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ICustomFormatter.Format Method

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Converts the value of a specified object to an equivalent string representation using specified format and culture-specific formatting information.

Namespace:  System
Assembly:  mscorlib (in mscorlib.dll)

Syntax

'Declaration
Function Format ( _
    format As String, _
    arg As Object, _
    formatProvider As IFormatProvider _
) As String
string Format(
    string format,
    Object arg,
    IFormatProvider formatProvider
)

Parameters

  • format
    Type: System.String
    A format string containing formatting specifications.

Return Value

Type: System.String
The string representation of the value of arg, formatted as specified by format and formatProvider.

Remarks

ICustomFormatter.Format is a callback method. It is called by a method that supports custom formatting, such as String.Format(IFormatProvider, String, array<Object[]). The implementation is called once for each format item in a composite format string. For example, in the following statement, the ICustomFormatter.Format method is called three times.

outputBlock.Text &= String.Format(New BinaryFormatter(), _
                                "{0} (binary: {0:B}) (hex: {0:H})", byteValue) & vbCrLf
outputBlock.Text += String.Format(String.Format(new BinaryFormatter(),
                                "{0} (binary: {0:B}) (hex: {0:H})", byteValue)) + "\n";

The arg parameter is the object in the object list whose zero-based position corresponds to the index of a particular format item.

The format parameter contains a format string, which is the formatString component of a format item. If the format item has no formatString component, the value of format is nulla null reference (Nothing in Visual Basic). If format is nulla null reference (Nothing in Visual Basic), depending on the type of arg, you may be able to use the default format specification of your choice.

The formatProvider parameter is the IFormatProvider implementation that provides formatting for arg. Typically, it is an instance of your ICustomFormatter implementation. If formatProvider is nulla null reference (Nothing in Visual Basic), ignore that parameter.

Your implementation of the Format method must include the following functionality so the .NET Framework can provide formatting you do not support. If your format method does not support a format, determine whether the object being formatted implements the IFormattable interface. If it does, invoke the IFormattable.ToString method of that interface. Otherwise, invoke the default Object.ToString method of the underlying object. The following code illustrates this pattern.

If TypeOf arg Is IFormattable Then
   Return DirectCast(arg, IFormattable).ToString(fmt, CultureInfo.CurrentCulture)
ElseIf arg IsNot Nothing Then
   Return arg.ToString()
if (arg is IFormattable) 
   return ((IFormattable)arg).ToString(format, CultureInfo.CurrentCulture);
else if (arg != null)
   return arg.ToString();

Examples

The following example implements ICustomFormatter to allow binary, octal, and hexadecimal formatting of integral values. Its ICustomFormatter.Format implementation determines whether the format parameter is one of the three supported format strings ("B" for binary, "O" for octal, and "H" for hexadecimal) and formats the arg parameter appropriately. Otherwise, if arg is not nulla null reference (Nothing in Visual Basic), it calls the arg parameter's IFormattable.ToString implementation, if one exists, or its parameterless ToString method, if one does not. If arg is nulla null reference (Nothing in Visual Basic), the method returns String.Empty.

Imports System.Globalization

Public Class BinaryFormatter : Implements IFormatProvider, ICustomFormatter
   ' IFormatProvider.GetFormat implementation.
   Public Function GetFormat(formatType As Type) As Object _
                   Implements IFormatProvider.GetFormat
      ' Determine whether custom formatting object is requested.
      If formatType Is GetType(ICustomFormatter) Then
         Return Me
      Else
         Return Nothing
      End If
   End Function   

   ' Format number in binary (B), octal (O), or hexadecimal (H).
   Public Function Format(fmt As String, arg As Object, _
                          formatProvider As IFormatProvider) As String _
                   Implements ICustomFormatter.Format

     ' Handle format string.
      Dim base As Integer
      ' Handle null or empty format string, string with precision specifier.
      Dim thisFmt As String = String.Empty
      ' Extract first character of format string (precision specifiers
      ' are not supported by BinaryFormatter).
      If Not String.IsNullOrEmpty(fmt) Then
         thisFmt = CStr(IIf(fmt.Length > 1, fmt.Substring(0, 1), fmt))
      End If



