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Refactored code to improve readability

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Fixed non-2-char indentations
This commit is contained in:
cschwinne 2018-11-09 17:00:36 +01:00
parent 48265bbe02
commit a5cf553f17
16 changed files with 1127 additions and 1115 deletions
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161
wled00/NpbWrapper.h
View File

@ -10,33 +10,34 @@
//uncomment this if red and green are swapped
//#define SWAPRG
//automatically uses the right driver method for each platform
#ifdef ARDUINO_ARCH_ESP32
#ifdef WORKAROUND_ESP32_BITBANG
#define PIXELMETHOD NeoEsp32BitBangWs2813Method
#pragma message "Software BitBang is used because of your NeoPixelBus version. Look in NpbWrapper.h for instructions on how to mitigate flickering."
#else
#define PIXELMETHOD NeoEsp32RmtWS2813_V3Method
#endif
#ifdef WORKAROUND_ESP32_BITBANG
#define PIXELMETHOD NeoEsp32BitBangWs2813Method
#pragma message "Software BitBang is used because of your NeoPixelBus version. Look in NpbWrapper.h for instructions on how to mitigate flickering."
#else
#define PIXELMETHOD NeoEsp32RmtWS2813_V3Method
#endif
#else //esp8266
//autoselect the right method depending on strip pin
#if LEDPIN == 2
#define PIXELMETHOD NeoEsp8266Uart800KbpsMethod
#elif LEDPIN == 3
#define PIXELMETHOD NeoEsp8266Dma800KbpsMethod
#else
#define PIXELMETHOD NeoEsp8266BitBang800KbpsMethod
#pragma message "Software BitBang will be used because of your selected LED pin. This may cause flicker. Use GPIO 2 or 3 for best results."
#endif
//autoselect the right method depending on strip pin
#if LEDPIN == 2
#define PIXELMETHOD NeoEsp8266Uart800KbpsMethod
#elif LEDPIN == 3
#define PIXELMETHOD NeoEsp8266Dma800KbpsMethod
#else
#define PIXELMETHOD NeoEsp8266BitBang800KbpsMethod
#pragma message "Software BitBang will be used because of your selected LED pin. This may cause flicker. Use GPIO 2 or 3 for best results."
#endif
#endif
//handle swapping Red and Green automatically
#ifdef SWAPRG
#define PIXELFEATURE3 NeoRgbFeature
#define PIXELFEATURE4 NeoRgbwFeature
#define PIXELFEATURE3 NeoRgbFeature
#define PIXELFEATURE4 NeoRgbwFeature
#else
#define PIXELFEATURE3 NeoGrbFeature
#define PIXELFEATURE4 NeoGrbwFeature
#define PIXELFEATURE3 NeoGrbFeature
#define PIXELFEATURE4 NeoGrbwFeature
#endif
#include <NeoPixelBrightnessBus.h>
@ -53,10 +54,10 @@ class NeoPixelWrapper
{
public:
NeoPixelWrapper() :
// initialize each member to null
_pGrb(NULL),
_pGrbw(NULL),
_type(NeoPixelType_None)
// initialize each member to null
_pGrb(NULL),
_pGrbw(NULL),
_type(NeoPixelType_None)
{
}
@ -71,8 +72,8 @@ public:
cleanup();
_type = type;
switch (_type) {
switch (_type)
{
case NeoPixelType_Grb:
_pGrb = new NeoPixelBrightnessBus<PIXELFEATURE3,PIXELMETHOD>(countPixels, LEDPIN);
_pGrb->Begin();
@ -88,23 +89,25 @@ public:
void Show()
{
#ifdef ARDUINO_ARCH_ESP32
#ifdef WORKAROUND_ESP32_BITBANG
delay(1);
portDISABLE_INTERRUPTS(); //this is a workaround to prevent flickering (see https://github.com/adafruit/Adafruit_NeoPixel/issues/139)
#endif
#ifdef WORKAROUND_ESP32_BITBANG
delay(1);
portDISABLE_INTERRUPTS(); //this is a workaround to prevent flickering (see https://github.com/adafruit/Adafruit_NeoPixel/issues/139)
#endif
#endif
switch (_type) {
switch (_type)
{
case NeoPixelType_Grb: _pGrb->Show(); break;
case NeoPixelType_Grbw: _pGrbw->Show(); break;
}
#ifdef ARDUINO_ARCH_ESP32
#ifdef WORKAROUND_ESP32_BITBANG
portENABLE_INTERRUPTS();
#endif
#ifdef WORKAROUND_ESP32_BITBANG
portENABLE_INTERRUPTS();
#endif
#endif
}
bool CanShow() const
{
switch (_type) {
@ -113,65 +116,65 @@ public:
}
}
void SetPixelColor(uint16_t indexPixel, RgbColor color)
{
switch (_type) {
case NeoPixelType_Grb: _pGrb->SetPixelColor(indexPixel, color); break;
case NeoPixelType_Grbw:_pGrbw->SetPixelColor(indexPixel, color); break;
}
void SetPixelColor(uint16_t indexPixel, RgbColor color)
{
switch (_type) {
case NeoPixelType_Grb: _pGrb->SetPixelColor(indexPixel, color); break;
case NeoPixelType_Grbw:_pGrbw->SetPixelColor(indexPixel, color); break;
}
}
void SetPixelColor(uint16_t indexPixel, RgbwColor color)
{
switch (_type) {
case NeoPixelType_Grb: _pGrb->SetPixelColor(indexPixel, RgbColor(color.R,color.G,color.B)); break;
case NeoPixelType_Grbw: _pGrbw->SetPixelColor(indexPixel, color); break;
}
void SetPixelColor(uint16_t indexPixel, RgbwColor color)
{
switch (_type) {
case NeoPixelType_Grb: _pGrb->SetPixelColor(indexPixel, RgbColor(color.R,color.G,color.B)); break;
case NeoPixelType_Grbw: _pGrbw->SetPixelColor(indexPixel, color); break;
}
}
void SetBrightness(byte b)
{
switch (_type) {
case NeoPixelType_Grb: _pGrb->SetBrightness(b); break;
case NeoPixelType_Grbw:_pGrbw->SetBrightness(b); break;
}
void SetBrightness(byte b)
{
switch (_type) {
case NeoPixelType_Grb: _pGrb->SetBrightness(b); break;
case NeoPixelType_Grbw:_pGrbw->SetBrightness(b); break;
}
}
RgbColor GetPixelColor(uint16_t indexPixel) const
{
switch (_type) {
case NeoPixelType_Grb: return _pGrb->GetPixelColor(indexPixel); break;
case NeoPixelType_Grbw: /*doesn't support it so we don't return it*/ break;
}
return 0;
RgbColor GetPixelColor(uint16_t indexPixel) const
{
switch (_type) {
case NeoPixelType_Grb: return _pGrb->GetPixelColor(indexPixel); break;
case NeoPixelType_Grbw: /*doesn't support it so we don't return it*/ break;
}
return 0;
}
// NOTE: Due to feature differences, some support RGBW but the method name
// here needs to be unique, thus GetPixeColorRgbw
RgbwColor GetPixelColorRgbw(uint16_t indexPixel) const
{
switch (_type) {
case NeoPixelType_Grb: return _pGrb->GetPixelColor(indexPixel); break;
case NeoPixelType_Grbw: return _pGrbw->GetPixelColor(indexPixel); break;
}
return 0;
// NOTE: Due to feature differences, some support RGBW but the method name
// here needs to be unique, thus GetPixeColorRgbw
RgbwColor GetPixelColorRgbw(uint16_t indexPixel) const
{
switch (_type) {
case NeoPixelType_Grb: return _pGrb->GetPixelColor(indexPixel); break;
case NeoPixelType_Grbw: return _pGrbw->GetPixelColor(indexPixel); break;
}
return 0;
}
void ClearTo(RgbColor color)
{
switch (_type) {
case NeoPixelType_Grb: _pGrb->ClearTo(color); break;
case NeoPixelType_Grbw:_pGrbw->ClearTo(color); break;
}
void ClearTo(RgbColor color)
{
switch (_type) {
case NeoPixelType_Grb: _pGrb->ClearTo(color); break;
case NeoPixelType_Grbw:_pGrbw->ClearTo(color); break;
}
}
void ClearTo(RgbwColor color)
{
switch (_type) {
case NeoPixelType_Grb: break;
case NeoPixelType_Grbw:_pGrbw->ClearTo(color); break;
}
void ClearTo(RgbwColor color)
{
switch (_type) {
case NeoPixelType_Grb: break;
case NeoPixelType_Grbw:_pGrbw->ClearTo(color); break;
}
}
private:
NeoPixelType _type;

6
wled00/WS2812FX.cpp
View File

@ -67,9 +67,11 @@ void WS2812FX::service() {
if(_running || _triggered) {
unsigned long now = millis(); // Be aware, millis() rolls over every 49 days
bool doShow = false;
for(uint8_t i=0; i < _num_segments; i++) {
for(uint8_t i=0; i < _num_segments; i++)
{
_segment_index = i;
if(now > SEGMENT_RUNTIME.next_time || _triggered) {
if(now > SEGMENT_RUNTIME.next_time || _triggered)
{
doShow = true;
handle_palette();
uint16_t delay = (this->*_mode[SEGMENT.mode])();

2
wled00/WS2812FX.h
View File

@ -40,6 +40,8 @@
#define WS2812FX_h
#include "NpbWrapper.h"
#define FASTLED_INTERNAL //remove annoying pragma messages
#include "FastLED.h"
#define DEFAULT_BRIGHTNESS (uint8_t)50

