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#include "STC15Fxxxx.H"  //STC15系列单片机

#include

#include "UART.H"

#include "timer.h"

#include "util.h"

#include "ps2/ps2.h"

#include "flash/flash.h"//头文件

#include

#include

#include "LED/led.h"

#include

#include

#include "adc/adc.h"

extern uint8 flag_p;

extern bit flag_RecFul;

//extern uchar KEY[9];

uint16 pos[7][MOTOR_NUM]={ {1000,1500,1500,1500,1500,1500,1500,1500,1500},

{1000,1500,1500,1500,1500,1500,1500,1500,1500},

{1000,1500,1500,1500,1500,1500,1500,1500,1500},

{1000,500,500,500,500,500,500,500,500},

{1000,1500,1500,1500,1500,1500,1500,1500,1500},

{1000,500,500,500,500,500,500,500,500},

{1000,1500,1500,1500,1500,1500,1500,1500,1500}

};         //位置

uint16 pwm[MOTOR_NUM]=    {1500,1500,1500,1500,1500,1500,1500,1500,1500};

uint16 UartRec[MOTOR_NUM]={1500,1500,1500,1500,1500,1500,1500,1500,1500};

uint8 redata[257] = {0};    // 定义接收数据变量数组

uint8 line=0;                                        //缓存存入口与出口之间的距离,即当前缓存中有多少个没有执行的数据

uint8 point_now=0;                                //与point_aim一起标记缓存出口位置,即取数位置

uint8 point_aim=1;

uint8 point_in=2;                                //标记缓存入口位置,即上一行数据存放位置

bit flag_connect = 0;

bit flag_stop=1;                                //表示一行执行结束

uint8 flag_vpwm=0;                                //表示到达了该更新pwm[]的时间

bit flag_in=1;                                         //表示缓存中有空闲空间

bit flag_out=0;                                        //表示缓存中有可执行数据的标志位

bit flag_run_ready=0;                        //表示有要要放入缓存的EErom数据

uint16 n=1000;                                        //用来计算需要建立多少个中间数据

uint16 m=1;                                                //用来累计已经执行了多少中间数据

double dp;

double dp0[MOTOR_NUM] = {0};                                        //插补增量

bit flag_download = 0;//判断是否下载

bit flag_read = 0;// 读取flash内容,发送上位机

bit flag_connect_run = 0;//连接上位机的执行flash保存的命令

bit flag_stop_download = 0;//停止下载

bit flag_online_run = 0;

bit flag_uart2_rev = 0;

bit flag_uart2_rev_time_out = 0;

bit flag_ps2_rev = 0;

bit flag_read_adc = 0;

unsigned long send_mode = 0;//当前串口接收到命令状态存储

MotorData motor_data;//舵机总信息

MotorOneCmd motor_one_cmd;//单个命令

CurrentItem cur_item;

uint16 tuoji_count = 0;//脱机执行次数

bit flag_scan_ps2 = 0;

uint8 error = 0;

uchar file_list[MAX_SUPPORT_FILE_SAVE] = {0};

int file_list_count = 0;

int file_last_num = 0;

char ps2_buf[120] = {0};

char uart2_buf[50] = {0};

uint cur_count = 0;

uchar ad_value = 0;

uchar beep_mode = 1;

uchar key_bak;

uchar ps2_key;

uchar ps2_mode=0;

void updata_file_list()

{

uchar i = 0;

uchar j = 0;

file_last_num = -1;

ReadMoterInfor();

for (i = 0; i < motor_data.filecount; i++)

{

if (motor_data.file_flag[i] == 1)

{

file_list[j] = i;

j++;

file_last_num = i;

}

}

file_list_count = j;

}

void InitMotor()

{

ReadMoterInfor();//读取舵机控制信息

updata_file_list();

memset(&cur_item,0,sizeof(cur_item));

beep_mode = motor_data.beep_mode;

}

void main(void)

{

uint temp = 0;

P0M1=0x00;                                   //设置P0口为强推挽输出模式

P0M0=0xFF;

P1M1|=0x80;

