[ViewVC] Diff of: radiance/ray/src/util/genBSDF.pl

Comparing ray/src/util/genBSDF.pl (file contents):
Revision 2.9 by greg, Mon Feb 21 22:48:51 2011 UTC vs.
Revision 2.24 by greg, Tue Aug 23 14:02:41 2011 UTC

#	Line 6 \| Line 6
6		# G. Ward
7		#
8		use strict;
9	+	use File::Temp qw/ :mktemp /;
10		sub userror {
11	<	print STDERR "Usage: genBSDF [-n Nproc][-c Nsamp][-dim xmin xmax ymin ymax zmin zmax][{+\|-}f][{+\|-}b][{+\|-}mgf][{+\|-}geom] [input ..]\n";
11	>	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		exit 1;
13		}
14	<	my $td = `mktemp -d /tmp/genBSDF.XXXXXX`;
14	>	my $td = mkdtemp("/tmp/genBSDF.XXXXXX");
15		chomp $td;
16	<	my $nsamp = 1000;
16	>	my @savedARGV = @ARGV;
17	>	my $tensortree = 0;
18	>	my $ttlog2 = 4;
19	>	my $nsamp = 10000;
20	>	my $rtargs = "-w -ab 5 -ad 700 -lw 3e-6";
21		my $mgfin = 0;
22		my $geout = 1;
23		my $nproc = 1;
24		my $doforw = 0;
25		my $doback = 1;
26	+	my $gunit = "Meter";
27		my @dim;
28		# Get options
29		while ($#ARGV >= 0) {
30		if ("$ARGV[0]" =~ /^[-+]m/) {
31		$mgfin = ("$ARGV[0]" =~ /^\+/);
32	+	} elsif ("$ARGV[0]" eq "-r") {
33	+	$rtargs = "$rtargs $ARGV[1]";
34	+	shift @ARGV;
35		} elsif ("$ARGV[0]" =~ /^[-+]g/) {
36		$geout = ("$ARGV[0]" =~ /^\+/);
37	+	$gunit = $ARGV[1];
38	+	if ($gunit !~ /^(?i)(meter\|foot\|inch\|centimeter\|millimeter)$/) {
39	+	die "Illegal geometry unit '$gunit': must be meter, foot, inch, centimeter, or millimeter\n";
40	+	}
41	+	shift @ARGV;
42		} elsif ("$ARGV[0]" =~ /^[-+]f/) {
43		$doforw = ("$ARGV[0]" =~ /^\+/);
44		} elsif ("$ARGV[0]" =~ /^[-+]b/) {
45		$doback = ("$ARGV[0]" =~ /^\+/);
46	+	} elsif ("$ARGV[0]" =~ /^-t[34]$/) {
47	+	$tensortree = substr($ARGV[0], 2, 1);
48	+	$ttlog2 = $ARGV[1];
49	+	shift @ARGV;
50		} elsif ("$ARGV[0]" eq "-c") {
51		$nsamp = $ARGV[1];
52		shift @ARGV;
#	Line 47 \| Line 65 \| while ($#ARGV >= 0) {
65		shift @ARGV;
66		}
67		# Check that we're actually being asked to do something
68	<	die "Must have at least one of +forward or +backward" if (!$doforw && !$doback);
68	>	die "Must have at least one of +forward or +backward\n" if (!$doforw && !$doback);
69	>	# Name our own persist file?
