[llvm] [DAGCombiner] Option --combiner-select-seq (PR #134813)
via llvm-commits
llvm-commits at lists.llvm.org
Wed Apr 16 06:30:08 PDT 2025
https://github.com/ppetrovic98 updated https://github.com/llvm/llvm-project/pull/134813
>From 0fb3d51a7148ff95e12229051297bad2acb6d7e9 Mon Sep 17 00:00:00 2001
From: "Anmol P. Paralkar" <anmol.paralkar at oss.nxp.com>
Date: Tue, 8 Apr 2025 01:15:48 -0700
Subject: [PATCH] [DAGCombiner] Option --combiner-select-seq Minimize
condition-code lifetime for select sequences over constants in arithmetic
progressions. It reduces the number of comparisons and shortens the condition
code lifetime, improving performance.
Original patch by Anmol Paralkar (@anmolparalkar-nxp), initially proposed on Phabricator as D136047.
Modified and updated to work with the latest LLVM version. The test case has been updated to match the current output format.
---
llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp | 575 ++++++++++++++++++
.../CodeGen/AArch64/combiner-select-seq.ll | 289 +++++++++
2 files changed, 864 insertions(+)
create mode 100644 llvm/test/CodeGen/AArch64/combiner-select-seq.ll
diff --git a/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp b/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp
index d72be359867ca..083267c2bd2c0 100644
--- a/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp
+++ b/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp
@@ -149,6 +149,18 @@ static cl::opt<bool> EnableShrinkLoadReplaceStoreWithStore(
cl::desc("DAG combiner enable load/<replace bytes>/store with "
"a narrower store"));
+static cl::opt<bool> SelectSeq(
+ "combiner-select-seq", cl::Hidden, cl::init(false),
+ cl::desc("DAG combiner minimize condition-code lifetime for select "
+ "sequences over constants in arithmetic progressions"),
+ cl::ZeroOrMore);
+
+static cl::opt<unsigned> SelectSeqMinCostBenefit(
+ "combiner-select-seq-min-cost-benefit", cl::Hidden, cl::init(1),
+ cl::desc("Transform only when the cost benefit (instruction count to be "
+ "reduced by) is at-least as specified; default: 1)"),
+ cl::ZeroOrMore);
+
namespace {
class DAGCombiner {
@@ -878,6 +890,10 @@ namespace {
void ExtendSetCCUses(const SmallVectorImpl<SDNode *> &SetCCs,
SDValue OrigLoad, SDValue ExtLoad,
ISD::NodeType ExtType);
+
+ /// Rewrite sequences of selects minimizing dependency on the condition code
+ /// register when possible.
+ bool SelectSeqMinCCLifetime(void);
};
/// This class is a DAGUpdateListener that removes any deleted
@@ -1732,11 +1748,570 @@ bool DAGCombiner::recursivelyDeleteUnusedNodes(SDNode *N) {
return true;
}
+////////////////////////////////////////////////////////////////////////////////
+//
+// --combiner-select-seq:
+// ======================
+//
+// Summary:
+// --------
+//
+// We deal with the special case of a sequence of select instructions that use
+// the condition code register to decide between corresponding elements of two
+// sequences of constants that are each, in arithmetic progression. Typically,
+// the arguments to the selects would form a sequence of accesses to fields of
+// a struct or the elements of an array. Instead of having the CC tied up across
+// the expanse of the sequence for the pointwise selection of the constants, we
+// transform the code to instead, decide upfront between the defining constructs
+// of the two sequences of constants and generating the selected sequence
+// elements via a corresponding sequence of add instructions.
+//
+// Introduction:
+// -------------
+//
+// Consider a sequence of selects "S", consuming a setcc such as:
+//
+// cond = setcc ...
+// ...
+// S[0]: reg[0] = select cond t[0] f[0]
+// ...
+// S[n-1]: reg[n-1] = select cond t[n-1] f[n-1]
+// ...
+//
+// Two sequences arise from the operands of each select:
+//
+// t[0], t[1], ..., t[n-1]
+// f[0], f[1], ..., f[n-1]
+//
+// Denote either sequence by (say) "X". (PS: Read ':=' as "is of the form")
+//
+// If,
+//
+// X[i] := offset[i] (forall i : i <- [0, n))
+//
+// or,
+//
+// X[i] := reg[i] (forall i : i <- [0, n))
+// where:
+// reg[0] := base-register
+// | add base-register, offset[0]
+// reg[i] := add base-register, offset[i] (forall i : i <- (0, n))
+// where:
+// base-register := BaseRegDef <>, Register:(i32|i64) %<>
+//
+// where:
+// offset[] := Constant:i64<>
+// | Constant:i32<>
+// BaseRegDef := CopyFromReg | Load
+//
+// Define:
+//
+// Offset(X)[0] = Constant:(<i32>|<i64>)<0>
+// if X[0] := (reg[0] := base-register)
+// Offset(X)[i] = offset[i]
+// if X[i] := offset[i] (forall i : i <- [0, n))
+// Offset(X)[i] = offset[i]
+// if X[i] := add base-register, offset[i] (forall i : i <- [0, n))
+//
+// Now, (for: n > 1) if Offset(X) is an arithmetic progression, i.e:
+//
+// Offset(X)[i] := InitialValue(X) (if: i == 0)
+// | Offset(X)[i-1] + Delta(X) (forall i : i <- (0, n))
+// where:
+// InitialValue(X) = k (k is an arbitrary integer constant)
+// Delta(X) = (Offset(X)[1] - Offset(X)[0])
+//
+// Further define:
+// BaseReg(X) = Constant:(<i32>|<i64>)<0>
+// if X[0] := offset[0]
+// BaseReg(X) = base-register
+// if X[0] := base-register
+// | add base-register, offset[0]
+//
+// PS: In practice, we also accept the reverse-form:
+//
+// reg[n-1] := base-register
+// | add base-register, offset[n-1]
+// reg[i] := add base-register, offset[i] (forall i : i <- [0, n))
+// where:
+// base-register := BaseRegDef <>, Register:(i32<>|i64) %<>
+//
+// However, the essential idea remains as above.
