gcc/config/riscv/riscv-builtins.cc - gcc - Git at Google

 /* Subroutines used for expanding RISC-V builtins.
    Copyright (C) 2011-2022 Free Software Foundation, Inc.
    Contributed by Andrew Waterman (andrew@sifive.com).

 This file is part of GCC.

 GCC is free software; you can redistribute it and/or modify
 it under the terms of the GNU General Public License as published by
 the Free Software Foundation; either version 3, or (at your option)
 any later version.

 GCC is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 GNU General Public License for more details.

 You should have received a copy of the GNU General Public License
 along with GCC; see the file COPYING3.  If not see
 <http://www.gnu.org/licenses/>.  */

 #define IN_TARGET_CODE 1

 #include "config.h"
 #include "system.h"
 #include "coretypes.h"
 #include "tm.h"
 #include "rtl.h"
 #include "tree.h"
 #include "gimple-expr.h"
 #include "memmodel.h"
 #include "expmed.h"
 #include "profile-count.h"
 #include "optabs.h"
 #include "recog.h"
 #include "diagnostic-core.h"
 #include "stor-layout.h"
 #include "stringpool.h"
 #include "expr.h"
 #include "langhooks.h"
 #include "tm_p.h"

 /* Macros to create an enumeration identifier for a function prototype.  */
 #define RISCV_FTYPE_NAME0(A) RISCV_##A##_FTYPE
 #define RISCV_FTYPE_NAME1(A, B) RISCV_##A##_FTYPE_##B

 /* Classifies the prototype of a built-in function.  */
 enum riscv_function_type {
 #define DEF_RISCV_FTYPE(NARGS, LIST) RISCV_FTYPE_NAME##NARGS LIST,
 #include "config/riscv/riscv-ftypes.def"
 #undef DEF_RISCV_FTYPE
   RISCV_MAX_FTYPE_MAX
 };

 /* Specifies how a built-in function should be converted into rtl.  */
 enum riscv_builtin_type {
   /* The function corresponds directly to an .md pattern.  */
   RISCV_BUILTIN_DIRECT,

   /* Likewise, but with return type VOID.  */
   RISCV_BUILTIN_DIRECT_NO_TARGET
 };

 /* Declare an availability predicate for built-in functions.  */
 #define AVAIL(NAME, COND)		\
  static unsigned int			\
  riscv_builtin_avail_##NAME (void)	\
  {					\
    return (COND);			\
  }

 /* This structure describes a single built-in function.  */
 struct riscv_builtin_description {
   /* The code of the main .md file instruction.  See riscv_builtin_type
      for more information.  */
   enum insn_code icode;

   /* The name of the built-in function.  */
   const char *name;

   /* Specifies how the function should be expanded.  */
   enum riscv_builtin_type builtin_type;

   /* The function's prototype.  */
   enum riscv_function_type prototype;

   /* Whether the function is available.  */
   unsigned int (*avail) (void);
 };

 AVAIL (hard_float, TARGET_HARD_FLOAT || TARGET_ZFINX)
 AVAIL (clean32, TARGET_ZICBOM && !TARGET_64BIT)
 AVAIL (clean64, TARGET_ZICBOM && TARGET_64BIT)
 AVAIL (flush32, TARGET_ZICBOM && !TARGET_64BIT)
 AVAIL (flush64, TARGET_ZICBOM && TARGET_64BIT)
 AVAIL (inval32, TARGET_ZICBOM && !TARGET_64BIT)
 AVAIL (inval64, TARGET_ZICBOM && TARGET_64BIT)
 AVAIL (zero32,  TARGET_ZICBOZ && !TARGET_64BIT)
 AVAIL (zero64,  TARGET_ZICBOZ && TARGET_64BIT)
 AVAIL (prefetchi32, TARGET_ZICBOP && !TARGET_64BIT)
 AVAIL (prefetchi64, TARGET_ZICBOP && TARGET_64BIT)
 AVAIL (always,     (!0))

 /* Construct a riscv_builtin_description from the given arguments.

    INSN is the name of the associated instruction pattern, without the
    leading CODE_FOR_riscv_.

    NAME is the name of the function itself, without the leading
    "__builtin_riscv_".

