kopia lustrzana https://github.com/Aircoookie/WLED
433 wiersze
16 KiB
C++
433 wiersze
16 KiB
C++
#ifndef WLED_FCN_DECLARE_H
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#define WLED_FCN_DECLARE_H
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/*
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* All globally accessible functions are declared here
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*/
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//alexa.cpp
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#ifndef WLED_DISABLE_ALEXA
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void onAlexaChange(EspalexaDevice* dev);
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void alexaInit();
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void handleAlexa();
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void onAlexaChange(EspalexaDevice* dev);
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#endif
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//button.cpp
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void shortPressAction(uint8_t b=0);
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void longPressAction(uint8_t b=0);
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void doublePressAction(uint8_t b=0);
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bool isButtonPressed(uint8_t b=0);
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void handleButton();
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void handleIO();
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//cfg.cpp
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bool deserializeConfig(JsonObject doc, bool fromFS = false);
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void deserializeConfigFromFS();
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bool deserializeConfigSec();
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void serializeConfig();
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void serializeConfigSec();
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template<typename DestType>
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bool getJsonValue(const JsonVariant& element, DestType& destination) {
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if (element.isNull()) {
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return false;
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}
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destination = element.as<DestType>();
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return true;
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}
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template<typename DestType, typename DefaultType>
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bool getJsonValue(const JsonVariant& element, DestType& destination, const DefaultType defaultValue) {
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if(!getJsonValue(element, destination)) {
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destination = defaultValue;
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return false;
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}
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return true;
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}
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//colors.cpp
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// similar to NeoPixelBus NeoGammaTableMethod but allows dynamic changes (superseded by NPB::NeoGammaDynamicTableMethod)
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class NeoGammaWLEDMethod {
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public:
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static uint8_t Correct(uint8_t value); // apply Gamma to single channel
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static uint32_t Correct32(uint32_t color); // apply Gamma to RGBW32 color (WLED specific, not used by NPB)
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static void calcGammaTable(float gamma); // re-calculates & fills gamma table
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static inline uint8_t rawGamma8(uint8_t val) { return gammaT[val]; } // get value from Gamma table (WLED specific, not used by NPB)
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private:
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static uint8_t gammaT[];
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};
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#define gamma32(c) NeoGammaWLEDMethod::Correct32(c)
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#define gamma8(c) NeoGammaWLEDMethod::rawGamma8(c)
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uint32_t color_blend(uint32_t,uint32_t,uint16_t,bool b16=false);
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uint32_t color_add(uint32_t,uint32_t, bool fast=false);
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uint32_t color_fade(uint32_t c1, uint8_t amount, bool video=false);
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inline uint32_t colorFromRgbw(byte* rgbw) { return uint32_t((byte(rgbw[3]) << 24) | (byte(rgbw[0]) << 16) | (byte(rgbw[1]) << 8) | (byte(rgbw[2]))); }
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void colorHStoRGB(uint16_t hue, byte sat, byte* rgb); //hue, sat to rgb
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void colorKtoRGB(uint16_t kelvin, byte* rgb);
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void colorCTtoRGB(uint16_t mired, byte* rgb); //white spectrum to rgb
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void colorXYtoRGB(float x, float y, byte* rgb); // only defined if huesync disabled TODO
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void colorRGBtoXY(byte* rgb, float* xy); // only defined if huesync disabled TODO
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void colorFromDecOrHexString(byte* rgb, char* in);
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bool colorFromHexString(byte* rgb, const char* in);
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uint32_t colorBalanceFromKelvin(uint16_t kelvin, uint32_t rgb);
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uint16_t approximateKelvinFromRGB(uint32_t rgb);
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void setRandomColor(byte* rgb);
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//dmx.cpp
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void initDMX();
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void handleDMX();
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//e131.cpp
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void handleE131Packet(e131_packet_t* p, IPAddress clientIP, byte protocol);
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void handleArtnetPollReply(IPAddress ipAddress);
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void prepareArtnetPollReply(ArtPollReply* reply);
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void sendArtnetPollReply(ArtPollReply* reply, IPAddress ipAddress, uint16_t portAddress);
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//file.cpp
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bool handleFileRead(AsyncWebServerRequest*, String path);
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bool writeObjectToFileUsingId(const char* file, uint16_t id, JsonDocument* content);
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bool writeObjectToFile(const char* file, const char* key, JsonDocument* content);
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bool readObjectFromFileUsingId(const char* file, uint16_t id, JsonDocument* dest);
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bool readObjectFromFile(const char* file, const char* key, JsonDocument* dest);
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void updateFSInfo();
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void closeFile();
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//hue.cpp
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void handleHue();
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void reconnectHue();
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void onHueError(void* arg, AsyncClient* client, int8_t error);
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void onHueConnect(void* arg, AsyncClient* client);
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void sendHuePoll();
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void onHueData(void* arg, AsyncClient* client, void *data, size_t len);
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//improv.cpp
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enum ImprovRPCType {
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Command_Wifi = 0x01,
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Request_State = 0x02,
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Request_Info = 0x03,
