|Version 4 (modified by p_tanski, 10 years ago) (diff)|
Cmm: Implementing Exception Handling
The IEEE 754 specification for floating point numbers defines exceptions for certain floating point operations, including:
- range violation (overflow, underflow);
- rounding errors (inexact);
- invalid operation (invalid operand, such as comparison with a NaN value, the square root of a negative number or division of zero by zero); and,
- zero divide (a special case of an invalid operation).
Many architectures support floating point exceptions by including a special register as an addition to other exception handling registers. The IBM PPC includes the FPSCR ("Floating Point Status Control Register"); the Intel x86 processors use the MXCSR register. When the PPC performs a floating point operation it checks for possible errors and sets the FPSCR. Some processors allow a flag in the Foating-Point Unit (FPU) status and control register to be set that will disable some exceptions or the entire FPU exception handling facility. Some processors disable the FPU after an exception has occurred while others, notably Intel's x86 and x87 processors, continue to perform FPU operations. Depending on whether quiet NaNs (QNaNs) or signaling NaNs (SNaNs) are used by the software, an FPU exception may signal an interrupt for the software to pass to its own exception handler.
Some higher level languages provide facilities to handle these exceptions, including Ada, Fortran (F90 and later), C++ and C (C99, fenv.h, float.h on certain compilers); others may handle such exceptions without exposing a low-level interface. There are three reasons to handle FPU exceptions, and these reasons apply similarly to other exceptions:
- the facilities provide greater control;
- the facilities are efficient--more efficient than a higher-level software solution; and,
- FPU exceptions may be unavoidable, especially if several FPU operations are serially performed at the machine level so the higher level software has no opportunity to check the results in between operations.
There is at least one problem in GHC that requires FPU exception handling. See bug ticket #1042. The bug occurs in 'show'ing the number (conversion from base_2 to base_10). Note that the FPU exception does not occur on PowerPC machines.
[Note: placeholder until I can track down the original message --PT]
The following code will fail to produce a floating point exception or NaN on x86 machines (recall that 0.0/0.0 is NaN and a definite FPU exception):
[in GHCi-6.6 on PowerPC, OS X]:
Prelude> 0.0/0.0 NaN Prelude> realToFrac (0.0/0.0) :: Double Infinity Prelude> realToFrac (0.0/0.0 :: Float) 5.104235503814077e38 Prelude> realToFrac (0.0/0.0 :: Float) :: Double 5.104235503814077e38 Prelude> realToFrac (1.0/0.0) Infinity Prelude> realToFrac (1.0/0.0 :: Float) 3.402823669209385e38
This bug is not due to the lack of FPU exceptions in Cmm but bears mention as the internal conversion performed in 'realToFrac' on 'Float's and might benefit from FPU exceptions.