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BoundingBox Class Reference

An axis-aligned bounding box; that is, a minimum and maximum coordinate triple. More...

#include "boundingBox.h"

Inheritance diagram for BoundingBox:
FiniteBoundingVolume GeometricBoundingVolume BoundingVolume TypedReferenceCount TypedObject ReferenceCount MemoryBase MemoryBase

List of all members.

Public Types

enum  BoundsType { BT_default, BT_best, BT_sphere, BT_box }
enum  IntersectionFlags {
  IF_no_intersection = 0, IF_possible = 0x01, IF_some = 0x02, IF_all = 0x04,
  IF_dont_understand = 0x08
}

Public Member Functions

 BoundingBox ()
 Constructs an empty box object.
 BoundingBox (const LPoint3f &min, const LPoint3f &max)
 Constructs a specific box object.
bool around (const GeometricBoundingVolume **first, const GeometricBoundingVolume **last)
 Resets the volume to enclose only the volumes indicated.
bool around (const LPoint3f *first, const LPoint3f *last)
 Resets the volume to enclose only the points indicated.
bool around (const BoundingVolume **first, const BoundingVolume **last)
 Resets the volume to enclose only the volumes indicated.
virtual const BoundingBoxas_bounding_box () const
 Virtual downcast method.
virtual const BoundingHexahedronas_bounding_hexahedron () const
 Virtual downcast method.
virtual const BoundingLineas_bounding_line () const
 Virtual downcast method.
virtual const BoundingPlaneas_bounding_plane () const
 Virtual downcast method.
virtual const BoundingSphereas_bounding_sphere () const
 Virtual downcast method.
virtual const
FiniteBoundingVolume
as_finite_bounding_volume () const
 Virtual downcast method.
virtual const
GeometricBoundingVolume
as_geometric_bounding_volume () const
 Virtual downcast method.
TypedObjectas_typed_object ()
 Returns the object, upcast (if necessary) to a TypedObject pointer.
const TypedObjectas_typed_object () const
 Returns the object, upcast (if necessary) to a TypedObject pointer.
int contains (const GeometricBoundingVolume *vol) const
 Returns the appropriate set of IntersectionFlags to indicate the amount of intersection with the indicated volume.
int contains (const LPoint3f &point) const
 Returns the appropriate set of IntersectionFlags to indicate the amount of intersection with the indicated point.
int contains (const LPoint3f &a, const LPoint3f &b) const
 Returns the appropriate set of IntersectionFlags to indicate the amount of intersection with the indicated line segment.
int contains (const BoundingVolume *vol) const
 Returns the appropriate set of IntersectionFlags to indicate the amount of intersection with the indicated volume.
bool extend_by (const GeometricBoundingVolume *vol)
 Increases the size of the volume to include the given volume.
bool extend_by (const LPoint3f &point)
 Increases the size of the volume to include the given point.
bool extend_by (const BoundingVolume *vol)
 Increases the size of the volume to include the given volume.
virtual TypeHandle force_init_type ()
virtual LPoint3f get_approx_center () const
int get_best_parent_from_Set (const std::set< int > &) const
virtual LPoint3f get_max () const
const LPoint3fget_maxq () const
 An inline accessor for the maximum value.
virtual LPoint3f get_min () const
const LPoint3fget_minq () const
 An inline accessor for the minimum value.
int get_num_planes () const
 Returns 6: the number of faces of a rectangular solid.
int get_num_points () const
 Returns 8: the number of vertices of a rectangular solid.
Planef get_plane (int n) const
 Returns the nth face of the rectangular solid.
LPoint3f get_point (int n) const
 Returns the nth vertex of the rectangular solid.
int get_ref_count () const
 Returns the current reference count.
virtual TypeHandle get_type () const
int get_type_index () const
 Returns the internal index number associated with this object's TypeHandle, a unique number for each different type.
virtual float get_volume () const
WeakReferenceListget_weak_list () const
 Returns the WeakReferenceList associated with this ReferenceCount object.
bool has_weak_list () const
 Returns true if this particular ReferenceCount object has a WeakReferenceList created, false otherwise.
bool is_empty () const
 Any kind of volume might be empty.
bool is_exact_type (TypeHandle handle) const
 Returns true if the current object is the indicated type exactly.
bool is_infinite () const
 The other side of the empty coin is an infinite volume.
bool is_of_type (TypeHandle handle) const
 Returns true if the current object is or derives from the indicated type.
void local_object ()
 This function should be called, once, immediately after creating a new instance of some ReferenceCount-derived object on the stack.
virtual BoundingVolumemake_copy () const
 MAKE_SEQ (get_points, get_num_points, get_point)
 MAKE_SEQ (get_planes, get_num_planes, get_plane)
void operator delete (void *ptr, void *)
void operator delete (void *ptr)
void operator delete (void *ptr)
void operator delete (void *ptr, void *)
void operator delete[] (void *, void *)
void operator delete[] (void *, void *)
void operator delete[] (void *ptr)
void operator delete[] (void *ptr)
void * operator new (size_t size, void *ptr)
void * operator new (size_t size)
void * operator new (size_t size)
void * operator new (size_t size, void *ptr)
void * operator new[] (size_t size, void *ptr)
void * operator new[] (size_t size)
void * operator new[] (size_t size, void *ptr)
void * operator new[] (size_t size)
virtual void output (ostream &out) const
void ref () const
 Explicitly increments the reference count.
void set_infinite ()
 Marks the volume as infinite, even if it is normally finite.
bool test_ref_count_integrity () const
 Does some easy checks to make sure that the reference count isn't completely bogus.
bool test_ref_count_nonzero () const
 Does some easy checks to make sure that the reference count isn't zero, or completely bogus.
virtual bool unref () const
 Explicitly decrements the reference count.
void weak_ref (WeakPointerToVoid *ptv)
 Adds the indicated PointerToVoid as a weak reference to this object.
void weak_unref (WeakPointerToVoid *ptv)
 Removes the indicated PointerToVoid as a weak reference to this object.
virtual void write (ostream &out, int indent_level=0) const
virtual void xform (const LMatrix4f &mat)

