17330f729Sjoerg //===- ARMRegisterBankInfo.cpp -----------------------------------*- C++ -*-==//
27330f729Sjoerg //
37330f729Sjoerg // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
47330f729Sjoerg // See https://llvm.org/LICENSE.txt for license information.
57330f729Sjoerg // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
67330f729Sjoerg //
77330f729Sjoerg //===----------------------------------------------------------------------===//
87330f729Sjoerg /// \file
97330f729Sjoerg /// This file implements the targeting of the RegisterBankInfo class for ARM.
107330f729Sjoerg /// \todo This should be generated by TableGen.
117330f729Sjoerg //===----------------------------------------------------------------------===//
127330f729Sjoerg
137330f729Sjoerg #include "ARMRegisterBankInfo.h"
147330f729Sjoerg #include "ARMInstrInfo.h" // For the register classes
157330f729Sjoerg #include "ARMSubtarget.h"
167330f729Sjoerg #include "llvm/CodeGen/GlobalISel/RegisterBank.h"
177330f729Sjoerg #include "llvm/CodeGen/GlobalISel/RegisterBankInfo.h"
187330f729Sjoerg #include "llvm/CodeGen/MachineRegisterInfo.h"
197330f729Sjoerg #include "llvm/CodeGen/TargetRegisterInfo.h"
207330f729Sjoerg
217330f729Sjoerg #define GET_TARGET_REGBANK_IMPL
227330f729Sjoerg #include "ARMGenRegisterBank.inc"
237330f729Sjoerg
247330f729Sjoerg using namespace llvm;
257330f729Sjoerg
267330f729Sjoerg // FIXME: TableGen this.
277330f729Sjoerg // If it grows too much and TableGen still isn't ready to do the job, extract it
287330f729Sjoerg // into an ARMGenRegisterBankInfo.def (similar to AArch64).
297330f729Sjoerg namespace llvm {
307330f729Sjoerg namespace ARM {
317330f729Sjoerg enum PartialMappingIdx {
327330f729Sjoerg PMI_GPR,
337330f729Sjoerg PMI_SPR,
347330f729Sjoerg PMI_DPR,
357330f729Sjoerg PMI_Min = PMI_GPR,
367330f729Sjoerg };
377330f729Sjoerg
387330f729Sjoerg RegisterBankInfo::PartialMapping PartMappings[]{
397330f729Sjoerg // GPR Partial Mapping
407330f729Sjoerg {0, 32, GPRRegBank},
417330f729Sjoerg // SPR Partial Mapping
427330f729Sjoerg {0, 32, FPRRegBank},
437330f729Sjoerg // DPR Partial Mapping
447330f729Sjoerg {0, 64, FPRRegBank},
457330f729Sjoerg };
467330f729Sjoerg
477330f729Sjoerg #ifndef NDEBUG
checkPartMapping(const RegisterBankInfo::PartialMapping & PM,unsigned Start,unsigned Length,unsigned RegBankID)487330f729Sjoerg static bool checkPartMapping(const RegisterBankInfo::PartialMapping &PM,
497330f729Sjoerg unsigned Start, unsigned Length,
507330f729Sjoerg unsigned RegBankID) {
517330f729Sjoerg return PM.StartIdx == Start && PM.Length == Length &&
527330f729Sjoerg PM.RegBank->getID() == RegBankID;
537330f729Sjoerg }
547330f729Sjoerg
checkPartialMappings()557330f729Sjoerg static void checkPartialMappings() {
567330f729Sjoerg assert(
577330f729Sjoerg checkPartMapping(PartMappings[PMI_GPR - PMI_Min], 0, 32, GPRRegBankID) &&
587330f729Sjoerg "Wrong mapping for GPR");
597330f729Sjoerg assert(
607330f729Sjoerg checkPartMapping(PartMappings[PMI_SPR - PMI_Min], 0, 32, FPRRegBankID) &&
617330f729Sjoerg "Wrong mapping for SPR");
627330f729Sjoerg assert(
637330f729Sjoerg checkPartMapping(PartMappings[PMI_DPR - PMI_Min], 0, 64, FPRRegBankID) &&
647330f729Sjoerg "Wrong mapping for DPR");
657330f729Sjoerg }
667330f729Sjoerg #endif
677330f729Sjoerg
687330f729Sjoerg enum ValueMappingIdx {
697330f729Sjoerg InvalidIdx = 0,
707330f729Sjoerg GPR3OpsIdx = 1,
717330f729Sjoerg SPR3OpsIdx = 4,
727330f729Sjoerg DPR3OpsIdx = 7,
737330f729Sjoerg };
747330f729Sjoerg
757330f729Sjoerg RegisterBankInfo::ValueMapping ValueMappings[] = {
767330f729Sjoerg // invalid
777330f729Sjoerg {nullptr, 0},
