Java execution from commandline is slower than in IntelliJ - java

I have written a simple factorial program, with arbitrary precision:
public class Fac {
public static void main(String[] args) {
int stop = 100000;
long start = System.currentTimeMillis();
BigInteger integer = new BigInteger("1");
for(int i = 2; i <= stop; i++){
integer = integer.multiply(new BigInteger(i +""));
}
System.out.println("It took: " + (System.currentTimeMillis() - start) + "ms");
//System.out.println(integer);
}
}
When i run it in IntelliJ:
It took: 5392ms
When i run it in commandline:
It took: 17919ms
The commandline is run by:
javac Fac.java
java Fac
I know this is not the best way to measure time but the gap is soo huge that it does not matter.
Why is the performence that different?
Other people has noticed similar difference, however, as far as i can tell, their conclusions seem unrelated to my situation.
Why is my application running faster in IntelliJ compared to command-line?
http://grails.1312388.n4.nabble.com/Why-does-IntelliJ-IDEA-runs-faster-than-Windows-command-line-td3894823.html

It's because you are launching the jvm to run your program with different classpath, arguments, etc.
If you run the program in IntelliJ, you will see the first line of the Run window something like "C:\Program ..."
Click on it to expand it, and you will see all the arguments used when intellij runs your program (I am splitting an example over several lines here).
"C:\Program Files (x86)\Java\jdk1.8.0_40\bin\java"
-Didea.launcher.port=7532
"-Didea.launcher.bin.path=C:\Program Files (x86)\JetBrains\IntelliJ IDEA 14.0.3\bin"
-Dfile.encoding=UTF-8
-classpath "C:\Program Files (x86)\Java\jdk1.8.0_40\jre\lib\charsets.jar;...etc..."
Fac
If you duplicate the exact same arguments (using the exact same jvm) then you will likely see similar performance when you run your application manually.
Your system settings for PATH, JAVA_HOME and CLASSPATH are used by default for launching your program if you don't specify them fully.

Related

How to parse file patterns using Apache commons CLI

I'm trying to parse my command line arguments using the apache commons CLI. It might be a bit heavy handed for the example here, but it makes sense in the context of the program I'm creating. I'm trying to read a file pattern filter, similar to what grep uses to select files to process.
My Argument looks like this:
Program --input *.*
I've written a test program to see what the parser is seeing;
public static void main(String[] args) {
Options options = new Options();
options.addOption(new Option(INPUT_FILTER_SHORT, INPUT_FILTER_LONG, true, INPUT_FILTER_DESCRIPTION));
CommandLineParser parser = new BasicParser();
CommandLine cmd = parser.parse(options, args);
System.out.println(cmd.getOptionValue(INPUT_FILTER_SHORT));
}
This prints out:
.classpath
If I change my arguments to:
Program --input test.txt
I get the output:
test.txt
I'm assuming that I have to do something to tell apache commons what * is not a special character? I can't seem to find anything about this online.
I'm experiencing this on Windows (7). I'm fairly certain it's the *.* which is causing the issue as when I swap to using patterns that don't use *, the expected pattern shows up.
Your problem isn't really to do with Commons CLI, but to do with how the shell and the Java executable together process the parameters.
To eliminate other factors, and see what's going on, use a short Java program:
public class ArgsDemo {
public static void main(String[] args) {
for(int i=0; i<args.length; i++) {
System.out.println("" + i + ": " + args[i]);
}
}
}
Play with java ArgsDemo hello world, java ArgsDemo * etc. and observe what happens.
On UNIX and Linux:
Java does no special processing of *. However, the shell does. So if you did:
$ mkdir x
$ cd x
$ touch a b
$ java -jar myjar.jar MyClass *
... then MyClass.main() would be invoked with the parameter array ["a","b"] -- because the UNIX shell expands * to files in the current directory.
You can suppress this by escaping:
$ java -jar myjar MyClass * // main() sees ["*"])
(Note that a UNIX shell wouldn't expand *.* to .classpath because this form would ignore "hidden" files starting with .)
On Windows
cmd.exe does not do UNIX-style wildcard expansion. If you supply * as a parameter to a command in Windows, the command gets a literal *. So for example, PKUNZIP *.zip passes *.zip to PKUNZIP.EXE, and it's up to that program to expand the wildcard if it wants to.
Since some release of Java 7, the Java executable for Windows does some wildcard to filename expansion of its own, before passing the parameters to your main() class.
I've not been able to find clear documentation of Java-for-Windows' wildcard expansion rules, but you should be able to control it with quoting, escaping the quotes to prevent cmd.exe interpreting them:
> java.exe -jar myjar.jar MyClass """*.*"""
(Untested as I don't have a Windows box handy, and quoting in cmd.exe is a bit of a beast - do please experiment and either edit the above or leave a comment)

