FLATInstructions.td
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//===-- FLATInstructions.td - FLAT Instruction Definitions ----------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
def FLATOffset : ComplexPattern<i64, 2, "SelectFlatOffset<false>", [], [SDNPWantRoot], -10>;
def FLATOffsetSigned : ComplexPattern<i64, 2, "SelectFlatOffset<true>", [], [SDNPWantRoot], -10>;
def GlobalSAddr : ComplexPattern<i64, 3, "SelectGlobalSAddr", [], [SDNPWantRoot], -10>;
//===----------------------------------------------------------------------===//
// FLAT classes
//===----------------------------------------------------------------------===//
class FLAT_Pseudo<string opName, dag outs, dag ins,
string asmOps, list<dag> pattern=[]> :
InstSI<outs, ins, "", pattern>,
SIMCInstr<opName, SIEncodingFamily.NONE> {
let isPseudo = 1;
let isCodeGenOnly = 1;
let FLAT = 1;
let UseNamedOperandTable = 1;
let hasSideEffects = 0;
let SchedRW = [WriteVMEM];
string Mnemonic = opName;
string AsmOperands = asmOps;
bits<1> is_flat_global = 0;
bits<1> is_flat_scratch = 0;
bits<1> has_vdst = 1;
// We need to distinguish having saddr and enabling saddr because
// saddr is only valid for scratch and global instructions. Pre-gfx9
// these bits were reserved, so we also don't necessarily want to
// set these bits to the disabled value for the original flat
// segment instructions.
bits<1> has_saddr = 0;
bits<1> enabled_saddr = 0;
bits<7> saddr_value = 0;
bits<1> has_vaddr = 1;
bits<1> has_data = 1;
bits<1> has_glc = 1;
bits<1> glcValue = 0;
bits<1> has_dlc = 1;
bits<1> dlcValue = 0;
let SubtargetPredicate = !if(is_flat_global, HasFlatGlobalInsts,
!if(is_flat_scratch, HasFlatScratchInsts, HasFlatAddressSpace));
// TODO: M0 if it could possibly access LDS (before gfx9? only)?
let Uses = !if(is_flat_global, [EXEC], [EXEC, FLAT_SCR]);
// Internally, FLAT instruction are executed as both an LDS and a
// Buffer instruction; so, they increment both VM_CNT and LGKM_CNT
// and are not considered done until both have been decremented.
let VM_CNT = 1;
let LGKM_CNT = !if(!or(is_flat_global, is_flat_scratch), 0, 1);
let IsNonFlatSeg = !if(!or(is_flat_global, is_flat_scratch), 1, 0);
}
class FLAT_Real <bits<7> op, FLAT_Pseudo ps> :
InstSI <ps.OutOperandList, ps.InOperandList, ps.Mnemonic # ps.AsmOperands, []>,
Enc64 {
let isPseudo = 0;
let isCodeGenOnly = 0;
// copy relevant pseudo op flags
let SubtargetPredicate = ps.SubtargetPredicate;
let AsmMatchConverter = ps.AsmMatchConverter;
let OtherPredicates = ps.OtherPredicates;
let TSFlags = ps.TSFlags;
let UseNamedOperandTable = ps.UseNamedOperandTable;
// encoding fields
bits<8> vaddr;
bits<8> vdata;
bits<7> saddr;
bits<8> vdst;
bits<1> slc;
bits<1> glc;
bits<1> dlc;
// Only valid on gfx9
bits<1> lds = 0; // XXX - What does this actually do?
// Segment, 00=flat, 01=scratch, 10=global, 11=reserved
bits<2> seg = !if(ps.is_flat_global, 0b10,
!if(ps.is_flat_scratch, 0b01, 0));
// Signed offset. Highest bit ignored for flat and treated as 12-bit
// unsigned for flat accesses.
bits<13> offset;
bits<1> nv = 0; // XXX - What does this actually do?
// We don't use tfe right now, and it was removed in gfx9.
bits<1> tfe = 0;
// Only valid on GFX9+
let Inst{12-0} = offset;
let Inst{13} = lds;
let Inst{15-14} = seg;
let Inst{16} = !if(ps.has_glc, glc, ps.glcValue);
let Inst{17} = slc;
let Inst{24-18} = op;
let Inst{31-26} = 0x37; // Encoding.
let Inst{39-32} = !if(ps.has_vaddr, vaddr, ?);
let Inst{47-40} = !if(ps.has_data, vdata, ?);
let Inst{54-48} = !if(ps.has_saddr, !if(ps.enabled_saddr, saddr, 0x7f), 0);
// 54-48 is reserved.
let Inst{55} = nv; // nv on GFX9+, TFE before.
let Inst{63-56} = !if(ps.has_vdst, vdst, ?);
}
class GlobalSaddrTable <bit is_saddr, string Name = ""> {
bit IsSaddr = is_saddr;
string SaddrOp = Name;
}
// TODO: Is exec allowed for saddr? The disabled value 0x7f is the
// same encoding value as exec_hi, so it isn't possible to use that if
// saddr is 32-bit (which isn't handled here yet).
class FLAT_Load_Pseudo <string opName, RegisterClass regClass,
bit HasTiedOutput = 0,
bit HasSaddr = 0, bit EnableSaddr = 0> : FLAT_Pseudo<
opName,
(outs regClass:$vdst),
!con(
!con(
!if(EnableSaddr,
(ins SReg_64:$saddr, VGPR_32:$vaddr),
(ins VReg_64:$vaddr)),
(ins flat_offset:$offset)),
// FIXME: Operands with default values do not work with following non-optional operands.
!if(HasTiedOutput, (ins GLC:$glc, SLC:$slc, DLC:$dlc, regClass:$vdst_in),
(ins GLC_0:$glc, SLC_0:$slc, DLC_0:$dlc))),
" $vdst, $vaddr"#!if(HasSaddr, !if(EnableSaddr, ", $saddr", ", off"), "")#"$offset$glc$slc$dlc"> {
let has_data = 0;
let mayLoad = 1;
let has_saddr = HasSaddr;
let enabled_saddr = EnableSaddr;
let PseudoInstr = opName#!if(!and(HasSaddr, EnableSaddr), "_SADDR", "");
let maybeAtomic = 1;
let Constraints = !if(HasTiedOutput, "$vdst = $vdst_in", "");
let DisableEncoding = !if(HasTiedOutput, "$vdst_in", "");
}
class FLAT_Store_Pseudo <string opName, RegisterClass vdataClass,
bit HasSaddr = 0, bit EnableSaddr = 0> : FLAT_Pseudo<
opName,
(outs),
!con(
!if(EnableSaddr,
(ins VGPR_32:$vaddr, vdataClass:$vdata, SReg_64:$saddr),
(ins VReg_64:$vaddr, vdataClass:$vdata)),
(ins flat_offset:$offset, GLC_0:$glc, SLC_0:$slc, DLC_0:$dlc)),
" $vaddr, $vdata"#!if(HasSaddr, !if(EnableSaddr, ", $saddr", ", off"), "")#"$offset$glc$slc$dlc"> {
let mayLoad = 0;
let mayStore = 1;
let has_vdst = 0;
let has_saddr = HasSaddr;
let enabled_saddr = EnableSaddr;
let PseudoInstr = opName#!if(!and(HasSaddr, EnableSaddr), "_SADDR", "");
let maybeAtomic = 1;
}
multiclass FLAT_Global_Load_Pseudo<string opName, RegisterClass regClass, bit HasTiedInput = 0> {
let is_flat_global = 1, SubtargetPredicate = HasFlatGlobalInsts in {
def "" : FLAT_Load_Pseudo<opName, regClass, HasTiedInput, 1>,
GlobalSaddrTable<0, opName>;
def _SADDR : FLAT_Load_Pseudo<opName, regClass, HasTiedInput, 1, 1>,
GlobalSaddrTable<1, opName>;
}
}
class FLAT_Global_Load_AddTid_Pseudo <string opName, RegisterClass regClass,
bit HasTiedOutput = 0, bit HasSignedOffset = 0> : FLAT_Pseudo<
opName,
(outs regClass:$vdst),
!con((ins SReg_64:$saddr, flat_offset:$offset, GLC_0:$glc, SLC_0:$slc, DLC_0:$dlc),
!if(HasTiedOutput, (ins regClass:$vdst_in), (ins))),
" $vdst, $saddr$offset$glc$slc$dlc"> {
let is_flat_global = 1;
let has_data = 0;
let mayLoad = 1;
let has_vaddr = 0;
let has_saddr = 1;
let enabled_saddr = 1;
let maybeAtomic = 1;
let Constraints = !if(HasTiedOutput, "$vdst = $vdst_in", "");
let DisableEncoding = !if(HasTiedOutput, "$vdst_in", "");
}
multiclass FLAT_Global_Store_Pseudo<string opName, RegisterClass regClass> {
let is_flat_global = 1, SubtargetPredicate = HasFlatGlobalInsts in {
def "" : FLAT_Store_Pseudo<opName, regClass, 1>,
GlobalSaddrTable<0, opName>;
def _SADDR : FLAT_Store_Pseudo<opName, regClass, 1, 1>,
GlobalSaddrTable<1, opName>;
}
}
class FLAT_Global_Store_AddTid_Pseudo <string opName, RegisterClass vdataClass,
bit HasSignedOffset = 0> : FLAT_Pseudo<
opName,
(outs),
!con(
(ins vdataClass:$vdata, SReg_64:$saddr),
(ins flat_offset:$offset, GLC:$glc, SLC:$slc, DLC:$dlc)),
" $vdata, $saddr$offset$glc$slc$dlc"> {
let is_flat_global = 1;
let mayLoad = 0;
let mayStore = 1;
let has_vdst = 0;
let has_vaddr = 0;
let has_saddr = 1;
let enabled_saddr = 1;
let maybeAtomic = 1;
}
class FLAT_Scratch_Load_Pseudo <string opName, RegisterClass regClass,
bit EnableSaddr = 0>: FLAT_Pseudo<
opName,
(outs regClass:$vdst),
!if(EnableSaddr,
(ins SReg_32_XEXEC_HI:$saddr, flat_offset:$offset, GLC:$glc, SLC:$slc, DLC:$dlc),
(ins VGPR_32:$vaddr, flat_offset:$offset, GLC:$glc, SLC:$slc, DLC:$dlc)),
" $vdst, "#!if(EnableSaddr, "off", "$vaddr")#!if(EnableSaddr, ", $saddr", ", off")#"$offset$glc$slc$dlc"> {
let has_data = 0;
let mayLoad = 1;
let has_saddr = 1;
let enabled_saddr = EnableSaddr;
let has_vaddr = !if(EnableSaddr, 0, 1);
let PseudoInstr = opName#!if(EnableSaddr, "_SADDR", "");
let maybeAtomic = 1;
}
class FLAT_Scratch_Store_Pseudo <string opName, RegisterClass vdataClass, bit EnableSaddr = 0> : FLAT_Pseudo<
opName,
(outs),
!if(EnableSaddr,
(ins vdataClass:$vdata, SReg_32_XEXEC_HI:$saddr, flat_offset:$offset, GLC:$glc, SLC:$slc, DLC:$dlc),
(ins vdataClass:$vdata, VGPR_32:$vaddr, flat_offset:$offset, GLC:$glc, SLC:$slc, DLC:$dlc)),
" "#!if(EnableSaddr, "off", "$vaddr")#", $vdata, "#!if(EnableSaddr, "$saddr", "off")#"$offset$glc$slc$dlc"> {
let mayLoad = 0;
let mayStore = 1;
let has_vdst = 0;
let has_saddr = 1;
let enabled_saddr = EnableSaddr;
let has_vaddr = !if(EnableSaddr, 0, 1);
let PseudoInstr = opName#!if(EnableSaddr, "_SADDR", "");
let maybeAtomic = 1;
}
multiclass FLAT_Scratch_Load_Pseudo<string opName, RegisterClass regClass> {
let is_flat_scratch = 1 in {
def "" : FLAT_Scratch_Load_Pseudo<opName, regClass>;
def _SADDR : FLAT_Scratch_Load_Pseudo<opName, regClass, 1>;
}
}
