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|
# =========================================================================
# FILE: kicadtoNgspice.py
#
# USAGE: ---
#
# DESCRIPTION: This define all configuration used in Application.
#
# OPTIONS: ---
# REQUIREMENTS: ---
# BUGS: ---
# NOTES: ---
# AUTHOR: Fahim Khan, fahim.elex@gmail.com
# MODIFIED: Rahul Paknikar, rahulp@cse.iitb.ac.in
# ORGANIZATION: eSim Team at FOSSEE, IIT Bombay
# CREATED: Wednesday 04 March 2015
# REVISION: Sunday 18 September 2022
# =========================================================================
import os
import sys
from xml.etree import ElementTree as ET
from PyQt5 import QtWidgets
from . import Analysis
from . import Convert
from . import DeviceModel
from . import Model
from . import Source
from . import SubcircuitTab
from . import TrackWidget
from .Processing import PrcocessNetlist
class MainWindow(QtWidgets.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.
- clarg1 is the path to the .cir file
- clarg2 is either None or "sub" depending on the analysis type
"""
def __init__(self, clarg1, clarg2=None):
QtWidgets.QWidget.__init__(self)
print("==================================")
print("Kicad to Ngspice netlist converter")
print("==================================")
global kicadNetlist, schematicInfo
global infoline, optionInfo
self.kicadFile = clarg1
self.clarg1 = clarg1
self.clarg2 = clarg2
# Create object of track widget
# Track the dynamically created widget of KicadtoNgspice Window
self.obj_track = TrackWidget.TrackWidget()
# Clear Dictionary/List item of sub circuit and Ngspice model
# Dictionary
self.obj_track.subcircuitList.clear()
self.obj_track.subcircuitTrack.clear()
self.obj_track.model_entry_var.clear()
# List
self.obj_track.modelTrack[:] = []
# Object of Processing
obj_proc = PrcocessNetlist()
# Read the netlist, ie the .cir file
kicadNetlist = obj_proc.readNetlist(self.kicadFile)
# print("=============================================================")
# print("Given Kicad Schematic Netlist Info :", kicadNetlist)
# Construct parameter information
param = obj_proc.readParamInfo(kicadNetlist)
# Replace parameter with values
netlist, infoline = obj_proc.preprocessNetlist(kicadNetlist, param)
# print("=============================================================")
# print("Schematic Info after processing Kicad Netlist: ", netlist)
# Separate option and schematic information
optionInfo, schematicInfo = obj_proc.separateNetlistInfo(netlist)
# print("=============================================================")
# print("OPTIONINFO in the Netlist", optionInfo)
# List for storing source and its value
global sourcelist, sourcelisttrack
sourcelist = []
sourcelisttrack = []
schematicInfo, sourcelist = obj_proc.insertSpecialSourceParam(
schematicInfo, sourcelist)
# List storing model detail
global modelList, outputOption, unknownModelList, multipleModelList, \
plotText, microcontrollerList
modelList = []
microcontrollerList = []
outputOption = []
plotText = []
(
schematicInfo,
outputOption,
modelList,
unknownModelList,
multipleModelList,
plotText
) = obj_proc.convertICintoBasicBlocks(
schematicInfo, outputOption, modelList, plotText
)
for line in modelList:
if line[6] == "Nghdl":
microcontrollerList.append(line)
modelList.remove(line)
# print("=======================================")
# print("Model available in the Schematic :", modelList)
"""
- 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 = QtWidgets.QErrorMessage()
self.msg.setModal(True)
self.msg.setWindowTitle("Unknown Models")
self.content = "Your schematic contain unknown model " + \
', '.join(unknownModelList)
self.msg.showMessage(self.content)
self.msg.exec_()
elif multipleModelList:
self.msg = QtWidgets.QErrorMessage()
self.msg.setModal(True)
self.msg.setWindowTitle("Multiple Models")
self.mcontent = "Look like you have duplicate model in \
modelParamXML directory " + \
', '.join(multipleModelList[0])
self.msg.showMessage(self.mcontent)
self.msg.exec_()
else:
self.createMainWindow()
def createMainWindow(self):
"""
- This function create main window of KiCad to Ngspice converter
- Two components
- createcreateConvertWidget
- Convert button => callConvert
"""
self.vbox = QtWidgets.QVBoxLayout()
self.hbox = QtWidgets.QHBoxLayout()
self.hbox.addStretch(1)
self.convertbtn = QtWidgets.QPushButton("Convert")
self.convertbtn.clicked.connect(self.callConvert)
self.hbox.addWidget(self.convertbtn)
self.vbox.addWidget(self.createcreateConvertWidget())
