lcd_lts350q1_pe1.c

mini2440非操作系统示例代码

/**************************************************************
The initial and control for 320×240 16Bpp TFT LCD----LCD_LTV350QV-F04
**************************************************************/

#include "def.h"
#include "option.h"
#include "2440addr.h"
#include "2440lib.h"
#include "2440slib.h" 
#include "LCD_LTS350Q1_PE1.h"

#define MVAL		(13)
#define MVAL_USED 	(0)		//0=each frame   1=rate by MVAL
#define INVVDEN		(1)		//0=normal       1=inverted
#define BSWP		(0)		//Byte swap control
#define HWSWP		(1)		//Half word swap control

#define M5D(n) ((n) & 0x1fffff)	// To get lower 21bits

//TFT 240320
#define LCD_XSIZE_TFT_240320 	(320)	
#define LCD_YSIZE_TFT_240320 	(240)

#define SCR_XSIZE_TFT_240320 	(320)
#define SCR_YSIZE_TFT_240320 	(240)

//TFT240320
#define HOZVAL_TFT_240320	(LCD_XSIZE_TFT_240320-1)
#define LINEVAL_TFT_240320	(LCD_YSIZE_TFT_240320-1)

//Timing parameter for LCD LQ035Q7DB02
#define VBPD_240320		(3)		//垂直同步信号的后肩
#define VFPD_240320		(5)		//垂直同步信号的前肩
#define VSPW_240320		(15)		//垂直同步信号的脉宽

#define HBPD_240320		(5)		//水平同步信号的后肩
#define HFPD_240320		(15)		//水平同步信号的前肩
#define HSPW_240320		(8)		//水平同步信号的脉宽

#define CLKVAL_TFT_240320	(7) 	
//FCLK=180MHz,HCLK=90MHz,VCLK=6.5MHz

// GPB1/TOUT1 for Backlight control(PWM)
#define GPB1_TO_OUT()   (rGPBUP &= 0xfffd, rGPBCON &= 0xfffffff3, rGPBCON |= 0x00000004)
#define GPB1_TO_1()     (rGPBDAT |= 0x0002)
#define GPB1_TO_0()     (rGPBDAT &= 0xfffd)

extern void Uart_Printf(char *f, ...) ;

extern unsigned char xyx_240_320[];	//宽240，高320


volatile static unsigned short LCD_BUFFER[SCR_YSIZE_TFT_240320][SCR_XSIZE_TFT_240320];

/**************************************************************
320×240 16Bpp TFT LCD功能模块初始化
**************************************************************/
static void Lcd_PowerEnable(int invpwren,int pwren);
static void Lcd_Init(void)
{
    rGPCUP  = 0x00000000;
	 rGPCCON = 0xaaaa02a9; 
	 
//    rGPDUP=0xffffffff; // Disable Pull-up register
     rGPDUP  = 0x00000000;
   rGPDCON=0xaaaaaaaa; //Initialize VD[15:8]

	rLCDCON1=(CLKVAL_TFT_240320<<8)|(MVAL_USED<<7)|(3<<5)|(12<<1)|0;
    	// TFT LCD panel,12bpp TFT,ENVID=off
	rLCDCON2=(VBPD_240320<<24)|(LINEVAL_TFT_240320<<14)|(VFPD_240320<<6)|(VSPW_240320);
	rLCDCON3=(HBPD_240320<<19)|(HOZVAL_TFT_240320<<8)|(HFPD_240320);
	rLCDCON4=(MVAL<<8)|(HSPW_240320);
    rLCDCON5 = (1<<11) | (1<<10) | (1<<9) | (1<<8) | (0<<7) | (0<<6)
             | (1<<3)  |(BSWP<<1) | (HWSWP);

	rLCDSADDR1=(((U32)LCD_BUFFER>>22)<<21)|M5D((U32)LCD_BUFFER>>1);
	rLCDSADDR2=M5D( ((U32)LCD_BUFFER+(SCR_XSIZE_TFT_240320*LCD_YSIZE_TFT_240320*2))>>1 );
	rLCDSADDR3=(((SCR_XSIZE_TFT_240320-LCD_XSIZE_TFT_240320)/1)<<11)|(LCD_XSIZE_TFT_240320/1);
	rLCDINTMSK|=(3); // MASK LCD Sub Interrupt
    rTCONSEL &= (~7) ;     // Disable LPC3480
	rTPAL=0; // Disable Temp Palette
}

/**************************************************************
LCD视频和控制信号输出或者停止，1开启视频输出
**************************************************************/
static void Lcd_EnvidOnOff(int onoff)
{
    if(onoff==1)
	rLCDCON1|=1; // ENVID=ON
    else
	rLCDCON1 =rLCDCON1 & 0x3fffe; // ENVID Off
}

