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[PATCH qemu v12 11/15] target/riscv: rvv: Add tail agnostic for vector f
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From: |
~eopxd |
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Subject: |
[PATCH qemu v12 11/15] target/riscv: rvv: Add tail agnostic for vector floating-point instructions |
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Date: |
Thu, 28 Apr 2022 06:40:15 -0000 |
From: eopXD <eop.chen@sifive.com>
Compares write mask registers, and so always operate under a tail-
agnostic policy.
Signed-off-by: eop Chen <eop.chen@sifive.com>
Reviewed-by: Frank Chang <frank.chang@sifive.com>
Reviewed-by: Weiwei Li <liweiwei@iscas.ac.cn>
---
target/riscv/insn_trans/trans_rvv.c.inc | 15 +
target/riscv/vector_helper.c | 443 +++++++++++++-----------
2 files changed, 262 insertions(+), 196 deletions(-)
diff --git a/target/riscv/insn_trans/trans_rvv.c.inc
b/target/riscv/insn_trans/trans_rvv.c.inc
index 46ee673040..a267945267 100644
--- a/target/riscv/insn_trans/trans_rvv.c.inc
+++ b/target/riscv/insn_trans/trans_rvv.c.inc
@@ -2404,6 +2404,9 @@ static bool trans_##NAME(DisasContext *s, arg_rmrr *a)
\
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
+ data = \
+ FIELD_DP32(data, VDATA, VTA_ALL_1S, s->cfg_vta_all_1s);\
tcg_gen_gvec_4_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, 0), \
vreg_ofs(s, a->rs1), \
vreg_ofs(s, a->rs2), cpu_env, \
@@ -2486,6 +2489,9 @@ static bool trans_##NAME(DisasContext *s, arg_rmrr *a)
\
gen_set_rm(s, RISCV_FRM_DYN); \
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
+ data = FIELD_DP32(data, VDATA, VTA_ALL_1S, \
+ s->cfg_vta_all_1s); \
return opfvf_trans(a->rd, a->rs1, a->rs2, data, \
fns[s->sew - 1], s); \
} \
@@ -2524,6 +2530,7 @@ static bool trans_##NAME(DisasContext *s, arg_rmrr *a)
\
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
tcg_gen_gvec_4_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, 0), \
vreg_ofs(s, a->rs1), \
vreg_ofs(s, a->rs2), cpu_env, \
@@ -2563,6 +2570,7 @@ static bool trans_##NAME(DisasContext *s, arg_rmrr *a)
\
gen_set_rm(s, RISCV_FRM_DYN); \
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
return opfvf_trans(a->rd, a->rs1, a->rs2, data, \
fns[s->sew - 1], s); \
} \
@@ -2599,6 +2607,7 @@ static bool trans_##NAME(DisasContext *s, arg_rmrr *a)
\
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
tcg_gen_gvec_4_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, 0), \
vreg_ofs(s, a->rs1), \
vreg_ofs(s, a->rs2), cpu_env, \
@@ -2638,6 +2647,7 @@ static bool trans_##NAME(DisasContext *s, arg_rmrr *a)
\
gen_set_rm(s, RISCV_FRM_DYN); \
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
return opfvf_trans(a->rd, a->rs1, a->rs2, data, \
fns[s->sew - 1], s); \
} \
@@ -2721,6 +2731,7 @@ static bool do_opfv(DisasContext *s, arg_rmr *a,
data = FIELD_DP32(data, VDATA, VM, a->vm);
data = FIELD_DP32(data, VDATA, LMUL, s->lmul);
+ data = FIELD_DP32(data, VDATA, VTA, s->vta);
tcg_gen_gvec_3_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, 0),
vreg_ofs(s, a->rs2), cpu_env,
s->cfg_ptr->vlen / 8,
@@ -2935,6 +2946,7 @@ static bool trans_##NAME(DisasContext *s, arg_rmr *a)
\
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
tcg_gen_gvec_3_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, 0), \
vreg_ofs(s, a->rs2), cpu_env, \
s->cfg_ptr->vlen / 8, \
@@ -2986,6 +2998,7 @@ static bool trans_##NAME(DisasContext *s, arg_rmr *a)
\
tcg_gen_brcond_tl(TCG_COND_GEU, cpu_vstart, cpu_vl, over); \
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
tcg_gen_gvec_3_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, 0), \
vreg_ofs(s, a->rs2), cpu_env, \
s->cfg_ptr->vlen / 8, \
@@ -3053,6 +3066,7 @@ static bool trans_##NAME(DisasContext *s, arg_rmr *a)
\
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
data = FIELD_DP32(data, VDATA, LMUL, s->lmul); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
tcg_gen_gvec_3_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, 0), \
vreg_ofs(s, a->rs2), cpu_env, \
s->cfg_ptr->vlen / 8, \
@@ -3106,6 +3120,7 @@ static bool trans_##NAME(DisasContext *s, arg_rmr *a)
\
tcg_gen_brcond_tl(TCG_COND_GEU, cpu_vstart, cpu_vl, over); \
\
data = FIELD_DP32(data, VDATA, VM, a->vm); \
+ data = FIELD_DP32(data, VDATA, VTA, s->vta); \
tcg_gen_gvec_3_ptr(vreg_ofs(s, a->rd), vreg_ofs(s, 0), \
vreg_ofs(s, a->rs2), cpu_env, \
s->cfg_ptr->vlen / 8, \
diff --git a/target/riscv/vector_helper.c b/target/riscv/vector_helper.c
index 9d66cd1a83..21e20d47e5 100644
--- a/target/riscv/vector_helper.c
+++ b/target/riscv/vector_helper.c
@@ -2971,13 +2971,16 @@ static void do_##NAME(void *vd, void *vs1, void *vs2,
int i, \
*((TD *)vd + HD(i)) = OP(s2, s1, &env->fp_status); \
}
-#define GEN_VEXT_VV_ENV(NAME) \
+#define GEN_VEXT_VV_ENV(NAME, ESZ) \
void HELPER(NAME)(void *vd, void *v0, void *vs1, \
void *vs2, CPURISCVState *env, \
uint32_t desc) \
{ \
uint32_t vm = vext_vm(desc); \
uint32_t vl = env->vl; \
+ uint32_t total_elems = \
+ vext_get_total_elems(env, desc, ESZ); \
+ uint32_t vta = vext_vta(desc); \
uint32_t i; \
\
for (i = env->vstart; i < vl; i++) { \
@@ -2987,14 +2990,17 @@ void HELPER(NAME)(void *vd, void *v0, void *vs1,
