1f842297dSMatthias Braun //===- LiveIntervals.cpp - Live Interval Analysis -------------------------===//
2f842297dSMatthias Braun //
32946cd70SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
42946cd70SChandler Carruth // See https://llvm.org/LICENSE.txt for license information.
52946cd70SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6f842297dSMatthias Braun //
7f842297dSMatthias Braun //===----------------------------------------------------------------------===//
8f842297dSMatthias Braun //
9f842297dSMatthias Braun /// \file This file implements the LiveInterval analysis pass which is used
10f842297dSMatthias Braun /// by the Linear Scan Register allocator. This pass linearizes the
11f842297dSMatthias Braun /// basic blocks of the function in DFS order and computes live intervals for
12f842297dSMatthias Braun /// each virtual and physical register.
13f842297dSMatthias Braun //
14f842297dSMatthias Braun //===----------------------------------------------------------------------===//
15f842297dSMatthias Braun
16f842297dSMatthias Braun #include "llvm/CodeGen/LiveIntervals.h"
17f842297dSMatthias Braun #include "llvm/ADT/ArrayRef.h"
18f842297dSMatthias Braun #include "llvm/ADT/DepthFirstIterator.h"
19f842297dSMatthias Braun #include "llvm/ADT/SmallPtrSet.h"
20f842297dSMatthias Braun #include "llvm/ADT/SmallVector.h"
21f842297dSMatthias Braun #include "llvm/ADT/iterator_range.h"
22f842297dSMatthias Braun #include "llvm/CodeGen/LiveInterval.h"
23ea11f472SMarcello Maggioni #include "llvm/CodeGen/LiveIntervalCalc.h"
24f842297dSMatthias Braun #include "llvm/CodeGen/LiveVariables.h"
25f842297dSMatthias Braun #include "llvm/CodeGen/MachineBasicBlock.h"
26f842297dSMatthias Braun #include "llvm/CodeGen/MachineBlockFrequencyInfo.h"
27f842297dSMatthias Braun #include "llvm/CodeGen/MachineDominators.h"
28f842297dSMatthias Braun #include "llvm/CodeGen/MachineFunction.h"
29f842297dSMatthias Braun #include "llvm/CodeGen/MachineInstr.h"
30f842297dSMatthias Braun #include "llvm/CodeGen/MachineInstrBundle.h"
31f842297dSMatthias Braun #include "llvm/CodeGen/MachineOperand.h"
32f842297dSMatthias Braun #include "llvm/CodeGen/MachineRegisterInfo.h"
33f842297dSMatthias Braun #include "llvm/CodeGen/Passes.h"
34f842297dSMatthias Braun #include "llvm/CodeGen/SlotIndexes.h"
35989f1c72Sserge-sans-paille #include "llvm/CodeGen/StackMaps.h"
36f842297dSMatthias Braun #include "llvm/CodeGen/TargetRegisterInfo.h"
37f842297dSMatthias Braun #include "llvm/CodeGen/TargetSubtargetInfo.h"
38f842297dSMatthias Braun #include "llvm/CodeGen/VirtRegMap.h"
39432a3883SNico Weber #include "llvm/Config/llvm-config.h"
4002265ed7SSerguei Katkov #include "llvm/IR/Statepoint.h"
41f842297dSMatthias Braun #include "llvm/MC/LaneBitmask.h"
42f842297dSMatthias Braun #include "llvm/MC/MCRegisterInfo.h"
43f842297dSMatthias Braun #include "llvm/Pass.h"
44f842297dSMatthias Braun #include "llvm/Support/CommandLine.h"
45f842297dSMatthias Braun #include "llvm/Support/Compiler.h"
46f842297dSMatthias Braun #include "llvm/Support/Debug.h"
47f842297dSMatthias Braun #include "llvm/Support/MathExtras.h"
48f842297dSMatthias Braun #include "llvm/Support/raw_ostream.h"
49f842297dSMatthias Braun #include <algorithm>
50f842297dSMatthias Braun #include <cassert>
51f842297dSMatthias Braun #include <cstdint>
52f842297dSMatthias Braun #include <iterator>
53f842297dSMatthias Braun #include <tuple>
54f842297dSMatthias Braun #include <utility>
55f842297dSMatthias Braun
56f842297dSMatthias Braun using namespace llvm;
57f842297dSMatthias Braun
58f842297dSMatthias Braun #define DEBUG_TYPE "regalloc"
59f842297dSMatthias Braun
60f842297dSMatthias Braun char LiveIntervals::ID = 0;
61f842297dSMatthias Braun char &llvm::LiveIntervalsID = LiveIntervals::ID;
62*8d0383ebSMatt Arsenault INITIALIZE_PASS_BEGIN(LiveIntervals, "liveintervals", "Live Interval Analysis",
63*8d0383ebSMatt Arsenault false, false)
64f842297dSMatthias Braun INITIALIZE_PASS_DEPENDENCY(MachineDominatorTree)
65f842297dSMatthias Braun INITIALIZE_PASS_DEPENDENCY(SlotIndexes)
66f842297dSMatthias Braun INITIALIZE_PASS_END(LiveIntervals, "liveintervals",
67f842297dSMatthias Braun "Live Interval Analysis", false, false)
68f842297dSMatthias Braun
69f842297dSMatthias Braun #ifndef NDEBUG
70f842297dSMatthias Braun static cl::opt<bool> EnablePrecomputePhysRegs(
71f842297dSMatthias Braun "precompute-phys-liveness", cl::Hidden,
72f842297dSMatthias Braun cl::desc("Eagerly compute live intervals for all physreg units."));
73f842297dSMatthias Braun #else
74f842297dSMatthias Braun static bool EnablePrecomputePhysRegs = false;
75f842297dSMatthias Braun #endif // NDEBUG
76f842297dSMatthias Braun
77f842297dSMatthias Braun namespace llvm {
78f842297dSMatthias Braun
79f842297dSMatthias Braun cl::opt<bool> UseSegmentSetForPhysRegs(
80f842297dSMatthias Braun "use-segment-set-for-physregs", cl::Hidden, cl::init(true),
81f842297dSMatthias Braun cl::desc(
82f842297dSMatthias Braun "Use segment set for the computation of the live ranges of physregs."));
83f842297dSMatthias Braun
84f842297dSMatthias Braun } // end namespace llvm
85f842297dSMatthias Braun
getAnalysisUsage(AnalysisUsage & AU) const86f842297dSMatthias Braun void LiveIntervals::getAnalysisUsage(AnalysisUsage &AU) const {
87f842297dSMatthias Braun AU.setPreservesCFG();
88f842297dSMatthias Braun AU.addPreserved<LiveVariables>();
89f842297dSMatthias Braun AU.addPreservedID(MachineLoopInfoID);
90f842297dSMatthias Braun AU.addRequiredTransitiveID(MachineDominatorsID);
91f842297dSMatthias Braun AU.addPreservedID(MachineDominatorsID);
92f842297dSMatthias Braun AU.addPreserved<SlotIndexes>();
93f842297dSMatthias Braun AU.addRequiredTransitive<SlotIndexes>();
94f842297dSMatthias Braun MachineFunctionPass::getAnalysisUsage(AU);
95f842297dSMatthias Braun }
96f842297dSMatthias Braun
LiveIntervals()97f842297dSMatthias Braun LiveIntervals::LiveIntervals() : MachineFunctionPass(ID) {
98f842297dSMatthias Braun initializeLiveIntervalsPass(*PassRegistry::getPassRegistry());
99f842297dSMatthias Braun }
100f842297dSMatthias Braun
~LiveIntervals()101ea11f472SMarcello Maggioni LiveIntervals::~LiveIntervals() { delete LICalc; }
102f842297dSMatthias Braun
releaseMemory()103f842297dSMatthias Braun void LiveIntervals::releaseMemory() {
104f842297dSMatthias Braun // Free the live intervals themselves.
105f842297dSMatthias Braun for (unsigned i = 0, e = VirtRegIntervals.size(); i != e; ++i)
1062bea69bfSDaniel Sanders delete VirtRegIntervals[Register::index2VirtReg(i)];
107f842297dSMatthias Braun VirtRegIntervals.clear();
108f842297dSMatthias Braun RegMaskSlots.clear();
109f842297dSMatthias Braun RegMaskBits.clear();
110f842297dSMatthias Braun RegMaskBlocks.clear();
111f842297dSMatthias Braun
112f842297dSMatthias Braun for (LiveRange *LR : RegUnitRanges)
113f842297dSMatthias Braun delete LR;
114f842297dSMatthias Braun RegUnitRanges.clear();
115f842297dSMatthias Braun
116f842297dSMatthias Braun // Release VNInfo memory regions, VNInfo objects don't need to be dtor'd.
117f842297dSMatthias Braun VNInfoAllocator.Reset();
118f842297dSMatthias Braun }
119f842297dSMatthias Braun
runOnMachineFunction(MachineFunction & fn)120f842297dSMatthias Braun bool LiveIntervals::runOnMachineFunction(MachineFunction &fn) {
121f842297dSMatthias Braun MF = &fn;
122f842297dSMatthias Braun MRI = &MF->getRegInfo();
123f842297dSMatthias Braun TRI = MF->getSubtarget().getRegisterInfo();
124f842297dSMatthias Braun TII = MF->getSubtarget().getInstrInfo();
125f842297dSMatthias Braun Indexes = &getAnalysis<SlotIndexes>();
126f842297dSMatthias Braun DomTree = &getAnalysis<MachineDominatorTree>();
127f842297dSMatthias Braun
128ea11f472SMarcello Maggioni if (!LICalc)
129ea11f472SMarcello Maggioni LICalc = new LiveIntervalCalc();
130f842297dSMatthias Braun
131f842297dSMatthias Braun // Allocate space for all virtual registers.
132f842297dSMatthias Braun VirtRegIntervals.resize(MRI->getNumVirtRegs());
133f842297dSMatthias Braun
134f842297dSMatthias Braun computeVirtRegs();
135f842297dSMatthias Braun computeRegMasks();
136f842297dSMatthias Braun computeLiveInRegUnits();
137f842297dSMatthias Braun
138f842297dSMatthias Braun if (EnablePrecomputePhysRegs) {
139f842297dSMatthias Braun // For stress testing, precompute live ranges of all physical register
140f842297dSMatthias Braun // units, including reserved registers.
141f842297dSMatthias Braun for (unsigned i = 0, e = TRI->getNumRegUnits(); i != e; ++i)
142f842297dSMatthias Braun getRegUnit(i);
143f842297dSMatthias Braun }
144d34e60caSNicola Zaghen LLVM_DEBUG(dump());
145f0092f9dSJay Foad return false;
146f842297dSMatthias Braun }
147f842297dSMatthias Braun
print(raw_ostream & OS,const Module *) const148f842297dSMatthias Braun void LiveIntervals::print(raw_ostream &OS, const Module* ) const {
149f842297dSMatthias Braun OS << "********** INTERVALS **********\n";
150f842297dSMatthias Braun
151f842297dSMatthias Braun // Dump the regunits.
152f842297dSMatthias Braun for (unsigned Unit = 0, UnitE = RegUnitRanges.size(); Unit != UnitE; ++Unit)
153f842297dSMatthias Braun if (LiveRange *LR = RegUnitRanges[Unit])
154f842297dSMatthias Braun OS << printRegUnit(Unit, TRI) << ' ' << *LR << '\n';
155f842297dSMatthias Braun
156f842297dSMatthias Braun // Dump the virtregs.
157f842297dSMatthias Braun for (unsigned i = 0, e = MRI->getNumVirtRegs(); i != e; ++i) {
158b68994bdSGaurav Jain Register Reg = Register::index2VirtReg(i);
159f842297dSMatthias Braun if (hasInterval(Reg))
160f842297dSMatthias Braun OS << getInterval(Reg) << '\n';
161f842297dSMatthias Braun }
162f842297dSMatthias Braun
163f842297dSMatthias Braun OS << "RegMasks:";
164f842297dSMatthias Braun for (SlotIndex Idx : RegMaskSlots)
165f842297dSMatthias Braun OS << ' ' << Idx;
166f842297dSMatthias Braun OS << '\n';
167f842297dSMatthias Braun
168f842297dSMatthias Braun printInstrs(OS);
169f842297dSMatthias Braun }
170f842297dSMatthias Braun
printInstrs(raw_ostream & OS) const171f842297dSMatthias Braun void LiveIntervals::printInstrs(raw_ostream &OS) const {
172f842297dSMatthias Braun OS << "********** MACHINEINSTRS **********\n";
173f842297dSMatthias Braun MF->print(OS, Indexes);
174f842297dSMatthias Braun }
175f842297dSMatthias Braun
176f842297dSMatthias Braun #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
dumpInstrs() const177f842297dSMatthias Braun LLVM_DUMP_METHOD void LiveIntervals::dumpInstrs() const {
178f842297dSMatthias Braun printInstrs(dbgs());
179f842297dSMatthias Braun }
180f842297dSMatthias Braun #endif
181f842297dSMatthias Braun
createInterval(Register reg)182b68994bdSGaurav Jain LiveInterval *LiveIntervals::createInterval(Register reg) {
1832bea69bfSDaniel Sanders float Weight = Register::isPhysicalRegister(reg) ? huge_valf : 0.0F;
184f842297dSMatthias Braun return new LiveInterval(reg, Weight);
185f842297dSMatthias Braun }
186f842297dSMatthias Braun
187f842297dSMatthias Braun /// Compute the live interval of a virtual register, based on defs and uses.
computeVirtRegInterval(LiveInterval & LI)18843144ffaSKrzysztof Parzyszek bool LiveIntervals::computeVirtRegInterval(LiveInterval &LI) {
189ea11f472SMarcello Maggioni assert(LICalc && "LICalc not initialized.");
190f842297dSMatthias Braun assert(LI.empty() && "Should only compute empty intervals.");
191ea11f472SMarcello Maggioni LICalc->reset(MF, getSlotIndexes(), DomTree, &getVNInfoAllocator());
1926e85c3d5SMircea Trofin LICalc->calculate(LI, MRI->shouldTrackSubRegLiveness(LI.reg()));
19343144ffaSKrzysztof Parzyszek return computeDeadValues(LI, nullptr);
194f842297dSMatthias Braun }
195f842297dSMatthias Braun
computeVirtRegs()196f842297dSMatthias Braun void LiveIntervals::computeVirtRegs() {
197f842297dSMatthias Braun for (unsigned i = 0, e = MRI->getNumVirtRegs(); i != e; ++i) {
198b68994bdSGaurav Jain Register Reg = Register::index2VirtReg(i);
199f842297dSMatthias Braun if (MRI->reg_nodbg_empty(Reg))
200f842297dSMatthias Braun continue;
20143144ffaSKrzysztof Parzyszek LiveInterval &LI = createEmptyInterval(Reg);
20243144ffaSKrzysztof Parzyszek bool NeedSplit = computeVirtRegInterval(LI);
20343144ffaSKrzysztof Parzyszek if (NeedSplit) {
20443144ffaSKrzysztof Parzyszek SmallVector<LiveInterval*, 8> SplitLIs;
20543144ffaSKrzysztof Parzyszek splitSeparateComponents(LI, SplitLIs);
20643144ffaSKrzysztof Parzyszek }
207f842297dSMatthias Braun }
208f842297dSMatthias Braun }
209f842297dSMatthias Braun
computeRegMasks()210f842297dSMatthias Braun void LiveIntervals::computeRegMasks() {
211f842297dSMatthias Braun RegMaskBlocks.resize(MF->getNumBlockIDs());
212f842297dSMatthias Braun
213f842297dSMatthias Braun // Find all instructions with regmask operands.
214f842297dSMatthias Braun for (const MachineBasicBlock &MBB : *MF) {
215f842297dSMatthias Braun std::pair<unsigned, unsigned> &RMB = RegMaskBlocks[MBB.getNumber()];
216f842297dSMatthias Braun RMB.first = RegMaskSlots.size();
217f842297dSMatthias Braun
218f842297dSMatthias Braun // Some block starts, such as EH funclets, create masks.
219f842297dSMatthias Braun if (const uint32_t *Mask = MBB.getBeginClobberMask(TRI)) {
220f842297dSMatthias Braun RegMaskSlots.push_back(Indexes->getMBBStartIdx(&MBB));
221f842297dSMatthias Braun RegMaskBits.push_back(Mask);
222f842297dSMatthias Braun }
223f842297dSMatthias Braun
224f13beac5SSander de Smalen // Unwinders may clobber additional registers.
225f13beac5SSander de Smalen // FIXME: This functionality can possibly be merged into
226f13beac5SSander de Smalen // MachineBasicBlock::getBeginClobberMask().
