lib/CodeGen/RegAlloc/InterferenceGraph.cpp - fp2-dev/platform/external/llvm - Gitiles

 //===-- InterferenceGraph.cpp ---------------------------------------------===//
 //
 //  Interference graph for coloring-based register allocation for LLVM.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/CodeGen/InterferenceGraph.h"
 #include "llvm/CodeGen/RegAllocCommon.h"
 #include "Support/STLExtras.h"
 #include <algorithm>
 using std::cerr;

 //-----------------------------------------------------------------------------
 // Constructor: Records the RegClass and initalizes IGNodeList.
 // The matrix is NOT yet created by the constructor. Call createGraph()
 // to create it after adding all IGNodes to the IGNodeList.
 //-----------------------------------------------------------------------------
 InterferenceGraph::InterferenceGraph(RegClass *const RC) : RegCl(RC),
 							   IGNodeList()
 {
   IG = NULL;
   Size = 0;
   if( DEBUG_RA >= RA_DEBUG_Interference) {
     cerr << "Interference graph created!\n";
   }
 }


 //-----------------------------------------------------------------------------
 // destructor. Deletes the bit matrix and all IGNodes
 //-----------------------------------------------------------------------------
 InterferenceGraph:: ~InterferenceGraph() {

   // delete the matrix
   for(unsigned int r=0; r < IGNodeList.size(); ++r)
     delete[] IG[r];
   delete[] IG;

   // delete all IGNodes in the IGNodeList
   for_each(IGNodeList.begin(), IGNodeList.end(), deleter<IGNode>);
 }


 //-----------------------------------------------------------------------------
 // Creates (dynamically allocates) the bit matrix necessary to hold the
 // interference graph.
 //-----------------------------------------------------------------------------
 void InterferenceGraph::createGraph()
 {
     Size = IGNodeList.size();
     IG = new char*[Size];
     for( unsigned int r=0; r < Size; ++r)
       IG[r] = new char[Size];

     // init IG matrix
     for(unsigned int i=0; i < Size; i++)
       for(unsigned int j=0; j < Size; j++)
 	IG[i][j] = 0;
 }

 //-----------------------------------------------------------------------------
 // creates a new IGNode for the given live range and add to IG
 //-----------------------------------------------------------------------------
 void InterferenceGraph::addLRToIG(LiveRange *const LR)
 {
   IGNodeList.push_back(new IGNode(LR, IGNodeList.size()));
 }


 //-----------------------------------------------------------------------------
 // set interference for two live ranges
 // update both the matrix and AdjLists of nodes.
 // If there is already an interference between LR1 and LR2, adj lists
 // are not updated. LR1 and LR2 must be distinct since if not, it suggests
 // that there is some wrong logic in some other method.
 //-----------------------------------------------------------------------------
 void InterferenceGraph::setInterference(const LiveRange *const LR1,
 					const LiveRange *const LR2 ) {
   assert(LR1 != LR2);

   IGNode *const IGNode1 = LR1->getUserIGNode();
   IGNode *const IGNode2 = LR2->getUserIGNode();

   assertIGNode( IGNode1 );
   assertIGNode( IGNode2 );

   const unsigned int row = IGNode1->getIndex();
   const unsigned int col = IGNode2->getIndex();

   char *val;

   if( DEBUG_RA >= RA_DEBUG_Interference > 1)
     cerr << "setting intf for: [" << row << "][" <<  col << "]\n";

   ( row > col) ?  val = &IG[row][col]: val = &IG[col][row];

   if( ! (*val) ) {                      // if this interf is not previously set
     *val = 1;                           // add edges between nodes
     IGNode1->addAdjIGNode( IGNode2 );
     IGNode2->addAdjIGNode( IGNode1 );
   }

