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BranchProb: modify the definition of an edge in BranchProbabilityInfo to handle
the case of multiple edges from one block to another. A simple example is a switch statement with multiple values to the same destination. The definition of an edge is modified from a pair of blocks to a pair of PredBlock and an index into the successors. Also set the weight correctly when building SelectionDAG from LLVM IR, especially when converting a Switch. IntegersSubsetMapping is updated to calculate the weight for each cluster. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@162572 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -28,11 +28,14 @@ class raw_ostream;
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///
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/// This is a function analysis pass which provides information on the relative
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/// probabilities of each "edge" in the function's CFG where such an edge is
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/// defined by a pair of basic blocks. The probability for a given block and
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/// a successor block are always relative to the probabilities of the other
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/// successor blocks. Another way of looking at it is that the probabilities
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/// for a given block B and each of its successors should sum to exactly
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/// one (100%).
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/// defined by a pair (PredBlock and an index in the successors). The
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/// probability of an edge from one block is always relative to the
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/// probabilities of other edges from the block. The probabilites of all edges
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/// from a block sum to exactly one (100%).
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/// We use a pair (PredBlock and an index in the successors) to uniquely
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/// identify an edge, since we can have multiple edges from Src to Dst.
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/// As an example, we can have a switch which jumps to Dst with value 0 and
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/// value 10.
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class BranchProbabilityInfo : public FunctionPass {
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public:
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static char ID;
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@ -51,6 +54,12 @@ public:
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/// (0%) and one (100%) of this edge executing, relative to other edges
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/// leaving the 'Src' block. The returned probability is never zero, and can
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/// only be one if the source block has only one successor.
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BranchProbability getEdgeProbability(const BasicBlock *Src,
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unsigned IndexInSuccessors) const;
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/// \brief Get the probability of going from Src to Dst.
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///
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/// It returns the sum of all probabilities for edges from Src to Dst.
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BranchProbability getEdgeProbability(const BasicBlock *Src,
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const BasicBlock *Dst) const;
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@ -74,25 +83,34 @@ public:
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raw_ostream &printEdgeProbability(raw_ostream &OS, const BasicBlock *Src,
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const BasicBlock *Dst) const;
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/// \brief Get the raw edge weight calculated for the block pair.
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/// \brief Get the raw edge weight calculated for the edge.
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///
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/// This returns the raw edge weight. It is guaranteed to fall between 1 and
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/// UINT32_MAX. Note that the raw edge weight is not meaningful in isolation.
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/// This interface should be very carefully, and primarily by routines that
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/// are updating the analysis by later calling setEdgeWeight.
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uint32_t getEdgeWeight(const BasicBlock *Src,
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unsigned IndexInSuccessors) const;
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/// \brief Get the raw edge weight calculated for the block pair.
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///
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/// This returns the sum of all raw edge weights from Src to Dst.
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/// It is guaranteed to fall between 1 and UINT32_MAX.
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uint32_t getEdgeWeight(const BasicBlock *Src, const BasicBlock *Dst) const;
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/// \brief Set the raw edge weight for the block pair.
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/// \brief Set the raw edge weight for a given edge.
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///
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/// This allows a pass to explicitly set the edge weight for a block. It can
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/// This allows a pass to explicitly set the edge weight for an edge. It can
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/// be used when updating the CFG to update and preserve the branch
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/// probability information. Read the implementation of how these edge
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/// weights are calculated carefully before using!
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void setEdgeWeight(const BasicBlock *Src, const BasicBlock *Dst,
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void setEdgeWeight(const BasicBlock *Src, unsigned IndexInSuccessors,
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uint32_t Weight);
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private:
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typedef std::pair<const BasicBlock *, const BasicBlock *> Edge;
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// Since we allow duplicate edges from one basic block to another, we use
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// a pair (PredBlock and an index in the successors) to specify an edge.
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typedef std::pair<const BasicBlock *, unsigned> Edge;
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// Default weight value. Used when we don't have information about the edge.
