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-rw-r--r--target-arm/helper.c332
1 files changed, 270 insertions, 62 deletions
diff --git a/target-arm/helper.c b/target-arm/helper.c
index f0a1fd48e6..55077ed1b6 100644
--- a/target-arm/helper.c
+++ b/target-arm/helper.c
@@ -1983,6 +1983,7 @@ void register_cp_regs_for_features(ARMCPU *cpu)
ARMCPRegInfo pmcr = {
.name = "PMCR", .cp = 15, .crn = 9, .crm = 12, .opc1 = 0, .opc2 = 0,
.access = PL0_RW, .resetvalue = cpu->midr & 0xff000000,
+ .type = ARM_CP_IO,
.fieldoffset = offsetof(CPUARMState, cp15.c9_pmcr),
.accessfn = pmreg_access, .writefn = pmcr_write,
.raw_writefn = raw_write,
@@ -4519,16 +4520,21 @@ float32 HELPER(rsqrts_f32)(float32 a, float32 b, CPUARMState *env)
* int->float conversions at run-time. */
#define float64_256 make_float64(0x4070000000000000LL)
#define float64_512 make_float64(0x4080000000000000LL)
+#define float32_maxnorm make_float32(0x7f7fffff)
+#define float64_maxnorm make_float64(0x7fefffffffffffffLL)
-/* The algorithm that must be used to calculate the estimate
- * is specified by the ARM ARM.
+/* Reciprocal functions
+ *
+ * The algorithm that must be used to calculate the estimate
+ * is specified by the ARM ARM, see FPRecipEstimate()
*/
-static float64 recip_estimate(float64 a, CPUARMState *env)
+
+static float64 recip_estimate(float64 a, float_status *real_fp_status)
{
/* These calculations mustn't set any fp exception flags,
* so we use a local copy of the fp_status.
*/
- float_status dummy_status = env->vfp.standard_fp_status;
+ float_status dummy_status = *real_fp_status;
float_status *s = &dummy_status;
/* q = (int)(a * 512.0) */
float64 q = float64_mul(float64_512, a, s);
@@ -4549,56 +4555,178 @@ static float64 recip_estimate(float64 a, CPUARMState *env)
return float64_div(int64_to_float64(q_int, s), float64_256, s);
}
-float32 HELPER(recpe_f32)(float32 a, CPUARMState *env)
+/* Common wrapper to call recip_estimate */
+static float64 call_recip_estimate(float64 num, int off, float_status *fpst)
{
- float_status *s = &env->vfp.standard_fp_status;
- float64 f64;
- uint32_t val32 = float32_val(a);
+ uint64_t val64 = float64_val(num);
+ uint64_t frac = extract64(val64, 0, 52);
+ int64_t exp = extract64(val64, 52, 11);
+ uint64_t sbit;
+ float64 scaled, estimate;
- int result_exp;
- int a_exp = (val32 & 0x7f800000) >> 23;
- int sign = val32 & 0x80000000;
+ /* Generate the scaled number for the estimate function */
+ if (exp == 0) {
+ if (extract64(frac, 51, 1) == 0) {
+ exp = -1;
+ frac = extract64(frac, 0, 50) << 2;
+ } else {
+ frac = extract64(frac, 0, 51) << 1;
+ }
+ }
- if (float32_is_any_nan(a)) {
- if (float32_is_signaling_nan(a)) {
- float_raise(float_flag_invalid, s);
+ /* scaled = '0' : '01111111110' : fraction<51:44> : Zeros(44); */
+ scaled = make_float64((0x3feULL << 52)
+ | extract64(frac, 44, 8) << 44);
+
+ estimate = recip_estimate(scaled, fpst);
+
+ /* Build new result */
+ val64 = float64_val(estimate);
+ sbit = 0x8000000000000000ULL & val64;
+ exp = off - exp;
+ frac = extract64(val64, 0, 52);
+
+ if (exp == 0) {
+ frac = 1ULL << 51 | extract64(frac, 1, 51);
+ } else if (exp == -1) {
+ frac = 1ULL << 50 | extract64(frac, 2, 50);
+ exp = 0;
+ }
+
+ return make_float64(sbit | (exp << 52) | frac);
+}
+
+static bool round_to_inf(float_status *fpst, bool sign_bit)
+{
+ switch (fpst->float_rounding_mode) {
+ case float_round_nearest_even: /* Round to Nearest */
+ return true;
+ case float_round_up: /* Round to +Inf */
+ return !sign_bit;
+ case float_round_down: /* Round to -Inf */
+ return sign_bit;
+ case float_round_to_zero: /* Round to Zero */
+ return false;
+ }
+
+ g_assert_not_reached();
+}
+
+float32 HELPER(recpe_f32)(float32 input, void *fpstp)
+{
+ float_status *fpst = fpstp;
+ float32 f32 = float32_squash_input_denormal(input, fpst);
+ uint32_t f32_val = float32_val(f32);
+ uint32_t f32_sbit = 0x80000000ULL & f32_val;
+ int32_t f32_exp = extract32(f32_val, 23, 8);
+ uint32_t f32_frac = extract32(f32_val, 0, 23);
