llvm-for-llvmta/lib/Transforms/Utils/CallGraphUpdater.cpp

//===- CallGraphUpdater.cpp - A (lazy) call graph update helper -----------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
/// \file
///
/// This file provides interfaces used to manipulate a call graph, regardless
/// if it is a "old style" CallGraph or an "new style" LazyCallGraph.
///
//===----------------------------------------------------------------------===//

#include "llvm/Transforms/Utils/CallGraphUpdater.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Transforms/Utils/ModuleUtils.h"

using namespace llvm;

bool CallGraphUpdater::finalize() {
  if (!DeadFunctionsInComdats.empty()) {
    filterDeadComdatFunctions(*DeadFunctionsInComdats.front()->getParent(),
                              DeadFunctionsInComdats);
    DeadFunctions.append(DeadFunctionsInComdats.begin(),
                         DeadFunctionsInComdats.end());
  }

  if (CG) {
    // First remove all references, e.g., outgoing via called functions. This is
    // necessary as we can delete functions that have circular references.
    for (Function *DeadFn : DeadFunctions) {
      DeadFn->removeDeadConstantUsers();
      CallGraphNode *DeadCGN = (*CG)[DeadFn];
      DeadCGN->removeAllCalledFunctions();
      CG->getExternalCallingNode()->removeAnyCallEdgeTo(DeadCGN);
      DeadFn->replaceAllUsesWith(UndefValue::get(DeadFn->getType()));
    }

    // Then remove the node and function from the module.
    for (Function *DeadFn : DeadFunctions) {
      CallGraphNode *DeadCGN = CG->getOrInsertFunction(DeadFn);
      assert(DeadCGN->getNumReferences() == 0 &&
             "References should have been handled by now");
      delete CG->removeFunctionFromModule(DeadCGN);
    }
  } else {
    // This is the code path for the new lazy call graph and for the case were
    // no call graph was provided.
    for (Function *DeadFn : DeadFunctions) {
      DeadFn->removeDeadConstantUsers();
      DeadFn->replaceAllUsesWith(UndefValue::get(DeadFn->getType()));

      if (LCG && !ReplacedFunctions.count(DeadFn)) {
        // Taken mostly from the inliner:
        LazyCallGraph::Node &N = LCG->get(*DeadFn);
        auto *DeadSCC = LCG->lookupSCC(N);
        assert(DeadSCC && DeadSCC->size() == 1 &&
               &DeadSCC->begin()->getFunction() == DeadFn);
        auto &DeadRC = DeadSCC->getOuterRefSCC();

        FunctionAnalysisManager &FAM =
            AM->getResult<FunctionAnalysisManagerCGSCCProxy>(*DeadSCC, *LCG)
                .getManager();

        FAM.clear(*DeadFn, DeadFn->getName());
        AM->clear(*DeadSCC, DeadSCC->getName());
        LCG->removeDeadFunction(*DeadFn);

        // Mark the relevant parts of the call graph as invalid so we don't
        // visit them.
        UR->InvalidatedSCCs.insert(DeadSCC);
        UR->InvalidatedRefSCCs.insert(&DeadRC);
      }

      // The function is now really dead and de-attached from everything.
      DeadFn->eraseFromParent();
    }
  }

  bool Changed = !DeadFunctions.empty();
  DeadFunctionsInComdats.clear();
  DeadFunctions.clear();
  return Changed;
}

void CallGraphUpdater::reanalyzeFunction(Function &Fn) {
  if (CG) {
    CallGraphNode *OldCGN = CG->getOrInsertFunction(&Fn);
    OldCGN->removeAllCalledFunctions();
    CG->populateCallGraphNode(OldCGN);
  } else if (LCG) {
    LazyCallGraph::Node &N = LCG->get(Fn);
    LazyCallGraph::SCC *C = LCG->lookupSCC(N);
    updateCGAndAnalysisManagerForCGSCCPass(*LCG, *C, N, *AM, *UR, *FAM);
  }
}

void CallGraphUpdater::registerOutlinedFunction(Function &OriginalFn,
                                                Function &NewFn) {
  if (CG)
    CG->addToCallGraph(&NewFn);
  else if (LCG)
    LCG->addSplitFunction(OriginalFn, NewFn);
}

void CallGraphUpdater::removeFunction(Function &DeadFn) {
  DeadFn.deleteBody();
  DeadFn.setLinkage(GlobalValue::ExternalLinkage);
  if (DeadFn.hasComdat())
    DeadFunctionsInComdats.push_back(&DeadFn);
  else
    DeadFunctions.push_back(&DeadFn);