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// TODO: DEFAULT_WEIGHT makes sense during static predication, when none of
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@ -42,6 +42,7 @@ public:
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struct RangeEx : public RangeTy {
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RangeEx() : Weight(1) {}
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RangeEx(const RangeTy &R) : RangeTy(R), Weight(1) {}
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RangeEx(const RangeTy &R, unsigned W) : RangeTy(R), Weight(W) {}
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RangeEx(const IntTy &C) : RangeTy(C), Weight(1) {}
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RangeEx(const IntTy &L, const IntTy &H) : RangeTy(L, H), Weight(1) {}
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RangeEx(const IntTy &L, const IntTy &H, unsigned W) :
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@ -316,13 +317,13 @@ public:
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Items.clear();
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const IntTy *Low = &OldItems.begin()->first.getLow();
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const IntTy *High = &OldItems.begin()->first.getHigh();
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unsigned Weight = 1;
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unsigned Weight = OldItems.begin()->first.Weight;
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SuccessorClass *Successor = OldItems.begin()->second;
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for (CaseItemIt j = OldItems.begin(), i = j++, e = OldItems.end();
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j != e; i = j++) {
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if (isJoinable(i, j)) {
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const IntTy *CurHigh = &j->first.getHigh();
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++Weight;
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Weight += j->first.Weight;
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if (*CurHigh > *High)
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High = CurHigh;
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} else {
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@ -330,7 +331,7 @@ public:
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add(R, Successor);
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Low = &j->first.getLow();
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High = &j->first.getHigh();
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Weight = 1;
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Weight = j->first.Weight;
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Successor = j->second;
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}
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}
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@ -362,10 +363,17 @@ public:
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/// Adds all ranges and values from given ranges set to the current
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/// mapping.
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void add(const IntegersSubsetTy &CRS, SuccessorClass *S = 0) {
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void add(const IntegersSubsetTy &CRS, SuccessorClass *S = 0,
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unsigned Weight = 0) {
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unsigned ItemWeight = 1;
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if (Weight)
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// Weight is associated with CRS, for now we perform a division to
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// get the weight for each item.
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ItemWeight = Weight / CRS.getNumItems();
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for (unsigned i = 0, e = CRS.getNumItems(); i < e; ++i) {
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RangeTy R = CRS.getItem(i);
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add(R, S);
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RangeEx REx(R, ItemWeight);
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add(REx, S);
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}
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}
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@ -115,14 +115,14 @@ bool BranchProbabilityInfo::calcUnreachableHeuristics(BasicBlock *BB) {
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return false;
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}
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SmallPtrSet<BasicBlock *, 4> UnreachableEdges;
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SmallPtrSet<BasicBlock *, 4> ReachableEdges;
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SmallVector<unsigned, 4> UnreachableEdges;
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SmallVector<unsigned, 4> ReachableEdges;
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for (succ_iterator I = succ_begin(BB), E = succ_end(BB); I != E; ++I) {
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if (PostDominatedByUnreachable.count(*I))
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UnreachableEdges.insert(*I);
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UnreachableEdges.push_back(I.getSuccessorIndex());
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else
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ReachableEdges.insert(*I);
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ReachableEdges.push_back(I.getSuccessorIndex());
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}
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// If all successors are in the set of blocks post-dominated by unreachable,
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@ -136,18 +136,19 @@ bool BranchProbabilityInfo::calcUnreachableHeuristics(BasicBlock *BB) {
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return false;
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uint32_t UnreachableWeight =
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std::max(UR_TAKEN_WEIGHT / UnreachableEdges.size(), MIN_WEIGHT);
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for (SmallPtrSet<BasicBlock *, 4>::iterator I = UnreachableEdges.begin(),
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E = UnreachableEdges.end();
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std::max(UR_TAKEN_WEIGHT / (unsigned)UnreachableEdges.size(), MIN_WEIGHT);
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for (SmallVector<unsigned, 4>::iterator I = UnreachableEdges.begin(),
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E = UnreachableEdges.end();
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I != E; ++I)
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setEdgeWeight(BB, *I, UnreachableWeight);
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if (ReachableEdges.empty())
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return true;
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uint32_t ReachableWeight =
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std::max(UR_NONTAKEN_WEIGHT / ReachableEdges.size(), NORMAL_WEIGHT);
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for (SmallPtrSet<BasicBlock *, 4>::iterator I = ReachableEdges.begin(),
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E = ReachableEdges.end();
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std::max(UR_NONTAKEN_WEIGHT / (unsigned)ReachableEdges.size(),
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NORMAL_WEIGHT);
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for (SmallVector<unsigned, 4>::iterator I = ReachableEdges.begin(),
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E = ReachableEdges.end();
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I != E; ++I)
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setEdgeWeight(BB, *I, ReachableWeight);
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@ -187,7 +188,7 @@ bool BranchProbabilityInfo::calcMetadataWeights(BasicBlock *BB) {
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}
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assert(Weights.size() == TI->getNumSuccessors() && "Checked above");
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for (unsigned i = 0, e = TI->getNumSuccessors(); i != e; ++i)
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setEdgeWeight(BB, TI->getSuccessor(i), Weights[i]);
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setEdgeWeight(BB, i, Weights[i]);
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return true;
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}
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@ -211,19 +212,17 @@ bool BranchProbabilityInfo::calcPointerHeuristics(BasicBlock *BB) {
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assert(CI->getOperand(1)->getType()->isPointerTy());
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BasicBlock *Taken = BI->getSuccessor(0);
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BasicBlock *NonTaken = BI->getSuccessor(1);
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// p != 0 -> isProb = true
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// p == 0 -> isProb = false
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// p != q -> isProb = true
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// p == q -> isProb = false;
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unsigned TakenIdx = 0, NonTakenIdx = 1;
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bool isProb = CI->getPredicate() == ICmpInst::ICMP_NE;
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if (!isProb)
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std::swap(Taken, NonTaken);
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std::swap(TakenIdx, NonTakenIdx);
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setEdgeWeight(BB, Taken, PH_TAKEN_WEIGHT);
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setEdgeWeight(BB, NonTaken, PH_NONTAKEN_WEIGHT);
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setEdgeWeight(BB, TakenIdx, PH_TAKEN_WEIGHT);
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setEdgeWeight(BB, NonTakenIdx, PH_NONTAKEN_WEIGHT);
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return true;
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}
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@ -234,17 +233,17 @@ bool BranchProbabilityInfo::calcLoopBranchHeuristics(BasicBlock *BB) {
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if (!L)
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return false;
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SmallPtrSet<BasicBlock *, 8> BackEdges;
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SmallPtrSet<BasicBlock *, 8> ExitingEdges;
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SmallPtrSet<BasicBlock *, 8> InEdges; // Edges from header to the loop.