P1M0|=0xc8;

P5M1|=0x00;

P5M0|=0x2d;

P4M0|=0x20;

P4M1|=0x00;

Timer_init();          //定时器初始化

Timer0(31);                  //定时任意值,启动定时器,进入定时器循环

#if MOTOR_NUM > 9

Timer1(30);

#endif

SpiFlashInit();//初始化flash

while((temp = SpiFlashReadID())!=W25Q64)LED_ALL_ON();//判断flash有没有接错

LED_ALL_OFF();

InitMotor();

UART1_Init();          //串口1初始化

UART2_Init();  //串口2初始化

#if PS_SUPPORT

Timer3_init();

#endif

InitADC(7);

BEEP_On_Or_OFF();

while(1)

{

if(flag_vpwm==1)

{

vpwm();                                        //更新pwm[]数组

flag_vpwm=0;

}

if( flag_RecFul==1)                   //串口接受完一条指令

{

DealRec();                                 //处理串口缓存中的数据

flag_RecFul=0;

}

GetOneMotorCMD();//获取一个命令

SendUartState();//发送状态信息

#if PS_SUPPORT

scan_ps2();

#endif

LED_State();

Check_Power();

cur_count++;

}

}

void Check_Power()

{

if ((cur_count % 800) == 0)

{

StartADC(7);

//cur_count=0;

}

if (flag_read_adc)

{

flag_read_adc = 0;

//UART_Put_Inf("adc:",ad_value);

if (ad_value > 46)//根据电压粗略估计

{

//UART_Put_Inf("adc:",ad_value);

BEEP_OFF();

//        LED2_OFF();

}

else

{

//UART_Put_Inf("adc1111:",ad_value);

BEEP=~BEEP;

LED1=0;

LED2=0;

LED3=0;

}

}

}

void LED_State()

{

uint error_count =  0;

if (error != 0)

{

if (error & ERROR_FLASH_FULL)

{

error_count = 100;

}

if (error & ERROR_FLASH_FILE_FULL)

{

error_count += 100;

}

if (error & ERROR_FLASH_WRITE)

{

error_count += 100;

}

if (error & ERROR_FLASH_WRITE1)

{

error_count += 100;

}

if ((cur_count % error_count) == 0)//判断flash是否正确

{

LED1_ON_OR_OFF();

}

}

if (flag_ps2_rev)

{

LED1_ON();

if ((cur_count % 100) == 0)

{

flag_ps2_rev = 0;

LED1_OFF();

}

}

if (flag_connect)

{

LED3_ON();

}

else

{

LED3_OFF();

}

}

void scan_ps2()

{

int  kind = 0;

char *p = NULL;

char buf[15] = {0};

char i = 0;

if (flag_scan_ps2)//

{

flag_scan_ps2 = 0;

ps2_key=PS2_DataKey();

ps2_mode=PS2_RedLight();

//UART_Put_Inf("mode",ps2_mode);

if(ps2_mode==0)

{

if(key_bak == ps2_key)return;

key_bak=ps2_key;

BEEP=~BEEP;

switch(ps2_key)

{

case PSB_PAD_UP:kind = 1;break;

case PSB_PAD_DOWN:kind = 2;break;

case PSB_PAD_LEFT:kind = 3;break;

case PSB_PAD_RIGHT:kind = 4;break;

case PSB_TRIANGLE:kind = 7;break;

case PSB_CROSS:kind = 8;break;

case PSB_PINK:kind = 9;break;

case PSB_CIRCLE:kind = 10;break;

case PSB_L1:kind = 6;break;

case PSB_L2:kind = 5;break;

case PSB_R1:kind = 12;break;

case PSB_R2:kind = 11;break;

default:break;

}

if (kind != 0)

{

flag_ps2_rev = 1;

flag_connect = 1;

SpiFlashRead(ps2_buf,(PS2_FLASH_ADDR)<

sprintf(buf,"%dK",kind);

//UART1_SendStr(buf);

p = strstr(ps2_buf,buf);

if (p != NULL)

{

p = p + strlen(buf);

while(i < 14 && *p != 0)

