src/cv/iso2klems.pl

#!/usr/bin/perl -w
# RCSid $Id$
#
# Convert tabulated isotropic direct-hemispherical and direct-direct to Klems XML
#
#       G. Ward
#
use strict;
my $windoz = ($^O eq "MSWin32" or $^O eq "MSWin64");
use File::Temp qw/ :mktemp  /;
sub userror {
        print STDERR "Usage: iso2klems [-t][-W][-s \"x=string;y=string\"] [input.dat]\n";
        exit 1;
}
my ($td,$rmtmp,$cmd);
if ($windoz) {
        my $tmploc = `echo \%TMP\%`;
        chomp $tmploc;
        $td = mkdtemp("$tmploc\\iso2klems.XXXXXX");
        $rmtmp = "rd /S /Q $td";
} else {
        $td = mkdtemp("/tmp/iso2klems.XXXXXX");
        chomp $td;
        $rmtmp = "rm -rf $td";
}
my $wrapper = 'wrapBSDF -W -a kf -C "Generated by iso2klems"';
my $reverse = 0;
# Get options
while ($#ARGV >= 0) {
        if  ("$ARGV[0]" eq "-t") {
                $reverse = ! $reverse;
        } elsif ("$ARGV[0]" eq "-s") {
                $wrapper .= " -f \"$ARGV[1]\"";
                shift @ARGV;
        } elsif ("$ARGV[0]" =~ /^-./) {
                userror();
        } else {
                last;
        }
        shift @ARGV;
}
my $funcfile = "$td/isofuncs.cal";
my @vnm = ("Tspec","Tdiff","Rspec","Rdiff");
system "cat @ARGV | tabfunc -i @vnm > $funcfile";
die "Invalid input data, requires 5 columns\n" if ( $? );
open (MYFH, ">> $funcfile");
print MYFH "DEG : PI/180;\n";
print MYFH "and(a,b) : if(a,b,a);\n";
print MYFH "eq(a,b) : min(a-b+1e-5,b-a+1e-5);\n";
print MYFH "rtheta(i) : select(i,5,15,25,35,45,55,65,75,90);\n";
print MYFH "nphis(i) : select(i,1,8,16,20,24,24,24,16,12);\n";
print MYFH "tdeg1(tb) : if(tb-1.5, (rtheta(tb)+rtheta(tb-1))/2, 0);\n";
print MYFH "omega1(tb) : 2*PI*if(tb-1.5, (cos(rtheta(tb-1)*DEG)-cos(rtheta(tb)*DEG))/nphis(tb),";
print MYFH "\t(1 - cos(rtheta(1)*DEG)));\n";
print MYFH "tbin(b,cnt) : if(nphis(b)-cnt-.5, b, tbin(b+1,cnt-nphis(b)));\n";
print MYFH "tdeg(b) : tdeg1(tbin(1,b-1));\n";
print MYFH "omega(b) : omega1(tbin(1,b-1));\n";
close MYFH;
# Compute front and back diffuse hemispherical integrals
my $hsamps = 26;
my $nsamps = $hsamps * 2;
if ($windoz) {
        $cmd = qq{cnt $nsamps } .
                qq{| rcalc -f $funcfile -w -e "tdeg=180/$nsamps*(\$1+.5);abs(x):if(x,x,-x)" } .
                qq{-e "theta=tdeg*DEG;ifact=2*PI*abs(cos(theta))*sin(theta)" } .
                q{-e "$1=ifact*Tdiff(tdeg);$2=ifact*Rdiff(tdeg)" } .
                qq{| total -$hsamps -m};
} else {
        $cmd = qq{cnt $nsamps } .
                qq{| rcalc -f $funcfile -w -e 'tdeg=180/$nsamps*(\$1+.5);abs(x):if(x,x,-x)' } .
                qq{-e 'theta=tdeg*DEG;ifact=2*PI*abs(cos(theta))*sin(theta)' } .
                q{-e '$1=ifact*Tdiff(tdeg);$2=ifact*Rdiff(tdeg)' -od } .
