La Suno
Basically i glued Peter Drescher and Simon Ford libs in a GraphicsDisplay class, then derived TFT or LCD class (which inherits Protocols class), then the most derived ones (Inits), which are per-display and are the only part needed to be adapted to diff hw.
Dependents: afero_poc15_180216 afero_poc15_180223 afero_poc15_180302 afero_poc15_180403R ... more
Fork of
UniGraphic
by 
GraphicsDisplay
UniGraphic for La Suno Version.
To go with La Suno, WatchDog Reset functions were added in ILI9341.
Inits/SEPS225.cpp
- Committer:
- Rhyme
- Date:
- 2015-06-22
- Revision:
- 24:1a2ebae1d289
- Parent:
- 23:d0eb35bbd2f3
- Child:
- 31:ef4225cef157
File content as of revision 24:1a2ebae1d289:
#include "mbed.h"
#include "SEPS225.h"
#ifndef OLED_LCD_REG_H_
#define OLED_LCD_REG_H_
#define CMD_INDEX 0x00
#define CMD_STATUS_RD 0x01
#define CMD_OSC_CTL 0x02
#define CMD_CLOCK_DIV 0x03
#define CMD_REDUCE_CURRENT 0x04
#define CMD_SOFT_RST 0x05
#define CMD_DISP_ON_OFF 0x06
#define CMD_PRECHARGE_TIME_R 0x08
#define CMD_PRECHARGE_TIME_G 0x09
#define CMD_PRECHARGE_TIME_B 0x0A
#define CMD_PRECHARGE_CURRENT_R 0x0B
#define CMD_PRECHARGE_CURRENT_G 0x0C
#define CMD_PRECHARGE_CURRENT_B 0x0D
#define CMD_DRIVING_CURRENT_R 0x10
#define CMD_DRIVING_CURRENT_G 0x11
#define CMD_DRIVING_CURRENT_B 0x12
#define CMD_DISPLAY_MODE_SET 0x13
#define CMD_RGB_IF 0x14
#define CMD_RGB_POL 0x15
#define CMD_MEMORY_WRITE_MODE 0x16
#define CMD_MX1_ADDR 0x17
#define CMD_MX2_ADDR 0x18
#define CMD_MY1_ADDR 0x19
#define CMD_MY2_ADDR 0x1A
#define CMD_MEMORY_ACCESS_POINTER_X 0x20
#define CMD_MEMORY_ACCESS_POINTER_Y 0x21
#define CMD_DDRAM_DATA_ACCESS_PORT 0x22
#define CMD_DUTY 0x28
#define CMD_DSL 0x29
#define CMD_D1_DDRAM_FAC 0x2E
#define CMD_D1_DDRAM_FAR 0x2F
#define CMD_D2_DDRAM_SAC 0x31
#define CMD_D2_DDRAM_SAR 0x32
#define CMD_SCR1_FX1 0x33
#define CMD_SCR1_FX2 0x34
#define CMD_SCR1_FY1 0x35
#define CMD_SCR1_FY2 0x36
#define CMD_SCR2_SX1 0x37
#define CMD_SCR2_SX2 0x38
#define CMD_SCR2_SY1 0x39
#define CMD_SCR2_SY2 0x3A
#define CMD_SCREEN_SAVER_CONTEROL 0x3B
#define CMD_SS_SLEEP_TIMER 0x3C
#define CMD_SCREEN_SAVER_MODE 0x3D
#define CMD_SS_SCR1_FU 0x3E
#define CMD_SS_SCR1_MXY 0x3F
#define CMD_SS_SCR2_FU 0x40
#define CMD_SS_SCR2_MXY 0x41
#define CMD_MOVING_DIRECTION 0x42
#define CMD_SS_SCR2_SX1 0x47
#define CMD_SS_SCR2_SX2 0x48
#define CMD_SS_SCR2_SY1 0x49
#define CMD_SS_SCR2_SY2 0x4A
#define CMD_IREF 0x80
#define LCD_RESET 0
#define LCD_CLEAR 1
#define LCD_PRINT 2
#define COLOR_RED 0xF100
#define COLOR_GREEN 0x07E0
#define COLOR_BLUE 0x001F
#define COLOR_CYAN 0x07FF
#define COLOR_MAGENTA 0xF11F
#define COLOR_YELLOW 0xFFE0
#define COLOR_BLACK 0x0000
#define COLOR_WHITE 0xFFFF
#define OLED_WIDTH 0x7F
#define OLED_HEIGHT 0x7F
#endif /* OLED_LCD_REG_H_ */
SEPS225::SEPS225(proto_t displayproto, PortName port, PinName CS, PinName reset, PinName DC, PinName WR, PinName RD, const char *name, unsigned int LCDSIZE_X, unsigned int LCDSIZE_Y)
: TFT(displayproto, port, CS, reset, DC, WR, RD, LCDSIZE_X, LCDSIZE_Y, name)
{
hw_reset();
BusEnable(true);
identify(); // will collect tftID and set mipistd flag
init();
auto_gram_read_format();
set_orientation(0);
cls();
FastWindow(true); // most but not all controllers support this, even if datasheet tells they should.
