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Im brand new to Isabelle, and HOL programming in general. One of the exercises in a text book is to:

Define a recursive function double :: nat ⇒ nat and prove double m = add m m.

Im Still trying to define it but i can't figure it out., Here is what i have done so far.

fun double :: "nat => nat"  where
"double 0 = 0" |  //my base case
"double (n) =  //I don't know what to do here

I have a function add defined as follows.

fun add :: "nat ⇒ nat ⇒ nat" where
"add 0 n = n" |
"add (Suc m) n = Suc(add m n)"

but i don't think I'm meant to use add in the definition of double. Also an explanation with the answer would be greatly appreciated. Thank you, Rainy

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up vote 1 down vote accepted

Try to figure out how to express double (Suc n) in terms of double n and Suc. That willl give you a recursive definition.

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Would this be correct: fun double :: "nat => nat" where "double 0 = 0" | "double (Suc n) = double n + Suc(Suc(0))" – RainyCats Jul 15 '14 at 14:14
In principle yes, but it is somehow cheating to use the built-in addition op + when the exercise is about double and add. Maybe you can express the same equation by just using Sucs without op + (or add for that matter)? – chris Jul 15 '14 at 15:04
I changed it to "double (Suc n) = Suc(Suc(double n))" and i get no errors, is this correct then? – RainyCats Jul 15 '14 at 15:37
Yes. That was the intended result. – Manuel Eberl Jul 15 '14 at 15:49

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