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annotate include/Utilities.h @ 518:c774bd8ad108 prerelease

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author oromoiluig <giuliomoro@yahoo.it>
date Wed, 22 Jun 2016 17:51:52 +0100
parents 02c4ca0e3718
children 5c8f46fcd4d0
rev   line source
andrewm@66 1 /**
andrewm@66 2 * @file
andrewm@66 3 * @brief Wiring-inspired utility functions and macros
andrewm@0 4 *
andrewm@66 5 * Macros and functions for I/O and data processing taking after the Wiring
andrewm@66 6 * (Arduino) language. This code began as part of the Hackable Instruments
andrewm@66 7 * project (EPSRC) at Queen Mary University of London, 2013-14.
andrewm@66 8 *
andrewm@66 9 * (c) 2014-15 Andrew McPherson, Victor Zappi and Giulio Moro,
andrewm@66 10 * Queen Mary University of London
andrewm@0 11 */
andrewm@0 12
andrewm@0 13 #ifndef UTILITIES_H_
andrewm@0 14 #define UTILITIES_H_
andrewm@0 15
giuliomoro@301 16 #include "Bela.h"
andrewm@45 17
andrewm@95 18 /**
andrewm@95 19 * \defgroup iofunctions I/O functions and constants
andrewm@95 20 *
andrewm@95 21 * These functions and macros are used for audio, analog and digital I/O. All the
giuliomoro@301 22 * I/O functions require the BelaContext data structure from render() to be passed
andrewm@95 23 * in. This means that these functions are, by design, \b only usable from within
andrewm@95 24 * the rendering thread.
andrewm@95 25 *
andrewm@95 26 * The naming conventions are loosely derived from the Arduino environment, and the
andrewm@95 27 * syntax is similar. Unlike Arduino, the I/O functions require the frame number at which
andrewm@95 28 * the read or write should take place, since all I/O happens synchronously with the
andrewm@95 29 * audio clock.
andrewm@95 30 *
andrewm@95 31 * @{
andrewm@95 32 */
andrewm@95 33
giuliomoro@187 34 #ifndef INPUT
giuliomoro@187 35 #define INPUT 0x0
giuliomoro@187 36 #endif /* INPUT */
andrewm@72 37
giuliomoro@187 38 #ifndef OUTPUT
giuliomoro@187 39 #define OUTPUT 0x1
giuliomoro@187 40 #endif /* OUTPUT */
andrewm@72 41
andrewm@95 42 /** @} */
andrewm@95 43
andrewm@95 44 /**
andrewm@95 45 * \ingroup wiring
andrewm@95 46 *
andrewm@95 47 * @{
andrewm@95 48 */
andrewm@95 49
andrewm@66 50 /// Set the given bit in \c word to 1.
andrewm@45 51 #define setBit(word,bit) ((word) | (1 << (bit)))
andrewm@66 52
andrewm@66 53 /// Clear the given bit in \c word to 0.
andrewm@45 54 #define clearBit(word,bit) ((word) &~ (1 << (bit)))
andrewm@66 55
andrewm@66 56 /// Check if the given bit in \c word is 1 (returns nonzero) or 0 (returns zero).
andrewm@45 57 #define getBit(word,bit) (((word) >> (bit)) & 1)
andrewm@66 58
andrewm@66 59 /// Set/clear the given bit in \c word to \c value.
andrewm@45 60 #define changeBit(word,bit,value) ((clearBit((word),(bit))) | ((value) << (bit)))
andrewm@45 61
andrewm@95 62 /** @} */
andrewm@95 63
andrewm@95 64 /**
andrewm@95 65 * \ingroup iofunctions
andrewm@95 66 *
andrewm@95 67 * @{
andrewm@95 68 */
andrewm@95 69
andrewm@56 70 // Note: pinMode(), analogWrite() and digitalWrite() should be able to be called from setup()
andrewm@56 71 // Likewise, thread launch should be able to be called from setup()
andrewm@45 72 // Also, make volume change functions callable from render() thread -- as an aux task?
andrewm@45 73
andrewm@68 74 /**
giuliomoro@179 75 * \brief Read an audio input, specifying the frame number (when to read) and the channel.
