/usr/include/qgis/qgspoint.h is in libqgis-dev 2.14.11+dfsg-3+deb9u1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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qgspoint.h - description
-------------------
begin : Sat Jun 22 2002
copyright : (C) 2002 by Gary E.Sherman
email : sherman at mrcc.com
***************************************************************************/
/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************/
#ifndef QGSPOINT_H
#define QGSPOINT_H
#include <qgis.h>
#include <iostream>
#include <QString>
#include <QPoint>
/** \ingroup core
* A class to represent a vector.
* Currently no Z axis / 2.5D support is implemented.
*/
class CORE_EXPORT QgsVector
{
double m_x, m_y;
public:
QgsVector();
QgsVector( double x, double y );
//! @note not available in Python bindings
QgsVector operator-( void ) const;
QgsVector operator*( double scalar ) const;
QgsVector operator/( double scalar ) const;
double operator*( QgsVector v ) const;
double length() const;
double x() const;
double y() const;
// perpendicular vector (rotated 90 degrees counter-clockwise)
QgsVector perpVector() const;
//! @note not available in Python bindings
double angle( void ) const;
double angle( QgsVector v ) const;
QgsVector rotateBy( double rot ) const;
QgsVector normal() const;
};
/** \ingroup core
* A class to represent a point.
* Currently no Z axis / 2.5D support is implemented.
*/
class CORE_EXPORT QgsPoint
{
public:
/// Default constructor
QgsPoint() : m_x( 0.0 ), m_y( 0.0 )
{}
/** Create a point from another point */
QgsPoint( const QgsPoint& p );
/** Create a point from x,y coordinates
* @param x x coordinate
* @param y y coordinate
*/
QgsPoint( double x, double y )
: m_x( x ), m_y( y )
{}
/** Create a point from a QPointF
* @param point QPointF source
* @note added in QGIS 2.7
*/
QgsPoint( QPointF point )
: m_x( point.x() ), m_y( point.y() )
{}
/** Create a point from a QPoint
* @param point QPoint source
* @note added in QGIS 2.7
*/
QgsPoint( QPoint point )
: m_x( point.x() ), m_y( point.y() )
{}
~QgsPoint()
{}
/** Sets the x value of the point
* @param x x coordinate
*/
void setX( double x )
{
m_x = x;
}
/** Sets the y value of the point
* @param y y coordinate
*/
void setY( double y )
{
m_y = y;
}
/** Sets the x and y value of the point */
void set( double x, double y )
{
m_x = x;
m_y = y;
}
/** Get the x value of the point
* @return x coordinate
*/
double x() const
{
return m_x;
}
/** Get the y value of the point
* @return y coordinate
*/
double y() const
{
return m_y;
}
/** Converts a point to a QPointF
* @returns QPointF with same x and y values
* @note added in QGIS 2.7
*/
QPointF toQPointF() const;
//! String representation of the point (x,y)
QString toString() const;
//! As above but with precision for string representation of a point
QString toString( int thePrecision ) const;
/** Return a string representation as degrees minutes seconds.
* Its up to the calling function to ensure that this point can
* be meaningfully represented in this form.
* @param thePrecision number of decimal points to use for seconds
* @param useSuffix set to true to include a direction suffix (eg 'N'),
* set to false to use a "-" prefix for west and south coordinates
* @param padded set to true to force minutes and seconds to use two decimals,
* eg, '05' instead of '5'.
*/
QString toDegreesMinutesSeconds( int thePrecision, const bool useSuffix = true, const bool padded = false ) const;
/** Return a string representation as degrees minutes.
* Its up to the calling function to ensure that this point can
* be meaningfully represented in this form.
* @param thePrecision number of decimal points to use for minutes
* @param useSuffix set to true to include a direction suffix (eg 'N'),
* set to false to use a "-" prefix for west and south coordinates
* @param padded set to true to force minutes to use two decimals,
* eg, '05' instead of '5'.
*/
QString toDegreesMinutes( int thePrecision, const bool useSuffix = true, const bool padded = false ) const;
/** Return the well known text representation for the point.
* The wkt is created without an SRID.
* @return Well known text in the form POINT(x y)
*/
QString wellKnownText() const;
/** Returns the squared distance between this point and x,y*/
double sqrDist( double x, double y ) const;
/** Returns the squared distance between this and other point*/
double sqrDist( const QgsPoint& other ) const;
/** Returns the minimum distance between this point and a segment */
double sqrDistToSegment( double x1, double y1, double x2, double y2, QgsPoint& minDistPoint, double epsilon = DEFAULT_SEGMENT_EPSILON ) const;
/** Calculates azimuth between this point and other one (clockwise in degree, starting from north) */
double azimuth( const QgsPoint& other ) const;
/** 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
* @returns true if points are equal within specified tolerance
* @note added in QGIS 2.9
*/
bool compare( const QgsPoint &other, double epsilon = 4 * DBL_EPSILON ) const;
//! equality operator
bool operator==( const QgsPoint &other );
//! Inequality operator
bool operator!=( const QgsPoint &other ) const;
//! Multiply x and y by the given value
void multiply( double scalar );
//! Test if this point is on the segment defined by points a, b
//! @return 0 if this point is not on the open ray through a and b,
//! 1 if point is on open ray a, 2 if point is within line segment,
//! 3 if point is on open ray b.
int onSegment( const QgsPoint& a, const QgsPoint& b ) const;
//! Assignment
QgsPoint & operator=( const QgsPoint &other );
QgsVector operator-( const QgsPoint& p ) const { return QgsVector( m_x - p.m_x, m_y - p.m_y ); }
QgsPoint &operator+=( QgsVector v ) { *this = *this + v; return *this; }
QgsPoint &operator-=( QgsVector v ) { *this = *this - v; return *this; }
QgsPoint operator+( QgsVector v ) const { return QgsPoint( m_x + v.x(), m_y + v.y() ); }
QgsPoint operator-( QgsVector v ) const { return QgsPoint( m_x - v.x(), m_y - v.y() ); }
private:
//! x coordinate
double m_x;
//! y coordinate
double m_y;
friend uint qHash( const QgsPoint& pnt );
}; // class QgsPoint
inline bool operator==( const QgsPoint &p1, const QgsPoint &p2 )
{
if ( qgsDoubleNear( p1.x(), p2.x() ) && qgsDoubleNear( p1.y(), p2.y() ) )
{ return true; }
else
{ return false; }
}
inline std::ostream& operator << ( std::ostream& os, const QgsPoint &p )
{
// Use Local8Bit for printouts
os << p.toString().toLocal8Bit().data();
return os;
}
inline uint qHash( const QgsPoint& p )
{
uint hash;
uint h1 = qHash( static_cast< quint64 >( p.m_x ) );
uint h2 = qHash( static_cast< quint64 >( p.m_y ) );
hash = h1 ^( h2 << 1 );
return hash;
}
#endif //QGSPOINT_H
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