Esempio n. 1
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void
UpdateInfoBoxNextDistance(InfoBoxData &data)
{
  const Waypoint* way_point = protected_task_manager != NULL
    ? protected_task_manager->GetActiveWaypoint()
    : NULL;

  // Set title
  if (!way_point)
    data.SetTitle(_("WP Dist"));
  else
    data.SetTitle(way_point->name.c_str());

  // use proper non-terminal next task stats

  const NMEAInfo &basic = CommonInterface::Basic();
  const TaskStats &task_stats = CommonInterface::Calculated().task_stats;
  const GeoVector &vector_remaining = task_stats.current_leg.vector_remaining;
  if (!task_stats.task_valid || !vector_remaining.IsValid()) {
    data.SetInvalid();
    return;
  }

  // Set Value
  data.SetValueFromDistance(vector_remaining.distance);
  data.SetValueColor(task_stats.inside_oz ? 3 : 0);

  if (basic.track_available) {
    Angle bd = vector_remaining.bearing - basic.track;
    data.SetCommentFromBearingDifference(bd);
  } else
    data.SetCommentInvalid();
}
Esempio n. 2
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void
UpdateInfoBoxNextDistanceNominal(InfoBoxData &data)
{
  const Waypoint* way_point = protected_task_manager != NULL
    ? protected_task_manager->GetActiveWaypoint()
    : NULL;

  if (!way_point) {
    data.SetInvalid();
    return;
  }

  const NMEAInfo &basic = CommonInterface::Basic();
  const TaskStats &task_stats = CommonInterface::Calculated().task_stats;

  if (!task_stats.task_valid || !basic.location_available) {
      data.SetInvalid();
      return;
  }

  const GeoVector vector(basic.location, way_point->location);

  if (!vector.IsValid()) {
      data.SetInvalid();
      return;
  }

  // Set Value
  data.SetValueFromDistance(vector.distance);
  data.SetValueColor(task_stats.inside_oz ? 3 : 0);
  data.SetComment(vector.bearing);
}
Esempio n. 3
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void
UpdateInfoBoxTaskAATimeDelta(InfoBoxData &data)
{
  const auto &calculated = CommonInterface::Calculated();
  const TaskStats &task_stats = calculated.ordered_task_stats;
  const CommonStats &common_stats = calculated.common_stats;

  if (!task_stats.has_targets ||
      !task_stats.total.IsAchievable()) {
    data.SetInvalid();
    return;
  }

  assert(!negative(task_stats.total.time_remaining_start));

  fixed diff = task_stats.total.time_remaining_start -
    common_stats.aat_time_remaining;

  TCHAR value[32];
  TCHAR comment[32];
  const int dd = abs((int)diff);
  FormatTimeTwoLines(value, comment, dd);

  data.UnsafeFormatValue(negative(diff) ? _T("-%s") : _T("%s"), value);

  data.SetComment(comment);

  // Set Color (red/blue/black)
  data.SetValueColor(negative(diff) ? 1 :
                   task_stats.total.time_remaining_start >
                       common_stats.aat_time_remaining + fixed(5*60) ? 2 : 0);
}
Esempio n. 4
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void
InfoBoxContentTaskAATimeDelta::Update(InfoBoxData &data)
{
  const TaskStats &task_stats = XCSoarInterface::Calculated().task_stats;
  const CommonStats &common_stats = XCSoarInterface::Calculated().common_stats;

  if (!common_stats.ordered_has_targets ||
      !task_stats.task_valid || !task_stats.total.IsAchievable()) {
    data.SetInvalid();
    return;
  }

  assert(!negative(task_stats.total.time_remaining));

  fixed diff = task_stats.total.time_remaining -
    common_stats.aat_time_remaining;

