//===- OptTable.cpp - Option Table Implementation -------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "llvm/Option/OptTable.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/StringSet.h" #include "llvm/Option/Arg.h" #include "llvm/Option/ArgList.h" #include "llvm/Option/OptSpecifier.h" #include "llvm/Option/Option.h" #include "llvm/Support/CommandLine.h" // for expandResponseFiles #include "llvm/Support/Compiler.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/raw_ostream.h" #include #include #include #include #include #include #include #include using namespace llvm; using namespace llvm::opt; namespace llvm { namespace opt { // Ordering on Info. The ordering is *almost* case-insensitive lexicographic, // with an exception. '\0' comes at the end of the alphabet instead of the // beginning (thus options precede any other options which prefix them). static int StrCmpOptionNameIgnoreCase(const char *A, const char *B) { const char *X = A, *Y = B; char a = tolower(*A), b = tolower(*B); while (a == b) { if (a == '\0') return 0; a = tolower(*++X); b = tolower(*++Y); } if (a == '\0') // A is a prefix of B. return 1; if (b == '\0') // B is a prefix of A. return -1; // Otherwise lexicographic. return (a < b) ? -1 : 1; } #ifndef NDEBUG static int StrCmpOptionName(const char *A, const char *B) { if (int N = StrCmpOptionNameIgnoreCase(A, B)) return N; return strcmp(A, B); } static inline bool operator<(const OptTable::Info &A, const OptTable::Info &B) { if (&A == &B) return false; if (int N = StrCmpOptionName(A.Name, B.Name)) return N < 0; for (const char * const *APre = A.Prefixes, * const *BPre = B.Prefixes; *APre != nullptr && *BPre != nullptr; ++APre, ++BPre){ if (int N = StrCmpOptionName(*APre, *BPre)) return N < 0; } // Names are the same, check that classes are in order; exactly one // should be joined, and it should succeed the other. assert(((A.Kind == Option::JoinedClass) ^ (B.Kind == Option::JoinedClass)) && "Unexpected classes for options with same name."); return B.Kind == Option::JoinedClass; } #endif // Support lower_bound between info and an option name. static inline bool operator<(const OptTable::Info &I, const char *Name) { return StrCmpOptionNameIgnoreCase(I.Name, Name) < 0; } } // end namespace opt } // end namespace llvm OptSpecifier::OptSpecifier(const Option *Opt) : ID(Opt->getID()) {} OptTable::OptTable(ArrayRef OptionInfos, bool IgnoreCase) : OptionInfos(OptionInfos), IgnoreCase(IgnoreCase) { // Explicitly zero initialize the error to work around a bug in array // value-initialization on MinGW with gcc 4.3.5. // Find start of normal options. for (unsigned i = 0, e = getNumOptions(); i != e; ++i) { unsigned Kind = getInfo(i + 1).Kind; if (Kind == Option::InputClass) { assert(!TheInputOptionID && "Cannot have multiple input options!"); TheInputOptionID = getInfo(i + 1).ID; } else if (Kind == Option::UnknownClass) { assert(!TheUnknownOptionID && "Cannot have multiple unknown options!"); TheUnknownOptionID = getInfo(i + 1).ID; } else if (Kind != Option::GroupClass) { FirstSearchableIndex = i; break; } } assert(FirstSearchableIndex != 0 && "No searchable options?"); #ifndef NDEBUG // Check that everything after the first searchable option is a // regular option class. for (unsigned i = FirstSearchableIndex, e = getNumOptions(); i != e; ++i) { Option::OptionClass Kind = (Option::OptionClass) getInfo(i + 1).Kind; assert((Kind != Option::InputClass && Kind != Option::UnknownClass && Kind != Option::GroupClass) && "Special options should be defined first!"); } // Check that options are in order. for (unsigned i = FirstSearchableIndex + 1, e = getNumOptions(); i != e; ++i){ if (!