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I've been thinking about it lately, and it seems to me that most advantages given to JIT compilation should more or less be attributed to the intermediate format instead, and that jitting in itself is not much of a good way to generate code.

So these are the main pro-JIT compilation arguments I usually hear:

  1. Just-in-time compilation allows for greater portability. Isn't that attributable to the intermediate format? I mean, nothing keeps you from compiling your virtual bytecode into native bytecode once you've got it on your machine. Portability is an issue in the 'distribution' phase, not during the 'running' phase.
  2. Okay, then what about generating code at runtime? Well, the same applies. Nothing keeps you from integrating a just-in-time compiler for a real just-in-time need into your native program.
  3. But the runtime compiles it to native code just once anyways, and stores the resulting executable in some sort of cache somewhere on your hard drive. Yeah, sure. But it's optimized your program under time constraints, and it's not making it better from there on. See the next paragraph.

It's not like ahead-of-time compilation had no advantages either. Just-in-time compilation has time constraints: you can't keep the end user waiting forever while your program launches, so it has a tradeoff to do somewhere. Most of the time they just optimize less. A friend of mine had profiling evidence that inlining functions and unrolling loops "manually" (obfuscating source code in the process) had a positive impact on performance on his C# number-crunching program; doing the same on my side, with my C program filling the same task, yielded no positive results, and I believe this is due to the extensive transformations my compiler was allowed to make.

And yet we're surrounded by jitted programs. C# and Java are everywhere, Python scripts can compile to some sort of bytecode, and I'm sure a whole bunch of other programming languages do the same. There must be a good reason that I'm missing. So what makes just-in-time compilation so superior to ahead-of-time compilation?


EDIT To clear some confusion, maybe it would be important to state that I'm all for an intermediate representation of executables. This has a lot of advantages (and really, most arguments for just-in-time compilation are actually arguments for an intermediate representation). My question is about how they should be compiled to native code.

Most runtimes (or compilers for that matter) will prefer to either compile them just-in-time or ahead-of-time. As ahead-of-time compilation looks like a better alternative to me because the compiler has more time to perform optimizations, I'm wondering why Microsoft, Sun and all the others are going the other way around. I'm kind of dubious about profiling-related optimizations, as my experience with just-in-time compiled programs displayed poor basic optimizations.

I used an example with C code only because I needed an example of ahead-of-time compilation versus just-in-time compilation. The fact that C code wasn't emitted to an intermediate representation is irrelevant to the situation, as I just needed to show that ahead-of-time compilation can yield better immediate results.

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I'm not sure what you're arguing. You're saying that the benefits ascribed to JITted code are really the result of the intermediate format, and then wondering why that intermediate format is so prevalent? –  Anon. Jan 21 '10 at 2:10
    
No, I'm not arguing against the intermediate format is prevalent. I'm arguing against why it's necessary to compile that intermediate format just-in-time instead of, say, ahead-of-time during the installation phase. –  zneak Jan 21 '10 at 2:17
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Such an interesting question. I read all the posts and none of the arguments presented convinced me. I still don't understand why languages like Java do not compile the bytecodes to native code beforehand (it will do that anyway using JIT, so why not compile all the code before it gets executed?). I never saw a code compiled natively running slower than a code compiled using JIT (even after the later being running for weeks) so the arguments of "better performance" in favor of JIT don't make any sense to me. –  Tiago Jan 28 '13 at 23:15
    
@TiagoT, with some more experience now (this question is 3 years old, can you believe it?), I'm going to put more emphasis on the fact that you don't need to recompile bytecode programs when a class in an external library changes. This is a huge advantage for object-oriented systems like Java and the CLR. –  zneak Jan 29 '13 at 0:08
    
@zneak I was rereading your answer now. Indeed, that is an advantage, but not a performance advantage. When I said I don't see the advantage of JIT over AOT compilation I am talking mainly about performance. Funny thing is that Google, with KitKat 4.4, is now testing an AOT compiler for Android too... so I guess it will eventually replaces the current JIT compiler, something I imagined would happen sooner or later. I really can't get my mind around on why so many systems moved to JIT (instead of sticking to AOT) in the first place... –  Tiago Apr 29 '14 at 4:05

6 Answers 6

  1. Greater portability: The deliverable (byte-code) stays portable

  2. At the same time, more platform-specific: Because the JIT-compilation takes place on the same system that the code runs, it can be very, very fine-tuned for that particular system. If you do ahead-of-time compilation (and still want to ship the same package to everyone), you have to compromise.

