// (C) Copyright Howard Hinnant // (C) Copyright 2011 Vicente J. Botet Escriba // Use, modification and distribution are subject to the Boost Software License, // Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt). // #ifndef BOOST_CHRONO_IO_DURATION_GET_HPP #define BOOST_CHRONO_IO_DURATION_GET_HPP #include #include #include #include #include #include #include #include #include #include #include #include /** * Duration formatting facet for input. */ namespace lslboost { namespace chrono { namespace detail { template ::value> struct duration_io_intermediate { typedef Rep type; }; template struct duration_io_intermediate { typedef typename mpl::if_c::value, long double, typename mpl::if_c< is_signed::value, long long, unsigned long long>::type>::type type; }; template struct duration_io_intermediate, false> { typedef process_times::type> type; }; template typename enable_if , bool>::type reduce(intermediate_type& r, unsigned long long& den, std::ios_base::iostate& err) { typedef typename common_type::type common_type_t; // Reduce r * num / den common_type_t t = integer::gcd(common_type_t(r), common_type_t(den)); r /= t; den /= t; if (den != 1) { // Conversion to Period is integral and not exact err |= std::ios_base::failbit; return false; } return true; } template typename disable_if , bool>::type reduce(intermediate_type&, unsigned long long&, std::ios_base::iostate&) { return true; } } /** * @c duration_get is used to parse a character sequence, extracting * components of a duration into a class duration. * Each get member parses a format as produced by a corresponding format specifier to time_put<>::put. * If the sequence being parsed matches the correct format, the * corresponding member of the class duration argument are set to the * value used to produce the sequence; * otherwise either an error is reported or unspecified values are assigned. * In other words, user confirmation is required for reliable parsing of * user-entered durations, but machine-generated formats can be parsed * reliably. This allows parsers to be aggressive about interpreting user * variations on standard formats. * * If the end iterator is reached during parsing of the get() member * function, the member sets std::ios_base::eofbit in err. */ template > class duration_get: public std::locale::facet { public: /** * Type of character the facet is instantiated on. */ typedef CharT char_type; /** * Type of character string passed to member functions. */ typedef std::basic_string string_type; /** * Type of iterator used to scan the character buffer. */ typedef InputIterator iter_type; /** * Construct a @c duration_get facet. * @param refs * @Effects Construct a @c duration_get facet. * If the @c refs argument is @c 0 then destruction of the object is * delegated to the @c locale, or locales, containing it. This allows * the user to ignore lifetime management issues. On the other had, * if @c refs is @c 1 then the object must be explicitly deleted; * the @c locale will not do so. In this case, the object can be * maintained across the lifetime of multiple locales. */ explicit duration_get(size_t refs = 0) : std::locale::facet(refs) { } /** * @param s start input stream iterator * @param end end input stream iterator * @param ios a reference to a ios_base * @param err the ios_base state * @param d the duration * @param pattern begin of the formatting pattern * @param pat_end end of the formatting pattern * * Requires: [pattern,pat_end) shall be a valid range. * * Effects: The function starts by evaluating err = std::ios_base::goodbit. * It then enters a loop, reading zero or more characters from s at * each iteration. Unless otherwise specified below, the loop * terminates when the first of the following conditions holds: * - The expression pattern == pat_end evaluates to true. * - The expression err == std::ios_base::goodbit evaluates to false. * - The expression s == end evaluates to true, in which case the * function evaluates err = std::ios_base::eofbit | std::ios_base::failbit. * - The next element of pattern is equal to '%', followed by a conversion * specifier character, format. * If the number of elements in the range [pattern,pat_end) is not * sufficient to unambiguously determine whether the conversion * specification is complete and valid, the function evaluates * err = std::ios_base::failbit. Otherwise, the function evaluates * s = get_value(s, end, ios, err, r) when the conversion specification is 'v' and * s = get_value(s, end, ios, err, rt) when the conversion specification is 'u'. * If err == std::ios_base::goodbit holds after * the evaluation of the expression, the function increments pattern to * point just past the end of the conversion specification and continues * looping. * - The expression isspace(*pattern, ios.getloc()) evaluates to true, in * which case the function first increments pattern until * pattern == pat_end || !isspace(*pattern, ios.getloc()) evaluates to true, * then advances s until s == end || !isspace(*s, ios.getloc()) is