Merge branch 'dev' into mdev

2022-08-31 20:41:34 +02:00
parent 6422bb5764 da0da4c75e
commit d95e27e8e8
14 changed files with 3195 additions and 3186 deletions
--- a/wled00/FX.cpp
+++ b/wled00/FX.cpp
@@ -3470,9 +3470,9 @@ static const char _data_FX_MODE_DRIP[] PROGMEM = "Drip@Gravity,# of drips;!,!;!;
 typedef struct Tetris {
  float    pos;
  float    speed;
-  uint32_t col;
-  uint16_t aux0;  // 2D-fication of SEGENV.aux0 (brick size)
-  uint16_t aux1;  // 2D-fication of SEGENV.aux1 (stack size)
+  uint8_t  col;   // color index
+  uint16_t brick; // brick size in pixels
+  uint16_t stack; // stack size in pixels
  uint32_t step;  // 2D-fication of SEGENV.step (state)
 } tetris;

@@ -3491,7 +3491,7 @@ uint16_t mode_tetrix(void) {
    static void runStrip(size_t stripNr, Tetris *drop) {
      // initialize dropping on first call or segment full
      if (SEGENV.call == 0) {
-        drop->aux1 = 0;                   // reset brick stack size
+        drop->stack = 0;                  // reset brick stack size
        drop->step = 0;
        //for (int i=0; i<SEGLEN; i++) SEGMENT.setPixelColor(i | int((stripNr+1)<<16), SEGCOLOR(1));  // will fill virtual strip only
      }
@@ -3504,9 +3504,9 @@ uint16_t mode_tetrix(void) {
        speed = map(speed, 1, 255, 5000, 250); // time taken for full (SEGLEN) drop
        drop->speed = float(SEGLEN * FRAMETIME) / float(speed); // set speed
        drop->pos   = SEGLEN;             // start at end of segment (no need to subtract 1)
-        drop->col   = SEGMENT.color_from_palette(random8(0,15)<<4,false,false,0);     // limit color choices so there is enough HUE gap
+        drop->col   = random8(0,15)<<4;   // limit color choices so there is enough HUE gap
        drop->step  = 1;                  // drop state (0 init, 1 forming, 2 falling)
-        drop->aux0  = (SEGMENT.intensity ? (SEGMENT.intensity>>5)+1 : random8(1,5)) * (1+(SEGLEN>>6));  // size of brick
+        drop->brick = (SEGMENT.intensity ? (SEGMENT.intensity>>5)+1 : random8(1,5)) * (1+(SEGLEN>>6));  // size of brick
      }
      
      if (drop->step == 1) {              // forming
@@ -3516,24 +3516,27 @@ uint16_t mode_tetrix(void) {
      }

      if (drop->step == 2) {              // falling
-        if (drop->pos > drop->aux1) {     // fall until top of stack
+        if (drop->pos > drop->stack) {    // fall until top of stack
          drop->pos -= drop->speed;       // may add gravity as: speed += gravity
-          if (uint16_t(drop->pos) < drop->aux1) drop->pos = drop->aux1;
-          for (int i=int(drop->pos); i<SEGLEN; i++) SEGMENT.setPixelColor(i | int((stripNr+1)<<16), i<int(drop->pos)+drop->aux0 ? drop->col : SEGCOLOR(1));
+          if (uint16_t(drop->pos) < drop->stack) drop->pos = drop->stack;
+          for (int i=int(drop->pos); i<SEGLEN; i++) {
+            uint32_t col = i<int(drop->pos)+drop->brick ? SEGMENT.color_from_palette(drop->col, false, false, 0) : SEGCOLOR(1);
+            SEGMENT.setPixelColor(i | int((stripNr+1)<<16), col);
+          }
        } else {                          // we hit bottom
          drop->step = 0;                 // proceed with next brick, go back to init
-          drop->aux1 += drop->aux0;       // increase the stack size
-          if (drop->aux1 >= SEGLEN) drop->step = millis() + 2000; // fade out stack
+          drop->stack += drop->brick;     // increase the stack size
+          if (drop->stack >= SEGLEN) drop->step = millis() + 2000; // fade out stack
        }
      }

