// -*- C++ -*- // // This file was generated by CLI, a command line interface // compiler for C++. // // Begin prologue. // // // End prologue. #include #include #include #include #include #include #include #include #include #include namespace build2 { namespace build { namespace cli { // unknown_option // unknown_option:: ~unknown_option () throw () { } void unknown_option:: print (::std::ostream& os) const { os << "unknown option '" << option ().c_str () << "'"; } const char* unknown_option:: what () const throw () { return "unknown option"; } // unknown_argument // unknown_argument:: ~unknown_argument () throw () { } void unknown_argument:: print (::std::ostream& os) const { os << "unknown argument '" << argument ().c_str () << "'"; } const char* unknown_argument:: what () const throw () { return "unknown argument"; } // missing_value // missing_value:: ~missing_value () throw () { } void missing_value:: print (::std::ostream& os) const { os << "missing value for option '" << option ().c_str () << "'"; } const char* missing_value:: what () const throw () { return "missing option value"; } // invalid_value // invalid_value:: ~invalid_value () throw () { } void invalid_value:: print (::std::ostream& os) const { os << "invalid value '" << value ().c_str () << "' for option '" << option ().c_str () << "'"; if (!message ().empty ()) os << ": " << message ().c_str (); } const char* invalid_value:: what () const throw () { return "invalid option value"; } // eos_reached // void eos_reached:: print (::std::ostream& os) const { os << what (); } const char* eos_reached:: what () const throw () { return "end of argument stream reached"; } // file_io_failure // file_io_failure:: ~file_io_failure () throw () { } void file_io_failure:: print (::std::ostream& os) const { os << "unable to open file '" << file ().c_str () << "' or read failure"; } const char* file_io_failure:: what () const throw () { return "unable to open file or read failure"; } // unmatched_quote // unmatched_quote:: ~unmatched_quote () throw () { } void unmatched_quote:: print (::std::ostream& os) const { os << "unmatched quote in argument '" << argument ().c_str () << "'"; } const char* unmatched_quote:: what () const throw () { return "unmatched quote"; } // scanner // scanner:: ~scanner () { } // argv_scanner // bool argv_scanner:: more () { return i_ < argc_; } const char* argv_scanner:: peek () { if (i_ < argc_) return argv_[i_]; else throw eos_reached (); } const char* argv_scanner:: next () { if (i_ < argc_) { const char* r (argv_[i_]); if (erase_) { for (int i (i_ + 1); i < argc_; ++i) argv_[i - 1] = argv_[i]; --argc_; argv_[argc_] = 0; } else ++i_; ++start_position_; return r; } else throw eos_reached (); } void argv_scanner:: skip () { if (i_ < argc_) { ++i_; ++start_position_; } else throw eos_reached (); } std::size_t argv_scanner:: position () { return start_position_; } // vector_scanner // bool vector_scanner:: more () { return i_ < v_.size (); } const char* vector_scanner:: peek () { if (i_ < v_.size ()) return v_[i_].c_str (); else throw eos_reached (); } const char* vector_scanner:: next () { if (i_ < v_.size ()) return v_[i_++].c_str (); else throw eos_reached (); } void vector_scanner:: skip () { if (i_ < v_.size ()) ++i_; else throw eos_reached (); } std::size_t vector_scanner:: position () { return start_position_ + i_; } // argv_file_scanner // int argv_file_scanner::zero_argc_ = 0; std::string argv_file_scanner::empty_string_; bool argv_file_scanner:: more () { if (!args_.empty ()) return true; while (base::more ()) { // See if the next argument is the file option. // const char* a (base::peek ()); const option_info* oi = 0; const char* ov = 0; if (!skip_) { if ((oi = find (a)) != 0) { base::next (); if (!base::more ()) throw missing_value (a); ov = base::next (); } else if (std::strncmp (a, "-", 1) == 0) { if ((ov = std::strchr (a, '=')) != 0) { std::string o (a, 0, ov - a); if ((oi = find (o.c_str ())) != 0) { base::next (); ++ov; } } } } if (oi != 0) { if (oi->search_func != 0) { std::string f (oi->search_func (ov, oi->arg)); if (!f.empty ()) load (f); } else load (ov); if (!args_.empty ()) return true; } else { if (!skip_) skip_ = (std::strcmp (a, "--") == 0); return true; } } return false; } const char* argv_file_scanner:: peek () { if (!more ()) throw eos_reached (); return args_.empty () ? base::peek () : args_.front ().value.c_str (); } const std::string& argv_file_scanner:: peek_file () { if (!more ()) throw eos_reached (); return args_.empty () ? empty_string_ : *args_.front ().file; } std::size_t argv_file_scanner:: peek_line () { if (!more ()) throw eos_reached (); return args_.empty () ? 