//===--- RDFDeadCode.h ----------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // RDF-based generic dead code elimination. // // The main interface of this class are functions "collect" and "erase". // This allows custom processing of the function being optimized by a // particular consumer. The simplest way to use this class would be to // instantiate an object, and then simply call "collect" and "erase", // passing the result of "getDeadInstrs()" to it. // A more complex scenario would be to call "collect" first, then visit // all post-increment instructions to see if the address update is dead // or not, and if it is, convert the instruction to a non-updating form. // After that "erase" can be called with the set of nodes including both, // dead defs from the updating instructions and the nodes corresponding // to the dead instructions. #ifndef RDF_DEADCODE_H #define RDF_DEADCODE_H #include "RDFGraph.h" #include "RDFLiveness.h" #include "llvm/ADT/SetVector.h" namespace llvm { class MachineRegisterInfo; namespace rdf { struct DeadCodeElimination { DeadCodeElimination(DataFlowGraph &dfg, MachineRegisterInfo &mri) : Trace(false), DFG(dfg), MRI(mri), LV(mri, dfg) {} bool collect(); bool erase(const SetVector<NodeId> &Nodes); void trace(bool On) { Trace = On; } bool trace() const { return Trace; } SetVector<NodeId> getDeadNodes() { return DeadNodes; } SetVector<NodeId> getDeadInstrs() { return DeadInstrs; } DataFlowGraph &getDFG() { return DFG; } private: bool Trace; SetVector<NodeId> LiveNodes; SetVector<NodeId> DeadNodes; SetVector<NodeId> DeadInstrs; DataFlowGraph &DFG; MachineRegisterInfo &MRI; Liveness LV; template<typename T> struct SetQueue; bool isLiveInstr(const MachineInstr *MI) const; void scanInstr(NodeAddr<InstrNode*> IA, SetQueue<NodeId> &WorkQ); void processDef(NodeAddr<DefNode*> DA, SetQueue<NodeId> &WorkQ); void processUse(NodeAddr<UseNode*> UA, SetQueue<NodeId> &WorkQ); }; } // namespace rdf } // namespace llvm #endif