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740 commits

Author SHA1 Message Date
研究社交
6b38863313 Request WGPU Capabilities for Non-uniform Indexing (#6995)
# Objective

Fixes #6952 

## Solution

- Request WGPU capabilities `SAMPLED_TEXTURE_AND_STORAGE_BUFFER_ARRAY_NON_UNIFORM_INDEXING`, `SAMPLER_NON_UNIFORM_INDEXING` and `UNIFORM_BUFFER_AND_STORAGE_TEXTURE_ARRAY_NON_UNIFORM_INDEXING` when corresponding features are enabled.
- Add an example (`shaders/texture_binding_array`) illustrating (and testing) the use of non-uniform indexed textures and samplers.

![image](https://user-images.githubusercontent.com/16053640/209448310-defa4eae-6bcb-460d-9b3d-a3d2fad4316c.png)

## Changelog

- Added new capabilities for shader validation.
- Added example `shaders/texture_binding_array`.
2023-01-26 13:18:15 +00:00
Daniel Chia
c3a46822e1 Cascaded shadow maps. (#7064)
Co-authored-by: Robert Swain <robert.swain@gmail.com>

# Objective

Implements cascaded shadow maps for directional lights, which produces better quality shadows without needing excessively large shadow maps.

Fixes #3629

Before
![image](https://user-images.githubusercontent.com/1222141/210061203-bbd965a4-8d11-4cec-9a88-67fc59d0819f.png)

After
![image](https://user-images.githubusercontent.com/1222141/210061334-2ff15334-e6d7-4a31-9314-f34a7805cac6.png)


## Solution

Rather than rendering a single shadow map for directional light, the view frustum is divided into a series of cascades, each of which gets its own shadow map. The correct cascade is then sampled for shadow determination.

---

## Changelog

Directional lights now use cascaded shadow maps for improved shadow quality.


## Migration Guide

You no longer have to manually specify a `shadow_projection` for a directional light, and these settings should be removed. If customization of how cascaded shadow maps work is desired, modify the `CascadeShadowConfig` component instead.
2023-01-25 12:35:39 +00:00
James Liu
958a898b4a Remove App::add_sub_app (#7290)
# Objective
Fixes #7286. Both `App::add_sub_app` and `App::insert_sub_app` are rather redundant. Before 0.10 is shipped, one of them should be removed.

## Solution
Remove `App::add_sub_app` to prefer `App::insert_sub_app`.

Also hid away `SubApp::extract` since that can be a footgun if someone mutates it for whatever reason. Willing to revert this change if there are objections.

Perhaps we should make `SubApp: Deref<Target=App>`? Might change if we decide to move `!Send` resources into it.

---

## Changelog
Added: `SubApp::new`
Removed: `App::add_sub_app`

## Migration Guide
`App::add_sub_app` has been removed in favor of `App::insert_sub_app`. Use `SubApp::new` and insert it via `App::add_sub_app`

Old:

```rust
let mut sub_app = App::new()
// Build subapp here
app.add_sub_app(MySubAppLabel, sub_app);
```

New:

```rust
let mut sub_app = App::new()
// Build subapp here
app.insert_sub_app(MySubAppLabel, SubApp::new(sub_app, extract_fn));
```
2023-01-24 21:24:25 +00:00
James Liu
a85b740f24 Support recording multiple CommandBuffers in RenderContext (#7248)
# Objective
`RenderContext`, the core abstraction for running the render graph, currently only supports recording one `CommandBuffer` across the entire render graph. This means the entire buffer must be recorded sequentially, usually via the render graph itself. This prevents parallelization and forces users to only encode their commands in the render graph.

## Solution
Allow `RenderContext` to store a `Vec<CommandBuffer>` that it progressively appends to. By default, the context will not have a command encoder, but will create one as soon as either `begin_tracked_render_pass` or the `command_encoder` accesor is first called. `RenderContext::add_command_buffer` allows users to interrupt the current command encoder, flush it to the vec, append a user-provided `CommandBuffer` and reset the command encoder to start a new buffer. Users or the render graph will call `RenderContext::finish` to retrieve the series of buffers for submitting to the queue.

This allows users to encode their own `CommandBuffer`s outside of the render graph, potentially in different threads, and store them in components or resources.

Ideally, in the future, the core pipeline passes can run in `RenderStage::Render` systems and end up saving the completed command buffers to either `Commands` or a field in `RenderPhase`. 

## Alternatives
The alternative is to use to use wgpu's `RenderBundle`s, which can achieve similar results; however it's not universally available (no OpenGL, WebGL, and DX11).

---

## Changelog
Added: `RenderContext::new`
Added: `RenderContext::add_command_buffer`
Added: `RenderContext::finish`
Changed: `RenderContext::render_device` is now private. Use the accessor `RenderContext::render_device()` instead.
Changed: `RenderContext::command_encoder` is now private. Use the accessor `RenderContext::command_encoder()` instead.
Changed: `RenderContext` now supports adding external `CommandBuffer`s for inclusion into the render graphs. These buffers can be encoded outside of the render graph (i.e. in a system).

## Migration Guide
`RenderContext`'s fields are now private. Use the accessors on `RenderContext` instead, and construct it with `RenderContext::new`.
2023-01-22 00:21:55 +00:00
Jakob Hellermann
02637b609e fix clippy (#7302)
# Objective

- `cargo clippy` should work (except for clippy::type_complexity)

## Solution

- fix new clippy lints
2023-01-20 14:25:25 +00:00
Sjael
06ada2e93d Changed Msaa to Enum (#7292)
# Objective

Fixes #6931 

Continues #6954 by squashing `Msaa` to a flat enum

Helps out  #7215 

# Solution
```
pub enum Msaa {
    Off = 1,
    #[default]
    Sample4 = 4,
}
```

# Changelog

- Modified
    - `Msaa` is now enum
    - Defaults to 4 samples
    - Uses `.samples()` method to get the sample number as `u32`

# Migration Guide
```
let multi = Msaa { samples: 4 } 
// is now
let multi = Msaa::Sample4

multi.samples
// is now
multi.samples()
```



Co-authored-by: Sjael <jakeobrien44@gmail.com>
2023-01-20 14:25:21 +00:00
JoJoJet
5d5a504685 Revise SystemParam docs (#7274)
# Objective

Increase clarity in a few places for the `SystemParam` docs.
2023-01-20 13:39:23 +00:00
James Liu
dfea88c64d Basic adaptive batching for parallel query iteration (#4777)
# Objective
Fixes #3184. Fixes #6640. Fixes #4798. Using `Query::par_for_each(_mut)` currently requires a `batch_size` parameter, which affects how it chunks up large archetypes and tables into smaller chunks to run in parallel. Tuning this value is difficult, as the performance characteristics entirely depends on the state of the `World` it's being run on. Typically, users will just use a flat constant and just tune it by hand until it performs well in some benchmarks. However, this is both error prone and risks overfitting the tuning on that benchmark.

This PR proposes a naive automatic batch-size computation based on the current state of the `World`.

## Background
`Query::par_for_each(_mut)` schedules a new Task for every archetype or table that it matches. Archetypes/tables larger than the batch size are chunked into smaller tasks. Assuming every entity matched by the query has an identical workload, this makes the worst case scenario involve using a batch size equal to the size of the largest matched archetype or table. Conversely, a batch size of `max {archetype, table} size / thread count * COUNT_PER_THREAD` is likely the sweetspot where the overhead of scheduling tasks is minimized, at least not without grouping small archetypes/tables together.

There is also likely a strict minimum batch size below which the overhead of scheduling these tasks is heavier than running the entire thing single-threaded.

## Solution

- [x] Remove the `batch_size` from `Query(State)::par_for_each`  and friends.
- [x] Add a check to compute `batch_size = max {archeytpe/table} size / thread count  * COUNT_PER_THREAD`
- [x] ~~Panic if thread count is 0.~~ Defer to `for_each` if the thread count is 1 or less.
- [x] Early return if there is no matched table/archetype. 
- [x] Add override option for users have queries that strongly violate the initial assumption that all iterated entities have an equal workload.

---

## Changelog
Changed: `Query::par_for_each(_mut)` has been changed to `Query::par_iter(_mut)` and will now automatically try to produce a batch size for callers based on the current `World` state.

## Migration Guide
The `batch_size` parameter for `Query(State)::par_for_each(_mut)` has been removed. These calls will automatically compute a batch size for you. Remove these parameters from all calls to these functions.