{

buf[i] = *p++;

i++;

if (*p == '#')

break;

}

if (i < 12)

{

buf[i] = '\r';

buf[i+1] = '\n';

memcpy(redata,buf,sizeof(buf));

flag_RecFul = 1;

}

UART1_SendStr(redata);

}

}

}

else if(ps2_mode==1)//绿灯模式

{

switch(ps2_key)

{

case PSB_PAD_UP:pwm[1]+=10;if(pwm[1]>=2300) pwm[1]=2300;break;

case PSB_PAD_DOWN:pwm[1]-=10;if(pwm[1]<=700) pwm[1]=700;break;

case PSB_PAD_LEFT:pwm[2]+=10;if(pwm[2]>=2300) pwm[2]=2300;break;

case PSB_PAD_RIGHT:pwm[2]-=10;if(pwm[2]<=700) pwm[2]=700;break;

case PSB_TRIANGLE:pwm[3]+=10;if(pwm[3]>=2300) pwm[3]=2300;break;

case PSB_CROSS:pwm[3]-=10;if(pwm[3]<=700) pwm[3]=700;break;

case PSB_PINK:pwm[4]+=10;if(pwm[4]>=2300) pwm[4]=2300;break;

case PSB_CIRCLE:pwm[4]-=10;if(pwm[4]<=700) pwm[4]=700;break;

case PSB_L1:pwm[5]+=10;if(pwm[5]>=2300) pwm[5]=2300;break;

case PSB_L2:pwm[5]-=10;if(pwm[5]<=700)  pwm[5]=700;break;

case PSB_R1:pwm[6]+=10;if(pwm[6]>=2300) pwm[6]=2300;break;

case PSB_R2:pwm[6]-=10;if(pwm[6]<=700)  pwm[6]=700;break;

default:break;

}

}

}

}

void ReadMoterInfor()

{

memset(&motor_data,0,sizeof(motor_data));//清 0

SpiFlashRead((char *)&motor_data,(CMD_FLASH_ADDR)<

if (motor_data.CRC1 != 0x12345678 || motor_data.sum < 0 || motor_data.duoji_count  > MOTOR_NUM)//判断信息存储是否有错

{

memset(&motor_data,0,sizeof(motor_data));

//memset(&cur_item,0,sizeof(cur_item));

}

else//正常信息

{

//UART1_SendOneChar(motor_data.sum + 0x30);

//cur_item.tuoji_count = motor_one_cmd.tuoji_count;//脱机运行次数

//cur_item.cur_num = 0;//清 0

}

}

void ReadOneCmdInfor(unsigned int addr)

{

memset(&motor_one_cmd,0,sizeof(motor_one_cmd));//清 0

SpiFlashRead((char *)&motor_one_cmd,((((unsigned long)addr)<<4) + FILE_FLASH_ADDR)<

if (motor_one_cmd.start >= motor_one_cmd.end || motor_one_cmd.cur_file_num != (addr) || motor_data.file_flag[motor_one_cmd.cur_file_num] == 0)//判断信息存储是否有错

{

memset(&motor_one_cmd,0,sizeof(motor_one_cmd));

}

else//正常信息,以后留着验证用的

{

cur_item.tuoji_count = motor_one_cmd.tuoji_count;//脱机运行次数

cur_item.cur_num = motor_one_cmd.start;

//UART1_SendOneChar(motor_one_cmd.tuoji_count + 0x30);

//cur_item.cur_num = 0;//清 0

}

}

void WriteMoterInfor()

{

uchar temp = 0;

motor_data.CRC1 = 0x12345678;//校验码

motor_data.duoji_count = MOTOR_NUM-1;

temp = motor_data.filecount;

SpiFlashEraseSector(CMD_FLASH_ADDR >> 4);//擦除以前存储的信息

SpiFlashWrite((char *)&motor_data,CMD_FLASH_ADDR<

ReadMoterInfor();

if (temp != motor_data.filecount)

{

error |= ERROR_FLASH_WRITE;

}

else

{

error &= ~ERROR_FLASH_WRITE;

