/* Title: MethodLiveVarInfo.cpp Author: Ruchira Sasanka Date: Jun 30, 01 Purpose: This is the interface for live variable info of a method that is required by any other part of the compiler. */ #include "llvm/Analysis/LiveVar/MethodLiveVarInfo.h" #include "llvm/CodeGen/MachineInstr.h" #include "llvm/Support/PostOrderIterator.h" /************************** Constructor/Destructor ***************************/ MethodLiveVarInfo::MethodLiveVarInfo(const Method *const M) : Meth(M), BB2BBLVMap() { assert(! M->isExternal() ); // cannot be a prototype decleration HasAnalyzed = false; // still we haven't called analyze() } MethodLiveVarInfo:: ~MethodLiveVarInfo() { // hash map iterator BBToBBLiveVarMapType::iterator HMI = BB2BBLVMap.begin(); for( ; HMI != BB2BBLVMap.end() ; HMI ++ ) { if( (*HMI).first ) // delete all LiveVarSets in BB2BBLVMap delete (*HMI).second; } } // -------------------------- support functions ------------------------------- // constructs BBLiveVars and init Def and In sets void MethodLiveVarInfo::constructBBs() { unsigned int POId = 0; // Reverse Depth-first Order ID po_iterator BBI = po_begin(Meth); for( ; BBI != po_end(Meth) ; ++BBI, ++POId) { const BasicBlock *BB = *BBI; // get the current BB if(DEBUG_LV) { cout << " For BB "; printValue(BB); cout << ":" << endl; } // create a new BBLiveVar BBLiveVar * LVBB = new BBLiveVar( BB, POId ); BB2BBLVMap[ BB ] = LVBB; // insert the pair to Map LVBB->calcDefUseSets(); // calculates the def and in set if(DEBUG_LV) LVBB->printAllSets(); } // Since the PO iterator does not discover unreachable blocks, // go over the random iterator and init those blocks as well. // However, LV info is not correct for those blocks (they are not // analyzed) Method::const_iterator BBRI = Meth->begin(); // random iterator for BBs for( ; BBRI != Meth->end(); ++BBRI, ++POId) { if( ! BB2BBLVMap[ *BBRI ] ) BB2BBLVMap[ *BBRI ] = new BBLiveVar( *BBRI, POId ); } } // do one backward pass over the CFG bool MethodLiveVarInfo::doSingleBackwardPass() { bool ResultFlow, NeedAnotherIteration = false; if(DEBUG_LV) cout << endl << " After Backward Pass ..." << endl; po_iterator BBI = po_begin(Meth); for( ; BBI != po_end(Meth) ; ++BBI) { BBLiveVar* LVBB = BB2BBLVMap[*BBI]; assert( LVBB ); if(DEBUG_LV) cout << " For BB " << (*BBI)->getName() << ":" << endl; // cout << " (POId=" << LVBB->getPOId() << ")" << endl ; ResultFlow = false; if( LVBB->isOutSetChanged() ) LVBB->applyTransferFunc(); // apply the Tran Func to calc InSet if( LVBB->isInSetChanged() ) // to calc Outsets of preds ResultFlow = LVBB->applyFlowFunc(BB2BBLVMap); if(DEBUG_LV) LVBB->printInOutSets(); if( ResultFlow ) NeedAnotherIteration = true; } // true if we need to reiterate over the CFG return NeedAnotherIteration; } // performs live var anal for a method void MethodLiveVarInfo::analyze() { // Don't analyze the same method twice! // Later, we need to add change notification here. if (HasAnalyzed) return; if( DEBUG_LV) cout << "Analysing live variables ..." << endl; // create and initialize all the BBLiveVars of the CFG constructBBs(); bool NeedAnotherIteration = false; do { // do one pass over CFG NeedAnotherIteration = doSingleBackwardPass( ); } while (NeedAnotherIteration ); // repeat until we need more iterations HasAnalyzed = true; // finished analysing if( DEBUG_LV) cout << "Live Variable Analysis complete!" << endl; } /* Thsese functions will give the LiveVar info for any machine instruction in a method. It should be called after a call to analyze(). Thsese functions calucluates live var info for all the machine instrs in a BB when LVInfo for one inst is requested. Hence, this function is useful when live var info is required for many (or all) instructions in a basic block. Also, the arguments to this method does not require specific iterators. */ const LiveVarSet * MethodLiveVarInfo::getLiveVarSetBeforeMInst(const MachineInstr *const MInst, const BasicBlock *const CurBB) { const LiveVarSet *LVSet = MInst2LVSetBI[MInst]; if( LVSet ) return LVSet; // if found, just return the set else { calcLiveVarSetsForBB( CurBB ); // else, calc for all instrs in BB assert( MInst2LVSetBI[ MInst ] ); return MInst2LVSetBI[ MInst ]; } } const LiveVarSet * MethodLiveVarInfo::getLiveVarSetAfterMInst(const MachineInstr *const MInst, const BasicBlock *const CurBB) { const LiveVarSet *LVSet = MInst2LVSetAI[MInst]; if( LVSet ) return LVSet; // if found, just return the set else { calcLiveVarSetsForBB( CurBB ); // else, calc for all instrs in BB assert( MInst2LVSetAI[ MInst ] ); return MInst2LVSetAI[ MInst ]; } } void MethodLiveVarInfo::calcLiveVarSetsForBB(const BasicBlock *const BB) { const MachineCodeForBasicBlock& MIVec = BB->getMachineInstrVec(); MachineCodeForBasicBlock::const_reverse_iterator MInstIterator = MIVec.rbegin(); LiveVarSet *CurSet = new LiveVarSet(); const LiveVarSet *SetAI = getOutSetOfBB(BB); // init SetAI with OutSet CurSet->setUnion(SetAI); // CurSet now contains OutSet // iterate over all the machine instructions in BB for( ; MInstIterator != MIVec.rend(); MInstIterator++) { // MInst is cur machine inst const MachineInstr * MInst = *MInstIterator; MInst2LVSetAI[MInst] = SetAI; // record in After Inst map CurSet->applyTranferFuncForMInst( MInst ); // apply the transfer Func LiveVarSet *NewSet = new LiveVarSet(); // create a new set and NewSet->setUnion( CurSet ); // copy the set after T/F to it MInst2LVSetBI[MInst] = NewSet; // record in Before Inst map // SetAI will be used in the next iteration SetAI = NewSet; } }