11deb15c8SPeter Maydell /*
21deb15c8SPeter Maydell * ARM VFP floating-point operations
31deb15c8SPeter Maydell *
41deb15c8SPeter Maydell * Copyright (c) 2003 Fabrice Bellard
51deb15c8SPeter Maydell *
61deb15c8SPeter Maydell * This library is free software; you can redistribute it and/or
71deb15c8SPeter Maydell * modify it under the terms of the GNU Lesser General Public
81deb15c8SPeter Maydell * License as published by the Free Software Foundation; either
91deb15c8SPeter Maydell * version 2.1 of the License, or (at your option) any later version.
101deb15c8SPeter Maydell *
111deb15c8SPeter Maydell * This library is distributed in the hope that it will be useful,
121deb15c8SPeter Maydell * but WITHOUT ANY WARRANTY; without even the implied warranty of
131deb15c8SPeter Maydell * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
141deb15c8SPeter Maydell * Lesser General Public License for more details.
151deb15c8SPeter Maydell *
161deb15c8SPeter Maydell * You should have received a copy of the GNU Lesser General Public
171deb15c8SPeter Maydell * License along with this library; if not, see <http://www.gnu.org/licenses/>.
181deb15c8SPeter Maydell */
191deb15c8SPeter Maydell
201deb15c8SPeter Maydell #include "qemu/osdep.h"
211deb15c8SPeter Maydell #include "cpu.h"
221deb15c8SPeter Maydell #include "internals.h"
231deb15c8SPeter Maydell #include "cpu-features.h"
241deb15c8SPeter Maydell #include "fpu/softfloat.h"
251deb15c8SPeter Maydell #include "qemu/log.h"
261deb15c8SPeter Maydell
27*9eb5427aSPierrick Bouvier #define HELPER_H "tcg/helper.h"
28*9eb5427aSPierrick Bouvier #include "exec/helper-proto.h.inc"
29*9eb5427aSPierrick Bouvier
301deb15c8SPeter Maydell /*
31b9d3dc45SPeter Maydell * Set the float_status behaviour to match the Arm defaults:
32b9d3dc45SPeter Maydell * * tininess-before-rounding
33b9d3dc45SPeter Maydell * * 2-input NaN propagation prefers SNaN over QNaN, and then
34b9d3dc45SPeter Maydell * operand A over operand B (see FPProcessNaNs() pseudocode)
35b9d3dc45SPeter Maydell * * 3-input NaN propagation prefers SNaN over QNaN, and then
36b9d3dc45SPeter Maydell * operand C over A over B (see FPProcessNaNs3() pseudocode,
37b9d3dc45SPeter Maydell * but note that for QEMU muladd is a * b + c, whereas for
38b9d3dc45SPeter Maydell * the pseudocode function the arguments are in the order c, a, b.
39b9d3dc45SPeter Maydell * * 0 * Inf + NaN returns the default NaN if the input NaN is quiet,
40b9d3dc45SPeter Maydell * and the input NaN if it is signalling
41b9d3dc45SPeter Maydell * * Default NaN has sign bit clear, msb frac bit set
42b9d3dc45SPeter Maydell */
arm_set_default_fp_behaviours(float_status * s)43b9d3dc45SPeter Maydell void arm_set_default_fp_behaviours(float_status *s)
44b9d3dc45SPeter Maydell {
45b9d3dc45SPeter Maydell set_float_detect_tininess(float_tininess_before_rounding, s);
46b9d3dc45SPeter Maydell set_float_ftz_detection(float_ftz_before_rounding, s);
47b9d3dc45SPeter Maydell set_float_2nan_prop_rule(float_2nan_prop_s_ab, s);
48b9d3dc45SPeter Maydell set_float_3nan_prop_rule(float_3nan_prop_s_cab, s);
49b9d3dc45SPeter Maydell set_float_infzeronan_rule(float_infzeronan_dnan_if_qnan, s);
50b9d3dc45SPeter Maydell set_float_default_nan_pattern(0b01000000, s);
51b9d3dc45SPeter Maydell }
52b9d3dc45SPeter Maydell
53b9d3dc45SPeter Maydell /*
54b9d3dc45SPeter Maydell * Set the float_status behaviour to match the FEAT_AFP
55b9d3dc45SPeter Maydell * FPCR.AH=1 requirements:
56b9d3dc45SPeter Maydell * * tininess-after-rounding
57b9d3dc45SPeter Maydell * * 2-input NaN propagation prefers the first NaN
58b9d3dc45SPeter Maydell * * 3-input NaN propagation prefers a over b over c
59b9d3dc45SPeter Maydell * * 0 * Inf + NaN always returns the input NaN and doesn't
60b9d3dc45SPeter Maydell * set Invalid for a QNaN
61b9d3dc45SPeter Maydell * * default NaN has sign bit set, msb frac bit set
62b9d3dc45SPeter Maydell */
arm_set_ah_fp_behaviours(float_status * s)63b9d3dc45SPeter Maydell void arm_set_ah_fp_behaviours(float_status *s)
64b9d3dc45SPeter Maydell {
65b9d3dc45SPeter Maydell set_float_detect_tininess(float_tininess_after_rounding, s);
66b9d3dc45SPeter Maydell set_float_ftz_detection(float_ftz_after_rounding, s);
67b9d3dc45SPeter Maydell set_float_2nan_prop_rule(float_2nan_prop_ab, s);
68b9d3dc45SPeter Maydell set_float_3nan_prop_rule(float_3nan_prop_abc, s);
69b9d3dc45SPeter Maydell set_float_infzeronan_rule(float_infzeronan_dnan_never |
70b9d3dc45SPeter Maydell float_infzeronan_suppress_invalid, s);
71b9d3dc45SPeter Maydell set_float_default_nan_pattern(0b11000000, s);
72b9d3dc45SPeter Maydell }
73b9d3dc45SPeter Maydell
74b9d3dc45SPeter Maydell /* Convert host exception flags to vfp form. */
vfp_exceptbits_from_host(int host_bits,bool ah)75b9d3dc45SPeter Maydell static inline uint32_t vfp_exceptbits_from_host(int host_bits, bool ah)
76b9d3dc45SPeter Maydell {
77b9d3dc45SPeter Maydell uint32_t target_bits = 0;
78b9d3dc45SPeter Maydell
79b9d3dc45SPeter Maydell if (host_bits & float_flag_invalid) {
80b9d3dc45SPeter Maydell target_bits |= FPSR_IOC;
81b9d3dc45SPeter Maydell }
82b9d3dc45SPeter Maydell if (host_bits & float_flag_divbyzero) {
83b9d3dc45SPeter Maydell target_bits |= FPSR_DZC;
84b9d3dc45SPeter Maydell }
85b9d3dc45SPeter Maydell if (host_bits & float_flag_overflow) {
86b9d3dc45SPeter Maydell target_bits |= FPSR_OFC;
87b9d3dc45SPeter Maydell }
88b9d3dc45SPeter Maydell if (host_bits & (float_flag_underflow | float_flag_output_denormal_flushed)) {
89b9d3dc45SPeter Maydell target_bits |= FPSR_UFC;
90b9d3dc45SPeter Maydell }
91b9d3dc45SPeter Maydell if (host_bits & float_flag_inexact) {
92b9d3dc45SPeter Maydell target_bits |= FPSR_IXC;
93b9d3dc45SPeter Maydell }
94b9d3dc45SPeter Maydell if (host_bits & float_flag_input_denormal_flushed) {
95b9d3dc45SPeter Maydell target_bits |= FPSR_IDC;
96b9d3dc45SPeter Maydell }
97b9d3dc45SPeter Maydell /*
98b9d3dc45SPeter Maydell * With FPCR.AH, IDC is set when an input denormal is used,
99b9d3dc45SPeter Maydell * and flushing an output denormal to zero sets both IXC and UFC.
100b9d3dc45SPeter Maydell */
101b9d3dc45SPeter Maydell if (ah && (host_bits & float_flag_input_denormal_used)) {
102b9d3dc45SPeter Maydell target_bits |= FPSR_IDC;
103b9d3dc45SPeter Maydell }
104b9d3dc45SPeter Maydell if (ah && (host_bits & float_flag_output_denormal_flushed)) {
105b9d3dc45SPeter Maydell target_bits |= FPSR_IXC;
106b9d3dc45SPeter Maydell }
107b9d3dc45SPeter Maydell return target_bits;
108b9d3dc45SPeter Maydell }
109b9d3dc45SPeter Maydell
vfp_get_fpsr_from_host(CPUARMState * env)110b9d3dc45SPeter Maydell uint32_t vfp_get_fpsr_from_host(CPUARMState *env)
111b9d3dc45SPeter Maydell {
112b9d3dc45SPeter Maydell uint32_t a32_flags = 0, a64_flags = 0;
113b9d3dc45SPeter Maydell
114b9d3dc45SPeter Maydell a32_flags |= get_float_exception_flags(&env->vfp.fp_status[FPST_A32]);
115b9d3dc45SPeter Maydell a32_flags |= get_float_exception_flags(&env->vfp.fp_status[FPST_STD]);
116b9d3dc45SPeter Maydell /* FZ16 does not generate an input denormal exception. */
117b9d3dc45SPeter Maydell a32_flags |= (get_float_exception_flags(&env->vfp.fp_status[FPST_A32_F16])
118b9d3dc45SPeter Maydell & ~float_flag_input_denormal_flushed);
119b9d3dc45SPeter Maydell a32_flags |= (get_float_exception_flags(&env->vfp.fp_status[FPST_STD_F16])
120b9d3dc45SPeter Maydell & ~float_flag_input_denormal_flushed);
121b9d3dc45SPeter Maydell
122b9d3dc45SPeter Maydell a64_flags |= get_float_exception_flags(&env->vfp.fp_status[FPST_A64]);
123b9d3dc45SPeter Maydell a64_flags |= (get_float_exception_flags(&env->vfp.fp_status[FPST_A64_F16])
124b9d3dc45SPeter Maydell & ~(float_flag_input_denormal_flushed | float_flag_input_denormal_used));
125b9d3dc45SPeter Maydell /*
126b9d3dc45SPeter Maydell * We do not merge in flags from FPST_AH or FPST_AH_F16, because
127b9d3dc45SPeter Maydell * they are used for insns that must not set the cumulative exception bits.
128b9d3dc45SPeter Maydell */
129b9d3dc45SPeter Maydell
130b9d3dc45SPeter Maydell /*
131b9d3dc45SPeter Maydell * Flushing an input denormal *only* because FPCR.FIZ == 1 does
132b9d3dc45SPeter Maydell * not set FPSR.IDC; if FPCR.FZ is also set then this takes
133b9d3dc45SPeter Maydell * precedence and IDC is set (see the FPUnpackBase pseudocode).
134b9d3dc45SPeter Maydell * So squash it unless (FPCR.AH == 0 && FPCR.FZ == 1).
135b9d3dc45SPeter Maydell * We only do this for the a64 flags because FIZ has no effect
136b9d3dc45SPeter Maydell * on AArch32 even if it is set.
137b9d3dc45SPeter Maydell */
138b9d3dc45SPeter Maydell if ((env->vfp.fpcr & (FPCR_FZ | FPCR_AH)) != FPCR_FZ) {
139b9d3dc45SPeter Maydell a64_flags &= ~float_flag_input_denormal_flushed;
140b9d3dc45SPeter Maydell }
141b9d3dc45SPeter Maydell return vfp_exceptbits_from_host(a64_flags, env->vfp.fpcr & FPCR_AH) |
142b9d3dc45SPeter Maydell vfp_exceptbits_from_host(a32_flags, false);
143b9d3dc45SPeter Maydell }
144b9d3dc45SPeter Maydell
vfp_clear_float_status_exc_flags(CPUARMState * env)145b9d3dc45SPeter Maydell void vfp_clear_float_status_exc_flags(CPUARMState *env)
146b9d3dc45SPeter Maydell {
147b9d3dc45SPeter Maydell /*
148b9d3dc45SPeter Maydell * Clear out all the exception-flag information in the float_status
149b9d3dc45SPeter Maydell * values. The caller should have arranged for env->vfp.fpsr to
150b9d3dc45SPeter Maydell * be the architecturally up-to-date exception flag information first.
