// Copyright 2023 The Grim Developers // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. use std::sync::atomic::{AtomicI32, Ordering}; use egui::{Button, PointerState, Response, RichText, Sense, Spinner, Widget}; use egui::epaint::{CircleShape, Color32, FontId, RectShape, Rounding, Stroke}; use egui::epaint::text::TextWrapping; use egui::text::{LayoutJob, TextFormat}; use lazy_static::lazy_static; use crate::gui::Colors; use crate::gui::icons::{CHECK_SQUARE, SQUARE}; pub struct View; impl View { /// Default stroke around views. pub const DEFAULT_STROKE: Stroke = Stroke { width: 1.0, color: Colors::STROKE }; /// Callback on Enter key press event. pub fn on_enter_key(ui: &mut egui::Ui, cb: impl FnOnce()) { if ui.ctx().input(|i| i.key_pressed(egui::Key::Enter)) { (cb)(); } } /// Calculate margin for far left view based on display insets (cutouts). pub fn far_left_inset_margin(ui: &mut egui::Ui) -> f32 { if ui.available_rect_before_wrap().min.x == 0.0 { Self::get_left_inset() } else { 0.0 } } /// Calculate margin for far left view based on display insets (cutouts). pub fn far_right_inset_margin(ui: &mut egui::Ui, frame: &mut eframe::Frame) -> f32 { let container_width = ui.available_rect_before_wrap().max.x as i32; let display_width = frame.info().window_info.size.x as i32; // Means end of the screen. if container_width == display_width { Self::get_right_inset() } else { 0.0 } } /// Cut long text with ﹍ character. fn ellipsize(text: String, size: f32, color: Color32) -> LayoutJob { let mut job = LayoutJob::single_section(text, TextFormat { font_id: FontId::proportional(size), color, ..Default::default() }); job.wrap = TextWrapping { max_rows: 1, break_anywhere: false, overflow_character: Option::from('﹍'), ..Default::default() }; job } /// Show ellipsized text. pub fn ellipsize_text(ui: &mut egui::Ui, text: String, size: f32, color: Color32) { ui.label(Self::ellipsize(text, size, color)); } /// Draw horizontally centered sub-title with space below. pub fn sub_title(ui: &mut egui::Ui, text: String) { ui.vertical_centered_justified(|ui| { ui.label(RichText::new(text.to_uppercase()).size(16.0).color(Colors::TEXT)); }); ui.add_space(4.0); } /// Temporary click optimization for touch screens, return `true` if it was clicked. fn touched(ui: &mut egui::Ui, resp: Response) -> bool { let drag_resp = resp.interact(Sense::click_and_drag()); // Clear pointer event if dragging is out of button area if drag_resp.dragged() && !ui.rect_contains_pointer(drag_resp.rect) { ui.input_mut(|i| i.pointer = PointerState::default()); } if drag_resp.drag_released() || drag_resp.clicked() { return true; } false } /// Title button with transparent background fill color, contains only icon. pub fn title_button(ui: &mut egui::Ui, icon: &str, action: impl FnOnce()) { ui.scope(|ui| { // Disable stroke around title buttons on click. ui.style_mut().visuals.widgets.active.bg_stroke = Stroke::NONE; // Disable rounding on hover. ui.style_mut().visuals.widgets.hovered.rounding = Rounding::none(); // Disable stroke color on hover. ui.style_mut().visuals.widgets.hovered.bg_stroke = Self::DEFAULT_STROKE; // Setup text. let wt = RichText::new(icon.to_string()).size(22.0).color(Colors::TITLE); // Draw button. let br = Button::new(wt) .fill(Colors::TRANSPARENT) .ui(ui); if Self::touched(ui, br) { (action)(); } }); } /// Tab button with white background fill color, contains only icon. pub fn