````
-
I took a look for a more elegant solution than what I had implemented and found this post a year and a half after the fact... But I have to say I really like this solution. It's a nice clean approach that is also very readable; kudos! –  bigtunacan Mar 13 '13 at 21:35
``````def triangle(a, b, c)