Can I get the Linux "max user processes" in Java?

I'm investigating some unit test failures. The tests pass on an old build server that's been hand-configured (and not documented). I'm trying to run them in a clean virtual machine.
My latest problem is a unit test that creates 10K threads.
for (int i = 0; i < 10000; i++) {
final Thread thread = new Thread(new Runnable() { ... });
threads.add(thread);
thread.start();
}
Well, the max user processes in the clean environment is only 4K.
$ ulimit -u
4096
I was wondering if there's some way for Java to get at that limit. The test really doesn't need 10K, it just needs some arbitrarily large number.
You could call ulimit directly:
Runtime.getRuntime().exec(command)

Split rule of args in main function in Java?

Here is a strange problem I ran into:
I create a single program to print all the received args, Here is the code:
public class Test {
public static void main(String[] args) {
for (int i = 0; i < args.length; i ++) {
System.out.println(args[i]);
}
}
}
Then I built a jar file of it and ran the following command:
java -jar test.jar test&1
However, it didn't print "test&1" as expected. The result of it is:
test
'1'is not recognized as an internal or external command,operable program or batch file.
So my question is: what is the seperation of args? If I really need to receive "test&1", what should I do?
Thanks!
It's nothing to do with Java. The & character is special to the Windows shell (I can tell it's Windows from the error message): It separates two commands on one line, so what you're doing is telling the shell to run java -jar test.jar test and then run 1. If you want to pass test&1 to Java, you'll have to put it in quotes:
java -jar test.jar "test&1"
The & is also special on *nix shells (but in a different way, it runs the command in a sub-shell). There, you could use quotes as above, or put an \ before the & instead. But not on Windows.

Eclipse, change compiler command (for JOMP)

I want to use JOMP API (equivalent to OpenMP in C) but I met some problems:
This is the code I want to run:
import jomp.runtime.*;
public class Hello
{
public static void main (String argv[])
{
int myid;
//omp parallel private(myid)
{
myid = OMP.getThreadNum();
System.out.println("Hello from " + myid);
}
}
}
It is just an hello worl but I have a problem with the compiler. Please have a quick look at this page to understand:
http://www2.epcc.ed.ac.uk/computing/research_activities/jomp/download.html
But I can't, I do not understand how it works... I can only compile it with eclipse default compiler (I guess) and then I have only one thread!
I understand I have to compile this code (in a .jomp file) with
java jomp.compiler.Jomp MyFile
and then compile normally but I can't do this in ecplise neither in the terminal (I do not know how to install this compiler!)
ps: I use Ubuntu 12.04 on a Intel® Core™ i7-3610QM CPU # 2.30GHz × 8.
You just need to add the JOMP parameters to your launch configuration, this example can help you:
JOMP eclipse workaround

How can I restart a Java application?

