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ZComb.c
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ZComb.c
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/* Panorama_Tools - Generate, Edit and Convert Panoramic Images
Copyright (C) 1998,1999 - Helmut Dersch der@fh-furtwangen.de
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this software; see the file COPYING. If not, a copy
can be downloaded from http://www.gnu.org/licenses/gpl.html, or
obtained by writing to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */
/*------------------------------------------------------------*/
//begin Rik's mask-from-focus hacking (ZComb <stuff>)
// This is experimental code introduced by Rik Littlefield,
// rj.littlefield@computer.org . See postings on ptX archives
// http://www.email-lists.org/pipermail/ptx/
// and Panorama Tools forum
// http://groups.yahoo.com/group/PanoTools/
// on 6/18/2004 and surrounding for more info.
#include "filter.h"
#include "ZComb.h"
#define ZCOMBLOGFILENAME "zcom_log.txt"
static struct { // ZComb parameters
int enabled;
int passNum;
int fnameSet;
int width;
int height;
int currentImageNum;
char firstFname[1024]; // name of first file
float *accumFocus; // array width*height of estimated focus accumulated across all images
float *estFocus; // array width*height of estimated focus for current image
int *bestLevel; // array width*height of image number of best focus
int masktype;
int focusWindowHalfwidth;
int smoothingWindowHalfwidth;
} ZComb;
void ZCombSetDisabled() {
ZComb.enabled = 0;
}
void ZCombSetEnabled() {
ZComb.enabled = 1;
ZComb.masktype = 2;
ZComb.focusWindowHalfwidth = 4;
ZComb.smoothingWindowHalfwidth = 4;
}
void ZCombSetMaskType(int mt) {
ZComb.masktype = mt;
}
void ZCombSetFocusWindowHalfwidth(int fwh) {
ZComb.focusWindowHalfwidth = fwh;
}
void ZCombSetSmoothingWindowHalfwidth(int swh) {
ZComb.smoothingWindowHalfwidth = swh;
}
void ZCombLogMsg(char *fmt, char *sarg) {
FILE* logfile;
char* logfileName = ZCOMBLOGFILENAME;
if ((logfile = fopen(logfileName, "a")) == NULL) {
PrintError("can't open %s\n", logfileName);
return;
}
fprintf (logfile,fmt,sarg);
fclose (logfile);
}
void ZCombInit() {
ZComb.fnameSet = 0;
ZComb.passNum = 1;
ZComb.currentImageNum = 0;
}
int ZCombInitStats(int width, int height) {
int row, col;
ZComb.width = width;
ZComb.height = height;
if (ZComb.accumFocus != NULL) {
free(ZComb.accumFocus);
free(ZComb.estFocus);
free(ZComb.bestLevel);
}
ZComb.accumFocus = malloc(width*height*sizeof(float));
ZComb.estFocus = malloc(width*height*sizeof(float));
ZComb.bestLevel = malloc(width*height*sizeof(int));
if (ZComb.accumFocus == NULL || ZComb.estFocus == NULL || ZComb.bestLevel == NULL) {
PrintError("Not enough memory");
ZCombLogMsg("Insufficient memory in ZCombInitStats\n",NULL);
return -1;
}
for (row=0; row < height; row++) {
for (col=0; col < width; col++) {
ZComb.accumFocus[row*width+col] = 0.0;
ZComb.bestLevel[row*width+col] = 1;
}
}
return 0;
}
#define VARIANCEFUDGE 0.0 // increase in variance that we require to say that we have better focus.
