BitConverter::ToString Method (array<Byte>^, Int32)
Converts the numeric value of each element of a specified subarray of bytes to its equivalent hexadecimal string representation.
Assembly: mscorlib (in mscorlib.dll)
Parameters
- value
-
Type:
array<System::Byte>^
An array of bytes.
- startIndex
-
Type:
System::Int32
The starting position within value.
Return Value
Type: System::String^A string of hexadecimal pairs separated by hyphens, where each pair represents the corresponding element in a subarray of value; for example, "7F-2C-4A-00".
| Exception | Condition |
|---|---|
| ArgumentNullException | value is null. |
| ArgumentOutOfRangeException | startIndex is less than zero or greater than the length of value minus 1. |
The elements from array position startIndex to the end of the array are converted. The order of hexadecimal strings returned by the ToString method depends on whether the computer architecture is little-endian or big-endian.
The following code example converts the part of a Byte array starting at the specified startIndex to a String with the ToString method.
// Example of some BitConverter::ToString( ) method overloads. using namespace System; // Display a byte array, using multiple lines if necessary. void WriteMultiLineByteArray( array<unsigned char>^bytes, String^ name ) { const int rowSize = 20; String^ underLine = "--------------------------------"; int iter; Console::WriteLine( name ); Console::WriteLine( underLine->Substring( 0, Math::Min( name->Length, underLine->Length ) ) ); for ( iter = 0; iter < bytes->Length - rowSize; iter += rowSize ) { Console::Write( BitConverter::ToString( bytes, iter, rowSize ) ); Console::WriteLine( "-" ); } Console::WriteLine( BitConverter::ToString( bytes, iter ) ); Console::WriteLine(); } int main() { array<unsigned char>^arrayOne = {0,0,0,0,128,63,0,0,112,65,0,255,127,71,0,0,128,59,0,0,128,47,73,70,131,5,75,6,158,63,77,6,158,63,80,6,158,63,30,55,190,121,255,255,127,255,255,127,127,1,0,0,0,192,255,0,0,128,255,0,0,128,127}; array<unsigned char>^arrayTwo = {255,255,255,0,0,20,0,33,0,0,0,1,0,0,0,100,167,179,182,224,13,0,202,154,59,0,143,91,0,170,170,170,170,170,170,0,0,232,137,4,35,199,138,255,232,244,255,252,205,255,255,129}; array<unsigned char>^arrayThree = {0,222,0,0,0,224,111,64,0,0,224,255,255,255,239,65,0,0,131,0,0,0,112,63,0,143,0,100,0,0,240,61,223,136,30,28,254,116,170,1,250,89,140,66,202,192,243,63,251,89,140,66,202,192,243,63,252,89,140,66,202,192,243,63,82,211,187,188,232,126,255,255,255,244,255,239,127,1,0,0,0,10,17,0,0,248,255,0,88,0,91,0,0,240,255,0,0,240,157}; Console::WriteLine( "This example of the\n" " BitConverter::ToString( unsigned char[ ], int ) and \n" " BitConverter::ToString( unsigned char[ ], int, int ) \n" "methods generates the following output.\n" ); WriteMultiLineByteArray( arrayOne, "arrayOne" ); WriteMultiLineByteArray( arrayTwo, "arrayTwo" ); WriteMultiLineByteArray( arrayThree, "arrayThree" ); } /* This example of the BitConverter::ToString( unsigned char[ ], int ) and BitConverter::ToString( unsigned char[ ], int, int ) methods generates the following output. arrayOne -------- 00-00-00-00-80-3F-00-00-70-41-00-FF-7F-47-00-00-80-3B-00-00- 80-2F-49-46-83-05-4B-06-9E-3F-4D-06-9E-3F-50-06-9E-3F-1E-37- BE-79-FF-FF-7F-FF-FF-7F-7F-01-00-00-00-C0-FF-00-00-80-FF-00- 00-80-7F arrayTwo -------- FF-FF-FF-00-00-14-00-21-00-00-00-01-00-00-00-64-A7-B3-B6-E0- 0D-00-CA-9A-3B-00-8F-5B-00-AA-AA-AA-AA-AA-AA-00-00-E8-89-04- 23-C7-8A-FF-E8-F4-FF-FC-CD-FF-FF-81 arrayThree ---------- 00-DE-00-00-00-E0-6F-40-00-00-E0-FF-FF-FF-EF-41-00-00-83-00- 00-00-70-3F-00-8F-00-64-00-00-F0-3D-DF-88-1E-1C-FE-74-AA-01- FA-59-8C-42-CA-C0-F3-3F-FB-59-8C-42-CA-C0-F3-3F-FC-59-8C-42- CA-C0-F3-3F-52-D3-BB-BC-E8-7E-FF-FF-FF-F4-FF-EF-7F-01-00-00- 00-0A-11-00-00-F8-FF-00-58-00-5B-00-00-F0-FF-00-00-F0-9D */
Available since 8
.NET Framework
Available since 1.1
Portable Class Library
Supported in: portable .NET platforms
Silverlight
Available since 2.0
Windows Phone Silverlight
Available since 7.0
Windows Phone
Available since 8.1