blob: 73650637e5e3e8204bcf5ae4ffc3959884baa350 [file] [log] [blame]
/* Description of builtins used by the ARM backend.
Copyright (C) 2014-2020 Free Software Foundation, Inc.
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 "target.h"
#include "function.h"
#include "rtl.h"
#include "tree.h"
#include "gimple-expr.h"
#include "memmodel.h"
#include "tm_p.h"
#include "profile-count.h"
#include "optabs.h"
#include "emit-rtl.h"
#include "recog.h"
#include "diagnostic-core.h"
#include "fold-const.h"
#include "stor-layout.h"
#include "explow.h"
#include "expr.h"
#include "langhooks.h"
#include "case-cfn-macros.h"
#include "sbitmap.h"
#include "stringpool.h"
#include "arm-builtins.h"
#include "stringpool.h"
#include "attribs.h"
#define SIMD_MAX_BUILTIN_ARGS 7
enum arm_type_qualifiers
{
/* T foo. */
qualifier_none = 0x0,
/* unsigned T foo. */
qualifier_unsigned = 0x1, /* 1 << 0 */
/* const T foo. */
qualifier_const = 0x2, /* 1 << 1 */
/* T *foo. */
qualifier_pointer = 0x4, /* 1 << 2 */
/* const T * foo. */
qualifier_const_pointer = 0x6,
/* Used when expanding arguments if an operand could
be an immediate. */
qualifier_immediate = 0x8, /* 1 << 3 */
qualifier_unsigned_immediate = 0x9,
qualifier_maybe_immediate = 0x10, /* 1 << 4 */
/* void foo (...). */
qualifier_void = 0x20, /* 1 << 5 */
/* Some patterns may have internal operands, this qualifier is an
instruction to the initialisation code to skip this operand. */
qualifier_internal = 0x40, /* 1 << 6 */
/* Some builtins should use the T_*mode* encoded in a simd_builtin_datum
rather than using the type of the operand. */
qualifier_map_mode = 0x80, /* 1 << 7 */
/* qualifier_pointer | qualifier_map_mode */
qualifier_pointer_map_mode = 0x84,
/* qualifier_const_pointer | qualifier_map_mode */
qualifier_const_pointer_map_mode = 0x86,
/* Polynomial types. */
qualifier_poly = 0x100,
/* Lane indices - must be within range of previous argument = a vector. */
qualifier_lane_index = 0x200,
/* Lane indices for single lane structure loads and stores. */
qualifier_struct_load_store_lane_index = 0x400,
/* A void pointer. */
qualifier_void_pointer = 0x800,
/* A const void pointer. */
qualifier_const_void_pointer = 0x802,
/* Lane indices selected in pairs - must be within range of previous
argument = a vector. */
qualifier_lane_pair_index = 0x1000,
/* Lane indices selected in quadtuplets - must be within range of previous
argument = a vector. */
qualifier_lane_quadtup_index = 0x2000
};
/* The qualifier_internal allows generation of a unary builtin from
a pattern with a third pseudo-operand such as a match_scratch.
T (T). */
static enum arm_type_qualifiers
arm_unop_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_internal };
#define UNOP_QUALIFIERS (arm_unop_qualifiers)
/* unsigned T (unsigned T). */
static enum arm_type_qualifiers
arm_bswap_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned };
#define BSWAP_QUALIFIERS (arm_bswap_qualifiers)
/* T (T, T [maybe_immediate]). */
static enum arm_type_qualifiers
arm_binop_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_maybe_immediate };
#define BINOP_QUALIFIERS (arm_binop_qualifiers)
/* T (T, T, T). */
static enum arm_type_qualifiers
arm_ternop_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none, qualifier_none };
#define TERNOP_QUALIFIERS (arm_ternop_qualifiers)
/* unsigned T (unsigned T, unsigned T, unsigned T). */
static enum arm_type_qualifiers
arm_unsigned_uternop_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned,
qualifier_unsigned };
#define UTERNOP_QUALIFIERS (arm_unsigned_uternop_qualifiers)
/* T (T, unsigned T, T). */
static enum arm_type_qualifiers
arm_usternop_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_unsigned,
qualifier_none };
#define USTERNOP_QUALIFIERS (arm_usternop_qualifiers)
/* T (T, immediate). */
static enum arm_type_qualifiers
arm_binop_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_immediate };
#define BINOP_IMM_QUALIFIERS (arm_binop_imm_qualifiers)
/* T (T, unsigned immediate). */
static enum arm_type_qualifiers
arm_sat_binop_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_none, qualifier_unsigned_immediate };
#define SAT_BINOP_UNSIGNED_IMM_QUALIFIERS \
(arm_sat_binop_imm_qualifiers)
/* unsigned T (T, unsigned immediate). */
static enum arm_type_qualifiers
arm_unsigned_sat_binop_unsigned_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_none, qualifier_unsigned_immediate };
#define UNSIGNED_SAT_BINOP_UNSIGNED_IMM_QUALIFIERS \
(arm_unsigned_sat_binop_unsigned_imm_qualifiers)
/* T (T, lane index). */
static enum arm_type_qualifiers
arm_getlane_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_lane_index };
#define GETLANE_QUALIFIERS (arm_getlane_qualifiers)
/* T (T, T, T, immediate). */
static enum arm_type_qualifiers
arm_mac_n_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none,
qualifier_none, qualifier_immediate };
#define MAC_N_QUALIFIERS (arm_mac_n_qualifiers)
/* T (T, T, T, lane index). */
static enum arm_type_qualifiers
arm_mac_lane_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none,
qualifier_none, qualifier_lane_index };
#define MAC_LANE_QUALIFIERS (arm_mac_lane_qualifiers)
/* T (T, T, T, lane pair index). */
static enum arm_type_qualifiers
arm_mac_lane_pair_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none,
qualifier_none, qualifier_lane_pair_index };
#define MAC_LANE_PAIR_QUALIFIERS (arm_mac_lane_pair_qualifiers)
/* unsigned T (unsigned T, unsigned T, unsigend T, lane index). */
static enum arm_type_qualifiers
arm_umac_lane_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned,
qualifier_unsigned, qualifier_lane_index };
#define UMAC_LANE_QUALIFIERS (arm_umac_lane_qualifiers)
/* T (T, unsigned T, T, lane index). */
static enum arm_type_qualifiers
arm_usmac_lane_quadtup_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_unsigned,
qualifier_none, qualifier_lane_quadtup_index };
#define USMAC_LANE_QUADTUP_QUALIFIERS (arm_usmac_lane_quadtup_qualifiers)
/* T (T, T, unsigend T, lane index). */
static enum arm_type_qualifiers
arm_sumac_lane_quadtup_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none,
qualifier_unsigned, qualifier_lane_quadtup_index };
#define SUMAC_LANE_QUADTUP_QUALIFIERS (arm_sumac_lane_quadtup_qualifiers)
/* T (T, T, immediate). */
static enum arm_type_qualifiers
arm_ternop_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none, qualifier_immediate };
#define TERNOP_IMM_QUALIFIERS (arm_ternop_imm_qualifiers)
/* T (T, T, lane index). */
static enum arm_type_qualifiers
arm_setlane_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none, qualifier_lane_index };
#define SETLANE_QUALIFIERS (arm_setlane_qualifiers)
/* T (T, T). */
static enum arm_type_qualifiers
arm_combine_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none };
#define COMBINE_QUALIFIERS (arm_combine_qualifiers)
/* T ([T element type] *). */
static enum arm_type_qualifiers
arm_load1_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_const_pointer_map_mode };
#define LOAD1_QUALIFIERS (arm_load1_qualifiers)
/* T ([T element type] *, T, immediate). */
static enum arm_type_qualifiers
arm_load1_lane_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_const_pointer_map_mode,
qualifier_none, qualifier_struct_load_store_lane_index };
#define LOAD1LANE_QUALIFIERS (arm_load1_lane_qualifiers)
/* unsigned T (unsigned T, unsigned T, unsigned T). */
static enum arm_type_qualifiers
arm_unsigned_binop_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned,
qualifier_unsigned };
#define UBINOP_QUALIFIERS (arm_unsigned_binop_qualifiers)
/* void (unsigned immediate, unsigned immediate, unsigned immediate,
unsigned immediate, unsigned immediate, unsigned immediate). */
static enum arm_type_qualifiers
arm_cdp_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_unsigned_immediate,
qualifier_unsigned_immediate,
qualifier_unsigned_immediate,
qualifier_unsigned_immediate,
qualifier_unsigned_immediate,
qualifier_unsigned_immediate };
#define CDP_QUALIFIERS \
(arm_cdp_qualifiers)
/* void (unsigned immediate, unsigned immediate, const void *). */
static enum arm_type_qualifiers
arm_ldc_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_unsigned_immediate,
qualifier_unsigned_immediate, qualifier_const_void_pointer };
#define LDC_QUALIFIERS \
(arm_ldc_qualifiers)
/* void (unsigned immediate, unsigned immediate, void *). */
static enum arm_type_qualifiers
arm_stc_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_unsigned_immediate,
qualifier_unsigned_immediate, qualifier_void_pointer };
#define STC_QUALIFIERS \
(arm_stc_qualifiers)
/* void (unsigned immediate, unsigned immediate, T, unsigned immediate,
unsigned immediate, unsigned immediate). */
static enum arm_type_qualifiers
arm_mcr_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_unsigned_immediate,
qualifier_unsigned_immediate, qualifier_none,
qualifier_unsigned_immediate, qualifier_unsigned_immediate,
qualifier_unsigned_immediate };
#define MCR_QUALIFIERS \
(arm_mcr_qualifiers)
/* T (unsigned immediate, unsigned immediate, unsigned immediate,
unsigned immediate, unsigned immediate). */
static enum arm_type_qualifiers
arm_mrc_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_unsigned_immediate,
qualifier_unsigned_immediate, qualifier_unsigned_immediate,
qualifier_unsigned_immediate, qualifier_unsigned_immediate };
#define MRC_QUALIFIERS \
(arm_mrc_qualifiers)
/* void (unsigned immediate, unsigned immediate, T, unsigned immediate). */
static enum arm_type_qualifiers
arm_mcrr_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_unsigned_immediate,
qualifier_unsigned_immediate, qualifier_none,
qualifier_unsigned_immediate };
#define MCRR_QUALIFIERS \
(arm_mcrr_qualifiers)
/* T (unsigned immediate, unsigned immediate, unsigned immediate). */
static enum arm_type_qualifiers
arm_mrrc_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_unsigned_immediate,
qualifier_unsigned_immediate, qualifier_unsigned_immediate };
#define MRRC_QUALIFIERS \
(arm_mrrc_qualifiers)
/* T (immediate, unsigned immediate). */
static enum arm_type_qualifiers
arm_cx_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_immediate, qualifier_unsigned_immediate };
#define CX_IMM_QUALIFIERS (arm_cx_imm_qualifiers)
/* T (immediate, T, unsigned immediate). */
static enum arm_type_qualifiers
arm_cx_unary_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_immediate, qualifier_none,
qualifier_unsigned_immediate };
#define CX_UNARY_QUALIFIERS (arm_cx_unary_qualifiers)
/* T (immediate, T, T, unsigned immediate). */
static enum arm_type_qualifiers
arm_cx_binary_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_immediate,
qualifier_none, qualifier_none,
qualifier_unsigned_immediate };
#define CX_BINARY_QUALIFIERS (arm_cx_binary_qualifiers)
/* T (immediate, T, T, T, unsigned immediate). */
static enum arm_type_qualifiers
arm_cx_ternary_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_immediate,
qualifier_none, qualifier_none, qualifier_none,
qualifier_unsigned_immediate };
#define CX_TERNARY_QUALIFIERS (arm_cx_ternary_qualifiers)
/* T (immediate, T, unsigned immediate). */
static enum arm_type_qualifiers
arm_cx_unary_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_immediate, qualifier_none,
qualifier_unsigned_immediate,
qualifier_unsigned };
#define CX_UNARY_UNONE_QUALIFIERS (arm_cx_unary_unone_qualifiers)
/* T (immediate, T, T, unsigned immediate). */
static enum arm_type_qualifiers
arm_cx_binary_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_immediate,
qualifier_none, qualifier_none,
qualifier_unsigned_immediate,
qualifier_unsigned };
#define CX_BINARY_UNONE_QUALIFIERS (arm_cx_binary_unone_qualifiers)
/* T (immediate, T, T, T, unsigned immediate). */
static enum arm_type_qualifiers
arm_cx_ternary_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_immediate,
qualifier_none, qualifier_none, qualifier_none,
qualifier_unsigned_immediate,
qualifier_unsigned };
#define CX_TERNARY_UNONE_QUALIFIERS (arm_cx_ternary_unone_qualifiers)
/* The first argument (return type) of a store should be void type,
which we represent with qualifier_void. Their first operand will be
a DImode pointer to the location to store to, so we must use
qualifier_map_mode | qualifier_pointer to build a pointer to the
element type of the vector.
