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vcd_interpolate.c
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/* This file was taken from modified dcraw published by Paul Lee
on January 23, 2009, taking dcraw ver.8.90/rev.1.417
as basis.
http://sites.google.com/site/demosaicalgorithms/modified-dcraw
As modified dcraw source code was published, the release under
GPL Version 2 or later option could be applied, so this file
is taken under this premise.
*/
/*
Color Demosaicing Using Variance of Color Differences
by K.H Chung and Y.H Chan
*/
#define PIX_SORT(a,b) { if ((a)>(b)) {temp=(a);(a)=(b);(b)=temp;} }
/*
Christos :
If ahd == 0 then its just VCD
*/
void CLASS vcd_interpolate(int ahd_cutoff)
{
int row, col, indx, c, d, i, j;
ushort (*pix)[4];
int w1, w2, w3, w4, w5, w6, v0, v1, v2, v3, v4, LH, LV, var_dir;
int AHD_cnt, LH_cnt, LV_cnt, varH_cnt, varV_cnt, varD_cnt, T_cnt;
int dC0, dC1, dC2, dC3, dC4, temp;
double e, T, d1, d3, d5, d7, d9, varH, varV, varD, var0;
clock_t t1, t2;
double dt;
#ifdef DCRAW_VERBOSE
if (verbose) fprintf(stderr,_("VCD interpolation...\n"));
#endif
t1 = clock();
/* assume VCD's T value is based on gamma=2.22 test images */
T = 2;
AHD_cnt = LH_cnt = LV_cnt = varH_cnt = varV_cnt = varD_cnt = 0;
w1 = width;
w2 = 2*w1;
w3 = 3*w1;
w4 = 4*w1;
w5 = 5*w1;
w6 = 6*w1;
border_interpolate(6);
/* run AHD interpolation on Green channel with threshold */
if (ahd_cutoff > 0) ahd_partial_interpolate(ahd_cutoff);
/* Interpolate green pixels on red/blue pixel locations */
for (row=6; row < height-6; row++)
for (col=6+(FC(row,6) & 1), c=FC(row,col); col < width-6; col+=2) {
indx = row*width+col;
pix = image + indx;
d = 2 - c;
if (image[indx][1] > 0) {
var_dir = 4;
AHD_cnt++; }
else {
/* LH: Eq.(6) */
LH =
ABS(pix[-2-w2][c]-pix[-w2][c]) + ABS(pix[-w2][c]-pix[2-w2][c]) +
ABS(pix[-2 ][c]-pix[ 0][c]) + ABS(pix[ 0][c]-pix[2 ][c]) +
ABS(pix[-2+w2][c]-pix[ w2][c]) + ABS(pix[ w2][c]-pix[2+w2][c]) +
ABS(pix[-2-w1][1]-pix[-w1][1]) + ABS(pix[-w1][1]-pix[2-w1][1]) +
ABS(pix[-2+w1][1]-pix[ w1][1]) + ABS(pix[ w1][1]-pix[2+w1][1]) +
ABS(pix[-1-w2][1]-pix[-w2][c]) + ABS(pix[-w2][c]-pix[1-w2][1]) +
ABS(pix[-1 ][1]-pix[ 0][c]) + ABS(pix[ 0][c]-pix[1 ][1]) +
ABS(pix[-1+w2][1]-pix[ w2][c]) + ABS(pix[ w2][c]-pix[1+w2][1]) +
ABS(pix[-1-w1][d]-pix[-w1][1]) + ABS(pix[-w1][1]-pix[1-w1][d]) +