giuliomoro@179 76 *
giuliomoro@179 77 * This function returns the value of an audio input, at the time indicated by \c frame.
giuliomoro@179 78 * The returned value ranges from -1 to 1.
giuliomoro@179 79 *
giuliomoro@301 80 * \param context The I/O data structure which is passed by Bela to render().
giuliomoro@179 81 * \param frame Which frame (i.e. what time) to read the audio input. Valid values range
giuliomoro@179 82 * from 0 to (context->audioFrames - 1).
giuliomoro@179 83 * \param channel Which audio input to read. Valid values are between 0 and
giuliomoro@179 84 * (context->audioChannels - 1), typically 0 to 1 by default.
giuliomoro@179 85 * \return Value of the analog input, range to 1.
giuliomoro@179 86 */
andrewm@308 87 static inline float audioRead(BelaContext *context, int frame, int channel);
giuliomoro@179 88
giuliomoro@179 89 /**
giuliomoro@179 90 * \brief Write an audio output, specifying the frame number (when to write) and the channel.
giuliomoro@179 91 *
giuliomoro@179 92 * This function sets the value of an audio output, at the time indicated by \c frame. Valid
giuliomoro@179 93 * values are between -1 and 1.
giuliomoro@179 94 *
giuliomoro@301 95 * \param context The I/O data structure which is passed by Bela to render().
giuliomoro@179 96 * \param frame Which frame (i.e. what time) to write the audio output. Valid values range
giuliomoro@179 97 * from 0 to (context->audioFrames - 1).
giuliomoro@179 98 * \param channel Which analog output to write. Valid values are between 0 and
giuliomoro@179 99 * (context->audioChannels - 1), typically 0 to 1 by default.
giuliomoro@179 100 * \param value Value to write to the output, range -1 to 1.
giuliomoro@179 101 */
andrewm@308 102 static inline void audioWrite(BelaContext *context, int frame, int channel, float value);
giuliomoro@179 103
giuliomoro@179 104 /**
andrewm@68 105 * \brief Read an analog input, specifying the frame number (when to read) and the channel.
andrewm@68 106 *
andrewm@68 107 * This function returns the value of an analog input, at the time indicated by \c frame.
andrewm@68 108 * The returned value ranges from 0 to 1, corresponding to a voltage range of 0 to 4.096V.
andrewm@68 109 *
giuliomoro@301 110 * \param context The I/O data structure which is passed by Bela to render().
andrewm@68 111 * \param frame Which frame (i.e. what time) to read the analog input. Valid values range
andrewm@68 112 * from 0 to (context->analogFrames - 1).
andrewm@68 113 * \param channel Which analog input to read. Valid values are between 0 and
andrewm@68 114 * (context->analogChannels - 1), typically 0 to 7 by default.
andrewm@68 115 * \return Value of the analog input, range 0 to 1.
andrewm@68 116 */
andrewm@308 117 static inline float analogRead(BelaContext *context, int frame, int channel);
andrewm@68 118
andrewm@68 119 /**
andrewm@68 120 * \brief Write an analog output, specifying the frame number (when to write) and the channel.
andrewm@68 121 *
andrewm@68 122 * This function sets the value of an analog output, at the time indicated by \c frame. Valid
andrewm@68 123 * values are between 0 and 1, corresponding to the range 0 to 5V.
andrewm@68 124 *
andrewm@303 125 * The value written will persist for all future frames if BELA_FLAG_ANALOG_OUTPUTS_PERSIST
andrewm@68 126 * is set in context->flags. This is the default behaviour.
andrewm@68 127 *
giuliomoro@301 128 * \param context The I/O data structure which is passed by Bela to render().
andrewm@68 129 * \param frame Which frame (i.e. what time) to write the analog output. Valid values range
andrewm@68 130 * from 0 to (context->analogFrames - 1).
andrewm@68 131 * \param channel Which analog output to write. Valid values are between 0 and
andrewm@68 132 * (context->analogChannels - 1), typically 0 to 7 by default.
andrewm@68 133 * \param value Value to write to the output, range 0 to 1.
andrewm@68 134 */
andrewm@308 135 static inline void analogWrite(BelaContext *context, int frame, int channel, float value);
andrewm@68 136
andrewm@68 137 /**
andrewm@68 138 * \brief Write an analog output, specifying the frame number (when to write) and the channel.