void ([T element type] *, T). */
static enum arm_type_qualifiers
arm_store1_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer_map_mode, qualifier_none };
#define STORE1_QUALIFIERS (arm_store1_qualifiers)
/* Qualifiers for MVE builtins. */
static enum arm_type_qualifiers
arm_unop_none_none_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none };
#define UNOP_NONE_NONE_QUALIFIERS \
(arm_unop_none_none_qualifiers)
static enum arm_type_qualifiers
arm_unop_none_snone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none };
#define UNOP_NONE_SNONE_QUALIFIERS \
(arm_unop_none_snone_qualifiers)
static enum arm_type_qualifiers
arm_unop_none_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_unsigned };
#define UNOP_NONE_UNONE_QUALIFIERS \
(arm_unop_none_unone_qualifiers)
static enum arm_type_qualifiers
arm_unop_snone_snone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none };
#define UNOP_SNONE_SNONE_QUALIFIERS \
(arm_unop_snone_snone_qualifiers)
static enum arm_type_qualifiers
arm_unop_snone_none_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none };
#define UNOP_SNONE_NONE_QUALIFIERS \
(arm_unop_snone_none_qualifiers)
static enum arm_type_qualifiers
arm_unop_snone_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_immediate };
#define UNOP_SNONE_IMM_QUALIFIERS \
(arm_unop_snone_imm_qualifiers)
static enum arm_type_qualifiers
arm_unop_unone_none_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_none };
#define UNOP_UNONE_NONE_QUALIFIERS \
(arm_unop_unone_none_qualifiers)
static enum arm_type_qualifiers
arm_unop_unone_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned };
#define UNOP_UNONE_UNONE_QUALIFIERS \
(arm_unop_unone_unone_qualifiers)
static enum arm_type_qualifiers
arm_unop_unone_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_immediate };
#define UNOP_UNONE_IMM_QUALIFIERS \
(arm_unop_unone_imm_qualifiers)
static enum arm_type_qualifiers
arm_binop_none_none_none_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none };
#define BINOP_NONE_NONE_NONE_QUALIFIERS \
(arm_binop_none_none_none_qualifiers)
static enum arm_type_qualifiers
arm_binop_none_none_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_immediate };
#define BINOP_NONE_NONE_IMM_QUALIFIERS \
(arm_binop_none_none_imm_qualifiers)
static enum arm_type_qualifiers
arm_binop_none_unone_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_unsigned, qualifier_immediate };
#define BINOP_NONE_UNONE_IMM_QUALIFIERS \
(arm_binop_none_unone_imm_qualifiers)
static enum arm_type_qualifiers
arm_binop_none_unone_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_unsigned, qualifier_unsigned };
#define BINOP_NONE_UNONE_UNONE_QUALIFIERS \
(arm_binop_none_unone_unone_qualifiers)
static enum arm_type_qualifiers
arm_binop_unone_unone_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_immediate };
#define BINOP_UNONE_UNONE_IMM_QUALIFIERS \
(arm_binop_unone_unone_imm_qualifiers)
static enum arm_type_qualifiers
arm_binop_unone_unone_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned };
#define BINOP_UNONE_UNONE_UNONE_QUALIFIERS \
(arm_binop_unone_unone_unone_qualifiers)
static enum arm_type_qualifiers
arm_binop_unone_none_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_none, qualifier_immediate };
#define BINOP_UNONE_NONE_IMM_QUALIFIERS \
(arm_binop_unone_none_imm_qualifiers)
static enum arm_type_qualifiers
arm_binop_none_none_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_unsigned };
#define BINOP_NONE_NONE_UNONE_QUALIFIERS \
(arm_binop_none_none_unone_qualifiers)
static enum arm_type_qualifiers
arm_binop_unone_none_none_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_none, qualifier_none };
#define BINOP_UNONE_NONE_NONE_QUALIFIERS \
(arm_binop_unone_none_none_qualifiers)
static enum arm_type_qualifiers
arm_binop_unone_unone_none_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_none };
#define BINOP_UNONE_UNONE_NONE_QUALIFIERS \
(arm_binop_unone_unone_none_qualifiers)
static enum arm_type_qualifiers
arm_ternop_unone_unone_unone_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned,
qualifier_immediate };
#define TERNOP_UNONE_UNONE_UNONE_IMM_QUALIFIERS \
(arm_ternop_unone_unone_unone_imm_qualifiers)
static enum arm_type_qualifiers
arm_ternop_unone_unone_none_none_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_none, qualifier_none };
#define TERNOP_UNONE_UNONE_NONE_NONE_QUALIFIERS \
(arm_ternop_unone_unone_none_none_qualifiers)
static enum arm_type_qualifiers
arm_ternop_unone_none_unone_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_none, qualifier_unsigned,
qualifier_immediate };
#define TERNOP_UNONE_NONE_UNONE_IMM_QUALIFIERS \
(arm_ternop_unone_none_unone_imm_qualifiers)
static enum arm_type_qualifiers
arm_ternop_none_none_unone_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_unsigned, qualifier_immediate };
#define TERNOP_NONE_NONE_UNONE_IMM_QUALIFIERS \
(arm_ternop_none_none_unone_imm_qualifiers)
static enum arm_type_qualifiers
arm_ternop_unone_unone_none_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_none,
qualifier_immediate };
#define TERNOP_UNONE_UNONE_NONE_IMM_QUALIFIERS \
(arm_ternop_unone_unone_none_imm_qualifiers)
static enum arm_type_qualifiers
arm_ternop_unone_unone_none_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_none,
qualifier_unsigned };
#define TERNOP_UNONE_UNONE_NONE_UNONE_QUALIFIERS \
(arm_ternop_unone_unone_none_unone_qualifiers)
static enum arm_type_qualifiers
arm_ternop_unone_unone_imm_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_immediate,
qualifier_unsigned };
#define TERNOP_UNONE_UNONE_IMM_UNONE_QUALIFIERS \
(arm_ternop_unone_unone_imm_unone_qualifiers)
static enum arm_type_qualifiers
arm_ternop_unone_none_none_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_none, qualifier_none, qualifier_unsigned };
#define TERNOP_UNONE_NONE_NONE_UNONE_QUALIFIERS \
(arm_ternop_unone_none_none_unone_qualifiers)
static enum arm_type_qualifiers
arm_ternop_none_none_none_imm_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none, qualifier_immediate };
#define TERNOP_NONE_NONE_NONE_IMM_QUALIFIERS \
(arm_ternop_none_none_none_imm_qualifiers)
static enum arm_type_qualifiers
arm_ternop_none_none_none_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none, qualifier_unsigned };
#define TERNOP_NONE_NONE_NONE_UNONE_QUALIFIERS \
(arm_ternop_none_none_none_unone_qualifiers)
static enum arm_type_qualifiers
arm_ternop_none_none_imm_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_immediate, qualifier_unsigned };
#define TERNOP_NONE_NONE_IMM_UNONE_QUALIFIERS \
(arm_ternop_none_none_imm_unone_qualifiers)
static enum arm_type_qualifiers
arm_ternop_none_none_unone_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_unsigned, qualifier_unsigned };
#define TERNOP_NONE_NONE_UNONE_UNONE_QUALIFIERS \
(arm_ternop_none_none_unone_unone_qualifiers)
static enum arm_type_qualifiers
arm_ternop_unone_unone_unone_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned,
qualifier_unsigned };
#define TERNOP_UNONE_UNONE_UNONE_UNONE_QUALIFIERS \
(arm_ternop_unone_unone_unone_unone_qualifiers)
static enum arm_type_qualifiers
arm_ternop_none_none_none_none_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none, qualifier_none };
#define TERNOP_NONE_NONE_NONE_NONE_QUALIFIERS \
(arm_ternop_none_none_none_none_qualifiers)
static enum arm_type_qualifiers
arm_quadop_unone_unone_none_none_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_none, qualifier_none,
qualifier_unsigned };
#define QUADOP_UNONE_UNONE_NONE_NONE_UNONE_QUALIFIERS \
(arm_quadop_unone_unone_none_none_unone_qualifiers)
static enum arm_type_qualifiers
arm_quadop_none_none_none_none_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none, qualifier_none,
qualifier_unsigned };
#define QUADOP_NONE_NONE_NONE_NONE_UNONE_QUALIFIERS \
(arm_quadop_none_none_none_none_unone_qualifiers)
static enum arm_type_qualifiers
arm_quadop_none_none_none_imm_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none, qualifier_immediate,
qualifier_unsigned };
#define QUADOP_NONE_NONE_NONE_IMM_UNONE_QUALIFIERS \
(arm_quadop_none_none_none_imm_unone_qualifiers)
static enum arm_type_qualifiers
arm_quadop_unone_unone_unone_unone_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned,
qualifier_unsigned, qualifier_unsigned };
#define QUADOP_UNONE_UNONE_UNONE_UNONE_UNONE_QUALIFIERS \
(arm_quadop_unone_unone_unone_unone_unone_qualifiers)
static enum arm_type_qualifiers
arm_quadop_unone_unone_none_imm_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_none,
qualifier_immediate, qualifier_unsigned };
#define QUADOP_UNONE_UNONE_NONE_IMM_UNONE_QUALIFIERS \
(arm_quadop_unone_unone_none_imm_unone_qualifiers)
static enum arm_type_qualifiers
arm_quadop_none_none_unone_imm_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_unsigned, qualifier_immediate,
qualifier_unsigned };
#define QUADOP_NONE_NONE_UNONE_IMM_UNONE_QUALIFIERS \
(arm_quadop_none_none_unone_imm_unone_qualifiers)
static enum arm_type_qualifiers
arm_quadop_unone_unone_unone_imm_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned,
qualifier_immediate, qualifier_unsigned };
#define QUADOP_UNONE_UNONE_UNONE_IMM_UNONE_QUALIFIERS \
(arm_quadop_unone_unone_unone_imm_unone_qualifiers)
static enum arm_type_qualifiers
arm_quadop_unone_unone_unone_none_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned,
qualifier_none, qualifier_unsigned };
#define QUADOP_UNONE_UNONE_UNONE_NONE_UNONE_QUALIFIERS \
(arm_quadop_unone_unone_unone_none_unone_qualifiers)
static enum arm_type_qualifiers
arm_strs_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer, qualifier_none };
#define STRS_QUALIFIERS (arm_strs_qualifiers)
static enum arm_type_qualifiers
arm_stru_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer, qualifier_unsigned };
#define STRU_QUALIFIERS (arm_stru_qualifiers)
static enum arm_type_qualifiers
arm_strss_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer, qualifier_unsigned,
qualifier_none};
#define STRSS_QUALIFIERS (arm_strss_qualifiers)
static enum arm_type_qualifiers
arm_strsu_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer, qualifier_unsigned,
qualifier_unsigned};
#define STRSU_QUALIFIERS (arm_strsu_qualifiers)
static enum arm_type_qualifiers
arm_strsbs_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_unsigned, qualifier_immediate, qualifier_none};
#define STRSBS_QUALIFIERS (arm_strsbs_qualifiers)
static enum arm_type_qualifiers
arm_strsbu_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_unsigned, qualifier_immediate,
qualifier_unsigned};
#define STRSBU_QUALIFIERS (arm_strsbu_qualifiers)
static enum arm_type_qualifiers
arm_strs_p_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer, qualifier_none, qualifier_unsigned};
#define STRS_P_QUALIFIERS (arm_strs_p_qualifiers)
static enum arm_type_qualifiers
arm_stru_p_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer, qualifier_unsigned,
qualifier_unsigned};
#define STRU_P_QUALIFIERS (arm_stru_p_qualifiers)
static enum arm_type_qualifiers
arm_strsu_p_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer, qualifier_unsigned,
qualifier_unsigned, qualifier_unsigned};
#define STRSU_P_QUALIFIERS (arm_strsu_p_qualifiers)
static enum arm_type_qualifiers
arm_strss_p_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer, qualifier_unsigned,
qualifier_none, qualifier_unsigned};
#define STRSS_P_QUALIFIERS (arm_strss_p_qualifiers)
static enum arm_type_qualifiers
arm_strsbs_p_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_unsigned, qualifier_immediate,
qualifier_none, qualifier_unsigned};
#define STRSBS_P_QUALIFIERS (arm_strsbs_p_qualifiers)
static enum arm_type_qualifiers
arm_strsbu_p_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_unsigned, qualifier_immediate,
qualifier_unsigned, qualifier_unsigned};
#define STRSBU_P_QUALIFIERS (arm_strsbu_p_qualifiers)
static enum arm_type_qualifiers
arm_ldrgu_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_pointer, qualifier_unsigned};
#define LDRGU_QUALIFIERS (arm_ldrgu_qualifiers)
static enum arm_type_qualifiers
arm_ldrgs_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_pointer, qualifier_unsigned};
#define LDRGS_QUALIFIERS (arm_ldrgs_qualifiers)
static enum arm_type_qualifiers
arm_ldrs_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_pointer};
#define LDRS_QUALIFIERS (arm_ldrs_qualifiers)
static enum arm_type_qualifiers
arm_ldru_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_pointer};
#define LDRU_QUALIFIERS (arm_ldru_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbs_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_unsigned, qualifier_immediate};
#define LDRGBS_QUALIFIERS (arm_ldrgbs_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbu_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_immediate};
#define LDRGBU_QUALIFIERS (arm_ldrgbu_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbs_z_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_unsigned, qualifier_immediate,
qualifier_unsigned};
#define LDRGBS_Z_QUALIFIERS (arm_ldrgbs_z_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbu_z_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_immediate,
qualifier_unsigned};
#define LDRGBU_Z_QUALIFIERS (arm_ldrgbu_z_qualifiers)
static enum arm_type_qualifiers
arm_ldrgs_z_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_pointer, qualifier_unsigned,
qualifier_unsigned};
#define LDRGS_Z_QUALIFIERS (arm_ldrgs_z_qualifiers)
static enum arm_type_qualifiers
arm_ldrgu_z_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_pointer, qualifier_unsigned,
qualifier_unsigned};
#define LDRGU_Z_QUALIFIERS (arm_ldrgu_z_qualifiers)
static enum arm_type_qualifiers
arm_ldrs_z_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_pointer, qualifier_unsigned};
#define LDRS_Z_QUALIFIERS (arm_ldrs_z_qualifiers)
static enum arm_type_qualifiers
arm_ldru_z_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_pointer, qualifier_unsigned};
#define LDRU_Z_QUALIFIERS (arm_ldru_z_qualifiers)
static enum arm_type_qualifiers
arm_quinop_unone_unone_unone_unone_imm_unone_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_unsigned,
qualifier_unsigned, qualifier_immediate, qualifier_unsigned };
#define QUINOP_UNONE_UNONE_UNONE_UNONE_IMM_UNONE_QUALIFIERS \
(arm_quinop_unone_unone_unone_unone_imm_unone_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbwbxu_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_immediate};
#define LDRGBWBXU_QUALIFIERS (arm_ldrgbwbxu_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbwbxu_z_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_immediate,
qualifier_unsigned};
#define LDRGBWBXU_Z_QUALIFIERS (arm_ldrgbwbxu_z_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbwbs_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_unsigned, qualifier_immediate};
#define LDRGBWBS_QUALIFIERS (arm_ldrgbwbs_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbwbu_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_immediate};
#define LDRGBWBU_QUALIFIERS (arm_ldrgbwbu_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbwbs_z_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_unsigned, qualifier_immediate,
qualifier_unsigned};
#define LDRGBWBS_Z_QUALIFIERS (arm_ldrgbwbs_z_qualifiers)
static enum arm_type_qualifiers
arm_ldrgbwbu_z_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_immediate,
qualifier_unsigned};
#define LDRGBWBU_Z_QUALIFIERS (arm_ldrgbwbu_z_qualifiers)
static enum arm_type_qualifiers
arm_strsbwbs_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_const, qualifier_none};
#define STRSBWBS_QUALIFIERS (arm_strsbwbs_qualifiers)
static enum arm_type_qualifiers
arm_strsbwbu_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_const, qualifier_unsigned};
#define STRSBWBU_QUALIFIERS (arm_strsbwbu_qualifiers)
static enum arm_type_qualifiers
arm_strsbwbs_p_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_const,
qualifier_none, qualifier_unsigned};
#define STRSBWBS_P_QUALIFIERS (arm_strsbwbs_p_qualifiers)
static enum arm_type_qualifiers
arm_strsbwbu_p_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_const,
qualifier_unsigned, qualifier_unsigned};
#define STRSBWBU_P_QUALIFIERS (arm_strsbwbu_p_qualifiers)
static enum arm_type_qualifiers
arm_lsll_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_none};
#define LSLL_QUALIFIERS (arm_lsll_qualifiers)
static enum arm_type_qualifiers
arm_uqshl_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_const};
#define UQSHL_QUALIFIERS (arm_uqshl_qualifiers)
static enum arm_type_qualifiers
arm_asrl_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_none, qualifier_none};
#define ASRL_QUALIFIERS (arm_asrl_qualifiers)
static enum arm_type_qualifiers
arm_sqshl_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_unsigned, qualifier_unsigned, qualifier_const};
#define SQSHL_QUALIFIERS (arm_sqshl_qualifiers)
/* End of Qualifier for MVE builtins. */
/* void ([T element type] *, T, immediate). */
static enum arm_type_qualifiers
arm_storestruct_lane_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_pointer_map_mode,
qualifier_none, qualifier_struct_load_store_lane_index };
#define STORE1LANE_QUALIFIERS (arm_storestruct_lane_qualifiers)
/* int (void). */
static enum arm_type_qualifiers
arm_sat_occurred_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_none, qualifier_void };
#define SAT_OCCURRED_QUALIFIERS (arm_sat_occurred_qualifiers)
/* void (int). */
static enum arm_type_qualifiers
arm_set_sat_qualifiers[SIMD_MAX_BUILTIN_ARGS]
= { qualifier_void, qualifier_none };
#define SET_SAT_QUALIFIERS (arm_set_sat_qualifiers)
#define v8qi_UP E_V8QImode
#define v4hi_UP E_V4HImode
#define v4hf_UP E_V4HFmode
#define v4bf_UP E_V4BFmode
#define v2si_UP E_V2SImode
#define v2sf_UP E_V2SFmode
#define v2bf_UP E_V2BFmode
#define di_UP E_DImode
#define v16qi_UP E_V16QImode
#define v8hi_UP E_V8HImode
#define v8hf_UP E_V8HFmode
#define v8bf_UP E_V8BFmode
#define v4si_UP E_V4SImode
#define v4sf_UP E_V4SFmode
#define v2di_UP E_V2DImode
#define ti_UP E_TImode
#define ei_UP E_EImode
#define oi_UP E_OImode
#define hf_UP E_HFmode
#define bf_UP E_BFmode
#define si_UP E_SImode
#define hi_UP E_HImode
#define void_UP E_VOIDmode
#define sf_UP E_SFmode
#define UP(X) X##_UP
typedef struct {
const char *name;
machine_mode mode;
const enum insn_code code;
unsigned int fcode;
enum arm_type_qualifiers *qualifiers;
} arm_builtin_datum;
#define CF(N,X) CODE_FOR_neon_##N##X
#define VAR1(T, N, A) \
{#N #A, UP (A), CF (N, A), 0, T##_QUALIFIERS},
#define VAR2(T, N, A, B) \
VAR1 (T, N, A) \
VAR1 (T, N, B)
#define VAR3(T, N, A, B, C) \
VAR2 (T, N, A, B) \
VAR1 (T, N, C)
#define VAR4(T, N, A, B, C, D) \
VAR3 (T, N, A, B, C) \
VAR1 (T, N, D)
#define VAR5(T, N, A, B, C, D, E) \
VAR4 (T, N, A, B, C, D) \
VAR1 (T, N, E)
#define VAR6(T, N, A, B, C, D, E, F) \
VAR5 (T, N, A, B, C, D, E) \
VAR1 (T, N, F)
#define VAR7(T, N, A, B, C, D, E, F, G) \
VAR6 (T, N, A, B, C, D, E, F) \
VAR1 (T, N, G)
#define VAR8(T, N, A, B, C, D, E, F, G, H) \
VAR7 (T, N, A, B, C, D, E, F, G) \
VAR1 (T, N, H)
#define VAR9(T, N, A, B, C, D, E, F, G, H, I) \
VAR8 (T, N, A, B, C, D, E, F, G, H) \
VAR1 (T, N, I)
#define VAR10(T, N, A, B, C, D, E, F, G, H, I, J) \
VAR9 (T, N, A, B, C, D, E, F, G, H, I) \
VAR1 (T, N, J)
#define VAR11(T, N, A, B, C, D, E, F, G, H, I, J, K) \
VAR10 (T, N, A, B, C, D, E, F, G, H, I, J) \
VAR1 (T, N, K)
#define VAR12(T, N, A, B, C, D, E, F, G, H, I, J, K, L) \
VAR11 (T, N, A, B, C, D, E, F, G, H, I, J, K) \
VAR1 (T, N, L)
#define VAR13(T, N, A, B, C, D, E, F, G, H, I, J, K, L, M) \
VAR12 (T, N, A, B, C, D, E, F, G, H, I, J, K, L) \
VAR1 (T, N, M)
#define VAR14(T, N, A, B, C, D, E, F, G, H, I, J, K, L, M, O) \
VAR13 (T, N, A, B, C, D, E, F, G, H, I, J, K, L, M) \
VAR1 (T, N, O)
/* The builtin data can be found in arm_neon_builtins.def, arm_vfp_builtins.def
and arm_acle_builtins.def. The entries in arm_neon_builtins.def require
TARGET_NEON to be true. The feature tests are checked when the builtins are
expanded.
