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Bus rework

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- Implement vector in bus manager
- Memory calculation according to explanation from @Makuna
- Prefer 8 RMT before 8 I2S on ESP32 (fixes #4380)
- speed improvements in ABL
- verbose debugging
- get bus size from NPB (prototype)
- Parallel I2S output bugfix
- automatic selection of appropriate I2S bus (`X1xxxxxxMethod`)
- removed I2S0 on ESP32 (used by AudioReactive)
- renumbered internal bus numbers (iType)
- added buffer size reporting
This commit is contained in:
Blaž Kristan 2025-01-19 10:17:33 +01:00
parent aab29cb0ab
commit 0c84235a95
11 changed files with 676 additions and 515 deletions
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30
wled00/FX_fcn.cpp
View File

@ -1220,6 +1220,33 @@ void WS2812FX::finalizeInit() {
_hasWhiteChannel = _isOffRefreshRequired = false;
unsigned digitalCount = 0;
#if defined(ARDUINO_ARCH_ESP32) && !defined(CONFIG_IDF_TARGET_ESP32C3)
// determine if it is sensible to use parallel I2S outputs on ESP32 (i.e. more than 5 outputs = 1 I2S + 4 RMT)
unsigned maxLedsOnBus = 0;
for (const auto &bus : busConfigs) {
if (Bus::isDigital(bus.type) && !Bus::is2Pin(bus.type)) {
digitalCount++;
if (bus.count > maxLedsOnBus) maxLedsOnBus = bus.count;
}
}
DEBUG_PRINTF_P(PSTR("Maximum LEDs on a bus: %u\nDigital buses: %u\n"), maxLedsOnBus, digitalCount);
// we may remove 300 LEDs per bus limit when NeoPixelBus is updated beyond 2.9.0
if (maxLedsOnBus <= 300 && useParallelI2S) BusManager::useParallelOutput(); // must call before creating buses
else useParallelI2S = false; // enforce single I2S
#endif
// create buses/outputs
unsigned mem = 0;
digitalCount = 0;
for (const auto &bus : busConfigs) {
mem += bus.memUsage(Bus::isDigital(bus.type) && !Bus::is2Pin(bus.type) ? digitalCount++ : 0); // includes global buffer
if (mem <= MAX_LED_MEMORY) BusManager::add(bus);
else DEBUG_PRINTF_P(PSTR("Out of LED memory! Bus %d (%d) #%u not created."), (int)bus.type, (int)bus.count, digitalCount);
}
busConfigs.clear();
busConfigs.shrink_to_fit();
//if busses failed to load, add default (fresh install, FS issue, ...)
if (BusManager::getNumBusses() == 0) {
DEBUG_PRINTLN(F("No busses, init default"));
@ -1235,6 +1262,7 @@ void WS2812FX::finalizeInit() {
unsigned prevLen = 0;
unsigned pinsIndex = 0;
digitalCount = 0;
for (unsigned i = 0; i < WLED_MAX_BUSSES+WLED_MIN_VIRTUAL_BUSSES; i++) {
uint8_t defPin[OUTPUT_MAX_PINS];
// if we have less types than requested outputs and they do not align, use last known type to set current type
@ -1299,9 +1327,11 @@ void WS2812FX::finalizeInit() {
if (Bus::isPWM(dataType) || Bus::isOnOff(dataType)) count = 1;
prevLen += count;
BusConfig defCfg = BusConfig(dataType, defPin, start, count, DEFAULT_LED_COLOR_ORDER, false, 0, RGBW_MODE_MANUAL_ONLY, 0, useGlobalLedBuffer);
mem += defCfg.memUsage(Bus::isDigital(dataType) && !Bus::is2Pin(dataType) ? digitalCount++ : 0);
if (BusManager::add(defCfg) == -1) break;
}
}
DEBUG_PRINTF_P(PSTR("LED buffer size: %uB/%uB\n"), mem, BusManager::memUsage());
_length = 0;
for (int i=0; i<BusManager::getNumBusses(); i++) {

184
wled00/bus_manager.cpp
View File

@ -120,6 +120,11 @@ uint8_t *Bus::allocateData(size_t size) {
return _data = (uint8_t *)(size>0 ? calloc(size, sizeof(uint8_t)) : nullptr);
}
void Bus::freeData() {
if (_data) free(_data);
_data = nullptr;
}
BusDigital::BusDigital(const BusConfig &bc, uint8_t nr, const ColorOrderMap &com)
: Bus(bc.type, bc.start, bc.autoWhite, bc.count, bc.reversed, (bc.refreshReq || bc.type == TYPE_TM1814))
@ -129,30 +134,41 @@ BusDigital::BusDigital(const BusConfig &bc, uint8_t nr, const ColorOrderMap &com
, _milliAmpsMax(bc.milliAmpsMax)
, _colorOrderMap(com)
{
if (!isDigital(bc.type) || !bc.count) return;
if (!PinManager::allocatePin(bc.pins[0], true, PinOwner::BusDigital)) return;
DEBUG_PRINTLN(F("Bus: Creating digital bus."));
if (!isDigital(bc.type) || !bc.count) { DEBUG_PRINTLN(F("Not digial or empty bus!")); return; }
if (!PinManager::allocatePin(bc.pins[0], true, PinOwner::BusDigital)) { DEBUG_PRINTLN(F("Pin 0 allocated!")); return; }
_frequencykHz = 0U;
_pins[0] = bc.pins[0];
if (is2Pin(bc.type)) {
if (!PinManager::allocatePin(bc.pins[1], true, PinOwner::BusDigital)) {
cleanup();
DEBUG_PRINTLN(F("Pin 1 allocated!"));
return;
}
_pins[1] = bc.pins[1];
_frequencykHz = bc.frequency ? bc.frequency : 2000U; // 2MHz clock if undefined
}
_iType = PolyBus::getI(bc.type, _pins, nr);
if (_iType == I_NONE) return;
if (_iType == I_NONE) { DEBUG_PRINTLN(F("Incorrect iType!")); return; }
_hasRgb = hasRGB(bc.type);
_hasWhite = hasWhite(bc.type);
_hasCCT = hasCCT(bc.type);
if (bc.doubleBuffer && !allocateData(bc.count * Bus::getNumberOfChannels(bc.type))) return;
if (bc.doubleBuffer && !allocateData(bc.count * Bus::getNumberOfChannels(bc.type))) { DEBUG_PRINTLN(F("Buffer allocation failed!")); return; }
//_buffering = bc.doubleBuffer;
uint16_t lenToCreate = bc.count;
if (bc.type == TYPE_WS2812_1CH_X3) lenToCreate = NUM_ICS_WS2812_1CH_3X(bc.count); // only needs a third of "RGB" LEDs for NeoPixelBus
_busPtr = PolyBus::create(_iType, _pins, lenToCreate + _skip, nr);
_valid = (_busPtr != nullptr);
DEBUG_PRINTF_P(PSTR("%successfully inited strip %u (len %u) with type %u and pins %u,%u (itype %u). mA=%d/%d\n"), _valid?"S":"Uns", nr, bc.count, bc.type, _pins[0], is2Pin(bc.type)?_pins[1]:255, _iType, _milliAmpsPerLed, _milliAmpsMax);
DEBUG_PRINTF_P(PSTR("Bus: %successfully inited #%u (len:%u, type:%u (RGB:%d, W:%d, CCT:%d), pins:%u,%u [itype:%u] mA=%d/%d)\n"),
_valid?"S":"Uns",
(int)nr,
(int)bc.count,
(int)bc.type,
(int)_hasRgb, (int)_hasWhite, (int)_hasCCT,
(unsigned)_pins[0], is2Pin(bc.type)?(unsigned)_pins[1]:255U,
(unsigned)_iType,
(int)_milliAmpsPerLed, (int)_milliAmpsMax
);
}
//DISCLAIMER
@ -163,7 +179,7 @@ BusDigital::BusDigital(const BusConfig &bc, uint8_t nr, const ColorOrderMap &com
//I am NOT to be held liable for burned down garages or houses!
// To disable brightness limiter we either set output max current to 0 or single LED current to 0
uint8_t BusDigital::estimateCurrentAndLimitBri() {
uint8_t BusDigital::estimateCurrentAndLimitBri() const {
bool useWackyWS2815PowerModel = false;
byte actualMilliampsPerLed = _milliAmpsPerLed;
@ -176,7 +192,7 @@ uint8_t BusDigital::estimateCurrentAndLimitBri() {
actualMilliampsPerLed = 12; // from testing an actual strip
}
size_t powerBudget = (_milliAmpsMax - MA_FOR_ESP/BusManager::getNumBusses()); //80/120mA for ESP power
unsigned powerBudget = (_milliAmpsMax - MA_FOR_ESP/BusManager::getNumBusses()); //80/120mA for ESP power
if (powerBudget > getLength()) { //each LED uses about 1mA in standby, exclude that from power budget
powerBudget -= getLength();
} else {
@ -201,26 +217,25 @@ uint8_t BusDigital::estimateCurrentAndLimitBri() {
}
// powerSum has all the values of channels summed (max would be getLength()*765 as white is excluded) so convert to milliAmps
busPowerSum = (busPowerSum * actualMilliampsPerLed) / 765;
_milliAmpsTotal = busPowerSum * _bri / 255;
BusDigital::_milliAmpsTotal = (busPowerSum * actualMilliampsPerLed * _bri) / (765*255);
uint8_t newBri = _bri;
if (busPowerSum * _bri / 255 > powerBudget) { //scale brightness down to stay in current limit
float scale = (float)(powerBudget * 255) / (float)(busPowerSum * _bri);
if (scale >= 1.0f) return _bri;
_milliAmpsTotal = ceilf((float)_milliAmpsTotal * scale);
uint8_t scaleB = min((int)(scale * 255), 255);
newBri = unsigned(_bri * scaleB) / 256 + 1;
if (BusDigital::_milliAmpsTotal > powerBudget) {
//scale brightness down to stay in current limit
unsigned scaleB = powerBudget * 255 / BusDigital::_milliAmpsTotal;
newBri = (_bri * scaleB) / 256 + 1;
BusDigital::_milliAmpsTotal = powerBudget;
//_milliAmpsTotal = (busPowerSum * actualMilliampsPerLed * newBri) / (765*255);
}
return newBri;
}
void BusDigital::show() {
_milliAmpsTotal = 0;
BusDigital::_milliAmpsTotal = 0;
if (!_valid) return;
uint8_t cctWW = 0, cctCW = 0;
unsigned newBri = estimateCurrentAndLimitBri(); // will fill _milliAmpsTotal
unsigned newBri = estimateCurrentAndLimitBri(); // will fill _milliAmpsTotal (TODO: could use PolyBus::CalcTotalMilliAmpere())
if (newBri < _bri) PolyBus::setBrightness(_busPtr, _iType, newBri); // limit brightness to stay within current limits
if (_data) {
@ -374,6 +389,10 @@ uint8_t BusDigital::getPins(uint8_t* pinArray) const {
return numPins;
}
unsigned BusDigital::getBusSize() const {
return sizeof(BusDigital) + (isOk() ? PolyBus::getDataSize(_busPtr, _iType) + (_data ? _len * getNumberOfChannels() : 0) : 0);
}
void BusDigital::setColorOrder(uint8_t colorOrder) {
// upper nibble contains W swap information
if ((colorOrder & 0x0F) > 5) return;
@ -396,8 +415,8 @@ std::vector<LEDType> BusDigital::getLEDTypes() {
{TYPE_WS2805, "D", PSTR("WS2805 RGBCW")},
{TYPE_SM16825, "D", PSTR("SM16825 RGBCW")},
{TYPE_WS2812_1CH_X3, "D", PSTR("WS2811 White")},
//{TYPE_WS2812_2CH_X3, "D", PSTR("WS2811 CCT")}, // not implemented
//{TYPE_WS2812_WWA, "D", PSTR("WS2811 WWA")}, // not implemented
//{TYPE_WS2812_2CH_X3, "D", PSTR("WS281x CCT")}, // not implemented
{TYPE_WS2812_WWA, "D", PSTR("WS281x WWA")}, // amber ignored
{TYPE_WS2801, "2P", PSTR("WS2801")},
{TYPE_APA102, "2P", PSTR("APA102")},
{TYPE_LPD8806, "2P", PSTR("LPD8806")},
@ -417,7 +436,8 @@ void BusDigital::cleanup() {
_iType = I_NONE;
_valid = false;
_busPtr = nullptr;
if (_data != nullptr) freeData();
freeData();
//PinManager::deallocateMultiplePins(_pins, 2, PinOwner::BusDigital);
PinManager::deallocatePin(_pins[1], PinOwner::BusDigital);
PinManager::deallocatePin(_pins[0], PinOwner::BusDigital);
}
@ -492,7 +512,7 @@ BusPwm::BusPwm(const BusConfig &bc)
_hasRgb = hasRGB(bc.type);
_hasWhite = hasWhite(bc.type);
_hasCCT = hasCCT(bc.type);
_data = _pwmdata; // avoid malloc() and use stack
_data = _pwmdata; // avoid malloc() and use already allocated memory
_valid = true;
DEBUG_PRINTF_P(PSTR("%successfully inited PWM strip with type %u, frequency %u, bit depth %u and pins %u,%u,%u,%u,%u\n"), _valid?"S":"Uns", bc.type, _frequency, _depth, _pins[0], _pins[1], _pins[2], _pins[3], _pins[4]);
}
@ -771,6 +791,7 @@ std::vector<LEDType> BusNetwork::getLEDTypes() {
}
void BusNetwork::cleanup() {
DEBUG_PRINTLN(F("Virtual Cleanup."));
_type = I_NONE;
_valid = false;
freeData();
@ -778,41 +799,59 @@ void BusNetwork::cleanup() {
//utility to get the approx. memory usage of a given BusConfig
uint32_t BusManager::memUsage(const BusConfig &bc) {
if (Bus::isOnOff(bc.type) || Bus::isPWM(bc.type)) return OUTPUT_MAX_PINS;
unsigned len = bc.count + bc.skipAmount;
unsigned channels = Bus::getNumberOfChannels(bc.type);
unsigned multiplier = 1;
if (Bus::isDigital(bc.type)) { // digital types
if (Bus::is16bit(bc.type)) len *= 2; // 16-bit LEDs
#ifdef ESP8266
if (bc.pins[0] == 3) { //8266 DMA uses 5x the mem
multiplier = 5;
unsigned BusConfig::memUsage(unsigned nr) const {
if (Bus::isVirtual(type)) {
return sizeof(BusNetwork) + (count * Bus::getNumberOfChannels(type));
} else if (Bus::isDigital(type)) {
return sizeof(BusDigital) + PolyBus::memUsage(count + skipAmount, PolyBus::getI(type, pins, nr)) + doubleBuffer * (count + skipAmount) * Bus::getNumberOfChannels(type);
} else if (Bus::isOnOff(type)) {
return sizeof(BusOnOff);
} else {
return sizeof(BusPwm);
}
#else //ESP32 RMT uses double buffer, parallel I2S uses 8x buffer (3 times)
multiplier = PolyBus::isParallelI2S1Output() ? 24 : 2;
#endif
}
return (len * multiplier + bc.doubleBuffer * (bc.count + bc.skipAmount)) * channels;
}
uint32_t BusManager::memUsage(unsigned maxChannels, unsigned maxCount, unsigned minBuses) {
//ESP32 RMT uses double buffer, parallel I2S uses 8x buffer (3 times)
unsigned multiplier = PolyBus::isParallelI2S1Output() ? 3 : 2;
return (maxChannels * maxCount * minBuses * multiplier);
unsigned BusManager::memUsage() {
// when ESP32, S2 & S3 use parallel I2S only the largest bus determines the total memory requirements for back buffers
// front buffers are always allocated per bus
unsigned size = 0;
unsigned maxI2S = 0;
#if !defined(CONFIG_IDF_TARGET_ESP32C3) && !defined(ESP8266)
unsigned digitalCount = 0;
#if defined(CONFIG_IDF_TARGET_ESP32S2) || defined(CONFIG_IDF_TARGET_ESP32S3)
#define MAX_RMT 4
#else
#define MAX_RMT 8
#endif
#endif
for (const auto &bus : busses) {
//for (unsigned i=0; i<numBusses; i++) {
unsigned busSize = bus->getBusSize();
#if !defined(CONFIG_IDF_TARGET_ESP32C3) && !defined(ESP8266)
if (bus->isDigital() && !bus->is2Pin()) digitalCount++;
if (PolyBus::isParallelI2S1Output() && digitalCount > MAX_RMT) {
unsigned i2sCommonSize = 3 * bus->getLength() * bus->getNumberOfChannels() * (bus->is16bit()+1);
if (i2sCommonSize > maxI2S) maxI2S = i2sCommonSize;
busSize -= i2sCommonSize;
}
#endif
size += busSize;
}
return size + maxI2S;
}
int BusManager::add(const BusConfig &bc) {
DEBUG_PRINTF_P(PSTR("Bus: Adding bus #%d (%d - %d >= %d)\n"), numBusses, getNumBusses(), getNumVirtualBusses(), WLED_MAX_BUSSES);
if (getNumBusses() - getNumVirtualBusses() >= WLED_MAX_BUSSES) return -1;
if (Bus::isVirtual(bc.type)) {
busses[numBusses] = new BusNetwork(bc);
busses.push_back(new BusNetwork(bc));
} else if (Bus::isDigital(bc.type)) {
busses[numBusses] = new BusDigital(bc, numBusses, colorOrderMap);
busses.push_back(new BusDigital(bc, numBusses, colorOrderMap));
} else if (Bus::isOnOff(bc.type)) {
busses[numBusses] = new BusOnOff(bc);
busses.push_back(new BusOnOff(bc));
} else {
busses[numBusses] = new BusPwm(bc);
busses.push_back(new BusPwm(bc));
}
return numBusses++;
}
@ -843,7 +882,7 @@ String BusManager::getLEDTypesJSONString() {
}
void BusManager::useParallelOutput() {
_parallelOutputs = 8; // hardcoded since we use NPB I2S x8 methods
DEBUG_PRINTLN(F("Bus: Enabling parallel I2S."));
PolyBus::setParallelI2S1Output();
}
@ -852,7 +891,8 @@ void BusManager::removeAll() {
DEBUG_PRINTLN(F("Removing all."));
//prevents crashes due to deleting busses while in use.
while (!canAllShow()) yield();
for (unsigned i = 0; i < numBusses; i++) delete busses[i];
for (auto &bus : busses) delete bus;
busses.clear();
numBusses = 0;
_parallelOutputs = 1;
PolyBus::setParallelI2S1Output(false);
@ -897,12 +937,12 @@ void BusManager::on() {
#ifdef ESP8266
//Fix for turning off onboard LED breaking bus
if (PinManager::getPinOwner(LED_BUILTIN) == PinOwner::BusDigital) {
for (unsigned i = 0; i < numBusses; i++) {
for (auto &bus : busses) {
uint8_t pins[2] = {255,255};
if (busses[i]->isDigital() && busses[i]->getPins(pins)) {
if (bus->isDigital() && bus->getPins(pins)) {
if (pins[0] == LED_BUILTIN || pins[1] == LED_BUILTIN) {
BusDigital *bus = static_cast<BusDigital*>(busses[i]);
bus->begin();
BusDigital *b = static_cast<BusDigital*>(bus);
b->begin();
break;
}
}
@ -919,7 +959,7 @@ void BusManager::off() {
// turn off built-in LED if strip is turned off
// this will break digital bus so will need to be re-initialised on On
if (PinManager::getPinOwner(LED_BUILTIN) == PinOwner::BusDigital) {
for (unsigned i = 0; i < numBusses; i++) if (busses[i]->isOffRefreshRequired()) return;
for (const auto &bus : busses) if (bus->isOffRefreshRequired()) return;
pinMode(LED_BUILTIN, OUTPUT);
digitalWrite(LED_BUILTIN, HIGH);
}
@ -931,30 +971,26 @@ void BusManager::off() {
void BusManager::show() {
_milliAmpsUsed = 0;
for (unsigned i = 0; i < numBusses; i++) {
busses[i]->show();
_milliAmpsUsed += busses[i]->getUsedCurrent();
for (auto &bus : busses) {
bus->show();
_milliAmpsUsed += bus->getUsedCurrent();
}
}
void BusManager::setStatusPixel(uint32_t c) {
for (unsigned i = 0; i < numBusses; i++) {
busses[i]->setStatusPixel(c);
}
for (auto &bus : busses) bus->setStatusPixel(c);
}
void IRAM_ATTR BusManager::setPixelColor(unsigned pix, uint32_t c) {
for (unsigned i = 0; i < numBusses; i++) {
unsigned bstart = busses[i]->getStart();
if (pix < bstart || pix >= bstart + busses[i]->getLength()) continue;
busses[i]->setPixelColor(pix - bstart, c);
for (auto &bus : busses) {
unsigned bstart = bus->getStart();
if (pix < bstart || pix >= bstart + bus->getLength()) continue;
bus->setPixelColor(pix - bstart, c);
}
}
void BusManager::setBrightness(uint8_t b) {
for (unsigned i = 0; i < numBusses; i++) {
busses[i]->setBrightness(b);
}
for (auto &bus : busses) bus->setBrightness(b);
}
void BusManager::setSegmentCCT(int16_t cct, bool allowWBCorrection) {
@ -967,30 +1003,28 @@ void BusManager::setSegmentCCT(int16_t cct, bool allowWBCorrection) {
}
uint32_t BusManager::getPixelColor(unsigned pix) {
for (unsigned i = 0; i < numBusses; i++) {
unsigned bstart = busses[i]->getStart();
if (!busses[i]->containsPixel(pix)) continue;
return busses[i]->getPixelColor(pix - bstart);
for (auto &bus : busses) {
unsigned bstart = bus->getStart();
if (!bus->containsPixel(pix)) continue;
return bus->getPixelColor(pix - bstart);
}
return 0;
}
bool BusManager::canAllShow() {
for (unsigned i = 0; i < numBusses; i++) {
if (!busses[i]->canShow()) return false;
}
for (const auto &bus : busses) if (!bus->canShow()) return false;
return true;
}
Bus* BusManager::getBus(uint8_t busNr) {
if (busNr >= numBusses) return nullptr;
if (busNr >= busses.size()) return nullptr;
return busses[busNr];
}
//semi-duplicate of strip.getLengthTotal() (though that just returns strip._length, calculated in finalizeInit())
uint16_t BusManager::getTotalLength() {
unsigned len = 0;
for (unsigned i=0; i<numBusses; i++) len += busses[i]->getLength();
for (const auto &bus : busses) len += bus->getLength();
return len;
}
@ -1004,7 +1038,7 @@ uint8_t Bus::_gAWM = 255;
uint16_t BusDigital::_milliAmpsTotal = 0;
uint8_t BusManager::numBusses = 0;
Bus* BusManager::busses[WLED_MAX_BUSSES+WLED_MIN_VIRTUAL_BUSSES];
std::vector<Bus*> BusManager::busses;
ColorOrderMap BusManager::colorOrderMap = {};
uint16_t BusManager::_milliAmpsUsed = 0;
uint16_t BusManager::_milliAmpsMax = ABL_MILLIAMPS_DEFAULT;

