#include "llvm/CodeGen/MachineBasicBlock.h"
#include "llvm/CodeGen/ValueTypes.h"
#include "llvm/ADT/ArrayRef.h"
-#include "llvm/ADT/DenseSet.h"
+#include "llvm/CallingConv.h"
#include <cassert>
#include <functional>
class TargetRegisterClass {
public:
- typedef const unsigned* iterator;
- typedef const unsigned* const_iterator;
-
- typedef const EVT* vt_iterator;
+ typedef const uint16_t* iterator;
+ typedef const uint16_t* const_iterator;
+ typedef const MVT::SimpleValueType* vt_iterator;
typedef const TargetRegisterClass* const * sc_iterator;
-private:
- unsigned ID;
- const char *Name;
+
+ // Instance variables filled by tablegen, do not use!
+ const MCRegisterClass *MC;
const vt_iterator VTs;
- const sc_iterator SubClasses;
+ const uint32_t *SubClassMask;
+ const uint16_t *SuperRegIndices;
const sc_iterator SuperClasses;
- const sc_iterator SubRegClasses;
- const sc_iterator SuperRegClasses;
- const unsigned RegSize, Alignment; // Size & Alignment of register in bytes
- const int CopyCost;
- const bool Allocatable;
- const iterator RegsBegin, RegsEnd;
- DenseSet<unsigned> RegSet;
-public:
- TargetRegisterClass(unsigned id,
- const char *name,
- const EVT *vts,
- const TargetRegisterClass * const *subcs,
- const TargetRegisterClass * const *supcs,
- const TargetRegisterClass * const *subregcs,
- const TargetRegisterClass * const *superregcs,
- unsigned RS, unsigned Al, int CC, bool Allocable,
- iterator RB, iterator RE)
- : ID(id), Name(name), VTs(vts), SubClasses(subcs), SuperClasses(supcs),
- SubRegClasses(subregcs), SuperRegClasses(superregcs),
- RegSize(RS), Alignment(Al), CopyCost(CC), Allocatable(Allocable),
- RegsBegin(RB), RegsEnd(RE) {
- for (iterator I = RegsBegin, E = RegsEnd; I != E; ++I)
- RegSet.insert(*I);
- }
- virtual ~TargetRegisterClass() {} // Allow subclasses
+ ArrayRef<uint16_t> (*OrderFunc)(const MachineFunction&);
/// getID() - Return the register class ID number.
///
- unsigned getID() const { return ID; }
+ unsigned getID() const { return MC->getID(); }
/// getName() - Return the register class name for debugging.
///
- const char *getName() const { return Name; }
+ const char *getName() const { return MC->getName(); }
/// begin/end - Return all of the registers in this class.
///
- iterator begin() const { return RegsBegin; }
- iterator end() const { return RegsEnd; }
+ iterator begin() const { return MC->begin(); }
+ iterator end() const { return MC->end(); }
/// getNumRegs - Return the number of registers in this class.
///
- unsigned getNumRegs() const { return (unsigned)(RegsEnd-RegsBegin); }
+ unsigned getNumRegs() const { return MC->getNumRegs(); }
/// getRegister - Return the specified register in the class.
///
unsigned getRegister(unsigned i) const {
- assert(i < getNumRegs() && "Register number out of range!");
- return RegsBegin[i];
+ return MC->getRegister(i);
}
/// contains - Return true if the specified register is included in this
/// register class. This does not include virtual registers.
bool contains(unsigned Reg) const {
- return RegSet.count(Reg);
+ return MC->contains(Reg);
}
/// contains - Return true if both registers are in this class.
bool contains(unsigned Reg1, unsigned Reg2) const {
- return contains(Reg1) && contains(Reg2);
+ return MC->contains(Reg1, Reg2);
}
+ /// getSize - Return the size of the register in bytes, which is also the size
+ /// of a stack slot allocated to hold a spilled copy of this register.
+ unsigned getSize() const { return MC->getSize(); }
+
+ /// getAlignment - Return the minimum required alignment for a register of
+ /// this class.
+ unsigned getAlignment() const { return MC->getAlignment(); }
+
+ /// getCopyCost - Return the cost of copying a value between two registers in
+ /// this class. A negative number means the register class is very expensive
+ /// to copy e.g. status flag register classes.
+ int getCopyCost() const { return MC->getCopyCost(); }
+
+ /// isAllocatable - Return true if this register class may be used to create
+ /// virtual registers.