multiclass FLAT_Scratch_Store_Pseudo<string opName, RegisterClass regClass> {
let is_flat_scratch = 1 in {
def "" : FLAT_Scratch_Store_Pseudo<opName, regClass>;
def _SADDR : FLAT_Scratch_Store_Pseudo<opName, regClass, 1>;
}
}
class FLAT_AtomicNoRet_Pseudo<string opName, dag outs, dag ins,
string asm, list<dag> pattern = []> :
FLAT_Pseudo<opName, outs, ins, asm, pattern> {
let mayLoad = 1;
let mayStore = 1;
let has_glc = 0;
let glcValue = 0;
let has_dlc = 0;
let dlcValue = 0;
let has_vdst = 0;
let maybeAtomic = 1;
}
class FLAT_AtomicRet_Pseudo<string opName, dag outs, dag ins,
string asm, list<dag> pattern = []>
: FLAT_AtomicNoRet_Pseudo<opName, outs, ins, asm, pattern> {
let hasPostISelHook = 1;
let has_vdst = 1;
let glcValue = 1;
let dlcValue = 0;
let PseudoInstr = NAME # "_RTN";
}
multiclass FLAT_Atomic_Pseudo<
string opName,
RegisterClass vdst_rc,
ValueType vt,
SDPatternOperator atomic = null_frag,
ValueType data_vt = vt,
RegisterClass data_rc = vdst_rc,
bit isFP = isFloatType<data_vt>.ret> {
def "" : FLAT_AtomicNoRet_Pseudo <opName,
(outs),
(ins VReg_64:$vaddr, data_rc:$vdata, flat_offset:$offset, SLC_0:$slc),
" $vaddr, $vdata$offset$slc">,
GlobalSaddrTable<0, opName>,
AtomicNoRet <opName, 0> {
let PseudoInstr = NAME;
let FPAtomic = isFP;
let AddedComplexity = -1; // Prefer global atomics if available
}
def _RTN : FLAT_AtomicRet_Pseudo <opName,
(outs vdst_rc:$vdst),
(ins VReg_64:$vaddr, data_rc:$vdata, flat_offset:$offset, SLC_0:$slc),
" $vdst, $vaddr, $vdata$offset glc$slc",
[(set vt:$vdst,
(atomic (FLATOffset i64:$vaddr, i16:$offset), data_vt:$vdata))]>,
GlobalSaddrTable<0, opName#"_rtn">,
AtomicNoRet <opName, 1>{
let FPAtomic = isFP;
let AddedComplexity = -1; // Prefer global atomics if available
}
}
multiclass FLAT_Global_Atomic_Pseudo_NO_RTN<
string opName,
RegisterClass vdst_rc,
ValueType vt,
SDPatternOperator atomic = null_frag,
ValueType data_vt = vt,
RegisterClass data_rc = vdst_rc,
bit isFP = isFloatType<data_vt>.ret> {
def "" : FLAT_AtomicNoRet_Pseudo <opName,
(outs),
(ins VReg_64:$vaddr, data_rc:$vdata, flat_offset:$offset, SLC_0:$slc),
" $vaddr, $vdata, off$offset$slc">,
GlobalSaddrTable<0, opName>,
AtomicNoRet <opName, 0> {
let has_saddr = 1;
let PseudoInstr = NAME;
let FPAtomic = isFP;
}
def _SADDR : FLAT_AtomicNoRet_Pseudo <opName,
(outs),
(ins VGPR_32:$vaddr, data_rc:$vdata, SReg_64:$saddr, flat_offset:$offset, SLC_0:$slc),
" $vaddr, $vdata, $saddr$offset$slc">,
GlobalSaddrTable<1, opName>,
AtomicNoRet <opName#"_saddr", 0> {
let has_saddr = 1;
let enabled_saddr = 1;
let PseudoInstr = NAME#"_SADDR";
let FPAtomic = isFP;
}
}
multiclass FLAT_Global_Atomic_Pseudo_RTN<
string opName,
RegisterClass vdst_rc,
ValueType vt,
SDPatternOperator atomic = null_frag,
ValueType data_vt = vt,
RegisterClass data_rc = vdst_rc,
bit isFP = isFloatType<data_vt>.ret> {
def _RTN : FLAT_AtomicRet_Pseudo <opName,
(outs vdst_rc:$vdst),
(ins VReg_64:$vaddr, data_rc:$vdata, flat_offset:$offset, SLC_0:$slc),
" $vdst, $vaddr, $vdata, off$offset glc$slc",
[(set vt:$vdst,
(atomic (FLATOffsetSigned i64:$vaddr, i16:$offset), data_vt:$vdata))]>,
GlobalSaddrTable<0, opName#"_rtn">,
AtomicNoRet <opName, 1> {
let has_saddr = 1;
let FPAtomic = isFP;
}
def _SADDR_RTN : FLAT_AtomicRet_Pseudo <opName,
(outs vdst_rc:$vdst),
(ins VGPR_32:$vaddr, data_rc:$vdata, SReg_64:$saddr, flat_offset:$offset, SLC_0:$slc),
" $vdst, $vaddr, $vdata, $saddr$offset glc$slc">,
GlobalSaddrTable<1, opName#"_rtn">,
AtomicNoRet <opName#"_saddr", 1> {
let has_saddr = 1;
let enabled_saddr = 1;
let PseudoInstr = NAME#"_SADDR_RTN";
let FPAtomic = isFP;
}
}
multiclass FLAT_Global_Atomic_Pseudo<
string opName,
RegisterClass vdst_rc,
ValueType vt,
SDPatternOperator atomic_rtn = null_frag,
SDPatternOperator atomic_no_rtn = null_frag,
ValueType data_vt = vt,
RegisterClass data_rc = vdst_rc> {
let is_flat_global = 1, SubtargetPredicate = HasFlatGlobalInsts in {
defm "" : FLAT_Global_Atomic_Pseudo_NO_RTN<opName, vdst_rc, vt, atomic_no_rtn, data_vt, data_rc>;
defm "" : FLAT_Global_Atomic_Pseudo_RTN<opName, vdst_rc, vt, atomic_rtn, data_vt, data_rc>;
}
}
//===----------------------------------------------------------------------===//
// Flat Instructions
//===----------------------------------------------------------------------===//
def FLAT_LOAD_UBYTE : FLAT_Load_Pseudo <"flat_load_ubyte", VGPR_32>;
def FLAT_LOAD_SBYTE : FLAT_Load_Pseudo <"flat_load_sbyte", VGPR_32>;
def FLAT_LOAD_USHORT : FLAT_Load_Pseudo <"flat_load_ushort", VGPR_32>;
def FLAT_LOAD_SSHORT : FLAT_Load_Pseudo <"flat_load_sshort", VGPR_32>;
def FLAT_LOAD_DWORD : FLAT_Load_Pseudo <"flat_load_dword", VGPR_32>;
def FLAT_LOAD_DWORDX2 : FLAT_Load_Pseudo <"flat_load_dwordx2", VReg_64>;
def FLAT_LOAD_DWORDX4 : FLAT_Load_Pseudo <"flat_load_dwordx4", VReg_128>;
def FLAT_LOAD_DWORDX3 : FLAT_Load_Pseudo <"flat_load_dwordx3", VReg_96>;
def FLAT_STORE_BYTE : FLAT_Store_Pseudo <"flat_store_byte", VGPR_32>;
def FLAT_STORE_SHORT : FLAT_Store_Pseudo <"flat_store_short", VGPR_32>;
def FLAT_STORE_DWORD : FLAT_Store_Pseudo <"flat_store_dword", VGPR_32>;
def FLAT_STORE_DWORDX2 : FLAT_Store_Pseudo <"flat_store_dwordx2", VReg_64>;
def FLAT_STORE_DWORDX4 : FLAT_Store_Pseudo <"flat_store_dwordx4", VReg_128>;
def FLAT_STORE_DWORDX3 : FLAT_Store_Pseudo <"flat_store_dwordx3", VReg_96>;
let SubtargetPredicate = HasD16LoadStore in {
def FLAT_LOAD_UBYTE_D16 : FLAT_Load_Pseudo <"flat_load_ubyte_d16", VGPR_32, 1>;
def FLAT_LOAD_UBYTE_D16_HI : FLAT_Load_Pseudo <"flat_load_ubyte_d16_hi", VGPR_32, 1>;
def FLAT_LOAD_SBYTE_D16 : FLAT_Load_Pseudo <"flat_load_sbyte_d16", VGPR_32, 1>;
def FLAT_LOAD_SBYTE_D16_HI : FLAT_Load_Pseudo <"flat_load_sbyte_d16_hi", VGPR_32, 1>;
def FLAT_LOAD_SHORT_D16 : FLAT_Load_Pseudo <"flat_load_short_d16", VGPR_32, 1>;
def FLAT_LOAD_SHORT_D16_HI : FLAT_Load_Pseudo <"flat_load_short_d16_hi", VGPR_32, 1>;
def FLAT_STORE_BYTE_D16_HI : FLAT_Store_Pseudo <"flat_store_byte_d16_hi", VGPR_32>;
def FLAT_STORE_SHORT_D16_HI : FLAT_Store_Pseudo <"flat_store_short_d16_hi", VGPR_32>;
}
defm FLAT_ATOMIC_CMPSWAP : FLAT_Atomic_Pseudo <"flat_atomic_cmpswap",
VGPR_32, i32, AMDGPUatomic_cmp_swap_flat_32,
v2i32, VReg_64>;
defm FLAT_ATOMIC_CMPSWAP_X2 : FLAT_Atomic_Pseudo <"flat_atomic_cmpswap_x2",
VReg_64, i64, AMDGPUatomic_cmp_swap_flat_64,
v2i64, VReg_128>;
defm FLAT_ATOMIC_SWAP : FLAT_Atomic_Pseudo <"flat_atomic_swap",
VGPR_32, i32, atomic_swap_flat_32>;
defm FLAT_ATOMIC_SWAP_X2 : FLAT_Atomic_Pseudo <"flat_atomic_swap_x2",
VReg_64, i64, atomic_swap_flat_64>;
defm FLAT_ATOMIC_ADD : FLAT_Atomic_Pseudo <"flat_atomic_add",
VGPR_32, i32, atomic_load_add_flat_32>;
defm FLAT_ATOMIC_SUB : FLAT_Atomic_Pseudo <"flat_atomic_sub",
VGPR_32, i32, atomic_load_sub_flat_32>;
defm FLAT_ATOMIC_SMIN : FLAT_Atomic_Pseudo <"flat_atomic_smin",
VGPR_32, i32, atomic_load_min_flat_32>;
defm FLAT_ATOMIC_UMIN : FLAT_Atomic_Pseudo <"flat_atomic_umin",
VGPR_32, i32, atomic_load_umin_flat_32>;
defm FLAT_ATOMIC_SMAX : FLAT_Atomic_Pseudo <"flat_atomic_smax",
VGPR_32, i32, atomic_load_max_flat_32>;
defm FLAT_ATOMIC_UMAX : FLAT_Atomic_Pseudo <"flat_atomic_umax",
VGPR_32, i32, atomic_load_umax_flat_32>;
defm FLAT_ATOMIC_AND : FLAT_Atomic_Pseudo <"flat_atomic_and",
VGPR_32, i32, atomic_load_and_flat_32>;
defm FLAT_ATOMIC_OR : FLAT_Atomic_Pseudo <"flat_atomic_or",
VGPR_32, i32, atomic_load_or_flat_32>;
defm FLAT_ATOMIC_XOR : FLAT_Atomic_Pseudo <"flat_atomic_xor",
VGPR_32, i32, atomic_load_xor_flat_32>;
defm FLAT_ATOMIC_INC : FLAT_Atomic_Pseudo <"flat_atomic_inc",
VGPR_32, i32, atomic_inc_flat_32>;
defm FLAT_ATOMIC_DEC : FLAT_Atomic_Pseudo <"flat_atomic_dec",
VGPR_32, i32, atomic_dec_flat_32>;
defm FLAT_ATOMIC_ADD_X2 : FLAT_Atomic_Pseudo <"flat_atomic_add_x2",
VReg_64, i64, atomic_load_add_flat_64>;
defm FLAT_ATOMIC_SUB_X2 : FLAT_Atomic_Pseudo <"flat_atomic_sub_x2",
VReg_64, i64, atomic_load_sub_flat_64>;
defm FLAT_ATOMIC_SMIN_X2 : FLAT_Atomic_Pseudo <"flat_atomic_smin_x2",
VReg_64, i64, atomic_load_min_flat_64>;
defm FLAT_ATOMIC_UMIN_X2 : FLAT_Atomic_Pseudo <"flat_atomic_umin_x2",
VReg_64, i64, atomic_load_umin_flat_64>;
defm FLAT_ATOMIC_SMAX_X2 : FLAT_Atomic_Pseudo <"flat_atomic_smax_x2",
VReg_64, i64, atomic_load_max_flat_64>;
defm FLAT_ATOMIC_UMAX_X2 : FLAT_Atomic_Pseudo <"flat_atomic_umax_x2",
VReg_64, i64, atomic_load_umax_flat_64>;
defm FLAT_ATOMIC_AND_X2 : FLAT_Atomic_Pseudo <"flat_atomic_and_x2",
VReg_64, i64, atomic_load_and_flat_64>;
defm FLAT_ATOMIC_OR_X2 : FLAT_Atomic_Pseudo <"flat_atomic_or_x2",
VReg_64, i64, atomic_load_or_flat_64>;
defm FLAT_ATOMIC_XOR_X2 : FLAT_Atomic_Pseudo <"flat_atomic_xor_x2",
VReg_64, i64, atomic_load_xor_flat_64>;
defm FLAT_ATOMIC_INC_X2 : FLAT_Atomic_Pseudo <"flat_atomic_inc_x2",
VReg_64, i64, atomic_inc_flat_64>;
defm FLAT_ATOMIC_DEC_X2 : FLAT_Atomic_Pseudo <"flat_atomic_dec_x2",
VReg_64, i64, atomic_dec_flat_64>;
// GFX7-, GFX10-only flat instructions.
