📄 lcd.c
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/*********************************************************************************************
* File: lcd.c
* Author: embest
* Desc: LCD control and display functions
* History:
* H.T.Zhang, Programming modify, September 12, 2005
*********************************************************************************************/
#include "lcd.h"
#include "bmp.h"
#include "44b.h"
/*------------------------------------------------------------------------------------------*/
/* constant define */
/*------------------------------------------------------------------------------------------*/
#define XWIDTH 6
#define LCD_STN256_COLOR
#define ASCII6x8
/*------------------------------------------------------------------------------------------*/
/* global variables */
/*------------------------------------------------------------------------------------------*/
UINT32T g_unLcdActiveBuffer[LCD_YSIZE][LCD_XSIZE/4];
/*------------------------------------------------------------------------------------------*/
/* extern variables */
/*------------------------------------------------------------------------------------------*/
extern const UINT8T g_ucBitmap[][76800];
extern UINT8T g_ucAscii8x16[];
#ifdef ASCII6x8
extern UINT8T g_ucAscii6x8[];
#endif
//#ifdef CHINESE_VERSION
#ifdef HZK12
extern const UINT8T g_auc_hzk12[];
#endif
#ifdef HZK16
extern const UINT8T g_ucHZK16[];
#endif
#ifdef HZK24
extern const UINT8T g_auc_hzk24[];
#endif
//#endif
/*********************************************************************************************
* name: lcd_init()
* func: Initialize LCD Controller
* para: none
* ret: none
* modify:
* comment:
*********************************************************************************************/
void lcd_init(void)
{
rDITHMODE = 0x12210;
rDP1_2 = 0xa5a5;
rDP4_7 = 0xba5da65;
rDP3_5 = 0xa5a5f;
rDP2_3 = 0xd6b;
rDP5_7 = 0xeb7b5ed;
rDP3_4 = 0x7dbe;
rDP4_5 = 0x7ebdf;
rDP6_7 = 0x7fdfbfe;
// disable,8B_SNGL_SCAN,WDLY=16clk,WLH=16clk,
rLCDCON1 = (0x0)|(2<<5)|(MVAL_USED<<7)|(0x3<<8)|(0x3<<10)|(CLKVAL_COLOR<<12);
// LINEBLANK=10 (without any calculation)
rLCDCON2 = (LINEVAL)|(HOZVAL_COLOR<<10)|(10<<21);
rLCDCON3 = 0;
// 256-color, LCDBANK, LCDBASEU
rLCDSADDR1 = (0x3<<27) | ( ((unsigned int)g_unLcdActiveBuffer>>22)<<21 ) | M5D((unsigned int)g_unLcdActiveBuffer>>1);
rLCDSADDR2 = M5D((((unsigned int)g_unLcdActiveBuffer+(SCR_XSIZE*LCD_YSIZE))>>1)) | (MVAL<<21);
rLCDSADDR3 = (LCD_XSIZE/2) | ( ((SCR_XSIZE-LCD_XSIZE)/2)<<9 );
//The following value has to be changed for better display.