Static Public Member Functions

static TypeHandle get_class_type ()
static void init_type ()
 This function is declared non-inline to work around a compiler bug in g++ 2.96.
static BoundsType string_bounds_type (const string &str)
 Returns the BoundsType corresponding to the indicated string.

Protected Types

enum  Flags { F_empty = 0x01, F_infinite = 0x02 }

Protected Member Functions

virtual bool around_boxes (const BoundingVolume **first, const BoundingVolume **last)
 Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty box.
bool around_finite (const BoundingVolume **first, const BoundingVolume **last)
virtual bool around_hexahedrons (const BoundingVolume **first, const BoundingVolume **last)
 Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty hexahedron.
virtual bool around_lines (const BoundingVolume **first, const BoundingVolume **last)
 Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty line.
virtual bool around_other (BoundingVolume *other, const BoundingVolume **first, const BoundingVolume **last) const
virtual bool around_planes (const BoundingVolume **first, const BoundingVolume **last)
 Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty plane.
virtual bool around_points (const LPoint3f *first, const LPoint3f *last)
 Puts the volume around the indicated list of points, identified by an STL-style begin/end list.
virtual bool around_spheres (const BoundingVolume **first, const BoundingVolume **last)
 Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty sphere.
virtual int contains_box (const BoundingBox *box) const
 Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a box.
int contains_finite (const FiniteBoundingVolume *volume) const
virtual int contains_hexahedron (const BoundingHexahedron *hexahedron) const
 Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a hexahedron.
virtual int contains_line (const BoundingLine *line) const
 Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a line.
virtual int contains_lineseg (const LPoint3f &a, const LPoint3f &b) const
 Tests whether the volume contains the indicated line segment.
virtual int contains_other (const BoundingVolume *other) const
virtual int contains_plane (const BoundingPlane *plane) const
 Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a plane.
virtual int contains_point (const LPoint3f &point) const
 Tests whether the volume contains the indicated point.
virtual int contains_sphere (const BoundingSphere *sphere) const
 Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a sphere.
bool do_test_ref_count_integrity () const
 Does some easy checks to make sure that the reference count isn't completely bogus.
bool do_test_ref_count_nonzero () const
 Returns true if the reference count is nonzero, false otherwise.
virtual bool extend_by_box (const BoundingBox *box)
 Double-dispatch support: called by extend_other() when the type we're extending by is known to be a box.
bool extend_by_finite (const FiniteBoundingVolume *volume)
virtual bool extend_by_hexahedron (const BoundingHexahedron *hexahedron)
 Double-dispatch support: called by extend_other() when the type we're extending by is known to be a hexahedron.
virtual bool extend_by_line (const BoundingLine *line)
 Double-dispatch support: called by extend_other() when the type we're extending by is known to be a line.
virtual bool extend_by_plane (const BoundingPlane *plane)
 Double-dispatch support: called by extend_other() when the type we're extending by is known to be a plane.
virtual bool extend_by_point (const LPoint3f &point)
 Extends the volume to include the indicated point.
virtual bool extend_by_sphere (const BoundingSphere *sphere)
 Double-dispatch support: called by extend_other() when the type we're extending by is known to be a sphere.
virtual bool extend_other (BoundingVolume *other) const

Protected Attributes

int _flags

Friends

class BoundingSphere

Detailed Description

An axis-aligned bounding box; that is, a minimum and maximum coordinate triple.