  3. Improvements in compiler technology can have an impact on existing programs. A better C compiler does not help you at all with programs already deployed. A better JIT-compiler will improve the performance of existing programs. The Java code you wrote ten years ago will run faster today.

  4. Adapting to run-time metrics. A JIT-compiler can not only look at the code and the target system, but also at how the code is used. It can instrument the running code, and make decisions about how to optimize according to, for example, what values the method parameters usually happen to have.

You are right that JIT adds to start-up cost, and so there is a time-constraint for it, whereas ahead-of-time compilation can take all the time that it wants. This makes it more appropriate for server-type applications, where start-up time is not so important and a "warm-up phase" before the code gets really fast is acceptable.

I suppose it would be possible to store the result of a JIT compilation somewhere, so that it could be re-used the next time. That would give you "ahead-of-time" compilation for the second program run. Maybe the clever folks at Sun and Microsoft are of the opinion that a fresh JIT is already good enough and the extra complexity is not worth the trouble.

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For your first and second points, what if I just took the bytecode and compiled it ahead-of-time on the end user's machine, for his specific system, during the installation process? This is why I say these advantages are relative to the intermediate format and not to just-in-time compilation. As of your third point, yeah, I guess it's true. However, if my native code runs twice as fast today as my jitted code runs now, I'm not quite interested in its performances 10 years from now. –  zneak Jan 21 '10 at 2:06
    
Then you'd have to bundle the ahead-of-time compiler with your program. Which breaks portability, because your compiler needs to be native-code. –  Anon. Jan 21 '10 at 2:13
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@Anon: it should be stated that the requirements for just-in-time compilation and ahead-of-time compilation are the same. You can't run .NET programs without the .NET framework, so virtual machines already broke portability there. –  zneak Jan 21 '10 at 2:15
    
So what you are asking is: "Why do we not have an installation phase that turns byte-code into machine code?" I suppose the difference to JIT is that dynamic adaptation would go away. On the other hand, no time constraints. Maybe it is not worth the extra complexity (the installation phase). Don't know. –  Thilo Jan 21 '10 at 2:16
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@Anon: No, it would be using the same (or very similar) compiler that the JVM or CLR is using now. –  Thilo Jan 21 '10 at 2:17
up vote 6 down vote accepted

The ngen tool page spilled the beans (or at least provided a good comparison of native images versus JIT-compiled images). Here is a list of advantages of executables that are compiled ahead-of-time:

  1. Native images load faster because they don't have much startup activities, and require a static amount of fewer memory (the memory required by the JIT compiler);
  2. Native images can share library code, while JIT-compiled images cannot.

And here is a list of advantages of just-in-time compiled executables:

  1. Native images are larger than their bytecode counterpart;
  2. Native images must be regenerated whenever the original assembly or one of its dependencies is modified (which makes sense, since it could screw up virtual tables and stuff like that).

And the general considerations of Microsoft on the matter:

  1. Large applications generally benefit from being compiled ahead-of-time, and small ones generally don't;
  2. Any call to a function loaded from a dynamic library needs the overhead of one additional jump instruction for fixups.

The need to regenerate an image that is ahead-of-time compiled every time one of its components is a huge disadvantage for native images. This is the root of the fragile base class problem. In C++, for instance, if the layout of a class from a DLL you use with your native app changes, you're screwed. If you program against interfaces instead, you're still screwed if the interface changes. If you use a more dynamic language instead (say, Objective-C), you're fine, but this comes with a performance hit.

On the other hand, bytecode images don't suffer from this issue and do it without the performance hit. This, in itself, is a very good reason to design a system with an intermediate representation that can easily be regenerated.

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If the application requires performance, then AOT is definitely the way to go. Needing to recompile during development is not an issue either, since AOT should be done during deployment, during which interfaces no longer change. Bytecode images generate a lot more code between function calls, so AOT having one additional jump instruction is still faster than regular JIT code. However, if your application is tiny and performance isn't critical, then it doesn't really matter at all. –  Jorma Rebane Sep 23 '14 at 13:09

Simple logic tell us that compiling huge MS Office size program even from byte-codes will simply take too much time. You'll end up with huge starting time and that will scare anyone off your product. Sure, you can precompile during installation but this also has consequences.

Another reason is that not all parts of application will be used. JIT will compile only those parts that user care about, leaving potentially 80% of code untouched, saving time and memory.

And finally, JIT compilation can apply optimizations that normal compilators can't. Like inlining virtual methods or parts of the methods with trace trees. Which, in theory, can make them faster.

