def register():
global registered
if registered: return
mccomposite.register(
NeutronPrinter, onNeutronPrinter,
{'BoostPythonBinding':neutronprinter} ,
)
registered = True
return
def register():
global registered
if registered: return
mccomposite.register(
NeutronPrinter,
onNeutronPrinter,
{'BoostPythonBinding': neutronprinter},
)
registered = True
return
#register new scatterer type
# 1. the pure python class
from mccomposite.Scatterer import Scatterer
class NeutronPrinter(Scatterer):
def identify(self, visitor): return visitor.onNeutronPrinter(self)
pass
# 2. the handler to construct c++ engine
def onNeutronPrinter(self, printer):
shape = printer.shape()
cshape = shape.identify(self)
return self.factory.neutronprinter( cshape )
# 3. the handler to call python bindings
def neutronprinter(self, cshape):
from neutron_printer2 import cScatterer
return cScatterer( cshape )
# 4. register the new class and handlers
import mccomposite
mccomposite.register( NeutronPrinter, onNeutronPrinter,
{'BoostPythonBinding':neutronprinter} )
#register new scatterer type
# 1. the pure python class
from mccomposite.Scatterer import Scatterer
class NeutronPrinter(Scatterer):
def identify(self, visitor):
return visitor.onNeutronPrinter(self)
pass
# 2. the handler to construct c++ engine
def onNeutronPrinter(self, printer):
shape = printer.shape()
cshape = shape.identify(self)
return self.factory.neutronprinter(cshape)
# 3. the handler to call python bindings
def neutronprinter(self, cshape):
from neutron_printer2 import cScatterer
return cScatterer(cshape)
# 4. register the new class and handlers
import mccomposite
mccomposite.register(NeutronPrinter, onNeutronPrinter,
{'BoostPythonBinding': neutronprinter})
