forked from OSchip/llvm-project
334 lines
12 KiB
C++
334 lines
12 KiB
C++
//===-- ARMSubtarget.h - Define Subtarget for the ARM ----------*- C++ -*--===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file declares the ARM specific subclass of TargetSubtargetInfo.
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//
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//===----------------------------------------------------------------------===//
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#ifndef ARMSUBTARGET_H
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#define ARMSUBTARGET_H
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#include "MCTargetDesc/ARMMCTargetDesc.h"
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#include "llvm/ADT/Triple.h"
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#include "llvm/MC/MCInstrItineraries.h"
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#include "llvm/Target/TargetSubtargetInfo.h"
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#include <string>
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#define GET_SUBTARGETINFO_HEADER
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#include "ARMGenSubtargetInfo.inc"
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namespace llvm {
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class GlobalValue;
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class StringRef;
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class TargetOptions;
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class ARMSubtarget : public ARMGenSubtargetInfo {
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protected:
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enum ARMProcFamilyEnum {
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Others, CortexA5, CortexA8, CortexA9, CortexA15, CortexR5, Swift
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};
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/// ARMProcFamily - ARM processor family: Cortex-A8, Cortex-A9, and others.
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ARMProcFamilyEnum ARMProcFamily;
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/// HasV4TOps, HasV5TOps, HasV5TEOps,
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/// HasV6Ops, HasV6T2Ops, HasV7Ops, HasV8Ops -
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/// Specify whether target support specific ARM ISA variants.
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bool HasV4TOps;
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bool HasV5TOps;
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bool HasV5TEOps;
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bool HasV6Ops;
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bool HasV6T2Ops;
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bool HasV7Ops;
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bool HasV8Ops;
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/// HasVFPv2, HasVFPv3, HasVFPv4, HasV8FP, HasNEON - Specify what
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/// floating point ISAs are supported.
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bool HasVFPv2;
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bool HasVFPv3;
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bool HasVFPv4;
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bool HasV8FP;
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bool HasNEON;
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/// UseNEONForSinglePrecisionFP - if the NEONFP attribute has been
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/// specified. Use the method useNEONForSinglePrecisionFP() to
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/// determine if NEON should actually be used.
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bool UseNEONForSinglePrecisionFP;
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/// UseMulOps - True if non-microcoded fused integer multiply-add and
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/// multiply-subtract instructions should be used.
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bool UseMulOps;
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/// SlowFPVMLx - If the VFP2 / NEON instructions are available, indicates
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/// whether the FP VML[AS] instructions are slow (if so, don't use them).
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bool SlowFPVMLx;
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/// HasVMLxForwarding - If true, NEON has special multiplier accumulator
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/// forwarding to allow mul + mla being issued back to back.
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bool HasVMLxForwarding;
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/// SlowFPBrcc - True if floating point compare + branch is slow.
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bool SlowFPBrcc;
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/// InThumbMode - True if compiling for Thumb, false for ARM.
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bool InThumbMode;
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/// HasThumb2 - True if Thumb2 instructions are supported.
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bool HasThumb2;
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/// IsMClass - True if the subtarget belongs to the 'M' profile of CPUs -
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/// v6m, v7m for example.
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bool IsMClass;
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/// NoARM - True if subtarget does not support ARM mode execution.
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bool NoARM;
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/// PostRAScheduler - True if using post-register-allocation scheduler.
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bool PostRAScheduler;
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/// IsR9Reserved - True if R9 is a not available as general purpose register.
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bool IsR9Reserved;
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/// UseMovt - True if MOVT / MOVW pairs are used for materialization of 32-bit
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/// imms (including global addresses).
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bool UseMovt;
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/// SupportsTailCall - True if the OS supports tail call. The dynamic linker
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/// must be able to synthesize call stubs for interworking between ARM and
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/// Thumb.
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bool SupportsTailCall;
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/// HasFP16 - True if subtarget supports half-precision FP (We support VFP+HF
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/// only so far)
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bool HasFP16;
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/// HasD16 - True if subtarget is limited to 16 double precision
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/// FP registers for VFPv3.
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bool HasD16;
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/// HasHardwareDivide - True if subtarget supports [su]div
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bool HasHardwareDivide;
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/// HasHardwareDivideInARM - True if subtarget supports [su]div in ARM mode
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bool HasHardwareDivideInARM;
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/// HasT2ExtractPack - True if subtarget supports thumb2 extract/pack
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/// instructions.
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bool HasT2ExtractPack;
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/// HasDataBarrier - True if the subtarget supports DMB / DSB data barrier
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/// instructions.
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bool HasDataBarrier;
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/// Pref32BitThumb - If true, codegen would prefer 32-bit Thumb instructions
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/// over 16-bit ones.
