数据同步工具 XF_DataCopy 的使用

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本文介绍了一种用于数据库间数据传输和备份的工具,包括如何在不同数据库服务器间传输数据,以及如何将数据库记录保存为SQL文件进行备份。提供详细步骤,包括配置数据库客户端、建立配置文件、创建任务列表、执行数据迁移任务和生成SQL脚本文件的方法。强调了处理外键关系、按条件导出记录、过滤字段和避免自动增长字段在SQL语句中的使用等关键注意事项。

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该工具的主要用途有:

1。在不同数据库之间传输记录。可做数据库同步用。
2。将数据库里的记录保存为SQL文件。可作数据库备份用,但不能备份数据库结构,只能备份记录。

1.   例子任务一:在两个数据库间传送数据

将数据库记录从Oracle服务器A传输到Oracle服务器B

1.1.       配置数据库客户端

先打开本机的Oracle配置程序,建立两个Oracle服务名。
以下的cl7100_92  服务器A

cl7100为服务器B

1.2.       建立数据库配置文件

建立你自己的配置文件目录,如 /CL7100
/Sample/Database_Config.ini 复制到 /CL7100下,给文件改名,如“ora,cl7100@公司服务器92.ini”,指向服务器A
打开该文件,按照实际的数据库服务器配置修改 DatabaseType 参数,ConnectString参数,CheckConnectSQL 参数。


以下是该文件的内容:
-------------------------------------------------------
;数据库配置名称
[Database]

;数据库类型例如:Oracle, Access ,MSSQLServer,Sybase
DatabaseType =Oracle

;连接数据库的连接串,不能分行
ConnectString = Provider=MSDAORA.1;User ID=cl7100;Password=cl7100;Data Source=cl7100_92;Persist Security Info=False


;数据库连接超时时间()
ConnectTimeOut = 5


;检测数据库连接状态SQL
CheckConnectSQL = select null from dual

;以下是连接各种数据库的ADO连接串的写法示例
;ConnectStringForOracle = Provider=MSDAORA.1;Password=cl8600;User ID=cl8600;
Data Source=cl8600;Persist Security Info=True
;ConnectStringForAccess = Provider=Microsoft.Jet.OLEDB.4.0;
Data Source=c:\cl8680\cl8600.mdb;Persist Security Info=False
;ConnectStringForMSSQLServer = Provider=SQLOLEDB.1;Persist Security Info=False;
User ID=cl8600;Initial Catalog=cl8600;Data Source=cl8600

 

再建立第二个文件 “ora,cl7100_本机@xifeng.ini”,指向服务器B

以下是该文件的内容:
-------------------------------------------------
;数据库配置名称
[Database]

;数据库类型例如:Oracle, Access ,MSSQLServer,Sybase
DatabaseType =Oracle

;连接数据库的连接串,不能分行
ConnectString = Provider=MSDAORA.1;User ID=cl7100;Password=cl7100;Data Source=cl7100;Persist Security Info=False


;数据库连接超时时间()
ConnectTimeOut = 5


;检测数据库连接状态SQL
CheckConnectSQL = select null from dual

;以下是连接各种数据库的ADO连接串的写法示例
;ConnectStringForOracle = Provider=MSDAORA.1;Password=cl8600;User ID=cl8600;
Data Source=cl8600;Persist Security Info=True
;ConnectStringForAccess = Provider=Microsoft.Jet.OLEDB.4.0;
Data Source=c:\cl8680\cl8600.mdb;Persist Security Info=False
;ConnectStringForMSSQLServer = Provider=SQLOLEDB.1;Persist Security Info=False;
User ID=cl8600;Initial Catalog=cl8600;Data Source=cl8600

 

1.3.       建立任务列表文件

新建一个任务列表文件“CL7100档案表.txt”,以单引号开始的行为注释行,每个任务一行。
简单的任务就是:表名,refresh   表示先清除目标数据库表记录,然后从源数据库将表记录复制到目标数据库表中。
其他动作还有:add       -- 从源数据库查询记录,追加到目标数据库表中
                              delete    -- 删除目标数据库中的记录

动作后还可以带参数:maxrecords,where,allowerrcount等。
任务详细配置方法参见说明.txt”文件。

以下是该文件的一部分

--------------------------------------
'2.1    变电站 
TFSUBSTATION,refresh

'2.2    母线 
GENERATRIX,refresh

'2.3    变压器 
TRANSFORMER,refresh

'2.4    线路 
FEEDERLINE,refresh

'2.5    配变台区 
COMMUNITYTF,refresh

1.4.       运行 XF_DataCopy.exe

 

 

选择源数据库配置文件 “ora,cl7100@公司服务器92.ini”,选择目标数据库配置文件“ora,cl7100_本机@xifeng.ini”

打开配置文件按钮打开配置文件 “CL7100档案表.txt”,任务内容加载到表格中。表格的每一行表示一个任务。

执行列表示该任务是否执行。为“1”表示执行。如果你不需要执行某个任务,删除该任务的执行标志即可。

表名和操作名也可以在表格中修改。

 

 

准备好后,按连接数据库按钮连接数据库。数据库连接成功后,会在选择按钮后边显示连接状态。如果连接失败,程序会显示失败原因。

然后点击开始按钮开始执行任务。

任务执行时,会显示源表记录数,当前已写入目标表记录数,错误记录数。
任务执行完成后,执行标志会被清除。如果执行失败,则不会清除执行标志,会在执行结果列里显示错误提示。

如果任务执行失败,如目标表不存在,则需要在目标数据库中建表。
其他错误提示原因,按照错误提示解决。
错误解决后,再按开始按钮,重新执行那些执行失败的任务。已经执行成功,执行标志已被清除的任务,不会再次执行。

 

 

XF_DataCopy程序特别方便的一个用途是在不同类别的数据库之间倒记录(只要表结构相同即可)。例如,可将Oracle数据库中的记录导入到 Sybase,SQL Server,Access中。

2.   例子任务二:将任务执行过程保存为SQL文件

例如,可以用这个工具在现场将数据库中的记录保存为SQL文件(delete and insert SQL),带回公司后在公司服务器上执行,即可还原现场数据库内容。

可当作简单的数据备份工具。

还可以将一种数据库中的记录保存为另外一种数据库的Insert SQL

操作方法:
打开源数据库配置文件,目标数据库配置文件(目标数据库配置文件只用到数据库类型,运行时不连接)
勾上将操作输出为SQL文件,然后选择输出文件名,勾上不连接目标数据库
然后打开任务列表文件,
开始按钮开始执行。执行完毕后,任务执行过程被输入到指定的 SQL 脚本文件中。

 

 

执行完毕后

 

 

以下是输出SQL脚本文件的一部分:

--------------------------------------------
/*
说明:             SQL脚本文件由 XF_DataCopy 程序生成
配置列表文件:     C:\Tools\数据同步工具\CL7100\CL7100档案表.txt
源数据库:         Oracle
目标数据库:       Sybase
生成时间:         2006-12-08 09:44:40
*/


/*  delete TFSUBSTATION  */
delete from TFSUBSTATION;

/*  insert TFSUBSTATION  */
insert into TFSUBSTATION(TSID,TSNAME,ADDRESS,POSTCODE,CHARGER,PHONENO,MAXVOLTAGE,TFNUM,TFCAPACITY,BUREAUID,AREAID) values ('1020300400000000','开阳变','1010300000000000',Null,Null,Null,4,Null,Null,'3','3');
insert into TFSUBSTATION(TSID,TSNAME,ADDRESS,POSTCODE,CHARGER,PHONENO,MAXVOLTAGE,TFNUM,TFCAPACITY,BUREAUID,AREAID) values ('1020300500000000','乌当变','1010300000000000',Null,Null,Null,4,Null,Null,'5700','3');

 

注意,该SQL脚本文件中每一行都是以分号(;)结束的,一些SQL工具(如Sybase SQL Advantage)是不支持以分号结尾的脚本,可以在PowerBuilder等工具中执行,或者将分号替换为go再执行。

 

注意,如果你导出的是运行数据表,可能数据量会很大。

我试了一下公司的服务器上,日电量数据表大约有4万多记录,现场的记录数可能更大。所以如果将全部数据导出到一个SQL文件里,可能该文件会很大,也不方便执行。最好生成几个不同的任务列表文件,将结果输入到不同的SQL文件中。

还可以将不同的任务在不同的计算机上执行,这样并行执行,也会快一点。

3.   其他注意事项

3.1.       外键关系

有一点要注意的是,如果你导数据表时,某两张表有外键关系。

如班级表和学生表,学生表中有一个字段 班级ID 关联到班级表的主键班级ID,那么更新这两张表时任务列表要写为:

学生表,delete
班级表,delete
班级表,add
学生表,add

而不要写为:
学生表,refresh
班级表,refresh
因为在学生表删除记录又插入记录时,会存在某些学生对应的班级记录还不存在的情况,插入操作会失败。

如果写为:
班级表,refresh
学生表,refresh
那么删除班级表时,数据库会发现有一些学生还属于该班级,班级表的删除操作也会失败。

所以,有外键关联关系的表,要注意在任务列表中的顺序。

3.2.       按条件导出记录

如果你只需要导出某张表满足某些条件的记录,可以使用 where 参数

如:
'14.1.3    日电量示度 
DAYPOWERENERGYDATA_MP,refresh where=time >= to_date('2006-7-1','yyyy-mm-dd') and time < to_date('2006-8-1','yyyy-mm-dd')

就表示只导出7月份一个月的记录。

3.3.       过滤字段

如果某张表中有自动增长型的字段(IdentitySybase,SQL Server,Access数据库中都有这样的数据类型),对表做插入记录操作时,数据库系统会自动生成新的流水号给该字段赋值。所以SQL语句中不能显式地给字段赋值。如果有显式赋值,Insert 语句执行会失败。

所以这样的记录导出为Insert SQL语句时,字段列表中不能包含自动增长型字段。

比如 “电量示度 POWERENERGYDATA_MP表,该表的数据结构为:

字段名称    字段注释              数据类型
MPID    测量点编号    varchar2(20)
TIME    时间             date
PZ    总有功功率    number(20,6)
PA    A相有功功率    number(20,6)
PB    B相有功功率    number(20,6)
PC    C相有功功率    number(20,6)
QZ    总无功功率    number(20,6)
QA    A相无功功率    number(20,6)
QB    B相无功功率    number(20,6)
QC    C相无功功率    number(20,6)
UA    A相电压             number(20,6)
UB    B相电压             number(20,6)
UC    C相电压             number(20,6)
IA    A相电流             number(20,6)
IB    B相电流             number(20,6)
IC    C相电流             number(20,6)
COS    总功率因数    number(20,6)
COSA    A相功率因数    number(20,6)
COSB    B相功率因数    number(20,6)
COSC    C相功率因数    number(20,6)
HZ    频率             number(20,6)
I0    零序电流             number(20,6)
DATAID    数据编号             number(14)        Identity

如果给该表配置一个refresh任务则任务应配置为:
----------------------------
POWERDATA_MP,refresh sourcesql=select MPID,TIME,PZ,PA,PB,PC,QZ,QA,QB,QC,UA,UB,UC,IA,IB,IC,COS,COSA,COSB,COSC,HZ,I0 
from POWERDATA_MP
----------------------------
这样在生成SQL时,只输出指定的列。
当然了,这种方法也适合过滤掉任何其他列的情况。

 

