添加Raman和xrd相关代码

unilabos/devices/opsky_Raman/opsky_ATR30007.py

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+# opsky_atr30007.py
+import logging
+import time as time_mod
+import csv
+from datetime import datetime
+from typing import Optional, Dict, Any
+
+# 兼容 pymodbus 在不同版本中的位置与 API
+try:
+    from pymodbus.client import ModbusTcpClient
+except Exception:
+    ModbusTcpClient = None
+
+# 导入 run_raman_test（假定与本文件同目录）
+# 如果你的项目是包结构且原先使用相对导入，请改回 `from .raman_module import run_raman_test`
+try:
+    from .raman_module import run_raman_test
+except Exception:
+    # 延迟导入失败不会阻止主流程（在 run 时会再尝试）
+    run_raman_test = None
+
+logger = logging.getLogger("opsky")
+logger.setLevel(logging.INFO)
+ch = logging.StreamHandler()
+formatter = logging.Formatter("%(asctime)s [%(levelname)s] %(message)s", "%y-%m-%d %H:%M:%S")
+ch.setFormatter(formatter)
+logger.addHandler(ch)
+
+
+class opsky_ATR30007:
+    """
+    封装 UniLabOS 设备动作逻辑，兼容 pymodbus 2.x / 3.x。
+    放在独立文件中：opsky_atr30007.py
+    """
+
+    def __init__(
+        self,
+        plc_ip: str = "192.168.1.88",
+        plc_port: int = 502,
+        robot_ip: str = "192.168.1.200",
+        robot_port: int = 502,
+        scan_csv_file: str = "scan_results.csv",
+    ):
+        self.plc_ip = plc_ip
+        self.plc_port = plc_port
+        self.robot_ip = robot_ip
+        self.robot_port = robot_port
+        self.scan_csv_file = scan_csv_file
+
+    # ----------------- 参数字符串转换 helpers -----------------
+    @staticmethod
+    def _str_to_int(s, default):
+        try:
+            return int(float(str(s).strip()))
+        except Exception:
+            return int(default)
+
+    @staticmethod
+    def _str_to_float(s, default):
+        try:
+            return float(str(s).strip())
+        except Exception:
+            return float(default)
+
+    @staticmethod
+    def _str_to_bool(s, default):
+        try:
+            v = str(s).strip().lower()
+            if v in ("true", "1", "yes", "y", "t"):
+                return True
+            if v in ("false", "0", "no", "n", "f"):
+                return False
+            return default
+        except Exception:
+            return default
+
+    # ----------------- Modbus / 安全读写 -----------------
+    @staticmethod
+    def _adapt_req_kwargs_for_read(func_name: str, args: tuple, kwargs: dict):
+        # 如果调用方传的是 (address, count) positional，在新版接口可能是 address=..., count=...
+        if len(args) == 2 and func_name.startswith("read_"):
+            address, count = args
+            args = ()
+            kwargs.setdefault("address", address)
+            kwargs.setdefault("count", count)
+        return args, kwargs
+
+    @staticmethod
+    def _adapt_req_kwargs_for_write(func_name: str, args: tuple, kwargs: dict):
+        if len(args) == 2 and func_name.startswith("write_"):
+            address, value = args
+            args = ()
+            kwargs.setdefault("address", address)
+            kwargs.setdefault("value", value)
+        return args, kwargs
+
+    def ensure_connected(self, client, name, ip, port):
+        """确保连接存在，失败则尝试重连并返回新的 client 或 None"""
+        if client is None:
+            return None
+        try:
+            # 不同 pymodbus 版本可能有不同方法检测 socket
+            is_open = False
+            try:
+                is_open = bool(client.is_socket_open())
+            except Exception:
+                # fallback: try to read nothing or attempt connection test
+                try:
+                    # 轻试一次
+                    is_open = client.connected if hasattr(client, "connected") else False
+                except Exception:
+                    is_open = False
+
+            if not is_open:
+                logger.warning("%s 掉线，尝试重连...", name)
+                try:
+                    client.close()
+                except Exception:
+                    pass
+                time_mod.sleep(0.5)
+                if ModbusTcpClient:
+                    new_client = ModbusTcpClient(ip, port=port)
+                    try:
+                        if new_client.connect():