\
do_##NAME(vd, vs1, vs2, i, env); \
} \
env->vstart = 0; \
+ /* set tail elements to 1s */ \
+ vext_set_elems_1s(vd, vta, vl * ESZ, \
+ total_elems * ESZ); \
}
RVVCALL(OPFVV2, vfadd_vv_h, OP_UUU_H, H2, H2, H2, float16_add)
RVVCALL(OPFVV2, vfadd_vv_w, OP_UUU_W, H4, H4, H4, float32_add)
RVVCALL(OPFVV2, vfadd_vv_d, OP_UUU_D, H8, H8, H8, float64_add)
-GEN_VEXT_VV_ENV(vfadd_vv_h)
-GEN_VEXT_VV_ENV(vfadd_vv_w)
-GEN_VEXT_VV_ENV(vfadd_vv_d)
+GEN_VEXT_VV_ENV(vfadd_vv_h, 2)
+GEN_VEXT_VV_ENV(vfadd_vv_w, 4)
+GEN_VEXT_VV_ENV(vfadd_vv_d, 8)
#define OPFVF2(NAME, TD, T1, T2, TX1, TX2, HD, HS2, OP) \
static void do_##NAME(void *vd, uint64_t s1, void *vs2, int i, \
@@ -3004,13 +3010,16 @@ static void do_##NAME(void *vd, uint64_t s1, void *vs2,
int i, \
*((TD *)vd + HD(i)) = OP(s2, (TX1)(T1)s1, &env->fp_status);\
}
-#define GEN_VEXT_VF(NAME) \
+#define GEN_VEXT_VF(NAME, ESZ) \
void HELPER(NAME)(void *vd, void *v0, uint64_t s1, \
void *vs2, CPURISCVState *env, \
uint32_t desc) \
{ \
uint32_t vm = vext_vm(desc); \
uint32_t vl = env->vl; \
+ uint32_t total_elems = \
+ vext_get_total_elems(env, desc, ESZ); \
+ uint32_t vta = vext_vta(desc); \
uint32_t i; \
\
for (i = env->vstart; i < vl; i++) { \
@@ -3020,27 +3029,30 @@ void HELPER(NAME)(void *vd, void *v0, uint64_t s1,
\
do_##NAME(vd, s1, vs2, i, env); \
} \
env->vstart = 0; \
+ /* set tail elements to 1s */ \
+ vext_set_elems_1s(vd, vta, vl * ESZ, \
+ total_elems * ESZ); \
}
RVVCALL(OPFVF2, vfadd_vf_h, OP_UUU_H, H2, H2, float16_add)
RVVCALL(OPFVF2, vfadd_vf_w, OP_UUU_W, H4, H4, float32_add)
RVVCALL(OPFVF2, vfadd_vf_d, OP_UUU_D, H8, H8, float64_add)
-GEN_VEXT_VF(vfadd_vf_h)
-GEN_VEXT_VF(vfadd_vf_w)
-GEN_VEXT_VF(vfadd_vf_d)
+GEN_VEXT_VF(vfadd_vf_h, 2)
+GEN_VEXT_VF(vfadd_vf_w, 4)
+GEN_VEXT_VF(vfadd_vf_d, 8)
RVVCALL(OPFVV2, vfsub_vv_h, OP_UUU_H, H2, H2, H2, float16_sub)
RVVCALL(OPFVV2, vfsub_vv_w, OP_UUU_W, H4, H4, H4, float32_sub)
RVVCALL(OPFVV2, vfsub_vv_d, OP_UUU_D, H8, H8, H8, float64_sub)
-GEN_VEXT_VV_ENV(vfsub_vv_h)
-GEN_VEXT_VV_ENV(vfsub_vv_w)
-GEN_VEXT_VV_ENV(vfsub_vv_d)
+GEN_VEXT_VV_ENV(vfsub_vv_h, 2)
+GEN_VEXT_VV_ENV(vfsub_vv_w, 4)
+GEN_VEXT_VV_ENV(vfsub_vv_d, 8)
RVVCALL(OPFVF2, vfsub_vf_h, OP_UUU_H, H2, H2, float16_sub)
RVVCALL(OPFVF2, vfsub_vf_w, OP_UUU_W, H4, H4, float32_sub)
RVVCALL(OPFVF2, vfsub_vf_d, OP_UUU_D, H8, H8, float64_sub)
-GEN_VEXT_VF(vfsub_vf_h)
-GEN_VEXT_VF(vfsub_vf_w)
-GEN_VEXT_VF(vfsub_vf_d)
+GEN_VEXT_VF(vfsub_vf_h, 2)
+GEN_VEXT_VF(vfsub_vf_w, 4)
+GEN_VEXT_VF(vfsub_vf_d, 8)
static uint16_t float16_rsub(uint16_t a, uint16_t b, float_status *s)
{
@@ -3060,9 +3072,9 @@ static uint64_t float64_rsub(uint64_t a, uint64_t b,
float_status *s)
RVVCALL(OPFVF2, vfrsub_vf_h, OP_UUU_H, H2, H2, float16_rsub)
RVVCALL(OPFVF2, vfrsub_vf_w, OP_UUU_W, H4, H4, float32_rsub)
RVVCALL(OPFVF2, vfrsub_vf_d, OP_UUU_D, H8, H8, float64_rsub)
-GEN_VEXT_VF(vfrsub_vf_h)
-GEN_VEXT_VF(vfrsub_vf_w)
-GEN_VEXT_VF(vfrsub_vf_d)
+GEN_VEXT_VF(vfrsub_vf_h, 2)
+GEN_VEXT_VF(vfrsub_vf_w, 4)
+GEN_VEXT_VF(vfrsub_vf_d, 8)
/* Vector Widening Floating-Point Add/Subtract Instructions */
static uint32_t vfwadd16(uint16_t a, uint16_t b, float_status *s)
@@ -3080,12 +3092,12 @@ static uint64_t vfwadd32(uint32_t a, uint32_t b,
float_status *s)
RVVCALL(OPFVV2, vfwadd_vv_h, WOP_UUU_H, H4, H2, H2, vfwadd16)
RVVCALL(OPFVV2, vfwadd_vv_w, WOP_UUU_W, H8, H4, H4, vfwadd32)
-GEN_VEXT_VV_ENV(vfwadd_vv_h)
-GEN_VEXT_VV_ENV(vfwadd_vv_w)
+GEN_VEXT_VV_ENV(vfwadd_vv_h, 4)
+GEN_VEXT_VV_ENV(vfwadd_vv_w, 8)
RVVCALL(OPFVF2, vfwadd_vf_h, WOP_UUU_H, H4, H2, vfwadd16)
RVVCALL(OPFVF2, vfwadd_vf_w, WOP_UUU_W, H8, H4, vfwadd32)
-GEN_VEXT_VF(vfwadd_vf_h)
-GEN_VEXT_VF(vfwadd_vf_w)
+GEN_VEXT_VF(vfwadd_vf_h, 4)
+GEN_VEXT_VF(vfwadd_vf_w, 8)
static uint32_t vfwsub16(uint16_t a, uint16_t b, float_status *s)
{
@@ -3102,12 +3114,12 @@ static uint64_t vfwsub32(uint32_t a, uint32_t b,
float_status *s)
RVVCALL(OPFVV2, vfwsub_vv_h, WOP_UUU_H, H4, H2, H2, vfwsub16)
RVVCALL(OPFVV2, vfwsub_vv_w, WOP_UUU_W, H8, H4, H4, vfwsub32)
-GEN_VEXT_VV_ENV(vfwsub_vv_h)
-GEN_VEXT_VV_ENV(vfwsub_vv_w)
+GEN_VEXT_VV_ENV(vfwsub_vv_h, 4)
+GEN_VEXT_VV_ENV(vfwsub_vv_w, 8)
RVVCALL(OPFVF2, vfwsub_vf_h, WOP_UUU_H, H4, H2, vfwsub16)
RVVCALL(OPFVF2, vfwsub_vf_w, WOP_UUU_W, H8, H4, vfwsub32)
-GEN_VEXT_VF(vfwsub_vf_h)
-GEN_VEXT_VF(vfwsub_vf_w)
+GEN_VEXT_VF(vfwsub_vf_h, 4)
+GEN_VEXT_VF(vfwsub_vf_w, 8)
static uint32_t vfwaddw16(uint32_t a, uint16_t b, float_status *s)
{
@@ -3121,12 +3133,12 @@ static uint64_t vfwaddw32(uint64_t a, uint32_t b,
float_status *s)
RVVCALL(OPFVV2, vfwadd_wv_h, WOP_WUUU_H, H4, H2, H2, vfwaddw16)
RVVCALL(OPFVV2, vfwadd_wv_w, WOP_WUUU_W, H8, H4, H4, vfwaddw32)
-GEN_VEXT_VV_ENV(vfwadd_wv_h)
-GEN_VEXT_VV_ENV(vfwadd_wv_w)
+GEN_VEXT_VV_ENV(vfwadd_wv_h, 4)
+GEN_VEXT_VV_ENV(vfwadd_wv_w, 8)
RVVCALL(OPFVF2, vfwadd_wf_h, WOP_WUUU_H, H4, H2, vfwaddw16)
RVVCALL(OPFVF2, vfwadd_wf_w, WOP_WUUU_W, H8, H4, vfwaddw32)
-GEN_VEXT_VF(vfwadd_wf_h)
-GEN_VEXT_VF(vfwadd_wf_w)
+GEN_VEXT_VF(vfwadd_wf_h, 4)
+GEN_VEXT_VF(vfwadd_wf_w, 8)
static uint32_t vfwsubw16(uint32_t a, uint16_t b, float_status *s)
{
@@ -3140,39 +3152,39 @@ static uint64_t vfwsubw32(uint64_t a, uint32_t b,
float_status *s)