How can I restart a Java AWT application? I have a button to which I have attached an event handler. What code should I use to restart the application?
I want to do the same thing that Application.Restart() do in a C# application.
Of course it is possible to restart a Java application.
The following method shows a way to restart a Java application:
public void restartApplication()
{
final String javaBin = System.getProperty("java.home") + File.separator + "bin" + File.separator + "java";
final File currentJar = new File(MyClassInTheJar.class.getProtectionDomain().getCodeSource().getLocation().toURI());
/* is it a jar file? */
if(!currentJar.getName().endsWith(".jar"))
return;
/* Build command: java -jar application.jar */
final ArrayList<String> command = new ArrayList<String>();
command.add(javaBin);
command.add("-jar");
command.add(currentJar.getPath());
final ProcessBuilder builder = new ProcessBuilder(command);
builder.start();
System.exit(0);
}
Basically it does the following:
Find the java executable (I used the java binary here, but that depends on your requirements)
Find the application (a jar in my case, using the MyClassInTheJar class to find the jar location itself)
Build a command to restart the jar (using the java binary in this case)
Execute it! (and thus terminating the current application and starting it again)
import java.io.File;
import java.io.IOException;
import java.lang.management.ManagementFactory;
public class Main {
public static void main(String[] args) throws IOException, InterruptedException {
StringBuilder cmd = new StringBuilder();
cmd.append(System.getProperty("java.home") + File.separator + "bin" + File.separator + "java ");
for (String jvmArg : ManagementFactory.getRuntimeMXBean().getInputArguments()) {
cmd.append(jvmArg + " ");
}
cmd.append("-cp ").append(ManagementFactory.getRuntimeMXBean().getClassPath()).append(" ");
cmd.append(Main.class.getName()).append(" ");
for (String arg : args) {
cmd.append(arg).append(" ");
}
Runtime.getRuntime().exec(cmd.toString());
System.exit(0);
}
}
Dedicated to all those who say it is impossible.
This program collects all information available to reconstruct the original commandline. Then, it launches it and since it is the very same command, your application starts a second time. Then we exit the original program, the child program remains running (even under Linux) and does the very same thing.
WARNING: If you run this, be aware that it never ends creating new processes, similar to a fork bomb.
Basically, you can't. At least not in a reliable way. However, you shouldn't need to.
The can't part
To restart a Java program, you need to restart the JVM. To restart the JVM you need to
Locate the java launcher that was used. You may try with System.getProperty("java.home") but there's no guarantee that this will actually point to the launcher that was used to launch your application. (The value returned may not point to the JRE used to launch the application or it could have been overridden by -Djava.home.)
You would presumably want to honor the original memory settings etc (-Xmx, -Xms, …) so you need to figure out which settings where used to start the first JVM. You could try using ManagementFactory.getRuntimeMXBean().getInputArguments() but there's no guarantee that this will reflect the settings used. This is even spelled out in the documentation of that method:
Typically, not all command-line options to the 'java' command are passed to the Java virtual machine. Thus, the returned input arguments may not include all command-line options.
If your program reads input from Standard.in the original stdin will be lost in the restart.
Lots of these tricks and hacks will fail in the presence of a SecurityManager.
The shouldn't need part
I recommend you to design your application so that it is easy to clean every thing up and after that create a new instance of your "main" class.
Many applications are designed to do nothing but create an instance in the main-method:
public class MainClass {
...
public static void main(String[] args) {
new MainClass().launch();
}
...
}
By using this pattern, it should be easy enough to do something like:
public class MainClass {
...
public static void main(String[] args) {
boolean restart;
do {
restart = new MainClass().launch();
} while (restart);
}
...
}