70	>	my $persistfile;
71	>	if ( $tensortree && $nproc > 1 && "$rtargs" !~ /-PP /) {
72	>	$persistfile = "$td/pfile.txt";
73	>	$rtargs = "-PP $persistfile $rtargs";
74	>	}
75		# Get scene description and dimensions
76		my $radscn = "$td/device.rad";
77		my $mgfscn = "$td/device.mgf";
#	Line 57 \| Line 81 \| if ( $mgfin ) {
81		die "Could not load MGF input\n" if ( $? );
82		system "mgf2rad $mgfscn > $radscn";
83		} else {
84	<	system "cat @ARGV \| xform -e > $radscn";
84	>	system "xform -e @ARGV > $radscn";
85		die "Could not load Radiance input\n" if ( $? );
86		system "rad2mgf $radscn > $mgfscn" if ( $geout );
87		}
#	Line 66 \| Line 90 \| if ($#dim != 5) {
90		}
91		print STDERR "Warning: Device extends into room\n" if ($dim[5] > 1e-5);
92		# Add receiver surfaces (rectangular)
69	–	my $bmodnm="receiver_behind";
93		my $fmodnm="receiver_face";
94	+	my $bmodnm="receiver_behind";
95		open(RADSCN, ">> $radscn");
96	<	print RADSCN "void glow $fmodnm\n0\n0\n4 0 0 0 0\n\n";
97	<	print RADSCN "$fmodnm polygon f_receiver\n0\n0\n12\n";
98	<	print RADSCN "\t",$dim[0],"\t",$dim[2],"\t",$dim[5]+2e-5,"\n";
99	<	print RADSCN "\t",$dim[0],"\t",$dim[3],"\t",$dim[5]+2e-5,"\n";
76	<	print RADSCN "\t",$dim[1],"\t",$dim[3],"\t",$dim[5]+2e-5,"\n";
77	<	print RADSCN "\t",$dim[1],"\t",$dim[2],"\t",$dim[5]+2e-5,"\n";
78	<	print RADSCN "void glow $bmodnm\n0\n0\n4 0 0 0 0\n\n";
79	<	print RADSCN "$bmodnm polygon b_receiver\n0\n0\n12\n";
80	<	print RADSCN "\t",$dim[1],"\t",$dim[2],"\t",$dim[4]-2e-5,"\n";
81	<	print RADSCN "\t",$dim[1],"\t",$dim[3],"\t",$dim[4]-2e-5,"\n";
82	<	print RADSCN "\t",$dim[0],"\t",$dim[3],"\t",$dim[4]-2e-5,"\n";
83	<	print RADSCN "\t",$dim[0],"\t",$dim[2],"\t",$dim[4]-2e-5,"\n";
96	>	print RADSCN "void glow $fmodnm\n0\n0\n4 1 1 1 0\n\n";
97	>	print RADSCN "$fmodnm source f_receiver\n0\n0\n4 0 0 1 180\n";
98	>	print RADSCN "void glow $bmodnm\n0\n0\n4 1 1 1 0\n\n";
99	>	print RADSCN "$bmodnm source b_receiver\n0\n0\n4 0 0 -1 180\n";
100		close RADSCN;
101		# Generate octree
102		system "oconv -w $radscn > $octree";
103		die "Could not compile scene\n" if ( $? );
104	<	# Set up sampling of interior portal
104	>	# Output XML prologue
105	>	print
106	>	'<?xml version="1.0" encoding="UTF-8"?>
107	>	<WindowElement xmlns="http://windows.lbl.gov" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://windows.lbl.gov/BSDF-v1.4.xsd">
108	>	';
109	>	print "<!-- File produced by: genBSDF @savedARGV -->\n";
110	>	print
111	>	'<WindowElementType>System</WindowElementType>
112	>	<Optical>
113	>	<Layer>
114	>	<Material>
115	>	<Name>Name</Name>
116	>	<Manufacturer>Manufacturer</Manufacturer>
117	>	';
118	>	printf "\t\t<Thickness unit=\"$gunit\">%.3f</Thickness>\n", $dim[5] - $dim[4];
119	>	printf "\t\t<Width unit=\"$gunit\">%.3f</Width>\n", $dim[1] - $dim[0];
