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Does it simply check if divisor is different from zero every time there is division done (even in JIT-ed code)?

I mean how VM manages to throw an exception without being previously killed by the OS?

marked as duplicate by Raedwald, Eric Leschinski, Kevin Panko, user764357, iandotkelly Jan 22 '14 at 2:43

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  • What do you mean by "previously killed"? – Oliver Charlesworth Jan 21 '14 at 21:29
  • One word: Zombies!! – Hot Licks Jan 21 '14 at 21:29
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    The OS won't kill the VM for a divide-by-zero. The VM will terminate if such an exception is not catched. – Stefano Sanfilippo Jan 21 '14 at 21:30
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    Division by zero is caught at hardware level and results in interrupt being called with usually leads OS to stopping the process (I'm asking how it is caught internally in VM implementation not language itself)... – mrpyo Jan 21 '14 at 21:32
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    @StefanoSanfilippo yeah the OS doesn't kill anything but the VM commits suicide ;-) – ITroubs Jan 21 '14 at 21:33
up vote 31 down vote accepted

In an Unix environment, in which division-by-zero is signalled via SIGFPE, the JVM will have installed a signal handler which traps the SIGFPE and in turn throws an ArithmeticException. If you're interested in the internals, see e.g. man signal

What I believe the OP is asking is based on the fact that, until/unless a SIGFPE handler is in place, most processes will take the default action on receiving this signal, which is to terminate. Thus, e.g. a C program

 int main (int argc, char** argv) { int n = 5 / 0; } 

… if it even compiles, will be killed by the default SIGFPESIG_DFL action. The JVM's handler instead issues the (catchable) RuntimeException so that these exceptions can be handled in a native-seeming way.

As several others pointed out, and just for completeness, in point of fact the SIGFPE generated from the kernel is generally mapped from a special interrupt from the processor itself; thus, the “pipeline” is something like

  • CPU error trap interrupt → kernel interrupt handler → SIGFPE SIG_DFL → process death


  • CPU error trap interrupt → kernel interrupt handler → SIGFPE handler in JVM → RuntimeException ArithmeticException in user code

On non-Unix platforms the handling is analogous.

Java handles the situation like any other language. A divide by zero error generates a processor exception which triggers an interrupt. The interrupt is "read" by the operating system and forwarded to the program if a handler is registered. Since Java registers a handler, it receives the error and then translates it into an ArithmeticException that travels up the stack.

The JVM catches the Division by Zero like this with C:

#include <stdio.h>
#include <signal.h>
#include <stdlib.h>

void fpe_handler(int signum) {
      printf("signal is %d", signum);
      printf("JVM throws an ArithmeticException here...\n");
      exit (1);

int main() {
      int a = 5;
      int b = 0;
      signal(SIGFPE, fpe_handler);   
      printf("%d\n", a / b); 
      return 0;

Compile and run it prints this:

el@apollo:~$ gcc -o catch_sigfpe myc.c

el@apollo:~$ ./catch_sigfpe
signal is 8
JVM throws an ArithmeticException here...


The operating system synchronously raises a SIGFPE exception, the C program catches it, and then the java constructs and feeds you the ArithmeticException and cleans up after itself to stop the Java program.

See more about the signal returned here:

OS sends signal to the process. Default handler would stop the process, but you can define own handler for it. I bet java VM does.

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