diff --git a/Arduino/McLighting/McLighting.ino b/Arduino/McLighting/McLighting.ino index 12473cd..c257359 100644 --- a/Arduino/McLighting/McLighting.ino +++ b/Arduino/McLighting/McLighting.ino @@ -604,6 +604,7 @@ void loop() { WiFi.disconnect(); WiFi.setSleepMode(WIFI_NONE_SLEEP); WiFi.mode(WIFI_STA); + WiFi.hostname(HOSTNAME); WiFi.begin(); } else { if ((strlen(mqtt_host) != 0) && (mqtt_port != 0) && (mqtt_reconnect_retries < MQTT_MAX_RECONNECT_TRIES)) { @@ -658,7 +659,7 @@ void loop() { snprintf(mqtt_buf, sizeof(mqtt_buf), "OK =off", ""); #endif #if defined(POWER_SUPPLY) - digitalWrite(POWER_SUPPLY, LOW); // power off -> external power supply + digitalWrite(POWER_SUPPLY, !POWER_ON); // power off -> external power supply #endif if (Config.transEffect) { brightness_trans = 0; @@ -667,7 +668,7 @@ void loop() { } #if defined(POWER_SUPPLY) if (State.mode != OFF) { - if (prevmode != State.mode) {digitalWrite(POWER_SUPPLY, HIGH); } // power on -> external power supply + if (prevmode != State.mode) {digitalWrite(POWER_SUPPLY, POWER_ON); } // power on -> external power supply } #endif diff --git a/Arduino/McLighting/definitions.h b/Arduino/McLighting/definitions.h index 07b8bc8..435f685 100644 --- a/Arduino/McLighting/definitions.h +++ b/Arduino/McLighting/definitions.h @@ -21,10 +21,13 @@ char HOSTNAME[65] = "McLightingRGBW"; // Friedly hostname is configurable just #define ENABLE_HOMEASSISTANT // If defined, enable Homeassistant integration, ENABLE_MQTT must be active #define MQTT_HOME_ASSISTANT_SUPPORT // If defined, use AMQTT and select Tools -> IwIP Variant -> Higher Bandwidth -#define ENABLE_BUTTON 14 // If defined, enable button handling code, see: https://github.com/toblum/McLighting/wiki/Button-control, the value defines the input pin (14 / D5) for switching the LED strip on / off, connect this PIN to ground to trigger button. +//#define ENABLE_BUTTON 14 // If defined, enable button handling code, see: https://github.com/toblum/McLighting/wiki/Button-control, the value defines the input pin (14 / D5) for switching the LED strip on / off, connect this PIN to ground to trigger button. //#define ENABLE_BUTTON_GY33 12 // If defined, enable button handling code for GY-33 color sensor to scan color. The value defines the input pin (12 / D6) for read color data with RGB sensor, connect this PIN to ground to trigger button. //#define POWER_SUPPLY 12 // PIN (12 / D6) If defined, enable output to control external power supply -//#define ENABLE_REMOTE 13 // If defined, enable Remote Control via TSOP31238. The value defines the input pin (13 / D7) for TSOP31238 Out +#if defined(POWER_SUPPLY) + #define POWER_ON HIGH // Define the output state to turn on the power supply, either HIGH or LOW. Opposite will be uses for power off. +#endif +#define ENABLE_REMOTE 13 // If defined, enable Remote Control via TSOP31238. The value defines the input pin (13 / D7) for TSOP31238 Out #if defined(ENABLE_BUTTON_GY33) #define GAMMA 2.5 // Gamma correction for GY-33 sensor @@ -57,7 +60,7 @@ uint8_t prevsegment = 0; #if defined(ENABLE_REMOTE) uint8_t selected_color = 1; uint64_t last_remote_cmd; - enum