+ float64 f64, r64;
+ uint64_t r64_val;
+ int64_t r64_exp;
+ uint64_t r64_frac;
+
+ if (float32_is_any_nan(f32)) {
+ float32 nan = f32;
+ if (float32_is_signaling_nan(f32)) {
+ float_raise(float_flag_invalid, fpst);
+ nan = float32_maybe_silence_nan(f32);
}
- return float32_default_nan;
- } else if (float32_is_infinity(a)) {
- return float32_set_sign(float32_zero, float32_is_neg(a));
- } else if (float32_is_zero_or_denormal(a)) {
- if (!float32_is_zero(a)) {
- float_raise(float_flag_input_denormal, s);
+ if (fpst->default_nan_mode) {
+ nan = float32_default_nan;
}
- float_raise(float_flag_divbyzero, s);
- return float32_set_sign(float32_infinity, float32_is_neg(a));
- } else if (a_exp >= 253) {
- float_raise(float_flag_underflow, s);
- return float32_set_sign(float32_zero, float32_is_neg(a));
+ return nan;
+ } else if (float32_is_infinity(f32)) {
+ return float32_set_sign(float32_zero, float32_is_neg(f32));
+ } else if (float32_is_zero(f32)) {
+ float_raise(float_flag_divbyzero, fpst);
+ return float32_set_sign(float32_infinity, float32_is_neg(f32));
+ } else if ((f32_val & ~(1ULL << 31)) < (1ULL << 21)) {
+ /* Abs(value) < 2.0^-128 */
+ float_raise(float_flag_overflow | float_flag_inexact, fpst);
+ if (round_to_inf(fpst, f32_sbit)) {
+ return float32_set_sign(float32_infinity, float32_is_neg(f32));
+ } else {
+ return float32_set_sign(float32_maxnorm, float32_is_neg(f32));
+ }
+ } else if (f32_exp >= 253 && fpst->flush_to_zero) {
+ float_raise(float_flag_underflow, fpst);
+ return float32_set_sign(float32_zero, float32_is_neg(f32));
}
- f64 = make_float64((0x3feULL << 52)
- | ((int64_t)(val32 & 0x7fffff) << 29));
- result_exp = 253 - a_exp;
+ f64 = make_float64(((int64_t)(f32_exp) << 52) | (int64_t)(f32_frac) << 29);
+ r64 = call_recip_estimate(f64, 253, fpst);
+ r64_val = float64_val(r64);
+ r64_exp = extract64(r64_val, 52, 11);
+ r64_frac = extract64(r64_val, 0, 52);
- f64 = recip_estimate(f64, env);
+ /* result = sign : result_exp<7:0> : fraction<51:29>; */
+ return make_float32(f32_sbit |
+ (r64_exp & 0xff) << 23 |
+ extract64(r64_frac, 29, 24));
+}
- val32 = sign
- | ((result_exp & 0xff) << 23)
- | ((float64_val(f64) >> 29) & 0x7fffff);
- return make_float32(val32);
+float64 HELPER(recpe_f64)(float64 input, void *fpstp)
+{
+ float_status *fpst = fpstp;
+ float64 f64 = float64_squash_input_denormal(input, fpst);
+ uint64_t f64_val = float64_val(f64);
+ uint64_t f64_sbit = 0x8000000000000000ULL & f64_val;
+ int64_t f64_exp = extract64(f64_val, 52, 11);
+ float64 r64;
+ uint64_t r64_val;
+ int64_t r64_exp;
+ uint64_t r64_frac;
+
+ /* Deal with any special cases */
+ if (float64_is_any_nan(f64)) {
+ float64 nan = f64;
+ if (float64_is_signaling_nan(f64)) {
+ float_raise(float_flag_invalid, fpst);
+ nan = float64_maybe_silence_nan(f64);
+ }
+ if (fpst->default_nan_mode) {
+ nan = float64_default_nan;
+ }
+ return nan;
+ } else if (float64_is_infinity(f64)) {
+ return float64_set_sign(float64_zero, float64_is_neg(f64));
+ } else if (float64_is_zero(f64)) {
+ float_raise(float_flag_divbyzero, fpst);
+ return float64_set_sign(float64_infinity, float64_is_neg(f64));
+ } else if ((f64_val & ~(1ULL << 63)) < (1ULL << 50)) {
+ /* Abs(value) < 2.0^-1024 */
+ float_raise(float_flag_overflow | float_flag_inexact, fpst);
+ if (round_to_inf(fpst, f64_sbit)) {
+ return float64_set_sign(float64_infinity, float64_is_neg(f64));
+ } else {
+ return float64_set_sign(float64_maxnorm, float64_is_neg(f64));
+ }
+ } else if (f64_exp >= 1023 && fpst->flush_to_zero) {
+ float_raise(float_flag_underflow, fpst);
+ return float64_set_sign(float64_zero, float64_is_neg(f64));
+ }
+
+ r64 = call_recip_estimate(f64, 2045, fpst);
+ r64_val = float64_val(r64);
+ r64_exp = extract64(r64_val, 52, 11);
+ r64_frac = extract64(r64_val, 0, 52);
+
+ /* result = sign : result_exp<10:0> : fraction<51:0> */
+ return make_float64(f64_sbit |
+ ((r64_exp & 0x7ff) << 52) |
+ r64_frac);
}
/* The algorithm that must be used to calculate the estimate
* is specified by the ARM ARM.
