import time from PyQt5.QtCore import * from PyQt5.QtGui import * from PyQt5.QtWidgets import * from ScanUtils import CRC8 from ScanUtils.ui.VersionSet import Ui_Form softwareIconPath = r'./pic/scan.png' # class MySlot(QObject): # def get(self,msg): # print("信息" + msg) class VersionSet(QWidget): #自定义信号 mySignal = pyqtSignal(str) # def run1(self): # self.mySignal.emit('Hello PyQt5') def __init__(self, parent = None, closeToDlg = None): '''构造函数''' super(VersionSet, self).__init__(parent) self.ui = Ui_Form() self.ui.setupUi(self) self.setWindowIcon(QIcon(softwareIconPath)) self.setWindowTitle("生产物料扫码记录") self.setWindowFlags(self.windowFlags() | Qt.CustomizeWindowHint)#QtCore.Qt.WindowStaysOnTopHint顶层显示 #禁用最小化 # self.setWindowFlags(self.windowFlags() & ~Qt.WindowMinimizeButtonHint) #禁用最大化 # self.setWindowFlags(self.windowFlags() & ~Qt.WindowMaximizeButtonHint) #禁止拉伸窗口大小 # self.setFixedSize(self.width(), self.height()) self.closeToDlg = closeToDlg self.widgetInit() # 设置参数 def getParamDict(self, newRule = True): paramDict = {} if newRule:#新规则2023年4月20日 paramDict['芯片主版本'] = (('HX02', 2), ('HX03', 3))#4位 paramDict['芯片次版本'] = (('第1版(A)', 1), ('第2版(B)', 2), ('第3版(C)', 3), ('第4版(D)', 4), ('第5版(E)', 5))#4位 paramDict['数字电容容值'] = (('无电容', 0), ('1uF', 1), ('4.7uF', 2), ('10uF', 3), ('22uF', 4), ('33uF', 5), ('47uF', 6), ('68uF', 7), ('100uF', 8))#4位 # 2022年9月28日由3位扩展到5位 paramDict['数字电容品牌'] = (('试验品牌', 0), ('AVX', 1), ('Vishay', 2), ('Sunlord', 3), ('火炬', 4), ('湘江', 5), ('振华', 6), ('丰华', 7), ('国巨', 8)) paramDict['电容耐压'] = (('16V', 0), ('20V', 1), ('25V', 2))#3位 paramDict['起爆电容容值'] = (('无电容', 0), ('33uF', 1), ('47uF', 2), ('68uF', 3), ('100uF', 4), ('220uF', 5))#3位 paramDict['起爆电容品牌'] = (('试验品牌', 0), ('AVX', 1), ('Vishay', 2), ('Sunlord', 3))#3位 paramDict['引火件形式'] = (('无', 0), ('焊接刚性药头', 1), ('贴片刚性药头', 2), ('贴片发热电阻', 3), ('碗状电阻器', 4))#3位 paramDict['桥丝规格'] = (('16um(7.9~8.6欧)', 0), ('2欧姆', 1))#5位 paramDict['脚线焊接方式'] = (('无孔焊接', 0), ('有孔焊接', 1), ('铭威铆接', 2), ('创德铆接', 3))#4位 paramDict['PCB供应商'] = (('丰达兴', 0), ('闽威', 1)) else:#旧规则 paramDict['芯片主版本'] = (('HX02', 2), ('HX03', 3)) # 4位 paramDict['芯片次版本'] = (('第1版(A)', 1), ('第2版(B)', 2), ('第3版(C)', 3), ('第4版(D)', 4), ('第5版(E)', 5)) # 4位 paramDict['数字电容容值'] = ( ('无电容', 0), ('1uF', 1), ('4.7uF', 2), ('10uF', 3), ('22uF', 4), ('33uF', 5), ('47uF', 6), ('68uF', 7), ('100uF', 8)) # 4位 # 2022年9月28日由3位扩展到5位 paramDict['数字电容品牌'] = ( ('AVX', 1), ('Vishay', 2), ('Sunlord', 3), ('火炬', 4), ('湘江', 5), ('振华', 6), ('丰华', 7), ('国巨', 8)) paramDict['数字电容耐压'] = (('16V', 0), ('20V', 1), ('25V', 2)) # 3位 paramDict['起爆电容容值'] = (('无电容', 0), ('33uF', 1), ('47uF', 2), ('68uF', 3), ('100uF', 4)) # 3位 paramDict['起爆电容品牌'] = (('AVX', 1), ('Vishay', 2), ('Sunlord', 3)) # 3位 paramDict['起爆电容耐压'] = (('16V', 0), ('20V', 1), ('25V', 2)) # 3位 paramDict['引火件形式'] = (('无', 0), ('焊接刚性药头', 1), ('贴片刚性药头', 2), ('贴片发热电阻', 3), ('碗状电阻器', 4)) # 3位 paramDict['桥丝规格'] = (('16um(7.9~8.6欧)', 0), ('2欧姆', 1)) # 5位 paramDict['脚线焊接方式'] = (('焊接(有孔)', 