// early experiments show better results with variance fudge = 0,
// so this is not (yet) brought out to be runtime settable
void ZCombAccumEstFocus() {
int row, col;
int width = ZComb.width;
int height = ZComb.height;
for (row=0; row < height; row++) {
for (col=0; col < width; col++) {
if (ZComb.accumFocus[row*width+col] < ZComb.estFocus[row*width+col] - VARIANCEFUDGE) {
ZComb.accumFocus[row*width+col] = ZComb.estFocus[row*width+col];
ZComb.bestLevel[row*width+col] = ZComb.currentImageNum;
}
}
}
}
float ZCombGetSmoothedLevel(int row, int col) {
int n; /* number of pixels used in kernel */
int sumLevels;
int kr, kc;
int height = ZComb.height;
int width = ZComb.width;
int khw = ZComb.smoothingWindowHalfwidth;
sumLevels = 0;
n = 0;
for (kr = row-khw; kr <= row+khw; kr++) {
for (kc = col-khw; kc <= col+khw; kc++) {
if (kr < 0 || kr >= height || kc < 0 || kc >= width) {
continue; /* Out of bounds */
} else {
sumLevels += ZComb.bestLevel[kr*width+kc];
n++;
}
}
}
if (n == 0) {
PrintError("ZCombGetSmoothedLevel: n==0");
return 0.0;
}
return (float)sumLevels / (float)n;
}
/* Estimate focus for current image,
produce result as float array in ZComb.estFocus.
In this version, the estimated focus is computed from whatever
pixel values are sitting in "red" channel of the ARGB
input image. These appear to actually be the red channel of
the RGB image, although the green and blue channels are not
those of the RGB data. The estimate is the local variance.
*/
void ZCombEstimateFocus(Image *im) {
int row;
int col;
#define KERNELSPARSENESS 1 // make larger than 1 to run faster but more approximate
int n; /* number of pixels used in kernel */
uint8_t *pg; /* pointer to gray (red) value */
uint8_t g; /* gray value */
uint8_t *pa; /* pointer to alpha value */
int sumg, sumgsq; /* sum of gray values and gray values squared */
int ming, maxg; /* minimum and maximum gray levels in each region */
int kr, kc;
int height = im->height;
int width = im->width;
int khw = ZComb.focusWindowHalfwidth; /* kernel halfwidth */
for (row = 0; row < height; row++) {
for (col = 0; col < width; col++) {
sumg = 0;
sumgsq = 0;
n = 0;
ming = 256;
maxg = 0;
for (kr = row-khw; kr <= row+khw; kr+=KERNELSPARSENESS) {
for (kc = col-khw; kc <= col+khw; kc+=KERNELSPARSENESS) {
if (kr < 0 || kr >= height || kc < 0 || kc >= width) {
continue; /* Out of bounds */
} else {
pg = *(im->data) + kr*(im->bytesPerLine) + kc*4 + 1; /* ARGB */
g = *pg; /* pixel value */
// if (g < ming) ming = g;
// if (g > maxg) maxg = g;
pa = *(im->data) + kr*(im->bytesPerLine) + kc*4 + 2; /* ARGB */
if (*pa != 0) { // include only valid pixels in contrast estimate
sumg += g;
sumgsq += g*g;
n++;
}
}
}
}
pa = *(im->data) + row*(im->bytesPerLine) + col*4 + 2; /* ARGB */
if (*pa == 0) { // do not store contrast estimate at invalid pixels
ZComb.estFocus[row*width+col] = 0.0;
}
else
if (n <= 1 || maxg == ming) {
ZComb.estFocus[row*width+col] = 0.0;
} else {
/* variance squared */
ZComb.estFocus[row*width+col] = ((n*sumgsq - sumg*sumg) / (float)(n*(n-1)));
// /((maxg-ming)*(maxg-ming));
}
}
}
}
void ZCombCopyEstFocusToBlue(Image *im) {
int row;
int col;
uint8_t *pg; /* pointer to gray (blue) value */
uint8_t g; /* gray value */