227f13beac5SSander de Smalen if (MBB.isEHPad())
228f13beac5SSander de Smalen if (auto *Mask = TRI->getCustomEHPadPreservedMask(*MBB.getParent())) {
229f13beac5SSander de Smalen RegMaskSlots.push_back(Indexes->getMBBStartIdx(&MBB));
230f13beac5SSander de Smalen RegMaskBits.push_back(Mask);
231f13beac5SSander de Smalen }
232f13beac5SSander de Smalen
233f842297dSMatthias Braun for (const MachineInstr &MI : MBB) {
234f842297dSMatthias Braun for (const MachineOperand &MO : MI.operands()) {
235f842297dSMatthias Braun if (!MO.isRegMask())
236f842297dSMatthias Braun continue;
237f842297dSMatthias Braun RegMaskSlots.push_back(Indexes->getInstructionIndex(MI).getRegSlot());
238f842297dSMatthias Braun RegMaskBits.push_back(MO.getRegMask());
239f842297dSMatthias Braun }
240f842297dSMatthias Braun }
241f842297dSMatthias Braun
242f842297dSMatthias Braun // Some block ends, such as funclet returns, create masks. Put the mask on
243f842297dSMatthias Braun // the last instruction of the block, because MBB slot index intervals are
244f842297dSMatthias Braun // half-open.
245f842297dSMatthias Braun if (const uint32_t *Mask = MBB.getEndClobberMask(TRI)) {
246f842297dSMatthias Braun assert(!MBB.empty() && "empty return block?");
247f842297dSMatthias Braun RegMaskSlots.push_back(
248f842297dSMatthias Braun Indexes->getInstructionIndex(MBB.back()).getRegSlot());
249f842297dSMatthias Braun RegMaskBits.push_back(Mask);
250f842297dSMatthias Braun }
251f842297dSMatthias Braun
252f842297dSMatthias Braun // Compute the number of register mask instructions in this block.
253f842297dSMatthias Braun RMB.second = RegMaskSlots.size() - RMB.first;
254f842297dSMatthias Braun }
255f842297dSMatthias Braun }
256f842297dSMatthias Braun
257f842297dSMatthias Braun //===----------------------------------------------------------------------===//
258f842297dSMatthias Braun // Register Unit Liveness
259f842297dSMatthias Braun //===----------------------------------------------------------------------===//
260f842297dSMatthias Braun //
261f842297dSMatthias Braun // Fixed interference typically comes from ABI boundaries: Function arguments
262f842297dSMatthias Braun // and return values are passed in fixed registers, and so are exception
263f842297dSMatthias Braun // pointers entering landing pads. Certain instructions require values to be
264f842297dSMatthias Braun // present in specific registers. That is also represented through fixed
265f842297dSMatthias Braun // interference.
266f842297dSMatthias Braun //
267f842297dSMatthias Braun
268f842297dSMatthias Braun /// Compute the live range of a register unit, based on the uses and defs of
269f842297dSMatthias Braun /// aliasing registers. The range should be empty, or contain only dead
270f842297dSMatthias Braun /// phi-defs from ABI blocks.
computeRegUnitRange(LiveRange & LR,unsigned Unit)271f842297dSMatthias Braun void LiveIntervals::computeRegUnitRange(LiveRange &LR, unsigned Unit) {
272ea11f472SMarcello Maggioni assert(LICalc && "LICalc not initialized.");
273ea11f472SMarcello Maggioni LICalc->reset(MF, getSlotIndexes(), DomTree, &getVNInfoAllocator());
274f842297dSMatthias Braun
275f842297dSMatthias Braun // The physregs aliasing Unit are the roots and their super-registers.
276f842297dSMatthias Braun // Create all values as dead defs before extending to uses. Note that roots
277f842297dSMatthias Braun // may share super-registers. That's OK because createDeadDefs() is
278f842297dSMatthias Braun // idempotent. It is very rare for a register unit to have multiple roots, so
279f842297dSMatthias Braun // uniquing super-registers is probably not worthwhile.
280f842297dSMatthias Braun bool IsReserved = false;
281f842297dSMatthias Braun for (MCRegUnitRootIterator Root(Unit, TRI); Root.isValid(); ++Root) {
282f842297dSMatthias Braun bool IsRootReserved = true;
283f842297dSMatthias Braun for (MCSuperRegIterator Super(*Root, TRI, /*IncludeSelf=*/true);
284f842297dSMatthias Braun Super.isValid(); ++Super) {
285b68994bdSGaurav Jain MCRegister Reg = *Super;
286f842297dSMatthias Braun if (!MRI->reg_empty(Reg))
287ea11f472SMarcello Maggioni LICalc->createDeadDefs(LR, Reg);
288f842297dSMatthias Braun // A register unit is considered reserved if all its roots and all their
289f842297dSMatthias Braun // super registers are reserved.
290f842297dSMatthias Braun if (!MRI->isReserved(Reg))
291f842297dSMatthias Braun IsRootReserved = false;
292f842297dSMatthias Braun }
293f842297dSMatthias Braun IsReserved |= IsRootReserved;
294f842297dSMatthias Braun }
295f842297dSMatthias Braun assert(IsReserved == MRI->isReservedRegUnit(Unit) &&
296f842297dSMatthias Braun "reserved computation mismatch");
297f842297dSMatthias Braun
298f842297dSMatthias Braun // Now extend LR to reach all uses.
299f842297dSMatthias Braun // Ignore uses of reserved registers. We only track defs of those.
300f842297dSMatthias Braun if (!IsReserved) {
301f842297dSMatthias Braun for (MCRegUnitRootIterator Root(Unit, TRI); Root.isValid(); ++Root) {
302f842297dSMatthias Braun for (MCSuperRegIterator Super(*Root, TRI, /*IncludeSelf=*/true);
303f842297dSMatthias Braun Super.isValid(); ++Super) {
304b68994bdSGaurav Jain MCRegister Reg = *Super;
305f842297dSMatthias Braun if (!MRI->reg_empty(Reg))
306ea11f472SMarcello Maggioni LICalc->extendToUses(LR, Reg);
307f842297dSMatthias Braun }
308f842297dSMatthias Braun }
309f842297dSMatthias Braun }
310f842297dSMatthias Braun
311f842297dSMatthias Braun // Flush the segment set to the segment vector.
312f842297dSMatthias Braun if (UseSegmentSetForPhysRegs)
313f842297dSMatthias Braun LR.flushSegmentSet();
314f842297dSMatthias Braun }
315f842297dSMatthias Braun
316f842297dSMatthias Braun /// Precompute the live ranges of any register units that are live-in to an ABI
317f842297dSMatthias Braun /// block somewhere. Register values can appear without a corresponding def when
318f842297dSMatthias Braun /// entering the entry block or a landing pad.
computeLiveInRegUnits()319f842297dSMatthias Braun void LiveIntervals::computeLiveInRegUnits() {
320f842297dSMatthias Braun RegUnitRanges.resize(TRI->getNumRegUnits());
321d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Computing live-in reg-units in ABI blocks.\n");
322f842297dSMatthias Braun
323f842297dSMatthias Braun // Keep track of the live range sets allocated.
324f842297dSMatthias Braun SmallVector<unsigned, 8> NewRanges;
325f842297dSMatthias Braun
326f842297dSMatthias Braun // Check all basic blocks for live-ins.
327f842297dSMatthias Braun for (const MachineBasicBlock &MBB : *MF) {
328f842297dSMatthias Braun // We only care about ABI blocks: Entry + landing pads.
329f842297dSMatthias Braun if ((&MBB != &MF->front() && !MBB.isEHPad()) || MBB.livein_empty())
330f842297dSMatthias Braun continue;
331f842297dSMatthias Braun
332f842297dSMatthias Braun // Create phi-defs at Begin for all live-in registers.
333f842297dSMatthias Braun SlotIndex Begin = Indexes->getMBBStartIdx(&MBB);
334d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << Begin << "\t" << printMBBReference(MBB));
335f842297dSMatthias Braun for (const auto &LI : MBB.liveins()) {
336f842297dSMatthias Braun for (MCRegUnitIterator Units(LI.PhysReg, TRI); Units.isValid(); ++Units) {
337f842297dSMatthias Braun unsigned Unit = *Units;
338f842297dSMatthias Braun LiveRange *LR = RegUnitRanges[Unit];
339f842297dSMatthias Braun if (!LR) {
340f842297dSMatthias Braun // Use segment set to speed-up initial computation of the live range.
341f842297dSMatthias Braun LR = RegUnitRanges[Unit] = new LiveRange(UseSegmentSetForPhysRegs);
342f842297dSMatthias Braun NewRanges.push_back(Unit);
343f842297dSMatthias Braun }
344f842297dSMatthias Braun VNInfo *VNI = LR->createDeadDef(Begin, getVNInfoAllocator());
345f842297dSMatthias Braun (void)VNI;
346d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << ' ' << printRegUnit(Unit, TRI) << '#' << VNI->id);
347f842297dSMatthias Braun }
348f842297dSMatthias Braun }
349d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << '\n');
350f842297dSMatthias Braun }
351d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Created " << NewRanges.size() << " new intervals.\n");
352f842297dSMatthias Braun
353f842297dSMatthias Braun // Compute the 'normal' part of the ranges.
354f842297dSMatthias Braun for (unsigned Unit : NewRanges)
355f842297dSMatthias Braun computeRegUnitRange(*RegUnitRanges[Unit], Unit);
356f842297dSMatthias Braun }
357f842297dSMatthias Braun
createSegmentsForValues(LiveRange & LR,iterator_range<LiveInterval::vni_iterator> VNIs)358f842297dSMatthias Braun static void createSegmentsForValues(LiveRange &LR,
359f842297dSMatthias Braun iterator_range<LiveInterval::vni_iterator> VNIs) {
360f842297dSMatthias Braun for (VNInfo *VNI : VNIs) {
361f842297dSMatthias Braun if (VNI->isUnused())
362f842297dSMatthias Braun continue;
363f842297dSMatthias Braun SlotIndex Def = VNI->def;
364f842297dSMatthias Braun LR.addSegment(LiveRange::Segment(Def, Def.getDeadSlot(), VNI));
365f842297dSMatthias Braun }
366f842297dSMatthias Braun }
367f842297dSMatthias Braun
extendSegmentsToUses(LiveRange & Segments,ShrinkToUsesWorkList & WorkList,Register Reg,LaneBitmask LaneMask)36870f02702SKrzysztof Parzyszek void LiveIntervals::extendSegmentsToUses(LiveRange &Segments,
369f842297dSMatthias Braun ShrinkToUsesWorkList &WorkList,
370b68994bdSGaurav Jain Register Reg, LaneBitmask LaneMask) {
371f842297dSMatthias Braun // Keep track of the PHIs that are in use.
372f842297dSMatthias Braun SmallPtrSet<VNInfo*, 8> UsedPHIs;
373f842297dSMatthias Braun // Blocks that have already been added to WorkList as live-out.
374f842297dSMatthias Braun SmallPtrSet<const MachineBasicBlock*, 16> LiveOut;
375f842297dSMatthias Braun
37670f02702SKrzysztof Parzyszek auto getSubRange = [](const LiveInterval &I, LaneBitmask M)
37770f02702SKrzysztof Parzyszek -> const LiveRange& {
37870f02702SKrzysztof Parzyszek if (M.none())
37970f02702SKrzysztof Parzyszek return I;
38070f02702SKrzysztof Parzyszek for (const LiveInterval::SubRange &SR : I.subranges()) {
38170f02702SKrzysztof Parzyszek if ((SR.LaneMask & M).any()) {
38270f02702SKrzysztof Parzyszek assert(SR.LaneMask == M && "Expecting lane masks to match exactly");
38370f02702SKrzysztof Parzyszek return SR;
38470f02702SKrzysztof Parzyszek }
38570f02702SKrzysztof Parzyszek }
38670f02702SKrzysztof Parzyszek llvm_unreachable("Subrange for mask not found");
38770f02702SKrzysztof Parzyszek };
38870f02702SKrzysztof Parzyszek
38970f02702SKrzysztof Parzyszek const LiveInterval &LI = getInterval(Reg);
39070f02702SKrzysztof Parzyszek const LiveRange &OldRange = getSubRange(LI, LaneMask);
39170f02702SKrzysztof Parzyszek
392f842297dSMatthias Braun // Extend intervals to reach all uses in WorkList.
393f842297dSMatthias Braun while (!WorkList.empty()) {
394f842297dSMatthias Braun SlotIndex Idx = WorkList.back().first;
395f842297dSMatthias Braun VNInfo *VNI = WorkList.back().second;
396f842297dSMatthias Braun WorkList.pop_back();
39770f02702SKrzysztof Parzyszek const MachineBasicBlock *MBB = Indexes->getMBBFromIndex(Idx.getPrevSlot());
39870f02702SKrzysztof Parzyszek SlotIndex BlockStart = Indexes->getMBBStartIdx(MBB);
399f842297dSMatthias Braun
400f842297dSMatthias Braun // Extend the live range for VNI to be live at Idx.
40170f02702SKrzysztof Parzyszek if (VNInfo *ExtVNI = Segments.extendInBlock(BlockStart, Idx)) {
402f842297dSMatthias Braun assert(ExtVNI == VNI && "Unexpected existing value number");
403f842297dSMatthias Braun (void)ExtVNI;
404f842297dSMatthias Braun // Is this a PHIDef we haven't seen before?
405f842297dSMatthias Braun if (!VNI->isPHIDef() || VNI->def != BlockStart ||
406f842297dSMatthias Braun !UsedPHIs.insert(VNI).second)
407f842297dSMatthias Braun continue;
408f842297dSMatthias Braun // The PHI is live, make sure the predecessors are live-out.
409f842297dSMatthias Braun for (const MachineBasicBlock *Pred : MBB->predecessors()) {
410f842297dSMatthias Braun if (!LiveOut.insert(Pred).second)
411f842297dSMatthias Braun continue;
41270f02702SKrzysztof Parzyszek SlotIndex Stop = Indexes->getMBBEndIdx(Pred);
413f842297dSMatthias Braun // A predecessor is not required to have a live-out value for a PHI.
414f842297dSMatthias Braun if (VNInfo *PVNI = OldRange.getVNInfoBefore(Stop))
415f842297dSMatthias Braun WorkList.push_back(std::make_pair(Stop, PVNI));
416f842297dSMatthias Braun }
417f842297dSMatthias Braun continue;
418f842297dSMatthias Braun }
419f842297dSMatthias Braun
420f842297dSMatthias Braun // VNI is live-in to MBB.
421d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << " live-in at " << BlockStart << '\n');
42270f02702SKrzysztof Parzyszek Segments.addSegment(LiveRange::Segment(BlockStart, Idx, VNI));
423f842297dSMatthias Braun
424f842297dSMatthias Braun // Make sure VNI is live-out from the predecessors.
425f842297dSMatthias Braun for (const MachineBasicBlock *Pred : MBB->predecessors()) {
426f842297dSMatthias Braun if (!LiveOut.insert(Pred).second)
427f842297dSMatthias Braun continue;
42870f02702SKrzysztof Parzyszek SlotIndex Stop = Indexes->getMBBEndIdx(Pred);
42970f02702SKrzysztof Parzyszek if (VNInfo *OldVNI = OldRange.getVNInfoBefore(Stop)) {
43070f02702SKrzysztof Parzyszek assert(OldVNI == VNI && "Wrong value out of predecessor");
4319f199ebeSKrzysztof Parzyszek (void)OldVNI;
432f842297dSMatthias Braun WorkList.push_back(std::make_pair(Stop, VNI));
43370f02702SKrzysztof Parzyszek } else {
43470f02702SKrzysztof Parzyszek #ifndef NDEBUG
43570f02702SKrzysztof Parzyszek // There was no old VNI. Verify that Stop is jointly dominated
43670f02702SKrzysztof Parzyszek // by <undef>s for this live range.
43770f02702SKrzysztof Parzyszek assert(LaneMask.any() &&
43870f02702SKrzysztof Parzyszek "Missing value out of predecessor for main range");
43970f02702SKrzysztof Parzyszek SmallVector<SlotIndex,8> Undefs;
44070f02702SKrzysztof Parzyszek LI.computeSubRangeUndefs(Undefs, LaneMask, *MRI, *Indexes);
44170f02702SKrzysztof Parzyszek assert(LiveRangeCalc::isJointlyDominated(Pred, Undefs, *Indexes) &&
44270f02702SKrzysztof Parzyszek "Missing value out of predecessor for subrange");
44370f02702SKrzysztof Parzyszek #endif
44470f02702SKrzysztof Parzyszek }
445f842297dSMatthias Braun }
446f842297dSMatthias Braun }
447f842297dSMatthias Braun }
448f842297dSMatthias Braun
shrinkToUses(LiveInterval * li,SmallVectorImpl<MachineInstr * > * dead)449f842297dSMatthias Braun bool LiveIntervals::shrinkToUses(LiveInterval *li,
450f842297dSMatthias Braun SmallVectorImpl<MachineInstr*> *dead) {
451d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Shrink: " << *li << '\n');
4526e85c3d5SMircea Trofin assert(Register::isVirtualRegister(li->reg()) &&
4532bea69bfSDaniel Sanders "Can only shrink virtual registers");
454f842297dSMatthias Braun
455f842297dSMatthias Braun // Shrink subregister live ranges.
