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287 lines
10 KiB
C++
287 lines
10 KiB
C++
// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
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// vi: set et ts=4 sw=4 sts=4:
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/*
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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 2 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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Consult the COPYING file in the top-level source directory of this
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module for the precise wording of the license and the list of
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copyright holders.
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*/
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#include <dune/common/version.hh>
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#include <dune/common/fvector.hh>
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#include <dune/common/fmatrix.hh>
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#include <algorithm>
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#include <fstream>
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#include <iomanip>
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#include <memory>
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#include <stdexcept>
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#include <sstream>
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#include <string>
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#include <vector>
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namespace Ewoms {
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/*!
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* \brief Reads in mesh files in the ART format.
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*
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* This file format is used to specify grids with fractures.
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*/
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struct Art2DGF
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{
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/*!
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* \brief Create the Grid
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*/
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static void convert( const std::string& artFileName,
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std::ostream& dgfFile,
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const unsigned precision = 16 )
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{
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using Scalar = double;
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using GlobalPosition = Dune::FieldVector< Scalar, 2 >;
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enum ParseMode { Vertex, Edge, Element, Finished };
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std::vector< std::pair<GlobalPosition, unsigned> > vertexPos;
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std::vector<std::pair<unsigned, unsigned> > edges;
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std::vector<std::pair<unsigned, unsigned> > fractureEdges;
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std::vector<std::vector<unsigned> > elements;
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std::ifstream inStream(artFileName);
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if (!inStream.is_open()) {
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throw std::runtime_error("File '"+artFileName
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+"' does not exist or is not readable");
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}
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std::string curLine;
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ParseMode curParseMode = Vertex;
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while (inStream) {
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std::getline(inStream, curLine);
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// remove comments
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auto commentPos = curLine.find("%");
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if (commentPos != curLine.npos) {
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curLine = curLine.substr(0, commentPos);
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}
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// remove leading whitespace
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unsigned numLeadingSpaces = 0;
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while (curLine.size() > numLeadingSpaces
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&& std::isspace(curLine[numLeadingSpaces]))
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++numLeadingSpaces;
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curLine = curLine.substr(numLeadingSpaces,
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curLine.size() - numLeadingSpaces);
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// remove trailing whitespace
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unsigned numTrailingSpaces = 0;
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while (curLine.size() > numTrailingSpaces
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&& std::isspace(curLine[curLine.size() - numTrailingSpaces]))
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++numTrailingSpaces;
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curLine = curLine.substr(0, curLine.size() - numTrailingSpaces);
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// a section of the file is finished, go to the next one
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if (curLine == "$") {
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if (curParseMode == Vertex)
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curParseMode = Edge;
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else if (curParseMode == Edge)
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curParseMode = Element;
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else if (curParseMode == Element)
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curParseMode = Finished;
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continue;
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}
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// skip empty lines
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if (curLine.empty())
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continue;
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if (curParseMode == Vertex) {
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GlobalPosition coord;
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std::istringstream iss(curLine);
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// parse only the first two numbers as the vertex
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// coordinate. the last number is the Z coordinate
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// which we ignore (so far)
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iss >> coord[0] >> coord[1];
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vertexPos.push_back( std::make_pair( coord, 0 ) );
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}
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else if (curParseMode == Edge) {
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// read an edge and update the fracture mapper
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// read the data attached to the edge
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std::istringstream iss(curLine);
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int dataVal;
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std::string tmp;
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iss >> dataVal;
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iss >> tmp;
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assert(tmp == ":");
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// read the vertex indices of an edge
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std::vector<unsigned int> vertIndices;
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while (iss) {
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unsigned int tmp2;
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iss >> tmp2;
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if (!iss)
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break;
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vertIndices.push_back(tmp2);
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assert(tmp2 < vertexPos.size());
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}
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// an edge always has two indices!
