llvm/lib/Analysis/PathNumbering.cpp
Chandler Carruth d04a8d4b33 Use the new script to sort the includes of every file under lib.
Sooooo many of these had incorrect or strange main module includes.
I have manually inspected all of these, and fixed the main module
include to be the nearest plausible thing I could find. If you own or
care about any of these source files, I encourage you to take some time
and check that these edits were sensible. I can't have broken anything
(I strictly added headers, and reordered them, never removed), but they
may not be the headers you'd really like to identify as containing the
API being implemented.

Many forward declarations and missing includes were added to a header
files to allow them to parse cleanly when included first. The main
module rule does in fact have its merits. =]

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@169131 91177308-0d34-0410-b5e6-96231b3b80d8
2012-12-03 16:50:05 +00:00

522 lines
16 KiB
C++

//===- PathNumbering.cpp --------------------------------------*- C++ -*---===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Ball-Larus path numbers uniquely identify paths through a directed acyclic
// graph (DAG) [Ball96]. For a CFG backedges are removed and replaced by phony
// edges to obtain a DAG, and thus the unique path numbers [Ball96].
//
// The purpose of this analysis is to enumerate the edges in a CFG in order
// to obtain paths from path numbers in a convenient manner. As described in
// [Ball96] edges can be enumerated such that given a path number by following
// the CFG and updating the path number, the path is obtained.
//
// [Ball96]
// T. Ball and J. R. Larus. "Efficient Path Profiling."
// International Symposium on Microarchitecture, pages 46-57, 1996.
// http://portal.acm.org/citation.cfm?id=243857
//
//===----------------------------------------------------------------------===//
#define DEBUG_TYPE "ball-larus-numbering"
#include "llvm/Analysis/PathNumbering.h"
#include "llvm/Constants.h"
#include "llvm/DerivedTypes.h"
#include "llvm/InstrTypes.h"
#include "llvm/Instructions.h"
#include "llvm/Module.h"
#include "llvm/Pass.h"
#include "llvm/Support/CFG.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/TypeBuilder.h"
#include <queue>
#include <sstream>
#include <stack>
#include <string>
#include <utility>
using namespace llvm;
// Are we enabling early termination
static cl::opt<bool> ProcessEarlyTermination(
"path-profile-early-termination", cl::Hidden,
cl::desc("In path profiling, insert extra instrumentation to account for "
"unexpected function termination."));
// Returns the basic block for the BallLarusNode
BasicBlock* BallLarusNode::getBlock() {
return(_basicBlock);
}
// Returns the number of paths to the exit starting at the node.
unsigned BallLarusNode::getNumberPaths() {
return(_numberPaths);
}
// Sets the number of paths to the exit starting at the node.
void BallLarusNode::setNumberPaths(unsigned numberPaths) {
_numberPaths = numberPaths;
}
// Gets the NodeColor used in graph algorithms.
BallLarusNode::NodeColor BallLarusNode::getColor() {
return(_color);
}
// Sets the NodeColor used in graph algorithms.
void BallLarusNode::setColor(BallLarusNode::NodeColor color) {
_color = color;
}
// Returns an iterator over predecessor edges. Includes phony and
// backedges.
BLEdgeIterator BallLarusNode::predBegin() {
return(_predEdges.begin());
}
// Returns the end sentinel for the predecessor iterator.
BLEdgeIterator BallLarusNode::predEnd() {
return(_predEdges.end());
}
// Returns the number of predecessor edges. Includes phony and
// backedges.
unsigned BallLarusNode::getNumberPredEdges() {
return(_predEdges.size());
}
// Returns an iterator over successor edges. Includes phony and
// backedges.
BLEdgeIterator BallLarusNode::succBegin() {
return(_succEdges.begin());
}
// Returns the end sentinel for the successor iterator.
BLEdgeIterator BallLarusNode::succEnd() {
return(_succEdges.end());
}
// Returns the number of successor edges. Includes phony and
// backedges.
unsigned BallLarusNode::getNumberSuccEdges() {
return(_succEdges.size());
}
// Add an edge to the predecessor list.
void BallLarusNode::addPredEdge(BallLarusEdge* edge) {
_predEdges.push_back(edge);
}
// Remove an edge from the predecessor list.
void BallLarusNode::removePredEdge(BallLarusEdge* edge) {
removeEdge(_predEdges, edge);
}
// Add an edge to the successor list.
void BallLarusNode::addSuccEdge(BallLarusEdge* edge) {
_succEdges.push_back(edge);
}
// Remove an edge from the successor list.
