//===-- Twine.cpp - Fast Temporary String Concatenation -------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/ADT/Twine.h" #include "llvm/ADT/SmallString.h" #include "llvm/Support/Debug.h" #include "llvm/Support/raw_ostream.h" using namespace llvm; std::string Twine::str() const { // If we're storing only a std::string, just return it. if (LHSKind == StdStringKind && RHSKind == EmptyKind) return *LHS.stdString; // Otherwise, flatten and copy the contents first. SmallString<256> Vec; return toStringRef(Vec).str(); } void Twine::toVector(SmallVectorImpl<char> &Out) const { raw_svector_ostream OS(Out); print(OS); } StringRef Twine::toStringRef(SmallVectorImpl<char> &Out) const { if (isSingleStringRef()) return getSingleStringRef(); toVector(Out); return StringRef(Out.data(), Out.size()); } StringRef Twine::toNullTerminatedStringRef(SmallVectorImpl<char> &Out) const { if (isUnary()) { switch (getLHSKind()) { case CStringKind: // Already null terminated, yay! return StringRef(LHS.cString); case StdStringKind: { const std::string *str = LHS.stdString; return StringRef(str->c_str(), str->size()); } default: break; } } toVector(Out); Out.push_back(0); Out.pop_back(); return StringRef(Out.data(), Out.size()); } void Twine::printOneChild(raw_ostream &OS, Child Ptr, NodeKind Kind) const { switch (Kind) { case Twine::NullKind: break; case Twine::EmptyKind: break; case Twine::TwineKind: Ptr.twine->print(OS); break; case Twine::CStringKind: OS << Ptr.cString; break; case Twine::StdStringKind: OS << *Ptr.stdString; break; case Twine::StringRefKind: OS << *Ptr.stringRef; break; case Twine::CharKind: OS << Ptr.character; break; case Twine::DecUIKind: OS << Ptr.decUI; break; case Twine::DecIKind: OS << Ptr.decI; break; case Twine::DecULKind: OS << *Ptr.decUL; break; case Twine::DecLKind: OS << *Ptr.decL; break; case Twine::DecULLKind: OS << *Ptr.decULL; break; case Twine::DecLLKind: OS << *Ptr.decLL; break; case Twine::UHexKind: OS.write_hex(*Ptr.uHex); break; } } void Twine::printOneChildRepr(raw_ostream &OS, Child Ptr, NodeKind Kind) const { switch (Kind) { case Twine::NullKind: OS << "null"; break; case Twine::EmptyKind: OS << "empty"; break; case Twine::TwineKind: OS << "rope:"; Ptr.twine->printRepr(OS); break; case Twine::CStringKind: OS << "cstring:\"" << Ptr.cString << "\""; break; case Twine::StdStringKind: OS << "std::string:\"" << Ptr.stdString << "\""; break; case Twine::StringRefKind: OS << "stringref:\"" << Ptr.stringRef << "\""; break; case Twine::CharKind: OS << "char:\"" << Ptr.character << "\""; break; case Twine::DecUIKind: OS << "decUI:\"" << Ptr.decUI << "\""; break; case Twine::DecIKind: OS << "decI:\"" << Ptr.decI << "\""; break; case Twine::DecULKind: OS << "decUL:\"" << *Ptr.decUL << "\""; break; case Twine::DecLKind: OS << "decL:\"" << *Ptr.decL << "\""; break; case Twine::DecULLKind: OS << "decULL:\"" << *Ptr.decULL << "\""; break; case Twine::DecLLKind: OS << "decLL:\"" << *Ptr.decLL << "\""; break; case Twine::UHexKind: OS << "uhex:\"" << Ptr.uHex << "\""; break; } } void Twine::print(raw_ostream &OS) const { printOneChild(OS, LHS, getLHSKind()); printOneChild(OS, RHS, getRHSKind()); } void Twine::printRepr(raw_ostream &OS) const { OS << "(Twine "; printOneChildRepr(OS, LHS, getLHSKind()); OS << " "; printOneChildRepr(OS, RHS, getRHSKind()); OS << ")"; } void Twine::dump() const { print(dbgs()); } void Twine::dumpRepr() const { printRepr(dbgs()); }