This box is always axis-aligned. If you need a more general bounding box, try BoundingHexahedron.

Definition at line 31 of file boundingBox.h.


Constructor & Destructor Documentation

BoundingBox::BoundingBox ( ) [inline]

Constructs an empty box object.

Definition at line 22 of file boundingBox.I.

BoundingBox::BoundingBox ( const LPoint3f min,
const LPoint3f max 
) [inline]

Constructs a specific box object.

Definition at line 31 of file boundingBox.I.

References LVecBase3f::is_nan().


Member Function Documentation

bool GeometricBoundingVolume::around ( const GeometricBoundingVolume **  first,
const GeometricBoundingVolume **  last 
) [inline, inherited]

Resets the volume to enclose only the volumes indicated.

Definition at line 53 of file geometricBoundingVolume.I.

Referenced by TextNode::compute_internal_bounds(), and PortalNode::compute_internal_bounds().

bool GeometricBoundingVolume::around ( const LPoint3f first,
const LPoint3f last 
) [inline, inherited]

Resets the volume to enclose only the points indicated.

Definition at line 66 of file geometricBoundingVolume.I.

References GeometricBoundingVolume::around_points().

bool BoundingVolume::around ( const BoundingVolume **  first,
const BoundingVolume **  last 
) [inherited]

Resets the volume to enclose only the volumes indicated.

Returns true if successful, false if the volume doesn't know how to do that or can't do that.

Definition at line 31 of file boundingVolume.cxx.

References BoundingVolume::is_empty().

Referenced by PGItem::compute_internal_bounds(), LODNode::compute_internal_bounds(), GeomNode::compute_internal_bounds(), and CollisionNode::compute_internal_bounds().

bool BoundingBox::around_boxes ( const BoundingVolume **  first,
const BoundingVolume **  last 
) [protected, virtual]

Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty box.

Reimplemented from BoundingVolume.

Definition at line 367 of file boundingBox.cxx.

bool BoundingBox::around_hexahedrons ( const BoundingVolume **  first,
const BoundingVolume **  last 
) [protected, virtual]

Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty hexahedron.

Reimplemented from BoundingVolume.

Definition at line 378 of file boundingBox.cxx.

bool FiniteBoundingVolume::around_lines ( const BoundingVolume **  first,
const BoundingVolume **  last 
) [protected, virtual, inherited]

Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty line.

Reimplemented from BoundingVolume.

Definition at line 62 of file finiteBoundingVolume.cxx.

bool FiniteBoundingVolume::around_planes ( const BoundingVolume **  first,
const BoundingVolume **  last 
) [protected, virtual, inherited]

Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty plane.

Reimplemented from BoundingVolume.

Definition at line 78 of file finiteBoundingVolume.cxx.

bool BoundingBox::around_points ( const LPoint3f first,
const LPoint3f last 
) [protected, virtual]

Puts the volume around the indicated list of points, identified by an STL-style begin/end list.

Reimplemented from GeometricBoundingVolume.

Definition at line 287 of file boundingBox.cxx.

References LVecBase3f::is_nan().

bool BoundingBox::around_spheres ( const BoundingVolume **  first,
const BoundingVolume **  last 
) [protected, virtual]

Double-dispatch support: called by around_other() when the type of the first element in the list is known to be a nonempty sphere.

Reimplemented from BoundingVolume.

Definition at line 356 of file boundingBox.cxx.

const BoundingBox * BoundingBox::as_bounding_box ( ) const [virtual]

Virtual downcast method.

Returns this object as a pointer of the indicated type, if it is in fact that type. Returns NULL if it is not that type.

Reimplemented from BoundingVolume.

Definition at line 147 of file boundingBox.cxx.

const BoundingHexahedron * BoundingVolume::as_bounding_hexahedron ( ) const [virtual, inherited]

Virtual downcast method.

