Retro68/gcc/newlib/libm/machine/spu/headers/recipf4.h
2012-03-27 01:51:53 +02:00

143 lines
6.3 KiB
C

/* -------------------------------------------------------------- */
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/* PROLOG END TAG zYx */
#ifdef __SPU__
#ifndef _RECIPF4_H_
#define _RECIPF4_H_ 1
#include <spu_intrinsics.h>
/*
* FUNCTION
* vector float _recipf4(vector float value)
*
* DESCRIPTION
* The _recipf4 function inverts the vector "value" and returns the
* result.
*
*/
static __inline vector float _recipf4(vector float a)
{
/* This function has been designed to provide a
* full function operation that presisely computes
* the reciprocal for the entire range of extended
* single precision input <a>. This includes:
*
* 1) Computing the reciprocal to full single precision
* floating point accuracy.
* 2) Round the result consistently with the rounding
* mode of the processor - truncated toward zero.
* 3) Underflow and overflow results are clamped to
* Smin and Smax and flagged with the appropriate
* UNF or OVF exception in the FPSCR.
* 4) Divide By Zero (DBZ) exception is produced when
* the input <a> has a zero exponent. A reciprocal
* of correctly signed Smax is produced.
* 5) Resulting denorm reciprocal will be coerced to +0.
* 6) If a non-compliant IEEE result is produced, the
* a DIFF exception is generated.
*/
vector float err, x0, x1;
vector float mult;
vector float mant_a;
vector float one = spu_splats(1.0f);
vector unsigned int exp, exp_a;
vector unsigned int exp_mask = (vec_uint4)spu_splats(0x7F800000);
/* If a has a zero exponent, then set the divide by zero
* (DBZ) exception flag. The estimate result is discarded.
*/
(void)si_frest((qword)(a));
/* For computing the reciprocal, force the value
* into the range (1.0 <= 0 < 2.0).
*/
mant_a = spu_sel(a, one, exp_mask);
/* Compute the reciprocal using the reciprocal estimate
* followed by one iteration of the Newton-Raphson.
* Due to truncation error, the quotient result may be low
* by 1 ulp (unit of least position). Conditionally add one
* if the estimate is too small.
*/
x0 = spu_re(mant_a);
x0 = spu_madd(spu_nmsub(mant_a, x0, one), x0, x0);
x1 = (vector float)(spu_add((vector unsigned int)(x0), 1));
err = spu_nmsub(mant_a, x1, one);
x1 = spu_sel(x0, x1, spu_cmpgt((vector signed int)(err), -1));
/* Compute the reciprocal's expected exponent. If the exponent
* is out of range, then force the resulting exponent to 0.
* (127 with the bias). We correct for the out of range
* values by computing a multiplier (mult) that will force the
* result to the correct out of range value and set the
* correct exception flag (UNF, OVF, or neither). The multiplier
* is also conditioned to generate correctly signed Smax if the
* inoput <a> is a denorm or zero.
*/
exp_a = spu_and((vector unsigned int)a, exp_mask);
exp = spu_add(spu_sub(spu_splats((unsigned int)0x7F000000), exp_a), spu_cmpabsgt(mant_a, one));
/* The default multiplier is 1.0. If an underflow is detected (ie,
* either the dividend <a> is a denorm/zero, or the computed exponent is
* less than or equal to a biased 0), force the multiplier to 0.0.
*/
mult = spu_and(one, (vector float)spu_cmpgt((vector signed int)(exp), 0));
/* Force the multiplier to positive Smax (0x7FFFFFFF) and the biased exponent
* to 127, if the divisor is denorm/zero or the computed biased exponent is
* greater than 255.
*/
mult = spu_or(mult, (vector float)spu_rlmask(spu_cmpeq(exp_a, 0), -1));
/* Insert the exponent into the result and perform the
* final multiplication.
*/
x1 = spu_sel(x1, (vector float)exp, exp_mask);
x1 = spu_mul(x1, mult);
return (x1);
}
#endif /* _RECIPF4_H_ */
#endif /* __SPU__ */