Jurica Resetar
EPD display library. Check this version (it should work)
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GDEP015OC1
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Jurica Resetar
GDEP015OC1.cpp
- Committer:
- Anunnaki
- Date:
- 2016-09-15
- Revision:
- 2:1c8f73aa2a16
- Parent:
- 1:4fff95e316c9
- Child:
- 3:dc7b794b59b7
File content as of revision 2:1c8f73aa2a16:
#include "mbed.h"
#include "GDEP015OC1.h"
static const unsigned char _lutFull[] = {
0x02, 0x02, 0x01, 0x11, 0x12, 0x12, 0x22, 0x22, 0x66, 0x69, 0x69, 0x59, 0x58, 0x99, 0x99,
0x88, 0x00, 0x00, 0x00, 0x00, 0xF8, 0xB4, 0x13, 0x51, 0x35, 0x51, 0x51, 0x19, 0x01, 0x00
};
GDEP015OC1::GDEP015OC1(SPI& spi, PinName cs=p5, PinName dc=p6, PinName rst=p7, PinName busy=p8) : _spi(spi), _cs(cs), _dc(dc), _rst(rst), _busy(busy){
_init();
}
void GDEP015OC1::_spiCommand(unsigned char command){
_cs = _dc = 0;
wait_us(1);
_spi.write(command);
}
void GDEP015OC1::_spiData(unsigned char data){
_cs = 0;
_dc = 1;
wait_us(1);
_spi.write(data);
}
void GDEP015OC1::_init(void){
_rst = _cs = 1;
//empty();
}
void GDEP015OC1::_wakeUp(void){
_rst = 0;
wait_ms(10);
_rst = 1;
wait_ms(10);
//Stage 3
//Driver Output control
_spiCommand(0x01);
_spiData(0xC7);
_spiData(0x00);
_spiData(0x00);
//Softstart
_spiCommand(0x0C);
_spiData(0xD7);
_spiData(0xD6);
_spiData(0x9D);
_spiCommand(0x22);
_spiData(0xF0);
//VCOM setting
_spiCommand(0x2C);
_spiData(0xA8);
//Dummy line period
_spiCommand(0x3A);
_spiData(0x1A);
//Gate line width
_spiCommand(0x3B);
_spiData(0x08);
//Set data entry mode
_spiCommand(0x11);
_spiData(0x01); //DO NOT TOUCH THIS! (MUST BE 0x01)
//Gate driver start position
_spiCommand(0x0F);
_spiData(0x2B);
_spiData(0x01);
//VGH VGL
_spiCommand(0x03);
_spiData(0x00);
//VSH, VSL
_spiCommand(0x04);
_spiData(0x0A);
//Define X display size
_spiCommand(0x44);
_spiData(0x00);
_spiData(0x18);
//Define Y display size
_spiCommand(0x45);
_spiData(0xC7);
_spiData(0x00);
_spiData(0x2B);
_spiData(0x01);
//Define X RAM address
_spiCommand(0x4E);
_spiData(0x00);
//Define Y RAM address
_spiCommand(0x4F);
_spiData(0xC7);
_spiData(0x00);
//Border waveform control
_spiCommand(0x3C);
_spiData(0x33);
//Write LUT
_spiCommand(0x32);
for(uint8_t i = 0; i<30;i++)
_spiData(_lutFull[i]);
//Power on
_spiCommand(0x22);
_spiData(0xC0);
//Define X RAM address
_spiCommand(0x4E);
_spiData(0x00);
//Define Y RAM address
_spiCommand(0x4F);
_spiData(0xC7);
_spiData(0x00);
}
void GDEP015OC1::_sleep(void){
while(_busy == BUSY_STATE);
_spiCommand(0x10);
_spiData(0x01);
}
//If you touch this function satan will feast on your soul for an eternity!
unsigned char GDEP015OC1::_pixelConv(unsigned char *data, int i){
uint8_t pix = 0x00;
for(uint8_t x = 0; x < 8; x++){
pix |= ((*(data + (i*200)%5000 + (24-i/200) + x*25)>>((i/25)%8))&(0x01))<<(7-x);
}
return pix;
}
uint8_t GDEP015OC1::_mirrorData(uint8_t data){
uint8_t mirror = 0x00;
for(uint8_t i=0; i<8; i++)
mirror |= ((data>>i) & 0x01) << (7 - i);
return mirror;
}
void GDEP015OC1::empty(void){
for(uint16_t x=0; x<5000; x++)
_buffer[x] = 0x00;
}
void GDEP015OC1::write(void){
_wakeUp();
_spiCommand(0x24);
for(int16_t x=0; x>=0 && x<200; x++){
for(int16_t y=24; y>=0 && y<25; y--){
_spiData(_mirrorData(_pixelConv(_buffer, x*25+y)));
wait_us(10);
}
}
_spiCommand(0x22);
_spiData(0x04);
_spiCommand(0x22);
_spiData(0x08);
//Update
_spiCommand(0x22);
_spiData(0xC7);
_spiCommand(0x20);
_sleep();
}
void GDEP015OC1::drawPixel(uint16_t startX, uint16_t startY, bool color=0){
if(startX>199 || startY>199) return;
uint16_t i = startX/8 + startY*25;
if(!color)
_buffer[i] = (_buffer[i] | (1<<(7-startX%8)));
else
_buffer[i] = (_buffer[i] & (0xFF^(1<<(7-startX%8))));
}
void GDEP015OC1::drawLine(uint16_t startX, uint16_t startY, uint16_t stopX, uint16_t stopY, bool color=0){
int dx = abs(stopX-startX), sx = startX<stopX ? 1 : -1;
int dy = abs(stopY-startY), sy = startY<stopY ? 1 : -1;
int err = (dx>dy ? dx : -dy)/2, e2;
for(;;){
drawPixel(startX,startY,color);
if (startX==stopX && startY==stopY) break;
e2 = err;
if (e2 >-dx) { err -= dy; startX += sx; }
if (e2 < dy) { err += dx; startY += sy; }
}
}