RMT_BTN {ON_OFF, MODE_UP, MODE_DOWN, RED_UP, RED_DOWN, GREEN_UP, GREEN_DOWN, BLUE_UP, BLUE_DOWN, WHITE_UP, WHITE_DOWN, BRIGHTNESS_UP, BRIGHTNESS_DOWN, SPEED_UP, SPEED_DOWN, COL_M, COL_B, COL_X, AUTOMODE, CUST_1, CUST_2, CUST_3, CUST_4, CUST_5, REPEATCMD, BTN_CNT}; + enum RMT_BTN {ON_OFF, MODE_UP, MODE_DOWN, RED_UP, RED_DOWN, GREEN_UP, GREEN_DOWN, BLUE_UP, BLUE_DOWN, WHITE_UP, WHITE_DOWN, BRIGHTNESS_UP, BRIGHTNESS_DOWN, SPEED_UP, SPEED_DOWN, COL_M, COL_B, COL_X, AUTOMODE, CUST_1, CUST_2, CUST_3, SEG_UP, SEG_DOWN, REPEATCMD, BTN_CNT}; // Change your IR Commands here. You can see them in console, after you pressed a button on the remote uint64_t rmt_commands[BTN_CNT] = {0xF7C03F, 0xF7708F, 0xF7F00F, 0xF720DF, 0xF710EF, 0xF7A05F, 0xF7906F, 0xF7609F, 0xF750AF, 0xF7E01F, 0xF7D02F, 0xF730CF, 0xF7B04F, 0xF748B7, 0xF7C837, 0xF700FF, 0xF7807F, 0xF740BF, 0xF708F7, 0xF78877, 0xF728D7, 0xF7A857, 0xF76897, 0xF7E817, 0xFFFFFFFFFFFFFFFF}; #endif @@ -207,13 +210,16 @@ bool updateConfig = false; // For WiFiManger custom config and config // Button handling -#if defined(ENABLE_BUTTON) -//#define BTN_MODE_SHORT "STA|mo|fxm| b| s| r1| g1| b1| w1| r2| g2| b2| w2| r3| g3| b3| w3" // Example - #define BTN_MODE_SHORT "STA| 5| 0|255|196| 0| 0| 0|255| 0| 0| 0| 0| 0| 0| 0| 0" // Static white - #define BTN_MODE_MEDIUM "STA| 5| 48|200|196|255|102| 0| 0| 0| 0| 0| 0| 0| 0| 0| 0" // Fire flicker - #define BTN_MODE_LONG "STA| 5| 46|200|196|255|102| 0| 0| 0| 0| 0| 0| 0| 0| 0| 0" // Fireworks random - unsigned long keyPrevMillis = 0; +#if defined(ENABLE_BUTTON) || defined(ENABLE_BUTTON_GY33) const unsigned long keySampleIntervalMs = 25; +#endif + +#if defined(ENABLE_BUTTON) +//#define BTN_MODE_SHORT "STA|mo|fxm| s| b| r1| g1| b1| w1| r2| g2| b2| w2| r3| g3| b3| w3" // Example + #define BTN_MODE_SHORT "STA| 5| 0|196|255| 0| 0| 0|255| 0| 0| 0| 0| 0| 0| 0| 0" // Static white + #define BTN_MODE_MEDIUM "STA| 5| 48|196|200|255|102| 0| 0| 0| 0| 0| 0| 0| 0| 0| 0" // Fire flicker + #define BTN_MODE_LONG "STA| 5| 46|196|200|255|102| 0| 0| 0| 0| 0| 0| 0| 0| 0| 0" // Fireworks random + unsigned long keyPrevMillis = 0; byte longKeyPressCountMax = 80; // 80 * 25 = 2000 ms byte mediumKeyPressCountMin = 20; // 20 * 25 = 500 ms byte KeyPressCount = 0; @@ -222,7 +228,6 @@ bool updateConfig = false; // For WiFiManger custom config and config #if defined(ENABLE_BUTTON_GY33) unsigned long keyPrevMillis_gy33 = 0; - const unsigned long keySampleIntervalMs_gy33 = 25; byte longKeyPressCountMax_gy33 = 80; // 80 * 25 = 2000 ms byte mediumKeyPressCountMin_gy33 = 20; // 20 * 25 = 500 ms byte KeyPressCount_gy33 = 0; diff --git a/Arduino/McLighting/helper_functions.h b/Arduino/McLighting/helper_functions.h index 9b60bc2..bf874ca 100644 --- a/Arduino/McLighting/helper_functions.h +++ b/Arduino/McLighting/helper_functions.h @@ -22,13 +22,13 @@ uint16_t convertSpeed(uint8_t _mcl_speed) { if (_mcl_speed < 50) { _fx_speed = 65535 - (_mcl_speed * 1000); } else if (_mcl_speed < 100) { - _fx_speed = 16535 - ((_mcl_speed-49) * 250); + _fx_speed = 16675 - ((_mcl_speed-49) * 250); } else if (_mcl_speed < 150) { - _fx_speed = 4035 - ((_mcl_speed-99) * 