You are using the expression `2*X+Y`

all the time. Why not calculate it **first** and then use that result for the actual computation? Maybe you missed here something in the problem statement?

Why do you want to exclude the case where `X`

, `Y`

and `N`

are all 0? ... while you are not excluding the case of `N < 0`

?

## Argument order

It is common in Prolog to put results **after** the corresponding input arguments. There are exceptions to this rule, `(is)/2`

is the most common example, but it is written as an infix operator.

## Error signalling

For cases you cannot handle properly there are two options in Prolog. Either you silently fail or you issue a clean error. (There is a third – looping, which while not ideal is still better than succeeding.) Currently, you write out a text and then you succeed. So you are assuming that someone will read your message. But frequently programs run unattended and the message is ignored.

Imagine I want to use your definition to prove that your definition is the question to *the* answer:

?- **expbar(42, 0, 0, 0).**

This is what I get in SWI after rewriting `X =:= Y =:= N =:= 0`

to `X =:= 0, Y =:= 0, N =:= 0`

.

?- **expbar(42, 0, 0, 0).**
[78,111,32,116,119,111,32,118,97,114,105,97,98,108,101,115,32,99,97,110,32,101,113,117,97,108,32,48,32,97,116,32,116,104,101,32,115,97,109,101,32,116,105,109,101,46]
true.

It says `true.`

! And these numbers above are certainly some progress messages from such a highly complex calculation... So it is very easy to misread your message. It would have been a bit easier if you would have used single quotes. More about single and double quotes. But even with a more readable message, it is easy to skip it.

The proper way to handle such a situation is by issuing an error:

throw(error(Error_term,_More_info))

In this manner the computation is aborted and the error is handled by the toplevel (or the next place where a `catch/3`

handles it). This lowers the chances that the error will be misinterpreted.

The `Error_term`

should be ideally one of the existing error terms.
Here is the complete list of errors in ISO Prolog.
In your case it might an `evaluation_error(undefined)`

similarly to the definition of exponentiation.