+ /// handleMove - call this method to notify LiveIntervals that
+ /// instruction 'mi' has been moved within a basic block. This will update
+ /// the live intervals for all operands of mi. Moves between basic blocks
+ /// are not supported.
+ ///
+ /// \param UpdateFlags Update live intervals for nonallocatable physregs.
+ void handleMove(MachineInstr* MI, bool UpdateFlags = false);
+
+ /// moveIntoBundle - Update intervals for operands of MI so that they
+ /// begin/end on the SlotIndex for BundleStart.
+ ///
+ /// \param UpdateFlags Update live intervals for nonallocatable physregs.
+ ///
+ /// Requires MI and BundleStart to have SlotIndexes, and assumes
+ /// existing liveness is accurate. BundleStart should be the first
+ /// instruction in the Bundle.
+ void handleMoveIntoBundle(MachineInstr* MI, MachineInstr* BundleStart,
+ bool UpdateFlags = false);
+
+ // Register mask functions.
+ //
+ // Machine instructions may use a register mask operand to indicate that a
+ // large number of registers are clobbered by the instruction. This is
+ // typically used for calls.
+ //
+ // For compile time performance reasons, these clobbers are not recorded in
+ // the live intervals for individual physical registers. Instead,
+ // LiveIntervalAnalysis maintains a sorted list of instructions with
+ // register mask operands.
+
+ /// getRegMaskSlots - Returns a sorted array of slot indices of all
+ /// instructions with register mask operands.
+ ArrayRef<SlotIndex> getRegMaskSlots() const { return RegMaskSlots; }
+
+ /// getRegMaskSlotsInBlock - Returns a sorted array of slot indices of all
+ /// instructions with register mask operands in the basic block numbered
+ /// MBBNum.
+ ArrayRef<SlotIndex> getRegMaskSlotsInBlock(unsigned MBBNum) const {
+ std::pair<unsigned, unsigned> P = RegMaskBlocks[MBBNum];
+ return getRegMaskSlots().slice(P.first, P.second);
+ }
+
+ /// getRegMaskBits() - Returns an array of register mask pointers
+ /// corresponding to getRegMaskSlots().
+ ArrayRef<const uint32_t*> getRegMaskBits() const { return RegMaskBits; }
+
+ /// getRegMaskBitsInBlock - Returns an array of mask pointers corresponding
+ /// to getRegMaskSlotsInBlock(MBBNum).
+ ArrayRef<const uint32_t*> getRegMaskBitsInBlock(unsigned MBBNum) const {
+ std::pair<unsigned, unsigned> P = RegMaskBlocks[MBBNum];
+ return getRegMaskBits().slice(P.first, P.second);
+ }
+
+ /// checkRegMaskInterference - Test if LI is live across any register mask
+ /// instructions, and compute a bit mask of physical registers that are not
+ /// clobbered by any of them.
+ ///
+ /// Returns false if LI doesn't cross any register mask instructions. In
+ /// that case, the bit vector is not filled in.
+ bool checkRegMaskInterference(LiveInterval &LI,
+ BitVector &UsableRegs);
+
+ // Register unit functions.
+ //
+ // Fixed interference occurs when MachineInstrs use physregs directly
+ // instead of virtual registers. This typically happens when passing
+ // arguments to a function call, or when instructions require operands in
+ // fixed registers.
+ //
+ // Each physreg has one or more register units, see MCRegisterInfo. We
+ // track liveness per register unit to handle aliasing registers more
+ // efficiently.
+
+ /// getRegUnit - Return the live range for Unit.
+ /// It will be computed if it doesn't exist.
+ LiveInterval &getRegUnit(unsigned Unit) {
+ LiveInterval *LI = RegUnitIntervals[Unit];
+ if (!LI) {
+ // Compute missing ranges on demand.
+ RegUnitIntervals[Unit] = LI = new LiveInterval(Unit, HUGE_VALF);
+ computeRegUnitInterval(LI);
+ }
+ return *LI;
+ }
+
+ /// getCachedRegUnit - Return the live range for Unit if it has already
+ /// been computed, or NULL if it hasn't been computed yet.
+ LiveInterval *getCachedRegUnit(unsigned Unit) {
+ return RegUnitIntervals[Unit];
+ }
+
+ const LiveInterval *getCachedRegUnit(unsigned Unit) const {
+ return RegUnitIntervals[Unit];
+ }