140
wled00/wled00.ino
View File

@ -30,29 +30,29 @@
//library inclusions
#include <Arduino.h>
#ifdef ARDUINO_ARCH_ESP32
#include <WiFi.h>
#include <ESPmDNS.h>
#include "src/dependencies/webserver/WebServer.h"
#include <HTTPClient.h>
#include <WiFi.h>
#include <ESPmDNS.h>
#include "src/dependencies/webserver/WebServer.h"
#include <HTTPClient.h>
#else
#include <ESP8266WiFi.h>
#include <ESP8266mDNS.h>
#include <ESP8266WebServer.h>
#include <ESP8266HTTPClient.h>
#include <ESP8266WiFi.h>
#include <ESP8266mDNS.h>
#include <ESP8266WebServer.h>
#include <ESP8266HTTPClient.h>
#endif
#include <EEPROM.h>
#include <WiFiUDP.h>
#include <DNSServer.h>
#ifndef WLED_DISABLE_OTA
#include <ArduinoOTA.h>
#include "src/dependencies/webserver/ESP8266HTTPUpdateServer.h"
#include <ArduinoOTA.h>
#include "src/dependencies/webserver/ESP8266HTTPUpdateServer.h"
#endif
#include "src/dependencies/time/Time.h"
#include "src/dependencies/time/TimeLib.h"
#include "src/dependencies/timezone/Timezone.h"
#ifndef WLED_DISABLE_BLYNK
#include "src/dependencies/blynk/BlynkSimpleEsp.h"
#include "src/dependencies/blynk/BlynkSimpleEsp.h"
#endif
#include "src/dependencies/e131/E131.h"
#include "src/dependencies/pubsubclient/PubSubClient.h"
@ -63,7 +63,7 @@
//version code in format yymmddb (b = daily build)
#define VERSION 1811071
#define VERSION 1811091
char versionString[] = "0.8.1";
@ -357,6 +357,7 @@ bool auxActive = false, auxActiveBefore = false;
//alexa udp
WiFiUDP alexaUDP;
bool alexaUdpConnected = false;
IPAddress ipMulti(239, 255, 255, 250);
unsigned int portMulti = 1900;
String escapedMac;
@ -381,16 +382,16 @@ uint16_t olen = 0;
//server library objects
#ifdef ARDUINO_ARCH_ESP32
WebServer server(80);
WebServer server(80);
#else
ESP8266WebServer server(80);
ESP8266WebServer server(80);
#endif
HTTPClient* hueClient = NULL;
WiFiClient* mqttTCPClient = NULL;
PubSubClient* mqtt = NULL;
#ifndef WLED_DISABLE_OTA
ESP8266HTTPUpdateServer httpUpdater;
ESP8266HTTPUpdateServer httpUpdater;
#endif
//udp interface objects
@ -417,8 +418,8 @@ WS2812FX strip = WS2812FX();
//filesystem
#ifdef USEFS
#include <FS.h>;
File fsUploadFile;
#include <FS.h>;
File fsUploadFile;
#endif
//gamma 2.4 lookup table used for color correction
@ -478,64 +479,63 @@ bool oappendi(int i)
//boot starts here
void setup() {
wledInit();
wledInit();
}
//main program loop
void loop() {
server.handleClient();
handleSerial();
handleNotifications();
handleTransitions();
userLoop();
yield();
handleButton();
handleNetworkTime();
if (!onlyAP)
{
handleAlexa();
handleMQTT();
}
handleOverlays();
server.handleClient();
handleSerial();
handleNotifications();
handleTransitions();
userLoop();
yield();
handleButton();
handleNetworkTime();
if (!onlyAP)
{
handleAlexa();
handleMQTT();
}
handleOverlays();
yield();
if (!realtimeActive) //block stuff if WARLS/Adalight is enabled
{
if (dnsActive) dnsServer.processNextRequest();
#ifndef WLED_DISABLE_OTA
if (aOtaEnabled) ArduinoOTA.handle();
#endif
handleNightlight();
if (!onlyAP) {
handleHue();
handleBlynk();
}
if (briT) strip.service(); //do not update strip if off, prevents flicker on ESP32
}
//DEBUG serial logging
#ifdef DEBUG
if (millis() - debugTime > 5000)
{
DEBUG_PRINTLN("---MODULE DEBUG INFO---");
DEBUG_PRINT("Runtime: "); DEBUG_PRINTLN(millis());
DEBUG_PRINT("Unix time: "); DEBUG_PRINTLN(now());
DEBUG_PRINT("Free heap: "); DEBUG_PRINTLN(ESP.getFreeHeap());
DEBUG_PRINT("Wifi state: "); DEBUG_PRINTLN(WiFi.status());
if (WiFi.status() != lastWifiState)
{
wifiStateChangedTime = millis();
}
lastWifiState = WiFi.status();
DEBUG_PRINT("State time: "); DEBUG_PRINTLN(wifiStateChangedTime);
DEBUG_PRINT("NTP last sync: "); DEBUG_PRINTLN(ntpLastSyncTime);
DEBUG_PRINT("Client IP: "); DEBUG_PRINTLN(WiFi.localIP());
debugTime = millis();
}
yield();
if (!realtimeActive) //block stuff if WARLS/Adalight is enabled
{
if (dnsActive) dnsServer.processNextRequest();
#ifndef WLED_DISABLE_OTA
if (aOtaEnabled) ArduinoOTA.handle();
#endif
handleNightlight();
if (!onlyAP) {
handleHue();
handleBlynk();
}
if (briT) strip.service(); //do not update strip if off, prevents flicker on ESP32
}
//DEBUG serial logging
#ifdef DEBUG
if (millis() - debugTime > 5000)
{
DEBUG_PRINTLN("---MODULE DEBUG INFO---");
DEBUG_PRINT("Runtime: "); DEBUG_PRINTLN(millis());
DEBUG_PRINT("Unix time: "); DEBUG_PRINTLN(now());
DEBUG_PRINT("Free heap: "); DEBUG_PRINTLN(ESP.getFreeHeap());
DEBUG_PRINT("Wifi state: "); DEBUG_PRINTLN(WiFi.status());
if (WiFi.status() != lastWifiState)
{
wifiStateChangedTime = millis();
}
lastWifiState = WiFi.status();
DEBUG_PRINT("State time: "); DEBUG_PRINTLN(wifiStateChangedTime);
DEBUG_PRINT("NTP last sync: "); DEBUG_PRINTLN(ntpLastSyncTime);
DEBUG_PRINT("Client IP: "); DEBUG_PRINTLN(WiFi.localIP());
debugTime = millis();
}
#endif
}

127
wled00/wled02_xml.ino
View File

@ -2,60 +2,57 @@
* Sending XML status files to client
*/
//build XML response to HTTP /win API request
void XML_response(bool isHTTP)
{
olen = 0;
oappend("<?xml version = \"1.0\" ?><vs><ac>");
if (nightlightActive && nightlightFade)
{
oappendi(briT);
} else
{
oappendi(bri);
}
oappend("</ac>");
for (int i = 0; i < 3; i++)
{
oappend("<cl>");
oappendi(col[i]);
oappend("</cl>");
}
oappend("<ns>");
oappendi(notifyDirect);
oappend("</ns><nr>");
oappendi(receiveNotifications);
oappend("</nr><nl>");
oappendi(nightlightActive);
oappend("</nl><nf>");
oappendi(nightlightFade);
oappend("</nf><nd>");
oappendi(nightlightDelayMins);
oappend("</nd><nt>");
oappendi(nightlightTargetBri);
oappend("</nt><fx>");
oappendi(effectCurrent);
oappend("</fx><sx>");
oappendi(effectSpeed);
oappend("</sx><ix>");
oappendi(effectIntensity);
oappend("</ix><fp>");
oappendi(effectPalette);
oappend("</fp><wv>");
if (useRGBW && !autoRGBtoRGBW) {
oappendi(white);
} else {
oappend("-1");
}
oappend("</wv><md>");
oappendi(useHSB);
oappend("</md><ds>");
oappend(serverDescription);
oappend("</ds></vs>");
if (isHTTP) server.send(200, "text/xml", obuf);
olen = 0;
oappend("<?xml version = \"1.0\" ?><vs><ac>");
oappendi((nightlightActive && nightlightFade) ? briT : bri);
oappend("</ac>");
for (int i = 0; i < 3; i++)
{
oappend("<cl>");
oappendi(col[i]);
oappend("</cl>");
}
oappend("<ns>");
oappendi(notifyDirect);
oappend("</ns><nr>");
oappendi(receiveNotifications);
oappend("</nr><nl>");
oappendi(nightlightActive);
oappend("</nl><nf>");
oappendi(nightlightFade);
oappend("</nf><nd>");
oappendi(nightlightDelayMins);
oappend("</nd><nt>");
oappendi(nightlightTargetBri);
oappend("</nt><fx>");
oappendi(effectCurrent);
oappend("</fx><sx>");
oappendi(effectSpeed);
oappend("</sx><ix>");
oappendi(effectIntensity);
oappend("</ix><fp>");
oappendi(effectPalette);
oappend("</fp><wv>");
if (useRGBW && !autoRGBtoRGBW) {
oappendi(white);
} else {
oappend("-1");
}
oappend("</wv><md>");
oappendi(useHSB);
oappend("</md><ds>");
oappend(serverDescription);
oappend("</ds></vs>");
if (isHTTP) server.send(200, "text/xml", obuf);
}
void sappend(char stype, char* key, int val) //append a setting to string buffer
//append a numeric setting to string buffer
void sappend(char stype, char* key, int val)
{
char ds[] = "d.Sf.";
@ -85,28 +82,30 @@ void sappend(char stype, char* key, int val) //append a setting to string buffer
}
}
void sappends(char stype, char* key, char* val) //append a string setting
//append a string setting to buffer
void sappends(char stype, char* key, char* val)
{
switch(stype)
{
case 's': //string (we can interpret val as char*)
oappend("d.Sf.");
oappend(key);
oappend(".value=\"");
oappend(val);
oappend("\";");
break;
oappend("d.Sf.");
oappend(key);
oappend(".value=\"");
oappend(val);
oappend("\";");
break;
case 'm': //message
oappend("d.getElementsByClassName");
oappend(key);
oappend(".innerHTML=\"");
oappend(val);
oappend("\";");
break;
oappend("d.getElementsByClassName");
oappend(key);
oappend(".innerHTML=\"");
oappend(val);
oappend("\";");
break;
}
}
void getSettingsJS(byte subPage) //get values for settings form in javascript
//get values for settings form in javascript
void getSettingsJS(byte subPage)
{
//0: menu 1: wifi 2: leds 3: ui 4: sync 5: time 6: sec
DEBUG_PRINT("settings resp");

