/* ACLE support for AArch64 SVE (__ARM_FEATURE_SVE2 intrinsics)
Copyright (C) 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
. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "tree.h"
#include "rtl.h"
#include "tm_p.h"
#include "memmodel.h"
#include "insn-codes.h"
#include "optabs.h"
#include "recog.h"
#include "expr.h"
#include "basic-block.h"
#include "function.h"
#include "fold-const.h"
#include "gimple.h"
#include "gimple-iterator.h"
#include "gimplify.h"
#include "explow.h"
#include "emit-rtl.h"
#include "tree-vector-builder.h"
#include "rtx-vector-builder.h"
#include "vec-perm-indices.h"
#include "aarch64-sve-builtins.h"
#include "aarch64-sve-builtins-shapes.h"
#include "aarch64-sve-builtins-base.h"
#include "aarch64-sve-builtins-sve2.h"
#include "aarch64-sve-builtins-functions.h"
using namespace aarch64_sve;
namespace {
/* Return the UNSPEC_CDOT* unspec for rotation amount ROT. */
static int
unspec_cdot (int rot)
{
switch (rot)
{
case 0: return UNSPEC_CDOT;
case 90: return UNSPEC_CDOT90;
case 180: return UNSPEC_CDOT180;
case 270: return UNSPEC_CDOT270;
default: gcc_unreachable ();
}
}
/* Return the UNSPEC_SQRDCMLAH* unspec for rotation amount ROT. */
static int
unspec_sqrdcmlah (int rot)
{
switch (rot)
{
case 0: return UNSPEC_SQRDCMLAH;
case 90: return UNSPEC_SQRDCMLAH90;
case 180: return UNSPEC_SQRDCMLAH180;
case 270: return UNSPEC_SQRDCMLAH270;
default: gcc_unreachable ();
}
}
class svaba_impl : public function_base
{
public:
rtx
expand (function_expander &e) const OVERRIDE
{
rtx_code max_code = e.type_suffix (0).unsigned_p ? UMAX : SMAX;
machine_mode mode = e.vector_mode (0);
return e.use_exact_insn (code_for_aarch64_sve2_aba (max_code, mode));
}
};
class svcdot_impl : public function_base
{
public:
rtx
expand (function_expander &e) const OVERRIDE
{
/* Convert the rotation amount into a specific unspec. */
int rot = INTVAL (e.args.pop ());
return e.use_exact_insn (code_for_aarch64_sve (unspec_cdot (rot),
e.vector_mode (0)));
}
};
class svcdot_lane_impl : public function_base
{
public:
rtx
expand (function_expander &e) const OVERRIDE
{
/* Convert the rotation amount into a specific unspec. */
int rot = INTVAL (e.args.pop ());
return e.use_exact_insn (code_for_aarch64_lane (unspec_cdot (rot),
e.vector_mode (0)));
}
};
class svldnt1_gather_impl : public full_width_access
{
public:
unsigned int
call_properties (const function_instance &) const OVERRIDE
{
return CP_READ_MEMORY;
}
rtx
expand (function_expander &e) const OVERRIDE
{
e.prepare_gather_address_operands (1, false);
machine_mode mem_mode = e.memory_vector_mode ();
return e.use_exact_insn (code_for_aarch64_gather_ldnt (mem_mode));
}
};
/* Implements extending forms of svldnt1_gather. */
class svldnt1_gather_extend_impl : public extending_load
