public void StatusMessageEncodingTests()
{
StatusMessage testStatusMessageSize = new StatusMessage();
StatusMessage testStatusMessageIndex = new StatusMessage();
MessageInitializers.StatusMessageFieldSizeInitializer(out testStatusMessageSize);
MessageInitializers.StatusMessageFieldIndexInitializer(out testStatusMessageIndex);
List <Byte> messageValuesList = new List <Byte>();
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.OpCode, (uint)2,
messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.MessageCounter,
(uint)0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList((int)testStatusMessageSize.IDPart1,
600, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList((int)testStatusMessageSize.IDPart2,
700, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList((int)testStatusMessageSize.IDPart3,
800, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.TimeSource,
(uint)2, messageValuesList); //Accurate
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.GPSYear,
(uint)0, messageValuesList); //Year
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.GPSMonth,
(uint)0, messageValuesList); //Month
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.GPSDay,
(uint)0, messageValuesList); //Day
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.GPSHour,
(uint)0, messageValuesList); //Hour
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.GPSMinute,
(uint)0, messageValuesList); //Min
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.GPSSecond,
(uint)0, messageValuesList); //Sec
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.GPSMiliSec,
(uint)0, messageValuesList); //Mili
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.Mode,
(uint)4, messageValuesList); //Mode
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.RTA,
(uint)1, messageValuesList); //Ready To Arm
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.BCS,
(uint)160, messageValuesList); //Battery LSB=0.1
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.IMUStatus,
(uint)1, messageValuesList); //IMU
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.FDS,
(uint)3, messageValuesList); //Flash
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testStatusMessageSize.RCChannels,
(uint)1, messageValuesList); //RC
//Convert list to Array
Byte[] messageinValues = messageValuesList.ToArray();
Byte[] ExpectedArray = { 2, 0, 0, 88, 2, 0, 0, 188, 2, 0, 0, 32, 3, 0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 4, 1, 160, 0, 1, 3, 1 };
Assert.AreEqual(Convert.ToBase64String(ExpectedArray), Convert.ToBase64String(messageinValues));
}
public void KinematicMessageEncodingTests()
{
KinematicMessage testKinematicMessageSize = new KinematicMessage();
KinematicMessage testKinematicMessageIndex = new KinematicMessage();
MessageInitializers.KinematicMessageFieldSizeInitializer(out testKinematicMessageSize);
MessageInitializers.KinematicMessageFieldIndexInitializer(out testKinematicMessageIndex);
List <Byte> messageValuesList = new List <Byte>();
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.OpCode, 4, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.MessageCounter, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList((int)testKinematicMessageSize.IDPart1, 600, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList((int)testKinematicMessageSize.IDPart2, 700, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList((int)testKinematicMessageSize.IDPart3, 800, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.TimeSource, 2, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GPSYear, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GPSMonth, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GPSDay, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GPSHour, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GPSMinute, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GPSSecond, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GPSMiliSec, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.BaroHeight, 17, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.Pressure, 3200, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.AccX, 3500, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.AccY, 3000, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.AccZ, 3, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.MagX, 5, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.MagY, 15, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.MagZ, 32, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GyroX, 3000, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GyroY, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GyroZ, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.Heading, 10, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.Roll, 20, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.Pitch, 40, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.OrientationX, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.OrientationY, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.OrientationZ, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.OrientationW, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.LinearAccX, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.LinearAccY, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.LinearAccZ, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GravX, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GravY, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testKinematicMessageSize.GravZ, 0, messageValuesList);
//Convert list to Array
Byte[] messageinValues = messageValuesList.ToArray();
Byte[] ExpectedArray = { 4, 0, 0, 88, 2, 0, 0, 188, 2, 0, 0, 32, 3, 0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 17, 0, 128, 12, 172, 13, 184, 11, 3, 0, 5, 0, 15, 0, 32, 0, 184, 11, 0, 0, 0, 0, 10, 0, 20, 0, 40, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };
Assert.AreEqual(Convert.ToBase64String(ExpectedArray), Convert.ToBase64String(messageinValues));
}
// Save the users current state
public override void SaveState()
{
string mapAlias = ParamsDictionary[ActiveMapAliasKey] as string;
Map map = GetMapObj(mapAlias);
if (map != null)
{
SaveZoomCenterState(map);
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(map.Layers, "Layers");
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(MapInfo.Engine.Session.Current.Selections.DefaultSelection, "Selection");
// Mark the users HTTPSession as dirty
HttpContext.Current.Session["UserDirtyFlag"] = true;
}
}
// Save the state
public override void SaveState()
{
string mapAlias = ParamsDictionary[ActiveMapAliasKey] as string;
Map map = MapInfo.Engine.Session.Current.MapFactory[mapAlias];
if (map != null)
{
SaveZoomCenterState(map);
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(map.Layers, "Layers");
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(MapInfo.Engine.Session.Current.Selections.DefaultSelection, "Selection");
//need to save map's Legends here
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(map.Legends, "Legends");
}
}
// When the session is not dirty these values are initial state of the session.
private void SaveDefaultState(Map map)
{
HttpApplicationState application = HttpContext.Current.Application;
if (application["Zoom"] == null)
{
// Store default selection
application["Selection"] = ManualSerializer.BinaryStreamFromObject(MapInfo.Engine.Session.Current.Selections.DefaultSelection);
// Store layers collection
application["Layers"] = ManualSerializer.BinaryStreamFromObject(map.Layers);
// Store the original zoom and center.
application["Center"] = map.Center;
application["Zoom"] = map.Zoom;
}
}
// When the MapXtreme Session is not dirty save the initial state of this session read from the
// initial workspace from the web.config.
private void SaveDefaultState(Map map)
{
HttpApplicationState application = HttpContext.Current.Application;
if (application["DefaultZoom"] == null)
{
// Store default selection
application["DefaultSelection"] = ManualSerializer.BinaryStreamFromObject(MapInfo.Engine.Session.Current.Selections.DefaultSelection);
// Store layers collection
application["DefaultLayers"] = ManualSerializer.BinaryStreamFromObject(map.Layers);
// Store the original zoom and center.
application["DefaultCenter"] = map.Center;
application["DefaultZoom"] = map.Zoom;
}
// This pooled MapXtreme Session instance should be marked as dirty
MapInfo.Engine.Session.Current.CustomProperties["DirtyFlag"] = true;
}
// When the session is not dirty these values are initial state of the session.
private void SaveDefaultState(Map map)
{
HttpApplicationState application = HttpContext.Current.Application;
if (application["DefaultZoom"] == null)
{
// Store default selection
application["DefaultSelection"] = ManualSerializer.BinaryStreamFromObject(MapInfo.Engine.Session.Current.Selections.DefaultSelection);
// Store layers collection
application["DefaultLayers"] = ManualSerializer.BinaryStreamFromObject(map.Layers);
// Store the original zoom and center.
application["DefaultCenter"] = map.Center;
application["DefaultZoom"] = map.Zoom;
}
// Set the dirty flag in this MapXtreme Session Instance
MapInfo.Engine.Session.Current.CustomProperties.Add("Dirty", true);
}
// Restore the state
public override void RestoreState()
{
string mapAlias = ParamsDictionary[ActiveMapAliasKey] as string;
Map myMap = GetMapObj(mapAlias);
// If it was user's first time and the session was not dirty then save this default state to be applied later.
