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https://github.com/RPCS3/llvm-mirror.git
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e01edf98aa
Original commit rG112b3cb6ba49 introduced non-determinism in subtarget generator due to iteration over DenseMap. New patch fixes this changing ProcModelMapTy from DenseMap to std::map.
1499 lines
63 KiB
TableGen
1499 lines
63 KiB
TableGen
//=- ARMScheduleA57.td - ARM Cortex-A57 Scheduling Defs -----*- tablegen -*-=//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the machine model for ARM Cortex-A57 to support
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// instruction scheduling and other instruction cost heuristics.
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//
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//===----------------------------------------------------------------------===//
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//===----------------------------------------------------------------------===//
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// *** Common description and scheduling model parameters taken from AArch64 ***
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// The Cortex-A57 is a traditional superscalar microprocessor with a
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// conservative 3-wide in-order stage for decode and dispatch. Combined with the
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// much wider out-of-order issue stage, this produced a need to carefully
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// schedule micro-ops so that all three decoded each cycle are successfully
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// issued as the reservation station(s) simply don't stay occupied for long.
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// Therefore, IssueWidth is set to the narrower of the two at three, while still
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// modeling the machine as out-of-order.
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def IsCPSRDefinedAndPredicated : CheckAll<[IsCPSRDefined, IsPredicated]>;
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def IsCPSRDefinedAndPredicatedPred :
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MCSchedPredicate<IsCPSRDefinedAndPredicated>;
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// Cortex A57 rev. r1p0 or later (false = r0px)
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def IsR1P0AndLaterPred : MCSchedPredicate<FalsePred>;
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def IsLdrAm3RegOffPred : MCSchedPredicate<CheckInvalidRegOperand<2>>;
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def IsLdrAm3RegOffPredX2 : MCSchedPredicate<CheckInvalidRegOperand<3>>;
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def IsLdrAm3RegOffPredX3 : MCSchedPredicate<CheckInvalidRegOperand<4>>;
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// If Addrmode3 contains "minus register"
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class Am3NegativeRegOffset<int n> : MCSchedPredicate<CheckAll<[
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CheckValidRegOperand<n>,
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CheckAM3OpSub<!add(n, 1)>]>>;
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def IsLdrAm3NegRegOffPred : Am3NegativeRegOffset<2>;
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def IsLdrAm3NegRegOffPredX2 : Am3NegativeRegOffset<3>;
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def IsLdrAm3NegRegOffPredX3 : Am3NegativeRegOffset<4>;
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// Load, scaled register offset, not plus LSL2
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class ScaledRegNotPlusLsl2<int n> : CheckNot<
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CheckAny<[
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CheckAM2NoShift<n>,
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CheckAll<[
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CheckAM2OpAdd<n>,
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CheckAM2ShiftLSL<n>,
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CheckAM2Offset<n, 2>
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]>
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]>
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>;
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def IsLdstsoScaledNotOptimalPredX0 : MCSchedPredicate<ScaledRegNotPlusLsl2<2>>;
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def IsLdstsoScaledNotOptimalPred : MCSchedPredicate<ScaledRegNotPlusLsl2<3>>;
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def IsLdstsoScaledNotOptimalPredX2 : MCSchedPredicate<ScaledRegNotPlusLsl2<4>>;
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def IsLdstsoScaledPredX2 : MCSchedPredicate<CheckNot<CheckAM2NoShift<4>>>;
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def IsLdstsoMinusRegPredX0 : MCSchedPredicate<CheckAM2OpSub<2>>;
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def IsLdstsoMinusRegPred : MCSchedPredicate<CheckAM2OpSub<3>>;
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def IsLdstsoMinusRegPredX2 : MCSchedPredicate<CheckAM2OpSub<4>>;
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class A57WriteLMOpsListType<list<SchedWriteRes> writes> {
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list <SchedWriteRes> Writes = writes;
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SchedMachineModel SchedModel = ?;
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}
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// *** Common description and scheduling model parameters taken from AArch64 ***
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// (AArch64SchedA57.td)
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def CortexA57Model : SchedMachineModel {
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let IssueWidth = 3; // 3-way decode and dispatch
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let MicroOpBufferSize = 128; // 128 micro-op re-order buffer
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let LoadLatency = 4; // Optimistic load latency
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let MispredictPenalty = 16; // Fetch + Decode/Rename/Dispatch + Branch
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// Enable partial & runtime unrolling.
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let LoopMicroOpBufferSize = 16;
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let CompleteModel = 1;
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// FIXME: Remove when all errors have been fixed.
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let FullInstRWOverlapCheck = 0;
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let UnsupportedFeatures = [HasV8_1MMainline, HasMVEInt, HasMVEFloat,
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HasFPRegsV8_1M, HasFP16FML, HasMatMulInt8, HasBF16];
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}
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//===----------------------------------------------------------------------===//
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// Define each kind of processor resource and number available on Cortex-A57.
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// Cortex A-57 has 8 pipelines that each has its own 8-entry queue where
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// micro-ops wait for their operands and then issue out-of-order.
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def A57UnitB : ProcResource<1>; // Type B micro-ops
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def A57UnitI : ProcResource<2>; // Type I micro-ops
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def A57UnitM : ProcResource<1>; // Type M micro-ops
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def A57UnitL : ProcResource<1>; // Type L micro-ops
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def A57UnitS : ProcResource<1>; // Type S micro-ops
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def A57UnitX : ProcResource<1>; // Type X micro-ops (F1)
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def A57UnitW : ProcResource<1>; // Type W micro-ops (F0)
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let SchedModel = CortexA57Model in {
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def A57UnitV : ProcResGroup<[A57UnitX, A57UnitW]>; // Type V micro-ops
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}
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let SchedModel = CortexA57Model in {
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//===----------------------------------------------------------------------===//
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// Define customized scheduler read/write types specific to the Cortex-A57.
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include "ARMScheduleA57WriteRes.td"
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// To have "CompleteModel = 1", support of pseudos and special instructions
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def : InstRW<[WriteNoop], (instregex "(t)?BKPT$", "(t2)?CDP(2)?$",
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"(t2)?CLREX$", "CONSTPOOL_ENTRY$", "COPY_STRUCT_BYVAL_I32$",
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"(t2)?CPS[123]p$", "(t2)?DBG$", "(t2)?DMB$", "(t2)?DSB$", "ERET$",
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"(t2|t)?HINT$", "(t)?HLT$", "(t2)?HVC$", "(t2)?ISB$", "ITasm$",
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"(t2)?RFE(DA|DB|IA|IB)", "(t)?SETEND", "(t2)?SETPAN", "(t2)?SMC", "SPACE",
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"(t2)?SRS(DA|DB|IA|IB)", "SWP(B)?", "t?TRAP", "(t2|t)?UDF$", "t2DCPS", "t2SG",
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"t2TT", "tCPS", "CMP_SWAP", "t?SVC", "t2IT", "CompilerBarrier",
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"t__brkdiv0")>;
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def : InstRW<[WriteNoop], (instregex "VMRS", "VMSR", "FMSTAT")>;
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// Specific memory instrs
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def : InstRW<[WriteNoop, WriteNoop], (instregex "(t2)?LDA", "(t2)?LDC", "(t2)?STC",
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"(t2)?STL", "(t2)?LDREX", "(t2)?STREX", "MEMCPY")>;
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// coprocessor moves
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def : InstRW<[WriteNoop, WriteNoop], (instregex
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"(t2)?MCR(2|R|R2)?$", "(t2)?MRC(2)?$",
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"(t2)?MRRC(2)?$", "(t2)?MRS(banked|sys|_AR|_M|sys_AR)?$",
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"(t2)?MSR(banked|i|_AR|_M)?$")>;
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// Deprecated instructions
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def : InstRW<[WriteNoop], (instregex "FLDM", "FSTM")>;
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// Pseudos
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def : InstRW<[WriteNoop], (instregex "(t2)?ABS$",
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"(t)?ADJCALLSTACKDOWN$", "(t)?ADJCALLSTACKUP$", "(t2|t)?Int_eh_sjlj",
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"tLDRpci_pic", "(t2)?SUBS_PC_LR",
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"JUMPTABLE", "tInt_WIN_eh_sjlj_longjmp",
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"VLD(1|2)LN(d|q)(WB_fixed_|WB_register_)?Asm",
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"VLD(3|4)(DUP|LN)?(d|q)(WB_fixed_|WB_register_)?Asm",
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"VST(1|2)LN(d|q)(WB_fixed_|WB_register_)?Asm",
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"VST(3|4)(DUP|LN)?(d|q)(WB_fixed_|WB_register_)?Asm",
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"WIN__CHKSTK", "WIN__DBZCHK")>;
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// Miscellaneous
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// -----------------------------------------------------------------------------
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def : InstRW<[A57Write_1cyc_1I], (instrs COPY)>;
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// --- 3.2 Branch Instructions ---
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// B, BX, BL, BLX (imm, reg != LR, reg == LR), CBZ, CBNZ
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def : InstRW<[A57Write_1cyc_1B], (instregex "(t2|t)?B$", "t?BX", "(t2|t)?Bcc$",
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"t?TAILJMP(d|r)", "TCRETURN(d|r)i", "tBfar", "tCBN?Z")>;
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def : InstRW<[A57Write_1cyc_1B_1I],
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(instregex "t?BL$", "BL_pred$", "t?BLXi", "t?TPsoft")>;
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def : InstRW<[A57Write_2cyc_1B_1I], (instregex "BLX", "tBLX(NS)?r")>;
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// Pseudos
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def : InstRW<[A57Write_2cyc_1B_1I], (instregex "BCCi64", "BCCZi64")>;
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def : InstRW<[A57Write_3cyc_1B_1I], (instregex "BR_JTadd", "t?BR_JTr",
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"t2BR_JT", "t2BXJ", "(t2)?TB(B|H)(_JT)?$", "tBRIND")>;
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def : InstRW<[A57Write_6cyc_1B_1L], (instregex "BR_JTm")>;
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// --- 3.3 Arithmetic and Logical Instructions ---
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// ADD{S}, ADC{S}, ADR, AND{S}, BIC{S}, CMN, CMP, EOR{S}, ORN{S}, ORR{S},
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// RSB{S}, RSC{S}, SUB{S}, SBC{S}, TEQ, TST
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def : InstRW<[A57Write_1cyc_1I], (instregex "tADDframe")>;
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// Check branch forms of ALU ops:
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// check reg 0 for ARM_AM::PC
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// if so adds 2 cyc to latency, 1 uop, 1 res cycle for A57UnitB
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class A57BranchForm<SchedWriteRes non_br> :
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BranchWriteRes<2, 1, [A57UnitB], [1], non_br>;
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// shift by register, conditional or unconditional
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// TODO: according to the doc, conditional uses I0/I1, unconditional uses M
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// Why more complex instruction uses more simple pipeline?
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// May be an error in doc.
