[llvm-branch-commits] [llvm-branch] r84908 - in /llvm/branches/Apple/Leela: lib/CodeGen/PostRASchedulerList.cpp test/CodeGen/Thumb2/2009-09-28-ITBlockBug.ll test/CodeGen/X86/break-anti-dependencies.ll test/CodeGen/X86/sse3.ll
Bill Wendling
isanbard at gmail.com
Thu Oct 22 15:37:29 PDT 2009
Author: void
Date: Thu Oct 22 17:37:28 2009
New Revision: 84908
URL: http://llvm.org/viewvc/llvm-project?rev=84908&view=rev
Log:
$ svn merge -c 84727 https://llvm.org/svn/llvm-project/llvm/trunk
--- Merging r84727 into '.':
U test/CodeGen/X86/break-anti-dependencies.ll
U test/CodeGen/X86/sse3.ll
U test/CodeGen/Thumb2/2009-09-28-ITBlockBug.ll
U lib/CodeGen/PostRASchedulerList.cpp
Modified:
llvm/branches/Apple/Leela/lib/CodeGen/PostRASchedulerList.cpp
llvm/branches/Apple/Leela/test/CodeGen/Thumb2/2009-09-28-ITBlockBug.ll
llvm/branches/Apple/Leela/test/CodeGen/X86/break-anti-dependencies.ll
llvm/branches/Apple/Leela/test/CodeGen/X86/sse3.ll
Modified: llvm/branches/Apple/Leela/lib/CodeGen/PostRASchedulerList.cpp
URL: http://llvm.org/viewvc/llvm-project/llvm/branches/Apple/Leela/lib/CodeGen/PostRASchedulerList.cpp?rev=84908&r1=84907&r2=84908&view=diff
==============================================================================
--- llvm/branches/Apple/Leela/lib/CodeGen/PostRASchedulerList.cpp (original)
+++ llvm/branches/Apple/Leela/lib/CodeGen/PostRASchedulerList.cpp Thu Oct 22 17:37:28 2009
@@ -48,7 +48,6 @@
STATISTIC(NumNoops, "Number of noops inserted");
STATISTIC(NumStalls, "Number of pipeline stalls");
-STATISTIC(NumFixedAnti, "Number of fixed anti-dependencies");
// Post-RA scheduling is enabled with
// TargetSubtarget.enablePostRAScheduler(). This flag can be used to
@@ -57,11 +56,10 @@
EnablePostRAScheduler("post-RA-scheduler",
cl::desc("Enable scheduling after register allocation"),
cl::init(false), cl::Hidden);
-static cl::opt<std::string>
+static cl::opt<bool>
EnableAntiDepBreaking("break-anti-dependencies",
- cl::desc("Break post-RA scheduling anti-dependencies: "
- "\"critical\", \"all\", or \"none\""),
- cl::init("critical"), cl::Hidden);
+ cl::desc("Break post-RA scheduling anti-dependencies"),
+ cl::init(true), cl::Hidden);
static cl::opt<bool>
EnablePostRAHazardAvoidance("avoid-hazards",
cl::desc("Enable exact hazard avoidance"),
@@ -106,16 +104,8 @@
char PostRAScheduler::ID = 0;
class VISIBILITY_HIDDEN SchedulePostRATDList : public ScheduleDAGInstrs {
- /// RegisterReference - Information about a register reference
- /// within a liverange
- typedef struct {
- /// Operand - The registers operand
- MachineOperand *Operand;
- /// RC - The register class
- const TargetRegisterClass *RC;
- } RegisterReference;
-
/// AvailableQueue - The priority queue to use for the available SUnits.
+ ///
LatencyPriorityQueue AvailableQueue;
/// PendingQueue - This contains all of the instructions whose operands have
@@ -127,43 +117,40 @@
/// Topo - A topological ordering for SUnits.
ScheduleDAGTopologicalSort Topo;
+ /// AllocatableSet - The set of allocatable registers.
+ /// We'll be ignoring anti-dependencies on non-allocatable registers,
+ /// because they may not be safe to break.
+ const BitVector AllocatableSet;
+
/// HazardRec - The hazard recognizer to use.
ScheduleHazardRecognizer *HazardRec;
/// AA - AliasAnalysis for making memory reference queries.
AliasAnalysis *AA;
- /// AllocatableSet - The set of allocatable registers.
- /// We'll be ignoring anti-dependencies on non-allocatable registers,
- /// because they may not be safe to break.
- const BitVector AllocatableSet;
-
- /// GroupNodes - Implements a disjoint-union data structure to
- /// form register groups. A node is represented by an index into
- /// the vector. A node can "point to" itself to indicate that it
- /// is the parent of a group, or point to another node to indicate
- /// that it is a member of the same group as that node.
- std::vector<unsigned> GroupNodes;
-
- /// GroupNodeIndices - For each register, the index of the GroupNode
- /// currently representing the group that the register belongs to.
- /// Register 0 is always represented by the 0 group, a group
- /// composed of registers that are not eligible for anti-aliasing.
- unsigned GroupNodeIndices[TargetRegisterInfo::FirstVirtualRegister];
+ /// Classes - For live regs that are only used in one register class in a
+ /// live range, the register class. If the register is not live, the
+ /// corresponding value is null. If the register is live but used in
+ /// multiple register classes, the corresponding value is -1 casted to a
+ /// pointer.
+ const TargetRegisterClass *
+ Classes[TargetRegisterInfo::FirstVirtualRegister];
/// RegRegs - Map registers to all their references within a live range.
- std::multimap<unsigned, RegisterReference> RegRefs;
+ std::multimap<unsigned, MachineOperand *> RegRefs;
- /// KillIndices - The index of the most recent kill (proceding
- /// bottom-up), or ~0u if no kill of the register has been
- /// seen. The register is live if this index != ~0u and DefIndices
- /// == ~0u.
+ /// KillIndices - The index of the most recent kill (proceding bottom-up),
+ /// or ~0u if the register is not live.
unsigned KillIndices[TargetRegisterInfo::FirstVirtualRegister];
/// DefIndices - The index of the most recent complete def (proceding bottom
/// up), or ~0u if the register is live.
unsigned DefIndices[TargetRegisterInfo::FirstVirtualRegister];
+ /// KeepRegs - A set of registers which are live and cannot be changed to
+ /// break anti-dependencies.
