[06/22] arm: [MVE intrinsics] add unspec_based_mve_function_exact_insn
Checks
Commit Message
Introduce a function that will be used to build intrinsics which use
RTX codes for the non-predicated, no-mode version, and UNSPECS
otherwise.
2022-09-08 Christophe Lyon <christophe.lyon@arm.com>
gcc/ChangeLog:
* config/arm/arm-mve-builtins-functions.h (class
unspec_based_mve_function_base): New.
(class unspec_based_mve_function_exact_insn): New.
---
gcc/config/arm/arm-mve-builtins-functions.h | 186 ++++++++++++++++++++
1 file changed, 186 insertions(+)
Comments
> -----Original Message-----
> From: Christophe Lyon <christophe.lyon@arm.com>
> Sent: Tuesday, April 18, 2023 2:46 PM
> To: gcc-patches@gcc.gnu.org; Kyrylo Tkachov <Kyrylo.Tkachov@arm.com>;
> Richard Earnshaw <Richard.Earnshaw@arm.com>; Richard Sandiford
> <Richard.Sandiford@arm.com>
> Cc: Christophe Lyon <Christophe.Lyon@arm.com>
> Subject: [PATCH 06/22] arm: [MVE intrinsics] add
> unspec_based_mve_function_exact_insn
>
> Introduce a function that will be used to build intrinsics which use
> RTX codes for the non-predicated, no-mode version, and UNSPECS
> otherwise.
>
Ok.
Thanks,
Kyrill
> 2022-09-08 Christophe Lyon <christophe.lyon@arm.com>
>
> gcc/ChangeLog:
>
> * config/arm/arm-mve-builtins-functions.h (class
> unspec_based_mve_function_base): New.
> (class unspec_based_mve_function_exact_insn): New.
> ---
> gcc/config/arm/arm-mve-builtins-functions.h | 186 ++++++++++++++++++++
> 1 file changed, 186 insertions(+)
>
> diff --git a/gcc/config/arm/arm-mve-builtins-functions.h
> b/gcc/config/arm/arm-mve-builtins-functions.h
> index dff01999bcd..6d992b270b0 100644
> --- a/gcc/config/arm/arm-mve-builtins-functions.h
> +++ b/gcc/config/arm/arm-mve-builtins-functions.h
> @@ -39,6 +39,192 @@ public:
> }
> };
>
> +/* An incomplete function_base for functions that have an associated
> + rtx_code for signed integers, unsigned integers and floating-point
> + values for the non-predicated, non-suffixed intrinsic, and unspec
> + codes, with separate codes for signed integers, unsigned integers
> + and floating-point values. The class simply records information
> + about the mapping for derived classes to use. */
> +class unspec_based_mve_function_base : public function_base
> +{
> +public:
> + CONSTEXPR unspec_based_mve_function_base (rtx_code code_for_sint,
> + rtx_code code_for_uint,
> + rtx_code code_for_fp,
> + int unspec_for_n_sint,
> + int unspec_for_n_uint,
> + int unspec_for_n_fp,
> + int unspec_for_m_sint,
> + int unspec_for_m_uint,
> + int unspec_for_m_fp,
> + int unspec_for_m_n_sint,
> + int unspec_for_m_n_uint,
> + int unspec_for_m_n_fp)
> + : m_code_for_sint (code_for_sint),
> + m_code_for_uint (code_for_uint),
> + m_code_for_fp (code_for_fp),
> + m_unspec_for_n_sint (unspec_for_n_sint),
> + m_unspec_for_n_uint (unspec_for_n_uint),
> + m_unspec_for_n_fp (unspec_for_n_fp),
> + m_unspec_for_m_sint (unspec_for_m_sint),
> + m_unspec_for_m_uint (unspec_for_m_uint),
> + m_unspec_for_m_fp (unspec_for_m_fp),
> + m_unspec_for_m_n_sint (unspec_for_m_n_sint),
> + m_unspec_for_m_n_uint (unspec_for_m_n_uint),
> + m_unspec_for_m_n_fp (unspec_for_m_n_fp)
> + {}
> +
> + /* The rtx code to use for signed, unsigned integers and
> + floating-point values respectively. */
> + rtx_code m_code_for_sint;
> + rtx_code m_code_for_uint;
> + rtx_code m_code_for_fp;
> +
> + /* The unspec code associated with signed-integer, unsigned-integer
