// print test parameters for current delay time
void
Responder::print_formatted_delay_line(const uint64_t simulate_duration, const uint64_t old_simulate_duration, const STATS& statsPrev, const double delay, const double simulate_frequency)
{
if(_y_delay_pos < 0 || _x_delay_pos < 0){ // make sure it gets printed to the same position everytime
getyx(_window, _y_delay_pos, _x_delay_pos);
}
double score = 0.0;
if (statsPrev.detected > 0)
score = 100.0 * (double)(statsPrev.detected - statsPrev.missed) / (double)statsPrev.detected;
std::string form;
boost::format fmt0("Delay now: %.6f (previous delay %.6f scored %.1f%% [%ld / %ld])");
fmt0 % delay % statsPrev.delay % score % (statsPrev.detected - statsPrev.missed) % statsPrev.detected;
form += fmt0.str();
if (old_simulate_duration != simulate_duration)
{
boost::format fmt1(" [Simulation rate now: %.1f Hz (%ld samples)]");
fmt1 % simulate_frequency % simulate_duration;
form = form + fmt1.str();
}
move(_y_delay_pos, _x_delay_pos);
print_msg(form);
}
void PatternFormatter::format(const Message& msg, std::string& text)
{
Timestamp timestamp = msg.getTime();
if (_localTime)
{
timestamp += Timezone::utcOffset()*Timestamp::resolution();
timestamp += Timezone::dst()*Timestamp::resolution();
}
DateTime dateTime = timestamp;
std::string::const_iterator it = _pattern.begin();
std::string::const_iterator end = _pattern.end();
while (it != end)
{
if (*it == '%')
{
if (++it != end)
{
switch (*it)
{
case 's': text.append(msg.getSource()); break;
case 't': text.append(msg.getText()); break;
case 'l': fmt(text, (int) msg.getPriority()); break;
case 'p': text.append(getPriorityName((int) msg.getPriority())); break;
case 'q': text += getPriorityName((int) msg.getPriority()).at(0); break;
case 'P': fmt(text, msg.getPid()); break;
case 'T': text.append(msg.getThread()); break;
case 'I': fmt(text, msg.getTid()); break;
case 'N': text.append(Environment::nodeName()); break;
case 'w': text.append(DateTimeFormat::WEEKDAY_NAMES[dateTime.dayOfWeek()], 0, 3); break;
case 'W': text.append(DateTimeFormat::WEEKDAY_NAMES[dateTime.dayOfWeek()]); break;
case 'b': text.append(DateTimeFormat::MONTH_NAMES[dateTime.month() - 1], 0, 3); break;
case 'B': text.append(DateTimeFormat::MONTH_NAMES[dateTime.month() - 1]); break;
case 'd': fmt0(text, dateTime.day(), 2); break;
case 'e': fmt(text, dateTime.day()); break;
case 'f': fmt(text, dateTime.day(), 2); break;
case 'm': fmt0(text, dateTime.month(), 2); break;
case 'n': fmt(text, dateTime.month()); break;
case 'o': fmt(text, dateTime.month(), 2); break;
case 'y': fmt0(text, dateTime.year() % 100, 2); break;
case 'Y': fmt0(text, dateTime.year(), 4); break;
case 'H': fmt0(text, dateTime.hour(), 2); break;
case 'h': fmt0(text, dateTime.hourAMPM(), 2); break;
case 'a': text.append(dateTime.isAM() ? "am" : "pm"); break;
case 'A': text.append(dateTime.isAM() ? "AM" : "PM"); break;
case 'M': fmt0(text, dateTime.minute(), 2); break;
case 'S': fmt0(text, dateTime.second(), 2); break;
case 'i': fmt0(text, dateTime.millisecond(), 3); break;
case 'c': fmt(text, dateTime.millisecond()/100); break;
case 'z': text.append(DateTimeFormatter::tzdISO(_localTime ? Timezone::tzd() : DateTimeFormatter::UTC)); break;
case 'Z': text.append(DateTimeFormatter::tzdRFC(_localTime ? Timezone::tzd() : DateTimeFormatter::UTC)); break;
case '[':
{
++it;
std::string prop;
while (it != end && *it != ']') prop += *it++;
if (it == end) --it;
try
{
text.append(msg[prop]);
}
catch (...)
{
}
break;
}
default: text += *it;
}
++it;
}
}
else text += *it++;
}
}
