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opennurbs/opennurbs_subd_ref.cpp
Bozo the Builder 904ef7893c Sync changes from upstream repository
2024-08-22 01:43:04 -07:00

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//
// Copyright (c) 1993-2022 Robert McNeel & Associates. All rights reserved.
// OpenNURBS, Rhinoceros, and Rhino3D are registered trademarks of Robert
// McNeel & Associates.
//
// THIS SOFTWARE IS PROVIDED "AS IS" WITHOUT EXPRESS OR IMPLIED WARRANTY.
// ALL IMPLIED WARRANTIES OF FITNESS FOR ANY PARTICULAR PURPOSE AND OF
// MERCHANTABILITY ARE HEREBY DISCLAIMED.
//
// For complete openNURBS copyright information see <http://www.opennurbs.org>.
//
////////////////////////////////////////////////////////////////
#include "opennurbs.h"
#if !defined(ON_COMPILING_OPENNURBS)
// This check is included in all opennurbs source .c and .cpp files to insure
// ON_COMPILING_OPENNURBS is defined when opennurbs source is compiled.
// When opennurbs source is being compiled, ON_COMPILING_OPENNURBS is defined
// and the opennurbs .h files alter what is declared and how it is declared.
#error ON_COMPILING_OPENNURBS must be defined when compiling opennurbs
#endif
#include "opennurbs_subd_data.h"
//////////////////////////////////////////////////////////////////////////
//
// ON_SubDRef
//
ON_SubDRef::ON_SubDRef() ON_NOEXCEPT
{}
ON_SubDRef::~ON_SubDRef()
{
m_subd_sp.reset();
}
ON_SubDRef::ON_SubDRef(const ON_SubDRef& src) ON_NOEXCEPT
: m_subd_sp(src.m_subd_sp)
{}
ON_SubDRef& ON_SubDRef::operator=(const ON_SubDRef& src)
{
if ( this != &src )
m_subd_sp = src.m_subd_sp;
return *this;
}
#if defined(ON_HAS_RVALUEREF)
// rvalue copy constructor
ON_SubDRef::ON_SubDRef( ON_SubDRef&& src) ON_NOEXCEPT
: m_subd_sp(std::move(src.m_subd_sp))
{}
// rvalue assignment operator
ON_SubDRef& ON_SubDRef::operator=(ON_SubDRef&& src)
{
m_subd_sp.reset();
m_subd_sp = std::move(src.m_subd_sp);
return *this;
}
#endif
const class ON_SubD& ON_SubDRef::SubD() const
{
const ON_SubD* subd = m_subd_sp.get();
if ( nullptr == subd )
subd = &ON_SubD::Empty;
return *subd;
}
unsigned int ON_SubDRef::ReferenceCount() const
{
return (unsigned int)m_subd_sp.use_count();
}
void ON_SubDRef::Clear()
{
m_subd_sp.reset();
}
class ON_SubD& ON_SubDRef::NewSubD()
{
ON_SubD* subd = new ON_SubD();
ON_SubD* managed_subd = SetSubDForExperts(subd);
return *managed_subd;
}
class ON_SubD& ON_SubDRef::CopySubD(
const ON_SubDRef& src
)
{
return CopySubD(src.SubD());
}
class ON_SubD& ON_SubDRef::CopySubD(
const ON_SubD& src
)
{
ON_SubD* subd_copy = new ON_SubD(src);
ON_SubD* managed_subd = SetSubDForExperts(subd_copy);
return *managed_subd;
}
class ON_SubD& ON_SubDRef::UniqueSubD()
{
const ON_SubD& subd = SubD();
if (m_subd_sp.use_count() > 1 )
return CopySubD(subd);
if (subd.m_subdimple_sp.use_count() > 1)
return CopySubD(subd);
return const_cast< ON_SubD& >(subd);
}
class ON_SubD* ON_SubDRef::SetSubDForExperts(
class ON_SubD*& subd
)
{
Clear();
ON_SubD* managed_subd = ( subd == &ON_SubD::Empty ) ? nullptr : subd;
subd = nullptr;
