summaryrefslogtreecommitdiffstats
path: root/colorspc.scm
diff options
context:
space:
mode:
authorBryan Newbold <bnewbold@robocracy.org>2017-02-20 00:05:29 -0800
committerBryan Newbold <bnewbold@robocracy.org>2017-02-20 00:05:29 -0800
commit8466d8cfa486fb30d1755c4261b781135083787b (patch)
treec8c12c67246f543c3cc4f64d1c07e003cb1d45ae /colorspc.scm
parent87b82b5822ca54228cfa6df29be3ad9d4bc47d16 (diff)
downloadslib-8466d8cfa486fb30d1755c4261b781135083787b.tar.gz
slib-8466d8cfa486fb30d1755c4261b781135083787b.zip
Import Upstream version 3a1upstream/3a1
Diffstat (limited to 'colorspc.scm')
-rw-r--r--colorspc.scm536
1 files changed, 536 insertions, 0 deletions
diff --git a/colorspc.scm b/colorspc.scm
new file mode 100644
index 0000000..3a88767
--- /dev/null
+++ b/colorspc.scm
@@ -0,0 +1,536 @@
+;;; "colorspc.scm" color-space conversions
+;Copyright 2001, 2002 Aubrey Jaffer
+;
+;Permission to copy this software, to modify it, to redistribute it,
+;to distribute modified versions, and to use it for any purpose is
+;granted, subject to the following restrictions and understandings.
+;
+;1. Any copy made of this software must include this copyright notice
+;in full.
+;
+;2. I have made no warranty or representation that the operation of
+;this software will be error-free, and I am under no obligation to
+;provide any services, by way of maintenance, update, or otherwise.
+;
+;3. In conjunction with products arising from the use of this
+;material, there shall be no use of my name in any advertising,
+;promotional, or sales literature without prior written consent in
+;each case.
+
+(require 'logical)
+(require 'multiarg/and-)
+(require-if 'compiling 'sort)
+(require-if 'compiling 'ciexyz)
+;@
+(define (color:linear-transform matrix row)
+ (map (lambda (mrow) (apply + (map * mrow row)))
+ matrix))
+
+(define RGB709:into-matrix
+ '(( 3.240479 -1.537150 -0.498535 )
+ ( -0.969256 1.875992 0.041556 )
+ ( 0.055648 -0.204043 1.057311 )))
+
+;;; http://www.pima.net/standards/it10/PIMA7667/PIMA7667-2001.PDF gives
+;;; matrix identical to sRGB:from-matrix, but colors drift under
+;;; repeated conversions to and from CIEXYZ. Instead use RGB709.
+
+(define RGB709:from-matrix
+ '(( 0.412453 0.357580 0.180423 )
+ ( 0.212671 0.715160 0.072169 )
+ ( 0.019334 0.119193 0.950227 )))
+
+;; From http://www.cs.rit.edu/~ncs/color/t_convert.html
+;@
+(define (CIEXYZ->RGB709 XYZ)
+ (color:linear-transform RGB709:into-matrix XYZ))
+(define (RGB709->CIEXYZ rgb)
+ (color:linear-transform RGB709:from-matrix rgb))
+
+;;; From http://www.w3.org/Graphics/Color/sRGB.html
+
+(define sRGB-log
+ (lambda (sv)
+ (if (<= sv 0.00304)
+ (* 12.92 sv)
+ (+ -0.055 (* 1.055 (expt sv 10/24))))))
+(define sRGB-exp
+ (lambda (x)
+ (if (<= x 0.03928)
+ (/ x 12.92)
+ (expt (/ (+ 0.055 x) 1.055) 2.4))))
+
+;; Clipping as recommended by sRGB spec.
