/usr/include/llvm-3.3/llvm/Analysis/ProfileInfo.h is in llvm-3.3-dev 1:3.3-16ubuntu1.
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//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the generic ProfileInfo interface, which is used as the
// common interface used by all clients of profiling information, and
// implemented either by making static guestimations, or by actually reading in
// profiling information gathered by running the program.
//
// Note that to be useful, all profile-based optimizations should preserve
// ProfileInfo, which requires that they notify it when changes to the CFG are
// made. (This is not implemented yet.)
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_ANALYSIS_PROFILEINFO_H
#define LLVM_ANALYSIS_PROFILEINFO_H
#include "llvm/Support/Debug.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <map>
#include <set>
#include <string>
namespace llvm {
class Pass;
class raw_ostream;
class BasicBlock;
class Function;
class MachineBasicBlock;
class MachineFunction;
// Helper for dumping edges to dbgs().
raw_ostream& operator<<(raw_ostream &O, std::pair<const BasicBlock *, const BasicBlock *> E);
raw_ostream& operator<<(raw_ostream &O, std::pair<const MachineBasicBlock *, const MachineBasicBlock *> E);
raw_ostream& operator<<(raw_ostream &O, const BasicBlock *BB);
raw_ostream& operator<<(raw_ostream &O, const MachineBasicBlock *MBB);
raw_ostream& operator<<(raw_ostream &O, const Function *F);
raw_ostream& operator<<(raw_ostream &O, const MachineFunction *MF);
/// ProfileInfo Class - This class holds and maintains profiling
/// information for some unit of code.
template<class FType, class BType>
class ProfileInfoT {
public:
// Types for handling profiling information.
typedef std::pair<const BType*, const BType*> Edge;
typedef std::pair<Edge, double> EdgeWeight;
typedef std::map<Edge, double> EdgeWeights;
typedef std::map<const BType*, double> BlockCounts;
typedef std::map<const BType*, const BType*> Path;
protected:
// EdgeInformation - Count the number of times a transition between two
// blocks is executed. As a special case, we also hold an edge from the
// null BasicBlock to the entry block to indicate how many times the
// function was entered.
std::map<const FType*, EdgeWeights> EdgeInformation;
// BlockInformation - Count the number of times a block is executed.
std::map<const FType*, BlockCounts> BlockInformation;
// FunctionInformation - Count the number of times a function is executed.
std::map<const FType*, double> FunctionInformation;
ProfileInfoT<MachineFunction, MachineBasicBlock> *MachineProfile;
public:
static char ID; // Class identification, replacement for typeinfo
ProfileInfoT();
~ProfileInfoT(); // We want to be subclassed
// MissingValue - The value that is returned for execution counts in case
// no value is available.
static const double MissingValue;
// getFunction() - Returns the Function for an Edge, checking for validity.
static const FType* getFunction(Edge e) {
if (e.first)
return e.first->getParent();
if (e.second)
return e.second->getParent();
llvm_unreachable("Invalid ProfileInfo::Edge");
}
// getEdge() - Creates an Edge from two BasicBlocks.