and let launch() return true if and only if the application was shut down in a way that it needs to be restarted.
Strictly speaking, a Java program cannot restart itself since to do so it must kill the JVM in which it is running and then start it again, but once the JVM is no longer running (killed) then no action can be taken.
You could do some tricks with custom classloaders to load, pack, and start the AWT components again but this will likely cause lots of headaches with regard to the GUI event loop.
Depending on how the application is launched, you could start the JVM in a wrapper script which contains a do/while loop, which continues while the JVM exits with a particular code, then the AWT app would have to call System.exit(RESTART_CODE). For example, in scripting pseudocode:
DO
# Launch the awt program
EXIT_CODE = # Get the exit code of the last process
WHILE (EXIT_CODE == RESTART_CODE)
The AWT app should exit the JVM with something other than the RESTART_CODE on "normal" termination which doesn't require restart.
Eclipse typically restarts after a plugin is installed. They do this using a wrapper eclipse.exe (launcher app) for windows. This application execs the core eclipse runner jar and if the eclipse java application terminates with a relaunch code, eclipse.exe restarts the workbench. You can build a similar bit of native code, shell script or another java code wrapper to achieve the restart.
Windows
public void restartApp(){
// This launches a new instance of application dirctly,
// remember to add some sleep to the start of the cmd file to make sure current instance is
// completely terminated, otherwise 2 instances of the application can overlap causing strange
// things:)
new ProcessBuilder("cmd","/c start /min c:/path/to/script/that/launches/my/application.cmd ^& exit").start();
System.exit(0);
}
/min to start script in minimized window
^& exit to close cmd window after finish
a sample cmd script could be
#echo off
rem add some sleep (e.g. 10 seconds) to allow the preceding application instance to release any open resources (like ports) and exit gracefully, otherwise the new instance could fail to start
sleep 10
set path=C:\someFolder\application_lib\libs;%path%
java -jar application.jar
sleep 10 sleep for 10 seconds
Just adding information which is not present in other answers.
If procfs /proc/self/cmdline is available
If you are running in an environment which provides procfs and therefore has the /proc file system available (which means this is not a portable solution), you can have Java read /proc/self/cmdline in order to restart itself, like this:
public static void restart() throws IOException {
new ProcessBuilder(getMyOwnCmdLine()).inheritIO().start();
}
public static String[] getMyOwnCmdLine() throws IOException {
return readFirstLine("/proc/self/cmdline").split("\u0000");
}
public static String readFirstLine(final String filename) throws IOException {
try (final BufferedReader in = new BufferedReader(new FileReader(filename))) {
return in.readLine();
}
}
On systems with /proc/self/cmdline available, this probably is the most elegant way of how to "restart" the current Java process from Java. No JNI involved, and no guessing of paths and stuff required. This will also take care of all JVM options passed to the java binary. The command line will be exactly identical to the one of the current JVM process.
Many UNIX systems including GNU/Linux (including Android) nowadays have procfs However on some like FreeBSD, it is deprecated and being phased out. Mac OS X is an exception in the sense that it does not have procfs. Windows also does not have procfs. Cygwin has procfs but it's invisible to Java because it's only visible to applications using the Cygwin DLLs instead of Windows system calls, and Java is unaware of Cygwin.
Don't forget to use ProcessBuilder.inheritIO()
The default is that stdin / stdout / stderr (in Java called System.in / System.out / System.err) of the started Process are set to pipes which allow the currently running process to communicate with the newly started process. If you want to restart the current process, this is most likely not what you want. Instead you would want that stdin / stdout / stderr are the same as those of the current VM. This is called inherited. You can do so by calling inheritIO() of your ProcessBuilder instance.