+ bool isAllocatable() const { return MC->isAllocatable(); }
+
/// hasType - return true if this TargetRegisterClass has the ValueType vt.
///
bool hasType(EVT vt) const {
for(int i = 0; VTs[i] != MVT::Other; ++i)
- if (VTs[i] == vt)
+ if (EVT(VTs[i]) == vt)
return true;
return false;
}
return I;
}
- /// subregclasses_begin / subregclasses_end - Loop over all of
- /// the subreg register classes of this register class.
- sc_iterator subregclasses_begin() const {
- return SubRegClasses;
- }
-
- sc_iterator subregclasses_end() const {
- sc_iterator I = SubRegClasses;
- while (*I != NULL) ++I;
- return I;
- }
-
- /// getSubRegisterRegClass - Return the register class of subregisters with
- /// index SubIdx, or NULL if no such class exists.
- const TargetRegisterClass* getSubRegisterRegClass(unsigned SubIdx) const {
- assert(SubIdx>0 && "Invalid subregister index");
- return SubRegClasses[SubIdx-1];
- }
-
- /// superregclasses_begin / superregclasses_end - Loop over all of
- /// the superreg register classes of this register class.
- sc_iterator superregclasses_begin() const {
- return SuperRegClasses;
- }
-
- sc_iterator superregclasses_end() const {
- sc_iterator I = SuperRegClasses;
- while (*I != NULL) ++I;
- return I;
- }
-
/// hasSubClass - return true if the specified TargetRegisterClass
- /// is a proper subset of this TargetRegisterClass.
- bool hasSubClass(const TargetRegisterClass *cs) const {
- for (int i = 0; SubClasses[i] != NULL; ++i)
- if (SubClasses[i] == cs)
- return true;
- return false;
+ /// is a proper sub-class of this TargetRegisterClass.
+ bool hasSubClass(const TargetRegisterClass *RC) const {
+ return RC != this && hasSubClassEq(RC);
}
- /// hasSubClassEq - Returns true if RC is a subclass of or equal to this
+ /// hasSubClassEq - Returns true if RC is a sub-class of or equal to this
/// class.
bool hasSubClassEq(const TargetRegisterClass *RC) const {
- return RC == this || hasSubClass(RC);
- }
-
- /// subclasses_begin / subclasses_end - Loop over all of the classes
- /// that are proper subsets of this register class.
- sc_iterator subclasses_begin() const {
- return SubClasses;
- }
-
- sc_iterator subclasses_end() const {
- sc_iterator I = SubClasses;
- while (*I != NULL) ++I;
- return I;
+ unsigned ID = RC->getID();
+ return (SubClassMask[ID / 32] >> (ID % 32)) & 1;
}
/// hasSuperClass - return true if the specified TargetRegisterClass is a
- /// proper superset of this TargetRegisterClass.
- bool hasSuperClass(const TargetRegisterClass *cs) const {
- for (int i = 0; SuperClasses[i] != NULL; ++i)
- if (SuperClasses[i] == cs)
- return true;
- return false;
+ /// proper super-class of this TargetRegisterClass.
+ bool hasSuperClass(const TargetRegisterClass *RC) const {
+ return RC->hasSubClass(this);
}
- /// hasSuperClassEq - Returns true if RC is a superclass of or equal to this
+ /// hasSuperClassEq - Returns true if RC is a super-class of or equal to this
/// class.
bool hasSuperClassEq(const TargetRegisterClass *RC) const {
- return RC == this || hasSuperClass(RC);
+ return RC->hasSubClassEq(this);
}
- /// superclasses_begin / superclasses_end - Loop over all of the classes
- /// that are proper supersets of this register class.
- sc_iterator superclasses_begin() const {
- return SuperClasses;
+ /// getSubClassMask - Returns a bit vector of subclasses, including this one.
+ /// The vector is indexed by class IDs, see hasSubClassEq() above for how to
+ /// use it.
+ const uint32_t *getSubClassMask() const {
+ return SubClassMask;
}
- sc_iterator superclasses_end() const {
- sc_iterator I = SuperClasses;
- while (*I != NULL) ++I;
- return I;
+ /// getSuperRegIndices - Returns a 0-terminated list of sub-register indices
+ /// that projec some super-register class into this register class. The list
+ /// has an entry for each Idx such that:
+ ///
+ /// There exists SuperRC where:
+ /// For all Reg in SuperRC:
+ /// this->contains(Reg:Idx)
+ ///
+ const uint16_t *getSuperRegIndices() const {
+ return SuperRegIndices;
+ }
+
+ /// getSuperClasses - Returns a NULL terminated list of super-classes. The
+ /// classes are ordered by ID which is also a topological ordering from large
+ /// to small classes. The list does NOT include the current class.
