2011-09-28 21:51:12 -03:00
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/*
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AP_RcChannel.cpp - Radio library for Arduino
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Code by Jason Short, James Goppert. DIYDrones.com
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This library is free software; you can redistribute it and / or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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*/
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#include <math.h>
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#include <avr/eeprom.h>
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#include "AP_RcChannel.h"
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#include "../AP_Common/AP_Common.h"
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#include <HardwareSerial.h>
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namespace apo {
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AP_RcChannel::AP_RcChannel(AP_Var::Key keyValue, const prog_char_t * name,
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APM_RC_Class & rc, const uint8_t & ch, const uint16_t & pwmMin,
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const uint16_t & pwmNeutral, const uint16_t & pwmMax,
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2011-10-03 14:22:23 -03:00
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const rcMode_t & rcMode, const bool & reverse, const float & scale) :
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2011-09-28 21:51:12 -03:00
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AP_Var_group(keyValue, name), _ch(this, 1, ch, PSTR("ch")),
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_pwmMin(this, 2, pwmMin, PSTR("pMin")),
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_pwmNeutral(this, 3, pwmNeutral, PSTR("pNtrl")),
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2011-10-03 13:42:27 -03:00
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_pwmMax(this, 4, pwmMax, PSTR("pMax")),
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_reverse(this, 5, reverse, PSTR("rev")),
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2011-10-03 14:22:23 -03:00
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_scale(scale == 0 ? AP_Float(0) : AP_Float(this,6,reverse,PSTR("scale"))),
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2011-10-03 13:42:27 -03:00
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_rcMode(rcMode), _rc(rc), _pwm(pwmNeutral) {
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2011-09-28 21:51:12 -03:00
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//Serial.print("pwm after ctor: "); Serial.println(pwmNeutral);
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if (rcMode == RC_MODE_IN)
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return;
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//Serial.print("pwm set for ch: "); Serial.println(int(ch));
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rc.OutputCh(ch, pwmNeutral);
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}
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uint16_t AP_RcChannel::getRadioPwm() {
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if (_rcMode == RC_MODE_OUT) {
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Serial.print("tryng to read from output channel: ");
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Serial.println(int(_ch));
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return _pwmNeutral; // if this happens give a safe value of neutral
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}
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return _rc.InputCh(_ch);
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}
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void AP_RcChannel::setPwm(uint16_t pwm) {
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//Serial.printf("pwm in setPwm: %d\n", pwm);
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//Serial.printf("reverse: %s\n", (reverse)?"true":"false");
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// apply reverse
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if (_reverse)
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pwm = int16_t(_pwmNeutral - pwm) + _pwmNeutral;
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//Serial.printf("pwm after reverse: %d\n", pwm);
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// apply saturation
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if (_pwm > uint8_t(_pwmMax))
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_pwm = _pwmMax;
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if (_pwm < uint8_t(_pwmMin))
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_pwm = _pwmMin;
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_pwm = pwm;
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//Serial.print("ch: "); Serial.print(ch); Serial.print(" pwm: "); Serial.println(pwm);
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if (_rcMode == RC_MODE_IN)
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return;
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_rc.OutputCh(_ch, _pwm);
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}
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uint16_t AP_RcChannel::_positionToPwm(const float & position) {
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uint16_t pwm;
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//Serial.printf("position: %f\n", position);
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if (position < 0)
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pwm = position * int16_t(_pwmNeutral - _pwmMin) + _pwmNeutral;
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else
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pwm = position * int16_t(_pwmMax - _pwmNeutral) + _pwmNeutral;
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if (pwm > uint16_t(_pwmMax))
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pwm = _pwmMax;
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if (pwm < uint16_t(_pwmMin))
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pwm = _pwmMin;
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return pwm;
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}
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float AP_RcChannel::_pwmToPosition(const uint16_t & pwm) {
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float position;
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2011-10-03 13:42:27 -03:00
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// note a piece-wise linear mapping occurs if the pwm ranges
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// are not symmetric about pwmNeutral
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2011-09-28 21:51:12 -03:00
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if (pwm < uint8_t(_pwmNeutral))
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position = 1.0 * int16_t(pwm - _pwmNeutral) / int16_t(
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_pwmNeutral - _pwmMin);
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else
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position = 1.0 * int16_t(pwm - _pwmNeutral) / int16_t(
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_pwmMax - _pwmNeutral);
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if (position > 1)
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position = 1;
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if (position < -1)
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position = -1;
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return position;
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}
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} // namespace apo
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