151b9d3dc45SPeter Maydell */
152b9d3dc45SPeter Maydell set_float_exception_flags(0, &env->vfp.fp_status[FPST_A32]);
153b9d3dc45SPeter Maydell set_float_exception_flags(0, &env->vfp.fp_status[FPST_A64]);
154b9d3dc45SPeter Maydell set_float_exception_flags(0, &env->vfp.fp_status[FPST_A32_F16]);
155b9d3dc45SPeter Maydell set_float_exception_flags(0, &env->vfp.fp_status[FPST_A64_F16]);
156b9d3dc45SPeter Maydell set_float_exception_flags(0, &env->vfp.fp_status[FPST_STD]);
157b9d3dc45SPeter Maydell set_float_exception_flags(0, &env->vfp.fp_status[FPST_STD_F16]);
158b9d3dc45SPeter Maydell set_float_exception_flags(0, &env->vfp.fp_status[FPST_AH]);
159b9d3dc45SPeter Maydell set_float_exception_flags(0, &env->vfp.fp_status[FPST_AH_F16]);
160b9d3dc45SPeter Maydell }
161b9d3dc45SPeter Maydell
vfp_sync_and_clear_float_status_exc_flags(CPUARMState * env)162b9d3dc45SPeter Maydell static void vfp_sync_and_clear_float_status_exc_flags(CPUARMState *env)
163b9d3dc45SPeter Maydell {
164b9d3dc45SPeter Maydell /*
165b9d3dc45SPeter Maydell * Synchronize any pending exception-flag information in the
166b9d3dc45SPeter Maydell * float_status values into env->vfp.fpsr, and then clear out
167b9d3dc45SPeter Maydell * the float_status data.
168b9d3dc45SPeter Maydell */
169b9d3dc45SPeter Maydell env->vfp.fpsr |= vfp_get_fpsr_from_host(env);
170b9d3dc45SPeter Maydell vfp_clear_float_status_exc_flags(env);
171b9d3dc45SPeter Maydell }
172b9d3dc45SPeter Maydell
vfp_set_fpcr_to_host(CPUARMState * env,uint32_t val,uint32_t mask)173b9d3dc45SPeter Maydell void vfp_set_fpcr_to_host(CPUARMState *env, uint32_t val, uint32_t mask)
174b9d3dc45SPeter Maydell {
175b9d3dc45SPeter Maydell uint64_t changed = env->vfp.fpcr;
176b9d3dc45SPeter Maydell
177b9d3dc45SPeter Maydell changed ^= val;
178b9d3dc45SPeter Maydell changed &= mask;
179b9d3dc45SPeter Maydell if (changed & (3 << 22)) {
180b9d3dc45SPeter Maydell int i = (val >> 22) & 3;
181b9d3dc45SPeter Maydell switch (i) {
182b9d3dc45SPeter Maydell case FPROUNDING_TIEEVEN:
183b9d3dc45SPeter Maydell i = float_round_nearest_even;
184b9d3dc45SPeter Maydell break;
185b9d3dc45SPeter Maydell case FPROUNDING_POSINF:
186b9d3dc45SPeter Maydell i = float_round_up;
187b9d3dc45SPeter Maydell break;
188b9d3dc45SPeter Maydell case FPROUNDING_NEGINF:
189b9d3dc45SPeter Maydell i = float_round_down;
190b9d3dc45SPeter Maydell break;
191b9d3dc45SPeter Maydell case FPROUNDING_ZERO:
192b9d3dc45SPeter Maydell i = float_round_to_zero;
193b9d3dc45SPeter Maydell break;
194b9d3dc45SPeter Maydell }
195b9d3dc45SPeter Maydell set_float_rounding_mode(i, &env->vfp.fp_status[FPST_A32]);
196b9d3dc45SPeter Maydell set_float_rounding_mode(i, &env->vfp.fp_status[FPST_A64]);
197b9d3dc45SPeter Maydell set_float_rounding_mode(i, &env->vfp.fp_status[FPST_A32_F16]);
198b9d3dc45SPeter Maydell set_float_rounding_mode(i, &env->vfp.fp_status[FPST_A64_F16]);
199b9d3dc45SPeter Maydell }
200b9d3dc45SPeter Maydell if (changed & FPCR_FZ16) {
201b9d3dc45SPeter Maydell bool ftz_enabled = val & FPCR_FZ16;
202b9d3dc45SPeter Maydell set_flush_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_A32_F16]);
203b9d3dc45SPeter Maydell set_flush_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_A64_F16]);
204b9d3dc45SPeter Maydell set_flush_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_STD_F16]);
205b9d3dc45SPeter Maydell set_flush_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_AH_F16]);
206b9d3dc45SPeter Maydell set_flush_inputs_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_A32_F16]);
207b9d3dc45SPeter Maydell set_flush_inputs_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_A64_F16]);
208b9d3dc45SPeter Maydell set_flush_inputs_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_STD_F16]);
209b9d3dc45SPeter Maydell set_flush_inputs_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_AH_F16]);
210b9d3dc45SPeter Maydell }
211b9d3dc45SPeter Maydell if (changed & FPCR_FZ) {
212b9d3dc45SPeter Maydell bool ftz_enabled = val & FPCR_FZ;
213b9d3dc45SPeter Maydell set_flush_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_A32]);
214b9d3dc45SPeter Maydell set_flush_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_A64]);
215b9d3dc45SPeter Maydell /* FIZ is A64 only so FZ always makes A32 code flush inputs to zero */
216b9d3dc45SPeter Maydell set_flush_inputs_to_zero(ftz_enabled, &env->vfp.fp_status[FPST_A32]);
217b9d3dc45SPeter Maydell }
218b9d3dc45SPeter Maydell if (changed & (FPCR_FZ | FPCR_AH | FPCR_FIZ)) {
219b9d3dc45SPeter Maydell /*
220b9d3dc45SPeter Maydell * A64: Flush denormalized inputs to zero if FPCR.FIZ = 1, or
221b9d3dc45SPeter Maydell * both FPCR.AH = 0 and FPCR.FZ = 1.
222b9d3dc45SPeter Maydell */
223b9d3dc45SPeter Maydell bool fitz_enabled = (val & FPCR_FIZ) ||
224b9d3dc45SPeter Maydell (val & (FPCR_FZ | FPCR_AH)) == FPCR_FZ;
225b9d3dc45SPeter Maydell set_flush_inputs_to_zero(fitz_enabled, &env->vfp.fp_status[FPST_A64]);
226b9d3dc45SPeter Maydell }
227b9d3dc45SPeter Maydell if (changed & FPCR_DN) {
228b9d3dc45SPeter Maydell bool dnan_enabled = val & FPCR_DN;
229b9d3dc45SPeter Maydell set_default_nan_mode(dnan_enabled, &env->vfp.fp_status[FPST_A32]);
230b9d3dc45SPeter Maydell set_default_nan_mode(dnan_enabled, &env->vfp.fp_status[FPST_A64]);
231b9d3dc45SPeter Maydell set_default_nan_mode(dnan_enabled, &env->vfp.fp_status[FPST_A32_F16]);
232b9d3dc45SPeter Maydell set_default_nan_mode(dnan_enabled, &env->vfp.fp_status[FPST_A64_F16]);
233b9d3dc45SPeter Maydell set_default_nan_mode(dnan_enabled, &env->vfp.fp_status[FPST_AH]);
234b9d3dc45SPeter Maydell set_default_nan_mode(dnan_enabled, &env->vfp.fp_status[FPST_AH_F16]);
235b9d3dc45SPeter Maydell }
236b9d3dc45SPeter Maydell if (changed & FPCR_AH) {
237b9d3dc45SPeter Maydell bool ah_enabled = val & FPCR_AH;
238b9d3dc45SPeter Maydell
239b9d3dc45SPeter Maydell if (ah_enabled) {
240b9d3dc45SPeter Maydell /* Change behaviours for A64 FP operations */
241b9d3dc45SPeter Maydell arm_set_ah_fp_behaviours(&env->vfp.fp_status[FPST_A64]);
242b9d3dc45SPeter Maydell arm_set_ah_fp_behaviours(&env->vfp.fp_status[FPST_A64_F16]);
243b9d3dc45SPeter Maydell } else {
244b9d3dc45SPeter Maydell arm_set_default_fp_behaviours(&env->vfp.fp_status[FPST_A64]);
245b9d3dc45SPeter Maydell arm_set_default_fp_behaviours(&env->vfp.fp_status[FPST_A64_F16]);
246b9d3dc45SPeter Maydell }
247b9d3dc45SPeter Maydell }
248b9d3dc45SPeter Maydell /*
249b9d3dc45SPeter Maydell * If any bits changed that we look at in vfp_get_fpsr_from_host(),
250b9d3dc45SPeter Maydell * we must sync the float_status flags into vfp.fpsr now (under the
251b9d3dc45SPeter Maydell * old regime) before we update vfp.fpcr.
252b9d3dc45SPeter Maydell */
253b9d3dc45SPeter Maydell if (changed & (FPCR_FZ | FPCR_AH | FPCR_FIZ)) {
254b9d3dc45SPeter Maydell vfp_sync_and_clear_float_status_exc_flags(env);
255b9d3dc45SPeter Maydell }
256b9d3dc45SPeter Maydell }
257b9d3dc45SPeter Maydell
258b9d3dc45SPeter Maydell /*
2591deb15c8SPeter Maydell * VFP support. We follow the convention used for VFP instructions:
2601deb15c8SPeter Maydell * Single precision routines have a "s" suffix, double precision a
2611deb15c8SPeter Maydell * "d" suffix.
2621deb15c8SPeter Maydell */
2631deb15c8SPeter Maydell
2641deb15c8SPeter Maydell #define VFP_HELPER(name, p) HELPER(glue(glue(vfp_,name),p))
2651deb15c8SPeter Maydell
2661deb15c8SPeter Maydell #define VFP_BINOP(name) \
2671deb15c8SPeter Maydell dh_ctype_f16 VFP_HELPER(name, h)(dh_ctype_f16 a, dh_ctype_f16 b, float_status *fpst) \
2681deb15c8SPeter Maydell { \
2691deb15c8SPeter Maydell return float16_ ## name(a, b, fpst); \
2701deb15c8SPeter Maydell } \
2711deb15c8SPeter Maydell float32 VFP_HELPER(name, s)(float32 a, float32 b, float_status *fpst) \
2721deb15c8SPeter Maydell { \
2731deb15c8SPeter Maydell return float32_ ## name(a, b, fpst); \
2741deb15c8SPeter Maydell } \
2751deb15c8SPeter Maydell float64 VFP_HELPER(name, d)(float64 a, float64 b, float_status *fpst) \
2761deb15c8SPeter Maydell { \
2771deb15c8SPeter Maydell return float64_ ## name(a, b, fpst); \
2781deb15c8SPeter Maydell }
2791deb15c8SPeter Maydell VFP_BINOP(add)
VFP_BINOP(sub)2801deb15c8SPeter Maydell VFP_BINOP(sub)
2811deb15c8SPeter Maydell VFP_BINOP(mul)
2821deb15c8SPeter Maydell VFP_BINOP(div)
2831deb15c8SPeter Maydell VFP_BINOP(min)
2841deb15c8SPeter Maydell VFP_BINOP(max)
2851deb15c8SPeter Maydell VFP_BINOP(minnum)
2861deb15c8SPeter Maydell VFP_BINOP(maxnum)
2871deb15c8SPeter Maydell #undef VFP_BINOP
2881deb15c8SPeter Maydell
2891deb15c8SPeter Maydell dh_ctype_f16 VFP_HELPER(sqrt, h)(dh_ctype_f16 a, float_status *fpst)
2901deb15c8SPeter Maydell {
2911deb15c8SPeter Maydell return float16_sqrt(a, fpst);
2921deb15c8SPeter Maydell }
2931deb15c8SPeter Maydell
VFP_HELPER(sqrt,s)2941deb15c8SPeter Maydell float32 VFP_HELPER(sqrt, s)(float32 a, float_status *fpst)
2951deb15c8SPeter Maydell {
2961deb15c8SPeter Maydell return float32_sqrt(a, fpst);
2971deb15c8SPeter Maydell }
2981deb15c8SPeter Maydell
VFP_HELPER(sqrt,d)2991deb15c8SPeter Maydell float64 VFP_HELPER(sqrt, d)(float64 a, float_status *fpst)
3001deb15c8SPeter Maydell {
3011deb15c8SPeter Maydell return float64_sqrt(a, fpst);
3021deb15c8SPeter Maydell }
3031deb15c8SPeter Maydell
softfloat_to_vfp_compare(CPUARMState * env,FloatRelation cmp)3041deb15c8SPeter Maydell static void softfloat_to_vfp_compare(CPUARMState *env, FloatRelation cmp)
3051deb15c8SPeter Maydell {
3061deb15c8SPeter Maydell uint32_t flags;
3071deb15c8SPeter Maydell switch (cmp) {
3081deb15c8SPeter Maydell case float_relation_equal:
3091deb15c8SPeter Maydell flags = 0x6;
3101deb15c8SPeter Maydell break;
3111deb15c8SPeter Maydell case float_relation_less:
3121deb15c8SPeter Maydell flags = 0x8;
3131deb15c8SPeter Maydell break;
