ref: f0f2d452c873255dec4b3359b3f93e349be0f2c5
dir: /sys/src/cmd/resize.c/
#include <u.h> #include <libc.h> #include <draw.h> #include <memdraw.h> int nflag; static void resample(Memimage *dst, Rectangle r, Memimage *src, Rectangle sr) { Point sp, dp; Point _sp, qp; Point ssize, dsize; uchar *pdst0, *pdst, *psrc0, *psrc; ulong s00, s01, s10, s11; int tx, ty, bpp, bpl; ssize = subpt(subpt(sr.max, sr.min), Pt(1,1)); dsize = subpt(subpt(r.max, r.min), Pt(1,1)); pdst0 = byteaddr(dst, r.min); bpp = src->depth/8; bpl = src->width*sizeof(int); qp = Pt(0, 0); if(dsize.x > 0) qp.x = (ssize.x<<12)/dsize.x; if(dsize.y > 0) qp.y = (ssize.y<<12)/dsize.y; _sp.y = sr.min.y<<12; for(dp.y=0; dp.y<=dsize.y; dp.y++){ sp.y = _sp.y>>12; ty = _sp.y&0xFFF; if(nflag) ty = ty << 1 & 0x1000; pdst = pdst0; sp.x = sr.min.x; psrc0 = byteaddr(src, sp); _sp.x = 0; for(dp.x=0; dp.x<=dsize.x; dp.x++){ sp.x = _sp.x>>12; tx = _sp.x&0xFFF; if(nflag) tx = tx << 1 & 0x1000; psrc = psrc0 + sp.x*bpp; s00 = (0x1000-tx)*(0x1000-ty); s01 = tx*(0x1000-ty); s10 = (0x1000-tx)*ty; s11 = tx*ty; switch(bpp){ case 4: pdst[3] = (s11*psrc[bpl+bpp+3] + s10*psrc[bpl+3] + s01*psrc[bpp+3] + s00*psrc[3]) >>24; case 3: pdst[2] = (s11*psrc[bpl+bpp+2] + s10*psrc[bpl+2] + s01*psrc[bpp+2] + s00*psrc[2]) >>24; pdst[1] = (s11*psrc[bpl+bpp+1] + s10*psrc[bpl+1] + s01*psrc[bpp+1] + s00*psrc[1]) >>24; case 1: pdst[0] = (s11*psrc[bpl+bpp] + s10*psrc[bpl] + s01*psrc[bpp] + s00*psrc[0]) >>24; } pdst += bpp; _sp.x += qp.x; } pdst0 += dst->width*sizeof(int); _sp.y += qp.y; } } enum { PERCENT = 0x80000000, }; static int getsize(char *s) { int v; v = strtol(s, &s, 10) & ~PERCENT; if(*s == '%') v |= PERCENT; return v; } void usage(void) { sysfatal("Usage: %s [ -x width ] [ -y height ] [ file ]\n", argv0); } void main(int argc, char **argv) { int fd, xsize, ysize; Memimage *im, *nim; ulong ochan, tchan; xsize = ysize = 0; ARGBEGIN{ case 'a': xsize = ysize = getsize(EARGF(usage())); break; case 'x': xsize = getsize(EARGF(usage())); break; case 'y': ysize = getsize(EARGF(usage())); break; case 'n': nflag++; break; default: usage(); }ARGEND fd = 0; if(*argv){ fd = open(*argv, OREAD); if(fd < 0) sysfatal("open: %r"); } memimageinit(); if((im = readmemimage(fd)) == nil) sysfatal("readmemimage: %r"); if(xsize & PERCENT) xsize = ((xsize & ~PERCENT) * Dx(im->r)) / 100; if(ysize & PERCENT) ysize = ((ysize & ~PERCENT) * Dy(im->r)) / 100; if(xsize || ysize){ if(ysize == 0) ysize = (xsize * Dy(im->r)) / Dx(im->r); if(xsize == 0) xsize = (ysize * Dx(im->r)) / Dy(im->r); ochan = im->chan; switch(ochan){ default: for(tchan = ochan; tchan; tchan >>= 8) if(TYPE(tchan) == CAlpha){ tchan = RGBA32; break; } if(tchan == 0) tchan = RGB24; break; case GREY8: case RGB24: case RGBA32: case ARGB32: case XRGB32: tchan = ochan; break; case GREY1: case GREY2: case GREY4: tchan = GREY8; break; } if(tchan != ochan){ if((nim = allocmemimage(im->r, tchan)) == nil) sysfatal("allocimage: %r"); memimagedraw(nim, nim->r, im, im->r.min, nil, ZP, S); freememimage(im); im = nim; } if((nim = allocmemimage( Rect(im->r.min.x, im->r.min.y, im->r.min.x+xsize, im->r.min.y+ysize), tchan)) == nil) sysfatal("allocmemimage: %r"); resample(nim, nim->r, im, im->r); freememimage(im); im = nim; if(tchan != ochan){ if((im = allocmemimage(nim->r, ochan)) == nil) sysfatal("allocimage: %r"); memimagedraw(im, im->r, nim, nim->r.min, nil, ZP, S); freememimage(nim); } } if(writememimage(1, im) < 0) sysfatal("writememimage: %r"); exits(0); }