Statistics::Basic::ComputedVector − a class for computing filtered vectors

Invoke it this way:

my $vector = vector(1,2,3); my $computed = computed($vector)−>set_filter(sub{ # NOTE: only interested in even numbers: grep { !($_ % 2) } @_ }); # nearly the same, opposite order: my $computed = computed(1,2,3)−>set_filter(sub {map{$_+1}@_}); my $vector = $computed−>query_vector;

*new()*

The constructor takes a single array ref or a single Statistics::Basic::ComputedVector as its argument. It returns a Statistics::Basic::ComputedVector object.

If passed arguments other than Statistics::Basic::Vector objects, the constructor will built an appropriate vector object -- which can be queried with "*query_vector()*"

Note: normally you’d use the *computed()* constructor, rather than building these by hand using `"new()"`.

*copy()*

Creates a new computed vector object referring to the same source vector and using the same filter as this one.

my $v1 = vector(1,2,3); my $c1 = computed($v1); $c1−>set_filter(my $s = sub {}); my $copy1 = computed($v1); $copy1−>set_filter($s); my $copy2 = $c1−>copy; # just like $c2, but in one step

To instead create a filtered version of a filtered vector, choose this form:

my $v1 = vector(1,2,3); my $c1 = computed($v1); $c1−>set_filter(sub {}); my $c2 = computed($c1); $c2−>set_filter(sub {});

*insert()*

Insert new values into the input vector. If the vector was already full (see "*set_size()*"), this will also shift oldest elements from the input vector to compensate.

$computed−>insert( 4, 3 ); # insert a 3 and a 4

Note that continuing from the " SYNOPSIS" example, this would certainly insert a 4 and a 3 into the input vector, but the 3 wouldn’t be returned from a "*query()*" because it is odd.

This function returns the object itself, for chaining purposes.

*append() ginsert()*

Insert new values into the input vector. If the vector was already full (see "*set_size()*"), these functions will grow the size of the input vector to accommodate the new values, rather than shifting things.

$computed−>append( 4, 3 ); # append a 3 and a 4

Note that continuing from the " SYNOPSIS" example, this would certainly insert a 4 and a 3 into the input vector, but the 3 wouldn’t be returned from a "*query()*" because it is odd.

This function returns the object itself, for chaining purposes.

*query()*

`"query()"` returns the contents of the computed vector (after filtering) either as a list or as an arrayref.

my @copy_of_contents = $computed−>query; my $reference_to_contents = $computed−>query;

Note that changing the `$reference_to_contents` will not usefully affect the contents of the vector itself, but it will adversely affect any computations based on the vector. If you need to change the contents of a vector in a special way, use another Statistics::Basic::ComputedVector object instead.

Keeping `$reference_to_contents` available long term should work acceptably (since it refers to the vector contents itself).

*query_vector()*

Return the input Statistics::Basic::Vector object.

*query_filled()*

This returns true when the input vector is full (see "*query_filled()*" in Statistics::Basic::Vector). This is of questionable usefulness on computed vectors, but is provided for completeness (and internal package consistency).

*query_size()*

Return the current size of the computed vector.

*set_filter()*

Set the filtering for the computed vector. This function takes a single coderef argument -- all other arguments will be ignored. The elements of the input vector are passed to your filter coderef in `@_` and your ref should return the calculated elements of the computed vector as a list.

my $vec = vector(1,2,3); my $pow = computed($vec); $pow−>set_filter(sub { return map { $_ ** 2 } @_ })

If you need to call more than one filter function, concatenate them together using map or an anonymous sub.

$pow−>set_filter(sub { return f1(f2(f3(f4(@_)))) });

This function returns the object itself, for chaining purposes.

*set_size()*

Set the size of the input vector (not the computed vector, that would make little sense).

This function returns the object itself, for chaining purposes.

*set_vector()*

Set the contents of the input vector (not the computed one).

This function returns the object itself, for chaining purposes.

This object is overloaded. It tries to return an appropriate string for the vector and raises errors in numeric context.

In boolean context, this object is always true (even when empty).

Paul Miller `"<jettero AT cpan DOT org>"`

Copyright 2012 Paul Miller -- Licensed under the LGPL

*perl(1)*, Statistics::Basic, Statistics::Basic::Vector