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879 lines
26 KiB
C++
879 lines
26 KiB
C++
#ifndef MESHCLASS
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#define MESHCLASS
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/**************************************************************************/
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/* File: meshclass.hpp */
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/* Author: Joachim Schoeberl */
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/* Date: 20. Nov. 99 */
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/**************************************************************************/
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/*
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The mesh class
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*/
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namespace netgen
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{
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enum resthtype { RESTRICTH_FACE, RESTRICTH_EDGE,
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RESTRICTH_SURFACEELEMENT, RESTRICTH_POINT, RESTRICTH_SEGMENT };
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class HPRefElement;
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/// 2d/3d mesh
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class Mesh
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{
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public:
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typedef ::netgen::T_POINTS T_POINTS;
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typedef Array<Element, 0, size_t> T_VOLELEMENTS;
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// typedef Array<Element2d, 0, SurfaceElementIndex> T_SURFELEMENTS;
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typedef Array<Element2d, 0, size_t> T_SURFELEMENTS;
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private:
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/// point coordinates
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T_POINTS points;
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#ifdef PARALLEL
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// The communicator for this mesh. (more or less dummy for now!)
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MPI_Comm comm;
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#endif
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/// line-segments at edges
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Array<Segment, 0, size_t> segments;
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/// surface elements, 2d-inner elements
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T_SURFELEMENTS surfelements;
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/// volume elements
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T_VOLELEMENTS volelements;
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/// points will be fixed forever
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Array<PointIndex> lockedpoints;
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/// surface indices at boundary nodes
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// TABLE<int,PointIndex::BASE> surfacesonnode;
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/// boundary edges (1..normal bedge, 2..segment)
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INDEX_2_CLOSED_HASHTABLE<int> * boundaryedges;
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///
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INDEX_2_CLOSED_HASHTABLE<int> * segmentht;
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///
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INDEX_3_CLOSED_HASHTABLE<int> * surfelementht;
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/// faces of rest-solid
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Array<Element2d> openelements;
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/// open segmenets for surface meshing
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Array<Segment> opensegments;
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/**
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Representation of local mesh-size h
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*/
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LocalH * lochfunc;
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///
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double hglob;
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///
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double hmin;
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///
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Array<double> maxhdomain;
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/**
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the face-index of the surface element maps into
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this table.
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*/
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Array<FaceDescriptor> facedecoding;
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/**
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the edge-index of the line element maps into
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this table.
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*/
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Array<EdgeDescriptor> edgedecoding;
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/// sub-domain materials
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Array<string*> materials;
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/// labels for boundary conditions
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Array<string*> bcnames;
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/// labels for co dim 2 bboundary conditions
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Array<string*> cd2names;
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/// labels for co dim 3 bbboundary conditions
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Array<string*> cd3names;
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/// Periodic surface, close surface, etc. identifications
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Identifications * ident;
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/// number of vertices (if < 0, use np)
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int numvertices;
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/// geometric search tree for interval intersection search
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BoxTree<3> * elementsearchtree;
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/// time stamp for tree
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mutable int elementsearchtreets;
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/// element -> face, element -> edge etc ...
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MeshTopology topology;
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/// methods for high order elements
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class CurvedElements * curvedelems;
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/// nodes identified by close points
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class AnisotropicClusters * clusters;
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/// space dimension (2 or 3)
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int dimension;
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/// changed by every minor modification (addpoint, ...)
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int timestamp;
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/// changed after finishing global algorithm (improve, ...)
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int majortimestamp;
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/// mesh access semaphors.
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NgMutex mutex;
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/// mesh access semaphors.