luoyuchuan
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每次最多读取1024字节 data = self.ser.read(min(self.ser.inWaiting(), chunk_size)) if data: return data return None def __del__(self): self.close() def SerialIsOpen(self): if self.ser.isOpen(): return 1 else: return 0 def start_reading(self): self.recv_thread = threading.Thread(target=self._recv_worker, daemon=True) self.parse_thread = threading.Thread(target=self._parse_worker, daemon=True) self.recv_thread.start() self.parse_thread.start() self.worker_threads = [self.recv_thread, self.parse_thread] def _recv_worker(self): while self.ser.isOpen(): data = self.recv(chunk_size=4096) # 每次最多读4KB if data: self.raw_data_queue.put(data) # else: # time.sleep(0.001) def _parse_worker(self): while True: try: data = self.raw_data_queue.get(timeout=0.1) for byte in data: self.process_byte(byte) except queue.Empty: continue def process_byte(self, byte): """ 使用状态机逐字节解析帧结构。 """ if self.state == 0: # 等待帧头 FF if byte == 0xFF: self.current_frame.append(byte) self.state = 1 else: # 如果不是帧头,忽略该字节 pass elif self.state == 1: # 等待帧头 55 if byte == 0x55: self.current_frame.append(byte) self.state = 2 else: # 如果第二字节不是55,重置 self.reset_state() elif self.state == 2: # 接收总长度低位 (第2字节) self.current_frame.append(byte) self.state = 3 elif self.state == 3: # 接收总长度高位 (第3字节) self.current_frame.append(byte) # 计算总长度(从第2字节开始) length_high = self.current_frame[2] length_low = byte self.expected_length = (length_high << 8) | length_low self.state = 4 elif self.state == 4: # 接收类型字段 (第4字节) self.current_frame.append(byte) self.state = 5 elif self.state == 5: # 接收保留字段 (第5字节) self.current_frame.append(byte) self.state = 6 elif self.state == 6: # 接收 CAN 通道类型 (第6字节) self.current_frame.append(byte) self.state = 7 elif self.state == 7: # 接收 CAN 报文个数 N (第7字节) self.current_frame.append(byte) self.num_messages = byte self.state = 8 self.messages_received = 0 elif self.state == 8: #接收can报文 self.current_frame.append(byte) self.messages_received += 1 if self.messages_received == self.num_messages * 12: self.state = 9 elif self.state == 9: # 接收校验位 self.current_frame.append(byte) if self.verify_checksum(): self.Frame_analoy_process(bytes(self.current_frame)) else: print("校验失败,丢弃当前帧") self.reset_state() def verify_checksum(self): """ 验证校验和:从第2字节到倒数第二个字节之和 & 0xFF """ data_to_check = self.current_frame[2:-1] # 从第2字节到最后一个校验位之前 checksum = sum(data_to_check) & 0xFF return checksum == self.current_frame[-1] def reset_state(self): """ 重置状态机 """ self.state = 0 self.current_frame = bytearray() self.expected_length = 0 self.messages_received = 0 def set_filter_cycles(self, cycles): self.filter_cycles = cycles.copy() if cycles else [] #报文解析 def Frame_analoy_process(self, Framedata): current_time = time.time() # 检查帧类型 (0x0C 0x98) if len(Framedata) < 8 or Framedata[4] != 0x0C or Framedata[5] != 0x98: return try: FrameNum = int(Framedata[7]) except IndexError: return # 检查是否有足够数据 if len(Framedata) < 12 * FrameNum + 8: return current_frame_ids = set() # 记录当前帧中已处理的ID for index in range(0,FrameNum): # 时间戳 Cantime = datetime.now().strftime("%Y-%m-%d %H:%M:%S.%f")[:-3] try: id_bytes = [ Framedata[12 * index + 11], # LSB Framedata[12 * index + 10], Framedata[12 * index + 9], Framedata[12 * index + 8] # MSB ] except IndexError: continue # 格式化为8位大写十六进制 CanID = ''.join(format(b, '02X') for b in id_bytes) # 提取ID字节 CanFramType = "Cycle" Len = 8 CanDataSpace = '' PGNdata = '' PGNID = int(Framedata[12 * index + 9] ) + int(Framedata[12 * index + 10]* 0x100) PGNSignl = self.Frame_analoy_PGN_Signal(PGNID,Framedata[12 * index + 12:]) # 提取数据部分 PGNdata = ''.join( format(Framedata[12 * index + 12 + posindex], '02X') for posindex in range(8) ).upper() try: CanDataSpace = ' '.join( format(Framedata[12 * index + 12 + posindex], '02X') for posindex in range(8) ) except IndexError: continue current_data = CanDataSpace.split() if CanID in self.last_data_dict: last_data = self.last_data_dict[CanID].split() changed_indices = [] for i in range(min(len(last_data), len(current_data))): if last_data[i] != current_data[i]: changed_indices.append(i) self.changed_bytes_dict[CanID] = changed_indices else: self.changed_bytes_dict[CanID] = [] # 新ID无变化 self.last_data_dict[CanID] = CanDataSpace CanItemData = [Cantime, CanID, CanFramType, Len, CanDataSpace] # if CanID == "18F00F52": # print(CanDataSpace) # ✅ 只有在白名单内的PGNID才处理PGN信号 # 获取当前PGN数据 current_pgn_data = PGNdata # 使用上面生成的两位格式数据 # 检查数据变化 if PGNID in self.last_pgn_data_dict: last_data = self.last_pgn_data_dict[PGNID] changed_indices = [] for i in range(min(len(last_data), len(current_pgn_data) // 2)): start_idx = i * 2 end_idx = start_idx + 2 if last_data[start_idx:end_idx] != current_pgn_data[start_idx:end_idx]: changed_indices.append(i) self.changed_pgn_bytes_dict[PGNID] = changed_indices else: self.changed_pgn_bytes_dict[PGNID] = [] # 新PGN ID无变化 self.last_pgn_data_dict[PGNID] = current_pgn_data if PGNID in self.allowed_pgn_ids: PGNSignl = self.Frame_analoy_PGN_Signal(PGNID, Framedata[12 * index + 12:]) SignalItemData = [hex(PGNID)[2:].upper(), CanID, PGNdata, PGNSignl] if all(not sublist for sublist in CanPGNItemList) or CanPGNItemList[0][0] == 0: if CanPGNItemList: removed_id = CanPGNItemList[0][1] self.remove_from_index_maps("CanPGNItemList", removed_id) CanPGNItemList.pop(0) if PGNID in self.allowed_pgn_ids: PGNSignl = self.Frame_analoy_PGN_Signal(PGNID, Framedata[12 * index + 12:]) SignalItemData = [hex(PGNID)[2:].upper(), CanID, PGNdata, PGNSignl] # 使用快速查找 index_in_list = self.find_index("CanPGNItemList", CanID) if index_in_list is not None: CanPGNItemList[index_in_list] = SignalItemData else: CanPGNItemList.append(SignalItemData) new_index = len(CanPGNItemList) - 1 self.update_index_maps("CanPGNItemList", new_index, CanID) # if CanID in self.last_frame_time: # last_time = self.last_frame_time[CanID] # cycle = (current_time - last_time) * 1000 # 转换为毫秒 # if CanID == "18F00F52" : # print(cycle) # if cycle > 10: # if cycle<self.cycle_dict[CanID] : # self.cycle_dict[CanID] = cycle # elif self.cycle_dict[CanID] == 0 : # self.cycle_dict[CanID] = cycle # else: # self.cycle_dict[CanID] = 0 # 首次出现,周期设为0 # # if "18F00F52" in self.cycle_dict: # # print(self.cycle_dict["18F00F52"]) # self.last_frame_time[CanID] = current_time # 更新列表 if CanID in self.last_frame_time : last_time = self.last_frame_time[CanID] cycle_ms = (current_time - last_time) * 1000 # 有效周期过滤 # if 10 < cycle_ms < 10000: # 10ms-10s合理范围 self.cycle_dict[CanID] = cycle_ms else: # 新ID初始化 self.cycle_dict[CanID] = 0 # 更新最后出现时间 self.last_frame_time[CanID] = current_time filtered_cycles = getattr(self, 'filter_cycles', []) is_filtered = False if filtered_cycles: for filtered_cycle in filtered_cycles: if filtered_cycle == 20: if cycle < 50: is_filtered = True break elif filtered_cycle == 50: if 50 <= cycle <= 100: is_filtered = True break elif filtered_cycle == 100: if 100 <= cycle <= 190: is_filtered = True break elif filtered_cycle == 200: if 200 <= cycle <= 400: is_filtered = True break elif filtered_cycle == 500: if 500 <= cycle <= 600: is_filtered = True break elif filtered_cycle == 1000: if 600 <= cycle <= 1000: is_filtered = True break index_in_obd = self.find_index("CanOBDItemList", CanID) index_in_filtered = self.find_index("filteredCanOBDItemList", CanID) # 根据过滤状态更新相应的列表 if is_filtered: if index_in_filtered is not None: filteredCanOBDItemList[index_in_filtered] = CanItemData self.data_updated_ids.add(CanID) else: # 如果存在于主列表,先移除 if index_in_obd is not None: self.remove_from_index_maps("CanOBDItemList", CanID) CanOBDItemList.pop(index_in_obd) self.data_updated_ids.add(CanID) filteredCanOBDItemList.append(CanItemData) new_index = len(filteredCanOBDItemList) - 1 self.update_index_maps("filteredCanOBDItemList", new_index, CanID) self.new_added_ids.add(CanID) else: index_in_list = self.find_index("CanOBDItemList", CanID) if index_in_obd is not None: CanOBDItemList[index_in_obd] = CanItemData self.data_updated_ids.add(CanID) else: # 如果存在于过滤列表,先移除 if index_in_filtered is not None: self.remove_from_index_maps("filteredCanOBDItemList", CanID) filteredCanOBDItemList.pop(index_in_filtered) CanOBDItemList.append(CanItemData) new_index = len(CanOBDItemList) - 1 self.update_index_maps("CanOBDItemList", new_index, CanID) self.new_added_ids.add(CanID) if "18FEBD00" in self.cycle_dict: print(self.cycle_dict["18FEBD00"]) def find_index(self, list_name, can_id): """快速查找索引的O(1)方法""" if list_name == "CanOBDItemList": return self.can_obd_index_map.get(can_id) elif list_name == "filteredCanOBDItemList": return self.filtered_index_map.get(can_id) elif list_name == "CanPGNItemList": return self.can_pgn_index_map.get(can_id) return None def update_index_maps(self, list_name, index, can_id): """更新索引映射""" if list_name == "CanOBDItemList": self.can_obd_index_map[can_id] = index elif list_name == "filteredCanOBDItemList": self.filtered_index_map[can_id] = index elif list_name == "CanPGNItemList": self.can_pgn_index_map[can_id] = index def remove_from_index_maps(self, list_name, can_id): """从索引映射中移除条目""" if list_name == "CanOBDItemList": self.can_obd_index_map.pop(can_id, None) elif list_name == "filteredCanOBDItemList": self.filtered_index_map.pop(can_id, None) elif list_name == "CanPGNItemList": self.can_pgn_index_map.pop(can_id, None) def Frame_analoy_PGN_Signal(self, PGNID, Framedata): # 确保数据是整数列表(0-255) if not all(isinstance(x, int) for x in Framedata): Framedata = [int(x) for x in Framedata] # 根据J1939规范解析 if PGNID == 0xFEF1: # 车速 (CCVS1) # 位置2-3 (索引1-2),大端序,单位1/256 km/h raw_val = (Framedata[1] << 8) | Framedata[2] return raw_val / 256.0 elif PGNID == 0xFE6C: # 车速 (TCO1) - 新增 # 位置7-8 (索引6-7),大端序,单位1/256 km/h raw_val = (Framedata[6] << 8) | Framedata[7] return raw_val / 256.0 elif PGNID == 0xF004: # 发动机转速+负载 # 负载:位置3 (索引2),单位1% engine_load = Framedata[2] & 0x7F # 取7位 # 转速:位置4-5 (索引3-4),大端序,单位0.125 RPM raw_rpm = (Framedata[3] << 8) | Framedata[4] rpm = raw_rpm * 0.125 return f'{engine_load}|{rpm}' elif PGNID == 0xFEC1: # 里程表 (VDHR) # 位置1-4 (索引0-3),大端序,单位0.125米 raw_val = int(Framedata[3] * 0x1000000) + int(Framedata[2] * 0x10000) + int(Framedata[1] * 0x100) + int(Framedata[0]) return raw_val * 0.125 # 转换为米 elif PGNID == 0xFEE5: # 发动机小时数 # 位置1-4 (索引0-3),大端序,单位0.05小时 raw_val = (Framedata[0] << 24) | (Framedata[1] << 16) | (Framedata[2] << 8) | Framedata[3] return raw_val * 0.05 elif PGNID == 0xFEF2: # 平均油耗 # 位置1-2 (索引0-1),大端序,单位0.05 L/h raw_val = (Framedata[0] << 8) | Framedata[1] return raw_val * 0.05 elif PGNID == 0xFEEE: # 冷却液温度 # 位置1 (索引0),单位1°C,偏移-40 return Framedata[0] - 40 elif PGNID == 0xFE56: # 燃油液位 # 位置1 (索引0),单位0.4% return Framedata[0] * 0.4 elif PGNID == 0xF005: # 档位 # 位置4 (索引3),直接返回值 return Framedata[3] return None 这是serialpro文件 -- coding: utf-8 -- import threading Form implementation generated from reading ui file ‘CanOBD.ui’ Created by: PyQt5 UI code generator 5.15.9 WARNING: Any manual changes made to this file will be lost when pyuic5 is run again. Do not edit this file unless you know what you are doing. from PyQt5 import QtCore, QtGui, QtWidgets from PyQt5.QtCore import QThread, pyqtSignal,QTimer from PyQt5.QtWidgets import QApplication, QTableWidget, QTableWidgetItem,QTreeWidget, QTreeWidgetItem from SerialPro import SerialPort as SerialThread from SerialPro import CanOBDItemList,CanPGNItemList,filteredCanOBDItemList import time import serial import serial.tools.list_ports import binascii import struct class RichTextDelegate(QtWidgets.QStyledItemDelegate): def paint(self, painter, option, index): if index.column() == 4: text = index.data(QtCore.Qt.DisplayRole) if not text: return # 创建 QTextDocument 并设置 HTML 内容 doc = QtGui.QTextDocument() doc.setHtml(text) # 设置基础字体(可以显式调大字体) font = option.font font.setPointSize(font.pointSize() + 2) # 调大字体 2pt,比如原来是 10pt → 12pt doc.setDefaultFont(font) # 调整绘制区域(不影响字体大小,仅调整边距) rect = option.rect.adjusted(2, 0, -2, 0) # 左右各留出 2 像素的空白 # 绘制背景 style = QtWidgets.QApplication.style() style.drawControl(QtWidgets.QStyle.CE_ItemViewItem, option, painter) # 绘制文本 painter.save() painter.translate(rect.topLeft()) doc.drawContents(painter, QtCore.QRectF(0, 0, rect.width(), rect.height())) painter.restore() else: super().paint(painter, option, index) class