summaryrefslogtreecommitdiff
path: root/xicc/cam02.c
diff options
context:
space:
mode:
authorJörg Frings-Fürst <debian@jff-webhosting.net>2017-11-25 10:16:00 +0100
committerJörg Frings-Fürst <debian@jff-webhosting.net>2017-11-25 10:16:00 +0100
commitf6b8e0eae4374f339487a33e3e4fe5462d5816e1 (patch)
tree5f5f764fd6cda404b2ad6e85762c03fce3a335db /xicc/cam02.c
parent615ab5513e79c4abc5bbe5c993587785b6a1738b (diff)
New upstream version 2.0.0upstream/2.0.0
Diffstat (limited to 'xicc/cam02.c')
-rwxr-xr-x[-rw-r--r--]xicc/cam02.c127
1 files changed, 123 insertions, 4 deletions
diff --git a/xicc/cam02.c b/xicc/cam02.c
index a79aae1..db9c325 100644..100755
--- a/xicc/cam02.c
+++ b/xicc/cam02.c
@@ -197,7 +197,7 @@ double minj = 1e38, maxj = -1e38;
static void cam_free(cam02 *s);
static int set_view(struct _cam02 *s, ViewingCondition Ev, double Wxyz[3],
double La, double Yb, double Lv, double Yf, double Yg, double Gxyz[3],
- int hk, double hkscale);
+ int hk, double hkscale, double mtaf, double Wxyz2[3]);
static int XYZ_to_cam(struct _cam02 *s, double *Jab, double *xyz);
static int cam_to_XYZ(struct _cam02 *s, double *xyz, double *Jab);
@@ -292,7 +292,9 @@ double Yg, /* Flare as a fraction of the adapting/surround (Y range 0.0 .. 1.0)
double Gxyz[3], /* The Glare white coordinates (typically the Ambient color) */
/* If <= 0 will Wxyz will be used. */
int hk, /* Flag, NZ to use Helmholtz-Kohlrausch effect */
-double hkscale /* HK effect scaling factor */
+double hkscale, /* HK effect scaling factor */
+double mtaf, /* Mid tone partial adapation factor from Wxyz to Wxyz2, <= 0.0 if none */
+double Wxyz2[3] /* Mid tone Adapted White XYZ (Y range 0.0 .. 1.0) */
) {
double tt, t1, t2;
double tm[3][3];
@@ -383,6 +385,24 @@ double hkscale /* HK effect scaling factor */
}
s->hk = hk;
s->hkscale = hkscale;
+ if (mtaf > 0.0 && Wxyz2 != NULL) { /* Mid tone Adaption hack enabled */
+ if (mtaf > 1.0)
+ mtaf = 1.0;
+ s->mtaf = mtaf;
+ s->Wxyz2[0] = Wxyz2[0]/Wxyz2[1] * Wxyz[1]; /* Normalize scale */
+ s->Wxyz2[2] = Wxyz2[2]/Wxyz2[1] * Wxyz[1];
+ s->Wxyz2[1] = Wxyz[1];
+ s->mtap = (4.0 * mtaf); /* 0.5 -> pow 4 */
+ s->mtap *= s->mtaf;
+ s->pmta_en = 1;
+ } else {
+ s->mtaf = mtaf;
+ s->Wxyz2[0] = Wxyz[0];
+ s->Wxyz2[1] = Wxyz[1];
+ s->Wxyz2[2] = Wxyz[2];
+ s->mtap = 1.0;
+ s->pmta_en = 0;
+ }
/* The rgba vectors */
s->Va[0] = 1.0;
@@ -432,10 +452,16 @@ double hkscale /* HK effect scaling factor */
s->rgbW[0] = 0.7328 * s->Wxyz[0] + 0.4296 * s->Wxyz[1] - 0.1624 * s->Wxyz[2];
s->rgbW[1] = -0.7036 * s->Wxyz[0] + 1.6975 * s->Wxyz[1] + 0.0061 * s->Wxyz[2];
s->rgbW[2] = 0.0000 * s->Wxyz[0] + 0.0000 * s->Wxyz[1] + 1.0000 * s->Wxyz[2];
+ s->rgbW2[0] = 0.7328 * s->Wxyz2[0] + 0.4296 * s->Wxyz2[1] - 0.1624 * s->Wxyz2[2];
+ s->rgbW2[1] = -0.7036 * s->Wxyz2[0] + 1.6975 * s->Wxyz2[1] + 0.0061 * s->Wxyz2[2];
