I am working on a project in Java where I am trying to get the size of the terminal window. I have found that stty size returns the size in rows and columns which I am fine with.
My problem is to get the values using Java. So far I have this:
ProcessBuilder processBuilder = new ProcessBuilder();
processBuilder.command("stty", "size");
try {
Process process = processBuilder.start();
InputStreamReader is = new InputStreamReader(process.getInputStream(), "UTF-8");
BufferedReader reader = new BufferedReader(is);
String line;
while ((line = reader.readLine()) != null) {
System.out.println(line);
}
reader.close();
} catch (IOException e) {
e.printStackTrace();
}
This outputs:
[I#6ce253f1
However, when I just run stty size on my own, I get 30 213. I assume it is some sort of encoding issue but I am not sure.
Try
ProcessBuilder processBuilder = new ProcessBuilder();
processBuilder.command("stty", "size");
processBuilder.redirectErrorStream(true);
processBuilder.redirectInput(ProcessBuilder.Redirect.INHERIT);
try {
...
Then you get an error message which is written to the error channel, too. And the input channel is set to the same input channel the Java process is using.
I have the following bash script, example.sh that has some lines of code.To reproduce what I need let's say that I have in the script the following lines:
#!/bin/bash
echo First part of program
sleep 3
echo Second part of program
So, when I run this directly from terminal I get the first part printed to the screen(First part of program) then wait 3 seconds and after that I get the next part on the screen(Second part of program). When I run this in java, I execute the scipt, wait 3 seconds then I get both parts printed on screen. Is there a way to get the same effect as when running from terminal?
EDIT!
This is my code:
public void executeCommand(String command) {
String line;
StringBuffer output = new StringBuffer();
Process p;
try {
p = Runtime.getRuntime().exec(command);
p.waitFor();
BufferedReader reader = new BufferedReader(new InputStreamReader(p.getInputStream()));
line = "";
while ((line = reader.readLine())!= null) {
output.append(line + "\n");
}
setOutput(output.toString());
output = new StringBuffer();
BufferedReader error = new BufferedReader(new InputStreamReader(p.getErrorStream()));
line="";
while ((line = error.readLine())!= null) {
output.append(line + "\n");
}
setError(output.toString());
} catch (Exception e) {
e.printStackTrace();
}
}
If you start your script with the Process-Class then you can fetch the output of the script with for example:
ProcessBuilder pb = new ProcessBuilder("<bashname>", "<scriptpath>");
Process p = pb.start();
OutputStream ops = p.getOutputStream();
There must be the output immediatly.
SOLVED: redirect output and error into files using:
ProcessBuilder builder = new ProcessBuilder("sh",command);
builder.redirectOutput(new File("out.txt"));
builder.redirectError(new File("err.txt"));
try{
Process p = builder.start();
}catch(IOException e){
e.printStackTrace();
}
I have a project that use command prompt to complie java file,then print the result in console,this is mycode.
public static void main(String[] args) {
String line;
String output = "";
try {
Process p = Runtime.getRuntime().exec("java helloworld");
BufferedReader input = new BufferedReader(new InputStreamReader(p.getInputStream()));
while ((line = input.readLine()) != null) {
output += (line + '\n');
}
input.close();
}
catch (Exception ex) {
ex.printStackTrace();
}
System.out.print(output);
}
But it show nothing,although it work with another command,please help me.
As one of the commenters mentioned this might result in quite complex setups you are running into. It is most likely in your case that an error happens in java and you just do not see the output since error messages are written to the STDERR stream instead of STDOUT.
So there are two options (1) you take the code you already have and also try to read from the process' ErrorStream.
Bufferedreader error = new BufferedReader(new InputStreamReader(p.getErrorStream());
Or if you do not care whether or not the process you were starting was writing to STDERR or to STDOUT you can also use a ProcessBuilder and just set it up to redirect the error stream.