ABS(pix[-1+w1][d]-pix[ w1][1]) + ABS(pix[ w1][1]-pix[1+w1][d]);
/* LV: Eq.(7) */
LV =
ABS(pix[-2-w2][c]-pix[-2][c]) + ABS(pix[-2][c]-pix[-2+w2][c]) +
ABS(pix[ -w2][c]-pix[ 0][c]) + ABS(pix[ 0][c]-pix[ w2][c]) +
ABS(pix[ 2-w2][c]-pix[ 2][c]) + ABS(pix[ 2][c]-pix[ 2+w2][c]) +
ABS(pix[-1-w2][1]-pix[-1][1]) + ABS(pix[-1][1]-pix[-1+w2][1]) +
ABS(pix[ 1-w2][1]-pix[ 1][1]) + ABS(pix[ 1][1]-pix[ 1+w2][1]) +
ABS(pix[-2-w1][1]-pix[-2][c]) + ABS(pix[-2][c]-pix[-2+w1][1]) +
ABS(pix[ -w1][1]-pix[ 0][c]) + ABS(pix[ 0][c]-pix[ w1][1]) +
ABS(pix[ 2-w1][1]-pix[ 2][c]) + ABS(pix[ 2][c]-pix[ 2+w1][1]) +
ABS(pix[-1-w1][d]-pix[-1][1]) + ABS(pix[-1][1]-pix[-1+w1][d]) +
ABS(pix[ 1-w1][d]-pix[ 1][1]) + ABS(pix[ 1][1]-pix[ 1+w1][d]);
/* e: Eq.(8) */
e = (double)(LH) / (double)(LV);
if (e < 1) e = 1.0/e;
/* g: Eq.(9)~(10) */
if (e > T) {
if (LH < LV) {
var_dir = 1;
LH_cnt++; }
else {
var_dir = 2;
LV_cnt++; }
}
/* varH, varV, varD: Eq. (11)~(18) */
else {
/* varH: Eq.(11) */
d1 = (double)(pix[-6][c]-2*(pix[-5][1]-pix[-4][c]+pix[-3][1])+pix[-2][c])/65535.0;
d3 = (double)(pix[-4][c]-2*(pix[-3][1]-pix[-2][c]+pix[-1][1])+pix[ 0][c])/65535.0;
d5 = (double)(pix[-2][c]-2*(pix[-1][1]-pix[ 0][c]+pix[ 1][1])+pix[ 2][c])/65535.0;
d7 = (double)(pix[ 0][c]-2*(pix[ 1][1]-pix[ 2][c]+pix[ 3][1])+pix[ 4][c])/65535.0;
d9 = (double)(pix[ 2][c]-2*(pix[ 3][1]-pix[ 4][c]+pix[ 5][1])+pix[ 6][c])/65535.0;
/* variance assuming d2 =(d1+d3)/2, d4=(d3+d5)/2, and etc */
varH =
d1*(18*d1 - 3*d3 - 12*d5 - 12*d7 - 9*d9) +
d3*(19*d3 - 7*d5 - 16*d7 - 12*d9) +
d5*(19*d5 - 7*d7 - 12*d9) +
d7*(19*d7 - 3*d9) +
18*d9*d9;
var_dir = 1;
var0 = varH;
/* varV: Eq.(12) */
d1 = (double)(pix[-w6][c]-2*(pix[-w5][1]-pix[-w4][c]+pix[-w3][1])+pix[-w2][c])/65535.0;
d3 = (double)(pix[-w4][c]-2*(pix[-w3][1]-pix[-w2][c]+pix[-w1][1])+pix[ 0][c])/65535.0;
d5 = (double)(pix[-w2][c]-2*(pix[-w1][1]-pix[ 0][c]+pix[ w1][1])+pix[ w2][c])/65535.0;
d7 = (double)(pix[ 0][c]-2*(pix[ w1][1]-pix[ w2][c]+pix[ w3][1])+pix[ w4][c])/65535.0;
d9 = (double)(pix[ w2][c]-2*(pix[ w3][1]-pix[ w4][c]+pix[ w5][1])+pix[ w6][c])/65535.0;
varV =
d1*(18*d1 - 3*d3 - 12*d5 - 12*d7 - 9*d9) +
d3*(19*d3 - 7*d5 - 16*d7 - 12*d9) +
d5*(19*d5 - 7*d7 - 12*d9) +
d7*(19*d7 - 3*d9) +
18*d9*d9;
if (varV < var0) {
var_dir = 2;
var0 = varV; }
/* varD: Eq.(17) */
