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AsmParser
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Disassembler
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MCTargetDesc
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README.txt
(8.34 KB)
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TargetInfo
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WebAssembly.h
(4.05 KB)
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WebAssembly.td
(4.85 KB)
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WebAssemblyAddMissingPrototypes.cpp
(5.41 KB)
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WebAssemblyArgumentMove.cpp
(3.36 KB)
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WebAssemblyAsmPrinter.cpp
(16.09 KB)
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WebAssemblyAsmPrinter.h
(3.12 KB)
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WebAssemblyCFGSort.cpp
(15.94 KB)
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WebAssemblyCFGStackify.cpp
(55.56 KB)
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WebAssemblyDebugFixup.cpp
(5.4 KB)
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WebAssemblyDebugValueManager.cpp
(1.77 KB)
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WebAssemblyDebugValueManager.h
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WebAssemblyExceptionInfo.cpp
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WebAssemblyExceptionInfo.h
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WebAssemblyExplicitLocals.cpp
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WebAssemblyFastISel.cpp
(40.39 KB)
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WebAssemblyFixBrTableDefaults.cpp
(5.81 KB)
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WebAssemblyFixFunctionBitcasts.cpp
(12.59 KB)
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WebAssemblyFixIrreducibleControlFlow.cpp
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WebAssemblyFrameLowering.cpp
(12.68 KB)
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WebAssemblyFrameLowering.h
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WebAssemblyISD.def
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WebAssemblyISelDAGToDAG.cpp
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WebAssemblyISelLowering.cpp
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WebAssemblyISelLowering.h
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WebAssemblyInstrAtomics.td
(48.5 KB)
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WebAssemblyInstrBulkMemory.td
(2.84 KB)
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WebAssemblyInstrCall.td
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WebAssemblyInstrControl.td
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WebAssemblyInstrConv.td
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WebAssemblyInstrFloat.td
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WebAssemblyInstrFormats.td
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WebAssemblyInstrInfo.cpp
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WebAssemblyInstrInfo.h
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WebAssemblyInstrInfo.td
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WebAssemblyInstrInteger.td
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WebAssemblyInstrMemory.td
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WebAssemblyInstrRef.td
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WebAssemblyInstrSIMD.td
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WebAssemblyLateEHPrepare.cpp
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WebAssemblyLowerBrUnless.cpp
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WebAssemblyLowerEmscriptenEHSjLj.cpp
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WebAssemblyLowerGlobalDtors.cpp
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WebAssemblyMCInstLower.cpp
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WebAssemblyMCInstLower.h
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WebAssemblyMachineFunctionInfo.cpp
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WebAssemblyMachineFunctionInfo.h
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WebAssemblyMemIntrinsicResults.cpp
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WebAssemblyOptimizeLiveIntervals.cpp
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WebAssemblyOptimizeReturned.cpp
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WebAssemblyPeephole.cpp
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WebAssemblyPrepareForLiveIntervals.cpp
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WebAssemblyRegColoring.cpp
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WebAssemblyRegNumbering.cpp
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WebAssemblyRegStackify.cpp
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WebAssemblyRegisterInfo.cpp
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WebAssemblyRegisterInfo.h
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WebAssemblyRegisterInfo.td
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WebAssemblyReplacePhysRegs.cpp
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WebAssemblyRuntimeLibcallSignatures.cpp
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WebAssemblyRuntimeLibcallSignatures.h
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WebAssemblySelectionDAGInfo.cpp
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WebAssemblySelectionDAGInfo.h
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WebAssemblySetP2AlignOperands.cpp
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WebAssemblySubtarget.cpp
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WebAssemblySubtarget.h
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WebAssemblyTargetMachine.cpp
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WebAssemblyTargetMachine.h
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WebAssemblyTargetObjectFile.cpp
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WebAssemblyTargetObjectFile.h
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WebAssemblyTargetTransformInfo.cpp
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WebAssemblyTargetTransformInfo.h
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WebAssemblyUtilities.cpp
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WebAssemblyUtilities.h
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known_gcc_test_failures.txt
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Editing: WebAssemblyInstrAtomics.td