48
wled00/bus_manager.h
View File

@ -1,3 +1,4 @@
#pragma once
#ifndef BusManager_h
#define BusManager_h
@ -78,7 +79,7 @@ class Bus {
_autoWhiteMode = Bus::hasWhite(type) ? aw : RGBW_MODE_MANUAL_ONLY;
};
virtual ~Bus() {} //throw the bus under the bus
virtual ~Bus() {} //throw the bus under the bus (derived class needs to freeData())
virtual void begin() {};
virtual void show() = 0;
@ -88,14 +89,15 @@ class Bus {
virtual void setBrightness(uint8_t b) { _bri = b; };
virtual void setColorOrder(uint8_t co) {}
virtual uint32_t getPixelColor(unsigned pix) const { return 0; }
virtual uint8_t getPins(uint8_t* pinArray = nullptr) const { return 0; }
virtual unsigned getPins(uint8_t* pinArray = nullptr) const { return 0; }
virtual uint16_t getLength() const { return isOk() ? _len : 0; }
virtual uint8_t getColorOrder() const { return COL_ORDER_RGB; }
virtual uint8_t skippedLeds() const { return 0; }
virtual unsigned skippedLeds() const { return 0; }
virtual uint16_t getFrequency() const { return 0U; }
virtual uint16_t getLEDCurrent() const { return 0; }
virtual uint16_t getUsedCurrent() const { return 0; }
virtual uint16_t getMaxCurrent() const { return 0; }
virtual unsigned getBusSize() const { return sizeof(Bus); }
inline bool hasRGB() const { return _hasRgb; }
inline bool hasWhite() const { return _hasWhite; }
@ -192,7 +194,7 @@ class Bus {
uint32_t autoWhiteCalc(uint32_t c) const;
uint8_t *allocateData(size_t size = 1);
void freeData() { if (_data != nullptr) free(_data); _data = nullptr; }
void freeData();
};
@ -215,6 +217,7 @@ class BusDigital : public Bus {
uint16_t getLEDCurrent() const override { return _milliAmpsPerLed; }
uint16_t getUsedCurrent() const override { return _milliAmpsTotal; }
uint16_t getMaxCurrent() const override { return _milliAmpsMax; }
unsigned getBusSize() const override;
void begin() override;
void cleanup();
@ -244,7 +247,7 @@ class BusDigital : public Bus {
return c;
}
uint8_t estimateCurrentAndLimitBri();
uint8_t estimateCurrentAndLimitBri() const;
};
@ -257,8 +260,9 @@ class BusPwm : public Bus {
uint32_t getPixelColor(unsigned pix) const override; //does no index check
uint8_t getPins(uint8_t* pinArray = nullptr) const override;
uint16_t getFrequency() const override { return _frequency; }
unsigned getBusSize() const override { return sizeof(BusPwm); }
void show() override;
void cleanup() { deallocatePins(); }
inline void cleanup() { deallocatePins(); _data = nullptr; }
static std::vector<LEDType> getLEDTypes();
@ -282,9 +286,10 @@ class BusOnOff : public Bus {
void setPixelColor(unsigned pix, uint32_t c) override;
uint32_t getPixelColor(unsigned pix) const override;
uint8_t getPins(uint8_t* pinArray) const override;
unsigned getPins(uint8_t* pinArray) const override;
unsigned getBusSize() const override { return sizeof(BusOnOff); }
void show() override;
void cleanup() { PinManager::deallocatePin(_pin, PinOwner::BusOnOff); }
inline void cleanup() { PinManager::deallocatePin(_pin, PinOwner::BusOnOff); _data = nullptr; }
static std::vector<LEDType> getLEDTypes();
@ -300,9 +305,10 @@ class BusNetwork : public Bus {
~BusNetwork() { cleanup(); }
bool canShow() const override { return !_broadcastLock; } // this should be a return value from UDP routine if it is still sending data out
void setPixelColor(unsigned pix, uint32_t c) override;
uint32_t getPixelColor(unsigned pix) const override;
uint8_t getPins(uint8_t* pinArray = nullptr) const override;
[[gnu::hot]] void setPixelColor(unsigned pix, uint32_t c) override;
[[gnu::hot]] uint32_t getPixelColor(unsigned pix) const override;
unsigned getPins(uint8_t* pinArray = nullptr) const override;
unsigned getBusSize() const override { return sizeof(BusNetwork) + (isOk() ? _len * _UDPchannels : 0); }
void show() override;
void cleanup();
@ -348,6 +354,16 @@ struct BusConfig {
type = busType & 0x7F; // bit 7 may be/is hacked to include refresh info (1=refresh in off state, 0=no refresh)
size_t nPins = Bus::getNumberOfPins(type);
for (size_t i = 0; i < nPins; i++) pins[i] = ppins[i];
DEBUG_PRINTF_P(PSTR("Bus: Config (%d-%d, type:%d, CO:%d, rev:%d, skip:%d, AW:%d kHz:%d, mA:%d/%d)\n"),
(int)start, (int)(start+len),
(int)type,
(int)colorOrder,
(int)reversed,
(int)skipAmount,
(int)autoWhite,
(int)frequency,
(int)milliAmpsPerLed, (int)milliAmpsMax
);
}
//validates start and length and extends total if needed
@ -361,6 +377,8 @@ struct BusConfig {
if (start + count > total) total = start + count;
return true;
}
unsigned memUsage(unsigned nr = 0) const;
};
@ -378,9 +396,7 @@ class BusManager {
public:
BusManager() {};
//utility to get the approx. memory usage of a given BusConfig
static uint32_t memUsage(const BusConfig &bc);
static uint32_t memUsage(unsigned channels, unsigned count, unsigned buses = 1);
static unsigned memUsage();
static uint16_t currentMilliamps() { return _milliAmpsUsed + MA_FOR_ESP; }
static uint16_t ablMilliampsMax() { return _milliAmpsMax; }
@ -416,7 +432,7 @@ class BusManager {
private:
static uint8_t numBusses;
static Bus* busses[WLED_MAX_BUSSES+WLED_MIN_VIRTUAL_BUSSES];
static std::vector<Bus*> busses;
static ColorOrderMap colorOrderMap;
static uint16_t _milliAmpsUsed;
static uint16_t _milliAmpsMax;
@ -427,7 +443,7 @@ class BusManager {
#endif
static uint8_t getNumVirtualBusses() {
int j = 0;
for (int i=0; i<numBusses; i++) if (busses[i]->isVirtual()) j++;
for (const auto &bus : busses) j += bus->isVirtual();
return j;
}
};

