bolt/lib/Passes/StackAllocationAnalysis.cpp - llvm-project - Git at Google

 //===- bolt/Passes/StackAllocationAnalysis.cpp ----------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // This file implements the StackAllocationAnalysis class.
 //
 //===----------------------------------------------------------------------===//

 #include "bolt/Passes/StackAllocationAnalysis.h"
 #include "bolt/Passes/StackPointerTracking.h"
 #include "llvm/Support/Debug.h"

 #define DEBUG_TYPE "saa"

 namespace llvm {
 namespace bolt {

 void StackAllocationAnalysis::preflight() {
   LLVM_DEBUG(dbgs() << "Starting StackAllocationAnalysis on \""
                     << Func.getPrintName() << "\"\n");

   for (BinaryBasicBlock &BB : this->Func) {
     for (MCInst &Inst : BB) {
       MCPhysReg From, To;
       if (!BC.MIB->isPush(Inst) &&
           (!BC.MIB->isRegToRegMove(Inst, From, To) ||
            To != BC.MIB->getStackPointer() ||
            From != BC.MIB->getFramePointer()) &&
           !BC.MII->get(Inst.getOpcode())
                .hasDefOfPhysReg(Inst, BC.MIB->getStackPointer(), *BC.MRI))
         continue;
       this->Expressions.push_back(&Inst);
       this->ExprToIdx[&Inst] = this->NumInstrs++;
     }
   }
 }

 BitVector
 StackAllocationAnalysis::getStartingStateAtBB(const BinaryBasicBlock &BB) {
   return BitVector(this->NumInstrs, false);
 }

 BitVector
 StackAllocationAnalysis::getStartingStateAtPoint(const MCInst &Point) {
   return BitVector(this->NumInstrs, false);
 }

 void StackAllocationAnalysis::doConfluence(BitVector &StateOut,
                                            const BitVector &StateIn) {
   StateOut |= StateIn;
 }

 BitVector StackAllocationAnalysis::doKill(const MCInst &Point,
                                           const BitVector &StateIn,
                                           int DeallocSize) {
   int64_t SPOffset = SPT.getStateAt(Point)->first;
   BitVector Next = StateIn;
   if (SPOffset == SPT.SUPERPOSITION || SPOffset == SPT.EMPTY)
     return Next;
   for (auto I = this->expr_begin(Next), E = this->expr_end(); I != E; ++I) {
     const MCInst *Instr = *I;
     int64_t InstrOffset = SPT.getStateAt(*Instr)->first;
     if (InstrOffset == SPT.SUPERPOSITION || InstrOffset == SPT.EMPTY)
       continue;
     if (InstrOffset < SPOffset) {
       Next.reset(I.getBitVectorIndex());
       LLVM_DEBUG({
         dbgs() << "SAA FYI: Killed: ";
         Instr->dump();
         dbgs() << "by: ";
         Point.dump();
         dbgs() << "  (more info: Killed instr offset = " << InstrOffset
                << ". SPOffset = " << SPOffset
                << "; DeallocSize= " << DeallocSize << "\n";
       });
     }
   }
   return Next;
 }

 void StackAllocationAnalysis::doConfluenceWithLP(BitVector &StateOut,
                                                  const BitVector &StateIn,
                                                  const MCInst &Invoke) {
   BitVector NewIn = StateIn;
   const int64_t GnuArgsSize = BC.MIB->getGnuArgsSize(Invoke);
   if (GnuArgsSize >= 0)
     NewIn = doKill(Invoke, NewIn, GnuArgsSize);
   StateOut |= NewIn;
 }

 BitVector StackAllocationAnalysis::computeNext(const MCInst &Point,
                                                const BitVector &Cur) {
   const auto &MIB = BC.MIB;
   BitVector Next = Cur;
   if (int Sz = MIB->getPopSize(Point)) {
     Next = doKill(Point, Next, Sz);
     return Next;
   }
   if (MIB->isPush(Point)) {
     Next.set(this->ExprToIdx[&Point]);
     return Next;
   }

   MCPhysReg From, To;
   int64_t SPOffset, FPOffset;
   std::tie(SPOffset, FPOffset) = *SPT.getStateBefore(Point);
   if (MIB->isRegToRegMove(Point, From, To) && To == MIB->getStackPointer() &&
       From == MIB->getFramePointer()) {
     if (MIB->isLeave(Point))
       FPOffset += 8;
     if (SPOffset < FPOffset) {
       Next = doKill(Point, Next, FPOffset - SPOffset);
       return Next;
     }
     if (SPOffset > FPOffset) {
       Next.set(this->ExprToIdx[&Point]);
       return Next;
     }
   }
   if (BC.MII->get(Point.getOpcode())
           .hasDefOfPhysReg(Point, MIB->getStackPointer(), *BC.MRI)) {
     std::pair<MCPhysReg, int64_t> SP;
     if (SPOffset != SPT.EMPTY && SPOffset != SPT.SUPERPOSITION)
       SP = std::make_pair(MIB->getStackPointer(), SPOffset);
     else
       SP = std::make_pair(0, 0);
     std::pair<MCPhysReg, int64_t> FP;
     if (FPOffset != SPT.EMPTY && FPOffset != SPT.SUPERPOSITION)
       FP = std::make_pair(MIB->getFramePointer(), FPOffset);
     else
       FP = std::make_pair(0, 0);
     int64_t Output;
     if (!MIB->evaluateStackOffsetExpr(Point, Output, SP, FP))
       return Next;

     if (SPOffset < Output) {
       Next = doKill(Point, Next, Output - SPOffset);
       return Next;
     }
     if (SPOffset > Output) {
       Next.set(this->ExprToIdx[&Point]);
       return Next;
     }
   }
   return Next;
 }

