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ENH: featureEdgeMesh : moved new stuff to extendedFeatureEdgeMesh

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This commit is contained in:
mattijs
2011-02-11 12:32:11 +00:00
parent 790146fbdb
commit 85190a16b6
7 changed files with 1504 additions and 1251 deletions
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37
applications/utilities/surface/surfaceFeatureExtract/surfaceFeatureExtract.C
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@ -2,7 +2,7 @@
========= | ========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox \\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | \\ / O peration |
\\ / A nd | Copyright (C) 2004-2010 OpenCFD Ltd. \\ / A nd | Copyright (C) 2004-2011 OpenCFD Ltd.
\\/ M anipulation | \\/ M anipulation |
------------------------------------------------------------------------------- -------------------------------------------------------------------------------
License License
@ -36,6 +36,7 @@ Description
#include "Time.H" #include "Time.H"
#include "surfaceFeatures.H" #include "surfaceFeatures.H"
#include "featureEdgeMesh.H" #include "featureEdgeMesh.H"
#include "extendedFeatureEdgeMesh.H"
#include "treeBoundBox.H" #include "treeBoundBox.H"
#include "meshTools.H" #include "meshTools.H"
#include "OFstream.H" #include "OFstream.H"
@ -298,20 +299,46 @@ int main(int argc, char *argv[])
// Extracting and writing a featureEdgeMesh // Extracting and writing a featureEdgeMesh
Pout<< nl << "Writing featureEdgeMesh to constant/featureEdgeMesh." extendedFeatureEdgeMesh feMesh
<< endl;
featureEdgeMesh feMesh
( (
newSet, newSet,
runTime, runTime,
surfFileName.lessExt().name() + ".featureEdgeMesh" surfFileName.lessExt().name() + ".featureEdgeMesh"
); );
Info<< nl << "Writing extendedFeatureEdgeMesh to " << feMesh.objectPath()
<< endl;
feMesh.writeObj(surfFileName.lessExt().name()); feMesh.writeObj(surfFileName.lessExt().name());
feMesh.write(); feMesh.write();
// Write a featureEdgeMesh for backwards compatibility
{
featureEdgeMesh bfeMesh
(
IOobject
(
surfFileName.lessExt().name() + ".eMesh", // name
runTime.constant(), // instance
"triSurface",
runTime, // registry
IOobject::NO_READ,
IOobject::AUTO_WRITE,
false
),
feMesh.points(),
feMesh.edges()
);
Info<< nl << "Writing featureEdgeMesh to "
<< bfeMesh.objectPath() << endl;
bfeMesh.regIOobject::write();
}
Info<< "End\n" << endl; Info<< "End\n" << endl;
return 0; return 0;

3
src/edgeMesh/Make/files
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@ -20,7 +20,10 @@ $(edgeFormats)/starcd/STARCDedgeFormatRunTime.C
$(edgeFormats)/vtk/VTKedgeFormat.C $(edgeFormats)/vtk/VTKedgeFormat.C
$(edgeFormats)/vtk/VTKedgeFormatRunTime.C $(edgeFormats)/vtk/VTKedgeFormatRunTime.C
extendedFeatureEdgeMesh/extendedFeatureEdgeMesh.C
featureEdgeMesh/featureEdgeMesh.C featureEdgeMesh/featureEdgeMesh.C
LIB = $(FOAM_LIBBIN)/libedgeMesh LIB = $(FOAM_LIBBIN)/libedgeMesh

1028
src/edgeMesh/extendedFeatureEdgeMesh/extendedFeatureEdgeMesh.C Normal file
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377
src/edgeMesh/extendedFeatureEdgeMesh/extendedFeatureEdgeMesh.H Normal file
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@ -0,0 +1,377 @@
/*---------------------------------------------------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration |
\\ / A nd | Copyright (C) 2004-2011 OpenCFD Ltd.
\\/ M anipulation |
-------------------------------------------------------------------------------
License
This file is part of OpenFOAM.
OpenFOAM is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with OpenFOAM. If not, see <http://www.gnu.org/licenses/>.
Class
Foam::extendedFeatureEdgeMesh
Description
Description of feature edges and points.
