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Diffstat (limited to 'src/kicadtoNgspice/KicadtoNgspice.py.bkp')
| -rw-r--r-- | src/kicadtoNgspice/KicadtoNgspice.py.bkp | 671 |
1 files changed, 0 insertions, 671 deletions
diff --git a/src/kicadtoNgspice/KicadtoNgspice.py.bkp b/src/kicadtoNgspice/KicadtoNgspice.py.bkp deleted file mode 100644 index c262f564..00000000 --- a/src/kicadtoNgspice/KicadtoNgspice.py.bkp +++ /dev/null @@ -1,671 +0,0 @@ -#=============================================================================== -# -# FILE: kicadtoNgspice.py -# -# USAGE: --- -# -# DESCRIPTION: This define all configuration used in Application. -# -# OPTIONS: --- -# REQUIREMENTS: --- -# BUGS: --- -# NOTES: --- -# AUTHOR: Fahim Khan, fahim.elex@gmail.com -# ORGANIZATION: eSim team at FOSSEE, IIT Bombay. -# CREATED: Wednesday 04 March 2015 -# REVISION: --- -#=============================================================================== -import sys -import os -#Setting PYTHONPATH -cwd = os.getcwd() -(setPath,fronEnd) = os.path.split(cwd) -sys.path.append(setPath) - -from PyQt4 import QtGui,QtCore -from Processing import PrcocessNetlist -import Analysis -import Source -import Model -import DeviceModel -import SubcircuitTab -import Convert -import TrackWidget - -from xml.etree import ElementTree as ET - - - -class MainWindow(QtGui.QWidget): - """ - This class create KicadtoNgspice window. - And Call Convert function if convert button is pressed. - The convert function takes all the value entered by user and create a final netlist "*.cir.out". - This final netlist is compatible with NgSpice. - """ - def __init__(self): - QtGui.QWidget.__init__(self) - #Create object of track widget - self.obj_track = TrackWidget.TrackWidget() - """ - Checking if any unknown model is used in schematic which is not recognized by NgSpice. - Also if the two model of same name is present under modelParamXML directory - """ - if unknownModelList: - print "Unknown Model List is : ",unknownModelList - self.msg = QtGui.QErrorMessage() - self.content = "Your schematic contain unknown model "+', '.join(unknownModelList) - self.msg.showMessage(self.content) - self.msg.setWindowTitle("Unknown Models") - - elif multipleModelList: - print "Multiple Model List is : ",multipleModelList - self.msg = QtGui.QErrorMessage() - self.mcontent = "Look like you have duplicate model in modelParamXML directory "+', '.join(multipleModelList[0]) - self.msg.showMessage(self.mcontent) - self.msg.setWindowTitle("Multiple Models") - - else: - self.createMainWindow() - - - def createMainWindow(self): - """ - This function create main window of Kicad to Ngspice converter - """ - - self.grid = QtGui.QGridLayout(self) - self.convertbtn = QtGui.QPushButton("Convert") - self.convertbtn.clicked.connect(self.callConvert) - self.cancelbtn = QtGui.QPushButton("Cancel") - self.cancelbtn.clicked.connect(self.close) - self.grid.addWidget(self.createcreateConvertWidget(),0,0) - self.grid.addWidget(self.convertbtn,1,1) - self.grid.addWidget(self.cancelbtn,1,2) - self.setWindowState(QtCore.Qt.WindowMaximized) - self.setLayout(self.grid) - self.setWindowTitle("Kicad To NgSpice Converter") - self.show() - - - def createcreateConvertWidget(self): - global obj_analysis - self.convertWindow = QtGui.QWidget() - self.analysisTab = QtGui.QScrollArea() - obj_analysis=Analysis.Analysis() - self.analysisTab.setWidget(obj_analysis) - #self.analysisTabLayout = QtGui.QVBoxLayout(self.analysisTab.widget()) - self.analysisTab.setWidgetResizable(True) - global obj_source - self.sourceTab = QtGui.QScrollArea() - obj_source=Source.Source(sourcelist,sourcelisttrack) - self.sourceTab.setWidget(obj_source) - #self.sourceTabLayout = QtGui.QVBoxLayout(self.sourceTab.widget()) - self.sourceTab.setWidgetResizable(True) - global obj_model - self.modelTab = QtGui.QScrollArea() - obj_model=Model.Model(schematicInfo,modelList) - self.modelTab.setWidget(obj_model) - #self.modelTabLayout = QtGui.QVBoxLayout(self.modelTab.widget()) - self.modelTab.setWidgetResizable(True) - global obj_devicemodel - self.deviceModelTab = QtGui.QScrollArea() - obj_devicemodel=DeviceModel.DeviceModel(schematicInfo) - self.deviceModelTab.setWidget(obj_devicemodel) - self.deviceModelTab.setWidgetResizable(True) - global obj_subcircuitTab - self.subcircuitTab = QtGui.QScrollArea() - obj_subcircuitTab = SubcircuitTab.SubcircuitTab(schematicInfo) - self.subcircuitTab.setWidget(obj_subcircuitTab) - self.subcircuitTab.setWidgetResizable(True) - - self.tabWidget = QtGui.QTabWidget() - #self.tabWidget.TabShape(QtGui.QTabWidget.Rounded) - self.tabWidget.addTab(self.analysisTab,"Analysis") - self.tabWidget.addTab(self.sourceTab,"Source Details") - self.tabWidget.addTab(self.modelTab,"NgSpice Model") - self.tabWidget.addTab(self.deviceModelTab,"Device Modeling") - self.tabWidget.addTab(self.subcircuitTab,"Subcircuits") - self.mainLayout = QtGui.QVBoxLayout() - self.mainLayout.addWidget(self.tabWidget) - #self.mainLayout.addStretch(1) - self.convertWindow.setLayout(self.mainLayout) - self.convertWindow.show() - - - return self.convertWindow - - def callConvert(self): - """ - Calling Convert Class Constructor - """ - global schematicInfo - global analysisoutput - kicadFile = sys.argv[1] - (projpath,filename)=os.path.split(kicadFile) - project_name=os.path.basename(projpath) - print "PROJ PATH---",projpath - - - check=1 - try: - fr=open(os.path.join(projpath,project_name+"_Previous_Values.xml"),'r') - temp_tree=ET.parse(fr) - temp_root=temp_tree.getroot() - except: - check=0 - - - - fw=open(os.path.join(projpath,project_name+"_Previous_Values.xml"),'w') - if check==0: - attr_parent=ET.Element("KicadtoNgspice") - if check==1: - attr_parent=temp_root - - for child in attr_parent: - if child.tag=="analysis": - attr_parent.remove(child) - - attr_analysis=ET.SubElement(attr_parent,"analysis") - attr_ac=ET.SubElement(attr_analysis,"ac") - if obj_analysis.Lin.isChecked(): - ET.SubElement(attr_ac,"field1",name="Lin").text="true" - ET.SubElement(attr_ac,"field2",name="Dec").text="false" - ET.SubElement(attr_ac,"field3",name="Oct").text="false" - elif obj_analysis.Dec.isChecked(): - ET.SubElement(attr_ac,"field1",name="Lin").text="false" - ET.SubElement(attr_ac,"field2",name="Dec").text="true" - ET.SubElement(attr_ac,"field3",name="Oct").text="false" - if obj_analysis.Oct.isChecked(): - ET.SubElement(attr_ac,"field1",name="Lin").text="false" - ET.SubElement(attr_ac,"field2",name="Dec").text="false" - ET.SubElement(attr_ac,"field3",name="Oct").text="true" - else: - pass - ET.SubElement(attr_ac,"field4",name="Start Frequency").text= str(obj_analysis.ac_entry_var[0].text()) - ET.SubElement(attr_ac,"field5",name="Stop Frequency").text= str(obj_analysis.ac_entry_var[1].text()) - ET.SubElement(attr_ac,"field6",name="No. of points").text= str(obj_analysis.ac_entry_var[2].text()) - ET.SubElement(attr_ac,"field7",name="Start Fre Combo").text= obj_analysis.ac_parameter[0] - ET.SubElement(attr_ac,"field8",name="Stop Fre Combo").text= obj_analysis.ac_parameter[1] - attr_dc=ET.SubElement(attr_analysis,"dc") - ET.SubElement(attr_dc,"field1",name="Source Name").text= str(obj_analysis.dc_entry_var[0].text()) - ET.SubElement(attr_dc,"field2",name="Start").text= str(obj_analysis.dc_entry_var[1].text()) - ET.SubElement(attr_dc,"field3",name="Increment").text= str(obj_analysis.dc_entry_var[2].text()) - ET.SubElement(attr_dc,"field4",name="Stop").text= str(obj_analysis.dc_entry_var[3].text()) - ET.SubElement(attr_dc,"field5",name="Operating Point").text=str(obj_analysis.check.isChecked()) - print "OBJ_ANALYSIS.CHECK -----",obj_analysis.check.isChecked() - ET.SubElement(attr_dc,"field6",name="Start Combo").text= obj_analysis.dc_parameter[0] - ET.SubElement(attr_dc,"field7",name="Increment