First, re-write your original code as

```
fib(N, NthFib) :- fib(1, N, 1, 0, NthFib).
fib(K, N, Ans, Tmp, NthFib) :-
K > N -> Ans = NthFib; % use = instead of is here
K =< N -> fib((K+1), N, (Ans+Tmp), Ans, NthFib).
```

Now,

```
?- fib(7,X).
X = 1+0+1+ (1+0)+ (1+0+1)+ (1+0+1+ (1+0))+ (1+0+1+ (1+0)+ (1+0+1))+
(1+0+1+ (1+0)+ (1+0+1)+ (1+0+1+ (1+0)))
Yes
?- fib(7,X), Z is X.
X = 1+0+1+ (1+0)+ (1+0+1)+ (1+0+1+ (1+0))+ (1+0+1+ (1+0)+ (1+0+1))+
(1+0+1+ (1+0)+ (1+0+1)+ (1+0+1+ (1+0)))
Z = 21
```

See, in Prolog data is symbolic, and using `is`

forces the arithmetic expression into an arithmetic value (*evaluates* the expression under assumption that it is a meaningful arithmetic expression).

To check whether 20 is 7-th Fibonacci number, we can use arithmetic comparison operator which evaluates its arguments,

```
?- fib(7,X), X =:= 20.
No
```

Which means that your code just needs to be rewritten as

```
fib(N, NthFib) :- fib(1, N, 1, 0, NthFib).
fib(K, N, Ans, Tmp, NthFib) :-
K > N -> NthFib is Ans ; % exchange the order of operands
K =< N -> fib((K+1), N, (Ans+Tmp), Ans, NthFib).
```

Now it works as you intended:

```
?- fib(7,21).
Yes
?- fib(7,20).
No
```

But it doesn't work efficiently, carrying all those long expressions around as symbolic data. We only need the numbers really, so just as you were shown in other answers, `is`

is used to achieve that. Every symbolic sub-expression that you have, take it out of its enclosing expression, and name it, using `is`

instead of `=`

.

BTW 21 really is an 8-th member of the sequence. Correct your code.