/usr/include/llvm-3.5/llvm/CodeGen/MachineInstrBundle.h is in llvm-3.5-dev 1:3.5-4ubuntu2~trusty2.
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//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file provide utility functions to manipulate machine instruction
// bundles.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CODEGEN_MACHINEINSTRBUNDLE_H
#define LLVM_CODEGEN_MACHINEINSTRBUNDLE_H
#include "llvm/CodeGen/MachineBasicBlock.h"
namespace llvm {
/// finalizeBundle - Finalize a machine instruction bundle which includes
/// a sequence of instructions starting from FirstMI to LastMI (exclusive).
/// This routine adds a BUNDLE instruction to represent the bundle, it adds
/// IsInternalRead markers to MachineOperands which are defined inside the
/// bundle, and it copies externally visible defs and uses to the BUNDLE
/// instruction.
void finalizeBundle(MachineBasicBlock &MBB,
MachineBasicBlock::instr_iterator FirstMI,
MachineBasicBlock::instr_iterator LastMI);
/// finalizeBundle - Same functionality as the previous finalizeBundle except
/// the last instruction in the bundle is not provided as an input. This is
/// used in cases where bundles are pre-determined by marking instructions
/// with 'InsideBundle' marker. It returns the MBB instruction iterator that
/// points to the end of the bundle.
MachineBasicBlock::instr_iterator finalizeBundle(MachineBasicBlock &MBB,
MachineBasicBlock::instr_iterator FirstMI);
/// finalizeBundles - Finalize instruction bundles in the specified
/// MachineFunction. Return true if any bundles are finalized.
bool finalizeBundles(MachineFunction &MF);
/// getBundleStart - Returns the first instruction in the bundle containing MI.
///
inline MachineInstr *getBundleStart(MachineInstr *MI) {
MachineBasicBlock::instr_iterator I = MI;
while (I->isBundledWithPred())
--I;
return I;
}
inline const MachineInstr *getBundleStart(const MachineInstr *MI) {
MachineBasicBlock::const_instr_iterator I = MI;
while (I->isBundledWithPred())
--I;
return I;
}
/// Return an iterator pointing beyond the bundle containing MI.
inline MachineBasicBlock::instr_iterator
getBundleEnd(MachineInstr *MI) {
MachineBasicBlock::instr_iterator I = MI;
while (I->isBundledWithSucc())
++I;
return ++I;
}
/// Return an iterator pointing beyond the bundle containing MI.
inline MachineBasicBlock::const_instr_iterator
getBundleEnd(const MachineInstr *MI) {
MachineBasicBlock::const_instr_iterator I = MI;
while (I->isBundledWithSucc())
++I;
return ++I;
}
//===----------------------------------------------------------------------===//
// MachineOperand iterator
//
/// MachineOperandIteratorBase - Iterator that can visit all operands on a
/// MachineInstr, or all operands on a bundle of MachineInstrs. This class is
/// not intended to be used directly, use one of the sub-classes instead.
///
/// Intended use:
///
/// for (MIBundleOperands MIO(MI); MIO.isValid(); ++MIO) {
/// if (!MIO->isReg())
/// continue;
/// ...
/// }
///
class MachineOperandIteratorBase {
MachineBasicBlock::instr_iterator InstrI, InstrE;
MachineInstr::mop_iterator OpI, OpE;
// If the operands on InstrI are exhausted, advance InstrI to the next
// bundled instruction with operands.
void advance() {
while (OpI == OpE) {
// Don't advance off the basic block, or into a new bundle.
if (++InstrI == InstrE || !InstrI->isInsideBundle())
break;
OpI = InstrI->operands_begin();
OpE = InstrI->operands_end();
}
}
protected:
/// MachineOperandIteratorBase - Create an iterator that visits all operands
/// on MI, or all operands on every instruction in the bundle containing MI.
///
/// @param MI The instruction to examine.
/// @param WholeBundle When true, visit all operands on the entire bundle.