-      if (drop->step > 2) {
-        drop->aux0 = 0;                   // reset brick size (no more growing)
+      if (drop->step > 2) {               // fade strip
+        drop->brick = 0;                  // reset brick size (no more growing)
        if (drop->step > millis()) {
          // allow fading of virtual strip
-          for (int i=0; i<SEGLEN; i++) SEGMENT.blendPixelColor(i | int((stripNr+1)<<16), SEGCOLOR(1), 25); // 10% blend
+          for (int i=0; i<SEGLEN; i++) SEGMENT.blendPixelColor(i | int((stripNr+1)<<16), SEGCOLOR(1), 25); // 10% blend with Bg color
        } else {
-          drop->aux1 = 0;                 // reset brick stack size
+          drop->stack = 0;                // reset brick stack size
          drop->step = 0;                 // proceed with next brick
        }
      }
--- a/wled00/FX.h
+++ b/wled00/FX.h
@@ -357,26 +357,21 @@ typedef struct Segment {
    union {
      uint16_t options; //bit pattern: msb first: [transposed mirrorY reverseY] transitional (tbd) paused needspixelstate mirrored on reverse selected
      struct {
-        bool    selected    : 1;  //  0 : selected
-        bool    reverse     : 1;  //  1 : reversed
-        bool    on          : 1;  //  2 : is On
-        bool    mirror      : 1;  //  3 : mirrored
-        bool    pxs         : 1;  //  4 : indicates that the effect does not use FRAMETIME or needs getPixelColor (?)
-        bool    freeze      : 1;  //  5 : paused/frozen
-        bool    reset       : 1;  //  6 : indicates that Segment runtime requires reset
-        bool    transitional: 1;  //  7 : transitional (there is transition occuring)
-        bool    reverse_y   : 1;  //  8 : reversed Y (2D)
-        bool    mirror_y    : 1;  //  9 : mirrored Y (2D)
-        bool    transpose   : 1;  // 10 : transposed (2D, swapped X & Y)
-        uint8_t map1D2D     : 3;  // 11-13 : mapping for 1D effect on 2D (0-use as strip, 1-expand vertically, 2-circular/arc, 3-rectangular/corner, ...)
-        uint8_t soundSim    : 2;  // 14-15 : 0-3 sound simulation types
+        bool    selected    : 1;  //     0 : selected
+        bool    reverse     : 1;  //     1 : reversed
+        bool    on          : 1;  //     2 : is On
+        bool    mirror      : 1;  //     3 : mirrored
+        bool    freeze      : 1;  //     4 : paused/frozen
+        bool    reset       : 1;  //     5 : indicates that Segment runtime requires reset
+        bool    transitional: 1;  //     6 : transitional (there is transition occuring)
+        bool    reverse_y   : 1;  //     7 : reversed Y (2D)
+        bool    mirror_y    : 1;  //     8 : mirrored Y (2D)
+        bool    transpose   : 1;  //     9 : transposed (2D, swapped X & Y)
+        uint8_t map1D2D     : 3;  // 10-12 : mapping for 1D effect on 2D (0-use as strip, 1-expand vertically, 2-circular/arc, 3-rectangular/corner, ...)
+        uint8_t soundSim    : 3;  // 13-15 : 0-7 sound simulation types
      };
    };
    uint8_t  grouping, spacing;
-    //struct {
-    //  uint8_t grouping : 4;       // maximum 15 pixels in a group
-    //  uint8_t spacing  : 4;       // maximum 15 pixels per gap
-    //};
    uint8_t  opacity;
    uint32_t colors[NUM_COLORS];
    uint8_t  cct;                 //0==1900K, 255==10091K
@@ -418,17 +413,20 @@ typedef struct Segment {
    // transition data, valid only if transitional==true, holds values during transition
    struct Transition {
      uint32_t      _colorT[NUM_COLORS];
-      uint8_t       _briT;  // temporary brightness
-      uint8_t       _cctT;  // temporary CCT
-      CRGBPalette16 _palT;  // temporary palette
-      uint8_t       _modeP; // previous mode/effect
+      uint8_t       _briT;        // temporary brightness
+      uint8_t       _cctT;        // temporary CCT
+      CRGBPalette16 _palT;        // temporary palette
+      uint8_t       _modeP;       // previous mode/effect
+      //uint16_t      _aux0, _aux1; // previous mode/effect runtime data
+      //uint32_t      _step, _call; // previous mode/effect runtime data
+      //byte         *_data;        // previous mode/effect runtime data
      uint32_t      _start;
      uint16_t      _dur;
      Transition(uint16_t dur=750) : _briT(255), _cctT(127), _palT(CRGBPalette16(CRGB::Black)), _modeP(FX_MODE_STATIC), _start(millis()), _dur(dur) {}
      Transition(uint16_t d, uint8_t b, uint8_t c, const uint32_t *o) : _briT(b), _cctT(c), _palT(CRGBPalette16(CRGB::Black)), _modeP(FX_MODE_STATIC), _start(millis()), _dur(d) {
        for (size_t i=0; i<NUM_COLORS; i++) _colorT[i] = o[i];
      }
-    } *_t; // this struct will bootloop ESP
+    } *_t;