{
public:
CONSTEXPR svldnt1_gather_extend_impl (type_suffix_index memory_type)
: extending_load (memory_type) {}
rtx
expand (function_expander &e) const OVERRIDE
{
e.prepare_gather_address_operands (1, false);
/* Add a constant predicate for the extension rtx. */
e.args.quick_push (CONSTM1_RTX (VNx16BImode));
insn_code icode = code_for_aarch64_gather_ldnt (extend_rtx_code (),
e.vector_mode (0),
e.memory_vector_mode ());
return e.use_exact_insn (icode);
}
};
/* Implements both svmatch and svnmatch; the unspec parameter decides
between them. */
class svmatch_svnmatch_impl : public function_base
{
public:
CONSTEXPR svmatch_svnmatch_impl (int unspec) : m_unspec (unspec) {}
rtx
expand (function_expander &e) const OVERRIDE
{
/* These are UNSPEC_PRED_Z operations and so need a hint operand. */
e.add_ptrue_hint (0, e.gp_mode (0));
return e.use_exact_insn (code_for_aarch64_pred (m_unspec,
e.vector_mode (0)));
}
int m_unspec;
};
/* Implements both svmovlb and svmovlt; the unspec parameters decide
between them. */
class svmovl_lb_impl : public unspec_based_function_base
{
public:
CONSTEXPR svmovl_lb_impl (int unspec_for_sint, int unspec_for_uint,
int unspec_for_fp)
: unspec_based_function_base (unspec_for_sint, unspec_for_uint,
unspec_for_fp)
{}
rtx
expand (function_expander &e) const OVERRIDE
{
e.args.quick_push (const0_rtx);
return e.map_to_unspecs (m_unspec_for_sint, m_unspec_for_uint,
m_unspec_for_fp);
}
};
class svqcadd_impl : public function_base
{
public:
rtx
expand (function_expander &e) const OVERRIDE
{
/* Convert the rotation amount into a specific unspec. */
int rot = INTVAL (e.args.pop ());
if (rot == 90)
return e.map_to_unspecs (UNSPEC_SQCADD90, -1, -1);
if (rot == 270)
return e.map_to_unspecs (UNSPEC_SQCADD270, -1, -1);
gcc_unreachable ();
}
};
class svqrdcmlah_impl : public function_base
{
public:
rtx
expand (function_expander &e) const OVERRIDE
{
/* Convert the rotation amount into a specific unspec. */
int rot = INTVAL (e.args.pop ());
return e.use_exact_insn (code_for_aarch64_sve (unspec_sqrdcmlah (rot),
e.vector_mode (0)));
}
};
class svqrdcmlah_lane_impl : public function_base
{
public:
rtx
expand (function_expander &e) const OVERRIDE
{
/* Convert the rotation amount into a specific unspec. */
int rot = INTVAL (e.args.pop ());
return e.use_exact_insn (code_for_aarch64_lane (unspec_sqrdcmlah (rot),
e.vector_mode (0)));
}
};
class svqrshl_impl : public unspec_based_function
{
public:
CONSTEXPR svqrshl_impl ()
: unspec_based_function (UNSPEC_SQRSHL, UNSPEC_UQRSHL, -1) {}
gimple *
fold (gimple_folder &f) const OVERRIDE
{
if (tree amount = uniform_integer_cst_p (gimple_call_arg (f.call, 2)))
{
if (wi::to_widest (amount) >= 0)
{
/* The rounding has no effect, and [SU]QSHL has immediate forms
