| 6 |
|
# G. Ward |
| 7 |
|
# |
| 8 |
|
use strict; |
| 9 |
+ |
my $windoz = ($^O eq "MSWin32" or $^O eq "MSWin64"); |
| 10 |
|
use File::Temp qw/ :mktemp /; |
| 11 |
|
sub userror { |
| 12 |
< |
print STDERR "Usage: genBSDF [-n Nproc][-c Nsamp][-t{3|4} Nlog2][-r \"ropts\"][-dim xmin xmax ymin ymax zmin zmax][{+|-}f][{+|-}b][{+|-}mgf][{+|-}geom] [input ..]\n"; |
| 12 |
> |
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 |
|
exit 1; |
| 14 |
|
} |
| 15 |
< |
my $td = mkdtemp("/tmp/genBSDF.XXXXXX"); |
| 16 |
< |
chomp $td; |
| 15 |
> |
my ($td,$radscn,$mgfscn,$octree,$fsender,$bsender,$receivers,$facedat,$behinddat,$rmtmp); |
| 16 |
> |
my ($tf,$rf,$tb,$rb,$tfx,$rfx,$tbx,$rbx,$tfz,$rfz,$tbz,$rbz,$cph); |
| 17 |
> |
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 |
> |
$recovery = 0; |
| 25 |
> |
if (open(MYPH, "< $td/phase.txt")) { |
| 26 |
> |
while (<MYPH>) { |
| 27 |
> |
chomp($recovery = $_); |
| 28 |
> |
} |
| 29 |
> |
close MYPH; |
| 30 |
> |
} |
| 31 |
> |
} elsif ($windoz) { |
| 32 |
> |
my $tmploc = `echo \%TMP\%`; |
| 33 |
> |
chomp $tmploc; |
| 34 |
> |
$td = mkdtemp("$tmploc\\genBSDF.XXXXXX"); |
| 35 |
> |
} else { |
| 36 |
> |
$td = mkdtemp("/tmp/genBSDF.XXXXXX"); |
| 37 |
> |
chomp $td; |
| 38 |
> |
} |
| 39 |
> |
if ($windoz) { |
| 40 |
> |
$radscn = "$td\\device.rad"; |
| 41 |
> |
$mgfscn = "$td\\device.mgf"; |
| 42 |
> |
$octree = "$td\\device.oct"; |
| 43 |
> |
$fsender = "$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 |
> |
$cph = "$td\\phase.txt"; |
| 61 |
> |
$rmtmp = "rd /S /Q $td"; |
| 62 |
> |
} else { |
| 63 |
> |
$radscn = "$td/device.rad"; |
| 64 |
> |
$mgfscn = "$td/device.mgf"; |
| 65 |
> |
$octree = "$td/device.oct"; |
| 66 |
> |
$fsender = "$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 |
> |
$cph = "$td/phase.txt"; |
| 84 |
> |
$rmtmp = "rm -rf $td"; |
| 85 |
> |
} |
| 86 |
> |
my @savedARGV = @ARGV; |
| 87 |
> |
my $rfluxmtx = "rfluxmtx -ab 5 -ad 700 -lw 3e-6 -w-"; |
| 88 |
> |
my $wrapper = "wrapBSDF"; |
| 89 |
|
my $tensortree = 0; |
| 90 |
|
my $ttlog2 = 4; |
| 91 |
< |
my $nsamp = 1000; |
| 92 |
< |
my $rtargs = "-w -ab 5 -ad 700 -lw 3e-6"; |
| 91 |
> |
my $dorecip = 1; |
| 92 |
> |
my $nsamp = 2000; |
| 93 |
|
my $mgfin = 0; |
| 94 |
|
my $geout = 1; |
| 95 |
|
my $nproc = 1; |
| 96 |
+ |
my $docolor = 0; |
| 97 |
|
my $doforw = 0; |
| 98 |
|
my $doback = 1; |
| 99 |
+ |
my $pctcull = 90; |
| 100 |
+ |
my $gunit = "meter"; |
| 101 |
+ |
my $curspec = "Visible"; |
| 102 |
|
my @dim; |
| 103 |
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# Get options |
| 104 |
|
while ($#ARGV >= 0) { |
| 105 |
|
if ("$ARGV[0]" =~ /^[-+]m/) { |
| 106 |
|
$mgfin = ("$ARGV[0]" =~ /^\+/); |
| 107 |
|
} elsif ("$ARGV[0]" eq "-r") { |
| 108 |
< |
$rtargs = "$rtargs $ARGV[1]"; |
| 108 |
> |
$rfluxmtx .= " $ARGV[1]"; |
| 109 |
|
shift @ARGV; |
| 110 |
|
} elsif ("$ARGV[0]" =~ /^[-+]g/) { |
| 111 |
|
$geout = ("$ARGV[0]" =~ /^\+/); |
| 112 |
+ |
$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 |
+ |
} elsif ("$ARGV[0]" =~ /^[-+]C/) { |
| 118 |
+ |
$docolor = ("$ARGV[0]" =~ /^\+/); |
| 119 |
+ |
} elsif ("$ARGV[0]" =~ /^[-+]a/) { |
| 120 |
+ |
$dorecip = ("$ARGV[0]" =~ /^\+/); |
| 121 |
|
} elsif ("$ARGV[0]" =~ /^[-+]f/) { |
| 122 |
|
$doforw = ("$ARGV[0]" =~ /^\+/); |
| 123 |
|
} elsif ("$ARGV[0]" =~ /^[-+]b/) { |
| 124 |
|
$doback = ("$ARGV[0]" =~ /^\+/); |
| 125 |
+ |
} elsif ("$ARGV[0]" eq "-t") { |
| 126 |
+ |
# Use value < 0 for rttree_reduce bypass |
| 127 |
+ |
$pctcull = $ARGV[1]; |
| 128 |
+ |
if ($pctcull >= 100) { |
| 129 |
+ |
die "Illegal -t culling percentage, must be < 100\n"; |
| 130 |
+ |
} |
| 131 |
+ |
shift @ARGV; |
| 132 |
|
} elsif ("$ARGV[0]" =~ /^-t[34]$/) { |
| 133 |
|
$tensortree = substr($ARGV[0], 2, 1); |
| 134 |
|
$ttlog2 = $ARGV[1]; |
| 135 |
|
shift @ARGV; |
| 136 |
+ |
} elsif ("$ARGV[0]" eq "-s") { |
| 137 |
+ |
$wrapper .= " -f \"$ARGV[1]\""; |
| 138 |
+ |
shift @ARGV; |
| 139 |
+ |
} elsif ("$ARGV[0]" eq "-W") { |
| 140 |
+ |
$wrapper .= " -W"; |
| 141 |
|
} elsif ("$ARGV[0]" eq "-c") { |
| 142 |
|
$nsamp = $ARGV[1]; |
| 143 |
|
shift @ARGV; |
| 157 |
|
} |
| 158 |
|
# Check that we're actually being asked to do something |
| 159 |
|
die "Must have at least one of +forward or +backward\n" if (!$doforw && !$doback); |
| 160 |
< |
# Name our own persist file? |
| 161 |
< |
my $persistfile; |
| 162 |
< |
if ( $tensortree && $nproc > 1 && "$rtargs" !~ /-PP /) { |
| 163 |
< |
$persistfile = "$td/pfile.txt"; |
| 164 |
< |
$rtargs = "-PP $persistfile $rtargs"; |
| 160 |
> |
$wrapper .= $tensortree ? " -a t$tensortree" : " -a kf -c"; |
| 161 |
> |
$wrapper .= " -u $gunit"; |
| 162 |
> |
if ( !defined $recovery ) { |
| 163 |
> |
# Issue warning for unhandled reciprocity case |
| 164 |
> |
print STDERR "Warning: recommend both +forward and +backward with -t3\n" if |
| 165 |
> |
($tensortree==3 && !($doforw && $doback)); |
| 166 |
> |
# Get scene description |
| 167 |
> |
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 |
|
} |
| 175 |
< |
# Get scene description and dimensions |
| 176 |
< |
my $radscn = "$td/device.rad"; |
| 70 |
< |
my $mgfscn = "$td/device.mgf"; |
| 71 |
< |
my $octree = "$td/device.oct"; |
| 72 |
< |
if ( $mgfin ) { |
| 73 |
< |
system "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"; |
| 74 |
< |
die "Could not load MGF input\n" if ( $? ); |
| 75 |
< |
system "mgf2rad $mgfscn > $radscn"; |
| 76 |
< |
} else { |
| 77 |
< |
system "xform -e @ARGV > $radscn"; |
| 78 |
< |
die "Could not load Radiance input\n" if ( $? ); |
| 79 |
< |
system "rad2mgf $radscn > $mgfscn" if ( $geout ); |
