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|
//! 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,
},
RenderingContext,
Session,
draw_passes::{util::TargetSpecificResources, DrawPass, IntoDrawPass, PassPosition},
mem::{DataPool, StagingPool, TexturesPool},
queue_negotiator::QueueFamilyNegotiator,
texture::{
TextureResolver, LoadableImage, TexLoadQueue, TextureLoadConfig, TextureRepo,
},
types::*,
};
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> {
repo: TextureRepo<TexturesPool, StagingPool>,
draw_buffers: DrawBuffers<'a, UiPoint, DataPool, StagingPool>,
surface_resources: SurfaceDependentResources,
}
impl<'a, P: PassPosition> DrawPass<P> 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::<UiState>().unwrap();
// Get framebuffer and depth buffer
let fb = self.surface_resources.framebuffers.get_next();
unsafe {
cmd_buffer.begin_render_pass(
&self.surface_resources.pipeline.renderpass,
fb,
self.surface_resources.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.surface_resources.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);
let mut next_idx_idx = 0;
let mut next_vert_idx = 0;
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[next_idx_idx + (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[next_vert_idx + 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.surface_resources.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.surface_resources.pipeline.pipeline_layout,
0,
IntoIter::new([ds]),
empty(),
);
// Call draw
cmd_buffer.draw_indexed(
(next_idx_idx as u32 * 3)..((next_idx_idx * 3) + tris.indices.len()) as u32,
next_vert_idx as i32,
0..1,
);
}
} else {
self.repo.queue_load(0)?;
}
next_idx_idx += tris.indices.len() / 3;
next_vert_idx += tris.vertices.len();
}
unsafe {
cmd_buffer.end_render_pass();
}
Ok(())
}
fn deactivate(self, context: &mut RenderingContext) -> Result<()> {
self.draw_buffers.deactivate(context);
self.surface_resources.deactivate(context)?;
self.repo.deactivate(context);
Ok(())
}
fn handle_surface_change(
mut self,
_session: &Session,
context: &mut RenderingContext,
) -> Result<Self> {
let new_surface_resources =
SurfaceDependentResources::new::<P>(context, &*self.repo.get_ds_layout()?)?;
let old_surface_resources = self.surface_resources;
self.surface_resources = new_surface_resources;
match old_surface_resources.deactivate(context) {
Ok(_) => Ok(self),
Err(e) => {
<Self as DrawPass<P>>::deactivate(self, context)?;
Err(e)
}
}
}
}
impl<'a, P: PassPosition> IntoDrawPass<UiDrawPass<'a>, P> for () {
fn init(self, session: &mut Session, context: &mut RenderingContext) -> Result<UiDrawPass<'a>> {
let ui: &mut UiState = &mut session.resources.get_mut::<UiState>().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 surface_resources =
SurfaceDependentResources::new::<P>(context, &*repo.get_ds_layout()?)?;
Ok(UiDrawPass {
repo,
draw_buffers,
surface_resources,
})
}
fn find_aux_queues(
adapter: &Adapter,
queue_negotiator: &mut QueueFamilyNegotiator,
) -> Result<()> {
queue_negotiator.find(adapter, &TexLoadQueue, 1)?;
Ok(())
}
}
pub struct UiTexture(Arc<Texture>);
pub struct UiTextures {
ctx: CtxRef,
}
impl TextureResolver for UiTextures {
type Image = UiTexture;
fn resolve(&mut self, tex: u32) -> Option<Self::Image> {
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;
}
}
}
struct SurfaceDependentResources {
pipeline: CompletePipeline,
framebuffers: TargetSpecificResources<FramebufferT>,
}
impl SurfaceDependentResources {
fn new<P: PassPosition>(
context: &mut RenderingContext,
ds_layout: &DescriptorSetLayoutT,
) -> Result<Self> {
let mut device = context.lock_device()?;
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.properties().color_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 pipeline = spec
.build(&mut device, context.properties().extent, once(ds_layout))
.context("Error building pipeline")?;
let fat = context.properties().swapchain_framebuffer_attachment();
let framebuffers = TargetSpecificResources::new(
|| unsafe {
Ok(device.create_framebuffer(
&pipeline.renderpass,
IntoIter::new([fat.clone()]),
context.properties().extent,
)?)
},
context.properties().image_count as usize,
)?;
Ok(Self {
framebuffers,
pipeline,
})
}
fn deactivate(self, context: &mut RenderingContext) -> Result<()> {
unsafe {
let mut device = context.lock_device()?;
self.pipeline.deactivate(&mut device);
for fb in self.framebuffers.dissolve() {
device.destroy_framebuffer(fb);
}
}
Ok(())
}
}
|