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Subregister definitions are considered uses for the purpose of tracking liveness of the whole register. At the same time, when calculating live interval subranges, subregister defs should not be treated as uses. Differential Revision: https://reviews.llvm.org/D24190 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@280532 91177308-0d34-0410-b5e6-96231b3b80d8
283 lines
12 KiB
C++
283 lines
12 KiB
C++
//===---- LiveRangeCalc.h - Calculate live ranges ---------------*- 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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// The LiveRangeCalc class can be used to compute live ranges from scratch. It
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// caches information about values in the CFG to speed up repeated operations
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// on the same live range. The cache can be shared by non-overlapping live
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// ranges. SplitKit uses that when computing the live range of split products.
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//
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// A low-level interface is available to clients that know where a variable is
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// live, but don't know which value it has as every point. LiveRangeCalc will
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// propagate values down the dominator tree, and even insert PHI-defs where
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// needed. SplitKit uses this faster interface when possible.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LIB_CODEGEN_LIVERANGECALC_H
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#define LLVM_LIB_CODEGEN_LIVERANGECALC_H
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/BitVector.h"
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#include "llvm/ADT/IndexedMap.h"
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#include "llvm/CodeGen/LiveInterval.h"
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namespace llvm {
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/// Forward declarations for MachineDominators.h:
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class MachineDominatorTree;
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template <class NodeT> class DomTreeNodeBase;
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typedef DomTreeNodeBase<MachineBasicBlock> MachineDomTreeNode;
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class LiveRangeCalc {
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const MachineFunction *MF;
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const MachineRegisterInfo *MRI;
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SlotIndexes *Indexes;
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MachineDominatorTree *DomTree;
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VNInfo::Allocator *Alloc;
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/// LiveOutPair - A value and the block that defined it. The domtree node is
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/// redundant, it can be computed as: MDT[Indexes.getMBBFromIndex(VNI->def)].
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typedef std::pair<VNInfo*, MachineDomTreeNode*> LiveOutPair;
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/// LiveOutMap - Map basic blocks to the value leaving the block.
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typedef IndexedMap<LiveOutPair, MBB2NumberFunctor> LiveOutMap;
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/// Bit vector of active entries in LiveOut, also used as a visited set by
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/// findReachingDefs. One entry per basic block, indexed by block number.
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/// This is kept as a separate bit vector because it can be cleared quickly
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/// when switching live ranges.
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BitVector Seen;
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/// Map LiveRange to sets of blocks (represented by bit vectors) that
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/// in the live range are defined on entry and undefined on entry.
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/// A block is defined on entry if there is a path from at least one of
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/// the defs in the live range to the entry of the block, and conversely,
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/// a block is undefined on entry, if there is no such path (i.e. no
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/// definition reaches the entry of the block). A single LiveRangeCalc
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/// object is used to track live-out information for multiple registers
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/// in live range splitting (which is ok, since the live ranges of these
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/// registers do not overlap), but the defined/undefined information must
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/// be kept separate for each individual range.
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/// By convention, EntryInfoMap[&LR] = { Defined, Undefined }.
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std::map<LiveRange*,std::pair<BitVector,BitVector>> EntryInfoMap;
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/// Map each basic block where a live range is live out to the live-out value
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/// and its defining block.
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///
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/// For every basic block, MBB, one of these conditions shall be true:
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///
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/// 1. !Seen.count(MBB->getNumber())
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/// Blocks without a Seen bit are ignored.
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/// 2. LiveOut[MBB].second.getNode() == MBB
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/// The live-out value is defined in MBB.
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/// 3. forall P in preds(MBB): LiveOut[P] == LiveOut[MBB]
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/// The live-out value passses through MBB. All predecessors must carry
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/// the same value.
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///
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/// The domtree node may be null, it can be computed.
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///
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/// The map can be shared by multiple live ranges as long as no two are
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/// live-out of the same block.
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LiveOutMap Map;
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/// LiveInBlock - Information about a basic block where a live range is known
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/// to be live-in, but the value has not yet been determined.