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def A57WriteALUsr : SchedWriteVariant<[
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SchedVar<IsPredicatedPred, [CheckBranchForm<0, A57BranchForm<A57Write_2cyc_1I>>]>,
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SchedVar<NoSchedPred, [CheckBranchForm<0, A57BranchForm<A57Write_2cyc_1M>>]>
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]>;
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def A57WriteALUSsr : SchedWriteVariant<[
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SchedVar<IsPredicatedPred, [CheckBranchForm<0, A57BranchForm<A57Write_2cyc_1I>>]>,
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SchedVar<NoSchedPred, [CheckBranchForm<0, A57BranchForm<A57Write_2cyc_1M>>]>
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]>;
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def A57ReadALUsr : SchedReadVariant<[
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SchedVar<IsPredicatedPred, [ReadDefault]>,
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SchedVar<NoSchedPred, [ReadDefault]>
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]>;
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def : SchedAlias<WriteALUsi, CheckBranchForm<0, A57BranchForm<A57Write_2cyc_1M>>>;
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def : SchedAlias<WriteALUsr, A57WriteALUsr>;
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def : SchedAlias<WriteALUSsr, A57WriteALUSsr>;
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def : SchedAlias<ReadALUsr, A57ReadALUsr>;
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def A57WriteCMPsr : SchedWriteVariant<[
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SchedVar<IsPredicatedPred, [A57Write_2cyc_1I]>,
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SchedVar<NoSchedPred, [A57Write_2cyc_1M]>
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]>;
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def : SchedAlias<WriteCMP, A57Write_1cyc_1I>;
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def : SchedAlias<WriteCMPsi, A57Write_2cyc_1M>;
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def : SchedAlias<WriteCMPsr, A57WriteCMPsr>;
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// --- 3.4 Move and Shift Instructions ---
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// Move, basic
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// MOV{S}, MOVW, MVN{S}
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def : InstRW<[A57Write_1cyc_1I], (instregex "MOV(r|i|i16|r_TC)",
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"(t2)?MVN(CC)?(r|i)", "BMOVPCB_CALL", "BMOVPCRX_CALL",
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"MOVCC(r|i|i16|i32imm)", "tMOV", "tMVN")>;
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// Move, shift by immed, setflags/no setflags
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// (ASR, LSL, LSR, ROR, RRX)=MOVsi, MVN
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// setflags = isCPSRDefined
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def A57WriteMOVsi : SchedWriteVariant<[
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SchedVar<IsCPSRDefinedPred, [A57Write_2cyc_1M]>,
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SchedVar<NoSchedPred, [A57Write_1cyc_1I]>
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]>;
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def : InstRW<[A57WriteMOVsi], (instregex "MOV(CC)?si", "MVNsi",
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"ASRi", "(t2|t)ASRri", "LSRi", "(t2|t)LSRri", "LSLi", "(t2|t)LSLri", "RORi",
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"(t2|t)RORri", "(t2)?RRX", "t2MOV", "tROR")>;
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// shift by register, conditional or unconditional, setflags/no setflags
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def A57WriteMOVsr : SchedWriteVariant<[
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SchedVar<IsCPSRDefinedAndPredicatedPred, [A57Write_2cyc_1I]>,
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SchedVar<IsCPSRDefinedPred, [A57Write_2cyc_1M]>,
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SchedVar<IsPredicatedPred, [A57Write_2cyc_1I]>,
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SchedVar<NoSchedPred, [A57Write_1cyc_1I]>
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]>;
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def : InstRW<[A57WriteMOVsr], (instregex "MOV(CC)?sr", "MVNsr", "t2MVNs",
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"ASRr", "(t2|t)ASRrr", "LSRr", "(t2|t)LSRrr", "LSLr", "(t2|t)?LSLrr", "RORr",
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"(t2|t)RORrr")>;
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// Move, top
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// MOVT - A57Write_2cyc_1M for r0px, A57Write_1cyc_1I for r1p0 and later
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def A57WriteMOVT : SchedWriteVariant<[
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SchedVar<IsR1P0AndLaterPred, [A57Write_1cyc_1I]>,
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SchedVar<NoSchedPred, [A57Write_2cyc_1M]>
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]>;
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def : InstRW<[A57WriteMOVT], (instregex "MOVTi16")>;
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def A57WriteI2pc :
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WriteSequence<[A57Write_1cyc_1I, A57Write_1cyc_1I, A57Write_1cyc_1I]>;
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def A57WriteI2ld :
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WriteSequence<[A57Write_1cyc_1I, A57Write_1cyc_1I, A57Write_4cyc_1L]>;
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def : InstRW< [A57WriteI2pc], (instregex "MOV_ga_pcrel")>;
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def : InstRW< [A57WriteI2ld], (instregex "MOV_ga_pcrel_ldr")>;
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// +2cyc for branch forms
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def : InstRW<[A57Write_3cyc_1I], (instregex "MOVPC(LR|RX)")>;
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// --- 3.5 Divide and Multiply Instructions ---
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// Divide: SDIV, UDIV
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// latency from documentration: 4 ‐ 20, maximum taken
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def : SchedAlias<WriteDIV, A57Write_20cyc_1M>;
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// Multiply: tMul not bound to common WriteRes types
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def : InstRW<[A57Write_3cyc_1M], (instregex "tMUL")>;
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def : SchedAlias<WriteMUL16, A57Write_3cyc_1M>;
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def : SchedAlias<WriteMUL32, A57Write_3cyc_1M>;
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def : ReadAdvance<ReadMUL, 0>;
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// Multiply accumulate: MLA, MLS, SMLABB, SMLABT, SMLATB, SMLATT, SMLAWB,
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// SMLAWT, SMLAD{X}, SMLSD{X}, SMMLA{R}, SMMLS{R}
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// Multiply-accumulate pipelines support late-forwarding of accumulate operands
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// from similar μops, allowing a typical sequence of multiply-accumulate μops
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// to issue one every 1 cycle (sched advance = 2).
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def A57WriteMLA : SchedWriteRes<[A57UnitM]> { let Latency = 3; }
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def A57WriteMLAL : SchedWriteVariant<[
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SchedVar<IsCPSRDefinedPred, [A57Write_5cyc_1I_1M]>,
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SchedVar<NoSchedPred, [A57Write_4cyc_1M]>
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]>;
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def A57ReadMLA : SchedReadAdvance<2, [A57WriteMLA, A57WriteMLAL]>;
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def : InstRW<[A57WriteMLA],
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(instregex "t2SMLAD", "t2SMLADX", "t2SMLSD", "t2SMLSDX")>;
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def : SchedAlias<WriteMAC16, A57WriteMLA>;
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def : SchedAlias<WriteMAC32, A57WriteMLA>;
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def : SchedAlias<ReadMAC, A57ReadMLA>;
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def : SchedAlias<WriteMAC64Lo, A57WriteMLAL>;
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def : SchedAlias<WriteMAC64Hi, A57WriteMLAL>;
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// Multiply long: SMULL, UMULL
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def : SchedAlias<WriteMUL64Lo, A57Write_4cyc_1M>;
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def : SchedAlias<WriteMUL64Hi, A57Write_4cyc_1M>;
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// --- 3.6 Saturating and Parallel Arithmetic Instructions ---
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// Parallel arith
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// SADD16, SADD8, SSUB16, SSUB8, UADD16, UADD8, USUB16, USUB8
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// Conditional GE-setting instructions require three extra μops
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// and two additional cycles to conditionally update the GE field.
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def A57WriteParArith : SchedWriteVariant<[
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SchedVar<IsPredicatedPred, [A57Write_4cyc_1I_1M]>,
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SchedVar<NoSchedPred, [A57Write_2cyc_1I_1M]>
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]>;
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def : InstRW< [A57WriteParArith], (instregex
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"(t2)?SADD(16|8)", "(t2)?SSUB(16|8)",
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"(t2)?UADD(16|8)", "(t2)?USUB(16|8)")>;
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// Parallel arith with exchange: SASX, SSAX, UASX, USAX
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def A57WriteParArithExch : SchedWriteVariant<[
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SchedVar<IsPredicatedPred, [A57Write_5cyc_1I_1M]>,
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SchedVar<NoSchedPred, [A57Write_3cyc_1I_1M]>
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]>;
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def : InstRW<[A57WriteParArithExch],
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(instregex "(t2)?SASX", "(t2)?SSAX", "(t2)?UASX", "(t2)?USAX")>;
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// Parallel halving arith
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// SHADD16, SHADD8, SHSUB16, SHSUB8, UHADD16, UHADD8, UHSUB16, UHSUB8
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def : InstRW<[A57Write_2cyc_1M], (instregex
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"(t2)?SHADD(16|8)", "(t2)?SHSUB(16|8)",
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"(t2)?UHADD(16|8)", "(t2)?UHSUB(16|8)")>;
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// Parallel halving arith with exchange
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// SHASX, SHSAX, UHASX, UHSAX
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def : InstRW<[A57Write_3cyc_1I_1M], (instregex "(t2)?SHASX", "(t2)?SHSAX",
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"(t2)?UHASX", "(t2)?UHSAX")>;
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// Parallel saturating arith
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// QADD16, QADD8, QSUB16, QSUB8, UQADD16, UQADD8, UQSUB16, UQSUB8
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def : InstRW<[A57Write_2cyc_1M], (instregex "QADD(16|8)", "QSUB(16|8)",
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"UQADD(16|8)", "UQSUB(16|8)", "t2(U?)QADD", "t2(U?)QSUB")>;
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// Parallel saturating arith with exchange
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// QASX, QSAX, UQASX, UQSAX
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def : InstRW<[A57Write_3cyc_1I_1M], (instregex "(t2)?QASX", "(t2)?QSAX",
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"(t2)?UQASX", "(t2)?UQSAX")>;
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// Saturate: SSAT, SSAT16, USAT, USAT16
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def : InstRW<[A57Write_2cyc_1M],
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(instregex "(t2)?SSAT(16)?", "(t2)?USAT(16)?")>;
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// Saturating arith: QADD, QSUB
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def : InstRW<[A57Write_2cyc_1M], (instregex "QADD$", "QSUB$")>;
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// Saturating doubling arith: QDADD, QDSUB
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def : InstRW<[A57Write_3cyc_1I_1M], (instregex "(t2)?QDADD", "(t2)?QDSUB")>;
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// --- 3.7 Miscellaneous Data-Processing Instructions ---
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// Bit field extract: SBFX, UBFX
|
||
def : InstRW<[A57Write_1cyc_1I], (instregex "(t2)?SBFX", "(t2)?UBFX")>;
|
||
|
||
// Bit field insert/clear: BFI, BFC
|
||
def : InstRW<[A57Write_2cyc_1M], (instregex "(t2)?BFI", "(t2)?BFC")>;
|
||
|
||
// Select bytes, conditional/unconditional
|
||
def A57WriteSEL : SchedWriteVariant<[
|
||
SchedVar<IsPredicatedPred, [A57Write_2cyc_1I]>,
|
||
SchedVar<NoSchedPred, [A57Write_1cyc_1I]>
|
||
]>;
|
||
def : InstRW<[A57WriteSEL], (instregex "(t2)?SEL")>;
|
||
|
||
// Sign/zero extend, normal: SXTB, SXTH, UXTB, UXTH
|
||
def : InstRW<[A57Write_1cyc_1I],
|
||
(instregex "(t2|t)?SXT(B|H)$", "(t2|t)?UXT(B|H)$")>;
|
||
|
||
// Sign/zero extend and add, normal: SXTAB, SXTAH, UXTAB, UXTAH
|
||
def : InstRW<[A57Write_2cyc_1M],
|
||
(instregex "(t2)?SXTA(B|H)$", "(t2)?UXTA(B|H)$")>;
|
||
|
||
// Sign/zero extend and add, parallel: SXTAB16, UXTAB16
|
||
def : InstRW<[A57Write_4cyc_1M], (instregex "(t2)?SXTAB16", "(t2)?UXTAB16")>;
|
||
|
||
// Sum of absolute differences: USAD8, USADA8
|
||
def : InstRW<[A57Write_3cyc_1M], (instregex "(t2)?USAD8", "(t2)?USADA8")>;
|
||
|
||
// --- 3.8 Load Instructions ---
|
||
|
||
// Load, immed offset
|
||
// LDR and LDRB have LDRi12 and LDRBi12 forms for immediate
|
||
def : InstRW<[A57Write_4cyc_1L], (instregex "LDRi12", "LDRBi12",
|
||
"LDRcp", "(t2|t)?LDRConstPool", "LDRLIT_ga_(pcrel|abs)",
|
||
"PICLDR", "tLDR")>;
|
||
|
||
def : InstRW<[A57Write_4cyc_1L],
|
||
(instregex "t2LDRS?(B|H)?(pcrel|T|i8|i12|pci|pci_pic|s)?$")>;
|
||
|
||
// For "Load, register offset, minus" we need +1cyc, +1I
|
||
def A57WriteLdrAm3 : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3NegRegOffPred, [A57Write_5cyc_1I_1L]>,
|
||
SchedVar<NoSchedPred, [A57Write_4cyc_1L]>
|
||
]>;
|
||
def : InstRW<[A57WriteLdrAm3], (instregex "LDR(H|SH|SB)$")>;
|
||
def A57WriteLdrAm3X2 : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3NegRegOffPredX2, [A57Write_5cyc_1I_1L]>,
|
||
SchedVar<NoSchedPred, [A57Write_4cyc_1L]>
|
||
]>;
|
||
def : InstRW<[A57WriteLdrAm3X2, A57WriteLdrAm3X2], (instregex "LDRD$")>;
|
||
def : InstRW<[A57Write_4cyc_1L, A57Write_4cyc_1L], (instregex "t2LDRDi8")>;
|
||
|
||
def A57WriteLdrAmLDSTSO : SchedWriteVariant<[
|
||
SchedVar<IsLdstsoScaledNotOptimalPred, [A57Write_5cyc_1I_1L]>,
|
||
SchedVar<IsLdstsoMinusRegPred, [A57Write_5cyc_1I_1L]>,
|
||
SchedVar<NoSchedPred, [A57Write_4cyc_1L]>
|
||
]>;
|
||
def : InstRW<[A57WriteLdrAmLDSTSO], (instregex "LDRrs", "LDRBrs")>;
|
||
|
||
def A57WrBackOne : SchedWriteRes<[]> {
|
||
let Latency = 1;
|
||
let NumMicroOps = 0;
|
||
}
|
||
def A57WrBackTwo : SchedWriteRes<[]> {
|
||
let Latency = 2;
|
||
let NumMicroOps = 0;
|
||
}
|
||
def A57WrBackThree : SchedWriteRes<[]> {
|
||
let Latency = 3;
|
||
let NumMicroOps = 0;
|
||
}
|
||
|
||
// --- LDR pre-indexed ---
|
||
// Load, immed pre-indexed (4 cyc for load result, 1 cyc for Base update)
|
||
def : InstRW<[A57Write_4cyc_1L_1I, A57WrBackOne], (instregex "LDR_PRE_IMM",
|
||
"LDRB_PRE_IMM", "t2LDRB_PRE")>;
|
||
|
||
// Load, register pre-indexed (4 cyc for load result, 2 cyc for Base update)
|
||
// (5 cyc load result for not-lsl2 scaled)
|
||
def A57WriteLdrAmLDSTSOPre : SchedWriteVariant<[
|
||
SchedVar<IsLdstsoScaledNotOptimalPredX2, [A57Write_5cyc_1I_1L]>,
|
||
SchedVar<NoSchedPred, [A57Write_4cyc_1L_1I]>
|
||
]>;
|
||
def : InstRW<[A57WriteLdrAmLDSTSOPre, A57WrBackTwo],
|
||
(instregex "LDR_PRE_REG", "LDRB_PRE_REG")>;
|
||
|
||
def A57WriteLdrAm3PreWrBack : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3RegOffPredX2, [A57WrBackTwo]>,
|
||
SchedVar<NoSchedPred, [A57WrBackOne]>
|
||
]>;
|
||
def : InstRW<[A57Write_4cyc_1L, A57WriteLdrAm3PreWrBack],
|
||
(instregex "LDR(H|SH|SB)_PRE")>;
|
||
def : InstRW<[A57Write_4cyc_1L, A57WrBackOne],
|
||
(instregex "t2LDR(H|SH|SB)?_PRE")>;
|
||
|
||
// LDRD pre-indexed: 5(2) cyc for reg, 4(1) cyc for imm.
