llvm/tools/llvm-reduce/deltas/ReduceOperandsToArgs.cpp - llvm-project - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #include "ReduceOperandsToArgs.h"
 #include "Delta.h"
 #include "llvm/ADT/Sequence.h"
 #include "llvm/IR/InstIterator.h"
 #include "llvm/IR/InstrTypes.h"
 #include "llvm/IR/Instructions.h"
 #include "llvm/Transforms/Utils/BasicBlockUtils.h"
 #include "llvm/Transforms/Utils/Cloning.h"

 using namespace llvm;

 static bool canReplaceFunction(Function *F) {
   return all_of(F->uses(), [](Use &Op) {
     if (auto *CI = dyn_cast<CallBase>(Op.getUser()))
       return &CI->getCalledOperandUse() == &Op;
     return false;
   });
 }

 static bool canReduceUse(Use &Op) {
   Value *Val = Op.get();
   Type *Ty = Val->getType();

   // Only replace operands that can be passed-by-value.
   if (!Ty->isFirstClassType())
     return false;

   // Don't pass labels/metadata as arguments.
   if (Ty->isLabelTy() || Ty->isMetadataTy())
     return false;

   // No need to replace values that are already arguments.
   if (isa<Argument>(Val))
     return false;

   // Do not replace literals.
   if (isa<ConstantData>(Val))
     return false;

   // Do not convert direct function calls to indirect calls.
   if (auto *CI = dyn_cast<CallBase>(Op.getUser()))
     if (&CI->getCalledOperandUse() == &Op)
       return false;

   return true;
 }

 /// Goes over OldF calls and replaces them with a call to NewF.
 static void replaceFunctionCalls(Function *OldF, Function *NewF) {
   SmallVector<CallBase *> Callers;
   for (Use &U : OldF->uses()) {
     auto *CI = cast<CallBase>(U.getUser());
     assert(&U == &CI->getCalledOperandUse());
     assert(CI->getCalledFunction() == OldF);
     Callers.push_back(CI);
   }

   // Call arguments for NewF.
   SmallVector<Value *> Args(NewF->arg_size(), nullptr);

   // Fill up the additional parameters with undef values.
   for (auto ArgIdx : llvm::seq<size_t>(OldF->arg_size(), NewF->arg_size())) {
     Type *NewArgTy = NewF->getArg(ArgIdx)->getType();
     Args[ArgIdx] = UndefValue::get(NewArgTy);
   }

   for (CallBase *CI : Callers) {
     // Preserve the original function arguments.
     for (auto Z : zip_first(CI->args(), Args))
       std::get<1>(Z) = std::get<0>(Z);

     // Also preserve operand bundles.
     SmallVector<OperandBundleDef> OperandBundles;
     CI->getOperandBundlesAsDefs(OperandBundles);

     // Create the new function call.
     CallBase *NewCI;
     if (auto *II = dyn_cast<InvokeInst>(CI)) {
       NewCI = InvokeInst::Create(NewF, cast<InvokeInst>(II)->getNormalDest(),
                                  cast<InvokeInst>(II)->getUnwindDest(), Args,
                                  OperandBundles, CI->getName());
     } else {
       assert(isa<CallInst>(CI));
       NewCI = CallInst::Create(NewF, Args, OperandBundles, CI->getName());
     }
     NewCI->setCallingConv(NewF->getCallingConv());

     // Do the replacement for this use.
     if (!CI->use_empty())
       CI->replaceAllUsesWith(NewCI);
     ReplaceInstWithInst(CI, NewCI);
   }
 }

 /// Add a new function argument to @p F for each use in @OpsToReplace, and
 /// replace those operand values with the new function argument.
 static void substituteOperandWithArgument(Function *OldF,
                                           ArrayRef<Use *> OpsToReplace) {
   if (OpsToReplace.empty())
     return;

   SetVector<Value *> UniqueValues;
   for (Use *Op : OpsToReplace)
     UniqueValues.insert(Op->get());

   // Determine the new function's signature.
   SmallVector<Type *> NewArgTypes;
   llvm::append_range(NewArgTypes, OldF->getFunctionType()->params());
   size_t ArgOffset = NewArgTypes.size();
   for (Value *V : UniqueValues)
     NewArgTypes.push_back(V->getType());
   FunctionType *FTy =
       FunctionType::get(OldF->getFunctionType()->getReturnType(), NewArgTypes,
                         OldF->getFunctionType()->isVarArg());

   // Create the new function...
   Function *NewF =
       Function::Create(FTy, OldF->getLinkage(), OldF->getAddressSpace(),
                        OldF->getName(), OldF->getParent());

   // In order to preserve function order, we move NewF behind OldF
   NewF->removeFromParent();
   OldF->getParent()->getFunctionList().insertAfter(OldF->getIterator(), NewF);