788
wled00/bus_wrapper.h
View File

@ -1,24 +1,11 @@
#pragma once
#ifndef BusWrapper_h
#define BusWrapper_h
//#define NPB_CONF_4STEP_CADENCE
#include "NeoPixelBusLg.h"
#include "bus_manager.h"
// temporary - these defines should actually be set in platformio.ini
// C3: I2S0 and I2S1 methods not supported (has one I2S bus)
// S2: I2S1 methods not supported (has one I2S bus)
// S3: I2S0 and I2S1 methods not supported yet (has two I2S buses)
// https://github.com/Makuna/NeoPixelBus/blob/b32f719e95ef3c35c46da5c99538017ef925c026/src/internal/Esp32_i2s.h#L4
// https://github.com/Makuna/NeoPixelBus/blob/b32f719e95ef3c35c46da5c99538017ef925c026/src/internal/NeoEsp32RmtMethod.h#L857
#if !defined(WLED_NO_I2S0_PIXELBUS) && (defined(CONFIG_IDF_TARGET_ESP32S3) || defined(CONFIG_IDF_TARGET_ESP32C3))
#define WLED_NO_I2S0_PIXELBUS
#endif
#if !defined(WLED_NO_I2S1_PIXELBUS) && (defined(CONFIG_IDF_TARGET_ESP32S3) || defined(CONFIG_IDF_TARGET_ESP32C3) || defined(CONFIG_IDF_TARGET_ESP32S2))
#define WLED_NO_I2S1_PIXELBUS
#endif
// temporary end
//Hardware SPI Pins
#define P_8266_HS_MOSI 13
#define P_8266_HS_CLK 14
@ -55,110 +42,98 @@
#define I_8266_DM_TM2_3 19
#define I_8266_BB_TM2_3 20
//UCS8903 (RGB)
#define I_8266_U0_UCS_3 49
#define I_8266_U1_UCS_3 50
#define I_8266_DM_UCS_3 51
#define I_8266_BB_UCS_3 52
#define I_8266_U0_UCS_3 21
#define I_8266_U1_UCS_3 22
#define I_8266_DM_UCS_3 23
#define I_8266_BB_UCS_3 24
//UCS8904 (RGBW)
#define I_8266_U0_UCS_4 53
#define I_8266_U1_UCS_4 54
#define I_8266_DM_UCS_4 55
#define I_8266_BB_UCS_4 56
#define I_8266_U0_UCS_4 25
#define I_8266_U1_UCS_4 26
#define I_8266_DM_UCS_4 27
#define I_8266_BB_UCS_4 28
//FW1906 GRBCW
#define I_8266_U0_FW6_5 66
#define I_8266_U1_FW6_5 67
#define I_8266_DM_FW6_5 68
#define I_8266_BB_FW6_5 69
#define I_8266_U0_FW6_5 29
#define I_8266_U1_FW6_5 30
#define I_8266_DM_FW6_5 31
#define I_8266_BB_FW6_5 32
//ESP8266 APA106
#define I_8266_U0_APA106_3 81
#define I_8266_U1_APA106_3 82
#define I_8266_DM_APA106_3 83
#define I_8266_BB_APA106_3 84
#define I_8266_U0_APA106_3 33
#define I_8266_U1_APA106_3 34
#define I_8266_DM_APA106_3 35
#define I_8266_BB_APA106_3 36
//WS2805 (RGBCW)
#define I_8266_U0_2805_5 89
#define I_8266_U1_2805_5 90
#define I_8266_DM_2805_5 91
#define I_8266_BB_2805_5 92
#define I_8266_U0_2805_5 37
#define I_8266_U1_2805_5 38
#define I_8266_DM_2805_5 39
#define I_8266_BB_2805_5 40
//TM1914 (RGB)
#define I_8266_U0_TM1914_3 99
#define I_8266_U1_TM1914_3 100
#define I_8266_DM_TM1914_3 101
#define I_8266_BB_TM1914_3 102
#define I_8266_U0_TM1914_3 41
#define I_8266_U1_TM1914_3 42
#define I_8266_DM_TM1914_3 43
#define I_8266_BB_TM1914_3 44
//SM16825 (RGBCW)
#define I_8266_U0_SM16825_5 103
#define I_8266_U1_SM16825_5 104
#define I_8266_DM_SM16825_5 105
#define I_8266_BB_SM16825_5 106
#define I_8266_U0_SM16825_5 45
#define I_8266_U1_SM16825_5 46
#define I_8266_DM_SM16825_5 47
#define I_8266_BB_SM16825_5 48
/*** ESP32 Neopixel methods ***/
//RGB
#define I_32_RN_NEO_3 21
#define I_32_I0_NEO_3 22
#define I_32_I1_NEO_3 23
#define I_32_RN_NEO_3 1
#define I_32_I2_NEO_3 2
//RGBW
#define I_32_RN_NEO_4 25
#define I_32_I0_NEO_4 26
#define I_32_I1_NEO_4 27
#define I_32_RN_NEO_4 5
#define I_32_I2_NEO_4 6
//400Kbps
#define I_32_RN_400_3 29
#define I_32_I0_400_3 30
#define I_32_I1_400_3 31
#define I_32_RN_400_3 9
#define I_32_I2_400_3 10
//TM1814 (RGBW)
#define I_32_RN_TM1_4 33
#define I_32_I0_TM1_4 34
#define I_32_I1_TM1_4 35
#define I_32_RN_TM1_4 13
#define I_32_I2_TM1_4 14
//TM1829 (RGB)
#define I_32_RN_TM2_3 36
#define I_32_I0_TM2_3 37
#define I_32_I1_TM2_3 38
#define I_32_RN_TM2_3 17
#define I_32_I2_TM2_3 18
//UCS8903 (RGB)
#define I_32_RN_UCS_3 57
#define I_32_I0_UCS_3 58
#define I_32_I1_UCS_3 59
#define I_32_RN_UCS_3 21
#define I_32_I2_UCS_3 22
//UCS8904 (RGBW)
#define I_32_RN_UCS_4 60
#define I_32_I0_UCS_4 61
#define I_32_I1_UCS_4 62
#define I_32_RN_UCS_4 25
#define I_32_I2_UCS_4 26
//FW1906 GRBCW
#define I_32_RN_FW6_5 63
#define I_32_I0_FW6_5 64
#define I_32_I1_FW6_5 65
#define I_32_RN_FW6_5 29
#define I_32_I2_FW6_5 30
//APA106
#define I_32_RN_APA106_3 85
#define I_32_I0_APA106_3 86
#define I_32_I1_APA106_3 87
#define I_32_RN_APA106_3 33
#define I_32_I2_APA106_3 34
//WS2805 (RGBCW)
#define I_32_RN_2805_5 93
#define I_32_I0_2805_5 94
#define I_32_I1_2805_5 95
#define I_32_RN_2805_5 37
#define I_32_I2_2805_5 38
//TM1914 (RGB)
#define I_32_RN_TM1914_3 96
#define I_32_I0_TM1914_3 97
#define I_32_I1_TM1914_3 98
#define I_32_RN_TM1914_3 41
#define I_32_I2_TM1914_3 42
//SM16825 (RGBCW)
#define I_32_RN_SM16825_5 107
#define I_32_I0_SM16825_5 108
#define I_32_I1_SM16825_5 109
#define I_32_RN_SM16825_5 45
#define I_32_I2_SM16825_5 46
//APA102
#define I_HS_DOT_3 39 //hardware SPI
#define I_SS_DOT_3 40 //soft SPI
#define I_HS_DOT_3 101 //hardware SPI
#define I_SS_DOT_3 102 //soft SPI
//LPD8806
#define I_HS_LPD_3 41
#define I_SS_LPD_3 42
#define I_HS_LPD_3 103
#define I_SS_LPD_3 104
//WS2801
#define I_HS_WS1_3 43
#define I_SS_WS1_3 44
#define I_HS_WS1_3 105
#define I_SS_WS1_3 106
//P9813
#define I_HS_P98_3 45
#define I_SS_P98_3 46
#define I_HS_P98_3 107
#define I_SS_P98_3 108
//LPD6803
#define I_HS_LPO_3 47
#define I_SS_LPO_3 48
#define I_HS_LPO_3 109
#define I_SS_LPO_3 110
// In the following NeoGammaNullMethod can be replaced with NeoGammaWLEDMethod to perform Gamma correction implicitly
@ -230,66 +205,95 @@
/*** ESP32 Neopixel methods ***/
#ifdef ARDUINO_ARCH_ESP32
// C3: I2S0 and I2S1 methods not supported (has one I2S bus)
// S2: I2S0 methods supported (single & parallel), I2S1 methods not supported (has one I2S bus)
// S3: I2S0 methods not supported, I2S1 supports LCD parallel methods (has two I2S buses)
// https://github.com/Makuna/NeoPixelBus/blob/b32f719e95ef3c35c46da5c99538017ef925c026/src/internal/Esp32_i2s.h#L4
// https://github.com/Makuna/NeoPixelBus/blob/b32f719e95ef3c35c46da5c99538017ef925c026/src/internal/NeoEsp32RmtMethod.h#L857
#if defined(CONFIG_IDF_TARGET_ESP32S3)
// S3 will always use LCD parallel output
typedef X8Ws2812xMethod X1Ws2812xMethod;
typedef X8Sk6812Method X1Sk6812Method;
typedef X8400KbpsMethod X1400KbpsMethod;
typedef X8800KbpsMethod X1800KbpsMethod;
typedef X8Tm1814Method X1Tm1814Method;
typedef X8Tm1829Method X1Tm1829Method;
typedef X8Apa106Method X1Apa106Method;
typedef X8Ws2805Method X1Ws2805Method;
typedef X8Tm1914Method X1Tm1914Method;
#elif defined(CONFIG_IDF_TARGET_ESP32S2)
// S2 will use I2S0
typedef NeoEsp32I2s0Ws2812xMethod X1Ws2812xMethod;
typedef NeoEsp32I2s0Sk6812Method X1Sk6812Method;
typedef NeoEsp32I2s0400KbpsMethod X1400KbpsMethod;
typedef NeoEsp32I2s0800KbpsMethod X1800KbpsMethod;
typedef NeoEsp32I2s0Tm1814Method X1Tm1814Method;
typedef NeoEsp32I2s0Tm1829Method X1Tm1829Method;
typedef NeoEsp32I2s0Apa106Method X1Apa106Method;
typedef NeoEsp32I2s0Ws2805Method X1Ws2805Method;
typedef NeoEsp32I2s0Tm1914Method X1Tm1914Method;
#elif !defined(CONFIG_IDF_TARGET_ESP32C3)
// regular ESP32 will use I2S1
typedef NeoEsp32I2s1Ws2812xMethod X1Ws2812xMethod;
typedef NeoEsp32I2s1Sk6812Method X1Sk6812Method;
typedef NeoEsp32I2s1400KbpsMethod X1400KbpsMethod;
typedef NeoEsp32I2s1800KbpsMethod X1800KbpsMethod;
typedef NeoEsp32I2s1Tm1814Method X1Tm1814Method;
typedef NeoEsp32I2s1Tm1829Method X1Tm1829Method;
typedef NeoEsp32I2s1Apa106Method X1Apa106Method;
typedef NeoEsp32I2s1Ws2805Method X1Ws2805Method;
typedef NeoEsp32I2s1Tm1914Method X1Tm1914Method;
#endif
//RGB
#define B_32_RN_NEO_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32RmtNWs2812xMethod, NeoGammaNullMethod>
#define B_32_I0_NEO_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2s0Ws2812xMethod, NeoGammaNullMethod>
#define B_32_I1_NEO_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2s1Ws2812xMethod, NeoGammaNullMethod>
#define B_32_I1_NEO_3P NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2s1X8Ws2812xMethod, NeoGammaNullMethod> // parallel I2S
#define B_32_RN_NEO_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32RmtNWs2812xMethod, NeoGammaNullMethod> // ESP32, S2, S3, C3
//#define B_32_IN_NEO_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2sNWs2812xMethod, NeoGammaNullMethod> // ESP32 (dynamic I2S selection)
#define B_32_I2_NEO_3 NeoPixelBusLg<NeoGrbFeature, X1Ws2812xMethod, NeoGammaNullMethod> // ESP32, S2, S3 (automatic I2S selection, see typedef above)
#define B_32_IP_NEO_3 NeoPixelBusLg<NeoGrbFeature, X8Ws2812xMethod, NeoGammaNullMethod> // parallel I2S (ESP32, S2, S3)
//RGBW
#define B_32_RN_NEO_4 NeoPixelBusLg<NeoGrbwFeature, NeoEsp32RmtNSk6812Method, NeoGammaNullMethod>
#define B_32_I0_NEO_4 NeoPixelBusLg<NeoGrbwFeature, NeoEsp32I2s0Sk6812Method, NeoGammaNullMethod>
#define B_32_I1_NEO_4 NeoPixelBusLg<NeoGrbwFeature, NeoEsp32I2s1Sk6812Method, NeoGammaNullMethod>
#define B_32_I1_NEO_4P NeoPixelBusLg<NeoGrbwFeature, NeoEsp32I2s1X8Sk6812Method, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_NEO_4 NeoPixelBusLg<NeoGrbwFeature, X1Sk6812Method, NeoGammaNullMethod>
#define B_32_IP_NEO_4 NeoPixelBusLg<NeoGrbwFeature, X8Sk6812Method, NeoGammaNullMethod> // parallel I2S
//400Kbps
#define B_32_RN_400_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32RmtN400KbpsMethod, NeoGammaNullMethod>
#define B_32_I0_400_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2s0400KbpsMethod, NeoGammaNullMethod>
#define B_32_I1_400_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2s1400KbpsMethod, NeoGammaNullMethod>
#define B_32_I1_400_3P NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2s1X8400KbpsMethod, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_400_3 NeoPixelBusLg<NeoGrbFeature, X1400KbpsMethod, NeoGammaNullMethod>
#define B_32_IP_400_3 NeoPixelBusLg<NeoGrbFeature, X8400KbpsMethod, NeoGammaNullMethod> // parallel I2S
//TM1814 (RGBW)
#define B_32_RN_TM1_4 NeoPixelBusLg<NeoWrgbTm1814Feature, NeoEsp32RmtNTm1814Method, NeoGammaNullMethod>
#define B_32_I0_TM1_4 NeoPixelBusLg<NeoWrgbTm1814Feature, NeoEsp32I2s0Tm1814Method, NeoGammaNullMethod>
#define B_32_I1_TM1_4 NeoPixelBusLg<NeoWrgbTm1814Feature, NeoEsp32I2s1Tm1814Method, NeoGammaNullMethod>
#define B_32_I1_TM1_4P NeoPixelBusLg<NeoWrgbTm1814Feature, NeoEsp32I2s1X8Tm1814Method, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_TM1_4 NeoPixelBusLg<NeoWrgbTm1814Feature, X1Tm1814Method, NeoGammaNullMethod>
#define B_32_IP_TM1_4 NeoPixelBusLg<NeoWrgbTm1814Feature, X8Tm1814Method, NeoGammaNullMethod> // parallel I2S
//TM1829 (RGB)
#define B_32_RN_TM2_3 NeoPixelBusLg<NeoBrgFeature, NeoEsp32RmtNTm1829Method, NeoGammaNullMethod>
#define B_32_I0_TM2_3 NeoPixelBusLg<NeoBrgFeature, NeoEsp32I2s0Tm1829Method, NeoGammaNullMethod>
#define B_32_I1_TM2_3 NeoPixelBusLg<NeoBrgFeature, NeoEsp32I2s1Tm1829Method, NeoGammaNullMethod>
#define B_32_I1_TM2_3P NeoPixelBusLg<NeoBrgFeature, NeoEsp32I2s1X8Tm1829Method, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_TM2_3 NeoPixelBusLg<NeoBrgFeature, X1Tm1829Method, NeoGammaNullMethod>
#define B_32_IP_TM2_3 NeoPixelBusLg<NeoBrgFeature, X8Tm1829Method, NeoGammaNullMethod> // parallel I2S
//UCS8903
#define B_32_RN_UCS_3 NeoPixelBusLg<NeoRgbUcs8903Feature, NeoEsp32RmtNWs2812xMethod, NeoGammaNullMethod>
#define B_32_I0_UCS_3 NeoPixelBusLg<NeoRgbUcs8903Feature, NeoEsp32I2s0800KbpsMethod, NeoGammaNullMethod>
#define B_32_I1_UCS_3 NeoPixelBusLg<NeoRgbUcs8903Feature, NeoEsp32I2s1800KbpsMethod, NeoGammaNullMethod>
#define B_32_I1_UCS_3P NeoPixelBusLg<NeoRgbUcs8903Feature, NeoEsp32I2s1X8800KbpsMethod, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_UCS_3 NeoPixelBusLg<NeoRgbUcs8903Feature, X1800KbpsMethod, NeoGammaNullMethod>
#define B_32_IP_UCS_3 NeoPixelBusLg<NeoRgbUcs8903Feature, X8800KbpsMethod, NeoGammaNullMethod> // parallel I2S
//UCS8904
#define B_32_RN_UCS_4 NeoPixelBusLg<NeoRgbwUcs8904Feature, NeoEsp32RmtNWs2812xMethod, NeoGammaNullMethod>
#define B_32_I0_UCS_4 NeoPixelBusLg<NeoRgbwUcs8904Feature, NeoEsp32I2s0800KbpsMethod, NeoGammaNullMethod>
#define B_32_I1_UCS_4 NeoPixelBusLg<NeoRgbwUcs8904Feature, NeoEsp32I2s1800KbpsMethod, NeoGammaNullMethod>
#define B_32_I1_UCS_4P NeoPixelBusLg<NeoRgbwUcs8904Feature, NeoEsp32I2s1X8800KbpsMethod, NeoGammaNullMethod>// parallel I2S
#define B_32_I2_UCS_4 NeoPixelBusLg<NeoRgbwUcs8904Feature, X1800KbpsMethod, NeoGammaNullMethod>
#define B_32_IP_UCS_4 NeoPixelBusLg<NeoRgbwUcs8904Feature, X8800KbpsMethod, NeoGammaNullMethod>// parallel I2S
//APA106
#define B_32_RN_APA106_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32RmtNApa106Method, NeoGammaNullMethod>
#define B_32_I0_APA106_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2s0Apa106Method, NeoGammaNullMethod>
#define B_32_I1_APA106_3 NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2s1Apa106Method, NeoGammaNullMethod>
#define B_32_I1_APA106_3P NeoPixelBusLg<NeoGrbFeature, NeoEsp32I2s1X8Apa106Method, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_APA106_3 NeoPixelBusLg<NeoGrbFeature, X1Apa106Method, NeoGammaNullMethod>
#define B_32_IP_APA106_3 NeoPixelBusLg<NeoGrbFeature, X8Apa106Method, NeoGammaNullMethod> // parallel I2S
//FW1906 GRBCW
#define B_32_RN_FW6_5 NeoPixelBusLg<NeoGrbcwxFeature, NeoEsp32RmtNWs2812xMethod, NeoGammaNullMethod>
#define B_32_I0_FW6_5 NeoPixelBusLg<NeoGrbcwxFeature, NeoEsp32I2s0800KbpsMethod, NeoGammaNullMethod>
#define B_32_I1_FW6_5 NeoPixelBusLg<NeoGrbcwxFeature, NeoEsp32I2s1800KbpsMethod, NeoGammaNullMethod>
#define B_32_I1_FW6_5P NeoPixelBusLg<NeoGrbcwxFeature, NeoEsp32I2s1X8800KbpsMethod, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_FW6_5 NeoPixelBusLg<NeoGrbcwxFeature, X1800KbpsMethod, NeoGammaNullMethod>
#define B_32_IP_FW6_5 NeoPixelBusLg<NeoGrbcwxFeature, X8800KbpsMethod, NeoGammaNullMethod> // parallel I2S
//WS2805 RGBWC
#define B_32_RN_2805_5 NeoPixelBusLg<NeoGrbwwFeature, NeoEsp32RmtNWs2805Method, NeoGammaNullMethod>
#define B_32_I0_2805_5 NeoPixelBusLg<NeoGrbwwFeature, NeoEsp32I2s0Ws2805Method, NeoGammaNullMethod>
#define B_32_I1_2805_5 NeoPixelBusLg<NeoGrbwwFeature, NeoEsp32I2s1Ws2805Method, NeoGammaNullMethod>
#define B_32_I1_2805_5P NeoPixelBusLg<NeoGrbwwFeature, NeoEsp32I2s1X8Ws2805Method, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_2805_5 NeoPixelBusLg<NeoGrbwwFeature, X1Ws2805Method, NeoGammaNullMethod>
#define B_32_IP_2805_5 NeoPixelBusLg<NeoGrbwwFeature, X8Ws2805Method, NeoGammaNullMethod> // parallel I2S
//TM1914 (RGB)
#define B_32_RN_TM1914_3 NeoPixelBusLg<NeoGrbTm1914Feature, NeoEsp32RmtNTm1914Method, NeoGammaNullMethod>
#define B_32_I0_TM1914_3 NeoPixelBusLg<NeoGrbTm1914Feature, NeoEsp32I2s0Tm1914Method, NeoGammaNullMethod>
#define B_32_I1_TM1914_3 NeoPixelBusLg<NeoGrbTm1914Feature, NeoEsp32I2s1Tm1914Method, NeoGammaNullMethod>
#define B_32_I1_TM1914_3P NeoPixelBusLg<NeoGrbTm1914Feature, NeoEsp32I2s1X8Tm1914Method, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_TM1914_3 NeoPixelBusLg<NeoGrbTm1914Feature, X1Tm1914Method, NeoGammaNullMethod>
#define B_32_IP_TM1914_3 NeoPixelBusLg<NeoGrbTm1914Feature, X8Tm1914Method, NeoGammaNullMethod> // parallel I2S
//Sm16825 (RGBWC)
#define B_32_RN_SM16825_5 NeoPixelBusLg<NeoRgbcwSm16825eFeature, NeoEsp32RmtNWs2812xMethod, NeoGammaNullMethod>
#define B_32_I0_SM16825_5 NeoPixelBusLg<NeoRgbcwSm16825eFeature, NeoEsp32I2s0Ws2812xMethod, NeoGammaNullMethod>
#define B_32_I1_SM16825_5 NeoPixelBusLg<NeoRgbcwSm16825eFeature, NeoEsp32I2s1Ws2812xMethod, NeoGammaNullMethod>
#define B_32_I1_SM16825_5P NeoPixelBusLg<NeoRgbcwSm16825eFeature, NeoEsp32I2s1X8Ws2812xMethod, NeoGammaNullMethod> // parallel I2S
