package Data::MultiValued::RangeContainer;
use Moose;
use Moose::Util::TypeConstraints;
use MooseX::Types::Moose qw(Num Str Any Undef ArrayRef);
use MooseX::Types::Structured qw(Dict);
use Data::MultiValued::Exceptions;
has _storage => (
is => 'rw',
isa => ArrayRef[
Dict[
from => Num|Undef,
to => Num|Undef,
value => Any,
],
],
init_arg => undef,
default => sub { [ ] },
);
sub get {
my ($self,$args) = @_;
my $at = $args->{at};
my ($range) = $self->_get_slot_at($at);
if (!$range) {
Data::MultiValued::Exceptions::RangeNotFound->throw({
value => $at,
});
}
return $range;
}
sub _cmp {
my ($a,$b,$sa,$sb) = @_;
$a //= $sa ? 0+'inf' : 0-'inf';
$b //= $sb ? 0+'inf' : 0-'inf';
return $a <=> $b;
}
sub _get_slot_at {
my ($self,$at) = @_;
for my $slot (@{$self->_storage}) {
next if _cmp($slot->{to},$at,1,0) <= 0;
last if _cmp($slot->{from},$at,0,0) > 0;
return $slot;
}
return;
}
sub _partition_slots {
my ($self,$from,$to) = @_;
my (@before,@overlap,@after);
my $st=$self->_storage;
keys @$st;
while (my ($idx,$slot) = each @$st) {
my ($sf,$st) = @$slot{'from','to'};
if (_cmp($st,$from,1,0) <0) {
push @before,$idx;
}
elsif (_cmp($sf,$to,0,1) >=0) {
push @after,$idx;
}
else {
push @overlap,$idx;
}
}
return \@before,\@overlap,\@after;
}
sub set_or_create {
my ($self,$args) = @_;
my $from = $args->{from};
my $to = $args->{to};
Data::MultiValued::Exceptions::BadRange->throw({
from => $from,
to => $to,
}) if _cmp($from,$to,0,1)>0;
my ($range) = $self->_get_slot_at($from);
if ($range
&& _cmp($range->{from},$from,0,0)==0
&& _cmp($range->{to},$to,1,1)==0) {
return $range;
}
$range = $self->_create_slot($from,$to);
return $range;
}
sub clear {
my ($self,$args) = @_;
my $from = $args->{from};
my $to = $args->{to};
Data::MultiValued::Exceptions::BadRange->throw({
from => $from,
to => $to,
}) if _cmp($from,$to,0,1)>0;
return $self->_clear_slot($from,$to);
}
sub _create_slot {
my ($self,$from,$to) = @_;
$self->_splice_slot($from,$to,{
from => $from,
to => $to,
value => undef,
});
}
sub _clear_slot {
my ($self,$from,$to) = @_;
$self->_splice_slot($from,$to);
}
sub _splice_slot {
my ($self,$from,$to,$new) = @_;
if (!@{$self->_storage}) {
push @{$self->_storage},$new if $new;
return $new;
}
my ($before,$overlap,$after) = $self->_partition_slots($from,$to);
if (!@$before && !@$overlap) {
unshift @{$self->_storage},$new if $new;
return $new;
}
if (!@$after && !@$overlap) {
push @{$self->_storage},$new if $new;
return $new;
}
my $first_to_replace;
my $how_many = @$overlap;
my @replacement = $new ? ($new) : ();
if ($how_many > 0) {
$first_to_replace = $overlap->[0];
my $last_to_replace = $overlap->[-1];
my $first = $self->_storage->[$first_to_replace];
my $last = $self->_storage->[$last_to_replace];
if (_cmp($first->{from},$from,0,0)<0
&& _cmp($first->{to},$from,1,0)>=0) {
unshift @replacement, {
from => $first->{from},
to => $from,
value => $first->{value},
}
}
if (_cmp($last->{from},$to,0,1)<=0
&& _cmp($last->{to},$to,1,1)>0) {
push @replacement, {
from => $to,
to => $last->{to},
value => $last->{value},
}
}
}
else {
$first_to_replace = $before->[-1]+1;
}
splice @{$self->_storage},
$first_to_replace,$how_many,
@replacement;
return $new;
}
1;