3141deb15c8SPeter Maydell case float_relation_greater:
3151deb15c8SPeter Maydell flags = 0x2;
3161deb15c8SPeter Maydell break;
3171deb15c8SPeter Maydell case float_relation_unordered:
3181deb15c8SPeter Maydell flags = 0x3;
3191deb15c8SPeter Maydell break;
3201deb15c8SPeter Maydell default:
3211deb15c8SPeter Maydell g_assert_not_reached();
3221deb15c8SPeter Maydell }
3231deb15c8SPeter Maydell env->vfp.fpsr = deposit64(env->vfp.fpsr, 28, 4, flags); /* NZCV */
3241deb15c8SPeter Maydell }
3251deb15c8SPeter Maydell
3261deb15c8SPeter Maydell /* XXX: check quiet/signaling case */
3271deb15c8SPeter Maydell #define DO_VFP_cmp(P, FLOATTYPE, ARGTYPE, FPST) \
3281deb15c8SPeter Maydell void VFP_HELPER(cmp, P)(ARGTYPE a, ARGTYPE b, CPUARMState *env) \
3291deb15c8SPeter Maydell { \
3301deb15c8SPeter Maydell softfloat_to_vfp_compare(env, \
3311deb15c8SPeter Maydell FLOATTYPE ## _compare_quiet(a, b, &env->vfp.fp_status[FPST])); \
3321deb15c8SPeter Maydell } \
3331deb15c8SPeter Maydell void VFP_HELPER(cmpe, P)(ARGTYPE a, ARGTYPE b, CPUARMState *env) \
3341deb15c8SPeter Maydell { \
3351deb15c8SPeter Maydell softfloat_to_vfp_compare(env, \
3361deb15c8SPeter Maydell FLOATTYPE ## _compare(a, b, &env->vfp.fp_status[FPST])); \
3371deb15c8SPeter Maydell }
DO_VFP_cmp(h,float16,dh_ctype_f16,FPST_A32_F16)3381deb15c8SPeter Maydell DO_VFP_cmp(h, float16, dh_ctype_f16, FPST_A32_F16)
3391deb15c8SPeter Maydell DO_VFP_cmp(s, float32, float32, FPST_A32)
3401deb15c8SPeter Maydell DO_VFP_cmp(d, float64, float64, FPST_A32)
3411deb15c8SPeter Maydell #undef DO_VFP_cmp
3421deb15c8SPeter Maydell
3431deb15c8SPeter Maydell /* Integer to float and float to integer conversions */
3441deb15c8SPeter Maydell
3451deb15c8SPeter Maydell #define CONV_ITOF(name, ftype, fsz, sign) \
3461deb15c8SPeter Maydell ftype HELPER(name)(uint32_t x, float_status *fpst) \
3471deb15c8SPeter Maydell { \
3481deb15c8SPeter Maydell return sign##int32_to_##float##fsz((sign##int32_t)x, fpst); \
3491deb15c8SPeter Maydell }
3501deb15c8SPeter Maydell
3511deb15c8SPeter Maydell #define CONV_FTOI(name, ftype, fsz, sign, round) \
3521deb15c8SPeter Maydell sign##int32_t HELPER(name)(ftype x, float_status *fpst) \
3531deb15c8SPeter Maydell { \
3541deb15c8SPeter Maydell if (float##fsz##_is_any_nan(x)) { \
3551deb15c8SPeter Maydell float_raise(float_flag_invalid, fpst); \
3561deb15c8SPeter Maydell return 0; \
3571deb15c8SPeter Maydell } \
3581deb15c8SPeter Maydell return float##fsz##_to_##sign##int32##round(x, fpst); \
3591deb15c8SPeter Maydell }
3601deb15c8SPeter Maydell
3611deb15c8SPeter Maydell #define FLOAT_CONVS(name, p, ftype, fsz, sign) \
3621deb15c8SPeter Maydell CONV_ITOF(vfp_##name##to##p, ftype, fsz, sign) \
3631deb15c8SPeter Maydell CONV_FTOI(vfp_to##name##p, ftype, fsz, sign, ) \
3641deb15c8SPeter Maydell CONV_FTOI(vfp_to##name##z##p, ftype, fsz, sign, _round_to_zero)
3651deb15c8SPeter Maydell
3661deb15c8SPeter Maydell FLOAT_CONVS(si, h, uint32_t, 16, )
3671deb15c8SPeter Maydell FLOAT_CONVS(si, s, float32, 32, )
3681deb15c8SPeter Maydell FLOAT_CONVS(si, d, float64, 64, )
3691deb15c8SPeter Maydell FLOAT_CONVS(ui, h, uint32_t, 16, u)
3701deb15c8SPeter Maydell FLOAT_CONVS(ui, s, float32, 32, u)
3711deb15c8SPeter Maydell FLOAT_CONVS(ui, d, float64, 64, u)
3721deb15c8SPeter Maydell
3731deb15c8SPeter Maydell #undef CONV_ITOF
3741deb15c8SPeter Maydell #undef CONV_FTOI
3751deb15c8SPeter Maydell #undef FLOAT_CONVS
3761deb15c8SPeter Maydell
3771deb15c8SPeter Maydell /* floating point conversion */
3781deb15c8SPeter Maydell float64 VFP_HELPER(fcvtd, s)(float32 x, float_status *status)
3791deb15c8SPeter Maydell {
3801deb15c8SPeter Maydell return float32_to_float64(x, status);
3811deb15c8SPeter Maydell }
3821deb15c8SPeter Maydell
VFP_HELPER(fcvts,d)3831deb15c8SPeter Maydell float32 VFP_HELPER(fcvts, d)(float64 x, float_status *status)
3841deb15c8SPeter Maydell {
3851deb15c8SPeter Maydell return float64_to_float32(x, status);
3861deb15c8SPeter Maydell }
3871deb15c8SPeter Maydell
HELPER(bfcvt)3881deb15c8SPeter Maydell uint32_t HELPER(bfcvt)(float32 x, float_status *status)
3891deb15c8SPeter Maydell {
3901deb15c8SPeter Maydell return float32_to_bfloat16(x, status);
3911deb15c8SPeter Maydell }
3921deb15c8SPeter Maydell
HELPER(bfcvt_pair)3931deb15c8SPeter Maydell uint32_t HELPER(bfcvt_pair)(uint64_t pair, float_status *status)
3941deb15c8SPeter Maydell {
3951deb15c8SPeter Maydell bfloat16 lo = float32_to_bfloat16(extract64(pair, 0, 32), status);
3961deb15c8SPeter Maydell bfloat16 hi = float32_to_bfloat16(extract64(pair, 32, 32), status);
3971deb15c8SPeter Maydell return deposit32(lo, 16, 16, hi);
3981deb15c8SPeter Maydell }
3991deb15c8SPeter Maydell
4001deb15c8SPeter Maydell /*
4011deb15c8SPeter Maydell * VFP3 fixed point conversion. The AArch32 versions of fix-to-float
4021deb15c8SPeter Maydell * must always round-to-nearest; the AArch64 ones honour the FPSCR
4031deb15c8SPeter Maydell * rounding mode. (For AArch32 Neon the standard-FPSCR is set to
4041deb15c8SPeter Maydell * round-to-nearest so either helper will work.) AArch32 float-to-fix
4051deb15c8SPeter Maydell * must round-to-zero.
4061deb15c8SPeter Maydell */
4071deb15c8SPeter Maydell #define VFP_CONV_FIX_FLOAT(name, p, fsz, ftype, isz, itype) \
4081deb15c8SPeter Maydell ftype HELPER(vfp_##name##to##p)(uint##isz##_t x, uint32_t shift, \
4091deb15c8SPeter Maydell float_status *fpst) \
4101deb15c8SPeter Maydell { return itype##_to_##float##fsz##_scalbn(x, -shift, fpst); }
4111deb15c8SPeter Maydell
4121deb15c8SPeter Maydell #define VFP_CONV_FIX_FLOAT_ROUND(name, p, fsz, ftype, isz, itype) \
4131deb15c8SPeter Maydell ftype HELPER(vfp_##name##to##p##_round_to_nearest)(uint##isz##_t x, \
4141deb15c8SPeter Maydell uint32_t shift, \
4151deb15c8SPeter Maydell float_status *fpst) \
4161deb15c8SPeter Maydell { \
4171deb15c8SPeter Maydell ftype ret; \
4181deb15c8SPeter Maydell FloatRoundMode oldmode = fpst->float_rounding_mode; \
4191deb15c8SPeter Maydell fpst->float_rounding_mode = float_round_nearest_even; \
4201deb15c8SPeter Maydell ret = itype##_to_##float##fsz##_scalbn(x, -shift, fpst); \
4211deb15c8SPeter Maydell fpst->float_rounding_mode = oldmode; \
4221deb15c8SPeter Maydell return ret; \
4231deb15c8SPeter Maydell }
4241deb15c8SPeter Maydell
4251deb15c8SPeter Maydell #define VFP_CONV_FLOAT_FIX_ROUND(name, p, fsz, ftype, isz, itype, ROUND, suff) \
4261deb15c8SPeter Maydell uint##isz##_t HELPER(vfp_to##name##p##suff)(ftype x, uint32_t shift, \
4271deb15c8SPeter Maydell float_status *fpst) \
4281deb15c8SPeter Maydell { \
4291deb15c8SPeter Maydell if (unlikely(float##fsz##_is_any_nan(x))) { \
4301deb15c8SPeter Maydell float_raise(float_flag_invalid, fpst); \
4311deb15c8SPeter Maydell return 0; \
4321deb15c8SPeter Maydell } \
4331deb15c8SPeter Maydell return float##fsz##_to_##itype##_scalbn(x, ROUND, shift, fpst); \
4341deb15c8SPeter Maydell }
4351deb15c8SPeter Maydell
4361deb15c8SPeter Maydell #define VFP_CONV_FIX(name, p, fsz, ftype, isz, itype) \
4371deb15c8SPeter Maydell VFP_CONV_FIX_FLOAT(name, p, fsz, ftype, isz, itype) \
4381deb15c8SPeter Maydell VFP_CONV_FIX_FLOAT_ROUND(name, p, fsz, ftype, isz, itype) \
4391deb15c8SPeter Maydell VFP_CONV_FLOAT_FIX_ROUND(name, p, fsz, ftype, isz, itype, \
4401deb15c8SPeter Maydell float_round_to_zero, _round_to_zero) \
4411deb15c8SPeter Maydell VFP_CONV_FLOAT_FIX_ROUND(name, p, fsz, ftype, isz, itype, \
4421deb15c8SPeter Maydell get_float_rounding_mode(fpst), )
4431deb15c8SPeter Maydell
4441deb15c8SPeter Maydell #define VFP_CONV_FIX_A64(name, p, fsz, ftype, isz, itype) \
4451deb15c8SPeter Maydell VFP_CONV_FIX_FLOAT(name, p, fsz, ftype, isz, itype) \
4461deb15c8SPeter Maydell VFP_CONV_FLOAT_FIX_ROUND(name, p, fsz, ftype, isz, itype, \
4471deb15c8SPeter Maydell get_float_rounding_mode(fpst), )
4481deb15c8SPeter Maydell
4491deb15c8SPeter Maydell VFP_CONV_FIX(sh, d, 64, float64, 64, int16)
4501deb15c8SPeter Maydell VFP_CONV_FIX(sl, d, 64, float64, 64, int32)
4511deb15c8SPeter Maydell VFP_CONV_FIX_A64(sq, d, 64, float64, 64, int64)
4521deb15c8SPeter Maydell VFP_CONV_FIX(uh, d, 64, float64, 64, uint16)
4531deb15c8SPeter Maydell VFP_CONV_FIX(ul, d, 64, float64, 64, uint32)
4541deb15c8SPeter Maydell VFP_CONV_FIX_A64(uq, d, 64, float64, 64, uint64)
4551deb15c8SPeter Maydell VFP_CONV_FIX(sh, s, 32, float32, 32, int16)
4561deb15c8SPeter Maydell VFP_CONV_FIX(sl, s, 32, float32, 32, int32)
4571deb15c8SPeter Maydell VFP_CONV_FIX_A64(sq, s, 32, float32, 64, int64)
4581deb15c8SPeter Maydell VFP_CONV_FIX(uh, s, 32, float32, 32, uint16)
4591deb15c8SPeter Maydell VFP_CONV_FIX(ul, s, 32, float32, 32, uint32)
4601deb15c8SPeter Maydell VFP_CONV_FIX_A64(uq, s, 32, float32, 64, uint64)
4611deb15c8SPeter Maydell VFP_CONV_FIX(sh, h, 16, dh_ctype_f16, 32, int16)
4621deb15c8SPeter Maydell VFP_CONV_FIX(sl, h, 16, dh_ctype_f16, 32, int32)
4631deb15c8SPeter Maydell VFP_CONV_FIX_A64(sq, h, 16, dh_ctype_f16, 64, int64)
4641deb15c8SPeter Maydell VFP_CONV_FIX(uh, h, 16, dh_ctype_f16, 32, uint16)
4651deb15c8SPeter Maydell VFP_CONV_FIX(ul, h, 16, dh_ctype_f16, 32, uint32)
4661deb15c8SPeter Maydell VFP_CONV_FIX_A64(uq, h, 16, dh_ctype_f16, 64, uint64)
4671deb15c8SPeter Maydell VFP_CONV_FLOAT_FIX_ROUND(sq, d, 64, float64, 64, int64,
4681deb15c8SPeter Maydell float_round_to_zero, _round_to_zero)
4691deb15c8SPeter Maydell VFP_CONV_FLOAT_FIX_ROUND(uq, d, 64, float64, 64, uint64,
4701deb15c8SPeter Maydell float_round_to_zero, _round_to_zero)
4711deb15c8SPeter Maydell
4721deb15c8SPeter Maydell #undef VFP_CONV_FIX
4731deb15c8SPeter Maydell #undef VFP_CONV_FIX_FLOAT
4741deb15c8SPeter Maydell #undef VFP_CONV_FLOAT_FIX_ROUND
4751deb15c8SPeter Maydell #undef VFP_CONV_FIX_A64
4761deb15c8SPeter Maydell
4771deb15c8SPeter Maydell /* Set the current fp rounding mode and return the old one.