#define B_32_I2_SM16825_5 NeoPixelBusLg<NeoRgbcwSm16825eFeature, X1Ws2812xMethod, NeoGammaNullMethod>
#define B_32_IP_SM16825_5 NeoPixelBusLg<NeoRgbcwSm16825eFeature, X8Ws2812xMethod, NeoGammaNullMethod> // parallel I2S
#endif
//APA102
@ -436,34 +440,19 @@ class PolyBus {
case I_32_RN_TM1914_3: beginTM1914<B_32_RN_TM1914_3*>(busPtr); break;
case I_32_RN_SM16825_5: (static_cast<B_32_RN_SM16825_5*>(busPtr))->Begin(); break;
// I2S1 bus or parellel buses
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_3: if (useParallelI2S) (static_cast<B_32_I1_NEO_3P*>(busPtr))->Begin(); else (static_cast<B_32_I1_NEO_3*>(busPtr))->Begin(); break;
case I_32_I1_NEO_4: if (useParallelI2S) (static_cast<B_32_I1_NEO_4P*>(busPtr))->Begin(); else (static_cast<B_32_I1_NEO_4*>(busPtr))->Begin(); break;
case I_32_I1_400_3: if (useParallelI2S) (static_cast<B_32_I1_400_3P*>(busPtr))->Begin(); else (static_cast<B_32_I1_400_3*>(busPtr))->Begin(); break;
case I_32_I1_TM1_4: if (useParallelI2S) beginTM1814<B_32_I1_TM1_4P*>(busPtr); else beginTM1814<B_32_I1_TM1_4*>(busPtr); break;
case I_32_I1_TM2_3: if (useParallelI2S) (static_cast<B_32_I1_TM2_3P*>(busPtr))->Begin(); else (static_cast<B_32_I1_TM2_3*>(busPtr))->Begin(); break;
case I_32_I1_UCS_3: if (useParallelI2S) (static_cast<B_32_I1_UCS_3P*>(busPtr))->Begin(); else (static_cast<B_32_I1_UCS_3*>(busPtr))->Begin(); break;
case I_32_I1_UCS_4: if (useParallelI2S) (static_cast<B_32_I1_UCS_4P*>(busPtr))->Begin(); else (static_cast<B_32_I1_UCS_4*>(busPtr))->Begin(); break;
case I_32_I1_FW6_5: if (useParallelI2S) (static_cast<B_32_I1_FW6_5P*>(busPtr))->Begin(); else (static_cast<B_32_I1_FW6_5*>(busPtr))->Begin(); break;
case I_32_I1_APA106_3: if (useParallelI2S) (static_cast<B_32_I1_APA106_3P*>(busPtr))->Begin(); else (static_cast<B_32_I1_APA106_3*>(busPtr))->Begin(); break;
case I_32_I1_2805_5: if (useParallelI2S) (static_cast<B_32_I1_2805_5P*>(busPtr))->Begin(); else (static_cast<B_32_I1_2805_5*>(busPtr))->Begin(); break;
case I_32_I1_TM1914_3: if (useParallelI2S) beginTM1914<B_32_I1_TM1914_3P*>(busPtr); else beginTM1914<B_32_I1_TM1914_3*>(busPtr); break;
case I_32_I1_SM16825_5: if (useParallelI2S) (static_cast<B_32_I1_SM16825_5P*>(busPtr))->Begin(); else (static_cast<B_32_I1_SM16825_5*>(busPtr))->Begin(); break;
#endif
// I2S0 bus
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_3: (static_cast<B_32_I0_NEO_3*>(busPtr))->Begin(); break;
case I_32_I0_NEO_4: (static_cast<B_32_I0_NEO_4*>(busPtr))->Begin(); break;
case I_32_I0_400_3: (static_cast<B_32_I0_400_3*>(busPtr))->Begin(); break;
case I_32_I0_TM1_4: beginTM1814<B_32_I0_TM1_4*>(busPtr); break;
case I_32_I0_TM2_3: (static_cast<B_32_I0_TM2_3*>(busPtr))->Begin(); break;
case I_32_I0_UCS_3: (static_cast<B_32_I0_UCS_3*>(busPtr))->Begin(); break;
case I_32_I0_UCS_4: (static_cast<B_32_I0_UCS_4*>(busPtr))->Begin(); break;
case I_32_I0_FW6_5: (static_cast<B_32_I0_FW6_5*>(busPtr))->Begin(); break;
case I_32_I0_APA106_3: (static_cast<B_32_I0_APA106_3*>(busPtr))->Begin(); break;
case I_32_I0_2805_5: (static_cast<B_32_I0_2805_5*>(busPtr))->Begin(); break;
case I_32_I0_TM1914_3: beginTM1914<B_32_I0_TM1914_3*>(busPtr); break;
case I_32_I0_SM16825_5: (static_cast<B_32_I0_SM16825_5*>(busPtr))->Begin(); break;
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: if (_useParallelI2S) (static_cast<B_32_IP_NEO_3*>(busPtr))->Begin(); else (static_cast<B_32_I2_NEO_3*>(busPtr))->Begin(); break;
case I_32_I2_NEO_4: if (_useParallelI2S) (static_cast<B_32_IP_NEO_4*>(busPtr))->Begin(); else (static_cast<B_32_I2_NEO_4*>(busPtr))->Begin(); break;
case I_32_I2_400_3: if (_useParallelI2S) (static_cast<B_32_IP_400_3*>(busPtr))->Begin(); else (static_cast<B_32_I2_400_3*>(busPtr))->Begin(); break;
case I_32_I2_TM1_4: if (_useParallelI2S) beginTM1814<B_32_IP_TM1_4*>(busPtr); else beginTM1814<B_32_I2_TM1_4*>(busPtr); break;
case I_32_I2_TM2_3: if (_useParallelI2S) (static_cast<B_32_IP_TM2_3*>(busPtr))->Begin(); else (static_cast<B_32_I2_TM2_3*>(busPtr))->Begin(); break;
case I_32_I2_UCS_3: if (_useParallelI2S) (static_cast<B_32_IP_UCS_3*>(busPtr))->Begin(); else (static_cast<B_32_I2_UCS_3*>(busPtr))->Begin(); break;
case I_32_I2_UCS_4: if (_useParallelI2S) (static_cast<B_32_IP_UCS_4*>(busPtr))->Begin(); else (static_cast<B_32_I2_UCS_4*>(busPtr))->Begin(); break;
case I_32_I2_FW6_5: if (_useParallelI2S) (static_cast<B_32_IP_FW6_5*>(busPtr))->Begin(); else (static_cast<B_32_I2_FW6_5*>(busPtr))->Begin(); break;
case I_32_I2_APA106_3: if (_useParallelI2S) (static_cast<B_32_IP_APA106_3*>(busPtr))->Begin(); else (static_cast<B_32_I2_APA106_3*>(busPtr))->Begin(); break;
case I_32_I2_2805_5: if (_useParallelI2S) (static_cast<B_32_IP_2805_5*>(busPtr))->Begin(); else (static_cast<B_32_I2_2805_5*>(busPtr))->Begin(); break;
case I_32_I2_TM1914_3: if (_useParallelI2S) beginTM1914<B_32_IP_TM1914_3*>(busPtr); else beginTM1914<B_32_I2_TM1914_3*>(busPtr); break;
case I_32_I2_SM16825_5: if (_useParallelI2S) (static_cast<B_32_IP_SM16825_5*>(busPtr))->Begin(); else (static_cast<B_32_I2_SM16825_5*>(busPtr))->Begin(); break;
#endif
// ESP32 can (and should, to avoid inadvertantly driving the chip select signal) specify the pins used for SPI, but only in begin()
case I_HS_DOT_3: beginDotStar<B_HS_DOT_3*>(busPtr, pins[1], -1, pins[0], -1, clock_kHz); break;
@ -484,8 +473,8 @@ class PolyBus {
#if defined(ARDUINO_ARCH_ESP32) && !(defined(CONFIG_IDF_TARGET_ESP32S2) || defined(CONFIG_IDF_TARGET_ESP32S3) || defined(CONFIG_IDF_TARGET_ESP32C3))
// NOTE: "channel" is only used on ESP32 (and its variants) for RMT channel allocation
// since 0.15.0-b3 I2S1 is favoured for classic ESP32 and moved to position 0 (channel 0) so we need to subtract 1 for correct RMT allocation
if (useParallelI2S && channel > 7) channel -= 8; // accommodate parallel I2S1 which is used 1st on classic ESP32
else if (channel > 0) channel--; // accommodate I2S1 which is used as 1st bus on classic ESP32
if (!_useParallelI2S && channel > 0) channel--; // accommodate I2S1 which is used as 1st bus on classic ESP32
// if user selected parallel I2S, RMT is used 1st (8 channels) followed by parallel I2S (8 channels)
#endif
void* busPtr = nullptr;
switch (busType) {
@ -555,34 +544,19 @@ class PolyBus {
case I_32_RN_TM1914_3: busPtr = new B_32_RN_TM1914_3(len, pins[0], (NeoBusChannel)channel); break;
case I_32_RN_SM16825_5: busPtr = new B_32_RN_SM16825_5(len, pins[0], (NeoBusChannel)channel); break;
// I2S1 bus or paralell buses
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_3: if (useParallelI2S) busPtr = new B_32_I1_NEO_3P(len, pins[0]); else busPtr = new B_32_I1_NEO_3(len, pins[0]); break;
case I_32_I1_NEO_4: if (useParallelI2S) busPtr = new B_32_I1_NEO_4P(len, pins[0]); else busPtr = new B_32_I1_NEO_4(len, pins[0]); break;
case I_32_I1_400_3: if (useParallelI2S) busPtr = new B_32_I1_400_3P(len, pins[0]); else busPtr = new B_32_I1_400_3(len, pins[0]); break;
case I_32_I1_TM1_4: if (useParallelI2S) busPtr = new B_32_I1_TM1_4P(len, pins[0]); else busPtr = new B_32_I1_TM1_4(len, pins[0]); break;
case I_32_I1_TM2_3: if (useParallelI2S) busPtr = new B_32_I1_TM2_3P(len, pins[0]); else busPtr = new B_32_I1_TM2_3(len, pins[0]); break;
case I_32_I1_UCS_3: if (useParallelI2S) busPtr = new B_32_I1_UCS_3P(len, pins[0]); else busPtr = new B_32_I1_UCS_3(len, pins[0]); break;
case I_32_I1_UCS_4: if (useParallelI2S) busPtr = new B_32_I1_UCS_4P(len, pins[0]); else busPtr = new B_32_I1_UCS_4(len, pins[0]); break;
case I_32_I1_APA106_3: if (useParallelI2S) busPtr = new B_32_I1_APA106_3P(len, pins[0]); else busPtr = new B_32_I1_APA106_3(len, pins[0]); break;
case I_32_I1_FW6_5: if (useParallelI2S) busPtr = new B_32_I1_FW6_5P(len, pins[0]); else busPtr = new B_32_I1_FW6_5(len, pins[0]); break;
case I_32_I1_2805_5: if (useParallelI2S) busPtr = new B_32_I1_2805_5P(len, pins[0]); else busPtr = new B_32_I1_2805_5(len, pins[0]); break;
case I_32_I1_TM1914_3: if (useParallelI2S) busPtr = new B_32_I1_TM1914_3P(len, pins[0]); else busPtr = new B_32_I1_TM1914_3(len, pins[0]); break;
case I_32_I1_SM16825_5: if (useParallelI2S) busPtr = new B_32_I1_SM16825_5P(len, pins[0]); else busPtr = new B_32_I1_SM16825_5(len, pins[0]); break;
#endif
// I2S0 bus
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_3: busPtr = new B_32_I0_NEO_3(len, pins[0]); break;
case I_32_I0_NEO_4: busPtr = new B_32_I0_NEO_4(len, pins[0]); break;
case I_32_I0_400_3: busPtr = new B_32_I0_400_3(len, pins[0]); break;
case I_32_I0_TM1_4: busPtr = new B_32_I0_TM1_4(len, pins[0]); break;
case I_32_I0_TM2_3: busPtr = new B_32_I0_TM2_3(len, pins[0]); break;
case I_32_I0_UCS_3: busPtr = new B_32_I0_UCS_3(len, pins[0]); break;
case I_32_I0_UCS_4: busPtr = new B_32_I0_UCS_4(len, pins[0]); break;
case I_32_I0_APA106_3: busPtr = new B_32_I0_APA106_3(len, pins[0]); break;
case I_32_I0_FW6_5: busPtr = new B_32_I0_FW6_5(len, pins[0]); break;
case I_32_I0_2805_5: busPtr = new B_32_I0_2805_5(len, pins[0]); break;
case I_32_I0_TM1914_3: busPtr = new B_32_I0_TM1914_3(len, pins[0]); break;
case I_32_I0_SM16825_5: busPtr = new B_32_I0_SM16825_5(len, pins[0]); break;
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: if (_useParallelI2S) busPtr = new B_32_IP_NEO_3(len, pins[0]); else busPtr = new B_32_I2_NEO_3(len, pins[0]); break;
case I_32_I2_NEO_4: if (_useParallelI2S) busPtr = new B_32_IP_NEO_4(len, pins[0]); else busPtr = new B_32_I2_NEO_4(len, pins[0]); break;
case I_32_I2_400_3: if (_useParallelI2S) busPtr = new B_32_IP_400_3(len, pins[0]); else busPtr = new B_32_I2_400_3(len, pins[0]); break;
case I_32_I2_TM1_4: if (_useParallelI2S) busPtr = new B_32_IP_TM1_4(len, pins[0]); else busPtr = new B_32_I2_TM1_4(len, pins[0]); break;
case I_32_I2_TM2_3: if (_useParallelI2S) busPtr = new B_32_IP_TM2_3(len, pins[0]); else busPtr = new B_32_I2_TM2_3(len, pins[0]); break;
case I_32_I2_UCS_3: if (_useParallelI2S) busPtr = new B_32_IP_UCS_3(len, pins[0]); else busPtr = new B_32_I2_UCS_3(len, pins[0]); break;
case I_32_I2_UCS_4: if (_useParallelI2S) busPtr = new B_32_IP_UCS_4(len, pins[0]); else busPtr = new B_32_I2_UCS_4(len, pins[0]); break;
case I_32_I2_APA106_3: if (_useParallelI2S) busPtr = new B_32_IP_APA106_3(len, pins[0]); else busPtr = new B_32_I2_APA106_3(len, pins[0]); break;
case I_32_I2_FW6_5: if (_useParallelI2S) busPtr = new B_32_IP_FW6_5(len, pins[0]); else busPtr = new B_32_I2_FW6_5(len, pins[0]); break;
case I_32_I2_2805_5: if (_useParallelI2S) busPtr = new B_32_IP_2805_5(len, pins[0]); else busPtr = new B_32_I2_2805_5(len, pins[0]); break;
case I_32_I2_TM1914_3: if (_useParallelI2S) busPtr = new B_32_IP_TM1914_3(len, pins[0]); else busPtr = new B_32_I2_TM1914_3(len, pins[0]); break;
case I_32_I2_SM16825_5: if (_useParallelI2S) busPtr = new B_32_IP_SM16825_5(len, pins[0]); else busPtr = new B_32_I2_SM16825_5(len, pins[0]); break;
#endif
#endif
// for 2-wire: pins[1] is clk, pins[0] is dat. begin expects (len, clk, dat)
@ -669,34 +643,19 @@ class PolyBus {
case I_32_RN_TM1914_3: (static_cast<B_32_RN_TM1914_3*>(busPtr))->Show(consistent); break;
case I_32_RN_SM16825_5: (static_cast<B_32_RN_SM16825_5*>(busPtr))->Show(consistent); break;
// I2S1 bus or paralell buses
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_3: if (useParallelI2S) (static_cast<B_32_I1_NEO_3P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_NEO_3*>(busPtr))->Show(consistent); break;
case I_32_I1_NEO_4: if (useParallelI2S) (static_cast<B_32_I1_NEO_4P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_NEO_4*>(busPtr))->Show(consistent); break;
case I_32_I1_400_3: if (useParallelI2S) (static_cast<B_32_I1_400_3P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_400_3*>(busPtr))->Show(consistent); break;
case I_32_I1_TM1_4: if (useParallelI2S) (static_cast<B_32_I1_TM1_4P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_TM1_4*>(busPtr))->Show(consistent); break;
case I_32_I1_TM2_3: if (useParallelI2S) (static_cast<B_32_I1_TM2_3P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_TM2_3*>(busPtr))->Show(consistent); break;
case I_32_I1_UCS_3: if (useParallelI2S) (static_cast<B_32_I1_UCS_3P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_UCS_3*>(busPtr))->Show(consistent); break;
case I_32_I1_UCS_4: if (useParallelI2S) (static_cast<B_32_I1_UCS_4P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_UCS_4*>(busPtr))->Show(consistent); break;
case I_32_I1_APA106_3: if (useParallelI2S) (static_cast<B_32_I1_APA106_3P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_APA106_3*>(busPtr))->Show(consistent); break;
case I_32_I1_FW6_5: if (useParallelI2S) (static_cast<B_32_I1_FW6_5P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_FW6_5*>(busPtr))->Show(consistent); break;
case I_32_I1_2805_5: if (useParallelI2S) (static_cast<B_32_I1_2805_5P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_2805_5*>(busPtr))->Show(consistent); break;
case I_32_I1_TM1914_3: if (useParallelI2S) (static_cast<B_32_I1_TM1914_3P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_TM1914_3*>(busPtr))->Show(consistent); break;
case I_32_I1_SM16825_5: if (useParallelI2S) (static_cast<B_32_I1_SM16825_5P*>(busPtr))->Show(consistent); else (static_cast<B_32_I1_SM16825_5*>(busPtr))->Show(consistent); break;
#endif
// I2S0 bus
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_3: (static_cast<B_32_I0_NEO_3*>(busPtr))->Show(consistent); break;
case I_32_I0_NEO_4: (static_cast<B_32_I0_NEO_4*>(busPtr))->Show(consistent); break;
case I_32_I0_400_3: (static_cast<B_32_I0_400_3*>(busPtr))->Show(consistent); break;
case I_32_I0_TM1_4: (static_cast<B_32_I0_TM1_4*>(busPtr))->Show(consistent); break;
case I_32_I0_TM2_3: (static_cast<B_32_I0_TM2_3*>(busPtr))->Show(consistent); break;
case I_32_I0_UCS_3: (static_cast<B_32_I0_UCS_3*>(busPtr))->Show(consistent); break;
case I_32_I0_UCS_4: (static_cast<B_32_I0_UCS_4*>(busPtr))->Show(consistent); break;
case I_32_I0_APA106_3: (static_cast<B_32_I0_APA106_3*>(busPtr))->Show(consistent); break;
case I_32_I0_FW6_5: (static_cast<B_32_I0_FW6_5*>(busPtr))->Show(consistent); break;
case I_32_I0_2805_5: (static_cast<B_32_I0_2805_5*>(busPtr))->Show(consistent); break;
case I_32_I0_TM1914_3: (static_cast<B_32_I0_TM1914_3*>(busPtr))->Show(consistent); break;
case I_32_I0_SM16825_5: (static_cast<B_32_I0_SM16825_5*>(busPtr))->Show(consistent); break;
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: if (_useParallelI2S) (static_cast<B_32_IP_NEO_3*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_NEO_3*>(busPtr))->Show(consistent); break;
case I_32_I2_NEO_4: if (_useParallelI2S) (static_cast<B_32_IP_NEO_4*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_NEO_4*>(busPtr))->Show(consistent); break;
case I_32_I2_400_3: if (_useParallelI2S) (static_cast<B_32_IP_400_3*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_400_3*>(busPtr))->Show(consistent); break;
case I_32_I2_TM1_4: if (_useParallelI2S) (static_cast<B_32_IP_TM1_4*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_TM1_4*>(busPtr))->Show(consistent); break;
case I_32_I2_TM2_3: if (_useParallelI2S) (static_cast<B_32_IP_TM2_3*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_TM2_3*>(busPtr))->Show(consistent); break;
case I_32_I2_UCS_3: if (_useParallelI2S) (static_cast<B_32_IP_UCS_3*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_UCS_3*>(busPtr))->Show(consistent); break;
