src/util/genBSDF.pl

#!/usr/bin/perl -w
# RCSid $Id: genBSDF.pl,v 2.88 2022/01/24 17:49:32 greg Exp $
#
# Compute BSDF based on geometry and material description
#
#       G. Ward
#
use strict;
my $windoz = ($^O eq "MSWin32" or $^O eq "MSWin64");
use File::Temp qw/ :mktemp  /;
sub userror {
        print STDERR "Usage: genBSDF [-n Nproc][-c Nsamp][-W][-t{3|4} Nlog2][-r \"ropts\"][-s \"x=string;y=string\"][-dim xmin xmax ymin ymax zmin zmax][{+|-}C][{+|-}a][{+|-}f][{+|-}b][{+|-}mgf][{+|-}geom units] [input ..]\n";
        exit 1;
}
my ($td,$radscn,$mgfscn,$octree,$fsender,$bsender,$receivers,$facedat,$behinddat,$rmtmp);
my ($tf,$rf,$tb,$rb,$tfx,$rfx,$tbx,$rbx,$tfz,$rfz,$tbz,$rbz,$cph);
my ($curphase, $recovery);
if ($#ARGV == 1 && "$ARGV[0]" =~ /^-rec/) {
        $td = $ARGV[1];
        open(MYAVH, "< $td/savedARGV.txt") or die "$td: invalid path\n";
        @ARGV = <MYAVH>;
        close MYAVH;
        chomp @ARGV;
        $recovery = 0;
        if (open(MYPH, "< $td/phase.txt")) {
                while (<MYPH>) {
                        chomp($recovery = $_);
                }
                close MYPH;
        }
} elsif ($windoz) {
        my $tmploc = `echo \%TMP\%`;
        chomp $tmploc;
        $td = mkdtemp("$tmploc\\genBSDF.XXXXXX");
} else {
        $td = mkdtemp("/tmp/genBSDF.XXXXXX");
        chomp $td;
}
if ($windoz) {
        $radscn = "$td\\device.rad";
        $mgfscn = "$td\\device.mgf";
        $octree = "$td\\device.oct";
        $fsender = "$td\\fsender.rad";
        $bsender = "$td\\bsender.rad";
        $receivers = "$td\\receivers.rad";
        $facedat = "$td\\face.dat";
        $behinddat = "$td\\behind.dat";
        $tf = "$td\\tf.dat";
        $rf = "$td\\rf.dat";
        $tb = "$td\\tb.dat";
        $rb = "$td\\rb.dat";
        $tfx = "$td\\tfx.dat";
        $rfx = "$td\\rfx.dat";
        $tbx = "$td\\tbx.dat";
        $rbx = "$td\\rbx.dat";
        $tfz = "$td\\tfz.dat";
        $rfz = "$td\\rfz.dat";
        $tbz = "$td\\tbz.dat";
        $rbz = "$td\\rbz.dat";
        $cph = "$td\\phase.txt";
        $rmtmp = "rd /S /Q $td";
} else {
        $radscn = "$td/device.rad";
        $mgfscn = "$td/device.mgf";
        $octree = "$td/device.oct";
        $fsender = "$td/fsender.rad";
        $bsender = "$td/bsender.rad";
        $receivers = "$td/receivers.rad";
        $facedat = "$td/face.dat";
        $behinddat = "$td/behind.dat";
        $tf = "$td/tf.dat";
        $rf = "$td/rf.dat";
        $tb = "$td/tb.dat";
        $rb = "$td/rb.dat";
        $tfx = "$td/tfx.dat";
        $rfx = "$td/rfx.dat";
        $tbx = "$td/tbx.dat";
        $rbx = "$td/rbx.dat";
        $tfz = "$td/tfz.dat";
        $rfz = "$td/rfz.dat";
        $tbz = "$td/tbz.dat";
        $rbz = "$td/rbz.dat";
        $cph = "$td/phase.txt";
        $rmtmp = "rm -rf $td";
}
my @savedARGV = @ARGV;
my $rfluxmtx = "rfluxmtx -ab 5 -ad 700 -lw 3e-6 -w-";
my $wrapper = "wrapBSDF";
my $tensortree = 0;
my $ttlog2 = 4;
my $dorecip = 1;
my $nsamp = 2000;
my $mgfin = 0;
my $geout = 1;
my $nproc = 1;
my $docolor = 0;
my $doforw = 0;
my $doback = 1;
my $pctcull = 90;
my $gunit = "meter";
my $curspec = "Visible";
my @dim;
# Get options
while ($#ARGV >= 0) {
        if ("$ARGV[0]" =~ /^[-+]m/) {
                $mgfin = ("$ARGV[0]" =~ /^\+/);
        } elsif ("$ARGV[0]" eq "-r") {
                $rfluxmtx .= " $ARGV[1]";
                shift @ARGV;
        } elsif ("$ARGV[0]" =~ /^[-+]g/) {
                $geout = ("$ARGV[0]" =~ /^\+/);
                $gunit = $ARGV[1];
                if ($gunit !~ /^(?i)(meter|foot|inch|centimeter|millimeter)$/) {
                        die "Illegal geometry unit '$gunit': must be meter, foot, inch, centimeter, or millimeter\n";
                }
                shift @ARGV;
        } elsif ("$ARGV[0]" =~ /^[-+]C/) {
                $docolor = ("$ARGV[0]" =~ /^\+/);
        } elsif ("$ARGV[0]" =~ /^[-+]a/) {
                $dorecip = ("$ARGV[0]" =~ /^\+/);
        } elsif ("$ARGV[0]" =~ /^[-+]f/) {
                $doforw = ("$ARGV[0]" =~ /^\+/);
        } elsif ("$ARGV[0]" =~ /^[-+]b/) {
                $doback = ("$ARGV[0]" =~ /^\+/);
        } elsif ("$ARGV[0]" eq "-t") {
                # Use value < 0 for rttree_reduce bypass
                $pctcull = $ARGV[1];
                if ($pctcull >= 100) {
                        die "Illegal -t culling percentage, must be < 100\n";
                }
                shift @ARGV;
        } elsif ("$ARGV[0]" =~ /^-t[34]$/) {
                $tensortree = substr($ARGV[0], 2, 1);
                $ttlog2 = $ARGV[1];
                shift @ARGV;
        } elsif ("$ARGV[0]" eq "-s") {
                $wrapper .= " -f \"$ARGV[1]\"";
                shift @ARGV;
        } elsif ("$ARGV[0]" eq "-W") {
                $wrapper .= " -W";
        } elsif ("$ARGV[0]" eq "-c") {
                $nsamp = $ARGV[1];
                shift @ARGV;
        } elsif ("$ARGV[0]" eq "-n") {
                $nproc = $ARGV[1];
                shift @ARGV;
        } elsif ("$ARGV[0]" =~ /^-d/) {
                userror() if ($#ARGV < 6);
                @dim = @ARGV[1..6];
                shift @ARGV for (1..6);
        } elsif ("$ARGV[0]" =~ /^[-+]./) {
                userror();
        } else {
                last;
        }
        shift @ARGV;
}
