static void
DisplayParsedMETAR(const NOAAStore::Item &station)
{
if (!station.parsed_metar_available) {
printf("METAR parsing failed!\n");;
return;
}
const ParsedMETAR &parsed = station.parsed_metar;
printf("Parsed Data:\n");
if (parsed.name_available)
_tprintf(_T("Name: %s\n"), parsed.name.c_str());
if (parsed.location_available) {
TCHAR buffer[256];
FormatGeoPoint(parsed.location, buffer, ARRAY_SIZE(buffer),
CoordinateFormat::DDMMSS);
_tprintf(_T("Location: %s\n"), buffer);
}
if (parsed.qnh_available) {
TCHAR buffer[256];
FormatUserPressure(parsed.qnh, buffer, ARRAY_SIZE(buffer));
_tprintf(_T("QNH: %s\n"), buffer);
}
if (parsed.wind_available) {
TCHAR buffer[256];
FormatUserWindSpeed(parsed.wind.norm, buffer, ARRAY_SIZE(buffer));
_tprintf(_T("Wind: %.0f" DEG " %s\n"),
(double)parsed.wind.bearing.Degrees(), buffer);
}
if (parsed.temperatures_available) {
TCHAR buffer[256];
FormatUserTemperature(parsed.temperature, buffer, ARRAY_SIZE(buffer));
_tprintf(_T("Temperature: %s\n"), buffer);
FormatUserTemperature(parsed.dew_point, buffer, ARRAY_SIZE(buffer));
_tprintf(_T("Dew point: %s\n"), buffer);
}
if (parsed.visibility_available) {
TCHAR buffer[256];
if (parsed.visibility >= 9999)
_tcscpy(buffer, _T("unlimited"));
else {
fixed visibility(parsed.visibility);
FormatUserDistanceSmart(visibility, buffer, ARRAY_SIZE(buffer));
}
_tprintf(_T("Visibility: %s\n"), buffer);
}
printf("\n");
}
void
UpdateInfoBoxWindBearing(InfoBoxData &data)
{
const DerivedInfo &info = CommonInterface::Calculated();
if (!info.wind_available) {
data.SetInvalid();
return;
}
data.SetValue(info.wind.bearing);
TCHAR buffer[16];
FormatUserWindSpeed(info.wind.norm, buffer, true, false);
data.SetComment(buffer);
}
void
InfoBoxContentWindArrow::Update(InfoBoxData &data)
{
const DerivedInfo &info = CommonInterface::Calculated();
if (!info.wind_available || info.wind.IsZero()) {
data.SetInvalid();
return;
}
data.SetCustom();
TCHAR speed_buffer[16], bearing_buffer[16];
FormatUserWindSpeed(info.wind.norm, speed_buffer, true, false);
FormatBearing(bearing_buffer, ARRAY_SIZE(bearing_buffer), info.wind.bearing);
StaticString<32> buffer;
buffer.Format(_T("%s / %s"), bearing_buffer, speed_buffer);
data.SetComment(buffer);
}
static bool
FormatDecodedMETARLine(const TCHAR *line, unsigned length,
const ParsedMETAR &parsed, tstring &output)
{
const TCHAR *end = line + length;
const TCHAR *colon = (const TCHAR *)memchr(line, _T(':'), length);
if (!colon)
return false;
unsigned title_length = colon - line;
if (title_length == 0)
return false;
const TCHAR *value = colon + 1;
while (*value == _T(' '))
value++;
unsigned value_length = end - value;
if (CheckTitle(line, title_length, _T("Wind"))) {
StaticString<256> buffer;
if (!parsed.wind_available) {
buffer.Format(_T("%s: "), _("Wind"));
buffer.append(value, value_length);
} else {
TCHAR wind_speed_buffer[16];
FormatUserWindSpeed(parsed.wind.norm, wind_speed_buffer,
ARRAY_SIZE(wind_speed_buffer));
buffer.Format(_T("%s: %.0f" DEG " %s"), _("Wind"),
(double)parsed.wind.bearing.Degrees(), wind_speed_buffer);
}
output += buffer;
output += '\n';
return true;
}
if (CheckTitle(line, title_length, _T("Temperature"))) {
StaticString<256> buffer;
if (!parsed.temperatures_available) {
buffer.Format(_T("%s: "), _("Temperature"));
buffer.append(value, value_length);
} else {
TCHAR temperature_buffer[16];
FormatUserTemperature(parsed.temperature, temperature_buffer,
ARRAY_SIZE(temperature_buffer));
buffer.Format(_T("%s: %s"), _("Temperature"), temperature_buffer);
}
output += buffer;
output += '\n';
return true;
}
if (CheckTitle(line, title_length, _T("Dew Point"))) {
StaticString<256> buffer;
if (!parsed.temperatures_available) {
buffer.Format(_T("%s: "), _("Dew Point"));
buffer.append(value, value_length);
} else {
TCHAR temperature_buffer[16];
FormatUserTemperature(parsed.dew_point, temperature_buffer,
ARRAY_SIZE(temperature_buffer));
buffer.Format(_T("%s: %s"), _("Dew Point"), temperature_buffer);
}
output += buffer;
output += '\n';
return true;
}
if (CheckTitle(line, title_length, _T("Pressure (altimeter)"))) {
StaticString<256> buffer;
if (!parsed.qnh_available) {
buffer.Format(_T("%s: "), _("Pressure"));
buffer.append(value, value_length);
} else {
TCHAR qnh_buffer[16];
FormatUserPressure(parsed.qnh, qnh_buffer, ARRAY_SIZE(qnh_buffer));
buffer.Format(_T("%s: %s"), _("Pressure"), qnh_buffer);
}
output += buffer;
output += '\n';
return true;
}
if (CheckTitle(line, title_length, _T("Visibility"))) {
StaticString<256> buffer;
buffer.Format(_T("%s: "), _("Visibility"));
if (!parsed.qnh_available) {
buffer.append(value, value_length);
} else {
TCHAR vis_buffer[32];
if (parsed.visibility >= 9999) {
FormatUserDistanceSmart(fixed(10000),
vis_buffer, ARRAY_SIZE(vis_buffer));
buffer.AppendFormat(_("more than %s"), vis_buffer);
} else {
FormatUserDistanceSmart(fixed(parsed.visibility),
vis_buffer, ARRAY_SIZE(vis_buffer));
buffer += vis_buffer;
}
}
output += buffer;
output += '\n';
return true;
}
if (CheckTitle(line, title_length, _T("Sky conditions"))) {
StaticString<256> buffer;
buffer.Format(_T("%s: "), _("Sky Conditions"));
StaticString<64> _value;
_value.set(value, value_length);
buffer += gettext(_value);
output += buffer;
output += '\n';
return true;
}
if (CheckTitle(line, title_length, _T("Weather"))) {
StaticString<256> buffer;
buffer.Format(_T("%s: "), _("Weather"));
StaticString<64> _value;
_value.set(value, value_length);
buffer += gettext(_value);
output += buffer;
output += '\n';
return true;
}
StaticString<64> title;
title.set(line, title_length);
StaticString<256> buffer;
buffer.Format(_T("%s: "), gettext(title.c_str()));
buffer.append(value, value_length);
output += buffer;
output += '\n';
return true;
}