RVVCALL(OPFVV2, vfwsub_wv_h, WOP_WUUU_H, H4, H2, H2, vfwsubw16)
RVVCALL(OPFVV2, vfwsub_wv_w, WOP_WUUU_W, H8, H4, H4, vfwsubw32)
-GEN_VEXT_VV_ENV(vfwsub_wv_h)
-GEN_VEXT_VV_ENV(vfwsub_wv_w)
+GEN_VEXT_VV_ENV(vfwsub_wv_h, 4)
+GEN_VEXT_VV_ENV(vfwsub_wv_w, 8)
RVVCALL(OPFVF2, vfwsub_wf_h, WOP_WUUU_H, H4, H2, vfwsubw16)
RVVCALL(OPFVF2, vfwsub_wf_w, WOP_WUUU_W, H8, H4, vfwsubw32)
-GEN_VEXT_VF(vfwsub_wf_h)
-GEN_VEXT_VF(vfwsub_wf_w)
+GEN_VEXT_VF(vfwsub_wf_h, 4)
+GEN_VEXT_VF(vfwsub_wf_w, 8)
/* Vector Single-Width Floating-Point Multiply/Divide Instructions */
RVVCALL(OPFVV2, vfmul_vv_h, OP_UUU_H, H2, H2, H2, float16_mul)
RVVCALL(OPFVV2, vfmul_vv_w, OP_UUU_W, H4, H4, H4, float32_mul)
RVVCALL(OPFVV2, vfmul_vv_d, OP_UUU_D, H8, H8, H8, float64_mul)
-GEN_VEXT_VV_ENV(vfmul_vv_h)
-GEN_VEXT_VV_ENV(vfmul_vv_w)
-GEN_VEXT_VV_ENV(vfmul_vv_d)
+GEN_VEXT_VV_ENV(vfmul_vv_h, 2)
+GEN_VEXT_VV_ENV(vfmul_vv_w, 4)
+GEN_VEXT_VV_ENV(vfmul_vv_d, 8)
RVVCALL(OPFVF2, vfmul_vf_h, OP_UUU_H, H2, H2, float16_mul)
RVVCALL(OPFVF2, vfmul_vf_w, OP_UUU_W, H4, H4, float32_mul)
RVVCALL(OPFVF2, vfmul_vf_d, OP_UUU_D, H8, H8, float64_mul)
-GEN_VEXT_VF(vfmul_vf_h)
-GEN_VEXT_VF(vfmul_vf_w)
-GEN_VEXT_VF(vfmul_vf_d)
+GEN_VEXT_VF(vfmul_vf_h, 2)
+GEN_VEXT_VF(vfmul_vf_w, 4)
+GEN_VEXT_VF(vfmul_vf_d, 8)
RVVCALL(OPFVV2, vfdiv_vv_h, OP_UUU_H, H2, H2, H2, float16_div)
RVVCALL(OPFVV2, vfdiv_vv_w, OP_UUU_W, H4, H4, H4, float32_div)
RVVCALL(OPFVV2, vfdiv_vv_d, OP_UUU_D, H8, H8, H8, float64_div)
-GEN_VEXT_VV_ENV(vfdiv_vv_h)
-GEN_VEXT_VV_ENV(vfdiv_vv_w)
-GEN_VEXT_VV_ENV(vfdiv_vv_d)
+GEN_VEXT_VV_ENV(vfdiv_vv_h, 2)
+GEN_VEXT_VV_ENV(vfdiv_vv_w, 4)
+GEN_VEXT_VV_ENV(vfdiv_vv_d, 8)
RVVCALL(OPFVF2, vfdiv_vf_h, OP_UUU_H, H2, H2, float16_div)
RVVCALL(OPFVF2, vfdiv_vf_w, OP_UUU_W, H4, H4, float32_div)
RVVCALL(OPFVF2, vfdiv_vf_d, OP_UUU_D, H8, H8, float64_div)
-GEN_VEXT_VF(vfdiv_vf_h)
-GEN_VEXT_VF(vfdiv_vf_w)
-GEN_VEXT_VF(vfdiv_vf_d)
+GEN_VEXT_VF(vfdiv_vf_h, 2)
+GEN_VEXT_VF(vfdiv_vf_w, 4)
+GEN_VEXT_VF(vfdiv_vf_d, 8)
static uint16_t float16_rdiv(uint16_t a, uint16_t b, float_status *s)
{
@@ -3192,9 +3204,9 @@ static uint64_t float64_rdiv(uint64_t a, uint64_t b,
float_status *s)
RVVCALL(OPFVF2, vfrdiv_vf_h, OP_UUU_H, H2, H2, float16_rdiv)
RVVCALL(OPFVF2, vfrdiv_vf_w, OP_UUU_W, H4, H4, float32_rdiv)
RVVCALL(OPFVF2, vfrdiv_vf_d, OP_UUU_D, H8, H8, float64_rdiv)
-GEN_VEXT_VF(vfrdiv_vf_h)
-GEN_VEXT_VF(vfrdiv_vf_w)
-GEN_VEXT_VF(vfrdiv_vf_d)
+GEN_VEXT_VF(vfrdiv_vf_h, 2)
+GEN_VEXT_VF(vfrdiv_vf_w, 4)
+GEN_VEXT_VF(vfrdiv_vf_d, 8)
/* Vector Widening Floating-Point Multiply */
static uint32_t vfwmul16(uint16_t a, uint16_t b, float_status *s)
@@ -3211,12 +3223,12 @@ static uint64_t vfwmul32(uint32_t a, uint32_t b,
float_status *s)
}
RVVCALL(OPFVV2, vfwmul_vv_h, WOP_UUU_H, H4, H2, H2, vfwmul16)
RVVCALL(OPFVV2, vfwmul_vv_w, WOP_UUU_W, H8, H4, H4, vfwmul32)
-GEN_VEXT_VV_ENV(vfwmul_vv_h)
-GEN_VEXT_VV_ENV(vfwmul_vv_w)
+GEN_VEXT_VV_ENV(vfwmul_vv_h, 4)
+GEN_VEXT_VV_ENV(vfwmul_vv_w, 8)
RVVCALL(OPFVF2, vfwmul_vf_h, WOP_UUU_H, H4, H2, vfwmul16)
RVVCALL(OPFVF2, vfwmul_vf_w, WOP_UUU_W, H8, H4, vfwmul32)
-GEN_VEXT_VF(vfwmul_vf_h)
-GEN_VEXT_VF(vfwmul_vf_w)
+GEN_VEXT_VF(vfwmul_vf_h, 4)
+GEN_VEXT_VF(vfwmul_vf_w, 8)
/* Vector Single-Width Floating-Point Fused Multiply-Add Instructions */
#define OPFVV3(NAME, TD, T1, T2, TX1, TX2, HD, HS1, HS2, OP) \
@@ -3247,9 +3259,9 @@ static uint64_t fmacc64(uint64_t a, uint64_t b, uint64_t
d, float_status *s)
RVVCALL(OPFVV3, vfmacc_vv_h, OP_UUU_H, H2, H2, H2, fmacc16)
RVVCALL(OPFVV3, vfmacc_vv_w, OP_UUU_W, H4, H4, H4, fmacc32)
RVVCALL(OPFVV3, vfmacc_vv_d, OP_UUU_D, H8, H8, H8, fmacc64)
-GEN_VEXT_VV_ENV(vfmacc_vv_h)
-GEN_VEXT_VV_ENV(vfmacc_vv_w)
-GEN_VEXT_VV_ENV(vfmacc_vv_d)
+GEN_VEXT_VV_ENV(vfmacc_vv_h, 2)
+GEN_VEXT_VV_ENV(vfmacc_vv_w, 4)
+GEN_VEXT_VV_ENV(vfmacc_vv_d, 8)
#define OPFVF3(NAME, TD, T1, T2, TX1, TX2, HD, HS2, OP) \
static void do_##NAME(void *vd, uint64_t s1, void *vs2, int i, \
@@ -3263,9 +3275,9 @@ static void do_##NAME(void *vd, uint64_t s1, void *vs2,
int i, \
RVVCALL(OPFVF3, vfmacc_vf_h, OP_UUU_H, H2, H2, fmacc16)
RVVCALL(OPFVF3, vfmacc_vf_w, OP_UUU_W, H4, H4, fmacc32)
RVVCALL(OPFVF3, vfmacc_vf_d, OP_UUU_D, H8, H8, fmacc64)
-GEN_VEXT_VF(vfmacc_vf_h)
-GEN_VEXT_VF(vfmacc_vf_w)
-GEN_VEXT_VF(vfmacc_vf_d)
+GEN_VEXT_VF(vfmacc_vf_h, 2)
+GEN_VEXT_VF(vfmacc_vf_w, 4)
+GEN_VEXT_VF(vfmacc_vf_d, 8)
static uint16_t fnmacc16(uint16_t a, uint16_t b, uint16_t d, float_status *s)
{
@@ -3288,15 +3300,15 @@ static uint64_t fnmacc64(uint64_t a, uint64_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfnmacc_vv_h, OP_UUU_H, H2, H2, H2, fnmacc16)
RVVCALL(OPFVV3, vfnmacc_vv_w, OP_UUU_W, H4, H4, H4, fnmacc32)
RVVCALL(OPFVV3, vfnmacc_vv_d, OP_UUU_D, H8, H8, H8, fnmacc64)
-GEN_VEXT_VV_ENV(vfnmacc_vv_h)
-GEN_VEXT_VV_ENV(vfnmacc_vv_w)
-GEN_VEXT_VV_ENV(vfnmacc_vv_d)
+GEN_VEXT_VV_ENV(vfnmacc_vv_h, 2)
+GEN_VEXT_VV_ENV(vfnmacc_vv_w, 4)
+GEN_VEXT_VV_ENV(vfnmacc_vv_d, 8)
RVVCALL(OPFVF3, vfnmacc_vf_h, OP_UUU_H, H2, H2, fnmacc16)
RVVCALL(OPFVF3, vfnmacc_vf_w, OP_UUU_W, H4, H4, fnmacc32)
RVVCALL(OPFVF3, vfnmacc_vf_d, OP_UUU_D, H8, H8, fnmacc64)
-GEN_VEXT_VF(vfnmacc_vf_h)
-GEN_VEXT_VF(vfnmacc_vf_w)
-GEN_VEXT_VF(vfnmacc_vf_d)
+GEN_VEXT_VF(vfnmacc_vf_h, 2)
+GEN_VEXT_VF(vfnmacc_vf_w, 4)
