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// -*- mode: C++; indent-tabs-mode: nil; c-basic-offset: 2; -*-
#ifndef __screen_hh
#define __screen_hh
/*! @file screen.hh
@brief OBScreen manages a single screen
*/
extern "C" {
#include <X11/Xlib.h>
}
#include "otk/image.hh"
#include "otk/strut.hh"
#include "otk/rect.hh"
#include "otk/point.hh"
#include "otk/style.hh"
#include "otk/configuration.hh" // TEMPORARY
#include <string>
namespace ob {
class OBClient;
//! Manages a single screen
/*!
*/
class OBScreen {
public:
//! Holds a list of OBClient objects
typedef std::vector<OBClient*> ClientList;
//! Holds a list of otk::Strut objects
typedef std::list<otk::Strut*> StrutList;
static const unsigned long event_mask = ColormapChangeMask |
EnterWindowMask |
LeaveWindowMask |
PropertyChangeMask |
SubstructureNotifyMask |
SubstructureRedirectMask |
ButtonPressMask |
ButtonReleaseMask;
private:
//! Was %Openbox able to manage the screen?
bool _managed;
//! The number of the screen on the X server
int _number;
//! Information about this screen
const otk::ScreenInfo *_info;
//! The Image Control used for rendering on the screen
otk::BImageControl *_image_control;
//! The style with which to render on the screen
otk::Style _style;
//! Is the root colormap currently installed?
bool _root_cmap_installed;
//! The dimentions of the screen
otk::Point _size;
//! All managed clients on the screen
ClientList _clients;
//! Area usable for placement etc (total - struts)
otk::Rect _area;
//! Areas of the screen reserved by applications
StrutList _struts;
//! Manage any pre-existing windows on the screen
void manageExisting();
//! Calculate the OBScreen::_area member
void calcArea();
//! Set the client list on the root window
/*!
Sets the _NET_CLIENT_LIST root window property.<br>
Also calls OBScreen::updateStackingList.
*/
void setClientList();
//! Set the client stacking list on the root window
/*!
Set the _NET_CLIENT_LIST_STACKING root window property.
*/
void setStackingList();
//! Set the work area hint on the root window
/*!
Set the _NET_WORKAREA root window property.
*/
void setWorkArea();
public:
//! Constructs a new OBScreen object
OBScreen(int screen, const otk::Configuration &config);
//! Destroys the OBScreen object
virtual ~OBScreen();
//! Returns the Image Control used for rendering on the screen
inline otk::BImageControl *imageControl() { return _image_control; }
//! Returns the dimentions of the screen
inline const otk::Point &size() const { return _size; }
//! Returns the area of the screen not reserved by applications' Struts
inline const otk::Rect &area() const { return _area; }
//! Returns the style in use on the screen
inline const otk::Style *style() const { return &_style; }
//! Adds a window's strut to the screen's list of reserved spaces
void addStrut(otk::Strut *strut);
//! Removes a window's strut from the screen's list of reserved spaces
void removeStrut(otk::Strut *strut);
//! Loads a new style on the screen
void loadStyle(const otk::Configuration &config);
//! Manage a client window
/*!
This gives the window a frame, reparents it, selects events on it, etc.
*/
void manageWindow(Window window);
//! Unmanage a client
/*!
This removes the window's frame, reparents it to root, unselects events on
it, etc.
*/
void unmanageWindow(OBClient *client);
};
}
#endif// __screen_hh
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