//! Minimal code for drawing any level, based on traits from stockton-levels use crate::window::UiState; use stockton_skeleton::{ buffers::draw::DrawBuffers, builders::{ AttachmentSpec, CompletePipeline, PipelineSpecBuilder, RenderpassSpec, ShaderDesc, VertexBufferSpec, VertexPrimitiveAssemblerSpec, }, context::RenderingContext, draw_passes::{util::TargetSpecificResources, DrawPass, IntoDrawPass, PassPosition}, error::LockPoisoned, mem::{DataPool, StagingPool, TexturesPool}, queue_negotiator::QueueNegotiator, texture::{ resolver::TextureResolver, LoadableImage, TexLoadQueue, TextureLoadConfig, TextureRepo, }, types::*, }; use stockton_types::{Session, Vector2}; use std::{ array::IntoIter, convert::TryInto, iter::{empty, once}, sync::Arc, }; use anyhow::{anyhow, Context, Result}; use egui::{ClippedMesh, TextureId}; use egui::{CtxRef, Texture}; use hal::{ buffer::SubRange, command::{ClearColor, ClearValue, RenderAttachmentInfo, SubpassContents}, format::Format, image::Layout, pass::Attachment, pso::{ BlendDesc, BlendOp, BlendState, ColorBlendDesc, ColorMask, DepthStencilDesc, Face, Factor, FrontFace, InputAssemblerDesc, LogicOp, PolygonMode, Primitive, Rasterizer, Rect, ShaderStageFlags, State, VertexInputRate, }, }; use shaderc::ShaderKind; #[derive(Debug)] pub struct UiPoint(pub Vector2, pub Vector2, pub [f32; 4]); /// Draw a Ui object pub struct UiDrawPass<'a> { pipeline: CompletePipeline, repo: TextureRepo, draw_buffers: DrawBuffers<'a, UiPoint, DataPool, StagingPool>, framebuffers: TargetSpecificResources, } impl<'a, P: PassPosition> DrawPass

for UiDrawPass<'a> { fn queue_draw( &mut self, session: &Session, img_view: &ImageViewT, cmd_buffer: &mut CommandBufferT, ) -> anyhow::Result<()> { // We might have loaded more textures self.repo.process_responses(); // Make sure we update the vertex buffers after they're written to, but before they're read from. self.draw_buffers .vertex_buffer .record_commit_cmds(cmd_buffer)?; self.draw_buffers .index_buffer .record_commit_cmds(cmd_buffer)?; // Get level & camera let ui: &mut UiState = &mut session.resources.get_mut::().unwrap(); // Get framebuffer and depth buffer let fb = self.framebuffers.get_next(); unsafe { cmd_buffer.begin_render_pass( &self.pipeline.renderpass, fb, self.pipeline.render_area, vec![RenderAttachmentInfo { image_view: img_view, clear_value: ClearValue { color: ClearColor { float32: [0.0, 0.0, 0.0, 1.0], }, }, }] .into_iter(), SubpassContents::Inline, ); cmd_buffer.bind_graphics_pipeline(&self.pipeline.pipeline); // Bind buffers cmd_buffer.bind_vertex_buffers( 0, once(( self.draw_buffers.vertex_buffer.get_buffer(), SubRange { offset: 0, size: None, }, )), ); cmd_buffer.bind_index_buffer( self.draw_buffers.index_buffer.get_buffer(), SubRange { offset: 0, size: None, }, hal::IndexType::U16, ); } let (_out, shapes) = ui.end_frame(); let screen = ui .dimensions() .ok_or_else(|| anyhow!("UI not set up properly."))?; let shapes = ui.ctx().tessellate(shapes); for ClippedMesh(rect, tris) in shapes.iter() { assert!(tris.texture_id == TextureId::Egui); // Copy triangles/indicies for i in (0..tris.indices.len()).step_by(3) { self.draw_buffers.index_buffer[i / 3] = ( tris.indices[i].try_into()?, tris.indices[i + 1].try_into()?, tris.indices[i + 2].try_into()?, ); } for (i, vertex) in tris.vertices.iter().enumerate() { self.draw_buffers.vertex_buffer[i] = UiPoint( Vector2::new(vertex.pos.x, vertex.pos.y), Vector2::new(vertex.uv.x, vertex.uv.y), [ vertex.color.r() as f32 / 255.0, vertex.color.g() as f32 / 255.0, vertex.color.b() as f32 / 255.0, vertex.color.a() as f32 / 255.0, ], ); } // TODO: *Properly* deal with textures if let Some(ds) = self.repo.attempt_get_descriptor_set(0) { unsafe { cmd_buffer.push_graphics_constants( &self.pipeline.pipeline_layout, ShaderStageFlags::VERTEX, 0, &[screen.x.to_bits(), screen.y.to_bits()], ); cmd_buffer.set_scissors( 0, IntoIter::new([Rect { x: rect.min.x as i16, y: rect.min.y as i16, w: rect.width() as i16, h: rect.height() as i16, }]), ); cmd_buffer.bind_graphics_descriptor_sets( &self.pipeline.pipeline_layout, 0, IntoIter::new([ds]), empty(), ); // Call draw cmd_buffer.draw_indexed(0..tris.indices.len() as u32, 0, 0..1); } } else { self.repo.queue_load(0)?; } } unsafe { cmd_buffer.end_render_pass(); } Ok(()) } fn deactivate(self, context: &mut RenderingContext) -> Result<()> { self.draw_buffers.deactivate(context); unsafe { let mut device = context.device().write().map_err(|_| LockPoisoned::Device)?; self.pipeline.deactivate(&mut device); for fb in self.framebuffers.dissolve() { device.destroy_framebuffer(fb); } } self.repo.deactivate(context); Ok(()) } fn handle_surface_change( &mut self, _session: &Session, _context: &mut RenderingContext, ) -> Result<()> { todo!