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|
import sys
import os
import re
import json
from string import maketrans
class NgMoConverter:
def __init__(self):
#Loading JSON file which hold the mapping information between ngspice and Modelica.
with open('Mapping.json') as mappingFile:
self.mappingData = json.load(mappingFile)
self.ifMOS = False
self.sourceDetail = []
self.deviceDetail = []
self.subCktDetail = []
self.deviceList = ['d','D','j','J','q','Q'] #MOSFET is excluded as it has special case
def readNetlist(self,filename):
"""
Read Ngspice Netlist
"""
netlist = []
if os.path.exists(filename):
try:
f = open(filename)
except Exception as e:
print("Error in opening file")
print(str(e))
sys.exit()
else:
print filename + " does not exist"
sys.exit()
data = f.read()
data = data.splitlines()
f.close()
for eachline in data:
eachline=eachline.strip()
if len(eachline)>1:
if eachline[0]=='+':
netlist.append(netlist.pop()+eachline.replace('+',' ',1))
else:
netlist.append(eachline)
return netlist
def separateNetlistInfo(self,netlist):
"""
Separate schematic data and option data
"""
optionInfo = []
schematicInfo = []
for eachline in netlist:
if len(eachline) > 1:
if eachline[0]=='*':
continue
elif eachline[0]=='.':
optionInfo.append(eachline)
#optionInfo.append(eachline.lower())
elif eachline[0] in self.deviceList:
if eachline[0]=='m' or eachline[0]=='M':
self.ifMOS = True
schematicInfo.append(eachline)
self.deviceDetail.append(eachline)
elif eachline[0]=='x' or eachline[0]=='X':
self.subCktDetail.append(eachline)
elif eachline[0]=='v' or eachline[0]=='V':
schematicInfo.append(eachline)
self.sourceDetail.append(eachline)
else:
schematicInfo.append(eachline)
##No need of making it lower case as netlist is already converted to ngspice
#schematicInfo.append(eachline.lower())
return optionInfo,schematicInfo
def addModel(self,optionInfo):
"""
Add model parameters in the modelica file and create dictionary of model parameters
This function extract model and subckt information along with their parameters with the help of optionInfo
"""
modelName = []
modelInfo = {}
subcktName = []
paramInfo = []
transInfo = {}
for eachline in optionInfo:
words = eachline.split()
if words[0] == '.include':
name = words[1].split('.')
if name[1] == 'lib':
modelName.append(name[0])
if name[1] == 'sub':
subcktName.append(name[0])
elif words[0] == '.param':
paramInfo.append(eachline)
elif words[0] == '.model':
model = words[1]
modelInfo[model] = {}
eachline = eachline.replace(' = ','=').replace('= ','=').replace(' =','=')
eachline = eachline.split('(')
templine = eachline[0].split()
trans = templine[1]
transInfo[trans] = []
if templine[2] in ['npn', 'pnp', 'pmos', 'nmos']:
transInfo[trans] = templine[2]
eachline[1] = eachline[1].lower()
eachline = eachline[1].split()
for eachitem in eachline:
if len(eachitem) > 1:
eachitem = eachitem.replace(')','')
iteminfo = eachitem.split('=')
for each in iteminfo:
modelInfo[model][iteminfo[0]] = iteminfo[1]
#Adding details of model(external) and subckt into modelInfo and subcktInfo
print "Model Name ------------ >",modelName
for eachmodel in modelName:
filename = eachmodel + '.lib'
if os.path.exists(filename):
try:
f = open(filename)
except:
print("Error in opening file")
sys.exit()
else:
print filename + " does not exist"
sys.exit()
data = f.read()
data = data.replace('+', '').replace('\n','').replace(' = ','=').replace('= ','=').replace(' =','=')
#data = data.lower() #Won't work if Reference model name is Upper Case
newdata = data.split('(')
templine_f = newdata[0].split()
trans_f = templine_f[1]
transInfo[trans_f] = []
if templine_f[2] in ['npn', 'pnp', 'pmos', 'nmos']:
transInfo[trans_f] = templine_f[2]
refModelName = trans_f
