performance measurements

Each table row shows performance measurements for this Perl program with a particular command-line input value N.

 N  CPU secs Elapsed secs Memory KB Code B ≈ CPU Load
2,09849.8049.834,0561541  0% 0% 0% 100%

Read the ↓ make, command line, and program output logs to see how this program was run.

Read meteor-contest benchmark to see what this program should do.

 notes

This is perl 5, version 18, subversion 0 (v5.18.0) built for x86_64-linux

Compile-time options: HAS_TIMES PERLIO_LAYERS PERL_DONT_CREATE_GVSV
                        PERL_HASH_FUNC_ONE_AT_A_TIME_HARD PERL_MALLOC_WRAP
                        PERL_PRESERVE_IVUV PERL_SAWAMPERSAND USE_64_BIT_ALL
                        USE_64_BIT_INT USE_LARGE_FILES USE_LOCALE
                        USE_LOCALE_COLLATE USE_LOCALE_CTYPE
                        USE_LOCALE_NUMERIC USE_PERLIO USE_PERL_ATOF

 meteor-contest Perl program source code

# The Computer Language Benchmarks Game

# http://benchmarksgame.alioth.debian.org/

#

# contributed by Daniel Green, 2010-04-30

# based on python 3 #3



use 5.10.1;
use warnings;
use strict;
use integer;
use List::Util qw(min);

my ($w, $h) = (5, 10);
my $dir_no = 6;
my ($S, $E) = ($w * $h, 2);
my $SE = $S + ($E / 2);
my $SW = $SE - $E;
my ($W, $NW, $NE) = (-$E, -$SE, -$SW);

my %rd = ($E => $NE, $NE => $NW, $NW => $W, $W => $SW, $SW => $SE, $SE => $E);
my %fd = ($E => $E, $NE => $SE, $NW => $SW, $W => $W, $SW => $NW, $SE => $NE);

my ($na, $nb, $nc);
my ($board, $cti, $pieces) = get_puzzle();
my @fps = get_footprints($board, $cti, $pieces);
my @se_nh = get_senh($board, $cti);

my %free = map { $_ => undef } 0 .. scalar @{$board} - 1;
my @curr_board = (-1) x scalar @{$board};
my @pieces_left = 0 .. scalar @{$pieces} - 1;
my @solutions = ();
my $needed = $ARGV[0];

solve(0, \%free, \@pieces_left);
@solutions = sort @solutions;

say scalar @solutions,  ' solutions found';
print_board($solutions[0]);
print_board($solutions[-1]);
print "\n";


sub rotate {
    return [map {$rd{$_}} @{$_[0]}];
}

sub flip {
    return [map {$fd{$_}} @{$_[0]}];
}

sub permute {
    my ($ido, $r_ido) = @_;

    my @ps = ($ido);
    for my $r (0 .. $dir_no - 2) {
        push @ps, rotate($ps[-1]);

        if (@{$ido} ~~ @{$r_ido}) {
            my $end = min(scalar @ps, int($dir_no/2));
            @ps = @ps[0 .. $end-1];
        }
    }
    
    push @ps, map { flip($_) } @ps;

    return \@ps;
}

sub convert {
    my ($ido) = @_;

    my @out = (0);
    for my $o (@{$ido}) {
        push @out, $out[-1] + $o;
    }
    
    my %unique;
    return [grep { !$unique{$_}++ } @out];
}

sub get_footprints {
    my ($bd, $ct, $ps) = @_;

    my @fp;
    foreach my $p (0 .. scalar @{$ps} - 1) {
        foreach my $ci (0 .. scalar @{$bd} - 1) {
            $fp[$ci]->[$p] = [];
        }
    }

    for my $c (@{$bd}) {
        for (my $pi = 0; $pi < scalar @{$ps}; $pi++) {
            for my $pp (@{$ps->[$pi]}) {
                my %f = ();
                for my $o (@{$pp}) {
                    if (exists $ct->{$c + $o}) {
                        $f{$ct->{$c + $o}}++;
                    }
                }

                if (scalar keys %f == 5) {
                    push @{$fp[min(keys %f)]->[$pi]}, [keys %f];
                }
            }
        }
    }
    
    return @fp;
}

sub get_senh {
    my ($bd, $ct) = @_;
    
