package pixelflut import ( "bufio" "encoding/hex" "image" "image/color" "log" "net" ) // CanvasSize returns the size of the canvas as returned by the server func CanvasSize(address string) (int, int) { conn, err := net.Dial("tcp", address) if err != nil { log.Fatal(err) } defer conn.Close() conn.Write([]byte("SIZE\n")) reader := bufio.NewReader(conn) res, err := reader.ReadSlice('\n') if err != nil { log.Fatal(err) } return parseXY(res[5:]) } // FetchImage asynchronously uses `conns` to fetch pixels within `bounds` from // a pixelflut server at `address`, and writes them into the returned Image. // If bounds is nil, the server's entire canvas is fetched. func FetchImage(bounds *image.Rectangle, address string, conns int, stop chan bool) (img *image.NRGBA) { if bounds == nil { x, y := CanvasSize(address) bounds = &image.Rectangle{Max: image.Pt(x, y)} } img = image.NewNRGBA(*bounds) cmds := cmdsFetchImage(*bounds).Chunk(conns) for i := 0; i < conns; i++ { conn, err := net.Dial("tcp", address) if err != nil { log.Fatal(err) } go readPixels(img, conn, stop) go bombConn(cmds[i], &RandOffsetter{}, conn, stop) } return img } func readPixels(target *image.NRGBA, conn net.Conn, stop chan bool) { reader := bufio.NewReader(conn) col := make([]byte, 4) for { select { case <-stop: return default: res, err := reader.ReadSlice('\n') if err != nil { log.Fatal(err) } // parse response ("PX ") colorStart := len(res) - 7 x, y := parseXY(res[3:colorStart]) hex.Decode(col, res[colorStart:len(res)-1]) target.SetNRGBA(x, y, color.NRGBA{col[0], col[1], col[2], col[3]}) } } } func parseXY(xy []byte) (int, int) { last := len(xy) - 1 yStart := last - 1 // y is at least one char long for ; yStart >= 0; yStart-- { if xy[yStart] == ' ' { break } } x := asciiToInt(xy[:yStart]) y := asciiToInt(xy[yStart+1 : last]) return x, y } func asciiToInt(buf []byte) (v int) { for _, c := range buf { v = v*10 + int(c-'0') } return v }