final/lib/Analysis/ScopDetectionDiagnostic.cpp - polly - Git at Google

 //=== ScopDetectionDiagnostic.cpp - Error diagnostics --------- -*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // Small set of diagnostic helper classes to encapsulate any errors occurred
 // during the detection of Scops.
 //
 // The ScopDetection defines a set of error classes (via Statistic variables)
 // that groups a number of individual errors into a group, e.g. non-affinity
 // related errors.
 // On error we generate an object that carries enough additional information
 // to diagnose the error and generate a helpful error message.
 //
 //===----------------------------------------------------------------------===//
 #include "polly/ScopDetectionDiagnostic.h"
 #include "polly/Support/ScopLocation.h"
 #include "llvm/ADT/SmallVector.h"
 #include "llvm/ADT/Statistic.h"
 #include "llvm/Analysis/AliasSetTracker.h"
 #include "llvm/Analysis/LoopInfo.h"
 #include "llvm/Analysis/RegionInfo.h"
 #include "llvm/IR/BasicBlock.h"
 #include "llvm/IR/DebugInfo.h"
 #include "llvm/IR/DebugLoc.h"
 #include "llvm/IR/DiagnosticInfo.h"
 #include "llvm/IR/LLVMContext.h"
 #include "llvm/IR/Value.h"

 #define DEBUG_TYPE "polly-detect"
 #include "llvm/Support/Debug.h"

 #include <string>

 #define BADSCOP_STAT(NAME, DESC)                                               \
   STATISTIC(Bad##NAME##ForScop, "Number of bad regions for Scop: " DESC)

 BADSCOP_STAT(CFG, "CFG too complex");
 BADSCOP_STAT(IndVar, "Non canonical induction variable in loop");
 BADSCOP_STAT(IndEdge, "Found invalid region entering edges");
 BADSCOP_STAT(LoopBound, "Loop bounds can not be computed");
 BADSCOP_STAT(FuncCall, "Function call with side effects appeared");
 BADSCOP_STAT(AffFunc, "Expression not affine");
 BADSCOP_STAT(Alias, "Found base address alias");
 BADSCOP_STAT(SimpleLoop, "Loop not in -loop-simplify form");
 BADSCOP_STAT(Other, "Others");

 namespace polly {
 /// @brief Small string conversion via raw_string_stream.
 template <typename T> std::string operator+(Twine LHS, const T &RHS) {
   std::string Buf;
   raw_string_ostream fmt(Buf);
   fmt << RHS;
   fmt.flush();

   return LHS.concat(Buf).str();
 }
 }

 namespace llvm {
 // @brief Lexicographic order on (line, col) of our debug locations.
 static bool operator<(const llvm::DebugLoc &LHS, const llvm::DebugLoc &RHS) {
   return LHS.getLine() < RHS.getLine() ||
          (LHS.getLine() == RHS.getLine() && LHS.getCol() < RHS.getCol());
 }
 }

 namespace polly {
 static void getDebugLocations(const Region *R, DebugLoc &Begin, DebugLoc &End) {
   for (const BasicBlock *BB : R->blocks())
     for (const Instruction &Inst : *BB) {
       DebugLoc DL = Inst.getDebugLoc();
       if (!DL)
         continue;

       Begin = Begin ? std::min(Begin, DL) : DL;
       End = End ? std::max(End, DL) : DL;
     }
 }

 void emitRejectionRemarks(const llvm::Function &F, const RejectLog &Log) {
   LLVMContext &Ctx = F.getContext();

   const Region *R = Log.region();
   DebugLoc Begin, End;

   getDebugLocations(R, Begin, End);

   emitOptimizationRemarkMissed(
       Ctx, DEBUG_TYPE, F, Begin,
       "The following errors keep this region from being a Scop.");

   for (RejectReasonPtr RR : Log) {
     if (const DebugLoc &Loc = RR->getDebugLoc())
       emitOptimizationRemarkMissed(Ctx, DEBUG_TYPE, F, Loc,
                                    RR->getEndUserMessage());
   }

   emitOptimizationRemarkMissed(Ctx, DEBUG_TYPE, F, End,
                                "Invalid Scop candidate ends here.");
 }

 void emitValidRemarks(const llvm::Function &F, const Region *R) {
   LLVMContext &Ctx = F.getContext();

   DebugLoc Begin, End;
   getDebugLocations(R, Begin, End);

   emitOptimizationRemark(Ctx, DEBUG_TYPE, F, Begin,
                          "A valid Scop begins here.");
   emitOptimizationRemark(Ctx, DEBUG_TYPE, F, End, "A valid Scop ends here.");
 }

 //===----------------------------------------------------------------------===//
 // RejectReason.
 const DebugLoc RejectReason::Unknown = DebugLoc();

 const llvm::DebugLoc &RejectReason::getDebugLoc() const {
   // Allocate an empty DebugLoc and return it a reference to it.
   return Unknown;
 }

 // RejectLog.
 void RejectLog::print(raw_ostream &OS, int level) const {
   int j = 0;
   for (auto Reason : ErrorReports)
     OS.indent(level) << "[" << j++ << "] " << Reason->getMessage() << "\n";
 }

 //===----------------------------------------------------------------------===//
 // ReportCFG.