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struct LiveInBlock {
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// The live range set that is live-in to this block. The algorithms can
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// handle multiple non-overlapping live ranges simultaneously.
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LiveRange &LR;
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// DomNode - Dominator tree node for the block.
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// Cleared when the final value has been determined and LI has been updated.
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MachineDomTreeNode *DomNode;
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// Position in block where the live-in range ends, or SlotIndex() if the
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// range passes through the block. When the final value has been
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// determined, the range from the block start to Kill will be added to LI.
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SlotIndex Kill;
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// Live-in value filled in by updateSSA once it is known.
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VNInfo *Value;
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LiveInBlock(LiveRange &LR, MachineDomTreeNode *node, SlotIndex kill)
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: LR(LR), DomNode(node), Kill(kill), Value(nullptr) {}
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};
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/// LiveIn - Work list of blocks where the live-in value has yet to be
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/// determined. This list is typically computed by findReachingDefs() and
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/// used as a work list by updateSSA(). The low-level interface may also be
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/// used to add entries directly.
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SmallVector<LiveInBlock, 16> LiveIn;
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/// Check if the entry to block @p MBB can be reached by any of the defs
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/// in @p LR. Return true if none of the defs reach the entry to @p MBB.
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bool isDefOnEntry(LiveRange &LR, ArrayRef<SlotIndex> Undefs,
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MachineBasicBlock &MBB, BitVector &DefOnEntry,
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BitVector &UndefOnEntry);
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/// Find the set of defs that can reach @p Kill. @p Kill must belong to
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/// @p UseMBB.
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///
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/// If exactly one def can reach @p UseMBB, and the def dominates @p Kill,
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/// all paths from the def to @p UseMBB are added to @p LR, and the function
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/// returns true.
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///
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/// If multiple values can reach @p UseMBB, the blocks that need @p LR to be
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/// live in are added to the LiveIn array, and the function returns false.
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///
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/// The array @p Undef provides the locations where the range @p LR becomes
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/// undefined by <def,read-undef> operands on other subranges. If @p Undef
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/// is non-empty and @p Kill is jointly dominated only by the entries of
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/// @p Undef, the function returns false.
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///
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/// PhysReg, when set, is used to verify live-in lists on basic blocks.
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bool findReachingDefs(LiveRange &LR, MachineBasicBlock &UseMBB,
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SlotIndex Kill, unsigned PhysReg,
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ArrayRef<SlotIndex> Undefs);
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/// updateSSA - Compute the values that will be live in to all requested
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/// blocks in LiveIn. Create PHI-def values as required to preserve SSA form.
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///
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/// Every live-in block must be jointly dominated by the added live-out
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/// blocks. No values are read from the live ranges.
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void updateSSA();
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/// Transfer information from the LiveIn vector to the live ranges and update
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/// the given @p LiveOuts.
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void updateFromLiveIns();
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/// Extend the live range of @p LR to reach all uses of Reg.
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///
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/// If @p LR is a main range, or if @p LI is null, then all uses must be
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/// jointly dominated by the definitions from @p LR. If @p LR is a subrange
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/// of the live interval @p LI, corresponding to lane mask @p LaneMask,
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/// all uses must be jointly dominated by the definitions from @p LR
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/// together with definitions of other lanes where @p LR becomes undefined
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/// (via <def,read-undef> operands).
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/// If @p LR is a main range, the @p LaneMask should be set to ~0.
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void extendToUses(LiveRange &LR, unsigned Reg, LaneBitmask LaneMask,
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LiveInterval *LI = nullptr);
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/// Reset Map and Seen fields.
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void resetLiveOutMap();
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public:
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LiveRangeCalc() : MF(nullptr), MRI(nullptr), Indexes(nullptr),
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DomTree(nullptr), Alloc(nullptr) {}
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//===--------------------------------------------------------------------===//
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// High-level interface.
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//===--------------------------------------------------------------------===//
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//
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// Calculate live ranges from scratch.
