Stay logically pure, it's easy: Use the meta-predicate
`tcount/3`

in tandem with the reified type test predicate `number_t/2`

(short for `number_truth/2`

):

```
number_t(X,Truth) :- number(X), !, Truth = true.
number_t(X,Truth) :- nonvar(X), !, Truth = false.
number_t(X,true) :- freeze(X, number(X)).
number_t(X,false) :- freeze(X,\+number(X)).
```

Let's run the query the OP suggested:

?- tcount(number_t,[**1**,**2**,c,h,**4**],N).
N = 3. % succeeds deterministically

Note that this is monotone: delaying variable binding is always logically sound. Consider:

?- tcount(number_t,[A,B,C,D,E],N), **A=1**, **B=2**, C=c, D=h, **E=4**.
**N = 3**, A = 1, B = 2, C = c, D = h, E = 4 ; % succeeds, but leaves choice point
false.

At last, let us peek at some of the answers of the following *quite general* query:

```
?- tcount(number_t,[A,B,C],N).
N = 3, freeze(A, number(A)), freeze(B, number(B)), freeze(C, number(C)) ;
N = 2, freeze(A, number(A)), freeze(B, number(B)), freeze(C,\+number(C)) ;
N = 2, freeze(A, number(A)), freeze(B,\+number(B)), freeze(C, number(C)) ;
N = 1, freeze(A, number(A)), freeze(B,\+number(B)), freeze(C,\+number(C)) ;
N = 2, freeze(A,\+number(A)), freeze(B, number(B)), freeze(C, number(C)) ;
N = 1, freeze(A,\+number(A)), freeze(B, number(B)), freeze(C,\+number(C)) ;
N = 1, freeze(A,\+number(A)), freeze(B,\+number(B)), freeze(C, number(C)) ;
N = 0, freeze(A,\+number(A)), freeze(B,\+number(B)), freeze(C,\+number(C)).
```