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Arilux.cpp
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Arilux.cpp
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#include "Arilux.h"
Arilux::Arilux(void):
m_redPin(ARILUX_RED_PIN),
m_greenPin(ARILUX_GREEN_PIN),
m_bluePin(ARILUX_BLUE_PIN)
#if defined(RGBW) || defined (RGBWW)
, m_white1Pin(ARILUX_WHITE1_PIN)
#ifdef RGBWW
, m_white2Pin(ARILUX_WHITE2_PIN)
#endif
#endif
{
m_state = false;
m_brightness = ARILUX_PWM_RANGE / 3;
m_color.red = ARILUX_PWM_RANGE;
m_color.green = ARILUX_PWM_RANGE;
m_color.blue = ARILUX_PWM_RANGE;
m_color.white1 = ARILUX_PWM_RANGE;
m_color.white2 = ARILUX_PWM_RANGE;
}
uint8_t Arilux::init(void) {
pinMode(m_redPin, OUTPUT);
pinMode(m_greenPin, OUTPUT);
pinMode(m_bluePin, OUTPUT);
#if defined(RGBW) || defined (RGBWW)
pinMode(m_white1Pin, OUTPUT);
#ifdef RGBWW
pinMode(m_white2Pin, OUTPUT);
#endif
#endif
analogWriteFreq(ARILUX_PWM_FREQUENCY);
analogWriteRange(ARILUX_PWM_RANGE);
return true;
}
uint8_t Arilux::getState(void) {
return m_state;
}
uint8_t Arilux::turnOn(void) {
return setState(true);
}
uint8_t Arilux::turnOff(void) {
return setState(false);
}
char *Arilux::getColorString(void) {
return (char *)ARILUX_COLOR_STRING;
}
uint8_t Arilux::setState(uint8_t p_state) {
if (p_state == true) {
m_state = true;
return setAll(m_color.red, m_color.green, m_color.blue, m_color.white1, m_color.white2, false);
} else {
m_state = false;
return setAll(0, 0, 0, 0, 0, false);
}
}
uint8_t Arilux::getBrightness(void) {
return m_brightness;
}
uint8_t Arilux::increaseBrightness(void) {
if (!m_state)
return false;
if ((m_brightness + ARILUX_BRIGHTNESS_STEP) >= ARILUX_PWM_RANGE)
return setBrightness(ARILUX_PWM_RANGE);
if (m_brightness < (ARILUX_PWM_RANGE - ARILUX_BRIGHTNESS_STEP))
return setBrightness(m_brightness + ARILUX_BRIGHTNESS_STEP);
return false;
}
uint8_t Arilux::decreaseBrightness(void) {
if (!m_state)
return false;
if (m_brightness > (1 + ARILUX_BRIGHTNESS_STEP))
return setBrightness(m_brightness - ARILUX_BRIGHTNESS_STEP);
return false;
}
uint8_t Arilux::setBrightness(uint8_t p_brightness) {
if (p_brightness < 0 || p_brightness > ARILUX_PWM_RANGE)
return false;
m_brightness = p_brightness;
analogWrite(m_redPin, map(m_color.red, 0, ARILUX_PWM_RANGE, 0, m_brightness));
analogWrite(m_greenPin, map(m_color.green, 0, ARILUX_PWM_RANGE, 0, m_brightness));
analogWrite(m_bluePin, map(m_color.blue, 0, ARILUX_PWM_RANGE, 0, m_brightness));
#if defined(RGBW) || defined (RGBWW)
analogWrite(m_white1Pin, map(m_color.white1, 0, ARILUX_PWM_RANGE, 0, m_brightness));
#ifdef RGBWW
analogWrite(m_white2Pin, map(m_color.white2, 0, ARILUX_PWM_RANGE, 0, m_brightness));
#endif
#endif
return true;
}
uint8_t Arilux::getRedValue(void) {
return m_color.red;
}
uint8_t Arilux::getGreenValue(void) {
return m_color.green;
}
uint8_t Arilux::getBlueValue(void) {
return m_color.blue;
}
uint8_t Arilux::getWhite1Value(void) {
return m_color.white1;
}
uint8_t Arilux::getWhite2Value(void) {
return m_color.white2;
}
uint8_t Arilux::setAll(uint8_t p_red, uint8_t p_green, uint8_t p_blue, uint8_t p_white1, uint8_t p_white2) {
if (!m_state)
return false;
return setAll(p_red, p_green, p_blue, p_white1, p_white2, true);
}
uint8_t Arilux::setColor(uint8_t p_red, uint8_t p_green, uint8_t p_blue) {
if (!m_state)
m_state = true;
return setAll(p_red, p_green, p_blue, getWhite1Value(), getWhite2Value(), true);
}
uint8_t Arilux::setFadeToColor(uint8_t p_red, uint8_t p_green, uint8_t p_blue) {
m_color.red = p_red;
m_color.green = p_green;
m_color.blue = p_blue;
}
uint8_t Arilux::setFadeColor(uint8_t p_red, uint8_t p_green, uint8_t p_blue) {
if (!m_state) {
m_state = true;
}
return setAll(p_red, p_green, p_blue, getWhite1Value(), getWhite2Value(), false);
}
uint8_t Arilux::setWhite(uint8_t p_white1, uint8_t p_white2) {
return setAll(getRedValue(), getGreenValue(), getBlueValue(), p_white1, p_white2, true);
}
uint8_t Arilux::setAll(uint8_t p_red, uint8_t p_green, uint8_t p_blue, uint8_t p_white1, uint8_t p_white2, uint8_t p_retain) {
if ((p_red < 0 || p_red > ARILUX_PWM_RANGE) || (p_green < 0 || p_green > ARILUX_PWM_RANGE) || (p_blue < 0 || p_blue > ARILUX_PWM_RANGE || p_white1 < 0 || p_white1 > ARILUX_PWM_RANGE || p_white2 < 0 || p_white2 > ARILUX_PWM_RANGE))
return false;
if (p_retain) {
m_color.red = p_red;
m_color.green = p_green;
m_color.blue = p_blue;
m_color.white1 = p_white1;
m_color.white2 = p_white2;
}
analogWrite(m_redPin, map(p_red, 0, ARILUX_PWM_RANGE, 0, m_brightness));
analogWrite(m_greenPin, map(p_green, 0, ARILUX_PWM_RANGE, 0, m_brightness));
analogWrite(m_bluePin, map(p_blue, 0, ARILUX_PWM_RANGE, 0, m_brightness));
#if defined(RGBW) || defined (RGBWW)
analogWrite(m_white1Pin, map(p_white1, 0, ARILUX_PWM_RANGE, 0, m_brightness));
#ifdef RGBWW
analogWrite(m_white2Pin, map(p_white2, 0, ARILUX_PWM_RANGE, 0, m_brightness));
#endif
#endif
return true;
}
uint8_t Arilux::setColor(uint8_t p_red, uint8_t p_green, uint8_t p_blue, uint8_t p_retain) {
return setAll(p_red, p_green, p_blue, getWhite1Value(), getWhite2Value(), p_retain);
}
uint8_t Arilux::setWhite( uint8_t p_white1, uint8_t p_white2, uint8_t p_retain) {
return setAll(getRedValue(), getGreenValue(), getBlueValue(), p_white1, p_white2, p_retain);
}