ardupilot/libraries/AP_OSD/AP_OSD_Screen.cpp

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/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* AP_OSD partially based on betaflight and inav osd.c implemention.
* clarity.mcm font is taken from inav configurator.
* Many thanks to their authors.
*/
/*
parameter settings for one screen
*/
#include "AP_OSD.h"
#include "AP_OSD_Backend.h"
#include <AP_HAL/AP_HAL.h>
#include <AP_HAL/Util.h>
#include <AP_AHRS/AP_AHRS.h>
#include <AP_Math/AP_Math.h>
#include <AP_RSSI/AP_RSSI.h>
#include <AP_Notify/AP_Notify.h>
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#include <AP_Stats/AP_Stats.h>
#include <AP_Common/Location.h>
#include <AP_BattMonitor/AP_BattMonitor.h>
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#include <AP_GPS/AP_GPS.h>
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#include <AP_Baro/AP_Baro.h>
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#include <AP_RTC/AP_RTC.h>
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#include <ctype.h>
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#include <GCS_MAVLink/GCS.h>
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const AP_Param::GroupInfo AP_OSD_Screen::var_info[] = {
// @Param: ENABLE
// @DisplayName: Enable screen
// @Description: Enable this screen
// @Values: 0:Disabled,1:Enabled
// @User: Standard
AP_GROUPINFO_FLAGS("ENABLE", 1, AP_OSD_Screen, enabled, 0, AP_PARAM_FLAG_ENABLE),
// @Param: CHAN_MIN
// @DisplayName: Transmitter switch screen minimum pwm
// @Description: This sets the PWM lower limit for this screen
// @Range: 900 2100
// @User: Standard
AP_GROUPINFO("CHAN_MIN", 2, AP_OSD_Screen, channel_min, 900),
// @Param: CHAN_MAX
// @DisplayName: Transmitter switch screen maximum pwm
// @Description: This sets the PWM upper limit for this screen
// @Range: 900 2100
// @User: Standard
AP_GROUPINFO("CHAN_MAX", 3, AP_OSD_Screen, channel_max, 2100),
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// @Param: ALTITUDE_EN
// @DisplayName: ALTITUDE_EN
// @Description: Enables display of altitude AGL
// @Values: 0:Disabled,1:Enabled
// @Param: ALTITUDE_X
// @DisplayName: ALTITUDE_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: ALTITUDE_Y
// @DisplayName: ALTITUDE_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(altitude, "ALTITUDE", 4, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: BATVOLT_EN
// @DisplayName: BATVOLT_EN
// @Description: Displays main battery voltage
// @Values: 0:Disabled,1:Enabled
// @Param: BATVOLT_X
// @DisplayName: BATVOLT_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: BATVOLT_Y
// @DisplayName: BATVOLT_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(bat_volt, "BAT_VOLT", 5, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: RSSI_EN
// @DisplayName: RSSI_EN
// @Description: Displays RC signal strength
// @Values: 0:Disabled,1:Enabled
// @Param: RSSI_X
// @DisplayName: RSSI_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: RSSI_Y
// @DisplayName: RSSI_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(rssi, "RSSI", 6, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: CURRENT_EN
// @DisplayName: CURRENT_EN
// @Description: Displays main battery current
// @Values: 0:Disabled,1:Enabled
// @Param: CURRENT_X
// @DisplayName: CURRENT_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: CURRENT_Y
// @DisplayName: CURRENT_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(current, "CURRENT", 7, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: BATUSED_EN
// @DisplayName: BATUSED_EN
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// @Description: Displays primary battery mAh consumed
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// @Values: 0:Disabled,1:Enabled
// @Param: BATUSED_X
// @DisplayName: BATUSED_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: BATUSED_Y
// @DisplayName: BATUSED_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(batused, "BATUSED", 8, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: SATS_EN
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// @DisplayName: SATS_EN
// @Description: Displays number of acquired sattelites
// @Values: 0:Disabled,1:Enabled
// @Param: SATS_X
// @DisplayName: SATS_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: SATS_Y
// @DisplayName: SATS_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(sats, "SATS", 9, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: FLTMODE_EN
// @DisplayName: FLTMODE_EN
// @Description: Displays flight mode
// @Values: 0:Disabled,1:Enabled
// @Param: FLTMODE_X
// @DisplayName: FLTMODE_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: FLTMODE_Y
// @DisplayName: FLTMODE_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(fltmode, "FLTMODE", 10, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: MESSAGE_EN
// @DisplayName: MESSAGE_EN
// @Description: Displays Mavlink messages
// @Values: 0:Disabled,1:Enabled
// @Param: MESSAGE_X
// @DisplayName: MESSAGE_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: MESSAGE_Y
// @DisplayName: MESSAGE_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(message, "MESSAGE", 11, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: GSPEED_EN
// @DisplayName: GSPEED_EN
// @Description: Displays GPS ground speed
// @Values: 0:Disabled,1:Enabled
// @Param: GSPEED_X
// @DisplayName: GSPEED_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: GSPEED_Y
// @DisplayName: GSPEED_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(gspeed, "GSPEED", 12, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: HORIZON_EN
// @DisplayName: HORIZON_EN
// @Description: Displays artificial horizon
// @Values: 0:Disabled,1:Enabled
// @Param: HORIZON_X
// @DisplayName: HORIZON_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: HORIZON_Y
// @DisplayName: HORIZON_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(horizon, "HORIZON", 13, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: HOME_EN
// @DisplayName: HOME_EN
// @Description: Displays distance and relative direction to HOME
// @Values: 0:Disabled,1:Enabled
// @Param: HOME_X
// @DisplayName: HOME_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: HOME_Y
// @DisplayName: HOME_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(home, "HOME", 14, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: HEADING_EN
// @DisplayName: HEADING_EN
// @Description: Displays heading
// @Values: 0:Disabled,1:Enabled
// @Param: HEADING_X
// @DisplayName: HEADING_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: HEADING_Y
// @DisplayName: HEADING_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(heading, "HEADING", 15, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: THROTTLE_EN
// @DisplayName: THROTTLE_EN
// @Description: Displays actual throttle percentage being sent to motor(s)
// @Values: 0:Disabled,1:Enabled
// @Param: THROTTLE_X
// @DisplayName: THROTTLE_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: THROTTLE_Y