Combo").text=obj_analysis.dc_parameter[1] - ET.SubElement(attr_dc,"field8",name="Stop Combo").text= obj_analysis.dc_parameter[2] - attr_tran=ET.SubElement(attr_analysis,"tran") - ET.SubElement(attr_tran,"field1",name="Start Time").text= str(obj_analysis.tran_entry_var[0].text()) - ET.SubElement(attr_tran,"field2",name="Step Time").text= str(obj_analysis.tran_entry_var[1].text()) - ET.SubElement(attr_tran,"field3",name="Stop Time").text= str(obj_analysis.tran_entry_var[2].text()) - ET.SubElement(attr_tran,"field4",name="Start Combo").text= obj_analysis.tran_parameter[0] - ET.SubElement(attr_tran,"field5",name="Step Combo").text= obj_analysis.tran_parameter[1] - ET.SubElement(attr_tran,"field6",name="Stop Combo").text= obj_analysis.tran_parameter[2] - print "TRAN PARAMETER 2-----",obj_analysis.tran_parameter[2] - - #tree=ET.ElementTree(attr_analysis) - #tree.write(f) - - - if check==0: - attr_source=ET.SubElement(attr_parent,"source") - if check==1: - for child in attr_parent: - if child.tag=="source": - attr_source=child - count=1 - grand_child_count=1 - #global tmp_check - #tmp_check=0 - for i in schematicInfo: - tmp_check=0 - words=i.split(' ') - wordv=words[0] - for child in attr_source: - if child.tag==wordv and child.text==words[len(words)-1]: - tmp_check=1 - for grand_child in child: - grand_child.text=str(obj_source.entry_var[grand_child_count].text()) - grand_child_count=grand_child_count+1 - grand_child_count=grand_child_count+1 - if tmp_check==0: - words=i.split(' ') - wordv=words[0] - if wordv[0]=="v": - attr_var=ET.SubElement(attr_source,words[0],name="Source type") - attr_var.text=words[len(words)-1] - #ET.SubElement(attr_ac,"field1",name="Lin").text="true" - if words[len(words)-1]=="ac": - #attr_ac=ET.SubElement(attr_var,"ac") - ET.SubElement(attr_var,"field1",name="Amplitude").text=str(obj_source.entry_var[count].text()) - count=count+2 - elif words[len(words)-1]=="dc": - #attr_dc=ET.SubElement(attr_var,"dc") - ET.SubElement(attr_var,"field1",name="Value").text=str(obj_source.entry_var[count].text()) - count=count+2 - elif words[len(words)-1]=="sine": - #attr_sine=ET.SubElement(attr_var,"sine") - ET.SubElement(attr_var,"field1",name="Offset Value").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field2",name="Amplitude").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field3",name="Frequency").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field4",name="Delay Time").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field5",name="Damping Factor").text=str(obj_source.entry_var[count].text()) - count=count+2 - elif words[len(words)-1]=="pulse": - #attr_pulse=ET.SubElement(attr_var,"pulse") - ET.SubElement(attr_var,"field1",name="Initial Value").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field2",name="Pulse Value").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field3",name="Delay Time").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field4",name="Rise Time").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field5",name="Fall Time").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field5",name="Pulse width").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field5",name="Period").text=str(obj_source.entry_var[count].text()) - count=count+2 - elif words[len(words)-1]=="pwl": - #attr_pwl=ET.SubElement(attr_var,"pwl") - ET.SubElement(attr_var,"field1",name="Enter in pwl format").text=str(obj_source.entry_var[count].text()) - count=count+2 - elif words[len(words)-1]=="exp": - #attr_exp=ET.SubElement(attr_var,"exp") - ET.SubElement(attr_var,"field1",name="Initial Value").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field2",name="Pulsed Value").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field3",name="Rise Delay Time").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field4",name="Rise Time Constant").