+//
+// Proposition:
+// ------------
+//
+// Then, the sequence of selects "S", can be rewritten as sequence "S'", where
+// a choice is made between the two sequences via selects on the base-register,
+// the initial-value and the constant-difference (delta) between the successive
+// elements - i.e. the constructs that define such a sequence, and then these
+// are used to generate each access via a sequence of adds:
+//
+// cond = setcc ...
+// # Insert: 0
+// BaseReg(S) = select cond BaseReg(t) BaseReg(f)
+// # Insert: 1
+// InitialValue(S) = select cond InitialValue(t) InitialValue(f)
+// # Insert: 2
+// Delta(S) = select cond Delta(t) Delta(f)
+// ...
+// # Rewrite: 0
+// S'[0]: reg[0] = add BaseReg(S) InitialValue(S)
+// ...
+// # Rewrite: i
+// S'[i]: reg[i] = add reg[i-1] Delta(S)
+// ...
+// # Rewrite: n-1
+// S'[n-1]: reg[n-1] = add reg[n-2] Delta(S)
+// ...
+//
+// Conclusion:
+// -----------
+//
+// The above code transformation has two effects:
+//
+// a. Minimization of the setcc lifetime.
+//
+// The Rewrites: [0, n) do not have a dependency on the setcc. This is the
+// primary motivation for performing this transformation; see:
+//
+// [AArch64] Extremely slow code generation for series of function
+// calls/addition #50491
+// a.k.a: https://bugs.llvm.org/show_bug.cgi?id=51147
+//
+// As the length of "S" grows, the lifetime of the setcc grows, creating an
+// interference with all the other computations in the DAG, thus causing
+// long build times. Ths transformation helps keep the setcc lifetime minimal
+// in this case.
+//
+// b. Code size reduction.
+//
+// Also, while we have (upto) three new selects (Inserts [0-2]), we
+// eliminate one select and (upto) two adds with each rewrite [0, n) (which
+// brings in an add) therefore, reducing overall code size, and potentially
+// improving the runtime performance of the code.
+//
+// NewCodeSize = OldCodeSize - (3 * n) + (3 + n) (Best case).
+//
+// Notes:
+// ------
+//
+// As a future extension, extend the transformation to include sequences not
+// in arithmetic progression by creating two lookup tables for storing the
+// constant offsets for the [tf]-sequences, and selecting the appropriate
+// table once, based on the setcc value. Then, the offset to add to the base
+// register can be looked up in its entry in the appropriate table; the idea
+// being similar to the scheme above.
+//
+////////////////////////////////////////////////////////////////////////////////
+bool DAGCombiner::SelectSeqMinCCLifetime(void) {
+
+ LLVM_DEBUG(dbgs() << "SelectSeqMinCCLifetime:\n");
+
+ LLVM_DEBUG(dbgs() << "DAG PRE:\n");
+ for (SDNode &Node : DAG.allnodes())
+ LLVM_DEBUG(dbgs() << ""; Node.dump());
+
+ // Run through the DAG, looking for selects that use setcc,
+ // collect the setcc operand if we have not collected it already:
+ SmallSet<SDValue, 16> CandidateSetcc;
+ for (SDNode &Node : DAG.allnodes()) {
+ if (Node.getOpcode() != ISD::SELECT)
+ continue;
+ SDValue Op0 = Node.getOperand(0);
+ if (Op0.getOpcode() != ISD::SETCC)
+ continue;
+ if (!CandidateSetcc.contains(Op0))
+ CandidateSetcc.insert(Op0);
+ }
+
+ auto ProcessSetcc = [this](SDValue N) -> bool {
+ bool DAGModified = false;
+ assert(N.getOpcode() == ISD::SETCC);
+ LLVM_DEBUG(dbgs() << "Setcc: "; N.dump());
+ // SelectUser: All the select instructions that use this setcc.
+ // SelectUser lists the selects in the order they appear in the DAG i.e.
+ // going from top to down in the DAG, they appear in left to right order, 0
+ // onwards ... Ultimately, the accesses are generated using SelectUser.
+ SmallVector<SDNode *, 64> SelectUser;
+ SmallVector<SDValue, 64> TSeq; // Operand 1 of each SelectUser
+ SmallVector<SDValue, 64> FSeq; // Operand 2 of each SelectUser
+ SDNodeFlags AccessAddrFlags;
+ unsigned i = 0;
+ // Collect the 't' & 'f' operands:
+ for (SDNode *User : N->users()) {
+ // NOTE: The SDNode::use_iterator presents the use's in *reverse* order.
+ ++i;
+ if (User->getOpcode() != ISD::SELECT)
+ continue;
+ SDValue N1 = User->getOperand(1);
+ SDValue N2 = User->getOperand(2);
+ auto itU = SelectUser.begin();
+ SelectUser.insert(itU, User);
+ auto itO1 = TSeq.begin();
+ TSeq.insert(itO1, N1);
+ auto itO2 = FSeq.begin();
+ FSeq.insert(itO2, N2);
+ SDNodeFlags N1Flags = N1->getFlags();
+ SDNodeFlags N2Flags = N2->getFlags();
+ // Note the flags for later use ...
