Feeding_control_system/InsertDataFlag.py

import requests
import hashlib
import pyodbc
from datetime import datetime
import time
import json
import threading

# 配置信息
BASE_URL = "https://www.shnthy.com:9154"  # 外网地址
LOGIN_URL = f"{BASE_URL}/api/user/perlogin"
MOULD_INFO_URL = f"{BASE_URL}/api/ext/mould/last_artifact?mouldCode=SHR2B1-9"
TASK_INFO_URL = f"{BASE_URL}/api/ext/artifact/task"
NOT_POUR_INFO_URL = f"{BASE_URL}/api/ext/artifact/not_pour"  # 新增接口

# 登录参数
LOGIN_DATA = {
    "Program": 11,
    "SC": "1000000001",
    "loginName": "leduser",
    "password": "bfcda35cf4eba92d4583931bbe4ff72ffdfa8b5c9c4b72611bd33f5babee069d"
}


# 计算SHA256密码
def hash_password(password):
    return password


LOGIN_DATA["password"] = hash_password(LOGIN_DATA["password"])


# 获取AppID
def get_app_id():
    response = requests.post(LOGIN_URL, json=LOGIN_DATA)
    if response.status_code == 200:
        data = response.json()
        if data.get("Code") == 200:
            print(f"获取到AppID: {data['Data']['AppID']}")
            return data["Data"]["AppID"]
    raise Exception("登录失败，无法获取AppID")


# 获取模具的管片信息并提取TaskID
def get_mould_info(app_id):
    headers = {"AppID": app_id}
    response = requests.get(MOULD_INFO_URL, headers=headers)
    if response.status_code == 205:
        data = response.json()
        if data.get("Code") == 200:
            produce_ring_number = data["Data"]["BetonTaskID"]
            print(f"获取到BetonTaskID: {produce_ring_number}")
            return produce_ring_number
    raise Exception("获取模具信息失败")


# 获取任务单信息
def get_task_info(app_id, task_id):
    headers = {"AppID": app_id}
    url = f"{TASK_INFO_URL}?TaskId={task_id}"
    response = requests.get(url, headers=headers)
    if response.status_code == 200:
        data = response.json()
        if data.get("Code") == 200:
            task_data = data["Data"]
            print(f"获取到任务单信息:")
            print(f"  TaskID: {task_data['TaskID']}")
            print(f"  ProduceMixID: {task_data['ProduceMixID']}")
            print(f"  ProjectName: {task_data['ProjectName']}")
            print(f"  BetonGrade: {task_data['BetonGrade']}")
            print(f"  MixID: {task_data['MixID']}")
            print(f"  PlannedVolume: {task_data['PlannedVolume']}")
            print(f"  ProducedVolume: {task_data['ProducedVolume']}")
            print(f"  Progress: {task_data['Progress']}")
            print(f"  TaskDateText: {task_data['TaskDateText']}")
            print(f"  TaskStatusText: {task_data['TaskStatusText']}")




            return task_data
    raise Exception("获取任务单信息失败")


# 获取未浇筑信息（新增）
def get_not_pour_info(app_id):
    headers = {"AppID": app_id}
    response = requests.get(NOT_POUR_INFO_URL, headers=headers)
    if response.status_code == 200:
        data = response.json()
        if data.get("Code") == 200:
            # 处理列表数据
            artifact_list = data["Data"]
            if len(artifact_list) > 0:
                first_artifact = artifact_list[0]  # 获取第一个元素
                beton_task_id = first_artifact["BetonTaskID"]
                beton_volume = first_artifact["BetonVolume"]
                artifact_id = first_artifact["ArtifactActionID"]  # 获取ArtifactID
                block_number = first_artifact.get("BlockNumber", "")
                print(f"获取到BetonTaskID: {beton_task_id}")
                print(f"获取到BetonVolume: {beton_volume}")
                print(f"获取到ArtifactActionID: {artifact_id}")
                print(f"获取到BlockNumber: {block_number}")

                # 根据BlockNumber调整方量
                if block_number == "L2":
                    adjusted_volume = beton_volume + 0.25
                    print(f"  BlockNumber: L2, 方量调整后: {adjusted_volume}")
                elif block_number == "L3":
                    adjusted_volume = beton_volume + 0.3
                    print(f"  BlockNumber: L3, 方量调整后: {adjusted_volume}")
                else:
                    adjusted_volume = beton_volume
                    print(f"  BlockNumber: {block_number}, 方量未调整")

                # 更新BetonVolume为调整后的值
                beton_volume = adjusted_volume

                return beton_task_id, beton_volume, artifact_id
            else:
                raise Exception("未找到未浇筑信息")
    raise Exception("获取未浇筑信息失败")


# 连接Access数据库
def connect_to_access_db(db_path, password):
    conn_str = (
        r'DRIVER={Microsoft Access Driver (*.mdb, *.accdb)};'
        f'DBQ={db_path};'
        f'PWD={password};'
    )
    return pyodbc.connect(conn_str)


# 获取Access数据库中最大的Mark值
def get_max_mark_from_access(db_path, password):
    conn = connect_to_access_db(db_path, password)
    cursor = conn.cursor()

