2022-03-25 18:26:57 +00:00
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#include <cstdio>
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#include "pico/stdlib.h"
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#include "servo2040.hpp"
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/*
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Shows how to create servos with different common
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calibrations, modify a servo's existing calibration,
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and create a servo with a custom calibration.
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*/
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using namespace servo;
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// Function for printing out the details of a Calibration object
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void print_calibration(const Calibration &calib) {
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printf("Calibration(");
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uint size = calib.size();
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printf("size = %d", size);
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printf(", pairs = {");
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for(uint i = 0; i < size; i++) {
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const Calibration::Pair &pair = calib.pair(i);
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printf("{%f, %f}",pair.pulse, pair.value);
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if(i < size - 1)
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printf(", ");
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}
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printf("}, limit_lower = %s", calib.has_lower_limit() ? "true" : "false");
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printf(", limit_upper = %s", calib.has_upper_limit() ? "true" : "false");
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printf(")\n\n");
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}
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int main() {
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stdio_init_all();
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// Sleep 8 seconds to give enough time to connect up a terminal
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sleep_ms(8000);
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// -----------------------------------------------------
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// Create and modify the calibration of an angular servo
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// -----------------------------------------------------
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// Create an angular servo on pin 0. By default its value ranges from -90 to +90
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Servo angular_servo = Servo(servo2040::SERVO_1, ANGULAR);
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// Get a reference to the calibration and print it out
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Calibration &acal = angular_servo.calibration();
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printf("Angular Servo: ");
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print_calibration(acal);
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// The range we want the anglular servo to cover
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constexpr float WIDE_ANGLE_RANGE = 270.0f;
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// Lets modify the calibration to increase its range
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2022-03-27 11:48:58 +00:00
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acal.first_value(-WIDE_ANGLE_RANGE / 2);
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acal.last_value(WIDE_ANGLE_RANGE / 2);
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2022-03-25 18:26:57 +00:00
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// As the calibration was a reference, the servo has already
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// been updated, but lets access it again to confirm it worked
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printf("Wide Angle Servo: ");
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print_calibration(angular_servo.calibration());
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// ---------------------------------------------------
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// Create and modify the calibration of a linear servo
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// ---------------------------------------------------
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// The range we want the linear servo to cover
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constexpr float LINEAR_RANGE = 50.0f;
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// Create a linear servo on pin 1. By default its value ranges from 0.0 to 1.0
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Servo linear_servo = Servo(servo2040::SERVO_2, LINEAR);
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// Update the linear servo so its max value matches the real distance travelled
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Calibration &lcal = linear_servo.calibration();
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2022-03-27 11:48:58 +00:00
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lcal.last_value(LINEAR_RANGE);
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2022-03-25 18:26:57 +00:00
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// As the calibration was a reference, the servo has already
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// been updated, but lets access it again to confirm it worked
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printf("Linear Servo: ");
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print_calibration(linear_servo.calibration());
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// ----------------------------------------------------------------
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// Create and modify the calibration of a continuous rotation servo
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// ----------------------------------------------------------------
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// The speed we want the continuous servo to cover
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constexpr float CONTINUOUS_SPEED = 10.0f;
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// Create a continous rotation servo on pin 2. By default its value ranges from -1.0 to +1.0
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Servo continuous_servo = Servo(servo2040::SERVO_3, CONTINUOUS);
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// Update the continuous rotation servo so its value matches its real speed
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Calibration &ccal = continuous_servo.calibration();
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2022-03-27 11:48:58 +00:00
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ccal.first_value(-CONTINUOUS_SPEED);
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ccal.last_value(CONTINUOUS_SPEED);
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2022-03-25 18:26:57 +00:00
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// As the calibration was a reference, the servo has already
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// been updated, but lets access it again to confirm it worked
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printf("Continuous Servo: ");
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print_calibration(continuous_servo.calibration());
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// ------------------------------------------------------
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// Create a custom calibration and build a servo using it
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// ------------------------------------------------------
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// Create an empty calibration
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Calibration ecal = Calibration();
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// Give it a range of -45 to 45 degrees, corresponding to pulses of 1000 and 2000 microseconds
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ecal.apply_two_pairs(1000, 2000, -45, 45);
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// Turn off the lower and upper limits, so the servo can go beyond 45 degrees
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ecal.limit_to_calibration(false, false);
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// Create a servo on pin 3 using the custom calibration and confirmed it worked
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Servo custom_servo = Servo(servo2040::SERVO_4, ecal);
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printf("Custom Servo: ");
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print_calibration(custom_servo.calibration());
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}
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