  TCHAR HHMMSSsmart[32];
  TCHAR SSsmart[32];
  const int dd = abs((int)diff);
  Units::TimeToTextSmart(HHMMSSsmart, SSsmart, dd);

  data.UnsafeFormatValue(negative(diff) ? _T("-%s") : _T("%s"), HHMMSSsmart);

  data.SetComment(SSsmart);

  // Set Color (red/blue/black)
  data.SetValueColor(negative(diff) ? 1 :
                   task_stats.total.time_remaining >
                       common_stats.aat_time_remaining + fixed(5*60) ? 2 : 0);
}
Esempio n. 5
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void
InfoBoxContentAlternateGR::Update(InfoBoxData &data)
{
  if (protected_task_manager == NULL) {
    data.SetInvalid();
    return;
  }

  ProtectedTaskManager::Lease lease(*protected_task_manager);
  const AlternateList &alternates = lease->GetAlternates();

  const AlternatePoint *alternate;
  if (!alternates.empty()) {
    if (index >= alternates.size())
      index = alternates.size() - 1;

    alternate = &alternates[index];
  } else {
    alternate = NULL;
  }

  data.FormatTitle(_T("Altn %d GR"), index + 1);

  if (alternate == NULL) {
    data.SetInvalid();
    return;
  }

  data.SetComment(alternate->waypoint.name.c_str());

  fixed gradient =
    ::AngleToGradient(alternate->solution.DestinationAngleGround());

  if (negative(gradient)) {
    data.SetValueColor(0);
    data.SetValue(_T("+++"));
    return;
  }
  if (::GradientValid(gradient)) {
    data.SetValueFromGlideRatio(gradient);
  } else {
    data.SetInvalid();
  }

  // Set Color (blue/black)
  data.SetValueColor(alternate->solution.IsFinalGlide() ? 2 : 0);
}
Esempio n. 6
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void
UpdateInfoBoxThermal30s(InfoBoxData &data)
{
  SetVSpeed(data, CommonInterface::Calculated().average);

  // Set Color (red/black)
  data.SetValueColor(Double(CommonInterface::Calculated().average) <
      CommonInterface::Calculated().common_stats.current_risk_mc ? 1 : 0);
}
Esempio n. 7
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void
UpdateInfoBoxStartOpenArrival(InfoBoxData &data)
{
  const NMEAInfo &basic = CommonInterface::Basic();
  const auto &calculated = CommonInterface::Calculated();
  const TaskStats &task_stats = calculated.ordered_task_stats;
  const GlideResult &current_remaining =
    task_stats.current_leg.solution_remaining;
  const CommonStats &common_stats = CommonInterface::Calculated().common_stats;
  const RoughTimeSpan &open = common_stats.start_open_time_span;

  /* reset color that may have been set by a previous call */
  data.SetValueColor(0);

  if (!basic.time_available || !task_stats.task_valid ||
      common_stats.ordered_summary.active != 0 ||
      !open.IsDefined() ||
      !current_remaining.IsOk()) {
    data.SetInvalid();
    return;
  }

  const unsigned arrival_s(basic.time + current_remaining.time_elapsed);
  const RoughTime arrival = RoughTime::FromSecondOfDayChecked(arrival_s);

  if (open.HasEnded(arrival)) {
    data.SetValueInvalid();
    data.SetComment(_("Closed"));
  } else if (open.HasBegun(arrival)) {
    if (open.GetEnd().IsValid()) {
      unsigned seconds = SecondsUntil(arrival_s, open.GetEnd());
      data.UnsafeFormatValue(_T("%02u:%02u"), seconds / 60, seconds % 60);
      data.SetValueColor(3);
    } else
      data.SetValueInvalid();

    data.SetComment(_("Open"));
  } else {
    unsigned seconds = SecondsUntil(arrival_s, open.GetStart());
    data.UnsafeFormatValue(_T("%02u:%02u"), seconds / 60, seconds % 60);
    data.SetValueColor(2);
    data.SetComment(_("Waiting"));
  }
}
Esempio n. 8
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void
InfoBoxContentVarioDistance::Update(InfoBoxData &data)
{
  if (!XCSoarInterface::Calculated().task_stats.task_valid) {
    data.SetInvalid();
    return;
  }

