alex/ESP-Nodes
1
1
Fork 0
mirror of https://github.com/alexandrebobkov/ESP-Nodes.git synced 2024-10-05 20:47:50 -04:00
Code Issues Actions Packages Projects Releases Wiki Activity

.

Browse Source
This commit is contained in:
Alexander 2024-02-17 15:08:04 -05:00
parent d828c79cbc
commit 0158c42614
3 changed files with 347 additions and 0 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

15
ESP32_ePaperDisplay-Node/platformio.ini
View File

@ -12,3 +12,18 @@
platform = espressif32
board = esp32doit-devkit-v1
framework = arduino
monitor_speed = 115200
lib_deps =
knolleary/PubSubClient@^2.8
zinggjm/GxEPD@^3.1.3
bblanchon/ArduinoJson@^6.20.1
moononournation/GFX Library for Arduino@^1.3.2
adafruit/Adafruit GFX Library@^1.11.5
adafruit/Adafruit BusIO@^1.14.1
adafruit/RTClib@^2.1.1
adafruit/Adafruit Unified Sensor@^1.1.9
adafruit/Adafruit BME280 Library@^2.2.2
adafruit/Adafruit BMP280 Library@^2.6.6
[platformio]
description = ePaper Board

331
ESP32_ePaperDisplay-Node/src/ePaper.h Normal file
View File

@ -0,0 +1,331 @@
#include <GxEPD.h>
#include <GxGDEW042Z15/GxGDEW042Z15.h> // 4.2" b/w/r
#include GxEPD_BitmapExamples
// FreeFonts from Adafruit_GFX
#include <Fonts/FreeMonoBold9pt7b.h>
#include <Fonts/FreeMonoBold12pt7b.h>
#include <Fonts/FreeMonoBold18pt7b.h>
#include <Fonts/FreeMonoBold24pt7b.h>
#include <GxIO/GxIO_SPI/GxIO_SPI.h>
#include <GxIO/GxIO.h>
#include <SPI.h>
#include <GxEPD.h>
#include <GxGDEW042Z15/GxGDEW042Z15.h> // 4.2" b/w/r
#include GxEPD_BitmapExamples
// FreeFonts from Adafruit_GFX
/*#include <Fonts/FreeMonoBold9pt7b.h>
#include <Fonts/FreeMonoBold12pt7b.h>
#include <Fonts/FreeMonoBold18pt7b.h>
#include <Fonts/FreeMonoBold24pt7b.h>*/
#include <GxIO/GxIO_SPI/GxIO_SPI.h>
#include <GxIO/GxIO.h>
#include <SPI.h>
#include <SD.h>
#if defined(ESP8266)
GxIO_Class io(SPI, /*CS=D8*/ SS, /*DC=D3*/ 0, /*RST=D4*/ 2); // arbitrary selection of D3(=0), D4(=2), selected for default of GxEPD_Class
GxEPD_Class display(io, /*RST=D4*/ 2, /*BUSY=D2*/ 4); // default selection of D4(=2), D2(=4)
#elif defined(ESP32)
GxIO_Class io(SPI, /*CS=5*/ SS, /*DC=*/ 17, /*RST=*/ 16); // arbitrary selection of 17, 16
GxEPD_Class display(io, /*RST=*/ 16, /*BUSY=*/ 4); // arbitrary selection of (16), 4
#elif defined(ARDUINO_ARCH_SAMD)
GxIO_Class io(SPI, /*CS=*/ 4, /*DC=*/ 7, /*RST=*/ 6);
GxEPD_Class display(io, /*RST=*/ 6, /*BUSY=*/ 5);
#elif defined(ARDUINO_GENERIC_STM32F103C) && defined(MCU_STM32F103C8)
GxIO_Class io(SPI, /*CS=*/ SS, /*DC=*/ 3, /*RST=*/ 2);
GxEPD_Class display(io, /*RST=*/ 2, /*BUSY=*/ 1);
#elif defined(ARDUINO_GENERIC_STM32F103V) && defined(MCU_STM32F103VB)
GxIO_Class io(SPI, /*CS=*/ SS, /*DC=*/ PE15, /*RST=*/ PE14); // DC, RST as wired by DESPI-M01
GxEPD_Class display(io, /*RST=*/ PE14, /*BUSY=*/ PE13); // RST, BUSY as wired by DESPI-M01
#elif defined(ARDUINO_AVR_MEGA2560)
// select one, depending on your CS connection
//GxIO_Class io(SPI, /*CS=*/ SS, /*DC=*/ 8, /*RST=*/ 9); // arbitrary selection of 8, 9 selected for default of GxEPD_Class
