MeshLib/html/MRPolylineTopology_8h_source.html

#pragma once


#include "MRMeshFwd.h"

#include "MRVector.h"

#include "MRId.h"

// for template implementation:

#include "MRBitSet.h"


namespace MR

{


class PolylineTopology

{

public:

    template<typename T, typename F1, typename F2>

    void buildFromContours( const std::vector<std::vector<T>> & contours, F1 && reservePoints, F2 && addPoint );


    MRMESH_API void buildOpenLines( const std::vector<VertId> & comp2firstVert );


    template<typename T, typename F>

    [[nodiscard]] std::vector<std::vector<T>> convertToContours( F&& getPoint, std::vector<std::vector<VertId>>* vertMap = nullptr ) const;


    [[nodiscard]] MRMESH_API EdgeId makeEdge();

    MRMESH_API EdgeId makeEdge( VertId a, VertId b );

    [[nodiscard]] MRMESH_API bool isLoneEdge( EdgeId a ) const;

    [[nodiscard]] MRMESH_API EdgeId lastNotLoneEdge() const;

    [[nodiscard]] size_t edgeSize() const { return edges_.size(); }

    [[nodiscard]] size_t undirectedEdgeSize() const { return edges_.size() >> 1; }

    [[nodiscard]] MRMESH_API size_t computeNotLoneUndirectedEdges() const;

    void edgeReserve( size_t newCapacity ) { edges_.reserve( newCapacity ); }

    [[nodiscard]] bool hasEdge( EdgeId e ) const { assert( e.valid() ); return e < (int)edgeSize() && !isLoneEdge( e ); }

    MRMESH_API void deleteEdge( UndirectedEdgeId ue );

    MRMESH_API void deleteEdges( const UndirectedEdgeBitSet & es );

    [[nodiscard]] MRMESH_API size_t heapBytes() const;


    MRMESH_API void splice( EdgeId a, EdgeId b );


    [[nodiscard]] EdgeId next( EdgeId he ) const { assert(he.valid()); return edges_[he].next; }

    [[nodiscard]] VertId org( EdgeId he ) const { assert(he.valid()); return edges_[he].org; }

    [[nodiscard]] VertId dest( EdgeId he ) const { assert(he.valid()); return edges_[he.sym()].org; }


    MRMESH_API void setOrg( EdgeId a, VertId v );


    [[nodiscard]] const Vector<EdgeId, VertId> & edgePerVertex() const { return edgePerVertex_; }

    [[nodiscard]] EdgeId edgeWithOrg( VertId a ) const { assert( a.valid() ); return a < int(edgePerVertex_.size()) && edgePerVertex_[a].valid() ? edgePerVertex_[a] : EdgeId(); }

    [[nodiscard]] bool hasVert( VertId a ) const { return validVerts_.test( a ); }

    [[nodiscard]] MRMESH_API int getVertDegree( VertId a ) const;

    [[nodiscard]] int numValidVerts() const { return numValidVerts_; }

    [[nodiscard]] MRMESH_API VertId lastValidVert() const;

    [[nodiscard]] VertId addVertId() { edgePerVertex_.push_back( {} ); validVerts_.push_back( false ); return VertId( (int)edgePerVertex_.size() - 1 ); }

    MRMESH_API void vertResize( size_t newSize );

    MRMESH_API void vertResizeWithReserve( size_t newSize );

    void vertReserve( size_t newCapacity ) { edgePerVertex_.reserve( newCapacity ); validVerts_.reserve( newCapacity ); }

    [[nodiscard]] size_t vertSize() const { return edgePerVertex_.size(); }

    [[nodiscard]] size_t vertCapacity() const { return edgePerVertex_.capacity(); }

    [[nodiscard]] const VertBitSet & getValidVerts() const { return validVerts_; }

    [[nodiscard]] const VertBitSet & getVertIds( const VertBitSet * region ) const { return region ? *region : validVerts_; }


    [[nodiscard]] MRMESH_API EdgeId findEdge( VertId o, VertId d ) const;


    [[nodiscard]] MRMESH_API VertBitSet getPathVertices( const EdgePath & path ) const;


