#define TWO_PI (4*atan2(1,1) * 2)
-void nmap_to_hmap(unsigned char *map, int w, int h, double scale, double offset)
+void nmap_to_hmap(unsigned char *map, const unsigned char *refmap, int w, int h, double scale, double offset)
{
int x, y;
double nx, ny, nz;
fy -= h;
#ifdef C99
if(fx||fy)
- freqspace1[(w*y+x)] = I * (fx * freqspace1[(w*y+x)] + fy * freqspace2[(w*y+x)]) / (fx*fx + fy*fy) / TWO_PI;
+ freqspace1[(w*y+x)] = _Complex_I * (fx * freqspace1[(w*y+x)] + fy * freqspace2[(w*y+x)]) / (fx*fx + fy*fy) / TWO_PI;
else
freqspace1[(w*y+x)] = 0;
#else
fftw_execute(f12i1);
- if(scale == 0)
+ /* renormalize, find min/max */
+ vmin = vmax = 0;
+ for(y = 0; y < h; ++y)
+ for(x = 0; x < w; ++x)
{
#ifdef C99
- vmin = vmax = creal(imgspace1[0]);
+ v = creal(imgspace1[(w*y+x)] /= (w*h));
#else
- vmin = vmax = imgspace1[0][0];
+ v = (imgspace1[(w*y+x)][0] /= (w*h));
+ imgspace1[(w*y+x)][1] /= (w*h);
#endif
+ if(v < vmin || (x == 0 && y == 0))
+ vmin = v;
+ if(v > vmax || (x == 0 && y == 0))
+ vmax = v;
+ }
+
+ if(refmap)
+ {
+ double f, a;
+ double o, s;
+ double sa, sfa, sffa, sfva, sva;
+ double mi, ma;
+ sa = sfa = sffa = sfva = sva = 0;
+ mi = 1;
+ ma = -1;
for(y = 0; y < h; ++y)
for(x = 0; x < w; ++x)
{
+ a = (int)refmap[(w*y+x)*4+3];
+ v = (refmap[(w*y+x)*4+0]*0.114 + refmap[(w*y+x)*4+1]*0.587 + refmap[(w*y+x)*4+2]*0.299);
+ v = (v - 128.0) / 127.0;
#ifdef C99
- v = creal(imgspace1[(w*y+x)]);
+ f = creal(imgspace1[(w*y+x)]);
#else
- v = imgspace1[(w*y+x)][0];
+ f = imgspace1[(w*y+x)][0];
#endif
- if(v < vmin)
- vmin = v;
- if(v > vmax)
- vmax = v;
+ if(a <= 0)
+ continue;
+ if(v < mi)
+ mi = v;
+ if(v > ma)
+ ma = v;
+ sa += a;
+ sfa += f*a;
+ sffa += f*f*a;
+ sfva += f*v*a;
+ sva += v*a;
+ }
+ if(mi < ma)
+ {
+ /* linear regression ftw */
+ o = (sfa*sfva - sffa*sva) / (sfa*sfa-sa*sffa);
+ s = (sfa*sva - sa*sfva) / (sfa*sfa-sa*sffa);
+ }
+ else /* all values of v are equal, so we cannot get scale; we can still get offset */
+ {
+ o = ((sva - sfa) / sa);
+ s = 1;
}
-
- vmin /= (w*h);
- vmax /= (w*h);
+ /*
+ * now apply user-given offset and scale to these values
+ * (x * s + o) * scale + offset
+ * x * s * scale + o * scale + offset
+ */
+ offset += o * scale;
+ scale *= s;
+ }
+ else if(scale == 0)
+ {
/*
* map vmin to -1
* map vmax to +1
*/
scale = 2 / (vmax - vmin);
offset = -(vmax + vmin) / (vmax - vmin);
-
- printf("Autocomputed scale: %f\nAutocomputed offset: %f\n", scale, offset);
}
- scale /= (w*h);
+ printf("Min: %f\nAvg: %f\nMax: %f\nScale: %f\nOffset: %f\nScaled-Min: %f\nScaled-Avg: %f\nScaled-Max: %f\n",
+ vmin, 0.0, vmax, scale, offset, vmin * scale + offset, offset, vmax * scale + offset);