  public:

@@ -530,8 +528,7 @@ typedef struct Segment {
      * Safe to call from interrupts and network requests.
      */
    inline void markForReset(void) { reset = true; }  // setOption(SEG_OPTION_RESET, true)
-    //inline void setUpLeds() { if (!leds) leds = (CRGB*)malloc(sizeof(CRGB)*length()); }
-    void setUpLeds(void);
+    void setUpLeds(void);   // set up leds[] array for loseless getPixelColor()

    // transition functions
    void     startTransition(uint16_t dur); // transition has to start before actual segment values change
--- a/wled00/FX_fcn.cpp
+++ b/wled00/FX_fcn.cpp
@@ -297,8 +297,8 @@ void Segment::startTransition(uint16_t dur) {

  if (!_t) _t = new Transition(dur); // no previous transition running
  if (!_t) return; // failed to allocate data
-  _t->_briT = _briT;
-  _t->_cctT = _cctT;
+  _t->_briT  = _briT;
+  _t->_cctT  = _cctT;
  _t->_palT  = _palT;
  _t->_modeP = _modeP;
  for (size_t i=0; i<NUM_COLORS; i++) _t->_colorT[i] = _colorT[i];
@@ -625,7 +625,7 @@ uint8_t Segment::differs(Segment& b) const {
  if (stopY != b.stopY)         d |= SEG_DIFFERS_BOUNDS;

  //bit pattern: msb first: [transposed mirrorY reverseY] transitional (tbd) paused needspixelstate mirrored on reverse selected
-  if ((options & 0b1111111100101110) != (b.options & 0b1111111100101110)) d |= SEG_DIFFERS_OPT;
+  if ((options & 0b1111111110011110) != (b.options & 0b1111111110011110)) d |= SEG_DIFFERS_OPT;
  if ((options & 0x01) != (b.options & 0x01))                             d |= SEG_DIFFERS_SEL;
  
