crashtest-r0ket/firmware/lcd/display.c

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#include <string.h>
#include <display.h>
#include <sysdefs.h>
#include "lpc134x.h"
#include "core/ssp/ssp.h"
#include "gpio/gpio.h"
#include "basic/basic.h"
#include "basic/config.h"
#include "usb/usbmsc.h"
#define DISPLAY_N1200 0
#define DISPLAY_N1600 1
/**************************************************************************/
/* Utility routines to manage nokia display */
/**************************************************************************/
uint8_t lcdBuffer[RESX*RESY_B];
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uint32_t intstatus; // Caches USB interrupt state
// (need to disable MSC while displaying)
uint8_t displayType;
#define TYPE_CMD 0
#define TYPE_DATA 1
static void lcd_select() {
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#if CFG_USBMSC
if(usbMSCenabled){
intstatus=USB_DEVINTEN;
USB_DEVINTEN=0;
};
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#endif
/* the LCD requires 9-Bit frames */
uint32_t configReg = ( SSP_SSP0CR0_DSS_9BIT // Data size = 9-bit
| SSP_SSP0CR0_FRF_SPI // Frame format = SPI
| SSP_SSP0CR0_SCR_8); // Serial clock rate = 8
SSP_SSP0CR0 = configReg;
gpioSetValue(RB_LCD_CS, 0);
}
static void lcd_deselect() {
gpioSetValue(RB_LCD_CS, 1);
/* reset the bus to 8-Bit frames that everyone else uses */
uint32_t configReg = ( SSP_SSP0CR0_DSS_8BIT // Data size = 8-bit
| SSP_SSP0CR0_FRF_SPI // Frame format = SPI
| SSP_SSP0CR0_SCR_8); // Serial clock rate = 8
SSP_SSP0CR0 = configReg;
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#if CFG_USBMSC
if(usbMSCenabled){
USB_DEVINTEN=intstatus;
};
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#endif
}
static void lcdWrite(uint8_t cd, uint8_t data) {
uint16_t frame = 0x0;
frame = cd << 8;
frame |= data;
while ((SSP_SSP0SR & (SSP_SSP0SR_TNF_NOTFULL | SSP_SSP0SR_BSY_BUSY)) != SSP_SSP0SR_TNF_NOTFULL);
SSP_SSP0DR = frame;
while ((SSP_SSP0SR & (SSP_SSP0SR_BSY_BUSY|SSP_SSP0SR_RNE_NOTEMPTY)) != SSP_SSP0SR_RNE_NOTEMPTY);
/* clear the FIFO */
frame = SSP_SSP0DR;
}
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#define CS 2,1
#define SCK 2,11
#define SDA 0,9
#define RST 2,2
uint8_t lcdRead(uint8_t data)
{
uint32_t op211cache=IOCON_PIO2_11;
uint32_t op09cache=IOCON_PIO0_9;
uint32_t dircache=GPIO_GPIO2DIR;
IOCON_PIO2_11=IOCON_PIO2_11_FUNC_GPIO|IOCON_PIO2_11_MODE_PULLUP;
IOCON_PIO0_9=IOCON_PIO0_9_FUNC_GPIO|IOCON_PIO0_9_MODE_PULLUP;
gpioSetDir(SCK, 1);
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uint8_t i;
gpioSetDir(SDA, 1);
gpioSetValue(SCK, 0);
gpioSetValue(CS, 0);
delayms(1);
gpioSetValue(SDA, 0);
gpioSetValue(SCK, 1);
delayms(1);
for(i=0; i<8; i++){
gpioSetValue(SCK, 0);
delayms(1);
if( data & 0x80 )
gpioSetValue(SDA, 1);
else
gpioSetValue(SDA, 0);
data <<= 1;
gpioSetValue(SCK, 1);
delayms(1);
}
uint8_t ret = 0;
gpioSetDir(SDA, 0);
for(i=0; i<8; i++){
gpioSetValue(SCK, 0);
delayms(1);
ret <<= 1;
ret |= gpioGetValue(SDA);
gpioSetValue(SCK, 1);
delayms(1);
}
gpioSetValue(SCK, 0);
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gpioSetValue(CS, 1);
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gpioSetDir(SDA, 1);
IOCON_PIO2_11=op211cache;
IOCON_PIO0_9=op09cache;
GPIO_GPIO2DIR=dircache;
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delayms(1);
return ret;
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}
void lcdInit(void) {
int id;
sspInit(0, sspClockPolarity_Low, sspClockPhase_RisingEdge);
gpioSetValue(RB_LCD_CS, 1);
gpioSetValue(RB_LCD_RST, 1);
gpioSetDir(RB_LCD_CS, gpioDirection_Output);
gpioSetDir(RB_LCD_RST, gpioDirection_Output);
delayms(100);
gpioSetValue(RB_LCD_RST, 0);
delayms(100);
gpioSetValue(RB_LCD_RST, 1);
delayms(100);
id=lcdRead(220); // ID3
if(id==14)
displayType=DISPLAY_N1600;
else /* ID3 == 48 */
displayType=DISPLAY_N1200;
/* Small Nokia 1200 LCD docs:
* clear/ set
* on 0xae / 0xaf
* invert 0xa6 / 0xa7
* mirror-x 0xA0 / 0xA1
* mirror-y 0xc7 / 0xc8
*
* 0x20+x contrast (0=black - 0x2e)
* 0x40+x offset in rows from top (-0x7f)
* 0x80+x contrast? (0=black -0x9f?)
