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Tasmota/tasmota/tasmota_xlgt_light/xlgt_01_ws2812.ino

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/*
xlgt_01_ws2812.ino - led string support for Tasmota
Copyright (C) 2021 Theo Arends
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifdef USE_LIGHT
#ifdef USE_WS2812
/*********************************************************************************************\
* WS2812 RGB / RGBW Leds using NeopixelBus library
*
* light_scheme WS2812 3+ Colors 1+2 Colors Effect
* ------------ ------ --------- ---------- -----------------
* 0 (5) yes no no Clock
* 1 (6) yes no no Incandescent
* 2 (7) yes no no RGB
* 3 (8) yes no no Christmas
* 4 (9) yes no no Hanukkah
* 5 (10) yes no no Kwanzaa
* 6 (11) yes no no Rainbow
* 7 (12) yes no no Fire
* 8 (13) yes no no Stairs
\*********************************************************************************************/
#define XLGT_01 1
#ifdef USE_NETWORK_LIGHT_SCHEMES
const uint8_t WS2812_SCHEMES = 10; // Number of WS2812 schemes
#else
const uint8_t WS2812_SCHEMES = 9; // Number of WS2812 schemes
#endif
const char kWs2812Commands[] PROGMEM = "|" // No prefix
D_CMND_LED "|" D_CMND_PIXELS "|" D_CMND_ROTATION "|" D_CMND_WIDTH "|" D_CMND_STEPPIXELS ;
void (* const Ws2812Command[])(void) PROGMEM = {
&CmndLed, &CmndPixels, &CmndRotation, &CmndWidth, &CmndStepPixels };
#include <NeoPixelBus.h>
// See NeoEspDmaMethod.h for available options
// See NeoEspBitBangMethod.h for available options
// Build `selectedNeoFeatureType` as Neo-Rgb-Feature
// parametrized as: NEO_FEATURE_NEO+NEO_FEATURE_TYPE+NEO_FEATURE_FEATURE
#define CONCAT2(A,B) CONCAT2_(A,B) // ensures expansion first, see https://stackoverflow.com/questions/3221896/how-can-i-guarantee-full-macro-expansion-of-a-parameter-before-paste
#define CONCAT2_(A,B) A ## B
#define CONCAT3(A,B,C) CONCAT3_(A,B,C) // ensures expansion first, see https://stackoverflow.com/questions/3221896/how-can-i-guarantee-full-macro-expansion-of-a-parameter-before-paste
#define CONCAT3_(A,B,C) A ## B ## C
#define NEO_FEATURE_NEO Neo
#define NEO_FEATURE_FEATURE Feature
// select the right Neo feature based on USE_WS2812_CTYPE
// NEO_FEATURE_TYPE can be one of: Rgb (default), Grb, Brg, Rgb, Rgbw, Grbw
#if (USE_WS2812_CTYPE == NEO_GRB)
#define NEO_FEATURE_TYPE Grb
#elif (USE_WS2812_CTYPE == NEO_BRG)
#define NEO_FEATURE_TYPE Brg
#elif (USE_WS2812_CTYPE == NEO_RBG)
#define NEO_FEATURE_TYPE Rbg
#elif (USE_WS2812_CTYPE == NEO_RGBW)
#define NEO_FEATURE_TYPE Rgbw
#elif (USE_WS2812_CTYPE == NEO_GRBW)
#define NEO_FEATURE_TYPE Grbw
#else
#define NEO_FEATURE_TYPE Rgb
#endif
// Exception for NEO_HW_P9813
#if (USE_WS2812_HARDWARE == NEO_HW_P9813)
#undef NEO_FEATURE_NEO
#undef NEO_FEATURE_TYPE
#define NEO_FEATURE_NEO P9813 // P9813BgrFeature
#define NEO_FEATURE_TYPE Bgr
#undef USE_WS2812_DMA
#undef USE_WS2812_INVERTED
#endif // USE_WS2812_CTYPE
typedef CONCAT3(NEO_FEATURE_NEO,NEO_FEATURE_TYPE,NEO_FEATURE_FEATURE) selectedNeoFeatureType;
