//////////////////////////////////////////////////////////// // // SFML - Simple and Fast Multimedia Library // Copyright (C) 2007-2013 Laurent Gomila (laurent.gom@gmail.com) // // This software is provided 'as-is', without any express or implied warranty. // In no event will the authors be held liable for any damages arising from the use of this software. // // Permission is granted to anyone to use this software for any purpose, // including commercial applications, and to alter it and redistribute it freely, // subject to the following restrictions: // // 1. The origin of this software must not be misrepresented; // you must not claim that you wrote the original software. // If you use this software in a product, an acknowledgment // in the product documentation would be appreciated but is not required. // // 2. Altered source versions must be plainly marked as such, // and must not be misrepresented as being the original software. // // 3. This notice may not be removed or altered from any source distribution. // //////////////////////////////////////////////////////////// #ifndef SFML_WINDOW_HPP #define SFML_WINDOW_HPP //////////////////////////////////////////////////////////// // Headers //////////////////////////////////////////////////////////// #include #include #include #include #include #include #include #include #include #include namespace sf { namespace priv { class GlContext; class WindowImpl; } class Event; //////////////////////////////////////////////////////////// /// \brief Window that serves as a target for OpenGL rendering /// //////////////////////////////////////////////////////////// class SFML_WINDOW_API Window : GlResource, NonCopyable { public : //////////////////////////////////////////////////////////// /// \brief Default constructor /// /// This constructor doesn't actually create the window, /// use the other constructors or call "create" to do so. /// //////////////////////////////////////////////////////////// Window(); //////////////////////////////////////////////////////////// /// \brief Construct a new window /// /// This constructor creates the window with the size and pixel /// depth defined in \a mode. An optional style can be passed to /// customize the look and behaviour of the window (borders, /// title bar, resizable, closable, ...). If \a style contains /// Style::Fullscreen, then \a mode must be a valid video mode. /// /// The fourth parameter is an optional structure specifying /// advanced OpenGL context settings such as antialiasing, /// depth-buffer bits, etc. /// /// \param mode Video mode to use (defines the width, height and depth of the rendering area of the window) /// \param title Title of the window /// \param style Window style /// \param settings Additional settings for the underlying OpenGL context /// //////////////////////////////////////////////////////////// Window(VideoMode mode, const String& title, Uint32 style = Style::Default, const ContextSettings& settings = ContextSettings()); //////////////////////////////////////////////////////////// /// \brief Construct the window from an existing control /// /// Use this constructor if you want to create an OpenGL /// rendering area into an already existing control. /// /// The second parameter is an optional structure specifying /// advanced OpenGL context settings such as antialiasing, /// depth-buffer bits, etc. /// /// \param handle Platform-specific handle of the control /// \param settings Additional settings for the underlying OpenGL context /// //////////////////////////////////////////////////////////// explicit Window(WindowHandle handle, const ContextSettings& settings = ContextSettings()); //////////////////////////////////////////////////////////// /// \brief Destructor /// /// Closes the window and free all the resources attached to it. /// //////////////////////////////////////////////////////////// virtual ~Window(); //////////////////////////////////////////////////////////// /// \brief Create (or recreate) the window /// /// If the window was already created, it closes it first. /// If \a style contains Style::Fullscreen, then \a mode /// must be a valid video mode. /// /// \param mode Video mode to use (defines the width, height and depth of the rendering area of the window) /// \param title Title of the window /// \param style Window style /// \param settings Additional settings for the underlying OpenGL context /// //////////////////////////////////////////////////////////// void create(VideoMode mode, const String& title, Uint32 style = Style::Default, const ContextSettings& settings = ContextSettings()); //////////////////////////////////////////////////////////// /// \brief Create (or recreate) the window from an existing control /// /// Use this function if you want to create an OpenGL /// rendering area into an already existing control. /// If the window was already created, it closes it first. /// /// \param handle Platform-specific handle of the control /// \param settings Additional settings for the underlying OpenGL context /// //////////////////////////////////////////////////////////// void create(WindowHandle handle, const ContextSettings& settings = ContextSettings()); //////////////////////////////////////////////////////////// /// \brief Close the window and destroy all the attached resources /// /// After calling this function, the sf::Window instance remains /// valid and you can call create() to recreate the window. /// All other functions such as pollEvent() or display() will /// still work (i.e. you don't have to test isOpen() every time), /// and will have no effect on closed windows. /// //////////////////////////////////////////////////////////// void close(); //////////////////////////////////////////////////////////// /// \brief Tell whether or not the window is open /// /// This function returns whether or not the window exists. /// Note that a hidden window (setVisible(false)) is open /// (therefore this function would return true). /// /// \return True if the window is open, false if it has been closed /// //////////////////////////////////////////////////////////// bool isOpen() const; //////////////////////////////////////////////////////////// /// \brief Get the settings of the OpenGL context of the window /// /// Note that these settings may be different from