locate(0,0);
}
SEPS225::SEPS225(proto_t displayproto, PinName* buspins, PinName CS, PinName reset, PinName DC, PinName WR, PinName RD, const char *name, unsigned int LCDSIZE_X, unsigned int LCDSIZE_Y)
: TFT(displayproto, buspins, CS, reset, DC, WR, RD, LCDSIZE_X, LCDSIZE_Y, name)
{
hw_reset();
BusEnable(true);
identify(); // will collect tftID and set mipistd flag
init();
auto_gram_read_format();
set_orientation(0);
cls();
FastWindow(true); // most but not all controllers support this, even if datasheet tells they should.
locate(0,0);
}
SEPS225::SEPS225(proto_t displayproto, int Hz, PinName mosi, PinName miso, PinName sclk, PinName CS, PinName reset, PinName DC, const char *name, unsigned int LCDSIZE_X , unsigned int LCDSIZE_Y)
: TFT(displayproto, Hz, mosi, miso, sclk, CS, reset, DC, LCDSIZE_X, LCDSIZE_Y, name)
{
_cs = new DigitalOut(CS, 1) ;
_rs = new DigitalOut(DC, 1) ;
hw_reset(); //TFT class forwards to Protocol class
BusEnable(true); //TFT class forwards to Protocol class
identify(); // will collect tftID and set mipistd flag
init(); // per display custom init cmd sequence, implemented here
auto_gram_read_format();// try to get read gram pixel format, could be 16bit or 18bit, RGB or BGR. Will set flags accordingly
set_orientation(0); //TFT class does for MIPI standard and some ILIxxx
FastWindow(true); // most but not all controllers support this, even if datasheet tells they should.
cls();
locate(0,0);
}
// reset and init the lcd controller
void SEPS225::init()
{
#if 0
oled = new SPI(PIN_OLED_MOSI, PIN_OLED_MISO, PIN_OLED_SCLK) ;
oled_cs = new DigitalOut(PIN_OLED_CS, 1) ;
oled_rs = new DigitalOut(PIN_OLED_RS, 1) ;
oled->format(8, 0) ;
oled->frequency(1000000) ;
#endif
reg_write(CMD_REDUCE_CURRENT, 0x01) ; wait(0.01) ; // oled_delay(100000) ;
reg_write(CMD_REDUCE_CURRENT, 0x00) ; wait(0.01) ; // oled_delay(100000) ;
reg_write(CMD_OSC_CTL, 0x01) ;
reg_write(CMD_CLOCK_DIV, 0x30) ;
// reg_write(CMD_PRECHARGE_TIME_R, 0x03) ;
// reg_write(CMD_PRECHARGE_TIME_G, 0x04) ;
// reg_write(CMD_PRECHARGE_TIME_B, 0x05) ;
reg_write(CMD_PRECHARGE_TIME_R, 0x0E) ;
reg_write(CMD_PRECHARGE_TIME_G, 0x0E) ;
reg_write(CMD_PRECHARGE_TIME_B, 0x0E) ;
// reg_write(CMD_PRECHARGE_CURRENT_R, 0x0B) ;
// reg_write(CMD_PRECHARGE_CURRENT_G, 0x0B) ;
// reg_write(CMD_PRECHARGE_CURRENT_B, 0x0B) ;
reg_write(CMD_PRECHARGE_CURRENT_R, 0x3E) ;
reg_write(CMD_PRECHARGE_CURRENT_G, 0x32) ;
reg_write(CMD_PRECHARGE_CURRENT_B, 0x3D) ;
