📄 irint.c
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//#ifdef INTERRUPT1
#include "reg51.h"
#include <intrins.h>
//#include "Common.h"
#include "Remote.h"
//#include "KeyPad.h"
//#include "OSDDraw.h"
//#include "TwoWire.h"
//#include "T101_Util.h"
//extern uWORD XCLK_MCU;
extern bit ir_enable;
extern uCHAR ir_data;
uCHAR idata ir_data1;
//extern uWORD count1;
//extern bit IRFACTRY_Ctrl(uCHAR cCom);
bit Filter13(bit le)
{
bit r;
r=INT1;
if(le==1)
{
_nop_();
_nop_();
_nop_();
r&=INT1;
_nop_();
_nop_();
_nop_();
r&=INT1;
}
else
{
_nop_();
_nop_();
_nop_();
r|=INT1;
_nop_();
_nop_();
_nop_();
r|=INT1;
}
if(r==le)
return 1;
else
return 0;
}
/*遥控接收在此中断程序内完成
数据放在ir_data内*/
/************************************/
/* Interrupt for IR subroutine */
/* external interrupt source INT0 */
/************************************/
void int1Remote(void) interrupt 2
{
/* static uWORD IR_HEAD=20000;// = (XCLK_MCU*3/4);//10738//9000//7500
static uWORD OFF_CODE=10000;// = (IR_HEAD/2);//5369//4500//3750
uWORD OFF_REP;// = (IR_HEAD/4);//2684//2250// 1875
uWORD REP_CODE;// = (IR_HEAD/16);//667//467
uWORD DELTA ;// = 300;//250
uWORD CODE_0_TIME;//= (IR_HEAD/16);//667//557//467
uWORD CODE_1_TIME;//= (CODE_0_TIME*3);//2000//1670//1400*/
register BYTE i;
unsigned int count,count1; /*计时变量*/
unsigned int temp0,temp1,ir_code=0;
ir_enable=TRUE;
TMOD=0x11; /*timer 0 operate in 16 bit mode*/
EX1=0;
TL0=0;
TH0=0;
TR0=1;
/************************************/
/* Detect IR Head */
/************************************/
do /*Detect IR head 9mS*/
{
count=(TL0+TH0*256); /*count :us unit */
if(Filter13(1)==1) break;
}while(count<=(IR_HEAD+DELTA));
TR0=0; /*停止计时*/
count=(TL0+TH0*256); /*count :us unit */
if(Filter13(0)==1||((count<(IR_HEAD-DELTA*25))))//&&(IR_HEAD!=0xffff)))//||count<(7000))//IR_HEAD!=0xffff) /*for some noise disturb IR*/
{
ir_enable=FALSE; /* no IR head or not suitable for Ir head*/
EX1=1;
TR0=1;
return;
}
/************************************/
/* Detect OFF CODE 4.5mS */
/************************************/
while(Filter13(0)==1);
TR0=0;
TL0=0;
TH0=0;
TR0=1;
do /*Detect IR OFF CODE*/
{
count=(TL0+TH0*256); /*count :us unit */
if(Filter13(0)==1) break;
}while(count<(OFF_CODE+DELTA));
count1=count;
/* if(IR_HEAD==0xffff)IR_HEAD = count*2;//10738//9000//7500
OFF_CODE = IR_HEAD/2;//5369//4500//3750
OFF_REP = (IR_HEAD/4);//2684//2250// 1875
REP_CODE = (IR_HEAD/16);//667//467
DELTA = 300;//250
CODE_0_TIME= (IR_HEAD/16);//667//557//467
CODE_1_TIME= (CODE_0_TIME*3);//2000//1670//1400*/
TR0=0;
count=(TL0+TH0*256); /*count :us unit */