> + and floating-point operations respectively. It covers the cases
> + with the _n suffix, and/or the _m predicate. */
> + int m_unspec_for_n_sint;
> + int m_unspec_for_n_uint;
> + int m_unspec_for_n_fp;
> + int m_unspec_for_m_sint;
> + int m_unspec_for_m_uint;
> + int m_unspec_for_m_fp;
> + int m_unspec_for_m_n_sint;
> + int m_unspec_for_m_n_uint;
> + int m_unspec_for_m_n_fp;
> +};
> +
> +/* Map the function directly to CODE (UNSPEC, M) where M is the vector
> + mode associated with type suffix 0, except when there is no
> + predicate and no _n suffix, in which case we use the appropriate
> + rtx_code. This is useful when the basic operation is mapped to a
> + standard RTX code and all other versions use different unspecs. */
> +class unspec_based_mve_function_exact_insn : public
> unspec_based_mve_function_base
> +{
> +public:
> + CONSTEXPR unspec_based_mve_function_exact_insn (rtx_code
> code_for_sint,
> + rtx_code code_for_uint,
> + rtx_code code_for_fp,
> + int unspec_for_n_sint,
> + int unspec_for_n_uint,
> + int unspec_for_n_fp,
> + int unspec_for_m_sint,
> + int unspec_for_m_uint,
> + int unspec_for_m_fp,
> + int unspec_for_m_n_sint,
> + int unspec_for_m_n_uint,
> + int unspec_for_m_n_fp)
> + : unspec_based_mve_function_base (code_for_sint,
> + code_for_uint,
> + code_for_fp,
> + unspec_for_n_sint,
> + unspec_for_n_uint,
> + unspec_for_n_fp,
> + unspec_for_m_sint,
> + unspec_for_m_uint,
> + unspec_for_m_fp,
> + unspec_for_m_n_sint,
> + unspec_for_m_n_uint,
> + unspec_for_m_n_fp)
> + {}
> +
> + rtx
> + expand (function_expander &e) const override
> + {
> + /* No suffix, no predicate, use the right RTX code. */
> + if ((e.mode_suffix_id != MODE_n)
> + && (e.pred == PRED_none))
> + return e.map_to_rtx_codes (m_code_for_sint, m_code_for_uint,
> + m_code_for_fp);
> +
> + insn_code code;
> + switch (e.pred)
> + {
> + case PRED_none:
> + if (e.mode_suffix_id == MODE_n)
> + /* No predicate, _n suffix. */
> + {
> + if (e.type_suffix (0).integer_p)
> + if (e.type_suffix (0).unsigned_p)
> + code = code_for_mve_q_n (m_unspec_for_n_uint,
> m_unspec_for_n_uint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_n (m_unspec_for_n_sint,
> m_unspec_for_n_sint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_n_f (m_unspec_for_n_fp, e.vector_mode
> (0));
> +
> + return e.use_exact_insn (code);
> + }
> + gcc_unreachable ();
> + break;
> +
> + case PRED_m:
> + switch (e.mode_suffix_id)
> + {
> + case MODE_none:
> + /* No suffix, "m" predicate. */
> + if (e.type_suffix (0).integer_p)
> + if (e.type_suffix (0).unsigned_p)
> + code = code_for_mve_q_m (m_unspec_for_m_uint,
> m_unspec_for_m_uint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_m (m_unspec_for_m_sint,
> m_unspec_for_m_sint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_m_f (m_unspec_for_m_fp,
> e.vector_mode (0));
> + break;
> +
> + case MODE_n:
> + /* _n suffix, "m" predicate. */
> + if (e.type_suffix (0).integer_p)
> + if (e.type_suffix (0).unsigned_p)
> + code = code_for_mve_q_m_n (m_unspec_for_m_n_uint,
> m_unspec_for_m_n_uint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_m_n (m_unspec_for_m_n_sint,
> m_unspec_for_m_n_sint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_m_n_f (m_unspec_for_m_n_fp,
> e.vector_mode (0));
> + break;
> +
> + default:
> + gcc_unreachable ();
> + }
> + return e.use_cond_insn (code, 0);
> +
> + case PRED_x:
> + switch (e.mode_suffix_id)
> + {
> + case MODE_none:
> + /* No suffix, "x" predicate. */
