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I've been reading about how great difference lists are and I was hoping to test some examples from the books. But it seems that you can't pass lists as input in just the same way as, for instance append([1,2,3], [4,5], X), where X=[1,2,3,4,5]. Strangely, no book I've consulted ever mentions this.

I'm running the code on swipl and I'm interested in testing out a difference append predicate:


and a "rotate first element of list" predicate:

drotate([H|T]-T1,R-S) :- dapp(T-T1,[H|L]-L,R-S).

Any ideas, how I can test these predicates in swipl?

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2 Answers 2

up vote 5 down vote accepted


dapp([1,2,3|X] - X,[4,5,6] - [],Y - []).
drotate([1,2,3|X] - X,Y - []).

Y is the answer for both predicates.

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That did the trick! I never thought about trying Y-[], thanks! –  Daniel Loureiro Jul 9 '11 at 14:58
actually, it could be anything, just make make sure it's the same for 2nd and 3rd argument. e.g.: dapp([1,2,3|X] - X,[4,5,6] - Z,Y - Z). –  LeleDumbo Jul 9 '11 at 15:04

The definition of drotate can be simplified:

drotate([H|T]-T1,R-S) :- % dapp(T-T1,[H|L]-L,R-S). 
       %% use the definition of dapp:
                         T=R, T1=[H|L], L=S. 

IOW, simply,


Now, any difference list is usually written out as a pair, A-B. So a call to drotate might be drotate([1,2,3|Z]-Z,R-L) with intent to see the output in R-L variables. But matching this call with the last definition, we get Z=[1|L], i.e. the logvar Z, presumably non-instantiated before the call, gets instantiated by it, actually adding 1 at the end of the open-ended list [1,2,3|Z]-Z, turning it into [1,2,3,1|L]-L. R just gets pointed at the 2nd elt of the newly enlarged list by matching [H|R] with the list.

?- drotate([1,2,3|Z]-Z,R-L).

Z = [1|_G345]
R = [2, 3, 1|_G345]
L = _G345 


But it could also be called with the truly circular data, A-A=[1,2,3|Z]-Z, drotate(A-Z,R-L):

?- A-A=[1,2,3|Z]-Z, drotate(A-Z,R-L).

A = [1, 2, 3, 1, 2, 3, 1, 2, 3|...]
Z = [1, 2, 3, 1, 2, 3, 1, 2, 3|...]
R = [2, 3, 1, 2, 3, 1, 2, 3, 1|...]
L = [2, 3, 1, 2, 3, 1, 2, 3, 1|...] 

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