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Tony Klink 2024-04-01 20:51:39 -06:00
parent 92c0278ef0
commit 960e2f8a37
Signed by: klink
GPG key ID: 85175567C4D19231
39 changed files with 4420 additions and 1189 deletions
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@ -59,7 +59,7 @@ source = "registry+https://github.com/rust-lang/crates.io-index"
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version = "0.22.9"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "8e40bb779c5187258fd7aad0eb68cb8706a0a81fa712fbea808ab43c4b8374c4"
dependencies = [
"indexmap 2.2.5",
"indexmap 2.2.6",
"serde",
"serde_spanned",
"toml_datetime",
"winnow 0.6.5",
"winnow",
]
[[package]]
@ -2835,7 +2889,7 @@ dependencies = [
[[package]]
name = "vulkano"
version = "0.34.0"
source = "git+https://github.com/vulkano-rs/vulkano.git?branch=master#7cbf3a7f2694f75e44c778878b5520a45c6a2d1c"
source = "git+https://github.com/vulkano-rs/vulkano.git?branch=master#55556bb916dfb288f7cac5a048111954afd230d8"
dependencies = [
"ahash",
"ash",
@ -2844,7 +2898,7 @@ dependencies = [
"crossbeam-queue",
"half",
"heck 0.4.1",
"indexmap 2.2.5",
"indexmap 2.2.6",
"libloading 0.8.3",
"nom",
"objc",
@ -2865,9 +2919,9 @@ dependencies = [
[[package]]
name = "vulkano-macros"
version = "0.34.0"
source = "git+https://github.com/vulkano-rs/vulkano.git?branch=master#7cbf3a7f2694f75e44c778878b5520a45c6a2d1c"
source = "git+https://github.com/vulkano-rs/vulkano.git?branch=master#55556bb916dfb288f7cac5a048111954afd230d8"
dependencies = [
"proc-macro-crate 2.0.0",
"proc-macro-crate",
"proc-macro2",
"quote",
"syn",
@ -2876,7 +2930,7 @@ dependencies = [
[[package]]
name = "vulkano-shaders"
version = "0.34.0"
source = "git+https://github.com/vulkano-rs/vulkano.git?branch=master#7cbf3a7f2694f75e44c778878b5520a45c6a2d1c"
source = "git+https://github.com/vulkano-rs/vulkano.git?branch=master#55556bb916dfb288f7cac5a048111954afd230d8"
dependencies = [
"ahash",
"heck 0.4.1",
@ -2890,7 +2944,7 @@ dependencies = [
[[package]]
name = "vulkano-util"
version = "0.34.0"
source = "git+https://github.com/vulkano-rs/vulkano.git?branch=master#7cbf3a7f2694f75e44c778878b5520a45c6a2d1c"
source = "git+https://github.com/vulkano-rs/vulkano.git?branch=master#55556bb916dfb288f7cac5a048111954afd230d8"
dependencies = [
"ahash",
"vulkano",
@ -2999,7 +3053,7 @@ version = "0.31.2"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "82fb96ee935c2cea6668ccb470fb7771f6215d1691746c2d896b447a00ad3f1f"
dependencies = [
"bitflags 2.4.2",
"bitflags 2.5.0",
"rustix",
"wayland-backend",
"wayland-scanner",
@ -3011,7 +3065,7 @@ version = "0.3.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "625c5029dbd43d25e6aa9615e88b829a5cad13b2819c4ae129fdbb7c31ab4c7e"
dependencies = [
"bitflags 2.4.2",
"bitflags 2.5.0",
"cursor-icon",
"wayland-backend",
]
@ -3033,7 +3087,7 @@ version = "0.31.2"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "8f81f365b8b4a97f422ac0e8737c438024b5951734506b0e1d775c73030561f4"
dependencies = [
"bitflags 2.4.2",
"bitflags 2.5.0",
"wayland-backend",
"wayland-client",
"wayland-scanner",
@ -3045,7 +3099,7 @@ version = "0.2.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "23803551115ff9ea9bce586860c5c5a971e360825a0309264102a9495a5ff479"
dependencies = [
"bitflags 2.4.2",
"bitflags 2.5.0",
"wayland-backend",
"wayland-client",
"wayland-protocols",
@ -3058,7 +3112,7 @@ version = "0.2.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "ad1f61b76b6c2d8742e10f9ba5c3737f6530b4c243132c2a2ccc8aa96fe25cd6"
dependencies = [
"bitflags 2.4.2",
"bitflags 2.5.0",
"wayland-backend",
"wayland-client",
"wayland-protocols",
@ -3396,7 +3450,7 @@ dependencies = [
"ahash",
"android-activity",
"atomic-waker",
"bitflags 2.4.2",
"bitflags 2.5.0",
"bytemuck",
"calloop",
"cfg_aliases",
@ -3445,15 +3499,6 @@ dependencies = [
"memchr",
]
[[package]]
name = "winnow"
version = "0.6.5"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "dffa400e67ed5a4dd237983829e66475f0a4a26938c4b04c21baede6262215b8"
dependencies = [
"memchr",
]
[[package]]
name = "x11-dl"
version = "2.21.0"
@ -3498,7 +3543,7 @@ version = "0.4.2"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "d039de8032a9a8856a6be89cea3e5d12fdd82306ab7c94d74e6deab2460651c5"
dependencies = [
"bitflags 2.4.2",
"bitflags 2.5.0",
"dlib",
"log",
"once_cell",
@ -3513,9 +3558,9 @@ checksum = "054a8e68b76250b253f671d1268cb7f1ae089ec35e195b2efb2a4e9a836d0621"
[[package]]
name = "xml-rs"
version = "0.8.19"
version = "0.8.20"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "0fcb9cbac069e033553e8bb871be2fbdffcab578eb25bd0f7c508cedc6dcd75a"
checksum = "791978798f0597cfc70478424c2b4fdc2b7a8024aaff78497ef00f24ef674193"
[[package]]
name = "xmlparser"

37
Cargo.toml
View file

@ -5,24 +5,19 @@ edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
anyhow = "1.0.80"
winit = { version = "0.29.15",features = ["rwh_05"] }
vulkano = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
vulkano-shaders = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
vulkano-util = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
flax = { version = "0.6.2", features = ["derive", "serde", "tokio", "tracing"] }
flume = "0.11.0"
parking_lot = "0.12.1"
downcast-rs = "1.2.0"
serde = { version = "1.0.197", features = ["derive"] }
serde-lexpr = "0.1.3"
tokio = { version = "1.36.0", features = ["full"] }
notify = "6.1.1"
notify-debouncer-mini = "0.4.1"
steel-core = { git="https://github.com/mattwparas/steel.git", branch = "master" }
steel-derive = { git="https://github.com/mattwparas/steel.git", branch = "master" }
egui = "0.27.1"
image = "0.25.0"
ahash = "0.8.11"
egui-winit = "0.27.1"
[workspace]
members = [
"khors-core",
"vendor/egui-vulkano",
"modules/khors-graphics",
"modules/khors-window",
"modules/khors-config",
"modules/khors-steel",
"khors-test",
]
default-members = [ "khors-test" ]
[[bin]]
name = "khors-test"
path = "./khors-test"

18
khors-core/Cargo.toml Normal file
View file

@ -0,0 +1,18 @@
[package]
name = "khors-core"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
egui-vulkano = { path = "../vendor/egui-vulkano", version = "0.1.0" }
flax = { version = "0.6.2", features = ["derive", "serde", "tokio", "tracing"] }
flume = "0.11.0"
anyhow = "1.0.80"
vulkano = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
vulkano-util = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
winit = { version = "0.29.15",features = ["rwh_05"] }
parking_lot = "0.12.1"
downcast-rs = "1.2.0"