// @DisplayName: THROTTLE_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(throttle, "THROTTLE", 16, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: COMPASS_EN
// @DisplayName: COMPASS_EN
// @Description: Enables display of compass rose
// @Values: 0:Disabled,1:Enabled
// @Param: COMPASS_X
// @DisplayName: COMPASS_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: COMPASS_Y
// @DisplayName: COMPASS_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(compass, "COMPASS", 17, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: WIND_EN
// @DisplayName: WIND_EN
// @Description: Displays wind speed and relative direction
// @Values: 0:Disabled,1:Enabled
// @Param: WIND_X
// @DisplayName: WIND_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: WIND_Y
// @DisplayName: WIND_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(wind, "WIND", 18, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: ASPEED_EN
// @DisplayName: ASPEED_EN
// @Description: Displays airspeed value being used by TECS (fused value)
// @Values: 0:Disabled,1:Enabled
// @Param: ASPEED_X
// @DisplayName: ASPEED_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: ASPEED_Y
// @DisplayName: ASPEED_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(aspeed, "ASPEED", 19, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: VSPEED_EN
// @DisplayName: VSPEED_EN
// @Description: Displays climb rate
// @Values: 0:Disabled,1:Enabled
// @Param: VSPEED_X
// @DisplayName: VSPEED_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: VSPEED_Y
// @DisplayName: VSPEED_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(vspeed, "VSPEED", 20, AP_OSD_Screen, AP_OSD_Setting),
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#ifdef HAVE_AP_BLHELI_SUPPORT
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// @Param: BLHTEMP_EN
// @DisplayName: BLHTEMP_EN
// @Description: Displays first esc's temp
// @Values: 0:Disabled,1:Enabled
// @Param: BLHTEMP_X
// @DisplayName: BLHTEMP_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: BLHTEMP_Y
// @DisplayName: BLHTEMP_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(blh_temp, "BLHTEMP", 21, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: BLHRPM_EN
// @DisplayName: BLHRPM_EN
// @Description: Displays first esc's rpm
// @Values: 0:Disabled,1:Enabled
// @Param: BLHRPM_X
// @DisplayName: BLHRPM_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: BLHRPM_Y
// @DisplayName: BLHRPM_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(blh_rpm, "BLHRPM", 22, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: BLHAMPS_EN
// @DisplayName: BLHAMPS_EN
// @Description: Displays first esc's current
// @Values: 0:Disabled,1:Enabled
// @Param: BLHAMPS_X
// @DisplayName: BLHAMPS_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: BLHAMPS_Y
// @DisplayName: BLHAMPS_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(blh_amps, "BLHAMPS", 23, AP_OSD_Screen, AP_OSD_Setting),
#endif
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// @Param: GPSLAT_EN
// @DisplayName: GPSLAT_EN
// @Description: Displays GPS latitude
// @Values: 0:Disabled,1:Enabled
// @Param: GPSLAT_X
// @DisplayName: GPSLAT_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: GPSLAT_Y
// @DisplayName: GPSLAT_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(gps_latitude, "GPSLAT", 24, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: GPSLONG_EN
// @DisplayName: GPSLONG_EN
// @Description: Displays GPS longitude
// @Values: 0:Disabled,1:Enabled
// @Param: GPSLONG_X
// @DisplayName: GPSLONG_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: GPSLONG_Y
// @DisplayName: GPSLONG_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(gps_longitude, "GPSLONG", 25, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: ROLL_EN
// @DisplayName: ROLL_EN
// @Description: Displays degrees of roll from level
// @Values: 0:Disabled,1:Enabled
// @Param: ROLL_X
// @DisplayName: ROLL_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: ROLL_Y
// @DisplayName: ROLL_Y
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// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(roll_angle, "ROLL", 26, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: PITCH_EN
// @DisplayName: PITCH_EN
// @Description: Displays degrees of pitch from level
// @Values: 0:Disabled,1:Enabled
// @Param: PITCH_X
// @DisplayName: PITCH_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: PITCH_Y
// @DisplayName: PITCH_Y
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// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(pitch_angle, "PITCH", 27, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: TEMP_EN
// @DisplayName: TEMP_EN
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// @Description: Displays temperature reported by primary barometer
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// @Values: 0:Disabled,1:Enabled
// @Param: TEMP_X
// @DisplayName: TEMP_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: TEMP_Y
// @DisplayName: TEMP_Y
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// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(temp, "TEMP", 28, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: HDOP_EN
// @DisplayName: HDOP_EN
// @Description: Displays Horizontal Dilution Of Position
// @Values: 0:Disabled,1:Enabled
// @Param: HDOP_X
// @DisplayName: HDOP_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: HDOP_Y
// @DisplayName: HDOP_Y
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// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(hdop, "HDOP", 29, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: WAYPOINT_EN
// @DisplayName: WAYPOINT_EN
// @Description: Displays bearing and distance to next waypoint
// @Values: 0:Disabled,1:Enabled
// @Param: WAYPOINT_X
// @DisplayName: WAYPOINT_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: WAYPOINT_Y
// @DisplayName: WAYPOINT_Y
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// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(waypoint, "WAYPOINT", 30, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: XTRACK_EN
// @DisplayName: XTRACK_EN
// @Description: Displays crosstrack error
// @Values: 0:Disabled,1:Enabled
// @Param: XTRACK_X
// @DisplayName: XTRACK_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: XTRACK_Y
// @DisplayName: XTRACK_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(xtrack_error, "XTRACK", 31, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: DIST_EN
// @DisplayName: DIST_EN
// @Description: Displays total distance flown
// @Values: 0:Disabled,1:Enabled
// @Param: DIST_X
// @DisplayName: DIST_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: DIST_Y
// @DisplayName: DIST_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(dist, "DIST", 32, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: STATS_EN
// @DisplayName: STATS_EN
// @Description: Displays flight stats
// @Values: 0:Disabled,1:Enabled
// @Param: STATS_X
// @DisplayName: STATS_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: STATS_Y