+GEN_VEXT_VF(vfnmacc_vf_d, 8)
static uint16_t fmsac16(uint16_t a, uint16_t b, uint16_t d, float_status *s)
{
@@ -3316,15 +3328,15 @@ static uint64_t fmsac64(uint64_t a, uint64_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfmsac_vv_h, OP_UUU_H, H2, H2, H2, fmsac16)
RVVCALL(OPFVV3, vfmsac_vv_w, OP_UUU_W, H4, H4, H4, fmsac32)
RVVCALL(OPFVV3, vfmsac_vv_d, OP_UUU_D, H8, H8, H8, fmsac64)
-GEN_VEXT_VV_ENV(vfmsac_vv_h)
-GEN_VEXT_VV_ENV(vfmsac_vv_w)
-GEN_VEXT_VV_ENV(vfmsac_vv_d)
+GEN_VEXT_VV_ENV(vfmsac_vv_h, 2)
+GEN_VEXT_VV_ENV(vfmsac_vv_w, 4)
+GEN_VEXT_VV_ENV(vfmsac_vv_d, 8)
RVVCALL(OPFVF3, vfmsac_vf_h, OP_UUU_H, H2, H2, fmsac16)
RVVCALL(OPFVF3, vfmsac_vf_w, OP_UUU_W, H4, H4, fmsac32)
RVVCALL(OPFVF3, vfmsac_vf_d, OP_UUU_D, H8, H8, fmsac64)
-GEN_VEXT_VF(vfmsac_vf_h)
-GEN_VEXT_VF(vfmsac_vf_w)
-GEN_VEXT_VF(vfmsac_vf_d)
+GEN_VEXT_VF(vfmsac_vf_h, 2)
+GEN_VEXT_VF(vfmsac_vf_w, 4)
+GEN_VEXT_VF(vfmsac_vf_d, 8)
static uint16_t fnmsac16(uint16_t a, uint16_t b, uint16_t d, float_status *s)
{
@@ -3344,15 +3356,15 @@ static uint64_t fnmsac64(uint64_t a, uint64_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfnmsac_vv_h, OP_UUU_H, H2, H2, H2, fnmsac16)
RVVCALL(OPFVV3, vfnmsac_vv_w, OP_UUU_W, H4, H4, H4, fnmsac32)
RVVCALL(OPFVV3, vfnmsac_vv_d, OP_UUU_D, H8, H8, H8, fnmsac64)
-GEN_VEXT_VV_ENV(vfnmsac_vv_h)
-GEN_VEXT_VV_ENV(vfnmsac_vv_w)
-GEN_VEXT_VV_ENV(vfnmsac_vv_d)
+GEN_VEXT_VV_ENV(vfnmsac_vv_h, 2)
+GEN_VEXT_VV_ENV(vfnmsac_vv_w, 4)
+GEN_VEXT_VV_ENV(vfnmsac_vv_d, 8)
RVVCALL(OPFVF3, vfnmsac_vf_h, OP_UUU_H, H2, H2, fnmsac16)
RVVCALL(OPFVF3, vfnmsac_vf_w, OP_UUU_W, H4, H4, fnmsac32)
RVVCALL(OPFVF3, vfnmsac_vf_d, OP_UUU_D, H8, H8, fnmsac64)
-GEN_VEXT_VF(vfnmsac_vf_h)
-GEN_VEXT_VF(vfnmsac_vf_w)
-GEN_VEXT_VF(vfnmsac_vf_d)
+GEN_VEXT_VF(vfnmsac_vf_h, 2)
+GEN_VEXT_VF(vfnmsac_vf_w, 4)
+GEN_VEXT_VF(vfnmsac_vf_d, 8)
static uint16_t fmadd16(uint16_t a, uint16_t b, uint16_t d, float_status *s)
{
@@ -3372,15 +3384,15 @@ static uint64_t fmadd64(uint64_t a, uint64_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfmadd_vv_h, OP_UUU_H, H2, H2, H2, fmadd16)
RVVCALL(OPFVV3, vfmadd_vv_w, OP_UUU_W, H4, H4, H4, fmadd32)
RVVCALL(OPFVV3, vfmadd_vv_d, OP_UUU_D, H8, H8, H8, fmadd64)
-GEN_VEXT_VV_ENV(vfmadd_vv_h)
-GEN_VEXT_VV_ENV(vfmadd_vv_w)
-GEN_VEXT_VV_ENV(vfmadd_vv_d)
+GEN_VEXT_VV_ENV(vfmadd_vv_h, 2)
+GEN_VEXT_VV_ENV(vfmadd_vv_w, 4)
+GEN_VEXT_VV_ENV(vfmadd_vv_d, 8)
RVVCALL(OPFVF3, vfmadd_vf_h, OP_UUU_H, H2, H2, fmadd16)
RVVCALL(OPFVF3, vfmadd_vf_w, OP_UUU_W, H4, H4, fmadd32)
RVVCALL(OPFVF3, vfmadd_vf_d, OP_UUU_D, H8, H8, fmadd64)
-GEN_VEXT_VF(vfmadd_vf_h)
-GEN_VEXT_VF(vfmadd_vf_w)
-GEN_VEXT_VF(vfmadd_vf_d)
+GEN_VEXT_VF(vfmadd_vf_h, 2)
+GEN_VEXT_VF(vfmadd_vf_w, 4)
+GEN_VEXT_VF(vfmadd_vf_d, 8)
static uint16_t fnmadd16(uint16_t a, uint16_t b, uint16_t d, float_status *s)
{
@@ -3403,15 +3415,15 @@ static uint64_t fnmadd64(uint64_t a, uint64_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfnmadd_vv_h, OP_UUU_H, H2, H2, H2, fnmadd16)
RVVCALL(OPFVV3, vfnmadd_vv_w, OP_UUU_W, H4, H4, H4, fnmadd32)
RVVCALL(OPFVV3, vfnmadd_vv_d, OP_UUU_D, H8, H8, H8, fnmadd64)
-GEN_VEXT_VV_ENV(vfnmadd_vv_h)
-GEN_VEXT_VV_ENV(vfnmadd_vv_w)
-GEN_VEXT_VV_ENV(vfnmadd_vv_d)
+GEN_VEXT_VV_ENV(vfnmadd_vv_h, 2)
+GEN_VEXT_VV_ENV(vfnmadd_vv_w, 4)
+GEN_VEXT_VV_ENV(vfnmadd_vv_d, 8)
RVVCALL(OPFVF3, vfnmadd_vf_h, OP_UUU_H, H2, H2, fnmadd16)
RVVCALL(OPFVF3, vfnmadd_vf_w, OP_UUU_W, H4, H4, fnmadd32)
RVVCALL(OPFVF3, vfnmadd_vf_d, OP_UUU_D, H8, H8, fnmadd64)
-GEN_VEXT_VF(vfnmadd_vf_h)
-GEN_VEXT_VF(vfnmadd_vf_w)
-GEN_VEXT_VF(vfnmadd_vf_d)
+GEN_VEXT_VF(vfnmadd_vf_h, 2)
+GEN_VEXT_VF(vfnmadd_vf_w, 4)
+GEN_VEXT_VF(vfnmadd_vf_d, 8)
static uint16_t fmsub16(uint16_t a, uint16_t b, uint16_t d, float_status *s)
{
@@ -3431,15 +3443,15 @@ static uint64_t fmsub64(uint64_t a, uint64_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfmsub_vv_h, OP_UUU_H, H2, H2, H2, fmsub16)
RVVCALL(OPFVV3, vfmsub_vv_w, OP_UUU_W, H4, H4, H4, fmsub32)
RVVCALL(OPFVV3, vfmsub_vv_d, OP_UUU_D, H8, H8, H8, fmsub64)
-GEN_VEXT_VV_ENV(vfmsub_vv_h)
-GEN_VEXT_VV_ENV(vfmsub_vv_w)
-GEN_VEXT_VV_ENV(vfmsub_vv_d)
+GEN_VEXT_VV_ENV(vfmsub_vv_h, 2)
+GEN_VEXT_VV_ENV(vfmsub_vv_w, 4)
+GEN_VEXT_VV_ENV(vfmsub_vv_d, 8)
RVVCALL(OPFVF3, vfmsub_vf_h, OP_UUU_H, H2, H2, fmsub16)
RVVCALL(OPFVF3, vfmsub_vf_w, OP_UUU_W, H4, H4, fmsub32)
RVVCALL(OPFVF3, vfmsub_vf_d, OP_UUU_D, H8, H8, fmsub64)
-GEN_VEXT_VF(vfmsub_vf_h)
-GEN_VEXT_VF(vfmsub_vf_w)
-GEN_VEXT_VF(vfmsub_vf_d)
+GEN_VEXT_VF(vfmsub_vf_h, 2)
+GEN_VEXT_VF(vfmsub_vf_w, 4)
+GEN_VEXT_VF(vfmsub_vf_d, 8)
static uint16_t fnmsub16(uint16_t a, uint16_t b, uint16_t d, float_status *s)
{
@@ -3459,15 +3471,15 @@ static uint64_t fnmsub64(uint64_t a, uint64_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfnmsub_vv_h, OP_UUU_H, H2, H2, H2, fnmsub16)
RVVCALL(OPFVV3, vfnmsub_vv_w, OP_UUU_W, H4, H4, H4, fnmsub32)
RVVCALL(OPFVV3, vfnmsub_vv_d, OP_UUU_D, H8, H8, H8, fnmsub64)
-GEN_VEXT_VV_ENV(vfnmsub_vv_h)
-GEN_VEXT_VV_ENV(vfnmsub_vv_w)
-GEN_VEXT_VV_ENV(vfnmsub_vv_d)
+GEN_VEXT_VV_ENV(vfnmsub_vv_h, 2)
+GEN_VEXT_VV_ENV(vfnmsub_vv_w, 4)
+GEN_VEXT_VV_ENV(vfnmsub_vv_d, 8)
RVVCALL(OPFVF3, vfnmsub_vf_h, OP_UUU_H, H2, H2, fnmsub16)
