initial checkin from nexuiz svn r8756

[xonotic/xonotic.git] / misc / tools / weapon-profiler-analyzer.pl

#!/usr/bin/perl

# no warranty for this script
# and no documentation
# take it or leave it

use strict;
use warnings;
use FindBin; use lib $FindBin::Bin;
use WeaponEncounterProfile;

my ($statsfile) = @ARGV;
my $stats;

sub LoadData()
{
        $stats = WeaponEncounterProfile->new($statsfile);
}

sub LinSolve($$)
{
        my ($m, $v) = @_;
        my $n = @$m;

        my @out = ();

        my @bigmatrix = map { [ @{$m->[$_]}, $v->[$_] ] } 0..$n-1;

        # 1. Triangulate
        for my $i(0..$n-1)
        {
                # first: bring the highest value to the top
                my $best = -1;
                my $bestval = 0;
                for my $j($i..$n-1)
                {
                        my $v = $bigmatrix[$j]->[$i];
                        if($v*$v > $bestval*$bestval)
                        {
                                $best = $j;
                                $bestval = $v;
                        }
                }
                die "lindep" if $best == -1;

                # swap
                ($bigmatrix[$i], $bigmatrix[$best]) = ($bigmatrix[$best], $bigmatrix[$i]);

                # then: eliminate
                for my $j($i+1..$n-1)
                {
                        my $r = $bigmatrix[$j]->[$i];
                        for my $k(0..$n)
                        {
                                $bigmatrix[$j]->[$k] -= $bigmatrix[$i]->[$k] * $r / $bestval;
                        }
                }
        }

        # 2. Diagonalize
        for my $i(reverse 0..$n-1)
        {
                my $bestval = $bigmatrix[$i]->[$i];
                for my $j(0..$i-1)
                {
                        my $r = $bigmatrix[$j]->[$i];
                        for my $k(0..$n)
                        {
                                $bigmatrix[$j]->[$k] -= $bigmatrix[$i]->[$k] * $r / $bestval;
                        }
                }
        }

        # 3. Read off solutions
        return map { $bigmatrix[$_]->[$n] / $bigmatrix[$_]->[$_] } 0..($n-1);
}

sub SolveBestSquares($$)
{
        my ($d, $w) = @_;

        my $n = @$d;

        if($ENV{stupid})
        {
                my @result = ();
                for my $i(0..$n-1)
                {
                        my $num = 0;
                        my $denom = 0;
                        for my $j(0..$n-1)
                        {
                                my $weight = $w->[$i]->[$j];
                                $num += $weight * $d->[$i]->[$j];
                                $denom += $weight;
                        }
                        push @result, $num / $denom;
                }
                return @result;
        }

        # build linear equation system

        my @matrix = map { [ map { 0 } 1..$n ] } 1..$n;
        my @vector = map { 0 } 1..$n;

        for my $i(0..$n-1)
        {
                $matrix[0][$i] += 1;
        }
        $vector[0] += 0;
        for my $z(1..$n-1)
        {
                for my $i(0..$n-1)
                {
                        $matrix[$z][$i] += $w->[$i]->[$z];
                        $matrix[$z][$z] -= $w->[$i]->[$z];
                        $vector[$z] += $w->[$i]->[$z] * $d->[$i]->[$z];
                }
        }

        return LinSolve(\@matrix, \@vector);
}

sub Evaluate($)
{
        my ($matrix) = @_;
        my %allweps;
        while(my ($k, $v) = each %$matrix)
        {
                for(my ($k2, $v2) = each %$v)
                {
                        next if $k eq $k2;
                        next if !$v2;
                        ++$allweps{$k};
                        ++$allweps{$k2};
                }
        }
        delete $allweps{0}; # ignore the tuba
        my @allweps = keys %allweps;
        my %values;

        my @dmatrix = map { [ map { 0 } @allweps ] } @allweps;
        my @wmatrix = map { [ map { 0 } @allweps ] } @allweps;

        for my $i(0..@allweps - 1)
        {
                my $attackweapon = $allweps[$i];
                my $v = 0;
                my $d = 0;
                for my $j(0..@allweps - 1)
                {
                        my $defendweapon = $allweps[$j];
                        next if $attackweapon eq $defendweapon;
                        my $win = ($matrix->{$attackweapon}{$defendweapon} || 0);
                        my $lose = ($matrix->{$defendweapon}{$attackweapon} || 0);
                        my $c = ($win + $lose);
                        next if $c == 0;
                        my $p = $win / $c;
                        my $w = 1 - 1/($c * 0.1 + 1);

