/********************************************************************* This is a library for our grayscale OLEDs based on SSD1327 drivers Pick one up today in the adafruit shop! ------> https://www.adafruit.com/products/4741 These displays use I2C or SPI to communicate Adafruit invests time and resources providing this open source code, please support Adafruit and open-source hardware by purchasing products from Adafruit! Written by Limor Fried/Ladyada for Adafruit Industries. BSD license, check license.txt for more information All text above, and the splash screen below must be included in any redistribution *********************************************************************/ #include "Adafruit_SSD1327.h" #include "splash.h" // CONSTRUCTORS, DESTRUCTOR ------------------------------------------------ /*! @brief Constructor for I2C-interfaced SSD1327 displays. @param w Display width in pixels @param h Display height in pixels @param twi Pointer to an existing TwoWire instance (e.g. &Wire, the microcontroller's primary I2C bus). @param rst_pin Reset pin (using Arduino pin numbering), or -1 if not used (some displays might be wired to share the microcontroller's reset pin). @param clkDuring Speed (in Hz) for Wire transmissions in SSD1327 library calls. Defaults to 400000 (400 KHz), a known 'safe' value for most microcontrollers, and meets the SSD1327 datasheet spec. Some systems can operate I2C faster (800 KHz for ESP32, 1 MHz for many other 32-bit MCUs), and some (perhaps not all) SSD1327's can work with this -- so it's optionally be specified here and is not a default behavior. (Ignored if using pre-1.5.7 Arduino software, which operates I2C at a fixed 100 KHz.) @param clkAfter Speed (in Hz) for Wire transmissions following SSD1327 library calls. Defaults to 100000 (100 KHz), the default Arduino Wire speed. This is done rather than leaving it at the 'during' speed because other devices on the I2C bus might not be compatible with the faster rate. (Ignored if using pre-1.5.7 Arduino software, which operates I2C at a fixed 100 KHz.) @note Call the object's begin() function before use -- buffer allocation is performed there! */ Adafruit_SSD1327::Adafruit_SSD1327(uint16_t w, uint16_t h, TwoWire *twi, int8_t rst_pin, uint32_t clkDuring, uint32_t clkAfter) : Adafruit_GrayOLED(4, w, h, twi, rst_pin, clkDuring, clkAfter) {} /*! @brief Constructor for SPI SSD1327 displays, using software (bitbang) SPI. @param w Display width in pixels @param h Display height in pixels @param mosi_pin MOSI (master out, slave in) pin (using Arduino pin numbering). This transfers serial data from microcontroller to display. @param sclk_pin SCLK (serial clock) pin (using Arduino pin numbering). This clocks each bit from MOSI. @param dc_pin Data/command pin (using Arduino pin numbering), selects whether display is receiving commands (low) or data (high). @param rst_pin Reset pin (using Arduino pin numbering), or -1 if not used (some displays might be wired to share the microcontroller's reset pin). @param cs_pin Chip-select pin (using Arduino pin numbering) for sharing the bus with other devices. Active low. @note Call the object's begin() function before use -- buffer allocation is performed there! */ Adafruit_SSD1327::Adafruit_SSD1327(uint16_t w, uint16_t h, int8_t mosi_pin, int8_t sclk_pin, int8_t dc_pin, int8_t rst_pin, int8_t cs_pin) : Adafruit_GrayOLED(4, w, h, mosi_pin, sclk_pin, dc_pin, rst_pin, cs_pin) {} /*! @brief Constructor for SPI SSD1327 displays, using native hardware SPI. @param w Display width in pixels @param h Display height in pixels @param spi Pointer to an existing SPIClass instance (e.g. &SPI, the microcontroller's primary SPI bus). @param dc_pin Data/command pin (using Arduino pin numbering), selects whether display is receiving commands (low) or data (high). @param rst_pin Reset pin (using Arduino pin numbering), or -1 if not used (some displays might be wired to share the microcontroller's reset pin). @param cs_pin Chip-select pin (using Arduino pin numbering) for sharing the bus with other devices. Active low. @param bitrate SPI clock rate for transfers to this display. Default if unspecified is 8000000UL (8 MHz). @note Call the object's begin() function before use -- buffer allocation is performed there! */ Adafruit_SSD1327::Adafruit_SSD1327(uint16_t w, uint16_t h, SPIClass *spi, int8_t dc_pin, int8_t rst_pin, int8_t cs_pin, uint32_t bitrate) : Adafruit_GrayOLED(4, w, h, spi, dc_pin, rst_pin, cs_pin, bitrate) {} /*! @brief Destructor for Adafruit_SSD1327 object. */ Adafruit_SSD1327::~Adafruit_SSD1327(void) {} // ALLOCATE & INIT DISPLAY ------------------------------------------------- /*! @brief Allocate RAM for image buffer, initialize peripherals and pins. @param addr I2C address of corresponding SSD1327 display. SPI displays (hardware or software) do not use addresses, but