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 * REV Pneumatic Hub (PH) HAL JNI functions. 009 * 010 * @see "REVPH.h" 011 */ 012public class REVPHJNI extends JNIWrapper { 013 public static final int COMPRESSOR_CONFIG_TYPE_DISABLED = 0; 014 public static final int COMPRESSOR_CONFIG_TYPE_DIGITAL = 1; 015 public static final int COMPRESSOR_CONFIG_TYPE_ANALOG = 2; 016 public static final int COMPRESSOR_CONFIG_TYPE_HYBRID = 3; 017 018 /** 019 * Initializes a PH. 020 * 021 * @param module the CAN ID to initialize 022 * @return the created PH handle 023 * @see "HAL_InitializeREVP" 024 */ 025 public static native int initialize(int module); 026 027 /** 028 * Frees a PH handle. 029 * 030 * @param handle the PH handle 031 * @see "HAL_FreeREVPH" 032 */ 033 public static native void free(int handle); 034 035 /** 036 * Checks if a solenoid channel number is valid. 037 * 038 * @param channel the channel to check 039 * @return true if the channel is valid, otherwise false 040 * @see "HAL_CheckREVPHSolenoidChannel" 041 */ 042 public static native boolean checkSolenoidChannel(int channel); 043 044 /** 045 * Get whether compressor is turned on. 046 * 047 * @param handle the PH handle 048 * @return true if the compressor is turned on 049 * @see "HAL_GetREVPHCompressor" 050 */ 051 public static native boolean getCompressor(int handle); 052 053 /** 054 * Send compressor configuration to the PH. 055 * 056 * @param handle the PH handle 057 * @param minAnalogVoltage The compressor will turn on when the analog pressure sensor voltage 058 * drops below this value 059 * @param maxAnalogVoltage The compressor will turn off when the analog pressure sensor reaches 060 * this value. 061 * @param forceDisable Disable Compressor 062 * @param useDigital use the digital pressure switch 063 * @see "HAL_SetREVPHCompressorConfig" 064 */ 065 public static native void setCompressorConfig( 066 int handle, 067 double minAnalogVoltage, 068 double maxAnalogVoltage, 069 boolean forceDisable, 070 boolean useDigital); 071 072 /** 073 * Disable Compressor. 074 * 075 * @param handle the PH handle 076 * @see "HAL_SetREVPHClosedLoopControlDisabled" 077 */ 078 public static native void setClosedLoopControlDisabled(int handle); 079 080 /** 081 * Enables the compressor in digital mode using the digital pressure switch. The compressor will 082 * turn on when the pressure switch indicates that the system is not full, and will turn off when 083 * the pressure switch indicates that the system is full. 084 * 085 * @param handle the PH handle 086 * @see "HAL_SetREVPHClosedLoopControlDigital" 087 */ 088 public static native void setClosedLoopControlDigital(int handle); 089 090 /** 091 * Enables the compressor in analog mode. This mode uses an analog pressure sensor connected to 092 * analog channel 0 to cycle the compressor. The compressor will turn on when the pressure drops 093 * below minAnalogVoltage and will turn off when the pressure reaches maxAnalogVoltage. This mode 094 * is only supported by the REV PH with the REV Analog Pressure Sensor connected to analog channel 095 * 0. 096 * 097 * @param handle the PH handle 098 * @param minAnalogVoltage The compressor will turn on when the analog pressure sensor voltage 099 * drops below this value 100 * @param maxAnalogVoltage The compressor will turn off when the analog pressure sensor reaches 101 * this value. 102 * @see "HAL_SetREVPHClosedLoopControlAnalog" 103 */ 104 public static native void setClosedLoopControlAnalog( 105 int handle, double minAnalogVoltage, double maxAnalogVoltage); 106 107 /** 108 * Enables the compressor in hybrid mode. This mode uses both a digital pressure switch and an 109 * analog pressure sensor connected to analog channel 0 to cycle the compressor. 110 * 111 * <p>The compressor will turn on when \a both: 112 * 113 * <p>- The digital pressure switch indicates the system is not full AND - The analog pressure 114 * sensor indicates that the pressure in the system is below the specified minimum pressure. 115 * 116 * <p>The compressor will turn off when \a either: 117 * 118 * <p>- The digital pressure switch is disconnected or indicates that the system is full OR - The 119 * pressure detected by the analog sensor is greater than the specified maximum pressure. 120 * 121 * @param handle the PH handle 122 * @param minAnalogVoltage The compressor will turn on when the analog pressure sensor voltage 123 * drops below this value and the pressure switch indicates that the system is not full. 124 * @param maxAnalogVoltage The compressor will turn off when the analog pressure sensor reaches 125 * this value or the pressure switch is disconnected or indicates that the system is full. 126 * @see "HAL_SetREVPHClosedLoopControlHybrid" 127 */ 128 public static native void setClosedLoopControlHybrid( 129 int handle, double minAnalogVoltage, double maxAnalogVoltage); 130 131 /** 132 * Get compressor configuration from the PH. 133 * 134 * @param handle the PH handle 135 * @return compressor configuration 136 * @see "HAL_GetREVPHCompressorConfig" 137 */ 138 public static native int getCompressorConfig(int handle); 139 140 /** 141 * Returns the state of the digital pressure switch. 