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-rw-r--r--sim/common/ChangeLog4
-rw-r--r--sim/common/sim-fpu.c134
2 files changed, 71 insertions, 67 deletions
diff --git a/sim/common/ChangeLog b/sim/common/ChangeLog
index 334a2a7..fe25803 100644
--- a/sim/common/ChangeLog
+++ b/sim/common/ChangeLog
@@ -1,5 +1,9 @@
2016-01-17 Joel Brobecker <brobecker@adacore.com>
+ * sim-fpu.c: Minor comment fixes throughout.
+
+2016-01-17 Joel Brobecker <brobecker@adacore.com>
+
* sim-fpu.c (print_bits): Minor reformatting (no code change).
(sim_fpu_map): Likewise.
diff --git a/sim/common/sim-fpu.c b/sim/common/sim-fpu.c
index 37383ec..801fbd0 100644
--- a/sim/common/sim-fpu.c
+++ b/sim/common/sim-fpu.c
@@ -73,7 +73,7 @@ print_bits (unsigned64 x,
-/* Quick and dirty conversion between a host double and host 64bit int */
+/* Quick and dirty conversion between a host double and host 64bit int. */
typedef union
{
@@ -175,7 +175,7 @@ typedef union
#define MAX_UINT (is_64bit ? MAX_UINT64 : MAX_UINT32)
#define NR_INTBITS (is_64bit ? 64 : 32)
-/* Squeese an unpacked sim_fpu struct into a 32/64 bit integer */
+/* Squeeze an unpacked sim_fpu struct into a 32/64 bit integer. */
STATIC_INLINE_SIM_FPU (unsigned64)
pack_fpu (const sim_fpu *src,
int is_double)
@@ -187,11 +187,11 @@ pack_fpu (const sim_fpu *src,
switch (src->class)
{
- /* create a NaN */
+ /* Create a NaN. */
case sim_fpu_class_qnan:
sign = src->sign;
exp = EXPMAX;
- /* force fraction to correct class */
+ /* Force fraction to correct class. */
fraction = src->fraction;
fraction >>= NR_GUARDS;
#ifdef SIM_QUIET_NAN_NEGATED
@@ -203,7 +203,7 @@ pack_fpu (const sim_fpu *src,
case sim_fpu_class_snan:
sign = src->sign;
exp = EXPMAX;
- /* force fraction to correct class */
+ /* Force fraction to correct class. */
fraction = src->fraction;
fraction >>= NR_GUARDS;
#ifdef SIM_QUIET_NAN_NEGATED
@@ -235,7 +235,7 @@ pack_fpu (const sim_fpu *src,
int nr_shift = NORMAL_EXPMIN - src->normal_exp;
if (nr_shift > NR_FRACBITS)
{
- /* underflow, just make the number zero */
+ /* Underflow, just make the number zero. */
sign = src->sign;
exp = 0;
fraction = 0;
@@ -244,7 +244,7 @@ pack_fpu (const sim_fpu *src,
{
sign = src->sign;
exp = 0;
- /* Shift by the value */
+ /* Shift by the value. */
fraction = src->fraction;
fraction >>= NR_GUARDS;
fraction >>= nr_shift;
@@ -263,7 +263,7 @@ pack_fpu (const sim_fpu *src,
sign = src->sign;
fraction = src->fraction;
/* FIXME: Need to round according to WITH_SIM_FPU_ROUNDING
- or some such */
+ or some such. */
/* Round to nearest: If the guard bits are the all zero, but
the first, then we're half way between two numbers,
choose the one which makes the lsb of the answer 0. */
@@ -274,17 +274,17 @@ pack_fpu (const sim_fpu *src,
}
else
{
- /* Add a one to the guards to force round to nearest */
+ /* Add a one to the guards to force round to nearest. */
fraction += GUARDROUND;
}
- if ((fraction & IMPLICIT_2)) /* rounding resulted in carry */
+ if ((fraction & IMPLICIT_2)) /* Rounding resulted in carry. */
{
exp += 1;
fraction >>= 1;
}
fraction >>= NR_GUARDS;
/* When exp == EXPMAX (overflow from carry) fraction must
- have been made zero */
+ have been made zero. */
ASSERT ((exp == EXPMAX) <= ((fraction & ~IMPLICIT_1) == 0));
}
break;