+                            logger.info("%s 重新连接成功 (%s:%s)", name, ip, port)
+                            return new_client
+                    except Exception:
+                        pass
+                logger.warning("%s 重连失败", name)
+                time_mod.sleep(1)
+                return None
+            return client
+        except Exception as e:
+            logger.exception("%s 连接检查异常: %s", name, e)
+            return None
+
+    def safe_read(self, client, name, func, *args, retries=3, delay=0.3, **kwargs):
+        """兼容 pymodbus 2.x/3.x 的读函数，返回 response 或 None"""
+        if client is None:
+            return None
+        for attempt in range(1, retries + 1):
+            try:
+                # adapt args/kwargs for different API styles
+                args, kwargs = self._adapt_req_kwargs_for_read(func.__name__, args, kwargs)
+                # unit->slave compatibility
+                if "unit" in kwargs:
+                    kwargs["slave"] = kwargs.pop("unit")
+                res = func(*args, **kwargs)
+                # pymodbus Response 在不同版本表现不同，尽量检测错误
+                if res is None:
+                    raise RuntimeError("返回 None")
+                if hasattr(res, "isError") and res.isError():
+                    raise RuntimeError("Modbus 返回 isError()")
+                return res
+            except Exception as e:
+                logger.warning("%s 读异常 (尝试 %d/%d): %s", name, attempt, retries, e)
+            time_mod.sleep(delay)
+        logger.error("%s 连续读取失败 %d 次", name, retries)
+        return None
+
+    def safe_write(self, client, name, func, *args, retries=3, delay=0.3, **kwargs):
+        """兼容 pymodbus 2.x/3.x 的写函数，返回 True/False"""
+        if client is None:
+            return False
+        for attempt in range(1, retries + 1):
+            try:
+                args, kwargs = self._adapt_req_kwargs_for_write(func.__name__, args, kwargs)
+                if "unit" in kwargs:
+                    kwargs["slave"] = kwargs.pop("unit")
+                res = func(*args, **kwargs)
+                if res is None:
+                    raise RuntimeError("返回 None")
+                if hasattr(res, "isError") and res.isError():
+                    raise RuntimeError("Modbus 返回 isError()")
+                return True
+            except Exception as e:
+                logger.warning("%s 写异常 (尝试 %d/%d): %s", name, attempt, retries, e)
+            time_mod.sleep(delay)
+        logger.error("%s 连续写入失败 %d 次", name, retries)
+        return False
+
+    def wait_with_quit_check(self, robot, seconds, addr_quit=270):
+        """等待指定时间，同时每 0.2s 检查 R270 是否为 1（立即退出）"""
+        if robot is None:
+            time_mod.sleep(seconds)
+            return False
+        checks = max(1, int(seconds / 0.2))
+        for _ in range(checks):
+            rr = self.safe_read(robot, "机器人", robot.read_holding_registers, address=addr_quit, count=1)
+            if rr and getattr(rr, "registers", [None])[0] == 1:
+                logger.info("检测到 R270=1，立即退出等待")
+                return True
+            time_mod.sleep(0.2)
+        return False
+
+    # ----------------- 主流程 run_once -----------------
+    def run_once(
+        self,
+        integration_time: str = "5000",
+        laser_power: str = "200",
+        save_csv: str = "true",
+        save_plot: str = "true",
+        normalize: str = "true",
+        norm_max: str = "1.0",
+        **_: Any,
+    ) -> Dict[str, Any]:
+        result: Dict[str, Any] = {"success": False, "event": "none", "details": {}}
+
+        integration_time_v = self._str_to_int(integration_time, 5000)
+        laser_power_v = self._str_to_int(laser_power, 200)
+        save_csv_v = self._str_to_bool(save_csv, True)
+        save_plot_v = self._str_to_bool(save_plot, True)
+        normalize_v = self._str_to_bool(normalize, True)
+        norm_max_v = None if norm_max in (None, "", "none", "null") else self._str_to_float(norm_max, 1.0)
+
+        if ModbusTcpClient is None:
+            result["details"]["error"] = "未安装 pymodbus，无法执行连接"
+            logger.error(result["details"]["error"])
