Postprocessors
The Postprocessor object is the pure-virtual base class for defining all Postprocessors in MOOSE. It defines a single method that all Postprocessors must override to produce a global scalar value. This method is generally called and stored in multiple Output formats once per time step (when applicable).
/**
* This will get called to actually grab the final value the postprocessor has calculated
*
* Note that this should only be called by internal methods, namely the problem that
* actually sets the value globally for other things to use. If you want the value
* outside of one of these external methods, you should use getCurrentValue().
*
* This method will be removed in favor of the const version.
*/
virtual PostprocessorValue getValue();
(../moose/framework/include/postprocessors/Postprocessor.h)(../moose/framework/include/postprocessors/Postprocessor.h)
// This file is part of the MOOSE framework
// https://www.mooseframework.org
//
// All rights reserved, see COPYRIGHT for full restrictions
// https://github.com/idaholab/moose/blob/master/COPYRIGHT
//
// Licensed under LGPL 2.1, please see LICENSE for details
// https://www.gnu.org/licenses/lgpl-2.1.html
#pragma once
#include "OutputInterface.h"
#include "NonADFunctorInterface.h"
#include "libmesh/parallel.h"
class MooseObject;
/**
* Base class for all Postprocessors. Defines a name and sets up the
* virtual getValue() interface which must be overridden by derived
* classes.
*/
class Postprocessor : public OutputInterface,
public NonADFunctorInterface,
public Moose::FunctorBase<Real>
{
public:
static InputParameters validParams();
Postprocessor(const MooseObject * moose_object);
/**
* This will get called to actually grab the final value the postprocessor has calculated
*
* Note that this should only be called by internal methods, namely the problem that
* actually sets the value globally for other things to use. If you want the value
* outside of one of these external methods, you should use getCurrentValue().
*
* This method will be removed in favor of the const version.
*/
virtual PostprocessorValue getValue();
/**
* This will get called to actually grab the final value the postprocessor has calculated.
*
* Note that this should only be called by internal methods, namely the problem that
* actually sets the value globally for other things to use. If you want the value
* outside of one of these external methods, you should use getCurrentValue().
*/
virtual PostprocessorValue getValue() const;
/**
* @return The "current" value of this Postprocessor.
*
* Your sanity would tell you... why not just call getValue()? Well - the intention
* of getValue() is to be called by the problem when the UserObjects are executed,
* and not by other things. This enables the control of _when_ this Postprocessor
* is updated, which could be very important. If the implementation of getValue() is
* such that it actually computes a new value (instead of one that is called in
* finalize()), you could potentially call getValue() and not get the value as it
* was at the last time this PP was executed.
*
* What this does instead is gives you the value that was last set as this PP was
* executed by the problem. That is, the value that every object that uses the
* PostprocessorInterface will get you.
*/
const PostprocessorValue & getCurrentValue() const { return _current_value; }
/**
* Returns the name of the Postprocessor.
*/
const std::string & PPName() const { return _pp_name; }
virtual bool hasBlocks(SubdomainID /* id */) const override { return true; }
protected:
/// Post-processor name
const std::string & _pp_name;
/// The current value, which is the Reporter value that changes when we execute UOs in the problem
const PostprocessorValue & _current_value;
private:
/**
* Internal method to be used to declare the value and store it within _current_value in the
* constructor.
*/
const PostprocessorValue & declareValue(const MooseObject & moose_object);
using ElemArg = Moose::ElemArg;
using ElemQpArg = Moose::ElemQpArg;
using ElemSideQpArg = Moose::ElemSideQpArg;
using FaceArg = Moose::FaceArg;
using ElemPointArg = Moose::ElemPointArg;
ValueType evaluate(const ElemArg & elem, const Moose::StateArg & state) const override final;
ValueType evaluate(const FaceArg & face, const Moose::StateArg & state) const override final;
ValueType evaluate(const ElemQpArg & qp, const Moose::StateArg & state) const override final;
ValueType evaluate(const ElemSideQpArg & elem_side_qp,
const Moose::StateArg & state) const override final;
ValueType evaluate(const ElemPointArg & elem_point,
const Moose::StateArg & state) const override final;
GradientType evaluateGradient(const ElemArg & elem,
const Moose::StateArg & state) const override final;
GradientType evaluateGradient(const FaceArg & face,
const Moose::StateArg & state) const override final;
GradientType evaluateGradient(const ElemQpArg & qp,
const Moose::StateArg & state) const override final;
GradientType evaluateGradient(const ElemSideQpArg & elem_side_qp,
const Moose::StateArg & state) const override final;
GradientType evaluateGradient(const ElemPointArg & elem_point,
const Moose::StateArg & state) const override final;
DotType evaluateDot(const ElemArg & elem, const Moose::StateArg & state) const override final;
DotType evaluateDot(const FaceArg & face, const Moose::StateArg & state) const override final;
DotType evaluateDot(const ElemQpArg & qp, const Moose::StateArg & state) const override final;
DotType evaluateDot(const ElemSideQpArg & elem_side_qp,
const Moose::StateArg & state) const override final;
DotType evaluateDot(const ElemPointArg & elem_point,
const Moose::StateArg & state) const override final;
/**
* Internal method for giving a one-time warning for calling an \c evaluateDot() method.
*/
void evaluateDotWarning() const;
/// MOOSE object
const MooseObject & _pp_moose_object;
};