@@ -296,7 +296,7 @@ pack_fpu (const sim_fpu *src,
| (exp << NR_FRACBITS)
| LSMASKED64 (fraction, NR_FRACBITS - 1, 0));
- /* trace operation */
+ /* Trace operation. */
#if 0
if (is_double)
{
@@ -315,7 +315,7 @@ pack_fpu (const sim_fpu *src,
}
-/* Unpack a 32/64 bit integer into a sim_fpu structure */
+/* Unpack a 32/64 bit integer into a sim_fpu structure. */
STATIC_INLINE_SIM_FPU (void)
unpack_fpu (sim_fpu *dst, unsigned64 packed, int is_double)
{
@@ -328,7 +328,7 @@ unpack_fpu (sim_fpu *dst, unsigned64 packed, int is_double)
/* Hmm. Looks like 0 */
if (fraction == 0)
{
- /* tastes like zero */
+ /* Tastes like zero. */
dst->class = sim_fpu_class_zero;
dst->sign = sign;
dst->normal_exp = 0;
@@ -355,7 +355,7 @@ unpack_fpu (sim_fpu *dst, unsigned64 packed, int is_double)
/* Huge exponent*/
if (fraction == 0)
{
- /* Attached to a zero fraction - means infinity */
+ /* Attached to a zero fraction - means infinity. */
dst->class = sim_fpu_class_infinity;
dst->sign = sign;
/* dst->normal_exp = EXPBIAS; */
@@ -365,7 +365,7 @@ unpack_fpu (sim_fpu *dst, unsigned64 packed, int is_double)
{
int qnan;
- /* Non zero fraction, means NaN */
+ /* Non zero fraction, means NaN. */
dst->sign = sign;
dst->fraction = (fraction << NR_GUARDS);
#ifdef SIM_QUIET_NAN_NEGATED
@@ -381,14 +381,14 @@ unpack_fpu (sim_fpu *dst, unsigned64 packed, int is_double)
}
else
{
- /* Nothing strange about this number */
+ /* Nothing strange about this number. */
dst->class = sim_fpu_class_number;
dst->sign = sign;
dst->fraction = ((fraction << NR_GUARDS) | IMPLICIT_1);
dst->normal_exp = exp - EXPBIAS;
}
- /* trace operation */
+ /* Trace operation. */
#if 0
if (is_double)
{
@@ -420,7 +420,7 @@ unpack_fpu (sim_fpu *dst, unsigned64 packed, int is_double)
}
-/* Convert a floating point into an integer */
+/* Convert a floating point into an integer. */
STATIC_INLINE_SIM_FPU (int)
fpu2i (signed64 *i,
const sim_fpu *s,
@@ -445,13 +445,13 @@ fpu2i (signed64 *i,
*i = MIN_INT; /* FIXME */
return sim_fpu_status_invalid_cvi;
}
- /* map infinity onto MAX_INT... */
+ /* Map infinity onto MAX_INT... */
if (sim_fpu_is_infinity (s))
{
*i = s->sign ? MIN_INT : MAX_INT;
return sim_fpu_status_invalid_cvi;
}
- /* it is a number, but a small one */
+ /* It is a number, but a small one. */
if (s->normal_exp < 0)
{
*i = 0;
@@ -466,7 +466,7 @@ fpu2i (signed64 *i,
return 0; /* exact */
if (is_64bit) /* can't round */
return sim_fpu_status_invalid_cvi; /* must be overflow */
- /* For a 32bit with MAX_INT, rounding is possible */
+ /* For a 32bit with MAX_INT, rounding is possible. */
switch (round)
{
case sim_fpu_round_default:
@@ -502,7 +502,7 @@ fpu2i (signed64 *i,
*i = s->sign ? MIN_INT : MAX_INT;
return sim_fpu_status_invalid_cvi;
}
- /* normal number shift it into place */
+ /* Normal number, shift it into place. */
tmp = s->fraction;
shift = (s->normal_exp - (NR_FRAC_GUARD));
if (shift > 0)
@@ -520,7 +520,7 @@ fpu2i (signed64 *i,
return status;
}
-/* convert an integer into a floating point */
+/* Convert an integer into a floating point. */
STATIC_INLINE_SIM_FPU (int)
i2fpu (sim_fpu *f, signed64 i, int is_64bit)
{
@@ -540,7 +540,7 @@ i2fpu (sim_fpu *f, signed64 i, int is_64bit)
if (f->sign)
{
/* Special case for minint, since there is no corresponding