 ReportCFG::ReportCFG(const RejectReasonKind K) : RejectReason(K) {
   ++BadCFGForScop;
 }

 bool ReportCFG::classof(const RejectReason *RR) {
   return RR->getKind() >= rrkCFG && RR->getKind() <= rrkLastCFG;
 }

 //===----------------------------------------------------------------------===//
 // ReportNonBranchTerminator.

 std::string ReportNonBranchTerminator::getMessage() const {
   return ("Non branch instruction terminates BB: " + BB->getName()).str();
 }

 const DebugLoc &ReportNonBranchTerminator::getDebugLoc() const {
   return BB->getTerminator()->getDebugLoc();
 }

 bool ReportNonBranchTerminator::classof(const RejectReason *RR) {
   return RR->getKind() == rrkNonBranchTerminator;
 }

 //===----------------------------------------------------------------------===//
 // ReportCondition.

 std::string ReportCondition::getMessage() const {
   return ("Not well structured condition at BB: " + BB->getName()).str();
 }

 const DebugLoc &ReportCondition::getDebugLoc() const {
   return BB->getTerminator()->getDebugLoc();
 }

 bool ReportCondition::classof(const RejectReason *RR) {
   return RR->getKind() == rrkCondition;
 }

 //===----------------------------------------------------------------------===//
 // ReportAffFunc.

 ReportAffFunc::ReportAffFunc(const RejectReasonKind K, const Instruction *Inst)
     : RejectReason(K), Inst(Inst) {
   ++BadAffFuncForScop;
 }

 bool ReportAffFunc::classof(const RejectReason *RR) {
   return RR->getKind() >= rrkAffFunc && RR->getKind() <= rrkLastAffFunc;
 }

 //===----------------------------------------------------------------------===//
 // ReportUndefCond.

 std::string ReportUndefCond::getMessage() const {
   return ("Condition based on 'undef' value in BB: " + BB->getName()).str();
 }

 bool ReportUndefCond::classof(const RejectReason *RR) {
   return RR->getKind() == rrkUndefCond;
 }

 //===----------------------------------------------------------------------===//
 // ReportInvalidCond.

 std::string ReportInvalidCond::getMessage() const {
   return ("Condition in BB '" + BB->getName()).str() +
          "' neither constant nor an icmp instruction";
 }

 bool ReportInvalidCond::classof(const RejectReason *RR) {
   return RR->getKind() == rrkInvalidCond;
 }

 //===----------------------------------------------------------------------===//
 // ReportUnsignedCond.

 std::string ReportUnsignedCond::getMessage() const {
   return ("Condition in BB '" + BB->getName()).str() +
          "' performs a comparision on (not yet supported) unsigned integers.";
 }

 std::string ReportUnsignedCond::getEndUserMessage() const {
   return "Unsupported comparision on unsigned integers encountered";
 }

 bool ReportUnsignedCond::classof(const RejectReason *RR) {
   return RR->getKind() == rrkUnsignedCond;
 }

 //===----------------------------------------------------------------------===//
 // ReportUndefOperand.

 std::string ReportUndefOperand::getMessage() const {
   return ("undef operand in branch at BB: " + BB->getName()).str();
 }

 bool ReportUndefOperand::classof(const RejectReason *RR) {
   return RR->getKind() == rrkUndefOperand;
 }

 //===----------------------------------------------------------------------===//
 // ReportNonAffBranch.

 std::string ReportNonAffBranch::getMessage() const {
   return ("Non affine branch in BB '" + BB->getName()).str() + "' with LHS: " +
          *LHS + " and RHS: " + *RHS;
 }

 bool ReportNonAffBranch::classof(const RejectReason *RR) {
   return RR->getKind() == rrkNonAffBranch;
 }

 //===----------------------------------------------------------------------===//
 // ReportNoBasePtr.

 std::string ReportNoBasePtr::getMessage() const { return "No base pointer"; }

 bool ReportNoBasePtr::classof(const RejectReason *RR) {
   return RR->getKind() == rrkNoBasePtr;
 }

 //===----------------------------------------------------------------------===//
 // ReportUndefBasePtr.

 std::string ReportUndefBasePtr::getMessage() const {
   return "Undefined base pointer";
 }

 bool ReportUndefBasePtr::classof(const RejectReason *RR) {
   return RR->getKind() == rrkUndefBasePtr;
 }

 //===----------------------------------------------------------------------===//
 // ReportVariantBasePtr.

 std::string ReportVariantBasePtr::getMessage() const {
   return "Base address not invariant in current region:" + *BaseValue;
 }

 std::string ReportVariantBasePtr::getEndUserMessage() const {
   return "The base address of this array is not invariant inside the loop";
 }

 bool ReportVariantBasePtr::classof(const RejectReason *RR) {
   return RR->getKind() == rrkVariantBasePtr;
 }

