/************************************************************************ * This file has been generated automatically from * * * * src/core/qgsvector.h * * * * Do not edit manually ! Edit header and run scripts/sipify.py again * ************************************************************************/ class QgsVector { %Docstring(signature="appended") 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 /HoldGIL/; QgsVector operator*( double scalar ) const /HoldGIL/; QgsVector operator/( double scalar ) const /HoldGIL/; double operator*( QgsVector v ) const /HoldGIL/; QgsVector operator+( QgsVector other ) const /HoldGIL/; QgsVector &operator+=( QgsVector other ) /HoldGIL/; QgsVector operator-( QgsVector other ) const /HoldGIL/; QgsVector &operator-=( QgsVector other ) /HoldGIL/; double length() const /HoldGIL/; %Docstring Returns the length of the vector. .. seealso:: :py:func:`lengthSquared` %End double lengthSquared() const /HoldGIL/; %Docstring Returns the length of the vector. .. seealso:: :py:func:`length` .. versionadded:: 3.2 %End double x() const /HoldGIL/; %Docstring Returns the vector's x-component. .. seealso:: y %End double y() const /HoldGIL/; %Docstring Returns the vector's y-component. .. seealso:: x %End QgsVector perpVector() const /HoldGIL/; %Docstring Returns the perpendicular vector to this vector (rotated 90 degrees counter-clockwise) %End double angle() const /HoldGIL/; %Docstring Returns the angle of the vector in radians. %End double angle( QgsVector v ) const /HoldGIL/; %Docstring Returns the angle between this vector and another vector in radians. %End double crossProduct( QgsVector v ) const /HoldGIL/; %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 /HoldGIL/; %Docstring Rotates the vector by a specified angle. :param rot: angle in radians %End QgsVector normalized() const throw( QgsException ); %Docstring Returns the vector's normalized (or "unit") vector (ie same angle but length of 1.0). :raises QgsException: if called on a vector with length of 0. %End bool operator==( QgsVector other ) const /HoldGIL/; bool operator!=( QgsVector other ) const; QString toString( int precision = 17 ) const /HoldGIL/; %Docstring Returns a string representation of the vector. Members will be truncated to the specified ``precision``. %End SIP_PYOBJECT __repr__(); %MethodCode QString str = QStringLiteral( "" ).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.py again * ************************************************************************/