456f842297dSMatthias Braun bool NeedsCleanup = false;
457f842297dSMatthias Braun for (LiveInterval::SubRange &S : li->subranges()) {
4586e85c3d5SMircea Trofin shrinkToUses(S, li->reg());
459f842297dSMatthias Braun if (S.empty())
460f842297dSMatthias Braun NeedsCleanup = true;
461f842297dSMatthias Braun }
462f842297dSMatthias Braun if (NeedsCleanup)
463f842297dSMatthias Braun li->removeEmptySubRanges();
464f842297dSMatthias Braun
465f842297dSMatthias Braun // Find all the values used, including PHI kills.
466f842297dSMatthias Braun ShrinkToUsesWorkList WorkList;
467f842297dSMatthias Braun
4686e85c3d5SMircea Trofin // Visit all instructions reading li->reg().
469b68994bdSGaurav Jain Register Reg = li->reg();
470f842297dSMatthias Braun for (MachineInstr &UseMI : MRI->reg_instructions(Reg)) {
47163cc251eSJeremy Morse if (UseMI.isDebugInstr() || !UseMI.readsVirtualRegister(Reg))
472f842297dSMatthias Braun continue;
473f842297dSMatthias Braun SlotIndex Idx = getInstructionIndex(UseMI).getRegSlot();
474f842297dSMatthias Braun LiveQueryResult LRQ = li->Query(Idx);
475f842297dSMatthias Braun VNInfo *VNI = LRQ.valueIn();
476f842297dSMatthias Braun if (!VNI) {
477f842297dSMatthias Braun // This shouldn't happen: readsVirtualRegister returns true, but there is
478f842297dSMatthias Braun // no live value. It is likely caused by a target getting <undef> flags
479f842297dSMatthias Braun // wrong.
480d34e60caSNicola Zaghen LLVM_DEBUG(
481d34e60caSNicola Zaghen dbgs() << Idx << '\t' << UseMI
482f842297dSMatthias Braun << "Warning: Instr claims to read non-existent value in "
483f842297dSMatthias Braun << *li << '\n');
484f842297dSMatthias Braun continue;
485f842297dSMatthias Braun }
486f842297dSMatthias Braun // Special case: An early-clobber tied operand reads and writes the
487f842297dSMatthias Braun // register one slot early.
488f842297dSMatthias Braun if (VNInfo *DefVNI = LRQ.valueDefined())
489f842297dSMatthias Braun Idx = DefVNI->def;
490f842297dSMatthias Braun
491f842297dSMatthias Braun WorkList.push_back(std::make_pair(Idx, VNI));
492f842297dSMatthias Braun }
493f842297dSMatthias Braun
494f842297dSMatthias Braun // Create new live ranges with only minimal live segments per def.
495f842297dSMatthias Braun LiveRange NewLR;
49655e2df72SPhilip Reames createSegmentsForValues(NewLR, li->vnis());
49770f02702SKrzysztof Parzyszek extendSegmentsToUses(NewLR, WorkList, Reg, LaneBitmask::getNone());
498f842297dSMatthias Braun
499f842297dSMatthias Braun // Move the trimmed segments back.
500f842297dSMatthias Braun li->segments.swap(NewLR.segments);
501f842297dSMatthias Braun
502f842297dSMatthias Braun // Handle dead values.
503f842297dSMatthias Braun bool CanSeparate = computeDeadValues(*li, dead);
504d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Shrunk: " << *li << '\n');
505f842297dSMatthias Braun return CanSeparate;
506f842297dSMatthias Braun }
507f842297dSMatthias Braun
computeDeadValues(LiveInterval & LI,SmallVectorImpl<MachineInstr * > * dead)508f842297dSMatthias Braun bool LiveIntervals::computeDeadValues(LiveInterval &LI,
509f842297dSMatthias Braun SmallVectorImpl<MachineInstr*> *dead) {
510f842297dSMatthias Braun bool MayHaveSplitComponents = false;
51143144ffaSKrzysztof Parzyszek bool HaveDeadDef = false;
51243144ffaSKrzysztof Parzyszek
513f842297dSMatthias Braun for (VNInfo *VNI : LI.valnos) {
514f842297dSMatthias Braun if (VNI->isUnused())
515f842297dSMatthias Braun continue;
516f842297dSMatthias Braun SlotIndex Def = VNI->def;
517f842297dSMatthias Braun LiveRange::iterator I = LI.FindSegmentContaining(Def);
518f842297dSMatthias Braun assert(I != LI.end() && "Missing segment for VNI");
519f842297dSMatthias Braun
520f842297dSMatthias Braun // Is the register live before? Otherwise we may have to add a read-undef
521f842297dSMatthias Braun // flag for subregister defs.
522b68994bdSGaurav Jain Register VReg = LI.reg();
523f842297dSMatthias Braun if (MRI->shouldTrackSubRegLiveness(VReg)) {
524f842297dSMatthias Braun if ((I == LI.begin() || std::prev(I)->end < Def) && !VNI->isPHIDef()) {
525f842297dSMatthias Braun MachineInstr *MI = getInstructionFromIndex(Def);
526f842297dSMatthias Braun MI->setRegisterDefReadUndef(VReg);
527f842297dSMatthias Braun }
528f842297dSMatthias Braun }
529f842297dSMatthias Braun
530f842297dSMatthias Braun if (I->end != Def.getDeadSlot())
531f842297dSMatthias Braun continue;
532f842297dSMatthias Braun if (VNI->isPHIDef()) {
533f842297dSMatthias Braun // This is a dead PHI. Remove it.
534f842297dSMatthias Braun VNI->markUnused();
535f842297dSMatthias Braun LI.removeSegment(I);
536d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Dead PHI at " << Def << " may separate interval\n");
537f842297dSMatthias Braun MayHaveSplitComponents = true;
538f842297dSMatthias Braun } else {
539f842297dSMatthias Braun // This is a dead def. Make sure the instruction knows.
540f842297dSMatthias Braun MachineInstr *MI = getInstructionFromIndex(Def);
541f842297dSMatthias Braun assert(MI && "No instruction defining live value");
5426e85c3d5SMircea Trofin MI->addRegisterDead(LI.reg(), TRI);
54343144ffaSKrzysztof Parzyszek if (HaveDeadDef)
54443144ffaSKrzysztof Parzyszek MayHaveSplitComponents = true;
54543144ffaSKrzysztof Parzyszek HaveDeadDef = true;
54643144ffaSKrzysztof Parzyszek
547f842297dSMatthias Braun if (dead && MI->allDefsAreDead()) {
548d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "All defs dead: " << Def << '\t' << *MI);
549f842297dSMatthias Braun dead->push_back(MI);
550f842297dSMatthias Braun }
551f842297dSMatthias Braun }
552f842297dSMatthias Braun }
553f842297dSMatthias Braun return MayHaveSplitComponents;
554f842297dSMatthias Braun }
555f842297dSMatthias Braun
shrinkToUses(LiveInterval::SubRange & SR,Register Reg)556b68994bdSGaurav Jain void LiveIntervals::shrinkToUses(LiveInterval::SubRange &SR, Register Reg) {
557d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Shrink: " << SR << '\n');
5582bea69bfSDaniel Sanders assert(Register::isVirtualRegister(Reg) &&
5592bea69bfSDaniel Sanders "Can only shrink virtual registers");
560f842297dSMatthias Braun // Find all the values used, including PHI kills.
561f842297dSMatthias Braun ShrinkToUsesWorkList WorkList;
562f842297dSMatthias Braun
563f842297dSMatthias Braun // Visit all instructions reading Reg.
564f842297dSMatthias Braun SlotIndex LastIdx;
565f842297dSMatthias Braun for (MachineOperand &MO : MRI->use_nodbg_operands(Reg)) {
566f842297dSMatthias Braun // Skip "undef" uses.
567f842297dSMatthias Braun if (!MO.readsReg())
568f842297dSMatthias Braun continue;
569f842297dSMatthias Braun // Maybe the operand is for a subregister we don't care about.
570f842297dSMatthias Braun unsigned SubReg = MO.getSubReg();
571f842297dSMatthias Braun if (SubReg != 0) {
572f842297dSMatthias Braun LaneBitmask LaneMask = TRI->getSubRegIndexLaneMask(SubReg);
573f842297dSMatthias Braun if ((LaneMask & SR.LaneMask).none())
574f842297dSMatthias Braun continue;
575f842297dSMatthias Braun }
576f842297dSMatthias Braun // We only need to visit each instruction once.
577f842297dSMatthias Braun MachineInstr *UseMI = MO.getParent();
578f842297dSMatthias Braun SlotIndex Idx = getInstructionIndex(*UseMI).getRegSlot();
579f842297dSMatthias Braun if (Idx == LastIdx)
580f842297dSMatthias Braun continue;
581f842297dSMatthias Braun LastIdx = Idx;
582f842297dSMatthias Braun
583f842297dSMatthias Braun LiveQueryResult LRQ = SR.Query(Idx);
584f842297dSMatthias Braun VNInfo *VNI = LRQ.valueIn();
585f842297dSMatthias Braun // For Subranges it is possible that only undef values are left in that
586f842297dSMatthias Braun // part of the subregister, so there is no real liverange at the use
587f842297dSMatthias Braun if (!VNI)
588f842297dSMatthias Braun continue;
589f842297dSMatthias Braun
590f842297dSMatthias Braun // Special case: An early-clobber tied operand reads and writes the
591f842297dSMatthias Braun // register one slot early.
592f842297dSMatthias Braun if (VNInfo *DefVNI = LRQ.valueDefined())
593f842297dSMatthias Braun Idx = DefVNI->def;
594f842297dSMatthias Braun
595f842297dSMatthias Braun WorkList.push_back(std::make_pair(Idx, VNI));
596f842297dSMatthias Braun }
597f842297dSMatthias Braun
598f842297dSMatthias Braun // Create a new live ranges with only minimal live segments per def.
599f842297dSMatthias Braun LiveRange NewLR;
60055e2df72SPhilip Reames createSegmentsForValues(NewLR, SR.vnis());
60170f02702SKrzysztof Parzyszek extendSegmentsToUses(NewLR, WorkList, Reg, SR.LaneMask);
602f842297dSMatthias Braun
603f842297dSMatthias Braun // Move the trimmed ranges back.
604f842297dSMatthias Braun SR.segments.swap(NewLR.segments);
605f842297dSMatthias Braun
606f842297dSMatthias Braun // Remove dead PHI value numbers
607f842297dSMatthias Braun for (VNInfo *VNI : SR.valnos) {
608f842297dSMatthias Braun if (VNI->isUnused())
609f842297dSMatthias Braun continue;
610f842297dSMatthias Braun const LiveRange::Segment *Segment = SR.getSegmentContaining(VNI->def);
611f842297dSMatthias Braun assert(Segment != nullptr && "Missing segment for VNI");
612f842297dSMatthias Braun if (Segment->end != VNI->def.getDeadSlot())
613f842297dSMatthias Braun continue;
614f842297dSMatthias Braun if (VNI->isPHIDef()) {
615f842297dSMatthias Braun // This is a dead PHI. Remove it.
616d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Dead PHI at " << VNI->def
617d34e60caSNicola Zaghen << " may separate interval\n");
618f842297dSMatthias Braun VNI->markUnused();
619f842297dSMatthias Braun SR.removeSegment(*Segment);
620f842297dSMatthias Braun }
621f842297dSMatthias Braun }
622f842297dSMatthias Braun
623d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "Shrunk: " << SR << '\n');
624f842297dSMatthias Braun }
625f842297dSMatthias Braun
extendToIndices(LiveRange & LR,ArrayRef<SlotIndex> Indices,ArrayRef<SlotIndex> Undefs)626f842297dSMatthias Braun void LiveIntervals::extendToIndices(LiveRange &LR,
627f842297dSMatthias Braun ArrayRef<SlotIndex> Indices,
628f842297dSMatthias Braun ArrayRef<SlotIndex> Undefs) {
629ea11f472SMarcello Maggioni assert(LICalc && "LICalc not initialized.");
630ea11f472SMarcello Maggioni LICalc->reset(MF, getSlotIndexes(), DomTree, &getVNInfoAllocator());
631f842297dSMatthias Braun for (SlotIndex Idx : Indices)
632ea11f472SMarcello Maggioni LICalc->extend(LR, Idx, /*PhysReg=*/0, Undefs);
633f842297dSMatthias Braun }
634f842297dSMatthias Braun
pruneValue(LiveRange & LR,SlotIndex Kill,SmallVectorImpl<SlotIndex> * EndPoints)635f842297dSMatthias Braun void LiveIntervals::pruneValue(LiveRange &LR, SlotIndex Kill,
636f842297dSMatthias Braun SmallVectorImpl<SlotIndex> *EndPoints) {
637f842297dSMatthias Braun LiveQueryResult LRQ = LR.Query(Kill);
638f842297dSMatthias Braun VNInfo *VNI = LRQ.valueOutOrDead();
639f842297dSMatthias Braun if (!VNI)
640f842297dSMatthias Braun return;
641f842297dSMatthias Braun
642f842297dSMatthias Braun MachineBasicBlock *KillMBB = Indexes->getMBBFromIndex(Kill);
643f842297dSMatthias Braun SlotIndex MBBEnd = Indexes->getMBBEndIdx(KillMBB);
644f842297dSMatthias Braun
645f842297dSMatthias Braun // If VNI isn't live out from KillMBB, the value is trivially pruned.
646f842297dSMatthias Braun if (LRQ.endPoint() < MBBEnd) {
647f842297dSMatthias Braun LR.removeSegment(Kill, LRQ.endPoint());
648f842297dSMatthias Braun if (EndPoints) EndPoints->push_back(LRQ.endPoint());
649f842297dSMatthias Braun return;
650f842297dSMatthias Braun }
651f842297dSMatthias Braun
652f842297dSMatthias Braun // VNI is live out of KillMBB.
653f842297dSMatthias Braun LR.removeSegment(Kill, MBBEnd);
654f842297dSMatthias Braun if (EndPoints) EndPoints->push_back(MBBEnd);
655f842297dSMatthias Braun
656f842297dSMatthias Braun // Find all blocks that are reachable from KillMBB without leaving VNI's live
657f842297dSMatthias Braun // range. It is possible that KillMBB itself is reachable, so start a DFS
658f842297dSMatthias Braun // from each successor.
659f842297dSMatthias Braun using VisitedTy = df_iterator_default_set<MachineBasicBlock*,9>;
660f842297dSMatthias Braun VisitedTy Visited;
661f842297dSMatthias Braun for (MachineBasicBlock *Succ : KillMBB->successors()) {
662f842297dSMatthias Braun for (df_ext_iterator<MachineBasicBlock*, VisitedTy>
663f842297dSMatthias Braun I = df_ext_begin(Succ, Visited), E = df_ext_end(Succ, Visited);
664f842297dSMatthias Braun I != E;) {
665f842297dSMatthias Braun MachineBasicBlock *MBB = *I;
666f842297dSMatthias Braun
667f842297dSMatthias Braun // Check if VNI is live in to MBB.
668f842297dSMatthias Braun SlotIndex MBBStart, MBBEnd;
669f842297dSMatthias Braun std::tie(MBBStart, MBBEnd) = Indexes->getMBBRange(MBB);
670f842297dSMatthias Braun LiveQueryResult LRQ = LR.Query(MBBStart);
671f842297dSMatthias Braun if (LRQ.valueIn() != VNI) {
672f842297dSMatthias Braun // This block isn't part of the VNI segment. Prune the search.
673f842297dSMatthias Braun I.skipChildren();
674f842297dSMatthias Braun continue;
675f842297dSMatthias Braun }
676f842297dSMatthias Braun
677f842297dSMatthias Braun // Prune the search if VNI is killed in MBB.
678f842297dSMatthias Braun if (LRQ.endPoint() < MBBEnd) {
679f842297dSMatthias Braun LR.removeSegment(MBBStart, LRQ.endPoint());
680f842297dSMatthias Braun if (EndPoints) EndPoints->push_back(LRQ.endPoint());
681f842297dSMatthias Braun I.skipChildren();
682f842297dSMatthias Braun continue;
683f842297dSMatthias Braun }
684f842297dSMatthias Braun
685f842297dSMatthias Braun // VNI is live through MBB.
686f842297dSMatthias Braun LR.removeSegment(MBBStart, MBBEnd);
687f842297dSMatthias Braun if (EndPoints) EndPoints->push_back(MBBEnd);
688f842297dSMatthias Braun ++I;
689f842297dSMatthias Braun }
690f842297dSMatthias Braun }
691f842297dSMatthias Braun }
692f842297dSMatthias Braun
693f842297dSMatthias Braun //===----------------------------------------------------------------------===//
694f842297dSMatthias Braun // Register allocator hooks.