 //===----------------------------------------------------------------------===//
 // ReportDifferentArrayElementSize

 std::string ReportDifferentArrayElementSize::getMessage() const {
   return "Access to one array through data types of different size";
 }

 bool ReportDifferentArrayElementSize::classof(const RejectReason *RR) {
   return RR->getKind() == rrkDifferentElementSize;
 }

 std::string ReportDifferentArrayElementSize::getEndUserMessage() const {
   llvm::StringRef BaseName = BaseValue->getName();
   std::string Name = (BaseName.size() > 0) ? BaseName : "UNKNOWN";
   return "The array \"" + Name + "\" is accessed through elements that differ "
                                  "in size";
 }

 //===----------------------------------------------------------------------===//
 // ReportNonAffineAccess.

 std::string ReportNonAffineAccess::getMessage() const {
   return "Non affine access function: " + *AccessFunction;
 }

 bool ReportNonAffineAccess::classof(const RejectReason *RR) {
   return RR->getKind() == rrkNonAffineAccess;
 }

 std::string ReportNonAffineAccess::getEndUserMessage() const {
   llvm::StringRef BaseName = BaseValue->getName();
   std::string Name = (BaseName.size() > 0) ? BaseName : "UNKNOWN";
   return "The array subscript of \"" + Name + "\" is not affine";
 }

 //===----------------------------------------------------------------------===//
 // ReportIndVar.

 ReportIndVar::ReportIndVar(const RejectReasonKind K) : RejectReason(K) {
   ++BadIndVarForScop;
 }

 //===----------------------------------------------------------------------===//
 // ReportPhiNodeRefInRegion.

 ReportPhiNodeRefInRegion::ReportPhiNodeRefInRegion(Instruction *Inst)
     : ReportIndVar(rrkPhiNodeRefInRegion), Inst(Inst) {}

 std::string ReportPhiNodeRefInRegion::getMessage() const {
   return "SCEV of PHI node refers to SSA names in region: " + *Inst;
 }

 const DebugLoc &ReportPhiNodeRefInRegion::getDebugLoc() const {
   return Inst->getDebugLoc();
 }

 bool ReportPhiNodeRefInRegion::classof(const RejectReason *RR) {
   return RR->getKind() == rrkPhiNodeRefInRegion;
 }

 //===----------------------------------------------------------------------===//
 // ReportIndEdge.

 ReportIndEdge::ReportIndEdge(BasicBlock *BB)
     : RejectReason(rrkIndEdge), BB(BB) {
   ++BadIndEdgeForScop;
 }

 std::string ReportIndEdge::getMessage() const {
   return "Region has invalid entering edges!";
 }

 const DebugLoc &ReportIndEdge::getDebugLoc() const {
   return BB->getTerminator()->getDebugLoc();
 }

 bool ReportIndEdge::classof(const RejectReason *RR) {
   return RR->getKind() == rrkIndEdge;
 }

 //===----------------------------------------------------------------------===//
 // ReportLoopBound.

 ReportLoopBound::ReportLoopBound(Loop *L, const SCEV *LoopCount)
     : RejectReason(rrkLoopBound), L(L), LoopCount(LoopCount),
       Loc(L->getStartLoc()) {
   ++BadLoopBoundForScop;
 }

 std::string ReportLoopBound::getMessage() const {
   return "Non affine loop bound '" + *LoopCount + "' in loop: " +
          L->getHeader()->getName();
 }

 const DebugLoc &ReportLoopBound::getDebugLoc() const { return Loc; }

 bool ReportLoopBound::classof(const RejectReason *RR) {
   return RR->getKind() == rrkLoopBound;
 }

 std::string ReportLoopBound::getEndUserMessage() const {
   return "Failed to derive an affine function from the loop bounds.";
 }

 //===----------------------------------------------------------------------===//
 // ReportFuncCall.

 ReportFuncCall::ReportFuncCall(Instruction *Inst)
     : RejectReason(rrkFuncCall), Inst(Inst) {
   ++BadFuncCallForScop;
 }

 std::string ReportFuncCall::getMessage() const {
   return "Call instruction: " + *Inst;
 }

 const DebugLoc &ReportFuncCall::getDebugLoc() const {
   return Inst->getDebugLoc();
 }

 std::string ReportFuncCall::getEndUserMessage() const {
   return "This function call cannot be handled. "
          "Try to inline it.";
 }

 bool ReportFuncCall::classof(const RejectReason *RR) {
   return RR->getKind() == rrkFuncCall;
 }

 //===----------------------------------------------------------------------===//
 // ReportAlias.

 ReportAlias::ReportAlias(Instruction *Inst, AliasSet &AS)
     : RejectReason(rrkAlias), Inst(Inst) {

   for (const auto &I : AS)
     Pointers.push_back(I.getValue());

   ++BadAliasForScop;
 }

 std::string ReportAlias::formatInvalidAlias(std::string Prefix,
                                             std::string Suffix) const {
   std::string Message;
   raw_string_ostream OS(Message);

   OS << Prefix;

   for (PointerSnapshotTy::const_iterator PI = Pointers.begin(),
                                          PE = Pointers.end();
        ;) {
     const Value *V = *PI;
     assert(V && "Diagnostic info does not match found LLVM-IR anymore.");

     if (V->getName().size() == 0)
       OS << "\"" << *V << "\"";
     else
       OS << "\"" << V->getName() << "\"";

     ++PI;

     if (PI != PE)
       OS << ", ";
     else
       break;
   }

   OS << Suffix;

   return OS.str();
 }

 std::string ReportAlias::getMessage() const {
   return formatInvalidAlias("Possible aliasing: ");
 }

 std::string ReportAlias::getEndUserMessage() const {
   return formatInvalidAlias("Accesses to the arrays ",
                             " may access the same memory.");
 }

 const DebugLoc &ReportAlias::getDebugLoc() const { return Inst->getDebugLoc(); }

 bool ReportAlias::classof(const RejectReason *RR) {
   return RR->getKind() == rrkAlias;
 }

 //===----------------------------------------------------------------------===//
 // ReportSimpleLoop.