void BallLarusNode::removeSuccEdge(BallLarusEdge* edge) {
removeEdge(_succEdges, edge);
}
// Returns the name of the BasicBlock being represented. If BasicBlock
// is null then returns "<null>". If BasicBlock has no name, then
// "<unnamed>" is returned. Intended for use with debug output.
std::string BallLarusNode::getName() {
std::stringstream name;
if(getBlock() != NULL) {
if(getBlock()->hasName()) {
std::string tempName(getBlock()->getName());
name << tempName.c_str() << " (" << _uid << ")";
} else
name << "<unnamed> (" << _uid << ")";
} else
name << "<null> (" << _uid << ")";
return name.str();
}
// Removes an edge from an edgeVector. Used by removePredEdge and
// removeSuccEdge.
void BallLarusNode::removeEdge(BLEdgeVector& v, BallLarusEdge* e) {
// TODO: Avoid linear scan by using a set instead
for(BLEdgeIterator i = v.begin(),
end = v.end();
i != end;
++i) {
if((*i) == e) {
v.erase(i);
break;
}
}
}
// Returns the source node of this edge.
BallLarusNode* BallLarusEdge::getSource() const {
return(_source);
}
// Returns the target node of this edge.
BallLarusNode* BallLarusEdge::getTarget() const {
return(_target);
}
// Sets the type of the edge.
BallLarusEdge::EdgeType BallLarusEdge::getType() const {
return _edgeType;
}
// Gets the type of the edge.
void BallLarusEdge::setType(EdgeType type) {
_edgeType = type;
}
// Returns the weight of this edge. Used to decode path numbers to sequences
// of basic blocks.
unsigned BallLarusEdge::getWeight() {
return(_weight);
}
// Sets the weight of the edge. Used during path numbering.
void BallLarusEdge::setWeight(unsigned weight) {
_weight = weight;
}
// Gets the phony edge originating at the root.
BallLarusEdge* BallLarusEdge::getPhonyRoot() {
return _phonyRoot;
}
// Sets the phony edge originating at the root.
void BallLarusEdge::setPhonyRoot(BallLarusEdge* phonyRoot) {
_phonyRoot = phonyRoot;
}
// Gets the phony edge terminating at the exit.
BallLarusEdge* BallLarusEdge::getPhonyExit() {
return _phonyExit;
}
// Sets the phony edge terminating at the exit.
void BallLarusEdge::setPhonyExit(BallLarusEdge* phonyExit) {
_phonyExit = phonyExit;
}
// Gets the associated real edge if this is a phony edge.
BallLarusEdge* BallLarusEdge::getRealEdge() {
return _realEdge;
}
// Sets the associated real edge if this is a phony edge.
void BallLarusEdge::setRealEdge(BallLarusEdge* realEdge) {
_realEdge = realEdge;
}
// Returns the duplicate number of the edge.
unsigned BallLarusEdge::getDuplicateNumber() {
return(_duplicateNumber);
}
// Initialization that requires virtual functions which are not fully
// functional in the constructor.
void BallLarusDag::init() {
BLBlockNodeMap inDag;
std::stack<BallLarusNode*> dfsStack;
_root = addNode(&(_function.getEntryBlock()));
_exit = addNode(NULL);
// start search from root
dfsStack.push(getRoot());
// dfs to add each bb into the dag
while(dfsStack.size())
buildNode(inDag, dfsStack);
// put in the final edge
addEdge(getExit(),getRoot(),0);
}
// Frees all memory associated with the DAG.
BallLarusDag::~BallLarusDag() {
for(BLEdgeIterator edge = _edges.begin(), end = _edges.end(); edge != end;
++edge)
delete (*edge);
for(BLNodeIterator node = _nodes.begin(), end = _nodes.end(); node != end;
++node)
delete (*node);
}
// Calculate the path numbers by assigning edge increments as prescribed
// in Ball-Larus path profiling.