50); + _fx_speed = 4075 - ((_mcl_speed-99) * 50); } else if (_mcl_speed < 200) { - _fx_speed = 1535 - ((_mcl_speed-149) * 25); + _fx_speed = 1550 - ((_mcl_speed-149) * 25); } else { - _fx_speed = 285 - ((_mcl_speed-199) * 5); + _fx_speed = 280 - ((_mcl_speed-199) * 5); } _fx_speed = constrain(_fx_speed, SPEED_MIN, SPEED_MAX); return _fx_speed; @@ -36,14 +36,14 @@ uint16_t convertSpeed(uint8_t _mcl_speed) { /*uint8_t unconvertSpeed(uint16_t _fx_speed) { uint16_t _mcl_speed = 0; - if (_fx_speed <= 285) { - _mcl_speed = ((285 - _fx_speed)/5) + 199; - } else if (_fx_speed < 1535) { - _mcl_speed = ((1535 - _fx_speed)/25) + 149; - } else if (_fx_speed < 4035) { - _mcl_speed = ((4035 - _fx_speed)/50) + 99; - } else if (_mcl_speed < 16535) { - _mcl_speed = ((16535 - _fx_speed)/250) + 49; + if (_fx_speed <= 280) { + _mcl_speed = ((280 - _fx_speed)/5) + 199; + } else if (_fx_speed < 1550) { + _mcl_speed = ((1550 - _fx_speed)/25) + 149; + } else if (_fx_speed < 4075) { + _mcl_speed = ((4075 - _fx_speed)/50) + 99; + } else if (_mcl_speed < 16500) { + _mcl_speed = ((16675 - _fx_speed)/250) + 49; } else { _mcl_speed = ((65535 - _fx_speed)/1000); } diff --git a/Arduino/McLighting/mode_custom_ws2812fx_animations.h b/Arduino/McLighting/mode_custom_ws2812fx_animations.h index bed8cb2..d72d475 100644 --- a/Arduino/McLighting/mode_custom_ws2812fx_animations.h +++ b/Arduino/McLighting/mode_custom_ws2812fx_animations.h @@ -19,13 +19,13 @@ uint16_t handleSegmentOFF(void) { // *************************************************************************** void handleAutoPlay(uint8_t _seg) { //WS2812FX::Segment* _seg = strip->getSegment(); - if (autoDelay[_seg] <= millis()) { + if (autoDelay[_seg] <= millis()) { uint32_t _hex_colors[3] = {}; - //if (_seg == + //if (_seg == _hex_colors[0] = autoParams[autoCount[_seg]][0]; _hex_colors[1] = autoParams[autoCount[_seg]][1]; _hex_colors[2] = autoParams[autoCount[_seg]][2]; - //} + //} strip->setColors(_seg, _hex_colors); strip->setSpeed(_seg, convertSpeed((uint16_t)autoParams[autoCount[_seg]][3])); strip->setMode(_seg, (uint8_t)autoParams[autoCount[_seg]][4]); @@ -60,8 +60,8 @@ uint16_t handleCustomWS(void) { uint8_t twitch[10]= {50,50,50,50,50,50,50,50,50,50}; uint8_t dipCount[10] = {0,0,0,0,0,0,0,0,0,0}; bool timeToDip[10] = {false,false,false,false,false,false,false,false,false,false}; - - + + void hsb2rgbAN1(uint16_t index, uint8_t sat, uint8_t bright, uint16_t led) { // Source: https://blog.adafruit.com/2012/03/14/constant-brightness-hsb-to-rgb-algorithm/ uint8_t temp[5], n = (index >> 8) % 3; @@ -70,7 +70,7 @@ uint16_t handleCustomWS(void) { temp[2] = (uint8_t)(((((((index & 255) ^ 255) * sat) / 255) + (sat ^ 255)) * bright) / 255); strip->setPixelColor(led, temp[n + 2], temp[n + 1], temp[n], 0); } - + uint16_t handleTV(void) { WS2812FX::Segment* _seg = strip->getSegment(); @@ -85,28 +85,28 @@ uint16_t handleCustomWS(void) { } if((millis() - previousMillis[_seg_num]) < twitch[_seg_num]) { uint16_t led=random(_seg->start, _seg->stop); - ledState[_seg_num] = ledState[_seg_num] == LOW ? HIGH : LOW; // if the LED is off turn it on and vice-versa: + ledState[_seg_num] = ledState[_seg_num] == LOW ? HIGH : LOW; // if the LED is off turn it on and vice-versa: ledstates[led] = ((ledState[_seg_num]) ? 