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修改尾数控制和状态监控逻辑,添加TCP数据传输和数据库存储

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xiongyi
2025-10-30 20:42:57 +08:00
parent bbbe478d3e
commit d3d358762a
6 changed files with 1148 additions and 133 deletions
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.idea/vcs.xml generated
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<project version="4"> <project version="4">
<component name="VcsDirectoryMappings"> <component name="VcsDirectoryMappings">
<mapping directory="$PROJECT_DIR$" vcs="Git" /> <mapping directory="$PROJECT_DIR$" vcs="Git" />
<mapping directory="$PROJECT_DIR$/zjsh_ui_sysytem" vcs="Git" />
</component> </component>
</project> </project>

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Allocation.py Normal file
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#离线版本,根据彭的返回值更新状态,待测试
import requests
import hashlib
import pyodbc
from datetime import datetime
import time
import json
import threading
from TCPServer import TCPServer
# 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"
}
# 全局变量用于存储需要监控的任务ERP ID
monitored_tasks = set() # 存储需要监控的erp_id
inserted_tasks = {} # {erp_id: artifact_id}
tasks_lock = threading.Lock()
# TCP服务端实例
tcp_server = TCPServer
# 存储任务信息用于在SQL Server数据删除后保存到自定义表
task_info_storage = {} # {erp_id: task_info}
# 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")
# 获取所有未浇筑信息
def get_all_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:
artifact_list = data["Data"]
tasks = []
for artifact in artifact_list:
beton_task_id = artifact["BetonTaskID"]
beton_volume = artifact["BetonVolume"]
artifact_id = artifact["ArtifactActionID"]
block_number = artifact.get("BlockNumber", "")
# 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")
tasks.append({
"beton_task_id": beton_task_id,
"beton_volume": adjusted_volume,
"artifact_id": artifact_id,
"block_number": block_number
})
return tasks
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, artifact_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ERP ID: {erp_id}")
# 记录任务映射关系
with tasks_lock:
inserted_tasks[erp_id] = artifact_id
monitored_tasks.add(erp_id)
# 存储任务信息,用于后续保存到自定义表
task_info_storage[erp_id] = {
"task_info": task_info,
"beton_volume": beton_volume,
"artifact_id": artifact_id
}
print(f"任务 {erp_id} (ArtifactID: {artifact_id}) 已添加到监控列表")
# 发送数据给TCP客户端
try:
task_data = {
"erp_id": erp_id,
"task_id": task_info["TaskID"],
"produce_mix_id": task_info["ProduceMixID"],
"project_name": task_info["ProjectName"],
"beton_grade": task_info["BetonGrade"],
"adjusted_volume": beton_volume,
"flag": "1x",
"timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S")
}
tcp_server.send_data(task_data)
print(f"任务 {erp_id} 的数据已发送给TCP客户端")
except Exception as e:
print(f"发送数据给TCP客户端时出错: {e}")
return erp_id
# 处理TCP客户端发送的状态更新
def handle_tcp_status_update(status_data):
"""处理TCP客户端发送的状态更新"""
try:
erp_id = status_data.get("erp_id")
status = status_data.get("status")
if erp_id and status:
# 调用数据库状态更新函数
update_custom_table_status(erp_id, status)
print(f"已更新任务 {erp_id} 的状态为: {status}")
# 如果是完成或中断状态,从监控列表中移除
if status in ["生产完毕", "生产中断"]:
with tasks_lock:
monitored_tasks.discard(erp_id)
print(f"任务 {erp_id} 已完成/中断,停止监控")
except Exception as e:
print(f"处理TCP状态更新时出错: {e}")
# 监控Access数据库中特定任务的Flag字段变化
def monitor_access_flag_changes(access_db_path, access_password):
"""监控Access数据库中派发任务的状态"""
print("开始监控SQL Server中任务的删除状态")
while True:
try:
# 每2秒检查一次
time.sleep(2)
with tasks_lock:
# 如果没有需要监控的任务,跳过
if not monitored_tasks:
continue
# 创建需要监控的任务列表副本
tasks_to_monitor = monitored_tasks.copy()