Before:
```rust
fn parallel_system(query: Query<&MyComponent>) {
   query.par_for_each(32, |comp| {
        ...
   });
}
```

After:

```rust
fn parallel_system(query: Query<&MyComponent>) {
   query.par_iter().for_each(|comp| {
        ...
   });
}
```

Co-authored-by: Arnav Choubey <56453634+x-52@users.noreply.github.com>
Co-authored-by: Robert Swain <robert.swain@gmail.com>
Co-authored-by: François <mockersf@gmail.com>
Co-authored-by: Corey Farwell <coreyf@rwell.org>
Co-authored-by: Aevyrie <aevyrie@gmail.com>
2023-01-20 08:47:20 +00:00
Mike
2027af4c54 Pipelined Rendering (#6503)
# Objective

- Implement pipelined rendering
- Fixes #5082
- Fixes #4718

## User Facing Description

Bevy now implements piplelined rendering! Pipelined rendering allows the app logic and rendering logic to run on different threads leading to large gains in performance.

![image](https://user-images.githubusercontent.com/2180432/202049871-3c00b801-58ab-448f-93fd-471e30aba55f.png)
*tracy capture of many_foxes example*

To use pipelined rendering, you just need to add the `PipelinedRenderingPlugin`. If you're using `DefaultPlugins` then it will automatically be added for you on all platforms except wasm. Bevy does not currently support multithreading on wasm which is needed for this feature to work. If you aren't using `DefaultPlugins` you can add the plugin manually.

```rust
use bevy::prelude::*;
use bevy::render::pipelined_rendering::PipelinedRenderingPlugin;

fn main() {
    App::new()
        // whatever other plugins you need
        .add_plugin(RenderPlugin)
        // needs to be added after RenderPlugin
        .add_plugin(PipelinedRenderingPlugin)
        .run();
}
```

If for some reason pipelined rendering needs to be removed. You can also disable the plugin the normal way.

```rust
use bevy::prelude::*;
use bevy::render::pipelined_rendering::PipelinedRenderingPlugin;

fn main() {
    App::new.add_plugins(DefaultPlugins.build().disable::<PipelinedRenderingPlugin>());
}
```

### A setup function was added to plugins

A optional plugin lifecycle function was added to the `Plugin trait`. This function is called after all plugins have been built, but before the app runner is called. This allows for some final setup to be done. In the case of pipelined rendering, the function removes the sub app from the main app and sends it to the render thread.

```rust
struct MyPlugin;
impl Plugin for MyPlugin {
    fn build(&self, app: &mut App) {
        
    }
    
    // optional function
    fn setup(&self, app: &mut App) {
        // do some final setup before runner is called
    }
}
```

### A Stage for Frame Pacing

In the `RenderExtractApp` there is a stage labelled `BeforeIoAfterRenderStart` that systems can be added to.  The specific use case for this stage is for a frame pacing system that can delay the start of main app processing in render bound apps to reduce input latency i.e. "frame pacing". This is not currently built into bevy, but exists as `bevy`

```text
|-------------------------------------------------------------------|
|         | BeforeIoAfterRenderStart | winit events | main schedule |
| extract |---------------------------------------------------------|
|         | extract commands | rendering schedule                   |
|-------------------------------------------------------------------|
```

### Small API additions

* `Schedule::remove_stage`
* `App::insert_sub_app`
* `App::remove_sub_app` 
* `TaskPool::scope_with_executor`

## Problems and Solutions

### Moving render app to another thread

Most of the hard bits for this were done with the render redo. This PR just sends the render app back and forth through channels which seems to work ok. I originally experimented with using a scope to run the render task. It was cuter, but that approach didn't allow render to start before i/o processing. So I switched to using channels. There is much complexity in the coordination that needs to be done, but it's worth it. By moving rendering during i/o processing the frame times should be much more consistent in render bound apps. See https://github.com/bevyengine/bevy/issues/4691.

### Unsoundness with Sending World with NonSend resources

Dropping !Send things on threads other than the thread they were spawned on is considered unsound. The render world doesn't have any nonsend resources. So if we tell the users to "pretty please don't spawn nonsend resource on the render world", we can avoid this problem.

More seriously there is this https://github.com/bevyengine/bevy/pull/6534 pr, which patches the unsoundness by aborting the app if a nonsend resource is dropped on the wrong thread. ~~That PR should probably be merged before this one.~~ For a longer term solution we have this discussion going https://github.com/bevyengine/bevy/discussions/6552.

### NonSend Systems in render world

The render world doesn't have any !Send resources, but it does have a non send system. While Window is Send, winit does have some API's that can only be accessed on the main thread. `prepare_windows` in the render schedule thus needs to be scheduled on the main thread. Currently we run nonsend systems by running them on the thread the TaskPool::scope runs on. When we move render to another thread this no longer works.

To fix this, a new `scope_with_executor` method was added that takes a optional `TheadExecutor` that can only be ticked on the thread it was initialized on. The render world then holds a `MainThreadExecutor` resource which can be passed to the scope in the parallel executor that it uses to spawn it's non send systems on. 

### Scopes executors between render and main should not share tasks

Since the render world and the app world share the `ComputeTaskPool`. Because `scope` has executors for the ComputeTaskPool a system from the main world could run on the render thread or a render system could run on the main thread. This can cause performance problems because it can delay a stage from finishing. See https://github.com/bevyengine/bevy/pull/6503#issuecomment-1309791442 for more details.

To avoid this problem, `TaskPool::scope` has been changed to not tick the ComputeTaskPool when it's used by the parallel executor. In the future when we move closer to the 1 thread to 1 logical core model we may want to overprovide threads, because the render and main app threads don't do much when executing the schedule.

## Performance

My machine is Windows 11, AMD Ryzen 5600x, RX 6600

### Examples

#### This PR with pipelining vs Main

> Note that these were run on an older version of main and the performance profile has probably changed due to optimizations

Seeing a perf gain from 29% on many lights to 7% on many sprites.

<html>
<body>
<!--StartFragment--><google-sheets-html-origin>

  | percent |   |   | Diff |   |   | Main |   |   | PR |   |  
-- | -- | -- | -- | -- | -- | -- | -- | -- | -- | -- | -- | --
tracy frame time | mean | median | sigma | mean | median | sigma | mean | median | sigma | mean | median | sigma
many foxes | 27.01% | 27.34% | -47.09% | 1.58 | 1.55 | -1.78 | 5.85 | 5.67 | 3.78 | 4.27 | 4.12 | 5.56
many lights | 29.35% | 29.94% | -10.84% | 3.02 | 3.03 | -0.57 | 10.29 | 10.12 | 5.26 | 7.27 | 7.09 | 5.83
many animated sprites | 13.97% | 15.69% | 14.20% | 3.79 | 4.17 | 1.41 | 27.12 | 26.57 | 9.93 | 23.33 | 22.4 | 8.52
3d scene | 25.79% | 26.78% | 7.46% | 0.49 | 0.49 | 0.15 | 1.9 | 1.83 | 2.01 | 1.41 | 1.34 | 1.86
many cubes | 11.97% | 11.28% | 14.51% | 1.93 | 1.78 | 1.31 | 16.13 | 15.78 | 9.03 | 14.2 | 14 | 7.72
many sprites | 7.14% | 9.42% | -85.42% | 1.72 | 2.23 | -6.15 | 24.09 | 23.68 | 7.2 | 22.37 | 21.45 | 13.35

<!--EndFragment-->
</body>
</html>

#### This PR with pipelining disabled vs Main

Mostly regressions here. I don't think this should be a problem as users that are disabling pipelined rendering are probably running single threaded and not using the parallel executor. The regression is probably mostly due to the switch to use `async_executor::run` instead of `try_tick` and also having one less thread to run systems on. I'll do a writeup on why switching to `run` causes regressions, so we can try to eventually fix it. Using try_tick causes issues when pipeline rendering is enable as seen [here](https://github.com/bevyengine/bevy/pull/6503#issuecomment-1380803518)

<html>
<body>
<!--StartFragment--><google-sheets-html-origin>

  | percent |   |   | Diff |   |   | Main |   |   | PR no pipelining |   |  
-- | -- | -- | -- | -- | -- | -- | -- | -- | -- | -- | -- | --
tracy frame time | mean | median | sigma | mean | median | sigma | mean | median | sigma | mean | median | sigma
many foxes | -3.72% | -4.42% | -1.07% | -0.21 | -0.24 | -0.04 | 5.64 | 5.43 | 3.74 | 5.85 | 5.67 | 3.78
many lights | 0.29% | -0.30% | 4.75% | 0.03 | -0.03 | 0.25 | 10.29 | 10.12 | 5.26 | 10.26 | 10.15 | 5.01
many animated sprites | 0.22% | 1.81% | -2.72% | 0.06 | 0.48 | -0.27 | 27.12 | 26.57 | 9.93 | 27.06 | 26.09 | 10.2
3d scene | -15.79% | -14.75% | -31.34% | -0.3 | -0.27 | -0.63 | 1.9 | 1.83 | 2.01 | 2.2 | 2.1 | 2.64
many cubes | -2.85% | -3.30% | 0.00% | -0.46 | -0.52 | 0 | 16.13 | 15.78 | 9.03 | 16.59 | 16.3 | 9.03
many sprites | 2.49% | 2.41% | 0.69% | 0.6 | 0.57 | 0.05 | 24.09 | 23.68 | 7.2 | 23.49 | 23.11 | 7.15

<!--EndFragment-->
</body>
</html>

### Benchmarks

Mostly the same except empty_systems has got a touch slower. The maybe_pipelining+1 column has the compute task pool with an extra thread over default added. This is because pipelining loses one thread over main to execute systems on, since the main thread no longer runs normal systems.

