#include "../include/gui/StaticPage.hpp" #include "../include/gui/ScrollablePage.hpp" #include "../include/gui/DropdownButton.hpp" #include "../include/gui/Button.hpp" #include "../include/gui/Entry.hpp" #include "../include/gui/ComboBox.hpp" #include "../include/gui/Label.hpp" #include "../include/gui/List.hpp" #include "../include/Process.hpp" #include "../include/Theme.hpp" #include "../include/GsrInfo.hpp" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // TODO: If no compositor is running but a fullscreen application is running (on the focused monitor) // then use xcomposite to get that window as a texture and use that as a background because then the background can update. // That case can also happen when using a compositor but when the compositor gets turned off when running a fullscreen application. // This can also happen after this overlay has started, in which case we want to update the background capture method. // TODO: Make keyboard controllable for steam deck (and other controllers). // TODO: Keep track of gpu screen recorder run by other programs to not allow recording at the same time, or something. // TODO: Remove gpu-screen-recorder-overlay-daemon and handle that alt+z global hotkey here instead, to show/hide the window // without restaring the program. Or make the daemon handle gpu screen recorder program state and pass that to the overlay. // TODO: Add systray by using org.kde.StatusNotifierWatcher/etc dbus directly. // TODO: Dont allow replay and record/stream at the same time. If we want to allow that then do that in gpu screen recorder instead // to make it more efficient by doing record/replay/stream with the same encoded packets. // TODO: Make sure the overlay always stays on top. Test with starting the overlay and then opening youtube in fullscreen. #include extern "C" { #include } const mgl::Color bg_color(0, 0, 0, 160); static void usage() { fprintf(stderr, "usage: window-overlay\n"); exit(1); } static void startup_error(const char *msg) { fprintf(stderr, "Error: %s\n", msg); exit(1); } #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 bool is_compositor_running(Display *dpy, int screen) { char prop_name[20]; snprintf(prop_name, sizeof(prop_name), "_NET_WM_CM_S%d", screen); Atom prop_atom = XInternAtom(dpy, prop_name, False); return XGetSelectionOwner(dpy, prop_atom) != None; } static mgl::Texture texture_from_ximage(XImage *img) { uint8_t *texture_data = (uint8_t*)malloc(img->width * img->height * 3); // TODO: for(int y = 0; y < img->height; ++y) { for(int x = 0; x < img->width; ++x) { unsigned long pixel = XGetPixel(img, x, y); unsigned char red = (pixel & img->red_mask) >> 16; unsigned char green = (pixel & img->green_mask) >> 8; unsigned char blue = pixel & img->blue_mask; const size_t texture_data_index = (x + y * img->width) * 3; texture_data[texture_data_index + 0] = red; texture_data[texture_data_index + 1] = green; texture_data[texture_data_index + 2] = blue; } } mgl::Texture texture; // TODO: texture.load_from_memory(texture_data, img->width, img->height, MGL_IMAGE_FORMAT_RGB); free(texture_data); return texture; } static sig_atomic_t running = 1; static void sigint_handler(int dummy) { (void)dummy; running = 0; } static char hex_value_to_str(uint8_t v) { if(v <= 9) return '0' + v; else if(v >= 10 && v <= 15) return 'A' + (v - 10); else return '0'; } // Excludes alpha static std::string color_to_hex_str(mgl::Color color) { std::string result; result.resize(6); result[0] = hex_value_to_str((color.r & 0xF0) >> 4); result[1] = hex_value_to_str(color.r & 0x0F); result[2] = hex_value_to_str((color.g & 0xF0) >> 4); result[3] = hex_value_to_str(color.g & 0x0F); result[4] = hex_value_to_str((color.b & 0xF0) >> 4); result[5] = hex_value_to_str(color.b & 0x0F); return result; } // 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]; } /* { { gsr::List::Orientation::VERTICAL, "Record area:", { {"Window, "window"}, {"Focused window", "focused"}, }, }, { gsr::List::Orientation::VERTICAL, "Video quality:", { {"Medium, "medium"}, {"High", "high"}, {"Very