Feature points are a sorted subset at the start of the overall points list:
0 .. concaveStart_-1 : convex points (w.r.t normals)
concaveStart_-1 .. mixedStart_-1 : concave points
mixedStart_ .. nonFeatureStart_ : mixed internal/external points
nonFeatureStart_ .. size-1 : non-feature points
Feature edges are the edgeList of the edgeMesh and are sorted:
0 .. internalStart_-1 : external edges (convex w.r.t normals)
internalStart_ .. flatStart_-1 : internal edges (concave)
flatStart_ .. openStart_-1 : flat edges (neither concave or convex)
can arise from region interfaces on
flat surfaces
openStart_ .. multipleStart_-1 : open edges (e.g. from baffle surfaces)
multipleStart_ .. size-1 : multiply connected edges
The edge direction and feature edge and feature point adjacent normals
are stored.
SourceFiles
extendedFeatureEdgeMeshI.H
extendedFeatureEdgeMesh.C
\*---------------------------------------------------------------------------*/
#ifndef extendedFeatureEdgeMesh_H
#define extendedFeatureEdgeMesh_H
#include "edgeMesh.H"
#include "surfaceFeatures.H"
#include "objectRegistry.H"
#include "IOdictionary.H"
#include "indexedOctree.H"
#include "treeDataEdge.H"
#include "pointIndexHit.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
namespace Foam
{
/*---------------------------------------------------------------------------*\
Class extendedFeatureEdgeMesh Declaration
\*---------------------------------------------------------------------------*/
class extendedFeatureEdgeMesh
:
public regIOobject,
public edgeMesh
{
public:
//- Runtime type information
TypeName("extendedFeatureEdgeMesh");
enum pointStatus
{
CONVEX, // Fully convex point (w.r.t normals)
CONCAVE, // Fully concave point
MIXED, // A point surrounded by both convex and concave edges
NONFEATURE // Not a feature point
};
enum edgeStatus
{
EXTERNAL, // "Convex" edge
INTERNAL, // "Concave" edge
FLAT, // Neither concave or convex, on a flat surface
OPEN, // i.e. only connected to one face
MULTIPLE, // Multiply connected (connected to more than two faces)
NONE // Not a classified feature edge (consistency with
// surfaceFeatures)
};
private:
// Static data
//- Angular closeness tolerance for treating normals as the same
static scalar cosNormalAngleTol_;
//- Index of the start of the convex feature points - static as 0
static label convexStart_;
//- Index of the start of the external feature edges - static as 0
static label externalStart_;
// Private data
//- Index of the start of the concave feature points
label concaveStart_;
//- Index of the start of the mixed type feature points
label mixedStart_;
//- Index of the start of the non-feature points
label nonFeatureStart_;
//- Index of the start of the internal feature edges
label internalStart_;
//- Index of the start of the flat feature edges
label flatStart_;
//- Index of the start of the open feature edges
label openStart_;
//- Index of the start of the multiply-connected feature edges
label multipleStart_;
//- Normals of the features, to be referred to by index by both feature
// points and edges, unsorted
vectorField normals_;
//- Flat and open edges require the direction of the edge
vectorField edgeDirections_;
//- Indices of the normals that are adjacent to the feature edges
labelListList edgeNormals_;
//- Indices of the normals that are adjacent to the feature points
labelListList featurePointNormals_;
//- Feature edges which are on the boundary between regions
labelList regionEdges_;
//- Search tree for all edges
mutable autoPtr<indexedOctree<treeDataEdge> > edgeTree_;
//- Individual search trees for each type of edge
mutable PtrList<indexedOctree<treeDataEdge> > edgeTreesByType_;
// Private Member Functions
//- Classify the type of feature point. Requires valid stored member
// data for edges and normals.
pointStatus classifyFeaturePoint(label ptI) const;
//- Classify the type of feature edge. Requires face centre 0 to face
// centre 1 vector to distinguish internal from external
edgeStatus classifyEdge
(
const List<vector>& norms,
const labelList& edNorms,
const vector& fC0tofC1
) const;
public:
// Static data
//- Number of possible point types (i.e. number of slices)
static label nPointTypes;
//- Number of possible feature edge types (i.e. number of slices)
static label nEdgeTypes;
// Constructors
//- Construct (read) given an IOobject
extendedFeatureEdgeMesh(const IOobject&);
//- Construct as copy
explicit extendedFeatureEdgeMesh
(
const IOobject&,
const extendedFeatureEdgeMesh&
);
//- Construct by transferring components (points, edges)
extendedFeatureEdgeMesh
(
const IOobject&,
const Xfer<pointField>&,
const Xfer<edgeList>&
);
//- Construct (read) given surfaceFeatures, an objectRegistry and a
// fileName to write to. Extracts, classifies and reorders the data
// from surfaceFeatures.