49
src/app.rs → khors-core/src/app.rs
View file

@ -1,16 +1,12 @@
#![warn(dead_code)]
use std::collections::HashMap;
use crate::{
core::{
events::Events,
module::{Module, ModulesStack, RenderModule as ThreadLocalModule, RenderModulesStack},
},
modules::graphics::egui::{Gui, GuiConfig},
debug_gui::DebugGuiStack,
events::Events,
module::{Module, ModulesStack, RenderModule as ThreadLocalModule, RenderModulesStack},
};
use anyhow::Result;
use flax::{Schedule, World};
use flax::{component, Schedule, World};
use vulkano::device::DeviceFeatures;
use vulkano_util::{
context::{VulkanoConfig, VulkanoContext},
@ -21,6 +17,12 @@ use winit::{
window::WindowId,
};
component! {
window_id: WindowId,
resources,
}
#[allow(dead_code)]
pub struct App {
name: String,
@ -34,7 +36,7 @@ pub struct App {
event_cleanup_time: std::time::Duration,
vk_context: VulkanoContext,
vk_windows: VulkanoWindows,
guis: HashMap<WindowId, Gui>,
debug_gui_stack: DebugGuiStack,
}
impl App {
@ -67,7 +69,7 @@ impl App {
event_cleanup_time: std::time::Duration::from_secs(60),
vk_context,
vk_windows,
guis: HashMap::new(),
debug_gui_stack: DebugGuiStack::default(),
}
}
@ -81,14 +83,14 @@ impl App {
let world = &mut self.world;
let events = &mut self.events;
let frame_time = std::time::Duration::from_millis(16);
let guis = &mut self.guis;
let gui_stack = &mut self.debug_gui_stack;
for module in self.modules.iter_mut() {
module.on_update(world, events, frame_time)?;
}
for module in self.thread_local_modules.iter_mut() {
module.on_update(guis, vk_context, vk_windows, world, events, frame_time)?;
module.on_update(gui_stack, vk_context, vk_windows, world, events, frame_time)?;
}
self.handle_events();
@ -100,7 +102,7 @@ impl App {
where
T: Clone + Send + Sync,
{
let window = self.vk_windows.create_window(
let vk_window_id = self.vk_windows.create_window(
event_loop,
&self.vk_context,
&vulkano_util::window::WindowDescriptor {
@ -111,21 +113,14 @@ impl App {
|_| {},
);
let renderer = self.vk_windows.get_renderer(window).unwrap();
let renderer = self.vk_windows.get_renderer(vk_window_id).unwrap();
let gui = Gui::new(
event_loop,
renderer.surface().clone(),
renderer.graphics_queue().clone(),
renderer.swapchain_format(),
GuiConfig {
is_overlay: true,
allow_srgb_render_target: false,
..Default::default()
},
);
self.world
.set(resources(), window_id(), vk_window_id)
.unwrap();
self.guis.insert(window, gui);
self.debug_gui_stack
.add_gui(vk_window_id, event_loop, renderer, true, false);
}
pub fn process_event_loop<T>(
@ -184,7 +179,7 @@ impl App {
}
Event::WindowEvent { window_id, event } => {
let window = self.vk_windows.get_window(*window_id).unwrap();
let gui = self.guis.get_mut(window_id).unwrap();
let gui = self.debug_gui_stack.get_mut(*window_id).unwrap();
gui.update(window, event);
}
Event::AboutToWait => {

3
src/core/debug_gui.rs → khors-core/src/debug_gui.rs
View file

@ -1,10 +1,9 @@
use std::collections::HashMap;
use egui_vulkano::{Gui, GuiConfig};
use vulkano_util::renderer::VulkanoWindowRenderer;
use winit::{event_loop::EventLoopWindowTarget, window::WindowId};
use crate::modules::graphics::egui::{Gui, GuiConfig};
#[derive(Default)]
pub struct DebugGuiStack {
guis: HashMap<WindowId, Gui>,

0
src/core/events/dispatcher.rs → khors-core/src/events/dispatcher.rs
View file

0
src/core/events/mod.rs → khors-core/src/events/mod.rs
View file

1
src/core/mod.rs → khors-core/src/lib.rs
View file

@ -1,3 +1,4 @@
pub mod app;
pub mod events;
pub mod module;
pub mod time;

2
src/core/module.rs → khors-core/src/module.rs
View file

@ -3,7 +3,7 @@ use std::time::Duration;
use anyhow::Result;
use flax::World;
use crate::core::events::Events;
use super::events::Events;
use super::debug_gui::DebugGuiStack;

0
src/core/time.rs → khors-core/src/time.rs
View file

18
khors-test/Cargo.toml Normal file
View file

@ -0,0 +1,18 @@
[package]
name = "khors-test"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
khors-core = { path = "../khors-core", version = "0.1.0" }
egui-vulkano = { path = "../vendor/egui-vulkano", version = "0.1.0" }
khors-graphics = { path = "../modules/khors-graphics", version = "0.1.0" }
khors-window = { path = "../modules/khors-window", version = "0.1.0" }
khors-config = { path = "../modules/khors-config", version = "0.1.0" }
khors-steel = { path = "../modules/khors-steel", version = "0.1.0" }
anyhow = "1.0.80"
winit = { version = "0.29.15",features = ["rwh_05"] }
tokio = { version = "1.36.0", features = ["full"] }

11
src/main.rs → khors-test/src/main.rs
View file

@ -1,13 +1,12 @@
use anyhow::Result;
use app::App;
use modules::{config::ConfigModule, graphics::RenderModule, window::WindowModule};
use khors_config::ConfigModule;
use khors_core::app::App;
use khors_graphics::RenderModule;
use khors_window::WindowModule;
use tokio::runtime::Builder;
use winit::event_loop::{ControlFlow, EventLoopBuilder};
mod app;
mod core;
mod modules;
fn main() -> Result<()> {
let event_loop = EventLoopBuilder::new().build()?;

16
modules/khors-config/Cargo.toml Normal file
View file

@ -0,0 +1,16 @@
[package]
name = "khors-config"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
khors-core = { path = "../../khors-core", version = "0.1.0" }
anyhow = "1.0.80"
notify = "6.1.1"
notify-debouncer-mini = "0.4.1"
flax = { version = "0.6.2", features = ["derive", "serde", "tokio", "tracing"] }
serde = { version = "1.0.197", features = ["derive"] }
serde-lexpr = "0.1.3"

0
src/modules/config/components.rs → modules/khors-config/src/components.rs
View file

7
src/modules/config/mod.rs → modules/khors-config/src/lib.rs
View file

@ -1,8 +1,7 @@
use flax::{Schedule, World};
use khors_core::module::Module;
use serde::{Deserialize, Serialize};
use crate::core::module::Module;
use self::systems::first_read_config_system;
pub mod components;
@ -23,7 +22,7 @@ impl ConfigModule {
pub fn new(
schedule: &mut Schedule,
_world: &mut World,
_events: &mut crate::core::events::Events,
_events: &mut khors_core::events::Events,
) -> Self {
let schedule_r = Schedule::builder()
// .with_system(read_config_system())
@ -44,7 +43,7 @@ impl Module for ConfigModule {
fn on_update(
&mut self,
_world: &mut World,
_events: &mut crate::core::events::Events,
_events: &mut khors_core::events::Events,
_frame_time: std::time::Duration,
) -> anyhow::Result<()> {
// println!("ConfigModule on_update");

0
src/modules/config/systems.rs → modules/khors-config/src/systems.rs
View file

24
modules/khors-graphics/Cargo.toml Normal file
View file

@ -0,0 +1,24 @@
[package]
name = "khors-graphics"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
khors-core = { path = "../../khors-core", version = "0.1.0" }
egui-vulkano = { path = "../../vendor/egui-vulkano", version = "0.1.0" }
anyhow = "1.0.80"
egui = "0.27.1"
glam = "0.27.0"
winit = { version = "0.29.15",features = ["rwh_05"] }
vulkano = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
vulkano-shaders = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
vulkano-util = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
flax = { version = "0.6.2", features = ["derive", "serde", "tokio", "tracing"] }
flume = "0.11.0"
parking_lot = "0.12.1"
downcast-rs = "1.2.0"
serde = { version = "1.0.197", features = ["derive"] }
serde-lexpr = "0.1.3"

0
src/modules/graphics/events.rs → modules/khors-graphics/src/events.rs
View file

14
modules/khors-graphics/src/frag.glsl Normal file
View file

@ -0,0 +1,14 @@
#version 450
layout(location = 0) in vec3 v_normal;
layout(location = 0) out vec4 f_color;
const vec3 LIGHT = vec3(0.0, 0.0, 1.0);
void main() {
float brightness = dot(normalize(v_normal), normalize(LIGHT));
vec3 dark_color = vec3(0.6, 0.0, 0.0);
vec3 regular_color = vec3(1.0, 0.0, 0.0);
f_color = vec4(mix(dark_color, regular_color, brightness), 1.0);
}

