From 61ceb24d4b98e4aa719baddcfaedbcdee239f867 Mon Sep 17 00:00:00 2001 From: Fahim Date: Thu, 1 Oct 2015 14:41:09 +0530 Subject: 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. --- src/frontEnd/Application.py | 52 +- src/frontEnd/Application.py.bkp | 363 -------- src/kicadtoNgspice/KicadtoNgspice.py.bkp | 671 -------------- src/ngspicetoModelica/NgspicetoModelica.py | 1302 +++++++++++++++------------- src/projManagement/Validation.py | 9 +- 5 files changed, 720 insertions(+), 1677 deletions(-) delete mode 100755 src/frontEnd/Application.py.bkp delete mode 100644 src/kicadtoNgspice/KicadtoNgspice.py.bkp diff --git a/src/frontEnd/Application.py b/src/frontEnd/Application.py index c72422c1..58f5e46b 100755 --- a/src/frontEnd/Application.py +++ b/src/frontEnd/Application.py @@ -222,16 +222,16 @@ class Application(QtGui.QMainWindow): print "Nghdl is called" self.obj_appconfig.print_info('Nghdl is called') - try: + if self.obj_validation.validateTool('nghdl'): self.cmd = 'nghdl' self.obj_workThread = Worker.WorkerThread(self.cmd) self.obj_workThread.start() - except Exception as e: + else: self.msg = QtGui.QErrorMessage(None) - self.msg.showMessage('Error while opening nghdl' + str(e)) - self.obj_appconfig.print_error('Error while opening nghdl' + str(e)) - self.msg.setWindowTitle("Error Message") + self.msg.showMessage('Error while opening nghdl. Please make sure nghdl is installed') + self.obj_appconfig.print_error('Error while opening nghdl. Please make sure nghdl is installed') + self.msg.setWindowTitle('nghdl Error Message') @@ -291,16 +291,23 @@ class Application(QtGui.QMainWindow): self.obj_workThread1 = Worker.WorkerThread(self.cmd1) self.obj_workThread1.start() - try: + + if self.obj_validation.validateTool("OMEdit"): #Creating command to run OMEdit self.cmd2 = "OMEdit "+self.modelicaNetlist self.obj_workThread2 = Worker.WorkerThread(self.cmd2) self.obj_workThread2.start() - except Exception as e: - self.msg = QtGui.QErrorMessage() - self.msg.showMessage('There was error while opening OMEdit :'+str(e)) + else: + self.msg = QtGui.QMessageBox() + self.msgContent = "There was an error while opening OMEdit.
\ + Please make sure OpenModelica is installed in your system.
\ + To install it on Linux : Go to OpenModelica Linux and install nigthly build release.
\ + To install it on Windows : Go to OpenModelica Windows and install latest version.
" + self.msg.setTextFormat(QtCore.Qt.RichText) + self.msg.setText(self.msgContent) self.msg.setWindowTitle("Error Message") - self.obj_appconfig.print_error(str(e)) + self.obj_appconfig.print_info(self.msgContent) + self.msg.exec_() except Exception as e: self.msg = QtGui.QErrorMessage() @@ -321,14 +328,23 @@ class Application(QtGui.QMainWindow): def open_OMoptim(self): print "OM Optim is called" self.obj_appconfig.print_info('OM Optim is called') - #Creating a command to run - self.cmd = "OMOptim" - self.obj_workThread = Worker.WorkerThread(self.cmd) - self.obj_workThread.start() - - def testing(self): - print "Success hit kicad button" - + #Check if OMOptim is installed + if self.obj_validation.validateTool("OMOptim"): + #Creating a command to run + self.cmd = "OMOptim" + self.obj_workThread = Worker.WorkerThread(self.cmd) + self.obj_workThread.start() + else: + self.msg = QtGui.QMessageBox() + self.msgContent = "There was an error while opening OMOptim.
\ + Please make sure OpenModelica is installed in your system.
\ + To install it on Linux : Go to OpenModelica Linux and install nigthly build release.
\ + To install it on Windows : Go to OpenModelica Windows and install latest version.
" + self.msg.setTextFormat(QtCore.Qt.RichText) + self.msg.setText(self.msgContent) + self.msg.setWindowTitle("Error Message") + self.obj_appconfig.print_info(self.msgContent) + self.msg.exec_() class MainView(QtGui.QWidget): """ diff --git a/src/frontEnd/Application.py.bkp b/src/frontEnd/Application.py.bkp deleted file mode 100755 index 408cd967..00000000 --- a/src/frontEnd/Application.py.bkp +++ /dev/null @@ -1,363 +0,0 @@ -#=============================================================================== -# -# FILE: Application.py -# -# USAGE: --- -# -# DESCRIPTION: This main file use to start the Application -# -# OPTIONS: --- -# REQUIREMENTS: --- -# BUGS: --- -# NOTES: --- -# AUTHOR: Fahim Khan, fahim.elex@gmail.com -# ORGANIZATION: eSim team at FOSSEE, IIT Bombay. -# CREATED: Wednesday 21 January 2015 -# REVISION: --- -#=============================================================================== -import os -import sys -#Setting PYTHONPATH -cwd = os.getcwd() -(setPath,fronEnd) = os.path.split(cwd) -sys.path.append(setPath) - -from PyQt4 import QtGui, QtCore -from configuration.Appconfig import Appconfig -from projManagement.openProject import OpenProjectInfo -from projManagement.newProject import NewProjectInfo -from projManagement.Kicad import Kicad -from frontEnd import ProjectExplorer -from frontEnd import Workspace -from frontEnd import DockArea -import time -from PyQt4.Qt import QSize - - -class Application(QtGui.QMainWindow): - global project_name - """ - Its our main window of application - """ - def __init__(self,*args): - """ - Initialize main Application window - """ - #Calling __init__ of super class - QtGui.QMainWindow.