void MachineVerifier::verifyLiveIntervals() {
  assert(LiveInts && "Don't call verifyLiveIntervals without LiveInts");
  for (LiveIntervals::const_iterator LVI = LiveInts->begin(),
       LVE = LiveInts->end(); LVI != LVE; ++LVI) {
    const LiveInterval &LI = *LVI->second;

    // Spilling and splitting may leave unused registers around. Skip them.
    if (MRI->use_empty(LI.reg))
      continue;

    // Physical registers have much weirdness going on, mostly from coalescing.
    // We should probably fix it, but for now just ignore them.
    if (TargetRegisterInfo::isPhysicalRegister(LI.reg))
      continue;

    assert(LVI->first == LI.reg && "Invalid reg to interval mapping");

    for (LiveInterval::const_vni_iterator I = LI.vni_begin(), E = LI.vni_end();
         I!=E; ++I) {
      VNInfo *VNI = *I;
      const VNInfo *DefVNI = LI.getVNInfoAt(VNI->def);

      if (!DefVNI) {
        if (!VNI->isUnused()) {
          report("Valno not live at def and not marked unused", MF);
          *OS << "Valno #" << VNI->id << " in " << LI << '\n';
        }
        continue;
      }

      if (VNI->isUnused())
        continue;

      if (DefVNI != VNI) {
        report("Live range at def has different valno", MF);
        *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
            << " where valno #" << DefVNI->id << " is live in " << LI << '\n';
        continue;
      }

      const MachineBasicBlock *MBB = LiveInts->getMBBFromIndex(VNI->def);
      if (!MBB) {
        report("Invalid definition index", MF);
        *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
            << " in " << LI << '\n';
        continue;
      }

      if (VNI->isPHIDef()) {
        if (VNI->def != LiveInts->getMBBStartIdx(MBB)) {
          report("PHIDef value is not defined at MBB start", MF);
          *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
              << ", not at the beginning of BB#" << MBB->getNumber()
              << " in " << LI << '\n';
        }
      } else {
        // Non-PHI def.
        const MachineInstr *MI = LiveInts->getInstructionFromIndex(VNI->def);
        if (!MI) {
          report("No instruction at def index", MF);
          *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
              << " in " << LI << '\n';
        } else if (!MI->modifiesRegister(LI.reg, TRI)) {
          report("Defining instruction does not modify register", MI);
          *OS << "Valno #" << VNI->id << " in " << LI << '\n';
        }

        bool isEarlyClobber = false;
        if (MI) {
          for (MachineInstr::const_mop_iterator MOI = MI->operands_begin(),
               MOE = MI->operands_end(); MOI != MOE; ++MOI) {
            if (MOI->isReg() && MOI->getReg() == LI.reg && MOI->isDef() &&
                MOI->isEarlyClobber()) {
              isEarlyClobber = true;
              break;
            }
          }
        }

        // Early clobber defs begin at USE slots, but other defs must begin at
        // DEF slots.
        if (isEarlyClobber) {
          if (!VNI->def.isUse()) {
            report("Early clobber def must be at a USE slot", MF);
            *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
                << " in " << LI << '\n';
          }
        } else if (!VNI->def.isDef()) {
          report("Non-PHI, non-early clobber def must be at a DEF slot", MF);
          *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
              << " in " << LI << '\n';
        }
      }
    }

    for (LiveInterval::const_iterator I = LI.begin(), E = LI.end(); I!=E; ++I) {
      const VNInfo *VNI = I->valno;
      assert(VNI && "Live range has no valno");

      if (VNI->id >= LI.getNumValNums() || VNI != LI.getValNumInfo(VNI->id)) {
        report("Foreign valno in live range", MF);
        I->print(*OS);
        *OS << " has a valno not in " << LI << '\n';
      }

      if (VNI->isUnused()) {
        report("Live range valno is marked unused", MF);
        I->print(*OS);
        *OS << " in " << LI << '\n';
      }

