mirror of
https://github.com/OPM/opm-simulators.git
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5b132acc70
Deleted some unused code (or moved to opm-porsol), moved all code dealing with time-of-flight to opm/core/tof, moved code for implicit transport solver to opm/core/transport/implicit, spu_[im|ex]plicit.[ch] to opm/core/transport/minimal.
260 lines
11 KiB
C++
260 lines
11 KiB
C++
/*
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Copyright 2013 SINTEF ICT, Applied Mathematics.
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This file is part of the Open Porous Media project (OPM).
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OPM is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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OPM is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with OPM. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef OPM_DGBASIS_HEADER_INCLUDED
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#define OPM_DGBASIS_HEADER_INCLUDED
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#include <vector>
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struct UnstructuredGrid;
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namespace Opm
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{
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/// Base class for Discontinuous Galerkin bases, intended for time-of-flight computations.
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class DGBasisInterface
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{
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public:
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/// Virtual destructor.
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virtual ~DGBasisInterface();
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/// The number of basis functions per cell.
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virtual int numBasisFunc() const = 0;
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/// The number of space dimensions.
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virtual int dimensions() const = 0;
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/// The polynomial degree of the basis functions.
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virtual int degree() const = 0;
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/// Evaluate all basis functions associated with cell at x,
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/// writing to f_x. The array f_x must have size equal to
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/// numBasisFunc().
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virtual void eval(const int cell,
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const double* x,
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double* f_x) const = 0;
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/// Evaluate gradients of all basis functions associated with
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/// cell at x, writing to grad_f_x. The array grad_f_x must
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/// have size numBasisFunc() * dimensions(). The dimensions()
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/// components of the first basis function gradient come
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/// before the components of the second etc.
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virtual void evalGrad(const int cell,
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const double* x,
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double* grad_f_x) const = 0;
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/// Modify basis coefficients to add to the function value.
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/// A function f = sum_i c_i b_i is assumed, and we change
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/// it to (f + increment) by modifying the c_i. This is done without
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/// modifying its gradient.
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/// \param[in] increment Add this value to the function.
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/// \param[out] coefficients Coefficients {c_i} for a single cell.
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virtual void addConstant(const double increment,
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double* coefficients) const = 0;
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/// Modify basis coefficients to change the function's slope.
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/// A function f = sum_i c_i b_i is assumed, and we change
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/// it to a function g with the property that grad g = factor * grad f
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/// by modifying the c_i. This is done without modifying the average,
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/// i.e. the integrals of g and f over the cell are the same.
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/// \param[in] factor Multiply gradient by this factor.
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/// \param[out] coefficients Coefficients {c_i} for a single cell.
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virtual void multiplyGradient(const double factor,
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double* coefficients) const = 0;
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/// Evaluate function f = sum_i c_i b_i at the point x.
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/// Note that this function is not virtual, but implemented in
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/// terms of the virtual functions of the class.
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/// \param[in] cell Cell index
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/// \param[in] coefficients Coefficients {c_i} for a single cell.
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/// \param[in] x Point at which to compute f(x).
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double evalFunc(const int cell,
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const double* coefficients,
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const double* x) const;
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/// Compute the average of the function f = sum_i c_i b_i.
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/// \param[in] coefficients Coefficients {c_i} for a single cell.
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virtual double functionAverage(const double* coefficients) const = 0;
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private:
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mutable std::vector<double> bvals_; // For evalFunc().
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};
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/// A class providing discontinuous Galerkin basis functions
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/// of bounded total degree.
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///
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/// The basis functions are the following for each cell (example for 3d):
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/// Degree 0: 1.
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/// Degree 1: 1, x - xc, y - yc, z - zc
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/// where (xc, yc, zc) are the coordinates of the cell centroid.
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/// Further degrees await development.
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class DGBasisBoundedTotalDegree : public DGBasisInterface
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{
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public:
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/// Constructor.
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/// \param[in] grid grid on which basis is used (cell-wise)
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/// \param[in] degree polynomial degree of basis
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DGBasisBoundedTotalDegree(const UnstructuredGrid& grid, const int degree);
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/// Destructor.
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virtual ~DGBasisBoundedTotalDegree();
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/// The number of basis functions per cell.
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virtual int numBasisFunc() const;
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/// The number of space dimensions.
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virtual int dimensions() const;
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/// The polynomial degree of the basis functions.
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virtual int degree() const;
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/// Evaluate all basis functions associated with cell at x,
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/// writing to f_x. The array f_x must have size equal to
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/// numBasisFunc().