| 175 |
> |
if ( $#dim != 5 ) { |
| 176 |
> |
@dim = split ' ', `getbbox -h -w $radscn`; |
| 177 |
|
} |
| 178 |
< |
if ($#dim != 5) { |
| 179 |
< |
@dim = split ' ', `getbbox -h $radscn`; |
| 178 |
> |
die "Device entirely inside room!\n" if ( $dim[4] >= 0 ); |
| 179 |
> |
if ( $dim[5] > 1e-5 ) { |
| 180 |
> |
print STDERR "Warning: Device extends into room\n"; |
| 181 |
> |
} elsif ( $dim[5]*$dim[5] > .01*($dim[1]-$dim[0])*($dim[3]-$dim[2]) ) { |
| 182 |
> |
print STDERR "Warning: Device far behind Z==0 plane\n"; |
| 183 |
|
} |
| 184 |
< |
print STDERR "Warning: Device extends into room\n" if ($dim[5] > 1e-5); |
| 185 |
< |
# Add receiver surfaces (rectangular) |
| 186 |
< |
my $fmodnm="receiver_face"; |
| 187 |
< |
my $bmodnm="receiver_behind"; |
| 188 |
< |
open(RADSCN, ">> $radscn"); |
| 189 |
< |
print RADSCN "void glow $fmodnm\n0\n0\n4 1 1 1 0\n\n"; |
| 190 |
< |
print RADSCN "$fmodnm source f_receiver\n0\n0\n4 0 0 1 180\n"; |
| 191 |
< |
print RADSCN "void glow $bmodnm\n0\n0\n4 1 1 1 0\n\n"; |
| 192 |
< |
print RADSCN "$bmodnm source b_receiver\n0\n0\n4 0 0 -1 180\n"; |
| 193 |
< |
close RADSCN; |
| 194 |
< |
# Generate octree |
| 195 |
< |
system "oconv -w $radscn > $octree"; |
| 96 |
< |
die "Could not compile scene\n" if ( $? ); |
| 97 |
< |
# Output XML prologue |
| 98 |
< |
print |
| 99 |
< |
'<?xml version="1.0" encoding="UTF-8"?> |
| 100 |
< |
<WindowElement xmlns="http://windows.lbl.gov" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://windows.lbl.gov/BSDF-v1.4.xsd"> |
| 101 |
< |
<WindowElementType>System</WindowElementType> |
| 102 |
< |
<Optical> |
| 103 |
< |
<Layer> |
| 104 |
< |
<Material> |
| 105 |
< |
<Name>Name</Name> |
| 106 |
< |
<Manufacturer>Manufacturer</Manufacturer> |
| 107 |
< |
'; |
| 108 |
< |
printf "\t\t<Thickness unit=\"Meter\">%.3f</Thickness>\n", $dim[5] - $dim[4]; |
| 109 |
< |
printf "\t\t<Width unit=\"Meter\">%.3f</Width>\n", $dim[1] - $dim[0]; |
| 110 |
< |
printf "\t\t<Height unit=\"Meter\">%.3f</Height>\n", $dim[3] - $dim[2]; |
| 111 |
< |
print "\t\t<DeviceType>Integral</DeviceType>\n"; |
| 112 |
< |
# Output MGF description if requested |
| 113 |
< |
if ( $geout ) { |
| 114 |
< |
print "\t\t<Geometry format=\"MGF\" unit=\"Meter\">\n"; |
| 115 |
< |
printf "xf -t %.6f %.6f 0\n", -($dim[0]+$dim[1])/2, -($dim[2]+$dim[3])/2; |
| 116 |
< |
open(MGFSCN, "< $mgfscn"); |
| 117 |
< |
while (<MGFSCN>) { print $_; } |
| 118 |
< |
close MGFSCN; |
| 119 |
< |
print "xf\n"; |
| 120 |
< |
print "\t\t</Geometry>\n"; |
| 121 |
< |
} |
| 122 |
< |
print " </Material>\n"; |
| 123 |
< |
# Set up surface sampling |
| 124 |
< |
my $nx = int(sqrt($nsamp*($dim[1]-$dim[0])/($dim[3]-$dim[2])) + .5); |
| 125 |
< |
my $ny = int($nsamp/$nx + .5); |
| 126 |
< |
$nsamp = $nx * $ny; |
| 184 |
> |
# Assume Zmax==0 to derive thickness so pkgBSDF will work |
| 185 |
> |
$wrapper .= ' -f "t=' . (-$dim[4]) . ';w=' . ($dim[1] - $dim[0]) . |
| 186 |
> |
';h=' . ($dim[3] - $dim[2]) . '"'; |
| 187 |
> |
$wrapper .= " -g $mgfscn" if ( $geout ); |
| 188 |
> |
# Calculate CIE (u',v') from Radiance RGB: |
| 189 |
> |
my $CIEuv = 'Xi=.5141*Ri+.3239*Gi+.1620*Bi;' . |
| 190 |
> |
'Yi=.2651*Ri+.6701*Gi+.0648*Bi;' . |
| 191 |
> |
'Zi=.0241*Ri+.1229*Gi+.8530*Bi;' . |
| 192 |
> |
'den=Xi+15*Yi+3*Zi;' . |
| 193 |
> |
'uprime=if(Yi,4*Xi/den,4/19);' . |
| 194 |
> |
'vprime=if(Yi,9*Yi/den,9/19);' ; |
| 195 |
> |
my $FEPS = 1e-5; |
| 196 |
|
my $ns = 2**$ttlog2; |
| 197 |
< |
my (@pdiv, $disk2sq, $sq2disk, $tcal, $kcal); |
| 197 |
> |
my $nx = int(sqrt($nsamp*($dim[1]-$dim[0])/($dim[3]-$dim[2])) + 1); |
| 198 |
> |
my $ny = int($nsamp/$nx + 1); |
| 199 |
> |
$nsamp = $nx * $ny; |
| 200 |
> |
$rfluxmtx .= " -n $nproc -c $nsamp"; |
| 201 |
> |
if ( !defined $recovery ) { |
| 202 |
> |
open(MYAVH, "> $td/savedARGV.txt"); |
| 203 |
> |
foreach (@savedARGV) { |
| 204 |
> |
print MYAVH "$_\n"; |
| 205 |
> |
} |
| 206 |
> |
close MYAVH; |
| 207 |
> |
# Generate octree |
| 208 |
> |
system "oconv -w $radscn > $octree"; |
| 209 |
> |
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 |
> |
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}; |
| 217 |
> |
} else { |
| 218 |
> |
system "rad2mgf $radscn >> $mgfscn"; |
| 219 |
> |
} |
| 220 |
> |
open(MGFSCN, ">> $mgfscn"); |
| 221 |
> |
print MGFSCN "xf\n"; |
| 222 |
> |
close MGFSCN; |
| 223 |
> |
} |
| 224 |
> |
# Create receiver & sender surfaces (rectangular) |
| 225 |
> |
open(RADSCN, "> $receivers"); |
| 226 |
> |
print RADSCN '#@rfluxmtx ' . ($tensortree ? "h=-sc$ns\n" : "h=-kf\n"); |
| 227 |
> |
print RADSCN '#@rfluxmtx ' . "u=-Y o=$facedat\n\n"; |
| 228 |
> |
print RADSCN "void glow receiver_face\n0\n0\n4 1 1 1 0\n\n"; |
| 229 |
> |
print RADSCN "receiver_face source f_receiver\n0\n0\n4 0 0 1 180\n\n"; |
| 230 |
> |
print RADSCN '#@rfluxmtx ' . ($tensortree ? "h=+sc$ns\n" : "h=+kf\n"); |
| 231 |
> |
print RADSCN '#@rfluxmtx ' . "u=-Y o=$behinddat\n\n"; |
| 232 |
> |
print RADSCN "void glow receiver_behind\n0\n0\n4 1 1 1 0\n\n"; |
| 233 |
> |
print RADSCN "receiver_behind source b_receiver\n0\n0\n4 0 0 -1 180\n"; |
| 234 |
> |
close RADSCN; |
| 235 |
> |
# Prepare sender surfaces |
| 236 |
> |
if ( $tensortree != 3 ) { # Isotropic tensor tree is exception |
| 237 |
> |
open (RADSCN, "> $fsender"); |
| 238 |
> |
print RADSCN '#@rfluxmtx u=-Y ' . ($tensortree ? "h=-sc$ns\n\n" : "h=-kf\n\n"); |
| 239 |
> |
print RADSCN "void polygon fwd_sender\n0\n0\n12\n"; |
| 240 |
> |
printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[2], $dim[4]-$FEPS; |
| 241 |
> |
printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[3], $dim[4]-$FEPS; |