120	>	printf "\t\t<Height unit=\"$gunit\">%.3f</Height>\n", $dim[3] - $dim[2];
121	>	print "\t\t<DeviceType>Integral</DeviceType>\n";
122	>	# Output MGF description if requested
123	>	if ( $geout ) {
124	>	print "\t\t<Geometry format=\"MGF\" unit=\"$gunit\">\n";
125	>	printf "xf -t %.6f %.6f 0\n", -($dim[0]+$dim[1])/2, -($dim[2]+$dim[3])/2;
126	>	open(MGFSCN, "< $mgfscn");
127	>	while (<MGFSCN>) { print $_; }
128	>	close MGFSCN;
129	>	print "xf\n";
130	>	print "\t\t</Geometry>\n";
131	>	}
132	>	print " </Material>\n";
133	>	# Set up surface sampling
134	>	my $nx = int(sqrt($nsamp*($dim[1]-$dim[0])/($dim[3]-$dim[2])) + .5);
135	>	my $ny = int($nsamp/$nx + .5);
136	>	$nsamp = $nx * $ny;
137	>	my $ns = 2**$ttlog2;
138	>	my (@pdiv, $disk2sq, $sq2disk, $tcal, $kcal);
139	>	# Create data segments (all the work happens here)
140	>	if ( $tensortree ) {
141	>	do_tree_bsdf();
142	>	} else {
143	>	do_matrix_bsdf();
144	>	}
145	>	# Output XML epilogue
146	>	print
147	>	'</Layer>
148	>	</Optical>
149	>	</WindowElement>
150	>	';
151	>	# Clean up temporary files and exit
152	>	if ( $persistfile && open(PFI, "< $persistfile") ) {
153	>	while (<PFI>) {
154	>	s/^[^ ]* //;
155	>	kill('ALRM', $_);
156	>	last;
157	>	}
158	>	close PFI;
159	>	}
160	>	exec("rm -rf $td");
161	>
162	>	#-------------- End of main program segment --------------#
163	>
164	>	#++++++++++++++ Tensor tree BSDF generation ++++++++++++++#
165	>	sub do_tree_bsdf {
166	>	# Get sampling rate and subdivide task
167	>	my $ns2 = $ns;
168	>	$ns2 /= 2 if ( $tensortree == 3 );
169	>	my $nsplice = $nproc;
170	>	$nsplice *= 10 if ($nproc > 1);
171	>	$nsplice = $ns2 if ($nsplice > $ns2);
172	>	$nsplice = 999 if ($nsplice > 999);
173	>	@pdiv = (0, int($ns2/$nsplice));
174	>	my $nrem = $ns2 % $nsplice;
175	>	for (my $i = 1; $i < $nsplice; $i++) {
176	>	my $nv = $pdiv[$i] + $pdiv[1];
177	>	++$nv if ( $nrem-- > 0 );
178	>	push @pdiv, $nv;
179	>	}
180	>	die "Script error 1" if ($pdiv[-1] != $ns2);
181	>	# Shirley-Chiu mapping from unit square to disk
182	>	$sq2disk = '
183	>	in_square_a = 2*in_square_x - 1;
184	>	in_square_b = 2*in_square_y - 1;
185	>	in_square_rgn = if(in_square_a + in_square_b,
186	>	if(in_square_a - in_square_b, 1, 2),
187	>	if(in_square_b - in_square_a, 3, 4));
188	>	out_disk_r = .999995*select(in_square_rgn, in_square_a, in_square_b,
189	>	-in_square_a, -in_square_b);
190	>	out_disk_phi = PI/4 * select(in_square_rgn,
191	>	in_square_b/in_square_a,
192	>	2 - in_square_a/in_square_b,
193	>	4 + in_square_b/in_square_a,
194	>	if(in_square_b*in_square_b,
195	>	6 - in_square_a/in_square_b, 0));
196	>	Dx = out_disk_r*cos(out_disk_phi);
197	>	Dy = out_disk_r*sin(out_disk_phi);
198	>	Dz = sqrt(1 - out_disk_r*out_disk_r);
199	>	';
200	>	# Shirley-Chiu mapping from unit disk to square
201	>	$disk2sq = '
202	>	norm_radians(p) : if(-p - PI/4, p + 2*PI, p);
