Behrooz Abdi
/
Tiger_LCD
Landtiger (LPC1768) graphics LCD demo.
GLCD_LPC1700.cpp
- Committer:
- wim
- Date:
- 2015-11-24
- Revision:
- 4:cdeea87f25d8
- Parent:
- 3:2dccfa0121de
File content as of revision 4:cdeea87f25d8:
/******************************************************************************/ /* GLCD::LPC1700 low-level Graphic LCD (320x240 pixels) for LandTiger */ /* */ /******************************************************************************/ /* This file is modified from the uVision/ARM development tools. */ /* Copyright (c) 2005-2009 Keil Software. All rights reserved. */ /* This software may only be used under the terms of a valid, current, */ /* end user licence from KEIL for a compatible version of KEIL software */ /* development tools. Nothing else gives you the right to use this software. */ /******************************************************************************/ #include "mbed.h" #include "GLCD.h" #include "GLCD_Config.h" #include "Font_24x16.h" /*********************** Hardware specific configuration **********************/ /* LandTiger 8bit to 16bit LCD Interface PINS: - EN = P0.19 - LE = P0.20 - DIR = P0.21 - CS = P0.22 - RS = P0.23 - WR = P0.24 - RD = P0.25 - DB[0.7] = P2.0...P2.7 - DB[8.15]= P2.0...P2.7 */ #define PIN_EN (1 << 19) #define PIN_LE (1 << 20) #define PIN_DIR (1 << 21) #define PIN_CS (1 << 22) #define PIN_RS (1 << 23) #define PIN_WR (1 << 24) #define PIN_RD (1 << 25) /*------------------------- Speed dependant settings -------------------------*/ /* If processor works on high frequency delay has to be increased, it can be increased by factor 2^N by this constant */ #define DELAY_2N 18 /*---------------------- Graphic LCD size definitions ------------------------*/ #define WIDTH 320 /* Screen Width (in pixels) */ #define HEIGHT 240 /* Screen Hight (in pixels) */ #define BPP 16 /* Bits per pixel */ #define BYPP ((BPP+7)/8) /* Bytes per pixel */ #define ROWS (HEIGHT / CHAR_H) /* Lines per screen */ #define COLS (WIDTH / CHAR_W) /* Characters per line */ /*--------------- Graphic LCD interface hardware definitions -----------------*/ /* Pin EN setting to 0 or 1 */ #define LCD_EN(x) ((x) ? (LPC_GPIO0->FIOSET = PIN_EN) : (LPC_GPIO0->FIOCLR = PIN_EN)); /* Pin LE setting to 0 or 1 */ #define LCD_LE(x) ((x) ? (LPC_GPIO0->FIOSET = PIN_LE) : (LPC_GPIO0->FIOCLR = PIN_LE)); /* Pin DIR setting to 0 or 1 */ #define LCD_DIR(x) ((x) ? (LPC_GPIO0->FIOSET = PIN_DIR) : (LPC_GPIO0->FIOCLR = PIN_DIR)); /* Pin CS setting to 0 or 1 */ #define LCD_CS(x) ((x) ? (LPC_GPIO0->FIOSET = PIN_CS) : (LPC_GPIO0->FIOCLR = PIN_CS)); /* Pin RS setting to 0 or 1 */ #define LCD_RS(x) ((x) ? (LPC_GPIO0->FIOSET = PIN_RS) : (LPC_GPIO0->FIOCLR = PIN_RS)); /* Pin WR setting to 0 or 1 */ #define LCD_WR(x) ((x) ? (LPC_GPIO0->FIOSET = PIN_WR) : (LPC_GPIO0->FIOCLR = PIN_WR)); /* Pin RD setting to 0 or 1 */ #define LCD_RD(x) ((x) ? (LPC_GPIO0->FIOSET = PIN_RD) : (LPC_GPIO0->FIOCLR = PIN_RD)); /************************ Local auxiliary functions ***************************/ #define MAX_POLY_CORNERS 200 #define POLY_Y(Z) ((int32_t)((Points + Z)->X)) #define POLY_X(Z) ((int32_t)((Points + Z)->Y)) #define ABS(X) ((X) > 0 ? (X) : -(X)) #define swap(type, i, j) {type t = i; i = j; j = t;} // rrrrrggggggbbbbb #define RGB24toRGB16(r,g,b) ((r & 0xF8)<<8) | ((g & 0xFC)<<3) | ((b & 0xF8)>>3) /******************************************************************************* * Delay in while loop cycles * * Parameter: cnt: number of while cycles to delay * * Return: * *******************************************************************************/ static __inline void delay (int cnt) { cnt <<= DELAY_2N; while (cnt--); } static __inline __asm void wait() { nop BX lr } static __inline void wait_delay(int count) { while(count--); } GLCD::GLCD() { init(); } /******************************************************************************* * Send 1 short to LCD * * Parameter: data: data to be sent * * Return: * *******************************************************************************/ uint8_t GLCD::_lcd_send (uint16_t data) { LPC_GPIO2->FIODIR |= 0x000000ff; //P2.0...P2.7 Output LCD_DIR(1) //Interface A->B LCD_EN(0) //Enable 2A->2B LPC_GPIO2->FIOPIN = data; //Write D0..D7 LCD_LE(1) LCD_LE(0) //latch D0..D7 LPC_GPIO2->FIOPIN = data >> 8; //Write D8..D15 return(1); } /******************************************************************************* * read 1 short from LCD * * Parameter: * * Return: short data from LCD * *******************************************************************************/ uint16_t GLCD::_lcd_read (void) { uint16_t id; LPC_GPIO2->FIODIR &= 0xffffff00; //P2.0...P2.7 Input LCD_DIR(0) //Interface B->A LCD_EN(0) //Enable 2B->2A wait_delay(80); //delay some times id = LPC_GPIO2->FIOPIN & 0x00ff; //Read D8..D15 LCD_EN(1) //Enable 1B->1A wait_delay(80); //delay some times id = (id << 8) | (LPC_GPIO2->FIOPIN & 0x00ff); //Read D0..D7 LCD_DIR(1) return(id); } /******************************************************************************* * Write command to LCD controller * * Parameter: c: command to be written * * Return: * *******************************************************************************/ void GLCD::_wr_cmd (uint16_t c) { LCD_RS(0) LCD_RD(1) _lcd_send(c); LCD_WR(0) wait(); LCD_WR(1) } /******************************************************************************* * Write data to LCD controller * * Parameter: c: data to be written * * Return: * *******************************************************************************/ void GLCD::_wr_dat (uint16_t c) { LCD_RS(1) LCD_RD(1) _lcd_send(c); LCD_WR(0) wait(); LCD_WR(1) } /******************************************************************************* * Read data from LCD controller * * Parameter: * * Return: read data * *******************************************************************************/ uint16_t GLCD::_rd_dat (void) { uint16_t val = 0; LCD_RS(1) LCD_WR(1) LCD_RD(0) val = _lcd_read(); LCD_RD(1) return val; } /******************************************************************************* * Start of data writing to LCD controller * * Parameter: * * Return: * *******************************************************************************/ void GLCD::_wr_dat_start (void) { LCD_CS(0) LCD_RS(1) } /******************************************************************************* * Stop of data writing to LCD controller * * Parameter: * * Return: * *******************************************************************************/ void GLCD::_wr_dat_stop (void) { LCD_CS(1) } /******************************************************************************* * Data writing to LCD controller * * Parameter: c: data to be written * * Return: * *******************************************************************************/ void GLCD::_wr_dat_only (uint16_t c) { _lcd_send(c); LCD_WR(0) wait(); LCD_WR(1) } /******************************************************************************* * Write to LCD register * * Parameter: reg: register to be read * * val: value to write to register * *******************************************************************************/ void GLCD::_wr_reg (uint16_t reg, uint16_t val) { LCD_CS(0) _wr_cmd(reg); _wr_dat(val); LCD_CS(1) } /******************************************************************************* * Read from LCD register * * Parameter: reg: register to be read * * Return: value read from register * *******************************************************************************/ uint16_t GLCD::_rd_reg (uint16_t reg) { uint16_t val = 0; LCD_CS(0) _wr_cmd(reg); val = _rd_dat(); LCD_CS(1) return (val); } /************************ Exported functions **********************************/ /******************************************************************************* * Initialize the Graphic LCD controller * * Parameter: * * Return: * *******************************************************************************/ void GLCD::init (void) { /* Configure the LCD Control pins */ LPC_GPIO0->FIODIR |= 0x03f80000; LPC_GPIO0->FIOSET = 0x03f80000; delay(5); /* Delay 50 ms */ _driverCode = _rd_reg(0x00); switch (_driverCode) { case LGDP4531_ID: { //2.8" TFT LCD Module, DriverIC is LGDP4531 #ifndef DISABLE_LGDP4531 _wr_reg(0x00,0x0001); _wr_reg(0x10,0x0628); _wr_reg(0x12,0x0006); _wr_reg(0x13,0x0A32); _wr_reg(0x11,0x0040); _wr_reg(0x15,0x0050); _wr_reg(0x12,0x0016); delay(15); _wr_reg(0x10,0x5660); delay(15); _wr_reg(0x13,0x2A4E); _wr_reg(0x01,0x0100); _wr_reg(0x02,0x0300); _wr_reg(0x03,0x1030); _wr_reg(0x08,0x0202); _wr_reg(0x0A,0x0000); _wr_reg(0x30,0x0000); _wr_reg(0x31,0x0402); _wr_reg(0x32,0x0106); _wr_reg(0x33,0x0700); _wr_reg(0x34,0x0104); _wr_reg(0x35,0x0301); _wr_reg(0x36,0x0707); _wr_reg(0x37,0x0305); _wr_reg(0x38,0x0208); _wr_reg(0x39,0x0F0B); delay(15); _wr_reg(0x41,0x0002); _wr_reg(0x60,0x2700); _wr_reg(0x61,0x0001); _wr_reg(0x90,0x0119); _wr_reg(0x92,0x010A); _wr_reg(0x93,0x0004); _wr_reg(0xA0,0x0100); delay(15); _wr_reg(0xA0,0x0000); delay(20); #endif break; } case ILI9328_ID: case ILI9325_ID: { //2.8" TFT LCD Module, DriverIC is ILI9325 #ifndef DISABLE_ILI9325 _wr_reg(0x00e7,0x0010); _wr_reg(0x0000,0x0001); //start internal osc _wr_reg(0x0001,0x0100); _wr_reg(0x0002,0x0700); //power on sequence _wr_reg(0x0003,(1<<12)|(1<<5)|(1<<4) ); //65K _wr_reg(0x0004,0x0000); _wr_reg(0x0008,0x0207); _wr_reg(0x0009,0x0000); _wr_reg(0x000a,0x0000); //display setting _wr_reg(0x000c,0x0001); //display setting _wr_reg(0x000d,0x0000); //0f3c _wr_reg(0x000f,0x0000); //Power On sequence // _wr_reg(0x0010,0x0000); _wr_reg(0x0011,0x0007); _wr_reg(0x0012,0x0000); _wr_reg(0x0013,0x0000); delay(15); _wr_reg(0x0010,0x1590); _wr_reg(0x0011,0x0227); delay(15); _wr_reg(0x0012,0x009c); delay(15); _wr_reg(0x0013,0x1900); _wr_reg(0x0029,0x0023); _wr_reg(0x002b,0x000e); delay(15); _wr_reg(0x0020,0x0000); _wr_reg(0x0021,0x0000); /////////////////////////////////////////////////////// delay(15); _wr_reg(0x0030,0x0007); _wr_reg(0x0031,0x0707); _wr_reg(0x0032,0x0006); _wr_reg(0x0035,0x0704); _wr_reg(0x0036,0x1f04); _wr_reg(0x0037,0x0004); _wr_reg(0x0038,0x0000); _wr_reg(0x0039,0x0706); _wr_reg(0x003c,0x0701); _wr_reg(0x003d,0x000f); delay(15); _wr_reg(0x0050,0x0000); _wr_reg(0x0051,0x00ef); _wr_reg(0x0052,0x0000); _wr_reg(0x0053,0x013f); _wr_reg(0x0060,0xa700); _wr_reg(0x0061,0x0001); _wr_reg(0x006a,0x0000); _wr_reg(0x0080,0x0000); _wr_reg(0x0081,0x0000); _wr_reg(0x0082,0x0000); _wr_reg(0x0083,0x0000); _wr_reg(0x0084,0x0000); _wr_reg(0x0085,0x0000); _wr_reg(0x0090,0x0010); _wr_reg(0x0092,0x0000); _wr_reg(0x0093,0x0003); _wr_reg(0x0095,0x0110); _wr_reg(0x0097,0x0000); _wr_reg(0x0098,0x0000); //display on sequence _wr_reg(0x0007,0x0133); _wr_reg(0x0020,0x0000); _wr_reg(0x0021,0x0000); #endif break; } case ILI9320_ID: { //3.2" TFT LCD Module,DriverIC is ILI9320 #ifndef DISABLE_ILI9320 /* Start Initial Sequence --------------------------------------------------*/ _wr_reg(0xE5, 0x8000); /* Set the internal vcore voltage */ _wr_reg(0x00, 0x0001); /* Start internal OSC */ _wr_reg(0x01, 0x0100); /* Set SS and SM bit */ _wr_reg(0x02, 0x0700); /* Set 1 line inversion */ _wr_reg(0x03, 0x1030); /* Set GRAM write direction and BGR=1 */ _wr_reg(0x04, 0x0000); /* Resize register */ _wr_reg(0x08, 0x0202); /* 2 lines each, back and front porch */ _wr_reg(0x09, 0x0000); /* Set non-disp area refresh cyc ISC */ _wr_reg(0x0A, 0x0000); /* FMARK function */ _wr_reg(0x0C, 0x0000); /* RGB interface setting */ _wr_reg(0x0D, 0x0000); /* Frame marker Position */ _wr_reg(0x0F, 0x0000); /* RGB interface polarity */ /* Power On sequence -------------------------------------------------------*/ _wr_reg(0x10, 0x0000); /* Reset Power Control 1 */ _wr_reg(0x11, 0x0000); /* Reset Power Control 2 */ _wr_reg(0x12, 0x0000); /* Reset Power Control 3 */ _wr_reg(0x13, 0x0000); /* Reset Power Control 4 */ delay(20); /* Discharge cap power voltage (200ms)*/ _wr_reg(0x10, 0x17B0); /* SAP, BT[3:0], AP, DSTB, SLP, STB */ _wr_reg(0x11, 0x0137); /* DC1[2:0], DC0[2:0], VC[2:0] */ delay(5); /* Delay 50 ms */ _wr_reg(0x12, 0x0139); /* VREG1OUT voltage */ delay(5); /* Delay 50 ms */ _wr_reg(0x13, 0x1D00); /* VDV[4:0] for VCOM amplitude */ _wr_reg(0x29, 0x0013); /* VCM[4:0] for VCOMH */ delay(5); /* Delay 50 ms */ _wr_reg(0x20, 0x0000); /* GRAM horizontal Address */ _wr_reg(0x21, 0x0000); /* GRAM Vertical Address */ /* Adjust the Gamma Curve --------------------------------------------------*/ _wr_reg(0x30, 0x0006); _wr_reg(0x31, 0x0101); _wr_reg(0x32, 0x0003); _wr_reg(0x35, 0x0106); _wr_reg(0x36, 0x0B02); _wr_reg(0x37, 0x0302); _wr_reg(0x38, 0x0707); _wr_reg(0x39, 0x0007); _wr_reg(0x3C, 0x0600); _wr_reg(0x3D, 0x020B); /* Set GRAM area -----------------------------------------------------------*/ _wr_reg(0x50, 0x0000); /* Horizontal GRAM Start Address */ _wr_reg(0x51, (HEIGHT-1)); /* Horizontal GRAM End Address */ _wr_reg(0x52, 0x0000); /* Vertical GRAM Start Address */ _wr_reg(0x53, (WIDTH-1)); /* Vertical GRAM End Address */ _wr_reg(0x60, 0x2700); /* Gate Scan