*
* This program 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; version 2 of the License.
+ * the Free Software Foundation; either version 2 of the License, or
+ * (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
*/
-package org.altusmetrum.altosuilib_2;
+package org.altusmetrum.altosuilib_11;
import java.io.*;
import java.util.ArrayList;
import java.awt.*;
import javax.swing.*;
-import org.altusmetrum.altoslib_4.*;
+import org.altusmetrum.altoslib_11.*;
import org.jfree.ui.*;
import org.jfree.chart.*;
import org.jfree.data.xy.*;
import org.jfree.data.*;
-class AltosVoltage extends AltosUnits {
-
- public double value(double v, boolean imperial_units) {
- return v;
- }
-
- public double inverse(double v, boolean imperial_units) {
- return v;
- }
-
- public String show_units(boolean imperial_units) {
- return "V";
- }
-
- public String say_units(boolean imperial_units) {
- return "volts";
- }
-
- public int show_fraction(int width, boolean imperial_units) {
- return width / 2;
- }
-}
-
class AltosNsat extends AltosUnits {
public double value(double v, boolean imperial_units) {
}
}
-class AltosPressure extends AltosUnits {
-
- public double value(double p, boolean imperial_units) {
- return p;
- }
-
- public double inverse(double p, boolean imperial_units) {
- return p;
- }
-
- public String show_units(boolean imperial_units) {
- return "Pa";
- }
-
- public String say_units(boolean imperial_units) {
- return "pascals";
- }
-
- public int show_fraction(int width, boolean imperial_units) {
- return 0;
- }
-}
-
class AltosDbm extends AltosUnits {
public double value(double d, boolean imperial_units) {
}
}
-class AltosGyroUnits extends AltosUnits {
+class AltosMagUnits extends AltosUnits {
public double value(double p, boolean imperial_units) {
return p;
}
public String show_units(boolean imperial_units) {
- return "°/sec";
+ return "Ga";
}
public String say_units(boolean imperial_units) {
- return "degrees per second";
+ return "gauss";
}
public int show_fraction(int width, boolean imperial_units) {
- return 1;
+ return 2;
}
}
-class AltosMagUnits extends AltosUnits {
+class AltosDopUnits extends AltosUnits {
public double value(double p, boolean imperial_units) {
return p;
}
public String show_units(boolean imperial_units) {
- return "Ga";
+ return null;
}
public String say_units(boolean imperial_units) {
- return "gauss";
+ return null;
}
public int show_fraction(int width, boolean imperial_units) {
- return 2;
+ return 1;
}
}
static final private Color gps_course_color = new Color (100, 31, 112);
static final private Color gps_ground_speed_color = new Color (31, 112, 100);
static final private Color gps_climb_rate_color = new Color (31, 31, 112);
+ static final private Color gps_pdop_color = new Color(50, 194, 0);
+ static final private Color gps_hdop_color = new Color(50, 0, 194);
+ static final private Color gps_vdop_color = new Color(194, 0, 50);
static final private Color temperature_color = new Color (31, 194, 194);
static final private Color dbm_color = new Color(31, 100, 100);
static final private Color state_color = new Color(0,0,0);
static final private Color mag_z_color = new Color(0, 0, 128);
static final private Color orient_color = new Color(31, 31, 31);
- static AltosVoltage voltage_units = new AltosVoltage();
- static AltosPressure pressure_units = new AltosPressure();
static AltosNsat nsat_units = new AltosNsat();
static AltosDbm dbm_units = new AltosDbm();
- static AltosGyroUnits gyro_units = new AltosGyroUnits();
+ static AltosRotationRate gyro_units = new AltosRotationRate();
static AltosOrient orient_units = new AltosOrient();
static AltosMagUnits mag_units = new AltosMagUnits();
+ static AltosDopUnits dop_units = new AltosDopUnits();
AltosUIAxis height_axis, speed_axis, accel_axis, voltage_axis, temperature_axis, nsat_axis, dbm_axis;
AltosUIAxis distance_axis, pressure_axis;
AltosUIAxis gyro_axis, orient_axis, mag_axis;
- AltosUIAxis course_axis;
+ AltosUIAxis course_axis, dop_axis;
public AltosGraph(AltosUIEnable enable, AltosFlightStats stats, AltosGraphDataSet dataSet) {
super(enable);
height_axis = newAxis("Height", AltosConvert.height, height_color);
- pressure_axis = newAxis("Pressure", pressure_units, pressure_color, 0);
+ pressure_axis = newAxis("Pressure", AltosConvert.pressure, pressure_color, 0);
speed_axis = newAxis("Speed", AltosConvert.speed, speed_color);
accel_axis = newAxis("Acceleration", AltosConvert.accel, accel_color);
- voltage_axis = newAxis("Voltage", voltage_units, voltage_color);
+ voltage_axis = newAxis("Voltage", AltosConvert.voltage, voltage_color);
temperature_axis = newAxis("Temperature", AltosConvert.temperature, temperature_color, 0);