# 检查SQL Server中任务是否还存在
sql_conn = connect_to_sql_server()
sql_cursor = sql_conn.cursor()
# 检查SQL Server中是否还存在这些任务
erp_ids = list(tasks_to_monitor)
if not erp_ids:
sql_conn.close()
continue
erp_ids_str = [str(erp_id) for erp_id in erp_ids]
placeholders = ','.join('?' * len(erp_ids_str))
check_query = f"SELECT ErpID FROM Produce WHERE ErpID IN ({placeholders})"
sql_cursor.execute(check_query, erp_ids_str)
sql_results = sql_cursor.fetchall()
sql_conn.close()
# 分离已删除和未删除的任务
existing_tasks_in_sql = {str(row[0]) for row in sql_results}
deleted_from_sql_tasks = set(erp_ids_str) - existing_tasks_in_sql
print(f"SQL Server中仍存在的任务: {existing_tasks_in_sql}")
print(f"已从SQL Server删除的任务: {deleted_from_sql_tasks}")
# 处理已从SQL Server删除的任务
if deleted_from_sql_tasks:
for erp_id_str in deleted_from_sql_tasks:
erp_id = int(erp_id_str)
# 当SQL Server中的任务被删除后调用保存函数将数据保存到自定义表
try:
# 从存储中获取任务信息
task_data = task_info_storage.get(erp_id)
if task_data:
task_info = task_data["task_info"]
beton_volume = task_data["beton_volume"]
artifact_id = task_data["artifact_id"]
# 调用同事提供的保存函数,将数据保存到自定义数据表
save_to_custom_table(
misid=erp_id,
flag="1", # 初始Flag值
task_id=task_info["TaskID"],
produce_mix_id=task_info["ProduceMixID"],
project_name=task_info["ProjectName"],
beton_grade=task_info["BetonGrade"],
adjusted_volume=beton_volume # 已经调整后的方量
)
print(f"任务 {erp_id} 的数据已保存到自定义数据表")
# 从存储中移除已处理的任务信息
task_info_storage.pop(erp_id, None)
except Exception as e:
print(f"调用保存函数时出错: {e}")
# 从监控列表中移除已处理的任务
with tasks_lock:
monitored_tasks.discard(erp_id)
print(f"任务 {erp_id} 已从SQL Server删除并处理完成停止监控")
except Exception as e:
print(f"监控数据库时发生错误: {e}")
import traceback
traceback.print_exc()
continue
# 在 main 函数中修改任务处理逻辑
def main():
global tcp_server
try:
# 初始化TCP服务端
tcp_server = TCPServer(host='127.0.0.1', port=8888)
tcp_server_thread = threading.Thread(target=tcp_server.start)
tcp_server_thread.daemon = True
tcp_server_thread.start()
# 等待服务端启动
time.sleep(1)
# 步骤1获取AppID
app_id = get_app_id()
# 存储上次获取的所有ArtifactID
last_artifact_ids = set()
# 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
# 启动监控线程
access_monitor_thread = threading.Thread(target=monitor_access_flag_changes,
args=(access_db_path, access_password))
access_monitor_thread.daemon = True
access_monitor_thread.start()
while True:
try:
# 步骤2获取所有未浇筑信息
tasks = get_all_not_pour_info(app_id)
current_artifact_ids = {task["artifact_id"] for task in tasks}
# 检查是否有新任务
new_artifact_ids = current_artifact_ids - last_artifact_ids
if new_artifact_ids:
print(f"检测到 {len(new_artifact_ids)} 个新任务")
for task in tasks:
if task["artifact_id"] in new_artifact_ids:
# 检查 block_number 是否为 "F"
if task["block_number"] == "F":
print(f"任务 {task['artifact_id']} 的 block_number 为 'F',跳过派单")
continue
print(f"处理新任务: {task['artifact_id']}")
# 步骤3获取任务单信息
task_info = get_task_info(app_id, task["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
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, task["beton_volume"], erp_id,
task["artifact_id"])
connection.close()
# 更新上次获取的ArtifactID集合
last_artifact_ids = current_artifact_ids
# 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")
# 停止TCP服务端
if tcp_server:
tcp_server.stop()
if __name__ == "__main__":
main()

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Allocation_api.py Normal file
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#从api列表获取只读第一个还没实现
import requests
import hashlib
import pyodbc
from datetime import datetime
import time
import json
import threading
from TCPServer import TCPServer
# 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"
}