newdata[1] = newdata[1].lower()
modelParameter = newdata[1].split()
modelInfo[refModelName] = {}
for eachline in modelParameter:
if len(eachline) > 1:
eachline = eachline.replace(')','')
info = eachline.split('=')
for eachitem in info:
modelInfo[refModelName][info[0]] = info[1]
f.close()
return modelName, modelInfo, subcktName, paramInfo ,transInfo
def processParam(self,paramInfo):
"""
Process parameter info and update in Modelica syntax
"""
modelicaParam = []
for eachline in paramInfo:
eachline = eachline.split('.param')
#Include ',' in between parameter
#Removing leading and trailing space
line = eachline[1].strip()
line = line.split()
final_line = ','.join(line)
stat = 'parameter Real ' + final_line + ';'
stat = stat.translate(maketrans('{}', ' '))
modelicaParam.append(stat)
return modelicaParam
def separatePlot(self,schematicInfo):
"""
separate print plot and component statements
"""
compInfo = []
plotInfo = []
for eachline in schematicInfo:
words = eachline.split()
if words[0] == 'run':
continue
elif words[0] == 'plot' or words[0] == 'print':
plotInfo.append(eachline)
else:
compInfo.append(eachline)
return compInfo, plotInfo
def separateSource(self,compInfo):
"""
Find if dependent sources are present in the schematic and if so make a dictionary with source details
"""
sourceInfo = {}
source = []
for eachline in compInfo:
words = eachline.split() ##This line need to be confirmed with Manas
if eachline[0] in ['f', 'h']:
source.append(words[3])
if len(source) > 0:
for eachline in compInfo:
words_s = eachline.split()
if words_s[0] in source:
sourceInfo[words_s[0]] = words_s[1:3]
return sourceInfo
def getUnitVal(self,compValue):
print "Received compValue--------> ",compValue
#regExp = re.compile("([0-9]+)([a-zA-Z]+)")
regExp = re.compile("([0-9]+)\.?([0-9]+)?([a-zA-Z])?")
matchString = regExp.match(str(compValue)) #separating number and string
try:
valBeforeDecimal = matchString.group(1)
valAfterDecimal = matchString.group(2)
unitValue = matchString.group(3)
if str(valAfterDecimal)=='None':
modifiedcompValue = valBeforeDecimal+self.mappingData["Units"][unitValue]
else:
modifiedcompValue = valBeforeDecimal+'.'+valAfterDecimal+self.mappingData["Units"][unitValue]
return modifiedcompValue
except:
return compValue
def tryExists(self,modelInfo,words,wordNo, key,default):
"""
checks if entry for key exists in dictionary, else returns default
"""
try:
keyval = modelInfo[words[wordNo]][key]
keyval = self.getUnitVal(keyval)
except KeyError:
keyval = str(default)
return keyval
def compInit(self,compInfo, node, modelInfo, subcktName,dir_name,transInfo):
"""
For each component in the netlist initialize it according to Modelica format
"""
print "CompInfo inside compInit function : compInit------->",compInfo
#### initial processing to check if MOs is present. If so, library to be used is BondLib
modelicaCompInit = []
numNodesSub = {}
mosInfo = {}
IfMOS = '0'
for eachline in compInfo:
#words = eachline.split()
if eachline[0] == 'm':
IfMOS = '1'
break
if len(subcktName) > 0:
subOptionInfo = []
subSchemInfo = []
for eachsub in subcktName:
filename_tem = eachsub + '.sub'
filename_tem = os.path.join(dir_name, filename_tem)
data = self.readNetlist(filename_tem)
subOptionInfo, subSchemInfo = self.separateNetlistInfo(data)
for eachline in subSchemInfo:
#words = eachline.split()
if eachline[0] == 'm':
IfMOS = '1'
break
#Lets Start with Source details
for eachline in self.sourceDetail:
eachline = eachline.lower()
words = eachline.split()
typ = words[3].split('(')
if typ[0] == "pulse":
per = words[9].split(')')
stat = self.mappingData["Sources"][typ[0]]+' '+words[0]+'(rising = '+self.getUnitVal(words[6])+', V = '+self.getUnitVal(words[4])\
