📄 lcd.c
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//====================================================================
// File Name : LCD.c
// Function : S3C2440 LCD test code
// Program :
// Date : Apr. 21, 2003
// Version : 0.0
// History
// -2413
// 0.0 : September 23, 2005 by Boaz
//====================================================================
#include <stdio.h>
#include <stdlib.h>
#include "def.h"
#include "2413addr.h"
#include "lcdlib.h"
#include "glib.h"
#include "lcd.h"
#if 0
#include "flower8bpp.h"
#include "chm16bpp.h"
#include "prayer16bpp.h"
#include "flower16bpp.h"
#include "a480testimg.h"
#endif
#include "a480testimg.h"
//#include "flower24bpp.h"
#define LTS222 0x12345678
#define LTV350 0x87654321
#define LTS350PD 0xa5a5a5a5
#define LTS350PE 0x5a5a5a5a
#define USEDTFT LTS222
void Lcd_Port_Init(void);
void Lcd_Port_Return(void);
/*
void Lcd_Palette1Bit_Init(void);
void Lcd_Palette8Bit_Init(void);
void __irq Lcd_Int_Frame(void);
void __irq Lcd_Int_Fifo(void);
void __irq Lcd_Int_Fifo_640480(void);
void Select_Tcon(void);
void Test_Lcd_Palette_Ram(void);
void Test_Lcd_Underrun(void);
void Test_Lcd_Tft_16Bit_800600(void);
void Test_Lcd_Tft_16Bit_800600_On(void);
*/
unsigned save_rGPCDN,save_rGPCDAT,save_rGPCCON;
unsigned save_rGPDDN,save_rGPDDAT,save_rGPDCON;
unsigned save_rGPBDN,save_rGPBDAT,save_rGPBCON;
unsigned lcd_count;
void * func_lcd_test[][2]=
{
// "0123456789012345" max 15磊 肺茄沥窍咯 comment窍技夸.
//LCD
(void *)Test_Lcd_Tft_16Bit_240320, "TFT240320 16Bit ",
(void *)Test_Lcd_Tft_16Bit_240320On, "TFT240320 free run ",
(void *)Test_Lcd_Tft_16Bit_320240, "TFT320240 16Bit ",
(void *)Test_Lcd_Tft_16Bit_320240_On, "TFT320240 16Bit On ",
(void *)Test_Lcd_Tft_16Bit_320240_On1, "TFT320240 16Bit On1 ",
(void *)Test_Lcd_Tft_24Bit_320240, "TFT320240 24Bit ",
(void *)Test_Lcd_Cstn_8Bit, "CSTN320240 8Bit ",
(void *)Test_Lcd_Cstn_12Bit, "CSTN320240 12Bit ",
(void *)Test_Lcd_Cstn_16Bit, "CSTN320240 16Bit ",
0,0
};
void Lcd_Test(void)
{
int i;
#if USEDTFT == LTS222
InitLDI_LTS222();
#else
InitLDI_LTV350();
#endif
printf("\n====== LCD Test program start ======\n");
while(1)
{
i=0;
printf("\n\n");
while(1)
{ //display menu
printf("%2d:%s",i,func_lcd_test[i][1]);
i++;
if((int)(func_lcd_test[i][0])==0)
{
printf("\n");
break;
}
if((i%4)==0)
printf("\n");
}
printf("\nPress only Enter key to exit : ");
i = GetIntNum();
if(i==-1) break; // return.
if(i>=0 && (i<((sizeof(func_lcd_test)-1)/8)) ) // select and execute...
( (void (*)(void)) (func_lcd_test[i][0]) )();
}
printf("\n====== LCD Test program end ======\n");
}
void Lcd_Port_Init(void)
{
save_rGPCCON=rGPCCON;
save_rGPCDAT=rGPCDAT;
save_rGPCDN=rGPCDN;
save_rGPDCON=rGPDCON;
save_rGPDDAT=rGPDDAT;
save_rGPDDN=rGPDDN;
save_rGPBCON=rGPBCON;
save_rGPBDN=rGPBDN;
save_rGPBDAT=rGPBDAT;
rGPCDN=0xffff; // Disable Pull-up register
rGPCCON=0xaaaaaaa8; //Initialize VD[7:0],LCDVF[2:0],VM,VFRAME,VLINE,VCLK,LEND
rGPDDN=0xffff; // Disable Pull-up register
rGPDCON=0xaaaaaaaa; //Initialize VD[23:8]
rGPBDN |= (0x1<<5);
rGPBCON = (rGPBCON & ~(0x3<<10))|(0x1<<10);
//printf("Initializing GPIO ports..........\n");
}
void Lcd_Port_Return(void)
{
rGPCCON=save_rGPCCON;
rGPCDAT=save_rGPCDAT;
rGPCDN=save_rGPCDN;
rGPDCON=save_rGPDCON;
rGPDDAT=save_rGPDDAT;
rGPDDN=save_rGPDDN;
}
/*
void Lcd_Palette1Bit_Init(void)
{
U32 *palette;
palette=(U32 *)PALETTE;
*palette++=0x0; // Black
*palette=0xffff; // White
}
void Lcd_Palette8Bit_Init(void)
{
int i;
U32 *palette;
palette=(U32 *)PALETTE;
if (rLCDCON5&(1<<11)) // if 5:6:5 format
for(i=0;i<256;i++) *palette++=DEMO256pal[i];
else // if 5:5:5:1 format
for(i=0;i<256;i++) *palette++=(DEMO256pal[i]&0xffc1)|((DEMO256pal[i]&0x1f)<<1);
}
void Lcd_Start(U32 mode)
{
// LCD initialize
Lcd_Port_Init();
Lcd_Init(mode);
Glib_Init(mode);
Select_Tcon();
Lcd_PowerEnable(0, 1);
Lcd_EnvidOnOff(1);
Glib_ClearScr(0, mode);
}
//Just interrupt test..
