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https://github.com/c64scene-ar/llvm-6502.git
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f47fd2f22a
build but spectacularly changed behavior of the C++98 build. =] This shows my one problem with not having unittests -- basic API expectations aren't well exercised by the integration tests because they *happen* to not come up, even though they might later. I'll probably add a basic unittest to complement the integration testing later, but I wanted to revive the bots. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@200905 91177308-0d34-0410-b5e6-96231b3b80d8
198 lines
7.6 KiB
C++
198 lines
7.6 KiB
C++
//===- LazyCallGraph.cpp - Analysis of a Module's call graph --------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Analysis/LazyCallGraph.h"
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#include "llvm/ADT/SCCIterator.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/IR/PassManager.h"
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#include "llvm/Support/CallSite.h"
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#include "llvm/Support/raw_ostream.h"
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#include "llvm/InstVisitor.h"
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using namespace llvm;
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static void findCallees(
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SmallVectorImpl<Constant *> &Worklist, SmallPtrSetImpl<Constant *> &Visited,
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SmallVectorImpl<PointerUnion<Function *, LazyCallGraph::Node *> > &Callees,
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SmallPtrSetImpl<Function *> &CalleeSet) {
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while (!Worklist.empty()) {
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Constant *C = Worklist.pop_back_val();
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if (Function *F = dyn_cast<Function>(C)) {
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// Note that we consider *any* function with a definition to be a viable
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// edge. Even if the function's definition is subject to replacement by
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// some other module (say, a weak definition) there may still be
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// optimizations which essentially speculate based on the definition and
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// a way to check that the specific definition is in fact the one being
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// used. For example, this could be done by moving the weak definition to
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// a strong (internal) definition and making the weak definition be an
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// alias. Then a test of the address of the weak function against the new
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// strong definition's address would be an effective way to determine the
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// safety of optimizing a direct call edge.
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if (!F->isDeclaration() && CalleeSet.insert(F))
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Callees.push_back(F);
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continue;
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}
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for (User::value_op_iterator OI = C->value_op_begin(),
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OE = C->value_op_end();
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OI != OE; ++OI)
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if (Visited.insert(cast<Constant>(*OI)))
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Worklist.push_back(cast<Constant>(*OI));
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}
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}
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LazyCallGraph::Node::Node(LazyCallGraph &G, Function &F) : G(G), F(F) {
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SmallVector<Constant *, 16> Worklist;
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SmallPtrSet<Constant *, 16> Visited;
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// Find all the potential callees in this function. First walk the
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// instructions and add every operand which is a constant to the worklist.
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for (Function::iterator BBI = F.begin(), BBE = F.end(); BBI != BBE; ++BBI)
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for (BasicBlock::iterator II = BBI->begin(), IE = BBI->end(); II != IE;
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++II)
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for (User::value_op_iterator OI = II->value_op_begin(),
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OE = II->value_op_end();
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OI != OE; ++OI)
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if (Constant *C = dyn_cast<Constant>(*OI))
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if (Visited.insert(C))
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Worklist.push_back(C);
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// We've collected all the constant (and thus potentially function or
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// function containing) operands to all of the instructions in the function.
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// Process them (recursively) collecting every function found.
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findCallees(Worklist, Visited, Callees, CalleeSet);
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}
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LazyCallGraph::Node::Node(LazyCallGraph &G, const Node &OtherN)
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: G(G), F(OtherN.F), CalleeSet(OtherN.CalleeSet) {
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// Loop over the other node's callees, adding the Function*s to our list
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// directly, and recursing to add the Node*s.
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Callees.reserve(OtherN.Callees.size());
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for (NodeVectorImplT::iterator OI = OtherN.Callees.begin(),
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OE = OtherN.Callees.end();
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OI != OE; ++OI)
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if (Function *Callee = OI->dyn_cast<Function *>())
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Callees.push_back(Callee);
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else
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Callees.push_back(G.copyInto(*OI->get<Node *>()));
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}
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#if LLVM_HAS_RVALUE_REFERENCES
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LazyCallGraph::Node::Node(LazyCallGraph &G, Node &&OtherN)
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: G(G), F(OtherN.F), Callees(std::move(OtherN.Callees)),
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CalleeSet(std::move(OtherN.CalleeSet)) {
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// Loop over our Callees. They've been moved from another node, but we need
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// to move the Node*s to live under our bump ptr allocator.