    MRMESH_API EdgeId splitEdge( EdgeId e );


    MRMESH_API EdgeId makePolyline( const VertId * vs, size_t num );


    MRMESH_API void addPart( const PolylineTopology & from,

        VertMap * outVmap = nullptr, WholeEdgeMap * outEmap = nullptr );

    MRMESH_API void addPartByMask( const PolylineTopology& from, const UndirectedEdgeBitSet& mask,

        VertMap* outVmap = nullptr, EdgeMap* outEmap = nullptr );


    MRMESH_API void pack( VertMap * outVmap = nullptr, WholeEdgeMap * outEmap = nullptr );


    MRMESH_API void write( std::ostream & s ) const;

    MRMESH_API bool read( std::istream & s );


    [[nodiscard]] bool operator ==( const PolylineTopology & b ) const { return edges_ == b.edges_; }

    [[nodiscard]] bool operator !=( const PolylineTopology & b ) const { return edges_ != b.edges_; }


    [[nodiscard]] MRMESH_API bool isConsistentlyOriented() const;

    MRMESH_API void flip();

    MRMESH_API bool checkValidity() const;

    MRMESH_API void computeValidsFromEdges();

    [[nodiscard]] MRMESH_API bool isClosed() const;


private:

    void setOrg_( EdgeId a, VertId v );


    struct HalfEdgeRecord

    {

        EdgeId next;

        VertId org;


        bool operator ==( const HalfEdgeRecord& b ) const

        {

            return next == b.next && org == b.org;

        }

        HalfEdgeRecord() noexcept = default;

        explicit HalfEdgeRecord( NoInit ) noexcept : next( noInit ), org( noInit ) {}

    };


    Vector<HalfEdgeRecord, EdgeId> edges_;


    Vector<EdgeId, VertId> edgePerVertex_;

    VertBitSet validVerts_;

    int numValidVerts_ = 0;

};


template<typename T, typename F1, typename F2>


void PolylineTopology::buildFromContours( const std::vector<std::vector<T>> & contours, F1 && reservePoints, F2 && addPoint )

{

    *this = {};

    size_t size = 0;

    std::vector<bool> closed;

    closed.reserve( contours.size() );

    int numClosed = 0;

    for ( const auto& c : contours )

    {

        const auto csize = c.size();

        if ( csize > 2 )

        {

            closed.push_back( c.front() == c.back() );

        }

        else

        {

            closed.push_back( false );

        }

        if ( csize < 2 )

            continue; // ignore contours with 0 or 1 points because of no edges in them

        size += c.size();

        if ( closed.back() )

            ++numClosed;

    }


    reservePoints( size - numClosed );

    vertResize( size - numClosed );


    for ( int i = 0; i < contours.size(); ++i )

    {

        const auto& c = contours[i];

        if ( c.size() < 2 )

            continue; // ignore contours with 0 or 1 points because of no edges in them

        const auto e0 = makeEdge();

        const auto v0 = addPoint( c[0] );

        setOrg( e0, v0 );

        auto e = e0;

        for ( int j = 1; j + 1 < c.size(); ++j )

            {

            const auto ej = makeEdge();

            splice( ej, e.sym() );

            const auto vj = addPoint( c[j] );

            setOrg( ej, vj );

            e = ej;

        }

        if ( closed[i] )

        {

            splice( e0, e.sym() );

        }

        else

        {

            const auto vx = addPoint( c.back() );

            setOrg( e.sym(), vx );

        }

    }

    assert( isConsistentlyOriented() );

    assert( edgePerVertex_.size() ==  size - numClosed );

}


template<typename T, typename F>


std::vector<std::vector<T>> PolylineTopology::convertToContours( F&& getPoint, std::vector<std::vector<VertId>>* vertMap ) const

{

    std::vector<std::vector<T>> res;


    UndirectedEdgeBitSet linesUsed;

    linesUsed.autoResizeSet( UndirectedEdgeId{ undirectedEdgeSize() } );

    linesUsed.flip();

    for ( EdgeId e0 : linesUsed )

    {

        if ( isLoneEdge( e0 ) )

            continue;