(getInfo(i) < getInfo(i + 1))) { getOption(i).dump(); getOption(i + 1).dump(); llvm_unreachable("Options are not in order!"); } } #endif // Build prefixes. for (unsigned i = FirstSearchableIndex + 1, e = getNumOptions() + 1; i != e; ++i) { if (const char *const *P = getInfo(i).Prefixes) { for (; *P != nullptr; ++P) { PrefixesUnion.insert(*P); } } } // Build prefix chars. for (StringSet<>::const_iterator I = PrefixesUnion.begin(), E = PrefixesUnion.end(); I != E; ++I) { StringRef Prefix = I->getKey(); for (StringRef::const_iterator C = Prefix.begin(), CE = Prefix.end(); C != CE; ++C) if (!is_contained(PrefixChars, *C)) PrefixChars.push_back(*C); } } OptTable::~OptTable() = default; const Option OptTable::getOption(OptSpecifier Opt) const { unsigned id = Opt.getID(); if (id == 0) return Option(nullptr, nullptr); assert((unsigned) (id - 1) < getNumOptions() && "Invalid ID."); return Option(&getInfo(id), this); } static bool isInput(const StringSet<> &Prefixes, StringRef Arg) { if (Arg == "-") return true; for (StringSet<>::const_iterator I = Prefixes.begin(), E = Prefixes.end(); I != E; ++I) if (Arg.startswith(I->getKey())) return false; return true; } /// \returns Matched size. 0 means no match. static unsigned matchOption(const OptTable::Info *I, StringRef Str, bool IgnoreCase) { for (const char * const *Pre = I->Prefixes; *Pre != nullptr; ++Pre) { StringRef Prefix(*Pre); if (Str.startswith(Prefix)) { StringRef Rest = Str.substr(Prefix.size()); bool Matched = IgnoreCase ? Rest.startswith_lower(I->Name) : Rest.startswith(I->Name); if (Matched) return Prefix.size() + StringRef(I->Name).size(); } } return 0; } // Returns true if one of the Prefixes + In.Names matches Option static bool optionMatches(const OptTable::Info &In, StringRef Option) { if (In.Prefixes) { StringRef InName(In.Name); for (size_t I = 0; In.Prefixes[I]; I++) if (Option.endswith(InName)) if (Option.slice(0, Option.size() - InName.size()) == In.Prefixes[I]) return true; } return false; } // This function is for flag value completion. // Eg. When "-stdlib=" and "l" was passed to this function, it will return // appropiriate values for stdlib, which starts with l. std::vector OptTable::suggestValueCompletions(StringRef Option, StringRef Arg) const { // Search all options and return possible values. for (size_t I = FirstSearchableIndex, E = OptionInfos.size(); I < E; I++) { const Info &In = OptionInfos[I]; if (!In.Values || !optionMatches(In, Option)) continue; SmallVector Candidates; StringRef(In.Values).split(Candidates, ",", -1, false); std::vector Result; for (StringRef Val : Candidates) if (Val.startswith(Arg) && Arg.compare(Val)) Result.push_back(std::string(Val)); return Result; } return {}; } std::vector OptTable::findByPrefix(StringRef Cur, unsigned int DisableFlags) const { std::vector Ret; for (size_t I = FirstSearchableIndex, E = OptionInfos.size(); I < E; I++) { const Info &In = OptionInfos[I]; if (!In.Prefixes || (!In.HelpText && !In.GroupID)) continue; if (In.Flags & DisableFlags) continue; for (int I = 0; In.Prefixes[I]; I++) { std::string S = std::string(In.Prefixes[I]) + std::string(In.Name) + "\t"; if (In.HelpText) S += In.HelpText; if (StringRef(S).startswith(Cur) && S != std::string(Cur) + "\t") Ret.push_back(S); } } return Ret; } unsigned OptTable::findNearest(StringRef Option, std::string &NearestString, unsigned FlagsToInclude, unsigned FlagsToExclude, unsigned MinimumLength) const { assert(!Option.empty()); // Consider each [option prefix + option name] pair as a candidate, finding // the closest match. unsigned BestDistance = UINT_MAX; for (const Info &CandidateInfo : ArrayRef(OptionInfos).drop_front(FirstSearchableIndex)) { StringRef CandidateName = CandidateInfo.Name; // We can eliminate some option prefix/name pairs as candidates right away: // * Ignore option candidates with empty names, such as "--", or names // that do not meet the minimum length. if (CandidateName.empty() || CandidateName.size() < MinimumLength) continue; // * If FlagsToInclude were specified, ignore options that don't include // those flags. if (FlagsToInclude && !