/// <summary>
/// Return the number of Journal pages from a XmlDocument (Microsoft format)
/// </summary>
/// <param name="filename">XML document's filename</param>
/// <returns>Number of pages</returns>
public static int NumberOfPages(string filename)
{
Stream inkStream = File.OpenRead(filename);
XmlDocument xmlDoc = ReadJnt.GetMicrosoftXmlFromJournal(inkStream);
//Please refer to http://support.microsoft.com/default.aspx?scid=kb;en-us;318545 for help
XmlNamespaceManager manager = new XmlNamespaceManager(xmlDoc.NameTable);
manager.AddNamespace("sketch", "urn:schemas-microsoft-com:tabletpc:journalreader");
XmlNode pageNode = xmlDoc.SelectSingleNode("//sketch:JournalPage[last()]", manager);
System.Xml.XmlAttribute attribute = pageNode.Attributes["Number"];
return(Convert.ToInt32(attribute.Value));
}
private void ConvertToSketch(string filename, int pageNumber)
{
ByteHolder[] strokes;
InkHolder[] inks;
Stream inkStream = File.OpenRead(filename);
XmlDocument xmlDocument = ReadJnt.GetMicrosoftXmlFromJournal(inkStream);
List <Sketch.Stroke> convertedStrokes = new List <Sketch.Stroke>();
// The conversion process basically extracts Ink information
// and puts it into our own Point/Stroke format.
// The conversion process uses Converter.Converter.
// Seek that file for specifics.
strokes = ExtractXmlInkObject(xmlDocument, pageNumber);
inks = CreateStrokes(strokes);
convertedStrokes = ReadJnt.CreateConvertedStrokes(inks);
this.sketch.AddStrokes(convertedStrokes);
}
/// <summary>
/// This function loops though each stroke contained in each Ink object in the document
/// and uses the stripStrokeData function to create a
/// Converter.Stroke for every Ink.Stroke.
/// </summary>
/// <param name="inkData">inkData is an array of Ink objects that together store all of the stroke data
/// contained in the document under consideration.</param>
/// <returns>ArrayList of Converter.Stroke that contains all of the data about the document's strokes.</returns>
public static List <Sketch.Stroke> CreateConvertedStrokes(InkHolder[] inkData)
{
List <Sketch.Stroke> strokes = new List <Sketch.Stroke>();
int i;
int j;
int inkLength = inkData.Length;
int strokeLength;
for (i = 0; i < inkLength; ++i)
{
strokeLength = inkData[i].inkInfo.Strokes.Count;
for (j = 0; j < strokeLength; ++j)
{
strokes.Add(ReadJnt.StripStrokeData(inkData[i].inkInfo.Strokes[j],
inkData[i].shift, inkData[i].isShifted));
}
}
return(strokes);
}
/// <summary>
/// Takes an Ink.Stroke and outputs an internal representation that can
/// then be output to an XML file
/// </summary>
/// <param name="inkStroke">Ink.Stroke which will have extracted from it the information necessary to store a Stroke in MIT XML.</param>
/// <param name="transf">Transformation matrix to shift the stroke by</param>
/// <param name="shift">Boolean for if we should shift by the transformation matrix</param>
/// <returns>PointsAndShape object that stores the extracted information.</returns>
public static Sketch.Stroke StripStrokeData(Microsoft.Ink.Stroke inkStroke, Matrix transf, bool shift)
{
int i;
int length;
// Get the timestamp for the function using an undocumented GUID (Microsoft.Ink.StrokeProperty.TimeID) to
// get the time as a byte array, which we then convert to a long
ulong theTime;
if (inkStroke.ExtendedProperties.Contains(Microsoft.Ink.StrokeProperty.TimeID) &&
(inkStroke.ExtendedProperties[Microsoft.Ink.StrokeProperty.TimeID] != null))
{
byte[] timeBits = inkStroke.ExtendedProperties[Microsoft.Ink.StrokeProperty.TimeID].Data as byte[];
// Filetime format
ulong fileTime = BitConverter.ToUInt64(timeBits, 0);
// MIT time format
theTime = (fileTime - 116444736000000000) / 10000;
//string time = theTime.ToString();
}
else
{
//theTime = (ulong)System.DateTime.Now.Ticks;
//theTime = ((ulong)System.DateTime.Now.Ticks - 116444736000000000) / 10000;
theTime = ((ulong)DateTime.Now.ToFileTime() - 116444736000000000) / 10000;
}
// Grab X and Y
int[] xData = inkStroke.GetPacketValuesByProperty(Microsoft.Ink.PacketProperty.X);
int[] yData = inkStroke.GetPacketValuesByProperty(Microsoft.Ink.PacketProperty.Y);
if (shift)
{
// Shift X and Y according to transformation matrix
System.Drawing.Point[] pointData = new System.Drawing.Point[xData.Length];
length = xData.Length;
for (i = 0; i < length; i++)
{
pointData[i] = new System.Drawing.Point(xData[i], yData[i]);
}
transf.TransformPoints(pointData);
//Console.WriteLine("x: " + (pointData[0].X - xData[0]) + " y: " + (pointData[0].Y - yData[0]));
for (i = 0; i < length; i++)
{
xData[i] = pointData[i].X;
yData[i] = pointData[i].Y;
}
}
Microsoft.Ink.DrawingAttributes drawingAttributes = inkStroke.DrawingAttributes;
System.Drawing.Rectangle boundingBox = inkStroke.GetBoundingBox();
// Grab the color
int color = drawingAttributes.Color.ToArgb();
// THIS IS DRAWING POINT (PENTIP) HEIGHT AND WIDTH... WE DONT HAVE ANYWHERE TO PUT IT...