<details>
<summary>Click Me</summary>

```text
group                                                             main                                         maybe-pipelining+1
-----                                                             -------------------------                ------------------
busy_systems/01x_entities_03_systems                              1.07     30.7±1.32µs        ? ?/sec      1.00     28.6±1.35µs        ? ?/sec
busy_systems/01x_entities_06_systems                              1.10     52.1±1.10µs        ? ?/sec      1.00     47.2±1.08µs        ? ?/sec
busy_systems/01x_entities_09_systems                              1.00     74.6±1.36µs        ? ?/sec      1.00     75.0±1.93µs        ? ?/sec
busy_systems/01x_entities_12_systems                              1.03    100.6±6.68µs        ? ?/sec      1.00     98.0±1.46µs        ? ?/sec
busy_systems/01x_entities_15_systems                              1.11    128.5±3.53µs        ? ?/sec      1.00    115.5±1.02µs        ? ?/sec
busy_systems/02x_entities_03_systems                              1.16     50.4±2.56µs        ? ?/sec      1.00     43.5±3.00µs        ? ?/sec
busy_systems/02x_entities_06_systems                              1.00     87.1±1.27µs        ? ?/sec      1.05     91.5±7.15µs        ? ?/sec
busy_systems/02x_entities_09_systems                              1.04    139.9±6.37µs        ? ?/sec      1.00    134.0±1.06µs        ? ?/sec
busy_systems/02x_entities_12_systems                              1.05    179.2±3.47µs        ? ?/sec      1.00    170.1±3.17µs        ? ?/sec
busy_systems/02x_entities_15_systems                              1.01    219.6±3.75µs        ? ?/sec      1.00    218.1±2.55µs        ? ?/sec
busy_systems/03x_entities_03_systems                              1.10     70.6±2.33µs        ? ?/sec      1.00     64.3±0.69µs        ? ?/sec
busy_systems/03x_entities_06_systems                              1.02    130.2±3.11µs        ? ?/sec      1.00    128.0±1.34µs        ? ?/sec
busy_systems/03x_entities_09_systems                              1.00   195.0±10.11µs        ? ?/sec      1.00    194.8±1.41µs        ? ?/sec
busy_systems/03x_entities_12_systems                              1.01    261.7±4.05µs        ? ?/sec      1.00    259.8±4.11µs        ? ?/sec
busy_systems/03x_entities_15_systems                              1.00    318.0±3.04µs        ? ?/sec      1.06   338.3±20.25µs        ? ?/sec
busy_systems/04x_entities_03_systems                              1.00     82.9±0.63µs        ? ?/sec      1.02     84.3±0.63µs        ? ?/sec
busy_systems/04x_entities_06_systems                              1.01    181.7±3.65µs        ? ?/sec      1.00    179.8±1.76µs        ? ?/sec
busy_systems/04x_entities_09_systems                              1.04    265.0±4.68µs        ? ?/sec      1.00    255.3±1.98µs        ? ?/sec
busy_systems/04x_entities_12_systems                              1.00    335.9±3.00µs        ? ?/sec      1.05   352.6±15.84µs        ? ?/sec
busy_systems/04x_entities_15_systems                              1.00   418.6±10.26µs        ? ?/sec      1.08   450.2±39.58µs        ? ?/sec
busy_systems/05x_entities_03_systems                              1.07    114.3±0.95µs        ? ?/sec      1.00    106.9±1.52µs        ? ?/sec
busy_systems/05x_entities_06_systems                              1.08    229.8±2.90µs        ? ?/sec      1.00    212.3±4.18µs        ? ?/sec
busy_systems/05x_entities_09_systems                              1.03    329.3±1.99µs        ? ?/sec      1.00    319.2±2.43µs        ? ?/sec
busy_systems/05x_entities_12_systems                              1.06    454.7±6.77µs        ? ?/sec      1.00    430.1±3.58µs        ? ?/sec
busy_systems/05x_entities_15_systems                              1.03    554.6±6.15µs        ? ?/sec      1.00   538.4±23.87µs        ? ?/sec
contrived/01x_entities_03_systems                                 1.00     14.0±0.15µs        ? ?/sec      1.08     15.1±0.21µs        ? ?/sec
contrived/01x_entities_06_systems                                 1.04     28.5±0.37µs        ? ?/sec      1.00     27.4±0.44µs        ? ?/sec
contrived/01x_entities_09_systems                                 1.00     41.5±4.38µs        ? ?/sec      1.02     42.2±2.24µs        ? ?/sec
contrived/01x_entities_12_systems                                 1.06     55.9±1.49µs        ? ?/sec      1.00     52.6±1.36µs        ? ?/sec
contrived/01x_entities_15_systems                                 1.02     68.0±2.00µs        ? ?/sec      1.00     66.5±0.78µs        ? ?/sec
contrived/02x_entities_03_systems                                 1.03     25.2±0.38µs        ? ?/sec      1.00     24.6±0.52µs        ? ?/sec
contrived/02x_entities_06_systems                                 1.00     46.3±0.49µs        ? ?/sec      1.04     48.1±4.13µs        ? ?/sec
contrived/02x_entities_09_systems                                 1.02     70.4±0.99µs        ? ?/sec      1.00     68.8±1.04µs        ? ?/sec
contrived/02x_entities_12_systems                                 1.06     96.8±1.49µs        ? ?/sec      1.00     91.5±0.93µs        ? ?/sec
contrived/02x_entities_15_systems                                 1.02    116.2±0.95µs        ? ?/sec      1.00    114.2±1.42µs        ? ?/sec
contrived/03x_entities_03_systems                                 1.00     33.2±0.38µs        ? ?/sec      1.01     33.6±0.45µs        ? ?/sec
contrived/03x_entities_06_systems                                 1.00     62.4±0.73µs        ? ?/sec      1.01     63.3±1.05µs        ? ?/sec
contrived/03x_entities_09_systems                                 1.02     96.4±0.85µs        ? ?/sec      1.00     94.8±3.02µs        ? ?/sec
contrived/03x_entities_12_systems                                 1.01    126.3±4.67µs        ? ?/sec      1.00    125.6±2.27µs        ? ?/sec
contrived/03x_entities_15_systems                                 1.03    160.2±9.37µs        ? ?/sec      1.00    156.0±1.53µs        ? ?/sec
contrived/04x_entities_03_systems                                 1.02     41.4±3.39µs        ? ?/sec      1.00     40.5±0.52µs        ? ?/sec
contrived/04x_entities_06_systems                                 1.00     78.9±1.61µs        ? ?/sec      1.02     80.3±1.06µs        ? ?/sec
contrived/04x_entities_09_systems                                 1.02    121.8±3.97µs        ? ?/sec      1.00    119.2±1.46µs        ? ?/sec
contrived/04x_entities_12_systems                                 1.00    157.8±1.48µs        ? ?/sec      1.01    160.1±1.72µs        ? ?/sec
contrived/04x_entities_15_systems                                 1.00    197.9±1.47µs        ? ?/sec      1.08   214.2±34.61µs        ? ?/sec
contrived/05x_entities_03_systems                                 1.00     49.1±0.33µs        ? ?/sec      1.01     49.7±0.75µs        ? ?/sec
contrived/05x_entities_06_systems                                 1.00     95.0±0.93µs        ? ?/sec      1.00     94.6±0.94µs        ? ?/sec
contrived/05x_entities_09_systems                                 1.01    143.2±1.68µs        ? ?/sec      1.00    142.2±2.00µs        ? ?/sec
contrived/05x_entities_12_systems                                 1.00    191.8±2.03µs        ? ?/sec      1.01    192.7±7.88µs        ? ?/sec
contrived/05x_entities_15_systems                                 1.02    239.7±3.71µs        ? ?/sec      1.00    235.8±4.11µs        ? ?/sec
empty_systems/000_systems                                         1.01     47.8±0.67ns        ? ?/sec      1.00     47.5±2.02ns        ? ?/sec
empty_systems/001_systems                                         1.00  1743.2±126.14ns        ? ?/sec     1.01  1761.1±70.10ns        ? ?/sec
empty_systems/002_systems                                         1.01      2.2±0.04µs        ? ?/sec      1.00      2.2±0.02µs        ? ?/sec
empty_systems/003_systems                                         1.02      2.7±0.09µs        ? ?/sec      1.00      2.7±0.16µs        ? ?/sec
empty_systems/004_systems                                         1.00      3.1±0.11µs        ? ?/sec      1.00      3.1±0.24µs        ? ?/sec
empty_systems/005_systems                                         1.00      3.5±0.05µs        ? ?/sec      1.11      3.9±0.70µs        ? ?/sec
empty_systems/010_systems                                         1.00      5.5±0.12µs        ? ?/sec      1.03      5.7±0.17µs        ? ?/sec
empty_systems/015_systems                                         1.00      7.9±0.19µs        ? ?/sec      1.06      8.4±0.16µs        ? ?/sec
empty_systems/020_systems                                         1.00     10.4±1.25µs        ? ?/sec      1.02     10.6±0.18µs        ? ?/sec
empty_systems/025_systems                                         1.00     12.4±0.39µs        ? ?/sec      1.14     14.1±1.07µs        ? ?/sec
empty_systems/030_systems                                         1.00     15.1±0.39µs        ? ?/sec      1.05     15.8±0.62µs        ? ?/sec
empty_systems/035_systems                                         1.00     16.9±0.47µs        ? ?/sec      1.07     18.0±0.37µs        ? ?/sec
empty_systems/040_systems                                         1.00     19.3±0.41µs        ? ?/sec      1.05     20.3±0.39µs        ? ?/sec
empty_systems/045_systems                                         1.00     22.4±1.67µs        ? ?/sec      1.02     22.9±0.51µs        ? ?/sec
empty_systems/050_systems                                         1.00     24.4±1.67µs        ? ?/sec      1.01     24.7±0.40µs        ? ?/sec
empty_systems/055_systems                                         1.05     28.6±5.27µs        ? ?/sec      1.00     27.2±0.70µs        ? ?/sec
empty_systems/060_systems                                         1.02     29.9±1.64µs        ? ?/sec      1.00     29.3±0.66µs        ? ?/sec
empty_systems/065_systems                                         1.02     32.7±3.15µs        ? ?/sec      1.00     32.1±0.98µs        ? ?/sec
empty_systems/070_systems                                         1.00     33.0±1.42µs        ? ?/sec      1.03     34.1±1.44µs        ? ?/sec
empty_systems/075_systems                                         1.00     34.8±0.89µs        ? ?/sec      1.04     36.2±0.70µs        ? ?/sec
empty_systems/080_systems                                         1.00     37.0±1.82µs        ? ?/sec      1.05     38.7±1.37µs        ? ?/sec
empty_systems/085_systems                                         1.00     38.7±0.76µs        ? ?/sec      1.05     40.8±0.83µs        ? ?/sec
empty_systems/090_systems                                         1.00     41.5±1.09µs        ? ?/sec      1.04     43.2±0.82µs        ? ?/sec
empty_systems/095_systems                                         1.00     43.6±1.10µs        ? ?/sec      1.04     45.2±0.99µs        ? ?/sec
empty_systems/100_systems                                         1.00     46.7±2.27µs        ? ?/sec      1.03     48.1±1.25µs        ? ?/sec
```
</details>