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field5",name="Fall TIme").text=str(obj_source.entry_var[count].text()) - count=count+1 - ET.SubElement(attr_var,"field6",name="Fall Time Constant").text=str(obj_source.entry_var[count].text()) - count=count+2 - else: - pass - - #tree=ET.ElementTree(attr_source) - #tree.write(f1) - - - - if check==0: - attr_model=ET.SubElement(attr_parent,"model") - if check==1: - for child in attr_parent: - if child.tag=="model": - attr_model=child - i=0 - #tmp_check is a variable to check for duplicates in the xml file - tmp_check=0 - #tmp_i is the iterator in case duplicates are there; then in that case we need to replace only the child node and not create a new parent node - - for line in modelList: - print "i for each line in model List------",i - tmp_check=0 - for rand_itr in obj_model.obj_trac.modelTrack: - if rand_itr[2]==line[2] and rand_itr[3]==line[3]: - start=rand_itr[7] - end=rand_itr[8] - i=start - for child in attr_model: - if child.text==line[2] and child.tag==line[3]: - for grand_child in child: - if i<=end: - grand_child.text=str(obj_model.obj_trac.model_entry_var[i].text()) - print "STR OF MODEL----",str(obj_model.obj_trac.model_entry_var[i].text()) - i=i+1 - print "i incremented to ",i - else: - pass - tmp_check=1 - - if tmp_check==0: - attr_ui=ET.SubElement(attr_model,line[3],name="type") - attr_ui.text=line[2] - for key,value in line[7].iteritems(): - if hasattr(value, '__iter__') and i<=end: - for item in value: - ET.SubElement(attr_ui,"field"+str(i+1),name=item).text=str(obj_model.obj_trac.model_entry_var[i].text()) - print "STR OF MODEL----",str(obj_model.obj_trac.model_entry_var[i].text()) - i=i+1 - print "i incremented to ",i - else: - ET.SubElement(attr_ui,"field"+str(i+1),name=value).text=str(obj_model.obj_trac.model_entry_var[i].text()) - print "STR OF MODEL----",str(obj_model.obj_trac.model_entry_var[i].text()) - i=i+1 - print "i incremented to ",i - ################################################################################################################# - if check==0: - attr_devicemodel=ET.SubElement(attr_parent,"devicemodel") - if check==1: - for child in attr_parent: - if child.tag=="devicemodel": - del child[:] - attr_devicemodel=child - #print "Device model dict",obj_devicemodel.devicemodel_dict_beg - #print "Device model dict end",obj_devicemodel.devicemodel_dict_end - ########################## - for i in obj_devicemodel.devicemodel_dict_beg: - attr_var=ET.SubElement(attr_devicemodel,i) - it=obj_devicemodel.devicemodel_dict_beg[i] - end=obj_devicemodel.devicemodel_dict_end[i] - while it<=end: - ET.SubElement(attr_var,"field").text=str(obj_devicemodel.entry_var[it].text()) - it=it+1 - ##################################### - - """keys=obj_devicemodel.devicemodel_dict.keys() - n=len(keys) - for i in range(n): - thisKey=keys[i] - nextKey=keys[(i+1)%n] - nextValue=obj_devicemodel.devicemodel_dict[nextKey] - attr_var=ET.SubElement(attr_devicemodel,thisKey) - it=obj_devicemodel.devicemodel_dict[thisKey] - while it<=nextValue: - ET.SubElement(attr_var,"field").text=obj_devicemodel.entry_var[it]""" - - ################################################################################################################### - - if check==0: - attr_subcircuit=ET.SubElement(attr_parent,"subcircuit") - if check==1: - for child in attr_parent: - if child.tag=="subcircuit": - del child[:] - attr_subcircuit=child - ########################## - for i in obj_subcircuitTab.subcircuit_dict_beg: - attr_var=ET.SubElement(attr_subcircuit,i) - it=obj_subcircuitTab.subcircuit_dict_beg[i] - end=obj_subcircuitTab.subcircuit_dict_end[i] - - while it<=end: - ET.SubElement(attr_var,"field").text=str(obj_subcircuitTab.entry_var[it].text()) - it=it+1 - - - tree=ET.ElementTree(attr_parent) - tree.write(fw) - - - self.obj_convert = Convert.Convert(self.obj_track.sourcelisttrack["ITEMS"], - self.obj_track.source_entry_var["ITEMS"], - schematicInfo) - - try: - #Adding Source Value to Schematic Info - schematicInfo = self.obj_convert.addSourceParameter() - - #Adding Model Value to schematicInfo - schematicInfo = self.obj_convert.addModelParameter(schematicInfo) - - #Adding Device Library to SchematicInfo - schematicInfo = self.obj_convert.addDeviceLibrary(schematicInfo,kicadFile) - - #Adding Subcircuit Library to SchematicInfo - schematicInfo = self.obj_convert.addSubcircuit(schematicInfo, kicadFile) - - analysisoutput = self.obj_convert.analysisInsertor(self.obj_track.AC_entry_var["ITEMS"], - self.obj_track.DC_entry_var["ITEMS"], - self.obj_track.TRAN_entry_var["ITEMS"], - self.obj_track.set_CheckBox["ITEMS"], - self.obj_track.AC_Parameter["ITEMS"], - self.obj_track.DC_Parameter["ITEMS"], - self.obj_track.TRAN_Parameter["ITEMS"], - self.obj_track.AC_type["ITEMS"], - self.obj_track.op_check) - #print "SchematicInfo after adding Model Details",schematicInfo - - #Calling netlist file generation function - self.createNetlistFile(schematicInfo) - - self.msg = "The Kicad to Ngspice Conversion completed successfully!!!!!!" - QtGui.QMessageBox.information(self, "Information", self.msg, QtGui.QMessageBox.Ok) - self.close() - except Exception as e: - print "Exception Message: ",e - print "There was error while converting kicad to ngspice" - self.close() - - # Generate .sub file from .cir.out file if it is a subcircuit - subPath = os.path.splitext(kicadFile)[0] - - if len(sys.argv)>2: - if sys.argv[2] == "sub": - self.createSubFile(subPath) - - def createNetlistFile(self,schematicInfo): - print "Creating Final netlist" - #print "INFOLINE",infoline - #print "OPTIONINFO",optionInfo - #print "Device MODEL LIST ",devicemodelList - #print "SUBCKT ",subcktList - #print "OUTPUTOPTION",outputOption - #print "KicadfIle",kicadFile - - #checking if analysis files is present - (projpath,filename) = os.path.split(kicadFile) - analysisFileLoc = os.path.join(projpath,"analysis") - #print "Analysis File Location",analysisFileLoc - if os.path.exists(analysisFileLoc): - try: - f = open(analysisFileLoc) - #Read data - data = f.read() - # Close the file - f.close() - - except : - print "Error While opening Project Analysis file. Please check it" - sys.exit() - else: - print analysisFileLoc + " does not exist" - sys.exit() - - #Adding analysis file info to optionInfo - analysisData=data.splitlines() - for eachline in analysisData: - eachline=eachline.strip() - if len(eachline)>1: - if eachline[0]=='.': - optionInfo.append(eachline) - else: - pass - - #print "Option Info",optionInfo - analysisOption = [] - initialCondOption=[] - simulatorOption =[] - #includeOption=[] #Don't know why to use it - #model = [] #Don't know why to use it - - for eachline in optionInfo: - words=eachline.split() - option=words[0] - if (option=='.ac' or option=='.dc' or option=='.disto' or option=='.noise' or - option=='.op' or option=='.pz' or option=='.sens' or option=='.tf' or - option=='.tran'): - analysisOption.append(eachline+'\n') - - elif (option=='.save' or option=='.print' or option=='.plot' or option=='.four'): - eachline=eachline.strip('.') - outputOption.append(eachline+'\n') - elif (option=='.nodeset' or option=='.ic'): - initialCondOption.append(eachline+'\n') - elif option=='.option': - simulatorOption.append(eachline+'\n') - #elif (option=='.include' or option=='.lib'): - # includeOption.append(eachline+'\n') - #elif (option=='.model'): - # model.append(eachline+'\n') - elif option=='.end': - continue; - - - #Start creating final netlist cir.out file - outfile = kicadFile+".out" - out=open(outfile,"w") - out.writelines(infoline) - out.writelines('\n') - sections=[simulatorOption, initialCondOption, schematicInfo, analysisOption] - print "SECTIONS",sections - for section in sections: - if len(section) == 0: - continue - else: - for line in section: - out.writelines('\n') - out.writelines(line) - - out.writelines('\n* Control Statements \n') - out.writelines('.control\n') - out.writelines('run\n') - #out.writelines(outputOption) - out.writelines('print allv > plot_data_v.txt\n') - out.writelines('print alli > plot_data_i.txt\n') - out.writelines('.endc\n') - out.writelines('.end\n') - - out.close() - - def createSubFile(self,subPath): - self.project = subPath - self.projName = os.path.basename(self.project) - if os.path.exists(self.project+".cir.out"): - try: - f = open(self.project+".cir.out") - except : - print("Error in opening .cir.out file.") - else: - print self.projName + ".cir.out does not exist. Please create a spice netlist." - - # Read the data from file - data=f.read() - # Close the file - - f.close() - newNetlist=[] - netlist=iter(data.splitlines()) - for eachline in netlist: - eachline=eachline.strip() - if len(eachline)<1: - continue - words=eachline.split() - if eachline[2] == 'u': - if words[len(words)-1] == "port": - subcktInfo = ".subckt "+self.projName+" " - for i in range(2,len(words)-1): - subcktInfo+=words[i]+" " - continue - if words[0] == ".end" or words[0] == ".ac" or words[0] == ".dc" or words[0] == ".tran" or words[0] == '.disto' or words[0] == '.noise' or words[0] == '.op' or words[0] == '.pz' or words[0] == '.sens' or words[0] == '.tf': - continue - elif words[0] == ".control": - while words[0] != ".endc": - eachline=netlist.next() - eachline=eachline.strip() - if len(eachline)<1: - continue - words=eachline.split() - else: - newNetlist.append(eachline) - - outfile=self.project+".sub" - out=open(outfile,"w") - out.writelines("* Subcircuit " + self.projName) - out.writelines('\n') - out.writelines(subcktInfo) - out.writelines('\n') - - for i in range(len(newNetlist),0,-1): - newNetlist.insert(i,'\n') - - out.writelines(newNetlist) - out.writelines('\n') - - out.writelines('.ends ' + self.projName) - print "The subcircuit has been written in "+self.projName+".sub" - - - -#Main Function - -def main(args): - print "==================================" - print "Kicad to Ngspice netlist converter " - print "==================================" - global kicadFile,kicadNetlist,schematicInfo - global infoline,optionInfo - kicadFile = sys.argv[1] - - #Object of Processing - obj_proc = PrcocessNetlist() - - # Read the netlist - kicadNetlist = obj_proc.readNetlist(kicadFile) - - # Construct parameter information - param = obj_proc.readParamInfo(kicadNetlist) - - # Replace parameter with values - netlist,infoline = obj_proc.preprocessNetlist(kicadNetlist,param) - - print "NETLIST ",netlist - print "INFOLINE",infoline - - # Separate option and schematic information - optionInfo, schematicInfo = obj_proc.separateNetlistInfo(netlist) - - print "OPTIONINFO",optionInfo - print "SCHEMATICINFO",schematicInfo - - - #List for storing source and its value - global sourcelist, sourcelisttrack - sourcelist=[] - sourcelisttrack=[] - schematicInfo,sourcelist = obj_proc.insertSpecialSourceParam(schematicInfo,sourcelist) - - print "SOURCELIST",sourcelist - print "SCHEMATICINFO",schematicInfo - - #List storing model detail - global modelList,outputOption,unknownModelList,multipleModelList - - modelList = [] - outputOption = [] - schematicInfo,outputOption,modelList,unknownModelList,multipleModelList = obj_proc.convertICintoBasicBlocks(schematicInfo,outputOption,modelList) - print "Unknown Model List",unknownModelList - print "Multiple Model List",multipleModelList - print "Model List",modelList - - - app = QtGui.QApplication(args) - kingWindow = MainWindow() - #kingWindow.show() #No need to call show as we are doing it in createMainWindow - sys.exit(app.exec_()) - - - -if __name__ == '__main__': - main(sys.argv) - - - - - - -
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