Line */ _wr_reg(0x61, 0x0001); /* NDL,VLE, REV */ _wr_reg(0x6A, 0x0000); /* Set scrolling line */ /* Partial Display Control -------------------------------------------------*/ _wr_reg(0x80, 0x0000); _wr_reg(0x81, 0x0000); _wr_reg(0x82, 0x0000); _wr_reg(0x83, 0x0000); _wr_reg(0x84, 0x0000); _wr_reg(0x85, 0x0000); /* Panel Control -----------------------------------------------------------*/ _wr_reg(0x90, 0x0010); _wr_reg(0x92, 0x0000); _wr_reg(0x93, 0x0003); _wr_reg(0x95, 0x0110); _wr_reg(0x97, 0x0000); _wr_reg(0x98, 0x0000); #endif break; } case ILI9331_ID: { #ifndef DISABLE_ILI9331 _wr_reg(0x00E7, 0x1014); _wr_reg(0x0001, 0x0100); /* set SS and SM bit */ _wr_reg(0x0002, 0x0200); /* set 1 line inversion */ _wr_reg(0x0003, 0x1030); /* set GRAM write direction and BGR=1 */ _wr_reg(0x0008, 0x0202); /* set the back porch and front porch */ _wr_reg(0x0009, 0x0000); /* set non-display area refresh cycle ISC[3:0] */ _wr_reg(0x000A, 0x0000); /* FMARK function */ _wr_reg(0x000C, 0x0000); /* RGB interface setting */ _wr_reg(0x000D, 0x0000); /* Frame marker Position */ _wr_reg(0x000F, 0x0000); /* RGB interface polarity */ /* Power On sequence */ _wr_reg(0x0010, 0x0000); /* SAP, BT[3:0], AP, DSTB, SLP, STB */ _wr_reg(0x0011, 0x0007); /* DC1[2:0], DC0[2:0], VC[2:0] */ _wr_reg(0x0012, 0x0000); /* VREG1OUT voltage */ _wr_reg(0x0013, 0x0000); /* VDV[4:0] for VCOM amplitude */ delay(200); /* delay 200 ms */ _wr_reg(0x0010, 0x1690); /* SAP, BT[3:0], AP, DSTB, SLP, STB */ _wr_reg(0x0011, 0x0227); /* DC1[2:0], DC0[2:0], VC[2:0] */ delay(50); /* delay 50 ms */ _wr_reg(0x0012, 0x000C); /* Internal reference voltage= Vci */ delay(50); /* delay 50 ms */ _wr_reg(0x0013, 0x0800); /* Set VDV[4:0] for VCOM amplitude */ _wr_reg(0x0029, 0x0011); /* Set VCM[5:0] for VCOMH */ _wr_reg(0x002B, 0x000B); /* Set Frame Rate */ delay(50); /* delay 50 ms */ _wr_reg(0x0020, 0x0000); /* GRAM horizontal Address */ _wr_reg(0x0021, 0x0000); /* GRAM Vertical Address */ /* Adjust the Gamma Curve */ _wr_reg(0x0030, 0x0000); _wr_reg(0x0031, 0x0106); _wr_reg(0x0032, 0x0000); _wr_reg(0x0035, 0x0204); _wr_reg(0x0036, 0x160A); _wr_reg(0x0037, 0x0707); _wr_reg(0x0038, 0x0106); _wr_reg(0x0039, 0x0707); _wr_reg(0x003C, 0x0402); _wr_reg(0x003D, 0x0C0F); /* Set GRAM area */ _wr_reg(0x0050, 0x0000); /* Horizontal GRAM Start Address */ _wr_reg(0x0051, 0x00EF); /* Horizontal GRAM End Address */ _wr_reg(0x0052, 0x0000); /* Vertical GRAM Start Address */ _wr_reg(0x0053, 0x013F); /* Vertical GRAM Start Address */ _wr_reg(0x0060, 0x2700); /* Gate Scan Line */ _wr_reg(0x0061, 0x0001); /* NDL,VLE, REV */ _wr_reg(0x006A, 0x0000); /* set scrolling line */ /* Partial Display Control */ _wr_reg(0x0080, 0x0000); _wr_reg(0x0081, 0x0000); _wr_reg(0x0082, 0x0000); _wr_reg(0x0083, 0x0000); _wr_reg(0x0084, 0x0000); _wr_reg(0x0085, 0x0000); /* Panel Control */ _wr_reg(0x0090, 0x0010); _wr_reg(0x0092, 0x0600); _wr_reg(0x0007,0x0021); delay(50); /* delay 50 ms */ _wr_reg(0x0007,0x0061); delay(50); /* delay 50 ms */ _wr_reg(0x0007,0x0133); /* 262K color and display ON */ #endif break; } case SSD1289_ID: { //3.2" TFT LCD Module,DriverIC is SSD1289 #ifndef DISABLE_SSD1289_ID _wr_reg(0x0007,0x0233); delay(5); //0x0233 Set this first or init fails ! _wr_reg(0x0000,0x0001); delay(5); // osc en _wr_reg(0x0003,0xA8A4); delay(5); // powercontrol 1 0xA8A4 _wr_reg(0x000C,0x0000); delay(5); // powercontrol 2 _wr_reg(0x000D,0x080C); delay(5); // powercontrol 3 _wr_reg(0x000E,0x2B00); delay(5); // powercontrol 4 _wr_reg(0x001E,0x00B0); delay(5); // powercontrol 5 //orig _wr_reg(0x0001,0x2b3F); delay(5); // 0x2b3f Mux=320, BGR, RL=0, TB=1 _wr_reg(0x0001,0x6B3F); delay(5); // 0x6B3F Mux=320, BGR, RL=1, TB=1 // _wr_reg(0x0001,0x293F); delay(5); // 0x293f Mux=320, BGR, RL=0, TB=0 _wr_reg(0x0002,0x0600); delay(5); // Driver AC mode _wr_reg(0x0010,0x0000); delay(5); // Exit Sleep _wr_reg(0x0011,0x6078); delay(5); // Entry mode 0x6078 = 65k colors, Hor and Vert Addr Incr, AM=1 vert writing dir // _wr_reg(0x0011,0x4030); delay(5); // Entry mode 0x4030 = 262k colors, Hor and Vert Addr Incr. AM=0 hor writing dir _wr_reg(0x0005,0x0000); delay(5); // Compare Regs (default) _wr_reg(0x0006,0x0000); delay(5); _wr_reg(0x0016,0xEF1C); delay(5); // Hor Porch (default) _wr_reg(0x0017,0x0003); delay(5); // Ver Porch (default 0103) _wr_reg(0x0007,0x0233); delay(5); //0x0233 _wr_reg(0x000B,0x0000); delay(5); // Frame cycle control default 5308) _wr_reg(0x000F,0x0000); delay(5); // Gate scan start position _wr_reg(0x0041,0x0000); delay(5); // Vert Scroll control _wr_reg(0x0042,0x0000); delay(5); _wr_reg(0x0048,0x0000); delay(5); // First screen pos (default) _wr_reg(0x0049,0x013F); delay(5); _wr_reg(0x004A,0x0000); delay(5); // Second screen pos _wr_reg(0x004B,0x0000); delay(5); _wr_reg(0x0044,0xEF00); delay(5); // Hor addr pos _wr_reg(0x0045,0x0000); delay(5); // Vert Addr pos _wr_reg(0x0046,0x013F); delay(5); _wr_reg(0x0030,0x0707); delay(5); // Gamma _wr_reg(0x0031,0x0204); delay(5); _wr_reg(0x0032,0x0204); delay(5); _wr_reg(0x0033,0x0502); delay(5); _wr_reg(0x0034,0x0507); delay(5); _wr_reg(0x0035,0x0204); delay(5); _wr_reg(0x0036,0x0204); delay(5); _wr_reg(0x0037,0x0502); delay(5); _wr_reg(0x003A,0x0302); delay(5); _wr_reg(0x003B,0x0302); delay(5); _wr_reg(0x0023,0x0000); delay(5); // Write data mask (default) _wr_reg(0x0024,0x0000); delay(5); _wr_reg(0x0025,0x8000); delay(5); // Frame freq 65 Hz _wr_reg(0x004e,0); // Start x _wr_reg(0x004f,0); // Start y #endif break; } case SSD1298_ID: { #ifndef DISABLE_SSD1298_ID _wr_reg(0x0028,0x0006); _wr_reg(0x0000,0x0001); _wr_reg(0x0003,0xaea4); /* power control 1---line frequency and VHG,VGL voltage */ _wr_reg(0x000c,0x0004); /* power control 2---VCIX2 output voltage */ _wr_reg(0x000d,0x000c); /* power control 3---Vlcd63 voltage */ _wr_reg(0x000e,0x2800); /* power control 4---VCOMA voltage VCOML=VCOMH*0.9475-VCOMA */ _wr_reg(0x001e,0x00b5); /* POWER CONTROL 5---VCOMH voltage */ _wr_reg(0x0001,0x3b3f); _wr_reg(0x0002,0x0600); _wr_reg(0x0010,0x0000); _wr_reg(0x0011,0x6830); _wr_reg(0x0005,0x0000); _wr_reg(0x0006,0x0000); _wr_reg(0x0016,0xef1c); _wr_reg(0x0007,0x0033); /* Display control 1 */ /* when GON=1 and DTE=0,all gate outputs become VGL */ /* when GON=1 and DTE=0,all gate outputs become VGH */ /* non-selected gate wires become VGL */ _wr_reg(0x000b,0x0000); _wr_reg(0x000f,0x0000); _wr_reg(0x0041,0x0000); _wr_reg(0x0042,0x0000); _wr_reg(0x0048,0x0000); _wr_reg(0x0049,0x013f); _wr_reg(0x004a,0x0000); _wr_reg(0x004b,0x0000); _wr_reg(0x0044,0xef00); /* Horizontal