164 lines
4.1 KiB
C++
164 lines
4.1 KiB
C++
#include "TopDefine.h"
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#include "shoot.hpp"
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#include "main.h"
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#include "remote_control.h"
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#include "FreeRTOS.h"
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#include <cmsis_os2.h>
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#include "calc_lib.h"
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#include "vofa.h"
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extern RC_ctrl_t rc_ctrl;
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float vofa[8];
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#define SHOOT_SPEED 30500
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#define SHOOT_SPEED_BACK -2500
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#define Error 50
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#define STOP 0
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#define Trigger_Torque -5000
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//sw[7]👆 1694 中 1000 👇306
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//sw[2]👆 1694 👇306
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//F键 sw[0]👆 1800 中 1000 👇200
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//E键 sw[1]👆 1800 👇200
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const fp32 Shoot:: M2006_speed_PID[3] = {5, 0, 0};
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int t=0;
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Shoot::Shoot()
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{
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//扳机初始化
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trigger_Motor= get_motor_point(4);
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trigger_Motor->type=M2006;
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PID_init(&speed_pid,PID_POSITION,M2006_speed_PID,6000, 1000);//pid初始化
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speedSet = 0;
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result = 0;
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//发射摩擦轮
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motor_5065[0] = get_vesc_point(0);//获取电机数据指针
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motor_5065[1] = get_vesc_point(1);//获取电机数据指针
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speed_5065=0;
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currentState= SHOOT_IDLE;
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}
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void Shoot::trigger_control()
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{
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///speedSet=speed;
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//result = PID_calc(&speed_pid, trigger_Motor->speed_rpm, speedSet);
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//result = Trigger_Torque;
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CAN_cmd_1FF(result,0,0,0,&hcan1);
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}
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void Shoot::shootThree()
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{
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if((rc_ctrl.sw[7]==1694))
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{
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speed_5065 = SHOOT_SPEED;
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}
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if((rc_ctrl.sw[7]==1000))
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{
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speed_5065=STOP;
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//发一次会堵塞另一个
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// CAN_VESC_HEAD(1);
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// CAN_VESC_HEAD(2);
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}
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if(rc_ctrl.sw[7]==306)
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{
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speed_5065=SHOOT_SPEED_BACK;
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}
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CAN_VESC_Control(1,speed_5065,&hcan2);
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// CAN_VESC_RPM(1, speed_5065);
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// CAN_VESC_RPM(2, speed_5065);
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// vofa[0] = motor_5065[1]->rotor_speed;
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// vofa[1] = motor_5065[0]->rotor_speed; // 发送电机速度数据
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// vofa_tx_main(vofa); // 发送数据到虚拟串口
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}
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void Shoot::shootBack()
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{
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speed_5065=SHOOT_SPEED_BACK;
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CAN_VESC_Control(1,speed_5065,&hcan2);
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}
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void Shoot::shootStop()
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{
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speed_5065=STOP;
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CAN_VESC_Control(1,speed_5065,&hcan2);
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}
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void Shoot::shootStateMachine() {
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switch (currentState) {
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case SHOOT_IDLE: {
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speed_5065=STOP;
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result=STOP;
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// 空闲状态,等待遥控器输入
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if((rc_ctrl.sw[0]==1800)) {
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currentState = SHOOT_FIRE; // 切换到发射状态
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}
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break;
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}
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case SHOOT_FIRE: {
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// 发射状态,控制电机发射
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speed_5065 = SHOOT_SPEED;
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if(motor_5065[0]->rotor_speed>=SHOOT_SPEED-Error && motor_5065[0]->rotor_speed<=SHOOT_SPEED+Error &&
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motor_5065[1]->rotor_speed>=SHOOT_SPEED-Error && motor_5065[1]->rotor_speed<=SHOOT_SPEED+Error)
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{
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result=Trigger_Torque;//恒力扳机
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}
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// 检测光电传感器是否触发
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if (IS_PHOTOELECTRIC_TRIGGERED()) {
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currentState = SHOOT_BACK; // 切换到光电触发状态
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}
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break;
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}
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case SHOOT_BACK: {
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// 光电触发状态,停止发射
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result=STOP;
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speed_5065=STOP;
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// 切换到返回状态
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currentState = SHOOT_RETURN;
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break;
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}
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case SHOOT_RETURN: {
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// 自动返回状态,控制电机反转
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speed_5065=SHOOT_SPEED_BACK;
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result=-Trigger_Torque;
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// 检测返回完成(可以通过时间或其他传感器判断)
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if (rc_ctrl.sw[0]==1000) { // 假设遥控器开关控制返回完成
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speed_5065=SHOOT_SPEED_BACK;
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result=STOP;
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currentState = SHOOT_IDLE; // 切换回空闲状态
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}
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break;
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}
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default: {
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// 默认状态,回到空闲
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currentState = SHOOT_IDLE;
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break;
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}
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}
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CAN_VESC_Control(1,speed_5065,&hcan2);
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vofa[0] = motor_5065[1]->rotor_speed;
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vofa[1] = motor_5065[0]->rotor_speed; // 发送电机速度数据
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vofa[2] = speed_5065; // 发送电机速度数据
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vofa_tx_main(vofa); // 发送数据到虚拟串口
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}
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