## Migration Guide

### App `runner` and SubApp `extract` functions are now required to be Send 

This was changed to enable pipelined rendering. If this breaks your use case please report it as these new bounds might be able to be relaxed.

## ToDo

* [x] redo benchmarking
* [x] reinvestigate the perf of the try_tick -> run change for task pool scope
2023-01-19 23:45:46 +00:00
IceSentry
b3224e135b Add depth and normal prepass (#6284)
# Objective

- Add a configurable prepass
- A depth prepass is useful for various shader effects and to reduce overdraw. It can be expansive depending on the scene so it's important to be able to disable it if you don't need any effects that uses it or don't suffer from excessive overdraw.
- The goal is to eventually use it for things like TAA, Ambient Occlusion, SSR and various other techniques that can benefit from having a prepass.

## Solution

The prepass node is inserted before the main pass. It runs for each `Camera3d` with a prepass component (`DepthPrepass`, `NormalPrepass`). The presence of one of those components is used to determine which textures are generated in the prepass. When any prepass is enabled, the depth buffer generated will be used by the main pass to reduce overdraw.

The prepass runs for each `Material` created with the `MaterialPlugin::prepass_enabled` option set to `true`. You can overload the shader used by the prepass by using `Material::prepass_vertex_shader()` and/or `Material::prepass_fragment_shader()`. It will also use the `Material::specialize()` for more advanced use cases. It is enabled by default on all materials.

The prepass works on opaque materials and materials using an alpha mask. Transparent materials are ignored.

The `StandardMaterial` overloads the prepass fragment shader to support alpha mask and normal maps.

---

## Changelog

- Add a new `PrepassNode` that runs before the main pass
- Add a `PrepassPlugin` to extract/prepare/queue the necessary data
- Add a `DepthPrepass` and `NormalPrepass` component to control which textures will be created by the prepass and available in later passes.
- Add a new `prepass_enabled` flag to the `MaterialPlugin` that will control if a material uses the prepass or not.
- Add a new `prepass_enabled` flag to the `PbrPlugin` to control if the StandardMaterial uses the prepass. Currently defaults to false.
- Add `Material::prepass_vertex_shader()` and `Material::prepass_fragment_shader()` to control the prepass from the `Material`

## Notes

In bevy's sample 3d scene, the performance is actually worse when enabling the prepass, but on more complex scenes the performance is generally better. I would like more testing on this, but @DGriffin91 has reported a very noticeable improvements in some scenes.

The prepass is also used by @JMS55 for TAA and GTAO

discord thread: <https://discord.com/channels/691052431525675048/1011624228627419187>

This PR was built on top of the work of multiple people

Co-Authored-By: @superdump 
Co-Authored-By: @robtfm 
Co-Authored-By: @JMS55 

Co-authored-by: Charles <IceSentry@users.noreply.github.com>
Co-authored-by: JMS55 <47158642+JMS55@users.noreply.github.com>
2023-01-19 22:11:13 +00:00
Aceeri
ddfafab971 Windows as Entities (#5589)
# Objective

Fix https://github.com/bevyengine/bevy/issues/4530

- Make it easier to open/close/modify windows by setting them up as `Entity`s with a `Window` component.
- Make multiple windows very simple to set up. (just add a `Window` component to an entity and it should open)

## Solution

- Move all properties of window descriptor to ~components~ a component.
- Replace `WindowId` with `Entity`.
- ~Use change detection for components to update backend rather than events/commands. (The `CursorMoved`/`WindowResized`/... events are kept for user convenience.~
  Check each field individually to see what we need to update, events are still kept for user convenience.

---

## Changelog

- `WindowDescriptor` renamed to `Window`.
    - Width/height consolidated into a `WindowResolution` component.
    - Requesting maximization/minimization is done on the [`Window::state`] field.
- `WindowId` is now `Entity`.

## Migration Guide

- Replace `WindowDescriptor` with `Window`.
    - Change `width` and `height` fields in a `WindowResolution`, either by doing
      ```rust
      WindowResolution::new(width, height) // Explicitly
      // or using From<_> for tuples for convenience
      (1920., 1080.).into()
      ```
- Replace any `WindowCommand` code to just modify the `Window`'s fields directly  and creating/closing windows is now by spawning/despawning an entity with a `Window` component like so:
  ```rust
  let window = commands.spawn(Window { ... }).id(); // open window
  commands.entity(window).despawn(); // close window
  ```

## Unresolved
- ~How do we tell when a window is minimized by a user?~
  ~Currently using the `Resize(0, 0)` as an indicator of minimization.~
  No longer attempting to tell given how finnicky this was across platforms, now the user can only request that a window be maximized/minimized.
  
 ## Future work
 - Move `exit_on_close` functionality out from windowing and into app(?)
 - https://github.com/bevyengine/bevy/issues/5621
 - https://github.com/bevyengine/bevy/issues/7099
 - https://github.com/bevyengine/bevy/issues/7098


Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2023-01-19 00:38:28 +00:00
James Liu
88b353c4b1 Reduce the use of atomics in the render phase (#7084)
# Objective
Speed up the render phase of rendering. An extension of #6885.

`SystemState::get` increments the `World`'s change tick atomically every time it's called. This is notably more expensive than a unsynchronized increment, even without contention. It also updates the archetypes, even when there has been nothing to update when it's called repeatedly.

## Solution
Piggyback off of #6885. Split `SystemState::validate_world_and_update_archetypes` into `SystemState::validate_world` and `SystemState::update_archetypes`, and make the later `pub`. Then create safe variants of `SystemState::get_unchecked_manual` that still validate the `World` but do not update archetypes and do not increment the change tick using `World::read_change_tick` and `World::change_tick`. Update `RenderCommandState` to call `SystemState::update_archetypes` in `Draw::prepare` and `SystemState::get_manual` in `Draw::draw`.

## Performance
There's a slight perf benefit (~2%) for `main_opaque_pass_3d` on `many_foxes` (340.39 us -> 333.32 us)

![image](https://user-images.githubusercontent.com/3137680/210643746-25320b98-3e2b-4a95-8084-892c23bb8b4e.png)

## Alternatives
We can change `SystemState::get` to not increment the `World`'s change tick. Though this would still put updating the archetypes and an atomic read on the hot-path.