void BallLarusDag::calculatePathNumbers() {
BallLarusNode* node;
std::queue<BallLarusNode*> bfsQueue;
bfsQueue.push(getExit());
while(bfsQueue.size() > 0) {
node = bfsQueue.front();
DEBUG(dbgs() << "calculatePathNumbers on " << node->getName() << "\n");
bfsQueue.pop();
unsigned prevPathNumber = node->getNumberPaths();
calculatePathNumbersFrom(node);
// Check for DAG splitting
if( node->getNumberPaths() > 100000000 && node != getRoot() ) {
// Add new phony edge from the split-node to the DAG's exit
BallLarusEdge* exitEdge = addEdge(node, getExit(), 0);
exitEdge->setType(BallLarusEdge::SPLITEDGE_PHONY);
// Counters to handle the possibility of a multi-graph
BasicBlock* oldTarget = 0;
unsigned duplicateNumber = 0;
// Iterate through each successor edge, adding phony edges
for( BLEdgeIterator succ = node->succBegin(), end = node->succEnd();
succ != end; oldTarget = (*succ)->getTarget()->getBlock(), succ++ ) {
if( (*succ)->getType() == BallLarusEdge::NORMAL ) {
// is this edge a duplicate?
if( oldTarget != (*succ)->getTarget()->getBlock() )
duplicateNumber = 0;
// create the new phony edge: root -> succ
BallLarusEdge* rootEdge =
addEdge(getRoot(), (*succ)->getTarget(), duplicateNumber++);
rootEdge->setType(BallLarusEdge::SPLITEDGE_PHONY);
rootEdge->setRealEdge(*succ);
// split on this edge and reference it's exit/root phony edges
(*succ)->setType(BallLarusEdge::SPLITEDGE);
(*succ)->setPhonyRoot(rootEdge);
(*succ)->setPhonyExit(exitEdge);
(*succ)->setWeight(0);
}
}
calculatePathNumbersFrom(node);
}
DEBUG(dbgs() << "prev, new number paths " << prevPathNumber << ", "
<< node->getNumberPaths() << ".\n");
if(prevPathNumber == 0 && node->getNumberPaths() != 0) {
DEBUG(dbgs() << "node ready : " << node->getName() << "\n");
for(BLEdgeIterator pred = node->predBegin(), end = node->predEnd();
pred != end; pred++) {
if( (*pred)->getType() == BallLarusEdge::BACKEDGE ||
(*pred)->getType() == BallLarusEdge::SPLITEDGE )
continue;
BallLarusNode* nextNode = (*pred)->getSource();
// not yet visited?
if(nextNode->getNumberPaths() == 0)
bfsQueue.push(nextNode);
}
}
}
DEBUG(dbgs() << "\tNumber of paths: " << getRoot()->getNumberPaths() << "\n");
}
// Returns the number of paths for the Dag.
unsigned BallLarusDag::getNumberOfPaths() {
return(getRoot()->getNumberPaths());
}
// Returns the root (i.e. entry) node for the DAG.
BallLarusNode* BallLarusDag::getRoot() {
return _root;
}
// Returns the exit node for the DAG.
BallLarusNode* BallLarusDag::getExit() {
return _exit;
}
// Returns the function for the DAG.
Function& BallLarusDag::getFunction() {
return(_function);
}
// Clears the node colors.
void BallLarusDag::clearColors(BallLarusNode::NodeColor color) {
for (BLNodeIterator nodeIt = _nodes.begin(); nodeIt != _nodes.end(); nodeIt++)
(*nodeIt)->setColor(color);
}
// Processes one node and its imediate edges for building the DAG.
void BallLarusDag::buildNode(BLBlockNodeMap& inDag, BLNodeStack& dfsStack) {
BallLarusNode* currentNode = dfsStack.top();
BasicBlock* currentBlock = currentNode->getBlock();
if(currentNode->getColor() != BallLarusNode::WHITE) {
// we have already visited this node
dfsStack.pop();
currentNode->setColor(BallLarusNode::BLACK);
} else {
// are there any external procedure calls?
if( ProcessEarlyTermination ) {
for( BasicBlock::iterator bbCurrent = currentNode->getBlock()->begin(),
bbEnd = currentNode->getBlock()->end(); bbCurrent != bbEnd;
bbCurrent++ ) {
Instruction& instr = *bbCurrent;
if( instr.getOpcode() == Instruction::Call ) {
BallLarusEdge* callEdge = addEdge(currentNode, getExit(), 0);
callEdge->setType(BallLarusEdge::CALLEDGE_PHONY);
break;
}
}
}
TerminatorInst* terminator = currentNode->getBlock()->getTerminator();
if(isa<ReturnInst>(terminator) || isa<UnreachableInst>(terminator) ||
isa<ResumeInst>(terminator))
addEdge(currentNode, getExit(),0);
currentNode->setColor(BallLarusNode::GRAY);
inDag[currentBlock] = currentNode;
BasicBlock* oldSuccessor = 0;
unsigned duplicateNumber = 0;
// iterate through this node's successors
for(succ_iterator successor = succ_begin(currentBlock),
succEnd = succ_end(currentBlock); successor != succEnd;
oldSuccessor = *successor, ++successor ) {
BasicBlock* succBB = *successor;
// is this edge a duplicate?