RichTextTreeDelegate(QtWidgets.QStyledItemDelegate): def paint(self, painter, option, index): if index.column() == 2: # 只处理数据列 text = index.data(QtCore.Qt.DisplayRole) if not text: return super().paint(painter, option, index) # 创建QTextDocument并设置HTML内容 doc = QtGui.QTextDocument() doc.setHtml(text) # 设置基础字体 font = option.font font.setPointSize(font.pointSize()) doc.setDefaultFont(font) # 调整绘制区域 rect = option.rect.adjusted(2, 0, -2, 0) # 绘制背景 style = QtWidgets.QApplication.style() style.drawControl(QtWidgets.QStyle.CE_ItemViewItem, option, painter) # 绘制文本 painter.save() painter.translate(rect.topLeft()) doc.drawContents(painter, QtCore.QRectF(0, 0, rect.width(), rect.height())) painter.restore() else: super().paint(painter, option, index) class Ui_MainWindow(object): def setupUi(self, MainWindow): MainWindow.setObjectName(“MainWindow”) MainWindow.resize(1220, 940) font = QtGui.QFont() font.setPointSize(12) MainWindow.setFont(font) self.CanOBDHiddenList = [] # 新增隐藏列表 self.last_checked_cycles = [] # 记录上一次的过滤条件 self.filter_changed = False # 过滤条件是否变化 self.filter_cycles = [] # 添加这一行用于存储过滤周期 self.centralwidget = QtWidgets.QWidget(MainWindow) self.centralwidget.setObjectName("centralwidget") self.tabWidget = QtWidgets.QTabWidget(self.centralwidget) self.tabWidget.setGeometry(QtCore.QRect(0, 0, 1041, 940)) self.tabWidget.setObjectName("tabWidget") self.tab = QtWidgets.QWidget() self.tab.setObjectName("tab") self.tableWidget = QtWidgets.QTableWidget(self.tab) self.tableWidget.setGeometry(QtCore.QRect(0, 0, 1031, 940)) self.tableWidget.setObjectName("tableWidget") self.tableWidget.setColumnCount(5) self.tableWidget.setRowCount(150) #富文本委托 self.tableWidget.setItemDelegate(RichTextDelegate()) for num in range(0,150,1): item = QtWidgets.QTableWidgetItem() self.tableWidget.setVerticalHeaderItem(num, item) item = QtWidgets.QTableWidgetItem() font = QtGui.QFont() font.setKerning(False) item.setFont(font) for line in range(0,5,1): self.tableWidget.setHorizontalHeaderItem(line, item) item = QtWidgets.QTableWidgetItem() self.tabWidget.addTab(self.tab, "") self.tab_2 = QtWidgets.QWidget() self.tab_2.setObjectName("CanOBD Cfg Set") self.mSpeedTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mSpeedTreeWidget.setGeometry(QtCore.QRect(10, 0, 1031, 101)) self.mSpeedTreeWidget.setObjectName("mSpeedTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mSpeedTreeWidget.headerItem().setFont(0, font) self.mSpeedTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mSpeedTreeWidget.headerItem().setFont(3, font) self.mRPMTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mRPMTreeWidget.setGeometry(QtCore.QRect(10, 100, 1031, 91)) self.mRPMTreeWidget.setObjectName("mRPMTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mRPMTreeWidget.headerItem().setFont(0, font) self.mRPMTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mRPMTreeWidget.headerItem().setFont(3, font) self.mVDHRTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mVDHRTreeWidget.setGeometry(QtCore.QRect(10, 190, 1031, 91)) self.mVDHRTreeWidget.setObjectName("mVDHRTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mVDHRTreeWidget.headerItem().setFont(0, font) self.mVDHRTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mVDHRTreeWidget.headerItem().setFont(3, font) self.mHoursTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mHoursTreeWidget.setGeometry(QtCore.QRect(10, 280, 1031, 101)) self.mHoursTreeWidget.setObjectName("mHoursTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mHoursTreeWidget.headerItem().setFont(0, font) self.mHoursTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mHoursTreeWidget.headerItem().setFont(3, font) self.mEECTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mEECTreeWidget.setGeometry(QtCore.QRect(10, 380, 1031, 91)) self.mEECTreeWidget.setObjectName("mEECTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mEECTreeWidget.headerItem().setFont(0, font) self.mEECTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mEECTreeWidget.headerItem().setFont(3, font) self.mET1TreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mET1TreeWidget.setGeometry(QtCore.QRect(10, 470, 1031, 101)) self.mET1TreeWidget.setObjectName("mET1TreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mET1TreeWidget.headerItem().setFont(0, font) self.mET1TreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mET1TreeWidget.headerItem().setFont(3, font) self.mAT1T1ITreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mAT1T1ITreeWidget.setGeometry(QtCore.QRect(10, 570, 1031, 91)) self.mAT1T1ITreeWidget.setObjectName("mAT1T1ITreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mAT1T1ITreeWidget.headerItem().setFont(0, font) self.mAT1T1ITreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mAT1T1ITreeWidget.headerItem().setFont(3, font) self.mLFETreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mLFETreeWidget.setGeometry(QtCore.QRect(10, 660, 1031, 101)) self.mLFETreeWidget.setObjectName("mLFETreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mLFETreeWidget.headerItem().setFont(0, font) self.mLFETreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mLFETreeWidget.headerItem().setFont(3, font) self.mETC2TreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mETC2TreeWidget.setGeometry(QtCore.QRect(10, 760, 1031, 101)) self.mETC2TreeWidget.setObjectName("mETC2TreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mETC2TreeWidget.headerItem().setFont(0, font) self.mETC2TreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mETC2TreeWidget.headerItem().setFont(3, font) self.tabWidget.addTab(self.tab_2, "") self.mComCfgBox = QtWidgets.QGroupBox(self.centralwidget) self.mComCfgBox.setGeometry(QtCore.QRect(1040, 10, 191, 231)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mComCfgBox.setFont(font) self.mComCfgBox.setObjectName("mComCfgBox") self.mPortName = QtWidgets.QLabel(self.mComCfgBox) self.mPortName.setGeometry(QtCore.QRect(20, 30, 61, 21)) self.mPortName.setObjectName("mPortName") self.mBpsName = QtWidgets.QLabel(self.mComCfgBox) self.mBpsName.setGeometry(QtCore.QRect(20, 60, 61, 21)) self.mBpsName.setObjectName("mBpsName") self.mDatabitName = QtWidgets.QLabel(self.mComCfgBox) self.mDatabitName.setGeometry(QtCore.QRect(20, 90, 61, 21)) self.mDatabitName.setObjectName("mDatabitName") self.mStopName = QtWidgets.QLabel(self.mComCfgBox) self.mStopName.setGeometry(QtCore.QRect(20, 120, 61, 21)) self.mStopName.setObjectName("mStopName") self.mOddName = QtWidgets.QLabel(self.mComCfgBox) self.mOddName.setGeometry(QtCore.QRect(20, 150, 61, 21)) self.mOddName.setObjectName("mOddName") self.mDatabitVal = QtWidgets.QLabel(self.mComCfgBox) self.mDatabitVal.setGeometry(QtCore.QRect(100, 90, 54, 21)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mDatabitVal.setFont(font) self.mDatabitVal.setLayoutDirection(QtCore.Qt.LeftToRight) self.mDatabitVal.setAlignment(QtCore.Qt.AlignCenter) self.mDatabitVal.setObjectName("mDatabitVal") self.mStopBitVal = QtWidgets.QLabel(self.mComCfgBox) self.mStopBitVal.setGeometry(QtCore.QRect(100, 120, 54, 21)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mStopBitVal.setFont(font) self.mStopBitVal.setLayoutDirection(QtCore.Qt.LeftToRight) self.mStopBitVal.setAlignment(QtCore.Qt.AlignCenter) self.mStopBitVal.setObjectName("mStopBitVal") self.mOddVal = QtWidgets.QLabel(self.mComCfgBox) self.mOddVal.setGeometry(QtCore.QRect(100, 150, 54, 21)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mOddVal.setFont(font) self.mOddVal.setLayoutDirection(QtCore.Qt.LeftToRight) self.mOddVal.setAlignment(QtCore.Qt.AlignCenter) self.mOddVal.setObjectName("mOddVal") self.mPortVal = QtWidgets.QComboBox(self.mComCfgBox) self.mPortVal.setGeometry(QtCore.QRect(90, 30, 81, 22)) self.mPortVal.setObjectName("mPortVal") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mBPSVal = QtWidgets.QComboBox(self.mComCfgBox) self.mBPSVal.setGeometry(QtCore.QRect(90, 60, 81, 22)) self.mBPSVal.setObjectName("mBPSVal") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mOpenSerial = QtWidgets.QDialogButtonBox(self.mComCfgBox) self.mOpenSerial.setGeometry(QtCore.QRect(20, 190, 156, 31)) self.mOpenSerial.setStandardButtons(QtWidgets.QDialogButtonBox.Close|QtWidgets.QDialogButtonBox.Open) self.mOpenSerial.setObjectName("mOpenSerial") self.mCycleCfgBox = QtWidgets.QGroupBox(self.centralwidget) self.mCycleCfgBox.setGeometry(QtCore.QRect(1040, 260, 191, 221)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mCycleCfgBox.setFont(font) self.mCycleCfgBox.setObjectName("mCycleCfgBox") self.mcheck1000ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck1000ms.setGeometry(QtCore.QRect(20, 180, 141, 31)) self.mcheck1000ms.setObjectName("mcheck1000ms") self.mcheck500ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck500ms.setGeometry(QtCore.QRect(20, 150, 141, 31)) self.mcheck500ms.setObjectName("mcheck500ms") self.mcheck100ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck100ms.setGeometry(QtCore.QRect(20, 90, 141, 31)) self.mcheck100ms.setObjectName("mcheck100ms") self.mcheck50ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck50ms.setGeometry(QtCore.QRect(20, 60, 141, 31)) self.mcheck50ms.setObjectName("mcheck50ms") self.mcheck20ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck20ms.setGeometry(QtCore.QRect(20, 30, 141, 31)) self.mcheck20ms.setObjectName("mcheck20ms") self.mcheck200ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck200ms.setGeometry(QtCore.QRect(20, 120, 141, 31)) self.mcheck200ms.setObjectName("mcheck200ms") self.mEventSigBox = QtWidgets.QGroupBox(self.centralwidget) self.mEventSigBox.setGeometry(QtCore.QRect(1050, 490, 191, 151)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mEventSigBox.setFont(font) self.mEventSigBox.setObjectName("mEventSigBox") self.radioLeftREvent = QtWidgets.QRadioButton(self.mEventSigBox) self.radioLeftREvent.setGeometry(QtCore.QRect(10, 30, 151, 16)) self.radioLeftREvent.setObjectName("radioLeftREvent") self.radioKiilEvent = QtWidgets.QRadioButton(self.mEventSigBox) self.radioKiilEvent.setGeometry(QtCore.QRect(10, 90, 151, 16)) self.radioKiilEvent.setObjectName("radioKiilEvent") self.radioPEvent = QtWidgets.QRadioButton(self.mEventSigBox) self.radioPEvent.setGeometry(QtCore.QRect(10, 120, 151, 16)) self.radioPEvent.setObjectName("radioPEvent") self.radioOpenCloseEvent = QtWidgets.QRadioButton(self.mEventSigBox) self.radioOpenCloseEvent.setGeometry(QtCore.QRect(10, 60, 151, 16)) self.radioOpenCloseEvent.setObjectName("radioOpenCloseEvent") self.mReadOBDinfBox = QtWidgets.QGroupBox(self.centralwidget) self.mReadOBDinfBox.setGeometry(QtCore.QRect(1050, 660, 191, 171)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mReadOBDinfBox.setFont(font) self.mReadOBDinfBox.setObjectName("mReadOBDinfBox") self.radioVinRead = QtWidgets.QRadioButton(self.mReadOBDinfBox) self.radioVinRead.setGeometry(QtCore.QRect(10, 40, 141, 21)) self.radioVinRead.setObjectName("radioVinRead") self.mVinInfShow = QtWidgets.QTextBrowser(self.mReadOBDinfBox) self.mVinInfShow.setGeometry(QtCore.QRect(10, 70, 171, 91)) self.mVinInfShow.setObjectName("mVinInfShow") MainWindow.setCentralWidget(self.centralwidget) self.statusbar = QtWidgets.QStatusBar(MainWindow) self.statusbar.setObjectName("statusbar") MainWindow.setStatusBar(self.statusbar) self.retranslateUi(MainWindow) self.tabWidget.setCurrentIndex(0) QtCore.QMetaObject.connectSlotsByName(MainWindow) self.mSpeedTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mRPMTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mVDHRTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mHoursTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mEECTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mET1TreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mAT1T1ITreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mLFETreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mETC2TreeWidget.setItemDelegate(RichTextTreeDelegate()) def retranslateUi(self, MainWindow): _translate = QtCore.QCoreApplication.translate MainWindow.setWindowTitle(_translate("MainWindow", "MainWindow")) for num in range(0, 150, 1): item = self.tableWidget.verticalHeaderItem(num) item.setText(_translate("MainWindow", str(num +1))) item = self.tableWidget.horizontalHeaderItem(0) item.setText(_translate("MainWindow", "时间标识")) item = self.tableWidget.horizontalHeaderItem(1) item.setText(_translate("MainWindow", "帧ID")) item = self.tableWidget.horizontalHeaderItem(2) item.setText(_translate("MainWindow", "帧类型")) item = self.tableWidget.horizontalHeaderItem(3) item.setText(_translate("MainWindow", "长度")) item = self.tableWidget.horizontalHeaderItem(4) item.setText(_translate("MainWindow", "数据 (BIT7--BIT0 大端模式)")) self.tabWidget.setTabText(self.tabWidget.indexOf(self.tab), _translate("MainWindow", "Tab 1")) self.mSpeedTreeWidget.headerItem().setText(0, _translate("MainWindow", "速度[CCVS1]")) self.mSpeedTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mSpeedTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mSpeedTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(km/h)")) self.mSpeedTreeWidget.setColumnWidth(0, 150) self.mSpeedTreeWidget.setColumnWidth(1, 150) self.mSpeedTreeWidget.setColumnWidth(2, 550) self.mSpeedTreeWidget.setColumnWidth(3, 150) self.mRPMTreeWidget.headerItem().setText(0, _translate("MainWindow", "转速[EEC1]")) self.mRPMTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mRPMTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mRPMTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(rpm)")) self.mRPMTreeWidget.setColumnWidth(0, 150) self.mRPMTreeWidget.setColumnWidth(1, 150) self.mRPMTreeWidget.setColumnWidth(2, 550) self.mRPMTreeWidget.setColumnWidth(3, 150) self.mVDHRTreeWidget.headerItem().setText(0, _translate("MainWindow", "里程[VDHR]")) self.mVDHRTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mVDHRTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mVDHRTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(km)")) self.mVDHRTreeWidget.setColumnWidth(0, 150) self.mVDHRTreeWidget.setColumnWidth(1, 150) self.mVDHRTreeWidget.setColumnWidth(2, 550) self.mVDHRTreeWidget.setColumnWidth(3, 150) self.mHoursTreeWidget.headerItem().setText(0, _translate("MainWindow", "工作时长[HOURS]")) self.mHoursTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mHoursTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mHoursTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(hours)")) self.mHoursTreeWidget.setColumnWidth(0, 150) self.mHoursTreeWidget.setColumnWidth(1, 150) self.mHoursTreeWidget.setColumnWidth(2, 550) self.mHoursTreeWidget.setColumnWidth(3, 150) self.mEECTreeWidget.headerItem().setText(0, _translate("MainWindow", "发动机负载[EEC1]")) self.mEECTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mEECTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mEECTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(%)")) self.mEECTreeWidget.setColumnWidth(0, 150) self.mEECTreeWidget.setColumnWidth(1, 150) self.mEECTreeWidget.setColumnWidth(2, 550) self.mEECTreeWidget.setColumnWidth(3, 150) self.mET1TreeWidget.headerItem().setText(0, _translate("MainWindow", "冷却液温度[ET1]")) self.mET1TreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mET1TreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mET1TreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(°)")) self.mET1TreeWidget.setColumnWidth(0, 150) self.mET1TreeWidget.setColumnWidth(1, 150) self.mET1TreeWidget.setColumnWidth(2, 550) self.mET1TreeWidget.setColumnWidth(3, 150) self.mAT1T1ITreeWidget.headerItem().setText(0, _translate("MainWindow", "燃油液面[AT1T1I]")) self.mAT1T1ITreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mAT1T1ITreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mAT1T1ITreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(%)")) self.mAT1T1ITreeWidget.setColumnWidth(0, 150) self.mAT1T1ITreeWidget.setColumnWidth(1, 150) self.mAT1T1ITreeWidget.setColumnWidth(2, 550) self.mAT1T1ITreeWidget.setColumnWidth(3, 150) self.mLFETreeWidget.headerItem().setText(0, _translate("MainWindow", "平均油耗[LFE]")) self.mLFETreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mLFETreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mLFETreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(L/h)")) self.mLFETreeWidget.setColumnWidth(0, 150) self.mLFETreeWidget.setColumnWidth(1, 150) self.mLFETreeWidget.setColumnWidth(2, 550) self.mLFETreeWidget.setColumnWidth(3, 150) self.mETC2TreeWidget.headerItem().setText(0, _translate("MainWindow", "档位[ETC2]")) self.mETC2TreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mETC2TreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mETC2TreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal")) self.mETC2TreeWidget.setColumnWidth(0, 150) self.mETC2TreeWidget.setColumnWidth(1, 150) self.mETC2TreeWidget.setColumnWidth(2, 550) self.mETC2TreeWidget.setColumnWidth(3, 150) self.tableWidget.setColumnWidth(0, 200) self.tableWidget.setColumnWidth(1, 150) self.tableWidget.setColumnWidth(4,450) self.tabWidget.setTabText(self.tabWidget.indexOf(self.tab), _translate("MainWindow", "CanOBD Inf Show")) self.tabWidget.setTabText(self.tabWidget.indexOf(self.tab_2), _translate("MainWindow", "CanOBD J1939 Show")) self.mComCfgBox.setTitle(_translate("MainWindow", "串口配置")) self.mPortName.setText(_translate("MainWindow", "端口号")) self.mBpsName.setText(_translate("MainWindow", "波特率")) self.mDatabitName.setText(_translate("MainWindow", "数据位")) self.mStopName.setText(_translate("MainWindow", "停止位")) self.mOddName.setText(_translate("MainWindow", "检验位")) self.mDatabitVal.setText(_translate("MainWindow", "8")) self.mStopBitVal.setText(_translate("MainWindow", "1")) self.mOddVal.setText(_translate("MainWindow", "无")) self.mBPSVal.setItemText(0, _translate("MainWindow", "9600")) self.mBPSVal.setItemText(1, _translate("MainWindow", "19200")) self.mBPSVal.setItemText(2, _translate("MainWindow", "115200")) self.mBPSVal.setItemText(3, _translate("MainWindow", "230400")) self.mBPSVal.setItemText(4, _translate("MainWindow", "256000")) self.mBPSVal.setItemText(5, _translate("MainWindow", "460800")) port_list = list(serial.tools.list_ports.comports()) if port_list.__len__() is not 0: for num in range(port_list.__len__()): self.mPortVal.setItemText(num, _translate("MainWindow", str(port_list[num].device))) serialport = self.mPortVal.currentText() serialbaudrate = self.mBPSVal.currentText() self.LSerial = SerialThread(serialport, serialbaudrate) self.mCycleCfgBox.setTitle(_translate("MainWindow", "过滤设置(周期)")) self.mcheck1000ms.setText(_translate("MainWindow", "1000ms 周期")) self.mcheck500ms.setText(_translate("MainWindow", "500ms 周期")) self.mcheck100ms.setText(_translate("MainWindow", "100ms 周期")) self.mcheck50ms.setText(_translate("MainWindow", "50ms 周期")) self.mcheck20ms.setText(_translate("MainWindow", "20ms 周期")) self.mcheck200ms.setText(_translate("MainWindow", "200ms 周期")) self.mEventSigBox.setTitle(_translate("MainWindow", "事件信号策略")) self.radioLeftREvent.setText(_translate("MainWindow", "左右转 事件")) self.radioKiilEvent.setText(_translate("MainWindow", "刹车 事件")) self.radioPEvent.setText(_translate("MainWindow", "档位 事件")) self.radioOpenCloseEvent.setText(_translate("MainWindow", "开关门 事件")) self.mReadOBDinfBox.setTitle(_translate("MainWindow", "主动读取信息")) self.radioVinRead.setText(_translate("MainWindow", "VIN 信息")) self.radioLeftREvent.toggled.connect(self.on_radio_left_r_event_toggled) def OpenSerial(self): if self.LSerial != None: if self.LSerial.SerialIsOpen(): self.LSerial.__del__() port_list = list(serial.tools.list_ports.comports()) if port_list.__len__() != 0: serialport = self.mPortVal.currentText() serialbaudrate = self.mBPSVal.currentText() self.LSerial.__init__(serialport,serialbaudrate) # 开启线程 self.thread = Worker() # 创建线程对象 self.thread.update_signal.connect(self.CanOBDdatarefresh) # 连接信号和槽 self.thread.update_signal.connect(self.CanOBDSignalAnalyPro) # 连接信号和槽 # self.thread.update_signal.connect(self.LSerial.Com_read_frame) # 连接信号和槽 self.thread.start() # 启动线程 #self.LSerial.Com_read_frame() self.LSerial.start_reading() # <-- 在这里启动读取线程 def CloseSerial(self): if self.LSerial.SerialIsOpen(): self.LSerial.close() def Serialconnectslot(self): self.mOpenSerial.accepted.connect(self.OpenSerial) self.mOpenSerial.rejected.connect(self.CloseSerial) def on_radio_left_r_event_toggled(self, checked): if checked: # 勾选所有周期过滤项 self.mcheck20ms.setChecked(True) self.mcheck50ms.setChecked(True) self.mcheck100ms.setChecked(True) self.mcheck200ms.setChecked(True) self.mcheck500ms.setChecked(True) self.mcheck1000ms.setChecked(True) def get_checked_cycles(self): """返回用户勾选的所有周期值(毫秒)""" checked_cycles = [] if self.mcheck20ms.isChecked(): checked_cycles.append(20) if self.mcheck50ms.isChecked(): checked_cycles.append(50) if self.mcheck100ms.isChecked(): checked_cycles.append(100) if self.mcheck200ms.isChecked(): checked_cycles.append(200) if self.mcheck500ms.isChecked(): checked_cycles.append(500) if self.mcheck1000ms.isChecked(): checked_cycles.append(1000) return checked_cycles def is_cycle_filtered(self, cycle, filtered_cycles): """检查给定周期是否在过滤范围内,并根据周期大小动态调整容差""" if cycle == 0: # 如果没有记录周期,默认不过滤 return False for filtered_cycle in filtered_cycles: # 定义过滤范围 if filtered_cycle == 20: if cycle <= 50: return True elif filtered_cycle == 50: if 50 <= cycle <= 100: return True elif filtered_cycle == 100: if 100 <= cycle <= 200: return True elif filtered_cycle == 200: if 200 <= cycle <= 400: return True elif filtered_cycle == 500: if 500 <= cycle <= 600: return True elif filtered_cycle == 1000: if 600 <= cycle <= 1000: return True return False def refresh_full_table(self): """全表刷新:保留表格结构,只更新内容""" # 获取当前过滤条件 filtered_cycles = self.get_checked_cycles() # 合并所有数据(注意不要提前 clear) all_items = [] all_items.extend(CanOBDItemList) all_items.extend(filteredCanOBDItemList) # 清空原列表 CanOBDItemList.clear() filteredCanOBDItemList.clear() # 用 set 来记录已经加入的数据,防止重复插入 added_can_ids = set() # 重新分配数据到两个列表 for item in all_items: can_id = item[1] if can_id == 0: continue # 跳过无效数据 cycle = self.LSerial.cycle_dict.get(can_id, 0) if self.is_cycle_filtered(cycle, filtered_cycles): if can_id not in added_can_ids: filteredCanOBDItemList.append(item) added_can_ids.add(can_id) else: if can_id not in added_can_ids: CanOBDItemList.append(item) added_can_ids.add(can_id) # 保留表格结构(150行),只清空所有内容 for row in range(self.tableWidget.rowCount()): for col in range(self.tableWidget.columnCount()): item = self.tableWidget.item(row, col) if item: item.setText("") # 填充符合条件的行 for row_index, item_data in enumerate(CanOBDItemList): if item_data[1] == 0: # 跳过无效数据 continue self.update_table_row(row_index, item_data) self.tableWidget.show() def update_table_row(self, row_index, item_data): """更新表格的指定行,标记变化字节""" # 前4列正常显示 for col in range(4): self.tableWidget.setItem(row_index, col, QtWidgets.QTableWidgetItem(str(item_data[col]))) # 第4列(数据)特殊处理:标记变化字节 can_id = item_data[1] changed_indices = [] if hasattr(self, 'LSerial') and self.LSerial is not None: changed_indices = self.LSerial.changed_bytes_dict.get(can_id, []) data_bytes = item_data[4].split() rich_text = "" for idx, byte_str in enumerate(data_bytes): if idx in changed_indices: rich_text += f'<font color="red">{byte_str}</font> ' else: rich_text += f'{byte_str} ' # 创建富文本显示项 item = QtWidgets.QTableWidgetItem() item.setData(QtCore.Qt.DisplayRole, item_data[4]) # 原始数据用于排序 item.setData(QtCore.Qt.EditRole, rich_text) # 富文本用于显示 self.tableWidget.setItem(row_index, 4, item) def CanOBDdatarefresh(self): filtered_cycles = self.get_checked_cycles() if hasattr(self, 'LSerial'): self.LSerial.set_filter_cycles(filtered_cycles) # 判断是否需要执行全表刷新 current_cycles = self.get_checked_cycles() if sorted(current_cycles) != sorted(self.last_checked_cycles): self.refresh_full_table() self.last_checked_cycles = sorted(current_cycles) return # 获取更新和新增的CAN ID all_update_ids = self.LSerial.data_updated_ids | self.LSerial.new_added_ids # 遍历每个可能变化的ID for can_id in all_update_ids: found_in_main = False found_in_filtered = False # 查找在主列表中的索引 main_index = None for idx, item in enumerate(CanOBDItemList): if item[1] == can_id: main_index = idx found_in_main = True break # 查找在过滤列表中的索引 for idx, item in enumerate(filteredCanOBDItemList): if item[1] == can_id: found_in_filtered = True break cycle = self.LSerial.cycle_dict.get(can_id, 0) should_filter = self.is_cycle_filtered(cycle, filtered_cycles) if found_in_main: if should_filter: # 应该过滤 -> 移动到过滤列表并清空对应行 filtered_item = CanOBDItemList.pop(main_index) filteredCanOBDItemList.append(filtered_item) self.clear_table_row(main_index) else: # 不应过滤 -> 更新行数据 new_data = next((item for item in CanOBDItemList + [filtered_item for filtered_item in filteredCanOBDItemList if filtered_item[1] == can_id]), None) if new_data: self.update_table_row(main_index, new_data) elif found_in_filtered: if not should_filter: # 不应该过滤 -> 从过滤列表移到主列表并恢复行数据 for idx, item in enumerate(filteredCanOBDItemList): if item[1] == can_id: unfiltered_item = filteredCanOBDItemList.pop(idx) CanOBDItemList.append(unfiltered_item) new_row_index = len(CanOBDItemList) - 1 self.update_table_row(new_row_index, unfiltered_item) break else: # 新出现的数据 new_data = next((item for item in SerialPro.CanOBDItemList if item[1] == can_id), None) if new_data: cycle = self.LSerial.cycle_dict.get(can_id, 0) if self.is_cycle_filtered(cycle, filtered_cycles): filteredCanOBDItemList.append(new_data) else: CanOBDItemList.append(new_data) new_row_index = len(CanOBDItemList) - 1 self.update_table_row(new_row_index, new_data) # 统一刷新所有行,确保状态一致 self.sync_table_with_data() self.LSerial.data_updated_ids.clear() self.LSerial.new_added_ids.clear() def sync_table_with_data(self): """ 同步表格与数据源,确保前 len(CanOBDItemList) 行是真实数据, 超出部分保持空白或清除内容。 """ max_rows = self.tableWidget.rowCount() for row in range(max_rows): if row < len(CanOBDItemList): item_data = CanOBDItemList[row] if item_data and item_data[1] != 0: self.update_table_row(row, item_data) else: self.clear_table_row(row) else: # 清除多余行的内容(设置为空白) for col in range(self.tableWidget.columnCount()): item = self.tableWidget.item(row, col) if item: item.setText("") def clear_table_row(self, row_index): """清除行内容时重置富文本显示""" for col in range(5): item = self.tableWidget.item(row_index, col) if item: item.setText("") # 清除富文本格式 item.setData(QtCore.Qt.EditRole, "") else: self.tableWidget.setItem(row_index, col, QtWidgets.QTableWidgetItem("")) def CanOBDSignalAnalyPro(self): index = 0 bfindflag = 0 if all(not sublist for sublist in CanPGNItemList) or CanPGNItemList[0][0] == 0: if len(CanPGNItemList): CanPGNItemList.pop(0) else: for signalindex in CanPGNItemList: value = ''.join(c for c in signalindex[0].lower() if c in '0123456789abcdef') if len(value) % 2 != 0: value = '0' + value signalindex[0] = value PGNCanID = bytes.fromhex(str(signalindex[0])).hex() # 车速 - CCVS1 if (PGNCanID == bytes.fromhex("FEF1").hex()): self.update_tree_widget(self.mSpeedTreeWidget, signalindex, "速度[CCVS1]") # 发动机转速 - EEC1 发动机负载 elif (PGNCanID == bytes.fromhex("F004").hex()): self.update_tree_widget(self.mRPMTreeWidget, signalindex, "转速[EEC1]") self.update_tree_widget(self.mEECTreeWidget, signalindex, "转速[EEC1]") # 里程表 - VDHR elif (PGNCanID == bytes.fromhex("FEC1").hex()): self.update_tree_widget(self.mVDHRTreeWidget, signalindex, "里程[VDHR]") # 发动机工作小时数 - HOURS elif (PGNCanID == bytes.fromhex("FEE5").hex()): self.update_tree_widget(self.mHoursTreeWidget, signalindex, "工作时长[HOURS]") # 平均油耗 - LFE elif (PGNCanID == bytes.fromhex("FEF2").hex()): self.update_tree_widget(self.mLFETreeWidget, signalindex, "平均油耗[LFE]") # 冷却液温度 - ET1 elif (PGNCanID == bytes.fromhex("FEEE").hex()): self.update_tree_widget(self.mET1TreeWidget, signalindex, "冷却液温度[ET1]") # 发动机负载 - EEC1 elif (PGNCanID == bytes.fromhex("F004").hex()): self.update_tree_widget(self.mEECTreeWidget, signalindex, "发动机负载[EEC1]") # 燃油液位 - AT1T1I elif (PGNCanID == bytes.fromhex("FE56").hex()): self.update_tree_widget(self.mAT1T1ITreeWidget, signalindex, "燃油液面[AT1T1I]") # 档位 - ETC2 elif (PGNCanID == bytes.fromhex("F005").hex()): self.update_tree_widget(self.mETC2TreeWidget, signalindex, "档位[ETC2]") def update_tree_widget(self, tree_widget, signal_data, signal_name): """更新树形部件,添加空格并标记变化字节,确保0值显示为00""" num_top_items = tree_widget.topLevelItemCount() bfindflag = False can_id = str(signal_data[1]) pgn_id = signal_data[0].lower() # 确保数据是16位长度(8个字节) data_str = signal_data[2] if len(data_str) != 16: # 如果不是16位,可能是0值被省略 # 补齐到16位 data_str = data_str.zfill(16) # 获取变化字节索引 changed_indices = [] if hasattr(self, 'LSerial') and self.LSerial is not None: try: pgn_id_int = int(pgn_id, 16) changed_indices = self.LSerial.changed_pgn_bytes_dict.get(pgn_id_int, []) except ValueError: pass # 格式化数据字符串(添加空格并确保两位显示) formatted_data = "" for i in range(0, len(data_str), 2): byte_str = data_str[i:i + 2] # 确保每个字节都是两位显示 if len(byte_str) == 1: byte_str = '0' + byte_str if i // 2 in changed_indices: formatted_data += f'<font color="red">{byte_str}</font> ' else: formatted_data += f'{byte_str} ' formatted_data = formatted_data.strip() # 检查是否已存在该CanID的条目 for index in range(num_top_items): if tree_widget.topLevelItem(index).text(1) == can_id: tree_widget.topLevelItem(index).setText(0, signal_name) tree_widget.topLevelItem(index).setText(1, can_id) tree_widget.topLevelItem(index).setText(2, formatted_data) tree_widget.topLevelItem(index).setText(3, str(signal_data[3])) bfindflag = True break # 如果不存在则创建新条目 if not bfindflag: item = QTreeWidgetItem(tree_widget) item.setText(0, signal_name) item.setText(1, can_id) item.setText(2, formatted_data) item.setText(3, str(signal_data[3])) tree_widget.addTopLevelItem(item) tree_widget.expandAll() tree_widget.show() class Worker(QThread): update_signal = pyqtSignal(int) # 定义一个信号,用于传递更新信息到主线程 def run(self): # 模拟耗时操作 while True: time.sleep(1) self.update_signal.emit(1) # 发射信号,传递更新信息 这是canobd文件 现在这段程序在计算每个canid周期的功能上存在计算偏差大的问题,但是代码逻辑又很难来看出错误,我需要对整个程序逐一排查,请你给出建议,找到关键问题所在或者可能造成这一现象的代码片段,我会对其进行注释处理并测试运行结果
最新发布
07-24
self.raw_data_queue.put((timestamp, data)) # 存储时间戳和数据 ``` 然后,在 `_parse_worker` 中,当获取数据时: ```python def _parse_worker(self): while True: try: data = self.raw_data_queue.get...
# -*- coding: utf-8 -*- import threading # Form implementation generated from reading ui file 'CanOBD.ui' # # Created by: PyQt5 UI code generator 5.15.9 # # WARNING: Any manual changes made to this file will be lost when pyuic5 is # run again. Do not edit this file unless you know what you are doing. from PyQt5 import QtCore, QtGui, QtWidgets from PyQt5.QtCore import QThread, pyqtSignal,QTimer from PyQt5.QtWidgets import QApplication, QTableWidget, QTableWidgetItem,QTreeWidget, QTreeWidgetItem from SerialPro import SerialPort as SerialThread from SerialPro import CanOBDItemList,CanPGNItemList,filteredCanOBDItemList import time import serial import serial.tools.list_ports import binascii import struct class RichTextDelegate(QtWidgets.QStyledItemDelegate): def paint(self, painter, option, index): if index.column() == 4: text = index.data(QtCore.Qt.DisplayRole) if not text: return # 创建 QTextDocument 并设置 HTML 内容 doc = QtGui.QTextDocument() doc.setHtml(text) # 设置基础字体(可以显式调大字体) font = option.font font.setPointSize(font.pointSize() + 2) # 调大字体 2pt,比如原来是 10pt → 12pt doc.setDefaultFont(font) # 调整绘制区域(不影响字体大小,仅调整边距) rect = option.rect.adjusted(2, 0, -2, 0) # 左右各留出 2 像素的空白 # 绘制背景 style = QtWidgets.QApplication.style() style.drawControl(QtWidgets.QStyle.CE_ItemViewItem, option, painter) # 绘制文本 painter.save() painter.translate(rect.topLeft()) doc.drawContents(painter, QtCore.QRectF(0, 0, rect.width(), rect.height())) painter.restore() else: super().paint(painter, option, index) class RichTextTreeDelegate(QtWidgets.QStyledItemDelegate): def paint(self, painter, option, index): if index.column() == 2: # 只处理数据列 text = index.data(QtCore.Qt.DisplayRole) if not text: return super().paint(painter, option, index) # 创建QTextDocument并设置HTML内容 doc = QtGui.QTextDocument() doc.setHtml(text) # 设置基础字体 font = option.font font.setPointSize(font.pointSize()) doc.setDefaultFont(font) # 调整绘制区域 rect = option.rect.adjusted(2, 0, -2, 0) # 绘制背景 style = QtWidgets.QApplication.style() style.drawControl(QtWidgets.QStyle.CE_ItemViewItem, option, painter) # 绘制文本 painter.save() painter.translate(rect.topLeft()) doc.drawContents(painter, QtCore.QRectF(0, 0, rect.width(), rect.height())) painter.restore() else: super().paint(painter, option, index) class Ui_MainWindow(object): def setupUi(self, MainWindow): MainWindow.setObjectName("MainWindow") MainWindow.resize(1220, 940) font = QtGui.QFont() font.setPointSize(12) MainWindow.setFont(font) self.CanOBDHiddenList = [] # 新增隐藏列表 self.last_checked_cycles = [] # 记录上一次的过滤条件 self.filter_changed = False # 过滤条件是否变化 self.filter_cycles = [] # 添加这一行用于存储过滤周期 self.if_all_filter = False #用于判断是否过滤所有1000ms信号 self.centralwidget = QtWidgets.QWidget(MainWindow) self.centralwidget.setObjectName("centralwidget") self.tabWidget = QtWidgets.QTabWidget(self.centralwidget) self.tabWidget.setGeometry(QtCore.QRect(0, 0, 1041, 940)) self.tabWidget.setObjectName("tabWidget") self.tab = QtWidgets.QWidget() self.tab.setObjectName("tab") self.tableWidget = QtWidgets.QTableWidget(self.tab) self.tableWidget.setGeometry(QtCore.QRect(0, 0, 1031, 940)) self.tableWidget.setObjectName("tableWidget") self.tableWidget.setColumnCount(5) self.tableWidget.setRowCount(150) #富文本委托 self.tableWidget.setItemDelegate(RichTextDelegate()) for num in range(0,150,1): item = QtWidgets.QTableWidgetItem() self.tableWidget.setVerticalHeaderItem(num, item) item = QtWidgets.QTableWidgetItem() font = QtGui.QFont() font.setKerning(False) item.setFont(font) for line in range(0,5,1): self.tableWidget.setHorizontalHeaderItem(line, item) item = QtWidgets.QTableWidgetItem() self.tabWidget.addTab(self.tab, "") self.tab_2 = QtWidgets.QWidget() self.tab_2.setObjectName("CanOBD Cfg Set") self.mSpeedTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mSpeedTreeWidget.setGeometry(QtCore.QRect(10, 0, 1031, 101)) self.mSpeedTreeWidget.setObjectName("mSpeedTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mSpeedTreeWidget.headerItem().setFont(0, font) self.mSpeedTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mSpeedTreeWidget.headerItem().setFont(3, font) self.mRPMTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mRPMTreeWidget.setGeometry(QtCore.QRect(10, 100, 1031, 91)) self.mRPMTreeWidget.setObjectName("mRPMTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mRPMTreeWidget.headerItem().setFont(0, font) self.mRPMTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mRPMTreeWidget.headerItem().setFont(3, font) self.mVDHRTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mVDHRTreeWidget.setGeometry(QtCore.QRect(10, 190, 1031, 91)) self.mVDHRTreeWidget.setObjectName("mVDHRTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mVDHRTreeWidget.headerItem().setFont(0, font) self.mVDHRTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mVDHRTreeWidget.headerItem().setFont(3, font) self.mHoursTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mHoursTreeWidget.setGeometry(QtCore.QRect(10, 280, 1031, 101)) self.mHoursTreeWidget.setObjectName("mHoursTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mHoursTreeWidget.headerItem().setFont(0, font) self.mHoursTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mHoursTreeWidget.headerItem().setFont(3, font) self.mEECTreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mEECTreeWidget.setGeometry(QtCore.QRect(10, 380, 1031, 91)) self.mEECTreeWidget.setObjectName("mEECTreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mEECTreeWidget.headerItem().setFont(0, font) self.mEECTreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mEECTreeWidget.headerItem().setFont(3, font) self.mET1TreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mET1TreeWidget.setGeometry(QtCore.QRect(10, 470, 1031, 101)) self.mET1TreeWidget.setObjectName("mET1TreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mET1TreeWidget.headerItem().setFont(0, font) self.mET1TreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mET1TreeWidget.headerItem().setFont(3, font) self.mAT1T1ITreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mAT1T1ITreeWidget.setGeometry(QtCore.QRect(10, 570, 1031, 91)) self.mAT1T1ITreeWidget.setObjectName("mAT1T1ITreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mAT1T1ITreeWidget.headerItem().setFont(0, font) self.mAT1T1ITreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mAT1T1ITreeWidget.headerItem().setFont(3, font) self.mLFETreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mLFETreeWidget.setGeometry(QtCore.QRect(10, 