// selectedNeoSpeedType is built as Neo+Esp8266+Dma+Inverted+Ws2812x+Method
// Or NEO_NEO+NEO_CHIP+NEO_PROTO+NEO_INV+NEO_HW+Method
#define CONCAT6(A,B,C,D,E,F) CONCAT6_(A,B,C,D,E,F) // ensures expansion first, see https://stackoverflow.com/questions/3221896/how-can-i-guarantee-full-macro-expansion-of-a-parameter-before-paste
#define CONCAT6_(A,B,C,D,E,F) A ## B ## C ## D ## E ## F
#define NEO_NEO Neo
#ifdef ESP32
#define NEO_CHIP Esp32
#else
#define NEO_CHIP Esp8266
#endif
// Proto = DMA or BigBang
#if defined(USE_WS2812_DMA) && defined(ESP8266)
#define NEO_PROTO Dma
#elif defined(USE_WS2812_RMT) && defined(ESP32)
#define NEO_PROTO CONCAT2(Rmt,USE_WS2812_RMT)
#elif defined(USE_WS2812_I2S) && defined(ESP32)
#define NEO_PROTO CONCAT2(I2s,USE_WS2812_I2S)
#else
#define NEO_PROTO BitBang
#endif
#ifdef USE_WS2812_INVERTED
#define NEO_INV Inverted
#else
#define NEO_INV
#endif
#if (USE_WS2812_HARDWARE == NEO_HW_WS2812X)
#define NEO_HW Ws2812x
#elif (USE_WS2812_HARDWARE == NEO_HW_SK6812)
#define NEO_HW Sk6812
#elif (USE_WS2812_HARDWARE == NEO_HW_APA106)
#define NEO_HW Apa106
#else // USE_WS2812_HARDWARE
#define NEO_HW 800Kbps
#endif // USE_WS2812_HARDWARE
#if (USE_WS2812_HARDWARE == NEO_HW_P9813)
#undef NEO_NEO
#define NEO_NEO
#undef NEO_CHIP
#define NEO_CHIP
#undef NEO_PROTO
#define NEO_PROTO
#undef NEO_INV
#define NEO_INV
#undef NEO_HW
#define NEO_HW P9813 // complete driver is P9813Method
#endif
#if defined(ESP8266) && defined(USE_WS2812_DMA)
typedef CONCAT6(NEO_NEO,NEO_CHIP,NEO_PROTO,NEO_INV,NEO_HW,Method) selectedNeoSpeedType;
#else // Dma : different naming scheme
typedef CONCAT6(NEO_NEO,NEO_CHIP,NEO_PROTO,NEO_HW,NEO_INV,Method) selectedNeoSpeedType;
#endif
NeoPixelBus<selectedNeoFeatureType, selectedNeoSpeedType> *strip = nullptr;
struct WsColor {
uint8_t red, green, blue;
};
struct ColorScheme {
WsColor* colors;
uint8_t count;
};
WsColor kIncandescent[2] = { 255,140,20, 0,0,0 };
WsColor kRgb[3] = { 255,0,0, 0,255,0, 0,0,255 };
WsColor kChristmas[2] = { 255,0,0, 0,255,0 };
WsColor kHanukkah[2] = { 0,0,255, 255,255,255 };
WsColor kwanzaa[3] = { 255,0,0, 0,0,0, 0,255,0 };
WsColor kRainbow[7] = { 255,0,0, 255,128,0, 255,255,0, 0,255,0, 0,0,255, 128,0,255, 255,0,255 };
WsColor kFire[3] = { 255,0,0, 255,102,0, 255,192,0 };
WsColor kStairs[2] = { 0,0,0, 255,255,255 };
#ifdef USE_NETWORK_LIGHT_SCHEMES
ColorScheme kSchemes[WS2812_SCHEMES -2] = { // Skip clock scheme and DDP scheme
#else
ColorScheme kSchemes[WS2812_SCHEMES -1] = { // Skip clock scheme
#endif
kIncandescent, 2,
kRgb, 3,
kChristmas, 2,
kHanukkah, 2,
kwanzaa, 3,
kRainbow, 7,
kFire, 3,
kStairs, 2 };
uint8_t kWidth[5] = {
1, // Small
2, // Medium
4, // Large
8, // Largest
255 }; // All
uint8_t kWsRepeat[5] = {
8, // Small
6, // Medium
4, // Large
2, // Largest
1 }; // All
struct WS2812 {
uint8_t show_next = 1;
uint8_t scheme_offset = 0;
bool suspend_update = false;
} Ws2812;