# Check that we're actually being asked to do something
die "Must have at least one of +forward or +backward\n" if (!$doforw && !$doback);
$wrapper .= $tensortree ? " -a t$tensortree" : " -a kf -c";
$wrapper .= " -u $gunit";
if ( !defined $recovery ) {
        # Issue warning for unhandled reciprocity case
        print STDERR "Warning: recommend both +forward and +backward with -t3\n" if
                        ($tensortree==3 && !($doforw && $doback));
        # Get scene description
        if ( $mgfin ) {
                system "mgf2rad @ARGV > $radscn";
                die "Could not load MGF input\n" if ( $? );
        } else {
                system "xform -e @ARGV > $radscn";
                die "Could not load Radiance input\n" if ( $? );
        }
}
if ( $#dim != 5 ) {
        @dim = split ' ', `getbbox -h -w $radscn`;
}
die "Device entirely inside room!\n" if ( $dim[4] >= 0 );
if ( $dim[5] > 1e-5 ) {
        print STDERR "Warning: Device extends into room\n";
} elsif ( $dim[5]*$dim[5] > .01*($dim[1]-$dim[0])*($dim[3]-$dim[2]) ) {
        print STDERR "Warning: Device far behind Z==0 plane\n";
}
# Assume Zmax==0 to derive thickness so pkgBSDF will work
$wrapper .= ' -f "t=' . (-$dim[4]) . ';w=' . ($dim[1] - $dim[0]) .
                ';h=' . ($dim[3] - $dim[2]) . '"';
$wrapper .= " -g $mgfscn" if ( $geout );
# Calculate CIE (u',v') from Radiance RGB:
my $CIEuv =     'Xi=.5141*Ri+.3239*Gi+.1620*Bi;' .
                'Yi=.2651*Ri+.6701*Gi+.0648*Bi;' .
                'Zi=.0241*Ri+.1229*Gi+.8530*Bi;' .
                'den=Xi+15*Yi+3*Zi;' .
                'uprime=if(Yi,4*Xi/den,4/19);' .
                'vprime=if(Yi,9*Yi/den,9/19);' ;
my $FEPS = 1e-5;
my $ns = 2**$ttlog2;
my $nx = int(sqrt($nsamp*($dim[1]-$dim[0])/($dim[3]-$dim[2])) + 1);
my $ny = int($nsamp/$nx + 1);
$nsamp = $nx * $ny;
$rfluxmtx .= " -n $nproc -c $nsamp";
if ( !defined $recovery ) {
        open(MYAVH, "> $td/savedARGV.txt");
        foreach (@savedARGV) {
                print MYAVH "$_\n";
        }
        close MYAVH;
        # Generate octree
        system "oconv -w $radscn > $octree";
        die "Could not compile scene\n" if ( $? );
        # Add MGF description if requested
        if ( $geout ) {
                open(MGFSCN, "> $mgfscn");
                printf MGFSCN "xf -t %.6f %.6f 0\n", -($dim[0]+$dim[1])/2, -($dim[2]+$dim[3])/2;
                close MGFSCN;
                if ( $mgfin ) {
                        die "+mgf requires input file with +geom\n" if ($#ARGV < 0);
                        system qq{mgfilt "#,o,xf,c,cxy,cspec,cmix,m,sides,rd,td,rs,ts,ir,v,p,n,f,fh,sph,cyl,cone,prism,ring,torus" @ARGV >> $mgfscn};
                } else {
                        system "rad2mgf $radscn >> $mgfscn";
                }
                open(MGFSCN, ">> $mgfscn");
                print MGFSCN "xf\n";
                close MGFSCN;
        }
        # Create receiver & sender surfaces (rectangular)
        open(RADSCN, "> $receivers");
        print RADSCN '#@rfluxmtx ' . ($tensortree ? "h=-sc$ns\n" : "h=-kf\n");
        print RADSCN '#@rfluxmtx ' . "u=-Y o=$facedat\n\n";
        print RADSCN "void glow receiver_face\n0\n0\n4 1 1 1 0\n\n";
        print RADSCN "receiver_face source f_receiver\n0\n0\n4 0 0 1 180\n\n";
        print RADSCN '#@rfluxmtx ' . ($tensortree ? "h=+sc$ns\n" : "h=+kf\n");
        print RADSCN '#@rfluxmtx ' . "u=-Y o=$behinddat\n\n";
        print RADSCN "void glow receiver_behind\n0\n0\n4 1 1 1 0\n\n";
        print RADSCN "receiver_behind source b_receiver\n0\n0\n4 0 0 -1 180\n";
        close RADSCN;
        # Prepare sender surfaces
        if ( $tensortree != 3 ) {       # Isotropic tensor tree is exception
                open (RADSCN, "> $fsender");
                print RADSCN '#@rfluxmtx u=-Y ' . ($tensortree ? "h=-sc$ns\n\n" : "h=-kf\n\n");
                print RADSCN "void polygon fwd_sender\n0\n0\n12\n";
                printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[2], $dim[4]-$FEPS;
                printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[3], $dim[4]-$FEPS;
                printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[3], $dim[4]-$FEPS;
                printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[2], $dim[4]-$FEPS;
                close RADSCN;
                open (RADSCN, "> $bsender");
                print RADSCN '#@rfluxmtx u=-Y ' . ($tensortree ? "h=+sc$ns\n\n" : "h=+kf\n\n");
                print RADSCN "void polygon bwd_sender\n0\n0\n12\n";
                printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[2], $dim[5]+$FEPS;
                printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[2], $dim[5]+$FEPS;
                printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[3], $dim[5]+$FEPS;
                printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[3], $dim[5]+$FEPS;
                close RADSCN;
        }
        print STDERR "Recover using: $0 -recover $td\n";
}
$curphase = 0;
# Create data segments (all the work happens here)
if ( $tensortree ) {
        do_tree_bsdf();
} else {
        do_matrix_bsdf();
}
# Output XML
# print STDERR "Running: $wrapper\n";
system "$wrapper -C \"Created by: genBSDF @savedARGV\"";
die "Could not wrap BSDF data\n" if ( $? );
# Clean up temporary files and exit
exec $rmtmp;

