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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@8466 91177308-0d34-0410-b5e6-96231b3b80d8
324 lines
13 KiB
C++
324 lines
13 KiB
C++
//===-- DeadArgumentElimination.cpp - Eliminate dead arguments ------------===//
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//
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// This pass deletes dead arguments from internal functions. Dead argument
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// elimination removes arguments which are directly dead, as well as arguments
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// only passed into function calls as dead arguments of other functions.
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//
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// This pass is often useful as a cleanup pass to run after aggressive
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// interprocedural passes, which add possibly-dead arguments.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Transforms/IPO.h"
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#include "llvm/Module.h"
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#include "llvm/Pass.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/Constant.h"
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#include "llvm/iOther.h"
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#include "llvm/iTerminators.h"
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#include "llvm/Support/CallSite.h"
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#include "Support/Debug.h"
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#include "Support/Statistic.h"
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#include "Support/iterator"
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#include <set>
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namespace {
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Statistic<> NumArgumentsEliminated("deadargelim", "Number of args removed");
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struct DAE : public Pass {
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DAE(bool DFEF = false) : DeleteFromExternalFunctions(DFEF) {}
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bool run(Module &M);
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private:
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bool DeleteFromExternalFunctions;
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bool FunctionArgumentsIntrinsicallyAlive(const Function &F);
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void RemoveDeadArgumentsFromFunction(Function *F,
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std::set<Argument*> &DeadArguments);
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};
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RegisterOpt<DAE> X("deadargelim", "Dead Argument Elimination");
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}
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/// createDeadArgEliminationPass - This pass removes arguments from functions
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/// which are not used by the body of the function. If
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/// DeleteFromExternalFunctions is true, the pass will modify functions that
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/// have external linkage, which is not usually safe (this is used by bugpoint
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/// to reduce testcases).
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///
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Pass *createDeadArgEliminationPass(bool DeleteFromExternalFunctions) {
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return new DAE(DeleteFromExternalFunctions);
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}
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// FunctionArgumentsIntrinsicallyAlive - Return true if the arguments of the
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// specified function are intrinsically alive.
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//
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// We consider arguments of non-internal functions to be intrinsically alive as
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// well as arguments to functions which have their "address taken".
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//
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bool DAE::FunctionArgumentsIntrinsicallyAlive(const Function &F) {
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if (!F.hasInternalLinkage() && !DeleteFromExternalFunctions) return true;
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for (Value::use_const_iterator I = F.use_begin(), E = F.use_end(); I!=E; ++I){
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// If this use is anything other than a call site, the function is alive.
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CallSite CS = CallSite::get(const_cast<User*>(*I));
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if (!CS.getInstruction()) return true; // Not a valid call site?
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// If the function is PASSED IN as an argument, its address has been taken
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for (CallSite::arg_iterator AI = CS.arg_begin(), E = CS.arg_end(); AI != E;
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++AI)
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if (AI->get() == &F) return true;
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}
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return false;
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}
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namespace {
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enum ArgumentLiveness { Alive, MaybeLive, Dead };
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}
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// getArgumentLiveness - Inspect an argument, determining if is known Alive
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// (used in a computation), MaybeLive (only passed as an argument to a call), or
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// Dead (not used).
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static ArgumentLiveness getArgumentLiveness(const Argument &A) {
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if (A.use_empty()) return Dead; // First check, directly dead?
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// Scan through all of the uses, looking for non-argument passing uses.
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for (Value::use_const_iterator I = A.use_begin(), E = A.use_end(); I!=E;++I) {
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CallSite CS = CallSite::get(const_cast<User*>(*I));
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if (!CS.getInstruction()) {
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// If its used by something that is not a call or invoke, it's alive!
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return Alive;
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}
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// If it's an indirect call, mark it alive...
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Function *Callee = CS.getCalledFunction();
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if (!Callee) return Alive;
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// Check to see if it's passed through a va_arg area: if so, we cannot
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// remove it.
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unsigned NumFixedArgs = Callee->getFunctionType()->getNumParams();
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for (CallSite::arg_iterator AI = CS.arg_begin()+NumFixedArgs;
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AI != CS.arg_end(); ++AI)
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if (AI->get() == &A) // If passed through va_arg area, we cannot remove it
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return Alive;
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}
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return MaybeLive; // It must be used, but only as argument to a function
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}
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// isMaybeLiveArgumentNowAlive - Check to see if Arg is alive. At this point,
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// we know that the only uses of Arg are to be passed in as an argument to a
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// function call. Check to see if the formal argument passed in is in the
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// LiveArguments set. If so, return true.