// If it was a users's first time and the session was dirty then apply the default state saved in above step to give users a initial state.
if (IsUsersFirstTime())
{
if (IsDirtyMapXtremeSession())
{
RestoreDefaultState(myMap);
}
else
{
SaveDefaultState(myMap);
}
}
else
{
AppStateManager.RestoreZoomCenterState(myMap);
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("mdb_table");
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("theme_table");
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("theme_layer");
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("group_layer");
// Important Note:
// The saved theme layer, group layer and tables get restored automatically by ASP.NET serialization.
// By the time this method is called, this has already happened.
// We need to move the GroupLayer to the Top, so the contents within it could be displayed.
// This step is necessary since the GroupLayer is created on the fly and not loaded through pre-loaded workspace and
// the position of the groupLayer inside the Layers collection is not guarantee when it get deserialized back
// since we don't save the whole Layers collection for performance purpose in this sample.
int indexOfGroupLayer = myMap.Layers.IndexOf(myMap.Layers[SampleConstants.GroupLayerAlias]);
if (indexOfGroupLayer > 0)
{
myMap.Layers.Move(indexOfGroupLayer, 0);
// Need to turn off other labellayer if we have a demo labellayer in the GroupLayer.
// This step is needed if "MapInfo.Engine.Session.Pooled" value="false" in the web.config,
// Otherwise you would see other LabelLayers show up on the map.
WebForm1.HandleLabelLayerVisibleStatus(myMap);
}
}
}
// Restore the users state
public override void RestoreState()
{
string mapAlias = ParamsDictionary[ActiveMapAliasKey] as string;
Map map = GetMapObj(mapAlias);
// If this is a clean pooled object save the default state for new users to
// access later.
if (!IsDirtyMapXtremeSession(map))
{
SaveDefaultState(map);
}
// If it was user's first time and the session is dirty, restore the default state.
if (IsUsersFirstTime())
{
if (IsDirtyMapXtremeSession(map))
{
RestoreDefaultState(map);
}
}
else
{
// If this is an existing user then restore the last state they saved
// Make sure to also check if this is a clean or dirty pooled object, you may
// have to restore some base state or tables prior to restoring users state. The best
// practice is to save all modified or added MapXtreme objects to the users state
// and restore them in the correct order. But in some instances clean up or
// initialization of the pooled MapXtreme Session may be necessary
if (IsDirtyMapXtremeSession(map))
{
// TODO: Manual work to prepare the dirty Pooled MapXtreme Session instance
}
else
{
// TODO: Manual work to prepare the clean Pooled MapXtreme Session instance
}
RestoreZoomCenterState(map);
// Just by deserializing the binary stream we reset the MapFactory Deault layers collection
// Any MapXtreme class that supports the ISerializable interface will automatically be
// restored to the current MapXtreme Session.
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("Layers");
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("Selection");
}
}
// Save the state
public override void SaveState()
{
string mapAlias = this.ParamsDictionary[AppStateManager.ActiveMapAliasKey] as String;
MapInfo.Mapping.Map map = GetMapObj(mapAlias);
if (map == null)
{
return;
}
// 1. Only if the MapInfo.Engine.Session.State is set to "Manual" in the web.config,
// We manually save objects below.
// 2. The MapInfo Session object will be automatically saved and you need to do nothing,
// if the MapInfo.Engine.Session.State is set to HttpSessionState.
AppStateManager.SaveZoomCenterState(map);
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(MapInfo.Engine.Session.Current.Catalog, "Catalog");
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(map.Layers, "Layers");
}
// When session is dirty but it is first time for user, this will be applied to give users it's initial state
private void RestoreDefaultState(Map map)
{
HttpApplicationState application = HttpContext.Current.Application;
// Get the default layers, center, and zoomfrom the Application. Clear Layers first,
//this resets the zoom and center which we will set later
map.Layers.Clear();
//Just by deserializing the binary stream we reset the MapFactory Deault layers collection
byte[] bytes = application["DefaultLayers"] as byte[];
Object obj = ManualSerializer.ObjectFromBinaryStream(bytes);
// For default selection
bytes = application["DefaultSelection"] as byte[];
obj = ManualSerializer.ObjectFromBinaryStream(bytes);
// For zoom and center
map.Zoom = (MapInfo.Geometry.Distance)application["DefaultZoom"];
map.Center = (MapInfo.Geometry.DPoint)application["DefaultCenter"];
}
public static void StatusMessageParserFromByteArray(out StatusMessage messageToParse, StatusMessage statusMessageIndex, StatusMessage statusMessageSize, Byte[] arraytoParse)
{
messageToParse.OpCode = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.OpCode,
statusMessageSize.OpCode, arraytoParse);
messageToParse.MessageCounter = ManualSerializer.ReturnInt16ValueFromByteArray(statusMessageIndex.MessageCounter,
statusMessageSize.MessageCounter, false, arraytoParse);
messageToParse.IDPart1 = ManualSerializer.ReturnUint32ValueFromByteArray((int)statusMessageIndex.IDPart1,
(int)statusMessageSize.IDPart1, false, arraytoParse);
messageToParse.IDPart2 = ManualSerializer.ReturnUint32ValueFromByteArray((int)statusMessageIndex.IDPart2,
(int)statusMessageSize.IDPart2, false, arraytoParse);
messageToParse.IDPart3 = ManualSerializer.ReturnUint32ValueFromByteArray((int)statusMessageIndex.IDPart3,
(int)statusMessageSize.IDPart3, false, arraytoParse);
messageToParse.TimeSource = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.TimeSource,
statusMessageSize.TimeSource, arraytoParse);
messageToParse.GPSYear = ManualSerializer.ReturnInt16ValueFromByteArray(statusMessageIndex.GPSYear,
statusMessageSize.GPSYear, false, arraytoParse);
messageToParse.GPSMonth = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.GPSMonth,
statusMessageSize.GPSMonth, arraytoParse);
messageToParse.GPSDay = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.GPSDay,
statusMessageSize.GPSDay, arraytoParse);
messageToParse.GPSHour = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.GPSHour,
statusMessageSize.GPSHour, arraytoParse);
messageToParse.GPSMinute = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.GPSMinute,
statusMessageSize.GPSMinute, arraytoParse);
messageToParse.GPSSecond = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.GPSSecond,
statusMessageSize.GPSSecond, arraytoParse);
messageToParse.GPSMiliSec = ManualSerializer.ReturnInt16ValueFromByteArray(statusMessageIndex.GPSMiliSec,
statusMessageSize.GPSMiliSec, false, arraytoParse);
messageToParse.Mode = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.Mode,
statusMessageSize.Mode, arraytoParse);
messageToParse.RTA = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.RTA,