                qq{| total -id2 -$hsamps -m};
}
# Returns side 1 Th-h, side 1 Rh-h, side 2 Th-h, side 2 Rh-h
my @h2h = split /\s+/, `$cmd`;
die "Error running rcalc" if ( $? || $#h2h != 3 );
# Compute Klems matrices
my $TK1dataf = "$td/trans1m.txt";
my $RK1dataf = "$td/refl1m.txt";
my $TK2dataf = "$td/trans2m.txt";
my $RK2dataf = "$td/refl2m.txt";
if ($windoz) {
        $cmd = qq{cnt 145 145 } .
                qq{| rcalc -f $funcfile } .
                q{-e "diag=eq($1,$2);tideg=tdeg($1+1);tsdeg=tdeg($2+1);om=omega($1+1);corr=PI/(PI-om)" } .
                qq{-e "Td1=if($h2h[0]-.001,Tdiff(tideg)*Tdiff(tsdeg)/$h2h[0],0)" } .
                qq{-e "Rd1=if($h2h[1]-.001,Rdiff(tideg)*Rdiff(tsdeg)/$h2h[1],0)" } .
                qq{-e "Td2=if($h2h[2]-.001,Tdiff(180-tideg)*Tdiff(180-tsdeg)/$h2h[2],0)" } .
                qq{-e "Rd2=if($h2h[3]-.001,Rdiff(180-tideg)*Rdiff(180-tsdeg)/$h2h[3],0)" } .
                qq{-e "\$1=if(Tspec(0),if(diag,Tspec(tideg)/om,Td1*corr),Td1)" } .
                qq{-e "\$2=if(Rspec(0),if(diag,Rspec(tideg)/om,Rd1*corr),Rd1)" } .
                qq{-e "\$3=if(Tspec(180),if(diag,Tspec(180-tideg)/om,Td2*corr),Td2)" } .
                qq{-e "\$4=if(Rspec(180),if(diag,Rspec(180-tideg)/om,Rd2*corr),Rd2)" };
} else {
        $cmd = qq{cnt 145 145 } .
                qq{| rcalc -f $funcfile } .
                q{-e 'diag=eq($1,$2);tideg=tdeg($1+1);tsdeg=tdeg($2+1);om=omega($1+1);corr=PI/(PI-om)' } .
                qq{-e 'Td1=if($h2h[0]-.001,Tdiff(tideg)*Tdiff(tsdeg)/$h2h[0],0)' } .
                qq{-e 'Rd1=if($h2h[1]-.001,Rdiff(tideg)*Rdiff(tsdeg)/$h2h[1],0)' } .
                qq{-e 'Td2=if($h2h[2]-.001,Tdiff(180-tideg)*Tdiff(180-tsdeg)/$h2h[2],0)' } .
                qq{-e 'Rd2=if($h2h[3]-.001,Rdiff(180-tideg)*Rdiff(180-tsdeg)/$h2h[3],0)' } .
                qq{-e '\$1=if(Tspec(0),if(diag,Tspec(tideg)/om,Td1*corr),Td1)' } .
                qq{-e '\$2=if(Rspec(0),if(diag,Rspec(tideg)/om,Rd1*corr),Rd1)' } .
                qq{-e '\$3=if(Tspec(180),if(diag,Tspec(180-tideg)/om,Td2*corr),Td2)' } .