+ SmallSet<unsigned, 4> KeepRegs;
+
public:
SchedulePostRATDList(MachineFunction &MF,
const MachineLoopInfo &MLI,
@@ -171,9 +158,8 @@
ScheduleHazardRecognizer *HR,
AliasAnalysis *aa)
: ScheduleDAGInstrs(MF, MLI, MDT), Topo(SUnits),
- HazardRec(HR), AA(aa),
- AllocatableSet(TRI->getAllocatableSet(MF)),
- GroupNodes(TargetRegisterInfo::FirstVirtualRegister, 0) {}
+ AllocatableSet(TRI->getAllocatableSet(MF)),
+ HazardRec(HR), AA(aa) {}
~SchedulePostRATDList() {
delete HazardRec;
@@ -184,15 +170,6 @@
///
void StartBlock(MachineBasicBlock *BB);
- /// FinishBlock - Clean up register live-range state.
- ///
- void FinishBlock();
-
- /// Observe - Update liveness information to account for the current
- /// instruction, which will not be scheduled.
- ///
- void Observe(MachineInstr *MI, unsigned Count);
-
/// Schedule - Schedule the instruction range using list scheduling.
///
void Schedule();
@@ -202,44 +179,32 @@
///
void FixupKills(MachineBasicBlock *MBB);
- private:
- /// IsLive - Return true if Reg is live
- bool IsLive(unsigned Reg);
+ /// Observe - Update liveness information to account for the current
+ /// instruction, which will not be scheduled.
+ ///
+ void Observe(MachineInstr *MI, unsigned Count);
- void PrescanInstruction(MachineInstr *MI, unsigned Count);
- void ScanInstruction(MachineInstr *MI, unsigned Count);
- bool BreakAntiDependencies(bool CriticalPathOnly);
- unsigned FindSuitableFreeRegister(unsigned AntiDepReg);
+ /// FinishBlock - Clean up register live-range state.
+ ///
+ void FinishBlock();
+ private:
+ void PrescanInstruction(MachineInstr *MI);
+ void ScanInstruction(MachineInstr *MI, unsigned Count);
void ReleaseSucc(SUnit *SU, SDep *SuccEdge);
void ReleaseSuccessors(SUnit *SU);
void ScheduleNodeTopDown(SUnit *SU, unsigned CurCycle);
void ListScheduleTopDown();
-
+ bool BreakAntiDependencies();
+ unsigned findSuitableFreeRegister(unsigned AntiDepReg,
+ unsigned LastNewReg,
+ const TargetRegisterClass *);
void StartBlockForKills(MachineBasicBlock *BB);
// ToggleKillFlag - Toggle a register operand kill flag. Other
// adjustments may be made to the instruction if necessary. Return
// true if the operand has been deleted, false if not.
bool ToggleKillFlag(MachineInstr *MI, MachineOperand &MO);
-
- // GetGroup - Get the group for a register. The returned value is
- // the index of the GroupNode representing the group.
- unsigned GetGroup(unsigned Reg);
-
- // GetGroupRegs - Return a vector of the registers belonging to a
- // group.
- void GetGroupRegs(unsigned Group, std::vector<unsigned> &Regs);
-
- // UnionGroups - Union Reg1's and Reg2's groups to form a new
- // group. Return the index of the GroupNode representing the
- // group.
- unsigned UnionGroups(unsigned Reg1, unsigned Reg2);
-
- // LeaveGroup - Remove a register from its current group and place
- // it alone in its own group. Return the index of the GroupNode
- // representing the registers new group.
- unsigned LeaveGroup(unsigned Reg);
};
}
@@ -338,58 +303,7 @@
return true;
}
-
-unsigned SchedulePostRATDList::GetGroup(unsigned Reg)
-{
- unsigned Node = GroupNodeIndices[Reg];
- while (GroupNodes[Node] != Node)
- Node = GroupNodes[Node];
-
- return Node;
-}
-
-void SchedulePostRATDList::GetGroupRegs(unsigned Group, std::vector<unsigned> &Regs)
-{
- for (unsigned Reg = 0; Reg != TargetRegisterInfo::FirstVirtualRegister; ++Reg) {
- if (GetGroup(Reg) == Group)
- Regs.push_back(Reg);
- }
-}
-
-unsigned SchedulePostRATDList::UnionGroups(unsigned Reg1, unsigned Reg2)
-{
- assert(GroupNodes[0] == 0 && "GroupNode 0 not parent!");
- assert(GroupNodeIndices[0] == 0 && "Reg 0 not in Group 0!");
-
- // find group for each register
- unsigned Group1 = GetGroup(Reg1);
- unsigned Group2 = GetGroup(Reg2);
-
- // if either group is 0, then that must become the parent
- unsigned Parent = (Group1 == 0) ? Group1 : Group2;
- unsigned Other = (Parent == Group1) ? Group2 : Group1;
- GroupNodes.at(Other) = Parent;
- return Parent;
-}
-unsigned SchedulePostRATDList::LeaveGroup(unsigned Reg)
-{
- // Create a new GroupNode for Reg. Reg's existing GroupNode must
- // stay as is because there could be other GroupNodes referring to
- // it.
- unsigned idx = GroupNodes.size();
- GroupNodes.push_back(idx);
- GroupNodeIndices[Reg] = idx;
- return idx;
-}
-
-bool SchedulePostRATDList::IsLive(unsigned Reg)
-{
- // KillIndex must be defined and DefIndex not defined for a register
- // to be live.
- return((KillIndices[Reg] != ~0u) && (DefIndices[Reg] == ~0u));
-}
-
/// StartBlock - Initialize register live-range state for scheduling in
/// this block.
///
@@ -400,15 +314,17 @@
// Reset the hazard recognizer.
HazardRec->Reset();
- // Initialize all registers to be in their own group. Initially we
- // assign the register to the same-indexed GroupNode.
- for (unsigned i = 0; i < TargetRegisterInfo::FirstVirtualRegister; ++i)
- GroupNodeIndices[i] = i;
+ // Clear out the register class data.
+ std::fill(Classes, array_endof(Classes),
+ static_cast<const TargetRegisterClass *>(0));
// Initialize the indices to indicate that no registers are live.
std::fill(KillIndices, array_endof(KillIndices), ~0u);
std::fill(DefIndices, array_endof(DefIndices), BB->size());
+ // Clear "do not change" set.
+ KeepRegs.clear();
+
bool IsReturnBlock = (!BB->empty() && BB->back().getDesc().isReturn());
// Determine the live-out physregs for this block.