if (nullptr != managed_subd )
m_subd_sp = std::shared_ptr<class ON_SubD>(managed_subd);
return managed_subd;
}
ON_SubDRef::ON_SubDRef(
const ON_SubD& subd
)
{
const ON_SubDimple* subdimple = subd.SubDimple();
if (nullptr != subdimple)
{
ON_SubD* managed_subd = new ON_SubD();
managed_subd->ShareDimple(subd);
this->SetSubDForExperts(managed_subd);
if (nullptr != managed_subd)
delete managed_subd;
}
}
ON_SubDRef ON_SubDRef::CreateReferenceForExperts(
const ON_SubD& subd
)
{
ON_SubDRef subd_ref(subd);
return subd_ref;
}
//////////////////////////////////////////////////////////////////////////
//
// ON_SubDComponentRef
//
ON_OBJECT_IMPLEMENT(ON_SubDComponentRef,ON_Geometry,"C221FC6D-36B7-47E8-90AA-AC8EC784E3DD");
ON_SubDComponentRef::ON_SubDComponentRef(const ON_SubDComponentRef& src) ON_NOEXCEPT
: ON_Geometry(src)
, m_subd_ref(src.m_subd_ref)
, m_component_ptr(src.m_component_ptr)
, m_component_index(src.m_component_index)
, m_component_location(src.m_component_location)
, m_reference_id(src.m_reference_id)
{}
ON_SubDComponentRef& ON_SubDComponentRef::operator=(const ON_SubDComponentRef& src)
{
if (this != &src)
{
ON_Geometry::operator=(src);
m_subd_ref = src.m_subd_ref;
m_component_ptr = src.m_component_ptr;
m_component_index = src.m_component_index;
m_component_location = src.m_component_location;
m_reference_id = src.m_reference_id;
}
return *this;
}
#if defined(ON_HAS_RVALUEREF)
ON_SubDComponentRef::ON_SubDComponentRef( ON_SubDComponentRef&& src ) ON_NOEXCEPT
: ON_Geometry(std::move(src))
, m_subd_ref(std::move(src.m_subd_ref))
, m_component_ptr(src.m_component_ptr)
, m_component_index(src.m_component_index)
, m_component_location(src.m_component_location)
, m_reference_id(src.m_reference_id)
{}
ON_SubDComponentRef& ON_SubDComponentRef::operator=(ON_SubDComponentRef&& src)
{
if ( this != &src )
{
Clear();
ON_Geometry::operator=(std::move(src));
m_subd_ref = std::move(src.m_subd_ref);
m_component_ptr = src.m_component_ptr;
m_component_index = src.m_component_index;
m_component_location = src.m_component_location;
m_reference_id = src.m_reference_id;
}
return *this;
}
#endif
int ON_SubDComponentRef::Compare(const ON_SubDComponentRef* lhs, const ON_SubDComponentRef* rhs)
{
if (lhs == rhs)
return 0;
if (nullptr == lhs)
return 1;
if (nullptr == rhs)
return -1;
const ON__UINT64 lhs_sn = lhs->m_subd_ref.SubD().RuntimeSerialNumber();
const ON__UINT64 rhs_sn = rhs->m_subd_ref.SubD().RuntimeSerialNumber();
if (lhs_sn < rhs_sn)
return -1;
if (lhs_sn > rhs_sn)
return 1;
return ON_COMPONENT_INDEX::Compare(&lhs->m_component_index, &rhs->m_component_index);
}
int ON_SubDComponentRef::Compare2(const ON_SubDComponentRef* const* lhs, const ON_SubDComponentRef* const* rhs)
{
if (lhs == rhs)
return 0;
if (nullptr == lhs)
return 1;
if (nullptr == rhs)
return -1;
return ON_SubDComponentRef::Compare(*lhs, *rhs);
}
const ON_SubDComponentRef ON_SubDComponentRef::Create(
const ON_SubDRef& subd_ref,
ON_COMPONENT_INDEX component_index,
ON_SubDComponentLocation component_location,
ON__UINT_PTR reference_id