if(count<=(OFF_CODE-DELTA*2))
{
/*重复码OFF=2.25*/
if((count>(OFF_REP-DELTA)&&count<(OFF_REP+DELTA)))
{
TR0=0;
TL0=0;
TH0=0;
TR0=1;
do
{
count=(TL0+TH0*256); /*count :us unit */
if(Filter13(1)==1) break;
}while(count<=(REP_CODE+DELTA));
TR0=0;
count=(TL0+TH0*256); /*count :us unit */
if(INT1==1)
{
TR0=0;
if(ir_data==REMOTE_KEY_VO_DEC||ir_data==REMOTE_KEY_VO_INC||
ir_data==REMOTE_KEY_DECR||ir_data==REMOTE_KEY_INCR)
{
ir_enable=TRUE; /*注意:ir_data不变*/
EX1=0;
}
else
{
ir_data=0;
ir_enable=FALSE;
EX1=1;
TR0=1;
}
return;
}
}
else
{
ir_enable=FALSE; /*not suitable for off code*/
EX1=1;
TR0=1;
return;
}
}
/************************************/
/* Detect 16 bit address code */
/************************************/
if(ir_enable==TRUE)
{
TMOD=0x11; /*counter start with INT0 and TR0*/
ir_code=0; /*初始化变量*/
for(i=0;i<16;i++)
{
while(INT1==0);
TL0=0;
TH0=0;
TR0=1;
do
{
count=(TL0+TH0*256); /*count :us unit */
if(Filter13(0)==1) break;
}while(count<=(CODE_1_TIME+DELTA)); /*INT0为高电平时计时*/
TR0=0;
ir_code<<=1;
if((count>(CODE_1_TIME-DELTA))&&(count<=(CODE_1_TIME+DELTA))) /*detect 1 code 2.24mS-0.56mS=1.68mS*/
ir_code++;
else if((count>(CODE_0_TIME-DELTA))&&(count<=(CODE_0_TIME+DELTA))); /*detect 0 code 1.12mS-0.56mS=0.56mS*/
else
{
ir_enable=FALSE;
TR0=1;
break; /*not suitable for address code */
}
} /*end for*/
}
/************************************/
/* Detect 16 bit data code */
/************************************/
if(ir_enable==TRUE&&ir_code==IR_SYSTEM_CODE)/**/
{
TMOD=0x11; /*counter start with INT0 and TR0*/
ir_code=0;
for(i=0;i<16;i++)
{
while(INT1==0);
TL0=0;
TH0=0;
TR0=1;
do
{
count=(TL0+TH0*256);
if(Filter13(0)==1) break;
}while(count<=(CODE_1_TIME+DELTA)); /*INT0为高电平时计时*/
TR0=0;
//count=(TL0+TH0*256); /*count :us unit */
ir_code<<=1;
if((count>(CODE_1_TIME-DELTA))&&(count<=(CODE_1_TIME+DELTA))) /*detect 1 code 1.68mS*/
ir_code++;
else if((count>(CODE_0_TIME-DELTA)&&count<=(CODE_0_TIME+DELTA))); /*detect 0 code 0.56mS*/
else
{
ir_enable=FALSE;
TR0=1;
break; /*not suitable for address code */
}
} /*end for*/
if(ir_enable==TRUE)
{
temp0=ir_code&0xff00;
temp0=~temp0;
temp0>>=8;
temp1=ir_code&0x00ff;
if(temp0!=temp1)
ir_enable=FALSE;
else
{
ir_data=(BYTE)(temp1); /*true code effective*/
#ifdef REMOTE_CODE
ir_data=0xff-ir_data;
ir_data=((ir_data<<4)&0xf0)|((ir_data>>4)&0x0f);
ir_data=((ir_data<<2)&0xcc)|((ir_data>>2)&0x33);
ir_data=((ir_data<<1)&0xaa)|((ir_data>>1)&0x55);
#endif
ir_enable=TRUE; /*set ir flag*/
EX1=0;
// IR_HEAD = count1*2;
return;
}
}
}
else
{ ir_enable=FALSE;
EX1=1;}
}
extern bit bFactry_Func;