// WebAssemblyInstrAtomics.td-WebAssembly Atomic codegen support-*- tablegen -*- // // 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 // //===----------------------------------------------------------------------===// /// /// \file /// WebAssembly Atomic operand code-gen constructs. /// //===----------------------------------------------------------------------===// let UseNamedOperandTable = 1 in multiclass ATOMIC_I<dag oops_r, dag iops_r, dag oops_s, dag iops_s, list<dag> pattern_r, string asmstr_r, string asmstr_s, bits<32> atomic_op, string is64 = "false"> { defm "" : I<oops_r, iops_r, oops_s, iops_s, pattern_r, asmstr_r, asmstr_s, !or(0xfe00, !and(0xff, atomic_op)), is64>, Requires<[HasAtomics]>; } multiclass ATOMIC_NRI<dag oops, dag iops, list<dag> pattern, string asmstr = "", bits<32> atomic_op = -1> { defm "" : NRI<oops, iops, pattern, asmstr, !or(0xfe00, !and(0xff, atomic_op))>, Requires<[HasAtomics]>; } //===----------------------------------------------------------------------===// // Atomic wait / notify //===----------------------------------------------------------------------===// let hasSideEffects = 1 in { defm ATOMIC_NOTIFY_A32 : ATOMIC_I<(outs I32:$dst), (ins P2Align:$p2align, offset32_op:$off, I32:$addr, I32:$count), (outs), (ins P2Align:$p2align, offset32_op:$off), [], "atomic.notify \t$dst, ${off}(${addr})${p2align}, $count", "atomic.notify \t${off}${p2align}", 0x00, "false">; defm ATOMIC_NOTIFY_A64 : ATOMIC_I<(outs I32:$dst), (ins P2Align:$p2align, offset64_op:$off, I64:$addr, I32:$count), (outs), (ins P2Align:$p2align, offset64_op:$off), [], "atomic.notify \t$dst, ${off}(${addr})${p2align}, $count", "atomic.notify \t${off}${p2align}", 0x00, "true">; let mayLoad = 1 in { defm ATOMIC_WAIT_I32_A32 : ATOMIC_I<(outs I32:$dst), (ins P2Align:$p2align, offset32_op:$off, I32:$addr, I32:$exp, I64:$timeout), (outs), (ins P2Align:$p2align, offset32_op:$off), [], "i32.atomic.wait \t$dst, ${off}(${addr})${p2align}, $exp, $timeout", "i32.atomic.wait \t${off}${p2align}", 0x01, "false">; defm ATOMIC_WAIT_I32_A64 : ATOMIC_I<(outs I32:$dst), (ins P2Align:$p2align, offset64_op:$off, I64:$addr, I32:$exp, I64:$timeout), (outs), (ins P2Align:$p2align, offset64_op:$off), [], "i32.atomic.wait \t$dst, ${off}(${addr})${p2align}, $exp, $timeout", "i32.atomic.wait \t${off}${p2align}", 0x01, "true">; defm ATOMIC_WAIT_I64_A32 : ATOMIC_I<(outs I32:$dst), (ins P2Align:$p2align, offset32_op:$off, I32:$addr, I64:$exp, I64:$timeout), (outs), (ins P2Align:$p2align, offset32_op:$off), [], "i64.atomic.wait \t$dst, ${off}(${addr})${p2align}, $exp, $timeout", "i64.atomic.wait \t${off}${p2align}", 0x02, "false">; defm ATOMIC_WAIT_I64_A64 : ATOMIC_I<(outs I32:$dst), (ins P2Align:$p2align, offset64_op:$off, I64:$addr, I64:$exp, I64:$timeout), (outs), (ins P2Align:$p2align, offset64_op:$off), [], "i64.atomic.wait \t$dst, ${off}(${addr})${p2align}, $exp, $timeout", "i64.atomic.wait \t${off}${p2align}", 0x02, "true">; } // mayLoad = 1 } // hasSideEffects = 1 let Predicates = [HasAtomics] in { // Select notifys with no constant offset. def NotifyPatNoOffset_A32 : Pat<(i32 (int_wasm_atomic_notify I32:$addr, I32:$count)), (ATOMIC_NOTIFY_A32 0, 0, I32:$addr, I32:$count)>, Requires<[HasAddr32]>; def NotifyPatNoOffset_A64 : Pat<(i32 (int_wasm_atomic_notify I64:$addr, I32:$count)), (ATOMIC_NOTIFY_A64 0, 0, I64:$addr, I32:$count)>, Requires<[HasAddr64]>; // Select notifys with a constant offset. // Pattern with address + immediate offset multiclass NotifyPatImmOff<PatFrag operand, string inst> { def : Pat<(i32 (int_wasm_atomic_notify (operand I32:$addr, imm:$off), I32:$count)), (!cast<NI>(inst#_A32) 0, imm:$off, I32:$addr, I32:$count)>, Requires<[HasAddr32]>; def : Pat<(i32 (int_wasm_atomic_notify (operand I64:$addr, imm:$off), I32:$count)), (!cast<NI>(inst#_A64) 0, imm:$off, I64:$addr, I32:$count)>, Requires<[HasAddr64]>; } defm : NotifyPatImmOff<regPlusImm, "ATOMIC_NOTIFY">; defm : NotifyPatImmOff<or_is_add, "ATOMIC_NOTIFY">; // Select notifys with just a constant offset. def NotifyPatOffsetOnly_A32 : Pat<(i32 (int_wasm_atomic_notify imm:$off, I32:$count)), (ATOMIC_NOTIFY_A32 0, imm:$off, (CONST_I32 0), I32:$count)>, Requires<[HasAddr32]>; def NotifyPatOffsetOnly_A64 : Pat<(i32 (int_wasm_atomic_notify imm:$off, I32:$count)), (ATOMIC_NOTIFY_A64 0, imm:$off, (CONST_I64 0), I32:$count)>, Requires<[HasAddr64]>; def NotifyPatGlobalAddrOffOnly_A32 : Pat<(i32 (int_wasm_atomic_notify (WebAssemblywrapper tglobaladdr:$off), I32:$count)), (ATOMIC_NOTIFY_A32 0, tglobaladdr:$off, (CONST_I32 0), I32:$count)>, Requires<[HasAddr32]>; def NotifyPatGlobalAddrOffOnly_A64 : Pat<(i32 (int_wasm_atomic_notify (WebAssemblywrapper tglobaladdr:$off), I32:$count)), (ATOMIC_NOTIFY_A64 0, tglobaladdr:$off, (CONST_I64 0), I32:$count)>, Requires<[HasAddr64]>; // Select waits with no constant offset. multiclass WaitPatNoOffset<ValueType ty, Intrinsic kind, string inst> { def : Pat<(i32 (kind I32:$addr, ty:$exp, I64:$timeout)), (!cast<NI>(inst#_A32) 0, 0, I32:$addr, ty:$exp, I64:$timeout)>, Requires<[HasAddr32]>; def : Pat<(i32 (kind I64:$addr, ty:$exp, I64:$timeout)), (!cast<NI>(inst#_A64) 0, 0, I64:$addr, ty:$exp, I64:$timeout)>, Requires<[HasAddr64]>; } defm : WaitPatNoOffset<i32, int_wasm_atomic_wait_i32, "ATOMIC_WAIT_I32">; defm : WaitPatNoOffset<i64, int_wasm_atomic_wait_i64, "ATOMIC_WAIT_I64">; defm : WaitPatNoOffset<i32, int_wasm_atomic_wait_i32, "ATOMIC_WAIT_I32">; defm : WaitPatNoOffset<i64, int_wasm_atomic_wait_i64, "ATOMIC_WAIT_I64">; // Select waits with a constant offset. // Pattern with address + immediate offset multiclass WaitPatImmOff<ValueType ty, Intrinsic kind, PatFrag operand, string inst> { def : Pat<(i32 (kind (operand I32:$addr, imm:$off), ty:$exp, I64:$timeout)), (!cast<NI>(inst#_A32) 0, imm:$off, I32:$addr, ty:$exp, I64:$timeout)>, Requires<[HasAddr32]>; def : Pat<(i32 (kind (operand I64:$addr, imm:$off), ty:$exp, I64:$timeout)), (!cast<NI>(inst#_A64) 0, imm:$off, I64:$addr, ty:$exp, I64:$timeout)>, Requires<[HasAddr64]>; } defm : WaitPatImmOff<i32, int_wasm_atomic_wait_i32, regPlusImm, "ATOMIC_WAIT_I32">; defm : WaitPatImmOff<i32, int_wasm_atomic_wait_i32, or_is_add, "ATOMIC_WAIT_I32">; defm : WaitPatImmOff<i64, int_wasm_atomic_wait_i64, regPlusImm, "ATOMIC_WAIT_I64">; defm : WaitPatImmOff<i64, int_wasm_atomic_wait_i64, or_is_add, "ATOMIC_WAIT_I64">; // Select wait_i32, "ATOMIC_WAIT_I32s with just a constant offset. multiclass WaitPatOffsetOnly<ValueType ty, Intrinsic kind, string inst> { def : Pat<(i32 (kind imm:$off, ty:$exp, I64:$timeout)), (!cast<NI>(inst#_A32) 0, imm:$off, (CONST_I32 