| 242 |
> |
printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[3], $dim[4]-$FEPS; |
| 243 |
> |
printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[2], $dim[4]-$FEPS; |
| 244 |
> |
close RADSCN; |
| 245 |
> |
open (RADSCN, "> $bsender"); |
| 246 |
> |
print RADSCN '#@rfluxmtx u=-Y ' . ($tensortree ? "h=+sc$ns\n\n" : "h=+kf\n\n"); |
| 247 |
> |
print RADSCN "void polygon bwd_sender\n0\n0\n12\n"; |
| 248 |
> |
printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[2], $dim[5]+$FEPS; |
| 249 |
> |
printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[2], $dim[5]+$FEPS; |
| 250 |
> |
printf RADSCN "\t%e\t%e\t%e\n", $dim[1], $dim[3], $dim[5]+$FEPS; |
| 251 |
> |
printf RADSCN "\t%e\t%e\t%e\n", $dim[0], $dim[3], $dim[5]+$FEPS; |
| 252 |
> |
close RADSCN; |
| 253 |
> |
} |
| 254 |
> |
print STDERR "Recover using: $0 -recover $td\n"; |
| 255 |
> |
} |
| 256 |
> |
$curphase = 0; |
| 257 |
|
# Create data segments (all the work happens here) |
| 258 |
|
if ( $tensortree ) { |
| 259 |
|
do_tree_bsdf(); |
| 260 |
|
} else { |
| 261 |
|
do_matrix_bsdf(); |
| 262 |
|
} |
| 263 |
< |
# Output XML epilogue |
| 264 |
< |
print |
| 265 |
< |
'</Layer> |
| 266 |
< |
</Optical> |
| 139 |
< |
</WindowElement> |
| 140 |
< |
'; |
| 263 |
> |
# Output XML |
| 264 |
> |
# print STDERR "Running: $wrapper\n"; |
| 265 |
> |
system "$wrapper -C \"Created by: genBSDF @savedARGV\""; |
| 266 |
> |
die "Could not wrap BSDF data\n" if ( $? ); |
| 267 |
|
# Clean up temporary files and exit |
| 268 |
< |
if ( $persistfile && open(PFI, "< $persistfile") ) { |
| 143 |
< |
while (<PFI>) { |
| 144 |
< |
s/^[^ ]* //; |
| 145 |
< |
kill('ALRM', $_); |
| 146 |
< |
last; |
| 147 |
< |
} |
| 148 |
< |
close PFI; |
| 149 |
< |
} |
| 150 |
< |
exec("rm -rf $td"); |
| 268 |
> |
exec $rmtmp; |
| 269 |
|
|
| 270 |
< |
#-------------- End of main program segment --------------# |
| 270 |
> |
#============== End of main program segment ==============# |
| 271 |
|
|
| 272 |
< |
#++++++++++++++ Tensor tree BSDF generation ++++++++++++++# |
| 273 |
< |
sub do_tree_bsdf { |
| 274 |
< |
# Get sampling rate and subdivide task |
| 275 |
< |
my $ns2 = $ns; |
| 276 |
< |
$ns2 /= 2 if ( $tensortree == 3 ); |
| 277 |
< |
@pdiv = (0, int($ns2/$nproc)); |
| 160 |
< |
my $nrem = $ns2 % $nproc; |
| 161 |
< |
for (my $i = 1; $i < $nproc; $i++) { |
| 162 |
< |
my $nv = $pdiv[$i] + $pdiv[1]; |
| 163 |
< |
++$nv if ( $nrem-- > 0 ); |
| 164 |
< |
push @pdiv, $nv; |
| 165 |
< |
} |
| 166 |
< |
die "Script error 1" if ($pdiv[-1] != $ns2); |
| 167 |
< |
# Shirley-Chiu mapping from unit square to disk |
| 168 |
< |
$sq2disk = ' |
| 169 |
< |
in_square_a = 2*in_square_x - 1; |
| 170 |
< |
in_square_b = 2*in_square_y - 1; |
| 171 |
< |
in_square_rgn = if(in_square_a + in_square_b, |
| 172 |
< |
if(in_square_a - in_square_b, 1, 2), |
| 173 |
< |
if(in_square_b - in_square_a, 3, 4)); |
| 174 |
< |
out_disk_r = .999995*select(in_square_rgn, in_square_a, in_square_b, |
| 175 |
< |
-in_square_a, -in_square_b); |
| 176 |
< |
out_disk_phi = PI/4 * select(in_square_rgn, |
| 177 |
< |
in_square_b/in_square_a, |
| 178 |
< |
2 - in_square_a/in_square_b, |
| 179 |
< |
4 + in_square_b/in_square_a, |
| 180 |
< |
if(in_square_b*in_square_b, |
| 181 |
< |
6 - in_square_a/in_square_b, 0)); |
| 182 |
< |
Dx = out_disk_r*cos(out_disk_phi); |
| 183 |
< |
Dy = out_disk_r*sin(out_disk_phi); |
| 184 |
< |
Dz = sqrt(1 - out_disk_r*out_disk_r); |
| 185 |
< |
'; |
| 186 |
< |
# Shirley-Chiu mapping from unit disk to square |
| 187 |
< |
$disk2sq = ' |
| 188 |
< |
norm_radians(p) : if(-p - PI/4, p + 2*PI, p); |
| 189 |
< |
in_disk_r = .999995*sqrt(Dx*Dx + Dy*Dy); |
| 190 |
< |
in_disk_phi = norm_radians(atan2(Dy, Dx)); |
| 191 |
< |
in_disk_rgn = floor((in_disk_phi + PI/4)/(PI/2)) + 1; |
| 192 |
< |
out_square_a = select(in_disk_rgn, |
| 193 |
< |
in_disk_r, |
| 194 |
< |
(PI/2 - in_disk_phi)*in_disk_r/(PI/4), |
| 195 |
< |
-in_disk_r, |
| 196 |
< |
(in_disk_phi - 3*PI/2)*in_disk_r/(PI/4)); |
| 197 |
< |
out_square_b = select(in_disk_rgn, |
| 198 |
< |
in_disk_phi*in_disk_r/(PI/4), |
| 199 |
< |
in_disk_r, |
| 200 |
< |
(PI - in_disk_phi)*in_disk_r/(PI/4), |
| 201 |
< |
-in_disk_r); |
| 202 |
< |
out_square_x = (out_square_a + 1)/2; |
| 203 |
< |
out_square_y = (out_square_b + 1)/2; |
| 204 |
< |
'; |
| 205 |
< |
# Announce ourselves in XML output |
| 206 |
< |
print "\t<DataDefinition>\n"; |
| 207 |
< |
print "\t\t<IncidentDataStructure>TensorTree$tensortree</IncidentDataStructure>\n"; |
| 208 |
< |
print "\t</DataDefinition>\n"; |
| 209 |
< |
# Fork parallel rtcontrib processes to compute each side |
| 210 |
< |
if ( $doback ) { |
| 211 |
< |
for (my $proc = 0; $proc < $nproc; $proc++) { |
| 212 |
< |
bg_tree_rtcontrib(0, $proc); |
| 272 |
> |
# Function to determine if next phase should be skipped or recovered |
| 273 |
> |
sub do_phase { |
| 274 |
> |
$curphase++; |
| 275 |
> |
if ( defined $recovery ) { |
| 276 |
> |
if ( $recovery > $curphase ) { return 0; } |
| 277 |
> |
if ( $recovery == $curphase ) { return -1; } |
| 278 |
|
} |
| 279 |
< |
while (wait() >= 0) { |
| 280 |
< |
die "rtcontrib process reported error" if ( $? ); |
| 281 |
< |
} |
| 282 |
< |
ttree_out(0); |
| 279 |
> |
open(MYPH, ">> $td/phase.txt"); |
| 280 |
> |
print MYPH "$curphase\n"; |
| 281 |
> |
close MYPH; |
| 282 |
> |
return 1; |
| 283 |
|
} |
| 284 |
< |
if ( $doforw ) { |
| 285 |
< |
for (my $proc = 0; $proc < $nproc; $proc++) { |
| 286 |
< |
bg_tree_rtcontrib(1, $proc); |
| 284 |
> |
|
| 285 |
> |
# Check if we are in active phase (not skipping parts) |
| 286 |
> |