#============== End of main program segment ==============#

# Function to determine if next phase should be skipped or recovered
sub do_phase {
        $curphase++;
        if ( defined $recovery ) {
                if ( $recovery > $curphase ) { return 0; }
                if ( $recovery == $curphase ) { return -1; }
        }
        open(MYPH, ">> $td/phase.txt");
        print MYPH "$curphase\n";
        close MYPH;
        return 1;
}

# Check if we are in active phase (not skipping parts)
sub active_phase {
        if ( defined $recovery ) {
                if ( $recovery > $curphase ) { return 0; }
                if ( $recovery == $curphase ) { return -1; }
        }
        return 1;
}

# Function to run program and check output if in active phase
sub run_check {
        if ( !active_phase() ) { return; }
        my $cmd = shift;
        # print STDERR "Running: $cmd\n";
        system $cmd;
        die "Failure running: $cmd\n" if ( $? );
}

#++++++++++++++ Tensor tree BSDF generation ++++++++++++++#
sub do_tree_bsdf {

        # Run rfluxmtx processes to compute each side
        do_ttree_dir(0) if ( $doback );
        do_ttree_dir(1) if ( $doforw );

}       # end of sub do_tree_bsdf()

# Call rfluxmtx and process tensor tree BSDF for the given direction
sub do_ttree_dir {
        my $forw = shift;
        my $dop = do_phase();
        my $r = ($dop < 0) ? " -r" : "";
        my $cmd;
        if ( $tensortree == 3 ) {
                # Isotropic BSDF
                my $ns2 = $ns / 2;
                if ($windoz) {
                        $cmd = "cnt $ns2 $ny $nx " .
                                qq{| rcalc -e "r1=rand(.8681*recno-.673892)" } .
                                qq{-e "r2=rand(-5.37138*recno+67.1737811)" } .
                                qq{-e "r3=rand(+3.17603772*recno+83.766771)" } .
                                qq{-e "r4=rand(-1.5839226*recno-59.82712)" } .
                                qq{-e "odds(n):if(.5*n-floor(.5*n)-.25,-1,1)"} .
                                qq{-e "Dx=1-(\$1+r1)/$ns2" } .
                                qq{-e "Dy=min(1/$ns,sqrt(1-Dx*Dx))*odds(\$1)*r2" } .
                                qq{-e "Dz=sqrt(1-Dx*Dx-Dy*Dy)" } .
                                qq{-e "xp=(\$3+r2)*(($dim[1]-$dim[0])/$nx)+$dim[0]" } .
                                qq{-e "yp=(\$2+r3)*(($dim[3]-$dim[2])/$ny)+$dim[2]" } .
                                qq{-e "zp=$dim[5-$forw]" -e "myDz=Dz*($forw*2-1)" } .
                                qq{-e "\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz" } .
                                qq{-e "\$4=Dx;\$5=Dy;\$6=myDz" } .
                                "| $rfluxmtx$r -fa -y $ns2 - $receivers -i $octree";
                } else {
                        $cmd = "cnt $ns2 $ny $nx " .
                                qq{| rcalc -e 'r1=rand(.8681*recno-.673892)' } .
                                qq{-e 'r2=rand(-5.37138*recno+67.1737811)' } .
                                qq{-e 'r3=rand(+3.17603772*recno+83.766771)' } .
                                qq{-e 'r4=rand(-1.5839226*recno-59.82712)' } .
                                qq{-e 'odds(n):if(.5*n-floor(.5*n)-.25,-1,1)' } .
                                qq{-e 'Dx=1-(\$1+r1)/$ns2' } .
                                qq{-e 'Dy=min(1/$ns,sqrt(1-Dx*Dx))*odds(\$1)*r2' } .
                                qq{-e 'Dz=sqrt(1-Dx*Dx-Dy*Dy)' } .
                                qq{-e 'xp=(\$3+r3)*(($dim[1]-$dim[0])/$nx)+$dim[0]' } .
                                qq{-e 'yp=(\$2+r4)*(($dim[3]-$dim[2])/$ny)+$dim[2]' } .
                                qq{-e 'zp=$dim[5-$forw]' -e 'myDz=Dz*($forw*2-1)' } .
                                qq{-e '\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz' } .
                                qq{-e '\$4=Dx;\$5=Dy;\$6=myDz' -of } .
                                "| $rfluxmtx$r -h -ff -y $ns2 - $receivers -i $octree";
                }
        } else {
                # Anisotropic BSDF
                my $sender = ($bsender,$fsender)[$forw];
                if ($windoz) {
                        $cmd = "$rfluxmtx$r -fa $sender $receivers -i $octree";
                } else {
                        $cmd = "$rfluxmtx$r -h -ff $sender $receivers -i $octree";
                }
        }
        if ( $dop ) {
                # print STDERR "Running: $cmd\n";
                system $cmd;
                die "Failure running rfluxmtx" if ( $? );
        }
        ttree_out($forw);
}       # end of do_ttree_dir()

# Simplify and store tensor tree results
sub ttree_out {
        my $forw = shift;
        my ($refldat,$transdat);
        if ( $forw ) {
                $transdat = $facedat;
                $refldat = $behinddat;
        } else {
                $transdat = $behinddat;
                $refldat = $facedat;
        }
        # Only output one transmitted anisotropic distribution, preferring backwards
        if ( !$forw || !$doback || $tensortree==3 ) {
                my $ttyp = ("tb","tf")[$forw];
                ttree_comp($ttyp, "Visible", $transdat, ($tb,$tf)[$forw]);
                if ( $docolor ) {
                        ttree_comp($ttyp, "CIE-u", $transdat, ($tbx,$tfx)[$forw]);
                        ttree_comp($ttyp, "CIE-v", $transdat, ($tbz,$tfz)[$forw]);
                }
        }
        # Output reflection
        my $rtyp = ("rb","rf")[$forw];
        ttree_comp($rtyp, "Visible", $refldat, ($rb,$rf)[$forw]);
        if ( $docolor ) {
                ttree_comp($rtyp, "CIE-u", $refldat, ($rbx,$rfx)[$forw]);
                ttree_comp($rtyp, "CIE-v", $refldat, ($rbz,$rfz)[$forw]);
        }
}       # end of ttree_out()

# Call rttree_reduce on the given component
sub ttree_comp {
        my $typ = shift;
        my $spec = shift;
        my $src = shift;
        my $dest = shift;
        my $cmd;
        if ($windoz) {
                if ("$spec" eq "Visible") {
                        $cmd = qq{rcalc -e "Omega:PI/($ns*$ns)" } .
                                q{-e "Ri=$1;Gi=$2;Bi=$3" } .
                                qq{-e "$CIEuv" } .
                                q{-e "$1=Yi/Omega"};
                } elsif ("$spec" eq "CIE-u") {
                        $cmd = q{rcalc -e "Ri=$1;Gi=$2;Bi=$3" } .
                                qq{-e "$CIEuv" } .
                                q{-e "$1=uprime"};
                } elsif ("$spec" eq "CIE-v") {
                        $cmd = q{rcalc -e "Ri=$1;Gi=$2;Bi=$3" } .
                                qq{-e "$CIEuv" } .
                                q{-e "$1=vprime"};
                }
        } else {
                if ("$spec" eq "Visible") {
                        $cmd = "rcalc -if3 -e 'Omega:PI/($ns*$ns)' " .
                                q{-e 'Ri=$1;Gi=$2;Bi=$3' } .
                                "-e '$CIEuv' " .
                                q{-e '$1=Yi/Omega'};
                } elsif ("$spec" eq "CIE-u") {
                        $cmd = q{rcalc -if3 -e 'Ri=$1;Gi=$2;Bi=$3' } .
                                "-e '$CIEuv' " .
                                q{-e '$1=uprime'};
                } elsif ("$spec" eq "CIE-v") {
                        $cmd = q{rcalc -if3 -e 'Ri=$1;Gi=$2;Bi=$3' } .
                                "-e '$CIEuv' " .
                                q{-e '$1=vprime'};
                }
        }
        if ($pctcull >= 0) {
                my $avg = ( $dorecip && ( $tensortree == 3 || "$typ" =~ /^r[fb]/ ) ) ? " -a" : "";
                my $pcull = ("$spec" eq "Visible") ? $pctcull :
                                                     (100 - (100-$pctcull)*.25) ;
                if ($windoz) {
                        $cmd = "rcollate -ho -oc 1 $src | " .
                                        $cmd .
                                        " | rttree_reduce$avg -h -fa -t $pcull -r $tensortree -g $ttlog2";
                } else {
                        $cmd .= " -of $src " .
                                        "| rttree_reduce$avg -h -ff -t $pcull -r $tensortree -g $ttlog2";
                }
                run_check "$cmd > $dest";
        } else {
                if ($windoz) {
                        $cmd = "rcollate -ho -oc 1 $src | " . $cmd ;
                } else {
                        $cmd .= " $src";
                }
                if ( active_phase() ) {
                        open(DATOUT, "> $dest");
                        print DATOUT "{\n";
                        close DATOUT;
                        # print STDERR "Running: $cmd\n";
                        system "$cmd >> $dest";
                        die "Failure running rcalc" if ( $? );
                        open(DATOUT, ">> $dest");
                        for (my $i = ($tensortree==3)*$ns*$ns*$ns/2; $i-- > 0; ) {
                                print DATOUT "0\n";
                        }
                        print DATOUT "}\n";
                        close DATOUT;
                }
        }
        if ( "$spec" ne "$curspec" ) {
                $wrapper .= " -s $spec";
                $curspec = $spec;
        }
        $wrapper .= " -$typ $dest";
}       # end of ttree_comp()