1), ('铆接', 2), ('焊接(无孔)', 3)) # 4位 return paramDict # 初始化: def widgetInit(self): paramDict = self.getParamDict(True) for item in paramDict['芯片主版本']: self.ui.chipVer_1.addItem(item[0]) for item in paramDict['芯片次版本']: self.ui.chipVer_2.addItem(item[0]) for item in paramDict['数字电容容值']: self.ui.workCapValue.addItem(item[0]) for item in paramDict['数字电容品牌']: self.ui.workCapVender.addItem(item[0]) for item in paramDict['起爆电容容值']: self.ui.blastCapValue.addItem(item[0]) for item in paramDict['起爆电容品牌']: self.ui.blastCapVender.addItem(item[0]) for item in paramDict['电容耐压']: self.ui.capVoltage.addItem(item[0]) for item in paramDict['引火件形式']: self.ui.bridgeType.addItem(item[0]) for item in paramDict['桥丝规格']: self.ui.bridgeValue.addItem(item[0]) for item in paramDict['PCB供应商']: self.ui.pcbVender.addItem(item[0]) for item in range(32): self.ui.pcbVer.addItem(str(item).zfill(2))#5位 for item in paramDict['脚线焊接方式']: self.ui.lineType.addItem(item[0]) self.setDefault() self.updateStatus() self.ui.chipVer_1.activated.connect(self.updateStatus) self.ui.chipVer_2.activated.connect(self.updateStatus) self.ui.workCapValue.activated.connect(self.updateStatus) self.ui.workCapVender.activated.connect(self.updateStatus) self.ui.blastCapValue.activated.connect(self.updateStatus) self.ui.blastCapVender.activated.connect(self.updateStatus) self.ui.capVoltage.activated.connect(self.updateStatus) self.ui.bridgeType.activated.connect(self.updateStatus) self.ui.bridgeValue.activated.connect(self.updateStatus) self.ui.pcbVender.activated.connect(self.updateStatus) self.ui.pcbVer.activated.connect(self.updateStatus) self.ui.lineType.activated.connect(self.updateStatus) self.ui.productDate.dateChanged.connect(self.updateStatus) # self.ui.copy.clicked.connect(self.copySolf) self.ui.commit.clicked.connect(self.open_ScanInput) # self.ui.read.clicked.connect(self.readSolf # self.ui.write.clicked.connect(self.writeSolf) # self.ui.analyst.clicked.connect(self.analystSolf). # 打开窗口 def open_ScanInput(self): versionCode= self.ui.versionCode.text() productDate = self.ui.productDate.text() from ScanUtils.ScanInput import ScanInput self.ScanInput_ui = ScanInput(versionCode,productDate) #self.ScanInput_ui.ui.versionCode.setText(versionCode) # self.ScanInput_ui.ui.Deliverydate.setText(productDate) self.ScanInput_ui.show() def setDefault(self): self.ui.workCapValue.setCurrentIndex(4)#默认22uF self.ui.workCapVender.setCurrentIndex(6)#默认振华 self.ui.blastCapValue.setCurrentIndex(1)#默认33uF self.ui.blastCapVender.setCurrentIndex(2)#默认Vishay self.ui.chipVer_1.setCurrentIndex(1) self.ui.chipVer_2.setCurrentIndex(4) self.ui.bridgeType.setCurrentIndex(4) self.ui.lineType.setCurrentIndex(0) self.ui.productDate.setDate(QDate.currentDate()) def paramStr2Value(self, content, paramList): for item in paramList: if content == item[0]: return item[1] return None def paramValue2Str(self, value, paramList): for item in paramList: if value == item[1]: return item[0] return None # 版本号 def getCurrentParam(self): paramDict = self.getParamDict(True) chipVer_1 = self.paramStr2Value(self.ui.chipVer_1.currentText(), paramDict['芯片主版本']) chipVer_2 = self.paramStr2Value(self.ui.chipVer_2.currentText(), paramDict['芯片次版本']) workCapVender = self.paramStr2Value(self.ui.workCapVender.currentText(), paramDict['数字电容品牌']) workCapValue = self.paramStr2Value(self.ui.workCapValue.currentText(), paramDict['数字电容容值']) blastCapVender = self.paramStr2Value(self.ui.blastCapVender.currentText(), paramDict['起爆电容品牌']) blastCapValue = self.paramStr2Value(self.ui.blastCapValue.currentText(), paramDict['起爆电容容值']) capVoltage = self.paramStr2Value(self.ui.capVoltage.currentText(), paramDict['电容耐压']) bridgeType = self.paramStr2Value(self.ui.bridgeType.currentText(), paramDict['引火件形式']) bridgeValue = self.paramStr2Value(self.ui.bridgeValue.currentText(), paramDict['桥丝规格']) pcbVender = self.paramStr2Value(self.ui.pcbVender.currentText(), paramDict['PCB供应商']) pcbVer = int(self.ui.pcbVer.currentText()) lineType = self.paramStr2Value(self.ui.lineType.currentText(), paramDict['脚线焊接方式']) productDate = self.ui.productDate.date()#发料日期 U64Value = chipVer_1 & 0x0F #芯片主版本号共4位,bit0-3 U64Value |= (chipVer_2 & 0x0F) << 4#芯片次版本号共4位,bit4-7 U64Value |= (workCapVender & 0x1F) << 8 #数字电容品牌共5位 ,bit8-12 U64Value |= (workCapValue & 0x0F) << 13 #数字电容容量共4位 ,bit13-16 U64Value |= (blastCapVender & 0x07) << 17 #起爆电容品牌共3位 ,bit17-19 U64Value |= (blastCapValue & 0x07) << 20 #起爆电容容量共3位 ,bit20-22 U64Value |= (capVoltage & 0x07) << 23 #电容耐压共3位 ,bit23-25 U64Value |= (bridgeType & 0x07) << 26 #引火件形式共3位 ,bit26-28 U64Value |= (bridgeValue & 0x1F) << 29 #桥丝规格共5位 ,bit29-33 U64Value |= (pcbVer & 0x1F) << 34 #PCB版本流水号共5位 ,bit34-38 U64Value |= (pcbVender & 0x03) << 39 #PCB供应商共2位 ,bit39-40 U64Value |= (lineType & 0x07) << 41 #脚线焊接方式共3位 ,bit41-43 U64Value |= (((productDate.year()-2020)*12 + (productDate.month()-1)) & 0x7F) << 44 # 发料日期中的年月共7位 ,bit44-50 U64Value |= (productDate.day() & 0x1F) << 51 # 发料日期中的日共5位 ,bit51-55 # print(hex(U64Value)) Bytes_0 = U64Value & 0xFF Bytes_1 = (U64Value >> 8) & 0xFF Bytes_2 = (U64Value >> 16) & 0xFF Bytes_3 = (U64Value >> 24) & 0xFF Bytes_4 = (U64Value >> 32) & 0xFF Bytes_5 = (U64Value >> 40) & 0xFF Bytes_6 = (U64Value >> 48) & 0xFF hexStr = '%02X%02X%02X%02X%02X%02X%02X' % (Bytes_0, Bytes_1, Bytes_2, Bytes_3, Bytes_4, Bytes_5, Bytes_6) hexStr += '%02X' % ((~CRC8.getCrc8(bytearray.fromhex(hexStr))) & 0xFF) return hexStr def updateStatus(self, param= None): status = True if self.ui.workCapValue.currentText() == "无电容": status = False self.ui.workCapVender.setEnabled(status) status = True if self.ui.blastCapValue.currentText() == "无电容": status = False self.ui.blastCapVender.setEnabled(status) self.ui.versionCode.setText(self.getCurrentParam()) def showVersion(self, hexStr): if len(hexStr) == 16 and hexStr[12:14] == "00": self.showVersionForOldRule(hexStr) else: self.showVersionForNewRule(hexStr) def showVersionForOldRule(self, hexStr): result, infos = self.getVersionInfosForOldRule(hexStr) if not result: QMessageBox.critical(self, '错误', '{0}'.format(infos)) return contents = [] key = '延期模块版本代码' contents.append("{0}:{1}".format(key, infos[key])) key = '芯片主版本' contents.append("\n{0}:{1}".format(key, infos[key])) key = '芯片次版本' contents.append("{0}:{1}".format(key, infos[key])) key = '数字电容品牌' contents.append("\n{0}:{1}".format(key, infos[key])) key = '数字电容容值' contents.append("{0}:{1}".format(key, infos[key])) key = '数字电容耐压' contents.append("{0}:{1}".format(key, infos[key])) key = '起爆电容品牌' contents.append("\n{0}:{1}".format(key, infos[key])) key = '起爆电容容值' contents.append("{0}:{1}".format(key, infos[key])) key = '起爆电容耐压' contents.append("{0}:{1}".format(key, infos[key])) key = '引火件形式' contents.append("\n{0}:{1}".format(key, infos[key])) key = '桥丝规格' contents.append("{0}:{1}".format(key, infos[key])) key = 'PCB版本流水号' contents.append("\n{0}:{1}".format(key, infos[key])) key = '脚线焊接方式' contents.append("{0}:{1}".format(key, infos[key])) QMessageBox.information(self, '信息(旧规则)', '\n'.join(contents)) def getVersionInfosForOldRule(self, versionHexStr): if not versionHexStr or len(versionHexStr) != 16: return False, '{0}\n请输入16位16进制数'.format(versionHexStr) try: verBytes = bytearray.fromhex(versionHexStr) except Exception as e: return False, '{0}\n请输入16位16进制数'.format(versionHexStr) crc8 = (~CRC8.getCrc8(verBytes[:-1])) & 0xFF if crc8 != verBytes[-1]: return False, '{0}\n校验值错误'.format(versionHexStr) U64Value = 0 U64Value |= verBytes[6]&0xFF U64Value <<= 8 U64Value |= verBytes[5]&0xFF U64Value <<= 8 U64Value |= verBytes[4]&0xFF U64Value <<= 8 U64Value |= verBytes[3]&0xFF U64Value <<= 8 U64Value |= verBytes[2]&0xFF U64Value <<= 8 U64Value |= verBytes[1]&0xFF U64Value <<= 8 U64Value |= verBytes[0]&0xFF paramDict = self.getParamDict(False) infos = {} infos['延期模块版本代码'] = versionHexStr key = '芯片主版本' value = U64Value & 0x0F chipVer_1 = self.paramValue2Str(value, paramDict[key]) if chipVer_1 == None: chipVer_1 = '未知({0})'.format(value) infos[key] = chipVer_1 key = '芯片次版本' value = (U64Value >> 4) & 0x0F chipVer_2 = self.paramValue2Str(value, paramDict[key]) if chipVer_2 == None: chipVer_2 = '未知({0})'.format(value) infos[key] = chipVer_2 key = '数字电容品牌' value = (((U64Value >> 46) & 0x03)<<3) + ((U64Value >> 8) & 0x07)#2022年9月28日由3位扩展到5位 workCapVender = self.paramValue2Str(value, paramDict[key]) if workCapVender == None: workCapVender = '未知({0})'.format(value) infos[key] = workCapVender key = '数字电容容值' value = (U64Value >> 11) & 0x0F workCapValue = self.paramValue2Str(value, paramDict[key]) if workCapValue == None: workCapValue = '未知({0})'.format(value) infos[key] = workCapValue key = '数字电容耐压' value = (U64Value >> 15) & 0x07 workCapVoltage = self.paramValue2Str(value, paramDict[key]) if workCapVoltage == None: workCapVoltage = '未知({0})'.format(value) infos[key] = workCapVoltage key = '起爆电容品牌' value = (U64Value >> 18) & 0x07 blastVender = self.paramValue2Str(value, paramDict[key]) if