RAM start and end address */ _wr_reg(0x0045,0x0000); /* Vretical RAM start address */ _wr_reg(0x0046,0x013f); /* Vretical RAM end address */ _wr_reg(0x004e,0x0000); /* set GDDRAM x address counter */ _wr_reg(0x004f,0x0000); /* set GDDRAM y address counter */ /* y control */ _wr_reg(0x0030,0x0707); _wr_reg(0x0031,0x0202); _wr_reg(0x0032,0x0204); _wr_reg(0x0033,0x0502); _wr_reg(0x0034,0x0507); _wr_reg(0x0035,0x0204); _wr_reg(0x0036,0x0204); _wr_reg(0x0037,0x0502); _wr_reg(0x003a,0x0302); _wr_reg(0x003b,0x0302); _wr_reg(0x0023,0x0000); _wr_reg(0x0024,0x0000); _wr_reg(0x0025,0x8000); _wr_reg(0x0026,0x7000); _wr_reg(0x0020,0xb0eb); _wr_reg(0x0027,0x007c); #endif break; } case SSD2119_ID: { #ifndef DISABLE_SSD2119_ID /* POWER ON & RESET DISPLAY OFF */ _wr_reg(0x28,0x0006); _wr_reg(0x00,0x0001); _wr_reg(0x10,0x0000); _wr_reg(0x01,0x72ef); _wr_reg(0x02,0x0600); _wr_reg(0x03,0x6a38); _wr_reg(0x11,0x6874); _wr_reg(0x0f,0x0000); /* RAM WRITE DATA MASK */ _wr_reg(0x0b,0x5308); /* RAM WRITE DATA MASK */ _wr_reg(0x0c,0x0003); _wr_reg(0x0d,0x000a); _wr_reg(0x0e,0x2e00); _wr_reg(0x1e,0x00be); _wr_reg(0x25,0x8000); _wr_reg(0x26,0x7800); _wr_reg(0x27,0x0078); _wr_reg(0x4e,0x0000); _wr_reg(0x4f,0x0000); _wr_reg(0x12,0x08d9); /* Adjust the Gamma Curve */ _wr_reg(0x30,0x0000); _wr_reg(0x31,0x0104); _wr_reg(0x32,0x0100); _wr_reg(0x33,0x0305); _wr_reg(0x34,0x0505); _wr_reg(0x35,0x0305); _wr_reg(0x36,0x0707); _wr_reg(0x37,0x0300); _wr_reg(0x3a,0x1200); _wr_reg(0x3b,0x0800); _wr_reg(0x07,0x0033); #endif break; } #if(0) // Note: unprintable char hidden as space and as nl !!! case R61505U_ID1: case R61505U_ID2: { #ifndef DISABLE_R61505U /* second release on 3/5 ,luminance is acceptable,water wave appear during camera preview */ _wr_reg(0x0007,0x0000); delay(50); /* delay 50 ms */ _wr_reg(0x0012,0x011C); /* why need to set several times? */ _wr_reg(0x00A4,0x0001); /* NVM */ _wr_reg(0x0008,0x000F); _wr_reg(0x000A,0x0008); _wr_reg(0x000D,0x0008); /* GAMMA CONTROL */ _wr_reg(0x0030,0x0707); _wr_reg(0x0031,0x0007); _wr_reg(0x0032,0x0603); _wr_reg(0x0033,0x0700); _wr_reg(0x0034,0x0202); _wr_reg(0x0035,0x0002); _wr_reg(0x0036,0x1F0F); _wr_reg(0x0037,0x0707); _wr_reg(0x0038,0x0000); _wr_reg(0x0039,0x0000); _wr_reg(0x003A,0x0707); _wr_reg(0x003B,0x0000); _wr_reg(0x003C,0x0007); _wr_reg(0x003D,0x0000); delay(50); /* delay 50 ms */ _wr_reg(0x0007,0x0001); _wr_reg(0x0017,0x0001); /* Power supply startup enable */ delay(50); /* delay 50 ms */ /* power control */ _wr_reg(0x0010,0x17A0); _wr_reg(0x0011,0x0217); /* reference voltage VC[2:0] Vciout = 1.00*Vcivl */ _wr_reg(0x0012,0x011E); /* Vreg1out = Vcilvl*1.80 is it the same as Vgama1out ? */ _wr_reg(0x0013,0x0F00); /* VDV[4:0]-->VCOM Amplitude VcomL = VcomH - Vcom Ampl */ _wr_reg(0x002A,0x0000); _wr_reg(0x0029,0x000A); /* Vcomh = VCM1[4:0]*Vreg1out gate source voltage?? */ _wr_reg(0x0012,0x013E); /* power supply on */ /* Coordinates Control */ _wr_reg(0x0050,0x0000); _wr_reg(0x0051,0x00EF); _wr_reg(0x0052,0x0000); _wr_reg(0x0053,0x013F); /* Pannel Image Control */ _wr_reg(0x0060,0x2700); _wr_reg(0x0061,0x0001); _wr_reg(0x006A,0x0000); _wr_reg(0x0080,0x0000); /* Partial Image Control */ _wr_reg(0x0081,0x0000); _wr_reg(0x0082,0x0000); _wr_reg(0x0083,0x0000); _wr_reg(0x0084,0x0000); _wr_reg(0x0085,0x0000); /* Panel Interface Control */ _wr_reg(0x0090,0x0013); /* frenqucy */ _wr_reg(0x0092,0x0300); _wr_reg(0x0093,0x0005); _wr_reg(0x0095,0x0000); _wr_reg(0x0097,0x0000); _wr_reg(0x0098,0x0000); _wr_reg(0x0001,0x0100); _wr_reg(0x0002,0x0700); _wr_reg(0x0003,0x1030); _wr_reg(0x0004,0x0000); _wr_reg(0x000C,0x0000); _wr_reg(0x000F,0x0000); _wr_reg(0x0020,0x0000); _wr_reg(0x0021,0x0000); _wr_reg(0x0007,0x0021); delay(200); /* delay 200 ms */ _wr_reg(0x0007,0x0061); delay(200); /* delay 200 ms */ _wr_reg(0x0007,0x0173); #endif break; } case SPFD5408B_ID: { #ifndef DISABLE_SPFD5408B _wr_reg(0x0001,0x0100); /* Driver Output Contral Register */ _wr_reg(0x0002,0x0700); /* LCD Driving Waveform Contral */ _wr_reg(0x0003,0x1030); /* Entry ModeÉèÖà */ _wr_reg(0x0004,0x0000); /* Scalling Control register */ _wr_reg(0x0008,0x0207); /* Display Control 2 */ _wr_reg(0x0009,0x0000); /* Display Control 3 */ _wr_reg(0x000A,0x0000); /* Frame Cycle Control */ _wr_reg(0x000C,0x0000); /* External Display Interface Control 1 */ _wr_reg(0x000D,0x0000); /* Frame Maker Position */ _wr_reg(0x000F,0x0000); /* External Display Interface Control 2 */ delay(50); _wr_reg(0x0007,0x0101); /* Display Control */ delay(50); _wr_reg(0x0010,0x16B0); /* Power Control 1 */ _wr_reg(0x0011,0x0001); /* Power Control 2 */ _wr_reg(0x0017,0x0001); /* Power Control 3 */ _wr_reg(0x0012,0x0138); /* Power Control 4 */ _wr_reg(0x0013,0x0800); /* Power Control 5 */ _wr_reg(0x0029,0x0009); /* NVM read data 2 */ _wr_reg(0x002a,0x0009); /* NVM read data 3 */ _wr_reg(0x00a4,0x0000); _wr_reg(0x0050,0x0000); /* ÉèÖòÙ×÷´°¿ÚµÄXÖῪʼÁÐ */ _wr_reg(0x0051,0x00EF); /* ÉèÖòÙ×÷´°¿ÚµÄXÖá½áÊøÁÐ */ _wr_reg(0x0052,0x0000); /* ÉèÖòÙ×÷´°¿ÚµÄYÖῪʼÐÐ */ _wr_reg(0x0053,0x013F); /* ÉèÖòÙ×÷´°¿ÚµÄYÖá½áÊøÐÐ */ _wr_reg(0x0060,0x2700); /* Driver Output Control */ /* ÉèÖÃÆÁÄ»µÄµãÊýÒÔ¼°É¨ÃèµÄÆðʼÐÐ */ _wr_reg(0x0061,0x0003); /* Driver Output Control */ _wr_reg(0x006A,0x0000); /* Vertical Scroll Control */ _wr_reg(0x0080,0x0000); /* Display Position ¨C Partial Display 1 */ _wr_reg(0x0081,0x0000); /* RAM Address Start ¨C Partial Display 1 */ _wr_reg(0x0082,0x0000); /* RAM address End - Partial Display 1 */ _wr_reg(0x0083,0x0000); /* Display Position ¨C Partial Display 2 */ _wr_reg(0x0084,0x0000); /* RAM Address Start ¨C Partial Display 2 */ _wr_reg(0x0085,0x0000); /* RAM address End ¨C Partail Display2 */ _wr_reg(0x0090,0x0013); /* Frame Cycle Control */ _wr_reg(0x0092,0x0000); /* Panel Interface Control 2 */ _wr_reg(0x0093,0x0003); /* Panel Interface control 3 */ _wr_reg(0x0095,0x0110); /* Frame Cycle Control */ _wr_reg(0x0007,0x0173); #endif break; } case LGDP4531_ID: { #ifndef DISABLE_LGDP4531 /* Setup display */ _wr_reg(0x00,0x0001); _wr_reg(0x10,0x0628); _wr_reg(0x12,0x0006); _wr_reg(0x13,0x0A32); _wr_reg(0x11,0x0040); _wr_reg(0x15,0x0050); _wr_reg(0x12,0x0016); delay(50); _wr_reg(0x10,0x5660); delay(50); _wr_reg(0x13,0x2A4E); _wr_reg(0x01,0x0100); _wr_reg(0x02,0x0300); _wr_reg(0x03,0x1030); _wr_reg(0x08,0x0202); _wr_reg(0x0A,0x0000); _wr_reg(0x30,0x0000); _wr_reg(0x31,0x0402); _wr_reg(0x32,0x0106); _wr_reg(0x33,0x0700); _wr_reg(0x34,0x0104); _wr_reg(0x35,0x0301); _wr_reg(0x36,0x0707); _wr_reg(0x37,0x0305); _wr_reg(0x38,0x0208); _wr_reg(0x39,0x0F0B); delay(50); _wr_reg(0x41,0x0002); _wr_reg(0x60,0x2700); _wr_reg(0x61,0x0001); _wr_reg(0x90,0x0119); _wr_reg(0x92,0x010A); _wr_reg(0x93,0x0004); _wr_reg(0xA0,0x0100); delay(50); _wr_reg(0x07,0x0133); delay(50); _wr_reg(0xA0,0x0000); #endif