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NgMutex majormutex;
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SYMBOLTABLE< Array<int>* > userdata_int;
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SYMBOLTABLE< Array<double>* > userdata_double;
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mutable Array< Point3d > pointcurves;
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mutable Array<int> pointcurves_startpoint;
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mutable Array<double> pointcurves_red,pointcurves_green,pointcurves_blue;
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/// start element for point search (GetElementOfPoint)
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mutable int ps_startelement;
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#ifdef PARALLEL
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/// connection to parallel meshes
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class ParallelMeshTopology * paralleltop;
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#endif
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shared_ptr<NetgenGeometry> geometry;
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private:
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void BuildBoundaryEdges(void);
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public:
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bool PointContainedIn2DElement(const Point3d & p,
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double lami[3],
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const int element,
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bool consider3D = false) const;
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bool PointContainedIn3DElement(const Point3d & p,
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double lami[3],
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const int element) const;
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bool PointContainedIn3DElementOld(const Point3d & p,
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double lami[3],
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const int element) const;
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public:
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// store coarse mesh before hp-refinement
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Array<HPRefElement> * hpelements;
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Mesh * coarsemesh;
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/// number of refinement levels
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int mglevels;
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/// refinement hierarchy
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Array<PointIndices<2>,PointIndex::BASE> mlbetweennodes;
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/// parent element of volume element
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Array<int> mlparentelement;
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/// parent element of surface element
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Array<int> mlparentsurfaceelement;
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///
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DLL_HEADER Mesh();
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///
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DLL_HEADER ~Mesh();
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Mesh & operator= (const Mesh & mesh2);
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///
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DLL_HEADER void DeleteMesh();
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///
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void ClearSurfaceElements();
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///
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DLL_HEADER void ClearVolumeElements()
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{
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volelements.SetSize(0);
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timestamp = NextTimeStamp();
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}
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///
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DLL_HEADER void ClearSegments()
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{
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segments.SetSize(0);
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timestamp = NextTimeStamp();
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}
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///
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bool TestOk () const;
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void SetAllocSize(int nnodes, int nsegs, int nsel, int nel);
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DLL_HEADER PointIndex AddPoint (const Point3d & p, int layer = 1);
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DLL_HEADER PointIndex AddPoint (const Point3d & p, int layer, POINTTYPE type);
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int GetNP () const { return points.Size(); }
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// [[deprecated("Use Point(PointIndex) instead of int !")]]
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MeshPoint & Point(int i) { return points.Elem(i); }
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MeshPoint & Point(PointIndex pi) { return points[pi]; }
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// [[deprecated("Use Point(PointIndex) instead of int !")]]
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const MeshPoint & Point(int i) const { return points.Get(i); }
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const MeshPoint & Point(PointIndex pi) const { return points[pi]; }
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const MeshPoint & operator[] (PointIndex pi) const { return points[pi]; }
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MeshPoint & operator[] (PointIndex pi) { return points[pi]; }
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const T_POINTS & Points() const { return points; }
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T_POINTS & Points() { return points; }
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DLL_HEADER SegmentIndex AddSegment (const Segment & s);
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void DeleteSegment (int segnr)
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{
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segments.Elem(segnr)[0].Invalidate();
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segments.Elem(segnr)[1].Invalidate();
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}
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/*
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void FullDeleteSegment (int segnr) // von wem ist das ???
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{
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segments.Delete(segnr-PointIndex::BASE);
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}
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*/
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int GetNSeg () const { return segments.Size(); }
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// [[deprecated("Use LineSegment(SegmentIndex) instead of int !")]]
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Segment & LineSegment(int i) { return segments.Elem(i); }
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// [[deprecated("Use LineSegment(SegmentIndex) instead of int !")]]
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const Segment & LineSegment(int i) const { return segments.Get(i); }
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Segment & LineSegment(SegmentIndex si) { return segments[si]; }
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const Segment & LineSegment(SegmentIndex si) const { return segments[si]; }
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const Segment & operator[] (SegmentIndex si) const { return segments[si]; }
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Segment & operator[] (SegmentIndex si) { return segments[si]; }
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/*
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const Array<Segment> & LineSegments() const { return segments; }
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Array<Segment> & LineSegments() { return segments; }
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*/
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const auto & LineSegments() const { return segments; }
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auto & LineSegments() { return segments; }
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Array<Element0d> pointelements; // only via python interface
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DLL_HEADER SurfaceElementIndex AddSurfaceElement (const Element2d & el);
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// write to pre-allocated container, thread-safe
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DLL_HEADER void SetSurfaceElement (SurfaceElementIndex sei, const Element2d & el);
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// [[deprecated("Use DeleteSurfaceElement(SurfaceElementIndex) instead of int !")]]