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virtual void eval(const int cell,
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const double* x,
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double* f_x) const;
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/// Evaluate gradients of all basis functions associated with
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/// cell at x, writing to grad_f_x. The array grad_f_x must
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/// have size numBasisFunc() * dimensions(). The dimensions()
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/// components of the first basis function gradient come
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/// before the components of the second etc.
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virtual void evalGrad(const int cell,
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const double* x,
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double* grad_f_x) const;
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/// Modify basis coefficients to add to the function value.
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/// A function f = sum_i c_i b_i is assumed, and we change
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/// it to (f + increment) by modifying the c_i. This is done without
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/// modifying its gradient.
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/// \param[in] increment Add this value to the function.
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/// \param[out] coefficients Coefficients {c_i} for a single cell.
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virtual void addConstant(const double increment,
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double* coefficients) const;
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/// Modify basis coefficients to change the function's slope.
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/// A function f = sum_i c_i b_i is assumed, and we change
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/// it to a function g with the property that grad g = factor * grad f
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/// by modifying the c_i. This is done without modifying the average,
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/// i.e. the integrals of g and f over the cell are the same.
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/// \param[in] factor Multiply gradient by this factor.
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/// \param[out] coefficients Coefficients {c_i} for a single cell.
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virtual void multiplyGradient(const double factor,
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double* coefficients) const;
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/// Compute the average of the function f = sum_i c_i b_i.
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/// \param[in] coefficients Coefficients {c_i} for a single cell.
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virtual double functionAverage(const double* coefficients) const;
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private:
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const UnstructuredGrid& grid_;
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const int degree_;
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};
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/// A class providing discontinuous Galerkin basis functions of
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/// multi-degree 1 (bilinear or trilinear functions).
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///
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/// The basis functions for a cell are the following
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/// Degree 0: 1.
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/// (for 2 dims:)
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/// (Bi)degree 1: (x-)(y-), (x-)(y+), (x+)(y-), (x+)(y+)
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/// where (x-) = (1/2 - x + xc), (x+) = (1/2 + x - xc)
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/// and xc is the x-coordinate of the cell centroid.
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/// Similar for (y-), (y+).
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class DGBasisMultilin : public DGBasisInterface
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{
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public:
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/// Constructor.
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/// \param[in] grid grid on which basis is used (cell-wise)
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/// \param[in] degree polynomial degree of basis (in each coordinate)
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DGBasisMultilin(const UnstructuredGrid& grid, const int degree);
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/// Destructor.
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virtual ~DGBasisMultilin();
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/// The number of basis functions per cell.
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virtual int numBasisFunc() const;
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/// The number of space dimensions.
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virtual int dimensions() const;
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/// The polynomial degree of the basis functions.
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virtual int degree() const;
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/// Evaluate all basis functions associated with cell at x,
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/// writing to f_x. The array f_x must have size equal to
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/// numBasisFunc().
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virtual void eval(const int cell,
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const double* x,
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double* f_x) const;
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/// Evaluate gradients of all basis functions associated with
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/// cell at x, writing to grad_f_x. The array grad_f_x must
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/// have size numBasisFunc() * dimensions(). The dimensions()
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/// components of the first basis function gradient come
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/// before the components of the second etc.
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virtual void evalGrad(const int cell,
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const double* x,
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double* grad_f_x) const;
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/// Modify basis coefficients to add to the function value.
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/// A function f = sum_i c_i b_i is assumed, and we change
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/// it to (f + increment) by modifying the c_i. This is done without
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/// modifying its gradient.
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/// \param[in] increment Add this value to the function.
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/// \param[out] coefficients Coefficients {c_i} for a single cell.
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virtual void addConstant(const double increment,
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double* coefficients) const;
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/// Modify basis coefficients to change the function's slope.
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/// A function f = sum_i c_i b_i is assumed, and we change
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/// it to a function g with the property that grad g = factor * grad f
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/// by modifying the c_i. This is done without modifying the average,
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/// i.e. the integrals of g and f over the cell are the same.
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/// \param[in] factor Multiply gradient by this factor.
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/// \param[out] coefficients Coefficients {c_i} for a single cell.
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virtual void multiplyGradient(const double factor,
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double* coefficients) const;
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/// Compute the average of the function f = sum_i c_i b_i.
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/// \param[in] coefficients Coefficients {c_i} for a single cell.
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virtual double functionAverage(const double* coefficients) const;
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private:
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const UnstructuredGrid& grid_;
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const int degree_;
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};
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} // namespace Opm
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#endif // OPM_DGBASIS_HEADER_INCLUDED
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