this argument is still required (pass 0 or any value really, it will simply be ignored). Default if unspecified is 0. @param reset If true, and if the reset pin passed to the constructor is valid, a hard reset will be performed before initializing the display. If using multiple SSD1327 displays on the same bus, and if they all share the same reset pin, you should only pass true on the first display being initialized, false on all others, else the already-initialized displays would be reset. Default if unspecified is true. @return true on successful allocation/init, false otherwise. Well-behaved code should check the return value before proceeding. @note MUST call this function before any drawing or updates! */ bool Adafruit_SSD1327::begin(uint8_t addr, bool reset) { if (!Adafruit_GrayOLED::_init(addr, reset)) { return false; } /* drawBitmap((WIDTH - splash2_width) / 2, (HEIGHT - splash2_height) / 2, splash2_data, splash2_width, splash2_height, 1); */ // Init sequence, make sure its under 32 bytes, or split into multiples! static const uint8_t init_128x128[] = { // Init sequence for 128x32 OLED module SSD1327_DISPLAYOFF, // 0xAE SSD1327_SETCONTRAST, 0x80, // 0x81, 0x80 SSD1327_SEGREMAP, // 0xA0 0x53 0x51, // remap memory, odd even columns, com flip and column swap SSD1327_SETSTARTLINE, 0x00, // 0xA1, 0x00 SSD1327_SETDISPLAYOFFSET, 0x00, // 0xA2, 0x00 SSD1327_DISPLAYALLOFF, SSD1327_SETMULTIPLEX, 0x7F, // 0xA8, 0x7F (1/64) SSD1327_PHASELEN, 0x11, // 0xB1, 0x11 /* SSD1327_GRAYTABLE, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x10, 0x18, 0x20, 0x2f, 0x38, 0x3f, */ SSD1327_DCLK, 0x00, // 0xb3, 0x00 (100hz) SSD1327_REGULATOR, 0x01, // 0xAB, 0x01 SSD1327_PRECHARGE2, 0x04, // 0xB6, 0x04 SSD1327_SETVCOM, 0x0F, // 0xBE, 0x0F SSD1327_PRECHARGE, 0x08, // 0xBC, 0x08 SSD1327_FUNCSELB, 0x62, // 0xD5, 0x62 SSD1327_CMDLOCK, 0x12, // 0xFD, 0x12 SSD1327_NORMALDISPLAY, SSD1327_DISPLAYON}; page_offset = 0; if (!oled_commandList(init_128x128, sizeof(init_128x128))) { return false; } delay(100); // 100ms delay recommended oled_command(SSD1327_DISPLAYON); // 0xaf setContrast(0x2F); // memset(buffer, 0x81, _bpp * WIDTH * ((HEIGHT + 7) / 8)); return true; // Success } /*! @brief Do the actual writing of the internal frame buffer to display RAM */ void Adafruit_SSD1327::display(void) { // ESP8266 needs a periodic yield() call to avoid watchdog reset. // With the limited size of SSD1327 displays, and the fast bitrate // being used (1 MHz or more), I think one yield() immediately before // a screen write and one immediately after should cover it. But if // not, if this becomes a problem, yields() might be added in the // 32-byte transfer condition below. yield(); uint16_t count = WIDTH * ((HEIGHT + 7) / 8); (void)count; uint8_t *ptr = buffer; uint8_t dc_byte = 0x40; uint8_t rows = HEIGHT; uint8_t bytes_per_row = WIDTH / 2; // See fig 10-1 (64 bytes, 128 pixels) uint8_t maxbuff = 128; /* Serial.print("Window: ("); Serial.print(window_x1); Serial.print(", "); Serial.print(window_y1); Serial.print(") -> ("); Serial.print(window_x2); Serial.print(", "); Serial.print(window_y2); Serial.println(")"); */ int16_t row_start = min((int16_t)(bytes_per_row - 1), (int16_t)(window_x1 / 2)); int16_t row_end = max((int16_t)0, (int16_t)(window_x2 / 2)); int16_t first_row = min((int16_t)(rows - 1), (int16_t)window_y1); int16_t last_row = max((int16_t)0, (int16_t)window_y2); /* Serial.print("Rows: "); Serial.print(first_row); Serial.print(" -> "); Serial.println(last_row); Serial.print("Row start/end: "); Serial.print(row_start); Serial.print(" -> "); Serial.println(row_end); */ if (i2c_dev) { // I2C // Set high speed clk i2c_dev->setSpeed(i2c_preclk); maxbuff = i2c_dev->maxBufferSize() - 1; } uint8_t cmd[] = {SSD1327_SETROW, (uint8_t)first_row, (uint8_t)last_row, SSD1327_SETCOLUMN, (uint8_t)row_start, (uint8_t)row_end}; oled_commandList(cmd, sizeof(cmd)); for (uint8_t row = first_row; row <= last_row; row++) { uint8_t bytes_remaining = row_end - row_start + 1; ptr = buffer + (uint16_t)row * (uint16_t)bytes_per_row; // fast forward to dirty rectangle beginning ptr += row_start; while (bytes_remaining) { uint8_t to_write = min(bytes_remaining, maxbuff); if (i2c_dev) { i2c_dev->write(ptr, to_write, true, &dc_byte, 1); } else { digitalWrite(dcPin, HIGH); spi_dev->write(ptr, to_write); } ptr += to_write; bytes_remaining -= to_write; yield(); } } if (i2c_dev) { // I2C // Set low speed clk i2c_dev->setSpeed(i2c_postclk); } // reset dirty window window_x1 = 1024; window_y1 = 1024; window_x2 = -1; window_y2 = -1; } /*! @brief Enable or disable display invert mode (white-on-black vs black-on-white). Handy for testing! @param i If true, switch to invert mode (black-on-white), else normal mode (white-on-black). */ void Adafruit_SSD1327::invertDisplay(bool i) { oled_command(i ? SSD1327_INVERTDISPLAY : SSD1327_NORMALDISPLAY); }