extern uCHAR cSTV1_ON;
void RemoteEvent(void)
{
bit bTemp=0;
switch(ir_data)
{
case REMOTE_KEY_POWER: bTemp=kyPOWEREvent(); break;
case REMOTE_KEY_SOURCE: IRSourceSelKeyCtrl(); break;
// case REMOTE_KEY_DISPLAY:IRNTSC_PALCtrl();break;
case REMOTE_KEY_DECR: bTemp=kyDECREASEEvent(); break;
case REMOTE_KEY_INCR: bTemp=kyINCREASEEvent(); break;
//Ruby 2004-06-07 case REMOTE_KEY_OK: OSDExit(); break;
case REMOTE_KEY_MENU: bTemp=kyMENUEvent();break;
case REMOTE_KEY_SCALER : kySCALEREvent();break;
case REMOTE_KEY_VO_INC: bTemp=IRVolDownKeyCtrl();/* Ruby */ break;
case REMOTE_KEY_VO_DEC: bTemp=IRVolUpKeyCtrl();/* Ruby */ break;
case REMOTE_KEY_DEC_P: bTemp=IRDownKeyCtrl(); break;
case REMOTE_KEY_INC_P: bTemp=IRUpKeyCtrl();break;
#if 0
case REMOTE_KEY_NUM0: //REMOTE_KEY_FUNC_F:
bFactry_Func=1;
break;
case REMOTE_KEY_NUM1: //REMOTE_KEY_MENU_F:
if(bFactry_Func)
IRFACTRY_Ctrl(0);
break;
case REMOTE_KEY_NUM2: //REMOTE_KEY_MUTE:
if(bFactry_Func)
IRFACTRY_Ctrl(9);
break;
case REMOTE_KEY_NUM3: //REMOTE_KEY_DEC_PF:
IRFACTRY_Ctrl(1);
break;
case REMOTE_KEY_NUM4: //REMOTE_KEY_INC_PF:
IRFACTRY_Ctrl(2);
break;
case REMOTE_KEY_NUM5: //REMOTE_KEY_DECR_F:
IRFACTRY_Ctrl(3);
break;
case REMOTE_KEY_NUM6: //REMOTE_KEY_INCR_F:
IRFACTRY_Ctrl(4);
break;
case REMOTE_KEY_NUM7: //REMOTE_KEY_SAVE_F:
if(bFactry_Func)
IRFACTRY_Ctrl(5);
break;
case REMOTE_KEY_NUM8: //REMOTE_KEY_SET100_F
if(bFactry_Func)
IRFACTRY_Ctrl(8);
break;
case REMOTE_KEY_NUM9: //REMOTE_KEY_IFAST_F:
IRFACTRY_Ctrl(6);
break;
case REMOTE_KEY_NUM_Bites: //REMOTE_KEY_DFAST_F:
IRFACTRY_Ctrl(7);
break;
//case REMOTE_KEY_NUM0: if(bFactry_Func)IRFACTRY_Ctrl(8);break;
#endif
//Ruby 2004-06-21 for display mode
#ifdef ROTATE
case REMOTE_KEY_AIRCABLE : kyDismodeEvent(); break;
#endif
/*#ifdef TV
//Kuo case REMOTE_KEY_MUTE: bTemp=IRSetupKeyCtrl(); break;
// case REMOTE_KEY_DEC_P: bTemp=IRDownKeyCtrl(); break;
// case REMOTE_KEY_INC_P: bTemp=IRUpKeyCtrl();break;
case REMOTE_KEY_NUM0: IRNumKeyCtrl(0); break;
case REMOTE_KEY_NUM1: IRNumKeyCtrl(1); break;
case REMOTE_KEY_NUM2: IRNumKeyCtrl(2); break;
case REMOTE_KEY_NUM3: IRNumKeyCtrl(3); break;
case REMOTE_KEY_NUM4: IRNumKeyCtrl(4); break;
case REMOTE_KEY_NUM5: IRNumKeyCtrl(5); break;
case REMOTE_KEY_NUM6: IRNumKeyCtrl(6); break;
case REMOTE_KEY_NUM7: IRNumKeyCtrl(7); break;
case REMOTE_KEY_NUM8: IRNumKeyCtrl(8); break;
case REMOTE_KEY_NUM9: IRNumKeyCtrl(9); break;
case REMOTE_KEY_NUM_Bites: RNumKeyCtrl(10); break;
#endif*/
}
if(bTemp)
OSDEventMgr();
EX1=1;
}
//#endif
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