1 package net.sf.openrocket.simulation;
3 import java.util.HashMap;
6 import net.sf.openrocket.l10n.Translator;
7 import net.sf.openrocket.startup.Application;
8 import net.sf.openrocket.unit.UnitGroup;
11 * A class defining a storable simulation variable type. This class defined numerous ready
12 * types, and allows also creating new types with any name. When retrieving types based on
13 * a name, you should use {@link #getType(String, UnitGroup)} to return the default unit type,
14 * or a new type if the name does not currently exist.
16 * Each type has a type name (description), a unit group and a priority. The type is identified
17 * purely by its name case-insensitively. The unit group provides the units for the type.
18 * The priority is used to order the types. The pre-existing types are defined specific priority
19 * numbers, and other types have a default priority number that is after all other types.
21 * @author Sampo Niskanen <sampo.niskanen@iki.fi>
23 public class FlightDataType implements Comparable<FlightDataType> {
24 private static final Translator trans = Application.getTranslator();
26 /** Priority of custom-created variables */
27 private static final int DEFAULT_PRIORITY = 999;
29 /** List of existing types. MUST BE DEFINED BEFORE ANY TYPES!! */
30 private static final Map<String, FlightDataType> EXISTING_TYPES = new HashMap<String, FlightDataType>();
35 public static final FlightDataType TYPE_TIME = newType(trans.get("FlightDataType.TYPE_TIME"), UnitGroup.UNITS_FLIGHT_TIME, 1);
38 //// Vertical position and motion
40 public static final FlightDataType TYPE_ALTITUDE = newType(trans.get("FlightDataType.TYPE_ALTITUDE"), UnitGroup.UNITS_DISTANCE, 10);
41 //// Vertical velocity
42 public static final FlightDataType TYPE_VELOCITY_Z = newType(trans.get("FlightDataType.TYPE_VELOCITY_Z"), UnitGroup.UNITS_VELOCITY, 11);
43 //// Vertical acceleration
44 public static final FlightDataType TYPE_ACCELERATION_Z = newType(trans.get("FlightDataType.TYPE_ACCELERATION_Z"), UnitGroup.UNITS_ACCELERATION, 12);
49 public static final FlightDataType TYPE_VELOCITY_TOTAL = newType(trans.get("FlightDataType.TYPE_VELOCITY_TOTAL"), UnitGroup.UNITS_VELOCITY, 20);
50 //// Total acceleration
51 public static final FlightDataType TYPE_ACCELERATION_TOTAL = newType(trans.get("FlightDataType.TYPE_ACCELERATION_TOTAL"), UnitGroup.UNITS_ACCELERATION, 21);
54 //// Lateral position and motion
56 public static final FlightDataType TYPE_POSITION_X = newType(trans.get("FlightDataType.TYPE_POSITION_X"), UnitGroup.UNITS_DISTANCE, 30);
57 //// Position parallel to wind
58 public static final FlightDataType TYPE_POSITION_Y = newType(trans.get("FlightDataType.TYPE_POSITION_Y"), UnitGroup.UNITS_DISTANCE, 31);
60 public static final FlightDataType TYPE_POSITION_XY = newType(trans.get("FlightDataType.TYPE_POSITION_XY"), UnitGroup.UNITS_DISTANCE, 32);
61 //// Lateral direction
62 public static final FlightDataType TYPE_POSITION_DIRECTION = newType(trans.get("FlightDataType.TYPE_POSITION_DIRECTION"), UnitGroup.UNITS_ANGLE, 33);
64 public static final FlightDataType TYPE_VELOCITY_XY = newType(trans.get("FlightDataType.TYPE_VELOCITY_XY"), UnitGroup.UNITS_VELOCITY, 34);
65 //// Lateral acceleration
66 public static final FlightDataType TYPE_ACCELERATION_XY = newType(trans.get("FlightDataType.TYPE_ACCELERATION_XY"), UnitGroup.UNITS_ACCELERATION, 35);
68 public static final FlightDataType TYPE_LATITUDE = newType(trans.get("FlightDataType.TYPE_LATITUDE"), UnitGroup.UNITS_ANGLE, 36);
70 public static final FlightDataType TYPE_LONGITUDE = newType(trans.get("FlightDataType.TYPE_LONGITUDE"), UnitGroup.UNITS_ANGLE, 37);
74 public static final FlightDataType TYPE_AOA = newType(trans.get("FlightDataType.TYPE_AOA"), UnitGroup.UNITS_ANGLE, 40);
76 public static final FlightDataType TYPE_ROLL_RATE = newType(trans.get("FlightDataType.TYPE_ROLL_RATE"), UnitGroup.UNITS_ROLL, 41);
78 public static final FlightDataType TYPE_PITCH_RATE = newType(trans.get("FlightDataType.TYPE_PITCH_RATE"), UnitGroup.UNITS_ROLL, 42);