844
wled00/wled03_set.ino
View File

@ -61,7 +61,9 @@ void handleSettingsSet(byte subPage)
#endif
useRGBW = server.hasArg("EW");
autoRGBtoRGBW = server.hasArg("AW");
if (server.hasArg("IS")) //ignore settings and save current brightness, colors and fx as default
//ignore settings and save current brightness, colors and fx as default
if (server.hasArg("IS"))
{
colS[0] = col[0];
colS[1] = col[1];
@ -170,7 +172,9 @@ void handleSettingsSet(byte subPage)
strcpy(alexaInvocationName, server.arg("AI").c_str());
notifyAlexa = server.hasArg("SA");
if (server.hasArg("BK") && !server.arg("BK").equals("Hidden")) {strcpy(blynkApiKey,server.arg("BK").c_str()); initBlynk(blynkApiKey);}
if (server.hasArg("BK") && !server.arg("BK").equals("Hidden")) {
strcpy(blynkApiKey,server.arg("BK").c_str()); initBlynk(blynkApiKey);
}
strcpy(mqttServer, server.arg("MS").c_str());
strcpy(mqttDeviceTopic, server.arg("MD").c_str());
@ -209,7 +213,9 @@ void handleSettingsSet(byte subPage)
useAMPM = !server.hasArg("CF");
currentTimezone = server.arg("TZ").toInt();
utcOffsetSecs = server.arg("UO").toInt();
if (ntpEnabled && WiFi.status() == WL_CONNECTED && !ntpConnected) ntpConnected = ntpUdp.begin(ntpLocalPort); //start if not already connected
//start ntp if not already connected
if (ntpEnabled && WiFi.status() == WL_CONNECTED && !ntpConnected) ntpConnected = ntpUdp.begin(ntpLocalPort);
if (server.hasArg("OL")){
overlayDefault = server.arg("OL").toInt();
@ -305,451 +311,453 @@ void handleSettingsSet(byte subPage)
bool handleSet(String req)
{
bool effectUpdated = false;
if (!(req.indexOf("win") >= 0)) return false;
bool effectUpdated = false;
if (!(req.indexOf("win") >= 0)) return false;
int pos = 0;
DEBUG_PRINT("API req: ");
DEBUG_PRINTLN(req);
int pos = 0;
DEBUG_PRINT("API req: ");
DEBUG_PRINTLN(req);
//save macro, requires &MS=<slot>(<macro>) format
pos = req.indexOf("&MS=");
if (pos > 0) {
int i = req.substring(pos + 4).toInt();
pos = req.indexOf('(') +1;
if (pos > 0) {
int en = req.indexOf(')');
String mc = req.substring(pos);
if (en > 0) mc = req.substring(pos, en);
saveMacro(i, mc);
}
pos = req.indexOf("IN");
if (pos < 1) XML_response(true);
return true;
//if you save a macro in one request, other commands in that request are ignored due to unwanted behavior otherwise
}
//save macro, requires &MS=<slot>(<macro>) format
pos = req.indexOf("&MS=");
if (pos > 0) {
int i = req.substring(pos + 4).toInt();
pos = req.indexOf('(') +1;
if (pos > 0) {
int en = req.indexOf(')');
String mc = req.substring(pos);
if (en > 0) mc = req.substring(pos, en);
saveMacro(i, mc);
}
pos = req.indexOf("IN");
if (pos < 1) XML_response(true);
return true;
//if you save a macro in one request, other commands in that request are ignored due to unwanted behavior otherwise
}
//set brigthness
pos = req.indexOf("&A=");
if (pos > 0) {
bri = req.substring(pos + 3).toInt();
}
//set brigthness
pos = req.indexOf("&A=");
if (pos > 0) {
bri = req.substring(pos + 3).toInt();
}
//set hue
pos = req.indexOf("HU=");
if (pos > 0) {
uint16_t temphue = req.substring(pos + 3).toInt();
byte tempsat = 255;
pos = req.indexOf("SA=");
if (pos > 0) {
tempsat = req.substring(pos + 3).toInt();
}
colorHStoRGB(temphue,tempsat,(req.indexOf("H2")>0)? colSec:col);
}
//set hue
pos = req.indexOf("HU=");
if (pos > 0) {
uint16_t temphue = req.substring(pos + 3).toInt();
byte tempsat = 255;
pos = req.indexOf("SA=");
if (pos > 0) {
tempsat = req.substring(pos + 3).toInt();
}
colorHStoRGB(temphue,tempsat,(req.indexOf("H2")>0)? colSec:col);
}
//set red value
pos = req.indexOf("&R=");
if (pos > 0) {
col[0] = req.substring(pos + 3).toInt();
}
//set green value
pos = req.indexOf("&G=");
if (pos > 0) {
col[1] = req.substring(pos + 3).toInt();
}
//set blue value
pos = req.indexOf("&B=");
if (pos > 0) {
col[2] = req.substring(pos + 3).toInt();
}
//set white value
pos = req.indexOf("&W=");
if (pos > 0) {
white = req.substring(pos + 3).toInt();
}
//set red value
pos = req.indexOf("&R=");
if (pos > 0) {
col[0] = req.substring(pos + 3).toInt();
}
//set green value
pos = req.indexOf("&G=");
if (pos > 0) {
col[1] = req.substring(pos + 3).toInt();
}
//set blue value
pos = req.indexOf("&B=");
if (pos > 0) {
col[2] = req.substring(pos + 3).toInt();
}
//set white value
pos = req.indexOf("&W=");
if (pos > 0) {
white = req.substring(pos + 3).toInt();
}
//set 2nd red value
pos = req.indexOf("R2=");
if (pos > 0) {
colSec[0] = req.substring(pos + 3).toInt();
}
//set 2nd green value
pos = req.indexOf("G2=");
if (pos > 0) {
colSec[1] = req.substring(pos + 3).toInt();
}
//set 2nd blue value
pos = req.indexOf("B2=");
if (pos > 0) {
colSec[2] = req.substring(pos + 3).toInt();
}
//set 2nd white value
pos = req.indexOf("W2=");
if (pos > 0) {
whiteSec = req.substring(pos + 3).toInt();
}
//set 2nd red value
pos = req.indexOf("R2=");
if (pos > 0) {
colSec[0] = req.substring(pos + 3).toInt();
}
//set 2nd green value
pos = req.indexOf("G2=");
if (pos > 0) {
colSec[1] = req.substring(pos + 3).toInt();
}
//set 2nd blue value
pos = req.indexOf("B2=");
if (pos > 0) {
colSec[2] = req.substring(pos + 3).toInt();
}
//set 2nd white value
pos = req.indexOf("W2=");
if (pos > 0) {
whiteSec = req.substring(pos + 3).toInt();
}
//set color from HEX or 32bit DEC
pos = req.indexOf("CL=");
if (pos > 0) {
colorFromDecOrHexString(col, &white, (char*)req.substring(pos + 3).c_str());
}
pos = req.indexOf("C2=");
if (pos > 0) {
colorFromDecOrHexString(colSec, &whiteSec, (char*)req.substring(pos + 3).c_str());
}
//set color from HEX or 32bit DEC
pos = req.indexOf("CL=");
if (pos > 0) {
colorFromDecOrHexString(col, &white, (char*)req.substring(pos + 3).c_str());
}
pos = req.indexOf("C2=");
if (pos > 0) {
colorFromDecOrHexString(colSec, &whiteSec, (char*)req.substring(pos + 3).c_str());
}
//set 2nd to white
pos = req.indexOf("SW");
if (pos > 0) {
if(useRGBW) {
whiteSec = 255;
colSec[0] = 0;
colSec[1] = 0;
colSec[2] = 0;
} else {
colSec[0] = 255;
colSec[1] = 255;
colSec[2] = 255;
}
}
//set 2nd to black
pos = req.indexOf("SB");
if (pos > 0) {
whiteSec = 0;
//set 2nd to white
pos = req.indexOf("SW");
if (pos > 0) {
if(useRGBW) {
whiteSec = 255;
colSec[0] = 0;
colSec[1] = 0;
colSec[2] = 0;
}
} else {
colSec[0] = 255;
colSec[1] = 255;
colSec[2] = 255;
}
}
//set to random hue SR=0->1st SR=1->2nd
pos = req.indexOf("SR");
if (pos > 0) {
_setRandomColor(req.substring(pos + 3).toInt());
}
//set 2nd to 1st
pos = req.indexOf("SP");
if (pos > 0) {
colSec[0] = col[0];
colSec[1] = col[1];
colSec[2] = col[2];
whiteSec = white;
}
//swap 2nd & 1st
pos = req.indexOf("SC");
if (pos > 0) {
byte _temp[4];
for (int i = 0; i<3; i++)
{
_temp[i] = col[i];
col[i] = colSec[i];
colSec[i] = _temp[i];
}
_temp[3] = white;
white = whiteSec;
whiteSec = _temp[3];
}
//set 2nd to black
pos = req.indexOf("SB");
if (pos > 0) {
whiteSec = 0;
colSec[0] = 0;
colSec[1] = 0;
colSec[2] = 0;
}
//set current effect index
pos = req.indexOf("FX=");
if (pos > 0) {
if (effectCurrent != req.substring(pos + 3).toInt())
{
effectCurrent = req.substring(pos + 3).toInt();
strip.setMode(effectCurrent);
effectUpdated = true;
}
}
//set effect speed
pos = req.indexOf("SX=");
if (pos > 0) {
if (effectSpeed != req.substring(pos + 3).toInt())
{
effectSpeed = req.substring(pos + 3).toInt();
strip.setSpeed(effectSpeed);
effectUpdated = true;
}
}
//set effect intensity
pos = req.indexOf("IX=");
if (pos > 0) {
if (effectIntensity != req.substring(pos + 3).toInt())
{
effectIntensity = req.substring(pos + 3).toInt();
strip.setIntensity(effectIntensity);
effectUpdated = true;
}
}
//set effect palette (only for FastLED effects)
pos = req.indexOf("FP=");
if (pos > 0) {
if (effectPalette != req.substring(pos + 3).toInt())
{
effectPalette = req.substring(pos + 3).toInt();
strip.setPalette(effectPalette);
effectUpdated = true;
}
}
//set to random hue SR=0->1st SR=1->2nd
pos = req.indexOf("SR");
if (pos > 0) {
_setRandomColor(req.substring(pos + 3).toInt());
}
//set 2nd to 1st
pos = req.indexOf("SP");
if (pos > 0) {
colSec[0] = col[0];
colSec[1] = col[1];
colSec[2] = col[2];
whiteSec = white;
}
//swap 2nd & 1st
pos = req.indexOf("SC");
if (pos > 0) {
byte _temp[4];
for (int i = 0; i<3; i++)
{
_temp[i] = col[i];
col[i] = colSec[i];
colSec[i] = _temp[i];
}
_temp[3] = white;
white = whiteSec;
whiteSec = _temp[3];
}
//set current effect index
pos = req.indexOf("FX=");
if (pos > 0) {
if (effectCurrent != req.substring(pos + 3).toInt())
{
effectCurrent = req.substring(pos + 3).toInt();
strip.setMode(effectCurrent);
effectUpdated = true;
}
}
//set effect speed
pos = req.indexOf("SX=");
if (pos > 0) {
if (effectSpeed != req.substring(pos + 3).toInt())
{
effectSpeed = req.substring(pos + 3).toInt();
strip.setSpeed(effectSpeed);
effectUpdated = true;
}
}
//set effect intensity
pos = req.indexOf("IX=");
if (pos > 0) {
if (effectIntensity != req.substring(pos + 3).toInt())
{
effectIntensity = req.substring(pos + 3).toInt();
strip.setIntensity(effectIntensity);
effectUpdated = true;
}
}
//set effect palette (only for FastLED effects)
pos = req.indexOf("FP=");
if (pos > 0) {
if (effectPalette != req.substring(pos + 3).toInt())
{
effectPalette = req.substring(pos + 3).toInt();
strip.setPalette(effectPalette);
effectUpdated = true;
}
}
//set hue polling light: 0 -off
pos = req.indexOf("HP=");
if (pos > 0) {
int id = req.substring(pos + 3).toInt();
if (id > 0)
{
if (id < 100) huePollLightId = id;
setupHue();
} else {
huePollingEnabled = false;
}
}
//set hue polling light: 0 -off
pos = req.indexOf("HP=");
if (pos > 0) {
int id = req.substring(pos + 3).toInt();
if (id > 0)
{
if (id < 100) huePollLightId = id;
setupHue();
} else {
huePollingEnabled = false;
}
}
//set default control mode (0 - RGB, 1 - HSB)
pos = req.indexOf("MD=");
if (pos > 0) {
useHSB = req.substring(pos + 3).toInt();
}
//set advanced overlay
pos = req.indexOf("OL=");
if (pos > 0) {
overlayCurrent = req.substring(pos + 3).toInt();
strip.unlockAll();
}
//(un)lock pixel (ranges)
pos = req.indexOf("&L=");
if (pos > 0){
int index = req.substring(pos + 3).toInt();