255 : 0); for (uint16_t j=_seg->start; j<=_seg->stop; j++) { uint16_t index = (j%3 == 0) ? 400 : random(0,767); hsb2rgbAN1(index, 200, ledstates[j], j); } - if (dipCount[_seg_num] > dipInterval[_seg_num]) { + if (dipCount[_seg_num] > dipInterval[_seg_num]) { timeToDip[_seg_num] = true; dipCount[_seg_num] = 0; dipStartTime[_seg_num] = millis(); darkTime[_seg_num] = random(50,150); dipInterval[_seg_num] = random(5,250);// cycles of flicker } - } + } } else { if (millis() - dipStartTime[_seg_num] < darkTime[_seg_num]) { - for (uint16_t i=(_seg->start + 3); i<= _seg->stop; i++) { + for (uint16_t i=(_seg->start + 3); i<= _seg->stop; i++) { ledstates[i] = 0; for (uint16_t j=_seg->start; j<=_seg->stop; j++) { uint16_t index = (j%3 == 0) ? 400 : random(0,767); hsb2rgbAN1(index, 200, ledstates[j], j); - } + } } } else { timeToDip[_seg_num] = false; @@ -116,18 +116,18 @@ uint16_t handleCustomWS(void) { } // *************************************************************************** // E1.31 mode - // *************************************************************************** + // *************************************************************************** uint16_t handleE131(void) { WS2812FX::Segment* _seg = strip->getSegment(); if (!e131->isEmpty()) { e131_packet_t packet; e131->pull(&packet); // Pull packet from ring buffer - + uint16_t universe = htons(packet.universe); uint8_t *data = packet.property_values + 1; - + if (universe < START_UNIVERSE || universe > END_UNIVERSE) return _seg->speed/(_seg->stop - _seg->start); //async will take care about filling the buffer - + // Serial.printf("Universe %u / %u Channels | Packet#: %u / Errors: %u / CH1: %u\n", // htons(packet.universe), // The Universe for this packet // htons(packet.property_value_count) - 1, // Start code is ignored, we're interested in dimmer data @@ -136,7 +136,7 @@ uint16_t handleCustomWS(void) { // packet.property_values[1]); // Dimmer data for Channel 1 /* #if defined(RGBW) uint16_t multipacketOffset = (universe - START_UNIVERSE) * 128; //if more than 128 LEDs * 4 colors = 512 channels, client will send in next higher universe - if (NUMLEDS <= multipacketOffset) return; + if (Config.stripSize <= multipacketOffset) return _seg->speed/(_seg->stop - _seg->start); uint16_t len = (128 + multipacketOffset > Config.stripSize) ? (Config.stripSize - multipacketOffset) : 128; #else*/ uint16_t multipacketOffset = (universe - START_UNIVERSE) * 170; //if more than 170 LEDs * 3 colors = 510 channels, client will send in next higher universe @@ -156,18 +156,18 @@ uint16_t handleCustomWS(void) { } return _seg->speed/(_seg->stop - _seg->start); } - + /* * paste in the Fire2012 code with a small edit at the end which uses the - * setPixelColor() function to copy the color data to the ws2812fx instance. + * setPixelColor() function to copy the color data to the ws2812fx instance. */ #include //https://github.com/FastLED/FastLED // Fire2012 by Mark Kriegsman, July 2012 // as part of "Five Elements" shown