// @DisplayName: STATS_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(stat, "STATS", 33, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: FLTIME_EN
// @DisplayName: FLTIME_EN
// @Description: Displays total flight time
// @Values: 0:Disabled,1:Enabled
// @Param: FLTIME_X
// @DisplayName: FLTIME_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: FLTIME_Y
// @DisplayName: FLTIME_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(flightime, "FLTIME", 34, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: CLIMBEFF_EN
// @DisplayName: CLIMBEFF_EN
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// @Description: Displays climb efficiency (climb rate/current)
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// @Values: 0:Disabled,1:Enabled
// @Param: CLIMBEFF_X
// @DisplayName: CLIMBEFF_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: CLIMBEFF_Y
// @DisplayName: CLIMBEFF_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(climbeff, "CLIMBEFF", 35, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: EFF_EN
// @DisplayName: EFF_EN
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// @Description: Displays flight efficiency (mAh/km or /mi)
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// @Values: 0:Disabled,1:Enabled
// @Param: EFF_X
// @DisplayName: EFF_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: EFF_Y
// @DisplayName: EFF_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(eff, "EFF", 36, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: BTEMP_EN
// @DisplayName: BTEMP_EN
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// @Description: Displays temperature reported by secondary barometer
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// @Values: 0:Disabled,1:Enabled
// @Param: BTEMP_X
// @DisplayName: BTEMP_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: BTEMP_Y
// @DisplayName: BTEMP_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(btemp, "BTEMP", 37, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: ATEMP_EN
// @DisplayName: ATEMP_EN
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// @Description: Displays temperature reported by primary airspeed sensor
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// @Values: 0:Disabled,1:Enabled
// @Param: ATEMP_X
// @DisplayName: ATEMP_X
// @Description: Horizontal position on screen
// @Range: 0 29
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// @Param: ATEMP_Y
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// @DisplayName: ATEMP_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(atemp, "ATEMP", 38, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: BAT2VLT_EN
// @DisplayName: BAT2VLT_EN
// @Description: Displays battery2 voltage
// @Values: 0:Disabled,1:Enabled
// @Param: BAT2VLT_X
// @DisplayName: BAT2VLT_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: BAT2VLT_Y
// @DisplayName: BAT2VLT_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(bat2_vlt, "BAT2_VLT", 39, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: BAT2USED_EN
// @DisplayName: BAT2USED_EN
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// @Description: Displays secondary battery mAh consumed
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// @Values: 0:Disabled,1:Enabled
// @Param: BAT2USED_X
// @DisplayName: BAT2USED_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: BAT2USED_Y
// @DisplayName: BAT2USED_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(bat2used, "BAT2USED", 40, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: ASPD2_EN
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// @DisplayName: ASPD2_EN
// @Description: Displays airspeed reported directly from secondary airspeed sensor
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// @Values: 0:Disabled,1:Enabled
// @Param: ASPD2_X
// @DisplayName: ASPD2_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: ASPD2_Y
// @DisplayName: ASPD2_Y
// @Description: Vertical position on screen
// @Range: 0 15
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AP_SUBGROUPINFO(aspd2, "ASPD2", 41, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: ASPD1_EN
// @DisplayName: ASPD1_EN
// @Description: Displays airspeed reported directly from primary airspeed sensor
// @Values: 0:Disabled,1:Enabled
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// @Param: ASPD1_X
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// @DisplayName: ASPD1_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: ASPD1_Y
// @DisplayName: ASPD1_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(aspd1, "ASPD1", 42, AP_OSD_Screen, AP_OSD_Setting),
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// @Param: CLK_EN
// @DisplayName: CLK_EN
// @Description: Displays a clock panel based on AP_RTC local time
// @Values: 0:Disabled,1:Enabled
// @Param: CLK_X
// @DisplayName: CLK_X
// @Description: Horizontal position on screen
// @Range: 0 29
// @Param: CLK_Y
// @DisplayName: CLK_Y
// @Description: Vertical position on screen
// @Range: 0 15
AP_SUBGROUPINFO(clk, "CLK", 43, AP_OSD_Screen, AP_OSD_Setting),
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AP_GROUPEND
};
// constructor
AP_OSD_Screen::AP_OSD_Screen()
{
}
//Symbols
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#define SYM_M 0xB9
#define SYM_KM 0xBA
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#define SYM_FT 0x0F
#define SYM_MI 0xBB
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#define SYM_ALT_M 0xB1
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#define SYM_ALT_FT 0xB3
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#define SYM_BATT_FULL 0x90
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#define SYM_RSSI 0x01
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#define SYM_VOLT 0x06
#define SYM_AMP 0x9A
#define SYM_MAH 0x07
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#define SYM_MS 0x9F
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#define SYM_FS 0x99
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#define SYM_KMH 0xA1
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#define SYM_MPH 0xB0
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#define SYM_DEGR 0xA8
#define SYM_PCNT 0x25
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#define SYM_RPM 0xE0
#define SYM_ASPD 0xE1
#define SYM_GSPD 0xE2
#define SYM_WSPD 0xE3
#define SYM_VSPD 0xE4
#define SYM_WPNO 0xE5
#define SYM_WPDIR 0xE6
#define SYM_WPDST 0xE7
#define SYM_FTMIN 0xE8
#define SYM_FTSEC 0x99
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#define SYM_SAT_L 0x1E
#define SYM_SAT_R 0x1F
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#define SYM_HDOP_L 0xBD
#define SYM_HDOP_R 0xBE
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#define SYM_HOME 0xBF
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#define SYM_WIND 0x16
#define SYM_ARROW_START 0x60
#define SYM_ARROW_COUNT 16
#define SYM_AH_H_START 0x80
#define SYM_AH_H_COUNT 9
#define SYM_AH_V_START 0xCA
#define SYM_AH_V_COUNT 6
#define SYM_AH_CENTER_LINE_LEFT 0x26
#define SYM_AH_CENTER_LINE_RIGHT 0x27
#define SYM_AH_CENTER 0x7E