let SubtargetPredicate = isGFX7GFX10 in {
defm FLAT_ATOMIC_FCMPSWAP : FLAT_Atomic_Pseudo <"flat_atomic_fcmpswap",
VGPR_32, f32, null_frag, v2f32, VReg_64>;
defm FLAT_ATOMIC_FCMPSWAP_X2 : FLAT_Atomic_Pseudo <"flat_atomic_fcmpswap_x2",
VReg_64, f64, null_frag, v2f64, VReg_128>;
defm FLAT_ATOMIC_FMIN : FLAT_Atomic_Pseudo <"flat_atomic_fmin",
VGPR_32, f32>;
defm FLAT_ATOMIC_FMAX : FLAT_Atomic_Pseudo <"flat_atomic_fmax",
VGPR_32, f32>;
defm FLAT_ATOMIC_FMIN_X2 : FLAT_Atomic_Pseudo <"flat_atomic_fmin_x2",
VReg_64, f64>;
defm FLAT_ATOMIC_FMAX_X2 : FLAT_Atomic_Pseudo <"flat_atomic_fmax_x2",
VReg_64, f64>;
} // End SubtargetPredicate = isGFX7GFX10
defm GLOBAL_LOAD_UBYTE : FLAT_Global_Load_Pseudo <"global_load_ubyte", VGPR_32>;
defm GLOBAL_LOAD_SBYTE : FLAT_Global_Load_Pseudo <"global_load_sbyte", VGPR_32>;
defm GLOBAL_LOAD_USHORT : FLAT_Global_Load_Pseudo <"global_load_ushort", VGPR_32>;
defm GLOBAL_LOAD_SSHORT : FLAT_Global_Load_Pseudo <"global_load_sshort", VGPR_32>;
defm GLOBAL_LOAD_DWORD : FLAT_Global_Load_Pseudo <"global_load_dword", VGPR_32>;
defm GLOBAL_LOAD_DWORDX2 : FLAT_Global_Load_Pseudo <"global_load_dwordx2", VReg_64>;
defm GLOBAL_LOAD_DWORDX3 : FLAT_Global_Load_Pseudo <"global_load_dwordx3", VReg_96>;
defm GLOBAL_LOAD_DWORDX4 : FLAT_Global_Load_Pseudo <"global_load_dwordx4", VReg_128>;
defm GLOBAL_LOAD_UBYTE_D16 : FLAT_Global_Load_Pseudo <"global_load_ubyte_d16", VGPR_32, 1>;
defm GLOBAL_LOAD_UBYTE_D16_HI : FLAT_Global_Load_Pseudo <"global_load_ubyte_d16_hi", VGPR_32, 1>;
defm GLOBAL_LOAD_SBYTE_D16 : FLAT_Global_Load_Pseudo <"global_load_sbyte_d16", VGPR_32, 1>;
defm GLOBAL_LOAD_SBYTE_D16_HI : FLAT_Global_Load_Pseudo <"global_load_sbyte_d16_hi", VGPR_32, 1>;
defm GLOBAL_LOAD_SHORT_D16 : FLAT_Global_Load_Pseudo <"global_load_short_d16", VGPR_32, 1>;
defm GLOBAL_LOAD_SHORT_D16_HI : FLAT_Global_Load_Pseudo <"global_load_short_d16_hi", VGPR_32, 1>;
let OtherPredicates = [HasGFX10_BEncoding] in
def GLOBAL_LOAD_DWORD_ADDTID : FLAT_Global_Load_AddTid_Pseudo <"global_load_dword_addtid", VGPR_32>;
defm GLOBAL_STORE_BYTE : FLAT_Global_Store_Pseudo <"global_store_byte", VGPR_32>;
defm GLOBAL_STORE_SHORT : FLAT_Global_Store_Pseudo <"global_store_short", VGPR_32>;
defm GLOBAL_STORE_DWORD : FLAT_Global_Store_Pseudo <"global_store_dword", VGPR_32>;
defm GLOBAL_STORE_DWORDX2 : FLAT_Global_Store_Pseudo <"global_store_dwordx2", VReg_64>;
defm GLOBAL_STORE_DWORDX3 : FLAT_Global_Store_Pseudo <"global_store_dwordx3", VReg_96>;
defm GLOBAL_STORE_DWORDX4 : FLAT_Global_Store_Pseudo <"global_store_dwordx4", VReg_128>;
let OtherPredicates = [HasGFX10_BEncoding] in
def GLOBAL_STORE_DWORD_ADDTID : FLAT_Global_Store_AddTid_Pseudo <"global_store_dword_addtid", VGPR_32>;
defm GLOBAL_STORE_BYTE_D16_HI : FLAT_Global_Store_Pseudo <"global_store_byte_d16_hi", VGPR_32>;
defm GLOBAL_STORE_SHORT_D16_HI : FLAT_Global_Store_Pseudo <"global_store_short_d16_hi", VGPR_32>;
let is_flat_global = 1 in {
defm GLOBAL_ATOMIC_CMPSWAP : FLAT_Global_Atomic_Pseudo <"global_atomic_cmpswap",
VGPR_32, i32, AMDGPUatomic_cmp_swap_global_32, null_frag,
v2i32, VReg_64>;
defm GLOBAL_ATOMIC_CMPSWAP_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_cmpswap_x2",
VReg_64, i64, AMDGPUatomic_cmp_swap_global_64,
null_frag,
v2i64, VReg_128>;
defm GLOBAL_ATOMIC_SWAP : FLAT_Global_Atomic_Pseudo <"global_atomic_swap",
VGPR_32, i32, atomic_swap_global_32>;
defm GLOBAL_ATOMIC_SWAP_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_swap_x2",
VReg_64, i64, atomic_swap_global_64>;
defm GLOBAL_ATOMIC_ADD : FLAT_Global_Atomic_Pseudo <"global_atomic_add",
VGPR_32, i32, atomic_load_add_global_32>;
defm GLOBAL_ATOMIC_SUB : FLAT_Global_Atomic_Pseudo <"global_atomic_sub",
VGPR_32, i32, atomic_load_sub_global_32>;
defm GLOBAL_ATOMIC_SMIN : FLAT_Global_Atomic_Pseudo <"global_atomic_smin",
VGPR_32, i32, atomic_load_min_global_32>;
defm GLOBAL_ATOMIC_UMIN : FLAT_Global_Atomic_Pseudo <"global_atomic_umin",
VGPR_32, i32, atomic_load_umin_global_32>;
defm GLOBAL_ATOMIC_SMAX : FLAT_Global_Atomic_Pseudo <"global_atomic_smax",
VGPR_32, i32, atomic_load_max_global_32>;
defm GLOBAL_ATOMIC_UMAX : FLAT_Global_Atomic_Pseudo <"global_atomic_umax",
VGPR_32, i32, atomic_load_umax_global_32>;
defm GLOBAL_ATOMIC_AND : FLAT_Global_Atomic_Pseudo <"global_atomic_and",
VGPR_32, i32, atomic_load_and_global_32>;
defm GLOBAL_ATOMIC_OR : FLAT_Global_Atomic_Pseudo <"global_atomic_or",
VGPR_32, i32, atomic_load_or_global_32>;
defm GLOBAL_ATOMIC_XOR : FLAT_Global_Atomic_Pseudo <"global_atomic_xor",
VGPR_32, i32, atomic_load_xor_global_32>;
defm GLOBAL_ATOMIC_INC : FLAT_Global_Atomic_Pseudo <"global_atomic_inc",
VGPR_32, i32, atomic_inc_global_32>;
defm GLOBAL_ATOMIC_DEC : FLAT_Global_Atomic_Pseudo <"global_atomic_dec",
VGPR_32, i32, atomic_dec_global_32>;
defm GLOBAL_ATOMIC_ADD_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_add_x2",
VReg_64, i64, atomic_load_add_global_64>;
defm GLOBAL_ATOMIC_SUB_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_sub_x2",
VReg_64, i64, atomic_load_sub_global_64>;
defm GLOBAL_ATOMIC_SMIN_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_smin_x2",
VReg_64, i64, atomic_load_min_global_64>;
defm GLOBAL_ATOMIC_UMIN_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_umin_x2",
VReg_64, i64, atomic_load_umin_global_64>;
defm GLOBAL_ATOMIC_SMAX_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_smax_x2",
VReg_64, i64, atomic_load_max_global_64>;
defm GLOBAL_ATOMIC_UMAX_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_umax_x2",
VReg_64, i64, atomic_load_umax_global_64>;
defm GLOBAL_ATOMIC_AND_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_and_x2",
VReg_64, i64, atomic_load_and_global_64>;
defm GLOBAL_ATOMIC_OR_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_or_x2",
VReg_64, i64, atomic_load_or_global_64>;
defm GLOBAL_ATOMIC_XOR_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_xor_x2",
VReg_64, i64, atomic_load_xor_global_64>;
defm GLOBAL_ATOMIC_INC_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_inc_x2",
VReg_64, i64, atomic_inc_global_64>;
defm GLOBAL_ATOMIC_DEC_X2 : FLAT_Global_Atomic_Pseudo <"global_atomic_dec_x2",
VReg_64, i64, atomic_dec_global_64>;
let SubtargetPredicate = HasGFX10_BEncoding in
defm GLOBAL_ATOMIC_CSUB : FLAT_Global_Atomic_Pseudo_RTN <"global_atomic_csub",
VGPR_32, i32, int_amdgcn_global_atomic_csub>;
} // End is_flat_global = 1
let SubtargetPredicate = HasFlatScratchInsts in {
defm SCRATCH_LOAD_UBYTE : FLAT_Scratch_Load_Pseudo <"scratch_load_ubyte", VGPR_32>;
defm SCRATCH_LOAD_SBYTE : FLAT_Scratch_Load_Pseudo <"scratch_load_sbyte", VGPR_32>;
defm SCRATCH_LOAD_USHORT : FLAT_Scratch_Load_Pseudo <"scratch_load_ushort", VGPR_32>;
defm SCRATCH_LOAD_SSHORT : FLAT_Scratch_Load_Pseudo <"scratch_load_sshort", VGPR_32>;
defm SCRATCH_LOAD_DWORD : FLAT_Scratch_Load_Pseudo <"scratch_load_dword", VGPR_32>;
defm SCRATCH_LOAD_DWORDX2 : FLAT_Scratch_Load_Pseudo <"scratch_load_dwordx2", VReg_64>;
defm SCRATCH_LOAD_DWORDX3 : FLAT_Scratch_Load_Pseudo <"scratch_load_dwordx3", VReg_96>;
defm SCRATCH_LOAD_DWORDX4 : FLAT_Scratch_Load_Pseudo <"scratch_load_dwordx4", VReg_128>;
defm SCRATCH_LOAD_UBYTE_D16 : FLAT_Scratch_Load_Pseudo <"scratch_load_ubyte_d16", VGPR_32>;
defm SCRATCH_LOAD_UBYTE_D16_HI : FLAT_Scratch_Load_Pseudo <"scratch_load_ubyte_d16_hi", VGPR_32>;
defm SCRATCH_LOAD_SBYTE_D16 : FLAT_Scratch_Load_Pseudo <"scratch_load_sbyte_d16", VGPR_32>;
defm SCRATCH_LOAD_SBYTE_D16_HI : FLAT_Scratch_Load_Pseudo <"scratch_load_sbyte_d16_hi", VGPR_32>;
defm SCRATCH_LOAD_SHORT_D16 : FLAT_Scratch_Load_Pseudo <"scratch_load_short_d16", VGPR_32>;
defm SCRATCH_LOAD_SHORT_D16_HI : FLAT_Scratch_Load_Pseudo <"scratch_load_short_d16_hi", VGPR_32>;
defm SCRATCH_STORE_BYTE : FLAT_Scratch_Store_Pseudo <"scratch_store_byte", VGPR_32>;
defm SCRATCH_STORE_SHORT : FLAT_Scratch_Store_Pseudo <"scratch_store_short", VGPR_32>;
defm SCRATCH_STORE_DWORD : FLAT_Scratch_Store_Pseudo <"scratch_store_dword", VGPR_32>;
defm SCRATCH_STORE_DWORDX2 : FLAT_Scratch_Store_Pseudo <"scratch_store_dwordx2", VReg_64>;
defm SCRATCH_STORE_DWORDX3 : FLAT_Scratch_Store_Pseudo <"scratch_store_dwordx3", VReg_96>;
defm SCRATCH_STORE_DWORDX4 : FLAT_Scratch_Store_Pseudo <"scratch_store_dwordx4", VReg_128>;
defm SCRATCH_STORE_BYTE_D16_HI : FLAT_Scratch_Store_Pseudo <"scratch_store_byte_d16_hi", VGPR_32>;
defm SCRATCH_STORE_SHORT_D16_HI : FLAT_Scratch_Store_Pseudo <"scratch_store_short_d16_hi", VGPR_32>;
} // End SubtargetPredicate = HasFlatScratchInsts
let SubtargetPredicate = isGFX10Plus, is_flat_global = 1 in {
defm GLOBAL_ATOMIC_FCMPSWAP :
FLAT_Global_Atomic_Pseudo<"global_atomic_fcmpswap", VGPR_32, f32>;
defm GLOBAL_ATOMIC_FMIN :
FLAT_Global_Atomic_Pseudo<"global_atomic_fmin", VGPR_32, f32>;
defm GLOBAL_ATOMIC_FMAX :
FLAT_Global_Atomic_Pseudo<"global_atomic_fmax", VGPR_32, f32>;
defm GLOBAL_ATOMIC_FCMPSWAP_X2 :
FLAT_Global_Atomic_Pseudo<"global_atomic_fcmpswap_x2", VReg_64, f64>;
defm GLOBAL_ATOMIC_FMIN_X2 :
FLAT_Global_Atomic_Pseudo<"global_atomic_fmin_x2", VReg_64, f64>;
defm GLOBAL_ATOMIC_FMAX_X2 :
FLAT_Global_Atomic_Pseudo<"global_atomic_fmax_x2", VReg_64, f64>;
} // End SubtargetPredicate = isGFX10Plus, is_flat_global = 1
let is_flat_global = 1 in {
let OtherPredicates = [HasAtomicFaddInsts] in {
defm GLOBAL_ATOMIC_ADD_F32 : FLAT_Global_Atomic_Pseudo_NO_RTN <
"global_atomic_add_f32", VGPR_32, f32
>;
defm GLOBAL_ATOMIC_PK_ADD_F16 : FLAT_Global_Atomic_Pseudo_NO_RTN <
"global_atomic_pk_add_f16", VGPR_32, v2f16
>;
} // End OtherPredicates = [HasAtomicFaddInsts]
} // End is_flat_global = 1
//===----------------------------------------------------------------------===//
// Flat Patterns
//===----------------------------------------------------------------------===//
// Patterns for global loads with no offset.