#------------- End of do_tree_bsdf() & subroutines -------------#

#+++++++++++++++ Klems matrix BSDF generation +++++++++++++++#
sub do_matrix_bsdf {

        # Run rfluxmtx processes to compute each side
        do_matrix_dir(0) if ( $doback );
        do_matrix_dir(1) if ( $doforw );

}       # end of sub do_matrix_bsdf()

# Call rfluxmtx and process tensor tree BSDF for the given direction
sub do_matrix_dir {
        my $forw = shift;
        my $dop = do_phase();
        my $r = ($dop < 0) ? " -r" : "";
        my $sender = ($bsender,$fsender)[$forw];
        my $cmd = "$rfluxmtx$r -fd $sender $receivers -i $octree";
        if ( $dop ) {
                # print STDERR "Running: $cmd\n";
                system $cmd;
                die "Failure running rfluxmtx" if ( $? );
        }
        matrix_out($forw);
}       # end of do_matrix_dir()

sub matrix_out {
        my $forw = shift;
        my ($refldat,$transdat);
        if ( $forw ) {
                $transdat = $facedat;
                $refldat = $behinddat;
        } else {
                $transdat = $behinddat;
                $refldat = $facedat;
        }
        # Output transmission
        my $ttyp = ("tb","tf")[$forw];
        matrix_comp($ttyp, "Visible", $transdat, ($tb,$tf)[$forw]);
        if ( $docolor ) {
                matrix_comp($ttyp, "CIE-X", $transdat, ($tbx,$tfx)[$forw]);
                matrix_comp($ttyp, "CIE-Z", $transdat, ($tbz,$tfz)[$forw]);
        }
        # Output reflection
        my $rtyp = ("rb","rf")[$forw];
        matrix_comp($rtyp, "Visible", $refldat, ($rb,$rf)[$forw]);
        if ( $docolor ) {
                matrix_comp($rtyp, "CIE-X", $refldat, ($rbx,$rfx)[$forw]);
                matrix_comp($rtyp, "CIE-Z", $refldat, ($rbz,$rfz)[$forw]);
        }
}       # end of matrix_out()

# Transpose matrix component data and save to file
sub matrix_comp {
        my $typ = shift;
        my $spec = shift;
        my $src = shift;
        my $dest = shift;
        my $cmd = "rmtxop -fa -t";
        if ("$spec" eq "Visible") {
                $cmd .= " -c 0.2651 0.6701 0.0648";
        } elsif ("$spec" eq "CIE-X") {
                $cmd .= " -c 0.5141 0.3239 0.1620";
        } elsif ("$spec" eq "CIE-Z") {
                $cmd .= " -c 0.0241 0.1229 0.8530";
        }
        $cmd .= " $src | getinfo -";
        run_check "$cmd > $dest";
        if ( "$spec" ne "$curspec" ) {
                $wrapper .= " -s $spec";
                $curspec = $spec;
        }
        $wrapper .= " -$typ $dest";
}       # end of matrix_comp()