695f842297dSMatthias Braun //
696f842297dSMatthias Braun
addKillFlags(const VirtRegMap * VRM)697f842297dSMatthias Braun void LiveIntervals::addKillFlags(const VirtRegMap *VRM) {
698f842297dSMatthias Braun // Keep track of regunit ranges.
699f842297dSMatthias Braun SmallVector<std::pair<const LiveRange*, LiveRange::const_iterator>, 8> RU;
700f842297dSMatthias Braun
701f842297dSMatthias Braun for (unsigned i = 0, e = MRI->getNumVirtRegs(); i != e; ++i) {
702b68994bdSGaurav Jain Register Reg = Register::index2VirtReg(i);
703f842297dSMatthias Braun if (MRI->reg_nodbg_empty(Reg))
704f842297dSMatthias Braun continue;
705f842297dSMatthias Braun const LiveInterval &LI = getInterval(Reg);
706f842297dSMatthias Braun if (LI.empty())
707f842297dSMatthias Braun continue;
708f842297dSMatthias Braun
709eebe841aSMatt Arsenault // Target may have not allocated this yet.
710eebe841aSMatt Arsenault Register PhysReg = VRM->getPhys(Reg);
711eebe841aSMatt Arsenault if (!PhysReg)
712eebe841aSMatt Arsenault continue;
713eebe841aSMatt Arsenault
714f842297dSMatthias Braun // Find the regunit intervals for the assigned register. They may overlap
715f842297dSMatthias Braun // the virtual register live range, cancelling any kills.
716f842297dSMatthias Braun RU.clear();
717eebe841aSMatt Arsenault for (MCRegUnitIterator Unit(PhysReg, TRI); Unit.isValid();
718f842297dSMatthias Braun ++Unit) {
719f842297dSMatthias Braun const LiveRange &RURange = getRegUnit(*Unit);
720f842297dSMatthias Braun if (RURange.empty())
721f842297dSMatthias Braun continue;
722f842297dSMatthias Braun RU.push_back(std::make_pair(&RURange, RURange.find(LI.begin()->end)));
723f842297dSMatthias Braun }
724f842297dSMatthias Braun // Every instruction that kills Reg corresponds to a segment range end
725f842297dSMatthias Braun // point.
726f842297dSMatthias Braun for (LiveInterval::const_iterator RI = LI.begin(), RE = LI.end(); RI != RE;
727f842297dSMatthias Braun ++RI) {
728f842297dSMatthias Braun // A block index indicates an MBB edge.
729f842297dSMatthias Braun if (RI->end.isBlock())
730f842297dSMatthias Braun continue;
731f842297dSMatthias Braun MachineInstr *MI = getInstructionFromIndex(RI->end);
732f842297dSMatthias Braun if (!MI)
733f842297dSMatthias Braun continue;
734f842297dSMatthias Braun
735f842297dSMatthias Braun // Check if any of the regunits are live beyond the end of RI. That could
736f842297dSMatthias Braun // happen when a physreg is defined as a copy of a virtreg:
737f842297dSMatthias Braun //
738f842297dSMatthias Braun // %eax = COPY %5
739f842297dSMatthias Braun // FOO %5 <--- MI, cancel kill because %eax is live.
740f842297dSMatthias Braun // BAR killed %eax
741f842297dSMatthias Braun //
742f842297dSMatthias Braun // There should be no kill flag on FOO when %5 is rewritten as %eax.
743f842297dSMatthias Braun for (auto &RUP : RU) {
744f842297dSMatthias Braun const LiveRange &RURange = *RUP.first;
745f842297dSMatthias Braun LiveRange::const_iterator &I = RUP.second;
746f842297dSMatthias Braun if (I == RURange.end())
747f842297dSMatthias Braun continue;
748f842297dSMatthias Braun I = RURange.advanceTo(I, RI->end);
749f842297dSMatthias Braun if (I == RURange.end() || I->start >= RI->end)
750f842297dSMatthias Braun continue;
751f842297dSMatthias Braun // I is overlapping RI.
752f842297dSMatthias Braun goto CancelKill;
753f842297dSMatthias Braun }
754f842297dSMatthias Braun
755f842297dSMatthias Braun if (MRI->subRegLivenessEnabled()) {
756f842297dSMatthias Braun // When reading a partial undefined value we must not add a kill flag.
757f842297dSMatthias Braun // The regalloc might have used the undef lane for something else.
758f842297dSMatthias Braun // Example:
759f842297dSMatthias Braun // %1 = ... ; R32: %1
760f842297dSMatthias Braun // %2:high16 = ... ; R64: %2
761f842297dSMatthias Braun // = read killed %2 ; R64: %2
762f842297dSMatthias Braun // = read %1 ; R32: %1
763f842297dSMatthias Braun // The <kill> flag is correct for %2, but the register allocator may
764f842297dSMatthias Braun // assign R0L to %1, and R0 to %2 because the low 32bits of R0
765f842297dSMatthias Braun // are actually never written by %2. After assignment the <kill>
766f842297dSMatthias Braun // flag at the read instruction is invalid.
767f842297dSMatthias Braun LaneBitmask DefinedLanesMask;
76854c0f520SBaptiste Saleil if (LI.hasSubRanges()) {
769f842297dSMatthias Braun // Compute a mask of lanes that are defined.
770f842297dSMatthias Braun DefinedLanesMask = LaneBitmask::getNone();
77154c0f520SBaptiste Saleil for (const LiveInterval::SubRange &SR : LI.subranges())
77254c0f520SBaptiste Saleil for (const LiveRange::Segment &Segment : SR.segments) {
77354c0f520SBaptiste Saleil if (Segment.start >= RI->end)
77454c0f520SBaptiste Saleil break;
77554c0f520SBaptiste Saleil if (Segment.end == RI->end) {
776f842297dSMatthias Braun DefinedLanesMask |= SR.LaneMask;
77754c0f520SBaptiste Saleil break;
77854c0f520SBaptiste Saleil }
779f842297dSMatthias Braun }
780f842297dSMatthias Braun } else
781f842297dSMatthias Braun DefinedLanesMask = LaneBitmask::getAll();
782f842297dSMatthias Braun
783f842297dSMatthias Braun bool IsFullWrite = false;
784f842297dSMatthias Braun for (const MachineOperand &MO : MI->operands()) {
785f842297dSMatthias Braun if (!MO.isReg() || MO.getReg() != Reg)
786f842297dSMatthias Braun continue;
787f842297dSMatthias Braun if (MO.isUse()) {
788f842297dSMatthias Braun // Reading any undefined lanes?
78954c0f520SBaptiste Saleil unsigned SubReg = MO.getSubReg();
79054c0f520SBaptiste Saleil LaneBitmask UseMask = SubReg ? TRI->getSubRegIndexLaneMask(SubReg)
79154c0f520SBaptiste Saleil : MRI->getMaxLaneMaskForVReg(Reg);
792f842297dSMatthias Braun if ((UseMask & ~DefinedLanesMask).any())
793f842297dSMatthias Braun goto CancelKill;
794f842297dSMatthias Braun } else if (MO.getSubReg() == 0) {
795f842297dSMatthias Braun // Writing to the full register?
796f842297dSMatthias Braun assert(MO.isDef());
797f842297dSMatthias Braun IsFullWrite = true;
798f842297dSMatthias Braun }
799f842297dSMatthias Braun }
800f842297dSMatthias Braun
801f842297dSMatthias Braun // If an instruction writes to a subregister, a new segment starts in
802f842297dSMatthias Braun // the LiveInterval. But as this is only overriding part of the register
803f842297dSMatthias Braun // adding kill-flags is not correct here after registers have been
804f842297dSMatthias Braun // assigned.
805f842297dSMatthias Braun if (!IsFullWrite) {
806f842297dSMatthias Braun // Next segment has to be adjacent in the subregister write case.
807f842297dSMatthias Braun LiveRange::const_iterator N = std::next(RI);
808f842297dSMatthias Braun if (N != LI.end() && N->start == RI->end)
809f842297dSMatthias Braun goto CancelKill;
810f842297dSMatthias Braun }
811f842297dSMatthias Braun }
812f842297dSMatthias Braun
813f842297dSMatthias Braun MI->addRegisterKilled(Reg, nullptr);
814f842297dSMatthias Braun continue;
815f842297dSMatthias Braun CancelKill:
816f842297dSMatthias Braun MI->clearRegisterKills(Reg, nullptr);
817f842297dSMatthias Braun }
818f842297dSMatthias Braun }
819f842297dSMatthias Braun }
820f842297dSMatthias Braun
821f842297dSMatthias Braun MachineBasicBlock*
intervalIsInOneMBB(const LiveInterval & LI) const822f842297dSMatthias Braun LiveIntervals::intervalIsInOneMBB(const LiveInterval &LI) const {
82385974582Swangpc assert(!LI.empty() && "LiveInterval is empty.");
82485974582Swangpc
825f842297dSMatthias Braun // A local live range must be fully contained inside the block, meaning it is
826f842297dSMatthias Braun // defined and killed at instructions, not at block boundaries. It is not
827bcadfee2SHiroshi Inoue // live in or out of any block.
828f842297dSMatthias Braun //
829f842297dSMatthias Braun // It is technically possible to have a PHI-defined live range identical to a
830f842297dSMatthias Braun // single block, but we are going to return false in that case.
831f842297dSMatthias Braun
832f842297dSMatthias Braun SlotIndex Start = LI.beginIndex();
833f842297dSMatthias Braun if (Start.isBlock())
834f842297dSMatthias Braun return nullptr;
835f842297dSMatthias Braun
836f842297dSMatthias Braun SlotIndex Stop = LI.endIndex();
837f842297dSMatthias Braun if (Stop.isBlock())
838f842297dSMatthias Braun return nullptr;
839f842297dSMatthias Braun
840f842297dSMatthias Braun // getMBBFromIndex doesn't need to search the MBB table when both indexes
841f842297dSMatthias Braun // belong to proper instructions.
842f842297dSMatthias Braun MachineBasicBlock *MBB1 = Indexes->getMBBFromIndex(Start);
843f842297dSMatthias Braun MachineBasicBlock *MBB2 = Indexes->getMBBFromIndex(Stop);
844f842297dSMatthias Braun return MBB1 == MBB2 ? MBB1 : nullptr;
845f842297dSMatthias Braun }
846f842297dSMatthias Braun
847f842297dSMatthias Braun bool
hasPHIKill(const LiveInterval & LI,const VNInfo * VNI) const848f842297dSMatthias Braun LiveIntervals::hasPHIKill(const LiveInterval &LI, const VNInfo *VNI) const {
849f842297dSMatthias Braun for (const VNInfo *PHI : LI.valnos) {
850f842297dSMatthias Braun if (PHI->isUnused() || !PHI->isPHIDef())
851f842297dSMatthias Braun continue;
852f842297dSMatthias Braun const MachineBasicBlock *PHIMBB = getMBBFromIndex(PHI->def);
853f842297dSMatthias Braun // Conservatively return true instead of scanning huge predecessor lists.
854f842297dSMatthias Braun if (PHIMBB->pred_size() > 100)
855f842297dSMatthias Braun return true;
856f842297dSMatthias Braun for (const MachineBasicBlock *Pred : PHIMBB->predecessors())
857f842297dSMatthias Braun if (VNI == LI.getVNInfoBefore(Indexes->getMBBEndIdx(Pred)))
858f842297dSMatthias Braun return true;
859f842297dSMatthias Braun }
860f842297dSMatthias Braun return false;
861f842297dSMatthias Braun }
862f842297dSMatthias Braun
getSpillWeight(bool isDef,bool isUse,const MachineBlockFrequencyInfo * MBFI,const MachineInstr & MI)863f842297dSMatthias Braun float LiveIntervals::getSpillWeight(bool isDef, bool isUse,
864f842297dSMatthias Braun const MachineBlockFrequencyInfo *MBFI,
865f842297dSMatthias Braun const MachineInstr &MI) {
866f842297dSMatthias Braun return getSpillWeight(isDef, isUse, MBFI, MI.getParent());
867f842297dSMatthias Braun }
868f842297dSMatthias Braun
getSpillWeight(bool isDef,bool isUse,const MachineBlockFrequencyInfo * MBFI,const MachineBasicBlock * MBB)869f842297dSMatthias Braun float LiveIntervals::getSpillWeight(bool isDef, bool isUse,
870f842297dSMatthias Braun const MachineBlockFrequencyInfo *MBFI,
871f842297dSMatthias Braun const MachineBasicBlock *MBB) {
872302e91baSMircea Trofin return (isDef + isUse) * MBFI->getBlockFreqRelativeToEntryBlock(MBB);
873f842297dSMatthias Braun }
874f842297dSMatthias Braun
875f842297dSMatthias Braun LiveRange::Segment
addSegmentToEndOfBlock(Register Reg,MachineInstr & startInst)876b68994bdSGaurav Jain LiveIntervals::addSegmentToEndOfBlock(Register Reg, MachineInstr &startInst) {
877b68994bdSGaurav Jain LiveInterval &Interval = createEmptyInterval(Reg);
878f842297dSMatthias Braun VNInfo *VN = Interval.getNextValue(
879f842297dSMatthias Braun SlotIndex(getInstructionIndex(startInst).getRegSlot()),
880f842297dSMatthias Braun getVNInfoAllocator());
881f842297dSMatthias Braun LiveRange::Segment S(SlotIndex(getInstructionIndex(startInst).getRegSlot()),
882f842297dSMatthias Braun getMBBEndIdx(startInst.getParent()), VN);
883f842297dSMatthias Braun Interval.addSegment(S);
884f842297dSMatthias Braun
885f842297dSMatthias Braun return S;
886f842297dSMatthias Braun }
887f842297dSMatthias Braun
888f842297dSMatthias Braun //===----------------------------------------------------------------------===//
889f842297dSMatthias Braun // Register mask functions
890f842297dSMatthias Braun //===----------------------------------------------------------------------===//
89102265ed7SSerguei Katkov /// Check whether use of reg in MI is live-through. Live-through means that
89202265ed7SSerguei Katkov /// the value is alive on exit from Machine instruction. The example of such
89302265ed7SSerguei Katkov /// use is a deopt value in statepoint instruction.
hasLiveThroughUse(const MachineInstr * MI,Register Reg)89402265ed7SSerguei Katkov static bool hasLiveThroughUse(const MachineInstr *MI, Register Reg) {
89502265ed7SSerguei Katkov if (MI->getOpcode() != TargetOpcode::STATEPOINT)
89602265ed7SSerguei Katkov return false;
89702265ed7SSerguei Katkov StatepointOpers SO(MI);
89802265ed7SSerguei Katkov if (SO.getFlags() & (uint64_t)StatepointFlags::DeoptLiveIn)
89902265ed7SSerguei Katkov return false;
90002265ed7SSerguei Katkov for (unsigned Idx = SO.getNumDeoptArgsIdx(), E = SO.getNumGCPtrIdx(); Idx < E;
90102265ed7SSerguei Katkov ++Idx) {
90202265ed7SSerguei Katkov const MachineOperand &MO = MI->getOperand(Idx);
90302265ed7SSerguei Katkov if (MO.isReg() && MO.getReg() == Reg)
90402265ed7SSerguei Katkov return true;
90502265ed7SSerguei Katkov }
90602265ed7SSerguei Katkov return false;
90702265ed7SSerguei Katkov }
908f842297dSMatthias Braun
checkRegMaskInterference(const LiveInterval & LI,BitVector & UsableRegs)909592f52deSMircea Trofin bool LiveIntervals::checkRegMaskInterference(const LiveInterval &LI,
910f842297dSMatthias Braun BitVector &UsableRegs) {
911f842297dSMatthias Braun if (LI.empty())
912f842297dSMatthias Braun return false;
913592f52deSMircea Trofin LiveInterval::const_iterator LiveI = LI.begin(), LiveE = LI.end();
914f842297dSMatthias Braun
915f842297dSMatthias Braun // Use a smaller arrays for local live ranges.
916f842297dSMatthias Braun ArrayRef<SlotIndex> Slots;
917f842297dSMatthias Braun ArrayRef<const uint32_t*> Bits;
918f842297dSMatthias Braun if (MachineBasicBlock *MBB = intervalIsInOneMBB(LI)) {
919f842297dSMatthias Braun Slots = getRegMaskSlotsInBlock(MBB->getNumber());
920f842297dSMatthias Braun Bits = getRegMaskBitsInBlock(MBB->getNumber());
921f842297dSMatthias Braun } else {
922f842297dSMatthias Braun Slots = getRegMaskSlots();
923f842297dSMatthias Braun Bits = getRegMaskBits();
924f842297dSMatthias Braun }
925f842297dSMatthias Braun
926f842297dSMatthias Braun // We are going to enumerate all the register mask slots contained in LI.
