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LVecBase3f Class Reference

This is the base class for all three-component vectors and points. More...

#include "lvecBase3.h"

Inheritance diagram for LVecBase3f:
LPoint3f LVector3f

Public Types

enum  { num_components = 3, is_int = 0 }
 
typedef const float * const_iterator
 
typedef LSimpleMatrix< float, 1, 3 > EVector3
 
typedef const float * iterator
 
typedef float numeric_type
 

Public Member Functions

 LVecBase3f (const LVecBase3f &copy)
 
 LVecBase3f (float fill_value)
 
 LVecBase3f (float x, float y, float z)
 
 LVecBase3f (const LVecBase2f &copy, float z)
 
 LVecBase3f (const EVector3 &v)
 
size_t add_hash (size_t hash) const
 Adds the vector into the running hash. More...
 
size_t add_hash (size_t hash, float threshold) const
 Adds the vector into the running hash. More...
 
void add_to_cell (int i, float value)
 
void add_x (float value)
 
void add_y (float value)
 
void add_z (float value)
 
bool almost_equal (const LVecBase3f &other, float threshold) const
 Returns true if two vectors are memberwise equal within a specified tolerance. More...
 
bool almost_equal (const LVecBase3f &other) const
 Returns true if two vectors are memberwise equal within a default tolerance based on the numeric type. More...
 
iterator begin ()
 Returns an iterator that may be used to traverse the elements of the matrix, STL-style. More...
 
const_iterator begin () const
 Returns an iterator that may be used to traverse the elements of the matrix, STL-style. More...
 
int compare_to (const LVecBase3f &other) const
 This flavor of compare_to uses a default threshold value based on the numeric type. More...
 
int compare_to (const LVecBase3f &other, float threshold) const
 Sorts vectors lexicographically, componentwise. More...
 
void componentwise_mult (const LVecBase3f &other)
 
LVecBase3f cross (const LVecBase3f &other) const
 
void cross_into (const LVecBase3f &other)
 
float dot (const LVecBase3f &other) const
 
iterator end ()
 Returns an iterator that may be used to traverse the elements of the matrix, STL-style. More...
 
const_iterator end () const
 Returns an iterator that may be used to traverse the elements of the matrix, STL-style. More...
 
void fill (float fill_value)
 Sets each element of the vector to the indicated fill_value. More...
 
LVecBase3f fmax (const LVecBase3f &other) const
 
LVecBase3f fmin (const LVecBase3f &other) const
 
void generate_hash (ChecksumHashGenerator &hashgen) const
 Adds the vector to the indicated hash generator. More...
 
void generate_hash (ChecksumHashGenerator &hashgen, float threshold) const
 Adds the vector to the indicated hash generator. More...
 
float get_cell (int i) const
 
const float * get_data () const
 Returns the address of the first of the three data elements in the vector. More...
 
size_t get_hash () const
 Returns a suitable hash for phash_map. More...
 
size_t get_hash (float threshold) const
 Returns a suitable hash for phash_map. More...
 
int get_num_components () const
 Returns the number of elements in the vector, three. More...
 
LVecBase3f get_standardized_hpr () const
 Try to un-spin the hpr to a standard form. More...
 
float get_x () const
 
LVecBase2f get_xy () const
 Returns a 2-component vector that shares just the first two components of this vector. More...
 
LVecBase2f get_xz () const
 Returns a 2-component vector that shares just the first and last components of this vector. More...
 
float get_y () const
 
LVecBase2f get_yz () const
 Returns a 2-component vector that shares just the last two components of this vector. More...
 
float get_z () const
 
bool is_nan () const
 Returns true if any component of the vector is not-a-number, false otherwise. More...
 
float length () const
 Returns the length of the vector, by the Pythagorean theorem. More...
 
float length_squared () const
 Returns the square of the vector's length, cheap and easy. More...
 
bool normalize ()
 Normalizes the vector in place. More...
 
bool operator!= (const LVecBase3f &other) const
 
LVecBase3f operator* (float scalar) const
 
void operator*= (float scalar)
 
LVecBase3f operator+ (const LVecBase3f &other) const
 
void operator+= (const LVecBase3f &other)
 
LVecBase3f operator- () const
 
LVecBase3f operator- (const LVecBase3f &other) const
 
void operator-= (const LVecBase3f &other)
 
LVecBase3f operator/ (float scalar) const
 
void operator/= (float scalar)
 
bool operator< (const LVecBase3f &other) const
 This performs a lexicographical comparison. More...
 