203	>	in_disk_r = .999995sqrt(DxDx + Dy*Dy);
204	>	in_disk_phi = norm_radians(atan2(Dy, Dx));
205	>	in_disk_rgn = floor((in_disk_phi + PI/4)/(PI/2)) + 1;
206	>	out_square_a = select(in_disk_rgn,
207	>	in_disk_r,
208	>	(PI/2 - in_disk_phi)*in_disk_r/(PI/4),
209	>	-in_disk_r,
210	>	(in_disk_phi - 3PI/2)in_disk_r/(PI/4));
211	>	out_square_b = select(in_disk_rgn,
212	>	in_disk_phi*in_disk_r/(PI/4),
213	>	in_disk_r,
214	>	(PI - in_disk_phi)*in_disk_r/(PI/4),
215	>	-in_disk_r);
216	>	out_square_x = (out_square_a + 1)/2;
217	>	out_square_y = (out_square_b + 1)/2;
218	>	';
219	>	# Announce ourselves in XML output
220	>	print "\t<DataDefinition>\n";
221	>	print "\t\t<IncidentDataStructure>TensorTree$tensortree</IncidentDataStructure>\n";
222	>	print "\t</DataDefinition>\n";
223	>	# Fork parallel rtcontrib processes to compute each side
224	>	my $npleft = $nproc;
225	>	if ( $doback ) {
226	>	for (my $splice = 0; $splice < $nsplice; $splice++) {
227	>	if (! $npleft ) {
228	>	wait();
229	>	die "rtcontrib process reported error" if ( $? );
230	>	$npleft++;
231	>	}
232	>	bg_tree_rtcontrib(0, $splice);
233	>	$npleft--;
234	>	}
235	>	while (wait() >= 0) {
236	>	die "rtcontrib process reported error" if ( $? );
237	>	$npleft++;
238	>	}
239	>	ttree_out(0);
240	>	}
241	>	if ( $doforw ) {
242	>	for (my $splice = 0; $splice < $nsplice; $splice++) {
243	>	if (! $npleft ) {
244	>	wait();
245	>	die "rtcontrib process reported error" if ( $? );
246	>	$npleft++;
247	>	}
248	>	bg_tree_rtcontrib(1, $splice);
249	>	$npleft--;
250	>	}
251	>	while (wait() >= 0) {
252	>	die "rtcontrib process reported error" if ( $? );
253	>	$npleft++;
254	>	}
255	>	ttree_out(1);
256	>	}
257	>	} # end of sub do_tree_bsdf()
258	>
259	>	# Run rtcontrib process in background to generate tensor tree samples
260	>	sub bg_tree_rtcontrib {
261	>	my $pid = fork();
262	>	die "Cannot fork new process" unless defined $pid;
263	>	if ($pid > 0) { return $pid; }
264	>	my $forw = shift;
265	>	my $pn = shift;
266	>	my $pbeg = $pdiv[$pn];
267	>	my $plen = $pdiv[$pn+1] - $pbeg;
268	>	my $matargs = "-m $bmodnm";
269	>	if ( !$forw \|\| !$doback ) { $matargs .= " -m $fmodnm"; }
270	>	my $cmd = "rtcontrib $rtargs -h -ff -fo -c $nsamp " .
271	>	"-e '$disk2sq' -bn '$ns*$ns' " .
272	>	"-b '$nsfloor(out_square_x$ns)+floor(out_square_y*$ns)' " .
273	>	"-o $td/%s_" . sprintf("%03d", $pn) . ".flt $matargs $octree";
274	>	if ( $tensortree == 3 ) {
275	>	# Isotropic BSDF
276	>	$cmd = "cnt $plen $ny $nx " .
277	>	"\| rcalc -e 'r1=rand(($pn+.8681)*recno-.673892)' " .
278	>	"-e 'r2=rand(($pn-5.37138)*recno+67.1737811)' " .
279	>	"-e 'r3=rand(($pn+3.17603772)*recno+83.766771)' " .
280	>	"-e 'Dx=1-2($pbeg+\$1+r1)/$ns;Dy:0;Dz=sqrt(1-DxDx)' " .
281	>	"-e 'xp=(\$3+r2)*(($dim[1]-$dim[0])/$nx)+$dim[0]' " .
282	>	"-e 'yp=(\$2+r3)*(($dim[3]-$dim[2])/$ny)+$dim[2]' " .