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//
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/// reset - Prepare caches for a new set of non-overlapping live ranges. The
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/// caches must be reset before attempting calculations with a live range
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/// that may overlap a previously computed live range, and before the first
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/// live range in a function. If live ranges are not known to be
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/// non-overlapping, call reset before each.
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void reset(const MachineFunction *MF,
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SlotIndexes*,
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MachineDominatorTree*,
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VNInfo::Allocator*);
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//===--------------------------------------------------------------------===//
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// Mid-level interface.
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//===--------------------------------------------------------------------===//
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//
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// Modify existing live ranges.
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//
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/// Extend the live range of @p LR to reach @p Use.
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///
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/// The existing values in @p LR must be live so they jointly dominate @p Use.
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/// If @p Use is not dominated by a single existing value, PHI-defs are
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/// inserted as required to preserve SSA form.
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///
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/// PhysReg, when set, is used to verify live-in lists on basic blocks.
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void extend(LiveRange &LR, SlotIndex Use, unsigned PhysReg,
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ArrayRef<SlotIndex> Undefs);
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/// createDeadDefs - Create a dead def in LI for every def operand of Reg.
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/// Each instruction defining Reg gets a new VNInfo with a corresponding
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/// minimal live range.
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void createDeadDefs(LiveRange &LR, unsigned Reg);
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/// Extend the live range of @p LR to reach all uses of Reg.
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///
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/// All uses must be jointly dominated by existing liveness. PHI-defs are
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/// inserted as needed to preserve SSA form.
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void extendToUses(LiveRange &LR, unsigned PhysReg) {
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extendToUses(LR, PhysReg, ~0u);
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}
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/// Calculates liveness for the register specified in live interval @p LI.
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/// Creates subregister live ranges as needed if subreg liveness tracking is
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/// enabled.
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void calculate(LiveInterval &LI, bool TrackSubRegs);
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/// For live interval \p LI with correct SubRanges construct matching
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/// information for the main live range. Expects the main live range to not
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/// have any segments or value numbers.
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void constructMainRangeFromSubranges(LiveInterval &LI);
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//===--------------------------------------------------------------------===//
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// Low-level interface.
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//===--------------------------------------------------------------------===//
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//
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// These functions can be used to compute live ranges where the live-in and
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// live-out blocks are already known, but the SSA value in each block is
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// unknown.
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//
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// After calling reset(), add known live-out values and known live-in blocks.
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// Then call calculateValues() to compute the actual value that is
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// live-in to each block, and add liveness to the live ranges.
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//
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/// setLiveOutValue - Indicate that VNI is live out from MBB. The
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/// calculateValues() function will not add liveness for MBB, the caller
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/// should take care of that.
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///
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/// VNI may be null only if MBB is a live-through block also passed to
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/// addLiveInBlock().
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void setLiveOutValue(MachineBasicBlock *MBB, VNInfo *VNI) {
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Seen.set(MBB->getNumber());
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Map[MBB] = LiveOutPair(VNI, nullptr);
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}
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/// addLiveInBlock - Add a block with an unknown live-in value. This
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/// function can only be called once per basic block. Once the live-in value
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/// has been determined, calculateValues() will add liveness to LI.
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///
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/// @param LR The live range that is live-in to the block.
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/// @param DomNode The domtree node for the block.
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/// @param Kill Index in block where LI is killed. If the value is
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/// live-through, set Kill = SLotIndex() and also call
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/// setLiveOutValue(MBB, 0).
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void addLiveInBlock(LiveRange &LR,
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MachineDomTreeNode *DomNode,
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SlotIndex Kill = SlotIndex()) {
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LiveIn.push_back(LiveInBlock(LR, DomNode, Kill));
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}
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/// calculateValues - Calculate the value that will be live-in to each block
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/// added with addLiveInBlock. Add PHI-def values as needed to preserve SSA
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/// form. Add liveness to all live-in blocks up to the Kill point, or the
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/// whole block for live-through blocks.
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///
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/// Every predecessor of a live-in block must have been given a value with
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/// setLiveOutValue, the value may be null for live-trough blocks.
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void calculateValues();
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};
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} // end namespace llvm
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#endif
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