787330f729Sjoerg // 3 ops in GPRs
797330f729Sjoerg {&PartMappings[PMI_GPR - PMI_Min], 1},
807330f729Sjoerg {&PartMappings[PMI_GPR - PMI_Min], 1},
817330f729Sjoerg {&PartMappings[PMI_GPR - PMI_Min], 1},
827330f729Sjoerg // 3 ops in SPRs
837330f729Sjoerg {&PartMappings[PMI_SPR - PMI_Min], 1},
847330f729Sjoerg {&PartMappings[PMI_SPR - PMI_Min], 1},
857330f729Sjoerg {&PartMappings[PMI_SPR - PMI_Min], 1},
867330f729Sjoerg // 3 ops in DPRs
877330f729Sjoerg {&PartMappings[PMI_DPR - PMI_Min], 1},
887330f729Sjoerg {&PartMappings[PMI_DPR - PMI_Min], 1},
897330f729Sjoerg {&PartMappings[PMI_DPR - PMI_Min], 1}};
907330f729Sjoerg
917330f729Sjoerg #ifndef NDEBUG
checkValueMapping(const RegisterBankInfo::ValueMapping & VM,RegisterBankInfo::PartialMapping * BreakDown)927330f729Sjoerg static bool checkValueMapping(const RegisterBankInfo::ValueMapping &VM,
937330f729Sjoerg RegisterBankInfo::PartialMapping *BreakDown) {
947330f729Sjoerg return VM.NumBreakDowns == 1 && VM.BreakDown == BreakDown;
957330f729Sjoerg }
967330f729Sjoerg
checkValueMappings()977330f729Sjoerg static void checkValueMappings() {
987330f729Sjoerg assert(checkValueMapping(ValueMappings[GPR3OpsIdx],
997330f729Sjoerg &PartMappings[PMI_GPR - PMI_Min]) &&
1007330f729Sjoerg "Wrong value mapping for 3 GPR ops instruction");
1017330f729Sjoerg assert(checkValueMapping(ValueMappings[GPR3OpsIdx + 1],
1027330f729Sjoerg &PartMappings[PMI_GPR - PMI_Min]) &&
1037330f729Sjoerg "Wrong value mapping for 3 GPR ops instruction");
1047330f729Sjoerg assert(checkValueMapping(ValueMappings[GPR3OpsIdx + 2],
1057330f729Sjoerg &PartMappings[PMI_GPR - PMI_Min]) &&
1067330f729Sjoerg "Wrong value mapping for 3 GPR ops instruction");
1077330f729Sjoerg
1087330f729Sjoerg assert(checkValueMapping(ValueMappings[SPR3OpsIdx],
1097330f729Sjoerg &PartMappings[PMI_SPR - PMI_Min]) &&
1107330f729Sjoerg "Wrong value mapping for 3 SPR ops instruction");
1117330f729Sjoerg assert(checkValueMapping(ValueMappings[SPR3OpsIdx + 1],
1127330f729Sjoerg &PartMappings[PMI_SPR - PMI_Min]) &&
1137330f729Sjoerg "Wrong value mapping for 3 SPR ops instruction");
1147330f729Sjoerg assert(checkValueMapping(ValueMappings[SPR3OpsIdx + 2],
1157330f729Sjoerg &PartMappings[PMI_SPR - PMI_Min]) &&
1167330f729Sjoerg "Wrong value mapping for 3 SPR ops instruction");
1177330f729Sjoerg
1187330f729Sjoerg assert(checkValueMapping(ValueMappings[DPR3OpsIdx],
1197330f729Sjoerg &PartMappings[PMI_DPR - PMI_Min]) &&
1207330f729Sjoerg "Wrong value mapping for 3 DPR ops instruction");
1217330f729Sjoerg assert(checkValueMapping(ValueMappings[DPR3OpsIdx + 1],
1227330f729Sjoerg &PartMappings[PMI_DPR - PMI_Min]) &&
1237330f729Sjoerg "Wrong value mapping for 3 DPR ops instruction");
1247330f729Sjoerg assert(checkValueMapping(ValueMappings[DPR3OpsIdx + 2],
1257330f729Sjoerg &PartMappings[PMI_DPR - PMI_Min]) &&
1267330f729Sjoerg "Wrong value mapping for 3 DPR ops instruction");
1277330f729Sjoerg }
1287330f729Sjoerg #endif
1297330f729Sjoerg } // end namespace arm
1307330f729Sjoerg } // end namespace llvm
1317330f729Sjoerg
ARMRegisterBankInfo(const TargetRegisterInfo & TRI)1327330f729Sjoerg ARMRegisterBankInfo::ARMRegisterBankInfo(const TargetRegisterInfo &TRI)
1337330f729Sjoerg : ARMGenRegisterBankInfo() {
1347330f729Sjoerg // We have only one set of register banks, whatever the subtarget
1357330f729Sjoerg // is. Therefore, the initialization of the RegBanks table should be
1367330f729Sjoerg // done only once. Indeed the table of all register banks
1377330f729Sjoerg // (ARM::RegBanks) is unique in the compiler. At some point, it
1387330f729Sjoerg // will get tablegen'ed and the whole constructor becomes empty.