0), ty:$exp, I64:$timeout)>, Requires<[HasAddr32]>; def : Pat<(i32 (kind imm:$off, ty:$exp, I64:$timeout)), (!cast<NI>(inst#_A64) 0, imm:$off, (CONST_I64 0), ty:$exp, I64:$timeout)>, Requires<[HasAddr64]>; } defm : WaitPatOffsetOnly<i32, int_wasm_atomic_wait_i32, "ATOMIC_WAIT_I32">; defm : WaitPatOffsetOnly<i64, int_wasm_atomic_wait_i64, "ATOMIC_WAIT_I64">; multiclass WaitPatGlobalAddrOffOnly<ValueType ty, Intrinsic kind, string inst> { def : Pat<(i32 (kind (WebAssemblywrapper tglobaladdr:$off), ty:$exp, I64:$timeout)), (!cast<NI>(inst#_A32) 0, tglobaladdr:$off, (CONST_I32 0), ty:$exp, I64:$timeout)>, Requires<[HasAddr32]>; def : Pat<(i32 (kind (WebAssemblywrapper tglobaladdr:$off), ty:$exp, I64:$timeout)), (!cast<NI>(inst#_A64) 0, tglobaladdr:$off, (CONST_I64 0), ty:$exp, I64:$timeout)>, Requires<[HasAddr64]>; } defm : WaitPatGlobalAddrOffOnly<i32, int_wasm_atomic_wait_i32, "ATOMIC_WAIT_I32">; defm : WaitPatGlobalAddrOffOnly<i64, int_wasm_atomic_wait_i64, "ATOMIC_WAIT_I64">; } // Predicates = [HasAtomics] //===----------------------------------------------------------------------===// // Atomic fences //===----------------------------------------------------------------------===// // A compiler fence instruction that prevents reordering of instructions. let Defs = [ARGUMENTS] in { let isPseudo = 1, hasSideEffects = 1 in defm COMPILER_FENCE : ATOMIC_NRI<(outs), (ins), [], "compiler_fence">; let hasSideEffects = 1 in defm ATOMIC_FENCE : ATOMIC_NRI<(outs), (ins i8imm:$flags), [], "atomic.fence", 0x03>; } // Defs = [ARGUMENTS] //===----------------------------------------------------------------------===// // Atomic loads //===----------------------------------------------------------------------===// multiclass AtomicLoad<WebAssemblyRegClass rc, string name, int atomic_op> { defm "" : WebAssemblyLoad<rc, name, !or(0xfe00, !and(0xff, atomic_op)), [HasAtomics]>; } defm ATOMIC_LOAD_I32 : AtomicLoad<I32, "i32.atomic.load", 0x10>; defm ATOMIC_LOAD_I64 : AtomicLoad<I64, "i64.atomic.load", 0x11>; // Select loads with no constant offset. let Predicates = [HasAtomics] in { defm : LoadPatNoOffset<i32, atomic_load_32, "ATOMIC_LOAD_I32">; defm : LoadPatNoOffset<i64, atomic_load_64, "ATOMIC_LOAD_I64">; // Select loads with a constant offset. // Pattern with address + immediate offset defm : LoadPatImmOff<i32, atomic_load_32, regPlusImm, "ATOMIC_LOAD_I32">; defm : LoadPatImmOff<i64, atomic_load_64, regPlusImm, "ATOMIC_LOAD_I64">; defm : LoadPatImmOff<i32, atomic_load_32, or_is_add, "ATOMIC_LOAD_I32">; defm : LoadPatImmOff<i64, atomic_load_64, or_is_add, "ATOMIC_LOAD_I64">; // Select loads with just a constant offset. defm : LoadPatOffsetOnly<i32, atomic_load_32, "ATOMIC_LOAD_I32">; defm : LoadPatOffsetOnly<i64, atomic_load_64, "ATOMIC_LOAD_I64">; defm : LoadPatGlobalAddrOffOnly<i32, atomic_load_32, "ATOMIC_LOAD_I32">; defm : LoadPatGlobalAddrOffOnly<i64, atomic_load_64, "ATOMIC_LOAD_I64">; } // Predicates = [HasAtomics] // Extending loads. Note that there are only zero-extending atomic loads, no // sign-extending loads. defm ATOMIC_LOAD8_U_I32 : AtomicLoad<I32, "i32.atomic.load8_u", 0x12>; defm ATOMIC_LOAD16_U_I32 : AtomicLoad<I32, "i32.atomic.load16_u", 0x13>; defm ATOMIC_LOAD8_U_I64 : AtomicLoad<I64, "i64.atomic.load8_u", 0x14>; defm ATOMIC_LOAD16_U_I64 : AtomicLoad<I64, "i64.atomic.load16_u", 0x15>; defm ATOMIC_LOAD32_U_I64 : AtomicLoad<I64, "i64.atomic.load32_u", 0x16>; // Fragments for extending loads. These are different from regular loads because // the SDNodes are derived from AtomicSDNode rather than LoadSDNode and // therefore don't have the extension type field. So instead of matching that, // we match the patterns that the type legalizer expands them to. // We directly match zext patterns and select the zext atomic loads. // i32 (zext (i8 (atomic_load_8))) gets legalized to // i32 (and (i32 (atomic_load_8)), 255) // These can be selected to a single zero-extending atomic load instruction. def zext_aload_8_32 : PatFrag<(ops node:$addr), (and (i32 (atomic_load_8 node:$addr)), 255)>; def zext_aload_16_32 : PatFrag<(ops node:$addr), (and (i32 (atomic_load_16 node:$addr)), 65535)>; // Unlike regular loads, extension to i64 is handled differently than i32. // i64 (zext (i8 (atomic_load_8))) gets legalized to // i64 (and (i64 (anyext (i32 (atomic_load_8)))), 255) def zext_aload_8_64 : PatFrag<(ops node:$addr), (and (i64 (anyext (i32 (atomic_load_8 node:$addr)))), 255)>; def zext_aload_16_64 : PatFrag<(ops node:$addr), (and (i64 (anyext (i32 (atomic_load_16 node:$addr)))), 65535)>; def zext_aload_32_64 : PatFrag<(ops node:$addr), (zext (i32 (atomic_load node:$addr)))>; // We don't have single sext atomic load instructions. So for sext loads, we // match bare subword loads (for 32-bit results) and anyext loads (for 64-bit // results) and select a zext load; the next instruction will be sext_inreg // which is selected by itself. def sext_aload_8_64 : PatFrag<(ops node:$addr), (anyext (i32 (atomic_load_8 node:$addr)))>; def sext_aload_16_64 : PatFrag<(ops node:$addr), (anyext (i32 (atomic_load_16 node:$addr)))>; let Predicates = [HasAtomics] in { // Select zero-extending loads with no constant offset. defm : LoadPatNoOffset<i32, zext_aload_8_32, "ATOMIC_LOAD8_U_I32">; defm : LoadPatNoOffset<i32, zext_aload_16_32, "ATOMIC_LOAD16_U_I32">; defm : LoadPatNoOffset<i64, zext_aload_8_64, "ATOMIC_LOAD8_U_I64">; defm : LoadPatNoOffset<i64, zext_aload_16_64, "ATOMIC_LOAD16_U_I64">; defm : LoadPatNoOffset<i64, zext_aload_32_64, "ATOMIC_LOAD32_U_I64">; // Select sign-extending loads with no constant offset defm : LoadPatNoOffset<i32, atomic_load_8, "ATOMIC_LOAD8_U_I32">; defm : LoadPatNoOffset<i32, atomic_load_16, "ATOMIC_LOAD16_U_I32">; defm : LoadPatNoOffset<i64, sext_aload_8_64, "ATOMIC_LOAD8_U_I64">; defm : LoadPatNoOffset<i64, sext_aload_16_64, "ATOMIC_LOAD16_U_I64">; // 32->64 sext load gets selected as i32.atomic.load, i64.extend_i32_s // Zero-extending loads with constant offset defm : LoadPatImmOff<i32, zext_aload_8_32, regPlusImm, "ATOMIC_LOAD8_U_I32">; defm : LoadPatImmOff<i32, zext_aload_16_32, regPlusImm, "ATOMIC_LOAD16_U_I32">; defm : LoadPatImmOff<i32, zext_aload_8_32, or_is_add, "ATOMIC_LOAD8_U_I32">; defm : LoadPatImmOff<i32, zext_aload_16_32, or_is_add, "ATOMIC_LOAD16_U_I32">; defm : LoadPatImmOff<i64, zext_aload_8_64, regPlusImm, "ATOMIC_LOAD8_U_I64">; defm : LoadPatImmOff<i64, zext_aload_16_64, regPlusImm, "ATOMIC_LOAD16_U_I64">; defm : LoadPatImmOff<i64, zext_aload_32_64, regPlusImm, "ATOMIC_LOAD32_U_I64">; defm : LoadPatImmOff<i64, zext_aload_8_64, or_is_add, "ATOMIC_LOAD8_U_I64">; defm : LoadPatImmOff<i64, zext_aload_16_64, or_is_add, "ATOMIC_LOAD16_U_I64">; defm : LoadPatImmOff<i64, zext_aload_32_64, or_is_add, "ATOMIC_LOAD32_U_I64">; // Sign-extending loads with constant offset defm : LoadPatImmOff<i32, atomic_load_8, regPlusImm, "ATOMIC_LOAD8_U_I32">; defm : LoadPatImmOff<i32, atomic_load_16, regPlusImm, "ATOMIC_LOAD16_U_I32">; defm : LoadPatImmOff<i32, atomic_load_8, or_is_add, "ATOMIC_LOAD8_U_I32">; defm : LoadPatImmOff<i32, atomic_load_16, or_is_add, "ATOMIC_LOAD16_U_I32">; defm : LoadPatImmOff<i64, sext_aload_8_64, regPlusImm, "ATOMIC_LOAD8_U_I64">; defm : LoadPatImmOff<i64, sext_aload_16_64, regPlusImm, "ATOMIC_LOAD16_U_I64">; defm : LoadPatImmOff<i64, sext_aload_8_64, or_is_add, "ATOMIC_LOAD8_U_I64">; defm : LoadPatImmOff<i64, sext_aload_16_64, or_is_add, "ATOMIC_LOAD16_U_I64">; // No 32->64 patterns, just use i32.atomic.load and i64.extend_s/i64 // Extending loads with just a constant offset defm : LoadPatOffsetOnly<i32, zext_aload_8_32, "ATOMIC_LOAD8_U_I32">; defm : LoadPatOffsetOnly<i32, zext_aload_16_32, "ATOMIC_LOAD16_U_I32">; defm : LoadPatOffsetOnly<i64, zext_aload_8_64, "ATOMIC_LOAD8_U_I64">; defm : LoadPatOffsetOnly<i64, zext_aload_16_64, "ATOMIC_LOAD16_U_I64">; defm : LoadPatOffsetOnly<i64, zext_aload_32_64, "ATOMIC_LOAD32_U_I64">; defm : LoadPatOffsetOnly<i32, atomic_load_8, "ATOMIC_LOAD8_U_I32">; defm : LoadPatOffsetOnly<i32, atomic_load_16, "ATOMIC_LOAD16_U_I32">; defm : LoadPatOffsetOnly<i64, sext_aload_8_64, "ATOMIC_LOAD8_U_I64">; defm : LoadPatOffsetOnly<i64, sext_aload_16_64, "ATOMIC_LOAD16_U_I64">; defm : LoadPatGlobalAddrOffOnly<i32, zext_aload_8_32, "ATOMIC_LOAD8_U_I32">; defm : LoadPatGlobalAddrOffOnly<i32, zext_aload_16_32, "ATOMIC_LOAD16_U_I32">; defm : LoadPatGlobalAddrOffOnly<i64, zext_aload_8_64, "ATOMIC_LOAD8_U_I64">; defm : LoadPatGlobalAddrOffOnly<i64, zext_aload_16_64, "ATOMIC_LOAD16_U_I64">; defm : LoadPatGlobalAddrOffOnly<i64, zext_aload_32_64, "ATOMIC_LOAD32_U_I64">; defm : LoadPatGlobalAddrOffOnly<i32, atomic_load_8, "ATOMIC_LOAD8_U_I32">; defm : LoadPatGlobalAddrOffOnly<i32, atomic_load_16, "ATOMIC_LOAD16_U_I32">; defm : LoadPatGlobalAddrOffOnly<i64, sext_aload_8_64, "ATOMIC_LOAD8_U_I64">; defm : LoadPatGlobalAddrOffOnly<i64, sext_aload_16_64, "ATOMIC_LOAD16_U_I64">; } // Predicates = [HasAtomics] //===----------------------------------------------------------------------===// // Atomic stores //===----------------------------------------------------------------------===// multiclass AtomicStore<WebAssemblyRegClass rc, string name, int atomic_op> { defm "" : WebAssemblyStore<rc, name, !or(0xfe00, !and(0xff, atomic_op)), [HasAtomics]>; } defm ATOMIC_STORE_I32 : AtomicStore<I32, "i32.atomic.store", 0x17>; defm ATOMIC_STORE_I64 : AtomicStore<I64, "i64.atomic.store", 0x18>; // We need an 'atomic' version of store patterns because store and atomic_store // nodes have different operand orders: // store: (store $val, $ptr) // atomic_store: (store $ptr, $val) let Predicates = [HasAtomics] in { // Select stores with no constant offset. multiclass AStorePatNoOffset<ValueType ty, PatFrag kind, string inst> { def : Pat<(kind I32:$addr, ty:$val), (!cast<NI>(inst#_A32) 0, 0, I32:$addr, ty:$val)>, Requires<[HasAddr32]>; def : Pat<(kind I64:$addr, ty:$val), (!cast<NI>(inst#_A64) 0, 0, I64:$addr, ty:$val)>, Requires<[HasAddr64]>; } defm : AStorePatNoOffset<i32, atomic_store_32, "ATOMIC_STORE_I32">; defm : AStorePatNoOffset<i64, atomic_store_64, "ATOMIC_STORE_I64">; // Select stores with a constant offset. // Pattern with address + immediate offset multiclass AStorePatImmOff<ValueType ty, PatFrag kind, PatFrag operand, string inst> { def : Pat<(kind (operand I32:$addr, imm:$off), ty:$val), (!cast<NI>(inst#_A32) 0, imm:$off, I32:$addr, ty:$val)>, Requires<[HasAddr32]>; def : Pat<(kind (operand I64:$addr, imm:$off), ty:$val), (!cast<NI>(inst#_A64) 0, imm:$off, I64:$addr, ty:$val)>, Requires<[HasAddr64]>; } defm : AStorePatImmOff<i32, atomic_store_32, regPlusImm, "ATOMIC_STORE_I32">; defm : AStorePatImmOff<i64, atomic_store_64, regPlusImm, "ATOMIC_STORE_I64">; // Select stores with just a constant offset. multiclass AStorePatOffsetOnly<ValueType ty, PatFrag kind, string inst> { def : Pat<(kind imm:$off, ty:$val), (!cast<NI>(inst#_A32) 0, imm:$off, (CONST_I32 0), ty:$val)>, Requires<[HasAddr32]>; def : Pat<(kind imm:$off, ty:$val), (!cast<NI>(inst#_A64) 0, imm:$off, (CONST_I64 0), ty:$val)>, Requires<[HasAddr64]>; } defm : AStorePatOffsetOnly<i32, atomic_store_32, "ATOMIC_STORE_I32">; defm : AStorePatOffsetOnly<i64, atomic_store_64, "ATOMIC_STORE_I64">; multiclass AStorePatGlobalAddrOffOnly<ValueType ty, PatFrag kind, string inst> { def : Pat<(kind (WebAssemblywrapper tglobaladdr:$off), ty:$val), (!cast<NI>(inst#_A32) 0, tglobaladdr:$off, (CONST_I32 0), ty:$val)>, Requires<[HasAddr32]>; def : Pat<(kind (WebAssemblywrapper tglobaladdr:$off), ty:$val), (!cast<NI>(inst#_A64) 0, tglobaladdr:$off, (CONST_I64 0), ty:$val)>, Requires<[HasAddr64]>; } defm : AStorePatGlobalAddrOffOnly<i32, atomic_store_32, "ATOMIC_STORE_I32">; defm : AStorePatGlobalAddrOffOnly<i64, atomic_store_64, "ATOMIC_STORE_I64">; } // Predicates = [HasAtomics] // Truncating stores. defm ATOMIC_STORE8_I32 : AtomicStore<I32, "i32.atomic.store8", 0x19>; defm ATOMIC_STORE16_I32 : AtomicStore<I32, "i32.atomic.store16", 0x1a>; defm ATOMIC_STORE8_I64 : AtomicStore<I64, "i64.atomic.store8", 0x1b>; defm ATOMIC_STORE16_I64 : AtomicStore<I64, "i64.atomic.store16", 0x1c>; defm ATOMIC_STORE32_I64 : AtomicStore<I64, "i64.atomic.store32", 0x1d>; // Fragments for truncating stores. // We don't have single truncating atomic store instructions. For 32-bit // instructions, we just need to match bare atomic stores. On the other hand, // truncating stores from i64 values are once truncated to i32 first. class trunc_astore_64<PatFrag kind> : PatFrag<(ops node:$addr, node:$val), (kind node:$addr, (i32 (trunc (i64 node:$val))))>; def trunc_astore_8_64 : trunc_astore_64<atomic_store_8>; def trunc_astore_16_64 : trunc_astore_64<atomic_store_16>; def trunc_astore_32_64 : trunc_astore_64<atomic_store_32>; let Predicates = [HasAtomics] in { // Truncating stores with no constant offset defm : AStorePatNoOffset<i32, atomic_store_8, "ATOMIC_STORE8_I32">; defm : AStorePatNoOffset<i32, atomic_store_16, "ATOMIC_STORE16_I32">; defm : AStorePatNoOffset<i64, trunc_astore_8_64, "ATOMIC_STORE8_I64">; defm : AStorePatNoOffset<i64, trunc_astore_16_64, "ATOMIC_STORE16_I64">; defm : AStorePatNoOffset<i64, trunc_astore_32_64, "ATOMIC_STORE32_I64">; // Truncating stores with a constant offset defm : AStorePatImmOff<i32, atomic_store_8, regPlusImm, "ATOMIC_STORE8_I32">; defm : AStorePatImmOff<i32, atomic_store_16, regPlusImm, "ATOMIC_STORE16_I32">; defm : AStorePatImmOff<i64, trunc_astore_8_64, regPlusImm, "ATOMIC_STORE8_I64">; defm : AStorePatImmOff<i64, trunc_astore_16_64, regPlusImm, "ATOMIC_STORE16_I64">; defm : AStorePatImmOff<i64, trunc_astore_32_64, regPlusImm, "ATOMIC_STORE32_I64">; defm : AStorePatImmOff<i32, atomic_store_8, or_is_add, "ATOMIC_STORE8_I32">; defm : AStorePatImmOff<i32, atomic_store_16, or_is_add, "ATOMIC_STORE16_I32">; defm : AStorePatImmOff<i64, trunc_astore_8_64, or_is_add, "ATOMIC_STORE8_I64">; defm : AStorePatImmOff<i64, trunc_astore_16_64, or_is_add, "ATOMIC_STORE16_I64">; defm : AStorePatImmOff<i64, trunc_astore_32_64, or_is_add, "ATOMIC_STORE32_I64">; // Truncating stores with just a constant offset defm : AStorePatOffsetOnly<i32, atomic_store_8, "ATOMIC_STORE8_I32">; defm : AStorePatOffsetOnly<i32, atomic_store_16, "ATOMIC_STORE16_I32">; defm : AStorePatOffsetOnly<i64, trunc_astore_8_64, "ATOMIC_STORE8_I64">; defm : AStorePatOffsetOnly<i64, trunc_astore_16_64, "ATOMIC_STORE16_I64">; defm : AStorePatOffsetOnly<i64, trunc_astore_32_64, "ATOMIC_STORE32_I64">; defm : AStorePatGlobalAddrOffOnly<i32, atomic_store_8, "ATOMIC_STORE8_I32">; defm : AStorePatGlobalAddrOffOnly<i32, atomic_store_16, "ATOMIC_STORE16_I32">; defm : AStorePatGlobalAddrOffOnly<i64, trunc_astore_8_64, "ATOMIC_STORE8_I64">; defm : AStorePatGlobalAddrOffOnly<i64, trunc_astore_16_64, "ATOMIC_STORE16_I64">; defm : AStorePatGlobalAddrOffOnly<i64, trunc_astore_32_64, "ATOMIC_STORE32_I64">; } // Predicates = [HasAtomics] //===----------------------------------------------------------------------===// // Atomic binary read-modify-writes //===----------------------------------------------------------------------===// multiclass WebAssemblyBinRMW<WebAssemblyRegClass rc, string name, int atomic_op> { defm "_A32" : ATOMIC_I<(outs rc:$dst), (ins P2Align:$p2align, offset32_op:$off, I32:$addr, rc:$val), (outs), (ins P2Align:$p2align, offset32_op:$off), [], !strconcat(name, "\t$dst, ${off}(${addr})${p2align}, $val"), !strconcat(name, "\t${off}${p2align}"), atomic_op, "false">; defm "_A64" : ATOMIC_I<(outs rc:$dst), (ins P2Align:$p2align, offset64_op:$off, I64:$addr, rc:$val), (outs), (ins P2Align:$p2align, offset64_op:$off), [], !strconcat(name, "\t$dst, ${off}(${addr})${p2align}, $val"), !strconcat(name, "\t${off}${p2align}"), atomic_op, "true">; } defm ATOMIC_RMW_ADD_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw.add", 0x1e>; defm ATOMIC_RMW_ADD_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw.add", 0x1f>; defm ATOMIC_RMW8_U_ADD_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw8.add_u", 0x20>; defm ATOMIC_RMW16_U_ADD_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw16.add_u", 0x21>; defm ATOMIC_RMW8_U_ADD_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw8.add_u", 0x22>; defm ATOMIC_RMW16_U_ADD_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw16.add_u", 0x23>; defm ATOMIC_RMW32_U_ADD_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw32.add_u", 0x24>; defm ATOMIC_RMW_SUB_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw.sub", 0x25>; defm ATOMIC_RMW_SUB_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw.sub", 0x26>; defm ATOMIC_RMW8_U_SUB_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw8.sub_u", 0x27>; defm ATOMIC_RMW16_U_SUB_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw16.sub_u", 0x28>; defm ATOMIC_RMW8_U_SUB_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw8.sub_u", 0x29>; defm ATOMIC_RMW16_U_SUB_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw16.sub_u", 0x2a>; defm ATOMIC_RMW32_U_SUB_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw32.sub_u", 0x2b>; defm ATOMIC_RMW_AND_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw.and", 0x2c>; defm ATOMIC_RMW_AND_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw.and", 0x2d>; defm ATOMIC_RMW8_U_AND_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw8.and_u", 0x2e>; defm ATOMIC_RMW16_U_AND_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw16.and_u", 0x2f>; defm ATOMIC_RMW8_U_AND_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw8.and_u", 0x30>; defm ATOMIC_RMW16_U_AND_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw16.and_u", 0x31>; defm ATOMIC_RMW32_U_AND_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw32.and_u", 0x32>; defm ATOMIC_RMW_OR_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw.or", 0x33>; defm ATOMIC_RMW_OR_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw.or", 0x34>; defm ATOMIC_RMW8_U_OR_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw8.or_u", 0x35>; defm ATOMIC_RMW16_U_OR_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw16.or_u", 0x36>; defm ATOMIC_RMW8_U_OR_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw8.or_u", 0x37>; defm ATOMIC_RMW16_U_OR_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw16.or_u", 0x38>; defm ATOMIC_RMW32_U_OR_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw32.or_u", 0x39>; defm ATOMIC_RMW_XOR_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw.xor", 0x3a>; defm ATOMIC_RMW_XOR_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw.xor", 0x3b>; defm ATOMIC_RMW8_U_XOR_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw8.xor_u", 0x3c>; defm ATOMIC_RMW16_U_XOR_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw16.xor_u", 0x3d>; defm ATOMIC_RMW8_U_XOR_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw8.xor_u", 0x3e>; defm ATOMIC_RMW16_U_XOR_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw16.xor_u", 0x3f>; defm ATOMIC_RMW32_U_XOR_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw32.xor_u", 0x40>; defm ATOMIC_RMW_XCHG_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw.xchg", 0x41>; defm ATOMIC_RMW_XCHG_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw.xchg", 0x42>; defm ATOMIC_RMW8_U_XCHG_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw8.xchg_u", 0x43>; defm ATOMIC_RMW16_U_XCHG_I32 : WebAssemblyBinRMW<I32, "i32.atomic.rmw16.xchg_u", 0x44>; defm ATOMIC_RMW8_U_XCHG_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw8.xchg_u", 0x45>; defm ATOMIC_RMW16_U_XCHG_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw16.xchg_u", 0x46>; defm ATOMIC_RMW32_U_XCHG_I64 : WebAssemblyBinRMW<I64, "i64.atomic.rmw32.xchg_u", 0x47>; // Select binary RMWs with no constant offset. multiclass BinRMWPatNoOffset<ValueType ty, PatFrag kind, string inst> { def : Pat<(ty (kind I32:$addr, ty:$val)), (!cast<NI>(inst#_A32) 0, 0, I32:$addr, ty:$val)>, Requires<[HasAddr32]>; def : Pat<(ty (kind I64:$addr, ty:$val)), (!cast<NI>(inst#_A64) 