@@ -417,13 +333,13 @@
for (MachineRegisterInfo::liveout_iterator I = MRI.liveout_begin(),
E = MRI.liveout_end(); I != E; ++I) {
unsigned Reg = *I;
- UnionGroups(Reg, 0);
+ Classes[Reg] = reinterpret_cast<TargetRegisterClass *>(-1);
KillIndices[Reg] = BB->size();
DefIndices[Reg] = ~0u;
// Repeat, for all aliases.
for (const unsigned *Alias = TRI->getAliasSet(Reg); *Alias; ++Alias) {
unsigned AliasReg = *Alias;
- UnionGroups(AliasReg, 0);
+ Classes[AliasReg] = reinterpret_cast<TargetRegisterClass *>(-1);
KillIndices[AliasReg] = BB->size();
DefIndices[AliasReg] = ~0u;
}
@@ -435,13 +351,13 @@
for (MachineBasicBlock::livein_iterator I = (*SI)->livein_begin(),
E = (*SI)->livein_end(); I != E; ++I) {
unsigned Reg = *I;
- UnionGroups(Reg, 0);
+ Classes[Reg] = reinterpret_cast<TargetRegisterClass *>(-1);
KillIndices[Reg] = BB->size();
DefIndices[Reg] = ~0u;
// Repeat, for all aliases.
for (const unsigned *Alias = TRI->getAliasSet(Reg); *Alias; ++Alias) {
unsigned AliasReg = *Alias;
- UnionGroups(AliasReg, 0);
+ Classes[AliasReg] = reinterpret_cast<TargetRegisterClass *>(-1);
KillIndices[AliasReg] = BB->size();
DefIndices[AliasReg] = ~0u;
}
@@ -456,13 +372,13 @@
for (const unsigned *I = TRI->getCalleeSavedRegs(); *I; ++I) {
unsigned Reg = *I;
if (!IsReturnBlock && !Pristine.test(Reg)) continue;
- UnionGroups(Reg, 0);
+ Classes[Reg] = reinterpret_cast<TargetRegisterClass *>(-1);
KillIndices[Reg] = BB->size();
DefIndices[Reg] = ~0u;
// Repeat, for all aliases.
for (const unsigned *Alias = TRI->getAliasSet(Reg); *Alias; ++Alias) {
unsigned AliasReg = *Alias;
- UnionGroups(AliasReg, 0);
+ Classes[AliasReg] = reinterpret_cast<TargetRegisterClass *>(-1);
KillIndices[AliasReg] = BB->size();
DefIndices[AliasReg] = ~0u;
}
@@ -477,8 +393,8 @@
// Build the scheduling graph.
BuildSchedGraph(AA);
- if (EnableAntiDepBreaking != "none") {
- if (BreakAntiDependencies((EnableAntiDepBreaking == "all") ? false : true)) {
+ if (EnableAntiDepBreaking) {
+ if (BreakAntiDependencies()) {
// We made changes. Update the dependency graph.
// Theoretically we could update the graph in place:
// When a live range is changed to use a different register, remove
@@ -508,27 +424,21 @@
void SchedulePostRATDList::Observe(MachineInstr *MI, unsigned Count) {
assert(Count < InsertPosIndex && "Instruction index out of expected range!");
- DEBUG(errs() << "Observe: ");
- DEBUG(MI->dump());
-
- for (unsigned Reg = 0; Reg != TargetRegisterInfo::FirstVirtualRegister; ++Reg) {
- // If Reg is current live, then mark that it can't be renamed as
- // we don't know the extent of its live-range anymore (now that it
- // has been scheduled). If it is not live but was defined in the
- // previous schedule region, then set its def index to the most
- // conservative location (i.e. the beginning of the previous
- // schedule region).
- if (IsLive(Reg)) {
- DEBUG(if (GetGroup(Reg) != 0)
- errs() << " " << TRI->getName(Reg) << "=g" <<
- GetGroup(Reg) << "->g0(region live-out)");
- UnionGroups(Reg, 0);
- } else if ((DefIndices[Reg] < InsertPosIndex) && (DefIndices[Reg] >= Count)) {
- DefIndices[Reg] = Count;
+ // Any register which was defined within the previous scheduling region
+ // may have been rescheduled and its lifetime may overlap with registers
+ // in ways not reflected in our current liveness state. For each such
+ // register, adjust the liveness state to be conservatively correct.
+ for (unsigned Reg = 0; Reg != TargetRegisterInfo::FirstVirtualRegister; ++Reg)
+ if (DefIndices[Reg] < InsertPosIndex && DefIndices[Reg] >= Count) {
+ assert(KillIndices[Reg] == ~0u && "Clobbered register is live!");
+ // Mark this register to be non-renamable.
+ Classes[Reg] = reinterpret_cast<TargetRegisterClass *>(-1);
+ // Move the def index to the end of the previous region, to reflect
+ // that the def could theoretically have been scheduled at the end.
+ DefIndices[Reg] = InsertPosIndex;
}
- }
- PrescanInstruction(MI, Count);
+ PrescanInstruction(MI);
ScanInstruction(MI, Count);
}
@@ -563,247 +473,156 @@
return Next;
}
-/// AntiDepPathStep - Return SUnit that SU has an anti-dependence on.
-static SDep *AntiDepPathStep(SUnit *SU) {
- for (SUnit::pred_iterator P = SU->Preds.begin(), PE = SU->Preds.end();
- P != PE; ++P) {
- if (P->getKind() == SDep::Anti) {
- return &*P;
+void SchedulePostRATDList::PrescanInstruction(MachineInstr *MI) {
+ // Scan the register operands for this instruction and update
+ // Classes and RegRefs.
+ for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) {
+ MachineOperand &MO = MI->getOperand(i);
+ if (!MO.isReg()) continue;
+ unsigned Reg = MO.getReg();
+ if (Reg == 0) continue;
+ const TargetRegisterClass *NewRC = 0;
+
+ if (i < MI->getDesc().getNumOperands())
+ NewRC = MI->getDesc().OpInfo[i].getRegClass(TRI);
+
+ // For now, only allow the register to be changed if its register
+ // class is consistent across all uses.
+ if (!Classes[Reg] && NewRC)
+ Classes[Reg] = NewRC;
+ else if (!NewRC || Classes[Reg] != NewRC)
+ Classes[Reg] = reinterpret_cast<TargetRegisterClass *>(-1);
+
+ // Now check for aliases.
+ for (const unsigned *Alias = TRI->getAliasSet(Reg); *Alias; ++Alias) {
+ // If an alias of the reg is used during the live range, give up.
+ // Note that this allows us to skip checking if AntiDepReg
+ // overlaps with any of the aliases, among other things.
+ unsigned AliasReg = *Alias;
+ if (Classes[AliasReg]) {
+ Classes[AliasReg] = reinterpret_cast<TargetRegisterClass *>(-1);
+ Classes[Reg] = reinterpret_cast<TargetRegisterClass *>(-1);
+ }
+ }
+
+ // If we're still willing to consider this register, note the reference.