for(y = 0; y < h; ++y)
for(x = 0; x < w; ++x)
freqspace1[(w*y+x)] *= 1 - pow(abs(fx) / (double)(w/2), 1);
freqspace1[(w*y+x)] *= 1 - pow(abs(fy) / (double)(h/2), 1);
- freqspace2[(w*y+x)] = TWO_PI*I * fy * freqspace1[(w*y+x)]; /* y derivative */
- freqspace1[(w*y+x)] = TWO_PI*I * fx * freqspace1[(w*y+x)]; /* x derivative */
+ freqspace2[(w*y+x)] = TWO_PI*_Complex_I * fy * freqspace1[(w*y+x)]; /* y derivative */
+ freqspace1[(w*y+x)] = TWO_PI*_Complex_I * fx * freqspace1[(w*y+x)]; /* x derivative */
#else
/* a lowpass to prevent the worst */
freqspace1[(w*y+x)][0] *= 1 - pow(abs(fx) / (double)(w/2), 1);
int usage(const char *me)
{
- printf("Usage: %s <infile_norm.tga> <outfile_normandheight.tga> [<scale> [<offset>]] (get heightmap from normalmap)\n", me);
+ printf("Usage: %s <infile_norm.tga> <outfile_normandheight.tga> [<scale> [<offset> [<infile_ref.tga>]]] (get heightmap from normalmap)\n", me);
printf("or: %s <infile_height.tga> <outfile_normandheight.tga> -1 [<scale>] (read from B, Diff)\n", me);
printf("or: %s <infile_height.tga> <outfile_normandheight.tga> -2 [<scale>] (read from G, Diff)\n", me);
printf("or: %s <infile_height.tga> <outfile_normandheight.tga> -3 [<scale>] (read from R, Diff)\n", me);
int main(int argc, char **argv)
{
- const char *infile, *outfile;
+ const char *infile, *outfile, *reffile;
double scale, offset;
- int nmaplen;
- unsigned char *nmapdata, *nmap;
+ int nmaplen, w, h;
+ unsigned char *nmapdata, *nmap, *refmap;
if(argc > 1)
infile = argv[1];
if(argc > 4)
offset = atof(argv[4]);
else
- offset = 0;
+ offset = (scale<0) ? 1 : 0;
+
+ if(argc > 5)
+ reffile = argv[5];
+ else
+ reffile = NULL;
nmapdata = FS_LoadFile(infile, &nmaplen);
if(!nmapdata)
printf("LoadTGA_BGRA failed\n");
return 2;
}
+ w = image_width;
+ h = image_height;
+
+ if(reffile)
+ {
+ nmapdata = FS_LoadFile(reffile, &nmaplen);
+ if(!nmapdata)
+ {
+ printf("FS_LoadFile failed\n");
+ return 2;
+ }
+ refmap = LoadTGA_BGRA(nmapdata, nmaplen);
+ free(nmapdata);
+ if(!refmap)
+ {
+ printf("LoadTGA_BGRA failed\n");
+ return 2;
+ }
+ if(image_width != w || image_height != h)
+ {
+ printf("reference map must have same size as input normalmap\n");
+ return 2;
+ }
+ }
+ else
+ refmap = NULL;
+
if(scale < -6)
hmap_to_nmap(nmap, image_width, image_height, -scale-7, offset);
else if(scale < 0)
hmap_to_nmap_local(nmap, image_width, image_height, -scale-1, offset);
else
- nmap_to_hmap(nmap, image_width, image_height, scale, offset);
+ nmap_to_hmap(nmap, refmap, image_width, image_height, scale, offset);
if(!Image_WriteTGABGRA(outfile, image_width, image_height, nmap))
{
printf("Image_WriteTGABGRA failed\n");