  SetVSpeed(data,
            XCSoarInterface::Calculated().task_stats.total.vario.get_value());

  // Set Color (red/black)
  data.SetValueColor(negative(
      XCSoarInterface::Calculated().task_stats.total.vario.get_value()) ? 1 : 0);
}
Esempio n. 9
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void
UpdateInfoBoxBearing(InfoBoxData &data)
{
  const TaskStats &task_stats = CommonInterface::Calculated().task_stats;
  const GeoVector &vector_remaining = task_stats.current_leg.vector_remaining;
  if (!task_stats.task_valid || !vector_remaining.IsValid() ||
      vector_remaining.distance <= fixed(10)) {
    data.SetInvalid();
    return;
  }

  // Set Value
  data.SetValue(vector_remaining.bearing);
  data.SetValueColor(task_stats.inside_oz ? 3 : 0);
}
Esempio n. 10
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void
UpdateInfoBoxThermalAvg(InfoBoxData &data)
{
  const OneClimbInfo &thermal = CommonInterface::Calculated().current_thermal;
  if (!thermal.IsDefined()) {
    data.SetInvalid();
    return;
  }

  SetVSpeed(data, thermal.lift_rate);

  // Set Color (red/black)
  data.SetValueColor(thermal.lift_rate * fixed(1.5) <
      CommonInterface::Calculated().common_stats.current_risk_mc ? 1 : 0);
}
Esempio n. 11
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void
UpdateInfoBoxVarioDistance(InfoBoxData &data)
{
  if (!CommonInterface::Calculated().task_stats.task_valid) {
    data.SetInvalid();
    return;
  }

  SetVSpeed(data,
            CommonInterface::Calculated().task_stats.total.vario.get_value());

  // Set Color (red/black)
  data.SetValueColor(negative(
      CommonInterface::Calculated().task_stats.total.vario.get_value()) ? 1 : 0);
}
Esempio n. 12
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void
UpdateInfoBoxBearingDiff(InfoBoxData &data)
{
  const NMEAInfo &basic = CommonInterface::Basic();
  const TaskStats &task_stats = CommonInterface::Calculated().task_stats;
  const GeoVector &vector_remaining = task_stats.current_leg.vector_remaining;
  if (!basic.track_available || !task_stats.task_valid ||
      !vector_remaining.IsValid() || vector_remaining.distance <= fixed(10)) {
    data.SetInvalid();
    return;
  }

  Angle Value = vector_remaining.bearing - basic.track;
  data.SetValueFromBearingDifference(Value);
  data.SetValueColor(task_stats.inside_oz ? 3 : 0);
}
Esempio n. 13
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void
InfoBoxContentAltitudeAGL::Update(InfoBoxData &data)
{
  const DerivedInfo &calculated = CommonInterface::Calculated();

  if (!calculated.altitude_agl_valid) {
    data.SetInvalid();
    return;
  }

  data.SetValueFromAltitude(calculated.altitude_agl);
  data.SetCommentFromAlternateAltitude(calculated.altitude_agl);

  // Set Color (red/black)
  data.SetValueColor(calculated.altitude_agl <
      XCSoarInterface::GetComputerSettings().task.route_planner.safety_height_terrain ? 1 : 0);
}
Esempio n. 14
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void
InfoBoxContentNextWaypoint::Update(InfoBoxData &data)
{
  // use proper non-terminal next task stats

  const Waypoint* way_point = protected_task_manager != NULL
    ? protected_task_manager->GetActiveWaypoint()
    : NULL;

  if (!way_point) {
    data.SetTitle(_("Next"));
    data.SetInvalid();
    return;
  }

  data.SetTitle(way_point->name.c_str());