551
modules/khors-graphics/src/lib.rs Normal file
View file

@ -0,0 +1,551 @@
use flax::{entity_ids, BoxedSystem, Query, QueryBorrow, Schedule, System, World};
use glam::{
f32::{Mat3, Vec3},
Mat4,
};
use std::sync::Arc;
use vulkano::{
buffer::{
allocator::{SubbufferAllocator, SubbufferAllocatorCreateInfo},
Buffer, BufferCreateInfo, BufferUsage,
},
command_buffer::{
allocator::{CommandBufferAllocator, StandardCommandBufferAllocator},
CommandBufferBeginInfo, CommandBufferLevel, CommandBufferUsage, RecordingCommandBuffer,
RenderPassBeginInfo,
},
descriptor_set::{
allocator::StandardDescriptorSetAllocator, DescriptorSet, WriteDescriptorSet,
},
device::DeviceOwned,
format::Format,
image::{view::ImageView, Image, ImageCreateInfo, ImageType, ImageUsage},
memory::allocator::{AllocationCreateInfo, MemoryTypeFilter, StandardMemoryAllocator},
pipeline::{
graphics::{
color_blend::{ColorBlendAttachmentState, ColorBlendState},
depth_stencil::{DepthState, DepthStencilState},
input_assembly::InputAssemblyState,
multisample::MultisampleState,
rasterization::RasterizationState,
vertex_input::{Vertex, VertexDefinition},
viewport::{Viewport, ViewportState},
GraphicsPipelineCreateInfo,
},
layout::PipelineDescriptorSetLayoutCreateInfo,
GraphicsPipeline, Pipeline, PipelineBindPoint, PipelineLayout,
PipelineShaderStageCreateInfo,
},
render_pass::{Framebuffer, FramebufferCreateInfo, RenderPass, Subpass},
shader::EntryPoint,
sync::GpuFuture,
};
use vulkano_util::{
context::VulkanoContext, renderer::VulkanoWindowRenderer, window::VulkanoWindows,
};
use egui_vulkano::Gui;
use khors_core::{debug_gui::DebugGuiStack, module::RenderModule as ThreadLocalModule};
use self::{
model::{INDICES, NORMALS, POSITIONS},
vulkan::vertex::{Normal, Position},
};
pub mod events;
mod model;
mod test_pipeline;
mod vulkan;
pub struct RenderModule {
schedule: Schedule,
memory_allocator: Arc<StandardMemoryAllocator>,
descriptor_set_allocator: Arc<StandardDescriptorSetAllocator>,
command_buffer_allocator: Arc<dyn CommandBufferAllocator>,
viewport: Viewport,
rotation_start: std::time::Instant,
}
impl RenderModule {
pub fn new(
vk_context: &mut VulkanoContext,
_vk_windows: &mut VulkanoWindows,
_schedule: &mut Schedule,
_world: &mut World,
_events: &mut khors_core::events::Events,
) -> Self {
let schedule = Schedule::builder()
.with_system(add_distance_system())
.build();
let memory_allocator = Arc::new(StandardMemoryAllocator::new_default(
vk_context.device().clone(),
));
let descriptor_set_allocator = Arc::new(StandardDescriptorSetAllocator::new(
vk_context.device().clone(),
Default::default(),
));
let command_buffer_allocator = Arc::new(StandardCommandBufferAllocator::new(
vk_context.device().clone(),
Default::default(),
));
let viewport = Viewport {
offset: [0.0, 0.0],
extent: [0.0, 0.0],
depth_range: 0.0..=1.0,
};
let rotation_start = std::time::Instant::now();
Self {
schedule,
memory_allocator,
descriptor_set_allocator,
command_buffer_allocator,
viewport,
rotation_start,
}
}
}
impl ThreadLocalModule for RenderModule {
fn on_update(
&mut self,
gui_stack: &mut DebugGuiStack,
vk_context: &mut VulkanoContext,
vk_windows: &mut vulkano_util::window::VulkanoWindows,
world: &mut World,
_events: &mut khors_core::events::Events,
_frame_time: std::time::Duration,
) -> anyhow::Result<()> {
self.schedule.execute_seq(world).unwrap();
let viewport = &mut self.viewport;
for (window_id, renderer) in vk_windows.iter_mut() {
let gui = gui_stack.get_mut(*window_id).unwrap();
draw(
vk_context.device().clone(),
self.memory_allocator.clone(),
self.descriptor_set_allocator.clone(),
self.command_buffer_allocator.clone(),
viewport,
vk_context,
renderer,
gui,
self.rotation_start,
);
}
Ok(())
}
}
pub fn add_distance_system() -> BoxedSystem {
let query = Query::new(entity_ids());
System::builder()
.with_query(query)
.build(|mut query: QueryBorrow<'_, flax::EntityIds, _>| {
for _id in &mut query {
// println!("----------: {}", _id.index());
}
})
.boxed()
}
fn draw(
device: Arc<vulkano::device::Device>,
memory_allocator: Arc<StandardMemoryAllocator>,
descriptor_set_allocator: Arc<StandardDescriptorSetAllocator>,
command_buffer_allocator: Arc<dyn CommandBufferAllocator>,
_viewport: &mut Viewport,
context: &mut VulkanoContext,
renderer: &mut VulkanoWindowRenderer,
gui: &mut Gui,
rotation_start: std::time::Instant,
) {
let vertex_buffer = Buffer::from_iter(
memory_allocator.clone(),
BufferCreateInfo {
usage: BufferUsage::VERTEX_BUFFER,
..Default::default()
},
AllocationCreateInfo {
memory_type_filter: MemoryTypeFilter::PREFER_DEVICE
| MemoryTypeFilter::HOST_SEQUENTIAL_WRITE,
..Default::default()
},
POSITIONS,
)
.unwrap();
let normals_buffer = Buffer::from_iter(
memory_allocator.clone(),
BufferCreateInfo {
usage: BufferUsage::VERTEX_BUFFER,
..Default::default()
},
AllocationCreateInfo {
memory_type_filter: MemoryTypeFilter::PREFER_DEVICE
| MemoryTypeFilter::HOST_SEQUENTIAL_WRITE,
..Default::default()
},
NORMALS,
)
.unwrap();
let index_buffer = Buffer::from_iter(
memory_allocator.clone(),
BufferCreateInfo {
usage: BufferUsage::INDEX_BUFFER,
..Default::default()
},
AllocationCreateInfo {
memory_type_filter: MemoryTypeFilter::PREFER_DEVICE
| MemoryTypeFilter::HOST_SEQUENTIAL_WRITE,
..Default::default()
},
INDICES,
)
.unwrap();
let uniform_buffer = SubbufferAllocator::new(
memory_allocator.clone(),
SubbufferAllocatorCreateInfo {
buffer_usage: BufferUsage::UNIFORM_BUFFER,
memory_type_filter: MemoryTypeFilter::PREFER_DEVICE
| MemoryTypeFilter::HOST_SEQUENTIAL_WRITE,
..Default::default()
},
);
let render_pass = vulkano::single_pass_renderpass!(
device.clone(),
attachments: {
color: {
format: renderer.swapchain_format(),
samples: 1,
load_op: Clear,
store_op: Store,
},
depth_stencil: {
format: Format::D16_UNORM,
samples: 1,
load_op: Clear,
store_op: DontCare,
},
},
pass: {
color: [color],
depth_stencil: {depth_stencil},
},
)
.unwrap();
let vs = vs::load(device.clone())
.unwrap()
.entry_point("main")
.unwrap();
let fs = fs::load(device.clone())
.unwrap()
.entry_point("main")
.unwrap();
let (mut pipeline, mut framebuffers) = window_size_dependent_setup(
memory_allocator.clone(),
vs.clone(),
fs.clone(),
renderer.swapchain_image_views(),
render_pass.clone(),
);
// Do not draw the frame when the screen size is zero. On Windows, this can
// occur when minimizing the application.
let image_extent: [u32; 2] = renderer.window().inner_size().into();
if image_extent.contains(&0) {
return;
}
// Begin rendering by acquiring the gpu future from the window renderer.
let previous_frame_end = renderer
.acquire(None, |swapchain_images| {
// Whenever the window resizes we need to recreate everything dependent
// on the window size. In this example that
// includes the swapchain, the framebuffers
// and the dynamic state viewport.
let (new_pipeline, new_framebuffers) = window_size_dependent_setup(
