WLED/wled00/alexa.cpp

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#include "wled.h"
/*
* Alexa Voice On/Off/Brightness/Color Control. Emulates a Philips Hue bridge to Alexa.
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*
* This was put together from these two excellent projects:
* https://github.com/kakopappa/arduino-esp8266-alexa-wemo-switch
* https://github.com/probonopd/ESP8266HueEmulator
*/
#include "src/dependencies/espalexa/EspalexaDevice.h"
#ifndef WLED_DISABLE_ALEXA
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void onAlexaChange(EspalexaDevice* dev);
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void alexaInit()
{
if (!alexaEnabled || !WLED_CONNECTED) return;
espalexa.removeAllDevices();
// the original configured device for on/off or macros (added first, i.e. index 0)
espalexaDevice = new EspalexaDevice(alexaInvocationName, onAlexaChange, EspalexaDeviceType::extendedcolor);
espalexa.addDevice(espalexaDevice);
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// up to 9 devices (added second, third, ... i.e. index 1 to 9) serve for switching on up to nine presets (preset IDs 1 to 9 in WLED),
// names are identical as the preset names, switching off can be done by switching off any of them
if (alexaNumPresets) {
String name = "";
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for (byte presetIndex = 1; presetIndex <= alexaNumPresets; presetIndex++)
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{
if (!getPresetName(presetIndex, name)) break; // no more presets
EspalexaDevice* dev = new EspalexaDevice(name.c_str(), onAlexaChange, EspalexaDeviceType::extendedcolor);
espalexa.addDevice(dev);
}
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}
espalexa.begin(&server);
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}
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void handleAlexa()
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{
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if (!alexaEnabled || !WLED_CONNECTED) return;
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espalexa.loop();
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}
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void onAlexaChange(EspalexaDevice* dev)
{
EspalexaDeviceProperty m = dev->getLastChangedProperty();
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if (m == EspalexaDeviceProperty::on)
{
if (dev->getId() == 0) // Device 0 is for on/off or macros
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{
if (!macroAlexaOn)
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{
if (bri == 0)
{
bri = briLast;
stateUpdated(CALL_MODE_ALEXA);
}
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} else
{
applyPreset(macroAlexaOn, CALL_MODE_ALEXA);
if (bri == 0) dev->setValue(briLast); //stop Alexa from complaining if macroAlexaOn does not actually turn on
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}
} else // switch-on behavior for preset devices
{
// turn off other preset devices
for (byte i = 1; i < espalexa.getDeviceCount(); i++)
{
if (i == dev->getId()) continue;
espalexa.getDevice(i)->setValue(0); // turn off other presets
}
applyPreset(dev->getId(), CALL_MODE_ALEXA); // in alexaInit() preset 1 device was added second (index 1), preset 2 third (index 2) etc.
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}
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} else if (m == EspalexaDeviceProperty::off)
{
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if (!macroAlexaOff)
{
if (bri > 0)
{
briLast = bri;
bri = 0;
stateUpdated(CALL_MODE_ALEXA);
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}
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} else
{
applyPreset(macroAlexaOff, CALL_MODE_ALEXA);
// below for loop stops Alexa from complaining if macroAlexaOff does not actually turn off
}
for (byte i = 0; i < espalexa.getDeviceCount(); i++)
{
espalexa.getDevice(i)->setValue(0);
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}
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} else if (m == EspalexaDeviceProperty::bri)
{
bri = dev->getValue();
stateUpdated(CALL_MODE_ALEXA);
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} else //color
{
if (dev->getColorMode() == EspalexaColorMode::ct) //shade of white
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{
byte rgbw[4];
uint16_t ct = dev->getCt();
if (!ct) return;
uint16_t k = 1000000 / ct; //mireds to kelvin
if (strip.hasCCTBus()) {
bool hasManualWhite = strip.getActiveSegsLightCapabilities(true) & SEG_CAPABILITY_W;
strip.setCCT(k);
if (hasManualWhite) {
rgbw[0] = 0; rgbw[1] = 0; rgbw[2] = 0; rgbw[3] = 255;
} else {
rgbw[0] = 255; rgbw[1] = 255; rgbw[2] = 255; rgbw[3] = 0;
dev->setValue(255);
}
} else if (strip.hasWhiteChannel()) {
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switch (ct) { //these values empirically look good on RGBW
case 199: rgbw[0]=255; rgbw[1]=255; rgbw[2]=255; rgbw[3]=255; break;
case 234: rgbw[0]=127; rgbw[1]=127; rgbw[2]=127; rgbw[3]=255; break;
case 284: rgbw[0]= 0; rgbw[1]= 0; rgbw[2]= 0; rgbw[3]=255; break;
case 350: rgbw[0]=130; rgbw[1]= 90; rgbw[2]= 0; rgbw[3]=255; break;
case 383: rgbw[0]=255; rgbw[1]=153; rgbw[2]= 0; rgbw[3]=255; break;
default : colorKtoRGB(k, rgbw);
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}
} else {
colorKtoRGB(k, rgbw);
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}
strip.setColor(0, RGBW32(rgbw[0], rgbw[1], rgbw[2], rgbw[3]));
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} else {
uint32_t color = dev->getRGB();
strip.setColor(0, color);
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}
stateUpdated(CALL_MODE_ALEXA);
}
}
#else
void alexaInit(){}
void handleAlexa(){}
#endif