high", "very_high"}, }, } } */ static void add_widgets_to_settings_page(mgl::Font &title_font, mgl::vec2i window_size, mgl::vec2f settings_page_position, mgl::vec2f settings_page_size, gsr::Page *settings_page, gsr::Page *settings_content_page, const gsr::GsrInfo &gsr_info, const std::vector &audio_devices, std::function settings_back_button_callback) { auto back_button = std::make_unique(&title_font, "Back", mgl::vec2f(window_size.x / 10, window_size.y / 15), gsr::get_theme().scrollable_page_bg_color); back_button->set_position(settings_page_position + mgl::vec2f(settings_page_size.x + window_size.x / 50, 0.0f).floor()); back_button->on_click = settings_back_button_callback; settings_page->add_widget(std::move(back_button)); auto settings_list = std::make_unique(gsr::List::Orientation::VERTICAL); settings_list->set_position(mgl::vec2f(50.0f, 50.0f)); { auto record_area_list = std::make_unique(gsr::List::Orientation::VERTICAL); { record_area_list->add_widget(std::make_unique(&title_font, "Record area:", gsr::get_theme().text_color)); auto record_area_box = std::make_unique(&title_font); // TODO: Show options not supported but disable them if(gsr_info.supported_capture_options.window) record_area_box->add_item("Window", "window"); if(gsr_info.supported_capture_options.focused) record_area_box->add_item("Focused window", "focused"); if(gsr_info.supported_capture_options.screen) record_area_box->add_item("All monitors", "screen"); for(const auto &monitor : gsr_info.supported_capture_options.monitors) { char name[256]; snprintf(name, sizeof(name), "%s (%dx%d)", monitor.name.c_str(), monitor.size.x, monitor.size.y); record_area_box->add_item(name, monitor.name); } if(gsr_info.supported_capture_options.portal) record_area_box->add_item("Desktop portal", "portal"); if(!gsr_info.supported_capture_options.monitors.empty()) record_area_box->set_selected_item(gsr_info.supported_capture_options.monitors.front().name); else if(gsr_info.supported_capture_options.portal) record_area_box->set_selected_item("portal"); record_area_list->add_widget(std::move(record_area_box)); } settings_list->add_widget(std::move(record_area_list)); auto audio_device_section_list = std::make_unique(gsr::List::Orientation::VERTICAL); { audio_device_section_list->add_widget(std::make_unique(&title_font, "Audio:", gsr::get_theme().text_color)); auto audio_devices_list = std::make_unique(gsr::List::Orientation::VERTICAL); for(int i = 0; i < 3; ++i) { auto audio_device_list = std::make_unique(gsr::List::Orientation::HORIZONTAL, gsr::List::Alignment::CENTER); { audio_device_list->add_widget(std::make_unique(&title_font, (std::to_string(1 + i) + ":").c_str(), gsr::get_theme().text_color)); auto audio_device_box = std::make_unique(&title_font); for(const auto &audio_device : audio_devices) { audio_device_box->add_item(audio_device.description, audio_device.name); } audio_device_list->add_widget(std::move(audio_device_box)); } audio_devices_list->add_widget(std::move(audio_device_list)); } audio_device_section_list->add_widget(std::move(audio_devices_list)); } settings_list->add_widget(std::move(audio_device_section_list)); auto quality_list = std::make_unique(gsr::List::Orientation::HORIZONTAL); { auto video_quality_list = std::make_unique(gsr::List::Orientation::VERTICAL); { video_quality_list->add_widget(std::make_unique(&title_font, "Video quality:", gsr::get_theme().text_color)); auto video_quality_box = std::make_unique(&title_font); video_quality_box->add_item("Medium", "medium"); video_quality_box->add_item("High (Recommended for live streaming)", "high"); video_quality_box->add_item("Very high (Recommended)", "very_high"); video_quality_box->add_item("Ultra", "ultra"); video_quality_box->set_selected_item("very_high"); video_quality_list->add_widget(std::move(video_quality_box)); } quality_list->add_widget(std::move(video_quality_list)); auto color_range_list = std::make_unique(gsr::List::Orientation::VERTICAL); { color_range_list->add_widget(std::make_unique(&title_font, "Color range:", gsr::get_theme().text_color)); auto