+', width = '+self.getUnitVal(words[8])+', period = '+self.getUnitVal(per[0])+', offset = '+self.getUnitVal(typ[1])+', startTime = '+self.getUnitVal(words[5])+', falling = '+self.getUnitVal(words[7])+');'
modelicaCompInit.append(stat)
if typ[0] == "sine":
theta = words[7].split(')')
stat = self.mappingData["Sources"][typ[0]]+' '+words[0]+'(offset = '+self.getUnitVal(typ[1])+', V = '+self.getUnitVal(words[4])+', freqHz = '+self.getUnitVal(words[5])+', startTime = '+self.getUnitVal(words[6])+', phase = '+self.getUnitVal(theta[0])+');'
modelicaCompInit.append(stat)
if typ[0] == "pwl":
keyw = self.mappingData["Sources"][typ[0]]+' '
stat = keyw + words[0] + '(table = [' + self.getUnitVal(typ[1]) + ',' + self.getUnitVal(words[4]) + ';'
length = len(words);
for i in range(6,length,2):
if i == length-2:
w = words[i].split(')')
stat = stat + words[i-1] + ',' + w[0]
else:
stat = stat + words[i-1] + ',' + words[i] + ';'
stat = stat + ']);'
modelicaCompInit.append(stat)
if typ[0] == words[3] and typ[0] != "dc":
#It is DC constant but no dc keyword
val_temp = typ[0].split('v')
stat = self.mappingData["Sources"]["dc"]+' ' + words[0] + '(V = ' + self.getUnitVal(val_temp[0]) + ');'
modelicaCompInit.append(stat)
elif typ[0] == words[3] and typ[0] == "dc":
stat = self.mappingData["Sources"][typ[0]]+' ' + words[0] + '(V = ' + self.getUnitVal(words[4]) + ');' ### check this
modelicaCompInit.append(stat)
#Lets start for device
for eachline in self.deviceDetail:
words=eachline.split()
if eachline[0]=='d' or eachline[0]=='D':
if len(words)>3:
if modelInfo[words[3]].has_key('n'):
n = float(modelInfo[words[3]]['n'])
else:
n = 1.0
vt = str(float(0.025*n))
stat = self.mappingData["Devices"][eachline[0]]+' '+ words[0] + '(Ids = ' + modelInfo[words[3]]['is'] + ', Vt = ' + vt + ', R = 1e12' +');'
else:
stat = self.mappingData["Devices"][eachline[0]]+' '+ words[0] +';'
modelicaCompInit.append(stat)
elif eachline[0]=='q' or eachline[0]=='Q':
if words[4]=='npn':
start = 'Analog.Semiconductors.NPN '
elif words[4]=='pnp':
start = 'Analog.Semiconductors.PNP '
inv_vak = float(self.tryExists(modelInfo,words,4, 'vaf', 50))
vak_temp = 1/inv_vak
vak = str(vak_temp)
bf = self.tryExists(modelInfo,words,4, 'bf', 50)
br = self.tryExists(modelInfo,words,4, 'br', 0.1)
Is = self.tryExists(modelInfo,words,4, 'is', 1e-16)
tf = self.tryExists(modelInfo,words,4, 'tf', 1.2e-10)
tr = self.tryExists(modelInfo,words,4, 'tr', 5e-9)
cjs = self.tryExists(modelInfo,words,4, 'cjs', 1e-12)
cje = self.tryExists(modelInfo,words,4, 'cje', 4e-13)
cjc = self.tryExists(modelInfo,words,4, 'cjc', 5e-13)
vje = self.tryExists(modelInfo,words,4, 'vje', 0.8)
mje = self.tryExists(modelInfo,words,4, 'mje', 0.4)
vjc = self.tryExists(modelInfo,words,4, 'vjc', 0.8)
mjc = self.tryExists(modelInfo,words,4, 'mjc', 0.333)
stat = start + words[0] +'(Bf = ' + bf + ', Br = ' + br + ', Is = ' +Is+ ', Vak = ' + vak + ', Tauf = ' +tf+ ', Taur = ' +tr+ ', Ccs = ' +cjs+ ', Cje = ' +cje+ ', Cjc = ' +cjc+ ', Phie = ' + vje + ', Me = ' + mje + ', Phic = ' + vjc + ', Mc = ' + mjc + ');'
modelicaCompInit.append(stat)
elif eachline[0]=='m' or eachline[0]=="M":
print "Starting Mosfet"
eachline = eachline.split(words[5])
eachline = eachline[1]
eachline = eachline.strip()
eachline = eachline.replace(' = ', '=').replace('= ','=').replace(' =','=').replace(' * ', '*').replace(' + ', '+').replace(' { ', '').replace(' } ', '')
eachline = eachline.split()
mosInfo[words[0]] = {}
for each in eachline:
if len(each) > 1:
each = each.split('=')
mosInfo[words[0]][each[0]] = each[1]
trans = transInfo[words[5]]
if trans == 'nmos':
start = 'BondLib.Electrical.Analog.Spice.Mn '
else:
start = 'BondLib.Electrical.Analog.Spice.Mp '
vto = self.tryExists(modelInfo,words,5,'vto',0)
