#![cfg(any(target_os = "linux", target_os = "dragonfly", target_os = "freebsd", target_os = "openbsd"))] use std::sync::Arc; use std::ptr; use libc; use EventsLoop; use MonitorId; use Window; use platform::EventsLoop as LinuxEventsLoop; use platform::Window as LinuxWindow; use WindowBuilder; use platform::x11::XConnection; use platform::x11::ffi::XVisualInfo; // TODO: stupid hack so that glutin can do its work #[doc(hidden)] pub use platform::x11; pub use platform::XNotSupported; /// Additional methods on `EventsLoop` that are specific to Linux. pub trait EventsLoopExt { /// Builds a new `EventsLoop` that is forced to use X11. fn new_x11() -> Result where Self: Sized; /// Builds a new `EventsLoop` that is forced to use Wayland. fn new_wayland() -> Self where Self: Sized; /// True if the `EventsLoop` uses Wayland. fn is_wayland(&self) -> bool; /// True if the `EventsLoop` uses X11. fn is_x11(&self) -> bool; #[doc(hidden)] fn get_xlib_xconnection(&self) -> Option>; } impl EventsLoopExt for EventsLoop { #[inline] fn new_x11() -> Result { LinuxEventsLoop::new_x11().map(|ev| EventsLoop { events_loop: ev, _marker: ::std::marker::PhantomData, } ) } #[inline] fn new_wayland() -> Self { EventsLoop { events_loop: match LinuxEventsLoop::new_wayland() { Ok(e) => e, Err(_) => panic!() // TODO: propagate }, _marker: ::std::marker::PhantomData, } } #[inline] fn is_wayland(&self) -> bool { self.events_loop.is_wayland() } #[inline] fn is_x11(&self) -> bool { !self.events_loop.is_wayland() } #[inline] fn get_xlib_xconnection(&self) -> Option> { self.events_loop.x_connection().cloned() } } /// Additional methods on `Window` that are specific to Unix. pub trait WindowExt { /// Returns a pointer to the `Window` object of xlib that is used by this window. /// /// Returns `None` if the window doesn't use xlib (if it uses wayland for example). /// /// The pointer will become invalid when the glutin `Window` is destroyed. fn get_xlib_window(&self) -> Option<*mut libc::c_void>; /// Returns a pointer to the `Display` object of xlib that is used by this window. /// /// Returns `None` if the window doesn't use xlib (if it uses wayland for example). /// /// The pointer will become invalid when the glutin `Window` is destroyed. fn get_xlib_display(&self) -> Option<*mut libc::c_void>; fn get_xlib_screen_id(&self) -> Option<*mut libc::c_void>; fn get_xlib_xconnection(&self) -> Option>; fn send_xim_spot(&self, x: i16, y: i16); /// This function returns the underlying `xcb_connection_t` of an xlib `Display`. /// /// Returns `None` if the window doesn't use xlib (if it uses wayland for example). /// /// The pointer will become invalid when the glutin `Window` is destroyed. fn get_xcb_connection(&self) -> Option<*mut libc::c_void>; /// Returns a pointer to the `wl_surface` object of wayland that is used by this window. /// /// Returns `None` if the window doesn't use wayland (if it uses xlib for example). /// /// The pointer will become invalid when the glutin `Window` is destroyed. fn get_wayland_surface(&self) -> Option<*mut libc::c_void>; /// Returns a pointer to the `wl_display` object of wayland that is used by this window. /// /// Returns `None` if the window doesn't use wayland (if it uses xlib for example). /// /// The pointer will become invalid when the glutin `Window` is destroyed. fn get_wayland_display(&self) -> Option<*mut libc::c_void>; /// Check if the window is ready for drawing /// /// On wayland, drawing on a surface before the server has configured /// it using a special event is illegal. As a result, you should wait /// until this method returns `true`. /// /// Once it starts returning `true`, it can never return `false` again. /// /// If the window is X11-based, this will just always return `true`. fn is_ready(&self) -> bool; } impl WindowExt for Window { #[inline] fn get_xlib_window(&self) -> Option<*mut libc::c_void> { match self.window { LinuxWindow::X(ref w) => Some(w.get_xlib_window()), _ => None } } #[inline] fn get_xlib_display(&self) -> Option<*mut libc::c_void> { match self.window { LinuxWindow::X(ref w) => Some(w.get_xlib_display()), _ => None } } fn get_xlib_screen_id(&self) -> Option<*mut libc::c_void> { match self.window { LinuxWindow::X(ref w) => Some(w.get_xlib_screen_id()), _ => None } } fn get_xlib_xconnection(&self) -> Option> { match self.window { LinuxWindow::X(ref w) => Some(w.get_xlib_xconnection()), _ => None } } fn get_xcb_connection(&self) -> Option<*mut libc::c_void> { match self.window { LinuxWindow::X(ref w) => Some(w.get_xcb_connection()), _ => None } } fn send_xim_spot(&self, x: i16, y: i16) { if let LinuxWindow::X(ref w) = self.window { w.send_xim_spot(x, y); } } #[inline] fn get_wayland_surface(&self) -> Option<*mut libc::c_void> { use wayland_client::Proxy; match self.window { LinuxWindow::Wayland(ref w) => Some(w.get_surface().ptr() as *mut _), _ => None } } #[inline] fn get_wayland_display(&self) -> Option<*mut libc::c_void> { use wayland_client::Proxy; match self.window { LinuxWindow::Wayland(ref w) => Some(w.get_display().ptr() as *mut _), _ => None } } #[inline] fn is_ready(&self) -> bool { match self.window { LinuxWindow::Wayland(ref w) => w.is_ready(), LinuxWindow::X(_) => true } } } /// Additional methods on `WindowBuilder` that are specific to Unix. pub trait WindowBuilderExt { fn with_x11_visual(self, visual_infos: *const T) -> WindowBuilder; fn with_x11_screen(self, screen_id: i32) -> WindowBuilder; } impl WindowBuilderExt for WindowBuilder { #[inline] fn with_x11_visual(mut self, visual_infos: *const T) -> WindowBuilder { self.platform_specific.visual_infos = Some( unsafe { ptr::read(visual_infos as *const XVisualInfo) } ); self } #[inline] fn with_x11_screen(mut self, screen_id: i32) -> WindowBuilder { self.platform_specific.screen_id = Some(screen_id); self } } /// Additional methods on `MonitorId` that are specific to Linux. pub trait MonitorIdExt { /// Returns the inner identifier of the monitor. fn native_id(&self) -> u32; } impl MonitorIdExt for MonitorId { #[inline] fn native_id(&self) -> u32 { self.inner.get_native_identifier() } }