/usr/include/marble/ViewportParams.h is in libmarble-dev 4:4.13.0-0ubuntu1.
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// This file is part of the Marble Virtual Globe.
//
// This program is free software licensed under the GNU LGPL. You can
// find a copy of this license in LICENSE.txt in the top directory of
// the source code.
//
// Copyright 2007 Inge Wallin <ingwa@kde.org>
// Copyright 2008 Jens-Michael Hoffmann <jensmh@gmx.de>
//
#ifndef MARBLE_VIEWPORTPARAMS_H
#define MARBLE_VIEWPORTPARAMS_H
/** @file
* This file contains the headers for ViewportParams.
*
* @author Inge Wallin <inge@lysator.liu.se>
*/
#include <QSize>
#include <QPainterPath>
#include "GeoDataLatLonAltBox.h"
#include "Quaternion.h"
#include "MarbleGlobal.h"
#include "marble_export.h"
class QPolygonF;
namespace Marble
{
class AbstractProjection;
class ViewportParamsPrivate;
/**
* @short A public class that controls what is visible in the viewport of a Marble map.
*
*/
class MARBLE_EXPORT ViewportParams
{
public:
ViewportParams( );
explicit ViewportParams( Projection projection,
qreal centerLongitude = 0, qreal centerLatatitude = 0,
int radius = 2000,
const QSize &size = QSize( 100, 100 ) );
~ViewportParams();
// Getters and setters
Projection projection() const;
const AbstractProjection *currentProjection() const;
void setProjection(Projection newProjection);
int polarity() const;
const GeoDataLatLonAltBox& viewLatLonAltBox() const;
GeoDataLatLonAltBox latLonAltBox( const QRect &screenRect ) const;
// Calculates an educated guess for the average angle in radians covered per pixel.
// Given a certain resolution it doesn't make much sense
// - to display an object that covers an angle that is smaller than that.
// - to display two points as distinct points if they are separated by a
// an angular distance that is smaller. Instead only one point should be shown.
// So this method helps to filter out details.
// It's somewhat related to http://en.wikipedia.org/wiki/Angular_resolution
qreal angularResolution() const;
// Determines whether a geographical feature is big enough so that it should
// represent a single point on the screen already.
// See angularResolution()
bool resolves ( const GeoDataLatLonBox &latLonBox ) const;
bool resolves ( const GeoDataLatLonAltBox &latLonAltBox ) const;
// Determines whether two points are located enough apart so that it makes
// sense to display them as distinct points. If this is not the case
// calculation and drawing of one point can be skipped as only a single
// point will be displayed on the screen.
bool resolves ( const GeoDataCoordinates &coord1, const GeoDataCoordinates &coord2 ) const;
int radius() const;
/**
* @brief Change the radius of the planet
* @param radius Size of the planet radius in pixel. Non-positive values are ignored.
*/
void setRadius(int radius);
void centerOn( qreal lon, qreal lat );
Quaternion planetAxis() const;
const matrix &planetAxisMatrix() const;
int width() const;
int height() const;
QSize size() const;
void setWidth(int newWidth);
void setHeight(int newHeight);
void setSize(QSize newSize);
qreal centerLongitude() const;
qreal centerLatitude() const;
MARBLE_DEPRECATED( void centerCoordinates( qreal ¢erLon, qreal ¢erLat ) const );
/**
* @brief Get the screen coordinates corresponding to geographical coordinates in the map.
* @param lon the lon coordinate of the requested pixel position in radians
* @param lat the lat coordinate of the requested pixel position in radians
* @param x the x coordinate of the pixel is returned through this parameter
* @param y the y coordinate of the pixel is returned through this parameter
* @return @c true if the geographical coordinates are visible on the screen
* @c false if the geographical coordinates are not visible on the screen
*
* @see ViewportParams
*/
bool screenCoordinates( const qreal lon, const qreal lat,
qreal &x, qreal &y ) const;
/**
* @brief Get the screen coordinates corresponding to geographical coordinates in the map.
*
* @param geopoint the point on earth, including altitude, that we want the coordinates for.
* @param x the x coordinate of the pixel is returned through this parameter
* @param y the y coordinate of the pixel is returned through this parameter
* @param globeHidesPoint whether the point gets hidden on the far side of the earth
*
* @return @c true if the geographical coordinates are visible on the screen
* @c false if the geographical coordinates are not visible on the screen
*
* @see ViewportParams
*/
bool screenCoordinates( const GeoDataCoordinates &geopoint,
qreal &x, qreal &y,
bool &globeHidesPoint ) const;
// Will just call the virtual version with a dummy globeHidesPoint.
bool screenCoordinates( const GeoDataCoordinates &geopoint,
qreal &x, qreal &y ) const;
/**
* @brief Get the coordinates of screen points for geographical coordinates in the map.
*
* @param coordinates the point on earth, including altitude, that we want the coordinates for.
* @param x the x coordinates of the pixels are returned through this parameter
* @param y the y coordinate of the pixel is returned through this parameter
* @param pointRepeatNum the amount of times that a single geographical
point gets represented on the map
* @param globeHidesPoint whether the point gets hidden on the far side of the earth
*
* @return @c true if the geographical coordinates are visible on the screen
* @c false if the geographical coordinates are not visible on the screen
*
* @see ViewportParams
*/
bool screenCoordinates( const GeoDataCoordinates &coordinates,
qreal *x, qreal &y, int &pointRepeatNum,
const QSizeF& size,
bool &globeHidesPoint ) const;
bool screenCoordinates( const GeoDataLineString &lineString,
QVector<QPolygonF*> &polygons ) const;
/**
* @brief Get the earth coordinates corresponding to a pixel in the map.
* @param x the x coordinate of the pixel
* @param y the y coordinate of the pixel
* @param lon the longitude angle is returned through this parameter
* @param lat the latitude angle is returned through this parameter
* @param unit the unit of the angles for lon and lat.
* @return @c true if the pixel (x, y) is within the globe
* @c false if the pixel (x, y) is outside the globe, i.e. in space.
*/
bool geoCoordinates( const int x, const int y,
qreal &lon, qreal &lat,
GeoDataCoordinates::Unit unit = GeoDataCoordinates::Degree ) const;
bool mapCoversViewport() const;
QPainterPath mapShape() const;
QRegion mapRegion() const;
/**
* @return The current point of focus, e.g. the point that is not moved
* when changing the zoom level. If not set, it defaults to the
* center point.
* @see centerCoordinates setFocusPoint resetFocusPoint
*/
GeoDataCoordinates focusPoint() const;
/**
* @brief Change the point of focus, overridding any previously set focus point.
* @param focusPoint New focus point
* @see focusPoint resetFocusPoint
*/
void setFocusPoint(const GeoDataCoordinates &focusPoint);
/**
* @brief Invalidate any focus point set with @ref setFocusPoint.
* @see focusPoint setFocusPoint
*/
void resetFocusPoint();
private:
Q_DISABLE_COPY( ViewportParams )
ViewportParamsPrivate * const d;
};
}
#endif
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