memory_allocator.clone(),
vs.clone(),
fs.clone(),
swapchain_images,
render_pass.clone(),
);
pipeline = new_pipeline;
framebuffers = new_framebuffers;
})
.unwrap();
let uniform_buffer_subbuffer = {
let elapsed = rotation_start.elapsed();
let rotation = elapsed.as_secs() as f64 + elapsed.subsec_nanos() as f64 / 1_000_000_000.0;
let rotation = Mat3::from_rotation_y(rotation as f32);
// NOTE: This teapot was meant for OpenGL where the origin is at the lower left
// instead the origin is at the upper left in Vulkan, so we reverse the Y axis.
let aspect_ratio = renderer.aspect_ratio();
let proj = Mat4::perspective_rh_gl(std::f32::consts::FRAC_PI_2, aspect_ratio, 0.01, 100.0);
let view = Mat4::look_at_rh(
Vec3::new(0.4, 0.3, 1.0),
Vec3::new(0.0, 0.0, 0.0),
Vec3::new(0.0, -1.0, 0.0),
);
let scale = Mat4::from_scale(Vec3::splat(0.01));
let uniform_data = vs::Data {
world: Mat4::from_mat3(rotation).to_cols_array_2d(),
view: (view * scale).to_cols_array_2d(),
proj: proj.to_cols_array_2d(),
};
let subbuffer = uniform_buffer.allocate_sized().unwrap();
*subbuffer.write().unwrap() = uniform_data;
subbuffer
};
let mut builder = RecordingCommandBuffer::new(
command_buffer_allocator.clone(),
context.graphics_queue().queue_family_index(),
CommandBufferLevel::Primary,
CommandBufferBeginInfo {
usage: CommandBufferUsage::OneTimeSubmit,
..Default::default()
},
)
.unwrap();
let layout = &pipeline.layout().set_layouts()[0];
let set = DescriptorSet::new(
descriptor_set_allocator.clone(),
layout.clone(),
[WriteDescriptorSet::buffer(0, uniform_buffer_subbuffer)],
[],
)
.unwrap();
builder
.begin_render_pass(
RenderPassBeginInfo {
clear_values: vec![Some([0.0, 0.0, 1.0, 1.0].into()), Some(1f32.into())],
..RenderPassBeginInfo::framebuffer(
framebuffers[renderer.image_index() as usize].clone(),
)
},
Default::default(),
)
.unwrap()
.bind_pipeline_graphics(pipeline.clone())
.unwrap()
.bind_descriptor_sets(
PipelineBindPoint::Graphics,
pipeline.layout().clone(),
0,
set,
)
.unwrap()
.bind_vertex_buffers(0, (vertex_buffer.clone(), normals_buffer.clone()))
.unwrap()
.bind_index_buffer(index_buffer.clone())
.unwrap();
unsafe {
builder
.draw_indexed(index_buffer.len() as u32, 1, 0, 0, 0)
.unwrap();
}
builder.end_render_pass(Default::default()).unwrap();
// Finish recording the command buffer by calling `end`.
let command_buffer = builder.end().unwrap();
draw_gui(gui);
let before_future = previous_frame_end
.then_execute(context.graphics_queue().clone(), command_buffer)
.unwrap()
.boxed();
let after_future = gui
.draw_on_image(before_future, renderer.swapchain_image_view())
.boxed();
// The color output is now expected to contain our triangle. But in order to
// show it on the screen, we have to *present* the image by calling
// `present` on the window renderer.
//
// This function does not actually present the image immediately. Instead it
// submits a present command at the end of the queue. This means that it will
// only be presented once the GPU has finished executing the command buffer
// that draws the triangle.
renderer.present(after_future, true);
}
fn draw_gui(gui: &mut Gui) {
let mut code = CODE.to_owned();
gui.immediate_ui(|gui| {
let ctx = gui.context();
egui::Window::new("Colors").vscroll(true).show(&ctx, |ui| {
ui.vertical_centered(|ui| {
ui.add(egui::widgets::Label::new("Hi there!"));
sized_text(ui, "Rich Text", 32.0);
});
ui.separator();
ui.columns(2, |columns| {
egui::ScrollArea::vertical()
.id_source("source")
.show(&mut columns[0], |ui| {
ui.add(
egui::TextEdit::multiline(&mut code).font(egui::TextStyle::Monospace),
);
});
egui::ScrollArea::vertical()
.id_source("rendered")
.show(&mut columns[1], |ui| {
ui.add(egui::widgets::Label::new("Good day!"));
});
});
});
});
}
fn sized_text(ui: &mut egui::Ui, text: impl Into<String>, size: f32) {
ui.label(
egui::RichText::new(text)
.size(size)
.family(egui::FontFamily::Monospace),
);
}
const CODE: &str = r"
# Some markup
```
let mut gui = Gui::new(&event_loop, renderer.surface(), None, renderer.queue(), SampleCount::Sample1);
```
";
fn window_size_dependent_setup(
memory_allocator: Arc<StandardMemoryAllocator>,
vs: EntryPoint,
fs: EntryPoint,
image_views: &[Arc<ImageView>],
render_pass: Arc<RenderPass>,
) -> (Arc<GraphicsPipeline>, Vec<Arc<Framebuffer>>) {
let device = memory_allocator.device().clone();
let extent = image_views[0].image().extent();
let depth_buffer = ImageView::new_default(
Image::new(
memory_allocator,
ImageCreateInfo {
image_type: ImageType::Dim2d,
format: Format::D16_UNORM,
extent,
usage: ImageUsage::DEPTH_STENCIL_ATTACHMENT | ImageUsage::TRANSIENT_ATTACHMENT,
..Default::default()
},
AllocationCreateInfo::default(),
)
.unwrap(),
)
.unwrap();
let framebuffers = image_views
.iter()
.map(|image_view| {
Framebuffer::new(
render_pass.clone(),
FramebufferCreateInfo {
attachments: vec![image_view.clone(), depth_buffer.clone()],
..Default::default()
},
)
.unwrap()
})
.collect::<Vec<_>>();
// In the triangle example we use a dynamic viewport, as its a simple example. However in the
// teapot example, we recreate the pipelines with a hardcoded viewport instead. This allows the
// driver to optimize things, at the cost of slower window resizes.
// https://computergraphics.stackexchange.com/questions/5742/vulkan-best-way-of-updating-pipeline-viewport
let pipeline = {
let vertex_input_state = [Position::per_vertex(), Normal::per_vertex()]
.definition(&vs)
.unwrap();
let stages = [
PipelineShaderStageCreateInfo::new(vs),
PipelineShaderStageCreateInfo::new(fs),
];
let layout = PipelineLayout::new(
device.clone(),
PipelineDescriptorSetLayoutCreateInfo::from_stages(&stages)
.into_pipeline_layout_create_info(device.clone())
.unwrap(),
)
.unwrap();
let subpass = Subpass::from(render_pass, 0).unwrap();
GraphicsPipeline::new(
device,
None,
GraphicsPipelineCreateInfo {
stages: stages.into_iter().collect(),
vertex_input_state: Some(vertex_input_state),
input_assembly_state: Some(InputAssemblyState::default()),
viewport_state: Some(ViewportState {
viewports: [Viewport {
offset: [0.0, 0.0],
extent: [extent[0] as f32, extent[1] as f32],
depth_range: 0.0..=1.0,
}]
.into_iter()
.collect(),
..Default::default()
}),
rasterization_state: Some(RasterizationState::default()),
depth_stencil_state: Some(DepthStencilState {
depth: Some(DepthState::simple()),
..Default::default()
}),
multisample_state: Some(MultisampleState::default()),
color_blend_state: Some(ColorBlendState::with_attachment_states(
subpass.num_color_attachments(),
ColorBlendAttachmentState::default(),
)),
subpass: Some(subpass.into()),
..GraphicsPipelineCreateInfo::layout(layout)
},
)
.unwrap()
};
(pipeline, framebuffers)
}
mod vs {
vulkano_shaders::shader! {
ty: "vertex",
path: "src/vert.glsl",
}
}
mod fs {
vulkano_shaders::shader! {
ty: "fragment",
path: "src/frag.glsl",
}
}