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bool Pref32BitThumb;
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/// AvoidCPSRPartialUpdate - If true, codegen would avoid using instructions
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/// that partially update CPSR and add false dependency on the previous
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/// CPSR setting instruction.
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bool AvoidCPSRPartialUpdate;
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/// AvoidMOVsShifterOperand - If true, codegen should avoid using flag setting
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/// movs with shifter operand (i.e. asr, lsl, lsr).
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bool AvoidMOVsShifterOperand;
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/// HasRAS - Some processors perform return stack prediction. CodeGen should
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/// avoid issue "normal" call instructions to callees which do not return.
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bool HasRAS;
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/// HasMPExtension - True if the subtarget supports Multiprocessing
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/// extension (ARMv7 only).
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bool HasMPExtension;
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/// FPOnlySP - If true, the floating point unit only supports single
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/// precision.
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bool FPOnlySP;
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/// If true, the processor supports the Performance Monitor Extensions. These
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/// include a generic cycle-counter as well as more fine-grained (often
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/// implementation-specific) events.
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bool HasPerfMon;
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/// HasTrustZone - if true, processor supports TrustZone security extensions
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bool HasTrustZone;
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/// AllowsUnalignedMem - If true, the subtarget allows unaligned memory
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/// accesses for some types. For details, see
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/// ARMTargetLowering::allowsUnalignedMemoryAccesses().
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bool AllowsUnalignedMem;
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/// Thumb2DSP - If true, the subtarget supports the v7 DSP (saturating arith
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/// and such) instructions in Thumb2 code.
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bool Thumb2DSP;
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/// NaCl TRAP instruction is generated instead of the regular TRAP.
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bool UseNaClTrap;
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/// Target machine allowed unsafe FP math (such as use of NEON fp)
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bool UnsafeFPMath;
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/// stackAlignment - The minimum alignment known to hold of the stack frame on
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/// entry to the function and which must be maintained by every function.
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unsigned stackAlignment;
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/// CPUString - String name of used CPU.
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std::string CPUString;
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/// TargetTriple - What processor and OS we're targeting.
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Triple TargetTriple;
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/// SchedModel - Processor specific instruction costs.
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const MCSchedModel *SchedModel;
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/// Selected instruction itineraries (one entry per itinerary class.)
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InstrItineraryData InstrItins;
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/// Options passed via command line that could influence the target
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const TargetOptions &Options;
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public:
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enum {
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ARM_ABI_APCS,
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ARM_ABI_AAPCS // ARM EABI
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} TargetABI;
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/// This constructor initializes the data members to match that
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/// of the specified triple.
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///
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ARMSubtarget(const std::string &TT, const std::string &CPU,
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const std::string &FS, const TargetOptions &Options);
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/// getMaxInlineSizeThreshold - Returns the maximum memset / memcpy size
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/// that still makes it profitable to inline the call.
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unsigned getMaxInlineSizeThreshold() const {
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// FIXME: For now, we don't lower memcpy's to loads / stores for Thumb1.
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// Change this once Thumb1 ldmia / stmia support is added.
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return isThumb1Only() ? 0 : 64;
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}
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/// ParseSubtargetFeatures - Parses features string setting specified
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/// subtarget options. Definition of function is auto generated by tblgen.
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void ParseSubtargetFeatures(StringRef CPU, StringRef FS);
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/// \brief Reset the features for the ARM target.