142 * 143 * @param handle the PH handle 144 * @return True if pressure switch indicates that the system is full, otherwise false. 145 * @see "HAL_GetREVPHPressureSwitch" 146 */ 147 public static native boolean getPressureSwitch(int handle); 148 149 /** 150 * Returns the raw voltage of the specified analog input channel. 151 * 152 * @param handle the PH handle 153 * @param channel The analog input channel to read voltage from. 154 * @return The voltage of the specified analog input channel in volts. 155 * @see "HAL_GetREVPHAnalogVoltage" 156 */ 157 public static native double getAnalogVoltage(int handle, int channel); 158 159 /** 160 * Returns the current drawn by the compressor. 161 * 162 * @param handle the PH handle 163 * @return The current drawn by the compressor in amps. 164 * @see "HAL_GetREVPHCompressorCurrent" 165 */ 166 public static native double getCompressorCurrent(int handle); 167 168 /** 169 * Gets a bitmask of solenoid values. 170 * 171 * @param handle the PH handle 172 * @return solenoid values 173 * @see "HAL_GetREVPHSolenoids" 174 */ 175 public static native int getSolenoids(int handle); 176 177 /** 178 * Sets solenoids on a PH. 179 * 180 * @param handle the PH handle 181 * @param mask bitmask to set 182 * @param values solenoid values 183 * @see "HAL_SetREVPHSolenoids" 184 */ 185 public static native void setSolenoids(int handle, int mask, int values); 186 187 /** 188 * Fire a single solenoid shot for the specified duration. 189 * 190 * @param handle the PH handle 191 * @param index solenoid index 192 * @param durMs shot duration in ms 193 * @see "HAL_FireREVPHOneShot" 194 */ 195 public static native void fireOneShot(int handle, int index, int durMs); 196 197 /** 198 * Clears the sticky faults. 199 * 200 * @param handle the PH handle 201 * @see "HAL_ClearREVPHStickyFaults" 202 */ 203 public static native void clearStickyFaults(int handle); 204 205 /** 206 * Returns the current input voltage for the PH. 207 * 208 * @param handle the PH handle 209 * @return The input voltage in volts. 210 * @see "HAL_GetREVPHVoltage" 211 */ 212 public static native double getInputVoltage(int handle); 213 214 /** 215 * Returns the current voltage of the regulated 5v supply. 216 * 217 * @param handle the PH handle 218 * @return The current voltage of the 5v supply in volts. 219 * @see "HAL_GetREVPH5VVoltage" 220 */ 221 public static native double get5VVoltage(int handle); 222 223 /** 224 * Returns the total current drawn by all solenoids. 225 * 226 * @param handle the PH handle 227 * @return Total current drawn by all solenoids in amps. 228 * @see "HAL_GetREVPHSolenoidCurrent" 229 */ 230 public static native double getSolenoidCurrent(int handle); 231 232 /** 233 * Returns the current voltage of the solenoid power supply. 234 * 235 * @param handle the PH handle 236 * @return The current voltage of the solenoid power supply in volts. 237 * @see "HAL_GetREVPHSolenoidVoltage" 238 */ 239 public static native double getSolenoidVoltage(int handle); 240 241 /** 242 * Returns the sticky faults currently active on this device. 243 * 244 * @param handle the PH handle 245 * @return The sticky faults. 246 * @see "HAL_GetREVPHStickyFaults" 247 */ 248 public static native int getStickyFaultsNative(int handle); 249 250 /** 251 * Returns the sticky faults currently active on this device. 252 * 253 * @param handle the PH handle 254 * @return The sticky faults. 255 * @see "HAL_GetREVPHStickyFaults" 256 */ 257 public static REVPHStickyFaults getStickyFaults(int handle) { 258 return new REVPHStickyFaults(getStickyFaultsNative(handle)); 259 } 260 261 /** 262 * Returns the faults currently active on the PH. 263 * 264 * @param handle the PH handle 265 * @return The faults. 266 * @see "HAL_GetREVPHFaults" 267 */ 268 public static native int getFaultsNative(int handle); 269 270 /** 271 * Returns the faults currently active on the PH. 272 * 273 * @param handle the PH handle 274 * @return The faults. 275 * @see "HAL_GetREVPHFaults" 276 */ 277 public static REVPHFaults getFaults(int handle) { 278 return new REVPHFaults(getFaultsNative(handle)); 279 } 280 281 /** 282 * Returns the hardware and firmware versions of the PH. 283 * 284 * @param handle the PH handle 285 * @return The hardware and firmware versions. 286 * @see "HAL_GetREVPHVersion" 287 */ 288 public static native REVPHVersion getVersion(int handle); 289}