Given an expression that specifies an element or slice of a hash, delete
deletes the specified elements from that hash so that exists
on that element no longer returns true. Setting a hash element to the undefined value does not remove its key, but deleting it does; see exists
.
In list context, usually returns the value or values deleted, or the last such element in scalar context. The return list's length corresponds to that of the argument list: deleting non-existent elements returns the undefined value in their corresponding positions. When a key/value hash slice is passed to delete
, the return value is a list of key/value pairs (two elements for each item deleted from the hash).
delete
may also be used on arrays and array slices, but its behavior is less straightforward. Although exists
will return false for deleted entries, deleting array elements never changes indices of existing values; use shift
or splice
for that. However, if any deleted elements fall at the end of an array, the array's size shrinks to the position of the highest element that still tests true for exists
, or to 0 if none do. In other words, an array won't have trailing nonexistent elements after a delete.
WARNING: Calling delete
on array values is strongly discouraged. The notion of deleting or checking the existence of Perl array elements is not conceptually coherent, and can lead to surprising behavior.
Deleting from %ENV
modifies the environment. Deleting from a hash tied to a DBM file deletes the entry from the DBM file. Deleting from a tied
hash or array may not necessarily return anything; it depends on the implementation of the tied
package's DELETE method, which may do whatever it pleases.
The delete local EXPR
construct localizes the deletion to the current block at run time. Until the block exits, elements locally deleted temporarily no longer exist. See "Localized deletion of elements of composite types" in perlsub.
my %hash = (foo => 11, bar => 22, baz => 33);
my $scalar = delete $hash{foo}; # $scalar is 11
$scalar = delete @hash{qw(foo bar)}; # $scalar is 22
my @array = delete @hash{qw(foo baz)}; # @array is (undef,33)
The following (inefficiently) deletes all the values of %HASH and @ARRAY:
foreach my $key (keys %HASH) {
delete $HASH{$key};
}
foreach my $index (0 .. $#ARRAY) {
delete $ARRAY[$index];
}
And so do these:
delete @HASH{keys %HASH};
delete @ARRAY[0 .. $#ARRAY];
But both are slower than assigning the empty list or undefining %HASH or @ARRAY, which is the customary way to empty out an aggregate:
%HASH = (); # completely empty %HASH
undef %HASH; # forget %HASH ever existed
@ARRAY = (); # completely empty @ARRAY
undef @ARRAY; # forget @ARRAY ever existed
The EXPR can be arbitrarily complicated provided its final operation is an element or slice of an aggregate:
delete $ref->[$x][$y]{$key};
delete @{$ref->[$x][$y]}{$key1, $key2, @morekeys};
delete $ref->[$x][$y][$index];
delete @{$ref->[$x][$y]}[$index1, $index2, @moreindices];