 }


 //----------------------------------------------------------------------------
 // return whether two live ranges interfere
 //----------------------------------------------------------------------------
 unsigned InterferenceGraph::getInterference(const LiveRange *const LR1,
 					   const LiveRange *const LR2 ) const {

   assert(LR1 != LR2);
   assertIGNode( LR1->getUserIGNode() );
   assertIGNode( LR2->getUserIGNode() );

   const unsigned int row = LR1->getUserIGNode()->getIndex();
   const unsigned int col = LR2->getUserIGNode()->getIndex();

   char ret;
   if (row > col)
     ret = IG[row][col];
   else
     ret = IG[col][row];
   return ret;

 }


 //----------------------------------------------------------------------------
 // Merge 2 IGNodes. The neighbors of the SrcNode will be added to the DestNode.
 // Then the IGNode2L  will be deleted. Necessary for coalescing.
 // IMPORTANT: The live ranges are NOT merged by this method. Use
 //            LiveRangeInfo::unionAndUpdateLRs for that purpose.
 //----------------------------------------------------------------------------

 void InterferenceGraph::mergeIGNodesOfLRs(const LiveRange *LR1,
 					  LiveRange *LR2) {

   assert( LR1 != LR2);                  // cannot merge the same live range

   IGNode *const DestNode = LR1->getUserIGNode();
   IGNode *SrcNode = LR2->getUserIGNode();

   assertIGNode( DestNode );
   assertIGNode( SrcNode );

   if( DEBUG_RA >= RA_DEBUG_Interference > 1) {
     cerr << "Merging LRs: \""; printSet(*LR1);
     cerr << "\" and \""; printSet(*LR2);
     cerr << "\"\n";
   }

   unsigned SrcDegree = SrcNode->getNumOfNeighbors();
   const unsigned SrcInd = SrcNode->getIndex();


   // for all neighs of SrcNode
   for(unsigned i=0; i < SrcDegree; i++) {
     IGNode *NeighNode = SrcNode->getAdjIGNode(i);

     LiveRange *const LROfNeigh = NeighNode->getParentLR();

     // delete edge between src and neigh - even neigh == dest
     NeighNode->delAdjIGNode(SrcNode);

     // set the matrix posn to 0 betn src and neigh - even neigh == dest
     const unsigned NInd = NeighNode->getIndex();
     ( SrcInd > NInd) ?  (IG[SrcInd][NInd]=0) : (IG[NInd][SrcInd]=0) ;


     if( LR1 != LROfNeigh) {             // if the neigh != dest

       // add edge betwn Dest and Neigh - if there is no current edge
       setInterference(LR1, LROfNeigh );
     }

   }

   IGNodeList[ SrcInd ] = NULL;

   // SrcNode is no longer necessary - LR2 must be deleted by the caller
   delete( SrcNode );

 }


 //----------------------------------------------------------------------------
 // must be called after modifications to the graph are over but before
 // pushing IGNodes on to the stack for coloring.
 //----------------------------------------------------------------------------
 void InterferenceGraph::setCurDegreeOfIGNodes()
 {
   unsigned Size = IGNodeList.size();

   for( unsigned i=0; i < Size; i++) {
     IGNode *Node = IGNodeList[i];
     if( Node )
       Node->setCurDegree();
   }
 }


 //--------------------- debugging (Printing) methods -----------------------

 //----------------------------------------------------------------------------
 // Print the IGnodes
 //----------------------------------------------------------------------------
 void InterferenceGraph::printIG() const
 {

   for(unsigned int i=0; i < Size; i++) {

     const IGNode *const Node = IGNodeList[i];
     if(Node) {
       cerr << " [" << i << "] ";

       for( unsigned int j=0; j < i; j++) {
 	if(IG[i][j])
           cerr << "(" << i << "," << j << ") ";
       }
       cerr << "\n";
     }
   }
 }

 //----------------------------------------------------------------------------
 // Print the IGnodes in the IGNode List
 //----------------------------------------------------------------------------
 void InterferenceGraph::printIGNodeList() const
 {
   for(unsigned i=0; i < IGNodeList.size() ; ++i) {
     const IGNode *const Node = IGNodeList[i];

     if (Node) {
       cerr << " [" << Node->getIndex() << "] ";
       printSet(*Node->getParentLR());
       //int Deg = Node->getCurDegree();
       cerr << "\t <# of Neighs: " << Node->getNumOfNeighbors() << ">\n";
     }
   }
 }
	//===-- InterferenceGraph.cpp ---------------------------------------------===//
	//
	// Interference graph for coloring-based register allocation for LLVM.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/CodeGen/InterferenceGraph.h"
	#include "llvm/CodeGen/RegAllocCommon.h"
	#include "Support/STLExtras.h"
	#include <algorithm>
	using std::cerr;