+ sc_iterator getSuperClasses() const {
+ return SuperClasses;
}
/// isASubClass - return true if this TargetRegisterClass is a subset
///
/// By default, this method returns all registers in the class.
///
- virtual
- ArrayRef<unsigned> getRawAllocationOrder(const MachineFunction &MF) const {
- return ArrayRef<unsigned>(begin(), getNumRegs());
+ ArrayRef<uint16_t> getRawAllocationOrder(const MachineFunction &MF) const {
+ return OrderFunc ? OrderFunc(MF) : makeArrayRef(begin(), getNumRegs());
}
-
- /// getSize - Return the size of the register in bytes, which is also the size
- /// of a stack slot allocated to hold a spilled copy of this register.
- unsigned getSize() const { return RegSize; }
-
- /// getAlignment - Return the minimum required alignment for a register of
- /// this class.
- unsigned getAlignment() const { return Alignment; }
-
- /// getCopyCost - Return the cost of copying a value between two registers in
- /// this class. A negative number means the register class is very expensive
- /// to copy e.g. status flag register classes.
- int getCopyCost() const { return CopyCost; }
-
- /// isAllocatable - Return true if this register class may be used to create
- /// virtual registers.
- bool isAllocatable() const { return Allocatable; }
};
/// TargetRegisterInfoDesc - Extra information, not in MCRegisterDesc, about
bool inAllocatableClass; // Register belongs to an allocatable regclass.
};
+/// Each TargetRegisterClass has a per register weight, and weight
+/// limit which must be less than the limits of its pressure sets.
+struct RegClassWeight {
+ unsigned RegWeight;
+ unsigned WeightLimit;
+};
+
/// TargetRegisterInfo base class - We assume that the target defines a static
/// array of TargetRegisterDesc objects that represent all of the machine
/// registers that the target has. As such, we simply have to track a pointer
const TargetRegisterClass *
getMinimalPhysRegClass(unsigned Reg, EVT VT = MVT::Other) const;
+ /// getAllocatableClass - Return the maximal subclass of the given register
+ /// class that is alloctable, or NULL.
+ const TargetRegisterClass *
+ getAllocatableClass(const TargetRegisterClass *RC) const;
+
/// getAllocatableSet - Returns a bitset indexed by register number
/// indicating if a register is allocatable or not. If a register class is
/// specified, returns the subset for the class.
if (regA == regB) return true;
if (isVirtualRegister(regA) || isVirtualRegister(regB))
return false;
- for (const unsigned *regList = getOverlaps(regA)+1; *regList; ++regList) {
- if (*regList == regB) return true;
- }
+
+ // Regunits are numerically ordered. Find a common unit.
+ MCRegUnitIterator RUA(regA, this);
+ MCRegUnitIterator RUB(regB, this);
+ do {
+ if (*RUA == *RUB) return true;
+ if (*RUA < *RUB) ++RUA;
+ else ++RUB;
+ } while (RUA.isValid() && RUB.isValid());
return false;
}
/// isSuperRegister - Returns true if regB is a super-register of regA.
///
bool isSuperRegister(unsigned regA, unsigned regB) const {
- for (const unsigned *regList = getSuperRegisters(regA); *regList;++regList){
+ for (const uint16_t *regList = getSuperRegisters(regA); *regList;++regList){
if (*regList == regB) return true;
}
return false;
/// getCalleeSavedRegs - Return a null-terminated list of all of the
/// callee saved registers on this target. The register should be in the
/// order of desired callee-save stack frame offset. The first register is
- /// closed to the incoming stack pointer if stack grows down, and vice versa.
- virtual const unsigned* getCalleeSavedRegs(const MachineFunction *MF = 0)
+ /// closest to the incoming stack pointer if stack grows down, and vice versa.
+ ///
+ virtual const uint16_t* getCalleeSavedRegs(const MachineFunction *MF = 0)
const = 0;
+ /// getCallPreservedMask - Return a mask of call-preserved registers for the
+ /// given calling convention on the current sub-target. The mask should
+ /// include all call-preserved aliases. This is used by the register
+ /// allocator to determine which registers can be live across a call.
+ ///
+ /// The mask is an array containing (TRI::getNumRegs()+31)/32 entries.