case I_32_I2_UCS_4: if (_useParallelI2S) (static_cast<B_32_IP_UCS_4*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_UCS_4*>(busPtr))->Show(consistent); break;
case I_32_I2_APA106_3: if (_useParallelI2S) (static_cast<B_32_IP_APA106_3*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_APA106_3*>(busPtr))->Show(consistent); break;
case I_32_I2_FW6_5: if (_useParallelI2S) (static_cast<B_32_IP_FW6_5*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_FW6_5*>(busPtr))->Show(consistent); break;
case I_32_I2_2805_5: if (_useParallelI2S) (static_cast<B_32_IP_2805_5*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_2805_5*>(busPtr))->Show(consistent); break;
case I_32_I2_TM1914_3: if (_useParallelI2S) (static_cast<B_32_IP_TM1914_3*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_TM1914_3*>(busPtr))->Show(consistent); break;
case I_32_I2_SM16825_5: if (_useParallelI2S) (static_cast<B_32_IP_SM16825_5*>(busPtr))->Show(consistent); else (static_cast<B_32_I2_SM16825_5*>(busPtr))->Show(consistent); break;
#endif
#endif
case I_HS_DOT_3: (static_cast<B_HS_DOT_3*>(busPtr))->Show(consistent); break;
@ -743,6 +702,7 @@ class PolyBus {
case I_8266_U0_UCS_4: return (static_cast<B_8266_U0_UCS_4*>(busPtr))->CanShow(); break;
case I_8266_U1_UCS_4: return (static_cast<B_8266_U1_UCS_4*>(busPtr))->CanShow(); break;
case I_8266_DM_UCS_4: return (static_cast<B_8266_DM_UCS_4*>(busPtr))->CanShow(); break;
case I_8266_BB_UCS_4: return (static_cast<B_8266_BB_UCS_4*>(busPtr))->CanShow(); break;
case I_8266_U0_APA106_3: return (static_cast<B_8266_U0_APA106_3*>(busPtr))->CanShow(); break;
case I_8266_U1_APA106_3: return (static_cast<B_8266_U1_APA106_3*>(busPtr))->CanShow(); break;
case I_8266_DM_APA106_3: return (static_cast<B_8266_DM_APA106_3*>(busPtr))->CanShow(); break;
@ -779,34 +739,19 @@ class PolyBus {
case I_32_RN_TM1914_3: return (static_cast<B_32_RN_TM1914_3*>(busPtr))->CanShow(); break;
case I_32_RN_SM16825_5: return (static_cast<B_32_RN_SM16825_5*>(busPtr))->CanShow(); break;
// I2S1 bus or paralell buses
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_3: if (useParallelI2S) return (static_cast<B_32_I1_NEO_3P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_NEO_3*>(busPtr))->CanShow(); break;
case I_32_I1_NEO_4: if (useParallelI2S) return (static_cast<B_32_I1_NEO_4P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_NEO_4*>(busPtr))->CanShow(); break;
case I_32_I1_400_3: if (useParallelI2S) return (static_cast<B_32_I1_400_3P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_400_3*>(busPtr))->CanShow(); break;
case I_32_I1_TM1_4: if (useParallelI2S) return (static_cast<B_32_I1_TM1_4P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_TM1_4*>(busPtr))->CanShow(); break;
case I_32_I1_TM2_3: if (useParallelI2S) return (static_cast<B_32_I1_TM2_3P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_TM2_3*>(busPtr))->CanShow(); break;
case I_32_I1_UCS_3: if (useParallelI2S) return (static_cast<B_32_I1_UCS_3P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_UCS_3*>(busPtr))->CanShow(); break;
case I_32_I1_UCS_4: if (useParallelI2S) return (static_cast<B_32_I1_UCS_4P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_UCS_4*>(busPtr))->CanShow(); break;
case I_32_I1_APA106_3: if (useParallelI2S) return (static_cast<B_32_I1_APA106_3P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_APA106_3*>(busPtr))->CanShow(); break;
case I_32_I1_FW6_5: if (useParallelI2S) return (static_cast<B_32_I1_FW6_5P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_FW6_5*>(busPtr))->CanShow(); break;
case I_32_I1_2805_5: if (useParallelI2S) return (static_cast<B_32_I1_2805_5P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_2805_5*>(busPtr))->CanShow(); break;
case I_32_I1_TM1914_3: if (useParallelI2S) return (static_cast<B_32_I1_TM1914_3P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_TM1914_3*>(busPtr))->CanShow(); break;
case I_32_I1_SM16825_5: if (useParallelI2S) return (static_cast<B_32_I1_SM16825_5P*>(busPtr))->CanShow(); else return (static_cast<B_32_I1_SM16825_5*>(busPtr))->CanShow(); break;
#endif
// I2S0 bus
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_3: return (static_cast<B_32_I0_NEO_3*>(busPtr))->CanShow(); break;
case I_32_I0_NEO_4: return (static_cast<B_32_I0_NEO_4*>(busPtr))->CanShow(); break;
case I_32_I0_400_3: return (static_cast<B_32_I0_400_3*>(busPtr))->CanShow(); break;
case I_32_I0_TM1_4: return (static_cast<B_32_I0_TM1_4*>(busPtr))->CanShow(); break;
case I_32_I0_TM2_3: return (static_cast<B_32_I0_TM2_3*>(busPtr))->CanShow(); break;
case I_32_I0_UCS_3: return (static_cast<B_32_I0_UCS_3*>(busPtr))->CanShow(); break;
case I_32_I0_UCS_4: return (static_cast<B_32_I0_UCS_4*>(busPtr))->CanShow(); break;
case I_32_I0_APA106_3: return (static_cast<B_32_I0_APA106_3*>(busPtr))->CanShow(); break;
case I_32_I0_FW6_5: return (static_cast<B_32_I0_FW6_5*>(busPtr))->CanShow(); break;
case I_32_I0_2805_5: return (static_cast<B_32_I0_2805_5*>(busPtr))->CanShow(); break;
case I_32_I0_TM1914_3: return (static_cast<B_32_I0_TM1914_3*>(busPtr))->CanShow(); break;
case I_32_I0_SM16825_5: return (static_cast<B_32_I0_SM16825_5*>(busPtr))->CanShow(); break;
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: if (_useParallelI2S) return (static_cast<B_32_IP_NEO_3*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_NEO_3*>(busPtr))->CanShow(); break;
case I_32_I2_NEO_4: if (_useParallelI2S) return (static_cast<B_32_IP_NEO_4*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_NEO_4*>(busPtr))->CanShow(); break;
case I_32_I2_400_3: if (_useParallelI2S) return (static_cast<B_32_IP_400_3*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_400_3*>(busPtr))->CanShow(); break;
case I_32_I2_TM1_4: if (_useParallelI2S) return (static_cast<B_32_IP_TM1_4*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_TM1_4*>(busPtr))->CanShow(); break;
case I_32_I2_TM2_3: if (_useParallelI2S) return (static_cast<B_32_IP_TM2_3*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_TM2_3*>(busPtr))->CanShow(); break;
case I_32_I2_UCS_3: if (_useParallelI2S) return (static_cast<B_32_IP_UCS_3*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_UCS_3*>(busPtr))->CanShow(); break;
case I_32_I2_UCS_4: if (_useParallelI2S) return (static_cast<B_32_IP_UCS_4*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_UCS_4*>(busPtr))->CanShow(); break;
case I_32_I2_APA106_3: if (_useParallelI2S) return (static_cast<B_32_IP_APA106_3*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_APA106_3*>(busPtr))->CanShow(); break;
case I_32_I2_FW6_5: if (_useParallelI2S) return (static_cast<B_32_IP_FW6_5*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_FW6_5*>(busPtr))->CanShow(); break;
case I_32_I2_2805_5: if (_useParallelI2S) return (static_cast<B_32_IP_2805_5*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_2805_5*>(busPtr))->CanShow(); break;
case I_32_I2_TM1914_3: if (_useParallelI2S) return (static_cast<B_32_IP_TM1914_3*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_TM1914_3*>(busPtr))->CanShow(); break;
case I_32_I2_SM16825_5: if (_useParallelI2S) return (static_cast<B_32_IP_SM16825_5*>(busPtr))->CanShow(); else return (static_cast<B_32_I2_SM16825_5*>(busPtr))->CanShow(); break;
#endif
#endif
case I_HS_DOT_3: return (static_cast<B_HS_DOT_3*>(busPtr))->CanShow(); break;
@ -916,34 +861,19 @@ class PolyBus {
case I_32_RN_TM1914_3: (static_cast<B_32_RN_TM1914_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_RN_SM16825_5: (static_cast<B_32_RN_SM16825_5*>(busPtr))->SetPixelColor(pix, Rgbww80Color(col.R*257, col.G*257, col.B*257, cctWW*257, cctCW*257)); break;
// I2S1 bus or paralell buses
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_3: if (useParallelI2S) (static_cast<B_32_I1_NEO_3P*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I1_NEO_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I1_NEO_4: if (useParallelI2S) (static_cast<B_32_I1_NEO_4P*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I1_NEO_4*>(busPtr))->SetPixelColor(pix, col); break;
case I_32_I1_400_3: if (useParallelI2S) (static_cast<B_32_I1_400_3P*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I1_400_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I1_TM1_4: if (useParallelI2S) (static_cast<B_32_I1_TM1_4P*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I1_TM1_4*>(busPtr))->SetPixelColor(pix, col); break;
case I_32_I1_TM2_3: if (useParallelI2S) (static_cast<B_32_I1_TM2_3P*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I1_TM2_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I1_UCS_3: if (useParallelI2S) (static_cast<B_32_I1_UCS_3P*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I1_UCS_3*>(busPtr))->SetPixelColor(pix, Rgb48Color(RgbColor(col))); break;
case I_32_I1_UCS_4: if (useParallelI2S) (static_cast<B_32_I1_UCS_4P*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I1_UCS_4*>(busPtr))->SetPixelColor(pix, Rgbw64Color(col)); break;
case I_32_I1_APA106_3: if (useParallelI2S) (static_cast<B_32_I1_APA106_3P*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I1_APA106_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I1_FW6_5: if (useParallelI2S) (static_cast<B_32_I1_FW6_5P*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); else (static_cast<B_32_I1_FW6_5*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); break;
case I_32_I1_2805_5: if (useParallelI2S) (static_cast<B_32_I1_2805_5P*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); else (static_cast<B_32_I1_2805_5*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); break;
case I_32_I1_TM1914_3: if (useParallelI2S) (static_cast<B_32_I1_TM1914_3P*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I1_TM1914_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I1_SM16825_5: if (useParallelI2S) (static_cast<B_32_I1_SM16825_5P*>(busPtr))->SetPixelColor(pix, Rgbww80Color(col.R*257, col.G*257, col.B*257, cctWW*257, cctCW*257)); else (static_cast<B_32_I1_SM16825_5*>(busPtr))->SetPixelColor(pix, Rgbww80Color(col.R*257, col.G*257, col.B*257, cctWW*257, cctCW*257)); break;
#endif
// I2S0 bus
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_3: (static_cast<B_32_I0_NEO_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I0_NEO_4: (static_cast<B_32_I0_NEO_4*>(busPtr))->SetPixelColor(pix, col); break;
case I_32_I0_400_3: (static_cast<B_32_I0_400_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I0_TM1_4: (static_cast<B_32_I0_TM1_4*>(busPtr))->SetPixelColor(pix, col); break;
case I_32_I0_TM2_3: (static_cast<B_32_I0_TM2_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I0_UCS_3: (static_cast<B_32_I0_UCS_3*>(busPtr))->SetPixelColor(pix, Rgb48Color(RgbColor(col))); break;
case I_32_I0_UCS_4: (static_cast<B_32_I0_UCS_4*>(busPtr))->SetPixelColor(pix, Rgbw64Color(col)); break;
case I_32_I0_APA106_3: (static_cast<B_32_I0_APA106_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I0_FW6_5: (static_cast<B_32_I0_FW6_5*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); break;
case I_32_I0_2805_5: (static_cast<B_32_I0_2805_5*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); break;
case I_32_I0_TM1914_3: (static_cast<B_32_I0_TM1914_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I0_SM16825_5: (static_cast<B_32_I0_SM16825_5*>(busPtr))->SetPixelColor(pix, Rgbww80Color(col.R*257, col.G*257, col.B*257, cctWW*257, cctCW*257)); break;
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: if (_useParallelI2S) (static_cast<B_32_IP_NEO_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I2_NEO_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I2_NEO_4: if (_useParallelI2S) (static_cast<B_32_IP_NEO_4*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I2_NEO_4*>(busPtr))->SetPixelColor(pix, col); break;
case I_32_I2_400_3: if (_useParallelI2S) (static_cast<B_32_IP_400_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I2_400_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I2_TM1_4: if (_useParallelI2S) (static_cast<B_32_IP_TM1_4*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I2_TM1_4*>(busPtr))->SetPixelColor(pix, col); break;
case I_32_I2_TM2_3: if (_useParallelI2S) (static_cast<B_32_IP_TM2_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I2_TM2_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I2_UCS_3: if (_useParallelI2S) (static_cast<B_32_IP_UCS_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I2_UCS_3*>(busPtr))->SetPixelColor(pix, Rgb48Color(RgbColor(col))); break;
case I_32_I2_UCS_4: if (_useParallelI2S) (static_cast<B_32_IP_UCS_4*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I2_UCS_4*>(busPtr))->SetPixelColor(pix, Rgbw64Color(col)); break;
case I_32_I2_APA106_3: if (_useParallelI2S) (static_cast<B_32_IP_APA106_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I2_APA106_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I2_FW6_5: if (_useParallelI2S) (static_cast<B_32_IP_FW6_5*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); else (static_cast<B_32_I2_FW6_5*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); break;
case I_32_I2_2805_5: if (_useParallelI2S) (static_cast<B_32_IP_2805_5*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); else (static_cast<B_32_I2_2805_5*>(busPtr))->SetPixelColor(pix, RgbwwColor(col.R, col.G, col.B, cctWW, cctCW)); break;
case I_32_I2_TM1914_3: if (_useParallelI2S) (static_cast<B_32_IP_TM1914_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); else (static_cast<B_32_I2_TM1914_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
case I_32_I2_SM16825_5: if (_useParallelI2S) (static_cast<B_32_IP_SM16825_5*>(busPtr))->SetPixelColor(pix, Rgbww80Color(col.R*257, col.G*257, col.B*257, cctWW*257, cctCW*257)); else (static_cast<B_32_I2_SM16825_5*>(busPtr))->SetPixelColor(pix, Rgbww80Color(col.R*257, col.G*257, col.B*257, cctWW*257, cctCW*257)); break;
#endif
#endif
case I_HS_DOT_3: (static_cast<B_HS_DOT_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
@ -1027,34 +957,19 @@ class PolyBus {
case I_32_RN_TM1914_3: (static_cast<B_32_RN_TM1914_3*>(busPtr))->SetLuminance(b); break;
case I_32_RN_SM16825_5: (static_cast<B_32_RN_SM16825_5*>(busPtr))->SetLuminance(b); break;
// I2S1 bus or paralell buses
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_3: if (useParallelI2S) (static_cast<B_32_I1_NEO_3P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_NEO_4: if (useParallelI2S) (static_cast<B_32_I1_NEO_4P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_32_I1_400_3: if (useParallelI2S) (static_cast<B_32_I1_400_3P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_400_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_TM1_4: if (useParallelI2S) (static_cast<B_32_I1_TM1_4P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_32_I1_TM2_3: if (useParallelI2S) (static_cast<B_32_I1_TM2_3P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_TM2_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_UCS_3: if (useParallelI2S) (static_cast<B_32_I1_UCS_3P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_UCS_4: if (useParallelI2S) (static_cast<B_32_I1_UCS_4P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_UCS_4*>(busPtr))->SetLuminance(b); break;