3354
modules/khors-graphics/src/model.rs Normal file
View file

File diff suppressed because it is too large Load diff

1
src/modules/graphics/test_pipeline.rs → modules/khors-graphics/src/test_pipeline.rs
View file

@ -21,6 +21,7 @@ use vulkano::{
},
};
#[allow(dead_code)]
pub fn test_pipeline(
device: Arc<Device>,
memory_allocator: Arc<dyn MemoryAllocator>,

18
modules/khors-graphics/src/vert.glsl Normal file
View file

@ -0,0 +1,18 @@
#version 450
layout(location = 0) in vec3 position;
layout(location = 1) in vec3 normal;
layout(location = 0) out vec3 v_normal;
layout(set = 0, binding = 0) uniform Data {
mat4 world;
mat4 view;
mat4 proj;
} uniforms;
void main() {
mat4 worldview = uniforms.view * uniforms.world;
v_normal = transpose(inverse(mat3(worldview))) * normal;
gl_Position = uniforms.proj * worldview * vec4(position, 1.0);
}

2
modules/khors-graphics/src/vulkan/mod.rs Normal file
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@ -0,0 +1,2 @@
// pub mod pipeline;
pub mod vertex;

108
modules/khors-graphics/src/vulkan/pipeline.rs Normal file
View file

@ -0,0 +1,108 @@
use std::sync::Arc;
use vulkano::{
device::Device,
pipeline::{
graphics::{
color_blend::{ColorBlendAttachmentState, ColorBlendState},
depth_stencil::{DepthState, DepthStencilState},
input_assembly::InputAssemblyState,
multisample::MultisampleState,
rasterization::RasterizationState,
vertex_input::{Vertex, VertexDefinition},
viewport::{Viewport, ViewportState},
GraphicsPipelineCreateInfo,
},
layout::PipelineDescriptorSetLayoutCreateInfo,
GraphicsPipeline, PipelineLayout, PipelineShaderStageCreateInfo,
},
render_pass::{RenderPass, Subpass},
shader::ShaderModule,
};
use super::vertex::{Normal, Position};
pub struct PipelineInfo {
pub vs: Arc<ShaderModule>,
pub fs: Arc<ShaderModule>,
}
pub fn make_pipeline(
device: Arc<Device>,
pipeline_info: &PipelineInfo,
pass_info: &PassInfo,
) -> Arc<GraphicsPipeline> {
let vs = pipeline_info.vs.entry_point("main").unwrap();
let fs = pipeline_info.fs.entry_point("main").unwrap();
let vertex_input_state = [Position::per_vertex(), Normal::per_vertex()]
.definition(&vs)
.unwrap();
let stages = [
PipelineShaderStageCreateInfo::new(vs),
PipelineShaderStageCreateInfo::new(fs),
];
let layout = PipelineLayout::new(
device.clone(),
PipelineDescriptorSetLayoutCreateInfo::from_stages(&stages)
.into_pipeline_layout_create_info(device.clone())
.unwrap(),
)
.unwrap();
let subpass = pass_info.subpass().unwrap();
let extent = pass_info.extent;
GraphicsPipeline::new(
device,
None,
GraphicsPipelineCreateInfo {
stages: stages.into_iter().collect(),
vertex_input_state: Some(vertex_input_state),
input_assembly_state: Some(InputAssemblyState::default()),
viewport_state: Some(ViewportState {
viewports: [Viewport {
offset: [0.0, 0.0],
extent: [extent[0] as f32, extent[1] as f32],
depth_range: 0.0..=1.0,
}]
.into_iter()
.collect(),
..Default::default()
}),
rasterization_state: Some(RasterizationState::default()),
depth_stencil_state: Some(DepthStencilState {
depth: Some(DepthState::simple()),
..Default::default()
}),
multisample_state: Some(MultisampleState::default()),
color_blend_state: Some(ColorBlendState::with_attachment_states(
subpass.num_color_attachments(),
ColorBlendAttachmentState::default(),
)),
subpass: Some(subpass.into()),
..GraphicsPipelineCreateInfo::layout(layout)
},
)
.unwrap()
}
pub struct PassInfo {
pub render_pass: Arc<RenderPass>,
pub subpass_id: u32,
pub extent: [u32; 3],
}
impl PassInfo {
pub fn new(render_pass: Arc<RenderPass>, subpass_id: u32, extent: [u32; 3]) -> Self {
Self {
render_pass: render_pass.clone(),
subpass_id,
extent,
}
}
pub fn subpass(&self) -> Option<Subpass> {
Subpass::from(self.render_pass.clone(), self.subpass_id)
}
}