+;@
+(define (CIEXYZ->sRGB XYZ)
+ (map (lambda (sv)
+ (inexact->exact (round (* 255 (sRGB-log (max 0 (min 1 sv)))))))
+ (color:linear-transform RGB709:into-matrix XYZ)))
+(define (sRGB->CIEXYZ sRGB)
+ (color:linear-transform
+ RGB709:from-matrix
+ (map sRGB-exp
+ (map (lambda (b8v) (/ b8v 255.0)) sRGB))))
+
+;;; sRGB values are sometimes written as 24-bit integers 0xRRGGBB
+;@
+(define (xRGB->sRGB xRGB)
+ (list (ash xRGB -16)
+ (logand (ash xRGB -8) 255)
+ (logand xRGB 255)))
+(define (sRGB->xRGB sRGB)
+ (apply + (map * sRGB '(#x10000 #x100 #x1))))
+;@
+(define (xRGB->CIEXYZ xRGB) (sRGB->CIEXYZ (xRGB->sRGB xRGB)))
+(define (CIEXYZ->xRGB xyz) (sRGB->xRGB (CIEXYZ->sRGB xyz)))
+
+;;; http://www.pima.net/standards/it10/PIMA7667/PIMA7667-2001.PDF
+;;; Photography ­ Electronic still picture imaging ­
+;;; Extended sRGB color encoding ­ e-sRGB
+
+(define e-sRGB-log
+ (lambda (sv)
+ (cond ((< sv -0.0031308)
+ (- 0.055 (* 1.055 (expt (- sv) 10/24))))
+ ((<= sv 0.0031308)
+ (* 12.92 sv))
+ (else (+ -0.055 (* 1.055 (expt sv 10/24)))))))
+(define e-sRGB-exp
+ (lambda (x)
+ (cond ((< x -0.04045)
+ (- (expt (/ (- 0.055 x) 1.055) 2.4)))
+ ((<= x 0.04045)
+ (/ x 12.92))
+ (else (expt (/ (+ 0.055 x) 1.055) 2.4)))))
+;@
+(define (CIEXYZ->e-sRGB n XYZ)
+ (define two^n-9 (ash 1 (- n 9)))
+ (define offset (* 3 (ash 1 (- n 3))))
+ (map (lambda (x)
+ (+ (inexact->exact (round (* x 255 two^n-9))) offset))
+ (map e-sRGB-log
+ (color:linear-transform
+ RGB709:into-matrix
+ XYZ))))
+;@
+(define (e-sRGB->CIEXYZ n rgb)
+ (define two^n-9 (ash 1 (- n 9)))
+ (define offset (* 3 (ash 1 (- n 3))))
+ (color:linear-transform
+ RGB709:from-matrix
+ (map e-sRGB-exp
+ (map (lambda (b8v) (/ (- b8v offset) 255.0 two^n-9))
+ rgb))))
+;@
+(define (sRGB->e-sRGB n sRGB)
+ (define two^n-9 (ash 1 (- n 9)))
+ (define offset (* 3 (ash 1 (- n 3))))
+ (map (lambda (x) (+ offset (* two^n-9 x))) sRGB))
+;@
+(define (e-sRGB->sRGB n rgb)
+ (define two^n-9 (ash 1 (- n 9)))
+ (define offset (* 3 (ash 1 (- n 3))))
+ (map (lambda (x) (/ (- x offset) two^n-9)) rgb))
+;@
+(define (e-sRGB->e-sRGB n rgb m)
+ (define shft (- m n))
+ (cond ((zero? shft) rgb)
+ (else (map (lambda (x) (ash x shft)) rgb))))
+
+;;; From http://www.cs.rit.edu/~ncs/color/t_convert.html
+
+;;; CIE 1976 L*a*b* is based directly on CIE XYZ and is an attampt to
+;;; linearize the perceptibility of color differences. The non-linear
+;;; relations for L*, a*, and b* are intended to mimic the logarithmic
+;;; response of the eye. Coloring information is referred to the color
+;;; of the white point of the system, subscript n.