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//
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static bool isMaybeLiveArgumentNowAlive(Argument *Arg,
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const std::set<Argument*> &LiveArguments) {
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for (Value::use_iterator I = Arg->use_begin(), E = Arg->use_end(); I!=E; ++I){
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CallSite CS = CallSite::get(*I);
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// We know that this can only be used for direct calls...
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Function *Callee = cast<Function>(CS.getCalledValue());
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// Loop over all of the arguments (because Arg may be passed into the call
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// multiple times) and check to see if any are now alive...
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CallSite::arg_iterator CSAI = CS.arg_begin();
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for (Function::aiterator AI = Callee->abegin(), E = Callee->aend();
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AI != E; ++AI, ++CSAI)
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// If this is the argument we are looking for, check to see if it's alive
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if (*CSAI == Arg && LiveArguments.count(AI))
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return true;
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}
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return false;
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}
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// MarkArgumentLive - The MaybeLive argument 'Arg' is now known to be alive.
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// Mark it live in the specified sets and recursively mark arguments in callers
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// live that are needed to pass in a value.
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//
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static void MarkArgumentLive(Argument *Arg,
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std::set<Argument*> &MaybeLiveArguments,
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std::set<Argument*> &LiveArguments,
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const std::multimap<Function*, CallSite> &CallSites) {
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DEBUG(std::cerr << " MaybeLive argument now live: " << Arg->getName()<<"\n");
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assert(MaybeLiveArguments.count(Arg) && !LiveArguments.count(Arg) &&
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"Arg not MaybeLive?");
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MaybeLiveArguments.erase(Arg);
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LiveArguments.insert(Arg);
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// Loop over all of the call sites of the function, making any arguments
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// passed in to provide a value for this argument live as necessary.
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//
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Function *Fn = Arg->getParent();
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unsigned ArgNo = std::distance(Fn->abegin(), Function::aiterator(Arg));
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std::multimap<Function*, CallSite>::const_iterator I =
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CallSites.lower_bound(Fn);
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for (; I != CallSites.end() && I->first == Fn; ++I) {
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const CallSite &CS = I->second;
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if (Argument *ActualArg = dyn_cast<Argument>(*(CS.arg_begin()+ArgNo)))
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if (MaybeLiveArguments.count(ActualArg))
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MarkArgumentLive(ActualArg, MaybeLiveArguments, LiveArguments,
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CallSites);
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}
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}
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// RemoveDeadArgumentsFromFunction - We know that F has dead arguments, as
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// specified by the DeadArguments list. Transform the function and all of the
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// callees of the function to not have these arguments.
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//
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void DAE::RemoveDeadArgumentsFromFunction(Function *F,
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std::set<Argument*> &DeadArguments){
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// Start by computing a new prototype for the function, which is the same as
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// the old function, but has fewer arguments.
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const FunctionType *FTy = F->getFunctionType();
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std::vector<const Type*> Params;
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for (Function::aiterator I = F->abegin(), E = F->aend(); I != E; ++I)
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if (!DeadArguments.count(I))
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Params.push_back(I->getType());
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FunctionType *NFTy = FunctionType::get(FTy->getReturnType(), Params,
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FTy->isVarArg());
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// Create the new function body and insert it into the module...
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Function *NF = new Function(NFTy, F->getLinkage(), F->getName());
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F->getParent()->getFunctionList().insert(F, NF);
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// Loop over all of the callers of the function, transforming the call sites
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// to pass in a smaller number of arguments into the new function.
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//
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while (!F->use_empty()) {
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CallSite CS = CallSite::get(F->use_back());
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Instruction *Call = CS.getInstruction();
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CS.setCalledFunction(NF); // Reduce the uses count of F
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// Loop over the operands, deleting dead ones...
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CallSite::arg_iterator AI = CS.arg_begin();
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for (Function::aiterator I = F->abegin(), E = F->aend(); I != E; ++I)
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if (DeadArguments.count(I)) { // Remove operands for dead arguments
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AI = Call->op_erase(AI);
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} else {
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++AI; // Leave live operands alone...
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}
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}
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// Since we have now created the new function, splice the body of the old
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// function right into the new function, leaving the old rotting hulk of the
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// function empty.
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NF->getBasicBlockList().splice(NF->begin(), F->getBasicBlockList());
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// Loop over the argument list, transfering uses of the old arguments over to
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// the new arguments, also transfering over the names as well. While we're at
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// it, remove the dead arguments from the DeadArguments list.
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//
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for (Function::aiterator I = F->abegin(), E = F->aend(), I2 = NF->abegin();
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I != E; ++I)
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if (!DeadArguments.count(I)) {
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// If this is a live argument, move the name and users over to the new
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// version.