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SmallVector<unsigned, 8> BackEdges;
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SmallVector<unsigned, 8> ExitingEdges;
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SmallVector<unsigned, 8> InEdges; // Edges from header to the loop.
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for (succ_iterator I = succ_begin(BB), E = succ_end(BB); I != E; ++I) {
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if (!L->contains(*I))
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ExitingEdges.insert(*I);
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ExitingEdges.push_back(I.getSuccessorIndex());
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else if (L->getHeader() == *I)
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BackEdges.insert(*I);
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BackEdges.push_back(I.getSuccessorIndex());
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else
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InEdges.insert(*I);
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InEdges.push_back(I.getSuccessorIndex());
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}
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if (uint32_t numBackEdges = BackEdges.size()) {
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@ -252,10 +251,9 @@ bool BranchProbabilityInfo::calcLoopBranchHeuristics(BasicBlock *BB) {
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if (backWeight < NORMAL_WEIGHT)
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backWeight = NORMAL_WEIGHT;
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for (SmallPtrSet<BasicBlock *, 8>::iterator EI = BackEdges.begin(),
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for (SmallVector<unsigned, 8>::iterator EI = BackEdges.begin(),
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EE = BackEdges.end(); EI != EE; ++EI) {
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BasicBlock *Back = *EI;
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setEdgeWeight(BB, Back, backWeight);
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setEdgeWeight(BB, *EI, backWeight);
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}
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}
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@ -264,10 +262,9 @@ bool BranchProbabilityInfo::calcLoopBranchHeuristics(BasicBlock *BB) {
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if (inWeight < NORMAL_WEIGHT)
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inWeight = NORMAL_WEIGHT;
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for (SmallPtrSet<BasicBlock *, 8>::iterator EI = InEdges.begin(),
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for (SmallVector<unsigned, 8>::iterator EI = InEdges.begin(),
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EE = InEdges.end(); EI != EE; ++EI) {
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BasicBlock *Back = *EI;
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setEdgeWeight(BB, Back, inWeight);
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setEdgeWeight(BB, *EI, inWeight);
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}
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}
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@ -276,10 +273,9 @@ bool BranchProbabilityInfo::calcLoopBranchHeuristics(BasicBlock *BB) {
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if (exitWeight < MIN_WEIGHT)
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exitWeight = MIN_WEIGHT;
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for (SmallPtrSet<BasicBlock *, 8>::iterator EI = ExitingEdges.begin(),
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for (SmallVector<unsigned, 8>::iterator EI = ExitingEdges.begin(),
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EE = ExitingEdges.end(); EI != EE; ++EI) {
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BasicBlock *Exiting = *EI;
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setEdgeWeight(BB, Exiting, exitWeight);
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setEdgeWeight(BB, *EI, exitWeight);
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}
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}
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@ -335,14 +331,13 @@ bool BranchProbabilityInfo::calcZeroHeuristics(BasicBlock *BB) {
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return false;
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}
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BasicBlock *Taken = BI->getSuccessor(0);
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BasicBlock *NonTaken = BI->getSuccessor(1);
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unsigned TakenIdx = 0, NonTakenIdx = 1;
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if (!isProb)
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std::swap(Taken, NonTaken);
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std::swap(TakenIdx, NonTakenIdx);
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setEdgeWeight(BB, Taken, ZH_TAKEN_WEIGHT);
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setEdgeWeight(BB, NonTaken, ZH_NONTAKEN_WEIGHT);
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setEdgeWeight(BB, TakenIdx, ZH_TAKEN_WEIGHT);
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setEdgeWeight(BB, NonTakenIdx, ZH_NONTAKEN_WEIGHT);
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return true;
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}
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@ -372,14 +367,13 @@ bool BranchProbabilityInfo::calcFloatingPointHeuristics(BasicBlock *BB) {
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return false;
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}
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BasicBlock *Taken = BI->getSuccessor(0);
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BasicBlock *NonTaken = BI->getSuccessor(1);
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unsigned TakenIdx = 0, NonTakenIdx = 1;
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if (!isProb)
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std::swap(Taken, NonTaken);