gam = self.tryExists(modelInfo,words,5,'gamma',0)
phi = self.tryExists(modelInfo,words,5, 'phi', 0)
ld = self.tryExists(modelInfo,words,5,'ld',0)
uo = self.tryExists(modelInfo,words,5,'uo',0)
lam = self.tryExists(modelInfo,words,5,'lambda',0)
tox = self.tryExists(modelInfo,words,5,'tox',3e-9)
pb = self.tryExists(modelInfo,words,5, 'pb',0.8)
cj = self.tryExists(modelInfo,words,5, 'cj',0)
cjsw = self.tryExists(modelInfo,words,5, 'cjsw',1e-9)
mj = self.tryExists(modelInfo,words,5, 'mj',0.33)
mjsw = self.tryExists(modelInfo,words,5, 'mjsw',0.33)
cgdo = self.tryExists(modelInfo,words,5, 'cgdo',0)
js = self.tryExists(modelInfo,words,5, 'js',0)
cgbo = self.tryExists(modelInfo,words,5, 'cgbo',0)
cgso = self.tryExists(modelInfo,words,5,'cgso',0)
try:
l = mosInfo[words[0]]['l']
except KeyError:
l = '1e-6'
try:
w = mosInfo[words[0]]['w']
except KeyError:
w = '100e-6'
try:
As = mosInfo[words[0]]['as']
ad = mosInfo[words[0]]['ad']
except KeyError:
As = '0'
ad = '0'
try:
ps = mosInfo[words[0]]['ps']
pd = mosInfo[words[0]]['pd']
except KeyError:
ps = '0'
pd = '0'
stat = start + words[0] + '(Tnom = 300, VT0 = ' + vto + ', GAMMA = ' + gam + ', PHI = ' + phi + ', LD = ' +ld+ ', U0 = ' + str(float(uo)*0.0001) + ', LAMBDA = ' + lam + ', TOX = ' +tox+ ', PB = ' + pb + ', CJ = ' +cj+ ', CJSW = ' +cjsw+ ', MJ = ' + mj + ', MJSW = ' + mjsw + ', CGD0 = ' +cgdo+ ', JS = ' +js+ ', CGB0 = ' +cgbo+ ', CGS0 = ' +cgso+ ', L = ' +l+ ', W = ' + w + ', Level = 1' + ', AD = ' + ad + ', AS = ' + As + ', PD = ' + pd + ', PS = ' + ps + ');'
stat = stat.translate(maketrans('{}', ' '))
modelicaCompInit.append(stat)
#Lets start for Subcircuit
for eachline in self.subCktDetail:
print "each Line-------->",eachline
global point
global subname
temp_line = eachline.split()
temp = temp_line[0].split('x')
index = temp[1]
for i in range(0,len(temp_line),1):
if temp_line[i] in subcktName:
subname = temp_line[i]
numNodesSub[subname] = i - 1
point = i
if len(temp_line) > point + 1:
rem = temp_line[point+1:len(temp_line)]
rem_new = ','.join(rem)
stat = subname + ' ' + subname +'_instance' + index + '(' + rem_new + ');'
else:
stat = subname + ' ' + subname +'_instance' + index + ';'
modelicaCompInit.append(stat)
for eachline in compInfo:
words = eachline.split()
#val = words[3]
#value = self.splitIntoVal(val)
value = self.getUnitVal(words[-1])
if eachline[0] == 'r':
stat = 'Analog.Basic.Resistor ' + words[0] + '(R = ' + value + ');'
modelicaCompInit.append(stat)
elif eachline[0] == 'c':
stat = 'Analog.Basic.Capacitor ' + words[0] + '(C = ' + value + ');'
modelicaCompInit.append(stat)
elif eachline[0] == 'l':
stat = 'Analog.Basic.Inductor ' + words[0] + '(L = ' + value + ');'
modelicaCompInit.append(stat)
elif eachline[0] == 'e':
stat = 'Analog.Basic.VCV ' + words[0] + '(gain = ' + self.getUnitVal(words[5]) + ');'
modelicaCompInit.append(stat)
elif eachline[0] == 'g':
stat = 'Analog.Basic.VCC ' + words[0] + '(transConductance = ' + self.getUnitVal(words[5]) + ');'
modelicaCompInit.append(stat)
elif eachline[0] == 'f':
stat = 'Analog.Basic.CCC ' + words[0] + '(gain = ' + self.getUnitVal(words[4]) + ');'
modelicaCompInit.append(stat)
elif eachline[0] == 'h':
stat = 'Analog.Basic.CCV ' + words[0] + '(transResistance = ' + self.getUnitVal(words[4]) + ');'
modelicaCompInit.append(stat)
else:
continue
if '0' in node:
modelicaCompInit.append('Analog.Basic.Ground g;')
return modelicaCompInit, numNodesSub
def getSubInterface(self,subname,numNodesSub):
"""
Get the list of nodes for subcircuit in .subckt line
"""
subOptionInfo_p = []
subSchemInfo_p = []
filename_t = subname + '.sub'
data_p = self.readNetlist(filename_t)
subOptionInfo_p, subSchemInfo_p = self.separateNetlistInfo(data_p)
if len(subOptionInfo_p) > 0:
newline = subOptionInfo_p[0]
