use std::fs::File; use starry_client::base::event::Event; use crate::core::SCREEN_HEIGHT; use super::{display::Display, image::Image, rect::Rect}; /// 窗口按Z值排序的模式 #[derive(Debug, Copy, Clone, Eq, PartialEq, PartialOrd, Ord)] pub enum WindowZOrderMode { /// 背景窗口 Back, /// 普通窗口 Normal, /// 前景窗口 Front, } /// 服务端的窗口类,与客户端的窗口类一一对应 #[allow(dead_code)] pub struct Window { /// 窗口左上角x坐标 pub x: i32, /// 窗口左上角y坐标 pub y: i32, /// 窗口大小系数 pub scale: i32, /// 窗口标题 pub title: String, /// 是否无边界 pub barderless: bool, /// 是否大小可变 pub resizable: bool, /// 是否透明 pub transparent: bool, /// 是否不可关闭 pub unclosable: bool, /// 排序模式 pub zorder: WindowZOrderMode, /// 窗体图像 pub image: Image, /// 事件数组 pub events: Vec, // 命名管道文件 pub file_opt: Option, } impl Window { pub fn new(x: i32, y: i32, _w: i32, _h: i32, scale: i32, image_path: &[u8]) -> Window { Window { x: x, y: y, scale: scale, title: String::new(), barderless: false, transparent: false, resizable: true, unclosable: false, zorder: WindowZOrderMode::Normal, image: Image::from_path(image_path) .unwrap_or(Image::new(SCREEN_HEIGHT as i32, SCREEN_HEIGHT as i32)), events: Vec::new(), file_opt: None, } } /// 窗体宽度 pub fn width(&self) -> i32 { self.image.width() } /// 窗体高度 pub fn height(&self) -> i32 { self.image.height() } /// 返回窗体对应矩形 pub fn rect(&self) -> Rect { Rect::new(self.x, self.y, self.width(), self.height()) } // TODO // pub fn title_rect(&self) -> Rect {} /// # 函数功能 /// 渲染窗体到显示窗口中 /// /// ## 参数 /// - display: 展示窗口 /// - rect: 渲染的矩形区域(绝对位置) pub fn draw(&mut self, display: &mut Display, rect: &Rect) { let self_rect = self.rect(); let intersect = self_rect.intersection(rect); if !intersect.is_empty() { // (半)透明窗口 if self.transparent { display.roi(&intersect).blend( &self .image .roi(&intersect.offset(-self_rect.left(), -self_rect.top())), ); } // 不透明窗口 else { display.roi(&intersect).cover( &self .image .roi(&intersect.offset(-self_rect.left(), -self_rect.top())), ); } } } }