w mx
于之前基础上增加功能:py启动后输入缩放比例,十秒内未输入,则初始化后重启py,方可按默认设置执行
Dependencies: MQTT SDFileSystem WIZnet_Library mbed
Fork of
Laser_SD_W5500
by 
YX ZHANG
main.cpp
- Committer:
- zhangyx
- Date:
- 2018-07-23
- Revision:
- 7:4c80e598d08c
- Parent:
- 6:48c44bebe8fb
File content as of revision 7:4c80e598d08c:
/************************************************************************************************
File name: main.cpp
Description: 项目激光部分客户端代码
Author: 秦智
Date: June 4, 2018
Others: 本程序编写在mbed平台(https://os.mbed.com/)上
*************************************************************************************************/
#include "mbed.h"
#include <math.h>
#include <cstring>
#include <stdlib.h>
#include "SDFileSystem.h"
#include "networking.h"
/////调试
Serial pc(PA_9, PA_10);
DigitalOut LED(PB_8);
/////
//硬件接口
// mosi, miso, sclk, cs, name
SDFileSystem sd(PB_15, PB_14, PB_13, PB_12, "sd");
//步进电机
DigitalOut step[2] = {DigitalOut(PC_5), DigitalOut(PA_5)}; //0--x P9,1--y P17
DigitalOut dir[2] = {DigitalOut(PC_4), DigitalOut(PA_4)}; //0--x,1--y
DigitalOut en[2] = {DigitalOut(PD_2), DigitalOut(PA_2)}; //0--x,1--y
//电子开关,激光开关
DigitalOut switch_GS(PC_15);
//行程开关
// DigitalIn switch_pos1(PB_1); //P25
// DigitalIn switch_pos2(PA_15); //P26
// DigitalIn switch_pos3(PA_11); //P27
//运行中的全局变量
volatile bool Working, Getawork, Isend, Dataused, Getdata;
FILE *fp_drawing; // 存储图案的文件
int status = 0; //0: 初始化; 1:建立通信; 2:等候任务; 3:等待数据 4:正在执行一个任务
int now_x, now_y;
int Endoffile = 0;
// float thedata[50][3];
// char sdata[1024];
int Nofdata;
bool ifreceive;
//与实际有关参数
float Lenoflattice = 1 ;//mm 取1mm为xy单元 unit_xy/Lenoflattice=100
int unit_xy = 100; //单位长度(xy移动一格)对应unit_xy转 大约10cm/3圈/9600step 约96mm/9600step=0.1mm/10step
int unit_x = 103; //单位长度(xy移动一格)对应unit_x转 大约10cm/3圈/9600step 约96mm/9600step=0.1mm/10step
int unit_y = 103; //单位长度(xy移动一格)对应unit_y转 大约10cm/3圈/9600step 约96mm/9600step=0.1mm/10step
///Ticker ticker_step;
float step_halfperiod = 0.002;//0.02;
int max_x, max_y;
int dir_x = 1;///调试时调整
int dir_y = 1;///调试时调整
int dot_max = 10; //灰度最大值对应多少次激光点击
float dot_last = 0.5; //每次激光点击持续多久
int H_max = 255; //灰度值最大值
void report()
{
// ser2usb.printf("-1- status: %d \r\n", status);
// ser2usb.printf("-2- now_x: %d now_y: %d \r\n", now_x,now_y);
//ser2usb.printf("-3- switch_GS: %i \r\n", switch_GS.read());
//ser2usb.printf("-4- switch_pos1: %i switch_pos2: %i switch_pos3: %i \r\n", switch_pos1.read(),switch_pos2.read(),switch_pos3.read());
//ser2usb.printf("-5- en[0]: %i en[1]: %i \r\n", en[0].read(),en[1].read());
//ser2usb.printf("-6- dir[0]: %i dir[1]: %i \r\n", dir[0].read(),dir[1].read());
//ser2usb.printf("-7- step[0]: %i step[1]: %i \r\n", step[0].read(),step[1].read());
}
void init()
{
status = 0;