(CandidateInfo.Flags & FlagsToInclude)) continue; // * Ignore options that contain the FlagsToExclude. if (CandidateInfo.Flags & FlagsToExclude) continue; // * Ignore positional argument option candidates (which do not // have prefixes). if (!CandidateInfo.Prefixes) continue; // Now check if the candidate ends with a character commonly used when // delimiting an option from its value, such as '=' or ':'. If it does, // attempt to split the given option based on that delimiter. StringRef LHS, RHS; char Last = CandidateName.back(); bool CandidateHasDelimiter = Last == '=' || Last == ':'; std::string NormalizedName = std::string(Option); if (CandidateHasDelimiter) { std::tie(LHS, RHS) = Option.split(Last); NormalizedName = std::string(LHS); if (Option.find(Last) == LHS.size()) NormalizedName += Last; } // Consider each possible prefix for each candidate to find the most // appropriate one. For example, if a user asks for "--helm", suggest // "--help" over "-help". for (int P = 0; const char *const CandidatePrefix = CandidateInfo.Prefixes[P]; P++) { std::string Candidate = (CandidatePrefix + CandidateName).str(); StringRef CandidateRef = Candidate; unsigned Distance = CandidateRef.edit_distance(NormalizedName, /*AllowReplacements=*/true, /*MaxEditDistance=*/BestDistance); if (RHS.empty() && CandidateHasDelimiter) { // The Candidate ends with a = or : delimiter, but the option passed in // didn't contain the delimiter (or doesn't have anything after it). // In that case, penalize the correction: `-nodefaultlibs` is more // likely to be a spello for `-nodefaultlib` than `-nodefaultlib:` even // though both have an unmodified editing distance of 1, since the // latter would need an argument. ++Distance; } if (Distance < BestDistance) { BestDistance = Distance; NearestString = (Candidate + RHS).str(); } } } return BestDistance; } bool OptTable::addValues(const char *Option, const char *Values) { for (size_t I = FirstSearchableIndex, E = OptionInfos.size(); I < E; I++) { Info &In = OptionInfos[I]; if (optionMatches(In, Option)) { In.Values = Values; return true; } } return false; } // Parse a single argument, return the new argument, and update Index. If // GroupedShortOptions is true, -a matches "-abc" and the argument in Args will // be updated to "-bc". This overload does not support // FlagsToInclude/FlagsToExclude or case insensitive options. Arg *OptTable::parseOneArgGrouped(InputArgList &Args, unsigned &Index) const { // Anything that doesn't start with PrefixesUnion is an input, as is '-' // itself. const char *CStr = Args.getArgString(Index); StringRef Str(CStr); if (isInput(PrefixesUnion, Str)) return new Arg(getOption(TheInputOptionID), Str, Index++, CStr); const Info *End = OptionInfos.data() + OptionInfos.size(); StringRef Name = Str.ltrim(PrefixChars); const Info *Start = std::lower_bound( OptionInfos.data() + FirstSearchableIndex, End, Name.data()); const Info *Fallback = nullptr; unsigned Prev = Index; // Search for the option which matches Str. for (; Start != End; ++Start) { unsigned ArgSize = matchOption(Start, Str, IgnoreCase); if (!ArgSize) continue; Option Opt(Start, this); if (Arg *A = Opt.accept(Args, StringRef(Args.getArgString(Index), ArgSize), false, Index)) return A; // If Opt is a Flag of length 2 (e.g. "-a"), we know it is a prefix of // the current argument (e.g. "-abc"). Match it as a fallback if no longer // option (e.g. "-ab") exists. if (ArgSize == 2 && Opt.getKind() == Option::FlagClass) Fallback = Start; // Otherwise, see if the argument is missing. if (Prev != Index) return nullptr; } if (Fallback) { Option Opt(Fallback, this); if (Arg *A = Opt.accept(Args, Str.substr(0, 2), true, Index)) { if (Str.size() == 2) ++Index; else Args.replaceArgString(Index, Twine('-') + Str.substr(2)); return A; } } return new Arg(getOption(TheUnknownOptionID), Str, Index++, CStr); } Arg *OptTable::ParseOneArg(const ArgList &Args, unsigned &Index, unsigned FlagsToInclude, unsigned FlagsToExclude) const { unsigned Prev = Index; const char *Str = Args.getArgString(Index); // Anything that doesn't start with PrefixesUnion is an input, as is '-' // itself. if (isInput(PrefixesUnion, Str)) return new Arg(getOption(TheInputOptionID), Str, Index++, Str); const Info *Start = OptionInfos.data() + FirstSearchableIndex; const Info *End = OptionInfos.data() + OptionInfos.size(); StringRef Name = StringRef(Str).ltrim(PrefixChars); // Search for the first next option which could be a prefix. Start = std::lower_bound(Start, End, Name.data()); // Options are stored in sorted order, with '\0' at the end of the // alphabet. Since the only options which can accept a string must // prefix it, we iteratively search for the next option which could // be a prefix. // // FIXME: This is searching much more than necessary, but I am // blanking on the simplest way to make it fast. We can solve this // problem when we move to TableGen. for (; Start != End; ++Start) { unsigned ArgSize = 0; // Scan for first option which is a proper prefix. for (; Start != End; ++Start) if ((ArgSize = matchOption(Start, Str, IgnoreCase))) break; if (Start == End) break; Option Opt(Start, this); if (FlagsToInclude && !Opt.hasFlag(FlagsToInclude)) continue; if (Opt.hasFlag(FlagsToExclude)) continue; // See if this option matches. if (Arg *A = Opt.accept(Args, StringRef(Args.getArgString(Index), ArgSize), false, Index)) return A; // Otherwise, see if this argument was missing values. if (Prev != Index) return nullptr; } // If we failed to find an option and this arg started with /, then it's // probably an input path. if (Str[0] == '/') return new Arg(getOption(TheInputOptionID), Str, Index++, Str); return new Arg(getOption(TheUnknownOptionID), Str, Index++, Str); } InputArgList OptTable::ParseArgs(ArrayRef ArgArr, unsigned &MissingArgIndex, unsigned &MissingArgCount, unsigned FlagsToInclude, unsigned FlagsToExclude) const { InputArgList Args(ArgArr.begin(), ArgArr.end()); // FIXME: Handle '@' args (or at least error on them). MissingArgIndex = MissingArgCount = 0; unsigned Index = 0, End = ArgArr.size(); while (Index < End) { // Ingore nullptrs, they are response file's EOL markers if (Args.getArgString(Index) == nullptr) { ++Index; continue; } // Ignore empty arguments (other things may still take them as arguments). StringRef Str = Args.getArgString(Index); if (Str == "") { ++Index; continue; } unsigned Prev = Index; Arg *A = GroupedShortOptions ? parseOneArgGrouped(Args, Index) : ParseOneArg(Args, Index, FlagsToInclude, FlagsToExclude); assert((Index > Prev || GroupedShortOptions) && "Parser failed to consume argument."); // Check for missing argument error. if (!A) { assert(Index >= End && "Unexpected parser error."); assert(Index - Prev - 1 && "No missing arguments!"); MissingArgIndex = Prev; MissingArgCount = Index - Prev - 1; break; } Args.append(A); } return Args; } InputArgList OptTable::parseArgs(int Argc, char *const *Argv, OptSpecifier Unknown, StringSaver &Saver, function_ref ErrorFn) const { SmallVector NewArgv; // The environment variable specifies initial options which can be overridden // by commnad line options. cl::expandResponseFiles(Argc, Argv, EnvVar, Saver, NewArgv); unsigned MAI, MAC; opt::InputArgList Args = ParseArgs(makeArrayRef(NewArgv), MAI, MAC); if (MAC) ErrorFn((Twine(Args.getArgString(MAI)) + ": missing argument").str()); // For each unknwon option, call ErrorFn with a formatted error message. The // message includes a suggested alternative option spelling if available. std::string Nearest; for (const opt::Arg *A : Args.filtered(Unknown)) { std::string Spelling = A->getAsString(Args); if (findNearest(Spelling, Nearest) > 1) ErrorFn("unknown argument '" + A->getAsString(Args) + "'"); else ErrorFn("unknown argument '" + A->getAsString(Args) + "', did you mean '" + Nearest + "'?"); } return Args; } static std::string getOptionHelpName(const OptTable &Opts, OptSpecifier Id) { const Option