extendedFeatureEdgeMesh
(
const surfaceFeatures& sFeat,
const objectRegistry& obr,
const fileName& sFeatFileName
);
//- Construct from all components
extendedFeatureEdgeMesh
(
const IOobject& io,
const pointField& pts,
const edgeList& eds,
label concaveStart,
label mixedStart,
label nonFeatureStart,
label internalStart,
label flatStart,
label openStart,
label multipleStart,
const vectorField& normals,
const vectorField& edgeDirections,
const labelListList& edgeNormals,
const labelListList& featurePointNormals,
const labelList& regionEdges
);
//- Destructor
~extendedFeatureEdgeMesh();
// Member Functions
// Find
//- Find nearest surface edge for the sample point.
void nearestFeatureEdge
(
const point& sample,
scalar searchDistSqr,
pointIndexHit& info
) const;
//- Find nearest surface edge for each sample point.
void nearestFeatureEdge
(
const pointField& samples,
const scalarField& searchDistSqr,
List<pointIndexHit>& info
) const;
//- Find the nearest point on each type of feature edge
void nearestFeatureEdgeByType
(
const point& sample,
const scalarField& searchDistSqr,
List<pointIndexHit>& info
) const;
// Access
//- Return the index of the start of the convex feature points
inline label convexStart() const;
//- Return the index of the start of the concave feature points
inline label concaveStart() const;
//- Return the index of the start of the mixed type feature points
inline label mixedStart() const;
//- Return the index of the start of the non-feature points
inline label nonFeatureStart() const;
//- Return the index of the start of the external feature edges
inline label externalStart() const;
//- Return the index of the start of the internal feature edges
inline label internalStart() const;
//- Return the index of the start of the flat feature edges
inline label flatStart() const;
//- Return the index of the start of the open feature edges
inline label openStart() const;
//- Return the index of the start of the multiply-connected feature
// edges
inline label multipleStart() const;
//- Return whether or not the point index is a feature point
inline bool featurePoint(label ptI) const;
//- Return the normals of the surfaces adjacent to the feature edges
// and points
inline const vectorField& normals() const;
//- Return the edgeDirection vectors
inline const vectorField& edgeDirections() const;
//- Return the direction of edgeI, pointing away from ptI
inline vector edgeDirection(label edgeI, label ptI) const;
//- Return the indices of the normals that are adjacent to the
// feature edges
inline const labelListList& edgeNormals() const;
//- Return the normal vectors for a given set of normal indices
inline vectorField edgeNormals(const labelList& edgeNormIs) const;
//- Return the normal vectors for a given edge
inline vectorField edgeNormals(label edgeI) const;
//- Return the indices of the normals that are adjacent to the
// feature points
inline const labelListList& featurePointNormals() const;
//- Return the normal vectors for a given feature point
inline vectorField featurePointNormals(label ptI) const;
//- Return the feature edges which are on the boundary between
// regions
inline const labelList& regionEdges() const;
//- Return the pointStatus of a specified point
inline pointStatus getPointStatus(label ptI) const;
//- Return the edgeStatus of a specified edge
inline edgeStatus getEdgeStatus(label edgeI) const;
//- Demand driven construction of octree for boundary edges
const indexedOctree<treeDataEdge>& edgeTree() const;
//- Demand driven construction of octree for boundary edges by type
const PtrList<indexedOctree<treeDataEdge> >&
edgeTreesByType() const;
// Write
//- Write all components of the extendedFeatureEdgeMesh as obj files
void writeObj(const fileName& prefix) const;
//- Give precedence to the regIOobject write
using regIOobject::write;
//- WriteData function required for regIOobject write operation
virtual bool writeData(Ostream&) const;
};
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
} // End namespace Foam
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#include "extendedFeatureEdgeMeshI.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#endif
// ************************************************************************* //

53
src/edgeMesh/featureEdgeMesh/featureEdgeMeshI.H → src/edgeMesh/extendedFeatureEdgeMesh/extendedFeatureEdgeMeshI.H
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@ -2,7 +2,7 @@
========= | ========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox \\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | \\ / O peration |
\\ / A nd | Copyright (C) 2009-2010 OpenCFD Ltd. \\ / A nd | Copyright (C) 2009-2011 OpenCFD Ltd.
