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I'm looking at java bytecode listings and Wikipedia, and they all seem to be basic operations (branch, push, pop, cast, etc.). And many articles use these basic examples. But what happens when I read a line from the console, or create a new JButton? Where's the bytecode for opening a port?

I believe I saw something for "making a system call" (although I didn't find it today, skimming through the list several times). Do these "special" calls have their own code, which are directly delegated (don't know how to say it technically) to the OS by the VM? I know there are ways to open up the bytecode, but I'm looking for a general explanation, not weeks of learning advanced bytecode.

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How does (a limited) number of op-codes translate to everything a CPU does? How does (a limited) number of math operators translate to an unlimited number of Algebra equations? How does (a finite) set of words translate to a [near?] infinite set of phrases? –  user166390 Jan 20 '13 at 23:56
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You might find this interesting: en.wikipedia.org/wiki/Sheffer_stroke –  Hunter McMillen Jan 20 '13 at 23:57
    
You might want to learn a bit about assembly language and opcodes. The set of instructions is rather small, yet so much can be derived from it. –  drum Jan 20 '13 at 23:58
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@Raekye All that is required to theoretically solve the same set of problems is Turing Completeness (and the ability to access the same resources). Of course, just because a language is TC doesn't make it practical. But, a CPU and the JVM work on the same model. (Note that the JVM needs to delegate some operations to JNI: actual I/O - e.g. external resource - operations are a good example of when the JVM delegates to the applicable Native interfaces.) –  user166390 Jan 21 '13 at 0:09
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@Raekye A CPU uses memory mapped IO. For example your monitor is an output device which has been mapped to the CPU's memory. By accessing that memory address you can manipulate the monitor's pixels. That you can easily do using assembly (of course, complex animations will be complicated). –  drum Jan 21 '13 at 0:18
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1 Answer 1

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There is no byte code for opening a port or drawing graphics to the screen. There are classes that perform these tasks. These classes have native methods, those are methods written in C (or any other language that can be compiled to a native library) and as they are native, they can access the network and graphcis libraries of your operating system to perform those tasks. So you are instantiating these classes and call some of their methods. Java Byte Code offers byte code for instantiating classes and for calling methods of objects. If the JVM sees that this is a native method, it will call the native code that belongs to this method and this native code can do pretty much anything a C or C++ program could do.

So for example, if you call System.out.println in Java, roughly the following happens:

System is a class with a static variable out. This variable points to an object of type java.io.PrintStream which has already been created by the JVM before your main method is ever executed. The out variable is initialized like this:

FileOutputStream fdOut = new FileOutputStream(FileDescriptor.out);
setOut0(new PrintStream(new BufferedOutputStream(fdOut, 128), true));

And the method setOut0 is defined as

private static native void setOut0(PrintStream out);

This means setOut0 is a native method, written in C, or some other language that can be compiled and linked to a native library, though at least the interface between Java and this library is usually written in C.

Java will search in all loaded libraries for a symbol (in that case symbol means function name) with the name Java_java_lang_System_setOut0, this is Java_ClassName_MethodName and call it. A sample C code I have found for this method looked like this:

JNIEXPORT void JNICALL
Java_java_lang_System_setOut0(JNIEnv *env, jclass cla, jobject stream)
{
    jfieldID fid =
        (*env)->GetStaticFieldID(env,cla,"out","Ljava/io/PrintStream;");
    if (fid == 0)
        return;
    (*env)->SetStaticObjectField(env,cla,fid,stream);
}

Yet this is not the real magic, the real magic happens elsewhere. PrintStream.write() calls BufferedWriter.write(). This method again calls OutputStreamWriter.write() (not directly, but sooner or later it ends up there) and this method calls StreamEncoder.write(). Wow, it's getting hard to trace that call. The StreamEncoder calls BufferedOutputStream.write(), this one calls FileOutputStream.write() and this one calls FileOutputStream.writeBytes() and finally, finally we are there! FileOutputStream.writeBytes() is a native method. It will look something like this:

JNIEXPORT void JNICALL
Java_java_io_FileOutputStream_writeBytes(JNIEnv *env,
    jobject this, jbyteArray bytes, jint off, jint len) {
    writeBytes(env, this, bytes, off, len, fos_fd);
}

So it calls a function named writeBytes and this function looks different depending on your operating system, e.g. whether this is Windows, Linux or OS X. On UNIX/Linux systems this function may call another function (and so on), but somewhere is a simple C function call to write something to a C FILE * stream or a file descriptor (which is just an int in C). So it could be a printf()/fprintf() or a puts()/fputs() call that writes to stdout or a write() call that writes to STDOUT_FILENO. In Windows it is usually a call to WriteFile(), though it could also be a printf()/fprintf() (those are C standard functions, all platforms must support them).

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So when I call System.out.println what actually happens? What bytecode begins the native code? (I'm about to disect it but I'm also interested in how all the mappings work) –  Raekye Jan 21 '13 at 0:18
    
Edit: So I see GETSTATIC java/lang/System.out : Ljava/io/PrintStream. I'm guessing the JVM sorta listens for native classes, and deals with those function calls separately? –  Raekye Jan 21 '13 at 0:24
    
If you want the really fine grain details, you should learn about microprocessors first. To geto to Java, several layers of abstractions have been done. –  drum Jan 21 '13 at 0:24
    
If the JVM sees that this is a native method, it will call the native C code ah that was the bit I missed. I've touched on assembly, but was mainly curious where the "more complex" bytecode came in. Anyways, that clears it up for me. Thanks for the great responses and links! –  Raekye Jan 21 '13 at 0:31
    
@Raekye I'll update a question regarding System.out.println, it's a good example :-) –  Mecki Jan 21 '13 at 0:40
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