break; } case LGDP4535_ID: { #ifndef DISABLE_LGDP4535 _wr_reg(0x15, 0x0030); /* Set the internal vcore voltage */ _wr_reg(0x9A, 0x0010); /* Start internal OSC */ _wr_reg(0x11, 0x0020); /* set SS and SM bit */ _wr_reg(0x10, 0x3428); /* set 1 line inversion */ _wr_reg(0x12, 0x0002); /* set GRAM write direction and BGR=1 */ _wr_reg(0x13, 0x1038); /* Resize register */ delay(40); _wr_reg(0x12, 0x0012); /* set the back porch and front porch */ delay(40); _wr_reg(0x10, 0x3420); /* set non-display area refresh cycle ISC[3:0] */ _wr_reg(0x13, 0x3045); /* FMARK function */ delay(70); _wr_reg(0x30, 0x0000); /* RGB interface setting */ _wr_reg(0x31, 0x0402); /* Frame marker Position */ _wr_reg(0x32, 0x0307); /* RGB interface polarity */ _wr_reg(0x33, 0x0304); /* SAP, BT[3:0], AP, DSTB, SLP, STB */ _wr_reg(0x34, 0x0004); /* DC1[2:0], DC0[2:0], VC[2:0] */ _wr_reg(0x35, 0x0401); /* VREG1OUT voltage */ _wr_reg(0x36, 0x0707); /* VDV[4:0] for VCOM amplitude */ _wr_reg(0x37, 0x0305); /* SAP, BT[3:0], AP, DSTB, SLP, STB */ _wr_reg(0x38, 0x0610); /* DC1[2:0], DC0[2:0], VC[2:0] */ _wr_reg(0x39, 0x0610); /* VREG1OUT voltage */ _wr_reg(0x01, 0x0100); /* VDV[4:0] for VCOM amplitude */ _wr_reg(0x02, 0x0300); /* VCM[4:0] for VCOMH */ _wr_reg(0x03, 0x1030); /* GRAM horizontal Address */ _wr_reg(0x08, 0x0808); /* GRAM Vertical Address */ _wr_reg(0x0A, 0x0008); _wr_reg(0x60, 0x2700); /* Gate Scan Line */ _wr_reg(0x61, 0x0001); /* NDL,VLE, REV */ _wr_reg(0x90, 0x013E); _wr_reg(0x92, 0x0100); _wr_reg(0x93, 0x0100); _wr_reg(0xA0, 0x3000); _wr_reg(0xA3, 0x0010); _wr_reg(0x07, 0x0001); _wr_reg(0x07, 0x0021); _wr_reg(0x07, 0x0023); _wr_reg(0x07, 0x0033); _wr_reg(0x07, 0x0133); #endif break; } case HX8347D_ID: { #ifndef DISABLE_HX8347D /* Start Initial Sequence */ _wr_reg(0xEA,0x00); _wr_reg(0xEB,0x20); _wr_reg(0xEC,0x0C); _wr_reg(0xED,0xC4); _wr_reg(0xE8,0x40); _wr_reg(0xE9,0x38); _wr_reg(0xF1,0x01); _wr_reg(0xF2,0x10); _wr_reg(0x27,0xA3); /* GAMMA SETTING */ _wr_reg(0x40,0x01); _wr_reg(0x41,0x00); _wr_reg(0x42,0x00); _wr_reg(0x43,0x10); _wr_reg(0x44,0x0E); _wr_reg(0x45,0x24); _wr_reg(0x46,0x04); _wr_reg(0x47,0x50); _wr_reg(0x48,0x02); _wr_reg(0x49,0x13); _wr_reg(0x4A,0x19); _wr_reg(0x4B,0x19); _wr_reg(0x4C,0x16); _wr_reg(0x50,0x1B); _wr_reg(0x51,0x31); _wr_reg(0x52,0x2F); _wr_reg(0x53,0x3F); _wr_reg(0x54,0x3F); _wr_reg(0x55,0x3E); _wr_reg(0x56,0x2F); _wr_reg(0x57,0x7B); _wr_reg(0x58,0x09); _wr_reg(0x59,0x06); _wr_reg(0x5A,0x06); _wr_reg(0x5B,0x0C); _wr_reg(0x5C,0x1D); _wr_reg(0x5D,0xCC); /* Power Voltage Setting */ _wr_reg(0x1B,0x18); _wr_reg(0x1A,0x01); _wr_reg(0x24,0x15); _wr_reg(0x25,0x50); _wr_reg(0x23,0x8B); _wr_reg(0x18,0x36); _wr_reg(0x19,0x01); _wr_reg(0x01,0x00); _wr_reg(0x1F,0x88); delay(50); _wr_reg(0x1F,0x80); delay(50); _wr_reg(0x1F,0x90); delay(50); _wr_reg(0x1F,0xD0); delay(50); _wr_reg(0x17,0x05); _wr_reg(0x36,0x00); _wr_reg(0x28,0x38); delay(50); _wr_reg(0x28,0x3C); #endif break; } case ST7781_ID: { #ifndef DISABLE_ST7781 /* Start Initial Sequence */ _wr_reg(0x00FF,0x0001); _wr_reg(0x00F3,0x0008); _wr_reg(0x0001,0x0100); _wr_reg(0x0002,0x0700); _wr_reg(0x0003,0x1030); _wr_reg(0x0008,0x0302); _wr_reg(0x0008,0x0207); _wr_reg(0x0009,0x0000); _wr_reg(0x000A,0x0000); _wr_reg(0x0010,0x0000); _wr_reg(0x0011,0x0005); _wr_reg(0x0012,0x0000); _wr_reg(0x0013,0x0000); delay(50); _wr_reg(0x0010,0x12B0); delay(50); _wr_reg(0x0011,0x0007); delay(50); _wr_reg(0x0012,0x008B); delay(50); _wr_reg(0x0013,0x1700); delay(50); _wr_reg(0x0029,0x0022); _wr_reg(0x0030,0x0000); _wr_reg(0x0031,0x0707); _wr_reg(0x0032,0x0505); _wr_reg(0x0035,0x0107); _wr_reg(0x0036,0x0008); _wr_reg(0x0037,0x0000); _wr_reg(0x0038,0x0202); _wr_reg(0x0039,0x0106); _wr_reg(0x003C,0x0202); _wr_reg(0x003D,0x0408); delay(50); _wr_reg(0x0050,0x0000); _wr_reg(0x0051,0x00EF); _wr_reg(0x0052,0x0000); _wr_reg(0x0053,0x013F); _wr_reg(0x0060,0xA700); _wr_reg(0x0061,0x0001); _wr_reg(0x0090,0x0033); _wr_reg(0x002B,0x000B); _wr_reg(0x0007,0x0133); #endif break; } #endif default: { /* special ID */ _driverCode = _rd_reg(0x67); if (_driverCode == HX8347A_ID) { #ifndef DISABLE_HX8347A _wr_reg(0x0042,0x0008); /* Gamma setting */ _wr_reg(0x0046,0x00B4); _wr_reg(0x0047,0x0043); _wr_reg(0x0048,0x0013); _wr_reg(0x0049,0x0047); _wr_reg(0x004A,0x0014); _wr_reg(0x004B,0x0036); _wr_reg(0x004C,0x0003); _wr_reg(0x004D,0x0046); _wr_reg(0x004E,0x0005); _wr_reg(0x004F,0x0010); _wr_reg(0x0050,0x0008); _wr_reg(0x0051,0x000a); /* Window Setting */ _wr_reg(0x0002,0x0000); _wr_reg(0x0003,0x0000); _wr_reg(0x0004,0x0000); _wr_reg(0x0005,0x00EF); _wr_reg(0x0006,0x0000); _wr_reg(0x0007,0x0000); _wr_reg(0x0008,0x0001); _wr_reg(0x0009,0x003F); delay(10); _wr_reg(0x0001,0x0006); _wr_reg(0x0016,0x00C8); _wr_reg(0x0023,0x0095); _wr_reg(0x0024,0x0095); _wr_reg(0x0025,0x00FF); _wr_reg(0x0027,0x0002); _wr_reg(0x0028,0x0002); _wr_reg(0x0029,0x0002); _wr_reg(0x002A,0x0002); _wr_reg(0x002C,0x0002); _wr_reg(0x002D,0x0002); _wr_reg(0x003A,0x0001); _wr_reg(0x003B,0x0001); _wr_reg(0x003C,0x00F0); _wr_reg(0x003D,0x0000); delay(20); _wr_reg(0x0035,0x0038); _wr_reg(0x0036,0x0078); _wr_reg(0x003E,0x0038); _wr_reg(0x0040,0x000F); _wr_reg(0x0041,0x00F0); _wr_reg(0x0038,0x0000); /* Power Setting */ _wr_reg(0x0019,0x0049); _wr_reg(0x0093,0x000A); delay(10); _wr_reg(0x0020,0x0020); _wr_reg(0x001D,0x0003); _wr_reg(0x001E,0x0000); _wr_reg(0x001F,0x0009); _wr_reg(0x0044,0x0053); _wr_reg(0x0045,0x0010); delay(10); _wr_reg(0x001C,0x0004); delay(20); _wr_reg(0x0043,0x0080); delay(5); _wr_reg(0x001B,0x000a); delay(40); _wr_reg(0x001B,0x0012); delay(40); /* Display On Setting */ _wr_reg(0x0090,0x007F); _wr_reg(0x0026,0x0004); delay(40); _wr_reg(0x0026,0x0024); _wr_reg(0x0026,0x002C); delay(40); _wr_reg(0x0070,0x0008); _wr_reg(0x0026,0x003C); _wr_reg(0x0057,0x0002); _wr_reg(0x0055,0x0000); _wr_reg(0x0057,0x0000); #endif } // if break; } // default case } // end switch _textColor = Black; _backColor = White; } int GLCD::getDisplayXSize() { return WIDTH; } int GLCD::getDisplayYSize() { return HEIGHT; } int GLCD::getRows() { return ROWS; } int GLCD::getCols() { return COLS; } /******************************************************************************* * Get LCD Controller ID * * Parameter: * * Return: short Controller ID * *******************************************************************************/ uint16_t GLCD::getDriverCode () { return (_driverCode); } /******************************************************************************* * Set draw window region to whole screen * * Parameter: * * Return: * *******************************************************************************/ void GLCD::setWindowMax (void) { if(_driverCode==SSD1289_ID) { _wr_reg(0x44, 0); /* Horizontal GRAM Start Address */ _wr_reg(0x44, 0 |((HEIGHT-1)<<8)); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x45, 0); /* Vertical GRAM Start Address */ _wr_reg(0x46, WIDTH-1); /* Vertical GRAM End Address (-1) */ } else { _wr_reg(0x50, 0); /* Horizontal GRAM Start Address */ _wr_reg(0x51, HEIGHT-1); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x52, 0); /* Vertical GRAM Start Address */ _wr_reg(0x53, WIDTH-1); /* Vertical GRAM End Address (-1) */ } } /******************************************************************************* * Set draw window region * * Parameter: * * Return: * *******************************************************************************/ void GLCD::setWindow (int x1, int y1, int x2, int y2) { if(_driverCode==SSD1289_ID) { // _wr_reg(0x44, x1); /* Horizontal GRAM Start Address */ // _wr_reg(0x44, 0 | (x2<<8)); /* Horizontal GRAM End Address */ //Note x,y flipped for landscape _wr_reg(0x44, ((y2 & 0xFF) <<8) | (y1 & 0xFF)); /* Horizontal GRAM End Address | Start Address */ _wr_reg(0x45, x1); /* Vertical GRAM Start Address */ _wr_reg(0x46, x2); /* Vertical GRAM End Address */ _wr_reg(0x4e, y1); // Init x,y to start of window _wr_reg(0x4f, x1); } else { _wr_reg(0x50, x1); /* Horizontal GRAM Start Address */ _wr_reg(0x51, x2); /* Horizontal GRAM End Address */ _wr_reg(0x52, y1); /* Vertical GRAM Start Address */ _wr_reg(0x53, y2); /* Vertical GRAM End Address */ } } /******************************************************************************* * Draw a pixel in foreground color * * Parameter: x: horizontal position * * y: vertical position * * Return: * *******************************************************************************/ void GLCD::drawPixel (unsigned int x, unsigned int y) { // Set Cursor if(_driverCode==SSD1289_ID) { _wr_reg(0x4e, y); // _wr_reg(0x4f, WIDTH-1-x); _wr_reg(0x4f, x); } else { _wr_reg(0x20, y); // _wr_reg(0x21, WIDTH-1-x); _wr_reg(0x21, x); } LCD_CS(0) _wr_cmd(0x22); _wr_dat(_textColor); LCD_CS(1) } void GLCD::drawPixel (unsigned int x, unsigned int y, uint16_t color) { // Set Cursor if(_driverCode==SSD1289_ID) { _wr_reg(0x4e, y); // _wr_reg(0x4f, WIDTH-1-x); _wr_reg(0x4f, x); } else { _wr_reg(0x20, y); _wr_reg(0x21, WIDTH-1-x); } LCD_CS(0) _wr_cmd(0x22); _wr_dat(color); LCD_CS(1) } void GLCD::drawPixel (unsigned int x, unsigned int y, uint8_t r, uint8_t g, uint8_t b) { // uint16_t color = ((r & 0xF8)<<8) | ((g & 0xFC)<<3) | ((b & 0xF8)>>3); // rrrrrggggggbbbbb uint16_t color = RGB24toRGB16(r,g,b); // Set Cursor if(_driverCode==SSD1289_ID) { _wr_reg(0x4e, y); // _wr_reg(0x4f, WIDTH-1-x); _wr_reg(0x4f, x); } else { _wr_reg(0x20, y); // _wr_reg(0x21, WIDTH-1-x); _wr_reg(0x21, x); } LCD_CS(0) _wr_cmd(0x22); _wr_dat(color); LCD_CS(1) } /******************************************************************************* * Set foreground color * * Parameter: color: foreground color * * Return: * *******************************************************************************/ void GLCD::setColor (uint16_t color) { _textColor = color; } void GLCD::setColor (uint8_t r, uint8_t g, uint8_t b) { uint16_t color = RGB24toRGB16(r,g,b); _textColor = color; } /******************************************************************************* * Set background color * * Parameter: color: background color * * Return: * *******************************************************************************/ void GLCD::setBackColor (uint16_t color) { _backColor = color; } void GLCD::setBackColor (uint8_t r, uint8_t g, uint8_t b) { uint16_t color = RGB24toRGB16(r,g,b); _backColor = color; } /******************************************************************************* * Clear display * * Parameter: color: display clearing color * * Return: * *******************************************************************************/ void GLCD::cls (uint16_t color) { unsigned int i; setWindowMax(); // Set Cursor if (_driverCode==SSD1289_ID) { _wr_reg(0x4e, 0); _wr_reg(0x4f, 0); } else { _wr_reg(0x20, 0); _wr_reg(0x21, 0); } LCD_CS(0) _wr_cmd(0x22); _wr_dat_start(); for(i = 0; i < (WIDTH*HEIGHT); i++) _wr_dat_only(color); _wr_dat_stop(); _ln = 0; _col = 0; } /******************************************************************************* * Draw character on given screen position * * Parameter: x: horizontal position * * y: vertical position * * c: pointer to character bitmap * * Return: * *******************************************************************************/ void GLCD::DrawChar (unsigned int x, unsigned int y, uint16_t *c) { int idx = 0, i, j; //wh x = WIDTH-x-CHAR_W; if(_driverCode==SSD1289_ID) { //wh _wr_reg(0x44, y); /* Horizontal GRAM Start Address */ _wr_reg(0x44, y |((y+CHAR_H-1)<<8)); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x45, x); /* Vertical GRAM Start Address */ _wr_reg(0x46, x+CHAR_W-1); /* Vertical GRAM End Address (-1) */ _wr_reg(0x4e, y); _wr_reg(0x4f, x); } else { _wr_reg(0x50, y); /* Horizontal GRAM Start Address */ _wr_reg(0x51, y+CHAR_H-1); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x52, x); /* Vertical GRAM Start Address */ _wr_reg(0x53, x+CHAR_W-1); /* Vertical GRAM End Address (-1) */ _wr_reg(0x20, y); _wr_reg(0x21, x); } LCD_CS(0) _wr_cmd(0x22); _wr_dat_start(); for (j = 0; j < CHAR_H; j++) { //wh for (i = CHAR_W-1; i >= 0; i--) { for (i = 0; i < CHAR_W; i++) { if((c[idx] & (1 << i)) == 0x00) { _wr_dat_only(_backColor); } else { _wr_dat_only(_textColor); } } c++; } _wr_dat_stop(); } /******************************************************************************* * Display character on given line * * Parameter: ln: line number * * col: column number * * c: ascii character * * Return: * *******************************************************************************/ void GLCD::DisplayChar (uint16_t ln, uint16_t col, uint8_t c) { c -= 32; // 32 is ASCII Space // x = column, y = line DrawChar(col * CHAR_W, ln * CHAR_H, (uint16_t *)&Font_24x16[c * CHAR_H]); } /******************************************************************************* * Disply string on given line * * Parameter: ln: line number * * col: column number * * s: pointer to