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I->replaceAllUsesWith(I2);
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I2->setName(I->getName());
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++I2;
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} else {
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// If this argument is dead, replace any uses of it with null constants
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// (these are guaranteed to only be operands to call instructions which
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// will later be simplified).
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I->replaceAllUsesWith(Constant::getNullValue(I->getType()));
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DeadArguments.erase(I);
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}
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// Now that the old function is dead, delete it.
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F->getParent()->getFunctionList().erase(F);
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}
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bool DAE::run(Module &M) {
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// First phase: loop through the module, determining which arguments are live.
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// We assume all arguments are dead unless proven otherwise (allowing us to
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// determing that dead arguments passed into recursive functions are dead).
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//
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std::set<Argument*> LiveArguments, MaybeLiveArguments, DeadArguments;
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std::multimap<Function*, CallSite> CallSites;
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DEBUG(std::cerr << "DAE - Determining liveness\n");
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for (Module::iterator I = M.begin(), E = M.end(); I != E; ++I) {
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Function &Fn = *I;
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// If the function is intrinsically alive, just mark the arguments alive.
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if (FunctionArgumentsIntrinsicallyAlive(Fn)) {
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for (Function::aiterator AI = Fn.abegin(), E = Fn.aend(); AI != E; ++AI)
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LiveArguments.insert(AI);
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DEBUG(std::cerr << " Args intrinsically live for fn: " << Fn.getName()
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<< "\n");
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} else {
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DEBUG(std::cerr << " Inspecting args for fn: " << Fn.getName() << "\n");
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// If it is not intrinsically alive, we know that all users of the
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// function are call sites. Mark all of the arguments live which are
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// directly used, and keep track of all of the call sites of this function
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// if there are any arguments we assume that are dead.
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//
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bool AnyMaybeLiveArgs = false;
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for (Function::aiterator AI = Fn.abegin(), E = Fn.aend(); AI != E; ++AI)
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switch (getArgumentLiveness(*AI)) {
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case Alive:
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DEBUG(std::cerr << " Arg live by use: " << AI->getName() << "\n");
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LiveArguments.insert(AI);
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break;
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case Dead:
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DEBUG(std::cerr << " Arg definitely dead: " <<AI->getName()<<"\n");
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DeadArguments.insert(AI);
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break;
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case MaybeLive:
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DEBUG(std::cerr << " Arg only passed to calls: "
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<< AI->getName() << "\n");
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AnyMaybeLiveArgs = true;
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MaybeLiveArguments.insert(AI);
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break;
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}
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// If there are any "MaybeLive" arguments, we need to check callees of
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// this function when/if they become alive. Record which functions are
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// callees...
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if (AnyMaybeLiveArgs)
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for (Value::use_iterator I = Fn.use_begin(), E = Fn.use_end();
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I != E; ++I)
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CallSites.insert(std::make_pair(&Fn, CallSite::get(*I)));
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}
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}
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// Now we loop over all of the MaybeLive arguments, promoting them to be live
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// arguments if one of the calls that uses the arguments to the calls they are
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// passed into requires them to be live. Of course this could make other
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// arguments live, so process callers recursively.
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//
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// Because elements can be removed from the MaybeLiveArguments list, copy it
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// to a temporary vector.
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//
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std::vector<Argument*> TmpArgList(MaybeLiveArguments.begin(),
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MaybeLiveArguments.end());
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for (unsigned i = 0, e = TmpArgList.size(); i != e; ++i) {
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Argument *MLA = TmpArgList[i];
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if (MaybeLiveArguments.count(MLA) &&
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isMaybeLiveArgumentNowAlive(MLA, LiveArguments)) {
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MarkArgumentLive(MLA, MaybeLiveArguments, LiveArguments, CallSites);
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}
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}
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// Recover memory early...
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CallSites.clear();
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// At this point, we know that all arguments in DeadArguments and
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// MaybeLiveArguments are dead. If the two sets are empty, there is nothing
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// to do.
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if (MaybeLiveArguments.empty() && DeadArguments.empty())
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return false;
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// Otherwise, compact into one set, and start eliminating the arguments from
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// the functions.
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DeadArguments.insert(MaybeLiveArguments.begin(), MaybeLiveArguments.end());
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MaybeLiveArguments.clear();
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NumArgumentsEliminated += DeadArguments.size();
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while (!DeadArguments.empty())
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RemoveDeadArgumentsFromFunction((*DeadArguments.begin())->getParent(),
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DeadArguments);
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return true;
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}
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