0, 0, I64:$addr, ty:$val)>, Requires<[HasAddr64]>; } // Select binary RMWs with a constant offset. // Pattern with address + immediate offset multiclass BinRMWPatImmOff<ValueType ty, PatFrag kind, PatFrag operand, string inst> { def : Pat<(ty (kind (operand I32:$addr, imm:$off), ty:$val)), (!cast<NI>(inst#_A32) 0, imm:$off, I32:$addr, ty:$val)>, Requires<[HasAddr32]>; def : Pat<(ty (kind (operand I64:$addr, imm:$off), ty:$val)), (!cast<NI>(inst#_A64) 0, imm:$off, I64:$addr, ty:$val)>, Requires<[HasAddr64]>; } // Select binary RMWs with just a constant offset. multiclass BinRMWPatOffsetOnly<ValueType ty, PatFrag kind, string inst> { def : Pat<(ty (kind imm:$off, ty:$val)), (!cast<NI>(inst#_A32) 0, imm:$off, (CONST_I32 0), ty:$val)>, Requires<[HasAddr32]>; def : Pat<(ty (kind imm:$off, ty:$val)), (!cast<NI>(inst#_A64) 0, imm:$off, (CONST_I64 0), ty:$val)>, Requires<[HasAddr64]>; } multiclass BinRMWPatGlobalAddrOffOnly<ValueType ty, PatFrag kind, NI inst> { def : Pat<(ty (kind (WebAssemblywrapper tglobaladdr:$off), ty:$val)), (!cast<NI>(inst#_A32) 0, tglobaladdr:$off, (CONST_I32 0), ty:$val)>, Requires<[HasAddr32]>; def : Pat<(ty (kind (WebAssemblywrapper tglobaladdr:$off), ty:$val)), (!cast<NI>(inst#_A64) 0, tglobaladdr:$off, (CONST_I64 0), ty:$val)>, Requires<[HasAddr64]>; } // Patterns for various addressing modes. multiclass BinRMWPattern<PatFrag rmw_32, PatFrag rmw_64, string inst_32, string inst_64> { defm : BinRMWPatNoOffset<i32, rmw_32, inst_32>; defm : BinRMWPatNoOffset<i64, rmw_64, inst_64>; defm : BinRMWPatImmOff<i32, rmw_32, regPlusImm, inst_32>; defm : BinRMWPatImmOff<i64, rmw_64, regPlusImm, inst_64>; defm : BinRMWPatImmOff<i32, rmw_32, or_is_add, inst_32>; defm : BinRMWPatImmOff<i64, rmw_64, or_is_add, inst_64>; defm : BinRMWPatOffsetOnly<i32, rmw_32, inst_32>; defm : BinRMWPatOffsetOnly<i64, rmw_64, inst_64>; defm : BinRMWPatGlobalAddrOffOnly<i32, rmw_32, inst_32>; defm : BinRMWPatGlobalAddrOffOnly<i64, rmw_64, inst_64>; } let Predicates = [HasAtomics] in { defm : BinRMWPattern<atomic_load_add_32, atomic_load_add_64, "ATOMIC_RMW_ADD_I32", "ATOMIC_RMW_ADD_I64">; defm : BinRMWPattern<atomic_load_sub_32, atomic_load_sub_64, "ATOMIC_RMW_SUB_I32", "ATOMIC_RMW_SUB_I64">; defm : BinRMWPattern<atomic_load_and_32, atomic_load_and_64, "ATOMIC_RMW_AND_I32", "ATOMIC_RMW_AND_I64">; defm : BinRMWPattern<atomic_load_or_32, atomic_load_or_64, "ATOMIC_RMW_OR_I32", "ATOMIC_RMW_OR_I64">; defm : BinRMWPattern<atomic_load_xor_32, atomic_load_xor_64, "ATOMIC_RMW_XOR_I32", "ATOMIC_RMW_XOR_I64">; defm : BinRMWPattern<atomic_swap_32, atomic_swap_64, "ATOMIC_RMW_XCHG_I32", "ATOMIC_RMW_XCHG_I64">; } // Predicates = [HasAtomics] // Truncating & zero-extending binary RMW patterns. // These are combined patterns of truncating store patterns and zero-extending // load patterns above. class zext_bin_rmw_8_32<PatFrag kind> : PatFrag<(ops node:$addr, node:$val), (and (i32 (kind node:$addr, node:$val)), 255)>; class zext_bin_rmw_16_32<PatFrag kind> : PatFrag<(ops node:$addr, node:$val), (and (i32 (kind node:$addr, node:$val)), 65535)>; class zext_bin_rmw_8_64<PatFrag kind> : PatFrag<(ops node:$addr, node:$val), (and (i64 (anyext (i32 (kind node:$addr, (i32 (trunc (i64 node:$val))))))), 255)>; class zext_bin_rmw_16_64<PatFrag kind> : PatFrag<(ops node:$addr, node:$val), (and (i64 (anyext (i32 (kind node:$addr, (i32 (trunc (i64 node:$val))))))), 65535)>; class zext_bin_rmw_32_64<PatFrag kind> : PatFrag<(ops node:$addr, node:$val), (zext (i32 (kind node:$addr, (i32 (trunc (i64 node:$val))))))>; // Truncating & sign-extending binary RMW patterns. // These are combined patterns of truncating store patterns and sign-extending // load patterns above. We match subword RMWs (for 32-bit) and anyext RMWs (for // 64-bit) and select a zext RMW; the next instruction will be sext_inreg which // is selected by itself. class sext_bin_rmw_8_32<PatFrag kind> : PatFrag<(ops node:$addr, node:$val), (kind node:$addr, node:$val)>; class sext_bin_rmw_16_32<PatFrag kind> : sext_bin_rmw_8_32<kind>; class sext_bin_rmw_8_64<PatFrag kind> : PatFrag<(ops node:$addr, node:$val), (anyext (i32 (kind node:$addr, (i32 (trunc (i64 node:$val))))))>; class sext_bin_rmw_16_64<PatFrag kind> : sext_bin_rmw_8_64<kind>; // 32->64 sext RMW gets selected as i32.atomic.rmw.***, i64.extend_i32_s // Patterns for various addressing modes for truncating-extending binary RMWs. multiclass BinRMWTruncExtPattern< PatFrag rmw_8, PatFrag rmw_16, PatFrag rmw_32, PatFrag rmw_64, NI inst8_32, NI inst16_32, NI inst8_64, NI inst16_64, NI inst32_64> { // Truncating-extending binary RMWs with no constant offset defm : BinRMWPatNoOffset<i32, zext_bin_rmw_8_32<rmw_8>, inst8_32>; defm : BinRMWPatNoOffset<i32, zext_bin_rmw_16_32<rmw_16>, inst16_32>; defm : BinRMWPatNoOffset<i64, zext_bin_rmw_8_64<rmw_8>, inst8_64>; defm : BinRMWPatNoOffset<i64, zext_bin_rmw_16_64<rmw_16>, inst16_64>; defm : BinRMWPatNoOffset<i64, zext_bin_rmw_32_64<rmw_32>, inst32_64>; defm : BinRMWPatNoOffset<i32, sext_bin_rmw_8_32<rmw_8>, inst8_32>; defm : BinRMWPatNoOffset<i32, sext_bin_rmw_16_32<rmw_16>, inst16_32>; defm : BinRMWPatNoOffset<i64, sext_bin_rmw_8_64<rmw_8>, inst8_64>; defm : BinRMWPatNoOffset<i64, sext_bin_rmw_16_64<rmw_16>, inst16_64>; // Truncating-extending binary RMWs with a constant offset defm : BinRMWPatImmOff<i32, zext_bin_rmw_8_32<rmw_8>, regPlusImm, inst8_32>; defm : BinRMWPatImmOff<i32, zext_bin_rmw_16_32<rmw_16>, regPlusImm, inst16_32>; defm : BinRMWPatImmOff<i64, zext_bin_rmw_8_64<rmw_8>, regPlusImm, inst8_64>; defm : BinRMWPatImmOff<i64, zext_bin_rmw_16_64<rmw_16>, regPlusImm, inst16_64>; defm : BinRMWPatImmOff<i64, zext_bin_rmw_32_64<rmw_32>, regPlusImm, inst32_64>; defm : BinRMWPatImmOff<i32, zext_bin_rmw_8_32<rmw_8>, or_is_add, inst8_32>; defm : BinRMWPatImmOff<i32, zext_bin_rmw_16_32<rmw_16>, or_is_add, inst16_32>; defm : BinRMWPatImmOff<i64, zext_bin_rmw_8_64<rmw_8>, or_is_add, inst8_64>; defm : BinRMWPatImmOff<i64, zext_bin_rmw_16_64<rmw_16>, or_is_add, inst16_64>; defm : BinRMWPatImmOff<i64, zext_bin_rmw_32_64<rmw_32>, or_is_add, inst32_64>; defm : BinRMWPatImmOff<i32, sext_bin_rmw_8_32<rmw_8>, regPlusImm, inst8_32>; defm : BinRMWPatImmOff<i32, sext_bin_rmw_16_32<rmw_16>, regPlusImm, inst16_32>; defm : BinRMWPatImmOff<i64, sext_bin_rmw_8_64<rmw_8>, regPlusImm, inst8_64>; defm : BinRMWPatImmOff<i64, sext_bin_rmw_16_64<rmw_16>, regPlusImm, inst16_64>; defm : BinRMWPatImmOff<i32, sext_bin_rmw_8_32<rmw_8>, or_is_add, inst8_32>; defm : BinRMWPatImmOff<i32, sext_bin_rmw_16_32<rmw_16>, or_is_add, inst16_32>; defm : BinRMWPatImmOff<i64, sext_bin_rmw_8_64<rmw_8>, or_is_add, inst8_64>; defm : BinRMWPatImmOff<i64, sext_bin_rmw_16_64<rmw_16>, or_is_add, inst16_64>; // Truncating-extending binary RMWs with just a constant offset defm : BinRMWPatOffsetOnly<i32, zext_bin_rmw_8_32<rmw_8>, inst8_32>; defm : BinRMWPatOffsetOnly<i32, zext_bin_rmw_16_32<rmw_16>, inst16_32>; defm : BinRMWPatOffsetOnly<i64, zext_bin_rmw_8_64<rmw_8>, inst8_64>; defm : BinRMWPatOffsetOnly<i64, zext_bin_rmw_16_64<rmw_16>, inst16_64>; defm : BinRMWPatOffsetOnly<i64, zext_bin_rmw_32_64<rmw_32>, inst32_64>; defm : BinRMWPatOffsetOnly<i32, sext_bin_rmw_8_32<rmw_8>, inst8_32>; defm : BinRMWPatOffsetOnly<i32, sext_bin_rmw_16_32<rmw_16>, inst16_32>; defm : BinRMWPatOffsetOnly<i64, sext_bin_rmw_8_64<rmw_8>, inst8_64>; defm : BinRMWPatOffsetOnly<i64, sext_bin_rmw_16_64<rmw_16>, inst16_64>; defm : BinRMWPatGlobalAddrOffOnly<i32, zext_bin_rmw_8_32<rmw_8>, inst8_32>; defm : BinRMWPatGlobalAddrOffOnly<i32, zext_bin_rmw_16_32<rmw_16>, inst16_32>; defm : BinRMWPatGlobalAddrOffOnly<i64, zext_bin_rmw_8_64<rmw_8>, inst8_64>; defm : BinRMWPatGlobalAddrOffOnly<i64, zext_bin_rmw_16_64<rmw_16>, inst16_64>; defm : BinRMWPatGlobalAddrOffOnly<i64, zext_bin_rmw_32_64<rmw_32>, inst32_64>; defm : BinRMWPatGlobalAddrOffOnly<i32, sext_bin_rmw_8_32<rmw_8>, inst8_32>; defm : BinRMWPatGlobalAddrOffOnly<i32, sext_bin_rmw_16_32<rmw_16>, inst16_32>; defm : BinRMWPatGlobalAddrOffOnly<i64, sext_bin_rmw_8_64<rmw_8>, inst8_64>; defm : BinRMWPatGlobalAddrOffOnly<i64, sext_bin_rmw_16_64<rmw_16>, inst16_64>; } let Predicates = [HasAtomics] in { defm : BinRMWTruncExtPattern< atomic_load_add_8, atomic_load_add_16, atomic_load_add_32, atomic_load_add_64, "ATOMIC_RMW8_U_ADD_I32", "ATOMIC_RMW16_U_ADD_I32", "ATOMIC_RMW8_U_ADD_I64", "ATOMIC_RMW16_U_ADD_I64", "ATOMIC_RMW32_U_ADD_I64">; defm : BinRMWTruncExtPattern< atomic_load_sub_8, atomic_load_sub_16, atomic_load_sub_32, atomic_load_sub_64, "ATOMIC_RMW8_U_SUB_I32", "ATOMIC_RMW16_U_SUB_I32", "ATOMIC_RMW8_U_SUB_I64", "ATOMIC_RMW16_U_SUB_I64", "ATOMIC_RMW32_U_SUB_I64">; defm : BinRMWTruncExtPattern< atomic_load_and_8, atomic_load_and_16, atomic_load_and_32, atomic_load_and_64, "ATOMIC_RMW8_U_AND_I32", "ATOMIC_RMW16_U_AND_I32", "ATOMIC_RMW8_U_AND_I64", "ATOMIC_RMW16_U_AND_I64", "ATOMIC_RMW32_U_AND_I64">; defm : BinRMWTruncExtPattern< atomic_load_or_8, atomic_load_or_16, atomic_load_or_32, atomic_load_or_64, "ATOMIC_RMW8_U_OR_I32", "ATOMIC_RMW16_U_OR_I32", "ATOMIC_RMW8_U_OR_I64", "ATOMIC_RMW16_U_OR_I64", "ATOMIC_RMW32_U_OR_I64">; defm : BinRMWTruncExtPattern< atomic_load_xor_8, atomic_load_xor_16, atomic_load_xor_32, atomic_load_xor_64, "ATOMIC_RMW8_U_XOR_I32", "ATOMIC_RMW16_U_XOR_I32", "ATOMIC_RMW8_U_XOR_I64", "ATOMIC_RMW16_U_XOR_I64", "ATOMIC_RMW32_U_XOR_I64">; defm : BinRMWTruncExtPattern< atomic_swap_8, atomic_swap_16, atomic_swap_32, atomic_swap_64, "ATOMIC_RMW8_U_XCHG_I32", "ATOMIC_RMW16_U_XCHG_I32", "ATOMIC_RMW8_U_XCHG_I64", "ATOMIC_RMW16_U_XCHG_I64", "ATOMIC_RMW32_U_XCHG_I64">; } // Predicates = [HasAtomics] //===----------------------------------------------------------------------===// // Atomic ternary read-modify-writes //===----------------------------------------------------------------------===// // TODO LLVM IR's cmpxchg instruction returns a pair of {loaded value, success // flag}. When we use the success flag or both values, we can't make use of i64 // truncate/extend versions of instructions for now, which is suboptimal. // Consider adding a pass after instruction selection that optimizes this case // if it is frequent. multiclass WebAssemblyTerRMW<WebAssemblyRegClass rc, string name, int atomic_op> { defm "_A32" : ATOMIC_I<(outs rc:$dst), (ins P2Align:$p2align, offset32_op:$off, I32:$addr, rc:$exp, rc:$new_), (outs), (ins P2Align:$p2align, offset32_op:$off), [], !strconcat(name, "\t$dst, ${off}(${addr})${p2align}, $exp, $new_"), !strconcat(name, "\t${off}${p2align}"), atomic_op, "false">; defm "_A64" : ATOMIC_I<(outs rc:$dst), (ins P2Align:$p2align, offset64_op:$off, I64:$addr, rc:$exp, rc:$new_), (outs), (ins P2Align:$p2align, offset64_op:$off), [], !strconcat(name, "\t$dst, ${off}(${addr})${p2align}, $exp, $new_"), !strconcat(name, "\t${off}${p2align}"), atomic_op, "true">; } defm ATOMIC_RMW_CMPXCHG_I32 : WebAssemblyTerRMW<I32, "i32.atomic.rmw.cmpxchg", 0x48>; defm ATOMIC_RMW_CMPXCHG_I64 : WebAssemblyTerRMW<I64, "i64.atomic.rmw.cmpxchg", 0x49>; defm ATOMIC_RMW8_U_CMPXCHG_I32 : WebAssemblyTerRMW<I32, "i32.atomic.rmw8.cmpxchg_u", 0x4a>; defm ATOMIC_RMW16_U_CMPXCHG_I32 : WebAssemblyTerRMW<I32, "i32.atomic.rmw16.cmpxchg_u", 0x4b>; defm ATOMIC_RMW8_U_CMPXCHG_I64 : WebAssemblyTerRMW<I64, "i64.atomic.rmw8.cmpxchg_u", 0x4c>; defm ATOMIC_RMW16_U_CMPXCHG_I64 : WebAssemblyTerRMW<I64, "i64.atomic.rmw16.cmpxchg_u", 0x4d>; defm ATOMIC_RMW32_U_CMPXCHG_I64 : WebAssemblyTerRMW<I64, "i64.atomic.rmw32.cmpxchg_u", 0x4e>; // Select ternary RMWs with no constant offset. multiclass TerRMWPatNoOffset<ValueType ty, PatFrag kind, string inst> { def : Pat<(ty (kind I32:$addr, ty:$exp, ty:$new)), (!cast<NI>(inst#_A32) 0, 0, I32:$addr, ty:$exp, ty:$new)>, Requires<[HasAddr32]>; def : Pat<(ty (kind I64:$addr, ty:$exp, ty:$new)), (!cast<NI>(inst#_A64) 0, 0, I64:$addr, ty:$exp, ty:$new)>, Requires<[HasAddr64]>; } // Select ternary RMWs with a constant offset. // Pattern with address + immediate offset multiclass TerRMWPatImmOff<ValueType ty, PatFrag kind, PatFrag operand, string inst> { def : Pat<(ty (kind (operand I32:$addr, imm:$off), ty:$exp, ty:$new)), (!cast<NI>(inst#_A32) 0, imm:$off, I32:$addr, ty:$exp, ty:$new)>, Requires<[HasAddr32]>; def : Pat<(ty (kind (operand I64:$addr, imm:$off), ty:$exp, ty:$new)), (!cast<NI>(inst#_A64) 0, imm:$off, I64:$addr, ty:$exp, ty:$new)>, Requires<[HasAddr64]>; } // Select ternary RMWs with just a constant offset. multiclass TerRMWPatOffsetOnly<ValueType ty, PatFrag kind, string inst> { def : Pat<(ty (kind imm:$off, ty:$exp, ty:$new)), (!cast<NI>(inst#_A32) 0, imm:$off, (CONST_I32 0), ty:$exp, ty:$new)>; def : Pat<(ty (kind imm:$off, ty:$exp, ty:$new)), (!cast<NI>(inst#_A64) 0, imm:$off, (CONST_I64 0), ty:$exp, ty:$new)>; } multiclass TerRMWPatGlobalAddrOffOnly<ValueType ty, PatFrag kind, string inst> { def : Pat<(ty (kind (WebAssemblywrapper tglobaladdr:$off), ty:$exp, ty:$new)), (!cast<NI>(inst#_A32) 0, tglobaladdr:$off, (CONST_I32 0), ty:$exp, ty:$new)>, Requires<[HasAddr32]>; def : Pat<(ty (kind (WebAssemblywrapper tglobaladdr:$off), ty:$exp, ty:$new)), (!cast<NI>(inst#_A64) 0, tglobaladdr:$off, (CONST_I64 0), ty:$exp, ty:$new)>, Requires<[HasAddr64]>; } // Patterns for various addressing modes. multiclass TerRMWPattern<PatFrag rmw_32, PatFrag