652 lines
14 KiB
C++
652 lines
14 KiB
C++
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// AccelStepper.cpp
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//
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// Copyright (C) 2009-2013 Mike McCauley
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// $Id: AccelStepper.cpp,v 1.23 2016/08/09 00:39:10 mikem Exp $
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#include "AccelStepper.h"
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#if 0
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// Some debugging assistance
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void dump(uint8_t* p, int l)
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{
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int i;
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for (i = 0; i < l; i++)
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{
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Serial.print(p[i], HEX);
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Serial.print(" ");
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}
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Serial.println("");
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}
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#endif
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void AccelStepper::moveTo(long absolute)
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{
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if (_targetPos != absolute)
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{
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_targetPos = absolute;
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computeNewSpeed();
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// compute new n?
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}
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}
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void AccelStepper::move(long relative)
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{
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moveTo(_currentPos + relative);
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}
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// Implements steps according to the current step interval
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// You must call this at least once per step
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// returns true if a step occurred
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boolean AccelStepper::runSpeed()
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{
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// Dont do anything unless we actually have a step interval
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if (!_stepInterval)
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return false;
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unsigned long time = micros();
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if (time - _lastStepTime >= _stepInterval)
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{
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if (_direction == DIRECTION_CW)
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{
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// Clockwise
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_currentPos += 1;
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}
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else
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{
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// Anticlockwise
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_currentPos -= 1;
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}
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step(_currentPos);
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_lastStepTime = time; // Caution: does not account for costs in step()
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return true;
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}
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else
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{
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return false;
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}
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}
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long AccelStepper::distanceToGo()
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{
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return _targetPos - _currentPos;
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}
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long AccelStepper::targetPosition()
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{
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return _targetPos;
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}
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long AccelStepper::currentPosition()
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{
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return _currentPos;
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}
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// Useful during initialisations or after initial positioning
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// Sets speed to 0
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void AccelStepper::setCurrentPosition(long position)
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{
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_targetPos = _currentPos = position;
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_n = 0;
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_stepInterval = 0;
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_speed = 0.0;
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}
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void AccelStepper::computeNewSpeed()
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{
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long distanceTo = distanceToGo(); // +ve is clockwise from curent location
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long stepsToStop = (long)((_speed * _speed) / (2.0 * _acceleration)); // Equation 16
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if (distanceTo == 0 && stepsToStop <= 1)
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{
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// We are at the target and its time to stop
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_stepInterval = 0;
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_speed = 0.0;
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_n = 0;
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return;
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}
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if (distanceTo > 0)
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{
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// We are anticlockwise from the target
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// Need to go clockwise from here, maybe decelerate now
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if (_n > 0)
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{
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// Currently accelerating, need to decel now? Or maybe going the wrong way?
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if ((stepsToStop >= distanceTo) || _direction == DIRECTION_CCW)
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_n = -stepsToStop; // Start deceleration
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}
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else if (_n < 0)
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{
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// Currently decelerating, need to accel again?
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if ((stepsToStop < distanceTo) && _direction == DIRECTION_CW)
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_n = -_n; // Start accceleration
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}
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}
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else if (distanceTo < 0)
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{
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// We are clockwise from the target
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// Need to go anticlockwise from here, maybe decelerate
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if (_n > 0)
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{
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// Currently accelerating, need to decel now? Or maybe going the wrong way?
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if ((stepsToStop >= -distanceTo) || _direction == DIRECTION_CW)
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_n = -stepsToStop; // Start deceleration
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}
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else if (_n < 0)
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{
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// Currently decelerating, need to accel again?
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if ((stepsToStop < -distanceTo) && _direction == DIRECTION_CCW)
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_n = -_n; // Start accceleration
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}
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}
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// Need to accelerate or decelerate
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if (_n == 0)
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{
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// First step from stopped
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_cn = _c0;
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_direction = (distanceTo > 0) ? DIRECTION_CW : DIRECTION_CCW;
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}
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else
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{
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// Subsequent step. Works for accel (n is +_ve) and decel (n is -ve).
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_cn = _cn - ((2.0 * _cn) / ((4.0 * _n) + 1)); // Equation 13
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_cn = max(_cn, _cmin);
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}
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_n++;
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_stepInterval = _cn;
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_speed = 1000000.0 / _cn;
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if (_direction == DIRECTION_CCW)
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_speed = -_speed;
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#if 0
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Serial.println(_speed);
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Serial.println(_acceleration);
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Serial.println(_cn);
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Serial.println(_c0);
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Serial.println(_n);
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Serial.println(_stepInterval);
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Serial.println(distanceTo);
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Serial.println(stepsToStop);
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Serial.println("-----");
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#endif
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}
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// Run the motor to implement speed and acceleration in order to proceed to the target position
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// You must call this at least once per step, preferably in your main loop
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// If the motor is in the desired position, the cost is very small
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// returns true if the motor is still running to the target position.
