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/**************************************************************************//**
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* @file
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* @author Steve Lascos
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* @company Blackaddr Audio
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*
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* BAPhysicalControls is a general purpose class for handling an array of
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* pots, switches, rotary encoders and outputs (for LEDs or relays).
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*
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* @copyright This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.*
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*****************************************************************************/
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#ifndef __BAPHYSICALCONTROLS_H
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#define __BAPHYSICALCONTROLS_H
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#include <vector>
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#include <Encoder.h>
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#include <Bounce.h>
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namespace BALibrary {
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constexpr bool SWAP_DIRECTION = true; ///< Use when specifying direction should be swapped
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constexpr bool NOSWAP_DIRECTION = false; ///< Use when specifying direction should not be swapped
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/// Convenience class for handling a digital output with regard to setting and toggling stage
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class DigitalOutput {
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public:
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DigitalOutput() = delete; // delete the default constructor
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/// Construct an object to control the specified pin
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/// @param pin the "Logical Arduino" pin number (not the physical pin number
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DigitalOutput(uint8_t pin) : m_pin(pin) {}
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/// Set the output value
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/// @param val when zero output is low, otherwise output his high
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void set(int val);
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/// Toggle the output value current state
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void toggle(void);
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private:
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uint8_t m_pin; ///< store the pin associated with this output
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int m_val = 0; ///< store the value to support toggling
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};
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/// Convenience class for handling an analog pot as a control. When calibrated,
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/// returns a float between 0.0 and 1.0.
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class Potentiometer {
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public:
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/// Calibration data for a pot includes it's min and max value, as well as whether
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/// direction should be swapped. Swapping depends on the physical orientation of the
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/// pot.
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struct Calib {
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unsigned min; ///< The value from analogRead() when the pot is fully counter-clockwise (normal orientation)
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unsigned max; ///< The value from analogRead() when the pot is fully clockwise (normal orientation)
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bool swap; ///< when orientation is such that fully clockwise would give max reading, swap changes it to the min
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};
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Potentiometer() = delete; // delete the default constructor
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/// Construction requires the Arduino analog pin number, as well as calibration values.
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/// @param analogPin The analog Arduino pin literal. This the number on the Teensy pinout preceeeded by an A in the local pin name. E.g. "A17".
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/// @param minCalibration See Potentiometer::calibrate()
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/// @param maxCalibration See Potentiometer::calibrate()
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/// @param swapDirection Optional param. See Potentiometer::calibrate()
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Potentiometer(uint8_t analogPin, unsigned minCalibration, unsigned maxCalibration, bool swapDirection = false)
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: m_pin(analogPin), m_swapDirection(swapDirection), m_minCalibration(minCalibration), m_maxCalibration(maxCalibration) {}
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/// Get new value from the pot.
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/// @param value reference to a float, the new value will be written here. Value is between 0.0 and 1.0f.
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/// @returns true if the value has changed, false if it has not
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bool getValue(float &value);
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/// Get the raw int value directly from analogRead()
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/// @returns an integer between 0 and 1023.
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int getRawValue();
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/// Adjust the calibrate threshold. This is a factor that shrinks the calibration range slightly to
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/// ensure the full range from 0.0f to 1.0f can be obtained.
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/// @details temperature change can slightly alter the calibration values. This factor causes the value
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/// to hit min or max just before the end of the pots travel to compensate.
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/// @param thresholdFactor typical value is 0.01f to 0.05f
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void adjustCalibrationThreshold(float thresholdFactor);
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/// Set the amount of feedback in the IIR filter used to smooth the pot readings
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/// @details actual filter reponse deptnds on the rate you call getValue()
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/// @param filterValue typical values are 0.80f to 0.95f
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void setFeedbackFitlerValue(float fitlerValue);
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/// Call this static function before creating the object to obtain calibration data. The sequence
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/// involves prompts over the Serial port.
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/// @details E.g. call Potentiometer::calibrate(PIN). See BAExpansionCalibrate.ino in the library examples.
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/// @param analogPin the Arduino analog pin number connected to the pot you wish to calibraate.
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/// @returns populated Potentiometer::Calib structure
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static Calib calibrate(uint8_t analogPin);
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private:
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uint8_t m_pin; ///< store the Arduino pin literal, e.g. A17
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bool m_swapDirection; ///< swap when pot orientation is upside down
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unsigned m_minCalibration; ///< stores the min pot value
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unsigned m_maxCalibration; ///< stores the max pot value
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unsigned m_lastValue = 0; ///< stores previous value
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float m_feedbackFitlerValue = 0.9f; ///< feedback value for POT filter
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};
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/// Convenience class for rotary (quadrature) encoders. Uses Arduino Encoder under the hood.
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class RotaryEncoder : public Encoder {
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public:
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RotaryEncoder() = delete; // delete default constructor
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/// Constructor an encoder with the specified pins. Optionally swap direction and divide down the number of encoder ticks
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/// @param pin1 the Arduino logical pin number for the 'A' on the encoder.
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/// @param pin2 the Arduino logical pin number for the 'B' on the encoder.
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/// @param swapDirection (OPTIONAL) set to true or false to obtain clockwise increments the counter-clockwise decrements
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/// @param divider (OPTIONAL) controls the sensitivity of the divider. Use powers of 2. E.g. 1, 2, 4, 8, etc.
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RotaryEncoder(uint8_t pin1, uint8_t pin2, bool swapDirection = false, int divider = 1) : Encoder(pin1,pin2), m_swapDirection(swapDirection), m_divider(divider) {}
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/// Get the delta (as a positive or negative number) since last call
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/// @returns an integer representing the net change since last call
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int getChange();
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/// Set the divider on the internal counter. High resolution encoders without detents can be overly sensitive.