 } // end namespace bolt
 } // end namespace llvm
	//===- bolt/Passes/StackAllocationAnalysis.cpp ----------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements the StackAllocationAnalysis class.
	//
	//===----------------------------------------------------------------------===//

	#include "bolt/Passes/StackAllocationAnalysis.h"
	#include "bolt/Passes/StackPointerTracking.h"
	#include "llvm/Support/Debug.h"

	#define DEBUG_TYPE "saa"

	namespace llvm {
	namespace bolt {

	void StackAllocationAnalysis::preflight() {
	LLVM_DEBUG(dbgs() << "Starting StackAllocationAnalysis on \""
	<< Func.getPrintName() << "\"\n");

	for (BinaryBasicBlock &BB : this->Func) {
	for (MCInst &Inst : BB) {
	MCPhysReg From, To;
	if (!BC.MIB->isPush(Inst) &&
	(!BC.MIB->isRegToRegMove(Inst, From, To) \|\|
	To != BC.MIB->getStackPointer() \|\|
	From != BC.MIB->getFramePointer()) &&
	!BC.MII->get(Inst.getOpcode())
	.hasDefOfPhysReg(Inst, BC.MIB->getStackPointer(), *BC.MRI))
	continue;
	this->Expressions.push_back(&Inst);
	this->ExprToIdx[&Inst] = this->NumInstrs++;
	}
	}
	}

	BitVector
	StackAllocationAnalysis::getStartingStateAtBB(const BinaryBasicBlock &BB) {
	return BitVector(this->NumInstrs, false);
	}

	BitVector
	StackAllocationAnalysis::getStartingStateAtPoint(const MCInst &Point) {
	return BitVector(this->NumInstrs, false);
	}

	void StackAllocationAnalysis::doConfluence(BitVector &StateOut,
	const BitVector &StateIn) {
	StateOut \|= StateIn;
	}

	BitVector StackAllocationAnalysis::doKill(const MCInst &Point,
	const BitVector &StateIn,
	int DeallocSize) {
	int64_t SPOffset = SPT.getStateAt(Point)->first;
	BitVector Next = StateIn;
	if (SPOffset == SPT.SUPERPOSITION \|\| SPOffset == SPT.EMPTY)
	return Next;
	for (auto I = this->expr_begin(Next), E = this->expr_end(); I != E; ++I) {
	const MCInst Instr = I;
	int64_t InstrOffset = SPT.getStateAt(*Instr)->first;
	if (InstrOffset == SPT.SUPERPOSITION \|\| InstrOffset == SPT.EMPTY)
	continue;
	if (InstrOffset < SPOffset) {
	Next.reset(I.getBitVectorIndex());
	LLVM_DEBUG({
	dbgs() << "SAA FYI: Killed: ";
	Instr->dump();
	dbgs() << "by: ";
	Point.dump();
	dbgs() << " (more info: Killed instr offset = " << InstrOffset
	<< ". SPOffset = " << SPOffset
	<< "; DeallocSize= " << DeallocSize << "\n";
	});
	}
	}
	return Next;
	}

	void StackAllocationAnalysis::doConfluenceWithLP(BitVector &StateOut,
	const BitVector &StateIn,
	const MCInst &Invoke) {
	BitVector NewIn = StateIn;
	const int64_t GnuArgsSize = BC.MIB->getGnuArgsSize(Invoke);
	if (GnuArgsSize >= 0)
	NewIn = doKill(Invoke, NewIn, GnuArgsSize);
	StateOut \|= NewIn;
	}

	BitVector StackAllocationAnalysis::computeNext(const MCInst &Point,
	const BitVector &Cur) {
	const auto &MIB = BC.MIB;
	BitVector Next = Cur;
	if (int Sz = MIB->getPopSize(Point)) {
	Next = doKill(Point, Next, Sz);
	return Next;
	}
	if (MIB->isPush(Point)) {
	Next.set(this->ExprToIdx[&Point]);
	return Next;
	}

	MCPhysReg From, To;
	int64_t SPOffset, FPOffset;
	std::tie(SPOffset, FPOffset) = *SPT.getStateBefore(Point);
	if (MIB->isRegToRegMove(Point, From, To) && To == MIB->getStackPointer() &&
	From == MIB->getFramePointer()) {
	if (MIB->isLeave(Point))
	FPOffset += 8;
	if (SPOffset < FPOffset) {
	Next = doKill(Point, Next, FPOffset - SPOffset);
	return Next;
	}
	if (SPOffset > FPOffset) {
	Next.set(this->ExprToIdx[&Point]);
	return Next;
	}
	}
	if (BC.MII->get(Point.getOpcode())
	.hasDefOfPhysReg(Point, MIB->getStackPointer(), *BC.MRI)) {
	std::pair<MCPhysReg, int64_t> SP;
	if (SPOffset != SPT.EMPTY && SPOffset != SPT.SUPERPOSITION)
	SP = std::make_pair(MIB->getStackPointer(), SPOffset);
	else
	SP = std::make_pair(0, 0);
	std::pair<MCPhysReg, int64_t> FP;
	if (FPOffset != SPT.EMPTY && FPOffset != SPT.SUPERPOSITION)
	FP = std::make_pair(MIB->getFramePointer(), FPOffset);
	else
	FP = std::make_pair(0, 0);
	int64_t Output;
	if (!MIB->evaluateStackOffsetExpr(Point, Output, SP, FP))
	return Next;

	if (SPOffset < Output) {
	Next = doKill(Point, Next, Output - SPOffset);
	return Next;
	}
	if (SPOffset > Output) {
	Next.set(this->ExprToIdx[&Point]);
	return Next;
	}
	}
	return Next;
	}

	} // end namespace bolt
	} // end namespace llvm