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###############################################################################
## ----------------------------------------------------------------------------
## Sequence of numbers (for task_id == 0).
##
## This package provides a sequence of numbers used internally by the worker
## process. Distribution follows a bank-queuing model.
##
## There is no public API.
##
###############################################################################
package MCE::Core::Input::Sequence;
use strict;
use warnings;
our $VERSION = '1.862';
## Items below are folded into MCE.
package # hide from rpm
MCE;
no warnings qw( threads recursion uninitialized );
my $_que_read_size = $MCE::_que_read_size;
my $_que_template = $MCE::_que_template;
###############################################################################
## ----------------------------------------------------------------------------
## Worker process -- Sequence Queue (distribution via bank queuing model).
##
###############################################################################
sub _worker_sequence_queue {
my ($self) = @_;
@_ = ();
_croak('MCE::_worker_sequence_queue: (user_func) is not specified')
unless (defined $self->{user_func});
my $_DAT_LOCK = $self->{_dat_lock};
my $_QUE_R_SOCK = $self->{_que_r_sock};
my $_QUE_W_SOCK = $self->{_que_w_sock};
my $_lock_chn = $self->{_lock_chn};
my $_bounds_only = $self->{bounds_only} || 0;
my $_chunk_size = $self->{chunk_size};
my $_wuf = $self->{_wuf};
my ($_next, $_chunk_id, $_seq_n, $_begin, $_end, $_step, $_fmt);
my ($_dat_ex, $_dat_un, $_pid, $_abort, $_offset);
if ($_lock_chn) {
$_pid = $INC{'threads.pm'} ? $$ .'.'. threads->tid() : $$;
# inlined for performance
if ($self->{_data_channels} > 5) {
$_DAT_LOCK = $self->{'_mutex_'.( $self->{_wid} % 5 + 1 )};
}
$_dat_ex = sub {
MCE::Util::_sysread($_DAT_LOCK->{_r_sock}, my($b), 1), $_DAT_LOCK->{ $_pid } = 1
unless $_DAT_LOCK->{ $_pid };
};
$_dat_un = sub {
syswrite($_DAT_LOCK->{_w_sock}, '0'), $_DAT_LOCK->{ $_pid } = 0
if $_DAT_LOCK->{ $_pid };
};
}
if (ref $self->{sequence} eq 'ARRAY') {
($_begin, $_end, $_step, $_fmt) = @{ $self->{sequence} };
}
else {
$_begin = $self->{sequence}->{begin};
$_end = $self->{sequence}->{end};
$_step = $self->{sequence}->{step};
$_fmt = $self->{sequence}->{format};
}
$_abort = $self->{_abort_msg};
$_chunk_id = $_offset = 0;
$_fmt =~ s/%// if (defined $_fmt);
## -------------------------------------------------------------------------
$self->{_next_jmp} = sub { goto _WORKER_SEQUENCE__NEXT; };
$self->{_last_jmp} = sub { goto _WORKER_SEQUENCE__LAST; };
local $_;
_WORKER_SEQUENCE__NEXT:
while (1) {
## Obtain the next chunk_id and sequence number.
$_dat_ex->() if $_lock_chn;
MCE::Util::_sysread($_QUE_R_SOCK, $_next, $_que_read_size);
($_chunk_id, $_offset) = unpack($_que_template, $_next);
if ($_offset >= $_abort) {
syswrite($_QUE_W_SOCK, pack($_que_template, 0, $_offset));
$_dat_un->() if $_lock_chn;
return;
}
syswrite(
$_QUE_W_SOCK, pack($_que_template, $_chunk_id + 1, $_offset + 1)
);
$_dat_un->() if $_lock_chn;
$_chunk_id++;
## Call user function.
if ($_chunk_size == 1 || $_begin == $_end) {
$_ = $_offset * $_step + $_begin;
$_ = _sprintf("%$_fmt", $_) if (defined $_fmt);
if ($_chunk_size > 1 || $_bounds_only) {
$_ = ($_bounds_only) ? [ $_, $_ ] : [ $_ ];
}
$_wuf->($self, $_, $_chunk_id);
}
else {
my $_n_begin = ($_offset * $_chunk_size) * $_step + $_begin;
my @_n = (); $_seq_n = $_n_begin;
## -------------------------------------------------------------------
if ($_bounds_only) {
my ($_tmp_b, $_tmp_e) = ($_seq_n);
if ($_begin <= $_end) {
if ($_step * ($_chunk_size - 1) + $_n_begin <= $_end) {
$_tmp_e = $_step * ($_chunk_size - 1) + $_n_begin;
}
elsif ($_step == 1) {
$_tmp_e = $_end;
}
else {
for my $_i (1 .. $_chunk_size) {
last if ($_seq_n > $_end);
$_tmp_e = $_seq_n;
$_seq_n = $_step * $_i + $_n_begin;
}
}
}
else {
if ($_step * ($_chunk_size - 1) + $_n_begin >= $_end) {
$_tmp_e = $_step * ($_chunk_size - 1) + $_n_begin;
}
elsif ($_step == -1) {
$_tmp_e = $_end;
}
else {
for my $_i (1 .. $_chunk_size) {
last if ($_seq_n < $_end);
$_tmp_e = $_seq_n;
$_seq_n = $_step * $_i + $_n_begin;
}
}
}
@_n = (defined $_fmt)
? ( _sprintf("%$_fmt",$_tmp_b), _sprintf("%$_fmt",$_tmp_e) )
: ( $_tmp_b, $_tmp_e );
}
## -------------------------------------------------------------------
else {
if ($_begin <= $_end) {
if (!defined $_fmt && $_step == 1 && abs($_end) < ~1 && abs($_begin) < ~1) {
$_ = ($_seq_n + $_chunk_size <= $_end)
? [ $_seq_n .. $_seq_n + $_chunk_size - 1 ]
: [ $_seq_n .. $_end ];
$_wuf->($self, $_, $_chunk_id);
next;
}
else {
for my $_i (1 .. $_chunk_size) {
last if ($_seq_n > $_end);
push @_n, (defined $_fmt)
? _sprintf("%$_fmt", $_seq_n) : $_seq_n;
$_seq_n = $_step * $_i + $_n_begin;
}
}
}
else {
for my $_i (1 .. $_chunk_size) {
last if ($_seq_n < $_end);
push @_n, (defined $_fmt)
? _sprintf("%$_fmt", $_seq_n) : $_seq_n;
$_seq_n = $_step * $_i + $_n_begin;
}
}
}
## -------------------------------------------------------------------
$_ = \@_n;
$_wuf->($self, \@_n, $_chunk_id);
}
}
_WORKER_SEQUENCE__LAST:
return;
}
1;
__END__
###############################################################################
## ----------------------------------------------------------------------------
## Module usage.
##
###############################################################################
=head1 NAME
MCE::Core::Input::Sequence - Sequence of numbers (for task_id == 0)
=head1 VERSION
This document describes MCE::Core::Input::Sequence version 1.862
=head1 DESCRIPTION
This package provides a sequence of numbers used internally by the worker
process. Distribution follows a bank-queuing model.
There is no public API.
=head1 SEE ALSO
The syntax for the C<sequence> option is described in L<MCE::Core>.
=head1 AUTHOR
Mario E. Roy, S<E<lt>marioeroy AT gmail DOT comE<gt>>
=cut