//GxIO_Class io(SPI, /*CS=*/ 10, /*DC=*/ 8, /*RST=*/ 9); // arbitrary selection of 8, 9, CS on 10 (for CS same as on UNO, for SPI on ICSP use)
GxEPD_Class display(io, /*RST=*/ 9, /*BUSY=*/ 7); // default selection of (9), 7
#else
GxIO_Class io(SPI, /*CS=*/ SS, /*DC=*/ 8, /*RST=*/ 9); // arbitrary selection of 8, 9 selected for default of GxEPD_Class
GxEPD_Class display(io, /*RST=*/ 9, /*BUSY=*/ 7); // default selection of (9), 7
#endif
class Dashboard {
private:
static const uint16_t input_buffer_pixels = 800; // may affect performance
static const uint16_t max_row_width = 1448; // for up to 6" display 1448x1072
static const uint16_t max_palette_pixels = 256; // for depth <= 8
uint16_t read16(File& f);
uint32_t read32(File& f);
uint8_t input_buffer[3 * input_buffer_pixels]; // up to depth 24
uint8_t output_row_mono_buffer[max_row_width / 8]; // buffer for at least one row of b/w bits
uint8_t output_row_color_buffer[max_row_width / 8]; // buffer for at least one row of color bits
uint8_t mono_palette_buffer[max_palette_pixels / 8]; // palette buffer for depth <= 8 b/w
uint8_t color_palette_buffer[max_palette_pixels / 8]; // palette buffer for depth <= 8 c/w
uint16_t rgb_palette_buffer[max_palette_pixels]; // palette buffer for depth <= 8 for buffered graphics, needed for 7-color display
void drawBitmapFromSD(File file, int16_t x, int16_t y, bool with_color);
public:
Dashboard();
void drawBitmapFile(File file);
void drawLogo(File f);
};
uint16_t read16(File& f)
{
// BMP data is stored little-endian, same as Arduino.
uint16_t result;
((uint8_t *)&result)[0] = f.read(); // LSB
((uint8_t *)&result)[1] = f.read(); // MSB
return result;
}
uint32_t read32(File& f)
{
// BMP data is stored little-endian, same as Arduino.
uint32_t result;
((uint8_t *)&result)[0] = f.read(); // LSB
((uint8_t *)&result)[1] = f.read();
((uint8_t *)&result)[2] = f.read();
((uint8_t *)&result)[3] = f.read(); // MSB
return result;
}
static const uint16_t input_buffer_pixels = 800; // may affect performance
static const uint16_t max_row_width = 1448; // for up to 6" display 1448x1072
static const uint16_t max_palette_pixels = 256; // for depth <= 8
uint8_t input_buffer[3 * input_buffer_pixels]; // up to depth 24
uint8_t output_row_mono_buffer[max_row_width / 8]; // buffer for at least one row of b/w bits
uint8_t output_row_color_buffer[max_row_width / 8]; // buffer for at least one row of color bits
uint8_t mono_palette_buffer[max_palette_pixels / 8]; // palette buffer for depth <= 8 b/w
uint8_t color_palette_buffer[max_palette_pixels / 8]; // palette buffer for depth <= 8 c/w
uint16_t rgb_palette_buffer[max_palette_pixels]; // palette buffer for depth <= 8 for buffered graphics, needed for 7-color display
void drawBitmapFromSD(File file, int16_t x, int16_t y, bool with_color)
//void drawBitmapFromSD(const char *filename, int16_t x, int16_t y, bool with_color)
{
bool valid = false; // valid format to be handled
bool flip = true; // bitmap is stored bottom-to-top
bool has_multicolors = false;//display.epd2.panel == GxEPD2::ACeP565;
uint32_t startTime = millis();
if ((x >= display.width()) || (y >= display.height())) return;