- +ve integer representation for it */
+ +ve integer representation for it. */
if (i == MIN_INT)
{
f->fraction = IMPLICIT_1;
@@ -593,7 +593,7 @@ i2fpu (sim_fpu *f, signed64 i, int is_64bit)
}
-/* Convert a floating point into an integer */
+/* Convert a floating point into an integer. */
STATIC_INLINE_SIM_FPU (int)
fpu2u (unsigned64 *u, const sim_fpu *s, int is_64bit)
{
@@ -610,19 +610,19 @@ fpu2u (unsigned64 *u, const sim_fpu *s, int is_64bit)
*u = 0;
return 0;
}
- /* it is a negative number */
+ /* It is a negative number. */
if (s->sign)
{
*u = 0;
return 0;
}
- /* get reasonable MAX_USI_INT... */
+ /* Get reasonable MAX_USI_INT... */
if (sim_fpu_is_infinity (s))
{
*u = MAX_UINT;
return 0;
}
- /* it is a number, but a small one */
+ /* It is a number, but a small one. */
if (s->normal_exp < 0)
{
*u = 0;
@@ -650,7 +650,7 @@ fpu2u (unsigned64 *u, const sim_fpu *s, int is_64bit)
return 0;
}
-/* Convert an unsigned integer into a floating point */
+/* Convert an unsigned integer into a floating point. */
STATIC_INLINE_SIM_FPU (int)
u2fpu (sim_fpu *f, unsigned64 u, int is_64bit)
{
@@ -739,7 +739,7 @@ sim_fpu_fractionto (sim_fpu *f,
f->class = sim_fpu_class_number;
f->sign = sign;
f->normal_exp = normal_exp;
- /* shift the fraction to where sim-fpu expects it */
+ /* Shift the fraction to where sim-fpu expects it. */
if (shift >= 0)
f->fraction = (fraction << shift);
else
@@ -752,7 +752,7 @@ INLINE_SIM_FPU (unsigned64)
sim_fpu_tofraction (const sim_fpu *d,
int precision)
{
- /* we have NR_FRAC_GUARD bits, we want only PRECISION bits */
+ /* We have NR_FRAC_GUARD bits, we want only PRECISION bits. */
int shift = (NR_FRAC_GUARD - precision);
unsigned64 fraction = (d->fraction & ~IMPLICIT_1);
if (shift >= 0)
@@ -824,7 +824,7 @@ do_normal_underflow (sim_fpu *f,
/* Round a number using NR_GUARDS.
- Will return the rounded number or F->FRACTION == 0 when underflow */
+ Will return the rounded number or F->FRACTION == 0 when underflow. */
STATIC_INLINE_SIM_FPU (int)
do_normal_round (sim_fpu *f,
@@ -866,7 +866,7 @@ do_normal_round (sim_fpu *f,
break;
}
f->fraction &= ~guardmask;
- /* round if needed, handle resulting overflow */
+ /* Round if needed, handle resulting overflow. */
if ((status & sim_fpu_status_rounded))
{
f->fraction += fraclsb;
@@ -897,7 +897,7 @@ do_round (sim_fpu *f,
return 0;
break;
case sim_fpu_class_snan:
- /* Quieten a SignalingNaN */
+ /* Quieten a SignalingNaN. */
f->class = sim_fpu_class_qnan;
return sim_fpu_status_invalid_snan;
break;
@@ -919,7 +919,7 @@ do_round (sim_fpu *f,
&& !(denorm & sim_fpu_denorm_zero))
{
status = do_normal_round (f, shift + NR_GUARDS, round);
- if (f->fraction == 0) /* rounding underflowed */
+ if (f->fraction == 0) /* Rounding underflowed. */
{
status |= do_normal_underflow (f, is_double, round);
}
@@ -931,7 +931,7 @@ do_round (sim_fpu *f,
before rounding, some after! */
if (status & sim_fpu_status_inexact)
status |= sim_fpu_status_underflow;
- /* Flag that resultant value has been denormalized */
+ /* Flag that resultant value has been denormalized. */
f->class = sim_fpu_class_denorm;
}
else if ((denorm & sim_fpu_denorm_underflow_inexact))
@@ -957,7 +957,7 @@ do_round (sim_fpu *f,
/* f->class = sim_fpu_class_zero; */