pos = req.indexOf("L2=");
if (pos > 0){
int index2 = req.substring(pos + 3).toInt();
if (req.indexOf("UL") > 0)
{
strip.unlockRange(index, index2);
} else
{
strip.lockRange(index, index2);
}
//set default control mode (0 - RGB, 1 - HSB)
pos = req.indexOf("MD=");
if (pos > 0) {
useHSB = req.substring(pos + 3).toInt();
}
//set advanced overlay
pos = req.indexOf("OL=");
if (pos > 0) {
overlayCurrent = req.substring(pos + 3).toInt();
strip.unlockAll();
}
//(un)lock pixel (ranges)
pos = req.indexOf("&L=");
if (pos > 0){
int index = req.substring(pos + 3).toInt();
pos = req.indexOf("L2=");
if (pos > 0){
int index2 = req.substring(pos + 3).toInt();
if (req.indexOf("UL") > 0)
{
strip.unlockRange(index, index2);
} else
{
if (req.indexOf("UL") > 0)
{
strip.unlock(index);
} else
{
strip.lock(index);
}
strip.lockRange(index, index2);
}
}
} else
{
if (req.indexOf("UL") > 0)
{
strip.unlock(index);
} else
{
strip.lock(index);
}
}
}
//apply macro
pos = req.indexOf("&M=");
if (pos > 0) {
applyMacro(req.substring(pos + 3).toInt());
}
//toggle send UDP direct notifications
if (req.indexOf("SN=") > 0)
{
notifyDirect = true;
if (req.indexOf("SN=0") > 0)
{
notifyDirect = false;
}
}
//apply macro
pos = req.indexOf("&M=");
if (pos > 0) {
applyMacro(req.substring(pos + 3).toInt());
}
//toggle send UDP direct notifications
if (req.indexOf("SN=") > 0)
{
notifyDirect = true;
if (req.indexOf("SN=0") > 0)
{
notifyDirect = false;
}
}
//toggle receive UDP direct notifications
if (req.indexOf("RN=") > 0)
{
receiveNotifications = true;
if (req.indexOf("RN=0") > 0)
{
receiveNotifications = false;
}
}
//toggle receive UDP direct notifications
if (req.indexOf("RN=") > 0)
{
receiveNotifications = true;
if (req.indexOf("RN=0") > 0)
{
receiveNotifications = false;
}
}
//toggle nightlight mode
bool aNlDef = false;
if (req.indexOf("&ND") > 0) aNlDef = true;
pos = req.indexOf("NL=");
if (pos > 0)
{
if (req.indexOf("NL=0") > 0)
{
nightlightActive = false;
bri = briT;
} else {
nightlightActive = true;
if (!aNlDef) nightlightDelayMins = req.substring(pos + 3).toInt();
nightlightStartTime = millis();
}
} else if (aNlDef)
{
//toggle nightlight mode
bool aNlDef = false;
if (req.indexOf("&ND") > 0) aNlDef = true;
pos = req.indexOf("NL=");
if (pos > 0)
{
if (req.indexOf("NL=0") > 0)
{
nightlightActive = false;
bri = briT;
} else {
nightlightActive = true;
if (!aNlDef) nightlightDelayMins = req.substring(pos + 3).toInt();
nightlightStartTime = millis();
}
}
} else if (aNlDef)
{
nightlightActive = true;
nightlightStartTime = millis();
}
//set nightlight target brightness
pos = req.indexOf("NT=");
if (pos > 0) {
nightlightTargetBri = req.substring(pos + 3).toInt();
nightlightActiveOld = false; //re-init
}
//set nightlight target brightness
pos = req.indexOf("NT=");
if (pos > 0) {
nightlightTargetBri = req.substring(pos + 3).toInt();
nightlightActiveOld = false; //re-init
}
//toggle nightlight fade
if (req.indexOf("NF=") > 0)
{
if (req.indexOf("NF=0") > 0)
//toggle nightlight fade
if (req.indexOf("NF=") > 0)
{
if (req.indexOf("NF=0") > 0)
{
nightlightFade = false;
} else {
nightlightFade = true;
}
nightlightActiveOld = false; //re-init
}
//toggle general purpose output
pos = req.indexOf("AX=");
if (pos > 0) {
auxTime = req.substring(pos + 3).toInt();
auxActive = true;
if (auxTime == 0) auxActive = false;
}
pos = req.indexOf("TT=");
if (pos > 0) {
transitionDelay = req.substring(pos + 3).toInt();
}
//main toggle on/off
pos = req.indexOf("&T=");
if (pos > 0) {
nightlightActive = false; //always disable nightlight when toggling
switch (req.substring(pos + 3).toInt())
{
case 0: if (bri != 0){briLast = bri; bri = 0;} break; //off
case 1: bri = briLast; break; //on
default: if (bri == 0) //toggle
{
nightlightFade = false;
} else {
nightlightFade = true;
}
nightlightActiveOld = false; //re-init
}
//toggle general purpose output
pos = req.indexOf("AX=");
if (pos > 0) {
auxTime = req.substring(pos + 3).toInt();
auxActive = true;
if (auxTime == 0) auxActive = false;
}
pos = req.indexOf("TT=");
if (pos > 0) {
transitionDelay = req.substring(pos + 3).toInt();
}
//main toggle on/off
pos = req.indexOf("&T=");
if (pos > 0) {
nightlightActive = false; //always disable nightlight when toggling
switch (req.substring(pos + 3).toInt())
bri = briLast;
} else
{
case 0: if (bri != 0){briLast = bri; bri = 0;} break; //off
case 1: bri = briLast; break; //on
default: if (bri == 0) //toggle
{
bri = briLast;
} else
{
briLast = bri;
bri = 0;
}
briLast = bri;
bri = 0;
}
}
}
}
//deactivate nightlight if target brightness is reached
if (bri == nightlightTargetBri) nightlightActive = false;
//set time (unix timestamp)
pos = req.indexOf("ST=");
if (pos > 0) {
setTime(req.substring(pos+3).toInt());
}
//deactivate nightlight if target brightness is reached
if (bri == nightlightTargetBri) nightlightActive = false;
//set time (unix timestamp)
pos = req.indexOf("ST=");
if (pos > 0) {
setTime(req.substring(pos+3).toInt());
}
//set countdown goal (unix timestamp)
pos = req.indexOf("CT=");
if (pos > 0) {
countdownTime = req.substring(pos+3).toInt();
if (countdownTime - now() > 0) countdownOverTriggered = false;
}
//set countdown goal (unix timestamp)
pos = req.indexOf("CT=");
if (pos > 0) {
countdownTime = req.substring(pos+3).toInt();
if (countdownTime - now() > 0) countdownOverTriggered = false;
}
//set presets
pos = req.indexOf("P1="); //sets first preset for cycle
if (pos > 0) presetCycleMin = req.substring(pos + 3).toInt();
pos = req.indexOf("P2="); //sets last preset for cycle
if (pos > 0) presetCycleMax = req.substring(pos + 3).toInt();
//set presets
pos = req.indexOf("P1="); //sets first preset for cycle
if (pos > 0) presetCycleMin = req.substring(pos + 3).toInt();
pos = req.indexOf("P2="); //sets last preset for cycle
if (pos > 0) presetCycleMax = req.substring(pos + 3).toInt();
if (req.indexOf("CY=") > 0) //preset cycle
{
presetCyclingEnabled = true;
if (req.indexOf("CY=0") > 0)
{
presetCyclingEnabled = false;
}
presetCycCurr = presetCycleMin;
}
pos = req.indexOf("PT="); //sets cycle time in ms
if (pos > 0) {
int v = req.substring(pos + 3).toInt();
if (v > 49) presetCycleTime = v;
}
if (req.indexOf("PA=") > 0) //apply brightness from preset
{
presetApplyBri = true;
if (req.indexOf("PA=0") > 0) presetApplyBri = false;
}
if (req.indexOf("PC=") > 0) //apply color from preset
{
presetApplyCol = true;
if (req.indexOf("PC=0") > 0) presetApplyCol = false;
}
if (req.indexOf("PX=") > 0) //apply effects from preset
{
presetApplyFx = true;
if (req.indexOf("PX=0") > 0) presetApplyFx = false;
}
pos = req.indexOf("PS="); //saves current in preset
if (pos > 0) {
savePreset(req.substring(pos + 3).toInt());
}
pos = req.indexOf("PL="); //applies entire preset
if (pos > 0) {
applyPreset(req.substring(pos + 3).toInt(), presetApplyBri, presetApplyCol, presetApplyFx);
if (presetApplyFx) effectUpdated = true;
}
//cronixie
pos = req.indexOf("NX="); //sets digits to code
if (pos > 0) {
strcpy(cronixieDisplay,req.substring(pos + 3, pos + 9).c_str());
setCronixie();
}
pos = req.indexOf("NM="); //mode, 1 countdown
if (pos > 0) {
countdownMode = true;
if (req.indexOf("NM=0") > 0)
{
countdownMode = false;
}
}
if (req.indexOf("NB=") > 0) //sets backlight
{
cronixieBacklight = true;
if (req.indexOf("NB=0") > 0)
{
cronixieBacklight = false;
}
if (overlayCurrent == 3) strip.setCronixieBacklight(cronixieBacklight);
overlayRefreshedTime = 0;
}
pos = req.indexOf("U0="); //user var 0
if (pos > 0) {
userVar0 = req.substring(pos + 3).toInt();
}
pos = req.indexOf("U1="); //user var 1
if (pos > 0) {
userVar1 = req.substring(pos + 3).toInt();
}
//you can add more if you need
if (req.indexOf("CY=") > 0) //preset cycle
{
presetCyclingEnabled = true;
if (req.indexOf("CY=0") > 0)
{
presetCyclingEnabled = false;
}
presetCycCurr = presetCycleMin;
}
pos = req.indexOf("PT="); //sets cycle time in ms
if (pos > 0) {
int v = req.substring(pos + 3).toInt();
if (v > 49) presetCycleTime = v;
}
if (req.indexOf("PA=") > 0) //apply brightness from preset
{
presetApplyBri = true;
if (req.indexOf("PA=0") > 0) presetApplyBri = false;
}
if (req.indexOf("PC=") > 0) //apply color from preset
{
presetApplyCol = true;
if (req.indexOf("PC=0") > 0) presetApplyCol = false;
}
if (req.indexOf("PX=") > 0) //apply effects from preset
{
presetApplyFx = true;
if (req.indexOf("PX=0") > 0) presetApplyFx = false;
}
pos = req.indexOf("PS="); //saves current in preset
if (pos > 0) {
savePreset(req.substring(pos + 3).toInt());
}
pos = req.indexOf("PL="); //applies entire preset
if (pos > 0) {
applyPreset(req.substring(pos + 3).toInt(), presetApplyBri, presetApplyCol, presetApplyFx);
if (presetApplyFx) effectUpdated = true;
}
//cronixie
pos = req.indexOf("NX="); //sets digits to code
if (pos > 0) {
strcpy(cronixieDisplay,req.substring(pos + 3, pos + 9).c_str());
setCronixie();
}
pos = req.indexOf("NM="); //mode, 1 countdown
if (pos > 0) {
countdownMode = true;
if (req.indexOf("NM=0") > 0)
{
countdownMode = false;
}
}
if (req.indexOf("NB=") > 0) //sets backlight
{
cronixieBacklight = true;
if (req.indexOf("NB=0") > 0)
{
cronixieBacklight = false;
}
if (overlayCurrent == 3) strip.setCronixieBacklight(cronixieBacklight);
overlayRefreshedTime = 0;
}
pos = req.indexOf("U0="); //user var 0
if (pos > 0) {
userVar0 = req.substring(pos + 3).toInt();
}
pos = req.indexOf("U1="); //user var 1
if (pos > 0) {
userVar1 = req.substring(pos + 3).toInt();
}
//you can add more if you need
//internal call, does not send XML response
pos = req.indexOf("IN");
if (pos < 1) XML_response(true);
//do not send UDP notifications this time
pos = req.indexOf("NN");
if (pos > 0)
{
colorUpdated(5);
return true;
}
if (effectUpdated)
{
colorUpdated(6);
} else
{
colorUpdated(1);
}
return true;
//internal call, does not send XML response
pos = req.indexOf("IN");
if (pos < 1) XML_response(true);
//do not send UDP notifications this time
pos = req.indexOf("NN");
if (pos > 0)
{
colorUpdated(5);
return true;
}
if (effectUpdated)
{
colorUpdated(6);
} else
{
colorUpdated(1);
}
return true;
}

