llvm/lib/Analysis/ProfileInfo.cpp

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//===- ProfileInfo.cpp - Profile Info Interface ---------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements the abstract ProfileInfo interface, and the default
// "no profile" implementation.
//
//===----------------------------------------------------------------------===//
#include "llvm/Analysis/Passes.h"
#include "llvm/Analysis/ProfileInfo.h"
#include "llvm/Pass.h"
#include "llvm/Support/CFG.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/Support/Format.h"
#include <set>
using namespace llvm;
// Register the ProfileInfo interface, providing a nice name to refer to.
static RegisterAnalysisGroup<ProfileInfo> Z("Profile Information");
char ProfileInfo::ID = 0;
ProfileInfo::~ProfileInfo() {}
const double ProfileInfo::MissingValue = -1;
double ProfileInfo::getExecutionCount(const BasicBlock *BB) {
std::map<const Function*, BlockCounts>::iterator J =
BlockInformation.find(BB->getParent());
if (J != BlockInformation.end()) {
BlockCounts::iterator I = J->second.find(BB);
if (I != J->second.end())
return I->second;
}
pred_const_iterator PI = pred_begin(BB), PE = pred_end(BB);
// Are there zero predecessors of this block?
if (PI == PE) {
// If this is the entry block, look for the Null -> Entry edge.
if (BB == &BB->getParent()->getEntryBlock())
return getEdgeWeight(getEdge(0, BB));
else
return 0; // Otherwise, this is a dead block.
}
// Otherwise, if there are predecessors, the execution count of this block is
// the sum of the edge frequencies from the incoming edges.
std::set<const BasicBlock*> ProcessedPreds;
double Count = 0;
for (; PI != PE; ++PI)
if (ProcessedPreds.insert(*PI).second) {
double w = getEdgeWeight(getEdge(*PI, BB));
if (w == MissingValue) {
Count = MissingValue;
break;
}
Count += w;
}
if (Count != MissingValue) BlockInformation[BB->getParent()][BB] = Count;
return Count;
}
double ProfileInfo::getExecutionCount(const Function *F) {
std::map<const Function*, double>::iterator J =
FunctionInformation.find(F);
if (J != FunctionInformation.end())
return J->second;
// isDeclaration() is checked here and not at start of function to allow
// functions without a body still to have a execution count.
if (F->isDeclaration()) return MissingValue;
double Count = getExecutionCount(&F->getEntryBlock());
if (Count != MissingValue) FunctionInformation[F] = Count;
return Count;
}
/// Replaces all occurences of RmBB in the ProfilingInfo with DestBB.
/// This checks all edges of the function the blocks reside in and replaces the
/// occurences of RmBB with DestBB.
void ProfileInfo::replaceAllUses(const BasicBlock *RmBB,
const BasicBlock *DestBB) {
DEBUG(errs() << "Replacing " << RmBB->getNameStr()
<< " with " << DestBB->getNameStr() << "\n");
const Function *F = DestBB->getParent();
std::map<const Function*, EdgeWeights>::iterator J =
EdgeInformation.find(F);
if (J == EdgeInformation.end()) return;
for (EdgeWeights::iterator I = J->second.begin(), E = J->second.end();
I != E; ++I) {
Edge e = I->first;
Edge newedge; bool foundedge = false;
if (e.first == RmBB) {
newedge = getEdge(DestBB, e.second);
foundedge = true;
}
if (e.second == RmBB) {
newedge = getEdge(e.first, DestBB);
foundedge = true;
}
if (foundedge) {
double w = getEdgeWeight(e);
EdgeInformation[F][newedge] = w;
DEBUG(errs() << "Replacing " << e << " with " << newedge << "\n");
J->second.erase(e);
}
}
}
/// Splits an edge in the ProfileInfo and redirects flow over NewBB.
/// Since its possible that there is more than one edge in the CFG from FristBB
/// to SecondBB its necessary to redirect the flow proporionally.
void ProfileInfo::splitEdge(const BasicBlock *FirstBB,
const BasicBlock *SecondBB,
const BasicBlock *NewBB,
bool MergeIdenticalEdges) {
const Function *F = FirstBB->getParent();
std::map<const Function*, EdgeWeights>::iterator J =
EdgeInformation.find(F);
if (J == EdgeInformation.end()) return;
// Generate edges and read current weight.
Edge e = getEdge(FirstBB, SecondBB);
Edge n1 = getEdge(FirstBB, NewBB);
Edge n2 = getEdge(NewBB, SecondBB);
EdgeWeights &ECs = J->second;
double w = ECs[e];
int succ_count = 0;
if (!MergeIdenticalEdges) {
// First count the edges from FristBB to SecondBB, if there is more than
// one, only slice out a proporional part for NewBB.
for(succ_const_iterator BBI = succ_begin(FirstBB), BBE = succ_end(FirstBB);
BBI != BBE; ++BBI) {
if (*BBI == SecondBB) succ_count++;
}
// When the NewBB is completely new, increment the count by one so that
// the counts are properly distributed.
if (getExecutionCount(NewBB) == ProfileInfo::MissingValue) succ_count++;
} else {
// When the edges are merged anyway, then redirect all flow.
succ_count = 1;
}
// We know now how many edges there are from FirstBB to SecondBB, reroute a
// proportional part of the edge weight over NewBB.
double neww = w / succ_count;
ECs[n1] += neww;
ECs[n2] += neww;
BlockInformation[F][NewBB] += neww;
if (succ_count == 1) {
ECs.erase(e);
} else {
ECs[e] -= neww;
}
}
raw_ostream& llvm::operator<<(raw_ostream &O, ProfileInfo::Edge E) {
O << "(";
O << (E.first ? E.first->getNameStr() : "0");
O << ",";
O << (E.second ? E.second->getNameStr() : "0");
return O << ")";
}
//===----------------------------------------------------------------------===//
// NoProfile ProfileInfo implementation
//
namespace {
struct NoProfileInfo : public ImmutablePass, public ProfileInfo {
static char ID; // Class identification, replacement for typeinfo
NoProfileInfo() : ImmutablePass(&ID) {}
};
} // End of anonymous namespace
char NoProfileInfo::ID = 0;
// Register this pass...
static RegisterPass<NoProfileInfo>
X("no-profile", "No Profile Information", false, true);
// Declare that we implement the ProfileInfo interface
static RegisterAnalysisGroup<ProfileInfo, true> Y(X);
ImmutablePass *llvm::createNoProfileInfoPass() { return new NoProfileInfo(); }