llvm/unittests/MI/LiveIntervalTest.cpp - llvm-project - Git at Google

 #include "llvm/ADT/STLExtras.h"
 #include "llvm/CodeGen/LiveIntervals.h"
 #include "llvm/CodeGen/MIRParser/MIRParser.h"
 #include "llvm/CodeGen/MachineFunction.h"
 #include "llvm/CodeGen/MachineModuleInfo.h"
 #include "llvm/CodeGen/TargetRegisterInfo.h"
 #include "llvm/IR/LegacyPassManager.h"
 #include "llvm/InitializePasses.h"
 #include "llvm/MC/TargetRegistry.h"
 #include "llvm/Support/MemoryBuffer.h"
 #include "llvm/Support/SourceMgr.h"
 #include "llvm/Support/TargetSelect.h"
 #include "llvm/Target/TargetMachine.h"
 #include "llvm/Target/TargetOptions.h"
 #include "gtest/gtest.h"

 using namespace llvm;

 namespace llvm {
   void initializeTestPassPass(PassRegistry &);
 }

 namespace {

 void initLLVM() {
   InitializeAllTargets();
   InitializeAllTargetMCs();
   InitializeAllAsmPrinters();
   InitializeAllAsmParsers();

   PassRegistry *Registry = PassRegistry::getPassRegistry();
   initializeCore(*Registry);
   initializeCodeGen(*Registry);
 }

 /// Create a TargetMachine. As we lack a dedicated always available target for
 /// unittests, we go for "AMDGPU" to be able to test normal and subregister
 /// liveranges.
 std::unique_ptr<LLVMTargetMachine> createTargetMachine() {
   Triple TargetTriple("amdgcn--");
   std::string Error;
   const Target *T = TargetRegistry::lookupTarget("", TargetTriple, Error);
   if (!T)
     return nullptr;

   TargetOptions Options;
   return std::unique_ptr<LLVMTargetMachine>(static_cast<LLVMTargetMachine*>(
       T->createTargetMachine("AMDGPU", "gfx900", "", Options, None, None,
                              CodeGenOpt::Aggressive)));
 }

 std::unique_ptr<Module> parseMIR(LLVMContext &Context,
     legacy::PassManagerBase &PM, std::unique_ptr<MIRParser> &MIR,
     const LLVMTargetMachine &TM, StringRef MIRCode, const char *FuncName) {
   SMDiagnostic Diagnostic;
   std::unique_ptr<MemoryBuffer> MBuffer = MemoryBuffer::getMemBuffer(MIRCode);
   MIR = createMIRParser(std::move(MBuffer), Context);
   if (!MIR)
     return nullptr;

   std::unique_ptr<Module> M = MIR->parseIRModule();
   if (!M)
     return nullptr;

   M->setDataLayout(TM.createDataLayout());

   MachineModuleInfoWrapperPass *MMIWP = new MachineModuleInfoWrapperPass(&TM);
   if (MIR->parseMachineFunctions(*M, MMIWP->getMMI()))
     return nullptr;
   PM.add(MMIWP);

   return M;
 }

 typedef std::function<void(MachineFunction&,LiveIntervals&)> LiveIntervalTest;

 struct TestPass : public MachineFunctionPass {
   static char ID;
   TestPass() : MachineFunctionPass(ID) {
     // We should never call this but always use PM.add(new TestPass(...))
     abort();
   }
   TestPass(LiveIntervalTest T) : MachineFunctionPass(ID), T(T) {
     initializeTestPassPass(*PassRegistry::getPassRegistry());
   }

   bool runOnMachineFunction(MachineFunction &MF) override {
     LiveIntervals &LIS = getAnalysis<LiveIntervals>();
     T(MF, LIS);
     EXPECT_TRUE(MF.verify(this));
     return true;
   }

   void getAnalysisUsage(AnalysisUsage &AU) const override {
     AU.setPreservesAll();
     AU.addRequired<LiveIntervals>();
     AU.addPreserved<LiveIntervals>();
     MachineFunctionPass::getAnalysisUsage(AU);
   }
 private:
   LiveIntervalTest T;
 };

 static MachineInstr &getMI(MachineFunction &MF, unsigned At,
                            unsigned BlockNum) {
   MachineBasicBlock &MBB = *MF.getBlockNumbered(BlockNum);

   unsigned I = 0;
   for (MachineInstr &MI : MBB) {
     if (I == At)
       return MI;
     ++I;
   }
   llvm_unreachable("Instruction not found");
 }

 /**
  * Move instruction number \p From in front of instruction number \p To and
  * update affected liveness intervals with LiveIntervalAnalysis::handleMove().
  */
 static void testHandleMove(MachineFunction &MF, LiveIntervals &LIS,
                            unsigned From, unsigned To, unsigned BlockNum = 0) {
   MachineInstr &FromInstr = getMI(MF, From, BlockNum);
   MachineInstr &ToInstr = getMI(MF, To, BlockNum);

   MachineBasicBlock &MBB = *FromInstr.getParent();
   MBB.splice(ToInstr.getIterator(), &MBB, FromInstr.getIterator());
   LIS.handleMove(FromInstr, true);
 }

 /**
  * Move instructions numbered \p From inclusive through instruction number
  * \p To into a newly formed bundle and update affected liveness intervals
  * with LiveIntervalAnalysis::handleMoveIntoNewBundle().
  */
 static void testHandleMoveIntoNewBundle(MachineFunction &MF, LiveIntervals &LIS,
                                         unsigned From, unsigned To,
                                         unsigned BlockNum = 0) {
   MachineInstr &FromInstr = getMI(MF, From, BlockNum);
   MachineInstr &ToInstr = getMI(MF, To, BlockNum);
   MachineBasicBlock &MBB = *FromInstr.getParent();
   MachineBasicBlock::instr_iterator I = FromInstr.getIterator();

