Updated: 4/1/2003; 3:13:08 PM.
IKVM.NET Weblog
The development of a Java VM for .NET
        

Thursday, March 13, 2003
This weblog has moved to http://weblog.ikvm.net/

Please excuse the mess, but we're moving today ;-)

New address: http://weblog.ikvm.net/

RSS feed: http://weblog.ikvm.net/blogxbrowsing.asmx/GetRss?

I hope to see you on the other side.


2:37:28 PM    Comments

Wednesday, March 05, 2003
This weblog has moved to http://weblog.ikvm.net/

Tomorrow I'm off to Finland for a week of snow scooter fun :-)

I'll be back on the 14th.


6:38:35 PM    Comments

Monday, March 03, 2003
This weblog has moved to http://weblog.ikvm.net/

C:\>mono --noinline --share-code c:\ikvm\bin\ikvm.exe hello
** Warning **: cannot find C:\cygwin\home\lalo\go-mono\install\
etc\mono\machine.config
Trying to load app config file...
Hello World

The latest ikvm binaries together with Mono 0.21 now run Hello World!

Many thanks to everyone at Ximian, the Mono contributors and especially Zoltan Varga!

The --noinline and --share-code options are needed to work around a bug in the current Mono JIT that cause it to call the class constructors to eagerly.

I've updated the source and binaries snapshots.


11:57:22 AM    Comments

Friday, February 28, 2003
This weblog has moved to http://weblog.ikvm.net/

While fixing bugs in ikvm to get more Mauve tests working (BTW, current results: 224 of 7584 tests failed), I ran across a small but interesting difference between Java and C# (and the underlying bytecodes) in converting floating point numbers to integers.

Java code:

class Test {
  public static void main(String[] args) {
    float f = Integer.MIN_VALUE;
    f -= 5;
    System.out.println((
int)(f + 0.5f));
  }
}

Java output: -2147483648 (= Integer.MIN_VALUE)

C# code:

class Test {
  static void Main() {
    float f = int.MinValue;
    f -= 5;
    System.Console.WriteLine((
int)(f + 0.5f));
  }
}

C# output (release build): 2147483644
C# output (debug build): -2147483647

It turns out that the CIL instruction conv.i4 returns an undefined value when the float value lies outside of the range representable by an 32 bit integer, unlike the JVM's f2i instruction which is defined to return either Integer.MIN_VALUE or Integer.MAX_VALUE in that case.

If you want your .NET code to run consistently, use the conv.ovf.i4 instruction that checks for overflow. In C# this can be done by using a checked block:

class Test {
  static void Main() {
    float f = int.MinValue;
    f -= 5;
    checked {
      System.Console.WriteLine((
int)(f + 0.5f));
    }
  }
}

Now, instead of returning an undefined value, the cast throws a System.OverflowException.

The JVM designers felt it was very important not to have any undefined or implementation defined behavior. One of the lessons learned from C and C++ is that whenever there is undefined or implementation defined behavior, code will be written that depends on the behavior of a particular platform/compiler. The JVM designers wanted to removed this source of portability problems.

However, they payed a price in performance for this. A well known example is the case of floating point performance (on x86), which was later "fixed" by relaxing the floating point specification and introducing strictfp. As Morpheus would say: "Welcome to the real world!" (Don Box claims everything in computing can be understood by watching The Matrix enough times).

Let's examine the performance of Java's f2i compared with .NET's conv.i4. Please note that the usual disclaimer wrt (micro) benchmarking applies.

Here is the loop I used:

float f = SOME_VALUE;
for(int i = 0; i < 10000000; i++) {
  int j = (int)f;
  f = j;
}

Timings:

 

 

SOME_VALUE

 

 

0

+Infinity

Sun JDK 1.1 (Symantec JIT)

Float

600 ms

2000 ms

Double*

800 ms

2300 ms

Sun J2RE 1.4.1 (Hotspot Client VM)

Float

600 ms

3800 ms

Double*

1100 ms

2600 ms

.NET 1.0

Float

500 ms

500 ms

Double*

800 ms

800 ms

.NET 1.0

(checked)

Float

800 ms

n/a

Double*

1200 ms

n/a

* For the double test, the value was cast to a long instead of an int.

Let's look at the code that the Symantec JIT uses to convert a float to an int:

01F543F0  ftst             
01F543F2  fldcw       word ptr ds:[1F5FB30h]
01F543F8  push        eax 
01F543F9  fistp       dword ptr [esp]
01F543FC  fldcw       word ptr ds:[1F5FB34h]
01F54402  pop         eax 
01F54403  cmp         eax,80000000h
01F54408  je          01F5440B
01F5440A  ret             
01F5440B  push        eax 
01F5440C  fnstsw      ax  
01F5440E  sahf            
01F5440F  pop         eax 
01F54410  jp          01F54416
01F54412  adc         eax,0FFFFFFFFh
01F54415  ret             
01F54416  xor         eax,eax
01F54418  ret             

When the JIT compiles an f2i bytecode, it emits a call to this function. I've never written any x87 code, so I'm going to have to make this up as I go. Let's look at each individual instruction:

01F543F0  ftst 

No idea what the purpose of this is.

01F543F2  fldcw       word ptr ds:[1F5FB30h] 

Presumably this is used to mask the invalid-arithmetic-operand exception (#IA) that is generated by FISTP when it encounters a value that cannot be represented as a 32 bit integer.

01F543F8 push eax 

Make room on the stack for the integer.