  for (uint8_t i = 0; i < NUM_COLORS; i++) if (colors[i] != b.colors[i])  d |= SEG_DIFFERS_COL;
--- a/wled00/const.h
+++ b/wled00/const.h
@@ -228,13 +228,12 @@
 #define SEG_OPTION_REVERSED       1
 #define SEG_OPTION_ON             2
 #define SEG_OPTION_MIRROR         3            //Indicates that the effect will be mirrored within the segment
-#define SEG_OPTION_NONUNITY       4            //Indicates that the effect does not use FRAMETIME or needs getPixelColor
-#define SEG_OPTION_FREEZE         5            //Segment contents will not be refreshed
-#define SEG_OPTION_RESET          6            //Segment runtime requires reset
-#define SEG_OPTION_TRANSITIONAL   7
-#define SEG_OPTION_REVERSED_Y     8
-#define SEG_OPTION_MIRROR_Y       9
-#define SEG_OPTION_TRANSPOSED    10
+#define SEG_OPTION_FREEZE         4            //Segment contents will not be refreshed
+#define SEG_OPTION_RESET          5            //Segment runtime requires reset
+#define SEG_OPTION_TRANSITIONAL   6
+#define SEG_OPTION_REVERSED_Y     7
+#define SEG_OPTION_MIRROR_Y       8
+#define SEG_OPTION_TRANSPOSED     9

 //Segment differs return byte
 #define SEG_DIFFERS_BRI        0x01
--- a/wled00/data/index.js
+++ b/wled00/data/index.js
@@ -653,8 +653,8 @@ function populateInfo(i)
 		}
 	}
 	var vcn = "Kuuhaku";
-	if (i.ver.startsWith("0.13.")) vcn = "Toki";
-	if (i.ver.includes("-bl")) vcn = "Ryujin";
+	if (i.ver.startsWith("0.14.")) vcn = "Hoshi";
+	if (i.ver.includes("-bl")) vcn = "Supāku";
 	if (i.cn) vcn = i.cn;

 	cn += `v${i.ver} "${vcn}"<br><br><table>
@@ -714,7 +714,7 @@ function populateSegments(s)
 		}
 		let map2D = `<div id="seg${i}map2D" data-map="map2D" class="lbl-s hide">Expand 1D FX<br>
 			<div class="sel-p"><select class="sel-p" id="seg${i}mp12" onchange="setMp12(${i})">
-				<option value="0" ${inst.mp12==0?' selected':''}>Pxels</option>
+				<option value="0" ${inst.mp12==0?' selected':''}>Pixels</option>
 				<option value="1" ${inst.mp12==1?' selected':''}>Bar</option>
 				<option value="2" ${inst.mp12==2?' selected':''}>Arc</option>
 				<option value="3" ${inst.mp12==3?' selected':''}>Corner</option>
--- a/wled00/data/simple.js
+++ b/wled00/data/simple.js
@@ -505,8 +505,8 @@ function populateInfo(i)
 		}
 	}
 	var vcn = "Kuuhaku";
-	if (i.ver.startsWith("0.13.")) vcn = "Toki";
-	if (i.ver.includes("-bl")) vcn = "Ryujin";
+	if (i.ver.startsWith("0.14.")) vcn = "Hoshi";
+	if (i.ver.includes("-bl")) vcn = "Supāku";
 	if (i.cn) vcn = i.cn;

 	cn += `v${i.ver} "${vcn}"<br><br><table>
--- a/wled00/html_simple.h
+++ b/wled00/html_simple.h
--- a/wled00/html_ui.h
+++ b/wled00/html_ui.h
--- a/wled00/json.cpp
+++ b/wled00/json.cpp
@@ -79,13 +79,13 @@ void deserializeSegment(JsonObject elem, byte it, byte presetId)
  uint16_t grp = elem["grp"] | seg.grouping;
  uint16_t spc = elem[F("spc")] | seg.spacing;
  uint16_t of  = seg.offset;
-  uint8_t  soundSim = elem[F("ssim")] | seg.soundSim;
-  uint8_t  map1D2D  = elem[F("mp12")] | seg.map1D2D;
+  uint8_t  soundSim = elem["ssim"] | seg.soundSim;
+  uint8_t  map1D2D  = elem["mp12"] | seg.map1D2D;

  if ((spc>0 && spc!=seg.spacing) || seg.map1D2D!=map1D2D) seg.fill(BLACK); // clear spacing gaps