139*82d56013Sjoerg static llvm::once_flag InitializeRegisterBankFlag;
1407330f729Sjoerg
141*82d56013Sjoerg static auto InitializeRegisterBankOnce = [&]() {
1427330f729Sjoerg const RegisterBank &RBGPR = getRegBank(ARM::GPRRegBankID);
1437330f729Sjoerg (void)RBGPR;
1447330f729Sjoerg assert(&ARM::GPRRegBank == &RBGPR && "The order in RegBanks is messed up");
1457330f729Sjoerg
1467330f729Sjoerg // Initialize the GPR bank.
1477330f729Sjoerg assert(RBGPR.covers(*TRI.getRegClass(ARM::GPRRegClassID)) &&
1487330f729Sjoerg "Subclass not added?");
1497330f729Sjoerg assert(RBGPR.covers(*TRI.getRegClass(ARM::GPRwithAPSRRegClassID)) &&
1507330f729Sjoerg "Subclass not added?");
1517330f729Sjoerg assert(RBGPR.covers(*TRI.getRegClass(ARM::GPRnopcRegClassID)) &&
1527330f729Sjoerg "Subclass not added?");
1537330f729Sjoerg assert(RBGPR.covers(*TRI.getRegClass(ARM::rGPRRegClassID)) &&
1547330f729Sjoerg "Subclass not added?");
1557330f729Sjoerg assert(RBGPR.covers(*TRI.getRegClass(ARM::tGPRRegClassID)) &&
1567330f729Sjoerg "Subclass not added?");
1577330f729Sjoerg assert(RBGPR.covers(*TRI.getRegClass(ARM::tcGPRRegClassID)) &&
1587330f729Sjoerg "Subclass not added?");
159*82d56013Sjoerg assert(RBGPR.covers(*TRI.getRegClass(ARM::GPRnoip_and_tcGPRRegClassID)) &&
1607330f729Sjoerg "Subclass not added?");
161*82d56013Sjoerg assert(RBGPR.covers(*TRI.getRegClass(
162*82d56013Sjoerg ARM::tGPREven_and_GPRnoip_and_tcGPRRegClassID)) &&
1637330f729Sjoerg "Subclass not added?");
1647330f729Sjoerg assert(RBGPR.covers(*TRI.getRegClass(ARM::tGPROdd_and_tcGPRRegClassID)) &&
1657330f729Sjoerg "Subclass not added?");
1667330f729Sjoerg assert(RBGPR.getSize() == 32 && "GPRs should hold up to 32-bit");
1677330f729Sjoerg
1687330f729Sjoerg #ifndef NDEBUG
1697330f729Sjoerg ARM::checkPartialMappings();
1707330f729Sjoerg ARM::checkValueMappings();
1717330f729Sjoerg #endif
172*82d56013Sjoerg };
173*82d56013Sjoerg
174*82d56013Sjoerg llvm::call_once(InitializeRegisterBankFlag, InitializeRegisterBankOnce);
1757330f729Sjoerg }
1767330f729Sjoerg
177*82d56013Sjoerg const RegisterBank &
getRegBankFromRegClass(const TargetRegisterClass & RC,LLT) const178*82d56013Sjoerg ARMRegisterBankInfo::getRegBankFromRegClass(const TargetRegisterClass &RC,
179*82d56013Sjoerg LLT) const {
1807330f729Sjoerg using namespace ARM;
1817330f729Sjoerg
1827330f729Sjoerg switch (RC.getID()) {
1837330f729Sjoerg case GPRRegClassID:
1847330f729Sjoerg case GPRwithAPSRRegClassID:
185*82d56013Sjoerg case GPRnoipRegClassID:
1867330f729Sjoerg case GPRnopcRegClassID:
187*82d56013Sjoerg case GPRnoip_and_GPRnopcRegClassID:
1887330f729Sjoerg case rGPRRegClassID:
1897330f729Sjoerg case GPRspRegClassID:
190*82d56013Sjoerg case GPRnoip_and_tcGPRRegClassID:
1917330f729Sjoerg case tcGPRRegClassID:
1927330f729Sjoerg case tGPRRegClassID:
1937330f729Sjoerg case tGPREvenRegClassID:
1947330f729Sjoerg case tGPROddRegClassID:
1957330f729Sjoerg case tGPR_and_tGPREvenRegClassID:
1967330f729Sjoerg case tGPR_and_tGPROddRegClassID:
1977330f729Sjoerg case tGPREven_and_tcGPRRegClassID:
198*82d56013Sjoerg case tGPREven_and_GPRnoip_and_tcGPRRegClassID:
1997330f729Sjoerg case tGPROdd_and_tcGPRRegClassID:
2007330f729Sjoerg return getRegBank(ARM::GPRRegBankID);
2017330f729Sjoerg case HPRRegClassID:
2027330f729Sjoerg case SPR_8RegClassID:
2037330f729Sjoerg case SPRRegClassID:
2047330f729Sjoerg case DPR_8RegClassID:
2057330f729Sjoerg case DPRRegClassID:
2067330f729Sjoerg case QPRRegClassID:
2077330f729Sjoerg return getRegBank(ARM::FPRRegBankID);
2087330f729Sjoerg default:
2097330f729Sjoerg llvm_unreachable("Unsupported register kind");
2107330f729Sjoerg }
2117330f729Sjoerg
2127330f729Sjoerg llvm_unreachable("Switch should handle all register classes");
2137330f729Sjoerg }
2147330f729Sjoerg
2157330f729Sjoerg const RegisterBankInfo::InstructionMapping &
getInstrMapping(const MachineInstr & MI) const2167330f729Sjoerg ARMRegisterBankInfo::getInstrMapping(const MachineInstr &MI) const {
2177330f729Sjoerg auto Opc = MI.getOpcode();
2187330f729Sjoerg
2197330f729Sjoerg // Try the default logic for non-generic instructions that are either copies
2207330f729Sjoerg // or already have some operands assigned to banks.
2217330f729Sjoerg if (!isPreISelGenericOpcode(Opc) || Opc == TargetOpcode::G_PHI) {
2227330f729Sjoerg const InstructionMapping &Mapping = getInstrMappingImpl(MI);
2237330f729Sjoerg if (Mapping.isValid())
2247330f729Sjoerg return Mapping;
2257330f729Sjoerg }
2267330f729Sjoerg
2277330f729Sjoerg using namespace TargetOpcode;
2287330f729Sjoerg
2297330f729Sjoerg const MachineFunction &MF = *MI.getParent()->getParent();
2307330f729Sjoerg const MachineRegisterInfo &MRI = MF.getRegInfo();
2317330f729Sjoerg unsigned NumOperands = MI.getNumOperands();
2327330f729Sjoerg const ValueMapping *OperandsMapping = &ARM::ValueMappings[ARM::GPR3OpsIdx];
2337330f729Sjoerg
2347330f729Sjoerg switch (Opc) {
2357330f729Sjoerg case G_ADD:
2367330f729Sjoerg case G_SUB: {
2377330f729Sjoerg // Integer operations where the source and destination are in the
2387330f729Sjoerg // same register class.