                        $dmatrix[$i][$j] = $p - (1 - $p); # antisymmetric
                        $wmatrix[$i][$j] = $w;            # symmetric
                }
        }

        my @val;
        eval
        {
                @val = SolveBestSquares(\@dmatrix, \@wmatrix);
                1;
        }
        or do
        {
                @val = map { undef } @allweps;
        };

        for my $i(0..@allweps - 1)
        {
                my $attackweapon = $allweps[$i];
                $values{$attackweapon} = $val[$i];
        }
        return \%values;
}

sub out_text($@)
{
        my ($event, @data) = @_;
        if($event eq 'start')
        {
        }
        elsif($event eq 'startmatrix')
        {
                my ($addr, $map, @columns) = @data;
                $addr ||= 'any';
                $map ||= 'any';
                print "For server @{[$addr || 'any']} map @{[$map || 'any']}:\n";
        }
        elsif($event eq 'startrow')
        {
                my ($row, $val) = @data;
                printf "  %-30s %8s |", $stats->weaponid_to_name($row), defined $val ? sprintf("%8.5f", $val) : "N/A";
        }
        elsif($event eq 'cell')
        {
                my ($win, $lose, $p) = @data;
                if(!defined $p)
                {
                        print "   .   ";
                }
                elsif(!$p)
                {
                        printf " %6.3f", 0;
                }
                else
                {
                        printf " %+6.3f", $p;
                }
        }
        elsif($event eq 'endrow')
        {
                print "\n";
        }
        elsif($event eq 'endmatrix')
        {
                my ($min) = @data;
                $min ||= 0;
                print "  Relevance: $min\n";
                print "\n";
        }
        elsif($event eq 'end')
        {
        }
}

sub out_html($@)
{
        my ($event, @data) = @_;
        if($event eq 'start')
        {
                print "<html><body><h1>Weapon Profiling</h1>\n";
        }
        elsif($event eq 'startmatrix')
        {
                my ($addr, $map, @columns) = @data;
                $addr ||= 'any';
                $map ||= 'any';
                print "<h2>For server @{[$addr || 'any']} map @{[$map || 'any']}:</h2>\n";
                print "<table><tr><th>Weapon</th><th>Rating</th>\n";
                printf '<th><img width=70 height=80 src="http://svn.icculus.org/*checkout*/nexuiz/trunk/Docs/htmlfiles/weaponimg/thirdperson-%s.png" alt="%s"></th>', $stats->weaponid_to_model($_), $stats->weaponid_to_name($_) for @columns;
                print "</tr>\n";
        }
        elsif($event eq 'startrow')
        {
                my ($row, $val) = @data;
                printf '<tr><th><img width=108 height=53 src="http://svn.icculus.org/*checkout*/nexuiz/trunk/Docs/htmlfiles/weaponimg/firstperson-%s.png" alt="%s"></th><th align=right>%s</th>', $stats->weaponid_to_model($row), $stats->weaponid_to_name($row), defined $val ? sprintf("%8.5f", $val) : "N/A";
        }
        elsif($event eq 'cell')
        {
                my ($win, $lose, $p) = @data;
                my $v = 200;
                if(!defined $p)
                {
                        printf '<td align=center bgcolor="#808080">%d</td>', $win;
                }
                elsif($p > 0)
                {
                        printf '<td align=center bgcolor="#%02x%02x%02x">%d</td>', $v - $v * $p, 255, 0, $win;
                }
                elsif($p < 0)
                {
                        #printf '<td align=center bgcolor="#%02x%02x%02x">%d</td>', (255 - $v) - $v * $p, $v + $v * $p, 0, $win;
                        printf '<td align=center bgcolor="#%02x%02x%02x">%d</td>', 255, $v + $v * $p, 0, $win;
                }
                else
                {
                        printf '<td align=center bgcolor="#ffff00">%d</td>', $win;
                }
        }
        elsif($event eq 'endrow')
        {
                print "</tr>";
        }
        elsif($event eq 'endmatrix')
        {
                my ($min) = @data;
                $min ||= 0;
                print "</table>Relevance: $min\n";
        }
        elsif($event eq 'end')
        {
        }
}

my $out = $ENV{html} ? \&out_html : \&out_text;

LoadData();
$out->(start => ());
$stats->allstats(sub
{
        my ($addr, $map, $data) = @_;
        my $values = Evaluate $data;
        my $valid = defined [values %$values]->[0];
        my @weapons_sorted = sort { $valid ? $values->{$b} <=> $values->{$a} : $a <=> $b } keys %$values;
        my $min = undef;
        $out->(startmatrix => ($addr, $map, @weapons_sorted));
        for my $row(@weapons_sorted)
        {
                $out->(startrow => $row, ($valid ? $values->{$row} : undef));
                for my $col(@weapons_sorted)
                {
                        my $win = ($data->{$row}{$col} || 0);
                        my $lose = ($data->{$col}{$row} || 0);
                        $min = $win + $lose
                                if $row ne $col and (not defined $min or $min > $win + $lose);
                        $out->(cell => ($win, $lose, (($row ne $col) && ($win + $lose)) ? (2 * $win / ($win + $lose) - 1) : undef));
                }
                $out->(endrow => ());
        }
        $out->(endmatrix => ($min));
});
$out->(end => ());