string * * Return: * *******************************************************************************/ void GLCD::DisplayString (uint16_t ln, uint16_t col, uint8_t *s) { setWindowMax(); while (*s) { DisplayChar(ln, col++, *s++); } } /******************************************************************************* * Clear given line * * Parameter: ln: line number * * Return: * *******************************************************************************/ void GLCD::ClearLn (uint16_t ln) { setWindowMax(); DisplayString(ln, 0, (uint8_t*) " "); } //SSD1289 //static void lcd_SetCursor(unsigned int x,unsigned int y) //{ // write_reg(0x004e,x); /* 0-239 */ // write_reg(0x004f,y); /* 0-319 */ //} /** @brief Write single character to the display using the fontable * @brief Start at current cursor location * @param int value character to write */ int GLCD::_putc(int value){ if (value == '\n') { //No Character to write //Update Cursor _col = 0; _ln++; if (_ln >= ROWS) { _ln = 0; } } else { // Character to write value -= 32; // 32 is ASCII Space // x = column, y = line DrawChar(_col * CHAR_W, _ln * CHAR_H, (uint16_t *)&Font_24x16[value * CHAR_H]); //Update Cursor _col++; if (_col >= COLS) { _col = 0; _ln++; if (_ln >= ROWS) { _ln = 0; } } } //if char to write return value; } int GLCD::_getc() { return -1; } void GLCD::drawHLine(int x, int y, int l) { // char ch, cl; // ch=((fcolorr&248)|fcolorg>>5); // cl=((fcolorg&28)<<3|fcolorb>>3); // cbi(P_CS, B_CS); setWindow (x, y, x+l, y); // for (int i=0; i<l+1; i++) // { // LCD_Write_DATA(ch, cl); // } LCD_CS(0) _wr_cmd(0x22); _wr_dat_start(); for (int i=0; i<l; i++) _wr_dat_only(_textColor); _wr_dat_stop(); // sbi(P_CS, B_CS); // clrXY(); setWindowMax(); } void GLCD::drawVLine(int x, int y, int l) { // char ch, cl; // ch=((fcolorr&248)|fcolorg>>5); // cl=((fcolorg&28)<<3|fcolorb>>3); // cbi(P_CS, B_CS); setWindow(x, y, x, y+l); // for (int i=0; i<l; i++) // { // GLCD::_wr_dat(ch, cl); // } LCD_CS(0) _wr_cmd(0x22); _wr_dat_start(); for (int i=0; i<l; i++) _wr_dat_only(_textColor); _wr_dat_stop(); // sbi(P_CS, B_CS); // clrXY(); setWindowMax(); } void GLCD::drawRect(int x1, int y1, int x2, int y2) { //int tmp; if (x1>x2) { swap(int, x1, x2); } if (y1>y2) { swap(int, y1, y2); } drawHLine(x1, y1, x2-x1); drawHLine(x1, y2, x2-x1); drawVLine(x1, y1, y2-y1); drawVLine(x2, y1, y2-y1); } /// Replace by faster Bresenham int void GLCD::drawLine(int x1, int y1, int x2, int y2) { // int tmp; double delta, tx, ty; // double m, b, dx, dy; // char ch, cl; if (((x2-x1)<0)) { swap(int, x1, x2); swap(int, y1, y2); } if (((y2-y1)<0)) { swap(int, x1, x2); swap(int, y1, y2); } if (y1==y2) { if (x1>x2) { swap(int, x1, x2); } drawHLine(x1, y1, x2-x1); } else if (x1==x2) { if (y1>y2) { swap(int, y1, y2); } drawVLine(x1, y1, y2-y1); } else if (abs(x2-x1)>abs(y2-y1)) { delta=(double(y2-y1)/double(x2-x1)); ty=double(y1); if (x1>x2) { for (int i=x1; i>=x2; i--) { drawPixel(i, int(ty+0.5)); ty=ty-delta; } } else { for (int i=x1; i<=x2; i++) { drawPixel(i, int(ty+0.5)); ty=ty+delta; } } } else { delta=(float(x2-x1)/float(y2-y1)); tx=float(x1); if (y1>y2) { for (int i=y2+1; i>y1; i--) { drawPixel(int(tx+0.5), i); tx=tx+delta; } } else { for (int i=y1; i<y2+1; i++) { drawPixel(int(tx+0.5), i); tx=tx+delta; } } } setWindowMax(); } void GLCD::drawRoundRect(int x1, int y1, int x2, int y2) { // int tmp; if (x1>x2) { swap(int, x1, x2); } if (y1>y2) { swap(int, y1, y2); } if ((x2-x1)>4 && (y2-y1)>4) { drawPixel(x1+1,y1+1); drawPixel(x2-1,y1+1); drawPixel(x1+1,y2-1); drawPixel(x2-1,y2-1); drawHLine(x1+2, y1, x2-x1-4); drawHLine(x1+2, y2, x2-x1-4); drawVLine(x1, y1+2, y2-y1-4); drawVLine(x2, y1+2, y2-y1-4); } } void GLCD::fillRect(int x1, int y1, int x2, int y2) { // int tmp; if (x1>x2) { swap(int, x1, x2); } if (y1>y2) { swap(int, y1, y2); } // if (orient==PORTRAIT) // { // for (int i=0; i<((y2-y1)/2)+1; i++) // { // drawHLine(x1, y1+i, x2-x1); // drawHLine(x1, y2-i, x2-x1); // } // } // else // { for (int i=0; i<((x2-x1)/2)+1; i++) { drawVLine(x1+i, y1, y2-y1); drawVLine(x2-i, y1, y2-y1); } // } } void GLCD::fillRoundRect(int x1, int y1, int x2, int y2) { // int tmp; if (x1>x2) { swap(int, x1, x2); } if (y1>y2) { swap(int, y1, y2); } if ((x2-x1)>4 && (y2-y1)>4) { for (int i=0; i<((y2-y1)/2)+1; i++) { switch(i) { case 0: drawHLine(x1+2, y1+i, x2-x1-4); drawHLine(x1+2, y2-i, x2-x1-4); break; case 1: drawHLine(x1+1, y1+i, x2-x1-2); drawHLine(x1+1, y2-i, x2-x1-2); break; default: drawHLine(x1, y1+i, x2-x1); drawHLine(x1, y2-i, x2-x1); } } } } void GLCD::drawCircle(int x, int y, int radius) { int f = 1 - radius; int ddF_x = 1; int ddF_y = -2 * radius; int x1 = 0; int y1 = radius; // char ch, cl; // ch=((fcolorr&248)|fcolorg>>5); // cl=((fcolorg&28)<<3|fcolorb>>3); // cbi(P_CS, B_CS); drawPixel(x, y + radius); drawPixel(x, y - radius); drawPixel(x + radius, y); drawPixel(x - radius, y); while(x1 < y1) { if(f >= 0) { y1--; ddF_y += 2; f += ddF_y; } x1++; ddF_x += 2; f += ddF_x; drawPixel(x + x1, y + y1); drawPixel(x - x1, y + y1); drawPixel(x + x1, y - y1); drawPixel(x - x1, y - y1); drawPixel(x + y1, y + x1); drawPixel(x - y1, y + x1); drawPixel(x + y1, y - x1); drawPixel(x - y1, y - x1); } // sbi(P_CS, B_CS); // clrXY(); } void GLCD::fillCircle(int x, int y, int radius) { // cbi(P_CS, B_CS); for(int y1=-radius; y1<=radius; y1++) for(int x1=-radius; x1<=radius; x1++) if(x1*x1+y1*y1 <= radius*radius) { drawPixel(x+x1, y+y1); } // sbi(P_CS, B_CS); // clrXY(); } //not yet checked void GLCD::lcdOff() { _wr_reg(0x0007, 0x0000); } void GLCD::lcdOn() { _wr_reg(0x0007, 0x0173); } void GLCD::setContrast(uint8_t c) { } /******************************************************************************* * Draw bargraph * * Parameter: x: horizontal position * * y: vertical position * * w: maximum width of bargraph (in pixels) * * val: value of active bargraph (in 1/1024) * * Return: * *******************************************************************************/ void GLCD::Bargraph (unsigned int x, unsigned int y, unsigned int w, unsigned int h, unsigned int val) { int i,j; x = WIDTH-x-w; if(_driverCode==SSD1289_ID) { _wr_reg(0x44, y); /* Horizontal GRAM Start Address */ _wr_reg(0x44, y |((y+CHAR_H-1)<<8)); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x45, x); /* Vertical GRAM Start Address */ _wr_reg(0x46, x+w-1); /* Vertical GRAM End Address (-1) */ } else { _wr_reg(0x50, y); /* Horizontal GRAM Start Address */ _wr_reg(0x51, y+CHAR_H-1); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x52, x); /* Vertical