RVVCALL(OPFVF3, vfnmsub_vf_w, OP_UUU_W, H4, H4, fnmsub32)
RVVCALL(OPFVF3, vfnmsub_vf_d, OP_UUU_D, H8, H8, fnmsub64)
-GEN_VEXT_VF(vfnmsub_vf_h)
-GEN_VEXT_VF(vfnmsub_vf_w)
-GEN_VEXT_VF(vfnmsub_vf_d)
+GEN_VEXT_VF(vfnmsub_vf_h, 2)
+GEN_VEXT_VF(vfnmsub_vf_w, 4)
+GEN_VEXT_VF(vfnmsub_vf_d, 8)
/* Vector Widening Floating-Point Fused Multiply-Add Instructions */
static uint32_t fwmacc16(uint16_t a, uint16_t b, uint32_t d, float_status *s)
@@ -3484,12 +3496,12 @@ static uint64_t fwmacc32(uint32_t a, uint32_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfwmacc_vv_h, WOP_UUU_H, H4, H2, H2, fwmacc16)
RVVCALL(OPFVV3, vfwmacc_vv_w, WOP_UUU_W, H8, H4, H4, fwmacc32)
-GEN_VEXT_VV_ENV(vfwmacc_vv_h)
-GEN_VEXT_VV_ENV(vfwmacc_vv_w)
+GEN_VEXT_VV_ENV(vfwmacc_vv_h, 4)
+GEN_VEXT_VV_ENV(vfwmacc_vv_w, 8)
RVVCALL(OPFVF3, vfwmacc_vf_h, WOP_UUU_H, H4, H2, fwmacc16)
RVVCALL(OPFVF3, vfwmacc_vf_w, WOP_UUU_W, H8, H4, fwmacc32)
-GEN_VEXT_VF(vfwmacc_vf_h)
-GEN_VEXT_VF(vfwmacc_vf_w)
+GEN_VEXT_VF(vfwmacc_vf_h, 4)
+GEN_VEXT_VF(vfwmacc_vf_w, 8)
static uint32_t fwnmacc16(uint16_t a, uint16_t b, uint32_t d, float_status *s)
{
@@ -3507,12 +3519,12 @@ static uint64_t fwnmacc32(uint32_t a, uint32_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfwnmacc_vv_h, WOP_UUU_H, H4, H2, H2, fwnmacc16)
RVVCALL(OPFVV3, vfwnmacc_vv_w, WOP_UUU_W, H8, H4, H4, fwnmacc32)
-GEN_VEXT_VV_ENV(vfwnmacc_vv_h)
-GEN_VEXT_VV_ENV(vfwnmacc_vv_w)
+GEN_VEXT_VV_ENV(vfwnmacc_vv_h, 4)
+GEN_VEXT_VV_ENV(vfwnmacc_vv_w, 8)
RVVCALL(OPFVF3, vfwnmacc_vf_h, WOP_UUU_H, H4, H2, fwnmacc16)
RVVCALL(OPFVF3, vfwnmacc_vf_w, WOP_UUU_W, H8, H4, fwnmacc32)
-GEN_VEXT_VF(vfwnmacc_vf_h)
-GEN_VEXT_VF(vfwnmacc_vf_w)
+GEN_VEXT_VF(vfwnmacc_vf_h, 4)
+GEN_VEXT_VF(vfwnmacc_vf_w, 8)
static uint32_t fwmsac16(uint16_t a, uint16_t b, uint32_t d, float_status *s)
{
@@ -3530,12 +3542,12 @@ static uint64_t fwmsac32(uint32_t a, uint32_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfwmsac_vv_h, WOP_UUU_H, H4, H2, H2, fwmsac16)
RVVCALL(OPFVV3, vfwmsac_vv_w, WOP_UUU_W, H8, H4, H4, fwmsac32)
-GEN_VEXT_VV_ENV(vfwmsac_vv_h)
-GEN_VEXT_VV_ENV(vfwmsac_vv_w)
+GEN_VEXT_VV_ENV(vfwmsac_vv_h, 4)
+GEN_VEXT_VV_ENV(vfwmsac_vv_w, 8)
RVVCALL(OPFVF3, vfwmsac_vf_h, WOP_UUU_H, H4, H2, fwmsac16)
RVVCALL(OPFVF3, vfwmsac_vf_w, WOP_UUU_W, H8, H4, fwmsac32)
-GEN_VEXT_VF(vfwmsac_vf_h)
-GEN_VEXT_VF(vfwmsac_vf_w)
+GEN_VEXT_VF(vfwmsac_vf_h, 4)
+GEN_VEXT_VF(vfwmsac_vf_w, 8)
static uint32_t fwnmsac16(uint16_t a, uint16_t b, uint32_t d, float_status *s)
{
@@ -3553,12 +3565,12 @@ static uint64_t fwnmsac32(uint32_t a, uint32_t b,
uint64_t d, float_status *s)
RVVCALL(OPFVV3, vfwnmsac_vv_h, WOP_UUU_H, H4, H2, H2, fwnmsac16)
RVVCALL(OPFVV3, vfwnmsac_vv_w, WOP_UUU_W, H8, H4, H4, fwnmsac32)
-GEN_VEXT_VV_ENV(vfwnmsac_vv_h)
-GEN_VEXT_VV_ENV(vfwnmsac_vv_w)
+GEN_VEXT_VV_ENV(vfwnmsac_vv_h, 4)
+GEN_VEXT_VV_ENV(vfwnmsac_vv_w, 8)
RVVCALL(OPFVF3, vfwnmsac_vf_h, WOP_UUU_H, H4, H2, fwnmsac16)
RVVCALL(OPFVF3, vfwnmsac_vf_w, WOP_UUU_W, H8, H4, fwnmsac32)
-GEN_VEXT_VF(vfwnmsac_vf_h)
-GEN_VEXT_VF(vfwnmsac_vf_w)
+GEN_VEXT_VF(vfwnmsac_vf_h, 4)
+GEN_VEXT_VF(vfwnmsac_vf_w, 8)
/* Vector Floating-Point Square-Root Instruction */
/* (TD, T2, TX2) */
@@ -3574,12 +3586,15 @@ static void do_##NAME(void *vd, void *vs2, int i, \
*((TD *)vd + HD(i)) = OP(s2, &env->fp_status); \
}
-#define GEN_VEXT_V_ENV(NAME) \
+#define GEN_VEXT_V_ENV(NAME, ESZ) \
void HELPER(NAME)(void *vd, void *v0, void *vs2, \
CPURISCVState *env, uint32_t desc) \
{ \
uint32_t vm = vext_vm(desc); \
uint32_t vl = env->vl; \
+ uint32_t total_elems = \
+ vext_get_total_elems(env, desc, ESZ); \
+ uint32_t vta = vext_vta(desc); \
uint32_t i; \
\
if (vl == 0) { \
@@ -3592,14 +3607,16 @@ void HELPER(NAME)(void *vd, void *v0, void *vs2, \
do_##NAME(vd, vs2, i, env); \
} \
env->vstart = 0; \
+ vext_set_elems_1s(vd, vta, vl * ESZ, \
+ total_elems * ESZ); \
}
RVVCALL(OPFVV1, vfsqrt_v_h, OP_UU_H, H2, H2, float16_sqrt)
RVVCALL(OPFVV1, vfsqrt_v_w, OP_UU_W, H4, H4, float32_sqrt)
RVVCALL(OPFVV1, vfsqrt_v_d, OP_UU_D, H8, H8, float64_sqrt)
-GEN_VEXT_V_ENV(vfsqrt_v_h)
-GEN_VEXT_V_ENV(vfsqrt_v_w)
-GEN_VEXT_V_ENV(vfsqrt_v_d)
+GEN_VEXT_V_ENV(vfsqrt_v_h, 2)
+GEN_VEXT_V_ENV(vfsqrt_v_w, 4)
+GEN_VEXT_V_ENV(vfsqrt_v_d, 8)
/*
* Vector Floating-Point Reciprocal Square-Root Estimate Instruction
@@ -3779,9 +3796,9 @@ static float64 frsqrt7_d(float64 f, float_status *s)
RVVCALL(OPFVV1, vfrsqrt7_v_h, OP_UU_H, H2, H2, frsqrt7_h)
RVVCALL(OPFVV1, vfrsqrt7_v_w, OP_UU_W, H4, H4, frsqrt7_s)
RVVCALL(OPFVV1, vfrsqrt7_v_d, OP_UU_D, H8, H8, frsqrt7_d)
-GEN_VEXT_V_ENV(vfrsqrt7_v_h)
-GEN_VEXT_V_ENV(vfrsqrt7_v_w)
-GEN_VEXT_V_ENV(vfrsqrt7_v_d)
+GEN_VEXT_V_ENV(vfrsqrt7_v_h, 2)
+GEN_VEXT_V_ENV(vfrsqrt7_v_w, 4)
+GEN_VEXT_V_ENV(vfrsqrt7_v_d, 8)
/*
* Vector Floating-Point Reciprocal Estimate Instruction
@@ -3970,36 +3987,36 @@ static float64 frec7_d(float64 f, float_status *s)
RVVCALL(OPFVV1, vfrec7_v_h, OP_UU_H, H2, H2, frec7_h)
RVVCALL(OPFVV1, vfrec7_v_w, OP_UU_W, H4, H4, frec7_s)
RVVCALL(OPFVV1, vfrec7_v_d, OP_UU_D, H8, H8, frec7_d)
-GEN_VEXT_V_ENV(vfrec7_v_h)
-GEN_VEXT_V_ENV(vfrec7_v_w)
-GEN_VEXT_V_ENV(vfrec7_v_d)
+GEN_VEXT_V_ENV(vfrec7_v_h, 2)
+GEN_VEXT_V_ENV(vfrec7_v_w, 4)
+GEN_VEXT_V_ENV(vfrec7_v_d, 8)
/* Vector Floating-Point MIN/MAX Instructions */
