From 1ea28f0dcb492bdf9c70ea4abb3711f1b593cebb Mon Sep 17 00:00:00 2001
From: zyx <1323655521@qq.com>
Date: Fri, 26 Apr 2024 20:50:32 +0800
Subject: [PATCH] =?UTF-8?q?=E9=81=A5=E6=8E=A7=E5=99=A8?=
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---
 application/cmd/robot_cmd.c | 87 ++++++++++++++++++-------------------
 application/gimbal/gimbal.c |  2 +-
 application/robot_def.h     |  1 +
 3 files changed, 45 insertions(+), 45 deletions(-)

diff --git a/application/cmd/robot_cmd.c b/application/cmd/robot_cmd.c
index 9994e40..ad6e02e 100644
--- a/application/cmd/robot_cmd.c
+++ b/application/cmd/robot_cmd.c
@@ -16,7 +16,7 @@
 #include "bsp_log.h"
 
 // 私有宏,自动将编码器转换成角度值
-#define YAW_ALIGN_ANGLE 150.0F //(YAW_CHASSIS_ALIGN_ECD * ECD_ANGLE_COEF_DJI) // 对齐时的角度,0-360
+#define YAW_ALIGN_ANGLE 56.0F //(YAW_CHASSIS_ALIGN_ECD * ECD_ANGLE_COEF_DJI) // 对齐时的角度,0-360
 #define PTICH_HORIZON_ANGLE (PITCH_HORIZON_ECD * ECD_ANGLE_COEF_DJI) // pitch水平时电机的角度,0-360
 
 #define PITCH_SCAN -10.0f //扫描阶段PITCH固定角度
@@ -62,14 +62,14 @@ static Shoot_Upload_Data_s shoot_fetch_data; // 从发射获取的反馈信息
 
 static Robot_Status_e robot_state; // 机器人整体工作状态
 
-static referee_info_t* referee_data; // 用于获取裁判系统的数据
+static referee_info_t *referee_data; // 用于获取裁判系统的数据
 static Referee_Interactive_info_t ui_data; // UI数据，将底盘中的数据传入此结构体的对应变量中，UI会自动检测是否变化，对应显示UI
 
 void RobotCMDInit() {
     rc_data = RemoteControlInit(&huart3);   // 修改为对应串口,注意如果是自研板dbus协议串口需选用添加了反相器的那个
     vision_recv_data = VisionInit(&huart1); // 视觉通信串口
 
-    referee_data = UITaskInit(&huart6,&ui_data); // 裁判系统初始化,会同时初始化UI
+    referee_data = UITaskInit(&huart6, &ui_data); // 裁判系统初始化,会同时初始化UI
 
     gimbal_cmd_pub = PubRegister("gimbal_cmd", sizeof(Gimbal_Ctrl_Cmd_s));
     gimbal_feed_sub = SubRegister("gimbal_feed", sizeof(Gimbal_Upload_Data_s));
@@ -176,7 +176,7 @@ static void RemoteControlSet() {
 
 
     }
-     //左侧开关状态为[下],视觉模式
+    //左侧开关状态为[下],视觉模式
     if (switch_is_down(rc_data[TEMP].rc.switch_left)) {
         gimbal_cmd_send.control_mode = TEST_CONTROL;
         trajectory_cal.v0 = 28; //弹速30
@@ -238,14 +238,14 @@ static void RemoteControlSet() {
         //gimbal_cmd_send.friction_mode = FRICTION_ON;
     else
         shoot_cmd_send.friction_mode = FRICTION_OFF;
-        //gimbal_cmd_send.friction_mode = FRICTION_OFF;
+    //gimbal_cmd_send.friction_mode = FRICTION_OFF;
     // 拨弹控制,遥控器固定为一种拨弹模式,可自行选择
     if (rc_data[TEMP].rc.dial < -500)
         shoot_cmd_send.load_mode = LOAD_BURSTFIRE;
         //gimbal_cmd_send.load_mode = LOAD_BURSTFIRE;
     else
         shoot_cmd_send.load_mode = LOAD_STOP;
-        //gimbal_cmd_send.load_mode = LOAD_STOP;
+    //gimbal_cmd_send.load_mode = LOAD_STOP;
 