   // Preserve the parameters of OldF.
   ValueToValueMapTy VMap;
   for (auto Z : zip_first(OldF->args(), NewF->args())) {
     Argument &OldArg = std::get<0>(Z);
     Argument &NewArg = std::get<1>(Z);

     NewArg.setName(OldArg.getName()); // Copy the name over...
     VMap[&OldArg] = &NewArg;          // Add mapping to VMap
   }

   // Adjust the new parameters.
   ValueToValueMapTy OldValMap;
   for (auto Z : zip_first(UniqueValues, drop_begin(NewF->args(), ArgOffset))) {
     Value *OldVal = std::get<0>(Z);
     Argument &NewArg = std::get<1>(Z);

     NewArg.setName(OldVal->getName());
     OldValMap[OldVal] = &NewArg;
   }

   SmallVector<ReturnInst *, 8> Returns; // Ignore returns cloned.
   CloneFunctionInto(NewF, OldF, VMap, CloneFunctionChangeType::LocalChangesOnly,
                     Returns, "", /*CodeInfo=*/nullptr);

   // Replace the actual operands.
   for (Use *Op : OpsToReplace) {
     Value *NewArg = OldValMap.lookup(Op->get());
     auto *NewUser = cast<Instruction>(VMap.lookup(Op->getUser()));
     NewUser->setOperand(Op->getOperandNo(), NewArg);
   }

   // Replace all OldF uses with NewF.
   replaceFunctionCalls(OldF, NewF);

   // Rename NewF to OldF's name.
   std::string FName = OldF->getName().str();
   OldF->replaceAllUsesWith(ConstantExpr::getBitCast(NewF, OldF->getType()));
   OldF->eraseFromParent();
   NewF->setName(FName);
 }

 static void reduceOperandsToArgs(Oracle &O, Module &Program) {
   SmallVector<Use *> OperandsToReduce;
   for (Function &F : make_early_inc_range(Program.functions())) {
     if (!canReplaceFunction(&F))
       continue;
     OperandsToReduce.clear();
     for (Instruction &I : instructions(&F)) {
       for (Use &Op : I.operands()) {
         if (!canReduceUse(Op))
           continue;
         if (O.shouldKeep())
           continue;

         OperandsToReduce.push_back(&Op);
       }
     }

     substituteOperandWithArgument(&F, OperandsToReduce);
   }
 }

 void llvm::reduceOperandsToArgsDeltaPass(TestRunner &Test) {
   outs() << "*** Converting operands to function arguments ...\n";
   return runDeltaPass(Test, reduceOperandsToArgs);
 }
	//===----------------------------------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#include "ReduceOperandsToArgs.h"
	#include "Delta.h"
	#include "llvm/ADT/Sequence.h"
	#include "llvm/IR/InstIterator.h"
	#include "llvm/IR/InstrTypes.h"
	#include "llvm/IR/Instructions.h"
	#include "llvm/Transforms/Utils/BasicBlockUtils.h"
	#include "llvm/Transforms/Utils/Cloning.h"

	using namespace llvm;

	static bool canReplaceFunction(Function *F) {
	return all_of(F->uses(), [](Use &Op) {
	if (auto *CI = dyn_cast<CallBase>(Op.getUser()))
	return &CI->getCalledOperandUse() == &Op;
	return false;
	});
	}

	static bool canReduceUse(Use &Op) {
	Value *Val = Op.get();
	Type *Ty = Val->getType();

	// Only replace operands that can be passed-by-value.
	if (!Ty->isFirstClassType())
	return false;

	// Don't pass labels/metadata as arguments.
	if (Ty->isLabelTy() \|\| Ty->isMetadataTy())
	return false;

	// No need to replace values that are already arguments.
	if (isa<Argument>(Val))
	return false;

	// Do not replace literals.
	if (isa<ConstantData>(Val))
	return false;

	// Do not convert direct function calls to indirect calls.
	if (auto *CI = dyn_cast<CallBase>(Op.getUser()))
	if (&CI->getCalledOperandUse() == &Op)
	return false;

	return true;
	}

	/// Goes over OldF calls and replaces them with a call to NewF.
	static void replaceFunctionCalls(Function OldF, Function NewF) {
	SmallVector<CallBase *> Callers;
	for (Use &U : OldF->uses()) {
	auto *CI = cast<CallBase>(U.getUser());
	assert(&U == &CI->getCalledOperandUse());
	assert(CI->getCalledFunction() == OldF);
	Callers.push_back(CI);
	}

	// Call arguments for NewF.
	SmallVector<Value *> Args(NewF->arg_size(), nullptr);

	// Fill up the additional parameters with undef values.
	for (auto ArgIdx : llvm::seq<size_t>(OldF->arg_size(), NewF->arg_size())) {
	Type *NewArgTy = NewF->getArg(ArgIdx)->getType();
	Args[ArgIdx] = UndefValue::get(NewArgTy);
	}

	for (CallBase *CI : Callers) {
	// Preserve the original function arguments.
	for (auto Z : zip_first(CI->args(), Args))
	std::get<1>(Z) = std::get<0>(Z);