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void DeleteSurfaceElement (int eli)
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{
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surfelements.Elem(eli).Delete();
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surfelements.Elem(eli).PNum(1).Invalidate();
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surfelements.Elem(eli).PNum(2).Invalidate();
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surfelements.Elem(eli).PNum(3).Invalidate();
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timestamp = NextTimeStamp();
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}
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void DeleteSurfaceElement (SurfaceElementIndex eli)
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{
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for (auto & p : surfelements[eli].PNums()) p.Invalidate();
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surfelements[eli].Delete();
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timestamp = NextTimeStamp();
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}
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int GetNSE () const { return surfelements.Size(); }
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// [[deprecated("Use SurfaceElement(SurfaceElementIndex) instead of int !")]]
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Element2d & SurfaceElement(int i) { return surfelements.Elem(i); }
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// [[deprecated("Use SurfaceElement(SurfaceElementIndex) instead of int !")]]
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const Element2d & SurfaceElement(int i) const { return surfelements.Get(i); }
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Element2d & SurfaceElement(SurfaceElementIndex i) { return surfelements[i]; }
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const Element2d & SurfaceElement(SurfaceElementIndex i) const { return surfelements[i]; }
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const Element2d & operator[] (SurfaceElementIndex ei) const
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{ return surfelements[ei]; }
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Element2d & operator[] (SurfaceElementIndex ei)
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{ return surfelements[ei]; }
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const T_SURFELEMENTS & SurfaceElements() const { return surfelements; }
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T_SURFELEMENTS & SurfaceElements() { return surfelements; }
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DLL_HEADER void RebuildSurfaceElementLists ();
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DLL_HEADER void GetSurfaceElementsOfFace (int facenr, Array<SurfaceElementIndex> & sei) const;
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DLL_HEADER ElementIndex AddVolumeElement (const Element & el);
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// write to pre-allocated container, thread-safe
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DLL_HEADER void SetVolumeElement (ElementIndex sei, const Element & el);
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int GetNE () const { return volelements.Size(); }
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// [[deprecated("Use VolumeElement(ElementIndex) instead of int !")]]
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Element & VolumeElement(int i) { return volelements.Elem(i); }
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// [[deprecated("Use VolumeElement(ElementIndex) instead of int !")]]
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const Element & VolumeElement(int i) const { return volelements.Get(i); }
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Element & VolumeElement(ElementIndex i) { return volelements[i]; }
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const Element & VolumeElement(ElementIndex i) const { return volelements[i]; }
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const Element & operator[] (ElementIndex ei) const
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{ return volelements[ei]; }
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Element & operator[] (ElementIndex ei)
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{ return volelements[ei]; }
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ELEMENTTYPE ElementType (ElementIndex i) const
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{ return (volelements[i].flags.fixed) ? FIXEDELEMENT : FREEELEMENT; }
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const auto & VolumeElements() const { return volelements; }
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auto & VolumeElements() { return volelements; }
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///
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DLL_HEADER double ElementError (int eli, const MeshingParameters & mp) const;
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///
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DLL_HEADER void AddLockedPoint (PointIndex pi);
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///
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void ClearLockedPoints ();
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const auto & LockedPoints() const { return lockedpoints; }
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/// Returns number of domains
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DLL_HEADER int GetNDomains() const;
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///
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int GetDimension() const { return dimension; }
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void SetDimension (int dim) { dimension = dim; }
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/// sets internal tables
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DLL_HEADER void CalcSurfacesOfNode ();
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/// additional (temporarily) fix points
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void FixPoints (const BitArray & fixpoints);
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/**
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finds elements without neighbour and
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boundary elements without inner element.
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Results are stored in openelements.
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if dom == 0, all sub-domains, else subdomain dom */
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DLL_HEADER void FindOpenElements (int dom = 0);
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/**
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finds segments without surface element,
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and surface elements without neighbours.
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store in opensegmentsy
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*/
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DLL_HEADER void FindOpenSegments (int surfnr = 0);
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/**
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remove one layer of surface elements
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*/
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DLL_HEADER void RemoveOneLayerSurfaceElements ();
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int GetNOpenSegments () { return opensegments.Size(); }
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const Segment & GetOpenSegment (int nr) { return opensegments.Get(nr); }
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/**
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Checks overlap of boundary
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return == 1, iff overlap
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*/
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DLL_HEADER int CheckOverlappingBoundary ();
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/**
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Checks consistent boundary
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return == 0, everything ok
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*/
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DLL_HEADER int CheckConsistentBoundary () const;
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/*
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checks element orientation
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*/
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DLL_HEADER int CheckVolumeMesh () const;
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/**
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finds average h of surface surfnr if surfnr > 0,
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else of all surfaces.