660, 1031, 101)) self.mLFETreeWidget.setObjectName("mLFETreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mLFETreeWidget.headerItem().setFont(0, font) self.mLFETreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mLFETreeWidget.headerItem().setFont(3, font) self.mETC2TreeWidget = QtWidgets.QTreeWidget(self.tab_2) self.mETC2TreeWidget.setGeometry(QtCore.QRect(10, 760, 1031, 101)) self.mETC2TreeWidget.setObjectName("mETC2TreeWidget") font = QtGui.QFont() font.setPointSize(12) self.mETC2TreeWidget.headerItem().setFont(0, font) self.mETC2TreeWidget.headerItem().setTextAlignment(1, QtCore.Qt.AlignJustify|QtCore.Qt.AlignVCenter) font = QtGui.QFont() font.setKerning(True) self.mETC2TreeWidget.headerItem().setFont(3, font) self.tabWidget.addTab(self.tab_2, "") self.mComCfgBox = QtWidgets.QGroupBox(self.centralwidget) self.mComCfgBox.setGeometry(QtCore.QRect(1040, 10, 191, 231)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mComCfgBox.setFont(font) self.mComCfgBox.setObjectName("mComCfgBox") self.mPortName = QtWidgets.QLabel(self.mComCfgBox) self.mPortName.setGeometry(QtCore.QRect(20, 30, 61, 21)) self.mPortName.setObjectName("mPortName") self.mBpsName = QtWidgets.QLabel(self.mComCfgBox) self.mBpsName.setGeometry(QtCore.QRect(20, 60, 61, 21)) self.mBpsName.setObjectName("mBpsName") self.mDatabitName = QtWidgets.QLabel(self.mComCfgBox) self.mDatabitName.setGeometry(QtCore.QRect(20, 90, 61, 21)) self.mDatabitName.setObjectName("mDatabitName") self.mStopName = QtWidgets.QLabel(self.mComCfgBox) self.mStopName.setGeometry(QtCore.QRect(20, 120, 61, 21)) self.mStopName.setObjectName("mStopName") self.mOddName = QtWidgets.QLabel(self.mComCfgBox) self.mOddName.setGeometry(QtCore.QRect(20, 150, 61, 21)) self.mOddName.setObjectName("mOddName") self.mDatabitVal = QtWidgets.QLabel(self.mComCfgBox) self.mDatabitVal.setGeometry(QtCore.QRect(100, 90, 54, 21)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mDatabitVal.setFont(font) self.mDatabitVal.setLayoutDirection(QtCore.Qt.LeftToRight) self.mDatabitVal.setAlignment(QtCore.Qt.AlignCenter) self.mDatabitVal.setObjectName("mDatabitVal") self.mStopBitVal = QtWidgets.QLabel(self.mComCfgBox) self.mStopBitVal.setGeometry(QtCore.QRect(100, 120, 54, 21)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mStopBitVal.setFont(font) self.mStopBitVal.setLayoutDirection(QtCore.Qt.LeftToRight) self.mStopBitVal.setAlignment(QtCore.Qt.AlignCenter) self.mStopBitVal.setObjectName("mStopBitVal") self.mOddVal = QtWidgets.QLabel(self.mComCfgBox) self.mOddVal.setGeometry(QtCore.QRect(100, 150, 54, 21)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mOddVal.setFont(font) self.mOddVal.setLayoutDirection(QtCore.Qt.LeftToRight) self.mOddVal.setAlignment(QtCore.Qt.AlignCenter) self.mOddVal.setObjectName("mOddVal") self.mPortVal = QtWidgets.QComboBox(self.mComCfgBox) self.mPortVal.setGeometry(QtCore.QRect(90, 30, 81, 22)) self.mPortVal.setObjectName("mPortVal") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mPortVal.addItem("") self.mBPSVal = QtWidgets.QComboBox(self.mComCfgBox) self.mBPSVal.setGeometry(QtCore.QRect(90, 60, 81, 22)) self.mBPSVal.setObjectName("mBPSVal") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mBPSVal.addItem("") self.mOpenSerial = QtWidgets.QDialogButtonBox(self.mComCfgBox) self.mOpenSerial.setGeometry(QtCore.QRect(20, 190, 156, 31)) self.mOpenSerial.setStandardButtons(QtWidgets.QDialogButtonBox.Close|QtWidgets.QDialogButtonBox.Open) self.mOpenSerial.setObjectName("mOpenSerial") self.mCycleCfgBox = QtWidgets.QGroupBox(self.centralwidget) self.mCycleCfgBox.setGeometry(QtCore.QRect(1040, 260, 191, 221)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mCycleCfgBox.setFont(font) self.mCycleCfgBox.setObjectName("mCycleCfgBox") self.mcheck1000ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck1000ms.setGeometry(QtCore.QRect(20, 180, 141, 31)) self.mcheck1000ms.setObjectName("mcheck1000ms") self.mcheck500ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck500ms.setGeometry(QtCore.QRect(20, 150, 141, 31)) self.mcheck500ms.setObjectName("mcheck500ms") self.mcheck100ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck100ms.setGeometry(QtCore.QRect(20, 90, 141, 31)) self.mcheck100ms.setObjectName("mcheck100ms") self.mcheck50ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck50ms.setGeometry(QtCore.QRect(20, 60, 141, 31)) self.mcheck50ms.setObjectName("mcheck50ms") self.mcheck20ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck20ms.setGeometry(QtCore.QRect(20, 30, 141, 31)) self.mcheck20ms.setObjectName("mcheck20ms") self.mcheck200ms = QtWidgets.QCheckBox(self.mCycleCfgBox) self.mcheck200ms.setGeometry(QtCore.QRect(20, 120, 141, 31)) self.mcheck200ms.setObjectName("mcheck200ms") self.mEventSigBox = QtWidgets.QGroupBox(self.centralwidget) self.mEventSigBox.setGeometry(QtCore.QRect(1050, 490, 191, 151)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mEventSigBox.setFont(font) self.mEventSigBox.setObjectName("mEventSigBox") self.radioLeftREvent = QtWidgets.QRadioButton(self.mEventSigBox) self.radioLeftREvent.setGeometry(QtCore.QRect(10, 30, 151, 16)) self.radioLeftREvent.setObjectName("radioLeftREvent") self.radioKiilEvent = QtWidgets.QRadioButton(self.mEventSigBox) self.radioKiilEvent.setGeometry(QtCore.QRect(10, 90, 151, 16)) self.radioKiilEvent.setObjectName("radioKiilEvent") self.radioPEvent = QtWidgets.QRadioButton(self.mEventSigBox) self.radioPEvent.setGeometry(QtCore.QRect(10, 120, 151, 16)) self.radioPEvent.setObjectName("radioPEvent") self.radioOpenCloseEvent = QtWidgets.QRadioButton(self.mEventSigBox) self.radioOpenCloseEvent.setGeometry(QtCore.QRect(10, 60, 151, 16)) self.radioOpenCloseEvent.setObjectName("radioOpenCloseEvent") self.mReadOBDinfBox = QtWidgets.QGroupBox(self.centralwidget) self.mReadOBDinfBox.setGeometry(QtCore.QRect(1050, 660, 191, 171)) font = QtGui.QFont() font.setPointSize(14) font.setBold(True) font.setWeight(75) self.mReadOBDinfBox.setFont(font) self.mReadOBDinfBox.setObjectName("mReadOBDinfBox") self.radioVinRead = QtWidgets.QRadioButton(self.mReadOBDinfBox) self.radioVinRead.setGeometry(QtCore.QRect(10, 40, 141, 21)) self.radioVinRead.setObjectName("radioVinRead") self.mVinInfShow = QtWidgets.QTextBrowser(self.mReadOBDinfBox) self.mVinInfShow.setGeometry(QtCore.QRect(10, 70, 171, 91)) self.mVinInfShow.setObjectName("mVinInfShow") MainWindow.setCentralWidget(self.centralwidget) self.statusbar = QtWidgets.QStatusBar(MainWindow) self.statusbar.setObjectName("statusbar") MainWindow.setStatusBar(self.statusbar) self.retranslateUi(MainWindow) self.tabWidget.setCurrentIndex(0) QtCore.QMetaObject.connectSlotsByName(MainWindow) self.mSpeedTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mRPMTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mVDHRTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mHoursTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mEECTreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mET1TreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mAT1T1ITreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mLFETreeWidget.setItemDelegate(RichTextTreeDelegate()) self.mETC2TreeWidget.setItemDelegate(RichTextTreeDelegate()) def retranslateUi(self, MainWindow): _translate = QtCore.QCoreApplication.translate MainWindow.setWindowTitle(_translate("MainWindow", "MainWindow")) for num in range(0, 150, 1): item = self.tableWidget.verticalHeaderItem(num) item.setText(_translate("MainWindow", str(num +1))) item = self.tableWidget.horizontalHeaderItem(0) item.setText(_translate("MainWindow", "时间标识")) item = self.tableWidget.horizontalHeaderItem(1) item.setText(_translate("MainWindow", "帧ID")) item = self.tableWidget.horizontalHeaderItem(2) item.setText(_translate("MainWindow", "帧类型")) item = self.tableWidget.horizontalHeaderItem(3) item.setText(_translate("MainWindow", "长度")) item = self.tableWidget.horizontalHeaderItem(4) item.setText(_translate("MainWindow", "数据 (BIT7--BIT0 大端模式)")) self.tabWidget.setTabText(self.tabWidget.indexOf(self.tab), _translate("MainWindow", "Tab 1")) self.mSpeedTreeWidget.headerItem().setText(0, _translate("MainWindow", "速度[CCVS1]")) self.mSpeedTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mSpeedTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mSpeedTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(km/h)")) self.mSpeedTreeWidget.setColumnWidth(0, 150) self.mSpeedTreeWidget.setColumnWidth(1, 150) self.mSpeedTreeWidget.setColumnWidth(2, 550) self.mSpeedTreeWidget.setColumnWidth(3, 150) self.mRPMTreeWidget.headerItem().setText(0, _translate("MainWindow", "转速[EEC1]")) self.mRPMTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mRPMTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mRPMTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(rpm)")) self.mRPMTreeWidget.setColumnWidth(0, 150) self.mRPMTreeWidget.setColumnWidth(1, 150) self.mRPMTreeWidget.setColumnWidth(2, 550) self.mRPMTreeWidget.setColumnWidth(3, 150) self.mVDHRTreeWidget.headerItem().setText(0, _translate("MainWindow", "里程[VDHR]")) self.mVDHRTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mVDHRTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mVDHRTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(km)")) self.mVDHRTreeWidget.setColumnWidth(0, 150) self.mVDHRTreeWidget.setColumnWidth(1, 150) self.mVDHRTreeWidget.setColumnWidth(2, 550) self.mVDHRTreeWidget.setColumnWidth(3, 150) self.mHoursTreeWidget.headerItem().setText(0, _translate("MainWindow", "工作时长[HOURS]")) self.mHoursTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mHoursTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mHoursTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(hours)")) self.mHoursTreeWidget.setColumnWidth(0, 150) self.mHoursTreeWidget.setColumnWidth(1, 150) self.mHoursTreeWidget.setColumnWidth(2, 550) self.mHoursTreeWidget.setColumnWidth(3, 150) self.mEECTreeWidget.headerItem().setText(0, _translate("MainWindow", "发动机负载[EEC1]")) self.mEECTreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mEECTreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mEECTreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(%)")) self.mEECTreeWidget.setColumnWidth(0, 150) self.mEECTreeWidget.setColumnWidth(1, 150) self.mEECTreeWidget.setColumnWidth(2, 550) self.mEECTreeWidget.setColumnWidth(3, 150) self.mET1TreeWidget.headerItem().setText(0, _translate("MainWindow", "冷却液温度[ET1]")) self.mET1TreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mET1TreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mET1TreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(°)")) self.mET1TreeWidget.setColumnWidth(0, 150) self.mET1TreeWidget.setColumnWidth(1, 150) self.mET1TreeWidget.setColumnWidth(2, 550) self.mET1TreeWidget.setColumnWidth(3, 150) self.mAT1T1ITreeWidget.headerItem().setText(0, _translate("MainWindow", "燃油液面[AT1T1I]")) self.mAT1T1ITreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mAT1T1ITreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mAT1T1ITreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(%)")) self.mAT1T1ITreeWidget.setColumnWidth(0, 150) self.mAT1T1ITreeWidget.setColumnWidth(1, 150) self.mAT1T1ITreeWidget.setColumnWidth(2, 550) self.mAT1T1ITreeWidget.setColumnWidth(3, 150) self.mLFETreeWidget.headerItem().setText(0, _translate("MainWindow", "平均油耗[LFE]")) self.mLFETreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mLFETreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mLFETreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal(L/h)")) self.mLFETreeWidget.setColumnWidth(0, 150) self.mLFETreeWidget.setColumnWidth(1, 150) self.mLFETreeWidget.setColumnWidth(2, 550) self.mLFETreeWidget.setColumnWidth(3, 150) self.mETC2TreeWidget.headerItem().setText(0, _translate("MainWindow", "档位[ETC2]")) self.mETC2TreeWidget.headerItem().setText(1, _translate("MainWindow", "CanID")) self.mETC2TreeWidget.headerItem().setText(2, _translate("MainWindow", "Data")) self.mETC2TreeWidget.headerItem().setText(3, _translate("MainWindow", "Signal")) self.mETC2TreeWidget.setColumnWidth(0, 150) self.mETC2TreeWidget.setColumnWidth(1, 150) self.mETC2TreeWidget.setColumnWidth(2, 550) self.mETC2TreeWidget.setColumnWidth(3, 150) self.tableWidget.setColumnWidth(0, 200) self.tableWidget.setColumnWidth(1, 150) self.tableWidget.setColumnWidth(4,450) self.tabWidget.setTabText(self.tabWidget.indexOf(self.tab), _translate("MainWindow", "CanOBD Inf Show")) self.tabWidget.setTabText(self.tabWidget.indexOf(self.tab_2), _translate("MainWindow", "CanOBD J1939 Show")) self.mComCfgBox.setTitle(_translate("MainWindow", "串口配置")) self.mPortName.setText(_translate("MainWindow", "端口号")) self.mBpsName.setText(_translate("MainWindow", "波特率")) self.mDatabitName.setText(_translate("MainWindow", "数据位")) self.mStopName.setText(_translate("MainWindow", "停止位")) self.mOddName.setText(_translate("MainWindow", "检验位")) self.mDatabitVal.setText(_translate("MainWindow", "8")) self.mStopBitVal.setText(_translate("MainWindow", "1")) self.mOddVal.setText(_translate("MainWindow", "无")) self.mBPSVal.setItemText(0, _translate("MainWindow", "9600")) self.mBPSVal.setItemText(1, _translate("MainWindow", "19200")) self.mBPSVal.setItemText(2, _translate("MainWindow", "115200")) self.mBPSVal.setItemText(3, _translate("MainWindow", "230400")) self.mBPSVal.setItemText(4, _translate("MainWindow", "256000")) self.mBPSVal.setItemText(5, _translate("MainWindow", "460800")) port_list = list(serial.tools.list_ports.comports()) if port_list.