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What does a JIT compiler specifically do as opposed to a non-JIT compiler? Can someone give a succinct and easy to understand description?

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A JIT compiler runs after the program has started and compiles the code (usually bytecode or some kind of VM instructions) on the fly (or just-in-time, as it's called) into a form that's usually faster, typically the host CPU's native instruction set. A JIT has access to dynamic runtime information whereas a standard compiler doesn't and can make better optimizations like inlining functions that are used frequently.

This is in contrast to a traditional compiler that compiles all the code to machine language before the program is first run.

To paraphrase, conventional compilers build the whole program as an EXE file BEFORE the first time you run it. For newer style programs, an assembly is generated with pseudocode (p-code). Only AFTER you execute the program on the OS (e.g., by double-clicking on its icon) will the (JIT) compiler kick in and generate machine code (m-code) that the Intel-based processor or whatever will understand.

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And in contrast to interpreted code, that begins running the bytecode or VM instructions immediately without delay, but will run the instructions slower than machine language. –  Aaron Sep 18 '08 at 19:53
    
A JIT is often used with interpreted code to convert it to machine language but yes, purely interpreted code (without any JITting) is slow. Even Java bytecode without a JITter is really slow. –  Mark Cidade Sep 18 '08 at 22:07
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The target doesn't have to be machine code, though. JRuby has a JIT compiler which will compile Ruby sourcecode to Java bytecode after a couple of invocations. Then, after another couple of invocations, the JVM JIT compiler kicks in and compiles the bytecode to native code. –  Jörg W Mittag Sep 19 '08 at 2:38
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It is worth noting that, as alluded to by Jörg, JIT is not necessarily invoked right away. Often, code will be interpreted until it is determined that it will be worth JITting. Since JITting can introduce delays, it may be faster to NOT JIT some code if it is rarely used and thus a fast response is more important than overall runtime. –  Adam Jaskiewicz Apr 17 '09 at 19:32
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@ErikReppen: If a new machine comes out, compiling and optimizing a program for that new machine using a conventional compiler will likely yield results faster than a JIT. On the other hand, a JIT that's optimized for that new machine will be able to be able to optimize the performance of code which was published before that new machine was invented. –  supercat Dec 3 '13 at 18:27
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In the beginning, a compiler was responsible for turning a high-level language (defined as higher level than assembler) into object code (machine instructions), which would then be linked (by a linker) into an executable.

At one point in the evolution of languages, compilers would compile a high-level language into pseudo-code, which would then be interpreted (by an interpreter) to run your program. This eliminated the object code and executables, and allowed these languages to be portable to multiple operating systems and hardware platforms. Pascal (which compiled to P-Code) was one of the first; Java and C# are more recent examples. Eventually the term P-Code was replaced with bytecode, since most of the pseudo-operations are a byte long.

A Just-In-Time (JIT) compiler is a feature of the run-time interpreter, that instead of interpreting bytecode every time a method is invoked, will compile the bytecode into the machine code instructions of the running machine, and then invoke this object code instead. Ideally the efficiency of running object code will overcome the inefficiency of recompiling the program every time it runs.

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Great explanation, shows the difference between interpretation and JITing. –  name Sep 14 '10 at 7:29
    
However this phrase "a Just-In-Time (JIT) compiler is a feature of the run-time interpreter" causes confusion; e.g. - stackoverflow.com/questions/16439512/… –  Stephen C May 15 '13 at 22:40
    
Actually, the JIT was an add-on, and you can still disable it using the -Xint parameter to Java, so it's just a feature. –  Craig Trader May 16 '13 at 16:34
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JIT stands for Just-in-Time which means that code gets compiled when it is needed, not before runtime.

This is beneficial because the compiler can generate code that is optimised for your particular machine. A static compiler, like your average C compiler, will compile all of the code on to executable code on the developer's machine. Hence the compiler will perform optimisations based on some assumptions. It can compile more slowly and do more optimisations because it is not slowing execution of the program for the user.

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As other have mentioned

JIT stands for Just-in-Time which means that code gets compiled when it is needed, not before runtime.

Just to add a point to above discussion JVM maintains a count as of how many time a function is executed. If this count exceeds a predefined limit JIT compiles the code into machine language which can directly be executed by the processor (unlike the normal case in which javac compile the code into bytecode and then java - the interpreter interprets this bytecode line by line converts it into machine code and executes).

Also next time this function is calculated same compiled code is executed again unlike normal interpretation in which the code is interpreted again line by line. This makes execution faster.

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JIT-Just in time the word itself says when it's needed(on demand)

Typcial scenario:

The source code is completely converted into machine code

JIT scenario:

The source code will be converted into assmebly language like structure [for ex IL(intermediate language) for C#,ByteCode for java].

The intermediate code is converted into machine language only when the application needs that is required codes are only converted to machine code

JIT vs Non-JIT comparison:

  • In JIT not all the code is converted into machine code first a part of the code that is neccessary will be converted into machine code then if a method or functionality called is not in machine then that will be turned into machine code...it reduces burden on cpu

  • As the machine code will be generated on run time....the JIT compiler will produce machine code that is optimised for running machine's cpu architecture.

JIT Examples:

  1. In Java JIT is JVM(java virtual machine)
  2. In C# it is in dot net framework
  3. In Android DVM(Dalvik virtual machine)
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JIT offers some special advantages in frameworks with support for real generic types; it's possible to define a generic method which would be capable of producing an unbounded range of types, each of would require different machine code, but only have the JIT generate code for types which are actually produced. By contrast, in C++ it's necessary that the compiler generate code for all types a program will ever use. –  supercat Dec 2 '13 at 23:29
    
good explanation one upvote for that –  Duraiamuthan Dec 3 '13 at 7:20
    
The JVM doesn't JIT code the first time it runs it. The first few times, it interprets bytecode. Then, if that code runs often enough, it may decide to bother JITting it. –  ninjalj Mar 18 at 15:13
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After the byte code(which is architecture neutral) has been generated by java compiler, the execution will be handled by JVM(in java). byte code will be loaded in to JVM by loader and then each byte instruction is interpreted. When we need to call method multiple times we need to interpret the same code many times and this may take time. So we have JIT(just-in-time) compilers. When the byte has been is loaded in to JVM( it is run time), whole code will be compiled rather than interpretation. This saves time. JIT compilers exits only during run time. so we cant have any binary output.

Why dont we have any binary output?? because, Jit works only during run time.
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You have code that is compliled into some IL (intermediate language). When you run your program, the computer doesn't understand this code. It only understands native code. So the JIT compiler compiles your IL into native code on the fly. It does this at the method level.

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A non-JIT compiler takes source code and transforms it into machine specific byte code at compile time. A JIT compiler takes machine agnostic byte code that was generated at compile time and transforms it into machine specific byte code at run time. The JIT compiler that Java uses is what allows a single binary to run on a multitude of platforms without modification.

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I know this is an old thread, but runtime optimization is another important part of JIT compilation that doesn't seemed to be discussed here. Basically, the JIT compiler can monitor the program as it runs to determine ways to improve execution. Then, it can make those changes on the fly - during runtime. Google JIT optimization (javaworld has a pretty good article about it.)

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Jit stands for just in time compiler jit is a program that turns java byte code into instruction that can be sent directly to the processor.

Using the java just in time compiler (really a second compiler) at the particular system platform complies the bytecode into particular system code,once the code has been re-compiled by the jit complier ,it will usually run more quickly in the computer.

The just-in-time compiler comes with the virtual machine and is used optionally. It compiles the bytecode into platform-specific executable code that is immediately executed.

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