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*/
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DLL_HEADER double AverageH (int surfnr = 0) const;
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/// Calculates localh
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DLL_HEADER void CalcLocalH (double grading);
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///
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DLL_HEADER void SetLocalH (netgen::Point<3> pmin, netgen::Point<3> pmax, double grading);
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///
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DLL_HEADER void RestrictLocalH (const Point3d & p, double hloc);
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///
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DLL_HEADER void RestrictLocalHLine (const Point3d & p1, const Point3d & p2,
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double hloc);
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/// number of elements per radius
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DLL_HEADER void CalcLocalHFromSurfaceCurvature(double grading, double elperr);
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///
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DLL_HEADER void CalcLocalHFromPointDistances(double grading);
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///
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DLL_HEADER void RestrictLocalH (resthtype rht, int nr, double loch);
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///
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DLL_HEADER void LoadLocalMeshSize (const string & meshsizefilename);
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///
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DLL_HEADER void SetGlobalH (double h);
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///
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DLL_HEADER void SetMinimalH (double h);
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///
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DLL_HEADER double MaxHDomain (int dom) const;
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///
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DLL_HEADER void SetMaxHDomain (const Array<double> & mhd);
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///
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DLL_HEADER double GetH (const Point3d & p) const;
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///
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double GetMinH (const Point3d & pmin, const Point3d & pmax);
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///
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bool HasLocalHFunction () { return lochfunc != nullptr; }
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///
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LocalH & LocalHFunction () { return * lochfunc; }
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///
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bool LocalHFunctionGenerated(void) const { return (lochfunc != NULL); }
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/// Find bounding box
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DLL_HEADER void GetBox (Point3d & pmin, Point3d & pmax, int dom = -1) const;
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/// Find bounding box of points of typ ptyp or less
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DLL_HEADER void GetBox (Point3d & pmin, Point3d & pmax, POINTTYPE ptyp ) const;
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///
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int GetNOpenElements() const
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{ return openelements.Size(); }
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///
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const Element2d & OpenElement(int i) const
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{ return openelements.Get(i); }
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/// are also quads open elements
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bool HasOpenQuads () const;
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/// split into connected pieces
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DLL_HEADER void SplitIntoParts ();
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///
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DLL_HEADER void SplitSeparatedFaces ();
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/// Refines mesh and projects points to true surface
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// void Refine (int levels, const CSGeometry * geom);
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bool BoundaryEdge (PointIndex pi1, PointIndex pi2) const
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{
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if(!boundaryedges)
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const_cast<Mesh *>(this)->BuildBoundaryEdges();
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INDEX_2 i2 (pi1, pi2);
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i2.Sort();
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return boundaryedges->Used (i2);
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}
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bool IsSegment (PointIndex pi1, PointIndex pi2) const
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{
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INDEX_2 i2 (pi1, pi2);
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i2.Sort();
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return segmentht->Used (i2);
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}
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SegmentIndex SegmentNr (PointIndex pi1, PointIndex pi2) const
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{
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INDEX_2 i2 (pi1, pi2);
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i2.Sort();
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return segmentht->Get (i2);
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}
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/**
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Remove unused points. etc.