reg_write(CMD_DRIVING_CURRENT_R, 0x3E) ;
reg_write(CMD_DRIVING_CURRENT_G, 0x32) ;
reg_write(CMD_DRIVING_CURRENT_B, 0x3D) ;
// reg_write(CMD_DRIVING_CURRENT_R, 0x0B) ;
// reg_write(CMD_DRIVING_CURRENT_G, 0x0B) ;
// reg_write(CMD_DRIVING_CURRENT_B, 0x0B) ;
// Memory Write Mode
// 16bit * 1 transfer mode, R[5], G[6], B[5]
// H:Inc, V:Inc, Method:V
// reg_write(CMD_MEMORY_WRITE_MODE, 0x27) ;
reg_write(CMD_RGB_IF, 0x11) ;
// reg_write(CMD_MEMORY_WRITE_MODE, 0x66) ;
reg_write(CMD_MEMORY_WRITE_MODE, 0x26) ;
reg_write(CMD_IREF, 0x01) ; // Voltage ctrl by internal
//
reg_write(CMD_MX1_ADDR, 0x00) ;
reg_write(CMD_MX2_ADDR, 0x7F) ;
reg_write(CMD_MY1_ADDR, 0x00) ;
reg_write(CMD_MY2_ADDR, 0x7F) ;
reg_write(CMD_SCR1_FX1, 0x00) ;
reg_write(CMD_SCR1_FX2, 0x7F) ;
reg_write(CMD_SCR1_FY1, 0x00) ;
reg_write(CMD_SCR1_FY2, 0x7F) ;
reg_write(CMD_DSL, 0x00) ; // display start line
reg_write(CMD_DUTY, 0x7F) ; //
reg_write(CMD_DISPLAY_MODE_SET, 0x04) ; // was 0x00
// reg_write(CMD_DISPLAY_MODE_SET, 0x00) ; // was 0x00
reg_write(CMD_D1_DDRAM_FAC, 0x00) ;
reg_write(CMD_D1_DDRAM_FAR, 0x00) ;
// Clear
// oled_lcd_clear() ;
cls() ;
// DISP_ON_OFF
// reg_write(CMD_DISP_ON_OFF, 0x01) ;
}
/** Draw a pixel in the specified color.
* @param x is the horizontal offset to this pixel.
* @param y is the vertical offset to this pixel.
* @param color defines the color for the pixel.
*/
void SEPS225::pixel(int x, int y, unsigned short color)
{
unsigned char data[2] ;
data[0] = (unsigned char)((color & 0xFF00) >> 8) ;
data[1] = (unsigned char)(color & 0x00FF) ;
reg_write(CMD_MEMORY_ACCESS_POINTER_X, x) ;
reg_write(CMD_MEMORY_ACCESS_POINTER_Y, y) ;
*_cs = 0 ;
*_rs = 0 ;
wr_cmd8(CMD_DDRAM_DATA_ACCESS_PORT) ;
*_rs = 1 ;
wr_data8(data[0]) ;
wr_data8(data[1]) ;
*_cs = 1 ;
}
void SEPS225::window(int x, int y, int w, int h)
{
reg_write(CMD_MX1_ADDR, x) ;
reg_write(CMD_MX2_ADDR, x+w-1) ;
reg_write(CMD_MY1_ADDR, y) ;
reg_write(CMD_MY2_ADDR, y+h-1) ;
reg_write(CMD_MEMORY_ACCESS_POINTER_X, x) ;
reg_write(CMD_MEMORY_ACCESS_POINTER_Y, y) ;
}
void SEPS225::cls(void)
{
window(0, 0, OLED_WIDTH, OLED_HEIGHT) ;
reg_write(CMD_MEMORY_ACCESS_POINTER_X, 0) ;
reg_write(CMD_MEMORY_ACCESS_POINTER_Y, 0) ;
*_cs = 0 ;
*_rs = 0 ;
wr_cmd8(CMD_DDRAM_DATA_ACCESS_PORT) ;
*_rs = 1 ;
for (int i = 0 ; i < OLED_WIDTH * OLED_HEIGHT ; i++ ) {
write16(COLOR_BLACK) ;
}
*_cs = 1 ;
}
unsigned short SEPS225::pixelread(int x, int y)
{
unsigned short value = 0x0000 ;
//printf("SEPS225::pixelread not implemented\n\r") ;