+ if (Classes[Reg] != reinterpret_cast<TargetRegisterClass *>(-1))
+ RegRefs.insert(std::make_pair(Reg, &MO));
+
+ // It's not safe to change register allocation for source operands of
+ // that have special allocation requirements.
+ if (MO.isUse() && MI->getDesc().hasExtraSrcRegAllocReq()) {
+ if (KeepRegs.insert(Reg)) {
+ for (const unsigned *Subreg = TRI->getSubRegisters(Reg);
+ *Subreg; ++Subreg)
+ KeepRegs.insert(*Subreg);
+ }
}
}
- return 0;
}
-void SchedulePostRATDList::PrescanInstruction(MachineInstr *MI, unsigned Count) {
- // Scan the register defs for this instruction and update
- // live-ranges, groups and RegRefs.
+void SchedulePostRATDList::ScanInstruction(MachineInstr *MI,
+ unsigned Count) {
+ // Update liveness.
+ // Proceding upwards, registers that are defed but not used in this
+ // instruction are now dead.
for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) {
MachineOperand &MO = MI->getOperand(i);
- if (!MO.isReg() || !MO.isDef()) continue;
+ if (!MO.isReg()) continue;
unsigned Reg = MO.getReg();
if (Reg == 0) continue;
- // Ignore two-addr defs for liveness...
+ if (!MO.isDef()) continue;
+ // Ignore two-addr defs.
if (MI->isRegTiedToUseOperand(i)) continue;
- // Update Def for Reg and subregs.
DefIndices[Reg] = Count;
+ KillIndices[Reg] = ~0u;
+ assert(((KillIndices[Reg] == ~0u) !=
+ (DefIndices[Reg] == ~0u)) &&
+ "Kill and Def maps aren't consistent for Reg!");
+ KeepRegs.erase(Reg);
+ Classes[Reg] = 0;
+ RegRefs.erase(Reg);
+ // Repeat, for all subregs.
for (const unsigned *Subreg = TRI->getSubRegisters(Reg);
*Subreg; ++Subreg) {
unsigned SubregReg = *Subreg;
DefIndices[SubregReg] = Count;
+ KillIndices[SubregReg] = ~0u;
+ KeepRegs.erase(SubregReg);
+ Classes[SubregReg] = 0;
+ RegRefs.erase(SubregReg);
+ }
+ // Conservatively mark super-registers as unusable.
+ for (const unsigned *Super = TRI->getSuperRegisters(Reg);
+ *Super; ++Super) {
+ unsigned SuperReg = *Super;
+ Classes[SuperReg] = reinterpret_cast<TargetRegisterClass *>(-1);
}
}
-
- DEBUG(errs() << "\tDef Groups:");
for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) {
MachineOperand &MO = MI->getOperand(i);
- if (!MO.isReg() || !MO.isDef()) continue;
+ if (!MO.isReg()) continue;
unsigned Reg = MO.getReg();
if (Reg == 0) continue;
+ if (!MO.isUse()) continue;
- DEBUG(errs() << " " << TRI->getName(Reg) << "=g" << GetGroup(Reg));
-
- // If MI's defs have special allocation requirement, don't allow
- // any def registers to be changed. Also assume all registers
- // defined in a call must not be changed (ABI).
- if (MI->getDesc().isCall() || MI->getDesc().hasExtraDefRegAllocReq()) {
- DEBUG(if (GetGroup(Reg) != 0) errs() << "->g0(alloc-req)");
- UnionGroups(Reg, 0);
- }
-
- // Any subregisters that are live at this point are defined here,
- // so group those subregisters with Reg.
- for (const unsigned *Subreg = TRI->getSubRegisters(Reg);
- *Subreg; ++Subreg) {
- unsigned SubregReg = *Subreg;
- if (IsLive(SubregReg)) {
- UnionGroups(Reg, SubregReg);
- DEBUG(errs() << "->g" << GetGroup(Reg) << "(via " <<
- TRI->getName(SubregReg) << ")");
- }
- }
-
- // Note register reference...
- const TargetRegisterClass *RC = NULL;
+ const TargetRegisterClass *NewRC = 0;
if (i < MI->getDesc().getNumOperands())
- RC = MI->getDesc().OpInfo[i].getRegClass(TRI);
- RegisterReference RR = { &MO, RC };
- RegRefs.insert(std::make_pair(Reg, RR));
- }
+ NewRC = MI->getDesc().OpInfo[i].getRegClass(TRI);
- DEBUG(errs() << '\n');
-}
+ // For now, only allow the register to be changed if its register
+ // class is consistent across all uses.
+ if (!Classes[Reg] && NewRC)
+ Classes[Reg] = NewRC;
+ else if (!NewRC || Classes[Reg] != NewRC)
+ Classes[Reg] = reinterpret_cast<TargetRegisterClass *>(-1);
-void SchedulePostRATDList::ScanInstruction(MachineInstr *MI,
- unsigned Count) {
- DEBUG(errs() << "\tUse Groups:");
+ RegRefs.insert(std::make_pair(Reg, &MO));
- // Scan the register uses for this instruction and update
- // live-ranges, groups and RegRefs.
- for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) {
- MachineOperand &MO = MI->getOperand(i);
- if (!MO.isReg() || !MO.isUse()) continue;
- unsigned Reg = MO.getReg();
- if (Reg == 0) continue;
-
- DEBUG(errs() << " " << TRI->getName(Reg) << "=g" << GetGroup(Reg));
-
- // It wasn't previously live but now it is, this is a kill. Forget
- // the previous live-range information and start a new live-range
- // for the register.
- if (!IsLive(Reg)) {
+ // It wasn't previously live but now it is, this is a kill.
+ if (KillIndices[Reg] == ~0u) {
KillIndices[Reg] = Count;
DefIndices[Reg] = ~0u;
- RegRefs.erase(Reg);
- LeaveGroup(Reg);
- DEBUG(errs() << "->g" << GetGroup(Reg) << "(last-use)");
+ assert(((KillIndices[Reg] == ~0u) !=
+ (DefIndices[Reg] == ~0u)) &&
+ "Kill and Def maps aren't consistent for Reg!");
}
- // Repeat, for subregisters.
- for (const unsigned *Subreg = TRI->getSubRegisters(Reg);
- *Subreg; ++Subreg) {
- unsigned SubregReg = *Subreg;
- if (!IsLive(SubregReg)) {
- KillIndices[SubregReg] = Count;
- DefIndices[SubregReg] = ~0u;
- RegRefs.erase(SubregReg);
- LeaveGroup(SubregReg);
- DEBUG(errs() << "->g" << GetGroup(SubregReg) << "(last-use)");
+ // Repeat, for all aliases.