+ /// A set bit indicates that all bits of the corresponding register are
+ /// preserved across the function call. The bit mask is expected to be
+ /// sub-register complete, i.e. if A is preserved, so are all its
+ /// sub-registers.
+ ///
+ /// Bits are numbered from the LSB, so the bit for physical register Reg can
+ /// be found as (Mask[Reg / 32] >> Reg % 32) & 1.
+ ///
+ /// A NULL pointer means that no register mask will be used, and call
+ /// instructions should use implicit-def operands to indicate call clobbered
+ /// registers.
+ ///
+ virtual const uint32_t *getCallPreservedMask(CallingConv::ID) const {
+ // The default mask clobbers everything. All targets should override.
+ return 0;
+ }
/// getReservedRegs - Returns a bitset indexed by physical register number
/// indicating if a register is a special register that has particular uses
/// used by register scavenger to determine what registers are free.
virtual BitVector getReservedRegs(const MachineFunction &MF) const = 0;
- /// getSubReg - Returns the physical register number of sub-register "Index"
- /// for physical register RegNo. Return zero if the sub-register does not
- /// exist.
- virtual unsigned getSubReg(unsigned RegNo, unsigned Index) const = 0;
-
- /// getSubRegIndex - For a given register pair, return the sub-register index
- /// if the second register is a sub-register of the first. Return zero
- /// otherwise.
- virtual unsigned getSubRegIndex(unsigned RegNo, unsigned SubRegNo) const = 0;
-
/// getMatchingSuperReg - Return a super-register of the specified register
/// Reg so its sub-register of index SubIdx is Reg.
unsigned getMatchingSuperReg(unsigned Reg, unsigned SubIdx,
const TargetRegisterClass *RC) const {
- for (const unsigned *SRs = getSuperRegisters(Reg); unsigned SR = *SRs;++SRs)
- if (Reg == getSubReg(SR, SubIdx) && RC->contains(SR))
- return SR;
- return 0;
+ return MCRegisterInfo::getMatchingSuperReg(Reg, SubIdx, RC->MC);
}
/// canCombineSubRegIndices - Given a register class and a list of
/// getMatchingSuperRegClass - Return a subclass of the specified register
/// class A so that each register in it has a sub-register of the
/// specified sub-register index which is in the specified register class B.
+ ///
+ /// TableGen will synthesize missing A sub-classes.
virtual const TargetRegisterClass *
getMatchingSuperRegClass(const TargetRegisterClass *A,
- const TargetRegisterClass *B, unsigned Idx) const {
- return 0;
+ const TargetRegisterClass *B, unsigned Idx) const;
+
+ /// getSubClassWithSubReg - Returns the largest legal sub-class of RC that
+ /// supports the sub-register index Idx.
+ /// If no such sub-class exists, return NULL.
+ /// If all registers in RC already have an Idx sub-register, return RC.
+ ///
+ /// TableGen generates a version of this function that is good enough in most
+ /// cases. Targets can override if they have constraints that TableGen
+ /// doesn't understand. For example, the x86 sub_8bit sub-register index is
+ /// supported by the full GR32 register class in 64-bit mode, but only by the
+ /// GR32_ABCD regiister class in 32-bit mode.
+ ///
+ /// TableGen will synthesize missing RC sub-classes.
+ virtual const TargetRegisterClass *
+ getSubClassWithSubReg(const TargetRegisterClass *RC, unsigned Idx) const {
+ assert(Idx == 0 && "Target has no sub-registers");
+ return RC;
}
/// composeSubRegIndices - Return the subregister index you get from composing
return b;
}
+ /// getCommonSuperRegClass - Find a common super-register class if it exists.
+ ///
+ /// Find a register class, SuperRC and two sub-register indices, PreA and
+ /// PreB, such that:
+ ///
+ /// 1. PreA + SubA == PreB + SubB (using composeSubRegIndices()), and
+ ///
+ /// 2. For all Reg in SuperRC: Reg:PreA in RCA and Reg:PreB in RCB, and
+ ///
+ /// 3. SuperRC->getSize() >= max(RCA->getSize(), RCB->getSize()).
+ ///
+ /// SuperRC will be chosen such that no super-class of SuperRC satisfies the
+ /// requirements, and there is no register class with a smaller spill size
+ /// that satisfies the requirements.
+ ///
+ /// SubA and SubB must not be 0. Use getMatchingSuperRegClass() instead.
+ ///
+ /// Either of the PreA and PreB sub-register indices may be returned as 0. In
+ /// that case, the returned register class will be a sub-class of the
+ /// corresponding argument register class.