47
wled00/wled04_file.ino
View File

@ -3,36 +3,37 @@
*/
void handleSerial()
{
if (Serial.available() > 0) //support for Adalight protocol to high-speed control LEDs over serial (gamma correction done by PC)
if (Serial.available() > 0) //support for Adalight protocol to high-speed control LEDs over serial
{
if (Serial.find("Ada"))
if (!Serial.find("Ada")) return;
if (!realtimeActive && bri == 0) strip.setBrightness(briLast);
arlsLock(realtimeTimeoutMs);
delay(1);
byte hi = Serial.read();
byte ledc = Serial.read();
byte chk = Serial.read();
if(chk != (hi ^ ledc ^ 0x55)) return;
if (ledCount < ledc) ledc = ledCount;
byte sc[3]; int t =-1; int to = 0;
for (int i=0; i < ledc; i++)
{
if (!realtimeActive && bri == 0) strip.setBrightness(briLast);
arlsLock(realtimeTimeoutMs);
delay(1);
byte hi = Serial.read();
byte ledc = Serial.read();
byte chk = Serial.read();
if(chk != (hi ^ ledc ^ 0x55)) return;
if (ledCount < ledc) ledc = ledCount;
byte sc[3]; int t =-1; int to = 0;
for (int i=0; i < ledc; i++)
for (byte j=0; j<3; j++)
{
for (byte j=0; j<3; j++)
while (Serial.peek()<0) //no data yet available
{
while (Serial.peek()<0) //no data yet available
{
delay(1);
to++;
if (to>5) {strip.show(); return;} //unexpected end of transmission
}
to = 0;
sc[j] = Serial.read();
delay(1);
to++;
if (to>5) {strip.show(); return;} //unexpected end of transmission
}
setRealtimePixel(i,sc[0],sc[1],sc[2],0);
to = 0;
sc[j] = Serial.read();
}
strip.show();
setRealtimePixel(i,sc[0],sc[1],sc[2],0);
}
strip.show();
}
}

19
wled00/wled05_init.ino
View File

@ -8,7 +8,7 @@ void wledInit()
ledCount = ((EEPROM.read(229) << 0) & 0xFF) + ((EEPROM.read(398) << 8) & 0xFF00); if (ledCount > 1200 || ledCount == 0) ledCount = 10;
//RMT eats up too much RAM
#ifdef ARDUINO_ARCH_ESP32
if (ledCount > 600) ledCount = 600;
if (ledCount > 600) ledCount = 600;
#endif
if (!EEPROM.read(397)) strip.init(EEPROM.read(372),ledCount,EEPROM.read(2204)); //quick init
@ -16,7 +16,7 @@ void wledInit()
Serial.setTimeout(50);
#ifdef USEFS
SPIFFS.begin();
SPIFFS.begin();
#endif
DEBUG_PRINTLN("Load EEPROM");
@ -139,7 +139,9 @@ void initStrip()
if (bootPreset>0) applyPreset(bootPreset, turnOnAtBoot, true, true);
colorUpdated(0);
if(digitalRead(buttonPin) == LOW) buttonEnabled = false; //disable button if it is "pressed" unintentionally
//disable button if it is "pressed" unintentionally
if(digitalRead(buttonPin) == LOW) buttonEnabled = false;
}
@ -173,13 +175,14 @@ void initCon()
WiFi.softAPdisconnect(true);
}
int fail_count = 0;
if (strlen(clientSSID) <1 || strcmp(clientSSID,"Your_Network") == 0) fail_count = apWaitTimeSecs*2; //instantly go to ap mode
if (strlen(clientSSID) <1 || strcmp(clientSSID,"Your_Network") == 0)
fail_count = apWaitTimeSecs*2; //instantly go to ap mode
#ifndef ARDUINO_ARCH_ESP32
WiFi.hostname(serverDescription);
WiFi.hostname(serverDescription);
#endif
WiFi.begin(clientSSID, clientPass);
WiFi.begin(clientSSID, clientPass);
#ifdef ARDUINO_ARCH_ESP32
WiFi.setHostname(serverDescription);
WiFi.setHostname(serverDescription);
#endif
unsigned long lastTry = 0;
bool con = false;
@ -211,9 +214,9 @@ void initCon()
}
//fill string buffer with build info
void getBuildInfo()
{
//fill string buffer with build info
olen = 0;
oappend("hard-coded build info:\r\n\n");
#ifdef ARDUINO_ARCH_ESP32

251
wled00/wled07_notify.ino
View File

@ -118,135 +118,136 @@ void handleNotifications()
}
//receive UDP notifications
if(udpConnected && (receiveNotifications || receiveDirect)){
uint16_t packetSize = notifierUdp.parsePacket();
//hyperion / raw RGB
if (!packetSize && udpRgbConnected) {
packetSize = rgbUdp.parsePacket();
if (!receiveDirect) return;
if (packetSize > UDP_IN_MAXSIZE || packetSize < 3) return;
realtimeIP = rgbUdp.remoteIP();
DEBUG_PRINTLN(rgbUdp.remoteIP());
olen = 0;
rgbUdp.read(obuf, packetSize);
arlsLock(realtimeTimeoutMs);
uint16_t id = 0;
for (uint16_t i = 0; i < packetSize -2; i += 3)
{
setRealtimePixel(id, obuf[i], obuf[i+1], obuf[i+2], 0);
id++; if (id >= ledCount) break;
}
strip.show();
return;
}
if (!udpConnected || !(receiveNotifications || receiveDirect)) return;
if (packetSize > UDP_IN_MAXSIZE) return;
if(packetSize && notifierUdp.remoteIP() != WiFi.localIP()) //don't process broadcasts we send ourselves
{
olen = 0;
notifierUdp.read(obuf, packetSize);
char* udpIn = obuf;
if (udpIn[0] == 0 && !realtimeActive && receiveNotifications) //wled notifier, block if realtime packets active
{
if (receiveNotificationColor)
{
col[0] = udpIn[3];
col[1] = udpIn[4];
col[2] = udpIn[5];
}
if (udpIn[11] > 0 && receiveNotificationColor) //check if sending modules white val is inteded
{
white = udpIn[10];
if (udpIn[11] > 1 )
{
colSec[0] = udpIn[12];
colSec[1] = udpIn[13];
colSec[2] = udpIn[14];
whiteSec = udpIn[15];
}
}
if (udpIn[8] != effectCurrent && receiveNotificationEffects)
{
effectCurrent = udpIn[8];
strip.setMode(effectCurrent);
}
if (udpIn[9] != effectSpeed && receiveNotificationEffects)
{
effectSpeed = udpIn[9];
strip.setSpeed(effectSpeed);
}
if (udpIn[11] > 2 && udpIn[16] != effectIntensity && receiveNotificationEffects)
{
effectIntensity = udpIn[16];
strip.setIntensity(effectIntensity);
}
if (udpIn[11] > 3)
{
transitionDelayTemp = ((udpIn[17] << 0) & 0xFF) + ((udpIn[18] << 8) & 0xFF00);
}
if (udpIn[11] > 4 && udpIn[19] != effectPalette && receiveNotificationEffects)
{
effectPalette = udpIn[19];
strip.setPalette(effectPalette);
}
nightlightActive = udpIn[6];
if (!nightlightActive)
{
if (receiveNotificationBrightness) bri = udpIn[2];
colorUpdated(3);
}
} else if (udpIn[0] > 0 && udpIn[0] < 4 && receiveDirect) //1 warls //2 drgb //3 drgbw
{
realtimeIP = notifierUdp.remoteIP();
DEBUG_PRINTLN(notifierUdp.remoteIP());
if (packetSize > 1) {
if (udpIn[1] == 0)
{
realtimeActive = false;
return;
} else {
arlsLock(udpIn[1]*1000);
}
if (udpIn[0] == 1) //warls
{
for (uint16_t i = 2; i < packetSize -3; i += 4)
{
setRealtimePixel(udpIn[i], udpIn[i+1], udpIn[i+2], udpIn[i+3], 0);
}
} else if (udpIn[0] == 2) //drgb
{
uint16_t id = 0;
for (uint16_t i = 2; i < packetSize -2; i += 3)
{
setRealtimePixel(id, udpIn[i], udpIn[i+1], udpIn[i+2], 0);
uint16_t packetSize = notifierUdp.parsePacket();
id++; if (id >= ledCount) break;
}
} else if (udpIn[0] == 3) //drgbw
{
uint16_t id = 0;
for (uint16_t i = 2; i < packetSize -3; i += 4)
{
setRealtimePixel(id, udpIn[i], udpIn[i+1], udpIn[i+2], udpIn[i+3]);
id++; if (id >= ledCount) break;
}
} else if (udpIn[0] == 4) //dnrgb
{
uint16_t id = ((udpIn[3] << 0) & 0xFF) + ((udpIn[2] << 8) & 0xFF00);
for (uint16_t i = 4; i < packetSize -2; i += 3)
{
if (id >= ledCount) break;
setRealtimePixel(id, udpIn[i], udpIn[i+1], udpIn[i+2], udpIn[i+3]);
id++;
}
}
strip.show();
//hyperion / raw RGB
if (!packetSize && udpRgbConnected) {
packetSize = rgbUdp.parsePacket();
if (!receiveDirect) return;
if (packetSize > UDP_IN_MAXSIZE || packetSize < 3) return;
realtimeIP = rgbUdp.remoteIP();
DEBUG_PRINTLN(rgbUdp.remoteIP());
olen = 0;
rgbUdp.read(obuf, packetSize);
arlsLock(realtimeTimeoutMs);
uint16_t id = 0;
for (uint16_t i = 0; i < packetSize -2; i += 3)
{
setRealtimePixel(id, obuf[i], obuf[i+1], obuf[i+2], 0);
id++; if (id >= ledCount) break;
}
strip.show();
return;
}
//notifier and UDP realtime
if (packetSize > UDP_IN_MAXSIZE) return;
if(packetSize && notifierUdp.remoteIP() != WiFi.localIP()) //don't process broadcasts we send ourselves
{
olen = 0;
notifierUdp.read(obuf, packetSize);
char* udpIn = obuf;
if (udpIn[0] == 0 && !realtimeActive && receiveNotifications) //wled notifier, block if realtime packets active
{
if (receiveNotificationColor)
{
col[0] = udpIn[3];
col[1] = udpIn[4];
col[2] = udpIn[5];
}
if (udpIn[11] > 0 && receiveNotificationColor) //check if sending modules white val is inteded
{
white = udpIn[10];
if (udpIn[11] > 1 )
{
colSec[0] = udpIn[12];
colSec[1] = udpIn[13];
colSec[2] = udpIn[14];
whiteSec = udpIn[15];
}
}
if (udpIn[8] != effectCurrent && receiveNotificationEffects)
{
effectCurrent = udpIn[8];
strip.setMode(effectCurrent);
}
if (udpIn[9] != effectSpeed && receiveNotificationEffects)
{
effectSpeed = udpIn[9];
strip.setSpeed(effectSpeed);
}
if (udpIn[11] > 2 && udpIn[16] != effectIntensity && receiveNotificationEffects)
{
effectIntensity = udpIn[16];
strip.setIntensity(effectIntensity);
}
if (udpIn[11] > 3)
{
transitionDelayTemp = ((udpIn[17] << 0) & 0xFF) + ((udpIn[18] << 8) & 0xFF00);
}
if (udpIn[11] > 4 && udpIn[19] != effectPalette && receiveNotificationEffects)
{
effectPalette = udpIn[19];
strip.setPalette(effectPalette);
}
nightlightActive = udpIn[6];
if (!nightlightActive)
{
if (receiveNotificationBrightness) bri = udpIn[2];
colorUpdated(3);
}
} else if (udpIn[0] > 0 && udpIn[0] < 4 && receiveDirect) //1 warls //2 drgb //3 drgbw
{
realtimeIP = notifierUdp.remoteIP();
DEBUG_PRINTLN(notifierUdp.remoteIP());
if (packetSize > 1) {
if (udpIn[1] == 0)
{
realtimeActive = false;
return;
} else {
arlsLock(udpIn[1]*1000);
}
if (udpIn[0] == 1) //warls
{
for (uint16_t i = 2; i < packetSize -3; i += 4)
{
setRealtimePixel(udpIn[i], udpIn[i+1], udpIn[i+2], udpIn[i+3], 0);
}
} else if (udpIn[0] == 2) //drgb
{
uint16_t id = 0;
for (uint16_t i = 2; i < packetSize -2; i += 3)
{
setRealtimePixel(id, udpIn[i], udpIn[i+1], udpIn[i+2], 0);
id++; if (id >= ledCount) break;
}
} else if (udpIn[0] == 3) //drgbw
{
uint16_t id = 0;
for (uint16_t i = 2; i < packetSize -3; i += 4)
{
setRealtimePixel(id, udpIn[i], udpIn[i+1], udpIn[i+2], udpIn[i+3]);
id++; if (id >= ledCount) break;
}
} else if (udpIn[0] == 4) //dnrgb
{
uint16_t id = ((udpIn[3] << 0) & 0xFF) + ((udpIn[2] << 8) & 0xFF00);
for (uint16_t i = 4; i < packetSize -2; i += 3)
{
if (id >= ledCount) break;
setRealtimePixel(id, udpIn[i], udpIn[i+1], udpIn[i+2], udpIn[i+3]);
id++;
}
}
strip.show();
}
}
}
}

