#include #include #include "MicroLCD.h" #define I2C_ADDR 0x78 >> 1 void LCD_SH1106::WriteCommand(unsigned char ins) { Wire.beginTransmission(I2C_ADDR);//0x78 >> 1 Wire.write(0x00);//0x00 Wire.write(ins); Wire.endTransmission(); } void LCD_SH1106::WriteData(unsigned char dat) { Wire.beginTransmission(I2C_ADDR);//0x78 >> 1 Wire.write(0x40);//0x40 Wire.write(dat); Wire.endTransmission(); } void LCD_SH1106::setCursor(unsigned char x, unsigned char y) { m_col = x + 2; m_row = y; WriteCommand(0xb0 + m_row); WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address } void LCD_SH1106::clear(byte x, byte y, byte width, byte height) { height >>= 3; width >>= 3; y >>= 3; #ifdef TWBR uint8_t twbrbackup = TWBR; TWBR = 18; // upgrade to 400KHz! #endif for (byte i = 0; i < height; i++) { // send a bunch of data in one xmission WriteCommand(0xB0 + i + y);//set page address WriteCommand((x + 2) & 0xf);//set lower column address WriteCommand(0x10 | (x >> 4));//set higher column address for(byte j = 0; j < 8; j++){ Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte k = 0; k < width; k++) { Wire.write(0); } Wire.endTransmission(); } } #ifdef TWBR TWBR = twbrbackup; #endif setCursor(0, 0); } void LCD_SH1106::clearLine(byte line) { #ifdef TWBR uint8_t twbrbackup = TWBR; TWBR = 18; // upgrade to 400KHz! #endif WriteCommand(0xB0 + line);//set page address WriteCommand(0);//set lower column address WriteCommand(0x10);//set higher column address for(byte j = 0; j < 8; j++){ Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte k = 0; k < 128 / 8; k++) { Wire.write(0); } Wire.endTransmission(); } #ifdef TWBR TWBR = twbrbackup; #endif } size_t LCD_SH1106::write(uint8_t c) { if (c == '\n') { setCursor(0, m_row + ((m_font == FONT_SIZE_SMALL) ? 1 : 2)); return 1; } else if (c == '\r') { m_col = 0; return 1; } #ifdef TWBR uint8_t twbrbackup = TWBR; TWBR = 18; // upgrade to 400KHz! #endif #ifndef MEMORY_SAVING if (m_font == FONT_SIZE_SMALL) { #endif Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); if (c > 0x20 && c < 0x7f) { c -= 0x21; for (byte i = 0; i < 5; i++) { byte d = pgm_read_byte(&font5x8[c][i]); Wire.write(d); if (m_flags & FLAG_PIXEL_DOUBLE_H) Wire.write(d); } Wire.write(0); } else { for (byte i = (m_flags & FLAG_PIXEL_DOUBLE_H) ? 11 : 6; i > 0; i--) { Wire.write(0); } } Wire.endTransmission(); m_col += (m_flags & FLAG_PIXEL_DOUBLE_H) ? 11 : 6; if (m_col >= 128) { m_col = 0; m_row ++; } #ifndef MEMORY_SAVING } else { if (c > 0x20 && c < 0x7f) { c -= 0x21; WriteCommand(0xB0 + m_row);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte i = 0; i <= 14; i += 2) { byte d = pgm_read_byte(&font8x16_terminal[c][i]); Wire.write(d); if (m_flags & FLAG_PIXEL_DOUBLE_H) Wire.write(d); } Wire.endTransmission(); WriteCommand(0xB0 + m_row + 1);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte i = 1; i <= 15; i += 2) { byte d = pgm_read_byte(&font8x16_terminal[c][i]); Wire.write(d); if (m_flags & FLAG_PIXEL_DOUBLE_H) Wire.write(d); } Wire.endTransmission(); } else { WriteCommand(0xB0 + m_row);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte i = (m_flags & FLAG_PIXEL_DOUBLE_H) ? 16 : 8; i > 0; i--) { Wire.write(0); } Wire.endTransmission(); WriteCommand(0xB0 + m_row + 1);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte i = (m_flags & FLAG_PIXEL_DOUBLE_H) ? 16 : 8; i > 0; i--) { Wire.write(0); } Wire.endTransmission(); } m_col += (m_flags & FLAG_PIXEL_DOUBLE_H) ? 17 : 9; if (m_col >= 128) { m_col = 0; m_row += 2; } } #endif #ifdef TWBR TWBR = twbrbackup; #endif return 1; } void LCD_SH1106::writeDigit(byte n) { #ifdef TWBR uint8_t twbrbackup = TWBR; TWBR = 18; // upgrade to 400KHz! #endif if (m_font == FONT_SIZE_SMALL) { Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); if (n <= 9) { n += '0' - 0x21; for (byte i = 0; i < 5; i++) { Wire.write(pgm_read_byte(&font5x8[n][i])); } Wire.write(0); } else { for (byte i = 0; i < 6; i++) { Wire.write(0); } } Wire.endTransmission(); m_col += 6; } else if (m_font == FONT_SIZE_MEDIUM) { write(n <= 9 ? ('0' + n) : ' '); #ifndef MEMORY_SAVING } else if (m_font == FONT_SIZE_LARGE) { if (n <= 9) { byte i; WriteCommand(0xB0 + m_row);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (i = 0; i < 16; i ++) { byte d = pgm_read_byte(&digits16x16[n][i]); Wire.write(d); if (m_flags & FLAG_PIXEL_DOUBLE_H) Wire.write(d); } Wire.endTransmission(); WriteCommand(0xB0 + m_row + 1);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (; i < 32; i ++) { byte d = pgm_read_byte(&digits16x16[n][i]); Wire.write(d); if (m_flags & FLAG_PIXEL_DOUBLE_H) Wire.write(d); } Wire.endTransmission(); } else { WriteCommand(0xB0 + m_row);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte i = (m_flags & FLAG_PIXEL_DOUBLE_H) ? 