/
DigisparkOLED.cpp
246 lines (207 loc) · 5.62 KB
/
DigisparkOLED.cpp
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/*
* SSD1306xLED - Drivers for SSD1306 controlled dot matrix OLED/PLED 128x64 displays
*
* @created: 2014-08-12
* @author: Neven Boyanov
*
* Source code available at: https://bitbucket.org/tinusaur/ssd1306xled
*
*/
// ----------------------------------------------------------------------------
#include <stdlib.h>
#include <avr/io.h>
#include <avr/pgmspace.h>
#include "DigisparkOLED.h"
#include "font6x8.h"
#ifndef _nofont_8x16 // tBUG Optional removal to save code space
#include "font8x16.h"
#endif
// ----------------------------------------------------------------------------
// Some code based on "IIC_wtihout_ACK" by http://www.14blog.com/archives/1358
const uint8_t ssd1306_init_sequence [] PROGMEM = { // Initialization Sequence
0xAE, // Display OFF (sleep mode)
0x20, 0b00, // Set Memory Addressing Mode
// 00=Horizontal Addressing Mode; 01=Vertical Addressing Mode;
// 10=Page Addressing Mode (RESET); 11=Invalid
0xB0, // Set Page Start Address for Page Addressing Mode, 0-7
0xC8, // Set COM Output Scan Direction
0x00, // ---set low column address
0x10, // ---set high column address
0x40, // --set start line address
0x81, 0x3F, // Set contrast control register
0xA1, // Set Segment Re-map. A0=address mapped; A1=address 127 mapped.
0xA6, // Set display mode. A6=Normal; A7=Inverse
0xA8, 0x3F, // Set multiplex ratio(1 to 64)
0xA4, // Output RAM to Display
// 0xA4=Output follows RAM content; 0xA5,Output ignores RAM content
0xD3, 0x00, // Set display offset. 00 = no offset
0xD5, // --set display clock divide ratio/oscillator frequency
0xF0, // --set divide ratio
0xD9, 0x22, // Set pre-charge period
0xDA, 0x12, // Set com pins hardware configuration
0xDB, // --set vcomh
0x20, // 0x20,0.77xVcc
0x8D, 0x14, // Set DC-DC enable
0xAF // Display ON in normal mode
};
uint8_t oledFont, oledX, oledY = 0;
// Program: 5248 bytes
SSD1306Device::SSD1306Device(void){}
void SSD1306Device::begin(void)
{
Wire.begin();
for (uint8_t i = 0; i < sizeof (ssd1306_init_sequence); i++) {
ssd1306_send_command(pgm_read_byte(&ssd1306_init_sequence[i]));
}
clear();
}
void SSD1306Device::setFont(uint8_t font)
{
oledFont = font;
}
void SSD1306Device::ssd1306_send_command_start(void) {
Wire.beginTransmission(SSD1306);
Wire.write(0x00); // write command
}
void SSD1306Device::ssd1306_send_command_stop(void) {
Wire.endTransmission();
}
void SSD1306Device::ssd1306_send_data_byte(uint8_t byte)
{
if(Wire.writeAvailable()){
ssd1306_send_data_stop();
ssd1306_send_data_start();
}
Wire.write(byte);
}
void SSD1306Device::ssd1306_send_command(uint8_t command)
{
ssd1306_send_command_start();
Wire.write(command);
ssd1306_send_command_stop();
}
void SSD1306Device::ssd1306_send_data_start(void)
{
Wire.beginTransmission(SSD1306);
Wire.write(0x40); //write data
}
void SSD1306Device::ssd1306_send_data_stop(void)
{
Wire.endTransmission();
}
void SSD1306Device::setCursor(uint8_t x, uint8_t y)
{
ssd1306_send_command_start();
Wire.write(0xb0 + y);
Wire.write(((x & 0xf0) >> 4) | 0x10); // | 0x10
Wire.write((x & 0x0f) | 0x01); // | 0x01
ssd1306_send_command_stop();
oledX = x;
oledY = y;
}
void SSD1306Device::clear(void)
{
fill(0x00);
}
void SSD1306Device::fill(uint8_t fill)
{
uint8_t m,n;
for (m = 0; m < 8; m++)
{
ssd1306_send_command(0xb0 + m); // page0 - page1
ssd1306_send_command(0x00); // low column start address
ssd1306_send_command(0x10); // high column start address
ssd1306_send_data_start();
for (n = 0; n < 128; n++)
{
ssd1306_send_data_byte(fill);
}
ssd1306_send_data_stop();
}
setCursor(0, 0);
}
size_t SSD1306Device::write(byte c) {
uint8_t i = 0;
uint8_t ci = c - 32;
if(c == '\r')
return 1;
if(c == '\n'){
if(oledFont == FONT6X8) { // tBUG
oledY++;
// if ( oledY > 7) // tBUG
// oledY = 7;
}
else {
oledY+=2; //tBUG Large Font up by two
if ( oledY > 6) // tBUG
oledY = 6;
}
setCursor(0, oledY);
return 1;
}
if(oledFont == FONT6X8){
if (oledX > 122)
{
oledX = 0;
oledY++;
if ( oledY > 7) // tBUG
oledY = 7;
setCursor(oledX, oledY);
}
ssd1306_send_data_start();
for (i= 0; i < 6; i++)
{
ssd1306_send_data_byte(pgm_read_byte(&ssd1306xled_font6x8[ci * 6 + i]));
}
ssd1306_send_data_stop();
setCursor(oledX+6, oledY);
}
#ifndef _nofont_8x16 // tBUG
else{
if (oledX > 120)
{
oledX = 0;
oledY+=2; //tBUG Large Font up by two
// oledY++;
if ( oledY > 6) // tBUG
oledY = 6;
setCursor(oledX, oledY);
}
ssd1306_send_data_start();
for (i = 0; i < 8; i++)
{
Wire.write(pgm_read_byte(&ssd1306xled_font8x16[ci * 16 + i]));
}
ssd1306_send_data_stop();
setCursor(oledX, oledY + 1);
ssd1306_send_data_start();
for (i = 0; i < 8; i++)
{
Wire.write(pgm_read_byte(&ssd1306xled_font8x16[ci * 16 + i + 8]));
}
ssd1306_send_data_stop();
setCursor(oledX + 8, oledY - 1);
}
#endif
return 1;
}
void SSD1306Device::bitmap(uint8_t x0, uint8_t y0, uint8_t x1, uint8_t y1, const uint8_t bitmap[])
{
uint16_t j = 0;
uint8_t y, x;
// if (y1 % 8 == 0) y = y1 / 8; // else y = y1 / 8 + 1; // tBUG :: this does nothing as y is initialized below
// THIS PARAM rule on y makes any adjustment here WRONG //usage oled.bitmap(START X IN PIXELS, START Y IN ROWS OF 8 PIXELS, END X IN PIXELS, END Y IN ROWS OF 8 PIXELS, IMAGE ARRAY);
for (y = y0; y < y1; y++)
{
setCursor(x0,y);
ssd1306_send_data_start();
for (x = x0; x < x1; x++)
{
ssd1306_send_data_byte(pgm_read_byte(&bitmap[j++]));
}
ssd1306_send_data_stop();
}
setCursor(0, 0);
}
SSD1306Device oled;
// ----------------------------------------------------------------------------