d1 = (double)(4*pix[-4 ][c]+pix[-4-w2][c]+pix[-6][c]+pix[-2 ][c]+pix[-4+w2][c]
-2*(pix[-4-w1][1]+pix[-5 ][1]+pix[-3][1]+pix[-4+w1][1]))/65535.0;
d3 = (double)(4*pix[-2 ][c]+pix[-2-w2][c]+pix[-4][c]+pix[ 0 ][c]+pix[-2+w2][c]
-2*(pix[-2-w1][1]+pix[-3 ][1]+pix[-1][1]+pix[-2+w1][1]))/65535.0;
d5 = (double)(4*pix[ 0 ][c]+pix[ -w2][c]+pix[-2][c]+pix[ 2 ][c]+pix[ w2][c]
-2*(pix[ -w1][1]+pix[-1 ][1]+pix[ 1][1]+pix[ w1][1]))/65535.0;
d7 = (double)(4*pix[ 2 ][c]+pix[ 2-w2][c]+pix[ 0][c]+pix[ 4 ][c]+pix[ 2+w2][c]
-2*(pix[ 2-w1][1]+pix[ 1 ][1]+pix[ 3][1]+pix[ 2+w1][1]))/65535.0;
d9 = (double)(4*pix[ 4 ][c]+pix[ 4-w2][c]+pix[ 2][c]+pix[ 6 ][c]+pix[ 4+w2][c]
-2*(pix[ 4-w1][1]+pix[ 3 ][1]+pix[ 5][1]+pix[ 4+w1][1]))/65535.0;
varD =
d1*(18*d1 - 3*d3 - 12*d5 - 12*d7 - 9*d9) +
d3*(19*d3 - 7*d5 - 16*d7 - 12*d9) +
d5*(19*d5 - 7*d7 - 12*d9) +
d7*(19*d7 - 3*d9) +
18*d9*d9;
/* d5 stays same */
d1 = (double)(4*pix[-w4][c]+pix[-w6 ][c]+pix[-w4-2][c]+pix[-w4+2][c]+pix[-w2][c]
-2*(pix[-w5][1]+pix[-w4-1][1]+pix[-w4+1][1]+pix[-w3 ][1]))/65535.0;
d3 = (double)(4*pix[-w2][c]+pix[-w4 ][c]+pix[-w2-2][c]+pix[-w2+2][c]+pix[ 0][c]
-2*(pix[-w3][1]+pix[-w2-1][1]+pix[-w2+1][1]+pix[-w1 ][1]))/65535.0;
d7 = (double)(4*pix[ w2][c]+pix[ 0][c]+pix[ w2-2][c]+pix[ w2+2][c]+pix[ w4][c]
-2*(pix[ w1][1]+pix[ w2-1][1]+pix[ w2+1][1]+pix[ w3 ][1]))/65535.0;
d9 = (double)(4*pix[ w4][c]+pix[ w2 ][c]+pix[ w4-2][c]+pix[ w4+2][c]+pix[ w6][c]
-2*(pix[ w3][1]+pix[ w4-1][1]+pix[ w4+1][1]+pix[ w5 ][1]))/65535.0;
varD +=
d1*(18*d1 - 3*d3 - 12*d5 - 12*d7 - 9*d9) +
d3*(19*d3 - 7*d5 - 16*d7 - 12*d9) +
d5*(19*d5 - 7*d7 - 12*d9) +
d7*(19*d7 - 3*d9) +
18*d9*d9;
/* scale varD to equalize to varH and varV */
varD /= 8.0;
if (varD < var0) var_dir = 3;
/* Eq.(18) */
if (var_dir == 1)
varH_cnt++;
else if (var_dir == 2)
varV_cnt++;
else if (var_dir == 3)
varD_cnt++;
}
}
/* limit values within surrounding green values
for overshooted pixel values, revert to linear interpolation */
if (var_dir == 1) {
/* Eq.(3) - Horizontal */
v0 =
(2*(pix[ -1][1]+pix[0][c]+pix[ 1][1])-pix[ -2][c]-pix[ 2][c]+2) >> 2;
v1 = pix[-1][1];
v2 = pix[ 1][1];
PIX_SORT(v1,v2);
/* +- 50% range */
v3 = MAX(2*v1 - v2,0);
v4 = MIN(2*v2 - v1,65535);
if (v0 < v3 || v0 > v4) {
v0 = (pix[-3][1] + pix[3][1] +
18*(2*pix[0][c] - pix[-2][c] - pix[2][c]) +
63*(pix[-1][1] + pix[1][1]) + 64) >> 7;