 ReportSimpleLoop::ReportSimpleLoop() : RejectReason(rrkSimpleLoop) {
   ++BadSimpleLoopForScop;
 }

 std::string ReportSimpleLoop::getMessage() const {
   return "Loop not in simplify form is invalid!";
 }

 bool ReportSimpleLoop::classof(const RejectReason *RR) {
   return RR->getKind() == rrkSimpleLoop;
 }

 //===----------------------------------------------------------------------===//
 // ReportOther.

 std::string ReportOther::getMessage() const { return "Unknown reject reason"; }

 ReportOther::ReportOther(const RejectReasonKind K) : RejectReason(K) {
   ++BadOtherForScop;
 }

 bool ReportOther::classof(const RejectReason *RR) {
   return RR->getKind() >= rrkOther && RR->getKind() <= rrkLastOther;
 }

 //===----------------------------------------------------------------------===//
 // ReportIntToPtr.
 ReportIntToPtr::ReportIntToPtr(Instruction *BaseValue)
     : ReportOther(rrkIntToPtr), BaseValue(BaseValue) {}

 std::string ReportIntToPtr::getMessage() const {
   return "Find bad intToptr prt: " + *BaseValue;
 }

 const DebugLoc &ReportIntToPtr::getDebugLoc() const {
   return BaseValue->getDebugLoc();
 }

 bool ReportIntToPtr::classof(const RejectReason *RR) {
   return RR->getKind() == rrkIntToPtr;
 }

 //===----------------------------------------------------------------------===//
 // ReportAlloca.

 ReportAlloca::ReportAlloca(Instruction *Inst)
     : ReportOther(rrkAlloca), Inst(Inst) {}

 std::string ReportAlloca::getMessage() const {
   return "Alloca instruction: " + *Inst;
 }

 const DebugLoc &ReportAlloca::getDebugLoc() const {
   return Inst->getDebugLoc();
 }

 bool ReportAlloca::classof(const RejectReason *RR) {
   return RR->getKind() == rrkAlloca;
 }

 //===----------------------------------------------------------------------===//
 // ReportUnknownInst.

 ReportUnknownInst::ReportUnknownInst(Instruction *Inst)
     : ReportOther(rrkUnknownInst), Inst(Inst) {}

 std::string ReportUnknownInst::getMessage() const {
   return "Unknown instruction: " + *Inst;
 }

 const DebugLoc &ReportUnknownInst::getDebugLoc() const {
   return Inst->getDebugLoc();
 }

 bool ReportUnknownInst::classof(const RejectReason *RR) {
   return RR->getKind() == rrkUnknownInst;
 }

 //===----------------------------------------------------------------------===//
 // ReportPHIinExit.

 ReportPHIinExit::ReportPHIinExit(Instruction *Inst)
     : ReportOther(rrkPHIinExit), Inst(Inst) {}

 std::string ReportPHIinExit::getMessage() const {
   return "PHI node in exit BB";
 }

 const DebugLoc &ReportPHIinExit::getDebugLoc() const {
   return Inst->getDebugLoc();
 }

 bool ReportPHIinExit::classof(const RejectReason *RR) {
   return RR->getKind() == rrkPHIinExit;
 }

 //===----------------------------------------------------------------------===//
 // ReportEntry.
 ReportEntry::ReportEntry(BasicBlock *BB) : ReportOther(rrkEntry), BB(BB) {}

 std::string ReportEntry::getMessage() const {
   return "Region containing entry block of function is invalid!";
 }

 const DebugLoc &ReportEntry::getDebugLoc() const {
   return BB->getTerminator()->getDebugLoc();
 }

 bool ReportEntry::classof(const RejectReason *RR) {
   return RR->getKind() == rrkEntry;
 }

 //===----------------------------------------------------------------------===//
 // ReportUnprofitable.
 ReportUnprofitable::ReportUnprofitable(Region *R)
     : ReportOther(rrkUnprofitable), R(R) {}

 std::string ReportUnprofitable::getMessage() const {
   return "Region can not profitably be optimized!";
 }

 std::string ReportUnprofitable::getEndUserMessage() const {
   return "No profitable polyhedral optimization found";
 }

 const DebugLoc &ReportUnprofitable::getDebugLoc() const {
   for (const BasicBlock *BB : R->blocks())
     for (const Instruction &Inst : *BB)
       if (const DebugLoc &DL = Inst.getDebugLoc())
         return DL;