newline = newline.split('.subckt '+ subname)
intLine = newline[1].split()
newindex = numNodesSub[subname]
nodesInfoLine = intLine[0:newindex]
return nodesInfoLine
def getSubParamLine(self,subname, numNodesSub, subParamInfo,dir_name):
"""
Take subcircuit name and give the info related to parameters in the first line and initislise it in
"""
#nodeSubInterface = []
subOptionInfo_p = []
subSchemInfo_p = []
filename_t = subname + '.sub'
filename_t = os.path.join(dir_name, filename_t)
data_p = self.readNetlist(filename_t)
subOptionInfo_p, subSchemInfo_p = self.separateNetlistInfo(data_p)
if len(subOptionInfo_p) > 0:
newline = subOptionInfo_p[0]
newline = newline.split('.subckt '+ subname)
intLine = newline[1].split()
print "numNodesSub Index---------->",numNodesSub
newindex = numNodesSub[subname]
appen_line = intLine[newindex:len(intLine)]
appen_param = ','.join(appen_line)
paramLine = 'parameter Real ' + appen_param + ';'
paramLine = paramLine.translate(maketrans('{}', ' '))
subParamInfo.append(paramLine)
return subParamInfo
def nodeSeparate(self,compInfo, ifSub, subname, subcktName,numNodesSub):
"""
separate the node numbers and create nodes in modelica file;
the nodes in the subckt line should not be inside protected keyword. pinInit is the one that goes under protected keyword.
"""
node = []
nodeTemp = []
nodeDic = {}
pinInit = 'Modelica.Electrical.Analog.Interfaces.Pin '
pinProtectedInit = 'Modelica.Electrical.Analog.Interfaces.Pin '
protectedNode = []
print "CompInfo coming to nodeSeparate function: compInfo",compInfo
#Removing '[' and ']' from compInfo for Digital node
for i in range(0,len(compInfo),1):
compInfo[i] = compInfo[i].replace("[","").replace("]","")
for eachline in compInfo:
words = eachline.split()
if eachline[0] in ['m', 'e', 'g', 't','M','E','G','T']:
nodeTemp.append(words[1])
nodeTemp.append(words[2])
nodeTemp.append(words[3])
nodeTemp.append(words[4])
elif eachline[0] in ['q', 'j','J','Q']:
nodeTemp.append(words[1])
nodeTemp.append(words[2])
nodeTemp.append(words[3])
elif eachline[0]=='x' or eachline[0]=='X':
templine = eachline.split()
for i in range(0,len(templine),1):
if templine[i] in subcktName:
point = i
nodeTemp.extend(words[1:point])
else:
nodeTemp.append(words[1])
nodeTemp.append(words[2])
for i in nodeTemp:
if i not in node:
node.append(i)
for i in range(0, len(node),1):
nodeDic[node[i]] = 'n' + node[i]
if ifSub == '0':
if i != len(node)-1:
pinInit = pinInit + nodeDic[node[i]] + ', '
else:
pinInit = pinInit + nodeDic[node[i]]
else:
nonprotectedNode = self.getSubInterface(subname, numNodesSub)
if node[i] in nonprotectedNode:
continue
else:
protectedNode.append(node[i])
if ifSub == '1':
if len(nonprotectedNode) > 0:
for i in range(0, len(nonprotectedNode),1):
if i != len(nonprotectedNode)-1:
pinProtectedInit = pinProtectedInit + nodeDic[nonprotectedNode[i]] + ','
else:
pinProtectedInit = pinProtectedInit + nodeDic[nonprotectedNode[i]]
if len(protectedNode) > 0:
for i in range(0, len(protectedNode),1):
if i != len(protectedNode)-1:
pinInit = pinInit + nodeDic[protectedNode[i]] + ','
else:
pinInit = pinInit + nodeDic[protectedNode[i]]
pinInit = pinInit + ';'
pinProtectedInit = pinProtectedInit + ';'
print "Node---->",node
print "nodeDic----->",nodeDic
print "PinInit----->",pinInit
print "pinProtectedinit--->",pinProtectedInit
return node, nodeDic, pinInit, pinProtectedInit
def connectInfo(self,compInfo, node, nodeDic, numNodesSub,subcktName):
"""
Make node connections in the modelica netlist
"""
connInfo = []
print "compinfo-------->",compInfo
sourcesInfo = self.separateSource(compInfo)
for eachline in compInfo:
words = eachline.split()
print "eachline----->",eachline
print "eachline[0]------->",eachline[0]