      const MachineBasicBlock *MBB = LiveInts->getMBBFromIndex(I->start);
      if (!MBB) {
        report("Bad start of live segment, no basic block", MF);
        I->print(*OS);
        *OS << " in " << LI << '\n';
        continue;
      }
      SlotIndex MBBStartIdx = LiveInts->getMBBStartIdx(MBB);
      if (I->start != MBBStartIdx && I->start != VNI->def) {
        report("Live segment must begin at MBB entry or valno def", MBB);
        I->print(*OS);
        *OS << " in " << LI << '\n' << "Basic block starts at "
            << MBBStartIdx << '\n';
      }

      const MachineBasicBlock *EndMBB =
                                LiveInts->getMBBFromIndex(I->end.getPrevSlot());
      if (!EndMBB) {
        report("Bad end of live segment, no basic block", MF);
        I->print(*OS);
        *OS << " in " << LI << '\n';
        continue;
      }
      if (I->end != LiveInts->getMBBEndIdx(EndMBB)) {
        // The live segment is ending inside EndMBB
        const MachineInstr *MI =
                        LiveInts->getInstructionFromIndex(I->end.getPrevSlot());
        if (!MI) {
          report("Live segment doesn't end at a valid instruction", EndMBB);
        I->print(*OS);
        *OS << " in " << LI << '\n' << "Basic block starts at "
            << MBBStartIdx << '\n';
        } else if (TargetRegisterInfo::isVirtualRegister(LI.reg) &&
                   !MI->readsVirtualRegister(LI.reg)) {
          // A live range can end with either a redefinition, a kill flag on a
          // use, or a dead flag on a def.
          // FIXME: Should we check for each of these?
          bool hasDeadDef = false;
          for (MachineInstr::const_mop_iterator MOI = MI->operands_begin(),
               MOE = MI->operands_end(); MOI != MOE; ++MOI) {
            if (MOI->isReg() && MOI->getReg() == LI.reg && MOI->isDef() && MOI->isDead()) {
              hasDeadDef = true;
              break;
            }
          }

          if (!hasDeadDef) {
            report("Instruction killing live segment neither defines nor reads "
                   "register", MI);
            I->print(*OS);
            *OS << " in " << LI << '\n';
          }
        }
      }

      // Now check all the basic blocks in this live segment.
      MachineFunction::const_iterator MFI = MBB;
      // Is this live range the beginning of a non-PHIDef VN?
      if (I->start == VNI->def && !VNI->isPHIDef()) {
        // Not live-in to any blocks.
        if (MBB == EndMBB)
          continue;
        // Skip this block.
        ++MFI;
      }
      for (;;) {
        assert(LiveInts->isLiveInToMBB(LI, MFI));
        // We don't know how to track physregs into a landing pad.
        if (TargetRegisterInfo::isPhysicalRegister(LI.reg) &&
            MFI->isLandingPad()) {
          if (&*MFI == EndMBB)
            break;
          ++MFI;
          continue;
        }
        // Check that VNI is live-out of all predecessors.
        for (MachineBasicBlock::const_pred_iterator PI = MFI->pred_begin(),
             PE = MFI->pred_end(); PI != PE; ++PI) {
          SlotIndex PEnd = LiveInts->getMBBEndIdx(*PI).getPrevSlot();
          const VNInfo *PVNI = LI.getVNInfoAt(PEnd);

          if (VNI->isPHIDef() && VNI->def == LiveInts->getMBBStartIdx(MFI))
            continue;

          if (!PVNI) {
            report("Register not marked live out of predecessor", *PI);
            *OS << "Valno #" << VNI->id << " live into BB#" << MFI->getNumber()
                << '@' << LiveInts->getMBBStartIdx(MFI) << ", not live at "
                << PEnd << " in " << LI << '\n';
            continue;
          }

          if (PVNI != VNI) {
            report("Different value live out of predecessor", *PI);
            *OS << "Valno #" << PVNI->id << " live out of BB#"
                << (*PI)->getNumber() << '@' << PEnd
                << "\nValno #" << VNI->id << " live into BB#" << MFI->getNumber()
                << '@' << LiveInts->getMBBStartIdx(MFI) << " in " << LI << '\n';
          }
        }
        if (&*MFI == EndMBB)
          break;
        ++MFI;
      }
    }