color_range_box = std::make_unique(&title_font); color_range_box->add_item("Limited", "limited"); color_range_box->add_item("Full", "full"); color_range_list->add_widget(std::move(color_range_box)); } quality_list->add_widget(std::move(color_range_list)); auto framerate_list = std::make_unique(gsr::List::Orientation::VERTICAL); { framerate_list->add_widget(std::make_unique(&title_font, "Frame rate:", gsr::get_theme().text_color)); auto framerate_entry = std::make_unique(&title_font, "60", title_font.get_character_size() * 2); framerate_entry->validate_handler = gsr::create_entry_validator_integer_in_range(1, 500); framerate_list->add_widget(std::move(framerate_entry)); } quality_list->add_widget(std::move(framerate_list)); } settings_list->add_widget(std::move(quality_list)); auto codec_list = std::make_unique(gsr::List::Orientation::HORIZONTAL); { auto video_codec_list = std::make_unique(gsr::List::Orientation::VERTICAL); { video_codec_list->add_widget(std::make_unique(&title_font, "Video codec:", gsr::get_theme().text_color)); auto video_codec_box = std::make_unique(&title_font); // TODO: Show options not supported but disable them video_codec_box->add_item("Auto (Recommended)", "auto"); if(gsr_info.supported_video_codecs.h264) video_codec_box->add_item("H264", "h264"); if(gsr_info.supported_video_codecs.hevc) video_codec_box->add_item("HEVC", "hevc"); if(gsr_info.supported_video_codecs.av1) video_codec_box->add_item("AV1", "av1"); if(gsr_info.supported_video_codecs.vp8) video_codec_box->add_item("VP8", "vp8"); if(gsr_info.supported_video_codecs.vp9) video_codec_box->add_item("VP9", "vp9"); // TODO: Add hdr options if(gsr_info.supported_video_codecs.h264_software) video_codec_box->add_item("H264 Software Encoder (Slow, not recommended)", "h264_software"); video_codec_list->add_widget(std::move(video_codec_box)); } codec_list->add_widget(std::move(video_codec_list)); auto audio_codec_list = std::make_unique(gsr::List::Orientation::VERTICAL); { audio_codec_list->add_widget(std::make_unique(&title_font, "Audio codec:", gsr::get_theme().text_color)); auto audio_codec_box = std::make_unique(&title_font); audio_codec_box->add_item("Opus (Recommended)", "opus"); audio_codec_box->add_item("AAC", "aac"); audio_codec_list->add_widget(std::move(audio_codec_box)); } codec_list->add_widget(std::move(audio_codec_list)); } settings_list->add_widget(std::move(codec_list)); auto framerate_mode_list = std::make_unique(gsr::List::Orientation::VERTICAL); { framerate_mode_list->add_widget(std::make_unique(&title_font, "Frame rate mode:", gsr::get_theme().text_color)); auto framerate_mode_box = std::make_unique(&title_font); framerate_mode_box->add_item("Auto (Recommended)", "auto"); framerate_mode_box->add_item("Constant", "cfr"); framerate_mode_box->add_item("Variable", "vfr"); framerate_mode_list->add_widget(std::move(framerate_mode_box)); } settings_list->add_widget(std::move(framerate_mode_list)); auto file_list = std::make_unique(gsr::List::Orientation::HORIZONTAL); { auto save_directory_list = std::make_unique(gsr::List::Orientation::VERTICAL); { save_directory_list->add_widget(std::make_unique(&title_font, "Directory to save the video:", gsr::get_theme().text_color)); // TODO: save_directory_list->add_widget(std::make_unique(&title_font, "/home/dec05eba/Videos", title_font.get_character_size() * 20)); } file_list->add_widget(std::move(save_directory_list)); auto container_list = std::make_unique(gsr::List::Orientation::VERTICAL); { container_list->add_widget(std::make_unique(&title_font, "Container:", gsr::get_theme().text_color)); auto container_box = std::make_unique(&title_font); container_box->add_item("mp4", "mp4"); container_box->add_item("mkv", "matroska"); container_box->add_item("flv", "flv"); container_box->add_item("mov", "mov"); container_box->add_item("ts", "mpegts"); container_box->add_item("m3u8", "hls"); container_list->add_widget(std::move(container_box)); } file_list->add_widget(std::move(container_list)); } settings_list->add_widget(std::move(file_list)); } settings_content_page->add_widget(std::move(settings_list)); } int