//string height = inkStroke.DrawingAttributes.Height.ToString();
//string width = inkStroke.DrawingAttributes.Width.ToString();
float penWidth = drawingAttributes.Width;
float penHeight = drawingAttributes.Height;
// Grab height and width of total stroke
//float height = boundingBox.Height;
//float width = boundingBox.Width;
// Grab penTip
string penTip = drawingAttributes.PenTip.ToString();
// Grab raster
string raster = drawingAttributes.RasterOperation.ToString();
//float x = Convert.ToSingle(boundingBox.X);
//float y = Convert.ToSingle(boundingBox.Y);
//float leftx = Convert.ToSingle(boundingBox.Left);
//float topy = Convert.ToSingle(boundingBox.Top);
// If the pressure data is included take it, otherwise set to 255/2's
// Not all pressure data is in the range of 0 - 255. Some tablets
// register pressure in the range 0 - 1023, while others are 0 - 32768
int[] pressureData;
if (ReadJnt.IsPropertyIncluded(inkStroke, Microsoft.Ink.PacketProperty.NormalPressure))
{
pressureData = inkStroke.GetPacketValuesByProperty(Microsoft.Ink.PacketProperty.NormalPressure);
int max = 0;
foreach (int p in pressureData)
{
max = Math.Max(max, p);
}
if (max > 1024) // Tablet reading in range 0 - 32767
{
double conversion = 255.0 / 32767.0;
List <int> temp = new List <int>(pressureData.Length);
foreach (int p in pressureData)
{
temp.Add((int)(p * conversion));
}
pressureData = temp.ToArray();
}
else if (max > 255) // Tablet reading in range 0 - 1023
{
double conversion = 255.0 / 1023.0;
List <int> temp = new List <int>(pressureData.Length);
foreach (int p in pressureData)
{
temp.Add((int)(p * conversion));
}
pressureData = temp.ToArray();
}
}
else
{
pressureData = new int[xData.Length];
length = pressureData.Length;
for (i = 0; i < length; ++i)
{
pressureData[i] = (255 - 0) / 2;
}
}
// If the time data is included take it, otherwise set to the timestamp plus and increment
ulong[] adjustedTime = new ulong[xData.Length];
int[] timerTick;
if (ReadJnt.IsPropertyIncluded(inkStroke, Microsoft.Ink.PacketProperty.TimerTick))
{
timerTick = inkStroke.GetPacketValuesByProperty(Microsoft.Ink.PacketProperty.TimerTick);
length = timerTick.Length;
for (i = 0; i < length; i++)
{
// This may be incorrect, we never encountered this because Microsoft Journal doesn't save TimerTick data.
// We know that the timestamp of a stroke is made when the pen is lifted.
// Add the time of the stroke to each offset
adjustedTime[i] = theTime + (ulong)timerTick[i] * 10000;
}
}
else
{
timerTick = new int[xData.Length];
length = timerTick.Length;
for (i = 0; i < length; i++)
{
// We believe this to be the standard sample rate. The multiplication by 1,000 is to convert from
// seconds to milliseconds.
//
// Our time is in the form of milliseconds since Jan 1, 1970
//
// NOTE: The timestamp for the stroke is made WHEN THE PEN IS LIFTED
adjustedTime[i] = theTime - (ulong)((1 / SAMPLE_RATE * 1000) * (length - i));
}
}
// Create the array of ID's as new Guid's
Guid[] idData = new Guid[xData.Length];
length = idData.Length;
for (i = 0; i < length; i++)
{
idData[i] = Guid.NewGuid();
}
// Create the internal representation
Sketch.Stroke converterStroke = new Sketch.Stroke();
converterStroke.Name = "stroke";
converterStroke.Time = (ulong)theTime;
converterStroke.Source = "Converter";
// Add all of the points to the stroke
length = inkStroke.PacketCount;
List <Point> pointsToAdd = new List <Point>();
for (i = 0; i < length; i++)
{
float currX = Convert.ToSingle(xData[i]);
float currY = Convert.ToSingle(yData[i]);
XmlStructs.XmlPointAttrs attrs = new XmlStructs.XmlPointAttrs(
currX, currY,
Convert.ToUInt16(pressureData[i]),
Convert.ToUInt64(adjustedTime[i]),
"point", idData[i]);
Sketch.Point toAdd = new Sketch.Point(attrs);
}
//NOTE: X, Y, WIDTH, HEIGHT done later... boundingbox seems to be off
Sketch.Substroke substroke = new Sketch.Substroke(pointsToAdd);
substroke.Name = "substroke";
substroke.Color = color;
substroke.PenTip = penTip;
substroke.PenWidth = penWidth;
substroke.PenHeight = penHeight;
substroke.Raster = raster;
substroke.Source = "ConverterJnt";
substroke.Start = idData[0];
substroke.End = idData[idData.Length - 1];
converterStroke.AddSubstroke(substroke);
return(converterStroke);
}