1 //===--- ArgList.h - Argument List Management ----------*- C++ -*-===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 10 #ifndef CLANG_DRIVER_ARGLIST_H_ 11 #define CLANG_DRIVER_ARGLIST_H_ 12 13 #include "clang/Basic/LLVM.h" 14 #include "clang/Driver/OptSpecifier.h" 15 #include "clang/Driver/Util.h" 16 #include "llvm/ADT/SmallVector.h" 17 #include "llvm/ADT/StringRef.h" 18 19 #include <list> 20 #include <string> 21 #include <vector> 22 23 namespace clang { 24 class DiagnosticsEngine; 25 26 namespace driver { 27 class Arg; 28 class ArgList; 29 class Option; 30 31 /// arg_iterator - Iterates through arguments stored inside an ArgList. 32 class arg_iterator { 33 /// The current argument. 34 SmallVectorImpl<Arg*>::const_iterator Current; 35 36 /// The argument list we are iterating over. 37 const ArgList &Args; 38 39 /// Optional filters on the arguments which will be match. Most clients 40 /// should never want to iterate over arguments without filters, so we won't 41 /// bother to factor this into two separate iterator implementations. 42 // 43 // FIXME: Make efficient; the idea is to provide efficient iteration over 44 // all arguments which match a particular id and then just provide an 45 // iterator combinator which takes multiple iterators which can be 46 // efficiently compared and returns them in order. 47 OptSpecifier Id0, Id1, Id2; 48 49 void SkipToNextArg(); 50 51 public: 52 typedef Arg * const * value_type; 53 typedef Arg * const & reference; 54 typedef Arg * const * pointer; 55 typedef std::forward_iterator_tag iterator_category; 56 typedef std::ptrdiff_t difference_type; 57 58 arg_iterator(SmallVectorImpl<Arg*>::const_iterator it, 59 const ArgList &_Args, OptSpecifier _Id0 = 0U, 60 OptSpecifier _Id1 = 0U, OptSpecifier _Id2 = 0U) 61 : Current(it), Args(_Args), Id0(_Id0), Id1(_Id1), Id2(_Id2) { 62 SkipToNextArg(); 63 } 64 65 operator const Arg*() { return *Current; } 66 reference operator*() const { return *Current; } 67 pointer operator->() const { return Current; } 68 69 arg_iterator &operator++() { 70 ++Current; 71 SkipToNextArg(); 72 return *this; 73 } 74 75 arg_iterator operator++(int) { 76 arg_iterator tmp(*this); 77 ++(*this); 78 return tmp; 79 } 80 81 friend bool operator==(arg_iterator LHS, arg_iterator RHS) { 82 return LHS.Current == RHS.Current; 83 } 84 friend bool operator!=(arg_iterator LHS, arg_iterator RHS) { 85 return !(LHS == RHS); 86 } 87 }; 88 89 /// ArgList - Ordered collection of driver arguments. 90 /// 91 /// The ArgList class manages a list of Arg instances as well as 92 /// auxiliary data and convenience methods to allow Tools to quickly 93 /// check for the presence of Arg instances for a particular Option 94 /// and to iterate over groups of arguments. 95 class ArgList { 96 private: 97 ArgList(const ArgList &); // DO NOT IMPLEMENT 98 void operator=(const ArgList &); // DO NOT IMPLEMENT 99 100 public: 101 typedef SmallVector<Arg*, 16> arglist_type; 102 typedef arglist_type::iterator iterator; 103 typedef arglist_type::const_iterator const_iterator; 104 typedef arglist_type::reverse_iterator reverse_iterator; 105 typedef arglist_type::const_reverse_iterator const_reverse_iterator; 106 107 private: 108 /// The internal list of arguments. 