tab_button(ui: &mut egui::Ui, icon: &str, active: bool, action: impl FnOnce()) { let text_color = match active { true => Colors::TITLE, false => Colors::TEXT }; let stroke = match active { true => Stroke::NONE, false => Self::DEFAULT_STROKE }; let color = match active { true => Colors::FILL, false => Colors::WHITE }; let br = Button::new(RichText::new(icon.to_string()).size(22.0).color(text_color)) .stroke(stroke) .fill(color) .ui(ui); if Self::touched(ui, br) { (action)(); } } /// Draw [`Button`] with specified background fill color. pub fn button(ui: &mut egui::Ui, text: String, fill: Color32, action: impl FnOnce()) { let button_text = Self::ellipsize(text.to_uppercase(), 17.0, Colors::TEXT_BUTTON); let br = Button::new(button_text) .stroke(Self::DEFAULT_STROKE) .fill(fill) .ui(ui); if Self::touched(ui, br) { (action)(); } } /// Draw round [`Button`] with icon. pub fn round_button(ui: &mut egui::Ui, icon: &'static str, action: impl FnOnce()) { ui.scope(|ui| { // Setup colors. ui.visuals_mut().widgets.inactive.bg_fill = Colors::BUTTON; ui.visuals_mut().widgets.hovered.bg_fill = Colors::GOLD; ui.visuals_mut().widgets.active.bg_fill = Colors::YELLOW; // Setup radius. let mut r = 44.0 * 0.5; let size = egui::Vec2::splat(2.0 * r + 5.0); let (rect, br) = ui.allocate_at_least(size, Sense::click_and_drag()); let mut icon_color = Colors::GRAY; // Increase radius and change icon size and color on-hover. if br.hovered() { r = r * 1.07; icon_color = Colors::TEXT_BUTTON; } let visuals = ui.style().interact(&br); ui.painter().add(CircleShape { center: rect.center(), radius: r, fill: visuals.bg_fill, stroke: Self::DEFAULT_STROKE, }); ui.allocate_ui_at_rect(rect, |ui| { ui.centered_and_justified(|ui| { ui.label(RichText::new(icon).color(icon_color).size(25.0)); }); }); if Self::touched(ui, br) { (action)(); } }); } /// Draw rounded box with some value and label in the middle, /// where is r = (top_left, top_right, bottom_left, bottom_right). /// | VALUE | /// | label | pub fn rounded_box(ui: &mut egui::Ui, value: String, label: String, r: [bool; 4]) { let rect = ui.available_rect_before_wrap(); // Create background shape. let mut bg_shape = RectShape { rect, rounding: Rounding { nw: if r[0] { 8.0 } else { 0.0 }, ne: if r[1] { 8.0 } else { 0.0 }, sw: if r[2] { 8.0 } else { 0.0 }, se: if r[3] { 8.0 } else { 0.0 }, }, fill: Colors::WHITE, stroke: Stroke { width: 1.0, color: Colors::ITEM_STROKE }, }; let bg_idx = ui.painter().add(bg_shape); // Draw box content. let content_resp = ui.allocate_ui_at_rect(rect, |ui| { ui.vertical_centered_justified(|ui| { ui.add_space(2.0); ui.scope(|ui| { // Correct vertical spacing between items. ui.style_mut().spacing.item_spacing.y = -3.0; // Draw box value. let mut job = LayoutJob::single_section(value, TextFormat { font_id: FontId::proportional(17.0), color: Colors::BLACK, ..Default::default() }); job.wrap = TextWrapping { max_rows: 1, break_anywhere: false, overflow_character: Option::from('﹍'), ..Default::default() }; ui.label(job); // Draw box label. ui.label(RichText::new(label).color(Colors::GRAY).size(15.0)); }); ui.add_space(2.0); }); }).response; // Setup background shape to be painted behind box content. bg_shape.rect = content_resp.rect; ui.painter().set(bg_idx, bg_shape); } /// Draw content in the center of current layout with specified width and height. pub fn center_content(ui: &mut egui::Ui, height: f32, content: impl