   // Build bundle
   finalizeBundle(MBB, I, std::next(ToInstr.getIterator()));

   // Update LiveIntervals
   MachineBasicBlock::instr_iterator BundleStart = std::prev(I);
   LIS.handleMoveIntoNewBundle(*BundleStart, true);
 }

 /**
  * Split block numbered \p BlockNum at instruction \p SplitAt using
  * MachineBasicBlock::splitAt updating liveness intervals.
  */
 static void testSplitAt(MachineFunction &MF, LiveIntervals &LIS,
                         unsigned SplitAt, unsigned BlockNum) {
   MachineInstr &SplitInstr = getMI(MF, SplitAt, BlockNum);
   MachineBasicBlock &MBB = *SplitInstr.getParent();

   // Split block and update live intervals
   MBB.splitAt(SplitInstr, false, &LIS);
 }

 static void liveIntervalTest(StringRef MIRFunc, LiveIntervalTest T) {
   LLVMContext Context;
   std::unique_ptr<LLVMTargetMachine> TM = createTargetMachine();
   // This test is designed for the X86 backend; stop if it is not available.
   if (!TM)
     return;

   legacy::PassManager PM;

   SmallString<160> S;
   StringRef MIRString = (Twine(R"MIR(
 ---
 ...
 name: func
 registers:
   - { id: 0, class: sreg_64 }
 body: |
   bb.0:
 )MIR") + Twine(MIRFunc) + Twine("...\n")).toNullTerminatedStringRef(S);
   std::unique_ptr<MIRParser> MIR;
   std::unique_ptr<Module> M = parseMIR(Context, PM, MIR, *TM, MIRString,
                                        "func");
   ASSERT_TRUE(M);

   PM.add(new TestPass(T));

   PM.run(*M);
 }

 } // End of anonymous namespace.

 char TestPass::ID = 0;
 INITIALIZE_PASS(TestPass, "testpass", "testpass", false, false)

 TEST(LiveIntervalTest, MoveUpDef) {
   // Value defined.
   liveIntervalTest(R"MIR(
     S_NOP 0
     S_NOP 0
     early-clobber %0 = IMPLICIT_DEF
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 2, 1);
   });
 }

 TEST(LiveIntervalTest, MoveUpRedef) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     %0 = IMPLICIT_DEF implicit %0(tied-def 0)
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 2, 1);
   });
 }

 TEST(LiveIntervalTest, MoveUpEarlyDef) {
   liveIntervalTest(R"MIR(
     S_NOP 0
     S_NOP 0
     early-clobber %0 = IMPLICIT_DEF
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 2, 1);
   });
 }

 TEST(LiveIntervalTest, MoveUpEarlyRedef) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     early-clobber %0 = IMPLICIT_DEF implicit %0(tied-def 0)
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 2, 1);
   });
 }

 TEST(LiveIntervalTest, MoveUpKill) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 2, 1);
   });
 }

 TEST(LiveIntervalTest, MoveUpKillFollowing) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit %0
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 2, 1);
   });
 }

 // TODO: Construct a situation where we have intervals following a hole
 // while still having connected components.

 TEST(LiveIntervalTest, MoveDownDef) {
   // Value defined.
   liveIntervalTest(R"MIR(
     S_NOP 0
     early-clobber %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 1, 2);
   });
 }

 TEST(LiveIntervalTest, MoveDownRedef) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     %0 = IMPLICIT_DEF implicit %0(tied-def 0)
     S_NOP 0
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 1, 2);
   });
 }

 TEST(LiveIntervalTest, MoveDownEarlyDef) {
   liveIntervalTest(R"MIR(
     S_NOP 0
     early-clobber %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 1, 2);
   });
 }

 TEST(LiveIntervalTest, MoveDownEarlyRedef) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     early-clobber %0 = IMPLICIT_DEF implicit %0(tied-def 0)
     S_NOP 0
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 1, 2);
   });
 }

 TEST(LiveIntervalTest, MoveDownKill) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0, implicit %0
     S_NOP 0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 1, 2);
   });
 }

 TEST(LiveIntervalTest, MoveDownKillFollowing) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit %0
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 1, 2);
   });
 }

 TEST(LiveIntervalTest, MoveUndefUse) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0, implicit undef %0
     S_NOP 0, implicit %0
     S_NOP 0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 1, 3);
   });
 }

 TEST(LiveIntervalTest, MoveUpValNos) {
   // handleMoveUp() had a bug where it would reuse the value number of the
   // destination segment, even though we have no guarantee that this valno
   // wasn't used in other segments.
   liveIntervalTest(R"MIR(
     successors: %bb.1, %bb.2
     %0 = IMPLICIT_DEF
     S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
     S_BRANCH %bb.1
   bb.2:
     S_NOP 0, implicit %0
   bb.1:
     successors: %bb.2
     %0 = IMPLICIT_DEF implicit %0(tied-def 0)
     %0 = IMPLICIT_DEF implicit %0(tied-def 0)
     %0 = IMPLICIT_DEF implicit %0(tied-def 0)
     S_BRANCH %bb.2
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 2, 0, 2);
   });
 }