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boolean AccelStepper::run()
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{
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if (runSpeed())
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computeNewSpeed();
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return _speed != 0.0 || distanceToGo() != 0;
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}
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AccelStepper::AccelStepper(uint8_t interface, uint8_t pin1, uint8_t pin2, uint8_t pin3, uint8_t pin4, bool enable)
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{
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_interface = interface;
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_currentPos = 0;
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_targetPos = 0;
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_speed = 0.0;
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_maxSpeed = 1.0;
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_acceleration = 0.0;
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_sqrt_twoa = 1.0;
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_stepInterval = 0;
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_minPulseWidth = 1;
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_enablePin = 0xff;
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_lastStepTime = 0;
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_pin[0] = pin1;
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_pin[1] = pin2;
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_pin[2] = pin3;
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_pin[3] = pin4;
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// NEW
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_n = 0;
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_c0 = 0.0;
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_cn = 0.0;
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_cmin = 1.0;
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_direction = DIRECTION_CCW;
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int i;
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for (i = 0; i < 4; i++)
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_pinInverted[i] = 0;
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if (enable)
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enableOutputs();
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// Some reasonable default
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setAcceleration(1);
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}
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AccelStepper::AccelStepper(void (*forward)(), void (*backward)())
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{
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_interface = 0;
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_currentPos = 0;
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_targetPos = 0;
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_speed = 0.0;
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_maxSpeed = 1.0;
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_acceleration = 0.0;
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_sqrt_twoa = 1.0;
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_stepInterval = 0;
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_minPulseWidth = 1;
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_enablePin = 0xff;
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_lastStepTime = 0;
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_pin[0] = 0;
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_pin[1] = 0;
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_pin[2] = 0;
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_pin[3] = 0;
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_forward = forward;
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_backward = backward;
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// NEW
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_n = 0;
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_c0 = 0.0;
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_cn = 0.0;
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_cmin = 1.0;
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_direction = DIRECTION_CCW;
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int i;
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for (i = 0; i < 4; i++)
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_pinInverted[i] = 0;
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// Some reasonable default
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setAcceleration(1);
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}
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void AccelStepper::setMaxSpeed(float speed)
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{
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if (speed < 0.0)
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speed = -speed;
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if (_maxSpeed != speed)
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{
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_maxSpeed = speed;
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_cmin = 1000000.0 / speed;
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// Recompute _n from current speed and adjust speed if accelerating or cruising
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if (_n > 0)
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{
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_n = (long)((_speed * _speed) / (2.0 * _acceleration)); // Equation 16
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computeNewSpeed();
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}
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}
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}
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float AccelStepper::maxSpeed()
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{
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return _maxSpeed;
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}
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void AccelStepper::setAcceleration(float acceleration)
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{
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if (acceleration == 0.0)
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return;
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if (acceleration < 0.0)
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acceleration = -acceleration;
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if (_acceleration != acceleration)
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{
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// Recompute _n per Equation 17
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_n = _n * (_acceleration / acceleration);
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// New c0 per Equation 7, with correction per Equation 15
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_c0 = 0.676 * sqrt(2.0 / acceleration) * 1000000.0; // Equation 15
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_acceleration = acceleration;
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computeNewSpeed();
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}
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}
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void AccelStepper::setSpeed(float speed)
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{
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if (speed == _speed)
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return;
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speed = constrain(speed, -_maxSpeed, _maxSpeed);
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if (speed == 0.0)
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_stepInterval = 0;
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else
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{
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_stepInterval = fabs(1000000.0 / speed);
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_direction = (speed > 0.0) ? DIRECTION_CW : DIRECTION_CCW;
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}
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_speed = speed;
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}
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float AccelStepper::speed()
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{
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return _speed;
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}
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// Subclasses can override
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void AccelStepper::step(long step)
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{
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switch (_interface)
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{
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case FUNCTION:
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step0(step);
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break;
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case DRIVER:
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step1(step);
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break;
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case FULL2WIRE:
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step2(step);
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break;
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case FULL3WIRE:
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step3(step);
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break;
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case FULL4WIRE:
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step4(step);
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break;
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case HALF3WIRE:
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step6(step);
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break;
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case HALF4WIRE:
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step8(step);
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break;
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}
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}
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// You might want to override this to implement eg serial output
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// bit 0 of the mask corresponds to _pin[0]
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// bit 1 of the mask corresponds to _pin[1]
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// ....