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*/
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DLL_HEADER void Compress ();
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/// first vertex has lowest index
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void OrderElements();
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///
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DLL_HEADER void Save (ostream & outfile) const;
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///
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DLL_HEADER void Load (istream & infile);
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///
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DLL_HEADER void Merge (istream & infile, const int surfindex_offset = 0);
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///
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DLL_HEADER void Save (const string & filename) const;
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///
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DLL_HEADER void Load (const string & filename);
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///
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DLL_HEADER void Merge (const string & filename, const int surfindex_offset = 0);
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DLL_HEADER void DoArchive (ngstd::Archive & archive);
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///
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DLL_HEADER void ImproveMesh (const MeshingParameters & mp, OPTIMIZEGOAL goal = OPT_QUALITY);
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///
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void ImproveMeshJacobian (const MeshingParameters & mp, OPTIMIZEGOAL goal = OPT_QUALITY, const BitArray * usepoint = NULL);
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///
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void ImproveMeshJacobianOnSurface (const MeshingParameters & mp,
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const BitArray & usepoint,
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const Array< Vec<3>* > & nv,
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OPTIMIZEGOAL goal = OPT_QUALITY,
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const Array< Array<int,PointIndex::BASE>* > * idmaps = NULL);
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/**
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free nodes in environment of openelements
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for optimiztion
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*/
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void FreeOpenElementsEnvironment (int layers);
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///
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bool LegalTet (Element & el) const
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{
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if (el.IllegalValid())
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return !el.Illegal();
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return LegalTet2 (el);
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}
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///
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bool LegalTet2 (Element & el) const;
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///
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bool LegalTrig (const Element2d & el) const;
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/**
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if values non-null, return values in 4-double array:
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triangle angles min/max, tetangles min/max
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if null, output results on cout
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*/
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DLL_HEADER void CalcMinMaxAngle (double badellimit, double * retvalues = NULL);
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/*
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Marks elements which are dangerous to refine
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return: number of illegal elements
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*/
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DLL_HEADER int MarkIllegalElements ();
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/// orient surface mesh, for one sub-domain only
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DLL_HEADER void SurfaceMeshOrientation ();
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/// convert mixed element mesh to tet-mesh
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DLL_HEADER void Split2Tets();
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/// build box-search tree
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DLL_HEADER void BuildElementSearchTree ();
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void SetPointSearchStartElement(const int el) const {ps_startelement = el;}
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/// gives element of point, barycentric coordinates
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int GetElementOfPoint (const netgen::Point<3> & p,
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double * lami,
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bool build_searchtree = 0,
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const int index = -1,
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const bool allowindex = true) const;
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int GetElementOfPoint (const netgen::Point<3> & p,
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double * lami,
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const Array<int> * const indices,
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bool build_searchtree = 0,
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const bool allowindex = true) const;
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int GetSurfaceElementOfPoint (const netgen::Point<3> & p,
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double * lami,
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bool build_searchtree = 0,
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const int index = -1,
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const bool allowindex = true) const;
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int GetSurfaceElementOfPoint (const netgen::Point<3> & p,
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double * lami,
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const Array<int> * const indices,
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bool build_searchtree = 0,
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const bool allowindex = true) const;
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/// give list of vol elements which are int the box(p1,p2)
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void GetIntersectingVolEls(const Point3d& p1, const Point3d& p2,
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Array<int> & locels) const;
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///
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int AddFaceDescriptor(const FaceDescriptor& fd)
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{ facedecoding.Append(fd); return facedecoding.Size(); }