   return R->getEntry()->getTerminator()->getDebugLoc();
 }

 bool ReportUnprofitable::classof(const RejectReason *RR) {
   return RR->getKind() == rrkUnprofitable;
 }
 } // namespace polly
	//=== ScopDetectionDiagnostic.cpp - Error diagnostics --------- -- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// Small set of diagnostic helper classes to encapsulate any errors occurred
	// during the detection of Scops.
	//
	// The ScopDetection defines a set of error classes (via Statistic variables)
	// that groups a number of individual errors into a group, e.g. non-affinity
	// related errors.
	// On error we generate an object that carries enough additional information
	// to diagnose the error and generate a helpful error message.
	//
	//===----------------------------------------------------------------------===//
	#include "polly/ScopDetectionDiagnostic.h"
	#include "polly/Support/ScopLocation.h"
	#include "llvm/ADT/SmallVector.h"
	#include "llvm/ADT/Statistic.h"
	#include "llvm/Analysis/AliasSetTracker.h"
	#include "llvm/Analysis/LoopInfo.h"
	#include "llvm/Analysis/RegionInfo.h"
	#include "llvm/IR/BasicBlock.h"
	#include "llvm/IR/DebugInfo.h"
	#include "llvm/IR/DebugLoc.h"
	#include "llvm/IR/DiagnosticInfo.h"
	#include "llvm/IR/LLVMContext.h"
	#include "llvm/IR/Value.h"

	#define DEBUG_TYPE "polly-detect"
	#include "llvm/Support/Debug.h"

	#include <string>

	#define BADSCOP_STAT(NAME, DESC) \
	STATISTIC(Bad##NAME##ForScop, "Number of bad regions for Scop: " DESC)

	BADSCOP_STAT(CFG, "CFG too complex");
	BADSCOP_STAT(IndVar, "Non canonical induction variable in loop");
	BADSCOP_STAT(IndEdge, "Found invalid region entering edges");
	BADSCOP_STAT(LoopBound, "Loop bounds can not be computed");
	BADSCOP_STAT(FuncCall, "Function call with side effects appeared");
	BADSCOP_STAT(AffFunc, "Expression not affine");
	BADSCOP_STAT(Alias, "Found base address alias");
	BADSCOP_STAT(SimpleLoop, "Loop not in -loop-simplify form");
	BADSCOP_STAT(Other, "Others");

	namespace polly {
	/// @brief Small string conversion via raw_string_stream.
	template <typename T> std::string operator+(Twine LHS, const T &RHS) {
	std::string Buf;
	raw_string_ostream fmt(Buf);
	fmt << RHS;
	fmt.flush();

	return LHS.concat(Buf).str();
	}
	}

	namespace llvm {
	// @brief Lexicographic order on (line, col) of our debug locations.
	static bool operator<(const llvm::DebugLoc &LHS, const llvm::DebugLoc &RHS) {
	return LHS.getLine() < RHS.getLine() \|\|
	(LHS.getLine() == RHS.getLine() && LHS.getCol() < RHS.getCol());
	}
	}

	namespace polly {
	static void getDebugLocations(const Region *R, DebugLoc &Begin, DebugLoc &End) {
	for (const BasicBlock *BB : R->blocks())
	for (const Instruction &Inst : *BB) {
	DebugLoc DL = Inst.getDebugLoc();
	if (!DL)
	continue;

	Begin = Begin ? std::min(Begin, DL) : DL;
	End = End ? std::max(End, DL) : DL;
	}
	}

	void emitRejectionRemarks(const llvm::Function &F, const RejectLog &Log) {
	LLVMContext &Ctx = F.getContext();

	const Region *R = Log.region();
	DebugLoc Begin, End;

	getDebugLocations(R, Begin, End);

	emitOptimizationRemarkMissed(
	Ctx, DEBUG_TYPE, F, Begin,
	"The following errors keep this region from being a Scop.");

	for (RejectReasonPtr RR : Log) {
	if (const DebugLoc &Loc = RR->getDebugLoc())
	emitOptimizationRemarkMissed(Ctx, DEBUG_TYPE, F, Loc,
	RR->getEndUserMessage());
	}

	emitOptimizationRemarkMissed(Ctx, DEBUG_TYPE, F, End,
	"Invalid Scop candidate ends here.");
	}

	void emitValidRemarks(const llvm::Function &F, const Region *R) {
	LLVMContext &Ctx = F.getContext();

	DebugLoc Begin, End;
	getDebugLocations(R, Begin, End);

	emitOptimizationRemark(Ctx, DEBUG_TYPE, F, Begin,
	"A valid Scop begins here.");
	emitOptimizationRemark(Ctx, DEBUG_TYPE, F, End, "A valid Scop ends here.");
	}

	//===----------------------------------------------------------------------===//
	// RejectReason.
	const DebugLoc RejectReason::Unknown = DebugLoc();

	const llvm::DebugLoc &RejectReason::getDebugLoc() const {
	// Allocate an empty DebugLoc and return it a reference to it.
	return Unknown;
	}

	// RejectLog.
	void RejectLog::print(raw_ostream &OS, int level) const {
	int j = 0;
	for (auto Reason : ErrorReports)
	OS.indent(level) << "[" << j++ << "] " << Reason->getMessage() << "\n";
	}

	//===----------------------------------------------------------------------===//
	// ReportCFG.