Pitfall on Windows
A frequent use case of a restart() function is to restart the application after an update. The last time I tried this on Windows this was problematic. When overwrote the application's .jar file with the new version, the application started to misbehave and giving exceptions about the .jar file. I'm just telling, in case this is your use case. Back then I solved the issue by wrapping the application in a batch file and using a magic return value from System.exit() that I queried in the batch file and had the batch file restart the application instead.
Although this question is old and answered, I've stumbled across a problem with some of the solutions and decided to add my suggestion into the mix.
The problem with some of the solutions is that they build a single command string. This creates issues when some parameters contain spaces, especially java.home.
For example, on windows, the line
final String javaBin = System.getProperty("java.home") + File.separator + "bin" + File.separator + "java";
Might return something like this:C:\Program Files\Java\jre7\bin\java
This string has to be wrapped in quotes or escaped due to the space in Program Files. Not a huge problem, but somewhat annoying and error prone, especially in cross platform applications.
Therefore my solution builds the command as an array of commands:
public static void restart(String[] args) {
ArrayList<String> commands = new ArrayList<String>(4 + jvmArgs.size() + args.length);
List<String> jvmArgs = ManagementFactory.getRuntimeMXBean().getInputArguments();
// Java
commands.add(System.getProperty("java.home") + File.separator + "bin" + File.separator + "java");
// Jvm arguments
for (String jvmArg : jvmArgs) {
commands.add(jvmArg);
}
// Classpath
commands.add("-cp");
commands.add(ManagementFactory.getRuntimeMXBean().getClassPath());
// Class to be executed
commands.add(BGAgent.class.getName());
// Command line arguments
for (String arg : args) {
commands.add(arg);
}
File workingDir = null; // Null working dir means that the child uses the same working directory
String[] env = null; // Null env means that the child uses the same environment
String[] commandArray = new String[commands.size()];
commandArray = commands.toArray(commandArray);
try {
Runtime.getRuntime().exec(commandArray, env, workingDir);
System.exit(0);
} catch (IOException e) {
e.printStackTrace();
}
}
If you realy need to restart your app, you could write a separate app the start it...
This page provides many different examples for different scenarios:
http://www.rgagnon.com/javadetails/java-0014.html
Similar to Yoda's 'improved' answer, but with further improvements (both functional, readability, and testability). It's now safe to run, and restarts for as as many times as the amount of program arguments given.
No accumulation of JAVA_TOOL_OPTIONS options.
Automatically finds main class.
Inherits current stdout/stderr.
public static void main(String[] args) throws Exception {
if (args.length == 0)
return;
else
args = Arrays.copyOf(args, args.length - 1);
List<String> command = new ArrayList<>(32);
appendJavaExecutable(command);
appendVMArgs(command);
appendClassPath(command);
appendEntryPoint(command);
appendArgs(command, args);
System.out.println(command);
try {
new ProcessBuilder(command).inheritIO().start();
} catch (IOException ex) {
ex.printStackTrace();
}
}
private static void appendJavaExecutable(List<String> cmd) {
cmd.add(System.getProperty("java.home") + File.separator + "bin" + File.separator + "java");
}
private static void appendVMArgs(Collection<String> cmd) {
Collection<String> vmArguments = ManagementFactory.getRuntimeMXBean().getInputArguments();
String javaToolOptions = System.getenv("JAVA_TOOL_OPTIONS");
if (javaToolOptions != null) {
Collection<String> javaToolOptionsList = Arrays.asList(javaToolOptions.split(" "));
vmArguments = new ArrayList<>(vmArguments);
vmArguments.removeAll(javaToolOptionsList);
}
cmd.addAll(vmArguments);
}
private static void appendClassPath(List<String> cmd) {
cmd.add("-cp");
cmd.add(ManagementFactory.getRuntimeMXBean().getClassPath());
}
private static void appendEntryPoint(List<String> cmd) {
StackTraceElement[] stackTrace = new Throwable().getStackTrace();
StackTraceElement stackTraceElement = stackTrace[stackTrace.length - 1];