+ ///
+ /// The function returns NULL if no register class can be found.
+ ///
+ const TargetRegisterClass*
+ getCommonSuperRegClass(const TargetRegisterClass *RCA, unsigned SubA,
+ const TargetRegisterClass *RCB, unsigned SubB,
+ unsigned &PreA, unsigned &PreB) const;
+
//===--------------------------------------------------------------------===//
// Register Class Information
//
return RegClassBegin[i];
}
+ /// getCommonSubClass - find the largest common subclass of A and B. Return
+ /// NULL if there is no common subclass.
+ const TargetRegisterClass *
+ getCommonSubClass(const TargetRegisterClass *A,
+ const TargetRegisterClass *B) const;
+
/// getPointerRegClass - Returns a TargetRegisterClass used for pointer
/// values. If a target supports multiple different pointer register classes,
/// kind specifies which one is indicated.
- virtual const TargetRegisterClass *getPointerRegClass(unsigned Kind=0) const {
- assert(0 && "Target didn't implement getPointerRegClass!");
- return 0; // Must return a value in order to compile with VS 2005
+ virtual const TargetRegisterClass *
+ getPointerRegClass(const MachineFunction &MF, unsigned Kind=0) const {
+ llvm_unreachable("Target didn't implement getPointerRegClass!");
}
/// getCrossCopyRegClass - Returns a legal register class to copy a register
/// getRegPressureLimit - Return the register pressure "high water mark" for
/// the specific register class. The scheduler is in high register pressure
/// mode (for the specific register class) if it goes over the limit.
+ ///
+ /// Note: this is the old register pressure model that relies on a manually
+ /// specified representative register class per value type.
virtual unsigned getRegPressureLimit(const TargetRegisterClass *RC,
MachineFunction &MF) const {
return 0;
}
+// Get the weight in units of pressure for this register class.
+ virtual const RegClassWeight &getRegClassWeight(
+ const TargetRegisterClass *RC) const = 0;
+
+ /// Get the number of dimensions of register pressure.
+ virtual unsigned getNumRegPressureSets() const = 0;
+
+ /// Get the name of this register unit pressure set.
+ virtual const char *getRegPressureSetName(unsigned Idx) const = 0;
+
+ /// Get the register unit pressure limit for this dimension.
+ /// This limit must be adjusted dynamically for reserved registers.
+ virtual unsigned getRegPressureSetLimit(unsigned Idx) const = 0;
+
+ /// Get the dimensions of register pressure impacted by this register class.
+ /// Returns a -1 terminated array of pressure set IDs.
+ virtual const int *getRegClassPressureSets(
+ const TargetRegisterClass *RC) const = 0;
+
/// getRawAllocationOrder - Returns the register allocation order for a
/// specified register class with a target-dependent hint. The returned list
/// may contain reserved registers that cannot be allocated.
///
/// Register allocators need only call this function to resolve
/// target-dependent hints, but it should work without hinting as well.
- virtual ArrayRef<unsigned>
+ virtual ArrayRef<uint16_t>
getRawAllocationOrder(const TargetRegisterClass *RC,
unsigned HintType, unsigned HintReg,
const MachineFunction &MF) const {
return false;
}
+ /// trackLivenessAfterRegAlloc - returns true if the live-ins should be tracked
+ /// after register allocation.
+ virtual bool trackLivenessAfterRegAlloc(const MachineFunction &MF) const {
+ return false;
+ }
+
/// needsStackRealignment - true if storage within the function requires the
/// stack pointer to be aligned more than the normal calling convention calls
/// for.
virtual void materializeFrameBaseRegister(MachineBasicBlock *MBB,
unsigned BaseReg, int FrameIdx,
int64_t Offset) const {
- assert(0 && "materializeFrameBaseRegister does not exist on this target");
+ llvm_unreachable("materializeFrameBaseRegister does not exist on this "
+ "target");
}
/// resolveFrameIndex - Resolve a frame index operand of an instruction
/// to reference the indicated base register plus offset instead.
virtual void resolveFrameIndex(MachineBasicBlock::iterator I,
unsigned BaseReg, int64_t Offset) const {
- assert(0 && "resolveFrameIndex does not exist on this target");
+ llvm_unreachable("resolveFrameIndex does not exist on this target");
}
/// isFrameOffsetLegal - Determine whether a given offset immediate is
/// encodable to resolve a frame index.
virtual bool isFrameOffsetLegal(const MachineInstr *MI,
int64_t Offset) const {
- assert(0 && "isFrameOffsetLegal does not exist on this target");
- return false; // Must return a value in order to compile with VS 2005
+ llvm_unreachable("isFrameOffsetLegal does not exist on this target");
}
/// eliminateCallFramePseudoInstr - This method is called during prolog/epilog
eliminateCallFramePseudoInstr(MachineFunction &MF,
MachineBasicBlock &MBB,
MachineBasicBlock::iterator MI) const {
- assert(0 && "Call Frame Pseudo Instructions do not exist on this target!");
+ llvm_unreachable("Call Frame Pseudo Instructions do not exist on this "
+ "target!");
}
//===--------------------------------------------------------------------===//
/// Debug information queries.