927f842297dSMatthias Braun // Start with a binary search of RegMaskSlots to find a starting point.
928dc8de603SFangrui Song ArrayRef<SlotIndex>::iterator SlotI = llvm::lower_bound(Slots, LiveI->start);
929f842297dSMatthias Braun ArrayRef<SlotIndex>::iterator SlotE = Slots.end();
930f842297dSMatthias Braun
931f842297dSMatthias Braun // No slots in range, LI begins after the last call.
932f842297dSMatthias Braun if (SlotI == SlotE)
933f842297dSMatthias Braun return false;
934f842297dSMatthias Braun
935f842297dSMatthias Braun bool Found = false;
936d5ed0d48SSerguei Katkov // Utility to union regmasks.
937d5ed0d48SSerguei Katkov auto unionBitMask = [&](unsigned Idx) {
938f842297dSMatthias Braun if (!Found) {
939f842297dSMatthias Braun // This is the first overlap. Initialize UsableRegs to all ones.
940f842297dSMatthias Braun UsableRegs.clear();
941f842297dSMatthias Braun UsableRegs.resize(TRI->getNumRegs(), true);
942f842297dSMatthias Braun Found = true;
943f842297dSMatthias Braun }
944f842297dSMatthias Braun // Remove usable registers clobbered by this mask.
945d5ed0d48SSerguei Katkov UsableRegs.clearBitsNotInMask(Bits[Idx]);
946d5ed0d48SSerguei Katkov };
947d5ed0d48SSerguei Katkov while (true) {
948d5ed0d48SSerguei Katkov assert(*SlotI >= LiveI->start);
949d5ed0d48SSerguei Katkov // Loop over all slots overlapping this segment.
950d5ed0d48SSerguei Katkov while (*SlotI < LiveI->end) {
951d5ed0d48SSerguei Katkov // *SlotI overlaps LI. Collect mask bits.
952d5ed0d48SSerguei Katkov unionBitMask(SlotI - Slots.begin());
953f842297dSMatthias Braun if (++SlotI == SlotE)
954f842297dSMatthias Braun return Found;
955f842297dSMatthias Braun }
95602265ed7SSerguei Katkov // If segment ends with live-through use we need to collect its regmask.
95702265ed7SSerguei Katkov if (*SlotI == LiveI->end)
95802265ed7SSerguei Katkov if (MachineInstr *MI = getInstructionFromIndex(*SlotI))
95902265ed7SSerguei Katkov if (hasLiveThroughUse(MI, LI.reg()))
96002265ed7SSerguei Katkov unionBitMask(SlotI++ - Slots.begin());
961f842297dSMatthias Braun // *SlotI is beyond the current LI segment.
96202265ed7SSerguei Katkov // Special advance implementation to not miss next LiveI->end.
96302265ed7SSerguei Katkov if (++LiveI == LiveE || SlotI == SlotE || *SlotI > LI.endIndex())
964f842297dSMatthias Braun return Found;
96502265ed7SSerguei Katkov while (LiveI->end < *SlotI)
96602265ed7SSerguei Katkov ++LiveI;
967f842297dSMatthias Braun // Advance SlotI until it overlaps.
968f842297dSMatthias Braun while (*SlotI < LiveI->start)
969f842297dSMatthias Braun if (++SlotI == SlotE)
970f842297dSMatthias Braun return Found;
971f842297dSMatthias Braun }
972f842297dSMatthias Braun }
973f842297dSMatthias Braun
974f842297dSMatthias Braun //===----------------------------------------------------------------------===//
975f842297dSMatthias Braun // IntervalUpdate class.
976f842297dSMatthias Braun //===----------------------------------------------------------------------===//
977f842297dSMatthias Braun
978f842297dSMatthias Braun /// Toolkit used by handleMove to trim or extend live intervals.
979f842297dSMatthias Braun class LiveIntervals::HMEditor {
980f842297dSMatthias Braun private:
981f842297dSMatthias Braun LiveIntervals& LIS;
982f842297dSMatthias Braun const MachineRegisterInfo& MRI;
983f842297dSMatthias Braun const TargetRegisterInfo& TRI;
984f842297dSMatthias Braun SlotIndex OldIdx;
985f842297dSMatthias Braun SlotIndex NewIdx;
986f842297dSMatthias Braun SmallPtrSet<LiveRange*, 8> Updated;
987f842297dSMatthias Braun bool UpdateFlags;
988f842297dSMatthias Braun
989f842297dSMatthias Braun public:
HMEditor(LiveIntervals & LIS,const MachineRegisterInfo & MRI,const TargetRegisterInfo & TRI,SlotIndex OldIdx,SlotIndex NewIdx,bool UpdateFlags)990f842297dSMatthias Braun HMEditor(LiveIntervals& LIS, const MachineRegisterInfo& MRI,
991f842297dSMatthias Braun const TargetRegisterInfo& TRI,
992f842297dSMatthias Braun SlotIndex OldIdx, SlotIndex NewIdx, bool UpdateFlags)
993f842297dSMatthias Braun : LIS(LIS), MRI(MRI), TRI(TRI), OldIdx(OldIdx), NewIdx(NewIdx),
994f842297dSMatthias Braun UpdateFlags(UpdateFlags) {}
995f842297dSMatthias Braun
996f842297dSMatthias Braun // FIXME: UpdateFlags is a workaround that creates live intervals for all
997f842297dSMatthias Braun // physregs, even those that aren't needed for regalloc, in order to update
998f842297dSMatthias Braun // kill flags. This is wasteful. Eventually, LiveVariables will strip all kill
999f842297dSMatthias Braun // flags, and postRA passes will use a live register utility instead.
getRegUnitLI(unsigned Unit)1000f842297dSMatthias Braun LiveRange *getRegUnitLI(unsigned Unit) {
1001f842297dSMatthias Braun if (UpdateFlags && !MRI.isReservedRegUnit(Unit))
1002f842297dSMatthias Braun return &LIS.getRegUnit(Unit);
1003f842297dSMatthias Braun return LIS.getCachedRegUnit(Unit);
1004f842297dSMatthias Braun }
1005f842297dSMatthias Braun
1006f842297dSMatthias Braun /// Update all live ranges touched by MI, assuming a move from OldIdx to
1007f842297dSMatthias Braun /// NewIdx.
updateAllRanges(MachineInstr * MI)1008f842297dSMatthias Braun void updateAllRanges(MachineInstr *MI) {
1009d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "handleMove " << OldIdx << " -> " << NewIdx << ": "
1010d34e60caSNicola Zaghen << *MI);
1011f842297dSMatthias Braun bool hasRegMask = false;
1012f842297dSMatthias Braun for (MachineOperand &MO : MI->operands()) {
1013f842297dSMatthias Braun if (MO.isRegMask())
1014f842297dSMatthias Braun hasRegMask = true;
1015f842297dSMatthias Braun if (!MO.isReg())
1016f842297dSMatthias Braun continue;
1017f842297dSMatthias Braun if (MO.isUse()) {
1018f842297dSMatthias Braun if (!MO.readsReg())
1019f842297dSMatthias Braun continue;
1020f842297dSMatthias Braun // Aggressively clear all kill flags.
1021f842297dSMatthias Braun // They are reinserted by VirtRegRewriter.
1022f842297dSMatthias Braun MO.setIsKill(false);
1023f842297dSMatthias Braun }
1024f842297dSMatthias Braun
10250c476111SDaniel Sanders Register Reg = MO.getReg();
1026f842297dSMatthias Braun if (!Reg)
1027f842297dSMatthias Braun continue;
10282bea69bfSDaniel Sanders if (Register::isVirtualRegister(Reg)) {
1029f842297dSMatthias Braun LiveInterval &LI = LIS.getInterval(Reg);
1030f842297dSMatthias Braun if (LI.hasSubRanges()) {
1031f842297dSMatthias Braun unsigned SubReg = MO.getSubReg();
1032f842297dSMatthias Braun LaneBitmask LaneMask = SubReg ? TRI.getSubRegIndexLaneMask(SubReg)
1033f842297dSMatthias Braun : MRI.getMaxLaneMaskForVReg(Reg);
1034f842297dSMatthias Braun for (LiveInterval::SubRange &S : LI.subranges()) {
1035f842297dSMatthias Braun if ((S.LaneMask & LaneMask).none())
1036f842297dSMatthias Braun continue;
1037f842297dSMatthias Braun updateRange(S, Reg, S.LaneMask);
1038f842297dSMatthias Braun }
1039f842297dSMatthias Braun }
1040f842297dSMatthias Braun updateRange(LI, Reg, LaneBitmask::getNone());
10417c038726SStanislav Mekhanoshin // If main range has a hole and we are moving a subrange use across
10427c038726SStanislav Mekhanoshin // the hole updateRange() cannot properly handle it since it only
10437c038726SStanislav Mekhanoshin // gets the LiveRange and not the whole LiveInterval. As a result
10447c038726SStanislav Mekhanoshin // we may end up with a main range not covering all subranges.
10457c038726SStanislav Mekhanoshin // This is extremely rare case, so let's check and reconstruct the
10467c038726SStanislav Mekhanoshin // main range.
10476858a17fSDaniil Fukalov if (LI.hasSubRanges()) {
10486858a17fSDaniil Fukalov unsigned SubReg = MO.getSubReg();
10496858a17fSDaniil Fukalov LaneBitmask LaneMask = SubReg ? TRI.getSubRegIndexLaneMask(SubReg)
10506858a17fSDaniil Fukalov : MRI.getMaxLaneMaskForVReg(Reg);
10517c038726SStanislav Mekhanoshin for (LiveInterval::SubRange &S : LI.subranges()) {
10526858a17fSDaniil Fukalov if ((S.LaneMask & LaneMask).none() || LI.covers(S))
10537c038726SStanislav Mekhanoshin continue;
10547c038726SStanislav Mekhanoshin LI.clear();
10557c038726SStanislav Mekhanoshin LIS.constructMainRangeFromSubranges(LI);
10567c038726SStanislav Mekhanoshin break;
10577c038726SStanislav Mekhanoshin }
10586858a17fSDaniil Fukalov }
10597c038726SStanislav Mekhanoshin
1060f842297dSMatthias Braun continue;
1061f842297dSMatthias Braun }
1062f842297dSMatthias Braun
1063f842297dSMatthias Braun // For physregs, only update the regunits that actually have a
1064f842297dSMatthias Braun // precomputed live range.
10654cfc4025SMircea Trofin for (MCRegUnitIterator Units(Reg.asMCReg(), &TRI); Units.isValid();
10664cfc4025SMircea Trofin ++Units)
1067f842297dSMatthias Braun if (LiveRange *LR = getRegUnitLI(*Units))
1068f842297dSMatthias Braun updateRange(*LR, *Units, LaneBitmask::getNone());
1069f842297dSMatthias Braun }
1070f842297dSMatthias Braun if (hasRegMask)
1071f842297dSMatthias Braun updateRegMaskSlots();
1072f842297dSMatthias Braun }
1073f842297dSMatthias Braun
1074f842297dSMatthias Braun private:
1075f842297dSMatthias Braun /// Update a single live range, assuming an instruction has been moved from
1076f842297dSMatthias Braun /// OldIdx to NewIdx.
updateRange(LiveRange & LR,Register Reg,LaneBitmask LaneMask)1077b68994bdSGaurav Jain void updateRange(LiveRange &LR, Register Reg, LaneBitmask LaneMask) {
1078f842297dSMatthias Braun if (!Updated.insert(&LR).second)
1079f842297dSMatthias Braun return;
1080d34e60caSNicola Zaghen LLVM_DEBUG({
1081f842297dSMatthias Braun dbgs() << " ";
10822bea69bfSDaniel Sanders if (Register::isVirtualRegister(Reg)) {
1083f842297dSMatthias Braun dbgs() << printReg(Reg);
1084f842297dSMatthias Braun if (LaneMask.any())
1085f842297dSMatthias Braun dbgs() << " L" << PrintLaneMask(LaneMask);
1086f842297dSMatthias Braun } else {
1087f842297dSMatthias Braun dbgs() << printRegUnit(Reg, &TRI);
1088f842297dSMatthias Braun }
1089f842297dSMatthias Braun dbgs() << ":\t" << LR << '\n';
1090f842297dSMatthias Braun });
1091f842297dSMatthias Braun if (SlotIndex::isEarlierInstr(OldIdx, NewIdx))
1092f842297dSMatthias Braun handleMoveDown(LR);
1093f842297dSMatthias Braun else
1094f842297dSMatthias Braun handleMoveUp(LR, Reg, LaneMask);
1095d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << " -->\t" << LR << '\n');
1096f842297dSMatthias Braun LR.verify();
1097f842297dSMatthias Braun }
1098f842297dSMatthias Braun
1099f842297dSMatthias Braun /// Update LR to reflect an instruction has been moved downwards from OldIdx
1100f842297dSMatthias Braun /// to NewIdx (OldIdx < NewIdx).
handleMoveDown(LiveRange & LR)1101f842297dSMatthias Braun void handleMoveDown(LiveRange &LR) {
1102f842297dSMatthias Braun LiveRange::iterator E = LR.end();
1103f842297dSMatthias Braun // Segment going into OldIdx.
1104f842297dSMatthias Braun LiveRange::iterator OldIdxIn = LR.find(OldIdx.getBaseIndex());
1105f842297dSMatthias Braun
1106f842297dSMatthias Braun // No value live before or after OldIdx? Nothing to do.
1107f842297dSMatthias Braun if (OldIdxIn == E || SlotIndex::isEarlierInstr(OldIdx, OldIdxIn->start))
1108f842297dSMatthias Braun return;
1109f842297dSMatthias Braun
1110f842297dSMatthias Braun LiveRange::iterator OldIdxOut;
1111f842297dSMatthias Braun // Do we have a value live-in to OldIdx?
1112f842297dSMatthias Braun if (SlotIndex::isEarlierInstr(OldIdxIn->start, OldIdx)) {
1113f842297dSMatthias Braun // If the live-in value already extends to NewIdx, there is nothing to do.
1114f842297dSMatthias Braun if (SlotIndex::isEarlierEqualInstr(NewIdx, OldIdxIn->end))
1115f842297dSMatthias Braun return;
1116f842297dSMatthias Braun // Aggressively remove all kill flags from the old kill point.
1117f842297dSMatthias Braun // Kill flags shouldn't be used while live intervals exist, they will be
1118f842297dSMatthias Braun // reinserted by VirtRegRewriter.
1119f842297dSMatthias Braun if (MachineInstr *KillMI = LIS.getInstructionFromIndex(OldIdxIn->end))
11201b819645SFlorian Hahn for (MachineOperand &MOP : mi_bundle_ops(*KillMI))
11211b819645SFlorian Hahn if (MOP.isReg() && MOP.isUse())
11221b819645SFlorian Hahn MOP.setIsKill(false);
1123f842297dSMatthias Braun
1124f842297dSMatthias Braun // Is there a def before NewIdx which is not OldIdx?
1125f842297dSMatthias Braun LiveRange::iterator Next = std::next(OldIdxIn);
1126f842297dSMatthias Braun if (Next != E && !SlotIndex::isSameInstr(OldIdx, Next->start) &&
1127f842297dSMatthias Braun SlotIndex::isEarlierInstr(Next->start, NewIdx)) {
1128f842297dSMatthias Braun // If we are here then OldIdx was just a use but not a def. We only have
1129f842297dSMatthias Braun // to ensure liveness extends to NewIdx.
1130f842297dSMatthias Braun LiveRange::iterator NewIdxIn =
1131f842297dSMatthias Braun LR.advanceTo(Next, NewIdx.getBaseIndex());
1132f842297dSMatthias Braun // Extend the segment before NewIdx if necessary.
1133f842297dSMatthias Braun if (NewIdxIn == E ||
1134f842297dSMatthias Braun !SlotIndex::isEarlierInstr(NewIdxIn->start, NewIdx)) {
1135f842297dSMatthias Braun LiveRange::iterator Prev = std::prev(NewIdxIn);
1136f842297dSMatthias Braun Prev->end = NewIdx.getRegSlot();
1137f842297dSMatthias Braun }
1138f842297dSMatthias Braun // Extend OldIdxIn.
1139f842297dSMatthias Braun OldIdxIn->end = Next->start;
1140f842297dSMatthias Braun return;
1141f842297dSMatthias Braun }
1142f842297dSMatthias Braun
1143f842297dSMatthias Braun // Adjust OldIdxIn->end to reach NewIdx. This may temporarily make LR
1144f842297dSMatthias Braun // invalid by overlapping ranges.