blastVender == None: blastVender = '未知({0})'.format(value) infos[key] = blastVender key = '起爆电容容值' value = (U64Value >> 21) & 0x07 blastCapValue = self.paramValue2Str(value, paramDict[key]) if blastCapValue == None: blastCapValue = '未知({0})'.format(value) infos[key] = blastCapValue key = '起爆电容耐压' value = (U64Value >> 24) & 0x07 blastCapVoltage = self.paramValue2Str(value, paramDict[key]) if blastCapVoltage == None: blastCapVoltage = '未知({0})'.format(value) infos[key] = blastCapVoltage key = '引火件形式' value = (U64Value >> 27) & 0x07 bridgeType = self.paramValue2Str(value, paramDict[key]) if bridgeType == None: bridgeType = '未知({0})'.format(value) infos[key] = bridgeType key = '桥丝规格' value = (U64Value >> 30) & 0x1F bridgeValue = self.paramValue2Str(value, paramDict[key]) if bridgeValue == None: bridgeValue = '未知({0})'.format(value) infos[key] = bridgeValue infos['PCB版本流水号'] = str((U64Value >> 35) & 0x7F).zfill(2) key = '脚线焊接方式' value = (U64Value >> 42) & 0x0F lineType = self.paramValue2Str(value, paramDict[key]) if lineType == None: lineType = '未知({0})'.format(value) infos[key] = lineType return True, infos def showVersionForNewRule(self, hexStr): result, infos = self.getVersionInfosForNewRule(hexStr) if not result: QMessageBox.critical(self, '错误', '{0}'.format(infos)) return contents = [] key = '延期模块版本代码' contents.append("{0}:{1}".format(key, infos[key])) key = '芯片主版本' contents.append("\n{0}:{1}".format(key, infos[key])) key = '芯片次版本' contents.append("{0}:{1}".format(key, infos[key])) key = '数字电容品牌' contents.append("\n{0}:{1}".format(key, infos[key])) key = '数字电容容值' contents.append("{0}:{1}".format(key, infos[key])) key = '起爆电容品牌' contents.append("\n{0}:{1}".format(key, infos[key])) key = '起爆电容容值' contents.append("{0}:{1}".format(key, infos[key])) key = '电容耐压' contents.append("\n{0}:{1}".format(key, infos[key])) key = '引火件形式' contents.append("\n{0}:{1}".format(key, infos[key])) key = '桥丝规格' contents.append("{0}:{1}".format(key, infos[key])) key = 'PCB供应商' contents.append("\n{0}:{1}".format(key, infos[key])) key = 'PCB版本流水号' contents.append("{0}:{1}".format(key, infos[key])) key = '脚线焊接方式' contents.append("{0}:{1}".format(key, infos[key])) key = '发料日期' contents.append("\n{0}:{1}".format(key, infos[key])) QMessageBox.information(self, '信息', '\n'.join(contents)) def getVersionInfosForNewRule(self, versionHexStr): if not versionHexStr or len(versionHexStr) != 16: return False, '{0}\n请输入16位16进制数'.format(versionHexStr) try: verBytes = bytearray.fromhex(versionHexStr) except Exception as e: return False, '{0}\n请输入16位16进制数'.format(versionHexStr) crc8 = (~CRC8.getCrc8(verBytes[:-1])) & 0xFF if crc8 != verBytes[-1]: return False, '{0}\n校验值错误'.format(versionHexStr) U64Value = 0 U64Value |= verBytes[6]&0xFF U64Value <<= 8 U64Value |= verBytes[5]&0xFF U64Value <<= 8 U64Value |= verBytes[4]&0xFF U64Value <<= 8 U64Value |= verBytes[3]&0xFF U64Value <<= 8 U64Value |= verBytes[2]&0xFF U64Value <<= 8 U64Value |= verBytes[1]&0xFF U64Value <<= 8 U64Value |= verBytes[0]&0xFF infos = {} infos['延期模块版本代码'] = versionHexStr paramDict = self.getParamDict(True) key = '芯片主版本'#芯片主版本号共4位,bit0-3 value = U64Value & 0x0F chipVer_1 = self.paramValue2Str(value, paramDict[key]) if chipVer_1 == None: chipVer_1 = '未知({0})'.format(value) infos[key] = chipVer_1 key = '芯片次版本'#芯片次版本号共4位,bit4-7 value = (U64Value >> 4) & 0x0F chipVer_2 = self.paramValue2Str(value, paramDict[key]) if chipVer_2 == None: chipVer_2 = '未知({0})'.format(value) infos[key] = chipVer_2 key = '数字电容品牌'#数字电容品牌共5位 ,bit8-12 value = (U64Value >> 8) & 0x1F workCapVender = self.paramValue2Str(value, paramDict[key]) if workCapVender == None: workCapVender = '未知({0})'.format(value) infos[key] = workCapVender key = '数字电容容值'#数字电容容量共4位 ,bit13-16 value = (U64Value >> 13) & 0x0F workCapValue = self.paramValue2Str(value, paramDict[key]) if workCapValue == None: workCapValue = '未知({0})'.format(value) infos[key] = workCapValue key = '起爆电容品牌'#起爆电容品牌共3位 ,bit17-19 value = (U64Value >> 17) & 0x07 blastVender = self.paramValue2Str(value, paramDict[key]) if blastVender == None: blastVender = '未知({0})'.format(value) infos[key] = blastVender key = '起爆电容容值'#起爆电容容量共3位 ,bit20-22 value = (U64Value >> 20) & 0x07 blastCapValue = self.paramValue2Str(value, paramDict[key]) if blastCapValue == None: blastCapValue = '未知({0})'.format(value) infos[key] = blastCapValue key = '电容耐压'#电容耐压共3位 ,bit23-25 value = (U64Value >> 23) & 0x07 blastCapVoltage = self.paramValue2Str(value, paramDict[key]) if blastCapVoltage == None: blastCapVoltage = '未知({0})'.format(value) infos[key] = blastCapVoltage key = '引火件形式'#引火件形式共3位 ,bit26-28 value = (U64Value >> 26) & 0x07 bridgeType = self.paramValue2Str(value, paramDict[key]) if bridgeType == None: bridgeType = '未知({0})'.format(value) infos[key] = bridgeType key = '桥丝规格'#桥丝规格共5位 ,bit29-33 value = (U64Value >> 29) & 0x1F bridgeValue = self.paramValue2Str(value, paramDict[key]) if bridgeValue == None: bridgeValue = '未知({0})'.format(value) infos[key] = bridgeValue infos['PCB版本流水号'] = str((U64Value >> 34) & 0x1F).zfill(2)#PCB版本流水号共5位 ,bit34-38 key = 'PCB供应商'# PCB供应商共2位 ,bit39-40 value = (U64Value >> 39) & 0x03 bridgeValue = self.paramValue2Str(value, paramDict[key]) if bridgeValue == None: bridgeValue = '未知({0})'.format(value) infos[key] = bridgeValue key = '脚线焊接方式'#脚线焊接方式共3位 ,bit41-43 value = (U64Value >> 41) & 0x07 lineType = self.paramValue2Str(value, paramDict[key]) if lineType == None: lineType = '未知({0})'.format(value) infos[key] = lineType # 发料日期中的年月共7位 ,bit44-50 # 发料日期中的日共5位 ,bit51-55 yearAndMonth = (U64Value >> 44) & 0x7F yaer = yearAndMonth//12 month = 1+ (yearAndMonth%12) day = (U64Value >> 51) & 0x1F infos['发料日期'] = "%04d年%d月%d日"%(2020+yaer, month, day) return True, infos def closeEvent(self, QCloseEvent): if self.closeToDlg != None: self.closeToDlg.show() if __name__ == '__main__': import sys app = QApplication(sys.argv) ui = VersionSet() ui.show() sys.exit(app.exec_())