if eachline[0]=='r' or eachline[0]=='R' or eachline[0]=='c' or eachline[0]=='C' or eachline[0]=='d' or eachline[0]=='D' \
or eachline[0]=='l' or eachline[0]=='L' or eachline[0]=='v' or eachline[0]=='V':
conn = 'connect(' + words[0] + '.p,' + nodeDic[words[1]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.n,' + nodeDic[words[2]] + ');'
connInfo.append(conn)
elif eachline[0]=='q' or eachline[0]=='Q':
print "Inside Transistor--->"
print "Node Dict------>",nodeDic
conn = 'connect(' + words[0] + '.C,' + nodeDic[words[1]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.B,' + nodeDic[words[2]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.E,' + nodeDic[words[3]] + ');'
connInfo.append(conn)
elif eachline[0]=='m' or eachline[0]=='M':
conn = 'connect(' + words[0] + '.D,' + nodeDic[words[1]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.G,' + nodeDic[words[2]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.S,' + nodeDic[words[3]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.B,' + nodeDic[words[4]] + ');'
connInfo.append(conn)
elif eachline[0] in ['f','h','F','H']:
vsource = words[3]
sourceNodes = sourcesInfo[vsource]
sourceNodes = sourceNodes.split()
conn = 'connect(' + words[0] + '.p1,'+ nodeDic[sourceNodes[0]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.n1,'+ nodeDic[sourceNodes[1]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.p2,'+ nodeDic[words[1]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.n2,'+ nodeDic[words[2]] + ');'
connInfo.append(conn)
elif eachline[0] in ['g','e','G','E']:
conn = 'connect(' + words[0] + '.p1,'+ nodeDic[words[3]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.n1,'+ nodeDic[words[4]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.p2,'+ nodeDic[words[1]] + ');'
connInfo.append(conn)
conn = 'connect(' + words[0] + '.n2,'+ nodeDic[words[2]] + ');'
connInfo.append(conn)
elif eachline[0]=='x' or eachline[0]=='X':
templine = eachline.split()
temp = templine[0].split('x')
index = temp[1]
for i in range(0,len(templine),1):
if templine[i] in subcktName: #Ask Manas Added subcktName in function Call
subname = templine[i]
nodeNumInfo = self.getSubInterface(subname, numNodesSub)
for i in range(0, numNodesSub[subname], 1):
#conn = 'connect(' + subname + '_instance' + index + '.' + nodeDic[nodeNumInfo[i]] + ',' + nodeDic[words[i+1]] + ');'
conn = 'connect(' + subname + '_instance' + index + '.' + 'n'+ nodeNumInfo[i] + ',' + nodeDic[words[i+1]] + ');'
connInfo.append(conn)
else:
continue
if '0' in node:
conn = 'connect(g.p,n0);'
connInfo.append(conn)
return connInfo
def procesSubckt(self,subcktName,numNodesSub,dir_name):
#Process the subcircuit file .sub in the project folder
#subcktDic = {}
subOptionInfo = []
subSchemInfo = []
subModel = []
subModelInfo = {}
subsubName = []
subParamInfo = []
#subinbuiltmodelName = []
#subinbuiltmodelInfo = {}
nodeSubInterface = []
nodeSub = []
nodeDicSub = {}
pinInitsub = []
connSubInfo = []
print "subcktName------------------>",subcktName
if len(subcktName) > 0:
for eachsub in subcktName:
filename = eachsub + '.sub'
data = self.readNetlist(filename)
print "Data-------------------->",data
subOptionInfo, subSchemInfo = self.separateNetlistInfo(data)
print "SubOptionInfo------------------->",subOptionInfo
print "SubSchemInfo-------------------->",subSchemInfo
if len(subOptionInfo) > 0:
newline = subOptionInfo[0]
subInitLine = newline
newline = newline.split('.subckt')
intLine = newline[1].split()
for i in range(0,len(intLine),1):
nodeSubInterface.append(intLine[i])
subModel, subModelInfo, subsubName, subParamInfo,transInfo = self.addModel(subOptionInfo)
print "Sub Model------------------------------------>",subModel
print "SubModelInfo---------------------------------->",subModelInfo