	//-----------------------------------------------------------------------------
	// Constructor: Records the RegClass and initalizes IGNodeList.
	// The matrix is NOT yet created by the constructor. Call createGraph()
	// to create it after adding all IGNodes to the IGNodeList.
	//-----------------------------------------------------------------------------
	InterferenceGraph::InterferenceGraph(RegClass *const RC) : RegCl(RC),
	IGNodeList()
	{
	IG = NULL;
	Size = 0;
	if( DEBUG_RA >= RA_DEBUG_Interference) {
	cerr << "Interference graph created!\n";
	}
	}


	//-----------------------------------------------------------------------------
	// destructor. Deletes the bit matrix and all IGNodes
	//-----------------------------------------------------------------------------
	InterferenceGraph:: ~InterferenceGraph() {

	// delete the matrix
	for(unsigned int r=0; r < IGNodeList.size(); ++r)
	delete[] IG[r];
	delete[] IG;

	// delete all IGNodes in the IGNodeList
	for_each(IGNodeList.begin(), IGNodeList.end(), deleter<IGNode>);
	}



	//-----------------------------------------------------------------------------
	// Creates (dynamically allocates) the bit matrix necessary to hold the
	// interference graph.
	//-----------------------------------------------------------------------------
	void InterferenceGraph::createGraph()
	{
	Size = IGNodeList.size();
	IG = new char*[Size];
	for( unsigned int r=0; r < Size; ++r)
	IG[r] = new char[Size];

	// init IG matrix
	for(unsigned int i=0; i < Size; i++)
	for(unsigned int j=0; j < Size; j++)
	IG[i][j] = 0;
	}

	//-----------------------------------------------------------------------------
	// creates a new IGNode for the given live range and add to IG
	//-----------------------------------------------------------------------------
	void InterferenceGraph::addLRToIG(LiveRange *const LR)
	{
	IGNodeList.push_back(new IGNode(LR, IGNodeList.size()));
	}


	//-----------------------------------------------------------------------------
	// set interference for two live ranges
	// update both the matrix and AdjLists of nodes.
	// If there is already an interference between LR1 and LR2, adj lists
	// are not updated. LR1 and LR2 must be distinct since if not, it suggests
	// that there is some wrong logic in some other method.
	//-----------------------------------------------------------------------------
	void InterferenceGraph::setInterference(const LiveRange *const LR1,
	const LiveRange *const LR2 ) {
	assert(LR1 != LR2);

	IGNode *const IGNode1 = LR1->getUserIGNode();
	IGNode *const IGNode2 = LR2->getUserIGNode();

	assertIGNode( IGNode1 );
	assertIGNode( IGNode2 );

	const unsigned int row = IGNode1->getIndex();
	const unsigned int col = IGNode2->getIndex();

	char *val;

	if( DEBUG_RA >= RA_DEBUG_Interference > 1)
	cerr << "setting intf for: [" << row << "][" << col << "]\n";

	( row > col) ? val = &IG[row][col]: val = &IG[col][row];

	if( ! (*val) ) { // if this interf is not previously set
	*val = 1; // add edges between nodes
	IGNode1->addAdjIGNode( IGNode2 );
	IGNode2->addAdjIGNode( IGNode1 );
	}

	}


	//----------------------------------------------------------------------------
	// return whether two live ranges interfere
	//----------------------------------------------------------------------------
	unsigned InterferenceGraph::getInterference(const LiveRange *const LR1,
	const LiveRange *const LR2 ) const {

	assert(LR1 != LR2);
	assertIGNode( LR1->getUserIGNode() );
	assertIGNode( LR2->getUserIGNode() );

	const unsigned int row = LR1->getUserIGNode()->getIndex();
	const unsigned int col = LR2->getUserIGNode()->getIndex();

	char ret;
	if (row > col)
	ret = IG[row][col];
	else
	ret = IG[col][row];
	return ret;