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std::swap(TakenIdx, NonTakenIdx);
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setEdgeWeight(BB, Taken, FPH_TAKEN_WEIGHT);
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setEdgeWeight(BB, NonTaken, FPH_NONTAKEN_WEIGHT);
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setEdgeWeight(BB, TakenIdx, FPH_TAKEN_WEIGHT);
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setEdgeWeight(BB, NonTakenIdx, FPH_NONTAKEN_WEIGHT);
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return true;
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}
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@ -389,11 +383,8 @@ bool BranchProbabilityInfo::calcInvokeHeuristics(BasicBlock *BB) {
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if (!II)
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return false;
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BasicBlock *Normal = II->getNormalDest();
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BasicBlock *Unwind = II->getUnwindDest();
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setEdgeWeight(BB, Normal, IH_TAKEN_WEIGHT);
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setEdgeWeight(BB, Unwind, IH_NONTAKEN_WEIGHT);
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setEdgeWeight(BB, 0/*Index for Normal*/, IH_TAKEN_WEIGHT);
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setEdgeWeight(BB, 1/*Index for Unwind*/, IH_NONTAKEN_WEIGHT);
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return true;
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}
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@ -450,8 +441,7 @@ uint32_t BranchProbabilityInfo::getSumForBlock(const BasicBlock *BB) const {
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uint32_t Sum = 0;
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for (succ_const_iterator I = succ_begin(BB), E = succ_end(BB); I != E; ++I) {
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const BasicBlock *Succ = *I;
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uint32_t Weight = getEdgeWeight(BB, Succ);
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uint32_t Weight = getEdgeWeight(BB, I.getSuccessorIndex());
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uint32_t PrevSum = Sum;
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Sum += Weight;
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@ -494,11 +484,13 @@ BasicBlock *BranchProbabilityInfo::getHotSucc(BasicBlock *BB) const {
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return 0;
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}
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// Return edge's weight. If can't find it, return DEFAULT_WEIGHT value.
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/// Get the raw edge weight for the edge. If can't find it, return
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/// DEFAULT_WEIGHT value. Here an edge is specified using PredBlock and an index
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/// to the successors.
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uint32_t BranchProbabilityInfo::
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getEdgeWeight(const BasicBlock *Src, const BasicBlock *Dst) const {
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Edge E(Src, Dst);
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DenseMap<Edge, uint32_t>::const_iterator I = Weights.find(E);
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getEdgeWeight(const BasicBlock *Src, unsigned IndexInSuccessors) const {
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DenseMap<Edge, uint32_t>::const_iterator I =
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Weights.find(std::make_pair(Src, IndexInSuccessors));
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if (I != Weights.end())
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return I->second;
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@ -506,15 +498,43 @@ getEdgeWeight(const BasicBlock *Src, const BasicBlock *Dst) const {
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return DEFAULT_WEIGHT;
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}
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void BranchProbabilityInfo::
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setEdgeWeight(const BasicBlock *Src, const BasicBlock *Dst, uint32_t Weight) {
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Weights[std::make_pair(Src, Dst)] = Weight;
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DEBUG(dbgs() << "set edge " << Src->getName() << " -> "
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<< Dst->getName() << " weight to " << Weight
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<< (isEdgeHot(Src, Dst) ? " [is HOT now]\n" : "\n"));
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/// Get the raw edge weight calculated for the block pair. This returns the sum
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/// of all raw edge weights from Src to Dst.
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uint32_t BranchProbabilityInfo::
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getEdgeWeight(const BasicBlock *Src, const BasicBlock *Dst) const {
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uint32_t Weight = 0;
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DenseMap<Edge, uint32_t>::const_iterator MapI;
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for (succ_const_iterator I = succ_begin(Src), E = succ_end(Src); I != E; ++I)
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if (*I == Dst) {
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MapI = Weights.find(std::make_pair(Src, I.getSuccessorIndex()));
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if (MapI != Weights.end())
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Weight += MapI->second;
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}
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return (Weight == 0) ? DEFAULT_WEIGHT : Weight;
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}
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/// Set the edge weight for a given edge specified by PredBlock and an index
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/// to the successors.
