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// ************************************************************************
//
// Phalanx: A Partial Differential Equation Field Evaluation
// Kernel for Flexible Management of Complex Dependency Chains
// Copyright 2008 Sandia Corporation
//
// Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive
// license for use of this work by or on behalf of the U.S. Government.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// 1. Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
//
// 3. Neither the name of the Corporation nor the names of the
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL SANDIA CORPORATION OR THE
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//
// Questions? Contact Roger Pawlowski (rppawlo@sandia.gov), Sandia
// National Laboratories.
//
// ************************************************************************
// @HEADER
#ifndef PHX_FIELDEVALUATOR_H
#define PHX_FIELDEVALUATOR_H
#include <vector>
#include "Teuchos_RCP.hpp"
#include "Phalanx_config.hpp"
#include "Phalanx_FieldTag.hpp"
#include "Phalanx_KokkosDeviceTypes.hpp"
#ifdef PHX_ENABLE_KOKKOS_AMT
// amt only works with pthread and qthreads
#include "Kokkos_TaskScheduler.hpp"
#include "Kokkos_Threads.hpp"
#endif
namespace PHX {
class any;
template<typename Traits> class FieldManager;
/*! Pure virtual base class that provides field evaluation
routines to the FieldManager.
*/
template <typename Traits>
class Evaluator {
public:
typedef typename PHX::Device execution_space;
//! Ctor
Evaluator() {};
//! Dtor
virtual ~Evaluator() {};
/*! \brief Allows providers to grab pointers to data arrays.
Called once all providers are registered with the manager.
Once the field manager has allocated all data arrays, this
method passes the field manager to the providers to allow each
provider to grab and store pointers to the field data arrays.
Grabbing the data arrays from the variable manager during an
actual call to evaluateFields call is too slow due to the map
lookup and FieldTag comparison (which uses a string compare).
So lookups on field data are only allowed during this setup
phase.
*/
virtual void postRegistrationSetup(typename Traits::SetupData d,
PHX::FieldManager<Traits>& vm) = 0;
//! Returns vector of fields that this object evaluates.
virtual const std::vector< Teuchos::RCP<FieldTag> >&
evaluatedFields() const = 0;
/*! \brief Returns vector of fields that contribute partially to
the evaluation of a field. This allows users to spread the
evaluation of a field over multiple evaluators.
*/
virtual const std::vector< Teuchos::RCP<FieldTag> >&
contributedFields() const = 0;
//! Returns vector of fields needed to compute the evaluated fields.
virtual const std::vector< Teuchos::RCP<FieldTag> >&
dependentFields() const = 0;
//! Evaluate all fields that the provider supplies.
/*!
Input:
@param d - user defined data object defined by the EvalData typedef in the traits class.
*/
virtual void evaluateFields(typename Traits::EvalData d) = 0;
#ifdef PHX_ENABLE_KOKKOS_AMT
//! Create and return a task for aynchronous multi-tasking.
/*!
Input:
@param policy Kokkos task policy object used to create the task/future.
@param num_adjacencies The dependence capacity in Kokkos. The maximum number of node adjacencies (task dependencies) that this task directly depends on.
@param work_size The number of parallel work units.
@param d User defined data.
*/
virtual Kokkos::Future<void,PHX::exec_space>
createTask(Kokkos::TaskScheduler<PHX::exec_space>& policy,
const int& work_size,
const std::vector<Kokkos::Future<void,PHX::exec_space>>& dependent_futures,
typename Traits::EvalData d) = 0;
//! Returns the size of the kokkos task for AMT.
virtual unsigned taskSize() const = 0;
#endif
/*! \brief This routine is called before each residual/Jacobian fill.
This routine is called ONCE on the provider before the fill
loop over cells is started. This allows us to reset global
objects between each fill. An example is to reset a provider
that monitors the maximum grid peclet number in a cell. This
call would zero out the maximum for a new fill.
*/
virtual void preEvaluate(typename Traits::PreEvalData d) = 0;
/*! \brief This routine is called after each residual/Jacobian fill.
This routine is called ONCE on the provider after the fill
loop over cells is completed. This allows us to evaluate any
post fill data. An example is to print out some statistics
such as the maximum grid peclet number in a cell.
*/
virtual void postEvaluate(typename Traits::PostEvalData d) = 0;
//! Returns the name/identifier of this provider.
virtual const std::string& getName() const = 0;
/*! \brief Binds memory to a field. WARNING: this is a POWER-USER function. Only use this if you understand the memory binding sequence (see detailed description for more information).
WARNING: This is a power user function. It sets/swaps the field
memory for the suppied field (either an externally defined user
managed field or a internally managed from the
FieldManager). All evaluators that evaluate or depend on this
field should be bound to the same memory. Otherwise you will get
undefined results. To use this consistently, do not call this
directly. Instead, bind all memory through calls to the
PHX::FieldManager class.
*/
virtual void bindField(const PHX::FieldTag& ft, const PHX::any& f) = 0;
};
}
#endif
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