    BUILTIN_TYPE and FUNCTION_TYPE are riscv_builtin_description fields.

    AVAIL is the name of the availability predicate, without the leading
    riscv_builtin_avail_.  */
 #define RISCV_BUILTIN(INSN, NAME, BUILTIN_TYPE,	FUNCTION_TYPE, AVAIL)	\
   { CODE_FOR_riscv_ ## INSN, "__builtin_riscv_" NAME,			\
     BUILTIN_TYPE, FUNCTION_TYPE, riscv_builtin_avail_ ## AVAIL }

 /* Define __builtin_riscv_<INSN>, which is a RISCV_BUILTIN_DIRECT function
    mapped to instruction CODE_FOR_riscv_<INSN>,  FUNCTION_TYPE and AVAIL
    are as for RISCV_BUILTIN.  */
 #define DIRECT_BUILTIN(INSN, FUNCTION_TYPE, AVAIL)			\
   RISCV_BUILTIN (INSN, #INSN, RISCV_BUILTIN_DIRECT, FUNCTION_TYPE, AVAIL)

 /* Define __builtin_riscv_<INSN>, which is a RISCV_BUILTIN_DIRECT_NO_TARGET
    function mapped to instruction CODE_FOR_riscv_<INSN>,  FUNCTION_TYPE
    and AVAIL are as for RISCV_BUILTIN.  */
 #define DIRECT_NO_TARGET_BUILTIN(INSN, FUNCTION_TYPE, AVAIL)		\
   RISCV_BUILTIN (INSN, #INSN, RISCV_BUILTIN_DIRECT_NO_TARGET,		\
 		FUNCTION_TYPE, AVAIL)

 /* Argument types.  */
 #define RISCV_ATYPE_VOID void_type_node
 #define RISCV_ATYPE_USI unsigned_intSI_type_node
 #define RISCV_ATYPE_SI intSI_type_node
 #define RISCV_ATYPE_DI intDI_type_node
 #define RISCV_ATYPE_VOID_PTR ptr_type_node

 /* RISCV_FTYPE_ATYPESN takes N RISCV_FTYPES-like type codes and lists
    their associated RISCV_ATYPEs.  */
 #define RISCV_FTYPE_ATYPES0(A) \
   RISCV_ATYPE_##A
 #define RISCV_FTYPE_ATYPES1(A, B) \
   RISCV_ATYPE_##A, RISCV_ATYPE_##B

 static const struct riscv_builtin_description riscv_builtins[] = {
   #include "riscv-cmo.def"

   DIRECT_BUILTIN (frflags, RISCV_USI_FTYPE, hard_float),
   DIRECT_NO_TARGET_BUILTIN (fsflags, RISCV_VOID_FTYPE_USI, hard_float),
   DIRECT_NO_TARGET_BUILTIN (pause, RISCV_VOID_FTYPE, always),
 };

 /* Index I is the function declaration for riscv_builtins[I], or null if the
    function isn't defined on this target.  */
 static GTY(()) tree riscv_builtin_decls[ARRAY_SIZE (riscv_builtins)];

 /* Get the index I of the function declaration for riscv_builtin_decls[I]
    using the instruction code or return null if not defined for the target.  */
 static GTY(()) int riscv_builtin_decl_index[NUM_INSN_CODES];

 #define GET_BUILTIN_DECL(CODE) \
   riscv_builtin_decls[riscv_builtin_decl_index[(CODE)]]

 tree riscv_float16_type_node = NULL_TREE;

 /* Return the function type associated with function prototype TYPE.  */

 static tree
 riscv_build_function_type (enum riscv_function_type type)
 {
   static tree types[(int) RISCV_MAX_FTYPE_MAX];

   if (types[(int) type] == NULL_TREE)
     switch (type)
       {
 #define DEF_RISCV_FTYPE(NUM, ARGS)					\
   case RISCV_FTYPE_NAME##NUM ARGS:					\
     types[(int) type]							\
       = build_function_type_list (RISCV_FTYPE_ATYPES##NUM ARGS,		\
 				  NULL_TREE);				\
     break;
 #include "config/riscv/riscv-ftypes.def"
 #undef DEF_RISCV_FTYPE
       default:
 	gcc_unreachable ();
       }