rREDLUT =0xfdb96420; // 1111 1101 1011 1001 0110 0100 0010 0000
rGREENLUT=0xfdb96420; // 1111 1101 1011 1001 0110 0100 0010 0000
rBLUELUT =0xfb40; // 1111 1011 0100 0000
rLCDCON1=(0x1)|(2<<5)|(MVAL_USED<<7)|(0x3<<8)|(0x3<<10)|(CLKVAL_COLOR<<12);
rPDATE=rPDATE&0x0e;
lcd_clr();
}
/*********************************************************************************************
* name: lcd_clr()
* func: clear LCD screen
* para: none
* ret: none
* modify:
* comment:
*********************************************************************************************/
void lcd_clr(void)
{
UINT32T i;
UINT32T *pDisp = (UINT32T*)g_unLcdActiveBuffer;
for (i = 0; i < (SCR_XSIZE * SCR_YSIZE / 4); i++)
{
*pDisp++ = ALLWHITE;
}
}
#ifdef LCD_STN256_COLOR
/*********************************************************************************************
* name: lcd_clr_rect()
* func: fill appointed area with appointed color
* para: usLeft,usTop,usRight,usBottom -- area's rectangle acme coordinate
* ucColor -- appointed color value
* ret: none
* modify:
* comment: also as clear screen function
*********************************************************************************************/
void lcd_clr_rect(UINT16T usLeft, UINT16T usTop, UINT16T usRight, UINT16T usBottom, UINT8T ucColor)
{
UINT32T i, j;
UINT8T *pDisp = (UINT8T*)g_unLcdActiveBuffer;
for(i=usTop;i<=usBottom;i++)
{
for(j=usLeft;j<=usRight;j++)
{
LCD_PutPixel(j, i, ucColor);
}
}
}
#endif
#ifdef LCD_STN256_GRAY
/*********************************************************************************************
* name: lcd_clr_rect()
* func: fill appointed area with appointed color
* para: usLeft,usTop,usRight,usBottom -- area's rectangle acme coordinate
* ucColor -- appointed color value
* ret: none
* modify:
* comment: also as clear screen function
*********************************************************************************************/
void lcd_clr_rect(UINT16T usLeft, UINT16T usTop, UINT16T usRight, UINT16T usBottom, UINT8T ucColor)
{
UINT16T i=0;
UINT16T k,l;
UINT16T m;
UINT32T ulColor = (ucColor << 28) | (ucColor << 24) | (ucColor << 20) | (ucColor << 16) |
(ucColor << 12) | (ucColor << 8) | (ucColor << 4) | ucColor;
if((usRight-usLeft)<=8)
{
for(i=usTop;i<=usBottom;i++)
{
for(m=usLeft;m<=usRight;m++)
{
LCD_PutPixel(m, i, ucColor);
}
}
return;
}
if((usLeft%8)==0)
k=usLeft;
else
k=(usLeft/8)*8+8;
if(( usRight%8)==0)
l= usRight;
else
l=( usRight/8)*8;
for(i=usTop;i<=usBottom;i++)
{
for(m=usLeft;m<=(k-1);m++)
LCD_PutPixel(m, i, ucColor);
for(m=k;m<l;m+=8)
(*(UINT32T*)(g_unLcdActiveBuffer + i * SCR_XSIZE / 2 + m / 2)) = ulColor;
for(m=l;m<=usRight;m++)
LCD_PutPixel(m, i, ucColor);
}
}
#endif
/*********************************************************************************************
* name: lcd_draw_box()
* func: Draw rectangle with appointed color
* para: usLeft,usTop,usRight,usBottom -- rectangle's acme coordinate
* ucColor -- appointed color value
* ret: none
* modify:
* comment:
*********************************************************************************************/
void lcd_draw_box(UINT16T usLeft, UINT16T usTop, UINT16T usRight, UINT16T usBottom, UINT8T ucColor)
{
lcd_draw_hline(usLeft, usRight, usTop, ucColor, 1);
lcd_draw_hline(usLeft, usRight, usBottom, ucColor, 1);
lcd_draw_vline(usTop, usBottom, usLeft, ucColor, 1);
lcd_draw_vline(usTop, usBottom, usRight, ucColor, 1);
}
/*********************************************************************************************
* name: lcd_draw_line()
* func: Draw line with appointed color
* para: usX0,usY0 -- line's start point coordinate
* usX1,usY1 -- line's end point coordinate
* ucColor -- appointed color value
* usWidth -- line's width
* ret: none
* modify:
* comment:
*********************************************************************************************/
void lcd_draw_line(UINT16T usX0, UINT16T usY0, UINT16T usX1, UINT16T usY1, UINT8T ucColor, UINT16T usWidth)
{
UINT16T usDx;
UINT16T usDy;
UINT16T y_sign;
UINT16T x_sign;
UINT16T decision;
UINT16T wCurx, wCury, wNextx, wNexty, wpy, wpx;
if( usY0 == usY1 )
{
lcd_draw_hline (usX0, usX1, usY0, ucColor, usWidth);
return;
}
if( usX0 == usX1 )
{
lcd_draw_vline (usY0, usY1, usX0, ucColor, usWidth);
return;
}
usDx = abs(usX0 - usX1);
usDy = abs(usY0 - usY1);
if( ((usDx >= usDy && (usX0 > usX1)) ||
((usDy > usDx) && (usY0 > usY1))) )
{
GUISWAP(usX1, usX0);
GUISWAP(usY1, usY0);
}
y_sign = (usY1 - usY0) / usDy;
x_sign = (usX1 - usX0) / usDx;
if( usDx >= usDy )
{
for( wCurx = usX0, wCury = usY0, wNextx = usX1,
wNexty = usY1, decision = (usDx >> 1);
wCurx <= wNextx; wCurx++, wNextx--, decision += usDy )
{
if( decision >= usDx )
{
decision -= usDx;
wCury += y_sign;
wNexty -= y_sign;
}
for( wpy = wCury - usWidth / 2;
wpy <= wCury + usWidth / 2; wpy++ )
{
LCD_PutPixel(wCurx, wpy, ucColor);
}
for( wpy = wNexty - usWidth / 2;
wpy <= wNexty + usWidth / 2; wpy++ )
{
LCD_PutPixel(wNextx, wpy, ucColor);
}
}
}
else
{
for( wCurx = usX0, wCury = usY0, wNextx = usX1,
wNexty = usY1, decision = (usDy >> 1);
wCury <= wNexty; wCury++, wNexty--, decision += usDx )
{
if( decision >= usDy )
{
decision -= usDy;
wCurx += x_sign;
wNextx -= x_sign;
}
for( wpx = wCurx - usWidth / 2;
wpx <= wCurx + usWidth / 2; wpx++ )
{
LCD_PutPixel(wpx, wCury, ucColor);
}
for( wpx = wNextx - usWidth / 2;
wpx <= wNextx + usWidth / 2; wpx++ )
{
LCD_PutPixel(wpx, wNexty, ucColor);
}
}
}
}
/*********************************************************************************************
* name: lcd_draw_hline()
* func: Draw horizontal line with appointed color
* para: usX0,usY0 -- line's start point coordinate
* usX1 -- line's end point X-coordinate
* ucColor -- appointed color value
* usWidth -- line's width
* ret: none
* modify:
* comment:
*********************************************************************************************/
void lcd_draw_hline(UINT16T usX0, UINT16T usX1, UINT16T usY0, UINT8T ucColor, UINT16T usWidth)
{
UINT16T usLen;
if( usX1 < usX0 )
{
GUISWAP (usX1, usX0);
}
while( (usWidth--) > 0 )
{
usLen = usX1 - usX0 + 1;
while( (usLen--) > 0 )
{
LCD_PutPixel(usX0 + usLen, usY0, ucColor);
}
usY0++;
}
}
/*********************************************************************************************
* name: lcd_draw_vline()
* func: Draw vertical line with appointed color
* para: usX0,usY0 -- line's start point coordinate
* usY1 -- line's end point Y-coordinate
* ucColor -- appointed color value
* usWidth -- line's width
* ret: none
* modify:
* comment:
*********************************************************************************************/
void lcd_draw_vline (UINT16T usY0, UINT16T usY1, UINT16T usX0, UINT8T ucColor, UINT16T usWidth)
{
UINT16T usLen;
if( usY1 < usY0 )
{
GUISWAP (usY1, usY0);
}
while( (usWidth--) > 0 )
{
usLen = usY1 - usY0 + 1;
while( (usLen--) > 0 )
{
LCD_PutPixel(usX0, usY0 + usLen, ucColor);
}
usX0++;
}
}
/*********************************************************************************************
* name: lcd_disp_ascii8x16()
* func: display 8x16 ASCII character string
* para: usX0,usY0 -- ASCII character string's start point coordinate
* ForeColor -- appointed color value
* pucChar -- ASCII character string
* ret: none
* modify:
* comment:
*********************************************************************************************/
void lcd_disp_ascii8x16(UINT16T x0, UINT16T y0, UINT8T ForeColor, UINT8T * s)
{
UINT16T i,j,k,x,y,xx;
UINT8T qm;
UINT32T ulOffset;
INT8T ywbuf[16],temp[2];
for( i = 0; i < strlen((const char *)s); i++ )
{
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