                qq{-e '\$4=if(Rspec(180),if(diag,Rspec(180-tideg)/om,Rd2*corr),Rd2)' };
}
system qq{$cmd | rsplit "-t " $TK1dataf $RK1dataf $TK2dataf $RK2dataf};
die "Error running rcalc or rsplit" if ( $? );
if ($reverse) {
        $wrapper .= " -tf $TK2dataf -rf $RK2dataf -tb $TK1dataf -rb $RK1dataf";
} else {
        $wrapper .= " -tf $TK1dataf -rf $RK1dataf -tb $TK2dataf -rb $RK2dataf";
}
system $wrapper;
die "Error running: $wrapper\n" if ( $? );
exec $rmtmp;
Revision:	2.1
Committed:	Tue Mar 8 19:04:56 2022 UTC (3 years, 7 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Log Message:	feat(iso2klems): New script to generate Klems BSDF from simplified measurements
#	User	Rev	Content
1	greg	2.1	#!/usr/bin/perl -w
2			# RCSid $Id$
3			#
4			# Convert tabulated isotropic direct-hemispherical and direct-direct to Klems XML
5			#
6			# G. Ward
7			#
8			use strict;
9			my $windoz = ($^O eq "MSWin32" or $^O eq "MSWin64");
10			use File::Temp qw/ :mktemp /;
11			sub userror {
12			print STDERR "Usage: iso2klems [-t][-W][-s \"x=string;y=string\"] [input.dat]\n";
13			exit 1;
14			}
15			my ($td,$rmtmp,$cmd);
16			if ($windoz) {
17			my $tmploc = `echo \%TMP\%`;
18			chomp $tmploc;
19			$td = mkdtemp("$tmploc\\iso2klems.XXXXXX");
20			$rmtmp = "rd /S /Q $td";
21			} else {
22			$td = mkdtemp("/tmp/iso2klems.XXXXXX");
23			chomp $td;
24			$rmtmp = "rm -rf $td";
25			}
26			my $wrapper = 'wrapBSDF -W -a kf -C "Generated by iso2klems"';
27			my $reverse = 0;
28			# Get options
29			while ($#ARGV >= 0) {
30			if ("$ARGV[0]" eq "-t") {
31			$reverse = ! $reverse;
32			} elsif ("$ARGV[0]" eq "-s") {
33			$wrapper .= " -f \"$ARGV[1]\"";
34			shift @ARGV;
35			} elsif ("$ARGV[0]" =~ /^-./) {
36			userror();
37			} else {
38			last;
39			}
40			shift @ARGV;
41			}
42			my $funcfile = "$td/isofuncs.cal";
43			my @vnm = ("Tspec","Tdiff","Rspec","Rdiff");
44			system "cat @ARGV \| tabfunc -i @vnm > $funcfile";
45			die "Invalid input data, requires 5 columns\n" if ( $? );
46			open (MYFH, ">> $funcfile");
47			print MYFH "DEG : PI/180;\n";
48			print MYFH "and(a,b) : if(a,b,a);\n";
49			print MYFH "eq(a,b) : min(a-b+1e-5,b-a+1e-5);\n";
50			print MYFH "rtheta(i) : select(i,5,15,25,35,45,55,65,75,90);\n";
51			print MYFH "nphis(i) : select(i,1,8,16,20,24,24,24,16,12);\n";
52			print MYFH "tdeg1(tb) : if(tb-1.5, (rtheta(tb)+rtheta(tb-1))/2, 0);\n";
53			print MYFH "omega1(tb) : 2PIif(tb-1.5, (cos(rtheta(tb-1)DEG)-cos(rtheta(tb)DEG))/nphis(tb),";
54			print MYFH "\t(1 - cos(rtheta(1)*DEG)));\n";
55			print MYFH "tbin(b,cnt) : if(nphis(b)-cnt-.5, b, tbin(b+1,cnt-nphis(b)));\n";
56			print MYFH "tdeg(b) : tdeg1(tbin(1,b-1));\n";
57			print MYFH "omega(b) : omega1(tbin(1,b-1));\n";
58			close MYFH;
59			# Compute front and back diffuse hemispherical integrals
60			my $hsamps = 26;
61			my $nsamps = $hsamps * 2;
62			if ($windoz) {
63			$cmd = qq{cnt $nsamps } .
64			qq{\| rcalc -f $funcfile -w -e "tdeg=180/$nsamps*(\$1+.5);abs(x):if(x,x,-x)" } .
65			qq{-e "theta=tdegDEG;ifact=2PIabs(cos(theta))sin(theta)" } .
66			q{-e "$1=ifactTdiff(tdeg);$2=ifactRdiff(tdeg)" } .
67			qq{\| total -$hsamps -m};
68			} else {
69			$cmd = qq{cnt $nsamps } .
70			qq{\| rcalc -f $funcfile -w -e 'tdeg=180/$nsamps*(\$1+.5);abs(x):if(x,x,-x)' } .
71			qq{-e 'theta=tdegDEG;ifact=2PIabs(cos(theta))sin(theta)' } .
72			q{-e '$1=ifactTdiff(tdeg);$2=ifactRdiff(tdeg)' -od } .