2397330f729Sjoerg LLT Ty = MRI.getType(MI.getOperand(0).getReg());
2407330f729Sjoerg OperandsMapping = Ty.getSizeInBits() == 64
2417330f729Sjoerg ? &ARM::ValueMappings[ARM::DPR3OpsIdx]
2427330f729Sjoerg : &ARM::ValueMappings[ARM::GPR3OpsIdx];
2437330f729Sjoerg break;
2447330f729Sjoerg }
2457330f729Sjoerg case G_MUL:
2467330f729Sjoerg case G_AND:
2477330f729Sjoerg case G_OR:
2487330f729Sjoerg case G_XOR:
2497330f729Sjoerg case G_LSHR:
2507330f729Sjoerg case G_ASHR:
2517330f729Sjoerg case G_SHL:
2527330f729Sjoerg case G_SDIV:
2537330f729Sjoerg case G_UDIV:
2547330f729Sjoerg case G_SEXT:
2557330f729Sjoerg case G_ZEXT:
2567330f729Sjoerg case G_ANYEXT:
257*82d56013Sjoerg case G_PTR_ADD:
2587330f729Sjoerg case G_INTTOPTR:
2597330f729Sjoerg case G_PTRTOINT:
2607330f729Sjoerg case G_CTLZ:
2617330f729Sjoerg // FIXME: We're abusing the fact that everything lives in a GPR for now; in
2627330f729Sjoerg // the real world we would use different mappings.
2637330f729Sjoerg OperandsMapping = &ARM::ValueMappings[ARM::GPR3OpsIdx];
2647330f729Sjoerg break;
2657330f729Sjoerg case G_TRUNC: {
2667330f729Sjoerg // In some cases we may end up with a G_TRUNC from a 64-bit value to a
2677330f729Sjoerg // 32-bit value. This isn't a real floating point trunc (that would be a
2687330f729Sjoerg // G_FPTRUNC). Instead it is an integer trunc in disguise, which can appear
2697330f729Sjoerg // because the legalizer doesn't distinguish between integer and floating
2707330f729Sjoerg // point values so it may leave some 64-bit integers un-narrowed. Until we
2717330f729Sjoerg // have a more principled solution that doesn't let such things sneak all
2727330f729Sjoerg // the way to this point, just map the source to a DPR and the destination
2737330f729Sjoerg // to a GPR.
2747330f729Sjoerg LLT LargeTy = MRI.getType(MI.getOperand(1).getReg());
2757330f729Sjoerg OperandsMapping =
2767330f729Sjoerg LargeTy.getSizeInBits() <= 32
2777330f729Sjoerg ? &ARM::ValueMappings[ARM::GPR3OpsIdx]
2787330f729Sjoerg : getOperandsMapping({&ARM::ValueMappings[ARM::GPR3OpsIdx],
2797330f729Sjoerg &ARM::ValueMappings[ARM::DPR3OpsIdx]});
2807330f729Sjoerg break;
2817330f729Sjoerg }
2827330f729Sjoerg case G_LOAD:
2837330f729Sjoerg case G_STORE: {
2847330f729Sjoerg LLT Ty = MRI.getType(MI.getOperand(0).getReg());
2857330f729Sjoerg OperandsMapping =
2867330f729Sjoerg Ty.getSizeInBits() == 64
2877330f729Sjoerg ? getOperandsMapping({&ARM::ValueMappings[ARM::DPR3OpsIdx],
2887330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx]})
2897330f729Sjoerg : &ARM::ValueMappings[ARM::GPR3OpsIdx];
2907330f729Sjoerg break;
2917330f729Sjoerg }
2927330f729Sjoerg case G_FADD:
2937330f729Sjoerg case G_FSUB:
2947330f729Sjoerg case G_FMUL:
2957330f729Sjoerg case G_FDIV:
2967330f729Sjoerg case G_FNEG: {
2977330f729Sjoerg LLT Ty = MRI.getType(MI.getOperand(0).getReg());
2987330f729Sjoerg OperandsMapping =Ty.getSizeInBits() == 64
2997330f729Sjoerg ? &ARM::ValueMappings[ARM::DPR3OpsIdx]
3007330f729Sjoerg : &ARM::ValueMappings[ARM::SPR3OpsIdx];
3017330f729Sjoerg break;
3027330f729Sjoerg }
3037330f729Sjoerg case G_FMA: {
