from PyQt4 import QtGui import os import shutil from . import TrackWidget from xml.etree import ElementTree as ET class Convert: """ - This class has all the necessary function required to convert \ kicad netlist to ngspice netlist. - Method List - addDeviceLibrary - addModelParameter - addSourceParameter - addSubcircuit - analysisInsertor - converttosciform - defaultvalue """ def __init__(self, sourcelisttrack, source_entry_var, schematicInfo, clarg1): self.sourcelisttrack = sourcelisttrack self.schematicInfo = schematicInfo self.entry_var = source_entry_var self.sourcelistvalue = [] self.clarg1 = clarg1 def addSourceParameter(self): """ - This function extracts the source details to schematicInfo - keywords recognised and parsed - - sine - pulse - pwl - ac - dc - exp - Return updated schematic """ self.start = 0 self.end = 0 for compline in self.sourcelisttrack: self.index = compline[0] self.addline = self.schematicInfo[self.index] if compline[1] == 'sine': try: self.start = compline[2] self.end = compline[3] vo_val = str(self.entry_var[self.start].text()) if len( str(self.entry_var[self.start].text())) > 0 else '0' va_val = str( self.entry_var[self.start + 1].text() ) if len( str(self.entry_var[self.start + 1].text())) \ > 0 else '0' freq_val = str(self.entry_var[self.start + 2].text()) \ if len( str(self.entry_var[self.start + 2].text())) > \ 0 else '0' td_val = str(self.entry_var[self.start + 3].text()) if len( str(self.entry_var[self.start + 3].text())) > \ 0 else '0' theta_val = str(self.entry_var[self.end].text()) if len( str(self.entry_var[self.end].text())) > 0 else '0' self.addline = self.addline.partition( '(')[0] + "(" + vo_val + " " + va_val + " " +\ freq_val + " " + td_val + " " +\ theta_val + ")" self.sourcelistvalue.append([self.index, self.addline]) except BaseException: print( "Caught an exception in sine voltage source ", self.addline) elif compline[1] == 'pulse': try: self.start = compline[2] self.end = compline[3] v1_val = str(self.entry_var[self.start].text()) if len( str(self.entry_var[self.start].text())) > 0 else '0' v2_val = str(self.entry_var[self.start + 1].text()) if len( str(self.entry_var[self.start + 1].text())) > \ 0 else '0' td_val = str(self.entry_var[self.start + 2].text()) \ if len( str(self.entry_var[self.start + 2].text())) > \ 0 else '0' tr_val = str(self.entry_var[self.start + 3].text()) if len( str(self.entry_var[self.start + 3].text())) > \ 0 else '0' tf_val = str(self.entry_var[self.start + 4].text()) if len( str(self.entry_var[self.start + 4].text())) > \ 0 else '0' pw_val = str(self.entry_var[self.start + 5].text()) if len( str(self.entry_var[self.start + 5].text())) > \ 0 else '0' tp_val = str(self.entry_var[self.end].text()) if len( str(self.entry_var[self.end].text())) > 0 else '0' self.addline = self.addline.partition( '(')[0] + "(" + v1_val + " " + v2_val + " " +\ td_val + " " + tr_val + " " + tf_val + " " +\ pw_val + " " + tp_val + ")" self.sourcelistvalue.append([self.index, self.addline]) except BaseException: print( "Caught an exception in pulse voltage source ", self.addline) elif compline[1] == 'pwl': try: self.start = compline[2] self.end = compline[3] t_v_val = str(self.entry_var[self.start].text()) if len( str(self.entry_var[self.start].text())) > 0 else '0 0' self.addline = self.addline.partition( '(')[0] + "(" + t_v_val + ")" self.sourcelistvalue.append([self.index, self.addline]) except BaseException: print( "Caught an exception in pwl voltage source ", self.addline) elif compline[1] == 'ac': try: self.start = compline[2] self.end = compline[3] va_val = str(self.entry_var[self.start].text()) if len( str(self.entry_var[self.start].text())) > 0 else '0' ph_val = str(self.entry_var[self.start + 1].text()) if len( str(self.entry_var[self.start + 1].text())) > \ 0 else '0' self.addline = ' '.join(self.addline.split()) self.addline = self.addline.partition( 'ac')[0] + " " + 'ac' + " " + va_val + " " + ph_val self.sourcelistvalue.append([self.index, self.addline]) except BaseException: print( "Caught an exception in ac voltage source ", self.addline) elif compline[1] == 'dc': try: self.start = compline[2] self.end = compline[3] v1_val = str(self.entry_var[self.start].text()) if len( str(self.entry_var[self.start].text())) > 