283	>	"-e 'zp=$dim[5-$forw]' -e 'myDz=Dz($forw2-1)' " .
284	>	"-e '\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz' " .
285	>	"-e '\$4=Dx;\$5=Dy;\$6=myDz' -of " .
286	>	"\| $cmd";
287	>	} else {
288	>	# Anisotropic BSDF
289	>	# Sample area vertically to improve load balance, since
290	>	# shading systems usually have bilateral symmetry (L-R)
291	>	$cmd = "cnt $plen $ns $ny $nx " .
292	>	"\| rcalc -e 'r1=rand(($pn+.8681)*recno-.673892)' " .
293	>	"-e 'r2=rand(($pn-5.37138)*recno+67.1737811)' " .
294	>	"-e 'r3=rand(($pn+3.17603772)*recno+83.766771)' " .
295	>	"-e 'r4=rand(($pn-2.3857833)*recno-964.72738)' " .
296	>	"-e 'in_square_x=($pbeg+\$1+r1)/$ns' " .
297	>	"-e 'in_square_y=(\$2+r2)/$ns' -e '$sq2disk' " .
298	>	"-e 'xp=(\$4+r3)*(($dim[1]-$dim[0])/$nx)+$dim[0]' " .
299	>	"-e 'yp=(\$3+r4)*(($dim[3]-$dim[2])/$ny)+$dim[2]' " .
300	>	"-e 'zp=$dim[5-$forw]' -e 'myDz=Dz($forw2-1)' " .
301	>	"-e '\$1=xp-Dx;\$2=yp-Dy;\$3=zp-myDz' " .
302	>	"-e '\$4=Dx;\$5=Dy;\$6=myDz' -of " .
303	>	"\| $cmd";
304	>	}
305	>	# print STDERR "Starting: $cmd\n";
306	>	exec($cmd); # no return; status report to parent via wait
307	>	die "Cannot exec: $cmd\n";
308	>	} # end of bg_tree_rtcontrib()
309	>
310	>	# Simplify and output tensor tree results
311	>	sub ttree_out {
312	>	my $forw = shift;
313	>	my $side = ("Back","Front")[$forw];
314	>	# Only output one transmitted distribution, preferring backwards
315	>	if ( !$forw \|\| !$doback ) {
316	>	print
317	>	' <WavelengthData>
318	>	<LayerNumber>System</LayerNumber>
319	>	<Wavelength unit="Integral">Visible</Wavelength>
320	>	<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
321	>	<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>
322	>	<WavelengthDataBlock>
323	>	<WavelengthDataDirection>Transmission</WavelengthDataDirection>
324	>	<AngleBasis>LBNL/Shirley-Chiu</AngleBasis>
325	>	<ScatteringDataType>BTDF</ScatteringDataType>
326	>	<ScatteringData>
327	>	';
328	>	system "rcalc -if3 -e 'Omega:PI/($ns*$ns)' " .
329	>	q{-e '$1=(0.265$1+0.670$2+0.065*$3)/Omega' -of } .
330	>	"$td/" . ($bmodnm,$fmodnm)[$forw] . "_???.flt " .
331	>	"\| rttree_reduce -h -ff -r $tensortree -g $ttlog2";
332	>	die "Failure running rttree_reduce" if ( $? );
333	>	print
334	>	' </ScatteringData>
335	>	</WavelengthDataBlock>
336	>	</WavelengthData>
337	>	';
338	>	}
339	>	# Output reflection
340	>	print
341	>	' <WavelengthData>
342	>	<LayerNumber>System</LayerNumber>
343	>	<Wavelength unit="Integral">Visible</Wavelength>
344	>	<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
345	>	<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>
346	>	<WavelengthDataBlock>
347	>	';
348	>	print "\t\t\t<WavelengthDataDirection>Reflection $side</WavelengthDataDirection>\n";
349	>	print
350	>	' <AngleBasis>LBNL/Shirley-Chiu</AngleBasis>
351	>	<ScatteringDataType>BRDF</ScatteringDataType>
352	>	<ScatteringData>
353	>	';
354	>	system "rcalc -if3 -e 'Omega:PI/($ns*$ns)' " .