- /// getDwarfRegNum - Map a target register to an equivalent dwarf register
- /// number. Returns -1 if there is no equivalent value. The second
- /// parameter allows targets to use different numberings for EH info and
- /// debugging info.
- virtual int getDwarfRegNum(unsigned RegNum, bool isEH) const = 0;
-
- virtual int getLLVMRegNum(unsigned RegNum, bool isEH) const = 0;
-
/// getFrameRegister - This method should return the register used as a base
/// for values allocated in the current stack frame.
virtual unsigned getFrameRegister(const MachineFunction &MF) const = 0;
- /// getRARegister - This method should return the register where the return
- /// address can be found.
- virtual unsigned getRARegister() const = 0;
-
- /// getSEHRegNum - Map a target register to an equivalent SEH register
- /// number. Returns -1 if there is no equivalent value.
- virtual int getSEHRegNum(unsigned i) const {
- return i;
- }
-
/// getCompactUnwindRegNum - This function maps the register to the number for
/// compact unwind encoding. Return -1 if the register isn't valid.
virtual int getCompactUnwindRegNum(unsigned, bool) const {
};
+//===----------------------------------------------------------------------===//
+// SuperRegClassIterator
+//===----------------------------------------------------------------------===//
+//
+// Iterate over the possible super-registers for a given register class. The
+// iterator will visit a list of pairs (Idx, Mask) corresponding to the
+// possible classes of super-registers.
+//
+// Each bit mask will have at least one set bit, and each set bit in Mask
+// corresponds to a SuperRC such that:
+//
+// For all Reg in SuperRC: Reg:Idx is in RC.
+//
+// The iterator can include (O, RC->getSubClassMask()) as the first entry which
+// also satisfies the above requirement, assuming Reg:0 == Reg.
+//
+class SuperRegClassIterator {
+ const unsigned RCMaskWords;
+ unsigned SubReg;
+ const uint16_t *Idx;
+ const uint32_t *Mask;
+
+public:
+ /// Create a SuperRegClassIterator that visits all the super-register classes
+ /// of RC. When IncludeSelf is set, also include the (0, sub-classes) entry.
+ SuperRegClassIterator(const TargetRegisterClass *RC,
+ const TargetRegisterInfo *TRI,
+ bool IncludeSelf = false)
+ : RCMaskWords((TRI->getNumRegClasses() + 31) / 32),
+ SubReg(0),
+ Idx(RC->getSuperRegIndices()),
+ Mask(RC->getSubClassMask()) {
+ if (!IncludeSelf)
+ ++*this;
+ }
+
+ /// Returns true if this iterator is still pointing at a valid entry.
+ bool isValid() const { return Idx; }
+
+ /// Returns the current sub-register index.
+ unsigned getSubReg() const { return SubReg; }
+
+ /// Returns the bit mask if register classes that getSubReg() projects into
+ /// RC.
+ const uint32_t *getMask() const { return Mask; }
+
+ /// Advance iterator to the next entry.
+ void operator++() {
+ assert(isValid() && "Cannot move iterator past end.");
+ Mask += RCMaskWords;
+ SubReg = *Idx++;
+ if (!SubReg)
+ Idx = 0;
+ }
+};
+
// This is useful when building IndexedMaps keyed on virtual registers
struct VirtReg2IndexFunctor : public std::unary_function<unsigned, unsigned> {
unsigned operator()(unsigned Reg) const {
}
};
-/// getCommonSubClass - find the largest common subclass of A and B. Return NULL
-/// if there is no common subclass.
-const TargetRegisterClass *getCommonSubClass(const TargetRegisterClass *A,
- const TargetRegisterClass *B);
-
/// PrintReg - Helper class for printing registers on a raw_ostream.
/// Prints virtual and physical registers with or without a TRI instance.
///
projects / oota-llvm.git / blobdiff