The mode entries in the following table correspond to the "key" type of the
instruction variant, i.e. equivalent to that which would be specified after
the assembler mnemonic for neon instructions, which usually refers to the
last vector operand. The modes listed per instruction should be the same as
those defined for that instruction's pattern, for instance in neon.md. */
static arm_builtin_datum vfp_builtin_data[] =
{
#include "arm_vfp_builtins.def"
};
static arm_builtin_datum neon_builtin_data[] =
{
#include "arm_neon_builtins.def"
};
#undef CF
#define CF(N,X) CODE_FOR_mve_##N##X
static arm_builtin_datum mve_builtin_data[] =
{
#include "arm_mve_builtins.def"
};
#undef CF
#undef VAR1
#define VAR1(T, N, A) \
{#N, UP (A), CODE_FOR_arm_##N, 0, T##_QUALIFIERS},
static arm_builtin_datum acle_builtin_data[] =
{
#include "arm_acle_builtins.def"
};
#undef VAR1
/* IMM_MAX sets the maximum valid value of the CDE immediate operand.
ECF_FLAG sets the flag used for set_call_expr_flags. */
#define VAR1(T, N, A, IMM_MAX, ECF_FLAG) \
{{#N #A, UP (A), CODE_FOR_arm_##N##A, 0, T##_QUALIFIERS}, IMM_MAX, ECF_FLAG},
typedef struct {
arm_builtin_datum base;
unsigned int imm_max;
int ecf_flag;
} arm_builtin_cde_datum;
static arm_builtin_cde_datum cde_builtin_data[] =
{
#include "arm_cde_builtins.def"
};
#undef VAR1
#define VAR1(T, N, X) \
ARM_BUILTIN_NEON_##N##X,
enum arm_builtins
{
ARM_BUILTIN_GETWCGR0,
ARM_BUILTIN_GETWCGR1,
ARM_BUILTIN_GETWCGR2,
ARM_BUILTIN_GETWCGR3,
ARM_BUILTIN_SETWCGR0,
ARM_BUILTIN_SETWCGR1,
ARM_BUILTIN_SETWCGR2,
ARM_BUILTIN_SETWCGR3,
ARM_BUILTIN_WZERO,
ARM_BUILTIN_WAVG2BR,
ARM_BUILTIN_WAVG2HR,
ARM_BUILTIN_WAVG2B,
ARM_BUILTIN_WAVG2H,
ARM_BUILTIN_WACCB,
ARM_BUILTIN_WACCH,
ARM_BUILTIN_WACCW,
ARM_BUILTIN_WMACS,
ARM_BUILTIN_WMACSZ,
ARM_BUILTIN_WMACU,
ARM_BUILTIN_WMACUZ,
ARM_BUILTIN_WSADB,
ARM_BUILTIN_WSADBZ,
ARM_BUILTIN_WSADH,
ARM_BUILTIN_WSADHZ,
ARM_BUILTIN_WALIGNI,
ARM_BUILTIN_WALIGNR0,
ARM_BUILTIN_WALIGNR1,
ARM_BUILTIN_WALIGNR2,
ARM_BUILTIN_WALIGNR3,
ARM_BUILTIN_TMIA,
ARM_BUILTIN_TMIAPH,
ARM_BUILTIN_TMIABB,
ARM_BUILTIN_TMIABT,
ARM_BUILTIN_TMIATB,
ARM_BUILTIN_TMIATT,
ARM_BUILTIN_TMOVMSKB,
ARM_BUILTIN_TMOVMSKH,
ARM_BUILTIN_TMOVMSKW,
ARM_BUILTIN_TBCSTB,
ARM_BUILTIN_TBCSTH,
ARM_BUILTIN_TBCSTW,
ARM_BUILTIN_WMADDS,
ARM_BUILTIN_WMADDU,
ARM_BUILTIN_WPACKHSS,
ARM_BUILTIN_WPACKWSS,
ARM_BUILTIN_WPACKDSS,
ARM_BUILTIN_WPACKHUS,
ARM_BUILTIN_WPACKWUS,
ARM_BUILTIN_WPACKDUS,
ARM_BUILTIN_WADDB,
ARM_BUILTIN_WADDH,
ARM_BUILTIN_WADDW,
ARM_BUILTIN_WADDSSB,
ARM_BUILTIN_WADDSSH,
ARM_BUILTIN_WADDSSW,
ARM_BUILTIN_WADDUSB,
ARM_BUILTIN_WADDUSH,
ARM_BUILTIN_WADDUSW,
ARM_BUILTIN_WSUBB,
ARM_BUILTIN_WSUBH,
ARM_BUILTIN_WSUBW,
ARM_BUILTIN_WSUBSSB,
ARM_BUILTIN_WSUBSSH,
ARM_BUILTIN_WSUBSSW,
ARM_BUILTIN_WSUBUSB,
ARM_BUILTIN_WSUBUSH,
ARM_BUILTIN_WSUBUSW,
ARM_BUILTIN_WAND,
ARM_BUILTIN_WANDN,
ARM_BUILTIN_WOR,
ARM_BUILTIN_WXOR,
ARM_BUILTIN_WCMPEQB,
ARM_BUILTIN_WCMPEQH,
ARM_BUILTIN_WCMPEQW,
ARM_BUILTIN_WCMPGTUB,
ARM_BUILTIN_WCMPGTUH,
ARM_BUILTIN_WCMPGTUW,
ARM_BUILTIN_WCMPGTSB,
ARM_BUILTIN_WCMPGTSH,
ARM_BUILTIN_WCMPGTSW,
ARM_BUILTIN_TEXTRMSB,
ARM_BUILTIN_TEXTRMSH,
ARM_BUILTIN_TEXTRMSW,
ARM_BUILTIN_TEXTRMUB,
ARM_BUILTIN_TEXTRMUH,
ARM_BUILTIN_TEXTRMUW,
ARM_BUILTIN_TINSRB,
ARM_BUILTIN_TINSRH,
ARM_BUILTIN_TINSRW,
ARM_BUILTIN_WMAXSW,
ARM_BUILTIN_WMAXSH,
ARM_BUILTIN_WMAXSB,
ARM_BUILTIN_WMAXUW,
ARM_BUILTIN_WMAXUH,
ARM_BUILTIN_WMAXUB,
ARM_BUILTIN_WMINSW,
ARM_BUILTIN_WMINSH,
ARM_BUILTIN_WMINSB,
ARM_BUILTIN_WMINUW,
ARM_BUILTIN_WMINUH,
ARM_BUILTIN_WMINUB,
ARM_BUILTIN_WMULUM,
ARM_BUILTIN_WMULSM,
ARM_BUILTIN_WMULUL,
ARM_BUILTIN_PSADBH,
ARM_BUILTIN_WSHUFH,
ARM_BUILTIN_WSLLH,
ARM_BUILTIN_WSLLW,
ARM_BUILTIN_WSLLD,
ARM_BUILTIN_WSRAH,
ARM_BUILTIN_WSRAW,
ARM_BUILTIN_WSRAD,
ARM_BUILTIN_WSRLH,
ARM_BUILTIN_WSRLW,
ARM_BUILTIN_WSRLD,
ARM_BUILTIN_WRORH,
ARM_BUILTIN_WRORW,
ARM_BUILTIN_WRORD,
ARM_BUILTIN_WSLLHI,
ARM_BUILTIN_WSLLWI,
ARM_BUILTIN_WSLLDI,
ARM_BUILTIN_WSRAHI,
ARM_BUILTIN_WSRAWI,
ARM_BUILTIN_WSRADI,
ARM_BUILTIN_WSRLHI,
ARM_BUILTIN_WSRLWI,
ARM_BUILTIN_WSRLDI,
ARM_BUILTIN_WRORHI,
ARM_BUILTIN_WRORWI,
ARM_BUILTIN_WRORDI,
ARM_BUILTIN_WUNPCKIHB,
ARM_BUILTIN_WUNPCKIHH,
ARM_BUILTIN_WUNPCKIHW,
ARM_BUILTIN_WUNPCKILB,
ARM_BUILTIN_WUNPCKILH,
ARM_BUILTIN_WUNPCKILW,
ARM_BUILTIN_WUNPCKEHSB,
ARM_BUILTIN_WUNPCKEHSH,
ARM_BUILTIN_WUNPCKEHSW,
ARM_BUILTIN_WUNPCKEHUB,
ARM_BUILTIN_WUNPCKEHUH,
ARM_BUILTIN_WUNPCKEHUW,
ARM_BUILTIN_WUNPCKELSB,
ARM_BUILTIN_WUNPCKELSH,
ARM_BUILTIN_WUNPCKELSW,
ARM_BUILTIN_WUNPCKELUB,
ARM_BUILTIN_WUNPCKELUH,
ARM_BUILTIN_WUNPCKELUW,
ARM_BUILTIN_WABSB,
ARM_BUILTIN_WABSH,
ARM_BUILTIN_WABSW,
ARM_BUILTIN_WADDSUBHX,
ARM_BUILTIN_WSUBADDHX,
ARM_BUILTIN_WABSDIFFB,
ARM_BUILTIN_WABSDIFFH,
ARM_BUILTIN_WABSDIFFW,
ARM_BUILTIN_WADDCH,
ARM_BUILTIN_WADDCW,
ARM_BUILTIN_WAVG4,
ARM_BUILTIN_WAVG4R,
ARM_BUILTIN_WMADDSX,
ARM_BUILTIN_WMADDUX,
ARM_BUILTIN_WMADDSN,
ARM_BUILTIN_WMADDUN,
ARM_BUILTIN_WMULWSM,
ARM_BUILTIN_WMULWUM,
ARM_BUILTIN_WMULWSMR,
ARM_BUILTIN_WMULWUMR,
ARM_BUILTIN_WMULWL,
ARM_BUILTIN_WMULSMR,
ARM_BUILTIN_WMULUMR,
ARM_BUILTIN_WQMULM,
ARM_BUILTIN_WQMULMR,
ARM_BUILTIN_WQMULWM,
ARM_BUILTIN_WQMULWMR,
ARM_BUILTIN_WADDBHUSM,
ARM_BUILTIN_WADDBHUSL,
ARM_BUILTIN_WQMIABB,
ARM_BUILTIN_WQMIABT,
ARM_BUILTIN_WQMIATB,
ARM_BUILTIN_WQMIATT,
ARM_BUILTIN_WQMIABBN,
ARM_BUILTIN_WQMIABTN,
ARM_BUILTIN_WQMIATBN,
ARM_BUILTIN_WQMIATTN,
ARM_BUILTIN_WMIABB,
ARM_BUILTIN_WMIABT,
ARM_BUILTIN_WMIATB,
ARM_BUILTIN_WMIATT,
ARM_BUILTIN_WMIABBN,
ARM_BUILTIN_WMIABTN,
ARM_BUILTIN_WMIATBN,
ARM_BUILTIN_WMIATTN,
ARM_BUILTIN_WMIAWBB,
ARM_BUILTIN_WMIAWBT,
ARM_BUILTIN_WMIAWTB,
ARM_BUILTIN_WMIAWTT,
ARM_BUILTIN_WMIAWBBN,
ARM_BUILTIN_WMIAWBTN,
ARM_BUILTIN_WMIAWTBN,
ARM_BUILTIN_WMIAWTTN,
ARM_BUILTIN_WMERGE,
ARM_BUILTIN_GET_FPSCR,
ARM_BUILTIN_SET_FPSCR,
ARM_BUILTIN_GET_FPSCR_NZCVQC,
ARM_BUILTIN_SET_FPSCR_NZCVQC,
ARM_BUILTIN_CMSE_NONSECURE_CALLER,
ARM_BUILTIN_SIMD_LANE_CHECK,
#undef CRYPTO1
#undef CRYPTO2
#undef CRYPTO3
#define CRYPTO1(L, U, M1, M2) \
ARM_BUILTIN_CRYPTO_##U,
#define CRYPTO2(L, U, M1, M2, M3) \
ARM_BUILTIN_CRYPTO_##U,
#define CRYPTO3(L, U, M1, M2, M3, M4) \
ARM_BUILTIN_CRYPTO_##U,
ARM_BUILTIN_CRYPTO_BASE,
#include "crypto.def"
#undef CRYPTO1
#undef CRYPTO2
#undef CRYPTO3
ARM_BUILTIN_VFP_BASE,
#include "arm_vfp_builtins.def"
ARM_BUILTIN_NEON_BASE,
#include "arm_neon_builtins.def"
#undef VAR1
#define VAR1(T, N, X) \
ARM_BUILTIN_##N,
ARM_BUILTIN_ACLE_BASE,
ARM_BUILTIN_SAT_IMM_CHECK = ARM_BUILTIN_ACLE_BASE,
#include "arm_acle_builtins.def"
#undef VAR1
#define VAR1(T, N, X, ... ) \
ARM_BUILTIN_##N##X,
ARM_BUILTIN_CDE_BASE,
#include "arm_cde_builtins.def"
ARM_BUILTIN_MVE_BASE,
#undef VAR1
#define VAR1(T, N, X) \
ARM_BUILTIN_MVE_##N##X,
#include "arm_mve_builtins.def"
ARM_BUILTIN_MAX
};
#define ARM_BUILTIN_VFP_PATTERN_START \
(ARM_BUILTIN_VFP_BASE + 1)
#define ARM_BUILTIN_NEON_PATTERN_START \
(ARM_BUILTIN_NEON_BASE + 1)
#define ARM_BUILTIN_MVE_PATTERN_START \
(ARM_BUILTIN_MVE_BASE + 1)
#define ARM_BUILTIN_ACLE_PATTERN_START \
(ARM_BUILTIN_ACLE_BASE + 1)
#define ARM_BUILTIN_CDE_PATTERN_START \
(ARM_BUILTIN_CDE_BASE + 1)
#define ARM_BUILTIN_CDE_PATTERN_END \
(ARM_BUILTIN_CDE_BASE + ARRAY_SIZE (cde_builtin_data))
#undef CF
#undef VAR1
#undef VAR2
#undef VAR3
#undef VAR4
#undef VAR5
#undef VAR6
#undef VAR7
#undef VAR8
#undef VAR9
#undef VAR10
static GTY(()) tree arm_builtin_decls[ARM_BUILTIN_MAX];
#define NUM_DREG_TYPES 5
#define NUM_QREG_TYPES 6
/* Internal scalar builtin types. These types are used to support
neon intrinsic builtins. They are _not_ user-visible types. Therefore
the mangling for these types are implementation defined. */
const char *arm_scalar_builtin_types[] = {
"__builtin_neon_qi",
"__builtin_neon_hi",
"__builtin_neon_si",
"__builtin_neon_sf",
"__builtin_neon_di",
"__builtin_neon_df",
"__builtin_neon_ti",
"__builtin_neon_uqi",
"__builtin_neon_uhi",
"__builtin_neon_usi",
"__builtin_neon_udi",
"__builtin_neon_ei",
"__builtin_neon_oi",
"__builtin_neon_ci",
"__builtin_neon_xi",
"__builtin_neon_bf",
NULL
};
#define ENTRY(E, M, Q, S, T, G) E,
enum arm_simd_type
{
#include "arm-simd-builtin-types.def"
__TYPE_FINAL
};
#undef ENTRY
struct arm_simd_type_info
{
enum arm_simd_type type;
/* Internal type name. */
const char *name;
/* Internal type name(mangled). The mangled names conform to the
AAPCS (see "Procedure Call Standard for the ARM Architecture",
Appendix A). To qualify for emission with the mangled names defined in
that document, a vector type must not only be of the correct mode but also
be of the correct internal Neon vector type (e.g. __simd64_int8_t);
these types are registered by arm_init_simd_builtin_types (). In other
words, vector types defined in other ways e.g. via vector_size attribute
will get default mangled names. */
const char *mangle;
/* Internal type. */
tree itype;
/* Element type. */
tree eltype;
/* Machine mode the internal type maps to. */
machine_mode mode;
/* Qualifiers. */
enum arm_type_qualifiers q;
};
#define ENTRY(E, M, Q, S, T, G) \
{E, \
"__simd" #S "_" #T "_t", \
#G "__simd" #S "_" #T "_t", \
NULL_TREE, NULL_TREE, M##mode, qualifier_##Q},
static struct arm_simd_type_info arm_simd_types [] = {
#include "arm-simd-builtin-types.def"
};
#undef ENTRY
/* The user-visible __fp16 type. */
tree arm_fp16_type_node = NULL_TREE;
/* Back-end node type for brain float (bfloat) types. */
tree arm_bf16_type_node = NULL_TREE;
tree arm_bf16_ptr_type_node = NULL_TREE;
static tree arm_simd_intOI_type_node = NULL_TREE;
static tree arm_simd_intEI_type_node = NULL_TREE;
static tree arm_simd_intCI_type_node = NULL_TREE;
static tree arm_simd_intXI_type_node = NULL_TREE;
static tree arm_simd_polyQI_type_node = NULL_TREE;
static tree arm_simd_polyHI_type_node = NULL_TREE;
static tree arm_simd_polyDI_type_node = NULL_TREE;
static tree arm_simd_polyTI_type_node = NULL_TREE;
static const char *
arm_mangle_builtin_scalar_type (const_tree type)
{
int i = 0;