nsat_axis = newAxis("Satellites", nsat_units, gps_nsat_color,
AltosUIAxis.axis_include_zero | AltosUIAxis.axis_integer);
orient_axis = newAxis("Tilt Angle", orient_units, orient_color, 0);
mag_axis = newAxis("Magnetic Field", mag_units, mag_x_color, 0);
course_axis = newAxis("Course", orient_units, gps_course_color, 0);
+ dop_axis = newAxis("Dilution of Precision", dop_units, gps_pdop_color, 0);
addMarker("State", AltosGraphDataPoint.data_state, state_color);
height_axis);
addSeries("Pressure",
AltosGraphDataPoint.data_pressure,
- pressure_units,
+ AltosConvert.pressure,
pressure_color,
false,
pressure_axis);
gps_nsat_solution_color,
false,
nsat_axis);
- addSeries("GPS Satellites in View",
- AltosGraphDataPoint.data_gps_nsat_view,
- nsat_units,
- gps_nsat_view_color,
- false,
- nsat_axis);
- addSeries("GPS Course",
- AltosGraphDataPoint.data_gps_course,
- orient_units,
- gps_course_color,
+ if (stats.has_gps_sats) {
+ addSeries("GPS Satellites in View",
+ AltosGraphDataPoint.data_gps_nsat_view,
+ nsat_units,
+ gps_nsat_view_color,
+ false,
+ nsat_axis);
+ }
+ if (stats.has_gps_detail) {
+ addSeries("GPS Course",
+ AltosGraphDataPoint.data_gps_course,
+ orient_units,
+ gps_course_color,
+ false,
+ course_axis);
+ addSeries("GPS Ground Speed",
+ AltosGraphDataPoint.data_gps_ground_speed,
+ AltosConvert.speed,
+ gps_ground_speed_color,
+ enable_gps,
+ speed_axis);
+ addSeries("GPS Climb Rate",
+ AltosGraphDataPoint.data_gps_climb_rate,
+ AltosConvert.speed,
+ gps_climb_rate_color,
+ enable_gps,
+ speed_axis);
+ }
+ addSeries("GPS Position DOP",
+ AltosGraphDataPoint.data_gps_pdop,
+ dop_units,
+ gps_pdop_color,
false,
- course_axis);
- addSeries("GPS Ground Speed",
- AltosGraphDataPoint.data_gps_ground_speed,
- AltosConvert.speed,
- gps_ground_speed_color,
- enable_gps,
- speed_axis);
- addSeries("GPS Climb Rate",
- AltosGraphDataPoint.data_gps_climb_rate,
- AltosConvert.speed,
- gps_climb_rate_color,
- enable_gps,
- speed_axis);
+ dop_axis);
+ if (stats.has_gps_detail) {
+ addSeries("GPS Horizontal DOP",
+ AltosGraphDataPoint.data_gps_hdop,
+ dop_units,
+ gps_hdop_color,
+ false,
+ dop_axis);
+ addSeries("GPS Vertical DOP",
+ AltosGraphDataPoint.data_gps_vdop,
+ dop_units,
+ gps_vdop_color,
+ false,
+ dop_axis);
+ }
}
if (stats.has_rssi)
addSeries("Received Signal Strength",
if (stats.has_battery)
addSeries("Battery Voltage",
AltosGraphDataPoint.data_battery_voltage,
- voltage_units,
+ AltosConvert.voltage,
battery_voltage_color,
false,
voltage_axis);
temperature_axis);
addSeries("Drogue Voltage",
AltosGraphDataPoint.data_drogue_voltage,
- voltage_units,
+ AltosConvert.voltage,
drogue_voltage_color,
false,
voltage_axis);
addSeries("Main Voltage",
AltosGraphDataPoint.data_main_voltage,
- voltage_units,
+ AltosConvert.voltage,
main_voltage_color,
false,
voltage_axis);
}
if (stats.has_imu) {
- addSeries("Acceleration X",
- AltosGraphDataPoint.data_accel_x,
+ addSeries("Acceleration Along",
+ AltosGraphDataPoint.data_accel_along,
AltosConvert.accel,
accel_x_color,
false,
accel_axis);
- addSeries("Acceleration Y",
- AltosGraphDataPoint.data_accel_y,
+ addSeries("Acceleration Across",
+ AltosGraphDataPoint.data_accel_across,
AltosConvert.accel,
accel_y_color,
false,
accel_axis);
- addSeries("Acceleration Z",
- AltosGraphDataPoint.data_accel_z,
+ addSeries("Acceleration Through",
+ AltosGraphDataPoint.data_accel_through,
AltosConvert.accel,
accel_z_color,
false,
accel_axis);
- addSeries("Rotation Rate X",
- AltosGraphDataPoint.data_gyro_x,
+ addSeries("Roll Rate",
+ AltosGraphDataPoint.data_gyro_roll,
gyro_units,
gyro_x_color,
false,
gyro_axis);
- addSeries("Rotation Rate Y",
- AltosGraphDataPoint.data_gyro_y,
+ addSeries("Pitch Rate",
+ AltosGraphDataPoint.data_gyro_pitch,
gyro_units,
gyro_y_color,
false,
gyro_axis);
- addSeries("Rotation Rate Z",
- AltosGraphDataPoint.data_gyro_z,
+ addSeries("Yaw Rate",
+ AltosGraphDataPoint.data_gyro_yaw,
gyro_units,
gyro_z_color,
false,
gyro_axis);
}
if (stats.has_mag) {
- addSeries("Magnetometer X",
- AltosGraphDataPoint.data_mag_x,
+ addSeries("Magnetometer Along",
+ AltosGraphDataPoint.data_mag_along,
mag_units,
mag_x_color,
false,
mag_axis);
- addSeries("Magnetometer Y",
- AltosGraphDataPoint.data_mag_y,
+ addSeries("Magnetometer Across",
+ AltosGraphDataPoint.data_mag_across,
mag_units,
mag_y_color,
false,
mag_axis);
- addSeries("Magnetometer Z",
- AltosGraphDataPoint.data_mag_z,
+ addSeries("Magnetometer Through",
+ AltosGraphDataPoint.data_mag_through,
mag_units,
mag_z_color,
false,
for (int i = 0; i < stats.num_ignitor; i++)
addSeries(AltosLib.ignitor_name(i),
AltosGraphDataPoint.data_ignitor_0 + i,
- voltage_units,
+ AltosConvert.voltage,
main_voltage_color,
false,
voltage_axis);