sub active_phase { |
| 287 |
> |
if ( defined $recovery ) { |
| 288 |
> |
if ( $recovery > $curphase ) { return 0; } |
| 289 |
> |
if ( $recovery == $curphase ) { return -1; } |
| 290 |
|
} |
| 291 |
< |
while (wait() >= 0) { |
| 224 |
< |
die "rtcontrib process reported error" if ( $? ); |
| 225 |
< |
} |
| 226 |
< |
ttree_out(1); |
| 291 |
> |
return 1; |
| 292 |
|
} |
| 293 |
+ |
|
| 294 |
+ |
# Function to run program and check output if in active phase |
| 295 |
+ |
sub run_check { |
| 296 |
+ |
if ( !active_phase() ) { return; } |
| 297 |
+ |
my $cmd = shift; |
| 298 |
+ |
# print STDERR "Running: $cmd\n"; |
| 299 |
+ |
system $cmd; |
| 300 |
+ |
die "Failure running: $cmd\n" if ( $? ); |
| 301 |
+ |
} |
| 302 |
+ |
|
| 303 |
+ |
#++++++++++++++ Tensor tree BSDF generation ++++++++++++++# |
| 304 |
+ |
sub do_tree_bsdf { |
| 305 |
+ |
|
| 306 |
+ |
# Run rfluxmtx processes to compute each side |
| 307 |
+ |
do_ttree_dir(0) if ( $doback ); |
| 308 |
+ |
do_ttree_dir(1) if ( $doforw ); |
| 309 |
+ |
|
| 310 |
|
} # end of sub do_tree_bsdf() |
| 311 |
|
|
| 312 |
< |
# Run i'th rtcontrib process for generating tensor tree samples |
| 313 |
< |
sub bg_tree_rtcontrib { |
| 232 |
< |
my $pid = fork(); |
| 233 |
< |
die "Cannot fork new process" unless defined $pid; |
| 234 |
< |
if ($pid > 0) { return $pid; } |
| 312 |
> |
# Call rfluxmtx and process tensor tree BSDF for the given direction |
| 313 |
> |
sub do_ttree_dir { |
| 314 |
|
my $forw = shift; |
| 315 |
< |
my $pn = shift; |
| 316 |
< |
my $pbeg = $pdiv[$pn]; |
| 317 |
< |
my $plen = $pdiv[$pn+1] - $pbeg; |
| 239 |
< |
my $matargs = "-m $bmodnm"; |
| 240 |
< |
if ( !$forw || !$doback ) { $matargs .= " -m $fmodnm"; } |
| 241 |
< |
my $cmd = "rtcontrib $rtargs -h -ff -fo -c $nsamp " . |
| 242 |
< |
"-e '$disk2sq' -bn '$ns*$ns' " . |
| 243 |
< |
"-b '$ns*floor(out_square_x*$ns)+floor(out_square_y*$ns)' " . |
| 244 |
< |
"-o $td/%s_" . sprintf("%03d", $pn) . ".flt $matargs $octree"; |
| 315 |
> |
my $dop = do_phase(); |
| 316 |
> |
my $r = ($dop < 0) ? " -r" : ""; |
| 317 |
> |
my $cmd; |
| 318 |
|
if ( $tensortree == 3 ) { |
| 319 |
|
# Isotropic BSDF |
| 320 |
< |
$cmd = "cnt $plen $ny $nx " . |
| 321 |
< |
"| rcalc -e 'r1=rand(($pn+.8681)*recno-.673892)' " . |
| 322 |
< |
"-e 'r2=rand(($pn-5.37138)*recno+67.1737811)' " . |
| 323 |
< |
"-e 'r3=rand(($pn+3.17603772)*recno+83.766771)' " . |
| 324 |
< |
"-e 'Dx=1-2*($pbeg+\$1+r1)/$ns;Dy:0;Dz=sqrt(1-Dx*Dx)' " . |
| 325 |
< |
"-e 'xp=(\$3+r2)*(($dim[1]-$dim[0])/$nx)+$dim[0]' " . |
| 326 |
< |
"-e 'yp=(\$2+r3)*(($dim[3]-$dim[2])/$ny)+$dim[2]' " . |
| 327 |
< |
"-e 'zp=$dim[5-$forw]' -e 'myDz=Dz*($forw*2-1)' " . |
| 328 |
< |
"-e '\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz' " . |
| 329 |
< |
"-e '\$4=Dx;\$5=Dy;\$6=myDz' -of " . |
| 330 |
< |
"| $cmd"; |
| 320 |
> |
my $ns2 = $ns / 2; |
| 321 |
> |
if ($windoz) { |
| 322 |
> |
$cmd = "cnt $ns2 $ny $nx " . |
| 323 |
> |
qq{| rcalc -e "r1=rand(.8681*recno-.673892)" } . |
| 324 |
> |
qq{-e "r2=rand(-5.37138*recno+67.1737811)" } . |
| 325 |
> |
qq{-e "r3=rand(+3.17603772*recno+83.766771)" } . |
| 326 |
> |
qq{-e "r4=rand(-1.5839226*recno-59.82712)" } . |
| 327 |
> |
qq{-e "odds(n):if(.5*n-floor(.5*n)-.25,-1,1)"} . |
| 328 |
> |
qq{-e "Dx=1-(\$1+r1)/$ns2" } . |
| 329 |
> |
qq{-e "Dy=min(1/$ns,sqrt(1-Dx*Dx))*odds(\$1)*r2" } . |
| 330 |
> |
qq{-e "Dz=sqrt(1-Dx*Dx-Dy*Dy)" } . |
| 331 |
> |
qq{-e "xp=(\$3+r2)*(($dim[1]-$dim[0])/$nx)+$dim[0]" } . |
| 332 |
> |
qq{-e "yp=(\$2+r3)*(($dim[3]-$dim[2])/$ny)+$dim[2]" } . |
| 333 |
> |
qq{-e "zp=$dim[5-$forw]" -e "myDz=Dz*($forw*2-1)" } . |
| 334 |
> |
qq{-e "\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz" } . |
| 335 |
> |
qq{-e "\$4=Dx;\$5=Dy;\$6=myDz" } . |
| 336 |
> |
"| $rfluxmtx$r -fa -y $ns2 - $receivers -i $octree"; |
| 337 |
> |
} else { |
| 338 |
> |
$cmd = "cnt $ns2 $ny $nx " . |
| 339 |
> |
qq{| rcalc -e 'r1=rand(.8681*recno-.673892)' } . |
| 340 |
> |
qq{-e 'r2=rand(-5.37138*recno+67.1737811)' } . |
| 341 |
> |
qq{-e 'r3=rand(+3.17603772*recno+83.766771)' } . |
| 342 |
> |
qq{-e 'r4=rand(-1.5839226*recno-59.82712)' } . |
| 343 |
> |
qq{-e 'odds(n):if(.5*n-floor(.5*n)-.25,-1,1)' } . |
| 344 |
> |
qq{-e 'Dx=1-(\$1+r1)/$ns2' } . |
| 345 |
> |
qq{-e 'Dy=min(1/$ns,sqrt(1-Dx*Dx))*odds(\$1)*r2' } . |
| 346 |
> |
qq{-e 'Dz=sqrt(1-Dx*Dx-Dy*Dy)' } . |
| 347 |
> |
qq{-e 'xp=(\$3+r3)*(($dim[1]-$dim[0])/$nx)+$dim[0]' } . |
| 348 |
> |
qq{-e 'yp=(\$2+r4)*(($dim[3]-$dim[2])/$ny)+$dim[2]' } . |
| 349 |
> |
qq{-e 'zp=$dim[5-$forw]' -e 'myDz=Dz*($forw*2-1)' } . |
| 350 |
> |
qq{-e '\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz' } . |
| 351 |
> |
qq{-e '\$4=Dx;\$5=Dy;\$6=myDz' -of } . |
| 352 |
> |
"| $rfluxmtx$r -h -ff -y $ns2 - $receivers -i $octree"; |
| 353 |
> |
} |
| 354 |
|
} else { |
| 355 |
|
# Anisotropic BSDF |
| 356 |
< |
# Sample area vertically to improve load balance, since |
| 357 |
< |
# shading systems usually have bilateral symmetry (L-R) |
| 358 |
< |
$cmd = "cnt $plen $ns $ny $nx " . |
| 359 |
< |
"| rcalc -e 'r1=rand(($pn+.8681)*recno-.673892)' " . |
| 360 |
< |
"-e 'r2=rand(($pn-5.37138)*recno+67.1737811)' " . |
| 361 |
< |
"-e 'r3=rand(($pn+3.17603772)*recno+83.766771)' " . |
| 266 |
< |
"-e 'r4=rand(($pn-2.3857833)*recno-964.72738)' " . |
| 267 |
< |
"-e 'in_square_x=($pbeg+\$1+r1)/$ns' " . |
| 268 |
< |
"-e 'in_square_y=(\$2+r2)/$ns' -e '$sq2disk' " . |
| 269 |
< |
"-e 'xp=(\$4+r3)*(($dim[1]-$dim[0])/$nx)+$dim[0]' " . |
| 270 |
< |
"-e 'yp=(\$3+r4)*(($dim[3]-$dim[2])/$ny)+$dim[2]' " . |
| 271 |
< |
"-e 'zp=$dim[5-$forw]' -e 'myDz=Dz*($forw*2-1)' " . |
