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377 lines
9.9 KiB
C++
377 lines
9.9 KiB
C++
#ifndef FILE_SURFACE
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#define FILE_SURFACE
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/**************************************************************************/
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/* File: surface.hh */
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/* Author: Joachim Schoeberl */
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/* Date: 1. Dez. 95 */
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/**************************************************************************/
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namespace netgen
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{
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class TriangleApproximation;
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/**
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Basis class for implicit surface geometry.
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This class is used for generation of surface meshes
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in NETGEN
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*/
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class Surface
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{
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protected:
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/// invert normal vector
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bool inverse;
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/// maximal h in surface
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double maxh;
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/// name of surface
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char * name;
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/// boundary condition nr
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int bcprop;
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/// boundary condition label
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string bcname;
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public:
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Surface ();
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/** @name Tangential plane.
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The tangential plane is used for surface mesh generation.
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*/
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virtual ~Surface();
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protected:
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/** @name Points in the surface defining tangential plane.
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Tangential plane is taken in p1, the local x-axis
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is directed to p2.
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*/
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//@{
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///
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Point<3> p1;
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///
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Point<3> p2;
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//@}
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/** @name Base-vectos for local coordinate system. */
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//@{
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/// in plane, directed p1->p2
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Vec<3> ex;
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/// in plane
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Vec<3> ey;
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/// outer normal direction
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Vec<3> ez;
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//@}
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public:
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void SetName (const char * aname);
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const char * Name () const { return name; }
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//@{
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/**
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Defines tangential plane in ap1.
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The local x-coordinate axis points to the direction of ap2 */
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virtual void DefineTangentialPlane (const Point<3> & ap1,
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const Point<3> & ap2);
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/// Transforms 3d point p3d to local coordinates pplane
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virtual void ToPlane (const Point<3> & p3d, Point<2> & pplane,
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double h, int & zone) const;
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/// Transforms point pplane in local coordinates to 3d point
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virtual void FromPlane (const Point<2> & pplane,
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Point<3> & p3d, double h) const;
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//@}
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/// Project point p onto surface (closest point)
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virtual void Project (Point<3> & p) const;
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/// Project along direction
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virtual void SkewProject(Point<3> & p, const Vec<3> & direction) const;
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/// Is current surface identic to surface 2 ?
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virtual int IsIdentic (const Surface & /* s2 */, int & /* inv */,
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double /* eps */) const
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{ return 0; }
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///
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virtual int PointOnSurface (const Point<3> & p,
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double eps = 1e-6) const;
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/** @name Implicit function.
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Calculate function value and derivatives.
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*/
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//@{
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/// Calculate implicit function value in point point
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virtual double CalcFunctionValue (const Point<3> & point) const = 0;
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/**
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Calc gradient of implicit function.
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gradient should be O(1) at surface
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*/
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virtual void CalcGradient (const Point<3> & point, Vec<3> & grad) const = 0;
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/**
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Calculate second derivatives of implicit function.
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*/
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virtual void CalcHesse (const Point<3> & point, Mat<3> & hesse) const;
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/**
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Returns outer normal vector.
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*/
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// virtual void GetNormalVector (const Point<3> & p, Vec<3> & n) const;
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virtual Vec<3> GetNormalVector (const Point<3> & p) const;
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/**
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Upper bound for spectral norm of Hesse-matrix
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*/
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virtual double HesseNorm () const = 0;
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/**
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Upper bound for spectral norm of Hesse-matrix in the
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rad - environment of point c.
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*/
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virtual double HesseNormLoc (const Point<3> & /* c */,
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double /* rad */) const
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{ return HesseNorm (); }
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//@}
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///
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virtual double MaxCurvature () const;
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///
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virtual double MaxCurvatureLoc (const Point<3> & /* c */ ,
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double /* rad */) const;
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/** Returns any point in the surface.
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Needed to start surface mesh generation e.g. on sphere */
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virtual Point<3> GetSurfacePoint () const = 0;
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///
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bool Inverse () const { return inverse; }
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///
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void SetInverse (bool ainverse) { inverse = ainverse; }
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///
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virtual void Print (ostream & str) const = 0;
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///
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virtual void Reduce (const BoxSphere<3> & /* box */) { };
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///
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virtual void UnReduce () { };
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/// set max h in surface
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void SetMaxH (double amaxh) { maxh = amaxh; }
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///
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double GetMaxH () const { return maxh; }
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///
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int GetBCProperty () const { return bcprop; }
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///
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void SetBCProperty (int abc) { bcprop = abc; }
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/** Determine local mesh-size.