0 else '0' self.addline = ' '.join(self.addline.split()) self.addline = self.addline.partition( 'dc')[0] + " " + 'dc' + " " + v1_val self.sourcelistvalue.append([self.index, self.addline]) except BaseException: print( "Caught an exception in dc voltage source", self.addline) elif compline[1] == 'exp': try: self.start = compline[2] self.end = compline[3] v1_val = str(self.entry_var[self.start].text()) if len( str(self.entry_var[self.start].text())) > 0 else '0' v2_val = str(self.entry_var[self.start + 1].text()) if len( str(self.entry_var[self.start + 1].text())) > \ 0 else '0' td1_val = str(self.entry_var[self.start + 2].text()) \ if len( str(self.entry_var[self.start + 2].text())) > \ 0 else '0' tau1_val = str(self.entry_var[self.start + 3].text()) \ if len( str(self.entry_var[self.start + 3].text())) > \ 0 else '0' td2_val = str(self.entry_var[self.start + 4].text()) \ if len( str(self.entry_var[self.start + 4].text())) > \ 0 else '0' tau2_val = str(self.entry_var[self.end].text()) if len( str(self.entry_var[self.end].text())) > 0 else '0' self.addline = self.addline.partition( '(')[0] + "(" + v1_val + " " + v2_val + " " +\ td1_val + " " + tau1_val + " " + td2_val +\ " " + tau2_val + ")" self.sourcelistvalue.append([self.index, self.addline]) except BaseException: print( "Caught an exception in exp voltage source ", self.addline) # Updating Schematic with source value for item in self.sourcelistvalue: del self.schematicInfo[item[0]] self.schematicInfo.insert(item[0], item[1]) return self.schematicInfo def analysisInsertor(self, ac_entry_var, dc_entry_var, tran_entry_var, set_checkbox, ac_parameter, dc_parameter, tran_parameter, ac_type, op_check): """ This function creates an analysis file in current project """ self.ac_entry_var = ac_entry_var self.dc_entry_var = dc_entry_var self.tran_entry_var = tran_entry_var self.set_checkbox = set_checkbox self.ac_parameter = ac_parameter self.dc_parameter = dc_parameter self.trans_parameter = tran_parameter self.ac_type = ac_type self.op_check = op_check self.no = 0 self.variable = self.set_checkbox self.direct = self.clarg1 (filepath, filemname) = os.path.split(self.direct) self.Fileopen = os.path.join(filepath, "analysis") print("======================================================") print("FILEOPEN CONVERT ANALYS", self.Fileopen) self.writefile = open(self.Fileopen, "w") if self.variable == 'AC': self.no = 0 self.writefile.write(".ac" + ' ' + self.ac_type + ' ' + str(self.defaultvalue( self.ac_entry_var[self.no + 2].text())) + ' ' + str(self.defaultvalue( self.ac_entry_var[self.no].text())) + self.ac_parameter[self.no] + ' ' + str(self.defaultvalue( self.ac_entry_var[self.no + 1].text())) + self.ac_parameter[self.no + 1]) elif self.variable == 'DC': if self.op_check[-1] == 1: self.no = 0 self.writefile.write(".op") elif self.op_check[-1] == 0 or self.op_check[-1] == '0': self.no = 0 self.writefile.write(".dc" + ' ' + str(self.dc_entry_var[self.no].text()) + ' ' + str(self.defaultvalue( self.dc_entry_var[self.no + 1].text())) + self.converttosciform( self.dc_parameter[self.no]) + ' ' + str(self.defaultvalue( self.dc_entry_var[self.no + 3].text())) + self.converttosciform( self.dc_parameter[self.no + 2]) + ' ' + str(self.defaultvalue( self.dc_entry_var[self.no + 2].text())) + self.converttosciform( self.dc_parameter[self.no + 1])) if self.dc_entry_var[self.no + 4].text(): self.writefile.write(' ' + str(self.defaultvalue( self.dc_entry_var[self.no + 4].text())) + ' ' + str(self.defaultvalue( self.dc_entry_var[self.no + 5].text())) + self.converttosciform( self.dc_parameter[self.no + 3]) + ' ' + str(self.defaultvalue( self.dc_entry_var[self.no + 7].text())) + self.converttosciform( self.dc_parameter[self.no + 5]) + ' ' + str(self.defaultvalue( self.dc_entry_var[self.no + 6].text())) + self.converttosciform( self.dc_parameter[self.no + 4])) elif self.variable == 'TRAN': self.no = 0 self.writefile.write(".tran" + ' ' + str(self.defaultvalue( self.tran_entry_var[self.no + 1].text())) + self.converttosciform( self.trans_parameter[self.no + 1]) + ' ' + str(self.defaultvalue( self.tran_entry_var[self.no + 2].text())) + self.converttosciform( self.trans_parameter[self.no + 