+ for (const unsigned *Alias = TRI->getAliasSet(Reg); *Alias; ++Alias) {
+ unsigned AliasReg = *Alias;
+ if (KillIndices[AliasReg] == ~0u) {
+ KillIndices[AliasReg] = Count;
+ DefIndices[AliasReg] = ~0u;
}
}
-
- // If MI's uses have special allocation requirement, don't allow
- // any use registers to be changed. Also assume all registers
- // used in a call must not be changed (ABI).
- if (MI->getDesc().isCall() || MI->getDesc().hasExtraSrcRegAllocReq()) {
- DEBUG(if (GetGroup(Reg) != 0) errs() << "->g0(alloc-req)");
- UnionGroups(Reg, 0);
- }
-
- // Note register reference...
- const TargetRegisterClass *RC = NULL;
- if (i < MI->getDesc().getNumOperands())
- RC = MI->getDesc().OpInfo[i].getRegClass(TRI);
- RegisterReference RR = { &MO, RC };
- RegRefs.insert(std::make_pair(Reg, RR));
- }
-
- DEBUG(errs() << '\n');
-
- // Form a group of all defs and uses of a KILL instruction to ensure
- // that all registers are renamed as a group.
- if (MI->getOpcode() == TargetInstrInfo::KILL) {
- unsigned FirstReg = 0;
- for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) {
- MachineOperand &MO = MI->getOperand(i);
- if (!MO.isReg()) continue;
- unsigned Reg = MO.getReg();
- if (Reg == 0) continue;
-
- if (FirstReg != 0)
- UnionGroups(FirstReg, Reg);
- FirstReg = Reg;
- }
-
- DEBUG(if (FirstReg != 0) errs() << "\tKill Group: g" <<
- GetGroup(FirstReg) << '\n');
}
}
-unsigned SchedulePostRATDList::FindSuitableFreeRegister(unsigned AntiDepReg) {
- // Collect all registers in the same group as AntiDepReg. These all
- // need to be renamed together if we are to break the
- // anti-dependence.
- std::vector<unsigned> Regs;
- GetGroupRegs(GetGroup(AntiDepReg), Regs);
-
- DEBUG(errs() << "\tRename Register Group:");
- DEBUG(for (unsigned i = 0, e = Regs.size(); i != e; ++i)
- DEBUG(errs() << " " << TRI->getName(Regs[i])));
- DEBUG(errs() << "\n");
-
- // If there is a single register that needs to be renamed then we
- // can do it ourselves.
- if (Regs.size() == 1) {
- assert(Regs[0] == AntiDepReg && "Register group does not contain register!");
-
- // Check all references that need rewriting. Gather up all the
- // register classes for the register references.
- const TargetRegisterClass *FirstRC = NULL;
- std::set<const TargetRegisterClass *> RCs;
- std::pair<std::multimap<unsigned, RegisterReference>::iterator,
- std::multimap<unsigned, RegisterReference>::iterator>
- Range = RegRefs.equal_range(AntiDepReg);
- for (std::multimap<unsigned, RegisterReference>::iterator
- Q = Range.first, QE = Range.second; Q != QE; ++Q) {
- const TargetRegisterClass *RC = Q->second.RC;
- if (RC == NULL) continue;
- if (FirstRC == NULL)
- FirstRC = RC;
- else if (FirstRC != RC)
- RCs.insert(RC);
- }
-
- if (FirstRC == NULL)
- return 0;
-
- DEBUG(errs() << "\tChecking Regclasses: " << FirstRC->getName());
- DEBUG(for (std::set<const TargetRegisterClass *>::iterator S =
- RCs.begin(), E = RCs.end(); S != E; ++S)
- errs() << " " << (*S)->getName());
- DEBUG(errs() << '\n');
-
- // Using the allocation order for one of the register classes,
- // find the first register that belongs to all the register
- // classes that is available over the liverange of the register.
- DEBUG(errs() << "\tFind Register:");
- for (TargetRegisterClass::iterator R = FirstRC->allocation_order_begin(MF),
- RE = FirstRC->allocation_order_end(MF); R != RE; ++R) {
- unsigned NewReg = *R;
-
- // Don't replace a register with itself.
- if (NewReg == AntiDepReg) continue;
-
- DEBUG(errs() << " " << TRI->getName(NewReg));
-
- // Make sure NewReg is in all required register classes.
- for (std::set<const TargetRegisterClass *>::iterator S =
- RCs.begin(), E = RCs.end(); S != E; ++S) {
- const TargetRegisterClass *RC = *S;
- if (!RC->contains(NewReg)) {
- DEBUG(errs() << "(not in " << RC->getName() << ")");
- NewReg = 0;
- break;
- }
- }
-
- // If NewReg is dead and NewReg's most recent def is not before
- // AntiDepReg's kill, it's safe to replace AntiDepReg with
- // NewReg. We must also check all subregisters of NewReg.
- if (IsLive(NewReg) || (KillIndices[AntiDepReg] > DefIndices[NewReg])) {
- DEBUG(errs() << "(live)");
- continue;
- }
- {
- bool found = false;
- for (const unsigned *Subreg = TRI->getSubRegisters(NewReg);
- *Subreg; ++Subreg) {
- unsigned SubregReg = *Subreg;
- if (IsLive(SubregReg) || (KillIndices[AntiDepReg] > DefIndices[SubregReg])) {
- DEBUG(errs() << "(subreg " << TRI->getName(SubregReg) << " live)");
- found = true;
- }
- }
- if (found)
- continue;
- }
-
- if (NewReg != 0) {
- DEBUG(errs() << '\n');
- return NewReg;
- }
- }
-
- DEBUG(errs() << '\n');
+unsigned
+SchedulePostRATDList::findSuitableFreeRegister(unsigned AntiDepReg,
+ unsigned LastNewReg,
+ const TargetRegisterClass *RC) {
+ for (TargetRegisterClass::iterator R = RC->allocation_order_begin(MF),
+ RE = RC->allocation_order_end(MF); R != RE; ++R) {
+ unsigned NewReg = *R;
+ // Don't replace a register with itself.
+ if (NewReg == AntiDepReg) continue;
+ // Don't replace a register with one that was recently used to repair
+ // an anti-dependence with this AntiDepReg, because that would
+ // re-introduce that anti-dependence.
+ if (NewReg == LastNewReg) continue;
+ // If NewReg is dead and NewReg's most recent def is not before
+ // AntiDepReg's kill, it's safe to replace AntiDepReg with NewReg.