        EdgeId curLine = e0;

        while ( curLine != next( curLine ) )

        {

            curLine = next( curLine ).sym();

            if ( curLine == e0 )

                break;

        }


        linesUsed.set( curLine.undirected(), false );


        EdgeId e = curLine;

        std::vector<T> cont;

        std::vector<VertId> map;

        auto orgV = org( e );

        cont.push_back( getPoint( orgV ) );

        if ( vertMap )

            map.push_back( orgV );

        for ( ;; )

        {

            e = e.sym();

            cont.push_back( getPoint( org( e ) ) );

            e = next( e );

            if ( !linesUsed.test_set( e.undirected(), false ) )

                break;

        }

        res.push_back( std::move( cont ) );

        if ( vertMap )

            vertMap->push_back( std::move( map ) );

    }


    return res;

}


struct PolylineMaker

{

    PolylineTopology & topology;

    PolylineMaker( PolylineTopology & t ) : topology( t ) {}


    EdgeId start( VertId v )

    {

        assert( !e0_ && !eLast_ );

        e0_ = eLast_ = topology.makeEdge();

        topology.setOrg( e0_, v );

        return e0_;

    }


    EdgeId proceed( VertId v )

    {

        assert( eLast_ );

        const auto ej = topology.makeEdge();

        topology.splice( ej, eLast_.sym() );

        topology.setOrg( ej, v );

        return eLast_ = ej;

    }


    void close()

    {

        assert( e0_ && eLast_ );

        topology.splice( e0_, eLast_.sym() );

        e0_ = eLast_ = {};

    }


    void finishOpen( VertId v )

    {

        assert( eLast_ );

        topology.setOrg( eLast_.sym(), v );

        e0_ = eLast_ = {};

    }


private:

    EdgeId e0_, eLast_;

};


} // namespace MR

VertId
int VertId
Definition MRDotNet/MRMeshFwd.h:51

VertMap
List< VertId > VertMap
Definition MRDotNet/MRMeshFwd.h:84

EdgeId
int EdgeId
Definition MRDotNet/MRMeshFwd.h:52

MRBitSet.h

MRId.h

MRMeshFwd.h

MRMESH_API
#define MRMESH_API
Definition MRMesh/MRMeshFwd.h:46

MRVector.h

BitSet
Definition MRDotNet/MRBitSet.h:39

MR::PolylineTopology
Definition MRPolylineTopology.h:15

MR::PolylineTopology::getVertDegree
MRMESH_API int getVertDegree(VertId a) const
returns 0 if given vertex does not exist, 1 if it has one incident edge, and 2 if it has two incident...

MR::PolylineTopology::deleteEdges
MRMESH_API void deleteEdges(const UndirectedEdgeBitSet &es)
calls deleteEdge for every set bit

MR::PolylineTopology::addPart
MRMESH_API void addPart(const PolylineTopology &from, VertMap *outVmap=nullptr, WholeEdgeMap *outEmap=nullptr)

MR::PolylineTopology::undirectedEdgeSize
size_t undirectedEdgeSize() const
returns the number of undirected edges (pairs of half-edges) including lone ones
Definition MRPolylineTopology.h:43

MR::PolylineTopology::isLoneEdge
MRMESH_API bool isLoneEdge(EdgeId a) const
checks whether the edge is disconnected from all other edges and disassociated from all vertices (as ...

MR::PolylineTopology::lastValidVert
MRMESH_API VertId lastValidVert() const
returns last valid vertex id, or invalid id if no single valid vertex exists

MR::PolylineTopology::makePolyline
MRMESH_API EdgeId makePolyline(const VertId *vs, size_t num)

MR::PolylineTopology::vertReserve
void vertReserve(size_t newCapacity)
sets the capacity of vertices vector
Definition MRPolylineTopology.h:93

MR::PolylineTopology::hasVert
bool hasVert(VertId a) const
returns true if given vertex is present in the mesh
Definition MRPolylineTopology.h:79

MR::PolylineTopology::edgeWithOrg
EdgeId edgeWithOrg(VertId a) const
returns valid edge if given vertex is present in the mesh
Definition MRPolylineTopology.h:77