355	>	q{-e '$1=(0.265$1+0.670$2+0.065*$3)/Omega' -of } .
356	>	"$td/" . ($fmodnm,$bmodnm)[$forw] . "_???.flt " .
357	>	"\| rttree_reduce -h -ff -r $tensortree -g $ttlog2";
358	>	die "Failure running rttree_reduce" if ( $? );
359	>	print
360	>	' </ScatteringData>
361	>	</WavelengthDataBlock>
362	>	</WavelengthData>
363	>	';
364	>	} # end of ttree_out()
365	>
366	>	#------------- End of do_tree_bsdf() & subroutines -------------#
367	>
368	>	#+++++++++++++++ Klems matrix BSDF generation +++++++++++++++#
369	>	sub do_matrix_bsdf {
370	>	# Set up sampling of portal
371		# Kbin to produce incident direction in full Klems basis with (x1,x2) randoms
372	<	my $tcal = '
372	>	$tcal = '
373		DEGREE : PI/180;
374		sq(x) : x*x;
375		Kpola(r) : select(r+1, -5, 5, 15, 25, 35, 45, 55, 65, 75, 90);
#	Line 108 \| Line 390 \| *KprojOmega = PI if(Kbin-.5,**
390		1 - sq(cos(Kpola(1)*DEGREE)));
391		';
392		# Compute Klems bin from exiting ray direction (forward or backward)
393	<	my $kcal = '
393	>	$kcal = '
394		DEGREE : PI/180;
395	+	abs(x) : if(x, x, -x);
396		Acos(x) : 1/DEGREE * if(x-1, 0, if(-1-x, 0, acos(x)));
397		posangle(a) : if(-a, a + 2*PI, a);
398		Atan2(y,x) : 1/DEGREE * posangle(atan2(y,x));
#	Line 130 \| Line 413 \| kbin2(pol,azi) = select(kfindrow(1, pol),
413		kaccum(7) + kazn(azi,360/knaz(8)),
414		kaccum(8) + kazn(azi,360/knaz(9))
415		);
416	<	kbin = if(Dz, kbin2(Acos(Dz),Atan2(Dy,Dx)), kbin2(Acos(-Dz),Atan2(-Dy,-Dx)));
416	>	kbin = kbin2(Acos(abs(Dz)),Atan2(Dy,Dx));
417		';
418		my $ndiv = 145;
136	–	my $nx = int(sqrt($nsamp*($dim[1]-$dim[0])/($dim[3]-$dim[2])) + .5);
137	–	my $ny = int($nsamp/$nx + .5);
138	–	$nsamp = $nx * $ny;
419		# Compute scattering data using rtcontrib
420		my @tfarr;
421		my @rfarr;
422		my @tbarr;
423		my @rbarr;
424		my $cmd;
425	<	my $rtargs = "-w -ab 5 -ad 700 -lw 3e-6";
146	<	my $rtcmd = "rtcontrib -h -ff -fo -n $nproc -c $nsamp " .
425	>	my $rtcmd = "rtcontrib $rtargs -h -ff -fo -n $nproc -c $nsamp " .
426		"-e '$kcal' -b kbin -bn $ndiv " .
427	<	"-o '$td/%s.flt' -m $fmodnm -m $bmodnm $rtargs $octree";
427	>	"-o '$td/%s.flt' -m $fmodnm -m $bmodnm $octree";
428		my $rccmd = "rcalc -e '$tcal' " .
429		"-e 'mod(n,d):n-floor(n/d)*d' -e 'Kbin=mod(recno-.999,$ndiv)' " .
430	<	q{-if3 -e '$1=(0.265$1+0.670$2+0.065*$3)/KprojOmega'};
430	>	q{-if3 -e 'oval=(0.265$1+0.670$2+0.065*$3)/KprojOmega' } .
431	>	q[-o '${ oval },'];
432		if ( $doforw ) {
433		$cmd = "cnt $ndiv $ny $nx \| rcalc -of -e '$tcal' " .