statusMessageSize.RTA, arraytoParse);
messageToParse.BCS = ManualSerializer.ReturnInt16ValueFromByteArray(statusMessageIndex.BCS,
statusMessageSize.BCS, false, arraytoParse);
messageToParse.IMUStatus = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.IMUStatus,
statusMessageSize.IMUStatus, arraytoParse);
messageToParse.FDS = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.FDS,
statusMessageSize.FDS, arraytoParse);
messageToParse.RCChannels = ManualSerializer.ReturnSByteValueFromByteArray(statusMessageIndex.RCChannels,
statusMessageSize.RCChannels, arraytoParse);
}
public static void KinematicMessageParserFromByteArray(out KinematicMessage messageToParse, KinematicMessage MessageIndex, KinematicMessage MessageSize, Byte[] arraytoParse)
{
messageToParse.OpCode = ManualSerializer.ReturnSByteValueFromByteArray(MessageIndex.OpCode, MessageSize.OpCode, arraytoParse);
messageToParse.MessageCounter = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.MessageCounter, MessageSize.MessageCounter, false, arraytoParse);
messageToParse.IDPart1 = ManualSerializer.ReturnUint32ValueFromByteArray((int)MessageIndex.IDPart1, (int)MessageSize.IDPart1, false, arraytoParse);
messageToParse.IDPart2 = ManualSerializer.ReturnUint32ValueFromByteArray((int)MessageIndex.IDPart2, (int)MessageSize.IDPart2, false, arraytoParse);
messageToParse.IDPart3 = ManualSerializer.ReturnUint32ValueFromByteArray((int)MessageIndex.IDPart3, (int)MessageSize.IDPart3, false, arraytoParse);
messageToParse.TimeSource = ManualSerializer.ReturnSByteValueFromByteArray(MessageIndex.TimeSource, MessageSize.TimeSource, arraytoParse);
messageToParse.GPSYear = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.GPSYear, MessageSize.GPSYear, false, arraytoParse);
messageToParse.GPSMonth = ManualSerializer.ReturnSByteValueFromByteArray(MessageIndex.GPSMonth, MessageSize.GPSMonth, arraytoParse);
messageToParse.GPSDay = ManualSerializer.ReturnSByteValueFromByteArray(MessageIndex.GPSDay, MessageSize.GPSDay, arraytoParse);
messageToParse.GPSHour = ManualSerializer.ReturnSByteValueFromByteArray(MessageIndex.GPSHour, MessageSize.GPSHour, arraytoParse);
messageToParse.GPSMinute = ManualSerializer.ReturnSByteValueFromByteArray(MessageIndex.GPSMinute, MessageSize.GPSMinute, arraytoParse);
messageToParse.GPSSecond = ManualSerializer.ReturnSByteValueFromByteArray(MessageIndex.GPSSecond, MessageSize.GPSSecond, arraytoParse);
messageToParse.GPSMiliSec = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.GPSMiliSec, MessageSize.GPSMiliSec, false, arraytoParse);
messageToParse.BaroHeight = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.BaroHeight, MessageSize.BaroHeight, false, arraytoParse);
messageToParse.Pressure = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.Pressure, MessageSize.Pressure, false, arraytoParse);
messageToParse.AccX = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.AccX, MessageSize.AccX, false, arraytoParse);
messageToParse.AccY = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.AccY, MessageSize.AccY, false, arraytoParse);
messageToParse.AccZ = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.AccZ, MessageSize.AccZ, false, arraytoParse);
messageToParse.MagX = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.MagX, MessageSize.MagX, false, arraytoParse);
messageToParse.MagY = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.MagY, MessageSize.MagY, false, arraytoParse);
messageToParse.MagZ = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.MagZ, MessageSize.MagZ, false, arraytoParse);
messageToParse.GyroX = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.GyroX, MessageSize.GyroX, false, arraytoParse);
messageToParse.GyroY = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.GyroY, MessageSize.GyroY, false, arraytoParse);
messageToParse.GyroZ = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.GyroZ, MessageSize.GyroZ, false, arraytoParse);
messageToParse.Heading = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.Heading, MessageSize.Heading, false, arraytoParse);
messageToParse.Roll = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.Roll, MessageSize.Roll, false, arraytoParse);
messageToParse.Pitch = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.Pitch, MessageSize.Pitch, false, arraytoParse);
messageToParse.OrientationX = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.OrientationX, MessageSize.OrientationX, false, arraytoParse);
messageToParse.OrientationY = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.OrientationY, MessageSize.OrientationY, false, arraytoParse);
messageToParse.OrientationZ = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.OrientationZ, MessageSize.OrientationZ, false, arraytoParse);
messageToParse.OrientationW = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.OrientationW, MessageSize.OrientationW, false, arraytoParse);
messageToParse.LinearAccX = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.LinearAccX, MessageSize.LinearAccX, false, arraytoParse);
messageToParse.LinearAccY = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.LinearAccY, MessageSize.LinearAccY, false, arraytoParse);
messageToParse.LinearAccZ = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.LinearAccZ, MessageSize.LinearAccZ, false, arraytoParse);
messageToParse.GravX = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.GravX, MessageSize.GravX, false, arraytoParse);
messageToParse.GravY = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.GravY, MessageSize.GravY, false, arraytoParse);
messageToParse.GravZ = ManualSerializer.ReturnInt16ValueFromByteArray(MessageIndex.GravZ, MessageSize.GravZ, false, arraytoParse);
}
// When session is dirty but it is first time for user, this will be applied to give users it's initial state
private void RestoreDefaultState(Map map)
{
HttpApplicationState application = HttpContext.Current.Application;
// Get the default layers, center, and zoomfrom the Application. Clear Layers first,
// this resets the zoom and center which we will set later
map.Layers.Clear();
// Just by deserializing the binary stream we reset the MapFactory Deault layers collection
// Any MapXtreme class that supports the ISerializable interface will automatically be
// restored to the current MapXtreme Session.
byte[] bytes = application["DefaultLayers"] as byte[];
Object obj = ManualSerializer.ObjectFromBinaryStream(bytes);
// Deserialzing rules are the same for the default selection
bytes = application["DefaultSelection"] as byte[];
obj = ManualSerializer.ObjectFromBinaryStream(bytes);
// For zoom and center, these are simple types and need to be assigned to the map object.
map.Zoom = (MapInfo.Geometry.Distance)application["DefaultZoom"];
map.Center = (DPoint)application["DefaultCenter"];
}
// Restore the state
public override void RestoreState()
{
string mapAlias = ParamsDictionary[ActiveMapAliasKey] as string;
Map map = GetMapObj(mapAlias);
if (map == null)
{
return;
}
// If it was user's first time and the session was not dirty then save this default state to be applied later.
