I'm new to prolog and I'm trying to figure out how I can use if/else statement and recursion. To illustrate, I've written a simple prolog program. The program is useless (in that its functionality is useless), but it helps me illustrate my problem. The program takes a list, examines the head of the list, sees if it's the last element; if it's not, it adds the head to a temporary list variable and runs the program in recursion using the Tail of the list. It should output the list in the end. The program:

 gothrough([H|T], B, C):-
      (  (T == [])
      -> C=B
      ;  gothrough(T, B, C)

The call: gothrough([sample, phrase, here], [], C).

Expected output: C = [sample, phrase, here]

Current output: no

Any help on what I'm doing wrong?


  • 1
    All of append's arguments should be lists and append(B, H, B) can only succeed if H is the empty list. Looking at this code, it's hard to see why you think C is going to ultimately equal the first argument, or what B is going to do exactly, so I think you have deeper problems than just recursion. – Daniel Lyons Feb 18 '13 at 23:20
  • You're absolutely right...I simplified the program and I forgot to set C equal to B. But can you elaborate on the H is the empty list thing please? I thought append appends the contents of B and H into B. So for example, if B = [yesterday] and H = [today], then append(B, H, B) = [yesterday, today]? – pauliwago Feb 18 '13 at 23:24

From your comments I understand that you misunderstand how append (and Prolog in general) works.

This is not true at all: "if B = [yesterday] and H = [today], then append(B, H, B) = [yesterday, today]".

append(B, H, B) means "appending H to B yields B again". This is only possible if H is an empty list.

The key thing to understand is that both Bs in append(B, H, B) are the same, they must have the same value. It's like variables in algebra - all Xs in an equation means the same value.

You should use different name for the output variable, like append(B, H, Bnew) - then it will make more sense.


The first problem is append(B, H, B) which for most inputs doesn't make sense.

The second problem is that the consequence and alternative of an if-then-else, i.e. the parts after -> and after ; must both be Prolog goals (statements). C is not a goal. You may have meant C=B, though it's hard to tell because I find it hard to understand what your program is doing.

  • Thanks for your comment, yes you are absolutely right. I simplified my original program and I forgot to set C equal to B. So I edited it in my original post. But I am confused as to why append(B, H, B) doesn't make sense for most inputs? – pauliwago Feb 18 '13 at 23:25

You're getting a no because append(B,H,B) fails unless H is []; remember, these are clauses, not assignments. And since you never bind anything to C, it will never have a value in it if your statement was ever proved.

This will accomplish your task:

gothrough([H|T], B, C) :- gothrough(T,B,Cx), append([H],Cx,C).
  • 1
    Thank you for your comment! Can you please elaborate on why append(B,H,B) needs to fail unless B is []? I thought if B = [yesterday] and H = [today], then append(B, H, B) = [yesterday, today]? – pauliwago Feb 18 '13 at 23:28
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    @pauliwago In Prolog a variable only ever has one binding, and functions do not "return" so what you're saying doesn't really apply to Prolog at all. I suggest you go back and start from the beginning. – Daniel Lyons Feb 18 '13 at 23:34
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    append(B,H,B) fails unless H is [], not B. – Sergey Dymchenko Feb 19 '13 at 0:03

This can be done even more simply:

gothrough([], []).
gothrough([H|T], [H|X]) :-
    gothrough(T, X).

The first rule matches your empty list condition, which then forces the end of the recursion/the list to be built.

The second rule matches everything but an empty list, in which case the head H is appended onto X, where X is the result of list obtained from recursing the tail. ie. you don't need to use the append predicate - list appending is built into prolog.

?- gothrough([simple, phrase, here], X).
X = [simple, phrase, here].

This solution also uses one less variable.

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