if (v0 < v3 || v0 > v4) {
v0 = (4*(v1 + v2) + 2*pix[0][c]-pix[-2][c]-pix[2][c] + 4) >> 3;
/* Bi-linear if anti-aliasing overshoots */
if (v0 < v3 || v0 > v4) v0 = (v1 + v2 + 1) >> 1; } }
}
else if (var_dir == 2) {
/* Eq.(4) - Vertical */
v0 =
(2*(pix[-w1][1]+pix[0][c]+pix[w1][1])-pix[-w2][c]-pix[w2][c]+2) >> 2;
v1 = pix[-w1][1];
v2 = pix[ w1][1];
PIX_SORT(v1,v2);
/* +- 50% range */
v3 = MAX(2*v1 - v2,0);
v4 = MIN(2*v2 - v1,65535);
if (v0 < v3 || v0 > v4) {
v0 = (pix[-w3][1] + pix[w3][1] +
18*(2*pix[0][c] - pix[-w2][c] - pix[w2][c]) +
63*(pix[-w1][1] + pix[w1][1]) + 64) >> 7;
if (v0 < v3 || v0 > v4) {
v0 = (4*(v1 + v2) + 2*pix[0][c]-pix[-w2][c]-pix[w2][c] + 4) >> 3;
/* Bi-linear if anti-aliasing overshoots */
if (v0 < v3 || v0 > v4) v0 = (v1 + v2 + 1) >> 1; }}
}
else if (var_dir == 3) {
/* Eq.(5) - Diagonal */
v0 = 2*(pix[ -1][1]+pix[0][c]+pix[ 1][1])-pix[ -2][c]-pix[ 2][c]+2;
v0 += 2*(pix[-w1][1]+pix[0][c]+pix[w1][1])-pix[-w2][c]-pix[w2][c]+2;
v0 >>= 3;
v1 = MIN(MIN(pix[-1][1],pix[1][1]),MIN(pix[-w1][1],pix[w1][1]));
v2 = MAX(MAX(pix[-1][1],pix[1][1]),MAX(pix[-w1][1],pix[w1][1]));
v3 = MAX(2*v1 - v2,0);
v4 = MIN(2*v2 - v1,65535);
if (v0 < v3 || v0 > v4)
v0 = (pix[-w1][1] + pix[ -1][1] + pix[ 1][1] + pix[w1][1] + 2) >> 2;
}
else if (var_dir == 4) {
v0 = pix[0][1];
}
pix[0][1] = v0;
}
/*
Interpolote red/blue pixels on BLUE/RED pixel locations
using pattern regcognition on differential color plane
*/
for (row=1; row < height-1; row++)
for (col=1+(FC(row,1) & 1), c=2-FC(row,col); col < width-1; col+=2) {
indx = row*width+col;
pix = image + indx;
if (pix[0][c] == 0) {
dC1 = pix[-w1-1][1]-pix[-w1-1][c];
dC2 = pix[-w1+1][1]-pix[-w1+1][c];
dC3 = pix[ w1-1][1]-pix[ w1-1][c];
dC4 = pix[ w1+1][1]-pix[ w1+1][c];
dC0 = dC1 + dC2 + dC3 + dC4;
dC1 <<= 2;
dC2 <<= 2;
dC3 <<= 2;
dC4 <<= 2;
j = (dC1 > dC0) + (dC2 > dC0) + (dC3 > dC0) + (dC4 > dC0);
if (j == 3 || j == 1) {
/* edge-corner pattern: median of color differential values */
PIX_SORT(dC1,dC2);
PIX_SORT(dC3,dC4);
PIX_SORT(dC1,dC3);
PIX_SORT(dC2,dC4);
dC0 = dC2 + dC3; }
else {
/* stripe pattern: average along diagonal */
v1 = ABS(pix[-w1-1][c]-pix[w1+1][c]);
v2 = ABS(pix[-w1+1][c]-pix[w1-1][c]);
if (v1 < v2)
dC0 = dC1 + dC4;
else if (v1 > v2)
dC0 = dC2 + dC3;
else
dC0 <<= 1; }
v0 = (((int)(pix[0][1]) << 3) - dC0 + 4) >> 3;