	ReportCFG::ReportCFG(const RejectReasonKind K) : RejectReason(K) {
	++BadCFGForScop;
	}

	bool ReportCFG::classof(const RejectReason *RR) {
	return RR->getKind() >= rrkCFG && RR->getKind() <= rrkLastCFG;
	}

	//===----------------------------------------------------------------------===//
	// ReportNonBranchTerminator.

	std::string ReportNonBranchTerminator::getMessage() const {
	return ("Non branch instruction terminates BB: " + BB->getName()).str();
	}

	const DebugLoc &ReportNonBranchTerminator::getDebugLoc() const {
	return BB->getTerminator()->getDebugLoc();
	}

	bool ReportNonBranchTerminator::classof(const RejectReason *RR) {
	return RR->getKind() == rrkNonBranchTerminator;
	}

	//===----------------------------------------------------------------------===//
	// ReportCondition.

	std::string ReportCondition::getMessage() const {
	return ("Not well structured condition at BB: " + BB->getName()).str();
	}

	const DebugLoc &ReportCondition::getDebugLoc() const {
	return BB->getTerminator()->getDebugLoc();
	}

	bool ReportCondition::classof(const RejectReason *RR) {
	return RR->getKind() == rrkCondition;
	}

	//===----------------------------------------------------------------------===//
	// ReportAffFunc.

	ReportAffFunc::ReportAffFunc(const RejectReasonKind K, const Instruction *Inst)
	: RejectReason(K), Inst(Inst) {
	++BadAffFuncForScop;
	}

	bool ReportAffFunc::classof(const RejectReason *RR) {
	return RR->getKind() >= rrkAffFunc && RR->getKind() <= rrkLastAffFunc;
	}

	//===----------------------------------------------------------------------===//
	// ReportUndefCond.

	std::string ReportUndefCond::getMessage() const {
	return ("Condition based on 'undef' value in BB: " + BB->getName()).str();
	}

	bool ReportUndefCond::classof(const RejectReason *RR) {
	return RR->getKind() == rrkUndefCond;
	}

	//===----------------------------------------------------------------------===//
	// ReportInvalidCond.

	std::string ReportInvalidCond::getMessage() const {
	return ("Condition in BB '" + BB->getName()).str() +
	"' neither constant nor an icmp instruction";
	}

	bool ReportInvalidCond::classof(const RejectReason *RR) {
	return RR->getKind() == rrkInvalidCond;
	}

	//===----------------------------------------------------------------------===//
	// ReportUnsignedCond.

	std::string ReportUnsignedCond::getMessage() const {
	return ("Condition in BB '" + BB->getName()).str() +
	"' performs a comparision on (not yet supported) unsigned integers.";
	}

	std::string ReportUnsignedCond::getEndUserMessage() const {
	return "Unsupported comparision on unsigned integers encountered";
	}

	bool ReportUnsignedCond::classof(const RejectReason *RR) {
	return RR->getKind() == rrkUnsignedCond;
	}

	//===----------------------------------------------------------------------===//
	// ReportUndefOperand.

	std::string ReportUndefOperand::getMessage() const {
	return ("undef operand in branch at BB: " + BB->getName()).str();
	}

	bool ReportUndefOperand::classof(const RejectReason *RR) {
	return RR->getKind() == rrkUndefOperand;
	}

	//===----------------------------------------------------------------------===//
	// ReportNonAffBranch.

	std::string ReportNonAffBranch::getMessage() const {
	return ("Non affine branch in BB '" + BB->getName()).str() + "' with LHS: " +
	LHS + " and RHS: " + RHS;
	}

	bool ReportNonAffBranch::classof(const RejectReason *RR) {
	return RR->getKind() == rrkNonAffBranch;
	}

	//===----------------------------------------------------------------------===//
	// ReportNoBasePtr.

	std::string ReportNoBasePtr::getMessage() const { return "No base pointer"; }

	bool ReportNoBasePtr::classof(const RejectReason *RR) {
	return RR->getKind() == rrkNoBasePtr;
	}

	//===----------------------------------------------------------------------===//
	// ReportUndefBasePtr.

	std::string ReportUndefBasePtr::getMessage() const {
	return "Undefined base pointer";
	}

	bool ReportUndefBasePtr::classof(const RejectReason *RR) {
	return RR->getKind() == rrkUndefBasePtr;
	}

	//===----------------------------------------------------------------------===//
	// ReportVariantBasePtr.

	std::string ReportVariantBasePtr::getMessage() const {
	return "Base address not invariant in current region:" + *BaseValue;
	}

	std::string ReportVariantBasePtr::getEndUserMessage() const {
	return "The base address of this array is not invariant inside the loop";
	}

	bool ReportVariantBasePtr::classof(const RejectReason *RR) {
	return RR->getKind() == rrkVariantBasePtr;
	}