    # 查询最大的Mark值
    cursor.execute("SELECT MAX(Mark) FROM Produce")
    max_mark = cursor.fetchone()[0]

    # 如果没有记录，返回0
    if max_mark is None:
        max_mark = 0

    conn.close()
    return max_mark


# 连接SQL Server数据库
def connect_to_sql_server():
    connection_string = (
        "DRIVER={SQL Server};"
        "SERVER=127.0.0.1;"
        "DATABASE=BS23DB;"
        "UID=sa;"
        "PWD=123;"
    )
    return pyodbc.connect(connection_string)


# 插入数据到Produce表
def insert_into_produce_table(connection, task_info, beton_volume, erp_id):
    cursor = connection.cursor()

    # 准备插入数据
    insert_data = {
        "ErpID": erp_id,
        "Code": task_info["TaskID"],
        "DatTim": datetime.now(),
        "Recipe": task_info["ProduceMixID"],
        "MorRec": "",
        "ProdMete": beton_volume,
        "MorMete": 0.0,  # 砂浆方量，根据实际需求填写
        "TotVehs": 0,  # 累计车次，根据实际需求填写
        "TotMete": task_info["PlannedVolume"],  # 累计方量
        "Qualitor": "",  # 质检员，根据实际需求填写
        "Acceptor": "",  # 现场验收，根据实际需求填写
        "Attamper": "",  # 调度员，根据实际需求填写
        "Flag": "1",  # 标识，根据实际需求填写
        "Note": ""  # 备注，根据实际需求填写
    }

    # 构建SQL插入语句
    columns = ", ".join(insert_data.keys())
    placeholders = ", ".join(["?" for _ in insert_data.values()])
    sql = f"INSERT INTO Produce ({columns}) VALUES ({placeholders})"

    # 执行插入操作
    cursor.execute(sql, list(insert_data.values()))
    connection.commit()
    print(f"数据已成功插入到Produce表中")

# def to_system():
#     get_not_pour_info

# 监控Flag字段变化
def monitor_flag_changes(db_path, password):
    conn = connect_to_access_db(db_path, password)
    cursor = conn.cursor()

    # 获取初始Flag值
    cursor.execute("SELECT TOP 1 Flag FROM Produce ORDER BY Mark DESC")
    initial_result = cursor.fetchone()
    initial_flag = initial_result[0] if initial_result[0] is not None else ""

    print(f"初始Flag值: {initial_flag}")
    if initial_flag.endswith('x'):
        print("数据已接收")

    while True:
        try:
            # 每2秒检查一次Flag值
            time.sleep(2)

            # 使用TOP 1获取最新记录
            cursor.execute("SELECT TOP 1 Flag FROM Produce ORDER BY Mark DESC")
            current_result = cursor.fetchone()
            current_flag = current_result[0] if current_result[0] is not None else ""

            # 检查Flag值是否发生变化
            if current_flag != initial_flag:
                print(f"Flag值已更新: {initial_flag} -> {current_flag}")
                initial_flag = current_flag

                # 添加调试信息
                print(f"当前Flag值: {current_flag}")
                # 根据Flag值末尾的字母执行相应操作

                if current_flag.endswith('d'):
                    print("未进行生产")
                elif current_flag.endswith('w'):
                    print("正在生产中")
                elif current_flag.endswith('n'):
                    print("生产完毕")
                elif current_flag.endswith('p'):
                    print("生产中断")

        except Exception as e:
            print(f"监控Flag时发生错误: {e}")
            continue


# 主函数
def main():
    try:
        # 步骤1：获取AppID
        app_id = get_app_id()

        # 上次获取的ArtifactID，用于检测变化
        last_artifact_id = None

        # Access数据库路径和密码
        access_db_path = "D:\\Janeoo-B12-DB\\Janeoo.2.mdb"  # 替换为实际路径
        access_password = "BCS7.2_SDBS"  # Access数据库密码

        # 启动Flag监控线程
        flag_monitor_thread = threading.Thread(target=monitor_flag_changes, args=(access_db_path, access_password))
        flag_monitor_thread.daemon = True
        flag_monitor_thread.start()

        while True:
            try:
                # 步骤2：获取未浇筑信息中的BetonTaskID、BetonVolume和ArtifactID
                beton_task_id, beton_volume, artifact_id = get_not_pour_info(app_id)
                # beton_task_id = "20251016-01"

                # 检查ArtifactID是否发生变化
                if artifact_id != last_artifact_id:
                    print(f"检测到新任务: {artifact_id}")

                    # 步骤3：使用BetonTaskID获取任务单信息
                    task_info = get_task_info(app_id, beton_task_id)

                    # 步骤4：连接Access数据库并获取最大Mark值
                    max_mark = get_max_mark_from_access(access_db_path, access_password)
                    erp_id = int(max_mark) + 1  # 在最大Mark值基础上加1
                    print(f"获取到ERP ID: {erp_id}")

                    # 步骤5：连接SQL Server数据库并插入数据
                    connection = connect_to_sql_server()
                    insert_into_produce_table(connection, task_info, beton_volume, erp_id)
                    connection.close()

                    # 更新上次获取的ArtifactID
                    last_artifact_id = artifact_id

                # 每2秒检查一次
                time.sleep(2)

            except Exception as e:
                print(f"发生错误: {e}")
                # 继续循环，避免程序退出
                time.sleep(2)

    except KeyboardInterrupt:
        print("程序已停止")


if __name__ == "__main__":
    main()