|
||
def A57WriteLdrDAm3Pre : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3RegOffPredX3, [A57Write_5cyc_1I_1L]>,
|
||
SchedVar<NoSchedPred, [A57Write_4cyc_1L_1I]>
|
||
]>;
|
||
def A57WriteLdrDAm3PreWrBack : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3RegOffPredX3, [A57WrBackTwo]>,
|
||
SchedVar<NoSchedPred, [A57WrBackOne]>
|
||
]>;
|
||
def : InstRW<[A57WriteLdrDAm3Pre, A57WriteLdrDAm3Pre, A57WriteLdrDAm3PreWrBack],
|
||
(instregex "LDRD_PRE")>;
|
||
def : InstRW<[A57Write_4cyc_1L_1I, A57Write_4cyc_1L_1I, A57WrBackOne],
|
||
(instregex "t2LDRD_PRE")>;
|
||
|
||
// --- LDR post-indexed ---
|
||
def : InstRW<[A57Write_4cyc_1L_1I, A57WrBackOne], (instregex "LDR(T?)_POST_IMM",
|
||
"LDRB(T?)_POST_IMM", "LDR(SB|H|SH)Ti", "t2LDRB_POST")>;
|
||
|
||
def A57WriteLdrAm3PostWrBack : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3RegOffPred, [A57WrBackTwo]>,
|
||
SchedVar<NoSchedPred, [A57WrBackOne]>
|
||
]>;
|
||
def : InstRW<[A57Write_4cyc_1L_1I, A57WriteLdrAm3PostWrBack],
|
||
(instregex "LDR(H|SH|SB)_POST")>;
|
||
def : InstRW<[A57Write_4cyc_1L, A57WrBackOne],
|
||
(instregex "t2LDR(H|SH|SB)?_POST")>;
|
||
|
||
def : InstRW<[A57Write_4cyc_1L_1I, A57WrBackTwo], (instregex "LDR_POST_REG",
|
||
"LDRB_POST_REG", "LDR(B?)T_POST$")>;
|
||
|
||
def A57WriteLdrTRegPost : SchedWriteVariant<[
|
||
SchedVar<IsLdstsoScaledPredX2, [A57Write_4cyc_1I_1L_1M]>,
|
||
SchedVar<NoSchedPred, [A57Write_4cyc_1L_1I]>
|
||
]>;
|
||
def A57WriteLdrTRegPostWrBack : SchedWriteVariant<[
|
||
SchedVar<IsLdstsoScaledPredX2, [A57WrBackThree]>,
|
||
SchedVar<NoSchedPred, [A57WrBackTwo]>
|
||
]>;
|
||
// 4(3) "I0/I1,L,M" for scaled register, otherwise 4(2) "I0/I1,L"
|
||
def : InstRW<[A57WriteLdrTRegPost, A57WriteLdrTRegPostWrBack],
|
||
(instregex "LDRT_POST_REG", "LDRBT_POST_REG")>;
|
||
|
||
def : InstRW<[A57Write_4cyc_1L_1I, A57WrBackTwo], (instregex "LDR(SB|H|SH)Tr")>;
|
||
|
||
def A57WriteLdrAm3PostWrBackX3 : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3RegOffPredX3, [A57WrBackTwo]>,
|
||
SchedVar<NoSchedPred, [A57WrBackOne]>
|
||
]>;
|
||
// LDRD post-indexed: 4(2) cyc for reg, 4(1) cyc for imm.
|
||
def : InstRW<[A57Write_4cyc_1L_1I, A57Write_4cyc_1L_1I,
|
||
A57WriteLdrAm3PostWrBackX3], (instregex "LDRD_POST")>;
|
||
def : InstRW<[A57Write_4cyc_1L_1I, A57Write_4cyc_1L_1I, A57WrBackOne],
|
||
(instregex "t2LDRD_POST")>;
|
||
|
||
// --- Preload instructions ---
|
||
// Preload, immed offset
|
||
def : InstRW<[A57Write_4cyc_1L], (instregex "(t2)?PLDi12", "(t2)?PLDWi12",
|
||
"t2PLDW?(i8|pci|s)", "(t2)?PLI")>;
|
||
|
||
// Preload, register offset,
|
||
// 5cyc "I0/I1,L" for minus reg or scaled not plus lsl2
|
||
// otherwise 4cyc "L"
|
||
def A57WritePLD : SchedWriteVariant<[
|
||
SchedVar<IsLdstsoScaledNotOptimalPredX0, [A57Write_5cyc_1I_1L]>,
|
||
SchedVar<IsLdstsoMinusRegPredX0, [A57Write_5cyc_1I_1L]>,
|
||
SchedVar<NoSchedPred, [A57Write_4cyc_1L]>
|
||
]>;
|
||
def : InstRW<[A57WritePLD], (instregex "PLDrs", "PLDWrs")>;
|
||
|
||
// --- Load multiple instructions ---
|
||
foreach NumAddr = 1-8 in {
|
||
def A57LMAddrPred#NumAddr : MCSchedPredicate<CheckAny<[
|
||
CheckNumOperands<!add(!shl(NumAddr, 1), 2)>,
|
||
CheckNumOperands<!add(!shl(NumAddr, 1), 3)>]>>;
|
||
def A57LMAddrUpdPred#NumAddr : MCSchedPredicate<CheckAny<[
|
||
CheckNumOperands<!add(!shl(NumAddr, 1), 3)>,
|
||
CheckNumOperands<!add(!shl(NumAddr, 1), 4)>]>>;
|
||
}
|
||
|
||
def A57LDMOpsListNoregin : A57WriteLMOpsListType<
|
||
[A57Write_3cyc_1L, A57Write_3cyc_1L,
|
||
A57Write_4cyc_1L, A57Write_4cyc_1L,
|
||
A57Write_5cyc_1L, A57Write_5cyc_1L,
|
||
A57Write_6cyc_1L, A57Write_6cyc_1L,
|
||
A57Write_7cyc_1L, A57Write_7cyc_1L,
|
||
A57Write_8cyc_1L, A57Write_8cyc_1L,
|
||
A57Write_9cyc_1L, A57Write_9cyc_1L,
|
||
A57Write_10cyc_1L, A57Write_10cyc_1L]>;
|
||
def A57WriteLDMnoreginlist : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, A57LDMOpsListNoregin.Writes[0-1]>,
|
||
SchedVar<A57LMAddrPred2, A57LDMOpsListNoregin.Writes[0-3]>,
|
||
SchedVar<A57LMAddrPred3, A57LDMOpsListNoregin.Writes[0-5]>,
|
||
SchedVar<A57LMAddrPred4, A57LDMOpsListNoregin.Writes[0-7]>,
|
||
SchedVar<A57LMAddrPred5, A57LDMOpsListNoregin.Writes[0-9]>,
|
||
SchedVar<A57LMAddrPred6, A57LDMOpsListNoregin.Writes[0-11]>,
|
||
SchedVar<A57LMAddrPred7, A57LDMOpsListNoregin.Writes[0-13]>,
|
||
SchedVar<A57LMAddrPred8, A57LDMOpsListNoregin.Writes[0-15]>,
|
||
SchedVar<NoSchedPred, A57LDMOpsListNoregin.Writes[0-15]>
|
||
]> { let Variadic=1; }
|
||
|
||
def A57LDMOpsListRegin : A57WriteLMOpsListType<
|
||
[A57Write_4cyc_1L_1I, A57Write_4cyc_1L_1I,
|
||
A57Write_5cyc_1L_1I, A57Write_5cyc_1L_1I,
|
||
A57Write_6cyc_1L_1I, A57Write_6cyc_1L_1I,
|
||
A57Write_7cyc_1L_1I, A57Write_7cyc_1L_1I,
|
||
A57Write_8cyc_1L_1I, A57Write_8cyc_1L_1I,
|
||
A57Write_9cyc_1L_1I, A57Write_9cyc_1L_1I,
|
||
A57Write_10cyc_1L_1I, A57Write_10cyc_1L_1I,
|
||
A57Write_11cyc_1L_1I, A57Write_11cyc_1L_1I]>;
|
||
def A57WriteLDMreginlist : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, A57LDMOpsListRegin.Writes[0-1]>,
|
||
SchedVar<A57LMAddrPred2, A57LDMOpsListRegin.Writes[0-3]>,
|
||
SchedVar<A57LMAddrPred3, A57LDMOpsListRegin.Writes[0-5]>,
|
||
SchedVar<A57LMAddrPred4, A57LDMOpsListRegin.Writes[0-7]>,
|
||
SchedVar<A57LMAddrPred5, A57LDMOpsListRegin.Writes[0-9]>,
|
||
SchedVar<A57LMAddrPred6, A57LDMOpsListRegin.Writes[0-11]>,
|
||
SchedVar<A57LMAddrPred7, A57LDMOpsListRegin.Writes[0-13]>,
|
||
SchedVar<A57LMAddrPred8, A57LDMOpsListRegin.Writes[0-15]>,
|
||
SchedVar<NoSchedPred, A57LDMOpsListRegin.Writes[0-15]>
|
||
]> { let Variadic=1; }
|
||
|
||
def A57LDMOpsList_Upd : A57WriteLMOpsListType<
|
||
[A57WrBackOne,
|
||
A57Write_3cyc_1L_1I, A57Write_3cyc_1L_1I,
|
||
A57Write_4cyc_1L_1I, A57Write_4cyc_1L_1I,
|
||
A57Write_5cyc_1L_1I, A57Write_5cyc_1L_1I,
|
||
A57Write_6cyc_1L_1I, A57Write_6cyc_1L_1I,
|
||
A57Write_7cyc_1L_1I, A57Write_7cyc_1L_1I,
|
||
A57Write_8cyc_1L_1I, A57Write_8cyc_1L_1I,
|
||
A57Write_9cyc_1L_1I, A57Write_9cyc_1L_1I,
|
||
A57Write_10cyc_1L_1I, A57Write_10cyc_1L_1I]>;
|
||
def A57WriteLDM_Upd : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrUpdPred1, A57LDMOpsList_Upd.Writes[0-2]>,
|
||
SchedVar<A57LMAddrUpdPred2, A57LDMOpsList_Upd.Writes[0-4]>,
|
||
SchedVar<A57LMAddrUpdPred3, A57LDMOpsList_Upd.Writes[0-6]>,
|
||
SchedVar<A57LMAddrUpdPred4, A57LDMOpsList_Upd.Writes[0-8]>,
|
||
SchedVar<A57LMAddrUpdPred5, A57LDMOpsList_Upd.Writes[0-10]>,
|
||
SchedVar<A57LMAddrUpdPred6, A57LDMOpsList_Upd.Writes[0-12]>,
|
||
SchedVar<A57LMAddrUpdPred7, A57LDMOpsList_Upd.Writes[0-14]>,
|
||
SchedVar<A57LMAddrUpdPred8, A57LDMOpsList_Upd.Writes[0-16]>,
|
||
SchedVar<NoSchedPred, A57LDMOpsList_Upd.Writes[0-16]>
|
||
]> { let Variadic=1; }
|
||
|
||
def A57WriteLDM : SchedWriteVariant<[
|
||
SchedVar<IsLDMBaseRegInListPred, [A57WriteLDMreginlist]>,
|
||
SchedVar<NoSchedPred, [A57WriteLDMnoreginlist]>
|
||
]> { let Variadic=1; }
|
||
|
||
def : InstRW<[A57WriteLDM], (instregex "(t|t2|sys)?LDM(IA|DA|DB|IB)$")>;
|
||
|
||
// TODO: no writeback latency defined in documentation (implemented as 1 cyc)
|
||
def : InstRW<[A57WriteLDM_Upd],
|
||
(instregex "(t|t2|sys)?LDM(IA_UPD|DA_UPD|DB_UPD|IB_UPD|IA_RET)", "tPOP")>;
|
||
|
||
def : InstRW<[A57Write_5cyc_1L], (instregex "VLLDM")>;
|
||
|
||
// --- 3.9 Store Instructions ---
|
||
|
||
// Store, immed offset
|
||
def : InstRW<[A57Write_1cyc_1S], (instregex "STRi12", "STRBi12", "PICSTR",
|
||
"t2STR(B?)(T|i12|i8|s)", "t2STRDi8", "t2STRH(i12|i8|s)", "tSTR")>;
|
||
|
||
// Store, register offset
|
||
// For minus or for not plus lsl2 scaled we need 3cyc "I0/I1, S",
|
||
// otherwise 1cyc S.