-  seg.map1D2D  = map1D2D & 0x07;
-  seg.soundSim = soundSim & 0x03;
+  seg.map1D2D  = constrain(map1D2D, 0, 7);
+  seg.soundSim = constrain(soundSim, 0, 7);

  uint16_t len = 1;
  if (stop > start) len = stop - start;
@@ -168,12 +168,12 @@ void deserializeSegment(JsonObject elem, byte it, byte presetId)
  }
  #endif

-  seg.selected  = elem["sel"]   | seg.selected;
-  seg.reverse   = elem["rev"]   | seg.reverse;
-  seg.mirror    = elem[F("mi")] | seg.mirror;
+  seg.selected  = elem["sel"] | seg.selected;
+  seg.reverse   = elem["rev"] | seg.reverse;
+  seg.mirror    = elem["mi"]  | seg.mirror;
  #ifndef WLED_DISABLE_2D
-  seg.reverse_y = elem[F("rY")] | seg.reverse_y;
-  seg.mirror_y  = elem[F("mY")] | seg.mirror_y;
+  seg.reverse_y = elem["rY"]  | seg.reverse_y;
+  seg.mirror_y  = elem["mY"]  | seg.mirror_y;
  seg.transpose = elem[F("tp")] | seg.transpose;
  #endif

@@ -191,17 +191,17 @@ void deserializeSegment(JsonObject elem, byte it, byte presetId)
  if (elem[F("fxdef")])
  {
    int16_t sOpt;
-    sOpt = extractModeDefaults(fx, SET_F("sx"));   if (sOpt >= 0) seg.speed     = sOpt;
-    sOpt = extractModeDefaults(fx, SET_F("ix"));   if (sOpt >= 0) seg.intensity = sOpt;
-    sOpt = extractModeDefaults(fx, SET_F("c1"));   if (sOpt >= 0) seg.custom1   = sOpt;
-    sOpt = extractModeDefaults(fx, SET_F("c2"));   if (sOpt >= 0) seg.custom2   = sOpt;
-    sOpt = extractModeDefaults(fx, SET_F("c3"));   if (sOpt >= 0) seg.custom3   = sOpt;
-    sOpt = extractModeDefaults(fx, SET_F("mp12")); if (sOpt >= 0) seg.map1D2D   = sOpt & 0x07;
-    sOpt = extractModeDefaults(fx, SET_F("ssim")); if (sOpt >= 0) seg.soundSim  = sOpt & 0x03;
-    sOpt = extractModeDefaults(fx, "rev");         if (sOpt >= 0) seg.reverse   = (bool)sOpt;
-    sOpt = extractModeDefaults(fx, SET_F("mi"));   if (sOpt >= 0) seg.mirror    = (bool)sOpt; // NOTE: setting this option is a risky business
-    sOpt = extractModeDefaults(fx, SET_F("rY"));   if (sOpt >= 0) seg.reverse_y = (bool)sOpt;
-    sOpt = extractModeDefaults(fx, SET_F("mY"));   if (sOpt >= 0) seg.mirror_y  = (bool)sOpt; // NOTE: setting this option is a risky business
+    sOpt = extractModeDefaults(fx, "sx");   if (sOpt >= 0) seg.speed     = sOpt;
+    sOpt = extractModeDefaults(fx, "ix");   if (sOpt >= 0) seg.intensity = sOpt;
+    sOpt = extractModeDefaults(fx, "c1");   if (sOpt >= 0) seg.custom1   = sOpt;
+    sOpt = extractModeDefaults(fx, "c2");   if (sOpt >= 0) seg.custom2   = sOpt;
+    sOpt = extractModeDefaults(fx, "c3");   if (sOpt >= 0) seg.custom3   = sOpt;
+    sOpt = extractModeDefaults(fx, "mp12"); if (sOpt >= 0) seg.map1D2D   = constrain(sOpt, 0, 7);
+    sOpt = extractModeDefaults(fx, "ssim"); if (sOpt >= 0) seg.soundSim  = constrain(sOpt, 0, 7);
+    sOpt = extractModeDefaults(fx, "rev");  if (sOpt >= 0) seg.reverse   = (bool)sOpt;
+    sOpt = extractModeDefaults(fx, "mi");   if (sOpt >= 0) seg.mirror    = (bool)sOpt; // NOTE: setting this option is a risky business
+    sOpt = extractModeDefaults(fx, "rY");   if (sOpt >= 0) seg.reverse_y = (bool)sOpt;
+    sOpt = extractModeDefaults(fx, "mY");   if (sOpt >= 0) seg.mirror_y  = (bool)sOpt; // NOTE: setting this option is a risky business
    sOpt = extractModeDefaults(fx, "pal");
    if (sOpt >= 0 && sOpt < strip.getPaletteCount() + strip.customPalettes.size()) {
      if (sOpt != seg.palette) {
@@ -212,8 +212,8 @@ void deserializeSegment(JsonObject elem, byte it, byte presetId)
  }

