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how can I solve this problem??

Input: count_atoms(T,Count)

Output count_atoms(a(b,c(d,e),f),Count). Count = 4 ;

I really have no idea... Please can you help me??

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2 Answers 2

Maybe a stack based approach can help. You could write at least four helper predicates which could look like this:

% Increases accumulator if T is atomic + call to count_atoms/6
count_atoms(T, Stack, StackSize, Accumulator, Count) :- ...

% Gets the arity of T if T is compound + call to count_atoms/6
count_atoms(T, Stack, StackSize, Accumulator, Count) :- ...

% Gets Nth subterm of T and puts it on the stack + call to count_atoms/6
count_atoms(T, N, Stack, StackSize, Accumulator, Count) :- ...

% Pops element from stack + call to count_atoms/5
count_atoms(T, _, Stack, StackSize, Accumulator, Count) :- ...

But you still need a the count_atoms/2 predicate and one to stop the algorithm and produce the result.

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using library(aggregate) by SWI-Prolog and recursion:

count_atoms(T, Count) :-
    -> Count = 1
    ;  compound(T)
    -> aggregate_all(sum(C), (arg(_, T, A), count_atoms(A, C)), Count)
    ;  Count = 0


?- count_atoms(a(b,c(1,e),f),Count).
Count = 3.

but I fear this is not the solution for your assignment. For something more basic you could decompose any compound term using =.. and recurse on arguments list.

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