      ' Get a byte array representing the numeric value.
      Dim bytes() As Byte
      If TypeOf(arg) Is SByte Then
         Dim byteString As String = CType(arg, SByte).ToString("X2")
         bytes = New Byte(0) { Byte.Parse(byteString, System.Globalization.NumberStyles.HexNumber ) }
      ElseIf TypeOf(arg) Is Byte Then
         bytes = New Byte(0) { CType(arg, Byte) }
      ElseIf TypeOf(arg) Is Int16 Then
         bytes = BitConverter.GetBytes(CType(arg, Int16))
      ElseIf TypeOf(arg) Is Int32 Then
         bytes = BitConverter.GetBytes(CType(arg, Int32))
      ElseIf TypeOf(arg) Is Int64 Then
         bytes = BitConverter.GetBytes(CType(arg, Int64))
      ElseIf TypeOf(arg) Is UInt16 Then
         bytes = BitConverter.GetBytes(CType(arg, UInt16))
      ElseIf TypeOf(arg) Is UInt32 Then
         bytes = BitConverter.GetBytes(CType(arg, UInt64))
      ElseIf TypeOf(arg) Is UInt64 Then
         bytes = BitConverter.GetBytes(CType(arg, UInt64))                  
      Else
         Try 
            Return HandleOtherFormats(fmt, arg) 
         Catch e As FormatException 
            Throw New FormatException(String.Format("The format of '{0}' is invalid.", fmt), e)
         End Try
      End If

      Select Case thisFmt.ToUpper()
         ' Binary formatting.
         Case "B"
            base = 2        
         Case "O"
            base = 8
         Case "H"
            base = 16
         ' Handle unsupported format strings.
         Case Else
            Try 
               Return HandleOtherFormats(fmt, arg) 
            Catch e As FormatException 
               Throw New FormatException(String.Format("The format of '{0}' is invalid.", fmt), e)
            End Try
      End Select

      ' Return a formatted string.
      Dim numericString As String = String.Empty
      For ctr As Integer = bytes.GetUpperBound(0) To bytes.GetLowerBound(0) Step -1
         Dim byteString As String = Convert.ToString(bytes(ctr), base)
         If base = 2 Then
            byteString = New String("0"c, 8 - byteString.Length) + byteString
         ElseIf base = 8 Then
            byteString = New String("0"c, 4 - byteString.Length) + byteString
         ' Base is 16.
         Else     
            byteString = New String("0"c, 2 - byteString.Length) + byteString
         End If
         numericString +=  byteString + " "
      Next
      Return numericString.Trim()
   End Function

   Private Function HandleOtherFormats(fmt As String, arg As Object) As String
      If TypeOf arg Is IFormattable Then
         Return DirectCast(arg, IFormattable).ToString(fmt, CultureInfo.CurrentCulture)
      ElseIf arg IsNot Nothing Then
         Return arg.ToString()
      Else
         Return String.Empty
      End If
   End Function
End Class
using System;
using System.Globalization;

public class BinaryFormatter : IFormatProvider, ICustomFormatter
{
   // IFormatProvider.GetFormat implementation.
   public object GetFormat(Type formatType)
   {
      // Determine whether custom formatting object is requested.
      if (formatType == typeof(ICustomFormatter))
         return this;
      else
         return null;
   }   

   // Format number in binary (B), octal (O), or hexadecimal (H).
   public string Format(string format, object arg, IFormatProvider formatProvider)
   {
      // Handle format string.
      int baseNumber;
      // Handle null or empty format string, string with precision specifier.
      string thisFmt = String.Empty;
      // Extract first character of format string (precision specifiers
      // are not supported).
      if (! String.IsNullOrEmpty(format))
         thisFmt = format.Length > 1 ? format.Substring(0, 1) : format;


      // Get a byte array representing the numeric value.
      byte[] bytes;
      if (arg is sbyte)
      {
         string byteString = ((sbyte) arg).ToString("X2");
         bytes = new byte[1] { Byte.Parse(byteString, System.Globalization.NumberStyles.HexNumber ) };
      }
      else if (arg is byte) {
         bytes = new byte[1] { (byte) arg };
      }   
      else if (arg is short) {
         bytes = BitConverter.GetBytes((short) arg);
      }   
      else if (arg is int) {
         bytes = BitConverter.GetBytes((int) arg);
      }   
      else if (arg is long) {
         bytes = BitConverter.GetBytes((long) arg);
      }
      else if (arg is ushort) {
         bytes = BitConverter.GetBytes((ushort) arg);
      }
      else if (arg is uint) {
         bytes = BitConverter.GetBytes((uint) arg);
      }
      else if (arg is ulong) {
         bytes = BitConverter.GetBytes((ulong) arg);                  
      }
      else {
         try {
            return HandleOtherFormats(format, arg); 
         }
         catch (FormatException e) {
            throw new FormatException(String.Format("The format of '{0}' is invalid.", format), e);
         }
      }

