001// Copyright (c) FIRST and other WPILib contributors. 002// Open Source Software; you can modify and/or share it under the terms of 003// the WPILib BSD license file in the root directory of this project. 004 005package edu.wpi.first.hal; 006 007/** 008 * Encoder JNI Functions. 009 * 010 * @see "hal/Encoder.h" 011 */ 012public class EncoderJNI extends JNIWrapper { 013 /** 014 * Initializes an encoder. 015 * 016 * @param digitalSourceHandleA the A source handle (either a digital or analog trigger) 017 * @param analogTriggerTypeA the analog trigger type of the A source if it is an analog trigger 018 * @param digitalSourceHandleB the B source handle (either a digital or analog trigger) 019 * @param analogTriggerTypeB the analog trigger type of the B source if it is an analog trigger 020 * @param reverseDirection true to reverse the counting direction from standard, otherwise false 021 * @param encodingType the encoding type 022 * @return the created encoder handle 023 * @see "HAL_InitializeEncoder" 024 */ 025 public static native int initializeEncoder( 026 int digitalSourceHandleA, 027 int analogTriggerTypeA, 028 int digitalSourceHandleB, 029 int analogTriggerTypeB, 030 boolean reverseDirection, 031 int encodingType); 032 033 /** 034 * Frees an encoder. 035 * 036 * @param encoderHandle the encoder handle 037 * @see "HAL_FreeEncoder" 038 */ 039 public static native void freeEncoder(int encoderHandle); 040 041 /** 042 * Indicates the encoder is used by a simulated device. 043 * 044 * @param handle the encoder handle 045 * @param device simulated device handle 046 * @see "HAL_SetEncoderSimDevice" 047 */ 048 public static native void setEncoderSimDevice(int handle, int device); 049 050 /** 051 * Gets the current counts of the encoder after encoding type scaling. 052 * 053 * <p>This is scaled by the value passed during initialization to encodingType. 054 * 055 * @param encoderHandle the encoder handle 056 * @return the current scaled count 057 * @see "HAL_GetEncoder" 058 */ 059 public static native int getEncoder(int encoderHandle); 060 061 /** 062 * Gets the raw counts of the encoder. 063 * 064 * <p>This is not scaled by any values. 065 * 066 * @param encoderHandle the encoder handle 067 * @return the raw encoder count 068 * @see "HAL_GetEncoderRaw" 069 */ 070 public static native int getEncoderRaw(int encoderHandle); 071 072 /** 073 * Gets the encoder scale value. 074 * 075 * <p>This is set by the value passed during initialization to encodingType. 076 * 077 * @param encoderHandle the encoder handle 078 * @return the encoder scale value 079 * @see "HAL_GetEncoderEncodingScale" 080 */ 081 public static native int getEncodingScaleFactor(int encoderHandle); 082 083 /** 084 * Reads the current encoder value. 085 * 086 * <p>Read the value at this instant. It may still be running, so it reflects the current value. 087 * Next time it is read, it might have a different value. 088 * 089 * @param encoderHandle the encoder handle 090 * @see "HAL_ResetEncoder" 091 */ 092 public static native void resetEncoder(int encoderHandle); 093 094 /** 095 * Gets the Period of the most recent count. 096 * 097 * <p>Returns the time interval of the most recent count. This can be used for velocity 098 * calculations to determine shaft speed. 099 * 100 * @param encoderHandle the encoder handle 101 * @return the period of the last two pulses in units of seconds 102 * @see "HAL_GetEncoderPeriod" 103 */ 104 public static native double getEncoderPeriod(int encoderHandle); 105 106 /** 107 * Sets the maximum period where the device is still considered "moving". 108 * 109 * <p>Sets the maximum period where the device is considered moving. This value is used to 110 * determine the "stopped" state of the encoder using the getEncoderStopped method. 111 * 112 * @param encoderHandle the encoder handle 113 * @param maxPeriod the maximum period where the counted device is considered moving in seconds 114 * @see "HAL_SetEncoderMaxPeriod" 115 */ 116 public static native void setEncoderMaxPeriod(int encoderHandle, double maxPeriod); 117 118 /** 119 * Determines if the clock is stopped. 120 * 121 * <p>Determines if the clocked input is stopped based on the MaxPeriod value set using the 122 * SetMaxPeriod method. If the clock exceeds the MaxPeriod, then the device (and encoder) are 123 * assumed to be stopped and it returns true. 124 * 125 * @param encoderHandle the encoder handle 126 * @return true if the most recent encoder period exceeds the MaxPeriod value set by SetMaxPeriod 127 * @see "HAL_GetEncoderStopped" 128 */ 129 public static native boolean getEncoderStopped(int encoderHandle); 130 131 /** 132 * Gets the last direction the encoder value changed. 133 * 134 * @param encoderHandle the encoder handle 135 * @return the last direction the encoder value changed 136 * @see "HAL_GetEncoderDirection" 137 */ 138 public static native boolean getEncoderDirection(int encoderHandle); 139 140 /** 141 * Gets the current distance traveled by the encoder. 