// If it was a users's first time and the session was dirty then apply the default state saved in above step to give users a initial state.
if (IsUsersFirstTime())
{
if (IsDirtyMapXtremeSession(map))
{
RestoreDefaultState(map);
}
else
{
SaveDefaultState(map);
}
}
else
{
// If it is not user's first time then restore the last state they saved
RestoreZoomCenterState(map);
//ManualSerializer.RestoreMapXtremeObjectFromHttpSession("Layers");
ManualSerializer.RestoreMapXtremeObjectFromHttpSession(GetKey("Selection"));
// Just by setting it to temp variables the objects are serialized into session. There is no need to set them explicitly.
if (StateManager.IsManualState())
{
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("tempTable");
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("tempLayer");
}
}
}
public void PhysicalMessageEncodingTests()
{
PhysicalMessage testPhysicalMessageSize = new PhysicalMessage();
PhysicalMessage testPhysicalMessageIndex = new PhysicalMessage();
MessageInitializers.PhysicalMessageFieldSizeInitializer(out testPhysicalMessageSize);
MessageInitializers.PhysicalMessageFieldIndexInitializer(out testPhysicalMessageIndex);
List <Byte> messageValuesList = new List <Byte>();
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.OpCode, 3, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.MessageCounter, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList((int)testPhysicalMessageSize.IDPart1, 600, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList((int)testPhysicalMessageSize.IDPart2, 700, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList((int)testPhysicalMessageSize.IDPart3, 800, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.TimeSource, 2, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSYear, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSMonth, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSDay, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSHour, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSMinute, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSSecond, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSMiliSec, 0, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.NumberOfSatellites, 17, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.Latitude, 32100000, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.Longitude, 35200000, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSAltitude, 3000, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSVelocity, 3, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSAngle, 5, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.GPSGroundSpeed, 15, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.Temperature, 32, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.Humidity, 3000, messageValuesList);
messageValuesList = ManualSerializer.EncodeValuesAsBytesInList(testPhysicalMessageSize.UVAUVB, 0, messageValuesList);
//Convert list to Array
Byte[] messageinValues = messageValuesList.ToArray();
Byte[] ExpectedArray = { 3, 0, 0, 88, 2, 0, 0, 188, 2, 0, 0, 32, 3, 0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 17, 160, 206, 233, 1, 0, 28, 25, 2, 184, 11, 3, 0, 5, 0, 15, 0, 32, 0, 184, 11, 0, 0 };
Assert.AreEqual(Convert.ToBase64String(ExpectedArray), Convert.ToBase64String(messageinValues));
}
// Save the state
public override void SaveState()
{
string mapAlias = this.ParamsDictionary[AppStateManager.ActiveMapAliasKey] as String;
MapInfo.Mapping.Map myMap = GetMapObj(mapAlias);
if (myMap == null)
{
return;
}
// Note: for performance reasons, only save the map's center and zoom.
AppStateManager.SaveZoomCenterState(myMap);
// Get the workingLayerName saved in WebForm1.aspx page_load.
string workingLayerName = this.ParamsDictionary["WorkingLayerName"] as String;
// Save the map's Working table and layer
MapInfo.Mapping.FeatureLayer workingLayer = (MapInfo.Mapping.FeatureLayer)myMap.Layers[workingLayerName];
MapInfo.Data.Table workingTable = workingLayer != null ? workingLayer.Table : null;
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(workingTable, "WorkingTable");
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(workingLayer, "WorkingLayer");
}
public void TestManualSerializer()
{
var testList = new List <TestObj>()
{
new TestObj()
{
FooString = "Test\"St\\ring", BarDecimal = 9.23m, BazInt = 77
},
new TestObj()
{
FooString = "OtherTestString", BarDecimal = 113m, BazInt = -44
},
};
var knownGood = JsonSerializer.Serialize(testList);
var memoryStream = new MemoryStream();
ManualSerializer.Serialize(testList, new Utf8JsonWriter(memoryStream));
var serializedOutput = Encoding.UTF8.GetString(memoryStream.ToArray());
Assert.AreEqual(knownGood, serializedOutput);
}
// Save the state
public override void SaveState()
{
string mapAlias = this.ParamsDictionary[AppStateManager.ActiveMapAliasKey] as String;
MapInfo.Mapping.Map map = GetMapObj(mapAlias);
if (map != null)
{
MapInfo.WebControls.StateManager.SaveZoomCenterState(map);
// Note: Please be aware of the order of assigning below objects to HttpContext.Current.Session.
// The order matters in this case since theme_table contains some temp columns constructed from mdb_table.
// and some themes/modifiers in the theme_layer are based on the theme_table.
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(MapInfo.Engine.Session.Current.Catalog[SampleConstants.EWorldAlias], "mdb_table");
//HttpContext.Current.Session["mdb_table"] = MapInfo.Engine.Session.Current.Catalog[SampleConstants.EWorldAlias];
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(MapInfo.Engine.Session.Current.Catalog[SampleConstants.ThemeTableAlias], "theme_table");
//HttpContext.Current.Session["theme_table"] = MapInfo.Engine.Session.Current.Catalog[SampleConstants.ThemeTableAlias];
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(map.Layers[SampleConstants.ThemeLayerAlias], "theme_layer");
//HttpContext.Current.Session["theme_layer"] = map.Layers[SampleConstants.ThemeLayerAlias];
// Group Layer holds temp object theme or label layers which varies with requests.
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(map.Layers[SampleConstants.GroupLayerAlias], "group_layer");
//HttpContext.Current.Session["group_layer"] = map.Layers[SampleConstants.GroupLayerAlias];
}
}
// Save the state
public override void SaveState()
{
string mapAlias = this.ParamsDictionary[AppStateManager.ActiveMapAliasKey] as String;
// Get the map
MapInfo.Mapping.Map myMap = GetMapObj(mapAlias);
if (myMap == null)
{
return;
}
// 1. Only if the MapInfo.Engine.Session.State is set to "Manual" in the web.config,
// We manually save objects below.
// 2. The MapInfo Session object will be automatically saved and you need to do nothing,
// if the MapInfo.Engine.Session.State is set to HttpSessionState.
AppStateManager.SaveZoomCenterState(myMap);
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(myMap.Layers, GetKey("Layers"));
// Save NorthArrowAdornment.
if (myMap.Adornments["north_arrow"] != null)
{
ManualSerializer.SaveMapXtremeObjectIntoHttpSession(myMap.Adornments["north_arrow"], "north_adornment");
}
}
// Restore the state
public override void RestoreState()
{
string mapAlias = ParamsDictionary[ActiveMapAliasKey] as string;
Map myMap = GetMapObj(mapAlias);
// If it was user's first time and the session was not dirty then save this default state to be applied later.
// If it was a users's first time and the session was dirty then apply the default state saved in above step to give users a initial state.
if (IsUsersFirstTime())
{
if (IsDirtyMapXtremeSession())
{
RestoreDefaultState(myMap);
}
else
{
SaveDefaultState(myMap);
}
}
else
{
if (myMap == null)
{
return;
}
// Restore everything we saved explictly.