   return types[(int) type];
 }

 static void
 riscv_init_builtin_types (void)
 {
   /* Provide the _Float16 type and float16_type_node if needed.  */
   if (!float16_type_node)
     {
       riscv_float16_type_node = make_node (REAL_TYPE);
       TYPE_PRECISION (riscv_float16_type_node) = 16;
       SET_TYPE_MODE (riscv_float16_type_node, HFmode);
       layout_type (riscv_float16_type_node);
     }
   else
     riscv_float16_type_node = float16_type_node;

   if (!maybe_get_identifier ("_Float16"))
     lang_hooks.types.register_builtin_type (riscv_float16_type_node,
 					    "_Float16");
 }

 /* Implement TARGET_INIT_BUILTINS.  */

 void
 riscv_init_builtins (void)
 {
   riscv_init_builtin_types ();
   riscv_vector::init_builtins ();

   for (size_t i = 0; i < ARRAY_SIZE (riscv_builtins); i++)
     {
       const struct riscv_builtin_description *d = &riscv_builtins[i];
       if (d->avail ())
 	{
 	  tree type = riscv_build_function_type (d->prototype);
 	  riscv_builtin_decls[i]
 	    = add_builtin_function (d->name, type,
 				    (i << RISCV_BUILTIN_SHIFT)
 				      + RISCV_BUILTIN_GENERAL,
 				    BUILT_IN_MD, NULL, NULL);
 	  riscv_builtin_decl_index[d->icode] = i;
 	}
     }
 }

 /* Implement TARGET_BUILTIN_DECL.  */

 tree
 riscv_builtin_decl (unsigned int code, bool initialize_p ATTRIBUTE_UNUSED)
 {
   unsigned int subcode = code >> RISCV_BUILTIN_SHIFT;
   switch (code & RISCV_BUILTIN_CLASS)
     {
     case RISCV_BUILTIN_GENERAL:
       if (subcode >= ARRAY_SIZE (riscv_builtins))
 	return error_mark_node;
       return riscv_builtin_decls[subcode];

     case RISCV_BUILTIN_VECTOR:
       return riscv_vector::builtin_decl (subcode, initialize_p);
     }
   return error_mark_node;
 }

 /* Take argument ARGNO from EXP's argument list and convert it into
    an expand operand.  Store the operand in *OP.  */

 static void
 riscv_prepare_builtin_arg (struct expand_operand *op, tree exp, unsigned argno)
 {
   tree arg = CALL_EXPR_ARG (exp, argno);
   create_input_operand (op, expand_normal (arg), TYPE_MODE (TREE_TYPE (arg)));
 }

 /* Expand instruction ICODE as part of a built-in function sequence.
    Use the first NOPS elements of OPS as the instruction's operands.
    HAS_TARGET_P is true if operand 0 is a target; it is false if the
    instruction has no target.

    Return the target rtx if HAS_TARGET_P, otherwise return const0_rtx.  */

 static rtx
 riscv_expand_builtin_insn (enum insn_code icode, unsigned int n_ops,
 			   struct expand_operand *ops, bool has_target_p)
 {
   if (!maybe_expand_insn (icode, n_ops, ops))
     {
       error ("invalid argument to built-in function");
       return has_target_p ? gen_reg_rtx (ops[0].mode) : const0_rtx;
     }

   return has_target_p ? ops[0].value : const0_rtx;
 }

 /* Expand a RISCV_BUILTIN_DIRECT or RISCV_BUILTIN_DIRECT_NO_TARGET function;
    HAS_TARGET_P says which.  EXP is the CALL_EXPR that calls the function
    and ICODE is the code of the associated .md pattern.  TARGET, if nonnull,
    suggests a good place to put the result.  */

 static rtx
 riscv_expand_builtin_direct (enum insn_code icode, rtx target, tree exp,
 			     bool has_target_p)
 {
   struct expand_operand ops[MAX_RECOG_OPERANDS];

   /* Map any target to operand 0.  */
   int opno = 0;
   if (has_target_p)
     create_output_operand (&ops[opno++], target, TYPE_MODE (TREE_TYPE (exp)));