Serial.println();
Serial.print("Loading image '");
/*Serial.print(filename);
Serial.println('\'');
#if defined(ESP32)
file = SD.open(String("/") + filename, FILE_READ);
if (!file)
{
Serial.print("File not found");
return;
}
#else
file = SD.open(filename);
if (!file)
{
Serial.print("File not found");
return;
}
#endif*/
// Parse BMP header
if (read16(file) == 0x4D42) // BMP signature
{
uint32_t fileSize = read32(file);
uint32_t creatorBytes = read32(file); //(void)creatorBytes; //unused
uint32_t imageOffset = read32(file); // Start of image data
uint32_t headerSize = read32(file);
uint32_t width = read32(file);
int32_t height = (int32_t) read32(file);
uint16_t planes = read16(file);
uint16_t depth = read16(file); // bits per pixel
uint32_t format = read32(file);
if ((planes == 1) && ((format == 0) || (format == 3))) // uncompressed is handled, 565 also
{
Serial.print("File size: "); Serial.println(fileSize);
Serial.print("Image Offset: "); Serial.println(imageOffset);
Serial.print("Header size: "); Serial.println(headerSize);
Serial.print("Bit Depth: "); Serial.println(depth);
Serial.print("Image size: ");
Serial.print(width);
Serial.print('x');
Serial.println(height);
// BMP rows are padded (if needed) to 4-byte boundary
uint32_t rowSize = (width * depth / 8 + 3) & ~3;
if (depth < 8) rowSize = ((width * depth + 8 - depth) / 8 + 3) & ~3;
if (height < 0)
{
height = -height;
flip = false;
}
uint16_t w = width;
uint16_t h = height;
if ((x + w - 1) >= display.width()) w = display.width() - x;
if ((y + h - 1) >= display.height()) h = display.height() - y;
//if (w <= max_row_width) // handle with direct drawing
{
valid = true;
uint8_t bitmask = 0xFF;
uint8_t bitshift = 8 - depth;
uint16_t red, green, blue;
bool whitish = false;
bool colored = false;
if (depth == 1) with_color = false;
if (depth <= 8)
{
if (depth < 8) bitmask >>= depth;
//file.seek(54); //palette is always @ 54
file.seek(imageOffset - (4 << depth)); //54 for regular, diff for colorsimportant
for (uint16_t pn = 0; pn < (1 << depth); pn++)
{
blue = file.read();
green = file.read();
red = file.read();
file.read();
whitish = with_color ? ((red > 0x80) && (green > 0x80) && (blue > 0x80)) : ((red + green + blue) > 3 * 0x80); // whitish
colored = (red > 0xF0) || ((green > 0xF0) && (blue > 0xF0)); // reddish or yellowish?
if (0 == pn % 8) mono_palette_buffer[pn / 8] = 0;
mono_palette_buffer[pn / 8] |= whitish << pn % 8;
if (0 == pn % 8) color_palette_buffer[pn / 8] = 0;
color_palette_buffer[pn / 8] |= colored << pn % 8;
rgb_palette_buffer[pn] = ((red & 0xF8) << 8) | ((green & 0xFC) << 3) | ((blue & 0xF8) >> 3);
}
}
uint32_t rowPosition = flip ? imageOffset + (height - h) * rowSize : imageOffset;
for (uint16_t row = 0; row < h; row++, rowPosition += rowSize) // for each line
{
uint32_t in_remain = rowSize;
uint32_t in_idx = 0;
uint32_t in_bytes = 0;
uint8_t in_byte = 0; // for depth <= 8
uint8_t in_bits = 0; // for depth <= 8
uint16_t color = GxEPD_WHITE;
file.seek(rowPosition);
for (uint16_t col = 0; col < w; col++) // for each pixel
{