/********************************************************************************************/
// For some reason map fails to compile so renamed to wsmap
long wsmap(long x, long in_min, long in_max, long out_min, long out_max) {
return (x - in_min) * (out_max - out_min) / (in_max - in_min) + out_min;
}
void Ws2812StripShow(void)
{
#if (USE_WS2812_CTYPE > NEO_3LED)
RgbwColor c;
#else
RgbColor c;
#endif
if (Settings->light_correction) {
for (uint32_t i = 0; i < Settings->light_pixels; i++) {
c = strip->GetPixelColor(i);
c.R = ledGamma(c.R);
c.G = ledGamma(c.G);
c.B = ledGamma(c.B);
#if (USE_WS2812_CTYPE > NEO_3LED)
c.W = ledGamma(c.W);
#endif
strip->SetPixelColor(i, c);
}
}
strip->Show();
}
int mod(int a, int b)
{
int ret = a % b;
if (ret < 0) ret += b;
return ret;
}
void Ws2812UpdatePixelColor(int position, struct WsColor hand_color, float offset)
{
#if (USE_WS2812_CTYPE > NEO_3LED)
RgbwColor color;
#else
RgbColor color;
#endif
uint32_t mod_position = mod(position, (int)Settings->light_pixels);
color = strip->GetPixelColor(mod_position);
float dimmer = 100 / (float)Settings->light_dimmer;
color.R = tmin(color.R + ((hand_color.red / dimmer) * offset), 255);
color.G = tmin(color.G + ((hand_color.green / dimmer) * offset), 255);
color.B = tmin(color.B + ((hand_color.blue / dimmer) * offset), 255);
strip->SetPixelColor(mod_position, color);
}
void Ws2812UpdateHand(int position, uint32_t index)
{
uint32_t width = Settings->light_width;
if (index < WS_MARKER) { width = Settings->ws_width[index]; }
if (!width) { return; } // Skip
position = (position + Settings->light_rotation) % Settings->light_pixels;
if (Settings->flag.ws_clock_reverse) { // SetOption16 - Switch between clockwise or counter-clockwise
position = Settings->light_pixels -position;
}
WsColor hand_color = { Settings->ws_color[index][WS_RED], Settings->ws_color[index][WS_GREEN], Settings->ws_color[index][WS_BLUE] };
Ws2812UpdatePixelColor(position, hand_color, 1);
uint32_t range = ((width -1) / 2) +1;
for (uint32_t h = 1; h < range; h++) {
float offset = (float)(range - h) / (float)range;
Ws2812UpdatePixelColor(position -h, hand_color, offset);
Ws2812UpdatePixelColor(position +h, hand_color, offset);
}
}
void Ws2812Clock(void)
{
strip->ClearTo(0); // Reset strip
int clksize = 60000 / (int)Settings->light_pixels;
Ws2812UpdateHand((RtcTime.second * 1000) / clksize, WS_SECOND);
Ws2812UpdateHand((RtcTime.minute * 1000) / clksize, WS_MINUTE);
Ws2812UpdateHand((((RtcTime.hour % 12) * 5000) + ((RtcTime.minute * 1000) / 12 )) / clksize, WS_HOUR);
if (Settings->ws_color[WS_MARKER][WS_RED] + Settings->ws_color[WS_MARKER][WS_GREEN] + Settings->ws_color[WS_MARKER][WS_BLUE]) {
for (uint32_t i = 0; i < 12; i++) {
Ws2812UpdateHand((i * 5000) / clksize, WS_MARKER);
}
}
Ws2812StripShow();
}
void Ws2812GradientColor(uint32_t schemenr, struct WsColor* mColor, uint32_t range, uint32_t gradRange, uint32_t i)
{
/*
* Compute the color of a pixel at position i using a gradient of the color scheme.