3047330f729Sjoerg LLT Ty = MRI.getType(MI.getOperand(0).getReg());
3057330f729Sjoerg OperandsMapping =
3067330f729Sjoerg Ty.getSizeInBits() == 64
3077330f729Sjoerg ? getOperandsMapping({&ARM::ValueMappings[ARM::DPR3OpsIdx],
3087330f729Sjoerg &ARM::ValueMappings[ARM::DPR3OpsIdx],
3097330f729Sjoerg &ARM::ValueMappings[ARM::DPR3OpsIdx],
3107330f729Sjoerg &ARM::ValueMappings[ARM::DPR3OpsIdx]})
3117330f729Sjoerg : getOperandsMapping({&ARM::ValueMappings[ARM::SPR3OpsIdx],
3127330f729Sjoerg &ARM::ValueMappings[ARM::SPR3OpsIdx],
3137330f729Sjoerg &ARM::ValueMappings[ARM::SPR3OpsIdx],
3147330f729Sjoerg &ARM::ValueMappings[ARM::SPR3OpsIdx]});
3157330f729Sjoerg break;
3167330f729Sjoerg }
3177330f729Sjoerg case G_FPEXT: {
3187330f729Sjoerg LLT ToTy = MRI.getType(MI.getOperand(0).getReg());
3197330f729Sjoerg LLT FromTy = MRI.getType(MI.getOperand(1).getReg());
3207330f729Sjoerg if (ToTy.getSizeInBits() == 64 && FromTy.getSizeInBits() == 32)
3217330f729Sjoerg OperandsMapping =
3227330f729Sjoerg getOperandsMapping({&ARM::ValueMappings[ARM::DPR3OpsIdx],
3237330f729Sjoerg &ARM::ValueMappings[ARM::SPR3OpsIdx]});
3247330f729Sjoerg break;
3257330f729Sjoerg }
3267330f729Sjoerg case G_FPTRUNC: {
3277330f729Sjoerg LLT ToTy = MRI.getType(MI.getOperand(0).getReg());
3287330f729Sjoerg LLT FromTy = MRI.getType(MI.getOperand(1).getReg());
3297330f729Sjoerg if (ToTy.getSizeInBits() == 32 && FromTy.getSizeInBits() == 64)
3307330f729Sjoerg OperandsMapping =
3317330f729Sjoerg getOperandsMapping({&ARM::ValueMappings[ARM::SPR3OpsIdx],
3327330f729Sjoerg &ARM::ValueMappings[ARM::DPR3OpsIdx]});
3337330f729Sjoerg break;
3347330f729Sjoerg }
3357330f729Sjoerg case G_FPTOSI:
3367330f729Sjoerg case G_FPTOUI: {
3377330f729Sjoerg LLT ToTy = MRI.getType(MI.getOperand(0).getReg());
3387330f729Sjoerg LLT FromTy = MRI.getType(MI.getOperand(1).getReg());
3397330f729Sjoerg if ((FromTy.getSizeInBits() == 32 || FromTy.getSizeInBits() == 64) &&
3407330f729Sjoerg ToTy.getSizeInBits() == 32)
3417330f729Sjoerg OperandsMapping =
3427330f729Sjoerg FromTy.getSizeInBits() == 64
3437330f729Sjoerg ? getOperandsMapping({&ARM::ValueMappings[ARM::GPR3OpsIdx],
3447330f729Sjoerg &ARM::ValueMappings[ARM::DPR3OpsIdx]})
3457330f729Sjoerg : getOperandsMapping({&ARM::ValueMappings[ARM::GPR3OpsIdx],
3467330f729Sjoerg &ARM::ValueMappings[ARM::SPR3OpsIdx]});
3477330f729Sjoerg break;
3487330f729Sjoerg }
3497330f729Sjoerg case G_SITOFP:
3507330f729Sjoerg case G_UITOFP: {
3517330f729Sjoerg LLT ToTy = MRI.getType(MI.getOperand(0).getReg());
3527330f729Sjoerg LLT FromTy = MRI.getType(MI.getOperand(1).getReg());
3537330f729Sjoerg if (FromTy.getSizeInBits() == 32 &&
3547330f729Sjoerg (ToTy.getSizeInBits() == 32 || ToTy.getSizeInBits() == 64))
3557330f729Sjoerg OperandsMapping =
3567330f729Sjoerg ToTy.getSizeInBits() == 64
3577330f729Sjoerg ? getOperandsMapping({&ARM::ValueMappings[ARM::DPR3OpsIdx],
3587330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx]})
3597330f729Sjoerg : getOperandsMapping({&ARM::ValueMappings[ARM::SPR3OpsIdx],
3607330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx]});
3617330f729Sjoerg break;
3627330f729Sjoerg }
3637330f729Sjoerg case G_FCONSTANT: {