that we can use for sensible shift amounts. */
function_instance instance ("svqshl", functions::svqshl,
shapes::binary_int_opt_n, MODE_n,
f.type_suffix_ids, f.pred);
return f.redirect_call (instance);
}
else
{
/* The saturation has no effect, and [SU]RSHL has immediate forms
that we can use for sensible shift amounts. */
function_instance instance ("svrshl", functions::svrshl,
shapes::binary_int_opt_n, MODE_n,
f.type_suffix_ids, f.pred);
return f.redirect_call (instance);
}
}
return NULL;
}
};
class svqshl_impl : public unspec_based_function
{
public:
CONSTEXPR svqshl_impl ()
: unspec_based_function (UNSPEC_SQSHL, UNSPEC_UQSHL, -1) {}
gimple *
fold (gimple_folder &f) const OVERRIDE
{
if (tree amount = uniform_integer_cst_p (gimple_call_arg (f.call, 2)))
{
int element_bits = f.type_suffix (0).element_bits;
if (wi::to_widest (amount) >= -element_bits
&& wi::to_widest (amount) < 0)
{
/* The saturation has no effect for right shifts, so we can
use the immediate form of ASR or LSR. */
amount = wide_int_to_tree (TREE_TYPE (amount),
-wi::to_wide (amount));
function_instance instance ("svasr", functions::svasr,
shapes::binary_uint_opt_n, MODE_n,
f.type_suffix_ids, f.pred);
if (f.type_suffix (0).unsigned_p)
{
instance.base_name = "svlsr";
instance.base = functions::svlsr;
}
gcall *call = as_a (f.redirect_call (instance));
gimple_call_set_arg (call, 2, amount);
return call;
}
}
return NULL;
}
};
class svrshl_impl : public unspec_based_function
{
public:
CONSTEXPR svrshl_impl ()
: unspec_based_function (UNSPEC_SRSHL, UNSPEC_URSHL, -1) {}
gimple *
fold (gimple_folder &f) const OVERRIDE
{
if (tree amount = uniform_integer_cst_p (gimple_call_arg (f.call, 2)))
{
if (wi::to_widest (amount) >= 0)
{
/* The rounding has no effect, and LSL has immediate forms
that we can use for sensible shift amounts. */
function_instance instance ("svlsl", functions::svlsl,
shapes::binary_uint_opt_n, MODE_n,
f.type_suffix_ids, f.pred);
gcall *call = as_a (f.redirect_call (instance));
gimple_call_set_arg (call, 2, amount);
return call;
}
int element_bits = f.type_suffix (0).element_bits;
if (wi::to_widest (amount) >= -element_bits)
{
/* The shift amount is in range of [SU]RSHR. */
amount = wide_int_to_tree (TREE_TYPE (amount),
-wi::to_wide (amount));
function_instance instance ("svrshr", functions::svrshr,
shapes::shift_right_imm, MODE_n,
f.type_suffix_ids, f.pred);
gcall *call = as_a (f.redirect_call (instance));
gimple_call_set_arg (call, 2, amount);
return call;
}
}
return NULL;
}
};
class svsqadd_impl : public function_base
{
public:
rtx
expand (function_expander &e) const OVERRIDE
{
machine_mode mode = e.vector_mode (0);
if (e.pred == PRED_x
&& aarch64_sve_sqadd_sqsub_immediate_p (mode, e.args[2], false))