2
wled00/wled08_led.ino
View File

@ -195,7 +195,7 @@ void handleNightlight()
float nper = (millis() - nightlightStartTime)/((float)nightlightDelayMs);
if (nightlightFade)
{
bri = briNlT+((nightlightTargetBri - briNlT)*nper);
bri = briNlT + ((nightlightTargetBri - briNlT)*nper);
colorUpdated(5);
}
if (nper >= 1)

257
wled00/wled12_alexa.ino
View File

@ -16,35 +16,30 @@ void alexaInit()
{
if (alexaEnabled && WiFi.status() == WL_CONNECTED)
{
udpConnected = connectUDP();
alexaUdpConnected = connectUDP();
if (udpConnected) alexaInitPages();
if (alexaUdpConnected) alexaInitPages();
}
}
void handleAlexa()
{
if (alexaEnabled && WiFi.status() == WL_CONNECTED)
{
if(udpConnected){
// if theres data available, read a packet
int packetSize = alexaUDP.parsePacket();
if(packetSize>0) {
IPAddress remote = alexaUDP.remoteIP();
int len = alexaUDP.read(obuf, 254);
if (len > 0) {
obuf[len] = 0;
}
if(strstr(obuf,"M-SEARCH") > 0) {
if(strstr(obuf,"upnp:rootdevice") > 0 || strstr(obuf,"device:basic:1") > 0) {
DEBUG_PRINTLN("Responding search req...");
respondToSearch();
}
}
}
}
}
if (!alexaEnabled || WiFi.status() != WL_CONNECTED || !alexaUdpConnected) return;
// if there's data available, read a packet
int packetSize = alexaUDP.parsePacket();
if(packetSize < 1) return;
IPAddress remote = alexaUDP.remoteIP();
int len = alexaUDP.read(obuf, 254);
if (len > 0) obuf[len] = 0;
if(strstr(obuf,"M-SEARCH") > 0) {
if(strstr(obuf,"upnp:rootdevice") > 0 || strstr(obuf,"device:basic:1") > 0) {
DEBUG_PRINTLN("Responding search req...");
respondToSearch();
}
}
}
void alexaOn()
@ -94,126 +89,125 @@ void alexaDim(byte briL)
}
void respondToSearch() {
DEBUG_PRINTLN("");
DEBUG_PRINT("Send resp to ");
DEBUG_PRINTLN(alexaUDP.remoteIP());
DEBUG_PRINT("Port : ");
DEBUG_PRINTLN(alexaUDP.remotePort());
DEBUG_PRINTLN("");
DEBUG_PRINT("Send resp to ");
DEBUG_PRINTLN(alexaUDP.remoteIP());
DEBUG_PRINT("Port : ");
DEBUG_PRINTLN(alexaUDP.remotePort());
IPAddress localIP = WiFi.localIP();
char s[16];
sprintf(s, "%d.%d.%d.%d", localIP[0], localIP[1], localIP[2], localIP[3]);
IPAddress localIP = WiFi.localIP();
char s[16];
sprintf(s, "%d.%d.%d.%d", localIP[0], localIP[1], localIP[2], localIP[3]);
olen = 0;
oappend(
"HTTP/1.1 200 OK\r\n"
"EXT:\r\n"
"CACHE-CONTROL: max-age=100\r\n" // SSDP_INTERVAL
"LOCATION: http://");
oappend(s);
oappend(":80/description.xml\r\n"
"SERVER: FreeRTOS/6.0.5, UPnP/1.0, IpBridge/1.17.0\r\n" // _modelName, _modelNumber
"hue-bridgeid: ");
oappend((char*)escapedMac.c_str());
oappend("\r\n"
"ST: urn:schemas-upnp-org:device:basic:1\r\n" // _deviceType
"USN: uuid:2f402f80-da50-11e1-9b23-");
oappend((char*)escapedMac.c_str());
oappend("::upnp:rootdevice\r\n" // _uuid::_deviceType
"\r\n");
olen = 0;
oappend(
"HTTP/1.1 200 OK\r\n"
"EXT:\r\n"
"CACHE-CONTROL: max-age=100\r\n" // SSDP_INTERVAL
"LOCATION: http://");
oappend(s);
oappend(":80/description.xml\r\n"
"SERVER: FreeRTOS/6.0.5, UPnP/1.0, IpBridge/1.17.0\r\n" // _modelName, _modelNumber
"hue-bridgeid: ");
oappend((char*)escapedMac.c_str());
oappend("\r\n"
"ST: urn:schemas-upnp-org:device:basic:1\r\n" // _deviceType
"USN: uuid:2f402f80-da50-11e1-9b23-");
oappend((char*)escapedMac.c_str());
oappend("::upnp:rootdevice\r\n" // _uuid::_deviceType
"\r\n");
alexaUDP.beginPacket(alexaUDP.remoteIP(), alexaUDP.remotePort());
#ifdef ARDUINO_ARCH_ESP32
alexaUDP.write((byte*)obuf, olen);
#else
alexaUDP.write(obuf);
#endif
alexaUDP.endPacket();
alexaUDP.beginPacket(alexaUDP.remoteIP(), alexaUDP.remotePort());
#ifdef ARDUINO_ARCH_ESP32
alexaUDP.write((byte*)obuf, olen);
#else
alexaUDP.write(obuf);
#endif
alexaUDP.endPacket();
DEBUG_PRINTLN("Response sent!");
DEBUG_PRINTLN("Response sent!");
}
void alexaInitPages() {
server.on("/description.xml", HTTP_GET, [](){
DEBUG_PRINTLN(" # Responding to description.xml ... #\n");
IPAddress localIP = WiFi.localIP();
char s[16];
sprintf(s, "%d.%d.%d.%d", localIP[0], localIP[1], localIP[2], localIP[3]);
olen = 0;
oappend("<?xml version=\"1.0\" ?>"
server.on("/description.xml", HTTP_GET, [](){
DEBUG_PRINTLN(" # Responding to description.xml ... #\n");
IPAddress localIP = WiFi.localIP();
char s[16];
sprintf(s, "%d.%d.%d.%d", localIP[0], localIP[1], localIP[2], localIP[3]);
olen = 0;
oappend("<?xml version=\"1.0\" ?>"
"<root xmlns=\"urn:schemas-upnp-org:device-1-0\">"
"<specVersion><major>1</major><minor>0</minor></specVersion>"
"<URLBase>http://");
oappend(s);
oappend(":80/</URLBase>"
oappend(s);
oappend(":80/</URLBase>"
"<device>"
"<deviceType>urn:schemas-upnp-org:device:Basic:1</deviceType>"
"<friendlyName>Philips hue (");
oappend(s);
oappend(")</friendlyName>"
"<manufacturer>Royal Philips Electronics</manufacturer>"
"<manufacturerURL>http://www.philips.com</manufacturerURL>"
"<modelDescription>Philips hue Personal Wireless Lighting</modelDescription>"
"<modelName>Philips hue bridge 2012</modelName>"
"<modelNumber>929000226503</modelNumber>"
"<modelURL>http://www.meethue.com</modelURL>"
"<serialNumber>");
oappend((char*)escapedMac.c_str());
oappend("</serialNumber>"
"<UDN>uuid:2f402f80-da50-11e1-9b23-");
oappend((char*)escapedMac.c_str());
oappend("</UDN>"
"<presentationURL>index.html</presentationURL>"
"<iconList>"
" <icon>"
" <mimetype>image/png</mimetype>"
" <height>48</height>"
" <width>48</width>"
" <depth>24</depth>"
" <url>hue_logo_0.png</url>"
" </icon>"
" <icon>"
" <mimetype>image/png</mimetype>"
" <height>120</height>"
" <width>120</width>"
" <depth>24</depth>"
" <url>hue_logo_3.png</url>"
" </icon>"
"</iconList>"
"<deviceType>urn:schemas-upnp-org:device:Basic:1</deviceType>"
"<friendlyName>Philips hue (");
oappend(s);
oappend(")</friendlyName>"
"<manufacturer>Royal Philips Electronics</manufacturer>"
"<manufacturerURL>http://www.philips.com</manufacturerURL>"
"<modelDescription>Philips hue Personal Wireless Lighting</modelDescription>"
"<modelName>Philips hue bridge 2012</modelName>"
"<modelNumber>929000226503</modelNumber>"
"<modelURL>http://www.meethue.com</modelURL>"
"<serialNumber>");
oappend((char*)escapedMac.c_str());
oappend("</serialNumber>"
"<UDN>uuid:2f402f80-da50-11e1-9b23-");
oappend((char*)escapedMac.c_str());
oappend("</UDN>"
"<presentationURL>index.html</presentationURL>"
"<iconList>"
" <icon>"
" <mimetype>image/png</mimetype>"
" <height>48</height>"
" <width>48</width>"
" <depth>24</depth>"
" <url>hue_logo_0.png</url>"
" </icon>"
" <icon>"
" <mimetype>image/png</mimetype>"
" <height>120</height>"
" <width>120</width>"
" <depth>24</depth>"
" <url>hue_logo_3.png</url>"
" </icon>"
"</iconList>"
"</device>"
"</root>");
server.send(200, "text/xml", obuf);
DEBUG_PRINTLN("Sending setup_xml");
});
server.send(200, "text/xml", obuf);
DEBUG_PRINTLN("Sending setup_xml");
});
// openHAB support
server.on("/on.html", HTTP_GET, [](){
DEBUG_PRINTLN("on req");
server.send(200, "text/plain", "turned on");
alexaOn();
});
server.on("/off.html", HTTP_GET, [](){
DEBUG_PRINTLN("off req");
server.send(200, "text/plain", "turned off");
alexaOff();
});
server.on("/status.html", HTTP_GET, [](){
DEBUG_PRINTLN("Got status request");
char statrespone[] = "0";
if (bri > 0) {
statrespone[0] = '1';
}
server.send(200, "text/plain", statrespone);
});
// openHAB support
server.on("/on.html", HTTP_GET, [](){
DEBUG_PRINTLN("on req");
server.send(200, "text/plain", "turned on");
alexaOn();
});
server.on("/off.html", HTTP_GET, [](){
DEBUG_PRINTLN("off req");
server.send(200, "text/plain", "turned off");
alexaOff();
});
server.on("/status.html", HTTP_GET, [](){
DEBUG_PRINTLN("Got status request");
char statrespone[] = "0";
if (bri > 0) {
statrespone[0] = '1';
}
server.send(200, "text/plain", statrespone);
});
}
String boolString(bool st)
@ -288,9 +282,10 @@ bool connectUDP(){
return state;
}
#else
void alexaInit(){}
void handleAlexa(){}
void alexaInitPages(){}
bool handleAlexaApiCall(String req, String body){return false;}
void alexaInit(){}
void handleAlexa(){}
void alexaInitPages(){}
bool handleAlexaApiCall(String req, String body){return false;}
#endif