* This function is used internally by the gradient function.
*/
ColorScheme scheme = kSchemes[schemenr];
uint32_t curRange = i / range;
uint32_t rangeIndex = i % range;
uint32_t colorIndex = rangeIndex / gradRange;
uint32_t start = colorIndex;
uint32_t end = colorIndex +1;
if (curRange % 2 != 0) {
start = (scheme.count -1) - start;
end = (scheme.count -1) - end;
}
float dimmer = 100 / (float)Settings->light_dimmer;
float fmyRed = (float)wsmap(rangeIndex % gradRange, 0, gradRange, scheme.colors[start].red, scheme.colors[end].red) / dimmer;
float fmyGrn = (float)wsmap(rangeIndex % gradRange, 0, gradRange, scheme.colors[start].green, scheme.colors[end].green) / dimmer;
float fmyBlu = (float)wsmap(rangeIndex % gradRange, 0, gradRange, scheme.colors[start].blue, scheme.colors[end].blue) / dimmer;
mColor->red = (uint8_t)fmyRed;
mColor->green = (uint8_t)fmyGrn;
mColor->blue = (uint8_t)fmyBlu;
}
void Ws2812Gradient(uint32_t schemenr)
{
/*
* This routine courtesy Tony DiCola (Adafruit)
* Display a gradient of colors for the current color scheme.
* Repeat is the number of repetitions of the gradient (pick a multiple of 2 for smooth looping of the gradient).
*/
#if (USE_WS2812_CTYPE > NEO_3LED)
RgbwColor c;
c.W = 0;
#else
RgbColor c;
#endif
ColorScheme scheme = kSchemes[schemenr];
if (scheme.count < 2) { return; }
uint32_t repeat = kWsRepeat[Settings->light_width]; // number of scheme.count per ledcount
uint32_t range = (uint32_t)ceil((float)Settings->light_pixels / (float)repeat);
uint32_t gradRange = (uint32_t)ceil((float)range / (float)(scheme.count - 1));
uint32_t speed = ((Settings->light_speed * 2) -1) * (STATES / 10);
uint32_t offset = speed > 0 ? Light.strip_timer_counter / speed : 0;
WsColor oldColor, currentColor;
Ws2812GradientColor(schemenr, &oldColor, range, gradRange, offset);
currentColor = oldColor;
speed = speed ? speed : 1; // should never happen, just avoid div0
for (uint32_t i = 0; i < Settings->light_pixels; i++) {
if (kWsRepeat[Settings->light_width] > 1) {
Ws2812GradientColor(schemenr, &currentColor, range, gradRange, i + offset + 1);
}
// Blend old and current color based on time for smooth movement.
c.R = wsmap(Light.strip_timer_counter % speed, 0, speed, oldColor.red, currentColor.red);
c.G = wsmap(Light.strip_timer_counter % speed, 0, speed, oldColor.green, currentColor.green);
c.B = wsmap(Light.strip_timer_counter % speed, 0, speed, oldColor.blue, currentColor.blue);
strip->SetPixelColor(i, c);
oldColor = currentColor;
}
Ws2812StripShow();
}
void Ws2812Bars(uint32_t schemenr)
{
/*
* This routine courtesy Tony DiCola (Adafruit)
* Display solid bars of color for the current color scheme.
* Width is the width of each bar in pixels/lights.