---

## Changelog
Added: `SystemState::get_manual`
Added: `SystemState::get_manual_mut`
Added: `SystemState::update_archetypes`
2023-01-18 02:19:19 +00:00
wyhaya
1cc663f290 Improve Color::hex performance (#6940)
# Objective

Improve `Color::hex` performance

#### Bench

```bash
running 2 tests
test bench_color_hex_after  ... bench:           4 ns/iter (+/- 0)
test bench_color_hex_before ... bench:          14 ns/iter (+/- 0)
```

## Solution

Use `const fn` decode hex value.

---

## Changelog

Rename

```rust
HexColorError::Hex(FromHexError) -> HexColorError::Char(char)
```
2023-01-17 13:26:43 +00:00
ira
6b4795c428 Add Camera::viewport_to_world_2d (#6557)
# Objective

Add a simpler and less expensive 2D variant of `viewport_to_world`.

Co-authored-by: devil-ira <justthecooldude@gmail.com>
2023-01-16 23:13:11 +00:00
Daniel Chia
517deda215 Make PipelineCache internally mutable. (#7205)
# Objective

- Allow rendering queue systems to use a `Res<PipelineCache>` even for queueing up new rendering pipelines. This is part of unblocking parallel execution queue systems.

## Solution

- Make `PipelineCache` internally mutable w.r.t to queueing new pipelines. Pipelines are no longer immediately updated into the cache state, but rather queued into a Vec. The Vec of pending new pipelines is then later processed at the same time we actually create the queued pipelines on the GPU device.

---

## Changelog

`PipelineCache` no longer requires mutable access in order to queue render / compute pipelines.

## Migration Guide

* Most usages of `resource_mut::<PipelineCache>` and `ResMut<PipelineCache>` can be changed to `resource::<PipelineCache>` and `Res<PipelineCache>` as long as they don't use any methods requiring mutability - the only public method requiring it is `process_queue`.
2023-01-16 15:41:14 +00:00
JoJoJet
d9265db344 Implement ReadOnlySystemParam for Extract<> (#7182)
# Objective

- `Extract` does not implement `ReadOnlySystemParam` even though it should.
- Noticed by @hymm on discord: https://discord.com/channels/691052431525675048/749335865876021248/1063535818267963543

## Solution

Implement the trait.
2023-01-13 22:35:43 +00:00
Kurt Kühnert
76de9f9407 Improve render phase documentation (#7016)
# Objective

The documentation of the bevy_render crate is still pretty incomplete.
This PR follows up on #6885 and improves the documentation of the `render_phase` module.
This module contains one of our most important rendering abstractions and the current documentation is pretty confusing. This PR tries to clarify what all of these pieces are for and how they work together to form bevy`s modular rendering logic.

## Solution

### Code Reformating
- I have moved the `rangefinder` into the `render_phase` module since it is only used there.
- I have moved the `PhaseItem` (and the `BatchedPhaseItem`) from `render_phase::draw` over to `render_phase::mod`. This does not change the public-facing API since they are reexported anyway, but this change makes the relation between `RenderPhase` and `PhaseItem` clear and easier to discover.

### Documentation
- revised all documentation in the `render_phase` module
- added a module-level explanation of how `RenderPhase`s, `RenderPass`es, `PhaseItem`s, `Draw` functions, and `RenderCommands` relate to each other and how they are used

---

## Changelog

- The `rangefinder` module has been moved into the `render_phase` module.

## Migration Guide

- The `rangefinder` module has been moved into the `render_phase` module.

```rust
//old
use bevy::render::rangefinder::*;

// new
use bevy::render::render_phase::rangefinder::*;
```
2023-01-12 15:11:58 +00:00
François
aa3dd14bad gate an import used only for a debug assert (#7165)
# Objective

- There is a warning when building in release:
```
warning: unused import: `bevy_ecs::system::Local`
 --> crates/bevy_render/src/extract_resource.rs:5:5
  |
5 | use bevy_ecs::system::Local;
  |     ^^^^^^^^^^^^^^^^^^^^^^^
  |
  = note: `#[warn(unused_imports)]` on by default
```
- It's used 59751d6e33/crates/bevy_render/src/extract_resource.rs (L47)
- Fix it

## Solution

- Gate the import
- repeat of #5320
2023-01-11 20:52:04 +00:00
Guillaume Gomez
15ee98db8d Add "transparent" doc alias for Color::NONE (#7160)
As mentioned in https://github.com/bevyengine/bevy/pull/6530. It allows to not create a new constant and simply having it to show up in the documentation when someone is looking for "transparent" (case insensitive) in rustdoc search.

cc @alice-i-cecile
2023-01-11 17:01:11 +00:00
Joshua Chapman
9dd8fbc570 Added Ref to allow immutable access with change detection (#7097)
# Objective

- Fixes #7066 

## Solution

- Split the ChangeDetection trait into ChangeDetection and ChangeDetectionMut
- Added Ref as equivalent to &T with change detection

---

## Changelog

- Support for Ref which allow inspecting change detection flags in an immutable way

## Migration Guide

- While bevy prelude includes both ChangeDetection and ChangeDetectionMut any code explicitly referencing ChangeDetection might need to be updated to ChangeDetectionMut or both. Specifically any reading logic requires ChangeDetection while writes requires ChangeDetectionMut.

use bevy_ecs::change_detection::DetectChanges -> use bevy_ecs::change_detection::{DetectChanges, DetectChangesMut}

- Previously Res had methods to access change detection `is_changed` and `is_added` those methods have been moved to the `DetectChanges` trait. If you are including bevy prelude you will have access to these types otherwise you will need to `use bevy_ecs::change_detection::DetectChanges` to continue using them.
2023-01-11 15:41:54 +00:00
张林伟
0d2cdb450d Fix beta clippy lints (#7154)
# Objective

- When I run `cargo run -p ci` for my pr locally using latest beta toolchain, the ci failed due to [uninlined_format_args](https://rust-lang.github.io/rust-clippy/master/index.html#uninlined_format_args) and [needless_lifetimes](https://rust-lang.github.io/rust-clippy/master/index.html#needless_lifetimes) lints

## Solution

- Fix lints according to clippy suggestions.
2023-01-11 09:51:22 +00:00
James Liu
aaf384ae58 Panic on dropping NonSend in non-origin thread. (#6534)
# Objective

Fixes #3310. Fixes #6282. Fixes #6278. Fixes #3666.

## Solution
Split out `!Send` resources into `NonSendResources`. Add a `origin_thread_id` to all `!Send` Resources, check it on dropping `NonSendResourceData`, if there's a mismatch, panic. Moved all of the checks that `MainThreadValidator` would do into `NonSendResources` instead.

All `!Send` resources now individually track which thread they were inserted from. This is validated against for every access, mutation, and drop that could be done against the value. 

A regression test using an altered version of the example from #3310 has been added.

This is a stopgap solution for the current status quo. A full solution may involve fully removing `!Send` resources/components from `World`, which will likely require a much more thorough design on how to handle the existing in-engine and ecosystem use cases.

This PR also introduces another breaking change:

```rust
    use bevy_ecs::prelude::*;

    #[derive(Resource)]
    struct Resource(u32);

    fn main() {
        let mut world = World::new();
        world.insert_resource(Resource(1));
        world.insert_non_send_resource(Resource(2));
        let res = world.get_resource_mut::<Resource>().unwrap();
        assert_eq!(res.0, 2);
    }
```

This code will run correctly on 0.9.1 but not with this PR, since NonSend resources and normal resources have become actual distinct concepts storage wise.

## Changelog
Changed: Fix soundness bug with `World: Send`. Dropping a `World` that contains a `!Send` resource on the wrong thread will now panic.

## Migration Guide
Normal resources and `NonSend` resources no longer share the same backing storage. If `R: Resource`, then `NonSend<R>` and `Res<R>` will return different instances from each other. If you are using both `Res<T>` and `NonSend<T>` (or their mutable variants), to fetch the same resources, it's strongly advised to use `Res<T>`.
2023-01-09 20:40:34 +00:00
James Liu
bef9bc1844 Reduce branching in TrackedRenderPass (#7053)
# Objective
Speed up the render phase for rendering.

## Solution
 - Follow up #6988 and make the internals of atomic IDs `NonZeroU32`. This niches the `Option`s of the IDs in draw state, which reduces the size and branching behavior when evaluating for equality.
 - Require `&RenderDevice` to get the device's `Limits` when initializing a `TrackedRenderPass` to preallocate the bind groups and vertex buffer state in `DrawState`, this removes the branch on needing to resize those `Vec`s.

## Performance
This produces a similar speed up akin to that of #6885. This shows an approximate 6% speed up in `main_opaque_pass_3d` on `many_foxes` (408.79 us -> 388us). This should be orthogonal to the gains seen there.