+
+;;;; L* is CIE lightness
+;;; L* = 116 * (Y/Yn)^1/3 - 16 for Y/Yn > 0.008856
+;;; L* = 903.3 * Y/Yn otherwise
+
+(define (CIE:Y/Yn->L* Y/Yn)
+ (if (> Y/Yn 0.008856)
+ (+ -16 (* 116 (expt Y/Yn 1/3)))
+ (* 903.3 Y/Yn)))
+(define (CIE:L*->Y/Yn L*)
+ (cond ((<= L* (* 903.3 0.008856))
+ (/ L* 903.3))
+ ((<= L* 100.)
+ (expt (/ (+ L* 16) 116) 3))
+ (else 1)))
+
+;;; a* = 500 * ( f(X/Xn) - f(Y/Yn) )
+;;; b* = 200 * ( f(Y/Yn) - f(Z/Zn) )
+;;; where f(t) = t^1/3 for t > 0.008856
+;;; f(t) = 7.787 * t + 16/116 otherwise
+
+(define (ab-log t)
+ (if (> t 0.008856)
+ (expt t 1/3)
+ (+ 16/116 (* t 7.787))))
+(define (ab-exp f)
+ (define f3 (expt f 3))
+ (if (> f3 0.008856)
+ f3
+ (/ (- f 16/116) 7.787)))
+;@
+(define (CIEXYZ->L*a*b* XYZ . white-point)
+ (apply (lambda (X/Xn Y/Yn Z/Zn)
+ (list (CIE:Y/Yn->L* Y/Yn)
+ (* 500 (- (ab-log X/Xn) (ab-log Y/Yn)))
+ (* 200 (- (ab-log Y/Yn) (ab-log Z/Zn)))))
+ (map / XYZ (if (null? white-point)
+ CIEXYZ:D65
+ (car white-point)))))
+
+;;; Here Xn, Yn and Zn are the tristimulus values of the reference white.
+;@
+(define (L*a*b*->CIEXYZ L*a*b* . white-point)
+ (apply (lambda (Xn Yn Zn)
+ (apply (lambda (L* a* b*)
+ (let* ((Y/Yn (CIE:L*->Y/Yn L*))
+ (fY/Yn (ab-log Y/Yn)))
+ (list (* Xn (ab-exp (+ fY/Yn (/ a* 500))))
+ (* Yn Y/Yn)
+ (* Zn (ab-exp (+ fY/Yn (/ b* -200)))))))
+ L*a*b*))
+ (if (null? white-point)
+ CIEXYZ:D65
+ (car white-point))))
+
+;;; XYZ to CIELUV
+
+;;; CIE 1976 L*u*u* (CIELUV) is based directly on CIE XYZ and is another
+;;; attampt to linearize the perceptibility of color differences. L* is
+;;; CIE lightness as for L*a*b* above. The non-linear relations for u*
+;;; and v* are:
+
+;;; u* = 13 L* ( u' - un' )
+;;; v* = 13 L* ( v' - vn' )
+
+;;; The quantities un' and vn' refer to the reference white or the light
+;;; source; for the 2° observer and illuminant C, un' = 0.2009, vn' =
+;;; 0.4610. Equations for u' and v' are given below:
+
+;;; u' = 4 X / (X + 15 Y + 3 Z)
+;;; v' = 9 Y / (X + 15 Y + 3 Z)
+
+(define (XYZ->uv XYZ)
+ (apply (lambda (X Y Z)
+ (define denom (+ X (* 15 Y) (* 3 Z)))
+ (if (zero? denom)
+ '(4. 9.)