void __irq Lcd_Int_Frame(void)
{
rLCDINTMSK|=3; // Mask LCD SUB Interrupt
// GPG4 is LCD_PWREN
rGPGDAT&=(~(1<<4)); // GPG4=Low
Delay(50); // 5ms
rGPGDAT|=(1<<4); //GPG4=High
rLCDSRCPND=2; // Clear LCD SUB Interrupt source pending
rLCDINTPND=2; // Clear LCD SUB Interrupt pending
rLCDINTMSK&=(~(2)); // Unmask LCD FRAME Interrupt
ClearPending(BIT_LCD);
}
void __irq Lcd_Int_Fifo(void)
{
rLCDINTMSK|=3; // Mask LCD SUB Interrupt
if((lcd_count%20)==0) printf("\n");
printf(".");
lcd_count++;
rLCDSRCPND=1; // Clear LCD SUB Interrupt source pending
rLCDINTPND=1; // Clear LCD SUB Interrupt pending
rLCDINTMSK&=(~(1)); // Unmask LCD FRAME Interrupt
ClearPending(BIT_LCD);
}
void Test_Lcd_Stn_1Bit(void)
{
int i,j;
Lcd_Port_Init();
Lcd_Init(MODE_STN_1BIT);
Glib_Init(MODE_STN_1BIT);
Lcd_EnvidOnOff(1); // Enable ENVID Bit
printf("[STN Mono(1bit/1pixel) LCD Test]\n");
Glib_ClearScr(0, MODE_STN_1BIT);
for(j=0;j<LCD_YSIZE_STN;j+=16)
for(i=0;i<LCD_XSIZE_STN;i+=16)
Glib_FilledRectangle(i,j,i+15,j+15,((j+i)/16)%2);
printf("STN Mono test 1. Press any key!\n");
Uart_Getch();
Glib_ClearScr(0, MODE_STN_1BIT);
Glib_FilledRectangle(160,0,319,239,1); //Half Screen
printf("STN Mono test 2. Press any key!\n");
Uart_Getch();
Glib_ClearScr(0, MODE_STN_1BIT);
Glib_Rectangle(0,0,319,239,1); // #0
Glib_Line(0,0,319,239,1); // 00
Glib_Line(0,239,319,0,1);
Glib_Rectangle(0+320,0,319+320,239,1); // 0#
Glib_Line(0+320,0,319+320,239,1); // 00
Glib_Line(0+320,239,319+320,0,1);
Glib_FilledRectangle(50+320,50,269+320,189,1);
Glib_Rectangle(0,0+240,319,239+240,1); // 00
Glib_Line(0,0+240,319,239+240,1); // #0
Glib_Line(0,239+240,319,0+240,1);
Glib_FilledRectangle(50,50+240,269,189+240,1);
Glib_Rectangle(0+320,0+240,319+320,239+240,1); // 00
Glib_Line(0+320,0+240,319+320,239+240,1); // 0#
Glib_Line(0+320,239+240,319+320,0+240,1);
Glib_Rectangle(50+320,50+240,269+320,189+240,1);
printf("Virtual Screen Test(STN Mono). Press any key[ijkm\\r]!\n");
MoveViewPort(MODE_STN_1BIT);
Lcd_MoveViewPort(0,0,MODE_STN_1BIT);
Lcd_EnvidOnOff(0); // Disable ENVID Bit
Lcd_Port_Return();
}
void Test_Lcd_Stn_2Bit(void)
{
int i,j,k;
Lcd_Port_Init();
Lcd_Init(MODE_STN_2BIT);
Glib_Init(MODE_STN_2BIT);
Lcd_EnvidOnOff(1); // Enable ENVID Bit
printf("[STN 4 gray(2bit/1pixel) LCD Test]\n");
Glib_ClearScr(0, MODE_STN_2BIT);
j=0;
for(i=0;i<320;i+=80)
Glib_FilledRectangle(0+i,0,79+i,239,j++);
printf("4 gray mode test 1. Press any key!\n");
Uart_Getch();
Glib_ClearScr(0, MODE_STN_2BIT);
j=0;
for(i=0;i<320;i+=80)
{
Glib_FilledRectangle(0+i,0,79+i,119,j);
Glib_FilledRectangle(0+i,120,79+i,239,3-j);
j++;
}
printf("4 gray mode test 2. Press any key!\n");
Uart_Getch();
Glib_ClearScr(0, MODE_STN_2BIT);
j=0;