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#define SYM_HEADING_N 0x18
#define SYM_HEADING_S 0x19
#define SYM_HEADING_E 0x1A
#define SYM_HEADING_W 0x1B
#define SYM_HEADING_DIVIDED_LINE 0x1C
#define SYM_HEADING_LINE 0x1D
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#define SYM_UP_UP 0xA2
#define SYM_UP 0xA3
#define SYM_DOWN 0xA4
#define SYM_DOWN_DOWN 0xA5
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#define SYM_DEGREES_C 0x0E
#define SYM_DEGREES_F 0x0D
#define SYM_GPS_LAT 0xA6
#define SYM_GPS_LONG 0xA7
#define SYM_ARMED 0x00
#define SYM_DISARMED 0xE9
#define SYM_ROLL0 0x2D
#define SYM_ROLLR 0xEA
#define SYM_ROLLL 0xEB
#define SYM_PTCH0 0x7C
#define SYM_PTCHUP 0xEC
#define SYM_PTCHDWN 0xED
#define SYM_XERR 0xEE
#define SYM_KN 0xF0
#define SYM_NM 0xF1
#define SYM_DIST 0x22
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#define SYM_FLY 0x9C
#define SYM_EFF 0xF2
#define SYM_AH 0xF3
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#define SYM_CLK 0xBC
void AP_OSD_Screen::set_backend(AP_OSD_Backend *_backend)
{
backend = _backend;
osd = _backend->get_osd();
};
bool AP_OSD_Screen::check_option(uint32_t option)
{
return (osd->options & option) != 0;
}
/*
get the right units icon given a unit
*/
char AP_OSD_Screen::u_icon(enum unit_type unit)
{
static const char icons_metric[UNIT_TYPE_LAST] {
(char)SYM_ALT_M, //ALTITUDE
(char)SYM_KMH, //SPEED
(char)SYM_MS, //VSPEED
(char)SYM_M, //DISTANCE
(char)SYM_KM, //DISTANCE_LONG
(char)SYM_DEGREES_C //TEMPERATURE
};
static const char icons_imperial[UNIT_TYPE_LAST] {
(char)SYM_ALT_FT, //ALTITUDE
(char)SYM_MPH, //SPEED
(char)SYM_FS, //VSPEED
(char)SYM_FT, //DISTANCE
(char)SYM_MI, //DISTANCE_LONG
(char)SYM_DEGREES_F //TEMPERATURE
};
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static const char icons_SI[UNIT_TYPE_LAST] {
(char)SYM_ALT_M, //ALTITUDE
(char)SYM_MS, //SPEED
(char)SYM_MS, //VSPEED
(char)SYM_M, //DISTANCE
(char)SYM_KM, //DISTANCE_LONG
(char)SYM_DEGREES_C //TEMPERATURE
};
static const char icons_aviation[UNIT_TYPE_LAST] {
(char)SYM_ALT_FT, //ALTITUDE Ft
(char)SYM_KN, //SPEED Knots
(char)SYM_FS, //VSPEED
(char)SYM_FT, //DISTANCE
(char)SYM_NM, //DISTANCE_LONG Nm
(char)SYM_DEGREES_C //TEMPERATURE
};
static const char *icons[AP_OSD::UNITS_LAST] = {
icons_metric,
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icons_imperial,
icons_SI,
icons_aviation,
};
return icons[constrain_int16(osd->units, 0, AP_OSD::UNITS_LAST-1)][unit];
}
/*
scale a value for the user selected units
*/
float AP_OSD_Screen::u_scale(enum unit_type unit, float value)
{
static const float scale_metric[UNIT_TYPE_LAST] = {
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1.0, //ALTITUDE m
3.6, //SPEED km/hr
1.0, //VSPEED m/s
1.0, //DISTANCE m
1.0/1000, //DISTANCE_LONG km
1.0, //TEMPERATURE C
};
static const float scale_imperial[UNIT_TYPE_LAST] = {
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3.28084, //ALTITUDE ft
2.23694, //SPEED mph
3.28084, //VSPEED ft/s
3.28084, //DISTANCE ft
1.0/1609.34, //DISTANCE_LONG miles
1.8, //TEMPERATURE F
};
static const float offset_imperial[UNIT_TYPE_LAST] = {
0.0, //ALTITUDE
0.0, //SPEED
0.0, //VSPEED
0.0, //DISTANCE
0.0, //DISTANCE_LONG
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32.0, //TEMPERATURE F
};
static const float scale_SI[UNIT_TYPE_LAST] = {
1.0, //ALTITUDE m
1.0, //SPEED m/s
1.0, //VSPEED m/s
1.0, //DISTANCE m
1.0/1000, //DISTANCE_LONG km
1.0, //TEMPERATURE C
};
static const float scale_aviation[UNIT_TYPE_LAST] = {
3.28084, //ALTITUDE Ft
1.94384, //SPEED Knots
196.85, //VSPEED ft/min
3.28084, //DISTANCE ft
0.000539957, //DISTANCE_LONG Nm
1.0, //TEMPERATURE C
};
static const float *scale[AP_OSD::UNITS_LAST] = {
scale_metric,
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scale_imperial,
scale_SI,
scale_aviation
};
static const float *offsets[AP_OSD::UNITS_LAST] = {
nullptr,
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offset_imperial,
nullptr,
nullptr
};
uint8_t units = constrain_int16(osd->units, 0, AP_OSD::UNITS_LAST-1);
return value * scale[units][unit] + (offsets[units]?offsets[units][unit]:0);
}
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void AP_OSD_Screen::draw_altitude(uint8_t x, uint8_t y)
{
float alt;
AP_AHRS &ahrs = AP::ahrs();
WITH_SEMAPHORE(ahrs.get_semaphore());
ahrs.get_relative_position_D_home(alt);
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alt = -alt;
backend->write(x, y, false, "%4d%c", (int)u_scale(ALTITUDE, alt), u_icon(ALTITUDE));
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}
void AP_OSD_Screen::draw_bat_volt(uint8_t x, uint8_t y)
{
AP_BattMonitor &battery = AP::battery();
uint8_t pct = battery.capacity_remaining_pct();
uint8_t p = (100 - pct) / 16.6;
float v = battery.voltage();
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backend->write(x,y, v < osd->warn_batvolt, "%c%2.1f%c", SYM_BATT_FULL + p, (double)v, SYM_VOLT);
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}
void AP_OSD_Screen::draw_rssi(uint8_t x, uint8_t y)
{
AP_RSSI *ap_rssi = AP_RSSI::get_singleton();
if (ap_rssi) {
int rssiv = ap_rssi->read_receiver_rssi_uint8();
rssiv = (rssiv * 99) / 255;
backend->write(x, y, rssiv < osd->warn_rssi, "%c%2d", SYM_RSSI, rssiv);
}
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}
void AP_OSD_Screen::draw_current(uint8_t x, uint8_t y)
{
AP_BattMonitor &battery = AP::battery();
float amps;
if (!battery.current_amps(amps)) {
osd->avg_current_a = 0;
}
//filter current and display with autoranging for low values
osd->avg_current_a= osd->avg_current_a + (amps - osd->avg_current_a) * 0.33;
if (osd->avg_current_a < 10.0) {
backend->write(x, y, false, "%2.2f%c", osd->avg_current_a, SYM_AMP);
}
else {
backend->write(x, y, false, "%2.1f%c", osd->avg_current_a, SYM_AMP);
}
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}
void AP_OSD_Screen::draw_fltmode(uint8_t x, uint8_t y)
{
AP_Notify * notify = AP_Notify::get_singleton();
char arm;
if (AP_Notify::flags.armed) {
arm = SYM_ARMED;
} else {
arm = SYM_DISARMED;
}
if (notify) {
backend->write(x, y, false, "%s%c", notify->get_flight_mode_str(), arm);
}
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}
void AP_OSD_Screen::draw_sats(uint8_t x, uint8_t y)
{
AP_GPS & gps = AP::gps();
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uint8_t nsat = gps.num_sats();
bool flash = (nsat < osd->warn_nsat) || (gps.status() < AP_GPS::GPS_OK_FIX_3D);
backend->write(x, y, flash, "%c%c%2u", SYM_SAT_L, SYM_SAT_R, nsat);
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}
void AP_OSD_Screen::draw_batused(uint8_t instance, uint8_t x, uint8_t y)
{
float mah;
if (!AP::battery().consumed_mah(mah, instance)) {
mah = 0;
}
if (mah <= 9999) {
backend->write(x,y, false, "%4d%c", (int)mah, SYM_MAH);
} else {
const float ah = mah * 1e-3f;
backend->write(x,y, false, "%2.2f%c", (double)ah, SYM_AH);
}
}
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void AP_OSD_Screen::draw_batused(uint8_t x, uint8_t y)
{
draw_batused(0, x, y);
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}
//Autoscroll message is the same as in minimosd-extra.