__init__(self,*args) - - #Creating require Object - self.obj_workspace = Workspace.Workspace() - self.obj_kicad = Kicad() - self.obj_Mainview = MainView() - self.obj_appconfig = Appconfig() - - #Initialize all widget - self.setCentralWidget(self.obj_Mainview) - self.initToolBar() - - self.setGeometry(self.obj_appconfig._app_xpos, - self.obj_appconfig._app_ypos, - self.obj_appconfig._app_width, - self.obj_appconfig._app_heigth) - self.setWindowTitle(self.obj_appconfig._APPLICATION) - self.showMaximized() - self.setWindowIcon(QtGui.QIcon('../../images/logo.png')) - #self.show() - - - def initToolBar(self): - """ - This function initialize Tool Bar - """ - #Top Tool bar - self.newproj = QtGui.QAction(QtGui.QIcon('../../images/newProject.png'),'New Project',self) - self.newproj.setShortcut('Ctrl+N') - self.newproj.triggered.connect(self.new_project) - #self.newproj.connect(self.newproj,QtCore.SIGNAL('triggered()'),self,QtCore.SLOT(self.new_project())) - - self.openproj = QtGui.QAction(QtGui.QIcon('../../images/openProject.png'),'Open Project',self) - self.openproj.setShortcut('Ctrl+O') - self.openproj.triggered.connect(self.open_project) - - self.exitproj = QtGui.QAction(QtGui.QIcon('../../images/closeProject.png'),'Exit',self) - self.exitproj.setShortcut('Ctrl+X') - self.exitproj.triggered.connect(self.exit_project) - - self.helpfile = QtGui.QAction(QtGui.QIcon('../../images/helpProject.png'),'Help',self) - self.helpfile.setShortcut('Ctrl+H') - self.helpfile.triggered.connect(self.help_project) - - self.topToolbar = self.addToolBar('Top Tool Bar') - self.topToolbar.addAction(self.newproj) - self.topToolbar.addAction(self.openproj) - self.topToolbar.addAction(self.exitproj) - self.topToolbar.addAction(self.helpfile) - - self.spacer = QtGui.QWidget() - self.spacer.setSizePolicy(QtGui.QSizePolicy.Expanding,QtGui.QSizePolicy.Expanding) - self.topToolbar.addWidget(self.spacer) - self.logo = QtGui.QLabel() - self.logopic = QtGui.QPixmap(os.path.join(os.path.abspath('../..'),'images','fosseeLogo.png')) - self.logopic = self.logopic.scaled(QSize(150,150),QtCore.Qt.KeepAspectRatio) - self.logo.setPixmap(self.logopic) - self.logo.setStyleSheet("padding:0 15px 0 0;") - self.topToolbar.addWidget(self.logo) - - #Left Tool bar Action Widget - self.kicad = QtGui.QAction(QtGui.QIcon('../../images/kicad.png'),'Open Schematic',self) - self.kicad.triggered.connect(self.obj_kicad.openSchematic) - - self.conversion = QtGui.QAction(QtGui.QIcon('../../images/ki-ng.png'),'Convert Kicad to Ngspice',self) - self.conversion.triggered.connect(self.obj_kicad.openKicadToNgspice) - - self.ngspice = QtGui.QAction(QtGui.QIcon('../../images/ngspice.png'), 'Simulation', self) - self.ngspice.triggered.connect(self.open_ngspice) - - self.footprint = QtGui.QAction(QtGui.QIcon('../../images/footprint.png'),'Footprint Editor',self) - self.footprint.triggered.connect(self.obj_kicad.openFootprint) - - self.pcb = QtGui.QAction(QtGui.QIcon('../../images/pcb.png'),'PCB Layout',self) - self.pcb.triggered.connect(self.obj_kicad.openLayout) - - self.model = QtGui.QAction(QtGui.QIcon('../../images/model.png'),'Model Editor',self) - self.model.triggered.connect(self.open_modelEditor) - - self.subcircuit=QtGui.QAction(QtGui.QIcon('../../images/subckt.png'),'Subcircuit',self) - self.subcircuit.triggered.connect(self.open_subcircuit) - - #Adding Action Widget to tool bar - self.lefttoolbar = QtGui.QToolBar('Left ToolBar') - self.addToolBar(QtCore.Qt.LeftToolBarArea, self.lefttoolbar) - self.lefttoolbar.addAction(self.kicad) - self.lefttoolbar.addAction(self.conversion) - self.lefttoolbar.addAction(self.ngspice) - self.lefttoolbar.addAction(self.footprint) - self.lefttoolbar.addAction(self.pcb) - self.lefttoolbar.addAction(self.model) - self.lefttoolbar.addAction(self.subcircuit) - self.lefttoolbar.setOrientation(QtCore.Qt.Vertical) - self.lefttoolbar.setIconSize(QSize(40,40)) - - - def new_project(self): - """ - This function call New Project Info class. - """ - text, ok = QtGui.QInputDialog.getText(self, 'New Project Info','Enter Project Name:') - if ok: - self.projname = (str(text)) - self.project = NewProjectInfo() - directory, filelist =self.project.createProject(self.projname) - - self.obj_Mainview.obj_projectExplorer.addTreeNode(directory, filelist) - - else: - print "No project created" - self.obj_appconfig.print_info('No new project created') - try: - self.obj_appconfig.print_info('Current project is : ' + self.obj_appconfig.current_project["ProjectName"]) - except: - pass - def open_project(self): - """ - This project call Open Project Info class - """ - print "Open Project called" - self.project = OpenProjectInfo() - - try: - directory, filelist = self.project.body() - self.obj_Mainview.obj_projectExplorer.addTreeNode(directory, filelist) - except: - pass - - def open_ngspice(self): - """ - This Function execute ngspice on current project - """ - - self.projDir = self.obj_appconfig.current_project["ProjectName"] - - if self.projDir != None: - self.obj_Mainview.obj_dockarea.ngspiceEditor(self.projDir) - time.sleep(2) #Need permanent solution - #Calling Python Plotting - - try: - self.obj_Mainview.obj_dockarea.plottingEditor() - except Exception as e: - self.msg = QtGui.QErrorMessage(None) - self.msg.showMessage('Error while opening