#------------- End of do_matrix_bsdf() & subroutines --------------#
Revision:	2.89
Committed:	Wed Mar 2 21:15:18 2022 UTC (2 years, 1 month ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.88:	+2 -1 lines
Log Message:	fix(genBSDF): Added error message for +mgf with +geom and no input file
#	User	Rev	Content
1	greg	2.1	#!/usr/bin/perl -w
2	greg	2.89	# RCSid $Id: genBSDF.pl,v 2.88 2022/01/24 17:49:32 greg Exp $
3	greg	2.1	#
4			# Compute BSDF based on geometry and material description
5			#
6			# G. Ward
7			#
8			use strict;
9	greg	2.47	my $windoz = ($^O eq "MSWin32" or $^O eq "MSWin64");
10	greg	2.13	use File::Temp qw/ :mktemp /;
11	greg	2.1	sub userror {
12	greg	2.76	print STDERR "Usage: genBSDF [-n Nproc][-c Nsamp][-W][-t{3\|4} Nlog2][-r \"ropts\"][-s \"x=string;y=string\"][-dim xmin xmax ymin ymax zmin zmax][{+\|-}C][{+\|-}a][{+\|-}f][{+\|-}b][{+\|-}mgf][{+\|-}geom units] [input ..]\n";
13	greg	2.1	exit 1;
14			}
15	greg	2.49	my ($td,$radscn,$mgfscn,$octree,$fsender,$bsender,$receivers,$facedat,$behinddat,$rmtmp);
16	greg	2.68	my ($tf,$rf,$tb,$rb,$tfx,$rfx,$tbx,$rbx,$tfz,$rfz,$tbz,$rbz,$cph);
17	greg	2.66	my ($curphase, $recovery);
18			if ($#ARGV == 1 && "$ARGV[0]" =~ /^-rec/) {
19			$td = $ARGV[1];
20			open(MYAVH, "< $td/savedARGV.txt") or die "$td: invalid path\n";
21			@ARGV = <MYAVH>;
22			close MYAVH;
23			chomp @ARGV;
24	greg	2.69	$recovery = 0;
25	greg	2.66	if (open(MYPH, "< $td/phase.txt")) {
26			while (<MYPH>) {
27			chomp($recovery = $_);
28			}
29			close MYPH;
30			}
31			} elsif ($windoz) {
32	greg	2.47	my $tmploc = `echo \%TMP\%`;
33	greg	2.66	chomp $tmploc;
34	greg	2.47	$td = mkdtemp("$tmploc\\genBSDF.XXXXXX");
35	greg	2.66	} else {
36			$td = mkdtemp("/tmp/genBSDF.XXXXXX");
37			chomp $td;
38			}
39			if ($windoz) {
40	greg	2.47	$radscn = "$td\\device.rad";
41			$mgfscn = "$td\\device.mgf";
42			$octree = "$td\\device.oct";
43	greg	2.49	$fsender = "$td\\fsender.rad";
44			$bsender = "$td\\bsender.rad";
45			$receivers = "$td\\receivers.rad";
46			$facedat = "$td\\face.dat";
47			$behinddat = "$td\\behind.dat";
48			$tf = "$td\\tf.dat";
49			$rf = "$td\\rf.dat";
50			$tb = "$td\\tb.dat";
51			$rb = "$td\\rb.dat";
52			$tfx = "$td\\tfx.dat";
53			$rfx = "$td\\rfx.dat";
54			$tbx = "$td\\tbx.dat";
55			$rbx = "$td\\rbx.dat";
56			$tfz = "$td\\tfz.dat";
57			$rfz = "$td\\rfz.dat";
58			$tbz = "$td\\tbz.dat";
59			$rbz = "$td\\rbz.dat";
60	greg	2.66	$cph = "$td\\phase.txt";
61	greg	2.63	$rmtmp = "rd /S /Q $td";
62	greg	2.49	} else {
63	greg	2.47	$radscn = "$td/device.rad";
64			$mgfscn = "$td/device.mgf";
65			$octree = "$td/device.oct";
66	greg	2.49	$fsender = "$td/fsender.rad";
67			$bsender = "$td/bsender.rad";
68			$receivers = "$td/receivers.rad";
69			$facedat = "$td/face.dat";
70			$behinddat = "$td/behind.dat";
71			$tf = "$td/tf.dat";
72			$rf = "$td/rf.dat";
73			$tb = "$td/tb.dat";
74			$rb = "$td/rb.dat";
75			$tfx = "$td/tfx.dat";
76			$rfx = "$td/rfx.dat";
77			$tbx = "$td/tbx.dat";
78			$rbx = "$td/rbx.dat";
79			$tfz = "$td/tfz.dat";
80			$rfz = "$td/rfz.dat";
81			$tbz = "$td/tbz.dat";
82			$rbz = "$td/rbz.dat";
83	greg	2.66	$cph = "$td/phase.txt";
84	greg	2.47	$rmtmp = "rm -rf $td";
85			}
86	greg	2.20	my @savedARGV = @ARGV;
87	greg	2.74	my $rfluxmtx = "rfluxmtx -ab 5 -ad 700 -lw 3e-6 -w-";
88	greg	2.49	my $wrapper = "wrapBSDF";
89	greg	2.15	my $tensortree = 0;
90			my $ttlog2 = 4;
91	greg	2.76	my $dorecip = 1;
92	greg	2.25	my $nsamp = 2000;
93	greg	2.1	my $mgfin = 0;
94			my $geout = 1;
95			my $nproc = 1;
96	greg	2.49	my $docolor = 0;
97	greg	2.9	my $doforw = 0;
98			my $doback = 1;
99	greg	2.33	my $pctcull = 90;
100	greg	2.41	my $gunit = "meter";
101	greg	2.49	my $curspec = "Visible";
102	greg	2.1	my @dim;
103			# Get options
104			while ($#ARGV >= 0) {
105			if ("$ARGV[0]" =~ /^[-+]m/) {
106			$mgfin = ("$ARGV[0]" =~ /^\+/);
107	greg	2.10	} elsif ("$ARGV[0]" eq "-r") {
108	greg	2.49	$rfluxmtx .= " $ARGV[1]";
109	greg	2.10	shift @ARGV;
110	greg	2.1	} elsif ("$ARGV[0]" =~ /^[-+]g/) {
111			$geout = ("$ARGV[0]" =~ /^\+/);
112	greg	2.22	$gunit = $ARGV[1];
113			if ($gunit !~ /^(?i)(meter\|foot\|inch\|centimeter\|millimeter)$/) {
114			die "Illegal geometry unit '$gunit': must be meter, foot, inch, centimeter, or millimeter\n";
115			}
116			shift @ARGV;
117	greg	2.49	} elsif ("$ARGV[0]" =~ /^[-+]C/) {
118			$docolor = ("$ARGV[0]" =~ /^\+/);
119	greg	2.78	} elsif ("$ARGV[0]" =~ /^[-+]a/) {
120	greg	2.76	$dorecip = ("$ARGV[0]" =~ /^\+/);
121	greg	2.9	} elsif ("$ARGV[0]" =~ /^[-+]f/) {
122			$doforw = ("$ARGV[0]" =~ /^\+/);
123			} elsif ("$ARGV[0]" =~ /^[-+]b/) {
124			$doback = ("$ARGV[0]" =~ /^\+/);
125	greg	2.27	} elsif ("$ARGV[0]" eq "-t") {
126	greg	2.33	# Use value < 0 for rttree_reduce bypass
127	greg	2.27	$pctcull = $ARGV[1];
128	greg	2.55	if ($pctcull >= 100) {
129			die "Illegal -t culling percentage, must be < 100\n";
130			}
131	greg	2.27	shift @ARGV;
132	greg	2.15	} elsif ("$ARGV[0]" =~ /^-t[34]$/) {
133			$tensortree = substr($ARGV[0], 2, 1);
134			$ttlog2 = $ARGV[1];
135			shift @ARGV;
136	greg	2.55	} elsif ("$ARGV[0]" eq "-s") {
137	greg	2.49	$wrapper .= " -f \"$ARGV[1]\"";
138			shift @ARGV;
139			} elsif ("$ARGV[0]" eq "-W") {
140			$wrapper .= " -W";
141	greg	2.1	} elsif ("$ARGV[0]" eq "-c") {
142			$nsamp = $ARGV[1];
143			shift @ARGV;
144			} elsif ("$ARGV[0]" eq "-n") {
145			$nproc = $ARGV[1];
146			shift @ARGV;
