// SPDX-License-Identifier: MPL-2.0 // Copyright (c) 2018, Yuxuan Shui #pragma once #include "region.h" #include "compiler.h" typedef struct session session_t; typedef struct win win; typedef struct backend_info { // =========== Initialization =========== /// Initialize the backend, prepare for rendering to the target window. /// Here is how you should choose target window: /// 1) if ps->overlay is not XCB_NONE, use that /// 2) use ps->root otherwise /// XXX make the target window a parameter void *(*init)(session_t *ps) __attribute__((nonnull(1))); void (*deinit)(void *backend_data, session_t *ps) __attribute__((nonnull(1, 2))); /// Called when rendering will be stopped for an unknown amount of /// time (e.g. screen is unredirected). Free some resources. void (*pause)(void *backend_data, session_t *ps); /// Called before rendering is resumed void (*resume)(void *backend_data, session_t *ps); /// Called when root property changed, returns the new /// backend_data. Even if the backend_data changed, all /// the existing win_data returned by prepare_win should /// remain valid. /// /// Optional void *(*root_change)(void *backend_data, session_t *ps); /// Called when vsync is toggled after initialization. If vsync is enabled when init() /// is called, these function won't be called void (*vsync_start)(void *backend_data, session_t *ps); void (*vsync_stop)(void *backend_data, session_t *ps); // =========== Rendering ============ /// Called before any compose() calls. /// /// Usually the backend should clear the buffer, or paint a background /// on the buffer (usually the wallpaper). /// /// Optional? void (*prepare)(void *backend_data, session_t *ps, const region_t *reg_paint); /// Paint the content of the window onto the (possibly buffered) /// target picture. Always called after render_win(). Maybe called /// multiple times between render_win() and finish_render_win(). /// The origin is the top left of the window, exclude the shadow, /// (dst_x, dst_y) refers to where the origin should be in the target /// buffer. void (*compose)(void *backend_data, session_t *ps, win *w, void *win_data, int dst_x, int dst_y, const region_t *reg_paint); /// Blur a given region on of the target. bool (*blur)(void *backend_data, session_t *ps, double opacity, const region_t *) __attribute__((nonnull(1, 2, 4))); /// Present the buffered target picture onto the screen. If target /// is not buffered, this should be NULL. Otherwise, it should always /// be non-NULL. /// /// Optional void (*present)(void *backend_data, session_t *ps) __attribute__((nonnull(1, 2))); /** * Render the content of a window into an opaque * data structure. Dimming, shadow and color inversion is handled * here. * * This function is allowed to allocate additional resource needed * for rendering. * * Params: * reg_paint = the paint region, meaning painting should only * be happening within that region. It's in global * coordinates. If NULL, the region of paint is the * whole screen. */ void (*render_win)(void *backend_data, session_t *ps, win *w, void *win_data, const region_t *reg_paint); /// Free resource allocated for rendering. After this function is /// called, compose() won't be called before render_win is called /// another time. /// /// Optional void (*finish_render_win)(void *backend_data, session_t *ps, win *w, void *win_data); // ============ Resource management =========== // XXX Thoughts: calling release_win and prepare_win for every config notify // is wasteful, since there can be multiple such notifies per drawing. // But if we don't, it can mean there will be a state where is window is // mapped and visible, but there is no win_data attached to it. We don't // want to break that assumption as for now. We need to reconsider this. /// Create a structure to stored additional data needed for rendering a /// window, later used for render() and compose(). /// /// Backend can assume this function will only be called with visible /// InputOutput windows, and only be called when screen is redirected. /// /// Backend can assume size, shape and visual of the window won't change between /// prepare_win() and release_win(). void *(*prepare_win)(void *backend_data, session_t *ps, win *w) __attribute__((nonnull(1, 2, 3))); /// Free resources allocated by prepare() void (*release_win)(void *backend_data, session_t *ps, win *w, void *win_data) __attribute__((nonnull(1, 2, 3))); // =========== Query =========== /// Return if a window has transparent content. Guaranteed to only /// be called after render_win is called. /// /// This function is needed because some backend might change the content of the /// window (e.g. when using a custom shader with the glx backend), so we only now /// the transparency after the window is rendered bool (*is_win_transparent)(void *backend_data, win *w, void *win_data) __attribute__((nonnull(1, 2))); /// Return if the frame window has transparent content. Guaranteed to /// only be called after render_win is called. /// /// Same logic as is_win_transparent applies here. bool (*is_frame_transparent)(void *backend_data, win *w, void *win_data) __attribute__((nonnull(1, 2))); /// Get the age of the buffer content we are currently rendering ontop /// of. The buffer that has just been `present`ed has a buffer age of 1. /// Everytime `present` is called, buffers get older. Return -1 if the /// buffer is empty. int (*buffer_age)(void *backend_data, session_t *); // =========== Hooks ============ /// Let the backend hook into the event handling queue } backend_info_t; extern backend_info_t xrender_backend; extern backend_info_t glx_backend; extern backend_info_t *backend_list[]; bool default_is_win_transparent(void *, win *, void *); bool default_is_frame_transparent(void *, win *, void *); void paint_all_new(session_t *ps, win *const t, bool ignore_damage) attr_nonnull(1); // vim: set noet sw=8 ts=8 :