142 * 143 * <p>This is the encoder count scaled by the distance per pulse set for the encoder. 144 * 145 * @param encoderHandle the encoder handle 146 * @return the encoder distance (units are determined by the units passed to 147 * setEncoderDistancePerPulse) 148 * @see "HAL_GetEncoderDistance" 149 */ 150 public static native double getEncoderDistance(int encoderHandle); 151 152 /** 153 * Gets the current rate of the encoder. 154 * 155 * <p>This is the encoder period scaled by the distance per pulse set for the encoder. 156 * 157 * @param encoderHandle the encoder handle 158 * @return the encoder rate (units are determined by the units passed to 159 * setEncoderDistancePerPulse, time value is seconds) 160 * @see "HAL_GetEncoderRate" 161 */ 162 public static native double getEncoderRate(int encoderHandle); 163 164 /** 165 * Sets the minimum rate to be considered moving by the encoder. 166 * 167 * <p>Units need to match what is set by setEncoderDistancePerPulse, with time as seconds. 168 * 169 * @param encoderHandle the encoder handle 170 * @param minRate the minimum rate to be considered moving (units are determined by the units 171 * passed to setEncoderDistancePerPulse, time value is seconds) 172 * @see "HAL_SetEncoderMinRate" 173 */ 174 public static native void setEncoderMinRate(int encoderHandle, double minRate); 175 176 /** 177 * Sets the distance traveled per encoder pulse. This is used as a scaling factor for the rate and 178 * distance calls. 179 * 180 * @param encoderHandle the encoder handle 181 * @param distancePerPulse the distance traveled per encoder pulse (units user defined) 182 * @see "HAL_SetEncoderDistancePerPulse" 183 */ 184 public static native void setEncoderDistancePerPulse(int encoderHandle, double distancePerPulse); 185 186 /** 187 * Sets if to reverse the direction of the encoder. 188 * 189 * <p>Note that this is not a toggle. It is an absolute set. 190 * 191 * @param encoderHandle the encoder handle 192 * @param reverseDirection true to reverse the direction, false to not. 193 * @see "HAL_SetEncoderReverseDirection" 194 */ 195 public static native void setEncoderReverseDirection(int encoderHandle, boolean reverseDirection); 196 197 /** 198 * Sets the number of encoder samples to average when calculating encoder rate. 199 * 200 * @param encoderHandle the encoder handle 201 * @param samplesToAverage the number of samples to average 202 * @see "HAL_SetEncoderSamplesToAverage" 203 */ 204 public static native void setEncoderSamplesToAverage(int encoderHandle, int samplesToAverage); 205 206 /** 207 * Gets the current samples to average value. 208 * 209 * @param encoderHandle the encoder handle 210 * @return the current samples to average value 211 * @see "HAL_GetEncoderSamplesToAverage" 212 */ 213 public static native int getEncoderSamplesToAverage(int encoderHandle); 214 215 /** 216 * Sets the source for an index pulse on the encoder. 217 * 218 * <p>The index pulse can be used to cause an encoder to reset based on an external input. 219 * 220 * @param encoderHandle the encoder handle 221 * @param digitalSourceHandle the index source handle (either a HAL_AnalogTriggerHandle or a 222 * HAL_DigitalHandle) 223 * @param analogTriggerType the analog trigger type if the source is an analog trigger 224 * @param indexingType the index triggering type 225 * @see "HAL_SetEncoderIndexSource" 226 */ 227 public static native void setEncoderIndexSource( 228 int encoderHandle, int digitalSourceHandle, int analogTriggerType, int indexingType); 229 230 /** 231 * Gets the FPGA index of the encoder. 232 * 233 * @param encoderHandle the encoder handle 234 * @return the FPGA index of the encoder 235 * @see "HAL_GetEncoderFPGAIndex" 236 */ 237 public static native int getEncoderFPGAIndex(int encoderHandle); 238 239 /** 240 * Gets the encoder scale value. 241 * 242 * <p>This is set by the value passed during initialization to encodingType. 243 * 244 * @param encoderHandle the encoder handle 245 * @return the encoder scale value 246 * @see "HAL_GetEncoderEncodingScale" 247 */ 248 public static native int getEncoderEncodingScale(int encoderHandle); 249 250 /** 251 * Gets the decoding scale factor of the encoder. 252 * 253 * <p>This is used to perform the scaling from raw to type scaled values. 254 * 255 * @param encoderHandle the encoder handle 256 * @return the scale value for the encoder 257 * @see "HAL_GetEncoderDecodingScaleFactor" 258 */ 259 public static native double getEncoderDecodingScaleFactor(int encoderHandle); 260 261 /** 262 * Gets the user set distance per pulse of the encoder. 263 * 264 * @param encoderHandle the encoder handle 265 * @return the set distance per pulse 266 * @see "HAL_GetEncoderDistancePerPulse" 267 */ 268 public static native double getEncoderDistancePerPulse(int encoderHandle); 269 270 /** 271 * Gets the encoding type of the encoder. 272 * 273 * @param encoderHandle the encoder handle 274 * @return the encoding type 275 * @see "HAL_GetEncoderEncodingType" 276 */ 277 public static native int getEncoderEncodingType(int encoderHandle); 278}