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root/radiance/ray/src/util/genBSDF.pl
Revision: 2.38
Committed: Sun Sep 2 15:33:16 2012 UTC (11 years, 7 months ago) by greg
Content type: text/plain
Branch: MAIN
Changes since 2.37: +9 -7 lines
Log Message: 
Fixes to reciprocity for tensor tree representation

File Contents

# User Rev Content
1 greg 2.1 #!/usr/bin/perl -w
2 greg 2.38 # RCSid $Id: genBSDF.pl,v 2.37 2012/06/14 22:42:21 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 2.13 use File::Temp qw/ :mktemp /;
10 greg 2.1 sub userror {
11 greg 2.29 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 units] [input ..]\n";
12 greg 2.1 exit 1;
13     }
14 greg 2.13 my $td = mkdtemp("/tmp/genBSDF.XXXXXX");
15 greg 2.1 chomp $td;
16 greg 2.20 my @savedARGV = @ARGV;
17 greg 2.15 my $tensortree = 0;
18     my $ttlog2 = 4;
19 greg 2.25 my $nsamp = 2000;
20 greg 2.10 my $rtargs = "-w -ab 5 -ad 700 -lw 3e-6";
21 greg 2.1 my $mgfin = 0;
22     my $geout = 1;
23     my $nproc = 1;
24 greg 2.9 my $doforw = 0;
25     my $doback = 1;
26 greg 2.33 my $pctcull = 90;
27 greg 2.22 my $gunit = "Meter";
28 greg 2.1 my @dim;
29     # Get options
30     while ($#ARGV >= 0) {
31     if ("$ARGV[0]" =~ /^[-+]m/) {
32     $mgfin = ("$ARGV[0]" =~ /^\+/);
33 greg 2.10 } elsif ("$ARGV[0]" eq "-r") {
34     $rtargs = "$rtargs $ARGV[1]";
35     shift @ARGV;
36 greg 2.1 } elsif ("$ARGV[0]" =~ /^[-+]g/) {
37     $geout = ("$ARGV[0]" =~ /^\+/);
38 greg 2.22 $gunit = $ARGV[1];
39     if ($gunit !~ /^(?i)(meter|foot|inch|centimeter|millimeter)$/) {
40     die "Illegal geometry unit '$gunit': must be meter, foot, inch, centimeter, or millimeter\n";
41     }
42     shift @ARGV;
43 greg 2.9 } elsif ("$ARGV[0]" =~ /^[-+]f/) {
44     $doforw = ("$ARGV[0]" =~ /^\+/);
45     } elsif ("$ARGV[0]" =~ /^[-+]b/) {
46     $doback = ("$ARGV[0]" =~ /^\+/);
47 greg 2.27 } elsif ("$ARGV[0]" eq "-t") {
48 greg 2.33 # Use value < 0 for rttree_reduce bypass
49 greg 2.27 $pctcull = $ARGV[1];
50     shift @ARGV;
51 greg 2.15 } elsif ("$ARGV[0]" =~ /^-t[34]$/) {
52     $tensortree = substr($ARGV[0], 2, 1);
53     $ttlog2 = $ARGV[1];
54     shift @ARGV;
55 greg 2.1 } elsif ("$ARGV[0]" eq "-c") {
56     $nsamp = $ARGV[1];
57     shift @ARGV;
58     } elsif ("$ARGV[0]" eq "-n") {
59     $nproc = $ARGV[1];
60     shift @ARGV;
61     } elsif ("$ARGV[0]" =~ /^-d/) {
62     userror() if ($#ARGV < 6);
63 greg 2.8 @dim = @ARGV[1..6];
64 greg 2.1 shift @ARGV for (1..6);
65     } elsif ("$ARGV[0]" =~ /^[-+]./) {
66     userror();
67     } else {
68     last;
69     }
70     shift @ARGV;
71     }
72 greg 2.9 # Check that we're actually being asked to do something
73 greg 2.15 die "Must have at least one of +forward or +backward\n" if (!$doforw && !$doback);
74 greg 2.1 # Get scene description and dimensions
75     my $radscn = "$td/device.rad";
76     my $mgfscn = "$td/device.mgf";
77     my $octree = "$td/device.oct";
78     if ( $mgfin ) {
79     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";
80     die "Could not load MGF input\n" if ( $? );
