};
SHAPE (binary_lshift)
+/* Used with the above form, but only for the MODE_r case which does
+ not always support the same set of predicates as MODE_none and
+ MODE_n. For vqshlq they are the same, but for vshlq they are not.
+
+ <T0>_t vfoo_r[_t0](<T0>_t, int32_t)
+
+ i.e. the standard shape for shift operations that operate on
+ vector types.
+ Example: vshlq.
+ int8x16_t [__arm_]vshlq_r[_s8](int8x16_t a, int32_t b)
+ int8x16_t [__arm_]vshlq_m_r[_s8](int8x16_t a, int32_t b, mve_pred16_t p) */
+struct binary_lshift_r_def : public overloaded_base<0>
+{
+ bool
+ explicit_mode_suffix_p (enum predication_index, enum mode_suffix_index) const override
+ {
+ return true;
+ }
+
+ void
+ build (function_builder &b, const function_group_info &group,
+ bool preserve_user_namespace) const override
+ {
+ b.add_overloaded_functions (group, MODE_r, preserve_user_namespace);
+ build_all (b, "v0,v0,ss32", group, MODE_r, preserve_user_namespace, false, preds_m_or_none);
+ }
+
+ tree
+ resolve (function_resolver &r) const override
+ {
+ unsigned int i, nargs;
+ type_suffix_index type;
+ if (!r.check_gp_argument (2, i, nargs)
+ || (type = r.infer_vector_type (0)) == NUM_TYPE_SUFFIXES)
+ return error_mark_node;
+
+ return r.finish_opt_n_resolution (i, 0, type, TYPE_signed);
+ }
+};
+SHAPE (binary_lshift_r)
+
/* <T0>xN_t vfoo[_t0](uint64_t, uint64_t)
where there are N arguments in total.
extern const function_shape *const binary;
extern const function_shape *const binary_lshift;
+ extern const function_shape *const binary_lshift_r;
extern const function_shape *const binary_opt_n;
extern const function_shape *const binary_orrq;
extern const function_shape *const binary_round_lshift;
projects / thirdparty / gcc.git / commitdiff
