mirror of
https://github.com/hyperion-project/hyperion.ng.git
synced 2023-10-10 13:36:59 +02:00
Fix Smoothing configuration (#1476)
* Fix Smoothing out of sync when saving * Only force Smoothing for new devices * Re-Add Max/Min Brightness titles * UI - Fix: Correctly lookup current Instance Name in case instance IDs are not in order * Fix/Update AtmoOrb Firmware images
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8000c3e8b7
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@ -15,7 +15,7 @@
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#include <FastLED.h>
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#define NUM_LEDS 24 // Number of leds
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#define DATA_PIN 7 // Data pin for leds (the default pin 7 might correspond to pin 13 on some boards)
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#define DATA_PIN D7 // Data pin for leds (the default pin 7 might correspond to pin 13 on some boards)
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#define SERIAL_DEBUG 0 // Serial debugging (0=Off, 1=On)
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#define ID 1 // Id of this lamp
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313
assets/firmware/particle/photon/AtmoOrb_UDP.ino
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313
assets/firmware/particle/photon/AtmoOrb_UDP.ino
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@ -0,0 +1,313 @@
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#include <FastLED.h>
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FASTLED_USING_NAMESPACE;
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SYSTEM_THREAD(ENABLED);
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#if FASTLED_VERSION < 3001000
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#error "Requires FastLED 3.1 or later; check github for latest code."
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#endif
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// WiFi
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#define timeout 30000
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#define reconnect_delay 5000
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// UDP
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#define SERVER_PORT 49692
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#define DISCOVERY_PORT 49692
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UDP client;
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IPAddress multicastIP(239, 15, 18, 2);
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// ORB
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unsigned int orbID = 1;
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#define SERIAL_DEBUG 0 // Serial debugging (0=Off, 1=On)
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// LED
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#define DATA_PIN 6
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#define NUM_LEDS 24
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CRGB leds[NUM_LEDS];
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// UDP
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#define BUFFER_SIZE 8 // 5 + 3 channels for 1 LED
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#define BUFFER_SIZE_DISCOVERY 5
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#define TIMEOUT_MS 500
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uint8_t buffer[BUFFER_SIZE];
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uint8_t bufferDiscovery[BUFFER_SIZE_DISCOVERY];
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unsigned long lastWiFiCheck = 0;
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// SMOOTHING
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#define SMOOTH_STEPS 50 // Steps to take for smoothing colors
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#define SMOOTH_DELAY 4 // Delay between smoothing steps
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#define SMOOTH_BLOCK 0 // Block incoming colors while smoothing
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byte nextColor[3];
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byte prevColor[3];
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byte currentColor[3];
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byte smoothStep = SMOOTH_STEPS;
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unsigned long smoothMillis;
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// CUSTOM COLOR CORRECTIONS
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#define RED_CORRECTION 255
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#define GREEN_CORRECTION 255
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#define BLUE_CORRECTION 255
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#include "Particle.h"
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void setup()
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{
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// Leds - choose one correction method
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// 1 - Custom color correction
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FastLED.addLeds<NEOPIXEL, DATA_PIN>(leds, NUM_LEDS).setCorrection(CRGB(RED_CORRECTION, GREEN_CORRECTION, BLUE_CORRECTION));
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// Set color
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//setColor(40, 21, 0);
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// Uncomment the below lines to dim the single built-in led to 2%
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::RGB.control(true);
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::RGB.brightness(2);
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::RGB.control(false);
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// WiFi
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lastWiFiCheck = millis();
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initWiFi();
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// 2 - FastLED predefined color correction
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//FastLED.addLeds<NEOPIXEL, DATA_PIN>(leds, NUM_LEDS).setCorrection(TypicalSMD5050);
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}
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void initWiFi()
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{
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// Delays added UDP client creation, required for WiFi reconnects as takes a bit for resources to be full available
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// Wait for WiFi connection
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delay(500);
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waitFor(WiFi.ready, timeout);
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delay(reconnect_delay);
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// Multicast UDP
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if(WiFi.ready())
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{
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#if SERIAL_DEBUG == 1
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Serial.println("");
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Serial.print(F("Connected to "));
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Serial.println(WiFi.SSID());
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Serial.print(F("IP address: "));
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Serial.println(WiFi.localIP());
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#endif
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client.begin(SERVER_PORT);
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delay(reconnect_delay);
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client.joinMulticast(multicastIP);
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#if SERIAL_DEBUG == 1
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Serial.print(F("Listening to Multicast at "));
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Serial.print(multicastIP);
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Serial.print(F(":"));
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Serial.println(SERVER_PORT);
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#endif
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}
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}
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void loop(){
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if (Network.listening())
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{
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// If we are in listening mode (blinking dark blue), don't
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// output by USB serial, because it can conflict with
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// serial commands.