///
explicit MachineOperandIteratorBase(MachineInstr *MI, bool WholeBundle) {
if (WholeBundle) {
InstrI = getBundleStart(MI);
InstrE = MI->getParent()->instr_end();
} else {
InstrI = InstrE = MI;
++InstrE;
}
OpI = InstrI->operands_begin();
OpE = InstrI->operands_end();
if (WholeBundle)
advance();
}
MachineOperand &deref() const { return *OpI; }
public:
/// isValid - Returns true until all the operands have been visited.
bool isValid() const { return OpI != OpE; }
/// Preincrement. Move to the next operand.
void operator++() {
assert(isValid() && "Cannot advance MIOperands beyond the last operand");
++OpI;
advance();
}
/// getOperandNo - Returns the number of the current operand relative to its
/// instruction.
///
unsigned getOperandNo() const {
return OpI - InstrI->operands_begin();
}
/// VirtRegInfo - Information about a virtual register used by a set of operands.
///
struct VirtRegInfo {
/// Reads - One of the operands read the virtual register. This does not
/// include <undef> or <internal> use operands, see MO::readsReg().
bool Reads;
/// Writes - One of the operands writes the virtual register.
bool Writes;
/// Tied - Uses and defs must use the same register. This can be because of
/// a two-address constraint, or there may be a partial redefinition of a
/// sub-register.
bool Tied;
};
/// PhysRegInfo - Information about a physical register used by a set of
/// operands.
struct PhysRegInfo {
/// Clobbers - Reg or an overlapping register is defined, or a regmask
/// clobbers Reg.
bool Clobbers;
/// Defines - Reg or a super-register is defined.
bool Defines;
/// Reads - Read or a super-register is read.
bool Reads;
/// ReadsOverlap - Reg or an overlapping register is read.
bool ReadsOverlap;
/// DefinesDead - All defs of a Reg or a super-register are dead.
bool DefinesDead;
/// There is a kill of Reg or a super-register.
bool Kills;
};
/// analyzeVirtReg - Analyze how the current instruction or bundle uses a
/// virtual register. This function should not be called after operator++(),
/// it expects a fresh iterator.
///
/// @param Reg The virtual register to analyze.
/// @param Ops When set, this vector will receive an (MI, OpNum) entry for
/// each operand referring to Reg.
/// @returns A filled-in RegInfo struct.
VirtRegInfo analyzeVirtReg(unsigned Reg,
SmallVectorImpl<std::pair<MachineInstr*, unsigned> > *Ops = nullptr);
/// analyzePhysReg - Analyze how the current instruction or bundle uses a
/// physical register. This function should not be called after operator++(),
/// it expects a fresh iterator.
///
/// @param Reg The physical register to analyze.
/// @returns A filled-in PhysRegInfo struct.
PhysRegInfo analyzePhysReg(unsigned Reg, const TargetRegisterInfo *TRI);
};
/// MIOperands - Iterate over operands of a single instruction.
///
class MIOperands : public MachineOperandIteratorBase {
public:
MIOperands(MachineInstr *MI) : MachineOperandIteratorBase(MI, false) {}
MachineOperand &operator* () const { return deref(); }
MachineOperand *operator->() const { return &deref(); }
};
/// ConstMIOperands - Iterate over operands of a single const instruction.
///
class ConstMIOperands : public MachineOperandIteratorBase {
public:
ConstMIOperands(const MachineInstr *MI)
: MachineOperandIteratorBase(const_cast<MachineInstr*>(MI), false) {}
const MachineOperand &operator* () const { return deref(); }
const MachineOperand *operator->() const { return &deref(); }
};
/// MIBundleOperands - Iterate over all operands in a bundle of machine
/// instructions.
///
class MIBundleOperands : public MachineOperandIteratorBase {
public:
MIBundleOperands(MachineInstr *MI) : MachineOperandIteratorBase(MI, true) {}
MachineOperand &operator* () const { return deref(); }
MachineOperand *operator->() const { return &deref(); }
};
/// ConstMIBundleOperands - Iterate over all operands in a const bundle of
/// machine instructions.
///
class ConstMIBundleOperands : public MachineOperandIteratorBase {
public:
ConstMIBundleOperands(const MachineInstr *MI)
: MachineOperandIteratorBase(const_cast<MachineInstr*>(MI), true) {}
const MachineOperand &operator* () const { return deref(); }
const MachineOperand *operator->() const { return &deref(); }
};
} // End llvm namespace
#endif
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