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.
Display/LCD.cpp
- Committer:
- Geremia
- Date:
- 2015-02-13
- Revision:
- 2:713844a55c4e
- Parent:
- 1:ff019d22b275
- Child:
- 3:48f3282c2be8
File content as of revision 2:713844a55c4e:
#include "LCD.h" //#include "mbed_debug.h" //#define LCDPAGES (LCDSIZE_Y>>3) // 8raws per page //#define IC_PAGES (IC_Y_COMS>>3) // max pages in IC ddram, 8raws per page #define SWAP(a, b) { a ^= b; b ^= a; a ^= b; } //#define USEFRAMEBUFFER //#define FRAMEBUFSIZE (LCDSIZE_X*LCDPAGES) LCD::LCD(proto_t displayproto, PortName port, PinName CS, PinName reset, PinName DC, PinName WR, PinName RD, const int lcdsize_x, const int lcdsize_y, const int ic_x_segs, const int ic_y_coms, const char *name) : /*PAR8(port, CS, reset, DC, WR, RD),*/ GraphicsDisplay(name), LCDSIZE_X(lcdsize_x), LCDSIZE_Y(lcdsize_y), LCDPAGES(lcdsize_y>>3), IC_X_SEGS(ic_x_segs), IC_Y_COMS(ic_y_coms), IC_PAGES(ic_y_coms>>3) { // LCDPAGES = LCDSIZE_Y>>3; // IC_PAGES = IC_Y_COMS>>3; // buffer = new unsigned char [LCDSIZE_X*LCDPAGES]; // PAR8 par8proto(port, CS, reset, DC, WR, RD); if(displayproto==PAR_8) proto = new PAR8(port, CS, reset, DC, WR, RD); useNOP=false; buffer = (unsigned char*) malloc (LCDSIZE_X*LCDPAGES); buffer16 = (unsigned short*)buffer; draw_mode = NORMAL; set_orientation(1); foreground(Black); background(White); set_auto_up(true); // cls(); // locate(0,0); } LCD::LCD(proto_t displayproto, int Hz, PinName mosi, PinName miso, PinName sclk, PinName CS, PinName reset, PinName DC, const int lcdsize_x, const int lcdsize_y, const int ic_x_segs, const int ic_y_coms, const char *name) : GraphicsDisplay(name), LCDSIZE_X(lcdsize_x), LCDSIZE_Y(lcdsize_y), LCDPAGES(lcdsize_y>>3), IC_X_SEGS(ic_x_segs), IC_Y_COMS(ic_y_coms), IC_PAGES(ic_y_coms>>3) { // LCDPAGES = LCDSIZE_Y>>3; // IC_PAGES = IC_Y_COMS>>3; // buffer = new unsigned char [LCDSIZE_X*LCDPAGES]; // PAR8 par8proto(port, CS, reset, DC, WR, RD); if(displayproto==SPI_8) { proto = new SPI8(Hz, mosi, miso, sclk, CS, reset, DC); useNOP=false; } else if(displayproto==SPI_16) { proto = new SPI16(Hz, mosi, miso, sclk, CS, reset, DC); useNOP=true; } buffer = (unsigned char*) malloc (LCDSIZE_X*LCDPAGES); buffer16 = (unsigned short*)buffer; draw_mode = NORMAL; // cls(); set_orientation(1); foreground(Black); background(White); set_auto_up(true); // locate(0,0); } LCD::~LCD() { free(buffer); } void LCD::wr_cmd8(unsigned char cmd) { if(useNOP) proto->wr_cmd16(0xE300|cmd); // E3 is NOP cmd for LCD else proto->wr_cmd8(cmd); } void LCD::wr_data8(unsigned char data) { proto->wr_data8(data); } void LCD::wr_data8(unsigned char data, unsigned int count) { proto->wr_data8(data, count); } void LCD::wr_data8buf(unsigned char* data, unsigned int lenght) { proto->wr_data8buf(data, lenght); } void LCD::wr_cmd16(unsigned short cmd) { proto->wr_cmd16(cmd); } void LCD::wr_data16(unsigned short data, unsigned int count) { proto->wr_data16(data, count); } void LCD::wr_data16buf(unsigned short* data, unsigned int lenght) { proto->wr_data16buf(data, lenght); } void LCD::hw_reset() { proto->hw_reset(); } void LCD::BusEnable(bool enable) { proto->BusEnable(enable); } // monochrome LCD driver ICs does not have ram rotate in hw (swap raw<->columns) like TFT displays // for portrait views, XY swap will be done in sw in pixel() function void LCD::set_orientation(int o) { orientation = o; switch (o) { case (0):// portrait view -90° mirrorXY(Y); col_offset = 0; page_offset = IC_PAGES-LCDPAGES; set_width(LCDSIZE_Y); set_height(LCDSIZE_X); // portrait = true; break; case (1): // default, landscape view 0° mirrorXY(NONE); col_offset = 0; page_offset = 0; set_width(LCDSIZE_X); set_height(LCDSIZE_Y); // portrait = false; break; case (2):// portrait view +90° mirrorXY(X); col_offset = IC_X_SEGS-LCDSIZE_X; // some displays have less pixels than IC ram page_offset = 0; set_width(LCDSIZE_Y); set_height(LCDSIZE_X); // portrait = true; break; case (3):// landscape view +180° mirrorXY(XY); col_offset = IC_X_SEGS-LCDSIZE_X; page_offset = IC_PAGES-LCDPAGES; set_width(LCDSIZE_X); set_height(LCDSIZE_Y); // portrait = false; break; } } void LCD::mirrorXY(mirror_t mode) { switch (mode) { case(NONE): // wr_cmd8(0xA0); wr_cmd16(0xA0C8); // this is in real Y mirror command, but seems most displays have COMs wired inverted, so assume this is the default no-y-mirror break; case(X): // wr_cmd8(0xA1); wr_cmd16(0xA1C8); break; case(Y): // wr_cmd8(0xA0); wr_cmd16(0xA0C0); break; case(XY): // wr_cmd8(0xA1); wr_cmd16(0xA1C0); break; } } void LCD::invert(unsigned char o) { if(o == 0) wr_cmd8(0xA6); else wr_cmd8(0xA7); } void LCD::set_contrast(int o) { contrast = o; // wr_cmd8(0x81); // set volume wr_cmd16(0x8100|(o&0x3F)); } int LCD::get_contrast(void) { return(contrast); } void LCD::window(int x, int y, int w, int h) { // current pixel location cur_x = x; cur_y = y; // window settings win_x1 = x; win_x2 = x + w - 1; win_y1 = y; win_y2 = y + h - 1; } void LCD::window_pushpixel(unsigned short color) { pixel(cur_x, cur_y, color); cur_x++; if(cur_x > win_x2) { cur_x = win_x1; cur_y++; if(cur_y > win_y2) { cur_y = win_y1; } } } void LCD::window_pushpixel(unsigned short color, unsigned int count) { while(count) { pixel(cur_x, cur_y, color); cur_x++; if(cur_x > win_x2) { cur_x = win_x1; cur_y++; if(cur_y > win_y2) { cur_y = win_y1; } } count--; } } void LCD::window_pushpixelbuf(unsigned short* color, unsigned int lenght) { while(lenght) { pixel(cur_x, cur_y, *color++); cur_x++; if(cur_x > win_x2) { cur_x = win_x1; cur_y++; if(cur_y > win_y2) { cur_y = win_y1; } } lenght--; } } void LCD::pixel(int x, int y, unsigned short color) { if(!(orientation&1)) SWAP(x,y); // first check parameter if((x >= LCDSIZE_X) || (y >= LCDSIZE_Y)) return; // if(draw_mode == NORMAL) // { if(color == Black) buffer[(x + ((y>>3)*LCDSIZE_X))^1] &= ~(1 << (y&7)); // erase pixel else buffer[(x + ((y>>3)*LCDSIZE_X))^1] |= (1 << (y&7)); // set pixel // } // else // { // XOR mode // if(color == 1) buffer[x + ((y>>3) * LCDSIZE_X)] ^= (1 << (y&7)); // xor pixel // } } void LCD::copy_to_lcd(void) { unsigned short i=0; unsigned short setcolcmd = 0x0010 | ((col_offset&0xF)<<8) | (col_offset>>4); for(int page=0; page<LCDPAGES; page++) { // wr_cmd8(col_offset&0xF); // set column low nibble // wr_cmd8(0x10|(col_offset>>4)); // set column hi nibble wr_cmd16(setcolcmd); wr_cmd8(0xB0|(page+page_offset)); // set page wr_data16buf(buffer16+i, LCDSIZE_X>>1); // send whole page pixels i+=LCDSIZE_X>>1; } } void LCD::cls(void) { memset(buffer,0x00,LCDSIZE_X*LCDPAGES); // clear display buffer unsigned short setcolcmd = 0x0010 | ((col_offset&0xF)<<8) | (col_offset>>4); for(int page=0; page<LCDPAGES; page++) { // wr_cmd8((unsigned char)col_offset&0xF); // set column low nibble // wr_cmd8(0x10|(col_offset>>4)); // set column hi nibble wr_cmd16(setcolcmd); wr_cmd8(0xB0|(page+page_offset)); // set page wr_data16(0, LCDSIZE_X>>1); // send whole page pixels =0 } }