AppStateManager.RestoreZoomCenterState(myMap);
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("WorkingTable");
ManualSerializer.RestoreMapXtremeObjectFromHttpSession("WorkingLayer");
// Get the workingLayerName saved in WebForm1.aspx page_load.
string workingLayerName = this.ParamsDictionary["WorkingLayerName"] as String;
int indexOfLayer = myMap.Layers.IndexOf(myMap.Layers[workingLayerName]);
// Move the working layer to the Top, so it can be displayed.
myMap.Layers.Move(indexOfLayer, 0);
}
}
public AppStateManager()
{
_session = new ManualSerializer();
}
static void Main(string[] args)
{
Student student = new Student()
{
FirstName = "Risto",
LastName = "Panchevski",
Age = 32,
Active = true,
Subjects = new List <Subject>()
{
new Subject()
{
Name = "C#",
Classes = 40
},
new Subject()
{
Name = "C# Advance",
Classes = 60
}
}
};
#region Manual Serialization
//Expected Result (JSON)
//{"FirstName": "Risto", "LastName": "Panchevski", "Age": "32", "Active": "true"}
Console.WriteLine("--------------------Manual--------------------");
string manualSerialization = ManualSerializer.SerializeStudent(student);
Console.WriteLine(manualSerialization);
Student manualDeserialization = ManualSerializer.DeserializeStudent(manualSerialization);
Console.WriteLine(manualDeserialization.FullName);
#endregion
#region System.Text.Json
Console.WriteLine("--------------------System.Text.Json--------------------");
string jsonSerialization = System.Text.Json.JsonSerializer.Serialize(student);
Console.WriteLine(jsonSerialization);
Student jsonDeserialization = System.Text.Json.JsonSerializer.Deserialize <Student>(jsonSerialization);
Console.WriteLine(jsonDeserialization.FullName);
#endregion
#region Newtonsoft.JSON
Console.WriteLine("--------------------Newtonsoft.JSON--------------------");
string newtonsoftSerialization = JsonConvert.SerializeObject(student);
Console.WriteLine(newtonsoftSerialization);
Student newtonsoftDeserialization = JsonConvert.DeserializeObject <Student>(newtonsoftSerialization);
Console.WriteLine(newtonsoftDeserialization?.FullName);
//{"Ime": "Risto", "Prezime": "Panchevski", "Godini": "32", "Aktiven": "true"} => Uncomment the comments in Student.cs
#endregion
}
static void Main(string[] args)
{
/*Some Hack to Make MQTT messaging Work, Otherwise next messages are not sent*/
//Publ publisher = new Publ();
//publisher.Publish();
const string IotEndpoint = "a28g8imipibhcw.iot.us-east-1.amazonaws.com";
const int BrokerPort = 8883;
const string DeviceStatusTopic = "DeviceStatus";
const string PhysicalDataTopic = "PhysicalData";
const string KinematicDataTopic = "KinematicData";
const string InitializationDataTopic = "InitData";
X509Certificate2 clientCert = new X509Certificate2("YOURPFXFILE.pfx", "1");
X509Certificate caCert = X509Certificate.CreateFromSignedFile("rootCA.pem");
// create the client
MqttClient client = new MqttClient(IotEndpoint, BrokerPort, true, caCert, clientCert, MqttSslProtocols.TLSv1_2);
//message to publish - could be anything
//client naming has to be unique if there was more than one publisher
client.Connect("clientid1");
//publish to the topic
Byte[] A = { 2 };
client.Publish("hello", A, 0, false);
//string Message = "";
Console.WriteLine("Hello World!");
//For Future use when Export form DB will have millisecond
/* StreamReader reader = new StreamReader(@"/Users/nadavguy/Downloads/physical-data-messages-2018-04-08.csv");
* while (!reader.EndOfStream)
* {
* var line = reader.ReadLine();
* var values = line.Split(',');
* Convert.ToDateTime(values[6].Substring(0,19))
* }*/
//Play old data capured from IoT (not DB export)
//DataPlayer.playerFromIoTCapture(@"/Users/nadavguy/Downloads/subscription2.csv", client);
//Initialize messages
//Status message
StatusMessage StatusMessageFieldsSize = new StatusMessage();
MessageInitializers.StatusMessageFieldSizeInitializer(out StatusMessageFieldsSize);
StatusMessage StatusMessageFieldsIndex = new StatusMessage();
MessageInitializers.StatusMessageFieldIndexInitializer(out StatusMessageFieldsIndex);
//Physical message
PhysicalMessage PhysicalMessageFieldsSize = new PhysicalMessage();
MessageInitializers.PhysicalMessageFieldSizeInitializer(out PhysicalMessageFieldsSize);
PhysicalMessage PhysicalMessageFieldsIndex = new PhysicalMessage();
MessageInitializers.PhysicalMessageFieldIndexInitializer(out PhysicalMessageFieldsIndex);
//Kinematic message
KinematicMessage KinematicMessageFieldsSize = new KinematicMessage();
MessageInitializers.KinematicMessageFieldSizeInitializer(out KinematicMessageFieldsSize);
KinematicMessage KinematicMessageFieldsIndex = new KinematicMessage();
MessageInitializers.KinematicMessageFieldIndexInitializer(out KinematicMessageFieldsIndex);
//Initialization message
InitializtionMessage InitMessageFieldsSize = new InitializtionMessage();
MessageInitializers.InitMessageFieldSizeInitializer(out InitMessageFieldsSize);
InitializtionMessage InitMessageFieldsIndex = new InitializtionMessage();
MessageInitializers.InitMessageFieldIndexInitializer(out InitMessageFieldsIndex);
//Start Application part
WriteDefaultValues(fileName);
//Parse old string message form IoT Core export to actual vlaues
//will be used later for testing I guess
/*
* SByte OpCode = ManualSerializer.ReturnSByteValue(0, 1);
* Int16 MessageCounter = ManualSerializer.ReturnInt16Value(1, 2, false);
* UInt32 IDPart1 = ManualSerializer.ReturnUint32Value(3, 4, false);
* UInt32 IDPart2 = ManualSerializer.ReturnUint32Value(7, 4, false);
* UInt32 IDPart3 = ManualSerializer.ReturnUint32Value(11, 4, false);
* SByte TimeSource = ManualSerializer.ReturnSByteValue(15, 1);
* Int16 GPSYear = ManualSerializer.ReturnInt16Value(16, 2,false);
* SByte GPSMonth = ManualSerializer.ReturnSByteValue(18, 1);
* SByte GPSDay = ManualSerializer.ReturnSByteValue(19, 1);
* SByte GPSHour = ManualSerializer.ReturnSByteValue(20, 1);
* SByte GPSMinute = ManualSerializer.ReturnSByteValue(21, 1);
* SByte GPSSecond = ManualSerializer.ReturnSByteValue(22, 1);
* Int16 GPSMiliSecond = ManualSerializer.ReturnInt16Value(23, 2, false);
* SByte Mode = ManualSerializer.ReturnSByteValue(25, 1);
* SByte RTA = ManualSerializer.ReturnSByteValue(26, 1);
* Int16 BCS = ManualSerializer.ReturnInt16Value(27, 2, false);
* SByte IMUStatus = ManualSerializer.ReturnSByteValue(29, 1);
* SByte FDS = ManualSerializer.ReturnSByteValue(30, 1);
* SByte RCChannels = ManualSerializer.ReturnSByteValue(31, 1);
*/
/*
* StatusMessage ParsedStatusMessage = new StatusMessage();
* MessageParser.StatusMessageParser(out ParsedStatusMessage, StatusMessageFieldsIndex, StatusMessageFieldsSize);
*/
/* Part of the try to create a Byte array manuall and sending it using external MQTT applicaiton
* it did not work. apperantly MQTT does so weird stuff to the payload.
* added MQTT library.