GRAM Start Address */ _wr_reg(0x53, x+w-1); /* Vertical GRAM End Address (-1) */ } val = (val * w) >> 10; /* Scale value for 24x12 characters */ if(_driverCode==SSD1289_ID) { _wr_reg(0x4e, y); _wr_reg(0x4f, x); } else { _wr_reg(0x20, y); _wr_reg(0x21, x); } LCD_CS(0) _wr_cmd(0x22); _wr_dat_start(); for (i = 0; i < h; i++) { for (j = w-1; j >= 0; j--) { if(j >= val) { _wr_dat_only(_backColor); } else { _wr_dat_only(_textColor); } } } _wr_dat_stop(); } /******************************************************************************* * Display graphical bitmap image at position x horizontally and y vertically * * (This function is optimized for 16 bits per pixel format, it has to be * * adapted for any other bits per pixel format) * * Parameter: x: horizontal position * * y: vertical position * * w: width of bitmap * * h: height of bitmap * * bitmap: address at which the bitmap data resides * * Return: * *******************************************************************************/ void GLCD::Bitmap (unsigned int x, unsigned int y, unsigned int w, unsigned int h, uint8_t *bitmap) { unsigned int i, j; uint16_t *bitmap_ptr = (uint16_t *)bitmap; x = WIDTH-x-w; if(_driverCode==SSD1289_ID) { _wr_reg(0x44, y); /* Horizontal GRAM Start Address */ _wr_reg(0x44, y |((y+h-1)<<8)); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x45, x); /* Vertical GRAM Start Address */ _wr_reg(0x46, x+w-1); /* Vertical GRAM End Address (-1) */ _wr_reg(0x4e, y); _wr_reg(0x4f, x); } else { _wr_reg(0x50, y); /* Horizontal GRAM Start Address */ _wr_reg(0x51, y+h-1); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x52, x); /* Vertical GRAM Start Address */ _wr_reg(0x53, x+w-1); /* Vertical GRAM End Address (-1) */ _wr_reg(0x20, y); _wr_reg(0x21, x); } LCD_CS(0) _wr_cmd(0x22); _wr_dat_start(); for (j = 0; j < h; j++) { bitmap_ptr += w-1; for (i = 0; i < w; i++) { _wr_dat_only(*bitmap_ptr--); } bitmap_ptr += w+1; } _wr_dat_stop(); } /******************************************************************************* * Display graphical bmp file image at position x horizontally and y vertically * * (This function is optimized for 16 bits per pixel format, it has to be * * adapted for any other bits per pixel format) * * Parameter: x: horizontal position * * y: vertical position * * w: width of bitmap * * h: height of bitmap * * bmp: address at which the bmp data resides * * Return: * *******************************************************************************/ void GLCD::Bmp (unsigned int x, unsigned int y, unsigned int w, unsigned int h, uint8_t *bmp) { unsigned int i, j; uint16_t *bitmap_ptr = (uint16_t *)bmp; //wh x = WIDTH-x-w; if(_driverCode==SSD1289_ID) { //wh _wr_reg(0x44, y); /* Horizontal GRAM Start Address */ _wr_reg(0x44, y |((y+h-1)<<8)); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x45, x); /* Vertical GRAM Start Address */ _wr_reg(0x46, x+w-1); /* Vertical GRAM End Address (-1) */ _wr_reg(0x4e, y); _wr_reg(0x4f, x); } else { _wr_reg(0x50, y); /* Horizontal GRAM Start Address */ _wr_reg(0x51, y+h-1); /* Horizontal GRAM End Address (-1) */ _wr_reg(0x52, x); /* Vertical GRAM Start Address */ _wr_reg(0x53, x+w-1); /* Vertical GRAM End Address (-1) */ _wr_reg(0x20, y); _wr_reg(0x21, x); } LCD_CS(0) _wr_cmd(0x22); _wr_dat_start(); // bitmap_ptr += (h*w)-1; // for (j = 0; j < h; j++) { // for (i = 0; i < w; i++) { // _wr_dat_only(*bitmap_ptr--); // } // } for (j = 0; j < h; j++) { for (i = 0; i < w; i++) { _wr_dat_only(*bitmap_ptr++); } } _wr_dat_stop(); } #if(0) void LCD_PolyLine(pPoint Points, uint16_t PointCount) { int16_t X = 0, Y = 0; if(PointCount < 2) { return; } while(--PointCount) { X = Points->X; Y = Points->Y; Points++; LCD_DrawUniLine(X, Y, Points->X, Points->Y); } } static void LCD_PolyLineRelativeClosed(pPoint Points, uint16_t PointCount, uint16_t Closed) { int16_t X = 0, Y = 0; pPoint First = Points; if(PointCount < 2) { return; } X = Points->X; Y = Points->Y; while(--PointCount) { Points++; LCD_DrawUniLine(X, Y, X + Points->X, Y + Points->Y); X = X + Points->X; Y = Y + Points->Y; } if(Closed) { LCD_DrawUniLine(First->X, First->Y, X, Y); } } void LCD_ClosedPolyLine(pPoint Points, uint16_t PointCount) { LCD_PolyLine(Points, PointCount); LCD_DrawUniLine(Points->X, Points->Y, (Points+PointCount-1)->X, (Points+PointCount-1)->Y); } void LCD_PolyLineRelative(pPoint Points, uint16_t PointCount) { LCD_PolyLineRelativeClosed(Points, PointCount, 0); } void LCD_ClosedPolyLineRelative(pPoint Points, uint16_t PointCount) { LCD_PolyLineRelativeClosed(Points, PointCount, 1); } void LCD_FillPolyLine(pPoint Points, uint16_t PointCount) { /* public-domain code by Darel Rex Finley, 2007 */ uint16_t nodes = 0, nodeX[MAX_POLY_CORNERS], pixelX = 0, pixelY = 0, i = 0, j = 0, swap = 0; uint16_t IMAGE_LEFT = 0, IMAGE_RIGHT = 0, IMAGE_TOP = 0, IMAGE_BOTTOM = 0; IMAGE_LEFT = IMAGE_RIGHT = Points->X; IMAGE_TOP= IMAGE_BOTTOM = Points->Y; for(i = 1; i < PointCount; i++) { pixelX = POLY_X(i); if(pixelX < IMAGE_LEFT) { IMAGE_LEFT = pixelX; } if(pixelX > IMAGE_RIGHT) { IMAGE_RIGHT = pixelX; } pixelY = POLY_Y(i); if(pixelY < IMAGE_TOP) { IMAGE_TOP = pixelY; } if(pixelY > IMAGE_BOTTOM) { IMAGE_BOTTOM = pixelY; } } LCD_SetTextColor(BackColor); /* Loop through the rows of the image. */ for (pixelY = IMAGE_TOP; pixelY < IMAGE_BOTTOM; pixelY++) { /* Build a list of nodes. */ nodes = 0; j = PointCount-1; for (i = 0; i < PointCount; i++) { if (((POLY_Y(i)<(double) pixelY) && (POLY_Y(j)>=(double) pixelY)) || \ ((POLY_Y(j)<(double) pixelY) && (POLY_Y(i)>=(double) pixelY))) { nodeX[nodes++]=(int) (POLY_X(i)+((pixelY-POLY_Y(i))*(POLY_X(j)-POLY_X(i)))/(POLY_Y(j)-POLY_Y(i))); } j = i; } /* Sort the nodes, via a simple "Bubble" sort. */ i = 0; while (i < nodes-1) { if (nodeX[i]>nodeX[i+1]) { swap = nodeX[i]; nodeX[i] = nodeX[i+1]; nodeX[i+1] = swap; if(i) { i--; } } else { i++; } } /* Fill the pixels between node pairs. */ for (i = 0; i < nodes; i+=2) { if(nodeX[i] >= IMAGE_RIGHT) { break; } if(nodeX[i+1] > IMAGE_LEFT) { if (nodeX[i] < IMAGE_LEFT) { nodeX[i]=IMAGE_LEFT; } if(nodeX[i+1] > IMAGE_RIGHT) { nodeX[i+1] = IMAGE_RIGHT; } LCD_SetTextColor(BackColor); LCD_DrawLine(pixelY, nodeX[i+1], nodeX[i+1] - nodeX[i], LCD_DIR_HORIZONTAL); LCD_SetTextColor(TextColor); PutPixel(pixelY, nodeX[i+1]); PutPixel(pixelY, nodeX[i]); /* for (j=nodeX[i]; j<nodeX[i+1]; j++) PutPixel(j,pixelY); */ } } } /* draw the edges */ LCD_SetTextColor(TextColor); } #endif /******************************************************************************/