|
||
def A57WriteStrAmLDSTSO : SchedWriteVariant<[
|
||
SchedVar<IsLdstsoScaledNotOptimalPred, [A57Write_3cyc_1I_1S]>,
|
||
SchedVar<IsLdstsoMinusRegPred, [A57Write_3cyc_1I_1S]>,
|
||
SchedVar<NoSchedPred, [A57Write_1cyc_1S]>
|
||
]>;
|
||
def : InstRW<[A57WriteStrAmLDSTSO], (instregex "STRrs", "STRBrs")>;
|
||
|
||
// STRH,STRD: 3cyc "I0/I1, S" for minus reg, 1cyc S for imm or for plus reg.
|
||
def A57WriteStrAm3 : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3NegRegOffPred, [A57Write_3cyc_1I_1S]>,
|
||
SchedVar<NoSchedPred, [A57Write_1cyc_1S]>
|
||
]>;
|
||
def : InstRW<[A57WriteStrAm3], (instregex "STRH$")>;
|
||
def A57WriteStrAm3X2 : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3NegRegOffPredX2, [A57Write_3cyc_1I_1S]>,
|
||
SchedVar<NoSchedPred, [A57Write_1cyc_1S]>
|
||
]>;
|
||
def : InstRW<[A57WriteStrAm3X2], (instregex "STRD$")>;
|
||
|
||
// Store, immed pre-indexed (1cyc "S, I0/I1", 1cyc writeback)
|
||
def : InstRW<[A57WrBackOne, A57Write_1cyc_1S_1I], (instregex "STR_PRE_IMM",
|
||
"STRB_PRE_IMM", "STR(B)?(r|i)_preidx", "(t2)?STRH_(preidx|PRE)",
|
||
"t2STR(B?)_(PRE|preidx)", "t2STRD_PRE")>;
|
||
|
||
// Store, register pre-indexed:
|
||
// 1(1) "S, I0/I1" for plus reg
|
||
// 3(2) "I0/I1, S" for minus reg
|
||
// 1(2) "S, M" for scaled plus lsl2
|
||
// 3(2) "I0/I1, S" for other scaled
|
||
def A57WriteStrAmLDSTSOPre : SchedWriteVariant<[
|
||
SchedVar<IsLdstsoScaledNotOptimalPredX2, [A57Write_3cyc_1I_1S]>,
|
||
SchedVar<IsLdstsoMinusRegPredX2, [A57Write_3cyc_1I_1S]>,
|
||
SchedVar<IsLdstsoScaledPredX2, [A57Write_1cyc_1S_1M]>,
|
||
SchedVar<NoSchedPred, [A57Write_1cyc_1S_1I]>
|
||
]>;
|
||
def A57WriteStrAmLDSTSOPreWrBack : SchedWriteVariant<[
|
||
SchedVar<IsLdstsoScaledPredX2, [A57WrBackTwo]>,
|
||
SchedVar<IsLdstsoMinusRegPredX2, [A57WrBackTwo]>,
|
||
SchedVar<NoSchedPred, [A57WrBackOne]>
|
||
]>;
|
||
def : InstRW<[A57WriteStrAmLDSTSOPreWrBack, A57WriteStrAmLDSTSOPre],
|
||
(instregex "STR_PRE_REG", "STRB_PRE_REG")>;
|
||
|
||
// pre-indexed STRH/STRD (STRH_PRE, STRD_PRE)
|
||
// 1(1) "S, I0/I1" for imm or reg plus
|
||
// 3(2) "I0/I1, S" for reg minus
|
||
def A57WriteStrAm3PreX2 : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3NegRegOffPredX2, [A57Write_3cyc_1I_1S]>,
|
||
SchedVar<NoSchedPred, [A57Write_1cyc_1S_1I]>
|
||
]>;
|
||
def A57WriteStrAm3PreWrBackX2 : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3NegRegOffPredX2, [A57WrBackTwo]>,
|
||
SchedVar<NoSchedPred, [A57WrBackOne]>
|
||
]>;
|
||
def : InstRW<[A57WriteStrAm3PreWrBackX2, A57WriteStrAm3PreX2],
|
||
(instregex "STRH_PRE")>;
|
||
|
||
def A57WriteStrAm3PreX3 : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3NegRegOffPredX3, [A57Write_3cyc_1I_1S]>,
|
||
SchedVar<NoSchedPred, [A57Write_1cyc_1S_1I]>
|
||
]>;
|
||
def A57WriteStrAm3PreWrBackX3 : SchedWriteVariant<[
|
||
SchedVar<IsLdrAm3NegRegOffPredX3, [A57WrBackTwo]>,
|
||
SchedVar<NoSchedPred, [A57WrBackOne]>
|
||
]>;
|
||
def : InstRW<[A57WriteStrAm3PreWrBackX3, A57WriteStrAm3PreX3],
|
||
(instregex "STRD_PRE")>;
|
||
|
||
def : InstRW<[A57WrBackOne, A57Write_1cyc_1S_1I], (instregex "STR(T?)_POST_IMM",
|
||
"STRB(T?)_POST_IMM", "t2STR(B?)_POST")>;
|
||
|
||
// 1(2) "S, M" for STR/STRB register post-indexed (both scaled or not)
|
||
def : InstRW<[A57WrBackTwo, A57Write_1cyc_1S_1M], (instregex "STR(T?)_POST_REG",
|
||
"STRB(T?)_POST_REG", "STR(B?)T_POST$")>;
|
||
|
||
// post-indexed STRH/STRD(STRH_POST, STRD_POST), STRHTi, STRHTr
|
||
// 1(1) "S, I0/I1" both for reg or imm
|
||
def : InstRW<[A57WrBackOne, A57Write_1cyc_1S_1I],
|
||
(instregex "(t2)?STR(H|D)_POST", "STRHT(i|r)", "t2STRHT")>;
|
||
|
||
// --- Store multiple instructions ---
|
||
// TODO: no writeback latency defined in documentation
|
||
def A57WriteSTM : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, [A57Write_1cyc_1S]>,
|
||
SchedVar<A57LMAddrPred2, [A57Write_2cyc_1S]>,
|
||
SchedVar<A57LMAddrPred3, [A57Write_3cyc_1S]>,
|
||
SchedVar<A57LMAddrPred4, [A57Write_4cyc_1S]>,
|
||
SchedVar<A57LMAddrPred5, [A57Write_5cyc_1S]>,
|
||
SchedVar<A57LMAddrPred6, [A57Write_6cyc_1S]>,
|
||
SchedVar<A57LMAddrPred7, [A57Write_7cyc_1S]>,
|
||
SchedVar<A57LMAddrPred8, [A57Write_8cyc_1S]>,
|
||
SchedVar<NoSchedPred, [A57Write_2cyc_1S]>
|
||
]>;
|
||
def A57WriteSTM_Upd : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, [A57Write_1cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred2, [A57Write_2cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred3, [A57Write_3cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred4, [A57Write_4cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred5, [A57Write_5cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred6, [A57Write_6cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred7, [A57Write_7cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred8, [A57Write_8cyc_1S_1I]>,
|
||
SchedVar<NoSchedPred, [A57Write_2cyc_1S_1I]>
|
||
]>;
|
||
|
||
def : InstRW<[A57WriteSTM], (instregex "(t2|sys|t)?STM(IA|DA|DB|IB)$")>;
|
||
def : InstRW<[A57WrBackOne, A57WriteSTM_Upd],
|
||
(instregex "(t2|sys|t)?STM(IA_UPD|DA_UPD|DB_UPD|IB_UPD)", "tPUSH")>;
|
||
|
||
def : InstRW<[A57Write_5cyc_1S], (instregex "VLSTM")>;
|
||
|
||
// --- 3.10 FP Data Processing Instructions ---
|
||
def : SchedAlias<WriteFPALU32, A57Write_5cyc_1V>;
|
||
def : SchedAlias<WriteFPALU64, A57Write_5cyc_1V>;
|
||
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VABS(S|D|H)")>;
|
||
|
||
// fp compare - 3cyc F1 for unconditional, 6cyc "F0/F1, F1" for conditional
|
||
def A57WriteVcmp : SchedWriteVariant<[
|
||
SchedVar<IsPredicatedPred, [A57Write_6cyc_1V_1X]>,
|
||
SchedVar<NoSchedPred, [A57Write_3cyc_1X]>
|
||
]>;
|
||
def : InstRW<[A57WriteVcmp],
|
||
(instregex "VCMP(D|S|H|ZD|ZS|ZH)$", "VCMPE(D|S|H|ZD|ZS|ZH)")>;
|
||
|
||
// fp convert
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex
|
||
"VCVT(A|N|P|M)(SH|UH|SS|US|SD|UD)", "VCVT(BDH|THD|TDH)")>;
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex "VTOSLS", "VTOUHS", "VTOULS")>;
|
||
def : SchedAlias<WriteFPCVT, A57Write_5cyc_1V>;
|
||
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex "VJCVT")>;
|
||
|
||
// FP round to integral
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex "VRINT(A|N|P|M|Z|R|X)(H|S|D)$")>;
|
||
|
||
// FP divide, FP square root
|
||
def : SchedAlias<WriteFPDIV32, A57Write_17cyc_1W>;
|
||
def : SchedAlias<WriteFPDIV64, A57Write_32cyc_1W>;
|
||
def : SchedAlias<WriteFPSQRT32, A57Write_17cyc_1W>;
|
||
def : SchedAlias<WriteFPSQRT64, A57Write_32cyc_1W>;
|
||
|
||
def : InstRW<[A57Write_17cyc_1W], (instregex "VSQRTH")>;
|
||
|
||
// FP max/min
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex "VMAX", "VMIN")>;
|
||
|
||
// FP multiply-accumulate pipelines support late forwarding of the result
|
||
// from FP multiply μops to the accumulate operands of an
|
||
// FP multiply-accumulate μop. The latter can potentially be issued 1 cycle
|
||
// after the FP multiply μop has been issued
|
||
// FP multiply, FZ
|
||
def A57WriteVMUL : SchedWriteRes<[A57UnitV]> { let Latency = 5; }
|
||
|
||
def : SchedAlias<WriteFPMUL32, A57WriteVMUL>;
|
||
def : SchedAlias<WriteFPMUL64, A57WriteVMUL>;
|
||
def : ReadAdvance<ReadFPMUL, 0>;
|
||
|
||
// FP multiply accumulate, FZ: 9cyc "F0/F1" or 4 cyc for sequenced accumulate
|
||
// VFMA, VFMS, VFNMA, VFNMS, VMLA, VMLS, VNMLA, VNMLS
|
||
def A57WriteVFMA : SchedWriteRes<[A57UnitV]> { let Latency = 9; }
|
||
|
||
// VFMA takes 9 cyc for common case and 4 cyc for VFMA->VFMA chain (5 read adv.)