	}


	//----------------------------------------------------------------------------
	// Merge 2 IGNodes. The neighbors of the SrcNode will be added to the DestNode.
	// Then the IGNode2L will be deleted. Necessary for coalescing.
	// IMPORTANT: The live ranges are NOT merged by this method. Use
	// LiveRangeInfo::unionAndUpdateLRs for that purpose.
	//----------------------------------------------------------------------------

	void InterferenceGraph::mergeIGNodesOfLRs(const LiveRange *LR1,
	LiveRange *LR2) {

	assert( LR1 != LR2); // cannot merge the same live range

	IGNode *const DestNode = LR1->getUserIGNode();
	IGNode *SrcNode = LR2->getUserIGNode();

	assertIGNode( DestNode );
	assertIGNode( SrcNode );

	if( DEBUG_RA >= RA_DEBUG_Interference > 1) {
	cerr << "Merging LRs: \""; printSet(*LR1);
	cerr << "\" and \""; printSet(*LR2);
	cerr << "\"\n";
	}

	unsigned SrcDegree = SrcNode->getNumOfNeighbors();
	const unsigned SrcInd = SrcNode->getIndex();


	// for all neighs of SrcNode
	for(unsigned i=0; i < SrcDegree; i++) {
	IGNode *NeighNode = SrcNode->getAdjIGNode(i);

	LiveRange *const LROfNeigh = NeighNode->getParentLR();

	// delete edge between src and neigh - even neigh == dest
	NeighNode->delAdjIGNode(SrcNode);

	// set the matrix posn to 0 betn src and neigh - even neigh == dest
	const unsigned NInd = NeighNode->getIndex();
	( SrcInd > NInd) ? (IG[SrcInd][NInd]=0) : (IG[NInd][SrcInd]=0) ;


	if( LR1 != LROfNeigh) { // if the neigh != dest

	// add edge betwn Dest and Neigh - if there is no current edge
	setInterference(LR1, LROfNeigh );
	}

	}

	IGNodeList[ SrcInd ] = NULL;

	// SrcNode is no longer necessary - LR2 must be deleted by the caller
	delete( SrcNode );

	}


	//----------------------------------------------------------------------------
	// must be called after modifications to the graph are over but before
	// pushing IGNodes on to the stack for coloring.
	//----------------------------------------------------------------------------
	void InterferenceGraph::setCurDegreeOfIGNodes()
	{
	unsigned Size = IGNodeList.size();

	for( unsigned i=0; i < Size; i++) {
	IGNode *Node = IGNodeList[i];
	if( Node )
	Node->setCurDegree();
	}
	}





	//--------------------- debugging (Printing) methods -----------------------

	//----------------------------------------------------------------------------
	// Print the IGnodes
	//----------------------------------------------------------------------------
	void InterferenceGraph::printIG() const
	{

	for(unsigned int i=0; i < Size; i++) {

	const IGNode *const Node = IGNodeList[i];
	if(Node) {
	cerr << " [" << i << "] ";

	for( unsigned int j=0; j < i; j++) {
	if(IG[i][j])
	cerr << "(" << i << "," << j << ") ";
	}
	cerr << "\n";
	}
	}
	}

	//----------------------------------------------------------------------------
	// Print the IGnodes in the IGNode List
	//----------------------------------------------------------------------------
	void InterferenceGraph::printIGNodeList() const
	{
	for(unsigned i=0; i < IGNodeList.size() ; ++i) {
	const IGNode *const Node = IGNodeList[i];

	if (Node) {
	cerr << " [" << Node->getIndex() << "] ";
	printSet(*Node->getParentLR());
	//int Deg = Node->getCurDegree();
	cerr << "\t <# of Neighs: " << Node->getNumOfNeighbors() << ">\n";
	}
	}
	}