/**************************************************************
320×240 8Bpp TFT LCD 电源控制引脚使能
**************************************************************/
static void Lcd_PowerEnable(int invpwren,int pwren)
{
    //GPG4 is setted as LCD_PWREN
    rGPGUP=rGPGUP&(~(1<<4))|(1<<4); // Pull-up disable
    rGPGCON=rGPGCON&(~(3<<8))|(3<<8); //GPG4=LCD_PWREN
    rGPGDAT = rGPGDAT | (1<<4) ;
//	invpwren=pwren;
    //Enable LCD POWER ENABLE Function
    rLCDCON5=rLCDCON5&(~(1<<3))|(pwren<<3);   // PWREN
    rLCDCON5=rLCDCON5&(~(1<<5))|(invpwren<<5);   // INVPWREN
}

/**************************************************************
320×240 16Bpp TFT LCD移动观察窗口
**************************************************************/
static void Lcd_MoveViewPort(int vx,int vy)
{
    U32 addr;

    SET_IF(); 
	#if (LCD_XSIZE_TFT_240320<32)
    	    while((rLCDCON1>>18)<=1); // if x<32
	#else	
    	    while((rLCDCON1>>18)==0); // if x>32
	#endif
    
    addr=(U32)LCD_BUFFER+(vx*2)+vy*(SCR_XSIZE_TFT_240320*2);
	rLCDSADDR1= ( (addr>>22)<<21 ) | M5D(addr>>1);
	rLCDSADDR2= M5D(((addr+(SCR_XSIZE_TFT_240320*LCD_YSIZE_TFT_240320*2))>>1));
	CLR_IF();
}    

/**************************************************************
320×240 16Bpp TFT LCD移动观察窗口
**************************************************************/
static void MoveViewPort(void)
{
    int vx=0,vy=0,vd=1;

    Uart_Printf("\n*Move the LCD view windos:\n");
    Uart_Printf(" press 8 is up\n");
    Uart_Printf(" press 2 is down\n");
    Uart_Printf(" press 4 is left\n");
    Uart_Printf(" press 6 is right\n");
    Uart_Printf(" press Enter to exit!\n");

    while(1)
    {
    	switch( Uart_GetKey() )
    	{
    	case '8':
	    if(vy>=vd)vy-=vd;    	   	
        break;

    	case '4':
    	    if(vx>=vd)vx-=vd;
    	break;

    	case '6':
                if(vx<=(SCR_XSIZE_TFT_240320-LCD_XSIZE_TFT_240320-vd))vx+=vd;   	    
   	    break;

    	case '2':
                if(vy<=(SCR_YSIZE_TFT_240320-LCD_YSIZE_TFT_240320-vd))vy+=vd;   	    
   	    break;

    	case '\r':
   	    return;

    	default:
	    break;
		}
	Uart_Printf("vx=%3d,vy=%3d\n",vx,vy);
	Lcd_MoveViewPort(vx,vy);
    }
}

/**************************************************************
320×240 16Bpp TFT LCD单个象素的显示数据输出
**************************************************************/
static void PutPixel(U32 x,U32 y, U32 c )
{
	if ( (x < SCR_XSIZE_TFT_240320) && (y < SCR_YSIZE_TFT_240320) )
		LCD_BUFFER[(y)][(x)] = c;
}

/**************************************************************
320×240 16Bpp TFT LCD全屏填充特定颜色单元或清屏
**************************************************************/
static void Lcd_ClearScr( U32 c)
{
	unsigned int x,y ;
		
    for( y = 0 ; y < SCR_YSIZE_TFT_240320 ; y++ )
    {
    	for( x = 0 ; x < SCR_XSIZE_TFT_240320 ; x++ )
    	{
			LCD_BUFFER[y][x] = c ;
    	}
    }
}

/**************************************************************
LCD屏幕显示垂直翻转
// LCD display is flipped vertically
// But, think the algorithm by mathematics point.
//   3I2
//   4 I 1
//  --+--   <-8 octants  mathematical cordinate
//   5 I 8
//   6I7
**************************************************************/
static void Glib_Line(int x1,int y1,int x2,int y2,int color)
{
	int dx,dy,e;
	dx=x2-x1; 
	dy=y2-y1;
    
	if(dx>=0)
	{
		if(dy >= 0) // dy>=0
		{
			if(dx>=dy) // 1/8 octant
			{
				e=dy-dx/2;
				while(x1<=x2)
				{
					PutPixel(x1,y1,color);
					if(e>0){y1+=1;e-=dx;}	
					x1+=1;
					e+=dy;
				}
			}
			else		// 2/8 octant
			{
				e=dx-dy/2;
				while(y1<=y2)
				{
					PutPixel(x1,y1,color);