* Code is obsolete
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)2) + ",";
* Message += ManualSerializer.EncodeValuesAsBytes(2, (uint)0) + ",";
* Message += ManualSerializer.EncodeValuesAsBytes(4, 300) + ",";
* Message += ManualSerializer.EncodeValuesAsBytes(4, 400) + ",";
* Message += ManualSerializer.EncodeValuesAsBytes(4, 500) + ",";
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)2) + ",";//Accurate
* Message += ManualSerializer.EncodeValuesAsBytes(2, (uint)0) + ",";//Year
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)0) + ",";//Month
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)0) + ",";//Day
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)0) + ",";//Hour
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)0) + ",";//Min
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)0) + ",";//Sec
* Message += ManualSerializer.EncodeValuesAsBytes(2, (uint)0) + ",";//Mili
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)6) + ",";//Mode
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)1) + ",";//Ready To Arm
* Message += ManualSerializer.EncodeValuesAsBytes(2, (uint)10) + ",";//Battery LSB=0.1
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)1) + ",";//IMU
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)3) + ",";//Flash
* Message += ManualSerializer.EncodeValuesAsBytes(1, (uint)1);//RC*/
//Encode Byte Array using list.
List <Byte> termsList = new List <Byte>();
//termsList = EncodeValuesAsBytesInList(4, 400, termsList);
//Generate Status message
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.OpCode, (uint)2,
termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.MessageCounter,
(uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)StatusMessageFieldsSize.IDPart1,
600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)StatusMessageFieldsSize.IDPart2,
700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)StatusMessageFieldsSize.IDPart3,
800, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.TimeSource,
(uint)2, termsList); //Accurate
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSYear,
(uint)0, termsList); //Year
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSMonth,
(uint)0, termsList); //Month
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSDay,
(uint)0, termsList); //Day
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSHour,
(uint)0, termsList); //Hour
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSMinute,
(uint)0, termsList); //Min
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSSecond,
(uint)0, termsList); //Sec
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSMiliSec,
(uint)0, termsList); //Mili
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.Mode,
(uint)2, termsList); //Mode
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.RTA,
(uint)2, termsList); //Ready To Arm
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.BCS,
(uint)160, termsList); //Battery LSB=0.1
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.IMUStatus,
(uint)2, termsList); //IMU
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.FDS,
(uint)3, termsList); //Flash
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.RCChannels,
(uint)0, termsList); //RC
//2,0,0,3,0,0,0,4,0,0,0,5,0,0,0,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,255 ,0 ,1 ,1 ,3
//2,0,0,3,0,0,0,4,0,0,0,5,0,0,0,Acc,YearL,YearH,Mnth,Day,Hour,Min,Sec,MiliL,MiliH,Mode,RTA,BCSL,BCSH,IMU,FSD,RC
//2,0,0,3,0,0,0,4,0,0,0,5,0,0,0,1 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,6 ,1 ,10 ,0 ,1 ,3 ,1
//Convert list to Array
Byte[] terms = termsList.ToArray();
//client.Connect("clientid1");
//Publish message
client.Publish(DeviceStatusTopic, terms, 0, false);
termsList.Clear();
//Generate Physical data message
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.OpCode, 3, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.MessageCounter, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)PhysicalMessageFieldsSize.IDPart1, 600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)PhysicalMessageFieldsSize.IDPart2, 700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)PhysicalMessageFieldsSize.IDPart3, 800, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.TimeSource, 2, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSYear, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSMonth, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSDay, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSHour, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSMinute, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSSecond, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSMiliSec, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.NumberOfSatellites, 17, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Latitude, 32100000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Longitude, 35200000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSAltitude, 3000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSVelocity, 3, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSAngle, 5, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSGroundSpeed, 15, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Temperature, 32, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Humidity, 3000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.UVAUVB, 0, termsList);
Byte[] terms2 = termsList.ToArray();
//client.Connect("clientid1");
client.Publish(PhysicalDataTopic, terms2, 0, false);
//Generate Kinematic message
termsList.Clear();
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OpCode, 4, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MessageCounter, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)KinematicMessageFieldsSize.IDPart1, 600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)KinematicMessageFieldsSize.IDPart2, 700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)KinematicMessageFieldsSize.IDPart3, 800, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.TimeSource, 2, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSYear, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSMonth, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSDay, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSHour, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSMinute, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSSecond, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSMiliSec, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.BaroHeight, 17, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Pressure, 3200, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.AccX, 3500, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.AccY, 3000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.AccZ, 3, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MagX, 5, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MagY, 15, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MagZ, 32, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GyroX, 3000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GyroY, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GyroZ, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Heading, 10, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Roll, 20, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Pitch, 40, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationX, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationY, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationZ, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationW, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.LinearAccX, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.LinearAccY, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.LinearAccZ, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GravX, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GravY, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GravZ, 0, termsList);
Byte[] terms3 = termsList.ToArray();
//client.Connect("clientid1");
client.Publish(KinematicDataTopic, terms3, 0, false);
//Generate Initialization message
termsList.Clear();
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.OpCode, (uint)1, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.MessageCounter, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)InitMessageFieldsSize.IDPart1, (uint)600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)InitMessageFieldsSize.IDPart2, (uint)700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)InitMessageFieldsSize.IDPart3, (uint)800, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.TimeSource, (uint)1, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.GPSYear, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.GPSMonth, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.GPSDay, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.GPSHour, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.GPSMinute, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.GPSSecond, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.GPSMiliSec, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.SWVersionID, (uint)1000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.HWVersionID, (uint)1000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.ArmHeight, (uint)5, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.DisarmHeight, (uint)3, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.VibrationsValue, (uint)2, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.NoVibrationTime, (uint)250, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.VibrationFrequency, (uint)5, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.RollCalibration, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.PitchCalibration, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.RollInitMargin, (uint)5, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.PitchInitMargin, (uint)5, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.IMUConfiguration, (uint)15, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.RCConfiguration, (uint)3, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.BatteryCells, (uint)4, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.MotorDelay, (uint)50, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.RollAttitudeLimit, (uint)65, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.PitchAttitudeLimit, (uint)65, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.FreefallDuration, (uint)250, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.FreefallLimit, (uint)3, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.AngularSpeedRateLimit, (uint)150, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.AngularSpeedLimit, (uint)65, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.YawRateLimit, (uint)150, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.ActiveHeightSource, (uint)1, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.MaximumHeight, (uint)1, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.LandingGear, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.ArmMode, (uint)1, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.PyroSensorCalib, (uint)35, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.PyroSensorMeasurement, (uint)19, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.PyroTestRate, (uint)15, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.EmergencyBattery, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.Destination, (uint)1, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.SDCard, (uint)1, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.TriggeringMode, (uint)1, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.FiveVoltIndication, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.EmergencyBatteryVoltageIndication, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.TwelveVoltageIndication, (uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(InitMessageFieldsSize.CapacitorVoltageIndication, (uint)0, termsList);