  // Set Comment
  if (way_point->radio_frequency.IsDefined()) {
    const unsigned freq = way_point->radio_frequency.GetKiloHertz();
    data.FormatComment(_T("%u.%03u %s"),
                       freq / 1000, freq % 1000, way_point->comment.c_str());
  }
  else
    data.SetComment(way_point->comment.c_str());

  const NMEAInfo &basic = CommonInterface::Basic();
  const TaskStats &task_stats = CommonInterface::Calculated().task_stats;
  const GlideResult &solution_remaining =
    task_stats.current_leg.solution_remaining;
  const GeoVector &vector_remaining = task_stats.current_leg.vector_remaining;
  if (!basic.track_available || !task_stats.task_valid ||
      !vector_remaining.IsValid()) {
    data.SetValueInvalid();
    return;
  }

  // Set Value
  Angle Value = vector_remaining.bearing - basic.track;
  data.SetValueFromBearingDifference(Value);

  // Set Color (blue/black)
  data.SetValueColor(solution_remaining.IsFinalGlide() ? 2 : 0);
}
Esempio n. 15
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void
InfoBoxContentAlternateName::Update(InfoBoxData &data)
{
  if (protected_task_manager == NULL) {
    data.SetInvalid();
    return;
  }

  ProtectedTaskManager::Lease lease(*protected_task_manager);
  const AlternateList &alternates = lease->GetAlternates();

  const AlternatePoint *alternate;
  if (!alternates.empty()) {
    if (index >= alternates.size())
      index = alternates.size() - 1;

    alternate = &alternates[index];
  } else {
    alternate = NULL;
  }

  data.FormatTitle(_("Altn %d"), index + 1);

  if (alternate == NULL || !CommonInterface::Basic().track_available) {
    data.SetInvalid();
    return;
  }

  data.SetComment(alternate->waypoint.name.c_str());

  // Set Value
  Angle Value = alternate->solution.vector.bearing -
    CommonInterface::Basic().track;

  data.SetValueFromBearingDifference(Value);

  // Set Color (blue/black)
  data.SetValueColor(alternate->solution.IsFinalGlide() ? 2 : 0);
}
Esempio n. 16
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void
InfoBoxContentTaskAATime::Update(InfoBoxData &data)
{
  const TaskStats &task_stats = XCSoarInterface::Calculated().task_stats;
  const CommonStats &common_stats = XCSoarInterface::Calculated().common_stats;

  if (!common_stats.ordered_has_targets ||
      !task_stats.task_valid || !task_stats.total.IsAchievable()) {
    data.SetInvalid();
    return;
  }

  TCHAR value[32];
  TCHAR comment[32];
  FormatTimeTwoLines(value, comment,
                         abs((int) common_stats.aat_time_remaining));

  data.UnsafeFormatValue(negative(common_stats.aat_time_remaining) ?
                            _T("-%s") : _T("%s"), value);
  data.SetValueColor(negative(common_stats.aat_time_remaining) ? 1 : 0);

  data.SetComment(comment);
}
Esempio n. 17
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void
UpdateInfoBoxTaskAATime(InfoBoxData &data)
{
  const auto &calculated = CommonInterface::Calculated();
  const TaskStats &task_stats = calculated.ordered_task_stats;
  const CommonStats &common_stats = calculated.common_stats;

  if (!task_stats.has_targets ||
      !task_stats.total.IsAchievable()) {
    data.SetInvalid();
    return;
  }

  TCHAR value[32];
  TCHAR comment[32];
  FormatTimeTwoLines(value, comment,
                         abs((int) common_stats.aat_time_remaining));

  data.UnsafeFormatValue(common_stats.aat_time_remaining < 0 ?
                            _T("-%s") : _T("%s"), value);
  data.SetValueColor(common_stats.aat_time_remaining < 0 ? 1 : 0);

  data.SetComment(comment);
}