*/
#if (USE_WS2812_CTYPE > NEO_3LED)
RgbwColor c;
c.W = 0;
#else
RgbColor c;
#endif
ColorScheme scheme = kSchemes[schemenr];
uint32_t maxSize = Settings->light_pixels / scheme.count;
if (kWidth[Settings->light_width] > maxSize) { maxSize = 0; }
uint32_t speed = ((Settings->light_speed * 2) -1) * (STATES / 10);
uint32_t offset = (speed > 0) ? Light.strip_timer_counter / speed : 0;
WsColor mcolor[scheme.count];
memcpy(mcolor, scheme.colors, sizeof(mcolor));
float dimmer = 100 / (float)Settings->light_dimmer;
for (uint32_t i = 0; i < scheme.count; i++) {
float fmyRed = (float)mcolor[i].red / dimmer;
float fmyGrn = (float)mcolor[i].green / dimmer;
float fmyBlu = (float)mcolor[i].blue / dimmer;
mcolor[i].red = (uint8_t)fmyRed;
mcolor[i].green = (uint8_t)fmyGrn;
mcolor[i].blue = (uint8_t)fmyBlu;
}
uint32_t colorIndex = offset % scheme.count;
for (uint32_t i = 0; i < Settings->light_pixels; i++) {
if (maxSize) { colorIndex = ((i + offset) % (scheme.count * kWidth[Settings->light_width])) / kWidth[Settings->light_width]; }
c.R = mcolor[colorIndex].red;
c.G = mcolor[colorIndex].green;
c.B = mcolor[colorIndex].blue;
strip->SetPixelColor(i, c);
}
Ws2812StripShow();
}
void Ws2812Steps(uint32_t schemenr) {
#if (USE_WS2812_CTYPE > NEO_3LED)
RgbwColor c;
c.W = 0;
#else
RgbColor c;
#endif
ColorScheme scheme = kSchemes[schemenr];
// apply main color if current sheme == kStairs
if (scheme.colors == kStairs) {
scheme.colors[1].red = Settings->light_color[0];
scheme.colors[1].green = Settings->light_color[1];
scheme.colors[1].blue = Settings->light_color[2];
}
uint8_t scheme_count = scheme.count;
if (Settings->light_fade) {
scheme_count = Settings->ws_width[WS_HOUR]; // Width4
}
if (scheme_count < 2) {
scheme_count = 2;
}
WsColor mcolor[scheme_count];
uint8_t color_start = 0;
uint8_t color_end = 1;
if (Settings->light_rotation & 0x01) {
color_start = 1;
color_end = 0;
}
if (Settings->light_fade) {
// generate gradient (width = Width4)
for (uint32_t i = 1; i < scheme_count - 1; i++) {
mcolor[i].red = (uint8_t) wsmap(i, 0, scheme_count, scheme.colors[color_start].red, scheme.colors[color_end].red);
mcolor[i].green = (uint8_t) wsmap(i, 0, scheme_count, scheme.colors[color_start].green, scheme.colors[color_end].green);
mcolor[i].blue = (uint8_t) wsmap(i, 0, scheme_count, scheme.colors[color_start].blue, scheme.colors[color_end].blue);
}
} else {
memcpy(mcolor, scheme.colors, sizeof(mcolor));
}
// Repair first & last color in gradient; apply scheme rotation if fade==0
mcolor[0].red = scheme.colors[color_start].red;
mcolor[0].green = scheme.colors[color_start].green;
mcolor[0].blue = scheme.colors[color_start].blue;
mcolor[scheme_count-1].red = scheme.colors[color_end].red;
mcolor[scheme_count-1].green = scheme.colors[color_end].green;