python plotting Editor.') - print "Exception:",str(e) - self.obj_appconfig.print_error('Exception generated : ' + str(e)) - self.msg.setWindowTitle("Error Message") - - else: - self.msg = QtGui.QErrorMessage() - self.msg.showMessage('Please select the project first. You can either create new project or open existing project') - self.msg.setWindowTitle("Error Message") - - def open_subcircuit(self): - print "Subcircuit editor is called" - self.obj_appconfig.print_info('Subcircuit editor is called') - self.obj_Mainview.obj_dockarea.subcircuiteditor() - - - def exit_project(self): - print "Exit Project called" - for proc in self.obj_appconfig.procThread_list: - try: - proc.terminate() - except: - pass - ##Just checking if open and New window is open. If yes just close it when application is closed - try: - self.project.close() - except: - pass - - self.close() - - def help_project(self): - print "Help is called" - self.obj_appconfig.print_info('Help is called') - print "Current Project : ",self.obj_appconfig.current_project - #self.obj_appconfig.print_info('Current Project : ' + self.obj_appconfig.current_project['ProjectName']) - #self.obj_Mainview.obj_dockarea.plottingEditor() - - - def open_modelEditor(self): - print "model editor is called" - self.obj_appconfig.print_info('model editor is called') - self.obj_Mainview.obj_dockarea.modelEditor() - - def testing(self): - print "Success hit kicad button" - - -class MainView(QtGui.QWidget): - """ - This class initialize the Main View of Application - """ - def __init__(self, *args): - # call init method of superclass - QtGui.QWidget.__init__(self, *args) - - self.obj_appconfig = Appconfig() - - self.leftSplit = QtGui.QSplitter() - self.middleSplit = QtGui.QSplitter() - - self.mainLayout = QtGui.QVBoxLayout() - #Intermediate Widget - self.middleContainer = QtGui.QWidget() - self.middleContainerLayout = QtGui.QVBoxLayout() - - #Area to be included in MainView - self.noteArea = QtGui.QTextEdit() - self.obj_appconfig.noteArea['Note'] = self.noteArea - self.obj_appconfig.noteArea['Note'].append(' eSim Started......') - self.obj_appconfig.noteArea['Note'].append('Project Selected : None') - self.obj_appconfig.noteArea['Note'].append('\n') - - #CSS - self.noteArea.setStyleSheet(" \ - QWidget { border-radius: 15px; border: 1px solid gray; padding: 5px; } \ - ") - - self.obj_dockarea = DockArea.DockArea() - self.obj_projectExplorer = ProjectExplorer.ProjectExplorer() - - #Adding content to vertical middle Split. - self.middleSplit.setOrientation(QtCore.Qt.Vertical) - self.middleSplit.addWidget(self.obj_dockarea) - self.middleSplit.addWidget(self.noteArea) - - #Adding middle split to Middle Container Widget - self.middleContainerLayout.addWidget(self.middleSplit) - self.middleContainer.setLayout(self.middleContainerLayout) - - #Adding content of left split - self.leftSplit.addWidget(self.obj_projectExplorer) - self.leftSplit.addWidget(self.middleContainer) - - - #Adding to main Layout - self.mainLayout.addWidget(self.leftSplit) - self.leftSplit.setSizes([self.width()/4.5,self.height()]) - self.middleSplit.setSizes([self.width(),self.height()/2]) - self.setLayout(self.mainLayout) - - -def main(args): - """ - It is main function of the module.It starts the application - """ - print "Starting eSim......" - app = QtGui.QApplication(args) - - splash_pix = QtGui.QPixmap('../../images/splash_screen_esim.png') - splash = QtGui.QSplashScreen(splash_pix,QtCore.Qt.WindowStaysOnTopHint) - splash.setMask(splash_pix.mask()) - splash.show() - #QtGui.QApplication.setStyle(QtGui.QStyleFactory.create("Cleanlooks")) - appView = Application() - appView.splash=splash - appView.obj_workspace.returnWhetherClickedOrNot(appView) - appView.hide() - appView.obj_workspace.show() - sys.exit(app.exec_()) - #appView.hide() - ######################################################################################################################################## - - """splash_pix = QtGui.QPixmap('../images/splash_screen_esim.png') - splash = QtGui.QSplashScreen(splash_pix,QtCore.Qt.WindowStaysOnTopHint) - progressBar = QtGui.QProgressBar(splash) - progressBar.setGeometry(0,470,1004,20) - splash.setMask(splash_pix.mask()) - splash.show() - - for i in range(0, 100): - progressBar.setValue(i) - #cond=threading.Condition() - if i==50: - - appView = Application() - appView.hide() - #appView.obj_workspace.returnWhetherClickedOrNot(appView) - appView.obj_workspace.show() - #appView.obj_workspace.show() - appView.obj_workspace.calledFromApplicationToAssignSysAndApp(sys,app)#`11 ,cond) - #with cond: - #cond.wait() - - t = time.time() - while time.time() < t + 0.1: - app.processEvents() - - #time.sleep(2) - - #appView = Application() - #appView.hide() - splash.finish(appView) - #sys.exit(app.exec_()) - - #QtGui.QApplication.setStyle(QtGui.QStyleFactory.create("Cleanlooks")) - #appView.obj_workspace.returnWhetherClickedOrNot(appView) - #appView.obj_workspace.show() - #appView.hide() - - appView.show() - sys.exit(app.exec_())""" -###################################################################################################################################################### - - - -# Call main function -if __name__ == '__main__': - # Create and display the splash screen - main(sys.argv) - - - 