static Edge getEdge(const BType *Src, const BType *Dest) {
return std::make_pair(Src, Dest);
}
//===------------------------------------------------------------------===//
/// Profile Information Queries
///
double getExecutionCount(const FType *F);
double getExecutionCount(const BType *BB);
void setExecutionCount(const BType *BB, double w);
void addExecutionCount(const BType *BB, double w);
double getEdgeWeight(Edge e) const {
typename std::map<const FType*, EdgeWeights>::const_iterator J =
EdgeInformation.find(getFunction(e));
if (J == EdgeInformation.end()) return MissingValue;
typename EdgeWeights::const_iterator I = J->second.find(e);
if (I == J->second.end()) return MissingValue;
return I->second;
}
void setEdgeWeight(Edge e, double w) {
DEBUG_WITH_TYPE("profile-info",
dbgs() << "Creating Edge " << e
<< " (weight: " << format("%.20g",w) << ")\n");
EdgeInformation[getFunction(e)][e] = w;
}
void addEdgeWeight(Edge e, double w);
EdgeWeights &getEdgeWeights (const FType *F) {
return EdgeInformation[F];
}
//===------------------------------------------------------------------===//
/// Analysis Update Methods
///
void removeBlock(const BType *BB);
void removeEdge(Edge e);
void replaceEdge(const Edge &, const Edge &);
enum GetPathMode {
GetPathToExit = 1,
GetPathToValue = 2,
GetPathToDest = 4,
GetPathWithNewEdges = 8
};
const BType *GetPath(const BType *Src, const BType *Dest,
Path &P, unsigned Mode);
void divertFlow(const Edge &, const Edge &);
void splitEdge(const BType *FirstBB, const BType *SecondBB,
const BType *NewBB, bool MergeIdenticalEdges = false);
void splitBlock(const BType *Old, const BType* New);
void splitBlock(const BType *BB, const BType* NewBB,
BType *const *Preds, unsigned NumPreds);
void replaceAllUses(const BType *RmBB, const BType *DestBB);
void transfer(const FType *Old, const FType *New);
void repair(const FType *F);
void dump(FType *F = 0, bool real = true) {
dbgs() << "**** This is ProfileInfo " << this << " speaking:\n";
if (!real) {
typename std::set<const FType*> Functions;
dbgs() << "Functions: \n";
if (F) {
dbgs() << F << "@" << format("%p", F) << ": " << format("%.20g",getExecutionCount(F)) << "\n";
Functions.insert(F);
} else {
for (typename std::map<const FType*, double>::iterator fi = FunctionInformation.begin(),
fe = FunctionInformation.end(); fi != fe; ++fi) {
dbgs() << fi->first << "@" << format("%p",fi->first) << ": " << format("%.20g",fi->second) << "\n";
Functions.insert(fi->first);
}
}
for (typename std::set<const FType*>::iterator FI = Functions.begin(), FE = Functions.end();
FI != FE; ++FI) {
const FType *F = *FI;
typename std::map<const FType*, BlockCounts>::iterator bwi = BlockInformation.find(F);
dbgs() << "BasicBlocks for Function " << F << ":\n";
for (typename BlockCounts::const_iterator bi = bwi->second.begin(), be = bwi->second.end(); bi != be; ++bi) {
dbgs() << bi->first << "@" << format("%p", bi->first) << ": " << format("%.20g",bi->second) << "\n";
}
}
for (typename std::set<const FType*>::iterator FI = Functions.begin(), FE = Functions.end();
FI != FE; ++FI) {
typename std::map<const FType*, EdgeWeights>::iterator ei = EdgeInformation.find(*FI);
dbgs() << "Edges for Function " << ei->first << ":\n";
for (typename EdgeWeights::iterator ewi = ei->second.begin(), ewe = ei->second.end();
ewi != ewe; ++ewi) {
dbgs() << ewi->first << ": " << format("%.20g",ewi->second) << "\n";
}
}
} else {
assert(F && "No function given, this is not supported!");
dbgs() << "Functions: \n";
dbgs() << F << "@" << format("%p", F) << ": " << format("%.20g",getExecutionCount(F)) << "\n";
dbgs() << "BasicBlocks for Function " << F << ":\n";
for (typename FType::const_iterator BI = F->begin(), BE = F->end();
BI != BE; ++BI) {
const BType *BB = &(*BI);
dbgs() << BB << "@" << format("%p", BB) << ": " << format("%.20g",getExecutionCount(BB)) << "\n";
}
}
dbgs() << "**** ProfileInfo " << this << ", over and out.\n";
}
bool CalculateMissingEdge(const BType *BB, Edge &removed, bool assumeEmptyExit = false);
bool EstimateMissingEdges(const BType *BB);
ProfileInfoT<MachineFunction, MachineBasicBlock> *MI() {
if (MachineProfile == 0)
MachineProfile = new ProfileInfoT<MachineFunction, MachineBasicBlock>();
return MachineProfile;
}
bool hasMI() const {
return (MachineProfile != 0);
}
};
typedef ProfileInfoT<Function, BasicBlock> ProfileInfo;
typedef ProfileInfoT<MachineFunction, MachineBasicBlock> MachineProfileInfo;
/// createProfileLoaderPass - This function returns a Pass that loads the
/// profiling information for the module from the specified filename, making
/// it available to the optimizers.
Pass *createProfileLoaderPass(const std::string &Filename);
} // End llvm namespace
#endif
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