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- .TH GETFCR 2
- .SH NAME
- getfcr, setfcr, getfsr, setfsr \- control floating point
- .SH SYNOPSIS
- .B #include <u.h>
- .br
- .B #include <libc.h>
- .PP
- .B
- ulong getfcr(void)
- .PP
- .B
- void setfcr(ulong fcr)
- .PP
- .B
- ulong getfsr(void)
- .PP
- .B
- void setfsr(ulong fsr)
- .SH DESCRIPTION
- These routines provide a fairly portable interface to control the
- rounding and exception characteristics of IEEE 754 floating point units.
- In effect, they define a pair of pseudo-registers, the floating
- point control register,
- .BR fcr ,
- which affects rounding, precision, and exceptions, and the
- floating point status register,
- .BR fsr ,
- which holds the accrued exception bits.
- Each register has a
- .I get
- routine to retrieve its value, a
- .I set
- routine to modify it,
- and macros that identify its contents.
- .PP
- The
- .B fcr
- contains bits that, when set, halt execution upon exceptions:
- .B FPINEX
- (enable inexact exceptions),
- .B FPOVFL
- (enable overflow exceptions),
- .B FPUNFL
- (enable underflow exceptions),
- .B FPZDIV
- (enable zero divide exceptions), and
- .B FPINVAL
- (enable invalid operation exceptions).
- Rounding is controlled by installing in
- .BR fcr ,
- under mask
- .BR FPRMASK ,
- one of the values
- .B FPRNR
- (round to nearest),
- .B FPRZ
- (round towards zero),
- .B FPRPINF
- (round towards positive infinity), and
- .B FPRNINF
- (round towards negative infinity).
- Precision is controlled by installing in
- .BR fcr ,
- under mask
- .BR FPPMASK ,
- one of the values
- .B FPPEXT
- (extended precision),
- .B FPPSGL
- (single precision), and
- .B FPPDBL
- (double precision).
- .PP
- The
- .B fsr
- holds the accrued exception bits
- .BR FPAINEX ,
- .BR FPAOVFL ,
- .BR FPAUNFL ,
- .BR FPAZDIV ,
- and
- .BR FPAINVAL ,
- corresponding to the
- .B fsr
- bits without the
- .B A
- in the name.
- .PP
- Not all machines support all modes. If the corresponding mask
- is zero, the machine does not support the rounding or precision modes.
- On some machines it is not possible to clear selective accrued
- exception bits; a
- .I setfsr
- clears them all.
- The exception bits defined here work on all architectures.
- By default, the initial state is equivalent to
- .IP
- .EX
- setfcr(FPPDBL|FPRNR|FPINVAL|FPZDIV|FPOVFL);
- .EE
- .PP
- The default state of the floating point unit is fixed for a given
- architecture but is undefined across Plan 9: the default is
- to provide what the hardware does most efficiently.
- Use these routines
- if you need guaranteed behavior.
- Also, gradual underflow is not available on some machines.
- .SH EXAMPLE
- To enable overflow traps and make sure registers are rounded
- to double precision (for example on the MC68020, where the
- internal registers are 80 bits long):
- .EX
- .IP
- .ft L
- ulong fcr;
- fcr = getfcr();
- fcr |= FPOVFL;
- fcr &= ~FPPMASK;
- fcr |= FPPDBL;
- setfcr(fcr);
- .ft
- .EE
- .SH SOURCE
- .B /sys/src/libc/$objtype/getfcr.s
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