|
||
// VMUL takes 5 cyc for common case and 1 cyc for VMUL->VFMA chain (4 read adv.)
|
||
// Currently, there is no way to define different read advances for VFMA operand
|
||
// from VFMA or from VMUL, so there will be 5 read advance.
|
||
// Zero latency (instead of one) for VMUL->VFMA shouldn't break something.
|
||
// The same situation with ASIMD VMUL/VFMA instructions
|
||
// def A57ReadVFMA : SchedRead;
|
||
// def : ReadAdvance<A57ReadVFMA, 5, [A57WriteVFMA]>;
|
||
// def : ReadAdvance<A57ReadVFMA, 4, [A57WriteVMUL]>;
|
||
def A57ReadVFMA5 : SchedReadAdvance<5, [A57WriteVFMA, A57WriteVMUL]>;
|
||
|
||
def : SchedAlias<WriteFPMAC32, A57WriteVFMA>;
|
||
def : SchedAlias<WriteFPMAC64, A57WriteVFMA>;
|
||
def : SchedAlias<ReadFPMAC, A57ReadVFMA5>;
|
||
|
||
// VMLAH/VMLSH are not binded to scheduling classes by default, so here custom:
|
||
def : InstRW<[A57WriteVFMA, A57ReadVFMA5, ReadFPMUL, ReadFPMUL],
|
||
(instregex "VMLAH", "VMLSH", "VNMLAH", "VNMLSH")>;
|
||
|
||
def : InstRW<[A57WriteVMUL],
|
||
(instregex "VUDOTD", "VSDOTD", "VUDOTQ", "VSDOTQ")>;
|
||
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VNEG")>;
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VSEL")>;
|
||
|
||
// --- 3.11 FP Miscellaneous Instructions ---
|
||
// VMOV: 3cyc "F0/F1" for imm/reg
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "FCONST(D|S|H)")>;
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VMOV(D|S|H)(cc)?$")>;
|
||
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VINSH")>;
|
||
|
||
// 5cyc L for FP transfer, vfp to core reg,
|
||
// 5cyc L for FP transfer, core reg to vfp
|
||
def : SchedAlias<WriteFPMOV, A57Write_5cyc_1L>;
|
||
// VMOVRRS/VMOVRRD in common code declared with one WriteFPMOV (instead of 2).
|
||
def : InstRW<[A57Write_5cyc_1L, A57Write_5cyc_1L], (instregex "VMOV(RRS|RRD)")>;
|
||
|
||
// 8cyc "L,F0/F1" for FP transfer, core reg to upper or lower half of vfp D-reg
|
||
def : InstRW<[A57Write_8cyc_1L_1I], (instregex "VMOVDRR")>;
|
||
|
||
// --- 3.12 FP Load Instructions ---
|
||
def : InstRW<[A57Write_5cyc_1L], (instregex "VLDR(D|S|H)")>;
|
||
|
||
def : InstRW<[A57Write_5cyc_1L], (instregex "VLDMQIA$")>;
|
||
|
||
// FP load multiple (VLDM)
|
||
|
||
def A57VLDMOpsListUncond : A57WriteLMOpsListType<
|
||
[A57Write_5cyc_1L, A57Write_5cyc_1L,
|
||
A57Write_6cyc_1L, A57Write_6cyc_1L,
|
||
A57Write_7cyc_1L, A57Write_7cyc_1L,
|
||
A57Write_8cyc_1L, A57Write_8cyc_1L,
|
||
A57Write_9cyc_1L, A57Write_9cyc_1L,
|
||
A57Write_10cyc_1L, A57Write_10cyc_1L,
|
||
A57Write_11cyc_1L, A57Write_11cyc_1L,
|
||
A57Write_12cyc_1L, A57Write_12cyc_1L]>;
|
||
def A57WriteVLDMuncond : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, A57VLDMOpsListUncond.Writes[0-1]>,
|
||
SchedVar<A57LMAddrPred2, A57VLDMOpsListUncond.Writes[0-3]>,
|
||
SchedVar<A57LMAddrPred3, A57VLDMOpsListUncond.Writes[0-5]>,
|
||
SchedVar<A57LMAddrPred4, A57VLDMOpsListUncond.Writes[0-7]>,
|
||
SchedVar<A57LMAddrPred5, A57VLDMOpsListUncond.Writes[0-9]>,
|
||
SchedVar<A57LMAddrPred6, A57VLDMOpsListUncond.Writes[0-11]>,
|
||
SchedVar<A57LMAddrPred7, A57VLDMOpsListUncond.Writes[0-13]>,
|
||
SchedVar<NoSchedPred, A57VLDMOpsListUncond.Writes[0-15]>
|
||
]> { let Variadic=1; }
|
||
|
||
def A57VLDMOpsListCond : A57WriteLMOpsListType<
|
||
[A57Write_5cyc_1L, A57Write_6cyc_1L,
|
||
A57Write_7cyc_1L, A57Write_8cyc_1L,
|
||
A57Write_9cyc_1L, A57Write_10cyc_1L,
|
||
A57Write_11cyc_1L, A57Write_12cyc_1L,
|
||
A57Write_13cyc_1L, A57Write_14cyc_1L,
|
||
A57Write_15cyc_1L, A57Write_16cyc_1L,
|
||
A57Write_17cyc_1L, A57Write_18cyc_1L,
|
||
A57Write_19cyc_1L, A57Write_20cyc_1L]>;
|
||
def A57WriteVLDMcond : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, A57VLDMOpsListCond.Writes[0-1]>,
|
||
SchedVar<A57LMAddrPred2, A57VLDMOpsListCond.Writes[0-3]>,
|
||
SchedVar<A57LMAddrPred3, A57VLDMOpsListCond.Writes[0-5]>,
|
||
SchedVar<A57LMAddrPred4, A57VLDMOpsListCond.Writes[0-7]>,
|
||
SchedVar<A57LMAddrPred5, A57VLDMOpsListCond.Writes[0-9]>,
|
||
SchedVar<A57LMAddrPred6, A57VLDMOpsListCond.Writes[0-11]>,
|
||
SchedVar<A57LMAddrPred7, A57VLDMOpsListCond.Writes[0-13]>,
|
||
SchedVar<NoSchedPred, A57VLDMOpsListCond.Writes[0-15]>
|
||
]> { let Variadic=1; }
|
||
|
||
def A57WriteVLDM : SchedWriteVariant<[
|
||
SchedVar<IsPredicatedPred, [A57WriteVLDMcond]>,
|
||
SchedVar<NoSchedPred, [A57WriteVLDMuncond]>
|
||
]> { let Variadic=1; }
|
||
|
||
def : InstRW<[A57WriteVLDM], (instregex "VLDM(DIA|SIA)$")>;
|
||
|
||
def A57VLDMOpsListUncond_Upd : A57WriteLMOpsListType<
|
||
[A57Write_5cyc_1L_1I, A57Write_5cyc_1L_1I,
|
||
A57Write_6cyc_1L_1I, A57Write_6cyc_1L_1I,
|
||
A57Write_7cyc_1L_1I, A57Write_7cyc_1L_1I,
|
||
A57Write_8cyc_1L_1I, A57Write_8cyc_1L_1I,
|
||
A57Write_9cyc_1L_1I, A57Write_9cyc_1L_1I,
|
||
A57Write_10cyc_1L_1I, A57Write_10cyc_1L_1I,
|
||
A57Write_11cyc_1L_1I, A57Write_11cyc_1L_1I,
|
||
A57Write_12cyc_1L_1I, A57Write_12cyc_1L_1I]>;
|
||
def A57WriteVLDMuncond_UPD : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, A57VLDMOpsListUncond_Upd.Writes[0-1]>,
|
||
SchedVar<A57LMAddrPred2, A57VLDMOpsListUncond_Upd.Writes[0-3]>,
|
||
SchedVar<A57LMAddrPred3, A57VLDMOpsListUncond_Upd.Writes[0-5]>,
|
||
SchedVar<A57LMAddrPred4, A57VLDMOpsListUncond_Upd.Writes[0-7]>,
|
||
SchedVar<A57LMAddrPred5, A57VLDMOpsListUncond_Upd.Writes[0-9]>,
|
||
SchedVar<A57LMAddrPred6, A57VLDMOpsListUncond_Upd.Writes[0-11]>,
|
||
SchedVar<A57LMAddrPred7, A57VLDMOpsListUncond_Upd.Writes[0-13]>,
|
||
SchedVar<NoSchedPred, A57VLDMOpsListUncond_Upd.Writes[0-15]>
|
||
]> { let Variadic=1; }
|
||
|
||
def A57VLDMOpsListCond_Upd : A57WriteLMOpsListType<
|
||
[A57Write_5cyc_1L_1I, A57Write_6cyc_1L_1I,
|
||
A57Write_7cyc_1L_1I, A57Write_8cyc_1L_1I,
|
||
A57Write_9cyc_1L_1I, A57Write_10cyc_1L_1I,
|
||
A57Write_11cyc_1L_1I, A57Write_12cyc_1L_1I,
|
||
A57Write_13cyc_1L_1I, A57Write_14cyc_1L_1I,
|
||
A57Write_15cyc_1L_1I, A57Write_16cyc_1L_1I,
|
||
A57Write_17cyc_1L_1I, A57Write_18cyc_1L_1I,
|
||
A57Write_19cyc_1L_1I, A57Write_20cyc_1L_1I]>;
|
||
def A57WriteVLDMcond_UPD : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, A57VLDMOpsListCond_Upd.Writes[0-1]>,
|
||
SchedVar<A57LMAddrPred2, A57VLDMOpsListCond_Upd.Writes[0-3]>,
|
||
SchedVar<A57LMAddrPred3, A57VLDMOpsListCond_Upd.Writes[0-5]>,
|
||
SchedVar<A57LMAddrPred4, A57VLDMOpsListCond_Upd.Writes[0-7]>,
|
||
SchedVar<A57LMAddrPred5, A57VLDMOpsListCond_Upd.Writes[0-9]>,
|
||
SchedVar<A57LMAddrPred6, A57VLDMOpsListCond_Upd.Writes[0-11]>,
|
||
SchedVar<A57LMAddrPred7, A57VLDMOpsListCond_Upd.Writes[0-13]>,
|
||
SchedVar<NoSchedPred, A57VLDMOpsListCond_Upd.Writes[0-15]>
|
||
]> { let Variadic=1; }
|
||
|
||
def A57WriteVLDM_UPD : SchedWriteVariant<[
|
||
SchedVar<IsPredicatedPred, [A57WriteVLDMcond_UPD]>,
|
||
SchedVar<NoSchedPred, [A57WriteVLDMuncond_UPD]>
|
||
]> { let Variadic=1; }
|
||
|
||
def : InstRW<[A57WrBackOne, A57WriteVLDM_UPD],
|
||
(instregex "VLDM(DIA_UPD|DDB_UPD|SIA_UPD|SDB_UPD)")>;
|
||
|
||
// --- 3.13 FP Store Instructions ---
|
||
def : InstRW<[A57Write_1cyc_1S], (instregex "VSTR(D|S|H)")>;
|
||
|
||
def : InstRW<[A57Write_2cyc_1S], (instregex "VSTMQIA$")>;
|
||
|
||
def A57WriteVSTMs : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, [A57Write_1cyc_1S]>,
|
||
SchedVar<A57LMAddrPred2, [A57Write_2cyc_1S]>,
|
||
SchedVar<A57LMAddrPred3, [A57Write_3cyc_1S]>,
|
||
SchedVar<A57LMAddrPred4, [A57Write_4cyc_1S]>,
|
||
SchedVar<A57LMAddrPred5, [A57Write_5cyc_1S]>,
|
||
SchedVar<A57LMAddrPred6, [A57Write_6cyc_1S]>,
|
||
SchedVar<A57LMAddrPred7, [A57Write_7cyc_1S]>,
|
||
SchedVar<A57LMAddrPred8, [A57Write_8cyc_1S]>,
|
||
SchedVar<NoSchedPred, [A57Write_2cyc_1S]>
|
||
]>;
|
||
def A57WriteVSTMd : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, [A57Write_2cyc_1S]>,
|
||
SchedVar<A57LMAddrPred2, [A57Write_4cyc_1S]>,
|
||
SchedVar<A57LMAddrPred3, [A57Write_6cyc_1S]>,
|
||
SchedVar<A57LMAddrPred4, [A57Write_8cyc_1S]>,
|
||
SchedVar<A57LMAddrPred5, [A57Write_10cyc_1S]>,
|
||
SchedVar<A57LMAddrPred6, [A57Write_12cyc_1S]>,
|
||
SchedVar<A57LMAddrPred7, [A57Write_14cyc_1S]>,
|
||
SchedVar<A57LMAddrPred8, [A57Write_16cyc_1S]>,
|
||
SchedVar<NoSchedPred, [A57Write_4cyc_1S]>
|
||
]>;
|
||
def A57WriteVSTMs_Upd : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, [A57Write_1cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred2, [A57Write_2cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred3, [A57Write_3cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred4, [A57Write_4cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred5, [A57Write_5cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred6, [A57Write_6cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred7, [A57Write_7cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred8, [A57Write_8cyc_1S_1I]>,
