/* Defines String::compose(fmt, arg...) for easy, i18n-friendly * composition of strings. * * Version 1.0. * * Copyright (c) 2002 Ole Laursen . * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public License * as published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA. */ // // Basic usage is like // // std::cout << String::compose("This is a %1x%2 matrix.", rows, cols); // // See http://www.cs.auc.dk/~olau/compose/ or the included README.compose for // more details. // #ifndef STRING_COMPOSE_H #define STRING_COMPOSE_H #include #include #include #include // for multimap namespace StringPrivate { // the actual composition class - using string::compose is cleaner, so we // hide it here class Composition { public: // initialize and prepare format string on the form "text %1 text %2 etc." explicit Composition(std::string fmt); // supply an replacement argument starting from %1 template Composition &arg(const T &obj); // compose and return string std::string str() const; private: std::ostringstream os; int arg_no; // we store the output as a list - when the output string is requested, the // list is concatenated to a string; this way we can keep iterators into // the list instead of into a string where they're possibly invalidated on // inserting a specification string typedef std::list output_list; output_list output; // the initial parse of the format string fills in the specification map // with positions for each of the various %?s typedef std::multimap specification_map; specification_map specs; }; // helper for converting spec string numbers inline int char_to_int(char c) { switch (c) { case '0': return 0; case '1': return 1; case '2': return 2; case '3': return 3; case '4': return 4; case '5': return 5; case '6': return 6; case '7': return 7; case '8': return 8; case '9': return 9; default: return -1000; } } inline bool is_number(int n) { switch (n) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': return true; default: return false; } } // implementation of class Composition template inline Composition &Composition::arg(const T &obj) { os << obj; std::string rep = os.str(); if (!rep.empty()) { // manipulators don't produce output for (specification_map::const_iterator i = specs.lower_bound(arg_no), end = specs.upper_bound(arg_no); i != end; ++i) { output_list::iterator pos = i->second; ++pos; output.insert(pos, rep); } os.str(std::string()); //os.clear(); ++arg_no; } return *this; } inline Composition::Composition(std::string fmt) : arg_no(1) { std::string::size_type b = 0, i = 0; // fill in output with the strings between the %1 %2 %3 etc. and // fill in specs with the positions while (i < fmt.length()) { if (fmt[i] == '%' && i + 1 < fmt.length()) { if (fmt[i + 1] == '%') { // catch %% fmt.replace(i, 2, "%"); ++i; } else if (is_number(fmt[i + 1])) { // aha! a spec! // save string output.push_back(fmt.substr(b, i - b)); int n = 1; // number of digits int spec_no = 0; do { spec_no += char_to_int(fmt[i + n]); spec_no *= 10; ++n; } while (i + n < fmt.length() && is_number(fmt[i + n])); spec_no /= 10; output_list::iterator pos = output.end(); --pos; // safe since we have just inserted a string> specs.insert(specification_map::value_type(spec_no, pos)); // jump over spec string i += n; b = i; } else ++i; } else ++i; } if (i - b > 0) // add the rest of the string output.push_back(fmt.substr(b, i - b)); } inline std::string Composition::str() const { // assemble string std::string str; for (output_list::const_iterator i = output.begin(), end = output.end(); i != end; ++i) str += *i; return str; } } // now for the real thing(s) //namespace String //{ // a series of functions which accept a format string on the form "text %1 // more %2 less %3" and a number of templated parameters and spits out the // composited string template inline std::string compose(const std::string &fmt, const T1 &o1) { StringPrivate::Composition c(fmt); c.arg(o1); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6, const T7 &o7) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6).arg(o7); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6, const T7 &o7, const T8 &o8) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6).arg(o7).arg(o8); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6, const T7 &o7, const T8 &o8, const T9 &o9) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6).arg(o7).arg(o8).arg(o9); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6, const T7 &o7, const T8 &o8, const T9 &o9, const T10 &o10) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6).arg(o7).arg(o8).arg(o9) .arg(o10); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6, const T7 &o7, const T8 &o8, const T9 &o9, const T10 &o10, const T11 &o11) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6).arg(o7).arg(o8).arg(o9) .arg(o10).arg(o11); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6, const T7 &o7, const T8 &o8, const T9 &o9, const T10 &o10, const T11 &o11, const T12 &o12) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6).arg(o7).arg(o8).arg(o9) .arg(o10).arg(o11).arg(o12); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6, const T7 &o7, const T8 &o8, const T9 &o9, const T10 &o10, const T11 &o11, const T12 &o12, const T13 &o13) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6).arg(o7).arg(o8).arg(o9) .arg(o10).arg(o11).arg(o12).arg(o13); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6, const T7 &o7, const T8 &o8, const T9 &o9, const T10 &o10, const T11 &o11, const T12 &o12, const T13 &o13, const T14 &o14) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6).arg(o7).arg(o8).arg(o9) .arg(o10).arg(o11).arg(o12).arg(o13).arg(o14); return c.str(); } template inline std::string compose(const std::string &fmt, const T1 &o1, const T2 &o2, const T3 &o3, const T4 &o4, const T5 &o5, const T6 &o6, const T7 &o7, const T8 &o8, const T9 &o9, const T10 &o10, const T11 &o11, const T12 &o12, const T13 &o13, const T14 &o14, const T15 &o15) { StringPrivate::Composition c(fmt); c.arg(o1).arg(o2).arg(o3).arg(o4).arg(o5).arg(o6).arg(o7).arg(o8).arg(o9) .arg(o10).arg(o11).arg(o12).arg(o13).arg(o14).arg(o15); return c.str(); } //} #endif // STRING_COMPOSE_H