CGAL 4.8.2  Number Types

#include <CGAL/FPU.h>
The class Protect_FPU_rounding
allows to reduce the number of rounding mode changes when evaluating sequences of interval arithmetic operations.
Floatingpoint arithmetic, as specified by the IEEE754 standard, allows to use socalled directed rounding for the following arithmetic operations: addition, subtraction, multiplication, division and square root. The default behavior is that the result of such an arithmetic operation is the closest floatingpoint number to the exact real result of the operation (rounding to the nearest). The other rounding modes are: round towards plus infinity, round towards minus infinity, and round towards zero.
Interval arithmetic uses such directed rounding modes to offer guaranteed enclosures for the evaluation of real functions, such as with CGAL's Interval_nt
class.
In order to efficiently evaluate sequences of interval arithmetic operations, such as a geometric predicate computing for example a determinant, it is advised to reduce the number of rounding mode changes, which otherwise are performed for each arithmetic operation. CGAL exploits the fact that it is possible to compute a sequence of interval arithmetic operations by doing only one rounding mode change around the whole function evaluation in order to benefit from this optimization.
The class Protect_FPU_rounding
allows to easily benefit from this. Its constructor saves the current rounding mode in the object, and then sets the current rounding mode to the value provided as argument to the constructor. The destructor sets the rounding mode back to the saved value. This allows to protect a block of code determined by a C++ scope, and have the destructor take care of restoring the value automatically.
The related class Set_ieee_double_precision
allows to similarly protect a block of code from excess precision on some machines (x86 typically with the traditional FPU, not the more recent SSE2). Note that Protect_FPU_rounding
, when changing rounding modes, also sets the precision to the correct 64 bit precision, hence providing a similar effect to Set_ieee_double_precision
. This notably affects the Residue
class.
Note for Visual C++ 64bit users: due to a compiler bug, the stack unwinding process happenning when an exception is thrown does not correctly execute the rounding mode restoration when the Protect_FPU_rounding
object is destroyed. Therefore, for this configuration, some explicit code has to be added.
Parameters
The template parameter Protected
is a Boolean parameter, which defaults to true
. It follows the same parameter of the Interval_nt
class. When it is false
, the constructor and the destructor of the class do nothing (this is meant to be used in a context where you know that the rounding mode change has been taken care of at a higher level in the call stack.
What follows describes the behavior when the parameter has its default value, true
.
CGAL::Set_ieee_double_precision
Creation  
Protect_FPU_rounding (FPU_CW_t r=CGAL_FE_UPWARD)  
The current rounding mode is saved in the object, and rounding mode is set to r which can be any of CGAL_FE_TONEAREST , CGAL_FE_TOWARDZERO , CGAL_FE_UPWARD (the default) and CGAL_FE_DOWNWARD .  
~Protect_FPU_rounding ()  
The rounding mode is restored to the saved value.  