\\/ M anipulation | \\/ M anipulation |
------------------------------------------------------------------------------- -------------------------------------------------------------------------------
License License
@ -25,78 +25,79 @@ License
// * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * // // * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
inline Foam::label Foam::featureEdgeMesh::convexStart() const inline Foam::label Foam::extendedFeatureEdgeMesh::convexStart() const
{ {
return convexStart_; return convexStart_;
} }
inline Foam::label Foam::featureEdgeMesh::concaveStart() const inline Foam::label Foam::extendedFeatureEdgeMesh::concaveStart() const
{ {
return concaveStart_; return concaveStart_;
} }
inline Foam::label Foam::featureEdgeMesh::mixedStart() const inline Foam::label Foam::extendedFeatureEdgeMesh::mixedStart() const
{ {
return mixedStart_; return mixedStart_;
} }
inline Foam::label Foam::featureEdgeMesh::nonFeatureStart() const inline Foam::label Foam::extendedFeatureEdgeMesh::nonFeatureStart() const
{ {
return nonFeatureStart_; return nonFeatureStart_;
} }
inline Foam::label Foam::featureEdgeMesh::externalStart() const inline Foam::label Foam::extendedFeatureEdgeMesh::externalStart() const
{ {
return externalStart_; return externalStart_;
} }
inline Foam::label Foam::featureEdgeMesh::internalStart() const inline Foam::label Foam::extendedFeatureEdgeMesh::internalStart() const
{ {
return internalStart_; return internalStart_;
} }
inline Foam::label Foam::featureEdgeMesh::flatStart() const inline Foam::label Foam::extendedFeatureEdgeMesh::flatStart() const
{ {
return flatStart_; return flatStart_;
} }
inline Foam::label Foam::featureEdgeMesh::openStart() const inline Foam::label Foam::extendedFeatureEdgeMesh::openStart() const
{ {
return openStart_; return openStart_;
} }
inline Foam::label Foam::featureEdgeMesh::multipleStart() const inline Foam::label Foam::extendedFeatureEdgeMesh::multipleStart() const
{ {
return multipleStart_; return multipleStart_;
} }
inline bool Foam::featureEdgeMesh::featurePoint(label ptI) const inline bool Foam::extendedFeatureEdgeMesh::featurePoint(label ptI) const
{ {
return ptI < nonFeatureStart_; return ptI < nonFeatureStart_;
} }
inline const Foam::vectorField& Foam::featureEdgeMesh::normals() const inline const Foam::vectorField& Foam::extendedFeatureEdgeMesh::normals() const
{ {
return normals_; return normals_;
} }
inline const Foam::vectorField& Foam::featureEdgeMesh::edgeDirections() const inline const Foam::vectorField& Foam::extendedFeatureEdgeMesh::edgeDirections()
const
{ {
return edgeDirections_; return edgeDirections_;
} }
inline Foam::vector Foam::featureEdgeMesh::edgeDirection inline Foam::vector Foam::extendedFeatureEdgeMesh::edgeDirection
( (
label edgeI, label edgeI,
label ptI label ptI
@ -114,7 +115,7 @@ inline Foam::vector Foam::featureEdgeMesh::edgeDirection
} }
else else
{ {
FatalErrorIn("Foam::featureEdgeMesh::edgedirection") FatalErrorIn("Foam::extendedFeatureEdgeMesh::edgedirection")
<< "Requested ptI " << ptI << " is not a point on the requested " << "Requested ptI " << ptI << " is not a point on the requested "
<< "edgeI " << edgeI << ". edgeI start and end: " << "edgeI " << edgeI << ". edgeI start and end: "
<< e.start() << " " << e.end() << e.start() << " " << e.end()
@ -125,13 +126,14 @@ inline Foam::vector Foam::featureEdgeMesh::edgeDirection
} }
inline const Foam::labelListList& Foam::featureEdgeMesh::edgeNormals() const inline const Foam::labelListList& Foam::extendedFeatureEdgeMesh::edgeNormals()
const
{ {
return edgeNormals_; return edgeNormals_;
} }
inline Foam::vectorField Foam::featureEdgeMesh::edgeNormals inline Foam::vectorField Foam::extendedFeatureEdgeMesh::edgeNormals
( (
const labelList& edgeNormIs const labelList& edgeNormIs