RVVCALL(OPFVV2, vfmin_vv_h, OP_UUU_H, H2, H2, H2, float16_minimum_number)
RVVCALL(OPFVV2, vfmin_vv_w, OP_UUU_W, H4, H4, H4, float32_minimum_number)
RVVCALL(OPFVV2, vfmin_vv_d, OP_UUU_D, H8, H8, H8, float64_minimum_number)
-GEN_VEXT_VV_ENV(vfmin_vv_h)
-GEN_VEXT_VV_ENV(vfmin_vv_w)
-GEN_VEXT_VV_ENV(vfmin_vv_d)
+GEN_VEXT_VV_ENV(vfmin_vv_h, 2)
+GEN_VEXT_VV_ENV(vfmin_vv_w, 4)
+GEN_VEXT_VV_ENV(vfmin_vv_d, 8)
RVVCALL(OPFVF2, vfmin_vf_h, OP_UUU_H, H2, H2, float16_minimum_number)
RVVCALL(OPFVF2, vfmin_vf_w, OP_UUU_W, H4, H4, float32_minimum_number)
RVVCALL(OPFVF2, vfmin_vf_d, OP_UUU_D, H8, H8, float64_minimum_number)
-GEN_VEXT_VF(vfmin_vf_h)
-GEN_VEXT_VF(vfmin_vf_w)
-GEN_VEXT_VF(vfmin_vf_d)
+GEN_VEXT_VF(vfmin_vf_h, 2)
+GEN_VEXT_VF(vfmin_vf_w, 4)
+GEN_VEXT_VF(vfmin_vf_d, 8)
RVVCALL(OPFVV2, vfmax_vv_h, OP_UUU_H, H2, H2, H2, float16_maximum_number)
RVVCALL(OPFVV2, vfmax_vv_w, OP_UUU_W, H4, H4, H4, float32_maximum_number)
RVVCALL(OPFVV2, vfmax_vv_d, OP_UUU_D, H8, H8, H8, float64_maximum_number)
-GEN_VEXT_VV_ENV(vfmax_vv_h)
-GEN_VEXT_VV_ENV(vfmax_vv_w)
-GEN_VEXT_VV_ENV(vfmax_vv_d)
+GEN_VEXT_VV_ENV(vfmax_vv_h, 2)
+GEN_VEXT_VV_ENV(vfmax_vv_w, 4)
+GEN_VEXT_VV_ENV(vfmax_vv_d, 8)
RVVCALL(OPFVF2, vfmax_vf_h, OP_UUU_H, H2, H2, float16_maximum_number)
RVVCALL(OPFVF2, vfmax_vf_w, OP_UUU_W, H4, H4, float32_maximum_number)
RVVCALL(OPFVF2, vfmax_vf_d, OP_UUU_D, H8, H8, float64_maximum_number)
-GEN_VEXT_VF(vfmax_vf_h)
-GEN_VEXT_VF(vfmax_vf_w)
-GEN_VEXT_VF(vfmax_vf_d)
+GEN_VEXT_VF(vfmax_vf_h, 2)
+GEN_VEXT_VF(vfmax_vf_w, 4)
+GEN_VEXT_VF(vfmax_vf_d, 8)
/* Vector Floating-Point Sign-Injection Instructions */
static uint16_t fsgnj16(uint16_t a, uint16_t b, float_status *s)
@@ -4020,15 +4037,15 @@ static uint64_t fsgnj64(uint64_t a, uint64_t b,
float_status *s)
RVVCALL(OPFVV2, vfsgnj_vv_h, OP_UUU_H, H2, H2, H2, fsgnj16)
RVVCALL(OPFVV2, vfsgnj_vv_w, OP_UUU_W, H4, H4, H4, fsgnj32)
RVVCALL(OPFVV2, vfsgnj_vv_d, OP_UUU_D, H8, H8, H8, fsgnj64)
-GEN_VEXT_VV_ENV(vfsgnj_vv_h)
-GEN_VEXT_VV_ENV(vfsgnj_vv_w)
-GEN_VEXT_VV_ENV(vfsgnj_vv_d)
+GEN_VEXT_VV_ENV(vfsgnj_vv_h, 2)
+GEN_VEXT_VV_ENV(vfsgnj_vv_w, 4)
+GEN_VEXT_VV_ENV(vfsgnj_vv_d, 8)
RVVCALL(OPFVF2, vfsgnj_vf_h, OP_UUU_H, H2, H2, fsgnj16)
RVVCALL(OPFVF2, vfsgnj_vf_w, OP_UUU_W, H4, H4, fsgnj32)
RVVCALL(OPFVF2, vfsgnj_vf_d, OP_UUU_D, H8, H8, fsgnj64)
-GEN_VEXT_VF(vfsgnj_vf_h)
-GEN_VEXT_VF(vfsgnj_vf_w)
-GEN_VEXT_VF(vfsgnj_vf_d)
+GEN_VEXT_VF(vfsgnj_vf_h, 2)
+GEN_VEXT_VF(vfsgnj_vf_w, 4)
+GEN_VEXT_VF(vfsgnj_vf_d, 8)
static uint16_t fsgnjn16(uint16_t a, uint16_t b, float_status *s)
{
@@ -4048,15 +4065,15 @@ static uint64_t fsgnjn64(uint64_t a, uint64_t b,
float_status *s)
RVVCALL(OPFVV2, vfsgnjn_vv_h, OP_UUU_H, H2, H2, H2, fsgnjn16)
RVVCALL(OPFVV2, vfsgnjn_vv_w, OP_UUU_W, H4, H4, H4, fsgnjn32)
RVVCALL(OPFVV2, vfsgnjn_vv_d, OP_UUU_D, H8, H8, H8, fsgnjn64)
-GEN_VEXT_VV_ENV(vfsgnjn_vv_h)
-GEN_VEXT_VV_ENV(vfsgnjn_vv_w)
-GEN_VEXT_VV_ENV(vfsgnjn_vv_d)
+GEN_VEXT_VV_ENV(vfsgnjn_vv_h, 2)
+GEN_VEXT_VV_ENV(vfsgnjn_vv_w, 4)
+GEN_VEXT_VV_ENV(vfsgnjn_vv_d, 8)
RVVCALL(OPFVF2, vfsgnjn_vf_h, OP_UUU_H, H2, H2, fsgnjn16)
RVVCALL(OPFVF2, vfsgnjn_vf_w, OP_UUU_W, H4, H4, fsgnjn32)
RVVCALL(OPFVF2, vfsgnjn_vf_d, OP_UUU_D, H8, H8, fsgnjn64)
-GEN_VEXT_VF(vfsgnjn_vf_h)
-GEN_VEXT_VF(vfsgnjn_vf_w)
-GEN_VEXT_VF(vfsgnjn_vf_d)
+GEN_VEXT_VF(vfsgnjn_vf_h, 2)
+GEN_VEXT_VF(vfsgnjn_vf_w, 4)
+GEN_VEXT_VF(vfsgnjn_vf_d, 8)
static uint16_t fsgnjx16(uint16_t a, uint16_t b, float_status *s)
{
@@ -4076,15 +4093,15 @@ static uint64_t fsgnjx64(uint64_t a, uint64_t b,
float_status *s)
RVVCALL(OPFVV2, vfsgnjx_vv_h, OP_UUU_H, H2, H2, H2, fsgnjx16)
RVVCALL(OPFVV2, vfsgnjx_vv_w, OP_UUU_W, H4, H4, H4, fsgnjx32)
RVVCALL(OPFVV2, vfsgnjx_vv_d, OP_UUU_D, H8, H8, H8, fsgnjx64)
-GEN_VEXT_VV_ENV(vfsgnjx_vv_h)
-GEN_VEXT_VV_ENV(vfsgnjx_vv_w)
-GEN_VEXT_VV_ENV(vfsgnjx_vv_d)
+GEN_VEXT_VV_ENV(vfsgnjx_vv_h, 2)
+GEN_VEXT_VV_ENV(vfsgnjx_vv_w, 4)
+GEN_VEXT_VV_ENV(vfsgnjx_vv_d, 8)
RVVCALL(OPFVF2, vfsgnjx_vf_h, OP_UUU_H, H2, H2, fsgnjx16)
RVVCALL(OPFVF2, vfsgnjx_vf_w, OP_UUU_W, H4, H4, fsgnjx32)
RVVCALL(OPFVF2, vfsgnjx_vf_d, OP_UUU_D, H8, H8, fsgnjx64)
-GEN_VEXT_VF(vfsgnjx_vf_h)
-GEN_VEXT_VF(vfsgnjx_vf_w)
-GEN_VEXT_VF(vfsgnjx_vf_d)
+GEN_VEXT_VF(vfsgnjx_vf_h, 2)
+GEN_VEXT_VF(vfsgnjx_vf_w, 4)
+GEN_VEXT_VF(vfsgnjx_vf_d, 8)
/* Vector Floating-Point Compare Instructions */
#define GEN_VEXT_CMP_VV_ENV(NAME, ETYPE, H, DO_OP) \
@@ -4093,6 +4110,10 @@ void HELPER(NAME)(void *vd, void *v0, void *vs1, void
*vs2, \
{ \
uint32_t vm = vext_vm(desc); \
uint32_t vl = env->vl; \
+ uint32_t esz = sizeof(ETYPE); \
+ uint32_t total_elems = \
+ vext_get_total_elems(env, desc, esz); \
+ uint32_t vta_all_1s = vext_vta_all_1s(desc); \
uint32_t i; \
\
for (i = env->vstart; i < vl; i++) { \
@@ -4105,6 +4126,13 @@ void HELPER(NAME)(void *vd, void *v0, void *vs1, void
*vs2, \
DO_OP(s2, s1, &env->fp_status)); \
} \
env->vstart = 0; \
+ /* mask destination register are always tail-agnostic */ \
+ /* set tail elements to 1s */ \
+ if (vta_all_1s) { \
+ for (; i < total_elems; i++) { \
+ vext_set_elem_mask(vd, i, 1); \
+ } \
+ } \
}
GEN_VEXT_CMP_VV_ENV(vmfeq_vv_h, uint16_t, H2, float16_eq_quiet)
@@ -4117,6 +4145,9 @@ void HELPER(NAME)(void *vd, void *v0, uint64_t s1, void