Returns this object as a pointer of the indicated type, if it is in fact that type. Returns NULL if it is not that type.

Reimplemented in BoundingHexahedron.

Definition at line 135 of file boundingVolume.cxx.

const BoundingLine * BoundingVolume::as_bounding_line ( ) const [virtual, inherited]

Virtual downcast method.

Returns this object as a pointer of the indicated type, if it is in fact that type. Returns NULL if it is not that type.

Reimplemented in BoundingLine.

Definition at line 147 of file boundingVolume.cxx.

const BoundingPlane * BoundingVolume::as_bounding_plane ( ) const [virtual, inherited]

Virtual downcast method.

Returns this object as a pointer of the indicated type, if it is in fact that type. Returns NULL if it is not that type.

Reimplemented in BoundingPlane.

Definition at line 159 of file boundingVolume.cxx.

const BoundingSphere * BoundingVolume::as_bounding_sphere ( ) const [virtual, inherited]

Virtual downcast method.

Returns this object as a pointer of the indicated type, if it is in fact that type. Returns NULL if it is not that type.

Reimplemented in BoundingSphere.

Definition at line 111 of file boundingVolume.cxx.

const FiniteBoundingVolume * FiniteBoundingVolume::as_finite_bounding_volume ( ) const [virtual, inherited]

Virtual downcast method.

Returns this object as a pointer of the indicated type, if it is in fact that type. Returns NULL if it is not that type.

Reimplemented from BoundingVolume.

Definition at line 50 of file finiteBoundingVolume.cxx.

const GeometricBoundingVolume * GeometricBoundingVolume::as_geometric_bounding_volume ( ) const [virtual, inherited]

Virtual downcast method.

Returns this object as a pointer of the indicated type, if it is in fact that type. Returns NULL if it is not that type.

Reimplemented from BoundingVolume.

Definition at line 28 of file geometricBoundingVolume.cxx.

TypedObject * TypedObject::as_typed_object ( ) [inline, inherited]

Returns the object, upcast (if necessary) to a TypedObject pointer.

Definition at line 99 of file typedObject.I.

const TypedObject * TypedObject::as_typed_object ( ) const [inline, inherited]

Returns the object, upcast (if necessary) to a TypedObject pointer.

Definition at line 110 of file typedObject.I.

int GeometricBoundingVolume::contains ( const GeometricBoundingVolume vol) const [inline, inherited]

Returns the appropriate set of IntersectionFlags to indicate the amount of intersection with the indicated volume.

Definition at line 83 of file geometricBoundingVolume.I.

Referenced by CollisionLevelState< MaskType >::any_in_bounds(), LensNode::is_in_view(), and PortalClipper::is_whole_portal_in_view().

int GeometricBoundingVolume::contains ( const LPoint3f point) const [inline, inherited]

Returns the appropriate set of IntersectionFlags to indicate the amount of intersection with the indicated point.

Definition at line 95 of file geometricBoundingVolume.I.

References GeometricBoundingVolume::contains_point(), and BoundingVolume::is_empty().

int GeometricBoundingVolume::contains ( const LPoint3f a,
const LPoint3f b 
) const [inline, inherited]

Returns the appropriate set of IntersectionFlags to indicate the amount of intersection with the indicated line segment.

Definition at line 111 of file geometricBoundingVolume.I.

References GeometricBoundingVolume::contains_lineseg(), and BoundingVolume::is_empty().

int BoundingVolume::contains ( const BoundingVolume vol) const [inline, inherited]

Returns the appropriate set of IntersectionFlags to indicate the amount of intersection with the indicated volume.

Definition at line 101 of file boundingVolume.I.

References BoundingVolume::is_empty(), and BoundingVolume::is_infinite().

int BoundingBox::contains_box ( const BoundingBox box) const [protected, virtual]

Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a box.

Reimplemented from BoundingVolume.

Definition at line 561 of file boundingBox.cxx.

References get_maxq(), get_minq(), BoundingVolume::is_empty(), and BoundingVolume::is_infinite().

int BoundingBox::contains_hexahedron ( const BoundingHexahedron hexahedron) const [protected, virtual]

Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a hexahedron.

Reimplemented from BoundingVolume.

Definition at line 594 of file boundingBox.cxx.

References BoundingHexahedron::contains_box().

int BoundingBox::contains_line ( const BoundingLine line) const [protected, virtual]

Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a line.

Reimplemented from BoundingVolume.