80 public static final FlightDataType TYPE_YAW_RATE = newType(trans.get("FlightDataType.TYPE_YAW_RATE"), UnitGroup.UNITS_ROLL, 43);
83 //// Stability information
85 public static final FlightDataType TYPE_MASS = newType(trans.get("FlightDataType.TYPE_MASS"), UnitGroup.UNITS_MASS, 50);
86 //// Longitudinal moment of inertia
87 public static final FlightDataType TYPE_LONGITUDINAL_INERTIA = newType(trans.get("FlightDataType.TYPE_LONGITUDINAL_INERTIA"), UnitGroup.UNITS_INERTIA, 51);
88 //// Rotational moment of inertia
89 public static final FlightDataType TYPE_ROTATIONAL_INERTIA = newType(trans.get("FlightDataType.TYPE_ROTATIONAL_INERTIA"), UnitGroup.UNITS_INERTIA, 52);
91 public static final FlightDataType TYPE_CP_LOCATION = newType(trans.get("FlightDataType.TYPE_CP_LOCATION"), UnitGroup.UNITS_LENGTH, 53);
93 public static final FlightDataType TYPE_CG_LOCATION = newType(trans.get("FlightDataType.TYPE_CG_LOCATION"), UnitGroup.UNITS_LENGTH, 54);
94 //// Stability margin calibers
95 public static final FlightDataType TYPE_STABILITY = newType(trans.get("FlightDataType.TYPE_STABILITY"), UnitGroup.UNITS_COEFFICIENT, 55);
98 //// Characteristic numbers
100 public static final FlightDataType TYPE_MACH_NUMBER = newType(trans.get("FlightDataType.TYPE_MACH_NUMBER"), UnitGroup.UNITS_COEFFICIENT, 60);
102 public static final FlightDataType TYPE_REYNOLDS_NUMBER = newType(trans.get("FlightDataType.TYPE_REYNOLDS_NUMBER"), UnitGroup.UNITS_COEFFICIENT, 61);
107 public static final FlightDataType TYPE_THRUST_FORCE = newType(trans.get("FlightDataType.TYPE_THRUST_FORCE"), UnitGroup.UNITS_FORCE, 70);
109 public static final FlightDataType TYPE_DRAG_FORCE = newType(trans.get("FlightDataType.TYPE_DRAG_FORCE"), UnitGroup.UNITS_FORCE, 71);
110 //// Drag coefficient
111 public static final FlightDataType TYPE_DRAG_COEFF = newType(trans.get("FlightDataType.TYPE_DRAG_COEFF"), UnitGroup.UNITS_COEFFICIENT, 72);
112 //// Axial drag coefficient
113 public static final FlightDataType TYPE_AXIAL_DRAG_COEFF = newType(trans.get("FlightDataType.TYPE_AXIAL_DRAG_COEFF"), UnitGroup.UNITS_COEFFICIENT, 73);
116 //// Component drag coefficients
117 //// Friction drag coefficient
118 public static final FlightDataType TYPE_FRICTION_DRAG_COEFF = newType(trans.get("FlightDataType.TYPE_FRICTION_DRAG_COEFF"), UnitGroup.UNITS_COEFFICIENT, 80);
119 //// Pressure drag coefficient
120 public static final FlightDataType TYPE_PRESSURE_DRAG_COEFF = newType(trans.get("FlightDataType.TYPE_PRESSURE_DRAG_COEFF"), UnitGroup.UNITS_COEFFICIENT, 81);
121 //// Base drag coefficient
122 public static final FlightDataType TYPE_BASE_DRAG_COEFF = newType(trans.get("FlightDataType.TYPE_BASE_DRAG_COEFF"), UnitGroup.UNITS_COEFFICIENT, 82);
125 //// Other coefficients
126 //// Normal force coefficient
127 public static final FlightDataType TYPE_NORMAL_FORCE_COEFF = newType(trans.get("FlightDataType.TYPE_NORMAL_FORCE_COEFF"), UnitGroup.UNITS_COEFFICIENT, 90);
128 //// Pitch moment coefficient
129 public static final FlightDataType TYPE_PITCH_MOMENT_COEFF = newType(trans.get("FlightDataType.TYPE_PITCH_MOMENT_COEFF"), UnitGroup.UNITS_COEFFICIENT, 91);
130 //// Yaw moment coefficient
131 public static final FlightDataType TYPE_YAW_MOMENT_COEFF = newType(trans.get("FlightDataType.TYPE_YAW_MOMENT_COEFF"), UnitGroup.UNITS_COEFFICIENT, 92);
132 //// Side force coefficient
133 public static final FlightDataType TYPE_SIDE_FORCE_COEFF = newType(trans.get("FlightDataType.TYPE_SIDE_FORCE_COEFF"), UnitGroup.UNITS_COEFFICIENT, 93);
134 //// Roll moment coefficient
135 public static final FlightDataType TYPE_ROLL_MOMENT_COEFF = newType(trans.get("FlightDataType.TYPE_ROLL_MOMENT_COEFF"), UnitGroup.UNITS_COEFFICIENT, 94);
136 //// Roll forcing coefficient
137 public static final FlightDataType TYPE_ROLL_FORCING_COEFF = newType(trans.get("FlightDataType.TYPE_ROLL_FORCING_COEFF"), UnitGroup.UNITS_COEFFICIENT, 95);
138 //// Roll damping coefficient
139 public static final FlightDataType TYPE_ROLL_DAMPING_COEFF = newType(trans.get("FlightDataType.TYPE_ROLL_DAMPING_COEFF"), UnitGroup.UNITS_COEFFICIENT, 96);