print "subsubName------------------------------------->",subsubName
print "subParamInfo----------------------------------->",subParamInfo
print "transInfo----------------------------------->",transInfo
IfMOSsub = '0'
for eachline in subSchemInfo:
#words = eachline.split()
if eachline[0] == 'm':
IfMOSsub = '1'
break
subsubOptionInfo = []
subsubSchemInfo = []
if len(subsubName) > 0:
#subsubOptionInfo = []
#subsubSchemInfo = []
for eachsub in subsubName:
filename_stemp = eachsub + '.sub'
data = self.readNetlist(filename_stemp)
subsubOptionInfo, subsubSchemInfo = self.separateNetlistInfo(data)
for eachline in subsubSchemInfo:
#words = eachline.split()
if eachline[0] == 'm':
IfMOSsub = '1'
break
print "subsubOptionInfo-------------------------->",subsubOptionInfo
print "subsubSchemInfo-------------------------->",subsubSchemInfo
modelicaSubParam = self.processParam(subParamInfo)
print "modelicaSubParam------------------->",modelicaSubParam
nodeSub, nodeDicSub, pinInitSub, pinProtectedInitSub = self.nodeSeparate(subSchemInfo, '1', eachsub, subsubName,numNodesSub)
print "NodeSub------------------------->",nodeSub
print "NodeDicSub-------------------------->",nodeDicSub
print "PinInitSub-------------------------->",pinInitSub
print "PinProtectedInitSub------------------->",pinProtectedInitSub
modelicaSubCompInit, numNodesSubsub = self.compInit(subSchemInfo, nodeSub, subModelInfo, subsubName,dir_name,transInfo)
print "modelicaSubCompInit--------------------->",modelicaSubCompInit
print "numNodesSubsub-------------------------->",numNodesSubsub
modelicaSubParamNew = self.getSubParamLine(eachsub, numNodesSub, modelicaSubParam,dir_name) ###Ask Manas
print "modelicaSubParamNew----------------->",modelicaSubParamNew
connSubInfo = self.connectInfo(subSchemInfo, nodeSub, nodeDicSub, numNodesSubsub,subcktName)
newname = filename.split('.')
newfilename = newname[0]
outfilename = newfilename+ ".mo"
out = open(outfilename,"w")
out.writelines('model ' + os.path.basename(newfilename))
out.writelines('\n')
if IfMOSsub == '0':
out.writelines('import Modelica.Electrical.*;')
elif IfMOSsub == '1':
out.writelines('import BondLib.Electrical.*;')
out.writelines('\n')
for eachline in modelicaSubParamNew:
if len(subParamInfo) == 0:
continue
else:
out.writelines(eachline)
out.writelines('\n')
for eachline in modelicaSubCompInit:
if len(subSchemInfo) == 0:
continue
else:
out.writelines(eachline)
out.writelines('\n')
out.writelines(pinProtectedInitSub)
out.writelines('\n')
if pinInitSub != 'Modelica.Electrical.Analog.Interfaces.Pin ;':
out.writelines('protected')
out.writelines('\n')
out.writelines(pinInitSub)
out.writelines('\n')
out.writelines('equation')
out.writelines('\n')
for eachline in connSubInfo:
if len(connSubInfo) == 0:
continue
else:
out.writelines(eachline)
out.writelines('\n')
out.writelines('end '+ os.path.basename(newfilename) + ';')
out.writelines('\n')
out.close()
return data, subOptionInfo, subSchemInfo, subModel, subModelInfo, subsubName, \
subParamInfo, modelicaSubCompInit, modelicaSubParam, nodeSubInterface, nodeSub, nodeDicSub, pinInitSub, connSubInfo
def main(args):
"""
It is main function of module Ngspice to Modelica converter
"""
if len(sys.argv) == 2:
filename = sys.argv[1]
else:
print "USAGE:"
print "python NgspicetoModelica.py <filename>"
sys.exit()
dir_name = os.path.dirname(os.path.realpath(filename))
file_basename = os.path.basename(filename)
obj_NgMoConverter = NgMoConverter()
#Getting all the require information
lines = obj_NgMoConverter.readNetlist(filename)
#print "Complete Lines of Ngspice netlist :lines ---------------->",lines
optionInfo, schematicInfo = obj_NgMoConverter.separateNetlistInfo(lines)