andrewm@68 139 *
andrewm@68 140 * This function sets the value of an analog output, at the time indicated by \c frame. Valid
andrewm@68 141 * values are between 0 and 1, corresponding to the range 0 to 5V.
andrewm@68 142 *
andrewm@308 143 * Unlike analogWrite(), the value written will affect \b only the frame specified, with
andrewm@308 144 * future values unchanged. This is faster than analogWrite() so is better suited
andrewm@68 145 * to applications where every frame will be written to a different value. If
andrewm@303 146 * BELA_FLAG_ANALOG_OUTPUTS_PERSIST is not set within context->flags, then
andrewm@308 147 * analogWriteOnce() and analogWrite() are equivalent.
andrewm@68 148 *
giuliomoro@301 149 * \param context The I/O data structure which is passed by Bela to render().
andrewm@68 150 * \param frame Which frame (i.e. what time) to write the analog output. Valid values range
andrewm@68 151 * from 0 to (context->analogFrames - 1).
andrewm@68 152 * \param channel Which analog output to write. Valid values are between 0 and
andrewm@68 153 * (context->analogChannels - 1), typically 0 to 7 by default.
andrewm@68 154 * \param value Value to write to the output, range 0 to 1.
andrewm@68 155 */
andrewm@308 156 static inline void analogWriteOnce(BelaContext *context, int frame, int channel, float value);
andrewm@45 157
andrewm@72 158 /**
andrewm@72 159 * \brief Read a digital input, specifying the frame number (when to read) and the pin.
andrewm@72 160 *
andrewm@72 161 * This function returns the value of a digital input, at the time indicated by \c frame.
andrewm@72 162 * The value is 0 if the pin is low, and nonzero if the pin is high (3.3V).
andrewm@72 163 *
giuliomoro@301 164 * \param context The I/O data structure which is passed by Bela to render().
andrewm@72 165 * \param frame Which frame (i.e. what time) to read the digital input. Valid values range
andrewm@72 166 * from 0 to (context->digitalFrames - 1).
andrewm@72 167 * \param channel Which digital pin to read. 16 pins across the P8 and P9 headers of the
andrewm@72 168 * BeagleBone Black are available. See the constants P8_xx and P9_xx defined in
andrewm@72 169 * digital_gpio_mapping.h.
andrewm@72 170 * \return Value of the digital input.
andrewm@72 171 */
andrewm@308 172 static inline int digitalRead(BelaContext *context, int frame, int channel);
andrewm@72 173
andrewm@72 174 /**
andrewm@72 175 * \brief Write a digital output, specifying the frame number (when to write) and the pin.
andrewm@72 176 *
andrewm@72 177 * This function sets the value of a digital output, at the time indicated by \c frame.
andrewm@72 178 * A value of 0 sets the pin low; any other value sets the pin high (3.3V).
andrewm@72 179 *
andrewm@72 180 * The value written will persist for all future frames.
andrewm@72 181 *
giuliomoro@301 182 * \param context The I/O data structure which is passed by Bela to render().
andrewm@72 183 * \param frame Which frame (i.e. what time) to write the digital output. Valid values range
andrewm@72 184 * from 0 to (context->digitalFrames - 1).
andrewm@72 185 * \param channel Which digital output to write. 16 pins across the P8 and P9 headers of the
andrewm@72 186 * BeagleBone Black are available. See the constants P8_xx and P9_xx defined in
andrewm@72 187 * digital_gpio_mapping.h.
andrewm@72 188 * \param value Value to write to the output.
andrewm@72 189 */
andrewm@308 190 static inline void digitalWrite(BelaContext *context, int frame, int channel, int value);
andrewm@72 191
andrewm@72 192 /**
andrewm@72 193 * \brief Write a digital output, specifying the frame number (when to write) and the pin.
andrewm@72 194 *
andrewm@72 195 * This function sets the value of a digital output, at the time indicated by \c frame.
andrewm@72 196 * A value of 0 sets the pin low; any other value sets the pin high (3.3V).
andrewm@72 197 *
andrewm@308 198 * Unlike digitalWrite(), the value written will affect \b only the frame specified, with
andrewm@308 199 * future values unchanged. This is faster than digitalWrite() so is better suited
andrewm@72 200 * to applications where every frame will be written to a different value.
