I have a quick question about Haskell. I've been following Learn You a Haskell, and am just a bit confused as to the execution order / logic of the following snippet, used to calculate the side lengths of a triangle, when all sides are equal to or less than 10 and the total perimeter of the triangle is 24:

`[(a,b,c) | c <- [1..10], b <- [1..c], a <- [1..b], a^2 + b^2 == c^2, a+b+c==24]`

The part that is confusing to me is the upper expansion bound on the `b`

and `a`

binding. From what I gather, the `..c`

and `..b`

are used to remove additional permutations (combinations?) of the same set of triangle sides.

When I run it with the `..c/b`

, I get the answer:

`[(6,8,10)]`

When I don't have the `..c/b`

:

`[(a,b,c) | c <- [1..10], b <- [1..10], a <- [1..10], a^2 + b^2 == c^2, a+b+c==24]`

as I didn't when I initially typed it in, I got:

`[(8,6,10),(6,8,10)]`

Which is obviously representative of the same triangle, save for the `a`

and `b`

values have been swapped.

So, can someone walk me through the logic / execution / evaluation of what's going on here?