}

}

void WriteOneCmdInfor(unsigned int addr)

{

uchar temp = 0;

temp = motor_one_cmd.end;

if (((((unsigned long)addr)<<4) + FILE_FLASH_ADDR) % 16 == 0)

SpiFlashEraseSector(((((unsigned long)addr)<<4) + FILE_FLASH_ADDR) >> 4);//擦除以前存储的信息

SpiFlashWrite((char *)&motor_one_cmd,((((unsigned long)addr)<<4) + FILE_FLASH_ADDR)<

ReadOneCmdInfor(addr);

if (temp !=  motor_one_cmd.end)

{

error |= ERROR_FLASH_WRITE1;

}

else

{

error &= ~ERROR_FLASH_WRITE1;

}

}

void GetOneMotorCMD()

{

#if DEBUG

uchar buf[20] = {0};

#endif

if (flag_stop_download)//接收到了上位机的停止下载的命令

{

flag_download = 0;//清楚下载状态标志位

flag_stop_download = 0;

flag_read = 0;

if (motor_data.filecount < MAX_SUPPORT_FILE_SAVE)

{

updata_file_list();

motor_data.sum = motor_one_cmd.end;

motor_data.file_flag[motor_data.filecount] = 1;

motor_one_cmd.cur_file_num = file_last_num + 1;

motor_data.filecount = motor_one_cmd.cur_file_num + 1;

error &= ~MAX_SUPPORT_FILE_SAVE;

#if DEBUG

sprintf(buf,"%d %d\r\n",(uint)motor_data.filecount,(uint)motor_data.file_flag[motor_data.filecount-1]);

UART1_SendStr(buf);

#endif

WriteMoterInfor();

WriteOneCmdInfor(motor_one_cmd.cur_file_num);

updata_file_list();

#if DEBUG

sprintf(buf,"%d %d\r\n",(uint)motor_data.filecount,(uint)motor_data.file_flag[motor_data.filecount-1]);

UART1_SendStr(buf);

#endif

}

else

{

error |= MAX_SUPPORT_FILE_SAVE;

}

if        (!(error &(MAX_SUPPORT_FILE_SAVE | ERROR_FLASH_FULL)))

send_mode |= SEND_DOWN_OK;//状态位置为

}

if (flag_connect)//如果当前跟上位机联机状态

{

if (flag_read)//如果上位机读取flash内存储的信息

{

if (cur_item.cur_num < motor_one_cmd.end)//判断是否超过之前存储的数

{

if ((send_mode & SEND_SEND_FILE))//开始接收到读取命令需要先发送个start

{

UART1_SendStr("#Start\r\n");

send_mode &= ~SEND_READ_FILE;

}

memset(redata,0,WRITE_SIZE);//清 0

SpiFlashRead(redata,(((long)cur_item.cur_num)<

#if DEBUG

sprintf(buf,"%d\r\n",cur_item.cur_num);

UART1_SendStr(buf);

#endif

UART1_SendStr(redata);//发送

cur_item.cur_num++;

}

else//否则

{

if (cur_item.cur_num > 0)

UART1_SendStr("#End\r\n");//发送结束字符串

flag_read = 0;

}

send_mode = 0;//请 0

}

if (flag_online_run)

{

if ((send_mode & SEND_CC) != 0  || cur_item.cur_num == motor_one_cmd.start)//如果当前需要更新舵机命令

{

if (cur_item.tuoji_count > 0)//脱机次数没结束

{

if (cur_item.cur_num < motor_one_cmd.end)//判断是否读取结束

{

SpiFlashRead(redata,((long)cur_item.cur_num)<

flag_RecFul = 1;//标志位为1,

cur_item.cur_num++;//

}

else//执行玩一遍

{

cur_item.cur_num = motor_one_cmd.start;

cur_item.tuoji_count--;//减一

}

}

else//执行完成

{

flag_online_run = 0;

if (flag_connect_run)//如果上位机选择执行的功能,需要发送 AGF作为结束

{

UART1_SendStr("#AGF\r\n");

flag_connect_run = 0;