*vs2, \
{ \
uint32_t vm = vext_vm(desc); \
uint32_t vl = env->vl; \
+ uint32_t esz = sizeof(ETYPE); \
+ uint32_t total_elems = vext_get_total_elems(env, desc, esz); \
+ uint32_t vta_all_1s = vext_vta_all_1s(desc); \
uint32_t i; \
\
for (i = env->vstart; i < vl; i++) { \
@@ -4128,6 +4159,13 @@ void HELPER(NAME)(void *vd, void *v0, uint64_t s1, void
*vs2, \
DO_OP(s2, (ETYPE)s1, &env->fp_status)); \
} \
env->vstart = 0; \
+ /* mask destination register are always tail-agnostic */ \
+ /* set tail elements to 1s */ \
+ if (vta_all_1s) { \
+ for (; i < total_elems; i++) { \
+ vext_set_elem_mask(vd, i, 1); \
+ } \
+ } \
}
GEN_VEXT_CMP_VF(vmfeq_vf_h, uint16_t, H2, float16_eq_quiet)
@@ -4228,12 +4266,15 @@ static void do_##NAME(void *vd, void *vs2, int i) \
*((TD *)vd + HD(i)) = OP(s2); \
}
-#define GEN_VEXT_V(NAME) \
+#define GEN_VEXT_V(NAME, ESZ) \
void HELPER(NAME)(void *vd, void *v0, void *vs2, \
CPURISCVState *env, uint32_t desc) \
{ \
uint32_t vm = vext_vm(desc); \
uint32_t vl = env->vl; \
+ uint32_t total_elems = \
+ vext_get_total_elems(env, desc, ESZ); \
+ uint32_t vta = vext_vta(desc); \
uint32_t i; \
\
for (i = env->vstart; i < vl; i++) { \
@@ -4243,6 +4284,9 @@ void HELPER(NAME)(void *vd, void *v0, void *vs2, \
do_##NAME(vd, vs2, i); \
} \
env->vstart = 0; \
+ /* set tail elements to 1s */ \
+ vext_set_elems_1s(vd, vta, vl * ESZ, \
+ total_elems * ESZ); \
}
target_ulong fclass_h(uint64_t frs1)
@@ -4305,17 +4349,22 @@ target_ulong fclass_d(uint64_t frs1)
RVVCALL(OPIVV1, vfclass_v_h, OP_UU_H, H2, H2, fclass_h)
RVVCALL(OPIVV1, vfclass_v_w, OP_UU_W, H4, H4, fclass_s)
RVVCALL(OPIVV1, vfclass_v_d, OP_UU_D, H8, H8, fclass_d)
-GEN_VEXT_V(vfclass_v_h)
-GEN_VEXT_V(vfclass_v_w)
-GEN_VEXT_V(vfclass_v_d)
+GEN_VEXT_V(vfclass_v_h, 2)
+GEN_VEXT_V(vfclass_v_w, 4)
+GEN_VEXT_V(vfclass_v_d, 8)
/* Vector Floating-Point Merge Instruction */
+
#define GEN_VFMERGE_VF(NAME, ETYPE, H) \
void HELPER(NAME)(void *vd, void *v0, uint64_t s1, void *vs2, \
CPURISCVState *env, uint32_t desc) \
{ \
uint32_t vm = vext_vm(desc); \
uint32_t vl = env->vl; \
+ uint32_t esz = sizeof(ETYPE); \
+ uint32_t total_elems = \
+ vext_get_total_elems(env, desc, esz); \
+ uint32_t vta = vext_vta(desc); \
uint32_t i; \
\
for (i = env->vstart; i < vl; i++) { \
@@ -4324,6 +4373,8 @@ void HELPER(NAME)(void *vd, void *v0, uint64_t s1, void
*vs2, \
= (!vm && !vext_elem_mask(v0, i) ? s2 : s1); \
} \
env->vstart = 0; \
+ /* set tail elements to 1s */ \
+ vext_set_elems_1s(vd, vta, vl * esz, total_elems * esz); \
}
GEN_VFMERGE_VF(vfmerge_vfm_h, int16_t, H2)
@@ -4335,33 +4386,33 @@ GEN_VFMERGE_VF(vfmerge_vfm_d, int64_t, H8)
RVVCALL(OPFVV1, vfcvt_xu_f_v_h, OP_UU_H, H2, H2, float16_to_uint16)
RVVCALL(OPFVV1, vfcvt_xu_f_v_w, OP_UU_W, H4, H4, float32_to_uint32)
RVVCALL(OPFVV1, vfcvt_xu_f_v_d, OP_UU_D, H8, H8, float64_to_uint64)
-GEN_VEXT_V_ENV(vfcvt_xu_f_v_h)
-GEN_VEXT_V_ENV(vfcvt_xu_f_v_w)
-GEN_VEXT_V_ENV(vfcvt_xu_f_v_d)
+GEN_VEXT_V_ENV(vfcvt_xu_f_v_h, 2)
+GEN_VEXT_V_ENV(vfcvt_xu_f_v_w, 4)
+GEN_VEXT_V_ENV(vfcvt_xu_f_v_d, 8)
/* vfcvt.x.f.v vd, vs2, vm # Convert float to signed integer. */
RVVCALL(OPFVV1, vfcvt_x_f_v_h, OP_UU_H, H2, H2, float16_to_int16)
RVVCALL(OPFVV1, vfcvt_x_f_v_w, OP_UU_W, H4, H4, float32_to_int32)
RVVCALL(OPFVV1, vfcvt_x_f_v_d, OP_UU_D, H8, H8, float64_to_int64)
-GEN_VEXT_V_ENV(vfcvt_x_f_v_h)
-GEN_VEXT_V_ENV(vfcvt_x_f_v_w)
-GEN_VEXT_V_ENV(vfcvt_x_f_v_d)
+GEN_VEXT_V_ENV(vfcvt_x_f_v_h, 2)
+GEN_VEXT_V_ENV(vfcvt_x_f_v_w, 4)
+GEN_VEXT_V_ENV(vfcvt_x_f_v_d, 8)
/* vfcvt.f.xu.v vd, vs2, vm # Convert unsigned integer to float. */
RVVCALL(OPFVV1, vfcvt_f_xu_v_h, OP_UU_H, H2, H2, uint16_to_float16)
RVVCALL(OPFVV1, vfcvt_f_xu_v_w, OP_UU_W, H4, H4, uint32_to_float32)
RVVCALL(OPFVV1, vfcvt_f_xu_v_d, OP_UU_D, H8, H8, uint64_to_float64)
-GEN_VEXT_V_ENV(vfcvt_f_xu_v_h)
-GEN_VEXT_V_ENV(vfcvt_f_xu_v_w)
-GEN_VEXT_V_ENV(vfcvt_f_xu_v_d)
+GEN_VEXT_V_ENV(vfcvt_f_xu_v_h, 2)
+GEN_VEXT_V_ENV(vfcvt_f_xu_v_w, 4)
+GEN_VEXT_V_ENV(vfcvt_f_xu_v_d, 8)
/* vfcvt.f.x.v vd, vs2, vm # Convert integer to float. */
RVVCALL(OPFVV1, vfcvt_f_x_v_h, OP_UU_H, H2, H2, int16_to_float16)
RVVCALL(OPFVV1, vfcvt_f_x_v_w, OP_UU_W, H4, H4, int32_to_float32)
RVVCALL(OPFVV1, vfcvt_f_x_v_d, OP_UU_D, H8, H8, int64_to_float64)
-GEN_VEXT_V_ENV(vfcvt_f_x_v_h)
-GEN_VEXT_V_ENV(vfcvt_f_x_v_w)
-GEN_VEXT_V_ENV(vfcvt_f_x_v_d)
+GEN_VEXT_V_ENV(vfcvt_f_x_v_h, 2)
+GEN_VEXT_V_ENV(vfcvt_f_x_v_w, 4)
+GEN_VEXT_V_ENV(vfcvt_f_x_v_d, 8)
/* Widening Floating-Point/Integer Type-Convert Instructions */
/* (TD, T2, TX2) */
@@ -4371,30 +4422,30 @@ GEN_VEXT_V_ENV(vfcvt_f_x_v_d)
/* vfwcvt.xu.f.v vd, vs2, vm # Convert float to double-width unsigned
integer.*/
RVVCALL(OPFVV1, vfwcvt_xu_f_v_h, WOP_UU_H, H4, H2, float16_to_uint32)
RVVCALL(OPFVV1, vfwcvt_xu_f_v_w, WOP_UU_W, H8, H4, float32_to_uint64)
-GEN_VEXT_V_ENV(vfwcvt_xu_f_v_h)
-GEN_VEXT_V_ENV(vfwcvt_xu_f_v_w)
+GEN_VEXT_V_ENV(vfwcvt_xu_f_v_h, 4)
+GEN_VEXT_V_ENV(vfwcvt_xu_f_v_w, 8)
/* vfwcvt.x.f.v vd, vs2, vm # Convert float to double-width signed integer. */
RVVCALL(OPFVV1, vfwcvt_x_f_v_h, WOP_UU_H, H4, H2, float16_to_int32)
RVVCALL(OPFVV1, vfwcvt_x_f_v_w, WOP_UU_W, H8, H4, float32_to_int64)