while (arm_scalar_builtin_types[i] != NULL)
{
const char *name = arm_scalar_builtin_types[i];
if (TREE_CODE (TYPE_NAME (type)) == TYPE_DECL
&& DECL_NAME (TYPE_NAME (type))
&& !strcmp (IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (type))), name))
return arm_scalar_builtin_types[i];
i++;
}
return NULL;
}
static const char *
arm_mangle_builtin_vector_type (const_tree type)
{
int i;
int nelts = sizeof (arm_simd_types) / sizeof (arm_simd_types[0]);
for (i = 0; i < nelts; i++)
if (arm_simd_types[i].mode == TYPE_MODE (type)
&& TYPE_NAME (type)
&& TREE_CODE (TYPE_NAME (type)) == TYPE_DECL
&& DECL_NAME (TYPE_NAME (type))
&& !strcmp
(IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (type))),
arm_simd_types[i].name))
return arm_simd_types[i].mangle;
return NULL;
}
const char *
arm_mangle_builtin_type (const_tree type)
{
const char *mangle;
/* Walk through all the Arm builtins types tables to filter out the
incoming type. */
if ((mangle = arm_mangle_builtin_vector_type (type))
|| (mangle = arm_mangle_builtin_scalar_type (type)))
return mangle;
return NULL;
}
static tree
arm_simd_builtin_std_type (machine_mode mode,
enum arm_type_qualifiers q)
{
#define QUAL_TYPE(M) \
((q == qualifier_none) ? int##M##_type_node : unsigned_int##M##_type_node);
switch (mode)
{
case E_QImode:
return QUAL_TYPE (QI);
case E_HImode:
return QUAL_TYPE (HI);
case E_SImode:
return QUAL_TYPE (SI);
case E_DImode:
return QUAL_TYPE (DI);
case E_TImode:
return QUAL_TYPE (TI);
case E_OImode:
return arm_simd_intOI_type_node;
case E_EImode:
return arm_simd_intEI_type_node;
case E_CImode:
return arm_simd_intCI_type_node;
case E_XImode:
return arm_simd_intXI_type_node;
case E_HFmode:
return arm_fp16_type_node;
case E_SFmode:
return float_type_node;
case E_DFmode:
return double_type_node;
case E_BFmode:
return arm_bf16_type_node;
default:
gcc_unreachable ();
}
#undef QUAL_TYPE
}
static tree
arm_lookup_simd_builtin_type (machine_mode mode,
enum arm_type_qualifiers q)
{
int i;
int nelts = sizeof (arm_simd_types) / sizeof (arm_simd_types[0]);
/* Non-poly scalar modes map to standard types not in the table. */
if (q != qualifier_poly && !VECTOR_MODE_P (mode))
return arm_simd_builtin_std_type (mode, q);
for (i = 0; i < nelts; i++)
if (arm_simd_types[i].mode == mode
&& arm_simd_types[i].q == q)
return arm_simd_types[i].itype;
/* Note that we won't have caught the underlying type for poly64x2_t
in the above table. This gets default mangling. */
return NULL_TREE;
}
static tree
arm_simd_builtin_type (machine_mode mode, bool unsigned_p, bool poly_p)
{
if (poly_p)
return arm_lookup_simd_builtin_type (mode, qualifier_poly);
else if (unsigned_p)
return arm_lookup_simd_builtin_type (mode, qualifier_unsigned);
else
return arm_lookup_simd_builtin_type (mode, qualifier_none);
}
static void
arm_init_simd_builtin_types (void)
{
int i;
int nelts = sizeof (arm_simd_types) / sizeof (arm_simd_types[0]);
tree tdecl;
/* Poly types are a world of their own. In order to maintain legacy
ABI, they get initialized using the old interface, and don't get
an entry in our mangling table, consequently, they get default
mangling. As a further gotcha, poly8_t and poly16_t are signed
types, poly64_t and poly128_t are unsigned types. */
if (!TARGET_HAVE_MVE)
{
arm_simd_polyQI_type_node
= build_distinct_type_copy (intQI_type_node);
(*lang_hooks.types.register_builtin_type) (arm_simd_polyQI_type_node,
"__builtin_neon_poly8");
arm_simd_polyHI_type_node
= build_distinct_type_copy (intHI_type_node);
(*lang_hooks.types.register_builtin_type) (arm_simd_polyHI_type_node,
"__builtin_neon_poly16");
arm_simd_polyDI_type_node
= build_distinct_type_copy (unsigned_intDI_type_node);
(*lang_hooks.types.register_builtin_type) (arm_simd_polyDI_type_node,
"__builtin_neon_poly64");
arm_simd_polyTI_type_node
= build_distinct_type_copy (unsigned_intTI_type_node);
(*lang_hooks.types.register_builtin_type) (arm_simd_polyTI_type_node,
"__builtin_neon_poly128");
/* Init poly vector element types with scalar poly types. */
arm_simd_types[Poly8x8_t].eltype = arm_simd_polyQI_type_node;
arm_simd_types[Poly8x16_t].eltype = arm_simd_polyQI_type_node;
arm_simd_types[Poly16x4_t].eltype = arm_simd_polyHI_type_node;
arm_simd_types[Poly16x8_t].eltype = arm_simd_polyHI_type_node;
/* Note: poly64x2_t is defined in arm_neon.h, to ensure it gets default
mangling. */
/* Prevent front-ends from transforming poly vectors into string
literals. */
TYPE_STRING_FLAG (arm_simd_polyQI_type_node) = false;
TYPE_STRING_FLAG (arm_simd_polyHI_type_node) = false;
}
/* Init all the element types built by the front-end. */
arm_simd_types[Int8x8_t].eltype = intQI_type_node;
arm_simd_types[Int8x16_t].eltype = intQI_type_node;
arm_simd_types[Int16x4_t].eltype = intHI_type_node;
arm_simd_types[Int16x8_t].eltype = intHI_type_node;
arm_simd_types[Int32x2_t].eltype = intSI_type_node;
arm_simd_types[Int32x4_t].eltype = intSI_type_node;
arm_simd_types[Int64x2_t].eltype = intDI_type_node;
arm_simd_types[Uint8x8_t].eltype = unsigned_intQI_type_node;
arm_simd_types[Uint8x16_t].eltype = unsigned_intQI_type_node;
arm_simd_types[Uint16x4_t].eltype = unsigned_intHI_type_node;
arm_simd_types[Uint16x8_t].eltype = unsigned_intHI_type_node;
arm_simd_types[Uint32x2_t].eltype = unsigned_intSI_type_node;
arm_simd_types[Uint32x4_t].eltype = unsigned_intSI_type_node;
arm_simd_types[Uint64x2_t].eltype = unsigned_intDI_type_node;
/* Note: poly64x2_t is defined in arm_neon.h, to ensure it gets default
mangling. */
/* Continue with standard types. */
/* The __builtin_simd{64,128}_float16 types are kept private unless
we have a scalar __fp16 type. */
arm_simd_types[Float16x4_t].eltype = arm_fp16_type_node;
arm_simd_types[Float16x8_t].eltype = arm_fp16_type_node;
arm_simd_types[Float32x2_t].eltype = float_type_node;
arm_simd_types[Float32x4_t].eltype = float_type_node;
/* Init Bfloat vector types with underlying __bf16 scalar type. */
arm_simd_types[Bfloat16x2_t].eltype = arm_bf16_type_node;
arm_simd_types[Bfloat16x4_t].eltype = arm_bf16_type_node;
arm_simd_types[Bfloat16x8_t].eltype = arm_bf16_type_node;
for (i = 0; i < nelts; i++)
{
tree eltype = arm_simd_types[i].eltype;
machine_mode mode = arm_simd_types[i].mode;
if (eltype == NULL)
continue;
if (arm_simd_types[i].itype == NULL)
{
tree type = build_vector_type (eltype, GET_MODE_NUNITS (mode));
type = build_distinct_type_copy (type);
SET_TYPE_STRUCTURAL_EQUALITY (type);
TYPE_ATTRIBUTES (type)
= tree_cons (get_identifier ("Advanced SIMD type"),
NULL_TREE, TYPE_ATTRIBUTES (type));
arm_simd_types[i].itype = type;
}
tdecl = add_builtin_type (arm_simd_types[i].name,
arm_simd_types[i].itype);
TYPE_NAME (arm_simd_types[i].itype) = tdecl;
SET_TYPE_STRUCTURAL_EQUALITY (arm_simd_types[i].itype);
}
#define AARCH_BUILD_SIGNED_TYPE(mode) \
make_signed_type (GET_MODE_PRECISION (mode));
arm_simd_intOI_type_node = AARCH_BUILD_SIGNED_TYPE (OImode);
arm_simd_intEI_type_node = AARCH_BUILD_SIGNED_TYPE (EImode);
arm_simd_intCI_type_node = AARCH_BUILD_SIGNED_TYPE (CImode);
arm_simd_intXI_type_node = AARCH_BUILD_SIGNED_TYPE (XImode);
#undef AARCH_BUILD_SIGNED_TYPE
tdecl = add_builtin_type
("__builtin_neon_ei" , arm_simd_intEI_type_node);
TYPE_NAME (arm_simd_intEI_type_node) = tdecl;
tdecl = add_builtin_type
("__builtin_neon_oi" , arm_simd_intOI_type_node);
TYPE_NAME (arm_simd_intOI_type_node) = tdecl;
tdecl = add_builtin_type
("__builtin_neon_ci" , arm_simd_intCI_type_node);
TYPE_NAME (arm_simd_intCI_type_node) = tdecl;
tdecl = add_builtin_type
("__builtin_neon_xi" , arm_simd_intXI_type_node);
TYPE_NAME (arm_simd_intXI_type_node) = tdecl;
}
static void
arm_init_simd_builtin_scalar_types (void)
{
/* Define typedefs for all the standard scalar types. */
(*lang_hooks.types.register_builtin_type) (intQI_type_node,
"__builtin_neon_qi");
(*lang_hooks.types.register_builtin_type) (intHI_type_node,
"__builtin_neon_hi");
(*lang_hooks.types.register_builtin_type) (intSI_type_node,
"__builtin_neon_si");
(*lang_hooks.types.register_builtin_type) (float_type_node,
"__builtin_neon_sf");
(*lang_hooks.types.register_builtin_type) (intDI_type_node,
"__builtin_neon_di");
(*lang_hooks.types.register_builtin_type) (double_type_node,
"__builtin_neon_df");
(*lang_hooks.types.register_builtin_type) (intTI_type_node,
"__builtin_neon_ti");
(*lang_hooks.types.register_builtin_type) (arm_bf16_type_node,
"__builtin_neon_bf");
/* Unsigned integer types for various mode sizes. */
(*lang_hooks.types.register_builtin_type) (unsigned_intQI_type_node,
"__builtin_neon_uqi");
(*lang_hooks.types.register_builtin_type) (unsigned_intHI_type_node,
"__builtin_neon_uhi");
(*lang_hooks.types.register_builtin_type) (unsigned_intSI_type_node,
"__builtin_neon_usi");
(*lang_hooks.types.register_builtin_type) (unsigned_intDI_type_node,
"__builtin_neon_udi");
(*lang_hooks.types.register_builtin_type) (unsigned_intTI_type_node,
"__builtin_neon_uti");
}
/* Set up a builtin. It will use information stored in the argument struct D to
derive the builtin's type signature and name. It will append the name in D
to the PREFIX passed and use these to create a builtin declaration that is
then stored in 'arm_builtin_decls' under index FCODE. This FCODE is also
written back to D for future use. */
static void
arm_init_builtin (unsigned int fcode, arm_builtin_datum *d,
const char * prefix)
{
bool print_type_signature_p = false;
char type_signature[SIMD_MAX_BUILTIN_ARGS] = { 0 };
char namebuf[60];
tree ftype = NULL;
tree fndecl = NULL;
d->fcode = fcode;
/* We must track two variables here. op_num is
the operand number as in the RTL pattern. This is
required to access the mode (e.g. V4SF mode) of the
argument, from which the base type can be derived.
arg_num is an index in to the qualifiers data, which
gives qualifiers to the type (e.g. const unsigned).
