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3b0496b8ab
I didn't add any export labels because none of this is actually useful for anything, but the proofs are cool.
51 lines
1.3 KiB
Idris
51 lines
1.3 KiB
Idris
||| Properties of Fibonacci functions
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module Data.Nat.Fib
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import Data.Nat
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%default total
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||| Recursive definition of Fibonacci.
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fibRec : Nat -> Nat
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fibRec Z = Z
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fibRec (S Z) = S Z
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fibRec (S (S k)) = fibRec (S k) + fibRec k
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||| Accumulator for fibItr.
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fibAcc : Nat -> Nat -> Nat -> Nat
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fibAcc Z a _ = a
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fibAcc (S k) a b = fibAcc k b (a + b)
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||| Iterative definition of Fibonacci.
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fibItr : Nat -> Nat
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fibItr n = fibAcc n 0 1
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||| Addend shuffling lemma.
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plusLemma : (a, b, c, d : Nat) -> (a + b) + (c + d) = (a + c) + (b + d)
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plusLemma a b c d =
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rewrite sym $ plusAssociative a b (c + d) in
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rewrite plusAssociative b c d in
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rewrite plusCommutative b c in
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rewrite sym $ plusAssociative c b d in
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plusAssociative a c (b + d)
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||| Helper lemma for fibacc.
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fibAdd : (n, a, b, c, d : Nat) ->
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fibAcc n a b + fibAcc n c d = fibAcc n (a + c) (b + d)
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fibAdd Z _ _ _ _ = Refl
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fibAdd (S Z) _ _ _ _ = Refl
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fibAdd (S (S k)) a b c d =
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rewrite fibAdd k (a + b) (b + (a + b)) (c + d) (d + (c + d)) in
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rewrite plusLemma b (a + b) d (c + d) in
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rewrite plusLemma a b c d in
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Refl
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||| Iterative and recursive Fibonacci definitions are equivalent.
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fibEq : (n : Nat) -> fibRec n = fibItr n
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fibEq Z = Refl
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fibEq (S Z) = Refl
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fibEq (S (S k)) =
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rewrite fibEq k in
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rewrite fibEq (S k) in
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fibAdd k 1 1 0 1
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