mcolor[scheme_count-1].blue = scheme.colors[color_end].blue;
// Adjust to dimmer value
float dimmer = 100 / (float)Settings->light_dimmer;
for (uint32_t i = 0; i < scheme_count; i++) {
float fmyRed = (float)mcolor[i].red / dimmer;
float fmyGrn = (float)mcolor[i].green / dimmer;
float fmyBlu = (float)mcolor[i].blue / dimmer;
mcolor[i].red = (uint8_t)fmyRed;
mcolor[i].green = (uint8_t)fmyGrn;
mcolor[i].blue = (uint8_t)fmyBlu;
}
uint32_t speed = Settings->light_speed;
int32_t current_position = Light.strip_timer_counter / speed;
//all pixels are shown already | rotation change will not change current state
if (current_position > Settings->light_pixels / Settings->light_step_pixels + scheme_count ) {
return;
}
int32_t colorIndex;
int32_t step_nr;
for (uint32_t i = 0; i < Settings->light_pixels; i++) {
step_nr = i / Settings->light_step_pixels;
colorIndex = current_position - step_nr;
if (colorIndex < 0) { colorIndex = 0; }
if (colorIndex > scheme_count - 1) { colorIndex = scheme_count - 1; }
c.R = mcolor[colorIndex].red;
c.G = mcolor[colorIndex].green;
c.B = mcolor[colorIndex].blue;
// Adjust the scheme rotation
if (Settings->light_rotation & 0x02) {
strip->SetPixelColor(Settings->light_pixels - i - 1, c);
} else {
strip->SetPixelColor(i, c);
}
}
Ws2812StripShow();
}
#ifdef USE_NETWORK_LIGHT_SCHEMES
void Ws2812DDP(void)
{
#if (USE_WS2812_CTYPE > NEO_3LED)
RgbwColor c;
c.W = 0;
#else
RgbColor c;
#endif
c.R = 0;
c.G = 0;
c.B = 0;
// Can't be trying to initialize UDP too early.
if (TasmotaGlobal.restart_flag || TasmotaGlobal.global_state.network_down) return;
// Start DDP listener, if fail, just set last ddp_color
if (!ddp_udp_up) {
if (!ddp_udp.begin(4048)) return;
ddp_udp_up = 1;
AddLog(LOG_LEVEL_DEBUG_MORE, "DDP: UDP Listener Started: WS2812 Scheme");
}
// Get the DDP payload over UDP
std::vector<uint8_t> payload;
while (uint16_t packet_size = ddp_udp.parsePacket()) {
payload.resize(packet_size);
if (!ddp_udp.read(&payload[0], payload.size())) {
continue;
}
}
// No verification checks performed against packet besides length
if (payload.size() > (9+3*Settings->light_pixels)) {
for (uint32_t i = 0; i < Settings->light_pixels; i++) {
c.R = payload[10+3*i];
c.G = payload[11+3*i];
c.B = payload[12+3*i];
strip->SetPixelColor(i, c);
}
Ws2812StripShow();
}
}
#endif
void Ws2812Clear(void)
{
strip->ClearTo(0);
strip->Show();
Ws2812.show_next = 1;
}
void Ws2812SetColor(uint32_t led, uint8_t red, uint8_t green, uint8_t blue, uint8_t white)
{
#if (USE_WS2812_CTYPE > NEO_3LED)
RgbwColor lcolor;
lcolor.W = white;
#else
RgbColor lcolor;
#endif
lcolor.R = red;
lcolor.G = green;
lcolor.B = blue;
if (led) {
strip->SetPixelColor(led -1, lcolor); // Led 1 is strip Led 0 -> substract offset 1
} else {
// strip->ClearTo(lcolor); // Set WS2812_MAX_LEDS pixels