> + if (e.type_suffix (0).integer_p)
> + if (e.type_suffix (0).unsigned_p)
> + code = code_for_mve_q_m (m_unspec_for_m_uint,
> m_unspec_for_m_uint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_m (m_unspec_for_m_sint,
> m_unspec_for_m_sint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_m_f (m_unspec_for_m_fp,
> e.vector_mode (0));
> + break;
> +
> + case MODE_n:
> + /* _n suffix, "x" predicate. */
> + if (e.type_suffix (0).integer_p)
> + if (e.type_suffix (0).unsigned_p)
> + code = code_for_mve_q_m_n (m_unspec_for_m_n_uint,
> m_unspec_for_m_n_uint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_m_n (m_unspec_for_m_n_sint,
> m_unspec_for_m_n_sint, e.vector_mode (0));
> + else
> + code = code_for_mve_q_m_n_f (m_unspec_for_m_n_fp,
> e.vector_mode (0));
> + break;
> +
> + default:
> + gcc_unreachable ();
> + }
> + return e.use_pred_x_insn (code);
> +
> + default:
> + gcc_unreachable ();
> + }
> +
> + gcc_unreachable ();
> + }
> +};
> +
> } /* end namespace arm_mve */
>
> /* Declare the global function base NAME, creating it from an instance
> --
> 2.34.1
@@ -39,6 +39,192 @@ public:
}
};
+/* An incomplete function_base for functions that have an associated
+ rtx_code for signed integers, unsigned integers and floating-point
+ values for the non-predicated, non-suffixed intrinsic, and unspec
+ codes, with separate codes for signed integers, unsigned integers
+ and floating-point values. The class simply records information
+ about the mapping for derived classes to use. */
+class unspec_based_mve_function_base : public function_base
+{
+public:
+ CONSTEXPR unspec_based_mve_function_base (rtx_code code_for_sint,
+ rtx_code code_for_uint,
+ rtx_code code_for_fp,
+ int unspec_for_n_sint,
+ int unspec_for_n_uint,
+ int unspec_for_n_fp,
+ int unspec_for_m_sint,
+ int unspec_for_m_uint,
+ int unspec_for_m_fp,
+ int unspec_for_m_n_sint,
+ int unspec_for_m_n_uint,
+ int unspec_for_m_n_fp)
+ : m_code_for_sint (code_for_sint),
+ m_code_for_uint (code_for_uint),
+ m_code_for_fp (code_for_fp),
+ m_unspec_for_n_sint (unspec_for_n_sint),
+ m_unspec_for_n_uint (unspec_for_n_uint),
+ m_unspec_for_n_fp (unspec_for_n_fp),
+ m_unspec_for_m_sint (unspec_for_m_sint),
+ m_unspec_for_m_uint (unspec_for_m_uint),
+ m_unspec_for_m_fp (unspec_for_m_fp),
+ m_unspec_for_m_n_sint (unspec_for_m_n_sint),
+ m_unspec_for_m_n_uint (unspec_for_m_n_uint),
+ m_unspec_for_m_n_fp (unspec_for_m_n_fp)
+ {}
+
+ /* The rtx code to use for signed, unsigned integers and
+ floating-point values respectively. */
+ rtx_code m_code_for_sint;
+ rtx_code m_code_for_uint;
+ rtx_code m_code_for_fp;
+
+ /* The unspec code associated with signed-integer, unsigned-integer
+ and floating-point operations respectively. It covers the cases
+ with the _n suffix, and/or the _m predicate. */
+ int m_unspec_for_n_sint;
+ int m_unspec_for_n_uint;
+ int m_unspec_for_n_fp;
+ int m_unspec_for_m_sint;
+ int m_unspec_for_m_uint;
+ int m_unspec_for_m_fp;
+ int m_unspec_for_m_n_sint;
+ int m_unspec_for_m_n_uint;
+ int m_unspec_for_m_n_fp;
+};
+
+/* Map the function directly to CODE (UNSPEC, M) where M is the vector
+ mode associated with type suffix 0, except when there is no
+ predicate and no _n suffix, in which case we use the appropriate
+ rtx_code. This is useful when the basic operation is mapped to a
+ standard RTX code and all other versions use different unspecs. */
+class unspec_based_mve_function_exact_insn : public unspec_based_mve_function_base
+{