//Convert list to Array
Byte[] terms7 = termsList.ToArray();
//client.Connect("clientid1");
//Publish message
client.Publish(InitializationDataTopic, terms7, 0, false);
termsList.Clear();
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.OpCode, (uint)2,
termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.MessageCounter,
(uint)0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)StatusMessageFieldsSize.IDPart1,
600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)StatusMessageFieldsSize.IDPart2,
700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)StatusMessageFieldsSize.IDPart3,
900, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.TimeSource,
(uint)2, termsList); //Accurate
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSYear,
(uint)0, termsList); //Year
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSMonth,
(uint)0, termsList); //Month
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSDay,
(uint)0, termsList); //Day
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSHour,
(uint)0, termsList); //Hour
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSMinute,
(uint)0, termsList); //Min
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSSecond,
(uint)0, termsList); //Sec
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSMiliSec,
(uint)0, termsList); //Mili
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.Mode,
(uint)6, termsList); //Mode
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.RTA,
(uint)1, termsList); //Ready To Arm
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.BCS,
(uint)160, termsList); //Battery LSB=0.1
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.IMUStatus,
(uint)1, termsList); //IMU
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.FDS,
(uint)3, termsList); //Flash
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.RCChannels,
(uint)0, termsList); //RC
//2,0,0,3,0,0,0,4,0,0,0,5,0,0,0,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,255 ,0 ,1 ,1 ,3
//2,0,0,3,0,0,0,4,0,0,0,5,0,0,0,Acc,YearL,YearH,Mnth,Day,Hour,Min,Sec,MiliL,MiliH,Mode,RTA,BCSL,BCSH,IMU,FSD,RC
//2,0,0,3,0,0,0,4,0,0,0,5,0,0,0,1 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,6 ,1 ,10 ,0 ,1 ,3 ,1
//Convert list to Array
Byte[] terms6 = termsList.ToArray();
//client.Connect("clientid1");
//Publish message
client.Publish(DeviceStatusTopic, terms6, 0, false);
termsList.Clear();
//Generate Physical data message
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.OpCode, 3, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.MessageCounter, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)PhysicalMessageFieldsSize.IDPart1, 600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)PhysicalMessageFieldsSize.IDPart2, 700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)PhysicalMessageFieldsSize.IDPart3, 900, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.TimeSource, 2, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSYear, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSMonth, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSDay, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSHour, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSMinute, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSSecond, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSMiliSec, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.NumberOfSatellites, 17, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Latitude, 32000000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Longitude, 35000000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSAltitude, 3000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSVelocity, 3, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSAngle, 5, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSGroundSpeed, 15, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Temperature, 32, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Humidity, 3000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.UVAUVB, 0, termsList);
Byte[] terms5 = termsList.ToArray();
//client.Connect("clientid1");
client.Publish(PhysicalDataTopic, terms5, 0, false);
//Generate Kinematic message
termsList.Clear();
//Generate Physical data message
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OpCode, 4, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MessageCounter, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)KinematicMessageFieldsSize.IDPart1, 600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)KinematicMessageFieldsSize.IDPart2, 700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)KinematicMessageFieldsSize.IDPart3, 900, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.TimeSource, 2, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSYear, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSMonth, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSDay, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSHour, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSMinute, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSSecond, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSMiliSec, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.BaroHeight, 17, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Pressure, 3200, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.AccX, 3500, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.AccY, 3000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.AccZ, 3, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MagX, 5, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MagY, 15, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MagZ, 32, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GyroX, 3000, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GyroY, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GyroZ, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Heading, 10, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Roll, 20, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Pitch, 40, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationX, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationY, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationZ, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationW, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.LinearAccX, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.LinearAccY, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.LinearAccZ, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GravX, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GravY, 0, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GravZ, 0, termsList);
Byte[] terms4 = termsList.ToArray();
//client.Connect("clientid1");
client.Publish(KinematicDataTopic, terms4, 0, false);
//client.Disconnect();
/*
* StatusMessage NewMessage = new StatusMessage();
* NewMessage.OpCode = OpCode;
* NewMessage.MessageCounter = MessageCounter;
* NewMessage.IDPart1 = IDPart1;
* NewMessage.IDPart2 = IDPart2;
* NewMessage.IDPart3 = IDPart3;
* NewMessage.TimeSource = TimeSource;
* NewMessage.GPSYear = 2018;
* NewMessage.GPSMonth = 4;
* NewMessage.GPSDay = 4;
* NewMessage.GPSHour = 14;
* NewMessage.GPSMinute = 5;
* NewMessage.GPSSecond = 0;
* NewMessage.GPSMiliSec = 0;
* NewMessage.Mode = Mode;
* NewMessage.RTA = RTA;
* NewMessage.BCS = BCS;
* NewMessage.IMUStatus = IMUStatus;
* NewMessage.FDS = FDS;
* NewMessage.RCChannels = RCChannels;
*
* string Message2 = Encoders.MessageEncoder.StatusMessageEncoder(NewMessage, StatusMessageFieldsSize);
*/
// client.Disconnect();
Console.WriteLine("Its the End of the world as we know it!");
}
static public void playerFromIoTCapture(string fileToPlay, MqttClient client)
{
Stopwatch stopWatch = new Stopwatch();
TimeSpan startTime = new TimeSpan();
TimeSpan currentTime = new TimeSpan();
//StreamReader reader = new StreamReader(@"/Users/nadavguy/Downloads/subscription.csv");
StreamReader reader = new StreamReader(fileToPlay);
StatusMessage statusMessagetoParse = new StatusMessage();
KinematicMessage kinematicMessagetoParse = new KinematicMessage();
PhysicalMessage physicalMessagetoParse = new PhysicalMessage();
StatusMessage StatusMessageFieldsSize = new StatusMessage();
MessageInitializers.StatusMessageFieldSizeInitializer(out StatusMessageFieldsSize);
StatusMessage StatusMessageFieldsIndex = new StatusMessage();
MessageInitializers.StatusMessageFieldIndexInitializer(out StatusMessageFieldsIndex);
//Kinematic message
KinematicMessage KinematicMessageFieldsSize = new KinematicMessage();
MessageInitializers.KinematicMessageFieldSizeInitializer(out KinematicMessageFieldsSize);
KinematicMessage KinematicMessageFieldsIndex = new KinematicMessage();
MessageInitializers.KinematicMessageFieldIndexInitializer(out KinematicMessageFieldsIndex);
//Physical message
PhysicalMessage PhysicalMessageFieldsSize = new PhysicalMessage();
MessageInitializers.PhysicalMessageFieldSizeInitializer(out PhysicalMessageFieldsSize);
PhysicalMessage PhysicalMessageFieldsIndex = new PhysicalMessage();
MessageInitializers.PhysicalMessageFieldIndexInitializer(out PhysicalMessageFieldsIndex);
List <string> listHex = new List <string>();
List <string> listPayload = new List <string>();
List <string> listQoS = new List <string>();
List <string> listTimestamp = new List <string>();
List <string> listTopic = new List <string>();
while (!reader.EndOfStream)
{
var line = reader.ReadLine();
var values = line.Split(',');
listHex.Add(values[0]);
listPayload.Add(values[1]);
listQoS.Add(values[2]);
listTimestamp.Add(values[3]);
listTopic.Add(values[4]);
}
double baseTimestamp = Convert.ToDouble(listTimestamp[0]);
startTime = DateTime.Now.TimeOfDay;
//stopWatch.Start();
int i = 0;
while (i < listHex.Count)
{
currentTime = DateTime.Now.TimeOfDay;
//stopWatch.Stop();
// Get the elapsed time as a TimeSpan value.