MR::PolylineTopology::next
EdgeId next(EdgeId he) const
next (counter clock wise) half-edge in the origin ring
Definition MRPolylineTopology.h:64

MR::PolylineTopology::computeNotLoneUndirectedEdges
MRMESH_API size_t computeNotLoneUndirectedEdges() const
computes the number of not-lone (valid) undirected edges

MR::PolylineTopology::splitEdge
MRMESH_API EdgeId splitEdge(EdgeId e)

MR::PolylineTopology::computeValidsFromEdges
MRMESH_API void computeValidsFromEdges()
computes numValidVerts_ and validVerts_ from edgePerVertex_

MR::PolylineTopology::isConsistentlyOriented
MRMESH_API bool isConsistentlyOriented() const
returns true if for each edge e: e == e.next() || e.odd() == next( e ).sym().odd()

MR::PolylineTopology::setOrg
MRMESH_API void setOrg(EdgeId a, VertId v)

MR::PolylineTopology::getValidVerts
const VertBitSet & getValidVerts() const
returns cached set of all valid vertices
Definition MRPolylineTopology.h:99

MR::PolylineTopology::vertResize
MRMESH_API void vertResize(size_t newSize)
explicitly increases the size of vertices vector

MR::PolylineTopology::makeEdge
MRMESH_API EdgeId makeEdge()
creates an edge not associated with any vertex

MR::PolylineTopology::makeEdge
MRMESH_API EdgeId makeEdge(VertId a, VertId b)

MR::PolylineTopology::findEdge
MRMESH_API EdgeId findEdge(VertId o, VertId d) const
finds and returns edge from o to d in the mesh; returns invalid edge otherwise

MR::PolylineTopology::lastNotLoneEdge
MRMESH_API EdgeId lastNotLoneEdge() const
returns last not lone edge id, or invalid id if no such edge exists

MR::PolylineTopology::read
MRMESH_API bool read(std::istream &s)

MR::PolylineTopology::heapBytes
MRMESH_API size_t heapBytes() const
returns the amount of memory this object occupies on heap

MR::PolylineTopology::pack
MRMESH_API void pack(VertMap *outVmap=nullptr, WholeEdgeMap *outEmap=nullptr)

MR::PolylineTopology::flip
MRMESH_API void flip()
changes the orientation of all edges: every edge e is replaced with e.sym()

MR::PolylineTopology::vertCapacity
size_t vertCapacity() const
returns the number of allocated vert records
Definition MRPolylineTopology.h:97

MR::PolylineTopology::edgeSize
size_t edgeSize() const
returns the number of half-edge records including lone ones
Definition MRPolylineTopology.h:41

MR::PolylineTopology::buildOpenLines
MRMESH_API void buildOpenLines(const std::vector< VertId > &comp2firstVert)

MR::PolylineTopology::edgePerVertex
const Vector< EdgeId, VertId > & edgePerVertex() const
for all valid vertices this vector contains an edge with the origin there
Definition MRPolylineTopology.h:75

MR::PolylineTopology::org
VertId org(EdgeId he) const
returns origin vertex of half-edge
Definition MRPolylineTopology.h:66

MR::PolylineTopology::checkValidity
MRMESH_API bool checkValidity() const
verifies that all internal data structures are valid

MR::PolylineTopology::splice
MRMESH_API void splice(EdgeId a, EdgeId b)

MR::PolylineTopology::getVertIds
const VertBitSet & getVertIds(const VertBitSet *region) const
if region pointer is not null then converts it in reference, otherwise returns all valid vertices in ...
Definition MRPolylineTopology.h:101

MR::PolylineTopology::vertSize
size_t vertSize() const
returns the number of vertex records including invalid ones
Definition MRPolylineTopology.h:95

MR::PolylineTopology::edgeReserve
void edgeReserve(size_t newCapacity)
sets the capacity of half-edges vector
Definition MRPolylineTopology.h:47

MR::PolylineTopology::buildFromContours
void buildFromContours(const std::vector< std::vector< T > > &contours, F1 &&reservePoints, F2 &&addPoint)
Definition MRPolylineTopology.h:179