# 全局变量用于存储需要监控的任务ERP ID
monitored_tasks = set() # 存储需要监控的erp_id
inserted_tasks = {} # {erp_id: artifact_id}
tasks_lock = threading.Lock()
# TCP服务端实例
tcp_server = None
# 存储任务信息用于在SQL Server数据删除后保存到自定义表
task_info_storage = {} # {erp_id: task_info}
# 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")
# 获取所有未浇筑信息
def get_all_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:
artifact_list = data["Data"]
tasks = []
# 检查列表是否为空
if not artifact_list:
return tasks
# 检查最后一条数据的BlockNumber是否为"F"
last_has_F = False
if len(artifact_list) > 0:
last_block_number = artifact_list[-1].get("BlockNumber", "")
if last_block_number == "F":
last_has_F = True
# 处理每条数据
for i, artifact in enumerate(artifact_list):
beton_task_id = artifact["BetonTaskID"]
beton_volume = artifact["BetonVolume"]
artifact_id = artifact["ArtifactActionID"]
block_number = artifact.get("BlockNumber", "")
# 根据BlockNumber调整方量
adjusted_volume = beton_volume
# 如果最后一条是"F",则调整前面两片的方量
if last_has_F and i < len(artifact_list) - 1: # 不处理最后一条"F"
if i == 0: # 第一片
adjusted_volume = beton_volume + 0.25
print(f" BlockNumber: {block_number}, 第一片方量调整后 (+0.25): {adjusted_volume}")
elif i == 1: # 第二片
adjusted_volume = beton_volume + 0.3
print(f" BlockNumber: {block_number}, 第二片方量调整后 (+0.3): {adjusted_volume}")
else:
# 原有的方量调整逻辑
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:
print(f" BlockNumber: {block_number}, 方量未调整")
tasks.append({
"beton_task_id": beton_task_id,
"beton_volume": adjusted_volume,
"artifact_id": artifact_id,
"block_number": block_number
})
return tasks
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, artifact_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ERP ID: {erp_id}")
# 记录任务映射关系
with tasks_lock:
inserted_tasks[erp_id] = artifact_id
monitored_tasks.add(erp_id)
# 存储任务信息,用于后续保存到自定义表
task_info_storage[erp_id] = {
"task_info": task_info,
"beton_volume": beton_volume,
"artifact_id": artifact_id
}
print(f"任务 {erp_id} (ArtifactID: {artifact_id}) 已添加到监控列表")
# 发送数据给TCP客户端
try:
task_data = {
"erp_id": erp_id,
"task_id": task_info["TaskID"],
"produce_mix_id": task_info["ProduceMixID"],
"project_name": task_info["ProjectName"],
"beton_grade": task_info["BetonGrade"],
"adjusted_volume": beton_volume,
"flag": "1x",
"timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S")
}
tcp_server.send_data(task_data)
print(f"任务 {erp_id} 的数据已发送给TCP客户端")
except Exception as e:
print(f"发送数据给TCP客户端时出错: {e}")
return erp_id
# 处理TCP客户端发送的状态更新
def handle_tcp_status_update(status_data):
"""处理TCP客户端发送的状态更新"""
try:
erp_id = status_data.get("erp_id")
status = status_data.get("status")
if erp_id and status:
# 调用数据库状态更新函数
update_custom_table_status(erp_id, status)
print(f"已更新任务 {erp_id} 的状态为: {status}")
# 如果是完成或中断状态,从监控列表中移除
if status in ["生产完毕", "生产中断"]:
with tasks_lock:
monitored_tasks.discard(erp_id)
print(f"任务 {erp_id} 已完成/中断,停止监控")
except Exception as e:
print(f"处理TCP状态更新时出错: {e}")
# 监控Access数据库中特定任务的Flag字段变化
def monitor_access_flag_changes(access_db_path, access_password):
"""监控Access数据库中派发任务的状态"""
print("开始监控SQL Server中任务的删除状态")
while True:
try:
# 每2秒检查一次
time.sleep(2)
with tasks_lock:
# 如果没有需要监控的任务,跳过
if not monitored_tasks:
continue
# 创建需要监控的任务列表副本
tasks_to_monitor = monitored_tasks.copy()
# 检查SQL Server中任务是否还存在
sql_conn = connect_to_sql_server()
sql_cursor = sql_conn.cursor()
# 检查SQL Server中是否还存在这些任务
erp_ids = list(tasks_to_monitor)
if not erp_ids:
sql_conn.close()
continue
erp_ids_str = [str(erp_id) for erp_id in erp_ids]
placeholders = ','.join('?' * len(erp_ids_str))
check_query = f"SELECT ErpID FROM Produce WHERE ErpID IN ({placeholders})"