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I don't get your first argument. Is it supposed to be against just-in-time compilation or against ahead-of-time compilation? As of the memory saves and time, the time wasted in compiling untouched program parts is wasted only once, so that isn't much of an arugment IMO. And it's not saving much memory if the whole virtual bytecode is loaded in memory anyways. –  zneak Jan 21 '10 at 2:08
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+1. There is a point is saying "if you do not run a subroutine over and over again, why do you need it to be fast (and spend time to make it fast)?". That is assuming, of course, that the JIT will make it really fast if you run it really frequently. This may not happen at the first round of compilation, but eventually... –  Thilo Jan 21 '10 at 2:20
    
Sure, you can precompile during installation but this also has consequences. what are the consequences?? is it slow installation all installation is slow making it bit slower to have faster application didnt seems like consequences to me. –  kirie Jun 22 '14 at 15:59
  1. Better reflection support. This could be done in principle in an ahead-of-time compiled program, but it almost never seems to happen in practice.

  2. Optimizations that can often only be figured out by observing the program dynamically. For example, inlining virtual functions, escape analysis to turn stack allocations into heap allocations, and lock coarsening.

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It is a fact that your programs are compiled into native code before running. Therefore, reflection is obviously possible even for native programs, and that's more a matter of runtime than a matter of how you compile. As of escape analysis, I think it would be a terrible idea to base that on runtime observations rather than static code analysis. –  zneak Jan 21 '10 at 2:11

Maybe it has to do with the modern approach to programming. You know, many years ago you would write your program on a sheet of paper, some other people would transform it into a stack of punched cards and feed into THE computer, and tomorrow morning you would get a crash dump on a roll of paper weighing half a pound. All that forced you to think a lot before writing the first line of code.

Those days are long gone. When using a scripting language such as PHP or JavaScript, you can test any change immediately. That's not the case with Java, though appservers give you hot deployment. So it is just very handy that Java programs can be compiled fast, as bytecode compilers are pretty straightforward.

But, there is no such thing as JIT-only languages. Ahead-of-time compilers have been available for Java for quite some time, and more recently Mono introduced it to CLR. In fact, MonoTouch is possible at all because of AOT compilation, as non-native apps are prohibited in Apple's app store.

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Yes, of course most jitted languages also have ahead-of-time compilers. In fact, Mono didn't do anything new, as Microsoft had an utility called ngen (msdn.microsoft.com/en-us/library/6t9t5wcf(VS.80).aspx) that generates native code from a CLR executable for quite some time. The fact, however, is that most languages use their just-in-time variants whenever they can, and it is this behavior I'm trying to understand. –  zneak Jan 21 '10 at 7:16

I have been trying to understand this as well because I saw that Google is moving towards replacing their Dalvik Virtual Machine (essentially another Java Virtual Machine like HotSpot) with Android Run Time (ART), which is a AOT compiler, but Java usually uses HotSpot, which is a JIT compiler. Apparently, ARM is ~ 2x faster than Dalvik... so I thought to myself "why doesn't Java use AOT as well?". Anyways, from what I can gather, the main difference is that JIT uses adaptive optimization during run time, which (for example) allows ONLY those parts of the bytecode that are being executed frequently to be compiled into native code; whereas AOT compiles the entire source code into native code, and code of a lesser amount runs faster than code of a greater amount.
I have to imagine that most Android apps are composed of a small amount of code, so on average it makes more sense to compile the entire source code to native code AOT and avoid the overhead associated from interpretation / optimization.

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The major advantage of the Java bytecode in this situation is that it's portable. The application can be distributed as Java code and then compiled to whatever underlying architecture is used by the phone. Android supports MIPS, ARM and x86, so it makes sense to distribute Java applications and then compile them natively. In this scenario, the Java bytecode is used as a glorified intermediate representation. –  zneak Mar 7 '14 at 17:42
    
I understand the purpose of Java / bytecode being portable. I was trying to help clarify the advantage of JIT vs. AOT being used... I believe it depends on the size of the application source code from the end-user perspective (i.e. smaller --> AOT, larger --> JIT). They're both portable to any end-user. Otherwise, why wouldn't all client compilers be AOT? –  Scott Ferrell Mar 7 '14 at 22:09
    
I would add that portability is an advantage when developing server/back-end side software, not desktop applications. This may be anecdotal but I haven't seen many 'successful' software company that releases their commercial desktop applications for different platforms in Java, they usually release native applications for mac/win/linux. Am I wrong? –  Moisés Jul 11 '14 at 9:33

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