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Microduino的cube小车。
Microduino_Motor.cpp
- Committer:
- lixianyu
- Date:
- 2016-05-25
- Revision:
- 2:70ca3e685cca
- Parent:
- 1:758ccab13947
- Child:
- 3:e4ac7c1a14de
File content as of revision 2:70ca3e685cca:
#include "Microduino_Motor.h" static motor_t motors[10]; // static array of key structures uint8_t MotorCount = 0; // the total number of attached keys Motor::Motor(PinName _motor_pinA, PinName _motor_pinB) { if ( MotorCount < 10) { this->motorIndex = MotorCount++; // assign a key index to this instance //if (_motor_pinA < NUM_DIGITAL_PINS && _motor_pinB < NUM_DIGITAL_PINS) { if (true) { //pinMode( _motor_pinA, OUTPUT) ; gpio_init_out(&gpioA, _motor_pinA); motors[this->motorIndex].Pin.nbr_A = _motor_pinA; //pinMode( _motor_pinB, OUTPUT) ; gpio_init_out(&gpioB, _motor_pinB); motors[this->motorIndex].Pin.nbr_B = _motor_pinB; this->fix=1; } } else this->motorIndex = 255 ; // too many keys } void Motor::Fix(float _fix) { this->fix=_fix; } int16_t Motor::GetData(int16_t _throttle, int16_t _steering, bool _dir) { this->_motor_vol = _throttle; if(_dir) this->_motor_vol -= _steering / 2; else this->_motor_vol += _steering / 2; if (this->_motor_vol > 255) this->_motor_vol = 255; else if (this->_motor_vol < -255) this->_motor_vol = -255; this->_motor_vol *= fix; return this->_motor_vol; } void Motor::Driver(int16_t _motor_driver) { int8_t channel_A = motors[this->motorIndex].Pin.nbr_A; int8_t channel_B = motors[this->motorIndex].Pin.nbr_B; if (_motor_driver == 0) { digitalWrite(channel_A, LOW); digitalWrite(channel_B, LOW); } else if (_motor_driver > 0) { analogWrite(channel_A, _motor_driver); digitalWrite(channel_B, LOW); } else { analogWrite(channel_A, 255 + _motor_driver); digitalWrite(channel_B, HIGH); } } void Motor::Free() { int8_t channel_A = motors[this->motorIndex].Pin.nbr_A; int8_t channel_B = motors[this->motorIndex].Pin.nbr_B; digitalWrite(channel_A, LOW); digitalWrite(channel_B, LOW); } void Motor::Brake() { int8_t channel_A = motors[this->motorIndex].Pin.nbr_A; int8_t channel_B = motors[this->motorIndex].Pin.nbr_B; digitalWrite(channel_A, HIGH); digitalWrite(channel_B, HIGH); }