class FlatLoadPat <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(vt (node (FLATOffset i64:$vaddr, i16:$offset))),
(inst $vaddr, $offset)
>;
class FlatLoadPat_D16 <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(node (FLATOffset (i64 VReg_64:$vaddr), i16:$offset), vt:$in),
(inst $vaddr, $offset, 0, 0, 0, $in)
>;
class FlatSignedLoadPat_D16 <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(node (FLATOffsetSigned (i64 VReg_64:$vaddr), i16:$offset), vt:$in),
(inst $vaddr, $offset, 0, 0, 0, $in)
>;
class GlobalLoadSaddrPat_D16 <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(vt (node (GlobalSAddr (i64 SReg_64:$saddr), (i32 VGPR_32:$voffset), i16:$offset), vt:$in)),
(inst $saddr, $voffset, $offset, 0, 0, 0, $in)
>;
class FlatLoadSignedPat <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(vt (node (FLATOffsetSigned (i64 VReg_64:$vaddr), i16:$offset))),
(inst $vaddr, $offset)
>;
class GlobalLoadSaddrPat <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(vt (node (GlobalSAddr (i64 SReg_64:$saddr), (i32 VGPR_32:$voffset), i16:$offset))),
(inst $saddr, $voffset, $offset, 0, 0, 0)
>;
class GlobalStoreSaddrPat <FLAT_Pseudo inst, SDPatternOperator node,
ValueType vt> : GCNPat <
(node vt:$data, (GlobalSAddr (i64 SReg_64:$saddr), (i32 VGPR_32:$voffset), i16:$offset)),
(inst $voffset, getVregSrcForVT<vt>.ret:$data, $saddr, $offset)
>;
class GlobalAtomicStoreSaddrPat <FLAT_Pseudo inst, SDPatternOperator node,
ValueType vt> : GCNPat <
(node (GlobalSAddr (i64 SReg_64:$saddr), (i32 VGPR_32:$voffset), i16:$offset), vt:$data),
(inst $voffset, getVregSrcForVT<vt>.ret:$data, $saddr, $offset)
>;
class GlobalAtomicSaddrPat <FLAT_Pseudo inst, SDPatternOperator node,
ValueType vt, ValueType data_vt = vt> : GCNPat <
(vt (node (GlobalSAddr (i64 SReg_64:$saddr), (i32 VGPR_32:$voffset), i16:$offset), data_vt:$data)),
(inst $voffset, getVregSrcForVT<data_vt>.ret:$data, $saddr, $offset)
>;
class GlobalAtomicNoRtnSaddrPat <FLAT_Pseudo inst, SDPatternOperator node,
ValueType vt> : GCNPat <
(node (GlobalSAddr (i64 SReg_64:$saddr), (i32 VGPR_32:$voffset), i16:$offset), vt:$data),
(inst $voffset, getVregSrcForVT<vt>.ret:$data, $saddr, $offset)
>;
class FlatStorePat <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(node vt:$data, (FLATOffset i64:$vaddr, i16:$offset)),
(inst $vaddr, getVregSrcForVT<vt>.ret:$data, $offset)
>;
class FlatStoreSignedPat <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(node vt:$data, (FLATOffsetSigned i64:$vaddr, i16:$offset)),
(inst $vaddr, getVregSrcForVT<vt>.ret:$data, $offset)
>;
class FlatStoreAtomicPat <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
// atomic store follows atomic binop convention so the address comes
// first.
(node (FLATOffset i64:$vaddr, i16:$offset), vt:$data),
(inst $vaddr, getVregSrcForVT<vt>.ret:$data, $offset)
>;
class FlatStoreSignedAtomicPat <FLAT_Pseudo inst, SDPatternOperator node,
ValueType vt, ValueType data_vt = vt> : GCNPat <
// atomic store follows atomic binop convention so the address comes
// first.
(node (FLATOffset i64:$vaddr, i16:$offset), data_vt:$data),
(inst $vaddr, getVregSrcForVT<data_vt>.ret:$data, $offset)
>;
class FlatAtomicPat <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt,
ValueType data_vt = vt> : GCNPat <
(vt (node (FLATOffset i64:$vaddr, i16:$offset), data_vt:$data)),
(inst $vaddr, $data, $offset)
>;
class FlatAtomicPatNoRtn <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(node (FLATOffset i64:$vaddr, i16:$offset), vt:$data),
(inst VReg_64:$vaddr, getVregSrcForVT<vt>.ret:$data, $offset)
>;
class FlatSignedAtomicPatNoRtn <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> : GCNPat <
(node (FLATOffsetSigned i64:$vaddr, i16:$offset), vt:$data),
(inst VReg_64:$vaddr, getVregSrcForVT<vt>.ret:$data, $offset)
>;
class FlatSignedAtomicPat <FLAT_Pseudo inst, SDPatternOperator node, ValueType vt,
ValueType data_vt = vt> : GCNPat <
(vt (node (FLATOffsetSigned i64:$vaddr, i16:$offset), data_vt:$data)),
(inst $vaddr, $data, $offset)
>;
let OtherPredicates = [HasFlatAddressSpace] in {
def : FlatLoadPat <FLAT_LOAD_UBYTE, extloadi8_flat, i32>;
def : FlatLoadPat <FLAT_LOAD_UBYTE, zextloadi8_flat, i32>;
def : FlatLoadPat <FLAT_LOAD_SBYTE, sextloadi8_flat, i32>;
def : FlatLoadPat <FLAT_LOAD_UBYTE, extloadi8_flat, i16>;
def : FlatLoadPat <FLAT_LOAD_UBYTE, zextloadi8_flat, i16>;
def : FlatLoadPat <FLAT_LOAD_SBYTE, sextloadi8_flat, i16>;
def : FlatLoadPat <FLAT_LOAD_USHORT, extloadi16_flat, i32>;
def : FlatLoadPat <FLAT_LOAD_USHORT, zextloadi16_flat, i32>;
def : FlatLoadPat <FLAT_LOAD_USHORT, load_flat, i16>;
def : FlatLoadPat <FLAT_LOAD_SSHORT, sextloadi16_flat, i32>;
def : FlatLoadPat <FLAT_LOAD_DWORDX3, load_flat, v3i32>;
def : FlatLoadPat <FLAT_LOAD_DWORD, atomic_load_32_flat, i32>;
def : FlatLoadPat <FLAT_LOAD_DWORDX2, atomic_load_64_flat, i64>;
def : FlatStorePat <FLAT_STORE_BYTE, truncstorei8_flat, i32>;
def : FlatStorePat <FLAT_STORE_SHORT, truncstorei16_flat, i32>;
foreach vt = Reg32Types.types in {
def : FlatLoadPat <FLAT_LOAD_DWORD, load_flat, vt>;
def : FlatStorePat <FLAT_STORE_DWORD, store_flat, vt>;
}
foreach vt = VReg_64.RegTypes in {
def : FlatStorePat <FLAT_STORE_DWORDX2, store_flat, vt>;
def : FlatLoadPat <FLAT_LOAD_DWORDX2, load_flat, vt>;
}
def : FlatStorePat <FLAT_STORE_DWORDX3, store_flat, v3i32>;
foreach vt = VReg_128.RegTypes in {
def : FlatLoadPat <FLAT_LOAD_DWORDX4, load_flat, vt>;
def : FlatStorePat <FLAT_STORE_DWORDX4, store_flat, vt>;
}
def : FlatStoreAtomicPat <FLAT_STORE_DWORD, atomic_store_flat_32, i32>;
def : FlatStoreAtomicPat <FLAT_STORE_DWORDX2, atomic_store_flat_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_ADD_RTN, atomic_load_add_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_SUB_RTN, atomic_load_sub_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_INC_RTN, atomic_inc_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_DEC_RTN, atomic_dec_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_AND_RTN, atomic_load_and_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_SMAX_RTN, atomic_load_max_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_UMAX_RTN, atomic_load_umax_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_SMIN_RTN, atomic_load_min_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_UMIN_RTN, atomic_load_umin_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_OR_RTN, atomic_load_or_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_SWAP_RTN, atomic_swap_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_CMPSWAP_RTN, AMDGPUatomic_cmp_swap_global_32, i32, v2i32>;
def : FlatAtomicPat <FLAT_ATOMIC_XOR_RTN, atomic_load_xor_global_32, i32>;
def : FlatAtomicPat <FLAT_ATOMIC_ADD_X2_RTN, atomic_load_add_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_SUB_X2_RTN, atomic_load_sub_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_INC_X2_RTN, atomic_inc_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_DEC_X2_RTN, atomic_dec_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_AND_X2_RTN, atomic_load_and_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_SMAX_X2_RTN, atomic_load_max_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_UMAX_X2_RTN, atomic_load_umax_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_SMIN_X2_RTN, atomic_load_min_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_UMIN_X2_RTN, atomic_load_umin_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_OR_X2_RTN, atomic_load_or_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_SWAP_X2_RTN, atomic_swap_global_64, i64>;
def : FlatAtomicPat <FLAT_ATOMIC_CMPSWAP_X2_RTN, AMDGPUatomic_cmp_swap_global_64, i64, v2i64>;
def : FlatAtomicPat <FLAT_ATOMIC_XOR_X2_RTN, atomic_load_xor_global_64, i64>;
def : FlatStorePat <FLAT_STORE_BYTE, truncstorei8_flat, i16>;