 TEST(LiveIntervalTest, MoveOverUndefUse0) {
   // findLastUseBefore() used by handleMoveUp() must ignore undef operands.
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit undef %0
     %0 = IMPLICIT_DEF implicit %0(tied-def 0)
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 3, 1);
   });
 }

 TEST(LiveIntervalTest, MoveOverUndefUse1) {
   // findLastUseBefore() used by handleMoveUp() must ignore undef operands.
   liveIntervalTest(R"MIR(
     $sgpr0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit undef $sgpr0
     $sgpr0 = IMPLICIT_DEF implicit $sgpr0(tied-def 0)
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 3, 1);
   });
 }

 TEST(LiveIntervalTest, SubRegMoveDown) {
   // Subregister ranges can have holes inside a basic block. Check for a
   // movement of the form 32->150 in a liverange [16, 32) [100,200).
   liveIntervalTest(R"MIR(
     successors: %bb.1, %bb.2
     %0 = IMPLICIT_DEF
     S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
     S_BRANCH %bb.1
   bb.2:
     successors: %bb.1
     S_NOP 0, implicit %0.sub0
     S_NOP 0, implicit %0.sub1
     S_NOP 0
     undef %0.sub0 = IMPLICIT_DEF
     %0.sub1 = IMPLICIT_DEF
   bb.1:
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     // Scheduler behaviour: Clear def,read-undef flag and move.
     MachineInstr &MI = getMI(MF, 3, /*BlockNum=*/1);
     MI.getOperand(0).setIsUndef(false);
     testHandleMove(MF, LIS, 1, 4, /*BlockNum=*/1);
   });
 }

 TEST(LiveIntervalTest, SubRegMoveUp) {
   // handleMoveUp had a bug not updating valno of segment incoming to bb.2
   // after swapping subreg definitions.
   liveIntervalTest(R"MIR(
     successors: %bb.1, %bb.2
     undef %0.sub0 = IMPLICIT_DEF
     %0.sub1 = IMPLICIT_DEF
     S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
     S_BRANCH %bb.1
   bb.1:
     S_NOP 0, implicit %0.sub1
   bb.2:
     S_NOP 0, implicit %0.sub1
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 1, 0);
   });
 }

 TEST(LiveIntervalTest, DeadSubRegMoveUp) {
   // handleMoveUp had a bug where moving a dead subreg def into the middle of
   // an earlier segment resulted in an invalid live range.
   liveIntervalTest(R"MIR(
     undef %125.sub0:vreg_128 = V_MOV_B32_e32 0, implicit $exec
     %125.sub1:vreg_128 = COPY %125.sub0
     %125.sub2:vreg_128 = COPY %125.sub0
     undef %51.sub0:vreg_128 = V_MOV_B32_e32 898625526, implicit $exec
     %51.sub1:vreg_128 = COPY %51.sub0
     %51.sub2:vreg_128 = COPY %51.sub0
     %52:vgpr_32 = V_MOV_B32_e32 986714345, implicit $exec
     %54:vgpr_32 = V_MOV_B32_e32 1742342378, implicit $exec
     %57:vgpr_32 = V_MOV_B32_e32 3168768712, implicit $exec
     %59:vgpr_32 = V_MOV_B32_e32 1039972644, implicit $exec
     %60:vgpr_32 = nofpexcept V_MAD_F32_e64 0, %52, 0, undef %61:vgpr_32, 0, %59, 0, 0, implicit $mode, implicit $exec
     %63:vgpr_32 = nofpexcept V_ADD_F32_e32 %51.sub3, undef %64:vgpr_32, implicit $mode, implicit $exec
     dead %66:vgpr_32 = nofpexcept V_MAD_F32_e64 0, %60, 0, undef %67:vgpr_32, 0, %125.sub2, 0, 0, implicit $mode, implicit $exec
     undef %124.sub1:vreg_128 = nofpexcept V_MAD_F32_e64 0, %57, 0, undef %70:vgpr_32, 0, %125.sub1, 0, 0, implicit $mode, implicit $exec
     %124.sub0:vreg_128 = nofpexcept V_MAD_F32_e64 0, %54, 0, undef %73:vgpr_32, 0, %125.sub0, 0, 0, implicit $mode, implicit $exec
     dead undef %125.sub3:vreg_128 = nofpexcept V_MAC_F32_e32 %63, undef %76:vgpr_32, %125.sub3, implicit $mode, implicit $exec
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 15, 12);
   });
 }

 TEST(LiveIntervalTest, EarlyClobberSubRegMoveUp) {
   // handleMoveUp had a bug where moving an early-clobber subreg def into the
   // middle of an earlier segment resulted in an invalid live range.
   liveIntervalTest(R"MIR(
     %4:sreg_32 = IMPLICIT_DEF
     %6:sreg_32 = IMPLICIT_DEF
     undef early-clobber %9.sub0:sreg_64 = STRICT_WWM %4:sreg_32, implicit $exec
     %5:sreg_32 = S_FLBIT_I32_B32 %9.sub0:sreg_64
     early-clobber %9.sub1:sreg_64 = STRICT_WWM %6:sreg_32, implicit $exec
     %7:sreg_32 = S_FLBIT_I32_B32 %9.sub1:sreg_64
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMove(MF, LIS, 4, 3);
   });
 }