main(int argc, char **argv) { if(argc != 1) usage(); signal(SIGINT, sigint_handler); gsr::GsrInfo gsr_info; // TODO: gsr::GsrInfoExitStatus gsr_info_exit_status = gsr::get_gpu_screen_recorder_info(&gsr_info); if(gsr_info_exit_status != gsr::GsrInfoExitStatus::OK) { fprintf(stderr, "error: failed to get gpu-screen-recorder info\n"); exit(1); } const std::vector audio_devices = gsr::get_audio_devices(); gsr::init_theme(gsr_info); std::string project_dir; if(access("images/gpu_screen_recorder_logo.png", F_OK) == 0) project_dir = "./"; else project_dir = "/usr/share/gsr-overlay/"; mgl::Init init; Display *display = (Display*)mgl_get_context()->connection; // TODO: Put window on the focused monitor right side and update when monitor changes resolution or other modes. // Use monitor size instead of screen size. // mgl now has monitor events so this can be handled directly with mgl. mgl::vec2i window_size = { 1280, 720 }; mgl::vec2i window_pos = { 0, 0 }; mgl::Window::CreateParams window_create_params; window_create_params.size = window_size; window_create_params.min_size = window_size; window_create_params.max_size = window_size; window_create_params.position = window_pos; window_create_params.hidden = true; window_create_params.override_redirect = true; window_create_params.background_color = bg_color; window_create_params.support_alpha = true; window_create_params.window_type = MGL_WINDOW_TYPE_NOTIFICATION; window_create_params.render_api = MGL_RENDER_API_EGL; mgl::Window window; if(!window.create("gsr overlay", window_create_params)) startup_error("failed to create window"); mgl_window *win = window.internal_window(); if(win->num_monitors == 0) startup_error("no monitors found"); const mgl_monitor *focused_monitor = find_monitor_by_cursor_position(window); window_pos.x = focused_monitor->pos.x; window_pos.y = focused_monitor->pos.y; window_size.x = focused_monitor->size.x; window_size.y = focused_monitor->size.y; window.set_size_limits(window_size, window_size); window.set_size(window_size); window.set_position(window_pos); unsigned char data = 2; // Prefer being composed to allow transparency XChangeProperty(display, window.get_system_handle(), XInternAtom(display, "_NET_WM_BYPASS_COMPOSITOR", False), XA_CARDINAL, 32, PropModeReplace, &data, 1); data = 1; XChangeProperty(display, window.get_system_handle(), XInternAtom(display, "GAMESCOPE_EXTERNAL_OVERLAY", False), XA_CARDINAL, 32, PropModeReplace, &data, 1); mgl::MemoryMappedFile title_font_file; if(!title_font_file.load("/usr/share/fonts/noto/NotoSans-Bold.ttf", mgl::MemoryMappedFile::LoadOptions{true, false})) startup_error("failed to load file: fonts/Orbitron-Bold.ttf"); mgl::MemoryMappedFile font_file; if(!font_file.load("/usr/share/fonts/noto/NotoSans-Regular.ttf", mgl::MemoryMappedFile::LoadOptions{true, false})) startup_error("failed to load file: fonts/Orbitron-Regular.ttf"); mgl::Font top_bar_font; if(!top_bar_font.load_from_file(title_font_file, window_size.y * 0.03f)) startup_error("failed to load font: fonts/NotoSans-Bold.ttf"); mgl::Font title_font; if(!title_font.load_from_file(title_font_file, window_size.y * 0.019f)) startup_error("failed to load font: fonts/NotoSans-Regular.ttf"); mgl::Font font; if(!font.load_from_file(font_file, window_size.y * 0.015f)) startup_error("failed to load font: fonts/NotoSans-Regular.ttf"); mgl::Texture replay_button_texture; if(!replay_button_texture.load_from_file((project_dir + "images/replay.png").c_str())) startup_error("failed to load texture: images/replay.png"); mgl::Texture record_button_texture; if(!record_button_texture.load_from_file((project_dir + "images/record.png").c_str())) startup_error("failed to load texture: images/record.png"); mgl::Texture stream_button_texture; if(!stream_button_texture.load_from_file((project_dir + "images/stream.png").c_str())) startup_error("failed to load texture: images/stream.png"); mgl::Texture screenshot_texture; if(!is_compositor_running(display, 0)) { XImage *img = XGetImage(display, DefaultRootWindow(display), window_pos.x, window_pos.y, window_size.x, window_size.y, AllPlanes, ZPixmap); if(!img) fprintf(stderr, "Error: failed to take a screenshot\n"); if(img) { screenshot_texture = texture_from_ximage(img); XDestroyImage(img); img = NULL; } } mgl::Sprite screenshot_sprite; if(screenshot_texture.is_valid()) screenshot_sprite.set_texture(&screenshot_texture); mgl::Rectangle bg_screenshot_overlay(window_size.to_vec2f()); bg_screenshot_overlay.set_color(bg_color); gsr::StaticPage front_page(window_size.to_vec2f()); const mgl::vec2f settings_page_size(window_size.x * 0.3333f, window_size.y * 0.7f); const mgl::vec2f settings_page_position = (window_size.to_vec2f() * 0.5f - settings_page_size * 0.5f).floor(); auto replay_settings_content = std::make_unique(settings_page_size); gsr::ScrollablePage *replay_settings_content_ptr = replay_settings_content.get(); replay_settings_content->set_position(settings_page_position); auto record_settings_content = std::make_unique(settings_page_size); gsr::ScrollablePage *record_settings_content_ptr = record_settings_content.get(); record_settings_content->set_position(settings_page_position); auto stream_settings_content = std::make_unique(settings_page_size); gsr::ScrollablePage *stream_settings_content_ptr = stream_settings_content.get(); stream_settings_content->set_position(settings_page_position); gsr::StaticPage replay_settings_page(window_size.to_vec2f()); replay_settings_page.add_widget(std::move(replay_settings_content)); gsr::StaticPage record_settings_page(window_size.to_vec2f()); record_settings_page.add_widget(std::move(record_settings_content)); gsr::StaticPage stream_settings_page(window_size.to_vec2f()); stream_settings_page.add_widget(std::move(stream_settings_content)); gsr::Page *current_page = &front_page; struct MainButton { gsr::DropdownButton* button; gsr::GsrMode mode; }; const int num_frontpage_buttons = 3; const char *titles[num_frontpage_buttons] = { "Instant Replay", "Record", "Livestream" }; const char *descriptions_off[num_frontpage_buttons] = { "Off", "Not recording", "Not streaming" }; const char *descriptions_on[num_frontpage_buttons] = { "On", "Recording", "Streaming" }; mgl::Texture *textures[num_frontpage_buttons] = { &replay_button_texture, &record_button_texture, &stream_button_texture }; const int button_height = window_size.y / 5.0f; const int button_width = button_height; std::vector main_buttons; for(int i = 0; i < num_frontpage_buttons; ++i) { auto button = std::make_unique(&title_font, &font, titles[i], descriptions_on[i], descriptions_off[i], textures[i], mgl::vec2f(button_width, button_height)); button->add_item("Start", "start"); button->add_item("Settings", "settings"); gsr::DropdownButton *button_ptr = button.get(); front_page.add_widget(std::move(button)); MainButton main_button = { button_ptr, gsr::GsrMode::Unknown }; main_buttons.push_back(std::move(main_button)); } gsr::GsrMode gsr_mode = gsr::GsrMode::Unknown; auto update_overlay_shape = [&]() { fprintf(stderr, "update overlay shape!\n"); const int spacing = 0;// * get_config().scale; const int combined_spacing = spacing * std::max(0, (int)main_buttons.size() - 1); const int per_button_width = main_buttons[0].button->get_size().x;// * get_config().scale; const mgl::vec2i overlay_desired_size(per_button_width * (int)main_buttons.size() + combined_spacing, main_buttons[0].button->get_size().y); const mgl::vec2i main_buttons_start_pos = mgl::vec2i(window_size.x*0.5f, window_size.y*0.25f) - overlay_desired_size/2; mgl::vec2i main_button_pos = main_buttons_start_pos; // if(!gsr_mode.has_value()) { // gsr_mode = gsr::GsrMode::Unknown; // pid_t gpu_screen_recorder_process = -1; // gsr::is_gpu_screen_recorder_running(gpu_screen_recorder_process, gsr_mode.value()); // } for(size_t i = 0; i < main_buttons.size(); ++i) { if(main_buttons[i].mode != gsr::GsrMode::Unknown && main_buttons[i].mode == gsr_mode) { main_buttons[i].button->set_activated(true); } else { main_buttons[i].button->set_activated(false); } main_buttons[i].button->set_position(main_button_pos.to_vec2f()); main_button_pos.x += per_button_width + combined_spacing; } }; // Replay main_buttons[0].button->on_click = [&](const std::string &id) { if(id == "settings") { current_page = &replay_settings_page; return; } /* char window_to_record_str[32]; snprintf(window_to_record_str, sizeof(window_to_record_str), "%ld", target_window); const char *args[] = { "gpu-screen-recorder", "-w", window_to_record_str, "-c", "mp4", "-f", "60", "-o", "/home/dec05eba/Videos/gpu-screen-recorder.mp4", nullptr }; gsr::exec_program_daemonized(args); */ }; main_buttons[0].mode = gsr::GsrMode::Replay; // TODO: Monitor /tmp/gpu-screen-recorder and update ui to match state pid_t gpu_screen_recorder_process = -1; // Record main_buttons[1].button->on_click = [&](const std::string &id) { if(id == "settings") { current_page = &record_settings_page; return; } if(id != "start") return; // window.close(); // usleep(1000 * 50); // 50 milliseconds const std::string tint_color_as_hex = color_to_hex_str(gsr::get_theme().tint_color); if(gpu_screen_recorder_process != -1) { kill(gpu_screen_recorder_process, SIGINT); int status; if(waitpid(gpu_screen_recorder_process, &status, 0) == -1) { perror("waitpid failed"); /* Ignore... */ } // window.set_visible(false); // window.close(); // return; //exit(0); gpu_screen_recorder_process = -1; gsr_mode = gsr::GsrMode::Unknown; update_overlay_shape(); main_buttons[1].button->set_item_label(id, "Start"); // TODO: Show this with a slight delay to make sure it doesn't show up in the video const std::string record_image_filepath = project_dir + "images/record.png"; const char *notification_args[] = { "gsr-notify", "--text", "Recording has been saved", "--timeout", "3.0", "--icon", record_image_filepath.c_str(), "--icon-color", "ffffff", "--bg-color", tint_color_as_hex.c_str(), nullptr }; gsr::exec_program_daemonized(notification_args); return; } const char *args[] = { "gpu-screen-recorder", "-w", "screen", "-c", "mp4", "-f", "60", "-o", "/home/dec05eba/Videos/gpu-screen-recorder.mp4", nullptr }; gpu_screen_recorder_process = gsr::exec_program(args); if(gpu_screen_recorder_process == -1) { // TODO: Show notification failed to start } else { gsr_mode = gsr::GsrMode::Record; update_overlay_shape(); main_buttons[1].button->set_item_label(id, "Stop"); } // TODO: Start recording after this notification has disappeared to make sure it doesn't show up in the video. // Make clear to the user that the recording starts after the notification is gone. // Maybe have the option in notification to show timer until its getting hidden, then the notification can say: // Starting recording in 3... // 2... // 1... // TODO: Do not run this is a daemon. Instead get the pid and when launching another notification close the current notification // program and start another one. This can also be used to check when the notification has finished by checking with waitpid NOWAIT // to see when the program has exit. const std::string record_image_filepath = project_dir + "images/record.png"; const char *notification_args[] = { "gsr-notify", "--text", "Recording has started", "--timeout", "3.0", "--icon", record_image_filepath.c_str(), "--icon-color", tint_color_as_hex.c_str(), "--bg-color", tint_color_as_hex.c_str(), nullptr }; gsr::exec_program_daemonized(notification_args); //exit(0); // window.set_visible(false); // window.close(); // TODO: Show notification with args: // "Recording has started" 3.0 ./images/record.png 76b900 }; main_buttons[1].mode = gsr::GsrMode::Record; // Stream main_buttons[2].button->on_click = [&](const std::string &id) { if(id == "settings") { current_page = &stream_settings_page; return; } }; main_buttons[2].mode = gsr::GsrMode::Stream; update_overlay_shape(); window.set_visible(true); make_window_sticky(display, window.get_system_handle()); Cursor default_cursor = XCreateFontCursor(display, XC_arrow); // TODO: Retry if these fail. // TODO: Hmm, these dont work in owlboy. Maybe owlboy uses xi2 and that breaks this (does it?). XGrabPointer(display, window.get_system_handle(), True, ButtonPressMask | ButtonReleaseMask | PointerMotionMask | Button1MotionMask | Button2MotionMask | Button3MotionMask | Button4MotionMask | Button5MotionMask | ButtonMotionMask, GrabModeAsync, GrabModeAsync, None, default_cursor, CurrentTime); XGrabKeyboard(display, window.get_system_handle(), True, GrabModeAsync, GrabModeAsync, CurrentTime); XSetInputFocus(display, window.get_system_handle(), RevertToParent, CurrentTime); XFlush(display); window.set_fullscreen(true); //XGrabServer(display); mgl::Rectangle top_bar_background(mgl::vec2f(window_size.x, window_size.y*0.06f).floor()); top_bar_background.set_color(mgl::Color(0, 0, 0, 180)); mgl::Text top_bar_text("GPU Screen Recorder", top_bar_font); //top_bar_text.set_color(gsr::get_theme().tint_color); top_bar_text.set_position((top_bar_background.get_position() + top_bar_background.get_size()*0.5f - top_bar_text.get_bounds().size*0.5f).floor()); const int num_settings_pages = 3; gsr::Page *settings_pages[num_settings_pages] = { &replay_settings_page, &record_settings_page, &stream_settings_page }; gsr::Page *settings_content_pages[num_settings_pages] = { replay_settings_content_ptr, record_settings_content_ptr, stream_settings_content_ptr }; const auto settings_back_button_callback = [&] { current_page = &front_page; }; for(int i = 0; i < num_settings_pages; ++i) { gsr::Page *settings_page = settings_pages[i]; gsr::Page *settings_content_page = settings_content_pages[i]; add_widgets_to_settings_page(title_font, window_size, settings_page_position, settings_page_size, settings_page, settings_content_page, gsr_info, audio_devices, settings_back_button_callback); } mgl::Texture close_texture; if(!close_texture.load_from_file((project_dir + "images/cross.png").c_str())) startup_error("failed to load texture: images/cross.png"); mgl::Sprite close_sprite(&close_texture); close_sprite.set_height(int(top_bar_background.get_size().y * 0.3f)); close_sprite.set_position(mgl::vec2f(window_size.x - close_sprite.get_size().x - 50.0f, top_bar_background.get_size().y * 0.5f - close_sprite.get_size().y * 0.5f).floor()); mgl::Texture logo_texture; if(!logo_texture.load_from_file((project_dir + "images/gpu_screen_recorder_logo.png").c_str())) startup_error("failed to load texture: images/gpu_screen_recorder_logo.png"); mgl::Sprite logo_sprite(&logo_texture); logo_sprite.set_height((int)(top_bar_background.get_size().y * 0.65f)); logo_sprite.set_position(mgl::vec2f( (top_bar_background.get_size().y - logo_sprite.get_size().y) * 0.5f, top_bar_background.get_size().y * 0.5f - logo_sprite.get_size().y * 0.5f ).floor()); // mgl::Clock state_update_timer; // const double state_update_timeout_sec = 2.0; mgl::Event event; event.type = mgl::Event::MouseMoved; event.mouse_move.x = window.get_mouse_position().x; event.mouse_move.y = window.get_mouse_position().y; current_page->on_event(event, window, mgl::vec2f(0.0f, 0.0f)); const auto render = [&] { window.clear(bg_color); if(screenshot_texture.is_valid()) { window.draw(screenshot_sprite); window.draw(bg_screenshot_overlay); } window.draw(top_bar_background); window.draw(top_bar_text); window.draw(logo_sprite); window.draw(close_sprite); current_page->draw(window, mgl::vec2f(0.0f, 0.0f)); window.display(); }; while(window.is_open()) { if(!running) { window.set_visible(false); window.close(); break; } while(window.poll_event(event)) { current_page->on_event(event, window, mgl::vec2f(0.0f, 0.0f)); if(event.type == mgl::Event::KeyPressed) { if(event.key.code == mgl::Keyboard::Escape) { window.set_visible(false); window.close(); break; } } } // if(state_update_timer.get_elapsed_time_seconds() >= state_update_timeout_sec) { // state_update_timer.restart(); // update_overlay_shape(); // } render(); } fprintf(stderr, "shutting down!\n"); if(gpu_screen_recorder_process != -1) { kill(gpu_screen_recorder_process, SIGINT); int status; if(waitpid(gpu_screen_recorder_process, &status, 0) == -1) { perror("waitpid failed"); /* Ignore... */ } gpu_screen_recorder_process = -1; } gsr::deinit_theme(); return 0; }