+ if (N1.getOpcode() == ISD::ADD)
+ AccessAddrFlags = N1Flags;
+ if (N2.getOpcode() == ISD::ADD)
+ AccessAddrFlags = N2Flags;
+ if (N1.getOpcode() != ISD::ADD || N2.getOpcode() != ISD::ADD)
+ continue;
+ // Both operands are ISD::ADD's Ascertain that either: Both operands have
+ // the same (NoSigned/NoUnsigned)Wrap flags or both operands have no
+ // (NoSigned/NoUnsigned)Wrap flags:
+ if (!((N1Flags.hasNoSignedWrap() && N2Flags.hasNoSignedWrap()) ||
+ (N1Flags.hasNoUnsignedWrap() && N2Flags.hasNoUnsignedWrap()) ||
+ ((!N1Flags.hasNoSignedWrap() && !N2Flags.hasNoSignedWrap()) &&
+ (!N1Flags.hasNoUnsignedWrap() && !N2Flags.hasNoUnsignedWrap())))) {
+ LLVM_DEBUG(
+ dbgs() << "Operand (Signed/Unsigned)flags mismatch; skip.\n");
+ return false;
+ }
+ }
+ LLVM_DEBUG(dbgs() << "User:\n");
+ for (unsigned i = 0; i < SelectUser.size(); ++i) {
+ LLVM_DEBUG(dbgs() << i << " "; SelectUser[i]->dump());
+ for (const SDValue &Op : SelectUser[i]->op_values())
+ LLVM_DEBUG(dbgs() << " "; Op.dump());
+ }
+ auto WellFormedAP = [this](const SmallVector<SDValue, 64> &OpSeq,
+ SDValue &BaseReg, int64_t &InitialVal,
+ int64_t &Delta, uint64_t &ADDCount) -> bool {
+ auto AscertainConstDiff = [](const SmallVector<int64_t, 64> &RawOffsets,
+ int64_t diff) -> bool {
+ bool WF = true;
+ for (unsigned i = 1; WF && (i < RawOffsets.size()); ++i)
+ WF &= (diff == (RawOffsets[i] - RawOffsets[i - 1]));
+ return WF;
+ };
+ if (OpSeq.size() < 2) {
+ LLVM_DEBUG(dbgs() << "Need at least two elements in an arithmetic "
+ "progression; skip.\n");
+ return false;
+ }
+ bool WF = true;
+ SmallVector<int64_t, 64> RawOffsets;
+ if (OpSeq[0].getOpcode() == ISD::Constant) {
+ for (auto V : OpSeq) {
+ WF &= ((V.getOpcode() == ISD::Constant));
+ if (WF) {
+ auto *C = dyn_cast<ConstantSDNode>(V);
+ if (C && C->getAPIntValue().getSignificantBits() <= 64)
+ RawOffsets.push_back(C->getSExtValue());
+ else {
+ LLVM_DEBUG(dbgs() << "Unable to obtain value; skip.\n");
+ return false;
+ }
+ } else {
+ LLVM_DEBUG(dbgs()
+ << "If the zeroeth element is a constant, so must be "
+ "each element in the sequence; skip.\n");
+ return false;
+ }
+ }
+ BaseReg = DAG.getConstant(0, SDLoc(OpSeq[0]), OpSeq[0].getValueType());
+ auto *C0 = dyn_cast<ConstantSDNode>(OpSeq[0]);
+ auto *C1 = dyn_cast<ConstantSDNode>(OpSeq[1]);
+ if ((C0 && C0->getAPIntValue().getSignificantBits() <= 64) &&
+ (C1 && C1->getAPIntValue().getSignificantBits() <= 64)) {
+ InitialVal = C0->getSExtValue();
+ Delta = (C1->getSExtValue()) - InitialVal;
+ WF &= AscertainConstDiff(RawOffsets, Delta);
+ return WF;
+ } else {
+ LLVM_DEBUG(dbgs() << "Unable to obtain value; skip.\n");
+ return false;
+ }
+ } else {
+ // Three cases arise:
+ // 0. All the elements are ISD::ADD's
+ // 1. The zeroeth element is a base register definition and the rest are
+ // ISD::ADD's
+ // 2. The OpSeq.size()-1'th element is a base register definition and
+ // the rest are ISD::ADD's
+ // l: inclusive lower bound
+ // u: non-inclusive upper bound
+ auto isBaseRegDef = [](const SDValue V) -> bool {
+ return (V.getOpcode() == ISD::CopyFromReg) ||
+ (V.getOpcode() == ISD::LOAD);
+ };
+ unsigned l, u;
+ if (OpSeq[0].getOpcode() == ISD::ADD &&
+ OpSeq[OpSeq.size() - 1].getOpcode() == ISD::ADD) {
+ l = 0;
+ u = OpSeq.size();
+ if (isBaseRegDef(OpSeq[0].getOperand(0))) {
+ BaseReg = OpSeq[0].getOperand(0);
+ } else {
+ LLVM_DEBUG(dbgs() << "Unable to get BaseReg; skip.\n");
+ return false;
+ }
+ } else if (isBaseRegDef(OpSeq[0])) {
+ l = 1;
+ u = OpSeq.size();
+ BaseReg = OpSeq[0];
+ } else if (isBaseRegDef(OpSeq[OpSeq.size() - 1])) {
+ l = 0;
+ u = OpSeq.size() - 1;
+ BaseReg = OpSeq[OpSeq.size() - 1];
+ } else {
+ LLVM_DEBUG(
+ dbgs()
+ << "Sequence not in (Add)+|(BaseRegDef)(Add)+|(Add)+(BaseRegDef) "
+ "form; skip.\n");
+ return false;
+ }
+ // Ascertain that the elements in OpSeq[l, u) are all ISD::ADD's in the
+ // form: BaseReg + (constant offset)
+ for (unsigned i = l; WF && (i < u); ++i) {
+ WF &= ((OpSeq[i].getOpcode() == ISD::ADD) &&
+ (OpSeq[i].getOperand(0) == BaseReg) &&
+ (OpSeq[i].getOperand(1).getOpcode() == ISD::Constant));
+ if (WF) {
+ ++ADDCount;
+ auto *C = dyn_cast<ConstantSDNode>(OpSeq[i].getOperand(1));