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void AccelStepper::setOutputPins(uint8_t mask)
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{
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uint8_t numpins = 2;
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if (_interface == FULL4WIRE || _interface == HALF4WIRE)
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numpins = 4;
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else if (_interface == FULL3WIRE || _interface == HALF3WIRE)
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numpins = 3;
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uint8_t i;
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for (i = 0; i < numpins; i++)
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digitalWrite(_pin[i], (mask & (1 << i)) ? (HIGH ^ _pinInverted[i]) : (LOW ^ _pinInverted[i]));
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}
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// 0 pin step function (ie for functional usage)
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void AccelStepper::step0(long step)
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{
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(void)(step); // Unused
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if (_speed > 0)
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_forward();
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else
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_backward();
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}
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// 1 pin step function (ie for stepper drivers)
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// This is passed the current step number (0 to 7)
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// Subclasses can override
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void AccelStepper::step1(long step)
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{
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(void)(step); // Unused
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// _pin[0] is step, _pin[1] is direction
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setOutputPins(_direction ? 0b10 : 0b00); // Set direction first else get rogue pulses
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setOutputPins(_direction ? 0b11 : 0b01); // step HIGH
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// Caution 200ns setup time
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// Delay the minimum allowed pulse width
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delayMicroseconds(_minPulseWidth);
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setOutputPins(_direction ? 0b10 : 0b00); // step LOW
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}
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// 2 pin step function
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// This is passed the current step number (0 to 7)
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// Subclasses can override
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void AccelStepper::step2(long step)
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{
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switch (step & 0x3)
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{
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case 0: /* 01 */
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setOutputPins(0b10);
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break;
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case 1: /* 11 */
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setOutputPins(0b11);
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break;
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case 2: /* 10 */
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setOutputPins(0b01);
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break;
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case 3: /* 00 */
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setOutputPins(0b00);
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break;
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}
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}
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// 3 pin step function
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// This is passed the current step number (0 to 7)
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// Subclasses can override
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void AccelStepper::step3(long step)
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{
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switch (step % 3)
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{
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case 0: // 100
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setOutputPins(0b100);
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break;
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case 1: // 001
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setOutputPins(0b001);
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break;
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case 2: //010
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setOutputPins(0b010);
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break;
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}
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}
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// 4 pin step function for half stepper
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// This is passed the current step number (0 to 7)
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// Subclasses can override
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void AccelStepper::step4(long step)
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{
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switch (step & 0x3)
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{
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case 0: // 1010
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setOutputPins(0b0101);