 TEST(LiveIntervalTest, TestMoveSubRegDefAcrossUseDef) {
   liveIntervalTest(R"MIR(
     %1:vreg_64 = IMPLICIT_DEF

   bb.1:
     %2:vgpr_32 = V_MOV_B32_e32 2, implicit $exec
     %3:vgpr_32 = V_ADD_U32_e32 %2, %1.sub0, implicit $exec
     undef %1.sub0:vreg_64 = V_ADD_U32_e32 %2, %2, implicit $exec
     %1.sub1:vreg_64 = COPY %2
     S_NOP 0, implicit %1.sub1
     S_BRANCH %bb.1

 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
      MachineInstr &UndefSubregDef = getMI(MF, 2, 1);
      // The scheduler clears undef from subregister defs before moving
      UndefSubregDef.getOperand(0).setIsUndef(false);
      testHandleMove(MF, LIS, 3, 1, 1);
   });
 }

 TEST(LiveIntervalTest, TestMoveSubRegDefAcrossUseDefMulti) {
   liveIntervalTest(R"MIR(
     %1:vreg_96 = IMPLICIT_DEF

   bb.1:
     %2:vgpr_32 = V_MOV_B32_e32 2, implicit $exec
     %3:vgpr_32 = V_ADD_U32_e32 %2, %1.sub0, implicit $exec
     undef %1.sub0:vreg_96 = V_ADD_U32_e32 %2, %2, implicit $exec
     %1.sub1:vreg_96 = COPY %2
     %1.sub2:vreg_96 = COPY %2
     S_NOP 0, implicit %1.sub1, implicit %1.sub2
     S_BRANCH %bb.1

 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
      MachineInstr &UndefSubregDef = getMI(MF, 2, 1);
      // The scheduler clears undef from subregister defs before moving
      UndefSubregDef.getOperand(0).setIsUndef(false);
      testHandleMove(MF, LIS, 4, 1, 1);
   });
 }

 TEST(LiveIntervalTest, TestMoveSubRegUseAcrossMainRangeHole) {
   liveIntervalTest(R"MIR(
     %1:sgpr_128 = IMPLICIT_DEF
   bb.1:
     %2:sgpr_32 = COPY %1.sub2
     %3:sgpr_32 = COPY %1.sub1
     %1.sub2 = COPY %2
     undef %1.sub0 = IMPLICIT_DEF
     %1.sub2 = IMPLICIT_DEF
     S_CBRANCH_SCC1 %bb.1, implicit undef $scc
     S_BRANCH %bb.2
   bb.2:
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     MachineInstr &MI = getMI(MF, 3, /*BlockNum=*/1);
     MI.getOperand(0).setIsUndef(false);
     testHandleMove(MF, LIS, 4, 3, 1);
     testHandleMove(MF, LIS, 1, 4, 1);
   });
 }

 TEST(LiveIntervalTest, BundleUse) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit %0
     S_NOP 0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMoveIntoNewBundle(MF, LIS, 1, 2);
   });
 }

 TEST(LiveIntervalTest, BundleDef) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit %0
     S_NOP 0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMoveIntoNewBundle(MF, LIS, 0, 1);
   });
 }

 TEST(LiveIntervalTest, BundleRedef) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     %0 = IMPLICIT_DEF implicit %0(tied-def 0)
     S_NOP 0, implicit %0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMoveIntoNewBundle(MF, LIS, 1, 2);
   });
 }

 TEST(LiveIntervalTest, BundleInternalUse) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit %0
     S_NOP 0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMoveIntoNewBundle(MF, LIS, 0, 2);
   });
 }

 TEST(LiveIntervalTest, BundleUndefUse) {
   liveIntervalTest(R"MIR(
     %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0, implicit undef %0
     S_NOP 0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMoveIntoNewBundle(MF, LIS, 1, 2);
   });
 }

 TEST(LiveIntervalTest, BundleSubRegUse) {
   liveIntervalTest(R"MIR(
     successors: %bb.1, %bb.2
     undef %0.sub0 = IMPLICIT_DEF
     %0.sub1 = IMPLICIT_DEF
     S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
     S_BRANCH %bb.1
   bb.1:
     S_NOP 0
     S_NOP 0, implicit %0.sub1
   bb.2:
     S_NOP 0, implicit %0.sub1
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMoveIntoNewBundle(MF, LIS, 0, 1, 1);
   });
 }

 TEST(LiveIntervalTest, BundleSubRegDef) {
   liveIntervalTest(R"MIR(
     successors: %bb.1, %bb.2
     undef %0.sub0 = IMPLICIT_DEF
     %0.sub1 = IMPLICIT_DEF
     S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
     S_BRANCH %bb.1
   bb.1:
     S_NOP 0
     S_NOP 0, implicit %0.sub1
   bb.2:
     S_NOP 0, implicit %0.sub1
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testHandleMoveIntoNewBundle(MF, LIS, 0, 1, 0);
   });
 }

 TEST(LiveIntervalTest, SplitAtOneInstruction) {
   liveIntervalTest(R"MIR(
     successors: %bb.1
     %0 = IMPLICIT_DEF
     S_BRANCH %bb.1
   bb.1:
     S_NOP 0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testSplitAt(MF, LIS, 1, 0);
   });
 }