+ if (C && C->getAPIntValue().getSignificantBits() <= 64)
+ RawOffsets.push_back(C->getSExtValue());
+ else {
+ LLVM_DEBUG(dbgs() << "Unable to obtain value; skip.\n");
+ return false;
+ }
+ } else {
+ LLVM_DEBUG(dbgs() << "Sequence not in (Add = BaseReg + <constant "
+ "offset>)+ form; skip.\n");
+ return false;
+ }
+ }
+ if (!WF)
+ return WF;
+ if (isBaseRegDef(OpSeq[0])) {
+ InitialVal = 0;
+ // Element 1 is guaranteed to be ISD::ADD in the form:
+ // BaseReg + (constant offset)
+ auto *C = dyn_cast<ConstantSDNode>(OpSeq[1].getOperand(1));
+ if (C && C->getAPIntValue().getSignificantBits() <= 64)
+ Delta = (C->getSExtValue()) - InitialVal;
+ else {
+ LLVM_DEBUG(dbgs() << "Unable to obtain value; skip.\n");
+ return false;
+ }
+ } else { // Element 0 is an ISD::ADD
+ auto *C = dyn_cast<ConstantSDNode>(OpSeq[0].getOperand(1));
+ if (C && C->getAPIntValue().getSignificantBits() <= 64) {
+ InitialVal = C->getSExtValue();
+ if (OpSeq[1].getOpcode() == ISD::ADD) {
+ auto *C = dyn_cast<ConstantSDNode>(OpSeq[1].getOperand(1));
+ if (C && C->getAPIntValue().getSignificantBits() <= 64) {
+ Delta = (C->getSExtValue()) - InitialVal;
+ } else {
+ LLVM_DEBUG(dbgs() << "Unable to obtain value; skip.\n");
+ return false;
+ }
+ } else { // Element 1 is an BaseRegDef
+ Delta = 0 - InitialVal;
+ }
+ } else {
+ LLVM_DEBUG(dbgs() << "Unable to obtain value; skip.\n");
+ return false;
+ }
+ }
+ WF &= AscertainConstDiff(RawOffsets, Delta);
+ return WF;
+ }
+ };
+ uint64_t TSeqADDCount = 0;
+ SDValue TSeqBaseReg;
+ int64_t TSeqInitialVal = 0;
+ int64_t TSeqDelta = 0;
+ bool TSeqValid = WellFormedAP(TSeq, TSeqBaseReg, TSeqInitialVal, TSeqDelta,
+ TSeqADDCount);
+ uint64_t FSeqADDCount = 0;
+ SDValue FSeqBaseReg;
+ int64_t FSeqInitialVal = 0;
+ int64_t FSeqDelta = 0;
+ bool FSeqValid = WellFormedAP(FSeq, FSeqBaseReg, FSeqInitialVal, FSeqDelta,
+ FSeqADDCount);
+ if (!TSeqValid || !FSeqValid) {
+ LLVM_DEBUG(dbgs() << "Operands not well formed or not in aritmetic "
+ "progression; skip.\n");
+ return false;
+ }
+ EVT TSeqEltVT = TSeqBaseReg.getValueType();
+ EVT FSeqEltVT = FSeqBaseReg.getValueType();
+ EVT TSeqEltSTVT = TSeqEltVT.getScalarType();
+ EVT FSeqEltSTVT = FSeqEltVT.getScalarType();
+ SDValue TSeqInitialValReg = DAG.getConstant(
+ APInt(TSeqEltSTVT.getSizeInBits(), (uint64_t)TSeqInitialVal, true),
+ SDLoc(N), TSeqEltVT);
+ SDValue TSeqDeltaReg = DAG.getConstant(
+ APInt(TSeqEltSTVT.getSizeInBits(), (uint64_t)TSeqDelta, true), SDLoc(N),
+ TSeqEltVT);
+ SDValue FSeqInitialValReg = DAG.getConstant(
+ APInt(FSeqEltSTVT.getSizeInBits(), (uint64_t)FSeqInitialVal, true),
+ SDLoc(N), FSeqEltVT);
+ SDValue FSeqDeltaReg = DAG.getConstant(
+ APInt(FSeqEltSTVT.getSizeInBits(), (uint64_t)FSeqDelta, true), SDLoc(N),
+ FSeqEltVT);
+ // Sequence selector nodes:
+ // Construct a select for the base register:
+ SDValue BaseRegSelect = DAG.getSelect(
+ SDLoc(N),
+ TSeqBaseReg.getValueType(), // Note: We could use FSeqBaseReg as well.
+ N, TSeqBaseReg, FSeqBaseReg);
+ LLVM_DEBUG(dbgs() << "BaseReg: "; BaseRegSelect->dump());
+ // Construct a select for the initial value:
+ SDValue InitialValSelect = DAG.getSelect(
+ SDLoc(N),
+ TSeqInitialValReg
+ .getValueType(), // Note: We could use FSeqInitialValReg as well.
+ N, TSeqInitialValReg, FSeqInitialValReg);
+ LLVM_DEBUG(dbgs() << "InitialVal: "; InitialValSelect->dump());
+ // Construct a select for the delta value:
+ SDValue DeltaSelect =
+ DAG.getSelect(SDLoc(N), TSeqDeltaReg.getValueType(),
+ // Note: We could use FSeqDeltaReg as well.
+ N, TSeqDeltaReg, FSeqDeltaReg);
+ LLVM_DEBUG(dbgs() << "Delta: "; DeltaSelect->dump());
+ // Check if any of the sequence selector nodes correspond to the SelectUser
+ // nodes. If so, we need to bail out here itself as we will end-up creating
+ // a cycle in the generated access address nodes, after we substitute the
+ // the generated access addresss in the uses of the select nodes that we are
+ // eliminating. The exception to this is when the BaseReg is SelectUser[0]
+ // and the InitialValue is the constant 0; in this case, AccessAddr[0] will
+ // reduce to the BaseReg, so this is not an issue.