    // Check the LI only has one connected component.
    if (TargetRegisterInfo::isVirtualRegister(LI.reg)) {
      ConnectedVNInfoEqClasses ConEQ(*LiveInts);
      unsigned NumComp = ConEQ.Classify(&LI);
      if (NumComp > 1) {
        report("Multiple connected components in live interval", MF);
        *OS << NumComp << " components in " << LI << '\n';
        for (unsigned comp = 0; comp != NumComp; ++comp) {
          *OS << comp << ": valnos";
          for (LiveInterval::const_vni_iterator I = LI.vni_begin(),
               E = LI.vni_end(); I!=E; ++I)
            if (comp == ConEQ.getEqClass(*I))
              *OS << ' ' << (*I)->id;
          *OS << '\n';
        }
      }
    }
  }
}
void MachineVerifier::verifyLiveIntervals() {
  assert(LiveInts && "Don't call verifyLiveIntervals without LiveInts");
  for (unsigned i = 0, e = MRI->getNumVirtRegs(); i != e; ++i) {
    unsigned Reg = TargetRegisterInfo::index2VirtReg(i);

    // Spilling and splitting may leave unused registers around. Skip them.
    if (MRI->reg_nodbg_empty(Reg))
      continue;

    if (!LiveInts->hasInterval(Reg)) {
      report("Missing live interval for virtual register", MF);
      *OS << PrintReg(Reg, TRI) << " still has defs or uses\n";
      continue;
    }

    const LiveInterval &LI = LiveInts->getInterval(Reg);
    assert(Reg == LI.reg && "Invalid reg to interval mapping");

    for (LiveInterval::const_vni_iterator I = LI.vni_begin(), E = LI.vni_end();
         I!=E; ++I) {
      VNInfo *VNI = *I;
      const VNInfo *DefVNI = LI.getVNInfoAt(VNI->def);

      if (!DefVNI) {
        if (!VNI->isUnused()) {
          report("Valno not live at def and not marked unused", MF);
          *OS << "Valno #" << VNI->id << " in " << LI << '\n';
        }
        continue;
      }

      if (VNI->isUnused())
        continue;

      if (DefVNI != VNI) {
        report("Live range at def has different valno", MF);
        *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
            << " where valno #" << DefVNI->id << " is live in " << LI << '\n';
        continue;
      }

      const MachineBasicBlock *MBB = LiveInts->getMBBFromIndex(VNI->def);
      if (!MBB) {
        report("Invalid definition index", MF);
        *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
            << " in " << LI << '\n';
        continue;
      }

      if (VNI->isPHIDef()) {
        if (VNI->def != LiveInts->getMBBStartIdx(MBB)) {
          report("PHIDef value is not defined at MBB start", MF);
          *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
              << ", not at the beginning of BB#" << MBB->getNumber()
              << " in " << LI << '\n';
        }
      } else {
        // Non-PHI def.
        const MachineInstr *MI = LiveInts->getInstructionFromIndex(VNI->def);
        if (!MI) {
          report("No instruction at def index", MF);
          *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
              << " in " << LI << '\n';
          continue;
        }

        bool hasDef = false;
        bool isEarlyClobber = false;
        for (ConstMIBundleOperands MOI(MI); MOI.isValid(); ++MOI) {
          if (!MOI->isReg() || !MOI->isDef())
            continue;
          if (TargetRegisterInfo::isVirtualRegister(LI.reg)) {
            if (MOI->getReg() != LI.reg)
              continue;
          } else {
            if (!TargetRegisterInfo::isPhysicalRegister(MOI->getReg()) ||
                !TRI->regsOverlap(LI.reg, MOI->getReg()))
              continue;
          }
          hasDef = true;
          if (MOI->isEarlyClobber())
            isEarlyClobber = true;
        }

        if (!hasDef) {
          report("Defining instruction does not modify register", MI);
          *OS << "Valno #" << VNI->id << " in " << LI << '\n';
        }