sql_cursor.execute(check_query, erp_ids_str)
sql_results = sql_cursor.fetchall()
sql_conn.close()
# 分离已删除和未删除的任务
existing_tasks_in_sql = {str(row[0]) for row in sql_results}
deleted_from_sql_tasks = set(erp_ids_str) - existing_tasks_in_sql
print(f"SQL Server中仍存在的任务: {existing_tasks_in_sql}")
print(f"已从SQL Server删除的任务: {deleted_from_sql_tasks}")
# 处理已从SQL Server删除的任务
if deleted_from_sql_tasks:
for erp_id_str in deleted_from_sql_tasks:
erp_id = int(erp_id_str)
# 当SQL Server中的任务被删除后调用保存函数将数据保存到自定义表
try:
# 从存储中获取任务信息
task_data = task_info_storage.get(erp_id)
if task_data:
task_info = task_data["task_info"]
beton_volume = task_data["beton_volume"]
artifact_id = task_data["artifact_id"]
# 调用同事提供的保存函数,将数据保存到自定义数据表
save_to_custom_table(
misid=erp_id,
flag="1", # 初始Flag值
task_id=task_info["TaskID"],
produce_mix_id=task_info["ProduceMixID"],
project_name=task_info["ProjectName"],
beton_grade=task_info["BetonGrade"],
adjusted_volume=beton_volume # 已经调整后的方量
)
print(f"任务 {erp_id} 的数据已保存到自定义数据表")
# 从存储中移除已处理的任务信息
task_info_storage.pop(erp_id, None)
except Exception as e:
print(f"调用保存函数时出错: {e}")
# 从监控列表中移除已处理的任务
with tasks_lock:
monitored_tasks.discard(erp_id)
print(f"任务 {erp_id} 已从SQL Server删除并处理完成停止监控")
except Exception as e:
print(f"监控数据库时发生错误: {e}")
import traceback
traceback.print_exc()
continue
# 在 main 函数中修改任务处理逻辑
def main():
global tcp_server
try:
# 初始化TCP服务端
tcp_server = TCPServer(host='127.0.0.1', port=8888)
tcp_server_thread = threading.Thread(target=tcp_server.start)
tcp_server_thread.daemon = True
tcp_server_thread.start()
# 等待服务端启动
time.sleep(1)
# 步骤1获取AppID
app_id = get_app_id()
# 存储上次获取的所有ArtifactID
last_artifact_ids = set()
# 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
# 启动监控线程
access_monitor_thread = threading.Thread(target=monitor_access_flag_changes,
args=(access_db_path, access_password))
access_monitor_thread.daemon = True
access_monitor_thread.start()
while True:
try:
# 步骤2获取所有未浇筑信息
tasks = get_all_not_pour_info(app_id)
current_artifact_ids = {task["artifact_id"] for task in tasks}
# 检查是否有新任务
new_artifact_ids = current_artifact_ids - last_artifact_ids
if new_artifact_ids:
print(f"检测到 {len(new_artifact_ids)} 个新任务")
for task in tasks:
if task["artifact_id"] in new_artifact_ids:
# 检查 block_number 是否为 "F"
if task["block_number"] == "F":
print(f"任务 {task['artifact_id']} 的 block_number 为 'F',跳过派单")
continue
print(f"处理新任务: {task['artifact_id']}")
# 步骤3获取任务单信息
task_info = get_task_info(app_id, task["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
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, task["beton_volume"], erp_id,
task["artifact_id"])
connection.close()
# 更新上次获取的ArtifactID集合
last_artifact_ids = current_artifact_ids
# 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")
# 停止TCP服务端
if tcp_server:
tcp_server.stop()
if __name__ == "__main__":
main()

8
InsertDataFlag.py
View File

@ -99,12 +99,12 @@ def get_all_not_pour_info(app_id):
block_number = artifact.get("BlockNumber", "") block_number = artifact.get("BlockNumber", "")
# 根据BlockNumber调整方量 # 根据BlockNumber调整方量
if block_number == "L2": if block_number == "L1":
adjusted_volume = beton_volume + 0.25 adjusted_volume = beton_volume + 0.25
print(f" BlockNumber: L2, 方量调整后: {adjusted_volume}") print(f" BlockNumber: L1, 方量调整后: {adjusted_volume}")
elif block_number == "L3": elif block_number == "L2":
adjusted_volume = beton_volume + 0.3 adjusted_volume = beton_volume + 0.3
print(f" BlockNumber: L3, 方量调整后: {adjusted_volume}") print(f" BlockNumber: L2, 方量调整后: {adjusted_volume}")