)
{
ON_SubDComponentPtr component_ptr = subd_ref.SubD().ComponentPtrFromComponentIndex(component_index);
return ON_SubDComponentRef::Create(subd_ref,component_ptr,component_location,reference_id);
}
const ON_SubDComponentRef ON_SubDComponentRef::Create(
const ON_SubDRef& subd_ref,
ON_SubDComponentPtr component_ptr,
ON_SubDComponentLocation component_location,
ON__UINT_PTR reference_id
)
{
ON_SubDComponentRef component_ref;
component_ref.m_subd_ref = subd_ref;
component_ref.m_reference_id = reference_id;
bool bValidInput = false;
switch (component_ptr.ComponentType())
{
case ON_SubDComponentPtr::Type::Vertex:
{
const ON_SubDVertex* vertex = ON_SUBD_VERTEX_POINTER(component_ptr.m_ptr);
if (nullptr != vertex && vertex->m_id > 0 && vertex->m_id < ON_UNSET_UINT_INDEX)
{
component_ref.m_component_ptr = component_ptr;
component_ref.m_component_index.Set(ON_COMPONENT_INDEX::TYPE::subd_vertex,(int)vertex->m_id);
component_ref.m_component_location = component_location;
bValidInput = true;
}
}
break;
case ON_SubDComponentPtr::Type::Edge:
{
const ON_SubDEdge* edge = ON_SUBD_EDGE_POINTER(component_ptr.m_ptr);
if (nullptr != edge && edge->m_id > 0 && edge->m_id < ON_UNSET_UINT_INDEX)
{
component_ref.m_component_ptr = component_ptr;
component_ref.m_component_index.Set(ON_COMPONENT_INDEX::TYPE::subd_edge,(int)edge->m_id);
component_ref.m_component_location = component_location;
bValidInput = true;
}
}
break;
case ON_SubDComponentPtr::Type::Face:
{
const ON_SubDFace* face = ON_SUBD_FACE_POINTER(component_ptr.m_ptr);
if (nullptr != face && face->m_id > 0 && face->m_id < ON_UNSET_UINT_INDEX)
{
component_ref.m_component_ptr = component_ptr;
component_ref.m_component_index.Set(ON_COMPONENT_INDEX::TYPE::subd_face,(int)face->m_id);
component_ref.m_component_location = component_location;
bValidInput = true;
}
}
break;
default:
if ( component_ptr.IsNull() )
bValidInput = true;
}
if (bValidInput)
{
return component_ref;
}
return ON_SUBD_RETURN_ERROR(component_ref);
}
const ON_SubDComponentRef ON_SubDComponentRef::Create(
const ON_SubDRef& subd_ref,
const class ON_SubDVertex* vertex,
ON_SubDComponentLocation component_location,
ON__UINT_PTR reference_id
)
{
return ON_SubDComponentRef::Create(subd_ref, ON_SubDComponentPtr::Create(vertex),component_location,reference_id);
}
const ON_SubDComponentRef ON_SubDComponentRef::Create(
const ON_SubDRef& subd_ref,
const class ON_SubDEdge* edge,
ON_SubDComponentLocation component_location,
ON__UINT_PTR reference_id
)
{
return ON_SubDComponentRef::Create(subd_ref, ON_SubDComponentPtr::Create(edge),component_location,reference_id);
}
const ON_SubDComponentRef ON_SubDComponentRef::Create(
const ON_SubDRef& subd_ref,
const class ON_SubDFace* face,
ON_SubDComponentLocation component_location,
ON__UINT_PTR reference_id
)
{
return ON_SubDComponentRef::Create(subd_ref, ON_SubDComponentPtr::Create(face),component_location,reference_id);
}
void ON_SubDComponentRef::Clear()
{
ON_Geometry::DestroyRuntimeCache();
PurgeUserData();
m_subd_ref.Clear();
m_component_ptr = ON_SubDComponentPtr::Null;
