/* Copyright 2023, Savanni D'Gerinel This file is part of FitnessTrax. FitnessTrax is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. FitnessTrax is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with FitnessTrax. If not, see . */ mod ui; use adw::prelude::*; use emseries::Series; use ft_core::TraxRecord; use gio::resources_lookup_data; use glib::Object; use gtk::{subclass::prelude::*, STYLE_PROVIDER_PRIORITY_USER}; use std::{ cell::RefCell, env, sync::{Arc, RwLock}, }; use ui::welcome_modal; const APP_ID_DEV: &str = "com.luminescent-dreams.fitnesstrax.dev"; const APP_ID_PROD: &str = "com.luminescent-dreams.fitnesstrax"; const RESOURCE_BASE_PATH: &str = "/com/luminescent-dreams/fitnesstrax/"; /// The real, headless application. This is where all of the logic will reside. #[derive(Clone)] struct App { database: Arc>>>, } impl App { pub fn new() -> Self { Self { database: Arc::new(RwLock::new(None)), } } } /// This is the view to show if the application has not yet been configured. It will walk the user /// through the most critical setup steps so that we can move on to the other views in the app. pub struct UnconfiguredViewPrivate {} #[glib::object_subclass] impl ObjectSubclass for UnconfiguredViewPrivate { const NAME: &'static str = "UnconfiguredView"; type Type = UnconfiguredView; type ParentType = gtk::Box; fn new() -> Self { Self {} } } impl ObjectImpl for UnconfiguredViewPrivate {} impl WidgetImpl for UnconfiguredViewPrivate {} impl BoxImpl for UnconfiguredViewPrivate {} glib::wrapper! { pub struct UnconfiguredView(ObjectSubclass) @extends gtk::Box, gtk::Widget; } impl UnconfiguredView { pub fn new() -> Self { let s: Self = Object::builder().build(); // Replace this with the welcome screen that we set up in the fitnesstrax/unconfigured-page // branch. let label = gtk::Label::builder() .label("Database is not configured.") .build(); s.append(&label); s } } /// The historical view will show a window into the main database. It will show some version of /// daily summaries, daily details, and will provide all functions the user may need for editing /// records. pub struct HistoricalViewPrivate {} #[glib::object_subclass] impl ObjectSubclass for HistoricalViewPrivate { const NAME: &'static str = "HistoricalView"; type Type = HistoricalView; type ParentType = gtk::Box; fn new() -> Self { Self {} } } impl ObjectImpl for HistoricalViewPrivate {} impl WidgetImpl for HistoricalViewPrivate {} impl BoxImpl for HistoricalViewPrivate {} glib::wrapper! { pub struct HistoricalView(ObjectSubclass) @extends gtk::Box, gtk::Widget; } impl HistoricalView { pub fn new() -> Self { let s: Self = Object::builder().build(); let label = gtk::Label::builder() .label("Database has been configured and now it is time to show data") .build(); s.append(&label); s } } /// The application window, or the main window, is the main user interface for the app. Almost /// everything occurs here. struct AppWindow { app: App, window: adw::ApplicationWindow, layout: gtk::Box, current_view: RefCell, } impl AppWindow { /// Construct a new App Window. /// /// adw_app is an Adwaita application. Application windows need to have access to this, but /// otherwise we don't use this. /// /// app is a core [App] object which encapsulates all of the basic logic. fn new(adw_app: &adw::Application, app: App) -> AppWindow { let window = adw::ApplicationWindow::builder() .application(adw_app) .width_request(800) .height_request(600) .build(); let current_view = if app.database.read().unwrap().is_none() { UnconfiguredView::new().upcast() } else { HistoricalView::new().upcast() }; let stylesheet = String::from_utf8( resources_lookup_data( &format!("{}style.css", RESOURCE_BASE_PATH), gio::ResourceLookupFlags::NONE, ) .expect("stylesheet must be available in the resources") .to_vec(), ) .expect("to parse stylesheet"); let provider = gtk::CssProvider::new(); provider.load_from_data(&stylesheet); let context = window.style_context(); context.add_provider(&provider, STYLE_PROVIDER_PRIORITY_USER); let header = adw::HeaderBar::builder() .title_widget(>k::Label::new(Some("FitnessTrax"))) .build(); let layout = gtk::Box::builder() .orientation(gtk::Orientation::Vertical) .build(); layout.append(&header); layout.append(¤t_view); window.set_content(Some(&layout)); window.present(); let s = Self { app, window, layout, current_view: RefCell::new(current_view), }; s } // Switch views. // // This function only replaces the old view with the one which matches the current view state. // It is responsible for ensuring that the new view goes into the layout in the correct // position. fn change_view(&self, view: gtk::Widget) { let mut current_view = self.current_view.borrow_mut(); self.layout.remove(&*current_view); *current_view = view; self.layout.append(&*current_view); } } fn main() { // I still don't fully understand gio resources. resources_register_include! is convenient // because I don't have to deal with filesystem locations at runtime. However, I think other // GTK applications do that rather than compiling the resources directly into the app. So, I'm // unclear as to how I want to handle this. gio::resources_register_include!("com.luminescent-dreams.fitnesstrax.gresource") .expect("to register resources"); let app_id = if std::env::var_os("ENV") == Some("dev".into()) { APP_ID_DEV } else { APP_ID_PROD }; let settings = gio::Settings::new(app_id); println!("database path: {}", settings.string("series-path")); let app = App::new(); /* let runtime = tokio::runtime::Builder::new_multi_thread() .enable_all() .build() .unwrap(); */ let adw_app = adw::Application::builder() .application_id(app_id) .resource_base_path(RESOURCE_BASE_PATH) .build(); adw_app.connect_activate(move |adw_app| { AppWindow::new(adw_app, app.clone()); }); let args: Vec = env::args().collect(); ApplicationExtManual::run_with_args(&adw_app, &args); }