141 //// Pitch damping coefficient
142 public static final FlightDataType TYPE_PITCH_DAMPING_MOMENT_COEFF = newType(trans.get("FlightDataType.TYPE_PITCH_DAMPING_MOMENT_COEFF"), UnitGroup.UNITS_COEFFICIENT, 97);
143 //// Yaw damping coefficient
144 public static final FlightDataType TYPE_YAW_DAMPING_MOMENT_COEFF = newType(trans.get("FlightDataType.TYPE_YAW_DAMPING_MOMENT_COEFF"), UnitGroup.UNITS_COEFFICIENT, 98);
146 //// Coriolis acceleration
147 public static final FlightDataType TYPE_CORIOLIS_ACCELERATION = newType(trans.get("FlightDataType.TYPE_CORIOLIS_ACCELERATION"), UnitGroup.UNITS_ACCELERATION, 99);
150 //// Reference length + area
151 //// Reference length
152 public static final FlightDataType TYPE_REFERENCE_LENGTH = newType(trans.get("FlightDataType.TYPE_REFERENCE_LENGTH"), UnitGroup.UNITS_LENGTH, 100);
154 public static final FlightDataType TYPE_REFERENCE_AREA = newType(trans.get("FlightDataType.TYPE_REFERENCE_AREA"), UnitGroup.UNITS_AREA, 101);
158 //// Vertical orientation (zenith)
159 public static final FlightDataType TYPE_ORIENTATION_THETA = newType(trans.get("FlightDataType.TYPE_ORIENTATION_THETA"), UnitGroup.UNITS_ANGLE, 106);
160 //// Lateral orientation (azimuth)
161 public static final FlightDataType TYPE_ORIENTATION_PHI = newType(trans.get("FlightDataType.TYPE_ORIENTATION_PHI"), UnitGroup.UNITS_ANGLE, 107);
164 //// Atmospheric conditions
166 public static final FlightDataType TYPE_WIND_VELOCITY = newType(trans.get("FlightDataType.TYPE_WIND_VELOCITY"), UnitGroup.UNITS_VELOCITY, 110);
168 public static final FlightDataType TYPE_AIR_TEMPERATURE = newType(trans.get("FlightDataType.TYPE_AIR_TEMPERATURE"), UnitGroup.UNITS_TEMPERATURE, 111);
170 public static final FlightDataType TYPE_AIR_PRESSURE = newType(trans.get("FlightDataType.TYPE_AIR_PRESSURE"), UnitGroup.UNITS_PRESSURE, 112);
172 public static final FlightDataType TYPE_SPEED_OF_SOUND = newType(trans.get("FlightDataType.TYPE_SPEED_OF_SOUND"), UnitGroup.UNITS_VELOCITY, 113);
174 //// Simulation information
175 //// Simulation time step
176 public static final FlightDataType TYPE_TIME_STEP = newType(trans.get("FlightDataType.TYPE_TIME_STEP"), UnitGroup.UNITS_TIME_STEP, 200);
177 //// Computation time
178 public static final FlightDataType TYPE_COMPUTATION_TIME = newType(trans.get("FlightDataType.TYPE_COMPUTATION_TIME"), UnitGroup.UNITS_SHORT_TIME, 201);
183 * Return a {@link FlightDataType} based on a string description. This returns known data types
184 * if possible, or a new type otherwise.
186 * @param s the string description of the type.
187 * @param u the unit group the new type should belong to if a new group is created.
188 * @return a data type.
190 public static synchronized FlightDataType getType(String s, UnitGroup u) {
191 FlightDataType type = EXISTING_TYPES.get(s.toLowerCase());
195 type = newType(s, u, DEFAULT_PRIORITY);
200 * Used while initializing the class.
202 private static synchronized FlightDataType newType(String s, UnitGroup u, int priority) {
203 FlightDataType type = new FlightDataType(s, u, priority);
204 EXISTING_TYPES.put(s.toLowerCase(), type);
209 private final String name;
210 private final UnitGroup units;
211 private final int priority;
212 private final int hashCode;
215 private FlightDataType(String typeName, UnitGroup units, int priority) {
216 if (typeName == null)
217 throw new IllegalArgumentException("typeName is null");
219 throw new IllegalArgumentException("units is null");
220 this.name = typeName;
222 this.priority = priority;
223 this.hashCode = this.name.toLowerCase().hashCode();
229 public String getName() {
233 public UnitGroup getUnitGroup() {
238 public String toString() {
243 public boolean equals(Object other) {
244 if (!(other instanceof FlightDataType))
246 return this.name.equalsIgnoreCase(((FlightDataType) other).name);
250 public int hashCode() {
255 public int compareTo(FlightDataType o) {
256 if (this.priority != o.priority)
257 return this.priority - o.priority;
258 return this.name.compareToIgnoreCase(o.name);