81     system "mgf2rad $mgfscn > $radscn";
82     } else {
83 greg 2.13 system "xform -e @ARGV > $radscn";
84 greg 2.1 die "Could not load Radiance input\n" if ( $? );
85     system "rad2mgf $radscn > $mgfscn" if ( $geout );
86     }
87     if ($#dim != 5) {
88 greg 2.7 @dim = split ' ', `getbbox -h $radscn`;
89 greg 2.1 }
90     print STDERR "Warning: Device extends into room\n" if ($dim[5] > 1e-5);
91 greg 2.9 # Add receiver surfaces (rectangular)
92 greg 2.10 my $fmodnm="receiver_face";
93 greg 2.9 my $bmodnm="receiver_behind";
94 greg 2.1 open(RADSCN, ">> $radscn");
95 greg 2.10 print RADSCN "void glow $fmodnm\n0\n0\n4 1 1 1 0\n\n";
96     print RADSCN "$fmodnm source f_receiver\n0\n0\n4 0 0 1 180\n";
97     print RADSCN "void glow $bmodnm\n0\n0\n4 1 1 1 0\n\n";
98     print RADSCN "$bmodnm source b_receiver\n0\n0\n4 0 0 -1 180\n";
99 greg 2.1 close RADSCN;
100     # Generate octree
101     system "oconv -w $radscn > $octree";
102     die "Could not compile scene\n" if ( $? );
103 greg 2.15 # Output XML prologue
104     print
105     '<?xml version="1.0" encoding="UTF-8"?>
106     <WindowElement xmlns="http://windows.lbl.gov" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://windows.lbl.gov/BSDF-v1.4.xsd">
107 greg 2.20 ';
108     print "<!-- File produced by: genBSDF @savedARGV -->\n";
109     print
110     '<WindowElementType>System</WindowElementType>
111 greg 2.15 <Optical>
112     <Layer>
113     <Material>
114     <Name>Name</Name>
115     <Manufacturer>Manufacturer</Manufacturer>
116     ';
117 greg 2.22 printf "\t\t<Thickness unit=\"$gunit\">%.3f</Thickness>\n", $dim[5] - $dim[4];
118     printf "\t\t<Width unit=\"$gunit\">%.3f</Width>\n", $dim[1] - $dim[0];
119     printf "\t\t<Height unit=\"$gunit\">%.3f</Height>\n", $dim[3] - $dim[2];
120 greg 2.15 print "\t\t<DeviceType>Integral</DeviceType>\n";
121     # Output MGF description if requested
122     if ( $geout ) {
123 greg 2.22 print "\t\t<Geometry format=\"MGF\" unit=\"$gunit\">\n";
124 greg 2.15 printf "xf -t %.6f %.6f 0\n", -($dim[0]+$dim[1])/2, -($dim[2]+$dim[3])/2;
125     open(MGFSCN, "< $mgfscn");
126     while (<MGFSCN>) { print $_; }
127     close MGFSCN;
128     print "xf\n";
129     print "\t\t</Geometry>\n";
130     }
131     print " </Material>\n";
132     # Set up surface sampling
133     my $nx = int(sqrt($nsamp*($dim[1]-$dim[0])/($dim[3]-$dim[2])) + .5);
134     my $ny = int($nsamp/$nx + .5);
135     $nsamp = $nx * $ny;
136     my $ns = 2**$ttlog2;
137     my (@pdiv, $disk2sq, $sq2disk, $tcal, $kcal);
138     # Create data segments (all the work happens here)
139     if ( $tensortree ) {
140     do_tree_bsdf();
141     } else {
142     do_matrix_bsdf();
143     }
144     # Output XML epilogue
145     print
146     '</Layer>
147     </Optical>
148     </WindowElement>
149     ';
150     # Clean up temporary files and exit
151 greg 2.16 exec("rm -rf $td");
152    
153 greg 2.15 #-------------- End of main program segment --------------#
154    
155     #++++++++++++++ Tensor tree BSDF generation ++++++++++++++#