if (oldSuccessor == succBB)
duplicateNumber++;
else
duplicateNumber = 0;
buildEdge(inDag, dfsStack, currentNode, succBB, duplicateNumber);
}
}
}
// Process an edge in the CFG for DAG building.
void BallLarusDag::buildEdge(BLBlockNodeMap& inDag, std::stack<BallLarusNode*>&
dfsStack, BallLarusNode* currentNode,
BasicBlock* succBB, unsigned duplicateCount) {
BallLarusNode* succNode = inDag[succBB];
if(succNode && succNode->getColor() == BallLarusNode::BLACK) {
// visited node and forward edge
addEdge(currentNode, succNode, duplicateCount);
} else if(succNode && succNode->getColor() == BallLarusNode::GRAY) {
// visited node and back edge
DEBUG(dbgs() << "Backedge detected.\n");
addBackedge(currentNode, succNode, duplicateCount);
} else {
BallLarusNode* childNode;
// not visited node and forward edge
if(succNode) // an unvisited node that is child of a gray node
childNode = succNode;
else { // an unvisited node that is a child of a an unvisted node
childNode = addNode(succBB);
inDag[succBB] = childNode;
}
addEdge(currentNode, childNode, duplicateCount);
dfsStack.push(childNode);
}
}
// The weight on each edge is the increment required along any path that
// contains that edge.
void BallLarusDag::calculatePathNumbersFrom(BallLarusNode* node) {
if(node == getExit())
// The Exit node must be base case
node->setNumberPaths(1);
else {
unsigned sumPaths = 0;
BallLarusNode* succNode;
for(BLEdgeIterator succ = node->succBegin(), end = node->succEnd();
succ != end; succ++) {
if( (*succ)->getType() == BallLarusEdge::BACKEDGE ||
(*succ)->getType() == BallLarusEdge::SPLITEDGE )
continue;
(*succ)->setWeight(sumPaths);
succNode = (*succ)->getTarget();
if( !succNode->getNumberPaths() )
return;
sumPaths += succNode->getNumberPaths();
}
node->setNumberPaths(sumPaths);
}
}
// Allows subclasses to determine which type of Node is created.
// Override this method to produce subclasses of BallLarusNode if
// necessary. The destructor of BallLarusDag will call free on each
// pointer created.
BallLarusNode* BallLarusDag::createNode(BasicBlock* BB) {
return( new BallLarusNode(BB) );
}
// Allows subclasses to determine which type of Edge is created.
// Override this method to produce subclasses of BallLarusEdge if
// necessary. The destructor of BallLarusDag will call free on each
// pointer created.
BallLarusEdge* BallLarusDag::createEdge(BallLarusNode* source,
BallLarusNode* target,
unsigned duplicateCount) {
return( new BallLarusEdge(source, target, duplicateCount) );
}
// Proxy to node's constructor. Updates the DAG state.
BallLarusNode* BallLarusDag::addNode(BasicBlock* BB) {
BallLarusNode* newNode = createNode(BB);
_nodes.push_back(newNode);
return( newNode );
}
// Proxy to edge's constructor. Updates the DAG state.
BallLarusEdge* BallLarusDag::addEdge(BallLarusNode* source,
BallLarusNode* target,
unsigned duplicateCount) {
BallLarusEdge* newEdge = createEdge(source, target, duplicateCount);
_edges.push_back(newEdge);
source->addSuccEdge(newEdge);
target->addPredEdge(newEdge);
return(newEdge);
}
// Adds a backedge with its phony edges. Updates the DAG state.
void BallLarusDag::addBackedge(BallLarusNode* source, BallLarusNode* target,
unsigned duplicateCount) {
BallLarusEdge* childEdge = addEdge(source, target, duplicateCount);
childEdge->setType(BallLarusEdge::BACKEDGE);
childEdge->setPhonyRoot(addEdge(getRoot(), target,0));
childEdge->setPhonyExit(addEdge(source, getExit(),0));
childEdge->getPhonyRoot()->setRealEdge(childEdge);
childEdge->getPhonyRoot()->setType(BallLarusEdge::BACKEDGE_PHONY);
childEdge->getPhonyExit()->setRealEdge(childEdge);
childEdge->getPhonyExit()->setType(BallLarusEdge::BACKEDGE_PHONY);
_backEdges.push_back(childEdge);
}