here: http://youtu.be/knWiGsmgycY - //// + //// // This basic one-dimensional 'fire' simulation works roughly as follows: // There's a underlying array of 'heat' cells, that model the temperature - // at each point along the line. Every cycle through the simulation, + // at each point along the line. Every cycle through the simulation, // four steps are performed: // 1) All cells cool down a little bit, losing heat to the air // 2) The heat from each cell drifts 'up' and diffuses a little @@ -178,7 +178,7 @@ uint16_t handleCustomWS(void) { // Temperature is in arbitrary units from 0 (cold black) to 255 (white hot). // // This simulation scales it self a bit depending on NUM_LEDS; it should look - // "OK" on anywhere from 20 to 100 LEDs without too much tweaking. + // "OK" on anywhere from 20 to 100 LEDs without too much tweaking. // // I recommend running this simulation at anywhere from 30-100 frames per second, // meaning an interframe delay of about 10-35 milliseconds. @@ -192,34 +192,34 @@ uint16_t handleCustomWS(void) { // // COOLING: How much does the air cool as it rises? // Less cooling = taller flames. More cooling = shorter flames. - // Default 50, suggested range 20-100 + // Default 50, suggested range 20-100 #define COOLING 70 - + // SPARKING: What chance (out of 255) is there that a new spark will be lit? // Higher chance = more roaring fire. Lower chance = more flickery fire. // Default 120, suggested range 50-200. #define SPARKING 120 - + uint16_t handleFire2012(void) { // Array of temperature readings at each simulation cell WS2812FX::Segment* _seg = strip->getSegment(); - + // Step 1. Cool down every cell a little for( uint16_t i = _seg->start; i <= _seg->stop; i++) { ledstates[i] = qsub8(ledstates[i], random8(0, ((COOLING * 10) / (_seg->stop - _seg->start)+1) + 2)); } - + // Step 2. Heat from each cell drifts 'up' and diffuses a little for( uint16_t k= _seg->stop; k >= (_seg->start + 2); k--) { ledstates[k] = (ledstates[k - 1] + ledstates[k - 2] + ledstates[k - 2]) / 3; } - + // Step 3. Randomly ignite new 'sparks' of heat near the bottom if( random8() < SPARKING ) { uint8_t y = random8(7) + _seg->start; ledstates[y] = qadd8(ledstates[y], random8(160,255) ); } - + // Step 4. Map from heat cells to LED colors for( uint16_t j = _seg->start; j <= _seg->stop; j++) { CRGB color = HeatColor(ledstates[j]); @@ -233,7 +233,7 @@ uint16_t handleCustomWS(void) { } return _seg->speed/(_seg->stop - _seg->start); } - + uint16_t handleGradient(void) { WS2812FX::Segment* _seg = strip->getSegment(); for(uint16_t j = 0; j <= (_seg->stop - _seg->start); j++) { diff --git a/Arduino/McLighting/request_handlers.h b/Arduino/McLighting/request_handlers.h index 3e85956..6b311e8 100644 --- a/Arduino/McLighting/request_handlers.h +++ b/Arduino/McLighting/request_handlers.h @@ -432,12 +432,10 @@ void checkpayload(uint8_t * _payload, bool mqtt = false, uint8_t num = 0) { } #if defined(ENABLE_STATE_SAVE) if (_updateState) { - DBG_OUTPUT_PORT.println("Saving stripstate.json!"); if(!save_state.active()) save_state.once(3, tickerSaveState); } if (_updateSegState) { State.mode = SET; - DBG_OUTPUT_PORT.println("Saving stripstate_segment.json!"); if(!save_seg_state.active()) save_seg_state.once(3, tickerSaveSegmentState); } @@ -549,11 +547,9 @@ void checkpayload(uint8_t * _payload, bool mqtt = false, uint8_t num = 0) { } #if defined(ENABLE_STATE_SAVE) if (_updateStrip || _updateConfig) { - DBG_OUTPUT_PORT.println("Saving config.json!"); if(!save_conf.active()) save_conf.once(3, tickerSaveConfig); } if (_updateState) { - DBG_OUTPUT_PORT.println("Saving stripstate.json!"); if(!save_state.active()) save_state.once(3, tickerSaveState); } #endif @@ -867,12 +863,10 @@ void webSocketEvent(uint8_t num, WStype_t type, uint8_t * payload, size_t lenght } #if defined(ENABLE_STATE_SAVE) if (_updateState) { - DBG_OUTPUT_PORT.println("Saving stripstate.json!"); if(!save_state.active()) save_state.once(3, tickerSaveState); } if (_updateSegState) { State.mode = SET; - DBG_OUTPUT_PORT.println("Saving stripstate_segment.json!"); if(!save_seg_state.active()) save_seg_state.once(3, tickerSaveSegmentState); } #endif @@ -1000,6 +994,7 @@ void webSocketEvent(uint8_t num, WStype_t type, uint8_t * payload, size_t lenght DBG_OUTPUT_PORT.println("Re-connecting to Wi-Fi..."); WiFi.setSleepMode(WIFI_NONE_SLEEP); WiFi.mode(WIFI_STA); + WiFi.hostname(HOSTNAME); WiFi.begin(); } @@ -1189,7 +1184,7 @@ void webSocketEvent(uint8_t num, WStype_t type, uint8_t * payload, size_t lenght } void button_gy33() { - if (millis() - keyPrevMillis_gy33 >= keySampleIntervalMs_gy33) { + if (millis() - keyPrevMillis_gy33 >= keySampleIntervalMs) { keyPrevMillis_gy33 = millis(); byte currKeyState_gy33 = digitalRead(ENABLE_BUTTON_GY33); @@ -1250,6 +1245,7 @@ void handleRemote() { last_remote_cmd = results.value; if (State.brightness + chng <= 255) { State.brightness = State.brightness + chng; + brightness_trans = State.brightness; _updateState = true; } } @@ -1257,6 +1253,7 @@ void handleRemote() { last_remote_cmd = results.value; if (State.brightness - chng >= 0) { State.brightness = State.brightness - chng; + brightness_trans = State.brightness; _updateState = true; } } @@ -1475,46 +1472,52 @@ void handleRemote() { } if (results.value == rmt_commands[AUTOMODE]) { // Toggle Automode last_remote_cmd = 0; - fx_mode = 56; + fx_mode = FX_MODE_CUSTOM_0; _updateSegState = true; } #if defined(CUSTOM_WS2812FX_ANIMATIONS) if (results.value == rmt_commands[CUST_1]) { // Select TV Mode last_remote_cmd = 0; - fx_mode = 57; + fx_mode = FX_MODE_CUSTOM_2; _updateSegState = true; } #endif if (results.value == rmt_commands[CUST_2]) { // Select Custom Mode 2 last_remote_cmd = 0; - fx_mode = 12; + fx_mode = FX_MODE_RAINBOW_CYCLE; _updateSegState = true; } if (results.value == rmt_commands[CUST_3]) { // Select Custom Mode 3 last_remote_cmd = 0; - fx_mode = 48; + fx_mode = FX_MODE_FIRE_FLICKER; _updateSegState = true; } - if (results.value == rmt_commands[CUST_4]) { // Select Custom Mode 4 + if (results.value == rmt_commands[SEG_UP]) { // Select segment up last_remote_cmd = 0; - fx_mode = 21; + if ((State.segment < Config.segments - 1) && (State.mode == HOLD)) { + prevsegment = State.segment; + State.segment = State.segment + 