SerialPort.Parity Property
Definition
Important
Some information relates to prerelease product that may be substantially modified before it’s released. Microsoft makes no warranties, express or implied, with respect to the information provided here.
Gets or sets the parity-checking protocol.
public:
property System::IO::Ports::Parity Parity { System::IO::Ports::Parity get(); void set(System::IO::Ports::Parity value); };
public System.IO.Ports.Parity Parity { get; set; }
[System.ComponentModel.Browsable(true)]
public System.IO.Ports.Parity Parity { get; set; }
member this.Parity : System.IO.Ports.Parity with get, set
[<System.ComponentModel.Browsable(true)>]
member this.Parity : System.IO.Ports.Parity with get, set
Public Property Parity As Parity
Property Value
One of the enumeration values that represents the parity-checking protocol. The default is None.
- Attributes
Exceptions
The port is in an invalid state.
-or-
An attempt to set the state of the underlying port failed. For example, the parameters passed from this SerialPort object were invalid.
Examples
The following code example demonstrates the use of the SerialPort class to allow two users to chat from two separate computers connected by a null modem cable. In this example, the users are prompted for the port settings and a username before chatting. This code example is part of a larger code example provided for the SerialPort class.
public:
static void Main()
{
String^ name;
String^ message;
StringComparer^ stringComparer = StringComparer::OrdinalIgnoreCase;
Thread^ readThread = gcnew Thread(gcnew ThreadStart(PortChat::Read));
// Create a new SerialPort object with default settings.
_serialPort = gcnew SerialPort();
// Allow the user to set the appropriate properties.
_serialPort->PortName = SetPortName(_serialPort->PortName);
_serialPort->BaudRate = SetPortBaudRate(_serialPort->BaudRate);
_serialPort->Parity = SetPortParity(_serialPort->Parity);
_serialPort->DataBits = SetPortDataBits(_serialPort->DataBits);
_serialPort->StopBits = SetPortStopBits(_serialPort->StopBits);
_serialPort->Handshake = SetPortHandshake(_serialPort->Handshake);
// Set the read/write timeouts
_serialPort->ReadTimeout = 500;
_serialPort->WriteTimeout = 500;
_serialPort->Open();
_continue = true;
readThread->Start();
Console::Write("Name: ");
name = Console::ReadLine();
Console::WriteLine("Type QUIT to exit");
while (_continue)
{
message = Console::ReadLine();
if (stringComparer->Equals("quit", message))
{
_continue = false;
}
else
{
_serialPort->WriteLine(
String::Format("<{0}>: {1}", name, message) );
}
}
readThread->Join();
_serialPort->Close();
}
static void Read()
{
while (_continue)
{
try
{
String^ message = _serialPort->ReadLine();
Console::WriteLine(message);
}
catch (TimeoutException ^) { }
}
}
public static void Main()
{
string name;
string message;
StringComparer stringComparer = StringComparer.OrdinalIgnoreCase;
Thread readThread = new Thread(Read);
// Create a new SerialPort object with default settings.
_serialPort = new SerialPort();
// Allow the user to set the appropriate properties.
_serialPort.PortName = SetPortName(_serialPort.PortName);
_serialPort.BaudRate = SetPortBaudRate(_serialPort.BaudRate);
_serialPort.Parity = SetPortParity(_serialPort.Parity);
_serialPort.DataBits = SetPortDataBits(_serialPort.DataBits);
_serialPort.StopBits = SetPortStopBits(_serialPort.StopBits);
_serialPort.Handshake = SetPortHandshake(_serialPort.Handshake);
// Set the read/write timeouts
_serialPort.ReadTimeout = 500;
_serialPort.WriteTimeout = 500;
_serialPort.Open();
_continue = true;
readThread.Start();
Console.Write("Name: ");
name = Console.ReadLine();
Console.WriteLine("Type QUIT to exit");
while (_continue)
{
message = Console.ReadLine();
if (stringComparer.Equals("quit", message))
{
_continue = false;
}
else
{
_serialPort.WriteLine(
String.Format("<{0}>: {1}", name, message));
}
}
readThread.Join();
_serialPort.Close();
}
public static void Read()
{
while (_continue)
{
try
{
string message = _serialPort.ReadLine();
Console.WriteLine(message);
}
catch (TimeoutException) { }
}
}
Public Shared Sub Main()
Dim name As String
Dim message As String
Dim stringComparer__1 As StringComparer = StringComparer.OrdinalIgnoreCase
Dim readThread As New Thread(AddressOf Read)
' Create a new SerialPort object with default settings.
_serialPort = New SerialPort()
' Allow the user to set the appropriate properties.
_serialPort.PortName = SetPortName(_serialPort.PortName)
_serialPort.BaudRate = SetPortBaudRate(_serialPort.BaudRate)
_serialPort.Parity = SetPortParity(_serialPort.Parity)
_serialPort.DataBits = SetPortDataBits(_serialPort.DataBits)
_serialPort.StopBits = SetPortStopBits(_serialPort.StopBits)
_serialPort.Handshake = SetPortHandshake(_serialPort.Handshake)
' Set the read/write timeouts
_serialPort.ReadTimeout = 500
_serialPort.WriteTimeout = 500
_serialPort.Open()
_continue = True
readThread.Start()
Console.Write("Name: ")
name = Console.ReadLine()
Console.WriteLine("Type QUIT to exit")
While _continue
message = Console.ReadLine()
If stringComparer__1.Equals("quit", message) Then
_continue = False
Else
_serialPort.WriteLine([String].Format("<{0}>: {1}", name, message))
End If
End While
readThread.Join()
_serialPort.Close()
End Sub
Public Shared Sub Read()
While _continue
Try
Dim message As String = _serialPort.ReadLine()
Console.WriteLine(message)
Catch generatedExceptionName As TimeoutException
End Try
End While
End Sub
Remarks
Parity is an error-checking procedure in which the number of 1s must always be the same - either even or odd - for each group of bits that is transmitted without error. In modem-to-modem communications, parity is often one of the parameters that must be agreed upon by sending parties and receiving parties before transmission can take place.
If a parity error occurs on the trailing byte of a stream, an extra byte will be added to the input buffer with a value of 126.
Applies to
.NET