return e.map_to_rtx_codes (UNKNOWN, US_PLUS, -1);
return e.map_to_unspecs (-1, UNSPEC_USQADD, -1);
}
};
class svsra_impl : public function_base
{
public:
rtx
expand (function_expander &e) const OVERRIDE
{
rtx_code shift_code = e.type_suffix (0).unsigned_p ? LSHIFTRT : ASHIFTRT;
machine_mode mode = e.vector_mode (0);
return e.use_exact_insn (code_for_aarch64_sve_add (shift_code, mode));
}
};
class svstnt1_scatter_impl : public full_width_access
{
public:
unsigned int
call_properties (const function_instance &) const OVERRIDE
{
return CP_WRITE_MEMORY;
}
rtx
expand (function_expander &e) const OVERRIDE
{
e.prepare_gather_address_operands (1, false);
machine_mode mem_mode = e.memory_vector_mode ();
return e.use_exact_insn (code_for_aarch64_scatter_stnt (mem_mode));
}
};
/* Implements truncating forms of svstnt1_scatter. */
class svstnt1_scatter_truncate_impl : public truncating_store
{
public:
CONSTEXPR svstnt1_scatter_truncate_impl (scalar_int_mode to_mode)
: truncating_store (to_mode) {}
rtx
expand (function_expander &e) const OVERRIDE
{
e.prepare_gather_address_operands (1, false);
insn_code icode = code_for_aarch64_scatter_stnt (e.vector_mode (0),
e.memory_vector_mode ());
return e.use_exact_insn (icode);
}
};
class svtbl2_impl : public quiet
{
public:
CONSTEXPR svtbl2_impl () : quiet (2) {}
rtx
expand (function_expander &e) const OVERRIDE
{
return e.use_exact_insn (code_for_aarch64_sve2_tbl2 (e.vector_mode (0)));
}
};
class svuqadd_impl : public function_base
{
public:
rtx
expand (function_expander &e) const OVERRIDE
{
machine_mode mode = e.vector_mode (0);
if (e.pred == PRED_x
&& aarch64_sve_arith_immediate_p (mode, e.args[2], false))
return e.use_unpred_insn (code_for_aarch64_sve_suqadd_const (mode));
return e.map_to_unspecs (UNSPEC_SUQADD, -1, -1);
}
};
/* Implements both svwhilerw and svwhilewr; the unspec parameter decides
between them. */
class svwhilerw_svwhilewr_impl : public full_width_access
{
public:
CONSTEXPR svwhilerw_svwhilewr_impl (int unspec) : m_unspec (unspec) {}
rtx
expand (function_expander &e) const OVERRIDE
{
for (unsigned int i = 0; i < 2; ++i)
e.args[i] = e.convert_to_pmode (e.args[i]);
return e.use_exact_insn (code_for_while (m_unspec, Pmode, e.gp_mode (0)));
}
int m_unspec;
};
} /* end anonymous namespace */
namespace aarch64_sve {
FUNCTION (svaba, svaba_impl,)
FUNCTION (svabalb, unspec_based_add_function, (UNSPEC_SABDLB,
UNSPEC_UABDLB, -1))
FUNCTION (svabalt, unspec_based_add_function, (UNSPEC_SABDLT,
UNSPEC_UABDLT, -1))
FUNCTION (svadclb, unspec_based_function, (-1, UNSPEC_ADCLB, -1))
FUNCTION (svadclt, unspec_based_function, (-1, UNSPEC_ADCLT, -1))
FUNCTION (svaddhnb, unspec_based_function, (UNSPEC_ADDHNB, UNSPEC_ADDHNB, -1))
FUNCTION (svaddhnt, unspec_based_function, (UNSPEC_ADDHNT, UNSPEC_ADDHNT, -1))