2]) + ' ' + str(self.defaultvalue( self.tran_entry_var[self.no].text())) + self.converttosciform( self.trans_parameter[self.no])) else: pass self.writefile.close() def converttosciform(self, string_obj): """ This function is used for scientific conversion. """ self.string_obj = string_obj if self.string_obj[0] == 'm': return "e-03" elif self.string_obj[0] == 'u': return "e-06" elif self.string_obj[0] == 'n': return "e-09" elif self.string_obj[0] == 'p': return "e-12" else: return "e-00" def defaultvalue(self, value): """ This function select default value as 0 if Analysis widget do not hold any value. """ self.value = value if self.value == '': return 0 else: return self.value def addModelParameter(self, schematicInfo): """ This function adds the Ngspice Model details to schematicInfo """ # Create object of TrackWidget self.obj_track = TrackWidget.TrackWidget() # List to store model line addmodelLine = [] modelParamValue = [] for line in self.obj_track.modelTrack: # print "Model Track :",line if line[2] == 'transfo': try: start = line[7] # end = line[8] num_turns = str( self.obj_track.model_entry_var[start + 1].text()) if num_turns == "": num_turns = "310" h_array = "H_array = [ " b_array = "B_array = [ " h1 = str(self.obj_track.model_entry_var[start].text()) b1 = str(self.obj_track.model_entry_var[start + 5].text()) if len(h1) != 0 and len(b1) != 0: h_array = h_array + h1 + " " b_array = b_array + b1 + " " bh_array = h_array + " ] " + b_array + " ]" else: bh_array = "H_array = [-1000 -500 -375 -250 -188 -125 \ -63 0 63 125 188 250 375 500 \ 1000] B_array = [-3.13e-3 -2.63e-3 -2.33e-3 -1.93e-3\ -1.5e-3 -6.25e-4 -2.5e-4 0 2.5e-4 6.25e-4 \ 1.5e-3 1.93e-3 2.33e-3 2.63e-3 3.13e-3]" area = str( self.obj_track.model_entry_var[start + 2].text()) length = str( self.obj_track.model_entry_var[start + 3].text()) if area == "": area = "1" if length == "": length = "0.01" num_turns2 = str( self.obj_track.model_entry_var[start + 4].text()) if num_turns2 == "": num_turns2 = "620" addmodelLine = ".model " + \ line[3] + \ "_primary lcouple (num_turns= " + num_turns + ")" modelParamValue.append( [line[0], addmodelLine, "*primary lcouple"]) addmodelLine = ".model " + \ line[3] + "_iron_core core (" + bh_array + \ " area = " + area + " length =" + length + ")" modelParamValue.append( [line[0], addmodelLine, "*iron core"]) addmodelLine = ".model " + \ line[3] + \ "_secondary lcouple (num_turns =" + num_turns2 + ")" modelParamValue.append( [line[0], addmodelLine, "*secondary lcouple"]) except Exception as e: print("Caught an exception in transfo model ", line[1]) print("Exception Message : ", str(e)) elif line[2] == 'ic': try: start = line[7] # end = line[8] for key, value in line[9].items(): initVal = str( self.obj_track.model_entry_var[value].text()) if initVal == "": initVal = "0" # Extracting node from model line node = line[1].split()[1] addmodelLine = ".ic v(" + node + ")=" + initVal modelParamValue.append( [line[0], addmodelLine, line[4]]) except Exception as e: print("Caught an exception in initial condition ", line[1]) print("Exception Message : ", str(e)) else: try: start = line[7] # end = line[8] addmodelLine = ".model " + line[3] + " " + line[2] + "(" for key, value in line[9].items(): # Checking for default value and accordingly assign # param and default. if ':' in key: key = key.split(':') param = key[0] default = key[1] else: param = key default = 0 # Checking if value is iterable.its for vector if ( not isinstance(value, str) and hasattr(value, '__iter__') ): addmodelLine += param + "=[" for lineVar in value: if str( self.obj_track.model_entry_var [lineVar].text()) == "": paramVal = default else: paramVal = str( self.obj_track.model_entry_var [lineVar].text()) addmodelLine += paramVal + " " addmodelLine += "] " else: if str( self.obj_track.model_entry_var [value].text()) == "": paramVal = default else: paramVal = str( self.obj_track.model_entry_var [value].text()) addmodelLine += param + "=" + paramVal + " " addmodelLine += ") " modelParamValue.append([line[0], addmodelLine, line[4]]) except Exception as e: print("Caught an exception in model ", line[1]) print("Exception Message : ", str(e)) # Adding it to schematic for item in modelParamValue: if ".ic" in item[1]: schematicInfo.insert(0, item[1]) schematicInfo.insert(0, item[2]) else: schematicInfo.append(item[2]) # Adding Comment schematicInfo.append(item[1]) # Adding model line return schematicInfo def addDeviceLibrary(self, schematicInfo, kicadFile): """ This function add the library details to schematicInfo """ (projpath, filename) = os.path.split(kicadFile) deviceLibList = self.obj_track.deviceModelTrack deviceLine = {} # Key:Index, Value:with its updated line in the form of list includeLine = [] # All .include line list if not deviceLibList: print("No library added in the schematic") else: for eachline in schematicInfo: words = eachline.split() if words[0] in deviceLibList: # print("Found Library line") index = schematicInfo.index(eachline) completeLibPath = deviceLibList[words[0]] (libpath, libname) = os.path.split(completeLibPath) # print("Library Path :", libpath) # Copying library from devicemodelLibrary to Project Path # Special case for MOSFET if eachline[0] == 'm': # For mosfet library name come along with MOSFET # dimension information tempStr = libname.split(':') libname = tempStr[0] dimension = tempStr[1] # Replace last word with library name # words[-1] = libname.split('.')[0] words[-1] = self.getRefrenceName(libname, libpath) # Appending Dimension of MOSFET words.append(dimension) deviceLine[index] = words includeLine.append(".include " + libname) # src = completeLibPath.split(':')[0] # <----- Not # working in Windows (src_path, src_lib) = os.path.split(completeLibPath) src_lib = src_lib.split(':')[0] src = os.path.join(src_path, src_lib) dst = projpath shutil.copy2(src, dst) else: # Replace last word with library name # words[-1] = libname.split('.')[0] words[-1] = self.getRefrenceName(libname, libpath) deviceLine[index] = words includeLine.append(".include " + libname) src = completeLibPath dst = projpath shutil.copy2(src, dst) # Adding device line to schematicInfo for index, value in deviceLine.items(): # Update the device line strLine = " ".join(str(item) for item in value) schematicInfo[index] = strLine # This has to be second i.e after deviceLine details # Adding .include line to Schematic Info at the start of line for item in list(set(includeLine)): schematicInfo.insert(0, item) return schematicInfo def addSubcircuit(self, schematicInfo, kicadFile): """ This function add the subcircuit to schematicInfo """ (projpath, filename) = os.path.split(kicadFile) subList = self.obj_track.subcircuitTrack subLine = {} # Key:Index, Value:with its updated line in the form of list includeLine = [] # All .include line list if len(self.obj_track.subcircuitList) != len( self.obj_track.subcircuitTrack): self.msg = QtGui.QErrorMessage() self.msg.showMessage( "Conversion failed. Please add all Subcircuits.") self.msg.setWindowTitle("Error Message") self.msg.show() raise Exception('All subcircuit directories need to be specified.') elif not subList: print("No Subcircuit Added in the schematic") else: for eachline in schematicInfo: words = eachline.split() if words[0] in subList: print("Found Subcircuit line") index = schematicInfo.index(eachline) completeSubPath = subList[words[0]] (subpath, subname) = os.path.split(completeSubPath) print("Library Path :", subpath) # Copying library from devicemodelLibrary to Project Path # Replace last word with library name words[-1] = subname.split('.')[0] subLine[index] = words includeLine.append(".include " + subname + ".sub") src = completeSubPath dst = projpath print(os.listdir(src)) for files in os.listdir(src): if os.path.isfile(os.path.join(src, files)): if files != "analysis": shutil.copy2(os.path.join(src, files), dst) # Adding subcircuit line to schematicInfo for index, value in subLine.items(): # Update the subcircuit line strLine = " ".join(str(item) for item in value) schematicInfo[index] = strLine # This has to be second i.e after subcircuitLine details # Adding .include line to Schematic Info at the start of line for item in list(set(includeLine)): schematicInfo.insert(0, item) return schematicInfo def getRefrenceName(self, libname, libpath): libname = libname.replace('.lib', '.xml') library = os.path.join(libpath, libname) # Extracting Value from XML libtree = ET.parse(library) for child in libtree.iter(): if child.tag == 'ref_model': retVal = child.text return retVal