Definition at line 615 of file boundingBox.cxx.

References BoundingLine::contains_box().

int BoundingBox::contains_lineseg ( const LPoint3f a,
const LPoint3f b 
) const [protected, virtual]

Tests whether the volume contains the indicated line segment.

Reimplemented from GeometricBoundingVolume.

Definition at line 456 of file boundingBox.cxx.

References contains_point(), BoundingVolume::is_empty(), BoundingVolume::is_infinite(), and LVecBase3f::is_nan().

int BoundingBox::contains_plane ( const BoundingPlane plane) const [protected, virtual]

Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a plane.

Reimplemented from BoundingVolume.

Definition at line 627 of file boundingBox.cxx.

References BoundingPlane::contains_box().

int BoundingBox::contains_point ( const LPoint3f point) const [protected, virtual]

Tests whether the volume contains the indicated point.

Reimplemented from GeometricBoundingVolume.

Definition at line 430 of file boundingBox.cxx.

References BoundingVolume::is_empty(), BoundingVolume::is_infinite(), and LVecBase3f::is_nan().

Referenced by contains_lineseg().

int BoundingBox::contains_sphere ( const BoundingSphere sphere) const [protected, virtual]

Double-dispatch support: called by contains_other() when the type we're testing for intersection is known to be a sphere.

Reimplemented from BoundingVolume.

Definition at line 549 of file boundingBox.cxx.

Referenced by BoundingSphere::contains_box().

bool ReferenceCount::do_test_ref_count_integrity ( ) const [protected, inherited]

Does some easy checks to make sure that the reference count isn't completely bogus.

Returns true if ok, false otherwise.

Reimplemented in NodeReferenceCount, CachedTypedWritableReferenceCount, and NodeCachedReferenceCount.

Definition at line 29 of file referenceCount.cxx.

Referenced by ReferenceCount::do_test_ref_count_nonzero(), and ReferenceCount::test_ref_count_integrity().

bool ReferenceCount::do_test_ref_count_nonzero ( ) const [protected, inherited]

Returns true if the reference count is nonzero, false otherwise.

Definition at line 56 of file referenceCount.cxx.

References ReferenceCount::do_test_ref_count_integrity().

Referenced by ReferenceCount::test_ref_count_nonzero().

bool GeometricBoundingVolume::extend_by ( const GeometricBoundingVolume vol) [inline, inherited]

Increases the size of the volume to include the given volume.

Definition at line 31 of file geometricBoundingVolume.I.

Referenced by CollisionLevelStateBase::prepare_collider().

bool GeometricBoundingVolume::extend_by ( const LPoint3f point) [inline, inherited]

Increases the size of the volume to include the given point.

Definition at line 42 of file geometricBoundingVolume.I.

References GeometricBoundingVolume::extend_by_point().

bool BoundingVolume::extend_by ( const BoundingVolume vol) [inline, inherited]

Increases the size of the volume to include the given volume.

Definition at line 79 of file boundingVolume.I.

References BoundingVolume::is_empty(), BoundingVolume::is_infinite(), and BoundingVolume::set_infinite().

bool BoundingBox::extend_by_box ( const BoundingBox box) [protected, virtual]

Double-dispatch support: called by extend_other() when the type we're extending by is known to be a box.

Reimplemented from BoundingVolume.

Definition at line 222 of file boundingBox.cxx.

References BoundingVolume::is_empty(), and BoundingVolume::is_infinite().

bool BoundingBox::extend_by_hexahedron ( const BoundingHexahedron hexahedron) [protected, virtual]

Double-dispatch support: called by extend_other() when the type we're extending by is known to be a hexahedron.

Reimplemented from BoundingVolume.

Definition at line 248 of file boundingBox.cxx.

bool BoundingVolume::extend_by_line ( const BoundingLine line) [protected, virtual, inherited]

Double-dispatch support: called by extend_other() when the type we're extending by is known to be a line.

Reimplemented in BoundingLine.

Definition at line 240 of file boundingVolume.cxx.

bool BoundingVolume::extend_by_plane ( const BoundingPlane plane) [protected, virtual, inherited]

Double-dispatch support: called by extend_other() when the type we're extending by is known to be a plane.

Reimplemented in BoundingPlane.

Definition at line 255 of file boundingVolume.cxx.

bool BoundingBox::extend_by_point ( const LPoint3f point) [protected, virtual]

Extends the volume to include the indicated point.

Returns true if possible, false if not.