109 arglist_type Args; 110 111 protected: 112 ArgList(); 113 114 public: 115 virtual ~ArgList(); 116 117 /// @name Arg Access 118 /// @{ 119 120 /// append - Append \arg A to the arg list. 121 void append(Arg *A); 122 123 arglist_type &getArgs() { return Args; } 124 const arglist_type &getArgs() const { return Args; } 125 126 unsigned size() const { return Args.size(); } 127 128 /// @} 129 /// @name Arg Iteration 130 /// @{ 131 132 iterator begin() { return Args.begin(); } 133 iterator end() { return Args.end(); } 134 135 reverse_iterator rbegin() { return Args.rbegin(); } 136 reverse_iterator rend() { return Args.rend(); } 137 138 const_iterator begin() const { return Args.begin(); } 139 const_iterator end() const { return Args.end(); } 140 141 const_reverse_iterator rbegin() const { return Args.rbegin(); } 142 const_reverse_iterator rend() const { return Args.rend(); } 143 144 arg_iterator filtered_begin(OptSpecifier Id0 = 0U, OptSpecifier Id1 = 0U, 145 OptSpecifier Id2 = 0U) const { 146 return arg_iterator(Args.begin(), *this, Id0, Id1, Id2); 147 } 148 arg_iterator filtered_end() const { 149 return arg_iterator(Args.end(), *this); 150 } 151 152 /// @} 153 /// @name Arg Removal 154 /// @{ 155 156 /// eraseArg - Remove any option matching \arg Id. 157 void eraseArg(OptSpecifier Id); 158 159 /// @} 160 /// @name Arg Access 161 /// @{ 162 163 /// hasArg - Does the arg list contain any option matching \arg Id. 164 /// 165 /// \arg Claim Whether the argument should be claimed, if it exists. 166 bool hasArgNoClaim(OptSpecifier Id) const { 167 return getLastArgNoClaim(Id) != 0; 168 } 169 bool hasArg(OptSpecifier Id) const { 170 return getLastArg(Id) != 0; 171 } 172 bool hasArg(OptSpecifier Id0, OptSpecifier Id1) const { 173 return getLastArg(Id0, Id1) != 0; 174 } 175 bool hasArg(OptSpecifier Id0, OptSpecifier Id1, OptSpecifier Id2) const { 176 return getLastArg(Id0, Id1, Id2) != 0; 177 } 178 179 /// getLastArg - Return the last argument matching \arg Id, or null. 180 /// 181 /// \arg Claim Whether the argument should be claimed, if it exists. 182 Arg *getLastArgNoClaim(OptSpecifier Id) const; 183 Arg *getLastArg(OptSpecifier Id) const; 184 Arg *getLastArg(OptSpecifier Id0, OptSpecifier Id1) const; 185 Arg *getLastArg(OptSpecifier Id0, OptSpecifier Id1, OptSpecifier Id2) const; 186 Arg *getLastArg(OptSpecifier Id0, OptSpecifier Id1, OptSpecifier Id2, 187 OptSpecifier Id3) const; 188 Arg *getLastArg(OptSpecifier Id0, OptSpecifier Id1, OptSpecifier Id2, 189 OptSpecifier Id3, OptSpecifier Id4) const; 190 191 /// getArgString - Return the input argument string at \arg Index. 192 virtual const char *getArgString(unsigned Index) const = 0; 193 194 /// getNumInputArgStrings - Return the number of original argument strings, 195 /// which are guaranteed to be the first strings in the argument string 196 /// list. 197 virtual unsigned getNumInputArgStrings() const = 0; 198 199 /// @} 200 /// @name Argument Lookup Utilities 201 /// @{ 202 203 /// getLastArgValue - Return the value of the last argument, or a default. 204 StringRef getLastArgValue(OptSpecifier Id, 205 StringRef Default = "") const; 206 207 /// getLastArgValue - Return the value of the last argument as an integer, 208 /// or a default. If Diags is non-null, emits an error if the argument 209 /// is given, but non-integral. 210 int getLastArgIntValue(OptSpecifier Id, int Default, 211 DiagnosticsEngine *Diags = 0) const; 212 213 /// getLastArgValue - Return the value of the last argument as an integer, 214 /// or a default. Emits an error if the argument is given, but non-integral. 215 int getLastArgIntValue(OptSpecifier Id, int Default, 216 DiagnosticsEngine &Diags) const { 217 return getLastArgIntValue(Id, Default, &Diags); 218 } 219 220 /// getAllArgValues - Get the values of all instances of the given argument 221 /// as strings. 