def initialize(self, totalTime, numTimeSteps, normalizer): """ Initialize cohesive elements. """ logEvent = "%sinit" % self._loggingPrefix self._eventLogger.eventBegin(logEvent) self._info.log("Initializing fault '%s'." % self.label()) Integrator.initialize(self, totalTime, numTimeSteps, normalizer) FaultCohesive.initialize(self, totalTime, numTimeSteps, normalizer) self._eventLogger.eventEnd(logEvent) return
def initialize(self, totalTime, numTimeSteps, normalizer): """ Initialize cohesive elements. """ logEvent = "%sinit" % self._loggingPrefix self._eventLogger.eventBegin(logEvent) self._info.log("Initializing fault '%s'." % self.label()) Integrator.initialize(self, totalTime, numTimeSteps, normalizer) FaultCohesive.initialize(self, totalTime, numTimeSteps, normalizer) self._eventLogger.eventEnd(logEvent) return
def initialize(self, totalTime, numTimeSteps, normalizer): """ Initialize PointForce boundary condition. """ logEvent = "%sinit" % self._loggingPrefix self._eventLogger.eventBegin(logEvent) from pylith.mpi.Communicator import mpi_comm_world comm = mpi_comm_world() if 0 == comm.rank: self._info.log("Initializing point forces '%s'." % self.label()) Integrator.initialize(self, totalTime, numTimeSteps, normalizer) BoundaryCondition.initialize(self, totalTime, numTimeSteps, normalizer) self._eventLogger.eventEnd(logEvent) return
def initialize(self, totalTime, numTimeSteps, normalizer): """ Initialize cohesive elements. """ logEvent = "%sinit" % self._loggingPrefix self._eventLogger.eventBegin(logEvent) from pylith.mpi.Communicator import mpi_comm_world comm = mpi_comm_world() if 0 == comm.rank: self._info.log("Initializing fault '%s'." % self.label()) Integrator.initialize(self, totalTime, numTimeSteps, normalizer) FaultCohesive.initialize(self, totalTime, numTimeSteps, normalizer) self._eventLogger.eventEnd(logEvent) return
def initialize(self, totalTime, numTimeSteps, normalizer): """ Initialize cohesive elements. """ logEvent = "%sinit" % self._loggingPrefix self._eventLogger.eventBegin(logEvent) from pylith.mpi.Communicator import mpi_comm_world comm = mpi_comm_world() if 0 == comm.rank: self._info.log("Initializing fault '%s'." % self.label()) Integrator.initialize(self, totalTime, numTimeSteps, normalizer) FaultCohesive.initialize(self, totalTime, numTimeSteps, normalizer) self._eventLogger.eventEnd(logEvent) return
def initialize(self, totalTime, numTimeSteps, normalizer): """ Initialize PointForce boundary condition. """ logEvent = "%sinit" % self._loggingPrefix self._eventLogger.eventBegin(logEvent) from pylith.mpi.Communicator import mpi_comm_world comm = mpi_comm_world() if 0 == comm.rank: self._info.log("Initializing point forces '%s'." % self.label()) Integrator.initialize(self, totalTime, numTimeSteps, normalizer) BoundaryCondition.initialize(self, totalTime, numTimeSteps, normalizer) self._eventLogger.eventEnd(logEvent) return
def initialize(self, totalTime, numTimeSteps, normalizer): """ Initialize Neumann boundary condition. """ logEvent = "%sinit" % self._loggingPrefix self._eventLogger.eventBegin(logEvent) from pylith.mpi.Communicator import mpi_comm_world comm = mpi_comm_world() if 0 == comm.rank: self._info.log("Initializing Neumann boundary '%s'." % self.label()) Integrator.initialize(self, totalTime, numTimeSteps, normalizer) BoundaryCondition.initialize(self, totalTime, numTimeSteps, normalizer) self.output.initialize(normalizer, self.bcQuadrature) self.output.writeInfo() self._eventLogger.eventEnd(logEvent) return
def initialize(self, totalTime, numTimeSteps, normalizer): """ Initialize Neumann boundary condition. """ logEvent = "%sinit" % self._loggingPrefix self._eventLogger.eventBegin(logEvent) from pylith.mpi.Communicator import mpi_comm_world comm = mpi_comm_world() if 0 == comm.rank: self._info.log("Initializing Neumann boundary '%s'." % self.label()) Integrator.initialize(self, totalTime, numTimeSteps, normalizer) BoundaryCondition.initialize(self, totalTime, numTimeSteps, normalizer) self.output.initialize(normalizer, self.bcQuadrature) self.output.writeInfo() self._eventLogger.eventEnd(logEvent) return