| 272 |
< |
"-e '\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz' " . |
| 273 |
< |
"-e '\$4=Dx;\$5=Dy;\$6=myDz' -of " . |
| 274 |
< |
"| $cmd"; |
| 356 |
> |
my $sender = ($bsender,$fsender)[$forw]; |
| 357 |
> |
if ($windoz) { |
| 358 |
> |
$cmd = "$rfluxmtx$r -fa $sender $receivers -i $octree"; |
| 359 |
> |
} else { |
| 360 |
> |
$cmd = "$rfluxmtx$r -h -ff $sender $receivers -i $octree"; |
| 361 |
> |
} |
| 362 |
|
} |
| 363 |
< |
# print STDERR "Starting: $cmd\n"; |
| 364 |
< |
exec($cmd); # no return; status report to parent via wait |
| 365 |
< |
die "Cannot exec: $cmd\n"; |
| 366 |
< |
} # end of bg_tree_rtcontrib() |
| 363 |
> |
if ( $dop ) { |
| 364 |
> |
# print STDERR "Running: $cmd\n"; |
| 365 |
> |
system $cmd; |
| 366 |
> |
die "Failure running rfluxmtx" if ( $? ); |
| 367 |
> |
} |
| 368 |
> |
ttree_out($forw); |
| 369 |
> |
} # end of do_ttree_dir() |
| 370 |
|
|
| 371 |
< |
# Simplify and output tensor tree results |
| 371 |
> |
# Simplify and store tensor tree results |
| 372 |
|
sub ttree_out { |
| 373 |
|
my $forw = shift; |
| 374 |
< |
my $side = ("Back","Front")[$forw]; |
| 375 |
< |
# Only output one transmitted distribution, preferring backwards |
| 376 |
< |
if ( !$forw || !$doback ) { |
| 377 |
< |
print |
| 378 |
< |
' <WavelengthData> |
| 379 |
< |
<LayerNumber>System</LayerNumber> |
| 380 |
< |
<Wavelength unit="Integral">Visible</Wavelength> |
| 381 |
< |
<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum> |
| 382 |
< |
<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum> |
| 383 |
< |
<WavelengthDataBlock> |
| 384 |
< |
<WavelengthDataDirection>Transmission</WavelengthDataDirection> |
| 385 |
< |
<AngleBasis>LBNL/Shirley-Chiu</AngleBasis> |
| 386 |
< |
<ScatteringDataType>BTDF</ScatteringDataType> |
| 387 |
< |
<ScatteringData> |
| 388 |
< |
'; |
| 389 |
< |
system "rcalc -if3 -e 'Omega:PI/($ns*$ns)' " . |
| 390 |
< |
q{-e '$1=(0.265*$1+0.670*$2+0.065*$3)/Omega' -of } . |
| 391 |
< |
"$td/" . ($bmodnm,$fmodnm)[$forw] . "_???.flt " . |
| 392 |
< |
"| rttree_reduce -h -ff -r $tensortree -g $ttlog2"; |
| 393 |
< |
die "Failure running rttree_reduce" if ( $? ); |
| 394 |
< |
print |
| 395 |
< |
' </ScatteringData> |
| 396 |
< |
</WavelengthDataBlock> |
| 397 |
< |
</WavelengthData> |
| 308 |
< |
'; |
| 309 |
< |
} |
| 310 |
< |
# Output reflection |
| 311 |
< |
print |
| 312 |
< |
' <WavelengthData> |
| 313 |
< |
<LayerNumber>System</LayerNumber> |
| 314 |
< |
<Wavelength unit="Integral">Visible</Wavelength> |
| 315 |
< |
<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum> |
| 316 |
< |
<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum> |
| 317 |
< |
<WavelengthDataBlock> |
| 318 |
< |
'; |
| 319 |
< |
print "\t\t\t<WavelengthDataDirection>Reflection $side</WavelengthDataDirection>\n"; |
| 320 |
< |
print ' |
| 321 |
< |
<AngleBasis>LBNL/Shirley-Chiu</AngleBasis> |
| 322 |
< |
<ScatteringDataType>BRDF</ScatteringDataType> |
| 323 |
< |
<ScatteringData> |
| 324 |
< |
'; |
| 325 |
< |
system "rcalc -if3 -e 'Omega:PI/($ns*$ns)' " . |
| 326 |
< |
q{-e '$1=(0.265*$1+0.670*$2+0.065*$3)/Omega' -of } . |
| 327 |
< |
"$td/" . ($fmodnm,$bmodnm)[$forw] . "_???.flt " . |
| 328 |
< |
"| rttree_reduce -h -ff -r $tensortree -g $ttlog2"; |
| 329 |
< |
die "Failure running rttree_reduce" if ( $? ); |
| 330 |
< |
print |
| 331 |
< |
' </ScatteringData> |
| 332 |
< |
</WavelengthDataBlock> |
| 333 |
< |
</WavelengthData> |
| 334 |
< |
'; |
| 374 |
> |
my ($refldat,$transdat); |
| 375 |
> |
if ( $forw ) { |
| 376 |
> |
$transdat = $facedat; |
| 377 |
> |
$refldat = $behinddat; |
| 378 |
> |
} else { |
| 379 |
> |
$transdat = $behinddat; |
| 380 |
> |
$refldat = $facedat; |
| 381 |
> |
} |
| 382 |
> |
# Only output one transmitted anisotropic distribution, preferring backwards |
| 383 |
> |
if ( !$forw || !$doback || $tensortree==3 ) { |
| 384 |
> |
my $ttyp = ("tb","tf")[$forw]; |
| 385 |
> |
ttree_comp($ttyp, "Visible", $transdat, ($tb,$tf)[$forw]); |
| 386 |
> |
if ( $docolor ) { |
| 387 |
> |
ttree_comp($ttyp, "CIE-u", $transdat, ($tbx,$tfx)[$forw]); |
| 388 |
> |
ttree_comp($ttyp, "CIE-v", $transdat, ($tbz,$tfz)[$forw]); |
| 389 |
> |
} |
| 390 |
> |
} |
| 391 |
> |
# Output reflection |
| 392 |
> |
my $rtyp = ("rb","rf")[$forw]; |
| 393 |
> |
ttree_comp($rtyp, "Visible", $refldat, ($rb,$rf)[$forw]); |
| 394 |
> |
if ( $docolor ) { |
| 395 |
> |
ttree_comp($rtyp, "CIE-u", $refldat, ($rbx,$rfx)[$forw]); |
| 396 |
> |
ttree_comp($rtyp, "CIE-v", $refldat, ($rbz,$rfz)[$forw]); |
| 397 |
> |
} |
| 398 |
|
} # end of ttree_out() |
| 399 |
|
|
| 400 |
+ |
# Call rttree_reduce on the given component |
| 401 |
+ |
sub ttree_comp { |
| 402 |
+ |
my $typ = shift; |
| 403 |
+ |
my $spec = shift; |
| 404 |
+ |
my $src = shift; |
| 405 |
+ |
my $dest = shift; |
| 406 |
+ |
my $cmd; |
| 407 |
+ |
if ($windoz) { |
| 408 |
+ |
if ("$spec" eq "Visible") { |
| 409 |
+ |
$cmd = qq{rcalc -e "Omega:PI/($ns*$ns)" } . |
| 410 |
+ |
q{-e "Ri=$1;Gi=$2;Bi=$3" } . |
| 411 |
+ |
qq{-e "$CIEuv" } . |
| 412 |
+ |
q{-e "$1=Yi/Omega"}; |
| 413 |
+ |
} elsif ("$spec" eq "CIE-u") { |
| 414 |
+ |
$cmd = q{rcalc -e "Ri=$1;Gi=$2;Bi=$3" } . |
| 415 |
+ |
qq{-e "$CIEuv" } . |
| 416 |
+ |
q{-e "$1=uprime"}; |
| 417 |
+ |
} elsif ("$spec" eq "CIE-v") { |
| 418 |
+ |
$cmd = q{rcalc -e "Ri=$1;Gi=$2;Bi=$3" } . |
| 419 |
+ |
qq{-e "$CIEuv" } . |
| 420 |
+ |
q{-e "$1=vprime"}; |
| 421 |
+ |
} |
| 422 |
+ |
} else { |
| 423 |
+ |
if ("$spec" eq "Visible") { |
| 424 |
+ |
$cmd = "rcalc -if3 -e 'Omega:PI/($ns*$ns)' " . |
| 425 |
+ |
q{-e 'Ri=$1;Gi=$2;Bi=$3' } . |
| 426 |
+ |
"-e '$CIEuv' " . |