def : FlatStorePat <FLAT_STORE_SHORT, store_flat, i16>;
let OtherPredicates = [D16PreservesUnusedBits] in {
def : FlatStorePat <FLAT_STORE_SHORT_D16_HI, truncstorei16_hi16_flat, i32>;
def : FlatStorePat <FLAT_STORE_BYTE_D16_HI, truncstorei8_hi16_flat, i32>;
def : FlatLoadPat_D16 <FLAT_LOAD_UBYTE_D16_HI, az_extloadi8_d16_hi_flat, v2i16>;
def : FlatLoadPat_D16 <FLAT_LOAD_UBYTE_D16_HI, az_extloadi8_d16_hi_flat, v2f16>;
def : FlatLoadPat_D16 <FLAT_LOAD_SBYTE_D16_HI, sextloadi8_d16_hi_flat, v2i16>;
def : FlatLoadPat_D16 <FLAT_LOAD_SBYTE_D16_HI, sextloadi8_d16_hi_flat, v2f16>;
def : FlatLoadPat_D16 <FLAT_LOAD_SHORT_D16_HI, load_d16_hi_flat, v2i16>;
def : FlatLoadPat_D16 <FLAT_LOAD_SHORT_D16_HI, load_d16_hi_flat, v2f16>;
def : FlatLoadPat_D16 <FLAT_LOAD_UBYTE_D16, az_extloadi8_d16_lo_flat, v2i16>;
def : FlatLoadPat_D16 <FLAT_LOAD_UBYTE_D16, az_extloadi8_d16_lo_flat, v2f16>;
def : FlatLoadPat_D16 <FLAT_LOAD_SBYTE_D16, sextloadi8_d16_lo_flat, v2i16>;
def : FlatLoadPat_D16 <FLAT_LOAD_SBYTE_D16, sextloadi8_d16_lo_flat, v2f16>;
def : FlatLoadPat_D16 <FLAT_LOAD_SHORT_D16, load_d16_lo_flat, v2i16>;
def : FlatLoadPat_D16 <FLAT_LOAD_SHORT_D16, load_d16_lo_flat, v2f16>;
}
} // End OtherPredicates = [HasFlatAddressSpace]
multiclass GlobalFLATLoadPats<FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> {
def : FlatLoadSignedPat <inst, node, vt> {
let AddedComplexity = 10;
}
def : GlobalLoadSaddrPat<!cast<FLAT_Pseudo>(!cast<string>(inst)#"_SADDR"), node, vt> {
let AddedComplexity = 11;
}
}
multiclass GlobalFLATLoadPats_D16<FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> {
def : FlatSignedLoadPat_D16 <inst, node, vt> {
let AddedComplexity = 10;
}
def : GlobalLoadSaddrPat_D16<!cast<FLAT_Pseudo>(!cast<string>(inst)#"_SADDR"), node, vt> {
let AddedComplexity = 11;
}
}
multiclass GlobalFLATStorePats<FLAT_Pseudo inst, SDPatternOperator node,
ValueType vt> {
def : FlatStoreSignedPat <inst, node, vt> {
let AddedComplexity = 10;
}
def : GlobalStoreSaddrPat<!cast<FLAT_Pseudo>(!cast<string>(inst)#"_SADDR"), node, vt> {
let AddedComplexity = 11;
}
}
// Deal with swapped operands for atomic_store vs. regular store
multiclass GlobalFLATAtomicStorePats<FLAT_Pseudo inst, SDPatternOperator node, ValueType vt> {
def : FlatStoreSignedAtomicPat <inst, node, vt> {
let AddedComplexity = 10;
}
def : GlobalAtomicStoreSaddrPat<!cast<FLAT_Pseudo>(!cast<string>(inst)#"_SADDR"), node, vt> {
let AddedComplexity = 11;
}
}
multiclass GlobalFLATAtomicPats<string nortn_inst_name, SDPatternOperator node,
ValueType vt, ValueType data_vt = vt> {
def : FlatSignedAtomicPat <!cast<FLAT_Pseudo>(nortn_inst_name#"_RTN"), node, vt, data_vt> {
let AddedComplexity = 10;
}
def : GlobalAtomicSaddrPat<!cast<FLAT_Pseudo>(nortn_inst_name#"_SADDR_RTN"), node, vt, data_vt> {
let AddedComplexity = 11;
}
}
multiclass GlobalFLATNoRtnAtomicPats<FLAT_Pseudo inst, SDPatternOperator node,
ValueType vt> {
def : FlatSignedAtomicPatNoRtn <inst, node, vt> {
let AddedComplexity = 10;
}
def : GlobalAtomicNoRtnSaddrPat<!cast<FLAT_Pseudo>(!cast<string>(inst)#"_SADDR"), node, vt> {
let AddedComplexity = 11;
}
}
let OtherPredicates = [HasFlatGlobalInsts] in {
defm : GlobalFLATLoadPats <GLOBAL_LOAD_UBYTE, extloadi8_global, i32>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_UBYTE, zextloadi8_global, i32>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_SBYTE, sextloadi8_global, i32>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_UBYTE, extloadi8_global, i16>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_UBYTE, zextloadi8_global, i16>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_SBYTE, sextloadi8_global, i16>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_USHORT, extloadi16_global, i32>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_USHORT, zextloadi16_global, i32>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_SSHORT, sextloadi16_global, i32>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_USHORT, load_global, i16>;
foreach vt = Reg32Types.types in {
defm : GlobalFLATLoadPats <GLOBAL_LOAD_DWORD, load_global, vt>;
defm : GlobalFLATStorePats <GLOBAL_STORE_DWORD, store_global, vt>;
}
foreach vt = VReg_64.RegTypes in {
defm : GlobalFLATLoadPats <GLOBAL_LOAD_DWORDX2, load_global, vt>;
defm : GlobalFLATStorePats <GLOBAL_STORE_DWORDX2, store_global, vt>;
}
defm : GlobalFLATLoadPats <GLOBAL_LOAD_DWORDX3, load_global, v3i32>;
foreach vt = VReg_128.RegTypes in {
defm : GlobalFLATLoadPats <GLOBAL_LOAD_DWORDX4, load_global, vt>;
defm : GlobalFLATStorePats <GLOBAL_STORE_DWORDX4, store_global, vt>;
}
// There is no distinction for atomic load lowering during selection;
// the memory legalizer will set the cache bits and insert the
// appropriate waits.
defm : GlobalFLATLoadPats <GLOBAL_LOAD_DWORD, atomic_load_32_global, i32>;
defm : GlobalFLATLoadPats <GLOBAL_LOAD_DWORDX2, atomic_load_64_global, i64>;
defm : GlobalFLATStorePats <GLOBAL_STORE_BYTE, truncstorei8_global, i32>;
defm : GlobalFLATStorePats <GLOBAL_STORE_BYTE, truncstorei8_global, i16>;
defm : GlobalFLATStorePats <GLOBAL_STORE_SHORT, truncstorei16_global, i32>;
defm : GlobalFLATStorePats <GLOBAL_STORE_SHORT, store_global, i16>;
defm : GlobalFLATStorePats <GLOBAL_STORE_DWORDX3, store_global, v3i32>;
let OtherPredicates = [D16PreservesUnusedBits] in {
defm : GlobalFLATStorePats <GLOBAL_STORE_SHORT_D16_HI, truncstorei16_hi16_global, i32>;
defm : GlobalFLATStorePats <GLOBAL_STORE_BYTE_D16_HI, truncstorei8_hi16_global, i32>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_UBYTE_D16_HI, az_extloadi8_d16_hi_global, v2i16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_UBYTE_D16_HI, az_extloadi8_d16_hi_global, v2f16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_SBYTE_D16_HI, sextloadi8_d16_hi_global, v2i16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_SBYTE_D16_HI, sextloadi8_d16_hi_global, v2f16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_SHORT_D16_HI, load_d16_hi_global, v2i16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_SHORT_D16_HI, load_d16_hi_global, v2f16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_UBYTE_D16, az_extloadi8_d16_lo_global, v2i16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_UBYTE_D16, az_extloadi8_d16_lo_global, v2f16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_SBYTE_D16, sextloadi8_d16_lo_global, v2i16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_SBYTE_D16, sextloadi8_d16_lo_global, v2f16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_SHORT_D16, load_d16_lo_global, v2i16>;
defm : GlobalFLATLoadPats_D16 <GLOBAL_LOAD_SHORT_D16, load_d16_lo_global, v2f16>;
}
defm : GlobalFLATAtomicStorePats <GLOBAL_STORE_DWORD, atomic_store_global_32, i32>;
defm : GlobalFLATAtomicStorePats <GLOBAL_STORE_DWORDX2, atomic_store_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_ADD", atomic_load_add_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_SUB", atomic_load_sub_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_INC", atomic_inc_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_DEC", atomic_dec_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_AND", atomic_load_and_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_SMAX", atomic_load_max_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_UMAX", atomic_load_umax_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_SMIN", atomic_load_min_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_UMIN", atomic_load_umin_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_OR", atomic_load_or_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_SWAP", atomic_swap_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_CMPSWAP", AMDGPUatomic_cmp_swap_global_32, i32, v2i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_XOR", atomic_load_xor_global_32, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_CSUB", int_amdgcn_global_atomic_csub, i32>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_ADD_X2", atomic_load_add_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_SUB_X2", atomic_load_sub_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_INC_X2", atomic_inc_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_DEC_X2", atomic_dec_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_AND_X2", atomic_load_and_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_SMAX_X2", atomic_load_max_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_UMAX_X2", atomic_load_umax_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_SMIN_X2", atomic_load_min_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_UMIN_X2", atomic_load_umin_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_OR_X2", atomic_load_or_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_SWAP_X2", atomic_swap_global_64, i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_CMPSWAP_X2", AMDGPUatomic_cmp_swap_global_64, i64, v2i64>;