for(i=0;i<240;i+=60)
{
Glib_FilledRectangle(i,i,i+59,i+59,j);
j++;
}
printf("4 gray mode test 3. Press any key!\n");
Uart_Getch();
Glib_ClearScr(0, MODE_STN_2BIT);
k=0;
for(i=160;i<480;i+=80)
{
for(j=120;j<360;j+=60)
{
Glib_FilledRectangle(i,j,i+79,j+59,k%4);
k++;
}
k+=2;;
}
// #0
// 00
Glib_Rectangle(0,0,319,239,3);
Glib_Line(0,0,319,239,3);
Glib_Line(0,239,319,0,3);
// 0#
// 00
Glib_Rectangle(0+320,0,319+320,239,3);
Glib_Line(0+320,0,319+320,239,3);
Glib_Line(0+320,239,319+320,0,3);
// 00
// #0
Glib_Rectangle(0,0+240,319,239+240,3);
Glib_Line(0,0+240,319,239+240,3);
Glib_Line(0,239+240,319,0+240,3);
// 00
// 0#
Glib_Line(0+320,0+240,319+320,239+240,3);
Glib_Line(0+320,239+240,319+320,0+240,3);
Glib_Rectangle(50+320,50+240,269+320,189+240,3);
printf("Virtual Screen Test(STN 4 gray). Press any key[ijkm\\r]!\n");
MoveViewPort(MODE_STN_2BIT);
Lcd_MoveViewPort(0,0,MODE_STN_2BIT);
Lcd_EnvidOnOff(0); // Disable ENVID Bit
Lcd_Port_Return();
}
void Test_Lcd_Stn_4Bit(void)
{
int i,j,k;
Lcd_Port_Init();
Lcd_Init(MODE_STN_4BIT);
Glib_Init(MODE_STN_4BIT);
Lcd_EnvidOnOff(1);
printf("[STN 16 gray(4bit/1pixel) LCD Test]\n");
Glib_ClearScr(0, MODE_STN_4BIT);
j=0;
for(i=0;i<320;i+=20)
Glib_FilledRectangle(0+i,0,19+i,239,j++);
printf("16 gray mode test 1. Press any key!\n");
Uart_Getch();
Glib_ClearScr(0, MODE_STN_4BIT);
j=0;
for(i=0;i<320;i+=20)
{
Glib_FilledRectangle(0+i,0,19+i,119,j);
Glib_FilledRectangle(0+i,120,19+i,239,15-j);
j++;
}
printf("16 gray mode test 2. Press any key!\n");
Uart_Getch();
Glib_ClearScr(0, MODE_STN_4BIT);
j=0;
for(i=0;i<240;i+=30)
{
Glib_FilledRectangle(i,i,i+29,i+29,j);
Glib_FilledRectangle(i+110,i,i+29+110,i+29,j+8);
j++;
}
printf("4 gray mode test 3. Press any key!\n");
Uart_Getch();
Glib_ClearScr(0, MODE_STN_4BIT);
k=0;
for(i=160;i<480;i+=40)
for(j=120;j<360;j+=30)
{
Glib_FilledRectangle(i,j,i+39,j+29,k%16);
k++;
}
// #0
// 00
Glib_Rectangle(0,0,319,239,15);
Glib_Line(0,0,319,239,15);
Glib_Line(0,239,319,0,15);
// 0#
// 00
Glib_Rectangle(0+320,0,319+320,239,15);
Glib_Line(0+320,0,319+320,239,15);
Glib_Line(0+320,239,319+320,0,15);
// 00
// #0
Glib_Rectangle(0,0+240,319,239+240,15);
Glib_Line(0,0+240,319,239+240,15);
Glib_Line(0,239+240,319,0+240,15);
// 00
// 0#
Glib_Rectangle(0+320,0+240,319+320,239+240,15);
Glib_Line(0+320,0+240,319+320,239+240,15);
Glib_Line(0+320,239+240,319+320,0+240,15);
Glib_Rectangle(50+320,50+240,269+320,189+240,15);
printf("Virtual Screen Test(STN 16 gray). Press any key[ijkm\\r]!\n");
MoveViewPort(MODE_STN_4BIT);
Lcd_MoveViewPort(0,0,MODE_STN_4BIT);
Lcd_EnvidOnOff(0);
Lcd_Port_Return();
}
void Test_Lcd_Cstn_8Bit(void)
{
int i,j,k;
Lcd_Port_Init();
Lcd_Init(MODE_CSTN_8BIT);