  //getVal also supports inc/decrementing and random
-  getVal(elem[F("sx")], &seg.speed);
-  getVal(elem[F("ix")], &seg.intensity);
+  getVal(elem["sx"], &seg.speed);
+  getVal(elem["ix"], &seg.intensity);
  uint8_t pal = seg.palette;
  if (getVal(elem["pal"], &pal, 1, strip.getPaletteCount())) {
    if (pal != seg.palette) {
@@ -221,15 +221,15 @@ void deserializeSegment(JsonObject elem, byte it, byte presetId)
      seg.palette = pal;
    }
  }
-  getVal(elem[F("c1")], &seg.custom1);
-  getVal(elem[F("c2")], &seg.custom2);
+  getVal(elem["c1"], &seg.custom1);
+  getVal(elem["c2"], &seg.custom2);
  uint8_t cust3 = seg.custom3;
-  getVal(elem[F("c3")], &cust3); // we can't pass reference to bifield
-  seg.custom3 = cust3;
+  getVal(elem["c3"], &cust3); // we can't pass reference to bifield
+  seg.custom3 = constrain(cust3, 0, 31);

-  seg.check1 = elem[F("o1")] | seg.check1;
-  seg.check2 = elem[F("o2")] | seg.check2;
-  seg.check3 = elem[F("o3")] | seg.check3;
+  seg.check1 = elem["o1"] | seg.check1;
+  seg.check2 = elem["o2"] | seg.check2;
+  seg.check3 = elem["o3"] | seg.check3;
  
  JsonArray iarr = elem[F("i")]; //set individual LEDs
  if (!iarr.isNull()) {
@@ -502,26 +502,26 @@ void serializeSegment(JsonObject& root, Segment& seg, byte id, bool forPreset, b
  strcat(colstr, "]");
  root["col"] = serialized(colstr);

-  root["fx"]     = seg.mode;
-  root[F("sx")]  = seg.speed;
-  root[F("ix")]  = seg.intensity;
-  root["pal"]    = seg.palette;
-  root[F("c1")]  = seg.custom1;
-  root[F("c2")]  = seg.custom2;
-  root[F("c3")]  = seg.custom3;
-  root[F("sel")] = seg.isSelected();
-  root["rev"]    = seg.reverse;
-  root[F("mi")]  = seg.mirror;
+  root["fx"]  = seg.mode;
+  root["sx"]  = seg.speed;
+  root["ix"]  = seg.intensity;
+  root["pal"] = seg.palette;
+  root["c1"]  = seg.custom1;
+  root["c2"]  = seg.custom2;
+  root["c3"]  = seg.custom3;
+  root["sel"] = seg.isSelected();
+  root["rev"] = seg.reverse;
+  root["mi"]  = seg.mirror;
  if (strip.isMatrix) {
-    root[F("rY")] = seg.reverse_y;
-    root[F("mY")] = seg.mirror_y;
+    root["rY"] = seg.reverse_y;
+    root["mY"] = seg.mirror_y;
    root[F("tp")] = seg.transpose;
  }
-  root[F("o1")]  = seg.check1;
-  root[F("o2")]  = seg.check2;
-  root[F("o3")]  = seg.check3;
-  root[F("ssim")]  = seg.soundSim;
-  root[F("mp12")]  = seg.map1D2D;
+  root["o1"]   = seg.check1;
+  root["o2"]   = seg.check2;
+  root["o3"]   = seg.check3;
+  root["ssim"] = seg.soundSim;
+  root["mp12"] = seg.map1D2D;
 }