+ (list (/ (* 4 X) denom)
+ (/ (* 9 Y) denom))))
+ XYZ))
+;@
+(define (CIEXYZ->L*u*v* XYZ . white-point)
+ (set! white-point (if (null? white-point)
+ CIEXYZ:D65
+ (car white-point)))
+ (let* ((Y/Yn (/ (cadr XYZ) (cadr white-point)))
+ (L* (CIE:Y/Yn->L* Y/Yn)))
+ (cons L* (map (lambda (q) (* 13 L* q))
+ (map - (XYZ->uv XYZ) (XYZ->uv white-point))))))
+
+;;; CIELUV to XYZ
+
+;;; The transformation from CIELUV to XYZ is performed as following:
+
+;;; u' = u / ( 13 L* ) + un
+;;; v' = v / ( 13 L* ) + vn
+;;; X = 9 Y u' / 4 v'
+;;; Z = ( 12 Y - 3 Y u' - 20 Y v' ) / 4 v'
+;@
+(define (L*u*v*->CIEXYZ L*u*v* . white-point)
+ (set! white-point (if (null? white-point)
+ CIEXYZ:D65
+ (car white-point)))
+ (apply (lambda (un vn)
+ (apply (lambda (L* u* v*)
+ (if (not (positive? L*))
+ '(0. 0. 0.)
+ (let* ((up (+ (/ u* 13 L*) un))
+ (vp (+ (/ v* 13 L*) vn))
+ (Y (* (CIE:L*->Y/Yn L*) (cadr white-point))))
+ (list (/ (* 9 Y up) 4 vp)
+ Y
+ (/ (* Y (+ 12 (* -3 up) (* -20 vp))) 4 vp)))))
+ L*u*v*))
+ (XYZ->uv white-point)))
+
+;;; http://www.inforamp.net/~poynton/PDFs/coloureq.pdf
+
+(define pi (* 4 (atan 1)))
+(define pi/180 (/ pi 180))
+;@
+(define (L*a*b*->L*C*h lab)
+ (define h (/ (atan (caddr lab) (cadr lab)) pi/180))
+ (list (car lab)
+ (sqrt (apply + (map * (cdr lab) (cdr lab))))
+ (if (negative? h) (+ 360 h) h)))
+;@
+(define (L*C*h->L*a*b* lch)
+ (apply (lambda (L* C* h)
+ (set! h (* h pi/180))
+ (list L*
+ (* C* (cos h))
+ (* C* (sin h))))
+ lch))
+;@
+(define (L*a*b*:DE* lab1 lab2)
+ (sqrt (apply + (map (lambda (x) (* x x)) (map - lab1 lab2)))))
+
+;;; http://www.colorpro.com/info/data/cie94.html
+
+(define (color:process-params parametric-factors)
+ (define ans
+ (case (length parametric-factors)
+ ((0) #f)
+ ((1) (if (list? parametric-factors)
+ (apply color:process-params parametric-factors)
+ (append parametric-factors '(1 1))))
+ ((2) (append parametric-factors '(1)))
+ ((3) parametric-factors)
+ (else (slib:error 'parametric-factors 'too-many parametric-factors))))
+ (and ans
+ (for-each (lambda (obj)
+ (if (not (number? obj))
+ (slib:error 'parametric-factors 'not 'number? obj)))
+ ans))
+ ans)
+;@
+(define (L*C*h:DE*94 lch1 lch2 . parametric-factors)
+ (define C* (sqrt (* (cadr lch1) (cadr lch2)))) ;Geometric mean
+ (sqrt (apply + (map /
+ (map (lambda (x) (* x x)) (map - lch1 lch2))
+ (list 1 ; S_l
+ (+ 1 (* .045 C*)) ; S_c
+ (+ 1 (* .015 C*))) ; S_h
+ (or (color:process-params parametric-factors)
+ '(1 1 1))))))
+
+;;; CMC-DE is designed only for small color-differences. But try to do
+;;; something reasonable for large differences. Use bisector (h*) of
+;;; the hue angles if separated by less than 90.o; otherwise, pick h of
+;;; the color with larger C*.