FUNCTION (svabdlb, unspec_based_function, (UNSPEC_SABDLB, UNSPEC_UABDLB, -1))
FUNCTION (svabdlt, unspec_based_function, (UNSPEC_SABDLT, UNSPEC_UABDLT, -1))
FUNCTION (svadalp, unspec_based_function, (UNSPEC_SADALP, UNSPEC_UADALP, -1))
FUNCTION (svaddlb, unspec_based_function, (UNSPEC_SADDLB, UNSPEC_UADDLB, -1))
FUNCTION (svaddlbt, unspec_based_function, (UNSPEC_SADDLBT, -1, -1))
FUNCTION (svaddlt, unspec_based_function, (UNSPEC_SADDLT, UNSPEC_UADDLT, -1))
FUNCTION (svaddwb, unspec_based_function, (UNSPEC_SADDWB, UNSPEC_UADDWB, -1))
FUNCTION (svaddwt, unspec_based_function, (UNSPEC_SADDWT, UNSPEC_UADDWT, -1))
FUNCTION (svaddp, unspec_based_pred_function, (UNSPEC_ADDP, UNSPEC_ADDP,
UNSPEC_FADDP))
FUNCTION (svaesd, fixed_insn_function, (CODE_FOR_aarch64_sve2_aesd))
FUNCTION (svaese, fixed_insn_function, (CODE_FOR_aarch64_sve2_aese))
FUNCTION (svaesimc, fixed_insn_function, (CODE_FOR_aarch64_sve2_aesimc))
FUNCTION (svaesmc, fixed_insn_function, (CODE_FOR_aarch64_sve2_aesmc))
FUNCTION (svbcax, CODE_FOR_MODE0 (aarch64_sve2_bcax),)
FUNCTION (svbdep, unspec_based_function, (UNSPEC_BDEP, UNSPEC_BDEP, -1))
FUNCTION (svbext, unspec_based_function, (UNSPEC_BEXT, UNSPEC_BEXT, -1))
FUNCTION (svbgrp, unspec_based_function, (UNSPEC_BGRP, UNSPEC_BGRP, -1))
FUNCTION (svbsl, CODE_FOR_MODE0 (aarch64_sve2_bsl),)
FUNCTION (svbsl1n, CODE_FOR_MODE0 (aarch64_sve2_bsl1n),)
FUNCTION (svbsl2n, CODE_FOR_MODE0 (aarch64_sve2_bsl2n),)
FUNCTION (svcdot, svcdot_impl,)
FUNCTION (svcdot_lane, svcdot_lane_impl,)
FUNCTION (svcvtlt, unspec_based_function, (-1, -1, UNSPEC_COND_FCVTLT))
FUNCTION (svcvtx, unspec_based_function, (-1, -1, UNSPEC_COND_FCVTX))
FUNCTION (svcvtxnt, CODE_FOR_MODE1 (aarch64_sve2_cvtxnt),)
FUNCTION (sveor3, CODE_FOR_MODE0 (aarch64_sve2_eor3),)
FUNCTION (sveorbt, unspec_based_function, (UNSPEC_EORBT, UNSPEC_EORBT, -1))
FUNCTION (sveortb, unspec_based_function, (UNSPEC_EORTB, UNSPEC_EORTB, -1))
FUNCTION (svhadd, unspec_based_function, (UNSPEC_SHADD, UNSPEC_UHADD, -1))
FUNCTION (svhsub, unspec_based_function, (UNSPEC_SHSUB, UNSPEC_UHSUB, -1))
FUNCTION (svhistcnt, CODE_FOR_MODE0 (aarch64_sve2_histcnt),)
FUNCTION (svhistseg, CODE_FOR_MODE0 (aarch64_sve2_histseg),)
FUNCTION (svhsubr, unspec_based_function_rotated, (UNSPEC_SHSUB,
UNSPEC_UHSUB, -1))
FUNCTION (svldnt1_gather, svldnt1_gather_impl,)
FUNCTION (svldnt1sb_gather, svldnt1_gather_extend_impl, (TYPE_SUFFIX_s8))
FUNCTION (svldnt1sh_gather, svldnt1_gather_extend_impl, (TYPE_SUFFIX_s16))
FUNCTION (svldnt1sw_gather, svldnt1_gather_extend_impl, (TYPE_SUFFIX_s32))
FUNCTION (svldnt1ub_gather, svldnt1_gather_extend_impl, (TYPE_SUFFIX_u8))
FUNCTION (svldnt1uh_gather, svldnt1_gather_extend_impl, (TYPE_SUFFIX_u16))
FUNCTION (svldnt1uw_gather, svldnt1_gather_extend_impl, (TYPE_SUFFIX_u32))
