//===-- SelectionDAG.cpp - Implement the SelectionDAG* classes ------------===// // // This file implements the SelectionDAG* classes, which are used to perform // DAG-based instruction selection in a target-specific manner. // //===----------------------------------------------------------------------===// #include "llvm/CodeGen/SelectionDAG.h" #include "llvm/Type.h" SelectionDAG::~SelectionDAG() { for (unsigned i = 0, e = AllNodes.size(); i != e; ++i) delete AllNodes[i]; } /// dump - Print out the current Selection DAG... void SelectionDAG::dump() const { Root->dump(); // Print from the root... } /// getValueType - Return the ValueType for the specified LLVM type. This /// method works on all scalar LLVM types. /// MVT::ValueType SelectionDAG::getValueType(const Type *Ty) const { switch (Ty->getPrimitiveID()) { case Type::VoidTyID: assert(0 && "Void type object in getValueType!"); default: assert(0 && "Unknown type in DAGBuilder!\n"); case Type::BoolTyID: return MVT::i1; case Type::SByteTyID: case Type::UByteTyID: return MVT::i8; case Type::ShortTyID: case Type::UShortTyID: return MVT::i16; case Type::IntTyID: case Type::UIntTyID: return MVT::i32; case Type::LongTyID: case Type::ULongTyID: return MVT::i64; case Type::FloatTyID: return MVT::f32; case Type::DoubleTyID: return MVT::f64; case Type::LabelTyID: case Type::PointerTyID: return PointerType; } } void SelectionDAGNode::dump() const { // Print out the DAG in post-order std::map NodeIDs; unsigned ID = 0; printit(0, ID, NodeIDs); } void SelectionDAGNode::printit(unsigned Offset, unsigned &LastID, std::map &NodeIDs) const { if (!NodeIDs.count(this)) { // Emit all of the uses first... for (unsigned i = 0, e = Uses.size(); i != e; ++i) Uses[i]->printit(Offset+1, LastID, NodeIDs); NodeIDs[this] = LastID++; std::cerr << std::string(Offset, ' ') << "#" << LastID-1 << " "; } else { // Node has already been emitted... std::cerr << std::string(Offset, ' ') << "#" << NodeIDs[this] << " "; } switch (ValueType) { case MVT::isVoid: std::cerr << "V:"; break; case MVT::i1: std::cerr << "i1:"; break; case MVT::i8: std::cerr << "i8:"; break; case MVT::i16: std::cerr << "i16:"; break; case MVT::i32: std::cerr << "i32:"; break; case MVT::i64: std::cerr << "i64:"; break; case MVT::f32: std::cerr << "f32:"; break; case MVT::f64: std::cerr << "f64:"; break; default: assert(0 && "Invalid node ValueType!"); } switch (NodeType) { case ISD::ChainNode: std::cerr << "ChainNode"; break; case ISD::BlockChainNode: std::cerr << "BlockChainNode"; break; case ISD::ProtoNode: std::cerr << "ProtoNode"; break; case ISD::Constant: std::cerr << "Constant"; break; case ISD::FrameIndex: std::cerr << "FrameIndex"; break; case ISD::BasicBlock: std::cerr << "BasicBlock"; break; case ISD::Plus: std::cerr << "Plus"; break; case ISD::Minus: std::cerr << "Minus"; break; case ISD::Times: std::cerr << "Times"; break; case ISD::SDiv: std::cerr << "SDiv"; break; case ISD::UDiv: std::cerr << "UDiv"; break; case ISD::SRem: std::cerr << "SRem"; break; case ISD::URem: std::cerr << "URem"; break; case ISD::And: std::cerr << "And"; break; case ISD::Or: std::cerr << "Or"; break; case ISD::Xor: std::cerr << "Xor"; break; case ISD::SetEQ: std::cerr << "SetEQ"; break; case ISD::SetNE: std::cerr << "SetNE"; break; case ISD::SetLT: std::cerr << "SetLT"; break; case ISD::SetLE: std::cerr << "SetLE"; break; case ISD::SetGT: std::cerr << "SetGT"; break; case ISD::SetGE: std::cerr << "SetGE"; break; case ISD::Br: std::cerr << "Br"; break; case ISD::BrCond: std::cerr << "BrCond"; break; case ISD::Switch: std::cerr << "Switch"; break; case ISD::Ret: std::cerr << "Ret"; break; case ISD::RetVoid: std::cerr << "RetVoid"; break; case ISD::Load: std::cerr << "Load"; break; case ISD::Store: std::cerr << "Store"; break; case ISD::PHI: std::cerr << "PHI"; break; case ISD::Call: std::cerr << "Call"; break; case ISD::Unspec1: std::cerr << "Unspec1"; break; case ISD::Unspec2: std::cerr << "Unspec2"; break; } std::cerr << "\n"; }