+ auto Overlap = [](const SmallVector<SDNode *, 64> NodeList,
+ const SDNode *Node) -> unsigned {
+ unsigned Index = 0;
+ for (auto N : NodeList)
+ if (N == Node)
+ return Index;
+ else
+ ++Index;
+ return Index;
+ };
+ auto isZero = [](SDValue V) -> bool {
+ if (V.getOpcode() == ISD::Constant) {
+ auto *C = dyn_cast<ConstantSDNode>(V);
+ if (C && C->getAPIntValue().getSignificantBits() <= 64)
+ return C->getSExtValue() == 0;
+ else {
+ LLVM_DEBUG(dbgs() << "Unable to obtain value; skip.\n");
+ return false;
+ }
+ }
+ return false;
+ };
+ unsigned SUSize = SelectUser.size();
+ unsigned BRIndex = Overlap(SelectUser, BaseRegSelect.getNode());
+ if ((((BRIndex != 0) || !isZero(InitialValSelect)) &&
+ (BRIndex != SUSize)) ||
+ (Overlap(SelectUser, InitialValSelect.getNode()) != SUSize) ||
+ (Overlap(SelectUser, DeltaSelect.getNode()) != SUSize)) {
+ LLVM_DEBUG(
+ dbgs()
+ << "Generated code will introduce cycle(s) in the DAG; skip.\n");
+ return DAGModified = false;
+ }
+ auto CostBenefit = [&SelectUser, &TSeqADDCount, &FSeqADDCount, &BRIndex,
+ &InitialValSelect, &isZero]() -> int64_t {
+ bool Adjusted = false;
+ // select instructions we think we are going to subtract:
+ uint64_t SelectInstCount = SelectUser.size(); // select's
+ // Instructions we think we are going to add:
+ uint64_t SeqSelectorCount = 3; // 1 BaseReg, 1 InitialVal, 1 Delta
+ uint64_t AddInstCount = SelectInstCount; // add's (AccessAddr's below)
+ if (BRIndex == 0 && isZero(InitialValSelect)) {
+ // When the BaseReg is SelectUser[0] and the InitialValue is the
+ // constant 0; AccessAddr[0] will reduce to the BaseReg, so, we will
+ // eliminate one select less and we will add one ADD less, so make the
+ // appropriate adjustments:
+ --SelectInstCount;
+ --AddInstCount;
+ // ... but, we counted 1 for the BaseReg, and 1 for the InitialValue,
+ // which are not newly added instructions now, so:
+ SeqSelectorCount -= 2;
+ // Lastly:
+ Adjusted = true;
+ }
+ uint64_t ToBeEliminatedInstCount =
+ SelectInstCount + TSeqADDCount + FSeqADDCount;
+ uint64_t ToBeAddedInstCount = AddInstCount + SeqSelectorCount;
+ int64_t Benefit = ToBeEliminatedInstCount - ToBeAddedInstCount;
+ LLVM_DEBUG(dbgs() << "Cost Benefit Analysis:\n");
+ LLVM_DEBUG(dbgs() << "Adjusted: " << Adjusted << "\n");
+ LLVM_DEBUG(dbgs() << "Number of select's eliminated: " << SelectInstCount
+ << "\n");
+ LLVM_DEBUG(dbgs() << "Number of TSeq ADD's eliminated: " << TSeqADDCount
+ << "\n");
+ LLVM_DEBUG(dbgs() << "Number of FSeq ADD's eliminated: " << FSeqADDCount
+ << "\n");
+ LLVM_DEBUG(dbgs() << "Number of Sequence Selectors added: "
+ << SeqSelectorCount << "\n");
+ LLVM_DEBUG(dbgs() << "Number of ADD accesses added: " << AddInstCount
+ << "\n");
+ LLVM_DEBUG(
+ dbgs() << "CostBenefit (i.e. instruction count to be reduced by): "
+ << Benefit << "\n");
+ LLVM_DEBUG(dbgs() << "SelectSeqMinCostBenefit: "
+ << SelectSeqMinCostBenefit << "\n");
+ return Benefit;
+ };
+ if (CostBenefit() < SelectSeqMinCostBenefit) {
+ LLVM_DEBUG(
+ dbgs()
+ << "Generated code will not be of cost benefit to the DAG; skip.\n");
+ return DAGModified = false;
+ }
+ // Construct the Access address nodes:
+ SmallVector<SDValue, 64> AccessAddr;
+ LLVM_DEBUG(dbgs() << "AccessAddr:\n");
+ for (unsigned i = 0; i < SelectUser.size(); ++i) {
+ SDLoc DL(SelectUser[i]);
+ SDValue CurAccessAddr;
+ if (i == 0)
+ CurAccessAddr = DAG.getNode(ISD::ADD, DL, BaseRegSelect.getValueType(),
+ BaseRegSelect, InitialValSelect);
+ else
+ CurAccessAddr =
+ DAG.getNode(ISD::ADD, DL, AccessAddr[i - 1].getValueType(),
+ AccessAddr[i - 1], DeltaSelect);
+ // DAG.getNode() could have optimized and returned an ISD::SELECT if the
+ // InitialValSelect reduced to the constant zero, so check that we have an
+ // ISD:ADD before setting the flags:
+ if (CurAccessAddr.getOpcode() == ISD::ADD)
+ CurAccessAddr->setFlags(AccessAddrFlags);
+ AccessAddr.push_back(CurAccessAddr);
+ DAG.ReplaceAllUsesWith(SelectUser[i], CurAccessAddr.getNode());
+ DAGModified = true;
+ LLVM_DEBUG(dbgs() << i << " "; CurAccessAddr->dump());
+ }
+ DAG.RemoveDeadNodes();
+ return DAGModified;
+ };
+
+ bool DAGModified = false;
+ for (auto Setcc : CandidateSetcc)
+ DAGModified |= ProcessSetcc(Setcc);
+
+ LLVM_DEBUG(dbgs() << "DAG PST:\n");
+ for (SDNode &Node : DAG.allnodes())
+ LLVM_DEBUG(dbgs() << ""; Node.dump());
+
+ return DAGModified;
+}
+
//===----------------------------------------------------------------------===//
// Main DAG Combiner implementation
//===----------------------------------------------------------------------===//
void DAGCombiner::Run(CombineLevel AtLevel) {
+ if (SelectSeq && (AtLevel == BeforeLegalizeTypes))
+ SelectSeqMinCCLifetime();
// set the instance variables, so that the various visit routines may use it.
