Standard term order (ISO/IEC 13211-1 7.2 Term order) is defined over all terms — including variables. While there are good uses for this — think of the implementation of `setof/3`

, this makes many otherwise clean and logical uses of the built-ins in 8.4 Term comparison a declarative nightmare with imps (short form for imperative constructs) all around. 8.4 Term comparison features:

## 8.4 Term comparison

8.4.1 (@=<)/2, (==)/2, (\==)/2, (@<)/2, (@>)/2, (@>=)/2.

8.4.2 compare/3.

8.4.3 sort/2.

8.4.4 keysort/2.

To give an example, consider:

```
?- X @< a.
true.
```

This succeeds, because

## 7.2 Term order

An ordering

term_precedes(3.181) defines whether or

not a term`X`

term-precedes a term`Y`

.If

`X`

and`Y`

are identical terms then`X`

term_precedes`Y`

and`Y`

term_precedes`X`

are both false.If

`X`

and`Y`

have different types:`X`

term_precedes`Y`

iff the

type of`X`

precedes the type of`Y`

in the following order:

`variable`

precedes`floating point`

precedes`integer`

precedes`atom`

precedes`compound`

.NOTE — Built-in predicates which test the ordering of terms

are defined in 8.4.

...

And thus all variables are smaller than `a`

. But once `X`

is instantiated:

```
?- X @< a, X = a.
X = a.
```

the result becomes invalid.

So that is the problem. To overcome this, one might either use constraints, or stick to core behavior only and therefore produce an `instantiation_error`

.

## 7.12.2 Error classification

Errors are classified according to the form of

`Error_term`

:a) There shall be an Instantiation Error when an

argument or one of its components is a variable, and an

instantiated argument or component is required. It has

the form`instantiation_error`

.

In this manner we know for sure that a result is well defined as long as no instantiation error occurs.

For `(\==)/2`

, there is already either `dif/2`

which uses constraints or `iso_dif/2`

which produces a clean instantiation error.

```
iso_dif(X, Y) :-
X \== Y,
( X \= Y -> true
; throw(error(instantiation_error,iso_dif/2))
).
```

So what my question is about: How to define (and name) the corresponding safe term comparison predicates in ISO Prolog? Ideally, without any explicit term traversal. Maybe to clarify: Above `iso_dif/2`

does not use any explicit term traversal. Both `(\==)/2`

and `(\=)/2`

traverse the term internally, but the overheads for this are extremely low compared to explicit traversal with `(=..)/2`

or `functor/3, arg/3`

.

`freeze/2`

?`freeze/2`

alone would not work properly, you would rather need`when/2`

with`?=`

. Example:`lt(X+2,Y+1), X = Y`

should fail already.4more comments