156     sub do_tree_bsdf {
157     # Shirley-Chiu mapping from unit square to disk
158     $sq2disk = '
159     in_square_a = 2*in_square_x - 1;
160     in_square_b = 2*in_square_y - 1;
161     in_square_rgn = if(in_square_a + in_square_b,
162     if(in_square_a - in_square_b, 1, 2),
163     if(in_square_b - in_square_a, 3, 4));
164     out_disk_r = .999995*select(in_square_rgn, in_square_a, in_square_b,
165     -in_square_a, -in_square_b);
166     out_disk_phi = PI/4 * select(in_square_rgn,
167     in_square_b/in_square_a,
168     2 - in_square_a/in_square_b,
169     4 + in_square_b/in_square_a,
170     if(in_square_b*in_square_b,
171     6 - in_square_a/in_square_b, 0));
172     Dx = out_disk_r*cos(out_disk_phi);
173     Dy = out_disk_r*sin(out_disk_phi);
174     Dz = sqrt(1 - out_disk_r*out_disk_r);
175     ';
176     # Shirley-Chiu mapping from unit disk to square
177     $disk2sq = '
178     norm_radians(p) : if(-p - PI/4, p + 2*PI, p);
179     in_disk_r = .999995*sqrt(Dx*Dx + Dy*Dy);
180     in_disk_phi = norm_radians(atan2(Dy, Dx));
181     in_disk_rgn = floor((in_disk_phi + PI/4)/(PI/2)) + 1;
182     out_square_a = select(in_disk_rgn,
183     in_disk_r,
184     (PI/2 - in_disk_phi)*in_disk_r/(PI/4),
185     -in_disk_r,
186     (in_disk_phi - 3*PI/2)*in_disk_r/(PI/4));
187     out_square_b = select(in_disk_rgn,
188     in_disk_phi*in_disk_r/(PI/4),
189     in_disk_r,
190     (PI - in_disk_phi)*in_disk_r/(PI/4),
191     -in_disk_r);
192     out_square_x = (out_square_a + 1)/2;
193     out_square_y = (out_square_b + 1)/2;
194     ';
195     # Announce ourselves in XML output
196 greg 2.16 print "\t<DataDefinition>\n";
197     print "\t\t<IncidentDataStructure>TensorTree$tensortree</IncidentDataStructure>\n";
198     print "\t</DataDefinition>\n";
199 greg 2.36
200 greg 2.37 # Start rcontrib processes for compute each side
201 greg 2.36 do_tree_rtcontrib(0) if ( $doback );
202     do_tree_rtcontrib(1) if ( $doforw );
203    
204 greg 2.15 } # end of sub do_tree_bsdf()
205    
206 greg 2.38 # Run rcontrib process to generate tensor tree samples
207 greg 2.36 sub do_tree_rtcontrib {
208 greg 2.15 my $forw = shift;
209     my $matargs = "-m $bmodnm";
210 greg 2.38 if ( !$forw || !$doback || $tensortree==3 ) { $matargs .= " -m $fmodnm"; }
211 greg 2.36 my $cmd = "rcontrib $rtargs -h -ff -fo -n $nproc -c $nsamp " .
212 greg 2.15 "-e '$disk2sq' -bn '$ns*$ns' " .
213     "-b '$ns*floor(out_square_x*$ns)+floor(out_square_y*$ns)' " .
214 greg 2.36 "-o $td/%s.flt $matargs $octree";
215 greg 2.15 if ( $tensortree == 3 ) {
216     # Isotropic BSDF
217 greg 2.36 my $ns2 = $ns / 2;
218     $cmd = "cnt $ns2 $ny $nx " .
219     "| rcalc -e 'r1=rand(.8681*recno-.673892)' " .
220     "-e 'r2=rand(-5.37138*recno+67.1737811)' " .
221     "-e 'r3=rand(+3.17603772*recno+83.766771)' " .
222     "-e 'Dx=1-2*(\$1+r1)/$ns;Dy:0;Dz=sqrt(1-Dx*Dx)' " .
223 greg 2.15 "-e 'xp=(\$3+r2)*(($dim[1]-$dim[0])/$nx)+$dim[0]' " .
224     "-e 'yp=(\$2+r3)*(($dim[3]-$dim[2])/$ny)+$dim[2]' " .
225     "-e 'zp=$dim[5-$forw]' -e 'myDz=Dz*($forw*2-1)' " .