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return;
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}
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if(WiFi.ready() == false) {
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#if SERIAL_DEBUG == 1
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Serial.print(F("Lost connection to "));
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Serial.print(WiFi.SSID());
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Serial.println(F("."));
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Serial.println(F("Trying to reconnect."));
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#endif
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initWiFi();
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}
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int packetSize = client.parsePacket();
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if(packetSize == BUFFER_SIZE){
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#if SERIAL_DEBUG == 1
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Serial.print(F("Packet size: "));
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Serial.println(packetSize);
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#endif
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client.read(buffer, BUFFER_SIZE);
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//client.flush();
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#if SERIAL_DEBUG == 1
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Serial.print(F("UDP Packet from "));
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Serial.println(client.remoteIP());
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for (int i = 0; i < BUFFER_SIZE; i++)
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{
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Serial.print(buffer[i]);
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Serial.print(F(" "));
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}
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Serial.println("");
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#endif
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unsigned int i = 0;
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// Look for 0xC0FFEE
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if(buffer[i++] == 0xC0 && buffer[i++] == 0xFF && buffer[i++] == 0xEE)
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{
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byte commandOptions = buffer[i++];
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byte rcvOrbID = buffer[i++];
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byte red = buffer[i++];
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byte green = buffer[i++];
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byte blue = buffer[i++];
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// Command options
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// 1 = force off
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// 2 = use lamp smoothing and validate by Orb ID
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// 4 = validate by Orb ID
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// 8 = discovery
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// 9 = light-up Orb to identify by Orb ID
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if(commandOptions == 1)
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{
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// Orb ID 0 = turn off all lights
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// Otherwise turn off selectively
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if(rcvOrbID == 0 || rcvOrbID == orbID)
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{
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smoothStep = SMOOTH_STEPS;
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forceLedsOFF();
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}
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return;
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}
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else if(commandOptions == 2)
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{
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if(rcvOrbID != orbID)
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{
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return;
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}
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setSmoothColor(red, green, blue);
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}
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else if(commandOptions == 4)
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{
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if(rcvOrbID != orbID)
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{
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return;
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}
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smoothStep = SMOOTH_STEPS;
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setColor(red, green, blue);
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setSmoothColor(red, green, blue);
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return;
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}
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else if(commandOptions == 8)
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{
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#if SERIAL_DEBUG == 1
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Serial.print(F("Announce myself. OrbID: "));
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Serial.println(orbID);
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#endif
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// Respond to remote IP address with Orb ID
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IPAddress remoteIP = client.remoteIP();
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bufferDiscovery[0] = orbID;
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client.sendPacket(bufferDiscovery, BUFFER_SIZE_DISCOVERY, remoteIP, DISCOVERY_PORT);
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// Clear buffer
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memset(bufferDiscovery, 0, sizeof(bufferDiscovery));
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return;
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}
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else if(commandOptions == 9)
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{
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if(rcvOrbID == 0 || rcvOrbID == orbID)
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{
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#if SERIAL_DEBUG == 1
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Serial.print(F("Identify myself. OrbID: "));
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Serial.println(orbID);
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#endif
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identify();
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}
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return;
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}
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}
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}else if(packetSize > 0){
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// Got malformed packet
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}
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if (smoothStep < SMOOTH_STEPS && millis() >= (smoothMillis + (SMOOTH_DELAY * (smoothStep + 1))))
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{
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smoothColor();
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}
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}
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// Set color
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void setColor(byte red, byte green, byte blue)
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{
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for (byte i = 0; i < NUM_LEDS; i++)
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{
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leds[i] = CRGB(red, green, blue);
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}
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FastLED.show();
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}
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// Set a new color to smooth to
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void setSmoothColor(byte red, byte green, byte blue)
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{
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if (smoothStep == SMOOTH_STEPS || SMOOTH_BLOCK == 0)
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{
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if (nextColor[0] == red && nextColor[1] == green && nextColor[2] == blue)
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{
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return;
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}
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prevColor[0] = currentColor[0];
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prevColor[1] = currentColor[1];
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prevColor[2] = currentColor[2];
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nextColor[0] = red;
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nextColor[1] = green;
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nextColor[2] = blue;
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smoothMillis = millis();
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smoothStep = 0;
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}
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}
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// Display one step to the next color
