minix/lib/libc/arch/i386/math/arch_compare.c
Ben Gras c02833ced6 <timers.h> - add feature to time a code block
. also minor compile fixes for it
2011-06-06 09:04:11 +02:00

119 lines
2.6 KiB
C

#include <assert.h>
#include <minix/endpoint.h>
#include <math.h>
#include "fpu_cw.h"
#include "fpu_sw.h"
#define FPUSW_FLAG_MASK \
(FPUSW_CONDITION_C0 | FPUSW_CONDITION_C2 | FPUSW_CONDITION_C3)
#define DOUBLE_NORMAL_MIN 2.2250738585072013830902327173324e-308 /* 2^-1022 */
int fpclassify(double x)
{
/* use status word returned by fpu_xam to determine type */
switch (fpu_xam(x) & FPUSW_FLAG_MASK)
{
case FPUSW_CONDITION_C0:
return FP_NAN;
case FPUSW_CONDITION_C2:
/*
* unfortunately, fxam always operates on long doubles
* regardless of the precision setting. This means some
* subnormals are incorrectly classified as normals,
* since they can be normalized using the additional
* exponent bits available. However, if we already know
* that the number is normal as a long double, finding
* out whether it would be subnormal as a double is just
* a simple comparison.
*/
if (-DOUBLE_NORMAL_MIN < x && x < DOUBLE_NORMAL_MIN)
return FP_SUBNORMAL;
else
return FP_NORMAL;
case FPUSW_CONDITION_C0 | FPUSW_CONDITION_C2:
return FP_INFINITE;
case FPUSW_CONDITION_C3:
return FP_ZERO;
case FPUSW_CONDITION_C3 | FPUSW_CONDITION_C2:
return FP_SUBNORMAL;
}
/* we don't expect any other case: unsupported, emtpy or reserved */
assert(0);
return -1;
}
int signbit(double x)
{
u16_t sw;
/* examine and use status word to determine sign */
sw = fpu_xam(x);
return (sw & FPUSW_CONDITION_C1) ? 1 : 0;
}
#define FPUSW_GREATER 0
#define FPUSW_LESS FPUSW_CONDITION_C0
#define FPUSW_EQUAL FPUSW_CONDITION_C3
#define FPUSW_UNORDERED \
(FPUSW_CONDITION_C0 | FPUSW_CONDITION_C2 | FPUSW_CONDITION_C3)
static int fpcompare(double x, double y, u16_t sw1, u16_t sw2)
{
u16_t sw;
/* compare and check sanity */
sw = fpu_compare(x, y) & FPUSW_FLAG_MASK;
switch (sw)
{
case FPUSW_GREATER:
case FPUSW_LESS:
case FPUSW_EQUAL:
case FPUSW_UNORDERED:
break;
default:
/* other values are not possible (see IA32 Dev Man) */
assert(0);
return -1;
}
/* test whether FPUSW equals either sw1 or sw2 */
return sw == sw1 || sw == sw2;
}
int isgreater(double x, double y)
{
return fpcompare(x, y, FPUSW_GREATER, -1);
}
int isgreaterequal(double x, double y)
{
return fpcompare(x, y, FPUSW_GREATER, FPUSW_EQUAL);
}
int isless(double x, double y)
{
return fpcompare(x, y, FPUSW_LESS, -1);
}
int islessequal(double x, double y)
{
return fpcompare(x, y, FPUSW_LESS, FPUSW_EQUAL);
}
int islessgreater(double x, double y)
{
return fpcompare(x, y, FPUSW_LESS, FPUSW_GREATER);
}
int isunordered(double x, double y)
{
return fpcompare(x, y, FPUSW_UNORDERED, -1);
}