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llvm-mirror/lib/Analysis/Writer.cpp
Chris Lattner ec1a192b16 *** empty log message ***
llvm-svn: 3105
2002-07-26 18:40:14 +00:00

164 lines
5.4 KiB
C++

//===-- Analysis/Writer.cpp - Printing routines for analyses -----*- C++ -*--=//
//
// This library file implements analysis result printing support for
// llvm/Analysis/Writer.h
//
//===----------------------------------------------------------------------===//
#include "llvm/Analysis/Writer.h"
#include "llvm/Analysis/IntervalPartition.h"
#include "llvm/Analysis/Dominators.h"
#include "llvm/Analysis/LoopInfo.h"
#include "llvm/Analysis/InductionVariable.h"
#include "llvm/Assembly/Writer.h"
#include "llvm/Module.h"
#include <iterator>
#include <algorithm>
#include <string>
#include <iostream>
using std::ostream;
using std::set;
using std::vector;
using std::string;
//===----------------------------------------------------------------------===//
// Interval Printing Routines
//===----------------------------------------------------------------------===//
void WriteToOutput(const Interval *I, ostream &o) {
o << "-------------------------------------------------------------\n"
<< "Interval Contents:\n";
// Print out all of the basic blocks in the interval...
copy(I->Nodes.begin(), I->Nodes.end(),
std::ostream_iterator<BasicBlock*>(o, "\n"));
o << "Interval Predecessors:\n";
copy(I->Predecessors.begin(), I->Predecessors.end(),
std::ostream_iterator<BasicBlock*>(o, "\n"));
o << "Interval Successors:\n";
copy(I->Successors.begin(), I->Successors.end(),
std::ostream_iterator<BasicBlock*>(o, "\n"));
}
void WriteToOutput(const IntervalPartition &IP, ostream &o) {
copy(IP.begin(), IP.end(), std::ostream_iterator<const Interval *>(o, "\n"));
}
//===----------------------------------------------------------------------===//
// Dominator Printing Routines
//===----------------------------------------------------------------------===//
ostream &operator<<(ostream &o, const set<BasicBlock*> &BBs) {
for (set<BasicBlock*>::const_iterator I = BBs.begin(), E = BBs.end();
I != E; ++I) {
o << " ";
WriteAsOperand(o, (Value*)*I, false);
o << "\n";
}
return o;
}
void WriteToOutput(const DominatorSetBase &DS, ostream &o) {
for (DominatorSetBase::const_iterator I = DS.begin(), E = DS.end();
I != E; ++I) {
o << "=============================--------------------------------\n"
<< "\nDominator Set For Basic Block\n" << I->first
<< "-------------------------------\n" << I->second << "\n";
}
}
void WriteToOutput(const ImmediateDominatorsBase &ID, ostream &o) {
for (ImmediateDominatorsBase::const_iterator I = ID.begin(), E = ID.end();
I != E; ++I) {
o << "=============================--------------------------------\n"
<< "\nImmediate Dominator For Basic Block\n" << *I->first
<< "is: \n" << *I->second << "\n";
}
}
static ostream &operator<<(ostream &o, const DominatorTreeBase::Node *Node) {
return o << Node->getNode() << "\n------------------------------------------\n";
}
static void PrintDomTree(const DominatorTreeBase::Node *N, ostream &o,
unsigned Lev) {
o << "Level #" << Lev << ": " << N;
for (DominatorTreeBase::Node::const_iterator I = N->begin(), E = N->end();
I != E; ++I) {
PrintDomTree(*I, o, Lev+1);
}
}
void WriteToOutput(const DominatorTreeBase &DT, ostream &o) {
o << "=============================--------------------------------\n"
<< "Inorder Dominator Tree:\n";
PrintDomTree(DT[DT.getRoot()], o, 1);
}
void WriteToOutput(const DominanceFrontierBase &DF, ostream &o) {
for (DominanceFrontierBase::const_iterator I = DF.begin(), E = DF.end();
I != E; ++I) {
o << "=============================--------------------------------\n"
<< "\nDominance Frontier For Basic Block\n";
WriteAsOperand(o, (Value*)I->first, false);
o << " is: \n" << I->second << "\n";
}
}
//===----------------------------------------------------------------------===//
// Loop Printing Routines
//===----------------------------------------------------------------------===//
void WriteToOutput(const Loop *L, ostream &o) {
o << string(L->getLoopDepth()*2, ' ') << "Loop Containing: ";
for (unsigned i = 0; i < L->getBlocks().size(); ++i) {
if (i) o << ",";
WriteAsOperand(o, (const Value*)L->getBlocks()[i]);
}
o << "\n";
copy(L->getSubLoops().begin(), L->getSubLoops().end(),
std::ostream_iterator<const Loop*>(o, "\n"));
}
void WriteToOutput(const LoopInfo &LI, ostream &o) {
copy(LI.getTopLevelLoops().begin(), LI.getTopLevelLoops().end(),
std::ostream_iterator<const Loop*>(o, "\n"));
}
//===----------------------------------------------------------------------===//
// Induction Variable Printing Routines
//===----------------------------------------------------------------------===//
void WriteToOutput(const InductionVariable &IV, ostream &o) {
switch (IV.InductionType) {
case InductionVariable::Cannonical: o << "Cannonical "; break;
case InductionVariable::SimpleLinear: o << "SimpleLinear "; break;
case InductionVariable::Linear: o << "Linear "; break;
case InductionVariable::Unknown: o << "Unrecognized "; break;
}
o << "Induction Variable";
if (IV.Phi) {
WriteAsOperand(o, (const Value*)IV.Phi);
o << ":\n" << (const Value*)IV.Phi;
} else {
o << "\n";
}
if (IV.InductionType == InductionVariable::Unknown) return;
o << " Start ="; WriteAsOperand(o, IV.Start);
o << " Step =" ; WriteAsOperand(o, IV.Step);
o << "\n";
}