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 007import java.nio.IntBuffer; 008 009/** 010 * Counter HAL JNI functions. 011 * 012 * @see "hal/Counter.h" 013 */ 014public class CounterJNI extends JNIWrapper { 015 public static final int TWO_PULSE = 0; 016 public static final int SEMI_PERIOD = 1; 017 public static final int PULSE_LENGTH = 2; 018 public static final int EXTERNAL_DIRECTION = 3; 019 020 /** 021 * Initializes a counter. 022 * 023 * @param mode the counter mode 024 * @param index the compressor index (output) 025 * @return the created handle 026 * @see "HAL_InitializeCounter" 027 */ 028 public static native int initializeCounter(int mode, IntBuffer index); 029 030 /** 031 * Frees a counter. 032 * 033 * @param counterHandle the counter handle 034 * @see "HAL_FreeCounter" 035 */ 036 public static native void freeCounter(int counterHandle); 037 038 /** 039 * Sets the average sample size of a counter. 040 * 041 * @param counterHandle the counter handle 042 * @param size the size of samples to average 043 * @see "HAL_SetCounterAverageSize" 044 */ 045 public static native void setCounterAverageSize(int counterHandle, int size); 046 047 /** 048 * Sets the source object that causes the counter to count up. 049 * 050 * @param counterHandle the counter handle 051 * @param digitalSourceHandle the digital source handle (either a HAL_AnalogTriggerHandle or a 052 * HAL_DigitalHandle) 053 * @param analogTriggerType the analog trigger type if the source is an analog trigger 054 * @see "HAL_SetCounterUpSource" 055 */ 056 public static native void setCounterUpSource( 057 int counterHandle, int digitalSourceHandle, int analogTriggerType); 058 059 /** 060 * Sets the up source to either detect rising edges or falling edges. 061 * 062 * <p>Note that both are allowed to be set true at the same time without issues. 063 * 064 * @param counterHandle the counter handle 065 * @param risingEdge true to trigger on rising 066 * @param fallingEdge true to trigger on falling 067 * @see "HAL_SetCounterUpSourceEdge" 068 */ 069 public static native void setCounterUpSourceEdge( 070 int counterHandle, boolean risingEdge, boolean fallingEdge); 071 072 /** 073 * Disables the up counting source to the counter. 074 * 075 * @param counterHandle the counter handle 076 * @see "HAL_ClearCounterUpSource" 077 */ 078 public static native void clearCounterUpSource(int counterHandle); 079 080 /** 081 * Sets the source object that causes the counter to count down. 082 * 083 * @param counterHandle the counter handle 084 * @param digitalSourceHandle the digital source handle (either a HAL_AnalogTriggerHandle or a 085 * HAL_DigitalHandle) 086 * @param analogTriggerType the analog trigger type if the source is an analog trigger 087 * @see "HAL_SetCounterDownSource" 088 */ 089 public static native void setCounterDownSource( 090 int counterHandle, int digitalSourceHandle, int analogTriggerType); 091 092 /** 093 * Sets the down source to either detect rising edges or falling edges. Note that both are allowed 094 * to be set true at the same time without issues. 095 * 096 * @param counterHandle the counter handle 097 * @param risingEdge true to trigger on rising 098 * @param fallingEdge true to trigger on falling 099 * @see "HAL_SetCounterDownSourceEdge" 100 */ 101 public static native void setCounterDownSourceEdge( 102 int counterHandle, boolean risingEdge, boolean fallingEdge); 103 104 /** 105 * Disables the down counting source to the counter. 106 * 107 * @param counterHandle the counter handle 108 * @see "HAL_ClearCounterDownSource" 109 */ 110 public static native void clearCounterDownSource(int counterHandle); 111 112 /** 113 * Sets standard up / down counting mode on this counter. 114 * 115 * <p>Up and down counts are sourced independently from two inputs. 116 * 117 * @param counterHandle the counter handle 118 * @see "HAL_SetCounterUpDownMode" 119 */ 120 public static native void setCounterUpDownMode(int counterHandle); 121 122 /** 123 * Sets directional counting mode on this counter. 124 * 125 * <p>The direction is determined by the B input, with counting happening with the A input. 126 * 127 * @param counterHandle the counter handle 128 * @see "HAL_SetCounterExternalDirectionMode" 129 */ 130 public static native void setCounterExternalDirectionMode(int counterHandle); 131 132 /** 133 * Sets Semi-period mode on this counter. 134 * 135 * <p>The counter counts up based on the time the input is triggered. High or Low depends on the 136 * highSemiPeriod parameter. 137 * 138 * @param counterHandle the counter handle 139 * @param highSemiPeriod true for counting when the input is high, false for low 140 * @see "HAL_SetCounterSemiPeriodMode" 141 */ 142 public static native void setCounterSemiPeriodMode(int counterHandle, boolean highSemiPeriod); 143 144 /** 145 * Configures the counter to count in up or down based on the length of the input pulse. 146 * 147 * <p>This mode is most useful for direction sensitive gear tooth sensors. 148 * 149 * @param counterHandle the counter handle 150 * @param threshold The pulse length beyond which the counter counts the opposite direction 151 * (seconds) 152 * @see "HAL_SetCounterPulseLengthMode" 153 */ 154 public static native void setCounterPulseLengthMode(int counterHandle, double threshold); 155 156 /** 157 * Gets the Samples to Average which specifies the number of samples of the timer to average when 158 * calculating the period. Perform averaging to account for mechanical imperfections or as 159 * oversampling to increase resolution. 