01F543F9 fistp dword ptr [esp] 

Convert value on the floating stack to integer and store on the regular stack in slot we just created.

01F543FC fldcw word ptr ds:[1F5FB34h] 

Restore the FPU control word to its normal Java setting.

01F54402 pop eax 

Load the integer we just created into EAX.

01F54403 cmp eax,80000000h

Is it the integer indefinite value? When the #IA exception is masked FISTP returns the integer indefinite value for floats that cannot be represented as a 32 bit integer.

01F54408 je 01F5440B 

If it was the integer indefinite value, continue executing at 01F5440B.

01F5440A ret 

If not, return.

01F5440B push eax 

Save the integer indefinite value.

01F5440C fnstsw ax 

Load the FPU status flags in AX.

01F5440E sahf 

Load AH into the CPU status flags.

01F5440F pop eax 

Recover the integer indefinite value.

01F54410 jp 01F54416 

If the parity flag is set, the original float was a NaN, so we jump to the code that clears EAX and returns.

01F54412 adc eax,0FFFFFFFFh 

If the carry flag is set, leave EAX unchanged (i.e. add zero) otherwise add -1. This is a clever way of turning 0x80000000 into either 0x80000000 or 0x7FFFFFFF.

01F54415 ret 

Return to the caller.

01F54416 xor eax,eax 
01F54418 ret

Set EAX to zero and return to the caller.

After analyzing this code, it's kind of surprising that the "exceptional" case (when the float lies outside of the representable range) is so much slower.

Conclusion: As usual there is no conclusion, but hopefully we learned something today ;-)


11:56:00 AM    Comments

Saturday, February 15, 2003
This weblog has moved to http://weblog.ikvm.net/

Zoltan has been working on running the Mauve testsuite on IKVM.NET running on Mono  and I've been doing the same on MS .NET.

Current status on MS .NET: 298 of 7338 tests failed
Current status on Mono: 143 of 3996 tests failed

Thanks to Mark for getting me started with Mauve and thanks to Zoltan for his excellent work on getting ikvm running on Mono.


7:10:50 PM    Comments

Wednesday, February 12, 2003
This weblog has moved to http://weblog.ikvm.net/

In the comments of the previous item John asked for specific instructions to get Eclipse running.

  1. Download the most recent IKVM binaries (I just updated them).
  2. Download Eclipse. I use build M3.
  3. Unzip both zip files. Here I will assume that both are unzipped in the root of C: (the ikvm zip creates an ikvm directory and all the Eclipse files end up in an eclipse directory)
  4. Download eclipse.bat, save it in the eclipse directory.
  5. Open a Command Prompt window and cd into the eclipse directory and run eclipse.bat

This should do the trick. If you have any problems, please let me know.

 


6:19:47 PM    Comments
This weblog has moved to http://weblog.ikvm.net/

I came across a class file that was the equivalent of the following source:

class Test
{
    public static final int FOO = 1;

    static {
        FOO = 1;
    }
}

This isn't legal Java, but the class file equivalent is. The FOO field has a ConstValue attribute with the value 1 and then there is code in the static initializer to set the value again. The code in the static initializer isn't needed and the Java compilers I've seen so far don't emit it.

Anyway, IKVM handles assignments to (non-blank) final fields by just ignoring the assignment, but my code generator emitted a nop instruction, instead of a pop (because it should consume the value on the stack). Fixed.

GNU Classpath is about to release version 0.05, so I got their code from cvs and updated my native methods to work with the latest code (the only changes required were for Object[In][Out]putStream, because Mark cleaned those up to use less native code, a nice improvement!). There was still one remaining issue with compiling the classpath code with ikvmc, I had to comment out a line of code in java/nio/charset/Charset.java:

  public final ByteBuffer encode (String str)
  {
    return encode (CharBuffer.wrap (str));
  }

CharBuffer.wrap takes an CharSequence as its argument, but my java.lang.String doesn't implement CharSequence (yet). It occurred to me that since it is legal for any reference type to be passed where an interface is expected (see here) this code was legal as well (even if String doesn't implement CharSequence), so I added support to the compiler to insert casts when the arguments on the stack do not match with the expected method arguments (but only for interface references).

Finally, there is still one patch required to Classpath, because new File("c://") hangs:

RCS file: /cvsroot/classpath/classpath/java/io/File.java,v
retrieving revision 1.21
diff -r1.21 File.java
334,335c334
< if (!PlatformHelper.isRootDirectory(path))
< while (PlatformHelper.endWithSeparator(path))
---
> while (!PlatformHelper.isRootDirectory(path) &&
> PlatformHelper.endWithSeparator(path))

You wouldn't expect this to be a common occurrence, but it turns out that this exact path is constructed by the code that computes the current directory, so if you use ikvm to run a Java application in the root directory of a drive it hangs (without this patch).

 


1:46:52 PM    Comments

Friday, January 17, 2003
This weblog has moved to http://weblog.ikvm.net/

Zoltan Varga wrote on the ikvm-developers list:

   After lots of hacking, I managed to get IKVM to run HelloWorld under mono. This involved lots of changes/bugfixes to IKVM, the mono runtime and the class libs. I intend to submit a big patch to the mono mailing list shortly with the changes.

Great news!

Unrelated to the above, I checked in a bunch of changes and updated the source and binary snapshots. I'll be out of the country for two weeks, so there probably won't be much activity.


10:04:28 PM    Comments

© Copyright 2003 Jeroen Frijters.
 
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