434	<	"-e 'xp=(\$3+rand(.35recno-15))(($dim[1]-$dim[0])/$nx)+$dim[0]' " .
435	<	"-e 'yp=(\$2+rand(.86recno+11))(($dim[3]-$dim[2])/$ny)+$dim[2]' " .
436	<	"-e 'zp:$dim[4]-1e-5' " .
437	<	q{-e 'Kbin=$1;x1=rand(1.21recno+2.75);x2=rand(-3.55recno-7.57)' } .
438	<	q{-e '$1=xp;$2=yp;$3=zp;$4=Dx;$5=Dy;$6=Dz' } .
434	>	"-e 'xp=(\$3+rand(.12recno+288))(($dim[1]-$dim[0])/$nx)+$dim[0]' " .
435	>	"-e 'yp=(\$2+rand(.37recno-44))(($dim[3]-$dim[2])/$ny)+$dim[2]' " .
436	>	"-e 'zp:$dim[4]' " .
437	>	q{-e 'Kbin=$1;x1=rand(2.75recno+3.1);x2=rand(-2.01recno-3.37)' } .
438	>	q{-e '$1=xp-Dx;$2=yp-Dy;$3=zp-Dz;$4=Dx;$5=Dy;$6=Dz' } .
439		"\| $rtcmd";
440		system "$cmd" \|\| die "Failure running: $cmd\n";
441		@tfarr = `$rccmd $td/$fmodnm.flt`;
#	Line 167 \| Line 447 \| if ( $doback ) {
447		$cmd = "cnt $ndiv $ny $nx \| rcalc -of -e '$tcal' " .
448		"-e 'xp=(\$3+rand(.35recno-15))(($dim[1]-$dim[0])/$nx)+$dim[0]' " .
449		"-e 'yp=(\$2+rand(.86recno+11))(($dim[3]-$dim[2])/$ny)+$dim[2]' " .
450	<	"-e 'zp:$dim[5]+1e-5' " .
450	>	"-e 'zp:$dim[5]' " .
451		q{-e 'Kbin=$1;x1=rand(1.21recno+2.75);x2=rand(-3.55recno-7.57)' } .
452	<	q{-e '$1=xp;$2=yp;$3=zp;$4=-Dx;$5=-Dy;$6=-Dz' } .
452	>	q{-e '$1=xp-Dx;$2=yp-Dy;$3=zp+Dz;$4=Dx;$5=Dy;$6=-Dz' } .
453		"\| $rtcmd";
454		system "$cmd" \|\| die "Failure running: $cmd\n";
455		@tbarr = `$rccmd $td/$bmodnm.flt`;
#	Line 177 \| Line 457 \| die "Failure running: $rccmd $td/$bmodnm.flt\n" if ( $
457		@rbarr = `$rccmd $td/$fmodnm.flt`;
458		die "Failure running: $rccmd $td/$fmodnm.flt\n" if ( $? );
459		}
460	<	# Output XML prologue
460	>	# Output angle basis
461		print
462	<	'<?xml version="1.0" encoding="UTF-8"?>
463	<	<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">
464	<	<WindowElementType>System</WindowElementType>
185	<	<Optical>
186	<	<Layer>
187	<	<Material>
188	<	<Name>Name</Name>
189	<	<Manufacturer>Manufacturer</Manufacturer>
190	<	';
191	<	printf "\t\t\t<Thickness unit=\"Meter\">%.3f</Thickness>\n", $dim[5] - $dim[4];
192	<	printf "\t\t\t<Width unit=\"Meter\">%.3f</Width>\n", $dim[1] - $dim[0];
193	<	printf "\t\t\t<Height unit=\"Meter\">%.3f</Height>\n", $dim[3] - $dim[2];
194	<	print "\t\t\t<DeviceType>Integral</DeviceType>\n";
195	<	# Output MGF description if requested
196	<	if ( $geout ) {
197	<	print "\t\t\t<Geometry format=\"MGF\" unit=\"Meter\">\n";
198	<	printf "xf -t %.6f %.6f 0\n", -($dim[0]+$dim[1])/2, -($dim[2]+$dim[3])/2;
199	<	system "cat $mgfscn";
200	<	print "xf\n";
201	<	print "\t\t\t</Geometry>\n";
202	<	}
203	<	print ' </Material>
204	<	<DataDefinition>
205	<	<IncidentDataStructure>Columns</IncidentDataStructure>
206	<	<AngleBasis>
462	>	' <DataDefinition>
463	>	<IncidentDataStructure>Columns</IncidentDataStructure>