   /* Map the arguments to the other operands.  */
   gcc_assert (opno + call_expr_nargs (exp)
 	      == insn_data[icode].n_generator_args);
   for (int argno = 0; argno < call_expr_nargs (exp); argno++)
     riscv_prepare_builtin_arg (&ops[opno++], exp, argno);

   return riscv_expand_builtin_insn (icode, opno, ops, has_target_p);
 }

 /* Implement TARGET_EXPAND_BUILTIN.  */

 rtx
 riscv_expand_builtin (tree exp, rtx target, rtx subtarget ATTRIBUTE_UNUSED,
 		      machine_mode mode ATTRIBUTE_UNUSED,
 		      int ignore ATTRIBUTE_UNUSED)
 {
   tree fndecl = TREE_OPERAND (CALL_EXPR_FN (exp), 0);
   unsigned int fcode = DECL_MD_FUNCTION_CODE (fndecl);
   unsigned int subcode = fcode >> RISCV_BUILTIN_SHIFT;
   switch (fcode & RISCV_BUILTIN_CLASS)
     {
       case RISCV_BUILTIN_VECTOR:
 	return riscv_vector::expand_builtin (subcode, exp, target);
       case RISCV_BUILTIN_GENERAL: {
 	const struct riscv_builtin_description *d = &riscv_builtins[subcode];

 	switch (d->builtin_type)
 	  {
 	  case RISCV_BUILTIN_DIRECT:
 	    return riscv_expand_builtin_direct (d->icode, target, exp, true);

 	  case RISCV_BUILTIN_DIRECT_NO_TARGET:
 	    return riscv_expand_builtin_direct (d->icode, target, exp, false);
 	  }
       }
     }

   gcc_unreachable ();
 }

 /* Implement TARGET_ATOMIC_ASSIGN_EXPAND_FENV.  */

 void
 riscv_atomic_assign_expand_fenv (tree *hold, tree *clear, tree *update)
 {
   if (!(TARGET_HARD_FLOAT || TARGET_ZFINX))
     return;

   tree frflags = GET_BUILTIN_DECL (CODE_FOR_riscv_frflags);
   tree fsflags = GET_BUILTIN_DECL (CODE_FOR_riscv_fsflags);
   tree old_flags = create_tmp_var_raw (RISCV_ATYPE_USI);

   *hold = build4 (TARGET_EXPR, RISCV_ATYPE_USI, old_flags,
 		  build_call_expr (frflags, 0), NULL_TREE, NULL_TREE);
   *clear = build_call_expr (fsflags, 1, old_flags);
   *update = NULL_TREE;
 }
	/* Subroutines used for expanding RISC-V builtins.
	Copyright (C) 2011-2022 Free Software Foundation, Inc.
	Contributed by Andrew Waterman (andrew@sifive.com).

	This file is part of GCC.

	GCC is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 3, or (at your option)
	any later version.

	GCC is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	#define IN_TARGET_CODE 1

	#include "config.h"
	#include "system.h"
	#include "coretypes.h"
	#include "tm.h"
	#include "rtl.h"
	#include "tree.h"
	#include "gimple-expr.h"
	#include "memmodel.h"
	#include "expmed.h"
	#include "profile-count.h"
	#include "optabs.h"
	#include "recog.h"
	#include "diagnostic-core.h"
	#include "stor-layout.h"
	#include "stringpool.h"
	#include "expr.h"
	#include "langhooks.h"
	#include "tm_p.h"

	/* Macros to create an enumeration identifier for a function prototype. */
	#define RISCV_FTYPE_NAME0(A) RISCV_##A##_FTYPE
	#define RISCV_FTYPE_NAME1(A, B) RISCV_##A##_FTYPE_##B

	/* Classifies the prototype of a built-in function. */
	enum riscv_function_type {
	#define DEF_RISCV_FTYPE(NARGS, LIST) RISCV_FTYPE_NAME##NARGS LIST,
	#include "config/riscv/riscv-ftypes.def"
	#undef DEF_RISCV_FTYPE
	RISCV_MAX_FTYPE_MAX
	};

	/* Specifies how a built-in function should be converted into rtl. */
	enum riscv_builtin_type {
	/* The function corresponds directly to an .md pattern. */
	RISCV_BUILTIN_DIRECT,

	/* Likewise, but with return type VOID. */
	RISCV_BUILTIN_DIRECT_NO_TARGET
	};