147			} elsif ("$ARGV[0]" =~ /^-d/) {
148			userror() if ($#ARGV < 6);
149	greg	2.8	@dim = @ARGV[1..6];
150	greg	2.1	shift @ARGV for (1..6);
151			} elsif ("$ARGV[0]" =~ /^[-+]./) {
152			userror();
153			} else {
154			last;
155			}
156			shift @ARGV;
157			}
158	greg	2.9	# Check that we're actually being asked to do something
159	greg	2.15	die "Must have at least one of +forward or +backward\n" if (!$doforw && !$doback);
160	greg	2.49	$wrapper .= $tensortree ? " -a t$tensortree" : " -a kf -c";
161			$wrapper .= " -u $gunit";
162	greg	2.67	if ( !defined $recovery ) {
163	greg	2.66	# Issue warning for unhandled reciprocity case
164			print STDERR "Warning: recommend both +forward and +backward with -t3\n" if
165			($tensortree==3 && !($doforw && $doback));
166	greg	2.67	# Get scene description
167	greg	2.66	if ( $mgfin ) {
168			system "mgf2rad @ARGV > $radscn";
169			die "Could not load MGF input\n" if ( $? );
170			} else {
171			system "xform -e @ARGV > $radscn";
172			die "Could not load Radiance input\n" if ( $? );
173			}
174	greg	2.1	}
175	greg	2.67	if ( $#dim != 5 ) {
176	greg	2.74	@dim = split ' ', `getbbox -h -w $radscn`;
177	greg	2.1	}
178	greg	2.67	die "Device entirely inside room!\n" if ( $dim[4] >= 0 );
179			if ( $dim[5] > 1e-5 ) {
180	greg	2.64	print STDERR "Warning: Device extends into room\n";
181	greg	2.67	} elsif ( $dim[5]$dim[5] > .01($dim[1]-$dim[0])*($dim[3]-$dim[2]) ) {
182	greg	2.64	print STDERR "Warning: Device far behind Z==0 plane\n";
183			}
184			# Assume Zmax==0 to derive thickness so pkgBSDF will work
185			$wrapper .= ' -f "t=' . (-$dim[4]) . ';w=' . ($dim[1] - $dim[0]) .
186	greg	2.49	';h=' . ($dim[3] - $dim[2]) . '"';
187	greg	2.67	$wrapper .= " -g $mgfscn" if ( $geout );
188	greg	2.66	# Calculate CIE (u',v') from Radiance RGB:
189			my $CIEuv = 'Xi=.5141Ri+.3239Gi+.1620*Bi;' .
190			'Yi=.2651Ri+.6701Gi+.0648*Bi;' .
191			'Zi=.0241Ri+.1229Gi+.8530*Bi;' .
192	greg	2.80	'den=Xi+15Yi+3Zi;' .
193			'uprime=if(Yi,4*Xi/den,4/19);' .
194			'vprime=if(Yi,9*Yi/den,9/19);' ;
195	greg	2.56	my $FEPS = 1e-5;
196	greg	2.66	my $ns = 2**$ttlog2;
197	greg	2.46	my $nx = int(sqrt($nsamp*($dim[1]-$dim[0])/($dim[3]-$dim[2])) + 1);
198			my $ny = int($nsamp/$nx + 1);
199	greg	2.15	$nsamp = $nx * $ny;
200	greg	2.49	$rfluxmtx .= " -n $nproc -c $nsamp";
201	greg	2.67	if ( !defined $recovery ) {
202	greg	2.66	open(MYAVH, "> $td/savedARGV.txt");
203			foreach (@savedARGV) {
204			print MYAVH "$_\n";
205			}
206			close MYAVH;
207			# Generate octree
208	greg	2.81	system "oconv -w $radscn > $octree";
209	greg	2.66	die "Could not compile scene\n" if ( $? );
210			# Add MGF description if requested
211			if ( $geout ) {
212			open(MGFSCN, "> $mgfscn");
213			printf MGFSCN "xf -t %.6f %.6f 0\n", -($dim[0]+$dim[1])/2, -($dim[2]+$dim[3])/2;
214			close MGFSCN;
215			if ( $mgfin ) {
216	greg	2.89	die "+mgf requires input file with +geom\n" if ($#ARGV < 0);
217	greg	2.66	system qq{mgfilt "#,o,xf,c,cxy,cspec,cmix,m,sides,rd,td,rs,ts,ir,v,p,n,f,fh,sph,cyl,cone,prism,ring,torus" @ARGV >> $mgfscn};
218			} else {
219			system "rad2mgf $radscn >> $mgfscn";
220			}
221			open(MGFSCN, ">> $mgfscn");
222			print MGFSCN "xf\n";
223			close MGFSCN;
224			}
225			# Create receiver & sender surfaces (rectangular)
226			open(RADSCN, "> $receivers");
227			print RADSCN '#@rfluxmtx ' . ($tensortree ? "h=-sc$ns\n" : "h=-kf\n");
228			print RADSCN '#@rfluxmtx ' . "u=-Y o=$facedat\n\n";
229			print RADSCN "void glow receiver_face\n0\n0\n4 1 1 1 0\n\n";
230			print RADSCN "receiver_face source f_receiver\n0\n0\n4 0 0 1 180\n\n";
231			print RADSCN '#@rfluxmtx ' . ($tensortree ? "h=+sc$ns\n" : "h=+kf\n");
232			print RADSCN '#@rfluxmtx ' . "u=-Y o=$behinddat\n\n";
233			print RADSCN "void glow receiver_behind\n0\n0\n4 1 1 1 0\n\n";
234			print RADSCN "receiver_behind source b_receiver\n0\n0\n4 0 0 -1 180\n";
235	greg	2.49	close RADSCN;
236	greg	2.66	# Prepare sender surfaces
237			if ( $tensortree != 3 ) { # Isotropic tensor tree is exception
238			open (RADSCN, "> $fsender");
239			print RADSCN '#@rfluxmtx u=-Y ' . ($tensortree ? "h=-sc$ns\n\n" : "h=-kf\n\n");
240			print RADSCN "void polygon fwd_sender\n0\n0\n12\n";
241			printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[2], $dim[4]-$FEPS;
242			printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[3], $dim[4]-$FEPS;
243			printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[3], $dim[4]-$FEPS;
244			printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[2], $dim[4]-$FEPS;
245			close RADSCN;
246			open (RADSCN, "> $bsender");
247			print RADSCN '#@rfluxmtx u=-Y ' . ($tensortree ? "h=+sc$ns\n\n" : "h=+kf\n\n");
248			print RADSCN "void polygon bwd_sender\n0\n0\n12\n";
249			printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[2], $dim[5]+$FEPS;
250			printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[2], $dim[5]+$FEPS;
251			printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[3], $dim[5]+$FEPS;
252			printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[3], $dim[5]+$FEPS;
253			close RADSCN;
254			}
255			print STDERR "Recover using: $0 -recover $td\n";
256			}
257			$curphase = 0;
258	greg	2.15	# Create data segments (all the work happens here)
259			if ( $tensortree ) {
260			do_tree_bsdf();
261			} else {
262			do_matrix_bsdf();
263			}
264	greg	2.49	# Output XML
265	greg	2.67	# print STDERR "Running: $wrapper\n";
