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sim: Add partial support for IEEE 754-2008

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2022-02-01  Faraz Shahbazker  <fshahbazker@wavecomp.com>

sim/common/ChangeLog:
	* sim-fpu.c (sim_fpu_minmax_nan): New.
	(sim_fpu_max): Add variant behaviour for IEEE 754-2008.
	(sim_fpu_min): Likewise.
	(sim_fpu_is_un, sim_fpu_is_or): New.
	(sim_fpu_un, sim_fpu_or): New.
	(sim_fpu_is_ieee754_2008, sim_fpu_is_ieee754_1985): New.
	(sim_fpu_set_mode): New.
	(sim_fpu_classify): New.
	* sim-fpu.h (sim_fpu_minmax_nan): New declaration.
	(sim_fpu_un, sim_fpu_or): New declarations.
	(sim_fpu_is_un, sim_fpu_is_or): New declarations.
	(sim_fpu_mode): New enum.
	[sim_fpu_state](current_mode): New field.
	(sim_fpu_current_mode): New define.
	(sim_fpu_is_ieee754_2008): New declaration.
	(sim_fpu_is_ieee754_1985): New declaration.
	(sim_fpu_set_mode): New declaration.
	(sim_fpu_classify): New declaration.
This commit is contained in:
Faraz Shahbazker
2022-02-02 11:17:24 +01:00
committed by Mike Frysinger
parent b6af5f3a74
commit fc3c199fac
2 changed files with 131 additions and 5 deletions
Download Patch File Download Diff File Expand all files Collapse all files