LVecBase3foperator= (const LVecBase3f &copy)
 
LVecBase3foperator= (float fill_value)
 
bool operator== (const LVecBase3f &other) const
 
float operator[] (int i) const
 
float & operator[] (int i)
 
void output (ostream &out) const
 
LVecBase3f project (const LVecBase3f &onto) const
 Returns a new vector representing the projection of this vector onto another one. More...
 
void read_datagram (DatagramIterator &source)
 Reads the vector from the Datagram using get_stdfloat(). More...
 
void read_datagram_fixed (DatagramIterator &source)
 Reads the vector from the Datagram using get_float32() or get_float64(). More...
 
void set (float x, float y, float z)
 
void set_cell (int i, float value)
 
void set_x (float value)
 
void set_y (float value)
 
void set_z (float value)
 
void write_datagram (Datagram &destination) const
 Writes the vector to the Datagram using add_stdfloat(). More...
 
void write_datagram_fixed (Datagram &destination) const
 Writes the vector to the Datagram using add_float32() or add_float64(), depending on the type of floats in the vector, regardless of the setting of Datagram::set_stdfloat_double(). More...
 

Static Public Member Functions

static TypeHandle get_class_type ()
 
static void init_type ()
 
static int size ()
 Returns 3: the number of components of a LVecBase3. More...
 
static const LVecBase3funit_x ()
 Returns a unit X vector. More...
 
static const LVecBase3funit_y ()
 Returns a unit Y vector. More...
 
static const LVecBase3funit_z ()
 Returns a unit Z vector. More...
 
static const LVecBase3fzero ()
 Returns a zero-length vector. More...
 

Public Attributes

EVector3 _v
 

Detailed Description

This is the base class for all three-component vectors and points.

Definition at line 105 of file lvecBase3.h.

Member Function Documentation

size_t LVecBase3f::add_hash ( size_t  hash) const
inline

Adds the vector into the running hash.

Definition at line 958 of file lvecBase3.h.

size_t LVecBase3f::add_hash ( size_t  hash,
float  threshold 
) const
inline

Adds the vector into the running hash.

Definition at line 1030 of file lvecBase3.h.

bool LVecBase3f::almost_equal ( const LVecBase3f other,
float  threshold 
) const
inline

Returns true if two vectors are memberwise equal within a specified tolerance.

Definition at line 1264 of file lvecBase3.h.

Referenced by NurbsCurveResult::adaptive_sample(), ParametricCurve::convert_to_hermite(), ACMatrixSwitchType::output_value(), and FltToEggLevelState::set_transform().

bool LVecBase3f::almost_equal ( const LVecBase3f other) const
inline

Returns true if two vectors are memberwise equal within a default tolerance based on the numeric type.

Definition at line 1278 of file lvecBase3.h.

LVecBase3f::iterator LVecBase3f::begin ( )
inline

Returns an iterator that may be used to traverse the elements of the matrix, STL-style.

Definition at line 657 of file lvecBase3.h.

LVecBase3f::const_iterator LVecBase3f::begin ( ) const
inline

Returns an iterator that may be used to traverse the elements of the matrix, STL-style.

Definition at line 679 of file lvecBase3.h.

int LVecBase3f::compare_to ( const LVecBase3f other) const
inline

This flavor of compare_to uses a default threshold value based on the numeric type.

Definition at line 923 of file lvecBase3.h.

int LVecBase3f::compare_to ( const LVecBase3f other,
float  threshold 
) const
inline

Sorts vectors lexicographically, componentwise.

Returns a number less than 0 if this vector sorts before the other one, greater than zero if it sorts after, 0 if they are equivalent (within the indicated tolerance).

Definition at line 999 of file lvecBase3.h.

LVecBase3f::iterator LVecBase3f::end ( )
inline

Returns an iterator that may be used to traverse the elements of the matrix, STL-style.

Definition at line 668 of file lvecBase3.h.

LVecBase3f::const_iterator LVecBase3f::end ( ) const
inline

Returns an iterator that may be used to traverse the elements of the matrix, STL-style.

Definition at line 690 of file lvecBase3.h.

void LVecBase3f::fill ( float  fill_value)
inline

Sets each element of the vector to the indicated fill_value.

This is particularly useful for initializing to zero.

Definition at line 702 of file lvecBase3.h.

void LVecBase3f::generate_hash ( ChecksumHashGenerator hashgen) const
inline

Adds the vector to the indicated hash generator.

Definition at line 977 of file lvecBase3.h.

void LVecBase3f::generate_hash ( ChecksumHashGenerator hashgen,
float  threshold 
) const
inline

Adds the vector to the indicated hash generator.

Definition at line 1045 of file lvecBase3.h.

const float * LVecBase3f::get_data ( ) const
inline

Returns the address of the first of the three data elements in the vector.

The remaining elements occupy the next positions consecutively in memory.