// Time to read more pixel data?
if (in_idx >= in_bytes) // ok, exact match for 24bit also (size IS multiple of 3)
{
in_bytes = file.read(input_buffer, in_remain > sizeof(input_buffer) ? sizeof(input_buffer) : in_remain);
in_remain -= in_bytes;
in_idx = 0;
}
switch (depth)
{
case 24:
blue = input_buffer[in_idx++];
green = input_buffer[in_idx++];
red = input_buffer[in_idx++];
whitish = with_color ? ((red > 0x80) && (green > 0x80) && (blue > 0x80)) : ((red + green + blue) > 3 * 0x80); // whitish
colored = (red > 0xF0) || ((green > 0xF0) && (blue > 0xF0)); // reddish or yellowish?
color = ((red & 0xF8) << 8) | ((green & 0xFC) << 3) | ((blue & 0xF8) >> 3);
break;
case 16:
{
uint8_t lsb = input_buffer[in_idx++];
uint8_t msb = input_buffer[in_idx++];
if (format == 0) // 555
{
blue = (lsb & 0x1F) << 3;
green = ((msb & 0x03) << 6) | ((lsb & 0xE0) >> 2);
red = (msb & 0x7C) << 1;
color = ((red & 0xF8) << 8) | ((green & 0xFC) << 3) | ((blue & 0xF8) >> 3);
}
else // 565
{
blue = (lsb & 0x1F) << 3;
green = ((msb & 0x07) << 5) | ((lsb & 0xE0) >> 3);
red = (msb & 0xF8);
color = (msb << 8) | lsb;
}
whitish = with_color ? ((red > 0x80) && (green > 0x80) && (blue > 0x80)) : ((red + green + blue) > 3 * 0x80); // whitish
colored = (red > 0xF0) || ((green > 0xF0) && (blue > 0xF0)); // reddish or yellowish?
}
break;
case 1:
case 4:
case 8:
{
if (0 == in_bits)
{
in_byte = input_buffer[in_idx++];
in_bits = 8;
}
uint16_t pn = (in_byte >> bitshift) & bitmask;
whitish = mono_palette_buffer[pn / 8] & (0x1 << pn % 8);
colored = color_palette_buffer[pn / 8] & (0x1 << pn % 8);
in_byte <<= depth;
in_bits -= depth;
color = rgb_palette_buffer[pn];
}
break;
}
if (with_color && has_multicolors)
{
// keep color
}
else if (whitish)
{
color = GxEPD_WHITE;
}
/*else if (colored && with_color)
{
color = GxEPD_COLORED;
}*/
else
{
color = GxEPD_BLACK;
}
uint16_t yrow = y + (flip ? h - row - 1 : row);
display.drawPixel(x + col, yrow, color);
} // end pixel
} // end line
Serial.print("page loaded in "); Serial.print(millis() - startTime); Serial.println(" ms");
// }
//while (display.nextPage());
Serial.print("loaded in "); Serial.print(millis() - startTime); Serial.println(" ms");
}
}
}
file.close();
if (!valid)
{
Serial.println("bitmap format not handled.");
}
}
void drawLogo(File f)
{
// WaveShare 4.2" display
int16_t w2 = display.width() / 2; // total width 400 pixels
int16_t h2 = display.height() / 2; // total height 300 pixels
Serial.print("Display width: ");
Serial.println(display.width());
Serial.print("Display height: ");
Serial.println(display.height());
drawBitmapFromSD(f, w2-200, h2-150, false); // Set initial (x, y) coordinates to (0, 0)
}
/*
void drawLogo(File f)
{
int16_t w2 = display.width() / 2;
int16_t h2 = display.height() / 2;
drawBitmapFromSD(f, w2 - 64, h2 - 80, false);
}
void drawLogo(File f)
{
int16_t w2 = 400 / 2;
int16_t h2 = 300 / 2;
drawBitmapFromSD(f, 400, 300, false);
}*/

1
ESP32_ePaperDisplay-Node/src/main.cpp
View File

@ -1,4 +1,5 @@
#include <Arduino.h>
#include "ePaper.h"
// put function declarations here:
int myFunction(int, int);