src/px/phisteq.csh

#!/bin/csh -f
# RCSid: $Id$
set Ldmin=1             # minimum display luminance
set Ldmax=100           # maximum display luminance
set nsteps=100          # number of steps in perceptual histogram
set cvratio=0.08        # fraction of pixels to ignore in envelope clipping
set td=/usr/tmp
set tf1=$td/hist$$
set tf1b=$td/hist$$.new
set tf2=$td/cumt$$
set tf3=$td/histeq$$.cal
set tf4=$td/cf$$.cal
set tf=($tf1 $tf1b $tf2 $tf3 $tf4)
if ( $#argv != 1 ) then
        echo "Usage: $0 input.pic > output.pic"
        exit 1
endif
set ifile=$1
set ibase=$ifile:t
if ( "$ibase" =~ *.pic ) set ibase=$ibase:r
set ibase=$ibase:t
onintr quit
cat > $tf3 << _EOF_
WE : 179;                       { Radiance white luminous efficacy }
Lmin : .0001;                   { minimum allowed luminance }
Ldmin : $Ldmin ;                { minimum output luminance }
Ldmax : $Ldmax ;                { maximum output luminance }
Stepsiz : 1/ $nsteps ;          { brightness step size }
                        { Daly local amplitude nonlinearity formulae }
sq(x) : x*x;
c1 : 12.6;
b : .63;
Bl(L) : L / (L + (c1*L)^b);
Lb(B) : (c1^b*B/(1-B))^(1/(1-b));
BLw(Lw) : Bl(Ldmin) + (Bl(Ldmax)-Bl(Ldmin))*cf(Bl(Lw));
                        { first derivative functions }
Bl1(L) : (c1*L)^b*(1-b)/sq(L + (c1*L)^b);
Lb1(B) : c1^b/(1-b)/sq(1-B) * (c1^b*B/(1-B))^(b/(1-b));
                        { derivative clamping function }
clamp2(L, aLw) : Lb(aLw) / L / Lb1(aLw) / (Bl(Ldmax)-Bl(Ldmin)) / Bl1(L);
clamp(L) : clamp2(L, BLw(L));
                        { histogram equalization function }
lin = li(1);
Lw = WE/le(1) * lin;
Lout = Lb(BLw(Lw));
mult = if(Lw-Lmin, (Lout-Ldmin)/(Ldmax-Ldmin)/lin, 0) ;
ro = mult * ri(1);
go = mult * gi(1);
bo = mult * bi(1);
_EOF_
# Compute brightness histogram
pfilt -1 -p 1 -x 128 -y 128 $ifile | pvalue -o -b -d -h -H \
        | rcalc -f $tf3 -e 'Lw=WE*$1;$1=if(Lw-Lmin,Bl(Lw),-1)' \
        | histo 0 1 $nsteps | sed '/[   ]0$/d' > $tf1
# Clamp frequency distribution
set totcount=`sed 's/^.*[       ]//' $tf1 | total`
set tst=1
while ( $totcount > 0 )
        sed 's/^.*[     ]//' $tf1 | total -1 -r \
                | rcalc -e '$1=$1/'$totcount | lam $tf1 - \
                | tabfunc -i 0 cf > $tf4
        if ( $tst <= 0 ) break
        rcalc -f $tf4 -f $tf3 -e "T:$totcount*Stepsiz" \
                        -e 'clfq=floor(T*clamp(Lb($1)))' \
                        -e '$1=$1;$2=if($2-clfq,clfq,$2)' $tf1 > $tf1b
        set newtot=`sed 's/^.*[         ]//' $tf1b | total`
        set tst=`ev "floor((1-$cvratio)*$totcount)-$newtot"`
        mv -f $tf1b $tf1
        set totcount=$newtot
end
if ( $totcount < 1 ) then
        # Fits in display range nicely already -- just normalize
        pfilt -1 -e `pextrem $ifile | rcalc -e 'cond=recno-1.5;$1=1/(.265*$3+.67*$4+.065*$5)'` $ifile
else
        # Plot the mapping function if we are in debug mode