Definition at line 636 of file lvecBase3.h.

Referenced by DXGraphicsStateGuardian9::bind_light().

size_t LVecBase3f::get_hash ( ) const
inline

Returns a suitable hash for phash_map.

Definition at line 947 of file lvecBase3.h.

size_t LVecBase3f::get_hash ( float  threshold) const
inline

Returns a suitable hash for phash_map.

Definition at line 1019 of file lvecBase3.h.

int LVecBase3f::get_num_components ( ) const
inline

Returns the number of elements in the vector, three.

Definition at line 646 of file lvecBase3.h.

LVecBase3f LVecBase3f::get_standardized_hpr ( ) const
inline

Try to un-spin the hpr to a standard form.

Like all standards, someone decides between many arbitrary possible standards. This function assumes that 0 and 360 are the same, as is 720 and -360. Also 180 and -180 are the same. Another example is -90 and 270. Each element will be in the range -180.0 to 179.99999. The original usage of this function is for human readable output.

It doesn't work so well for asserting that foo_hpr is roughly equal to bar_hpr. Try using LQuaternionf::is_same_direction() for that. See Also: get_standardized_rotation, LQuaternion::is_same_direction

Definition at line 909 of file lvecBase3.h.

LVecBase2f LVecBase3f::get_xy ( ) const
inline

Returns a 2-component vector that shares just the first two components of this vector.

Definition at line 561 of file lvecBase3.h.

LVecBase2f LVecBase3f::get_xz ( ) const
inline

Returns a 2-component vector that shares just the first and last components of this vector.

Definition at line 572 of file lvecBase3.h.

LVecBase2f LVecBase3f::get_yz ( ) const
inline

Returns a 2-component vector that shares just the last two components of this vector.

Definition at line 583 of file lvecBase3.h.

bool LVecBase3f::is_nan ( ) const
inline

Returns true if any component of the vector is not-a-number, false otherwise.

Definition at line 463 of file lvecBase3.h.

Referenced by PhysxActor::add_force(), PhysxActor::add_force_at_local_pos(), PhysxActor::add_force_at_pos(), PhysicsObject::add_impact(), PhysicsObject::add_impulse(), PhysxActor::add_local_force(), PhysxActor::add_local_force_at_local_pos(), PhysxActor::add_local_force_at_pos(), PhysicsObject::add_local_impact(), PhysicsObject::add_local_impulse(), PhysxActor::add_local_torque(), PhysxActor::add_torque(), PhysxCloth::attach_vertex_to_global_pos(), PhysxCloth::attach_vertex_to_shape(), BoundingBox::BoundingBox(), BoundingSphere::BoundingSphere(), PhysxBounds3::bounds_of_obb(), PhysxUtilLib::box_box_intersect(), PhysxCapsule::compute_direction(), PhysxSegment::compute_direction(), PhysxCapsule::compute_point(), PhysxSegment::compute_point(), PhysxBounds3::contain(), PhysxSphere::contains(), PfmFile::forward_distort(), PhysxActor::get_local_point_velocity(), PhysxActor::get_point_velocity(), PhysxBounds3::include(), PhysxActor::move_global_pos(), PhysxUtilLib::point_obb_sqr_dist(), PhysxUtilLib::ray_aabb_intersect(), PhysxUtilLib::ray_capsule_intersect(), PhysxUtilLib::ray_obb_intersect(), PhysxUtilLib::ray_sphere_intersect(), PhysxUtilLib::ray_tri_intersect(), PhysicsObject::reset_position(), PhysxUtilLib::segment_aabb_intersect(), PhysxUtilLib::segment_box_intersect(), PhysxUtilLib::segment_obb_intersect(), PhysxBounds3::set(), BulletHingeConstraint::set_axis(), PhysxSphere::set_center(), PhysxBox::set_center(), PhysxBounds3::set_center_extents(), BulletWheel::set_chassis_connection_point_cs(), CollisionEntry::set_contact_normal(), CollisionEntry::set_contact_pos(), PhysxBoxForceFieldShapeDesc::set_dimensions(), PhysxBoxShapeDesc::set_dimensions(), PhysxRay::set_direction(), CLerpNodePathInterval::set_end_hpr(), CLerpNodePathInterval::set_end_pos(), CLerpNodePathInterval::set_end_quat(), CLerpNodePathInterval::set_end_scale(), CLerpNodePathInterval::set_end_shear(), PhysxBox::set_extents(), PhysxCloth::set_external_acceleration(), Lens::set_frustum_from_corners(), PhysxActor::set_global_pos(), PhysxController::set_global_speed(), PhysxSceneDesc::set_gravity(), PhysxScene::set_gravity(), CollisionEntry::set_interior_point(), PhysxController::set_local_speed(), PhysxBounds3::set_max(), PhysxBounds3::set_min(), PhysxRay::set_origin(), PhysxCapsule::set_origin_direction(), PhysxSegment::set_origin_direction(), PhysxSegment::set_p0(), PhysxCapsule::set_p0(), PhysxSegment::set_p1(), PhysxCapsule::set_p1(), PhysxPlaneShapeDesc::set_plane(), PfmFile::set_point3(), PhysicsObject::set_position(), CLerpNodePathInterval::set_start_hpr(), CLerpNodePathInterval::set_start_pos(), CLerpNodePathInterval::set_start_scale(), CLerpNodePathInterval::set_start_shear(), CollisionEntry::set_surface_normal(), CollisionEntry::set_surface_point(), PhysxSphericalJointDesc::set_swing_axis(), PhysicsObject::set_velocity(), Lens::set_view_hpr(), Lens::set_view_vector(), BulletWheel::set_wheel_axle_cs(), BulletWheel::set_wheel_direction_cs(), PhysxCloth::set_wind_acceleration(), PhysxUtilLib::sweep_box_box(), PhysxUtilLib::sweep_box_capsule(), PhysxUtilLib::sweep_box_sphere(), PhysxUtilLib::sweep_capsule_capsule(), PhysxUtilLib::sweep_sphere_capsule(), PhysxUtilLib::swept_spheres_intersect(), PhysxBounds3::transform(), and PhysxUtilLib::tri_box_intersect().