4781deb15c8SPeter Maydell * The argument is a softfloat float_round_ value.
4791deb15c8SPeter Maydell */
HELPER(set_rmode)4801deb15c8SPeter Maydell uint32_t HELPER(set_rmode)(uint32_t rmode, float_status *fp_status)
4811deb15c8SPeter Maydell {
4821deb15c8SPeter Maydell uint32_t prev_rmode = get_float_rounding_mode(fp_status);
4831deb15c8SPeter Maydell set_float_rounding_mode(rmode, fp_status);
4841deb15c8SPeter Maydell
4851deb15c8SPeter Maydell return prev_rmode;
4861deb15c8SPeter Maydell }
4871deb15c8SPeter Maydell
4881deb15c8SPeter Maydell /* Half precision conversions. */
HELPER(vfp_fcvt_f16_to_f32)4891deb15c8SPeter Maydell float32 HELPER(vfp_fcvt_f16_to_f32)(uint32_t a, float_status *fpst,
4901deb15c8SPeter Maydell uint32_t ahp_mode)
4911deb15c8SPeter Maydell {
4921deb15c8SPeter Maydell /* Squash FZ16 to 0 for the duration of conversion. In this case,
4931deb15c8SPeter Maydell * it would affect flushing input denormals.
4941deb15c8SPeter Maydell */
4951deb15c8SPeter Maydell bool save = get_flush_inputs_to_zero(fpst);
4961deb15c8SPeter Maydell set_flush_inputs_to_zero(false, fpst);
4971deb15c8SPeter Maydell float32 r = float16_to_float32(a, !ahp_mode, fpst);
4981deb15c8SPeter Maydell set_flush_inputs_to_zero(save, fpst);
4991deb15c8SPeter Maydell return r;
5001deb15c8SPeter Maydell }
5011deb15c8SPeter Maydell
HELPER(vfp_fcvt_f32_to_f16)5021deb15c8SPeter Maydell uint32_t HELPER(vfp_fcvt_f32_to_f16)(float32 a, float_status *fpst,
5031deb15c8SPeter Maydell uint32_t ahp_mode)
5041deb15c8SPeter Maydell {
5051deb15c8SPeter Maydell /* Squash FZ16 to 0 for the duration of conversion. In this case,
5061deb15c8SPeter Maydell * it would affect flushing output denormals.
5071deb15c8SPeter Maydell */
5081deb15c8SPeter Maydell bool save = get_flush_to_zero(fpst);
5091deb15c8SPeter Maydell set_flush_to_zero(false, fpst);
5101deb15c8SPeter Maydell float16 r = float32_to_float16(a, !ahp_mode, fpst);
5111deb15c8SPeter Maydell set_flush_to_zero(save, fpst);
5121deb15c8SPeter Maydell return r;
5131deb15c8SPeter Maydell }
5141deb15c8SPeter Maydell
HELPER(vfp_fcvt_f16_to_f64)5151deb15c8SPeter Maydell float64 HELPER(vfp_fcvt_f16_to_f64)(uint32_t a, float_status *fpst,
5161deb15c8SPeter Maydell uint32_t ahp_mode)
5171deb15c8SPeter Maydell {
5181deb15c8SPeter Maydell /* Squash FZ16 to 0 for the duration of conversion. In this case,
5191deb15c8SPeter Maydell * it would affect flushing input denormals.
5201deb15c8SPeter Maydell */
5211deb15c8SPeter Maydell bool save = get_flush_inputs_to_zero(fpst);
5221deb15c8SPeter Maydell set_flush_inputs_to_zero(false, fpst);
5231deb15c8SPeter Maydell float64 r = float16_to_float64(a, !ahp_mode, fpst);
5241deb15c8SPeter Maydell set_flush_inputs_to_zero(save, fpst);
5251deb15c8SPeter Maydell return r;
5261deb15c8SPeter Maydell }
5271deb15c8SPeter Maydell
HELPER(vfp_fcvt_f64_to_f16)5281deb15c8SPeter Maydell uint32_t HELPER(vfp_fcvt_f64_to_f16)(float64 a, float_status *fpst,
5291deb15c8SPeter Maydell uint32_t ahp_mode)
5301deb15c8SPeter Maydell {
5311deb15c8SPeter Maydell /* Squash FZ16 to 0 for the duration of conversion. In this case,
5321deb15c8SPeter Maydell * it would affect flushing output denormals.
5331deb15c8SPeter Maydell */
5341deb15c8SPeter Maydell bool save = get_flush_to_zero(fpst);
5351deb15c8SPeter Maydell set_flush_to_zero(false, fpst);
5361deb15c8SPeter Maydell float16 r = float64_to_float16(a, !ahp_mode, fpst);
5371deb15c8SPeter Maydell set_flush_to_zero(save, fpst);
5381deb15c8SPeter Maydell return r;
5391deb15c8SPeter Maydell }
5401deb15c8SPeter Maydell
5411deb15c8SPeter Maydell /* NEON helpers. */
5421deb15c8SPeter Maydell
5431deb15c8SPeter Maydell /* Constants 256 and 512 are used in some helpers; we avoid relying on
5441deb15c8SPeter Maydell * int->float conversions at run-time. */
5451deb15c8SPeter Maydell #define float64_256 make_float64(0x4070000000000000LL)
5461deb15c8SPeter Maydell #define float64_512 make_float64(0x4080000000000000LL)
5471deb15c8SPeter Maydell #define float16_maxnorm make_float16(0x7bff)
5481deb15c8SPeter Maydell #define float32_maxnorm make_float32(0x7f7fffff)
5491deb15c8SPeter Maydell #define float64_maxnorm make_float64(0x7fefffffffffffffLL)
5501deb15c8SPeter Maydell
5511deb15c8SPeter Maydell /* Reciprocal functions
5521deb15c8SPeter Maydell *
5531deb15c8SPeter Maydell * The algorithm that must be used to calculate the estimate
5541deb15c8SPeter Maydell * is specified by the ARM ARM, see FPRecipEstimate()/RecipEstimate
5551deb15c8SPeter Maydell */
5561deb15c8SPeter Maydell
5571deb15c8SPeter Maydell /* See RecipEstimate()
5581deb15c8SPeter Maydell *
5591deb15c8SPeter Maydell * input is a 9 bit fixed point number
5601deb15c8SPeter Maydell * input range 256 .. 511 for a number from 0.5 <= x < 1.0.
5611deb15c8SPeter Maydell * result range 256 .. 511 for a number from 1.0 to 511/256.
5621deb15c8SPeter Maydell */
5631deb15c8SPeter Maydell
recip_estimate(int input)5641deb15c8SPeter Maydell static int recip_estimate(int input)
5651deb15c8SPeter Maydell {
5661deb15c8SPeter Maydell int a, b, r;
5671deb15c8SPeter Maydell assert(256 <= input && input < 512);
5681deb15c8SPeter Maydell a = (input * 2) + 1;
5691deb15c8SPeter Maydell b = (1 << 19) / a;
5701deb15c8SPeter Maydell r = (b + 1) >> 1;
5711deb15c8SPeter Maydell assert(256 <= r && r < 512);
5721deb15c8SPeter Maydell return r;
5731deb15c8SPeter Maydell }
5741deb15c8SPeter Maydell
5751deb15c8SPeter Maydell /*
5761deb15c8SPeter Maydell * Increased precision version:
5771deb15c8SPeter Maydell * input is a 13 bit fixed point number
5781deb15c8SPeter Maydell * input range 2048 .. 4095 for a number from 0.5 <= x < 1.0.
5791deb15c8SPeter Maydell * result range 4096 .. 8191 for a number from 1.0 to 2.0
5801deb15c8SPeter Maydell */
recip_estimate_incprec(int input)5811deb15c8SPeter Maydell static int recip_estimate_incprec(int input)
5821deb15c8SPeter Maydell {
5831deb15c8SPeter Maydell int a, b, r;
5841deb15c8SPeter Maydell assert(2048 <= input && input < 4096);
5851deb15c8SPeter Maydell a = (input * 2) + 1;
5861deb15c8SPeter Maydell /*
5871deb15c8SPeter Maydell * The pseudocode expresses this as an operation on infinite
5881deb15c8SPeter Maydell * precision reals where it calculates 2^25 / a and then looks
5891deb15c8SPeter Maydell * at the error between that and the rounded-down-to-integer
5901deb15c8SPeter Maydell * value to see if it should instead round up. We instead
5911deb15c8SPeter Maydell * follow the same approach as the pseudocode for the 8-bit
5921deb15c8SPeter Maydell * precision version, and calculate (2 * (2^25 / a)) as an
5931deb15c8SPeter Maydell * integer so we can do the "add one and halve" to round it.
5941deb15c8SPeter Maydell * So the 1 << 26 here is correct.
5951deb15c8SPeter Maydell */
5961deb15c8SPeter Maydell b = (1 << 26) / a;
5971deb15c8SPeter Maydell r = (b + 1) >> 1;
5981deb15c8SPeter Maydell assert(4096 <= r && r < 8192);
5991deb15c8SPeter Maydell return r;
6001deb15c8SPeter Maydell }
6011deb15c8SPeter Maydell
6021deb15c8SPeter Maydell /*
6031deb15c8SPeter Maydell * Common wrapper to call recip_estimate
6041deb15c8SPeter Maydell *
6051deb15c8SPeter Maydell * The parameters are exponent and 64 bit fraction (without implicit
6061deb15c8SPeter Maydell * bit) where the binary point is nominally at bit 52. Returns a
6071deb15c8SPeter Maydell * float64 which can then be rounded to the appropriate size by the
6081deb15c8SPeter Maydell * callee.
