//===-- InterferenceGraph.cpp ---------------------------------------------===// // // Interference graph for coloring-based register allocation for LLVM. // //===----------------------------------------------------------------------===// #include "RegAllocCommon.h" #include "InterferenceGraph.h" #include "IGNode.h" #include "Support/STLExtras.h" #include using std::cerr; // for asserting this IG node is infact in the IGNodeList of this class inline static void assertIGNode(const InterferenceGraph *IG, const IGNode *Node) { assert(IG->getIGNodeList()[Node->getIndex()] == Node); } //----------------------------------------------------------------------------- // 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) { IG = NULL; Size = 0; if( DEBUG_RA >= RA_DEBUG_Interference) std::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); } //----------------------------------------------------------------------------- // 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 *IGNode1 = LR1->getUserIGNode(); IGNode *IGNode2 = LR2->getUserIGNode(); assertIGNode(this, IGNode1); assertIGNode(this, IGNode2); unsigned row = IGNode1->getIndex(); unsigned col = IGNode2->getIndex(); char *val; if( DEBUG_RA >= RA_DEBUG_Interference) std::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(this, LR1->getUserIGNode()); assertIGNode(this, 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(this, DestNode); assertIGNode(this, SrcNode); if( DEBUG_RA >= RA_DEBUG_Interference) { std::cerr << "Merging LRs: \""; printSet(*LR1); std::cerr << "\" and \""; printSet(*LR2); std::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 i=0; i < Size; i++) { const IGNode *const Node = IGNodeList[i]; if(Node) { std::cerr << " [" << i << "] "; for( unsigned int j=0; j < Size; j++) if(IG[i][j]) std::cerr << "(" << i << "," << j << ") "; std::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) { std::cerr << " [" << Node->getIndex() << "] "; printSet(*Node->getParentLR()); //int Deg = Node->getCurDegree(); std::cerr << "\t <# of Neighs: " << Node->getNumOfNeighbors() << ">\n"; } } }