c# serial port read code example

Example 1: c# serial port

//Serial Ports are used to communicate with other independant devices over 
//a serial COM. More at https://en.wikipedia.org/wiki/COM_(hardware_interface) and https://en.wikipedia.org/wiki/Serial_communication
//For windows .NET Framework (This will not work in .net core or on linux)
//You will be using IO.Ports
using System.IO.Ports;

//Only one source can use a serial port at a time so encaposlation is important
class MySerialPortClass : IDisposable
{
  	//This is the class that will do most of the heavy lifting
	public SerialPort SerialPort { get; private set; }

	//diffenent devices use diffent baud rates or rates of electrical symbol 
  	//change. This will cause diffent rates of communication, but both devices 
	//must agree on a rate to exchange at. The most common is 6800 bauds.
  	const int DefualtBaudRate = 6800;
  	//The above is also true of the amount of bits in a attomic ecnoding in a 
  	//message.The most common is 8 bits for a byte. Honesly this one rarely changes.
  	const int DefaultSize = 8;
  	//The same is true of the party bit. The party bit is to detect error.
	//Hardware is often good enough now that is is not used often, but it adds
	//a bit to the start and sets it to make sure the number of set bits is odd
	//or even. Or it can be used to just mark the start, but stop bits are 
  	//enough usally to mark at the end.
  	const Parity DefaultParityBit = Parity.None;
	//Stop bits or period is to mark the end of a message. Usally one bit is used.
	const StopBits DefaultStopBits= StopBits.One;
  
  	//since only one source can access a com at a time you may want to expose 
  	//if it is open. It will also be useful for resource freeing after.
  	public bool Open { get; private set; } = false;
  	//It will also be useful for resource freeing after.
	private bool Disposed { get; private set; } = false;
  	
  	//In Constructor we should set all the com vars. But the one we havent
    //defined a default yet is the com port name. This will change depeneding
   	//on the plug used or if a virual (USB) on is used. Check your 
  	//'Device Manager' for valid ports it could be. 
  	MySerialPortClass(string ComPort, int BaudRateValue = DefualtBaudRate, Parity Par = DefaultParityBit, int DataSize = DefaultSize, StopBits Stop = DefaultStopBits)
    {
  		SerialPort = new SerialPort(ComPort, BaudRateValue, Par, DataSize, Stop);
    }
  
  	
	//after all the set up you must open the port. If the port is in use you
	//will get an exception and you may need to rest it or your computer to
  	//get it open. Agan only one source can use a port at a time.
	void OpenPort()
    {
    	Open = true;
      	SerialPort.Open();
    }

	//reading and writeing is simple after set up and opening, but for each 
	//device messages will have to be formated differntly. Check with your
	//devices manual or data sheets for more on formatting. 
  	//can read a single byte at a time for decoding messages as they come in
	byte Readbyte()
    {
      	return (byte)SerialPort.ReadByte();//cast is because dispite it being a byte ms made it an int container
    }
  
  	char ReadChar()
    {
      	return (char)SerialPort.ReadByte();//cast is because dispite it being a byte ms made it an int container
    }
  	//or you can read a string out if you know messages are on a line or 
  	//would rather mass decode
  	//to read all in the buffer into a string
  	string ReadExisting()
    {
      	return SerialPort.ReadExisting();
    }
  	//if you know messages are a line like in a doc
  	string ReadExisting()
    {
      	return SerialPort.ReadLine();
    }
  	//Lastly you can decode as a buffer if you know message lengths
  	//Not it will fill in the buffer you provide and not size.
  	public int Read(byte[] buffer, int offset, int count);
  	{
      	return SerialPort.Read(buffer, offset, count);
  	}
	//You can simply write a sting out
  	public void Write(string text)
    {
      	return SerialPort.Write(text);
    }
  	//Or you can write from a buffer like in a stream
  	public int Write(byte[] buffer, int offset, int count);
  	{
      	return SerialPort.Write(buffer, offset, count);
  	}
	//Or you can write a line from a string
	public void WriteLine(string text)
    {
      	return SerialPort.WriteLine(text);
    }
  
  	//Lastly it is recomended thay you dispose of your class and free system
	//Resorces
    //Close will free the port for use by a different source
    void Close()
    {
    	Open = false;
    	return SerialPort.Close();
    }
    //allows a using statement to dispose after use elegantly
	public void Dispose()
   	{
    	Disposed = true;
        SerialPort.Close();
      	SerialPort.Dispose();
   	}
    //in the garbage collection ensure disposal so port will open back up after.
    ~MySerialPortClass()
    {
    	if(!Disposed)
        {
      		Dispose();
        }
    }

}

Example 2: using serial port in c#

using System;
using System.IO.Ports;
using System.Windows.Forms;

namespace SerialPortExample
{
  class SerialPortProgram
  {
    // Create the serial port with basic settings
    private SerialPort port = new SerialPort("COM1",
      9600, Parity.None, 8, StopBits.One);

    [STAThread]
    static void Main(string[] args)
    { 
      // Instatiate this class
      new SerialPortProgram();
    }

    private SerialPortProgram()
    {
      Console.WriteLine("Incoming Data:");

      // Attach a method to be called when there
      // is data waiting in the port's buffer
      port.DataReceived += new 
        SerialDataReceivedEventHandler(port_DataReceived);

      // Begin communications
      port.Open();

      // Enter an application loop to keep this thread alive
      Application.Run();
    }

    private void port_DataReceived(object sender,
      SerialDataReceivedEventArgs e)
    {
      // Show all the incoming data in the port's buffer
      Console.WriteLine(port.ReadExisting());
    }
  }
}