	/* Declare an availability predicate for built-in functions. */
	#define AVAIL(NAME, COND) \
	static unsigned int \
	riscv_builtin_avail_##NAME (void) \
	{ \
	return (COND); \
	}

	/* This structure describes a single built-in function. */
	struct riscv_builtin_description {
	/* The code of the main .md file instruction. See riscv_builtin_type
	for more information. */
	enum insn_code icode;

	/* The name of the built-in function. */
	const char *name;

	/* Specifies how the function should be expanded. */
	enum riscv_builtin_type builtin_type;

	/* The function's prototype. */
	enum riscv_function_type prototype;

	/* Whether the function is available. */
	unsigned int (*avail) (void);
	};

	AVAIL (hard_float, TARGET_HARD_FLOAT \|\| TARGET_ZFINX)
	AVAIL (clean32, TARGET_ZICBOM && !TARGET_64BIT)
	AVAIL (clean64, TARGET_ZICBOM && TARGET_64BIT)
	AVAIL (flush32, TARGET_ZICBOM && !TARGET_64BIT)
	AVAIL (flush64, TARGET_ZICBOM && TARGET_64BIT)
	AVAIL (inval32, TARGET_ZICBOM && !TARGET_64BIT)
	AVAIL (inval64, TARGET_ZICBOM && TARGET_64BIT)
	AVAIL (zero32, TARGET_ZICBOZ && !TARGET_64BIT)
	AVAIL (zero64, TARGET_ZICBOZ && TARGET_64BIT)
	AVAIL (prefetchi32, TARGET_ZICBOP && !TARGET_64BIT)
	AVAIL (prefetchi64, TARGET_ZICBOP && TARGET_64BIT)
	AVAIL (always, (!0))

	/* Construct a riscv_builtin_description from the given arguments.

	INSN is the name of the associated instruction pattern, without the
	leading CODE_FOR_riscv_.

	NAME is the name of the function itself, without the leading
	"__builtin_riscv_".

	BUILTIN_TYPE and FUNCTION_TYPE are riscv_builtin_description fields.

	AVAIL is the name of the availability predicate, without the leading
	riscv_builtin_avail_. */
	#define RISCV_BUILTIN(INSN, NAME, BUILTIN_TYPE, FUNCTION_TYPE, AVAIL) \
	{ CODE_FOR_riscv_ ## INSN, "__builtin_riscv_" NAME, \
	BUILTIN_TYPE, FUNCTION_TYPE, riscv_builtin_avail_ ## AVAIL }

	/* Define __builtin_riscv_<INSN>, which is a RISCV_BUILTIN_DIRECT function
	mapped to instruction CODE_FOR_riscv_<INSN>, FUNCTION_TYPE and AVAIL
	are as for RISCV_BUILTIN. */
	#define DIRECT_BUILTIN(INSN, FUNCTION_TYPE, AVAIL) \
	RISCV_BUILTIN (INSN, #INSN, RISCV_BUILTIN_DIRECT, FUNCTION_TYPE, AVAIL)

	/* Define __builtin_riscv_<INSN>, which is a RISCV_BUILTIN_DIRECT_NO_TARGET
	function mapped to instruction CODE_FOR_riscv_<INSN>, FUNCTION_TYPE
	and AVAIL are as for RISCV_BUILTIN. */
	#define DIRECT_NO_TARGET_BUILTIN(INSN, FUNCTION_TYPE, AVAIL) \
	RISCV_BUILTIN (INSN, #INSN, RISCV_BUILTIN_DIRECT_NO_TARGET, \
	FUNCTION_TYPE, AVAIL)

	/* Argument types. */
	#define RISCV_ATYPE_VOID void_type_node
	#define RISCV_ATYPE_USI unsigned_intSI_type_node
	#define RISCV_ATYPE_SI intSI_type_node
	#define RISCV_ATYPE_DI intDI_type_node
	#define RISCV_ATYPE_VOID_PTR ptr_type_node

	/* RISCV_FTYPE_ATYPESN takes N RISCV_FTYPES-like type codes and lists
	their associated RISCV_ATYPEs. */
	#define RISCV_FTYPE_ATYPES0(A) \
	RISCV_ATYPE_##A
	#define RISCV_FTYPE_ATYPES1(A, B) \
	RISCV_ATYPE_##A, RISCV_ATYPE_##B

	static const struct riscv_builtin_description riscv_builtins[] = {
	#include "riscv-cmo.def"

