Vector

Definition

An instance of data type Vector is a vector of variables of number type NT. Together with the type Matrix it realizes the basic operations of linear algebra.

Types

Vector::NT
the ring type of the components.


Vector::iterator
the iterator type for accessing components.


Vector::const_iterator
the const iterator type for accessing components.

Creation

Vector v;
creates an instance v of type Vector.


Vector v ( int d);
creates an instance v of type Vector. v is initialized to a vector of dimension d.


Vector v ( int d, NT x);
creates an instance v of type Vector. v is initialized to a vector of dimension d with entries x.


template <class Forward_iterator>
Vector v ( Forward_iterator first, Forward_iterator last);
creates an instance v of type Vector; v is initialized to the vector with entries set [first,last).
Requirement: Forward_iterator has value type NT.

Operations

int v.dimension () returns the dimension of v.

bool v.is_zero () returns true iff v is the zero vector.

NT& v [ int i] returns the i-th component of v.

Precondition: 0 i v.dimension()-1.

iterator v.begin () iterator to the first component.

iterator v.end () iterator beyond the last component.

The same operations begin(), end() exist for const_iterator.

Vector v + v1 Addition.
Precondition:
v.dimension() == v1.dimension().

Vector v - v1 Subtraction.
Precondition:
v.dimension() = v1.dimension().

NT v * v1 Inner Product.
Precondition:
v.dimension() = v1.dimension().

Vector - v Negation.

Vector& v += v1 Addition plus assignment.
Precondition:
v.dimension() == v1.dimension().

Vector& v -= v1 Subtraction plus assignment.
Precondition:
v.dimension() == v1.dimension().

Vector& v *= NT s Scalar multiplication plus assignment.

Vector& v /= NT s Scalar division plus assignment.

Vector NT r * v Componentwise multiplication with number r.

Vector v * NT r Componentwise multiplication with number r.