//Thanks to night-ghost for the approach.
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void AP_OSD_Screen::draw_message(uint8_t x, uint8_t y)
{
AP_Notify * notify = AP_Notify::get_singleton();
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if (notify) {
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int32_t visible_time = AP_HAL::millis() - notify->get_text_updated_millis();
if (visible_time < osd->msgtime_s *1000) {
char buffer[NOTIFY_TEXT_BUFFER_SIZE];
strncpy(buffer, notify->get_text(), sizeof(buffer));
int16_t len = strnlen(buffer, sizeof(buffer));
for (int16_t i=0; i<len; i++) {
//converted to uppercase,
//because we do not have small letter chars inside used font
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buffer[i] = toupper(buffer[i]);
//normalize whitespace
if (isspace(buffer[i])) {
buffer[i] = ' ';
}
}
int16_t start_position = 0;
//scroll if required
//scroll pattern: wait, scroll to the left, wait, scroll to the right
if (len > message_visible_width) {
int16_t chars_to_scroll = len - message_visible_width;
int16_t total_cycles = 2*message_scroll_delay + 2*chars_to_scroll;
int16_t current_cycle = (visible_time / message_scroll_time_ms) % total_cycles;
//calculate scroll start_position
if (current_cycle < total_cycles/2) {
//move to the left
start_position = current_cycle - message_scroll_delay;
} else {
//move to the right
start_position = total_cycles - current_cycle;
}
start_position = constrain_int16(start_position, 0, chars_to_scroll);
int16_t end_position = start_position + message_visible_width;
//ensure array boundaries
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start_position = MIN(start_position, int(sizeof(buffer)-1));
end_position = MIN(end_position, int(sizeof(buffer)-1));
//trim invisible part
buffer[end_position] = 0;
}
backend->write(x, y, buffer + start_position);
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}
}
}
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void AP_OSD_Screen::draw_speed_vector(uint8_t x, uint8_t y,Vector2f v, int32_t yaw)
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{
float v_length = v.length();
char arrow = SYM_ARROW_START;
if (v_length > 1.0f) {
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int32_t angle = wrap_360_cd(DEGX100 * atan2f(v.y, v.x) - yaw);
int32_t interval = 36000 / SYM_ARROW_COUNT;
arrow = SYM_ARROW_START + ((angle + interval / 2) / interval) % SYM_ARROW_COUNT;
}
if (u_scale(SPEED, v_length) < 10.0) {
backend->write(x, y, false, "%c%3.1f%c", arrow, u_scale(SPEED, v_length), u_icon(SPEED));
} else {
backend->write(x, y, false, "%c%3d%c", arrow, (int)u_scale(SPEED, v_length), u_icon(SPEED));
}
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}
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void AP_OSD_Screen::draw_gspeed(uint8_t x, uint8_t y)
{
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AP_AHRS &ahrs = AP::ahrs();
WITH_SEMAPHORE(ahrs.get_semaphore());
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Vector2f v = ahrs.groundspeed_vector();
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backend->write(x, y, false, "%c", SYM_GSPD);
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draw_speed_vector(x + 1, y, v, ahrs.yaw_sensor);
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}
//Thanks to betaflight/inav for simple and clean artificial horizon visual design
void AP_OSD_Screen::draw_horizon(uint8_t x, uint8_t y)
{
AP_AHRS &ahrs = AP::ahrs();
WITH_SEMAPHORE(ahrs.get_semaphore());
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float roll = ahrs.roll;
float pitch = -ahrs.pitch;
//inverted roll AH
if (check_option(AP_OSD::OPTION_INVERTED_AH_ROLL)) {
roll = -roll;
}
pitch = constrain_float(pitch, -ah_max_pitch, ah_max_pitch);
float ky = sinf(roll);
float kx = cosf(roll);
if (fabsf(ky) < fabsf(kx)) {
for (int dx = -4; dx <= 4; dx++) {
float fy = dx * (ky/kx) + pitch * ah_pitch_rad_to_char + 0.5f;
int dy = floorf(fy);
char c = (fy - dy) * SYM_AH_H_COUNT;
//chars in font in reversed order
c = SYM_AH_H_START + ((SYM_AH_H_COUNT - 1) - c);
if (dy >= -4 && dy <= 4) {
backend->write(x + dx, y - dy, false, "%c", c);
}
}
} else {
for (int dy=-4; dy<=4; dy++) {
float fx = (dy - pitch * ah_pitch_rad_to_char) * (kx/ky) + 0.5f;
int dx = floorf(fx);
char c = (fx - dx) * SYM_AH_V_COUNT;
c = SYM_AH_V_START + c;
if (dx >= -4 && dx <=4) {
backend->write(x + dx, y - dy, false, "%c", c);
}
}
}
backend->write(x-1,y, false, "%c%c%c", SYM_AH_CENTER_LINE_LEFT, SYM_AH_CENTER, SYM_AH_CENTER_LINE_RIGHT);
}
void AP_OSD_Screen::draw_distance(uint8_t x, uint8_t y, float distance)
{
char unit_icon = u_icon(DISTANCE);
float distance_scaled = u_scale(DISTANCE, distance);
const char *fmt = "%4.0f%c";
if (distance_scaled > 9999.0f) {
distance_scaled = u_scale(DISTANCE_LONG, distance);
unit_icon= u_icon(DISTANCE_LONG);
//try to pack as many useful info as possible
if (distance_scaled<9.0f) {
fmt = "%1.3f%c";
} else if (distance_scaled < 99.0f) {
fmt = "%2.2f%c";
} else if (distance_scaled < 999.0f) {
fmt = "%3.1f%c";
} else {
fmt = "%4.0f%c";
}
} else if (distance_scaled < 10.0f) {
fmt = "% 3.1f%c";
}
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backend->write(x, y, false, fmt, (double)distance_scaled, unit_icon);
}