226     "-e '\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz' " .
227     "-e '\$4=Dx;\$5=Dy;\$6=myDz' -of " .
228     "| $cmd";
229     } else {
230     # Anisotropic BSDF
231     # Sample area vertically to improve load balance, since
232     # shading systems usually have bilateral symmetry (L-R)
233 greg 2.36 $cmd = "cnt $ns $ns $ny $nx " .
234     "| rcalc -e 'r1=rand(.8681*recno-.673892)' " .
235     "-e 'r2=rand(-5.37138*recno+67.1737811)' " .
236     "-e 'r3=rand(3.17603772*recno+83.766771)' " .
237     "-e 'r4=rand(-2.3857833*recno-964.72738)' " .
238     "-e 'in_square_x=(\$1+r1)/$ns' " .
239 greg 2.15 "-e 'in_square_y=(\$2+r2)/$ns' -e '$sq2disk' " .
240     "-e 'xp=(\$4+r3)*(($dim[1]-$dim[0])/$nx)+$dim[0]' " .
241     "-e 'yp=(\$3+r4)*(($dim[3]-$dim[2])/$ny)+$dim[2]' " .
242     "-e 'zp=$dim[5-$forw]' -e 'myDz=Dz*($forw*2-1)' " .
243     "-e '\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz' " .
244     "-e '\$4=Dx;\$5=Dy;\$6=myDz' -of " .
245     "| $cmd";
246     }
247     # print STDERR "Starting: $cmd\n";
248 greg 2.37 system "$cmd" || die "Failure running rcontrib";
249 greg 2.36 ttree_out($forw);
250     } # end of do_tree_rtcontrib()
251 greg 2.15
252     # Simplify and output tensor tree results
253     sub ttree_out {
254     my $forw = shift;
255     my $side = ("Back","Front")[$forw];
256 greg 2.33 my $cmd;
257 greg 2.38 # Only output one transmitted anisotropic distribution, preferring backwards
258     if ( !$forw || !$doback || $tensortree==3 ) {
259 greg 2.15 print
260     ' <WavelengthData>
261     <LayerNumber>System</LayerNumber>
262     <Wavelength unit="Integral">Visible</Wavelength>
263     <SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
264     <DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>
265     <WavelengthDataBlock>
266 greg 2.38 ';
267     print "\t\t\t<WavelengthDataDirection>Transmission $side</WavelengthDataDirection>\n";
268     print
269     ' <AngleBasis>LBNL/Shirley-Chiu</AngleBasis>
270 greg 2.15 <ScatteringDataType>BTDF</ScatteringDataType>
271     <ScatteringData>
272     ';
273 greg 2.33 $cmd = "rcalc -if3 -e 'Omega:PI/($ns*$ns)' " .
274     q{-e '$1=(0.265*$1+0.670*$2+0.065*$3)/Omega' };
275     if ($pctcull >= 0) {
276 greg 2.36 $cmd .= "-of $td/" . ($bmodnm,$fmodnm)[$forw] . ".flt " .
277 greg 2.28 "| rttree_reduce -a -h -ff -t $pctcull -r $tensortree -g $ttlog2";
278 greg 2.33 system "$cmd" || die "Failure running rttree_reduce";
279     } else {
280 greg 2.36 $cmd .= "$td/" . ($bmodnm,$fmodnm)[$forw] . ".flt";
281 greg 2.33 print "{\n";
282     system "$cmd" || die "Failure running rcalc";
283 greg 2.34 for (my $i = ($tensortree==3)*$ns*$ns*$ns/2; $i-- > 0; ) {
284     print "0\n";
285     }
286 greg 2.33 print "}\n";
287     }
288 greg 2.15 print
289     ' </ScatteringData>
290     </WavelengthDataBlock>
291     </WavelengthData>
292     ';
293     }
294     # Output reflection
295     print
296     ' <WavelengthData>
297     <LayerNumber>System</LayerNumber>
298     <Wavelength unit="Integral">Visible</Wavelength>
299     <SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
300     <DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>
301     <WavelengthDataBlock>
302 greg 2.17 ';
303     print "\t\t\t<WavelengthDataDirection>Reflection $side</WavelengthDataDirection>\n";
304 greg 2.20 print
305     ' <AngleBasis>LBNL/Shirley-Chiu</AngleBasis>
306 greg 2.15 <ScatteringDataType>BRDF</ScatteringDataType>
307     <ScatteringData>
308     ';
309 greg 2.33 $cmd = "rcalc -if3 -e 'Omega:PI/($ns*$ns)' " .