case I_32_I1_APA106_3: if (useParallelI2S) (static_cast<B_32_I1_APA106_3P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_APA106_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_FW6_5: if (useParallelI2S) (static_cast<B_32_I1_FW6_5P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_FW6_5*>(busPtr))->SetLuminance(b); break;
case I_32_I1_2805_5: if (useParallelI2S) (static_cast<B_32_I1_2805_5P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_2805_5*>(busPtr))->SetLuminance(b); break;
case I_32_I1_TM1914_3: if (useParallelI2S) (static_cast<B_32_I1_TM1914_3P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_TM1914_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_SM16825_5: if (useParallelI2S) (static_cast<B_32_I1_SM16825_5P*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I1_SM16825_5*>(busPtr))->SetLuminance(b); break;
#endif
// I2S0 bus
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_3: (static_cast<B_32_I0_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_NEO_4: (static_cast<B_32_I0_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_32_I0_400_3: (static_cast<B_32_I0_400_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_TM1_4: (static_cast<B_32_I0_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_32_I0_TM2_3: (static_cast<B_32_I0_TM2_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_UCS_3: (static_cast<B_32_I0_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_UCS_4: (static_cast<B_32_I0_UCS_4*>(busPtr))->SetLuminance(b); break;
case I_32_I0_APA106_3: (static_cast<B_32_I0_APA106_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_FW6_5: (static_cast<B_32_I0_FW6_5*>(busPtr))->SetLuminance(b); break;
case I_32_I0_2805_5: (static_cast<B_32_I0_2805_5*>(busPtr))->SetLuminance(b); break;
case I_32_I0_TM1914_3: (static_cast<B_32_I0_TM1914_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_SM16825_5: (static_cast<B_32_I0_SM16825_5*>(busPtr))->SetLuminance(b); break;
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: if (_useParallelI2S) (static_cast<B_32_IP_NEO_3*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_32_I2_NEO_4: if (_useParallelI2S) (static_cast<B_32_IP_NEO_4*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_32_I2_400_3: if (_useParallelI2S) (static_cast<B_32_IP_400_3*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_400_3*>(busPtr))->SetLuminance(b); break;
case I_32_I2_TM1_4: if (_useParallelI2S) (static_cast<B_32_IP_TM1_4*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_32_I2_TM2_3: if (_useParallelI2S) (static_cast<B_32_IP_TM2_3*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_TM2_3*>(busPtr))->SetLuminance(b); break;
case I_32_I2_UCS_3: if (_useParallelI2S) (static_cast<B_32_IP_UCS_3*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_32_I2_UCS_4: if (_useParallelI2S) (static_cast<B_32_IP_UCS_4*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_UCS_4*>(busPtr))->SetLuminance(b); break;
case I_32_I2_APA106_3: if (_useParallelI2S) (static_cast<B_32_IP_APA106_3*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_APA106_3*>(busPtr))->SetLuminance(b); break;
case I_32_I2_FW6_5: if (_useParallelI2S) (static_cast<B_32_IP_FW6_5*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_FW6_5*>(busPtr))->SetLuminance(b); break;
case I_32_I2_2805_5: if (_useParallelI2S) (static_cast<B_32_IP_2805_5*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_2805_5*>(busPtr))->SetLuminance(b); break;
case I_32_I2_TM1914_3: if (_useParallelI2S) (static_cast<B_32_IP_TM1914_3*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_TM1914_3*>(busPtr))->SetLuminance(b); break;
case I_32_I2_SM16825_5: if (_useParallelI2S) (static_cast<B_32_IP_SM16825_5*>(busPtr))->SetLuminance(b); else (static_cast<B_32_I2_SM16825_5*>(busPtr))->SetLuminance(b); break;
#endif
#endif
case I_HS_DOT_3: (static_cast<B_HS_DOT_3*>(busPtr))->SetLuminance(b); break;
@ -1139,34 +1054,19 @@ class PolyBus {
case I_32_RN_TM1914_3: col = (static_cast<B_32_RN_TM1914_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_RN_SM16825_5: { Rgbww80Color c = (static_cast<B_32_RN_SM16825_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,max(c.WW,c.CW)/257); } break; // will not return original W
// I2S1 bus or paralell buses
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_3: col = (useParallelI2S) ? (static_cast<B_32_I1_NEO_3P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_NEO_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I1_NEO_4: col = (useParallelI2S) ? (static_cast<B_32_I1_NEO_4P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_NEO_4*>(busPtr))->GetPixelColor(pix); break;
case I_32_I1_400_3: col = (useParallelI2S) ? (static_cast<B_32_I1_400_3P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_400_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I1_TM1_4: col = (useParallelI2S) ? (static_cast<B_32_I1_TM1_4P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_TM1_4*>(busPtr))->GetPixelColor(pix); break;
case I_32_I1_TM2_3: col = (useParallelI2S) ? (static_cast<B_32_I1_TM2_3P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_TM2_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I1_UCS_3: { Rgb48Color c = (useParallelI2S) ? (static_cast<B_32_I1_UCS_3P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_UCS_3*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,0); } break;
case I_32_I1_UCS_4: { Rgbw64Color c = (useParallelI2S) ? (static_cast<B_32_I1_UCS_4P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_UCS_4*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,c.W/257); } break;
case I_32_I1_APA106_3: col = (useParallelI2S) ? (static_cast<B_32_I1_APA106_3P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_APA106_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I1_FW6_5: { RgbwwColor c = (useParallelI2S) ? (static_cast<B_32_I1_FW6_5P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_FW6_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R,c.G,c.B,max(c.WW,c.CW)); } break; // will not return original W
case I_32_I1_2805_5: { RgbwwColor c = (useParallelI2S) ? (static_cast<B_32_I1_2805_5P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_2805_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R,c.G,c.B,max(c.WW,c.CW)); } break; // will not return original W
case I_32_I1_TM1914_3: col = (useParallelI2S) ? (static_cast<B_32_I1_TM1914_3P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_TM1914_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I1_SM16825_5: { Rgbww80Color c = (useParallelI2S) ? (static_cast<B_32_I1_SM16825_5P*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I1_SM16825_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,max(c.WW,c.CW)/257); } break; // will not return original W
#endif
// I2S0 bus
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_3: col = (static_cast<B_32_I0_NEO_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I0_NEO_4: col = (static_cast<B_32_I0_NEO_4*>(busPtr))->GetPixelColor(pix); break;
case I_32_I0_400_3: col = (static_cast<B_32_I0_400_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I0_TM1_4: col = (static_cast<B_32_I0_TM1_4*>(busPtr))->GetPixelColor(pix); break;
case I_32_I0_TM2_3: col = (static_cast<B_32_I0_TM2_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I0_UCS_3: { Rgb48Color c = (static_cast<B_32_I0_UCS_3*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,0); } break;
case I_32_I0_UCS_4: { Rgbw64Color c = (static_cast<B_32_I0_UCS_4*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,c.W/257); } break;
case I_32_I0_APA106_3: col = (static_cast<B_32_I0_APA106_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I0_FW6_5: { RgbwwColor c = (static_cast<B_32_I0_FW6_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R,c.G,c.B,max(c.WW,c.CW)); } break; // will not return original W
case I_32_I0_2805_5: { RgbwwColor c = (static_cast<B_32_I0_2805_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R,c.G,c.B,max(c.WW,c.CW)); } break; // will not return original W
case I_32_I0_TM1914_3: col = (static_cast<B_32_I0_TM1914_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I0_SM16825_5: { Rgbww80Color c = (static_cast<B_32_I0_SM16825_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,max(c.WW,c.CW)/257); } break; // will not return original W
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: col = (_useParallelI2S) ? (static_cast<B_32_IP_NEO_3*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_NEO_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I2_NEO_4: col = (_useParallelI2S) ? (static_cast<B_32_IP_NEO_4*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_NEO_4*>(busPtr))->GetPixelColor(pix); break;
case I_32_I2_400_3: col = (_useParallelI2S) ? (static_cast<B_32_IP_400_3*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_400_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I2_TM1_4: col = (_useParallelI2S) ? (static_cast<B_32_IP_TM1_4*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_TM1_4*>(busPtr))->GetPixelColor(pix); break;
case I_32_I2_TM2_3: col = (_useParallelI2S) ? (static_cast<B_32_IP_TM2_3*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_TM2_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I2_UCS_3: { Rgb48Color c = (_useParallelI2S) ? (static_cast<B_32_IP_UCS_3*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_UCS_3*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,0); } break;
case I_32_I2_UCS_4: { Rgbw64Color c = (_useParallelI2S) ? (static_cast<B_32_IP_UCS_4*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_UCS_4*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,c.W/257); } break;
case I_32_I2_APA106_3: col = (_useParallelI2S) ? (static_cast<B_32_IP_APA106_3*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_APA106_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I2_FW6_5: { RgbwwColor c = (_useParallelI2S) ? (static_cast<B_32_IP_FW6_5*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_FW6_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R,c.G,c.B,max(c.WW,c.CW)); } break; // will not return original W
case I_32_I2_2805_5: { RgbwwColor c = (_useParallelI2S) ? (static_cast<B_32_IP_2805_5*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_2805_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R,c.G,c.B,max(c.WW,c.CW)); } break; // will not return original W
case I_32_I2_TM1914_3: col = (_useParallelI2S) ? (static_cast<B_32_IP_TM1914_3*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_TM1914_3*>(busPtr))->GetPixelColor(pix); break;
case I_32_I2_SM16825_5: { Rgbww80Color c = (_useParallelI2S) ? (static_cast<B_32_IP_SM16825_5*>(busPtr))->GetPixelColor(pix) : (static_cast<B_32_I2_SM16825_5*>(busPtr))->GetPixelColor(pix); col = RGBW32(c.R/257,c.G/257,c.B/257,max(c.WW,c.CW)/257); } break; // will not return original W
#endif
#endif
case I_HS_DOT_3: col = (static_cast<B_HS_DOT_3*>(busPtr))->GetPixelColor(pix); break;
@ -1269,34 +1169,19 @@ class PolyBus {
case I_32_RN_TM1914_3: delete (static_cast<B_32_RN_TM1914_3*>(busPtr)); break;
case I_32_RN_SM16825_5: delete (static_cast<B_32_RN_SM16825_5*>(busPtr)); break;
// I2S1 bus or paralell buses
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_3: if (useParallelI2S) delete (static_cast<B_32_I1_NEO_3P*>(busPtr)); else delete (static_cast<B_32_I1_NEO_3*>(busPtr)); break;
case I_32_I1_NEO_4: if (useParallelI2S) delete (static_cast<B_32_I1_NEO_4P*>(busPtr)); else delete (static_cast<B_32_I1_NEO_4*>(busPtr)); break;
case I_32_I1_400_3: if (useParallelI2S) delete (static_cast<B_32_I1_400_3P*>(busPtr)); else delete (static_cast<B_32_I1_400_3*>(busPtr)); break;
case I_32_I1_TM1_4: if (useParallelI2S) delete (static_cast<B_32_I1_TM1_4P*>(busPtr)); else delete (static_cast<B_32_I1_TM1_4*>(busPtr)); break;
case I_32_I1_TM2_3: if (useParallelI2S) delete (static_cast<B_32_I1_TM2_3P*>(busPtr)); else delete (static_cast<B_32_I1_TM2_3*>(busPtr)); break;
case I_32_I1_UCS_3: if (useParallelI2S) delete (static_cast<B_32_I1_UCS_3P*>(busPtr)); else delete (static_cast<B_32_I1_UCS_3*>(busPtr)); break;
case I_32_I1_UCS_4: if (useParallelI2S) delete (static_cast<B_32_I1_UCS_4P*>(busPtr)); else delete (static_cast<B_32_I1_UCS_4*>(busPtr)); break;
case I_32_I1_APA106_3: if (useParallelI2S) delete (static_cast<B_32_I1_APA106_3P*>(busPtr)); else delete (static_cast<B_32_I1_APA106_3*>(busPtr)); break;
case I_32_I1_FW6_5: if (useParallelI2S) delete (static_cast<B_32_I1_FW6_5P*>(busPtr)); else delete (static_cast<B_32_I1_FW6_5*>(busPtr)); break;
case I_32_I1_2805_5: if (useParallelI2S) delete (static_cast<B_32_I1_2805_5P*>(busPtr)); else delete (static_cast<B_32_I1_2805_5*>(busPtr)); break;
case I_32_I1_TM1914_3: if (useParallelI2S) delete (static_cast<B_32_I1_TM1914_3P*>(busPtr)); else delete (static_cast<B_32_I1_TM1914_3*>(busPtr)); break;
case I_32_I1_SM16825_5: if (useParallelI2S) delete (static_cast<B_32_I1_SM16825_5P*>(busPtr)); else delete (static_cast<B_32_I1_SM16825_5*>(busPtr)); break;
#endif
// I2S0 bus
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_3: delete (static_cast<B_32_I0_NEO_3*>(busPtr)); break;
case I_32_I0_NEO_4: delete (static_cast<B_32_I0_NEO_4*>(busPtr)); break;
case I_32_I0_400_3: delete (static_cast<B_32_I0_400_3*>(busPtr)); break;
case I_32_I0_TM1_4: delete (static_cast<B_32_I0_TM1_4*>(busPtr)); break;
case I_32_I0_TM2_3: delete (static_cast<B_32_I0_TM2_3*>(busPtr)); break;
case I_32_I0_UCS_3: delete (static_cast<B_32_I0_UCS_3*>(busPtr)); break;
case I_32_I0_UCS_4: delete (static_cast<B_32_I0_UCS_4*>(busPtr)); break;
case I_32_I0_APA106_3: delete (static_cast<B_32_I0_APA106_3*>(busPtr)); break;
case I_32_I0_FW6_5: delete (static_cast<B_32_I0_FW6_5*>(busPtr)); break;
case I_32_I0_2805_5: delete (static_cast<B_32_I0_2805_5*>(busPtr)); break;
case I_32_I0_TM1914_3: delete (static_cast<B_32_I0_TM1914_3*>(busPtr)); break;
case I_32_I0_SM16825_5: delete (static_cast<B_32_I0_SM16825_5*>(busPtr)); break;
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: if (_useParallelI2S) delete (static_cast<B_32_IP_NEO_3*>(busPtr)); else delete (static_cast<B_32_I2_NEO_3*>(busPtr)); break;
case I_32_I2_NEO_4: if (_useParallelI2S) delete (static_cast<B_32_IP_NEO_4*>(busPtr)); else delete (static_cast<B_32_I2_NEO_4*>(busPtr)); break;
case I_32_I2_400_3: if (_useParallelI2S) delete (static_cast<B_32_IP_400_3*>(busPtr)); else delete (static_cast<B_32_I2_400_3*>(busPtr)); break;
case I_32_I2_TM1_4: if (_useParallelI2S) delete (static_cast<B_32_IP_TM1_4*>(busPtr)); else delete (static_cast<B_32_I2_TM1_4*>(busPtr)); break;
case I_32_I2_TM2_3: if (_useParallelI2S) delete (static_cast<B_32_IP_TM2_3*>(busPtr)); else delete (static_cast<B_32_I2_TM2_3*>(busPtr)); break;
case I_32_I2_UCS_3: if (_useParallelI2S) delete (static_cast<B_32_IP_UCS_3*>(busPtr)); else delete (static_cast<B_32_I2_UCS_3*>(busPtr)); break;
case I_32_I2_UCS_4: if (_useParallelI2S) delete (static_cast<B_32_IP_UCS_4*>(busPtr)); else delete (static_cast<B_32_I2_UCS_4*>(busPtr)); break;
case I_32_I2_APA106_3: if (_useParallelI2S) delete (static_cast<B_32_IP_APA106_3*>(busPtr)); else delete (static_cast<B_32_I2_APA106_3*>(busPtr)); break;
case I_32_I2_FW6_5: if (_useParallelI2S) delete (static_cast<B_32_IP_FW6_5*>(busPtr)); else delete (static_cast<B_32_I2_FW6_5*>(busPtr)); break;
case I_32_I2_2805_5: if (_useParallelI2S) delete (static_cast<B_32_IP_2805_5*>(busPtr)); else delete (static_cast<B_32_I2_2805_5*>(busPtr)); break;