1145f842297dSMatthias Braun bool isKill = SlotIndex::isSameInstr(OldIdx, OldIdxIn->end);
1146f842297dSMatthias Braun OldIdxIn->end = NewIdx.getRegSlot(OldIdxIn->end.isEarlyClobber());
1147f842297dSMatthias Braun // If this was not a kill, then there was no def and we're done.
1148f842297dSMatthias Braun if (!isKill)
1149f842297dSMatthias Braun return;
1150f842297dSMatthias Braun
1151f842297dSMatthias Braun // Did we have a Def at OldIdx?
1152f842297dSMatthias Braun OldIdxOut = Next;
1153f842297dSMatthias Braun if (OldIdxOut == E || !SlotIndex::isSameInstr(OldIdx, OldIdxOut->start))
1154f842297dSMatthias Braun return;
1155f842297dSMatthias Braun } else {
1156f842297dSMatthias Braun OldIdxOut = OldIdxIn;
1157f842297dSMatthias Braun }
1158f842297dSMatthias Braun
1159f842297dSMatthias Braun // If we are here then there is a Definition at OldIdx. OldIdxOut points
1160f842297dSMatthias Braun // to the segment starting there.
1161f842297dSMatthias Braun assert(OldIdxOut != E && SlotIndex::isSameInstr(OldIdx, OldIdxOut->start) &&
1162f842297dSMatthias Braun "No def?");
1163f842297dSMatthias Braun VNInfo *OldIdxVNI = OldIdxOut->valno;
1164f842297dSMatthias Braun assert(OldIdxVNI->def == OldIdxOut->start && "Inconsistent def");
1165f842297dSMatthias Braun
1166f842297dSMatthias Braun // If the defined value extends beyond NewIdx, just move the beginning
1167f842297dSMatthias Braun // of the segment to NewIdx.
1168f842297dSMatthias Braun SlotIndex NewIdxDef = NewIdx.getRegSlot(OldIdxOut->start.isEarlyClobber());
1169f842297dSMatthias Braun if (SlotIndex::isEarlierInstr(NewIdxDef, OldIdxOut->end)) {
1170f842297dSMatthias Braun OldIdxVNI->def = NewIdxDef;
1171f842297dSMatthias Braun OldIdxOut->start = OldIdxVNI->def;
1172f842297dSMatthias Braun return;
1173f842297dSMatthias Braun }
1174f842297dSMatthias Braun
1175f842297dSMatthias Braun // If we are here then we have a Definition at OldIdx which ends before
1176f842297dSMatthias Braun // NewIdx.
1177f842297dSMatthias Braun
1178f842297dSMatthias Braun // Is there an existing Def at NewIdx?
1179f842297dSMatthias Braun LiveRange::iterator AfterNewIdx
1180f842297dSMatthias Braun = LR.advanceTo(OldIdxOut, NewIdx.getRegSlot());
1181f842297dSMatthias Braun bool OldIdxDefIsDead = OldIdxOut->end.isDead();
1182f842297dSMatthias Braun if (!OldIdxDefIsDead &&
1183f842297dSMatthias Braun SlotIndex::isEarlierInstr(OldIdxOut->end, NewIdxDef)) {
1184f842297dSMatthias Braun // OldIdx is not a dead def, and NewIdxDef is inside a new interval.
1185f842297dSMatthias Braun VNInfo *DefVNI;
1186f842297dSMatthias Braun if (OldIdxOut != LR.begin() &&
1187f842297dSMatthias Braun !SlotIndex::isEarlierInstr(std::prev(OldIdxOut)->end,
1188f842297dSMatthias Braun OldIdxOut->start)) {
1189f842297dSMatthias Braun // There is no gap between OldIdxOut and its predecessor anymore,
1190f842297dSMatthias Braun // merge them.
1191f842297dSMatthias Braun LiveRange::iterator IPrev = std::prev(OldIdxOut);
1192f842297dSMatthias Braun DefVNI = OldIdxVNI;
1193f842297dSMatthias Braun IPrev->end = OldIdxOut->end;
1194f842297dSMatthias Braun } else {
1195f842297dSMatthias Braun // The value is live in to OldIdx
1196f842297dSMatthias Braun LiveRange::iterator INext = std::next(OldIdxOut);
1197f842297dSMatthias Braun assert(INext != E && "Must have following segment");
1198f842297dSMatthias Braun // We merge OldIdxOut and its successor. As we're dealing with subreg
1199f842297dSMatthias Braun // reordering, there is always a successor to OldIdxOut in the same BB
1200f842297dSMatthias Braun // We don't need INext->valno anymore and will reuse for the new segment
1201f842297dSMatthias Braun // we create later.
1202f842297dSMatthias Braun DefVNI = OldIdxVNI;
1203f842297dSMatthias Braun INext->start = OldIdxOut->end;
1204f842297dSMatthias Braun INext->valno->def = INext->start;
1205f842297dSMatthias Braun }
1206f842297dSMatthias Braun // If NewIdx is behind the last segment, extend that and append a new one.
1207f842297dSMatthias Braun if (AfterNewIdx == E) {
1208f842297dSMatthias Braun // OldIdxOut is undef at this point, Slide (OldIdxOut;AfterNewIdx] up
1209f842297dSMatthias Braun // one position.
1210f842297dSMatthias Braun // |- ?/OldIdxOut -| |- X0 -| ... |- Xn -| end
1211f842297dSMatthias Braun // => |- X0/OldIdxOut -| ... |- Xn -| |- undef/NewS -| end
1212f842297dSMatthias Braun std::copy(std::next(OldIdxOut), E, OldIdxOut);
1213f842297dSMatthias Braun // The last segment is undefined now, reuse it for a dead def.
1214f842297dSMatthias Braun LiveRange::iterator NewSegment = std::prev(E);
1215f842297dSMatthias Braun *NewSegment = LiveRange::Segment(NewIdxDef, NewIdxDef.getDeadSlot(),
1216f842297dSMatthias Braun DefVNI);
1217f842297dSMatthias Braun DefVNI->def = NewIdxDef;
1218f842297dSMatthias Braun
1219f842297dSMatthias Braun LiveRange::iterator Prev = std::prev(NewSegment);
1220f842297dSMatthias Braun Prev->end = NewIdxDef;
1221f842297dSMatthias Braun } else {
1222f842297dSMatthias Braun // OldIdxOut is undef at this point, Slide (OldIdxOut;AfterNewIdx] up
1223f842297dSMatthias Braun // one position.
1224f842297dSMatthias Braun // |- ?/OldIdxOut -| |- X0 -| ... |- Xn/AfterNewIdx -| |- Next -|
1225f842297dSMatthias Braun // => |- X0/OldIdxOut -| ... |- Xn -| |- Xn/AfterNewIdx -| |- Next -|
1226f842297dSMatthias Braun std::copy(std::next(OldIdxOut), std::next(AfterNewIdx), OldIdxOut);
1227f842297dSMatthias Braun LiveRange::iterator Prev = std::prev(AfterNewIdx);
1228f842297dSMatthias Braun // We have two cases:
1229f842297dSMatthias Braun if (SlotIndex::isEarlierInstr(Prev->start, NewIdxDef)) {
1230f842297dSMatthias Braun // Case 1: NewIdx is inside a liverange. Split this liverange at
1231f842297dSMatthias Braun // NewIdxDef into the segment "Prev" followed by "NewSegment".
1232f842297dSMatthias Braun LiveRange::iterator NewSegment = AfterNewIdx;
1233f842297dSMatthias Braun *NewSegment = LiveRange::Segment(NewIdxDef, Prev->end, Prev->valno);
1234f842297dSMatthias Braun Prev->valno->def = NewIdxDef;
1235f842297dSMatthias Braun
1236f842297dSMatthias Braun *Prev = LiveRange::Segment(Prev->start, NewIdxDef, DefVNI);
1237f842297dSMatthias Braun DefVNI->def = Prev->start;
1238f842297dSMatthias Braun } else {
1239f842297dSMatthias Braun // Case 2: NewIdx is in a lifetime hole. Keep AfterNewIdx as is and
1240f842297dSMatthias Braun // turn Prev into a segment from NewIdx to AfterNewIdx->start.
1241f842297dSMatthias Braun *Prev = LiveRange::Segment(NewIdxDef, AfterNewIdx->start, DefVNI);
1242f842297dSMatthias Braun DefVNI->def = NewIdxDef;
1243f842297dSMatthias Braun assert(DefVNI != AfterNewIdx->valno);
1244f842297dSMatthias Braun }
1245f842297dSMatthias Braun }
1246f842297dSMatthias Braun return;
1247f842297dSMatthias Braun }
1248f842297dSMatthias Braun
1249f842297dSMatthias Braun if (AfterNewIdx != E &&
1250f842297dSMatthias Braun SlotIndex::isSameInstr(AfterNewIdx->start, NewIdxDef)) {
1251f842297dSMatthias Braun // There is an existing def at NewIdx. The def at OldIdx is coalesced into
1252f842297dSMatthias Braun // that value.
1253f842297dSMatthias Braun assert(AfterNewIdx->valno != OldIdxVNI && "Multiple defs of value?");
1254f842297dSMatthias Braun LR.removeValNo(OldIdxVNI);
1255f842297dSMatthias Braun } else {
1256f842297dSMatthias Braun // There was no existing def at NewIdx. We need to create a dead def
1257f842297dSMatthias Braun // at NewIdx. Shift segments over the old OldIdxOut segment, this frees
1258f842297dSMatthias Braun // a new segment at the place where we want to construct the dead def.
1259f842297dSMatthias Braun // |- OldIdxOut -| |- X0 -| ... |- Xn -| |- AfterNewIdx -|
1260f842297dSMatthias Braun // => |- X0/OldIdxOut -| ... |- Xn -| |- undef/NewS. -| |- AfterNewIdx -|
1261f842297dSMatthias Braun assert(AfterNewIdx != OldIdxOut && "Inconsistent iterators");
1262f842297dSMatthias Braun std::copy(std::next(OldIdxOut), AfterNewIdx, OldIdxOut);
1263f842297dSMatthias Braun // We can reuse OldIdxVNI now.
1264f842297dSMatthias Braun LiveRange::iterator NewSegment = std::prev(AfterNewIdx);
1265f842297dSMatthias Braun VNInfo *NewSegmentVNI = OldIdxVNI;
1266f842297dSMatthias Braun NewSegmentVNI->def = NewIdxDef;
1267f842297dSMatthias Braun *NewSegment = LiveRange::Segment(NewIdxDef, NewIdxDef.getDeadSlot(),
1268f842297dSMatthias Braun NewSegmentVNI);
1269f842297dSMatthias Braun }
1270f842297dSMatthias Braun }
1271f842297dSMatthias Braun
1272f842297dSMatthias Braun /// Update LR to reflect an instruction has been moved upwards from OldIdx
1273f842297dSMatthias Braun /// to NewIdx (NewIdx < OldIdx).
handleMoveUp(LiveRange & LR,Register Reg,LaneBitmask LaneMask)1274b68994bdSGaurav Jain void handleMoveUp(LiveRange &LR, Register Reg, LaneBitmask LaneMask) {
1275f842297dSMatthias Braun LiveRange::iterator E = LR.end();
1276f842297dSMatthias Braun // Segment going into OldIdx.
1277f842297dSMatthias Braun LiveRange::iterator OldIdxIn = LR.find(OldIdx.getBaseIndex());
1278f842297dSMatthias Braun
1279f842297dSMatthias Braun // No value live before or after OldIdx? Nothing to do.
1280f842297dSMatthias Braun if (OldIdxIn == E || SlotIndex::isEarlierInstr(OldIdx, OldIdxIn->start))
1281f842297dSMatthias Braun return;
1282f842297dSMatthias Braun
1283f842297dSMatthias Braun LiveRange::iterator OldIdxOut;
1284f842297dSMatthias Braun // Do we have a value live-in to OldIdx?
1285f842297dSMatthias Braun if (SlotIndex::isEarlierInstr(OldIdxIn->start, OldIdx)) {
1286f842297dSMatthias Braun // If the live-in value isn't killed here, then we have no Def at
1287f842297dSMatthias Braun // OldIdx, moreover the value must be live at NewIdx so there is nothing
1288f842297dSMatthias Braun // to do.
1289f842297dSMatthias Braun bool isKill = SlotIndex::isSameInstr(OldIdx, OldIdxIn->end);
1290f842297dSMatthias Braun if (!isKill)
1291f842297dSMatthias Braun return;
1292f842297dSMatthias Braun
1293f842297dSMatthias Braun // At this point we have to move OldIdxIn->end back to the nearest
1294f842297dSMatthias Braun // previous use or (dead-)def but no further than NewIdx.
1295f842297dSMatthias Braun SlotIndex DefBeforeOldIdx
1296f842297dSMatthias Braun = std::max(OldIdxIn->start.getDeadSlot(),
1297f842297dSMatthias Braun NewIdx.getRegSlot(OldIdxIn->end.isEarlyClobber()));
1298f842297dSMatthias Braun OldIdxIn->end = findLastUseBefore(DefBeforeOldIdx, Reg, LaneMask);
1299f842297dSMatthias Braun
1300f842297dSMatthias Braun // Did we have a Def at OldIdx? If not we are done now.
1301f842297dSMatthias Braun OldIdxOut = std::next(OldIdxIn);
1302f842297dSMatthias Braun if (OldIdxOut == E || !SlotIndex::isSameInstr(OldIdx, OldIdxOut->start))
1303f842297dSMatthias Braun return;
1304f842297dSMatthias Braun } else {
1305f842297dSMatthias Braun OldIdxOut = OldIdxIn;
1306f842297dSMatthias Braun OldIdxIn = OldIdxOut != LR.begin() ? std::prev(OldIdxOut) : E;
1307f842297dSMatthias Braun }
1308f842297dSMatthias Braun
1309f842297dSMatthias Braun // If we are here then there is a Definition at OldIdx. OldIdxOut points
1310f842297dSMatthias Braun // to the segment starting there.
1311f842297dSMatthias Braun assert(OldIdxOut != E && SlotIndex::isSameInstr(OldIdx, OldIdxOut->start) &&
1312f842297dSMatthias Braun "No def?");
1313f842297dSMatthias Braun VNInfo *OldIdxVNI = OldIdxOut->valno;
1314f842297dSMatthias Braun assert(OldIdxVNI->def == OldIdxOut->start && "Inconsistent def");
1315f842297dSMatthias Braun bool OldIdxDefIsDead = OldIdxOut->end.isDead();
1316f842297dSMatthias Braun
1317f842297dSMatthias Braun // Is there an existing def at NewIdx?
1318f842297dSMatthias Braun SlotIndex NewIdxDef = NewIdx.getRegSlot(OldIdxOut->start.isEarlyClobber());
1319f842297dSMatthias Braun LiveRange::iterator NewIdxOut = LR.find(NewIdx.getRegSlot());
1320f842297dSMatthias Braun if (SlotIndex::isSameInstr(NewIdxOut->start, NewIdx)) {
1321f842297dSMatthias Braun assert(NewIdxOut->valno != OldIdxVNI &&
1322f842297dSMatthias Braun "Same value defined more than once?");
1323f842297dSMatthias Braun // If OldIdx was a dead def remove it.
1324f842297dSMatthias Braun if (!OldIdxDefIsDead) {
1325f842297dSMatthias Braun // Remove segment starting at NewIdx and move begin of OldIdxOut to
1326f842297dSMatthias Braun // NewIdx so it can take its place.
1327f842297dSMatthias Braun OldIdxVNI->def = NewIdxDef;
1328f842297dSMatthias Braun OldIdxOut->start = NewIdxDef;
1329f842297dSMatthias Braun LR.removeValNo(NewIdxOut->valno);
1330f842297dSMatthias Braun } else {
1331f842297dSMatthias Braun // Simply remove the dead def at OldIdx.
1332f842297dSMatthias Braun LR.removeValNo(OldIdxVNI);
1333f842297dSMatthias Braun }
1334f842297dSMatthias Braun } else {
1335f842297dSMatthias Braun // Previously nothing was live after NewIdx, so all we have to do now is
1336f842297dSMatthias Braun // move the begin of OldIdxOut to NewIdx.
1337f842297dSMatthias Braun if (!OldIdxDefIsDead) {
1338f842297dSMatthias Braun // Do we have any intermediate Defs between OldIdx and NewIdx?
1339f842297dSMatthias Braun if (OldIdxIn != E &&
1340f842297dSMatthias Braun SlotIndex::isEarlierInstr(NewIdxDef, OldIdxIn->start)) {
1341f842297dSMatthias Braun // OldIdx is not a dead def and NewIdx is before predecessor start.
