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// CodeVisionAVR C Compiler
// (C) 1998-2005 Pavel Haiduc, HP InfoTech S.R.L.
// I/O registers definitions
// CodeVisionAVR C Compiler
// (C) 1998-2001 Pavel Haiduc, HP InfoTech S.R.L.
// I/O registers definitions for the ATmega16
#pragma used+
sfrb TWBR=0;
sfrb TWSR=1;
sfrb TWAR=2;
sfrb TWDR=3;
sfrb ADCL=4;
sfrb ADCH=5;
sfrw ADCW=4; // 16 bit access
sfrb ADCSRA=6;
sfrb ADMUX=7;
sfrb ACSR=8;
sfrb UBRRL=9;
sfrb UCSRB=0xa;
sfrb UCSRA=0xb;
sfrb UDR=0xc;
sfrb SPCR=0xd;
sfrb SPSR=0xe;
sfrb SPDR=0xf;
sfrb PIND=0x10;
sfrb DDRD=0x11;
sfrb PORTD=0x12;
sfrb PINC=0x13;
sfrb DDRC=0x14;
sfrb PORTC=0x15;
sfrb PINB=0x16;
sfrb DDRB=0x17;
sfrb PORTB=0x18;
sfrb PINA=0x19;
sfrb DDRA=0x1a;
sfrb PORTA=0x1b;
sfrb EECR=0x1c;
sfrb EEDR=0x1d;
sfrb EEARL=0x1e;
sfrb EEARH=0x1f;
sfrw EEAR=0x1e; // 16 bit access
sfrb UBRRH=0x20;
sfrb UCSRC=0X20;
sfrb WDTCR=0x21;
sfrb ASSR=0x22;
sfrb OCR2=0x23;
sfrb TCNT2=0x24;
sfrb TCCR2=0x25;
sfrb ICR1L=0x26;
sfrb ICR1H=0x27;
sfrb OCR1BL=0x28;
sfrb OCR1BH=0x29;
sfrw OCR1B=0x28; // 16 bit access
sfrb OCR1AL=0x2a;
sfrb OCR1AH=0x2b;
sfrw OCR1A=0x2a; // 16 bit access
sfrb TCNT1L=0x2c;
sfrb TCNT1H=0x2d;
sfrw TCNT1=0x2c; // 16 bit access
sfrb TCCR1B=0x2e;
sfrb TCCR1A=0x2f;
sfrb SFIOR=0x30;
sfrb OSCCAL=0x31;
sfrb OCDR=0x31;
sfrb TCNT0=0x32;
sfrb TCCR0=0x33;
sfrb MCUCSR=0x34;
sfrb MCUCR=0x35;
sfrb TWCR=0x36;
sfrb SPMCR=0x37;
sfrb TIFR=0x38;
sfrb TIMSK=0x39;
sfrb GIFR=0x3a;
sfrb GICR=0x3b;
sfrb OCR0=0X3c;
sfrb SPL=0x3d;
sfrb SPH=0x3e;
sfrb SREG=0x3f;
#pragma used-
//***** Bit Definitions
// GIMSK / GICR
// GIFR
// TIMSK
// TIFR
// SPMCR
// TWCR
// MCUCR
// MCUSR
// TCCR0
// SFIOR
// TCCR1A
// TCCR1B
// TCCR2
// ASSR
// WDTCR
// EECR
// PORTA
// DDRA
// PINA
// PORTB
// DDRB
// PINB
// PORTC
// DDRC
// PINC
// PORTD
// DDRD
// PIND
// SPSR
// SPCR
// UCSRA
// UCSRB
//UCSRC
// ACSR
// ADMUX
// ADCSR
// TWAR
// Interrupt vectors definitions
// CodeVisionAVR C Compiler
// (C) 1998-2000 Pavel Haiduc, HP InfoTech S.R.L.