andrewm@72 201 *
giuliomoro@301 202 * \param context The I/O data structure which is passed by Bela to render().
andrewm@72 203 * \param frame Which frame (i.e. what time) to write the digital output. Valid values range
andrewm@72 204 * from 0 to (context->digitalFrames - 1).
andrewm@72 205 * \param channel Which digital output to write. 16 pins across the P8 and P9 headers of the
andrewm@72 206 * BeagleBone Black are available. See the constants P8_xx and P9_xx defined in
andrewm@72 207 * digital_gpio_mapping.h.
andrewm@72 208 * \param value Value to write to the output.
andrewm@72 209 */
andrewm@308 210 static inline void digitalWriteOnce(BelaContext *context, int frame, int channel, int value);
andrewm@45 211
andrewm@72 212 /**
andrewm@72 213 * \brief Set the direction of a digital pin to input or output.
andrewm@72 214 *
andrewm@72 215 * This function sets the direction of a digital pin, at the time indicated by \c frame.
andrewm@72 216 * Valid values are \c INPUT and \c OUTPUT. All pins begin as inputs by default.
andrewm@72 217 *
andrewm@72 218 * The value written will persist for all future frames.
andrewm@72 219 *
giuliomoro@301 220 * \param context The I/O data structure which is passed by Bela to render().
andrewm@72 221 * \param frame Which frame (i.e. what time) to set the pin direction. Valid values range
andrewm@72 222 * from 0 to (context->digitalFrames - 1).
andrewm@72 223 * \param channel Which digital output to write. 16 pins across the P8 and P9 headers of the
andrewm@72 224 * BeagleBone Black are available. See the constants P8_xx and P9_xx defined in
andrewm@72 225 * digital_gpio_mapping.h.
andrewm@72 226 * \param value Direction of the pin (\c INPUT or \c OUTPUT).
andrewm@72 227 */
andrewm@310 228 static inline void pinMode(BelaContext *context, int frame, int channel, int mode);
andrewm@72 229
andrewm@72 230 /**
andrewm@72 231 * \brief Set the direction of a digital pin to input or output.
andrewm@72 232 *
andrewm@72 233 * This function sets the direction of a digital pin, at the time indicated by \c frame.
andrewm@72 234 * Valid values are \c INPUT and \c OUTPUT. All pins begin as inputs by default.
andrewm@72 235 *
andrewm@72 236 * The value written will affect only the specified frame.
andrewm@72 237 *
giuliomoro@301 238 * \param context The I/O data structure which is passed by Bela to render().
andrewm@72 239 * \param frame Which frame (i.e. what time) to set the pin direction. Valid values range
andrewm@72 240 * from 0 to (context->digitalFrames - 1).
andrewm@72 241 * \param channel Which digital output to write. 16 pins across the P8 and P9 headers of the
andrewm@72 242 * BeagleBone Black are available. See the constants P8_xx and P9_xx defined in
andrewm@72 243 * digital_gpio_mapping.h.
andrewm@72 244 * \param value Direction of the pin (\c INPUT or \c OUTPUT).
andrewm@72 245 */
andrewm@310 246 static inline void pinModeOnce(BelaContext *context, int frame, int channel, int mode);
andrewm@45 247
andrewm@95 248 /** @} */
andrewm@95 249
andrewm@66 250 /**
andrewm@95 251 * \defgroup wiring Wiring language support
andrewm@95 252 *
andrewm@95 253 * These are functions found in the Wiring (Arduino) language which are not directly
andrewm@95 254 * related to I/O but are provided as a convenience.
andrewm@95 255 *
andrewm@95 256 * @{
andrewm@95 257 */
andrewm@95 258
andrewm@95 259 /**
andrewm@66 260 * \brief Linearly rescale a number from one range of values to another.
andrewm@66 261 *
andrewm@66 262 * This function linearly scales values of \c x such that the range in_min to
andrewm@66 263 * in_max at the input corresponds to the range out_min to out_max
andrewm@66 264 * at the output. Values outside this range are extrapolated.