The reason these two variables may differ by one is the
void return type. While all return types take the 0th entry
in the qualifiers array, there is no operand for them in the
RTL pattern. */
int op_num = insn_data[d->code].n_operands - 1;
int arg_num = d->qualifiers[0] & qualifier_void
? op_num + 1
: op_num;
tree return_type = void_type_node, args = void_list_node;
tree eltype;
/* Build a function type directly from the insn_data for this
builtin. The build_function_type () function takes care of
removing duplicates for us. */
for (; op_num >= 0; arg_num--, op_num--)
{
machine_mode op_mode = insn_data[d->code].operand[op_num].mode;
enum arm_type_qualifiers qualifiers = d->qualifiers[arg_num];
if (qualifiers & qualifier_unsigned)
{
type_signature[arg_num] = 'u';
print_type_signature_p = true;
}
else if (qualifiers & qualifier_poly)
{
type_signature[arg_num] = 'p';
print_type_signature_p = true;
}
else
type_signature[arg_num] = 's';
/* Skip an internal operand for vget_{low, high}. */
if (qualifiers & qualifier_internal)
continue;
/* Some builtins have different user-facing types
for certain arguments, encoded in d->mode. */
if (qualifiers & qualifier_map_mode)
op_mode = d->mode;
/* For pointers, we want a pointer to the basic type
of the vector. */
if (qualifiers & qualifier_pointer && VECTOR_MODE_P (op_mode))
op_mode = GET_MODE_INNER (op_mode);
/* For void pointers we already have nodes constructed by the midend. */
if (qualifiers & qualifier_void_pointer)
eltype = qualifiers & qualifier_const
? const_ptr_type_node : ptr_type_node;
else
{
eltype
= arm_simd_builtin_type (op_mode,
(qualifiers & qualifier_unsigned) != 0,
(qualifiers & qualifier_poly) != 0);
gcc_assert (eltype != NULL);
/* Add qualifiers. */
if (qualifiers & qualifier_const)
eltype = build_qualified_type (eltype, TYPE_QUAL_CONST);
if (qualifiers & qualifier_pointer)
eltype = build_pointer_type (eltype);
}
/* If we have reached arg_num == 0, we are at a non-void
return type. Otherwise, we are still processing
arguments. */
if (arg_num == 0)
return_type = eltype;
else
args = tree_cons (NULL_TREE, eltype, args);
}
ftype = build_function_type (return_type, args);
gcc_assert (ftype != NULL);
if (print_type_signature_p
&& IN_RANGE (fcode, ARM_BUILTIN_VFP_BASE, ARM_BUILTIN_ACLE_BASE - 1))
snprintf (namebuf, sizeof (namebuf), "%s_%s_%s",
prefix, d->name, type_signature);
else
snprintf (namebuf, sizeof (namebuf), "%s_%s",
prefix, d->name);
fndecl = add_builtin_function (namebuf, ftype, fcode, BUILT_IN_MD,
NULL, NULL_TREE);
arm_builtin_decls[fcode] = fndecl;
}
/* Initialize the backend REAL_TYPE type supporting bfloat types. */
static void
arm_init_bf16_types (void)
{
arm_bf16_type_node = make_node (REAL_TYPE);
TYPE_PRECISION (arm_bf16_type_node) = 16;
SET_TYPE_MODE (arm_bf16_type_node, BFmode);
layout_type (arm_bf16_type_node);
lang_hooks.types.register_builtin_type (arm_bf16_type_node, "__bf16");
arm_bf16_ptr_type_node = build_pointer_type (arm_bf16_type_node);
}
/* Set up ACLE builtins, even builtins for instructions that are not
in the current target ISA to allow the user to compile particular modules
with different target specific options that differ from the command line
options. Such builtins will be rejected in arm_expand_builtin. */
static void
arm_init_acle_builtins (void)
{
unsigned int i, fcode = ARM_BUILTIN_ACLE_PATTERN_START;
tree sat_check_fpr = build_function_type_list (void_type_node,
intSI_type_node,
intSI_type_node,
intSI_type_node,
NULL);
arm_builtin_decls[ARM_BUILTIN_SAT_IMM_CHECK]
= add_builtin_function ("__builtin_sat_imm_check", sat_check_fpr,
ARM_BUILTIN_SAT_IMM_CHECK, BUILT_IN_MD,
NULL, NULL_TREE);
for (i = 0; i < ARRAY_SIZE (acle_builtin_data); i++, fcode++)
{
arm_builtin_datum *d = &acle_builtin_data[i];
arm_init_builtin (fcode, d, "__builtin_arm");
}
}
static void
arm_init_cde_builtins (void)
{
unsigned int i, fcode = ARM_BUILTIN_CDE_PATTERN_START;
for (i = 0; i < ARRAY_SIZE (cde_builtin_data); i++, fcode++)
{
/* Only define CDE floating point builtins if the target has floating
point registers. NOTE: without HARD_FLOAT we don't have MVE, so we
can break out of this loop directly here. */
if (!TARGET_MAYBE_HARD_FLOAT && fcode >= ARM_BUILTIN_vcx1si)
break;
/* Only define CDE/MVE builtins if MVE is available. */
if (!TARGET_HAVE_MVE && fcode >= ARM_BUILTIN_vcx1qv16qi)
break;
arm_builtin_cde_datum *cde = &cde_builtin_data[i];
arm_builtin_datum *d = &cde->base;
arm_init_builtin (fcode, d, "__builtin_arm");
set_call_expr_flags (arm_builtin_decls[fcode], cde->ecf_flag);
}
}
/* Set up all the MVE builtins mentioned in arm_mve_builtins.def file. */
static void
arm_init_mve_builtins (void)
{
volatile unsigned int i, fcode = ARM_BUILTIN_MVE_PATTERN_START;
arm_init_simd_builtin_scalar_types ();
arm_init_simd_builtin_types ();
/* Add support for __builtin_{get,set}_fpscr_nzcvqc, used by MVE intrinsics
that read and/or write the carry bit. */
tree get_fpscr_nzcvqc = build_function_type_list (intSI_type_node,
NULL);
tree set_fpscr_nzcvqc = build_function_type_list (void_type_node,
intSI_type_node,
NULL);
arm_builtin_decls[ARM_BUILTIN_GET_FPSCR_NZCVQC]
= add_builtin_function ("__builtin_arm_get_fpscr_nzcvqc", get_fpscr_nzcvqc,
ARM_BUILTIN_GET_FPSCR_NZCVQC, BUILT_IN_MD, NULL,
NULL_TREE);
arm_builtin_decls[ARM_BUILTIN_SET_FPSCR_NZCVQC]
= add_builtin_function ("__builtin_arm_set_fpscr_nzcvqc", set_fpscr_nzcvqc,
ARM_BUILTIN_SET_FPSCR_NZCVQC, BUILT_IN_MD, NULL,
NULL_TREE);
for (i = 0; i < ARRAY_SIZE (mve_builtin_data); i++, fcode++)
{
arm_builtin_datum *d = &mve_builtin_data[i];
arm_init_builtin (fcode, d, "__builtin_mve");
}
}
/* Set up all the NEON builtins, even builtins for instructions that are not
in the current target ISA to allow the user to compile particular modules
with different target specific options that differ from the command line
options. Such builtins will be rejected in arm_expand_builtin. */
static void
arm_init_neon_builtins (void)
{
unsigned int i, fcode = ARM_BUILTIN_NEON_PATTERN_START;
arm_init_simd_builtin_types ();
/* Strong-typing hasn't been implemented for all AdvSIMD builtin intrinsics.
Therefore we need to preserve the old __builtin scalar types. It can be
removed once all the intrinsics become strongly typed using the qualifier
system. */
arm_init_simd_builtin_scalar_types ();
for (i = 0; i < ARRAY_SIZE (neon_builtin_data); i++, fcode++)
{
arm_builtin_datum *d = &neon_builtin_data[i];
arm_init_builtin (fcode, d, "__builtin_neon");
}
}
/* Set up all the scalar floating point builtins. */
static void
arm_init_vfp_builtins (void)
{
unsigned int i, fcode = ARM_BUILTIN_VFP_PATTERN_START;
for (i = 0; i < ARRAY_SIZE (vfp_builtin_data); i++, fcode++)
{
arm_builtin_datum *d = &vfp_builtin_data[i];
arm_init_builtin (fcode, d, "__builtin_neon");
}
}
static void
arm_init_crypto_builtins (void)
{
tree V16UQI_type_node
= arm_simd_builtin_type (V16QImode, true, false);
tree V4USI_type_node
= arm_simd_builtin_type (V4SImode, true, false);
tree v16uqi_ftype_v16uqi
= build_function_type_list (V16UQI_type_node, V16UQI_type_node,
NULL_TREE);
tree v16uqi_ftype_v16uqi_v16uqi
= build_function_type_list (V16UQI_type_node, V16UQI_type_node,
V16UQI_type_node, NULL_TREE);
tree v4usi_ftype_v4usi
= build_function_type_list (V4USI_type_node, V4USI_type_node,
NULL_TREE);
tree v4usi_ftype_v4usi_v4usi
= build_function_type_list (V4USI_type_node, V4USI_type_node,
V4USI_type_node, NULL_TREE);
tree v4usi_ftype_v4usi_v4usi_v4usi
= build_function_type_list (V4USI_type_node, V4USI_type_node,
V4USI_type_node, V4USI_type_node,
NULL_TREE);
tree uti_ftype_udi_udi
= build_function_type_list (unsigned_intTI_type_node,
unsigned_intDI_type_node,
unsigned_intDI_type_node,
NULL_TREE);
#undef CRYPTO1
#undef CRYPTO2
#undef CRYPTO3
#undef C
#undef N
#undef CF
#undef FT1
#undef FT2
#undef FT3
#define C(U) \
ARM_BUILTIN_CRYPTO_##U
#define N(L) \
"__builtin_arm_crypto_"#L
#define FT1(R, A) \
R##_ftype_##A
#define FT2(R, A1, A2) \
R##_ftype_##A1##_##A2
#define FT3(R, A1, A2, A3) \
R##_ftype_##A1##_##A2##_##A3
#define CRYPTO1(L, U, R, A) \
arm_builtin_decls[C (U)] \
= add_builtin_function (N (L), FT1 (R, A), \
C (U), BUILT_IN_MD, NULL, NULL_TREE);
#define CRYPTO2(L, U, R, A1, A2) \
arm_builtin_decls[C (U)] \
= add_builtin_function (N (L), FT2 (R, A1, A2), \
C (U), BUILT_IN_MD, NULL, NULL_TREE);
#define CRYPTO3(L, U, R, A1, A2, A3) \
arm_builtin_decls[C (U)] \
= add_builtin_function (N (L), FT3 (R, A1, A2, A3), \
C (U), BUILT_IN_MD, NULL, NULL_TREE);
#include "crypto.def"
#undef CRYPTO1
#undef CRYPTO2
#undef CRYPTO3
#undef C
#undef N
#undef FT1
#undef FT2
#undef FT3
}
#undef NUM_DREG_TYPES
#undef NUM_QREG_TYPES
#define def_mbuiltin(FLAG, NAME, TYPE, CODE) \
do \
{ \
if (FLAG == isa_nobit \
|| bitmap_bit_p (arm_active_target.isa, FLAG)) \
{ \
tree bdecl; \
bdecl = add_builtin_function ((NAME), (TYPE), (CODE), \
BUILT_IN_MD, NULL, NULL_TREE); \
arm_builtin_decls[CODE] = bdecl; \
} \
} \
while (0)
struct builtin_description
{
const enum isa_feature feature;
const enum insn_code icode;
const char * const name;
const enum arm_builtins code;
const enum rtx_code comparison;
const unsigned int flag;
};
static const struct builtin_description bdesc_2arg[] =
{
#define IWMMXT_BUILTIN(code, string, builtin) \
{ isa_bit_iwmmxt, CODE_FOR_##code, \
"__builtin_arm_" string, \
ARM_BUILTIN_##builtin, UNKNOWN, 0 },
#define IWMMXT2_BUILTIN(code, string, builtin) \
{ isa_bit_iwmmxt2, CODE_FOR_##code, \
"__builtin_arm_" string, \
ARM_BUILTIN_##builtin, UNKNOWN, 0 },
IWMMXT_BUILTIN (addv8qi3, "waddb", WADDB)
IWMMXT_BUILTIN (addv4hi3, "waddh", WADDH)
IWMMXT_BUILTIN (addv2si3, "waddw", WADDW)
IWMMXT_BUILTIN (subv8qi3, "wsubb", WSUBB)
IWMMXT_BUILTIN (subv4hi3, "wsubh", WSUBH)
IWMMXT_BUILTIN (subv2si3, "wsubw", WSUBW)
IWMMXT_BUILTIN (ssaddv8qi3, "waddbss", WADDSSB)
IWMMXT_BUILTIN (ssaddv4hi3, "waddhss", WADDSSH)
IWMMXT_BUILTIN (ssaddv2si3, "waddwss", WADDSSW)
IWMMXT_BUILTIN (sssubv8qi3, "wsubbss", WSUBSSB)
IWMMXT_BUILTIN (sssubv4hi3, "wsubhss", WSUBSSH)
IWMMXT_BUILTIN (sssubv2si3, "wsubwss", WSUBSSW)
IWMMXT_BUILTIN (usaddv8qi3, "waddbus", WADDUSB)
IWMMXT_BUILTIN (usaddv4hi3, "waddhus", WADDUSH)
IWMMXT_BUILTIN (usaddv2si3, "waddwus", WADDUSW)
IWMMXT_BUILTIN (ussubv8qi3, "wsubbus", WSUBUSB)
IWMMXT_BUILTIN (ussubv4hi3, "wsubhus", WSUBUSH)
IWMMXT_BUILTIN (ussubv2si3, "wsubwus", WSUBUSW)
IWMMXT_BUILTIN (mulv4hi3, "wmulul", WMULUL)
IWMMXT_BUILTIN (smulv4hi3_highpart, "wmulsm", WMULSM)
IWMMXT_BUILTIN (umulv4hi3_highpart, "wmulum", WMULUM)
IWMMXT_BUILTIN (eqv8qi3, "wcmpeqb", WCMPEQB)
IWMMXT_BUILTIN (eqv4hi3, "wcmpeqh", WCMPEQH)
IWMMXT_BUILTIN (eqv2si3, "wcmpeqw", WCMPEQW)
IWMMXT_BUILTIN (gtuv8qi3, "wcmpgtub", WCMPGTUB)
IWMMXT_BUILTIN (gtuv4hi3, "wcmpgtuh", WCMPGTUH)
IWMMXT_BUILTIN (gtuv2si3, "wcmpgtuw", WCMPGTUW)
IWMMXT_BUILTIN (gtv8qi3, "wcmpgtsb", WCMPGTSB)
IWMMXT_BUILTIN (gtv4hi3, "wcmpgtsh", WCMPGTSH)
IWMMXT_BUILTIN (gtv2si3, "wcmpgtsw", WCMPGTSW)
IWMMXT_BUILTIN (umaxv8qi3, "wmaxub", WMAXUB)
IWMMXT_BUILTIN (smaxv8qi3, "wmaxsb", WMAXSB)
IWMMXT_BUILTIN (umaxv4hi3, "wmaxuh", WMAXUH)
IWMMXT_BUILTIN (smaxv4hi3, "wmaxsh", WMAXSH)
IWMMXT_BUILTIN (umaxv2si3, "wmaxuw", WMAXUW)
IWMMXT_BUILTIN (smaxv2si3, "wmaxsw", WMAXSW)