![image](https://user-images.githubusercontent.com/3137680/209906239-e430f026-63c2-4b95-957e-a2045b810d79.png)

---

## Changelog
Added: `RenderContext::begin_tracked_render_pass`.
Changed: `TrackedRenderPass` now requires a `&RenderDevice` on construction.
Removed: `bevy_render::render_phase::DrawState`. It was not usable in any form outside of `bevy_render`.

## Migration Guide
TODO
2023-01-09 19:24:56 +00:00
Mike
d76b53bf4d Separate Extract from Sub App Schedule (#7046)
# Objective

- This pulls out some of the changes to Plugin setup and sub apps from #6503 to make that PR easier to review.
- Separate the extract stage from running the sub app's schedule to allow for them to be run on separate threads in the future
- Fixes #6990

## Solution

- add a run method to `SubApp` that runs the schedule
- change the name of `sub_app_runner` to extract to make it clear that this function is only for extracting data between the main app and the sub app
- remove the extract stage from the sub app schedule so it can be run separately. This is done by adding a `setup` method to the `Plugin` trait that runs after all plugin build methods run. This is required to allow the extract stage to be removed from the schedule after all the plugins have added their systems to the stage. We will also need the setup method for pipelined rendering to setup the render thread. See e3267965e1/crates/bevy_render/src/pipelined_rendering.rs (L57-L98)

## Changelog

- Separate SubApp Extract stage from running the sub app schedule.

## Migration Guide

### SubApp `runner` has conceptually been changed to an `extract` function.

The `runner` no longer is in charge of running the sub app schedule. It's only concern is now moving data between the main world and the sub app. The `sub_app.app.schedule` is now run for you after the provided function is called.

```rust
// before
fn main() {
    let sub_app = App::empty();
    sub_app.add_stage(MyStage, SystemStage::parallel());
    
    App::new().add_sub_app(MySubApp, sub_app, move |main_world, sub_app| {
        extract(app_world, render_app);
        render_app.app.schedule.run();
    });
}

// after
fn main() {
        let sub_app = App::empty();
    sub_app.add_stage(MyStage, SystemStage::parallel());
    
    App::new().add_sub_app(MySubApp, sub_app, move |main_world, sub_app| {
        extract(app_world, render_app);
        // schedule is automatically called for you after extract is run
    });
}
```
2023-01-09 19:24:54 +00:00
IceSentry
ee4e98f8a9 Support storage buffers in derive AsBindGroup (#6129)
# Objective

- Storage buffers are useful and not currently supported by the `AsBindGroup` derive which means you need to expand the macro if you need a storage buffer

## Solution

- Add a new `#[storage]` attribute to the derive `AsBindGroup` macro.
	- Support and optional `read_only` parameter that defaults to false when not present.
	- Support visibility parameters like the texture and sampler attributes.

---

## Changelog

- Add a new `#[storage(index)]` attribute to the derive `AsBindGroup` macro.


Co-authored-by: IceSentry <IceSentry@users.noreply.github.com>
2023-01-09 18:50:55 +00:00
Robert Swain
16748b8387 bevy_render: Run calculate_bounds in the end-of-update exclusive systems (#7127)
# Objective

- Avoid slower than necessary first frame after spawning many entities due to them not having `Aabb`s and so being marked visible
  - Avoids unnecessarily large system and VRAM allocations as a consequence

## Solution

- I noticed when debugging the `many_cubes` stress test in Xcode that the `MeshUniform` binding was much larger than it needed to be. I realised that this was because initially, all mesh entities are marked as being visible because they don't have `Aabb`s because `calculate_bounds` is being run in `PostUpdate` and there are no system commands applications before executing the visibility check systems that need the `Aabb`s. The solution then is to run the `calculate_bounds` system just before the previous system commands are applied which is at the end of the `Update` stage.
2023-01-09 13:41:59 +00:00
JoJoJet
1efdbb7e3e Remove the SystemParamState trait and remove types like ResState (#6919)
Spiritual successor to #5205.
Actual successor to #6865.

# Objective

Currently, system params are defined using three traits: `SystemParam`, `ReadOnlySystemParam`, `SystemParamState`. The behavior for each param is specified by the `SystemParamState` trait, while `SystemParam` simply defers to the state.

Splitting the traits in this way makes it easier to implement within macros, but it increases the cognitive load. Worst of all, this approach requires each `MySystemParam` to have a public `MySystemParamState` type associated with it.

## Solution

* Merge the trait `SystemParamState` into `SystemParam`.
* Remove all trivial `SystemParam` state types. 
  * `OptionNonSendMutState<T>`: you will not be missed.

---

- [x] Fix/resolve the remaining test failure.

## Changelog

* Removed the trait `SystemParamState`, merging its functionality into `SystemParam`.

## Migration Guide

**Note**: this should replace the migration guide for #6865.
This is relative to Bevy 0.9, not main.

The traits `SystemParamState` and `SystemParamFetch` have been removed, and their functionality has been transferred to `SystemParam`.


```rust
// Before (0.9)
impl SystemParam for MyParam<'_, '_> {
    type State = MyParamState;
}
unsafe impl SystemParamState for MyParamState {
    fn init(world: &mut World, system_meta: &mut SystemMeta) -> Self { ... }
}
unsafe impl<'w, 's> SystemParamFetch<'w, 's> for MyParamState {
    type Item = MyParam<'w, 's>;
    fn get_param(&mut self, ...) -> Self::Item;
}
unsafe impl ReadOnlySystemParamFetch for MyParamState { }

// After (0.10)
unsafe impl SystemParam for MyParam<'_, '_> {
    type State = MyParamState;
    type Item<'w, 's> = MyParam<'w, 's>;
    fn init_state(world: &mut World, system_meta: &mut SystemMeta) -> Self::State { ... }
    fn get_param<'w, 's>(state: &mut Self::State, ...) -> Self::Item<'w, 's>;
}
unsafe impl ReadOnlySystemParam for MyParam<'_, '_> { }
```

The trait `ReadOnlySystemParamFetch` has been replaced with `ReadOnlySystemParam`.

```rust
// Before
unsafe impl ReadOnlySystemParamFetch for MyParamState {}

// After
unsafe impl ReadOnlySystemParam for MyParam<'_, '_> {}
```
2023-01-07 23:20:32 +00:00
Rob Parrett
3dd8b42f72 Fix various typos (#7096)
I stumbled across a typo in some docs. Fixed some more while I was in there.
2023-01-06 00:43:30 +00:00
Anton Pushkarev
4fff0ce837 Add a more familiar hex color entry (#7060)
# Objective

- When using `Color::hex` for the first time, I was confused by the fact that I can't specify colors using #, which is much more familiar.
- In the code editor (if there is support) there is a preview of the color, which is very convenient.
![Снимок экрана от 2022-12-30 02-54-00](https://user-images.githubusercontent.com/69102503/209990973-f6fc3bc6-08f6-4e51-a9a9-1de8a675c82d.png)

## Solution

- Allow you to enter colors like `#ff33f2` and use the `.strip_prefix` method to delete the `#` character.
2023-01-04 23:40:42 +00:00
James Liu
2d727afaf7 Flatten render commands (#6885)
# Objective
Speed up the render phase of rendering. Simplify the trait structure for render commands.

## Solution

 - Merge `EntityPhaseItem` into `PhaseItem` (`EntityPhaseItem::entity` -> `PhaseItem::entity`)
 - Merge `EntityRenderCommand` into `RenderCommand`.
 - Add two associated types to `RenderCommand`: `RenderCommand::ViewWorldQuery` and `RenderCommand::WorldQuery`.
 - Use the new associated types to construct two `QueryStates`s for `RenderCommandState`.
 - Hoist any `SQuery<T>` fetches in `EntityRenderCommand`s into the aformentioned two queries. Batch fetch them all at once.

## Performance
`main_opaque_pass_3d` is slightly faster on `many_foxes` (427.52us -> 401.15us)

![image](https://user-images.githubusercontent.com/3137680/206359804-9928b20a-7d92-41f8-bf7d-6e8c5cc802f0.png)

The shadow pass node is also slightly faster (344.52 -> 338.24us)

![image](https://user-images.githubusercontent.com/3137680/206359977-1212198d-f933-49a0-80f1-62ff88eb5727.png)

## Future Work

 - Can we hoist the view level queries out of the core loop?

---

## Changelog
Added: `PhaseItem::entity`
Added: `RenderCommand::ViewWorldQuery` associated type.
Added: `RenderCommand::ItemorldQuery` associated type.
Added: `Draw<T>::prepare` optional trait function.
Removed: `EntityPhaseItem` trait

## Migration Guide
TODO
2023-01-04 01:13:30 +00:00
Kurt Kühnert
b833bdab17 Allow to reuse the same RenderPass for multiple RenderPhases (#7043)
# Objective

- The recently merged PR #7013 does not allow multiple `RenderPhase`s to share the same `RenderPass`.
- Due to the introduced overhead we want to minimize the number of `RenderPass`es recorded during each frame.

