# -*- mode:Python -*- import sys import os.path import string import traceback import Hurricane from Hurricane import DbU from Hurricane import DataBase from Hurricane import Layer from Hurricane import BasicLayer from Hurricane import DiffusionLayer from Hurricane import TransistorLayer from Hurricane import RegularLayer from Hurricane import ContactLayer from Hurricane import ViaLayer from CRL import AllianceFramework from helpers import ErrorMessage symbolicFile = '' class SymbolicLayerType ( object ): Regular = 1 Diffusion = 2 Transistor = 3 Contact = 4 Via = 5 def __init__ ( self, code ): self._code = code return def __int__ ( self ): return self._code def __str__ ( self ): if self._code == SymbolicLayerType.Regular: return 'TypeRegular' if self._code == SymbolicLayerType.Diffusion: return 'TypeDiffusion' if self._code == SymbolicLayerType.Transistor: return 'TypeTransistor' if self._code == SymbolicLayerType.Contact: return 'TypeContact' if self._code == SymbolicLayerType.Via: return 'TypeVia' return 'TypeUnknown (%d)', self._code def __repr__ ( self ): return str(self) def realLayerLength ( self ): if self._code == SymbolicLayerType.Regular: return 1 if self._code == SymbolicLayerType.Diffusion: return 3 if self._code == SymbolicLayerType.Transistor: return 4 if self._code == SymbolicLayerType.Contact: return 5 if self._code == SymbolicLayerType.Via: return 3 return 0 TypeRegular = SymbolicLayerType(SymbolicLayerType.Regular) TypeDiffusion = SymbolicLayerType(SymbolicLayerType.Diffusion) TypeTransistor = SymbolicLayerType(SymbolicLayerType.Transistor) TypeContact = SymbolicLayerType(SymbolicLayerType.Contact) TypeVia = SymbolicLayerType(SymbolicLayerType.Via) class LayersLUT ( object ): Real = 0x1 Symbolic = 0x2 MissingError = 0x8 def __init__ ( self ): self._realLayers = {} self._symbolicLayers = {} return def add ( self, layer ): if isinstance(layer,BasicLayer): self._realLayers [ layer.getName() ] = layer else: self._symbolicLayers[ layer.getName() ] = layer return def lookup ( self, name, flags=Real|Symbolic ): layer = None if flags & LayersLUT.Real and self._realLayers.has_key(name): layer = self._realLayers[name] if flags & LayersLUT.Symbolic and self._symbolicLayers.has_key(name): layer = self._symbolicLayers[name] if not layer and flags&LayersLUT.MissingError: raise ErrorMessage(1,['Layer <%s> is not defined (yet?).'%name]) return layer layersLUT = LayersLUT() def loadRealLayers ( realLayersTable, confFile ): global symbolicFile symbolicFile = confFile technology = DataBase.getDB().getTechnology() entryNo = 0 for entry in realLayersTable: entryNo += 1 try: if len(entry) < 2: raise ErrorMessage(1,['Malformed entry in .' ,'Less than two fields: missing name and/or material.' ,str(entry) ]) if len(entry) > 2: if entry[1] != BasicLayer.Material.blockage: raise ErrorMessage(1,['Invalid entry in .' ,'Only blockage material can have a third field.' ,str(entry) ]) routingLayer = technology.getBasicLayer(entry[2]) if not routingLayer: raise ErrorMessage(1,['Incoherency in entry at.' ,'The metal <%s> associated to the blockage doesn\'t exist (yet?).' % entry[2] ,str(entry) ]) basicLayer = BasicLayer.create( technology , entry[0] , BasicLayer.Material(entry[1]) ) layersLUT.add ( basicLayer ) if len(entry) > 2: routingLayer.setBlockageLayer(basicLayer) except Exception, e: ErrorMessage.wrapPrint(e,'In %s: at index %d.' % (symbolicFile,entryNo)) return def loadSymbolicLayers ( symbolicLayersData, confFile ): global symbolicFile symbolicFile = confFile technology = DataBase.getDB().getTechnology() entryNo = 0 for entry in symbolicLayersData: entryNo += 1 try: if len(entry) != 3: raise ErrorMessage(1,['Malformed entry in .' ,'Must contains exactly three fields: ( name, type, (real_layers,) ).' ,str(entry) ]) name, layerType, realLayers = entry if not isinstance(layerType,SymbolicLayerType): raise