FUNCTION (svlogb, unspec_based_function, (-1, -1, UNSPEC_COND_FLOGB))
FUNCTION (svmatch, svmatch_svnmatch_impl, (UNSPEC_MATCH))
FUNCTION (svmaxp, unspec_based_pred_function, (UNSPEC_SMAXP, UNSPEC_UMAXP,
UNSPEC_FMAXP))
FUNCTION (svmaxnmp, unspec_based_pred_function, (-1, -1, UNSPEC_FMAXNMP))
FUNCTION (svminp, unspec_based_pred_function, (UNSPEC_SMINP, UNSPEC_UMINP,
UNSPEC_FMINP))
FUNCTION (svminnmp, unspec_based_pred_function, (-1, -1, UNSPEC_FMINNMP))
FUNCTION (svmlalb, unspec_based_mla_function, (UNSPEC_SMULLB,
UNSPEC_UMULLB, UNSPEC_FMLALB))
FUNCTION (svmlalb_lane, unspec_based_mla_lane_function, (UNSPEC_SMULLB,
UNSPEC_UMULLB,
UNSPEC_FMLALB))
FUNCTION (svmlalt, unspec_based_mla_function, (UNSPEC_SMULLT,
UNSPEC_UMULLT, UNSPEC_FMLALT))
FUNCTION (svmlalt_lane, unspec_based_mla_lane_function, (UNSPEC_SMULLT,
UNSPEC_UMULLT,
UNSPEC_FMLALT))
FUNCTION (svmlslb, unspec_based_mls_function, (UNSPEC_SMULLB,
UNSPEC_UMULLB, UNSPEC_FMLSLB))
FUNCTION (svmlslb_lane, unspec_based_mls_lane_function, (UNSPEC_SMULLB,
UNSPEC_UMULLB,
UNSPEC_FMLSLB))
FUNCTION (svmlslt, unspec_based_mls_function, (UNSPEC_SMULLT,
UNSPEC_UMULLT, UNSPEC_FMLSLT))
FUNCTION (svmlslt_lane, unspec_based_mls_lane_function, (UNSPEC_SMULLT,
UNSPEC_UMULLT,
UNSPEC_FMLSLT))
FUNCTION (svmovlb, svmovl_lb_impl, (UNSPEC_SSHLLB, UNSPEC_USHLLB, -1))
FUNCTION (svmovlt, svmovl_lb_impl, (UNSPEC_SSHLLT, UNSPEC_USHLLT, -1))
FUNCTION (svmullb, unspec_based_function, (UNSPEC_SMULLB, UNSPEC_UMULLB, -1))
FUNCTION (svmullb_lane, unspec_based_lane_function, (UNSPEC_SMULLB,
UNSPEC_UMULLB, -1))
FUNCTION (svmullt, unspec_based_function, (UNSPEC_SMULLT, UNSPEC_UMULLT, -1))
FUNCTION (svmullt_lane, unspec_based_lane_function, (UNSPEC_SMULLT,
UNSPEC_UMULLT, -1))
FUNCTION (svnbsl, CODE_FOR_MODE0 (aarch64_sve2_nbsl),)
FUNCTION (svnmatch, svmatch_svnmatch_impl, (UNSPEC_NMATCH))
FUNCTION (svpmul, CODE_FOR_MODE0 (aarch64_sve2_pmul),)
FUNCTION (svpmullb, unspec_based_function, (-1, UNSPEC_PMULLB, -1))
FUNCTION (svpmullb_pair, unspec_based_function, (-1, UNSPEC_PMULLB_PAIR, -1))
FUNCTION (svpmullt, unspec_based_function, (-1, UNSPEC_PMULLT, -1))
FUNCTION (svpmullt_pair, unspec_based_function, (-1, UNSPEC_PMULLT_PAIR, -1))
FUNCTION (svqabs, rtx_code_function, (SS_ABS, UNKNOWN, UNKNOWN))
FUNCTION (svqcadd, svqcadd_impl,)
FUNCTION (svqdmlalb, unspec_based_qadd_function, (UNSPEC_SQDMULLB, -1, -1))
FUNCTION (svqdmlalb_lane, unspec_based_qadd_lane_function, (UNSPEC_SQDMULLB,
-1, -1))
FUNCTION (svqdmlalbt, unspec_based_qadd_function, (UNSPEC_SQDMULLBT, -1, -1))
FUNCTION (svqdmlalt, unspec_based_qadd_function, (UNSPEC_SQDMULLT, -1, -1))
FUNCTION (svqdmlalt_lane, unspec_based_qadd_lane_function, (UNSPEC_SQDMULLT,
-1, -1))
