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authorFahim2015-10-01 14:41:09 +0530
committerFahim2015-10-01 14:41:09 +0530
commit61ceb24d4b98e4aa719baddcfaedbcdee239f867 (patch)
treefe39c59a612d2f3a50bc879b9b854bc1a80bda0d /src/kicadtoNgspice/KicadtoNgspice.py.bkp
parent193d284f377ccf963bbd762bdb03f3daae2fa1af (diff)
downloadeSim-61ceb24d4b98e4aa719baddcfaedbcdee239f867.tar.gz
eSim-61ceb24d4b98e4aa719baddcfaedbcdee239f867.tar.bz2
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Subject: Changes in Application.py,Validation.py and
NgspicetoModelica.py Description: In Application.py rewrite the error message for openModelica if it is not installed.Simillarly for nghdl. In Validation.py a new function ValidateTool is added which will check if any tool like openModelica or nghdl is installed.
Diffstat (limited to 'src/kicadtoNgspice/KicadtoNgspice.py.bkp')
-rw-r--r--src/kicadtoNgspice/KicadtoNgspice.py.bkp671
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)
-
-
-
-
-
-
- \ No newline at end of file