6091deb15c8SPeter Maydell */
6101deb15c8SPeter Maydell
call_recip_estimate(int * exp,int exp_off,uint64_t frac,bool increasedprecision)6111deb15c8SPeter Maydell static uint64_t call_recip_estimate(int *exp, int exp_off, uint64_t frac,
6121deb15c8SPeter Maydell bool increasedprecision)
6131deb15c8SPeter Maydell {
6141deb15c8SPeter Maydell uint32_t scaled, estimate;
6151deb15c8SPeter Maydell uint64_t result_frac;
6161deb15c8SPeter Maydell int result_exp;
6171deb15c8SPeter Maydell
6181deb15c8SPeter Maydell /* Handle sub-normals */
6191deb15c8SPeter Maydell if (*exp == 0) {
6201deb15c8SPeter Maydell if (extract64(frac, 51, 1) == 0) {
6211deb15c8SPeter Maydell *exp = -1;
6221deb15c8SPeter Maydell frac <<= 2;
6231deb15c8SPeter Maydell } else {
6241deb15c8SPeter Maydell frac <<= 1;
6251deb15c8SPeter Maydell }
6261deb15c8SPeter Maydell }
6271deb15c8SPeter Maydell
6281deb15c8SPeter Maydell if (increasedprecision) {
6291deb15c8SPeter Maydell /* scaled = UInt('1':fraction<51:41>) */
6301deb15c8SPeter Maydell scaled = deposit32(1 << 11, 0, 11, extract64(frac, 41, 11));
6311deb15c8SPeter Maydell estimate = recip_estimate_incprec(scaled);
6321deb15c8SPeter Maydell } else {
6331deb15c8SPeter Maydell /* scaled = UInt('1':fraction<51:44>) */
6341deb15c8SPeter Maydell scaled = deposit32(1 << 8, 0, 8, extract64(frac, 44, 8));
6351deb15c8SPeter Maydell estimate = recip_estimate(scaled);
6361deb15c8SPeter Maydell }
6371deb15c8SPeter Maydell
6381deb15c8SPeter Maydell result_exp = exp_off - *exp;
6391deb15c8SPeter Maydell if (increasedprecision) {
6401deb15c8SPeter Maydell result_frac = deposit64(0, 40, 12, estimate);
6411deb15c8SPeter Maydell } else {
6421deb15c8SPeter Maydell result_frac = deposit64(0, 44, 8, estimate);
6431deb15c8SPeter Maydell }
6441deb15c8SPeter Maydell if (result_exp == 0) {
6451deb15c8SPeter Maydell result_frac = deposit64(result_frac >> 1, 51, 1, 1);
6461deb15c8SPeter Maydell } else if (result_exp == -1) {
6471deb15c8SPeter Maydell result_frac = deposit64(result_frac >> 2, 50, 2, 1);
6481deb15c8SPeter Maydell result_exp = 0;
6491deb15c8SPeter Maydell }
6501deb15c8SPeter Maydell
6511deb15c8SPeter Maydell *exp = result_exp;
6521deb15c8SPeter Maydell
6531deb15c8SPeter Maydell return result_frac;
6541deb15c8SPeter Maydell }
6551deb15c8SPeter Maydell
round_to_inf(float_status * fpst,bool sign_bit)6561deb15c8SPeter Maydell static bool round_to_inf(float_status *fpst, bool sign_bit)
6571deb15c8SPeter Maydell {
6581deb15c8SPeter Maydell switch (fpst->float_rounding_mode) {
6591deb15c8SPeter Maydell case float_round_nearest_even: /* Round to Nearest */
6601deb15c8SPeter Maydell return true;
6611deb15c8SPeter Maydell case float_round_up: /* Round to +Inf */
6621deb15c8SPeter Maydell return !sign_bit;
6631deb15c8SPeter Maydell case float_round_down: /* Round to -Inf */
6641deb15c8SPeter Maydell return sign_bit;
6651deb15c8SPeter Maydell case float_round_to_zero: /* Round to Zero */
6661deb15c8SPeter Maydell return false;
6671deb15c8SPeter Maydell default:
6681deb15c8SPeter Maydell g_assert_not_reached();
6691deb15c8SPeter Maydell }
6701deb15c8SPeter Maydell }
6711deb15c8SPeter Maydell
HELPER(recpe_f16)6721deb15c8SPeter Maydell uint32_t HELPER(recpe_f16)(uint32_t input, float_status *fpst)
6731deb15c8SPeter Maydell {
6741deb15c8SPeter Maydell float16 f16 = float16_squash_input_denormal(input, fpst);
6751deb15c8SPeter Maydell uint32_t f16_val = float16_val(f16);
6761deb15c8SPeter Maydell uint32_t f16_sign = float16_is_neg(f16);
6771deb15c8SPeter Maydell int f16_exp = extract32(f16_val, 10, 5);
6781deb15c8SPeter Maydell uint32_t f16_frac = extract32(f16_val, 0, 10);
6791deb15c8SPeter Maydell uint64_t f64_frac;
6801deb15c8SPeter Maydell
6811deb15c8SPeter Maydell if (float16_is_any_nan(f16)) {
6821deb15c8SPeter Maydell float16 nan = f16;
6831deb15c8SPeter Maydell if (float16_is_signaling_nan(f16, fpst)) {
6841deb15c8SPeter Maydell float_raise(float_flag_invalid, fpst);
6851deb15c8SPeter Maydell if (!fpst->default_nan_mode) {
6861deb15c8SPeter Maydell nan = float16_silence_nan(f16, fpst);
6871deb15c8SPeter Maydell }
6881deb15c8SPeter Maydell }
6891deb15c8SPeter Maydell if (fpst->default_nan_mode) {
6901deb15c8SPeter Maydell nan = float16_default_nan(fpst);
6911deb15c8SPeter Maydell }
6921deb15c8SPeter Maydell return nan;
6931deb15c8SPeter Maydell } else if (float16_is_infinity(f16)) {
6941deb15c8SPeter Maydell return float16_set_sign(float16_zero, float16_is_neg(f16));
6951deb15c8SPeter Maydell } else if (float16_is_zero(f16)) {
6961deb15c8SPeter Maydell float_raise(float_flag_divbyzero, fpst);
6971deb15c8SPeter Maydell return float16_set_sign(float16_infinity, float16_is_neg(f16));
6981deb15c8SPeter Maydell } else if (float16_abs(f16) < (1 << 8)) {
6991deb15c8SPeter Maydell /* Abs(value) < 2.0^-16 */
7001deb15c8SPeter Maydell float_raise(float_flag_overflow | float_flag_inexact, fpst);
7011deb15c8SPeter Maydell if (round_to_inf(fpst, f16_sign)) {
7021deb15c8SPeter Maydell return float16_set_sign(float16_infinity, f16_sign);
7031deb15c8SPeter Maydell } else {
7041deb15c8SPeter Maydell return float16_set_sign(float16_maxnorm, f16_sign);
7051deb15c8SPeter Maydell }
7061deb15c8SPeter Maydell } else if (f16_exp >= 29 && fpst->flush_to_zero) {
7071deb15c8SPeter Maydell float_raise(float_flag_underflow, fpst);
7081deb15c8SPeter Maydell return float16_set_sign(float16_zero, float16_is_neg(f16));
7091deb15c8SPeter Maydell }
7101deb15c8SPeter Maydell
7111deb15c8SPeter Maydell f64_frac = call_recip_estimate(&f16_exp, 29,
7121deb15c8SPeter Maydell ((uint64_t) f16_frac) << (52 - 10), false);
7131deb15c8SPeter Maydell
7141deb15c8SPeter Maydell /* result = sign : result_exp<4:0> : fraction<51:42> */
7151deb15c8SPeter Maydell f16_val = deposit32(0, 15, 1, f16_sign);
7161deb15c8SPeter Maydell f16_val = deposit32(f16_val, 10, 5, f16_exp);
7171deb15c8SPeter Maydell f16_val = deposit32(f16_val, 0, 10, extract64(f64_frac, 52 - 10, 10));
7181deb15c8SPeter Maydell return make_float16(f16_val);
7191deb15c8SPeter Maydell }
7201deb15c8SPeter Maydell
7211deb15c8SPeter Maydell /*
7221deb15c8SPeter Maydell * FEAT_RPRES means the f32 FRECPE has an "increased precision" variant
7231deb15c8SPeter Maydell * which is used when FPCR.AH == 1.
7241deb15c8SPeter Maydell */
do_recpe_f32(float32 input,float_status * fpst,bool rpres)7251deb15c8SPeter Maydell static float32 do_recpe_f32(float32 input, float_status *fpst, bool rpres)
7261deb15c8SPeter Maydell {
7271deb15c8SPeter Maydell float32 f32 = float32_squash_input_denormal(input, fpst);
7281deb15c8SPeter Maydell uint32_t f32_val = float32_val(f32);
7291deb15c8SPeter Maydell bool f32_sign = float32_is_neg(f32);
7301deb15c8SPeter Maydell int f32_exp = extract32(f32_val, 23, 8);
7311deb15c8SPeter Maydell uint32_t f32_frac = extract32(f32_val, 0, 23);
7321deb15c8SPeter Maydell uint64_t f64_frac;
7331deb15c8SPeter Maydell
7341deb15c8SPeter Maydell if (float32_is_any_nan(f32)) {
7351deb15c8SPeter Maydell float32 nan = f32;
7361deb15c8SPeter Maydell if (float32_is_signaling_nan(f32, fpst)) {
7371deb15c8SPeter Maydell float_raise(float_flag_invalid, fpst);
7381deb15c8SPeter Maydell if (!fpst->default_nan_mode) {
7391deb15c8SPeter Maydell nan = float32_silence_nan(f32, fpst);
7401deb15c8SPeter Maydell }
7411deb15c8SPeter Maydell }
7421deb15c8SPeter Maydell if (fpst->default_nan_mode) {
7431deb15c8SPeter Maydell nan = float32_default_nan(fpst);
7441deb15c8SPeter Maydell }
7451deb15c8SPeter Maydell return nan;
7461deb15c8SPeter Maydell } else if (float32_is_infinity(f32)) {
7471deb15c8SPeter Maydell return float32_set_sign(float32_zero, float32_is_neg(f32));
7481deb15c8SPeter Maydell } else if (float32_is_zero(f32)) {
7491deb15c8SPeter Maydell float_raise(float_flag_divbyzero, fpst);
7501deb15c8SPeter Maydell return float32_set_sign(float32_infinity, float32_is_neg(f32));
7511deb15c8SPeter Maydell } else if (float32_abs(f32) < (1ULL << 21)) {
7521deb15c8SPeter Maydell /* Abs(value) < 2.0^-128 */
7531deb15c8SPeter Maydell float_raise(float_flag_overflow | float_flag_inexact, fpst);
7541deb15c8SPeter Maydell if (round_to_inf(fpst, f32_sign)) {
7551deb15c8SPeter Maydell return float32_set_sign(float32_infinity, f32_sign);
7561deb15c8SPeter Maydell } else {
7571deb15c8SPeter Maydell return float32_set_sign(float32_maxnorm, f32_sign);
7581deb15c8SPeter Maydell }
7591deb15c8SPeter Maydell } else if (f32_exp >= 253 && fpst->flush_to_zero) {
7601deb15c8SPeter Maydell float_raise(float_flag_underflow, fpst);
7611deb15c8SPeter Maydell return float32_set_sign(float32_zero, float32_is_neg(f32));
7621deb15c8SPeter Maydell }
7631deb15c8SPeter Maydell
7641deb15c8SPeter Maydell f64_frac = call_recip_estimate(&f32_exp, 253,
7651deb15c8SPeter Maydell ((uint64_t) f32_frac) << (52 - 23), rpres);
7661deb15c8SPeter Maydell
7671deb15c8SPeter Maydell /* result = sign : result_exp<7:0> : fraction<51:29> */
7681deb15c8SPeter Maydell f32_val = deposit32(0, 31, 1, f32_sign);
7691deb15c8SPeter Maydell f32_val = deposit32(f32_val, 23, 8, f32_exp);
7701deb15c8SPeter Maydell f32_val = deposit32(f32_val, 0, 23, extract64(f64_frac, 52 - 23, 23));
7711deb15c8SPeter Maydell return make_float32(f32_val);
7721deb15c8SPeter Maydell }
7731deb15c8SPeter Maydell
HELPER(recpe_f32)7741deb15c8SPeter Maydell float32 HELPER(recpe_f32)(float32 input, float_status *fpst)
7751deb15c8SPeter Maydell {
7761deb15c8SPeter Maydell return do_recpe_f32(input, fpst, false);
7771deb15c8SPeter Maydell }
7781deb15c8SPeter Maydell
HELPER(recpe_rpres_f32)7791deb15c8SPeter Maydell float32 HELPER(recpe_rpres_f32)(float32 input, float_status *fpst)
7801deb15c8SPeter Maydell {
7811deb15c8SPeter Maydell return do_recpe_f32(input, fpst, true);
7821deb15c8SPeter Maydell }
7831deb15c8SPeter Maydell
HELPER(recpe_f64)7841deb15c8SPeter Maydell float64 HELPER(recpe_f64)(float64 input, float_status *fpst)
7851deb15c8SPeter Maydell {
7861deb15c8SPeter Maydell float64 f64 = float64_squash_input_denormal(input, fpst);
7871deb15c8SPeter Maydell uint64_t f64_val = float64_val(f64);
7881deb15c8SPeter Maydell bool f64_sign = float64_is_neg(f64);
7891deb15c8SPeter Maydell int f64_exp = extract64(f64_val, 52, 11);
7901deb15c8SPeter Maydell uint64_t f64_frac = extract64(f64_val, 0, 52);
7911deb15c8SPeter Maydell
7921deb15c8SPeter Maydell /* Deal with any special cases */
7931deb15c8SPeter Maydell if (float64_is_any_nan(f64)) {
7941deb15c8SPeter Maydell float64 nan = f64;
7951deb15c8SPeter Maydell if (float64_is_signaling_nan(f64, fpst)) {
7961deb15c8SPeter Maydell float_raise(float_flag_invalid, fpst);
7971deb15c8SPeter Maydell if (!fpst->default_nan_mode) {
7981deb15c8SPeter Maydell nan = float64_silence_nan(f64, fpst);
7991deb15c8SPeter Maydell }
8001deb15c8SPeter Maydell }
8011deb15c8SPeter Maydell if (fpst->default_nan_mode) {
8021deb15c8SPeter Maydell nan = float64_default_nan(fpst);
8031deb15c8SPeter Maydell }
8041deb15c8SPeter Maydell return nan;
8051deb15c8SPeter Maydell } else if (float64_is_infinity(f64)) {
8061deb15c8SPeter Maydell return float64_set_sign(float64_zero, float64_is_neg(f64));
8071deb15c8SPeter Maydell } else if (float64_is_zero(f64)) {
8081deb15c8SPeter Maydell float_raise(float_flag_divbyzero, fpst);
8091deb15c8SPeter Maydell return float64_set_sign(float64_infinity, float64_is_neg(f64));
8101deb15c8SPeter Maydell } else if ((f64_val & ~(1ULL << 63)) < (1ULL << 50)) {
8111deb15c8SPeter Maydell /* Abs(value) < 2.0^-1024 */
8121deb15c8SPeter Maydell float_raise(float_flag_overflow | float_flag_inexact, fpst);
8131deb15c8SPeter Maydell if (round_to_inf(fpst, f64_sign)) {
8141deb15c8SPeter Maydell return float64_set_sign(float64_infinity, f64_sign);
8151deb15c8SPeter Maydell } else {
8161deb15c8SPeter Maydell return float64_set_sign(float64_maxnorm, f64_sign);
8171deb15c8SPeter Maydell }
8181deb15c8SPeter Maydell } else if (f64_exp >= 2045 && fpst->flush_to_zero) {
8191deb15c8SPeter Maydell float_raise(float_flag_underflow, fpst);
8201deb15c8SPeter Maydell return float64_set_sign(float64_zero, float64_is_neg(f64));
8211deb15c8SPeter Maydell }
8221deb15c8SPeter Maydell
8231deb15c8SPeter Maydell f64_frac = call_recip_estimate(&f64_exp, 2045, f64_frac, false);
8241deb15c8SPeter Maydell
8251deb15c8SPeter Maydell /* result = sign : result_exp<10:0> : fraction<51:0>; */
8261deb15c8SPeter Maydell f64_val = deposit64(0, 63, 1, f64_sign);
8271deb15c8SPeter Maydell f64_val = deposit64(f64_val, 52, 11, f64_exp);
8281deb15c8SPeter Maydell f64_val = deposit64(f64_val, 0, 52, f64_frac);
8291deb15c8SPeter Maydell return make_float64(f64_val);
8301deb15c8SPeter Maydell }
8311deb15c8SPeter Maydell
8321deb15c8SPeter Maydell /* The algorithm that must be used to calculate the estimate
8331deb15c8SPeter Maydell * is specified by the ARM ARM.