 TEST(LiveIntervalTest, SplitAtMultiInstruction) {
   liveIntervalTest(R"MIR(
     successors: %bb.1
     %0 = IMPLICIT_DEF
     S_NOP 0
     S_NOP 0
     S_NOP 0
     S_NOP 0
     S_BRANCH %bb.1
   bb.1:
     S_NOP 0
 )MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
     testSplitAt(MF, LIS, 0, 0);
   });
 }

 int main(int argc, char **argv) {
   ::testing::InitGoogleTest(&argc, argv);
   initLLVM();
   return RUN_ALL_TESTS();
 }
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/CodeGen/LiveIntervals.h"
	#include "llvm/CodeGen/MIRParser/MIRParser.h"
	#include "llvm/CodeGen/MachineFunction.h"
	#include "llvm/CodeGen/MachineModuleInfo.h"
	#include "llvm/CodeGen/TargetRegisterInfo.h"
	#include "llvm/IR/LegacyPassManager.h"
	#include "llvm/InitializePasses.h"
	#include "llvm/MC/TargetRegistry.h"
	#include "llvm/Support/MemoryBuffer.h"
	#include "llvm/Support/SourceMgr.h"
	#include "llvm/Support/TargetSelect.h"
	#include "llvm/Target/TargetMachine.h"
	#include "llvm/Target/TargetOptions.h"
	#include "gtest/gtest.h"

	using namespace llvm;

	namespace llvm {
	void initializeTestPassPass(PassRegistry &);
	}

	namespace {

	void initLLVM() {
	InitializeAllTargets();
	InitializeAllTargetMCs();
	InitializeAllAsmPrinters();
	InitializeAllAsmParsers();

	PassRegistry *Registry = PassRegistry::getPassRegistry();
	initializeCore(*Registry);
	initializeCodeGen(*Registry);
	}

	/// Create a TargetMachine. As we lack a dedicated always available target for
	/// unittests, we go for "AMDGPU" to be able to test normal and subregister
	/// liveranges.
	std::unique_ptr<LLVMTargetMachine> createTargetMachine() {
	Triple TargetTriple("amdgcn--");
	std::string Error;
	const Target *T = TargetRegistry::lookupTarget("", TargetTriple, Error);
	if (!T)
	return nullptr;

	TargetOptions Options;
	return std::unique_ptr<LLVMTargetMachine>(static_cast<LLVMTargetMachine*>(
	T->createTargetMachine("AMDGPU", "gfx900", "", Options, None, None,
	CodeGenOpt::Aggressive)));
	}

	std::unique_ptr<Module> parseMIR(LLVMContext &Context,
	legacy::PassManagerBase &PM, std::unique_ptr<MIRParser> &MIR,
	const LLVMTargetMachine &TM, StringRef MIRCode, const char *FuncName) {
	SMDiagnostic Diagnostic;
	std::unique_ptr<MemoryBuffer> MBuffer = MemoryBuffer::getMemBuffer(MIRCode);
	MIR = createMIRParser(std::move(MBuffer), Context);
	if (!MIR)
	return nullptr;

	std::unique_ptr<Module> M = MIR->parseIRModule();
	if (!M)
	return nullptr;

	M->setDataLayout(TM.createDataLayout());

	MachineModuleInfoWrapperPass *MMIWP = new MachineModuleInfoWrapperPass(&TM);
	if (MIR->parseMachineFunctions(*M, MMIWP->getMMI()))
	return nullptr;
	PM.add(MMIWP);

	return M;
	}

	typedef std::function<void(MachineFunction&,LiveIntervals&)> LiveIntervalTest;

	struct TestPass : public MachineFunctionPass {
	static char ID;
	TestPass() : MachineFunctionPass(ID) {
	// We should never call this but always use PM.add(new TestPass(...))
	abort();
	}
	TestPass(LiveIntervalTest T) : MachineFunctionPass(ID), T(T) {
	initializeTestPassPass(*PassRegistry::getPassRegistry());
	}

	bool runOnMachineFunction(MachineFunction &MF) override {
	LiveIntervals &LIS = getAnalysis<LiveIntervals>();
	T(MF, LIS);
	EXPECT_TRUE(MF.verify(this));
	return true;
	}

	void getAnalysisUsage(AnalysisUsage &AU) const override {
	AU.setPreservesAll();
	AU.addRequired<LiveIntervals>();
	AU.addPreserved<LiveIntervals>();
	MachineFunctionPass::getAnalysisUsage(AU);
	}
	private:
	LiveIntervalTest T;
	};

	static MachineInstr &getMI(MachineFunction &MF, unsigned At,
	unsigned BlockNum) {
	MachineBasicBlock &MBB = *MF.getBlockNumbered(BlockNum);

	unsigned I = 0;
	for (MachineInstr &MI : MBB) {
	if (I == At)
	return MI;
	++I;
	}
	llvm_unreachable("Instruction not found");
	}

	/**
	* Move instruction number \p From in front of instruction number \p To and
	* update affected liveness intervals with LiveIntervalAnalysis::handleMove().
	*/
	static void testHandleMove(MachineFunction &MF, LiveIntervals &LIS,
	unsigned From, unsigned To, unsigned BlockNum = 0) {
	MachineInstr &FromInstr = getMI(MF, From, BlockNum);
	MachineInstr &ToInstr = getMI(MF, To, BlockNum);

	MachineBasicBlock &MBB = *FromInstr.getParent();
	MBB.splice(ToInstr.getIterator(), &MBB, FromInstr.getIterator());
	LIS.handleMove(FromInstr, true);
	}

	/**
	* Move instructions numbered \p From inclusive through instruction number
	* \p To into a newly formed bundle and update affected liveness intervals
	* with LiveIntervalAnalysis::handleMoveIntoNewBundle().
	*/
	static void testHandleMoveIntoNewBundle(MachineFunction &MF, LiveIntervals &LIS,
	unsigned From, unsigned To,
	unsigned BlockNum = 0) {
	MachineInstr &FromInstr = getMI(MF, From, BlockNum);
	MachineInstr &ToInstr = getMI(MF, To, BlockNum);
	MachineBasicBlock &MBB = *FromInstr.getParent();
	MachineBasicBlock::instr_iterator I = FromInstr.getIterator();