/* apply anti-aliasing if overshoot */
if (v0 < 0 || v0 > 65535)
v0 = (pix[-w1-1][c]+pix[-w1+1][c]+pix[w1-1][c]+pix[w1+1][c]+2) >> 2;
pix[0][c] = v0;
}
}
/*
Interpolote red/blue pixels on GREEN pixel locations
using pattern regcognition on differential color plane
*/
for (row=1; row < height-1; row++)
for (col=1+(FC(row,2) & 1), c=FC(row,col+1); col < width-1; col+=2) {
indx = row*width+col;
pix = image + indx;
for (i=0; i < 2; c=2-c, i++) {
if (pix[0][c] == 0) {
dC1 = pix[-w1][1]-pix[-w1][c];
dC2 = pix[ -1][1]-pix[ -1][c];
dC3 = pix[ 1][1]-pix[ 1][c];
dC4 = pix[ w1][1]-pix[ w1][c];
dC0 = dC1 + dC2 + dC3 + dC4;
dC1 <<= 2;
dC2 <<= 2;
dC3 <<= 2;
dC4 <<= 2;
j = (dC1 > dC0) + (dC2 > dC0) + (dC3 > dC0) + (dC4 > dC0);
if (j == 3 || j == 1) {
/* edge-corner pattern: median of color differential values */
PIX_SORT(dC1,dC2);
PIX_SORT(dC3,dC4);
PIX_SORT(dC1,dC3);
PIX_SORT(dC2,dC4);
dC0 = dC2 + dC3; }
else {
/* stripe pattern: average along diagonal */
v1 = ABS(pix[-w1][c]-pix[w1][c]);
v2 = ABS(pix[ -1][c]-pix[ 1][c]);
if (v1 < v2)
dC0 = dC1 + dC4;
else if (v1 > v2)
dC0 = dC2 + dC3;
else
dC0 <<= 1; }
v0 = (((int)(pix[0][1]) << 3) - dC0 + 4) >> 3;
/* apply anti-aliasing if overshoot */
if (v0 < 0 || v0 > 65535) {
if (i == 0)
v0 = (pix[ -1][c]+pix[ 1][c]+1) >> 1;
else
v0 = (pix[-w1][c]+pix[w1][c]+1) >> 1; }
pix[0][c] = v0;
}
}
}
/* Compute statistics */
#ifdef DCRAW_VERBOSE
if (verbose) {
if (ahd_cutoff > 0) {
T_cnt = AHD_cnt + LH_cnt + LV_cnt + varH_cnt + varV_cnt + varD_cnt;
fprintf (stderr,
_("\tAHD, LH, LV, varH, varV varD = %4.2f, %4.2f, %4.2f, %4.2f, %4.2f, %4.2f (%%)\n"),
100*(double)AHD_cnt/(double)T_cnt,
100*(double)LH_cnt/(double)T_cnt,
100*(double)LV_cnt/(double)T_cnt,
100*(double)varH_cnt/(double)T_cnt,
100*(double)varV_cnt/(double)T_cnt,
100*(double)varD_cnt/(double)T_cnt); }
else {
T_cnt = LH_cnt + LV_cnt + varH_cnt + varV_cnt + varD_cnt;
fprintf (stderr,
_("\tLH, LV, varH, varV varD = %4.2f, %4.2f, %4.2f, %4.2f, %4.2f (%%)\n"),
100*(double)LH_cnt/(double)T_cnt,
100*(double)LV_cnt/(double)T_cnt,
100*(double)varH_cnt/(double)T_cnt,
100*(double)varV_cnt/(double)T_cnt,
100*(double)varD_cnt/(double)T_cnt); }
}
/* Done */
t2 = clock();
dt = ((double)(t2-t1)) / CLOCKS_PER_SEC;
if (verbose) fprintf(stderr,_("\telapsed time = %5.3fs\n"),dt);
#endif
}
#undef PIX_SORT