     gimbal_cmd_send.shoot_mode = shoot_cmd_send.shoot_mode;//遥控发射指令同步发送给右边
     gimbal_cmd_send.load_mode = shoot_cmd_send.load_mode;//遥控发射指令同步发送给右边
@@ -322,7 +322,7 @@ static void AutoControlSet() {
         gimbal_cmd_send.pitch = trajectory_cal.cmd_pitch * 180 / PI;
 
         float yaw_err = fabsf(gimbal_cmd_send.yaw - gimbal_fetch_data.gimbal_imu_data.Yaw);
-        if (yaw_err <=  5) //3度
+        if (yaw_err <= 5) //3度
         {
             aim_select.suggest_fire = 1;
             shoot_cmd_send.shoot_mode = SHOOT_ON;
@@ -371,6 +371,8 @@ static void EmergencyHandler() {
     if (switch_is_up(rc_data[TEMP].rc.switch_right)) {
         robot_state = ROBOT_READY;
         shoot_cmd_send.shoot_mode = SHOOT_ON;
+        gimbal_cmd_send.yaw = gimbal_fetch_data.mini_yaw_encode_angle - 44;
+        gimbal_cmd_send.big_yaw = gimbal_fetch_data.big_yaw_motor_angle;
         LOGINFO("[CMD] reinstate, robot ready");
     }
 }
@@ -391,35 +393,38 @@ void RobotCMDTask() {
 
     // 根据gimbal的反馈值计算云台和底盘正方向的夹角,不需要传参,通过static私有变量完成
     CalcOffsetAngle();
+
     // 根据遥控器左侧开关,确定当前使用的控制模式为遥控器调试还是键鼠
-
     static control_mode_e last_gimbal_mode = 0;
-    if (switch_is_up(rc_data[TEMP].rc.switch_left)) // 遥控器左侧开关状态为[上],自动模式
-    {
-        gimbal_cmd_send.control_mode = AUTO_CONTROL;
-        AutoControlSet();
-    }
 
-    else {
-        if (last_gimbal_mode == AUTO_CONTROL) {
-            gimbal_cmd_send.yaw = 0;
-            gimbal_cmd_send.pitch = 0;
+
+    if (robot_state != ROBOT_STOP && rc_data[TEMP].rc.dial < 300) {
+        if (switch_is_up(rc_data[TEMP].rc.switch_left)) // 遥控器左侧开关状态为[上],自动模式
+        {
+            gimbal_cmd_send.control_mode = AUTO_CONTROL;
+            AutoControlSet();
+        } else {
+            if (last_gimbal_mode == AUTO_CONTROL) {
+                gimbal_cmd_send.yaw = 0;
+                gimbal_cmd_send.pitch = 0;
+            }
+            gimbal_cmd_send.control_mode = RC_CONTROL;
+            RemoteControlSet();
         }
-        gimbal_cmd_send.control_mode = RC_CONTROL;
-        RemoteControlSet();
     }
+    EmergencyHandler(); // 处理模块离线和遥控器急停等紧急情况
+
     gimbal_cmd_send.enemy_color = !referee_data->referee_id.Robot_Color;
     gimbal_cmd_send.rest_heat = referee_data->PowerHeatData.shooter_17mm_2_barrel_heat;
 
 
-
     last_gimbal_mode = gimbal_cmd_send.control_mode;
 
     //热量控制
-    if(referee_data->PowerHeatData.shooter_17mm_1_barrel_heat>350)
+    if (referee_data->PowerHeatData.shooter_17mm_1_barrel_heat > 350)
         shoot_cmd_send.load_mode = LOAD_STOP;
 
-    EmergencyHandler(); // 处理模块离线和遥控器急停等紧急情况
+
 
 //    chassis_feedback_data.enemy_color = !referee_data->referee_id.Robot_Color;
 //    // 当前只做了17mm热量的数据获取,后续根据robot_def中的宏切换双枪管和英雄42mm的情况
@@ -432,11 +437,10 @@ void RobotCMDTask() {
 
     //sentry_state = sentry_behave();
 
-    if(referee_data->GameState.game_progress == 4)
-    {
-        if(referee_data->GameState.stage_remain_time >= (300-60))
+    if (referee_data->GameState.game_progress == 4) {
+        if (referee_data->GameState.stage_remain_time >= (300 - 60))
             sentry_state = 1;//前一分钟
-        else if(referee_data->GameState.stage_remain_time <= 60)
+        else if (referee_data->GameState.stage_remain_time <= 60)
             sentry_state = 3;//后一分钟
         else
             sentry_state = 2;//中间阶段
@@ -444,7 +448,7 @@ void RobotCMDTask() {
 
     gimbal_cmd_send.game_state = sentry_state;
 
