Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

In Java, does "binary code" means the same as "Java bytecode?"

Is this the flow in Java ?

Java File (.java) -> [javac] -> ByteCode File (.class) -> [JVM/Java Interpreter] -> Running it(by first converting it into binary code specific to the machine)


share|improve this question
In what context did you see the term "binary code?" –  templatetypedef Jan 30 '11 at 4:08
I read somewhere java code is first converted to machine independent bytecode, while some said, it is converted to binary code. So I am a bit confused. –  user327663 Jan 30 '11 at 4:11
Everything is "binary code"!!! Oh noes!! –  David Titarenco Jan 30 '11 at 4:11
@Mandar: edited your question: I replaced "javac.exe" with "javac" because on Linux, OS X and all the other Unices Java works on the Windowsy-idiosynchratic ".exe" doesn't make much sense ;) –  SyntaxT3rr0r Jan 30 '11 at 14:35
Note that on most Real World [TM] JVMs Java isn't "interpreted" in the same way real interpreted languages are interpreted. For a start (and that's a given on any JVM) it's, as you noted, not the source code but the bytecode that is "interpreted" (this alone makes already for a very weird definition of "interpreted" because it's amazingly more efficient than source-code interpretation) then most Real World [TM] JVMs are "JIT". JIT means compilation. This makes for an even weirder definition/usage of "interpreted". –  SyntaxT3rr0r Jan 30 '11 at 14:45

5 Answers 5

up vote 9 down vote accepted

The answer depends on what you mean by binary code.

Java bytecode is a binary data format that includes loading information and execution instructions for the Java virtual machine. In that sense, Java bytecode is a special kind of binary code.

When you use the term "binary code" to mean machine instructions for a real processors architecture (like IA-32 or Sparc) then it is different.
Java bytecode is not a binary code in that sense. It is not processor-specific.

share|improve this answer

JVM is very complex program, and the flow there is in certain level unpredictable. E.g. flow inside HotSpot JVM is something like the following:

1) it takes your bytecode and interprets it
2) if some method is executed quite frequently (some amount of times during some time span) it is marked as "hot" method and JVM schedules its compiling to platform depended machine code (is it what you have called binary code?). That flow looks like the following:

--> Hige-level Intermediate Representation (HIR)
  --> Middle-level Intermediate Representation (MIR)
    --> Low-level Intermediate Representation (LIR)
      --> Register Allocation
        --> EMIT (platform dependent machine code)

Each step in that flow is important and helps JVM perform some optimizations of your code. It does not change your algorithm of course, optimization just mean that some sequences of code can be detected and exchanged with better performed (producing the same result). Starting from LIR stage, code becomes platform dependent (!).

Bytecode can be good for interpretation, but not that good to be easily transformed into the machine native code, HIR takes care about it and its purpose is just quickly transform bytocede into intermediate representation. MIR transforms all operations into the three-operands operation; ByteCode is based on stack operation:


that was bytecode for simple and operation, and middle level representation for this will be sort of the following:

and v0 v1 -> v2

LIR depends on platform, taking into account our simple example with and operation, and specifying our platform as x86, then our code snippet will be:

x86_and v1 v0 -> v1
x86_move v1 -> v2

because and operation takes two operands, first one is destination, another one is source, and then we put result value to another "variable". Next stage is "register allocation", because x86 platform (and probably most others) work with registers, and not variables (like intermediate representation), nor stack (like bytecode). Here our code snippet should be like the following:

x86_and eax ecx -> eax

and here you can notice absence of "move" operation. Our code contained only one line. and JVM figured out that creating new virtual variable was not needed, we can reuse eax register. If code is big enough, having many variables and working with them intensive (e.g. using eax somewhere below, so we can't change its value), then you will see move operation left in machine code. That's again about optimization :)

That was JIT flow, but depending on VM implementation there can be one more step - if code was compiled (being "hot"), and still executed many many times, JVM schedules optimization of that code (e.g. using inlining).

Well, conclusion is that the way from bytecode to machine code is quite interesting, a bit unforeseeable, and depends on many many things.

btw, described above process is called "Mixed mode interpretation" (when JVM first interprets bytecode, and then uses JIT compilation), example of such JVM is HotSpot. Some JVMs (like JRockit from Oracle) use JIT compilation only.

