[Haskell-cafe] Possible floating point bug in GHC?
divisortheory at gmail.com
Fri Apr 3 15:54:44 EDT 2009
What floating point model is your DLL compiled with? There are a variety of
different options here with regards to optimizations, and I don't know about
the specific assembly that each option produces, but I know there are
options like Strict, Fast, or Precise, and maybe when you do something like
that it makes different assumptions about the caller. Although that doesn't
say anything about whose "fault" it is, but at least it might be helpful to
know if changing the floating point model causes the bug to go away.
On Fri, Apr 3, 2009 at 2:31 PM, Peter Verswyvelen <bugfact at gmail.com> wrote:
> Well this situation can indeed not occur on PowerPCs since these CPUs just
> have floating point registers, not some weird dual stack sometimes /
> registers sometimes architecture.
> But in my case the bug is consistent, not from time to time.
> So I'll try to reduce this to a small reproducible test case, maybe
> including the assembly generated by the VC++ compiler.
> On Fri, Apr 3, 2009 at 9:02 PM, Malcolm Wallace <
> Malcolm.Wallace at cs.york.ac.uk> wrote:
>> Interesting. This could be the cause of a weird floating point bug that
>> has been showing up in the ghc testsuite recently, specifically affecting
>> MacOS/Intel (but not MacOS/ppc).
>> That test compares the result of the builtin floating point ops with the
>> same ops imported via FFI. The should not be different, but on Intel they
>> sometimes are.
>> On 3 Apr 2009, at 18:58, Peter Verswyvelen wrote:
>> For days I'm fighting against a weird bug.
>>> My Haskell code calls into a C function residing in a DLL (I'm on
>>> Windows, the DLL is generated using Visual Studio). This C function computes
>>> a floating point expression. However, the floating point result is
>>> I think I found the source of the problem: the C code expects that all
>>> the Intel's x86's floating point register tag bits are set to 1, but it
>>> seems the Haskell code does not preserve that.
>>> Since the x86 has all kinds of floating point weirdness - it is both a
>>> stack based and register based system - so it is crucially important that
>>> generated code plays nice. For example, when using MMX one must always emit
>>> an EMMS instruction to clear these tag bits.
>>> If I manually clear these tags bits, my code works fine.
>>> Is this something other people encountered as well? I'm trying to make a
>>> very simple test case to reproduce the behavior...
>>> I'm not sure if this is a visual C compiler bug, GHC bug, or something
>>> I'm doing wrong...
>>> Is it possible to annotate a foreign imported C function to tell the
>>> Haskell code generator the functioin is using floating point registers
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