222 std::vector<std::string> getAllArgValues(OptSpecifier Id) const; 223 224 /// @} 225 /// @name Translation Utilities 226 /// @{ 227 228 /// hasFlag - Given an option \arg Pos and its negative form \arg 229 /// Neg, return true if the option is present, false if the 230 /// negation is present, and \arg Default if neither option is 231 /// given. If both the option and its negation are present, the 232 /// last one wins. 233 bool hasFlag(OptSpecifier Pos, OptSpecifier Neg, bool Default=true) const; 234 235 /// AddLastArg - Render only the last argument match \arg Id0, if 236 /// present. 237 void AddLastArg(ArgStringList &Output, OptSpecifier Id0) const; 238 239 /// AddAllArgs - Render all arguments matching the given ids. 240 void AddAllArgs(ArgStringList &Output, OptSpecifier Id0, 241 OptSpecifier Id1 = 0U, OptSpecifier Id2 = 0U) const; 242 243 /// AddAllArgValues - Render the argument values of all arguments 244 /// matching the given ids. 245 void AddAllArgValues(ArgStringList &Output, OptSpecifier Id0, 246 OptSpecifier Id1 = 0U, OptSpecifier Id2 = 0U) const; 247 248 /// AddAllArgsTranslated - Render all the arguments matching the 249 /// given ids, but forced to separate args and using the provided 250 /// name instead of the first option value. 251 /// 252 /// \param Joined - If true, render the argument as joined with 253 /// the option specifier. 254 void AddAllArgsTranslated(ArgStringList &Output, OptSpecifier Id0, 255 const char *Translation, 256 bool Joined = false) const; 257 258 /// ClaimAllArgs - Claim all arguments which match the given 259 /// option id. 260 void ClaimAllArgs(OptSpecifier Id0) const; 261 262 /// ClaimAllArgs - Claim all arguments. 263 /// 264 void ClaimAllArgs() const; 265 266 /// @} 267 /// @name Arg Synthesis 268 /// @{ 269 270 /// MakeArgString - Construct a constant string pointer whose 271 /// lifetime will match that of the ArgList. 272 virtual const char *MakeArgString(StringRef Str) const = 0; 273 const char *MakeArgString(const char *Str) const { 274 return MakeArgString(StringRef(Str)); 275 } 276 const char *MakeArgString(std::string Str) const { 277 return MakeArgString(StringRef(Str)); 278 } 279 const char *MakeArgString(const Twine &Str) const; 280 281 /// \brief Create an arg string for (\arg LHS + \arg RHS), reusing the 282 /// string at \arg Index if possible. 283 const char *GetOrMakeJoinedArgString(unsigned Index, StringRef LHS, 284 StringRef RHS) const; 285 286 /// @} 287 }; 288 289 class InputArgList : public ArgList { 290 private: 291 /// List of argument strings used by the contained Args. 292 /// 293 /// This is mutable since we treat the ArgList as being the list 294 /// of Args, and allow routines to add new strings (to have a 295 /// convenient place to store the memory) via MakeIndex. 296 mutable ArgStringList ArgStrings; 297 298 /// Strings for synthesized arguments. 299 /// 300 /// This is mutable since we treat the ArgList as being the list 301 /// of Args, and allow routines to add new strings (to have a 302 /// convenient place to store the memory) via MakeIndex. 303 mutable std::list<std::string> SynthesizedStrings; 304 305 /// The number of original input argument strings. 306 unsigned NumInputArgStrings; 307 308 public: 309 InputArgList(const char* const *ArgBegin, const char* const *ArgEnd); 310 ~InputArgList(); 311 312 virtual const char *getArgString(unsigned Index) const { 313 return ArgStrings[Index]; 314 } 315 316 virtual unsigned getNumInputArgStrings() const { 317 return NumInputArgStrings; 318 } 319 320 /// @name Arg Synthesis 321 /// @{ 322 323 public: 324 /// MakeIndex - Get an index for the given string(s). 