int height = im->height;
int width = im->width;
float maxEst = 0.0;
for (row = 0; row < height; row++) {
for (col = 0; col < width; col++) {
if (ZComb.estFocus[row*width+col] > maxEst) {
maxEst = ZComb.estFocus[row*width+col];
}
}
}
for (row = 0; row < height; row++) {
for (col = 0; col < width; col++) {
pg = *(im->data) + row*(im->bytesPerLine) + col*4 + 3; /* ARGB */
g = (int) (255.0*ZComb.estFocus[row*width+col]/maxEst);
*pg = g;
}
}
}
void ZCombSetMaskFromFocusData(Image *im) {
int row;
int col;
uint8_t *pg; /* pointer to gray (blue) value */
// uint8_t g; /* gray value */
int height = im->height;
int width = im->width;
float flev;
for (row = 0; row < height; row++) {
for (col = 0; col < width; col++) {
pg = *(im->data) + row*(im->bytesPerLine) + col*4 + 0; /* ARGB */
if (ZComb.masktype == 0 || ZComb.masktype == 1) {
// generate hard-edged masks using unsmoothed depth level -- select strictly pixels belonging to best-focused image
if ((ZComb.masktype == 0 && ZComb.currentImageNum == ZComb.bestLevel[row*width+col]) // generate non-nested masks
|| (ZComb.masktype == 1 && ZComb.currentImageNum <= ZComb.bestLevel[row*width+col]) // generate a stack of nested masks
) {
*pg = 255;
} else {
*pg = 0;
}
} else if (ZComb.masktype == 2) {
// generate blending masks using smoothed depth level -- typically makes much better looking images
flev = ZCombGetSmoothedLevel(row,col);
if (ZComb.currentImageNum <= flev+0.01) {
*pg = 255;
} else if (ZComb.currentImageNum > flev+1.01) {
*pg = 0;
} else {
*pg = 255 - (uint8_t) (255.0*(ZComb.currentImageNum - (flev+0.01)));
}
} else {
*pg = 255; // unrecognized masktype, just keep from crashing
}
// following is a hack that forces nominally binary masks to actually have a single
// intermediate value, which keeps Jim Watter's PSD modifications from incorrectly
// assigning shape mask = visibility mask.
if (row == 0 && col == 0) {
if (*pg == 0) *pg = 1;
if (*pg == 255) *pg = 254;
}
}
}
}
void ZCombSetGreenTo255(Image *im) {
int row;
int col;
uint8_t *pg; /* pointer to gray (green) value */
int height = im->height;
int width = im->width;
for (row = 0; row < height; row++) {
for (col = 0; col < width; col++) {
pg = *(im->data) + row*(im->bytesPerLine) + col*4 + 2; /* ARGB */
*pg = 255;
}
}
}
int ZCombSeeImage(Image *im, char *filename) {
if (!ZComb.enabled) {
ZCombLogMsg ("Z-combining disabled\n",NULL);
return 0;
}
ZCombLogMsg ("Z-combining enabled\n",NULL);
ZCombLogMsg ("writeTIFF called on file %s\n",filename);
ZCombLogMsg (" image name = %s\n",im->name);
if (ZComb.fnameSet && strcmp(ZComb.firstFname,filename) == 0) {
ZCombLogMsg ("Starting second pass\n",NULL);
ZComb.passNum = 2;
ZComb.currentImageNum = 0;
}
if (!ZComb.fnameSet) {
ZComb.fnameSet = 1;
ZComb.passNum = 1;
strcpy(ZComb.firstFname,filename);
ZCombLogMsg(" initialFname set to %s\n",ZComb.firstFname);
if (ZCombInitStats(im->width,im->height)) {
return -1;
}
}
ZComb.currentImageNum++;
if (ZComb.passNum == 1) {
ZCombEstimateFocus(im);
ZCombAccumEstFocus();
// ZCombCopyEstFocusToBlue(im); // for debugging purposes
// ZCombSetGreenTo255(im);
}
if (ZComb.passNum == 2) {
ZCombEstimateFocus(im);
ZCombSetMaskFromFocusData(im);
}
return 0;
}
// end Rik's mask-from-focus hacking