310     q{-e '$1=(0.265*$1+0.670*$2+0.065*$3)/Omega' };
311     if ($pctcull >= 0) {
312 greg 2.36 $cmd .= "-of $td/" . ($fmodnm,$bmodnm)[$forw] . ".flt " .
313 greg 2.28 "| rttree_reduce -a -h -ff -t $pctcull -r $tensortree -g $ttlog2";
314 greg 2.33 system "$cmd" || die "Failure running rttree_reduce";
315     } else {
316 greg 2.36 $cmd .= "$td/" . ($fmodnm,$bmodnm)[$forw] . ".flt";
317 greg 2.33 print "{\n";
318     system "$cmd" || die "Failure running rcalc";
319 greg 2.34 for (my $i = ($tensortree==3)*$ns*$ns*$ns/2; $i-- > 0; ) {
320     print "0\n";
321     }
322 greg 2.33 print "}\n";
323     }
324 greg 2.15 print
325     ' </ScatteringData>
326     </WavelengthDataBlock>
327     </WavelengthData>
328     ';
329     } # end of ttree_out()
330    
331     #------------- End of do_tree_bsdf() & subroutines -------------#
332    
333     #+++++++++++++++ Klems matrix BSDF generation +++++++++++++++#
334     sub do_matrix_bsdf {
335     # Set up sampling of portal
336 greg 2.1 # Kbin to produce incident direction in full Klems basis with (x1,x2) randoms
337 greg 2.15 $tcal = '
338 greg 2.1 DEGREE : PI/180;
339 greg 2.5 sq(x) : x*x;
340 greg 2.35 Kpola(r) : select(r+1, 0, 5, 15, 25, 35, 45, 55, 65, 75, 90);
341 greg 2.1 Knaz(r) : select(r, 1, 8, 16, 20, 24, 24, 24, 16, 12);
342     Kaccum(r) : if(r-.5, Knaz(r) + Kaccum(r-1), 0);
343     Kmax : Kaccum(Knaz(0));
344     Kfindrow(r, rem) : if(rem-Knaz(r)+.5, Kfindrow(r+1, rem-Knaz(r)), r);
345     Krow = if(Kbin-(Kmax-.5), 0, Kfindrow(1, Kbin));
346     Kcol = Kbin - Kaccum(Krow-1);
347 greg 2.2 Kazi = 360*DEGREE * (Kcol + (.5 - x2)) / Knaz(Krow);
348 greg 2.1 Kpol = DEGREE * (x1*Kpola(Krow) + (1-x1)*Kpola(Krow-1));
349     sin_kpol = sin(Kpol);
350 greg 2.9 Dx = cos(Kazi)*sin_kpol;
351 greg 2.1 Dy = sin(Kazi)*sin_kpol;
352     Dz = sqrt(1 - sin_kpol*sin_kpol);
353 greg 2.5 KprojOmega = PI * if(Kbin-.5,
354     (sq(cos(Kpola(Krow-1)*DEGREE)) - sq(cos(Kpola(Krow)*DEGREE)))/Knaz(Krow),
355     1 - sq(cos(Kpola(1)*DEGREE)));
356 greg 2.1 ';
357 greg 2.9 # Compute Klems bin from exiting ray direction (forward or backward)
358 greg 2.15 $kcal = '
359 greg 2.1 DEGREE : PI/180;
360 greg 2.11 abs(x) : if(x, x, -x);
361 greg 2.30 Acos(x) : if(x-1, 0, if(-1-x, PI, acos(x))) / DEGREE;
362 greg 2.1 posangle(a) : if(-a, a + 2*PI, a);
363 greg 2.30 Atan2(y,x) : posangle(atan2(y,x)) / DEGREE;
364 greg 2.1 kpola(r) : select(r, 5, 15, 25, 35, 45, 55, 65, 75, 90);
365     knaz(r) : select(r, 1, 8, 16, 20, 24, 24, 24, 16, 12);