	DIRECT_BUILTIN (frflags, RISCV_USI_FTYPE, hard_float),
	DIRECT_NO_TARGET_BUILTIN (fsflags, RISCV_VOID_FTYPE_USI, hard_float),
	DIRECT_NO_TARGET_BUILTIN (pause, RISCV_VOID_FTYPE, always),
	};

	/* Index I is the function declaration for riscv_builtins[I], or null if the
	function isn't defined on this target. */
	static GTY(()) tree riscv_builtin_decls[ARRAY_SIZE (riscv_builtins)];

	/* Get the index I of the function declaration for riscv_builtin_decls[I]
	using the instruction code or return null if not defined for the target. */
	static GTY(()) int riscv_builtin_decl_index[NUM_INSN_CODES];

	#define GET_BUILTIN_DECL(CODE) \
	riscv_builtin_decls[riscv_builtin_decl_index[(CODE)]]

	tree riscv_float16_type_node = NULL_TREE;

	/* Return the function type associated with function prototype TYPE. */

	static tree
	riscv_build_function_type (enum riscv_function_type type)
	{
	static tree types[(int) RISCV_MAX_FTYPE_MAX];

	if (types[(int) type] == NULL_TREE)
	switch (type)
	{
	#define DEF_RISCV_FTYPE(NUM, ARGS) \
	case RISCV_FTYPE_NAME##NUM ARGS: \
	types[(int) type] \
	= build_function_type_list (RISCV_FTYPE_ATYPES##NUM ARGS, \
	NULL_TREE); \
	break;
	#include "config/riscv/riscv-ftypes.def"
	#undef DEF_RISCV_FTYPE
	default:
	gcc_unreachable ();
	}

	return types[(int) type];
	}

	static void
	riscv_init_builtin_types (void)
	{
	/* Provide the _Float16 type and float16_type_node if needed. */
	if (!float16_type_node)
	{
	riscv_float16_type_node = make_node (REAL_TYPE);
	TYPE_PRECISION (riscv_float16_type_node) = 16;
	SET_TYPE_MODE (riscv_float16_type_node, HFmode);
	layout_type (riscv_float16_type_node);
	}
	else
	riscv_float16_type_node = float16_type_node;

	if (!maybe_get_identifier ("_Float16"))
	lang_hooks.types.register_builtin_type (riscv_float16_type_node,
	"_Float16");
	}

	/* Implement TARGET_INIT_BUILTINS. */

	void
	riscv_init_builtins (void)
	{
	riscv_init_builtin_types ();
	riscv_vector::init_builtins ();

	for (size_t i = 0; i < ARRAY_SIZE (riscv_builtins); i++)
	{
	const struct riscv_builtin_description *d = &riscv_builtins[i];
	if (d->avail ())
	{
	tree type = riscv_build_function_type (d->prototype);
	riscv_builtin_decls[i]
	= add_builtin_function (d->name, type,
	(i << RISCV_BUILTIN_SHIFT)
	+ RISCV_BUILTIN_GENERAL,
	BUILT_IN_MD, NULL, NULL);
	riscv_builtin_decl_index[d->icode] = i;
	}
	}
	}

	/* Implement TARGET_BUILTIN_DECL. */

	tree
	riscv_builtin_decl (unsigned int code, bool initialize_p ATTRIBUTE_UNUSED)
	{
	unsigned int subcode = code >> RISCV_BUILTIN_SHIFT;
	switch (code & RISCV_BUILTIN_CLASS)
	{
	case RISCV_BUILTIN_GENERAL:
	if (subcode >= ARRAY_SIZE (riscv_builtins))
	return error_mark_node;
	return riscv_builtin_decls[subcode];

	case RISCV_BUILTIN_VECTOR:
	return riscv_vector::builtin_decl (subcode, initialize_p);
	}
	return error_mark_node;
	}

	/* Take argument ARGNO from EXP's argument list and convert it into
	an expand operand. Store the operand in OP. /

	static void
	riscv_prepare_builtin_arg (struct expand_operand *op, tree exp, unsigned argno)
	{
	tree arg = CALL_EXPR_ARG (exp, argno);
	create_input_operand (op, expand_normal (arg), TYPE_MODE (TREE_TYPE (arg)));
	}

	/* Expand instruction ICODE as part of a built-in function sequence.
	Use the first NOPS elements of OPS as the instruction's operands.
	HAS_TARGET_P is true if operand 0 is a target; it is false if the
	instruction has no target.