        // Early clobber defs begin at USE slots, but other defs must begin at
        // DEF slots.
        if (isEarlyClobber) {
          if (!VNI->def.isEarlyClobber()) {
            report("Early clobber def must be at an early-clobber slot", MF);
            *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
                << " in " << LI << '\n';
          }
        } else if (!VNI->def.isRegister()) {
          report("Non-PHI, non-early clobber def must be at a register slot",
                 MF);
          *OS << "Valno #" << VNI->id << " is defined at " << VNI->def
              << " in " << LI << '\n';
        }
      }
    }

    for (LiveInterval::const_iterator I = LI.begin(), E = LI.end(); I!=E; ++I) {
      const VNInfo *VNI = I->valno;
      assert(VNI && "Live range has no valno");

      if (VNI->id >= LI.getNumValNums() || VNI != LI.getValNumInfo(VNI->id)) {
        report("Foreign valno in live range", MF);
        I->print(*OS);
        *OS << " has a valno not in " << LI << '\n';
      }

      if (VNI->isUnused()) {
        report("Live range valno is marked unused", MF);
        I->print(*OS);
        *OS << " in " << LI << '\n';
      }

      const MachineBasicBlock *MBB = LiveInts->getMBBFromIndex(I->start);
      if (!MBB) {
        report("Bad start of live segment, no basic block", MF);
        I->print(*OS);
        *OS << " in " << LI << '\n';
        continue;
      }
      SlotIndex MBBStartIdx = LiveInts->getMBBStartIdx(MBB);
      if (I->start != MBBStartIdx && I->start != VNI->def) {
        report("Live segment must begin at MBB entry or valno def", MBB);
        I->print(*OS);
        *OS << " in " << LI << '\n' << "Basic block starts at "
            << MBBStartIdx << '\n';
      }

      const MachineBasicBlock *EndMBB =
                                LiveInts->getMBBFromIndex(I->end.getPrevSlot());
      if (!EndMBB) {
        report("Bad end of live segment, no basic block", MF);
        I->print(*OS);
        *OS << " in " << LI << '\n';
        continue;
      }

      // No more checks for live-out segments.
      if (I->end == LiveInts->getMBBEndIdx(EndMBB))
        continue;

      // The live segment is ending inside EndMBB
      const MachineInstr *MI =
        LiveInts->getInstructionFromIndex(I->end.getPrevSlot());
      if (!MI) {
        report("Live segment doesn't end at a valid instruction", EndMBB);
        I->print(*OS);
        *OS << " in " << LI << '\n' << "Basic block starts at "
          << MBBStartIdx << '\n';
        continue;
      }

      // The block slot must refer to a basic block boundary.
      if (I->end.isBlock()) {
        report("Live segment ends at B slot of an instruction", MI);
        I->print(*OS);
        *OS << " in " << LI << '\n';
      }

      if (I->end.isDead()) {
        // Segment ends on the dead slot.
        // That means there must be a dead def.
        if (!SlotIndex::isSameInstr(I->start, I->end)) {
          report("Live segment ending at dead slot spans instructions", MI);
          I->print(*OS);
          *OS << " in " << LI << '\n';
        }
      }

      // A live segment can only end at an early-clobber slot if it is being
      // redefined by an early-clobber def.
      if (I->end.isEarlyClobber()) {
        if (I+1 == E || (I+1)->start != I->end) {
          report("Live segment ending at early clobber slot must be "
                 "redefined by an EC def in the same instruction", MI);
          I->print(*OS);
          *OS << " in " << LI << '\n';
        }
      }