) const ) const
@ -147,27 +149,28 @@ inline Foam::vectorField Foam::featureEdgeMesh::edgeNormals
} }
inline Foam::vectorField Foam::featureEdgeMesh::edgeNormals(label edgeI) const inline Foam::vectorField Foam::extendedFeatureEdgeMesh::edgeNormals(label edgeI)
const
{ {
return edgeNormals(edgeNormals_[edgeI]); return edgeNormals(edgeNormals_[edgeI]);
} }
inline const Foam::labelListList& inline const Foam::labelListList&
Foam::featureEdgeMesh::featurePointNormals() const Foam::extendedFeatureEdgeMesh::featurePointNormals() const
{ {
return featurePointNormals_; return featurePointNormals_;
} }
inline Foam::vectorField Foam::featureEdgeMesh::featurePointNormals inline Foam::vectorField Foam::extendedFeatureEdgeMesh::featurePointNormals
( (
label ptI label ptI
) const ) const
{ {
if (!featurePoint(ptI)) if (!featurePoint(ptI))
{ {
WarningIn("vectorField featureEdgeMesh::featurePointNormals") WarningIn("vectorField extendedFeatureEdgeMesh::featurePointNormals")
<< "Requesting the normals of a non-feature point. " << "Requesting the normals of a non-feature point. "
<< "Returned zero length vectorField." << "Returned zero length vectorField."
<< endl; << endl;
@ -188,13 +191,14 @@ inline Foam::vectorField Foam::featureEdgeMesh::featurePointNormals
} }
inline const Foam::labelList& Foam::featureEdgeMesh::regionEdges() const inline const Foam::labelList& Foam::extendedFeatureEdgeMesh::regionEdges() const
{ {
return regionEdges_; return regionEdges_;
} }
inline Foam::featureEdgeMesh::pointStatus Foam::featureEdgeMesh::getPointStatus inline Foam::extendedFeatureEdgeMesh::pointStatus
Foam::extendedFeatureEdgeMesh::getPointStatus
( (
label ptI label ptI
) const ) const
@ -218,7 +222,8 @@ inline Foam::featureEdgeMesh::pointStatus Foam::featureEdgeMesh::getPointStatus
} }
inline Foam::featureEdgeMesh::edgeStatus Foam::featureEdgeMesh::getEdgeStatus inline Foam::extendedFeatureEdgeMesh::edgeStatus
Foam::extendedFeatureEdgeMesh::getEdgeStatus
( (
label edgeI label edgeI
) const ) const

953
src/edgeMesh/featureEdgeMesh/featureEdgeMesh.C
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File diff suppressed because it is too large Load Diff

304
src/edgeMesh/featureEdgeMesh/featureEdgeMesh.H
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@ -2,7 +2,7 @@
========= | ========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox \\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | \\ / O peration |
\\ / A nd | Copyright (C) 2004-2010 OpenCFD Ltd. \\ / A nd | Copyright (C) 1991-2011 OpenCFD Ltd.
\\/ M anipulation | \\/ M anipulation |
------------------------------------------------------------------------------- -------------------------------------------------------------------------------
License License
@ -25,27 +25,12 @@ Class
Foam::featureEdgeMesh Foam::featureEdgeMesh
Description Description
edgeMesh + IO.
Feature points are a sorted subset at the start of the overall points list: See also extendedFeatureEdgeMesh type which stores additional classification
0 .. concaveStart_-1 : convex points (w.r.t normals) of features.
concaveStart_-1 .. mixedStart_-1 : concave points
mixedStart_ .. nonFeatureStart_ : mixed internal/external points
nonFeatureStart_ .. size-1 : non-feature points
Feature edges are the edgeList of the edgeMesh and are sorted:
0 .. internalStart_-1 : external edges (convex w.r.t normals)
internalStart_ .. flatStart_-1 : internal edges (concave)
flatStart_ .. openStart_-1 : flat edges (neither concave or convex)
can arise from region interfaces on
flat surfaces
openStart_ .. multipleStart_-1 : open edges (e.g. from baffle surfaces)
multipleStart_ .. size-1 : multiply connected edges
The edge direction and feature edge and feature point adjacent normals
are stored.
