ref: 38c0cf0737de03906729054ad7b7b011dd1ca475
dir: /appl/lib/quicktime.b/
implement QuickTime; include "sys.m"; sys: Sys; include "quicktime.m"; init() { sys = load Sys Sys->PATH; } open(file: string): (ref QD, string) { fd := sys->open(file, sys->OREAD); if(fd == nil) return (nil, "open failed"); r := ref QD; r.fd = fd; r.buf = array[DEFBUF] of byte; (hdr, l) := r.atomhdr(); if(hdr != "mdat") return (nil, "not a QuickTime movie file"); # # We are expecting a unified file with .data then .rsrc # r.skipatom(l); return (r, nil); } QD.atomhdr(r: self ref QD): (string, int) { b := array[8] of byte; if(r.readn(b, 8) != 8) return (nil, -1); for(i := 0; i < 8; i++) sys->print("%.2ux ", int b[i]); sys->print(" %s %d\n", string b[4:8], bedword(b, 0)); return (string b[4:8], bedword(b, 0)); } QD.skipatom(r: self ref QD, l: int): int { return r.skip(l - AtomHDR); } QD.mvhd(q: self ref QD, l: int): string { l -= AtomHDR; if(l != MvhdrSIZE) return "mvhd atom funny size"; b := array[l] of byte; if(q.readn(b, l) != l) return "short read in mvhd"; mvhdr := ref Mvhdr; mvhdr.version = bedword(b, 0); mvhdr.create = bedword(b, 4); mvhdr.modtime = bedword(b, 8); mvhdr.timescale = bedword(b, 12); mvhdr.duration = bedword(b, 16); mvhdr.rate = bedword(b, 20); mvhdr.vol = beword(b, 24); mvhdr.r1 = bedword(b, 26); mvhdr.r2 = bedword(b, 30); mvhdr.matrix = array[9] of int; for(i :=0; i<9; i++) mvhdr.matrix[i] = bedword(b, 34+i*4); mvhdr.r3 = beword(b, 70); mvhdr.r4 = bedword(b, 72); mvhdr.pvtime = bedword(b, 76); mvhdr.posttime = bedword(b, 80); mvhdr.seltime = bedword(b, 84); mvhdr.seldurat = bedword(b, 88); mvhdr.curtime = bedword(b, 92); mvhdr.nxttkid = bedword(b, 96); q.mvhdr = mvhdr; return nil; } QD.trak(q: self ref QD, l: int): string { (tk, tkl) := q.atomhdr(); if(tk != "tkhd") return "missing track header atom"; l -= tkl; tkl -= AtomHDR; b := array[tkl] of byte; if(q.readn(b, tkl) != tkl) return "short read in tkhd"; tkhdr := ref Tkhdr; tkhdr.version = bedword(b, 0); tkhdr.creation = bedword(b, 4); tkhdr.modtime = bedword(b, 8); tkhdr.trackid = bedword(b, 12); tkhdr.timescale = bedword(b, 16); tkhdr.duration = bedword(b, 20); tkhdr.timeoff = bedword(b, 24); tkhdr.priority = bedword(b, 28); tkhdr.layer = beword(b, 32); tkhdr.altgrp = beword(b, 34); tkhdr.volume = beword(b, 36); tkhdr.matrix = array[9] of int; for(i := 0; i < 9; i++) tkhdr.matrix[i] = bedword(b, 38+i*4); tkhdr.width = bedword(b, 74); tkhdr.height = bedword(b, 78); (md, mdl) := q.atomhdr(); if(md != "mdia") return "missing media atom"; while(mdl != AtomHDR) { (atom, atoml) := q.atomhdr(); sys->print("\t%s %d\n", atom, atoml); q.skipatom(atoml); mdl -= atoml; } return nil; } QD.readn(r: self ref QD, b: array of byte, l: int): int { if(r.nbyte < l) { c := 0; if(r.nbyte != 0) { b[0:] = r.buf[r.ptr:]; l -= r.nbyte; c += r.nbyte; b = b[r.nbyte:]; } bsize := len r.buf; while(l != 0) { r.nbyte = sys->read(r.fd, r.buf, bsize); if(r.nbyte <= 0) { r.nbyte = 0; return -1; } n := l; if(n > bsize) n = bsize; r.ptr = 0; b[0:] = r.buf[0:n]; b = b[n:]; r.nbyte -= n; r.ptr += n; l -= n; c += n; } return c; } b[0:] = r.buf[r.ptr:r.ptr+l]; r.nbyte -= l; r.ptr += l; return l; } QD.skip(r: self ref QD, size: int): int { if(r.nbyte != 0) { n := size; if(n > r.nbyte) n = r.nbyte; r.ptr += n; r.nbyte -= n; size -= n; if(size == 0) return 0; } return int sys->seek(r.fd, big size, sys->SEEKRELA); } beword(b: array of byte, o: int): int { return (int b[o] << 8) | int b[o+1]; } bedword(b: array of byte, o: int): int { return (int b[o] << 24) | (int b[o+1] << 16) | (int b[o+2] << 8) | int b[o+3]; }