else: else:
adjusted_volume = beton_volume adjusted_volume = beton_volume
print(f" BlockNumber: {block_number}, 方量未调整") print(f" BlockNumber: {block_number}, 方量未调整")

136
InsertData_tran.py
View File

@ -1,3 +1,5 @@
#在线版本实时监控Flag信息但是还没有实现每次只取最上面那条
import requests import requests
import hashlib import hashlib
import pyodbc import pyodbc
@ -5,6 +7,7 @@ from datetime import datetime
import time import time
import json import json
import threading import threading
from TCPServer import TCPServer
# 配置信息 # 配置信息
BASE_URL = "https://www.shnthy.com:9154" # 外网地址 BASE_URL = "https://www.shnthy.com:9154" # 外网地址
@ -26,6 +29,9 @@ monitored_tasks = set() # 存储需要监控的erp_id
inserted_tasks = {} # {erp_id: artifact_id} inserted_tasks = {} # {erp_id: artifact_id}
tasks_lock = threading.Lock() tasks_lock = threading.Lock()
# TCP服务端实例
tcp_server = TCPServer
# 计算SHA256密码 # 计算SHA256密码
def hash_password(password): def hash_password(password):
@ -202,22 +208,40 @@ def insert_into_produce_table(connection, task_info, beton_volume, erp_id, artif
try: try:
# 假设同事提供的函数名为 save_to_custom_table # 假设同事提供的函数名为 save_to_custom_table
# 参数包括: MISID(即erp_id), Flag, TaskID, ProduceMixID, ProjectName, BetonGrade, 调整后的方量 # 参数包括: MISID(即erp_id), Flag, TaskID, ProduceMixID, ProjectName, BetonGrade, 调整后的方量
save_to_custom_table( # save_to_custom_table(
misid=erp_id, # misid=erp_id,
flag="1", # 初始Flag值 # flag="1", # 初始Flag值
task_id=task_info["TaskID"], # task_id=task_info["TaskID"],
produce_mix_id=task_info["ProduceMixID"], # produce_mix_id=task_info["ProduceMixID"],
project_name=task_info["ProjectName"], # project_name=task_info["ProjectName"],
beton_grade=task_info["BetonGrade"], # beton_grade=task_info["BetonGrade"],
adjusted_volume=beton_volume # 已经调整后的方量 # adjusted_volume=beton_volume # 已经调整后的方量
) # )
print(f"任务 {erp_id} 的数据已保存到自定义数据表") print(f"任务 {erp_id} 的数据已保存到自定义数据表")
except Exception as e: except Exception as e:
print(f"调用保存函数时出错: {e}") print(f"调用保存函数时出错: {e}")
# 发送数据给TCP客户端
try:
time.sleep(5)
task_data = {
"erp_id": erp_id,#车号,相当于序号
"task_id": task_info["TaskID"],#任务单号
"produce_mix_id": task_info["ProduceMixID"],#配比号
"project_name": task_info["ProjectName"],#任务名
"beton_grade": task_info["BetonGrade"],#砼强度
"adjusted_volume": beton_volume,#方量
"flag": "1x",#状态
"timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S")#时间
}
tcp_server.send_data(task_data)
print(f"任务 {erp_id} 的数据已发送给TCP客户端")
except Exception as e:
print(f"发送数据给TCP客户端时出错: {e}")
return erp_id return erp_id
# 监控Access数据库中特定任务的Flag字段变化
# 监控Access数据库中特定任务的Flag字段变化 # 监控Access数据库中特定任务的Flag字段变化
def monitor_access_flag_changes(access_db_path, access_password): def monitor_access_flag_changes(access_db_path, access_password):
"""监控Access数据库中派发任务的Flag状态""" """监控Access数据库中派发任务的Flag状态"""
@ -314,7 +338,7 @@ def monitor_access_flag_changes(access_db_path, access_password):
print(f"检查任务 {erp_id} - 当前Flag: '{current_flag}', 之前Flag: '{previous_flag}'") print(f"检查任务 {erp_id} - 当前Flag: '{current_flag}', 之前Flag: '{previous_flag}'")
# 如果状态发生变化 # 如果状态发生变化
if current_flag != previous_flag: if current_flag != previous_flag: # 添加这行
with tasks_lock: with tasks_lock:
artifact_id = inserted_tasks.get(erp_id, "Unknown") artifact_id = inserted_tasks.get(erp_id, "Unknown")
print( print(
@ -322,20 +346,46 @@ def monitor_access_flag_changes(access_db_path, access_password):
task_flags[erp_id_str] = current_flag task_flags[erp_id_str] = current_flag
# 根据Flag值末尾的字母执行相应操作并更新自定义数据表状态 # 根据Flag值末尾的字母执行相应操作并更新自定义数据表状态
if current_flag.endswith('d'): if current_flag.endswith('d'): # 将 elif 改为 if