float LVecBase3f::length ( ) const
inline
float LVecBase3f::length_squared ( ) const
inline

Returns the square of the vector's length, cheap and easy.

Definition at line 748 of file lvecBase3.h.

Referenced by CollisionHandlerHighestEvent::add_entry(), GeomPrimitive::calc_tight_bounds(), ObstacleAvoidance::obstacle_detection(), and Lens::set_frustum_from_corners().

bool LVecBase3f::normalize ( )
inline
bool LVecBase3f::operator< ( const LVecBase3f other) const
inline

This performs a lexicographical comparison.

It's of questionable mathematical meaning, but sometimes has a practical purpose for sorting unique vectors, especially in an STL container. Also see compare_to().

Definition at line 836 of file lvecBase3.h.

LVecBase3f LVecBase3f::project ( const LVecBase3f onto) const
inline

Returns a new vector representing the projection of this vector onto another one.

The resulting vector will be a scalar multiple of onto.

Definition at line 804 of file lvecBase3.h.

void LVecBase3f::read_datagram ( DatagramIterator source)
inline

Reads the vector from the Datagram using get_stdfloat().

Definition at line 1373 of file lvecBase3.h.

Referenced by STTransform::fillin().

void LVecBase3f::read_datagram_fixed ( DatagramIterator source)
inline

Reads the vector from the Datagram using get_float32() or get_float64().

See write_datagram_fixed().

Definition at line 1330 of file lvecBase3.h.

int LVecBase3f::size ( )
inlinestatic
const LVecBase3f & LVecBase3f::unit_x ( )
inlinestatic

Returns a unit X vector.

Definition at line 391 of file lvecBase3.h.

const LVecBase3f & LVecBase3f::unit_y ( )
inlinestatic

Returns a unit Y vector.

Definition at line 401 of file lvecBase3.h.

const LVecBase3f & LVecBase3f::unit_z ( )
inlinestatic

Returns a unit Z vector.

Definition at line 411 of file lvecBase3.h.

void LVecBase3f::write_datagram ( Datagram destination) const
inline

Writes the vector to the Datagram using add_stdfloat().

This is appropriate when you want to write the vector using the standard width setting, especially when you are writing a bam file.

Definition at line 1355 of file lvecBase3.h.

Referenced by AnimChannelMatrixFixed::write_datagram(), STTransform::write_datagram(), CollisionRay::write_datagram(), CollisionSegment::write_datagram(), BillboardEffect::write_datagram(), CollisionSphere::write_datagram(), Fog::write_datagram(), CollisionTube::write_datagram(), PolylightNode::write_datagram(), CollisionBox::write_datagram(), and CollisionSolid::write_datagram().

void LVecBase3f::write_datagram_fixed ( Datagram destination) const
inline

Writes the vector to the Datagram using add_float32() or add_float64(), depending on the type of floats in the vector, regardless of the setting of Datagram::set_stdfloat_double().

This is appropriate when you want to write a fixed-width value to the datagram, especially when you are not writing a bam file.

Definition at line 1307 of file lvecBase3.h.

const LVecBase3f & LVecBase3f::zero ( )
inlinestatic

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