what was /// passed to the constructor or the create() function, /// if one or more settings were not supported. In this case, /// SFML chose the closest match. /// /// \return Structure containing the OpenGL context settings /// //////////////////////////////////////////////////////////// const ContextSettings& getSettings() const; //////////////////////////////////////////////////////////// /// \brief Pop the event on top of the event queue, if any, and return it /// /// This function is not blocking: if there's no pending event then /// it will return false and leave \a event unmodified. /// Note that more than one event may be present in the event queue, /// thus you should always call this function in a loop /// to make sure that you process every pending event. /// \code /// sf::Event event; /// while (window.pollEvent(event)) /// { /// // process event... /// } /// \endcode /// /// \param event Event to be returned /// /// \return True if an event was returned, or false if the event queue was empty /// /// \see waitEvent /// //////////////////////////////////////////////////////////// bool pollEvent(Event& event); //////////////////////////////////////////////////////////// /// \brief Wait for an event and return it /// /// This function is blocking: if there's no pending event then /// it will wait until an event is received. /// After this function returns (and no error occured), /// the \a event object is always valid and filled properly. /// This function is typically used when you have a thread that /// is dedicated to events handling: you want to make this thread /// sleep as long as no new event is received. /// \code /// sf::Event event; /// if (window.waitEvent(event)) /// { /// // process event... /// } /// \endcode /// /// \param event Event to be returned /// /// \return False if any error occured /// /// \see pollEvent /// //////////////////////////////////////////////////////////// bool waitEvent(Event& event); //////////////////////////////////////////////////////////// /// \brief Get the position of the window /// /// \return Position of the window, in pixels /// /// \see setPosition /// //////////////////////////////////////////////////////////// Vector2i getPosition() const; //////////////////////////////////////////////////////////// /// \brief Change the position of the window on screen /// /// This function only works for top-level windows /// (i.e. it will be ignored for windows created from /// the handle of a child window/control). /// /// \param position New position, in pixels /// /// \see getPosition /// //////////////////////////////////////////////////////////// void setPosition(const Vector2i& position); //////////////////////////////////////////////////////////// /// \brief Get the size of the rendering region of the window /// /// The size doesn't include the titlebar and borders /// of the window. /// /// \return Size in pixels /// /// \see setSize /// //////////////////////////////////////////////////////////// Vector2u getSize() const; //////////////////////////////////////////////////////////// /// \brief Change the size of the rendering region of the window /// /// \param size New size, in pixels /// /// \see getSize /// //////////////////////////////////////////////////////////// void setSize(const Vector2u size); //////////////////////////////////////////////////////////// /// \brief Change the title of the window /// /// \param title New title /// /// \see setIcon /// //////////////////////////////////////////////////////////// void setTitle(const String& title); //////////////////////////////////////////////////////////// /// \brief Change the window's icon /// /// \a pixels must be an array of \a width x \a height pixels /// in 32-bits RGBA format. /// /// The OS default icon is used by default. /// /// \param width Icon's width, in pixels /// \param height Icon's height, in pixels /// \param pixels Pointer to the array of pixels in memory /// /// \see setTitle /// //////////////////////////////////////////////////////////// void setIcon(unsigned int width, unsigned int height, const Uint8* pixels); //////////////////////////////////////////////////////////// /// \brief Show or hide the window /// /// The window is shown by default. /// /// \param visible True to show the window, false to hide it /// //////////////////////////////////////////////////////////// void setVisible(bool visible); //////////////////////////////////////////////////////////// /// \brief Enable or disable vertical synchronization /// /// Activating vertical synchronization will limit the number /// of frames displayed to the refresh rate of the monitor. /// This can avoid some visual artifacts, and limit the framerate /// to a good value (but not constant across different computers). /// /// Vertical synchronization is disabled by default. /// /// \param enabled True to enable v-sync, false to deactivate it /// //////////////////////////////////////////////////////////// void setVerticalSyncEnabled(bool enabled); //////////////////////////////////////////////////////////// /// \brief Show or hide the mouse cursor /// /// The mouse cursor is visible by default. /// /// \param visible True to show the mouse cursor, false to hide it /// //////////////////////////////////////////////////////////// void setMouseCursorVisible(bool visible); //////////////////////////////////////////////////////////// /// \brief Enable or disable automatic key-repeat /// /// If key repeat is enabled, you will receive repeated /// KeyPressed events while keeping a key pressed. If it is disabled, /// you will only get a single event when the key is pressed. /// /// Key repeat is enabled by default. /// /// \param enabled True to enable, false to disable /// //////////////////////////////////////////////////////////// void setKeyRepeatEnabled(bool enabled); //////////////////////////////////////////////////////////// /// \brief Limit the framerate to a maximum fixed frequency /// /// If a limit is set, the window will use a small delay after /// each call to display() to ensure that the current frame /// lasted long enough to match the framerate limit. /// SFML will try to match the given limit as much as it can, /// but since it internally uses sf::sleep, whose precision /// depends on the underlying OS, the results may be