Reimplemented from GeometricBoundingVolume.

Definition at line 190 of file boundingBox.cxx.

References BoundingVolume::is_empty(), BoundingVolume::is_infinite(), and LVecBase3f::is_nan().

bool BoundingBox::extend_by_sphere ( const BoundingSphere sphere) [protected, virtual]

Double-dispatch support: called by extend_other() when the type we're extending by is known to be a sphere.

Reimplemented from BoundingVolume.

Definition at line 212 of file boundingBox.cxx.

const LPoint3f & BoundingBox::get_maxq ( ) const [inline]

An inline accessor for the maximum value.

get_max() would also work, but it is a virtual non-inline method.

Definition at line 64 of file boundingBox.I.

References BoundingVolume::is_empty(), and BoundingVolume::is_infinite().

Referenced by BoundingLine::contains_box(), BoundingHexahedron::contains_box(), contains_box(), BoundingPlane::contains_box(), and BoundingSphere::extend_by_box().

const LPoint3f & BoundingBox::get_minq ( ) const [inline]

An inline accessor for the minimum value.

get_min() would also work, but it is a virtual non-inline method.

Definition at line 50 of file boundingBox.I.

References BoundingVolume::is_empty(), and BoundingVolume::is_infinite().

Referenced by BoundingLine::contains_box(), BoundingHexahedron::contains_box(), contains_box(), BoundingPlane::contains_box(), and BoundingSphere::extend_by_box().

int BoundingBox::get_num_planes ( ) const [inline]

Returns 6: the number of faces of a rectangular solid.

Definition at line 101 of file boundingBox.I.

int BoundingBox::get_num_points ( ) const [inline]

Returns 8: the number of vertices of a rectangular solid.

Definition at line 76 of file boundingBox.I.

Planef BoundingBox::get_plane ( int  n) const [inline]

Returns the nth face of the rectangular solid.

Definition at line 111 of file boundingBox.I.

References get_point().

LPoint3f BoundingBox::get_point ( int  n) const [inline]

Returns the nth vertex of the rectangular solid.

Definition at line 86 of file boundingBox.I.

References LPoint3f::zero().

Referenced by BoundingPlane::contains_box(), BoundingHexahedron::contains_box(), BoundingSphere::extend_by_box(), and get_plane().

int ReferenceCount::get_ref_count ( ) const [inline, inherited]
int TypedObject::get_type_index ( ) const [inline, inherited]

Returns the internal index number associated with this object's TypeHandle, a unique number for each different type.

This is equivalent to get_type().get_index().

Definition at line 52 of file typedObject.I.

References TypeHandle::get_index().

WeakReferenceList * ReferenceCount::get_weak_list ( ) const [inline, inherited]

Returns the WeakReferenceList associated with this ReferenceCount object.

If there has never been a WeakReferenceList associated with this object, creates one now.

Definition at line 307 of file referenceCount.I.

Referenced by ReferenceCount::weak_ref().

bool ReferenceCount::has_weak_list ( ) const [inline, inherited]

Returns true if this particular ReferenceCount object has a WeakReferenceList created, false otherwise.

In general, this will be true if there was ever a WeakPointerTo created for this object (even if there is not any for it now).

Definition at line 294 of file referenceCount.I.

Referenced by ReferenceCount::weak_unref().

static void BoundingBox::init_type ( ) [inline, static]

This function is declared non-inline to work around a compiler bug in g++ 2.96.

Making it inline seems to cause problems in the optimizer.

Reimplemented from FiniteBoundingVolume.

Definition at line 109 of file boundingBox.h.

References FiniteBoundingVolume::init_type().

bool BoundingVolume::is_empty ( ) const [inline, inherited]
bool TypedObject::is_exact_type ( TypeHandle  handle) const [inline, inherited]
bool BoundingVolume::is_infinite ( ) const [inline, inherited]

The other side of the empty coin is an infinite volume.

This is a degenerate state of a normally finite volume that contains all points. (Note that some kinds of infinite bounding volumes, like binary separating planes, do not contain all points and thus correctly return is_infinite() == false, even though they are technically infinite. This is a special case of the word 'infinite' meaning the volume covers all points in space.)

It completely intersects with all other volumes except empty volumes.

Definition at line 56 of file boundingVolume.I.