15
modules/khors-graphics/src/vulkan/vertex.rs Normal file
View file

@ -0,0 +1,15 @@
use vulkano::{buffer::BufferContents, pipeline::graphics::vertex_input::Vertex};
#[derive(BufferContents, Vertex)]
#[repr(C)]
pub struct Position {
#[format(R32G32B32_SFLOAT)]
pub position: [f32; 3],
}
#[derive(BufferContents, Vertex)]
#[repr(C)]
pub struct Normal {
#[format(R32G32B32_SFLOAT)]
pub normal: [f32; 3],
}

17
modules/khors-steel/Cargo.toml Normal file
View file

@ -0,0 +1,17 @@
[package]
name = "khors-steel"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
khors-core = { path = "../../khors-core", version = "0.1.0" }
anyhow = "1.0.80"
flax = { version = "0.6.2", features = ["derive", "serde", "tokio", "tracing"] }
flume = "0.11.0"
notify = "6.1.1"
notify-debouncer-mini = "0.4.1"
steel-core = { git="https://github.com/mattwparas/steel.git", branch = "master" }
steel-derive = { git="https://github.com/mattwparas/steel.git", branch = "master" }

16
src/modules/steel/mod.rs → modules/khors-steel/src/lib.rs
View file

@ -1,12 +1,10 @@
use std::sync::Arc;
extern crate khors_core;
use flax::{component, BoxedSystem, EntityBorrow, Query, QueryBorrow, Schedule, System, World};
use khors_core::module::Module;
use steel::steel_vm::engine::Engine;
use steel::steel_vm::register_fn::RegisterFn;
use steel_derive::Steel;
use crate::core::module::Module;
component! {
steel_script: String,
steel_event_tx: flume::Sender<SteelEvent>,
@ -49,9 +47,9 @@ impl SteelModule {
pub fn new(
schedule: &mut Schedule,
world: &mut World,
_events: &mut crate::core::events::Events,
_events: &mut khors_core::events::Events,
) -> Self {
let mut engine = Engine::new();
let engine = Engine::new();
let (tx, rx) = flume::unbounded::<SteelEvent>();
@ -81,8 +79,8 @@ impl SteelModule {
impl Module for SteelModule {
fn on_update(
&mut self,
world: &mut World,
_events: &mut crate::core::events::Events,
_world: &mut World,
_events: &mut khors_core::events::Events,
_frame_time: std::time::Duration,
) -> anyhow::Result<()> {
// self.schedule.execute_par(world).unwrap();
@ -90,7 +88,7 @@ impl Module for SteelModule {
if let Ok(event) = self.rx.recv() {
match event {
SteelEvent::Execute(script) => {
let handle = std::thread::spawn(|| {
let _handle = std::thread::spawn(|| {
let mut engine = Engine::new();
let val = engine.run(script).unwrap();
println!("Steel val: {:?}", val);

12
modules/khors-window/Cargo.toml Normal file
View file

@ -0,0 +1,12 @@
[package]
name = "khors-window"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
khors-core = { path = "../../khors-core", version = "0.1.0" }
anyhow = "1.0.80"
flax = { version = "0.6.2", features = ["derive", "serde", "tokio", "tracing"] }

6
src/modules/window/mod.rs → modules/khors-window/src/lib.rs
View file

@ -1,6 +1,6 @@
use flax::{Schedule, World};
use khors_core::module::Module;
use crate::core::module::Module;
pub struct WindowModule {
}
@ -9,7 +9,7 @@ impl WindowModule {
pub fn new(
schedule: &mut Schedule,
_world: &mut World,
_events: &mut crate::core::events::Events,
_events: &mut khors_core::events::Events,
) -> Self {
let schedule_r = Schedule::builder()
.build();
@ -24,7 +24,7 @@ impl Module for WindowModule {
fn on_update(
&mut self,
_world: &mut World,
_events: &mut crate::core::events::Events,
_events: &mut khors_core::events::Events,
_frame_time: std::time::Duration,
) -> anyhow::Result<()> {
// println!("WindowModule on_update");

1
src/NOTICE Normal file
View file

@ -0,0 +1 @@
Please use 'khors-test' as a main test bench

286
src/modules/graphics/mod.rs
View file

@ -1,286 +0,0 @@
use std::sync::Arc;
use flax::{entity_ids, BoxedSystem, Query, QueryBorrow, Schedule, System, World};
use vulkano::{
command_buffer::{
allocator::{CommandBufferAllocator, StandardCommandBufferAllocator},
CommandBufferBeginInfo, CommandBufferLevel, CommandBufferUsage, RecordingCommandBuffer,
RenderingAttachmentInfo, RenderingInfo,
},
image::view::ImageView,
pipeline::graphics::viewport::Viewport,
render_pass::{AttachmentLoadOp, AttachmentStoreOp},
sync::GpuFuture,
};
use vulkano_util::{
context::VulkanoContext, renderer::VulkanoWindowRenderer, window::VulkanoWindows,
};
use crate::core::{debug_gui::DebugGuiStack, module::RenderModule as ThreadLocalModule};
use self::{egui::Gui, test_pipeline::test_pipeline};
pub mod egui;
pub mod events;
mod test_pipeline;
pub struct RenderModule {
schedule: Schedule,
command_buffer_allocator: Arc<dyn CommandBufferAllocator>,
viewport: Viewport,
}
impl RenderModule {
pub fn new(
vk_context: &mut VulkanoContext,
_vk_windows: &mut VulkanoWindows,
_schedule: &mut Schedule,
_world: &mut World,
_events: &mut crate::core::events::Events,
) -> Self {
let schedule = Schedule::builder()
.with_system(add_distance_system())
.build();
let command_buffer_allocator = Arc::new(StandardCommandBufferAllocator::new(
vk_context.device().clone(),
Default::default(),
));
let viewport = Viewport {
offset: [0.0, 0.0],
extent: [0.0, 0.0],
depth_range: 0.0..=1.0,
};
Self {
schedule,
command_buffer_allocator,
viewport,
}
}
}
impl ThreadLocalModule for RenderModule {
fn on_update(
&mut self,
gui_stack: &mut DebugGuiStack,
vk_context: &mut VulkanoContext,
vk_windows: &mut vulkano_util::window::VulkanoWindows,
world: &mut World,
_events: &mut crate::core::events::Events,
_frame_time: std::time::Duration,
) -> anyhow::Result<()> {
self.schedule.execute_seq(world).unwrap();
let viewport = &mut self.viewport;
for (window_id, renderer) in vk_windows.iter_mut() {
let gui = gui_stack.get_mut(*window_id).unwrap();
draw(
self.command_buffer_allocator.clone(),
viewport,
vk_context,
renderer,
gui,
);
}
Ok(())
}
}
pub fn add_distance_system() -> BoxedSystem {
let query = Query::new(entity_ids());
System::builder()
.with_query(query)
.build(|mut query: QueryBorrow<'_, flax::EntityIds, _>| {
for _id in &mut query {
// println!("----------: {}", _id.index());
}
})
.boxed()
}
fn draw(
command_buffer_allocator: Arc<dyn CommandBufferAllocator>,
viewport: &mut Viewport,
context: &mut VulkanoContext,
renderer: &mut VulkanoWindowRenderer,
gui: &mut Gui,
) {
let (vertex_buffer, pipeline) = test_pipeline(
context.device().clone(),
context.memory_allocator().clone(),
renderer.swapchain_format(),
);
// Do not draw the frame when the screen size is zero. On Windows, this can
// occur when minimizing the application.
let image_extent: [u32; 2] = renderer.window().inner_size().into();
if image_extent.contains(&0) {
return;
}
// Begin rendering by acquiring the gpu future from the window renderer.
let previous_frame_end = renderer
.acquire(|swapchain_images| {
// Whenever the window resizes we need to recreate everything dependent
// on the window size. In this example that
// includes the swapchain, the framebuffers
// and the dynamic state viewport.
window_size_dependent_setup(swapchain_images, viewport);
})
.unwrap();
let mut builder = RecordingCommandBuffer::new(
command_buffer_allocator.clone(),
context.graphics_queue().queue_family_index(),
CommandBufferLevel::Primary,
CommandBufferBeginInfo {
usage: CommandBufferUsage::OneTimeSubmit,
..Default::default()
},
)
.unwrap();
builder
// Before we can draw, we have to *enter a render pass*. We specify which
// attachments we are going to use for rendering here, which needs to match
// what was previously specified when creating the pipeline.
.begin_rendering(RenderingInfo {
// As before, we specify one color attachment, but now we specify the image
// view to use as well as how it should be used.
color_attachments: vec![Some(RenderingAttachmentInfo {
// `Clear` means that we ask the GPU to clear the content of this
// attachment at the start of rendering.
load_op: AttachmentLoadOp::Clear,
// `Store` means that we ask the GPU to store the rendered output in
// the attachment image. We could also ask it to discard the result.
store_op: AttachmentStoreOp::Store,
// The value to clear the attachment with. Here we clear it with a blue
// color.
//
// Only attachments that have `AttachmentLoadOp::Clear` are provided
// with clear values, any others should use `None` as the clear value.
clear_value: Some([0.0, 0.0, 1.0, 1.0].into()),
..RenderingAttachmentInfo::image_view(
// We specify image view corresponding to the currently acquired
// swapchain image, to use for this attachment.
// attachment_image_views[image_index as usize].clone(),
renderer.swapchain_image_view().clone(),
)
})],
..Default::default()
})
.unwrap()
// We are now inside the first subpass of the render pass.
//
// TODO: Document state setting and how it affects subsequent draw commands.
.set_viewport(0, [viewport.clone()].into_iter().collect())
.unwrap()
.bind_pipeline_graphics(pipeline.clone())
.unwrap()
.bind_vertex_buffers(0, vertex_buffer.clone())
.unwrap();
unsafe {
builder
// We add a draw command.
.draw(vertex_buffer.len() as u32, 1, 0, 0)
.unwrap();
}
builder
// We leave the render pass.
.end_rendering()
.unwrap();
// Finish recording the command buffer by calling `end`.
let command_buffer = builder.end().unwrap();
draw_gui(gui);
let before_future = previous_frame_end
.then_execute(context.graphics_queue().clone(), command_buffer)
.unwrap()
.boxed();
let after_future = gui
.draw_on_image(before_future, renderer.swapchain_image_view())
.boxed();
// The color output is now expected to contain our triangle. But in order to
// show it on the screen, we have to *present* the image by calling
// `present` on the window renderer.
//
// This function does not actually present the image immediately. Instead it
// submits a present command at the end of the queue. This means that it will
// only be presented once the GPU has finished executing the command buffer
// that draws the triangle.
renderer.present(after_future, true);
}
fn draw_gui(gui: &mut Gui) {
let mut code = CODE.to_owned();
gui.immediate_ui(|gui| {
let ctx = gui.context();
egui::egui::Window::new("Colors")
.vscroll(true)
.show(&ctx, |ui| {
ui.vertical_centered(|ui| {
ui.add(egui::egui::widgets::Label::new("Hi there!"));
sized_text(ui, "Rich Text", 32.0);
});
ui.separator();
ui.columns(2, |columns| {
egui::egui::ScrollArea::vertical().id_source("source").show(
&mut columns[0],
|ui| {
ui.add(
egui::egui::TextEdit::multiline(&mut code)
.font(egui::egui::TextStyle::Monospace),
);
},
);
egui::egui::ScrollArea::vertical()
.id_source("rendered")
.show(&mut columns[1], |ui| {
ui.add(egui::egui::widgets::Label::new("Good day!"));
});
});
});
});
}
fn sized_text(ui: &mut egui::egui::Ui, text: impl Into<String>, size: f32) {
ui.label(
egui::egui::RichText::new(text)
.size(size)
.family(::egui::FontFamily::Monospace),
);
}
const CODE: &str = r"
# Some markup
```
let mut gui = Gui::new(&event_loop, renderer.surface(), None, renderer.queue(), SampleCount::Sample1);
```
";
fn window_size_dependent_setup(
image_views: &[Arc<ImageView>],
viewport: &mut Viewport,
) -> Vec<Arc<ImageView>> {
let extent = image_views[0].image().extent();
viewport.extent = [extent[0] as f32, extent[1] as f32];
image_views
.iter()
.map(|image_view| {
let image = image_view.image().clone();
ImageView::new_default(image).unwrap()
})
.collect::<Vec<_>>()
}

