/usr/include/qgis/qgsrectangle.h is in libqgis-dev 2.8.6+dfsg-1build1.
This file is owned by root:root, with mode 0o644.
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qgsrectangle.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 QGSRECTANGLE_H
#define QGSRECTANGLE_H
#include <iosfwd>
#include <QDomDocument>
class QString;
class QRectF;
#include "qgspoint.h"
/** \ingroup core
* A rectangle specified with double values.
*
* QgsRectangle is used to store a rectangle when double values are required.
* Examples are storing a layer extent or the current view extent of a map
*/
class CORE_EXPORT QgsRectangle
{
public:
//! Constructor
QgsRectangle( double xmin = 0, double ymin = 0, double xmax = 0, double ymax = 0 );
//! Construct a rectangle from two points. The rectangle is normalized after construction.
QgsRectangle( const QgsPoint & p1, const QgsPoint & p2 );
//! Construct a rectangle from a QRectF. The rectangle is normalized after construction.
QgsRectangle( const QRectF & qRectF );
//! Copy constructor
QgsRectangle( const QgsRectangle &other );
//! Destructor
~QgsRectangle();
//! Set the rectangle from two QgsPoints. The rectangle is
//! normalised after construction.
void set( const QgsPoint& p1, const QgsPoint& p2 );
//! Set the rectangle from four points. The rectangle is
//! normalised after construction.
void set( double xmin, double ymin, double xmax, double ymax );
//! Set the minimum x value
void setXMinimum( double x );
//! Set the maximum x value
void setXMaximum( double x );
//! Set the minimum y value
void setYMinimum( double y );
//! Set the maximum y value
void setYMaximum( double y );
//! Set a rectangle so that min corner is at max
//! and max corner is at min. It is NOT normalized.
void setMinimal();
//! Get the x maximum value (right side of rectangle)
double xMaximum() const;
//! Get the x minimum value (left side of rectangle)
double xMinimum() const;
//! Get the y maximum value (top side of rectangle)
double yMaximum() const;
//! Get the y minimum value (bottom side of rectangle)
double yMinimum() const;
//! Normalize the rectangle so it has non-negative width/height
void normalize();
//! Width of the rectangle
double width() const;
//! Height of the rectangle
double height() const;
//! Center point of the rectangle
QgsPoint center() const;
//! Scale the rectangle around its center point
void scale( double scaleFactor, const QgsPoint *c = 0 );
void scale( double scaleFactor, double centerX, double centerY );
/** Get rectangle enlarged by buffer.
* @note added in 2.1 */
QgsRectangle buffer( double width );
//! return the intersection with the given rectangle
QgsRectangle intersect( const QgsRectangle *rect ) const;
//! returns true when rectangle intersects with other rectangle
bool intersects( const QgsRectangle& rect ) const;
//! return true when rectangle contains other rectangle
bool contains( const QgsRectangle& rect ) const;
//! return true when rectangle contains a point
bool contains( const QgsPoint &p ) const;
//! expand the rectangle so that covers both the original rectangle and the given rectangle
void combineExtentWith( QgsRectangle *rect );
//! expand the rectangle so that covers both the original rectangle and the given point
void combineExtentWith( double x, double y );
//! test if rectangle is empty.
//! Empty rectangle may still be non-null if it contains valid information (e.g. bounding box of a point)
bool isEmpty() const;
//! test if the rectangle is null (all coordinates zero or after call to setMinimal()).
//! Null rectangle is also an empty rectangle.
//! @note added in 2.4
bool isNull() const;
//! returns string representation in Wkt form
QString asWktCoordinates() const;
//! returns string representation as WKT Polygon
QString asWktPolygon() const;
//! returns a QRectF with same coordinates.
QRectF toRectF() const;
//! returns string representation of form xmin,ymin xmax,ymax
QString toString( bool automaticPrecision = false ) const;
//! overloaded toString that allows precision of numbers to be set
QString toString( int thePrecision ) const;
//! returns rectangle as a polygon
QString asPolygon() const;
/*! Comparison operator
@return True if rectangles are equal
*/
bool operator==( const QgsRectangle &r1 ) const;
/*! Comparison operator
@return False if rectangles are equal
*/
bool operator!=( const QgsRectangle &r1 ) const;
/*! Assignment operator
* @param r1 QgsRectangle to assign from
*/
QgsRectangle & operator=( const QgsRectangle &r1 );
/** updates rectangle to include passed argument */
void unionRect( const QgsRectangle& rect );
/** Returns true if the rectangle has finite boundaries. Will
return false if any of the rectangle boundaries are NaN or Inf. */
bool isFinite() const;
//! swap x/y
void invert();
protected:
// These are protected instead of private so that things like
// the QgsPostGisBox3d can get at them.
double xmin;
double ymin;
double xmax;
double ymax;
};
inline QgsRectangle::~QgsRectangle()
{
}
inline void QgsRectangle::setXMinimum( double x )
{
xmin = x;
}
inline void QgsRectangle::setXMaximum( double x )
{
xmax = x;
}
inline void QgsRectangle::setYMinimum( double y )
{
ymin = y;
}
inline void QgsRectangle::setYMaximum( double y )
{
ymax = y;
}
inline double QgsRectangle::xMaximum() const
{
return xmax;
}
inline double QgsRectangle::xMinimum() const
{
return xmin;
}
inline double QgsRectangle::yMaximum() const
{
return ymax;
}
inline double QgsRectangle::yMinimum() const
{
return ymin;
}
inline double QgsRectangle::width() const
{
return xmax - xmin;
}
inline double QgsRectangle::height() const
{
return ymax - ymin;
}
inline QgsPoint QgsRectangle::center() const
{
return QgsPoint( xmin + width() / 2, ymin + height() / 2 );
}
inline std::ostream& operator << ( std::ostream& os, const QgsRectangle &r )
{
return os << r.toString().toLocal8Bit().data();
}
#endif // QGSRECTANGLE_H
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