lib/Transforms/Scalar/DecomposeMultiDimRefs.cpp - platform/external/llvm - Gitiles

 //===- llvm/Transforms/DecomposeMultiDimRefs.cpp - Lower array refs to 1D -===//
 //
 // DecomposeMultiDimRefs - Convert multi-dimensional references consisting of
 // any combination of 2 or more array and structure indices into a sequence of
 // instructions (using getelementpr and cast) so that each instruction has at
 // most one index (except structure references, which need an extra leading
 // index of [0]).
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/Transforms/Scalar.h"
 #include "llvm/DerivedTypes.h"
 #include "llvm/Constants.h"
 #include "llvm/Constant.h"
 #include "llvm/iMemory.h"
 #include "llvm/iOther.h"
 #include "llvm/BasicBlock.h"
 #include "llvm/Pass.h"
 #include "Support/StatisticReporter.h"

 static Statistic<> NumAdded("lowerrefs\t\t- New instructions added");

 namespace {
   struct DecomposePass : public BasicBlockPass {
     virtual bool runOnBasicBlock(BasicBlock &BB);

   private:
     static bool decomposeArrayRef(BasicBlock::iterator &BBI);
   };

   RegisterOpt<DecomposePass> X("lowerrefs", "Decompose multi-dimensional "
                                "structure/array references");
 }

 Pass
 *createDecomposeMultiDimRefsPass()
 {
   return new DecomposePass();
 }


 // runOnBasicBlock - Entry point for array or structure references with multiple
 // indices.
 //
 bool
 DecomposePass::runOnBasicBlock(BasicBlock &BB)
 {
   bool Changed = false;
   for (BasicBlock::iterator II = BB.begin(); II != BB.end(); ) {
     if (GetElementPtrInst *GEP = dyn_cast<GetElementPtrInst>(&*II))
       if (GEP->getNumIndices() >= 2) {
         Changed |= decomposeArrayRef(II); // always modifies II
         continue;
       }
     ++II;
   }
   return Changed;
 }

 // Check for a constant (uint) 0.
 inline bool
 IsZero(Value* idx)
 {
   return (isa<ConstantInt>(idx) && cast<ConstantInt>(idx)->isNullValue());
 }

 // For any GetElementPtrInst with 2 or more array and structure indices:
 //
 //      opCode CompositeType* P, [uint|ubyte] idx1, ..., [uint|ubyte] idxN
 //
 // this function generates the foll sequence:
 //
 //      ptr1   = getElementPtr P,         idx1
 //      ptr2   = getElementPtr ptr1,   0, idx2
 //      ...
 //      ptrN-1 = getElementPtr ptrN-2, 0, idxN-1
 //      opCode                 ptrN-1, 0, idxN  // New-MAI
 //
 // Then it replaces the original instruction with this sequence,
 // and replaces all uses of the original instruction with New-MAI.
 // If idx1 is 0, we simply omit the first getElementPtr instruction.
 //
 // On return: BBI points to the instruction after the current one
 //            (whether or not *BBI was replaced).
 //
 // Return value: true if the instruction was replaced; false otherwise.
 //
 bool
 DecomposePass::decomposeArrayRef(BasicBlock::iterator &BBI)
 {
   GetElementPtrInst &GEP = cast<GetElementPtrInst>(*BBI);
   BasicBlock *BB = GEP.getParent();
   Value *LastPtr = GEP.getPointerOperand();

   // Remove the instruction from the stream
   BB->getInstList().remove(BBI);

   // The vector of new instructions to be created
   std::vector<Instruction*> NewInsts;

   // Process each index except the last one.
   User::const_op_iterator OI = GEP.idx_begin(), OE = GEP.idx_end();
   for (; OI+1 != OE; ++OI) {
     std::vector<Value*> Indices;

     // If this is the first index and is 0, skip it and move on!
     if (OI == GEP.idx_begin()) {
       if (IsZero(*OI)) continue;
     } else
       // Not the first index: include initial [0] to deref the last ptr
       Indices.push_back(Constant::getNullValue(Type::UIntTy));

     Indices.push_back(*OI);

     // New Instruction: nextPtr1 = GetElementPtr LastPtr, Indices
     LastPtr = new GetElementPtrInst(LastPtr, Indices, "ptr1");
     NewInsts.push_back(cast<Instruction>(LastPtr));
     ++NumAdded;
   }

   // Now create a new instruction to replace the original one
   //
   const PointerType *PtrTy = cast<PointerType>(LastPtr->getType());

   // Get the final index vector, including an initial [0] as before.
   std::vector<Value*> Indices;
   Indices.push_back(Constant::getNullValue(Type::UIntTy));
   Indices.push_back(*OI);

   Instruction *NewI = new GetElementPtrInst(LastPtr, Indices, GEP.getName());
   NewInsts.push_back(NewI);

   // Replace all uses of the old instruction with the new
   GEP.replaceAllUsesWith(NewI);

   // Now delete the old instruction...
   delete &GEP;

   // Insert all of the new instructions...
   BB->getInstList().insert(BBI, NewInsts.begin(), NewInsts.end());