#pragma used+
void delay_us(unsigned int n);
void delay_ms(unsigned int n);
#pragma used-
//#define ENDOFLINE
#pragma used+
void TransmitByte(unsigned char c); //发送一个字节到USART
unsigned char ReceiveByte(void); //从USART中读取一个字节
void TransmitLine(char *s); //发送字符串到USART,以回车符结束
void TransmitLineF(flash char *s); //同上
void TransmitString(char *s); //发送任意字符串到USART
void TransmitStringF(flash char *s); //同上
void USART_Init(unsigned char BaudRate); //初始化USART,BaudRate为速度
void TestRate(void); //测试USART速度
void ReceiveCMD(unsigned char * CmdBuf); //从USART中读取一条命令行
void ReceiveString(unsigned char * CmdBuf); //从USART中读取一条字符串
#pragma used-
#pragma library USART.lib
//Type definitions
typedef unsigned char byte;
typedef unsigned int word;
//音乐频率
const word tone_frq[]=
{ 0,
//低音
7372800/2 /262, 7372800/2 /277, 7372800/2 /294, 7372800/2 /311, 7372800/2 /330, 7372800/2 /349,
7372800/2 /370, 7372800/2 /392, 7372800/2 /415, 7372800/2 /440, 7372800/2 /466, 7372800/2 /494,
//中音
7372800/2 /523, 7372800/2 /554, 7372800/2 /578, 7372800/2 /622, 7372800/2 /659, 7372800/2 /698,
7372800/2 /740, 7372800/2 /784, 7372800/2 /831, 7372800/2 /880, 7372800/2 /932, 7372800/2 /988,
//高音
7372800/2 /1046, 7372800/2 /1109,7372800/2 /1175,7372800/2 /1245,7372800/2 /1318,7372800/2 /1397,
7372800/2 /1480, 7372800/2 /1568,7372800/2 /1661,7372800/2 /1760,7372800/2 /1865,7372800/2 /1976
};
//音乐简谱定义
//低音
//中音
//高音
//节拍定义,以四分音符为一拍
#pragma used+
char * ByteToHex(unsigned char bByte); //Byte格式转为Hex格式
unsigned char HexToByte(char * Hex); //Hex格式转为Byte格式
void ByteToHexBuffer(unsigned char bByte, unsigned char * Hexs); ////Byte格式转为Hex格式Buffer
#pragma used-
#pragma library Types.lib
//TWI define
#pragma used+
void TWI_init(unsigned char Rate); //TWI 初始化 Rate为速度
void TWI_start(void); //启动TWI信号
void TWI_stop(void); //结束TWI信号
unsigned char TWI_read(unsigned char ACK); //读取TWI一个字节
void TWI_write(unsigned char Data); //写入TWI一个字节
void TWI_DefaultInit(void); //TWI最缺省的初始化
#pragma used-
#pragma library TWI.lib
#pragma used+
//EEPROM_Write 写一个字节到EEPROM
void EEPROM_Write(unsigned char H_ADD, unsigned char Type, unsigned int M_ADD, unsigned char Data);
//EEPROM_Read 从EEPROM中读取一个字节
unsigned char EEPROM_Read(unsigned char H_ADD, unsigned char Type, unsigned int M_ADD);
#pragma used-
#pragma library TWIAPP.lib
// CodeVisionAVR C Compiler
// (C) 1998-2005 Pavel Haiduc, HP InfoTech S.R.L.
// Prototypes for string functions
#pragma used+
char *strcat(char *str1,char *str2);
char *strcatf(char *str1,char flash *str2);
char *strchr(char *str,char c);
signed char strcmp(char *str1,char *str2);
signed char strcmpf(char *str1,char flash *str2);
char *strcpy(char *dest,char *src);
char *strcpyf(char *dest,char flash *src);
unsigned char strcspn(char *str,char *set);
unsigned char strcspnf(char *str,char flash *set);
unsigned int strlenf(char flash *str);
char *strncat(char *str1,char *str2,unsigned char n);
char *strncatf(char *str1,char flash *str2,unsigned char n);
signed char strncmp(char *str1,char *str2,unsigned char n);
signed char strncmpf(char *str1,char flash *str2,unsigned char n);
char *strncpy(char *dest,char *src,unsigned char n);
char *strncpyf(char *dest,char flash *src,unsigned char n);
char *strpbrk(char *str,char *set);
char *strpbrkf(char *str,char flash *set);
signed char strpos(char *str,char c);
char *strrchr(char *str,char c);
char *strrpbrk(char *str,char *set);
char *strrpbrkf(char *str,char flash *set);
signed char strrpos(char *str,char c);
char *strstr(char *str1,char *str2);
char *strstrf(char *str1,char flash *str2);
unsigned char strspn(char *str,char *set);
unsigned char strspnf(char *str,char flash *set);
char *strtok(char *str1,char flash *str2);
unsigned int strlen(char *str);
void *memccpy(void *dest,void *src,char c,unsigned n);
void *memchr(void *buf,unsigned char c,unsigned n);
signed char memcmp(void *buf1,void *buf2,unsigned n);
signed char memcmpf(void *buf1,void flash *buf2,unsigned n);
void *memcpy(void *dest,void *src,unsigned n);
void *memcpyf(void *dest,void flash *src,unsigned n);
void *memmove(void *dest,void *src,unsigned n);
void *memset(void *buf,unsigned char c,unsigned n);
#pragma used-
#pragma library string.lib
#asm
.equ __ds1302_port=0x15
.equ __ds1302_sclk=4
.equ __ds1302_io=5
.equ __ds1302_rst=6
#endasm
/*
CodeVisionAVR C Compiler
(C) 1998-2000 Pavel Haiduc, HP InfoTech S.R.L.