rmw_64, string inst_32, string inst_64> { defm : TerRMWPatNoOffset<i32, rmw_32, inst_32>; defm : TerRMWPatNoOffset<i64, rmw_64, inst_64>; defm : TerRMWPatImmOff<i32, rmw_32, regPlusImm, inst_32>; defm : TerRMWPatImmOff<i64, rmw_64, regPlusImm, inst_64>; defm : TerRMWPatImmOff<i32, rmw_32, or_is_add, inst_32>; defm : TerRMWPatImmOff<i64, rmw_64, or_is_add, inst_64>; defm : TerRMWPatOffsetOnly<i32, rmw_32, inst_32>; defm : TerRMWPatOffsetOnly<i64, rmw_64, inst_64>; defm : TerRMWPatGlobalAddrOffOnly<i32, rmw_32, inst_32>; defm : TerRMWPatGlobalAddrOffOnly<i64, rmw_64, inst_64>; } let Predicates = [HasAtomics] in defm : TerRMWPattern<atomic_cmp_swap_32, atomic_cmp_swap_64, "ATOMIC_RMW_CMPXCHG_I32", "ATOMIC_RMW_CMPXCHG_I64">; // Truncating & zero-extending ternary RMW patterns. // DAG legalization & optimization before instruction selection may introduce // additional nodes such as anyext or assertzext depending on operand types. class zext_ter_rmw_8_32<PatFrag kind> : PatFrag<(ops node:$addr, node:$exp, node:$new), (and (i32 (kind node:$addr, node:$exp, node:$new)), 255)>; class zext_ter_rmw_16_32<PatFrag kind> : PatFrag<(ops node:$addr, node:$exp, node:$new), (and (i32 (kind node:$addr, node:$exp, node:$new)), 65535)>; class zext_ter_rmw_8_64<PatFrag kind> : PatFrag<(ops node:$addr, node:$exp, node:$new), (zext (i32 (assertzext (i32 (kind node:$addr, (i32 (trunc (i64 node:$exp))), (i32 (trunc (i64 node:$new))))))))>; class zext_ter_rmw_16_64<PatFrag kind> : zext_ter_rmw_8_64<kind>; class zext_ter_rmw_32_64<PatFrag kind> : PatFrag<(ops node:$addr, node:$exp, node:$new), (zext (i32 (kind node:$addr, (i32 (trunc (i64 node:$exp))), (i32 (trunc (i64 node:$new))))))>; // Truncating & sign-extending ternary RMW patterns. // We match subword RMWs (for 32-bit) and anyext RMWs (for 64-bit) and select a // zext RMW; the next instruction will be sext_inreg which is selected by // itself. class sext_ter_rmw_8_32<PatFrag kind> : PatFrag<(ops node:$addr, node:$exp, node:$new), (kind node:$addr, node:$exp, node:$new)>; class sext_ter_rmw_16_32<PatFrag kind> : sext_ter_rmw_8_32<kind>; class sext_ter_rmw_8_64<PatFrag kind> : PatFrag<(ops node:$addr, node:$exp, node:$new), (anyext (i32 (assertzext (i32 (kind node:$addr, (i32 (trunc (i64 node:$exp))), (i32 (trunc (i64 node:$new))))))))>; class sext_ter_rmw_16_64<PatFrag kind> : sext_ter_rmw_8_64<kind>; // 32->64 sext RMW gets selected as i32.atomic.rmw.***, i64.extend_i32_s // Patterns for various addressing modes for truncating-extending ternary RMWs. multiclass TerRMWTruncExtPattern< PatFrag rmw_8, PatFrag rmw_16, PatFrag rmw_32, PatFrag rmw_64, string inst8_32, string inst16_32, string inst8_64, string inst16_64, string inst32_64> { // Truncating-extending ternary RMWs with no constant offset defm : TerRMWPatNoOffset<i32, zext_ter_rmw_8_32<rmw_8>, inst8_32>; defm : TerRMWPatNoOffset<i32, zext_ter_rmw_16_32<rmw_16>, inst16_32>; defm : TerRMWPatNoOffset<i64, zext_ter_rmw_8_64<rmw_8>, inst8_64>; defm : TerRMWPatNoOffset<i64, zext_ter_rmw_16_64<rmw_16>, inst16_64>; defm : TerRMWPatNoOffset<i64, zext_ter_rmw_32_64<rmw_32>, inst32_64>; defm : TerRMWPatNoOffset<i32, sext_ter_rmw_8_32<rmw_8>, inst8_32>; defm : TerRMWPatNoOffset<i32, sext_ter_rmw_16_32<rmw_16>, inst16_32>; defm : TerRMWPatNoOffset<i64, sext_ter_rmw_8_64<rmw_8>, inst8_64>; defm : TerRMWPatNoOffset<i64, sext_ter_rmw_16_64<rmw_16>, inst16_64>; // Truncating-extending ternary RMWs with a constant offset defm : TerRMWPatImmOff<i32, zext_ter_rmw_8_32<rmw_8>, regPlusImm, inst8_32>; defm : TerRMWPatImmOff<i32, zext_ter_rmw_16_32<rmw_16>, regPlusImm, inst16_32>; defm : TerRMWPatImmOff<i64, zext_ter_rmw_8_64<rmw_8>, regPlusImm, inst8_64>; defm : TerRMWPatImmOff<i64, zext_ter_rmw_16_64<rmw_16>, regPlusImm, inst16_64>; defm : TerRMWPatImmOff<i64, zext_ter_rmw_32_64<rmw_32>, regPlusImm, inst32_64>; defm : TerRMWPatImmOff<i32, zext_ter_rmw_8_32<rmw_8>, or_is_add, inst8_32>; defm : TerRMWPatImmOff<i32, zext_ter_rmw_16_32<rmw_16>, or_is_add, inst16_32>; defm : TerRMWPatImmOff<i64, zext_ter_rmw_8_64<rmw_8>, or_is_add, inst8_64>; defm : TerRMWPatImmOff<i64, zext_ter_rmw_16_64<rmw_16>, or_is_add, inst16_64>; defm : TerRMWPatImmOff<i64, zext_ter_rmw_32_64<rmw_32>, or_is_add, inst32_64>; defm : TerRMWPatImmOff<i32, sext_ter_rmw_8_32<rmw_8>, regPlusImm, inst8_32>; defm : TerRMWPatImmOff<i32, sext_ter_rmw_16_32<rmw_16>, regPlusImm, inst16_32>; defm : TerRMWPatImmOff<i64, sext_ter_rmw_8_64<rmw_8>, regPlusImm, inst8_64>; defm : TerRMWPatImmOff<i64, sext_ter_rmw_16_64<rmw_16>, regPlusImm, inst16_64>; defm : TerRMWPatImmOff<i32, sext_ter_rmw_8_32<rmw_8>, or_is_add, inst8_32>; defm : TerRMWPatImmOff<i32, sext_ter_rmw_16_32<rmw_16>, or_is_add, inst16_32>; defm : TerRMWPatImmOff<i64, sext_ter_rmw_8_64<rmw_8>, or_is_add, inst8_64>; defm : TerRMWPatImmOff<i64, sext_ter_rmw_16_64<rmw_16>, or_is_add, inst16_64>; // Truncating-extending ternary RMWs with just a constant offset defm : TerRMWPatOffsetOnly<i32, zext_ter_rmw_8_32<rmw_8>, inst8_32>; defm : TerRMWPatOffsetOnly<i32, zext_ter_rmw_16_32<rmw_16>, inst16_32>; defm : TerRMWPatOffsetOnly<i64, zext_ter_rmw_8_64<rmw_8>, inst8_64>; defm : TerRMWPatOffsetOnly<i64, zext_ter_rmw_16_64<rmw_16>, inst16_64>; defm : TerRMWPatOffsetOnly<i64, zext_ter_rmw_32_64<rmw_32>, inst32_64>; defm : TerRMWPatOffsetOnly<i32, sext_ter_rmw_8_32<rmw_8>, inst8_32>; defm : TerRMWPatOffsetOnly<i32, sext_ter_rmw_16_32<rmw_16>, inst16_32>; defm : TerRMWPatOffsetOnly<i64, sext_ter_rmw_8_64<rmw_8>, inst8_64>; defm : TerRMWPatOffsetOnly<i64, sext_ter_rmw_16_64<rmw_16>, inst16_64>; defm : TerRMWPatGlobalAddrOffOnly<i32, zext_ter_rmw_8_32<rmw_8>, inst8_32>; defm : TerRMWPatGlobalAddrOffOnly<i32, zext_ter_rmw_16_32<rmw_16>, inst16_32>; defm : TerRMWPatGlobalAddrOffOnly<i64, zext_ter_rmw_8_64<rmw_8>, inst8_64>; defm : TerRMWPatGlobalAddrOffOnly<i64, zext_ter_rmw_16_64<rmw_16>, inst16_64>; defm : TerRMWPatGlobalAddrOffOnly<i64, zext_ter_rmw_32_64<rmw_32>, inst32_64>; defm : TerRMWPatGlobalAddrOffOnly<i32, sext_ter_rmw_8_32<rmw_8>, inst8_32>; defm : TerRMWPatGlobalAddrOffOnly<i32, sext_ter_rmw_16_32<rmw_16>, inst16_32>; defm : TerRMWPatGlobalAddrOffOnly<i64, sext_ter_rmw_8_64<rmw_8>, inst8_64>; defm : TerRMWPatGlobalAddrOffOnly<i64, sext_ter_rmw_16_64<rmw_16>, inst16_64>; } let Predicates = [HasAtomics] in defm : TerRMWTruncExtPattern< atomic_cmp_swap_8, atomic_cmp_swap_16, atomic_cmp_swap_32, atomic_cmp_swap_64, "ATOMIC_RMW8_U_CMPXCHG_I32", "ATOMIC_RMW16_U_CMPXCHG_I32", "ATOMIC_RMW8_U_CMPXCHG_I64", "ATOMIC_RMW16_U_CMPXCHG_I64", "ATOMIC_RMW32_U_CMPXCHG_I64">;
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