160 * 161 * @param counterHandle the counter handle 162 * @return SamplesToAverage The number of samples being averaged (from 1 to 127) 163 * @see "HAL_GetCounterSamplesToAverage" 164 */ 165 public static native int getCounterSamplesToAverage(int counterHandle); 166 167 /** 168 * Sets the Samples to Average which specifies the number of samples of the timer to average when 169 * calculating the period. Perform averaging to account for mechanical imperfections or as 170 * oversampling to increase resolution. 171 * 172 * @param counterHandle the counter handle 173 * @param samplesToAverage The number of samples to average from 1 to 127 174 * @see "HAL_SetCounterSamplesToAverage" 175 */ 176 public static native void setCounterSamplesToAverage(int counterHandle, int samplesToAverage); 177 178 /** 179 * Resets the Counter to zero. 180 * 181 * <p>Sets the counter value to zero. This does not effect the running state of the counter, just 182 * sets the current value to zero. 183 * 184 * @param counterHandle the counter handle 185 * @see "HAL_ResetCounter" 186 */ 187 public static native void resetCounter(int counterHandle); 188 189 /** 190 * Reads the current counter value. 191 * 192 * <p>Reads the value at this instant. It may still be running, so it reflects the current value. 193 * Next time it is read, it might have a different value. 194 * 195 * @param counterHandle the counter handle 196 * @return the current counter value 197 * @see "HAL_GetCounter" 198 */ 199 public static native int getCounter(int counterHandle); 200 201 /** 202 * Gets the Period of the most recent count. 203 * 204 * <p>Returns the time interval of the most recent count. This can be used for velocity 205 * calculations to determine shaft speed. 206 * 207 * @param counterHandle the counter handle 208 * @return the period of the last two pulses in units of seconds 209 * @see "HAL_GetCounterPeriod" 210 */ 211 public static native double getCounterPeriod(int counterHandle); 212 213 /** 214 * Sets the maximum period where the device is still considered "moving". 215 * 216 * <p>Sets the maximum period where the device is considered moving. This value is used to 217 * determine the "stopped" state of the counter using the HAL_GetCounterStopped method. 218 * 219 * @param counterHandle the counter handle 220 * @param maxPeriod the maximum period where the counted device is considered moving in seconds 221 * @see "HAL_SetCounterMaxPeriod" 222 */ 223 public static native void setCounterMaxPeriod(int counterHandle, double maxPeriod); 224 225 /** 226 * Selects whether you want to continue updating the event timer output when there are no samples 227 * captured. 228 * 229 * <p>The output of the event timer has a buffer of periods that are averaged and posted to a 230 * register on the FPGA. When the timer detects that the event source has stopped (based on the 231 * MaxPeriod) the buffer of samples to be averaged is emptied. 232 * 233 * <p>If you enable the update when empty, you will be notified of the stopped source and the 234 * event time will report 0 samples. 235 * 236 * <p>If you disable update when empty, the most recent average will remain on the output until a 237 * new sample is acquired. 238 * 239 * <p>You will never see 0 samples output (except when there have been no events since an FPGA 240 * reset) and you will likely not see the stopped bit become true (since it is updated at the end 241 * of an average and there are no samples to average). 242 * 243 * @param counterHandle the counter handle 244 * @param enabled true to enable counter updating with no samples 245 * @see "HAL_SetCounterUpdateWhenEmpty" 246 */ 247 public static native void setCounterUpdateWhenEmpty(int counterHandle, boolean enabled); 248 249 /** 250 * Determines if the clock is stopped. 251 * 252 * <p>Determine if the clocked input is stopped based on the MaxPeriod value set using the 253 * SetMaxPeriod method. If the clock exceeds the MaxPeriod, then the device (and counter) are 254 * assumed to be stopped and it returns true. 255 * 256 * @param counterHandle the counter handle 257 * @return true if the most recent counter period exceeds the MaxPeriod value set by SetMaxPeriod 258 * @see "HAL_GetCounterStopped" 259 */ 260 public static native boolean getCounterStopped(int counterHandle); 261 262 /** 263 * Gets the last direction the counter value changed. 264 * 265 * @param counterHandle the counter handle 266 * @return the last direction the counter value changed 267 * @see "HAL_GetCounterDirection" 268 */ 269 public static native boolean getCounterDirection(int counterHandle); 270 271 /** 272 * Sets the Counter to return reversed sensing on the direction. 273 * 274 * <p>This allows counters to change the direction they are counting in the case of 1X and 2X 275 * quadrature encoding only. Any other counter mode isn't supported. 276 * 277 * @param counterHandle the counter handle 278 * @param reverseDirection true if the value counted should be negated. 279 * @see "HAL_SetCounterReverseDirection" 280 */ 281 public static native void setCounterReverseDirection(int counterHandle, boolean reverseDirection); 282}