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int AddEdgeDescriptor(const EdgeDescriptor & fd)
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{ edgedecoding.Append(fd); return edgedecoding.Size() - 1; }
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///
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DLL_HEADER void SetMaterial (int domnr, const string & mat);
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///
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DLL_HEADER const string & GetMaterial (int domnr) const;
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DLL_HEADER static string defaultmat;
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const string * GetMaterialPtr (int domnr) const // 1-based
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{
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return domnr <= materials.Size() ? materials.Get(domnr) : &defaultmat;
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}
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DLL_HEADER void SetNBCNames ( int nbcn );
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DLL_HEADER void SetBCName ( int bcnr, const string & abcname );
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DLL_HEADER const string & GetBCName ( int bcnr ) const;
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DLL_HEADER void SetNCD2Names (int ncd2n);
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DLL_HEADER void SetCD2Name (int cd2nr, const string & abcname);
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DLL_HEADER const string & GetCD2Name (int cd2nr ) const;
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DLL_HEADER static string cd2_default_name;
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string * GetCD2NamePtr (int cd2nr ) const
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{
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if (cd2nr < cd2names.Size() && cd2names[cd2nr]) return cd2names[cd2nr];
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return &cd2_default_name;
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}
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size_t GetNCD2Names() const { return cd2names.Size(); }
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DLL_HEADER void SetNCD3Names (int ncd3n);
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DLL_HEADER void SetCD3Name (int cd3nr, const string & abcname);
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DLL_HEADER const string & GetCD3Name (int cd3nr ) const;
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DLL_HEADER static string cd3_default_name;
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string * GetCD3NamePtr (int cd3nr ) const
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{
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if (cd3nr < cd3names.Size() && cd3names[cd3nr]) return cd3names[cd3nr];
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return &cd3_default_name;
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}
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size_t GetNCD3Names() const { return cd3names.Size(); }
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DLL_HEADER static string default_bc;
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string * GetBCNamePtr (int bcnr) const
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{ return (bcnr < bcnames.Size() && bcnames[bcnr]) ? bcnames[bcnr] : &default_bc; }
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///
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void ClearFaceDescriptors()
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{ facedecoding.SetSize(0); }
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///
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int GetNFD () const
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{ return facedecoding.Size(); }
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const FaceDescriptor & GetFaceDescriptor (int i) const
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{ return facedecoding.Get(i); }
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const EdgeDescriptor & GetEdgeDescriptor (int i) const
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{ return edgedecoding[i]; }
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///
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FaceDescriptor & GetFaceDescriptor (int i)
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{ return facedecoding.Elem(i); }
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// #ifdef NONE
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// /*
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// Identify points pi1 and pi2, due to
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// identification nr identnr
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// */
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// void AddIdentification (int pi1, int pi2, int identnr);
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// int GetIdentification (int pi1, int pi2) const;
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// int GetIdentificationSym (int pi1, int pi2) const;
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// ///
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// INDEX_2_HASHTABLE<int> & GetIdentifiedPoints ()
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// {
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// return *identifiedpoints;
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// }
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// ///
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// void GetIdentificationMap (int identnr, Array<int> & identmap) const;
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// ///
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// void GetIdentificationPairs (int identnr, Array<INDEX_2> & identpairs) const;
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// ///
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// int GetMaxIdentificationNr () const
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// {
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// return maxidentnr;
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// }
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// #endif
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/// return periodic, close surface etc. identifications
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Identifications & GetIdentifications () { return *ident; }
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/// return periodic, close surface etc. identifications
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const Identifications & GetIdentifications () const { return *ident; }
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///
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bool HasIdentifications() const { return ident != nullptr; }
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void InitPointCurve(double red = 1, double green = 0, double blue = 0) const;
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void AddPointCurvePoint(const Point3d & pt) const;
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int GetNumPointCurves(void) const;
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int GetNumPointsOfPointCurve(int curve) const;
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Point3d & GetPointCurvePoint(int curve, int n) const;
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void GetPointCurveColor(int curve, double & red, double & green, double & blue) const;