	//===----------------------------------------------------------------------===//
	// ReportDifferentArrayElementSize

	std::string ReportDifferentArrayElementSize::getMessage() const {
	return "Access to one array through data types of different size";
	}

	bool ReportDifferentArrayElementSize::classof(const RejectReason *RR) {
	return RR->getKind() == rrkDifferentElementSize;
	}

	std::string ReportDifferentArrayElementSize::getEndUserMessage() const {
	llvm::StringRef BaseName = BaseValue->getName();
	std::string Name = (BaseName.size() > 0) ? BaseName : "UNKNOWN";
	return "The array \"" + Name + "\" is accessed through elements that differ "
	"in size";
	}

	//===----------------------------------------------------------------------===//
	// ReportNonAffineAccess.

	std::string ReportNonAffineAccess::getMessage() const {
	return "Non affine access function: " + *AccessFunction;
	}

	bool ReportNonAffineAccess::classof(const RejectReason *RR) {
	return RR->getKind() == rrkNonAffineAccess;
	}

	std::string ReportNonAffineAccess::getEndUserMessage() const {
	llvm::StringRef BaseName = BaseValue->getName();
	std::string Name = (BaseName.size() > 0) ? BaseName : "UNKNOWN";
	return "The array subscript of \"" + Name + "\" is not affine";
	}

	//===----------------------------------------------------------------------===//
	// ReportIndVar.

	ReportIndVar::ReportIndVar(const RejectReasonKind K) : RejectReason(K) {
	++BadIndVarForScop;
	}

	//===----------------------------------------------------------------------===//
	// ReportPhiNodeRefInRegion.

	ReportPhiNodeRefInRegion::ReportPhiNodeRefInRegion(Instruction *Inst)
	: ReportIndVar(rrkPhiNodeRefInRegion), Inst(Inst) {}

	std::string ReportPhiNodeRefInRegion::getMessage() const {
	return "SCEV of PHI node refers to SSA names in region: " + *Inst;
	}

	const DebugLoc &ReportPhiNodeRefInRegion::getDebugLoc() const {
	return Inst->getDebugLoc();
	}

	bool ReportPhiNodeRefInRegion::classof(const RejectReason *RR) {
	return RR->getKind() == rrkPhiNodeRefInRegion;
	}

	//===----------------------------------------------------------------------===//
	// ReportIndEdge.

	ReportIndEdge::ReportIndEdge(BasicBlock *BB)
	: RejectReason(rrkIndEdge), BB(BB) {
	++BadIndEdgeForScop;
	}

	std::string ReportIndEdge::getMessage() const {
	return "Region has invalid entering edges!";
	}

	const DebugLoc &ReportIndEdge::getDebugLoc() const {
	return BB->getTerminator()->getDebugLoc();
	}

	bool ReportIndEdge::classof(const RejectReason *RR) {
	return RR->getKind() == rrkIndEdge;
	}

	//===----------------------------------------------------------------------===//
	// ReportLoopBound.

	ReportLoopBound::ReportLoopBound(Loop L, const SCEV LoopCount)
	: RejectReason(rrkLoopBound), L(L), LoopCount(LoopCount),
	Loc(L->getStartLoc()) {
	++BadLoopBoundForScop;
	}

	std::string ReportLoopBound::getMessage() const {
	return "Non affine loop bound '" + *LoopCount + "' in loop: " +
	L->getHeader()->getName();
	}

	const DebugLoc &ReportLoopBound::getDebugLoc() const { return Loc; }

	bool ReportLoopBound::classof(const RejectReason *RR) {
	return RR->getKind() == rrkLoopBound;
	}

	std::string ReportLoopBound::getEndUserMessage() const {
	return "Failed to derive an affine function from the loop bounds.";
	}

	//===----------------------------------------------------------------------===//
	// ReportFuncCall.

	ReportFuncCall::ReportFuncCall(Instruction *Inst)
	: RejectReason(rrkFuncCall), Inst(Inst) {
	++BadFuncCallForScop;
	}

	std::string ReportFuncCall::getMessage() const {
	return "Call instruction: " + *Inst;
	}

	const DebugLoc &ReportFuncCall::getDebugLoc() const {
	return Inst->getDebugLoc();
	}

	std::string ReportFuncCall::getEndUserMessage() const {
	return "This function call cannot be handled. "
	"Try to inline it.";
	}

	bool ReportFuncCall::classof(const RejectReason *RR) {
	return RR->getKind() == rrkFuncCall;
	}

	//===----------------------------------------------------------------------===//
	// ReportAlias.

	ReportAlias::ReportAlias(Instruction *Inst, AliasSet &AS)
	: RejectReason(rrkAlias), Inst(Inst) {

	for (const auto &I : AS)
	Pointers.push_back(I.getValue());

	++BadAliasForScop;
	}

	std::string ReportAlias::formatInvalidAlias(std::string Prefix,
	std::string Suffix) const {
	std::string Message;
	raw_string_ostream OS(Message);

	OS << Prefix;

	for (PointerSnapshotTy::const_iterator PI = Pointers.begin(),
	PE = Pointers.end();
	;) {
	const Value V = PI;
	assert(V && "Diagnostic info does not match found LLVM-IR anymore.");

	if (V->getName().size() == 0)
	OS << "\"" << *V << "\"";
	else
	OS << "\"" << V->getName() << "\"";

	++PI;

	if (PI != PE)
	OS << ", ";
	else
	break;
	}

	OS << Suffix;

	return OS.str();
	}

	std::string ReportAlias::getMessage() const {
	return formatInvalidAlias("Possible aliasing: ");
	}

	std::string ReportAlias::getEndUserMessage() const {
	return formatInvalidAlias("Accesses to the arrays ",
	" may access the same memory.");
	}

	const DebugLoc &ReportAlias::getDebugLoc() const { return Inst->getDebugLoc(); }

	bool ReportAlias::classof(const RejectReason *RR) {
	return RR->getKind() == rrkAlias;
	}

	//===----------------------------------------------------------------------===//
	// ReportSimpleLoop.