ProcessBuilder pb = new ProcessBuilder("java", "helloworld");
pb.redirectErrorStream(true); // this redirects STDERR to STDOUT
Process p = pb.start();
BufferedReader input = new BufferedReader(new InputStreamReader(p.getInputStream()));
while ((line = input.readLine()) != null) {
output += (line + '\n');
}
input.close();
For the sake of simplicity I omitted all the boilerplate code and exception handling in the above. But I think you will get the idea.
Why are you using the Process builder and executing the same. Why not use JavaCompiler interface. See the documentation it is really well written.
In a java program, I am generating an sh script for use on a centOS machine, which will use sox and lame to decode an MP3 audio file, then apply some gain to the file respectively. Im having some issues getting the Process.waitFor() method to do anything other than hang indefinitely. Here is the code:
try
{
// TODO code application logic here
String reviewPath = "/SomeDirectory/";
String fileName = "FileName";
String extension = ".mp3";
StringBuilder sb = new StringBuilder();
sb.append("#!/bin/bash\n");
sb.append("cd " + reviewPath + "\n");
sb.append("lame --decode " + fileName + extension + "\n");
File script = new File(reviewPath + fileName + ".sh");
script.createNewFile();
script.setExecutable(true);
FileWriter writer = new FileWriter(script);
writer.write(sb.toString());
writer.close();
Process p = Runtime.getRuntime().exec(script.getAbsolutePath());
String line;
BufferedReader bri = new BufferedReader
(new InputStreamReader(p.getInputStream()));
BufferedReader bre = new BufferedReader
(new InputStreamReader(p.getErrorStream()));
while ((line = bri.readLine()) != null) {
System.out.println(line);
}
bri.close();
while ((line = bre.readLine()) != null) {
System.out.println(line);
}
bre.close();
p.waitFor();
System.out.println("Done.");
}
catch (Exception e)
{
System.out.println(e.getMessage());
}
The odd part is that when I run the .sh file it generates by hand, it runs and exits nicely, but when I execute it from a process object in java, it never exits. The exitValue of the process is always "Process has not exited". Ive tried adding set -e to the script, and exit to the end of the script. Short of using the kill command (which I dont really think I can do here) Im at a loss as to what is going on here. Any suggestions?
Add something like while(p.getInputStream().read() != -1); after starting the process. The buffer will get filled and the process will stop waiting for something (in this case, your program) to read from it to free up space.
I figured it out! The problem here was indeed that the output streams needed to be flushed for the application to exit, but simply reading from the streams is not enough. I used Suresh Koya's suggestion and used the processBuilder api, and redirected the error stream on the process before starting it, and read from the streams. This fixed the issues I was having :D
Process process = Runtime.getRuntime().exec("tasklist");
BufferedReader reader =
new BufferedReader(new InputStreamReader(process.getInputStream()));
process.waitFor();
There are many reasons that waitFor() doesn't return.
But it usually boils down to the fact that the executed command doesn't quit.
This, again, can have many reasons.
One common reason is that the process produces some output and you don't read from the appropriate streams. This means that the process is blocked as soon as the buffer is full and waits for your process to continue reading. Your process in turn waits for the other process to finish (which it won't because it waits for your process, ...). This is a classical deadlock situation.
You need to continually read from the processes input stream to ensure that it doesn't block.
There's a nice article that explains all the pitfalls of Runtime.exec() and shows ways around them called "When Runtime.exec() won't" (yes, the article is from 2000, but the content still applies!)
It appears you are not reading the output before waiting for it to finish. This is fine only if the output doesn't fill the buffer. If it does, it will wait until you read the output, catch-22.
Perhaps you have some errors which you are not reading. This would case the application to stop and waitFor to wait forever. A simple way around this is to re-direct the errors to the regular output.
ProcessBuilder pb = new ProcessBuilder("tasklist");
pb.redirectErrorStream(true);
Process process = pb.start();
BufferedReader reader = new BufferedReader(new InputStreamReader(process.getInputStream()));
String line;
while ((line = reader.readLine()) != null)
System.out.println("tasklist: " + line);
process.waitFor();
Also from Java doc:
java.lang
Class Process
Because some native platforms only provide limited buffer size for standard input and
output streams, failure to promptly write the input stream or read the output stream of
the subprocess may cause the subprocess to block, and even deadlock.