m_component_index = ON_COMPONENT_INDEX::UnsetComponentIndex;
m_reference_id = 0;
}
ON_SubDRef ON_SubDComponentRef::SubDRef() const
{
return m_subd_ref;
}
const class ON_SubD& ON_SubDComponentRef::SubD() const
{
return m_subd_ref.SubD();
}
ON_COMPONENT_INDEX ON_SubDComponentRef::ComponentIndex() const
{
return m_component_index;
}
ON_SubDComponentPtr ON_SubDComponentRef::ComponentPtr() const
{
return m_component_ptr;
}
ON_SubDComponentLocation ON_SubDComponentRef::ComponentLocation() const
{
return m_component_location;
}
const class ON_SubDVertex* ON_SubDComponentRef::Vertex() const
{
return m_component_ptr.Vertex();
}
const class ON_SubDEdge* ON_SubDComponentRef::Edge() const
{
return m_component_ptr.Edge();
}
const class ON_SubDFace* ON_SubDComponentRef::Face() const
{
return m_component_ptr.Face();
}
ON__UINT_PTR ON_SubDComponentRef::ReferenceId() const
{
return m_reference_id;
}
void ON_SubDComponentRef::SetReferenceId(
ON__UINT_PTR reference_id
)
{
m_reference_id = reference_id;
}
bool ON_SubDComponentRef::IsValid(ON_TextLog* text_log) const
{
return (
m_component_ptr.IsNotNull()
&& (ON_SubDComponentLocation::ControlNet == m_component_location || ON_SubDComponentLocation::Surface == m_component_location)
&& false == SubD().IsEmpty()
);
}
void ON_SubDComponentRef::Dump(ON_TextLog& text_log) const
{
return;
}
unsigned int ON_SubDComponentRef::SizeOf() const
{
size_t sz = ON_Geometry::SizeOf() + sizeof(*this) - sizeof(ON_Geometry);
return (unsigned int)sz;
}
ON::object_type ON_SubDComponentRef::ObjectType() const
{
return ON::object_type::subd_object;
}
// overrides of virtual ON_Geometry functions
int ON_SubDComponentRef::Dimension() const
{
return 3;
}
bool ON_SubDComponentRef::GetBBox(
double* boxmin,
double* boxmax,
bool bGrowBox
) const
{
if ( nullptr == boxmin || nullptr == boxmax )
return false;
ON_BoundingBox bbox = ON_BoundingBox::EmptyBoundingBox;
switch (m_component_ptr.ComponentType())
{
case ON_SubDComponentPtr::Type::Unset:
break;
case ON_SubDComponentPtr::Type::Vertex:
{
const ON_SubDVertex* vertex = m_component_ptr.Vertex();
if ( nullptr == vertex )
break;
switch (m_component_location)
{
case ON_SubDComponentLocation::Surface:
// public opennurbs does not provide limit mesh tools.
case ON_SubDComponentLocation::ControlNet:
bbox = vertex->ControlNetBoundingBox();
break;
case ON_SubDComponentLocation::Unset:
break;
}
}
break;
case ON_SubDComponentPtr::Type::Edge:
{
const ON_SubDEdge* edge = m_component_ptr.Edge();
if ( nullptr == edge )
break;
switch (m_component_location)
{
case ON_SubDComponentLocation::Surface:
// public opennurbs does not provide limit mesh tools.
case ON_SubDComponentLocation::ControlNet:
bbox = edge->ControlNetBoundingBox();
break;
case ON_SubDComponentLocation::Unset:
break;
}
}
break;
case ON_SubDComponentPtr::Type::Face:
{
const ON_SubDFace* face = m_component_ptr.Face();
if ( nullptr == face )
break;
switch (m_component_location)
{
case ON_SubDComponentLocation::Surface:
// public opennurbs does not provide limit mesh tools.