FnOnce(&mut egui::Ui)) { ui.vertical_centered(|ui| { let mut rect = ui.available_rect_before_wrap(); let side_margin = 24.0; rect.min += egui::emath::vec2(side_margin, ui.available_height() / 2.0 - height / 2.0); rect.max -= egui::emath::vec2(side_margin, 0.0); ui.allocate_ui_at_rect(rect, |ui| { (content)(ui); }); }); } /// Draw big gold loading spinner. pub fn big_loading_spinner(ui: &mut egui::Ui) { Spinner::new().size(104.0).color(Colors::GOLD).ui(ui); } /// Draw small gold loading spinner. pub fn small_loading_spinner(ui: &mut egui::Ui) { Spinner::new().size(38.0).color(Colors::GOLD).ui(ui); } /// Draw the button that looks like checkbox with callback on check. pub fn checkbox(ui: &mut egui::Ui, checked: bool, text: String, callback: impl FnOnce()) { let (text_value, color) = match checked { true => (format!("{} {}", CHECK_SQUARE, text), Colors::TEXT_BUTTON), false => (format!("{} {}", SQUARE, text), Colors::CHECKBOX) }; let br = Button::new(RichText::new(text_value).size(17.0).color(color)) .frame(false) .stroke(Stroke::NONE) .fill(Colors::TRANSPARENT) .ui(ui); if Self::touched(ui, br) { (callback)(); } } /// Show a [`RadioButton`]. It is selected if `*current_value == selected_value`. /// If clicked, `selected_value` is assigned to `*current_value`. pub fn radio_value(ui: &mut egui::Ui, current: &mut T, value: T, text: String) { let mut response = ui.radio(*current == value, text); if Self::touched(ui, response.clone()) && *current != value { *current = value; response.mark_changed(); } } /// Draw horizontal line pub fn horizontal_line(ui: &mut egui::Ui, color: Color32) { let line_size = egui::Vec2::new(ui.available_width(), 1.0); let (line_rect, _) = ui.allocate_exact_size(line_size, Sense::hover()); let painter = ui.painter(); painter.hline(line_rect.x_range(), painter.round_to_pixel(line_rect.center().y), Stroke { width: 1.0, color }); } /// Get top display inset (cutout) size. pub fn get_top_inset() -> f32 { TOP_DISPLAY_INSET.load(Ordering::Relaxed) as f32 } /// Get right display inset (cutout) size. pub fn get_right_inset() -> f32 { RIGHT_DISPLAY_INSET.load(Ordering::Relaxed) as f32 } /// Get bottom display inset (cutout) size. pub fn get_bottom_inset() -> f32 { BOTTOM_DISPLAY_INSET.load(Ordering::Relaxed) as f32 } /// Get left display inset (cutout) size. pub fn get_left_inset() -> f32 { LEFT_DISPLAY_INSET.load(Ordering::Relaxed) as f32 } } lazy_static! { static ref TOP_DISPLAY_INSET: AtomicI32 = AtomicI32::new(0); static ref RIGHT_DISPLAY_INSET: AtomicI32 = AtomicI32::new(0); static ref BOTTOM_DISPLAY_INSET: AtomicI32 = AtomicI32::new(0); static ref LEFT_DISPLAY_INSET: AtomicI32 = AtomicI32::new(0); } #[allow(dead_code)] #[cfg(target_os = "android")] #[allow(non_snake_case)] #[no_mangle] /// Callback from Java code to update display insets (cutouts). pub extern "C" fn Java_mw_gri_android_MainActivity_onDisplayInsets( _env: jni::JNIEnv, _class: jni::objects::JObject, cutouts: jni::sys::jarray ) { use jni::objects::{JObject, JPrimitiveArray}; let mut array: [i32; 4] = [0; 4]; unsafe { let j_obj = JObject::from_raw(cutouts); let j_arr = JPrimitiveArray::from(j_obj); _env.get_int_array_region(j_arr, 0, array.as_mut()).unwrap(); } TOP_DISPLAY_INSET.store(array[0], Ordering::Relaxed); RIGHT_DISPLAY_INSET.store(array[1], Ordering::Relaxed); BOTTOM_DISPLAY_INSET.store(array[2], Ordering::Relaxed); LEFT_DISPLAY_INSET.store(array[3], Ordering::Relaxed); }