self.vbox.addLayout(self.hbox)
self.setLayout(self.vbox)
self.setWindowTitle("Kicad To NgSpice Converter")
self.show()
def createcreateConvertWidget(self):
"""
- Contains the tabs for various convertor elements
- Analysis => obj_analysis
=> Analysis.Analysis(`path_to_projFile`)
- Source Details => obj_source
=> Source.Source(`sourcelist`,`sourcelisttrack`,`path_to_projFile`)
- NgSpice Model => obj_model
=> Model.Model(`schematicInfo`,`modelList`,`path_to_projFile`)
- Device Modelling => obj_devicemodel
=> DeviceModel.DeviceModel(`schematicInfo`,`path_to_projFile`)
- Subcircuits => obj_subcircuitTab
=> SubcircuitTab.SubcircuitTab(`schematicInfo`,`path_to_projFile`)
- Microcontrollers => obj_microcontroller
=> Model.Model(schematicInfo, microcontrollerList, self.clarg1)
- Finally pass each of these objects, to widgets
- convertWindow > mainLayout > tabWidgets > AnalysisTab, SourceTab ...
"""
global obj_analysis
self.convertWindow = QtWidgets.QWidget()
self.analysisTab = QtWidgets.QScrollArea()
obj_analysis = Analysis.Analysis(self.clarg1)
self.analysisTab.setWidget(obj_analysis)
# self.analysisTabLayout = \
# QtWidgets.QVBoxLayout(self.analysisTab.widget())
self.analysisTab.setWidgetResizable(True)
global obj_source
self.sourceTab = QtWidgets.QScrollArea()
obj_source = Source.Source(sourcelist, sourcelisttrack, self.clarg1)
self.sourceTab.setWidget(obj_source)
# self.sourceTabLayout = QtWidgets.QVBoxLayout(self.sourceTab.widget())
self.sourceTab.setWidgetResizable(True)
global obj_model
self.modelTab = QtWidgets.QScrollArea()
obj_model = Model.Model(schematicInfo, modelList, self.clarg1)
self.modelTab.setWidget(obj_model)
# self.modelTabLayout = QtWidgets.QVBoxLayout(self.modelTab.widget())
self.modelTab.setWidgetResizable(True)
global obj_devicemodel
self.deviceModelTab = QtWidgets.QScrollArea()
obj_devicemodel = DeviceModel.DeviceModel(schematicInfo, self.clarg1)
self.deviceModelTab.setWidget(obj_devicemodel)
self.deviceModelTab.setWidgetResizable(True)
global obj_subcircuitTab
self.subcircuitTab = QtWidgets.QScrollArea()
obj_subcircuitTab = SubcircuitTab.SubcircuitTab(
schematicInfo, self.clarg1)
self.subcircuitTab.setWidget(obj_subcircuitTab)
self.subcircuitTab.setWidgetResizable(True)
global obj_microcontroller
self.microcontrollerTab = QtWidgets.QScrollArea()
obj_microcontroller = Model.Model(schematicInfo, microcontrollerList,
self.clarg1)
self.microcontrollerTab.setWidget(obj_microcontroller)
self.microcontrollerTab.setWidgetResizable(True)
self.tabWidget = QtWidgets.QTabWidget()
# self.tabWidget.TabShape(QtWidgets.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.tabWidget.addTab(self.microcontrollerTab, "Microcontroller")
self.mainLayout = QtWidgets.QVBoxLayout()
self.mainLayout.addWidget(self.tabWidget)
# self.mainLayout.addStretch(1)
self.convertWindow.setLayout(self.mainLayout)
self.convertWindow.show()
return self.convertWindow
def callConvert(self):
"""
- This function called when convert button clicked
- Extracting data from the objs created above
- Pushing this data to xml, and writing it finally
- Written to a ..._Previous_Values.xml file in the projDirectory
- Finally, call createNetListFile, with the converted schematic
"""
global schematicInfo
global analysisoutput
global kicad
store_schematicInfo = list(schematicInfo)
(projpath, filename) = os.path.split(self.kicadFile)
project_name = os.path.basename(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 BaseException:
check = 0
# Opening previous value file pertaining to the selected project
fw = os.path.join(projpath, project_name + "_Previous_Values.xml")
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"
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 1"
).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())
# print("OBJ_ANALYSIS.CHECK -----", self.obj_track.op_check[-1])
ET.SubElement(
attr_dc, "field5", name="Operating Point"
).text = str(self.obj_track.op_check[-1])
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]
ET.SubElement(
attr_dc, "field9", name="Source 2"
).text = str(obj_analysis.dc_entry_var[4].text())
ET.SubElement(
attr_dc, "field10", name="Start"
).text = str(obj_analysis.dc_entry_var[5].text())
ET.SubElement(
attr_dc, "field11", name="Increment"
).text = str(obj_analysis.dc_entry_var[6].text())
ET.SubElement(
attr_dc, "field12", name="Stop"
).text = str(obj_analysis.dc_entry_var[7].text())
ET.SubElement(
attr_dc, "field13", name="Start Combo"