| 427 |
+ |
q{-e '$1=Yi/Omega'}; |
| 428 |
+ |
} elsif ("$spec" eq "CIE-u") { |
| 429 |
+ |
$cmd = q{rcalc -if3 -e 'Ri=$1;Gi=$2;Bi=$3' } . |
| 430 |
+ |
"-e '$CIEuv' " . |
| 431 |
+ |
q{-e '$1=uprime'}; |
| 432 |
+ |
} elsif ("$spec" eq "CIE-v") { |
| 433 |
+ |
$cmd = q{rcalc -if3 -e 'Ri=$1;Gi=$2;Bi=$3' } . |
| 434 |
+ |
"-e '$CIEuv' " . |
| 435 |
+ |
q{-e '$1=vprime'}; |
| 436 |
+ |
} |
| 437 |
+ |
} |
| 438 |
+ |
if ($pctcull >= 0) { |
| 439 |
+ |
my $avg = ( $dorecip && "$typ" =~ /^r[fb]/ ) ? " -a" : ""; |
| 440 |
+ |
my $pcull = ("$spec" eq "Visible") ? $pctcull : |
| 441 |
+ |
(100 - (100-$pctcull)*.25) ; |
| 442 |
+ |
if ($windoz) { |
| 443 |
+ |
$cmd = "rcollate -ho -oc 1 $src | " . |
| 444 |
+ |
$cmd . |
| 445 |
+ |
" | rttree_reduce$avg -h -fa -t $pcull -r $tensortree -g $ttlog2"; |
| 446 |
+ |
} else { |
| 447 |
+ |
$cmd .= " -of $src " . |
| 448 |
+ |
"| rttree_reduce$avg -h -ff -t $pcull -r $tensortree -g $ttlog2"; |
| 449 |
+ |
} |
| 450 |
+ |
run_check "$cmd > $dest"; |
| 451 |
+ |
} else { |
| 452 |
+ |
if ($windoz) { |
| 453 |
+ |
$cmd = "rcollate -ho -oc 1 $src | " . $cmd ; |
| 454 |
+ |
} else { |
| 455 |
+ |
$cmd .= " $src"; |
| 456 |
+ |
} |
| 457 |
+ |
if ( active_phase() ) { |
| 458 |
+ |
open(DATOUT, "> $dest"); |
| 459 |
+ |
print DATOUT "{\n"; |
| 460 |
+ |
close DATOUT; |
| 461 |
+ |
# print STDERR "Running: $cmd\n"; |
| 462 |
+ |
system "$cmd >> $dest"; |
| 463 |
+ |
die "Failure running rcalc" if ( $? ); |
| 464 |
+ |
open(DATOUT, ">> $dest"); |
| 465 |
+ |
for (my $i = ($tensortree==3)*$ns*$ns*$ns/2; $i-- > 0; ) { |
| 466 |
+ |
print DATOUT "0\n"; |
| 467 |
+ |
} |
| 468 |
+ |
print DATOUT "}\n"; |
| 469 |
+ |
close DATOUT; |
| 470 |
+ |
} |
| 471 |
+ |
} |
| 472 |
+ |
if ( "$spec" ne "$curspec" ) { |
| 473 |
+ |
$wrapper .= " -s $spec"; |
| 474 |
+ |
$curspec = $spec; |
| 475 |
+ |
} |
| 476 |
+ |
$wrapper .= " -$typ $dest"; |
| 477 |
+ |
} # end of ttree_comp() |
| 478 |
+ |
|
| 479 |
|
#------------- End of do_tree_bsdf() & subroutines -------------# |
| 480 |
|
|
| 481 |
|
#+++++++++++++++ Klems matrix BSDF generation +++++++++++++++# |
| 482 |
|
sub do_matrix_bsdf { |
| 483 |
< |
# Set up sampling of portal |
| 484 |
< |
# Kbin to produce incident direction in full Klems basis with (x1,x2) randoms |
| 485 |
< |
$tcal = ' |
| 486 |
< |
DEGREE : PI/180; |
| 487 |
< |
sq(x) : x*x; |
| 488 |
< |
Kpola(r) : select(r+1, -5, 5, 15, 25, 35, 45, 55, 65, 75, 90); |
| 489 |
< |
Knaz(r) : select(r, 1, 8, 16, 20, 24, 24, 24, 16, 12); |
| 490 |
< |
Kaccum(r) : if(r-.5, Knaz(r) + Kaccum(r-1), 0); |
| 491 |
< |
Kmax : Kaccum(Knaz(0)); |
| 492 |
< |
Kfindrow(r, rem) : if(rem-Knaz(r)+.5, Kfindrow(r+1, rem-Knaz(r)), r); |
| 493 |
< |
Krow = if(Kbin-(Kmax-.5), 0, Kfindrow(1, Kbin)); |
| 494 |
< |
Kcol = Kbin - Kaccum(Krow-1); |
| 495 |
< |
Kazi = 360*DEGREE * (Kcol + (.5 - x2)) / Knaz(Krow); |
| 496 |
< |
Kpol = DEGREE * (x1*Kpola(Krow) + (1-x1)*Kpola(Krow-1)); |
| 497 |
< |
sin_kpol = sin(Kpol); |
| 498 |
< |
Dx = cos(Kazi)*sin_kpol; |
| 499 |
< |
Dy = sin(Kazi)*sin_kpol; |
| 500 |
< |
Dz = sqrt(1 - sin_kpol*sin_kpol); |
| 359 |
< |
KprojOmega = PI * if(Kbin-.5, |
| 360 |
< |
(sq(cos(Kpola(Krow-1)*DEGREE)) - sq(cos(Kpola(Krow)*DEGREE)))/Knaz(Krow), |
| 361 |
< |
1 - sq(cos(Kpola(1)*DEGREE))); |
| 362 |
< |
'; |
| 363 |
< |
# Compute Klems bin from exiting ray direction (forward or backward) |
| 364 |
< |
$kcal = ' |
| 365 |
< |
DEGREE : PI/180; |
| 366 |
< |
abs(x) : if(x, x, -x); |
| 367 |
< |
Acos(x) : 1/DEGREE * if(x-1, 0, if(-1-x, 0, acos(x))); |
| 368 |
< |
posangle(a) : if(-a, a + 2*PI, a); |
| 369 |
< |
Atan2(y,x) : 1/DEGREE * posangle(atan2(y,x)); |
| 370 |
< |
kpola(r) : select(r, 5, 15, 25, 35, 45, 55, 65, 75, 90); |
| 371 |
< |
knaz(r) : select(r, 1, 8, 16, 20, 24, 24, 24, 16, 12); |
| 372 |
< |
kaccum(r) : if(r-.5, knaz(r) + kaccum(r-1), 0); |
| 373 |
< |
kfindrow(r, pol) : if(r-kpola(0)+.5, r, |
| 374 |
< |
if(pol-kpola(r), kfindrow(r+1, pol), r) ); |
| 375 |
< |
kazn(azi,inc) : if((360-.5*inc)-azi, floor((azi+.5*inc)/inc), 0); |
| 376 |
< |
kbin2(pol,azi) = select(kfindrow(1, pol), |
| 377 |
< |
kazn(azi,360/knaz(1)), |
| 378 |
< |
kaccum(1) + kazn(azi,360/knaz(2)), |
| 379 |
< |
kaccum(2) + kazn(azi,360/knaz(3)), |
| 380 |
< |
kaccum(3) + kazn(azi,360/knaz(4)), |
| 381 |
< |
kaccum(4) + kazn(azi,360/knaz(5)), |
| 382 |
< |
kaccum(5) + kazn(azi,360/knaz(6)), |
| 383 |
< |
kaccum(6) + kazn(azi,360/knaz(7)), |
| 384 |
< |
kaccum(7) + kazn(azi,360/knaz(8)), |
| 385 |
< |
kaccum(8) + kazn(azi,360/knaz(9)) |
| 386 |
< |
); |
| 387 |
< |
kbin = kbin2(Acos(abs(Dz)),Atan2(Dy,Dx)); |
| 388 |
< |
'; |
| 389 |
< |
my $ndiv = 145; |
| 390 |
< |
# Compute scattering data using rtcontrib |
| 391 |
< |
my @tfarr; |
| 392 |
< |
my @rfarr; |
| 393 |
< |
my @tbarr; |
| 394 |
< |
my @rbarr; |
| 395 |
< |
my $cmd; |
| 396 |
< |
my $rtcmd = "rtcontrib $rtargs -h -ff -fo -n $nproc -c $nsamp " . |
| 397 |
< |
"-e '$kcal' -b kbin -bn $ndiv " . |
| 398 |
< |
"-o '$td/%s.flt' -m $fmodnm -m $bmodnm $octree"; |
| 399 |
< |
my $rccmd = "rcalc -e '$tcal' " . |
| 400 |
< |
"-e 'mod(n,d):n-floor(n/d)*d' -e 'Kbin=mod(recno-.999,$ndiv)' " . |
| 401 |
< |
q{-if3 -e '$1=(0.265*$1+0.670*$2+0.065*$3)/KprojOmega'}; |
| 402 |
< |
if ( $doforw ) { |
| 403 |
< |
$cmd = "cnt $ndiv $ny $nx | rcalc -of -e '$tcal' " . |
| 404 |
< |
"-e 'xp=(\$3+rand(.12*recno+288))*(($dim[1]-$dim[0])/$nx)+$dim[0]' " . |
| 405 |
< |
"-e 'yp=(\$2+rand(.37*recno-44))*(($dim[3]-$dim[2])/$ny)+$dim[2]' " . |
| 406 |
< |
"-e 'zp:$dim[4]' " . |
| 407 |
< |
q{-e 'Kbin=$1;x1=rand(2.75*recno+3.1);x2=rand(-2.01*recno-3.37)' } . |