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void BranchProbabilityInfo::
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setEdgeWeight(const BasicBlock *Src, unsigned IndexInSuccessors,
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uint32_t Weight) {
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Weights[std::make_pair(Src, IndexInSuccessors)] = Weight;
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DEBUG(dbgs() << "set edge " << Src->getName() << " -> "
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<< IndexInSuccessors << " successor weight to "
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<< Weight << "\n");
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}
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/// Get an edge's probability, relative to other out-edges from Src.
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BranchProbability BranchProbabilityInfo::
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getEdgeProbability(const BasicBlock *Src, unsigned IndexInSuccessors) const {
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uint32_t N = getEdgeWeight(Src, IndexInSuccessors);
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uint32_t D = getSumForBlock(Src);
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return BranchProbability(N, D);
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}
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/// Get the probability of going from Src to Dst. It returns the sum of all
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/// probabilities for edges from Src to Dst.
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BranchProbability BranchProbabilityInfo::
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getEdgeProbability(const BasicBlock *Src, const BasicBlock *Dst) const {
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@ -1766,6 +1766,7 @@ void SelectionDAGBuilder::visitBitTestHeader(BitTestBlock &B,
|
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/// visitBitTestCase - this function produces one "bit test"
|
||||
void SelectionDAGBuilder::visitBitTestCase(BitTestBlock &BB,
|
||||
MachineBasicBlock* NextMBB,
|
||||
uint32_t BranchWeightToNext,
|
||||
unsigned Reg,
|
||||
BitTestCase &B,
|
||||
MachineBasicBlock *SwitchBB) {
|
||||
@ -1803,8 +1804,10 @@ void SelectionDAGBuilder::visitBitTestCase(BitTestBlock &BB,
|
||||
ISD::SETNE);
|
||||
}
|
||||
|
||||
addSuccessorWithWeight(SwitchBB, B.TargetBB);
|
||||
addSuccessorWithWeight(SwitchBB, NextMBB);
|
||||
// The branch weight from SwitchBB to B.TargetBB is B.ExtraWeight.
|
||||
addSuccessorWithWeight(SwitchBB, B.TargetBB, B.ExtraWeight);
|
||||
// The branch weight from SwitchBB to NextMBB is BranchWeightToNext.
|
||||
addSuccessorWithWeight(SwitchBB, NextMBB, BranchWeightToNext);
|
||||
|
||||
SDValue BrAnd = DAG.getNode(ISD::BRCOND, getCurDebugLoc(),
|
||||
MVT::Other, getControlRoot(),
|
||||
@ -1927,6 +1930,7 @@ bool SelectionDAGBuilder::handleSmallSwitchRange(CaseRec& CR,
|
||||
if (++BBI != FuncInfo.MF->end())
|
||||
NextBlock = BBI;
|
||||
|
||||
BranchProbabilityInfo *BPI = FuncInfo.BPI;
|
||||
// If any two of the cases has the same destination, and if one value
|
||||
// is the same as the other, but has one bit unset that the other has set,
|
||||
// use bit manipulation to do two compares at once. For example:
|
||||
@ -1960,8 +1964,12 @@ bool SelectionDAGBuilder::handleSmallSwitchRange(CaseRec& CR,
|
||||
ISD::SETEQ);
|
||||
|
||||
// Update successor info.
|
||||
addSuccessorWithWeight(SwitchBB, Small.BB);
|
||||
addSuccessorWithWeight(SwitchBB, Default);
|
||||
// Both Small and Big will jump to Small.BB, so we sum up the weights.
|
||||
addSuccessorWithWeight(SwitchBB, Small.BB,
|
||||
Small.ExtraWeight + Big.ExtraWeight);
|
||||
addSuccessorWithWeight(SwitchBB, Default,
|
||||
// The default destination is the first successor in IR.
|
||||
BPI ? BPI->getEdgeWeight(SwitchBB->getBasicBlock(), (unsigned)0) : 0);
|
||||
|
||||
// Insert the true branch.
|
||||
SDValue BrCond = DAG.getNode(ISD::BRCOND, DL, MVT::Other,
|
||||
@ -1979,14 +1987,13 @@ bool SelectionDAGBuilder::handleSmallSwitchRange(CaseRec& CR,
|
||||
}
|
||||
|
||||
// Order cases by weight so the most likely case will be checked first.