3647330f729Sjoerg LLT Ty = MRI.getType(MI.getOperand(0).getReg());
3657330f729Sjoerg OperandsMapping = getOperandsMapping(
3667330f729Sjoerg {Ty.getSizeInBits() == 64 ? &ARM::ValueMappings[ARM::DPR3OpsIdx]
3677330f729Sjoerg : &ARM::ValueMappings[ARM::SPR3OpsIdx],
3687330f729Sjoerg nullptr});
3697330f729Sjoerg break;
3707330f729Sjoerg }
3717330f729Sjoerg case G_CONSTANT:
3727330f729Sjoerg case G_FRAME_INDEX:
3737330f729Sjoerg case G_GLOBAL_VALUE:
3747330f729Sjoerg OperandsMapping =
3757330f729Sjoerg getOperandsMapping({&ARM::ValueMappings[ARM::GPR3OpsIdx], nullptr});
3767330f729Sjoerg break;
3777330f729Sjoerg case G_SELECT: {
3787330f729Sjoerg LLT Ty = MRI.getType(MI.getOperand(0).getReg());
3797330f729Sjoerg (void)Ty;
3807330f729Sjoerg LLT Ty2 = MRI.getType(MI.getOperand(1).getReg());
3817330f729Sjoerg (void)Ty2;
3827330f729Sjoerg assert(Ty.getSizeInBits() == 32 && "Unsupported size for G_SELECT");
3837330f729Sjoerg assert(Ty2.getSizeInBits() == 1 && "Unsupported size for G_SELECT");
3847330f729Sjoerg OperandsMapping =
3857330f729Sjoerg getOperandsMapping({&ARM::ValueMappings[ARM::GPR3OpsIdx],
3867330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx],
3877330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx],
3887330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx]});
3897330f729Sjoerg break;
3907330f729Sjoerg }
3917330f729Sjoerg case G_ICMP: {
3927330f729Sjoerg LLT Ty2 = MRI.getType(MI.getOperand(2).getReg());
3937330f729Sjoerg (void)Ty2;
3947330f729Sjoerg assert(Ty2.getSizeInBits() == 32 && "Unsupported size for G_ICMP");
3957330f729Sjoerg OperandsMapping =
3967330f729Sjoerg getOperandsMapping({&ARM::ValueMappings[ARM::GPR3OpsIdx], nullptr,
3977330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx],
3987330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx]});
3997330f729Sjoerg break;
4007330f729Sjoerg }
4017330f729Sjoerg case G_FCMP: {
4027330f729Sjoerg LLT Ty = MRI.getType(MI.getOperand(0).getReg());
4037330f729Sjoerg (void)Ty;
4047330f729Sjoerg LLT Ty1 = MRI.getType(MI.getOperand(2).getReg());
4057330f729Sjoerg LLT Ty2 = MRI.getType(MI.getOperand(3).getReg());
4067330f729Sjoerg (void)Ty2;
4077330f729Sjoerg assert(Ty.getSizeInBits() == 1 && "Unsupported size for G_FCMP");
4087330f729Sjoerg assert(Ty1.getSizeInBits() == Ty2.getSizeInBits() &&
4097330f729Sjoerg "Mismatched operand sizes for G_FCMP");
4107330f729Sjoerg
4117330f729Sjoerg unsigned Size = Ty1.getSizeInBits();
4127330f729Sjoerg assert((Size == 32 || Size == 64) && "Unsupported size for G_FCMP");
4137330f729Sjoerg
4147330f729Sjoerg auto FPRValueMapping = Size == 32 ? &ARM::ValueMappings[ARM::SPR3OpsIdx]
4157330f729Sjoerg : &ARM::ValueMappings[ARM::DPR3OpsIdx];
4167330f729Sjoerg OperandsMapping =
4177330f729Sjoerg getOperandsMapping({&ARM::ValueMappings[ARM::GPR3OpsIdx], nullptr,
4187330f729Sjoerg FPRValueMapping, FPRValueMapping});
4197330f729Sjoerg break;
4207330f729Sjoerg }
4217330f729Sjoerg case G_MERGE_VALUES: {
4227330f729Sjoerg // We only support G_MERGE_VALUES for creating a double precision floating
4237330f729Sjoerg // point value out of two GPRs.