  // For the old call graph we remove the function from the SCC right away.
  if (CG && !ReplacedFunctions.count(&DeadFn)) {
    CallGraphNode *DeadCGN = (*CG)[&DeadFn];
    DeadCGN->removeAllCalledFunctions();
    CGSCC->DeleteNode(DeadCGN);
  }
}

void CallGraphUpdater::replaceFunctionWith(Function &OldFn, Function &NewFn) {
  OldFn.removeDeadConstantUsers();
  ReplacedFunctions.insert(&OldFn);
  if (CG) {
    // Update the call graph for the newly promoted function.
    CallGraphNode *OldCGN = (*CG)[&OldFn];
    CallGraphNode *NewCGN = CG->getOrInsertFunction(&NewFn);
    NewCGN->stealCalledFunctionsFrom(OldCGN);
    CG->ReplaceExternalCallEdge(OldCGN, NewCGN);

    // And update the SCC we're iterating as well.
    CGSCC->ReplaceNode(OldCGN, NewCGN);
  } else if (LCG) {
    // Directly substitute the functions in the call graph.
    LazyCallGraph::Node &OldLCGN = LCG->get(OldFn);
    SCC->getOuterRefSCC().replaceNodeFunction(OldLCGN, NewFn);
  }
  removeFunction(OldFn);
}

bool CallGraphUpdater::replaceCallSite(CallBase &OldCS, CallBase &NewCS) {
  // This is only necessary in the (old) CG.
  if (!CG)
    return true;

  Function *Caller = OldCS.getCaller();
  CallGraphNode *NewCalleeNode =
      CG->getOrInsertFunction(NewCS.getCalledFunction());
  CallGraphNode *CallerNode = (*CG)[Caller];
  if (llvm::none_of(*CallerNode, [&OldCS](const CallGraphNode::CallRecord &CR) {
        return CR.first && *CR.first == &OldCS;
      }))
    return false;
  CallerNode->replaceCallEdge(OldCS, NewCS, NewCalleeNode);
  return true;
}

void CallGraphUpdater::removeCallSite(CallBase &CS) {
  // This is only necessary in the (old) CG.
  if (!CG)
    return;

  Function *Caller = CS.getCaller();
  CallGraphNode *CallerNode = (*CG)[Caller];
  CallerNode->removeCallEdgeFor(CS);
}
first commit 2022-04-25 10:02:23 +02:00			`//===- CallGraphUpdater.cpp - A (lazy) call graph update helper -----------===//`
			`//`
			`// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.`
			`// See https://llvm.org/LICENSE.txt for license information.`
			`// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception`
			`//`
			`//===----------------------------------------------------------------------===//`
			`/// \file`
			`///`
			`/// This file provides interfaces used to manipulate a call graph, regardless`
			`/// if it is a "old style" CallGraph or an "new style" LazyCallGraph.`
			`///`
			`//===----------------------------------------------------------------------===//`

			`#include "llvm/Transforms/Utils/CallGraphUpdater.h"`
			`#include "llvm/ADT/STLExtras.h"`
			`#include "llvm/Transforms/Utils/ModuleUtils.h"`

			`using namespace llvm;`

			`bool CallGraphUpdater::finalize() {`
			`if (!DeadFunctionsInComdats.empty()) {`
			`filterDeadComdatFunctions(*DeadFunctionsInComdats.front()->getParent(),`
			`DeadFunctionsInComdats);`
			`DeadFunctions.append(DeadFunctionsInComdats.begin(),`
			`DeadFunctionsInComdats.end());`
			`}`

			`if (CG) {`
			`// First remove all references, e.g., outgoing via called functions. This is`
			`// necessary as we can delete functions that have circular references.`
			`for (Function *DeadFn : DeadFunctions) {`
			`DeadFn->removeDeadConstantUsers();`
			`CallGraphNode DeadCGN = (CG)[DeadFn];`
			`DeadCGN->removeAllCalledFunctions();`
			`CG->getExternalCallingNode()->removeAnyCallEdgeTo(DeadCGN);`
			`DeadFn->replaceAllUsesWith(UndefValue::get(DeadFn->getType()));`
			`}`

			`// Then remove the node and function from the module.`
			`for (Function *DeadFn : DeadFunctions) {`
			`CallGraphNode *DeadCGN = CG->getOrInsertFunction(DeadFn);`
			`assert(DeadCGN->getNumReferences() == 0 &&`
			`"References should have been handled by now");`
			`delete CG->removeFunctionFromModule(DeadCGN);`
			`}`
			`} else {`
			`// This is the code path for the new lazy call graph and for the case were`
			`// no call graph was provided.`
			`for (Function *DeadFn : DeadFunctions) {`
			`DeadFn->removeDeadConstantUsers();`
			`DeadFn->replaceAllUsesWith(UndefValue::get(DeadFn->getType()));`

			`if (LCG && !ReplacedFunctions.count(DeadFn)) {`
			`// Taken mostly from the inliner:`
			`LazyCallGraph::Node &N = LCG->get(*DeadFn);`
			`auto *DeadSCC = LCG->lookupSCC(N);`
			`assert(DeadSCC && DeadSCC->size() == 1 &&`
			`&DeadSCC->begin()->getFunction() == DeadFn);`
			`auto &DeadRC = DeadSCC->getOuterRefSCC();`