	// Build bundle
	finalizeBundle(MBB, I, std::next(ToInstr.getIterator()));

	// Update LiveIntervals
	MachineBasicBlock::instr_iterator BundleStart = std::prev(I);
	LIS.handleMoveIntoNewBundle(*BundleStart, true);
	}

	/**
	* Split block numbered \p BlockNum at instruction \p SplitAt using
	* MachineBasicBlock::splitAt updating liveness intervals.
	*/
	static void testSplitAt(MachineFunction &MF, LiveIntervals &LIS,
	unsigned SplitAt, unsigned BlockNum) {
	MachineInstr &SplitInstr = getMI(MF, SplitAt, BlockNum);
	MachineBasicBlock &MBB = *SplitInstr.getParent();

	// Split block and update live intervals
	MBB.splitAt(SplitInstr, false, &LIS);
	}

	static void liveIntervalTest(StringRef MIRFunc, LiveIntervalTest T) {
	LLVMContext Context;
	std::unique_ptr<LLVMTargetMachine> TM = createTargetMachine();
	// This test is designed for the X86 backend; stop if it is not available.
	if (!TM)
	return;

	legacy::PassManager PM;

	SmallString<160> S;
	StringRef MIRString = (Twine(R"MIR(
	---
	...
	name: func
	registers:
	- { id: 0, class: sreg_64 }
	body: \|
	bb.0:
	)MIR") + Twine(MIRFunc) + Twine("...\n")).toNullTerminatedStringRef(S);
	std::unique_ptr<MIRParser> MIR;
	std::unique_ptr<Module> M = parseMIR(Context, PM, MIR, *TM, MIRString,
	"func");
	ASSERT_TRUE(M);

	PM.add(new TestPass(T));

	PM.run(*M);
	}

	} // End of anonymous namespace.

	char TestPass::ID = 0;
	INITIALIZE_PASS(TestPass, "testpass", "testpass", false, false)

	TEST(LiveIntervalTest, MoveUpDef) {
	// Value defined.
	liveIntervalTest(R"MIR(
	S_NOP 0
	S_NOP 0
	early-clobber %0 = IMPLICIT_DEF
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 2, 1);
	});
	}

	TEST(LiveIntervalTest, MoveUpRedef) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	%0 = IMPLICIT_DEF implicit %0(tied-def 0)
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 2, 1);
	});
	}

	TEST(LiveIntervalTest, MoveUpEarlyDef) {
	liveIntervalTest(R"MIR(
	S_NOP 0
	S_NOP 0
	early-clobber %0 = IMPLICIT_DEF
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 2, 1);
	});
	}

	TEST(LiveIntervalTest, MoveUpEarlyRedef) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	early-clobber %0 = IMPLICIT_DEF implicit %0(tied-def 0)
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 2, 1);
	});
	}

	TEST(LiveIntervalTest, MoveUpKill) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 2, 1);
	});
	}

	TEST(LiveIntervalTest, MoveUpKillFollowing) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit %0
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 2, 1);
	});
	}

	// TODO: Construct a situation where we have intervals following a hole
	// while still having connected components.

	TEST(LiveIntervalTest, MoveDownDef) {
	// Value defined.
	liveIntervalTest(R"MIR(
	S_NOP 0
	early-clobber %0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 1, 2);
	});
	}

	TEST(LiveIntervalTest, MoveDownRedef) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	%0 = IMPLICIT_DEF implicit %0(tied-def 0)
	S_NOP 0
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 1, 2);
	});
	}

	TEST(LiveIntervalTest, MoveDownEarlyDef) {
	liveIntervalTest(R"MIR(
	S_NOP 0
	early-clobber %0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 1, 2);
	});
	}

	TEST(LiveIntervalTest, MoveDownEarlyRedef) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	early-clobber %0 = IMPLICIT_DEF implicit %0(tied-def 0)
	S_NOP 0
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 1, 2);
	});
	}

	TEST(LiveIntervalTest, MoveDownKill) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0, implicit %0
	S_NOP 0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 1, 2);
	});
	}

	TEST(LiveIntervalTest, MoveDownKillFollowing) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit %0
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 1, 2);
	});
	}

	TEST(LiveIntervalTest, MoveUndefUse) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0, implicit undef %0
	S_NOP 0, implicit %0
	S_NOP 0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 1, 3);
	});
	}

	TEST(LiveIntervalTest, MoveUpValNos) {
	// handleMoveUp() had a bug where it would reuse the value number of the
	// destination segment, even though we have no guarantee that this valno
	// wasn't used in other segments.
	liveIntervalTest(R"MIR(
	successors: %bb.1, %bb.2
	%0 = IMPLICIT_DEF
	S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
	S_BRANCH %bb.1
	bb.2:
	S_NOP 0, implicit %0
	bb.1:
	successors: %bb.2
	%0 = IMPLICIT_DEF implicit %0(tied-def 0)
	%0 = IMPLICIT_DEF implicit %0(tied-def 0)
	%0 = IMPLICIT_DEF implicit %0(tied-def 0)
	S_BRANCH %bb.2
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 2, 0, 2);
	});
	}

	TEST(LiveIntervalTest, MoveOverUndefUse0) {
	// findLastUseBefore() used by handleMoveUp() must ignore undef operands.
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit undef %0
	%0 = IMPLICIT_DEF implicit %0(tied-def 0)
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 3, 1);
	});
	}