+public:
+ CONSTEXPR unspec_based_mve_function_exact_insn (rtx_code code_for_sint,
+ rtx_code code_for_uint,
+ rtx_code code_for_fp,
+ int unspec_for_n_sint,
+ int unspec_for_n_uint,
+ int unspec_for_n_fp,
+ int unspec_for_m_sint,
+ int unspec_for_m_uint,
+ int unspec_for_m_fp,
+ int unspec_for_m_n_sint,
+ int unspec_for_m_n_uint,
+ int unspec_for_m_n_fp)
+ : unspec_based_mve_function_base (code_for_sint,
+ code_for_uint,
+ code_for_fp,
+ unspec_for_n_sint,
+ unspec_for_n_uint,
+ unspec_for_n_fp,
+ unspec_for_m_sint,
+ unspec_for_m_uint,
+ unspec_for_m_fp,
+ unspec_for_m_n_sint,
+ unspec_for_m_n_uint,
+ unspec_for_m_n_fp)
+ {}
+
+ rtx
+ expand (function_expander &e) const override
+ {
+ /* No suffix, no predicate, use the right RTX code. */
+ if ((e.mode_suffix_id != MODE_n)
+ && (e.pred == PRED_none))
+ return e.map_to_rtx_codes (m_code_for_sint, m_code_for_uint,
+ m_code_for_fp);
+
+ insn_code code;
+ switch (e.pred)
+ {
+ case PRED_none:
+ if (e.mode_suffix_id == MODE_n)
+ /* No predicate, _n suffix. */
+ {
+ if (e.type_suffix (0).integer_p)
+ if (e.type_suffix (0).unsigned_p)
+ code = code_for_mve_q_n (m_unspec_for_n_uint, m_unspec_for_n_uint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_n (m_unspec_for_n_sint, m_unspec_for_n_sint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_n_f (m_unspec_for_n_fp, e.vector_mode (0));
+
+ return e.use_exact_insn (code);
+ }
+ gcc_unreachable ();
+ break;
+
+ case PRED_m:
+ switch (e.mode_suffix_id)
+ {
+ case MODE_none:
+ /* No suffix, "m" predicate. */
+ if (e.type_suffix (0).integer_p)
+ if (e.type_suffix (0).unsigned_p)
+ code = code_for_mve_q_m (m_unspec_for_m_uint, m_unspec_for_m_uint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_m (m_unspec_for_m_sint, m_unspec_for_m_sint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_m_f (m_unspec_for_m_fp, e.vector_mode (0));
+ break;
+
+ case MODE_n:
+ /* _n suffix, "m" predicate. */
+ if (e.type_suffix (0).integer_p)
+ if (e.type_suffix (0).unsigned_p)
+ code = code_for_mve_q_m_n (m_unspec_for_m_n_uint, m_unspec_for_m_n_uint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_m_n (m_unspec_for_m_n_sint, m_unspec_for_m_n_sint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_m_n_f (m_unspec_for_m_n_fp, e.vector_mode (0));
+ break;
+
+ default:
+ gcc_unreachable ();
+ }
+ return e.use_cond_insn (code, 0);
+
+ case PRED_x:
+ switch (e.mode_suffix_id)
+ {
+ case MODE_none:
+ /* No suffix, "x" predicate. */
+ if (e.type_suffix (0).integer_p)
+ if (e.type_suffix (0).unsigned_p)
+ code = code_for_mve_q_m (m_unspec_for_m_uint, m_unspec_for_m_uint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_m (m_unspec_for_m_sint, m_unspec_for_m_sint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_m_f (m_unspec_for_m_fp, e.vector_mode (0));
+ break;
+
+ case MODE_n:
+ /* _n suffix, "x" predicate. */
+ if (e.type_suffix (0).integer_p)
+ if (e.type_suffix (0).unsigned_p)
+ code = code_for_mve_q_m_n (m_unspec_for_m_n_uint, m_unspec_for_m_n_uint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_m_n (m_unspec_for_m_n_sint, m_unspec_for_m_n_sint, e.vector_mode (0));
+ else
+ code = code_for_mve_q_m_n_f (m_unspec_for_m_n_fp, e.vector_mode (0));
+ break;
+
+ default:
+ gcc_unreachable ();
+ }
+ return e.use_pred_x_insn (code);
+
+ default:
+ gcc_unreachable ();
+ }
+
+ gcc_unreachable ();
+ }
+};
+
} /* end namespace arm_mve */
/* Declare the global function base NAME, creating it from an instance