case ON_SubDComponentLocation::ControlNet:
bbox = face->ControlNetBoundingBox();
break;
case ON_SubDComponentLocation::Unset:
break;
}
}
break;
}
if (bGrowBox)
{
ON_BoundingBox bbox1;
bbox1.m_min = boxmin;
bbox1.m_max = boxmax;
if (bbox1.IsValid())
bbox.Union(bbox1);
}
boxmin[0] = bbox.m_min.x;
boxmin[1] = bbox.m_min.y;
boxmin[2] = bbox.m_min.z;
boxmax[0] = bbox.m_max.x;
boxmax[1] = bbox.m_max.y;
boxmax[2] = bbox.m_max.z;
return bbox.IsValid();
}
void ON_SubDComponentRefList::Internal_Destroy()
{
for (unsigned int i = 0; i < m_list.UnsignedCount(); i++)
{
ON_SubDComponentRef* p = m_list[i];
m_list[i] = nullptr;
if (nullptr != p)
delete p;
}
m_list.SetCount(0);
m_bIsClean = false;
}
void ON_SubDComponentRefList::Internal_CopyFrom(const ON_SubDComponentRefList& src)
{
const unsigned int count = src.m_list.UnsignedCount();
m_list.Reserve(count);
m_list.SetCount(0);
for (unsigned int i = 0; i < count; i++)
{
const ON_SubDComponentRef* p = src.m_list[i];
if (nullptr == p)
m_list.Append(nullptr);
else
m_list.Append(new ON_SubDComponentRef(*p));
m_subd_count = src.m_subd_count;
m_subd_vertex_smooth_count = src.m_subd_vertex_smooth_count;
m_subd_vertex_dart_count = src.m_subd_vertex_dart_count;
m_subd_vertex_crease_count = src.m_subd_vertex_crease_count;
m_subd_vertex_corner_count = src.m_subd_vertex_corner_count;
m_subd_edge_smooth_count = src.m_subd_edge_smooth_count;
m_subd_edge_crease_count = src.m_subd_edge_crease_count;
m_subd_face_count = src.m_subd_face_count;
m_bIsClean = src.m_bIsClean;
}
}
ON_SubDComponentRefList::~ON_SubDComponentRefList()
{
Internal_Destroy();
}
ON_SubDComponentRefList::ON_SubDComponentRefList(const ON_SubDComponentRefList& src)
{
Internal_CopyFrom(src);
}
ON_SubDComponentRefList& ON_SubDComponentRefList::operator=(const ON_SubDComponentRefList& src)
{
if (this != &src)
{
Internal_Destroy();
Internal_CopyFrom(src);
}
return *this;
}
bool ON_SubDComponentRefList::Internal_UpdateCount(const ON_SubDComponentRef& r, int i)
{
if (r.SubD().IsEmpty())
return false;
bool rc = false;
ON_SubDComponentPtr cptr = r.ComponentPtr();
switch (cptr.ComponentType())
{
case ON_SubDComponentPtr::Type::Unset:
break;
case ON_SubDComponentPtr::Type::Vertex:
{
const ON_SubDVertex* v = cptr.Vertex();
if (nullptr == v)
break;
switch (v->m_vertex_tag)
{
case ON_SubDVertexTag::Smooth:
m_subd_vertex_smooth_count += i;
rc = true;
break;
case ON_SubDVertexTag::Crease:
m_subd_vertex_crease_count += i;
rc = true;
break;
case ON_SubDVertexTag::Corner:
m_subd_vertex_corner_count += i;
rc = true;
break;
case ON_SubDVertexTag::Dart:
m_subd_vertex_dart_count += i;
rc = true;
break;
case ON_SubDVertexTag::Unset:
break;
}
}
break;
case ON_SubDComponentPtr::Type::Edge:
{
const ON_SubDEdge* e = cptr.Edge();
if (nullptr == e)
break;
switch (e->m_edge_tag)
{
case ON_SubDEdgeTag::Smooth:
case ON_SubDEdgeTag::SmoothX:
m_subd_edge_smooth_count += i;
rc = true;
break;