andrewm@66 265 *
andrewm@66 266 * This function behaves identically to the function of the same name in Processing. It
andrewm@66 267 * is also similar to the corresponding function in Arduino, except that it supports floating
andrewm@66 268 * point values.
andrewm@66 269 *
andrewm@66 270 * \param x Input value to be mapped.
andrewm@66 271 * \param in_min Lower bound of the input range.
andrewm@66 272 * \param in_max Upper bound of the input range.
andrewm@66 273 * \param out_min Lower bound of the output range.
andrewm@66 274 * \param out_max Upper bound of the output range.
andrewm@66 275 * \return Rescaled value.
andrewm@66 276 */
giuliomoro@187 277 static inline float map(float x, float in_min, float in_max, float out_min, float out_max);
andrewm@66 278
andrewm@66 279 /**
andrewm@66 280 * \brief Constrain a number to stay within a given range.
andrewm@66 281 *
andrewm@66 282 * This function constrains \c x to remain within the range min_val to
andrewm@66 283 * max_val. Values of \c x outside this range are clipped to the edges
andrewm@66 284 * of the range.
andrewm@66 285 *
andrewm@66 286 * This function behaves identically to the function of the same name in Processing. It
andrewm@66 287 * is also similar to the corresponding function in Arduino, except that it supports floating
andrewm@66 288 * point values.
andrewm@66 289 *
andrewm@66 290 * \param x Input value to be constrained.
andrewm@66 291 * \param min_val Minimum possible value.
andrewm@66 292 * \param max_val Maximum possible value.
andrewm@66 293 * \return Constrained value.
andrewm@66 294 */
giuliomoro@187 295 static inline float constrain(float x, float min_val, float max_val);
andrewm@0 296
andrewm@95 297 /** @} */
andrewm@308 298 // audioRead()
giuliomoro@187 299 //
giuliomoro@187 300 // Returns the value of the given audio input at the given frame number.
andrewm@308 301 static inline float audioRead(BelaContext *context, int frame, int channel) {
giuliomoro@187 302 return context->audioIn[frame * context->audioChannels + channel];
giuliomoro@187 303 }
giuliomoro@187 304
andrewm@308 305 // audioWrite()
giuliomoro@187 306 //
giuliomoro@187 307 // Sets a given audio output channel to a value for the current frame
andrewm@308 308 static inline void audioWrite(BelaContext *context, int frame, int channel, float value) {
giuliomoro@187 309 context->audioOut[frame * context->audioChannels + channel] = value;
giuliomoro@187 310 }
giuliomoro@187 311
andrewm@308 312 // analogRead()
giuliomoro@187 313 //
giuliomoro@187 314 // Returns the value of the given analog input at the given frame number.
andrewm@308 315 static inline float analogRead(BelaContext *context, int frame, int channel) {
giuliomoro@187 316 return context->analogIn[frame * context->analogChannels + channel];
giuliomoro@187 317 }
giuliomoro@187 318
andrewm@308 319 // analogWrite()
giuliomoro@187 320 //
giuliomoro@187 321 // Sets a given analog output channel to a value for the current frame and, if persistent outputs are
giuliomoro@187 322 // enabled, for all subsequent frames
andrewm@308 323 static inline void analogWrite(BelaContext *context, int frame, int channel, float value) {
andrewm@303 324 if(context->flags & BELA_FLAG_ANALOG_OUTPUTS_PERSIST) {
giuliomoro@187 325 for(unsigned int f = frame; f < context->analogFrames; f++)
giuliomoro@187 326 context->analogOut[frame * context->analogChannels + channel] = value;
giuliomoro@187 327 }
giuliomoro@187 328 else
giuliomoro@187 329 context->analogOut[frame * context->analogChannels + channel] = value;
giuliomoro@187 330 }
giuliomoro@187 331
andrewm@308 332 // analogWriteOnce()
giuliomoro@187 333 //
giuliomoro@187 334 // Sets a given channel to a value for only the current frame
andrewm@308 335 static inline void analogWriteOnce(BelaContext *context, int frame, int channel, float value) {