Level = AtLevel;
LegalDAG = Level >= AfterLegalizeDAG;
diff --git a/llvm/test/CodeGen/AArch64/combiner-select-seq.ll b/llvm/test/CodeGen/AArch64/combiner-select-seq.ll
new file mode 100644
index 0000000000000..d1b6051a92a62
--- /dev/null
+++ b/llvm/test/CodeGen/AArch64/combiner-select-seq.ll
@@ -0,0 +1,289 @@
+; RUN: llc < %s -march=aarch64 -simplify-mir -stop-after=aarch64-isel | FileCheck %s --check-prefix=PRE
+; RUN: llc < %s -march=aarch64 -simplify-mir -stop-after=aarch64-isel --combiner-select-seq -combiner-select-seq-min-cost-benefit=5 | FileCheck %s --check-prefix=PST
+
+; Description:
+; ------------
+; Given:
+; struct A {
+; char junk[53];
+; int a0;
+; int a1;
+; int a2;
+; int a3;
+; int a4;
+; int a5;
+; int a6;
+; int a7;
+; };
+; extern int sum(struct A *pa);
+; extern int access(void *p);
+; int sum(struct A *pa) {
+; int s = 0;
+; s += access(pa ? (void *) &pa->a0 : (void *) 91);
+; s += access(pa ? (void *) &pa->a1 : (void *) 81);
+; s += access(pa ? (void *) &pa->a2 : (void *) 71);
+; s += access(pa ? (void *) &pa->a3 : (void *) 61);
+; s += access(pa ? (void *) &pa->a4 : (void *) 51);
+; s += access(pa ? (void *) &pa->a5 : (void *) 41);
+; s += access(pa ? (void *) &pa->a6 : (void *) 31);
+; s += access(pa ? (void *) &pa->a7 : (void *) 21);
+; return s;
+; }
+; Compiled into LLVM IR, thus: -O3 --target=aarch64 -emit-llvm -S
+; Do we, under --combiner-select-seq, identify the setcc:
+; Setcc: t5: i1 = setcc t2, Constant:i64<0>, seteq:ch
+; along with its select users:
+; User:
+; 0 t9: i64 = select t5, Constant:i64<91>, t7
+; t5: i1 = setcc t2, Constant:i64<0>, seteq:ch
+; t8: i64 = Constant<91>
+; t7: i64 = add nuw t2, Constant:i64<56>
+; 1 t26: i64 = select t5, Constant:i64<81>, t24
+; t5: i1 = setcc t2, Constant:i64<0>, seteq:ch
+; t25: i64 = Constant<81>
+; t24: i64 = add nuw t2, Constant:i64<60>
+; 2 t37: i64 = select t5, Constant:i64<71>, t35
+; t5: i1 = setcc t2, Constant:i64<0>, seteq:ch
+; t36: i64 = Constant<71>
+; t35: i64 = add nuw t2, Constant:i64<64>
+; 3 t48: i64 = select t5, Constant:i64<61>, t46
+; t5: i1 = setcc t2, Constant:i64<0>, seteq:ch
+; t47: i64 = Constant<61>
+; t46: i64 = add nuw t2, Constant:i64<68>
+; 4 t59: i64 = select t5, Constant:i64<51>, t57
+; t5: i1 = setcc t2, Constant:i64<0>, seteq:ch
+; t58: i64 = Constant<51>
+; t57: i64 = add nuw t2, Constant:i64<72>
+; 5 t70: i64 = select t5, Constant:i64<41>, t68
+; t5: i1 = setcc t2, Constant:i64<0>, seteq:ch
+; t69: i64 = Constant<41>
+; t68: i64 = add nuw t2, Constant:i64<76>
+; 6 t81: i64 = select t5, Constant:i64<31>, t79
+; t5: i1 = setcc t2, Constant:i64<0>, seteq:ch
+; t80: i64 = Constant<31>
+; t79: i64 = add nuw t2, Constant:i64<80>
+; 7 t92: i64 = select t5, Constant:i64<21>, t90
+; t5: i1 = setcc t2, Constant:i64<0>, seteq:ch
+; t91: i64 = Constant<21>
+; t90: i64 = add nuw t2, Constant:i64<84>
+; defining the two sequences:
+; t-seq: ( 0 + 91), ( 0 + 81), ..., (0 + 31), (0 + 21)
+; f-seq: (t2 + 56), (t2 + 60), ..., (t2 + 80), (t2 + 84)
+; and derive and inject the sequence selectors:
+; BaseReg: t104: i64 = select t5, Constant:i64<0>, t2
+; InitialVal: t105: i64 = select t5, Constant:i64<91>, Constant:i64<56>
+; Delta: t106: i64 = select t5, Constant:i64<-10>, Constant:i64<4>
+; that define:
+; AccessAddr:
+; 0 t107: i64 = add nuw t104, t105
+; 1 t108: i64 = add nuw t107, t106
+; 2 t109: i64 = add nuw t108, t106
+; 3 t110: i64 = add nuw t109, t106
+; 4 t111: i64 = add nuw t110, t106
+; 5 t112: i64 = add nuw t111, t106
+; 6 t113: i64 = add nuw t112, t106
+; 7 t114: i64 = add nuw t113, t106
+; and, do we rewrite the DAG, eliminating the selects and the base-displacement
+; add's so that instead, the AccessAddr's are now used?
