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VectorT< Scalar, N > Class Template Reference
Inheritance diagram for VectorT< Scalar, N >:
Collaboration diagram for VectorT< Scalar, N >:

Public Types

typedef Scalar value_type
 the type of the scalar used in this template
 
typedef VectorT< Scalar, N > vector_type
 type of this vector
 

Public Member Functions

 VectorT ()
 default constructor creates uninitialized values.
 
 VectorT (const Scalar &v)
 special constructor for 1D vectors
 
 VectorT (const Scalar _values[N])
 construct from a value array (explicit)
 
template<typename otherScalarType >
 VectorT (const VectorT< otherScalarType, N > &_rhs)
 copy & cast constructor (explicit)
 
template<typename otherScalarType >
vector_typeoperator= (const VectorT< otherScalarType, N > &_rhs)
 cast from vector with a different scalar type
 
Scalar * data ()
 access to Scalar array
 
const Scalar * data () const
 access to const Scalar array
 
Scalar & operator[] (size_t _i)
 get i'th element read-write
 
const Scalar & operator[] (size_t _i) const
 get i'th element read-only
 
bool operator== (const vector_type &_rhs) const
 component-wise comparison
 
bool operator!= (const vector_type &_rhs) const
 component-wise comparison
 
vector_typeoperator*= (const Scalar &_s)
 component-wise self-multiplication with scalar
 
vector_typeoperator/= (const Scalar &_s)
 component-wise self-division by scalar More...
 
vector_type operator* (const Scalar &_s) const
 component-wise multiplication with scalar
 
vector_type operator/ (const Scalar &_s) const
 component-wise division by with scalar
 
vector_typeoperator*= (const vector_type &_rhs)
 component-wise self-multiplication
 
vector_typeoperator/= (const vector_type &_rhs)
 component-wise self-division
 
vector_typeoperator-= (const vector_type &_rhs)
 vector difference from this
 
vector_typeoperator+= (const vector_type &_rhs)
 vector self-addition
 
vector_type operator* (const vector_type &_v) const
 component-wise vector multiplication
 
vector_type operator/ (const vector_type &_v) const
 component-wise vector division
 
vector_type operator+ (const vector_type &_v) const
 component-wise vector addition
 
vector_type operator- (const vector_type &_v) const
 component-wise vector difference
 
vector_type operator- (void) const
 unary minus
 
VectorT< Scalar, 3 > operator% (const VectorT< Scalar, 3 > &_rhs) const
 cross product: only defined for Vec3* as specialization More...
 
Scalar operator| (const vector_type &_rhs) const
 compute scalar product More...
 
template<typename Functor >
vector_type apply (const Functor &_func) const
 component-wise apply function object with Scalar operator()(Scalar).
 
vector_typevectorize (const Scalar &_s)
 store the same value in each component (e.g. to clear all entries)
 
bool operator< (const vector_type &_rhs) const
 lexicographical comparison
 
Euclidean norm calculations
Scalar norm () const
 compute euclidean norm
 
Scalar length () const
 compute euclidean norm
 
Scalar sqrnorm () const
 compute squared euclidean norm
 
vector_typenormalize ()
 normalize vector, return normalized vector
 
const vector_type normalized () const
 return normalized vector
 
vector_typenormalize_cond ()
 normalize vector, return normalized vector and avoids div by zero
 
Non-Euclidean norm calculations
Scalar l1_norm () const
 compute L1 (Manhattan) norm
 
Scalar l8_norm () const
 compute l8_norm
 
Minimum maximum and mean
Scalar max () const
 return the maximal component
 
Scalar max_abs () const
 return the maximal absolute component
 
Scalar min () const
 return the minimal component
 
Scalar min_abs () const
 return the minimal absolute component
 
Scalar mean () const
 return arithmetic mean
 
Scalar mean_abs () const
 return absolute arithmetic mean
 
vector_typeminimize (const vector_type &_rhs)
 minimize values: same as *this = min(*this, _rhs), but faster
 
bool minimized (const vector_type &_rhs)
 minimize values and signalize coordinate minimization
 
vector_typemaximize (const vector_type &_rhs)
 maximize values: same as *this = max(*this, _rhs), but faster
 
bool maximized (const vector_type &_rhs)
 maximize values and signalize coordinate maximization
 
vector_type min (const vector_type &_rhs) const
 component-wise min
 
vector_type max (const vector_type &_rhs) const
 component-wise max
 

Static Public Member Functions

static int dim ()
 returns dimension of the vector (deprecated)
 
static size_t size ()
 returns dimension of the vector
 
static vector_type vectorized (const Scalar &_s)
 store the same value in each component
 

Static Public Attributes

static const size_t size_ = N
 

Member Function Documentation

template<typename Scalar, int N>
VectorT<Scalar,3> VectorT< Scalar, N >::operator% ( const VectorT< Scalar, 3 > &  _rhs) const
inline

cross product: only defined for Vec3* as specialization

See also
OpenMesh::cross
template<typename Scalar, int N>
vector_type& VectorT< Scalar, N >::operator/= ( const Scalar &  _s)
inline

component-wise self-division by scalar

Attention
v *= (1/_s) is much faster than this
template<typename Scalar, int N>
Scalar VectorT< Scalar, N >::operator| ( const vector_type _rhs) const
inline

compute scalar product

See also
OpenMesh::dot

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

Project OpenMesh, ©  Computer Graphics Group, RWTH Aachen. Documentation generated using doxygen .