+ s->rgbW2[2] = 0.0000 * s->Wxyz2[0] + 0.0000 * s->Wxyz2[1] + 1.0000 * s->Wxyz2[2];
#else
s->rgbW[0] = s->Wxyz[0];
s->rgbW[1] = s->Wxyz[1];
s->rgbW[2] = s->Wxyz[2];
+ s->rgbW2[0] = s->Wxyz2[0];
+ s->rgbW2[1] = s->Wxyz2[1];
+ s->rgbW2[2] = s->Wxyz2[2];
#endif
/* Degree of chromatic adaptation */
@@ -445,11 +471,17 @@ double hkscale /* HK effect scaling factor */
s->Drgb[0] = s->D * (s->Wxyz[1]/s->rgbW[0]) + 1.0 - s->D;
s->Drgb[1] = s->D * (s->Wxyz[1]/s->rgbW[1]) + 1.0 - s->D;
s->Drgb[2] = s->D * (s->Wxyz[1]/s->rgbW[2]) + 1.0 - s->D;
+ s->Drgb2[0] = s->D * (s->Wxyz2[1]/s->rgbW2[0]) + 1.0 - s->D;
+ s->Drgb2[1] = s->D * (s->Wxyz2[1]/s->rgbW2[1]) + 1.0 - s->D;
+ s->Drgb2[2] = s->D * (s->Wxyz2[1]/s->rgbW2[2]) + 1.0 - s->D;
- /* Chromaticaly transformed white value */
+ /* Chromaticaly transformed sharpened white value */
s->rgbcW[0] = s->Drgb[0] * s->rgbW[0];
s->rgbcW[1] = s->Drgb[1] * s->rgbW[1];
s->rgbcW[2] = s->Drgb[2] * s->rgbW[2];
+ s->rgbcW2[0] = s->Drgb2[0] * s->rgbW2[0];
+ s->rgbcW2[1] = s->Drgb2[1] * s->rgbW2[1];
+ s->rgbcW2[2] = s->Drgb2[2] * s->rgbW2[2];
#ifndef DISABLE_HPE
/* Transform from spectrally sharpened, to Hunt-Pointer_Estevez cone space */
@@ -462,10 +494,22 @@ double hkscale /* HK effect scaling factor */
s->rgbpW[2] = -0.0096276087384294 * s->rgbcW[0]
- 0.0056980312161134 * s->rgbcW[1]
+ 1.0153256399545427 * s->rgbcW[2];
+ s->rgbpW2[0] = 0.7409744840453773 * s->rgbcW2[0]
+ + 0.2180245944753982 * s->rgbcW2[1]
+ + 0.0410009214792244 * s->rgbcW2[2];
+ s->rgbpW2[1] = 0.2853532916858801 * s->rgbcW2[0]
+ + 0.6242015741188157 * s->rgbcW2[1]
+ + 0.0904451341953042 * s->rgbcW2[2];
+ s->rgbpW2[2] = -0.0096276087384294 * s->rgbcW2[0]
+ - 0.0056980312161134 * s->rgbcW2[1]
+ + 1.0153256399545427 * s->rgbcW2[2];
#else
s->rgbpW[0] = s->rgbcW[0];
s->rgbpW[1] = s->rgbcW[1];
s->rgbpW[2] = s->rgbcW[2];
+ s->rgbpW2[0] = s->rgbcW2[0];
+ s->rgbpW2[1] = s->rgbcW2[1];
+ s->rgbpW2[2] = s->rgbcW2[2];
#endif /* DISABLE_HPE */
#ifndef DISABLE_SCR
@@ -479,6 +523,7 @@ double hkscale /* HK effect scaling factor */
s->cc[1][0] = 0.0; s->cc[1][1] = 1.0; s->cc[1][2] = 0.0;
s->cc[2][0] = 0.0; s->cc[2][1] = 0.0; s->cc[2][2] = 1.0;
#endif
+ icmCpy3x3(s->cc2, s->cc);
/* Chromaticaly transformed sample value */
icmSetUnity3x3(tm);
@@ -487,6 +532,11 @@ double hkscale /* HK effect scaling factor */
tm[2][2] = s->Drgb[2];
icmMul3x3(s->cc, tm);
+ tm[0][0] = s->Drgb2[0];
+ tm[1][1] = s->Drgb2[1];
+ tm[2][2] = s->Drgb2[2];
+ icmMul3x3(s->cc2, tm);
+
#ifndef DISABLE_HPE
/* Transform from spectrally sharpened, to Hunt-Pointer_Estevez cone space */
tm[0][0] = 0.7409744840453773;
@@ -499,10 +549,12 @@ double hkscale /* HK effect scaling factor */
tm[2][1] = -0.0056980312161134;
tm[2][2] = 1.0153256399545427;
icmMul3x3(s->cc, tm);
+ icmMul3x3(s->cc2, tm);