SourceFiles SourceFiles
featureEdgeMeshI.H
featureEdgeMesh.C featureEdgeMesh.C
\*---------------------------------------------------------------------------*/ \*---------------------------------------------------------------------------*/
@ -54,12 +39,7 @@ SourceFiles
#define featureEdgeMesh_H #define featureEdgeMesh_H
#include "edgeMesh.H" #include "edgeMesh.H"
#include "surfaceFeatures.H" #include "regIOobject.H"
#include "objectRegistry.H"
#include "IOdictionary.H"
#include "indexedOctree.H"
#include "treeDataEdge.H"
#include "pointIndexHit.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
@ -67,7 +47,7 @@ namespace Foam
{ {
/*---------------------------------------------------------------------------*\ /*---------------------------------------------------------------------------*\
Class featureEdgeMesh Declaration Class featureEdgeMesh Declaration
\*---------------------------------------------------------------------------*/ \*---------------------------------------------------------------------------*/
class featureEdgeMesh class featureEdgeMesh
@ -78,281 +58,31 @@ class featureEdgeMesh
public: public:
//- Runtime type information
TypeName("featureEdgeMesh"); TypeName("featureEdgeMesh");
enum pointStatus
{
CONVEX, // Fully convex point (w.r.t normals)
CONCAVE, // Fully concave point
MIXED, // A point surrounded by both convex and concave edges
NONFEATURE // Not a feature point
};
enum edgeStatus
{
EXTERNAL, // "Convex" edge
INTERNAL, // "Concave" edge
FLAT, // Neither concave or convex, on a flat surface
OPEN, // i.e. only connected to one face
MULTIPLE, // Multiply connected (connected to more than two faces)
NONE // Not a classified feature edge (consistency with
// surfaceFeatures)
};
private:
// Static data
//- Angular closeness tolerance for treating normals as the same
static scalar cosNormalAngleTol_;
//- Index of the start of the convex feature points - static as 0
static label convexStart_;
//- Index of the start of the external feature edges - static as 0
static label externalStart_;
// Private data
//- Index of the start of the concave feature points
label concaveStart_;
//- Index of the start of the mixed type feature points
label mixedStart_;
//- Index of the start of the non-feature points
label nonFeatureStart_;
//- Index of the start of the internal feature edges
label internalStart_;
//- Index of the start of the flat feature edges
label flatStart_;
//- Index of the start of the open feature edges
label openStart_;
//- Index of the start of the multiply-connected feature edges
label multipleStart_;
//- Normals of the features, to be referred to by index by both feature
// points and edges, unsorted
vectorField normals_;
//- Flat and open edges require the direction of the edge
vectorField edgeDirections_;
//- Indices of the normals that are adjacent to the feature edges
labelListList edgeNormals_;
//- Indices of the normals that are adjacent to the feature points
labelListList featurePointNormals_;
//- Feature edges which are on the boundary between regions
labelList regionEdges_;
//- Search tree for all edges
mutable autoPtr<indexedOctree<treeDataEdge> > edgeTree_;
//- Individual search trees for each type of edge
mutable PtrList<indexedOctree<treeDataEdge> > edgeTreesByType_;
// Private Member Functions
//- Classify the type of feature point. Requires valid stored member
// data for edges and normals.
pointStatus classifyFeaturePoint(label ptI) const;
//- Classify the type of feature edge. Requires face centre 0 to face
// centre 1 vector to distinguish internal from external
edgeStatus classifyEdge
(
const List<vector>& norms,
const labelList& edNorms,
const vector& fC0tofC1
) const;
public:
// Static data
//- Number of possible point types (i.e. number of slices)
static label nPointTypes;
//- Number of possible feature edge types (i.e. number of slices)
static label nEdgeTypes;
// Constructors // Constructors
//- Construct (read) given an IOobject //- Construct (read) given an IOobject
featureEdgeMesh(const IOobject&); featureEdgeMesh(const IOobject&);
//- Construct as copy //- Construct from featureEdgeMesh data
explicit featureEdgeMesh(const IOobject&, const featureEdgeMesh&);
//- Construct by transferring components (points, edges)
featureEdgeMesh featureEdgeMesh
( (
const IOobject&, const IOobject&,
const Xfer<pointField>&, const pointField&,
const Xfer<edgeList>& const edgeList&
); );
//- Construct (read) given surfaceFeatures, an objectRegistry and a //- Construct as copy
// fileName to write to. Extracts, classifies and reorders the data featureEdgeMesh(const IOobject&, const featureEdgeMesh&);
// from surfaceFeatures.