| 408 |
< |
q{-e '$1=xp-Dx;$2=yp-Dy;$3=zp-Dz;$4=Dx;$5=Dy;$6=Dz' } . |
| 409 |
< |
"| $rtcmd"; |
| 410 |
< |
system "$cmd" || die "Failure running: $cmd\n"; |
| 411 |
< |
@tfarr = `$rccmd $td/$fmodnm.flt`; |
| 412 |
< |
die "Failure running: $rccmd $td/$fmodnm.flt\n" if ( $? ); |
| 413 |
< |
@rfarr = `$rccmd $td/$bmodnm.flt`; |
| 414 |
< |
die "Failure running: $rccmd $td/$bmodnm.flt\n" if ( $? ); |
| 415 |
< |
} |
| 416 |
< |
if ( $doback ) { |
| 417 |
< |
$cmd = "cnt $ndiv $ny $nx | rcalc -of -e '$tcal' " . |
| 418 |
< |
"-e 'xp=(\$3+rand(.35*recno-15))*(($dim[1]-$dim[0])/$nx)+$dim[0]' " . |
| 419 |
< |
"-e 'yp=(\$2+rand(.86*recno+11))*(($dim[3]-$dim[2])/$ny)+$dim[2]' " . |
| 420 |
< |
"-e 'zp:$dim[5]' " . |
| 421 |
< |
q{-e 'Kbin=$1;x1=rand(1.21*recno+2.75);x2=rand(-3.55*recno-7.57)' } . |
| 422 |
< |
q{-e '$1=xp-Dx;$2=yp-Dy;$3=zp+Dz;$4=Dx;$5=Dy;$6=-Dz' } . |
| 423 |
< |
"| $rtcmd"; |
| 424 |
< |
system "$cmd" || die "Failure running: $cmd\n"; |
| 425 |
< |
@tbarr = `$rccmd $td/$bmodnm.flt`; |
| 426 |
< |
die "Failure running: $rccmd $td/$bmodnm.flt\n" if ( $? ); |
| 427 |
< |
@rbarr = `$rccmd $td/$fmodnm.flt`; |
| 428 |
< |
die "Failure running: $rccmd $td/$fmodnm.flt\n" if ( $? ); |
| 429 |
< |
} |
| 430 |
< |
# Output angle basis |
| 431 |
< |
print |
| 432 |
< |
' <DataDefinition> |
| 433 |
< |
<IncidentDataStructure>Columns</IncidentDataStructure> |
| 434 |
< |
<AngleBasis> |
| 435 |
< |
<AngleBasisName>LBNL/Klems Full</AngleBasisName> |
| 436 |
< |
<AngleBasisBlock> |
| 437 |
< |
<Theta>0</Theta> |
| 438 |
< |
<nPhis>1</nPhis> |
| 439 |
< |
<ThetaBounds> |
| 440 |
< |
<LowerTheta>0</LowerTheta> |
| 441 |
< |
<UpperTheta>5</UpperTheta> |
| 442 |
< |
</ThetaBounds> |
| 443 |
< |
</AngleBasisBlock> |
| 444 |
< |
<AngleBasisBlock> |
| 445 |
< |
<Theta>10</Theta> |
| 446 |
< |
<nPhis>8</nPhis> |
| 447 |
< |
<ThetaBounds> |
| 448 |
< |
<LowerTheta>5</LowerTheta> |
| 449 |
< |
<UpperTheta>15</UpperTheta> |
| 450 |
< |
</ThetaBounds> |
| 451 |
< |
</AngleBasisBlock> |
| 452 |
< |
<AngleBasisBlock> |
| 453 |
< |
<Theta>20</Theta> |
| 454 |
< |
<nPhis>16</nPhis> |
| 455 |
< |
<ThetaBounds> |
| 456 |
< |
<LowerTheta>15</LowerTheta> |
| 457 |
< |
<UpperTheta>25</UpperTheta> |
| 458 |
< |
</ThetaBounds> |
| 459 |
< |
</AngleBasisBlock> |
| 460 |
< |
<AngleBasisBlock> |
| 461 |
< |
<Theta>30</Theta> |
| 462 |
< |
<nPhis>20</nPhis> |
| 463 |
< |
<ThetaBounds> |
| 464 |
< |
<LowerTheta>25</LowerTheta> |
| 465 |
< |
<UpperTheta>35</UpperTheta> |
| 466 |
< |
</ThetaBounds> |
| 467 |
< |
</AngleBasisBlock> |
| 468 |
< |
<AngleBasisBlock> |
| 469 |
< |
<Theta>40</Theta> |
| 470 |
< |
<nPhis>24</nPhis> |
| 471 |
< |
<ThetaBounds> |
| 472 |
< |
<LowerTheta>35</LowerTheta> |
| 473 |
< |
<UpperTheta>45</UpperTheta> |
| 474 |
< |
</ThetaBounds> |
| 475 |
< |
</AngleBasisBlock> |
| 476 |
< |
<AngleBasisBlock> |
| 477 |
< |
<Theta>50</Theta> |
| 478 |
< |
<nPhis>24</nPhis> |
| 479 |
< |
<ThetaBounds> |
| 480 |
< |
<LowerTheta>45</LowerTheta> |
| 481 |
< |
<UpperTheta>55</UpperTheta> |
| 482 |
< |
</ThetaBounds> |
| 483 |
< |
</AngleBasisBlock> |
| 484 |
< |
<AngleBasisBlock> |
| 485 |
< |
<Theta>60</Theta> |
| 486 |
< |
<nPhis>24</nPhis> |
| 487 |
< |
<ThetaBounds> |
| 488 |
< |
<LowerTheta>55</LowerTheta> |
| 489 |
< |
<UpperTheta>65</UpperTheta> |
| 490 |
< |
</ThetaBounds> |
| 491 |
< |
</AngleBasisBlock> |
| 492 |
< |
<AngleBasisBlock> |
| 493 |
< |
<Theta>70</Theta> |
| 494 |
< |
<nPhis>16</nPhis> |
| 495 |
< |
<ThetaBounds> |
| 496 |
< |
<LowerTheta>65</LowerTheta> |
| 497 |
< |
<UpperTheta>75</UpperTheta> |
| 498 |
< |
</ThetaBounds> |
| 499 |
< |
</AngleBasisBlock> |
| 500 |
< |
<AngleBasisBlock> |
| 501 |
< |
<Theta>82.5</Theta> |
| 502 |
< |
<nPhis>12</nPhis> |
| 503 |
< |
<ThetaBounds> |
| 504 |
< |
<LowerTheta>75</LowerTheta> |
| 505 |
< |
<UpperTheta>90</UpperTheta> |
| 506 |
< |
</ThetaBounds> |
| 507 |
< |
</AngleBasisBlock> |
| 508 |
< |
</AngleBasis> |
| 509 |
< |
</DataDefinition> |
| 510 |
< |
'; |
| 511 |
< |
if ( $doforw ) { |
| 512 |
< |
print |
| 513 |
< |
' <WavelengthData> |
| 514 |
< |
<LayerNumber>System</LayerNumber> |
| 515 |
< |
<Wavelength unit="Integral">Visible</Wavelength> |
| 516 |
< |
<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum> |
| 517 |
< |
<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum> |
| 518 |
< |
<WavelengthDataBlock> |
| 519 |
< |
<WavelengthDataDirection>Transmission Front</WavelengthDataDirection> |
| 520 |
< |
<ColumnAngleBasis>LBNL/Klems Full</ColumnAngleBasis> |
| 521 |
< |
<RowAngleBasis>LBNL/Klems Full</RowAngleBasis> |
| 522 |
< |
<ScatteringDataType>BTDF</ScatteringDataType> |
| 523 |
< |
<ScatteringData> |
| 524 |
< |
'; |
| 525 |
< |
# Output front transmission (transposed order) |
| 526 |
< |
for (my $od = 0; $od < $ndiv; $od++) { |
| 527 |
< |
for (my $id = 0; $id < $ndiv; $id++) { |
| 528 |
< |
print $tfarr[$ndiv*$id + $od]; |
| 483 |
> |
|
| 484 |
> |
# Run rfluxmtx processes to compute each side |
| 485 |
> |
do_matrix_dir(0) if ( $doback ); |
| 486 |
> |
do_matrix_dir(1) if ( $doforw ); |
| 487 |
> |
|
| 488 |
> |
} # end of sub do_matrix_bsdf() |
| 489 |
> |
|
| 490 |
> |
# Call rfluxmtx and process tensor tree BSDF for the given direction |
| 491 |
> |
sub do_matrix_dir { |
| 492 |
> |
my $forw = shift; |
| 493 |
> |
my $dop = do_phase(); |
| 494 |
> |
my $r = ($dop < 0) ? " -r" : ""; |
| 495 |
> |
my $sender = ($bsender,$fsender)[$forw]; |
| 496 |
> |
my $cmd = "$rfluxmtx$r -fd $sender $receivers -i $octree"; |
| 497 |
> |
if ( $dop ) { |
| 498 |
> |
# print STDERR "Running: $cmd\n"; |
| 499 |
> |
system $cmd; |
