From 94d3e79a8617f88dc0219cfdeedfa3147833719d Mon Sep 17 00:00:00 2001
From: Adrian Kummerlaender
Date: Mon, 24 Jun 2019 14:43:36 +0200
Subject: Initialize at openlb-1-3
---
.../lattice/integral/superPlaneIntegralFluxF2D.hh | 191 +++++++++++++++++++++
1 file changed, 191 insertions(+)
create mode 100644 src/functors/lattice/integral/superPlaneIntegralFluxF2D.hh
(limited to 'src/functors/lattice/integral/superPlaneIntegralFluxF2D.hh')
diff --git a/src/functors/lattice/integral/superPlaneIntegralFluxF2D.hh b/src/functors/lattice/integral/superPlaneIntegralFluxF2D.hh
new file mode 100644
index 0000000..847826a
--- /dev/null
+++ b/src/functors/lattice/integral/superPlaneIntegralFluxF2D.hh
@@ -0,0 +1,191 @@
+/* This file is part of the OpenLB library
+ *
+ * Copyright (C) 2018 Adrian Kummerlaender
+ * E-mail contact: info@openlb.net
+ * The most recent release of OpenLB can be downloaded at
+ *
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License
+ * as published by the Free Software Foundation; either version 2
+ * of the License, or (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public
+ * License along with this program; if not, write to the Free
+ * Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
+ * Boston, MA 02110-1301, USA.
+*/
+
+#ifndef SUPER_PLANE_INTEGRAL_FLUX_F_2D_HH
+#define SUPER_PLANE_INTEGRAL_FLUX_F_2D_HH
+
+#include "superPlaneIntegralFluxF2D.h"
+
+#include "io/ostreamManager.h"
+#include "utilities/vectorHelpers.h"
+#include "utilities/functorPtr.hh"
+#include "functors/lattice/indicator/indicator2D.hh"
+
+namespace olb {
+
+
+template class F>
+template
+SuperPlaneIntegralFluxF2D::SuperPlaneIntegralFluxF2D(
+ SuperLattice2D& sLattice,
+ const UnitConverter& converter,
+ SuperGeometry2D& geometry,
+ const HyperplaneLattice2D& hyperplaneLattice,
+ FunctorPtr>&& integrationIndicator,
+ FunctorPtr>&& subplaneIndicator,
+ BlockDataReductionMode mode)
+ : SuperPlaneIntegralF2D(
+ std::unique_ptr>(new F(sLattice, converter)),
+ geometry,
+ hyperplaneLattice,
+ std::forward(integrationIndicator),
+ std::forward(subplaneIndicator),
+ mode)
+{
+ this->getName() = "SuperPlaneIntegralFluxF2D";
+}
+
+template class F>
+template
+SuperPlaneIntegralFluxF2D::SuperPlaneIntegralFluxF2D(
+ SuperLattice2D& sLattice,
+ const UnitConverter& converter,
+ SuperGeometry2D& geometry,
+ const Hyperplane2D& hyperplane,
+ FunctorPtr>&& integrationIndicator,
+ FunctorPtr>&& subplaneIndicator,
+ BlockDataReductionMode mode)
+ : SuperPlaneIntegralF2D(
+ std::unique_ptr>(new F(sLattice, converter)),
+ geometry,
+ hyperplane,
+ std::forward(integrationIndicator),
+ std::forward(subplaneIndicator),
+ mode)
+{
+ this->getName() = "SuperPlaneIntegralFluxF2D";
+}
+
+template class F>
+template
+SuperPlaneIntegralFluxF2D::SuperPlaneIntegralFluxF2D(
+ SuperLattice2D& sLattice,
+ const UnitConverter& converter,
+ SuperGeometry2D& geometry,
+ const Hyperplane2D& hyperplane,
+ FunctorPtr>&& integrationIndicator,
+ BlockDataReductionMode mode)