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Request_Scan = 0x04
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};
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void handleImprovPacket();
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void sendImprovRPCResult(ImprovRPCType type, uint8_t n_strings = 0, const char **strings = nullptr);
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void sendImprovStateResponse(uint8_t state, bool error = false);
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void sendImprovInfoResponse();
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void startImprovWifiScan();
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void handleImprovWifiScan();
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void sendImprovIPRPCResult(ImprovRPCType type);
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//ir.cpp
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void applyRepeatActions();
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byte relativeChange(byte property, int8_t amount, byte lowerBoundary = 0, byte higherBoundary = 0xFF);
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void decodeIR(uint32_t code);
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void decodeIR24(uint32_t code);
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void decodeIR24OLD(uint32_t code);
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void decodeIR24CT(uint32_t code);
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void decodeIR40(uint32_t code);
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void decodeIR44(uint32_t code);
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void decodeIR21(uint32_t code);
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void decodeIR6(uint32_t code);
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void decodeIR9(uint32_t code);
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void decodeIRJson(uint32_t code);
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void initIR();
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void handleIR();
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//json.cpp
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#include "ESPAsyncWebServer.h"
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#include "src/dependencies/json/ArduinoJson-v6.h"
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#include "src/dependencies/json/AsyncJson-v6.h"
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#include "FX.h"
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bool deserializeSegment(JsonObject elem, byte it, byte presetId = 0);
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bool deserializeState(JsonObject root, byte callMode = CALL_MODE_DIRECT_CHANGE, byte presetId = 0);
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void serializeSegment(JsonObject& root, Segment& seg, byte id, bool forPreset = false, bool segmentBounds = true);
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void serializeState(JsonObject root, bool forPreset = false, bool includeBri = true, bool segmentBounds = true, bool selectedSegmentsOnly = false);
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void serializeInfo(JsonObject root);
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void serializeModeNames(JsonArray root);
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void serializeModeData(JsonArray root);
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void serveJson(AsyncWebServerRequest* request);
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#ifdef WLED_ENABLE_JSONLIVE
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bool serveLiveLeds(AsyncWebServerRequest* request, uint32_t wsClient = 0);
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#endif
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//led.cpp
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void setValuesFromSegment(uint8_t s);
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void setValuesFromMainSeg();
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void setValuesFromFirstSelectedSeg();
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void resetTimebase();
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void toggleOnOff();
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void applyBri();
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void applyFinalBri();
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void applyValuesToSelectedSegs();
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void colorUpdated(byte callMode);
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void stateUpdated(byte callMode);
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void updateInterfaces(uint8_t callMode);
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void handleTransitions();
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void handleNightlight();
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byte scaledBri(byte in);
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#ifdef WLED_ENABLE_LOXONE
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//lx_parser.cpp
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bool parseLx(int lxValue, byte* rgbw);
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void parseLxJson(int lxValue, byte segId, bool secondary);
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#endif
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//mqtt.cpp
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bool initMqtt();
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void publishMqtt();
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//ntp.cpp
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void handleTime();
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void handleNetworkTime();
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void sendNTPPacket();
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bool checkNTPResponse();
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void updateLocalTime();
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void getTimeString(char* out);
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bool checkCountdown();
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void setCountdown();
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byte weekdayMondayFirst();
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void checkTimers();
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void calculateSunriseAndSunset();
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void setTimeFromAPI(uint32_t timein);
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//overlay.cpp
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void handleOverlayDraw();
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void _overlayAnalogCountdown();
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void _overlayAnalogClock();
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//playlist.cpp
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void shufflePlaylist();
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void unloadPlaylist();
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int16_t loadPlaylist(JsonObject playlistObject, byte presetId = 0);
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void handlePlaylist();
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void serializePlaylist(JsonObject obj);
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//presets.cpp
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void initPresetsFile();
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void handlePresets();
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bool applyPreset(byte index, byte callMode = CALL_MODE_DIRECT_CHANGE);
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void applyPresetWithFallback(uint8_t presetID, uint8_t callMode, uint8_t effectID = 0, uint8_t paletteID = 0);
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inline bool applyTemporaryPreset() {return applyPreset(255);};
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void savePreset(byte index, const char* pname = nullptr, JsonObject saveobj = JsonObject());
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inline void saveTemporaryPreset() {savePreset(255);};
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void deletePreset(byte index);
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bool getPresetName(byte index, String& name);
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//remote.cpp
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void handleRemote();
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//set.cpp
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bool isAsterisksOnly(const char* str, byte maxLen);
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void handleSettingsSet(AsyncWebServerRequest *request, byte subPage);