+ assert(((KillIndices[AntiDepReg] == ~0u) != (DefIndices[AntiDepReg] == ~0u)) &&
+ "Kill and Def maps aren't consistent for AntiDepReg!");
+ assert(((KillIndices[NewReg] == ~0u) != (DefIndices[NewReg] == ~0u)) &&
+ "Kill and Def maps aren't consistent for NewReg!");
+ if (KillIndices[NewReg] != ~0u ||
+ Classes[NewReg] == reinterpret_cast<TargetRegisterClass *>(-1) ||
+ KillIndices[AntiDepReg] > DefIndices[NewReg])
+ continue;
+ return NewReg;
}
// No registers are free and available!
@@ -813,153 +632,139 @@
/// BreakAntiDependencies - Identifiy anti-dependencies along the critical path
/// of the ScheduleDAG and break them by renaming registers.
///
-bool SchedulePostRATDList::BreakAntiDependencies(bool CriticalPathOnly) {
+bool SchedulePostRATDList::BreakAntiDependencies() {
// The code below assumes that there is at least one instruction,
// so just duck out immediately if the block is empty.
if (SUnits.empty()) return false;
- // If breaking anti-dependencies only along the critical path, track
- // progress along the critical path through the SUnit graph as we
- // walk the instructions.
- SUnit *CriticalPathSU = 0;
- MachineInstr *CriticalPathMI = 0;
-
- // If breaking all anti-dependencies need a map from MI to SUnit.
- std::map<MachineInstr *, SUnit *> MISUnitMap;
-
// Find the node at the bottom of the critical path.
- if (CriticalPathOnly) {
- SUnit *Max = 0;
- for (unsigned i = 0, e = SUnits.size(); i != e; ++i) {
- SUnit *SU = &SUnits[i];
- if (!Max || SU->getDepth() + SU->Latency > Max->getDepth() + Max->Latency)
- Max = SU;
- }
-
- DEBUG(errs() << "Critical path has total latency "
- << (Max->getDepth() + Max->Latency) << "\n");
- CriticalPathSU = Max;
- CriticalPathMI = CriticalPathSU->getInstr();
- } else {
- for (unsigned i = 0, e = SUnits.size(); i != e; ++i) {
- SUnit *SU = &SUnits[i];
- MISUnitMap.insert(std::pair<MachineInstr *, SUnit *>(SU->getInstr(), SU));
- }
- DEBUG(errs() << "Breaking all anti-dependencies\n");
+ SUnit *Max = 0;
+ for (unsigned i = 0, e = SUnits.size(); i != e; ++i) {
+ SUnit *SU = &SUnits[i];
+ if (!Max || SU->getDepth() + SU->Latency > Max->getDepth() + Max->Latency)
+ Max = SU;
}
-#ifndef NDEBUG
+#ifndef NDEBUG
{
+ DEBUG(errs() << "Critical path has total latency "
+ << (Max->getDepth() + Max->Latency) << "\n");
DEBUG(errs() << "Available regs:");
for (unsigned Reg = 0; Reg < TRI->getNumRegs(); ++Reg) {
- if (!IsLive(Reg))
+ if (KillIndices[Reg] == ~0u)
DEBUG(errs() << " " << TRI->getName(Reg));
}
DEBUG(errs() << '\n');
}
- std::string dbgStr;
#endif
- // Attempt to break anti-dependence edges. Walk the instructions
- // from the bottom up, tracking information about liveness as we go
- // to help determine which registers are available.
+ // Track progress along the critical path through the SUnit graph as we walk
+ // the instructions.
+ SUnit *CriticalPathSU = Max;
+ MachineInstr *CriticalPathMI = CriticalPathSU->getInstr();
+
+ // Consider this pattern:
+ // A = ...
+ // ... = A
+ // A = ...
+ // ... = A
+ // A = ...
+ // ... = A
+ // A = ...
+ // ... = A
+ // There are three anti-dependencies here, and without special care,
+ // we'd break all of them using the same register:
+ // A = ...
+ // ... = A
+ // B = ...
+ // ... = B
+ // B = ...
+ // ... = B
+ // B = ...
+ // ... = B
+ // because at each anti-dependence, B is the first register that
+ // isn't A which is free. This re-introduces anti-dependencies
+ // at all but one of the original anti-dependencies that we were
+ // trying to break. To avoid this, keep track of the most recent
+ // register that each register was replaced with, avoid
+ // using it to repair an anti-dependence on the same register.
+ // This lets us produce this:
+ // A = ...
+ // ... = A
+ // B = ...
+ // ... = B
+ // C = ...
+ // ... = C
+ // B = ...
+ // ... = B
+ // This still has an anti-dependence on B, but at least it isn't on the
+ // original critical path.
+ //
+ // TODO: If we tracked more than one register here, we could potentially
+ // fix that remaining critical edge too. This is a little more involved,
+ // because unlike the most recent register, less recent registers should
+ // still be considered, though only if no other registers are available.
+ unsigned LastNewReg[TargetRegisterInfo::FirstVirtualRegister] = {};
+
+ // Attempt to break anti-dependence edges on the critical path. Walk the
+ // instructions from the bottom up, tracking information about liveness
+ // as we go to help determine which registers are available.
bool Changed = false;
unsigned Count = InsertPosIndex - 1;
for (MachineBasicBlock::iterator I = InsertPos, E = Begin;
I != E; --Count) {
MachineInstr *MI = --I;
- DEBUG(errs() << "Anti: ");
- DEBUG(MI->dump());
-
- // Process the defs in MI...
- PrescanInstruction(MI, Count);
-
- // Check if this instruction has an anti-dependence that we may be
- // able to break. If it is, set AntiDepReg to the non-zero
- // register associated with the anti-dependence.
+ // Check if this instruction has a dependence on the critical path that
+ // is an anti-dependence that we may be able to break. If it is, set
+ // AntiDepReg to the non-zero register associated with the anti-dependence.
//
- unsigned AntiDepReg = 0;
-
- // Limiting our attention to the critical path is a heuristic to avoid
+ // We limit our attention to the critical path as a heuristic to avoid
// breaking anti-dependence edges that aren't going to significantly
// impact the overall schedule. There are a limited number of registers
// and we want to save them for the important edges.
//
- // We can also break all anti-dependencies because they can
- // occur along the non-critical path but are still detrimental for
- // scheduling.
- //
// TODO: Instructions with multiple defs could have multiple
// anti-dependencies. The current code here only knows how to break one
// edge per instruction. Note that we'd have to be able to break all of
// the anti-dependencies in an instruction in order to be effective.