|
||||
BranchProbabilityInfo *BPI = FuncInfo.BPI;
|
||||
uint32_t UnhandledWeights = 0;
|
||||
if (BPI) {
|
||||
for (CaseItr I = CR.Range.first, IE = CR.Range.second; I != IE; ++I) {
|
||||
uint32_t IWeight = BPI->getEdgeWeight(SwitchBB->getBasicBlock(),
|
||||
I->BB->getBasicBlock());
|
||||
uint32_t IWeight = I->ExtraWeight;
|
||||
UnhandledWeights += IWeight;
|
||||
for (CaseItr J = CR.Range.first; J < I; ++J) {
|
||||
uint32_t JWeight = BPI->getEdgeWeight(SwitchBB->getBasicBlock(),
|
||||
J->BB->getBasicBlock());
|
||||
uint32_t JWeight = J->ExtraWeight;
|
||||
if (IWeight > JWeight)
|
||||
std::swap(*I, *J);
|
||||
}
|
||||
@ -2035,10 +2042,12 @@ bool SelectionDAGBuilder::handleSmallSwitchRange(CaseRec& CR,
|
||||
LHS = I->Low; MHS = SV; RHS = I->High;
|
||||
}
|
||||
|
||||
uint32_t ExtraWeight = I->ExtraWeight;
|
||||
// The false weight should be sum of all un-handled cases.
|
||||
UnhandledWeights -= I->ExtraWeight;
|
||||
CaseBlock CB(CC, LHS, RHS, MHS, /* truebb */ I->BB, /* falsebb */ FallThrough,
|
||||
/* me */ CurBlock,
|
||||
/* trueweight */ ExtraWeight / 2, /* falseweight */ ExtraWeight / 2);
|
||||
/* trueweight */ I->ExtraWeight,
|
||||
/* falseweight */ UnhandledWeights);
|
||||
|
||||
// If emitting the first comparison, just call visitSwitchCase to emit the
|
||||
// code into the current block. Otherwise, push the CaseBlock onto the
|
||||
@ -2138,13 +2147,28 @@ bool SelectionDAGBuilder::handleJTSwitchCase(CaseRec &CR,
|
||||
}
|
||||
}
|
||||
|
||||
// Calculate weight for each unique destination in CR.
|
||||
DenseMap<MachineBasicBlock*, uint32_t> DestWeights;
|
||||
if (FuncInfo.BPI)
|
||||
for (CaseItr I = CR.Range.first, E = CR.Range.second; I != E; ++I) {
|
||||
DenseMap<MachineBasicBlock*, uint32_t>::iterator Itr =
|
||||
DestWeights.find(I->BB);
|
||||
if (Itr != DestWeights.end())
|
||||
Itr->second += I->ExtraWeight;
|
||||
else
|
||||
DestWeights[I->BB] = I->ExtraWeight;
|
||||
}
|
||||
|
||||
// Update successor info. Add one edge to each unique successor.
|
||||
BitVector SuccsHandled(CR.CaseBB->getParent()->getNumBlockIDs());
|
||||
for (std::vector<MachineBasicBlock*>::iterator I = DestBBs.begin(),
|
||||
E = DestBBs.end(); I != E; ++I) {
|
||||
if (!SuccsHandled[(*I)->getNumber()]) {
|
||||
SuccsHandled[(*I)->getNumber()] = true;
|
||||
addSuccessorWithWeight(JumpTableBB, *I);
|
||||
DenseMap<MachineBasicBlock*, uint32_t>::iterator Itr =
|
||||
DestWeights.find(*I);
|
||||
addSuccessorWithWeight(JumpTableBB, *I,
|
||||
Itr != DestWeights.end() ? Itr->second : 0);
|
||||
}
|
||||
}
|
||||
|
||||
@ -2375,7 +2399,7 @@ bool SelectionDAGBuilder::handleBitTestsSwitchCase(CaseRec& CR,
|
||||
|
||||
if (i == count) {
|
||||
assert((count < 3) && "Too much destinations to test!");
|
||||
CasesBits.push_back(CaseBits(0, Dest, 0));
|
||||
CasesBits.push_back(CaseBits(0, Dest, 0, 0/*Weight*/));
|
||||
count++;
|
||||
}
|
||||
|
||||
@ -2384,6 +2408,7 @@ bool SelectionDAGBuilder::handleBitTestsSwitchCase(CaseRec& CR,
|
||||
|
||||
uint64_t lo = (lowValue - lowBound).getZExtValue();
|
||||
uint64_t hi = (highValue - lowBound).getZExtValue();
|
||||
CasesBits[i].ExtraWeight += I->ExtraWeight;
|
||||
|
||||
for (uint64_t j = lo; j <= hi; j++) {
|
||||
CasesBits[i].Mask |= 1ULL << j;
|
||||
@ -2411,7 +2436,7 @@ bool SelectionDAGBuilder::handleBitTestsSwitchCase(CaseRec& CR,
|
||||
CurMF->insert(BBI, CaseBB);
|
||||
BTC.push_back(BitTestCase(CasesBits[i].Mask,
|
||||
CaseBB,
|
||||
CasesBits[i].BB));
|
||||
CasesBits[i].BB, CasesBits[i].ExtraWeight));
|
||||
|
||||
// Put SV in a virtual register to make it available from the new blocks.
