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Using .NET Databinding to Display Ink from a Database

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18 Aug 2004CPOL5 min read 48.8K   194   28  
This article discusses how to attach the InkPicture control to a database. The methods used will work for any ADO.NET database or Ink-enabled control, but this article will use an Access database and the InkPicture control.

Introduction

Visual Studio provides powerful databinding features which allow you, the developer, to attach controls to fields in a database table and have those fields update automatically when the current record in the table is changed. What makes it so powerful is that you can do this with little or no code. With common data types like strings or numbers, databinding is very simple, but it gets slightly more complicated when the data to be bound to is a custom type. This article addresses that special case, and discusses how to bind a control to ink stored in a database. Note that the ink I'm referring to is the ink from the Microsoft Tablet PC SDK.

This article will not discuss 2-way binding, allowing you to save in the database with bound controls, because that will be addressed in a future article. Due to unusual behavior in the InkPicture control (from the Tablet PC SDK), the process of saving ink is significantly more complicated than the process of reading ink.

Background

This article assumes that you have knowledge of or experience using bound controls in Microsoft Visual Studio, and are able to use the IDE to manipulate Connections, DataAdapters, and DataSets.

Using the code

In order to use the code in this article, you will need to have the Microsoft Tablet PC SDK installed on your development machine. The Tablet PC SDK can be downloaded from Microsoft. It is not necessary to have a Tablet PC in order to use the SDK.

The Database and Serialized Ink

The Tablet PC SDK provides a method for serializing ink to an array of bytes. Ink can be serialized in the ISF format (normal or base 64 encoded) or GIF format (normal or base 64 encoded), but regardless of the format, it always comes out as an array of bytes. Because of this, it is ideal to use a field in the database that maps to an array of bytes. With Microsoft Access, this is the "OLE Object" type. The Memo type will work as well, but it maps to a string, so an additional conversion is involved. This additional conversion can be a problem because it's difficult to find a character mapping which supports all of the values in the byte array. For example, many strings use the character with the numerical value of zero to signify the end of a string. If you create a string which contains a zero in it (which is very possible when the source is an array of bytes from ink), then you would end up with a string that doesn't represent the ink and cannot be converted back. Because of this, you will need to experiment with saving the ink in different formats and using different encoding formats for the string (look for System.Text.Encoding in the online help for more information). When you have control over the database, it's much safer to just use a binary field type and save yourself the hassle.

It should go without saying, but the field in the database cannot be of a fixed size (unless that size is very large). You cannot anticipate how much data will be stored for any given ink object, so you need a field which can grow as needed.

Binding the Ink to the Control

The sample code binds the InkPicutre control to an OLE Object field in an Access database. Normally, you would create a binding using the Properties window for your control, but since the Ink property of the control is a special type, Visual Studio doesn't know how to map it. Therefore, the binding needs to be created manually in code using the DataBindings.Add() method on the control. The first parameter is the name of the property to bind to, the second is the name of your DataSet object, and the third parameter is the name of the field in the database. I prefer to specify the table name with the field name, but what you use in your own application will depend on how you build your DataSet.

C#
Binding binding = inkPicture1.DataBindings.Add ("Ink", myDS1, "MyTable.InkField");

Binding the control doesn't magically make your application understand what to do with the data it's receiving from the database. Remember, it's coming through as a byte array from the database and is being assigned to an Ink-type property. The binding object has a Format event which we can use to perform the conversion.

C#
binding.Format += new ConvertEventHandler(binding_Format);

Variant datatypes don't exist in .NET but the event needs to be generic enough to support any obscure datatype we throw at it. Therefore, it uses an object variable to hold the data to be converted. The event parameters tell us what type to convert the data to and, once complete, we assign that value back to the object variable. The sample code below verifies the incoming and requested outgoing datatype before making the conversion. It uses the Load method of the Ink object to convert the byte array to Ink.

C#
private void binding_Format(object sender, ConvertEventArgs e)
{
  Ink ink = new Ink();
  if (e.DesiredType.Equals(typeof(Ink)))
  {
    if (e.Value.GetType().Equals(typeof(byte[])))
    {
      byte[] bytes = (byte[])e.Value;
      if (bytes.Length>0)
      {
        ink.Load(bytes);
      }
    }
    e.Value = ink;
  }
}

Other Considerations

For the code in this article to function properly, the InkPicture control needs to have its InkEnabled property set to false. This is important because the Ink property of the control cannot be modified in code while the InkEnabled property is set to true. The result is that you cannot edit the ink in the InkPicture control using the pen. However, editing the ink with the pen and saving it to a database using bound controls is possible, and will be addressed in another article.

License

This article, along with any associated source code and files, is licensed under The Code Project Open License (CPOL)


Written By
Web Developer
United States United States
Rhy Mednick has been working in the field of software development professionally since 1990. The companies that he has worked for include DAK Industries, 1-800-CARSEARCH, and Microsoft. In 2003 he left Microsoft to start his own software company called Chicken Scratch Software (http://www.chickenscratchsoftware.com) to produce developer tools and end-user applications for the Tablet PC.

In 2005, Rhy returned to Microsoft and is currently working on an advanced technology team determining potential uses for new technologies in development by Microsoft Research. Any articles or comments provided here are completely independent of his relationship with Microsoft so should be treated that way. All views expressed are his personal views and all code samples provided were created independently of Microsoft.

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