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bool handleSet(AsyncWebServerRequest *request, const String& req, bool apply=true);
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//udp.cpp
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void notify(byte callMode, bool followUp=false);
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uint8_t realtimeBroadcast(uint8_t type, IPAddress client, uint16_t length, uint8_t *buffer, uint8_t bri=255, bool isRGBW=false);
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void realtimeLock(uint32_t timeoutMs, byte md = REALTIME_MODE_GENERIC);
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void exitRealtime();
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void handleNotifications();
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void setRealtimePixel(uint16_t i, byte r, byte g, byte b, byte w);
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void refreshNodeList();
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void sendSysInfoUDP();
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//network.cpp
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int getSignalQuality(int rssi);
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void WiFiEvent(WiFiEvent_t event);
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//um_manager.cpp
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typedef enum UM_Data_Types {
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UMT_BYTE = 0,
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UMT_UINT16,
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UMT_INT16,
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UMT_UINT32,
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UMT_INT32,
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UMT_FLOAT,
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UMT_DOUBLE,
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UMT_BYTE_ARR,
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UMT_UINT16_ARR,
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UMT_INT16_ARR,
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UMT_UINT32_ARR,
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UMT_INT32_ARR,
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UMT_FLOAT_ARR,
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UMT_DOUBLE_ARR
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} um_types_t;
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typedef struct UM_Exchange_Data {
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// should just use: size_t arr_size, void **arr_ptr, byte *ptr_type
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size_t u_size; // size of u_data array
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um_types_t *u_type; // array of data types
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void **u_data; // array of pointers to data
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UM_Exchange_Data() {
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u_size = 0;
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u_type = nullptr;
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u_data = nullptr;
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}
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~UM_Exchange_Data() {
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if (u_type) delete[] u_type;
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if (u_data) delete[] u_data;
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}
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} um_data_t;
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const unsigned int um_data_size = sizeof(um_data_t); // 12 bytes
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class Usermod {
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protected:
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um_data_t *um_data; // um_data should be allocated using new in (derived) Usermod's setup() or constructor
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public:
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Usermod() { um_data = nullptr; }
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virtual ~Usermod() { if (um_data) delete um_data; }
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virtual void setup() = 0; // pure virtual, has to be overriden
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virtual void loop() = 0; // pure virtual, has to be overriden
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virtual void handleOverlayDraw() {} // called after all effects have been processed, just before strip.show()
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virtual bool handleButton(uint8_t b) { return false; } // button overrides are possible here
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virtual bool getUMData(um_data_t **data) { if (data) *data = nullptr; return false; }; // usermod data exchange [see examples for audio effects]
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virtual void connected() {} // called when WiFi is (re)connected
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virtual void appendConfigData() {} // helper function called from usermod settings page to add metadata for entry fields
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virtual void addToJsonState(JsonObject& obj) {} // add JSON objects for WLED state
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virtual void addToJsonInfo(JsonObject& obj) {} // add JSON objects for UI Info page
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virtual void readFromJsonState(JsonObject& obj) {} // process JSON messages received from web server
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virtual void addToConfig(JsonObject& obj) {} // add JSON entries that go to cfg.json
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virtual bool readFromConfig(JsonObject& obj) { return true; } // Note as of 2021-06 readFromConfig() now needs to return a bool, see usermod_v2_example.h
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virtual void onMqttConnect(bool sessionPresent) {} // fired when MQTT connection is established (so usermod can subscribe)
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virtual bool onMqttMessage(char* topic, char* payload) { return false; } // fired upon MQTT message received (wled topic)
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virtual void onUpdateBegin(bool) {} // fired prior to and after unsuccessful firmware update
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virtual void onStateChange(uint8_t mode) {} // fired upon WLED state change
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virtual uint16_t getId() {return USERMOD_ID_UNSPECIFIED;}
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};
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class UsermodManager {
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private:
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Usermod* ums[WLED_MAX_USERMODS];
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byte numMods = 0;
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public:
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void loop();
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void handleOverlayDraw();
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bool handleButton(uint8_t b);
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bool getUMData(um_data_t **um_data, uint8_t mod_id = USERMOD_ID_RESERVED); // USERMOD_ID_RESERVED will poll all usermods
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void setup();
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void connected();
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void appendConfigData();
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void addToJsonState(JsonObject& obj);
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void addToJsonInfo(JsonObject& obj);
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void readFromJsonState(JsonObject& obj);
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void addToConfig(JsonObject& obj);
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bool readFromConfig(JsonObject& obj);
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void onMqttConnect(bool sessionPresent);
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bool onMqttMessage(char* topic, char* payload);
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void onUpdateBegin(bool);
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void onStateChange(uint8_t);
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bool add(Usermod* um);
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Usermod* lookup(uint16_t mod_id);
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byte getModCount() {return numMods;};