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/// find number of vertices
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void ComputeNVertices ();
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/// number of vertices (no edge-midpoints)
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int GetNV () const;
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/// remove edge points
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void SetNP (int np);
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DLL_HEADER bool PureTrigMesh (int faceindex = 0) const;
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DLL_HEADER bool PureTetMesh () const;
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const MeshTopology & GetTopology () const
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{ return topology; }
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DLL_HEADER void UpdateTopology (TaskManager tm = &DummyTaskManager,
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Tracer tracer = &DummyTracer);
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class CurvedElements & GetCurvedElements () const
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{ return *curvedelems; }
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DLL_HEADER void BuildCurvedElements (const class Refinement * ref, int aorder, bool arational = false);
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DLL_HEADER void BuildCurvedElements (int aorder);
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const class AnisotropicClusters & GetClusters () const
|
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{ return *clusters; }
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|
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|
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class CSurfaceArea
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{
|
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const Mesh & mesh;
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bool valid;
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double area;
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public:
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CSurfaceArea (const Mesh & amesh)
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: mesh(amesh), valid(false) { ; }
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|
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void Add (const Element2d & sel)
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{
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if (sel.GetNP() == 3)
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area += Cross ( mesh[sel[1]]-mesh[sel[0]],
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mesh[sel[2]]-mesh[sel[0]] ).Length() / 2;
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else
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area += Cross (Vec3d (mesh[sel.PNum(1)], mesh[sel.PNum(3)]),
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Vec3d (mesh[sel.PNum(1)], mesh[sel.PNum(4)])).Length() / 2;;
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}
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void ReCalc ()
|
|
{
|
|
area = 0;
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|
for (SurfaceElementIndex sei = 0; sei < mesh.GetNSE(); sei++)
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Add (mesh[sei]);
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valid = true;
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|
}
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|
|
operator double () const { return area; }
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|
bool Valid() const { return valid; }
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|
};
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|
|
CSurfaceArea surfarea;
|
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CSurfaceArea & SurfaceArea() { return surfarea; }
|
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const CSurfaceArea & SurfaceArea() const { return surfarea; }
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|
|
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|
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int GetTimeStamp() const { return timestamp; }
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void SetNextTimeStamp()
|
|
{ timestamp = NextTimeStamp(); }
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|
|
int GetMajorTimeStamp() const { return majortimestamp; }
|
|
void SetNextMajorTimeStamp()
|
|
{ majortimestamp = timestamp = NextTimeStamp(); }
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|
|
|
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/// return mutex
|
|
NgMutex & Mutex () { return mutex; }
|
|
NgMutex & MajorMutex () { return majormutex; }
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|
|
|
|
shared_ptr<NetgenGeometry> GetGeometry() const
|
|
{
|
|
return geometry;
|
|
}
|
|
void SetGeometry (shared_ptr<NetgenGeometry> geom)
|
|
{
|
|
geometry = geom;
|
|
}
|
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|
|
///
|
|
void SetUserData(const char * id, Array<int> & data);
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|
///
|
|
bool GetUserData(const char * id, Array<int> & data, int shift = 0) const;
|
|
///
|
|
void SetUserData(const char * id, Array<double> & data);
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|
///
|
|
bool GetUserData(const char * id, Array<double> & data, int shift = 0) const;
|
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|
|
///
|
|
friend void OptimizeRestart (Mesh & mesh3d);
|
|
///
|
|
void PrintMemInfo (ostream & ost) const;
|
|
///
|
|
friend class Meshing3;
|
|
|
|
|
|
enum GEOM_TYPE { NO_GEOM = 0, GEOM_2D = 1, GEOM_CSG = 10, GEOM_STL = 11, GEOM_OCC = 12, GEOM_ACIS = 13 };
|
|
GEOM_TYPE geomtype;
|
|
|
|
|
|
|
|
#ifdef PARALLEL
|
|
/// returns parallel topology
|
|
class ParallelMeshTopology & GetParallelTopology () const
|
|
{ return *paralleltop; }
|
|
|
|
|
|
/// distributes the master-mesh to local meshes
|
|
void Distribute ();
|
|
void Distribute (Array<int> & volume_weights, Array<int> & surface_weights,
|
|
Array<int> & segment_weights);
|
|
|
|
|
|
/// find connection to parallel meshes
|
|
// void FindExchangePoints () ;
|
|
|
|
// void FindExchangeEdges ();
|
|
// void FindExchangeFaces ();
|
|
|
|
/// use metis to decompose master mesh
|
|
void ParallelMetis (); // Array<int> & neloc );
|
|
void ParallelMetis (Array<int> & volume_weights, Array<int> & surface_weights,
|
|
Array<int> & segment_weights);
|
|
|
|
void PartHybridMesh (); // Array<int> & neloc );
|
|
void PartDualHybridMesh (); // Array<int> & neloc );
|
|
void PartDualHybridMesh2D (); // ( Array<int> & neloc );
|
|
|
|
|
|
/// send mesh from master to local procs
|
|
void SendRecvMesh ();
|
|
|
|
/// send mesh to parallel machine, keep global mesh at master
|
|
void SendMesh ( ) const; // Mesh * mastermesh, Array<int> & neloc) const;
|
|
/// loads a mesh sent from master processor
|
|
void ReceiveParallelMesh ();
|
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|
|
#endif
|
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|
|
|
|
};
|
|
|
|
inline ostream& operator<<(ostream& ost, const Mesh& mesh)
|
|
{
|
|
ost << "mesh: " << endl;
|
|
mesh.Save(ost);
|
|
return ost;
|
|
}
|
|
|
|
}
|
|
|
|
#endif
|
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|
|
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