Prototypes for the Dallas Semiconductors
DS1302 Real Time Clock functions
BEFORE #include -ING THIS FILE YOU
MUST DECLARE THE I/O ADDRESS OF THE
DATA REGISTER OF THE PORT AT WHICH
DS1302 IS CONNECTED AND
THE DATA BITS USED FOR IO, SCLK and RST pins
EXAMPLE FOR PORTB:
#asm
.equ __ds1302_port=0x18
.equ __ds1302_io=2
.equ __ds1302_sclk=1
.equ __ds1302_rst=4
#endasm
#include <ds1302.h>
*/
#pragma used+
unsigned char ds1302_read(unsigned char addr);
void ds1302_write(unsigned char addr,unsigned char data);
unsigned char rtc_switch(void);
void rtc_start(void);
void rtc_stop(void);
void rtc_init(unsigned char tc_on,unsigned char diodes,unsigned char res);
void rtc_get_time(unsigned char *hour,unsigned char *min,unsigned char *sec);
void rtc_set_time(unsigned char hour,unsigned char min,unsigned char sec);
void rtc_get_date(unsigned char *date,unsigned char *month,unsigned char *year);
void rtc_set_date(unsigned char date,unsigned char month,unsigned char year);
void rtc_get_time_bcd(unsigned char *hour,unsigned char *min,unsigned char *sec);
void rtc_set_time_bcd(unsigned char hour,unsigned char min,unsigned char sec);
void rtc_get_date_bcd(unsigned char *date,unsigned char *month,unsigned char *year);
void rtc_set_date_bcd(unsigned char date,unsigned char month,unsigned char year);
#pragma used-
#pragma library ds1302v2.lib
#asm
.equ __i2c_port=0x12
.equ __scl_bit=0
.equ __sda_bit=1
#endasm
/*
CodeVisionAVR C Compiler
(C) 1998-2000 Pavel Haiduc, HP InfoTech S.R.L.
Prototypes for I2C bus master functions
BEFORE #include -ING THIS FILE YOU
MUST DECLARE THE I/O ADDRESS OF THE
DATA REGISTER OF THE PORT AT WHICH
THE I2C BUS IS CONNECTED AND
THE DATA BITS USED FOR SDA & SCL
EXAMPLE FOR PORTB:
#asm
.equ __i2c_port=0x18
.equ __sda_bit=3
.equ __scl_bit=4
#endasm
#include <i2c.h>
*/
#pragma used+
void i2c_init(void);
unsigned char i2c_start(void);
void i2c_stop(void);
unsigned char i2c_read(unsigned char ack);
unsigned char i2c_write(unsigned char data);
#pragma used-
/******************************************************************/
/* LCD Library
/*
/* Designed by Aleyn.wu
/* E-mail: Aleyn@e-midas.cn
/* Last Update:2006.03.10
/*
/******************************************************************/
// CodeVisionAVR C Compiler
// (C) 1998-2005 Pavel Haiduc, HP InfoTech S.R.L.
// I/O registers definitions
/*******************************************************************/
//#ifndef LCDSET
//#endif
/********************************************************************/
#pragma used+
void LCD_ClearBus();
void LCD_WaitforBusy();
void LCD_Action(unsigned char Data);
void LCD_Ctrl(unsigned char CtrlWord);
void LCD_Write(unsigned char Data);
void LCD_PutStr(char *ss);
void LCD_Init();
#pragma used-
#pragma library LCDv2.lib
#pragma warn-
eeprom unsigned char EEPROMS[512];
#pragma warn+
void Pause(void)
{
TransmitLineF("Press any key to start...");
ReceiveByte();
}
void TestAllPort(void)
{
unsigned char LED_A;
unsigned char LED_B;
unsigned char LED_C;
unsigned char LED_D;
unsigned char LED_E;
unsigned char LED_F;
unsigned char LED_G;
TransmitLineF("Cable setting: LEDG <--> PortA,B,C,D,E,F,G");
Pause();
UCSRA=0x00;
UCSRB=0x00;
UCSRC=0x00;
UBRRH=0x00;
UBRRL=0x00;
DDRA=0xFF;
DDRB=0xFF;
DDRC=0xFF;
DDRD=0xFF;
LED_A=0B11001100;
LED_B=0B11110000;
LED_C=0B11111111;