	TEST(LiveIntervalTest, MoveOverUndefUse1) {
	// findLastUseBefore() used by handleMoveUp() must ignore undef operands.
	liveIntervalTest(R"MIR(
	$sgpr0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit undef $sgpr0
	$sgpr0 = IMPLICIT_DEF implicit $sgpr0(tied-def 0)
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 3, 1);
	});
	}

	TEST(LiveIntervalTest, SubRegMoveDown) {
	// Subregister ranges can have holes inside a basic block. Check for a
	// movement of the form 32->150 in a liverange [16, 32) [100,200).
	liveIntervalTest(R"MIR(
	successors: %bb.1, %bb.2
	%0 = IMPLICIT_DEF
	S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
	S_BRANCH %bb.1
	bb.2:
	successors: %bb.1
	S_NOP 0, implicit %0.sub0
	S_NOP 0, implicit %0.sub1
	S_NOP 0
	undef %0.sub0 = IMPLICIT_DEF
	%0.sub1 = IMPLICIT_DEF
	bb.1:
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	// Scheduler behaviour: Clear def,read-undef flag and move.
	MachineInstr &MI = getMI(MF, 3, /BlockNum=/1);
	MI.getOperand(0).setIsUndef(false);
	testHandleMove(MF, LIS, 1, 4, /BlockNum=/1);
	});
	}

	TEST(LiveIntervalTest, SubRegMoveUp) {
	// handleMoveUp had a bug not updating valno of segment incoming to bb.2
	// after swapping subreg definitions.
	liveIntervalTest(R"MIR(
	successors: %bb.1, %bb.2
	undef %0.sub0 = IMPLICIT_DEF
	%0.sub1 = IMPLICIT_DEF
	S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
	S_BRANCH %bb.1
	bb.1:
	S_NOP 0, implicit %0.sub1
	bb.2:
	S_NOP 0, implicit %0.sub1
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 1, 0);
	});
	}

	TEST(LiveIntervalTest, DeadSubRegMoveUp) {
	// handleMoveUp had a bug where moving a dead subreg def into the middle of
	// an earlier segment resulted in an invalid live range.
	liveIntervalTest(R"MIR(
	undef %125.sub0:vreg_128 = V_MOV_B32_e32 0, implicit $exec
	%125.sub1:vreg_128 = COPY %125.sub0
	%125.sub2:vreg_128 = COPY %125.sub0
	undef %51.sub0:vreg_128 = V_MOV_B32_e32 898625526, implicit $exec
	%51.sub1:vreg_128 = COPY %51.sub0
	%51.sub2:vreg_128 = COPY %51.sub0
	%52:vgpr_32 = V_MOV_B32_e32 986714345, implicit $exec
	%54:vgpr_32 = V_MOV_B32_e32 1742342378, implicit $exec
	%57:vgpr_32 = V_MOV_B32_e32 3168768712, implicit $exec
	%59:vgpr_32 = V_MOV_B32_e32 1039972644, implicit $exec
	%60:vgpr_32 = nofpexcept V_MAD_F32_e64 0, %52, 0, undef %61:vgpr_32, 0, %59, 0, 0, implicit $mode, implicit $exec
	%63:vgpr_32 = nofpexcept V_ADD_F32_e32 %51.sub3, undef %64:vgpr_32, implicit $mode, implicit $exec
	dead %66:vgpr_32 = nofpexcept V_MAD_F32_e64 0, %60, 0, undef %67:vgpr_32, 0, %125.sub2, 0, 0, implicit $mode, implicit $exec
	undef %124.sub1:vreg_128 = nofpexcept V_MAD_F32_e64 0, %57, 0, undef %70:vgpr_32, 0, %125.sub1, 0, 0, implicit $mode, implicit $exec
	%124.sub0:vreg_128 = nofpexcept V_MAD_F32_e64 0, %54, 0, undef %73:vgpr_32, 0, %125.sub0, 0, 0, implicit $mode, implicit $exec
	dead undef %125.sub3:vreg_128 = nofpexcept V_MAC_F32_e32 %63, undef %76:vgpr_32, %125.sub3, implicit $mode, implicit $exec
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 15, 12);
	});
	}

	TEST(LiveIntervalTest, EarlyClobberSubRegMoveUp) {
	// handleMoveUp had a bug where moving an early-clobber subreg def into the
	// middle of an earlier segment resulted in an invalid live range.
	liveIntervalTest(R"MIR(
	%4:sreg_32 = IMPLICIT_DEF
	%6:sreg_32 = IMPLICIT_DEF
	undef early-clobber %9.sub0:sreg_64 = STRICT_WWM %4:sreg_32, implicit $exec
	%5:sreg_32 = S_FLBIT_I32_B32 %9.sub0:sreg_64
	early-clobber %9.sub1:sreg_64 = STRICT_WWM %6:sreg_32, implicit $exec
	%7:sreg_32 = S_FLBIT_I32_B32 %9.sub1:sreg_64
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMove(MF, LIS, 4, 3);
	});
	}

	TEST(LiveIntervalTest, TestMoveSubRegDefAcrossUseDef) {
	liveIntervalTest(R"MIR(
	%1:vreg_64 = IMPLICIT_DEF

	bb.1:
	%2:vgpr_32 = V_MOV_B32_e32 2, implicit $exec
	%3:vgpr_32 = V_ADD_U32_e32 %2, %1.sub0, implicit $exec
	undef %1.sub0:vreg_64 = V_ADD_U32_e32 %2, %2, implicit $exec
	%1.sub1:vreg_64 = COPY %2
	S_NOP 0, implicit %1.sub1
	S_BRANCH %bb.1