+;@
+(define (CMC-DE lch1 lch2 . parametric-factors)
+ (apply (lambda (L* C* h_) ;Geometric means
+ (let ((ang1 (* pi/180 (caddr lch1)))
+ (ang2 (* pi/180 (caddr lch2))))
+ (cond ((>= 90 (abs (/ (atan (sin (- ang1 ang2))
+ (cos (- ang1 ang2)))
+ pi/180)))
+ (set! h_ (/ (atan (+ (sin ang1) (sin ang2))
+ (+ (cos ang1) (cos ang2)))
+ pi/180)))
+ ((>= (cadr lch1) (cadr lch2)) (caddr lch1))
+ (else (caddr lch2))))
+ (let* ((C*^4 (expt C* 4))
+ (f (sqrt (/ C*^4 (+ C*^4 1900))))
+ (T (if (and (> h_ 164) (< h_ 345))
+ (+ 0.56 (abs (* 0.2 (cos (* (+ h_ 168) pi/180)))))
+ (+ 0.36 (abs (* 0.4 (cos (* (+ h_ 35) pi/180)))))))
+ (S_l (if (< L* 16)
+ 0.511
+ (/ (* 0.040975 L*) (+ 1 (* 0.01765 L*)))))
+ (S_c (+ (/ (* 0.0638 C*) (+ 1 (* 0.0131 C*))) 0.638))
+ (S_h (* S_c (+ (* (+ -1 T) f) 1))))
+ (sqrt (apply
+ + (map /
+ (map (lambda (x) (* x x)) (map - lch1 lch2))
+ (list S_l S_c S_h)
+ (or (color:process-params parametric-factors)
+ '(2 1 1)))))))
+ (map sqrt (map * lch1 lch2))))
+;@
+(define (XYZ:normalize-colors lst)
+ (define sum (apply max (map (lambda (XYZ) (apply + XYZ)) lst)))
+ (map (lambda (XYZ) (map (lambda (x) (/ x sum)) XYZ)) lst))
+;@
+(define (XYZ:normalize XYZ)
+ (car (XYZ:normalize-colors (list XYZ))))
+
+;;; Chromaticity
+;@
+(define (XYZ->chromaticity XYZ)
+ (define sum (apply + XYZ))
+ (list (/ (car XYZ) sum) (/ (cadr XYZ) sum)))
+;@
+(define (chromaticity->CIEXYZ x y)
+ (list x y (- 1 x y)))
+(define (chromaticity->whitepoint x y)
+ (list (/ x y) 1 (/ (- 1 x y) y)))
+;@
+(define (XYZ->xyY XYZ)
+ (define sum (apply + XYZ))
+ (if (zero? sum)
+ '(0 0 0)
+ (list (/ (car XYZ) sum) (/ (cadr XYZ) sum) (cadr XYZ))))
+;@
+(define (xyY->XYZ xyY)
+ (define x (car xyY))
+ (define y (cadr xyY))
+ (if (zero? y)
+ '(0 0 0)
+ (let ((Y/y (/ (caddr xyY) y)))
+ (list (* Y/y x) (caddr xyY) (* Y/y (- 1 x y))))))
+;@
+(define (xyY:normalize-colors lst . n)
+ (define (nthcdr n lst) (if (zero? n) lst (nthcdr (+ -1 n) (cdr lst))))
+ (define Ys (map caddr lst))
+ (set! n (if (null? n) 1 (car n)))
+ (let ((max-Y (if (positive? n)
+ (* n (apply max Ys))
+ (let ()
+ (require 'sort)
+ (apply max (nthcdr (- n) (sort Ys >=)))))))
+ (map (lambda (xyY)
+ (let ((x (max 0 (car xyY)))
+ (y (max 0 (cadr xyY))))
+ (define sum (max 1 (+ x y)))
+ (list (/ x sum)
+ (/ y sum)
+ (max 0 (min 1 (/ (caddr xyY) max-Y))))))
+ lst)))
+
+;;; http://www.aim-dtp.net/aim/technology/cie_xyz/cie_xyz.htm:
+;;; Illuminant D65 0.312713 0.329016