   // Advance the iterator to the instruction following the one just inserted...
   BBI = NewInsts.back();
   ++BBI;
   return true;
 }
	//===- llvm/Transforms/DecomposeMultiDimRefs.cpp - Lower array refs to 1D -===//
	//
	// DecomposeMultiDimRefs - Convert multi-dimensional references consisting of
	// any combination of 2 or more array and structure indices into a sequence of
	// instructions (using getelementpr and cast) so that each instruction has at
	// most one index (except structure references, which need an extra leading
	// index of [0]).
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/Transforms/Scalar.h"
	#include "llvm/DerivedTypes.h"
	#include "llvm/Constants.h"
	#include "llvm/Constant.h"
	#include "llvm/iMemory.h"
	#include "llvm/iOther.h"
	#include "llvm/BasicBlock.h"
	#include "llvm/Pass.h"
	#include "Support/StatisticReporter.h"

	static Statistic<> NumAdded("lowerrefs\t\t- New instructions added");

	namespace {
	struct DecomposePass : public BasicBlockPass {
	virtual bool runOnBasicBlock(BasicBlock &BB);

	private:
	static bool decomposeArrayRef(BasicBlock::iterator &BBI);
	};

	RegisterOpt<DecomposePass> X("lowerrefs", "Decompose multi-dimensional "
	"structure/array references");
	}

	Pass
	*createDecomposeMultiDimRefsPass()
	{
	return new DecomposePass();
	}


	// runOnBasicBlock - Entry point for array or structure references with multiple
	// indices.
	//
	bool
	DecomposePass::runOnBasicBlock(BasicBlock &BB)
	{
	bool Changed = false;
	for (BasicBlock::iterator II = BB.begin(); II != BB.end(); ) {
	if (GetElementPtrInst GEP = dyn_cast<GetElementPtrInst>(&II))
	if (GEP->getNumIndices() >= 2) {
	Changed \|= decomposeArrayRef(II); // always modifies II
	continue;
	}
	++II;
	}
	return Changed;
	}

	// Check for a constant (uint) 0.
	inline bool
	IsZero(Value* idx)
	{
	return (isa<ConstantInt>(idx) && cast<ConstantInt>(idx)->isNullValue());
	}

	// For any GetElementPtrInst with 2 or more array and structure indices:
	//
	// opCode CompositeType* P, [uint\|ubyte] idx1, ..., [uint\|ubyte] idxN
	//
	// this function generates the foll sequence:
	//
	// ptr1 = getElementPtr P, idx1
	// ptr2 = getElementPtr ptr1, 0, idx2
	// ...
	// ptrN-1 = getElementPtr ptrN-2, 0, idxN-1
	// opCode ptrN-1, 0, idxN // New-MAI
	//
	// Then it replaces the original instruction with this sequence,
	// and replaces all uses of the original instruction with New-MAI.
	// If idx1 is 0, we simply omit the first getElementPtr instruction.
	//
	// On return: BBI points to the instruction after the current one
	// (whether or not *BBI was replaced).
	//
	// Return value: true if the instruction was replaced; false otherwise.
	//
	bool
	DecomposePass::decomposeArrayRef(BasicBlock::iterator &BBI)
	{
	GetElementPtrInst &GEP = cast<GetElementPtrInst>(*BBI);
	BasicBlock *BB = GEP.getParent();
	Value *LastPtr = GEP.getPointerOperand();

	// Remove the instruction from the stream
	BB->getInstList().remove(BBI);

	// The vector of new instructions to be created
	std::vector<Instruction*> NewInsts;

	// Process each index except the last one.
	User::const_op_iterator OI = GEP.idx_begin(), OE = GEP.idx_end();
	for (; OI+1 != OE; ++OI) {
	std::vector<Value*> Indices;

	// If this is the first index and is 0, skip it and move on!
	if (OI == GEP.idx_begin()) {
	if (IsZero(*OI)) continue;
	} else
	// Not the first index: include initial [0] to deref the last ptr
	Indices.push_back(Constant::getNullValue(Type::UIntTy));

	Indices.push_back(*OI);

	// New Instruction: nextPtr1 = GetElementPtr LastPtr, Indices
	LastPtr = new GetElementPtrInst(LastPtr, Indices, "ptr1");
	NewInsts.push_back(cast<Instruction>(LastPtr));
	++NumAdded;
	}

	// Now create a new instruction to replace the original one
	//
	const PointerType *PtrTy = cast<PointerType>(LastPtr->getType());

	// Get the final index vector, including an initial [0] as before.
	std::vector<Value*> Indices;
	Indices.push_back(Constant::getNullValue(Type::UIntTy));
	Indices.push_back(*OI);

	Instruction *NewI = new GetElementPtrInst(LastPtr, Indices, GEP.getName());
	NewInsts.push_back(NewI);

	// Replace all uses of the old instruction with the new
	GEP.replaceAllUsesWith(NewI);

	// Now delete the old instruction...
	delete &GEP;

	// Insert all of the new instructions...
	BB->getInstList().insert(BBI, NewInsts.begin(), NewInsts.end());

	// Advance the iterator to the instruction following the one just inserted...
	BBI = NewInsts.back();
	++BBI;
	return true;
	}