	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	MachineInstr &UndefSubregDef = getMI(MF, 2, 1);
	// The scheduler clears undef from subregister defs before moving
	UndefSubregDef.getOperand(0).setIsUndef(false);
	testHandleMove(MF, LIS, 3, 1, 1);
	});
	}

	TEST(LiveIntervalTest, TestMoveSubRegDefAcrossUseDefMulti) {
	liveIntervalTest(R"MIR(
	%1:vreg_96 = IMPLICIT_DEF

	bb.1:
	%2:vgpr_32 = V_MOV_B32_e32 2, implicit $exec
	%3:vgpr_32 = V_ADD_U32_e32 %2, %1.sub0, implicit $exec
	undef %1.sub0:vreg_96 = V_ADD_U32_e32 %2, %2, implicit $exec
	%1.sub1:vreg_96 = COPY %2
	%1.sub2:vreg_96 = COPY %2
	S_NOP 0, implicit %1.sub1, implicit %1.sub2
	S_BRANCH %bb.1

	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	MachineInstr &UndefSubregDef = getMI(MF, 2, 1);
	// The scheduler clears undef from subregister defs before moving
	UndefSubregDef.getOperand(0).setIsUndef(false);
	testHandleMove(MF, LIS, 4, 1, 1);
	});
	}

	TEST(LiveIntervalTest, TestMoveSubRegUseAcrossMainRangeHole) {
	liveIntervalTest(R"MIR(
	%1:sgpr_128 = IMPLICIT_DEF
	bb.1:
	%2:sgpr_32 = COPY %1.sub2
	%3:sgpr_32 = COPY %1.sub1
	%1.sub2 = COPY %2
	undef %1.sub0 = IMPLICIT_DEF
	%1.sub2 = IMPLICIT_DEF
	S_CBRANCH_SCC1 %bb.1, implicit undef $scc
	S_BRANCH %bb.2
	bb.2:
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	MachineInstr &MI = getMI(MF, 3, /BlockNum=/1);
	MI.getOperand(0).setIsUndef(false);
	testHandleMove(MF, LIS, 4, 3, 1);
	testHandleMove(MF, LIS, 1, 4, 1);
	});
	}

	TEST(LiveIntervalTest, BundleUse) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit %0
	S_NOP 0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMoveIntoNewBundle(MF, LIS, 1, 2);
	});
	}

	TEST(LiveIntervalTest, BundleDef) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit %0
	S_NOP 0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMoveIntoNewBundle(MF, LIS, 0, 1);
	});
	}

	TEST(LiveIntervalTest, BundleRedef) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	%0 = IMPLICIT_DEF implicit %0(tied-def 0)
	S_NOP 0, implicit %0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMoveIntoNewBundle(MF, LIS, 1, 2);
	});
	}

	TEST(LiveIntervalTest, BundleInternalUse) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit %0
	S_NOP 0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMoveIntoNewBundle(MF, LIS, 0, 2);
	});
	}

	TEST(LiveIntervalTest, BundleUndefUse) {
	liveIntervalTest(R"MIR(
	%0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0, implicit undef %0
	S_NOP 0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMoveIntoNewBundle(MF, LIS, 1, 2);
	});
	}

	TEST(LiveIntervalTest, BundleSubRegUse) {
	liveIntervalTest(R"MIR(
	successors: %bb.1, %bb.2
	undef %0.sub0 = IMPLICIT_DEF
	%0.sub1 = IMPLICIT_DEF
	S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
	S_BRANCH %bb.1
	bb.1:
	S_NOP 0
	S_NOP 0, implicit %0.sub1
	bb.2:
	S_NOP 0, implicit %0.sub1
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMoveIntoNewBundle(MF, LIS, 0, 1, 1);
	});
	}

	TEST(LiveIntervalTest, BundleSubRegDef) {
	liveIntervalTest(R"MIR(
	successors: %bb.1, %bb.2
	undef %0.sub0 = IMPLICIT_DEF
	%0.sub1 = IMPLICIT_DEF
	S_CBRANCH_VCCNZ %bb.2, implicit undef $vcc
	S_BRANCH %bb.1
	bb.1:
	S_NOP 0
	S_NOP 0, implicit %0.sub1
	bb.2:
	S_NOP 0, implicit %0.sub1
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testHandleMoveIntoNewBundle(MF, LIS, 0, 1, 0);
	});
	}

	TEST(LiveIntervalTest, SplitAtOneInstruction) {
	liveIntervalTest(R"MIR(
	successors: %bb.1
	%0 = IMPLICIT_DEF
	S_BRANCH %bb.1
	bb.1:
	S_NOP 0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testSplitAt(MF, LIS, 1, 0);
	});
	}

	TEST(LiveIntervalTest, SplitAtMultiInstruction) {
	liveIntervalTest(R"MIR(
	successors: %bb.1
	%0 = IMPLICIT_DEF
	S_NOP 0
	S_NOP 0
	S_NOP 0
	S_NOP 0
	S_BRANCH %bb.1
	bb.1:
	S_NOP 0
	)MIR", [](MachineFunction &MF, LiveIntervals &LIS) {
	testSplitAt(MF, LIS, 0, 0);
	});
	}

	int main(int argc, char **argv) {
	::testing::InitGoogleTest(&argc, argv);
	initLLVM();
	return RUN_ALL_TESTS();
	}