1342f842297dSMatthias Braun LiveRange::iterator NewIdxIn = NewIdxOut;
1343f842297dSMatthias Braun assert(NewIdxIn == LR.find(NewIdx.getBaseIndex()));
1344f842297dSMatthias Braun const SlotIndex SplitPos = NewIdxDef;
1345f842297dSMatthias Braun OldIdxVNI = OldIdxIn->valno;
1346f842297dSMatthias Braun
1347d4274f01SMatt Arsenault SlotIndex NewDefEndPoint = std::next(NewIdxIn)->end;
1348d4274f01SMatt Arsenault LiveRange::iterator Prev = std::prev(OldIdxIn);
1349d4274f01SMatt Arsenault if (OldIdxIn != LR.begin() &&
1350d4274f01SMatt Arsenault SlotIndex::isEarlierInstr(NewIdx, Prev->end)) {
1351d4274f01SMatt Arsenault // If the segment before OldIdx read a value defined earlier than
1352d4274f01SMatt Arsenault // NewIdx, the moved instruction also reads and forwards that
1353d4274f01SMatt Arsenault // value. Extend the lifetime of the new def point.
1354d4274f01SMatt Arsenault
1355d4274f01SMatt Arsenault // Extend to where the previous range started, unless there is
1356d4274f01SMatt Arsenault // another redef first.
1357d4274f01SMatt Arsenault NewDefEndPoint = std::min(OldIdxIn->start,
1358d4274f01SMatt Arsenault std::next(NewIdxOut)->start);
1359d4274f01SMatt Arsenault }
1360d4274f01SMatt Arsenault
1361f842297dSMatthias Braun // Merge the OldIdxIn and OldIdxOut segments into OldIdxOut.
1362f842297dSMatthias Braun OldIdxOut->valno->def = OldIdxIn->start;
1363f842297dSMatthias Braun *OldIdxOut = LiveRange::Segment(OldIdxIn->start, OldIdxOut->end,
1364f842297dSMatthias Braun OldIdxOut->valno);
1365f842297dSMatthias Braun // OldIdxIn and OldIdxVNI are now undef and can be overridden.
1366f842297dSMatthias Braun // We Slide [NewIdxIn, OldIdxIn) down one position.
1367f842297dSMatthias Braun // |- X0/NewIdxIn -| ... |- Xn-1 -||- Xn/OldIdxIn -||- OldIdxOut -|
1368f842297dSMatthias Braun // => |- undef/NexIdxIn -| |- X0 -| ... |- Xn-1 -| |- Xn/OldIdxOut -|
1369f842297dSMatthias Braun std::copy_backward(NewIdxIn, OldIdxIn, OldIdxOut);
1370f842297dSMatthias Braun // NewIdxIn is now considered undef so we can reuse it for the moved
1371f842297dSMatthias Braun // value.
1372f842297dSMatthias Braun LiveRange::iterator NewSegment = NewIdxIn;
1373f842297dSMatthias Braun LiveRange::iterator Next = std::next(NewSegment);
1374f842297dSMatthias Braun if (SlotIndex::isEarlierInstr(Next->start, NewIdx)) {
1375f842297dSMatthias Braun // There is no gap between NewSegment and its predecessor.
1376f842297dSMatthias Braun *NewSegment = LiveRange::Segment(Next->start, SplitPos,
1377f842297dSMatthias Braun Next->valno);
1378d4274f01SMatt Arsenault
1379d4274f01SMatt Arsenault *Next = LiveRange::Segment(SplitPos, NewDefEndPoint, OldIdxVNI);
1380f842297dSMatthias Braun Next->valno->def = SplitPos;
1381f842297dSMatthias Braun } else {
1382f842297dSMatthias Braun // There is a gap between NewSegment and its predecessor
1383f842297dSMatthias Braun // Value becomes live in.
1384f842297dSMatthias Braun *NewSegment = LiveRange::Segment(SplitPos, Next->start, OldIdxVNI);
1385f842297dSMatthias Braun NewSegment->valno->def = SplitPos;
1386f842297dSMatthias Braun }
1387f842297dSMatthias Braun } else {
1388f842297dSMatthias Braun // Leave the end point of a live def.
1389f842297dSMatthias Braun OldIdxOut->start = NewIdxDef;
1390f842297dSMatthias Braun OldIdxVNI->def = NewIdxDef;
1391f842297dSMatthias Braun if (OldIdxIn != E && SlotIndex::isEarlierInstr(NewIdx, OldIdxIn->end))
13927cdf4326SJay Foad OldIdxIn->end = NewIdxDef;
1393f842297dSMatthias Braun }
1394f40707a2STim Renouf } else if (OldIdxIn != E
1395f40707a2STim Renouf && SlotIndex::isEarlierInstr(NewIdxOut->start, NewIdx)
1396f40707a2STim Renouf && SlotIndex::isEarlierInstr(NewIdx, NewIdxOut->end)) {
1397f40707a2STim Renouf // OldIdxVNI is a dead def that has been moved into the middle of
1398f40707a2STim Renouf // another value in LR. That can happen when LR is a whole register,
1399f40707a2STim Renouf // but the dead def is a write to a subreg that is dead at NewIdx.
1400f40707a2STim Renouf // The dead def may have been moved across other values
1401f40707a2STim Renouf // in LR, so move OldIdxOut up to NewIdxOut. Slide [NewIdxOut;OldIdxOut)
1402f40707a2STim Renouf // down one position.
1403f40707a2STim Renouf // |- X0/NewIdxOut -| ... |- Xn-1 -| |- Xn/OldIdxOut -| |- next - |
1404f40707a2STim Renouf // => |- X0/NewIdxOut -| |- X0 -| ... |- Xn-1 -| |- next -|
1405f40707a2STim Renouf std::copy_backward(NewIdxOut, OldIdxOut, std::next(OldIdxOut));
1406f40707a2STim Renouf // Modify the segment at NewIdxOut and the following segment to meet at
1407f40707a2STim Renouf // the point of the dead def, with the following segment getting
1408f40707a2STim Renouf // OldIdxVNI as its value number.
1409f40707a2STim Renouf *NewIdxOut = LiveRange::Segment(
1410f40707a2STim Renouf NewIdxOut->start, NewIdxDef.getRegSlot(), NewIdxOut->valno);
1411f40707a2STim Renouf *(NewIdxOut + 1) = LiveRange::Segment(
1412f40707a2STim Renouf NewIdxDef.getRegSlot(), (NewIdxOut + 1)->end, OldIdxVNI);
1413f40707a2STim Renouf OldIdxVNI->def = NewIdxDef;
1414f40707a2STim Renouf // Modify subsequent segments to be defined by the moved def OldIdxVNI.
14159e6d1f4bSKazu Hirata for (auto *Idx = NewIdxOut + 2; Idx <= OldIdxOut; ++Idx)
1416f40707a2STim Renouf Idx->valno = OldIdxVNI;
1417f40707a2STim Renouf // Aggressively remove all dead flags from the former dead definition.
1418f40707a2STim Renouf // Kill/dead flags shouldn't be used while live intervals exist; they
1419f40707a2STim Renouf // will be reinserted by VirtRegRewriter.
1420f40707a2STim Renouf if (MachineInstr *KillMI = LIS.getInstructionFromIndex(NewIdx))
1421f40707a2STim Renouf for (MIBundleOperands MO(*KillMI); MO.isValid(); ++MO)
1422f40707a2STim Renouf if (MO->isReg() && !MO->isUse())
1423f40707a2STim Renouf MO->setIsDead(false);
1424f842297dSMatthias Braun } else {
1425f842297dSMatthias Braun // OldIdxVNI is a dead def. It may have been moved across other values
1426f842297dSMatthias Braun // in LR, so move OldIdxOut up to NewIdxOut. Slide [NewIdxOut;OldIdxOut)
1427f842297dSMatthias Braun // down one position.
1428f842297dSMatthias Braun // |- X0/NewIdxOut -| ... |- Xn-1 -| |- Xn/OldIdxOut -| |- next - |
1429f842297dSMatthias Braun // => |- undef/NewIdxOut -| |- X0 -| ... |- Xn-1 -| |- next -|
1430f842297dSMatthias Braun std::copy_backward(NewIdxOut, OldIdxOut, std::next(OldIdxOut));
1431f842297dSMatthias Braun // OldIdxVNI can be reused now to build a new dead def segment.
1432f842297dSMatthias Braun LiveRange::iterator NewSegment = NewIdxOut;
1433f842297dSMatthias Braun VNInfo *NewSegmentVNI = OldIdxVNI;
1434f842297dSMatthias Braun *NewSegment = LiveRange::Segment(NewIdxDef, NewIdxDef.getDeadSlot(),
1435f842297dSMatthias Braun NewSegmentVNI);
1436f842297dSMatthias Braun NewSegmentVNI->def = NewIdxDef;
1437f842297dSMatthias Braun }
1438f842297dSMatthias Braun }
1439f842297dSMatthias Braun }
1440f842297dSMatthias Braun
updateRegMaskSlots()1441f842297dSMatthias Braun void updateRegMaskSlots() {
1442f842297dSMatthias Braun SmallVectorImpl<SlotIndex>::iterator RI =
1443dc8de603SFangrui Song llvm::lower_bound(LIS.RegMaskSlots, OldIdx);
1444f842297dSMatthias Braun assert(RI != LIS.RegMaskSlots.end() && *RI == OldIdx.getRegSlot() &&
1445f842297dSMatthias Braun "No RegMask at OldIdx.");
1446f842297dSMatthias Braun *RI = NewIdx.getRegSlot();
1447f842297dSMatthias Braun assert((RI == LIS.RegMaskSlots.begin() ||
1448f842297dSMatthias Braun SlotIndex::isEarlierInstr(*std::prev(RI), *RI)) &&
1449f842297dSMatthias Braun "Cannot move regmask instruction above another call");
1450f842297dSMatthias Braun assert((std::next(RI) == LIS.RegMaskSlots.end() ||
1451f842297dSMatthias Braun SlotIndex::isEarlierInstr(*RI, *std::next(RI))) &&
1452f842297dSMatthias Braun "Cannot move regmask instruction below another call");
1453f842297dSMatthias Braun }
1454f842297dSMatthias Braun
1455f842297dSMatthias Braun // Return the last use of reg between NewIdx and OldIdx.
findLastUseBefore(SlotIndex Before,Register Reg,LaneBitmask LaneMask)1456b68994bdSGaurav Jain SlotIndex findLastUseBefore(SlotIndex Before, Register Reg,
1457f842297dSMatthias Braun LaneBitmask LaneMask) {
14582bea69bfSDaniel Sanders if (Register::isVirtualRegister(Reg)) {
1459f842297dSMatthias Braun SlotIndex LastUse = Before;
1460f842297dSMatthias Braun for (MachineOperand &MO : MRI.use_nodbg_operands(Reg)) {
1461f842297dSMatthias Braun if (MO.isUndef())
1462f842297dSMatthias Braun continue;
1463f842297dSMatthias Braun unsigned SubReg = MO.getSubReg();
1464f842297dSMatthias Braun if (SubReg != 0 && LaneMask.any()
1465f842297dSMatthias Braun && (TRI.getSubRegIndexLaneMask(SubReg) & LaneMask).none())
1466f842297dSMatthias Braun continue;
1467f842297dSMatthias Braun
1468f842297dSMatthias Braun const MachineInstr &MI = *MO.getParent();
1469f842297dSMatthias Braun SlotIndex InstSlot = LIS.getSlotIndexes()->getInstructionIndex(MI);
1470f842297dSMatthias Braun if (InstSlot > LastUse && InstSlot < OldIdx)
1471f842297dSMatthias Braun LastUse = InstSlot.getRegSlot();
1472f842297dSMatthias Braun }
1473f842297dSMatthias Braun return LastUse;
1474f842297dSMatthias Braun }
1475f842297dSMatthias Braun
1476f842297dSMatthias Braun // This is a regunit interval, so scanning the use list could be very
1477f842297dSMatthias Braun // expensive. Scan upwards from OldIdx instead.
1478f842297dSMatthias Braun assert(Before < OldIdx && "Expected upwards move");
1479f842297dSMatthias Braun SlotIndexes *Indexes = LIS.getSlotIndexes();
1480f842297dSMatthias Braun MachineBasicBlock *MBB = Indexes->getMBBFromIndex(Before);
1481f842297dSMatthias Braun
1482f842297dSMatthias Braun // OldIdx may not correspond to an instruction any longer, so set MII to
1483f842297dSMatthias Braun // point to the next instruction after OldIdx, or MBB->end().
1484f842297dSMatthias Braun MachineBasicBlock::iterator MII = MBB->end();
1485f842297dSMatthias Braun if (MachineInstr *MI = Indexes->getInstructionFromIndex(
1486f842297dSMatthias Braun Indexes->getNextNonNullIndex(OldIdx)))
1487f842297dSMatthias Braun if (MI->getParent() == MBB)
1488f842297dSMatthias Braun MII = MI;
1489f842297dSMatthias Braun
1490f842297dSMatthias Braun MachineBasicBlock::iterator Begin = MBB->begin();
1491f842297dSMatthias Braun while (MII != Begin) {
1492b98807dfSHongtao Yu if ((--MII)->isDebugOrPseudoInstr())
1493f842297dSMatthias Braun continue;
1494f842297dSMatthias Braun SlotIndex Idx = Indexes->getInstructionIndex(*MII);
1495f842297dSMatthias Braun
1496f842297dSMatthias Braun // Stop searching when Before is reached.
1497f842297dSMatthias Braun if (!SlotIndex::isEarlierInstr(Before, Idx))
1498f842297dSMatthias Braun return Before;
1499f842297dSMatthias Braun
1500f842297dSMatthias Braun // Check if MII uses Reg.
1501f842297dSMatthias Braun for (MIBundleOperands MO(*MII); MO.isValid(); ++MO)
1502f842297dSMatthias Braun if (MO->isReg() && !MO->isUndef() &&
15032bea69bfSDaniel Sanders Register::isPhysicalRegister(MO->getReg()) &&
1504f842297dSMatthias Braun TRI.hasRegUnit(MO->getReg(), Reg))
1505f842297dSMatthias Braun return Idx.getRegSlot();
1506f842297dSMatthias Braun }
1507f842297dSMatthias Braun // Didn't reach Before. It must be the first instruction in the block.
1508f842297dSMatthias Braun return Before;
1509f842297dSMatthias Braun }
1510f842297dSMatthias Braun };
1511f842297dSMatthias Braun
handleMove(MachineInstr & MI,bool UpdateFlags)1512f842297dSMatthias Braun void LiveIntervals::handleMove(MachineInstr &MI, bool UpdateFlags) {
1513c14334e9SMatt Arsenault // It is fine to move a bundle as a whole, but not an individual instruction
1514c14334e9SMatt Arsenault // inside it.