+;; (define CIEXYZ:D65 (chromaticity->whitepoint 0.312713 0.329016))
+;; (define CIEXYZ:D65 (chromaticity->whitepoint 0.3127 0.3290))
+;@
+(define CIEXYZ:D50 (chromaticity->whitepoint 0.3457 0.3585))
+
+;;; With its 16-bit resolution, e-sRGB-16 is extremely sensitive to
+;;; whitepoint. Even the 6 digits of precision specified above is
+;;; insufficient to make (color->e-srgb 16 d65) ==> (57216 57216 57216)
+;@
+(define CIEXYZ:D65 (e-sRGB->CIEXYZ 16 '(57216 57216 57216)))
+
+;;; http://www.efg2.com/Lab/Graphics/Colors/Chromaticity.htm CIE 1931:
+;@
+(define CIEXYZ:A (chromaticity->whitepoint 0.44757 0.40745)) ; 2856.K
+(define CIEXYZ:B (chromaticity->whitepoint 0.34842 0.35161)) ; 4874.K
+(define CIEXYZ:C (chromaticity->whitepoint 0.31006 0.31616)) ; 6774.K
+(define CIEXYZ:E (chromaticity->whitepoint 1/3 1/3)) ; 5400.K
+
+;;; Converting spectra
+(define cie:x-bar #f)
+(define cie:y-bar #f)
+(define cie:z-bar #f)
+;@
+(define (load-ciexyz . path)
+ (let ((path (if (null? path)
+ (in-vicinity (library-vicinity) "cie1931.xyz")
+ (car path))))
+ (set! cie:x-bar (make-vector 80))
+ (set! cie:y-bar (make-vector 80))
+ (set! cie:z-bar (make-vector 80))
+ (call-with-input-file path
+ (lambda (iprt)
+ (do ((wlen 380 (+ 5 wlen))
+ (idx 0 (+ 1 idx)))
+ ((>= wlen 780))
+ (let ((rlen (read iprt)))
+ (if (not (eqv? wlen rlen))
+ (slib:error path 'expected wlen 'not rlen))
+ (vector-set! cie:x-bar idx (read iprt))
+ (vector-set! cie:y-bar idx (read iprt))
+ (vector-set! cie:z-bar idx (read iprt))))))))
+;@
+(define (wavelength->XYZ wl)
+ (if (not cie:y-bar) (require 'ciexyz))
+ (set! wl (- (/ wl 5.e-9) 380/5))
+ (if (<= 0 wl (+ -1 400/5))
+ (let* ((wlf (inexact->exact (floor wl)))
+ (res (- wl wlf)))
+ (define (interpolate vect idx res)
+ (+ (* res (vector-ref vect idx))
+ (* (- 1 res) (vector-ref vect (+ 1 idx)))))
+ (list (interpolate cie:x-bar wlf res)
+ (interpolate cie:y-bar wlf res)
+ (interpolate cie:z-bar wlf res)))
+ (slib:error 'wavelength->XYZ 'out-of-range wl)))
+(define (wavelength->CIEXYZ wl)
+ (XYZ:normalize (wavelength->XYZ wl)))
+(define (wavelength->chromaticity wl)
+ (XYZ->chromaticity (wavelength->XYZ wl)))
+;@
+(define (spectrum->XYZ . args)
+ (define x 0)
+ (define y 0)
+ (define z 0)
+ (if (not cie:y-bar) (require 'ciexyz))
+ (case (length args)
+ ((1)
+ (set! args (car args))
+ (do ((wvln 380.e-9 (+ 5.e-9 wvln))
+ (idx 0 (+ 1 idx)))
+ ((>= idx 80) (map (lambda (x) (/ x 80)) (list x y z)))
