packages/engine/src/renderer/renderer2d.rs

//! Main 2D renderer implementation.
//! 主2D渲染器实现。

use wasm_bindgen::JsCast;
use web_sys::WebGl2RenderingContext;

use crate::core::error::Result;
use crate::resource::TextureManager;
use super::batch::SpriteBatch;
use super::camera::Camera2D;
use super::shader::{ShaderProgram, SPRITE_VERTEX_SHADER, SPRITE_FRAGMENT_SHADER};

/// 2D renderer with batched sprite rendering.
/// 带批处理精灵渲染的2D渲染器。
///
/// Coordinates sprite batching, shader management, and camera transforms.
/// 协调精灵批处理、Shader管理和相机变换。
pub struct Renderer2D {
    /// Sprite batch renderer.
    /// 精灵批处理渲染器。
    sprite_batch: SpriteBatch,

    /// Sprite shader program.
    /// 精灵Shader程序。
    shader: ShaderProgram,

    /// 2D camera.
    /// 2D相机。
    camera: Camera2D,
}

impl Renderer2D {
    /// Create a new 2D renderer.
    /// 创建新的2D渲染器。
    ///
    /// # Arguments | 参数
    /// * `gl` - WebGL2 context | WebGL2上下文
    /// * `max_sprites` - Maximum sprites per batch | 每批次最大精灵数
    pub fn new(gl: &WebGl2RenderingContext, max_sprites: usize) -> Result<Self> {
        let sprite_batch = SpriteBatch::new(gl, max_sprites)?;
        let shader = ShaderProgram::new(gl, SPRITE_VERTEX_SHADER, SPRITE_FRAGMENT_SHADER)?;

        // Get canvas size for camera | 获取canvas尺寸用于相机
        let canvas = gl.canvas()
            .and_then(|c| c.dyn_into::<web_sys::HtmlCanvasElement>().ok())
            .map(|c| (c.width() as f32, c.height() as f32))
            .unwrap_or((800.0, 600.0));

        let camera = Camera2D::new(canvas.0, canvas.1);

        log::info!(
            "Renderer2D initialized | Renderer2D初始化完成: {}x{}, max sprites: {}",
            canvas.0, canvas.1, max_sprites
        );

        Ok(Self {
            sprite_batch,
            shader,
            camera,
        })
    }

    /// Submit sprite batch data for rendering.
    /// 提交精灵批次数据进行渲染。
    ///
    /// # Arguments | 参数
    /// * `transforms` - Transform data for each sprite | 每个精灵的变换数据
    /// * `texture_ids` - Texture ID for each sprite | 每个精灵的纹理ID
    /// * `uvs` - UV coordinates for each sprite | 每个精灵的UV坐标
    /// * `colors` - Packed color for each sprite | 每个精灵的打包颜色
    /// * `texture_manager` - Texture manager | 纹理管理器
    pub fn submit_batch(
        &mut self,
        transforms: &[f32],
        texture_ids: &[u32],
        uvs: &[f32],
        colors: &[u32],
        texture_manager: &TextureManager,
    ) -> Result<()> {
        self.sprite_batch.add_sprites(
            transforms,
            texture_ids,
            uvs,
            colors,
            texture_manager,
        )
    }

    /// Render the current frame.
    /// 渲染当前帧。
    pub fn render(&mut self, gl: &WebGl2RenderingContext) -> Result<()> {
        if self.sprite_batch.sprite_count() == 0 {
            return Ok(());
        }

        // Bind shader | 绑定Shader
        self.shader.bind(gl);

        // Set projection matrix | 设置投影矩阵
        let projection = self.camera.projection_matrix();
        self.shader.set_uniform_mat3(gl, "u_projection", &projection.to_cols_array());

        // Set texture sampler | 设置纹理采样器
        self.shader.set_uniform_i32(gl, "u_texture", 0);

        // Flush sprite batch | 刷新精灵批处理
        self.sprite_batch.flush(gl);

        // Clear batch for next frame | 清空批处理以供下一帧使用
        self.sprite_batch.clear();

        Ok(())
    }

    /// Get mutable reference to camera.
    /// 获取相机的可变引用。
    #[inline]
    pub fn camera_mut(&mut self) -> &mut Camera2D {
        &mut self.camera
    }

    /// Get reference to camera.
    /// 获取相机的引用。
    #[inline]
    pub fn camera(&self) -> &Camera2D {
        &self.camera
    }

    /// Update camera viewport size.
    /// 更新相机视口大小。
    pub fn resize(&mut self, width: f32, height: f32) {
        self.camera.set_viewport(width, height);
    }
}
feat: 集成Rust WASM渲染引擎与TypeScript ECS框架 (#228) * feat: 集成Rust WASM渲染引擎与TypeScript ECS框架 * feat: 增强编辑器UI功能与跨平台支持 * fix: 修复CI测试和类型检查问题 * fix: 修复CI问题并提高测试覆盖率 * fix: 修复CI问题并提高测试覆盖率 2025-11-21 10:03:18 +08:00			`//! Main 2D renderer implementation.`
			`//! 主2D渲染器实现。`