325 unsigned MakeIndex(StringRef String0) const; 326 unsigned MakeIndex(StringRef String0, StringRef String1) const; 327 328 virtual const char *MakeArgString(StringRef Str) const; 329 330 /// @} 331 }; 332 333 /// DerivedArgList - An ordered collection of driver arguments, 334 /// whose storage may be in another argument list. 335 class DerivedArgList : public ArgList { 336 const InputArgList &BaseArgs; 337 338 /// The list of arguments we synthesized. 339 mutable arglist_type SynthesizedArgs; 340 341 public: 342 /// Construct a new derived arg list from \arg BaseArgs. 343 DerivedArgList(const InputArgList &BaseArgs); 344 ~DerivedArgList(); 345 346 virtual const char *getArgString(unsigned Index) const { 347 return BaseArgs.getArgString(Index); 348 } 349 350 virtual unsigned getNumInputArgStrings() const { 351 return BaseArgs.getNumInputArgStrings(); 352 } 353 354 const InputArgList &getBaseArgs() const { 355 return BaseArgs; 356 } 357 358 /// @name Arg Synthesis 359 /// @{ 360 361 /// AddSynthesizedArg - Add a argument to the list of synthesized arguments 362 /// (to be freed). 363 void AddSynthesizedArg(Arg *A) { 364 SynthesizedArgs.push_back(A); 365 } 366 367 virtual const char *MakeArgString(StringRef Str) const; 368 369 /// AddFlagArg - Construct a new FlagArg for the given option \arg Id and 370 /// append it to the argument list. 371 void AddFlagArg(const Arg *BaseArg, const Option *Opt) { 372 append(MakeFlagArg(BaseArg, Opt)); 373 } 374 375 /// AddPositionalArg - Construct a new Positional arg for the given option 376 /// \arg Id, with the provided \arg Value and append it to the argument 377 /// list. 378 void AddPositionalArg(const Arg *BaseArg, const Option *Opt, 379 StringRef Value) { 380 append(MakePositionalArg(BaseArg, Opt, Value)); 381 } 382 383 384 /// AddSeparateArg - Construct a new Positional arg for the given option 385 /// \arg Id, with the provided \arg Value and append it to the argument 386 /// list. 387 void AddSeparateArg(const Arg *BaseArg, const Option *Opt, 388 StringRef Value) { 389 append(MakeSeparateArg(BaseArg, Opt, Value)); 390 } 391 392 393 /// AddJoinedArg - Construct a new Positional arg for the given option \arg 394 /// Id, with the provided \arg Value and append it to the argument list. 395 void AddJoinedArg(const Arg *BaseArg, const Option *Opt, 396 StringRef Value) { 397 append(MakeJoinedArg(BaseArg, Opt, Value)); 398 } 399 400 401 /// MakeFlagArg - Construct a new FlagArg for the given option 402 /// \arg Id. 403 Arg *MakeFlagArg(const Arg *BaseArg, const Option *Opt) const; 404 405 /// MakePositionalArg - Construct a new Positional arg for the 406 /// given option \arg Id, with the provided \arg Value. 407 Arg *MakePositionalArg(const Arg *BaseArg, const Option *Opt, 408 StringRef Value) const; 409 410 /// MakeSeparateArg - Construct a new Positional arg for the 411 /// given option \arg Id, with the provided \arg Value. 412 Arg *MakeSeparateArg(const Arg *BaseArg, const Option *Opt, 413 StringRef Value) const; 414 415 /// MakeJoinedArg - Construct a new Positional arg for the 416 /// given option \arg Id, with the provided \arg Value. 417 Arg *MakeJoinedArg(const Arg *BaseArg, const Option *Opt, 418 StringRef Value) const; 419 420 /// @} 421 }; 422 423 } // end namespace driver 424 } // end namespace clang 425 426 #endif 427