	Return the target rtx if HAS_TARGET_P, otherwise return const0_rtx. */

	static rtx
	riscv_expand_builtin_insn (enum insn_code icode, unsigned int n_ops,
	struct expand_operand *ops, bool has_target_p)
	{
	if (!maybe_expand_insn (icode, n_ops, ops))
	{
	error ("invalid argument to built-in function");
	return has_target_p ? gen_reg_rtx (ops[0].mode) : const0_rtx;
	}

	return has_target_p ? ops[0].value : const0_rtx;
	}

	/* Expand a RISCV_BUILTIN_DIRECT or RISCV_BUILTIN_DIRECT_NO_TARGET function;
	HAS_TARGET_P says which. EXP is the CALL_EXPR that calls the function
	and ICODE is the code of the associated .md pattern. TARGET, if nonnull,
	suggests a good place to put the result. */

	static rtx
	riscv_expand_builtin_direct (enum insn_code icode, rtx target, tree exp,
	bool has_target_p)
	{
	struct expand_operand ops[MAX_RECOG_OPERANDS];

	/* Map any target to operand 0. */
	int opno = 0;
	if (has_target_p)
	create_output_operand (&ops[opno++], target, TYPE_MODE (TREE_TYPE (exp)));

	/* Map the arguments to the other operands. */
	gcc_assert (opno + call_expr_nargs (exp)
	== insn_data[icode].n_generator_args);
	for (int argno = 0; argno < call_expr_nargs (exp); argno++)
	riscv_prepare_builtin_arg (&ops[opno++], exp, argno);

	return riscv_expand_builtin_insn (icode, opno, ops, has_target_p);
	}

	/* Implement TARGET_EXPAND_BUILTIN. */

	rtx
	riscv_expand_builtin (tree exp, rtx target, rtx subtarget ATTRIBUTE_UNUSED,
	machine_mode mode ATTRIBUTE_UNUSED,
	int ignore ATTRIBUTE_UNUSED)
	{
	tree fndecl = TREE_OPERAND (CALL_EXPR_FN (exp), 0);
	unsigned int fcode = DECL_MD_FUNCTION_CODE (fndecl);
	unsigned int subcode = fcode >> RISCV_BUILTIN_SHIFT;
	switch (fcode & RISCV_BUILTIN_CLASS)
	{
	case RISCV_BUILTIN_VECTOR:
	return riscv_vector::expand_builtin (subcode, exp, target);
	case RISCV_BUILTIN_GENERAL: {
	const struct riscv_builtin_description *d = &riscv_builtins[subcode];

	switch (d->builtin_type)
	{
	case RISCV_BUILTIN_DIRECT:
	return riscv_expand_builtin_direct (d->icode, target, exp, true);

	case RISCV_BUILTIN_DIRECT_NO_TARGET:
	return riscv_expand_builtin_direct (d->icode, target, exp, false);
	}
	}
	}

	gcc_unreachable ();
	}

	/* Implement TARGET_ATOMIC_ASSIGN_EXPAND_FENV. */

	void
	riscv_atomic_assign_expand_fenv (tree hold, tree clear, tree *update)
	{
	if (!(TARGET_HARD_FLOAT \|\| TARGET_ZFINX))
	return;

	tree frflags = GET_BUILTIN_DECL (CODE_FOR_riscv_frflags);
	tree fsflags = GET_BUILTIN_DECL (CODE_FOR_riscv_fsflags);
	tree old_flags = create_tmp_var_raw (RISCV_ATYPE_USI);

	*hold = build4 (TARGET_EXPR, RISCV_ATYPE_USI, old_flags,
	build_call_expr (frflags, 0), NULL_TREE, NULL_TREE);
	*clear = build_call_expr (fsflags, 1, old_flags);
	*update = NULL_TREE;
	}