353 lines
8.8 KiB
C
353 lines
8.8 KiB
C
#include "ssd1289_lld.h"
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#ifdef LCD_USE_SSD1289
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uint8_t orientation;
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uint16_t DeviceCode;
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extern uint16_t lcd_width, lcd_height;
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#ifdef LCD_USE_GPIO
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static __inline void lld_lcdWriteIndex(uint16_t index) {
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Clr_RS;
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Set_RD;
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lld_lcdWriteGPIO(index);
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Clr_WR;
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Set_WR;
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}
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static __inline void lld_lcdWriteData(uint16_t data) {
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Set_RS;
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lld_lcdWriteGPIO(data);
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Clr_WR;
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Set_WR;
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}
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static __inline void lld_lcdWriteReg(uint16_t lcdReg,uint16_t lcdRegValue) {
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Clr_CS;
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lld_lcdWriteIndex(lcdReg);
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lld_lcdWriteData(lcdRegValue);
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Set_CS;
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}
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static __inline uint16_t lld_lcdReadData(void) {
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uint16_t value;
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Set_RS;
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Set_WR;
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Clr_RD;
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value = lld_lcdReadGPIO();
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Set_RD;
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return value;
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}
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static __inline uint16_t lld_lcdReadReg(uint16_t lcdReg) {
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uint16_t lcdRAM;
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Clr_CS;
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lld_lcdWriteIndex(lcdReg);
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lcdRAM = lld_lcdReadData();
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Set_CS;
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return lcdRAM;
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}
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__inline void lld_lcdWriteStreamStart(void) {
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Clr_CS
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lld_lcdWriteIndex(0x0022);
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}
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__inline void lld_lcdWriteStreamStop(void) {
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Set_CS;
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}
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__inline void lld_lcdWriteStream(uint16_t *buffer, uint16_t size) {
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uint16_t i;
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Set_RS;
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for(i = 0; i < size; i++) {
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lld_lcdWriteGPIO(buffer[i]);
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Clr_WR;
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Set_WR;
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}
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}
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#endif
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#ifdef LCD_USE_SPI
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/* TODO */
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#endif
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#ifdef LCD_USE_FSMC
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#define LCD_REG (*((volatile uint16_t *) 0x60000000)) /* RS = 0 */
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#define LCD_RAM (*((volatile uint16_t *) 0x60020000)) /* RS = 1 */
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static __inline void lld_lcdWriteIndex(uint16_t index) {
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LCD_REG = index;
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}
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static __inline void lld_lcdWriteData(uint16_t data) {
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LCD_RAM = data;
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}
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static __inline void lld_lcdWriteReg(uint16_t lcdReg,uint16_t lcdRegValue) {
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LCD_REG = lcdReg;
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LCD_RAM = lcdRegValue;
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}
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static __inline uint16_t lld_lcdReadData(void) {
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return (LCD_RAM);
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}
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static __inline uint16_t lld_lcdReadReg(uint16_t lcdReg) {
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LCD_REG = lcdReg;
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return (LCD_RAM);
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}
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__inline void lld_lcdWriteStreamStart(void) {
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LCD_REG = 0x0022;
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}
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__inline void lld_lcdWriteStreamStop(void) {
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}
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__inline void lld_lcdWriteStream(uint16_t *buffer, uint16_t size) {
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uint16_t i;
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for(i = 0; i < size; i++)
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LCD_RAM = buffer[i];
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}
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#endif
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static __inline void lld_lcdDelay(uint16_t us) {
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chThdSleepMicroseconds(us);
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}
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void lld_lcdSetPowerMode(uint8_t powerMode) {
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switch(powerMode) {
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case powerOff:
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lld_lcdWriteReg(0x0010, 0x0000); // leave sleep mode
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lld_lcdWriteReg(0x0007, 0x0000); // halt operation
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lld_lcdWriteReg(0x0000, 0x0000); // turn off oszillator
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lld_lcdWriteReg(0x0010, 0x0001); // enter sleepmode
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break;
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case powerOn:
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lld_lcdWriteReg(0x0010, 0x0000); // leave sleep mode
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lld_lcdInit();
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break;
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case sleepOn:
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lld_lcdWriteReg(0x0010, 0x0001); // enter sleep mode
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break;
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case sleepOff:
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lld_lcdWriteReg(0x0010, 0x0000); // leave sleep mode
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break;
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}
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}
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void lld_lcdSetCursor(uint16_t x, uint16_t y) {
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if(PORTRAIT) {
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lld_lcdWriteReg(0x004e, x);
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lld_lcdWriteReg(0x004f, y);
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} else if(LANDSCAPE) {
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lld_lcdWriteReg(0x004e, y);
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lld_lcdWriteReg(0x004f, x);
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}
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}
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void lld_lcdSetOrientation(uint8_t newOrientation) {
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orientation = newOrientation;
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switch(orientation) {
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case portrait:
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lld_lcdWriteReg(0x0001, 0x2B3F);
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lld_lcdWriteReg(0x0011, 0x6070);
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lcd_height = SCREEN_HEIGHT;
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lcd_width = SCREEN_WIDTH;
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break;
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case landscape:
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lld_lcdWriteReg(0x0001, 0x293F);
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lld_lcdWriteReg(0x0011, 0x6078);
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lcd_height = SCREEN_WIDTH;
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lcd_width = SCREEN_HEIGHT;
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break;
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case portraitInv:
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lld_lcdWriteReg(0x0001, 0x693F);
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lld_lcdWriteReg(0x0011, 0x6040);
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lcd_height = SCREEN_HEIGHT;
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lcd_width = SCREEN_WIDTH;
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break;
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case landscapeInv:
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lld_lcdWriteReg(0x0001, 0x6B3F);
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lld_lcdWriteReg(0x0011, 0x6048);
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lcd_height = SCREEN_WIDTH;
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lcd_width = SCREEN_HEIGHT;
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break;
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}
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}
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void lld_lcdSetWindow(uint16_t x0, uint16_t y0, uint16_t x1, uint16_t y1) {
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lld_lcdSetCursor(x0, y0);
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switch(lcdGetOrientation()) {
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case portrait:
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lld_lcdWriteReg(0x44, ((x1-1) << 8) | x0);
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lld_lcdWriteReg(0x45, y0);
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lld_lcdWriteReg(0x46, y1-1);
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break;
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case landscape:
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lld_lcdWriteReg(0x44, ((y1-1) << 8) | y1);
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lld_lcdWriteReg(0x45, x0);
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lld_lcdWriteReg(0x46, x1-1);
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break;
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case portraitInv:
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lld_lcdWriteReg(0x44, ((x1-1) << 8) | x0);
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lld_lcdWriteReg(0x45, y0);
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lld_lcdWriteReg(0x46, y1-1);
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break;
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case landscapeInv:
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lld_lcdWriteReg(0x44, ((y1-1) << 8) | y1);
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lld_lcdWriteReg(0x45, x0);
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lld_lcdWriteReg(0x46, x1-1);
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break;
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}
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}
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void lld_lcdFillArea(uint16_t x0, uint16_t y0, uint16_t x1, uint16_t y1, uint16_t color) {
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uint32_t index = 0, area;
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area = ((x1-x0)*(y1-y0));
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lld_lcdSetWindow(x0, y0, x1, y1);
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lld_lcdWriteStreamStart();
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for(index = 0; index < area; index++)
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lld_lcdWriteData(color);
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lld_lcdWriteStreamStop();
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}
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void lld_lcdClear(uint16_t color) {
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uint32_t index = 0;
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lld_lcdSetCursor(0, 0);
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lld_lcdWriteStreamStart();
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for(index = 0; index < SCREEN_WIDTH * SCREEN_HEIGHT; index++)
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lld_lcdWriteData(color);
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lld_lcdWriteStreamStop();
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}
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uint16_t lld_lcdGetPixelColor(uint16_t x, uint16_t y) {
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uint16_t dummy;
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lld_lcdSetCursor(x,y);
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lld_lcdWriteStreamStart();
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dummy = lld_lcdReadData();
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dummy = lld_lcdReadData();
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lld_lcdWriteStreamStop();
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return dummy;
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}
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void lld_lcdDrawPixel(uint16_t x, uint16_t y, uint16_t color) {
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lld_lcdSetCursor(x, y);
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lld_lcdWriteReg(0x0022, color);
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}
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void lld_lcdInit(void) {
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#ifdef LCD_USE_FSMC
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/* FSMC setup. TODO: this only works for STM32F1 */
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rccEnableAHB(RCC_AHBENR_FSMCEN, 0);
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int FSMC_Bank = 0;
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/* timing structure */
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/* from datasheet:
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address setup: 0ns
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address hold: 0ns
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Data setup: 5ns
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Data hold: 5ns
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Data access: 250ns
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output hold: 100ns
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*/
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FSMC_Bank1->BTCR[FSMC_Bank+1] = FSMC_BTR1_ADDSET_1 | FSMC_BTR1_DATAST_1;
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/* Bank1 NOR/SRAM control register configuration */
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FSMC_Bank1->BTCR[FSMC_Bank] = FSMC_BCR1_MWID_0 | FSMC_BCR1_WREN | FSMC_BCR1_MBKEN;
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#endif
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DeviceCode = lld_lcdReadReg(0x0000);
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lld_lcdWriteReg(0x0000,0x0001); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0003,0xA8A4); lld_lcdDelay(5);
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lld_lcdWriteReg(0x000C,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x000D,0x080C); lld_lcdDelay(5);
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lld_lcdWriteReg(0x000E,0x2B00); lld_lcdDelay(5);
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lld_lcdWriteReg(0x001E,0x00B0); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0001,0x2B3F); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0002,0x0600); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0010,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0011,0x6070); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0005,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0006,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0016,0xEF1C); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0017,0x0003); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0007,0x0133); lld_lcdDelay(5);
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lld_lcdWriteReg(0x000B,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x000F,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0041,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0042,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0048,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0049,0x013F); lld_lcdDelay(5);
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lld_lcdWriteReg(0x004A,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x004B,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0044,0xEF00); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0045,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0046,0x013F); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0030,0x0707); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0031,0x0204); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0032,0x0204); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0033,0x0502); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0034,0x0507); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0035,0x0204); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0036,0x0204); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0037,0x0502); lld_lcdDelay(5);
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lld_lcdWriteReg(0x003A,0x0302); lld_lcdDelay(5);
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lld_lcdWriteReg(0x003B,0x0302); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0023,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0024,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x0025,0x8000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x004f,0x0000); lld_lcdDelay(5);
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lld_lcdWriteReg(0x004e,0x0000); lld_lcdDelay(5);
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}
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uint16_t lld_lcdGetOrientation(void) {
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return orientation;
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}
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uint16_t lld_lcdGetHeight(void) {
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return lcd_height;
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}
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uint16_t lld_lcdGetWidth(void) {
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return lcd_width;
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}
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#endif
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