* 0xd0+x black lines from top? (-0xdf?)
*
*/
lcd_select();
if(displayType==DISPLAY_N1200){
/* Decoded:
* E2: Internal reset
* AF: Display on/off: DON = 1
* A1: undefined?
* A4: all on/normal: DAL = 0
* 2F: charge pump on/off: PC = 1
* B0: set y address: Y[0-3] = 0
* 10: set x address (upper bits): X[6-4] = 0
*/
static uint8_t initseq[]= { 0xE2,0xAF, // Display ON
0xA1, // Mirror-X
0xA4, 0x2F, 0xB0, 0x10};
int i = 0;
while(i<sizeof(initseq)){
lcdWrite(TYPE_CMD,initseq[i++]);
delayms(5); // actually only needed after the first
}
}else{ /* displayType==DISPLAY_N1600 */
static uint8_t initseq_d[] = {
/* Decoded:
* CMD 36: MADCTL (argument missing!)
* CMD 29: DISPON
* CMD BA: Data order (1)
* DAT 07: ignored?
* CMD 15: undefined?
* DAT 25: ignored?
* DAT 3F: ignored?
* CMD 11: sleep out
* CMD 13: normal display mode on
* CMD 37: set scroll entry point
* DAT 00: scroll entry point
* CMD 3A: interface pixel format
* DAT 05: 16 bit/pixel
* CMD 2A: column address set
* DAT 0 : xs
* DAT 98-1 : xe
* CMD 2B: page address set
* DAT 0 : ys
* DAT 70-1 : ye
*/
0x36,
0x29, 0xBA, 0x07,
0x15, 0x25, 0x3f,
0x11, 0x13, 0x37,
0x00, 0x3A, 0x05,
0x2A, 0, 98-1,
0x2B, 0, 70-1};
uint32_t initseq_c = ~ 0x12BA7; // command/data bitstring
int i = 0;
lcdWrite(TYPE_CMD,0x01); //sw reset
delayms(10);
while(i<sizeof(initseq_d)){
lcdWrite(initseq_c&1, initseq_d[i++]);
initseq_c = initseq_c >> 1;
}
}
lcd_deselect();
}
void lcdFill(char f){
memset(lcdBuffer,f,RESX*RESY_B);
#if 0
int x;
for(x=0;x<RESX*RESY_B;x++) {
lcdBuffer[x]=f;
}
#endif
};
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void lcdSetPixel(char x, char y, bool f){
if (x<0 || x> RESX || y<0 || y > RESY)
return;
char y_byte = (RESY-(y+1)) / 8;
char y_off = (RESY-(y+1)) % 8;
char byte = lcdBuffer[y_byte*RESX+(RESX-(x+1))];
if (f) {
byte |= (1 << y_off);
} else {
byte &= ~(1 << y_off);
}
lcdBuffer[y_byte*RESX+(RESX-(x+1))] = byte;
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}
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bool lcdGetPixel(char x, char y){
char y_byte = (RESY-(y+1)) / 8;
char y_off = (RESY-(y+1)) % 8;
char byte = lcdBuffer[y_byte*RESX+(RESX-(x+1))];
return byte & (1 << y_off);
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}
// Color display hepler functions
static void _helper_pixel16(uint16_t color){
lcdWrite(TYPE_DATA,color>>8);
lcdWrite(TYPE_DATA,color&0xFF);
}
static void _helper_hline(uint16_t color){
for(int cx=0;cx<98;cx++)
_helper_pixel16(color);
}
#define COLORPACK_RGB565(r,g,b) (((r&0xF8) << 8) | ((g&0xFC)<<3) | ((b&0xF8) >> 3))
static const uint16_t COLOR_FG = COLORPACK_RGB565(0x00, 0x60, 0x00);
static const uint16_t COLOR_BG = COLORPACK_RGB565(0xff, 0xff, 0xff);
static const uint16_t COLOR_FRAME = COLORPACK_RGB565(0x00, 0x00, 0x80);
void lcdDisplay(void) {
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char byte;
lcd_select();
if(displayType==DISPLAY_N1200){
lcdWrite(TYPE_CMD,0xB0);
lcdWrite(TYPE_CMD,0x10);
lcdWrite(TYPE_CMD,0x00);
uint16_t i,page;
for(page=0; page<RESY_B;page++) {
for(i=0; i<RESX; i++) {
if (GLOBAL(lcdmirror))
byte=lcdBuffer[page*RESX+RESX-1-(i)];
else
byte=lcdBuffer[page*RESX+(i)];
if (GLOBAL(lcdinvert))
byte=~byte;
lcdWrite(TYPE_DATA,byte);
}
}
} else { /* displayType==DISPLAY_N1600 */
uint16_t x,y;
bool px;
lcdWrite(TYPE_CMD,0x2C);
//top line of the frame...