4247330f729Sjoerg LLT Ty = MRI.getType(MI.getOperand(0).getReg());
4257330f729Sjoerg LLT Ty1 = MRI.getType(MI.getOperand(1).getReg());
4267330f729Sjoerg LLT Ty2 = MRI.getType(MI.getOperand(2).getReg());
4277330f729Sjoerg if (Ty.getSizeInBits() != 64 || Ty1.getSizeInBits() != 32 ||
4287330f729Sjoerg Ty2.getSizeInBits() != 32)
4297330f729Sjoerg return getInvalidInstructionMapping();
4307330f729Sjoerg OperandsMapping =
4317330f729Sjoerg getOperandsMapping({&ARM::ValueMappings[ARM::DPR3OpsIdx],
4327330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx],
4337330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx]});
4347330f729Sjoerg break;
4357330f729Sjoerg }
4367330f729Sjoerg case G_UNMERGE_VALUES: {
4377330f729Sjoerg // We only support G_UNMERGE_VALUES for splitting a double precision
4387330f729Sjoerg // floating point value into two GPRs.
4397330f729Sjoerg LLT Ty = MRI.getType(MI.getOperand(0).getReg());
4407330f729Sjoerg LLT Ty1 = MRI.getType(MI.getOperand(1).getReg());
4417330f729Sjoerg LLT Ty2 = MRI.getType(MI.getOperand(2).getReg());
4427330f729Sjoerg if (Ty.getSizeInBits() != 32 || Ty1.getSizeInBits() != 32 ||
4437330f729Sjoerg Ty2.getSizeInBits() != 64)
4447330f729Sjoerg return getInvalidInstructionMapping();
4457330f729Sjoerg OperandsMapping =
4467330f729Sjoerg getOperandsMapping({&ARM::ValueMappings[ARM::GPR3OpsIdx],
4477330f729Sjoerg &ARM::ValueMappings[ARM::GPR3OpsIdx],
4487330f729Sjoerg &ARM::ValueMappings[ARM::DPR3OpsIdx]});
4497330f729Sjoerg break;
4507330f729Sjoerg }
4517330f729Sjoerg case G_BR:
4527330f729Sjoerg OperandsMapping = getOperandsMapping({nullptr});
4537330f729Sjoerg break;
4547330f729Sjoerg case G_BRCOND:
4557330f729Sjoerg OperandsMapping =
4567330f729Sjoerg getOperandsMapping({&ARM::ValueMappings[ARM::GPR3OpsIdx], nullptr});
4577330f729Sjoerg break;
4587330f729Sjoerg case DBG_VALUE: {
4597330f729Sjoerg SmallVector<const ValueMapping *, 4> OperandBanks(NumOperands);
4607330f729Sjoerg const MachineOperand &MaybeReg = MI.getOperand(0);
4617330f729Sjoerg if (MaybeReg.isReg() && MaybeReg.getReg()) {
4627330f729Sjoerg unsigned Size = MRI.getType(MaybeReg.getReg()).getSizeInBits();
4637330f729Sjoerg if (Size > 32 && Size != 64)
4647330f729Sjoerg return getInvalidInstructionMapping();
4657330f729Sjoerg OperandBanks[0] = Size == 64 ? &ARM::ValueMappings[ARM::DPR3OpsIdx]
4667330f729Sjoerg : &ARM::ValueMappings[ARM::GPR3OpsIdx];
4677330f729Sjoerg }
4687330f729Sjoerg OperandsMapping = getOperandsMapping(OperandBanks);
4697330f729Sjoerg break;
4707330f729Sjoerg }
4717330f729Sjoerg default:
4727330f729Sjoerg return getInvalidInstructionMapping();
4737330f729Sjoerg }
4747330f729Sjoerg
4757330f729Sjoerg #ifndef NDEBUG
4767330f729Sjoerg for (unsigned i = 0; i < NumOperands; i++) {
4777330f729Sjoerg for (const auto &Mapping : OperandsMapping[i]) {
4787330f729Sjoerg assert(
4797330f729Sjoerg (Mapping.RegBank->getID() != ARM::FPRRegBankID ||
4807330f729Sjoerg MF.getSubtarget<ARMSubtarget>().hasVFP2Base()) &&
4817330f729Sjoerg "Trying to use floating point register bank on target without vfp");
4827330f729Sjoerg }
4837330f729Sjoerg }
4847330f729Sjoerg #endif
4857330f729Sjoerg
4867330f729Sjoerg return getInstructionMapping(DefaultMappingID, /*Cost=*/1, OperandsMapping,
4877330f729Sjoerg NumOperands);
4887330f729Sjoerg }
489