case I_32_I2_TM1914_3: if (_useParallelI2S) delete (static_cast<B_32_IP_TM1914_3*>(busPtr)); else delete (static_cast<B_32_I2_TM1914_3*>(busPtr)); break;
case I_32_I2_SM16825_5: if (_useParallelI2S) delete (static_cast<B_32_IP_SM16825_5*>(busPtr)); else delete (static_cast<B_32_I2_SM16825_5*>(busPtr)); break;
#endif
#endif
case I_HS_DOT_3: delete (static_cast<B_HS_DOT_3*>(busPtr)); break;
@ -1312,8 +1197,178 @@ class PolyBus {
}
}
static unsigned getDataSize(void* busPtr, uint8_t busType) {
unsigned size = 0;
switch (busType) {
case I_NONE: break;
#ifdef ESP8266
case I_8266_U0_NEO_3: size = (static_cast<B_8266_U0_NEO_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_NEO_3: size = (static_cast<B_8266_U1_NEO_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_NEO_3: size = (static_cast<B_8266_DM_NEO_3*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_NEO_3: size = (static_cast<B_8266_BB_NEO_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_NEO_4: size = (static_cast<B_8266_U0_NEO_4*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_NEO_4: size = (static_cast<B_8266_U1_NEO_4*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_NEO_4: size = (static_cast<B_8266_DM_NEO_4*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_NEO_4: size = (static_cast<B_8266_BB_NEO_4*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_400_3: size = (static_cast<B_8266_U0_400_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_400_3: size = (static_cast<B_8266_U1_400_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_400_3: size = (static_cast<B_8266_DM_400_3*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_400_3: size = (static_cast<B_8266_BB_400_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_TM1_4: size = (static_cast<B_8266_U0_TM1_4*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_TM1_4: size = (static_cast<B_8266_U1_TM1_4*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_TM1_4: size = (static_cast<B_8266_DM_TM1_4*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_TM1_4: size = (static_cast<B_8266_BB_TM1_4*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_TM2_3: size = (static_cast<B_8266_U0_TM2_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_TM2_3: size = (static_cast<B_8266_U1_TM2_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_TM2_3: size = (static_cast<B_8266_DM_TM2_3*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_TM2_3: size = (static_cast<B_8266_BB_TM2_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_UCS_3: size = (static_cast<B_8266_U0_UCS_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_UCS_3: size = (static_cast<B_8266_U1_UCS_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_UCS_3: size = (static_cast<B_8266_DM_UCS_3*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_UCS_3: size = (static_cast<B_8266_BB_UCS_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_UCS_4: size = (static_cast<B_8266_U0_UCS_4*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_UCS_4: size = (static_cast<B_8266_U1_UCS_4*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_UCS_4: size = (static_cast<B_8266_DM_UCS_4*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_UCS_4: size = (static_cast<B_8266_BB_UCS_4*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_APA106_3: size = (static_cast<B_8266_U0_APA106_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_APA106_3: size = (static_cast<B_8266_U1_APA106_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_APA106_3: size = (static_cast<B_8266_DM_APA106_3*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_APA106_3: size = (static_cast<B_8266_BB_APA106_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_FW6_5: size = (static_cast<B_8266_U0_FW6_5*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_FW6_5: size = (static_cast<B_8266_U1_FW6_5*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_FW6_5: size = (static_cast<B_8266_DM_FW6_5*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_FW6_5: size = (static_cast<B_8266_BB_FW6_5*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_2805_5: size = (static_cast<B_8266_U0_2805_5*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_2805_5: size = (static_cast<B_8266_U1_2805_5*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_2805_5: size = (static_cast<B_8266_DM_2805_5*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_2805_5: size = (static_cast<B_8266_BB_2805_5*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_TM1914_3: size = (static_cast<B_8266_U0_TM1914_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_TM1914_3: size = (static_cast<B_8266_U1_TM1914_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_TM1914_3: size = (static_cast<B_8266_DM_TM1914_3*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_TM1914_3: size = (static_cast<B_8266_BB_TM1914_3*>(busPtr))->PixelsSize()*2; break;
case I_8266_U0_SM16825_5: size = (static_cast<B_8266_U0_SM16825_5*>(busPtr))->PixelsSize()*2; break;
case I_8266_U1_SM16825_5: size = (static_cast<B_8266_U1_SM16825_5*>(busPtr))->PixelsSize()*2; break;
case I_8266_DM_SM16825_5: size = (static_cast<B_8266_DM_SM16825_5*>(busPtr))->PixelsSize()*5; break;
case I_8266_BB_SM16825_5: size = (static_cast<B_8266_BB_SM16825_5*>(busPtr))->PixelsSize()*2; break;
#endif
#ifdef ARDUINO_ARCH_ESP32
// RMT buses (front + back + small system managed RMT)
case I_32_RN_NEO_3: size = (static_cast<B_32_RN_NEO_3*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_NEO_4: size = (static_cast<B_32_RN_NEO_4*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_400_3: size = (static_cast<B_32_RN_400_3*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_TM1_4: size = (static_cast<B_32_RN_TM1_4*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_TM2_3: size = (static_cast<B_32_RN_TM2_3*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_UCS_3: size = (static_cast<B_32_RN_UCS_3*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_UCS_4: size = (static_cast<B_32_RN_UCS_4*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_APA106_3: size = (static_cast<B_32_RN_APA106_3*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_FW6_5: size = (static_cast<B_32_RN_FW6_5*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_2805_5: size = (static_cast<B_32_RN_2805_5*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_TM1914_3: size = (static_cast<B_32_RN_TM1914_3*>(busPtr))->PixelsSize()*2; break;
case I_32_RN_SM16825_5: size = (static_cast<B_32_RN_SM16825_5*>(busPtr))->PixelsSize()*2; break;
// I2S1 bus or paralell buses (front + DMA; DMA = front * cadence, aligned to 4 bytes)
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: size = (_useParallelI2S) ? (static_cast<B_32_IP_NEO_3*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_NEO_3*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_NEO_4: size = (_useParallelI2S) ? (static_cast<B_32_IP_NEO_4*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_NEO_4*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_400_3: size = (_useParallelI2S) ? (static_cast<B_32_IP_400_3*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_400_3*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_TM1_4: size = (_useParallelI2S) ? (static_cast<B_32_IP_TM1_4*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_TM1_4*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_TM2_3: size = (_useParallelI2S) ? (static_cast<B_32_IP_TM2_3*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_TM2_3*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_UCS_3: size = (_useParallelI2S) ? (static_cast<B_32_IP_UCS_3*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_UCS_3*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_UCS_4: size = (_useParallelI2S) ? (static_cast<B_32_IP_UCS_4*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_UCS_4*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_APA106_3: size = (_useParallelI2S) ? (static_cast<B_32_IP_APA106_3*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_APA106_3*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_FW6_5: size = (_useParallelI2S) ? (static_cast<B_32_IP_FW6_5*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_FW6_5*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_2805_5: size = (_useParallelI2S) ? (static_cast<B_32_IP_2805_5*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_2805_5*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_TM1914_3: size = (_useParallelI2S) ? (static_cast<B_32_IP_TM1914_3*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_TM1914_3*>(busPtr))->PixelsSize()*4; break;
case I_32_I2_SM16825_5: size = (_useParallelI2S) ? (static_cast<B_32_IP_SM16825_5*>(busPtr))->PixelsSize()*4 : (static_cast<B_32_I2_SM16825_5*>(busPtr))->PixelsSize()*4; break;
#endif
#endif
case I_HS_DOT_3: size = (static_cast<B_HS_DOT_3*>(busPtr))->PixelsSize()*2; break;
case I_SS_DOT_3: size = (static_cast<B_SS_DOT_3*>(busPtr))->PixelsSize()*2; break;
case I_HS_LPD_3: size = (static_cast<B_HS_LPD_3*>(busPtr))->PixelsSize()*2; break;
case I_SS_LPD_3: size = (static_cast<B_SS_LPD_3*>(busPtr))->PixelsSize()*2; break;
case I_HS_LPO_3: size = (static_cast<B_HS_LPO_3*>(busPtr))->PixelsSize()*2; break;
case I_SS_LPO_3: size = (static_cast<B_SS_LPO_3*>(busPtr))->PixelsSize()*2; break;
case I_HS_WS1_3: size = (static_cast<B_HS_WS1_3*>(busPtr))->PixelsSize()*2; break;
case I_SS_WS1_3: size = (static_cast<B_SS_WS1_3*>(busPtr))->PixelsSize()*2; break;
case I_HS_P98_3: size = (static_cast<B_HS_P98_3*>(busPtr))->PixelsSize()*2; break;
case I_SS_P98_3: size = (static_cast<B_SS_P98_3*>(busPtr))->PixelsSize()*2; break;
}
return size;
}
static unsigned memUsage(unsigned count, unsigned busType) {
unsigned size = count*3; // let's assume 3 channels, we will add count or 2*count below for 4 channels or 5 channels
switch (busType) {
case I_NONE: size = 0; break;
#ifdef ESP8266
// UART methods have front + back buffers + small UART
case I_8266_U0_NEO_4: size = (size + count)*2; break; // 4 channels
case I_8266_U1_NEO_4: size = (size + count)*2; break; // 4 channels
case I_8266_BB_NEO_4: size = (size + count)*2; break; // 4 channels
case I_8266_U0_TM1_4: size = (size + count)*2; break; // 4 channels
case I_8266_U1_TM1_4: size = (size + count)*2; break; // 4 channels
case I_8266_BB_TM1_4: size = (size + count)*2; break; // 4 channels
case I_8266_U0_UCS_3: size *= 4; break; // 16 bit
case I_8266_U1_UCS_3: size *= 4; break; // 16 bit
case I_8266_BB_UCS_3: size *= 4; break; // 16 bit
case I_8266_U0_UCS_4: size = (size + count)*2*2; break; // 16 bit 4 channels
case I_8266_U1_UCS_4: size = (size + count)*2*2; break; // 16 bit 4 channels
case I_8266_BB_UCS_4: size = (size + count)*2*2; break; // 16 bit 4 channels
case I_8266_U0_FW6_5: size = (size + 2*count)*2; break; // 5 channels
case I_8266_U1_FW6_5: size = (size + 2*count)*2; break; // 5channels
case I_8266_BB_FW6_5: size = (size + 2*count)*2; break; // 5 channels
case I_8266_U0_2805_5: size = (size + 2*count)*2; break; // 5 channels
case I_8266_U1_2805_5: size = (size + 2*count)*2; break; // 5 channels
case I_8266_BB_2805_5: size = (size + 2*count)*2; break; // 5 channels
case I_8266_U0_SM16825_5: size = (size + 2*count)*2*2; break; // 16 bit 5 channels
case I_8266_U1_SM16825_5: size = (size + 2*count)*2*2; break; // 16 bit 5 channels
case I_8266_BB_SM16825_5: size = (size + 2*count)*2*2; break; // 16 bit 5 channels
// DMA methods have front + DMA buffer = ((1+(3+1)) * channels)
case I_8266_DM_NEO_3: size *= 5; break;
case I_8266_DM_NEO_4: size = (size + count)*5; break;
case I_8266_DM_400_3: size *= 5; break;
case I_8266_DM_TM1_4: size = (size + count)*5; break;
case I_8266_DM_TM2_3: size *= 5; break;
case I_8266_DM_UCS_3: size *= 2*5; break;
case I_8266_DM_UCS_4: size = (size + count)*2*5; break;
case I_8266_DM_APA106_3: size *= 5; break;
case I_8266_DM_FW6_5: size = (size + 2*count)*5; break;
case I_8266_DM_2805_5: size = (size + 2*count)*5; break;
case I_8266_DM_TM1914_3: size *= 5; break;
case I_8266_DM_SM16825_5: size = (size + 2*count)*2*5; break;
#endif
#ifdef ARDUINO_ARCH_ESP32
// RMT buses (1x front and 1x back buffer)
case I_32_RN_NEO_4: size = (size + count)*2; break;
case I_32_RN_TM1_4: size = (size + count)*2; break;
case I_32_RN_UCS_3: size *= 2*2; break;
case I_32_RN_UCS_4: size = (size + count)*2*2; break;
case I_32_RN_FW6_5: size = (size + 2*count)*2; break;
case I_32_RN_2805_5: size = (size + 2*count)*2; break;
case I_32_RN_SM16825_5: size = (size + 2*count)*2*2; break;
// I2S1 bus or paralell buses (individual 1x front and 1 DMA (3x or 4x pixel count) or common back DMA buffers)
#ifndef CONFIG_IDF_TARGET_ESP32C3
case I_32_I2_NEO_3: size *= 4; break;
case I_32_I2_NEO_4: size = (size + count)*4; break;
case I_32_I2_400_3: size *= 4; break;
case I_32_I2_TM1_4: size = (size + count)*4; break;
case I_32_I2_TM2_3: size *= 4; break;
case I_32_I2_UCS_3: size *= 2*4; break;
case I_32_I2_UCS_4: size = (size + count)*2*4; break;
case I_32_I2_APA106_3: size *= 4; break;
case I_32_I2_FW6_5: size = (size + 2*count)*4; break;
case I_32_I2_2805_5: size = (size + 2*count)*4; break;
case I_32_I2_TM1914_3: size *= 4; break;
case I_32_I2_SM16825_5: size = (size + 2*count)*2*4; break;
#endif
#endif
// everything else uses 2 buffers
default: size *= 2; break;
}
return size;
}
//gives back the internal type index (I_XX_XXX_X above) for the input
static uint8_t getI(uint8_t busType, uint8_t* pins, uint8_t num = 0) {
static uint8_t getI(uint8_t busType, const uint8_t* pins, uint8_t num = 0) {
if (!Bus::isDigital(busType)) return I_NONE;
if (Bus::is2Pin(busType)) { //SPI LED chips
bool isHSPI = false;
@ -1372,26 +1427,33 @@ class PolyBus {
uint8_t offset = 0; // 0 = RMT (num 1-8), 1 = I2S0 (used by Audioreactive), 2 = I2S1
#if defined(CONFIG_IDF_TARGET_ESP32S2)
// ESP32-S2 only has 4 RMT channels
if (_useParallelI2S) {
if (num > 11) return I_NONE;
if (num > 3) offset = 1; // use x8 parallel I2S0 channels (use last to allow Audioreactive)
} else {
if (num > 4) return I_NONE;
if (num > 3) offset = 1; // only one I2S (use last to allow Audioreactive)
if (num > 3) offset = 1; // only one I2S0 (use last to allow Audioreactive)
}
#elif defined(CONFIG_IDF_TARGET_ESP32C3)
// On ESP32-C3 only the first 2 RMT channels are usable for transmitting
if (num > 1) return I_NONE;
//if (num > 1) offset = 1; // I2S not supported yet (only 1 I2S)
#elif defined(CONFIG_IDF_TARGET_ESP32S3)
// On ESP32-S3 only the first 4 RMT channels are usable for transmitting
if (num > 3) return I_NONE;
//if (num > 3) offset = num -4; // I2S not supported yet
if (_useParallelI2S) {
if (num > 11) return I_NONE;
if (num > 3) offset = 1; // use x8 parallel I2S LCD channels
} else {
if (num > 3) return I_NONE; // do not use single I2S (as it is not supported)
}
#else
// standard ESP32 has 8 RMT and 2 I2S channels
if (useParallelI2S) {
if (num > 16) return I_NONE;
if (num < 8) offset = 2; // prefer 8 parallel I2S1 channels
if (num == 16) offset = 1;
// standard ESP32 has 8 RMT and x1/x8 I2S1 channels
if (_useParallelI2S) {
if (num > 15) return I_NONE;
if (num > 7) offset = 1; // 8 RMT followed by 8 I2S
} else {
if (num > 9) return I_NONE;
if (num > 8) offset = 1;
if (num == 0) offset = 2; // prefer I2S1 for 1st bus (less flickering but more RAM needed)
if (num == 0) offset = 1; // prefer I2S1 for 1st bus (less flickering but more RAM needed)
}
#endif
switch (busType) {