*/
-static float64 recip_sqrt_estimate(float64 a, CPUARMState *env)
+static float64 recip_sqrt_estimate(float64 a, float_status *real_fp_status)
{
/* These calculations mustn't set any fp exception flags,
* so we use a local copy of the fp_status.
*/
- float_status dummy_status = env->vfp.standard_fp_status;
+ float_status dummy_status = *real_fp_status;
float_status *s = &dummy_status;
float64 q;
int64_t q_int;
@@ -4645,49 +4773,64 @@ static float64 recip_sqrt_estimate(float64 a, CPUARMState *env)
return float64_div(int64_to_float64(q_int, s), float64_256, s);
}
-float32 HELPER(rsqrte_f32)(float32 a, CPUARMState *env)
+float32 HELPER(rsqrte_f32)(float32 input, void *fpstp)
{
- float_status *s = &env->vfp.standard_fp_status;
+ float_status *s = fpstp;
+ float32 f32 = float32_squash_input_denormal(input, s);
+ uint32_t val = float32_val(f32);
+ uint32_t f32_sbit = 0x80000000 & val;
+ int32_t f32_exp = extract32(val, 23, 8);
+ uint32_t f32_frac = extract32(val, 0, 23);
+ uint64_t f64_frac;
+ uint64_t val64;
int result_exp;
float64 f64;
- uint32_t val;
- uint64_t val64;
-
- val = float32_val(a);
- if (float32_is_any_nan(a)) {
- if (float32_is_signaling_nan(a)) {
+ if (float32_is_any_nan(f32)) {
+ float32 nan = f32;
+ if (float32_is_signaling_nan(f32)) {
float_raise(float_flag_invalid, s);
+ nan = float32_maybe_silence_nan(f32);
}
- return float32_default_nan;
- } else if (float32_is_zero_or_denormal(a)) {
- if (!float32_is_zero(a)) {
- float_raise(float_flag_input_denormal, s);
+ if (s->default_nan_mode) {
+ nan = float32_default_nan;
}
+ return nan;
+ } else if (float32_is_zero(f32)) {
float_raise(float_flag_divbyzero, s);
- return float32_set_sign(float32_infinity, float32_is_neg(a));
- } else if (float32_is_neg(a)) {
+ return float32_set_sign(float32_infinity, float32_is_neg(f32));
+ } else if (float32_is_neg(f32)) {
float_raise(float_flag_invalid, s);
return float32_default_nan;
- } else if (float32_is_infinity(a)) {
+ } else if (float32_is_infinity(f32)) {
return float32_zero;
}
- /* Normalize to a double-precision value between 0.25 and 1.0,
+ /* Scale and normalize to a double-precision value between 0.25 and 1.0,
* preserving the parity of the exponent. */
- if ((val & 0x800000) == 0) {
- f64 = make_float64(((uint64_t)(val & 0x80000000) << 32)
+
+ f64_frac = ((uint64_t) f32_frac) << 29;
+ if (f32_exp == 0) {
+ while (extract64(f64_frac, 51, 1) == 0) {
+ f64_frac = f64_frac << 1;
+ f32_exp = f32_exp-1;
+ }
+ f64_frac = extract64(f64_frac, 0, 51) << 1;
+ }
+
+ if (extract64(f32_exp, 0, 1) == 0) {
+ f64 = make_float64(((uint64_t) f32_sbit) << 32
| (0x3feULL << 52)
- | ((uint64_t)(val & 0x7fffff) << 29));
+ | f64_frac);
} else {
- f64 = make_float64(((uint64_t)(val & 0x80000000) << 32)
+ f64 = make_float64(((uint64_t) f32_sbit) << 32
| (0x3fdULL << 52)
- | ((uint64_t)(val & 0x7fffff) << 29));
+ | f64_frac);
}
- result_exp = (380 - ((val & 0x7f800000) >> 23)) / 2;