        if ( $?DEBUG ) then
                cat > ${ibase}_histo.plt << _EOF_
include=curve.plt
title="Brightness Frequency Distribution"
subtitle= $ibase
ymin=0
xlabel="Perceptual Brightness B(Lw)"
ylabel="Frequency Count"
Alabel="Histogram"
Alintype=0
Blabel="Envelope"
Bsymsize=0
Adata=
_EOF_
                (cat $tf1; echo \;; echo Bdata=) >> ${ibase}_histo.plt
                rcalc -f $tf4 -f $tf3 -e "T:$totcount*Stepsiz" \
                        -e '$1=$1;$2=T*clamp(Lb($1))' $tf1 \
                        >> ${ibase}_histo.plt
                cat > ${ibase}_brmap.plt << _EOF_
include=line.plt
title="Brightness Mapping Function"
subtitle= $ibase
xlabel="World Luminance (log cd/m^2)"
ylabel="Display Luminance (cd/m^2)"
ymax= $Ldmax
Adata=
_EOF_
                cnt 100 | rcalc -f $tf4 -f $tf3 -e '$1=lx;$2=Lb(BLw(10^lx))' \
                        -e Lmin:Lb\(`sed -n '1s/[       ].*$//p' $tf1`\) \
                        -e Lmax:Lb\(`sed -n '$s/[       ].*$//p' $tf1`\) \
                        -e 'lx=$1/99*(log10(Lmax)-log10(Lmin))+log10(Lmin)' \
                        >> ${ibase}_brmap.plt
                if ( $?DISPLAY ) then
                        bgraph ${ibase}_histo.plt ${ibase}_brmap.plt | x11meta &
                endif
        endif
        # Map our picture
        pcomb -f $tf4 -f $tf3 $ifile
endif
quit:
rm -f $tf
Revision:	3.1
Committed:	Sat Feb 22 02:07:27 2003 UTC (22 years, 8 months ago) by greg
Content type:	application/x-csh
Branch:	MAIN
CVS Tags:	rad3R5
Log Message:	Changes and check-in for 3.5 release Includes new source files and modifications not recorded for many years See ray/doc/notes/ReleaseNotes for notes between 3.1 and 3.5 release
#	User	Rev	Content
1	greg	3.1	#!/bin/csh -f
2			# RCSid: $Id$
3			set Ldmin=1 # minimum display luminance
4			set Ldmax=100 # maximum display luminance
5			set nsteps=100 # number of steps in perceptual histogram
6			set cvratio=0.08 # fraction of pixels to ignore in envelope clipping
7			set td=/usr/tmp
8			set tf1=$td/hist$$
9			set tf1b=$td/hist$$.new
10			set tf2=$td/cumt$$
11			set tf3=$td/histeq$$.cal
12			set tf4=$td/cf$$.cal
13			set tf=($tf1 $tf1b $tf2 $tf3 $tf4)
14			if ( $#argv != 1 ) then
15			echo "Usage: $0 input.pic > output.pic"
16			exit 1
17			endif
18			set ifile=$1
19			set ibase=$ifile:t
20			if ( "$ibase" =~ *.pic ) set ibase=$ibase:r
21			set ibase=$ibase:t
22			onintr quit
23			cat > $tf3 << _EOF_
24			WE : 179; { Radiance white luminous efficacy }
25			Lmin : .0001; { minimum allowed luminance }
26			Ldmin : $Ldmin ; { minimum output luminance }
27			Ldmax : $Ldmax ; { maximum output luminance }
28			Stepsiz : 1/ $nsteps ; { brightness step size }
29			{ Daly local amplitude nonlinearity formulae }
30			sq(x) : x*x;
31			c1 : 12.6;
32			b : .63;
33			Bl(L) : L / (L + (c1*L)^b);
34			Lb(B) : (c1^b*B/(1-B))^(1/(1-b));
35			BLw(Lw) : Bl(Ldmin) + (Bl(Ldmax)-Bl(Ldmin))*cf(Bl(Lw));
