📄 2410lib.c
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}
//*****************************************************************************
//get a number for the uart
//*****************************************************************************
int Uart_GetIntNum_GJ(void)
{
char string[16] ;
char *p_string = string ;
char c;
int i = 0 ;
int data = 0 ;
while( (c=getch()) != '\r' )
{
if(c=='\b') p_string--;
else *p_string++=c;
putch( c ) ;
}
*p_string = '\0';
i = 0 ;
while( string[i] != '\0' )
{
data = data * 10 ;
if( string[i]<'0'||string[i]>'9' )
return -1 ;
data = data + ( string[i]-'0' ) ;
i++ ;
}
return data ;
}
//*****************************************************************************
//=====================================================================
void wait_print_end(void)
{
int i;
while(!(rUTRSTAT0 & 0x2));
i = 10000;
while(i--);
}
//=====================================================================
void putch(int data)
{
if(whichUart==0)
{
if(data=='\n')
{
while(!(rUTRSTAT0 & 0x2));
Delay(10); //because the slow response of hyper_terminal
WrUTXH0('\r');
}
while(!(rUTRSTAT0 & 0x2)); //Wait until THR is empty.
Delay(10);
WrUTXH0(data);
}
else if(whichUart==1)
{
if(data=='\n')
{
while(!(rUTRSTAT1 & 0x2));
Delay(1); //because the slow response of hyper_terminal
rUTXH1 = '\r';
}
while(!(rUTRSTAT1 & 0x2)); //Wait until THR is empty.
Delay(1);
rUTXH1 = data;
}
else if(whichUart==2)
{
if(data=='\n')
{
while(!(rUTRSTAT2 & 0x2));
Delay(1); //because the slow response of hyper_terminal
rUTXH2 = '\r';
}
while(!(rUTRSTAT2 & 0x2)); //Wait until THR is empty.
Delay(1);
rUTXH2 = data;
}
}
//====================================================================
void puts(char *pt)
{
while(*pt)
putch(*pt++);
}
//=====================================================================
//If you don't use vsprintf(), the code size is reduced very much.
void printf(char *fmt,...)
{
va_list ap;
char string[256];
va_start(ap,fmt);
vsprintf(string,fmt,ap);
puts(string);
va_end(ap);
}
//=============================================================
char DbgPause(char *str)
{
if(str)
puts(str);
else
puts("Debug breakpoint, press any key to continue...\n");
return getch();
}
//**************************[ BOARD LED ]*********************************
void Led_Display(int data)
{
//Active is low.(LED On)
// GPF7 GPF6 GPF5 GPF4
//nLED_8 nLED4 nLED_2 nLED_1
// rGPFDAT = (rGPFDAT & 0xf) | !((data & 0xf)<<4);
rGPFDAT = (rGPFDAT & ~(0xf<<4)) | ((~data & 0xf)<<4);
}
void Led_Test( void )
{
Uart_Printf( "\nLED TEST\n" );
Uart_Printf( "Press 'ESC' key to Exit this program !\n\n" );
while( Uart_GetKey() != ESC_KEY )
{
rGPFDAT = rGPFDAT & (~(0xf<<4)) | ( 8<<4 ) ;
Delay( 3000 ) ;
rGPFDAT = rGPFDAT & (~(0xf<<4)) | ( 4<<4 ) ;
Delay( 3000 ) ;
rGPFDAT = rGPFDAT & (~(0xf<<4)) | ( 2<<4 ) ;
Delay( 3000 ) ;
rGPFDAT = rGPFDAT & (~(0xf<<4)) | ( 1<<4 ) ;
Delay( 3000 ) ;
rGPFDAT = rGPFDAT & (~(0xf<<4)) | ( 0<<4 ) ;
Delay( 3000 ) ;
rGPFDAT = rGPFDAT & (~(0xf<<4)) | ( 1<<4 ) ;
Delay( 3000 ) ;
rGPFDAT = rGPFDAT & (~(0xf<<4)) | ( 2<<4 ) ;
Delay( 3000 ) ;
rGPFDAT = rGPFDAT & (~(0xf<<4)) | ( 4<<4 ) ;
Delay( 3000 ) ;
rGPFDAT = rGPFDAT & (~(0xf<<4)) | ( 8<<4 ) ;
Delay( 3000 ) ;
}
}
void Buzzer_Freq_Set( U32 freq )
{
rGPBCON &= ~3; //set GPB0 as tout0, pwm output
rGPBCON |= 2;
rTCFG0 &= ~0xff;
rTCFG0 |= 15; //prescaler = 15+1
rTCFG1 &= ~0xf;
rTCFG1 |= 2; //mux = 1/8
rTCNTB0 = (PCLK>>7)/freq;
rTCMPB0 = rTCNTB0>>1; // 50%
rTCON &= ~0x1f;
rTCON |= 0xb; //disable deadzone, auto-reload, inv-off, update TCNTB0&TCMPB0, start timer 0