+            return result
+
+        # 建立连接
+        plc = ModbusTcpClient(self.plc_ip, port=self.plc_port)
+        robot = ModbusTcpClient(self.robot_ip, port=self.robot_port)
+        try:
+            if not plc.connect():
+                result["details"]["error"] = "无法连接 PLC"
+                logger.error(result["details"]["error"])
+                return result
+            if not robot.connect():
+                plc.close()
+                result["details"]["error"] = "无法连接 机器人"
+                logger.error(result["details"]["error"])
+                return result
+
+            logger.info("✅ PLC 与 机器人连接成功")
+            time_mod.sleep(0.2)
+
+            # 伺服使能 (coil 写示例)
+            if self.safe_write(plc, "PLC", plc.write_coil, 10, True):
+                logger.info("✅ 伺服使能成功 (M10=True)")
+            else:
+                logger.warning("⚠️ 伺服使能失败")
+
+            # 初始化 CSV 文件
+            try:
+                with open(self.scan_csv_file, "w", newline="", encoding="utf-8") as f:
+                    csv.writer(f).writerow(["Bottle_No", "Scan_Result", "Time"])
+            except Exception as e:
+                logger.warning("⚠️ 初始化CSV失败: %s", e)
+
+            bottle_count = 0
+            logger.info("🟢 等待机器人触发信号... (R260=1扫码 / R256=1拉曼 / R270=1退出)")
+
+            # 主循环：仅响应事件（每次循环后短暂 sleep）
+            while True:
+                plc = self.ensure_connected(plc, "PLC", self.plc_ip, self.plc_port) or plc
+                robot = self.ensure_connected(robot, "机器人", self.robot_ip, self.robot_port) or robot
+
+                # 检查退出寄存器
+                quit_signal = self.safe_read(robot, "机器人", robot.read_holding_registers, 270, 1)
+                if quit_signal and getattr(quit_signal, "registers", [None])[0] == 1:
+                    logger.info("🟥 检测到 R270=1，准备退出...")
+                    result["event"] = "quit"
+                    result["success"] = True
+                    break
+
+                # 读取关键寄存器（256..260）
+                rr = self.safe_read(robot, "机器人", robot.read_holding_registers, 256, 5)
+                if not rr or not hasattr(rr, "registers"):
+                    time_mod.sleep(0.3)
+                    continue
+
+                r256, r257, r258, r259, r260 = (rr.registers + [0, 0, 0, 0, 0])[:5]
+
+                # ---------- 扫码逻辑 ----------
+                if r260 == 1:
+                    bottle_count += 1
+                    logger.info("📸 第 %d 瓶触发扫码 (R260=1)", bottle_count)
+                    try:
+                        # 调用外部扫码函数（用户实现）
+                        from .dmqfengzhuang import scan_once as scan_once_local
+                        scan_result = scan_once_local(ip="192.168.1.50", port_in=2001, port_out=2002)
+                        if scan_result:
+                            logger.info("✅ 扫码成功: %s", scan_result)
+                            timestamp = datetime.now().strftime("%Y-%m-%d %H:%M:%S")
+                            with open(self.scan_csv_file, "a", newline="", encoding="utf-8") as f:
+                                csv.writer(f).writerow([bottle_count, scan_result, timestamp])
+                        else:
+                            logger.warning("⚠️ 扫码失败或无返回")
+                    except Exception as e:
+                        logger.exception("❌ 扫码异常: %s", e)
+
+                    # 写 R260->0, R261->1
+                    self.safe_write(robot, "机器人", robot.write_register, 260, 0)
+                    time_mod.sleep(0.15)
+                    self.safe_write(robot, "机器人", robot.write_register, 261, 1)
+                    logger.info("➡️ 扫码完成 (R260→0, R261→1)")
+                    result["event"] = "scan"
+                    result["success"] = True
+
+                # ---------- 拉曼逻辑 ----------
+                if r256 == 1:
+                    logger.info("⚙️ 检测到 R256=1（放瓶完成）")
+                    # PLC 电机右转指令
+                    self.safe_write(plc, "PLC", plc.write_register, 1199, 1)
+                    self.safe_write(plc, "PLC", plc.write_register, 1200, 1)
+                    logger.info("➡️ 电机右转中...")
