# Tagged Questions

Equational reasoning consists in manipulating definitions in referentially transparent code as if they were mathematical equations.

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### reduce(x+y, xs) and sum(xs) are not equivalent in python?

I would expect the two to mean the same, from a functional equational standpoint, however: x = [1, 2, 3] y = ['a', 'b', 'c'] reduce(lambda x, y: x + y, zip(x, y)) # works sum(zip(x, y)) # fails ...
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### Haskell - How to transform maximum (xs ++ map (x+) xs) to max (maximum xs) (x + maximum xs)

One of the excercises in "Thinking Functionally With Haskell" is about making a program more efficient using the fusion law. I am having some trouble trying to replicate the answer. A part of the ...
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### Haskell - How to transform map sum (map (x:) xss) to map (x+) (map sum xss)

Reading "Thinking Functionally with Haskell" I came across a part of a program calculation that required that map sum (map (x:) xss) be rewritten as map (x+) (map sum xss) Intuitively I know that it ...
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### Function evaluation result

Im trying to evaluate manually fc [f1, f2] (\x -> 2) 3 but I don't realize how to match the three parameters: [f1, f2], (\x -> 2) and 3 with the function definition, any help? The function ...
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### How does Haskell evaluate this function defined with partial application?

I'm trying to understand how Haskell evalutes pp1 [1,2,3,4] to get [(1,2),(2,3),(3,4)] here: 1. xnull f [] = [] 2. xnull f xs = f xs 3. (/:/) f g x = (f x) (g x) 4. pp1 = zip /:/ xnull tail I start ...
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### How does Haskell evaluate this function which undoes list intercalation?

I'm trying to understand how Haskell evalutes sep [1, 2, 3, 4, 5] to get ([1, 3], [2, 4, 5]) where: sep [ ] = ([ ], [ ]) sep [x] = ([ ], [x]) sep (x1:x2:xs) = let (is, ps) = sep xs in (x1:is, x2:ps) ...
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### Understanding different foldr statments

I understand simple foldr statements like foldr (+) 0 [1,2,3] However, I'm having trouble with more complicated foldr statements, namely ones that take 2 parameters in the function, and with / and ...
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### acl2 equational reasoning, proving equality

I'm trying to prove the following function true and am having trouble figuring it out, even though it seems so obvious! (implies (and (listp x) (listp y)) (equal (app (rev x) ...