0 : args_.front ().line; } const char* argv_file_scanner:: next () { if (!more ()) throw eos_reached (); if (args_.empty ()) return base::next (); else { hold_[i_ == 0 ? ++i_ : --i_].swap (args_.front ().value); args_.pop_front (); ++start_position_; return hold_[i_].c_str (); } } void argv_file_scanner:: skip () { if (!more ()) throw eos_reached (); if (args_.empty ()) return base::skip (); else { args_.pop_front (); ++start_position_; } } const argv_file_scanner::option_info* argv_file_scanner:: find (const char* a) const { for (std::size_t i (0); i < options_count_; ++i) if (std::strcmp (a, options_[i].option) == 0) return &options_[i]; return 0; } std::size_t argv_file_scanner:: position () { return start_position_; } void argv_file_scanner:: load (const std::string& file) { using namespace std; ifstream is (file.c_str ()); if (!is.is_open ()) throw file_io_failure (file); files_.push_back (file); arg a; a.file = &*files_.rbegin (); for (a.line = 1; !is.eof (); ++a.line) { string line; getline (is, line); if (is.fail () && !is.eof ()) throw file_io_failure (file); string::size_type n (line.size ()); // Trim the line from leading and trailing whitespaces. // if (n != 0) { const char* f (line.c_str ()); const char* l (f + n); const char* of (f); while (f < l && (*f == ' ' || *f == '\t' || *f == '\r')) ++f; --l; const char* ol (l); while (l > f && (*l == ' ' || *l == '\t' || *l == '\r')) --l; if (f != of || l != ol) line = f <= l ? string (f, l - f + 1) : string (); } // Ignore empty lines, those that start with #. // if (line.empty () || line[0] == '#') continue; string::size_type p (string::npos); if (line.compare (0, 1, "-") == 0) { p = line.find (' '); string::size_type q (line.find ('=')); if (q != string::npos && q < p) p = q; } string s1; if (p != string::npos) { s1.assign (line, 0, p); // Skip leading whitespaces in the argument. // if (line[p] == '=') ++p; else { n = line.size (); for (++p; p < n; ++p) { char c (line[p]); if (c != ' ' && c != '\t' && c != '\r') break; } } } else if (!skip_) skip_ = (line == "--"); string s2 (line, p != string::npos ? p : 0); // If the string (which is an option value or argument) is // wrapped in quotes, remove them. // n = s2.size (); char cf (s2[0]), cl (s2[n - 1]); if (cf == '"' || cf == '\'' || cl == '"' || cl == '\'') { if (n == 1 || cf != cl) throw unmatched_quote (s2); s2 = string (s2, 1, n - 2); } if (!s1.empty ()) { // See if this is another file option. // const option_info* oi; if (!skip_ && (oi = find (s1.c_str ()))) { if (s2.empty ()) throw missing_value (oi->option); if (oi->search_func != 0) { string f (oi->search_func (s2.c_str (), oi->arg)); if (!f.empty ()) load (f); } else { // If the path of the file being parsed is not simple and the // path of the file that needs to be loaded is relative, then // complete the latter using the former as a base. // #ifndef _WIN32 string::size_type p (file.find_last_of ('/')); bool c (p != string::npos && s2[0] != '/'); #else string::size_type p (file.find_last_of ("/\\")); bool c (p != string::npos && s2[1] != ':'); #endif if (c) s2.insert (0, file, 0, p + 1); load (s2); } continue; } a.value = s1; args_.push_back (a); } a.value = s2; args_.push_back (a); } } template struct parser { static void parse (X& x, bool& xs, scanner& s) { using namespace std; const char* o (s.next ()); if (s.more ()) { string v (s.next ()); istringstream is (v); if (!(is >> x && is.peek () == istringstream::traits_type::eof ())) throw invalid_value (o, v); } else throw missing_value (o); xs = true; } }; template <> struct parser { static void parse (bool& x, scanner& s) { s.next (); x = true; } }; template <> struct parser { static void parse (std::string& x, bool& xs, scanner& s) { const char* o (s.next ()); if (s.more ()) x = s.next (); else throw missing_value (o); xs = true; } }; template struct parser > { static void parse (std::pair& x, bool& xs, scanner& s) { x.second = s.position (); parser::parse (x.first, xs, s); } }; template struct parser > { static void parse (std::vector& c, bool& xs, scanner& s) { X x; bool dummy; parser::parse (x, dummy, s); c.push_back (x); xs = true; } }; template struct parser > { static void parse (std::set& c, bool& xs, scanner& s) { X x; bool dummy; parser::parse (x, dummy, s); c.insert (x); xs = true; } }; template struct parser > { static void parse (std::map& m, bool& xs, scanner& s) { const char* o (s.next ()); if (s.more ()) { std::size_t pos (s.position ()); std::string ov (s.next ()); std::string::size_type p = ov.find ('='); K k = K (); V v = V (); std::string kstr (ov, 0, p); std::string vstr (ov, (p != std::string::npos ? p + 1 : ov.size ())); int ac (2); char* av[] = { const_cast (o), 0 }; bool dummy; if (!kstr.empty ()) { av[1] = const_cast (kstr.c_str ()); argv_scanner s (0, ac, av, false, pos); parser::parse (k, dummy, s); } if (!vstr.empty ()) { av[1] = const_cast (vstr.c_str ()); argv_scanner s (0, ac, av, false, pos); parser::parse (v, dummy, s); } m[k] = v; } else throw missing_value (o); xs = true; } }; template void thunk (X& x, scanner& s) { parser::parse (x.*M, s); } template void thunk (X& x, scanner& s) { parser::parse (x.*M, x.*S, s); } } } } #include #include namespace build2 { } // Begin epilogue. // // // End epilogue.