366     kaccum(r) : if(r-.5, knaz(r) + kaccum(r-1), 0);
367     kfindrow(r, pol) : if(r-kpola(0)+.5, r,
368     if(pol-kpola(r), kfindrow(r+1, pol), r) );
369     kazn(azi,inc) : if((360-.5*inc)-azi, floor((azi+.5*inc)/inc), 0);
370     kbin2(pol,azi) = select(kfindrow(1, pol),
371     kazn(azi,360/knaz(1)),
372     kaccum(1) + kazn(azi,360/knaz(2)),
373     kaccum(2) + kazn(azi,360/knaz(3)),
374     kaccum(3) + kazn(azi,360/knaz(4)),
375     kaccum(4) + kazn(azi,360/knaz(5)),
376     kaccum(5) + kazn(azi,360/knaz(6)),
377     kaccum(6) + kazn(azi,360/knaz(7)),
378     kaccum(7) + kazn(azi,360/knaz(8)),
379     kaccum(8) + kazn(azi,360/knaz(9))
380     );
381 greg 2.11 kbin = kbin2(Acos(abs(Dz)),Atan2(Dy,Dx));
382 greg 2.1 ';
383     my $ndiv = 145;
384 greg 2.37 # Compute scattering data using rcontrib
385 greg 2.9 my @tfarr;
386     my @rfarr;
387     my @tbarr;
388     my @rbarr;
389     my $cmd;
390 greg 2.36 my $rtcmd = "rcontrib $rtargs -h -ff -fo -n $nproc -c $nsamp " .
391 greg 2.9 "-e '$kcal' -b kbin -bn $ndiv " .
392 greg 2.15 "-o '$td/%s.flt' -m $fmodnm -m $bmodnm $octree";
393 greg 2.9 my $rccmd = "rcalc -e '$tcal' " .
394     "-e 'mod(n,d):n-floor(n/d)*d' -e 'Kbin=mod(recno-.999,$ndiv)' " .
395 greg 2.29 q{-if3 -e '$1=(0.265*$1+0.670*$2+0.065*$3)/KprojOmega' };
396 greg 2.9 if ( $doforw ) {
397     $cmd = "cnt $ndiv $ny $nx | rcalc -of -e '$tcal' " .
398 greg 2.11 "-e 'xp=(\$3+rand(.12*recno+288))*(($dim[1]-$dim[0])/$nx)+$dim[0]' " .
399     "-e 'yp=(\$2+rand(.37*recno-44))*(($dim[3]-$dim[2])/$ny)+$dim[2]' " .
400 greg 2.10 "-e 'zp:$dim[4]' " .
401 greg 2.11 q{-e 'Kbin=$1;x1=rand(2.75*recno+3.1);x2=rand(-2.01*recno-3.37)' } .
402 greg 2.10 q{-e '$1=xp-Dx;$2=yp-Dy;$3=zp-Dz;$4=Dx;$5=Dy;$6=Dz' } .
403 greg 2.9 "| $rtcmd";
404     system "$cmd" || die "Failure running: $cmd\n";
405     @tfarr = `$rccmd $td/$fmodnm.flt`;
406     die "Failure running: $rccmd $td/$fmodnm.flt\n" if ( $? );
407     @rfarr = `$rccmd $td/$bmodnm.flt`;
408     die "Failure running: $rccmd $td/$bmodnm.flt\n" if ( $? );
409     }
410     if ( $doback ) {
411     $cmd = "cnt $ndiv $ny $nx | rcalc -of -e '$tcal' " .
412     "-e 'xp=(\$3+rand(.35*recno-15))*(($dim[1]-$dim[0])/$nx)+$dim[0]' " .
413     "-e 'yp=(\$2+rand(.86*recno+11))*(($dim[3]-$dim[2])/$ny)+$dim[2]' " .
414 greg 2.10 "-e 'zp:$dim[5]' " .
415 greg 2.9 q{-e 'Kbin=$1;x1=rand(1.21*recno+2.75);x2=rand(-3.55*recno-7.57)' } .
416 greg 2.11 q{-e '$1=xp-Dx;$2=yp-Dy;$3=zp+Dz;$4=Dx;$5=Dy;$6=-Dz' } .