|
||
SchedVar<NoSchedPred, [A57Write_2cyc_1S_1I]>
|
||
]>;
|
||
def A57WriteVSTMd_Upd : SchedWriteVariant<[
|
||
SchedVar<A57LMAddrPred1, [A57Write_2cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred2, [A57Write_4cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred3, [A57Write_6cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred4, [A57Write_8cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred5, [A57Write_10cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred6, [A57Write_12cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred7, [A57Write_14cyc_1S_1I]>,
|
||
SchedVar<A57LMAddrPred8, [A57Write_16cyc_1S_1I]>,
|
||
SchedVar<NoSchedPred, [A57Write_2cyc_1S_1I]>
|
||
]>;
|
||
|
||
def : InstRW<[A57WriteVSTMs], (instregex "VSTMSIA$")>;
|
||
def : InstRW<[A57WriteVSTMd], (instregex "VSTMDIA$")>;
|
||
def : InstRW<[A57WrBackOne, A57WriteVSTMs_Upd],
|
||
(instregex "VSTM(SIA_UPD|SDB_UPD)")>;
|
||
def : InstRW<[A57WrBackOne, A57WriteVSTMd_Upd],
|
||
(instregex "VSTM(DIA_UPD|DDB_UPD)")>;
|
||
|
||
// --- 3.14 ASIMD Integer Instructions ---
|
||
|
||
// ASIMD absolute diff, 3cyc F0/F1 for integer VABD
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VABD(s|u)")>;
|
||
|
||
// ASIMD absolute diff accum: 4(1) F1 for D-form, 5(2) F1 for Q-form
|
||
def A57WriteVABAD : SchedWriteRes<[A57UnitX]> { let Latency = 4; }
|
||
def A57ReadVABAD : SchedReadAdvance<3, [A57WriteVABAD]>;
|
||
def : InstRW<[A57WriteVABAD, A57ReadVABAD],
|
||
(instregex "VABA(s|u)(v8i8|v4i16|v2i32)")>;
|
||
def A57WriteVABAQ : SchedWriteRes<[A57UnitX]> { let Latency = 5; }
|
||
def A57ReadVABAQ : SchedReadAdvance<3, [A57WriteVABAQ]>;
|
||
def : InstRW<[A57WriteVABAQ, A57ReadVABAQ],
|
||
(instregex "VABA(s|u)(v16i8|v8i16|v4i32)")>;
|
||
|
||
// ASIMD absolute diff accum long: 4(1) F1 for VABAL
|
||
def A57WriteVABAL : SchedWriteRes<[A57UnitX]> { let Latency = 4; }
|
||
def A57ReadVABAL : SchedReadAdvance<3, [A57WriteVABAL]>;
|
||
def : InstRW<[A57WriteVABAL, A57ReadVABAL], (instregex "VABAL(s|u)")>;
|
||
|
||
// ASIMD absolute diff long: 3cyc F0/F1 for VABDL
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VABDL(s|u)")>;
|
||
|
||
// ASIMD arith, basic
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VADDv", "VADDL", "VADDW",
|
||
"VNEG(s8d|s16d|s32d|s8q|s16q|s32q|d|q)",
|
||
"VPADDi", "VPADDL", "VSUBv", "VSUBL", "VSUBW")>;
|
||
|
||
// ASIMD arith, complex
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VABS", "VADDHN", "VHADD", "VHSUB",
|
||
"VQABS", "VQADD", "VQNEG", "VQSUB",
|
||
"VRADDHN", "VRHADD", "VRSUBHN", "VSUBHN")>;
|
||
|
||
// ASIMD compare
|
||
def : InstRW<[A57Write_3cyc_1V],
|
||
(instregex "VCEQ", "VCGE", "VCGT", "VCLE", "VTST", "VCLT")>;
|
||
|
||
// ASIMD logical
|
||
def : InstRW<[A57Write_3cyc_1V],
|
||
(instregex "VAND", "VBIC", "VMVN", "VORR", "VORN", "VEOR")>;
|
||
|
||
// ASIMD max/min
|
||
def : InstRW<[A57Write_3cyc_1V],
|
||
(instregex "(VMAX|VMIN)(s|u)", "(VPMAX|VPMIN)(s8|s16|s32|u8|u16|u32)")>;
|
||
|
||
// ASIMD multiply, D-form: 5cyc F0 for r0px, 4cyc F0 for r1p0 and later
|
||
// Cortex-A57 r1p0 and later reduce the latency of ASIMD multiply
|
||
// and multiply-with-accumulate instructions relative to r0pX.
|
||
def A57WriteVMULD_VecInt : SchedWriteVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [A57Write_4cyc_1W]>,
|
||
SchedVar<NoSchedPred, [A57Write_5cyc_1W]>]>;
|
||
def : InstRW<[A57WriteVMULD_VecInt], (instregex
|
||
"VMUL(v8i8|v4i16|v2i32|pd)", "VMULsl(v4i16|v2i32)",
|
||
"VQDMULH(sl)?(v4i16|v2i32)", "VQRDMULH(sl)?(v4i16|v2i32)")>;
|
||
|
||
// ASIMD multiply, Q-form: 6cyc F0 for r0px, 5cyc F0 for r1p0 and later
|
||
def A57WriteVMULQ_VecInt : SchedWriteVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [A57Write_5cyc_1W]>,
|
||
SchedVar<NoSchedPred, [A57Write_6cyc_1W]>]>;
|
||
def : InstRW<[A57WriteVMULQ_VecInt], (instregex
|
||
"VMUL(v16i8|v8i16|v4i32|pq)", "VMULsl(v8i16|v4i32)",
|
||
"VQDMULH(sl)?(v8i16|v4i32)", "VQRDMULH(sl)?(v8i16|v4i32)")>;
|
||
|
||
// ASIMD multiply accumulate, D-form
|
||
// 5cyc F0 for r0px, 4cyc F0 for r1p0 and later, 1cyc for accumulate sequence
|
||
// (4 or 3 ReadAdvance)
|
||
def A57WriteVMLAD_VecInt : SchedWriteVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [A57Write_4cyc_1W]>,
|
||
SchedVar<NoSchedPred, [A57Write_5cyc_1W]>]>;
|
||
def A57ReadVMLAD_VecInt : SchedReadVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [SchedReadAdvance<3, [A57WriteVMLAD_VecInt]>]>,
|
||
SchedVar<NoSchedPred, [SchedReadAdvance<4, [A57WriteVMLAD_VecInt]>]>
|
||
]>;
|
||
def : InstRW<[A57WriteVMLAD_VecInt, A57ReadVMLAD_VecInt],
|
||
(instregex "VMLA(sl)?(v8i8|v4i16|v2i32)", "VMLS(sl)?(v8i8|v4i16|v2i32)")>;
|
||
|
||
// ASIMD multiply accumulate, Q-form
|
||
// 6cyc F0 for r0px, 5cyc F0 for r1p0 and later, 2cyc for accumulate sequence
|
||
// (4 or 3 ReadAdvance)
|
||
def A57WriteVMLAQ_VecInt : SchedWriteVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [A57Write_5cyc_1W]>,
|
||
SchedVar<NoSchedPred, [A57Write_6cyc_1W]>]>;
|
||
def A57ReadVMLAQ_VecInt : SchedReadVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [SchedReadAdvance<3, [A57WriteVMLAQ_VecInt]>]>,
|
||
SchedVar<NoSchedPred, [SchedReadAdvance<4, [A57WriteVMLAQ_VecInt]>]>
|
||
]>;
|
||
def : InstRW<[A57WriteVMLAQ_VecInt, A57ReadVMLAQ_VecInt],
|
||
(instregex "VMLA(sl)?(v16i8|v8i16|v4i32)", "VMLS(sl)?(v16i8|v8i16|v4i32)")>;
|
||
|
||
// ASIMD multiply accumulate long
|
||
// 5cyc F0 for r0px, 4cyc F0 for r1p0 and later, 1cyc for accumulate sequence
|
||
// (4 or 3 ReadAdvance)
|
||
def A57WriteVMLAL_VecInt : SchedWriteVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [A57Write_4cyc_1W]>,
|
||
SchedVar<NoSchedPred, [A57Write_5cyc_1W]>]>;
|
||
def A57ReadVMLAL_VecInt : SchedReadVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [SchedReadAdvance<3, [A57WriteVMLAL_VecInt]>]>,
|
||
SchedVar<NoSchedPred, [SchedReadAdvance<4, [A57WriteVMLAL_VecInt]>]>
|
||
]>;
|
||
def : InstRW<[A57WriteVMLAL_VecInt, A57ReadVMLAL_VecInt],
|
||
(instregex "VMLAL(s|u)", "VMLSL(s|u)")>;
|
||
|
||
// ASIMD multiply accumulate saturating long
|
||
// 5cyc F0 for r0px, 4cyc F0 for r1p0 and later, 2cyc for accumulate sequence
|
||
// (3 or 2 ReadAdvance)
|
||
def A57WriteVQDMLAL_VecInt : SchedWriteVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [A57Write_4cyc_1W]>,
|
||
SchedVar<NoSchedPred, [A57Write_5cyc_1W]>]>;
|
||
def A57ReadVQDMLAL_VecInt : SchedReadVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [SchedReadAdvance<2, [A57WriteVQDMLAL_VecInt]>]>,
|
||
SchedVar<NoSchedPred, [SchedReadAdvance<3, [A57WriteVQDMLAL_VecInt]>]>
|
||
]>;
|
||
def : InstRW<[A57WriteVQDMLAL_VecInt, A57ReadVQDMLAL_VecInt],
|
||
(instregex "VQDMLAL", "VQDMLSL")>;
|
||
|
||
// Vector Saturating Rounding Doubling Multiply Accumulate/Subtract Long
|
||
// Scheduling info from VQDMLAL/VQDMLSL
|
||
def : InstRW<[A57WriteVQDMLAL_VecInt, A57ReadVQDMLAL_VecInt],
|
||
(instregex "VQRDMLAH", "VQRDMLSH")>;
|
||
|
||
// ASIMD multiply long
|
||
// 5cyc F0 for r0px, 4cyc F0 for r1p0 and later
|
||
def A57WriteVMULL_VecInt : SchedWriteVariant<[
|
||
SchedVar<IsR1P0AndLaterPred, [A57Write_4cyc_1W]>,
|
||
SchedVar<NoSchedPred, [A57Write_5cyc_1W]>]>;
|
||
def : InstRW<[A57WriteVMULL_VecInt],
|
||
(instregex "VMULL(s|u|p8|sls|slu)", "VQDMULL")>;
|
||
|
||
// ASIMD pairwise add and accumulate
|
||
// 4cyc F1, 1cyc for accumulate sequence (3cyc ReadAdvance)
|
||
def A57WriteVPADAL : SchedWriteRes<[A57UnitX]> { let Latency = 4; }
|
||
def A57ReadVPADAL : SchedReadAdvance<3, [A57WriteVPADAL]>;
|
||
def : InstRW<[A57WriteVPADAL, A57ReadVPADAL], (instregex "VPADAL(s|u)")>;
|
||
|
||
// ASIMD shift accumulate
|
||
// 4cyc F1, 1cyc for accumulate sequence (3cyc ReadAdvance)
|
||
def A57WriteVSRA : SchedWriteRes<[A57UnitX]> { let Latency = 4; }
|
||
def A57ReadVSRA : SchedReadAdvance<3, [A57WriteVSRA]>;
|
||
def : InstRW<[A57WriteVSRA, A57ReadVSRA], (instregex "VSRA", "VRSRA")>;
|
||
|
||
// ASIMD shift by immed, basic
|
||
def : InstRW<[A57Write_3cyc_1X],
|
||
(instregex "VMOVL", "VSHLi", "VSHLL", "VSHR(s|u)", "VSHRN")>;
|
||
|
||
// ASIMD shift by immed, complex
|
||
def : InstRW<[A57Write_4cyc_1X], (instregex
|
||
"VQRSHRN", "VQRSHRUN", "VQSHL(si|ui|su)", "VQSHRN", "VQSHRUN", "VRSHR(s|u)",
|
||
"VRSHRN")>;
|
||
|
||
// ASIMD shift by immed and insert, basic, D-form
|
||
def : InstRW<[A57Write_4cyc_1X], (instregex
|
||
"VSLI(v8i8|v4i16|v2i32|v1i64)", "VSRI(v8i8|v4i16|v2i32|v1i64)")>;
