/** * \file pros/adi.hpp * * Contains prototypes for interfacing with the ADI. * * Visit https://pros.cs.purdue.edu/v5/tutorials/topical/adi.html to learn more. * * This file should not be modified by users, since it gets replaced whenever * a kernel upgrade occurs. * * \copyright Copyright (c) 2017-2023, Purdue University ACM SIGBots. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef _PROS_ADI_HPP_ #define _PROS_ADI_HPP_ #include #include #include #include #include "pros/adi.h" namespace pros { /** type definition for the pair of smart port and adi port for the basic adi devices */ using ext_adi_port_pair_t = std::pair; /** type definition for the triplet of smart port and two adi ports for the two wire adi devices*/ using ext_adi_port_tuple_t = std::tuple; class ADIPort { public: /** * Configures an ADI port to act as a given sensor type. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * \param type * The configuration type for the port */ explicit ADIPort(std::uint8_t adi_port, adi_port_config_e_t type = E_ADI_TYPE_UNDEFINED); /** * Configures an ADI port on an adi expander to act as a given sensor type. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_pair * The pair of the smart port number (from 1-22) and the ADI port number * (from 1-8, 'a'-'h', 'A'-'H') to configure * \param type * The configuration type for the port */ ADIPort(ext_adi_port_pair_t port_pair, adi_port_config_e_t type = E_ADI_TYPE_UNDEFINED); /** * Gets the configuration for the given ADI port. * * \return The ADI configuration for the given port */ std::int32_t get_config() const; /** * Gets the value for the given ADI port. * * \return The value stored for the given port */ std::int32_t get_value() const; /** * Configures an ADI port to act as a given sensor type. * * \param type * The configuration type for the port * * \return 1 if the operation was successful or PROS_ERR if the operation * failed, setting errno. */ std::int32_t set_config(adi_port_config_e_t type) const; /** * Sets the value for the given ADI port. * * This only works on ports configured as outputs, and the behavior will * change depending on the configuration of the port. * * \param value * The value to set the ADI port to * * \return 1 if the operation was successful or PROS_ERR if the operation * failed, setting errno. */ std::int32_t set_value(std::int32_t value) const; protected: std::uint8_t _smart_port; std::uint8_t _adi_port; }; class ADIAnalogIn : protected ADIPort { public: /** * Configures an ADI port to act as an Analog Input. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * * \return 1 if the operation was successful or PROS_ERR if the operation * failed, setting errno. */ explicit ADIAnalogIn(std::uint8_t adi_port); /** * Configures an ADI port on an adi expander to act as an Analog Input. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_pair * The pair of the smart port number (from 1-22) and the * ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * * \return 1 if the operation was successful or PROS_ERR if the operation * failed, setting errno. */ ADIAnalogIn(ext_adi_port_pair_t port_pair); /** * Calibrates the analog sensor on the specified port and returns the new * calibration value. * * This method assumes that the true sensor value is not actively changing at * this time and computes an average from approximately 500 samples, 1 ms * apart, for a 0.5 s period of calibration. The average value thus calculated * is returned and stored for later calls to the * pros::ADIAnalogIn::get_value_calibrated() and * pros::ADIAnalogIn::get_value_calibrated_HR() functions. These functions * will return the difference between this value and the current sensor value * when called. * * Do not use this function when the sensor value might be unstable (gyro * rotation, accelerometer movement). * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as an analog input * * \return The average sensor value computed by this function */ std::int32_t calibrate() const; /** * Gets the 12 bit calibrated value of an analog input port. * * The pros::ADIAnalogIn::calibrate() function must be run first. This * function is inappropriate for sensor values intended for integration, as * round-off error can accumulate causing drift over time. Use * pros::ADIAnalogIn::get_value_calibrated_HR() instead. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as an analog input * * \return The difference of the sensor value from its calibrated default from * -4095 to 4095 */ std::int32_t get_value_calibrated() const; /** * Gets the 16 bit calibrated value of an analog input port. * * The pros::ADIAnalogIn::calibrate() function must be run first. This is * intended for integrated sensor values such as gyros and accelerometers to * reduce drift due to round-off, and should not be used on a sensor such as a * line tracker or potentiometer. * * The value returned actually has 16 bits of "precision", even though the ADC * only reads 12 bits, so that error induced by the average value being * between two values when integrated over time is trivial. Think of the value * as the true value times 16. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as an analog input * * \return The difference of the sensor value from its calibrated default from * -16384 to 16384 */ std::int32_t get_value_calibrated_HR() const; /** * Gets the 12-bit value of the specified port. * * The value returned is undefined if the analog pin has been switched to a * different mode. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as an analog input * * \return The analog sensor value, where a value of 0 reflects an input * voltage of nearly 0 V and a value of 4095 reflects an input voltage of * nearly 5 V */ using ADIPort::get_value; }; // using ADIPotentiometer = ADIAnalogIn; using ADILineSensor = ADIAnalogIn; using ADILightSensor = ADIAnalogIn; using ADIAccelerometer = ADIAnalogIn; class ADIAnalogOut : private ADIPort { public: /** * Configures an ADI port to act as an Analog Output. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure */ explicit ADIAnalogOut(std::uint8_t adi_port); /** * Configures an ADI port on an adi_expander to act as an Analog Output. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_pair * The pair of the smart port number (from 1-22) and the * ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * */ ADIAnalogOut(ext_adi_port_pair_t port_pair); /** * Sets the value for the given ADI port. * * This only works on ports configured as outputs, and the behavior will * change depending on the configuration of the port. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as an analog output * * \param value * The value to set the ADI port to * * \return 1 if the operation was successful or PROS_ERR if the operation * failed, setting errno. */ using ADIPort::set_value; }; class ADIDigitalOut : private ADIPort { public: /** * Configures an ADI port to act as a Digital Output. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * \param init_state * The initial state for the port */ explicit ADIDigitalOut(std::uint8_t adi_port, bool init_state = LOW); /** * Configures an ADI port on an adi_expander to act as a Digital Output. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_pair * The pair of the smart port number (from 1-22) and the * ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * \param init_state * The initial state for the port */ ADIDigitalOut(ext_adi_port_pair_t port_pair, bool init_state = LOW); /** * Sets the value for the given ADI port. * * This only works on ports configured as outputs, and the behavior will * change depending on the configuration of the port. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a digital output * * \param value * The value to set the ADI port to * * \return if the operation was successful or PROS_ERR if the operation failed, setting errno. */ using ADIPort::set_value; }; class ADIDigitalIn : private ADIPort { public: /** * Configures an ADI port to act as a Digital Input. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure */ explicit ADIDigitalIn(std::uint8_t adi_port); /** * Configures an ADI port on an adi_expander to act as a Digital Input. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_pair * The pair of the smart port number (from 1-22) and the * ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure */ ADIDigitalIn(ext_adi_port_pair_t port_pair); /** * Gets a rising-edge case for a digital button press. * * This function is not thread-safe. * Multiple tasks polling a single button may return different results under * the same circumstances, so only one task should call this function for any * given button. E.g., Task A calls this function for buttons 1 and 2. Task B * may call this function for button 3, but should not for buttons 1 or 2. A * typical use-case for this function is to call inside opcontrol to detect * new button presses, and not in any other tasks. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a digital input * * \return 1 if the button is pressed and had not been pressed the last time * this function was called, 0 otherwise. */ std::int32_t get_new_press() const; /** * Gets the value for the given ADI port. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a digital input * * \return The value stored for the given port */ using ADIPort::get_value; }; using ADIButton = ADIDigitalIn; class ADIMotor : private ADIPort { public: /** * Configures an ADI port to act as a Motor. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure */ explicit ADIMotor(std::uint8_t adi_port); /** * Configures an ADI port on an adi_expander to act as a Motor. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_pair * The pair of the smart port number (from 1-22) and the * ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure */ ADIMotor(ext_adi_port_pair_t port_pair); /** * Stops the motor on the given port. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a motor * * \return 1 if the operation was successful or PROS_ERR if the operation * failed, setting errno. */ std::int32_t stop() const; /** * Sets the speed of the motor on the given port. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a motor * * \param value * The new signed speed; -127 is full reverse and 127 is full forward, * with 0 being off * * \return 1 if the operation was successful or PROS_ERR if the operation * failed, setting errno. */ using ADIPort::set_value; /** * Gets the last set speed of the motor on the given port. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a motor * * \return The last set speed of the motor on the given port */ using ADIPort::get_value; }; class ADIEncoder : private ADIPort { public: /** * Configures a set of ADI ports to act as an Encoder. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port_top * The "top" wire from the encoder sensor with the removable cover side up * \param adi_port_bottom * The "bottom" wire from the encoder sensor * \param reverse * If "true", the sensor will count in the opposite direction */ ADIEncoder(std::uint8_t adi_port_top, std::uint8_t adi_port_bottom, bool reversed = false); /** * Configures a set of ADI ports on an adi_expander to act as an Encoder. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_tuple * The tuple of the smart port number, the "top" wire from the encoder * sensor with the removable cover side up, and the "bottom" wire from * the encoder sensor * \param reverse * If "true", the sensor will count in the opposite direction */ ADIEncoder(ext_adi_port_tuple_t port_tuple, bool reversed = false); // Delete copy constructor to prevent a compilation error from the constructor above. ADIEncoder(ADIEncoder &) = delete; /** * Sets the encoder value to zero. * * It is safe to use this method while an encoder is enabled. It is not * necessary to call this method before stopping or starting an encoder. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a motor * * \return 1 if the operation was successful or PROS_ERR if the operation * failed, setting errno. */ std::int32_t reset() const; /** * Gets the number of ticks recorded by the encoder. * * There are 360 ticks in one revolution. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a motor * * \return The signed and cumulative number of counts since the last start or * reset */ std::int32_t get_value() const; }; class ADIUltrasonic : private ADIPort { public: /** * Configures a set of ADI ports to act as an Ultrasonic sensor. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_ping * The port connected to the orange OUTPUT cable. This should be in port * 1, 3, 5, or 7 ('A', 'C', 'E', 'G'). * \param port_echo * The port connected to the yellow INPUT cable. This should be in the * next highest port following port_ping. */ ADIUltrasonic(std::uint8_t adi_port_ping, std::uint8_t adi_port_echo); /** * Configures a set of ADI ports on an adi_expander to act as an Ultrasonic sensor. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_tuple * The tuple of the smart port number, the port connected to the orange * OUTPUT cable (1, 3, 5, 7 or 'A', 'C', 'E', 'G'), and the port * connected to the yellow INPUT cable (the next) highest port * following port_ping). */ ADIUltrasonic(ext_adi_port_tuple_t port_tuple); /** * Gets the current ultrasonic sensor value in centimeters. * * If no object was found, zero is returned. If the ultrasonic sensor was * never started, the return value is undefined. Round and fluffy objects can * cause inaccurate values to be returned. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as an ultrasonic * * \return The distance to the nearest object in m^-4 (10000 indicates 1 * meter), measured from the sensor's mounting points. */ std::int32_t get_value() const; }; class ADIGyro : private ADIPort { public: /** * Initializes a gyroscope on the given port. If the given port has not * previously been configured as a gyro, then this function starts a 1300ms * calibration period. * * It is highly recommended that an ADIGyro object be created in initialize() * when the robot is stationary to ensure proper calibration. If an ADIGyro * object is declared at the global scope, a hardcoded 1300ms delay at the * beginning of initialize will be necessary to ensure that the gyro's * returned values are correct at the beginning of autonomous/opcontrol. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The ADI port to initialize as a gyro (from 1-8, 'a'-'h', 'A'-'H') * \param multiplier * A scalar value that will be multiplied by the gyro heading value * supplied by the ADI */ explicit ADIGyro(std::uint8_t adi_port, double multiplier = 1); /** * Initializes a gyroscope on the given port of an adi expander. If the given * port has not previously been configured as a gyro, then this function starts * a 1300ms calibration period. * * It is highly recommended that an ADIGyro object be created in initialize() * when the robot is stationary to ensure proper calibration. If an ADIGyro * object is declared at the global scope, a hardcoded 1300ms delay at the * beginning of initialize will be necessary to ensure that the gyro's * returned values are correct at the beginning of autonomous/opcontrol. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_pair * The pair of the smart port number (from 1-22) and the * ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * \param multiplier * A scalar value that will be multiplied by the gyro heading value * supplied by the ADI */ ADIGyro(ext_adi_port_pair_t port_pair, double multiplier = 1); /** * Gets the current gyro angle in tenths of a degree. Unless a multiplier is * applied to the gyro, the return value will be a whole number representing * the number of degrees of rotation times 10. * * There are 360 degrees in a circle, thus the gyro will return 3600 for one * whole rotation. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a gyro * * \return The gyro angle in degrees. */ double get_value() const; /** * Resets the gyroscope value to zero. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a gyro * * \return 1 if the operation was successful or PROS_ERR if the operation * failed, setting errno. */ std::int32_t reset() const; }; class ADIPotentiometer : public ADIAnalogIn { public: /** * Configures an ADI port to act as a Potentiometer. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * \param potentiometer_type * An adi_potentiometer_type_e_t enum value specifying the potentiometer version type */ ADIPotentiometer(std::uint8_t adi_port, adi_potentiometer_type_e_t potentiometer_type = E_ADI_POT_EDR); /** * Configures an ADI port on an adi_expander to act as a Potentiometer. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The pair of the smart port number (from 1-22) and the * ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * \param potentiometer_type * An adi_potentiometer_type_e_t enum value specifying the potentiometer version type */ ADIPotentiometer(ext_adi_port_pair_t port_pair, adi_potentiometer_type_e_t potentiometer_type = E_ADI_POT_EDR); /** * Gets the current potentiometer angle in tenths of a degree. * * The original potentiometer rotates 250 degrees thus returning an angle between 0-250 degrees. * Potentiometer V2 rotates 330 degrees thus returning an angle between 0-330 degrees. * * This function uses the following values of errno when an error state is * reached: * ENXIO - The given value is not within the range of ADI Ports * EADDRINUSE - The port is not configured as a potentiometer * \return The potentiometer angle in degrees. */ double get_angle() const; /** * Gets the 12-bit value of the specified port. * * The value returned is undefined if the analog pin has been switched to a * different mode. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a potentiometer * * \return The analog sensor value, where a value of 0 reflects an input * voltage of nearly 0 V and a value of 4095 reflects an input voltage of * nearly 5 V */ using ADIAnalogIn::get_value; /** * Calibrates the potentiometer on the specified port and returns the new * calibration value. * * This method assumes that the potentiometer value is not actively changing at * this time and computes an average from approximately 500 samples, 1 ms * apart, for a 0.5 s period of calibration. The average value thus calculated * is returned and stored for later calls to the * pros::ADIPotentiometer::get_value_calibrated() function. This function * will return the difference between this value and the current sensor value * when called. * * Do not use this function when the potentiometer value might be unstable (rotating the potentiometer) * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a potentiometer * * \return The average potentiometer value computed by this function */ using ADIAnalogIn::calibrate; /** * Gets the 12 bit calibrated value of a potentiometer port. * * The pros::ADIPotentiometer::calibrate() function must be run first. * * This function uses the following values of errno when an error state is * reached: * ENODEV - The port is not configured as a potentiometer * * \return The difference of the potentiometer value from its calibrated default from * -4095 to 4095 */ using ADIAnalogIn::get_value_calibrated; }; class ADILed : protected ADIPort { public: /** * @brief Configures an ADI port to act as a LED. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param adi_port * The ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * \param length * The number of LEDs in the chain */ ADILed(std::uint8_t adi_port, std::uint32_t length); /** * @brief Configures an ADI port on a adi_expander to act as a LED. * * This function uses the following values of errno when an error state is * reached: * ENXIO - Either the ADI port value or the smart port value is not within its * valid range (ADI port: 1-8, 'a'-'h', or 'A'-'H'; smart port: 1-21). * * \param port_pair * The pair of the smart port number (from 1-22) and the * ADI port number (from 1-8, 'a'-'h', 'A'-'H') to configure * \param length * The number of LEDs in the chain */ ADILed(ext_adi_port_pair_t port_pair, std::uint32_t length); /** * @brief Operator overload to access the buffer in the ADILed class, it is * recommended that you call .update(); after doing any operations with this. * * @param i 0 indexed pixel of the lED * @return uint32_t& the address of the buffer at i to modify */ std::uint32_t& operator[] (size_t i); /** * @brief Clear the entire led strip of color * * This function uses the following values of errno when an error state is * reached: * ENXIO - The given value is not within the range of ADI Ports * EINVAL - A parameter is out of bounds/incorrect * EADDRINUSE - The port is not configured for ADI output * * @return PROS_SUCCESS if successful, PROS_ERR if not */ std::int32_t clear_all(); std::int32_t clear(); /** * @brief Force the LED strip to update with the current buffered values, this * should be called after any changes to the buffer using the [] operator. * * This function uses the following values of errno when an error state is * reached: * EINVAL - A parameter is out of bounds/incorrect * EADDRINUSE - The port is not configured for ADI output * * @return PROS_SUCCESS if successful, PROS_ERR if not */ std::int32_t update() const; /** * @brief Set the entire led strip to one color * * This function uses the following values of errno when an error state is * reached: * EINVAL - A parameter is out of bounds/incorrect * EADDRINUSE - The port is not configured for ADI output * * @param color color to set all the led strip value to * @return PROS_SUCCESS if successful, PROS_ERR if not */ std::int32_t set_all(uint32_t color); /** * @brief Set one pixel on the led strip * * This function uses the following values of errno when an error state is * reached: * EINVAL - A parameter is out of bounds/incorrect * EADDRINUSE - The port is not configured for ADI output * * @param color color to clear all the led strip to * @param pixel_position position of the pixel to clear * @return PROS_SUCCESS if successful, PROS_ERR if not */ std::int32_t set_pixel(uint32_t color, uint32_t pixel_position); /** * @brief Clear one pixel on the led strip * * This function uses the following values of errno when an error state is * reached: * EINVAL - A parameter is out of bounds/incorrect * EADDRINUSE - The port is not configured for ADI output * * @param pixel_position position of the pixel to clear * @return PROS_SUCCESS if successful, PROS_ERR if not */ std::int32_t clear_pixel(uint32_t pixel_position); /** * @brief Get the length of the led strip * * This function uses the following values of errno when an error state is * reached: * EINVAL - A parameter is out of bounds/incorrect * EADDRINUSE - The port is not configured for ADI output * * @return The length (in pixels) of the LED strip */ std::int32_t length(); protected: std::vector _buffer; }; // Alias for ADILed using ADILED = ADILed; } // namespace pros #endif // _PROS_ADI_HPP_