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 diff --git a/src/ngspicetoModelica/NgspicetoModelica.py b/src/ngspicetoModelica/NgspicetoModelica.py index 0e326f17..a80b2248 100644 --- a/src/ngspicetoModelica/NgspicetoModelica.py +++ b/src/ngspicetoModelica/NgspicetoModelica.py @@ -1,640 +1,694 @@ - - - import sys -import os.path +import os from string import maketrans -def readNetlist(filename): - """Read Ngspice Netlist""" - 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.translate(maketrans('\n+', ' ')) - f.close() - return data.splitlines() - - -def separateNetlistInfo(data): - """ Separate schematic data and option data""" - optionInfo=[] - schematicInfo=[] - - for eachline in data: - if len(eachline) > 1: -## if eachline[0] == '+': -## eachline=eachline.translate(maketrans('\n+',' ')) - if eachline[0]=='*': - continue - elif eachline[0]=='.': - optionInfo.append(eachline.lower()) - else: - schematicInfo.append(eachline.lower()) - return optionInfo,schematicInfo - - -def addModel(optionInfo): - """ Add model parameters in the modelica file and create dictionary of model parameters""" - modelName = [] - modelInfo = {} - subcktName = [] - paramInfo = [] - #modelInfo['paramInfo'] = {} - 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) - for eachmodel in modelName: - filename = eachmodel + '.lib' - if os.path.exists(filename): - try: - f = open(filename) - except: - print("Error in opening file") +class NgMoConverter: + def __init__(self): + pass + + def readNetlist(self,filename): + """ + Read Ngspice 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() - else: - print filename + " does not exist" - sys.exit() - - data = f.read() - data = data.lower() - newdata = data.split('(') - newdata = newdata[1].split() - modelInfo[eachmodel] = {} - for eachline in newdata: - if len(eachline) > 1: - info = eachline.split('=') - # modelInfo[eachmodel][info[0]] = {} - for eachitem in info: - modelInfo[eachmodel][info[0]] = info[1] #dic within a dic - #modelInfo[eachmodel] = modelInfo[eachmodel].split() - # modelInfo[eachmodel] = modelInfo[eachmodel].lower() - f.close() - - return modelName, modelInfo, subcktName, paramInfo - - -def processParam(paramInfo): - """ Process parameter info and update in Modelica syntax""" - modelicaParam = [] - for eachline in paramInfo: - eachline = eachline.split('.param') - stat = 'parameter Real ' + eachline[1] + ';' - stat = stat.translate(maketrans('{}', ' ')) - modelicaParam.append(stat) - return modelicaParam - -def separatePlot(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) + data = f.read() + #data = data.translate(maketrans('\n+', ' ')) + f.close() + return data.splitlines() + + def separateNetlistInfo(self,data): + """ + Separate schematic data and option data + """ + optionInfo = [] + schematicInfo = [] + for eachline in data: + if len(eachline) > 1: + #if eachline[0] == '+': + # eachline=eachline.translate(maketrans('\n+',' ')) + if eachline[0]=='*': + continue + elif eachline[0]=='.': + optionInfo.append(eachline.lower()) + else: + schematicInfo.append(eachline.lower()) + return optionInfo,schematicInfo + + def addModel(self,optionInfo): + """ + Add model parameters in the modelica file and create dictionary of model parameters + """ + modelName = [] + modelInfo = {} + subcktName = [] + paramInfo = [] + #modelInfo['paramInfo'] = {} + 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) + + 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.lower() + newdata = data.split('(') + newdata = newdata[1].split() + modelInfo[eachmodel] = {} + + for eachline in newdata: + if len(eachline) > 1: + info = eachline.split('=') + # modelInfo[eachmodel][info[0]] = {} + for eachitem in info: + modelInfo[eachmodel][info[0]] = info[1] #dic within a dic + #modelInfo[eachmodel] = modelInfo[eachmodel].split() + # modelInfo[eachmodel] = modelInfo[eachmodel].lower() + f.close() + return modelName, modelInfo, subcktName, paramInfo + + def processParam(self,paramInfo): + """ + Process parameter info and update in Modelica syntax + """ + modelicaParam = [] + for eachline in paramInfo: + eachline = eachline.split('.param') + stat = 'parameter Real ' + eachline[1] + ';' + 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 splitIntoVal(self,val): + """ + Split the number k,u,p,t,g etc into powers e3,e-6 etc + """ + for i in range(0,len(val),1): + if val[i] in ['k','u','p','t','g','m','n','f']: + newval = val.split(val[i]) + if val[i] == 'k': + value = newval[0] + 'e3' + if val[i] == 'u': + value = newval[0] + 'e-6' + if val[i] == 'p': + value = newval[0] + 'e-12' + if val[i] == 't': + value = newval[0] + 'e12' + if val[i] == 'g': + value = newval[0] + 'e9' + if val[i] == 'm': + if i != len(val)-1: + if val[i+1] == 'e': + value = newval[0] + 'e6' + else: + value = newval[0] +'e-3' + if val[i] == 'n': + value = newval[0] + 'e-9' + if val[i] == 'f': + value = newval[0] +'e-15' + + else: + value = val + return value + + def compInit(self,compInfo, node, modelInfo, subcktName): + """ + For each component in the netlist initialise it acc to Modelica format + """ + #### initial processing to check if MOs is present. If so, library to be used is BondLib + modelicaCompInit = [] + numNodesSub = {} + 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' + data = self.readNetlist(filename_tem) + subOptionInfo, subSchemInfo = self.separateNetlistInfo(data) + for eachline in subSchemInfo: + #words = eachline.split() + if eachline[0] == 'm': + IfMOS = '1' + break + for eachline in compInfo: + words = eachline.split() + val = words[3] + value = self.splitIntoVal(val) + 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.splitIntoVal(words[5]) + ');' + modelicaCompInit.append(stat) + elif eachline[0] == 'g': + stat = 'Analog.Basic.VCC ' + words[0] + '(transConductance = ' + self.splitIntoVal(words[5]) + ');' + modelicaCompInit.append(stat) + elif eachline[0] == 'f': + stat = 'Analog.Basic.CCC ' + words[0] + '(gain = ' + self.splitIntoVal(words[4]) + ');' + modelicaCompInit.append(stat) + elif eachline[0] == 'h': + stat = 'Analog.Basic.CCV ' + words[0] + '(transResistance = ' + self.splitIntoVal(words[4]) + ');' + modelicaCompInit.append(stat) + elif eachline[0] == 'd': + if len(words) > 3: + n = float(modelInfo[words[3]]['n']) + vt_temp = 0.025*n + vt = str(vt_temp) + stat = 'Analog.Semiconductors.Diode ' + words[0] + '(Ids = ' + modelInfo[words[3]]['is'] + ', Vt = ' + vt + ', R = 1e12' +');' + else: + stat = 'Analog.Semiconductors.Diode ' + words[0] +';' + modelicaCompInit.append(stat) + elif eachline[0] == 'm': + line_l = words[7].split('=') + line_w = words[8].split('=') + line_pd = words[9].split('=') + line_ps = words[10].split('=') + line_ad = words[11].split('=') + line_as = words[12].split('=') + if words[5] == "mos_n" or words[5] == "mosfet_n": + start = 'BondLib.Electrical.Analog.Spice.Mn ' + if words[5] == "mos_p" or words[5] == "mosfet_p": + start = 'BondLib.Electrical.Analog.Spice.Mp ' + stat = start + words[0] + '(Tnom = 300, VT0 = ' + modelInfo[\ + words[5]]['vto'] + ', GAMMA = ' + modelInfo[words[5]]['gamma'] +\ + ', PHI = ' + modelInfo[words[5]]['phi'] + ', LD = ' + self.splitIntoVal(modelInfo[words[5]]['ld'])\ + + ', U0 = ' + str(float(self.splitIntoVal(modelInfo[words[5]]['uo']))*0.0001) + ', LAMBDA = ' \ + + modelInfo[words[5]]['lambda'] + ', TOX = ' + self.splitIntoVal(modelInfo[words[5]]['tox']) \ + + ', PB = ' + modelInfo[words[5]]['pb'] + ', CJ = ' + self.splitIntoVal(modelInfo[words[5]]['cj']) \ + + ', CJSW = ' + self.splitIntoVal(modelInfo[words[5]]['cjsw']) + ', MJ = ' + modelInfo[words[5]]['mj'] \ + + ', MJSW = ' + modelInfo[words[5]]['mjsw'] + ', CGD0 = ' + self.splitIntoVal(modelInfo[words[5]]['cgdo']) \ + + ', JS = ' + self.splitIntoVal(modelInfo[words[5]]['js']) + ', CGB0 = ' + self.splitIntoVal(modelInfo[words[5]]['cgbo']) \ + + ', CGS0 = ' + self.splitIntoVal(modelInfo[words[5]]['cgso']) + ', L = ' + self.splitIntoVal(line_l[1]) + ', W = ' \ + + line_w[1] + ', Level = 1' + ', AD = ' + line_ad[1] + ', AS = ' + line_as[1] + ', PD = ' \ + + line_pd[1] + ', PS = ' + line_pd[1] + ');' + stat = stat.translate(maketrans('{}', ' ')) + modelicaCompInit.append(stat) + elif eachline[0] == 'v': + typ = words[3].split('(') + if typ[0] == "pulse": + per = words[9].split(')') + #if IfMOS == '0': + #stat = 'Spice3.Sources.V_pulse '+words[0]+'(TR = '+words[6]+', V2 = '+words[4]+', PW = '+words[8]+', PER = '+per[0]+', V1 = '+typ[1]+', TD = '+words[5]+', TF = '+words[7]+');' + #elif IfMOS == '1': + stat = 'Analog.Sources.TrapezoidVoltage '+words[0]+'(rising = '+words[6]+', V = '+words[4]\ + +', width = '+words[8]+', period = '+per[0]+', offset = '+typ[1]+', startTime = '+words[5]+', falling = '+words[7]+');' + modelicaCompInit.append(stat) + if typ[0] == "sine": + theta = words[7].split(')') + #if IfMOS == '0': + #stat = 'Spice3.Sources.V_sin '+words[0]+'(VO = '+typ[1]+', VA = '+words[4]+', FREQ = '+words[5]+', TD = '+words[6]+', THETA = '+theta[0]+');' + #elif IfMOS == '1': + stat = 'Analog.Sources.SineVoltage '+words[0]+'(offset = '+typ[1]+', V = '+words[4]+', freqHz = '+words[5]+', startTime = '+words[6]+', phase = '+theta[0]+');' + modelicaCompInit.append(stat) + if typ[0] == "pwl": + #if IfMOS == '0': + #keyw = 'Spice3.Sources.V_pwl ' + #elif IfMOS == '1': + keyw = 'Analog.Sources.TableVoltage ' + stat = keyw + words[0] + '(table = [' + typ[1] + ',' + 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": + val_temp = typ[0].split('v') + #if IfMOS == '0': + stat = 'Analog.Sources.ConstantVoltage ' + words[0] + '(V = ' + val_temp[0] + ');' + #elif IfMOS == '1': + #stat = 'Analog.Sources.ConstantVoltage ' + words[0] + '(V = ' + val_temp[0] + ');' + modelicaCompInit.append(stat) + elif typ[0] == words[3] and typ[0] == "dc": + #if IfMOS == '0': + #stat = 'Spice3.Sources.V_constant ' + words[0] + '(V = ' + words[4] + ');' ### check this + #elif IfMOS == '1': + stat = 'Analog.Sources.ConstantVoltage ' + words[0] + '(V = ' + words[4] + ');' ### check this + modelicaCompInit.append(stat) + + elif eachline[0] == 'x': + 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) + 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): + """ + 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' + 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] + 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): + """ + 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 = [] + for eachline in compInfo: + words = eachline.split() + if eachline[0] in ['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']: + nodeTemp.append(words[1]) + nodeTemp.append(words[2]) + nodeTemp.append(words[3]) + elif 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)#self.getSubInterface(subname, numNodesSub) #Need to ask Manas then uncomment + 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 + ';' + return node, nodeDic, pinInit, pinProtectedInit + + + def connectInfo(self,compInfo, node, nodeDic, numNodesSub,subcktName): + """ + Make node connections in the modelica netlist + """ + connInfo = [] + sourcesInfo = self.separateSource(compInfo) + for eachline in compInfo: + words = eachline.split() + if eachline[0] == 'r' or eachline[0] == 'c' or eachline[0] == 'd' or eachline[0] == 'l' 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] == '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']: + 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']: + 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': + templine = eachline.split() + temp = templine[0].split('x') + index = temp[1] + for i in range(0,len(templine),1): + print "Test------------------>" + 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): + + #Process the subcircuit file .sub in the project folder + + #subcktDic = {} + subOptionInfo = [] + subSchemInfo = [] + subModel = [] + subModelInfo = {} + subsubName = [] + subParamInfo = [] + nodeSubInterface = [] + nodeSub = [] + nodeDicSub = {} + pinInitsub = [] + connSubInfo = [] + + if len(subcktName) > 0: + for eachsub in subcktName: + filename = eachsub + '.sub' + data = self.readNetlist(filename) + subOptionInfo, subSchemInfo = self.separateNetlistInfo(data) + 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 = self.addModel(subOptionInfo) + IfMOSsub = '0' + for eachline in subSchemInfo: + #words = eachline.split() + if eachline[0] == 'm': + IfMOSsub = '1' + break + 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 + modelicaSubParam = self.processParam(subParamInfo) + nodeSub, nodeDicSub, pinInitSub, pinProtectedInitSub = self.nodeSeparate(subSchemInfo, '1', eachsub, subsubName) + modelicaSubCompInit, numNodesSubsub = self.compInit(subSchemInfo, nodeSub, subModelInfo, subsubName) + modelicaSubParamNew = self.getSubParamLine(eachsub, numNodesSubsub, modelicaSubParam) ###Ask Manas + 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: - compInfo.append(eachline) - return compInfo, plotInfo - -def separateSource(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: - 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 splitIntoVal(val): - """ Split the number k,u,p,t,g etc into powers e3,e-6 etc""" - for i in range(0,len(val),1): - if val[i] in ['k','u','p','t','g','m','n','f']: - newval = val.split(val[i]) - if val[i] == 'k': - value = newval[0] + 'e3' - if val[i] == 'u': - value = newval[0] + 'e-6' - if val[i] == 'p': - value = newval[0] + 'e-12' - if val[i] == 't': - value = newval[0] + 'e12' - if val[i] == 'g': - value = newval[0] + 'e9' - if val[i] == 'm': - if i != len(val)-1: - if val[i+1] == 'e': - value = newval[0] + 'e6' - else: - value = newval[0] +'e-3' - if val[i] == 'n': - value = newval[0] + 'e-9' - if val[i] == 'f': - value = newval[0] +'e-15' - else: - value = val - return value - - -def compInit(compInfo, node, modelInfo, subcktName): - """For each component in the netlist initialise it acc to Modelica format""" -#### initial processign to check if MOs is present. If so, library to be used is BondLib - modelicaCompInit = [] - numNodesSub = {} - 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' - data = readNetlist(filename_tem) - subOptionInfo, subSchemInfo = separateNetlistInfo(data) - for eachline in subSchemInfo: -# words = eachline.split() + print "USAGE:" + print "python NgspicetoModelica.py " + sys.exit() + + obj_NgMoConverter = NgMoConverter() + #Getting all the require information + lines = obj_NgMoConverter.readNetlist(filename) + optionInfo, schematicInfo=obj_NgMoConverter.separateNetlistInfo(lines) + modelName, modelInfo, subcktName, paramInfo = obj_NgMoConverter.addModel(optionInfo) + modelicaParamInit = obj_NgMoConverter.processParam(paramInfo) + compInfo, plotInfo = obj_NgMoConverter.separatePlot(schematicInfo) + IfMOS = '0' + + for eachline in compInfo: + words = eachline.split() if eachline[0] == 'm': - IfMOS = '1' - break - for eachline in compInfo: - words = eachline.split() - val = words[3] - value = splitIntoVal(val) - 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 = ' + splitIntoVal(words[5]) + ');' - modelicaCompInit.append(stat) - elif eachline[0] == 'g': - stat = 'Analog.Basic.VCC ' + words[0] + '(transConductance = ' + splitIntoVal(words[5]) + ');' - modelicaCompInit.append(stat) - elif eachline[0] == 'f': - stat = 'Analog.Basic.CCC ' + words[0] + '(gain = ' + splitIntoVal(words[4]) + ');' - modelicaCompInit.append(stat) - elif eachline[0] == 'h': - stat = 'Analog.Basic.CCV ' + words[0] + '(transResistance = ' + splitIntoVal(words[4]) + ');' - modelicaCompInit.append(stat) - elif eachline[0] == 'd': - if len(words) > 3: - n = float(modelInfo[words[3]]['n']) - vt_temp = 0.025*n - vt = str(vt_temp) - stat = 'Analog.Semiconductors.Diode ' + words[0] + '(Ids = ' + modelInfo[words[3]]['is'] + ', Vt = ' + vt + ', R = 1e12' +');' - else: - stat = 'Analog.Semiconductors.Diode ' + words[0] +';' - modelicaCompInit.append(stat) - elif eachline[0] == 'm': - line_l = words[7].split('=') - line_w = words[8].split('=') - line_pd = words[9].split('=') - line_ps = words[10].split('=') - line_ad = words[11].split('=') - line_as = words[12].split('=') - if words[5] == "mos_n" or words[5] == "mosfet_n": - start = 'BondLib.Electrical.Analog.Spice.Mn ' - if words[5] == "mos_p" or words[5] == "mosfet_p": - start = 'BondLib.Electrical.Analog.Spice.Mp ' - stat = start + words[0] + '(Tnom = 300, VT0 = ' + modelInfo[words[5]]['vto'] + ', GAMMA = ' + modelInfo[words[5]]['gamma'] + ', PHI = ' + modelInfo[words[5]]['phi'] + ', LD = ' + splitIntoVal(modelInfo[words[5]]['ld']) + ', U0 = ' + str(float(splitIntoVal(modelInfo[words[5]]['uo']))*0.0001) + ', LAMBDA = ' + modelInfo[words[5]]['lambda'] + ', TOX = ' + splitIntoVal(modelInfo[words[5]]['tox']) + ', PB = ' + modelInfo[words[5]]['pb'] + ', CJ = ' + splitIntoVal(modelInfo[words[5]]['cj']) + ', CJSW = ' + splitIntoVal(modelInfo[words[5]]['cjsw']) + ', MJ = ' + modelInfo[words[5]]['mj'] + ', MJSW = ' + modelInfo[words[5]]['mjsw'] + ', CGD0 = ' + splitIntoVal(modelInfo[words[5]]['cgdo']) + ', JS = ' + splitIntoVal(modelInfo[words[5]]['js']) + ', CGB0 = ' + splitIntoVal(modelInfo[words[5]]['cgbo']) + ', CGS0 = ' + splitIntoVal(modelInfo[words[5]]['cgso']) + ', L = ' + splitIntoVal(line_l[1]) + ', W = ' + line_w[1] + ', Level = 1' + ', AD = ' + line_ad[1] + ', AS = ' + line_as[1] + ', PD = ' + line_pd[1] + ', PS = ' + line_pd[1] + ');' - stat = stat.translate(maketrans('{}', ' ')) - modelicaCompInit.append(stat) - elif eachline[0] == 'v': - typ = words[3].split('(') - if typ[0] == "pulse": - per = words[9].split(')') - # if IfMOS == '0': - # stat = 'Spice3.Sources.V_pulse '+words[0]+'(TR = '+words[6]+', V2 = '+words[4]+', PW = '+words[8]+', PER = '+per[0]+', V1 = '+typ[1]+', TD = '+words[5]+', TF = '+words[7]+');' - # elif IfMOS == '1': - stat = 'Analog.Sources.TrapezoidVoltage '+words[0]+'(rising = '+words[6]+', V = '+words[4]+', width = '+words[8]+', period = '+per[0]+', offset = '+typ[1]+', startTime = '+words[5]+', falling = '+words[7]+');' - modelicaCompInit.append(stat) - if typ[0] == "sine": - theta = words[7].split(')') -# if IfMOS == '0': -# stat = 'Spice3.Sources.V_sin '+words[0]+'(VO = '+typ[1]+', VA = '+words[4]+', FREQ = '+words[5]+', TD = '+words[6]+', THETA = '+theta[0]+');' -# elif IfMOS == '1': - stat = 'Analog.Sources.SineVoltage '+words[0]+'(offset = '+typ[1]+', V = '+words[4]+', freqHz = '+words[5]+', startTime = '+words[6]+', phase = '+theta[0]+');' - modelicaCompInit.append(stat) - if typ[0] == "pwl": -# if IfMOS == '0': -# keyw = 'Spice3.Sources.V_pwl ' -# elif IfMOS == '1': - keyw = 'Analog.Sources.TableVoltage ' - stat = keyw + words[0] + '(table = [' + typ[1] + ',' + 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": - val_temp = typ[0].split('v') -# if IfMOS == '0': - stat = 'Analog.Sources.ConstantVoltage ' + words[0] + '(V = ' + val_temp[0] + ');' -# elif IfMOS == '1': -# stat = 'Analog.Sources.ConstantVoltage ' + words[0] + '(V = ' + val_temp[0] + ');' - modelicaCompInit.append(stat) - elif typ[0] == words[3] and typ[0] == "dc": -# if IfMOS == '0': -# stat = 'Spice3.Sources.V_constant ' + words[0] + '(V = ' + words[4] + ');' ### check this -# elif IfMOS == '1': - stat = 'Analog.Sources.ConstantVoltage ' + words[0] + '(V = ' + words[4] + ');' ### check this - modelicaCompInit.append(stat) - elif eachline[0] == 'x': - 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) - else: - continue - if '0' in node: - modelicaCompInit.append('Analog.Basic.Ground g;') - return modelicaCompInit, numNodesSub - -def getSubInterface(subname, numNodesSub): - """ Get the list of nodes for subcircuit in .subckt line""" - subOptionInfo_p = [] - subSchemInfo_p = [] - filename_t = subname + '.sub' - data_p = readNetlist(filename_t) - subOptionInfo_p, subSchemInfo_p = 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(subname, numNodesSub, subParamInfo): - """ 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' - data_p = readNetlist(filename_t) - subOptionInfo_p, subSchemInfo_p = separateNetlistInfo(data_p) - if len(subOptionInfo_p) > 0: - newline = subOptionInfo_p[0] - newline = newline.split('.subckt '+ subname) - intLine = newline[1].split() - 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(compInfo, ifSub, subname, subcktName): - """ 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 = [] - for eachline in compInfo: - words = eachline.split() - if eachline[0] in ['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']: - nodeTemp.append(words[1]) - nodeTemp.append(words[2]) - nodeTemp.append(words[3]) - elif 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 = 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]] + ',' + IfMOS = '1' + break + 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 + + node, nodeDic, pinInit, pinProtectedInit = obj_NgMoConverter.nodeSeparate(compInfo, '0', [], subcktName) + modelicaCompInit, numNodesSub = obj_NgMoConverter.compInit(compInfo,node, modelInfo, subcktName) + connInfo = obj_NgMoConverter.connectInfo(compInfo, node, nodeDic, numNodesSub,subcktName) + + ###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) + + #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: - 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]] + ',' + out.writelines(eachline) + out.writelines('\n') + for eachline in modelicaCompInit: + if len(compInfo) == 0: + continue else: - pinInit = pinInit + nodeDic[protectedNode[i]] - pinInit = pinInit + ';' - pinProtectedInit = pinProtectedInit + ';' - return node, nodeDic, pinInit, pinProtectedInit - -def connectInfo(compInfo, node, nodeDic, numNodesSub): - """Make node connections in the modelica netlist""" - connInfo = [] - sourcesInfo = separateSource(compInfo) - for eachline in compInfo: - words = eachline.split() - if eachline[0] == 'r' or eachline[0] == 'c' or eachline[0] == 'd' or eachline[0] == 'l' 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] == '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']: - 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']: - 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': - templine = eachline.split() - temp = templine[0].split('x') - index = temp[1] - for i in range(0,len(templine),1): - if templine[i] in subcktName: - subname = templine[i] - nodeNumInfo = 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: - #elif eachline[0] == 'q': - #elif eachline[0] == 'j': - continue - if '0' in node: - conn = 'connect(g.p,n0);' - connInfo.append(conn) - return connInfo -## For testing - - -if len(sys.argv) < 2: - filename=raw_input('Enter file name: ') -else: - filename=sys.argv[1] - - -# get all the required info -lines=readNetlist(filename) -optionInfo, schematicInfo=separateNetlistInfo(lines) -modelName, modelInfo, subcktName, paramInfo = addModel(optionInfo) -modelicaParamInit = processParam(paramInfo) -compInfo, plotInfo = separatePlot(schematicInfo) -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_temp = eachsub + '.sub' - data = readNetlist(filename_temp) - subOptionInfo, subSchemInfo = separateNetlistInfo(data) - for eachline in subSchemInfo: - words = eachline.split() - if eachline[0] == 'm': - IfMOS = '1' - break -node, nodeDic, pinInit, pinProtectedInit = nodeSeparate(compInfo, '0', [], subcktName) -modelicaCompInit, numNodesSub = compInit(compInfo,node, modelInfo, subcktName) -connInfo = connectInfo(compInfo, node, nodeDic, numNodesSub) - -####Extract subckt data -def procesSubckt(subcktName): - """ Process the subcircuit file .sub in the project folder""" -# subcktDic = {} - subOptionInfo = [] - subSchemInfo = [] - subModel = [] - subModelInfo = {} - subsubName = [] - subParamInfo = [] - nodeSubInterface = [] - nodeSub = [] - nodeDicSub = {} - pinInitsub = [] - connSubInfo = [] - if len(subcktName) > 0: - for eachsub in subcktName: - filename = eachsub + '.sub' - data = readNetlist(filename) - subOptionInfo, subSchemInfo = separateNetlistInfo(data) - 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 = addModel(subOptionInfo) - IfMOSsub = '0' - for eachline in subSchemInfo: -# words = eachline.split() - if eachline[0] == 'm': - IfMOSsub = '1' - break - if len(subsubName) > 0: - subsubOptionInfo = [] - subsubSchemInfo = [] - for eachsub in subsubName: - filename_stemp = eachsub + '.sub' - data = readNetlist(filename_stemp) - subsubOptionInfo, subsubSchemInfo = separateNetlistInfo(data) - for eachline in subsubSchemInfo: -# words = eachline.split() - if eachline[0] == 'm': - IfMOSsub = '1' - break - modelicaSubParam = processParam(subParamInfo) - nodeSub, nodeDicSub, pinInitSub, pinProtectedInitSub = nodeSeparate(subSchemInfo, '1', eachsub, subsubName) - modelicaSubCompInit, numNodesSubsub = compInit(subSchemInfo, nodeSub, subModelInfo, subsubName) - modelicaSubParamNew = getSubParamLine(eachsub, numNodesSub, modelicaSubParam) - connSubInfo = connectInfo(subSchemInfo, nodeSub, nodeDicSub, numNodesSubsub) - 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 - -if len(subcktName) > 0: - data, subOptionInfo, subSchemInfo, subModel, subModelInfo, subsubName, subParamInfo, modelicaSubCompInit, modelicaSubParam, nodeSubInterface, nodeSub, nodeDicSub, pinInitSub, connSubInfo = procesSubckt(subcktName) - -# creating final output - -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(eachline) + out.writelines('\n') + + out.writelines('protected') out.writelines('\n') -for eachline in modelicaCompInit: - if len(compInfo) == 0: - continue - else: - out.writelines(eachline) + out.writelines(pinInit) 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('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.writelines('end '+ os.path.basename(newfilename) + ';') -out.writelines('\n') -out.close() + out.close() +# Call main function +if __name__ == '__main__': + main(sys.argv) \ No newline at end of file diff --git a/src/projManagement/Validation.py b/src/projManagement/Validation.py index 857f1987..bafcbe08 100644 --- a/src/projManagement/Validation.py +++ b/src/projManagement/Validation.py @@ -18,6 +18,7 @@ #=============================================================================== import os import re +import distutils.spawn class Validation: @@ -123,4 +124,10 @@ class Validation: return True else: return False - \ No newline at end of file + + def validateTool(self,toolName): + """ + This function check if tool is present in the system + """ + return distutils.spawn.find_executable(toolName) is not None + \ No newline at end of file -- cgit