print(f"派发任务 ErpID {erp_id}: 未进行生产") print(f"派发任务 ErpID {erp_id}: 未进行生产")
# 调用同事提供的状态更新函数 # 调用同事提供的状态更新函数
try: try:
update_custom_table_status(erp_id, "未进行生产") print(1)
# update_custom_table_status(erp_id, "未进行生产")
except Exception as e: except Exception as e:
print(f"更新状态时出错: {e}") print(f"更新状态时出错: {e}")
# 发送数据给TCP客户端只发送erp_id和状态
try:
status_data = {
"erp_id": erp_id,
"status": "未进行生产"
}
tcp_server.send_data(status_data)
except Exception as e:
print(f"发送状态数据给TCP客户端时出错: {e}")
# 在"正在生产中"分支中:
elif current_flag.endswith('w'): elif current_flag.endswith('w'):
print(f"派发任务 ErpID {erp_id}: 正在生产中") print(f"派发任务 ErpID {erp_id}: 正在生产中")
# 调用同事提供的状态更新函数 # 调用同事提供的状态更新函数
try: try:
update_custom_table_status(erp_id, "正在生产中") print(2)
# update_custom_table_status(erp_id, "正在生产中")
except Exception as e: except Exception as e:
print(f"更新状态时出错: {e}") print(f"更新状态时出错: {e}")
# 发送数据给TCP客户端只发送erp_id和状态
try:
status_data = {
"erp_id": erp_id,
"status": "正在生产中"
}
tcp_server.send_data(status_data)
except Exception as e:
print(f"发送状态数据给TCP客户端时出错: {e}")
# 在"生产完毕"分支中:
elif current_flag.endswith('n'): elif current_flag.endswith('n'):
print(f"派发任务 ErpID {erp_id}: 生产完毕") print(f"派发任务 ErpID {erp_id}: 生产完毕")
# 任务完成,可以从监控列表中移除 # 任务完成,可以从监控列表中移除
@ -344,9 +394,22 @@ def monitor_access_flag_changes(access_db_path, access_password):
print(f"派发任务 ErpID {erp_id} 已完成,停止监控") print(f"派发任务 ErpID {erp_id} 已完成,停止监控")
# 调用同事提供的状态更新函数 # 调用同事提供的状态更新函数
try: try:
update_custom_table_status(erp_id, "生产完毕") print(3)
# update_custom_table_status(erp_id, "生产完毕")
except Exception as e: except Exception as e:
print(f"更新状态时出错: {e}") print(f"更新状态时出错: {e}")
# 发送数据给TCP客户端只发送erp_id和状态
try:
status_data = {
"erp_id": erp_id,
"status": "生产完毕"
}
tcp_server.send_data(status_data)
except Exception as e:
print(f"发送状态数据给TCP客户端时出错: {e}")
# 在"生产中断"分支中:
elif current_flag.endswith('p'): elif current_flag.endswith('p'):
print(f"派发任务 ErpID {erp_id}: 生产中断") print(f"派发任务 ErpID {erp_id}: 生产中断")
# 任务中断,可以从监控列表中移除 # 任务中断,可以从监控列表中移除
@ -355,17 +418,41 @@ def monitor_access_flag_changes(access_db_path, access_password):
print(f"派发任务 ErpID {erp_id} 已中断,停止监控") print(f"派发任务 ErpID {erp_id} 已中断,停止监控")
# 调用同事提供的状态更新函数 # 调用同事提供的状态更新函数
try: try:
update_custom_table_status(erp_id, "生产中断") print(4)
# update_custom_table_status(erp_id, "生产中断")
except Exception as e: except Exception as e:
print(f"更新状态时出错: {e}") print(f"更新状态时出错: {e}")
# 发送数据给TCP客户端只发送erp_id和状态
try:
status_data = {
"erp_id": erp_id,
"status": "生产中断"
}
tcp_server.send_data(status_data)
except Exception as e:
print(f"发送状态数据给TCP客户端时出错: {e}")
# 在"数据已接收"分支中:
elif current_flag.endswith('x'): elif current_flag.endswith('x'):
print(f"派发任务 ErpID {erp_id}: 数据已接收") print(f"派发任务 ErpID {erp_id}: 数据已接收")
# 调用同事提供的状态更新函数 # 调用同事提供的状态更新函数
try: try:
update_custom_table_status(erp_id, "数据已接收") print(5)
# update_custom_table_status(erp_id, "数据已接收")
except Exception as e: except Exception as e:
print(f"更新状态时出错: {e}") print(f"更新状态时出错: {e}")
# 发送数据给TCP客户端只发送erp_id和状态
try:
status_data = {
"erp_id": erp_id,
"status": "数据已接收"
}
tcp_server.send_data(status_data)
except Exception as e:
print(f"发送状态数据给TCP客户端时出错: {e}")
# 检查是否有任务记录已被删除(不在查询结果中但仍在监控列表中) # 检查是否有任务记录已被删除(不在查询结果中但仍在监控列表中)
# 这表示任务可能已完成或从系统中移除 # 这表示任务可能已完成或从系统中移除
missing_tasks = set(deleted_from_sql_tasks) - set(current_tasks.keys()) missing_tasks = set(deleted_from_sql_tasks) - set(current_tasks.keys())
@ -388,10 +475,20 @@ def monitor_access_flag_changes(access_db_path, access_password):
continue continue
# 在 main 函数中修改任务处理逻辑 # 在 main 函数中修改任务处理逻辑
def main(): def main():
global tcp_server
try: try:
# 初始化TCP服务端
tcp_server = TCPServer(host='127.0.0.1', port=8888)
tcp_server_thread = threading.Thread(target=tcp_server.start)
tcp_server_thread.daemon = True
tcp_server_thread.start()
# 等待服务端启动
time.sleep(1)
# 步骤1获取AppID # 步骤1获取AppID
app_id = get_app_id() app_id = get_app_id()
@ -455,6 +552,9 @@ def main():
except KeyboardInterrupt: except KeyboardInterrupt:
print("程序已停止") print("程序已停止")
# 停止TCP服务端
if tcp_server:
tcp_server.stop()
if __name__ == "__main__": if __name__ == "__main__":

154
TCPServer.py
View File

@ -1,65 +1,82 @@
import socket import socket
import threading
import json import json
import threading
import time import time
from datetime import datetime from datetime import datetime
import os
class TCPServer: class TCPServer:
def __init__(self, host='localhost', port=8080): def __init__(self, host='127.0.0.1', port=8888):
self.host = host self.host = host
self.port = port self.port = port
self.server_socket = None self.server_socket = None
self.client_socket = None self.is_running = False
self.client_address = None self.client_sockets = []
self.running = False
def start_server(self): def start(self):
"""启动TCP服务端""" """启动TCP服务端"""
try: try:
self.is_running = True
self.server_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM) self.server_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
self.server_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) self.server_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
self.server_socket.bind((self.host, self.port)) self.server_socket.bind((self.host, self.port))
self.server_socket.listen(1) self.server_socket.listen(5)
self.running = True print(f"TCP服务端已启动监听 {self.host}:{self.port}...")
print(f"TCP服务端已启动监听 {self.host}:{self.port}") # 启动接受连接的线程
accept_thread = threading.Thread(target=self.accept_connections, daemon=True)
accept_thread.start()
while self.running: # 保持主线程运行
try: try:
self.client_socket, self.client_address = self.server_socket.accept() while self.is_running:
print(f"客户端已连接: {self.client_address}") time.sleep(1)
except KeyboardInterrupt:
# 启动客户端处理线程 print("\n服务端正在关闭...")
client_thread = threading.Thread(target=self.handle_client) self.stop()
client_thread.daemon = True
client_thread.start()
except Exception as e:
if self.running:
print(f"接受客户端连接时出错: {e}")
except Exception as e: except Exception as e:
print(f"启动服务端时出错: {e}") print(f"启动服务端时出错: {e}")
finally:
self.stop_server()
def handle_client(self): def accept_connections(self):
"""接受客户端连接"""
while self.is_running:
try:
client_socket, client_address = self.server_socket.accept()
self.client_sockets.append(client_socket)
print(f"客户端 {client_address} 已连接")
# 启动一个线程处理客户端通信
client_thread = threading.Thread(
target=self.handle_client,
args=(client_socket, client_address),
daemon=True
)
client_thread.start()
except Exception as e:
if self.is_running:
print(f"接受客户端连接时出错: {e}")
break
def handle_client(self, client_socket, client_address):
"""处理客户端通信""" """处理客户端通信"""
try: try:
while self.running and self.client_socket: while self.is_running and client_socket in self.client_sockets:
try: try:
# 设置接收超时 # 设置接收超时
self.client_socket.settimeout(1.0) client_socket.settimeout(1.0)
# 接收客户端数据 # 接收客户端数据
data = self.client_socket.recv(1024) data = client_socket.recv(1024)
if not data: if not data:
break break
# 解析JSON数据 # 解析JSON数据
message = data.decode('utf-8') message = data.decode('utf-8').strip()
if message:
json_data = json.loads(message) json_data = json.loads(message)
# 处理客户端返回的异常数据 # 处理客户端返回的异常数据
self.process_client_data(json_data) self.process_client_data(json_data)