//ts = stopWatch.Elapsed;
// Using ID 600-700-800 for the data playerso it hard coded
for (int j = i; j < listHex.Count; j++)
{
if ((double)(currentTime - startTime).TotalMilliseconds > (Convert.ToDouble(listTimestamp[j]) - baseTimestamp))
{
i++;
if (listTopic[j].Equals(DeviceStatusTopic))
{
byte[] statusbyteArray = Encoding.UTF8.GetBytes(listPayload[j]);
MessageParser.StatusMessageParserFromByteArray(out statusMessagetoParse, StatusMessageFieldsIndex, StatusMessageFieldsSize, statusbyteArray);
List <Byte> termsList = new List <Byte>();
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.OpCode, (uint)statusMessagetoParse.OpCode, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.MessageCounter, (uint)statusMessagetoParse.MessageCounter, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)StatusMessageFieldsSize.IDPart1, 600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)StatusMessageFieldsSize.IDPart2, 700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)StatusMessageFieldsSize.IDPart3, 800, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.TimeSource, (uint)statusMessagetoParse.TimeSource, termsList); //Accurate
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSYear, (uint)0, termsList); //Year
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSMonth, (uint)0, termsList); //Month
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSDay, (uint)0, termsList); //Day
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSHour, (uint)0, termsList); //Hour
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSMinute, (uint)0, termsList); //Min
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSSecond, (uint)0, termsList); //Sec
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.GPSMiliSec, (uint)0, termsList); //Mili
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.Mode, (uint)statusMessagetoParse.Mode, termsList); //Mode
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.RTA, (uint)statusMessagetoParse.RTA, termsList); //Ready To Arm
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.BCS, (uint)statusMessagetoParse.BCS, termsList); //Battery LSB=0.1
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.IMUStatus, (uint)statusMessagetoParse.IMUStatus, termsList); //IMU
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.FDS, (uint)statusMessagetoParse.FDS, termsList); //Flash
termsList = ManualSerializer.EncodeValuesAsBytesInList(StatusMessageFieldsSize.RCChannels, (uint)statusMessagetoParse.RCChannels, termsList); //RC
Byte[] terms = termsList.ToArray();
client.Publish(DeviceStatusTopic, terms, 0, false);
}
if (listTopic[j].Equals(KinematicDataTopic))
{
byte[] statusbyteArray = Encoding.UTF8.GetBytes(listPayload[j]);
MessageParser.KinematicMessageParserFromByteArray(out kinematicMessagetoParse, KinematicMessageFieldsIndex, KinematicMessageFieldsSize, statusbyteArray);
List <Byte> termsList = new List <Byte>();
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OpCode, (uint)kinematicMessagetoParse.OpCode, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MessageCounter, (uint)kinematicMessagetoParse.MessageCounter, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)KinematicMessageFieldsSize.IDPart1, 600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)KinematicMessageFieldsSize.IDPart2, 700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)KinematicMessageFieldsSize.IDPart3, 800, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.TimeSource, (uint)statusMessagetoParse.TimeSource, termsList); //Accurate
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSYear, (uint)0, termsList); //Year
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSMonth, (uint)0, termsList); //Month
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSDay, (uint)0, termsList); //Day
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSHour, (uint)0, termsList); //Hour
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSMinute, (uint)0, termsList); //Min
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSSecond, (uint)0, termsList); //Sec
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GPSMiliSec, (uint)0, termsList); //Mili
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.BaroHeight, (uint)kinematicMessagetoParse.BaroHeight, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Pressure, (uint)kinematicMessagetoParse.Pressure, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.AccX, (uint)kinematicMessagetoParse.AccX, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.AccY, (uint)kinematicMessagetoParse.AccY, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.AccZ, (uint)kinematicMessagetoParse.AccZ, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MagX, (uint)kinematicMessagetoParse.MagX, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MagY, (uint)kinematicMessagetoParse.MagY, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.MagZ, (uint)kinematicMessagetoParse.MagZ, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GyroX, (uint)kinematicMessagetoParse.GyroX, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GyroY, (uint)kinematicMessagetoParse.GyroY, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GyroZ, (uint)kinematicMessagetoParse.GyroZ, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Heading, (uint)kinematicMessagetoParse.Heading, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Roll, (uint)kinematicMessagetoParse.Roll, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.Pitch, (uint)kinematicMessagetoParse.Pitch, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationX, (uint)kinematicMessagetoParse.OrientationX, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationY, (uint)kinematicMessagetoParse.OrientationY, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationZ, (uint)kinematicMessagetoParse.OrientationZ, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.OrientationW, (uint)kinematicMessagetoParse.OrientationW, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.LinearAccX, (uint)kinematicMessagetoParse.LinearAccX, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.LinearAccY, (uint)kinematicMessagetoParse.LinearAccY, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.LinearAccZ, (uint)kinematicMessagetoParse.LinearAccZ, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GravX, (uint)kinematicMessagetoParse.GravX, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GravY, (uint)kinematicMessagetoParse.GravY, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(KinematicMessageFieldsSize.GravZ, (uint)kinematicMessagetoParse.GravZ, termsList);
Byte[] terms = termsList.ToArray();
client.Publish(KinematicDataTopic, terms, 0, false);
}
if (listTopic[j].Equals(PhysicalDataTopic))
{
byte[] statusbyteArray = Encoding.UTF8.GetBytes(listPayload[j]);
MessageParser.PhysicalMessageParserFromByteArray(out physicalMessagetoParse, PhysicalMessageFieldsIndex, PhysicalMessageFieldsSize, statusbyteArray);
List <Byte> termsList = new List <Byte>();
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.OpCode, (uint)physicalMessagetoParse.OpCode, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.MessageCounter, (uint)physicalMessagetoParse.MessageCounter, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)PhysicalMessageFieldsSize.IDPart1, 600, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)PhysicalMessageFieldsSize.IDPart2, 700, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList((int)PhysicalMessageFieldsSize.IDPart3, 800, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.TimeSource, (uint)physicalMessagetoParse.TimeSource, termsList); //Accurate
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSYear, (uint)0, termsList); //Year
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSMonth, (uint)0, termsList); //Month
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSDay, (uint)0, termsList); //Day
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSHour, (uint)0, termsList); //Hour
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSMinute, (uint)0, termsList); //Min
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSSecond, (uint)0, termsList); //Sec
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSMiliSec, (uint)0, termsList); //Mili
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.NumberOfSatellites, (uint)physicalMessagetoParse.NumberOfSatellites, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Latitude, (uint)physicalMessagetoParse.Latitude, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Longitude, (uint)physicalMessagetoParse.Longitude, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSAltitude, (uint)physicalMessagetoParse.GPSAltitude, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSVelocity, (uint)physicalMessagetoParse.GPSVelocity, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSAngle, (uint)physicalMessagetoParse.GPSAngle, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.GPSGroundSpeed, (uint)physicalMessagetoParse.GPSGroundSpeed, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Temperature, (uint)physicalMessagetoParse.Temperature, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.Humidity, (uint)physicalMessagetoParse.Humidity, termsList);
termsList = ManualSerializer.EncodeValuesAsBytesInList(PhysicalMessageFieldsSize.UVAUVB, (uint)physicalMessagetoParse.UVAUVB, termsList);
Byte[] terms = termsList.ToArray();
client.Publish(PhysicalDataTopic, terms, 0, false);
}
}
}
}
}
public void ManualSerializerBench()
{
using var writer = new Utf8JsonWriter(Stream.Null, Options);
ManualSerializer.Serialize(TestObjects, writer);
}
