/// <summary> /// /// </summary> void UpdateInputFb(byte b) { var newInput = InputPorts.FirstOrDefault(i => i.FeedbackMatchObject.Equals(b)); if (newInput != null && newInput != _CurrentInputPort) { _CurrentInputPort = newInput; CurrentInputFeedback.FireUpdate(); } }
///// <summary> ///// / ///// </summary> ///// <param name="sender"></param> //void Communication_BytesReceived(object sender, GenericCommMethodReceiveBytesArgs e) //{ // // This is probably not thread-safe buffering // // Append the incoming bytes with whatever is in the buffer // var newBytes = new byte[IncomingBuffer.Length + e.Bytes.Length]; // IncomingBuffer.CopyTo(newBytes, 0); // e.Bytes.CopyTo(newBytes, IncomingBuffer.Length); // if (Debug.Level == 2) // This check is here to prevent following string format from building unnecessarily on level 0 or 1 // Debug.Console(2, this, "Received:{0}", ComTextHelper.GetEscapedText(newBytes)); // // Need to find AA FF and have // for (int i = 0; i < newBytes.Length; i++) // { // if (newBytes[i] == 0xAA && newBytes[i + 1] == 0xFF) // { // newBytes = newBytes.Skip(i).ToArray(); // Trim off junk if there's "dirt" in the buffer // // parse it // // If it's at least got the header, then process it, // while (newBytes.Length > 4 && newBytes[0] == 0xAA && newBytes[1] == 0xFF) // { // var msgLen = newBytes[3]; // // if the buffer is shorter than the header (3) + message (msgLen) + checksum (1), // // give and save it for next time // if (newBytes.Length < msgLen + 4) // break; // // Good length, grab the message // var message = newBytes.Skip(4).Take(msgLen).ToArray(); // // At this point, the ack/nak is the first byte // if (message[0] == 0x41) // { // switch (message[1]) // type byte // { // case 0x00: // General status // UpdatePowerFB(message[2], message[5]); // "power" can be misrepresented when the display sleeps // UpdateInputFb(message[5]); // UpdateVolumeFB(message[3]); // UpdateMuteFb(message[4]); // UpdateInputFb(message[5]); // break; // case 0x11: // UpdatePowerFB(message[2]); // break; // case 0x12: // UpdateVolumeFB(message[2]); // break; // case 0x13: // UpdateMuteFb(message[2]); // break; // case 0x14: // UpdateInputFb(message[2]); // break; // default: // break; // } // } // // Skip over what we've used and save the rest for next time // newBytes = newBytes.Skip(5 + msgLen).ToArray(); // } // break; // parsing will mean we can stop looking for header in loop // } // } // // Save whatever partial message is here // IncomingBuffer = newBytes; //} void PortGather_LineReceived(object sender, GenericCommMethodReceiveTextArgs e) { Debug.Console(1, this, "Receivied: '{0}'", ComTextHelper.GetEscapedText(e.Text)); if (e.Text.IndexOf("\x50\x4F\x57") > -1) { // Power Status Response var value = e.Text.ToCharArray(); switch (value[6]) { case '\x00': { _PowerIsOn = false; break; } case '\x01': { _PowerIsOn = true; break; } } PowerIsOnFeedback.FireUpdate(); Debug.Console(1, this, "PowerIsOn State: {0}", PowerIsOnFeedback.BoolValue); } else if (e.Text.IndexOf("\x4D\x49\x4E") > -1) { var value = e.Text.ToCharArray(); var b = value[6]; var newInput = InputPorts.FirstOrDefault(i => i.FeedbackMatchObject.Equals(b)); if (newInput != null && newInput != _CurrentInputPort) { _CurrentInputPort = newInput; CurrentInputFeedback.FireUpdate(); Debug.Console(1, this, "Current Input: {0}", CurrentInputFeedback.StringValue); } } else if (e.Text.IndexOf("\x56\x4F\x4C") > -1) { // Volume Status Response var value = e.Text.ToCharArray(); var b = value[6]; var newVol = (ushort)NumericalHelpers.Scale((double)b, 0, 100, 0, 65535); if (!VolumeIsRamping) { _LastVolumeSent = newVol; } if (newVol != _VolumeLevelForSig) { _VolumeLevelForSig = newVol; VolumeLevelFeedback.FireUpdate(); if (_VolumeLevelForSig > 0) { _IsMuted = false; } else { _IsMuted = true; } MuteFeedback.FireUpdate(); Debug.Console(1, this, "Volume Level: {0}", VolumeLevelFeedback.IntValue); } } }