rTCON &= ~2; //clear manual update bit
}
void Buzzer_Stop( void )
{
rGPBCON &= ~3; //set GPB0 as output
rGPBCON |= 1;
rGPBDAT &= ~1;
}
//***************************[ BOARD BEEP ]*******************************
void Beep(U32 freq, U32 ms)
{
Buzzer_Freq_Set( freq ) ;
Delay( ms ) ;
Buzzer_Stop() ;
}
/****************************************************************************
【功能说明】蜂鸣器PWM测试
****************************************************************************/
void BUZZER_PWM_Test( void )
{
U16 freq = 2000 ;
Uart_Printf( "\nBUZZER TEST ( PWM Control )\n" );
Uart_Printf( "Press +/- to increase/reduce the frequency of BUZZER !\n" ) ;
Uart_Printf( "Press 'ESC' key to Exit this program !\n\n" );
Buzzer_Freq_Set( freq ) ;
while( 1 )
{
U8 key = Uart_Getch();
if( key == '+' )
{
if( freq < 20000 )
freq += 10 ;
Buzzer_Freq_Set( freq ) ;
}
if( key == '-' )
{
if( freq > 11 )
freq -= 10 ;
Buzzer_Freq_Set( freq ) ;
}
Uart_Printf( "\tFreq = %d\n", freq ) ;
if( key == ESC_KEY )
{
Buzzer_Stop() ;
return ;
}
}
}
//*************************[ Timer ]********************************
void Timer_Start(int divider) //0:16us,1:32us 2:64us 3:128us
{
rWTCON = ((PCLK/1000000-1)<<8)|(divider<<3); //Watch-dog timer control register
rWTDAT = 0xffff; //Watch-dog timer data register
rWTCNT = 0xffff; //Watch-dog count register
// Watch-dog timer enable & interrupt disable
rWTCON = rWTCON |(1<<5) & !(1<<2);
}
//=================================================================
int Timer_Stop(void)
{
rWTCON = ((PCLK/1000000-1)<<8);
return (0xffff - rWTCNT);
}
//*************************[ MPLL ]*******************************
void ChangeMPllValue(int mdiv,int pdiv,int sdiv)
{
rMPLLCON = (mdiv<<12) | (pdiv<<4) | sdiv;
}
//************************[ HCLK, PCLK ]***************************
void ChangeClockDivider(int hdivn,int pdivn)
{
// hdivn,pdivn FCLK:HCLK:PCLK
// 0,0 1:1:1
// 0,1 1:1:2
// 1,0 1:2:2
// 1,1 1:2:4
rCLKDIVN = (hdivn<<1) | pdivn;
if(hdivn)
MMU_SetAsyncBusMode();
else
MMU_SetFastBusMode();
}
//**************************[ UPLL ]*******************************
void ChangeUPllValue(int mdiv,int pdiv,int sdiv)
{
rUPLLCON = (mdiv<<12) | (pdiv<<4) | sdiv;
}
//***************************[ SYSTEM ]***************************************************
static int delayLoopCount = 400;
void Delay(int time)
{
// time=0: adjust the Delay function by WatchDog timer.
// time>0: the number of loop time
// resolution of time is 100us.
int i,adjust=0;
if(time==0)
{
time = 200;
adjust = 1;
delayLoopCount = 400;
//PCLK/1M,Watch-dog disable,1/64,interrupt disable,reset disable
rWTCON = ((PCLK/1000000-1)<<8)|(2<<3);
rWTDAT = 0xffff; //for first update
rWTCNT = 0xffff; //resolution=64us @any PCLK
rWTCON = ((PCLK/1000000-1)<<8)|(2<<3)|(1<<5); //Watch-dog timer start
}
for(;time>0;time--)
for(i=0;i<delayLoopCount;i++);
if(adjust==1)
{
rWTCON = ((PCLK/1000000-1)<<8)|(2<<3); //Watch-dog timer stop
i = 0xffff - rWTCNT; //1count->64us, 200*400 cycle runtime = 64*i us
delayLoopCount = 8000000/(i*64); //200*400:64*i=1*x:100 -> x=80000*100/(64*i)
}
}
//*************************[ General Library ]**********************
void * malloc1(unsigned nbyte)
//Very simple; Use malloc() & free() like Stack
//void *mallocPt=Image$$RW$$Limit;
{
void *returnPt = mallocPt;
mallocPt = (int *)mallocPt+nbyte/4+((nbyte%4)>0); //To align 4byte
if( (int)mallocPt > HEAPEND )
{
mallocPt = returnPt;
return NULL;
}
return returnPt;
}
//-------------------------------------------------------------------
void free1(void *pt)
{
mallocPt = pt;
}
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