for (uint32_t i = 0; i < Settings->light_pixels; i++) {
strip->SetPixelColor(i, lcolor);
}
}
if (!Ws2812.suspend_update) {
strip->Show();
Ws2812.show_next = 1;
}
}
char* Ws2812GetColor(uint32_t led, char* scolor)
{
uint8_t sl_ledcolor[4];
#if (USE_WS2812_CTYPE > NEO_3LED)
RgbwColor lcolor = strip->GetPixelColor(led -1);
sl_ledcolor[3] = lcolor.W;
#else
RgbColor lcolor = strip->GetPixelColor(led -1);
#endif
sl_ledcolor[0] = lcolor.R;
sl_ledcolor[1] = lcolor.G;
sl_ledcolor[2] = lcolor.B;
scolor[0] = '\0';
for (uint32_t i = 0; i < Light.subtype; i++) {
if (Settings->flag.decimal_text) { // SetOption17 - Switch between decimal or hexadecimal output (0 = hexadecimal, 1 = decimal)
snprintf_P(scolor, 25, PSTR("%s%s%d"), scolor, (i > 0) ? "," : "", sl_ledcolor[i]);
} else {
snprintf_P(scolor, 25, PSTR("%s%02X"), scolor, sl_ledcolor[i]);
}
}
return scolor;
}
/*********************************************************************************************\
* Public - used by scripter only
\*********************************************************************************************/
void Ws2812ForceSuspend (void)
{
Ws2812.suspend_update = true;
}
void Ws2812ForceUpdate (void)
{
Ws2812.suspend_update = false;
strip->Show();
Ws2812.show_next = 1;
}
/********************************************************************************************/
bool Ws2812SetChannels(void)
{
uint8_t *cur_col = (uint8_t*)XdrvMailbox.data;
Ws2812SetColor(0, cur_col[0], cur_col[1], cur_col[2], cur_col[3]);
return true;
}
void Ws2812ShowScheme(void)
{
uint32_t scheme = Settings->light_scheme - Ws2812.scheme_offset;
#ifdef USE_NETWORK_LIGHT_SCHEMES
if ((scheme != 9) && (ddp_udp_up)) {
ddp_udp.stop();
ddp_udp_up = 0;
AddLog(LOG_LEVEL_DEBUG_MORE, "DDP: UDP Stopped: WS2812 Scheme not DDP");
}
#endif
switch (scheme) {
case 0: // Clock
if ((1 == TasmotaGlobal.state_250mS) || (Ws2812.show_next)) {
Ws2812Clock();
Ws2812.show_next = 0;
}
break;
#ifdef USE_NETWORK_LIGHT_SCHEMES
case 9:
Ws2812DDP();
break;
#endif
default:
if(Settings->light_step_pixels > 0){
Ws2812Steps(scheme -1);
} else {
if (1 == Settings->light_fade) {
Ws2812Gradient(scheme -1);
} else {
Ws2812Bars(scheme -1);
}
}
Ws2812.show_next = 1;
break;
}
}
bool Ws2812ReinitStrip(void)
{
if (strip != nullptr) {
Ws2812Clear();
if (!strip->CanShow()) {
// we're doing DMA, so wait for a decent amount of time
delay(10);
}
delete strip;
strip = nullptr;
}
#if (USE_WS2812_HARDWARE == NEO_HW_P9813)
if (PinUsed(GPIO_P9813_CLK) && PinUsed(GPIO_P9813_DAT)) { // RGB led
strip = new NeoPixelBus<selectedNeoFeatureType, selectedNeoSpeedType>(Settings->light_pixels, Pin(GPIO_P9813_CLK), Pin(GPIO_P9813_DAT));
#else
if (PinUsed(GPIO_WS2812)) { // RGB led
// For DMA, the Pin is ignored as it uses GPIO3 due to DMA hardware use.