## Solution

- Take a constructed `TrackedRenderPass` instead of a `RenderPassDiscriptor` as a parameter to the `RenderPhase::render` method.

---

## Changelog

To enable multiple `RenderPhases` to share the same `TrackedRenderPass`,
the `RenderPhase::render` signature has changed.

```rust
pub fn render<'w>(
  &self,
  render_pass: &mut TrackedRenderPass<'w>,
  world: &'w World,
  view: Entity)
```


Co-authored-by: Kurt Kühnert <51823519+kurtkuehnert@users.noreply.github.com>
2023-01-02 21:39:54 +00:00
ZoOL
b027d402e2 Update Box vertices comment (#7055)
Old comment is Z-up ,  Fix comment for bevy Y-up

# Objective

- Update Box vertices comment for bevy Y-up

## Solution

- Update comment for Y-up

---

## Changelog

None

## Migration Guide

None
2022-12-29 23:45:07 +00:00
Jinlei Li
09c64ffe9f Remove redundant bitwise OR TEXTURE_ADAPTER_SPECIFIC_FORMAT_FEATURES (#7033)
# Objective

`TEXTURE_ADAPTER_SPECIFIC_FORMAT_FEATURES`  was already included in `adapter.features()` on non-wasm target, and since it is the default value for `WgpuSettings.features`, the subsequent code will also combine into this feature:
b6066c30b6/crates/bevy_render/src/renderer/mod.rs (L155-L156)
2022-12-27 16:27:55 +00:00
Kurt Kühnert
ca85f6c903 Extract common RenderPhase code into render method (#7013)
# Objective

All `RenderPhases` follow the same render procedure.
The same code is duplicated multiple times across the codebase.

## Solution

I simply extracted this code into a method on the `RenderPhase`. 
This avoids code duplication and makes setting up new `RenderPhases` easier.

---

## Changelog

### Changed

You can now set up the rendering code of a `RenderPhase` directly using the `RenderPhase::render` method, instead of implementing it manually in your render graph node.
2022-12-27 03:29:59 +00:00
Jinlei Li
741a91ed46 Replace WgpuAdapterInfo with RenderAdapterInfo in the documentation. (#7036)
# Objective

Fixes #6598
In addition, macOS can also support GL backends through ANGLE.
2022-12-26 19:47:01 +00:00
Aceeri
8ad9a7c7c4 Rename camera "priority" to "order" (#6908)
# Objective
The documentation for camera priority is very confusing at the moment, it requires a bit of "double negative" kind of thinking.

# Solution
Flipping the wording on the documentation to reflect more common usecases like having an overlay camera and also renaming it to "order", since priority implies that it will override the other camera rather than have both run.
2022-12-25 00:39:30 +00:00
ickk
a0448eca2f enum Visibility component (#6320)
Consolidation of all the feedback about #6271 as well as the addition of an "unconditionally visible" mode.

# Objective

The current implementation of the `Visibility` struct simply wraps a boolean.. which seems like an odd pattern when rust has such nice enums that allow for more expression using pattern-matching. 

Additionally as it stands Bevy only has two settings for visibility of an entity: 
- "unconditionally hidden" `Visibility { is_visible: false }`, 
- "inherit visibility from parent" `Visibility { is_visible: true }`
   where a root level entity set to "inherit" is visible. 

Note that given the behaviour, the current naming of the inner field is a little deceptive or unclear.

Using an enum for `Visibility` opens the door for adding an extra behaviour mode. This PR adds a new "unconditionally visible" mode, which causes an entity to be visible even if its Parent entity is hidden. There should not really be any performance cost to the addition of this new mode.

--
The recently added `toggle` method is removed in this PR, as its semantics could be confusing with 3 variants.

## Solution

Change the Visibility component into
```rust
enum Visibility {
  Hidden,    // unconditionally hidden
  Visible,   // unconditionally visible
  Inherited, // inherit visibility from parent
}
```

---

## Changelog

### Changed

`Visibility` is now an enum

## Migration Guide

- evaluation of the `visibility.is_visible` field should now check for `visibility == Visibility::Inherited`.
- setting the `visibility.is_visible` field should now directly set the value: `*visibility = Visibility::Inherited`.
- usage of `Visibility::VISIBLE` or `Visibility::INVISIBLE` should now use `Visibility::Inherited` or `Visibility::Hidden` respectively.
- `ComputedVisibility::INVISIBLE` and `SpatialBundle::VISIBLE_IDENTITY` have been renamed to `ComputedVisibility::HIDDEN` and `SpatialBundle::INHERITED_IDENTITY` respectively.






Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2022-12-25 00:39:29 +00:00
Kurt Kühnert
965ebeff59 Replace UUID based IDs with a atomic-counted ones (#6988)
# Objective

- alternative to #2895 
- as mentioned in #2535 the uuid based ids in the render module should be replaced with atomic-counted ones

## Solution
- instead of generating a random UUID for each render resource, this implementation increases an atomic counter
- this might be replaced by the ids of wgpu if they expose them directly in the future

- I have not benchmarked this solution yet, but this should be slightly faster in theory.
- Bevymark does not seem to be affected much by this change, which is to be expected.

- Nothing of our API has changed, other than that the IDs have lost their IMO rather insignificant documentation.
- Maybe the documentation could be added back into the macro, but this would complicate the code.
2022-12-25 00:23:15 +00:00
ira
15b19b930c Move 'startup' Resource WgpuSettings into the RenderPlugin (#6946)
# Objective
The `WgpuSettings` resource is only used during plugin build. Move it into the `RenderPlugin` struct.

Changing these settings requires re-initializing the render context, which is currently not supported.
If it is supported in the future it should probably be more explicit than changing a field on a resource, maybe something similar to the `CreateWindow` event.

## Migration Guide
```rust
// Before (0.9)
App::new()
    .insert_resource(WgpuSettings { .. })
    .add_plugins(DefaultPlugins)
// After (0.10)
App::new()
    .add_plugins(DefaultPlugins.set(RenderPlugin {
        wgpu_settings: WgpuSettings { .. },
    }))
```

Co-authored-by: devil-ira <justthecooldude@gmail.com>
2022-12-20 16:17:11 +00:00
James Liu
1523c38ce8 Directly extract joints into SkinnedMeshJoints (#6833)
# Objective
Following #4402, extract systems run on the render world instead of the main world, and allow retained state operations on it's resources. We're currently extracting to `ExtractedJoints` and then copying it twice during Prepare. Once into `SkinnedMeshJoints` and again into the actual GPU buffer.

This makes #4902 obsolete.

## Solution
Cut out the middle copy and directly extract joints into `SkinnedMeshJoints` and remove `ExtractedJoints` entirely.

This also removes the per-frame allocation that is being made to send `ExtractedJoints` into the render world.

## Performance
On my local machine, this halves the time for `prepare_skinned _meshes` on `many_foxes` (195.75us -> 93.93us on average).

![image](https://user-images.githubusercontent.com/3137680/205427455-ab91a8a3-a6b0-4f0a-bd48-e54482c563b2.png)

---

## Changelog
Added: `BufferVec::truncate`
Added: `BufferVec::extend`
Changed: `SkinnedMeshJoints::build` now takes a `&mut BufferVec` instead of a `&mut Vec` as a parameter.
Removed: `ExtractedJoints`.

## Migration Guide
`ExtractedJoints` has been removed. Read the bound bones from `SkinnedMeshJoints` instead.
2022-12-20 16:17:05 +00:00
James Liu
bd615cbf8c Shrink DrawFunctionId (#6944)
# Objective
This includes one part of #4899. The aim is to improve CPU-side rendering performance by reducing the memory footprint and bandwidth required.

## Solution
Shrink `DrawFunctionId` to `u32`. Enforce that `u32 as usize` conversions are always safe by forbidding compilation on 16-bit platforms. This shouldn't be a breaking change since #4736 disabled compilation of `bevy_ecs` on those platforms.

Shrinking `DrawFunctionId` shrinks all of the `PhaseItem` types, which is integral to sort and render phase performance.

Testing against `many_cubes`, the sort phase improved by 22% (174.21us -> 141.76us per frame).

![image](https://user-images.githubusercontent.com/3137680/207345422-a512b4cf-1680-46e0-9973-ea72494ebdfe.png)

The main opaque pass also imrproved by 9% (5.49ms -> 5.03ms)

![image](https://user-images.githubusercontent.com/3137680/207346436-cbee7209-6450-4964-b566-0b64cfa4b4ea.png)

Overall frame time improved by 5% (14.85ms -> 14.09ms)

![image](https://user-images.githubusercontent.com/3137680/207346895-9de8676b-ef37-4cb9-8445-8493f5f90003.png)

There will be a followup PR that likewise shrinks `CachedRenderPipelineId` which should yield similar results on top of these improvements.
2022-12-20 15:40:42 +00:00
Jonah Henriksson
38d567d2c5 Make AsBindGroup unsized (#6937)
# Objective

`AsBindGroup` can't be used as a trait object because of the constraint `Sized` and because of the associated function.