true, * and finally resumes looping. * - The next character read from s matches the element pointed to by * pattern in a case-insensitive comparison, in which case the function * evaluates ++pattern, ++s and continues looping. Otherwise, the function * evaluates err = std::ios_base::failbit. * * Once r and rt are retrieved, * Returns: s */ template iter_type get(iter_type s, iter_type end, std::ios_base& ios, std::ios_base::iostate& err, duration &d, const char_type *pattern, const char_type *pat_end) const { if (std::has_facet >(ios.getloc())) { duration_units const&facet = std::use_facet >(ios.getloc()); return get(facet, s, end, ios, err, d, pattern, pat_end); } else { duration_units_default facet; return get(facet, s, end, ios, err, d, pattern, pat_end); } } template iter_type get(duration_units const&facet, iter_type s, iter_type end, std::ios_base& ios, std::ios_base::iostate& err, duration &d, const char_type *pattern, const char_type *pat_end) const { typedef typename detail::duration_io_intermediate::type intermediate_type; intermediate_type r; rt_ratio rt; bool value_found = false, unit_found = false; const std::ctype& ct = std::use_facet >(ios.getloc()); while (pattern != pat_end && err == std::ios_base::goodbit) { if (s == end) { err |= std::ios_base::eofbit; break; } if (ct.narrow(*pattern, 0) == '%') { if (++pattern == pat_end) { err |= std::ios_base::failbit; return s; } char cmd = ct.narrow(*pattern, 0); switch (cmd) { case 'v': { if (value_found) { err |= std::ios_base::failbit; return s; } value_found = true; s = get_value(s, end, ios, err, r); if (err & (std::ios_base::badbit | std::ios_base::failbit)) { return s; } break; } case 'u': { if (unit_found) { err |= std::ios_base::failbit; return s; } unit_found = true; s = get_unit(facet, s, end, ios, err, rt); if (err & (std::ios_base::badbit | std::ios_base::failbit)) { return s; } break; } default: BOOST_ASSERT(false && "Boost::Chrono internal error."); break; } ++pattern; } else if (ct.is(std::ctype_base::space, *pattern)) { for (++pattern; pattern != pat_end && ct.is(std::ctype_base::space, *pattern); ++pattern) ; for (; s != end && ct.is(std::ctype_base::space, *s); ++s) ; } else if (ct.toupper(*s) == ct.toupper(*pattern)) { ++s; ++pattern; } else { err |= std::ios_base::failbit; return s; } } unsigned long long num = rt.num; unsigned long long den = rt.den; // r should be multiplied by (num/den) / Period // Reduce (num/den) / Period to lowest terms unsigned long long gcd_n1_n2 = integer::gcd(num, Period::num); unsigned long long gcd_d1_d2 = integer::gcd(den, Period::den); num /= gcd_n1_n2; den /= gcd_d1_d2; unsigned long long n2 = Period::num / gcd_n1_n2; unsigned long long d2 = Period::den / gcd_d1_d2; if (num > (std::numeric_limits::max)() / d2 || den > (std::numeric_limits::max)() / n2) { // (num/den) / Period overflows err |= std::ios_base::failbit; return s; } num *= d2; den *= n2; typedef typename common_type::type common_type_t; // num / den is now factor to multiply by r if (!detail::reduce(r, den, err)) return s; if (chrono::detail::gt(r, ( (duration_values::max)() / num))) { // Conversion to Period overflowed err |= std::ios_base::failbit; return s; } common_type_t t = r * num; t /= den; if (t > duration_values::zero()) { if ( (duration_values::max)() < Rep(t)) { // Conversion to Period overflowed err |= std::ios_base::failbit; return s; } } // Success! Store it. d = duration (Rep(t)); return s; } /** * * @param s start input stream iterator * @param end end input stream iterator * @param ios a reference to a ios_base * @param err the ios_base state * @param d the duration * Stores the duration pattern from the @c duration_unit facet in let say @c str. Last as if * @code * return get(s, end, ios, err, ios, d, str.data(), str.data() + str.size()); * @codeend * @Returns An iterator pointing just beyond the last character that can be determined to be part of a valid name */ template iter_type get(iter_type s, iter_type end, std::ios_base& ios, std::ios_base::iostate& err, duration & d) const { if (std::has_facet >(ios.getloc())) { duration_units const&facet = std::use_facet >(ios.getloc()); std::basic_string str = facet.get_pattern(); return get(facet, s, end, ios, err, d, str.data(), str.data() + str.size()); } else { duration_units_default facet; std::basic_string str = facet.get_pattern(); return get(facet, s, end, ios, err, d, str.data(), str.data() + str.size()); } } /** * * @param s start input stream iterator * @param end end input stream iterator * @param ios a reference to a ios_base * @param err the ios_base state * @param r a reference to the duration representation. * @Effects As if * @code * return std::use_facet >(ios.getloc()).get(s, end, ios, err, r); * @endcode * * @Returns An iterator pointing just beyond the last character that can be determined to be part of a valid name */ template iter_type get_value(iter_type s, iter_type end, std::ios_base& ios, std::ios_base::iostate& err, Rep& r) const { return std::use_facet >(ios.getloc()).get(s, end, ios, err, r); } template