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assert(vertIndices.size() == 2);
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std::pair<unsigned, unsigned> edge(vertIndices[0], vertIndices[1]);
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edges.push_back(edge);
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// add the edge to the fracture mapper if it is a fracture
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if (dataVal < 0) {
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fractureEdges.push_back(edge);
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vertexPos[ edge.first ].second = 1;
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vertexPos[ edge.second ].second = 1;
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}
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}
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else if (curParseMode == Element) {
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// skip the data attached to an element
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std::istringstream iss(curLine);
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int dataVal;
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std::string tmp;
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iss >> dataVal;
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iss >> tmp;
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assert(tmp == ":");
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// read the edge indices of an element
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std::vector<unsigned> edgeIndices;
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while (iss) {
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unsigned tmp2;
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iss >> tmp2;
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if (!iss)
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break;
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edgeIndices.push_back(tmp2);
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assert(tmp2 < edges.size());
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}
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// so far, we only support triangles
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assert(edgeIndices.size() == 3);
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// extract the vertex indices of the element
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std::vector<unsigned> vertIndices;
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for (unsigned i = 0; i < 3; ++i) {
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bool haveFirstVertex = false;
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for (unsigned j = 0; j < vertIndices.size(); ++j) {
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assert(edgeIndices[i] < edges.size());
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if (vertIndices[j] == edges[edgeIndices[i]].first) {
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haveFirstVertex = true;
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break;
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}
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}
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if (!haveFirstVertex)
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vertIndices.push_back(edges[edgeIndices[i]].first);
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bool haveSecondVertex = false;
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for (unsigned j = 0; j < vertIndices.size(); ++j) {
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assert(edgeIndices[i] < edges.size());
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if (vertIndices[j] == edges[edgeIndices[i]].second) {
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haveSecondVertex = true;
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break;
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}
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}
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if (!haveSecondVertex)
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vertIndices.push_back(edges[edgeIndices[i]].second);
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}
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// check whether the element's vertices are given in
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// mathematically positive direction. if not, swap the
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// first two.
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Dune::FieldMatrix<Scalar, 2, 2> mat;
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mat[0] = vertexPos[vertIndices[1]].first;
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mat[0] -= vertexPos[vertIndices[0]].first;
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mat[1] = vertexPos[vertIndices[2]].first;
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mat[1] -= vertexPos[vertIndices[0]].first;
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assert(std::abs(mat.determinant()) > 1e-50);
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if (mat.determinant() < 0)
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std::swap(vertIndices[2], vertIndices[1]);
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elements.push_back( vertIndices );
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}
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else if (curParseMode == Finished) {
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assert(curLine.size() == 0);
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}
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}
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dgfFile << "DGF" << std::endl << std::endl;
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dgfFile << "GridParameter" << std::endl
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<< "overlap 1" << std::endl
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<< "closure green" << std::endl
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<< "#" << std::endl << std::endl;
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dgfFile << "Vertex" << std::endl;
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const bool hasFractures = fractureEdges.size() > 0;
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if( hasFractures )
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{
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dgfFile << "parameters 1" << std::endl;
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}
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dgfFile << std::scientific;
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dgfFile.precision( precision );
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const size_t vxSize = vertexPos.size();
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for( size_t i=0; i<vxSize; ++i)
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{
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dgfFile << vertexPos[ i ].first;
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if( hasFractures )
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{
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dgfFile << " " << vertexPos[ i ].second;
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}
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dgfFile << std::endl;
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}
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dgfFile << "#" << std::endl << std::endl;
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dgfFile << "Simplex" << std::endl;
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const size_t elSize = elements.size();
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for( size_t i=0; i<elSize; ++i )
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{
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const size_t elVx = elements[ i ].size();
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for( size_t j=0; j<elVx; ++j )
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dgfFile << elements[ i ][ j ] << " ";
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dgfFile << std::endl;
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}
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dgfFile << "#" << std::endl << std::endl;
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dgfFile << "BoundaryDomain" << std::endl;
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dgfFile << "default 1" << std::endl;
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dgfFile << "#" << std::endl << std::endl;
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dgfFile << "#" << std::endl;
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}
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};
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} // namespace Ewoms
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int main( int argc, char** argv )
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{
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if (argc != 2) {
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std::cout << "Converts a grid file from the ART file format to DGF (Dune grid format)\n"
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<< "\n"
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<< "Usage: " << argv[0] << " ART_FILENAME\n"
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<< "\n"
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<< "The result will be written to the file $ART_FILENAME.dgf\n";
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return 1;
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}
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std::string filename( argv[ 1 ] );
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std::string dgfname( filename );
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dgfname += ".dgf";
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std::cout << "Converting ART file \"" << filename << "\" to DGF file \"" << dgfname << "\"\n";
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std::ofstream dgfFile( dgfname );
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Ewoms::Art2DGF::convert( filename, dgfFile );
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return 0;
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}
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