}

}

//读取数据

}

}

}

else//脱机

{

if (file_list_count < 0)

{

return;

}

if (cur_item.tuoji_count > 0)

{

if ((send_mode & SEND_CC) != 0  || cur_item.cur_num == motor_one_cmd.start)//如果当前需要更新舵机命令

{

if (cur_item.cur_num < motor_one_cmd.end)//判断是否读取结束

{

SpiFlashRead(redata,((long)cur_item.cur_num)<

flag_RecFul = 1;//标志位为1,

cur_item.cur_num++;//

}

else//执行玩一遍

{

cur_item.cur_num = motor_one_cmd.start;

cur_item.tuoji_count--;//减一

}

//读取数据

}

}

else

{

ReadOneCmdInfor(file_list[cur_item.file_num]);

file_list_count--;

cur_item.file_num++;

}

}

}

void SendUartState()

{

uchar buf[40] = {0};

uchar read_motor_num = 0;

uint i = 0;

static int count = 0;

if (send_mode)//如果有状态需要发送

{

if (send_mode & SEND_A) //发送A

{

UART1_SendOneChar('A');

send_mode &= ~SEND_A;//清状态

}

if (send_mode & SEND_CC) //发送CC

{

UART1_SendStr("#CC\r\n");

send_mode &= ~SEND_CC;

}

if (send_mode & SEND_DOWN_OK)//发送下载ok的状态字符串

{

sprintf(buf,"#Down+OK+%d\r\n",(int)motor_data.filecount-1);

UART1_SendStr(buf);

send_mode &= ~SEND_DOWN_OK;

#if DEBUG

sprintf(buf,"%d\r\n",(uint)motor_data.filecount);

UART1_SendStr(buf);

#endif

}

if (send_mode & SEND_START_OK)//发送连接时候的字符串

{

UART1_SendStr("#Veri+UART+OK+20160906+176\r\n");

send_mode &= ~SEND_START_OK;

}

if (send_mode & SEND_READ_FILE)//发送读取文件的时候字符串

{

if (motor_data.filecount > 0)//如果保存的有舵机命令

{

//#Name:1.txt--Size:48--Name:2.txt--Size:190--Name:desktop.ini--Size:531--

UART1_SendStr("#");//发送

for (i = 0; i < motor_data.filecount;i++)

{

if (motor_data.file_flag[i] == 1)

{

ReadOneCmdInfor(i);

if (motor_one_cmd.end - motor_one_cmd.start <= 0)

{

motor_data.file_flag[i] = 0;

WriteMoterInfor();

#if DEBUG

sprintf(buf,"E=%d S=%d",motor_one_cmd.end, motor_one_cmd.start);

#endif

}

else

{

sprintf(buf,"Name:%d.txt--Size:%d--",i,motor_one_cmd.end - motor_one_cmd.start);//获取命令个数

UART1_SendStr(buf);//发送

}

}

}

UART1_SendStr("\r\n");

}

else

{

sprintf(buf,"#\r\n",motor_data.sum);

UART1_SendStr(buf);

}

send_mode &= ~SEND_READ_FILE;

}

if (send_mode & SEND_SET_OFFLINE_OK)//设置脱机运行次数

{

WriteOneCmdInfor(motor_one_cmd.cur_file_num);//保存

UART1_SendStr("#Enable+OK...\r\n");

send_mode &= ~SEND_SET_OFFLINE_OK;

}

if (send_mode & SEND_SET_DISABLEOFFLINE_OK)//禁止脱机运行

{

for (i = 0; i < motor_data.filecount;i++)

{

if (motor_data.file_flag[i] == 1)

{

ReadOneCmdInfor(i);

motor_one_cmd.tuoji_count = 0;

WriteOneCmdInfor(i);

}

}

WriteMoterInfor();

UART1_SendStr("#Disable+OK...\r\n");

send_mode &= ~SEND_SET_DISABLEOFFLINE_OK;

}

if (send_mode & SEND_SET_ONLINE_OK)//发送联机运行状态

{

UART1_SendStr("#OK\r\n");

sprintf(buf,"#%dGC%d\r\n",cur_item.file_num,tuoji_count);

