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diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit NeoPixel/esp.c b/.pio/libdeps/esp32-s3-n16r8/Adafruit NeoPixel/esp.c
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+// Implements the RMT peripheral on Espressif SoCs
+// Copyright (c) 2020 Lucian Copeland for Adafruit Industries
+
+/* Uses code from Espressif RGB LED Strip demo and drivers
+ * Copyright 2015-2020 Espressif Systems (Shanghai) PTE LTD
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *     http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#if defined(ESP32)
+
+#include <Arduino.h>
+
+#if defined(ESP_IDF_VERSION)
+#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL(4, 0, 0)
+#define HAS_ESP_IDF_4
+#endif
+#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL(5, 0, 0)
+#define HAS_ESP_IDF_5
+#endif
+#endif
+
+#ifdef HAS_ESP_IDF_5
+
+static SemaphoreHandle_t show_mutex = NULL;
+
+void espShow(uint8_t pin, uint8_t *pixels, uint32_t numBytes,
+             boolean is800KHz) {
+    // Note: Because rmtPin is shared between all instances, we will
+    //  end up releasing/initializing the RMT channels each time we
+    //  invoke on different pins. This is probably ok, just not
+    //  efficient. led_data is shared between all instances but will
+    //  be allocated with enough space for the largest instance; data
+    //  is not used beyond the mutex lock so this should be fine.
+
+#define SEMAPHORE_TIMEOUT_MS 50
+
+    static rmt_data_t *led_data = NULL;
+    static uint32_t led_data_size = 0;
+    static int rmtPin = -1;
+
+    if (show_mutex &&
+        xSemaphoreTake(show_mutex, SEMAPHORE_TIMEOUT_MS / portTICK_PERIOD_MS) ==
+            pdTRUE) {
+        uint32_t requiredSize = numBytes * 8;
+        if (requiredSize > led_data_size) {
+            free(led_data);
+            led_data = (rmt_data_t *)malloc(requiredSize * sizeof(rmt_data_t));
+            if (led_data != NULL) {
+                led_data_size = requiredSize;
+            } else {
+                led_data_size = 0;
+            }
+        } else if (requiredSize == 0) {
+            // To release RMT resources (RMT channels and led_data), call
+            //  .updateLength(0) to set number of pixels/bytes to zero,
+            //  then call .show() to invoke this code and free resources.
+            free(led_data);
+            led_data = NULL;
+            if (rmtPin >= 0) {
+                rmtDeinit(rmtPin);
+                rmtPin = -1;
+            }
+            led_data_size = 0;
+        }
+
+        if (led_data_size > 0 && requiredSize <= led_data_size) {
+            if (pin != rmtPin) {
+                if (rmtPin >= 0) {
+                    rmtDeinit(rmtPin);
+                    rmtPin = -1;
+                }
+                if (!rmtInit(pin, RMT_TX_MODE, RMT_MEM_NUM_BLOCKS_1,
+                             10000000)) {
+                    log_e("Failed to init RMT TX mode on pin %d", pin);
+                    return;
+                }
+                rmtPin = pin;
+            }
+
+            if (rmtPin >= 0) {
+                int i = 0;
+                for (int b = 0; b < numBytes; b++) {
+                    for (int bit = 0; bit < 8; bit++) {
+                        if (pixels[b] & (1 << (7 - bit))) {
+                            led_data[i].level0 = 1;
+                            led_data[i].duration0 = 8;
+                            led_data[i].level1 = 0;
+                            led_data[i].duration1 = 4;
+                        } else {
+                            led_data[i].level0 = 1;
+                            led_data[i].duration0 = 4;
+                            led_data[i].level1 = 0;
+                            led_data[i].duration1 = 8;
+                        }
+                        i++;
+                    }
+                }
+
+                rmtWrite(pin, led_data, numBytes * 8, RMT_WAIT_FOR_EVER);
+            }
+        }
+
+        xSemaphoreGive(show_mutex);
+    }
+}
+
+// To avoid race condition initializing the mutex, all instances of
+//  Adafruit_NeoPixel must be constructed before launching and child threads
+void espInit() {
+    if (!show_mutex) {
+        show_mutex = xSemaphoreCreateMutex();
+    }
+}
+
+#else
+
+#include "driver/rmt.h"
+
+// This code is adapted from the ESP-IDF v3.4 RMT "led_strip" example, altered
+// to work with the Arduino version of the ESP-IDF (3.2)
+
+#define WS2812_T0H_NS (400)
+#define WS2812_T0L_NS (850)
+#define WS2812_T1H_NS (800)
+#define WS2812_T1L_NS (450)
+
+#define WS2811_T0H_NS (500)
+#define WS2811_T0L_NS (2000)
+#define WS2811_T1H_NS (1200)
+#define WS2811_T1L_NS (1300)
+
+static uint32_t t0h_ticks = 0;
+static uint32_t t1h_ticks = 0;
+static uint32_t t0l_ticks = 0;
+static uint32_t t1l_ticks = 0;
+
+// Limit the number of RMT channels available for the Neopixels. Defaults to all
+// channels (8 on ESP32, 4 on ESP32-S2 and S3). Redefining this value will free
+// any channels with a higher number for other uses, such as IR send-and-recieve
+// libraries. Redefine as 1 to restrict Neopixels to only a single channel.