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break;
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case 1: // 0110
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setOutputPins(0b0110);
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break;
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case 2: //0101
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setOutputPins(0b1010);
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break;
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case 3: //1001
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setOutputPins(0b1001);
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break;
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}
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}
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// 3 pin half step function
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// This is passed the current step number (0 to 7)
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// Subclasses can override
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void AccelStepper::step6(long step)
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{
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switch (step % 6)
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{
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case 0: // 100
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setOutputPins(0b100);
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break;
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case 1: // 101
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setOutputPins(0b101);
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break;
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case 2: // 001
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setOutputPins(0b001);
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break;
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case 3: // 011
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setOutputPins(0b011);
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break;
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case 4: // 010
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setOutputPins(0b010);
|
||
|
break;
|
||
|
|
||
|
case 5: // 011
|
||
|
setOutputPins(0b110);
|
||
|
break;
|
||
|
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// 4 pin half step function
|
||
|
// This is passed the current step number (0 to 7)
|
||
|
// Subclasses can override
|
||
|
void AccelStepper::step8(long step)
|
||
|
{
|
||
|
switch (step & 0x7)
|
||
|
{
|
||
|
case 0: // 1000
|
||
|
setOutputPins(0b0001);
|
||
|
break;
|
||
|
|
||
|
case 1: // 1010
|
||
|
setOutputPins(0b0101);
|
||
|
break;
|
||
|
|
||
|
case 2: // 0010
|
||
|
setOutputPins(0b0100);
|
||
|
break;
|
||
|
|
||
|
case 3: // 0110
|
||
|
setOutputPins(0b0110);
|
||
|
break;
|
||
|
|
||
|
case 4: // 0100
|
||
|
setOutputPins(0b0010);
|
||
|
break;
|
||
|
|
||
|
case 5: //0101
|
||
|
setOutputPins(0b1010);
|
||
|
break;
|
||
|
|
||
|
case 6: // 0001
|
||
|
setOutputPins(0b1000);
|
||
|
break;
|
||
|
|
||
|
case 7: //1001
|
||
|
setOutputPins(0b1001);
|
||
|
break;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// Prevents power consumption on the outputs
|
||
|
void AccelStepper::disableOutputs()
|
||
|
{
|
||
|
if (! _interface) return;
|
||
|
|
||
|
setOutputPins(0); // Handles inversion automatically
|
||
|
if (_enablePin != 0xff)
|
||
|
{
|
||
|
pinMode(_enablePin, OUTPUT);
|
||
|
digitalWrite(_enablePin, LOW ^ _enableInverted);
|
||
|
}
|
||
|
}
|
||
|
|
||
|
void AccelStepper::enableOutputs()
|
||
|
{
|
||
|
if (! _interface)
|
||
|
return;
|
||
|
|
||
|
pinMode(_pin[0], OUTPUT);
|
||
|
pinMode(_pin[1], OUTPUT);
|
||
|
if (_interface == FULL4WIRE || _interface == HALF4WIRE)
|
||
|
{
|
||
|
pinMode(_pin[2], OUTPUT);
|
||
|
pinMode(_pin[3], OUTPUT);
|
||
|
}
|
||
|
else if (_interface == FULL3WIRE || _interface == HALF3WIRE)
|
||
|
{
|
||
|
pinMode(_pin[2], OUTPUT);
|
||
|
}
|
||
|
|
||
|
if (_enablePin != 0xff)
|
||
|
{
|
||
|
pinMode(_enablePin, OUTPUT);
|
||
|
digitalWrite(_enablePin, HIGH ^ _enableInverted);
|
||
|
}
|
||
|
}
|
||
|
|
||
|
void AccelStepper::setMinPulseWidth(unsigned int minWidth)
|
||
|
{
|
||
|
_minPulseWidth = minWidth;
|
||
|
}
|
||
|
|
||
|
void AccelStepper::setEnablePin(uint8_t enablePin)
|
||
|
{
|
||
|
_enablePin = enablePin;
|
||
|
|
||
|
// This happens after construction, so init pin now.
|
||
|
if (_enablePin != 0xff)
|
||
|
{
|
||
|
pinMode(_enablePin, OUTPUT);
|
||
|
digitalWrite(_enablePin, HIGH ^ _enableInverted);
|
||
|
}
|
||
|
}
|
||
|
|
||
|
void AccelStepper::setPinsInverted(bool directionInvert, bool stepInvert, bool enableInvert)
|
||
|
{
|
||
|
_pinInverted[0] = stepInvert;
|
||
|
_pinInverted[1] = directionInvert;
|
||
|
_enableInverted = enableInvert;
|
||
|
}
|
||
|
|
||
|
void AccelStepper::setPinsInverted(bool pin1Invert, bool pin2Invert, bool pin3Invert, bool pin4Invert, bool enableInvert)
|
||
|
{
|
||
|
_pinInverted[0] = pin1Invert;
|
||
|
_pinInverted[1] = pin2Invert;
|
||
|
_pinInverted[2] = pin3Invert;
|
||
|
_pinInverted[3] = pin4Invert;
|
||
|
_enableInverted = enableInvert;
|
||
|
}
|
||
|
|
||
|
// Blocks until the target position is reached and stopped
|
||
|
void AccelStepper::runToPosition()
|
||
|
{
|
||
|
while (run())
|
||
|
;
|
||
|
}
|
||
|
|
||
|
boolean AccelStepper::runSpeedToPosition()
|
||
|
{
|
||
|
if (_targetPos == _currentPos)
|
||
|
return false;
|
||
|
if (_targetPos >_currentPos)
|
||
|
_direction = DIRECTION_CW;
|
||
|
else
|
||
|
_direction = DIRECTION_CCW;
|
||
|
return runSpeed();
|
||
|
}
|
||
|
|
||
|
// Blocks until the new target position is reached
|
||
|
void AccelStepper::runToNewPosition(long position)
|
||
|
{
|
||
|
moveTo(position);
|
||
|
runToPosition();
|
||
|
}
|
||
|
|
||
|
void AccelStepper::stop()
|
||
|
{
|
||
|
if (_speed != 0.0)
|
||
|
{
|
||
|
long stepsToStop = (long)((_speed * _speed) / (2.0 * _acceleration)) + 1; // Equation 16 (+integer rounding)
|
||
|
if (_speed > 0)
|
||
|
move(stepsToStop);
|
||
|
else
|
||
|
move(-stepsToStop);
|
||
|
}
|
||
|
}
|
||
|
|
||
|
bool AccelStepper::isRunning()
|
||
|
{
|
||
|
return !(_speed == 0.0 && _targetPos == _currentPos);
|
||
|
}
|