8341deb15c8SPeter Maydell */
8351deb15c8SPeter Maydell
do_recip_sqrt_estimate(int a)8361deb15c8SPeter Maydell static int do_recip_sqrt_estimate(int a)
8371deb15c8SPeter Maydell {
8381deb15c8SPeter Maydell int b, estimate;
8391deb15c8SPeter Maydell
8401deb15c8SPeter Maydell assert(128 <= a && a < 512);
8411deb15c8SPeter Maydell if (a < 256) {
8421deb15c8SPeter Maydell a = a * 2 + 1;
8431deb15c8SPeter Maydell } else {
8441deb15c8SPeter Maydell a = (a >> 1) << 1;
8451deb15c8SPeter Maydell a = (a + 1) * 2;
8461deb15c8SPeter Maydell }
8471deb15c8SPeter Maydell b = 512;
8481deb15c8SPeter Maydell while (a * (b + 1) * (b + 1) < (1 << 28)) {
8491deb15c8SPeter Maydell b += 1;
8501deb15c8SPeter Maydell }
8511deb15c8SPeter Maydell estimate = (b + 1) / 2;
8521deb15c8SPeter Maydell assert(256 <= estimate && estimate < 512);
8531deb15c8SPeter Maydell
8541deb15c8SPeter Maydell return estimate;
8551deb15c8SPeter Maydell }
8561deb15c8SPeter Maydell
do_recip_sqrt_estimate_incprec(int a)8571deb15c8SPeter Maydell static int do_recip_sqrt_estimate_incprec(int a)
8581deb15c8SPeter Maydell {
8591deb15c8SPeter Maydell /*
8601deb15c8SPeter Maydell * The Arm ARM describes the 12-bit precision version of RecipSqrtEstimate
8611deb15c8SPeter Maydell * in terms of an infinite-precision floating point calculation of a
8621deb15c8SPeter Maydell * square root. We implement this using the same kind of pure integer
8631deb15c8SPeter Maydell * algorithm as the 8-bit mantissa, to get the same bit-for-bit result.
8641deb15c8SPeter Maydell */
8651deb15c8SPeter Maydell int64_t b, estimate;
8661deb15c8SPeter Maydell
8671deb15c8SPeter Maydell assert(1024 <= a && a < 4096);
8681deb15c8SPeter Maydell if (a < 2048) {
8691deb15c8SPeter Maydell a = a * 2 + 1;
8701deb15c8SPeter Maydell } else {
8711deb15c8SPeter Maydell a = (a >> 1) << 1;
8721deb15c8SPeter Maydell a = (a + 1) * 2;
8731deb15c8SPeter Maydell }
8741deb15c8SPeter Maydell b = 8192;
8751deb15c8SPeter Maydell while (a * (b + 1) * (b + 1) < (1ULL << 39)) {
8761deb15c8SPeter Maydell b += 1;
8771deb15c8SPeter Maydell }
8781deb15c8SPeter Maydell estimate = (b + 1) / 2;
8791deb15c8SPeter Maydell
8801deb15c8SPeter Maydell assert(4096 <= estimate && estimate < 8192);
8811deb15c8SPeter Maydell
8821deb15c8SPeter Maydell return estimate;
8831deb15c8SPeter Maydell }
8841deb15c8SPeter Maydell
recip_sqrt_estimate(int * exp,int exp_off,uint64_t frac,bool increasedprecision)8851deb15c8SPeter Maydell static uint64_t recip_sqrt_estimate(int *exp , int exp_off, uint64_t frac,
8861deb15c8SPeter Maydell bool increasedprecision)
8871deb15c8SPeter Maydell {
8881deb15c8SPeter Maydell int estimate;
8891deb15c8SPeter Maydell uint32_t scaled;
8901deb15c8SPeter Maydell
8911deb15c8SPeter Maydell if (*exp == 0) {
8921deb15c8SPeter Maydell while (extract64(frac, 51, 1) == 0) {
8931deb15c8SPeter Maydell frac = frac << 1;
8941deb15c8SPeter Maydell *exp -= 1;
8951deb15c8SPeter Maydell }
8961deb15c8SPeter Maydell frac = extract64(frac, 0, 51) << 1;
8971deb15c8SPeter Maydell }
8981deb15c8SPeter Maydell
8991deb15c8SPeter Maydell if (increasedprecision) {
9001deb15c8SPeter Maydell if (*exp & 1) {
9011deb15c8SPeter Maydell /* scaled = UInt('01':fraction<51:42>) */
9021deb15c8SPeter Maydell scaled = deposit32(1 << 10, 0, 10, extract64(frac, 42, 10));
9031deb15c8SPeter Maydell } else {
9041deb15c8SPeter Maydell /* scaled = UInt('1':fraction<51:41>) */
9051deb15c8SPeter Maydell scaled = deposit32(1 << 11, 0, 11, extract64(frac, 41, 11));
9061deb15c8SPeter Maydell }
9071deb15c8SPeter Maydell estimate = do_recip_sqrt_estimate_incprec(scaled);
9081deb15c8SPeter Maydell } else {
9091deb15c8SPeter Maydell if (*exp & 1) {
9101deb15c8SPeter Maydell /* scaled = UInt('01':fraction<51:45>) */
9111deb15c8SPeter Maydell scaled = deposit32(1 << 7, 0, 7, extract64(frac, 45, 7));
9121deb15c8SPeter Maydell } else {
9131deb15c8SPeter Maydell /* scaled = UInt('1':fraction<51:44>) */
9141deb15c8SPeter Maydell scaled = deposit32(1 << 8, 0, 8, extract64(frac, 44, 8));
9151deb15c8SPeter Maydell }
9161deb15c8SPeter Maydell estimate = do_recip_sqrt_estimate(scaled);
9171deb15c8SPeter Maydell }
9181deb15c8SPeter Maydell
9191deb15c8SPeter Maydell *exp = (exp_off - *exp) / 2;
9201deb15c8SPeter Maydell if (increasedprecision) {
9211deb15c8SPeter Maydell return extract64(estimate, 0, 12) << 40;
9221deb15c8SPeter Maydell } else {
9231deb15c8SPeter Maydell return extract64(estimate, 0, 8) << 44;
9241deb15c8SPeter Maydell }
9251deb15c8SPeter Maydell }
9261deb15c8SPeter Maydell
HELPER(rsqrte_f16)9271deb15c8SPeter Maydell uint32_t HELPER(rsqrte_f16)(uint32_t input, float_status *s)
9281deb15c8SPeter Maydell {
9291deb15c8SPeter Maydell float16 f16 = float16_squash_input_denormal(input, s);
9301deb15c8SPeter Maydell uint16_t val = float16_val(f16);
9311deb15c8SPeter Maydell bool f16_sign = float16_is_neg(f16);
9321deb15c8SPeter Maydell int f16_exp = extract32(val, 10, 5);
9331deb15c8SPeter Maydell uint16_t f16_frac = extract32(val, 0, 10);
9341deb15c8SPeter Maydell uint64_t f64_frac;
9351deb15c8SPeter Maydell
9361deb15c8SPeter Maydell if (float16_is_any_nan(f16)) {
9371deb15c8SPeter Maydell float16 nan = f16;
9381deb15c8SPeter Maydell if (float16_is_signaling_nan(f16, s)) {
9391deb15c8SPeter Maydell float_raise(float_flag_invalid, s);
9401deb15c8SPeter Maydell if (!s->default_nan_mode) {
9411deb15c8SPeter Maydell nan = float16_silence_nan(f16, s);
9421deb15c8SPeter Maydell }
9431deb15c8SPeter Maydell }
9441deb15c8SPeter Maydell if (s->default_nan_mode) {
9451deb15c8SPeter Maydell nan = float16_default_nan(s);
9461deb15c8SPeter Maydell }
9471deb15c8SPeter Maydell return nan;
9481deb15c8SPeter Maydell } else if (float16_is_zero(f16)) {
9491deb15c8SPeter Maydell float_raise(float_flag_divbyzero, s);
9501deb15c8SPeter Maydell return float16_set_sign(float16_infinity, f16_sign);
9511deb15c8SPeter Maydell } else if (f16_sign) {
9521deb15c8SPeter Maydell float_raise(float_flag_invalid, s);
9531deb15c8SPeter Maydell return float16_default_nan(s);
9541deb15c8SPeter Maydell } else if (float16_is_infinity(f16)) {
9551deb15c8SPeter Maydell return float16_zero;
9561deb15c8SPeter Maydell }
9571deb15c8SPeter Maydell
9581deb15c8SPeter Maydell /* Scale and normalize to a double-precision value between 0.25 and 1.0,
9591deb15c8SPeter Maydell * preserving the parity of the exponent. */
9601deb15c8SPeter Maydell
9611deb15c8SPeter Maydell f64_frac = ((uint64_t) f16_frac) << (52 - 10);
9621deb15c8SPeter Maydell
9631deb15c8SPeter Maydell f64_frac = recip_sqrt_estimate(&f16_exp, 44, f64_frac, false);
9641deb15c8SPeter Maydell
9651deb15c8SPeter Maydell /* result = sign : result_exp<4:0> : estimate<7:0> : Zeros(2) */
9661deb15c8SPeter Maydell val = deposit32(0, 15, 1, f16_sign);
9671deb15c8SPeter Maydell val = deposit32(val, 10, 5, f16_exp);
9681deb15c8SPeter Maydell val = deposit32(val, 2, 8, extract64(f64_frac, 52 - 8, 8));
9691deb15c8SPeter Maydell return make_float16(val);
9701deb15c8SPeter Maydell }
9711deb15c8SPeter Maydell
9721deb15c8SPeter Maydell /*
9731deb15c8SPeter Maydell * FEAT_RPRES means the f32 FRSQRTE has an "increased precision" variant
9741deb15c8SPeter Maydell * which is used when FPCR.AH == 1.
