coriolis/oroshi/python/MultiCapacitor.py

# -*- coding: utf-8 -*-

from   Hurricane import DataBase
from   Hurricane import UpdateSession
from   Hurricane import DbU
from   Hurricane import Box
from   Hurricane import Net
import helpers
import helpers.io
from   helpers   import trace

#helpers.setTraceLevel( 100 )

import Analog
import ParamsMatrix
import oroshi
from   Analog                import Device
from   CapacitorUnit         import CapacitorUnit
from   CapacitorMatrix       import CapacitorStack
from   CapacitorVRTracks     import VerticalRoutingTracks
from   CapacitorRouted       import RoutMatchedCapacitor
from   CapacitorRoutedSingle import RouteCapacitorSingle


def toMatrixArgs ( matrix ):
    valid   = True
    rows    = matrix.getRows   ()
    columns = matrix.getColumns()
    lol     = []

    for row in range(rows):
      lol.append( [] )

      for column in range(columns):
        lol[-1].append( matrix.getValue(row,column) )

    return [rows,columns], lol



def checkCoherency ( device, bbMode ):
    message = 'CapacitorMatrix.checkCoherency(): device "%s".\n' % device.getName()
    
    techno = DataBase.getDB().getTechnology()
    rules  = oroshi.getRules()

    capacities = device.getParameter( 'capacities' )
    if capacities is None:
      message += '        Missing "capacities" parameter on %s' % str(device)
      return (False, message)
      
    pmatrix = device.getParameter( 'matrix' )
    if pmatrix is None:
      message += '        Missing "matrix" parameter on %s' % str(device)
      return (False, message)
      
    valid = True
    if pmatrix:
      rows    = pmatrix.getRows   ()
      columns = pmatrix.getColumns()

      for row in range(rows):
       #print '    [',
        for column in range(columns):
          capaIndex =  pmatrix.getValue(row,column)
         #print '%2d' % capaIndex,

          if capaIndex >= capacities.getCount():
            valid    = False
            message += '        element [%d,%d] == %d is out of range, must be in [0..%d]\n' \
                       % (row,column,capaIndex,capacities.getCount()-1)
       #print ']'

    if not valid: return (False, message)
    
    return (True, "")


def addDummyNets ( device ):
    if not device.hasDummy(): return
    
    i       = device.getParameter( 'capacities' ).getCount()
    topName = 't%d'%i
    botName = 'b%d'%i

    topNet  = device.getNet( topName )
    if not topNet:
      topNet = Net.create( device, topName )
      topNet.setExternal( True )

    botNet  = device.getNet( botName )
    if not botNet:
      botNet = Net.create( device, botName )
      botNet.setExternal( True )
    return


def layout ( device, bbMode ):

    trace( 100, ',+', '\tMultiCapacitor.layout() called for "%s".\n' % device.getName())

    paramsMatrix = ParamsMatrix.ParamsMatrix()

    try:
      capacities    = device.getParameter( 'capacities' )
      dummyArg      = device.hasDummy()
      capaValuesArg = []
      vTrackNetsArg = []

      addDummyNets( device )
      
      for i in range(capacities.getCount()):
        capaValuesArg.append( capacities.getValue(i)*1000.0 )
        vTrackNetsArg.append( [ device.getNet('t%d'%i), device.getNet("b%d"%i) ] )

      if dummyArg:
        i = device.getParameter( 'capacities' ).getCount()
        vTrackNetsArg.append( [ device.getNet('t%d'%i), device.getNet("b%d"%i) ] )

      matrixSizeArg, matchingSchemeArg = toMatrixArgs( device.getParameter('matrix') )

      typeArg = 'UnknownType'
      if device.isPIP(): typeArg = 'PIPCap'
      if device.isMIM(): typeArg = 'MIMCap'
      if device.isMOM(): typeArg = 'MOMCap'

      if len(capaValuesArg) == 1:
       # One capa, multiple units.
        capaGenerator = CapacitorStack( device
                                      , capaValuesArg # (fF).
                                      , typeArg
                                      , [0,0]         # AB position.
                                      , vTrackNetsArg
                                      , matrixDim     =matrixSizeArg
                                      , dummyRing     =dummyArg
                                      )
        capaMatrix = capaGenerator.create()
        capaSingle = RouteCapacitorSingle( capaGenerator
                                         , capaMatrix
                                         ,    topPlateWSpec=[1,0]
                                         , bottomPlateWSpec=[0,1] )
        capaSingle.route()
      else:
       # Two capa, multiple units.
        capaGenerator = CapacitorStack( device
                                      , capaValuesArg # [ 240, 720 ]  # capaValuesArg (fF).
                                      , typeArg
                                      , [0,0]         # AB position.
                                      , vTrackNetsArg
                                      , matrixDim     =matrixSizeArg
                                      , matchingMode  =True
                                      , matchingScheme=matchingSchemeArg
                                      , dummyRing     =dummyArg
                                      )
        capaMatrix = capaGenerator.create()
        capaTracks = VerticalRoutingTracks( capaGenerator, capaMatrix, True )
        capaTracks.create()
      
        capaRouted = RoutMatchedCapacitor( capaTracks )
        capaRouted.route()

      for pair in vTrackNetsArg:
        for net in pair:
          device.setRestrictions( net, Device.NorthBlocked|Device.SouthBlocked )

      paramsMatrix.setGlobalCapacitorParams( device.getAbutmentBox() )
      trace( 100, '++' )
     #paramsMatrix.trace()

    except Exception, e:
      helpers.io.catch( e )

    trace( 100, '---' )
    
    return paramsMatrix.getMatrix()