# Testing with Ruby

Forgive the simplicity of this problem. I'm learning about TDD and have the following statements.

``````def test_equilateral_triangles_have_equal_sides
assert_equal :equilateral, triangle(2, 2, 2)
assert_equal :equilateral, triangle(10, 10, 10)
end

def test_isosceles_triangles_have_exactly_two_sides_equal
assert_equal :isosceles, triangle(3, 4, 4)
assert_equal :isosceles, triangle(4, 3, 4)
assert_equal :isosceles, triangle(4, 4, 3)
assert_equal :isosceles, triangle(10, 10, 2)
end

def test_scalene_triangles_have_no_equal_sides
assert_equal :scalene, triangle(3, 4, 5)
assert_equal :scalene, triangle(10, 11, 12)
assert_equal :scalene, triangle(5, 4, 2)
end
``````

I made a really basic solution to this problem and wanted to get feedback from more experienced programmers about alternative solutions.

My code:

``````def triangle(a, b, c)
if (a == b) && (a == c) && (b == c)
:equilateral
elsif (a == b) && ((a || b) != c)
:isosceles
elsif (a == c) && ((a || c) != b)
:isosceles
elsif (b == c) && ((b || c) != a)
:isosceles
else
:scalene
end
``````
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You can make the condition checks easier by sorting the sides

``````sides = [a, b, c].sort
return :equilateral if sides[0] == sides[2]
return :isosceles if sides[0] == sides[1] || sides[1] == sides[2]
return :scalene
``````

Or an even easier way would be to count the number of unique sides using `.uniq`

``````sides = [a, b, c].uniq
type = case sides.length
when 1 then :equilateral
when 2 then :isosceles
when 3 then :scalene
end
``````
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With respect, using `sort` provides one less comparison in the method while reducing overall clarity. @AndyRoyal provides a simple, readable, elegant solution. I do like the idea of `return :foo if <condition>` in this solution. The second approach is clever -- it makes you think. On the other hand, would you rather a reader have to think, or immediately understand? (A metaphysical or at least rhetorical question, which I'll leave to a forum like Quora :-). –  Tom Harrison Jr Dec 10 '12 at 12:36
@Tom, Maybe I've been around uniq more, but the second solution seems very straightforward to me, and makes me think less than the other solutions. –  Wayne Conrad May 10 '13 at 21:25

Two comments. First, generally you want tests to confirm positive case, as well as to check for failures (`assert_not_equal`).

I think you could tighten up your `triangle` method a little.

Consider: if `a == b` and `b == c` then it is true that `a == c`

Consider: if `a == b` or `b == c` or `a == c` then a triangle is isosceles

Consider: the first condition met will prevent others from executing, and also rules out other cases.

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A lot of your conditions are redundant. If a==b and a==c, then b==c necessarily. Also if the first condition is false and a==b, then c can't be equal to either of them or the first condition would have been true. So you can simplify to this:

``````def triangle(a, b, c)
if (a == b) && (a == c)
:equilateral
elsif (a == b) || (a == c) || (b == c)
:isosceles
else
:scalene
end
end
``````
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Aw man, you gave E L the answer :-). –  Tom Harrison Jr Dec 6 '12 at 20:42
@TomHarrisonJr Sorry, I'm kind of new to this, I'll go easy on the spoilers in future... but to be fair in this instance it's not a huge leap from having all the right logic to having the right Ruby. Thanks for correcting my mistake though :-) –  Andy Royal Dec 6 '12 at 20:58
I was just joking -- it's fine to answer someone's question! (Unless it looks like they are just trying to cheat on their homework) –  Tom Harrison Jr Dec 6 '12 at 21:00
@Tom and Andy, I understand your concern, but in this case, this isn't homework. I previously learned Python and am trying to learn Ruby and Rails on my own. I'm still a newbie when it comes to programming though. :) –  E L Dec 6 '12 at 22:10

This should cover you:

``````def triangle(a, b, c)

raise TriangleError, 'Sum of two sides must be greater than the third.' if a + b < c || b + c < a || a + c < b # not a triangle!
raise TriangleError, 'Sum of two sides must not be equal to the third.' if a + b == c || b + c == a || a + c == b # degenerate triangle!

return :equilateral  if a == b && a == c
return :isosceles    if a == b || b == c || a == c
return :scalene      if a != b && b != c && a != c

end
``````

Grats on your progress through Ruby Koans! :-)

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