Referenced by BoundingVolume::contains(), BoundingPlane::contains_box(), BoundingLine::contains_box(), contains_box(), BoundingPlane::contains_hexahedron(), BoundingSphere::contains_lineseg(), BoundingHexahedron::contains_lineseg(), contains_lineseg(), BoundingSphere::contains_point(), BoundingHexahedron::contains_point(), contains_point(), BoundingSphere::contains_sphere(), BoundingPlane::contains_sphere(), BoundingLine::contains_sphere(), BoundingVolume::extend_by(), extend_by_box(), BoundingLine::extend_by_line(), BoundingPlane::extend_by_plane(), BoundingSphere::extend_by_point(), extend_by_point(), BoundingSphere::extend_by_sphere(), get_maxq(), get_minq(), BoundingLine::get_point_a(), BoundingLine::get_point_b(), and SceneGraphReducer::r_flatten().

bool TypedObject::is_of_type ( TypeHandle  handle) const [inline, inherited]

Returns true if the current object is or derives from the indicated type.

Definition at line 63 of file typedObject.I.

References TypeHandle::is_derived_from().

Referenced by EggSliderData::add_back_pointer(), EggJointData::add_back_pointer(), CIntervalManager::add_c_interval(), XFileNode::add_child(), CollisionTraverser::add_collider(), CollisionHandlerPhysical::add_collider(), EggXfmSAnim::add_data(), CharacterJointBundle::add_node(), NonlinearImager::add_screen(), EggGroupNode::apply_first_attribute(), EggGroupNode::apply_last_attribute(), DeferredNodeProperty::apply_to_node(), RecorderController::begin_playback(), NodePath::clear_clip_plane(), EggGroupNode::clear_connected_shading(), NodePath::clear_light(), EggBase::convert_paths(), NodePath::decode_from_bam_stream(), VrpnClient::disconnect_device(), PhysicsManager::do_physics(), GraphicsStateGuardian::fetch_specified_part(), EggRenderState::fill_state(), AnimBundleNode::find_anim_bundle(), EggGroupNode::find_coordsys_entry(), XFile::find_data_object(), Character::find_joint(), EggGroupNode::find_materials(), Character::find_slider(), XFile::find_template(), EggGroupNode::find_textures(), EggMaterialCollection::find_used_materials(), EggTextureCollection::find_used_textures(), EggGroupNode::force_filenames(), EggJointData::force_initial_rest_frame(), WindowFramework::get_aspect_2d(), EggPoolUniquifier::get_category(), EggGroupUniquifier::get_category(), EggGroupNode::get_connected_shading(), PandaFramework::get_mouse(), FactoryParams::get_param_of_type(), EggGroupNode::has_absolute_pathnames(), NodePath::has_clip_plane(), NodePath::has_clip_plane_off(), NodePath::has_light(), PandaFramework::hide_collision_solids(), x11GraphicsWindow::open_window(), eglGraphicsWindow::open_window(), EggNode::parse_egg(), CharacterMaker::part_to_node(), EggGroupNode::post_apply_flat_attribute(), EggBinner::prepare_node(), PortalClipper::prepare_portal(), NodePath::project_texture(), EggMatrixTablePointer::quantize_channels(), ParametricCurveCollection::r_add_curves(), SceneGraphReducer::r_collect_vertex_data(), EggGroupNode::r_load_externals(), EggGroupNode::rebuild_vertex_pools(), EggGroupNode::recompute_polygon_normals(), EggGroupNode::remove_invalid_primitives(), EggGroupNode::remove_unused_vertices(), EggLoader::reparent_decals(), EggMaterialCollection::replace_materials(), EggTextureCollection::replace_textures(), EggGroupNode::resolve_filenames(), EggGroupNode::reverse_vertex_ordering(), NodePath::set_clip_plane(), NodePath::set_clip_plane_off(), NodePath::set_light(), ProjectionScreen::set_projector(), NonlinearImager::set_source_camera(), EggXfmSAnim::set_value(), NonlinearImager::set_viewer_camera(), PandaFramework::show_collision_solids(), BamCache::store(), XFileToEggConverter::strip_nodes(), EggGroupNode::strip_normals(), DataGraphTraverser::traverse(), DataGraphTraverser::traverse_below(), EggGroupNode::triangulate_polygons(), EggGroupNode::unify_attributes(), EggNameUniquifier::uniquify(), NodeCullCallbackData::upcall(), PhysicsCollisionHandler::validate_target(), EggXfmSAnim::write(), EggGroup::write(), EggToDXFLayer::write_3d_face(), and EggToDXFLayer::write_entities().

void ReferenceCount::local_object ( ) [inline, inherited]

This function should be called, once, immediately after creating a new instance of some ReferenceCount-derived object on the stack.