	// Also preserve operand bundles.
	SmallVector<OperandBundleDef> OperandBundles;
	CI->getOperandBundlesAsDefs(OperandBundles);

	// Create the new function call.
	CallBase *NewCI;
	if (auto *II = dyn_cast<InvokeInst>(CI)) {
	NewCI = InvokeInst::Create(NewF, cast<InvokeInst>(II)->getNormalDest(),
	cast<InvokeInst>(II)->getUnwindDest(), Args,
	OperandBundles, CI->getName());
	} else {
	assert(isa<CallInst>(CI));
	NewCI = CallInst::Create(NewF, Args, OperandBundles, CI->getName());
	}
	NewCI->setCallingConv(NewF->getCallingConv());

	// Do the replacement for this use.
	if (!CI->use_empty())
	CI->replaceAllUsesWith(NewCI);
	ReplaceInstWithInst(CI, NewCI);
	}
	}

	/// Add a new function argument to @p F for each use in @OpsToReplace, and
	/// replace those operand values with the new function argument.
	static void substituteOperandWithArgument(Function *OldF,
	ArrayRef<Use *> OpsToReplace) {
	if (OpsToReplace.empty())
	return;

	SetVector<Value *> UniqueValues;
	for (Use *Op : OpsToReplace)
	UniqueValues.insert(Op->get());

	// Determine the new function's signature.
	SmallVector<Type *> NewArgTypes;
	llvm::append_range(NewArgTypes, OldF->getFunctionType()->params());
	size_t ArgOffset = NewArgTypes.size();
	for (Value *V : UniqueValues)
	NewArgTypes.push_back(V->getType());
	FunctionType *FTy =
	FunctionType::get(OldF->getFunctionType()->getReturnType(), NewArgTypes,
	OldF->getFunctionType()->isVarArg());

	// Create the new function...
	Function *NewF =
	Function::Create(FTy, OldF->getLinkage(), OldF->getAddressSpace(),
	OldF->getName(), OldF->getParent());

	// In order to preserve function order, we move NewF behind OldF
	NewF->removeFromParent();
	OldF->getParent()->getFunctionList().insertAfter(OldF->getIterator(), NewF);

	// Preserve the parameters of OldF.
	ValueToValueMapTy VMap;
	for (auto Z : zip_first(OldF->args(), NewF->args())) {
	Argument &OldArg = std::get<0>(Z);
	Argument &NewArg = std::get<1>(Z);

	NewArg.setName(OldArg.getName()); // Copy the name over...
	VMap[&OldArg] = &NewArg; // Add mapping to VMap
	}

	// Adjust the new parameters.
	ValueToValueMapTy OldValMap;
	for (auto Z : zip_first(UniqueValues, drop_begin(NewF->args(), ArgOffset))) {
	Value *OldVal = std::get<0>(Z);
	Argument &NewArg = std::get<1>(Z);

	NewArg.setName(OldVal->getName());
	OldValMap[OldVal] = &NewArg;
	}

	SmallVector<ReturnInst *, 8> Returns; // Ignore returns cloned.
	CloneFunctionInto(NewF, OldF, VMap, CloneFunctionChangeType::LocalChangesOnly,
	Returns, "", /CodeInfo=/nullptr);

	// Replace the actual operands.
	for (Use *Op : OpsToReplace) {
	Value *NewArg = OldValMap.lookup(Op->get());
	auto *NewUser = cast<Instruction>(VMap.lookup(Op->getUser()));
	NewUser->setOperand(Op->getOperandNo(), NewArg);
	}

	// Replace all OldF uses with NewF.
	replaceFunctionCalls(OldF, NewF);

	// Rename NewF to OldF's name.
	std::string FName = OldF->getName().str();
	OldF->replaceAllUsesWith(ConstantExpr::getBitCast(NewF, OldF->getType()));
	OldF->eraseFromParent();
	NewF->setName(FName);
	}

	static void reduceOperandsToArgs(Oracle &O, Module &Program) {
	SmallVector<Use *> OperandsToReduce;
	for (Function &F : make_early_inc_range(Program.functions())) {
	if (!canReplaceFunction(&F))
	continue;
	OperandsToReduce.clear();
	for (Instruction &I : instructions(&F)) {
	for (Use &Op : I.operands()) {
	if (!canReduceUse(Op))
	continue;
	if (O.shouldKeep())
	continue;

	OperandsToReduce.push_back(&Op);
	}
	}

	substituteOperandWithArgument(&F, OperandsToReduce);
	}
	}

	void llvm::reduceOperandsToArgsDeltaPass(TestRunner &Test) {
	outs() << "*** Converting operands to function arguments ...\n";
	return runDeltaPass(Test, reduceOperandsToArgs);
	}