UART1_SendStr(buf);

UART1_SendStr("#LP=0\r\n");

send_mode &= ~SEND_SET_ONLINE_OK;

flag_connect_run = 1;

}

if (send_mode & SEND_SET_DELETE_ONE_FILE_OK)//发送删除文件命令

{

//cur_item.tuoji_count = 0;

if (cur_item.delete_num < motor_data.filecount)

{

motor_data.file_flag[cur_item.delete_num] = 0;

WriteMoterInfor();

updata_file_list();

if (cur_item.delete_num  == motor_data.filecount-1)

{

motor_data.filecount = file_last_num + 1;

if (file_last_num == -1)

{

motor_data.sum = 0;

}

else

{

ReadOneCmdInfor(file_last_num);

motor_data.sum = motor_one_cmd.end;

motor_data.sum = (((long int)(motor_data.sum) >>4)<<4) + (1<<4);

}

WriteMoterInfor();

}

updata_file_list();

UART1_SendStr("#FDel+OK\r\n");

}

send_mode &= ~SEND_SET_DELETE_ONE_FILE_OK;

}

if (send_mode & SEND_SET_DELETE_ALL_FILE_OK)//发送擦除所有文件的命令

{

UART1_SendStr("#Format+Start\r\n");

SpiFlashEraseChip();

cur_item.tuoji_count = 0;

motor_data.sum = 0;

motor_data.filecount = 0;

memset(motor_data.file_flag,0,sizeof(motor_data.file_flag));

WriteMoterInfor();

UART1_SendStr("#Format+OK\r\n");

send_mode &= ~SEND_SET_DELETE_ALL_FILE_OK;

updata_file_list();

}

if (send_mode & SEND_SET_PS2_OK)

{

UART1_SendStr("#PS2+OK...\r\n");

send_mode &= ~SEND_SET_PS2_OK;

}

#define MATHION_HAND_NUM 20

if (send_mode & SEND_SET_READ_UART_MOTOR_ANGLE)

{

if (cur_item.read_num < MATHION_HAND_NUM)

{

if (flag_uart2_rev)

{

read_motor_num = atoi(uart2_buf + 1);

if (read_motor_num == cur_item.read_num)

{

i = atoi(uart2_buf+5);

sprintf(uart2_buf,"#%dP%d",(int)read_motor_num,i);

UART1_SendStr(uart2_buf);

cur_item.read_num++;

buf[0] = '#';

buf[1] = cur_item.read_num / 100 % 10 + 0x30;

buf[2] = cur_item.read_num / 10 % 10 + 0x30;

buf[3] = cur_item.read_num % 10 + 0x30;

buf[4] = 'P';buf[5] = 'R';buf[6] = 'A';buf[7] = 'D';buf[8] = '\r';buf[9] = '\n';

UART2_SendStr(buf);

}

flag_uart2_rev = 0;

count = 0;

}

else

{

count++;

if (count >= 10)

{

cur_item.read_num++;

buf[0] = '#';

buf[1] = cur_item.read_num / 100 % 10 + 0x30;

buf[2] = cur_item.read_num / 10 % 10 + 0x30;

buf[3] = cur_item.read_num % 10 + 0x30;

buf[4] = 'P';buf[5] = 'R';buf[6] = 'A';buf[7] = 'D';buf[8] = '\r';buf[9] = '\n';

UART2_SendStr(buf);

flag_uart2_rev = 0;

flag_uart2_rev_time_out = 0;

count = 0;

}

}

}

else

{

send_mode &= ~SEND_SET_READ_UART_MOTOR_ANGLE;

cur_item.read_num= 0;

UART1_SendStr("\r\n");

}

}

}

if (send_mode & SEND_SET_SET_UART_MOTOR_PULK)

{

if (cur_item.pulk_num < MATHION_HAND_NUM)

{

count++;

if (count >= 20)

{

sprintf(uart2_buf,"#%dPULK\r\n",(int)cur_item.pulk_num);