      switch (thisFmt.ToUpper())
      {
         // Binary formatting.
         case "B":
            baseNumber = 2;
            break;        
         case "O":
            baseNumber = 8;
            break;
         case "H":
            baseNumber = 16;
            break;
         // Handle unsupported format strings.
         default:
         try {
            return HandleOtherFormats(format, arg); 
         }
         catch (FormatException e) {
            throw new FormatException(String.Format("The format of '{0}' is invalid.", format), e);
         }
      }

      // Return a formatted string.
      string numericString = String.Empty;
      for (int ctr = bytes.GetUpperBound(0); ctr >= bytes.GetLowerBound(0); ctr--)
      {
         string byteString = Convert.ToString(bytes[ctr], baseNumber);
         if (baseNumber == 2)
            byteString = new String('0', 8 - byteString.Length) + byteString;
         else if (baseNumber == 8)
            byteString = new String('0', 4 - byteString.Length) + byteString;
         // Base is 16.
         else     
            byteString = new String('0', 2 - byteString.Length) + byteString;

         numericString +=  byteString + " ";
      }
      return numericString.Trim();
   }

   private string HandleOtherFormats(string format, object arg)
   {
      if (arg is IFormattable) 
         return ((IFormattable)arg).ToString(format, CultureInfo.CurrentCulture);
      else if (arg != null)
         return arg.ToString();
      else
         return String.Empty;
   }
}

BinaryFormatter can then be used to provide custom formatting by passing a BinaryFormatter object as the provider parameter of the Format method, as the following example shows.

Public Module Example
   Public Sub Demo(ByVal outputBlock As System.Windows.Controls.TextBlock)
      Dim byteValue As Byte = 124
      outputBlock.Text &= String.Format(New BinaryFormatter(), _
                                      "{0} (binary: {0:B}) (hex: {0:H})", byteValue) & vbCrLf

      Dim intValue As Integer = 23045
      outputBlock.Text &= String.Format(New BinaryFormatter(), _
                                      "{0} (binary: {0:B}) (hex: {0:H})", intValue) + vbCrLf

      Dim ulngValue As ULong = 31906574882
      outputBlock.Text &= String.Format(New BinaryFormatter(), _
                                      "{0} {1}   (binary: {0:B}) {1}   (hex: {0:H}){1}", _
                                      ulngValue, vbCrLf)
   End Sub
End Module
' The example displays the following output:
'    124 (binary: 01111100) (hex: 7c)
'    23045 (binary: 00000000 00000000 01011010 00000101) (hex: 00 00 5a 05)
'    31906574882
'       (binary: 00000000 00000000 00000000 00000111 01101101 11000111 10110010 00100010)
'       (hex: 00 00 00 07 6d c7 b2 22)
public class Example
{
   public static void Demo(System.Windows.Controls.TextBlock outputBlock)
   {
      byte byteValue = 124;
      outputBlock.Text += String.Format(String.Format(new BinaryFormatter(),
                                      "{0} (binary: {0:B}) (hex: {0:H})", byteValue)) + "\n";

      int intValue = 23045;
      outputBlock.Text += String.Format(String.Format(new BinaryFormatter(),
                                      "{0} (binary: {0:B}) (hex: {0:H})", intValue)) + "\n";

      ulong ulngValue = 31906574882;
      outputBlock.Text += String.Format(String.Format(new BinaryFormatter(),
                                      "{0}\n   (binary: {0:B})\n   (hex: {0:H})",
                                      ulngValue)) + "\n";
   }
}
// The example displays the following output:
//    124 (binary: 01111100) (hex: 7c)
//    23045 (binary: 00000000 00000000 01011010 00000101) (hex: 00 00 5a 05)
//    31906574882
//       (binary: 00000000 00000000 00000000 00000111 01101101 11000111 10110010 00100010)
//       (hex: 00 00 00 07 6d c7 b2 22)

Version Information

Silverlight

Supported in: 5, 4, 3

Silverlight for Windows Phone

Supported in: Windows Phone OS 7.1, Windows Phone OS 7.0

XNA Framework

Supported in: Xbox 360, Windows Phone OS 7.0

Platforms

For a list of the operating systems and browsers that are supported by Silverlight, see Supported Operating Systems and Browsers.