ref: 54838652fce0316fa8bd186265be50d3f631b5e4
dir: /sys/src/cmd/resample.c/
#include <u.h> #include <libc.h> #include <draw.h> #include <memdraw.h> #define K2 7 /* from -.7 to +.7 inclusive, meaning .2 into each adjacent pixel */ #define NK (2*K2+1) double K[NK]; double fac(int L) { int i, f; f = 1; for(i=L; i>1; --i) f *= i; return f; } /* * i0(x) is the modified Bessel function, Σ (x/2)^2L / (L!)² * There are faster ways to calculate this, but we precompute * into a table so let's keep it simple. */ double i0(double x) { double v; int L; v = 1.0; for(L=1; L<10; L++) v += pow(x/2., 2*L)/pow(fac(L), 2); return v; } double kaiser(double x, double τ, double α) { if(fabs(x) > τ) return 0.; return i0(α*sqrt(1-(x*x/(τ*τ))))/i0(α); } void usage(void) { fprint(2, "usage: resample [-x xsize] [-y ysize] [imagefile]\n"); fprint(2, "\twhere size is an integer or a percentage in the form 25%%\n"); exits("usage"); } int getint(char *s, int *percent) { int n; if(s == nil) usage(); n = strtol(s, &s, 0); *percent = *s == '%'; return n; } void resamplex(uchar *in, int off, int d, int inx, uchar *out, int outx) { int i, x, k; double X, xx, v, rat; rat = (double)inx/(double)outx; for(x=0; x<outx; x++){ if(inx == outx){ /* don't resample if size unchanged */ out[off+x*d] = in[off+x*d]; continue; } v = 0.0; X = x*rat; for(k=-K2; k<=K2; k++){ xx = X + rat*k/10.; i = xx; if(i < 0) i = 0; if(i >= inx) i = inx-1; v += in[off+i*d] * K[K2+k]; } out[off+x*d] = v; } } void resampley(uchar **in, int off, int iny, uchar **out, int outy) { int y, i, k; double Y, yy, v, rat; rat = (double)iny/(double)outy; for(y=0; y<outy; y++){ if(iny == outy){ /* don't resample if size unchanged */ out[y][off] = in[y][off]; continue; } v = 0.0; Y = y*rat; for(k=-K2; k<=K2; k++){ yy = Y + rat*k/10.; i = yy; if(i < 0) i = 0; if(i >= iny) i = iny-1; v += in[i][off] * K[K2+k]; } out[y][off] = v; } } int max(int a, int b) { if(a > b) return a; return b; } Memimage* resample(int xsize, int ysize, Memimage *m) { int i, j, d, bpl, nchan; Memimage *new; uchar **oscan, **nscan; new = allocmemimage(Rect(0, 0, xsize, ysize), m->chan); if(new == nil) sysfatal("can't allocate new image: %r"); oscan = malloc(Dy(m->r)*sizeof(uchar*)); nscan = malloc(max(ysize, Dy(m->r))*sizeof(uchar*)); if(oscan == nil || nscan == nil) sysfatal("can't allocate: %r"); /* unload original image into scan lines */ bpl = bytesperline(m->r, m->depth); for(i=0; i<Dy(m->r); i++){ oscan[i] = malloc(bpl); if(oscan[i] == nil) sysfatal("can't allocate: %r"); j = unloadmemimage(m, Rect(m->r.min.x, m->r.min.y+i, m->r.max.x, m->r.min.y+i+1), oscan[i], bpl); if(j != bpl) sysfatal("unloadmemimage"); } /* allocate scan lines for destination. we do y first, so need at least Dy(m->r) lines */ bpl = bytesperline(Rect(0, 0, xsize, Dy(m->r)), m->depth); for(i=0; i<max(ysize, Dy(m->r)); i++){ nscan[i] = malloc(bpl); if(nscan[i] == nil) sysfatal("can't