| 500 |
> |
die "Failure running rfluxmtx" if ( $? ); |
| 501 |
|
} |
| 502 |
< |
print "\n"; |
| 503 |
< |
} |
| 504 |
< |
print |
| 505 |
< |
' </ScatteringData> |
| 506 |
< |
</WavelengthDataBlock> |
| 507 |
< |
</WavelengthData> |
| 508 |
< |
<WavelengthData> |
| 509 |
< |
<LayerNumber>System</LayerNumber> |
| 510 |
< |
<Wavelength unit="Integral">Visible</Wavelength> |
| 511 |
< |
<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum> |
| 512 |
< |
<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum> |
| 513 |
< |
<WavelengthDataBlock> |
| 542 |
< |
<WavelengthDataDirection>Reflection Front</WavelengthDataDirection> |
| 543 |
< |
<ColumnAngleBasis>LBNL/Klems Full</ColumnAngleBasis> |
| 544 |
< |
<RowAngleBasis>LBNL/Klems Full</RowAngleBasis> |
| 545 |
< |
<ScatteringDataType>BRDF</ScatteringDataType> |
| 546 |
< |
<ScatteringData> |
| 547 |
< |
'; |
| 548 |
< |
# Output front reflection (transposed order) |
| 549 |
< |
for (my $od = 0; $od < $ndiv; $od++) { |
| 550 |
< |
for (my $id = 0; $id < $ndiv; $id++) { |
| 551 |
< |
print $rfarr[$ndiv*$id + $od]; |
| 502 |
> |
matrix_out($forw); |
| 503 |
> |
} # end of do_matrix_dir() |
| 504 |
> |
|
| 505 |
> |
sub matrix_out { |
| 506 |
> |
my $forw = shift; |
| 507 |
> |
my ($refldat,$transdat); |
| 508 |
> |
if ( $forw ) { |
| 509 |
> |
$transdat = $facedat; |
| 510 |
> |
$refldat = $behinddat; |
| 511 |
> |
} else { |
| 512 |
> |
$transdat = $behinddat; |
| 513 |
> |
$refldat = $facedat; |
| 514 |
|
} |
| 515 |
< |
print "\n"; |
| 516 |
< |
} |
| 517 |
< |
print |
| 518 |
< |
' </ScatteringData> |
| 519 |
< |
</WavelengthDataBlock> |
| 520 |
< |
</WavelengthData> |
| 559 |
< |
'; |
| 560 |
< |
} |
| 561 |
< |
if ( $doback ) { |
| 562 |
< |
print |
| 563 |
< |
' <WavelengthData> |
| 564 |
< |
<LayerNumber>System</LayerNumber> |
| 565 |
< |
<Wavelength unit="Integral">Visible</Wavelength> |
| 566 |
< |
<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum> |
| 567 |
< |
<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum> |
| 568 |
< |
<WavelengthDataBlock> |
| 569 |
< |
<WavelengthDataDirection>Transmission Back</WavelengthDataDirection> |
| 570 |
< |
<ColumnAngleBasis>LBNL/Klems Full</ColumnAngleBasis> |
| 571 |
< |
<RowAngleBasis>LBNL/Klems Full</RowAngleBasis> |
| 572 |
< |
<ScatteringDataType>BTDF</ScatteringDataType> |
| 573 |
< |
<ScatteringData> |
| 574 |
< |
'; |
| 575 |
< |
# Output back transmission (transposed order) |
| 576 |
< |
for (my $od = 0; $od < $ndiv; $od++) { |
| 577 |
< |
for (my $id = 0; $id < $ndiv; $id++) { |
| 578 |
< |
print $tbarr[$ndiv*$id + $od]; |
| 515 |
> |
# Output transmission |
| 516 |
> |
my $ttyp = ("tb","tf")[$forw]; |
| 517 |
> |
matrix_comp($ttyp, "Visible", $transdat, ($tb,$tf)[$forw]); |
| 518 |
> |
if ( $docolor ) { |
| 519 |
> |
matrix_comp($ttyp, "CIE-X", $transdat, ($tbx,$tfx)[$forw]); |
| 520 |
> |
matrix_comp($ttyp, "CIE-Z", $transdat, ($tbz,$tfz)[$forw]); |
| 521 |
|
} |
| 522 |
< |
print "\n"; |
| 523 |
< |
} |
| 524 |
< |
print |
| 525 |
< |
' </ScatteringData> |
| 526 |
< |
</WavelengthDataBlock> |
| 527 |
< |
</WavelengthData> |
| 586 |
< |
<WavelengthData> |
| 587 |
< |
<LayerNumber>System</LayerNumber> |
| 588 |
< |
<Wavelength unit="Integral">Visible</Wavelength> |
| 589 |
< |
<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum> |
| 590 |
< |
<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum> |
| 591 |
< |
<WavelengthDataBlock> |
| 592 |
< |
<WavelengthDataDirection>Reflection Back</WavelengthDataDirection> |
| 593 |
< |
<ColumnAngleBasis>LBNL/Klems Full</ColumnAngleBasis> |
| 594 |
< |
<RowAngleBasis>LBNL/Klems Full</RowAngleBasis> |
| 595 |
< |
<ScatteringDataType>BRDF</ScatteringDataType> |
| 596 |
< |
<ScatteringData> |
| 597 |
< |
'; |
| 598 |
< |
# Output back reflection (transposed order) |
| 599 |
< |
for (my $od = 0; $od < $ndiv; $od++) { |
| 600 |
< |
for (my $id = 0; $id < $ndiv; $id++) { |
| 601 |
< |
print $rbarr[$ndiv*$id + $od]; |
| 522 |
> |
# Output reflection |
| 523 |
> |
my $rtyp = ("rb","rf")[$forw]; |
| 524 |
> |
matrix_comp($rtyp, "Visible", $refldat, ($rb,$rf)[$forw]); |
| 525 |
> |
if ( $docolor ) { |
| 526 |
> |
matrix_comp($rtyp, "CIE-X", $refldat, ($rbx,$rfx)[$forw]); |
| 527 |
> |
matrix_comp($rtyp, "CIE-Z", $refldat, ($rbz,$rfz)[$forw]); |
| 528 |
|
} |
| 529 |
< |
print "\n"; |
| 530 |
< |
} |
| 531 |
< |
print |
| 532 |
< |
' </ScatteringData> |
| 533 |
< |
</WavelengthDataBlock> |
| 534 |
< |
</WavelengthData> |
| 535 |
< |
'; |
| 536 |
< |
} |
| 537 |
< |
} |
| 538 |
< |
#------------- End of do_matrix_bsdf() --------------# |
| 529 |
> |
} # end of matrix_out() |
| 530 |
> |
|
| 531 |
> |
# Transpose matrix component data and save to file |
| 532 |
> |
sub matrix_comp { |
| 533 |
> |
my $typ = shift; |
| 534 |
> |
my $spec = shift; |
| 535 |
> |
my $src = shift; |
| 536 |
> |
my $dest = shift; |
| 537 |
> |
my $cmd = "rmtxop -fa -t"; |
| 538 |
> |
if ("$spec" eq "Visible") { |
| 539 |
> |
$cmd .= " -c 0.2651 0.6701 0.0648"; |
| 540 |
> |
} elsif ("$spec" eq "CIE-X") { |
| 541 |
> |
$cmd .= " -c 0.5141 0.3239 0.1620"; |
| 542 |
> |
} elsif ("$spec" eq "CIE-Z") { |
| 543 |
> |
$cmd .= " -c 0.0241 0.1229 0.8530"; |
| 544 |
> |
} |
| 545 |
> |
$cmd .= " $src | getinfo -"; |
| 546 |
> |
run_check "$cmd > $dest"; |
| 547 |
> |
if ( "$spec" ne "$curspec" ) { |
| 548 |
> |
$wrapper .= " -s $spec"; |
| 549 |
> |
$curspec = $spec; |
| 550 |
> |
} |
| 551 |
> |
$wrapper .= " -$typ $dest"; |
| 552 |
> |
} # end of matrix_comp() |
| 553 |
> |
|
| 554 |
> |
#------------- End of do_matrix_bsdf() & subroutines --------------# |