4
src/modules/mod.rs
View file

@ -1,4 +0,0 @@
pub mod config;
pub mod graphics;
pub mod window;
// pub mod steel;

694
src/systems/mod.rs
View file

@ -1,694 +0,0 @@
use std::{collections::HashMap, sync::Arc};
use super::components::EntityWindow;
use specs::prelude::*;
use vulkano::{
buffer::{Buffer, BufferContents, BufferCreateInfo, BufferUsage, Subbuffer},
command_buffer::{
allocator::StandardCommandBufferAllocator, CommandBufferBeginInfo, CommandBufferLevel,
CommandBufferUsage, RecordingCommandBuffer, RenderingAttachmentInfo, RenderingInfo,
},
device::{
physical::PhysicalDeviceType, Device, DeviceCreateInfo, DeviceExtensions, DeviceFeatures,
Queue, QueueCreateInfo, QueueFlags,
},
image::{view::ImageView, Image, ImageUsage},
instance::{Instance, InstanceCreateFlags, InstanceCreateInfo},
memory::allocator::{AllocationCreateInfo, MemoryTypeFilter, StandardMemoryAllocator},
pipeline::{
graphics::{
color_blend::{ColorBlendAttachmentState, ColorBlendState},
input_assembly::InputAssemblyState,
multisample::MultisampleState,
rasterization::RasterizationState,
subpass::PipelineRenderingCreateInfo,
vertex_input::{Vertex, VertexDefinition},
viewport::{Viewport, ViewportState},
GraphicsPipelineCreateInfo,
},
layout::PipelineDescriptorSetLayoutCreateInfo,
DynamicState, GraphicsPipeline, PipelineLayout, PipelineShaderStageCreateInfo,
},
render_pass::{AttachmentLoadOp, AttachmentStoreOp},
swapchain::{
acquire_next_image, Surface, Swapchain, SwapchainCreateInfo, SwapchainPresentInfo,
},
sync::{self, GpuFuture},
Validated, Version, VulkanError, VulkanLibrary,
};
use winit::window::{Window, WindowId};
pub struct Render {
renderers: HashMap<WindowId, VkRender>,
library: Arc<VulkanLibrary>,
}
impl<'a> System<'a> for Render {
type SystemData = (Entities<'a>, ReadStorage<'a, EntityWindow>);
fn run(&mut self, data: Self::SystemData) {
let (entities, windows) = data;
(&entities, &windows).join().for_each(|(_entity, window)| {
self.renderers
.entry(window.window.id())
.or_insert_with(|| VkRender::new(self.library.clone(), window.window.clone()));
self.renderers.values_mut().for_each(|rend| rend.render());
window.window.request_redraw();
});
}
fn setup(&mut self, world: &mut World) {
Self::SystemData::setup(world);
}
}
impl Default for Render {
fn default() -> Self {
Self {
renderers: HashMap::new(),
library: VulkanLibrary::new().unwrap(),
}
}
}
struct VkRender {
window: Arc<Window>,
device: Arc<Device>,
queue: Arc<Queue>,
command_buffer_allocator: Arc<StandardCommandBufferAllocator>,
viewport: Viewport,
vertex_buffer: Subbuffer<[MyVertex]>,
recreate_swapchain: bool,
swapchain: Arc<Swapchain>,
previous_frame_end: Option<Box<dyn GpuFuture>>,
attachment_image_views: Vec<Arc<ImageView>>,
pipeline: Arc<GraphicsPipeline>,
}
impl VkRender {
pub fn new(library: Arc<VulkanLibrary>, window: Arc<Window>) -> Self {
println!("Created new renderer for window: {:?}", window.id());
let required_extensions = Surface::required_extensions(&window).unwrap();
// Now creating the instance.
let instance = Instance::new(
library,
InstanceCreateInfo {
// Enable enumerating devices that use non-conformant Vulkan implementations.
// (e.g. MoltenVK)
flags: InstanceCreateFlags::ENUMERATE_PORTABILITY,
enabled_extensions: required_extensions,
..Default::default()
},
)
.unwrap();
let surface = Surface::from_window(instance.clone(), window.clone()).unwrap();
// Choose device extensions that we're going to use. In order to present images to a surface,
// we need a `Swapchain`, which is provided by the `khr_swapchain` extension.
let mut device_extensions = DeviceExtensions {
khr_swapchain: true,
..DeviceExtensions::empty()
};
// We then choose which physical device to use. First, we enumerate all the available physical
// devices, then apply filters to narrow them down to those that can support our needs.
let (physical_device, queue_family_index) = instance
.enumerate_physical_devices()
.unwrap()
.filter(|p| {
// For this example, we require at least Vulkan 1.3, or a device that has the
// `khr_dynamic_rendering` extension available.
p.api_version() >= Version::V1_3 || p.supported_extensions().khr_dynamic_rendering
})
.filter(|p| {
// Some devices may not support the extensions or features that your application, or
// report properties and limits that are not sufficient for your application. These
// should be filtered out here.
p.supported_extensions().contains(&device_extensions)
})
.filter_map(|p| {
// For each physical device, we try to find a suitable queue family that will execute
// our draw commands.
//
// Devices can provide multiple queues to run commands in parallel (for example a draw
// queue and a compute queue), similar to CPU threads. This is something you have to
// have to manage manually in Vulkan. Queues of the same type belong to the same queue
// family.
//
// Here, we look for a single queue family that is suitable for our purposes. In a
// real-world application, you may want to use a separate dedicated transfer queue to
// handle data transfers in parallel with graphics operations. You may also need a
// separate queue for compute operations, if your application uses those.
p.queue_family_properties()
.iter()
.enumerate()
.position(|(i, q)| {
// We select a queue family that supports graphics operations. When drawing to
// a window surface, as we do in this example, we also need to check that
// queues in this queue family are capable of presenting images to the surface.
q.queue_flags.intersects(QueueFlags::GRAPHICS)
&& p.surface_support(i as u32, &surface).unwrap_or(false)
})
// The code here searches for the first queue family that is suitable. If none is
// found, `None` is returned to `filter_map`, which disqualifies this physical
// device.
.map(|i| (p, i as u32))
})
// All the physical devices that pass the filters above are suitable for the application.
// However, not every device is equal, some are preferred over others. Now, we assign each
// physical device a score, and pick the device with the lowest ("best") score.
//
// In this example, we simply select the best-scoring device to use in the application.
// In a real-world setting, you may want to use the best-scoring device only as a "default"
// or "recommended" device, and let the user choose the device themself.
.min_by_key(|(p, _)| {
// We assign a lower score to device types that are likely to be faster/better.
match p.properties().device_type {
PhysicalDeviceType::DiscreteGpu => 0,
PhysicalDeviceType::IntegratedGpu => 1,
PhysicalDeviceType::VirtualGpu => 2,
PhysicalDeviceType::Cpu => 3,
PhysicalDeviceType::Other => 4,
_ => 5,
}
})
.expect("no suitable physical device found");
if physical_device.api_version() < Version::V1_3 {
device_extensions.khr_dynamic_rendering = true;
}
// Now initializing the device. This is probably the most important object of Vulkan.
//
// An iterator of created queues is returned by the function alongside the device.
let (device, mut queues) = Device::new(
// Which physical device to connect to.
physical_device,
DeviceCreateInfo {
// The list of queues that we are going to use. Here we only use one queue, from the
// previously chosen queue family.
queue_create_infos: vec![QueueCreateInfo {
queue_family_index,
..Default::default()
}],
// A list of optional features and extensions that our program needs to work correctly.
// Some parts of the Vulkan specs are optional and must be enabled manually at device
// creation. In this example the only things we are going to need are the
// `khr_swapchain` extension that allows us to draw to a window, and
// `khr_dynamic_rendering` if we don't have Vulkan 1.3 available.
enabled_extensions: device_extensions,
// In order to render with Vulkan 1.3's dynamic rendering, we need to enable it here.
// Otherwise, we are only allowed to render with a render pass object, as in the
// standard triangle example. The feature is required to be supported by the device if
// it supports Vulkan 1.3 and higher, or if the `khr_dynamic_rendering` extension is
// available, so we don't need to check for support.
enabled_features: DeviceFeatures {
dynamic_rendering: true,
..DeviceFeatures::empty()
},
..Default::default()
},
)
.unwrap();
let queue = queues.next().unwrap();
// Before we can draw on the surface, we have to create what is called a swapchain. Creating a
// swapchain allocates the color buffers that will contain the image that will ultimately be
// visible on the screen. These images are returned alongside the swapchain.
let (mut swapchain, images) = {
// Querying the capabilities of the surface. When we create the swapchain we can only pass
// values that are allowed by the capabilities.
let surface_capabilities = device
.physical_device()
.surface_capabilities(&surface, Default::default())
.unwrap();
// Choosing the internal format that the images will have.
let image_format = device
.physical_device()
.surface_formats(&surface, Default::default())
.unwrap()[0]
.0;
// Please take a look at the docs for the meaning of the parameters we didn't mention.
Swapchain::new(
device.clone(),
surface,
SwapchainCreateInfo {
// Some drivers report an `min_image_count` of 1, but fullscreen mode requires at
// least 2. Therefore we must ensure the count is at least 2, otherwise the program
// would crash when entering fullscreen mode on those drivers.
min_image_count: surface_capabilities.min_image_count.max(2),
image_format,
// The size of the window, only used to initially setup the swapchain.
//
// NOTE:
// On some drivers the swapchain extent is specified by
// `surface_capabilities.current_extent` and the swapchain size must use this
// extent. This extent is always the same as the window size.
//
// However, other drivers don't specify a value, i.e.
// `surface_capabilities.current_extent` is `None`. These drivers will allow
// anything, but the only sensible value is the window size.
//
// Both of these cases need the swapchain to use the window size, so we just
// use that.
image_extent: window.inner_size().into(),
image_usage: ImageUsage::COLOR_ATTACHMENT,
// The alpha mode indicates how the alpha value of the final image will behave. For
// example, you can choose whether the window will be opaque or transparent.
composite_alpha: surface_capabilities
.supported_composite_alpha
.into_iter()
.next()
.unwrap(),
..Default::default()
},
)
.unwrap()
};
let memory_allocator = Arc::new(StandardMemoryAllocator::new_default(device.clone()));
let vertices = [
MyVertex {
position: [-0.5, -0.25, 0.1],
},
MyVertex {
position: [0.0, 0.5, 0.1],
},
MyVertex {
position: [0.25, -0.1, 0.1],
},
];
let vertex_buffer = Buffer::from_iter(
memory_allocator,
BufferCreateInfo {
usage: BufferUsage::VERTEX_BUFFER,
..Default::default()
},
AllocationCreateInfo {
memory_type_filter: MemoryTypeFilter::PREFER_DEVICE
| MemoryTypeFilter::HOST_SEQUENTIAL_WRITE,
..Default::default()
},
vertices,
)
.unwrap();
mod vs {
vulkano_shaders::shader! {
ty: "vertex",
src: r"
#version 450
layout(location = 0) in vec3 position;
void main() {
gl_Position = vec4(position, 1.0);
}
",
}
}
mod fs {
vulkano_shaders::shader! {
ty: "fragment",
src: r"
#version 450
layout(location = 0) out vec4 f_color;
void main() {
f_color = vec4(1.0, 0.0, 0.0, 1.0);
}
",
}
}
// At this point, OpenGL initialization would be finished. However in Vulkan it is not. OpenGL
// implicitly does a lot of computation whenever you draw. In Vulkan, you have to do all this
// manually.
// Before we draw, we have to create what is called a **pipeline**. A pipeline describes how
// a GPU operation is to be performed. It is similar to an OpenGL program, but it also contains
// many settings for customization, all baked into a single object. For drawing, we create
// a **graphics** pipeline, but there are also other types of pipeline.
let pipeline = {
// First, we load the shaders that the pipeline will use:
// the vertex shader and the fragment shader.
//
// A Vulkan shader can in theory contain multiple entry points, so we have to specify which
// one.
let vs = vs::load(device.clone())
.unwrap()
.entry_point("main")
.unwrap();
let fs = fs::load(device.clone())
.unwrap()
.entry_point("main")
.unwrap();
// Automatically generate a vertex input state from the vertex shader's input interface,
// that takes a single vertex buffer containing `Vertex` structs.
let vertex_input_state = MyVertex::per_vertex().definition(&vs).unwrap();
// Make a list of the shader stages that the pipeline will have.
let stages = [
PipelineShaderStageCreateInfo::new(vs),
PipelineShaderStageCreateInfo::new(fs),
];
// We must now create a **pipeline layout** object, which describes the locations and types of
// descriptor sets and push constants used by the shaders in the pipeline.
//
// Multiple pipelines can share a common layout object, which is more efficient.
// The shaders in a pipeline must use a subset of the resources described in its pipeline