266	greg	2.62	system "$wrapper -C \"Created by: genBSDF @savedARGV\"";
267	greg	2.49	die "Could not wrap BSDF data\n" if ( $? );
268	greg	2.15	# Clean up temporary files and exit
269	greg	2.53	exec $rmtmp;
270	greg	2.16
271	greg	2.67	#============== End of main program segment ==============#
272
273			# Function to determine if next phase should be skipped or recovered
274			sub do_phase {
275			$curphase++;
276	greg	2.70	if ( defined $recovery ) {
277			if ( $recovery > $curphase ) { return 0; }
278			if ( $recovery == $curphase ) { return -1; }
279	greg	2.67	}
280	greg	2.73	open(MYPH, ">> $td/phase.txt");
281	greg	2.67	print MYPH "$curphase\n";
282	greg	2.73	close MYPH;
283	greg	2.67	return 1;
284			}
285	greg	2.15
286	greg	2.70	# Check if we are in active phase (not skipping parts)
287			sub active_phase {
288			if ( defined $recovery ) {
289			if ( $recovery > $curphase ) { return 0; }
290			if ( $recovery == $curphase ) { return -1; }
291			}
292			return 1;
293			}
294
295			# Function to run program and check output if in active phase
296			sub run_check {
297			if ( !active_phase() ) { return; }
298			my $cmd = shift;
299			# print STDERR "Running: $cmd\n";
300			system $cmd;
301			die "Failure running: $cmd\n" if ( $? );
302			}
303
304	greg	2.15	#++++++++++++++ Tensor tree BSDF generation ++++++++++++++#
305			sub do_tree_bsdf {
306	greg	2.49
307			# Run rfluxmtx processes to compute each side
308			do_ttree_dir(0) if ( $doback );
309			do_ttree_dir(1) if ( $doforw );
310	greg	2.36
311	greg	2.15	} # end of sub do_tree_bsdf()
312
313	greg	2.49	# Call rfluxmtx and process tensor tree BSDF for the given direction
314			sub do_ttree_dir {
315	greg	2.15	my $forw = shift;
316	greg	2.70	my $dop = do_phase();
317			my $r = ($dop < 0) ? " -r" : "";
318	greg	2.47	my $cmd;
319	greg	2.15	if ( $tensortree == 3 ) {
320			# Isotropic BSDF
321	greg	2.36	my $ns2 = $ns / 2;
322	greg	2.47	if ($windoz) {
323			$cmd = "cnt $ns2 $ny $nx " .
324			qq{\| rcalc -e "r1=rand(.8681*recno-.673892)" } .
325			qq{-e "r2=rand(-5.37138*recno+67.1737811)" } .
326			qq{-e "r3=rand(+3.17603772*recno+83.766771)" } .
327	greg	2.82	qq{-e "r4=rand(-1.5839226*recno-59.82712)" } .
328	greg	2.84	qq{-e "odds(n):if(.5n-floor(.5n)-.25,-1,1)"} .
329			qq{-e "Dx=1-(\$1+r1)/$ns2" } .
330	greg	2.86	qq{-e "Dy=min(1/$ns,sqrt(1-DxDx))odds(\$1)*r2" } .
331	greg	2.82	qq{-e "Dz=sqrt(1-DxDx-DyDy)" } .
332	greg	2.47	qq{-e "xp=(\$3+r2)*(($dim[1]-$dim[0])/$nx)+$dim[0]" } .
333			qq{-e "yp=(\$2+r3)*(($dim[3]-$dim[2])/$ny)+$dim[2]" } .
334			qq{-e "zp=$dim[5-$forw]" -e "myDz=Dz($forw2-1)" } .
335			qq{-e "\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz" } .
336			qq{-e "\$4=Dx;\$5=Dy;\$6=myDz" } .
337	greg	2.66	"\| $rfluxmtx$r -fa -y $ns2 - $receivers -i $octree";
338	greg	2.47	} else {
339			$cmd = "cnt $ns2 $ny $nx " .
340	greg	2.75	qq{\| rcalc -e 'r1=rand(.8681*recno-.673892)' } .
341			qq{-e 'r2=rand(-5.37138*recno+67.1737811)' } .
342			qq{-e 'r3=rand(+3.17603772*recno+83.766771)' } .
343	greg	2.82	qq{-e 'r4=rand(-1.5839226*recno-59.82712)' } .
344	greg	2.84	qq{-e 'odds(n):if(.5n-floor(.5n)-.25,-1,1)' } .
345			qq{-e 'Dx=1-(\$1+r1)/$ns2' } .
346	greg	2.86	qq{-e 'Dy=min(1/$ns,sqrt(1-DxDx))odds(\$1)*r2' } .
347	greg	2.82	qq{-e 'Dz=sqrt(1-DxDx-DyDy)' } .
348			qq{-e 'xp=(\$3+r3)*(($dim[1]-$dim[0])/$nx)+$dim[0]' } .
349			qq{-e 'yp=(\$2+r4)*(($dim[3]-$dim[2])/$ny)+$dim[2]' } .
350	greg	2.75	qq{-e 'zp=$dim[5-$forw]' -e 'myDz=Dz($forw2-1)' } .
351	greg	2.47	qq{-e '\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz' } .
352			qq{-e '\$4=Dx;\$5=Dy;\$6=myDz' -of } .
353	greg	2.66	"\| $rfluxmtx$r -h -ff -y $ns2 - $receivers -i $octree";
354	greg	2.47	}
355	greg	2.15	} else {
356			# Anisotropic BSDF
357	greg	2.49	my $sender = ($bsender,$fsender)[$forw];
358	greg	2.47	if ($windoz) {
359	greg	2.66	$cmd = "$rfluxmtx$r -fa $sender $receivers -i $octree";
360	greg	2.47	} else {
361	greg	2.66	$cmd = "$rfluxmtx$r -h -ff $sender $receivers -i $octree";
362	greg	2.47	}
363	greg	2.15	}
364	greg	2.71	if ( $dop ) {
365			# print STDERR "Running: $cmd\n";
366			system $cmd;
367			die "Failure running rfluxmtx" if ( $? );
368			}
369	greg	2.36	ttree_out($forw);
370	greg	2.49	} # end of do_ttree_dir()
371	greg	2.15
372	greg	2.49	# Simplify and store tensor tree results
373	greg	2.15	sub ttree_out {
374			my $forw = shift;
375	greg	2.49	my ($refldat,$transdat);
376			if ( $forw ) {
377			$transdat = $facedat;
378			$refldat = $behinddat;
379	greg	2.47	} else {
380	greg	2.49	$transdat = $behinddat;
381			$refldat = $facedat;
382	greg	2.47	}
383	greg	2.49	# Only output one transmitted anisotropic distribution, preferring backwards
384			if ( !$forw \|\| !$doback \|\| $tensortree==3 ) {
385			my $ttyp = ("tb","tf")[$forw];
386			ttree_comp($ttyp, "Visible", $transdat, ($tb,$tf)[$forw]);
387			if ( $docolor ) {
388	greg	2.53	ttree_comp($ttyp, "CIE-u", $transdat, ($tbx,$tfx)[$forw]);
389			ttree_comp($ttyp, "CIE-v", $transdat, ($tbz,$tfz)[$forw]);
390	greg	2.49	}
391	greg	2.47	}
392	greg	2.49	# Output reflection
393			my $rtyp = ("rb","rf")[$forw];
394			ttree_comp($rtyp, "Visible", $refldat, ($rb,$rf)[$forw]);
395			if ( $docolor ) {
396	greg	2.53	ttree_comp($rtyp, "CIE-u", $refldat, ($rbx,$rfx)[$forw]);
397			ttree_comp($rtyp, "CIE-v", $refldat, ($rbz,$rfz)[$forw]);
398	greg	2.34	}
399	greg	2.49	} # end of ttree_out()
400