FUNCTION (svqdmlslb, unspec_based_qsub_function, (UNSPEC_SQDMULLB, -1, -1))
FUNCTION (svqdmlslb_lane, unspec_based_qsub_lane_function, (UNSPEC_SQDMULLB,
-1, -1))
FUNCTION (svqdmlslbt, unspec_based_qsub_function, (UNSPEC_SQDMULLBT, -1, -1))
FUNCTION (svqdmlslt, unspec_based_qsub_function, (UNSPEC_SQDMULLT, -1, -1))
FUNCTION (svqdmlslt_lane, unspec_based_qsub_lane_function, (UNSPEC_SQDMULLT,
-1, -1))
FUNCTION (svqdmulh, unspec_based_function, (UNSPEC_SQDMULH, -1, -1))
FUNCTION (svqdmulh_lane, unspec_based_lane_function, (UNSPEC_SQDMULH, -1, -1))
FUNCTION (svqdmullb, unspec_based_function, (UNSPEC_SQDMULLB, -1, -1))
FUNCTION (svqdmullb_lane, unspec_based_lane_function, (UNSPEC_SQDMULLB,
-1, -1))
FUNCTION (svqdmullt, unspec_based_function, (UNSPEC_SQDMULLT, -1, -1))
FUNCTION (svqdmullt_lane, unspec_based_lane_function, (UNSPEC_SQDMULLT,
-1, -1))
FUNCTION (svqneg, rtx_code_function, (SS_NEG, UNKNOWN, UNKNOWN))
FUNCTION (svqrdcmlah, svqrdcmlah_impl,)
FUNCTION (svqrdcmlah_lane, svqrdcmlah_lane_impl,)
FUNCTION (svqrdmulh, unspec_based_function, (UNSPEC_SQRDMULH, -1, -1))
FUNCTION (svqrdmulh_lane, unspec_based_lane_function, (UNSPEC_SQRDMULH,
-1, -1))
FUNCTION (svqrdmlah, unspec_based_function, (UNSPEC_SQRDMLAH, -1, -1))
FUNCTION (svqrdmlah_lane, unspec_based_lane_function, (UNSPEC_SQRDMLAH,
-1, -1))
FUNCTION (svqrdmlsh, unspec_based_function, (UNSPEC_SQRDMLSH, -1, -1))
FUNCTION (svqrdmlsh_lane, unspec_based_lane_function, (UNSPEC_SQRDMLSH,
-1, -1))
FUNCTION (svqrshl, svqrshl_impl,)
FUNCTION (svqrshrnb, unspec_based_function, (UNSPEC_SQRSHRNB,
UNSPEC_UQRSHRNB, -1))
FUNCTION (svqrshrnt, unspec_based_function, (UNSPEC_SQRSHRNT,
UNSPEC_UQRSHRNT, -1))
FUNCTION (svqrshrunb, unspec_based_function, (UNSPEC_SQRSHRUNB, -1, -1))
FUNCTION (svqrshrunt, unspec_based_function, (UNSPEC_SQRSHRUNT, -1, -1))
FUNCTION (svqshl, svqshl_impl,)
FUNCTION (svqshlu, unspec_based_function, (UNSPEC_SQSHLU, -1, -1))
FUNCTION (svqshrnb, unspec_based_function, (UNSPEC_SQSHRNB,
UNSPEC_UQSHRNB, -1))
FUNCTION (svqshrnt, unspec_based_function, (UNSPEC_SQSHRNT,
UNSPEC_UQSHRNT, -1))
FUNCTION (svqshrunb, unspec_based_function, (UNSPEC_SQSHRUNB, -1, -1))
FUNCTION (svqshrunt, unspec_based_function, (UNSPEC_SQSHRUNT, -1, -1))
FUNCTION (svqsubr, rtx_code_function_rotated, (SS_MINUS, US_MINUS, -1))
FUNCTION (svqxtnb, unspec_based_function, (UNSPEC_SQXTNB, UNSPEC_UQXTNB, -1))
FUNCTION (svqxtnt, unspec_based_function, (UNSPEC_SQXTNT, UNSPEC_UQXTNT, -1))
FUNCTION (svqxtunb, unspec_based_function, (UNSPEC_SQXTUNB, -1, -1))
FUNCTION (svqxtunt, unspec_based_function, (UNSPEC_SQXTUNT, -1, -1))
FUNCTION (svraddhnb, unspec_based_function, (UNSPEC_RADDHNB,
UNSPEC_RADDHNB, -1))
FUNCTION (svraddhnt, unspec_based_function, (UNSPEC_RADDHNT,
UNSPEC_RADDHNT, -1))
FUNCTION (svrax1, fixed_insn_function, (CODE_FOR_aarch64_sve2_rax1))