@ -67,35 +84,41 @@ class TCPServer:
# 超时继续循环 # 超时继续循环
continue continue
except json.JSONDecodeError as e: except json.JSONDecodeError as e:
print(f"解析JSON数据时出错: {e}") print(f"解析客户端 {client_address} JSON数据时出错: {e}")
except Exception as e: except Exception as e:
print(f"处理客户端数据时出错: {e}") print(f"处理客户端 {client_address} 数据时出错: {e}")
break
except Exception as e: except Exception as e:
print(f"客户端处理线程出错: {e}") print(f"客户端 {client_address} 处理线程出错: {e}")
finally: finally:
self.disconnect_client() # 清理客户端连接
if client_socket in self.client_sockets:
self.client_sockets.remove(client_socket)
client_socket.close()
print(f"客户端 {client_address} 已断开连接")
def process_client_data(self, json_data): def process_client_data(self, json_data):
"""处理客户端返回的数据""" """处理客户端返回的数据"""
try: try:
cmd = json_data.get("cmd") cmd = json_data.get("cmd")
timestamp = json_data.get("timestamp") timestamp = json_data.get("timestamp")
erp_id = json_data.get("erp_id") # 从JSON数据中解析ErpID
if cmd == "production_error": if cmd == "production_error":
print(f"收到异常生产通知 - 时间: {timestamp}") print(f"收到异常生产通知 - 时间: {timestamp}, ERP ID: {erp_id}")
# 调用update_custom_table_status更新数据库状态 # 调用update_custom_table_status更新数据库状态
try: try:
update_custom_table_status("异常生产") # update_custom_table_status(erp_id, "异常生产")
print("数据库状态已更新为: 异常生产") print(f"数据库状态已更新为: 异常生产 (ERP ID: {erp_id})")
except Exception as e: except Exception as e:
print(f"更新数据库状态时出错: {e}") print(f"更新数据库状态时出错: {e}")
elif cmd == "interrupt_error": elif cmd == "interrupt_error":
print(f"收到中断生产通知 - 时间: {timestamp}") print(f"收到中断生产通知 - 时间: {timestamp}, ERP ID: {erp_id}")
# 调用update_custom_table_status更新数据库状态 # 调用update_custom_table_status更新数据库状态
try: try:
update_custom_table_status("中断生产") # update_custom_table_status(erp_id, "中断生产")
print("数据库状态已更新为: 中断生产") print(f"数据库状态已更新为: 中断生产 (ERP ID: {erp_id})")
except Exception as e: except Exception as e:
print(f"更新数据库状态时出错: {e}") print(f"更新数据库状态时出错: {e}")
else: else:
@ -105,29 +128,48 @@ class TCPServer:
print(f"处理客户端数据时出错: {e}") print(f"处理客户端数据时出错: {e}")
def send_data(self, data): def send_data(self, data):
"""向客户端发送数据""" """所有已连接的客户端发送数据"""
disconnected_sockets = []
for client_socket in self.client_sockets:
try: try:
if self.client_socket and self.running: if client_socket:
json_data = json.dumps(data, ensure_ascii=False) json_data = json.dumps(data, ensure_ascii=False)
self.client_socket.send((json_data + "\n").encode('utf-8')) # 添加换行符作为结束标记
print(f"已发送数据: {json_data}") client_socket.sendall((json_data + "\n").encode('utf-8'))
return True print(f"已向客户端发送数据: {json_data}")
except Exception as e: except Exception as e:
print(f"发送数据时出错: {e}") print(f"向客户端发送数据时出错: {e}")
return False disconnected_sockets.append(client_socket)
def disconnect_client(self): # 清理断开连接的套接字
"""断开客户端连接""" for sock in disconnected_sockets:
if self.client_socket: if sock in self.client_sockets:
self.client_socket.close() self.client_sockets.remove(sock)
self.client_socket = None
print("客户端已断开连接")
def stop_server(self): def stop(self):
"""停止服务端""" """停止服务端"""
self.running = False self.is_running = False
if self.client_socket:
self.client_socket.close() # 关闭所有客户端连接
for sock in self.client_sockets:
try:
sock.close()
except Exception as e:
print(f"关闭客户端连接时发生错误: {e}")
# 关闭服务器套接字
if self.server_socket: if self.server_socket:
try:
self.server_socket.close() self.server_socket.close()
except Exception as e:
print(f"关闭服务器套接字时发生错误: {e}")
print("TCP服务端已停止") print("TCP服务端已停止")
self.client_sockets.clear()
# 使用示例
if __name__ == '__main__':
server = TCPServer(host='127.0.0.1', port=8888)
server.start()