 void serializeState(JsonObject root, bool forPreset, bool includeBri, bool segmentBounds)
@@ -926,12 +926,13 @@ void serializeNodes(JsonObject root)

 void serializeModeData(JsonArray fxdata)
 {
+  char lineBuffer[128];
  for (size_t i = 0; i < strip.getModeCount(); i++) {
-    String lineBuffer = FPSTR(strip.getModeData(i));
-    if (lineBuffer.length() > 0) {
-      uint8_t endPos = lineBuffer.indexOf('@');
-      if (endPos>0) fxdata.add(lineBuffer.substring(endPos));
-      else          fxdata.add("");
+    strncpy_P(lineBuffer, strip.getModeData(i), 127);
+    if (lineBuffer[0] != 0) {
+      char* dataPtr = strchr(lineBuffer,'@');
+      if (dataPtr) fxdata.add(dataPtr);
+      else         fxdata.add("");
    }
  }
 }
@@ -939,12 +940,13 @@ void serializeModeData(JsonArray fxdata)
 // deserializes mode names string into JsonArray
 // also removes WLED-SR extensions (@...) from deserialised names
 void serializeModeNames(JsonArray arr) {
+  char lineBuffer[128];
  for (size_t i = 0; i < strip.getModeCount(); i++) {
-    String lineBuffer = FPSTR(strip.getModeData(i));
-    if (lineBuffer.length() > 0) {
-      uint8_t endPos = lineBuffer.indexOf('@');
-      if (endPos>0) arr.add(lineBuffer.substring(0, endPos));
-      else          arr.add(lineBuffer);
+    strncpy_P(lineBuffer, strip.getModeData(i), 127);
+    if (lineBuffer[0] != 0) {
+      char* dataPtr = strchr(lineBuffer,'@');
+      if (dataPtr) *dataPtr = 0; // terminate mode data after name
+      arr.add(lineBuffer);
    }
  }
 }
@@ -975,7 +977,6 @@ void serveJson(AsyncWebServerRequest* request)
      request->send(response);
      releaseJSONBufferLock();
    } else {
-      //request->send_P(200, "application/json", JSON_mode_names);
      request->send(503, "application/json", F("{\"error\":3}"));
    }
    return;
@@ -1019,11 +1020,11 @@ void serveJson(AsyncWebServerRequest* request)
      serializeInfo(info);
      if (subJson != 3)
      {
-        //lDoc[F("effects")]  = serialized((const __FlashStringHelper*)JSON_mode_names);
        JsonArray effects = lDoc.createNestedArray(F("effects"));
        serializeModeNames(effects); // remove WLED-SR extensions from effect names
        lDoc[F("palettes")] = serialized((const __FlashStringHelper*)JSON_palette_names);
      }
+      //lDoc["m"] = lDoc.memoryUsage(); // JSON buffer usage, for remote debugging
  }

  DEBUG_PRINTF("JSON buffer size: %u for request: %d\n", lDoc.memoryUsage(), subJson);
--- a/wled00/udp.cpp
+++ b/wled00/udp.cpp
@@ -665,6 +665,9 @@ void sendSysInfoUDP()
 #define DDP_FLAGS1_STORAGE 0x08
 #define DDP_FLAGS1_TIME 0x10