LED_D=0B10101010;
LED_E=0B11000011;
LED_F=0B11010100;
LED_G=0B01010011;
while (1)
{
PORTA=LED_A;
PORTB=LED_B;
PORTC=LED_B;
PORTD=LED_D;
LED_A=~LED_A;
LED_B=~LED_B;
LED_C=~LED_C;
LED_D=~LED_D;
LED_E=~LED_E;
LED_F=~LED_F;
LED_G=~LED_G;
delay_ms(500);
}
}
/**************************************************************************/
void TestKeyPress(void)
{
//flash unsigned char *Msg ="Press"
register unsigned char Key;
TransmitLineF("Cable setting: LEDG <--> PortA, KEY <--> PortC");
Pause();
DDRA=0xFF;
DDRC=0x00;
//Key=PINC;
while (1)
{
/*
if (!Key&(1<<0)) TransmitLineF("Press K0");
if (!Key&(1<<1)) TransmitLineF("Press K1");
if (!Key&(1<<2)) TransmitLineF("Press K2");
if (!Key&(1<<3)) TransmitLineF("Press K3");
if (!Key&(1<<4)) TransmitLineF("Press K4");
if (!Key&(1<<5)) TransmitLineF("Press K5");
if (!Key&(1<<6)) TransmitLineF("Press K6");
if (!Key&(1<<7)) TransmitLineF("Press K7");
PORTA=Key;
while (~PINC);*/
Key=~PINC;
if (Key)
{
while (~PINC);
}
if (Key&(1<<0)) TransmitLineF("Press K0");
if (Key&(1<<1)) TransmitLineF("Press K1");
if (Key&(1<<2)) TransmitLineF("Press K2");
if (Key&(1<<3)) TransmitLineF("Press K3");
if (Key&(1<<4)) TransmitLineF("Press K4");
if (Key&(1<<5)) TransmitLineF("Press K5");
if (Key&(1<<6)) TransmitLineF("Press K6");
if (Key&(1<<7)) TransmitLineF("Press K7");
}
}
/*****************************************************************************/
unsigned char ShowLed(unsigned char LED)
{
unsigned char LEDS[20]={
0x7F&(~0b01000000), //0
0b00000010|0b00000100, //1
0b00000001|0b00000010|0b01000000|0b00010000|0b00001000, //2
0b00000001|0b00000010|0b01000000|0b00000100|0b00001000, //3
0b00100000|0b01000000|0b00000010|0b00000100, //4
0b00000001|0b00100000|0b01000000|0b00000100|0b00001000, //5
0x7F&(~0b00000010), //6
0b00000001|0b00000010|0b00000100, //7
0x7F, //8
0x7F&(~0b00010000), //9
0b00100000|0b00010000|0b01000000|0b00000010|0b00000100, //H
0b00000001|0b00100000|0b01000000|0b00010000|0b00001000, //ERR
0b00000001, //A
0b00000010, //B
0b00000100, //C
0b00001000, //D
0b00010000, //E
0b00100000, //F
0b01000000, //G
0b10000000 //.
};
unsigned char LEDSHOW;
if (LED<=11)
{LEDSHOW = LEDS[LED];}
else if ((LED>='0') && (LED<='9'))
{LEDSHOW = LEDS[LED-'0'];}
else if (LED=='.')
{LEDSHOW = LEDS[19];}
else if ((LED>='a') && (LED<='g'))
{LEDSHOW = LEDS[LED-'a'+12];}
else if ((LED>='A') && (LED<='G'))
{LEDSHOW = LEDS[LED-'A'+12];}
else if (LED=='-')
{LEDSHOW = LEDS[19];}
else if ((LED=='H')||(LED=='h'))
{LEDSHOW = LEDS[10];}
else
{LEDSHOW = LEDS[11];}
return LEDSHOW;
}
void TestDLED(void)
{
unsigned char LED[6];
unsigned char State;
unsigned char Index;
unsigned int i;
PORTB=0x00;
DDRB=0x00;
PORTC=0x00;
DDRC=0xFF;
PORTD=0x00;
DDRD=0xFF;
PORTA=0x00;
DDRA=0xFF;
State=0;
TransmitLineF("Cable setting: DLED2 <--> PortA, DLED1 <--> PortC");
Pause();
for (i=0;i<6;i++) LED[i]=ShowLed(i);
Index=0;
while (1)
{
if (UCSRA&(1<<7))
{
State=0;
for (i=5;i>=1;i--) LED[i]=LED[i-1];
LED[0]=ShowLed(UDR);
}
PORTA=~LED[Index]; //for M16;
PORTC=1<<Index;
Index++;
if (Index>=6) Index=0;
switch (State)
{
case 3:
{
for (i=0;i<6;i++) LED[i]=ShowLed(8);
break;
}
case 4:
{
for (i=0;i<6;i++) LED[i]=ShowLed(i);
break;
}
}
delay_ms(1);
}
}
/*****************************************************************************/
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