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for (NodeVectorImplT::iterator CI = Callees.begin(), CE = Callees.end();
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CI != CE; ++CI)
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if (Node *ChildN = CI->dyn_cast<Node *>())
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*CI = G.moveInto(std::move(*ChildN));
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}
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#endif
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LazyCallGraph::LazyCallGraph(Module &M) : M(M) {
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for (Module::iterator FI = M.begin(), FE = M.end(); FI != FE; ++FI)
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if (!FI->isDeclaration() && !FI->hasLocalLinkage())
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if (EntryNodeSet.insert(&*FI))
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EntryNodes.push_back(&*FI);
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// Now add entry nodes for functions reachable via initializers to globals.
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SmallVector<Constant *, 16> Worklist;
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SmallPtrSet<Constant *, 16> Visited;
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for (Module::global_iterator GI = M.global_begin(), GE = M.global_end(); GI != GE; ++GI)
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if (GI->hasInitializer())
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if (Visited.insert(GI->getInitializer()))
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Worklist.push_back(GI->getInitializer());
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findCallees(Worklist, Visited, EntryNodes, EntryNodeSet);
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}
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LazyCallGraph::LazyCallGraph(const LazyCallGraph &G)
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: M(G.M), EntryNodeSet(G.EntryNodeSet) {
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EntryNodes.reserve(G.EntryNodes.size());
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for (NodeVectorImplT::const_iterator EI = G.EntryNodes.begin(),
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EE = G.EntryNodes.end();
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EI != EE; ++EI)
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if (Function *Callee = EI->dyn_cast<Function *>())
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EntryNodes.push_back(Callee);
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else
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EntryNodes.push_back(copyInto(*EI->get<Node *>()));
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}
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#if LLVM_HAS_RVALUE_REFERENCES
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// FIXME: This would be crazy simpler if BumpPtrAllocator were movable without
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// invalidating any of the allocated memory. We should make that be the case at
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// some point and delete this.
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LazyCallGraph::LazyCallGraph(LazyCallGraph &&G)
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: M(G.M), EntryNodes(std::move(G.EntryNodes)),
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EntryNodeSet(std::move(G.EntryNodeSet)) {
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// Loop over our EntryNodes. They've been moved from another graph, so we
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// need to move the Node*s to live under our bump ptr allocator. We can just
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// do this in-place.
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for (NodeVectorImplT::iterator EI = EntryNodes.begin(),
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EE = EntryNodes.end();
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EI != EE; ++EI)
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if (Node *EntryN = EI->dyn_cast<Node *>())
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*EI = moveInto(std::move(*EntryN));
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}
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#endif
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LazyCallGraph::Node *LazyCallGraph::insertInto(Function &F, Node *&MappedN) {
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return new (MappedN = BPA.Allocate()) Node(*this, F);
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}
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LazyCallGraph::Node *LazyCallGraph::copyInto(const Node &OtherN) {
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Node *&N = NodeMap[&OtherN.F];
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if (N)
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return N;
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return new (N = BPA.Allocate()) Node(*this, OtherN);
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}
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#if LLVM_HAS_RVALUE_REFERENCES
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LazyCallGraph::Node *LazyCallGraph::moveInto(Node &&OtherN) {
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Node *&N = NodeMap[&OtherN.F];
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if (N)
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return N;
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return new (N = BPA.Allocate()) Node(*this, std::move(OtherN));
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}
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#endif
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char LazyCallGraphAnalysis::PassID;
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LazyCallGraphPrinterPass::LazyCallGraphPrinterPass(raw_ostream &OS) : OS(OS) {}
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static void printNodes(raw_ostream &OS, LazyCallGraph::Node &N,
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SmallPtrSetImpl<LazyCallGraph::Node *> &Printed) {
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// Recurse depth first through the nodes.
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for (LazyCallGraph::iterator I = N.begin(), E = N.end(); I != E; ++I)
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if (Printed.insert(*I))
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printNodes(OS, **I, Printed);
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OS << " Call edges in function: " << N.getFunction().getName() << "\n";
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for (LazyCallGraph::iterator I = N.begin(), E = N.end(); I != E; ++I)
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OS << " -> " << I->getFunction().getName() << "\n";
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OS << "\n";
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}
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PreservedAnalyses LazyCallGraphPrinterPass::run(Module *M, ModuleAnalysisManager *AM) {
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LazyCallGraph &G = AM->getResult<LazyCallGraphAnalysis>(M);
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OS << "Printing the call graph for module: " << M->getModuleIdentifier() << "\n\n";
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SmallPtrSet<LazyCallGraph::Node *, 16> Printed;
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for (LazyCallGraph::iterator I = G.begin(), E = G.end(); I != E; ++I)
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if (Printed.insert(*I))
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printNodes(OS, **I, Printed);
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return PreservedAnalyses::all();
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}
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