_helper_hline(COLOR_FRAME);
for(y=RESY;y>0;y--){
//left line of the frame
_helper_pixel16(COLOR_FRAME);
for(x=RESX;x>0;x--){
if(GLOBAL(lcdmirror))
px=lcdGetPixel(RESX-x+1,y-1);
else
px=lcdGetPixel(x-1,y-1);
if((!px)^(!GLOBAL(lcdinvert))) {
_helper_pixel16(COLOR_FG); /* foreground */
} else {
_helper_pixel16(COLOR_BG); /* background */
}
}
//right line of the frame
_helper_pixel16(COLOR_FRAME);
}
//bottom line of the frame
_helper_hline(COLOR_FRAME);
}
lcd_deselect();
}
void lcdRefresh() __attribute__ ((weak, alias ("lcdDisplay")));
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inline void lcdInvert(void) {
GLOBAL(lcdinvert)=!GLOBAL(lcdinvert);
}
void lcdSetContrast(int c) {
lcd_select();
if(displayType==DISPLAY_N1200){
if(c<0x1F)
lcdWrite(TYPE_CMD,0x80+c);
}else{ /* displayType==DISPLAY_N1600 */
if(c<0x40) {
lcdWrite(TYPE_CMD,0x25);
lcdWrite(TYPE_DATA,4*c);
};
}
lcd_deselect();
};
void lcdSetInvert(int c) {
lcd_select();
/* it doesn't harm N1600, save space */
// if(displayType==DISPLAY_N1200)
lcdWrite(TYPE_CMD,(c&1)+0xa6);
lcd_deselect();
};
/* deprecated */
void __attribute__((__deprecated__)) lcdToggleFlag(int flag) {
if(flag==LCD_MIRRORX)
GLOBAL(lcdmirror)=!GLOBAL(lcdmirror);
if(flag==LCD_INVERTED)
GLOBAL(lcdinvert)=!GLOBAL(lcdinvert);
}
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void lcdShiftH(bool right, bool wrap) {
uint8_t tmp;
for (int yb = 0; yb<RESY_B; yb++) {
if (right) {
tmp = lcdBuffer[yb*RESX];
memmove(lcdBuffer + yb*RESX,lcdBuffer + yb*RESX+1 ,RESX-1);
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lcdBuffer[yb*RESX+(RESX-1)] = wrap?tmp:0;
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} else {
tmp = lcdBuffer[yb*RESX+(RESX-1)];
memmove(lcdBuffer + yb*RESX+1,lcdBuffer + yb*RESX ,RESX-1);
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lcdBuffer[yb*RESX] = wrap?tmp:0;
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}
}
}
void lcdShiftV8(bool up, bool wrap) {
uint8_t tmp[RESX];
if (!up) {
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if (wrap)
memmove(tmp, lcdBuffer, RESX);
else
memset(tmp,0,RESX);
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memmove(lcdBuffer,lcdBuffer+RESX ,RESX*(RESY_B-1));
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memmove(lcdBuffer+RESX*(RESY_B-1),tmp,RESX);
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} else {
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if (wrap)
memmove(tmp, lcdBuffer+RESX*(RESY_B-1), RESX);
else
memset(tmp,0,RESX);
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memmove(lcdBuffer+RESX,lcdBuffer ,RESX*(RESY_B-1));
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memmove(lcdBuffer,tmp,RESX);
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}
}
void lcdShiftV(bool up, bool wrap) {
uint8_t tmp[RESX];
if (up) {
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if (wrap)
memmove(tmp,lcdBuffer+((RESY_B-1)*RESX),RESX);
else
memset(tmp,0,RESX);
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for (int x = 0; x<RESX; x++){
for (int y = RESY_B-1; y > 0; y--){
lcdBuffer[x+(y*RESX)] = (lcdBuffer[x+(y*RESX)] << 1) |( lcdBuffer[x+((y-1)*RESX)] >> 7);
}
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lcdBuffer[x] = ( lcdBuffer[x] << 1) | ((tmp[x]>>3)&1);
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}
} else {
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if (wrap)
memmove(tmp,lcdBuffer,RESX);
else
memset(tmp,0,RESX);
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for (int x = 0; x<RESX; x++){
for (int y = 0; y < (RESY_B-1); y++){
lcdBuffer[x+(y*RESX)] = (lcdBuffer[x+(y*RESX)] >> 1) |( lcdBuffer[x+((y+1)*RESX)] << 7);
}
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lcdBuffer[x+((RESY_B-1)*RESX)] = ( lcdBuffer[x+((RESY_B-1)*RESX)] >> 1) | ((tmp[x]<<3)&8);
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}
}
}
void lcdShift(int x, int y, bool wrap) {
bool dir=true;
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if(x<0){
dir=false;
x=-x;
};
while(x-->0)
lcdShiftH(dir, wrap);
if(y<0){
dir=false;
y=-y;
}else{
dir=true;
};
while(y>=8){
y-=8;
lcdShiftV8(dir, wrap);
};
while(y-->0)
lcdShiftV(dir, wrap);
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}
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