//===--- Arg.h - Parsed Argument Classes ------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// /// /// \file /// \brief Defines the llvm::Arg class for parsed arguments. /// //===----------------------------------------------------------------------===// #ifndef LLVM_OPTION_ARG_H #define LLVM_OPTION_ARG_H #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringRef.h" #include "llvm/Option/Option.h" #include namespace llvm { namespace opt { class ArgList; /// \brief A concrete instance of a particular driver option. /// /// The Arg class encodes just enough information to be able to /// derive the argument values efficiently. class Arg { Arg(const Arg &) = delete; void operator=(const Arg &) = delete; private: /// \brief The option this argument is an instance of. const Option Opt; /// \brief The argument this argument was derived from (during tool chain /// argument translation), if any. const Arg *BaseArg; /// \brief How this instance of the option was spelled. StringRef Spelling; /// \brief The index at which this argument appears in the containing /// ArgList. unsigned Index; /// \brief Was this argument used to effect compilation? /// /// This is used for generating "argument unused" diagnostics. mutable unsigned Claimed : 1; /// \brief Does this argument own its values? mutable unsigned OwnsValues : 1; /// \brief The argument values, as C strings. SmallVector Values; public: Arg(const Option Opt, StringRef Spelling, unsigned Index, const Arg *BaseArg = nullptr); Arg(const Option Opt, StringRef Spelling, unsigned Index, const char *Value0, const Arg *BaseArg = nullptr); Arg(const Option Opt, StringRef Spelling, unsigned Index, const char *Value0, const char *Value1, const Arg *BaseArg = nullptr); ~Arg(); const Option &getOption() const { return Opt; } StringRef getSpelling() const { return Spelling; } unsigned getIndex() const { return Index; } /// \brief Return the base argument which generated this arg. /// /// This is either the argument itself or the argument it was /// derived from during tool chain specific argument translation. const Arg &getBaseArg() const { return BaseArg ? *BaseArg : *this; } void setBaseArg(const Arg *_BaseArg) { BaseArg = _BaseArg; } bool getOwnsValues() const { return OwnsValues; } void setOwnsValues(bool Value) const { OwnsValues = Value; } bool isClaimed() const { return getBaseArg().Claimed; } /// \brief Set the Arg claimed bit. void claim() const { getBaseArg().Claimed = true; } unsigned getNumValues() const { return Values.size(); } const char *getValue(unsigned N = 0) const { return Values[N]; } SmallVectorImpl &getValues() { return Values; } bool containsValue(StringRef Value) const { for (unsigned i = 0, e = getNumValues(); i != e; ++i) if (Values[i] == Value) return true; return false; } /// \brief Append the argument onto the given array as strings. void render(const ArgList &Args, ArgStringList &Output) const; /// \brief Append the argument, render as an input, onto the given /// array as strings. /// /// The distinction is that some options only render their values /// when rendered as a input (e.g., Xlinker). void renderAsInput(const ArgList &Args, ArgStringList &Output) const; void dump() const; /// \brief Return a formatted version of the argument and /// its values, for debugging and diagnostics. std::string getAsString(const ArgList &Args) const; }; } // end namespace opt } // end namespace llvm #endif