1; + getSegmentParams(State.segment); + } _updateSegState = true; } - if (results.value == rmt_commands[CUST_5]) { // Select Custom Mode 5 + if (results.value == rmt_commands[SEG_DOWN]) { // Select segment down last_remote_cmd = 0; - fx_mode = 46; + if ((State.segment > 0) && (State.mode == HOLD)) { + prevsegment = State.segment; + State.segment = State.segment - 1; + getSegmentParams(State.segment); + } _updateSegState = true; } irrecv.resume(); // Receive the next value } #if defined(ENABLE_STATE_SAVE) if (_updateState) { - DBG_OUTPUT_PORT.println("Saving stripstate.json!"); if(!save_state.active()) save_state.once(3, tickerSaveState); } if (_updateSegState) { State.mode = SET; - DBG_OUTPUT_PORT.println("Saving stripstate_segment.json!"); if(!save_seg_state.active()) save_seg_state.once(3, tickerSaveSegmentState); } #endif diff --git a/Arduino/McLighting/rest_api.h b/Arduino/McLighting/rest_api.h index cf05637..d424322 100644 --- a/Arduino/McLighting/rest_api.h +++ b/Arduino/McLighting/rest_api.h @@ -294,11 +294,9 @@ server.on("/config", []() { #if defined(ENABLE_STATE_SAVE) if (_updateStrip || _updateConfig) { - DBG_OUTPUT_PORT.println("Saving config.json!"); if(!save_conf.active()) save_conf.once(3, tickerSaveConfig); } if (_updateState) { - DBG_OUTPUT_PORT.println("Saving stripstate.json!"); if(!save_state.active()) save_state.once(3, tickerSaveState); } #endif @@ -312,7 +310,6 @@ server.on("/off", []() { if (State.mode == OFF) { State.mode = SET; } else { State.mode = OFF; }; getStateJSON(); #if defined(ENABLE_STATE_SAVE) - DBG_OUTPUT_PORT.println("Saving stripstate.json!"); if(!save_state.active()) save_state.once(3, tickerSaveState); #endif }); @@ -322,7 +319,6 @@ server.on("/on", []() { State.mode = SET; getStateJSON(); #if defined(ENABLE_STATE_SAVE) - DBG_OUTPUT_PORT.println("Saving stripstate.json!"); if(!save_state.active()) save_state.once(3, tickerSaveState); #endif } else { @@ -491,11 +487,9 @@ server.on("/set", []() { #if defined(ENABLE_STATE_SAVE) if (_updateState) { - DBG_OUTPUT_PORT.println("Saving stripstate.json!"); if(!save_state.active()) save_state.once(3, tickerSaveState); } if (_updateSegState) { - DBG_OUTPUT_PORT.println("Saving stripstate_segment.json!"); State.mode = SET; if(!save_seg_state.active()) save_seg_state.once(3, tickerSaveSegmentState); } diff --git a/Arduino/McLighting/version.h b/Arduino/McLighting/version.h index 077c528..06a4e60 100644 --- a/Arduino/McLighting/version.h +++ b/Arduino/McLighting/version.h @@ -1 +1 @@ -#define SKETCH_VERSION "3.1.0.BETA5" +#define SKETCH_VERSION "3.1.0.BETA6" diff --git a/Arduino/McLighting/version_info.ino b/Arduino/McLighting/version_info.ino index 26d37f9..befc5d5 100644 --- a/Arduino/McLighting/version_info.ino +++ b/Arduino/McLighting/version_info.ino @@ -237,4 +237,14 @@ * Homeassistant will allways use active segment * E1.31 is only working for one segment at the moment * + * 09 December + * Version Bump to 3.1.0.BETA6 + * bugfixes for IR remote control + * Implemented segments to IR Remote + * Power supply update + * bugfix for Button definitions as speed and brightness were interchanged + * adressed issue #59 + * known problems: + * Homeassistant will allways use active segment + * E1.31 is only working for one segment at the moment */ diff --git a/README.md b/README.md index 22d21aa..14f060b 100644 --- a/README.md +++ b/README.md @@ -1,6 +1,6 @@ # McLighting v3 - The ESP8266 based multi-client lighting gadget -[![Gitter](https://badges.gitter.im/mclighting/Lobby.svg)](https://gitter.im/mclighting/Lobby?