110
sim/common/sim-fpu.c
View File

@ -1005,6 +1005,30 @@ sim_fpu_op_nan (sim_fpu *f, const sim_fpu *l, const sim_fpu *r)
return 0; return 0;
} }
/* NaN handling specific to min/max operations. */
INLINE_SIM_FPU (int)
sim_fpu_minmax_nan (sim_fpu *f, const sim_fpu *l, const sim_fpu *r)
{
if (sim_fpu_is_snan (l)
|| sim_fpu_is_snan (r)
|| sim_fpu_is_ieee754_1985 ())
return sim_fpu_op_nan (f, l, r);
else
/* if sim_fpu_is_ieee754_2008()
&& ((sim_fpu_is_qnan (l) || sim_fpu_is_qnan (r))) */
{
/* In IEEE754-2008:
"minNum/maxNum is ... the canonicalized number if one
operand is a number and the other a quiet NaN." */
if (sim_fpu_is_qnan (l))
*f = *r;
else /* if (sim_fpu_is_qnan (r)) */
*f = *l;
return 0;
}
}
/* Arithmetic ops */ /* Arithmetic ops */
INLINE_SIM_FPU (int) INLINE_SIM_FPU (int)
@ -1553,7 +1577,7 @@ sim_fpu_max (sim_fpu *f,
const sim_fpu *r) const sim_fpu *r)
{ {
if (sim_fpu_is_nan (l) || sim_fpu_is_nan (r)) if (sim_fpu_is_nan (l) || sim_fpu_is_nan (r))
return sim_fpu_op_nan (f, l, r); return sim_fpu_minmax_nan (f, l, r);
if (sim_fpu_is_infinity (l)) if (sim_fpu_is_infinity (l))
{ {
if (sim_fpu_is_infinity (r) if (sim_fpu_is_infinity (r)
@ -1616,7 +1640,7 @@ sim_fpu_min (sim_fpu *f,
const sim_fpu *r) const sim_fpu *r)
{ {
if (sim_fpu_is_nan (l) || sim_fpu_is_nan (r)) if (sim_fpu_is_nan (l) || sim_fpu_is_nan (r))
return sim_fpu_op_nan (f, l, r); return sim_fpu_minmax_nan (f, l, r);
if (sim_fpu_is_infinity (l)) if (sim_fpu_is_infinity (l))
{ {
if (sim_fpu_is_infinity (r) if (sim_fpu_is_infinity (r)
@ -1677,7 +1701,7 @@ INLINE_SIM_FPU (int)
sim_fpu_neg (sim_fpu *f, sim_fpu_neg (sim_fpu *f,
const sim_fpu *r) const sim_fpu *r)
{ {
if (sim_fpu_is_snan (r)) if (sim_fpu_is_ieee754_1985 () && sim_fpu_is_snan (r))
{ {
*f = *r; *f = *r;
f->class = sim_fpu_class_qnan; f->class = sim_fpu_class_qnan;
@ -1700,7 +1724,7 @@ sim_fpu_abs (sim_fpu *f,
{ {
*f = *r; *f = *r;
f->sign = 0; f->sign = 0;
if (sim_fpu_is_snan (r)) if (sim_fpu_is_ieee754_1985 () && sim_fpu_is_snan (r))
{ {
f->class = sim_fpu_class_qnan; f->class = sim_fpu_class_qnan;
return sim_fpu_status_invalid_snan; return sim_fpu_status_invalid_snan;
@ -2255,6 +2279,21 @@ sim_fpu_is_gt (const sim_fpu *l, const sim_fpu *r)
return is; return is;
} }
INLINE_SIM_FPU (int)
sim_fpu_is_un (const sim_fpu *l, const sim_fpu *r)
{
int is;
sim_fpu_un (&is, l, r);
return is;
}
INLINE_SIM_FPU (int)
sim_fpu_is_or (const sim_fpu *l, const sim_fpu *r)
{
int is;
sim_fpu_or (&is, l, r);
return is;
}
/* Compare operators */ /* Compare operators */
@ -2378,12 +2417,57 @@ sim_fpu_gt (int *is,
return sim_fpu_lt (is, r, l); return sim_fpu_lt (is, r, l);
} }
INLINE_SIM_FPU (int)
sim_fpu_un (int *is, const sim_fpu *l, const sim_fpu *r)
{
if (sim_fpu_is_nan (l) || sim_fpu_is_nan (r))
{
*is = 1;
return 0;
}
*is = 0;
return 0;
}
INLINE_SIM_FPU (int)
sim_fpu_or (int *is, const sim_fpu *l, const sim_fpu *r)
{
sim_fpu_un (is, l, r);
/* Invert result. */
*is = !*is;
return 0;
}
INLINE_SIM_FPU(int)
sim_fpu_classify (const sim_fpu *f)
{
switch (f->class)
{
case sim_fpu_class_snan: return SIM_FPU_IS_SNAN;
case sim_fpu_class_qnan: return SIM_FPU_IS_QNAN;
case sim_fpu_class_infinity:
return f->sign ? SIM_FPU_IS_NINF : SIM_FPU_IS_PINF;
case sim_fpu_class_zero:
return f->sign ? SIM_FPU_IS_NZERO : SIM_FPU_IS_PZERO;
case sim_fpu_class_number:
return f->sign ? SIM_FPU_IS_NNUMBER : SIM_FPU_IS_PNUMBER;
case sim_fpu_class_denorm:
return f->sign ? SIM_FPU_IS_NDENORM : SIM_FPU_IS_PDENORM;
default:
fprintf (stderr, "Bad switch\n");
abort ();
}
return 0;
}
/* A number of useful constants */ /* A number of useful constants */
#if EXTERN_SIM_FPU_P #if EXTERN_SIM_FPU_P
sim_fpu_state _sim_fpu = { sim_fpu_state _sim_fpu = {
.quiet_nan_inverted = false, .quiet_nan_inverted = false,
.current_mode = sim_fpu_ieee754_1985,
}; };
const sim_fpu sim_fpu_zero = { const sim_fpu sim_fpu_zero = {
@ -2406,6 +2490,24 @@ const sim_fpu sim_fpu_max64 = {
}; };
#endif #endif
/* Specification swapping behaviour */
INLINE_SIM_FPU (bool)
sim_fpu_is_ieee754_1985 (void)
{
return (sim_fpu_current_mode == sim_fpu_ieee754_1985);
}
INLINE_SIM_FPU (bool)
sim_fpu_is_ieee754_2008 (void)
{
return (sim_fpu_current_mode == sim_fpu_ieee754_2008);
}
INLINE_SIM_FPU (void)
sim_fpu_set_mode (const sim_fpu_mode m)
{
sim_fpu_current_mode = m;
}
/* For debugging */ /* For debugging */

