beaglert: include/Utilities.h comparison

comparison include/Utilities.h @ 66:74a44c3d91f0 newapi

Some initial, partial documentation in Utilities.h

author	andrewm
date	Wed, 15 Jul 2015 23:55:48 +0100
parents	3c3a1357657d
children	59edd5780fef

comparison

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-:22dd19d0cdd3
+:74a44c3d91f0
-/*
+/**
-* Utilities.h
+*  @file
+*  @brief Wiring-inspired utility functions and macros
 *
-*  Created on: Oct 27, 2014
+*  Macros and functions for I/O and data processing taking after the Wiring
-*      Author: parallels
+*  (Arduino) language. This code began as part of the Hackable Instruments
+*  project (EPSRC) at Queen Mary University of London, 2013-14.
+*
+*  (c) 2014-15 Andrew McPherson, Victor Zappi and Giulio Moro,
+*  Queen Mary University of London
 */
 #ifndef UTILITIES_H_
 #define UTILITIES_H_
 #include "BeagleRT.h"
+/// Set the given bit in \c word to 1.
 #define setBit(word,bit) 			((word) | (1 << (bit)))
+/// Clear the given bit in \c word to 0.
 #define clearBit(word,bit) 			((word) &~ (1 << (bit)))
+/// Check if the given bit in \c word is 1 (returns nonzero) or 0 (returns zero).
 #define getBit(word,bit) 			(((word) >> (bit)) & 1)
+/// Set/clear the given bit in \c word to \c value.
 #define changeBit(word,bit,value) 	((clearBit((word),(bit))) | ((value) << (bit)))
 #if 1
 // Note: pinMode(), analogWrite() and digitalWrite() should be able to be called from setup()
 // Likewise, thread launch should be able to be called from setup()
 #define digitalRead(pin, frame) ( getBit(digital[(frame)], pin+16) )
 #endif
+/**
+* \brief Linearly rescale a number from one range of values to another.
+*
+* This function linearly scales values of \c x such that the range in_min to
+* in_max at the input corresponds to the range out_min to out_max
+* at the output. Values outside this range are extrapolated.
+*
+* This function behaves identically to the function of the same name in Processing. It
+* is also similar to the corresponding function in Arduino, except that it supports floating
+* point values.
+*
+* \param x Input value to be mapped.
+* \param in_min Lower bound of the input range.
+* \param in_max Upper bound of the input range.
+* \param out_min Lower bound of the output range.
+* \param out_max Upper bound of the output range.
+* \return Rescaled value.
+*/
 float map(float x, float in_min, float in_max, float out_min, float out_max);
+/**
+* \brief Constrain a number to stay within a given range.
+*
+* This function constrains \c x to remain within the range min_val to
+* max_val. Values of \c x outside this range are clipped to the edges
+* of the range.
+*
+* This function behaves identically to the function of the same name in Processing. It
+* is also similar to the corresponding function in Arduino, except that it supports floating
+* point values.
+*
+* \param x Input value to be constrained.
+* \param min_val Minimum possible value.
+* \param max_val Maximum possible value.
+* \return Constrained value.
+*/
 float constrain(float x, float min_val, float max_val);
 #endif /* UTILITIES_H_ */

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comparison include/Utilities.h @ 66:74a44c3d91f0 newapi