+
+target datalayout = "e-m:e-p270:32:32-p271:32:32-p272:64:64-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128-Fn32"
+target triple = "aarch64"
+
+; Function Attrs: nounwind uwtable
+define dso_local i32 @sum(ptr noundef %pa) local_unnamed_addr #0 {
+entry:
+ %tobool.not = icmp eq ptr %pa, null
+ %a0 = getelementptr inbounds nuw i8, ptr %pa, i64 56
+ %cond = select i1 %tobool.not, ptr inttoptr (i64 91 to ptr), ptr %a0
+ %call = tail call i32 @access(ptr noundef nonnull %cond) #2
+ %a1 = getelementptr inbounds nuw i8, ptr %pa, i64 60
+ %cond5 = select i1 %tobool.not, ptr inttoptr (i64 81 to ptr), ptr %a1
+ %call6 = tail call i32 @access(ptr noundef nonnull %cond5) #2
+ %add7 = add nsw i32 %call6, %call
+ %a2 = getelementptr inbounds nuw i8, ptr %pa, i64 64
+ %cond12 = select i1 %tobool.not, ptr inttoptr (i64 71 to ptr), ptr %a2
+ %call13 = tail call i32 @access(ptr noundef nonnull %cond12) #2
+ %add14 = add nsw i32 %add7, %call13
+ %a3 = getelementptr inbounds nuw i8, ptr %pa, i64 68
+ %cond19 = select i1 %tobool.not, ptr inttoptr (i64 61 to ptr), ptr %a3
+ %call20 = tail call i32 @access(ptr noundef nonnull %cond19) #2
+ %add21 = add nsw i32 %add14, %call20
+ %a4 = getelementptr inbounds nuw i8, ptr %pa, i64 72
+ %cond26 = select i1 %tobool.not, ptr inttoptr (i64 51 to ptr), ptr %a4
+ %call27 = tail call i32 @access(ptr noundef nonnull %cond26) #2
+ %add28 = add nsw i32 %add21, %call27
+ %a5 = getelementptr inbounds nuw i8, ptr %pa, i64 76
+ %cond33 = select i1 %tobool.not, ptr inttoptr (i64 41 to ptr), ptr %a5
+ %call34 = tail call i32 @access(ptr noundef nonnull %cond33) #2
+ %add35 = add nsw i32 %add28, %call34
+ %a6 = getelementptr inbounds nuw i8, ptr %pa, i64 80
+ %cond40 = select i1 %tobool.not, ptr inttoptr (i64 31 to ptr), ptr %a6
+ %call41 = tail call i32 @access(ptr noundef nonnull %cond40) #2
+ %add42 = add nsw i32 %add35, %call41
+ %a7 = getelementptr inbounds nuw i8, ptr %pa, i64 84
+ %cond47 = select i1 %tobool.not, ptr inttoptr (i64 21 to ptr), ptr %a7
+ %call48 = tail call i32 @access(ptr noundef nonnull %cond47) #2
+ %add49 = add nsw i32 %add42, %call48
+ ret i32 %add49
+}
+
+declare dso_local i32 @access(ptr noundef) local_unnamed_addr #1
+
+; PRE-LABEL: name: sum
+; PRE: %0:gpr64common = COPY $x0
+; PRE: %1:gpr64common = nuw ADDXri %0, 56, 0
+; PRE: %2:gpr64 = SUBSXri %0, 0, 0, implicit-def $nzcv
+; PRE: %3:gpr32 = MOVi32imm 91
+; PRE: %4:gpr64 = SUBREG_TO_REG 0, killed %3, %subreg.sub_32
+; PRE: %5:gpr64 = CSELXr killed %4, killed %1, 0, implicit $nzcv
+; PRE: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: %6:gpr64common = nuw ADDXri %0, 60, 0
+; PRE: %7:gpr32 = MOVi32imm 81
+; PRE: %8:gpr64 = SUBREG_TO_REG 0, killed %7, %subreg.sub_32
+; PRE: %9:gpr64 = CSELXr killed %8, killed %6, 0, implicit $nzcv
+; PRE: %10:gpr64common = nuw ADDXri %0, 64, 0
+; PRE: %11:gpr32 = MOVi32imm 71
+; PRE: %12:gpr64 = SUBREG_TO_REG 0, killed %11, %subreg.sub_32
+; PRE: %13:gpr64 = CSELXr killed %12, killed %10, 0, implicit $nzcv
+; PRE: %14:gpr64common = nuw ADDXri %0, 68, 0
+; PRE: %15:gpr32 = MOVi32imm 61
+; PRE: %16:gpr64 = SUBREG_TO_REG 0, killed %15, %subreg.sub_32
+; PRE: %17:gpr64 = CSELXr killed %16, killed %14, 0, implicit $nzcv
+; PRE: %18:gpr64common = nuw ADDXri %0, 72, 0
+; PRE: %19:gpr32 = MOVi32imm 51
+; PRE: %20:gpr64 = SUBREG_TO_REG 0, killed %19, %subreg.sub_32
+; PRE: %21:gpr64 = CSELXr killed %20, killed %18, 0, implicit $nzcv
+; PRE: %22:gpr64common = nuw ADDXri %0, 76, 0
+; PRE: %23:gpr32 = MOVi32imm 41
+; PRE: %24:gpr64 = SUBREG_TO_REG 0, killed %23, %subreg.sub_32
+; PRE: %25:gpr64 = CSELXr killed %24, killed %22, 0, implicit $nzcv
+; PRE: %26:gpr64common = nuw ADDXri %0, 80, 0
+; PRE: %27:gpr32 = MOVi32imm 31
+; PRE: %28:gpr64 = SUBREG_TO_REG 0, killed %27, %subreg.sub_32
+; PRE: %29:gpr64 = CSELXr killed %28, killed %26, 0, implicit $nzcv
+; PRE: %30:gpr64common = nuw ADDXri %0, 84, 0
+; PRE: %31:gpr32 = MOVi32imm 21
+; PRE: %32:gpr64 = SUBREG_TO_REG 0, killed %31, %subreg.sub_32
+; PRE: %33:gpr64 = CSELXr killed %32, killed %30, 0, implicit $nzcv
+; PRE: $x0 = COPY %5
+; PRE: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PRE: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: %34:gpr32 = COPY $w0
+; PRE: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: $x0 = COPY %9
+; PRE: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PRE: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: %35:gpr32 = COPY $w0
+; PRE: %36:gpr32 = nsw ADDWrr %35, %34
+; PRE: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: $x0 = COPY %13
+; PRE: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PRE: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: %37:gpr32 = COPY $w0
