KLN89_MODE_CRSR
};
+enum KLN89DistanceUnits {
+ GPS_DIST_UNITS_NM = 0,
+ GPS_DIST_UNITS_KM
+};
+
+enum KLN89SpeedUnits {
+ GPS_VEL_UNITS_KT,
+ GPS_VEL_UNITS_KPH
+};
+
+enum KLN89AltitudeUnits {
+ GPS_ALT_UNITS_FT,
+ GPS_ALT_UNITS_M
+};
+
+enum KLN89PressureUnits {
+ GPS_PRES_UNITS_IN = 1,
+ GPS_PRES_UNITS_MB,
+ GPS_PRES_UNITS_HP
+};
+
/*
const char* KLN89TimeCodes[20] = { "UTC", "GST", "GDT", "ATS", "ATD", "EST", "EDT", "CST", "CDT", "MST",
"MDT", "PST", "PDT", "AKS", "AKD", "HAS", "HAD", "SST", "SDT", "LCL" };
*/
// Used for storing airport town and county mapped by ID, since currently FG does not store this
-typedef map<string, string> airport_id_str_map_type;
+typedef std::map<std::string, std::string> airport_id_str_map_type;
typedef airport_id_str_map_type::iterator airport_id_str_map_iterator;
-typedef vector<KLN89Page*> kln89_page_list_type;
+typedef std::vector<KLN89Page*> kln89_page_list_type;
typedef kln89_page_list_type::iterator kln89_page_list_itr;
class KLN89 : public DCLGPS {
void init();
void update(double dt);
+ // Set Units
+ // m if true, ft if false
+ inline void SetAltUnitsSI(bool b) { _altUnits = (b ? GPS_ALT_UNITS_M : GPS_ALT_UNITS_FT); }
+ // Returns true if alt units are SI (m), false if ft
+ inline bool GetAltUnitsSI() { return(_altUnits == GPS_ALT_UNITS_M ? true : false); }
+ // km and k/h if true, nm and kt if false
+ inline void SetDistVelUnitsSI(bool b) { _distUnits = (b ? GPS_DIST_UNITS_KM : GPS_DIST_UNITS_NM); _velUnits = (b ? GPS_VEL_UNITS_KPH : GPS_VEL_UNITS_KT); }
+ // Returns true if dist/vel units are SI
+ inline bool GetDistVelUnitsSI() { return(_distUnits == GPS_DIST_UNITS_KM && _velUnits == GPS_VEL_UNITS_KPH ? true : false); }
+ // Set baro units - 1 = in, 2 = mB, 3 = hP Wrapping if for the convienience of the GPS setter.
+ void SetBaroUnits(int n, bool wrap = false);
+ // Get baro units: 1 = in, 2 = mB, 3 = hP
+ inline int GetBaroUnits() { return((int)_baroUnits); }
+
inline void SetTurnAnticipation(bool b) { _turnAnticipationEnabled = b; }
inline bool GetTurnAnticipation() { return(_turnAnticipationEnabled); }
void ToggleOBSMode();
// Initiate Direct To operation to the supplied ID.
- void DtoInitiate(const string& id);
+ void DtoInitiate(const std::string& id);
//----------------------- Drawing functions which take CHARACTER units -------------------------
// Render string s in display field field at position x, y
// WHERE POSITION IS IN CHARACTER UNITS!
// zero y at bottom?
// invert: -1 => no inversion, 0 -> n => 1 char - s[invert] gets inverted, 99 => entire string gets inverted
- void DrawText(const string& s, int field, int px, int py, bool bold = false, int invert = -1);
+ void DrawText(const std::string& s, int field, int px, int py, bool bold = false, int invert = -1);
void DrawLatitude(double d, int field, int px, int py);
void DrawLongitude(double d, int field, int px, int py);
// Draw an airport or waypoint label on the moving map
// Specify position by the map pixel co-ordinate of the left or right, bottom, of the *visible* portion of the label.
// The black background quad will automatically overlap this by 1 pixel.
- void DrawLabel(const string& s, int x1, int y1, bool right_align = false);
+ void DrawLabel(const std::string& s, int x1, int y1, bool right_align = false);
int GetLabelQuadrant(double h);
int GetLabelQuadrant(double h1, double h2);
void DrawLine(int x1, int y1, int x2, int y2);
// Draw normal sized text on the moving map
- void DrawMapText(const string& s, int x, int y, bool draw_background = false);
+ void DrawMapText(const std::string& s, int x, int y, bool draw_background = false);
void DrawMapUpArrow(int x, int y);
bool _dtoReview; // Set true when we a reviewing a waypoint for DTO operation.
// Configuration settings that the user can set via. the KLN89 SET pages.
+ KLN89SpeedUnits _velUnits;
+ KLN89DistanceUnits _distUnits;
+ KLN89PressureUnits _baroUnits;
+ KLN89AltitudeUnits _altUnits;
bool _suaAlertEnabled; // Alert user to potential SUA entry
bool _altAlertEnabled; // Alert user to min safe alt violation
int _minDisplayBrightness; // Minimum display brightness in low light.