401			# Call rttree_reduce on the given component
402			sub ttree_comp {
403			my $typ = shift;
404			my $spec = shift;
405			my $src = shift;
406			my $dest = shift;
407			my $cmd;
408	greg	2.47	if ($windoz) {
409	greg	2.49	if ("$spec" eq "Visible") {
410			$cmd = qq{rcalc -e "Omega:PI/($ns*$ns)" } .
411	greg	2.53	q{-e "Ri=$1;Gi=$2;Bi=$3" } .
412			qq{-e "$CIEuv" } .
413			q{-e "$1=Yi/Omega"};
414			} elsif ("$spec" eq "CIE-u") {
415	greg	2.54	$cmd = q{rcalc -e "Ri=$1;Gi=$2;Bi=$3" } .
416	greg	2.53	qq{-e "$CIEuv" } .
417	greg	2.54	q{-e "$1=uprime"};
418	greg	2.53	} elsif ("$spec" eq "CIE-v") {
419	greg	2.54	$cmd = q{rcalc -e "Ri=$1;Gi=$2;Bi=$3" } .
420	greg	2.53	qq{-e "$CIEuv" } .
421	greg	2.54	q{-e "$1=vprime"};
422	greg	2.49	}
423	greg	2.47	} else {
424	greg	2.49	if ("$spec" eq "Visible") {
425			$cmd = "rcalc -if3 -e 'Omega:PI/($ns*$ns)' " .
426	greg	2.53	q{-e 'Ri=$1;Gi=$2;Bi=$3' } .
427			"-e '$CIEuv' " .
428			q{-e '$1=Yi/Omega'};
429			} elsif ("$spec" eq "CIE-u") {
430	greg	2.54	$cmd = q{rcalc -if3 -e 'Ri=$1;Gi=$2;Bi=$3' } .
431	greg	2.53	"-e '$CIEuv' " .
432	greg	2.54	q{-e '$1=uprime'};
433	greg	2.53	} elsif ("$spec" eq "CIE-v") {
434	greg	2.54	$cmd = q{rcalc -if3 -e 'Ri=$1;Gi=$2;Bi=$3' } .
435	greg	2.53	"-e '$CIEuv' " .
436	greg	2.54	q{-e '$1=vprime'};
437	greg	2.49	}
438	greg	2.47	}
439	greg	2.49	if ($pctcull >= 0) {
440	greg	2.88	my $avg = ( $dorecip && ( $tensortree == 3 \|\| "$typ" =~ /^r[fb]/ ) ) ? " -a" : "";
441	greg	2.53	my $pcull = ("$spec" eq "Visible") ? $pctcull :
442	greg	2.55	(100 - (100-$pctcull)*.25) ;
443	greg	2.49	if ($windoz) {
444			$cmd = "rcollate -ho -oc 1 $src \| " .
445			$cmd .
446	greg	2.53	" \| rttree_reduce$avg -h -fa -t $pcull -r $tensortree -g $ttlog2";
447	greg	2.49	} else {
448			$cmd .= " -of $src " .
449	greg	2.53	"\| rttree_reduce$avg -h -ff -t $pcull -r $tensortree -g $ttlog2";
450	greg	2.49	}
451	greg	2.70	run_check "$cmd > $dest";
452	greg	2.47	} else {
453	greg	2.49	if ($windoz) {
454			$cmd = "rcollate -ho -oc 1 $src \| " . $cmd ;
455			} else {
456			$cmd .= " $src";
457			}
458	greg	2.70	if ( active_phase() ) {
459			open(DATOUT, "> $dest");
460			print DATOUT "{\n";
461			close DATOUT;
462			# print STDERR "Running: $cmd\n";
463			system "$cmd >> $dest";
464			die "Failure running rcalc" if ( $? );
465			open(DATOUT, ">> $dest");
466			for (my $i = ($tensortree==3)$ns$ns*$ns/2; $i-- > 0; ) {
467			print DATOUT "0\n";
468			}
469			print DATOUT "}\n";
470			close DATOUT;
471	greg	2.49	}
472	greg	2.47	}
473	greg	2.49	if ( "$spec" ne "$curspec" ) {
474	greg	2.51	$wrapper .= " -s $spec";
475	greg	2.49	$curspec = $spec;
476	greg	2.34	}
477	greg	2.49	$wrapper .= " -$typ $dest";
478			} # end of ttree_comp()
479	greg	2.15
480			#------------- End of do_tree_bsdf() & subroutines -------------#
481
482			#+++++++++++++++ Klems matrix BSDF generation +++++++++++++++#
483			sub do_matrix_bsdf {
484	greg	2.49
485			# Run rfluxmtx processes to compute each side
486			do_matrix_dir(0) if ( $doback );
487			do_matrix_dir(1) if ( $doforw );
488
489			} # end of sub do_matrix_bsdf()
490
491			# Call rfluxmtx and process tensor tree BSDF for the given direction
492			sub do_matrix_dir {
493			my $forw = shift;
494	greg	2.70	my $dop = do_phase();
495			my $r = ($dop < 0) ? " -r" : "";
496	greg	2.49	my $sender = ($bsender,$fsender)[$forw];
497	greg	2.71	my $cmd = "$rfluxmtx$r -fd $sender $receivers -i $octree";
498			if ( $dop ) {
499			# print STDERR "Running: $cmd\n";
500			system $cmd;
501			die "Failure running rfluxmtx" if ( $? );
502			}
503	greg	2.49	matrix_out($forw);
504			} # end of do_matrix_dir()
505
506			sub matrix_out {
507			my $forw = shift;
508			my ($refldat,$transdat);
509			if ( $forw ) {
510			$transdat = $facedat;
511			$refldat = $behinddat;
512	greg	2.47	} else {
513	greg	2.49	$transdat = $behinddat;
514			$refldat = $facedat;
515	greg	2.47	}
516	greg	2.49	# Output transmission
517			my $ttyp = ("tb","tf")[$forw];
518			matrix_comp($ttyp, "Visible", $transdat, ($tb,$tf)[$forw]);
519			if ( $docolor ) {
520			matrix_comp($ttyp, "CIE-X", $transdat, ($tbx,$tfx)[$forw]);
521			matrix_comp($ttyp, "CIE-Z", $transdat, ($tbz,$tfz)[$forw]);
522			}
523			# Output reflection
524			my $rtyp = ("rb","rf")[$forw];
525			matrix_comp($rtyp, "Visible", $refldat, ($rb,$rf)[$forw]);
526			if ( $docolor ) {
527			matrix_comp($rtyp, "CIE-X", $refldat, ($rbx,$rfx)[$forw]);
528			matrix_comp($rtyp, "CIE-Z", $refldat, ($rbz,$rfz)[$forw]);
529			}
530			} # end of matrix_out()
531
532			# Transpose matrix component data and save to file
533			sub matrix_comp {
534			my $typ = shift;
535			my $spec = shift;
536			my $src = shift;
537			my $dest = shift;
538			my $cmd = "rmtxop -fa -t";
539			if ("$spec" eq "Visible") {
540	greg	2.55	$cmd .= " -c 0.2651 0.6701 0.0648";
541	greg	2.49	} elsif ("$spec" eq "CIE-X") {
542	greg	2.55	$cmd .= " -c 0.5141 0.3239 0.1620";
543	greg	2.49	} elsif ("$spec" eq "CIE-Z") {
544	greg	2.55	$cmd .= " -c 0.0241 0.1229 0.8530";
545	greg	2.49	}
546	greg	2.72	$cmd .= " $src \| getinfo -";
547	greg	2.70	run_check "$cmd > $dest";
548	greg	2.49	if ( "$spec" ne "$curspec" ) {
549	greg	2.51	$wrapper .= " -s $spec";
550	greg	2.49	$curspec = $spec;
551	greg	2.47	}
552	greg	2.49	$wrapper .= " -$typ $dest";
553			} # end of matrix_comp()
554	greg	2.47
555	greg	2.49	#------------- End of do_matrix_bsdf() & subroutines --------------#