I'll try to introduce as little changes as possible to your code.

One thing that is definitely wrong is where you try to calculate the difference. Prolog does arithmetic computations only when using `is`

operator. Your code:

```
if((Hi1row - Hi2row), IsumDiff, Hi1row),
```

is merely passing the expression of the form (X-Y) to the `if`

predicate, and not calculating it. Later inside `if`

, you do not compute the difference but try to compare the expression to zero... which fails, because you can only compare numbers to numbers, and not to expressions -- and `Diff`

gets assigned to an expression.

It would work if you rewrite the first clause of if as follows (even though you should also get rid of that `is`

here):

```
if((X-Y), Iresult, Entry) :-
X > Y,
Iresult is Entry.
```

This way your `if`

predicate will get X and Y from the expression to be able to compare them.

Also, you need to avoid your `if`

predicate to yield two possible answers. Your second `if`

clause will be invoked even when X>Y: in the process of backtracking. The easiest way is to put `!`

at the end of first clause. It means: "Up to this point, I accept the first solution in this program and I don't want to go back from here to find any other solutions". The clause will be changed to:

```
if((X-Y), Iresult, Entry) :-
X > Y,
Iresult is Entry,
!.
```

But... this is good in small programs, and if you actually need backtracking in other parts of your program, this can break it. The cleaner way would be to check proper condition in both clauses. Rewrite them to:

```
if((X-Y), Iresult, Entry) :-
X > Y,
Iresult is Entry.
if((X-Y), Iresult, _) :-
X =< Y,
Iresult is 0.
```

Then you're sure that if X>Y, the second clause will fail.

After these modifications your code should work... Please report if it doesn't.
It still won't be very prolog-ish though; it is a little bit too verbose.

Edit:

Ok, I'd write it in a simple way:

```
sum_if_bigger([], [], 0).
sum_if_bigger([A|L1], [B|L2], Result) :-
sum_if_bigger(L1, L2, Partial),
Result is Partial + max(0, A-B).
```

...or in a tail-recursive way:

```
sum_if_bigger_tr(L1, L2, R) :-
sum_if_bigger_tr(L1, L2, 0, R).
sum_if_bigger_tr([], [], R, R).
sum_if_bigger_tr([A|L1], [B|L2], Partial, Result) :-
NewPartial is Partial + max(0, A-B),
sum_if_bigger_tr(L1, L2, NewPartial, Result).
```

`is`

. You need`is`

to calculate sum and difference; it is not needed for simple assignments. – liori Nov 20 '09 at 1:21