120
wled00/wled13_cronixie.ino
View File

@ -145,72 +145,72 @@ void setCronixie()
void _overlayCronixie()
{
if (countdownMode) checkCountdown();
#ifndef WLED_DISABLE_CRONIXIE
byte h = hour(local);
byte h0 = h;
byte m = minute(local);
byte s = second(local);
byte d = day(local);
byte mi = month(local);
int y = year(local);
//this has to be changed in time for 22nd century
y -= 2000; if (y<0) y += 30; //makes countdown work
if (countdownMode) checkCountdown();
#ifndef WLED_DISABLE_CRONIXIE
byte h = hour(local);
byte h0 = h;
byte m = minute(local);
byte s = second(local);
byte d = day(local);
byte mi = month(local);
int y = year(local);
//this has to be changed in time for 22nd century
y -= 2000; if (y<0) y += 30; //makes countdown work
if (useAMPM && !countdownMode)
{
if (h>12) h-=12;
else if (h==0) h+=12;
}
byte _digitOut[]{10,10,10,10,10,10};
for (int i = 0; i < 6; i++)
{
if (dP[i] < 12) _digitOut[i] = dP[i];
else {
if (dP[i] < 65)
if (useAMPM && !countdownMode)
{
if (h>12) h-=12;
else if (h==0) h+=12;
}
byte _digitOut[]{10,10,10,10,10,10};
for (int i = 0; i < 6; i++)
{
if (dP[i] < 12) _digitOut[i] = dP[i];
else {
if (dP[i] < 65)
{
switch(dP[i])
{
switch(dP[i])
{
case 21: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; i++; break; //HH
case 25: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; i++; break; //MM
case 31: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; i++; break; //SS
case 21: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; i++; break; //HH
case 25: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; i++; break; //MM
case 31: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; i++; break; //SS
case 20: _digitOut[i] = h- (h/10)*10; break; //H
case 24: _digitOut[i] = m/10; break; //M
case 30: _digitOut[i] = s/10; break; //S
case 43: _digitOut[i] = weekday(local); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //D
case 44: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; i++; break; //DD
case 40: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; i++; break; //II
case 37: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //YY
case 39: _digitOut[i] = 2; _digitOut[i+1] = 0; _digitOut[i+2] = y/10; _digitOut[i+3] = y- _digitOut[i+2]*10; i+=3; break; //YYYY
case 16: _digitOut[i+2] = ((h0/3)&1)?1:0; i++; //BBB (BBBB NI)
case 15: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:0; i++; //BB
case 14: _digitOut[i] = (h0>11)?1:0; break; //B
}
} else
case 20: _digitOut[i] = h- (h/10)*10; break; //H
case 24: _digitOut[i] = m/10; break; //M
case 30: _digitOut[i] = s/10; break; //S
case 43: _digitOut[i] = weekday(local); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //D
case 44: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; i++; break; //DD
case 40: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; i++; break; //II
case 37: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //YY
case 39: _digitOut[i] = 2; _digitOut[i+1] = 0; _digitOut[i+2] = y/10; _digitOut[i+3] = y- _digitOut[i+2]*10; i+=3; break; //YYYY
case 16: _digitOut[i+2] = ((h0/3)&1)?1:0; i++; //BBB (BBBB NI)
case 15: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:0; i++; //BB
case 14: _digitOut[i] = (h0>11)?1:0; break; //B
}
} else
{
switch(dP[i])
{
switch(dP[i])
{
case 71: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //hh
case 75: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //mm
case 81: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ss
case 66: _digitOut[i+2] = ((h0/3)&1)?1:10; i++; //bbb (bbbb NI)
case 65: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:10; i++; //bb
case 64: _digitOut[i] = (h0>11)?1:10; break; //b
case 71: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //hh
case 75: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //mm
case 81: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ss
case 66: _digitOut[i+2] = ((h0/3)&1)?1:10; i++; //bbb (bbbb NI)
case 65: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:10; i++; //bb
case 64: _digitOut[i] = (h0>11)?1:10; break; //b
case 93: _digitOut[i] = weekday(local); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //d
case 94: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //dd
case 90: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ii
case 87: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //yy
case 89: _digitOut[i] = 2; _digitOut[i+1] = 0; _digitOut[i+2] = y/10; _digitOut[i+3] = y- _digitOut[i+2]*10; i+=3; break; //yyyy
}
case 93: _digitOut[i] = weekday(local); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //d
case 94: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //dd
case 90: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ii
case 87: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //yy
case 89: _digitOut[i] = 2; _digitOut[i+1] = 0; _digitOut[i+2] = y/10; _digitOut[i+3] = y- _digitOut[i+2]*10; i+=3; break; //yyyy
}
}
}
strip.setCronixieDigits(_digitOut);
//strip.trigger(); //this has a drawback, no effects slower than RefreshMs. advantage: Quick update, not dependant on effect time
#endif
}
strip.setCronixieDigits(_digitOut);
//strip.trigger(); //this has a drawback, no effects slower than RefreshMs. advantage: Quick update, not dependant on effect time
#endif
}

84
wled00/wled14_colors.ino
View File

@ -25,29 +25,21 @@ void colorHStoRGB(uint16_t hue, byte sat, byte* rgb) //hue, sat to rgb
void colorCTtoRGB(uint16_t mired, byte* rgb) //white spectrum to rgb
{
//this is only an approximation using WS2812B with gamma correction enabled
if (mired > 475)
{
if (mired > 475) {
rgb[0]=255;rgb[1]=199;rgb[2]=92;//500
} else if (mired > 425)
{
} else if (mired > 425) {
rgb[0]=255;rgb[1]=213;rgb[2]=118;//450
} else if (mired > 375)
{
} else if (mired > 375) {
rgb[0]=255;rgb[1]=216;rgb[2]=118;//400
} else if (mired > 325)
{
} else if (mired > 325) {
rgb[0]=255;rgb[1]=234;rgb[2]=140;//350
} else if (mired > 275)
{
} else if (mired > 275) {
rgb[0]=255;rgb[1]=243;rgb[2]=160;//300
} else if (mired > 225)
{
} else if (mired > 225) {
rgb[0]=250;rgb[1]=255;rgb[2]=188;//250
} else if (mired > 175)
{
} else if (mired > 175) {
rgb[0]=247;rgb[1]=255;rgb[2]=215;//200
} else
{
} else {
rgb[0]=237;rgb[1]=255;rgb[2]=239;//150
}
}
@ -61,20 +53,20 @@ void colorXYtoRGB(float x, float y, byte* rgb) //coordinates to rgb (https://www
float g = (int)255*(-X * 0.707196f + 1.655397f + Z * 0.036152f);
float b = (int)255*(X * 0.051713f - 0.121364f + Z * 1.011530f);
if (r > b && r > g && r > 1.0f) {
// red is too big
g = g / r;
b = b / r;
r = 1.0f;
// red is too big
g = g / r;
b = b / r;
r = 1.0f;
} else if (g > b && g > r && g > 1.0f) {
// green is too big
r = r / g;
b = b / g;
g = 1.0f;
// green is too big
r = r / g;
b = b / g;
g = 1.0f;
} else if (b > r && b > g && b > 1.0f) {
// blue is too big
r = r / b;
g = g / b;
b = 1.0f;
// blue is too big
r = r / b;
g = g / b;
b = 1.0f;
}
// Apply gamma correction
r = r <= 0.0031308f ? 12.92f * r : (1.0f + 0.055f) * pow(r, (1.0f / 2.4f)) - 0.055f;
@ -82,26 +74,26 @@ void colorXYtoRGB(float x, float y, byte* rgb) //coordinates to rgb (https://www
b = b <= 0.0031308f ? 12.92f * b : (1.0f + 0.055f) * pow(b, (1.0f / 2.4f)) - 0.055f;
if (r > b && r > g) {
// red is biggest
if (r > 1.0f) {
g = g / r;
b = b / r;
r = 1.0f;
}
// red is biggest
if (r > 1.0f) {
g = g / r;
b = b / r;
r = 1.0f;
}
} else if (g > b && g > r) {
// green is biggest
if (g > 1.0f) {
r = r / g;
b = b / g;
g = 1.0f;
}
// green is biggest
if (g > 1.0f) {
r = r / g;
b = b / g;
g = 1.0f;
}
} else if (b > r && b > g) {
// blue is biggest
if (b > 1.0f) {
r = r / b;
g = g / b;
b = 1.0f;
}
// blue is biggest
if (b > 1.0f) {
r = r / b;
g = g / b;
b = 1.0f;
}
}
rgb[0] = 255.0*r;
rgb[1] = 255.0*g;

