#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern "C" { #include } enum class State { SLIDE_IN_WINDOW, SLIDE_IN_CONTENT, FADE_IN_CONTENT, FADE_OUT_CONTENT, SLIDE_OUT_CONTENT, SLIDE_OUT_WINDOW, PAUSE }; struct StateWithPayload { State state; double time_in_state_sec; }; // Linear interpolation static double interpolate(double a, double b, double interpolation) { return a + (b - a) * interpolation; } static double min_double(double a, double b) { return a < b ? a : b; } #define _NET_WM_STATE_REMOVE 0 #define _NET_WM_STATE_ADD 1 #define _NET_WM_STATE_TOGGLE 2 static Bool set_window_wm_state(Display *display, Window window, Atom atom) { Atom net_wm_state_atom = XInternAtom(display, "_NET_WM_STATE", False); if(!net_wm_state_atom) { fprintf(stderr, "Error: failed to find atom _NET_WM_STATE\n"); return False; } XClientMessageEvent xclient; memset(&xclient, 0, sizeof(xclient)); xclient.type = ClientMessage; xclient.window = window; xclient.message_type = net_wm_state_atom; xclient.format = 32; xclient.data.l[0] = _NET_WM_STATE_ADD; xclient.data.l[1] = atom; xclient.data.l[2] = 0; xclient.data.l[3] = 0; xclient.data.l[4] = 0; XSendEvent(display, DefaultRootWindow(display), False, SubstructureRedirectMask | SubstructureNotifyMask, (XEvent*)&xclient); XFlush(display); return True; } static Bool make_window_sticky(Display* display, Window window) { Atom net_wm_state_sticky_atom = XInternAtom(display, "_NET_WM_STATE_STICKY", False); if(!net_wm_state_sticky_atom) { fprintf(stderr, "Error: failed to find atom _NET_WM_STATE_STICKY\n"); return False; } return set_window_wm_state(display, window, net_wm_state_sticky_atom); } static void make_window_click_through(Display *display, Window window) { XRectangle rect; memset(&rect, 0, sizeof(rect)); XserverRegion region = XFixesCreateRegion(display, &rect, 1); XFixesSetWindowShapeRegion(display, window, ShapeInput, 0, 0, region); XFixesDestroyRegion(display, region); } static void usage() { fprintf(stderr, "usage: gsr-notify <--text text> <--timeout timeout> [--icon filepath] [--icon-color color] [--bg-color color]\n"); fprintf(stderr, "options:\n"); fprintf(stderr, " --text The text to display in the notification. Required.\n"); fprintf(stderr, " --timeout The time to display the notification in seconds (excluding animation time), expected to be a floating point number. Required.\n"); fprintf(stderr, " --icon A path to an image file to display on the left side of the text. This can also be either \"record\", \"replay\" or \"stream\" to use built-in images. Optional.\n"); fprintf(stderr, " --icon-color The color to display the icon as in hex format, for example FF0000. Optional, set to FFFFFF by default.\n"); fprintf(stderr, " --bg-color The notification background (and side bar) color in hex format, for example FF0000. Optional, set to 76b900 by default.\n"); fprintf(stderr, "examples:\n"); fprintf(stderr, " gsr-notify --text 'Recording has started' --timeout 3.0\n"); fprintf(stderr, " gsr-notify --text 'Recording has started' --timeout 3.0 --icon record\n"); fprintf(stderr, " gsr-notify --text 'Recording has started' --timeout 3.0 --icon '/usr/share/gpu-screen-recorder/images/record.png'\n"); fprintf(stderr, " gsr-notify --text 'Recording has started' --timeout 3.0 --icon '/usr/share/gpu-screen-recorder/images/record.png' --icon-color FF0000\n"); exit(1); } static int hex_character_to_number(char c) { if(c >= '0' && c <= '9') return c - '0'; else if(c >= 'a' && c <= 'f') return 10 + c - 'a'; else if(c >= 'A' && c <= 'F') return 10 + c - 'A'; else return -1; } static mgl::Color parse_hex_color(const char *str) { const int len = strlen(str); if(len != 6) { fprintf(stderr, "error: expected icon-color to be 6 characters long, was: %d\n", len); usage(); } mgl::Color color; uint8_t *comp = &color.r; for(int i = 0; i < len; i += 2) { const int val1 = hex_character_to_number(str[i + 0]); const int val2 = hex_character_to_number(str[i + 1]); if(val1 == -1 || val2 == -1) { fprintf(stderr, "error: icon-color is an invalid hex color: '%s'\n", str); usage(); } comp[i / 2] = (val1 << 4) | val2; } return color; } // Returns the first monitor if not found. Assumes there is at least one monitor connected. static const mgl_monitor* find_monitor_by_cursor_position(mgl::Window &window) { const mgl_window *win = window.internal_window(); assert(win->num_monitors > 0); for(int i = 0; i < win->num_monitors; ++i) { const mgl_monitor *mon = &win->monitors[i]; if(mgl::IntRect({ mon->pos.x, mon->pos.y }, { mon->size.x, mon->size.y }).contains({ win->cursor_position.x, win->cursor_position.y })) return mon; } return &win->monitors[0]; } int main(int argc, char **argv) { setlocale(LC_ALL, "C"); // Sigh... stupid C std::string resources_path; if(access("sibs-build", F_OK) == 0) { resources_path = "./"; } else { #ifdef GSR_NOTIFY_RESOURCES_PATH resources_path = GSR_NOTIFY_RESOURCES_PATH "/"; #else resources_path = "/usr/share/gsr-notify/"; #endif } if(argc == 1) usage(); if(argc == 2 && (strcmp(argv[1], "-h") == 0 || strcmp(argv[1], "--help") == 0)) usage(); std::map args = { {"--text", nullptr}, {"--timeout", nullptr}, {"--icon", nullptr}, {"--icon-color", nullptr}, {"--bg-color", nullptr}, }; for(int i = 1; i < argc; i += 2) { auto it = args.find(argv[i]); if(it == args.end()) { fprintf(stderr, "error: invalid option '%s'\n", argv[i]); usage(); } if(i + 1 >= argc) { fprintf(stderr, "error: missing value after option '%s'\n", argv[i]); usage(); } it->second = argv[i + 1]; } const char *notification_text = args["--text"]; const char *timeout_str = args["--timeout"]; const char *icon_filepath = args["--icon"]; const char *icon_color_str = args["--icon-color"]; const char *bg_color_str = args["--bg-color"]; if(!notification_text) { fprintf(stderr, "error: missing required option '--text'\n"); usage(); } if(!timeout_str) { fprintf(stderr, "error: missing required option '--timeout'\n"); usage(); } float notification_timeout_sec = 0.0; if(sscanf(timeout_str, "%f", ¬ification_timeout_sec) != 1) { fprintf(stderr, "error: expected timeout to be a floating point number, was: '%s'\n", timeout_str); usage(); } const mgl::Color icon_color = parse_hex_color(icon_color_str ? icon_color_str : "FFFFFF"); const mgl::Color bg_color = parse_hex_color(bg_color_str ? bg_color_str : "76b900"); mgl::Init init; mgl::Window::CreateParams window_create_params; window_create_params.size = { 1280, 720 }; window_create_params.min_size = window_create_params.size; window_create_params.max_size = window_create_params.size; window_create_params.hidden = true; window_create_params.override_redirect = true; window_create_params.background_color = bg_color; window_create_params.hide_decorations = true; window_create_params.window_type = MGL_WINDOW_TYPE_NOTIFICATION; mgl::Window window; if(!window.create("GPU Screen Recorder Notification", window_create_params)) return 1; mgl_window *win = window.internal_window(); if(win->num_monitors == 0) { fprintf(stderr, "Error: no monitors found\n"); exit(1); } const mgl_monitor *focused_monitor = find_monitor_by_cursor_position(window); const std::string noto_sans_bold_filepath = resources_path + "fonts/NotoSans-Bold.ttf"; mgl::MemoryMappedFile font_file; if(!font_file.load(noto_sans_bold_filepath.c_str(), mgl::MemoryMappedFile::LoadOptions{true, false})) return 1; mgl::Font font; if(!font.load_from_file(font_file, focused_monitor->size.y / 60)) return 1; mgl::Texture logo_texture; if(icon_filepath) { std::string icon_filepath_str = icon_filepath; if(icon_filepath_str == "record") icon_filepath_str = resources_path + "images/record.png"; else if(icon_filepath_str == "replay") icon_filepath_str = resources_path + "images/replay.png"; else if(icon_filepath_str == "stream") icon_filepath_str = resources_path + "images/stream.png"; if(!logo_texture.load_from_file(icon_filepath_str.c_str(), {false, false, true})) { fprintf(stderr, "Warning: failed to load icon\n"); } } const int window_height = focused_monitor->size.y / 13; float content_padding_left = (int)(window_height * 0.05f); if(content_padding_left < 2.0f) content_padding_left = 2.0f; mgl::Text text(notification_text, font); text.set_color(mgl::Color(255, 255, 255, 0)); mgl::Sprite logo_sprite; float logo_sprite_padding_x = 20.0f; float padding_between_icon_and_text_x = 0.0f; if(logo_texture.is_valid()) { logo_sprite.set_texture(&logo_texture); logo_sprite.set_color(mgl::Color(icon_color.r, icon_color.g, icon_color.b, 0)); logo_sprite.set_height((int)(window_height * 0.4f)); logo_sprite_padding_x = (int)((window_height - logo_sprite.get_size().y) * 0.4f); padding_between_icon_and_text_x = (int)(logo_sprite_padding_x * 0.7f); } Display *display = (Display*)mgl_get_context()->connection; // TODO: Make sure the notification always stays on top. Test with starting the notification and then opening youtube in fullscreen. const int window_width = content_padding_left + logo_sprite_padding_x + logo_sprite.get_size().x + padding_between_icon_and_text_x + text.get_bounds().size.x + logo_sprite_padding_x + padding_between_icon_and_text_x; const mgl::vec2i window_size{window_width, window_height}; const mgl::vec2i window_start_position{focused_monitor->pos.x + focused_monitor->size.x, focused_monitor->pos.y + window_size.y}; window.set_size_limits(window_size, window_size); window.set_size(window_size); window.set_position(window_start_position); make_window_click_through(display, window.get_system_handle()); window.set_visible(true); make_window_sticky(display, window.get_system_handle()); const int slide_window_start_x = focused_monitor->pos.x + focused_monitor->size.x; const int slide_window_end_x = focused_monitor->pos.x + focused_monitor->size.x - window_size.x; const std::array states_to_execute_in_order = { StateWithPayload{State::SLIDE_IN_WINDOW, 0.15}, StateWithPayload{State::PAUSE, 0.03}, StateWithPayload{State::SLIDE_IN_CONTENT, 0.10}, StateWithPayload{State::FADE_IN_CONTENT, 0.20}, StateWithPayload{State::PAUSE, notification_timeout_sec}, StateWithPayload{State::FADE_OUT_CONTENT, 0.001}, StateWithPayload{State::SLIDE_OUT_CONTENT, 0.10}, StateWithPayload{State::PAUSE, 0.10}, StateWithPayload{State::SLIDE_OUT_WINDOW, 0.10}, }; int current_state_index = 0; mgl::Clock state_timer; mgl::Rectangle content_bg(window_size.to_vec2f() - mgl::vec2f(content_padding_left, 0.0f)); content_bg.set_color(mgl::Color(0, 0, 0)); const int slide_content_start_x = window_size.x + content_padding_left; const int slide_content_end_x = content_padding_left; const mgl::vec2f content_bg_start_position{(float)slide_content_start_x, 0.0f}; content_bg.set_position(content_bg_start_position); const float content_start_alpha = 0.0f; const float content_end_alpha = 1.0f; const auto slide_content_handler = [&](double interpolate_start, double interpolate_end, double interpolation) { double new_slide_x = interpolate(interpolate_start, interpolate_end, interpolation); content_bg.set_position(mgl::vec2f(new_slide_x, content_bg_start_position.y).floor()); logo_sprite.set_position((content_bg.get_position() + mgl::vec2f(logo_sprite_padding_x, content_bg.get_size().y * 0.5f - logo_sprite.get_size().y * 0.5f)).floor()); const float content_space_left_pos_x = logo_sprite.get_position().x + logo_sprite.get_size().x + padding_between_icon_and_text_x; //const float content_space_left_x = content_bg.get_size().x - content_space_left_pos_x; text.set_position((mgl::vec2f(content_space_left_pos_x, content_bg.get_position().y) + mgl::vec2f(0.0f, content_bg.get_size().y) * 0.5f - mgl::vec2f(0.0f, text.get_bounds().size.y) * 0.5f).floor()); }; mgl::Event event; while(window.is_open()) { while(window.poll_event(event)) {} const StateWithPayload current_state = states_to_execute_in_order[current_state_index]; const double state_elapsed_time_sec = state_timer.get_elapsed_time_seconds(); const double state_interpolation = min_double(1.0, state_elapsed_time_sec / current_state.time_in_state_sec); switch(current_state.state) { case State::SLIDE_IN_WINDOW: { double new_slide_x = interpolate(slide_window_start_x, slide_window_end_x, state_interpolation); window.set_position(mgl::vec2i(new_slide_x, window_start_position.y)); break; } case State::SLIDE_IN_CONTENT: { slide_content_handler(slide_content_start_x, slide_content_end_x, state_interpolation); break; } case State::FADE_IN_CONTENT: { double new_alpha = interpolate(content_start_alpha, content_end_alpha, state_interpolation); text.set_color(mgl::Color(255, 255, 255, new_alpha * 255.0f)); logo_sprite.set_color(mgl::Color(icon_color.r, icon_color.g, icon_color.b, new_alpha * 255.0f)); break; } case State::FADE_OUT_CONTENT: { double new_alpha = interpolate(content_end_alpha, content_start_alpha, state_interpolation); text.set_color(mgl::Color(255, 255, 255, new_alpha * 255.0f)); logo_sprite.set_color(mgl::Color(icon_color.r, icon_color.g, icon_color.b, new_alpha * 255.0f)); break; } case State::SLIDE_OUT_CONTENT: { slide_content_handler(slide_content_end_x, slide_content_start_x, state_interpolation); break; } case State::SLIDE_OUT_WINDOW: { double new_slide_x = interpolate(slide_window_end_x, slide_window_start_x, state_interpolation); window.set_position(mgl::vec2i(new_slide_x, window_start_position.y)); break; } case State::PAUSE: { break; } } window.clear(bg_color); window.draw(content_bg); window.draw(logo_sprite); window.draw(text); window.display(); if(state_interpolation >= 1.0) { state_timer.restart(); ++current_state_index; if(current_state_index >= (int)states_to_execute_in_order.size()) window.close(); } } }