Exemplo n.º 1
0
void DateTime::format(std::string& str, const std::string& fmt, int timeZoneDifferential)
{
    std::string::const_iterator it  = fmt.begin();
    std::string::const_iterator end = fmt.end();
    while (it != end)
    {
        if (*it == '%')
        {
            if (++it != end)
            {
                switch (*it)
                {
                case 'w': str.append(WEEKDAY_NAMES[dayOfWeek()], 0, 3); break;
                case 'W': str.append(WEEKDAY_NAMES[dayOfWeek()]); break;
                case 'b': str.append(MONTH_NAMES[month() - 1], 0, 3); break;
                case 'B': str.append(MONTH_NAMES[month() - 1]); break;
                case 'd': NumberFormatter::append0(str, (int32_t)day(), 2); break;
                case 'e': NumberFormatter::append(str, (int32_t)day()); break;
                case 'f': NumberFormatter::append(str, (int32_t)day(), 2); break;
                case 'm': NumberFormatter::append0(str, (int32_t)month(), 2); break;
                case 'n': NumberFormatter::append(str, (int32_t)month()); break;
                case 'o': NumberFormatter::append(str, (int32_t)month(), 2); break;
                case 'y': NumberFormatter::append0(str, (int32_t)year() % 100, 2); break;
                case 'Y': NumberFormatter::append0(str, (int32_t)year(), 4); break;
                case 'H': NumberFormatter::append0(str, (int32_t)hour(), 2); break;
                case 'h': NumberFormatter::append0(str, (int32_t)hourAMPM(), 2); break;
                case 'a': str.append(isAM() ? "am" : "pm"); break;
                case 'A': str.append(isAM() ? "AM" : "PM"); break;
                case 'M': NumberFormatter::append0(str, (int32_t)minute(), 2); break;
                case 'S': NumberFormatter::append0(str, (int32_t)second(), 2); break;
                case 'i': NumberFormatter::append0(str, (int32_t)millisecond(), 3); break;
                case 'c': NumberFormatter::append(str, (int32_t)millisecond()/100); break;
                case 'F': NumberFormatter::append0(str, (int32_t)millisecond()*1000 + microsecond(), 6); break;
                case 'z': tzdISO(str, timeZoneDifferential); break;
                case 'Z': tzdRFC(str, timeZoneDifferential); break;
                default:  str += *it;
                }
                ++it;
            }
        }
        else str += *it++;
    }
}
Exemplo n.º 2
0
/**
 * @return 1 if the configuration file has changed since last check, 0 otherwise
 */
int dynamic_configuration_changed()
{
    long long * last_change = dynamic_configuration_get_last_change();
    long long new_change;
    struct stat stats;
    if(*last_change == 0) *last_change = millisecond_clock();
    if(stat(dynamic_configuration_get_path(), &stats) != 0)
        return 0;
    new_change = millisecond(&stats);
    if(new_change <= *last_change) return 0;
    *last_change = new_change;
    return 1;
}
Exemplo n.º 3
0
void speed_test()
{
	{
		meter m(100);
		second s(10);

		speed sp = m / s;
		assert(sp.value() == 10);
	}
	{
		millimeter mm (100000);
		second s(10);

		speed sp = mm / millisecond(s);
		speed sp2 = meter(mm) / s;

		assert(sp.value() == 10);
		assert(sp2.value() == 10);
	}

	cout << "speed test:\t\t Pass" << endl;
}
Exemplo n.º 4
0
 const Timespan::Unit Timespan::Unit::second ()
 {
     return (Value(1000) * millisecond().ticks());
 }