case ON_SubDEdgeTag::Crease:
m_subd_edge_crease_count += i;
rc = true;
break;
case ON_SubDEdgeTag::Unset:
break;
}
}
break;
case ON_SubDComponentPtr::Type::Face:
if (nullptr != cptr.Face())
{
m_subd_face_count += i;
rc = true;
}
break;
}
return rc;
}
const ON_SubDComponentRef& ON_SubDComponentRefList::Append(
const ON_SubDRef & subd_ref,
ON_COMPONENT_INDEX ci,
ON_SubDComponentLocation component_location,
ON__UINT_PTR reference_id
)
{
for (;;)
{
if (subd_ref.SubD().IsEmpty())
break;
if (false == ci.IsSubDComponentIndex())
break;
const ON_SubDComponentRef r(ON_SubDComponentRef::Create(subd_ref, ci, component_location, reference_id));
return Append(&r);
}
return ON_SubDComponentRef::Empty;
}
const ON_SubDComponentRef& ON_SubDComponentRefList::Append(
const ON_SubDRef & subd_ref,
ON_SubDComponentPtr component_ptr,
ON_SubDComponentLocation component_location,
ON__UINT_PTR reference_id
)
{
for (;;)
{
if (subd_ref.SubD().IsEmpty())
break;
if (false == component_ptr.IsNull())
break;
const ON_SubDComponentRef r(ON_SubDComponentRef::Create(subd_ref, component_ptr, component_location,reference_id));
return Append(&r);
}
return ON_SubDComponentRef::Empty;
}
const ON_SubDComponentRef& ON_SubDComponentRefList::Append(const ON_SubDComponentRef& src_ref)
{
return Append(&src_ref);
}
const ON_SubDComponentRef& ON_SubDComponentRefList::Append(const ON_SubDComponentRef* src_ref)
{
for (;;)
{
if (nullptr == src_ref)
break;
if (src_ref->SubD().IsEmpty())
break;
if (false == Internal_UpdateCount(*src_ref,1))
break;
m_list.Append(new ON_SubDComponentRef(*src_ref));
m_bIsClean = false;
return **(m_list.Last());
}
return ON_SubDComponentRef::Empty;
}
const ON_SubDComponentRef& ON_SubDComponentRefList::AppendForExperts(ON_SubDComponentRef*& ref)
{
for (;;)
{
if (nullptr == ref)
break;
if (ref->SubD().IsEmpty())
break;
if (false == Internal_UpdateCount(*ref,1))
break;
m_list.Append(ref);
m_bIsClean = false;
return *ref;
}
return ON_SubDComponentRef::Empty;
}
const ON_SubDComponentRef& ON_SubDComponentRefList::AppendForExperts(
const ON_SubD& subd,
ON_COMPONENT_INDEX ci,
ON_SubDComponentLocation component_location,
ON__UINT_PTR reference_id
)
{
for (;;)
{
if (subd.IsEmpty())
break;
return Append(ON_SubDRef::CreateReferenceForExperts(subd),ci,component_location,reference_id);
}
return ON_SubDComponentRef::Empty;
}
const ON_SubDComponentRef& ON_SubDComponentRefList::AppendForExperts(
const ON_SubD& subd,
ON_SubDComponentPtr component_ptr,
ON_SubDComponentLocation component_location,
ON__UINT_PTR reference_id
)
{
for (;;)
{
if (subd.IsEmpty())
break;
return Append(ON_SubDRef::CreateReferenceForExperts(subd),component_ptr,component_location,reference_id);
}
return ON_SubDComponentRef::Empty;
}
int ON_SubDComponentRefList::Clean()
{
if (m_bIsClean)
return m_list.UnsignedCount();
const unsigned dirty_count = m_list.UnsignedCount();
((ON_SimpleArray< const ON_SubDComponentRef* > *)(&m_list))->QuickSort(ON_SubDComponentRef::Compare2);