).text = obj_analysis.dc_parameter[3]
ET.SubElement(
attr_dc, "field14", name="Increment Combo"
).text = obj_analysis.dc_parameter[4]
ET.SubElement(
attr_dc, "field15", name="Stop Combo"
).text = obj_analysis.dc_parameter[5]
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])
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 = 0
grand_child_count = 0
entry_var_keys = list(obj_source.entry_var.keys())
for i in store_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
[entry_var_keys[grand_child_count]].text())
grand_child_count += 1
if tmp_check == 0:
words = i.split(' ')
wordv = words[0]
if wordv[0] == "v" or wordv[0] == "i":
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
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field2", name="Phase"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
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
[entry_var_keys[count]].text())
count += 1
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
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field2", name="Amplitude"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field3", name="Frequency"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field4", name="Delay Time"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field5", name="Damping Factor"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
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
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field2", name="Pulse Value"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field3", name="Delay Time"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field4", name="Rise Time"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field5", name="Fall Time"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field5", name="Pulse width"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field5", name="Period"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
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
[entry_var_keys[count]].text())
count += 1
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
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field2", name="Pulsed Value"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field3", name="Rise Delay Time"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field4", name="Rise Time Constant"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field5", name="Fall Time"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
ET.SubElement(
attr_var, "field6", name="Fall Time Constant"
).text = str(obj_source.entry_var
[entry_var_keys[count]].text())
count += 1
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:
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())
i = i + 1
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].items():
if (
hasattr(value, '__iter__') and
i <= end and not isinstance(value, str)
):
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()
)
i = i + 1
else:
ET.SubElement(
attr_ui, "field" + str(i + 1), name=value
).text = str(
obj_model.obj_trac.model_entry_var[i].text()
)
i = i + 1
# Writing Device Model values
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
for device in obj_devicemodel.devicemodel_dict_beg:
attr_var = ET.SubElement(attr_devicemodel, device)
it = obj_devicemodel.devicemodel_dict_beg[device]
end = obj_devicemodel.devicemodel_dict_end[device]
while it <= end:
ET.SubElement(attr_var, "field").text = \
str(obj_devicemodel.entry_var[it].text())
it = it + 1
# Writing Subcircuit values
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 subckt in obj_subcircuitTab.subcircuit_dict_beg:
attr_var = ET.SubElement(attr_subcircuit, subckt)
it = obj_subcircuitTab.subcircuit_dict_beg[subckt]
end = obj_subcircuitTab.subcircuit_dict_end[subckt]
while it <= end:
ET.SubElement(attr_var, "field").text = \
str(obj_subcircuitTab.entry_var[it].text())
it = it + 1
# Writing for Microcontroller
if check == 0:
attr_model = ET.SubElement(attr_parent, "microcontroller")
if check == 1:
for child in attr_parent:
if child.tag == "microcontroller":
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:
tmp_check = 0
if line[6] == "Nghdl":
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())
i = i + 1
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].items():
if (
hasattr(value, '__iter__') and
i <= end and not isinstance(value, str)
):
for item in value:
ET.SubElement(
attr_ui, "field" + str(i + 1), name=item
).text = str(
obj_microcontroller.obj_trac.