|
||
|
||
// ASIMD shift by immed and insert, basic, Q-form
|
||
def : InstRW<[A57Write_5cyc_1X], (instregex
|
||
"VSLI(v16i8|v8i16|v4i32|v2i64)", "VSRI(v16i8|v8i16|v4i32|v2i64)")>;
|
||
|
||
// ASIMD shift by register, basic, D-form
|
||
def : InstRW<[A57Write_3cyc_1X], (instregex
|
||
"VSHL(s|u)(v8i8|v4i16|v2i32|v1i64)")>;
|
||
|
||
// ASIMD shift by register, basic, Q-form
|
||
def : InstRW<[A57Write_4cyc_1X], (instregex
|
||
"VSHL(s|u)(v16i8|v8i16|v4i32|v2i64)")>;
|
||
|
||
// ASIMD shift by register, complex, D-form
|
||
// VQRSHL, VQSHL, VRSHL
|
||
def : InstRW<[A57Write_4cyc_1X], (instregex
|
||
"VQRSHL(s|u)(v8i8|v4i16|v2i32|v1i64)", "VQSHL(s|u)(v8i8|v4i16|v2i32|v1i64)",
|
||
"VRSHL(s|u)(v8i8|v4i16|v2i32|v1i64)")>;
|
||
|
||
// ASIMD shift by register, complex, Q-form
|
||
def : InstRW<[A57Write_5cyc_1X], (instregex
|
||
"VQRSHL(s|u)(v16i8|v8i16|v4i32|v2i64)", "VQSHL(s|u)(v16i8|v8i16|v4i32|v2i64)",
|
||
"VRSHL(s|u)(v16i8|v8i16|v4i32|v2i64)")>;
|
||
|
||
// --- 3.15 ASIMD Floating-Point Instructions ---
|
||
// ASIMD FP absolute value
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VABS(fd|fq|hd|hq)")>;
|
||
|
||
// ASIMD FP arith
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex "VABD(fd|fq|hd|hq)",
|
||
"VADD(fd|fq|hd|hq)", "VPADD(f|h)", "VSUB(fd|fq|hd|hq)")>;
|
||
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex "VCADD", "VCMLA")>;
|
||
|
||
// ASIMD FP compare
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex "VAC(GE|GT|LE|LT)",
|
||
"VC(EQ|GE|GT|LE)(fd|fq|hd|hq)")>;
|
||
|
||
// ASIMD FP convert, integer
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex
|
||
"VCVT(f2sd|f2ud|s2fd|u2fd|f2sq|f2uq|s2fq|u2fq|f2xsd|f2xud|xs2fd|xu2fd)",
|
||
"VCVT(f2xsq|f2xuq|xs2fq|xu2fq)",
|
||
"VCVT(AN|MN|NN|PN)(SDf|SQf|UDf|UQf|SDh|SQh|UDh|UQh)")>;
|
||
|
||
// ASIMD FP convert, half-precision: 8cyc F0/F1
|
||
def : InstRW<[A57Write_8cyc_1V], (instregex
|
||
"VCVT(h2sd|h2ud|s2hd|u2hd|h2sq|h2uq|s2hq|u2hq|h2xsd|h2xud|xs2hd|xu2hd)",
|
||
"VCVT(h2xsq|h2xuq|xs2hq|xu2hq)",
|
||
"VCVT(f2h|h2f)")>;
|
||
|
||
// ASIMD FP max/min
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex
|
||
"(VMAX|VMIN)(fd|fq|hd|hq)", "(VPMAX|VPMIN)(f|h)", "(NEON|VFP)_VMAXNM",
|
||
"(NEON|VFP)_VMINNM")>;
|
||
|
||
// ASIMD FP multiply
|
||
def A57WriteVMUL_VecFP : SchedWriteRes<[A57UnitV]> { let Latency = 5; }
|
||
def : InstRW<[A57WriteVMUL_VecFP], (instregex "VMUL(sl)?(fd|fq|hd|hq)")>;
|
||
|
||
// ASIMD FP multiply accumulate: 9cyc F0/F1, 4cyc for accumulate sequence
|
||
def A57WriteVMLA_VecFP : SchedWriteRes<[A57UnitV]> { let Latency = 9; }
|
||
def A57ReadVMLA_VecFP :
|
||
SchedReadAdvance<5, [A57WriteVMLA_VecFP, A57WriteVMUL_VecFP]>;
|
||
def : InstRW<[A57WriteVMLA_VecFP, A57ReadVMLA_VecFP],
|
||
(instregex "(VMLA|VMLS)(sl)?(fd|fq|hd|hq)", "(VFMA|VFMS)(fd|fq|hd|hq)")>;
|
||
|
||
// ASIMD FP negate
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VNEG(fd|f32q|hd|hq)")>;
|
||
|
||
// ASIMD FP round to integral
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex
|
||
"VRINT(AN|MN|NN|PN|XN|ZN)(Df|Qf|Dh|Qh)")>;
|
||
|
||
// --- 3.16 ASIMD Miscellaneous Instructions ---
|
||
|
||
// ASIMD bitwise insert
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VBIF", "VBIT", "VBSL", "VBSP")>;
|
||
|
||
// ASIMD count
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VCLS", "VCLZ", "VCNT")>;
|
||
|
||
// ASIMD duplicate, core reg: 8cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_8cyc_1L_1V], (instregex "VDUP(8|16|32)(d|q)")>;
|
||
|
||
// ASIMD duplicate, scalar: 3cyc "F0/F1"
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VDUPLN(8|16|32)(d|q)")>;
|
||
|
||
// ASIMD extract
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VEXT(d|q)(8|16|32|64)")>;
|
||
|
||
// ASIMD move, immed
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex
|
||
"VMOV(v8i8|v16i8|v4i16|v8i16|v2i32|v4i32|v1i64|v2i64|v2f32|v4f32)",
|
||
"VMOVD0", "VMOVQ0")>;
|
||
|
||
// ASIMD move, narrowing
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VMOVN")>;
|
||
|
||
// ASIMD move, saturating
|
||
def : InstRW<[A57Write_4cyc_1X], (instregex "VQMOVN")>;
|
||
|
||
// ASIMD reciprocal estimate
|
||
def : InstRW<[A57Write_5cyc_1V], (instregex "VRECPE", "VRSQRTE")>;
|
||
|
||
// ASIMD reciprocal step, FZ
|
||
def : InstRW<[A57Write_9cyc_1V], (instregex "VRECPS", "VRSQRTS")>;
|
||
|
||
// ASIMD reverse, swap, table lookup (1-2 reg)
|
||
def : InstRW<[A57Write_3cyc_1V], (instregex "VREV", "VSWP", "VTB(L|X)(1|2)")>;
|
||
|
||
// ASIMD table lookup (3-4 reg)
|
||
def : InstRW<[A57Write_6cyc_1V], (instregex "VTBL(3|4)", "VTBX(3|4)")>;
|
||
|
||
// ASIMD transfer, scalar to core reg: 6cyc "L, I0/I1"
|
||
def : InstRW<[A57Write_6cyc_1L_1I], (instregex "VGETLN")>;
|
||
|
||
// ASIMD transfer, core reg to scalar: 8cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_8cyc_1L_1V], (instregex "VSETLN")>;
|
||
|
||
// ASIMD transpose
|
||
def : InstRW<[A57Write_3cyc_1V, A57Write_3cyc_1V], (instregex "VTRN")>;
|
||
|
||
// ASIMD unzip/zip, D-form
|
||
def : InstRW<[A57Write_3cyc_1V, A57Write_3cyc_1V],
|
||
(instregex "VUZPd", "VZIPd")>;
|
||
|
||
// ASIMD unzip/zip, Q-form
|
||
def : InstRW<[A57Write_6cyc_1V, A57Write_6cyc_1V],
|
||
(instregex "VUZPq", "VZIPq")>;
|
||
|
||
// --- 3.17 ASIMD Load Instructions ---
|
||
|
||
// Overriden via InstRW for this processor.
|
||
def : WriteRes<WriteVLD1, []>;
|
||
def : WriteRes<WriteVLD2, []>;
|
||
def : WriteRes<WriteVLD3, []>;
|
||
def : WriteRes<WriteVLD4, []>;
|
||
def : WriteRes<WriteVST1, []>;
|
||
def : WriteRes<WriteVST2, []>;
|
||
def : WriteRes<WriteVST3, []>;
|
||
def : WriteRes<WriteVST4, []>;
|
||
|
||
// 1-2 reg: 5cyc L, +I for writeback, 1 cyc wb latency
|
||
def : InstRW<[A57Write_5cyc_1L], (instregex "VLD1(d|q)(8|16|32|64)$")>;
|
||
def : InstRW<[A57Write_5cyc_1L_1I, A57WrBackOne],
|
||
(instregex "VLD1(d|q)(8|16|32|64)wb")>;
|
||
|
||
// 3-4 reg: 6cyc L, +I for writeback, 1 cyc wb latency
|
||
def : InstRW<[A57Write_6cyc_1L],
|
||
(instregex "VLD1(d|q)(8|16|32|64)(T|Q)$", "VLD1d64(T|Q)Pseudo")>;
|
||
|
||
def : InstRW<[A57Write_6cyc_1L_1I, A57WrBackOne],
|
||
(instregex "VLD1(d|q)(8|16|32|64)(T|Q)wb")>;
|
||
|
||
// ASIMD load, 1 element, one lane and all lanes: 8cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_8cyc_1L_1V], (instregex
|
||
"VLD1(LN|DUP)(d|q)(8|16|32)$", "VLD1(LN|DUP)(d|q)(8|16|32)Pseudo$")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57WrBackOne], (instregex
|
||
"VLD1(LN|DUP)(d|q)(8|16|32)(wb|_UPD)", "VLD1LNq(8|16|32)Pseudo_UPD")>;
|
||
|
||
// ASIMD load, 2 element, multiple, 2 reg: 8cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_8cyc_1L_1V],
|
||
(instregex "VLD2(d|q)(8|16|32)$", "VLD2q(8|16|32)Pseudo$")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD2(d|q)(8|16|32)wb", "VLD2q(8|16|32)PseudoWB")>;
|
||
|
||
// ASIMD load, 2 element, multiple, 4 reg: 9cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_9cyc_1L_1V], (instregex "VLD2b(8|16|32)$")>;
|
||
def : InstRW<[A57Write_9cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD2b(8|16|32)wb")>;
|
||
|
||
// ASIMD load, 2 element, one lane and all lanes: 8cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_8cyc_1L_1V, A57Write_8cyc_1L_1V],
|
||
(instregex "VLD2(DUP|LN)(d|q)(8|16|32|8x2|16x2|32x2)$",
|
||
"VLD2LN(d|q)(8|16|32)Pseudo$")>;
|
||
// 2 results + wb result
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57Write_8cyc_1L_1V, A57WrBackOne],
|
||
(instregex "VLD2LN(d|q)(8|16|32)_UPD$")>;
|
||
// 1 result + wb result
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD2DUPd(8|16|32|8x2|16x2|32x2)wb",
|
||
"VLD2LN(d|q)(8|16|32)Pseudo_UPD")>;
|
||
|
||
// ASIMD load, 3 element, multiple, 3 reg: 9cyc "L, F0/F1"
|
||
// 3 results
|
||
def : InstRW<[A57Write_9cyc_1L_1V, A57Write_9cyc_1L_1V, A57Write_9cyc_1L_1V],
|
||
(instregex "VLD3(d|q)(8|16|32)$")>;
|
||
// 1 result
|
||
def : InstRW<[A57Write_9cyc_1L_1V],
|
||
(instregex "VLD3(d|q)(8|16|32)(oddP|P)seudo$")>;
|
||
// 3 results + wb
|
||
def : InstRW<[A57Write_9cyc_1L_1V_1I, A57Write_9cyc_1L_1V_1I,
|
||
A57Write_9cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD3(d|q)(8|16|32)_UPD$")>;
|
||
// 1 result + wb
|
||
def : InstRW<[A57Write_9cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD3(d|q)(8|16|32)(oddP|P)seudo_UPD")>;
|
||
|
||
// ASIMD load, 3 element, one lane, size 32: 8cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_8cyc_1L_1V, A57Write_8cyc_1L_1V, A57Write_8cyc_1L_1V],
|
||
(instregex "VLD3LN(d|q)32$",
|
||
"VLD3LN(d|q)32Pseudo$")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57Write_8cyc_1L_1V_1I,