417 greg 2.9 "| $rtcmd";
418     system "$cmd" || die "Failure running: $cmd\n";
419     @tbarr = `$rccmd $td/$bmodnm.flt`;
420     die "Failure running: $rccmd $td/$bmodnm.flt\n" if ( $? );
421 greg 2.32 chomp(@tbarr);
422 greg 2.9 @rbarr = `$rccmd $td/$fmodnm.flt`;
423     die "Failure running: $rccmd $td/$fmodnm.flt\n" if ( $? );
424 greg 2.32 chomp(@rbarr);
425 greg 2.9 }
426 greg 2.15 # Output angle basis
427 greg 2.1 print
428 greg 2.15 ' <DataDefinition>
429     <IncidentDataStructure>Columns</IncidentDataStructure>
430     <AngleBasis>
431 greg 2.1 <AngleBasisName>LBNL/Klems Full</AngleBasisName>
432 greg 2.15 <AngleBasisBlock>
433 greg 2.35 <Theta>0</Theta>
434     <nPhis>1</nPhis>
435     <ThetaBounds>
436     <LowerTheta>0</LowerTheta>
437     <UpperTheta>5</UpperTheta>
438     </ThetaBounds>
439     </AngleBasisBlock>
440     <AngleBasisBlock>
441     <Theta>10</Theta>
442     <nPhis>8</nPhis>
443     <ThetaBounds>
444     <LowerTheta>5</LowerTheta>
445     <UpperTheta>15</UpperTheta>
446     </ThetaBounds>
447     </AngleBasisBlock>
448     <AngleBasisBlock>
449     <Theta>20</Theta>
450     <nPhis>16</nPhis>
451     <ThetaBounds>
452     <LowerTheta>15</LowerTheta>
453     <UpperTheta>25</UpperTheta>
454     </ThetaBounds>
455     </AngleBasisBlock>
456     <AngleBasisBlock>
457     <Theta>30</Theta>
458     <nPhis>20</nPhis>
459     <ThetaBounds>
460     <LowerTheta>25</LowerTheta>
461     <UpperTheta>35</UpperTheta>
462     </ThetaBounds>
463     </AngleBasisBlock>
464     <AngleBasisBlock>
465     <Theta>40</Theta>
466     <nPhis>24</nPhis>
467     <ThetaBounds>
468     <LowerTheta>35</LowerTheta>
469     <UpperTheta>45</UpperTheta>
470     </ThetaBounds>
471     </AngleBasisBlock>
472     <AngleBasisBlock>
473     <Theta>50</Theta>
474     <nPhis>24</nPhis>
475     <ThetaBounds>
476     <LowerTheta>45</LowerTheta>
477     <UpperTheta>55</UpperTheta>
478     </ThetaBounds>
479     </AngleBasisBlock>
480     <AngleBasisBlock>
481     <Theta>60</Theta>
482     <nPhis>24</nPhis>
483     <ThetaBounds>
484     <LowerTheta>55</LowerTheta>
485     <UpperTheta>65</UpperTheta>
486     </ThetaBounds>
487     </AngleBasisBlock>
488     <AngleBasisBlock>
489     <Theta>70</Theta>
490     <nPhis>16</nPhis>
491     <ThetaBounds>
492     <LowerTheta>65</LowerTheta>
493     <UpperTheta>75</UpperTheta>
494     </ThetaBounds>
495     </AngleBasisBlock>
496     <AngleBasisBlock>
497     <Theta>82.5</Theta>
498     <nPhis>12</nPhis>
499     <ThetaBounds>
500     <LowerTheta>75</LowerTheta>
501     <UpperTheta>90</UpperTheta>
502     </ThetaBounds>
503 greg 2.1 </AngleBasisBlock>
504     </AngleBasis>
505     </DataDefinition>
506 greg 2.9 ';
507     if ( $doforw ) {
508 greg 2.15 print
509     ' <WavelengthData>
510 greg 2.9 <LayerNumber>System</LayerNumber>
511     <Wavelength unit="Integral">Visible</Wavelength>
512     <SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
513     <DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>
514     <WavelengthDataBlock>
515     <WavelengthDataDirection>Transmission Front</WavelengthDataDirection>
516     <ColumnAngleBasis>LBNL/Klems Full</ColumnAngleBasis>
517     <RowAngleBasis>LBNL/Klems Full</RowAngleBasis>
518     <ScatteringDataType>BTDF</ScatteringDataType>
519     <ScatteringData>
520     ';