	ReportSimpleLoop::ReportSimpleLoop() : RejectReason(rrkSimpleLoop) {
	++BadSimpleLoopForScop;
	}

	std::string ReportSimpleLoop::getMessage() const {
	return "Loop not in simplify form is invalid!";
	}

	bool ReportSimpleLoop::classof(const RejectReason *RR) {
	return RR->getKind() == rrkSimpleLoop;
	}

	//===----------------------------------------------------------------------===//
	// ReportOther.

	std::string ReportOther::getMessage() const { return "Unknown reject reason"; }

	ReportOther::ReportOther(const RejectReasonKind K) : RejectReason(K) {
	++BadOtherForScop;
	}

	bool ReportOther::classof(const RejectReason *RR) {
	return RR->getKind() >= rrkOther && RR->getKind() <= rrkLastOther;
	}

	//===----------------------------------------------------------------------===//
	// ReportIntToPtr.
	ReportIntToPtr::ReportIntToPtr(Instruction *BaseValue)
	: ReportOther(rrkIntToPtr), BaseValue(BaseValue) {}

	std::string ReportIntToPtr::getMessage() const {
	return "Find bad intToptr prt: " + *BaseValue;
	}

	const DebugLoc &ReportIntToPtr::getDebugLoc() const {
	return BaseValue->getDebugLoc();
	}

	bool ReportIntToPtr::classof(const RejectReason *RR) {
	return RR->getKind() == rrkIntToPtr;
	}

	//===----------------------------------------------------------------------===//
	// ReportAlloca.

	ReportAlloca::ReportAlloca(Instruction *Inst)
	: ReportOther(rrkAlloca), Inst(Inst) {}

	std::string ReportAlloca::getMessage() const {
	return "Alloca instruction: " + *Inst;
	}

	const DebugLoc &ReportAlloca::getDebugLoc() const {
	return Inst->getDebugLoc();
	}

	bool ReportAlloca::classof(const RejectReason *RR) {
	return RR->getKind() == rrkAlloca;
	}

	//===----------------------------------------------------------------------===//
	// ReportUnknownInst.

	ReportUnknownInst::ReportUnknownInst(Instruction *Inst)
	: ReportOther(rrkUnknownInst), Inst(Inst) {}

	std::string ReportUnknownInst::getMessage() const {
	return "Unknown instruction: " + *Inst;
	}

	const DebugLoc &ReportUnknownInst::getDebugLoc() const {
	return Inst->getDebugLoc();
	}

	bool ReportUnknownInst::classof(const RejectReason *RR) {
	return RR->getKind() == rrkUnknownInst;
	}

	//===----------------------------------------------------------------------===//
	// ReportPHIinExit.

	ReportPHIinExit::ReportPHIinExit(Instruction *Inst)
	: ReportOther(rrkPHIinExit), Inst(Inst) {}

	std::string ReportPHIinExit::getMessage() const {
	return "PHI node in exit BB";
	}

	const DebugLoc &ReportPHIinExit::getDebugLoc() const {
	return Inst->getDebugLoc();
	}

	bool ReportPHIinExit::classof(const RejectReason *RR) {
	return RR->getKind() == rrkPHIinExit;
	}

	//===----------------------------------------------------------------------===//
	// ReportEntry.
	ReportEntry::ReportEntry(BasicBlock *BB) : ReportOther(rrkEntry), BB(BB) {}

	std::string ReportEntry::getMessage() const {
	return "Region containing entry block of function is invalid!";
	}

	const DebugLoc &ReportEntry::getDebugLoc() const {
	return BB->getTerminator()->getDebugLoc();
	}

	bool ReportEntry::classof(const RejectReason *RR) {
	return RR->getKind() == rrkEntry;
	}

	//===----------------------------------------------------------------------===//
	// ReportUnprofitable.
	ReportUnprofitable::ReportUnprofitable(Region *R)
	: ReportOther(rrkUnprofitable), R(R) {}

	std::string ReportUnprofitable::getMessage() const {
	return "Region can not profitably be optimized!";
	}

	std::string ReportUnprofitable::getEndUserMessage() const {
	return "No profitable polyhedral optimization found";
	}

	const DebugLoc &ReportUnprofitable::getDebugLoc() const {
	for (const BasicBlock *BB : R->blocks())
	for (const Instruction &Inst : *BB)
	if (const DebugLoc &DL = Inst.getDebugLoc())
	return DL;

	return R->getEntry()->getTerminator()->getDebugLoc();
	}

	bool ReportUnprofitable::classof(const RejectReason *RR) {
	return RR->getKind() == rrkUnprofitable;
	}
	} // namespace polly