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void AP_OSD_Screen::draw_home(uint8_t x, uint8_t y)
{
AP_AHRS &ahrs = AP::ahrs();
WITH_SEMAPHORE(ahrs.get_semaphore());
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Location loc;
if (ahrs.get_position(loc) && ahrs.home_is_set()) {
const Location &home_loc = ahrs.get_home();
float distance = home_loc.get_distance(loc);
int32_t angle = wrap_360_cd(loc.get_bearing_to(home_loc) - ahrs.yaw_sensor);
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int32_t interval = 36000 / SYM_ARROW_COUNT;
if (distance < 2.0f) {
//avoid fast rotating arrow at small distances
angle = 0;
}
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char arrow = SYM_ARROW_START + ((angle + interval / 2) / interval) % SYM_ARROW_COUNT;
backend->write(x, y, false, "%c%c", SYM_HOME, arrow);
draw_distance(x+2, y, distance);
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} else {
backend->write(x, y, true, "%c", SYM_HOME);
}
}
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void AP_OSD_Screen::draw_heading(uint8_t x, uint8_t y)
{
AP_AHRS &ahrs = AP::ahrs();
uint16_t yaw = ahrs.yaw_sensor / 100;
backend->write(x, y, false, "%3d%c", yaw, SYM_DEGR);
}
void AP_OSD_Screen::draw_throttle(uint8_t x, uint8_t y)
{
backend->write(x, y, false, "%3d%c", gcs().get_hud_throttle(), SYM_PCNT);
}
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//Thanks to betaflight/inav for simple and clean compass visual design
void AP_OSD_Screen::draw_compass(uint8_t x, uint8_t y)
{
const int8_t total_sectors = 16;
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static const char compass_circle[total_sectors] = {
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SYM_HEADING_N,
SYM_HEADING_LINE,
SYM_HEADING_DIVIDED_LINE,
SYM_HEADING_LINE,
SYM_HEADING_E,
SYM_HEADING_LINE,
SYM_HEADING_DIVIDED_LINE,
SYM_HEADING_LINE,
SYM_HEADING_S,
SYM_HEADING_LINE,
SYM_HEADING_DIVIDED_LINE,
SYM_HEADING_LINE,
SYM_HEADING_W,
SYM_HEADING_LINE,
SYM_HEADING_DIVIDED_LINE,
SYM_HEADING_LINE,
};
AP_AHRS &ahrs = AP::ahrs();
int32_t yaw = ahrs.yaw_sensor;
int32_t interval = 36000 / total_sectors;
int8_t center_sector = ((yaw + interval / 2) / interval) % total_sectors;
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for (int8_t i = -4; i <= 4; i++) {
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int8_t sector = center_sector + i;
sector = (sector + total_sectors) % total_sectors;
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backend->write(x + i, y, false, "%c", compass_circle[sector]);
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}
}
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void AP_OSD_Screen::draw_wind(uint8_t x, uint8_t y)
{
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AP_AHRS &ahrs = AP::ahrs();
WITH_SEMAPHORE(ahrs.get_semaphore());
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Vector3f v = ahrs.wind_estimate();
if (check_option(AP_OSD::OPTION_INVERTED_WIND)) {
v = -v;
}
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backend->write(x, y, false, "%c", SYM_WSPD);
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draw_speed_vector(x + 1, y, Vector2f(v.x, v.y), ahrs.yaw_sensor);
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}
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void AP_OSD_Screen::draw_aspeed(uint8_t x, uint8_t y)
{
float aspd = 0.0f;
AP_AHRS &ahrs = AP::ahrs();
WITH_SEMAPHORE(ahrs.get_semaphore());
bool have_estimate = ahrs.airspeed_estimate(&aspd);
if (have_estimate) {
backend->write(x, y, false, "%c%4d%c", SYM_ASPD, (int)u_scale(SPEED, aspd), u_icon(SPEED));
} else {
backend->write(x, y, false, "%c ---%c", SYM_ASPD, u_icon(SPEED));
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}
}
void AP_OSD_Screen::draw_vspeed(uint8_t x, uint8_t y)
{
Vector3f v;
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float vspd;
AP_AHRS &ahrs = AP::ahrs();
WITH_SEMAPHORE(ahrs.get_semaphore());
if (ahrs.get_velocity_NED(v)) {
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vspd = -v.z;
} else {
auto &baro = AP::baro();
WITH_SEMAPHORE(baro.get_semaphore());
vspd = baro.get_climb_rate();
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}
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char sym;
if (vspd > 3.0f) {
sym = SYM_UP_UP;
} else if (vspd >=0.0f) {
sym = SYM_UP;
} else if (vspd >= -3.0f) {
sym = SYM_DOWN;
} else {
sym = SYM_DOWN_DOWN;
}
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vspd = fabsf(vspd);
backend->write(x, y, false, "%c%2d%c", sym, (int)u_scale(VSPEED, vspd), u_icon(VSPEED));
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}
#ifdef HAVE_AP_BLHELI_SUPPORT
void AP_OSD_Screen::draw_blh_temp(uint8_t x, uint8_t y)
{
AP_BLHeli *blheli = AP_BLHeli::get_singleton();
if (blheli) {
AP_BLHeli::telem_data td;
// first parameter is index into array of ESC's. Hardwire to zero (first) for now.
if (!blheli->get_telem_data(0, td)) {
return;
}
// AP_BLHeli & blh = AP_BLHeli::AP_BLHeli();
uint8_t esc_temp = td.temperature;
backend->write(x, y, false, "%3d%c", (int)u_scale(TEMPERATURE, esc_temp), u_icon(TEMPERATURE));
}
}
void AP_OSD_Screen::draw_blh_rpm(uint8_t x, uint8_t y)
{
AP_BLHeli *blheli = AP_BLHeli::get_singleton();
if (blheli) {
AP_BLHeli::telem_data td;
// first parameter is index into array of ESC's. Hardwire to zero (first) for now.