521     # Output front transmission (transposed order)
522     for (my $od = 0; $od < $ndiv; $od++) {
523     for (my $id = 0; $id < $ndiv; $id++) {
524 greg 2.29 print $tfarr[$ndiv*$id + $od], ",\n";
525 greg 2.9 }
526     print "\n";
527     }
528     print
529 greg 2.15 ' </ScatteringData>
530     </WavelengthDataBlock>
531 greg 2.9 </WavelengthData>
532 greg 2.1 <WavelengthData>
533     <LayerNumber>System</LayerNumber>
534     <Wavelength unit="Integral">Visible</Wavelength>
535     <SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
536     <DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>
537     <WavelengthDataBlock>
538 greg 2.9 <WavelengthDataDirection>Reflection Front</WavelengthDataDirection>
539     <ColumnAngleBasis>LBNL/Klems Full</ColumnAngleBasis>
540     <RowAngleBasis>LBNL/Klems Full</RowAngleBasis>
541     <ScatteringDataType>BRDF</ScatteringDataType>
542     <ScatteringData>
543     ';
544 greg 2.31 # Output front reflection (transposed order)
545 greg 2.9 for (my $od = 0; $od < $ndiv; $od++) {
546     for (my $id = 0; $id < $ndiv; $id++) {
547 greg 2.31 print $rfarr[$ndiv*$id + $od], ",\n";
548 greg 2.9 }
549     print "\n";
550     }
551     print
552 greg 2.15 ' </ScatteringData>
553     </WavelengthDataBlock>
554 greg 2.9 </WavelengthData>
555     ';
556     }
557     if ( $doback ) {
558 greg 2.15 print
559     ' <WavelengthData>
560 greg 2.9 <LayerNumber>System</LayerNumber>
561     <Wavelength unit="Integral">Visible</Wavelength>
562     <SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
563     <DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>
564     <WavelengthDataBlock>
565     <WavelengthDataDirection>Transmission Back</WavelengthDataDirection>
566 greg 2.1 <ColumnAngleBasis>LBNL/Klems Full</ColumnAngleBasis>
567     <RowAngleBasis>LBNL/Klems Full</RowAngleBasis>
568     <ScatteringDataType>BTDF</ScatteringDataType>
569     <ScatteringData>
570     ';
571 greg 2.9 # Output back transmission (transposed order)
572 greg 2.3 for (my $od = 0; $od < $ndiv; $od++) {
573     for (my $id = 0; $id < $ndiv; $id++) {
574 greg 2.29 print $tbarr[$ndiv*$id + $od], ",\n";
575 greg 2.9 }
576     print "\n";
577     }
578     print
579 greg 2.15 ' </ScatteringData>
580     </WavelengthDataBlock>
581 greg 2.9 </WavelengthData>
582     <WavelengthData>
583     <LayerNumber>System</LayerNumber>
584     <Wavelength unit="Integral">Visible</Wavelength>
585     <SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
586     <DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>
587     <WavelengthDataBlock>
588     <WavelengthDataDirection>Reflection Back</WavelengthDataDirection>
589     <ColumnAngleBasis>LBNL/Klems Full</ColumnAngleBasis>
590     <RowAngleBasis>LBNL/Klems Full</RowAngleBasis>
591     <ScatteringDataType>BRDF</ScatteringDataType>
592     <ScatteringData>
593     ';
594 greg 2.33 # Output back reflection (transposed order)
595 greg 2.9 for (my $od = 0; $od < $ndiv; $od++) {
596     for (my $id = 0; $id < $ndiv; $id++) {
597 greg 2.31 print $rbarr[$ndiv*$id + $od], ",\n";
598 greg 2.3 }
599     print "\n";
600     }
601 greg 2.1 print
602 greg 2.15 ' </ScatteringData>
603     </WavelengthDataBlock>
604 greg 2.1 </WavelengthData>
605 greg 2.9 ';
606     }
607 greg 2.15 }
608     #------------- End of do_matrix_bsdf() --------------#