      // The following checks only apply to virtual registers. Physreg liveness
      // is too weird to check.
      if (TargetRegisterInfo::isVirtualRegister(LI.reg)) {
        // A live range can end with either a redefinition, a kill flag on a
        // use, or a dead flag on a def.
        bool hasRead = false;
        bool hasDeadDef = false;
        for (ConstMIBundleOperands MOI(MI); MOI.isValid(); ++MOI) {
          if (!MOI->isReg() || MOI->getReg() != LI.reg)
            continue;
          if (MOI->readsReg())
            hasRead = true;
          if (MOI->isDef() && MOI->isDead())
            hasDeadDef = true;
        }

        if (I->end.isDead()) {
          if (!hasDeadDef) {
            report("Instruction doesn't have a dead def operand", MI);
            I->print(*OS);
            *OS << " in " << LI << '\n';
          }
        } else {
          if (!hasRead) {
            report("Instruction ending live range doesn't read the register",
                   MI);
            I->print(*OS);
            *OS << " in " << LI << '\n';
          }
        }
      }

      // Now check all the basic blocks in this live segment.
      MachineFunction::const_iterator MFI = MBB;
      // Is this live range the beginning of a non-PHIDef VN?
      if (I->start == VNI->def && !VNI->isPHIDef()) {
        // Not live-in to any blocks.
        if (MBB == EndMBB)
          continue;
        // Skip this block.
        ++MFI;
      }
      for (;;) {
        assert(LiveInts->isLiveInToMBB(LI, MFI));
        // We don't know how to track physregs into a landing pad.
        if (TargetRegisterInfo::isPhysicalRegister(LI.reg) &&
            MFI->isLandingPad()) {
          if (&*MFI == EndMBB)
            break;
          ++MFI;
          continue;
        }

        // Is VNI a PHI-def in the current block?
        bool IsPHI = VNI->isPHIDef() &&
                     VNI->def == LiveInts->getMBBStartIdx(MFI);

        // Check that VNI is live-out of all predecessors.
        for (MachineBasicBlock::const_pred_iterator PI = MFI->pred_begin(),
             PE = MFI->pred_end(); PI != PE; ++PI) {
          SlotIndex PEnd = LiveInts->getMBBEndIdx(*PI);
          const VNInfo *PVNI = LI.getVNInfoBefore(PEnd);

          // All predecessors must have a live-out value.
          if (!PVNI) {
            report("Register not marked live out of predecessor", *PI);
            *OS << "Valno #" << VNI->id << " live into BB#" << MFI->getNumber()
                << '@' << LiveInts->getMBBStartIdx(MFI) << ", not live before "
                << PEnd << " in " << LI << '\n';
            continue;
          }

          // Only PHI-defs can take different predecessor values.
          if (!IsPHI && PVNI != VNI) {
            report("Different value live out of predecessor", *PI);
            *OS << "Valno #" << PVNI->id << " live out of BB#"
                << (*PI)->getNumber() << '@' << PEnd
                << "\nValno #" << VNI->id << " live into BB#" << MFI->getNumber()
                << '@' << LiveInts->getMBBStartIdx(MFI) << " in "
                << PrintReg(Reg) << ": " << LI << '\n';
          }
        }
        if (&*MFI == EndMBB)
          break;
        ++MFI;
      }
    }

    // Check the LI only has one connected component.
    if (TargetRegisterInfo::isVirtualRegister(LI.reg)) {
      ConnectedVNInfoEqClasses ConEQ(*LiveInts);
      unsigned NumComp = ConEQ.Classify(&LI);
      if (NumComp > 1) {
        report("Multiple connected components in live interval", MF);
        *OS << NumComp << " components in " << LI << '\n';
        for (unsigned comp = 0; comp != NumComp; ++comp) {
          *OS << comp << ": valnos";
          for (LiveInterval::const_vni_iterator I = LI.vni_begin(),
               E = LI.vni_end(); I!=E; ++I)
            if (comp == ConEQ.getEqClass(*I))
              *OS << ' ' << (*I)->id;
          *OS << '\n';
        }
      }
    }
  }
}