			`use wasm_bindgen::JsCast;`
			`use web_sys::WebGl2RenderingContext;`

			`use crate::core::error::Result;`
			`use crate::resource::TextureManager;`
			`use super::batch::SpriteBatch;`
			`use super::camera::Camera2D;`
			`use super::shader::{ShaderProgram, SPRITE_VERTEX_SHADER, SPRITE_FRAGMENT_SHADER};`

			`/// 2D renderer with batched sprite rendering.`
			`/// 带批处理精灵渲染的2D渲染器。`
			`///`
			`/// Coordinates sprite batching, shader management, and camera transforms.`
			`/// 协调精灵批处理、Shader管理和相机变换。`
			`pub struct Renderer2D {`
			`/// Sprite batch renderer.`
			`/// 精灵批处理渲染器。`
			`sprite_batch: SpriteBatch,`

			`/// Sprite shader program.`
			`/// 精灵Shader程序。`
			`shader: ShaderProgram,`

			`/// 2D camera.`
			`/// 2D相机。`
			`camera: Camera2D,`
			`}`

			`impl Renderer2D {`
			`/// Create a new 2D renderer.`
			`/// 创建新的2D渲染器。`
			`///`
			`/// # Arguments \| 参数`
			/// * `gl` - WebGL2 context \| WebGL2上下文
			/// * `max_sprites` - Maximum sprites per batch \| 每批次最大精灵数
			`pub fn new(gl: &WebGl2RenderingContext, max_sprites: usize) -> Result<Self> {`
			`let sprite_batch = SpriteBatch::new(gl, max_sprites)?;`
			`let shader = ShaderProgram::new(gl, SPRITE_VERTEX_SHADER, SPRITE_FRAGMENT_SHADER)?;`

			`// Get canvas size for camera \| 获取canvas尺寸用于相机`
			`let canvas = gl.canvas()`
			`.and_then(\|c\| c.dyn_into::<web_sys::HtmlCanvasElement>().ok())`
			`.map(\|c\| (c.width() as f32, c.height() as f32))`
			`.unwrap_or((800.0, 600.0));`

			`let camera = Camera2D::new(canvas.0, canvas.1);`

			`log::info!(`
			`"Renderer2D initialized \| Renderer2D初始化完成: {}x{}, max sprites: {}",`
			`canvas.0, canvas.1, max_sprites`
			`);`

			`Ok(Self {`
			`sprite_batch,`
			`shader,`
			`camera,`
			`})`
			`}`

			`/// Submit sprite batch data for rendering.`
			`/// 提交精灵批次数据进行渲染。`
			`///`
			`/// # Arguments \| 参数`
			/// * `transforms` - Transform data for each sprite \| 每个精灵的变换数据
			/// * `texture_ids` - Texture ID for each sprite \| 每个精灵的纹理ID
			/// * `uvs` - UV coordinates for each sprite \| 每个精灵的UV坐标
			/// * `colors` - Packed color for each sprite \| 每个精灵的打包颜色
			/// * `texture_manager` - Texture manager \| 纹理管理器
			`pub fn submit_batch(`
			`&mut self,`
			`transforms: &[f32],`
			`texture_ids: &[u32],`
			`uvs: &[f32],`
			`colors: &[u32],`
			`texture_manager: &TextureManager,`
			`) -> Result<()> {`
			`self.sprite_batch.add_sprites(`
			`transforms,`
			`texture_ids,`
			`uvs,`
			`colors,`
			`texture_manager,`
			`)`
			`}`

			`/// Render the current frame.`
			`/// 渲染当前帧。`
			`pub fn render(&mut self, gl: &WebGl2RenderingContext) -> Result<()> {`
			`if self.sprite_batch.sprite_count() == 0 {`
			`return Ok(());`
			`}`

			`// Bind shader \| 绑定Shader`
			`self.shader.bind(gl);`

			`// Set projection matrix \| 设置投影矩阵`
			`let projection = self.camera.projection_matrix();`
			`self.shader.set_uniform_mat3(gl, "u_projection", &projection.to_cols_array());`

			`// Set texture sampler \| 设置纹理采样器`
			`self.shader.set_uniform_i32(gl, "u_texture", 0);`

			`// Flush sprite batch \| 刷新精灵批处理`
			`self.sprite_batch.flush(gl);`

			`// Clear batch for next frame \| 清空批处理以供下一帧使用`
			`self.sprite_batch.clear();`

			`Ok(())`
			`}`

			`/// Get mutable reference to camera.`
			`/// 获取相机的可变引用。`
			`#[inline]`
			`pub fn camera_mut(&mut self) -> &mut Camera2D {`
			`&mut self.camera`
			`}`

			`/// Get reference to camera.`
			`/// 获取相机的引用。`
			`#[inline]`
			`pub fn camera(&self) -> &Camera2D {`
			`&self.camera`
			`}`

			`/// Update camera viewport size.`
			`/// 更新相机视口大小。`
			`pub fn resize(&mut self, width: f32, height: f32) {`
			`self.camera.set_viewport(width, height);`
			`}`
			`}`