32 : 16; i > 0; i--) { Wire.write(0); } Wire.endTransmission(); WriteCommand(0xB0 + m_row + 1);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte i = (m_flags & FLAG_PIXEL_DOUBLE_H) ? 32 : 16; i > 0; i--) { Wire.write(0); } Wire.endTransmission(); } m_col += (m_flags & FLAG_PIXEL_DOUBLE_H) ? 30 : 16; #endif } else { if (n <= 9) { byte i; WriteCommand(0xB0 + m_row);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (i = 0; i < 16; i ++) { byte d = pgm_read_byte(&digits16x24[n][i * 3]); Wire.write(d); if (m_flags & FLAG_PIXEL_DOUBLE_H) Wire.write(d); } Wire.endTransmission(); WriteCommand(0xB0 + m_row + 1);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (i = 0; i < 16; i ++) { byte d = pgm_read_byte(&digits16x24[n][i * 3 + 1]); Wire.write(d); if (m_flags & FLAG_PIXEL_DOUBLE_H) Wire.write(d); } Wire.endTransmission(); WriteCommand(0xB0 + m_row + 2);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (i = 0; i < 16; i ++) { byte d = pgm_read_byte(&digits16x24[n][i * 3 + 2]); Wire.write(d); if (m_flags & FLAG_PIXEL_DOUBLE_H) Wire.write(d); } Wire.endTransmission(); } else { WriteCommand(0xB0 + m_row);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte i = (m_flags & FLAG_PIXEL_DOUBLE_H) ? 32 : 16; i > 0; i--) { Wire.write(0); } Wire.endTransmission(); WriteCommand(0xB0 + m_row + 1);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte i = (m_flags & FLAG_PIXEL_DOUBLE_H) ? 32 : 16; i > 0; i--) { Wire.write(0); } Wire.endTransmission(); WriteCommand(0xB0 + m_row + 2);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte i = (m_flags & FLAG_PIXEL_DOUBLE_H) ? 32 : 16; i > 0; i--) { Wire.write(0); } Wire.endTransmission(); } m_col += (m_flags & FLAG_PIXEL_DOUBLE_H) ? 30 : 16; } #ifdef TWBR TWBR = twbrbackup; #endif } void LCD_SH1106::draw(const PROGMEM byte* buffer, byte width, byte height) { #ifdef TWBR uint8_t twbrbackup = TWBR; TWBR = 18; // upgrade to 400KHz! #endif const PROGMEM byte *p = buffer; height >>= 3; width >>= 3; for (byte i = 0; i < height; i++) { // send a bunch of data in one xmission WriteCommand(0xB0 + i + m_row);//set page address WriteCommand(m_col & 0xf);//set lower column address WriteCommand(0x10 | (m_col >> 4));//set higher column address for(byte j = 0; j < 8; j++){ Wire.beginTransmission(I2C_ADDR); Wire.write(0x40); for (byte k = 0; k < width; k++, p++) { Wire.write(pgm_read_byte(p)); } Wire.endTransmission(); } } #ifdef TWBR TWBR = twbrbackup; #endif m_col += width; } void LCD_SH1106::begin() { Wire.begin(); WriteCommand(0xAE); /*display off*/ WriteCommand(0x02); /*set lower column address*/ WriteCommand(0x10); /*set higher column address*/ WriteCommand(0x40); /*set display start line*/ WriteCommand(0xB0); /*set page address*/ WriteCommand(0x81); /*contract control*/ WriteCommand(0x80); /*128*/ WriteCommand(0xA1); /*set segment remap*/ WriteCommand(0xA6); /*normal / reverse*/ WriteCommand(0xA8); /*multiplex ratio*/ WriteCommand(0x3F); /*duty = 1/32*/ WriteCommand(0xad); /*set charge pump enable*/ WriteCommand(0x8b); /*external VCC */ WriteCommand(0x30); /*0X30---0X33 set VPP 9V liangdu!!!!*/ WriteCommand(0xC8); /*Com scan direction*/ WriteCommand(0xD3); /*set display offset*/ WriteCommand(0x00); /* 0x20 */ WriteCommand(0xD5); /*set osc division*/ WriteCommand(0x80); WriteCommand(0xD9); /*set pre-charge period*/ WriteCommand(0x1f); /*0x22*/ WriteCommand(0xDA); /*set COM pins*/ WriteCommand(0x12); WriteCommand(0xdb); /*set vcomh*/ WriteCommand(0x40); WriteCommand(0xAF); /*display ON*/ clear(); }