These predicates manipulate lists. They are bootstrapped predicates (i.e. written in Prolog) and no error cases are tested (for the moment). However, since they are written in Prolog using other built-in predicates, some errors can occur due to those built-in predicates.
Templates
Description
append(List1, List2, List12) succeeds if the concatenation of the list List1 and the list List2 is the list List12. This predicate is re-executable on backtracking (e.g. if List12 is instantiated and both List1 and List2 are variable).
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
member(Element, List) succeeds if Element belongs to the List. This predicate is re-executable on backtracking and can be thus used to enumerate the elements of List.
memberchk/2 is similar to member/2 but only succeeds once.
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
reverse(List1, List2) succeeds if List2 unifies with the list List1 in reverse order.
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
delete(List1, Element, List2) removes all occurrences of Element in List1 to provide List2. A strict term equality is required, cf. (==)/2 (section 7.3.2).
select(Element, List1, List2) removes one occurrence of Element in List1 to provide List2. This predicate is re-executable on backtracking.
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
permutation(List1, List2) succeeds if List2 is a permutation of the elements of List1. This predicate is re-executable on backtracking.
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
prefix(Prefix, List) succeeds if Prefix is a prefix of List. This predicate is re-executable on backtracking.
suffix(Suffix, List) succeeds if Suffix is a suffix of List. This predicate is re-executable on backtracking.
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
sublist(List1, List2) succeeds if List1 is a sub-list of List2. This predicate is re-executable on backtracking.
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
last(List, Element) succeeds if Element is the last element of List.
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
length(List, Length) succeeds if Length is the length of List.
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
nth(N, List, Element) succeeds if the Nth argument of List is Element.
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
min_list(List, Min) succeeds if Min is the smallest number in List.
max_list(List, Max) succeeds if Max is the largest number in List.
sum_list(List, Sum) succeeds if Sum is the sum of all the elements in List.
List must be a list of arithmetic evaluable terms (section 7.6.1).
Errors
None.
Portability
GNU Prolog predicate.
Templates
Description
sort(List1, List2) succeeds if List2 is the sorted list corresponding to List1 where duplicate elements are merged.
sort0/2 is similar to sort/2 except that duplicate elements are not merged.
keysort(List1, List2) succeeds if List2 is the sorted list of List1 according to the keys. The list List1 consists of items of the form Key-Value. These items are sorted according to the value of Key yielding the List2. Duplicate keys are not merged. This predicate is stable, i.e. if K-A occurs before K-B in the input, then K-A will occur before K-B in the output.
sort/1, sort0/1 and keysort/1 are similar to sort/2, sort0/2 and keysort/2 but achieve a sort in-place destructing the original List1 (this in-place assignment is not undone at backtracking). The sorted list occupies the same memory space as the original list (saving thus memory consumption).
The time complexity of these sorts is O(N log N), N being the length of the list to sort.
These predicates refer to the standard ordering of terms (section 7.3.1).
Errors
List1 is a partial list | instantiation_error | |
List1 is neither a partial list nor a list | type_error(list, List1) | |
List2 is neither a partial list nor a list | type_error(list, List2) | |
Portability
GNU Prolog predicates.