featureEdgeMesh
(
const surfaceFeatures& sFeat,
const objectRegistry& obr,
const fileName& sFeatFileName
);
//- Construct from all components
featureEdgeMesh
(
const IOobject& io,
const pointField& pts,
const edgeList& eds,
label concaveStart,
label mixedStart,
label nonFeatureStart,
label internalStart,
label flatStart,
label openStart,
label multipleStart,
const vectorField& normals,
const vectorField& edgeDirections,
const labelListList& edgeNormals,
const labelListList& featurePointNormals,
const labelList& regionEdges
);
//- Destructor //- ReadData function required for regIOobject read operation
~featureEdgeMesh(); virtual bool readData(Istream&);
//- WriteData function required for regIOobject write operation
// Member Functions virtual bool writeData(Ostream&) const;
// Find
//- Find nearest surface edge for the sample point.
void nearestFeatureEdge
(
const point& sample,
scalar searchDistSqr,
pointIndexHit& info
) const;
//- Find nearest surface edge for each sample point.
void nearestFeatureEdge
(
const pointField& samples,
const scalarField& searchDistSqr,
List<pointIndexHit>& info
) const;
//- Find the nearest point on each type of feature edge
void nearestFeatureEdgeByType
(
const point& sample,
const scalarField& searchDistSqr,
List<pointIndexHit>& info
) const;
// Access
//- Return the index of the start of the convex feature points
inline label convexStart() const;
//- Return the index of the start of the concave feature points
inline label concaveStart() const;
//- Return the index of the start of the mixed type feature points
inline label mixedStart() const;
//- Return the index of the start of the non-feature points
inline label nonFeatureStart() const;
//- Return the index of the start of the external feature edges
inline label externalStart() const;
//- Return the index of the start of the internal feature edges
inline label internalStart() const;
//- Return the index of the start of the flat feature edges
inline label flatStart() const;
//- Return the index of the start of the open feature edges
inline label openStart() const;
//- Return the index of the start of the multiply-connected feature
// edges
inline label multipleStart() const;
//- Return whether or not the point index is a feature point
inline bool featurePoint(label ptI) const;
//- Return the normals of the surfaces adjacent to the feature edges
// and points
inline const vectorField& normals() const;
//- Return the edgeDirection vectors
inline const vectorField& edgeDirections() const;
//- Return the direction of edgeI, pointing away from ptI
inline vector edgeDirection(label edgeI, label ptI) const;
//- Return the indices of the normals that are adjacent to the
// feature edges
inline const labelListList& edgeNormals() const;
//- Return the normal vectors for a given set of normal indices
inline vectorField edgeNormals(const labelList& edgeNormIs) const;
//- Return the normal vectors for a given edge
inline vectorField edgeNormals(label edgeI) const;
//- Return the indices of the normals that are adjacent to the
// feature points
inline const labelListList& featurePointNormals() const;
//- Return the normal vectors for a given feature point
inline vectorField featurePointNormals(label ptI) const;
//- Return the feature edges which are on the boundary between
// regions
inline const labelList& regionEdges() const;
//- Return the pointStatus of a specified point
inline pointStatus getPointStatus(label ptI) const;
//- Return the edgeStatus of a specified edge
inline edgeStatus getEdgeStatus(label edgeI) const;
//- Demand driven construction of octree for boundary edges
const indexedOctree<treeDataEdge>& edgeTree() const;
//- Demand driven construction of octree for boundary edges by type
const PtrList<indexedOctree<treeDataEdge> >&
edgeTreesByType() const;
// Write
//- Write all components of the featureEdgeMesh as obj files
void writeObj(const fileName& prefix) const;
//- Give precedence to the regIOobject write
using regIOobject::write;
//- WriteData function required for regIOobject write operation
virtual bool writeData(Ostream&) const;
}; };
@ -362,10 +92,6 @@ public:
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#include "featureEdgeMeshI.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#endif #endif
// ************************************************************************* // // ************************************************************************* //