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This package provides an implementation of extendible arrays with logarithmic access time.
Beware: the atom $ is used to indicate an unset element, and the
functor $ /4 is used to indicate a subtree. In general, array
elements whose principal function symbol is $ will not work.
To load the package, enter the query
| ?- use_module(library(arrays)).
new_array(-Array)
Binds Array to a new empty array. Example:
| ?- new_array(A). A = array($($,$,$,$),2) ? yes
is_array(+Array)
Is true when Array actually is an array.
aref(+Index, +Array, ?Element)
Element is the element at position Index in Array. It
fails if Array[Index] is undefined.
arefa(+Index, +Array, ?Element)
Is like aref/3 except that Element is a new array if
Array[Index] is undefined. Example:
| ?- arefa(3, array($($,$,$,$),2), E). E = array($($,$,$,$),2) ? yes
arefl(+Index, +Array, ?Element)
Is as aref/3 except that Element is [] for undefined
cells. Example:
| ?- arefl(3, array($($,$,$,$),2), E). E = [] ? yes
array_to_list(+Array, -List)
List is a list with the pairs Index-Element of all the
elements of Array. Example:
| ?- array_to_list(array($(a,b,c,d),2), List). List = [0-a,1-b,2-c,3-d] ? yes
aset(+Index, +Array, +Element, -NewArray)
NewArray is the result of setting Array[Index]
to Element. Example:
| ?- aset(3,array($($,$,$,$),2), a, Newarr). Newarr = array($($,$,$,a),2) ? yes