a little /// unprecise as well (for example, you can get 65 FPS when /// requesting 60). /// /// \param limit Framerate limit, in frames per seconds (use 0 to disable limit) /// //////////////////////////////////////////////////////////// void setFramerateLimit(unsigned int limit); //////////////////////////////////////////////////////////// /// \brief Change the joystick threshold /// /// The joystick threshold is the value below which /// no JoystickMoved event will be generated. /// /// The threshold value is 0.1 by default. /// /// \param threshold New threshold, in the range [0, 100] /// //////////////////////////////////////////////////////////// void setJoystickThreshold(float threshold); //////////////////////////////////////////////////////////// /// \brief Activate or deactivate the window as the current target /// for OpenGL rendering /// /// A window is active only on the current thread, if you want to /// make it active on another thread you have to deactivate it /// on the previous thread first if it was active. /// Only one window can be active on a thread at a time, thus /// the window previously active (if any) automatically gets deactivated. /// /// \param active True to activate, false to deactivate /// /// \return True if operation was successful, false otherwise /// //////////////////////////////////////////////////////////// bool setActive(bool active = true) const; //////////////////////////////////////////////////////////// /// \brief Display on screen what has been rendered to the window so far /// /// This function is typically called after all OpenGL rendering /// has been done for the current frame, in order to show /// it on screen. /// //////////////////////////////////////////////////////////// void display(); //////////////////////////////////////////////////////////// /// \brief Get the OS-specific handle of the window /// /// The type of the returned handle is sf::WindowHandle, /// which is a typedef to the handle type defined by the OS. /// You shouldn't need to use this function, unless you have /// very specific stuff to implement that SFML doesn't support, /// or implement a temporary workaround until a bug is fixed. /// /// \return System handle of the window /// //////////////////////////////////////////////////////////// WindowHandle getSystemHandle() const; protected : //////////////////////////////////////////////////////////// /// \brief Function called after the window has been created /// /// This function is called so that derived classes can /// perform their own specific initialization as soon as /// the window is created. /// //////////////////////////////////////////////////////////// virtual void onCreate(); //////////////////////////////////////////////////////////// /// \brief Function called after the window has been resized /// /// This function is called so that derived classes can /// perform custom actions when the size of the window changes. /// //////////////////////////////////////////////////////////// virtual void onResize(); private: //////////////////////////////////////////////////////////// /// \brief Processes an event before it is sent to the user /// /// This function is called every time an event is received /// from the internal window (through pollEvent or waitEvent). /// It filters out unwanted events, and performs whatever internal /// stuff the window needs before the event is returned to the /// user. /// /// \param event Event to filter /// //////////////////////////////////////////////////////////// bool filterEvent(const Event& event); //////////////////////////////////////////////////////////// /// \brief Perform some common internal initializations /// //////////////////////////////////////////////////////////// void initialize(); //////////////////////////////////////////////////////////// // Member data //////////////////////////////////////////////////////////// priv::WindowImpl* m_impl; ///< Platform-specific implementation of the window priv::GlContext* m_context; ///< Platform-specific implementation of the OpenGL context Clock m_clock; ///< Clock for measuring the elapsed time between frames Time m_frameTimeLimit; ///< Current framerate limit Vector2u m_size; ///< Current size of the window }; } // namespace sf #endif // SFML_WINDOW_HPP //////////////////////////////////////////////////////////// /// \class sf::Window /// \ingroup window /// /// sf::Window is the main class of the Window module. It defines /// an OS window that is able to receive an OpenGL rendering. /// /// A sf::Window can create its own new window, or be embedded into /// an already existing control using the create(handle) function. /// This can be useful for embedding an OpenGL rendering area into /// a view which is part of a bigger GUI with existing windows, /// controls, etc. It can also serve as embedding an OpenGL rendering /// area into a window created by another (probably richer) GUI library /// like Qt or wxWidgets. /// /// The sf::Window class provides a simple interface for manipulating /// the window: move, resize, show/hide, control mouse cursor, etc. /// It also provides event handling through its pollEvent() and waitEvent() /// functions. /// /// Note that OpenGL experts can pass their own parameters (antialiasing /// level, bits for the depth and stencil buffers, etc.) to the /// OpenGL context attached to the window, with the sf::ContextSettings /// structure which is passed as an optional argument when creating the /// window. /// /// Usage example: /// \code /// // Declare and create a new window /// sf::Window window(sf::VideoMode(800, 600), "SFML window"); /// /// // Limit the framerate to 60 frames per second (this step is optional) /// window.setFramerateLimit(60); /// /// // The main loop - ends as soon as the window is closed /// while (window.isOpen()) /// { /// // Event processing /// sf::Event event; /// while (window.pollEvent(event)) /// { /// // Request for closing the window /// if (event.type == sf::Event::Closed) /// window.close(); /// } /// /// // Activate the window for OpenGL rendering /// window.setActive(); /// /// // OpenGL drawing commands go here... /// /// // End the current frame and display its contents on screen /// window.display(); /// } /// \endcode /// ////////////////////////////////////////////////////////////