+; PRE: %38:gpr32 = nsw ADDWrr killed %36, %37
+; PRE: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: $x0 = COPY %17
+; PRE: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PRE: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: %39:gpr32 = COPY $w0
+; PRE: %40:gpr32 = nsw ADDWrr killed %38, %39
+; PRE: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: $x0 = COPY %21
+; PRE: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PRE: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: %41:gpr32 = COPY $w0
+; PRE: %42:gpr32 = nsw ADDWrr killed %40, %41
+; PRE: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: $x0 = COPY %25
+; PRE: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PRE: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: %43:gpr32 = COPY $w0
+; PRE: %44:gpr32 = nsw ADDWrr killed %42, %43
+; PRE: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: $x0 = COPY %29
+; PRE: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PRE: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: %45:gpr32 = COPY $w0
+; PRE: %46:gpr32 = nsw ADDWrr killed %44, %45
+; PRE: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: $x0 = COPY %33
+; PRE: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PRE: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PRE: %47:gpr32 = COPY $w0
+; PRE: %48:gpr32 = nsw ADDWrr killed %46, %47
+; PRE: $w0 = COPY %48
+; PRE: RET_ReallyLR implicit $w0
+; PRE: ...
+
+; PST-LABEL: name: sum
+; PST: %0:gpr64common = COPY $x0
+; PST: %1:gpr64 = SUBSXri %0, 0, 0, implicit-def $nzcv
+; PST: %2:gpr32 = MOVi32imm 4
+; PST: %3:gpr64 = SUBREG_TO_REG 0, killed %2, %subreg.sub_32
+; PST: %4:gpr64 = MOVi64imm -10
+; PST: %5:gpr64 = CSELXr killed %4, killed %3, 0, implicit $nzcv
+; PST: %6:gpr32 = MOVi32imm 56
+; PST: %7:gpr64 = SUBREG_TO_REG 0, killed %6, %subreg.sub_32
+; PST: %8:gpr32 = MOVi32imm 91
+; PST: %9:gpr64 = SUBREG_TO_REG 0, killed %8, %subreg.sub_32
+; PST: %10:gpr64 = CSELXr killed %9, killed %7, 0, implicit $nzcv
+; PST: %11:gpr64 = COPY $xzr
+; PST: %12:gpr64 = CSELXr %11, %0, 0, implicit $nzcv
+; PST: %13:gpr64 = nuw ADDXrr killed %12, killed %10
+; PST: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PST: $x0 = COPY %13
+; PST: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PST: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PST: %14:gpr32 = COPY $w0
+; PST: %15:gpr64 = nuw ADDXrr %13, %5
+; PST: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PST: $x0 = COPY %15
+; PST: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PST: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PST: %16:gpr32 = COPY $w0
+; PST: %17:gpr32 = nsw ADDWrr %16, %14
+; PST: %18:gpr64 = nuw ADDXrr %15, %5
+; PST: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PST: $x0 = COPY %18
+; PST: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PST: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PST: %19:gpr32 = COPY $w0
+; PST: %20:gpr32 = nsw ADDWrr killed %17, %19
+; PST: %21:gpr64 = nuw ADDXrr %18, %5
+; PST: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PST: $x0 = COPY %21
+; PST: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PST: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PST: %22:gpr32 = COPY $w0
+; PST: %23:gpr32 = nsw ADDWrr killed %20, %22
+; PST: %24:gpr64 = nuw ADDXrr %21, %5
+; PST: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PST: $x0 = COPY %24
+; PST: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PST: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PST: %25:gpr32 = COPY $w0
+; PST: %26:gpr32 = nsw ADDWrr killed %23, %25
+; PST: %27:gpr64 = nuw ADDXrr %24, %5
+; PST: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PST: $x0 = COPY %27
+; PST: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PST: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PST: %28:gpr32 = COPY $w0
+; PST: %29:gpr32 = nsw ADDWrr killed %26, %28
+; PST: %30:gpr64 = nuw ADDXrr %27, %5
+; PST: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PST: $x0 = COPY %30
+; PST: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PST: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PST: %31:gpr32 = COPY $w0
+; PST: %32:gpr32 = nsw ADDWrr killed %29, %31
+; PST: %33:gpr64 = nuw ADDXrr %30, %5
+; PST: ADJCALLSTACKDOWN 0, 0, implicit-def dead $sp, implicit $sp
+; PST: $x0 = COPY %33
+; PST: BL @access, csr_aarch64_aapcs, implicit-def dead $lr, implicit $sp, implicit $x0, implicit-def $sp, implicit-def $w0
+; PST: ADJCALLSTACKUP 0, 0, implicit-def dead $sp, implicit $sp
+; PST: %34:gpr32 = COPY $w0
+; PST: %35:gpr32 = nsw ADDWrr killed %32, %34
+; PST: $w0 = COPY %35
+; PST: RET_ReallyLR implicit $w0
+; PST: ...
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