36			{ first derivative functions }
37			Bl1(L) : (c1L)^b(1-b)/sq(L + (c1*L)^b);
38			Lb1(B) : c1^b/(1-b)/sq(1-B) * (c1^b*B/(1-B))^(b/(1-b));
39			{ derivative clamping function }
40			clamp2(L, aLw) : Lb(aLw) / L / Lb1(aLw) / (Bl(Ldmax)-Bl(Ldmin)) / Bl1(L);
41			clamp(L) : clamp2(L, BLw(L));
42			{ histogram equalization function }
43			lin = li(1);
44			Lw = WE/le(1) * lin;
45			Lout = Lb(BLw(Lw));
46			mult = if(Lw-Lmin, (Lout-Ldmin)/(Ldmax-Ldmin)/lin, 0) ;
47			ro = mult * ri(1);
48			go = mult * gi(1);
49			bo = mult * bi(1);
50			_EOF_
51			# Compute brightness histogram
52			pfilt -1 -p 1 -x 128 -y 128 $ifile \| pvalue -o -b -d -h -H \
53			\| rcalc -f $tf3 -e 'Lw=WE*$1;$1=if(Lw-Lmin,Bl(Lw),-1)' \
54			\| histo 0 1 $nsteps \| sed '/[ ]0$/d' > $tf1
55			# Clamp frequency distribution
56			set totcount=`sed 's/^.*[ ]//' $tf1 \| total`
57			set tst=1
58			while ( $totcount > 0 )
59			sed 's/^.*[ ]//' $tf1 \| total -1 -r \
60			\| rcalc -e '$1=$1/'$totcount \| lam $tf1 - \
61			\| tabfunc -i 0 cf > $tf4
62			if ( $tst <= 0 ) break
63			rcalc -f $tf4 -f $tf3 -e "T:$totcount*Stepsiz" \
64			-e 'clfq=floor(T*clamp(Lb($1)))' \
65			-e '$1=$1;$2=if($2-clfq,clfq,$2)' $tf1 > $tf1b
66			set newtot=`sed 's/^.*[ ]//' $tf1b \| total`
67			set tst=`ev "floor((1-$cvratio)*$totcount)-$newtot"`
68			mv -f $tf1b $tf1
69			set totcount=$newtot
70			end
71			if ( $totcount < 1 ) then
72			# Fits in display range nicely already -- just normalize
73			pfilt -1 -e `pextrem $ifile \| rcalc -e 'cond=recno-1.5;$1=1/(.265$3+.67$4+.065*$5)'` $ifile
74			else
75			# Plot the mapping function if we are in debug mode
76			if ( $?DEBUG ) then
77			cat > ${ibase}_histo.plt << _EOF_
78			include=curve.plt
79			title="Brightness Frequency Distribution"
80			subtitle= $ibase
81			ymin=0
82			xlabel="Perceptual Brightness B(Lw)"
83			ylabel="Frequency Count"
84			Alabel="Histogram"
85			Alintype=0
86			Blabel="Envelope"
87			Bsymsize=0
88			Adata=
89			_EOF_
90			(cat $tf1; echo \;; echo Bdata=) >> ${ibase}_histo.plt
91			rcalc -f $tf4 -f $tf3 -e "T:$totcount*Stepsiz" \
92			-e '$1=$1;$2=T*clamp(Lb($1))' $tf1 \
93			>> ${ibase}_histo.plt
94			cat > ${ibase}_brmap.plt << _EOF_
95			include=line.plt
96			title="Brightness Mapping Function"
97			subtitle= $ibase
98			xlabel="World Luminance (log cd/m^2)"
99			ylabel="Display Luminance (cd/m^2)"
100			ymax= $Ldmax
101			Adata=
102			_EOF_
103			cnt 100 \| rcalc -f $tf4 -f $tf3 -e '$1=lx;$2=Lb(BLw(10^lx))' \
104			-e Lmin:Lb\(`sed -n '1s/[ ].*$//p' $tf1`\) \
105			-e Lmax:Lb\(`sed -n '$s/[ ].*$//p' $tf1`\) \
106			-e 'lx=$1/99*(log10(Lmax)-log10(Lmin))+log10(Lmin)' \
107			>> ${ibase}_brmap.plt
108			if ( $?DISPLAY ) then
109			bgraph ${ibase}_histo.plt ${ibase}_brmap.plt \| x11meta &
110			endif
111			endif
112			# Map our picture
113			pcomb -f $tf4 -f $tf3 $ifile
114			endif
115			quit:
116			rm -f $tf