+#define DDP_TYPE_RGB24  0x0A
+#define DDP_TYPE_RGBW32 0x1A // proposal, this is still not an official part of the DDP spec
+
 #define DDP_ID_DISPLAY 1
 #define DDP_ID_CONFIG 250
 #define DDP_ID_STATUS 251
@@ -724,7 +727,7 @@ uint8_t realtimeBroadcast(uint8_t type, IPAddress client, uint16_t length, uint8
        // write the header
        /*0*/ddpUdp.write(flags);
        /*1*/ddpUdp.write(sequenceNumber++ & 0x0F); // sequence may be unnecessary unless we are sending twice (as requested in Sync settings)
-        /*2*/ddpUdp.write(0);
+        /*2*/ddpUdp.write(0); // data type, this is not fully defined by the DDP spec and thus left at "undefined" which is assumed to be 24-bit RGB
        /*3*/ddpUdp.write(DDP_ID_DISPLAY);
        // data offset in bytes, 32-bit number, MSB first
        /*4*/ddpUdp.write(0xFF & (channel >> 24));
--- a/wled00/util.cpp
+++ b/wled00/util.cpp
@@ -355,17 +355,22 @@ uint8_t extractModeSlider(uint8_t mode, uint8_t slider, char *dest, uint8_t maxL
 }


+// extracts mode parameter defaults from last section of mode data (e.g. "Juggle@!,Trail;!,!,;!;sx=16,ix=240,1d")
 int16_t extractModeDefaults(uint8_t mode, const char *segVar)
 {
  if (mode < strip.getModeCount()) {
-    String lineBuffer = FPSTR(strip.getModeData(mode));
-    if (lineBuffer.length() > 0) {
-      int16_t start = lineBuffer.lastIndexOf(';');
-      if (start<0) return -1;
+    char lineBuffer[128] = "";
+    strncpy_P(lineBuffer, strip.getModeData(mode), 127);
+    lineBuffer[127] = '\0'; // terminate string
+    if (lineBuffer[0] != 0) {
+      char* startPtr = strrchr(lineBuffer, ';'); // last ";" in FX data
+      if (!startPtr) return -1;

-      int16_t stop = lineBuffer.indexOf(segVar, start+1);
-      if (stop<0) return -1;
-      return atoi(lineBuffer.substring(stop+strlen(segVar)+1).c_str());
+      char* stopPtr = strstr(startPtr, segVar);
+      if (!stopPtr) return -1;
+
+      stopPtr += strlen(segVar) +1; // skip "="
+      return atoi(stopPtr);
    }
  }
  return -1;
--- a/wled00/wled.h
+++ b/wled00/wled.h
@@ -8,7 +8,7 @@
 */

 // version code in format yymmddb (b = daily build)
-#define VERSION 2208301
+#define VERSION 2208310

 //uncomment this if you have a "my_config.h" file you'd like to use
 //#define WLED_USE_MY_CONFIG
@@ -222,7 +222,7 @@ using PSRAMDynamicJsonDocument = BasicJsonDocument<PSRAM_Allocator>;

 // Global Variable definitions
 WLED_GLOBAL char versionString[] _INIT(TOSTRING(WLED_VERSION));
-#define WLED_CODENAME "Toki"
+#define WLED_CODENAME "Hoshi"

 // AP and OTA default passwords (for maximum security change them!)
 WLED_GLOBAL char apPass[65]  _INIT(DEFAULT_AP_PASS);
--- a/wled00/wled_eeprom.cpp
+++ b/wled00/wled_eeprom.cpp
@@ -414,10 +414,10 @@ void deEEP() {
          for (byte j = 0; j < numChannels; j++) colX.add(EEPROM.read(memloc + j));
        }
        
-        segObj["fx"]    = EEPROM.read(i+10);
-        segObj[F("sx")] = EEPROM.read(i+11);
-        segObj[F("ix")] = EEPROM.read(i+16);
-        segObj["pal"]   = EEPROM.read(i+17);
+        segObj["fx"]  = EEPROM.read(i+10);
+        segObj["sx"]  = EEPROM.read(i+11);
+        segObj["ix"]  = EEPROM.read(i+16);
+        segObj["pal"] = EEPROM.read(i+17);
      } else {
        Segment* seg = strip.getSegments();
        memcpy(seg, EEPROM.getDataPtr() +i+2, 240);