iter_type get_value(iter_type s, iter_type end, std::ios_base& ios, std::ios_base::iostate& err, process_times& r) const { if (s == end) { err |= std::ios_base::eofbit; return s; } else if (*s != '{') { // mandatory '{' err |= std::ios_base::failbit; return s; } ++s; s = std::use_facet >(ios.getloc()).get(s, end, ios, err, r.real); if (s == end) { err |= std::ios_base::eofbit; return s; } else if (*s != ';') { // mandatory ';' err |= std::ios_base::failbit; return s; } ++s; s = std::use_facet >(ios.getloc()).get(s, end, ios, err, r.user); if (s == end) { err |= std::ios_base::eofbit; return s; } else if (*s != ';') { // mandatory ';' err |= std::ios_base::failbit; return s; } ++s; s = std::use_facet >(ios.getloc()).get(s, end, ios, err, r.system); if (s == end) { err |= std::ios_base::eofbit; return s; } else if (*s != '}') { // mandatory '}' err |= std::ios_base::failbit; return s; } return s; } /** * * @param s start input stream iterator * @param e end input stream iterator * @param ios a reference to a ios_base * @param err the ios_base state * @param rt a reference to the duration run-time ratio. * @Returns An iterator pointing just beyond the last character that can be determined to be part of a valid name */ iter_type get_unit(iter_type i, iter_type e, std::ios_base& is, std::ios_base::iostate& err, rt_ratio &rt) const { if (std::has_facet >(is.getloc())) { return get_unit(std::use_facet >(is.getloc()), i, e, is, err, rt); } else { duration_units_default facet; return get_unit(facet, i, e, is, err, rt); } } iter_type get_unit(duration_units const &facet, iter_type i, iter_type e, std::ios_base& is, std::ios_base::iostate& err, rt_ratio &rt) const { if (*i == '[') { // parse [N/D]s or [N/D]second or [N/D]seconds format ++i; i = std::use_facet >(is.getloc()).get(i, e, is, err, rt.num); if ( (err & std::ios_base::failbit) != 0) { return i; } if (i == e) { err |= std::ios_base::failbit; return i; } CharT x = *i++; if (x != '/') { err |= std::ios_base::failbit; return i; } i = std::use_facet >(is.getloc()).get(i, e, is, err, rt.den); if ( (err & std::ios_base::failbit) != 0) { return i; } if (i == e) { err |= std::ios_base::failbit; return i; } if (*i != ']') { err |= std::ios_base::failbit; return i; } ++i; if (i == e) { err |= std::ios_base::failbit; return i; } // parse s or second or seconds return do_get_n_d_valid_unit(facet, i, e, is, err); } else { return do_get_valid_unit(facet, i, e, is, err, rt); } } /** * Unique identifier for this type of facet. */ static std::locale::id id; /** * @Effects Destroy the facet */ ~duration_get() { } protected: /** * Extracts the run-time ratio associated to the duration when it is given in prefix form. * * This is an extension point of this facet so that we can take in account other periods that can have a useful * translation in other contexts, as e.g. days and weeks. * * @param facet the duration_units facet * @param i start input stream iterator. * @param e end input stream iterator. * @param ios a reference to a ios_base. * @param err the ios_base state. * @return @c s */ iter_type do_get_n_d_valid_unit(duration_units const &facet, iter_type i, iter_type e, std::ios_base&, std::ios_base::iostate& err) const { // parse SI name, short or long const string_type* units = facet.get_n_d_valid_units_start(); const string_type* units_end = facet.get_n_d_valid_units_end(); const string_type* k = chrono_detail::scan_keyword(i, e, units, units_end, //~ std::use_facet >(loc), err); if (err & (std::ios_base::badbit | std::ios_base::failbit)) { return i; } if (!facet.match_n_d_valid_unit(k)) { err |= std::ios_base::failbit; } return i; } /** * Extracts the run-time ratio associated to the duration when it is given in prefix form. * * This is an extension point of this facet so that we can take in account other periods that can have a useful * translation in other contexts, as e.g. days and weeks. * * @param facet the duration_units facet * @param i start input stream iterator. * @param e end input stream iterator. * @param ios a reference to a ios_base. * @param err the ios_base state. * @param rt a reference to the duration run-time ratio. * @Effects * @Returns An iterator pointing just beyond the last character that can be determined to be part of a valid name. */ iter_type do_get_valid_unit(duration_units const &facet, iter_type i, iter_type e, std::ios_base&, std::ios_base::iostate& err, rt_ratio &rt) const { // parse SI name, short or long const string_type* units = facet.get_valid_units_start(); const string_type* units_end = facet.get_valid_units_end(); err = std::ios_base::goodbit; const string_type* k = chrono_detail::scan_keyword(i, e, units, units_end, //~ std::use_facet >(loc), err); if (err & (std::ios_base::badbit | std::ios_base::failbit)) { return i; } if (!facet.match_valid_unit(k, rt)) { err |= std::ios_base::failbit; } return i; } }; /** * Unique identifier for this type of facet. */ template std::locale::id duration_get::id; } // chrono } // boost #endif // header