giuliomoro@187 336 context->analogOut[frame * context->analogChannels + channel] = value;
giuliomoro@187 337 }
giuliomoro@187 338
andrewm@308 339 // digitalRead()
giuliomoro@187 340 //
giuliomoro@187 341 // Returns the value of a given digital input at the given frame number
andrewm@308 342 static inline int digitalRead(BelaContext *context, int frame, int channel) {
giuliomoro@187 343 return getBit(context->digital[frame], channel + 16);
giuliomoro@187 344 }
giuliomoro@187 345
andrewm@308 346 // digitalWrite()
giuliomoro@187 347 //
giuliomoro@187 348 // Sets a given digital output channel to a value for the current frame and all subsequent frames
andrewm@308 349 static inline void digitalWrite(BelaContext *context, int frame, int channel, int value) {
giuliomoro@187 350 for(unsigned int f = frame; f < context->digitalFrames; f++) {
giuliomoro@187 351 if(value)
giuliomoro@187 352 context->digital[f] |= 1 << (channel + 16);
giuliomoro@187 353 else
giuliomoro@187 354 context->digital[f] &= ~(1 << (channel + 16));
giuliomoro@187 355 }
giuliomoro@187 356 }
giuliomoro@187 357
andrewm@308 358 // digitalWriteOnce()
giuliomoro@187 359 //
giuliomoro@187 360 // Sets a given digital output channel to a value for the current frame only
andrewm@308 361 static inline void digitalWriteOnce(BelaContext *context, int frame, int channel, int value) {
giuliomoro@187 362 if(value)
giuliomoro@187 363 context->digital[frame] |= 1 << (channel + 16);
giuliomoro@187 364 else
giuliomoro@187 365 context->digital[frame] &= ~(1 << (channel + 16));
giuliomoro@187 366 }
giuliomoro@187 367
andrewm@310 368 // pinMode()
giuliomoro@187 369 //
giuliomoro@187 370 // Sets the direction of a digital pin for the current frame and all subsequent frames
andrewm@310 371 static inline void pinMode(BelaContext *context, int frame, int channel, int mode) {
giuliomoro@187 372 for(unsigned int f = frame; f < context->digitalFrames; f++) {
giuliomoro@187 373 if(mode == INPUT)
giuliomoro@187 374 context->digital[f] |= (1 << channel);
giuliomoro@187 375 else
giuliomoro@187 376 context->digital[f] &= ~(1 << channel);
giuliomoro@187 377 }
giuliomoro@187 378 }
giuliomoro@187 379
andrewm@310 380 // pinModeOnce()
giuliomoro@187 381 //
giuliomoro@187 382 // Sets the direction of a digital pin for the current frame only
andrewm@310 383 static inline void pinModeOnce(BelaContext *context, int frame, int channel, int mode) {
giuliomoro@187 384 if(mode == INPUT)
giuliomoro@187 385 context->digital[frame] |= (1 << channel);
giuliomoro@187 386 else
giuliomoro@187 387 context->digital[frame] &= ~(1 << channel);
giuliomoro@187 388 }
giuliomoro@187 389
giuliomoro@187 390
giuliomoro@187 391
giuliomoro@187 392 // map()
giuliomoro@187 393 //
giuliomoro@187 394 // Scale an input value from one range to another. Works like its Wiring language equivalent.
giuliomoro@187 395 // x is the value to scale; in_min and in_max are the input range; out_min and out_max
giuliomoro@187 396 // are the output range.
giuliomoro@187 397
giuliomoro@187 398 static inline float map(float x, float in_min, float in_max, float out_min, float out_max)
giuliomoro@187 399 {
giuliomoro@187 400 return (x - in_min) * (out_max - out_min) / (in_max - in_min) + out_min;
giuliomoro@187 401 }
giuliomoro@187 402
giuliomoro@187 403 // constrain()
giuliomoro@187 404 //
giuliomoro@187 405 // Clips an input value to be between two end points
giuliomoro@187 406 // x is the value to constrain; min_val and max_val are the range
giuliomoro@187 407
giuliomoro@187 408 static inline float constrain(float x, float min_val, float max_val)
giuliomoro@187 409 {
giuliomoro@187 410 if(x < min_val) return min_val;
giuliomoro@187 411 if(x > max_val) return max_val;
giuliomoro@187 412 return x;
giuliomoro@187 413 }
andrewm@95 414
andrewm@0 415 #endif /* UTILITIES_H_ */