    my @se_nh2 = ();
    for my $c (@{$bd}) {
        my %f = ();
        for my $o ($E, $SW, $SE) {
            if (exists $ct->{$c + $o}) {
                $f{$ct->{$c + $o}}++;
            }
        }
        
        push @se_nh2, \%f;
    }
    
    return @se_nh2;
}

sub get_puzzle {

    my @bd;
    for my $y (0 .. $h - 1) {
        for my $x (0 .. $w - 1) {
            push @bd, $E*$x + $S*$y + $y%2;
        }
    }

    my %ct;
    for my $i (0 .. scalar @bd - 1) {
        $ct{$bd[$i]} = $i;
    }

    my @idos = ([$E, $E, $E, $SE],
                [$SE, $SW, $W, $SW],
                [$W, $W, $SW, $SE],
                [$E, $E, $SW, $SE],
                [$NW, $W, $NW, $SE, $SW],
                [$E, $E, $NE, $W],
                [$NW, $NE, $NE, $W],
                [$NE, $SE, $E, $NE],
                [$SE, $SE, $E, $SE],
                [$E, $NW, $NW, $NW]);

    my @ps;
    for my $p (map { permute($_, $idos[3]) } @idos) {
        push @ps, [map {convert($_)} @{$p}];
    }
    
    return (\@bd, \%ct, \@ps);
}

sub print_board {
    my ($bd) = @_;

    print "\n";
    for my $y (0 .. $h - 1) {
        for my $x (0 .. $w - 1) {
            print substr($bd, $x + $y * $w, 1) . ' ';
        }
        
        print "\n";
        
        if ($y % 2 == 0) {
            print ' ';
        }
    }
}

sub solve {
    my ($i_min, $free, $pieces_left) = @_;
    
    my $fp_i_cands = $fps[$i_min];
    
    for my $p (@{$pieces_left}) {
        my $fp_cands = $fp_i_cands->[$p];
        for my $fpa (@{$fp_cands}) {
            
            $na = scalar @{$fpa};
            $nb = scalar keys %{$free};
            $nc = scalar grep { exists $free->{$_} } @{$fpa};

            if (($na == $nc) || ($na == $nc && $nb == $nc)) {
                for my $ci (@{$fpa}) {
                    $curr_board[$ci] = $p;
                }
                
                if (scalar @{$pieces_left} > 1) {
                    
                    my %fp = map { $_ => undef } @{$fpa};
                    my %n_free;
                    @n_free{ grep { !exists $fp{$_} } keys %{$free} } = ();
                    
                    my $n_i_min = min(keys %n_free);
                    if ((scalar grep { exists $se_nh[$n_i_min]->{$_} } keys %n_free) > 0) {
                        my @n_pieces_left = @{$pieces_left};
                        for (my $x = 0; $x < scalar @n_pieces_left; $x++) {
                            if ($n_pieces_left[$x] == $p) {
                                splice(@n_pieces_left, $x, 1);
                                last;
                            }
                        }
                        
                        solve($n_i_min, \%n_free, \@n_pieces_left);
                    }
                } else {
                    my $s = join('', @curr_board);
                    push @solutions, $s;
                    my $rs = reverse $s;
                    push @solutions, $rs;
                    
                    if (scalar @solutions >= $needed) {
                        return;
                    }
                }
            }
        }
        
        if (scalar @solutions >= $needed) {
            return;
        }
    }
    
    return;
}

 make, command-line, and program output logs

Thu, 23 May 2013 08:47:24 GMT

COMMAND LINE:
/usr/local/src/perl-5.18.0_no_ithreads_no_multi/bin/perl meteor.perl 2098

PROGRAM OUTPUT:
2098 solutions found

0 0 0 0 1 
 2 2 2 0 1 
2 6 6 1 1 
 2 6 1 5 5 
8 6 5 5 5 
 8 6 3 3 3 
4 8 8 9 3 
 4 4 8 9 3 
4 7 4 7 9 
 7 7 7 9 9 

9 9 9 9 8 
 9 6 6 8 5 
6 6 8 8 5 
 6 8 2 5 5 
7 7 7 2 5 
 7 4 7 2 0 
1 4 2 2 0 
 1 4 4 0 3 
1 4 0 0 3 
 1 1 3 3 3 


Smartmatch is experimental at meteor.perl line 59.

Revised BSD license

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