Glib_Init(MODE_CSTN_8BIT);
Lcd_CstnOnOff(1); // Enable ENVID Bit and GPB5 output
printf("[CSTN 256 COLOR(8bit/1pixel) LCD TEST]\n");
printf(" R:0 ... 7 \n");
printf("G:0 B0:1 B0:1 B0:1 \n");
printf("G:. 2:3 2:3 2:3 \n");
printf("G:. B0:1 B0:1 B0:1 \n");
printf("G:. 2:3 2:3 2:3 \n");
printf("G:. B0:1 B0:1 B0:1 \n");
printf("G:7 2:3 2:3 2:3 \n");
Glib_ClearScr(0, MODE_CSTN_8BIT);
for(j=0;j<240;j++)
for(i=0;i<320;i++) //RRRGGGBB
PutPixel(i,j,((i/40)<<5)+((j/30)<<2)+(((j/15)%2)<<1)+((i/20)%2));
printf("CSTN 256 color mode test 1. Press any key!\n");
Uart_Getch();
Glib_ClearScr(0, MODE_CSTN_8BIT);
k=0;
for(i=160;i<480;i+=20)
for(j=120;j<360;j+=15)
{
Glib_FilledRectangle(i,j,i+19,j+14,k);
k++;
}
// #0
// 00
Glib_Rectangle(0,0,319,239,255);
Glib_Line(0,0,319,239,255);
Glib_Line(0,239,319,0,255);
// 0#
// 00
Glib_Rectangle(0+320,0,319+320,239,255);
Glib_Line(0+320,0,319+320,239,255);
Glib_Line(0+320,239,319+320,0,255);
// 00
// #0
Glib_Rectangle(0,0+240,319,239+240,255);
Glib_Line(0,0+240,319,239+240,255);
Glib_Line(0,239+240,319,0+240,255);
// 00
// 0#
Glib_Rectangle(0+320,0+240,319+320,239+240,255);
Glib_Line(0+320,0+240,319+320,239+240,255);
Glib_Line(0+320,239+240,319+320,0+240,255);
Glib_Rectangle(50+320,50+240,269+320,189+240,255);
printf("Virtual Screen Test(CSTN 256 color). Press any key[ijkm\\r]!\n");
MoveViewPort(MODE_CSTN_8BIT);
Lcd_MoveViewPort(0,0,MODE_CSTN_8BIT);
Lcd_CstnOnOff(0); // Disable ENVID Bit and GPB5 output
Lcd_Port_Return();
}
void Test_Lcd_Cstn_8Bit_On(void)
{
int i,j;
Lcd_Port_Init();
Lcd_Init(MODE_CSTN_8BIT);
Glib_Init(MODE_CSTN_8BIT);
Lcd_CstnOnOff(1); // Enable ENVID Bit and GPB5 output
printf("[CSTN LCD(8bit/1pixel) WILL BE TURNED ON EVEN DURING OTHER TEST]\n");
printf("If you'd like to off the CSTN LCD, then excute other LCD test program,\n");
for(j=0;j<240;j++)
for(i=0;i<320;i++) //RRRGGGBB
PutPixel(i,j,((i/40)<<5)+((j/30)<<2)+(((j/15)%2)<<1)+((i/20)%2));
}
void Test_Lcd_Cstn_12Bit(void)
{
int i,j,k;
U32 cMode;
printf("[CSTN 4K COLOR(12bit/1pixel) LCD TEST]\n");
printf(" Select 12 bpp data format 1. Packed[D] 2. Unpacked\n");
if (Uart_Getch() == '2')
cMode = MODE_CSTN_12BIT_UP;
else cMode = MODE_CSTN_12BIT;
Lcd_Port_Init();
Lcd_Init(cMode);
Glib_Init(cMode);
Lcd_CstnOnOff(1); // Enable ENVID Bit and GPB5 output
Glib_ClearScr(0, cMode);
k=0;
for(j=0;j<240;j+=80)
for(i=0;i<320;i+=20)
{
if((k<16)|(k>31))
{
Glib_FilledRectangle(i,j,i+19,j+79,((k%16)<<(4*(k/16))));
k++;
}
else
{
Glib_FilledRectangle(i,j,i+19,j+79,((k-(1+2*(k%16)))<<(4*(k/16))));
k++;
}
}
printf("CSTN 4K color mode test 1. Press any key!\n");
Uart_Getch();
#if 1 // just test
i = 0;
while(1)
{
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