464	>	<AngleBasis>
465		<AngleBasisName>LBNL/Klems Full</AngleBasisName>
466	<	<AngleBasisBlock>
466	>	<AngleBasisBlock>
467		<Theta>0</Theta>
468		<nPhis>1</nPhis>
469		<ThetaBounds>
470	<	<LowerTheta>0</LowerTheta>
471	<	<UpperTheta>5</UpperTheta>
470	>	<LowerTheta>0</LowerTheta>
471	>	<UpperTheta>5</UpperTheta>
472		</ThetaBounds>
473		</AngleBasisBlock>
474		<AngleBasisBlock>
#	Line 281 \| Line 539 \| print ' </Material>
539		</DataDefinition>
540		';
541		if ( $doforw ) {
542	<	print ' <WavelengthData>
542	>	print
543	>	' <WavelengthData>
544		<LayerNumber>System</LayerNumber>
545		<Wavelength unit="Integral">Visible</Wavelength>
546		<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
#	Line 301 \| Line 560 \| for (my $od = 0; $od < $ndiv; $od++) {
560		print "\n";
561		}
562		print
563	<	' </ScatteringData>
564	<	</WavelengthDataBlock>
563	>	' </ScatteringData>
564	>	</WavelengthDataBlock>
565		</WavelengthData>
566		<WavelengthData>
567		<LayerNumber>System</LayerNumber>
#	Line 324 \| Line 583 \| for (my $od = 0; $od < $ndiv; $od++) {
583		print "\n";
584		}
585		print
586	<	' </ScatteringData>
587	<	</WavelengthDataBlock>
586	>	' </ScatteringData>
587	>	</WavelengthDataBlock>
588		</WavelengthData>
589		';
590		}
591		if ( $doback ) {
592	<	print ' <WavelengthData>
592	>	print
593	>	' <WavelengthData>
594		<LayerNumber>System</LayerNumber>
595		<Wavelength unit="Integral">Visible</Wavelength>
596		<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>
#	Line 350 \| Line 610 \| for (my $od = 0; $od < $ndiv; $od++) {
610		print "\n";
611		}
612		print
613	<	' </ScatteringData>
614	<	</WavelengthDataBlock>
613	>	' </ScatteringData>
614	>	</WavelengthDataBlock>
615		</WavelengthData>
616		<WavelengthData>
617		<LayerNumber>System</LayerNumber>
#	Line 373 \| Line 633 \| for (my $od = 0; $od < $ndiv; $od++) {
633		print "\n";
634		}
635		print
636	<	' </ScatteringData>
637	<	</WavelengthDataBlock>
636	>	' </ScatteringData>
637	>	</WavelengthDataBlock>
638		</WavelengthData>
639		';
640		}
641	<	# Output XML epilogue
642	<	print '</Layer>
383	<	</Optical>
384	<	</WindowElement>
385	<	';
386	<	# Clean up temporary files
387	<	system "rm -rf $td";
641	>	}
642	>	#------------- End of do_matrix_bsdf() --------------#

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Comparing ray/src/util/genBSDF.pl (file contents): Revision 2.9 by greg, Mon Feb 21 22:48:51 2011 UTC vs. Revision 2.24 by greg, Tue Aug 23 14:02:41 2011 UTC

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Comparing ray/src/util/genBSDF.pl (file contents):
Revision 2.9 by greg, Mon Feb 21 22:48:51 2011 UTC vs.
Revision 2.24 by greg, Tue Aug 23 14:02:41 2011 UTC