This allows the object to be passed to functions that will increment and decrement the object's reference count temporarily, and it will prevent the object from being deleted (inappropriately), when the reference count returns to zero. It actually achieves this by setting a large positive value in the reference count field.

Definition at line 276 of file referenceCount.I.

Referenced by PGTop::cull_callback(), BoundingSphere::extend_by_hexahedron(), AsyncTaskManager::find_task(), AsyncTaskManager::find_tasks(), and AsyncTaskManager::find_tasks_matching().

void ReferenceCount::ref ( ) const [inline, inherited]

Explicitly increments the reference count.

User code should avoid using ref() and unref() directly, which can result in missed reference counts. Instead, let a PointerTo object manage the reference counting automatically.

This function is const, even though it changes the object, because generally fiddling with an object's reference count isn't considered part of fiddling with the object. An object might be const in other ways, but we still need to accurately count the number of references to it.

Definition at line 179 of file referenceCount.I.

References ReferenceCount::test_ref_count_integrity().

Referenced by CachedTypedWritableReferenceCount::cache_ref(), TypedWritable::decode_raw_from_bam_stream(), NodeCachedReferenceCount::node_ref(), NodeReferenceCount::node_ref(), BamCacheRecord::set_data(), CullableObject::set_draw_callback(), and ModelRoot::set_reference().

void BoundingVolume::set_infinite ( ) [inline, inherited]

Marks the volume as infinite, even if it is normally finite.

You can think of this as an infinite extend_by() operation.

Definition at line 68 of file boundingVolume.I.

Referenced by BoundingVolume::extend_by().

BoundingVolume::BoundsType BoundingVolume::string_bounds_type ( const string &  str) [static, inherited]

Returns the BoundsType corresponding to the indicated string.

Definition at line 170 of file boundingVolume.cxx.

bool ReferenceCount::test_ref_count_integrity ( ) const [inline, inherited]
bool ReferenceCount::test_ref_count_nonzero ( ) const [inline, inherited]

Does some easy checks to make sure that the reference count isn't zero, or completely bogus.

Returns true if ok, false otherwise.

Definition at line 252 of file referenceCount.I.

References ReferenceCount::do_test_ref_count_nonzero().

Referenced by CopyOnWritePointer::test_ref_count_nonzero().

bool ReferenceCount::unref ( ) const [inline, virtual, inherited]

Explicitly decrements the reference count.

Note that the object will not be implicitly deleted by unref() simply because the reference count drops to zero. (Having a member function delete itself is problematic.) However, see the helper function unref_delete().

User code should avoid using ref() and unref() directly, which can result in missed reference counts. Instead, let a PointerTo object manage the reference counting automatically.

This function is const, even though it changes the object, because generally fiddling with an object's reference count isn't considered part of fiddling with the object. An object might be const in other ways, but we still need to accurately count the number of references to it.

The return value is true if the new reference count is nonzero, false if it is zero.

Reimplemented in GeomVertexArrayFormat, GeomVertexFormat, InternalName, RenderAttrib, RenderEffects, RenderState, and TransformState.

Definition at line 214 of file referenceCount.I.

References ReferenceCount::test_ref_count_integrity().

Referenced by CachedTypedWritableReferenceCount::cache_unref(), TypedWritable::decode_raw_from_bam_stream(), RenderEffect::finalize(), NodeCachedReferenceCount::node_unref(), NodeReferenceCount::node_unref(), TransformState::unref(), RenderState::unref(), RenderEffects::unref(), RenderAttrib::unref(), InternalName::unref(), GeomVertexFormat::unref(), and GeomVertexArrayFormat::unref().

void ReferenceCount::weak_ref ( WeakPointerToVoid ptv) [inline, inherited]

Adds the indicated PointerToVoid as a weak reference to this object.

Definition at line 321 of file referenceCount.I.

References WeakReferenceList::add_reference(), and ReferenceCount::get_weak_list().

void ReferenceCount::weak_unref ( WeakPointerToVoid ptv) [inline, inherited]

Removes the indicated PointerToVoid as a weak reference to this object.

It must have previously been added via a call to weak_ref().

Definition at line 334 of file referenceCount.I.

References WeakReferenceList::clear_reference(), and ReferenceCount::has_weak_list().


The documentation for this class was generated from the following files:
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