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/// This will helf reduce sensisitive by increasing the divider. Default = 1.
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/// @pram divider controls the sensitivity of the divider. Use powers of 2. E.g. 1, 2, 4, 8, etc.
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void setDivider(int divider);
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private:
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bool m_swapDirection; ///< specifies if increment/decrement should be swapped
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int32_t m_lastPosition = 0; ///< store the last recorded position
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int32_t m_divider; ///< divides down the magnitude of change read by the encoder.
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};
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/// Specifies the type of control
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enum class ControlType : unsigned {
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SWITCH_MOMENTARY = 0, ///< a momentary switch, which is only on when pressed.
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SWITCH_LATCHING = 1, ///< a latching switch, which toggles between on and off with each press and release
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ROTARY_KNOB = 2, ///< a rotary encoder knob
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POT = 3, ///< an analog potentiometer
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UNDEFINED = 255 ///< undefined or uninitialized
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};
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/// Tjis class provides convenient interface for combinary an arbitrary number of controls of different types into
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/// one object. Supports switches, pots, encoders and digital outputs (useful for LEDs, relays).
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class BAPhysicalControls {
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public:
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BAPhysicalControls() = delete;
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/// Construct an object and reserve memory for the specified number of controls. Encoders and outptus are optional params.
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/// @param numSwitches the number of switches or buttons
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/// @param numPots the number of analog potentiometers
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/// @param numEncoders the number of quadrature encoders
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/// @param numOutputs the number of digital outputs. E.g. LEDs, relays, etc.
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BAPhysicalControls(unsigned numSwitches, unsigned numPots, unsigned numEncoders = 0, unsigned numOutputs = 0);
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~BAPhysicalControls() {}
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/// add a rotary encoders to the controls
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/// @param pin1 the pin number corresponding to 'A' on the encoder
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/// @param pin2 the pin number corresponding to 'B' on the encoder
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/// @param swapDirection When true, reverses which rotation direction is positive, and which is negative
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/// @param divider optional, for encoders with high resolution this divides down the rotation measurement.
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/// @returns the index in the encoder vector the new encoder was placed at.
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unsigned addRotary(uint8_t pin1, uint8_t pin2, bool swapDirection = false, int divider = 1);
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/// add a switch to the controls
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/// @param pin the pin number connected to the switch
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/// @param intervalMilliseconds, optional, specifies the filtering time to debounce a switch
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/// @returns the index in the switch vector the new switch was placed at.
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unsigned addSwitch(uint8_t pin, unsigned long intervalMilliseconds = 10);
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/// add a pot to the controls
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/// @param pin the pin number connected to the wiper of the pot
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/// @param minCalibration the value corresponding to lowest pot setting
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/// @param maxCalibration the value corresponding to the highest pot setting
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unsigned addPot(uint8_t pin, unsigned minCalibration, unsigned maxCalibration);
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/// add a pot to the controls
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/// @param pin the pin number connected to the wiper of the pot
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/// @param minCalibration the value corresponding to lowest pot setting
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/// @param maxCalibration the value corresponding to the highest pot setting
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/// @param swapDirection reverses the which direction is considered pot minimum value
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/// @param range the pot raw value will be mapped into a range of 0 to range
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unsigned addPot(uint8_t pin, unsigned minCalibration, unsigned maxCalibration, bool swapDirection);
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/// add an output to the controls
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/// @param pin the pin number connected to the Arduino output
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/// @returns a handle (unsigned) to the added output. Use this to access the output.
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unsigned addOutput(uint8_t pin);
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/// Set the output specified by the provided handle
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/// @param handle the handle that was provided previously by calling addOutput()
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/// @param val the value to set the output. 0 is low, not zero is high.
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void setOutput(unsigned handle, int val);
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/// Set the output specified by the provided handle
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/// @param handle the handle that was provided previously by calling addOutput()
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/// @param val the value to set the output. True is high, false is low.
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void setOutput(unsigned handle, bool val);
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/// Toggle the output specified by the provided handle
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/// @param handle the handle that was provided previously by calling addOutput()
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void toggleOutput(unsigned handle);
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/// Retrieve the change in position on the specified rotary encoder
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/// @param handle the handle that was provided previously by calling addRotary()
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/// @returns an integer value. Positive is clockwise, negative is counter-clockwise rotation.
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int getRotaryAdjustUnit(unsigned handle);
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/// Check if the pot specified by the handle has been updated.
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/// @param handle the handle that was provided previously by calling addPot()
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/// @param value a reference to a float, the pot value will be written to this variable.
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/// @returns true if the pot value has changed since previous check, otherwise false
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bool checkPotValue(unsigned handle, float &value);
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/// Check if the switch has been toggled since last call
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/// @param handle the handle that was provided previously by calling addSwitch()
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/// @returns true if the switch changed state, otherwise false
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bool isSwitchToggled(unsigned handle);
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/// Check if the switch is currently being pressed (held)
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/// @param handle the handle that was provided previously by calling addSwitch()
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/// @returns true if the switch is held in a pressed or closed state
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bool isSwitchHeld(unsigned handle);
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/// Get the value of the switch
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/// @param handle the handle that was provided previously by calling addSwitch()
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/// @returns the value at the switch pin, either 0 or 1.
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int getSwitchValue(unsigned handle);
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private:
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std::vector<Potentiometer> m_pots; ///< a vector of all added pots
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std::vector<RotaryEncoder> m_encoders; ///< a vector of all added encoders
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std::vector<Bounce> m_switches; ///< a vector of all added switches
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std::vector<DigitalOutput> m_outputs; ///< a vector of all added outputs
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};
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} // BALibrary
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#endif /* __BAPHYSICALCONTROLS_H */
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