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};
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//usermods_list.cpp
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void registerUsermods();
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//usermod.cpp
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void userSetup();
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void userConnected();
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void userLoop();
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//util.cpp
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int getNumVal(const String* req, uint16_t pos);
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void parseNumber(const char* str, byte* val, byte minv=0, byte maxv=255);
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bool getVal(JsonVariant elem, byte* val, byte minv=0, byte maxv=255);
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bool updateVal(const char* req, const char* key, byte* val, byte minv=0, byte maxv=255);
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bool oappend(const char* txt); // append new c string to temp buffer efficiently
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bool oappendi(int i); // append new number to temp buffer efficiently
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void sappend(char stype, const char* key, int val);
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void sappends(char stype, const char* key, char* val);
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void prepareHostname(char* hostname);
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bool isAsterisksOnly(const char* str, byte maxLen);
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bool requestJSONBufferLock(uint8_t module=255);
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void releaseJSONBufferLock();
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uint8_t extractModeName(uint8_t mode, const char *src, char *dest, uint8_t maxLen);
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uint8_t extractModeSlider(uint8_t mode, uint8_t slider, char *dest, uint8_t maxLen, uint8_t *var = nullptr);
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int16_t extractModeDefaults(uint8_t mode, const char *segVar);
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void checkSettingsPIN(const char *pin);
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uint16_t crc16(const unsigned char* data_p, size_t length);
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um_data_t* simulateSound(uint8_t simulationId);
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void enumerateLedmaps();
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uint8_t get_random_wheel_index(uint8_t pos);
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// RAII guard class for the JSON Buffer lock
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// Modeled after std::lock_guard
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class JSONBufferGuard {
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bool holding_lock;
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public:
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inline JSONBufferGuard(uint8_t module=255) : holding_lock(requestJSONBufferLock(module)) {};
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inline ~JSONBufferGuard() { if (holding_lock) releaseJSONBufferLock(); };
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inline JSONBufferGuard(const JSONBufferGuard&) = delete; // Noncopyable
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inline JSONBufferGuard& operator=(const JSONBufferGuard&) = delete;
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inline JSONBufferGuard(JSONBufferGuard&& r) : holding_lock(r.holding_lock) { r.holding_lock = false; }; // but movable
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inline JSONBufferGuard& operator=(JSONBufferGuard&& r) { holding_lock |= r.holding_lock; r.holding_lock = false; return *this; };
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inline bool owns_lock() const { return holding_lock; }
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explicit inline operator bool() const { return owns_lock(); };
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inline void release() { if (holding_lock) releaseJSONBufferLock(); holding_lock = false; }
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};
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#ifdef WLED_ADD_EEPROM_SUPPORT
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//wled_eeprom.cpp
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void applyMacro(byte index);
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void deEEP();
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void deEEPSettings();
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void clearEEPROM();
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#endif
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//wled_math.cpp
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#ifndef WLED_USE_REAL_MATH
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template <typename T> T atan_t(T x);
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float cos_t(float phi);
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float sin_t(float x);
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float tan_t(float x);
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float acos_t(float x);
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float asin_t(float x);
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float floor_t(float x);
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float fmod_t(float num, float denom);
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#else
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#include <math.h>
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#define sin_t sin
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#define cos_t cos
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#define tan_t tan
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#define asin_t asin
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#define acos_t acos
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#define atan_t atan
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#define fmod_t fmod
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#define floor_t floor
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#endif
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//wled_serial.cpp
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void handleSerial();
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void updateBaudRate(uint32_t rate);
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//wled_server.cpp
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bool isIp(String str);
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void createEditHandler(bool enable);
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bool captivePortal(AsyncWebServerRequest *request);
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void initServer();
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void serveIndexOrWelcome(AsyncWebServerRequest *request);
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void serveIndex(AsyncWebServerRequest* request);
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String msgProcessor(const String& var);
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void serveMessage(AsyncWebServerRequest* request, uint16_t code, const String& headl, const String& subl="", byte optionT=255);
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String dmxProcessor(const String& var);
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void serveSettings(AsyncWebServerRequest* request, bool post = false);
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void serveSettingsJS(AsyncWebServerRequest* request);
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//ws.cpp
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void handleWs();
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void wsEvent(AsyncWebSocket * server, AsyncWebSocketClient * client, AwsEventType type, void * arg, uint8_t *data, size_t len);
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void sendDataWs(AsyncWebSocketClient * client = nullptr);
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//xml.cpp
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void XML_response(AsyncWebServerRequest *request, char* dest = nullptr);
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void URL_response(AsyncWebServerRequest *request);
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void getSettingsJS(byte subPage, char* dest);
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#endif
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