// layout, but the pipeline layout is allowed to contain resources that are not present in the
// shaders; they can be used by shaders in other pipelines that share the same layout.
// Thus, it is a good idea to design shaders so that many pipelines have common resource
// locations, which allows them to share pipeline layouts.
let layout = PipelineLayout::new(
device.clone(),
// Since we only have one pipeline in this example, and thus one pipeline layout,
// we automatically generate the creation info for it from the resources used in the
// shaders. In a real application, you would specify this information manually so that you
// can re-use one layout in multiple pipelines.
PipelineDescriptorSetLayoutCreateInfo::from_stages(&stages)
.into_pipeline_layout_create_info(device.clone())
.unwrap(),
)
.unwrap();
// We describe the formats of attachment images where the colors, depth and/or stencil
// information will be written. The pipeline will only be usable with this particular
// configuration of the attachment images.
let subpass = PipelineRenderingCreateInfo {
// We specify a single color attachment that will be rendered to. When we begin
// rendering, we will specify a swapchain image to be used as this attachment, so here
// we set its format to be the same format as the swapchain.
color_attachment_formats: vec![Some(swapchain.image_format())],
..Default::default()
};
// Finally, create the pipeline.
GraphicsPipeline::new(
device.clone(),
None,
GraphicsPipelineCreateInfo {
stages: stages.into_iter().collect(),
// How vertex data is read from the vertex buffers into the vertex shader.
vertex_input_state: Some(vertex_input_state),
// How vertices are arranged into primitive shapes.
// The default primitive shape is a triangle.
input_assembly_state: Some(InputAssemblyState::default()),
// How primitives are transformed and clipped to fit the framebuffer.
// We use a resizable viewport, set to draw over the entire window.
viewport_state: Some(ViewportState::default()),
// How polygons are culled and converted into a raster of pixels.
// The default value does not perform any culling.
rasterization_state: Some(RasterizationState::default()),
// How multiple fragment shader samples are converted to a single pixel value.
// The default value does not perform any multisampling.
multisample_state: Some(MultisampleState::default()),
// How pixel values are combined with the values already present in the framebuffer.
// The default value overwrites the old value with the new one, without any blending.
color_blend_state: Some(ColorBlendState::with_attachment_states(
subpass.color_attachment_formats.len() as u32,
ColorBlendAttachmentState::default(),
)),
// Dynamic states allows us to specify parts of the pipeline settings when
// recording the command buffer, before we perform drawing.
// Here, we specify that the viewport should be dynamic.
dynamic_state: [DynamicState::Viewport].into_iter().collect(),
subpass: Some(subpass.into()),
..GraphicsPipelineCreateInfo::layout(layout)
},
)
.unwrap()
};
// Dynamic viewports allow us to recreate just the viewport when the window is resized.
// Otherwise we would have to recreate the whole pipeline.
let mut viewport = Viewport {
offset: [0.0, 0.0],
extent: [0.0, 0.0],
depth_range: 0.0..=1.0,
};
// When creating the swapchain, we only created plain images. To use them as an attachment for
// rendering, we must wrap then in an image view.
//
// Since we need to draw to multiple images, we are going to create a different image view for
// each image.
let mut attachment_image_views = window_size_dependent_setup(&images, &mut viewport);
// Before we can start creating and recording command buffers, we need a way of allocating
// them. Vulkano provides a command buffer allocator, which manages raw Vulkan command pools
// underneath and provides a safe interface for them.
let command_buffer_allocator = Arc::new(StandardCommandBufferAllocator::new(
device.clone(),
Default::default(),
));
// Initialization is finally finished!
// In some situations, the swapchain will become invalid by itself. This includes for example
// when the window is resized (as the images of the swapchain will no longer match the
// window's) or, on Android, when the application went to the background and goes back to the
// foreground.
//
// In this situation, acquiring a swapchain image or presenting it will return an error.
// Rendering to an image of that swapchain will not produce any error, but may or may not work.
// To continue rendering, we need to recreate the swapchain by creating a new swapchain. Here,
// we remember that we need to do this for the next loop iteration.
let mut recreate_swapchain = false;
// In the loop below we are going to submit commands to the GPU. Submitting a command produces
// an object that implements the `GpuFuture` trait, which holds the resources for as long as
// they are in use by the GPU.
//
// Destroying the `GpuFuture` blocks until the GPU is finished executing it. In order to avoid
// that, we store the submission of the previous frame here.
let mut previous_frame_end = Some(sync::now(device.clone()).boxed());
Self {
window,
device,
queue,
command_buffer_allocator,
viewport,
vertex_buffer,
recreate_swapchain,
swapchain,
previous_frame_end,
attachment_image_views,
pipeline,
}
}
pub fn render(&mut self) {
// Do not draw the frame when the screen size is zero. On Windows, this can
// occur when minimizing the application.
let image_extent: [u32; 2] = self.window.inner_size().into();
if image_extent.contains(&0) {
return;
}
// It is important to call this function from time to time, otherwise resources
// will keep accumulating and you will eventually reach an out of memory error.
// Calling this function polls various fences in order to determine what the GPU
// has already processed, and frees the resources that are no longer needed.
self.previous_frame_end.as_mut().unwrap().cleanup_finished();
// Whenever the window resizes we need to recreate everything dependent on the
// window size. In this example that includes the swapchain, the framebuffers and
// the dynamic state viewport.
if self.recreate_swapchain {
let (new_swapchain, new_images) = self
.swapchain
.recreate(SwapchainCreateInfo {
image_extent,
..self.swapchain.create_info()
})
.expect("failed to recreate swapchain");
self.swapchain = new_swapchain;
// Now that we have new swapchain images, we must create new image views from
// them as well.
self.attachment_image_views =
window_size_dependent_setup(&new_images, &mut self.viewport);
self.recreate_swapchain = false;
}
// Before we can draw on the output, we have to *acquire* an image from the
// swapchain. If no image is available (which happens if you submit draw commands
// too quickly), then the function will block. This operation returns the index of
// the image that we are allowed to draw upon.
//
// This function can block if no image is available. The parameter is an optional
// timeout after which the function call will return an error.
let (image_index, suboptimal, acquire_future) =
match acquire_next_image(self.swapchain.clone(), None).map_err(Validated::unwrap) {
Ok(r) => r,
Err(VulkanError::OutOfDate) => {
self.recreate_swapchain = true;
return;
}
Err(e) => panic!("failed to acquire next image: {e}"),
};
// `acquire_next_image` can be successful, but suboptimal. This means that the
// swapchain image will still work, but it may not display correctly. With some
// drivers this can be when the window resizes, but it may not cause the swapchain
// to become out of date.
if suboptimal {
self.recreate_swapchain = true;
}
// In order to draw, we have to build a *command buffer*. The command buffer object
// holds the list of commands that are going to be executed.
//
// Building a command buffer is an expensive operation (usually a few hundred
// microseconds), but it is known to be a hot path in the driver and is expected to
// be optimized.
//
// Note that we have to pass a queue family when we create the command buffer. The
// command buffer will only be executable on that given queue family.
let mut builder = RecordingCommandBuffer::new(
self.command_buffer_allocator.clone(),
self.queue.queue_family_index(),
CommandBufferLevel::Primary,
CommandBufferBeginInfo {
usage: CommandBufferUsage::OneTimeSubmit,
..Default::default()
},
)
.unwrap();
builder
// Before we can draw, we have to *enter a render pass*. We specify which
// attachments we are going to use for rendering here, which needs to match
// what was previously specified when creating the pipeline.
.begin_rendering(RenderingInfo {
// As before, we specify one color attachment, but now we specify the image
// view to use as well as how it should be used.
color_attachments: vec![Some(RenderingAttachmentInfo {
// `Clear` means that we ask the GPU to clear the content of this
// attachment at the start of rendering.
load_op: AttachmentLoadOp::Clear,
// `Store` means that we ask the GPU to store the rendered output in
// the attachment image. We could also ask it to discard the result.
store_op: AttachmentStoreOp::Store,
// The value to clear the attachment with. Here we clear it with a blue
// color.
//
// Only attachments that have `AttachmentLoadOp::Clear` are provided
// with clear values, any others should use `None` as the clear value.
clear_value: Some([0.0, 0.0, 1.0, 1.0].into()),
..RenderingAttachmentInfo::image_view(
// We specify image view corresponding to the currently acquired
// swapchain image, to use for this attachment.
self.attachment_image_views[image_index as usize].clone(),
)
})],
..Default::default()
})
.unwrap()
// We are now inside the first subpass of the render pass.
//
// TODO: Document state setting and how it affects subsequent draw commands.
.set_viewport(0, [self.viewport.clone()].into_iter().collect())
.unwrap()
.bind_pipeline_graphics(self.pipeline.clone())
.unwrap()
.bind_vertex_buffers(0, self.vertex_buffer.clone())
.unwrap();
unsafe {
builder
// We add a draw command.
.draw(self.vertex_buffer.len() as u32, 1, 0, 0)
.unwrap();
}
builder
// We leave the render pass.
.end_rendering()
.unwrap();
// Finish recording the command buffer by calling `end`.
let command_buffer = builder.end().unwrap();
let future = self
.previous_frame_end
.take()
.unwrap()
.join(acquire_future)
.then_execute(self.queue.clone(), command_buffer)
.unwrap()
// The color output is now expected to contain our triangle. But in order to
// show it on the screen, we have to *present* the image by calling
// `then_swapchain_present`.
//
// This function does not actually present the image immediately. Instead it
// submits a present command at the end of the queue. This means that it will
// only be presented once the GPU has finished executing the command buffer
// that draws the triangle.
.then_swapchain_present(
self.queue.clone(),
SwapchainPresentInfo::swapchain_image_index(self.swapchain.clone(), image_index),
)
.then_signal_fence_and_flush();
match future.map_err(Validated::unwrap) {
Ok(future) => {
self.previous_frame_end = Some(future.boxed());
}
Err(VulkanError::OutOfDate) => {
self.recreate_swapchain = true;
self.previous_frame_end = Some(sync::now(self.device.clone()).boxed());
}
Err(e) => {
println!("failed to flush future: {e}");
self.previous_frame_end = Some(sync::now(self.device.clone()).boxed());
}
}
}
}
#[derive(BufferContents, Vertex)]
#[repr(C)]
struct MyVertex {
#[format(R32G32B32_SFLOAT)]
position: [f32; 3],
}
fn window_size_dependent_setup(
images: &[Arc<Image>],
viewport: &mut Viewport,
) -> Vec<Arc<ImageView>> {
let extent = images[0].extent();
viewport.extent = [extent[0] as f32, extent[1] as f32];
images
.iter()
.map(|image| ImageView::new_default(image.clone()).unwrap())
.collect::<Vec<_>>()
}

15
vendor/egui-vulkano/Cargo.toml vendored Normal file
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@ -0,0 +1,15 @@
[package]
name = "egui-vulkano"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
vulkano = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
vulkano-shaders = { git = "https://github.com/vulkano-rs/vulkano.git", branch = "master" }
egui = "0.27.1"
image = "0.25.0"
ahash = "0.8.11"
egui-winit = "0.27.1"
winit = { version = "0.29.15",features = ["rwh_05"] }

0
src/modules/graphics/egui/integration.rs → vendor/egui-vulkano/src/integration.rs vendored
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0
src/modules/graphics/egui/mod.rs → vendor/egui-vulkano/src/lib.rs vendored
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0
src/modules/graphics/egui/renderer.rs → vendor/egui-vulkano/src/renderer.rs vendored
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0
src/modules/graphics/egui/utils.rs → vendor/egui-vulkano/src/utils.rs vendored
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