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I was wondering, why does Math.sin(double) delegate to StrictMath.sin(double) when I've found the problem in a Reddit thread. The mentioned code fragment looks like this (JDK 7u25):

Math.java :

public static double sin(double a) {
    return StrictMath.sin(a); // default impl. delegates to StrictMath

StrictMath.java :

public static native double sin(double a);

The second declaration is native which is reasonable for me. The doc of Math states that:

Code generators are encouraged to use platform-specific native libraries or microprocessor instructions, where available (...)

And the question is: isn't the native library that implements StrictMath platform-specific enough? What more can a JIT know about the platform than an installed JRE (please only concentrate on this very case)? In ther words, why isn't Math.sin() native already?

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@Ruchira as you can read in my question, I'm concentrating on something different than the precision of computation (which is described in the docs) –  emesx Jul 1 '13 at 18:00
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4 Answers

up vote 10 down vote accepted

I'll try to wrap up the entire discussion in a single post..

Generally, Math delegates to StrictMath. Obviously, the call can be inlined so this is not a performance issue.

StrictMath is a final class with native methods backed by native libraries. One might think, that native means optimal, but this doesn't necessarily has to be the case. Looking through StrictMath javadoc one can read the following:

(...) the definitions of some of the numeric functions in this package require that they produce the same results as certain published algorithms. These algorithms are available from the well-known network library netlib as the package "Freely Distributable Math Library," fdlibm. These algorithms, which are written in the C programming language, are then to be understood as executed with all floating-point operations following the rules of Java floating-point arithmetic.

How I understand this doc is that the native library implementing StrictMath is implemented in terms of fdlibm library, which is multi-platform and known to produce predictable results. Because it's multi-platform, it can't be expected to be an optimal implementation on every platform and I believe that this is the place where a smart JIT can fine-tune the actual performance e.g. by statistical analysis of input ranges and adjusting the algorithms/implementation accordingly.

Digging deeper into the implementation it quickly turns out, that the native library backing up StrictMath actually uses fdlibm:

StrictMath.c source in OpenJDK 7 looks like this:

   #include "fdlibm.h"
   Java_java_lang_StrictMath_sin(JNIEnv *env, jclass unused, jdouble d)
       return (jdouble) jsin((double)d);

and the sine function is defined in fdlibm/src/s_sin.c refering in a few places to __kernel_sin function that comes directly from the header fdlibm.h.

While I'm temporarily accepting my own answer, I'd be glad to accept a more competent one when it comes up.

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Why does Math.sin() delegate to StrictMath.sin()?

The JIT compiler should be able to inline the StrictMath.sin(a) call. So there's little point creating an extra native method for the Math.sin() case ... and adding extra JIT compiler smarts to optimize the calling sequence, etcetera.

In the light of that, your objection really boils down to an "elegance" issue. But the "pragmatic" viewpoint is more persuasive:

  • Fewer native calls makes the JVM core and JIT easier to maintain, less fragile, etcetera.

  • If it ain't broken, don't fix it.

At least, that's how I imagine how the Java team would view this.

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While being true, I was hoping for a different answer. I totally understand how a JIT can optimize the code on-the-fly, but I don't know what can it do in terms of platform-specific optimizations that a native lib, compiled for that platform can't (because this is what the docs seem to suggest). –  emesx Jul 1 '13 at 18:24
This is a case where you don't need such a capability. But there may be other cases where you do. You could try deep-diving the JIT compiler source code to look for platform specific optimizations ... :-) –  Stephen C Jul 1 '13 at 18:26
"I was hoping for a different answer" - sadly that's often the way. I agree with Stephen. Whilst there may be cases where platform-specific JIT optimisations are going on it doesn't look like it's here. –  selig Jul 1 '13 at 22:09
@selig Can you give an example of a case where it (JIT being more platform-specific than native lib) takes place? –  emesx Jul 2 '13 at 4:53
I meant I do appreciate your input, please don't get me wrong! Some people have pointed out to scan through some sources in the OpenJDK and they indeed use some do_intrinsic() macros messing around with Math.sin.. but I guess that's the most I can uderstand from it. Personally, I find the Math -> StrictMath delegation unnecessary, superfluous in the presence of such a JavaDoc comment (the one I quoted), even when the call is optimized away.. –  emesx Jul 2 '13 at 18:24
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The question assumes that the JVM actually runs the delegation code. On many JVMs, it won't. Calls to Math.sin(), etc.. will potentially be replaced by the JIT with some intrinsic function code (if suitable) transparently. This will typically be done in an unobservable way to the end user. This is a common trick for JVM implementers where interesting specializations can happen (even if the method is not tagged as native).

Note however that most platforms can't simply drop in the single processor instruction for sin due to suitable input ranges (eg see: Intel discussion).

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I'll explain my question again: StrictMath is native, so it uses some platform-specific low-level libraries by definition.. Math delegates to StrictMath by default (it's obvious that the call can be optimized away) stating, that the delegation should be replaced with some platform-specific code. What more platform-specific can a JIT do, that a proper native library can't? –  emesx Jul 9 '13 at 15:26
So StringMath is basically a passthrough to fdlibm native code, which is very platform-agnostic but predictable about answers. I know you know that :-) Platforms could replace the code in Math with code that diverges by a small number of ULPs. How it is physically replaced is up to the JIT (or class file loader) but to give an example of a real-world in on Intel one could (for some very specific input number ranges) use the fsin instruction much more directly. If the JIT can prove (via live program analysis) the input is always in that safe range, it could do that and deliver a huge speedup. –  Trent Gray-Donald Jul 10 '13 at 15:19
Hey, this is getting somewhere. +1 for pointing out fdlibm –  emesx Jul 10 '13 at 16:51
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Math API permits a non-strict but better-performing implementations of its methods but does not require it and by default Math simply uses StrictMath impl.

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