QGIS/python/core/auto_generated/qgsvector.sip.in

/************************************************************************
 * This file has been generated automatically from                      *
 *                                                                      *
 * src/core/qgsvector.h                                                 *
 *                                                                      *
 * Do not edit manually ! Edit header and run scripts/sipify.pl again   *
 ************************************************************************/



class QgsVector
{
%Docstring
A class to represent a vector.
Currently no Z axis / 2.5D support is implemented.
%End

%TypeHeaderCode
#include "qgsvector.h"
%End
  public:

    QgsVector();
%Docstring
Default constructor for QgsVector. Creates a vector with length of 0.0.
%End

    QgsVector( double x, double y );
%Docstring
Constructor for QgsVector taking x and y component values.

:param x: x-component
:param y: y-component
%End

    QgsVector operator-() const;

    QgsVector operator*( double scalar ) const;

    QgsVector operator/( double scalar ) const;

    double operator*( QgsVector v ) const;

    QgsVector operator+( QgsVector other ) const;

    QgsVector &operator+=( QgsVector other );

    QgsVector operator-( QgsVector other ) const;

    QgsVector &operator-=( QgsVector other );

    double length() const;
%Docstring
Returns the length of the vector.

.. seealso:: :py:func:`lengthSquared`
%End

    double lengthSquared() const;
%Docstring
Returns the length of the vector.

.. seealso:: :py:func:`length`

.. versionadded:: 3.2
%End

    double x() const;
%Docstring
Returns the vector's x-component.

.. seealso:: y
%End

    double y() const;
%Docstring
Returns the vector's y-component.

.. seealso:: x
%End

    QgsVector perpVector() const;
%Docstring
Returns the perpendicular vector to this vector (rotated 90 degrees counter-clockwise)
%End

    double angle() const;
%Docstring
Returns the angle of the vector in radians.
%End

    double angle( QgsVector v ) const;
%Docstring
Returns the angle between this vector and another vector in radians.
%End

    double crossProduct( QgsVector v ) const;
%Docstring
Returns the 2D cross product of this vector and another vector ``v``. (This is sometimes
referred to as a "perpendicular dot product", and equals x1 * y1 - y1 * x2).

.. versionadded:: 3.2
%End

    QgsVector rotateBy( double rot ) const;
%Docstring
Rotates the vector by a specified angle.

:param rot: angle in radians
%End

    QgsVector normalized() const;
%Docstring
Returns the vector's normalized (or "unit") vector (ie same angle but length of 1.0).
Will throw a QgsException if called on a vector with length of 0.
%End

    bool operator==( QgsVector other ) const;

    bool operator!=( QgsVector other ) const;


    QString toString( int precision = 17 ) const;
%Docstring
Returns a string representation of the vector.
Members will be truncated to the specified ``precision``.
%End

    SIP_PYOBJECT __repr__();
%MethodCode
    QString str = QStringLiteral( "<QgsVector: %1>" ).arg( sipCpp->toString() );
    sipRes = PyUnicode_FromString( str.toUtf8().constData() );
%End

};


/************************************************************************
 * This file has been generated automatically from                      *
 *                                                                      *
 * src/core/qgsvector.h                                                 *
 *                                                                      *
 * Do not edit manually ! Edit header and run scripts/sipify.pl again   *
 ************************************************************************/