73			qq{\| total -id2 -$hsamps -m};
74			}
75			# Returns side 1 Th-h, side 1 Rh-h, side 2 Th-h, side 2 Rh-h
76			my @h2h = split /\s+/, `$cmd`;
77			die "Error running rcalc" if ( $? \|\| $#h2h != 3 );
78			# Compute Klems matrices
79			my $TK1dataf = "$td/trans1m.txt";
80			my $RK1dataf = "$td/refl1m.txt";
81			my $TK2dataf = "$td/trans2m.txt";
82			my $RK2dataf = "$td/refl2m.txt";
83			if ($windoz) {
84			$cmd = qq{cnt 145 145 } .
85			qq{\| rcalc -f $funcfile } .
86			q{-e "diag=eq($1,$2);tideg=tdeg($1+1);tsdeg=tdeg($2+1);om=omega($1+1);corr=PI/(PI-om)" } .
87			qq{-e "Td1=if($h2h[0]-.001,Tdiff(tideg)*Tdiff(tsdeg)/$h2h[0],0)" } .
88			qq{-e "Rd1=if($h2h[1]-.001,Rdiff(tideg)*Rdiff(tsdeg)/$h2h[1],0)" } .
89			qq{-e "Td2=if($h2h[2]-.001,Tdiff(180-tideg)*Tdiff(180-tsdeg)/$h2h[2],0)" } .
90			qq{-e "Rd2=if($h2h[3]-.001,Rdiff(180-tideg)*Rdiff(180-tsdeg)/$h2h[3],0)" } .
91			qq{-e "\$1=if(Tspec(0),if(diag,Tspec(tideg)/om,Td1*corr),Td1)" } .
92			qq{-e "\$2=if(Rspec(0),if(diag,Rspec(tideg)/om,Rd1*corr),Rd1)" } .
93			qq{-e "\$3=if(Tspec(180),if(diag,Tspec(180-tideg)/om,Td2*corr),Td2)" } .
94			qq{-e "\$4=if(Rspec(180),if(diag,Rspec(180-tideg)/om,Rd2*corr),Rd2)" };
95			} else {
96			$cmd = qq{cnt 145 145 } .
97			qq{\| rcalc -f $funcfile } .
98			q{-e 'diag=eq($1,$2);tideg=tdeg($1+1);tsdeg=tdeg($2+1);om=omega($1+1);corr=PI/(PI-om)' } .
99			qq{-e 'Td1=if($h2h[0]-.001,Tdiff(tideg)*Tdiff(tsdeg)/$h2h[0],0)' } .
100			qq{-e 'Rd1=if($h2h[1]-.001,Rdiff(tideg)*Rdiff(tsdeg)/$h2h[1],0)' } .
101			qq{-e 'Td2=if($h2h[2]-.001,Tdiff(180-tideg)*Tdiff(180-tsdeg)/$h2h[2],0)' } .
102			qq{-e 'Rd2=if($h2h[3]-.001,Rdiff(180-tideg)*Rdiff(180-tsdeg)/$h2h[3],0)' } .
103			qq{-e '\$1=if(Tspec(0),if(diag,Tspec(tideg)/om,Td1*corr),Td1)' } .
104			qq{-e '\$2=if(Rspec(0),if(diag,Rspec(tideg)/om,Rd1*corr),Rd1)' } .
105			qq{-e '\$3=if(Tspec(180),if(diag,Tspec(180-tideg)/om,Td2*corr),Td2)' } .
106			qq{-e '\$4=if(Rspec(180),if(diag,Rspec(180-tideg)/om,Rd2*corr),Rd2)' };
107			}
108			system qq{$cmd \| rsplit "-t " $TK1dataf $RK1dataf $TK2dataf $RK2dataf};
109			die "Error running rcalc or rsplit" if ( $? );
110			if ($reverse) {
111			$wrapper .= " -tf $TK2dataf -rf $RK2dataf -tb $TK1dataf -rb $RK1dataf";
112			} else {
113			$wrapper .= " -tf $TK1dataf -rf $RK1dataf -tb $TK2dataf -rb $RK2dataf";
114			}
115			system $wrapper;
116			die "Error running: $wrapper\n" if ( $? );
117			exec $rmtmp;