defm : GlobalFLATAtomicPats <"GLOBAL_ATOMIC_XOR_X2", atomic_load_xor_global_64, i64>;
let OtherPredicates = [HasAtomicFaddInsts] in {
defm : GlobalFLATNoRtnAtomicPats <GLOBAL_ATOMIC_ADD_F32, atomic_load_fadd_global_noret_32, f32>;
defm : GlobalFLATNoRtnAtomicPats <GLOBAL_ATOMIC_PK_ADD_F16, atomic_load_fadd_v2f16_global_noret_32, v2f16>;
}
} // End OtherPredicates = [HasFlatGlobalInsts], AddedComplexity = 10
//===----------------------------------------------------------------------===//
// Target
//===----------------------------------------------------------------------===//
//===----------------------------------------------------------------------===//
// CI
//===----------------------------------------------------------------------===//
class FLAT_Real_ci <bits<7> op, FLAT_Pseudo ps> :
FLAT_Real <op, ps>,
SIMCInstr <ps.PseudoInstr, SIEncodingFamily.SI> {
let AssemblerPredicate = isGFX7Only;
let DecoderNamespace="GFX7";
}
def FLAT_LOAD_UBYTE_ci : FLAT_Real_ci <0x8, FLAT_LOAD_UBYTE>;
def FLAT_LOAD_SBYTE_ci : FLAT_Real_ci <0x9, FLAT_LOAD_SBYTE>;
def FLAT_LOAD_USHORT_ci : FLAT_Real_ci <0xa, FLAT_LOAD_USHORT>;
def FLAT_LOAD_SSHORT_ci : FLAT_Real_ci <0xb, FLAT_LOAD_SSHORT>;
def FLAT_LOAD_DWORD_ci : FLAT_Real_ci <0xc, FLAT_LOAD_DWORD>;
def FLAT_LOAD_DWORDX2_ci : FLAT_Real_ci <0xd, FLAT_LOAD_DWORDX2>;
def FLAT_LOAD_DWORDX4_ci : FLAT_Real_ci <0xe, FLAT_LOAD_DWORDX4>;
def FLAT_LOAD_DWORDX3_ci : FLAT_Real_ci <0xf, FLAT_LOAD_DWORDX3>;
def FLAT_STORE_BYTE_ci : FLAT_Real_ci <0x18, FLAT_STORE_BYTE>;
def FLAT_STORE_SHORT_ci : FLAT_Real_ci <0x1a, FLAT_STORE_SHORT>;
def FLAT_STORE_DWORD_ci : FLAT_Real_ci <0x1c, FLAT_STORE_DWORD>;
def FLAT_STORE_DWORDX2_ci : FLAT_Real_ci <0x1d, FLAT_STORE_DWORDX2>;
def FLAT_STORE_DWORDX4_ci : FLAT_Real_ci <0x1e, FLAT_STORE_DWORDX4>;
def FLAT_STORE_DWORDX3_ci : FLAT_Real_ci <0x1f, FLAT_STORE_DWORDX3>;
multiclass FLAT_Real_Atomics_ci <bits<7> op, FLAT_Pseudo ps> {
def _ci : FLAT_Real_ci<op, !cast<FLAT_Pseudo>(ps.PseudoInstr)>;
def _RTN_ci : FLAT_Real_ci<op, !cast<FLAT_Pseudo>(ps.PseudoInstr # "_RTN")>;
}
defm FLAT_ATOMIC_SWAP : FLAT_Real_Atomics_ci <0x30, FLAT_ATOMIC_SWAP>;
defm FLAT_ATOMIC_CMPSWAP : FLAT_Real_Atomics_ci <0x31, FLAT_ATOMIC_CMPSWAP>;
defm FLAT_ATOMIC_ADD : FLAT_Real_Atomics_ci <0x32, FLAT_ATOMIC_ADD>;
defm FLAT_ATOMIC_SUB : FLAT_Real_Atomics_ci <0x33, FLAT_ATOMIC_SUB>;
defm FLAT_ATOMIC_SMIN : FLAT_Real_Atomics_ci <0x35, FLAT_ATOMIC_SMIN>;
defm FLAT_ATOMIC_UMIN : FLAT_Real_Atomics_ci <0x36, FLAT_ATOMIC_UMIN>;
defm FLAT_ATOMIC_SMAX : FLAT_Real_Atomics_ci <0x37, FLAT_ATOMIC_SMAX>;
defm FLAT_ATOMIC_UMAX : FLAT_Real_Atomics_ci <0x38, FLAT_ATOMIC_UMAX>;
defm FLAT_ATOMIC_AND : FLAT_Real_Atomics_ci <0x39, FLAT_ATOMIC_AND>;
defm FLAT_ATOMIC_OR : FLAT_Real_Atomics_ci <0x3a, FLAT_ATOMIC_OR>;
defm FLAT_ATOMIC_XOR : FLAT_Real_Atomics_ci <0x3b, FLAT_ATOMIC_XOR>;
defm FLAT_ATOMIC_INC : FLAT_Real_Atomics_ci <0x3c, FLAT_ATOMIC_INC>;
defm FLAT_ATOMIC_DEC : FLAT_Real_Atomics_ci <0x3d, FLAT_ATOMIC_DEC>;
defm FLAT_ATOMIC_SWAP_X2 : FLAT_Real_Atomics_ci <0x50, FLAT_ATOMIC_SWAP_X2>;
defm FLAT_ATOMIC_CMPSWAP_X2 : FLAT_Real_Atomics_ci <0x51, FLAT_ATOMIC_CMPSWAP_X2>;
defm FLAT_ATOMIC_ADD_X2 : FLAT_Real_Atomics_ci <0x52, FLAT_ATOMIC_ADD_X2>;
defm FLAT_ATOMIC_SUB_X2 : FLAT_Real_Atomics_ci <0x53, FLAT_ATOMIC_SUB_X2>;
defm FLAT_ATOMIC_SMIN_X2 : FLAT_Real_Atomics_ci <0x55, FLAT_ATOMIC_SMIN_X2>;
defm FLAT_ATOMIC_UMIN_X2 : FLAT_Real_Atomics_ci <0x56, FLAT_ATOMIC_UMIN_X2>;
defm FLAT_ATOMIC_SMAX_X2 : FLAT_Real_Atomics_ci <0x57, FLAT_ATOMIC_SMAX_X2>;
defm FLAT_ATOMIC_UMAX_X2 : FLAT_Real_Atomics_ci <0x58, FLAT_ATOMIC_UMAX_X2>;
defm FLAT_ATOMIC_AND_X2 : FLAT_Real_Atomics_ci <0x59, FLAT_ATOMIC_AND_X2>;
defm FLAT_ATOMIC_OR_X2 : FLAT_Real_Atomics_ci <0x5a, FLAT_ATOMIC_OR_X2>;
defm FLAT_ATOMIC_XOR_X2 : FLAT_Real_Atomics_ci <0x5b, FLAT_ATOMIC_XOR_X2>;
defm FLAT_ATOMIC_INC_X2 : FLAT_Real_Atomics_ci <0x5c, FLAT_ATOMIC_INC_X2>;
defm FLAT_ATOMIC_DEC_X2 : FLAT_Real_Atomics_ci <0x5d, FLAT_ATOMIC_DEC_X2>;
// CI Only flat instructions
defm FLAT_ATOMIC_FCMPSWAP : FLAT_Real_Atomics_ci <0x3e, FLAT_ATOMIC_FCMPSWAP>;
defm FLAT_ATOMIC_FMIN : FLAT_Real_Atomics_ci <0x3f, FLAT_ATOMIC_FMIN>;
defm FLAT_ATOMIC_FMAX : FLAT_Real_Atomics_ci <0x40, FLAT_ATOMIC_FMAX>;
defm FLAT_ATOMIC_FCMPSWAP_X2 : FLAT_Real_Atomics_ci <0x5e, FLAT_ATOMIC_FCMPSWAP_X2>;
defm FLAT_ATOMIC_FMIN_X2 : FLAT_Real_Atomics_ci <0x5f, FLAT_ATOMIC_FMIN_X2>;
defm FLAT_ATOMIC_FMAX_X2 : FLAT_Real_Atomics_ci <0x60, FLAT_ATOMIC_FMAX_X2>;
//===----------------------------------------------------------------------===//
// VI
//===----------------------------------------------------------------------===//
class FLAT_Real_vi <bits<7> op, FLAT_Pseudo ps> :
FLAT_Real <op, ps>,
SIMCInstr <ps.PseudoInstr, SIEncodingFamily.VI> {
let AssemblerPredicate = isGFX8GFX9;
let DecoderNamespace = "GFX8";
}
multiclass FLAT_Real_AllAddr_vi<bits<7> op> {
def _vi : FLAT_Real_vi<op, !cast<FLAT_Pseudo>(NAME)>;
def _SADDR_vi : FLAT_Real_vi<op, !cast<FLAT_Pseudo>(NAME#"_SADDR")>;
}
def FLAT_LOAD_UBYTE_vi : FLAT_Real_vi <0x10, FLAT_LOAD_UBYTE>;
def FLAT_LOAD_SBYTE_vi : FLAT_Real_vi <0x11, FLAT_LOAD_SBYTE>;
def FLAT_LOAD_USHORT_vi : FLAT_Real_vi <0x12, FLAT_LOAD_USHORT>;
def FLAT_LOAD_SSHORT_vi : FLAT_Real_vi <0x13, FLAT_LOAD_SSHORT>;
def FLAT_LOAD_DWORD_vi : FLAT_Real_vi <0x14, FLAT_LOAD_DWORD>;
def FLAT_LOAD_DWORDX2_vi : FLAT_Real_vi <0x15, FLAT_LOAD_DWORDX2>;
def FLAT_LOAD_DWORDX4_vi : FLAT_Real_vi <0x17, FLAT_LOAD_DWORDX4>;
def FLAT_LOAD_DWORDX3_vi : FLAT_Real_vi <0x16, FLAT_LOAD_DWORDX3>;
def FLAT_STORE_BYTE_vi : FLAT_Real_vi <0x18, FLAT_STORE_BYTE>;
def FLAT_STORE_BYTE_D16_HI_vi : FLAT_Real_vi <0x19, FLAT_STORE_BYTE_D16_HI>;
def FLAT_STORE_SHORT_vi : FLAT_Real_vi <0x1a, FLAT_STORE_SHORT>;
def FLAT_STORE_SHORT_D16_HI_vi : FLAT_Real_vi <0x1b, FLAT_STORE_SHORT_D16_HI>;
def FLAT_STORE_DWORD_vi : FLAT_Real_vi <0x1c, FLAT_STORE_DWORD>;
def FLAT_STORE_DWORDX2_vi : FLAT_Real_vi <0x1d, FLAT_STORE_DWORDX2>;
def FLAT_STORE_DWORDX4_vi : FLAT_Real_vi <0x1f, FLAT_STORE_DWORDX4>;
def FLAT_STORE_DWORDX3_vi : FLAT_Real_vi <0x1e, FLAT_STORE_DWORDX3>;
def FLAT_LOAD_UBYTE_D16_vi : FLAT_Real_vi <0x20, FLAT_LOAD_UBYTE_D16>;
def FLAT_LOAD_UBYTE_D16_HI_vi : FLAT_Real_vi <0x21, FLAT_LOAD_UBYTE_D16_HI>;
def FLAT_LOAD_SBYTE_D16_vi : FLAT_Real_vi <0x22, FLAT_LOAD_SBYTE_D16>;
def FLAT_LOAD_SBYTE_D16_HI_vi : FLAT_Real_vi <0x23, FLAT_LOAD_SBYTE_D16_HI>;
def FLAT_LOAD_SHORT_D16_vi : FLAT_Real_vi <0x24, FLAT_LOAD_SHORT_D16>;
def FLAT_LOAD_SHORT_D16_HI_vi : FLAT_Real_vi <0x25, FLAT_LOAD_SHORT_D16_HI>;
multiclass FLAT_Real_Atomics_vi <bits<7> op, FLAT_Pseudo ps> {
def _vi : FLAT_Real_vi<op, !cast<FLAT_Pseudo>(ps.PseudoInstr)>;
def _RTN_vi : FLAT_Real_vi<op, !cast<FLAT_Pseudo>(ps.PseudoInstr # "_RTN")>;
}