UART2_SendStr(uart2_buf);

#if DEBUG

UART1_SendStr(uart2_buf);

#endif

cur_item.pulk_num++;

count = 0;

}

}

else

{

send_mode &= ~SEND_SET_SET_UART_MOTOR_PULK;

}

}

if (send_mode & SEND_SET_SET_UART_MOTOR_ANGLE)

{

if (cur_item.pulk_num < MATHION_HAND_NUM)

{

count++;

if (count >= 5)

{

sprintf(uart2_buf,"#%dPMOD%d\r\n",(int)cur_item.pulk_num,(int)cur_item.angle_mode);

UART2_SendStr(uart2_buf);

#if DEBUG

UART1_SendStr(uart2_buf);

#endif

cur_item.pulk_num++;

count = 0;

}

}

else

{

sprintf(buf,"#255PMOD%d+0K...\r\n",(int)cur_item.angle_mode);

UART1_SendStr(buf);

send_mode &= ~SEND_SET_SET_UART_MOTOR_ANGLE;

flag_uart2_rev = 0;

}

}

if (send_mode & SEND_SET_BEEP_ON)

{

ReadMoterInfor();

motor_data.beep_mode = 1;

beep_mode = 1;

WriteMoterInfor();

UART1_SendStr("#FMQENABLE+OK...\r\n");

send_mode &= ~SEND_SET_BEEP_ON;

}

if (send_mode & SEND_SET_BEEP_OFF)

{

ReadMoterInfor();

motor_data.beep_mode = 0;

beep_mode = 0;

WriteMoterInfor();

UART1_SendStr("#FMQDISABLE+OK...\r\n");

send_mode &= ~SEND_SET_BEEP_OFF;

}

}

void change(void)

{

uchar s;

if(line>0)                                   //缓存中有数据

{

line--;                                   //执行一行

if(line<5)                        //缓存允许放入新的数据

flag_in=1;

point_now++;                //取数位置更新

point_aim++;

if(point_aim==7)

point_aim=0;

if(point_now==7)

point_now=0;

n=pos[point_aim][0]*4/5;        //计算新的插补次数

for(s=1;s

{

if(pos[point_aim][s]>pos[point_now][s])

{

dp=pos[point_aim][s]-pos[point_now][s];

dp0[s]=dp/n;

}

if(pos[point_aim][s]<=pos[point_now][s])

{

dp=pos[point_now][s]-pos[point_aim][s];

dp0[s]=dp/n;

dp0[s]=-dp0[s];

}

}

m=0;                                          //m清0

flag_stop=0;                          //产生了新的目标位置,停止标志清零

}

else                                                  //没有缓存数据,即line==0

{

flag_out=0;                                //缓存中没有数据

}

}

void vpwm(void)

{

uchar j=0;

uchar how=0;

static uchar flag_how;

static uchar flag_Tover;

if(flag_stop==1)                                           //一行作业全部完成

{

if(flag_out==1)                                         //缓冲数组中有数据

{

change();                                        //更新行

}

}

else                                                                //不是一行数据全部完成,处于中间插补阶段

{

m++;                                                        //用来累加插补过的次数

if(m==n)                                                //n是本行作业要插补的总次数

{

flag_Tover=1;                                //一行数据的执行时间已经完成

send_mode |= SEND_CC;

}

for(j=1;j

{

if(abs(pwm[j]-pos[point_aim][j])<5)

{                                                           //检测靠近终点位置

how++;                                           //是,则累加一个

pwm[j]=pos[point_aim][j];//并且直接过度到终点位置

}

else                                                //不靠近终点,继续插补

pwm[j]=pos[point_now][j]+m*dp0[j];

}

//UART_Put_Inf("pwm",pwm[1]);

if(how==MOTOR_NUM-1)

flag_how=1;                                                  //16个舵机都到达终点

how=0;

if((flag_Tover==1)&&(flag_how==1))

{                                                                //从插补次数,和脉宽宽度两方面都到达终点,本作业行完成

flag_Tover=0;

flag_how=0;

flag_stop=1;

}

}

return;

}