allocate: %r"); } /* resample in X */ nchan = d = m->depth/8; if(m->chan == XRGB32) nchan--; for(i=0; i<Dy(m->r); i++){ for(j=0; j<nchan; j++) resamplex(oscan[i], j, d, Dx(m->r), nscan[i], xsize); free(oscan[i]); oscan[i] = nscan[i]; nscan[i] = malloc(bpl); if(nscan[i] == nil) sysfatal("can't allocate: %r"); } /* resample in Y */ for(i=0; i<xsize; i++) for(j=0; j<nchan; j++) resampley(oscan, d*i+j, Dy(m->r), nscan, ysize); /* pack data into destination */ bpl = bytesperline(new->r, m->depth); for(i=0; i<ysize; i++){ j = loadmemimage(new, Rect(0, i, xsize, i+1), nscan[i], bpl); if(j != bpl) sysfatal("loadmemimage: %r"); } return new; } void main(int argc, char *argv[]) { int i, fd, xsize, ysize, xpercent, ypercent; Rectangle rparam; Memimage *m, *new, *t1, *t2; char *file; ulong tchan; double v; for(i=-K2; i<=K2; i++){ K[K2+i] = kaiser(i/10., K2/10., 4.); // print("%g %g\n", i/10., K[K2+i]); } /* normalize */ v = 0.0; for(i=0; i<NK; i++) v += K[i]; for(i=0; i<NK; i++) K[i] /= v; memimageinit(); memset(&rparam, 0, sizeof rparam); xsize = ysize = 0; xpercent = ypercent = 0; ARGBEGIN{ case 'a': /* compatibility; equivalent to just -x or -y */ if(xsize != 0 || ysize != 0) usage(); xsize = getint(ARGF(), &xpercent); if(xsize <= 0) usage(); ysize = xsize; ypercent = xpercent; break; case 'x': if(xsize != 0) usage(); xsize = getint(ARGF(), &xpercent); if(xsize <= 0) usage(); break; case 'y': if(ysize != 0) usage(); ysize = getint(ARGF(), &ypercent); if(ysize <= 0) usage(); break; default: usage(); }ARGEND if(xsize == 0 && ysize == 0) usage(); file = "<stdin>"; fd = 0; if(argc > 1) usage(); else if(argc == 1){ file = argv[0]; fd = open(file, OREAD); if(fd < 0) sysfatal("can't open %s: %r", file); } m = readmemimage(fd); if(m == nil) sysfatal("can't read %s: %r", file); if(xpercent) xsize = Dx(m->r)*xsize/100; if(ypercent) ysize = Dy(m->r)*ysize/100; if(ysize == 0) ysize = (xsize * Dy(m->r)) / Dx(m->r); if(xsize == 0) xsize = (ysize * Dx(m->r)) / Dy(m->r); switch(m->chan){ default: for(tchan = m->chan; tchan; tchan >>= 8) if(TYPE(tchan) == CAlpha){ tchan = RGBA32; goto Convert; } tchan = RGB24; goto Convert; case GREY8: case RGB24: case RGBA32: case ARGB32: case XRGB32: new = resample(xsize, ysize, m); break; case GREY1: case GREY2: case GREY4: tchan = GREY8; Convert: /* use library to convert to byte-per-chan form, then convert back */ t1 = allocmemimage(m->r, tchan); if(t1 == nil) sysfatal("can't allocate temporary image: %r"); memimagedraw(t1, t1->r, m, m->r.min, nil, ZP, S); t2 = resample(xsize, ysize, t1); freememimage(t1); new = allocmemimage(Rect(0, 0, xsize, ysize), m->chan); if(new == nil) sysfatal("can't allocate new image: %r"); /* should do error diffusion here */ memimagedraw(new, new->r, t2, t2->r.min, nil, ZP, S); freememimage(t2); break; } assert(new); if(writememimage(1, new) < 0) sysfatal("write error on output: %r"); exits(nil); }