-GEN_VEXT_V_ENV(vfwcvt_x_f_v_h)
-GEN_VEXT_V_ENV(vfwcvt_x_f_v_w)
+GEN_VEXT_V_ENV(vfwcvt_x_f_v_h, 4)
+GEN_VEXT_V_ENV(vfwcvt_x_f_v_w, 8)
/* vfwcvt.f.xu.v vd, vs2, vm # Convert unsigned integer to double-width float
*/
RVVCALL(OPFVV1, vfwcvt_f_xu_v_b, WOP_UU_B, H2, H1, uint8_to_float16)
RVVCALL(OPFVV1, vfwcvt_f_xu_v_h, WOP_UU_H, H4, H2, uint16_to_float32)
RVVCALL(OPFVV1, vfwcvt_f_xu_v_w, WOP_UU_W, H8, H4, uint32_to_float64)
-GEN_VEXT_V_ENV(vfwcvt_f_xu_v_b)
-GEN_VEXT_V_ENV(vfwcvt_f_xu_v_h)
-GEN_VEXT_V_ENV(vfwcvt_f_xu_v_w)
+GEN_VEXT_V_ENV(vfwcvt_f_xu_v_b, 2)
+GEN_VEXT_V_ENV(vfwcvt_f_xu_v_h, 4)
+GEN_VEXT_V_ENV(vfwcvt_f_xu_v_w, 8)
/* vfwcvt.f.x.v vd, vs2, vm # Convert integer to double-width float. */
RVVCALL(OPFVV1, vfwcvt_f_x_v_b, WOP_UU_B, H2, H1, int8_to_float16)
RVVCALL(OPFVV1, vfwcvt_f_x_v_h, WOP_UU_H, H4, H2, int16_to_float32)
RVVCALL(OPFVV1, vfwcvt_f_x_v_w, WOP_UU_W, H8, H4, int32_to_float64)
-GEN_VEXT_V_ENV(vfwcvt_f_x_v_b)
-GEN_VEXT_V_ENV(vfwcvt_f_x_v_h)
-GEN_VEXT_V_ENV(vfwcvt_f_x_v_w)
+GEN_VEXT_V_ENV(vfwcvt_f_x_v_b, 2)
+GEN_VEXT_V_ENV(vfwcvt_f_x_v_h, 4)
+GEN_VEXT_V_ENV(vfwcvt_f_x_v_w, 8)
/*
* vfwcvt.f.f.v vd, vs2, vm
@@ -4407,8 +4458,8 @@ static uint32_t vfwcvtffv16(uint16_t a, float_status *s)
RVVCALL(OPFVV1, vfwcvt_f_f_v_h, WOP_UU_H, H4, H2, vfwcvtffv16)
RVVCALL(OPFVV1, vfwcvt_f_f_v_w, WOP_UU_W, H8, H4, float32_to_float64)
-GEN_VEXT_V_ENV(vfwcvt_f_f_v_h)
-GEN_VEXT_V_ENV(vfwcvt_f_f_v_w)
+GEN_VEXT_V_ENV(vfwcvt_f_f_v_h, 4)
+GEN_VEXT_V_ENV(vfwcvt_f_f_v_w, 8)
/* Narrowing Floating-Point/Integer Type-Convert Instructions */
/* (TD, T2, TX2) */
@@ -4419,29 +4470,29 @@ GEN_VEXT_V_ENV(vfwcvt_f_f_v_w)
RVVCALL(OPFVV1, vfncvt_xu_f_w_b, NOP_UU_B, H1, H2, float16_to_uint8)
RVVCALL(OPFVV1, vfncvt_xu_f_w_h, NOP_UU_H, H2, H4, float32_to_uint16)
RVVCALL(OPFVV1, vfncvt_xu_f_w_w, NOP_UU_W, H4, H8, float64_to_uint32)
-GEN_VEXT_V_ENV(vfncvt_xu_f_w_b)
-GEN_VEXT_V_ENV(vfncvt_xu_f_w_h)
-GEN_VEXT_V_ENV(vfncvt_xu_f_w_w)
+GEN_VEXT_V_ENV(vfncvt_xu_f_w_b, 1)
+GEN_VEXT_V_ENV(vfncvt_xu_f_w_h, 2)
+GEN_VEXT_V_ENV(vfncvt_xu_f_w_w, 4)
/* vfncvt.x.f.v vd, vs2, vm # Convert double-width float to signed integer. */
RVVCALL(OPFVV1, vfncvt_x_f_w_b, NOP_UU_B, H1, H2, float16_to_int8)
RVVCALL(OPFVV1, vfncvt_x_f_w_h, NOP_UU_H, H2, H4, float32_to_int16)
RVVCALL(OPFVV1, vfncvt_x_f_w_w, NOP_UU_W, H4, H8, float64_to_int32)
-GEN_VEXT_V_ENV(vfncvt_x_f_w_b)
-GEN_VEXT_V_ENV(vfncvt_x_f_w_h)
-GEN_VEXT_V_ENV(vfncvt_x_f_w_w)
+GEN_VEXT_V_ENV(vfncvt_x_f_w_b, 1)
+GEN_VEXT_V_ENV(vfncvt_x_f_w_h, 2)
+GEN_VEXT_V_ENV(vfncvt_x_f_w_w, 4)
/* vfncvt.f.xu.v vd, vs2, vm # Convert double-width unsigned integer to float
*/
RVVCALL(OPFVV1, vfncvt_f_xu_w_h, NOP_UU_H, H2, H4, uint32_to_float16)
RVVCALL(OPFVV1, vfncvt_f_xu_w_w, NOP_UU_W, H4, H8, uint64_to_float32)
-GEN_VEXT_V_ENV(vfncvt_f_xu_w_h)
-GEN_VEXT_V_ENV(vfncvt_f_xu_w_w)
+GEN_VEXT_V_ENV(vfncvt_f_xu_w_h, 2)
+GEN_VEXT_V_ENV(vfncvt_f_xu_w_w, 4)
/* vfncvt.f.x.v vd, vs2, vm # Convert double-width integer to float. */
RVVCALL(OPFVV1, vfncvt_f_x_w_h, NOP_UU_H, H2, H4, int32_to_float16)
RVVCALL(OPFVV1, vfncvt_f_x_w_w, NOP_UU_W, H4, H8, int64_to_float32)
-GEN_VEXT_V_ENV(vfncvt_f_x_w_h)
-GEN_VEXT_V_ENV(vfncvt_f_x_w_w)
+GEN_VEXT_V_ENV(vfncvt_f_x_w_h, 2)
+GEN_VEXT_V_ENV(vfncvt_f_x_w_w, 4)
/* vfncvt.f.f.v vd, vs2, vm # Convert double float to single-width float. */
static uint16_t vfncvtffv16(uint32_t a, float_status *s)
@@ -4451,8 +4502,8 @@ static uint16_t vfncvtffv16(uint32_t a, float_status *s)
RVVCALL(OPFVV1, vfncvt_f_f_w_h, NOP_UU_H, H2, H4, vfncvtffv16)
RVVCALL(OPFVV1, vfncvt_f_f_w_w, NOP_UU_W, H4, H8, float64_to_float32)
-GEN_VEXT_V_ENV(vfncvt_f_f_w_h)
-GEN_VEXT_V_ENV(vfncvt_f_f_w_w)
+GEN_VEXT_V_ENV(vfncvt_f_f_w_h, 2)
+GEN_VEXT_V_ENV(vfncvt_f_f_w_w, 4)
/*
*** Vector Reduction Operations
--
2.34.2
- [PATCH qemu v12 05/15] target/riscv: rvv: Add tail agnostic for vector load / store instructions, (continued)
- [PATCH qemu v12 05/15] target/riscv: rvv: Add tail agnostic for vector load / store instructions, ~eopxd, 2022/04/28
- [PATCH qemu v12 07/15] target/riscv: rvv: Add tail agnostic for vector integer shift instructions, ~eopxd, 2022/04/28
- [PATCH qemu v12 10/15] target/riscv: rvv: Add tail agnostic for vector fix-point arithmetic instructions, ~eopxd, 2022/04/28
- [PATCH qemu v12 08/15] target/riscv: rvv: Add tail agnostic for vector integer comparison instructions, ~eopxd, 2022/04/28
- [PATCH qemu v12 01/15] target/riscv: rvv: Prune redundant ESZ, DSZ parameter passed, ~eopxd, 2022/04/28
- [PATCH qemu v12 09/15] target/riscv: rvv: Add tail agnostic for vector integer merge and move instructions, ~eopxd, 2022/04/28
- [PATCH qemu v12 14/15] target/riscv: rvv: Add tail agnostic for vector permutation instructions, ~eopxd, 2022/04/28
- [PATCH qemu v12 12/15] target/riscv: rvv: Add tail agnostic for vector reduction instructions, ~eopxd, 2022/04/28
- [PATCH qemu v12 13/15] target/riscv: rvv: Add tail agnostic for vector mask instructions, ~eopxd, 2022/04/28
- [PATCH qemu v12 15/15] target/riscv: rvv: Add option 'rvv_ta_all_1s' to enable optional tail agnostic behavior, ~eopxd, 2022/04/28
- [PATCH qemu v12 11/15] target/riscv: rvv: Add tail agnostic for vector floating-point instructions,
~eopxd <=