multiclass FLAT_Global_Real_Atomics_vi<bits<7> op> :
FLAT_Real_AllAddr_vi<op> {
def _RTN_vi : FLAT_Real_vi <op, !cast<FLAT_Pseudo>(NAME#"_RTN")>;
def _SADDR_RTN_vi : FLAT_Real_vi <op, !cast<FLAT_Pseudo>(NAME#"_SADDR_RTN")>;
}
defm FLAT_ATOMIC_SWAP : FLAT_Real_Atomics_vi <0x40, FLAT_ATOMIC_SWAP>;
defm FLAT_ATOMIC_CMPSWAP : FLAT_Real_Atomics_vi <0x41, FLAT_ATOMIC_CMPSWAP>;
defm FLAT_ATOMIC_ADD : FLAT_Real_Atomics_vi <0x42, FLAT_ATOMIC_ADD>;
defm FLAT_ATOMIC_SUB : FLAT_Real_Atomics_vi <0x43, FLAT_ATOMIC_SUB>;
defm FLAT_ATOMIC_SMIN : FLAT_Real_Atomics_vi <0x44, FLAT_ATOMIC_SMIN>;
defm FLAT_ATOMIC_UMIN : FLAT_Real_Atomics_vi <0x45, FLAT_ATOMIC_UMIN>;
defm FLAT_ATOMIC_SMAX : FLAT_Real_Atomics_vi <0x46, FLAT_ATOMIC_SMAX>;
defm FLAT_ATOMIC_UMAX : FLAT_Real_Atomics_vi <0x47, FLAT_ATOMIC_UMAX>;
defm FLAT_ATOMIC_AND : FLAT_Real_Atomics_vi <0x48, FLAT_ATOMIC_AND>;
defm FLAT_ATOMIC_OR : FLAT_Real_Atomics_vi <0x49, FLAT_ATOMIC_OR>;
defm FLAT_ATOMIC_XOR : FLAT_Real_Atomics_vi <0x4a, FLAT_ATOMIC_XOR>;
defm FLAT_ATOMIC_INC : FLAT_Real_Atomics_vi <0x4b, FLAT_ATOMIC_INC>;
defm FLAT_ATOMIC_DEC : FLAT_Real_Atomics_vi <0x4c, FLAT_ATOMIC_DEC>;
defm FLAT_ATOMIC_SWAP_X2 : FLAT_Real_Atomics_vi <0x60, FLAT_ATOMIC_SWAP_X2>;
defm FLAT_ATOMIC_CMPSWAP_X2 : FLAT_Real_Atomics_vi <0x61, FLAT_ATOMIC_CMPSWAP_X2>;
defm FLAT_ATOMIC_ADD_X2 : FLAT_Real_Atomics_vi <0x62, FLAT_ATOMIC_ADD_X2>;
defm FLAT_ATOMIC_SUB_X2 : FLAT_Real_Atomics_vi <0x63, FLAT_ATOMIC_SUB_X2>;
defm FLAT_ATOMIC_SMIN_X2 : FLAT_Real_Atomics_vi <0x64, FLAT_ATOMIC_SMIN_X2>;
defm FLAT_ATOMIC_UMIN_X2 : FLAT_Real_Atomics_vi <0x65, FLAT_ATOMIC_UMIN_X2>;
defm FLAT_ATOMIC_SMAX_X2 : FLAT_Real_Atomics_vi <0x66, FLAT_ATOMIC_SMAX_X2>;
defm FLAT_ATOMIC_UMAX_X2 : FLAT_Real_Atomics_vi <0x67, FLAT_ATOMIC_UMAX_X2>;
defm FLAT_ATOMIC_AND_X2 : FLAT_Real_Atomics_vi <0x68, FLAT_ATOMIC_AND_X2>;
defm FLAT_ATOMIC_OR_X2 : FLAT_Real_Atomics_vi <0x69, FLAT_ATOMIC_OR_X2>;
defm FLAT_ATOMIC_XOR_X2 : FLAT_Real_Atomics_vi <0x6a, FLAT_ATOMIC_XOR_X2>;
defm FLAT_ATOMIC_INC_X2 : FLAT_Real_Atomics_vi <0x6b, FLAT_ATOMIC_INC_X2>;
defm FLAT_ATOMIC_DEC_X2 : FLAT_Real_Atomics_vi <0x6c, FLAT_ATOMIC_DEC_X2>;
defm GLOBAL_LOAD_UBYTE : FLAT_Real_AllAddr_vi <0x10>;
defm GLOBAL_LOAD_SBYTE : FLAT_Real_AllAddr_vi <0x11>;
defm GLOBAL_LOAD_USHORT : FLAT_Real_AllAddr_vi <0x12>;
defm GLOBAL_LOAD_SSHORT : FLAT_Real_AllAddr_vi <0x13>;
defm GLOBAL_LOAD_DWORD : FLAT_Real_AllAddr_vi <0x14>;
defm GLOBAL_LOAD_DWORDX2 : FLAT_Real_AllAddr_vi <0x15>;
defm GLOBAL_LOAD_DWORDX3 : FLAT_Real_AllAddr_vi <0x16>;
defm GLOBAL_LOAD_DWORDX4 : FLAT_Real_AllAddr_vi <0x17>;
defm GLOBAL_LOAD_UBYTE_D16 : FLAT_Real_AllAddr_vi <0x20>;
defm GLOBAL_LOAD_UBYTE_D16_HI : FLAT_Real_AllAddr_vi <0x21>;
defm GLOBAL_LOAD_SBYTE_D16 : FLAT_Real_AllAddr_vi <0x22>;
defm GLOBAL_LOAD_SBYTE_D16_HI : FLAT_Real_AllAddr_vi <0x23>;
defm GLOBAL_LOAD_SHORT_D16 : FLAT_Real_AllAddr_vi <0x24>;
defm GLOBAL_LOAD_SHORT_D16_HI : FLAT_Real_AllAddr_vi <0x25>;
defm GLOBAL_STORE_BYTE : FLAT_Real_AllAddr_vi <0x18>;
defm GLOBAL_STORE_BYTE_D16_HI : FLAT_Real_AllAddr_vi <0x19>;
defm GLOBAL_STORE_SHORT : FLAT_Real_AllAddr_vi <0x1a>;
defm GLOBAL_STORE_SHORT_D16_HI : FLAT_Real_AllAddr_vi <0x1b>;
defm GLOBAL_STORE_DWORD : FLAT_Real_AllAddr_vi <0x1c>;
defm GLOBAL_STORE_DWORDX2 : FLAT_Real_AllAddr_vi <0x1d>;
defm GLOBAL_STORE_DWORDX3 : FLAT_Real_AllAddr_vi <0x1e>;
defm GLOBAL_STORE_DWORDX4 : FLAT_Real_AllAddr_vi <0x1f>;
defm GLOBAL_ATOMIC_SWAP : FLAT_Global_Real_Atomics_vi <0x40>;
defm GLOBAL_ATOMIC_CMPSWAP : FLAT_Global_Real_Atomics_vi <0x41>;
defm GLOBAL_ATOMIC_ADD : FLAT_Global_Real_Atomics_vi <0x42>;
defm GLOBAL_ATOMIC_SUB : FLAT_Global_Real_Atomics_vi <0x43>;
defm GLOBAL_ATOMIC_SMIN : FLAT_Global_Real_Atomics_vi <0x44>;
defm GLOBAL_ATOMIC_UMIN : FLAT_Global_Real_Atomics_vi <0x45>;
defm GLOBAL_ATOMIC_SMAX : FLAT_Global_Real_Atomics_vi <0x46>;
defm GLOBAL_ATOMIC_UMAX : FLAT_Global_Real_Atomics_vi <0x47>;
defm GLOBAL_ATOMIC_AND : FLAT_Global_Real_Atomics_vi <0x48>;
defm GLOBAL_ATOMIC_OR : FLAT_Global_Real_Atomics_vi <0x49>;
defm GLOBAL_ATOMIC_XOR : FLAT_Global_Real_Atomics_vi <0x4a>;
defm GLOBAL_ATOMIC_INC : FLAT_Global_Real_Atomics_vi <0x4b>;
defm GLOBAL_ATOMIC_DEC : FLAT_Global_Real_Atomics_vi <0x4c>;
defm GLOBAL_ATOMIC_SWAP_X2 : FLAT_Global_Real_Atomics_vi <0x60>;
defm GLOBAL_ATOMIC_CMPSWAP_X2 : FLAT_Global_Real_Atomics_vi <0x61>;
defm GLOBAL_ATOMIC_ADD_X2 : FLAT_Global_Real_Atomics_vi <0x62>;
defm GLOBAL_ATOMIC_SUB_X2 : FLAT_Global_Real_Atomics_vi <0x63>;
defm GLOBAL_ATOMIC_SMIN_X2 : FLAT_Global_Real_Atomics_vi <0x64>;
defm GLOBAL_ATOMIC_UMIN_X2 : FLAT_Global_Real_Atomics_vi <0x65>;
defm GLOBAL_ATOMIC_SMAX_X2 : FLAT_Global_Real_Atomics_vi <0x66>;
defm GLOBAL_ATOMIC_UMAX_X2 : FLAT_Global_Real_Atomics_vi <0x67>;
defm GLOBAL_ATOMIC_AND_X2 : FLAT_Global_Real_Atomics_vi <0x68>;
defm GLOBAL_ATOMIC_OR_X2 : FLAT_Global_Real_Atomics_vi <0x69>;
defm GLOBAL_ATOMIC_XOR_X2 : FLAT_Global_Real_Atomics_vi <0x6a>;
defm GLOBAL_ATOMIC_INC_X2 : FLAT_Global_Real_Atomics_vi <0x6b>;
defm GLOBAL_ATOMIC_DEC_X2 : FLAT_Global_Real_Atomics_vi <0x6c>;
defm SCRATCH_LOAD_UBYTE : FLAT_Real_AllAddr_vi <0x10>;
defm SCRATCH_LOAD_SBYTE : FLAT_Real_AllAddr_vi <0x11>;
defm SCRATCH_LOAD_USHORT : FLAT_Real_AllAddr_vi <0x12>;
defm SCRATCH_LOAD_SSHORT : FLAT_Real_AllAddr_vi <0x13>;
defm SCRATCH_LOAD_DWORD : FLAT_Real_AllAddr_vi <0x14>;
defm SCRATCH_LOAD_DWORDX2 : FLAT_Real_AllAddr_vi <0x15>;
defm SCRATCH_LOAD_DWORDX3 : FLAT_Real_AllAddr_vi <0x16>;
defm SCRATCH_LOAD_DWORDX4 : FLAT_Real_AllAddr_vi <0x17>;
defm SCRATCH_STORE_BYTE : FLAT_Real_AllAddr_vi <0x18>;
defm SCRATCH_STORE_BYTE_D16_HI : FLAT_Real_AllAddr_vi <0x19>;
defm SCRATCH_LOAD_UBYTE_D16 : FLAT_Real_AllAddr_vi <0x20>;
defm SCRATCH_LOAD_UBYTE_D16_HI : FLAT_Real_AllAddr_vi <0x21>;
defm SCRATCH_LOAD_SBYTE_D16 : FLAT_Real_AllAddr_vi <0x22>;
defm SCRATCH_LOAD_SBYTE_D16_HI : FLAT_Real_AllAddr_vi <0x23>;
defm SCRATCH_LOAD_SHORT_D16 : FLAT_Real_AllAddr_vi <0x24>;
defm SCRATCH_LOAD_SHORT_D16_HI : FLAT_Real_AllAddr_vi <0x25>;
defm SCRATCH_STORE_SHORT : FLAT_Real_AllAddr_vi <0x1a>;
defm SCRATCH_STORE_SHORT_D16_HI : FLAT_Real_AllAddr_vi <0x1b>;
defm SCRATCH_STORE_DWORD : FLAT_Real_AllAddr_vi <0x1c>;
defm SCRATCH_STORE_DWORDX2 : FLAT_Real_AllAddr_vi <0x1d>;
defm SCRATCH_STORE_DWORDX3 : FLAT_Real_AllAddr_vi <0x1e>;
defm SCRATCH_STORE_DWORDX4 : FLAT_Real_AllAddr_vi <0x1f>;
//===----------------------------------------------------------------------===//
// GFX10.
//===----------------------------------------------------------------------===//
class FLAT_Real_gfx10<bits<7> op, FLAT_Pseudo ps> :
FLAT_Real<op, ps>, SIMCInstr<ps.PseudoInstr, SIEncodingFamily.GFX10> {
let AssemblerPredicate = isGFX10Plus;
let DecoderNamespace = "GFX10";
let Inst{11-0} = offset{11-0};
let Inst{12} = !if(ps.has_dlc, dlc, ps.dlcValue);
let Inst{54-48} = !if(ps.has_saddr, !if(ps.enabled_saddr, saddr, 0x7d), 0x7d);
let Inst{55} = 0;
}
multiclass FLAT_Real_Base_gfx10<bits<7> op> {
def _gfx10 :
FLAT_Real_gfx10<op, !cast<FLAT_Pseudo>(NAME)>;
}
multiclass FLAT_Real_RTN_gfx10<bits<7> op> {
def _RTN_gfx10 :
FLAT_Real_gfx10<op, !cast<FLAT_Pseudo>(NAME#"_RTN")>;
}
multiclass FLAT_Real_SADDR_gfx10<bits<7> op> {
def _SADDR_gfx10 :
FLAT_Real_gfx10<op, !cast<FLAT_Pseudo>(NAME#"_SADDR")>;
}
multiclass FLAT_Real_SADDR_RTN_gfx10<bits<7> op> {
def _SADDR_RTN_gfx10 :
FLAT_Real_gfx10<op, !cast<FLAT_Pseudo>(NAME#"_SADDR_RTN")>;
}
multiclass FLAT_Real_AllAddr_gfx10<bits<7> op> :
FLAT_Real_Base_gfx10<op>,
FLAT_Real_SADDR_gfx10<op>;
multiclass FLAT_Real_Atomics_gfx10<bits<7> op> :
FLAT_Real_Base_gfx10<op>,
FLAT_Real_RTN_gfx10<op>;
multiclass FLAT_Real_GlblAtomics_gfx10<bits<7> op> :
FLAT_Real_AllAddr_gfx10<op>,
FLAT_Real_RTN_gfx10<op>,
FLAT_Real_SADDR_RTN_gfx10<op>;
multiclass FLAT_Real_GlblAtomics_RTN_gfx10<bits<7> op> :
FLAT_Real_RTN_gfx10<op>,
FLAT_Real_SADDR_RTN_gfx10<op>;
// ENC_FLAT.