IWMMXT_BUILTIN (uminv8qi3, "wminub", WMINUB)
IWMMXT_BUILTIN (sminv8qi3, "wminsb", WMINSB)
IWMMXT_BUILTIN (uminv4hi3, "wminuh", WMINUH)
IWMMXT_BUILTIN (sminv4hi3, "wminsh", WMINSH)
IWMMXT_BUILTIN (uminv2si3, "wminuw", WMINUW)
IWMMXT_BUILTIN (sminv2si3, "wminsw", WMINSW)
IWMMXT_BUILTIN (iwmmxt_anddi3, "wand", WAND)
IWMMXT_BUILTIN (iwmmxt_nanddi3, "wandn", WANDN)
IWMMXT_BUILTIN (iwmmxt_iordi3, "wor", WOR)
IWMMXT_BUILTIN (iwmmxt_xordi3, "wxor", WXOR)
IWMMXT_BUILTIN (iwmmxt_uavgv8qi3, "wavg2b", WAVG2B)
IWMMXT_BUILTIN (iwmmxt_uavgv4hi3, "wavg2h", WAVG2H)
IWMMXT_BUILTIN (iwmmxt_uavgrndv8qi3, "wavg2br", WAVG2BR)
IWMMXT_BUILTIN (iwmmxt_uavgrndv4hi3, "wavg2hr", WAVG2HR)
IWMMXT_BUILTIN (iwmmxt_wunpckilb, "wunpckilb", WUNPCKILB)
IWMMXT_BUILTIN (iwmmxt_wunpckilh, "wunpckilh", WUNPCKILH)
IWMMXT_BUILTIN (iwmmxt_wunpckilw, "wunpckilw", WUNPCKILW)
IWMMXT_BUILTIN (iwmmxt_wunpckihb, "wunpckihb", WUNPCKIHB)
IWMMXT_BUILTIN (iwmmxt_wunpckihh, "wunpckihh", WUNPCKIHH)
IWMMXT_BUILTIN (iwmmxt_wunpckihw, "wunpckihw", WUNPCKIHW)
IWMMXT2_BUILTIN (iwmmxt_waddsubhx, "waddsubhx", WADDSUBHX)
IWMMXT2_BUILTIN (iwmmxt_wsubaddhx, "wsubaddhx", WSUBADDHX)
IWMMXT2_BUILTIN (iwmmxt_wabsdiffb, "wabsdiffb", WABSDIFFB)
IWMMXT2_BUILTIN (iwmmxt_wabsdiffh, "wabsdiffh", WABSDIFFH)
IWMMXT2_BUILTIN (iwmmxt_wabsdiffw, "wabsdiffw", WABSDIFFW)
IWMMXT2_BUILTIN (iwmmxt_avg4, "wavg4", WAVG4)
IWMMXT2_BUILTIN (iwmmxt_avg4r, "wavg4r", WAVG4R)
IWMMXT2_BUILTIN (iwmmxt_wmulwsm, "wmulwsm", WMULWSM)
IWMMXT2_BUILTIN (iwmmxt_wmulwum, "wmulwum", WMULWUM)
IWMMXT2_BUILTIN (iwmmxt_wmulwsmr, "wmulwsmr", WMULWSMR)
IWMMXT2_BUILTIN (iwmmxt_wmulwumr, "wmulwumr", WMULWUMR)
IWMMXT2_BUILTIN (iwmmxt_wmulwl, "wmulwl", WMULWL)
IWMMXT2_BUILTIN (iwmmxt_wmulsmr, "wmulsmr", WMULSMR)
IWMMXT2_BUILTIN (iwmmxt_wmulumr, "wmulumr", WMULUMR)
IWMMXT2_BUILTIN (iwmmxt_wqmulm, "wqmulm", WQMULM)
IWMMXT2_BUILTIN (iwmmxt_wqmulmr, "wqmulmr", WQMULMR)
IWMMXT2_BUILTIN (iwmmxt_wqmulwm, "wqmulwm", WQMULWM)
IWMMXT2_BUILTIN (iwmmxt_wqmulwmr, "wqmulwmr", WQMULWMR)
IWMMXT_BUILTIN (iwmmxt_walignr0, "walignr0", WALIGNR0)
IWMMXT_BUILTIN (iwmmxt_walignr1, "walignr1", WALIGNR1)
IWMMXT_BUILTIN (iwmmxt_walignr2, "walignr2", WALIGNR2)
IWMMXT_BUILTIN (iwmmxt_walignr3, "walignr3", WALIGNR3)
#define IWMMXT_BUILTIN2(code, builtin) \
{ isa_bit_iwmmxt, CODE_FOR_##code, NULL, \
ARM_BUILTIN_##builtin, UNKNOWN, 0 },
#define IWMMXT2_BUILTIN2(code, builtin) \
{ isa_bit_iwmmxt2, CODE_FOR_##code, NULL, \
ARM_BUILTIN_##builtin, UNKNOWN, 0 },
IWMMXT2_BUILTIN2 (iwmmxt_waddbhusm, WADDBHUSM)
IWMMXT2_BUILTIN2 (iwmmxt_waddbhusl, WADDBHUSL)
IWMMXT_BUILTIN2 (iwmmxt_wpackhss, WPACKHSS)
IWMMXT_BUILTIN2 (iwmmxt_wpackwss, WPACKWSS)
IWMMXT_BUILTIN2 (iwmmxt_wpackdss, WPACKDSS)
IWMMXT_BUILTIN2 (iwmmxt_wpackhus, WPACKHUS)
IWMMXT_BUILTIN2 (iwmmxt_wpackwus, WPACKWUS)
IWMMXT_BUILTIN2 (iwmmxt_wpackdus, WPACKDUS)
IWMMXT_BUILTIN2 (iwmmxt_wmacuz, WMACUZ)
IWMMXT_BUILTIN2 (iwmmxt_wmacsz, WMACSZ)
#define FP_BUILTIN(L, U) \
{isa_nobit, CODE_FOR_##L, "__builtin_arm_"#L, ARM_BUILTIN_##U, \
UNKNOWN, 0},
FP_BUILTIN (get_fpscr, GET_FPSCR)
FP_BUILTIN (set_fpscr, SET_FPSCR)
#undef FP_BUILTIN
#define CRYPTO_BUILTIN(L, U) \
{isa_nobit, CODE_FOR_crypto_##L, "__builtin_arm_crypto_"#L, \
ARM_BUILTIN_CRYPTO_##U, UNKNOWN, 0},
#undef CRYPTO1
#undef CRYPTO2
#undef CRYPTO3
#define CRYPTO2(L, U, R, A1, A2) CRYPTO_BUILTIN (L, U)
#define CRYPTO1(L, U, R, A)
#define CRYPTO3(L, U, R, A1, A2, A3)
#include "crypto.def"
#undef CRYPTO1
#undef CRYPTO2
#undef CRYPTO3
};
static const struct builtin_description bdesc_1arg[] =
{
IWMMXT_BUILTIN (iwmmxt_tmovmskb, "tmovmskb", TMOVMSKB)
IWMMXT_BUILTIN (iwmmxt_tmovmskh, "tmovmskh", TMOVMSKH)
IWMMXT_BUILTIN (iwmmxt_tmovmskw, "tmovmskw", TMOVMSKW)
IWMMXT_BUILTIN (iwmmxt_waccb, "waccb", WACCB)
IWMMXT_BUILTIN (iwmmxt_wacch, "wacch", WACCH)
IWMMXT_BUILTIN (iwmmxt_waccw, "waccw", WACCW)
IWMMXT_BUILTIN (iwmmxt_wunpckehub, "wunpckehub", WUNPCKEHUB)
IWMMXT_BUILTIN (iwmmxt_wunpckehuh, "wunpckehuh", WUNPCKEHUH)
IWMMXT_BUILTIN (iwmmxt_wunpckehuw, "wunpckehuw", WUNPCKEHUW)
IWMMXT_BUILTIN (iwmmxt_wunpckehsb, "wunpckehsb", WUNPCKEHSB)
IWMMXT_BUILTIN (iwmmxt_wunpckehsh, "wunpckehsh", WUNPCKEHSH)
IWMMXT_BUILTIN (iwmmxt_wunpckehsw, "wunpckehsw", WUNPCKEHSW)
IWMMXT_BUILTIN (iwmmxt_wunpckelub, "wunpckelub", WUNPCKELUB)
IWMMXT_BUILTIN (iwmmxt_wunpckeluh, "wunpckeluh", WUNPCKELUH)
IWMMXT_BUILTIN (iwmmxt_wunpckeluw, "wunpckeluw", WUNPCKELUW)
IWMMXT_BUILTIN (iwmmxt_wunpckelsb, "wunpckelsb", WUNPCKELSB)
IWMMXT_BUILTIN (iwmmxt_wunpckelsh, "wunpckelsh", WUNPCKELSH)
IWMMXT_BUILTIN (iwmmxt_wunpckelsw, "wunpckelsw", WUNPCKELSW)
IWMMXT2_BUILTIN (iwmmxt_wabsv8qi3, "wabsb", WABSB)
IWMMXT2_BUILTIN (iwmmxt_wabsv4hi3, "wabsh", WABSH)
IWMMXT2_BUILTIN (iwmmxt_wabsv2si3, "wabsw", WABSW)
IWMMXT_BUILTIN (tbcstv8qi, "tbcstb", TBCSTB)
IWMMXT_BUILTIN (tbcstv4hi, "tbcsth", TBCSTH)
IWMMXT_BUILTIN (tbcstv2si, "tbcstw", TBCSTW)
#define CRYPTO1(L, U, R, A) CRYPTO_BUILTIN (L, U)
#define CRYPTO2(L, U, R, A1, A2)
#define CRYPTO3(L, U, R, A1, A2, A3)
#include "crypto.def"
#undef CRYPTO1
#undef CRYPTO2
#undef CRYPTO3
};
static const struct builtin_description bdesc_3arg[] =
{
#define CRYPTO3(L, U, R, A1, A2, A3) CRYPTO_BUILTIN (L, U)
#define CRYPTO1(L, U, R, A)
#define CRYPTO2(L, U, R, A1, A2)
#include "crypto.def"
#undef CRYPTO1
#undef CRYPTO2
#undef CRYPTO3
};
#undef CRYPTO_BUILTIN
/* Set up all the iWMMXt builtins. This is not called if
TARGET_IWMMXT is zero. */
static void
arm_init_iwmmxt_builtins (void)
{
const struct builtin_description * d;
size_t i;
tree V2SI_type_node = build_vector_type_for_mode (intSI_type_node, V2SImode);
tree V4HI_type_node = build_vector_type_for_mode (intHI_type_node, V4HImode);
tree V8QI_type_node = build_vector_type_for_mode (intQI_type_node, V8QImode);
tree v8qi_ftype_v8qi_v8qi_int
= build_function_type_list (V8QI_type_node,
V8QI_type_node, V8QI_type_node,
integer_type_node, NULL_TREE);
tree v4hi_ftype_v4hi_int
= build_function_type_list (V4HI_type_node,
V4HI_type_node, integer_type_node, NULL_TREE);
tree v2si_ftype_v2si_int
= build_function_type_list (V2SI_type_node,
V2SI_type_node, integer_type_node, NULL_TREE);
tree v2si_ftype_di_di
= build_function_type_list (V2SI_type_node,
long_long_integer_type_node,
long_long_integer_type_node,
NULL_TREE);
tree di_ftype_di_int
= build_function_type_list (long_long_integer_type_node,
long_long_integer_type_node,
integer_type_node, NULL_TREE);
tree di_ftype_di_int_int
= build_function_type_list (long_long_integer_type_node,
long_long_integer_type_node,
integer_type_node,
integer_type_node, NULL_TREE);
tree int_ftype_v8qi
= build_function_type_list (integer_type_node,
V8QI_type_node, NULL_TREE);
tree int_ftype_v4hi
= build_function_type_list (integer_type_node,
V4HI_type_node, NULL_TREE);
tree int_ftype_v2si
= build_function_type_list (integer_type_node,
V2SI_type_node, NULL_TREE);
tree int_ftype_v8qi_int
= build_function_type_list (integer_type_node,
V8QI_type_node, integer_type_node, NULL_TREE);
tree int_ftype_v4hi_int
= build_function_type_list (integer_type_node,
V4HI_type_node, integer_type_node, NULL_TREE);
tree int_ftype_v2si_int
= build_function_type_list (integer_type_node,
V2SI_type_node, integer_type_node, NULL_TREE);
tree v8qi_ftype_v8qi_int_int
= build_function_type_list (V8QI_type_node,
V8QI_type_node, integer_type_node,
integer_type_node, NULL_TREE);
tree v4hi_ftype_v4hi_int_int
= build_function_type_list (V4HI_type_node,
V4HI_type_node, integer_type_node,
integer_type_node, NULL_TREE);
tree v2si_ftype_v2si_int_int
= build_function_type_list (V2SI_type_node,
V2SI_type_node, integer_type_node,
integer_type_node, NULL_TREE);
/* Miscellaneous. */
tree v8qi_ftype_v4hi_v4hi
= build_function_type_list (V8QI_type_node,
V4HI_type_node, V4HI_type_node, NULL_TREE);
tree v4hi_ftype_v2si_v2si
= build_function_type_list (V4HI_type_node,
V2SI_type_node, V2SI_type_node, NULL_TREE);
tree v8qi_ftype_v4hi_v8qi
= build_function_type_list (V8QI_type_node,
V4HI_type_node, V8QI_type_node, NULL_TREE);
tree v2si_ftype_v4hi_v4hi
= build_function_type_list (V2SI_type_node,
V4HI_type_node, V4HI_type_node, NULL_TREE);
tree v2si_ftype_v8qi_v8qi
= build_function_type_list (V2SI_type_node,
V8QI_type_node, V8QI_type_node, NULL_TREE);
tree v4hi_ftype_v4hi_di
= build_function_type_list (V4HI_type_node,
V4HI_type_node, long_long_integer_type_node,
NULL_TREE);
tree v2si_ftype_v2si_di
= build_function_type_list (V2SI_type_node,
V2SI_type_node, long_long_integer_type_node,
NULL_TREE);
tree di_ftype_void
= build_function_type_list (long_long_unsigned_type_node, NULL_TREE);
tree int_ftype_void
= build_function_type_list (integer_type_node, NULL_TREE);
tree di_ftype_v8qi
= build_function_type_list (long_long_integer_type_node,
V8QI_type_node, NULL_TREE);
tree di_ftype_v4hi
= build_function_type_list (long_long_integer_type_node,
V4HI_type_node, NULL_TREE);
tree di_ftype_v2si
= build_function_type_list (long_long_integer_type_node,
V2SI_type_node, NULL_TREE);
tree v2si_ftype_v4hi
= build_function_type_list (V2SI_type_node,
V4HI_type_node, NULL_TREE);
tree v4hi_ftype_v8qi
= build_function_type_list (V4HI_type_node,
V8QI_type_node, NULL_TREE);
tree v8qi_ftype_v8qi
= build_function_type_list (V8QI_type_node,
V8QI_type_node, NULL_TREE);
tree v4hi_ftype_v4hi
= build_function_type_list (V4HI_type_node,
V4HI_type_node, NULL_TREE);
tree v2si_ftype_v2si
= build_function_type_list (V2SI_type_node,
V2SI_type_node, NULL_TREE);
tree di_ftype_di_v4hi_v4hi
= build_function_type_list (long_long_unsigned_type_node,
long_long_unsigned_type_node,
V4HI_type_node, V4HI_type_node,
NULL_TREE);
tree di_ftype_v4hi_v4hi
= build_function_type_list (long_long_unsigned_type_node,
V4HI_type_node,V4HI_type_node,
NULL_TREE);
tree v2si_ftype_v2si_v4hi_v4hi
= build_function_type_list (V2SI_type_node,
V2SI_type_node, V4HI_type_node,
V4HI_type_node, NULL_TREE);
tree v2si_ftype_v2si_v8qi_v8qi
= build_function_type_list (V2SI_type_node,
V2SI_type_node, V8QI_type_node,
V8QI_type_node, NULL_TREE);
tree di_ftype_di_v2si_v2si
= build_function_type_list (long_long_unsigned_type_node,
long_long_unsigned_type_node,
V2SI_type_node, V2SI_type_node,
NULL_TREE);
tree di_ftype_di_di_int
= build_function_type_list (long_long_unsigned_type_node,
long_long_unsigned_type_node,
long_long_unsigned_type_node,
integer_type_node, NULL_TREE);
tree void_ftype_int
= build_function_type_list (void_type_node,
integer_type_node, NULL_TREE);
tree v8qi_ftype_char
= build_function_type_list (V8QI_type_node,
signed_char_type_node, NULL_TREE);
tree v4hi_ftype_short
= build_function_type_list (V4HI_type_node,
short_integer_type_node, NULL_TREE);
tree v2si_ftype_int
= build_function_type_list (V2SI_type_node,
integer_type_node, NULL_TREE);
/* Normal vector binops. */
tree v8qi_ftype_v8qi_v8qi
= build_function_type_list (V8QI_type_node,
V8QI_type_node, V8QI_type_node, NULL_TREE);
tree v4hi_ftype_v4hi_v4hi
= build_function_type_list (V4HI_type_node,
V4HI_type_node,V4HI_type_node, NULL_TREE);
tree v2si_ftype_v2si_v2si
= build_function_type_list (V2SI_type_node,
V2SI_type_node, V2SI_type_node, NULL_TREE);
tree di_ftype_di_di
= build_function_type_list (long_long_unsigned_type_node,
long_long_unsigned_type_node,
long_long_unsigned_type_node,
NULL_TREE);