|
||||
ExportFromCurrentBlock(SV);
|
||||
@ -2439,30 +2464,25 @@ size_t SelectionDAGBuilder::Clusterify(CaseVector& Cases,
|
||||
|
||||
Clusterifier TheClusterifier;
|
||||
|
||||
BranchProbabilityInfo *BPI = FuncInfo.BPI;
|
||||
// Start with "simple" cases
|
||||
for (SwitchInst::ConstCaseIt i = SI.case_begin(), e = SI.case_end();
|
||||
i != e; ++i) {
|
||||
const BasicBlock *SuccBB = i.getCaseSuccessor();
|
||||
MachineBasicBlock *SMBB = FuncInfo.MBBMap[SuccBB];
|
||||
|
||||
TheClusterifier.add(i.getCaseValueEx(), SMBB);
|
||||
TheClusterifier.add(i.getCaseValueEx(), SMBB,
|
||||
BPI ? BPI->getEdgeWeight(SI.getParent(), i.getSuccessorIndex()) : 0);
|
||||
}
|
||||
|
||||
TheClusterifier.optimize();
|
||||
|
||||
BranchProbabilityInfo *BPI = FuncInfo.BPI;
|
||||
size_t numCmps = 0;
|
||||
for (Clusterifier::RangeIterator i = TheClusterifier.begin(),
|
||||
e = TheClusterifier.end(); i != e; ++i, ++numCmps) {
|
||||
Clusterifier::Cluster &C = *i;
|
||||
unsigned W = 0;
|
||||
if (BPI) {
|
||||
W = BPI->getEdgeWeight(SI.getParent(), C.second->getBasicBlock());
|
||||
if (!W)
|
||||
W = 16;
|
||||
W *= C.first.Weight;
|
||||
BPI->setEdgeWeight(SI.getParent(), C.second->getBasicBlock(), W);
|
||||
}
|
||||
// Update edge weight for the cluster.
|
||||
unsigned W = C.first.Weight;
|
||||
|
||||
// FIXME: Currently work with ConstantInt based numbers.
|
||||
// Changing it to APInt based is a pretty heavy for this commit.
|
||||
|
@ -150,9 +150,11 @@ private:
|
||||
uint64_t Mask;
|
||||
MachineBasicBlock* BB;
|
||||
unsigned Bits;
|
||||
uint32_t ExtraWeight;
|
||||
|
||||
CaseBits(uint64_t mask, MachineBasicBlock* bb, unsigned bits):
|
||||
Mask(mask), BB(bb), Bits(bits) { }
|
||||
CaseBits(uint64_t mask, MachineBasicBlock* bb, unsigned bits,
|
||||
uint32_t Weight):
|
||||
Mask(mask), BB(bb), Bits(bits), ExtraWeight(Weight) { }
|
||||
};
|
||||
|
||||
typedef std::vector<Case> CaseVector;
|
||||
@ -247,11 +249,13 @@ private:
|
||||
typedef std::pair<JumpTableHeader, JumpTable> JumpTableBlock;
|
||||
|
||||
struct BitTestCase {
|
||||
BitTestCase(uint64_t M, MachineBasicBlock* T, MachineBasicBlock* Tr):
|
||||
Mask(M), ThisBB(T), TargetBB(Tr) { }
|
||||
BitTestCase(uint64_t M, MachineBasicBlock* T, MachineBasicBlock* Tr,
|
||||
uint32_t Weight):
|
||||
Mask(M), ThisBB(T), TargetBB(Tr), ExtraWeight(Weight) { }
|
||||
uint64_t Mask;
|
||||
MachineBasicBlock *ThisBB;
|
||||
MachineBasicBlock *TargetBB;
|
||||
uint32_t ExtraWeight;
|
||||
};
|
||||
|
||||
typedef SmallVector<BitTestCase, 3> BitTestInfo;
|
||||
@ -452,6 +456,7 @@ public:
|
||||
void visitBitTestHeader(BitTestBlock &B, MachineBasicBlock *SwitchBB);
|
||||
void visitBitTestCase(BitTestBlock &BB,
|
||||
MachineBasicBlock* NextMBB,
|
||||
uint32_t BranchWeightToNext,
|
||||
unsigned Reg,
|
||||
BitTestCase &B,
|
||||
MachineBasicBlock *SwitchBB);
|
||||
|
@ -1209,7 +1209,12 @@ SelectionDAGISel::FinishBasicBlock() {
|
||||
CodeGenAndEmitDAG();
|
||||
}
|
||||
|
||||
uint32_t UnhandledWeight = 0;
|
||||
for (unsigned j = 0, ej = SDB->BitTestCases[i].Cases.size(); j != ej; ++j)
|
||||
UnhandledWeight += SDB->BitTestCases[i].Cases[j].ExtraWeight;
|
||||
|
||||