This is a problem for [`bevy_atmosphere`](https://github.com/JonahPlusPlus/bevy_atmosphere) because it needs to use a trait that depends on `AsBindGroup` as a trait object, for switching out different shaders at runtime. The current solution it employs is reimplementing the trait and derive macro into that trait, instead of constraining to `AsBindGroup`.

## Solution

Remove the `Sized` constraint from `AsBindGroup` and add the constraint `where Self: Sized` to the associated function `bind_group_layout`. Also change `PreparedBindGroup<T: AsBindGroup>` to `PreparedBindGroup<T>` and use it as `PreparedBindGroup<Self::Data>` instead of `PreparedBindGroup<Self>`.

This weakens the constraints, but increases the flexibility of `AsBindGroup`.
I'm not entirely sure why the `Sized` constraint was there, because it worked fine without it (maybe @cart wasn't aware of use cases for `AsBindGroup` as a trait object or this was just leftover from legacy code?).

---

## Changelog

- `AsBindGroup` can be used as a trait object.
2022-12-16 01:40:15 +00:00
Rob Parrett
ec0478d100 Fix clippy lints and failed test with Rust 1.66 (#6945)
# Objective

[Rust 1.66](https://blog.rust-lang.org/inside-rust/2022/12/12/1.66.0-prerelease.html) is coming in a few days, and bevy doesn't build with it.

Fix that.

## Solution

Replace output from a trybuild test, and fix a few new instances of `needless_borrow` and `unnecessary_cast` that are now caught.

## Note

Due to the trybuild test, this can't be merged until 1.66 is released.
2022-12-15 18:05:15 +00:00
Tianlan Zhou
b1a634cade Fix alpha channel in RGB32F image texture format conversion (#6914)
# Objective

The following code:

```rs
use bevy::prelude::Image;
use image::{ DynamicImage, GenericImage, Rgba };

fn main() {
    let mut dynamic_image = DynamicImage::new_rgb32f(1, 1);
    dynamic_image.put_pixel(0, 0, Rgba([1, 1, 1, 1]));
    
    let image = Image::from_dynamic(dynamic_image, false); // Panic!
    println!("{image:?}");
}
```

Can cause an assertion failed:

```
thread 'main' panicked at 'assertion failed: `(left == right)`
  left: `16`,
 right: `14`: Pixel data, size and format have to match', .../bevy_render-0.9.1/src/texture/image.rs:209:9
stack backtrace:
...
   4: core::panicking::assert_failed<usize,usize>
             at /rustc/897e37553bba8b42751c67658967889d11ecd120/library/core/src/panicking.rs:181
   5: bevy_render::texture::image::Image::new
             at .../bevy_render-0.9.1/src/texture/image.rs:209
   6: bevy_render::texture::image::Image::from_dynamic
             at .../bevy_render-0.9.1/src/texture/image_texture_conversion.rs:159
   7: bevy_test::main
             at ./src/main.rs:8
...
```

It seems to be cause by a copypasta in `crates/bevy_render/src/texture/image_texture_conversion.rs`. Let's fix it.

## Solution

```diff
  // DynamicImage::ImageRgb32F(image) => {
- let a = u16::max_value();
+ let a = 1f32;
```

This will fix the conversion.

---

## Changelog

- Fixed the alpha channel of the `image::DynamicImage::ImageRgb32F` to `bevy_render::texture::Image` conversion in `bevy_render::texture::Image::from_dynamic()`.
2022-12-11 18:46:47 +00:00
IceSentry
36691769ba Document undocumented features of AsBindGroup derive (#6910)
# Objective

- https://github.com/bevyengine/bevy/pull/5364 Added a few features to the AsBindGroup derive, but if you don't know they exist they aren't documented anywhere.


## Solution

- Document the new arguments in the doc block for the derive.
2022-12-11 18:46:45 +00:00
ira
ea8f74692f Add with_a and friends to Color (#6899)
# Objective
```rust
// makes clippy complain about 'taking a mutable reference to a `const` item'
let color = *Color::RED.set_a(0.5);

// Now you can do
let color = Color::RED.with_a(0.5);
```

## Changelog
Added `with_r`, `with_g`, `with_b`, and `with_a` to `Color`.

Co-authored-by: devil-ira <justthecooldude@gmail.com>
2022-12-11 18:34:16 +00:00
JoJoJet
1af73624fa Simplify trait hierarchy for SystemParam (#6865)
# Objective

* Implementing a custom `SystemParam` by hand requires implementing three traits -- four if it is read-only.
* The trait `SystemParamFetch<'w, 's>` is a workaround from before we had generic associated types, and is no longer necessary.

## Solution

* Combine the trait `SystemParamFetch` with `SystemParamState`.
    * I decided to remove the `Fetch` name and keep the `State` name, since the former was consistently conflated with the latter.
* Replace the trait `ReadOnlySystemParamFetch` with `ReadOnlySystemParam`, which simplifies trait bounds in generic code.

---

## Changelog

- Removed the trait `SystemParamFetch`, moving its functionality to `SystemParamState`.
- Replaced the trait `ReadOnlySystemParamFetch` with `ReadOnlySystemParam`.

## Migration Guide

The trait `SystemParamFetch` has been removed, and its functionality has been transferred to `SystemParamState`.

```rust
// Before
impl SystemParamState for MyParamState {
    fn init(world: &mut World, system_meta: &mut SystemMeta) -> Self { ... }
}
impl<'w, 's> SystemParamFetch<'w, 's> for MyParamState {
    type Item = MyParam<'w, 's>;
    fn get_param(...) -> Self::Item;
}

// After
impl SystemParamState for MyParamState {
    type Item<'w, 's> = MyParam<'w, 's>; // Generic associated types!
    fn init(world: &mut World, system_meta: &mut SystemMeta) -> Self { ... }
    fn get_param<'w, 's>(...) -> Self::Item<'w, 's>;
}
```

The trait `ReadOnlySystemParamFetch` has been replaced with `ReadOnlySystemParam`.

```rust
// Before
unsafe impl ReadOnlySystemParamFetch for MyParamState {}

// After
unsafe impl<'w, 's> ReadOnlySystemParam for MyParam<'w, 's> {}
```
2022-12-11 18:34:14 +00:00
Mike
6903a9411b get pixel size from wgpu (#6820)
# Objective

- Get rid of giant match statement to get PixelInfo. 
- This will allow for supporting any texture that is uncompressed, instead of people needing to PR in any textures that are supported in wgpu, but not bevy.

## Solution

- More conservative alternative to https://github.com/bevyengine/bevy/pull/6788, where we don't try to make some of the calculations correct for compressed types.
- Delete `PixelInfo` and get the pixel_size directly from wgpu. Data from wgpu is here: https://docs.rs/wgpu-types/0.14.0/src/wgpu_types/lib.rs.html#2359
- Panic if the texture is a compressed type. An integer byte size of a pixel is no longer a valid concept when talking about compressed textures.
- All internal usages use `pixel_size` and not `pixel_info` and are on uncompressed formats. Most of these usages are on either explicit texture formats or slightly indirectly through `TextureFormat::bevy_default()`. The other uses are in `TextureAtlas` and have other calculations that assumes the texture is uncompressed. 

## Changelog

- remove `PixelInfo` and get `pixel_size` from wgpu

## Migration Guide

`PixelInfo` has been removed. `PixelInfo::components` is equivalent to `texture_format.describe().components`. `PixelInfo::type_size` can be gotten from `texture_format.describe().block_size/ texture_format.describe().components`. But note this can yield incorrect results for some texture types like Rg11b10Float.
2022-12-11 18:22:07 +00:00
Jay Pavlina
2e7925d8d0 Add cylinder shape (#6809)
# Objective

Adds a cylinder shape. Fixes #2282.

## Solution

- I added a custom cylinder shape, taken from [here](https://github.com/rparrett/typey_birb/blob/main/src/cylinder.rs) with permission from @rparrett.
- I also added the cylinder shape to the `3d_shapes` example scene.

---

## Changelog

- Added cylinder shape

Co-Authored-By: Rob Parrett <robparrett@gmail.com>
Co-Authored-By: davidhof <7483215+davidhof@users.noreply.github.com>
2022-12-11 18:22:05 +00:00
François
8eedc8f69d ShaderDefVal: add an UInt option (#6881)
# Objective

- Fixes #6841 
- In some case, the number of maximum storage buffers is `u32::MAX` which doesn't fit in a `i32`

## Solution

- Add an option to have a `u32` in a `ShaderDefVal`
2022-12-07 23:10:27 +00:00