now_x = 0;
now_y = 0;
step[0] = 0;
step[1] = 0;
}
void rotate(int id, int pix) //id= 0--x,1--y pix=3200为一圈
{
if (pix >= 0) {
dir[0] = dir_x;
dir[1] = dir_y;
} else {
pix = -pix;
dir[0] = 1 - dir_x;
dir[1] = 1 - dir_y;
}
for (int i = 0; i < pix; i++) {
step[id] = 1;
wait(step_halfperiod);
step[id] = 0;
wait(step_halfperiod);
}
}
void moveto(float x, float y)
{
rotate(0, (x - now_x)*unit_xy); //电机旋转
rotate(1, (y - now_y)*unit_xy);
now_x = x;
now_y = y;
}
void markdot(float value)
{
//switch_GS=1;
int Ndot = floor(value * dot_max / H_max);
for (int i = 0; i < Ndot; i++) {
switch_GS = 1; // 开激光
wait(dot_last); // 等待
switch_GS = 0; // 关激光
}
}
void draw()
{
float x, y, v;
fp_drawing = fopen("/sd/write.txt", "r"); // 打开文件
for (int i = 0; fscanf(fp_drawing, "(%f,%f,%f)", &x, &y, &v) == 3; i++) {
pc.printf("(%f,%f,%f)\r\n", x, y, v);
moveto(x, y); // 移动到坐标位置
markdot(v); // 打点
}
fclose(fp_drawing); // 关闭文件
}
void fuwei()
{
moveto(0, 0);
status = 1;
}
void on_control_cmd(const char* actuator_name, const char* control_value)
{
pc.printf("Received [%s] [%s]\r\n", actuator_name, control_value);
if (strcmp(actuator_name, "dat") == 0) {
//接受到的坐标数据写入存储卡
fprintf(fp_drawing, "%s", control_value);
} else if (strcmp(actuator_name, "cmd") == 0) {
int the_command = atoi(control_value);
if (the_command == 1) {
Getawork = 1;
} else if (the_command == 2) {
Getdata = 1;
}
}
}
int main()
{
init(); //初始化
//建立通信
status = 1;
pc.printf("starting\r\n");
MQTTSocket sock;
MClient client(sock);
//声明所有的传感器,每行一个,每个由名字、单位两部分组成,最后一行必须为空指针作为结尾
const char* sensors[][2] = {
"report", "",
NULL, NULL //最后一行以空指针作为结束标记
};
//声明所有的执行器,每行一个,每个由名字、参数类型两部分组成,最后一行必须为空指针作为结尾
const char* actuators[][2] = {
"dat", "",
"cmd", "",
NULL, NULL //最后一行以空指针作为结束标记
};
pc.printf("connecting...\r\n");
networking_init(sock, client, "tdxls-iot.xicp.net", sensors, actuators, on_control_cmd);
pc.printf("Initialization done.\r\n");
status = 2;
publish_value(client, "report", "ready.");
pc.printf("laser printer send ready.\r\n");
Getawork = 0;
Getdata = 0;
while (true) {
if (status == 2) {
if (Getawork) { //收到新任务
Getawork = 0;
pc.printf("Begin receiving...\r\n");
// 打开文件,准备接受坐标数据
fp_drawing = fopen("/sd/write.txt", "w");
if (fp_drawing) {
pc.printf("File opened\r\n");
publish_value(client, "report", "wait data.");
status = 3;
}
}
} else if (status == 3) {
if (Getdata) { //数据接收完
Getdata = 0;
pc.printf("End receiving...\r\n");
fclose(fp_drawing);
publish_value(client, "report", "received.");
status = 4;
}
} else if (status == 4) {
// pc.printf("debug4 \r\n");
// dealdata();
pc.printf("Drawing.. \r\n");
// usbprintdata();
draw();
pc.printf("Finished\r\n");
publish_value(client, "report", "done.");
status = 2;
}
client.yield(1000);
}
}