O = Opts.getOption(Id); std::string Name = O.getPrefixedName(); // Add metavar, if used. switch (O.getKind()) { case Option::GroupClass: case Option::InputClass: case Option::UnknownClass: llvm_unreachable("Invalid option with help text."); case Option::MultiArgClass: if (const char *MetaVarName = Opts.getOptionMetaVar(Id)) { // For MultiArgs, metavar is full list of all argument names. Name += ' '; Name += MetaVarName; } else { // For MultiArgs, if metavar not supplied, print N times. for (unsigned i=0, e=O.getNumArgs(); i< e; ++i) { Name += " "; } } break; case Option::FlagClass: break; case Option::ValuesClass: break; case Option::SeparateClass: case Option::JoinedOrSeparateClass: case Option::RemainingArgsClass: case Option::RemainingArgsJoinedClass: Name += ' '; LLVM_FALLTHROUGH; case Option::JoinedClass: case Option::CommaJoinedClass: case Option::JoinedAndSeparateClass: if (const char *MetaVarName = Opts.getOptionMetaVar(Id)) Name += MetaVarName; else Name += ""; break; } return Name; } namespace { struct OptionInfo { std::string Name; StringRef HelpText; }; } // namespace static void PrintHelpOptionList(raw_ostream &OS, StringRef Title, std::vector &OptionHelp) { OS << Title << ":\n"; // Find the maximum option length. unsigned OptionFieldWidth = 0; for (unsigned i = 0, e = OptionHelp.size(); i != e; ++i) { // Limit the amount of padding we are willing to give up for alignment. unsigned Length = OptionHelp[i].Name.size(); if (Length <= 23) OptionFieldWidth = std::max(OptionFieldWidth, Length); } const unsigned InitialPad = 2; for (unsigned i = 0, e = OptionHelp.size(); i != e; ++i) { const std::string &Option = OptionHelp[i].Name; int Pad = OptionFieldWidth - int(Option.size()); OS.indent(InitialPad) << Option; // Break on long option names. if (Pad < 0) { OS << "\n"; Pad = OptionFieldWidth + InitialPad; } OS.indent(Pad + 1) << OptionHelp[i].HelpText << '\n'; } } static const char *getOptionHelpGroup(const OptTable &Opts, OptSpecifier Id) { unsigned GroupID = Opts.getOptionGroupID(Id); // If not in a group, return the default help group. if (!GroupID) return "OPTIONS"; // Abuse the help text of the option groups to store the "help group" // name. // // FIXME: Split out option groups. if (const char *GroupHelp = Opts.getOptionHelpText(GroupID)) return GroupHelp; // Otherwise keep looking. return getOptionHelpGroup(Opts, GroupID); } void OptTable::PrintHelp(raw_ostream &OS, const char *Usage, const char *Title, bool ShowHidden, bool ShowAllAliases) const { PrintHelp(OS, Usage, Title, /*Include*/ 0, /*Exclude*/ (ShowHidden ? 0 : HelpHidden), ShowAllAliases); } void OptTable::PrintHelp(raw_ostream &OS, const char *Usage, const char *Title, unsigned FlagsToInclude, unsigned FlagsToExclude, bool ShowAllAliases) const { OS << "OVERVIEW: " << Title << "\n\n"; OS << "USAGE: " << Usage << "\n\n"; // Render help text into a map of group-name to a list of (option, help) // pairs. std::map> GroupedOptionHelp; for (unsigned Id = 1, e = getNumOptions() + 1; Id != e; ++Id) { // FIXME: Split out option groups. if (getOptionKind(Id) == Option::GroupClass) continue; unsigned Flags = getInfo(Id).Flags; if (FlagsToInclude && !(Flags & FlagsToInclude)) continue; if (Flags & FlagsToExclude) continue; // If an alias doesn't have a help text, show a help text for the aliased // option instead. const char *HelpText = getOptionHelpText(Id); if (!HelpText && ShowAllAliases) { const Option Alias = getOption(Id).getAlias(); if (Alias.isValid()) HelpText = getOptionHelpText(Alias.getID()); } if (HelpText) { const char *HelpGroup = getOptionHelpGroup(*this, Id); const std::string &OptName = getOptionHelpName(*this, Id); GroupedOptionHelp[HelpGroup].push_back({OptName, HelpText}); } } for (auto& OptionGroup : GroupedOptionHelp) { if (OptionGroup.first != GroupedOptionHelp.begin()->first) OS << "\n"; PrintHelpOptionList(OS, OptionGroup.first, OptionGroup.second); } OS.flush(); }