status |= do_normal_underflow (f, is_double, round);
else if (f->normal_exp > NORMAL_EXPMAX)
- /* oops! rounding caused overflow */
+ /* Oops! rounding caused overflow. */
status |= do_normal_overflow (f, is_double, round);
}
ASSERT ((f->class == sim_fpu_class_number
@@ -1056,13 +1056,13 @@ sim_fpu_add (sim_fpu *f,
/* use exp of larger */
if (shift >= NR_FRAC_GUARD)
{
- /* left has much bigger magnitute */
+ /* left has much bigger magnitude */
*f = *l;
return sim_fpu_status_inexact;
}
if (shift <= - NR_FRAC_GUARD)
{
- /* right has much bigger magnitute */
+ /* right has much bigger magnitude */
*f = *r;
return sim_fpu_status_inexact;
}
@@ -1074,7 +1074,7 @@ sim_fpu_add (sim_fpu *f,
if (rfraction & LSMASK64 (shift - 1, 0))
{
status |= sim_fpu_status_inexact;
- rfraction |= LSBIT64 (shift); /* stick LSBit */
+ rfraction |= LSBIT64 (shift); /* Stick LSBit. */
}
rfraction >>= shift;
}
@@ -1084,7 +1084,7 @@ sim_fpu_add (sim_fpu *f,
if (lfraction & LSMASK64 (- shift - 1, 0))
{
status |= sim_fpu_status_inexact;
- lfraction |= LSBIT64 (- shift); /* stick LSBit */
+ lfraction |= LSBIT64 (- shift); /* Stick LSBit. */
}
lfraction >>= -shift;
}
@@ -1093,7 +1093,7 @@ sim_fpu_add (sim_fpu *f,
f->normal_exp = r->normal_exp;
}
- /* perform the addition */
+ /* Perform the addition. */
if (l->sign)
lfraction = - lfraction;
if (r->sign)
@@ -1117,7 +1117,7 @@ sim_fpu_add (sim_fpu *f,
f->fraction = - f->fraction;
}
- /* normalize it */
+ /* Normalize it. */
if ((f->fraction & IMPLICIT_2))
{
f->fraction = (f->fraction >> 1) | (f->fraction & 1);
@@ -1209,13 +1209,13 @@ sim_fpu_sub (sim_fpu *f,
/* use exp of larger */
if (shift >= NR_FRAC_GUARD)
{
- /* left has much bigger magnitute */
+ /* left has much bigger magnitude */
*f = *l;
return sim_fpu_status_inexact;
}
if (shift <= - NR_FRAC_GUARD)
{
- /* right has much bigger magnitute */
+ /* right has much bigger magnitude */
*f = *r;
f->sign = !r->sign;
return sim_fpu_status_inexact;
@@ -1228,7 +1228,7 @@ sim_fpu_sub (sim_fpu *f,
if (rfraction & LSMASK64 (shift - 1, 0))
{
status |= sim_fpu_status_inexact;
- rfraction |= LSBIT64 (shift); /* stick LSBit */
+ rfraction |= LSBIT64 (shift); /* Stick LSBit. */
}
rfraction >>= shift;
}
@@ -1238,7 +1238,7 @@ sim_fpu_sub (sim_fpu *f,
if (lfraction & LSMASK64 (- shift - 1, 0))
{
status |= sim_fpu_status_inexact;
- lfraction |= LSBIT64 (- shift); /* stick LSBit */
+ lfraction |= LSBIT64 (- shift); /* Stick LSBit. */
}
lfraction >>= -shift;
}
@@ -1247,7 +1247,7 @@ sim_fpu_sub (sim_fpu *f,
f->normal_exp = r->normal_exp;
}
- /* perform the subtraction */
+ /* Perform the subtraction. */
if (l->sign)
lfraction = - lfraction;
if (!r->sign)
@@ -1271,7 +1271,7 @@ sim_fpu_sub (sim_fpu *f,
f->fraction = - f->fraction;
}
- /* normalize it */
+ /* Normalize it. */
if ((f->fraction & IMPLICIT_2))
{
f->fraction = (f->fraction >> 1) | (f->fraction & 1);
@@ -1348,7 +1348,7 @@ sim_fpu_mul (sim_fpu *f,
return 0;
}
/* Calculate the mantissa by multiplying both 64bit numbers to get a
- 128 bit number */
+ 128 bit number. */
{
unsigned64 low;
unsigned64 high;
@@ -1391,7 +1391,7 @@ sim_fpu_mul (sim_fpu *f,
ASSERT (high >= LSBIT64 ((NR_FRAC_GUARD * 2) - 64));
ASSERT (LSBIT64 (((NR_FRAC_GUARD + 1) * 2) - 64) < IMPLICIT_1);
- /* normalize */
+ /* Normalize. */
do
{