model_entry_var[i].text()
)
i = i + 1
else:
ET.SubElement(
attr_ui, "field" + str(i + 1), name=value
).text = str(
obj_microcontroller.obj_trac.model_entry_var[
i].text()
)
i = i + 1
# xml written to previous value file for the project
tree = ET.ElementTree(attr_parent)
tree.write(fw)
# print("=============================================================")
# print("SOURCE LIST TRACK")
# print(self.obj_track.sourcelisttrack["ITEMS"])
# print("SOURCE ENTRY VAR")
# print(self.obj_track.source_entry_var["ITEMS"])
# print("SCHEMATIC INFO")
# print(store_schematicInfo)
# print("=============================================================")
# Create Convert object with the source details & the schematic details
self.obj_convert = Convert.Convert(
self.obj_track.sourcelisttrack["ITEMS"],
self.obj_track.source_entry_var["ITEMS"],
store_schematicInfo, self.clarg1
)
try:
# Adding Source Value to Schematic Info
store_schematicInfo = self.obj_convert.addSourceParameter()
print("=========================================================")
print("Netlist After Adding Source details :", store_schematicInfo)
# Adding Model Value to store_schematicInfo
store_schematicInfo = self.obj_convert.addModelParameter(
store_schematicInfo)
print("=========================================================")
print("Netlist After Adding Ngspice Model :", store_schematicInfo)
# Adding Device Library to SchematicInfo
store_schematicInfo = self.obj_convert.addDeviceLibrary(
store_schematicInfo, self.kicadFile)
print("=========================================================")
print(
"Netlist After Adding Device Model Library :",
store_schematicInfo)
# Adding Subcircuit Library to SchematicInfo
store_schematicInfo = self.obj_convert.addSubcircuit(
store_schematicInfo, self.kicadFile)
print("=========================================================")
print("Netlist After Adding subcircuits :", store_schematicInfo)
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("=========================================================")
print("Analysis OutPut ", analysisoutput)
# Calling netlist file generation function
print("=========================================================")
print("STORE SCHEMATIC INFO")
print(store_schematicInfo)
print("=========================================================")
self.createNetlistFile(store_schematicInfo, plotText)
self.msg = "The KiCad to Ngspice conversion completed "
self.msg += "successfully!"
QtWidgets.QMessageBox.information(
self, "Information", self.msg, QtWidgets.QMessageBox.Ok
)
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(self.kicadFile)[0]
# If sub argument passed, create subCircuit file as well
if self.clarg2 == "sub":
self.createSubFile(subPath)
def createNetlistFile(self, store_schematicInfo, plotText):
"""
- Creating .cir.out file
- If analysis file present uses that and extract
- Simulator
- Initial
- Analysis
- Finally add the following components to .cir.out file
- SimulatorOption
- InitialCondOption
- Store_SchematicInfo
- AnalysisOption
- In the end add control statements and allv, alli, end statements
"""
print("=============================================================")
print("Creating Final netlist")
# To avoid writing optionInfo twice in final netlist
store_optionInfo = list(optionInfo)
# checking if analysis files is present
(projpath, filename) = os.path.split(self.kicadFile)
analysisFileLoc = os.path.join(projpath, "analysis")
if os.path.exists(analysisFileLoc):
try:
f = open(analysisFileLoc)
# Read data
data = f.read()
# Close the file
f.close()
except BaseException:
print("Error While opening Project Analysis file.\
Please check it")
sys.exit()
else:
# print("========================================================")
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] == '.':
store_optionInfo.append(eachline)
analysisOption = []
initialCondOption = []
simulatorOption = []
# includeOption=[] # Don't know why to use it
# model = [] # Don't know why to use it
for eachline in store_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 = self.kicadFile + ".out"
out = open(outfile, "w")
out.writelines(infoline)
out.writelines('\n')
sections = [
simulatorOption,
initialCondOption,
store_schematicInfo,
analysisOption]
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')
for item in plotText:
out.writelines(item + '\n')
out.writelines('.endc\n')
out.writelines('.end\n')
out.close()
def createSubFile(self, subPath):
"""
- To create subcircuit file
- Extract data from .cir.out file
"""
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 BaseException:
print("Error in opening .cir.out file.")
else:
# print("=========================================================")
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 = next(netlist)
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("=============================================================")
print("The subcircuit has been written in " + self.projName + ".sub")
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