It was very simple description of what is going on there, I hope that it helps to understand the flow inside JVM on very high level, as well as targets the question about difference between bytecode and binary code. For references, and other issues not mentioned here and related to that topic read please similar topic "Why are compiled Java class files smaller than C compiled files?".

Also feel free to critique this answer, point me to mistakes or misunderstanding of mine, I'm always willing to improve my knowledge about JVM :)

share|improve this answer
+1. i enjoyed reading your answer. –  magnetar Aug 17 '11 at 0:02
@magnetar: thank you, glad to here it wasn't wasting of time ;) –  Maxym Aug 20 '11 at 18:36

There's no such thing as "machine-independent-bytecode" (it wouldn't make any sense if you think about it). Bytecode is only (for the purposes of this answer) used for things like virtual machines. VMs (such as the JVM) INTERPRET the bytecode and use some clever and complicated just-in-time compilation (which IS machine/platform-dependent) to give you the final product.

So in a sense, both of the answers are right and wrong. The Java compiler compiles code into Java bytecode (machine-independent). The *.class files the bytecode is located in are binary - they are executable, after all. The Virtual machine later interprets these binary *.class files (note: when describing files as binary, it's somewhat of a misnomer) and does various awesome stuff. More often than not, the JVM uses something called JIT (just-in-time compilation), which generates either platform-specific, or machine-specific instructions that speed up various parts of execution. JIT is another topic for another day, however.


Java File (.java) -> [javac.exe] -> ByteCode File (.class) -> [JVM/Java Interpreter] -> Running it(by first converting it into binary code specific to the machine)

This is incorrect. The JVM doesn't "convert" anything. It simply interprets the bytecode. The only part of the JVM that "converts" bytecode is when the JIT compiler is invoked, which is a special case and should not be generalized.

share|improve this answer
You just said," JIT compilation" is machine independent. But I have read that JVM is specific for every machine, unlike a ByteCode. –  user327663 Jan 30 '11 at 4:17
JIT compilation is a small part of how the JVM works (and the ONLY part that "re-writes" code for a particular machine/platform). The VM is a platform/machine specific interpreter, but the bytecode is NOT. –  David Titarenco Jan 30 '11 at 4:21
Titerenco: Maybe I didn't get your "just-in-time compilation (which IS machine/platform-independent)", but JIT compilation is platform dependent, starting from LIR stage in flow it produces platform dependent code! The result of compilation is native platform dependent machine code, so it just can't be independent... bytecode is of cource platform independent... –  Maxym Feb 5 '11 at 18:28
@maxym: that's a typo, sorry. JIT IS platform-dependent. –  David Titarenco Feb 6 '11 at 3:10

Both C/C++ (to take as an example) and Java programs are compiled into Binary Code. This generic term just means that the new created file does not encode the instructions in a human-readable way. (i.e. You won't be able to open the compiled file in a text program and read it).

On the other hand, what the Binary 0's and 1's encode (or represent), depends on what the compiler generated. In the case of Java, it generates instructions called Bytecode, which are interpreted by the JVM. In other cases, for other languages, it may generate IA-32 or SPARC instructions.

In conclusion, the way the terms Binary code and Java bytecode are opposed to each other is misleading. The reason was to make the distinction between the normal binary code which is machine dependant, and the Java bytecode (also a binary code) which is not.

share|improve this answer

Answer i found today for above question:

Source: JLS

Loading refers to the process of finding the binary form of a class or interface type with a particular name, perhaps by computing it on the fly, but more typically by retrieving a binary representation previously computed from source code by a Java compiler, and constructing, from that binary form, a Class object to represent the class or interface.

The precise semantics of loading are given in Chapter 5 of The Java Virtual Machine Specification, Java SE 7 Edition. Here we present an overview of the process from the viewpoint of the Java programming language.

The binary format of a class or interface is normally the class file format described in The Java Virtual Machine Specification, Java SE 7 Edition cited above, but other formats are possible, provided they meet the requirements specified in §13.1. The method defineClass of class ClassLoader may be used to construct Class objects from binary representations in the class file format.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.