#print "All option details like analysis,subckt,.ic,.model : OptionInfo------------------->",optionInfo
#print "Schematic connection info :schematicInfo",schematicInfo
modelName, modelInfo, subcktName, paramInfo,transInfo = obj_NgMoConverter.addModel(optionInfo)
print "Name of Model : modelName-------------------->",modelName
print "Model Information :modelInfo--------------------->",modelInfo
#print "Subcircuit Name :subcktName------------------------>",subcktName
#print "Parameter Information :paramInfo---------------------->",paramInfo
modelicaParamInit = obj_NgMoConverter.processParam(paramInfo)
#print "Make modelicaParamInit from paramInfo :processParamInit------------->",modelicaParamInit
compInfo, plotInfo = obj_NgMoConverter.separatePlot(schematicInfo)
print "Info like run etc : CompInfo----------------->",compInfo
#print "Plot info like plot,print etc :plotInfo",plotInfo
IfMOS = '0'
for eachline in compInfo:
words = eachline.split()
if eachline[0] == 'm':
IfMOS = '1'
break
subOptionInfo = []
subSchemInfo = []
if len(subcktName) > 0:
#subOptionInfo = []
#subSchemInfo = []
for eachsub in subcktName:
filename_temp = eachsub + '.sub'
data = obj_NgMoConverter.readNetlist(filename_temp)
subOptionInfo, subSchemInfo = obj_NgMoConverter.separateNetlistInfo(data)
for eachline in subSchemInfo:
words = eachline.split()
if eachline[0] == 'm':
IfMOS = '1'
break
#print "Subcircuit OptionInfo : subOptionInfo------------------->",subOptionInfo
#print "Subcircuit Schematic Info :subSchemInfo-------------------->",subSchemInfo
node, nodeDic, pinInit, pinProtectedInit = obj_NgMoConverter.nodeSeparate(compInfo, '0', [], subcktName,[])
print "All nodes in the netlist :node---------------->",node
print "NodeDic which will be used for modelica : nodeDic------------->",nodeDic
#print "PinInit-------------->",pinInit
#print "pinProtectedInit----------->",pinProtectedInit
modelicaCompInit, numNodesSub = obj_NgMoConverter.compInit(compInfo,node, modelInfo, subcktName,dir_name,transInfo)
print "ModelicaComponents : modelicaCompInit----------->",modelicaCompInit
print "SubcktNumNodes : numNodesSub---------------->",numNodesSub
connInfo = obj_NgMoConverter.connectInfo(compInfo, node, nodeDic, numNodesSub,subcktName)
#print "ConnInfo------------------>",connInfo
###After Sub Ckt Func
if len(subcktName) > 0:
data, subOptionInfo, subSchemInfo, subModel, subModelInfo, subsubName,subParamInfo, modelicaSubCompInit, modelicaSubParam,\
nodeSubInterface,nodeSub, nodeDicSub, pinInitSub, connSubInfo = obj_NgMoConverter.procesSubckt(subcktName,numNodesSub,dir_name) #Adding 'numNodesSub' by Fahim
#Creating Final Output file
newfile = filename.split('.')
newfilename = newfile[0]
outfile = newfilename + ".mo"
out = open(outfile,"w")
out.writelines('model ' + os.path.basename(newfilename))
out.writelines('\n')
if IfMOS == '0':
out.writelines('import Modelica.Electrical.*;')
elif IfMOS == '1':
out.writelines('import BondLib.Electrical.*;')
#out.writelines('import Modelica.Electrical.*;')
out.writelines('\n')
for eachline in modelicaParamInit:
if len(paramInfo) == 0:
continue
else:
out.writelines(eachline)
out.writelines('\n')
for eachline in modelicaCompInit:
if len(compInfo) == 0:
continue
else:
out.writelines(eachline)
out.writelines('\n')
out.writelines('protected')
out.writelines('\n')
out.writelines(pinInit)
out.writelines('\n')
out.writelines('equation')
out.writelines('\n')
for eachline in connInfo:
if len(connInfo) == 0:
continue
else:
out.writelines(eachline)
out.writelines('\n')
out.writelines('end '+ os.path.basename(newfilename) + ';')
out.writelines('\n')
out.close()
# Call main function
if __name__ == '__main__':
main(sys.argv)
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