__len__() is not 0: for num in range(port_list.__len__()): self.mPortVal.setItemText(num, _translate("MainWindow", str(port_list[num].device))) serialport = self.mPortVal.currentText() serialbaudrate = self.mBPSVal.currentText() self.LSerial = SerialThread(serialport, serialbaudrate) self.mCycleCfgBox.setTitle(_translate("MainWindow", "过滤设置(周期)")) self.mcheck1000ms.setText(_translate("MainWindow", "1000ms 周期")) self.mcheck500ms.setText(_translate("MainWindow", "500ms 周期")) self.mcheck100ms.setText(_translate("MainWindow", "100ms 周期")) self.mcheck50ms.setText(_translate("MainWindow", "50ms 周期")) self.mcheck20ms.setText(_translate("MainWindow", "20ms 周期")) self.mcheck200ms.setText(_translate("MainWindow", "200ms 周期")) self.mEventSigBox.setTitle(_translate("MainWindow", "事件信号策略")) self.radioLeftREvent.setText(_translate("MainWindow", "左右转 事件")) self.radioKiilEvent.setText(_translate("MainWindow", "刹车 事件")) self.radioPEvent.setText(_translate("MainWindow", "档位 事件")) self.radioOpenCloseEvent.setText(_translate("MainWindow", "开关门 事件")) self.mReadOBDinfBox.setTitle(_translate("MainWindow", "主动读取信息")) self.radioVinRead.setText(_translate("MainWindow", "VIN 信息")) self.radioLeftREvent.toggled.connect(self.on_radio_left_r_event_toggled) def OpenSerial(self): if self.LSerial != None: if self.LSerial.SerialIsOpen(): self.LSerial.__del__() port_list = list(serial.tools.list_ports.comports()) if port_list.__len__() != 0: serialport = self.mPortVal.currentText() serialbaudrate = self.mBPSVal.currentText() self.LSerial.__init__(serialport,serialbaudrate) # 开启线程 self.thread = Worker() # 创建线程对象 self.thread.update_signal.connect(self.CanOBDdatarefresh) # 连接信号和槽 self.thread.update_signal.connect(self.CanOBDSignalAnalyPro) # 连接信号和槽 # self.thread.update_signal.connect(self.LSerial.Com_read_frame) # 连接信号和槽 self.thread.start() # 启动线程 #self.LSerial.Com_read_frame() self.LSerial.start_reading() # <-- 在这里启动读取线程 def CloseSerial(self): if self.LSerial.SerialIsOpen(): self.LSerial.close() def Serialconnectslot(self): self.mOpenSerial.accepted.connect(self.OpenSerial) self.mOpenSerial.rejected.connect(self.CloseSerial) def on_radio_left_r_event_toggled(self, checked): if checked: # 勾选所有周期过滤项 self.mcheck20ms.setChecked(True) self.mcheck50ms.setChecked(True) self.mcheck100ms.setChecked(True) self.mcheck200ms.setChecked(True) self.mcheck500ms.setChecked(True) self.mcheck1000ms.setChecked(True) self.is_all_filter=True else: # 取消勾选时恢复为默认状态 self.if_all_filter = False def get_checked_cycles(self): """返回用户勾选的所有周期值(毫秒)""" checked_cycles = [] if self.mcheck20ms.isChecked(): checked_cycles.append(20) if self.mcheck50ms.isChecked(): checked_cycles.append(50) if self.mcheck100ms.isChecked(): checked_cycles.append(100) if self.mcheck200ms.isChecked(): checked_cycles.append(200) if self.mcheck500ms.isChecked(): checked_cycles.append(500) if self.mcheck1000ms.isChecked(): checked_cycles.append(1000) return checked_cycles def is_cycle_filtered(self, cycle, filtered_cycles): """检查给定周期是否在过滤范围内,并根据周期大小动态调整容差""" if cycle == 0: # 如果没有记录周期,默认不过滤 return False for filtered_cycle in filtered_cycles: # 动态设置容差 if filtered_cycle == 20: tolerance = filtered_cycle * 0.50 # 50% 容差 elif filtered_cycle == 50: tolerance = filtered_cycle * 0.30 elif filtered_cycle == 1000: tolerance = filtered_cycle * 0.50 elif filtered_cycle == 500: tolerance = filtered_cycle * 0.80 else: tolerance = filtered_cycle * 0.15 # 默认 15% 容差 if (filtered_cycle != 1000 and filtered_cycle !=20): if abs(cycle - filtered_cycle) <= tolerance: return True else: if cycle - filtered_cycle<= tolerance: return True return False def refresh_full_table(self): """全表刷新:保留表格结构,只更新内容""" # 获取当前过滤条件 filtered_cycles = self.get_checked_cycles() # 合并所有数据(注意不要提前 clear) all_items = [] all_items.extend(CanOBDItemList) all_items.extend(filteredCanOBDItemList) # 清空原列表 CanOBDItemList.clear() filteredCanOBDItemList.clear() # 用 set 来记录已经加入的数据,防止重复插入 added_can_ids = set() # 重新分配数据到两个列表 for item in all_items: can_id = item[1] if can_id == 0: continue # 跳过无效数据 cycle = self.LSerial.cycle_dict.get(can_id, 0) if self.is_cycle_filtered(cycle, filtered_cycles): if can_id not in added_can_ids: filteredCanOBDItemList.append(item) added_can_ids.add(can_id) else: if can_id not in added_can_ids: CanOBDItemList.append(item) added_can_ids.add(can_id) # 保留表格结构(150行),只清空所有内容 for row in range(self.tableWidget.rowCount()): for col in range(self.tableWidget.columnCount()): item = self.tableWidget.item(row, col) if item: item.setText("") # 填充符合条件的行 for row_index, item_data in enumerate(CanOBDItemList): if item_data[1] == 0: # 跳过无效数据 continue self.update_table_row(row_index, item_data) self.tableWidget.show() def update_table_row(self, row_index, item_data): """更新表格的指定行,标记变化字节""" # 前4列正常显示 for col in range(4): self.tableWidget.setItem(row_index, col, QtWidgets.QTableWidgetItem(str(item_data[col]))) # 第4列(数据)特殊处理:标记变化字节 can_id = item_data[1] changed_indices = [] if hasattr(self, 'LSerial') and self.LSerial is not None: changed_indices = self.LSerial.changed_bytes_dict.get(can_id, []) data_bytes = item_data[4].split() rich_text = "" for idx, byte_str in enumerate(data_bytes): if idx in changed_indices: rich_text += f'<font color="red">{byte_str}</font> ' else: rich_text += f'{byte_str} ' # 创建富文本显示项 item = QtWidgets.QTableWidgetItem() item.setData(QtCore.Qt.DisplayRole, item_data[4]) # 原始数据用于排序 item.setData(QtCore.Qt.EditRole, rich_text) # 富文本用于显示 self.tableWidget.setItem(row_index, 4, item) def CanOBDdatarefresh(self): filtered_cycles = self.get_checked_cycles() if hasattr(self, 'LSerial'): self.LSerial.set_filter_cycles(filtered_cycles) # 判断是否需要执行全表刷新 current_cycles = self.get_checked_cycles() if sorted(current_cycles) != sorted(self.last_checked_cycles): self.refresh_full_table() self.last_checked_cycles = sorted(current_cycles) return # 获取更新和新增的CAN ID all_update_ids = self.LSerial.data_updated_ids | self.LSerial.new_added_ids # 遍历每个可能变化的ID for can_id in all_update_ids: found_in_main = False found_in_filtered = False # 查找在主列表中的索引 main_index = None for idx, item in enumerate(CanOBDItemList): if item[1] == can_id: main_index = idx found_in_main = True break # 查找在过滤列表中的索引 for idx, item in enumerate(filteredCanOBDItemList): if item[1] == can_id: found_in_filtered = True break cycle = self.LSerial.cycle_dict.get(can_id, 0) should_filter = self.is_cycle_filtered(cycle, filtered_cycles) if found_in_main: if should_filter: # 应该过滤 -> 移动到过滤列表并清空对应行 filtered_item = CanOBDItemList.pop(main_index) filteredCanOBDItemList.append(filtered_item) self.clear_table_row(main_index) else: # 不应过滤 -> 更新行数据 new_data = next((item for item in CanOBDItemList + [filtered_item for filtered_item in filteredCanOBDItemList if filtered_item[1] == can_id]), None) if new_data: self.update_table_row(main_index, new_data) elif found_in_filtered: if not should_filter: # 不应该过滤 -> 从过滤列表移到主列表并恢复行数据 for idx, item in enumerate(filteredCanOBDItemList): if item[1] == can_id: unfiltered_item = filteredCanOBDItemList.pop(idx) CanOBDItemList.append(unfiltered_item) new_row_index = len(CanOBDItemList) - 1 self.update_table_row(new_row_index, unfiltered_item) break else: # 新出现的数据 new_data = next((item for item in SerialPro.CanOBDItemList if item[1] == can_id), None) if new_data: cycle = self.LSerial.cycle_dict.get(can_id, 0) if self.is_cycle_filtered(cycle, filtered_cycles): filteredCanOBDItemList.append(new_data) else: CanOBDItemList.append(new_data) new_row_index = len(CanOBDItemList) - 1 self.update_table_row(new_row_index, new_data) # 统一刷新所有行,确保状态一致 self.sync_table_with_data() self.LSerial.data_updated_ids.clear() self.LSerial.new_added_ids.clear() def sync_table_with_data(self): """ 同步表格与数据源,确保前 len(CanOBDItemList) 行是真实数据, 超出部分保持空白或清除内容。 """ max_rows = self.tableWidget.rowCount() for row in range(max_rows): if row < len(CanOBDItemList): item_data = CanOBDItemList[row] if item_data and item_data[1] != 0: self.update_table_row(row, item_data) else: self.clear_table_row(row) else: # 清除多余行的内容(设置为空白) for col in range(self.tableWidget.columnCount()): item = self.tableWidget.item(row, col) if item: item.setText("") def clear_table_row(self, row_index): """清除行内容时重置富文本显示""" for col in range(5): item = self.tableWidget.item(row_index, col) if item: item.setText("") # 清除富文本格式 item.setData(QtCore.Qt.EditRole, "") else: self.tableWidget.setItem(row_index, col, QtWidgets.QTableWidgetItem("")) def CanOBDSignalAnalyPro(self): index = 0 bfindflag = 0 if all(not sublist for sublist in CanPGNItemList) or CanPGNItemList[0][0] == 0: if len(CanPGNItemList): CanPGNItemList.pop(0) else: for signalindex in CanPGNItemList: value = ''.join(c for c in signalindex[0].lower() if c in '0123456789abcdef') if len(value) % 2 != 0: value = '0' + value signalindex[0] = value PGNCanID = bytes.fromhex(str(signalindex[0])).hex() # 车速 - CCVS1 if (PGNCanID == bytes.fromhex("FEF1").hex()): self.update_tree_widget(self.mSpeedTreeWidget, signalindex, "速度[CCVS1]") # 发动机转速 - EEC1 发动机负载 elif (PGNCanID == bytes.fromhex("F004").hex()): self.update_tree_widget(self.mRPMTreeWidget, signalindex, "转速[EEC1]") self.update_tree_widget(self.mEECTreeWidget, signalindex, "转速[EEC1]") # 里程表 - VDHR elif (PGNCanID == bytes.fromhex("FEC1").hex()): self.update_tree_widget(self.mVDHRTreeWidget, signalindex, "里程[VDHR]") # 发动机工作小时数 - HOURS elif (PGNCanID == bytes.fromhex("FEE5").hex()): self.update_tree_widget(self.mHoursTreeWidget, signalindex, "工作时长[HOURS]") # 平均油耗 - LFE elif (PGNCanID == bytes.fromhex("FEF2").hex()): self.update_tree_widget(self.mLFETreeWidget, signalindex, "平均油耗[LFE]") # 冷却液温度 - ET1 elif (PGNCanID == bytes.fromhex("FEEE").hex()): self.update_tree_widget(self.mET1TreeWidget, signalindex, "冷却液温度[ET1]") # 发动机负载 - EEC1 elif (PGNCanID == bytes.fromhex("F004").hex()): self.update_tree_widget(self.mEECTreeWidget, signalindex, "发动机负载[EEC1]") # 燃油液位 - AT1T1I elif (PGNCanID == bytes.fromhex("FE56").hex()): self.update_tree_widget(self.mAT1T1ITreeWidget, signalindex, "燃油液面[AT1T1I]") # 档位 - ETC2 elif (PGNCanID == bytes.fromhex("F005").hex()): self.update_tree_widget(self.mETC2TreeWidget, signalindex, "档位[ETC2]") def update_tree_widget(self, tree_widget, signal_data, signal_name): """更新树形部件,添加空格并标记变化字节,确保0值显示为00""" num_top_items = tree_widget.topLevelItemCount() bfindflag = False can_id = str(signal_data[1]) pgn_id = signal_data[0].lower() # 确保数据是16位长度(8个字节) data_str = signal_data[2] if len(data_str) != 16: # 如果不是16位,可能是0值被省略 # 补齐到16位 data_str = data_str.zfill(16) # 获取变化字节索引 changed_indices = [] if hasattr(self, 'LSerial') and self.LSerial is not None: try: pgn_id_int = int(pgn_id, 16) changed_indices = self.LSerial.changed_pgn_bytes_dict.get(pgn_id_int, []) except ValueError: pass # 格式化数据字符串(添加空格并确保两位显示) formatted_data = "" for i in range(0, len(data_str), 2): byte_str = data_str[i:i + 2] # 确保每个字节都是两位显示 if len(byte_str) == 1: byte_str = '0' + byte_str if i // 2 in changed_indices: formatted_data += f'<font color="red">{byte_str}</font> ' else: formatted_data += f'{byte_str} ' formatted_data = formatted_data.strip() # 检查是否已存在该CanID的条目 for index in range(num_top_items): if tree_widget.topLevelItem(index).text(1) == can_id: tree_widget.topLevelItem(index).setText(0, signal_name) tree_widget.topLevelItem(index).setText(1, can_id) tree_widget.topLevelItem(index).setText(2, formatted_data) tree_widget.topLevelItem(index).setText(3, str(signal_data[3])) bfindflag = True break # 如果不存在则创建新条目 if not bfindflag: item = QTreeWidgetItem(tree_widget) item.setText(0, signal_name) item.setText(1, can_id) item.setText(2, formatted_data) item.setText(3, str(signal_data[3])) tree_widget.addTopLevelItem(item) tree_widget.expandAll() tree_widget.show() class Worker(QThread): update_signal = pyqtSignal(int) # 定义一个信号,用于传递更新信息到主线程 def run(self): # 模拟耗时操作 while True: time.sleep(0.3) self.update_signal.emit(1) # 发射信号,传递更新信息 这是canobd文件 import binascii import serial import time import struct import queue import threading from datetime import datetime CanOBDItemList = [] CanPGNItemList = [[0,0,0,0]] filteredCanOBDItemList = [] Frame_start = b’\xFF’ Frame_end = b’\x55’ Frame_data_style_len = 6 Frame_Data_Len = 0 frame_buffer = bytearray() class CanInfShow_Item: def int(self,CanID,CanFramType,Len,CanDataInf): self.SystemCycle = datetime.strftime(“%Y-%m-%d %H:%M:%S.