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virtual void resetSubtargetFeatures(const MachineFunction *MF);
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private:
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void initializeEnvironment();
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void resetSubtargetFeatures(StringRef CPU, StringRef FS);
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public:
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void computeIssueWidth();
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bool hasV4TOps() const { return HasV4TOps; }
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bool hasV5TOps() const { return HasV5TOps; }
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bool hasV5TEOps() const { return HasV5TEOps; }
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bool hasV6Ops() const { return HasV6Ops; }
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bool hasV6T2Ops() const { return HasV6T2Ops; }
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bool hasV7Ops() const { return HasV7Ops; }
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bool hasV8Ops() const { return HasV8Ops; }
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bool isCortexA5() const { return ARMProcFamily == CortexA5; }
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bool isCortexA8() const { return ARMProcFamily == CortexA8; }
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bool isCortexA9() const { return ARMProcFamily == CortexA9; }
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bool isCortexA15() const { return ARMProcFamily == CortexA15; }
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bool isSwift() const { return ARMProcFamily == Swift; }
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bool isCortexM3() const { return CPUString == "cortex-m3"; }
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bool isLikeA9() const { return isCortexA9() || isCortexA15(); }
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bool isCortexR5() const { return ARMProcFamily == CortexR5; }
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bool hasARMOps() const { return !NoARM; }
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bool hasVFP2() const { return HasVFPv2; }
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bool hasVFP3() const { return HasVFPv3; }
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bool hasVFP4() const { return HasVFPv4; }
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bool hasV8FP() const { return HasV8FP; }
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bool hasNEON() const { return HasNEON; }
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bool useNEONForSinglePrecisionFP() const {
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return hasNEON() && UseNEONForSinglePrecisionFP; }
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bool hasDivide() const { return HasHardwareDivide; }
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bool hasDivideInARMMode() const { return HasHardwareDivideInARM; }
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bool hasT2ExtractPack() const { return HasT2ExtractPack; }
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bool hasDataBarrier() const { return HasDataBarrier; }
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bool useMulOps() const { return UseMulOps; }
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bool useFPVMLx() const { return !SlowFPVMLx; }
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bool hasVMLxForwarding() const { return HasVMLxForwarding; }
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bool isFPBrccSlow() const { return SlowFPBrcc; }
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bool isFPOnlySP() const { return FPOnlySP; }
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bool hasPerfMon() const { return HasPerfMon; }
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bool hasTrustZone() const { return HasTrustZone; }
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bool prefers32BitThumb() const { return Pref32BitThumb; }
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bool avoidCPSRPartialUpdate() const { return AvoidCPSRPartialUpdate; }
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bool avoidMOVsShifterOperand() const { return AvoidMOVsShifterOperand; }
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bool hasRAS() const { return HasRAS; }
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bool hasMPExtension() const { return HasMPExtension; }
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bool hasThumb2DSP() const { return Thumb2DSP; }
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bool useNaClTrap() const { return UseNaClTrap; }
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bool hasFP16() const { return HasFP16; }
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bool hasD16() const { return HasD16; }
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const Triple &getTargetTriple() const { return TargetTriple; }
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bool isTargetIOS() const { return TargetTriple.getOS() == Triple::IOS; }
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bool isTargetDarwin() const { return TargetTriple.isOSDarwin(); }
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bool isTargetNaCl() const { return TargetTriple.getOS() == Triple::NaCl; }
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bool isTargetLinux() const { return TargetTriple.getOS() == Triple::Linux; }
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bool isTargetELF() const { return !isTargetDarwin(); }
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// ARM EABI is the bare-metal EABI described in ARM ABI documents and
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// can be accessed via -target arm-none-eabi. This is NOT GNUEABI.
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// FIXME: Add a flag for bare-metal for that target and set Triple::EABI
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// even for GNUEABI, so we can make a distinction here and still conform to
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// the EABI on GNU (and Android) mode. This requires change in Clang, too.
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bool isTargetAEABI() const {
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return TargetTriple.getEnvironment() == Triple::EABI;
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}
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bool isAPCS_ABI() const { return TargetABI == ARM_ABI_APCS; }
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bool isAAPCS_ABI() const { return TargetABI == ARM_ABI_AAPCS; }
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bool isThumb() const { return InThumbMode; }
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bool isThumb1Only() const { return InThumbMode && !HasThumb2; }
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bool isThumb2() const { return InThumbMode && HasThumb2; }
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bool hasThumb2() const { return HasThumb2; }
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bool isMClass() const { return IsMClass; }
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bool isARClass() const { return !IsMClass; }
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bool isR9Reserved() const { return IsR9Reserved; }
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bool useMovt() const { return UseMovt && hasV6T2Ops(); }
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bool supportsTailCall() const { return SupportsTailCall; }
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bool allowsUnalignedMem() const { return AllowsUnalignedMem; }
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const std::string & getCPUString() const { return CPUString; }
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unsigned getMispredictionPenalty() const;
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/// enablePostRAScheduler - True at 'More' optimization.
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bool enablePostRAScheduler(CodeGenOpt::Level OptLevel,
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TargetSubtargetInfo::AntiDepBreakMode& Mode,
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RegClassVector& CriticalPathRCs) const;
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/// getInstrItins - Return the instruction itineraies based on subtarget
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/// selection.
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const InstrItineraryData &getInstrItineraryData() const { return InstrItins; }
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/// getStackAlignment - Returns the minimum alignment known to hold of the
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/// stack frame on entry to the function and which must be maintained by every
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/// function for this subtarget.
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unsigned getStackAlignment() const { return stackAlignment; }
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/// GVIsIndirectSymbol - true if the GV will be accessed via an indirect
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/// symbol.
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bool GVIsIndirectSymbol(const GlobalValue *GV, Reloc::Model RelocM) const;
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};
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} // End llvm namespace
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#endif // ARMSUBTARGET_H
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