-    VisionSetFlag(!referee_data->referee_id.Robot_Color,sentry_state,referee_data->GameRobotState.current_HP);
+    VisionSetFlag(!referee_data->referee_id.Robot_Color, sentry_state, referee_data->GameRobotState.current_HP);
     // 推送消息,双板通信,视觉通信等
     // 其他应用所需的控制数据在remotecontrolsetmode和mousekeysetmode中完成设置
 #ifdef ONE_BOARD
@@ -460,45 +464,40 @@ void RobotCMDTask() {
     VisionSend(&vision_send_data);
 }
 
-uint8_t sentry_behave()
-{
+uint8_t sentry_behave() {
     static uint8_t behave_flag = 0;
     static uint8_t last_behave_flag = 0;
     static uint8_t recover_cnt = 0;
     // 比赛阶段  0准备阶段  1前1分钟  2中间阶段  3后一分钟 4比赛结束  9补给区回血  10保留（无响应）
-    if(referee_data->GameState.game_progress < 4)
+    if (referee_data->GameState.game_progress < 4)
         behave_flag = 0;
-    else if(referee_data->GameState.game_progress == 4)
-    {
-        if(referee_data->GameState.stage_remain_time >= (300-60))
+    else if (referee_data->GameState.game_progress == 4) {
+        if (referee_data->GameState.stage_remain_time >= (300 - 60))
             behave_flag = 1;//前一分钟
-        else if(referee_data->GameState.stage_remain_time <= 60)
+        else if (referee_data->GameState.stage_remain_time <= 60)
             behave_flag = 3;//后一分钟
         else
             behave_flag = 2;//中间阶段
-    }
-    else if (referee_data->GameState.game_progress == 5)
+    } else if (referee_data->GameState.game_progress == 5)
         behave_flag = 4;
 
-    if(referee_data->GameRobotState.current_HP < 200 && referee_data->GameState.stage_remain_time >= 60 && recover_cnt <= 1)
-    {
+    if (referee_data->GameRobotState.current_HP < 200 && referee_data->GameState.stage_remain_time >= 60 &&
+        recover_cnt <= 1) {
         behave_flag = 9;
     }
 
 
-
     static uint16_t last_HP = 600;
     static uint16_t recover_start_T = 0;
 
-    if(behave_flag == 9 ) //回去回血了
+    if (behave_flag == 9) //回去回血了
     {
-        if(last_behave_flag != 9)
-        {
+        if (last_behave_flag != 9) {
             recover_start_T = referee_data->GameState.stage_remain_time;
-            recover_cnt ++ ;
+            recover_cnt++;
         }
 
-        if((referee_data->GameState.stage_remain_time - recover_start_T)>10)
+        if ((referee_data->GameState.stage_remain_time - recover_start_T) > 10)
             behave_flag = 10;//随便给一个值
     }
 
diff --git a/application/gimbal/gimbal.c b/application/gimbal/gimbal.c
index c76afe7..bbcc1d1 100644
--- a/application/gimbal/gimbal.c
+++ b/application/gimbal/gimbal.c
@@ -278,7 +278,7 @@ void GimbalTask()
             //loop_float_constrain(big_yaw_relative_angle,0,2*PI) * RAD_2_DEGREE;
     gimbal_feedback_data.mini_yaw_encode_angle = yaw_motor->measure.total_angle;
     gimbal_feedback_data.big_yaw_online = DMMotorIsOnline(big_yaw_motor);
-
+    gimbal_feedback_data.big_yaw_motor_angle = big_yaw_motor->measure.total_angle;
     // 推送消息
     PubPushMessage(gimbal_pub, (void *)&gimbal_feedback_data);
 }
diff --git a/application/robot_def.h b/application/robot_def.h
index 9dc2f92..deb1e69 100644
--- a/application/robot_def.h
+++ b/application/robot_def.h
@@ -224,6 +224,7 @@ typedef struct
     attitude_t gimbal_imu_data;
     float yaw_motor_single_round_angle;
     float mini_yaw_encode_angle;
+    float big_yaw_motor_angle;
     uint8_t big_yaw_online;
 } Gimbal_Upload_Data_s;