+ (let ((inten (args wvln)))
+ (set! x (+ x (* (vector-ref cie:x-bar idx) inten)))
+ (set! y (+ y (* (vector-ref cie:y-bar idx) inten)))
+ (set! z (+ z (* (vector-ref cie:z-bar idx) inten))))))
+ ((3)
+ (let* ((vect (if (list? (car args)) (list->vector (car args)) (car args)))
+ (vlen (vector-length vect))
+ (x1 (cadr args))
+ (x2 (caddr args))
+ (xinc (/ (- x2 x1) (+ -1 vlen)))
+ (x->j (lambda (x) (inexact->exact (round (/ (- x x1) xinc)))))
+ (x->k (lambda (x) (inexact->exact (round (/ (- x 380.e-9) 5.e-9)))))
+ (j->x (lambda (j) (+ x1 (* j xinc))))
+ (k->x (lambda (k) (+ 380.e-9 (* k 5.e-9))))
+ (xlo (max (min x1 x2) 380.e-9))
+ (xhi (min (max x1 x2) 780.e-9))
+ (jhi (x->j xhi))
+ (khi (x->k xhi))
+ (jinc (if (negative? xinc) -1 1)))
+ (if (<= (abs xinc) 5.e-9)
+ (do ((wvln (j->x (x->j xlo)) (+ wvln (abs xinc)))
+ (jdx (x->j xlo) (+ jdx jinc)))
+ ((>= jdx jhi)
+ (let ((nsmps (abs (- jhi (x->j xlo)))))
+ (map (lambda (x) (/ x nsmps)) (list x y z))))
+ (let ((ciedex (min 79 (x->k wvln)))
+ (inten (vector-ref vect jdx)))
+ (set! x (+ x (* (vector-ref cie:x-bar ciedex) inten)))
+ (set! y (+ y (* (vector-ref cie:y-bar ciedex) inten)))
+ (set! z (+ z (* (vector-ref cie:z-bar ciedex) inten)))))
+ (do ((wvln (k->x (x->k xlo)) (+ wvln 5.e-9))
+ (kdx (x->k xlo) (+ kdx 1)))
+ ((>= kdx khi)
+ (let ((nsmps (abs (- khi (x->k xlo)))))
+ (map (lambda (x) (/ x nsmps)) (list x y z))))
+ (let ((inten (vector-ref vect (x->j wvln))))
+ (set! x (+ x (* (vector-ref cie:x-bar kdx) inten)))
+ (set! y (+ y (* (vector-ref cie:y-bar kdx) inten)))
+ (set! z (+ z (* (vector-ref cie:z-bar kdx) inten))))))))
+ (else (slib:error 'spectrum->XYZ 'wna args))))
+(define (spectrum->CIEXYZ . args)
+ (XYZ:normalize (apply spectrum->XYZ args)))
+(define (spectrum->chromaticity . args)
+ (XYZ->chromaticity (apply spectrum->XYZ args)))
+;@
+(define blackbody-spectrum
+ (let* ((c 2.998e8)
+ (h 6.626e-34)
+ (h*c (* h c))
+ (k 1.381e-23)
+ (pi*2*h*c*c (* 2 pi h*c c)))
+ (lambda (temp . span)
+ (define h*c/kT (/ h*c k temp))
+ (define pi*2*h*c*c*span (* pi*2*h*c*c (if (null? span) 1.e-9 (car span))))
+ (lambda (x)
+ (/ pi*2*h*c*c*span
+ (expt x 5)
+ (- (exp (/ h*c/kT x)) 1))))))
+;@
+(define (temperature->XYZ temp)
+ (spectrum->XYZ (blackbody-spectrum temp 5.e-9)))
+(define (temperature->CIEXYZ temp)
+ (XYZ:normalize (temperature->XYZ temp)))
+(define (temperature->chromaticity temp)
+ (XYZ->chromaticity (temperature->XYZ temp)))