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led.cpp
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led.cpp
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/* Sardine CAN (Open Source J2534 device) - Arduino firmware - version 0.4 alpha
**
** Copyright (C) 2012 Olaf @ Hacking Volvo blog (hackingvolvo.blogspot.com)
** Author: Olaf <[email protected]>
**
** This program is free software; you can redistribute it and/or modify
** it under the terms of the GNU Lesser General Public License as published
** by the Free Software Foundation, either version 3 of the License, or (at
** your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
** Lesser General Public License for more details.
**
** You should have received a copy of the GNU Lesser General Public
** License along with this program; if not, <http://www.gnu.org/licenses/>.
**
*/
#include <Arduino.h>
#include "led.h"
void SetLED( led * targetLED, unsigned int duration )
{
#ifdef ENABLE_LEDS
// printf("SetLED (%d): dur %d\n",targetLED->pin, duration);
targetLED->mode = LED_SINGLE_BLINK;
targetLED->nextSwitch = millis() + duration;
targetLED->duration = duration;
targetLED->enabled = targetLED->pwr = true;
// digitalWrite( targetLED->pin, HIGH );
analogWrite( targetLED->pin, 128); // PWM
#endif
}
void SetBlinkLED( led * targetLED, unsigned int duration, unsigned int interval )
{
#ifdef ENABLE_LEDS
// printf("SetBlinkLED (%d): dur %d, interval %d\n",targetLED->pin, duration, interval);
targetLED->mode = LED_BLINK_LOOP;
// if (duration>0)
targetLED->nextSwitch = millis() + duration;
// else
// targetLED->nextSwitch = 0;
targetLED->duration = duration;
targetLED->interval = targetLED->multipleInterval = interval;
targetLED->enabled = targetLED->pwr = true;
targetLED->blinkCount = 1;
targetLED->blinkIndex = 0;
// digitalWrite( targetLED->pin, HIGH );
analogWrite( targetLED->pin, 128); // PWM
#endif
}
void SetMultipleBlinkLED( led * targetLED, unsigned int blinkCount, unsigned int duration, unsigned multipleInterval, unsigned int seriesInterval )
{
#ifdef ENABLE_LEDS
// printf("SetMultipleBlinkLED (%d): blinkcount %d, dur %d, mul_interval %d, series_interval %d\n",targetLED->pin, blinkCount, duration, multipleInterval, seriesInterval );
targetLED->mode = LED_BLINK_LOOP;
targetLED->nextSwitch = millis() + duration;
targetLED->duration = duration;
targetLED->interval = seriesInterval;
targetLED->multipleInterval = multipleInterval;
targetLED->enabled = targetLED->pwr = true;
targetLED->blinkCount = blinkCount;
targetLED->blinkIndex = 0;
// digitalWrite( targetLED->pin, HIGH );
analogWrite( targetLED->pin, 128); // PWM
#endif
}
void ClearLED( led * targetLED )
{
#ifdef ENABLE_LEDS
targetLED->enabled = false;
targetLED->pwr = false;
#endif
}
void HandleLED( led * targetLED )
{
#ifdef ENABLE_LEDS
unsigned long currTime = millis();
if (targetLED->enabled)
{
switch (targetLED->mode)
{
case LED_SINGLE_BLINK:
{
// duration == 0 -> led stays on indefinetely
if ( (targetLED->duration != 0) && (currTime > targetLED->nextSwitch) )
{
targetLED->enabled = false;
digitalWrite( targetLED->pin, LOW );
}
}
break;
case LED_BLINK_LOOP:
{
if (currTime > targetLED->nextSwitch)
{
targetLED->pwr = !targetLED->pwr;
if (targetLED->pwr)
{
// digitalWrite( targetLED->pin, HIGH );
analogWrite( targetLED->pin, 128); // PWM
targetLED->nextSwitch = currTime + targetLED->duration;
}
else
{
digitalWrite( targetLED->pin, LOW );
targetLED->blinkIndex++;
if (targetLED->blinkIndex >= targetLED->blinkCount)
{
targetLED->blinkIndex = 0;
targetLED->nextSwitch = currTime + targetLED->interval;
} else
{
targetLED->nextSwitch = currTime + targetLED->multipleInterval;
}
}
}
}
break;
default:
break;
}
}
#endif
}