34
wled00/wled16_blynk.ino
View File

@ -40,22 +40,22 @@ void updateBlynk()
#ifndef WLED_DISABLE_BLYNK
BLYNK_WRITE(V0)
{
bri = param.asInt();//bri
colorUpdated(9);
bri = param.asInt();//bri
colorUpdated(9);
}
BLYNK_WRITE(V1)
{
blHue = param.asInt();//hue
colorHStoRGB(blHue*10,blSat,(false)? colSec:col);
colorUpdated(9);
blHue = param.asInt();//hue
colorHStoRGB(blHue*10,blSat,(false)? colSec:col);
colorUpdated(9);
}
BLYNK_WRITE(V2)
{
blSat = param.asInt();//sat
colorHStoRGB(blHue*10,blSat,(false)? colSec:col);
colorUpdated(9);
blSat = param.asInt();//sat
colorHStoRGB(blHue*10,blSat,(false)? colSec:col);
colorUpdated(9);
}
BLYNK_WRITE(V3)
@ -65,23 +65,23 @@ BLYNK_WRITE(V3)
BLYNK_WRITE(V4)
{
effectCurrent = param.asInt()-1;//fx
strip.setMode(effectCurrent);
colorUpdated(6);
effectCurrent = param.asInt()-1;//fx
strip.setMode(effectCurrent);
colorUpdated(6);
}
BLYNK_WRITE(V5)
{
effectSpeed = param.asInt();//sx
strip.setSpeed(effectSpeed);
colorUpdated(6);
effectSpeed = param.asInt();//sx
strip.setSpeed(effectSpeed);
colorUpdated(6);
}
BLYNK_WRITE(V6)
{
effectIntensity = param.asInt();//ix
strip.setIntensity(effectIntensity);
colorUpdated(6);
effectIntensity = param.asInt();//ix
strip.setIntensity(effectIntensity);
colorUpdated(6);
}
BLYNK_WRITE(V7)

5
wled00/wled17_mqtt.ino
View File

@ -14,6 +14,7 @@ void parseMQTTBriPayload(char* payload)
}
}
void callbackMQTT(char* topic, byte* payload, unsigned int length) {
DEBUG_PRINT("MQTT callb rec: ");
@ -37,6 +38,7 @@ void callbackMQTT(char* topic, byte* payload, unsigned int length) {
}
}
void publishMQTT()
{
if (mqtt == NULL) return;
@ -64,6 +66,7 @@ void publishMQTT()
mqtt->publish(subuf, obuf);*/
}
bool reconnectMQTT()
{
if (mqtt->connect(escapedMac.c_str()))
@ -99,6 +102,7 @@ bool reconnectMQTT()
return mqtt->connected();
}
bool initMQTT()
{
if (WiFi.status() != WL_CONNECTED) return false;
@ -116,6 +120,7 @@ bool initMQTT()
return true;
}
void handleMQTT()
{
if (WiFi.status() != WL_CONNECTED || !mqttInit) return;

143
wled00/wled18_server.ino
View File

@ -259,25 +259,26 @@ void serveIndex()
if (uiConfiguration == 0) serveMobile = checkClientIsMobile(server.header("User-Agent"));
else if (uiConfiguration == 2) serveMobile = true;
if (!realtimeActive || enableRealtimeUI) //do not serve while receiving realtime
if (realtimeActive && !enableRealtimeUI) //do not serve while receiving realtime
{
if (serveMobile)
{
server.setContentLength(strlen_P(PAGE_indexM));
server.send(200, "text/html", "");
server.sendContent_P(PAGE_indexM);
} else
{
server.setContentLength(strlen_P(PAGE_index0) + cssColorString.length() + strlen_P(PAGE_index1) + strlen_P(PAGE_index2) + strlen_P(PAGE_index3));
server.send(200, "text/html", "");
server.sendContent_P(PAGE_index0);
server.sendContent(cssColorString);
server.sendContent_P(PAGE_index1);
server.sendContent_P(PAGE_index2);
server.sendContent_P(PAGE_index3);
}
} else {
serveRealtimeError(false);
return;
}
if (serveMobile)
{
server.setContentLength(strlen_P(PAGE_indexM));
server.send(200, "text/html", "");
server.sendContent_P(PAGE_indexM);
} else
{
server.setContentLength(strlen_P(PAGE_index0) + cssColorString.length() + strlen_P(PAGE_index1) + strlen_P(PAGE_index2) + strlen_P(PAGE_index3));
server.send(200, "text/html", "");
server.sendContent_P(PAGE_index0);
server.sendContent(cssColorString);
server.sendContent_P(PAGE_index1);
server.sendContent_P(PAGE_index2);
server.sendContent_P(PAGE_index3);
}
}
@ -314,58 +315,58 @@ void serveMessage(int code, String headl, String subl="", int optionType)
void serveSettings(byte subPage)
{
//0: menu 1: wifi 2: leds 3: ui 4: sync 5: time 6: sec 255: welcomepage
if (!realtimeActive || enableRealtimeUI) //do not serve while receiving realtime
{
#ifdef WLED_DISABLE_MOBILE_UI //disable welcome page if not enough storage
if (subPage == 255) {serveIndex(); return;}
#endif
int pl0, pl1;
switch (subPage)
{
case 1: pl0 = strlen_P(PAGE_settings_wifi0); pl1 = strlen_P(PAGE_settings_wifi1); break;
case 2: pl0 = strlen_P(PAGE_settings_leds0); pl1 = strlen_P(PAGE_settings_leds1); break;
case 3: pl0 = strlen_P(PAGE_settings_ui0); pl1 = strlen_P(PAGE_settings_ui1); break;
case 4: pl0 = strlen_P(PAGE_settings_sync0); pl1 = strlen_P(PAGE_settings_sync1); break;
case 5: pl0 = strlen_P(PAGE_settings_time0); pl1 = strlen_P(PAGE_settings_time1); break;
case 6: pl0 = strlen_P(PAGE_settings_sec0); pl1 = strlen_P(PAGE_settings_sec1); break;
case 255: pl0 = strlen_P(PAGE_welcome0); pl1 = strlen_P(PAGE_welcome1); break;
default: pl0 = strlen_P(PAGE_settings0); pl1 = strlen_P(PAGE_settings1);
}
getSettingsJS(subPage);
int sCssLength = (subPage >0 && subPage <7)?strlen_P(PAGE_settingsCss):0;
server.setContentLength(pl0 + cssColorString.length() + olen + sCssLength + pl1);
server.send(200, "text/html", "");
switch (subPage)
{
case 1: server.sendContent_P(PAGE_settings_wifi0); break;
case 2: server.sendContent_P(PAGE_settings_leds0); break;
case 3: server.sendContent_P(PAGE_settings_ui0); break;
case 4: server.sendContent_P(PAGE_settings_sync0); break;
case 5: server.sendContent_P(PAGE_settings_time0); break;
case 6: server.sendContent_P(PAGE_settings_sec0); break;
case 255: server.sendContent_P(PAGE_welcome0); break;
default: server.sendContent_P(PAGE_settings0);
}
server.sendContent(obuf);
server.sendContent(cssColorString);
if (subPage >0 && subPage <7) server.sendContent_P(PAGE_settingsCss);
switch (subPage)
{
case 1: server.sendContent_P(PAGE_settings_wifi1); break;
case 2: server.sendContent_P(PAGE_settings_leds1); break;
case 3: server.sendContent_P(PAGE_settings_ui1); break;
case 4: server.sendContent_P(PAGE_settings_sync1); break;
case 5: server.sendContent_P(PAGE_settings_time1); break;
case 6: server.sendContent_P(PAGE_settings_sec1); break;
case 255: server.sendContent_P(PAGE_welcome1); break;
default: server.sendContent_P(PAGE_settings1);
}
} else {
serveRealtimeError(true);
}
if (realtimeActive && !enableRealtimeUI) //do not serve while receiving realtime
{
serveRealtimeError(true);
return;
}
#ifdef WLED_DISABLE_MOBILE_UI //disable welcome page if not enough storage
if (subPage == 255) {serveIndex(); return;}
#endif
int pl0, pl1;
switch (subPage) //0: menu 1: wifi 2: leds 3: ui 4: sync 5: time 6: sec 255: welcomepage
{
case 1: pl0 = strlen_P(PAGE_settings_wifi0); pl1 = strlen_P(PAGE_settings_wifi1); break;
case 2: pl0 = strlen_P(PAGE_settings_leds0); pl1 = strlen_P(PAGE_settings_leds1); break;
case 3: pl0 = strlen_P(PAGE_settings_ui0); pl1 = strlen_P(PAGE_settings_ui1); break;
case 4: pl0 = strlen_P(PAGE_settings_sync0); pl1 = strlen_P(PAGE_settings_sync1); break;
case 5: pl0 = strlen_P(PAGE_settings_time0); pl1 = strlen_P(PAGE_settings_time1); break;
case 6: pl0 = strlen_P(PAGE_settings_sec0); pl1 = strlen_P(PAGE_settings_sec1); break;
case 255: pl0 = strlen_P(PAGE_welcome0); pl1 = strlen_P(PAGE_welcome1); break;
default: pl0 = strlen_P(PAGE_settings0); pl1 = strlen_P(PAGE_settings1);
}
getSettingsJS(subPage);
int sCssLength = (subPage >0 && subPage <7)?strlen_P(PAGE_settingsCss):0;
server.setContentLength(pl0 + cssColorString.length() + olen + sCssLength + pl1);
server.send(200, "text/html", "");
switch (subPage)
{
case 1: server.sendContent_P(PAGE_settings_wifi0); break;
case 2: server.sendContent_P(PAGE_settings_leds0); break;
case 3: server.sendContent_P(PAGE_settings_ui0); break;
case 4: server.sendContent_P(PAGE_settings_sync0); break;
case 5: server.sendContent_P(PAGE_settings_time0); break;
case 6: server.sendContent_P(PAGE_settings_sec0); break;
case 255: server.sendContent_P(PAGE_welcome0); break;
default: server.sendContent_P(PAGE_settings0);
}
server.sendContent(obuf);
server.sendContent(cssColorString);
if (subPage >0 && subPage <7) server.sendContent_P(PAGE_settingsCss);
switch (subPage)
{
case 1: server.sendContent_P(PAGE_settings_wifi1); break;
case 2: server.sendContent_P(PAGE_settings_leds1); break;
case 3: server.sendContent_P(PAGE_settings_ui1); break;
case 4: server.sendContent_P(PAGE_settings_sync1); break;
case 5: server.sendContent_P(PAGE_settings_time1); break;
case 6: server.sendContent_P(PAGE_settings_sec1); break;
case 255: server.sendContent_P(PAGE_welcome1); break;
default: server.sendContent_P(PAGE_settings1);
}
}