9751deb15c8SPeter Maydell */
do_rsqrte_f32(float32 input,float_status * s,bool rpres)9761deb15c8SPeter Maydell static float32 do_rsqrte_f32(float32 input, float_status *s, bool rpres)
9771deb15c8SPeter Maydell {
9781deb15c8SPeter Maydell float32 f32 = float32_squash_input_denormal(input, s);
9791deb15c8SPeter Maydell uint32_t val = float32_val(f32);
9801deb15c8SPeter Maydell uint32_t f32_sign = float32_is_neg(f32);
9811deb15c8SPeter Maydell int f32_exp = extract32(val, 23, 8);
9821deb15c8SPeter Maydell uint32_t f32_frac = extract32(val, 0, 23);
9831deb15c8SPeter Maydell uint64_t f64_frac;
9841deb15c8SPeter Maydell
9851deb15c8SPeter Maydell if (float32_is_any_nan(f32)) {
9861deb15c8SPeter Maydell float32 nan = f32;
9871deb15c8SPeter Maydell if (float32_is_signaling_nan(f32, s)) {
9881deb15c8SPeter Maydell float_raise(float_flag_invalid, s);
9891deb15c8SPeter Maydell if (!s->default_nan_mode) {
9901deb15c8SPeter Maydell nan = float32_silence_nan(f32, s);
9911deb15c8SPeter Maydell }
9921deb15c8SPeter Maydell }
9931deb15c8SPeter Maydell if (s->default_nan_mode) {
9941deb15c8SPeter Maydell nan = float32_default_nan(s);
9951deb15c8SPeter Maydell }
9961deb15c8SPeter Maydell return nan;
9971deb15c8SPeter Maydell } else if (float32_is_zero(f32)) {
9981deb15c8SPeter Maydell float_raise(float_flag_divbyzero, s);
9991deb15c8SPeter Maydell return float32_set_sign(float32_infinity, float32_is_neg(f32));
10001deb15c8SPeter Maydell } else if (float32_is_neg(f32)) {
10011deb15c8SPeter Maydell float_raise(float_flag_invalid, s);
10021deb15c8SPeter Maydell return float32_default_nan(s);
10031deb15c8SPeter Maydell } else if (float32_is_infinity(f32)) {
10041deb15c8SPeter Maydell return float32_zero;
10051deb15c8SPeter Maydell }
10061deb15c8SPeter Maydell
10071deb15c8SPeter Maydell /* Scale and normalize to a double-precision value between 0.25 and 1.0,
10081deb15c8SPeter Maydell * preserving the parity of the exponent. */
10091deb15c8SPeter Maydell
10101deb15c8SPeter Maydell f64_frac = ((uint64_t) f32_frac) << 29;
10111deb15c8SPeter Maydell
10121deb15c8SPeter Maydell f64_frac = recip_sqrt_estimate(&f32_exp, 380, f64_frac, rpres);
10131deb15c8SPeter Maydell
10141deb15c8SPeter Maydell /*
10151deb15c8SPeter Maydell * result = sign : result_exp<7:0> : estimate<7:0> : Zeros(15)
10161deb15c8SPeter Maydell * or for increased precision
10171deb15c8SPeter Maydell * result = sign : result_exp<7:0> : estimate<11:0> : Zeros(11)
10181deb15c8SPeter Maydell */
10191deb15c8SPeter Maydell val = deposit32(0, 31, 1, f32_sign);
10201deb15c8SPeter Maydell val = deposit32(val, 23, 8, f32_exp);
10211deb15c8SPeter Maydell if (rpres) {
10221deb15c8SPeter Maydell val = deposit32(val, 11, 12, extract64(f64_frac, 52 - 12, 12));
10231deb15c8SPeter Maydell } else {
10241deb15c8SPeter Maydell val = deposit32(val, 15, 8, extract64(f64_frac, 52 - 8, 8));
10251deb15c8SPeter Maydell }
10261deb15c8SPeter Maydell return make_float32(val);
10271deb15c8SPeter Maydell }
10281deb15c8SPeter Maydell
HELPER(rsqrte_f32)10291deb15c8SPeter Maydell float32 HELPER(rsqrte_f32)(float32 input, float_status *s)
10301deb15c8SPeter Maydell {
10311deb15c8SPeter Maydell return do_rsqrte_f32(input, s, false);
10321deb15c8SPeter Maydell }
10331deb15c8SPeter Maydell
HELPER(rsqrte_rpres_f32)10341deb15c8SPeter Maydell float32 HELPER(rsqrte_rpres_f32)(float32 input, float_status *s)
10351deb15c8SPeter Maydell {
10361deb15c8SPeter Maydell return do_rsqrte_f32(input, s, true);
10371deb15c8SPeter Maydell }
10381deb15c8SPeter Maydell
HELPER(rsqrte_f64)10391deb15c8SPeter Maydell float64 HELPER(rsqrte_f64)(float64 input, float_status *s)
10401deb15c8SPeter Maydell {
10411deb15c8SPeter Maydell float64 f64 = float64_squash_input_denormal(input, s);
10421deb15c8SPeter Maydell uint64_t val = float64_val(f64);
10431deb15c8SPeter Maydell bool f64_sign = float64_is_neg(f64);
10441deb15c8SPeter Maydell int f64_exp = extract64(val, 52, 11);
10451deb15c8SPeter Maydell uint64_t f64_frac = extract64(val, 0, 52);
10461deb15c8SPeter Maydell
10471deb15c8SPeter Maydell if (float64_is_any_nan(f64)) {
10481deb15c8SPeter Maydell float64 nan = f64;
10491deb15c8SPeter Maydell if (float64_is_signaling_nan(f64, s)) {
10501deb15c8SPeter Maydell float_raise(float_flag_invalid, s);
10511deb15c8SPeter Maydell if (!s->default_nan_mode) {
10521deb15c8SPeter Maydell nan = float64_silence_nan(f64, s);
10531deb15c8SPeter Maydell }
10541deb15c8SPeter Maydell }
10551deb15c8SPeter Maydell if (s->default_nan_mode) {
10561deb15c8SPeter Maydell nan = float64_default_nan(s);
10571deb15c8SPeter Maydell }
10581deb15c8SPeter Maydell return nan;
10591deb15c8SPeter Maydell } else if (float64_is_zero(f64)) {
10601deb15c8SPeter Maydell float_raise(float_flag_divbyzero, s);
10611deb15c8SPeter Maydell return float64_set_sign(float64_infinity, float64_is_neg(f64));
10621deb15c8SPeter Maydell } else if (float64_is_neg(f64)) {
10631deb15c8SPeter Maydell float_raise(float_flag_invalid, s);
10641deb15c8SPeter Maydell return float64_default_nan(s);
10651deb15c8SPeter Maydell } else if (float64_is_infinity(f64)) {
10661deb15c8SPeter Maydell return float64_zero;
10671deb15c8SPeter Maydell }
10681deb15c8SPeter Maydell
10691deb15c8SPeter Maydell f64_frac = recip_sqrt_estimate(&f64_exp, 3068, f64_frac, false);
10701deb15c8SPeter Maydell
10711deb15c8SPeter Maydell /* result = sign : result_exp<4:0> : estimate<7:0> : Zeros(44) */
10721deb15c8SPeter Maydell val = deposit64(0, 61, 1, f64_sign);
10731deb15c8SPeter Maydell val = deposit64(val, 52, 11, f64_exp);
10741deb15c8SPeter Maydell val = deposit64(val, 44, 8, extract64(f64_frac, 52 - 8, 8));
10751deb15c8SPeter Maydell return make_float64(val);
10761deb15c8SPeter Maydell }
10771deb15c8SPeter Maydell
HELPER(recpe_u32)10781deb15c8SPeter Maydell uint32_t HELPER(recpe_u32)(uint32_t a)
10791deb15c8SPeter Maydell {
10801deb15c8SPeter Maydell int input, estimate;
10811deb15c8SPeter Maydell
10821deb15c8SPeter Maydell if ((a & 0x80000000) == 0) {
10831deb15c8SPeter Maydell return 0xffffffff;
10841deb15c8SPeter Maydell }
10851deb15c8SPeter Maydell
10861deb15c8SPeter Maydell input = extract32(a, 23, 9);
10871deb15c8SPeter Maydell estimate = recip_estimate(input);
10881deb15c8SPeter Maydell
10891deb15c8SPeter Maydell return deposit32(0, (32 - 9), 9, estimate);
10901deb15c8SPeter Maydell }
10911deb15c8SPeter Maydell
HELPER(rsqrte_u32)10921deb15c8SPeter Maydell uint32_t HELPER(rsqrte_u32)(uint32_t a)
10931deb15c8SPeter Maydell {
10941deb15c8SPeter Maydell int estimate;
10951deb15c8SPeter Maydell
10961deb15c8SPeter Maydell if ((a & 0xc0000000) == 0) {
10971deb15c8SPeter Maydell return 0xffffffff;
10981deb15c8SPeter Maydell }
10991deb15c8SPeter Maydell
11001deb15c8SPeter Maydell estimate = do_recip_sqrt_estimate(extract32(a, 23, 9));
11011deb15c8SPeter Maydell
11021deb15c8SPeter Maydell return deposit32(0, 23, 9, estimate);
11031deb15c8SPeter Maydell }
11041deb15c8SPeter Maydell
11051deb15c8SPeter Maydell /* VFPv4 fused multiply-accumulate */
VFP_HELPER(muladd,h)11061deb15c8SPeter Maydell dh_ctype_f16 VFP_HELPER(muladd, h)(dh_ctype_f16 a, dh_ctype_f16 b,
11071deb15c8SPeter Maydell dh_ctype_f16 c, float_status *fpst)
11081deb15c8SPeter Maydell {
11091deb15c8SPeter Maydell return float16_muladd(a, b, c, 0, fpst);
11101deb15c8SPeter Maydell }
11111deb15c8SPeter Maydell
VFP_HELPER(muladd,s)11121deb15c8SPeter Maydell float32 VFP_HELPER(muladd, s)(float32 a, float32 b, float32 c,
11131deb15c8SPeter Maydell float_status *fpst)
11141deb15c8SPeter Maydell {
11151deb15c8SPeter Maydell return float32_muladd(a, b, c, 0, fpst);
11161deb15c8SPeter Maydell }
11171deb15c8SPeter Maydell
VFP_HELPER(muladd,d)11181deb15c8SPeter Maydell float64 VFP_HELPER(muladd, d)(float64 a, float64 b, float64 c,
11191deb15c8SPeter Maydell float_status *fpst)
11201deb15c8SPeter Maydell {
11211deb15c8SPeter Maydell return float64_muladd(a, b, c, 0, fpst);
11221deb15c8SPeter Maydell }
11231deb15c8SPeter Maydell
11241deb15c8SPeter Maydell /* ARMv8 round to integral */
HELPER(rinth_exact)11251deb15c8SPeter Maydell dh_ctype_f16 HELPER(rinth_exact)(dh_ctype_f16 x, float_status *fp_status)
11261deb15c8SPeter Maydell {
11271deb15c8SPeter Maydell return float16_round_to_int(x, fp_status);
11281deb15c8SPeter Maydell }
11291deb15c8SPeter Maydell
HELPER(rints_exact)11301deb15c8SPeter Maydell float32 HELPER(rints_exact)(float32 x, float_status *fp_status)
11311deb15c8SPeter Maydell {
11321deb15c8SPeter Maydell return float32_round_to_int(x, fp_status);
11331deb15c8SPeter Maydell }
11341deb15c8SPeter Maydell
HELPER(rintd_exact)11351deb15c8SPeter Maydell float64 HELPER(rintd_exact)(float64 x, float_status *fp_status)
11361deb15c8SPeter Maydell {
11371deb15c8SPeter Maydell return float64_round_to_int(x, fp_status);
11381deb15c8SPeter Maydell }
11391deb15c8SPeter Maydell
HELPER(rinth)11401deb15c8SPeter Maydell dh_ctype_f16 HELPER(rinth)(dh_ctype_f16 x, float_status *fp_status)
11411deb15c8SPeter Maydell {
11421deb15c8SPeter Maydell int old_flags = get_float_exception_flags(fp_status), new_flags;
11431deb15c8SPeter Maydell float16 ret;
11441deb15c8SPeter Maydell
11451deb15c8SPeter Maydell ret = float16_round_to_int(x, fp_status);
11461deb15c8SPeter Maydell
11471deb15c8SPeter Maydell /* Suppress any inexact exceptions the conversion produced */
11481deb15c8SPeter Maydell if (!(old_flags & float_flag_inexact)) {
11491deb15c8SPeter Maydell new_flags = get_float_exception_flags(fp_status);
11501deb15c8SPeter Maydell set_float_exception_flags(new_flags & ~float_flag_inexact, fp_status);
11511deb15c8SPeter Maydell }
11521deb15c8SPeter Maydell
11531deb15c8SPeter Maydell return ret;
11541deb15c8SPeter Maydell }
11551deb15c8SPeter Maydell
HELPER(rints)11561deb15c8SPeter Maydell float32 HELPER(rints)(float32 x, float_status *fp_status)
11571deb15c8SPeter Maydell {
11581deb15c8SPeter Maydell int old_flags = get_float_exception_flags(fp_status), new_flags;
11591deb15c8SPeter Maydell float32 ret;
11601deb15c8SPeter Maydell
11611deb15c8SPeter Maydell ret = float32_round_to_int(x, fp_status);
11621deb15c8SPeter Maydell
11631deb15c8SPeter Maydell /* Suppress any inexact exceptions the conversion produced */
11641deb15c8SPeter Maydell if (!(old_flags & float_flag_inexact)) {
11651deb15c8SPeter Maydell new_flags = get_float_exception_flags(fp_status);
11661deb15c8SPeter Maydell set_float_exception_flags(new_flags & ~float_flag_inexact, fp_status);
11671deb15c8SPeter Maydell }
11681deb15c8SPeter Maydell
11691deb15c8SPeter Maydell return ret;
11701deb15c8SPeter Maydell }
11711deb15c8SPeter Maydell
HELPER(rintd)11721deb15c8SPeter Maydell float64 HELPER(rintd)(float64 x, float_status *fp_status)
11731deb15c8SPeter Maydell {
11741deb15c8SPeter Maydell int old_flags = get_float_exception_flags(fp_status), new_flags;
11751deb15c8SPeter Maydell float64 ret;
11761deb15c8SPeter Maydell
11771deb15c8SPeter Maydell ret = float64_round_to_int(x, fp_status);
11781deb15c8SPeter Maydell
11791deb15c8SPeter Maydell /* Suppress any inexact exceptions the conversion produced */
11801deb15c8SPeter Maydell if (!(old_flags & float_flag_inexact)) {
11811deb15c8SPeter Maydell new_flags = get_float_exception_flags(fp_status);
11821deb15c8SPeter Maydell set_float_exception_flags(new_flags & ~float_flag_inexact, fp_status);
11831deb15c8SPeter Maydell }
11841deb15c8SPeter Maydell
11851deb15c8SPeter Maydell return ret;
11861deb15c8SPeter Maydell }
11871deb15c8SPeter Maydell
11881deb15c8SPeter Maydell /* Convert ARM rounding mode to softfloat */
11891deb15c8SPeter Maydell const FloatRoundMode arm_rmode_to_sf_map[] = {
11901deb15c8SPeter Maydell [FPROUNDING_TIEEVEN] = float_round_nearest_even,
11911deb15c8SPeter Maydell [FPROUNDING_POSINF] = float_round_up,
11921deb15c8SPeter Maydell [FPROUNDING_NEGINF] = float_round_down,
11931deb15c8SPeter Maydell [FPROUNDING_ZERO] = float_round_to_zero,
11941deb15c8SPeter Maydell [FPROUNDING_TIEAWAY] = float_round_ties_away,
11951deb15c8SPeter Maydell [FPROUNDING_ODD] = float_round_to_odd,
11961deb15c8SPeter Maydell };
11971deb15c8SPeter Maydell
11981deb15c8SPeter Maydell /*
11991deb15c8SPeter Maydell * Implement float64 to int32_t conversion without saturation;
12001deb15c8SPeter Maydell * the result is supplied modulo 2^32.