+                    if self.wait_with_quit_check(robot, 3):
+                        result["event"] = "quit"
+                        break
+                    self.safe_write(plc, "PLC", plc.write_register, 1199, 0)
+                    logger.info("✅ 电机右转完成")
+
+                    # 调用拉曼测试（尽量捕获异常并记录）
+                    logger.info("🧪 开始拉曼测试...")
+                    try:
+                        # 尝试使用模块导入好的 run_raman_test，否则再动态导入
+                        rr_func = run_raman_test
+                        if rr_func is None:
+                            from raman_module import run_raman_test as rr_func
+                        success, file_prefix, df = rr_func(
+                            integration_time=integration_time_v,
+                            laser_power=laser_power_v,
+                            save_csv=save_csv_v,
+                            save_plot=save_plot_v,
+                            normalize=normalize_v,
+                            norm_max=norm_max_v,
+                        )
+                        if success:
+                            logger.info("✅ 拉曼测试完成: %s", file_prefix)
+                            result["event"] = "raman"
+                            result["success"] = True
+                        else:
+                            logger.warning("⚠️ 拉曼测试失败")
+                    except Exception as e:
+                        logger.exception("❌ 拉曼模块异常: %s", e)
+
+                    # 电机左转回位
+                    self.safe_write(plc, "PLC", plc.write_register, address=1299, value=1)
+                    self.safe_write(plc, "PLC", plc.write_register, address=1300, value=1)
+                    logger.info("⬅️ 电机左转中...")
+                    if self.wait_with_quit_check(robot, 3):
+                        result["event"] = "quit"
+                        break
+                    self.safe_write(plc, "PLC", plc.write_register, address=1299, value=0)
+                    logger.info("✅ 电机左转完成")
+
+                    # 通知机器人拉曼完成 R257=1
+                    self.safe_write(robot, "机器人", robot.write_register, address=257, value=1)
+                    logger.info("✅ 已写入 R257=1（拉曼完成）")
+
+                    # 延迟后清零 R256
+                    logger.info("⏳ 延迟4秒后清零 R256")
+                    if self.wait_with_quit_check(robot, 4):
+                        result["event"] = "quit"
+                        break
+                    self.safe_write(robot, "机器人", robot.write_register, address=256, value=0)
+                    logger.info("✅ 已清零 R256")
+
+                    # 等待机器人清 R257
+                    logger.info("等待 R257 清零中...")
+                    while True:
+                        rr2 = self.safe_read(robot, "机器人", robot.read_holding_registers, address=257, count=1)
+                        if rr2 and getattr(rr2, "registers", [None])[0] == 0:
+                            logger.info("✅ 检测到 R257=0，准备下一循环")
+                            break
+                        if self.wait_with_quit_check(robot, 1):
+                            result["event"] = "quit"
+                            break
+                        time_mod.sleep(0.2)
+
+                time_mod.sleep(0.25)
+
+        finally:
+            logger.info("🧹 开始清理...")
+            try:
+                self.safe_write(plc, "PLC", plc.write_coil, address=10, value=False)
+            except Exception:
+                pass
+            for addr in [256, 257, 260, 261, 270]:
+                try:
+                    self.safe_write(robot, "机器人", robot.write_register, address=addr, value=0)
+                except Exception:
+                    pass
+
+            try:
+                if plc:
+                    plc.close()
+            except Exception:
+                pass
+            try:
+                if robot:
+                    robot.close()
+            except Exception:
+                pass
+            logger.info("🔚 已关闭所有连接")
+
+        return result