Java.lang.Process class in Java
The abstract Process class is a process that is, an executing program. Methods provided by the Process are used to perform input, and output, waiting for the process to complete, checking the exit status of the process, and destroying the process.
- It extends class Object.
- It is used primarily as a superclass for the type of object created by exec() in the Runtime class.
- ProcessBuilder.start() and Runtime.getRuntime.exec() methods create a native process and return an instance of a subclass of Process that can be used to control the process and obtain information about it.
- ProcessBuilder.start() is the most preferred way to create a process.
ProcessBuilder.start() vs Runtime.getRuntime.exec(): ProcessBuilder allows us to redirect the standard error of the child process into its standard output. Now we don’t need two separate threads one reading from stdout and one reading from stderr. Constructor
- Process(): This is the only constructor.
Methods:
- void destroyForcibly(): Kills the subprocess.
Syntax: public abstract void destroyForcibly(). Returns: NA. Exception: NA.
Java
// Java code illustrating destroyForcibly()// method for windows operating system// Classpublic class ProcessDemo { // Main driver method public static void main(String[] args) { try { // create a new process System.out.println("Creating Process"); ProcessBuilder builder = new ProcessBuilder("notepad.exe"); Process pro = builder.start(); // wait 10 seconds System.out.println("Waiting"); Thread.sleep(10000); // kill the process pro.destroyForcibly(); System.out.println("Process destroyed"); } catch (Exception ex) { ex.printStackTrace(); } }} |
Output:
Creating Process Waiting Process destroyed
Java
// Java code illustrating destroyForcibly()// method for Mac Operating Systemimport java.io.*;import java.lang.*;class ProcessDemo { public static void main(String arg[]) throws IOException, Exception { System.out.println("Creating process"); // creating process ProcessBuilder p = new ProcessBuilder(new String[] { "open", "/ Applications / Facetime.app" }); Process pro = p.start(); // waiting for 10 second Thread.sleep(10000); System.out.println("destroying process"); // destroying process pro.destroyForcibly(); }} |
Output:
Creating process destroying process
int exitValue(): This method returns the exit value for the subprocess.
Syntax: public abstract int exitValue(). Returns: This method returns the exit value of the subprocess represented by this Process object. By convention, the value 0 indicates normal termination. Exception: IllegalThreadStateException , if the subprocess represented by this Process object has not yet terminated.
Java
// Java code illustrating exitValue() methodpublic class ProcessDemo { public static void main(String[] args) { // Try block to check for exceptions try { // create a new process System.out.println("Creating Process"); ProcessBuilder builder = new ProcessBuilder("notepad.exe"); Process pro = builder.start(); // kill the process pro.destroy(); // checking the exit value of subprocess System.out.println("exit value:" + pro.exitValue()); } // Catch block to handle the exceptions catch (Exception ex) { ex.printStackTrace(); } }} |
Output:
Creating Process 1
abstract InputStream getErrorStream(): This method gets the input stream of the subprocess.
Syntax: public abstract InputStream getInputStream(). Returns: input stream that reads input from the process out output stream. Exception: NA.
Java
// Java code illustrating// getInputStream() methodimport java.io.*;import java.lang.*;class ProcessDemo { public static void main(String arg[]) throws IOException, Exception { // creating the process Runtime r = Runtime.getRuntime(); // shell script for loop from 1 to 3 String[] nargs = { "sh", "-c", "for i in 1 2 3; do echo $i; done"}; Process p = r.exec(nargs); BufferedReader is = new BufferedReader( new InputStreamReader(p.getInputStream())); String line; // reading the output while ((line = is.readLine()) != null) System.out.println(line);}} |
Output:
1 2 3
abstract OutputStream getOutputStream(): This method gets the output stream of the subprocess. Output to the stream is piped into the standard input stream of the process represented by this Process object.
Syntax: public abstract OutputStream getOutputStream() Returns: the output stream connected to the normal input of the subprocess. Exception: NA.
Java
// Java code illustrating // getOutputStream() methodimport java.io.BufferedOutputStream;import java.io.OutputStream;public class ProcessDemo { public static void main(String[] args) { try { // create a new process System.out.println("Creating Process"); Process p = Runtime.getRuntime().exec("notepad.exe"); // get the output stream OutputStream out = p.getOutputStream(); // close the output stream System.out.println("Closing the output stream"); out.close(); } catch (Exception ex) { ex.printStackTrace(); } }} |
Output:
Creating Process... Closing the output stream...
abstract InputStream getErrorStream(): It returns an input stream that reads input from the process err output stream.
Syntax: public abstract InputStream getErrorStream(). Returns: the input stream connected to the error stream of the subprocess. Exception: NA.
Java
// Java code illustrating // getErrorStream() methodimport java.io.InputStream;public class ProcessDemo{ public static void main(String[] args) { try { // create a new process System.out.println("Creating Process"); Process p = Runtime.getRuntime().exec("notepad.exe";); // get the error stream of the process and print it InputStream error = p.getErrorStream(); for (int i = 0; i < error.available(); i++) { System.out.println(" " + error.read()); } // wait for 10 seconds and then destroy the process Thread.sleep(10000); p.destroy(); } catch (Exception ex) { ex.printStackTrace(); } }} |
Output:
Creating Process
int waitFor(): Returns the exit code returned by the process. This method does not return until the process on which it is called terminates.
Syntax: public int waitFor(). Returns: the exit value of the process. By convention, 0 indicates normal termination. Exception: throws InterruptedException.
Java
// Java code illustrating // waitFor() methodpublic class ProcessDemo { public static void main(String[] args) { try { // create a new process System.out.println("Creating Process"); Process p = Runtime.getRuntime().exec("notepad.exe"); // cause this process to stop // until process p is terminated p.waitFor(); // when you manually close notepad.exe // program will continue here System.out.println("Waiting over"); } catch (Exception ex) { ex.printStackTrace(); } }} |
- Output:
Creating Process... Waiting over.
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