Array Vector OperationsΒΆ
View arrayVectorOps.chpl on GitHub
This primer is about vector operations on 1D arrays
1D rectangular arrays support several list-like or vector-like capabilities. These are supported on arrays which have a 1:1 correspondence with their domains. This restriction is because many of these operations modify the array's domain, which would unexpectedly modify other arrays if they shared domains.
Declare a 1D array and initialize it to the values 1..5
. The anonymous
domain used in this declaration has a 1:1 relationship with the array.
var A: [1..5] int = [i in 1..5] i;
writeln("A was initialized to: ", A);
Add an element to the front of the array and one to the back of the array.
This will modify the array's domain to become {0..6}
and add elements
0
and 6
to the array.
A.push_front(0);
A.push_back(6);
writeln("After adding to the front and back A is: ", A);
Look at the first and last array elements without modifying the array
writeln("The first and last elements in A are: ", (A.head(), A.tail()));
Remove the two elements added earlier with push_front
and push_back
.
The domain will become {1..5}
again.
A.pop_front();
A.pop_back();
writeln("After popping the two elements pushed previously A is: ", A);
Insert values 10
, 11
and 12
at indices 4
, 3
, and 2
.
The domain will grow by 3 to become {1..8}
and the array elements above
the inserted positions will be shifted up.
A.insert(4, 10);
A.insert(3, 11);
A.insert(2, 12);
writeln("After inserting some new values, A is: ", A);
The method find
searches the array for the argument. It returns a tuple
containing a bool and an index. If the returned bool is true
, the
argument was found at the returned index. If the bool is false
, the
value was not found and the index is unspecified.
var (found, idx) = A.find(10);
if found then
writeln("Found 10 at index: ", idx);
else
writeln("Didn't find 10");
(found, idx) = A.find(7);
if found then
writeln("Found 7 at index: ", idx);
else
writeln("Didn't find 7");
A few other useful methods are available. To demo them, add a few more 5s to the array
A.push_front(5);
A.push_back(5);
Count how many times an element is in the array
writeln("The value 5 is in A ", A.count(5), " times.");
Reverse the elements in the array
writeln("Before calling reverse A is: ", A);
A.reverse();
writeln("After calling reverse A is: ", A);
Array elements can be removed one at a time by specifying an index to remove. The elements above the removed one will be shifted down.
A.remove(3);
writeln("After first remove A is: ", A);
A range of indices can also be removed
A.remove(4..6);
writeln("After second remove A is: ", A);
A starting index and a count also work
A.remove(2, 2);
writeln("After third remove A is: ", A);
The array is still a normal 1D Chapel array and supports regular array operations such as parallel iteration:
forall i in A.domain {
A[i] += 1;
}
writeln("After adding 1 to all elements A is: ", A);
Or reductions:
writeln("The sum of elements in A is ", + reduce A);
The clear
method will empty the array completely. If the domain's low
bound was low
this sets the domain to {low..low-1}
A.clear();
writeln("After clearing, A is: ", A, " - with ", A.size, " elements");