+#define ADAFRUIT_RMT_CHANNEL_MAX RMT_CHANNEL_MAX
+
+#define RMT_LL_HW_BASE (&RMT)
+
+bool rmt_reserved_channels[ADAFRUIT_RMT_CHANNEL_MAX];
+
+static void IRAM_ATTR ws2812_rmt_adapter(const void *src, rmt_item32_t *dest,
+                                         size_t src_size, size_t wanted_num,
+                                         size_t *translated_size,
+                                         size_t *item_num) {
+    if (src == NULL || dest == NULL) {
+        *translated_size = 0;
+        *item_num = 0;
+        return;
+    }
+    const rmt_item32_t bit0 = {{{t0h_ticks, 1, t0l_ticks, 0}}}; // Logical 0
+    const rmt_item32_t bit1 = {{{t1h_ticks, 1, t1l_ticks, 0}}}; // Logical 1
+    size_t size = 0;
+    size_t num = 0;
+    uint8_t *psrc = (uint8_t *)src;
+    rmt_item32_t *pdest = dest;
+    while (size < src_size && num < wanted_num) {
+        for (int i = 0; i < 8; i++) {
+            // MSB first
+            if (*psrc & (1 << (7 - i))) {
+                pdest->val = bit1.val;
+            } else {
+                pdest->val = bit0.val;
+            }
+            num++;
+            pdest++;
+        }
+        size++;
+        psrc++;
+    }
+    *translated_size = size;
+    *item_num = num;
+}
+
+void espShow(uint8_t pin, uint8_t *pixels, uint32_t numBytes,
+             boolean is800KHz) {
+    // Reserve channel
+    rmt_channel_t channel = ADAFRUIT_RMT_CHANNEL_MAX;
+    for (size_t i = 0; i < ADAFRUIT_RMT_CHANNEL_MAX; i++) {
+        if (!rmt_reserved_channels[i]) {
+            rmt_reserved_channels[i] = true;
+            channel = i;
+            break;
+        }
+    }
+    if (channel == ADAFRUIT_RMT_CHANNEL_MAX) {
+        // Ran out of channels!
+        return;
+    }
+
+#if defined(HAS_ESP_IDF_4)
+    rmt_config_t config = RMT_DEFAULT_CONFIG_TX(pin, channel);
+    config.clk_div = 2;
+#else
+    // Match default TX config from ESP-IDF version 3.4
+    rmt_config_t config = {.rmt_mode = RMT_MODE_TX,
+                           .channel = channel,
+                           .gpio_num = pin,
+                           .clk_div = 2,
+                           .mem_block_num = 1,
+                           .tx_config = {
+                               .carrier_freq_hz = 38000,
+                               .carrier_level = RMT_CARRIER_LEVEL_HIGH,
+                               .idle_level = RMT_IDLE_LEVEL_LOW,
+                               .carrier_duty_percent = 33,
+                               .carrier_en = false,
+                               .loop_en = false,
+                               .idle_output_en = true,
+                           }};
+#endif
+    rmt_config(&config);
+    rmt_driver_install(config.channel, 0, 0);
+
+    // Convert NS timings to ticks
+    uint32_t counter_clk_hz = 0;
+
+#if defined(HAS_ESP_IDF_4)
+    rmt_get_counter_clock(channel, &counter_clk_hz);
+#else
+    // this emulates the rmt_get_counter_clock() function from ESP-IDF 3.4
+    if (RMT_LL_HW_BASE->conf_ch[config.channel].conf1.ref_always_on ==
+        RMT_BASECLK_REF) {
+        uint32_t div_cnt =
+            RMT_LL_HW_BASE->conf_ch[config.channel].conf0.div_cnt;
+        uint32_t div = div_cnt == 0 ? 256 : div_cnt;
+        counter_clk_hz = REF_CLK_FREQ / (div);
+    } else {
+        uint32_t div_cnt =
+            RMT_LL_HW_BASE->conf_ch[config.channel].conf0.div_cnt;
+        uint32_t div = div_cnt == 0 ? 256 : div_cnt;
+        counter_clk_hz = APB_CLK_FREQ / (div);
+    }
+#endif
+
+    // NS to tick converter
+    float ratio = (float)counter_clk_hz / 1e9;
+
+    if (is800KHz) {
+        t0h_ticks = (uint32_t)(ratio * WS2812_T0H_NS);
+        t0l_ticks = (uint32_t)(ratio * WS2812_T0L_NS);
+        t1h_ticks = (uint32_t)(ratio * WS2812_T1H_NS);
+        t1l_ticks = (uint32_t)(ratio * WS2812_T1L_NS);
+    } else {
+        t0h_ticks = (uint32_t)(ratio * WS2811_T0H_NS);
+        t0l_ticks = (uint32_t)(ratio * WS2811_T0L_NS);
+        t1h_ticks = (uint32_t)(ratio * WS2811_T1H_NS);
+        t1l_ticks = (uint32_t)(ratio * WS2811_T1L_NS);
+    }
+
+    // Initialize automatic timing translator
+    rmt_translator_init(config.channel, ws2812_rmt_adapter);
+
+    // Write and wait to finish
+    rmt_write_sample(config.channel, pixels, (size_t)numBytes, true);
+    rmt_wait_tx_done(config.channel, pdMS_TO_TICKS(100));
+
+    // Free channel again
+    rmt_driver_uninstall(config.channel);
+    rmt_reserved_channels[channel] = false;
+
+    gpio_set_direction(pin, GPIO_MODE_OUTPUT);
+}
+
+#endif // ifndef IDF5
+
+#endif // ifdef(ESP32)