/* Add all builtins that are more or less simple operations on two
operands. */
for (i = 0, d = bdesc_2arg; i < ARRAY_SIZE (bdesc_2arg); i++, d++)
{
/* Use one of the operands; the target can have a different mode for
mask-generating compares. */
machine_mode mode;
tree type;
if (d->name == 0
|| !(d->feature == isa_bit_iwmmxt
|| d->feature == isa_bit_iwmmxt2))
continue;
mode = insn_data[d->icode].operand[1].mode;
switch (mode)
{
case E_V8QImode:
type = v8qi_ftype_v8qi_v8qi;
break;
case E_V4HImode:
type = v4hi_ftype_v4hi_v4hi;
break;
case E_V2SImode:
type = v2si_ftype_v2si_v2si;
break;
case E_DImode:
type = di_ftype_di_di;
break;
default:
gcc_unreachable ();
}
def_mbuiltin (d->feature, d->name, type, d->code);
}
/* Add the remaining MMX insns with somewhat more complicated types. */
#define iwmmx_mbuiltin(NAME, TYPE, CODE) \
def_mbuiltin (isa_bit_iwmmxt, "__builtin_arm_" NAME, \
(TYPE), ARM_BUILTIN_ ## CODE)
#define iwmmx2_mbuiltin(NAME, TYPE, CODE) \
def_mbuiltin (isa_bit_iwmmxt2, "__builtin_arm_" NAME, \
(TYPE), ARM_BUILTIN_ ## CODE)
iwmmx_mbuiltin ("wzero", di_ftype_void, WZERO);
iwmmx_mbuiltin ("setwcgr0", void_ftype_int, SETWCGR0);
iwmmx_mbuiltin ("setwcgr1", void_ftype_int, SETWCGR1);
iwmmx_mbuiltin ("setwcgr2", void_ftype_int, SETWCGR2);
iwmmx_mbuiltin ("setwcgr3", void_ftype_int, SETWCGR3);
iwmmx_mbuiltin ("getwcgr0", int_ftype_void, GETWCGR0);
iwmmx_mbuiltin ("getwcgr1", int_ftype_void, GETWCGR1);
iwmmx_mbuiltin ("getwcgr2", int_ftype_void, GETWCGR2);
iwmmx_mbuiltin ("getwcgr3", int_ftype_void, GETWCGR3);
iwmmx_mbuiltin ("wsllh", v4hi_ftype_v4hi_di, WSLLH);
iwmmx_mbuiltin ("wsllw", v2si_ftype_v2si_di, WSLLW);
iwmmx_mbuiltin ("wslld", di_ftype_di_di, WSLLD);
iwmmx_mbuiltin ("wsllhi", v4hi_ftype_v4hi_int, WSLLHI);
iwmmx_mbuiltin ("wsllwi", v2si_ftype_v2si_int, WSLLWI);
iwmmx_mbuiltin ("wslldi", di_ftype_di_int, WSLLDI);
iwmmx_mbuiltin ("wsrlh", v4hi_ftype_v4hi_di, WSRLH);
iwmmx_mbuiltin ("wsrlw", v2si_ftype_v2si_di, WSRLW);
iwmmx_mbuiltin ("wsrld", di_ftype_di_di, WSRLD);
iwmmx_mbuiltin ("wsrlhi", v4hi_ftype_v4hi_int, WSRLHI);
iwmmx_mbuiltin ("wsrlwi", v2si_ftype_v2si_int, WSRLWI);
iwmmx_mbuiltin ("wsrldi", di_ftype_di_int, WSRLDI);
iwmmx_mbuiltin ("wsrah", v4hi_ftype_v4hi_di, WSRAH);
iwmmx_mbuiltin ("wsraw", v2si_ftype_v2si_di, WSRAW);
iwmmx_mbuiltin ("wsrad", di_ftype_di_di, WSRAD);
iwmmx_mbuiltin ("wsrahi", v4hi_ftype_v4hi_int, WSRAHI);
iwmmx_mbuiltin ("wsrawi", v2si_ftype_v2si_int, WSRAWI);
iwmmx_mbuiltin ("wsradi", di_ftype_di_int, WSRADI);
iwmmx_mbuiltin ("wrorh", v4hi_ftype_v4hi_di, WRORH);
iwmmx_mbuiltin ("wrorw", v2si_ftype_v2si_di, WRORW);
iwmmx_mbuiltin ("wrord", di_ftype_di_di, WRORD);
iwmmx_mbuiltin ("wrorhi", v4hi_ftype_v4hi_int, WRORHI);
iwmmx_mbuiltin ("wrorwi", v2si_ftype_v2si_int, WRORWI);
iwmmx_mbuiltin ("wrordi", di_ftype_di_int, WRORDI);
iwmmx_mbuiltin ("wshufh", v4hi_ftype_v4hi_int, WSHUFH);
iwmmx_mbuiltin ("wsadb", v2si_ftype_v2si_v8qi_v8qi, WSADB);
iwmmx_mbuiltin ("wsadh", v2si_ftype_v2si_v4hi_v4hi, WSADH);
iwmmx_mbuiltin ("wmadds", v2si_ftype_v4hi_v4hi, WMADDS);
iwmmx2_mbuiltin ("wmaddsx", v2si_ftype_v4hi_v4hi, WMADDSX);
iwmmx2_mbuiltin ("wmaddsn", v2si_ftype_v4hi_v4hi, WMADDSN);
iwmmx_mbuiltin ("wmaddu", v2si_ftype_v4hi_v4hi, WMADDU);
iwmmx2_mbuiltin ("wmaddux", v2si_ftype_v4hi_v4hi, WMADDUX);
iwmmx2_mbuiltin ("wmaddun", v2si_ftype_v4hi_v4hi, WMADDUN);
iwmmx_mbuiltin ("wsadbz", v2si_ftype_v8qi_v8qi, WSADBZ);
iwmmx_mbuiltin ("wsadhz", v2si_ftype_v4hi_v4hi, WSADHZ);
iwmmx_mbuiltin ("textrmsb", int_ftype_v8qi_int, TEXTRMSB);
iwmmx_mbuiltin ("textrmsh", int_ftype_v4hi_int, TEXTRMSH);
iwmmx_mbuiltin ("textrmsw", int_ftype_v2si_int, TEXTRMSW);
iwmmx_mbuiltin ("textrmub", int_ftype_v8qi_int, TEXTRMUB);
iwmmx_mbuiltin ("textrmuh", int_ftype_v4hi_int, TEXTRMUH);
iwmmx_mbuiltin ("textrmuw", int_ftype_v2si_int, TEXTRMUW);
iwmmx_mbuiltin ("tinsrb", v8qi_ftype_v8qi_int_int, TINSRB);
iwmmx_mbuiltin ("tinsrh", v4hi_ftype_v4hi_int_int, TINSRH);
iwmmx_mbuiltin ("tinsrw", v2si_ftype_v2si_int_int, TINSRW);
iwmmx_mbuiltin ("waccb", di_ftype_v8qi, WACCB);
iwmmx_mbuiltin ("wacch", di_ftype_v4hi, WACCH);
iwmmx_mbuiltin ("waccw", di_ftype_v2si, WACCW);
iwmmx_mbuiltin ("tmovmskb", int_ftype_v8qi, TMOVMSKB);
iwmmx_mbuiltin ("tmovmskh", int_ftype_v4hi, TMOVMSKH);
iwmmx_mbuiltin ("tmovmskw", int_ftype_v2si, TMOVMSKW);
iwmmx2_mbuiltin ("waddbhusm", v8qi_ftype_v4hi_v8qi, WADDBHUSM);
iwmmx2_mbuiltin ("waddbhusl", v8qi_ftype_v4hi_v8qi, WADDBHUSL);
iwmmx_mbuiltin ("wpackhss", v8qi_ftype_v4hi_v4hi, WPACKHSS);
iwmmx_mbuiltin ("wpackhus", v8qi_ftype_v4hi_v4hi, WPACKHUS);
iwmmx_mbuiltin ("wpackwus", v4hi_ftype_v2si_v2si, WPACKWUS);
iwmmx_mbuiltin ("wpackwss", v4hi_ftype_v2si_v2si, WPACKWSS);
iwmmx_mbuiltin ("wpackdus", v2si_ftype_di_di, WPACKDUS);
iwmmx_mbuiltin ("wpackdss", v2si_ftype_di_di, WPACKDSS);
iwmmx_mbuiltin ("wunpckehub", v4hi_ftype_v8qi, WUNPCKEHUB);
iwmmx_mbuiltin ("wunpckehuh", v2si_ftype_v4hi, WUNPCKEHUH);
iwmmx_mbuiltin ("wunpckehuw", di_ftype_v2si, WUNPCKEHUW);
iwmmx_mbuiltin ("wunpckehsb", v4hi_ftype_v8qi, WUNPCKEHSB);
iwmmx_mbuiltin ("wunpckehsh", v2si_ftype_v4hi, WUNPCKEHSH);
iwmmx_mbuiltin ("wunpckehsw", di_ftype_v2si, WUNPCKEHSW);
iwmmx_mbuiltin ("wunpckelub", v4hi_ftype_v8qi, WUNPCKELUB);
iwmmx_mbuiltin ("wunpckeluh", v2si_ftype_v4hi, WUNPCKELUH);
iwmmx_mbuiltin ("wunpckeluw", di_ftype_v2si, WUNPCKELUW);
iwmmx_mbuiltin ("wunpckelsb", v4hi_ftype_v8qi, WUNPCKELSB);
iwmmx_mbuiltin ("wunpckelsh", v2si_ftype_v4hi, WUNPCKELSH);
iwmmx_mbuiltin ("wunpckelsw", di_ftype_v2si, WUNPCKELSW);
iwmmx_mbuiltin ("wmacs", di_ftype_di_v4hi_v4hi, WMACS);
iwmmx_mbuiltin ("wmacsz", di_ftype_v4hi_v4hi, WMACSZ);
iwmmx_mbuiltin ("wmacu", di_ftype_di_v4hi_v4hi, WMACU);
iwmmx_mbuiltin ("wmacuz", di_ftype_v4hi_v4hi, WMACUZ);
iwmmx_mbuiltin ("walign", v8qi_ftype_v8qi_v8qi_int, WALIGNI);
iwmmx_mbuiltin ("tmia", di_ftype_di_int_int, TMIA);
iwmmx_mbuiltin ("tmiaph", di_ftype_di_int_int, TMIAPH);
iwmmx_mbuiltin ("tmiabb", di_ftype_di_int_int, TMIABB);
iwmmx_mbuiltin ("tmiabt", di_ftype_di_int_int, TMIABT);
iwmmx_mbuiltin ("tmiatb", di_ftype_di_int_int, TMIATB);
iwmmx_mbuiltin ("tmiatt", di_ftype_di_int_int, TMIATT);
iwmmx2_mbuiltin ("wabsb", v8qi_ftype_v8qi, WABSB);
iwmmx2_mbuiltin ("wabsh", v4hi_ftype_v4hi, WABSH);
iwmmx2_mbuiltin ("wabsw", v2si_ftype_v2si, WABSW);
iwmmx2_mbuiltin ("wqmiabb", v2si_ftype_v2si_v4hi_v4hi, WQMIABB);
iwmmx2_mbuiltin ("wqmiabt", v2si_ftype_v2si_v4hi_v4hi, WQMIABT);
iwmmx2_mbuiltin ("wqmiatb", v2si_ftype_v2si_v4hi_v4hi, WQMIATB);
iwmmx2_mbuiltin ("wqmiatt", v2si_ftype_v2si_v4hi_v4hi, WQMIATT);
iwmmx2_mbuiltin ("wqmiabbn", v2si_ftype_v2si_v4hi_v4hi, WQMIABBN);
iwmmx2_mbuiltin ("wqmiabtn", v2si_ftype_v2si_v4hi_v4hi, WQMIABTN);
iwmmx2_mbuiltin ("wqmiatbn", v2si_ftype_v2si_v4hi_v4hi, WQMIATBN);
iwmmx2_mbuiltin ("wqmiattn", v2si_ftype_v2si_v4hi_v4hi, WQMIATTN);
iwmmx2_mbuiltin ("wmiabb", di_ftype_di_v4hi_v4hi, WMIABB);
iwmmx2_mbuiltin ("wmiabt", di_ftype_di_v4hi_v4hi, WMIABT);
iwmmx2_mbuiltin ("wmiatb", di_ftype_di_v4hi_v4hi, WMIATB);
iwmmx2_mbuiltin ("wmiatt", di_ftype_di_v4hi_v4hi, WMIATT);
iwmmx2_mbuiltin ("wmiabbn", di_ftype_di_v4hi_v4hi, WMIABBN);
iwmmx2_mbuiltin ("wmiabtn", di_ftype_di_v4hi_v4hi, WMIABTN);
iwmmx2_mbuiltin ("wmiatbn", di_ftype_di_v4hi_v4hi, WMIATBN);
iwmmx2_mbuiltin ("wmiattn", di_ftype_di_v4hi_v4hi, WMIATTN);
iwmmx2_mbuiltin ("wmiawbb", di_ftype_di_v2si_v2si, WMIAWBB);
iwmmx2_mbuiltin ("wmiawbt", di_ftype_di_v2si_v2si, WMIAWBT);
iwmmx2_mbuiltin ("wmiawtb", di_ftype_di_v2si_v2si, WMIAWTB);
iwmmx2_mbuiltin ("wmiawtt", di_ftype_di_v2si_v2si, WMIAWTT);
iwmmx2_mbuiltin ("wmiawbbn", di_ftype_di_v2si_v2si, WMIAWBBN);
iwmmx2_mbuiltin ("wmiawbtn", di_ftype_di_v2si_v2si, WMIAWBTN);
iwmmx2_mbuiltin ("wmiawtbn", di_ftype_di_v2si_v2si, WMIAWTBN);
iwmmx2_mbuiltin ("wmiawttn", di_ftype_di_v2si_v2si, WMIAWTTN);
iwmmx2_mbuiltin ("wmerge", di_ftype_di_di_int, WMERGE);
iwmmx_mbuiltin ("tbcstb", v8qi_ftype_char, TBCSTB);
iwmmx_mbuiltin ("tbcsth", v4hi_ftype_short, TBCSTH);
iwmmx_mbuiltin ("tbcstw", v2si_ftype_int, TBCSTW);
#undef iwmmx_mbuiltin
#undef iwmmx2_mbuiltin
}
static void
arm_init_fp16_builtins (void)
{
arm_fp16_type_node = make_node (REAL_TYPE);
TYPE_PRECISION (arm_fp16_type_node) = GET_MODE_PRECISION (HFmode);
layout_type (arm_fp16_type_node);
if (arm_fp16_format)
(*lang_hooks.types.register_builtin_type) (arm_fp16_type_node,
"__fp16");
}
void
arm_init_builtins (void)
{
if (TARGET_REALLY_IWMMXT)
arm_init_iwmmxt_builtins ();
/* This creates the arm_simd_floatHF_type_node so must come before
arm_init_neon_builtins which uses it. */
arm_init_fp16_builtins ();
arm_init_bf16_types ();
if (TARGET_MAYBE_HARD_FLOAT)
{
tree lane_check_fpr = build_function_type_list (void_type_node,
intSI_type_node,
intSI_type_node,
NULL);
arm_builtin_decls[ARM_BUILTIN_SIMD_LANE_CHECK]
= add_builtin_function ("__builtin_arm_lane_check", lane_check_fpr,
ARM_BUILTIN_SIMD_LANE_CHECK, BUILT_IN_MD,
NULL, NULL_TREE);
if (TARGET_HAVE_MVE)
arm_init_mve_builtins ();
else
arm_init_neon_builtins ();
arm_init_vfp_builtins ();
arm_init_crypto_builtins ();
}
if (TARGET_CDE)
arm_init_cde_builtins ();
arm_init_acle_builtins ();
if (TARGET_MAYBE_HARD_FLOAT)
{
tree ftype_set_fpscr
= build_function_type_list (void_type_node, unsigned_type_node, NULL);
tree ftype_get_fpscr
= build_function_type_list (unsigned_type_node, NULL);
arm_builtin_decls[ARM_BUILTIN_GET_FPSCR]
= add_builtin_function ("__builtin_arm_get_fpscr", ftype_get_fpscr,
ARM_BUILTIN_GET_FPSCR, BUILT_IN_MD, NULL, NULL_TREE);
arm_builtin_decls[ARM_BUILTIN_SET_FPSCR]
= add_builtin_function ("__builtin_arm_set_fpscr", ftype_set_fpscr,
ARM_BUILTIN_SET_FPSCR, BUILT_IN_MD, NULL, NULL_TREE);
}
if (use_cmse)
{
tree ftype_cmse_nonsecure_caller
= build_function_type_list (unsigned_type_node, NULL);
arm_builtin_decls[ARM_BUILTIN_CMSE_NONSECURE_CALLER]
= add_builtin_function ("__builtin_arm_cmse_nonsecure_caller",
ftype_cmse_nonsecure_caller,
ARM_BUILTIN_CMSE_NONSECURE_CALLER, BUILT_IN_MD,
NULL, NULL_TREE);
}
}
/* Return the ARM builtin for CODE. */
tree
arm_builtin_decl (unsigned code, bool initialize_p ATTRIBUTE_UNUSED)
{
if (code >= ARM_BUILTIN_MAX)
return error_mark_node;
return arm_builtin_decls[code];
}
/* Errors in the source file can cause expand_expr to return const0_rtx
where we expect a vector. To avoid crashing, use one of the vector
clear instructions. */
static rtx
safe_vector_operand (rtx x, machine_mode mode)
{
if (x != const0_rtx)
return x;
x = gen_reg_rtx (mode);
emit_insn (gen_iwmmxt_clrdi (mode == DImode ? x
: gen_rtx_SUBREG (DImode, x, 0)));
return x;
}
/* Function to expand ternary builtins. */
static rtx
arm_expand_ternop_builtin (enum insn_code icode,
tree exp, rtx target)
{
rtx pat;
tree arg0 = CALL_EXPR_ARG (exp, 0);
tree arg1 = CALL_EXPR_ARG (exp, 1);
tree arg2 = CALL_EXPR_ARG (exp, 2);
rtx op0 = expand_normal (arg0);
rtx op1 = expand_normal (arg1);
rtx op2 = expand_normal (arg2);
machine_mode tmode = insn_data[icode].operand[0].mode;
machine_mode mode0 = insn_data[icode].operand[1].mode;
machine_mode mode1 = insn_data[icode].operand[2].mode;
machine_mode mode2 = insn_data[icode].operand[3].mode;
if (VECTOR_MODE_P (mode0))
op0 = safe_vector_operand (op0, mode0);
if (VECTOR_MODE_P (mode1))