() } } impl<'a, P: PassPosition> IntoDrawPass, P> for () { fn init(self, session: &mut Session, context: &mut RenderingContext) -> Result> { let spec = PipelineSpecBuilder::default() .rasterizer(Rasterizer { polygon_mode: PolygonMode::Fill, cull_face: Face::NONE, front_face: FrontFace::CounterClockwise, depth_clamping: false, depth_bias: None, conservative: true, line_width: State::Static(1.0), }) .depth_stencil(DepthStencilDesc { depth: None, depth_bounds: false, stencil: None, }) .blender(BlendDesc { logic_op: Some(LogicOp::Copy), targets: vec![ColorBlendDesc { mask: ColorMask::ALL, blend: Some(BlendState { color: BlendOp::Add { src: Factor::SrcAlpha, dst: Factor::OneMinusSrcAlpha, }, alpha: BlendOp::Add { src: Factor::SrcAlpha, dst: Factor::OneMinusSrcAlpha, }, }), }], }) .primitive_assembler(VertexPrimitiveAssemblerSpec::with_buffers( InputAssemblerDesc::new(Primitive::TriangleList), vec![VertexBufferSpec { attributes: vec![Format::Rg32Sfloat, Format::Rg32Sfloat, Format::Rgba32Sfloat], rate: VertexInputRate::Vertex, }], )) .shader_vertex(ShaderDesc { source: include_str!("./data/ui.vert").to_string(), entry: "main".to_string(), kind: ShaderKind::Vertex, }) .shader_fragment(ShaderDesc { source: include_str!("./data/ui.frag").to_string(), entry: "main".to_string(), kind: ShaderKind::Fragment, }) .push_constants(vec![(ShaderStageFlags::VERTEX, 0..8)]) .renderpass(RenderpassSpec { colors: vec![AttachmentSpec { attachment: Attachment { format: Some(context.target_chain().properties().format), samples: 1, ops: P::attachment_ops(), stencil_ops: P::attachment_ops(), layouts: P::layout_as_range(), }, used_layout: Layout::ColorAttachmentOptimal, }], depth: None, inputs: vec![], resolves: vec![], preserves: vec![], }) .dynamic_scissor(true) .build() .context("Error building pipeline")?; let ui: &mut UiState = &mut session.resources.get_mut::().unwrap(); let repo = TextureRepo::new::<_, TexLoadQueue>( context, TextureLoadConfig { resolver: UiTextures::new(ui.ctx().clone()), filter: hal::image::Filter::Linear, wrap_mode: hal::image::WrapMode::Clamp, }, ) .context("Error creating texture repo")?; let draw_buffers = DrawBuffers::from_context(context).context("Error creating draw buffers")?; let (pipeline, framebuffers) = { let mut device = context.device().write().map_err(|_| LockPoisoned::Device)?; let pipeline = spec .build( &mut device, context.target_chain().properties().extent, context.target_chain().properties(), once(&*repo.get_ds_layout()?), ) .context("Error building pipeline")?; let fat = context.target_chain().properties().framebuffer_attachment(); let framebuffers = TargetSpecificResources::new( || unsafe { Ok(device.create_framebuffer( &pipeline.renderpass, IntoIter::new([fat.clone()]), context.target_chain().properties().extent, )?) }, context.target_chain().properties().image_count as usize, )?; (pipeline, framebuffers) }; Ok(UiDrawPass { pipeline, repo, draw_buffers, framebuffers, }) } fn find_aux_queues<'c>( adapter: &'c Adapter, queue_negotiator: &mut QueueNegotiator, ) -> Result)>> { queue_negotiator.find(adapter, &TexLoadQueue)?; Ok(vec![ queue_negotiator.family_spec::(&adapter.queue_families, 1)? ]) } } pub struct UiTexture(Arc); pub struct UiTextures { ctx: CtxRef, } impl TextureResolver for UiTextures { type Image = UiTexture; fn resolve(&mut self, tex: u32) -> Option { if tex == 0 { Some(UiTexture(self.ctx.texture())) } else { None } } } impl UiTextures { pub fn new(ctx: CtxRef) -> Self { UiTextures { ctx } } } impl LoadableImage for UiTexture { fn width(&self) -> u32 { self.0.width as u32 } fn height(&self) -> u32 { self.0.height as u32 } unsafe fn copy_row(&self, y: u32, ptr: *mut u8) { let row_size = self.0.width as u32; let pixels = &self.0.pixels[(y * row_size) as usize..((y + 1) * row_size) as usize]; for (i, x) in pixels.iter().enumerate() { *ptr.offset(i as isize * 4) = 255; *ptr.offset((i as isize * 4) + 1) = 255; *ptr.offset((i as isize * 4) + 2) = 255; *ptr.offset((i as isize * 4) + 3) = *x; } } }