f->normal_exp--;
@@ -1488,7 +1488,7 @@ sim_fpu_div (sim_fpu *f,
}
/* Calculate the mantissa by multiplying both 64bit numbers to get a
- 128 bit number */
+ 128 bit number. */
{
/* quotient = ( ( numerator / denominator)
x 2^(numerator exponent - denominator exponent)
@@ -1513,7 +1513,7 @@ sim_fpu_div (sim_fpu *f,
}
ASSERT (numerator >= denominator);
- /* Gain extra precision, already used one spare bit */
+ /* Gain extra precision, already used one spare bit. */
numerator <<= NR_SPARE;
denominator <<= NR_SPARE;
@@ -1531,7 +1531,7 @@ sim_fpu_div (sim_fpu *f,
numerator <<= 1;
}
- /* discard (but save) the extra bits */
+ /* Discard (but save) the extra bits. */
if ((quotient & LSMASK64 (NR_SPARE -1, 0)))
quotient = (quotient >> NR_SPARE) | 1;
else
@@ -1541,7 +1541,7 @@ sim_fpu_div (sim_fpu *f,
ASSERT (f->fraction >= IMPLICIT_1 && f->fraction < IMPLICIT_2);
if (numerator != 0)
{
- f->fraction |= 1; /* stick remaining bits */
+ f->fraction |= 1; /* Stick remaining bits. */
return sim_fpu_status_inexact;
}
else
@@ -1588,7 +1588,7 @@ sim_fpu_max (sim_fpu *f,
if (l->sign)
*f = *r; /* -inf < anything */
else
- *f = *l; /* +inf > anthing */
+ *f = *l; /* +inf > anything */
return 0;
}
if (sim_fpu_is_infinity (r))
@@ -1596,7 +1596,7 @@ sim_fpu_max (sim_fpu *f,
if (r->sign)
*f = *l; /* anything > -inf */
else
- *f = *r; /* anthing < +inf */
+ *f = *r; /* anything < +inf */
return 0;
}
if (l->sign > r->sign)
@@ -1611,8 +1611,8 @@ sim_fpu_max (sim_fpu *f,
}
ASSERT (l->sign == r->sign);
if (l->normal_exp > r->normal_exp
- || (l->normal_exp == r->normal_exp &&
- l->fraction > r->fraction))
+ || (l->normal_exp == r->normal_exp
+ && l->fraction > r->fraction))
{
/* |l| > |r| */
if (l->sign)
@@ -1694,8 +1694,8 @@ sim_fpu_min (sim_fpu *f,
}
ASSERT (l->sign == r->sign);
if (l->normal_exp > r->normal_exp
- || (l->normal_exp == r->normal_exp &&
- l->fraction > r->fraction))
+ || (l->normal_exp == r->normal_exp
+ && l->fraction > r->fraction))
{
/* |l| > |r| */
if (l->sign)
@@ -1853,7 +1853,7 @@ sim_fpu_sqrt (sim_fpu *f,
* If (2) is false, then q = q ; otherwise q = q + 2 .
* i+1 i i+1 i
*
- * With some algebric manipulation, it is not difficult to see
+ * With some algebraic manipulation, it is not difficult to see
* that (2) is equivalent to
* -(i+1)
* s + 2 <= y (3)
@@ -1898,14 +1898,14 @@ sim_fpu_sqrt (sim_fpu *f,
* sqrt(+-0) = +-0 ... exact
* sqrt(inf) = inf
* sqrt(-ve) = NaN ... with invalid signal
- * sqrt(NaN) = NaN ... with invalid signal for signaling NaN
+ * sqrt(NaN) = NaN ... with invalid signal for signalling NaN
*
* Other methods : see the appended file at the end of the program below.
*---------------
*/
{
- /* generate sqrt(x) bit by bit */
+ /* Generate sqrt(x) bit by bit. */
unsigned64 y;
unsigned64 q;
unsigned64 s;
@@ -1916,7 +1916,7 @@ sim_fpu_sqrt (sim_fpu *f,
y = r->fraction;
f->normal_exp = (r->normal_exp >> 1); /* exp = [exp/2] */
- /* odd exp, double x to make it even */
+ /* Odd exp, double x to make it even. */
ASSERT (y >= IMPLICIT_1 && y < IMPLICIT_4);
if ((r->normal_exp & 1))
{
@@ -1946,7 +1946,7 @@ sim_fpu_sqrt (sim_fpu *f,
f->fraction = q;
if (y != 0)
{
- f->fraction |= 1; /* stick remaining bits */
+ f->fraction |= 1; /* Stick remaining bits. */
return sim_fpu_status_inexact;
}
else