1515c14334e9SMatt Arsenault assert((!MI.isBundled() || MI.getOpcode() == TargetOpcode::BUNDLE) &&
1516c14334e9SMatt Arsenault "Cannot move instruction in bundle");
1517f842297dSMatthias Braun SlotIndex OldIndex = Indexes->getInstructionIndex(MI);
1518f842297dSMatthias Braun Indexes->removeMachineInstrFromMaps(MI);
1519f842297dSMatthias Braun SlotIndex NewIndex = Indexes->insertMachineInstrInMaps(MI);
1520f842297dSMatthias Braun assert(getMBBStartIdx(MI.getParent()) <= OldIndex &&
1521f842297dSMatthias Braun OldIndex < getMBBEndIdx(MI.getParent()) &&
1522f842297dSMatthias Braun "Cannot handle moves across basic block boundaries.");
1523f842297dSMatthias Braun
1524f842297dSMatthias Braun HMEditor HME(*this, *MRI, *TRI, OldIndex, NewIndex, UpdateFlags);
1525f842297dSMatthias Braun HME.updateAllRanges(&MI);
1526f842297dSMatthias Braun }
1527f842297dSMatthias Braun
handleMoveIntoNewBundle(MachineInstr & BundleStart,bool UpdateFlags)152843e2460aSCarl Ritson void LiveIntervals::handleMoveIntoNewBundle(MachineInstr &BundleStart,
1529f842297dSMatthias Braun bool UpdateFlags) {
153043e2460aSCarl Ritson assert((BundleStart.getOpcode() == TargetOpcode::BUNDLE) &&
153143e2460aSCarl Ritson "Bundle start is not a bundle");
153243e2460aSCarl Ritson SmallVector<SlotIndex, 16> ToProcess;
153343e2460aSCarl Ritson const SlotIndex NewIndex = Indexes->insertMachineInstrInMaps(BundleStart);
153443e2460aSCarl Ritson auto BundleEnd = getBundleEnd(BundleStart.getIterator());
153543e2460aSCarl Ritson
153643e2460aSCarl Ritson auto I = BundleStart.getIterator();
153743e2460aSCarl Ritson I++;
153843e2460aSCarl Ritson while (I != BundleEnd) {
153943e2460aSCarl Ritson if (!Indexes->hasIndex(*I))
154043e2460aSCarl Ritson continue;
154143e2460aSCarl Ritson SlotIndex OldIndex = Indexes->getInstructionIndex(*I, true);
154243e2460aSCarl Ritson ToProcess.push_back(OldIndex);
154343e2460aSCarl Ritson Indexes->removeMachineInstrFromMaps(*I, true);
154443e2460aSCarl Ritson I++;
154543e2460aSCarl Ritson }
154643e2460aSCarl Ritson for (SlotIndex OldIndex : ToProcess) {
1547f842297dSMatthias Braun HMEditor HME(*this, *MRI, *TRI, OldIndex, NewIndex, UpdateFlags);
154843e2460aSCarl Ritson HME.updateAllRanges(&BundleStart);
154943e2460aSCarl Ritson }
155043e2460aSCarl Ritson
155143e2460aSCarl Ritson // Fix up dead defs
155243e2460aSCarl Ritson const SlotIndex Index = getInstructionIndex(BundleStart);
155343e2460aSCarl Ritson for (unsigned Idx = 0, E = BundleStart.getNumOperands(); Idx != E; ++Idx) {
155443e2460aSCarl Ritson MachineOperand &MO = BundleStart.getOperand(Idx);
155543e2460aSCarl Ritson if (!MO.isReg())
155643e2460aSCarl Ritson continue;
155743e2460aSCarl Ritson Register Reg = MO.getReg();
155843e2460aSCarl Ritson if (Reg.isVirtual() && hasInterval(Reg) && !MO.isUndef()) {
155943e2460aSCarl Ritson LiveInterval &LI = getInterval(Reg);
156043e2460aSCarl Ritson LiveQueryResult LRQ = LI.Query(Index);
156143e2460aSCarl Ritson if (LRQ.isDeadDef())
156243e2460aSCarl Ritson MO.setIsDead();
156343e2460aSCarl Ritson }
156443e2460aSCarl Ritson }
1565f842297dSMatthias Braun }
1566f842297dSMatthias Braun
repairOldRegInRange(const MachineBasicBlock::iterator Begin,const MachineBasicBlock::iterator End,const SlotIndex EndIdx,LiveRange & LR,const Register Reg,LaneBitmask LaneMask)1567f842297dSMatthias Braun void LiveIntervals::repairOldRegInRange(const MachineBasicBlock::iterator Begin,
1568f842297dSMatthias Braun const MachineBasicBlock::iterator End,
1569b68994bdSGaurav Jain const SlotIndex EndIdx, LiveRange &LR,
1570b68994bdSGaurav Jain const Register Reg,
1571f842297dSMatthias Braun LaneBitmask LaneMask) {
1572b68994bdSGaurav Jain LiveInterval::iterator LII = LR.find(EndIdx);
1573f842297dSMatthias Braun SlotIndex lastUseIdx;
15747863cc6cSJay Foad if (LII != LR.end() && LII->start < EndIdx) {
1575deb2ca56SJay Foad lastUseIdx = LII->end;
15767863cc6cSJay Foad } else if (LII == LR.begin()) {
15777863cc6cSJay Foad // We may not have a liverange at all if this is a subregister untouched
15787863cc6cSJay Foad // between \p Begin and \p End.
15797863cc6cSJay Foad } else {
1580deb2ca56SJay Foad --LII;
15817863cc6cSJay Foad }
1582f842297dSMatthias Braun
1583f842297dSMatthias Braun for (MachineBasicBlock::iterator I = End; I != Begin;) {
1584f842297dSMatthias Braun --I;
1585f842297dSMatthias Braun MachineInstr &MI = *I;
1586b98807dfSHongtao Yu if (MI.isDebugOrPseudoInstr())
1587f842297dSMatthias Braun continue;
1588f842297dSMatthias Braun
1589f842297dSMatthias Braun SlotIndex instrIdx = getInstructionIndex(MI);
1590f842297dSMatthias Braun bool isStartValid = getInstructionFromIndex(LII->start);
1591f842297dSMatthias Braun bool isEndValid = getInstructionFromIndex(LII->end);
1592f842297dSMatthias Braun
1593f842297dSMatthias Braun // FIXME: This doesn't currently handle early-clobber or multiple removed
1594f842297dSMatthias Braun // defs inside of the region to repair.
1595ce227ce3SKazu Hirata for (const MachineOperand &MO : MI.operands()) {
1596f842297dSMatthias Braun if (!MO.isReg() || MO.getReg() != Reg)
1597f842297dSMatthias Braun continue;
1598f842297dSMatthias Braun
1599f842297dSMatthias Braun unsigned SubReg = MO.getSubReg();
1600f842297dSMatthias Braun LaneBitmask Mask = TRI->getSubRegIndexLaneMask(SubReg);
1601f842297dSMatthias Braun if ((Mask & LaneMask).none())
1602f842297dSMatthias Braun continue;
1603f842297dSMatthias Braun
1604f842297dSMatthias Braun if (MO.isDef()) {
1605f842297dSMatthias Braun if (!isStartValid) {
1606f842297dSMatthias Braun if (LII->end.isDead()) {
1607b9e3af12SJay Foad LII = LR.removeSegment(LII, true);
1608f842297dSMatthias Braun if (LII != LR.begin())
1609b9e3af12SJay Foad --LII;
1610f842297dSMatthias Braun } else {
1611f842297dSMatthias Braun LII->start = instrIdx.getRegSlot();
1612f842297dSMatthias Braun LII->valno->def = instrIdx.getRegSlot();
1613f842297dSMatthias Braun if (MO.getSubReg() && !MO.isUndef())
1614f842297dSMatthias Braun lastUseIdx = instrIdx.getRegSlot();
1615f842297dSMatthias Braun else
1616f842297dSMatthias Braun lastUseIdx = SlotIndex();
1617f842297dSMatthias Braun continue;
1618f842297dSMatthias Braun }
1619f842297dSMatthias Braun }
1620f842297dSMatthias Braun
1621f842297dSMatthias Braun if (!lastUseIdx.isValid()) {
1622f842297dSMatthias Braun VNInfo *VNI = LR.getNextValue(instrIdx.getRegSlot(), VNInfoAllocator);
1623f842297dSMatthias Braun LiveRange::Segment S(instrIdx.getRegSlot(),
1624f842297dSMatthias Braun instrIdx.getDeadSlot(), VNI);
1625f842297dSMatthias Braun LII = LR.addSegment(S);
1626f842297dSMatthias Braun } else if (LII->start != instrIdx.getRegSlot()) {
1627f842297dSMatthias Braun VNInfo *VNI = LR.getNextValue(instrIdx.getRegSlot(), VNInfoAllocator);
1628f842297dSMatthias Braun LiveRange::Segment S(instrIdx.getRegSlot(), lastUseIdx, VNI);
1629f842297dSMatthias Braun LII = LR.addSegment(S);
1630f842297dSMatthias Braun }
1631f842297dSMatthias Braun
1632f842297dSMatthias Braun if (MO.getSubReg() && !MO.isUndef())
1633f842297dSMatthias Braun lastUseIdx = instrIdx.getRegSlot();
1634f842297dSMatthias Braun else
1635f842297dSMatthias Braun lastUseIdx = SlotIndex();
1636f842297dSMatthias Braun } else if (MO.isUse()) {
1637f842297dSMatthias Braun // FIXME: This should probably be handled outside of this branch,
1638f842297dSMatthias Braun // either as part of the def case (for defs inside of the region) or
1639f842297dSMatthias Braun // after the loop over the region.
1640f842297dSMatthias Braun if (!isEndValid && !LII->end.isBlock())
1641f842297dSMatthias Braun LII->end = instrIdx.getRegSlot();
1642f842297dSMatthias Braun if (!lastUseIdx.isValid())
1643f842297dSMatthias Braun lastUseIdx = instrIdx.getRegSlot();
1644f842297dSMatthias Braun }
1645f842297dSMatthias Braun }
1646f842297dSMatthias Braun }
1647156d7d2dSJay Foad
1648156d7d2dSJay Foad bool isStartValid = getInstructionFromIndex(LII->start);
1649156d7d2dSJay Foad if (!isStartValid && LII->end.isDead())
1650156d7d2dSJay Foad LR.removeSegment(*LII, true);
1651f842297dSMatthias Braun }
1652f842297dSMatthias Braun
1653f842297dSMatthias Braun void
repairIntervalsInRange(MachineBasicBlock * MBB,MachineBasicBlock::iterator Begin,MachineBasicBlock::iterator End,ArrayRef<Register> OrigRegs)1654f842297dSMatthias Braun LiveIntervals::repairIntervalsInRange(MachineBasicBlock *MBB,
1655f842297dSMatthias Braun MachineBasicBlock::iterator Begin,
1656f842297dSMatthias Braun MachineBasicBlock::iterator End,
1657ca0ace72SMatt Arsenault ArrayRef<Register> OrigRegs) {
1658f842297dSMatthias Braun // Find anchor points, which are at the beginning/end of blocks or at
1659f842297dSMatthias Braun // instructions that already have indexes.
1660dbed4326SJay Foad while (Begin != MBB->begin() && !Indexes->hasIndex(*std::prev(Begin)))
1661f842297dSMatthias Braun --Begin;
1662f842297dSMatthias Braun while (End != MBB->end() && !Indexes->hasIndex(*End))
1663f842297dSMatthias Braun ++End;
1664f842297dSMatthias Braun
1665b68994bdSGaurav Jain SlotIndex EndIdx;
1666f842297dSMatthias Braun if (End == MBB->end())
1667b68994bdSGaurav Jain EndIdx = getMBBEndIdx(MBB).getPrevSlot();
1668f842297dSMatthias Braun else
1669b68994bdSGaurav Jain EndIdx = getInstructionIndex(*End);
1670f842297dSMatthias Braun
1671f842297dSMatthias Braun Indexes->repairIndexesInRange(MBB, Begin, End);
1672f842297dSMatthias Braun
1673e4e95f14SJay Foad // Make sure a live interval exists for all register operands in the range.
1674e4e95f14SJay Foad SmallVector<Register> RegsToRepair(OrigRegs.begin(), OrigRegs.end());
1675f842297dSMatthias Braun for (MachineBasicBlock::iterator I = End; I != Begin;) {
1676f842297dSMatthias Braun --I;
1677f842297dSMatthias Braun MachineInstr &MI = *I;
1678b98807dfSHongtao Yu if (MI.isDebugOrPseudoInstr())
1679f842297dSMatthias Braun continue;
1680ce227ce3SKazu Hirata for (const MachineOperand &MO : MI.operands()) {
1681ce227ce3SKazu Hirata if (MO.isReg() && MO.getReg().isVirtual()) {
1682ce227ce3SKazu Hirata Register Reg = MO.getReg();
1683e4e95f14SJay Foad // If the new instructions refer to subregs but the old instructions did
1684e4e95f14SJay Foad // not, throw away any old live interval so it will be recomputed with
1685e4e95f14SJay Foad // subranges.
1686ce227ce3SKazu Hirata if (MO.getSubReg() && hasInterval(Reg) &&
1687e4e95f14SJay Foad !getInterval(Reg).hasSubRanges() &&
1688e4e95f14SJay Foad MRI->shouldTrackSubRegLiveness(Reg))
1689e4e95f14SJay Foad removeInterval(Reg);
1690e4e95f14SJay Foad if (!hasInterval(Reg)) {
1691e4e95f14SJay Foad createAndComputeVirtRegInterval(Reg);
1692e4e95f14SJay Foad // Don't bother to repair a freshly calculated live interval.
1693e4e95f14SJay Foad erase_value(RegsToRepair, Reg);
1694e4e95f14SJay Foad }
1695f842297dSMatthias Braun }
1696f842297dSMatthias Braun }
1697f842297dSMatthias Braun }
1698f842297dSMatthias Braun
1699e4e95f14SJay Foad for (Register Reg : RegsToRepair) {
1700ca0ace72SMatt Arsenault if (!Reg.isVirtual())
1701f842297dSMatthias Braun continue;
1702f842297dSMatthias Braun
1703f842297dSMatthias Braun LiveInterval &LI = getInterval(Reg);
1704f842297dSMatthias Braun // FIXME: Should we support undefs that gain defs?
1705f842297dSMatthias Braun if (!LI.hasAtLeastOneValue())
1706f842297dSMatthias Braun continue;
1707f842297dSMatthias Braun
1708f842297dSMatthias Braun for (LiveInterval::SubRange &S : LI.subranges())
1709b68994bdSGaurav Jain repairOldRegInRange(Begin, End, EndIdx, S, Reg, S.LaneMask);
1710156d7d2dSJay Foad LI.removeEmptySubRanges();
1711f842297dSMatthias Braun
1712b68994bdSGaurav Jain repairOldRegInRange(Begin, End, EndIdx, LI, Reg);
1713f842297dSMatthias Braun }
1714f842297dSMatthias Braun }
1715f842297dSMatthias Braun
removePhysRegDefAt(MCRegister Reg,SlotIndex Pos)17164cfc4025SMircea Trofin void LiveIntervals::removePhysRegDefAt(MCRegister Reg, SlotIndex Pos) {
1717f842297dSMatthias Braun for (MCRegUnitIterator Unit(Reg, TRI); Unit.isValid(); ++Unit) {
1718f842297dSMatthias Braun if (LiveRange *LR = getCachedRegUnit(*Unit))
1719f842297dSMatthias Braun if (VNInfo *VNI = LR->getVNInfoAt(Pos))
1720f842297dSMatthias Braun LR->removeValNo(VNI);
1721f842297dSMatthias Braun }
1722f842297dSMatthias Braun }
1723f842297dSMatthias Braun
removeVRegDefAt(LiveInterval & LI,SlotIndex Pos)1724f842297dSMatthias Braun void LiveIntervals::removeVRegDefAt(LiveInterval &LI, SlotIndex Pos) {
1725f842297dSMatthias Braun // LI may not have the main range computed yet, but its subranges may
1726f842297dSMatthias Braun // be present.
1727f842297dSMatthias Braun VNInfo *VNI = LI.getVNInfoAt(Pos);
1728f842297dSMatthias Braun if (VNI != nullptr) {
1729f842297dSMatthias Braun assert(VNI->def.getBaseIndex() == Pos.getBaseIndex());
1730f842297dSMatthias Braun LI.removeValNo(VNI);
1731f842297dSMatthias Braun }
1732f842297dSMatthias Braun
1733f842297dSMatthias Braun // Also remove the value defined in subranges.
1734f842297dSMatthias Braun for (LiveInterval::SubRange &S : LI.subranges()) {
1735f842297dSMatthias Braun if (VNInfo *SVNI = S.getVNInfoAt(Pos))
1736f842297dSMatthias Braun if (SVNI->def.getBaseIndex() == Pos.getBaseIndex())
1737f842297dSMatthias Braun S.removeValNo(SVNI);
1738f842297dSMatthias Braun }
1739f842297dSMatthias Braun LI.removeEmptySubRanges();
1740f842297dSMatthias Braun }
1741f842297dSMatthias Braun
splitSeparateComponents(LiveInterval & LI,SmallVectorImpl<LiveInterval * > & SplitLIs)1742f842297dSMatthias Braun void LiveIntervals::splitSeparateComponents(LiveInterval &LI,
1743f842297dSMatthias Braun SmallVectorImpl<LiveInterval*> &SplitLIs) {
1744f842297dSMatthias Braun ConnectedVNInfoEqClasses ConEQ(*this);
1745f842297dSMatthias Braun unsigned NumComp = ConEQ.Classify(LI);
1746f842297dSMatthias Braun if (NumComp <= 1)
1747f842297dSMatthias Braun return;
1748d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << " Split " << NumComp << " components: " << LI << '\n');
1749b68994bdSGaurav Jain Register Reg = LI.reg();
1750f842297dSMatthias Braun const TargetRegisterClass *RegClass = MRI->getRegClass(Reg);
1751f842297dSMatthias Braun for (unsigned I = 1; I < NumComp; ++I) {
17520c476111SDaniel Sanders Register NewVReg = MRI->createVirtualRegister(RegClass);
1753f842297dSMatthias Braun LiveInterval &NewLI = createEmptyInterval(NewVReg);
1754f842297dSMatthias Braun SplitLIs.push_back(&NewLI);
1755f842297dSMatthias Braun }
1756f842297dSMatthias Braun ConEQ.Distribute(LI, SplitLIs.data(), *MRI);
1757f842297dSMatthias Braun }
1758f842297dSMatthias Braun
constructMainRangeFromSubranges(LiveInterval & LI)1759f842297dSMatthias Braun void LiveIntervals::constructMainRangeFromSubranges(LiveInterval &LI) {
1760ea11f472SMarcello Maggioni assert(LICalc && "LICalc not initialized.");
1761ea11f472SMarcello Maggioni LICalc->reset(MF, getSlotIndexes(), DomTree, &getVNInfoAllocator());
1762ea11f472SMarcello Maggioni LICalc->constructMainRangeFromSubranges(LI);
1763f842297dSMatthias Braun }
1764