ErrorMessage(1,['Invalid entry in .' ,'The layer type code is not valid, should be any of:' ,' * TypeRegular' ,' * TypeDiffusion' ,' * TypeTransistor' ,' * TypeContact' ,' * TypeVia' ,str(entry) ]) if layerType.realLayerLength() != len(realLayers): raise ErrorMessage(1,['Invalid entry in .' ,'Layer of type <%s> contains %d real layers instead of %d.' \ % (layerType,len(realLayers),layerType.realLayerLength()) ,str(entry) ]) realLayersArgs = [] for layerName in realLayers: if layerName: realLayersArgs += [ layersLUT.lookup(layerName ,LayersLUT.Real |LayersLUT.Symbolic |LayersLUT.MissingError) ] else: realLayersArgs += [ None ] symbolicLayer = None if layerType == TypeRegular: symbolicLayer = RegularLayer.create(technology,entry[0]) symbolicLayer.setBasicLayer( *realLayersArgs ) elif layerType == TypeDiffusion: symbolicLayer = DiffusionLayer.create(technology ,entry[0], *realLayersArgs) elif layerType == TypeTransistor: symbolicLayer = TransistorLayer.create(technology ,entry[0], *realLayersArgs) elif layerType == TypeContact: symbolicLayer = ContactLayer.create(technology ,entry[0], *realLayersArgs) elif layerType == TypeVia: symbolicLayer = ViaLayer.create(technology ,entry[0], *realLayersArgs) layersLUT.add( symbolicLayer ) except Exception, e: ErrorMessage.wrapPrint(e,'In %s: at index %d.' % (symbolicFile,entryNo)) return def loadSymbolicRules ( symbolicRulesTable, confFile ): global symbolicFile symbolicFile = confFile technology = DataBase.getDB().getTechnology() entryNo = 0 for rule in symbolicRulesTable: entryNo += 1 try: if len(rule) != 2: raise ErrorMessage(1,['Malformed entry in .' ,'Must contains exactly two fields: ( rule_path, value ).' ,str(rule) ]) if not isinstance(rule[1],int) and not isinstance(rule[1],float): raise ErrorMessage(1,['Invalid entry in .' ,'Rule value must be of integer or float type.' ,str(rule) ]) value = DbU.fromLambda(rule[1]) elements = rule[0].split('.') if len(elements) < 3: raise ErrorMessage(1,['Invalid entry in .' ,'Rule name must contains at least three components: \"LAYER.category.dimension\".' ,str(rule) ]) ruleLayer = layersLUT.lookup( elements[0], LayersLUT.Symbolic|LayersLUT.MissingError ) subLayer = layersLUT.lookup( elements[1], LayersLUT.Real ) if subLayer: ruleTag = string.join(elements[2:],'.') else: ruleTag = string.join(elements[1:],'.') if ruleTag == 'extention.cap': ruleLayer.setExtentionCap ( subLayer, value ) elif ruleTag == 'extention.width': ruleLayer.setExtentionWidth( subLayer, value ) elif ruleTag == 'enclosure': ruleLayer.setEnclosure ( subLayer, value ) elif ruleTag == 'minimum.width': ruleLayer.setMinimalSize ( value ) elif ruleTag == 'minimum.side': ruleLayer.setMinimalSize ( value ) else: raise ErrorMessage(1,['Invalid entry in .' ,'Unknown rule kind: \".%s\", should be any of:' % ruleTag ,' * "RULE_HEAD.extention.cap"' ,' * "RULE_HEAD.extention.width"' ,' * "RULE_HEAD.enclosure"' ,' * "RULE_HEAD.minimum.width"' ,' * "RULE_HEAD.minimum.side"' ,str(rule) ]) except Exception, e: ErrorMessage.wrapPrint(e,'In %s: at index %d.' % (symbolicFile,entryNo)) return def loadWorkingLayers ( workingLayersTable, confFile ): global symbolicFile symbolicFile = confFile technology = DataBase.getDB().getTechnology() entryNo = 0 for layerName in workingLayersTable: entryNo += 1 try: # This call is just to generate an error if the layer is non-existent. layersLUT.lookup(layerName,LayersLUT.Real|LayersLUT.Symbolic|LayersLUT.MissingError) technology.setWorkingLayer(layerName) except Exception, e: ErrorMessage.wrapPrint(e,'In %s: at index %d.' % (symbolicFile,entryNo)) return def loadViewerConfig ( viewerConfig, confFile ): global symbolicFile symbolicFile = confFile try: if viewerConfig.has_key('precision'): DbU.setPrecision(viewerConfig['precision']) except Exception, e: ErrorMessage.wrapPrint(e,'In %s:.') return