Fail to clear the buffer of input stream (which pipes to the output stream of subprocess)
from Process may lead to a subprocess blocking.
Try this:
Process process = Runtime.getRuntime().exec("tasklist");
BufferedReader reader =
new BufferedReader(new InputStreamReader(process.getInputStream()));
while ((reader.readLine()) != null) {}
process.waitFor();
I would like to add something to the previous answers but since I don't have the rep to comment, I will just add an answer. This is directed towards android users which are programming in Java.
Per the post from RollingBoy, this code almost worked for me:
Process process = Runtime.getRuntime().exec("tasklist");
BufferedReader reader =
new BufferedReader(new InputStreamReader(process.getInputStream()));
while ((reader.readLine()) != null) {}
process.waitFor();
In my case, the waitFor() was not releasing because I was executing a statement with no return ("ip adddr flush eth0"). An easy way to fix this is to simply ensure you always return something in your statement. For me, that meant executing the following: "ip adddr flush eth0 && echo done". You can read the buffer all day, but if there is nothing ever returned, your thread will never release its wait.
Hope that helps someone!
There are several possibilities:
You haven't consumed all the output on the process's stdout.
You haven't consumed all the output on the process's stderr.
The process is waiting for input from you and you haven't provided it, or you haven't closed the process's stdin.
The process is spinning in a hard loop.
As others have mentioned you have to consume stderr and stdout.
Compared to the other answers, since Java 1.7 it is even more easy. You do not have to create threads yourself anymore to read stderr and stdout.
Just use the ProcessBuilder and use the methods redirectOutput in combination with either redirectError or redirectErrorStream.
String directory = "/working/dir";
File out = new File(...); // File to write stdout to
File err = new File(...); // File to write stderr to
ProcessBuilder builder = new ProcessBuilder();
builder.directory(new File(directory));
builder.command(command);
builder.redirectOutput(out); // Redirect stdout to file
if(out == err) {
builder.redirectErrorStream(true); // Combine stderr into stdout
} else {
builder.redirectError(err); // Redirect stderr to file
}
Process process = builder.start();
For the same reason you can also use inheritIO() to map Java console with external app console like:
ProcessBuilder pb = new ProcessBuilder(appPath, arguments);
pb.directory(new File(appFile.getParent()));
pb.inheritIO();
Process process = pb.start();
int success = process.waitFor();
You should try consume output and error in the same while
private void runCMD(String CMD) throws IOException, InterruptedException {
System.out.println("Standard output: " + CMD);
Process process = Runtime.getRuntime().exec(CMD);
// Get input streams
BufferedReader stdInput = new BufferedReader(new InputStreamReader(process.getInputStream()));
BufferedReader stdError = new BufferedReader(new InputStreamReader(process.getErrorStream()));
String line = "";
String newLineCharacter = System.getProperty("line.separator");
boolean isOutReady = false;
boolean isErrorReady = false;
boolean isProcessAlive = false;
boolean isErrorOut = true;
boolean isErrorError = true;
System.out.println("Read command ");
while (process.isAlive()) {
//Read the stdOut
do {
isOutReady = stdInput.ready();
//System.out.println("OUT READY " + isOutReady);
isErrorOut = true;
isErrorError = true;
if (isOutReady) {
line = stdInput.readLine();
isErrorOut = false;
System.out.println("=====================================================================================" + line + newLineCharacter);
}
isErrorReady = stdError.ready();
//System.out.println("ERROR READY " + isErrorReady);
if (isErrorReady) {
line = stdError.readLine();
isErrorError = false;
System.out.println("ERROR::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::" + line + newLineCharacter);
}
isProcessAlive = process.isAlive();
//System.out.println("Process Alive " + isProcessAlive);
if (!isProcessAlive) {
System.out.println(":::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: Process DIE " + line + newLineCharacter);
line = null;
isErrorError = false;
process.waitFor(1000, TimeUnit.MILLISECONDS);
}
} while (line != null);
//Nothing else to read, lets pause for a bit before trying again
System.out.println("PROCESS WAIT FOR");
process.waitFor(100, TimeUnit.MILLISECONDS);
}
System.out.println("Command finished");
}
I think I observed a similar problem: some processes started, seemed to run successfully but never completed. The function waitFor() was waiting forever except if I killed the process in Task Manager.