return(value) ;
}
void SEPS225::rect(int x0, int y0, int x1, int y1, unsigned short color)
{
float interval = 0.01 ;
// window(x0, y0, x1-x0+1, y1-y0+1) ;
*_cs = 0 ;
wait(interval) ;
line(x0, y0, x1, y0, color) ;
*_cs = 1 ;
wait(interval) ;
*_cs = 0 ;
line(x1, y0, x1, y1, color) ;
*_cs = 1 ;
wait(interval) ;
*_cs = 0 ;
line(x0, y0, x0, y1, color) ;
*_cs = 1 ;
wait(interval) ;
*_cs = 0 ;
line(x0, y1, x1, y1, color) ;
wait(interval) ;
*_cs = 1 ;
// *_cs = 1 ;
}
void SEPS225::window4read(int x, int y, int w, int h)
{
//printf("SEPS225::window4read not implemented\n\r") ;
}
void SEPS225::window_pushpixel(unsigned short color)
{
//printf("SEPS225::window_pushpixel(unsigned short color) not implemented\n\r") ;
*_cs = 0 ;
*_rs = 0 ;
wr_cmd8(CMD_DDRAM_DATA_ACCESS_PORT) ;
*_rs = 1 ;
wr_data16(color) ;
// write16(color) ;
*_cs = 1 ;
}
void SEPS225::window_pushpixel(unsigned short color, unsigned int count)
{
//printf("SEPS225::window_pushpixel(unsigned short color, unsigned int count) not implemented\n\r") ;
*_cs = 0 ;
*_rs = 0 ;
wr_cmd8(CMD_DDRAM_DATA_ACCESS_PORT) ;
*_rs = 1 ;
for (unsigned int i = 0 ; i < count ; i++ ) {
// write16(color) ;
wr_data16(color) ;
}
*_cs = 1 ;
}
void SEPS225::window_pushpixelbuf(unsigned short* color, unsigned int lenght)
{
//printf("SEPS225::window_pushpixelbuf(unsigned short color, unsigned int length) not implemented\n\r") ;
*_cs = 0 ;
*_rs = 0 ;
wr_cmd8(CMD_DDRAM_DATA_ACCESS_PORT) ;
*_rs = 1 ;
for (unsigned int i = 0 ; i < lenght ; i++ ) {
// write16(color[i]) ;
wr_data16(color[i]) ;
}
*_cs = 1 ;
}
void SEPS225::reg_write(unsigned char cmd, unsigned char data)
{
*_cs = 0 ;
*_rs = 0 ;
wr_cmd8(cmd) ;
*_rs = 1 ;
wr_data8(data) ;
*_cs = 1 ;
}
void SEPS225::display(int onoff)
{
reg_write(CMD_DISP_ON_OFF, onoff) ;
}
void SEPS225::cmd_write(unsigned char cmd)
{
*_cs = 0 ;
*_rs = 0 ;
wr_cmd8(cmd) ;
*_rs = 1 ;
*_cs = 1 ;
}
void SEPS225::data_write(unsigned char data)
{
*_cs = 0 ;
wr_data8(data) ;
*_cs = 1 ;
}
void SEPS225::write8(unsigned char data)
{
wr_data8(data) ;
}
void SEPS225::write16(unsigned short sdata)
{
wr_data8((sdata >> 8)&0xFF) ;
wr_data8(sdata & 0xFF) ;
}
void SEPS225::bufwrite8(unsigned char *data, unsigned long len)
{
unsigned long i;
for (i = 0 ; i < len ; i++ ) {
wr_data8(data[i]) ;
}
}
void SEPS225::bufwrite16(unsigned short *sdata, unsigned long len)
{
unsigned long i ;
for (i = 0 ; i < len ; i++) {
write8((*sdata >> 8)&0xFF) ;
write8(*sdata & 0xFF) ;
}
}