strip = new NeoPixelBus<selectedNeoFeatureType, selectedNeoSpeedType>(Settings->light_pixels, Pin(GPIO_WS2812));
#endif // NEO_HW_P9813
strip->Begin();
Ws2812Clear();
return true;
}
return false;
}
void Ws2812ModuleSelected(void)
{
if (Ws2812ReinitStrip()) {
Ws2812.scheme_offset = Light.max_scheme +1;
Light.max_scheme += WS2812_SCHEMES;
#if (USE_WS2812_CTYPE > NEO_3LED)
TasmotaGlobal.light_type = LT_RGBW;
#else
TasmotaGlobal.light_type = LT_RGB;
#endif
TasmotaGlobal.light_driver = XLGT_01;
}
}
/********************************************************************************************/
void CmndLed(void)
{
if ((XdrvMailbox.index > 0) && (XdrvMailbox.index <= Settings->light_pixels)) {
if (XdrvMailbox.data_len > 0) {
char *p;
uint16_t idx = XdrvMailbox.index;
Ws2812ForceSuspend();
for (char *color = strtok_r(XdrvMailbox.data, " ", &p); color; color = strtok_r(nullptr, " ", &p)) {
if (LightColorEntry(color, strlen(color))) {
Ws2812SetColor(idx, Light.entry_color[0], Light.entry_color[1], Light.entry_color[2], Light.entry_color[3]);
idx++;
if (idx > Settings->light_pixels) { break; }
} else {
break;
}
}
Ws2812ForceUpdate();
}
char scolor[LIGHT_COLOR_SIZE];
ResponseCmndIdxChar(Ws2812GetColor(XdrvMailbox.index, scolor));
}
}
void CmndPixels(void)
{
if ((XdrvMailbox.payload > 0) && (XdrvMailbox.payload <= WS2812_MAX_LEDS)) {
Settings->light_pixels = XdrvMailbox.payload;
Settings->light_rotation = 0;
Ws2812ReinitStrip();
Light.update = true;
}
ResponseCmndNumber(Settings->light_pixels);
}
void CmndStepPixels(void)
{
if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload <= 255)) {
Settings->light_step_pixels = (XdrvMailbox.payload > WS2812_MAX_LEDS) ? WS2812_MAX_LEDS : XdrvMailbox.payload;
Ws2812ReinitStrip();
Light.update = true;
}
ResponseCmndNumber(Settings->light_step_pixels);
}
void CmndRotation(void)
{
if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload < Settings->light_pixels)) {
Settings->light_rotation = XdrvMailbox.payload;
}
ResponseCmndNumber(Settings->light_rotation);
}
void CmndWidth(void)
{
if ((XdrvMailbox.index > 0) && (XdrvMailbox.index <= 4)) {
if (1 == XdrvMailbox.index) {
if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload <= 4)) {
Settings->light_width = XdrvMailbox.payload;
}
ResponseCmndNumber(Settings->light_width);
} else {
if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload < 32)) {
Settings->ws_width[XdrvMailbox.index -2] = XdrvMailbox.payload;
}
ResponseCmndIdxNumber(Settings->ws_width[XdrvMailbox.index -2]);
}
}
}
/*********************************************************************************************\
* Internal calls for ArtNet
\*********************************************************************************************/
// check is the Neopixel strip is configured
bool Ws2812StripConfigured(void) {
return strip != nullptr;
}
size_t Ws2812StripGetPixelSize(void) {
return strip->PixelSize();
}
// return true if strip was dirty and an actual refresh was triggered
bool Ws2812StripRefresh(void) {
if (strip->IsDirty()) {
strip->Show();
return true;
} else {
return false;
}
}
void Ws2812CopyPixels(const uint8_t *buf, size_t len, size_t offset_in_matrix) {
uint8_t *pixels = strip->Pixels();
memmove(&pixels[offset_in_matrix], buf, len);
strip->Dirty();
}
/*********************************************************************************************\
* Interface
\*********************************************************************************************/
bool Xlgt01(uint32_t function)
{
bool result = false;
switch (function) {
case FUNC_SET_CHANNELS:
result = Ws2812SetChannels();
break;
case FUNC_SET_SCHEME:
Ws2812ShowScheme();
break;
case FUNC_COMMAND:
result = DecodeCommand(kWs2812Commands, Ws2812Command);
break;
case FUNC_MODULE_INIT:
Ws2812ModuleSelected();
break;
}
return result;
}
#endif // USE_WS2812
#endif // USE_LIGHT
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