- if (!CriticalPathOnly || (MI == CriticalPathMI)) {
- DEBUG(dbgStr.clear());
-
- SUnit *PathSU;
- SDep *Edge;
- if (CriticalPathOnly) {
- PathSU = CriticalPathSU;
- Edge = CriticalPathStep(PathSU);
- } else {
- PathSU = MISUnitMap[MI];
- Edge = (PathSU) ? AntiDepPathStep(PathSU) : 0;
- }
-
- if (Edge) {
+ unsigned AntiDepReg = 0;
+ if (MI == CriticalPathMI) {
+ if (SDep *Edge = CriticalPathStep(CriticalPathSU)) {
SUnit *NextSU = Edge->getSUnit();
- // Only consider anti-dependence edges, and ignore KILL
- // instructions (they form a group in ScanInstruction but
- // don't cause any anti-dependence breaking themselves)
- if ((Edge->getKind() == SDep::Anti) &&
- (MI->getOpcode() != TargetInstrInfo::KILL)) {
+ // Only consider anti-dependence edges.
+ if (Edge->getKind() == SDep::Anti) {
AntiDepReg = Edge->getReg();
- DEBUG(dbgStr += "\tAntidep reg: ");
- DEBUG(dbgStr += TRI->getName(AntiDepReg));
assert(AntiDepReg != 0 && "Anti-dependence on reg0?");
- if (!AllocatableSet.test(AntiDepReg)) {
+ if (!AllocatableSet.test(AntiDepReg))
// Don't break anti-dependencies on non-allocatable registers.
- DEBUG(dbgStr += " (non-allocatable)");
AntiDepReg = 0;
- } else {
- int OpIdx = MI->findRegisterDefOperandIdx(AntiDepReg);
- assert(OpIdx != -1 && "Can't find index for defined register operand");
- if (MI->isRegTiedToUseOperand(OpIdx)) {
- // If the anti-dep register is tied to a use, then don't try to
- // change it. It will be changed along with the use if required
- // to break an earlier antidep.
- DEBUG(dbgStr += " (tied-to-use)");
- AntiDepReg = 0;
- } else {
- // If the SUnit has other dependencies on the SUnit that
- // it anti-depends on, don't bother breaking the
- // anti-dependency since those edges would prevent such
- // units from being scheduled past each other
- // regardless.
- //
- // Also, if there are dependencies on other SUnits with
- // the same register as the anti-dependency, don't
- // attempt to break it.
- for (SUnit::pred_iterator P = PathSU->Preds.begin(),
- PE = PathSU->Preds.end(); P != PE; ++P) {
- if (P->getSUnit() == NextSU ?
+ else if (KeepRegs.count(AntiDepReg))
+ // Don't break anti-dependencies if an use down below requires
+ // this exact register.
+ AntiDepReg = 0;
+ else {
+ // If the SUnit has other dependencies on the SUnit that it
+ // anti-depends on, don't bother breaking the anti-dependency
+ // since those edges would prevent such units from being
+ // scheduled past each other regardless.
+ //
+ // Also, if there are dependencies on other SUnits with the
+ // same register as the anti-dependency, don't attempt to
+ // break it.
+ for (SUnit::pred_iterator P = CriticalPathSU->Preds.begin(),
+ PE = CriticalPathSU->Preds.end(); P != PE; ++P)
+ if (P->getSUnit() == NextSU ?
(P->getKind() != SDep::Anti || P->getReg() != AntiDepReg) :
(P->getKind() == SDep::Data && P->getReg() == AntiDepReg)) {
- DEBUG(dbgStr += " (real dependency)");
- AntiDepReg = 0;
- break;
- }
+ AntiDepReg = 0;
+ break;
}
- }
}
}
-
- if (CriticalPathOnly) {
- CriticalPathSU = NextSU;
- CriticalPathMI = CriticalPathSU->getInstr();
- }
+ CriticalPathSU = NextSU;
+ CriticalPathMI = CriticalPathSU->getInstr();
} else {
// We've reached the end of the critical path.
CriticalPathSU = 0;
@@ -967,52 +772,77 @@
}
}
- // Determine AntiDepReg's register group.
- const unsigned GroupIndex = AntiDepReg != 0 ? GetGroup(AntiDepReg) : 0;
- if (GroupIndex == 0) {
- DEBUG(if (AntiDepReg != 0) dbgStr += " (zero group)");
+ PrescanInstruction(MI);
+
+ if (MI->getDesc().hasExtraDefRegAllocReq())
+ // If this instruction's defs have special allocation requirement, don't
+ // break this anti-dependency.
AntiDepReg = 0;
+ else if (AntiDepReg) {
+ // If this instruction has a use of AntiDepReg, breaking it
+ // is invalid.
+ for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) {
+ MachineOperand &MO = MI->getOperand(i);
+ if (!MO.isReg()) continue;
+ unsigned Reg = MO.getReg();
+ if (Reg == 0) continue;
+ if (MO.isUse() && AntiDepReg == Reg) {
+ AntiDepReg = 0;
+ break;
+ }
+ }
}
- DEBUG(if (!dbgStr.empty()) errs() << dbgStr << '\n');
+ // Determine AntiDepReg's register class, if it is live and is
+ // consistently used within a single class.
+ const TargetRegisterClass *RC = AntiDepReg != 0 ? Classes[AntiDepReg] : 0;
+ assert((AntiDepReg == 0 || RC != NULL) &&
+ "Register should be live if it's causing an anti-dependence!");
+ if (RC == reinterpret_cast<TargetRegisterClass *>(-1))
+ AntiDepReg = 0;
- // Look for a suitable register to use to break the anti-dependence.
+ // Look for a suitable register to use to break the anti-depenence.
+ //
+ // TODO: Instead of picking the first free register, consider which might
+ // be the best.
if (AntiDepReg != 0) {
- if (unsigned NewReg = FindSuitableFreeRegister(AntiDepReg)) {
- DEBUG(errs() << "\tBreaking anti-dependence edge on "
+ if (unsigned NewReg = findSuitableFreeRegister(AntiDepReg,
+ LastNewReg[AntiDepReg],
+ RC)) {
+ DEBUG(errs() << "Breaking anti-dependence edge on "
<< TRI->getName(AntiDepReg)
<< " with " << RegRefs.count(AntiDepReg) << " references"
<< " using " << TRI->getName(NewReg) << "!\n");
// Update the references to the old register to refer to the new
// register.
- std::pair<std::multimap<unsigned, RegisterReference>::iterator,
- std::multimap<unsigned, RegisterReference>::iterator>
+ std::pair<std::multimap<unsigned, MachineOperand *>::iterator,
+ std::multimap<unsigned, MachineOperand *>::iterator>
Range = RegRefs.equal_range(AntiDepReg);
- for (std::multimap<unsigned, RegisterReference>::iterator
+ for (std::multimap<unsigned, MachineOperand *>::iterator
Q = Range.first, QE = Range.second; Q != QE; ++Q)
- Q->second.Operand->setReg(NewReg);
+ Q->second->setReg(NewReg);
// We just went back in time and modified history; the
- // liveness information for the anti-dependence reg is now
+ // liveness information for the anti-depenence reg is now
// inconsistent. Set the state as if it were dead.