MR::PolylineTopology::numValidVerts
int numValidVerts() const
returns the number of valid vertices
Definition MRPolylineTopology.h:83

MR::PolylineTopology::getPathVertices
MRMESH_API VertBitSet getPathVertices(const EdgePath &path) const
returns all vertices incident to path edges

MR::PolylineTopology::dest
VertId dest(EdgeId he) const
returns destination vertex of half-edge
Definition MRPolylineTopology.h:68

MR::PolylineTopology::addVertId
VertId addVertId()
creates new vert-id not associated with any edge yet
Definition MRPolylineTopology.h:87

MR::PolylineTopology::deleteEdge
MRMESH_API void deleteEdge(UndirectedEdgeId ue)
given edge becomes lone after the call, so it is un-spliced from connected edges, and if it was not c...

MR::PolylineTopology::addPartByMask
MRMESH_API void addPartByMask(const PolylineTopology &from, const UndirectedEdgeBitSet &mask, VertMap *outVmap=nullptr, EdgeMap *outEmap=nullptr)
appends polyline topology (from) in addition to the current topology: creates new edges,...

MR::PolylineTopology::convertToContours
std::vector< std::vector< T > > convertToContours(F &&getPoint, std::vector< std::vector< VertId > > *vertMap=nullptr) const
converts this topology into contours of given type using the functor returning point by its Id
Definition MRPolylineTopology.h:239

MR::PolylineTopology::isClosed
MRMESH_API bool isClosed() const
returns true if the polyline does not have any holes

MR::PolylineTopology::hasEdge
bool hasEdge(EdgeId e) const
returns true if given edge is within valid range and not-lone
Definition MRPolylineTopology.h:49

MR::PolylineTopology::operator!=
bool operator!=(const PolylineTopology &b) const
Definition MRPolylineTopology.h:138

MR::PolylineTopology::operator==
bool operator==(const PolylineTopology &b) const
comparison via edges (all other members are considered as not important caches)
Definition MRPolylineTopology.h:137

MR::PolylineTopology::vertResizeWithReserve
MRMESH_API void vertResizeWithReserve(size_t newSize)
explicitly increases the size of vertices vector, doubling the current capacity if it was not enough

MR::PolylineTopology::write
MRMESH_API void write(std::ostream &s) const
saves and loads in binary stream

MR::Vector
std::vector<T>-like container that requires specific indexing type,
Definition MRMesh/MRVector.h:19

MR::Vector::size
std::size_t size() const
Definition MRMesh/MRVector.h:40

MR::Vector::capacity
std::size_t capacity() const
Definition MRMesh/MRVector.h:57

MR::Vector::reserve
void reserve(size_t capacity)
Definition MRMesh/MRVector.h:58

MR::Vector::push_back
void push_back(const T &t)
Definition MRMesh/MRVector.h:109

MR
Definition MRCameraOrientationPlugin.h:7

MR::size
ImVec2 size(const ViewportRectangle &rect)
Definition MRViewport.h:32

MR::EdgePath
std::vector< EdgeId > EdgePath
Definition MRMesh/MRMeshFwd.h:98

MR::noInit
constexpr NoInit noInit
Definition MRMesh/MRMeshFwd.h:57

MR::NoInit
Definition MRMesh/MRMeshFwd.h:56

MR::PolylineMaker
simplifies construction of connected polyline in the topology
Definition MRPolylineTopology.h:286

MR::PolylineMaker::start
EdgeId start(VertId v)
Definition MRPolylineTopology.h:292

MR::PolylineMaker::finishOpen
void finishOpen(VertId v)
finishes the polyline adding final vertex in it
Definition MRPolylineTopology.h:317

MR::PolylineMaker::close
void close()
closes the polyline
Definition MRPolylineTopology.h:310

MR::PolylineMaker::topology
PolylineTopology & topology
Definition MRPolylineTopology.h:287

MR::PolylineMaker::PolylineMaker
PolylineMaker(PolylineTopology &t)
Definition MRPolylineTopology.h:288

MR::PolylineMaker::proceed
EdgeId proceed(VertId v)
Definition MRPolylineTopology.h:301