FUNCTION (svrhadd, unspec_based_function, (UNSPEC_SRHADD, UNSPEC_URHADD, -1))
FUNCTION (svrshl, svrshl_impl,)
FUNCTION (svrshr, unspec_based_function, (UNSPEC_SRSHR, UNSPEC_URSHR, -1))
FUNCTION (svrshrnb, unspec_based_function, (UNSPEC_RSHRNB, UNSPEC_RSHRNB, -1))
FUNCTION (svrshrnt, unspec_based_function, (UNSPEC_RSHRNT, UNSPEC_RSHRNT, -1))
FUNCTION (svrsra, unspec_based_add_function, (UNSPEC_SRSHR, UNSPEC_URSHR, -1))
FUNCTION (svrsubhnb, unspec_based_function, (UNSPEC_RSUBHNB,
UNSPEC_RSUBHNB, -1))
FUNCTION (svrsubhnt, unspec_based_function, (UNSPEC_RSUBHNT,
UNSPEC_RSUBHNT, -1))
FUNCTION (svsbclb, unspec_based_function, (-1, UNSPEC_SBCLB, -1))
FUNCTION (svsbclt, unspec_based_function, (-1, UNSPEC_SBCLT, -1))
FUNCTION (svshllb, unspec_based_function, (UNSPEC_SSHLLB, UNSPEC_USHLLB, -1))
FUNCTION (svshllt, unspec_based_function, (UNSPEC_SSHLLT, UNSPEC_USHLLT, -1))
FUNCTION (svshrnb, unspec_based_function, (UNSPEC_SHRNB, UNSPEC_SHRNB, -1))
FUNCTION (svshrnt, unspec_based_function, (UNSPEC_SHRNT, UNSPEC_SHRNT, -1))
FUNCTION (svsli, unspec_based_function, (UNSPEC_SLI, UNSPEC_SLI, -1))
FUNCTION (svsm4e, fixed_insn_function, (CODE_FOR_aarch64_sve2_sm4e))
FUNCTION (svsm4ekey, fixed_insn_function, (CODE_FOR_aarch64_sve2_sm4ekey))
FUNCTION (svsqadd, svsqadd_impl,)
FUNCTION (svsra, svsra_impl,)
FUNCTION (svsri, unspec_based_function, (UNSPEC_SRI, UNSPEC_SRI, -1))
FUNCTION (svstnt1_scatter, svstnt1_scatter_impl,)
FUNCTION (svstnt1b_scatter, svstnt1_scatter_truncate_impl, (QImode))
FUNCTION (svstnt1h_scatter, svstnt1_scatter_truncate_impl, (HImode))
FUNCTION (svstnt1w_scatter, svstnt1_scatter_truncate_impl, (SImode))
FUNCTION (svsubhnb, unspec_based_function, (UNSPEC_SUBHNB, UNSPEC_SUBHNB, -1))
FUNCTION (svsubhnt, unspec_based_function, (UNSPEC_SUBHNT, UNSPEC_SUBHNT, -1))
FUNCTION (svsublb, unspec_based_function, (UNSPEC_SSUBLB, UNSPEC_USUBLB, -1))
FUNCTION (svsublbt, unspec_based_function, (UNSPEC_SSUBLBT, -1, -1))
FUNCTION (svsublt, unspec_based_function, (UNSPEC_SSUBLT, UNSPEC_USUBLT, -1))
FUNCTION (svsubltb, unspec_based_function, (UNSPEC_SSUBLTB, -1, -1))
FUNCTION (svsubwb, unspec_based_function, (UNSPEC_SSUBWB, UNSPEC_USUBWB, -1))
FUNCTION (svsubwt, unspec_based_function, (UNSPEC_SSUBWT, UNSPEC_USUBWT, -1))
FUNCTION (svtbl2, svtbl2_impl,)
FUNCTION (svtbx, CODE_FOR_MODE0 (aarch64_sve2_tbx),)
FUNCTION (svuqadd, svuqadd_impl,)
FUNCTION (svwhilege, while_comparison, (UNSPEC_WHILEGE, UNSPEC_WHILEHS))
FUNCTION (svwhilegt, while_comparison, (UNSPEC_WHILEGT, UNSPEC_WHILEHI))
FUNCTION (svwhilerw, svwhilerw_svwhilewr_impl, (UNSPEC_WHILERW))
FUNCTION (svwhilewr, svwhilerw_svwhilewr_impl, (UNSPEC_WHILEWR))
FUNCTION (svxar, CODE_FOR_MODE0 (aarch64_sve2_xar),)
} /* end namespace aarch64_sve */