- // FIXME forall in group
- UnionGroups(NewReg, 0);
- RegRefs.erase(NewReg);
+ Classes[NewReg] = Classes[AntiDepReg];
DefIndices[NewReg] = DefIndices[AntiDepReg];
KillIndices[NewReg] = KillIndices[AntiDepReg];
+ assert(((KillIndices[NewReg] == ~0u) !=
+ (DefIndices[NewReg] == ~0u)) &&
+ "Kill and Def maps aren't consistent for NewReg!");
- // FIXME forall in group
- UnionGroups(AntiDepReg, 0);
- RegRefs.erase(AntiDepReg);
+ Classes[AntiDepReg] = 0;
DefIndices[AntiDepReg] = KillIndices[AntiDepReg];
KillIndices[AntiDepReg] = ~0u;
assert(((KillIndices[AntiDepReg] == ~0u) !=
(DefIndices[AntiDepReg] == ~0u)) &&
"Kill and Def maps aren't consistent for AntiDepReg!");
+ RegRefs.erase(AntiDepReg);
Changed = true;
- ++NumFixedAnti;
+ LastNewReg[AntiDepReg] = NewReg;
}
}
@@ -1091,7 +921,7 @@
}
}
- if (AllDead)
+ if(AllDead)
MO.setIsKill(true);
return false;
}
Modified: llvm/branches/Apple/Leela/test/CodeGen/Thumb2/2009-09-28-ITBlockBug.ll
URL: http://llvm.org/viewvc/llvm-project/llvm/branches/Apple/Leela/test/CodeGen/Thumb2/2009-09-28-ITBlockBug.ll?rev=84908&r1=84907&r2=84908&view=diff
==============================================================================
--- llvm/branches/Apple/Leela/test/CodeGen/Thumb2/2009-09-28-ITBlockBug.ll (original)
+++ llvm/branches/Apple/Leela/test/CodeGen/Thumb2/2009-09-28-ITBlockBug.ll Thu Oct 22 17:37:28 2009
@@ -1,4 +1,4 @@
-; RUN: llc < %s -mtriple=thumbv7-apple-darwin -mcpu=cortex-a8 -break-anti-dependencies=none | FileCheck %s
+; RUN: llc < %s -mtriple=thumbv7-apple-darwin -mcpu=cortex-a8 | FileCheck %s
%struct.pix_pos = type { i32, i32, i32, i32, i32, i32 }
Modified: llvm/branches/Apple/Leela/test/CodeGen/X86/break-anti-dependencies.ll
URL: http://llvm.org/viewvc/llvm-project/llvm/branches/Apple/Leela/test/CodeGen/X86/break-anti-dependencies.ll?rev=84908&r1=84907&r2=84908&view=diff
==============================================================================
--- llvm/branches/Apple/Leela/test/CodeGen/X86/break-anti-dependencies.ll (original)
+++ llvm/branches/Apple/Leela/test/CodeGen/X86/break-anti-dependencies.ll Thu Oct 22 17:37:28 2009
@@ -1,7 +1,7 @@
-; RUN: llc < %s -march=x86-64 -post-RA-scheduler -break-anti-dependencies=none > %t
+; RUN: llc < %s -march=x86-64 -post-RA-scheduler -break-anti-dependencies=false > %t
; RUN: grep {%xmm0} %t | count 14
; RUN: not grep {%xmm1} %t
-; RUN: llc < %s -march=x86-64 -post-RA-scheduler -break-anti-dependencies=critical > %t
+; RUN: llc < %s -march=x86-64 -post-RA-scheduler -break-anti-dependencies > %t
; RUN: grep {%xmm0} %t | count 7
; RUN: grep {%xmm1} %t | count 7
Modified: llvm/branches/Apple/Leela/test/CodeGen/X86/sse3.ll
URL: http://llvm.org/viewvc/llvm-project/llvm/branches/Apple/Leela/test/CodeGen/X86/sse3.ll?rev=84908&r1=84907&r2=84908&view=diff
==============================================================================
--- llvm/branches/Apple/Leela/test/CodeGen/X86/sse3.ll (original)
+++ llvm/branches/Apple/Leela/test/CodeGen/X86/sse3.ll Thu Oct 22 17:37:28 2009
@@ -51,9 +51,9 @@
%tmp = shufflevector <8 x i16> %A, <8 x i16> %A, <8 x i32> < i32 8, i32 3, i32 2, i32 13, i32 7, i32 6, i32 5, i32 4 >
ret <8 x i16> %tmp
; X64: t3:
-; X64: pshuflw $44, %xmm0, %xmm1
; X64: pextrw $5, %xmm0, %eax
-; X64: pshufhw $27, %xmm1, %xmm0
+; X64: pshuflw $44, %xmm0, %xmm0
+; X64: pshufhw $27, %xmm0, %xmm0
; X64: pinsrw $3, %eax, %xmm0
; X64: ret
}
@@ -168,11 +168,11 @@
ret void
; X64: t10:
; X64: pextrw $4, %xmm0, %eax
-; X64: pextrw $6, %xmm0, %ecx
+; X64: pextrw $6, %xmm0, %edx
; X64: movlhps %xmm1, %xmm1
; X64: pshuflw $8, %xmm1, %xmm1
; X64: pinsrw $2, %eax, %xmm1
-; X64: pinsrw $3, %ecx, %xmm1
+; X64: pinsrw $3, %edx, %xmm1
}
@@ -250,9 +250,9 @@
%tmp9 = shufflevector <16 x i8> %tmp8, <16 x i8> %T0, <16 x i32> < i32 0, i32 1, i32 2, i32 17, i32 undef, i32 undef, i32 undef, i32 undef, i32 undef, i32 undef, i32 undef, i32 undef, i32 undef, i32 undef, i32 undef , i32 undef >
ret <16 x i8> %tmp9
; X64: t16:
-; X64: pextrw $8, %xmm0, %ecx
; X64: pinsrw $0, %eax, %xmm1
-; X64: pinsrw $1, %ecx, %xmm1
+; X64: pextrw $8, %xmm0, %eax
+; X64: pinsrw $1, %eax, %xmm1
; X64: pextrw $1, %xmm1, %ecx
; X64: movd %xmm1, %edx
; X64: pinsrw $0, %edx, %xmm1
More information about the llvm-branch-commits
mailing list