However, everything worked well in cases the length of the command line was 127 characters or shorter. If long file names are inevitable you may want to use environmental variables, which may allow you keeping the command line string short. You can generate a batch file (using FileWriter) in which you set your environmental variables before calling the program you actually want to run.
The content of such a batch could look like:
set INPUTFILE="C:\Directory 0\Subdirectory 1\AnyFileName"
set OUTPUTFILE="C:\Directory 2\Subdirectory 3\AnotherFileName"
set MYPROG="C:\Directory 4\Subdirectory 5\ExecutableFileName.exe"
%MYPROG% %INPUTFILE% %OUTPUTFILE%
Last step is running this batch file using Runtime.
Here is a method that works for me.
NOTE: There is some code within this method that may not apply to you, so try and ignore it. For example "logStandardOut(...), git-bash, etc".
private String exeShellCommand(String doCommand, String inDir, boolean ignoreErrors) {
logStandardOut("> %s", doCommand);
ProcessBuilder builder = new ProcessBuilder();
StringBuilder stdOut = new StringBuilder();
StringBuilder stdErr = new StringBuilder();
boolean isWindows = System.getProperty("os.name").toLowerCase().startsWith("windows");
if (isWindows) {
String gitBashPathForWindows = "C:\\Program Files\\Git\\bin\\bash";
builder.command(gitBashPathForWindows, "-c", doCommand);
} else {
builder.command("bash", "-c", doCommand);
}
//Do we need to change dirs?
if (inDir != null) {
builder.directory(new File(inDir));
}
//Execute it
Process process = null;
BufferedReader brStdOut;
BufferedReader brStdErr;
try {
//Start the command line process
process = builder.start();
//This hangs on a large file
// https://stackoverflow.com/questions/5483830/process-waitfor-never-returns
//exitCode = process.waitFor();
//This will have both StdIn and StdErr
brStdOut = new BufferedReader(new InputStreamReader(process.getInputStream()));
brStdErr = new BufferedReader(new InputStreamReader(process.getErrorStream()));
//Get the process output
String line = null;
String newLineCharacter = System.getProperty("line.separator");
while (process.isAlive()) {
//Read the stdOut
while ((line = brStdOut.readLine()) != null) {
stdOut.append(line + newLineCharacter);
}
//Read the stdErr
while ((line = brStdErr.readLine()) != null) {
stdErr.append(line + newLineCharacter);
}
//Nothing else to read, lets pause for a bit before trying again
process.waitFor(100, TimeUnit.MILLISECONDS);
}
//Read anything left, after the process exited
while ((line = brStdOut.readLine()) != null) {
stdOut.append(line + newLineCharacter);
}
//Read anything left, after the process exited
while ((line = brStdErr.readLine()) != null) {
stdErr.append(line + newLineCharacter);
}
//cleanup
if (brStdOut != null) {
brStdOut.close();
}
if (brStdErr != null) {
brStdOut.close();
}
//Log non-zero exit values
if (!ignoreErrors && process.exitValue() != 0) {
String exMsg = String.format("%s%nprocess.exitValue=%s", stdErr, process.exitValue());
throw new ExecuteCommandException(exMsg);
}
} catch (ExecuteCommandException e) {
throw e;
} catch (Exception e) {
throw new ExecuteCommandException(stdErr.toString(), e);
} finally {
//Log the results
logStandardOut(stdOut.toString());
logStandardError(stdErr.toString());
}
return stdOut.toString();
}
Asynchronous reading of stream combined with avoiding Wait with a timeout will solve the problem.
You can find a page explaining this here http://simplebasics.net/.net/process-waitforexit-with-a-timeout-will-not-be-able-to-collect-the-output-message/
public static void main(String[] args) throws PyException, IOException, InterruptedException
these should be the exceptions thrown