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Find
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\[ h \leq hmax, \]
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such that
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\[ h \times \kappa (x) \leq c \qquad \mbox{in} B(x, h), \]
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where kappa(x) is the curvature in x. */
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virtual double LocH (const Point<3> & p, double x,
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double c,
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const MeshingParameters & mparam,
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double hmax) const;
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/**
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Gets Approximation by triangles,
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where qual is about the number of triangles per radius
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*/
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virtual void GetTriangleApproximation (TriangleApproximation & /* tas */,
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const Box<3> & /* boundingbox */,
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double /* facets */ ) const { };
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string GetBCName() const { return bcname; }
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void SetBCName( string abc ) { bcname = abc; }
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};
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inline ostream & operator<< (ostream & ost, const Surface & surf)
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{
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surf.Print(ost);
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return ost;
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}
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typedef enum { IS_OUTSIDE = 0, IS_INSIDE = 1, DOES_INTERSECT = 2}
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INSOLID_TYPE;
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class DummySurface : public Surface
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{
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virtual double CalcFunctionValue (const Point<3> & /* point */) const
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{ return 0; }
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virtual void CalcGradient (const Point<3> & /* point */, Vec<3> & grad) const
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{ grad = Vec<3> (0,0,0); }
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virtual Point<3> GetSurfacePoint () const
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{ return Point<3> (0,0,0); }
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virtual double HesseNorm () const
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{ return 0; }
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virtual void Project (Point<3> & /* p */) const
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{ ; }
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virtual void Print (ostream & ost) const
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{ ost << "dummy surface"; }
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};
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class Primitive
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{
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public:
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Primitive ();
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virtual ~Primitive();
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/*
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Check, whether box intersects solid defined by surface.
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return values:
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0 .. box outside solid \\
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1 .. box in solid \\
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2 .. can't decide (allowed, iff box is close to solid)
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*/
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virtual INSOLID_TYPE BoxInSolid (const BoxSphere<3> & box) const = 0;
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virtual INSOLID_TYPE PointInSolid (const Point<3> & p,
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double eps) const = 0;
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virtual void GetTangentialSurfaceIndices (const Point<3> & p,
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Array<int> & surfind, double eps) const;
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virtual INSOLID_TYPE VecInSolid (const Point<3> & p,
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const Vec<3> & v,
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double eps) const = 0;
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// checks if lim s->0 lim t->0 p + t(v1 + s v2) in solid
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virtual INSOLID_TYPE VecInSolid2 (const Point<3> & p,
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const Vec<3> & v1,
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const Vec<3> & v2,
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double eps) const;
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// checks if p + s v1 + s*s/2 v2 is inside
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virtual INSOLID_TYPE VecInSolid3 (const Point<3> & p,
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const Vec<3> & v1,
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const Vec<3> & v2,
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double eps) const;
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// like VecInSolid2, but second order approximation
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virtual INSOLID_TYPE VecInSolid4 (const Point<3> & p,
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const Vec<3> & v,
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const Vec<3> & v2,
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const Vec<3> & m,
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double eps) const;
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virtual void GetTangentialVecSurfaceIndices (const Point<3> & p, const Vec<3> & v,
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Array<int> & surfind, double eps) const;
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virtual void GetTangentialVecSurfaceIndices2 (const Point<3> & p, const Vec<3> & v1, const Vec<3> & v2,
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Array<int> & surfind, double eps) const;
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virtual void CalcSpecialPoints (Array<Point<3> > & /* pts */) const { ; }
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virtual void AnalyzeSpecialPoint (const Point<3> & /* pt */,
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Array<Point<3> > & /* specpts */) const { ; }
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virtual Vec<3> SpecialPointTangentialVector (const Point<3> & /* p */,
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int /* s1 */, int /* s2 */) const
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{ return Vec<3> (0,0,0); }
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virtual int GetNSurfaces() const = 0;
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virtual Surface & GetSurface (int i = 0) = 0;
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virtual const Surface & GetSurface (int i = 0) const = 0;
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Array<int> surfaceids;
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Array<int> surfaceactive;
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int GetSurfaceId (int i = 0) const;
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void SetSurfaceId (int i, int id);
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int SurfaceActive (int i) const { return surfaceactive[i]; }
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virtual int SurfaceInverted (int /* i */ = 0) const { return 0; }
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virtual void GetPrimitiveData (const char *& classname,
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Array<double> & coeffs) const;
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virtual void SetPrimitiveData (Array<double> & coeffs);
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static Primitive * CreatePrimitive (const char * classname);
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virtual void Reduce (const BoxSphere<3> & /* box */) { };
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virtual void UnReduce () { };
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virtual Primitive * Copy () const;
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virtual void Transform (Transformation<3> & trans);
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};
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class OneSurfacePrimitive : public Surface, public Primitive
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{
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public:
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OneSurfacePrimitive();
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~OneSurfacePrimitive();
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virtual INSOLID_TYPE PointInSolid (const Point<3> & p,
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double eps) const;
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virtual INSOLID_TYPE VecInSolid (const Point<3> & p,
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const Vec<3> & v,
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double eps) const;
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virtual INSOLID_TYPE VecInSolid2 (const Point<3> & p,
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const Vec<3> & v1,
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const Vec<3> & v2,
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double eps) const;
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virtual INSOLID_TYPE VecInSolid3 (const Point<3> & p,
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const Vec<3> & v1,
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const Vec<3> & v2,
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double eps) const;
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virtual INSOLID_TYPE VecInSolid4 (const Point<3> & p,
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const Vec<3> & v,
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const Vec<3> & v2,
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const Vec<3> & m,
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double eps) const;
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virtual int GetNSurfaces() const;
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virtual Surface & GetSurface (int i = 0);
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virtual const Surface & GetSurface (int i = 0) const;
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};
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/**
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Projects point to edge.
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The point hp is projected to the edge descibed by f1 and f2.
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It is assumed that the edge is non-degenerated, and the
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(generalized) Newton method converges.
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*/
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extern void ProjectToEdge (const Surface * f1,
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const Surface * f2,
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Point<3> & hp);
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}
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#endif
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