26
wled00/cfg.cpp
View File

@ -220,20 +220,9 @@ bool deserializeConfig(JsonObject doc, bool fromFS) {
maMax = 0;
}
ledType |= refresh << 7; // hack bit 7 to indicate strip requires off refresh
if (fromFS) {
BusConfig bc = BusConfig(ledType, pins, start, length, colorOrder, reversed, skipFirst, AWmode, freqkHz, useGlobalLedBuffer, maPerLed, maMax);
if (useParallel && s < 8) {
// if for some unexplained reason the above pre-calculation was wrong, update
unsigned memT = BusManager::memUsage(bc); // includes x8 memory allocation for parallel I2S
if (memT > mem) mem = memT; // if we have unequal LED count use the largest
} else
mem += BusManager::memUsage(bc); // includes global buffer
if (mem <= MAX_LED_MEMORY) if (BusManager::add(bc) == -1) break; // finalization will be done in WLED::beginStrip()
} else {
if (busConfigs[s] != nullptr) delete busConfigs[s];
busConfigs[s] = new BusConfig(ledType, pins, start, length, colorOrder, reversed, skipFirst, AWmode, freqkHz, useGlobalLedBuffer, maPerLed, maMax);
busConfigs.push_back(std::move(BusConfig(ledType, pins, start, length, colorOrder, reversed, skipFirst, AWmode, freqkHz, useGlobalLedBuffer, maPerLed, maMax)));
doInitBusses = true; // finalization done in beginStrip()
}
s++;
}
DEBUG_PRINTF_P(PSTR("LED buffer size: %uB\n"), mem);
@ -855,8 +844,19 @@ void serializeConfig() {
JsonArray hw_led_ins = hw_led.createNestedArray("ins");
for (size_t s = 0; s < BusManager::getNumBusses(); s++) {
DEBUG_PRINTF_P(PSTR("Cfg: Saving bus #%u\n"), s);
Bus *bus = BusManager::getBus(s);
if (!bus || bus->getLength()==0) break;
DEBUG_PRINTF_P(PSTR(" (%d-%d, type:%d, CO:%d, rev:%d, skip:%d, AW:%d kHz:%d, mA:%d/%d)\n"),
(int)bus->getStart(), (int)(bus->getStart()+bus->getLength()),
(int)(bus->getType() & 0x7F),
(int)bus->getColorOrder(),
(int)bus->isReversed(),
(int)bus->skippedLeds(),
(int)bus->getAutoWhiteMode(),
(int)bus->getFrequency(),
(int)bus->getLEDCurrent(), (int)bus->getMaxCurrent()
);
JsonObject ins = hw_led_ins.createNestedObject();
ins["start"] = bus->getStart();
ins["len"] = bus->getLength();

20
wled00/const.h
View File

@ -49,31 +49,31 @@
#define WLED_MAX_DIGITAL_CHANNELS 3
#define WLED_MAX_ANALOG_CHANNELS 5
#define WLED_MAX_BUSSES 4 // will allow 3 digital & 1 analog RGB
#define WLED_MIN_VIRTUAL_BUSSES 2
#define WLED_MIN_VIRTUAL_BUSSES 3
#else
#define WLED_MAX_ANALOG_CHANNELS (LEDC_CHANNEL_MAX*LEDC_SPEED_MODE_MAX)
#if defined(CONFIG_IDF_TARGET_ESP32C3) // 2 RMT, 6 LEDC, only has 1 I2S but NPB does not support it ATM
#define WLED_MAX_BUSSES 6 // will allow 2 digital & 2 analog RGB or 6 PWM white
#define WLED_MAX_DIGITAL_CHANNELS 2
//#define WLED_MAX_ANALOG_CHANNELS 6
#define WLED_MIN_VIRTUAL_BUSSES 3
#define WLED_MIN_VIRTUAL_BUSSES 4
#elif defined(CONFIG_IDF_TARGET_ESP32S2) // 4 RMT, 8 LEDC, only has 1 I2S bus, supported in NPB
// the 5th bus (I2S) will prevent Audioreactive usermod from functioning (it is last used though)
#define WLED_MAX_BUSSES 7 // will allow 5 digital & 2 analog RGB
#define WLED_MAX_DIGITAL_CHANNELS 5
//#define WLED_MAX_ANALOG_CHANNELS 8
#define WLED_MIN_VIRTUAL_BUSSES 3
#elif defined(CONFIG_IDF_TARGET_ESP32S3) // 4 RMT, 8 LEDC, has 2 I2S but NPB does not support them ATM
#define WLED_MAX_BUSSES 6 // will allow 4 digital & 2 analog RGB
#define WLED_MAX_DIGITAL_CHANNELS 4
//#define WLED_MAX_ANALOG_CHANNELS 8
#define WLED_MIN_VIRTUAL_BUSSES 4
#elif defined(CONFIG_IDF_TARGET_ESP32S3) // 4 RMT, 8 LEDC, has 2 I2S but NPB supports parallel x8 LCD on I2S1
#define WLED_MAX_BUSSES 14 // will allow 12 digital & 2 analog RGB
#define WLED_MAX_DIGITAL_CHANNELS 12 // x4 RMT + x8 I2S-LCD
//#define WLED_MAX_ANALOG_CHANNELS 8
#define WLED_MIN_VIRTUAL_BUSSES 6
#else
// the last digital bus (I2S0) will prevent Audioreactive usermod from functioning
#define WLED_MAX_BUSSES 20 // will allow 17 digital & 3 analog RGB
#define WLED_MAX_DIGITAL_CHANNELS 17
#define WLED_MAX_BUSSES 19 // will allow 16 digital & 3 analog RGB
#define WLED_MAX_DIGITAL_CHANNELS 16 // x1/x8 I2S1 + x8 RMT
//#define WLED_MAX_ANALOG_CHANNELS 16
#define WLED_MIN_VIRTUAL_BUSSES 4
#define WLED_MIN_VIRTUAL_BUSSES 6
#endif
#endif
#else

12
wled00/data/settings_leds.htm
View File

@ -350,6 +350,17 @@
else LC.style.color = d.ro_gpio.some((e)=>e==parseInt(LC.value)) ? "orange" : "#fff";
}
});
const S2 = (oMaxB == 14) && (maxV == 4);
const S3 = (oMaxB == 14) && (maxV == 6);
if (oMaxB == 19 || S2 || S3) { // TODO: crude ESP32 & S2/S3 detection
if (maxLC > 300 || dC <= 2) {
d.Sf["PR"].checked = false;
gId("prl").classList.add("hide");
} else
gId("prl").classList.remove("hide");
maxD = (S2 || S3 ? 4 : 8) + (d.Sf["PR"].checked ? 8 : S2); // TODO: use bLimits() : 4/8RMT + (x1/x8 parallel) I2S1
maxB = oMaxB - (d.Sf["PR"].checked ? 0 : 7 + S3); // S2 (maxV==3) does support single I2S
}
// distribute ABL current if not using PPL
enPPL(sDI);
@ -789,6 +800,7 @@ Swap: <select id="xw${s}" name="XW${s}">
Use less than <span id="wreason">800 LEDs per output</span> for the best experience!<br>
</div>
<hr class="sml">
<div id="prl" class="hide">Use parallel I2S: <input type="checkbox" name="PR"><br></div>
Make a segment for each output: <input type="checkbox" name="MS"><br>
Custom bus start indices: <input type="checkbox" onchange="tglSi(this.checked)" id="si"><br>
Use global LED buffer: <input type="checkbox" name="LD" onchange="UI()"><br>

1
wled00/fcn_declare.h
View File

@ -1,3 +1,4 @@
#pragma once
#ifndef WLED_FCN_DECLARE_H
#define WLED_FCN_DECLARE_H

6
wled00/set.cpp
View File

@ -139,6 +139,9 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
Bus::setGlobalAWMode(request->arg(F("AW")).toInt());
strip.setTargetFps(request->arg(F("FR")).toInt());
useGlobalLedBuffer = request->hasArg(F("LD"));
#if defined(ARDUINO_ARCH_ESP32) && !defined(CONFIG_IDF_TARGET_ESP32C3)
useParallelI2S = request->hasArg(F("PR"));
#endif
bool busesChanged = false;
for (int s = 0; s < WLED_MAX_BUSSES+WLED_MIN_VIRTUAL_BUSSES; s++) {
@ -208,8 +211,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
type |= request->hasArg(rf) << 7; // off refresh override
// actual finalization is done in WLED::loop() (removing old busses and adding new)
// this may happen even before this loop is finished so we do "doInitBusses" after the loop
if (busConfigs[s] != nullptr) delete busConfigs[s];
busConfigs[s] = new(std::nothrow) BusConfig(type, pins, start, length, colorOrder | (channelSwap<<4), request->hasArg(cv), skip, awmode, freq, useGlobalLedBuffer, maPerLed, maMax);
busConfigs.push_back(std::move(BusConfig(type, pins, start, length, colorOrder | (channelSwap<<4), request->hasArg(cv), skip, awmode, freq, useGlobalLedBuffer, maPerLed, maMax)));
busesChanged = true;
}
//doInitBusses = busesChanged; // we will do that below to ensure all input data is processed

3
wled00/wled.h
View File

@ -398,6 +398,9 @@ WLED_GLOBAL byte bootPreset _INIT(0); // save preset to load
WLED_GLOBAL bool useGlobalLedBuffer _INIT(false); // double buffering disabled on ESP8266
#else
WLED_GLOBAL bool useGlobalLedBuffer _INIT(true); // double buffering enabled on ESP32
#ifndef CONFIG_IDF_TARGET_ESP32C3
WLED_GLOBAL bool useParallelI2S _INIT(false); // parallel I2S for ESP32
#endif
#endif
#ifdef WLED_USE_IC_CCT
WLED_GLOBAL bool cctICused _INIT(true); // CCT IC used (Athom 15W bulbs)

1
wled00/xml.cpp
View File

@ -289,6 +289,7 @@ void getSettingsJS(byte subPage, Print& settingsScript)
printSetFormValue(settingsScript,PSTR("FR"),strip.getTargetFps());
printSetFormValue(settingsScript,PSTR("AW"),Bus::getGlobalAWMode());
printSetFormCheckbox(settingsScript,PSTR("LD"),useGlobalLedBuffer);
printSetFormCheckbox(settingsScript,PSTR("PR"),BusManager::hasParallelOutput()); // get it from bus manager not global variable
unsigned sumMa = 0;
for (int s = 0; s < BusManager::getNumBusses(); s++) {