Current Path : /usr/local/lib/perl5/site_perl/5.8.9/TAP/Parser/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/local/lib/perl5/site_perl/5.8.9/TAP/Parser/Scheduler.pm |
package TAP::Parser::Scheduler; use strict; use vars qw($VERSION); use Carp; use TAP::Parser::Scheduler::Job; use TAP::Parser::Scheduler::Spinner; =head1 NAME TAP::Parser::Scheduler - Schedule tests during parallel testing =head1 VERSION Version 3.16 =cut $VERSION = '3.16'; =head1 SYNOPSIS use TAP::Parser::Scheduler; =head1 DESCRIPTION =head1 METHODS =head2 Class Methods =head3 C<new> my $sched = TAP::Parser::Scheduler->new; Returns a new C<TAP::Parser::Scheduler> object. =cut sub new { my $class = shift; croak "Need a number of key, value pairs" if @_ % 2; my %args = @_; my $tests = delete $args{tests} || croak "Need a 'tests' argument"; my $rules = delete $args{rules} || { par => '**' }; croak "Unknown arg(s): ", join ', ', sort keys %args if keys %args; # Turn any simple names into a name, description pair. TODO: Maybe # construct jobs here? my $self = bless {}, $class; $self->_set_rules( $rules, $tests ); return $self; } # Build the scheduler data structure. # # SCHEDULER-DATA ::= JOB # || ARRAY OF ARRAY OF SCHEDULER-DATA # # The nested arrays are the key to scheduling. The outer array contains # a list of things that may be executed in parallel. Whenever an # eligible job is sought any element of the outer array that is ready to # execute can be selected. The inner arrays represent sequential # execution. They can only proceed when the first job is ready to run. sub _set_rules { my ( $self, $rules, $tests ) = @_; my @tests = map { TAP::Parser::Scheduler::Job->new(@$_) } map { 'ARRAY' eq ref $_ ? $_ : [ $_, $_ ] } @$tests; my $schedule = $self->_rule_clause( $rules, \@tests ); # If any tests are left add them as a sequential block at the end of # the run. $schedule = [ [ $schedule, @tests ] ] if @tests; $self->{schedule} = $schedule; } sub _rule_clause { my ( $self, $rule, $tests ) = @_; croak 'Rule clause must be a hash' unless 'HASH' eq ref $rule; my @type = keys %$rule; croak 'Rule clause must have exactly one key' unless @type == 1; my %handlers = ( par => sub { [ map { [$_] } @_ ]; }, seq => sub { [ [@_] ] }, ); my $handler = $handlers{ $type[0] } || croak 'Unknown scheduler type: ', $type[0]; my $val = $rule->{ $type[0] }; return $handler->( map { 'HASH' eq ref $_ ? $self->_rule_clause( $_, $tests ) : $self->_expand( $_, $tests ) } 'ARRAY' eq ref $val ? @$val : $val ); } sub _glob_to_regexp { my ( $self, $glob ) = @_; my $nesting; my $pattern; while (1) { if ( $glob =~ /\G\*\*/gc ) { # ** is any number of characters, including /, within a pathname $pattern .= '.*?'; } elsif ( $glob =~ /\G\*/gc ) { # * is zero or more characters within a filename/directory name $pattern .= '[^/]*'; } elsif ( $glob =~ /\G\?/gc ) { # ? is exactly one character within a filename/directory name $pattern .= '[^/]'; } elsif ( $glob =~ /\G\{/gc ) { # {foo,bar,baz} is any of foo, bar or baz. $pattern .= '(?:'; ++$nesting; } elsif ( $nesting and $glob =~ /\G,/gc ) { # , is only special inside {} $pattern .= '|'; } elsif ( $nesting and $glob =~ /\G\}/gc ) { # } that matches { is special. But unbalanced } are not. $pattern .= ')'; --$nesting; } elsif ( $glob =~ /\G(\\.)/gc ) { # A quoted literal $pattern .= $1; } elsif ( $glob =~ /\G([\},])/gc ) { # Sometimes meta characters $pattern .= '\\' . $1; } else { # Eat everything that is not a meta character. $glob =~ /\G([^{?*\\\},]*)/gc; $pattern .= quotemeta $1; } return $pattern if pos $glob == length $glob; } } sub _expand { my ( $self, $name, $tests ) = @_; my $pattern = $self->_glob_to_regexp($name); $pattern = qr/^ $pattern $/x; my @match = (); for ( my $ti = 0; $ti < @$tests; $ti++ ) { if ( $tests->[$ti]->filename =~ $pattern ) { push @match, splice @$tests, $ti, 1; $ti--; } } return @match; } =head3 C<get_all> Get a list of all remaining tests. =cut sub get_all { my $self = shift; my @all = $self->_gather( $self->{schedule} ); $self->{count} = @all; @all; } sub _gather { my ( $self, $rule ) = @_; return unless defined $rule; return $rule unless 'ARRAY' eq ref $rule; return map { defined() ? $self->_gather($_) : () } map {@$_} @$rule; } =head3 C<get_job> Return the next available job or C<undef> if none are available. Returns a C<TAP::Parser::Scheduler::Spinner> if the scheduler still has pending jobs but none are available to run right now. =cut sub get_job { my $self = shift; $self->{count} ||= $self->get_all; my @jobs = $self->_find_next_job( $self->{schedule} ); if (@jobs) { --$self->{count}; return $jobs[0]; } return TAP::Parser::Scheduler::Spinner->new if $self->{count}; return; } sub _not_empty { my $ar = shift; return 1 unless 'ARRAY' eq ref $ar; foreach (@$ar) { return 1 if _not_empty($_); } return; } sub _is_empty { !_not_empty(@_) } sub _find_next_job { my ( $self, $rule ) = @_; my @queue = (); my $index = 0; while ( $index < @$rule ) { my $seq = $rule->[$index]; # Prune any exhausted items. shift @$seq while @$seq && _is_empty( $seq->[0] ); if (@$seq) { if ( defined $seq->[0] ) { if ( 'ARRAY' eq ref $seq->[0] ) { push @queue, $seq; } else { my $job = splice @$seq, 0, 1, undef; $job->on_finish( sub { shift @$seq } ); return $job; } } ++$index; } else { # Remove the empty sub-array from the array splice @$rule, $index, 1; } } for my $seq (@queue) { if ( my @jobs = $self->_find_next_job( $seq->[0] ) ) { return @jobs; } } return; } =head3 C<as_string> Return a human readable representation of the scheduling tree. =cut sub as_string { my $self = shift; return $self->_as_string( $self->{schedule} ); } sub _as_string { my ( $self, $rule, $depth ) = ( shift, shift, shift || 0 ); my $pad = ' ' x 2; my $indent = $pad x $depth; if ( !defined $rule ) { return "$indent(undef)\n"; } elsif ( 'ARRAY' eq ref $rule ) { return unless @$rule; my $type = ( 'par', 'seq' )[ $depth % 2 ]; return join( '', "$indent$type:\n", map { $self->_as_string( $_, $depth + 1 ) } @$rule ); } else { return "$indent'" . $rule->filename . "'\n"; } } 1;