			`FunctionAnalysisManager &FAM =`
			`AM->getResult<FunctionAnalysisManagerCGSCCProxy>(DeadSCC, LCG)`
			`.getManager();`

			`FAM.clear(*DeadFn, DeadFn->getName());`
			`AM->clear(*DeadSCC, DeadSCC->getName());`
			`LCG->removeDeadFunction(*DeadFn);`

			`// Mark the relevant parts of the call graph as invalid so we don't`
			`// visit them.`
			`UR->InvalidatedSCCs.insert(DeadSCC);`
			`UR->InvalidatedRefSCCs.insert(&DeadRC);`
			`}`

			`// The function is now really dead and de-attached from everything.`
			`DeadFn->eraseFromParent();`
			`}`
			`}`

			`bool Changed = !DeadFunctions.empty();`
			`DeadFunctionsInComdats.clear();`
			`DeadFunctions.clear();`
			`return Changed;`
			`}`

			`void CallGraphUpdater::reanalyzeFunction(Function &Fn) {`
			`if (CG) {`
			`CallGraphNode *OldCGN = CG->getOrInsertFunction(&Fn);`
			`OldCGN->removeAllCalledFunctions();`
			`CG->populateCallGraphNode(OldCGN);`
			`} else if (LCG) {`
			`LazyCallGraph::Node &N = LCG->get(Fn);`
			`LazyCallGraph::SCC *C = LCG->lookupSCC(N);`
			`updateCGAndAnalysisManagerForCGSCCPass(LCG, C, N, AM, UR, *FAM);`
			`}`
			`}`

			`void CallGraphUpdater::registerOutlinedFunction(Function &OriginalFn,`
			`Function &NewFn) {`
			`if (CG)`
			`CG->addToCallGraph(&NewFn);`
			`else if (LCG)`
			`LCG->addSplitFunction(OriginalFn, NewFn);`
			`}`

			`void CallGraphUpdater::removeFunction(Function &DeadFn) {`
			`DeadFn.deleteBody();`
			`DeadFn.setLinkage(GlobalValue::ExternalLinkage);`
			`if (DeadFn.hasComdat())`
			`DeadFunctionsInComdats.push_back(&DeadFn);`
			`else`
			`DeadFunctions.push_back(&DeadFn);`

			`// For the old call graph we remove the function from the SCC right away.`
			`if (CG && !ReplacedFunctions.count(&DeadFn)) {`
			`CallGraphNode DeadCGN = (CG)[&DeadFn];`
			`DeadCGN->removeAllCalledFunctions();`
			`CGSCC->DeleteNode(DeadCGN);`
			`}`
			`}`

			`void CallGraphUpdater::replaceFunctionWith(Function &OldFn, Function &NewFn) {`
			`OldFn.removeDeadConstantUsers();`
			`ReplacedFunctions.insert(&OldFn);`
			`if (CG) {`
			`// Update the call graph for the newly promoted function.`
			`CallGraphNode OldCGN = (CG)[&OldFn];`
			`CallGraphNode *NewCGN = CG->getOrInsertFunction(&NewFn);`
			`NewCGN->stealCalledFunctionsFrom(OldCGN);`
			`CG->ReplaceExternalCallEdge(OldCGN, NewCGN);`

			`// And update the SCC we're iterating as well.`
			`CGSCC->ReplaceNode(OldCGN, NewCGN);`
			`} else if (LCG) {`
			`// Directly substitute the functions in the call graph.`
			`LazyCallGraph::Node &OldLCGN = LCG->get(OldFn);`
			`SCC->getOuterRefSCC().replaceNodeFunction(OldLCGN, NewFn);`
			`}`
			`removeFunction(OldFn);`
			`}`

			`bool CallGraphUpdater::replaceCallSite(CallBase &OldCS, CallBase &NewCS) {`
			`// This is only necessary in the (old) CG.`
			`if (!CG)`
			`return true;`

			`Function *Caller = OldCS.getCaller();`
			`CallGraphNode *NewCalleeNode =`
			`CG->getOrInsertFunction(NewCS.getCalledFunction());`
			`CallGraphNode CallerNode = (CG)[Caller];`
			`if (llvm::none_of(*CallerNode, [&OldCS](const CallGraphNode::CallRecord &CR) {`
			`return CR.first && *CR.first == &OldCS;`
			`}))`
			`return false;`
			`CallerNode->replaceCallEdge(OldCS, NewCS, NewCalleeNode);`
			`return true;`
			`}`

			`void CallGraphUpdater::removeCallSite(CallBase &CS) {`
			`// This is only necessary in the (old) CG.`
			`if (!CG)`
			`return;`

			`Function *Caller = CS.getCaller();`
			`CallGraphNode CallerNode = (CG)[Caller];`
			`CallerNode->removeCallEdgeFor(CS);`
			`}`