%f”)[:-3], self.CanID = CanID, self.CanFrame = CanFramType, self.CanDataLen = Len, self.CanData = CanDataInf class CanPGNShow_Item: def int(self, PGNID, CanID, CanData, Signal): self.PGNID = PGNID, self.CanID = CanID, self.CanData = CanData, self.Signal = Signal class SerialPort: def init(self, port, baudrate): # 初始化串口参数 self.port = port self.baudrate = baudrate self.ser = serial.Serial( port=self.port, baudrate=self.baudrate, bytesize=serial.EIGHTBITS, parity=serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE ) # 等待串口连接稳定 self.last_data_time = time.time() # 新增:最后接收数据的时间戳 self.cycle_dict = {} # 存储{帧ID: [上次时间戳, 当前周期]} self.last_frame_time = {} # 存储每个ID的最后出现时间 self.data_updated_ids = set() # 存储数据变化的CAN ID self.new_added_ids = set() # 存储新增的CAN ID self.last_data_dict = {} # 存储每个CAN ID的上一次数据 self.changed_bytes_dict = {} # 存储每个CAN ID的变化字节索引 self.last_pgn_data_dict = {} # 存储每个PGN ID的上一次数据 self.changed_pgn_bytes_dict = {} # 存储每个PGN ID的变化字节索引 self.state = 0 self.current_frame = bytearray() self.expected_length = 0 self.raw_data_queue = queue.Queue(maxsize=10000) self.data_lock = threading.Lock() self.worker_threads = [] self.allowed_pgn_ids = {0xFEF1, 0xF004, 0xFEC1, 0xFEE5, 0xFEEE, 0xFE56, 0xFEF2, 0xF005} self.filter_cycles = [] # 添加这一行用于存储过滤周期 time.sleep(0.2) if not self.ser.isOpen(): print("串口打开失败!") def close(self): # 关闭串口连接 if self.ser.isOpen(): self.ser.close() def send(self, data): # 发送数据 if self.ser.isOpen(): try: self.ser.write(data.encode('utf-8')) except serial.SerialException as e: print(f"发送数据失败: {e}") def recv(self, chunk_size=1024): if self.ser.isOpen(): # 每次最多读取1024字节 data = self.ser.read(min(self.ser.inWaiting(), chunk_size)) if data: self.last_data_time = time.time() return data return None def __del__(self): self.close() def SerialIsOpen(self): if self.ser.isOpen(): return 1 else: return 0 def start_reading(self): self.recv_thread = threading.Thread(target=self._recv_worker, daemon=True) self.parse_thread = threading.Thread(target=self._parse_worker, daemon=True) self.recv_thread.start() self.parse_thread.start() self.worker_threads = [self.recv_thread, self.parse_thread] def _recv_worker(self): while self.ser.isOpen(): data = self.recv(chunk_size=4096) # 每次最多读4KB if data: self.raw_data_queue.put(data) # else: # time.sleep(0.001) def _parse_worker(self): while True: try: data = self.raw_data_queue.get(timeout=0.1) # print("串口原始数据:", data.hex()) for byte in data: self.process_byte(byte) except queue.Empty: continue def process_byte(self, byte): """ 使用状态机逐字节解析帧结构。 """ # print(f"当前状态: {self.state}, 接收字节: {hex(byte)}") if self.state == 0: # 等待帧头 FF if byte == 0xFF: self.current_frame.append(byte) self.state = 1 else: # 如果不是帧头,忽略该字节 pass elif self.state == 1: # 等待帧头 55 if byte == 0x55: self.current_frame.append(byte) self.state = 2 else: # 如果第二字节不是55,重置 self.reset_state() elif self.state == 2: # 接收总长度低位 (第2字节) self.current_frame.append(byte) self.state = 3 elif self.state == 3: # 接收总长度高位 (第3字节) self.current_frame.append(byte) # 计算总长度(从第2字节开始) length_high = self.current_frame[2] length_low = byte self.expected_length = (length_high << 8) | length_low self.state = 4 elif self.state == 4: # 接收类型字段 (第4字节) self.current_frame.append(byte) self.state = 5 elif self.state == 5: # 接收保留字段 (第5字节) self.current_frame.append(byte) self.state = 6 elif self.state == 6: # 接收 CAN 通道类型 (第6字节) self.current_frame.append(byte) self.state = 7 elif self.state == 7: # 接收 CAN 报文个数 N (第7字节) self.current_frame.append(byte) self.num_messages = byte self.state = 8 self.messages_received = 0 elif self.state == 8: #接收can报文 self.current_frame.append(byte) self.messages_received += 1 if self.messages_received == self.num_messages * 12: self.state = 9 elif self.state == 9: # 接收校验位 self.current_frame.append(byte) if self.verify_checksum(): # print("完整帧数据:", self.current_frame.hex()) self.Frame_analoy_process(bytes(self.current_frame)) self.reset_state() else: print("校验失败,丢弃当前帧") self.reset_state() def verify_checksum(self): """ 验证校验和:从第2字节到倒数第二个字节之和 & 0xFF """ data_to_check = self.current_frame[2:-1] # 从第2字节到最后一个校验位之前 checksum = sum(data_to_check) & 0xFF return checksum == self.current_frame[-1] def reset_state(self): """ 重置状态机 """ self.state = 0 self.current_frame = bytearray() self.expected_length = 0 self.messages_received = 0 def set_filter_cycles(self, cycles): self.filter_cycles = cycles.copy() if cycles else [] #报文解析 def Frame_analoy_process(self, Framedata): # 检查帧类型 (0x0C 0x98) if len(Framedata) < 8 or Framedata[4] != 0x0C or Framedata[5] != 0x98: return try: FrameNum = int(Framedata[7]) except IndexError: return # 检查是否有足够数据 if len(Framedata) < 12 * FrameNum + 8: return current_time = time.time() # 获取当前精确时间戳 for index in range(0,FrameNum): # 时间戳 Cantime = datetime.now().strftime("%Y-%m-%d %H:%M:%S.%f")[:-3] try: id_bytes = [ Framedata[12 * index + 11], # LSB Framedata[12 * index + 10], Framedata[12 * index + 9], Framedata[12 * index + 8] # MSB ] except IndexError: continue # 格式化为8位大写十六进制 CanID = ''.join(format(b, '02X') for b in id_bytes) # 提取ID字节 CanFramType = "Cycle" Len = 8 CanDataSpace = '' PGNdata = '' PGNID = int(Framedata[12 * index + 9] ) + int(Framedata[12 * index + 10]* 0x100) PGNSignl = self.Frame_analoy_PGN_Signal(PGNID,Framedata[12 * index + 12:]) # 提取数据部分 PGNdata = ''.join( format(Framedata[12 * index + 12 + posindex], '02X') for posindex in range(8) ).upper() try: CanDataSpace = ' '.join( format(Framedata[12 * index + 12 + posindex], '02X') for posindex in range(8) ) except IndexError: continue current_data = CanDataSpace.split() if CanID in self.last_data_dict: last_data = self.last_data_dict[CanID].split() changed_indices = [] for i in range(min(len(last_data), len(current_data))): if last_data[i] != current_data[i]: changed_indices.append(i) self.changed_bytes_dict[CanID] = changed_indices else: self.changed_bytes_dict[CanID] = [] # 新ID无变化 self.last_data_dict[CanID] = CanDataSpace CanItemData = [Cantime, CanID, CanFramType, Len, CanDataSpace] # print(CanDataSpace) # ✅ 只有在白名单内的PGNID才处理PGN信号 # 获取当前PGN数据 current_pgn_data = PGNdata # 使用上面生成的两位格式数据 # 检查数据变化 if PGNID in self.last_pgn_data_dict: last_data = self.last_pgn_data_dict[PGNID] changed_indices = [] for i in range(min(len(last_data), len(current_pgn_data) // 2)): start_idx = i * 2 end_idx = start_idx + 2 if last_data[start_idx:end_idx] != current_pgn_data[start_idx:end_idx]: changed_indices.append(i) self.changed_pgn_bytes_dict[PGNID] = changed_indices else: self.changed_pgn_bytes_dict[PGNID] = [] # 新PGN ID无变化 self.last_pgn_data_dict[PGNID] = current_pgn_data if PGNID in self.allowed_pgn_ids: PGNSignl = self.Frame_analoy_PGN_Signal(PGNID, Framedata[12 * index + 12:]) SignalItemData = [hex(PGNID)[2:].upper(), CanID, PGNdata, PGNSignl] if all(not sublist for sublist in CanPGNItemList) or CanPGNItemList[0][0] == 0: if len(CanPGNItemList): CanPGNItemList.pop(0) CanPGNItemList.insert(0, SignalItemData) else: Listpos = self.find_in_2d_list(CanPGNItemList, CanID) if Listpos is not None: CanPGNItemList[Listpos[0]] = SignalItemData else: CanPGNItemList.append(SignalItemData) if CanID in self.last_frame_time: last_time = self.last_frame_time[CanID] cycle = (current_time - last_time) * 1000 # 转换为毫秒 if CanID =="18F00F52": print(cycle) if cycle > 10: if cycle<self.cycle_dict[CanID] : self.cycle_dict[CanID] = cycle elif self.cycle_dict[CanID] == 0 : self.cycle_dict[CanID] = cycle else: self.cycle_dict[CanID] = 0 # 首次出现,周期设为0 # if "0CF00400" in self.cycle_dict: # print(self.cycle_dict["0CF00400"]) self.last_frame_time[CanID] = current_time # 更新列表 filtered_cycles = getattr(self, 'filter_cycles', []) is_filtered = False if filtered_cycles: for filter_cycle in filtered_cycles: tolerance = filter_cycle * 0.15 # 允许±15%的容差 if abs(self.cycle_dict[CanID] - filter_cycle) <= tolerance: is_filtered = True break # 根据过滤状态更新相应的列表 if is_filtered: # 更新到filteredCanOBDItemList Listpos = self.find_in_2d_list(filteredCanOBDItemList, CanID) if Listpos is not None: filteredCanOBDItemList[Listpos[0]] = CanItemData self.data_updated_ids.add(CanID) else: filteredCanOBDItemList.append(CanItemData) self.new_added_ids.add(CanID) else: # 更新到CanOBDItemList Listpos = self.find_in_2d_list(CanOBDItemList, CanID) if Listpos is not None: CanOBDItemList[Listpos[0]] = CanItemData self.data_updated_ids.add(CanID) else: CanOBDItemList.append(CanItemData) self.new_added_ids.add(CanID) # self.last_data_time = time.time() # 解析到有效帧时更新时间 def find_in_2d_list(self,matrix, target): for i, row in enumerate(matrix): if any(x == target for x in row): return (i, row.index(target)) # 使用row.index()找到具体列的索引 return None def Frame_analoy_PGN_Signal(self, PGNID, Framedata): # 确保数据是整数列表(0-255) if not all(isinstance(x, int) for x in Framedata): Framedata = [int(x) for x in Framedata] # 根据J1939规范解析 if PGNID == 0xFEF1: # 车速 (CCVS1) # 位置2-3 (索引1-2),大端序,单位1/256 km/h raw_val = (Framedata[1] << 8) | Framedata[2] return raw_val / 256.0 elif PGNID == 0xFE6C: # 车速 (TCO1) - 新增 # 位置7-8 (索引6-7),大端序,单位1/256 km/h raw_val = (Framedata[6] << 8) | Framedata[7] return raw_val / 256.0 elif PGNID == 0xF004: # 发动机转速+负载 # 负载:位置3 (索引2),单位1% engine_load = Framedata[2] & 0x7F # 取7位 # 转速:位置4-5 (索引3-4),大端序,单位0.125 RPM raw_rpm = (Framedata[3] << 8) | Framedata[4] rpm = raw_rpm * 0.125 return f'{engine_load}|{rpm}' elif PGNID == 0xFEC1: # 里程表 (VDHR) # 位置1-4 (索引0-3),大端序,单位0.125米 raw_val = int(Framedata[3] * 0x1000000) + int(Framedata[2] * 0x10000) + int(Framedata[1] * 0x100) + int(Framedata[0]) return raw_val * 0.125 # 转换为米 elif PGNID == 0xFEE5: # 发动机小时数 # 位置1-4 (索引0-3),大端序,单位0.05小时 raw_val = (Framedata[0] << 24) | (Framedata[1] << 16) | (Framedata[2] << 8) | Framedata[3] return raw_val * 0.05 elif PGNID == 0xFEF2: # 平均油耗 # 位置1-2 (索引0-1),大端序,单位0.05 L/h raw_val = (Framedata[0] << 8) | Framedata[1] return raw_val * 0.05 elif PGNID == 0xFEEE: # 冷却液温度 # 位置1 (索引0),单位1°C,偏移-40 return Framedata[0] - 40 elif PGNID == 0xFE56: # 燃油液位 # 位置1 (索引0),单位0.4% return Framedata[0] * 0.4 elif PGNID == 0xF005: # 档位 # 位置4 (索引3),直接返回值 return Framedata[3] return None # def start_reading(self): # self.read_thread = threading.Thread(target=self.Com_read_frame, daemon=True) # self.read_thread.start() 这是serialpro文件 下面是这段程序接收周期为50ms的单一canid数据时,cycle的输出结果,现在程序的cycle只是原始地输出上一次接收到该帧与当前的间隔,没有用到下面一行的比较。经过测试程序一帧发送一个报文,并且没有丢包,那么为什么输出的cycle一部分对应不上50ms的周期? 48.86651039123535 99.73454475402832 89.76054191589355 89.76078033447266 90.75760841369629 59.84067916870117 89.76030349731445 89.75982666015625 89.76888656616211 90.75021743774414 59.84067916870117 89.76006507873535 89.76149559020996 90.75736999511719 89.76030349731445 89.76054191589355 89.76078033447266 90.75760841369629 89.76054191589355 89.76078033447266 49.866676330566406 89.76078033447266 90.76213836669922 99.72953796386719 89.76078033447266 49.86906051635742
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