12011deb15c8SPeter Maydell */
HELPER(fjcvtzs)12021deb15c8SPeter Maydell uint64_t HELPER(fjcvtzs)(float64 value, float_status *status)
12031deb15c8SPeter Maydell {
12041deb15c8SPeter Maydell uint32_t frac, e_old, e_new;
12051deb15c8SPeter Maydell bool inexact;
12061deb15c8SPeter Maydell
12071deb15c8SPeter Maydell e_old = get_float_exception_flags(status);
12081deb15c8SPeter Maydell set_float_exception_flags(0, status);
12091deb15c8SPeter Maydell frac = float64_to_int32_modulo(value, float_round_to_zero, status);
12101deb15c8SPeter Maydell e_new = get_float_exception_flags(status);
12111deb15c8SPeter Maydell set_float_exception_flags(e_old | e_new, status);
12121deb15c8SPeter Maydell
12131deb15c8SPeter Maydell /* Normal inexact, denormal with flush-to-zero, or overflow or NaN */
12141deb15c8SPeter Maydell inexact = e_new & (float_flag_inexact |
12151deb15c8SPeter Maydell float_flag_input_denormal_flushed |
12161deb15c8SPeter Maydell float_flag_invalid);
12171deb15c8SPeter Maydell
12181deb15c8SPeter Maydell /* While not inexact for IEEE FP, -0.0 is inexact for JavaScript. */
12191deb15c8SPeter Maydell inexact |= value == float64_chs(float64_zero);
12201deb15c8SPeter Maydell
12211deb15c8SPeter Maydell /* Pack the result and the env->ZF representation of Z together. */
12221deb15c8SPeter Maydell return deposit64(frac, 32, 32, inexact);
12231deb15c8SPeter Maydell }
12241deb15c8SPeter Maydell
HELPER(vjcvt)12251deb15c8SPeter Maydell uint32_t HELPER(vjcvt)(float64 value, CPUARMState *env)
12261deb15c8SPeter Maydell {
12271deb15c8SPeter Maydell uint64_t pair = HELPER(fjcvtzs)(value, &env->vfp.fp_status[FPST_A32]);
12281deb15c8SPeter Maydell uint32_t result = pair;
12291deb15c8SPeter Maydell uint32_t z = (pair >> 32) == 0;
12301deb15c8SPeter Maydell
12311deb15c8SPeter Maydell /* Store Z, clear NCV, in FPSCR.NZCV. */
12321deb15c8SPeter Maydell env->vfp.fpsr = (env->vfp.fpsr & ~FPSR_NZCV_MASK) | (z * FPSR_Z);
12331deb15c8SPeter Maydell
12341deb15c8SPeter Maydell return result;
12351deb15c8SPeter Maydell }
12361deb15c8SPeter Maydell
12371deb15c8SPeter Maydell /* Round a float32 to an integer that fits in int32_t or int64_t. */
frint_s(float32 f,float_status * fpst,int intsize)12381deb15c8SPeter Maydell static float32 frint_s(float32 f, float_status *fpst, int intsize)
12391deb15c8SPeter Maydell {
12401deb15c8SPeter Maydell int old_flags = get_float_exception_flags(fpst);
12411deb15c8SPeter Maydell uint32_t exp = extract32(f, 23, 8);
12421deb15c8SPeter Maydell
12431deb15c8SPeter Maydell if (unlikely(exp == 0xff)) {
12441deb15c8SPeter Maydell /* NaN or Inf. */
12451deb15c8SPeter Maydell goto overflow;
12461deb15c8SPeter Maydell }
12471deb15c8SPeter Maydell
12481deb15c8SPeter Maydell /* Round and re-extract the exponent. */
12491deb15c8SPeter Maydell f = float32_round_to_int(f, fpst);
12501deb15c8SPeter Maydell exp = extract32(f, 23, 8);
12511deb15c8SPeter Maydell
12521deb15c8SPeter Maydell /* Validate the range of the result. */
12531deb15c8SPeter Maydell if (exp < 126 + intsize) {
12541deb15c8SPeter Maydell /* abs(F) <= INT{N}_MAX */
12551deb15c8SPeter Maydell return f;
12561deb15c8SPeter Maydell }
12571deb15c8SPeter Maydell if (exp == 126 + intsize) {
12581deb15c8SPeter Maydell uint32_t sign = extract32(f, 31, 1);
12591deb15c8SPeter Maydell uint32_t frac = extract32(f, 0, 23);
12601deb15c8SPeter Maydell if (sign && frac == 0) {
12611deb15c8SPeter Maydell /* F == INT{N}_MIN */
12621deb15c8SPeter Maydell return f;
12631deb15c8SPeter Maydell }
12641deb15c8SPeter Maydell }
12651deb15c8SPeter Maydell
12661deb15c8SPeter Maydell overflow:
12671deb15c8SPeter Maydell /*
12681deb15c8SPeter Maydell * Raise Invalid and return INT{N}_MIN as a float. Revert any
12691deb15c8SPeter Maydell * inexact exception float32_round_to_int may have raised.
12701deb15c8SPeter Maydell */
12711deb15c8SPeter Maydell set_float_exception_flags(old_flags | float_flag_invalid, fpst);
12721deb15c8SPeter Maydell return (0x100u + 126u + intsize) << 23;
12731deb15c8SPeter Maydell }
12741deb15c8SPeter Maydell
HELPER(frint32_s)12751deb15c8SPeter Maydell float32 HELPER(frint32_s)(float32 f, float_status *fpst)
12761deb15c8SPeter Maydell {
12771deb15c8SPeter Maydell return frint_s(f, fpst, 32);
12781deb15c8SPeter Maydell }
12791deb15c8SPeter Maydell
HELPER(frint64_s)12801deb15c8SPeter Maydell float32 HELPER(frint64_s)(float32 f, float_status *fpst)
12811deb15c8SPeter Maydell {
12821deb15c8SPeter Maydell return frint_s(f, fpst, 64);
12831deb15c8SPeter Maydell }
12841deb15c8SPeter Maydell
12851deb15c8SPeter Maydell /* Round a float64 to an integer that fits in int32_t or int64_t. */
frint_d(float64 f,float_status * fpst,int intsize)12861deb15c8SPeter Maydell static float64 frint_d(float64 f, float_status *fpst, int intsize)
12871deb15c8SPeter Maydell {
12881deb15c8SPeter Maydell int old_flags = get_float_exception_flags(fpst);
12891deb15c8SPeter Maydell uint32_t exp = extract64(f, 52, 11);
12901deb15c8SPeter Maydell
12911deb15c8SPeter Maydell if (unlikely(exp == 0x7ff)) {
12921deb15c8SPeter Maydell /* NaN or Inf. */
12931deb15c8SPeter Maydell goto overflow;
12941deb15c8SPeter Maydell }
12951deb15c8SPeter Maydell
12961deb15c8SPeter Maydell /* Round and re-extract the exponent. */
12971deb15c8SPeter Maydell f = float64_round_to_int(f, fpst);
12981deb15c8SPeter Maydell exp = extract64(f, 52, 11);
12991deb15c8SPeter Maydell
13001deb15c8SPeter Maydell /* Validate the range of the result. */
13011deb15c8SPeter Maydell if (exp < 1022 + intsize) {
13021deb15c8SPeter Maydell /* abs(F) <= INT{N}_MAX */
13031deb15c8SPeter Maydell return f;
13041deb15c8SPeter Maydell }
13051deb15c8SPeter Maydell if (exp == 1022 + intsize) {
13061deb15c8SPeter Maydell uint64_t sign = extract64(f, 63, 1);
13071deb15c8SPeter Maydell uint64_t frac = extract64(f, 0, 52);
13081deb15c8SPeter Maydell if (sign && frac == 0) {
13091deb15c8SPeter Maydell /* F == INT{N}_MIN */
13101deb15c8SPeter Maydell return f;
13111deb15c8SPeter Maydell }
13121deb15c8SPeter Maydell }
13131deb15c8SPeter Maydell
13141deb15c8SPeter Maydell overflow:
13151deb15c8SPeter Maydell /*
13161deb15c8SPeter Maydell * Raise Invalid and return INT{N}_MIN as a float. Revert any
13171deb15c8SPeter Maydell * inexact exception float64_round_to_int may have raised.
13181deb15c8SPeter Maydell */
13191deb15c8SPeter Maydell set_float_exception_flags(old_flags | float_flag_invalid, fpst);
13201deb15c8SPeter Maydell return (uint64_t)(0x800 + 1022 + intsize) << 52;
13211deb15c8SPeter Maydell }
13221deb15c8SPeter Maydell
HELPER(frint32_d)13231deb15c8SPeter Maydell float64 HELPER(frint32_d)(float64 f, float_status *fpst)
13241deb15c8SPeter Maydell {
13251deb15c8SPeter Maydell return frint_d(f, fpst, 32);
13261deb15c8SPeter Maydell }
13271deb15c8SPeter Maydell
HELPER(frint64_d)13281deb15c8SPeter Maydell float64 HELPER(frint64_d)(float64 f, float_status *fpst)
13291deb15c8SPeter Maydell {
13301deb15c8SPeter Maydell return frint_d(f, fpst, 64);
13311deb15c8SPeter Maydell }
13321deb15c8SPeter Maydell
HELPER(check_hcr_el2_trap)13331deb15c8SPeter Maydell void HELPER(check_hcr_el2_trap)(CPUARMState *env, uint32_t rt, uint32_t reg)
13341deb15c8SPeter Maydell {
13351deb15c8SPeter Maydell uint32_t syndrome;
13361deb15c8SPeter Maydell
13371deb15c8SPeter Maydell switch (reg) {
13381deb15c8SPeter Maydell case ARM_VFP_MVFR0:
13391deb15c8SPeter Maydell case ARM_VFP_MVFR1:
13401deb15c8SPeter Maydell case ARM_VFP_MVFR2:
13411deb15c8SPeter Maydell if (!(arm_hcr_el2_eff(env) & HCR_TID3)) {
13421deb15c8SPeter Maydell return;
13431deb15c8SPeter Maydell }
13441deb15c8SPeter Maydell break;
13451deb15c8SPeter Maydell case ARM_VFP_FPSID:
13461deb15c8SPeter Maydell if (!(arm_hcr_el2_eff(env) & HCR_TID0)) {
13471deb15c8SPeter Maydell return;
13481deb15c8SPeter Maydell }
13491deb15c8SPeter Maydell break;
13501deb15c8SPeter Maydell default:
13511deb15c8SPeter Maydell g_assert_not_reached();
13521deb15c8SPeter Maydell }
13531deb15c8SPeter Maydell
13541deb15c8SPeter Maydell syndrome = ((EC_FPIDTRAP << ARM_EL_EC_SHIFT)
13551deb15c8SPeter Maydell | ARM_EL_IL
13561deb15c8SPeter Maydell | (1 << 24) | (0xe << 20) | (7 << 14)
13571deb15c8SPeter Maydell | (reg << 10) | (rt << 5) | 1);
13581deb15c8SPeter Maydell
13591deb15c8SPeter Maydell raise_exception(env, EXCP_HYP_TRAP, syndrome, 2);
13601deb15c8SPeter Maydell }
1361e34cfba5SPeter Maydell
HELPER(vfp_get_fpscr)1362e34cfba5SPeter Maydell uint32_t HELPER(vfp_get_fpscr)(CPUARMState *env)
1363e34cfba5SPeter Maydell {
1364e34cfba5SPeter Maydell return vfp_get_fpscr(env);
1365e34cfba5SPeter Maydell }
1366e34cfba5SPeter Maydell
HELPER(vfp_set_fpscr)1367e34cfba5SPeter Maydell void HELPER(vfp_set_fpscr)(CPUARMState *env, uint32_t val)
1368e34cfba5SPeter Maydell {
1369e34cfba5SPeter Maydell vfp_set_fpscr(env, val);
1370e34cfba5SPeter Maydell }
1371