String fullyQualifiedClass = stackTraceElement.getClassName();
String entryMethod = stackTraceElement.getMethodName();
if (!entryMethod.equals("main"))
throw new AssertionError("Entry point is not a 'main()': " + fullyQualifiedClass + '.' + entryMethod);
cmd.add(fullyQualifiedClass);
}
private static void appendArgs(List<String> cmd, String[] args) {
cmd.addAll(Arrays.asList(args));
}
V1.1 Bugfix: null pointer if JAVA_TOOL_OPTIONS is not set
Example:
$ java -cp Temp.jar Temp a b c d e
[/usr/lib/jvm/java-8-openjdk-amd64/jre/bin/java, -cp, Temp.jar, Temp, a, b, c, d]
[/usr/lib/jvm/java-8-openjdk-amd64/jre/bin/java, -cp, Temp.jar, Temp, a, b, c]
[/usr/lib/jvm/java-8-openjdk-amd64/jre/bin/java, -cp, Temp.jar, Temp, a, b]
[/usr/lib/jvm/java-8-openjdk-amd64/jre/bin/java, -cp, Temp.jar, Temp, a]
[/usr/lib/jvm/java-8-openjdk-amd64/jre/bin/java, -cp, Temp.jar, Temp]
$
I was researching the subject myself when came across this question.
Regardless of the fact that the answer is already accepted, I would still like to offer an alternative approach for completeness. Specifically, Apache Ant served as a very flexible solution.
Basically, everything boils down to an Ant script file with a single Java execution task (refer here and here) invoked from a Java code (see here). This Java code, which can be a method launch, could be a part of the application that needs to be restarted. The application needs to have a dependency on the Apache Ant library (jar).
Whenever application needs to be restarted, it should call method launch and exit the VM. The Ant java task should have options fork and spawn set to true.
Here is an example of an Ant script:
<project name="applaucher" default="launch" basedir=".">
<target name="launch">
<java classname="package.MasinClass" fork="true" spawn="true">
<jvmarg value="-splash:splash.jpg"/>
<jvmarg value="-D other VM params"/>
<classpath>
<pathelement location="lib-1.jar" />
...
<pathelement location="lib-n.jar" />
</classpath>
</java>
</target>
</project>
The code for the launch method may look something like this:
public final void launch(final String antScriptFile) {
/* configure Ant and execute the task */
final File buildFile = new File(antScriptFile);
final Project p = new Project();
p.setUserProperty("ant.file", buildFile.getAbsolutePath());
final DefaultLogger consoleLogger = new DefaultLogger();
consoleLogger.setErrorPrintStream(System.err);
consoleLogger.setOutputPrintStream(System.out);
consoleLogger.setMessageOutputLevel(Project.MSG_INFO);
p.addBuildListener(consoleLogger);
try {
p.fireBuildStarted();
p.init();
final ProjectHelper helper = ProjectHelper.getProjectHelper();
p.addReference("ant.projectHelper", helper);
helper.parse(p, buildFile);
p.executeTarget(p.getDefaultTarget());
p.fireBuildFinished(null);
} catch (final BuildException e) {
p.fireBuildFinished(e);
}
/* exit the current VM */
System.exit(0);
}
A very convenient thing here is that the same script is used for initial application start up as well as for restarts.
Old question and all of that. But this is yet another way that offers some advantages.
On Windows, you could ask the task scheduler to start your app again for you. This has the advantage of waiting a specific amount of time before the app is restarted. You can go to task manager and delete the task and it stops repeating.
SimpleDateFormat hhmm = new SimpleDateFormat("kk:mm");
Calendar aCal = Calendar.getInstance();
aCal.add(Calendar.SECOND, 65);
String nextMinute = hhmm.format(aCal.getTime()); //Task Scheduler Doesn't accept seconds and won't do current minute.
String[] create = {"c:\\windows\\system32\\schtasks.exe", "/CREATE", "/F", "/TN", "RestartMyProg", "/SC", "ONCE", "/ST", nextMinute, "/TR", "java -jar c:\\my\\dev\\RestartTest.jar"};
Process proc = Runtime.getRuntime().exec(create, null, null);
System.out.println("Exit Now");
try {Thread.sleep(1000);} catch (Exception e){} // just so you can see it better
System.exit(0);
System.err.println("Someone is Restarting me...");
setVisible(false);
try {
Thread.sleep(600);
} catch (InterruptedException e1) {
e1.printStackTrace();
}
setVisible(true);
I guess you don't really want to stop the application, but to "Restart" it. For that, you could use this and add your "Reset" before the sleep and after the invisible window.

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