if (!blheli->get_telem_data(0, td)) {
return;
}
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backend->write(x, y, false, "%5d%c", td.rpm, SYM_RPM);
}
}
void AP_OSD_Screen::draw_blh_amps(uint8_t x, uint8_t y)
{
AP_BLHeli *blheli = AP_BLHeli::get_singleton();
if (blheli) {
AP_BLHeli::telem_data td;
// first parameter is index into array of ESC's. Hardwire to zero (first) for now.
if (!blheli->get_telem_data(0, td)) {
return;
}
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float esc_amps = td.current * 0.01;
backend->write(x, y, false, "%4.1f%c", esc_amps, SYM_AMP);
}
}
#endif //HAVE_AP_BLHELI_SUPPORT
void AP_OSD_Screen::draw_gps_latitude(uint8_t x, uint8_t y)
{
AP_GPS & gps = AP::gps();
const Location &loc = gps.location(); // loc.lat and loc.lng
int32_t dec_portion, frac_portion;
int32_t abs_lat = labs(loc.lat);
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dec_portion = loc.lat / 10000000L;
frac_portion = abs_lat - labs(dec_portion)*10000000UL;
backend->write(x, y, false, "%c%4ld.%07ld", SYM_GPS_LAT, (long)dec_portion,(long)frac_portion);
}
void AP_OSD_Screen::draw_gps_longitude(uint8_t x, uint8_t y)
{
AP_GPS & gps = AP::gps();
const Location &loc = gps.location(); // loc.lat and loc.lng
int32_t dec_portion, frac_portion;
int32_t abs_lon = labs(loc.lng);
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dec_portion = loc.lng / 10000000L;
frac_portion = abs_lon - labs(dec_portion)*10000000UL;
backend->write(x, y, false, "%c%4ld.%07ld", SYM_GPS_LONG, (long)dec_portion,(long)frac_portion);
}
void AP_OSD_Screen::draw_roll_angle(uint8_t x, uint8_t y)
{
AP_AHRS &ahrs = AP::ahrs();
uint16_t roll = abs(ahrs.roll_sensor) / 100;
char r;
if (ahrs.roll_sensor > 50) {
r = SYM_ROLLR;
} else if (ahrs.roll_sensor < -50) {
r = SYM_ROLLL;
} else {
r = SYM_ROLL0;
}
backend->write(x, y, false, "%c%3d%c", r, roll, SYM_DEGR);
}
void AP_OSD_Screen::draw_pitch_angle(uint8_t x, uint8_t y)
{
AP_AHRS &ahrs = AP::ahrs();
uint16_t pitch = abs(ahrs.pitch_sensor) / 100;
char p;
if (ahrs.pitch_sensor > 50) {
p = SYM_PTCHUP;
} else if (ahrs.pitch_sensor < -50) {
p = SYM_PTCHDWN;
} else {
p = SYM_PTCH0;
}
backend->write(x, y, false, "%c%3d%c", p, pitch, SYM_DEGR);
}
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void AP_OSD_Screen::draw_temp(uint8_t x, uint8_t y)
{
AP_Baro &barometer = AP::baro();
float tmp = barometer.get_temperature();
backend->write(x, y, false, "%3d%c", (int)u_scale(TEMPERATURE, tmp), u_icon(TEMPERATURE));
}
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void AP_OSD_Screen::draw_hdop(uint8_t x, uint8_t y)
{
AP_GPS & gps = AP::gps();
float hdp = gps.get_hdop() / 100.0f;
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backend->write(x, y, false, "%c%c%3.2f", SYM_HDOP_L, SYM_HDOP_R, (double)hdp);
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}
void AP_OSD_Screen::draw_waypoint(uint8_t x, uint8_t y)
{
AP_AHRS &ahrs = AP::ahrs();
int32_t angle = wrap_360_cd(osd->nav_info.wp_bearing - ahrs.yaw_sensor);
int32_t interval = 36000 / SYM_ARROW_COUNT;
if (osd->nav_info.wp_distance < 2.0f) {
//avoid fast rotating arrow at small distances
angle = 0;
}
char arrow = SYM_ARROW_START + ((angle + interval / 2) / interval) % SYM_ARROW_COUNT;
backend->write(x,y, false, "%c%2u%c",SYM_WPNO, osd->nav_info.wp_number, arrow);
draw_distance(x+4, y, osd->nav_info.wp_distance);
}
void AP_OSD_Screen::draw_xtrack_error(uint8_t x, uint8_t y)
{
backend->write(x, y, false, "%c", SYM_XERR);
draw_distance(x+1, y, osd->nav_info.wp_xtrack_error);
}
void AP_OSD_Screen::draw_stat(uint8_t x, uint8_t y)
{
backend->write(x+2, y, false, "%c%c%c", 0x4d,0x41,0x58);
backend->write(x, y+1, false, "%c",SYM_GSPD);
backend->write(x+1, y+1, false, "%4d%c", (int)u_scale(SPEED, osd->max_speed_mps), u_icon(SPEED));
backend->write(x, y+2, false, "%5.1f%c", (double)osd->max_current_a, SYM_AMP);
backend->write(x, y+3, false, "%5d%c", (int)u_scale(ALTITUDE, osd->max_alt_m), u_icon(ALTITUDE));
backend->write(x, y+4, false, "%c", SYM_HOME);
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draw_distance(x+1, y+4, osd->max_dist_m);
backend->write(x, y+5, false, "%c", SYM_DIST);
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draw_distance(x+1, y+5, osd->last_distance_m);
}
void AP_OSD_Screen::draw_dist(uint8_t x, uint8_t y)
{
backend->write(x, y, false, "%c", SYM_DIST);
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draw_distance(x+1, y, osd->last_distance_m);
}
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void AP_OSD_Screen::draw_flightime(uint8_t x, uint8_t y)
{
AP_Stats *stats = AP::stats();
if (stats) {
uint32_t t = stats->get_flight_time_s();
backend->write(x, y, false, "%c%3u:%02u", SYM_FLY, t/60, t%60);
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}
}
void AP_OSD_Screen::draw_eff(uint8_t x, uint8_t y)
{
AP_BattMonitor &battery = AP::battery();
AP_AHRS &ahrs = AP::ahrs();
WITH_SEMAPHORE(ahrs.get_semaphore());
Vector2f v = ahrs.groundspeed_vector();
float speed = u_scale(SPEED,v.length());
float current_amps;
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if ((speed > 2.0) && battery.current_amps(current_amps)) {
backend->write(x, y, false, "%c%3d%c", SYM_EFF,int(1000.0f*current_amps/speed),SYM_MAH);
} else {
backend->write(x, y, false, "%c---%c", SYM_EFF,SYM_MAH);
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}
}