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge) [![Build Status](https://travis-ci.com/toblum/McLighting.svg?branch=master)](https://travis-ci.com/toblum/McLighting) [![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://opensource.org/licenses/MIT) [![version](https://img.shields.io/badge/version-v3.0.0-blue.svg)](https://github.com/FabLab-Luenen/McLighting/blob/master/Arduino/McLighting/version.h) +[![Gitter](https://badges.gitter.im/mclighting/Lobby.svg)](https://gitter.im/mclighting/Lobby?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge) [![Build Status](https://travis-ci.com/toblum/McLighting.svg?branch=master)](https://travis-ci.com/toblum/McLighting) [![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://opensource.org/licenses/MIT) [![version](https://img.shields.io/badge/version-v3.1.0-blue.svg)](https://github.com/FabLab-Luenen/McLighting/blob/master/Arduino/McLighting/version.h) McLighting (the multi-client lighting gadget) is a very cheap internet-controllable lighting solution based on the famous ESP8266 microcontroller and WS2811/2812 led strips. It features among other things a web-interface, a REST-API and a websocket connector. @@ -67,16 +67,17 @@ I hope I didn't miss any sources and mentioned every author. In case I forgot so ## Todos - [ ] Redesign of Code and bump to V3 -- [ ] Support multiple strips and control them separately or together [Issue](https://github.com/toblum/McLighting/issues/118) -- [ ] Support for up to ten segments - [ ] Customer profile to define segments of (in)active areas on the strip [Issue](https://github.com/toblum/McLighting/issues/37) -- [ ] Remove old / wrong EEPROM settings completely [Issue] - [ ] Additional clients -- [ ] If no wifi, at least enable button mode. -- [ ] Also enable McLighting in Wifi AP mode. +- [x] If no wifi, at least enable button mode. +- [x] Also enable McLighting in Wifi AP mode. +- [ ] Search a non-blocking alternative for wifiManager - [ ] Multiple buttons/GPIO Inputs. [Issue](https://github.com/toblum/McLighting/issues/119) - [ ] Music visualizer / Bring back ArtNet [Issue](https://github.com/toblum/McLighting/issues/111) - [ ] Display version and parameters (Number of LEDs, definition settings, ..) in the web UI [Issue](https://github.com/toblum/McLighting/issues/150) +- [x] Remove old / wrong EEPROM settings completely [Issue] EEPROM saving discarded +- [x] Support multiple strips and control them separately or together [Issue](https://github.com/toblum/McLighting/issues/118) +- [x] Support for up to ten segments - [x] Removal of LEGACY_ANIMATIONS - [x] Include ws2812fx library to code due to modifications in library - [x] Add TV, E1.31 and AUTO to CUSTOM_WS2812FX_ANIMATIONS