QGIS/python/core/qgspointxy.sip

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







class QgsPointXY
{
%Docstring
 A class to represent a 2D point.

 A QgsPointXY represents a position with X and Y coordinates.
 In most scenarios it is preferable to use a QgsPoint instead which also
 supports Z and M values.

.. versionadded:: 3.0
%End

%TypeHeaderCode
#include "qgspointxy.h"
%End
  public:
    QgsPointXY();

    QgsPointXY( const QgsPointXY &p );
%Docstring
Create a point from another point
%End

    QgsPointXY( double x, double y );
%Docstring
 Create a point from x,y coordinates
 \param x x coordinate
 \param y y coordinate
%End

    QgsPointXY( QPointF point );
%Docstring
 Create a point from a QPointF
 \param point QPointF source
.. versionadded:: 2.7
%End

    QgsPointXY( QPoint point );
%Docstring
 Create a point from a QPoint
 \param point QPoint source
.. versionadded:: 2.7
%End

    QgsPointXY( const QgsPoint &point );
%Docstring
 Create a new point.
 Z and M values will be dropped.

.. versionadded:: 3.0
%End

    ~QgsPointXY();

    void setX( double x );
%Docstring
 Sets the x value of the point
 \param x x coordinate
%End

    void setY( double y );
%Docstring
 Sets the y value of the point
 \param y y coordinate
%End

    void set( double x, double y );
%Docstring
Sets the x and y value of the point
%End

    double x() const;
%Docstring
 Get the x value of the point
 :return: x coordinate
 :rtype: float
%End

    double y() const;
%Docstring
 Get the y value of the point
 :return: y coordinate
 :rtype: float
%End

    QPointF toQPointF() const;
%Docstring
 Converts a point to a QPointF
 :return: QPointF with same x and y values
.. versionadded:: 2.7
 :rtype: QPointF
%End

    QString toString( int precision = 12 ) const;
%Docstring
 Returns a string representation of the point (x, y) with a preset ``precision``.
 :rtype: str
%End

    QString asWkt() const;
%Docstring
 Return the well known text representation for the point (e.g. "POINT(x y)").
 The wkt is created without an SRID.
 :rtype: str
%End

    double sqrDist( double x, double y ) const;
%Docstring
 Returns the squared distance between this point a specified x, y coordinate.
.. seealso:: distance()
 :rtype: float
%End

    double sqrDist( const QgsPointXY &other ) const;
%Docstring
 Returns the squared distance between this point another point.
.. seealso:: distance()
 :rtype: float
%End

    double distance( double x, double y ) const;
%Docstring
 Returns the distance between this point and a specified x, y coordinate.
 \param x x-coordniate
 \param y y-coordinate
.. seealso:: sqrDist()
.. versionadded:: 2.16
 :rtype: float
%End

    double distance( const QgsPointXY &other ) const;
%Docstring
 Returns the distance between this point and another point.
 \param other other point
.. seealso:: sqrDist()
.. versionadded:: 2.16
 :rtype: float
%End

    double sqrDistToSegment( double x1, double y1, double x2, double y2, QgsPointXY &minDistPoint /Out/, double epsilon = DEFAULT_SEGMENT_EPSILON ) const;
%Docstring
Returns the minimum distance between this point and a segment
 :rtype: float
%End

    double azimuth( const QgsPointXY &other ) const;
%Docstring
Calculates azimuth between this point and other one (clockwise in degree, starting from north)
 :rtype: float
%End

    QgsPointXY project( double distance, double bearing ) const;
%Docstring
 Returns a new point which corresponds to this point projected by a specified distance
 in a specified bearing.
 \param distance distance to project
 \param bearing angle to project in, clockwise in degrees starting from north
.. versionadded:: 2.16
 :rtype: QgsPointXY
%End

    bool compare( const QgsPointXY &other, double epsilon = 4 * DBL_EPSILON ) const;
%Docstring
 Compares this point with another point with a fuzzy tolerance
 \param other point to compare with
 \param epsilon maximum difference for coordinates between the points
 :return: true if points are equal within specified tolerance
.. versionadded:: 2.9
 :rtype: bool
%End

    bool operator==( const QgsPointXY &other );

    bool operator!=( const QgsPointXY &other ) const;
%Docstring
Inequality operator
 :rtype: bool
%End

    void multiply( double scalar );
%Docstring
Multiply x and y by the given value
%End


    QgsVector operator-( const QgsPointXY &p ) const;
%Docstring
Calculates the vector obtained by subtracting a point from this point
 :rtype: QgsVector
%End

    QgsPointXY &operator+=( QgsVector v );
%Docstring
Adds a vector to this point in place
 :rtype: QgsPointXY
%End

    QgsPointXY &operator-=( QgsVector v );
%Docstring
Subtracts a vector from this point in place
 :rtype: QgsPointXY
%End

    QgsPointXY operator+( QgsVector v ) const;
%Docstring
Adds a vector to this point
 :rtype: QgsPointXY
%End

    QgsPointXY operator-( QgsVector v ) const;
%Docstring
Subtracts a vector from this point
 :rtype: QgsPointXY
%End

    QgsPointXY operator*( double scalar ) const;
%Docstring
Multiplies the coordinates in this point by a scalar quantity
 :rtype: QgsPointXY
%End

    QgsPointXY operator/( double scalar ) const;
%Docstring
Divides the coordinates in this point by a scalar quantity
 :rtype: QgsPointXY
%End

    QgsPointXY &operator*=( double scalar );
%Docstring
Multiplies the coordinates in this point by a scalar quantity in place
 :rtype: QgsPointXY
%End

    QgsPointXY &operator/=( double scalar );
%Docstring
Divides the coordinates in this point by a scalar quantity in place
 :rtype: QgsPointXY
%End

    operator QVariant() const;
%Docstring
Allows direct construction of QVariants from points.
%End

    SIP_PYOBJECT __repr__();
%MethodCode
    QString str = "(" + QString::number( sipCpp->x() ) + "," + QString::number( sipCpp->y() ) + ")";
    //QString str("(%f,%f)").arg(sipCpp->x()).arg(sipCpp->y());
    sipRes = PyUnicode_FromString( str.toUtf8().data() );
%End

    int __len__();
%Docstring
 :rtype: int
%End
%MethodCode
    sipRes = 2;
%End


    SIP_PYOBJECT __getitem__( int );
%MethodCode
    if ( a0 == 0 )
    {
      sipRes = Py_BuildValue( "d", sipCpp->x() );
    }
    else if ( a0 == 1 )
    {
      sipRes = Py_BuildValue( "d", sipCpp->y() );
    }
    else
    {
      QString msg = QString( "Bad index: %1" ).arg( a0 );
      PyErr_SetString( PyExc_IndexError, msg.toAscii().constData() );
    }
%End

    long __hash__() const;
%Docstring
 :rtype: long
%End
%MethodCode
    sipRes = qHash( *sipCpp );
%End

}; // class QgsPoint






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