void AP_OSD_Screen::draw_climbeff(uint8_t x, uint8_t y)
{
char unit_icon = u_icon(DISTANCE);
Vector3f v;
float vspd;
auto &ahrs = AP::ahrs();
WITH_SEMAPHORE(ahrs.get_semaphore());
if (ahrs.get_velocity_NED(v)) {
vspd = -v.z;
} else {
auto &baro = AP::baro();
WITH_SEMAPHORE(baro.get_semaphore());
vspd = baro.get_climb_rate();
}
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if (vspd < 0.0) {
vspd = 0.0;
}
AP_BattMonitor &battery = AP::battery();
float amps;
if (battery.current_amps(amps) && is_positive(amps)) {
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backend->write(x, y, false,"%c%c%3.1f%c",SYM_PTCHUP,SYM_EFF,(double)(3.6f * u_scale(VSPEED,vspd)/amps),unit_icon);
} else {
backend->write(x, y, false,"%c%c---%c",SYM_PTCHUP,SYM_EFF,unit_icon);
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}
}
void AP_OSD_Screen::draw_btemp(uint8_t x, uint8_t y)
{
AP_Baro &barometer = AP::baro();
float btmp = barometer.get_temperature(1);
backend->write(x, y, false, "%3d%c", (int)u_scale(TEMPERATURE, btmp), u_icon(TEMPERATURE));
}
void AP_OSD_Screen::draw_atemp(uint8_t x, uint8_t y)
{
AP_Airspeed *airspeed = AP_Airspeed::get_singleton();
if (!airspeed) {
return;
}
float temperature = 0;
airspeed->get_temperature(temperature);
if (airspeed->healthy()) {
backend->write(x, y, false, "%3d%c", (int)u_scale(TEMPERATURE, temperature), u_icon(TEMPERATURE));
} else {
backend->write(x, y, false, "--%c", u_icon(TEMPERATURE));
}
}
void AP_OSD_Screen::draw_bat2_vlt(uint8_t x, uint8_t y)
{
AP_BattMonitor &battery = AP::battery();
uint8_t pct2 = battery.capacity_remaining_pct(1);
uint8_t p2 = (100 - pct2) / 16.6;
float v2 = battery.voltage(1);
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backend->write(x,y, v2 < osd->warn_bat2volt, "%c%2.1f%c", SYM_BATT_FULL + p2, (double)v2, SYM_VOLT);
}
void AP_OSD_Screen::draw_bat2used(uint8_t x, uint8_t y)
{
draw_batused(1, x, y);
}
void AP_OSD_Screen::draw_aspd1(uint8_t x, uint8_t y)
{
AP_Airspeed *airspeed = AP_Airspeed::get_singleton();
if (!airspeed) {
return;
}
float asp1 = airspeed->get_airspeed();
if (airspeed != nullptr && airspeed->healthy()) {
backend->write(x, y, false, "%c%4d%c", SYM_ASPD, (int)u_scale(SPEED, asp1), u_icon(SPEED));
} else {
backend->write(x, y, false, "%c ---%c", SYM_ASPD, u_icon(SPEED));
}
}
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void AP_OSD_Screen::draw_aspd2(uint8_t x, uint8_t y)
{
AP_Airspeed *airspeed = AP_Airspeed::get_singleton();
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if (!airspeed) {
return;
}
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float asp2 = airspeed->get_airspeed(1);
if (airspeed != nullptr && airspeed->healthy(1)) {
backend->write(x, y, false, "%c%4d%c", SYM_ASPD, (int)u_scale(SPEED, asp2), u_icon(SPEED));
} else {
backend->write(x, y, false, "%c ---%c", SYM_ASPD, u_icon(SPEED));
}
}
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void AP_OSD_Screen::draw_clk(uint8_t x, uint8_t y)
{
AP_RTC &rtc = AP::rtc();
uint8_t hour, min, sec;
uint16_t ms;
if (!rtc.get_local_time(hour, min, sec, ms)) {
backend->write(x, y, false, "%c--:--%", SYM_CLK);
} else {
backend->write(x, y, false, "%c%02u:%02u", SYM_CLK, hour, min);
}
}
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#define DRAW_SETTING(n) if (n.enabled) draw_ ## n(n.xpos, n.ypos)
void AP_OSD_Screen::draw(void)
{
if (!enabled || !backend) {
return;
}
//Note: draw order should be optimized.
//Big and less important items should be drawn first,
//so they will not overwrite more important ones.
DRAW_SETTING(message);
DRAW_SETTING(horizon);
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DRAW_SETTING(compass);
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DRAW_SETTING(altitude);
DRAW_SETTING(waypoint);
DRAW_SETTING(xtrack_error);
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DRAW_SETTING(bat_volt);
DRAW_SETTING(bat2_vlt);
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DRAW_SETTING(rssi);
DRAW_SETTING(current);
DRAW_SETTING(batused);
DRAW_SETTING(bat2used);
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DRAW_SETTING(sats);
DRAW_SETTING(fltmode);
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DRAW_SETTING(gspeed);
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DRAW_SETTING(aspeed);
DRAW_SETTING(aspd1);
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DRAW_SETTING(aspd2);
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DRAW_SETTING(vspeed);
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DRAW_SETTING(throttle);
DRAW_SETTING(heading);
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DRAW_SETTING(wind);
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DRAW_SETTING(home);
DRAW_SETTING(roll_angle);
DRAW_SETTING(pitch_angle);
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DRAW_SETTING(temp);
DRAW_SETTING(btemp);
DRAW_SETTING(atemp);
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DRAW_SETTING(hdop);
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DRAW_SETTING(flightime);
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DRAW_SETTING(clk);
#ifdef HAVE_AP_BLHELI_SUPPORT
DRAW_SETTING(blh_temp);
DRAW_SETTING(blh_rpm);
DRAW_SETTING(blh_amps);
#endif
DRAW_SETTING(gps_latitude);
DRAW_SETTING(gps_longitude);
DRAW_SETTING(dist);
DRAW_SETTING(stat);
DRAW_SETTING(climbeff);
DRAW_SETTING(eff);
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}