|
||
A57Write_8cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD3LN(d|q)32_UPD")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD3LN(d|q)32Pseudo_UPD")>;
|
||
|
||
// ASIMD load, 3 element, one lane, size 8/16: 9cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_9cyc_1L_1V, A57Write_9cyc_1L_1V, A57Write_9cyc_1L_1V],
|
||
(instregex "VLD3LN(d|q)(8|16)$",
|
||
"VLD3LN(d|q)(8|16)Pseudo$")>;
|
||
def : InstRW<[A57Write_9cyc_1L_1V_1I, A57Write_9cyc_1L_1V_1I,
|
||
A57Write_9cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD3LN(d|q)(8|16)_UPD")>;
|
||
def : InstRW<[A57Write_9cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD3LN(d|q)(8|16)Pseudo_UPD")>;
|
||
|
||
// ASIMD load, 3 element, all lanes: 8cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_8cyc_1L_1V, A57Write_8cyc_1L_1V, A57Write_8cyc_1L_1V],
|
||
(instregex "VLD3DUP(d|q)(8|16|32)$",
|
||
"VLD3DUP(d|q)(8|16|32)Pseudo$")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57Write_8cyc_1L_1V_1I,
|
||
A57Write_8cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD3DUP(d|q)(8|16|32)_UPD")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD3DUP(d|q)(8|16|32)Pseudo_UPD")>;
|
||
|
||
// ASIMD load, 4 element, multiple, 4 reg: 9cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_9cyc_1L_1V, A57Write_9cyc_1L_1V, A57Write_9cyc_1L_1V,
|
||
A57Write_9cyc_1L_1V],
|
||
(instregex "VLD4(d|q)(8|16|32)$")>;
|
||
def : InstRW<[A57Write_9cyc_1L_1V],
|
||
(instregex "VLD4(d|q)(8|16|32)(oddP|P)seudo$")>;
|
||
def : InstRW<[A57Write_9cyc_1L_1V_1I, A57Write_9cyc_1L_1V_1I,
|
||
A57Write_9cyc_1L_1V_1I, A57Write_9cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD4(d|q)(8|16|32)_UPD")>;
|
||
def : InstRW<[A57Write_9cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD4(d|q)(8|16|32)(oddP|P)seudo_UPD")>;
|
||
|
||
// ASIMD load, 4 element, one lane, size 32: 8cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_8cyc_1L_1V, A57Write_8cyc_1L_1V, A57Write_8cyc_1L_1V,
|
||
A57Write_8cyc_1L_1V],
|
||
(instregex "VLD4LN(d|q)32$",
|
||
"VLD4LN(d|q)32Pseudo$")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57Write_8cyc_1L_1V_1I,
|
||
A57Write_8cyc_1L_1V_1I, A57Write_8cyc_1L_1V_1I,
|
||
A57WrBackOne],
|
||
(instregex "VLD4LN(d|q)32_UPD")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD4LN(d|q)32Pseudo_UPD")>;
|
||
|
||
// ASIMD load, 4 element, one lane, size 8/16: 9cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_9cyc_1L_1V, A57Write_9cyc_1L_1V, A57Write_9cyc_1L_1V,
|
||
A57Write_9cyc_1L_1V],
|
||
(instregex "VLD4LN(d|q)(8|16)$",
|
||
"VLD4LN(d|q)(8|16)Pseudo$")>;
|
||
def : InstRW<[A57Write_9cyc_1L_1V_1I, A57Write_9cyc_1L_1V_1I,
|
||
A57Write_9cyc_1L_1V_1I, A57Write_9cyc_1L_1V_1I,
|
||
A57WrBackOne],
|
||
(instregex "VLD4LN(d|q)(8|16)_UPD")>;
|
||
def : InstRW<[A57Write_9cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD4LN(d|q)(8|16)Pseudo_UPD")>;
|
||
|
||
// ASIMD load, 4 element, all lanes: 8cyc "L, F0/F1"
|
||
def : InstRW<[A57Write_8cyc_1L_1V, A57Write_8cyc_1L_1V, A57Write_8cyc_1L_1V,
|
||
A57Write_8cyc_1L_1V],
|
||
(instregex "VLD4DUP(d|q)(8|16|32)$",
|
||
"VLD4DUP(d|q)(8|16|32)Pseudo$")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57Write_8cyc_1L_1V_1I,
|
||
A57Write_8cyc_1L_1V_1I, A57Write_8cyc_1L_1V_1I,
|
||
A57WrBackOne],
|
||
(instregex "VLD4DUP(d|q)(8|16|32)_UPD")>;
|
||
def : InstRW<[A57Write_8cyc_1L_1V_1I, A57WrBackOne],
|
||
(instregex "VLD4DUP(d|q)(8|16|32)Pseudo_UPD")>;
|
||
|
||
// --- 3.18 ASIMD Store Instructions ---
|
||
|
||
// ASIMD store, 1 element, multiple, 1 reg: 1cyc S
|
||
def : InstRW<[A57Write_1cyc_1S], (instregex "VST1d(8|16|32|64)$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_1cyc_1S_1I],
|
||
(instregex "VST1d(8|16|32|64)wb")>;
|
||
// ASIMD store, 1 element, multiple, 2 reg: 2cyc S
|
||
def : InstRW<[A57Write_2cyc_1S], (instregex "VST1q(8|16|32|64)$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_2cyc_1S_1I],
|
||
(instregex "VST1q(8|16|32|64)wb")>;
|
||
// ASIMD store, 1 element, multiple, 3 reg: 3cyc S
|
||
def : InstRW<[A57Write_3cyc_1S],
|
||
(instregex "VST1d(8|16|32|64)T$", "VST1d64TPseudo$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_3cyc_1S_1I],
|
||
(instregex "VST1d(8|16|32|64)Twb", "VST1d64TPseudoWB")>;
|
||
// ASIMD store, 1 element, multiple, 4 reg: 4cyc S
|
||
def : InstRW<[A57Write_4cyc_1S],
|
||
(instregex "VST1d(8|16|32|64)(Q|QPseudo)$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_4cyc_1S_1I],
|
||
(instregex "VST1d(8|16|32|64)(Qwb|QPseudoWB)")>;
|
||
// ASIMD store, 1 element, one lane: 3cyc "F0/F1, S"
|
||
def : InstRW<[A57Write_3cyc_1S_1V],
|
||
(instregex "VST1LNd(8|16|32)$", "VST1LNq(8|16|32)Pseudo$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_3cyc_1S_1V_1I],
|
||
(instregex "VST1LNd(8|16|32)_UPD", "VST1LNq(8|16|32)Pseudo_UPD")>;
|
||
// ASIMD store, 2 element, multiple, 2 reg: 3cyc "F0/F1, S"
|
||
def : InstRW<[A57Write_3cyc_1S_1V],
|
||
(instregex "VST2(d|b)(8|16|32)$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_3cyc_1S_1V_1I],
|
||
(instregex "VST2(b|d)(8|16|32)wb")>;
|
||
// ASIMD store, 2 element, multiple, 4 reg: 4cyc "F0/F1, S"
|
||
def : InstRW<[A57Write_4cyc_1S_1V],
|
||
(instregex "VST2q(8|16|32)$", "VST2q(8|16|32)Pseudo$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_4cyc_1S_1V_1I],
|
||
(instregex "VST2q(8|16|32)wb", "VST2q(8|16|32)PseudoWB")>;
|
||
// ASIMD store, 2 element, one lane: 3cyc "F0/F1, S"
|
||
def : InstRW<[A57Write_3cyc_1S_1V],
|
||
(instregex "VST2LN(d|q)(8|16|32)$", "VST2LN(d|q)(8|16|32)Pseudo$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_3cyc_1S_1V_1I],
|
||
(instregex "VST2LN(d|q)(8|16|32)_UPD",
|
||
"VST2LN(d|q)(8|16|32)Pseudo_UPD")>;
|
||
// ASIMD store, 3 element, multiple, 3 reg
|
||
def : InstRW<[A57Write_3cyc_1S_1V],
|
||
(instregex "VST3(d|q)(8|16|32)$", "VST3(d|q)(8|16|32)(oddP|P)seudo$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_3cyc_1S_1V_1I],
|
||
(instregex "VST3(d|q)(8|16|32)_UPD",
|
||
"VST3(d|q)(8|16|32)(oddP|P)seudo_UPD$")>;
|
||
// ASIMD store, 3 element, one lane
|
||
def : InstRW<[A57Write_3cyc_1S_1V],
|
||
(instregex "VST3LN(d|q)(8|16|32)$", "VST3LN(d|q)(8|16|32)Pseudo$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_3cyc_1S_1V_1I],
|
||
(instregex "VST3LN(d|q)(8|16|32)_UPD",
|
||
"VST3LN(d|q)(8|16|32)Pseudo_UPD")>;
|
||
// ASIMD store, 4 element, multiple, 4 reg
|
||
def : InstRW<[A57Write_4cyc_1S_1V],
|
||
(instregex "VST4(d|q)(8|16|32)$", "VST4(d|q)(8|16|32)(oddP|P)seudo$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_4cyc_1S_1V_1I],
|
||
(instregex "VST4(d|q)(8|16|32)_UPD",
|
||
"VST4(d|q)(8|16|32)(oddP|P)seudo_UPD$")>;
|
||
// ASIMD store, 4 element, one lane
|
||
def : InstRW<[A57Write_3cyc_1S_1V],
|
||
(instregex "VST4LN(d|q)(8|16|32)$", "VST4LN(d|q)(8|16|32)Pseudo$")>;
|
||
def : InstRW<[A57WrBackOne, A57Write_3cyc_1S_1V_1I],
|
||
(instregex "VST4LN(d|q)(8|16|32)_UPD",
|
||
"VST4LN(d|q)(8|16|32)Pseudo_UPD")>;
|
||
|
||
// --- 3.19 Cryptography Extensions ---
|
||
// Crypto AES ops
|
||
// AESD, AESE, AESIMC, AESMC: 3cyc F0
|
||
def : InstRW<[A57Write_3cyc_1W], (instregex "^AES")>;
|
||
// Crypto polynomial (64x64) multiply long (VMULL.P64): 3cyc F0
|
||
def : InstRW<[A57Write_3cyc_1W], (instregex "^VMULLp64")>;
|
||
// Crypto SHA1 xor ops: 6cyc F0/F1
|
||
def : InstRW<[A57Write_6cyc_2V], (instregex "^SHA1SU0")>;
|
||
// Crypto SHA1 fast ops: 3cyc F0
|
||
def : InstRW<[A57Write_3cyc_1W], (instregex "^SHA1(H|SU1)")>;
|
||
// Crypto SHA1 slow ops: 6cyc F0
|
||
def : InstRW<[A57Write_6cyc_2W], (instregex "^SHA1[CMP]")>;
|
||
// Crypto SHA256 fast ops: 3cyc F0
|
||
def : InstRW<[A57Write_3cyc_1W], (instregex "^SHA256SU0")>;
|
||
// Crypto SHA256 slow ops: 6cyc F0
|
||
def : InstRW<[A57Write_6cyc_2W], (instregex "^SHA256(H|H2|SU1)")>;
|
||
|
||
// --- 3.20 CRC ---
|
||
def : InstRW<[A57Write_3cyc_1W], (instregex "^(t2)?CRC32")>;
|
||
|
||
// -----------------------------------------------------------------------------
|
||
// Common definitions
|
||
def : WriteRes<WriteNoop, []> { let Latency = 0; let NumMicroOps = 0; }
|
||
def : SchedAlias<WriteALU, CheckBranchForm<0, A57BranchForm<A57Write_1cyc_1I>>>;
|
||
|
||
def : SchedAlias<WriteBr, A57Write_1cyc_1B>;
|
||
def : SchedAlias<WriteBrL, A57Write_1cyc_1B_1I>;
|
||
def : SchedAlias<WriteBrTbl, A57Write_1cyc_1B_1I>;
|
||
def : SchedAlias<WritePreLd, A57Write_4cyc_1L>;
|
||
|
||
def : SchedAlias<WriteLd, A57Write_4cyc_1L>;
|
||
def : SchedAlias<WriteST, A57Write_1cyc_1S>;
|
||
def : ReadAdvance<ReadALU, 0>;
|
||
|
||
} // SchedModel = CortexA57Model
|
||
|