The ISO standard and its corrigendum 2 features a couple
of test predicates that test the data-types in Prolog.
Richard O'Keefe used to arrange these test predicates
http://www.complang.tuwien.ac.at/ulrich/iso-prolog/okeefe.txt
as follows:
true
|
+---------+---------+
| |
nonvar var
|
+---------+--------------------------+
| |
compound atomic=constant
|
+----------------+---------+---------+
| | |
number string atom=symbol
|
+-------+-------+
| |
integer float
I have left out rational and complex which are not part of ISO Prolog, but I have kept string although it is also not part of ISO Prolog, but for example genuine strings, i.e. not the double quoted shorthand for character code lists but a real datatype, are currently found in SWI-Prolog version 7. Generally ISO Prolog allows adding new data types to a Prolog implementation.
The tree has some nice properties:
1) Siblings are exclusive:
If s1, .., sn are siblings, then maximum one of the
test predicates si will hold for a given argument. So for example we know that either float(X) or integer(X) or none of the two holds, but not both together can hold for a particular X.
2) Children are contained in their parent:
If c is a child and p is parent, then c implies p. So for example we know that if number(X) holds, then also atomic(X) holds for a particular X.
There are more datatypes already defined in the ISO core standard that cannot so easily be fit into the tree. For example an atom of length 1 is called character. An integer between 0..max_code is called a character code. An integer between 0..255 is called a byte. Sometimes a character code or byte resp. character might also include -1 resp. end_of_file. These datatypes don't have their own test predicate, tests have to be derived from other predicates.
Strictly speaking the ISO core standard also defines list cells simply as compounds of arity 2 with functor '.', and the empty list as the atom '[]'. Some Prolog systems, like for example SWI-Prolog version 7 violate this rule and use another functor for list cells. The newer ISO test predicate callable/1 joins atoms and compounds.
Then there are more holistic test predicates which don't look only at the manifest type of the root element of the given term. For example the predicate ground/1 has to look at the whole term, so does the test predicate acyclic_term/1, both being part of the ISO standard.