+ : SuperPlaneIntegralF2D(
+ std::unique_ptr>(new F(sLattice, converter)),
+ geometry,
+ hyperplane,
+ std::forward(integrationIndicator),
+ mode)
+{
+ this->getName() = "SuperPlaneIntegralFluxF2D";
+}
+
+template class F>
+template
+SuperPlaneIntegralFluxF2D::SuperPlaneIntegralFluxF2D(
+ SuperLattice2D& sLattice,
+ const UnitConverter& converter,
+ SuperGeometry2D& geometry,
+ const Vector& origin, const Vector& u,
+ std::vector materials,
+ BlockDataReductionMode mode)
+ : SuperPlaneIntegralF2D(
+ std::unique_ptr>(new F(sLattice, converter)),
+ geometry,
+ origin, u,
+ std::move(materials),
+ mode)
+{
+ this->getName() = "SuperPlaneIntegralFluxF2D";
+}
+
+template class F>
+template
+SuperPlaneIntegralFluxF2D::SuperPlaneIntegralFluxF2D(
+ SuperLattice2D& sLattice,
+ const UnitConverter& converter,
+ SuperGeometry2D& geometry,
+ const Vector& origin, const Vector& u,
+ BlockDataReductionMode mode)
+ : SuperPlaneIntegralF2D(
+ std::unique_ptr>(new F(sLattice, converter)),
+ geometry,
+ origin, u,
+ mode)
+{
+ this->getName() = "SuperPlaneIntegralFluxF2D";
+}
+
+
+template
+void SuperPlaneIntegralFluxPressure2D::print(
+ std::string regionName, std::string fluxSiScaleName, std::string meanSiScaleName)
+{
+ OstreamManager clout("SuperPlaneIntegralFluxPressure2D");
+ int input[1] = { };
+ T output[this->getTargetDim()];
+ this->operator()(output, input);
+ if ( regionName != "" ) {
+ clout << "regionName=" << regionName << "; regionSize[m]=" << output[1] << std::flush;
+ } else {
+ clout << "regionSize[m]=" << output[1] << std::flush;
+ }
+ if ( singleton::mpi().isMainProcessor() ) {
+ if ( fluxSiScaleName == "MN" ) {
+ std::cout << "; force[MN]=" << output[0]/T(1.e6) << std::flush;
+ } else if ( fluxSiScaleName == "kN") {
+ std::cout << "; force[kN]=" << output[0]/T(1.e3) << std::flush;
+ } else {
+ std::cout << "; force[N]=" << output[0] << std::flush;
+ }
+ if ( meanSiScaleName == "mmHg" ) {
+ std::cout << "; meanPressure[mmHg]=" << fabs(output[0])/output[1]/T(133.322) << std::endl;
+ } else {
+ std::cout << "; meanPressure[Pa]=" << fabs(output[0])/output[1] << std::endl;
+ }
+ }
+}
+
+
+template
+void SuperPlaneIntegralFluxVelocity2D::print(
+ std::string regionName, std::string fluxSiScaleName, std::string meanSiScaleName)
+{
+ OstreamManager clout("SuperPlaneIntegralFluxVelocity2D");
+ int input[1] = { };
+ T output[this->getTargetDim()];
+ this->operator()(output, input);
+ if ( regionName != "" ) {
+ clout << "regionName=" << regionName << "; regionSize[m]=" << output[1] << std::flush;
+ } else {
+ clout << "regionSize[m]=" << output[1] << std::flush;
+ }
+ if ( singleton::mpi().isMainProcessor() ) {
+ std::cout << "; flowRate[m^2/s]=" << output[0] << std::flush;
+ if ( meanSiScaleName == "mm/s" ) {
+ std::cout << "; meanVelocity[mm/s]=" << output[0]/output[1]*T(1.e3) << std::endl;
+ } else {
+ std::cout << "; meanVelocity[m/s]=" << output[0]/output[1] << std::endl;
+ }
+ }
+}
+
+
+}
+
+#endif
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