26
sim/common/sim-fpu.h
View File

@ -163,8 +163,15 @@ typedef enum
FIXME: This state is global, but should be moved to SIM_CPU. */ FIXME: This state is global, but should be moved to SIM_CPU. */
typedef enum
{
sim_fpu_ieee754_1985,
sim_fpu_ieee754_2008,
} sim_fpu_mode;
typedef struct _sim_fpu_state { typedef struct _sim_fpu_state {
bool quiet_nan_inverted; /* Toggle quiet NaN semantics. */ bool quiet_nan_inverted; /* Toggle quiet NaN semantics. */
sim_fpu_mode current_mode;
} sim_fpu_state; } sim_fpu_state;
@ -268,6 +275,8 @@ INLINE_SIM_FPU (int) sim_fpu_sqrt (sim_fpu *f,
INLINE_SIM_FPU (int) sim_fpu_op_nan (sim_fpu *f, INLINE_SIM_FPU (int) sim_fpu_op_nan (sim_fpu *f,
const sim_fpu *l, const sim_fpu *r); const sim_fpu *l, const sim_fpu *r);
INLINE_SIM_FPU (int) sim_fpu_minmax_nan (sim_fpu *f,
const sim_fpu *l, const sim_fpu *r);
@ -318,7 +327,8 @@ INLINE_SIM_FPU (double) sim_fpu_2d (const sim_fpu *d);
/* INLINE_SIM_FPU (void) sim_fpu_f2 (sim_fpu *f, float s); */ /* INLINE_SIM_FPU (void) sim_fpu_f2 (sim_fpu *f, float s); */
INLINE_SIM_FPU (void) sim_fpu_d2 (sim_fpu *f, double d); INLINE_SIM_FPU (void) sim_fpu_d2 (sim_fpu *f, double d);
/* IEEE754-2008 classifiction function. */
INLINE_SIM_FPU (int) sim_fpu_classify (const sim_fpu *f);
/* Specific number classes. /* Specific number classes.
@ -367,7 +377,20 @@ INLINE_SIM_FPU (int) sim_fpu_is_ne (const sim_fpu *l, const sim_fpu *r);
INLINE_SIM_FPU (int) sim_fpu_is_ge (const sim_fpu *l, const sim_fpu *r); INLINE_SIM_FPU (int) sim_fpu_is_ge (const sim_fpu *l, const sim_fpu *r);
INLINE_SIM_FPU (int) sim_fpu_is_gt (const sim_fpu *l, const sim_fpu *r); INLINE_SIM_FPU (int) sim_fpu_is_gt (const sim_fpu *l, const sim_fpu *r);
/* Unordered/ordered comparison operators. */
INLINE_SIM_FPU (int) sim_fpu_un (int *is, const sim_fpu *l, const sim_fpu *r);
INLINE_SIM_FPU (int) sim_fpu_or (int *is, const sim_fpu *l, const sim_fpu *r);
INLINE_SIM_FPU (int) sim_fpu_is_un (const sim_fpu *l, const sim_fpu *r);
INLINE_SIM_FPU (int) sim_fpu_is_or (const sim_fpu *l, const sim_fpu *r);
/* Changes the behaviour of the library to IEEE754-2008 or IEEE754-1985.
The default for the library is IEEE754-1985. */
INLINE_SIM_FPU (bool) sim_fpu_is_ieee754_1985 (void);
INLINE_SIM_FPU (bool) sim_fpu_is_ieee754_2008 (void);
INLINE_SIM_FPU (void) sim_fpu_set_mode (const sim_fpu_mode m);
/* General number class and comparison operators. /* General number class and comparison operators.
@ -411,6 +434,7 @@ extern sim_fpu_state _sim_fpu;
between pre-R6 and R6 MIPS cores. */ between pre-R6 and R6 MIPS cores. */
#define sim_fpu_quiet_nan_inverted _sim_fpu.quiet_nan_inverted #define sim_fpu_quiet_nan_inverted _sim_fpu.quiet_nan_inverted
#define sim_fpu_current_mode _sim_fpu.current_mode
/* A number of useful constants. */ /* A number of useful constants. */