m_subd_count = 0;
m_subd_vertex_smooth_count = 0;
m_subd_vertex_dart_count = 0;
m_subd_vertex_crease_count = 0;
m_subd_vertex_corner_count = 0;
m_subd_edge_smooth_count = 0;
m_subd_edge_crease_count = 0;
m_subd_face_count = 0;
unsigned int clean_count = 0;
const ON_SubDComponentRef* prev_scr = nullptr;
for (unsigned int i = 0; i < dirty_count; i++)
{
ON_SubDComponentRef* scr = m_list[i];
if (nullptr == scr)
continue;
if (
0 == ON_SubDComponentRef::Compare(prev_scr, scr)
|| false == Internal_UpdateCount(*scr,1)
)
{
delete scr;
continue;
}
if (nullptr == prev_scr || prev_scr->SubD().RuntimeSerialNumber() != scr->SubD().RuntimeSerialNumber())
m_subd_count++;
m_list[clean_count++] = scr;
prev_scr = scr;
}
for (unsigned i = clean_count; i < dirty_count; i++)
m_list[i] = nullptr;
m_list.SetCount(clean_count);
m_bIsClean = true;
return clean_count;
}
int ON_SubDComponentRefList::Count() const
{
return m_list.Count();
}
void ON_SubDComponentRefList::Remove(int i)
{
ON_SubDComponentRef* p = TransferForExperts(i);
if (nullptr != p)
delete p;
}
ON_SubDComponentRef * ON_SubDComponentRefList::TransferForExperts(int i)
{
ON_SubDComponentRef * p = (i >= 0 && i < m_list.Count()) ? m_list[i] : nullptr;
if (p != nullptr)
{
Internal_UpdateCount(*p, -1);
m_bIsClean = false;
}
return p;
}
const ON_SubDComponentRef& ON_SubDComponentRefList::operator[](int i) const
{
const ON_SubDComponentRef * p = (i >= 0 && i < m_list.Count()) ? m_list[i] : nullptr;
return (nullptr == p) ? ON_SubDComponentRef::Empty : *p;
}
int ON_SubDComponentRefList::SubDCount() const
{
return m_bIsClean ? m_subd_count : 0;
}
int ON_SubDComponentRefList::VertexCount() const
{
return
m_subd_vertex_smooth_count
+ m_subd_vertex_dart_count
+ m_subd_vertex_crease_count
+ m_subd_vertex_corner_count;
}
int ON_SubDComponentRefList::VertexCount(ON_SubDVertexTag vertex_tag) const
{
int c = 0;
switch (vertex_tag)
{
case ON_SubDVertexTag::Smooth:
c = m_subd_vertex_smooth_count;
break;
case ON_SubDVertexTag::Crease:
c = m_subd_vertex_crease_count;
break;
case ON_SubDVertexTag::Corner:
c = m_subd_vertex_corner_count;
break;
case ON_SubDVertexTag::Dart:
c = m_subd_vertex_dart_count;
break;
case ON_SubDVertexTag::Unset:
break;
}
return c;
}
int ON_SubDComponentRefList::EdgeCount() const
{
return m_subd_edge_crease_count + m_subd_edge_smooth_count;
}
int ON_SubDComponentRefList::EdgeCount(ON_SubDEdgeTag edge_tag) const
{
int c = 0;
switch (edge_tag)
{
case ON_SubDEdgeTag::Unset:
break;
case ON_SubDEdgeTag::Smooth:
c = m_subd_edge_smooth_count;
break;
case ON_SubDEdgeTag::Crease:
c = m_subd_edge_crease_count;
break;
case ON_SubDEdgeTag::SmoothX:
break;
}
return c;
}
int ON_SubDComponentRefList::FaceCount() const
{
return m_subd_face_count;
}
int ON_SubDComponentRefList::ComponentCount() const
{
return m_list.Count();
}
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