ref: a5d30a2794ddba047e4dad0eda129d704322aead
dir: /imagelerp.c/
#include <u.h> #include <libc.h> #include <draw.h> #include <memdraw.h> double flerp(double a, double b, double t) { return a + (b - a)*t; } double fclamp(double n, double min, double max) { return n < min? min: n > max? max: n; } Memimage* lerpimages(Memimage *i0, Memimage *i1, double blendf) { Memimage *ri; Point p; uchar *s0, *s1, *d; int bpp; assert(i0->chan == i1->chan); assert(Dx(i0->r) == Dx(i1->r) && Dy(i0->r) == Dy(i1->r)); ri = allocmemimage(i0->r, i0->chan); if(ri == nil) sysfatal("allocmemimage: %r"); bpp = (i0->depth+7)/8; for(p.y = 0; p.y < i0->r.max.y; p.y++) for(p.x = 0; p.x < i0->r.max.x; p.x++){ s0 = byteaddr(i0, addpt(i0->r.min, p)); s1 = byteaddr(i1, addpt(i1->r.min, p)); d = byteaddr(ri, addpt(ri->r.min, p)); switch(bpp){ case 4: d[3] = flerp(s0[3], s1[3], blendf); case 3: d[2] = flerp(s0[2], s1[2], blendf); case 2: d[1] = flerp(s0[1], s1[1], blendf); case 1: d[0] = flerp(s0[0], s1[0], blendf); } } return ri; } void usage(void) { fprint(2, "usage: %s [-f factor] image0 image1\n", argv0); exits("usage"); } void main(int argc, char *argv[]) { Memimage *m[2], *r; char *s; int fd; double f; f = 0.5; ARGBEGIN{ case 'f': f = strtod(EARGF(usage()), &s); if(*s != 0) sysfatal("wrong blending factor"); break; default: usage(); }ARGEND; if(argc != 2) usage(); if(memimageinit() != 0) sysfatal("memimageinit: %r"); fd = open(argv[0], OREAD); if(fd < 0) sysfatal("open: %r"); if((m[0] = readmemimage(fd)) == nil) sysfatal("readmemimage: %r"); close(fd); fd = open(argv[1], OREAD); if(fd < 0) sysfatal("open: %r"); if((m[1] = readmemimage(fd)) == nil) sysfatal("readmemimage: %r"); close(fd); r = lerpimages(m[0], m[1], fclamp(f, 0, 1)); if(writememimage(1, r) < 0) sysfatal("writememimage: %r"); exits(nil); }