for (unsigned j = 0, ej = SDB->BitTestCases[i].Cases.size(); j != ej; ++j) {
|
||||
UnhandledWeight -= SDB->BitTestCases[i].Cases[j].ExtraWeight;
|
||||
// Set the current basic block to the mbb we wish to insert the code into
|
||||
FuncInfo->MBB = SDB->BitTestCases[i].Cases[j].ThisBB;
|
||||
FuncInfo->InsertPt = FuncInfo->MBB->end();
|
||||
@ -1217,12 +1222,14 @@ SelectionDAGISel::FinishBasicBlock() {
|
||||
if (j+1 != ej)
|
||||
SDB->visitBitTestCase(SDB->BitTestCases[i],
|
||||
SDB->BitTestCases[i].Cases[j+1].ThisBB,
|
||||
UnhandledWeight,
|
||||
SDB->BitTestCases[i].Reg,
|
||||
SDB->BitTestCases[i].Cases[j],
|
||||
FuncInfo->MBB);
|
||||
else
|
||||
SDB->visitBitTestCase(SDB->BitTestCases[i],
|
||||
SDB->BitTestCases[i].Default,
|
||||
UnhandledWeight,
|
||||
SDB->BitTestCases[i].Reg,
|
||||
SDB->BitTestCases[i].Cases[j],
|
||||
FuncInfo->MBB);
|
||||
|
@ -88,3 +88,30 @@ exit:
|
||||
}
|
||||
|
||||
!1 = metadata !{metadata !"branch_weights", i32 4, i32 4, i32 64, i32 4, i32 4}
|
||||
|
||||
define i32 @test4(i32 %x) nounwind uwtable readnone ssp {
|
||||
; CHECK: Printing analysis {{.*}} for function 'test4'
|
||||
entry:
|
||||
%conv = sext i32 %x to i64
|
||||
switch i64 %conv, label %return [
|
||||
i64 0, label %sw.bb
|
||||
i64 1, label %sw.bb
|
||||
i64 2, label %sw.bb
|
||||
i64 5, label %sw.bb1
|
||||
], !prof !2
|
||||
; CHECK: edge entry -> return probability is 7 / 85
|
||||
; CHECK: edge entry -> sw.bb probability is 14 / 85
|
||||
; CHECK: edge entry -> sw.bb1 probability is 64 / 85
|
||||
|
||||
sw.bb:
|
||||
br label %return
|
||||
|
||||
sw.bb1:
|
||||
br label %return
|
||||
|
||||
return:
|
||||
%retval.0 = phi i32 [ 5, %sw.bb1 ], [ 1, %sw.bb ], [ 0, %entry ]
|
||||
ret i32 %retval.0
|
||||
}
|
||||
|
||||
!2 = metadata !{metadata !"branch_weights", i32 7, i32 6, i32 4, i32 4, i32 64}
|
||||
|
32
test/CodeGen/Generic/MachineBranchProb.ll
Normal file
32
test/CodeGen/Generic/MachineBranchProb.ll
Normal file
@ -0,0 +1,32 @@
|
||||
; RUN: llc < %s -print-machineinstrs=expand-isel-pseudos -o /dev/null 2>&1 | FileCheck %s
|
||||
|
||||
; Make sure we have the correct weight attached to each successor.
|
||||
define i32 @test2(i32 %x) nounwind uwtable readnone ssp {
|
||||
; CHECK: Machine code for function test2:
|
||||
entry:
|
||||
%conv = sext i32 %x to i64
|
||||
switch i64 %conv, label %return [
|
||||
i64 0, label %sw.bb
|
||||
i64 1, label %sw.bb
|
||||
i64 4, label %sw.bb
|
||||
i64 5, label %sw.bb1
|
||||
], !prof !0
|
||||
; CHECK: BB#0: derived from LLVM BB %entry
|
||||
; CHECK: Successors according to CFG: BB#2(64) BB#4(14)
|
||||
; CHECK: BB#4: derived from LLVM BB %entry
|
||||
; CHECK: Successors according to CFG: BB#1(10) BB#5(4)
|
||||
; CHECK: BB#5: derived from LLVM BB %entry
|
||||
; CHECK: Successors according to CFG: BB#1(4) BB#3(7)
|
||||
|
||||
sw.bb:
|
||||
br label %return
|
||||
|
||||
sw.bb1:
|
||||
br label %return
|
||||
|
||||
return:
|
||||
%retval.0 = phi i32 [ 5, %sw.bb1 ], [ 1, %sw.bb ], [ 0, %entry ]
|
||||
ret i32 %retval.0
|
||||
}
|
||||
|
||||
!0 = metadata !{metadata !"branch_weights", i32 7, i32 6, i32 4, i32 4, i32 64}
|
Loading…
Reference in New Issue
Block a user