#endif /* DISABLE_HPE */
/* Create inverse combined cone and chromatic transform matrix: */
icmInverse3x3(s->icc, s->cc); /* Hmm. we assume it cannot fail */
+ icmInverse3x3(s->icc2, s->cc2);
#ifdef ENABLE_COMPR
/* Compression ranges */
@@ -594,6 +646,11 @@ double hkscale /* HK effect scaling factor */
printf("Base exponential nonlinearity z = %f\n", s->z);
printf("Post adapted cone response white rgbaW = %f %f %f\n", s->rgbaW[0], s->rgbaW[1], s->rgbaW[2]);
printf("Achromatic response of white Aw = %f\n", s->Aw);
+ if (s->pmta_en) {
+ printf("Mid tone partial adapation factor = %f\n", s->mtaf);
+ printf("Mid tone Adapted White Wxyz2 = %f %f %f\n", s->Wxyz2[0], s->Wxyz2[1], s->Wxyz2[2]);
+ printf("Mid tone partial adapation power = %f\n", s->mtap);
+ }
printf("\n");
#endif
return 0;
@@ -644,6 +701,23 @@ double XYZ[3]
/* all in one step. */
icmMulBy3x3(rgbp, s->cc, xyz);
+ /* Partial mid-tone adapation hack. */
+ /* Blend between two adapation states along Y */
+ if (s->pmta_en) {
+ double rgbp2[3], t;
+
+//printf("\nIn xyz %f %f %f\n",xyz[0], xyz[1], xyz[2]);
+ icmMulBy3x3(rgbp2, s->cc2, xyz);
+ t = xyz[1]/s->Wxyz[1];
+ if (t < 0.0)
+ t = 0.0;
+ else if (t > 1.0)
+ t = 1.0;
+ t = pow(t, s->mtap);
+//printf("Blend %f from %f %f %f and %f %f %f\n",t, rgbp2[0], rgbp2[1], rgbp2[2], rgbp[0], rgbp[1], rgbp[2]);
+ icmBlend3(rgbp, rgbp2, rgbp, t);
+ }
+
TRACE(("rgbp = %f %f %f\n", rgbp[0], rgbp[1], rgbp[2]))
#ifdef ENABLE_COMPR
@@ -1299,7 +1373,52 @@ double Jab[3]
/* Chromaticaly transformed sample value */
/* Spectrally sharpened cone responses */
/* XYZ values */
- icmMulBy3x3(xyz, s->icc, rgbp);
+ if (!s->pmta_en) {
+ icmMulBy3x3(xyz, s->icc, rgbp);
+
+ /* Partial mid-tone adapation hack. */
+ } else {
+ double xyz1[3], xyz2[3], t;
+ int i;
+
+ /* Aprox bwd transform to compute starting value */
+ icmMulBy3x3(xyz1, s->icc, rgbp);
+ icmMulBy3x3(xyz2, s->icc2, rgbp);
+ t = 0.5 * (xyz1[1] + xyz2[1])/s->Wxyz[1];
+ if (t < 0.0)
+ t = 0.0;
+ else if (t > 1.0)
+ t = 1.0;
+ t = pow(t, s->mtap);
+ icmBlend3(xyz, xyz2, xyz1, t);
+
+ /* Simple Newton itteration to more accurately invert */
+ for (i = 0; i < 5; i++) {
+ double rgbp0[3], rgbp1[3], rgbp2[3];
+ double rgbd[3], xyzd0[3], xyzd1[3], xyzd2[3];
+
+ /* Fwd transform */
+ icmMulBy3x3(rgbp1, s->cc, xyz);
+ icmMulBy3x3(rgbp2, s->cc2, xyz);
+ t = xyz[1]/s->Wxyz[1];
+ if (t < 0.0)
+ t = 0.0;
+ else if (t > 1.0)
+ t = 1.0;
+ t = pow(t, s->mtap);
+ icmBlend3(rgbp0, rgbp2, rgbp1, t);
+
+ icmSub3(rgbd, rgbp, rgbp0); /* Error to input value */
+
+ /* Bwd transform of error */
+ icmMulBy3x3(xyzd1, s->icc, rgbd);
+ icmMulBy3x3(xyzd2, s->icc2, rgbd);
+ icmBlend3(xyzd0, xyzd2, xyzd1, t);
+
+ /* Adjust solution for error */
+ icmAdd3(xyz, xyz, xyzd0);
+ }
+ }
TRACE(("XYZ = %f %f %f\n",xyz[0], xyz[1], xyz[2]))