op1 = safe_vector_operand (op1, mode1);
if (VECTOR_MODE_P (mode2))
op2 = safe_vector_operand (op2, mode2);
if (! target
|| GET_MODE (target) != tmode
|| ! (*insn_data[icode].operand[0].predicate) (target, tmode))
target = gen_reg_rtx (tmode);
gcc_assert ((GET_MODE (op0) == mode0 || GET_MODE (op0) == VOIDmode)
&& (GET_MODE (op1) == mode1 || GET_MODE (op1) == VOIDmode)
&& (GET_MODE (op2) == mode2 || GET_MODE (op2) == VOIDmode));
if (! (*insn_data[icode].operand[1].predicate) (op0, mode0))
op0 = copy_to_mode_reg (mode0, op0);
if (! (*insn_data[icode].operand[2].predicate) (op1, mode1))
op1 = copy_to_mode_reg (mode1, op1);
if (! (*insn_data[icode].operand[3].predicate) (op2, mode2))
op2 = copy_to_mode_reg (mode2, op2);
pat = GEN_FCN (icode) (target, op0, op1, op2);
if (! pat)
return 0;
emit_insn (pat);
return target;
}
/* Subroutine of arm_expand_builtin to take care of binop insns. */
static rtx
arm_expand_binop_builtin (enum insn_code icode,
tree exp, rtx target)
{
rtx pat;
tree arg0 = CALL_EXPR_ARG (exp, 0);
tree arg1 = CALL_EXPR_ARG (exp, 1);
rtx op0 = expand_normal (arg0);
rtx op1 = expand_normal (arg1);
machine_mode tmode = insn_data[icode].operand[0].mode;
machine_mode mode0 = insn_data[icode].operand[1].mode;
machine_mode mode1 = insn_data[icode].operand[2].mode;
if (VECTOR_MODE_P (mode0))
op0 = safe_vector_operand (op0, mode0);
if (VECTOR_MODE_P (mode1))
op1 = safe_vector_operand (op1, mode1);
if (! target
|| GET_MODE (target) != tmode
|| ! (*insn_data[icode].operand[0].predicate) (target, tmode))
target = gen_reg_rtx (tmode);
gcc_assert ((GET_MODE (op0) == mode0 || GET_MODE (op0) == VOIDmode)
&& (GET_MODE (op1) == mode1 || GET_MODE (op1) == VOIDmode));
if (! (*insn_data[icode].operand[1].predicate) (op0, mode0))
op0 = copy_to_mode_reg (mode0, op0);
if (! (*insn_data[icode].operand[2].predicate) (op1, mode1))
op1 = copy_to_mode_reg (mode1, op1);
pat = GEN_FCN (icode) (target, op0, op1);
if (! pat)
return 0;
emit_insn (pat);
return target;
}
/* Subroutine of arm_expand_builtin to take care of unop insns. */
static rtx
arm_expand_unop_builtin (enum insn_code icode,
tree exp, rtx target, int do_load)
{
rtx pat;
tree arg0 = CALL_EXPR_ARG (exp, 0);
rtx op0 = expand_normal (arg0);
machine_mode tmode = insn_data[icode].operand[0].mode;
machine_mode mode0 = insn_data[icode].operand[1].mode;
if (! target
|| GET_MODE (target) != tmode
|| ! (*insn_data[icode].operand[0].predicate) (target, tmode))
target = gen_reg_rtx (tmode);
if (do_load)
op0 = gen_rtx_MEM (mode0, copy_to_mode_reg (Pmode, op0));
else
{
if (VECTOR_MODE_P (mode0))
op0 = safe_vector_operand (op0, mode0);
if (! (*insn_data[icode].operand[1].predicate) (op0, mode0))
op0 = copy_to_mode_reg (mode0, op0);
}
pat = GEN_FCN (icode) (target, op0);
if (! pat)
return 0;
emit_insn (pat);
return target;
}
typedef enum {
ARG_BUILTIN_COPY_TO_REG,
ARG_BUILTIN_CONSTANT,
ARG_BUILTIN_LANE_INDEX,
ARG_BUILTIN_STRUCT_LOAD_STORE_LANE_INDEX,
ARG_BUILTIN_LANE_PAIR_INDEX,
ARG_BUILTIN_LANE_QUADTUP_INDEX,
ARG_BUILTIN_NEON_MEMORY,
ARG_BUILTIN_MEMORY,
ARG_BUILTIN_STOP
} builtin_arg;
/* EXP is a pointer argument to a Neon load or store intrinsic. Derive
and return an expression for the accessed memory.
The intrinsic function operates on a block of registers that has
mode REG_MODE. This block contains vectors of type TYPE_MODE. The
function references the memory at EXP of type TYPE and in mode
MEM_MODE; this mode may be BLKmode if no more suitable mode is
available. */
static tree
neon_dereference_pointer (tree exp, tree type, machine_mode mem_mode,
machine_mode reg_mode,
machine_mode vector_mode)
{
HOST_WIDE_INT reg_size, vector_size, nvectors, nelems;
tree elem_type, upper_bound, array_type;
/* Work out the size of the register block in bytes. */
reg_size = GET_MODE_SIZE (reg_mode);
/* Work out the size of each vector in bytes. */
vector_size = GET_MODE_SIZE (vector_mode);
/* Work out how many vectors there are. */
gcc_assert (reg_size % vector_size == 0);
nvectors = reg_size / vector_size;
/* Work out the type of each element. */
gcc_assert (POINTER_TYPE_P (type));
elem_type = TREE_TYPE (type);
/* Work out how many elements are being loaded or stored.
MEM_MODE == REG_MODE implies a one-to-one mapping between register
and memory elements; anything else implies a lane load or store. */
if (mem_mode == reg_mode)
nelems = vector_size * nvectors / int_size_in_bytes (elem_type);
else
nelems = nvectors;
/* Create a type that describes the full access. */
upper_bound = build_int_cst (size_type_node, nelems - 1);
array_type = build_array_type (elem_type, build_index_type (upper_bound));
/* Dereference EXP using that type. */
return fold_build2 (MEM_REF, array_type, exp,
build_int_cst (build_pointer_type (array_type), 0));
}
/* EXP is a pointer argument to a vector scatter store intrinsics.
Consider the following example:
VSTRW<v>.<dt> Qd, [Qm{, #+/-<imm>}]!
When <Qm> used as the base register for the target address,
this function is used to derive and return an expression for the
accessed memory.
The intrinsic function operates on a block of registers that has mode
REG_MODE. This block contains vectors of type TYPE_MODE. The function
references the memory at EXP of type TYPE and in mode MEM_MODE. This
mode may be BLKmode if no more suitable mode is available. */
static tree
mve_dereference_pointer (tree exp, tree type, machine_mode reg_mode,
machine_mode vector_mode)
{
HOST_WIDE_INT reg_size, vector_size, nelems;
tree elem_type, upper_bound, array_type;
/* Work out the size of each vector in bytes. */
vector_size = GET_MODE_SIZE (vector_mode);
/* Work out the size of the register block in bytes. */
reg_size = GET_MODE_SIZE (reg_mode);
/* Work out the type of each element. */
gcc_assert (POINTER_TYPE_P (type));
elem_type = TREE_TYPE (type);
nelems = reg_size / vector_size;
/* Create a type that describes the full access. */
upper_bound = build_int_cst (size_type_node, nelems - 1);
array_type = build_array_type (elem_type, build_index_type (upper_bound));
/* Dereference EXP using that type. */
return fold_build2 (MEM_REF, array_type, exp,
build_int_cst (build_pointer_type (array_type), 0));
}
/* Expand a builtin. */
static rtx
arm_expand_builtin_args (rtx target, machine_mode map_mode, int fcode,
int icode, int have_retval, tree exp,
builtin_arg *args)
{
rtx pat;
tree arg[SIMD_MAX_BUILTIN_ARGS];
rtx op[SIMD_MAX_BUILTIN_ARGS];
machine_mode tmode = insn_data[icode].operand[0].mode;
machine_mode mode[SIMD_MAX_BUILTIN_ARGS];
tree formals;
int argc = 0;
rtx_insn * insn;
if (have_retval
&& (!target
|| GET_MODE (target) != tmode
|| !(*insn_data[icode].operand[0].predicate) (target, tmode)))
target = gen_reg_rtx (tmode);
formals = TYPE_ARG_TYPES (TREE_TYPE (arm_builtin_decls[fcode]));
for (;;)
{
builtin_arg thisarg = args[argc];
if (thisarg == ARG_BUILTIN_STOP)
break;
else
{
int opno = argc + have_retval;
arg[argc] = CALL_EXPR_ARG (exp, argc);
mode[argc] = insn_data[icode].operand[opno].mode;
if (thisarg == ARG_BUILTIN_NEON_MEMORY)
{
machine_mode other_mode
= insn_data[icode].operand[1 - opno].mode;
if (TARGET_HAVE_MVE && mode[argc] != other_mode)
{
arg[argc] = mve_dereference_pointer (arg[argc],
TREE_VALUE (formals),
other_mode, map_mode);
}
else
arg[argc] = neon_dereference_pointer (arg[argc],
TREE_VALUE (formals),
mode[argc], other_mode,
map_mode);
}
/* Use EXPAND_MEMORY for ARG_BUILTIN_MEMORY and
ARG_BUILTIN_NEON_MEMORY to ensure a MEM_P be returned. */
op[argc] = expand_expr (arg[argc], NULL_RTX, VOIDmode,
((thisarg == ARG_BUILTIN_MEMORY
|| thisarg == ARG_BUILTIN_NEON_MEMORY)
? EXPAND_MEMORY : EXPAND_NORMAL));
switch (thisarg)
{
case ARG_BUILTIN_MEMORY:
case ARG_BUILTIN_COPY_TO_REG:
if (POINTER_TYPE_P (TREE_TYPE (arg[argc])))
op[argc] = convert_memory_address (Pmode, op[argc]);
/*gcc_assert (GET_MODE (op[argc]) == mode[argc]); */
if (!(*insn_data[icode].operand[opno].predicate)
(op[argc], mode[argc]))
op[argc] = copy_to_mode_reg (mode[argc], op[argc]);
break;
case ARG_BUILTIN_STRUCT_LOAD_STORE_LANE_INDEX:
gcc_assert (argc > 1);
if (CONST_INT_P (op[argc]))
{
neon_lane_bounds (op[argc], 0,
GET_MODE_NUNITS (map_mode), exp);
/* Keep to GCC-vector-extension lane indices in the RTL. */
op[argc] =
GEN_INT (NEON_ENDIAN_LANE_N (map_mode, INTVAL (op[argc])));
}
goto constant_arg;
case ARG_BUILTIN_LANE_INDEX:
/* Previous argument must be a vector, which this indexes. */
gcc_assert (argc > 0);
if (CONST_INT_P (op[argc]))
{
machine_mode vmode = mode[argc - 1];
neon_lane_bounds (op[argc], 0, GET_MODE_NUNITS (vmode), exp);
}
/* If the lane index isn't a constant then error out. */
goto constant_arg;
case ARG_BUILTIN_LANE_PAIR_INDEX:
/* Previous argument must be a vector, which this indexes. The
indexing will always select i and i+1 out of the vector, which
puts a limit on i. */
gcc_assert (argc > 0);
if (CONST_INT_P (op[argc]))
{
machine_mode vmode = mode[argc - 1];
neon_lane_bounds (op[argc], 0,
GET_MODE_NUNITS (vmode) / 2, exp);
}
/* If the lane index isn't a constant then error out. */
goto constant_arg;
case ARG_BUILTIN_LANE_QUADTUP_INDEX:
/* Previous argument must be a vector, which this indexes. */
gcc_assert (argc > 0);
if (CONST_INT_P (op[argc]))
{
machine_mode vmode = mode[argc - 1];
neon_lane_bounds (op[argc], 0,
GET_MODE_NUNITS (vmode) / 4, exp);
}
/* If the lane index isn't a constant then error out. */
goto constant_arg;
case ARG_BUILTIN_CONSTANT:
constant_arg:
if (!(*insn_data[icode].operand[opno].predicate)
(op[argc], mode[argc]))
{
if (IN_RANGE (fcode, ARM_BUILTIN_CDE_PATTERN_START,
ARM_BUILTIN_CDE_PATTERN_END))
{
if (argc == 0)
{
unsigned int cp_bit = (CONST_INT_P (op[argc])
? UINTVAL (op[argc]) : -1);
if (IN_RANGE (cp_bit, 0, ARM_CDE_CONST_COPROC))
error ("%Kcoprocessor %d is not enabled "
"with +cdecp%d", exp, cp_bit, cp_bit);
else
error ("%Kcoproc must be a constant immediate in "
"range [0-%d] enabled with +cdecp<N>", exp,
ARM_CDE_CONST_COPROC);
}
else
/* Here we mention the builtin name to follow the same
format that the C/C++ frontends use for referencing
a given argument index. */
error ("%Kargument %d to %qE must be a constant immediate "
"in range [0-%d]", exp, argc + 1,
arm_builtin_decls[fcode],
cde_builtin_data[fcode -
ARM_BUILTIN_CDE_PATTERN_START].imm_max);
}
else
error ("%Kargument %d must be a constant immediate",
exp, argc + 1);
/* We have failed to expand the pattern, and are safely
in to invalid code. But the mid-end will still try to
build an assignment for this node while it expands,
before stopping for the error, just pass it back
TARGET to ensure a valid assignment. */
return target;
}
break;
case ARG_BUILTIN_NEON_MEMORY:
/* Check if expand failed. */
if (op[argc] == const0_rtx)
return 0;
gcc_assert (MEM_P (op[argc]));
PUT_MODE (op[argc], mode[argc]);
/* ??? arm_neon.h uses the same built-in functions for signed
and unsigned accesses, casting where necessary. This isn't
alias safe. */
set_mem_alias_set (op[argc], 0);
if (!(*insn_data[icode].operand[opno].predicate)
(op[argc], mode[argc]))
op[argc] = (replace_equiv_address
(op[argc],
copy_to_mode_reg (Pmode, XEXP (op[argc], 0))));
break;
case ARG_BUILTIN_STOP:
gcc_unreachable ();
}
argc++;
}
}
if (have_retval)
switch (argc)
{
case 0:
pat = GEN_FCN (icode) (target);