defm FLAT_LOAD_UBYTE : FLAT_Real_Base_gfx10<0x008>;
defm FLAT_LOAD_SBYTE : FLAT_Real_Base_gfx10<0x009>;
defm FLAT_LOAD_USHORT : FLAT_Real_Base_gfx10<0x00a>;
defm FLAT_LOAD_SSHORT : FLAT_Real_Base_gfx10<0x00b>;
defm FLAT_LOAD_DWORD : FLAT_Real_Base_gfx10<0x00c>;
defm FLAT_LOAD_DWORDX2 : FLAT_Real_Base_gfx10<0x00d>;
defm FLAT_LOAD_DWORDX4 : FLAT_Real_Base_gfx10<0x00e>;
defm FLAT_LOAD_DWORDX3 : FLAT_Real_Base_gfx10<0x00f>;
defm FLAT_STORE_BYTE : FLAT_Real_Base_gfx10<0x018>;
defm FLAT_STORE_BYTE_D16_HI : FLAT_Real_Base_gfx10<0x019>;
defm FLAT_STORE_SHORT : FLAT_Real_Base_gfx10<0x01a>;
defm FLAT_STORE_SHORT_D16_HI : FLAT_Real_Base_gfx10<0x01b>;
defm FLAT_STORE_DWORD : FLAT_Real_Base_gfx10<0x01c>;
defm FLAT_STORE_DWORDX2 : FLAT_Real_Base_gfx10<0x01d>;
defm FLAT_STORE_DWORDX4 : FLAT_Real_Base_gfx10<0x01e>;
defm FLAT_STORE_DWORDX3 : FLAT_Real_Base_gfx10<0x01f>;
defm FLAT_LOAD_UBYTE_D16 : FLAT_Real_Base_gfx10<0x020>;
defm FLAT_LOAD_UBYTE_D16_HI : FLAT_Real_Base_gfx10<0x021>;
defm FLAT_LOAD_SBYTE_D16 : FLAT_Real_Base_gfx10<0x022>;
defm FLAT_LOAD_SBYTE_D16_HI : FLAT_Real_Base_gfx10<0x023>;
defm FLAT_LOAD_SHORT_D16 : FLAT_Real_Base_gfx10<0x024>;
defm FLAT_LOAD_SHORT_D16_HI : FLAT_Real_Base_gfx10<0x025>;
defm FLAT_ATOMIC_SWAP : FLAT_Real_Atomics_gfx10<0x030>;
defm FLAT_ATOMIC_CMPSWAP : FLAT_Real_Atomics_gfx10<0x031>;
defm FLAT_ATOMIC_ADD : FLAT_Real_Atomics_gfx10<0x032>;
defm FLAT_ATOMIC_SUB : FLAT_Real_Atomics_gfx10<0x033>;
defm FLAT_ATOMIC_SMIN : FLAT_Real_Atomics_gfx10<0x035>;
defm FLAT_ATOMIC_UMIN : FLAT_Real_Atomics_gfx10<0x036>;
defm FLAT_ATOMIC_SMAX : FLAT_Real_Atomics_gfx10<0x037>;
defm FLAT_ATOMIC_UMAX : FLAT_Real_Atomics_gfx10<0x038>;
defm FLAT_ATOMIC_AND : FLAT_Real_Atomics_gfx10<0x039>;
defm FLAT_ATOMIC_OR : FLAT_Real_Atomics_gfx10<0x03a>;
defm FLAT_ATOMIC_XOR : FLAT_Real_Atomics_gfx10<0x03b>;
defm FLAT_ATOMIC_INC : FLAT_Real_Atomics_gfx10<0x03c>;
defm FLAT_ATOMIC_DEC : FLAT_Real_Atomics_gfx10<0x03d>;
defm FLAT_ATOMIC_FCMPSWAP : FLAT_Real_Atomics_gfx10<0x03e>;
defm FLAT_ATOMIC_FMIN : FLAT_Real_Atomics_gfx10<0x03f>;
defm FLAT_ATOMIC_FMAX : FLAT_Real_Atomics_gfx10<0x040>;
defm FLAT_ATOMIC_SWAP_X2 : FLAT_Real_Atomics_gfx10<0x050>;
defm FLAT_ATOMIC_CMPSWAP_X2 : FLAT_Real_Atomics_gfx10<0x051>;
defm FLAT_ATOMIC_ADD_X2 : FLAT_Real_Atomics_gfx10<0x052>;
defm FLAT_ATOMIC_SUB_X2 : FLAT_Real_Atomics_gfx10<0x053>;
defm FLAT_ATOMIC_SMIN_X2 : FLAT_Real_Atomics_gfx10<0x055>;
defm FLAT_ATOMIC_UMIN_X2 : FLAT_Real_Atomics_gfx10<0x056>;
defm FLAT_ATOMIC_SMAX_X2 : FLAT_Real_Atomics_gfx10<0x057>;
defm FLAT_ATOMIC_UMAX_X2 : FLAT_Real_Atomics_gfx10<0x058>;
defm FLAT_ATOMIC_AND_X2 : FLAT_Real_Atomics_gfx10<0x059>;
defm FLAT_ATOMIC_OR_X2 : FLAT_Real_Atomics_gfx10<0x05a>;
defm FLAT_ATOMIC_XOR_X2 : FLAT_Real_Atomics_gfx10<0x05b>;
defm FLAT_ATOMIC_INC_X2 : FLAT_Real_Atomics_gfx10<0x05c>;
defm FLAT_ATOMIC_DEC_X2 : FLAT_Real_Atomics_gfx10<0x05d>;
defm FLAT_ATOMIC_FCMPSWAP_X2 : FLAT_Real_Atomics_gfx10<0x05e>;
defm FLAT_ATOMIC_FMIN_X2 : FLAT_Real_Atomics_gfx10<0x05f>;
defm FLAT_ATOMIC_FMAX_X2 : FLAT_Real_Atomics_gfx10<0x060>;
// ENC_FLAT_GLBL.
defm GLOBAL_LOAD_UBYTE : FLAT_Real_AllAddr_gfx10<0x008>;
defm GLOBAL_LOAD_SBYTE : FLAT_Real_AllAddr_gfx10<0x009>;
defm GLOBAL_LOAD_USHORT : FLAT_Real_AllAddr_gfx10<0x00a>;
defm GLOBAL_LOAD_SSHORT : FLAT_Real_AllAddr_gfx10<0x00b>;
defm GLOBAL_LOAD_DWORD : FLAT_Real_AllAddr_gfx10<0x00c>;
defm GLOBAL_LOAD_DWORDX2 : FLAT_Real_AllAddr_gfx10<0x00d>;
defm GLOBAL_LOAD_DWORDX4 : FLAT_Real_AllAddr_gfx10<0x00e>;
defm GLOBAL_LOAD_DWORDX3 : FLAT_Real_AllAddr_gfx10<0x00f>;
defm GLOBAL_STORE_BYTE : FLAT_Real_AllAddr_gfx10<0x018>;
defm GLOBAL_STORE_BYTE_D16_HI : FLAT_Real_AllAddr_gfx10<0x019>;
defm GLOBAL_STORE_SHORT : FLAT_Real_AllAddr_gfx10<0x01a>;
defm GLOBAL_STORE_SHORT_D16_HI : FLAT_Real_AllAddr_gfx10<0x01b>;
defm GLOBAL_STORE_DWORD : FLAT_Real_AllAddr_gfx10<0x01c>;
defm GLOBAL_STORE_DWORDX2 : FLAT_Real_AllAddr_gfx10<0x01d>;
defm GLOBAL_STORE_DWORDX4 : FLAT_Real_AllAddr_gfx10<0x01e>;
defm GLOBAL_STORE_DWORDX3 : FLAT_Real_AllAddr_gfx10<0x01f>;
defm GLOBAL_LOAD_UBYTE_D16 : FLAT_Real_AllAddr_gfx10<0x020>;
defm GLOBAL_LOAD_UBYTE_D16_HI : FLAT_Real_AllAddr_gfx10<0x021>;
defm GLOBAL_LOAD_SBYTE_D16 : FLAT_Real_AllAddr_gfx10<0x022>;
defm GLOBAL_LOAD_SBYTE_D16_HI : FLAT_Real_AllAddr_gfx10<0x023>;
defm GLOBAL_LOAD_SHORT_D16 : FLAT_Real_AllAddr_gfx10<0x024>;
defm GLOBAL_LOAD_SHORT_D16_HI : FLAT_Real_AllAddr_gfx10<0x025>;
defm GLOBAL_ATOMIC_SWAP : FLAT_Real_GlblAtomics_gfx10<0x030>;
defm GLOBAL_ATOMIC_CMPSWAP : FLAT_Real_GlblAtomics_gfx10<0x031>;
defm GLOBAL_ATOMIC_ADD : FLAT_Real_GlblAtomics_gfx10<0x032>;
defm GLOBAL_ATOMIC_SUB : FLAT_Real_GlblAtomics_gfx10<0x033>;
defm GLOBAL_ATOMIC_CSUB : FLAT_Real_GlblAtomics_RTN_gfx10<0x034>;
defm GLOBAL_ATOMIC_SMIN : FLAT_Real_GlblAtomics_gfx10<0x035>;
defm GLOBAL_ATOMIC_UMIN : FLAT_Real_GlblAtomics_gfx10<0x036>;
defm GLOBAL_ATOMIC_SMAX : FLAT_Real_GlblAtomics_gfx10<0x037>;
defm GLOBAL_ATOMIC_UMAX : FLAT_Real_GlblAtomics_gfx10<0x038>;
defm GLOBAL_ATOMIC_AND : FLAT_Real_GlblAtomics_gfx10<0x039>;
defm GLOBAL_ATOMIC_OR : FLAT_Real_GlblAtomics_gfx10<0x03a>;
defm GLOBAL_ATOMIC_XOR : FLAT_Real_GlblAtomics_gfx10<0x03b>;
defm GLOBAL_ATOMIC_INC : FLAT_Real_GlblAtomics_gfx10<0x03c>;
defm GLOBAL_ATOMIC_DEC : FLAT_Real_GlblAtomics_gfx10<0x03d>;
defm GLOBAL_ATOMIC_FCMPSWAP : FLAT_Real_GlblAtomics_gfx10<0x03e>;
defm GLOBAL_ATOMIC_FMIN : FLAT_Real_GlblAtomics_gfx10<0x03f>;
defm GLOBAL_ATOMIC_FMAX : FLAT_Real_GlblAtomics_gfx10<0x040>;
defm GLOBAL_ATOMIC_SWAP_X2 : FLAT_Real_GlblAtomics_gfx10<0x050>;
defm GLOBAL_ATOMIC_CMPSWAP_X2 : FLAT_Real_GlblAtomics_gfx10<0x051>;
defm GLOBAL_ATOMIC_ADD_X2 : FLAT_Real_GlblAtomics_gfx10<0x052>;
defm GLOBAL_ATOMIC_SUB_X2 : FLAT_Real_GlblAtomics_gfx10<0x053>;
defm GLOBAL_ATOMIC_SMIN_X2 : FLAT_Real_GlblAtomics_gfx10<0x055>;
defm GLOBAL_ATOMIC_UMIN_X2 : FLAT_Real_GlblAtomics_gfx10<0x056>;
defm GLOBAL_ATOMIC_SMAX_X2 : FLAT_Real_GlblAtomics_gfx10<0x057>;
defm GLOBAL_ATOMIC_UMAX_X2 : FLAT_Real_GlblAtomics_gfx10<0x058>;
defm GLOBAL_ATOMIC_AND_X2 : FLAT_Real_GlblAtomics_gfx10<0x059>;
defm GLOBAL_ATOMIC_OR_X2 : FLAT_Real_GlblAtomics_gfx10<0x05a>;
defm GLOBAL_ATOMIC_XOR_X2 : FLAT_Real_GlblAtomics_gfx10<0x05b>;
defm GLOBAL_ATOMIC_INC_X2 : FLAT_Real_GlblAtomics_gfx10<0x05c>;
defm GLOBAL_ATOMIC_DEC_X2 : FLAT_Real_GlblAtomics_gfx10<0x05d>;
defm GLOBAL_ATOMIC_FCMPSWAP_X2 : FLAT_Real_GlblAtomics_gfx10<0x05e>;
defm GLOBAL_ATOMIC_FMIN_X2 : FLAT_Real_GlblAtomics_gfx10<0x05f>;
defm GLOBAL_ATOMIC_FMAX_X2 : FLAT_Real_GlblAtomics_gfx10<0x060>;
defm GLOBAL_LOAD_DWORD_ADDTID : FLAT_Real_Base_gfx10<0x016>;
defm GLOBAL_STORE_DWORD_ADDTID : FLAT_Real_Base_gfx10<0x017>;
// ENC_FLAT_SCRATCH.
defm SCRATCH_LOAD_UBYTE : FLAT_Real_AllAddr_gfx10<0x008>;
defm SCRATCH_LOAD_SBYTE : FLAT_Real_AllAddr_gfx10<0x009>;
defm SCRATCH_LOAD_USHORT : FLAT_Real_AllAddr_gfx10<0x00a>;
defm SCRATCH_LOAD_SSHORT : FLAT_Real_AllAddr_gfx10<0x00b>;
defm SCRATCH_LOAD_DWORD : FLAT_Real_AllAddr_gfx10<0x00c>;
defm SCRATCH_LOAD_DWORDX2 : FLAT_Real_AllAddr_gfx10<0x00d>;
defm SCRATCH_LOAD_DWORDX4 : FLAT_Real_AllAddr_gfx10<0x00e>;
defm SCRATCH_LOAD_DWORDX3 : FLAT_Real_AllAddr_gfx10<0x00f>;
defm SCRATCH_STORE_BYTE : FLAT_Real_AllAddr_gfx10<0x018>;
defm SCRATCH_STORE_BYTE_D16_HI : FLAT_Real_AllAddr_gfx10<0x019>;
defm SCRATCH_STORE_SHORT : FLAT_Real_AllAddr_gfx10<0x01a>;
defm SCRATCH_STORE_SHORT_D16_HI : FLAT_Real_AllAddr_gfx10<0x01b>;
defm SCRATCH_STORE_DWORD : FLAT_Real_AllAddr_gfx10<0x01c>;
defm SCRATCH_STORE_DWORDX2 : FLAT_Real_AllAddr_gfx10<0x01d>;
defm SCRATCH_STORE_DWORDX4 : FLAT_Real_AllAddr_gfx10<0x01e>;
defm SCRATCH_STORE_DWORDX3 : FLAT_Real_AllAddr_gfx10<0x01f>;
defm SCRATCH_LOAD_UBYTE_D16 : FLAT_Real_AllAddr_gfx10<0x020>;
defm SCRATCH_LOAD_UBYTE_D16_HI : FLAT_Real_AllAddr_gfx10<0x021>;
defm SCRATCH_LOAD_SBYTE_D16 : FLAT_Real_AllAddr_gfx10<0x022>;
defm SCRATCH_LOAD_SBYTE_D16_HI : FLAT_Real_AllAddr_gfx10<0x023>;
defm SCRATCH_LOAD_SHORT_D16 : FLAT_Real_AllAddr_gfx10<0x024>;
defm SCRATCH_LOAD_SHORT_D16_HI : FLAT_Real_AllAddr_gfx10<0x025>;
let SubtargetPredicate = HasAtomicFaddInsts in {
defm GLOBAL_ATOMIC_ADD_F32 : FLAT_Real_AllAddr_vi <0x04d>;
defm GLOBAL_ATOMIC_PK_ADD_F16 : FLAT_Real_AllAddr_vi <0x04e>;
} // End SubtargetPredicate = HasAtomicFaddInsts