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void smoothColor()
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{
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smoothStep++;
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currentColor[0] = prevColor[0] + (((nextColor[0] - prevColor[0]) * smoothStep) / SMOOTH_STEPS);
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currentColor[1] = prevColor[1] + (((nextColor[1] - prevColor[1]) * smoothStep) / SMOOTH_STEPS);
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currentColor[2] = prevColor[2] + (((nextColor[2] - prevColor[2]) * smoothStep) / SMOOTH_STEPS);
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setColor(currentColor[0], currentColor[1], currentColor[2]);
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}
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// Force all leds OFF
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void forceLedsOFF()
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{
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setColor(0,0,0);
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clearSmoothColors();
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}
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// Clear smooth color byte arrays
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void clearSmoothColors()
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{
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memset(prevColor, 0, sizeof(prevColor));
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memset(currentColor, 0, sizeof(nextColor));
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memset(nextColor, 0, sizeof(nextColor));
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}
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void identify()
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{
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for (byte i = 0; i < 3; i++)
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{
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FastLED.showColor(CRGB::LemonChiffon);
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delay(500);
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FastLED.showColor(CRGB::Black);
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delay(500);
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}
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}
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@ -546,6 +546,8 @@
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"edt_dev_spec_baudrate_title": "Baudrate",
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"edt_dev_spec_blackLightsTimeout_title": "Signal detection timeout on black",
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"edt_dev_spec_brightnessFactor_title": "Brightness factor",
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"edt_dev_spec_brightnessMax_title": "Brightness maximum",
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"edt_dev_spec_brightnessMin_title": "Brightness minimum",
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"edt_dev_spec_brightnessOverwrite_title": "Overwrite brightness",
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"edt_dev_spec_brightnessThreshold_title": "Signal detection brightness minimum",
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"edt_dev_spec_brightness_title": "Brightness",
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@ -1631,7 +1631,10 @@ function saveLedConfig(genDefLayout = false) {
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case "cololight":
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var host = conf_editor.getEditor("root.specificOptions.host").getValue();
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if (window.serverConfig.device.type !== ledType) {
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//smoothing off, if new device
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result.smoothing = { enable: false };
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}
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if (genDefLayout === true) {
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@ -1667,7 +1670,11 @@ function saveLedConfig(genDefLayout = false) {
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case "nanoleaf":
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case "wled":
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case "yeelight":
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if (window.serverConfig.device.type !== ledType) {
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//smoothing off, if new device
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result.smoothing = { enable: false };
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}
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case "adalight":
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case "atmo":
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@ -171,7 +171,7 @@ function initLanguageSelection() {
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}
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function updateUiOnInstance(inst) {
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$("#active_instance_friendly_name").text(window.serverInfo.instance[inst].friendly_name);
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$("#active_instance_friendly_name").text(getInstanceNameByIndex(inst));
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if (window.serverInfo.instance.filter(entry => entry.running).length > 1) {
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$('#btn_hypinstanceswitch').toggle(true);
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$('#active_instance_dropdown').prop('disabled', false);
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@ -1126,15 +1126,19 @@ function beginWizardHue() {
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d.useEntertainmentAPI = false;
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d.hardwareLedCount = finalLightIds.length;
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d.verbose = false;
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//smoothing off
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sc.smoothing.enable = false;
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if (window.serverConfig.device.type !== d.type) {
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//smoothing off, if new device
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sc.smoothing = { enable: false };
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}
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}
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if (hueType == 'philipshueentertainment') {
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d.useEntertainmentAPI = true;
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d.hardwareLedCount = groupLights.length;
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//smoothing on
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sc.smoothing.enable = true;
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if (window.serverConfig.device.type !== d.type) {
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//smoothing on, if new device
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sc.smoothing = { enable: true };
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}
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}
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window.serverConfig.device = d;
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@ -1430,6 +1434,8 @@ function beginWizardYeelight() {
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window.serverConfig.leds = yeelightLedConfig;
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//LED device config
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var currentDeviceType = window.serverConfig.device.type;
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//Start with a clean configuration
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var d = {};
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@ -1454,9 +1460,10 @@ function beginWizardYeelight() {
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window.serverConfig.device = d;
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//smoothing off
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if (!(window.serverConfig.smoothing == null))
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window.serverConfig.smoothing.enable = false;
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if (currentDeviceType !== d.type) {
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//smoothing off, if new device
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window.serverConfig.smoothing = { enable: false };
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}
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requestWriteConfig(window.serverConfig, true);
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resetWizard();
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@ -113,10 +113,8 @@ void LinearColorSmoothing::handleSettingsUpdate(settings::type type, const QJson
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if (type == settings::type::SMOOTHING)
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{
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QJsonObject obj = config.object();
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if (enabled() != obj["enable"].toBool(true))
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{
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setEnable(obj["enable"].toBool(true));
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}
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setEnable(obj["enable"].toBool(_enabled));
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SmoothingCfg cfg(false,
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static_cast<int64_t>(obj[SETTINGS_KEY_SETTLING_TIME].toInt(DEFAULT_SETTLINGTIME)),
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