+ result_exp = (380 - f32_exp) / 2;
- f64 = recip_sqrt_estimate(f64, env);
+ f64 = recip_sqrt_estimate(f64, s);
val64 = float64_val(f64);
@@ -4696,8 +4839,72 @@ float32 HELPER(rsqrte_f32)(float32 a, CPUARMState *env)
return make_float32(val);
}
-uint32_t HELPER(recpe_u32)(uint32_t a, CPUARMState *env)
+float64 HELPER(rsqrte_f64)(float64 input, void *fpstp)
+{
+ float_status *s = fpstp;
+ float64 f64 = float64_squash_input_denormal(input, s);
+ uint64_t val = float64_val(f64);
+ uint64_t f64_sbit = 0x8000000000000000ULL & val;
+ int64_t f64_exp = extract64(val, 52, 11);
+ uint64_t f64_frac = extract64(val, 0, 52);
+ int64_t result_exp;
+ uint64_t result_frac;
+
+ if (float64_is_any_nan(f64)) {
+ float64 nan = f64;
+ if (float64_is_signaling_nan(f64)) {
+ float_raise(float_flag_invalid, s);
+ nan = float64_maybe_silence_nan(f64);
+ }
+ if (s->default_nan_mode) {
+ nan = float64_default_nan;
+ }
+ return nan;
+ } else if (float64_is_zero(f64)) {
+ float_raise(float_flag_divbyzero, s);
+ return float64_set_sign(float64_infinity, float64_is_neg(f64));
+ } else if (float64_is_neg(f64)) {
+ float_raise(float_flag_invalid, s);
+ return float64_default_nan;
+ } else if (float64_is_infinity(f64)) {
+ return float64_zero;
+ }
+
+ /* Scale and normalize to a double-precision value between 0.25 and 1.0,
+ * preserving the parity of the exponent. */
+
+ if (f64_exp == 0) {
+ while (extract64(f64_frac, 51, 1) == 0) {
+ f64_frac = f64_frac << 1;
+ f64_exp = f64_exp - 1;
+ }
+ f64_frac = extract64(f64_frac, 0, 51) << 1;
+ }
+
+ if (extract64(f64_exp, 0, 1) == 0) {
+ f64 = make_float64(f64_sbit
+ | (0x3feULL << 52)
+ | f64_frac);
+ } else {
+ f64 = make_float64(f64_sbit
+ | (0x3fdULL << 52)
+ | f64_frac);
+ }
+
+ result_exp = (3068 - f64_exp) / 2;
+
+ f64 = recip_sqrt_estimate(f64, s);
+
+ result_frac = extract64(float64_val(f64), 0, 52);
+
+ return make_float64(f64_sbit |
+ ((result_exp & 0x7ff) << 52) |
+ result_frac);
+}
+
+uint32_t HELPER(recpe_u32)(uint32_t a, void *fpstp)
{
+ float_status *s = fpstp;
float64 f64;
if ((a & 0x80000000) == 0) {
@@ -4707,13 +4914,14 @@ uint32_t HELPER(recpe_u32)(uint32_t a, CPUARMState *env)
f64 = make_float64((0x3feULL << 52)
| ((int64_t)(a & 0x7fffffff) << 21));
- f64 = recip_estimate (f64, env);
+ f64 = recip_estimate(f64, s);
return 0x80000000 | ((float64_val(f64) >> 21) & 0x7fffffff);
}
-uint32_t HELPER(rsqrte_u32)(uint32_t a, CPUARMState *env)
+uint32_t HELPER(rsqrte_u32)(uint32_t a, void *fpstp)
{
+ float_status *fpst = fpstp;
float64 f64;
if ((a & 0xc0000000) == 0) {
@@ -4728,7 +4936,7 @@ uint32_t HELPER(rsqrte_u32)(uint32_t a, CPUARMState *env)
| ((uint64_t)(a & 0x3fffffff) << 22));
}
- f64 = recip_sqrt_estimate(f64, env);
+ f64 = recip_sqrt_estimate(f64, fpst);
return 0x80000000 | ((float64_val(f64) >> 21) & 0x7fffffff);
}
generated by cgit v1.2.3 (git 2.26.2) at 2024-12-14 01:19:39 +0000