Commit graph

102 commits

Author SHA1 Message Date
MinerSebas
9effc3e9b3 Replace .insert_resource(T::default()) calls with init_resource::<T>() (#2807)
# Objective

I added the [INSERT_RESOURCE_WITH_DEFAULT](https://minersebas.github.io/bevy_lint/bevy_lint/static.INSERT_RESOURCE_WITH_DEFAULT.html) Lint to [bevy_lint](https://github.com/MinerSebas/bevy_lint) and while Testing it on bevy itself, I found several places where the Lint correctly triggered.



## Solution

Replace `.insert_resource(T::default())` calls with `init_resource::<T>()`
2021-09-13 14:02:28 +00:00
François
b724a0f586 Down with the system! (#2496)
# Objective

- Remove all the `.system()` possible.
- Check for remaining missing cases.

## Solution

- Remove all `.system()`, fix compile errors
- 32 calls to `.system()` remains, mostly internals, the few others should be removed after #2446
2021-07-27 23:42:36 +00:00
bjorn3
6d6bc2a8b4 Merge AppBuilder into App (#2531)
This is extracted out of eb8f973646476b4a4926ba644a77e2b3a5772159 and includes some additional changes to remove all references to AppBuilder and fix examples that still used App::build() instead of App::new(). In addition I didn't extract the sub app feature as it isn't ready yet.

You can use `git diff --diff-filter=M eb8f973646476b4a4926ba644a77e2b3a5772159` to find all differences in this PR. The `--diff-filtered=M` filters all files added in the original commit but not in this commit away.

Co-Authored-By: Carter Anderson <mcanders1@gmail.com>
2021-07-27 20:21:06 +00:00
Aevyrie
85b17294b9 Fix PBR regression for unlit materials (#2197)
Fixes the frag shader for unlit materials by correcting the scope of the `#ifndef` to include the light functions. Closes #2190, introduced in #2112.

Tested by changing materials in the the `3d_scene` example to be unlit. Unsure how to prevent future regressions without creating a test case scene that will catch these runtime panics.
2021-05-17 22:45:07 +00:00
François
afaf4ad3da update for wgpu 0.8 (#1959)
Changes to get Bevy to compile with wgpu master.

With this, on a Mac:
* 2d examples look fine
* ~~3d examples crash with an error specific to metal about a compilation error~~
* 3d examples work fine after enabling feature `wgpu/cross`


Feature `wgpu/cross` seems to be needed only on some platforms, not sure how to know which. It was introduced in https://github.com/gfx-rs/wgpu-rs/pull/826
2021-05-02 20:45:25 +00:00
Alice Cecile
e4e32598a9 Cargo fmt with unstable features (#1903)
Fresh version of #1670 off the latest main.

Mostly fixing documentation wrapping.
2021-04-21 23:19:34 +00:00
Mariusz Kryński
fa6d4dbd53 add render_to_texture example (#1927)
Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2021-04-19 21:07:19 +00:00
MinerSebas
20673dbe0e Doctest improvments (#1937) 2021-04-16 19:13:08 +00:00
Jonas Matser
5c4f3554f9 Rename Light => PointLight and remove unused properties (#1778)
After an inquiry on Reddit about support for Directional Lights and the unused properties on Light, I wanted to clean it up, to hopefully make it ever so slightly more clear for anyone wanting to add additional light types.

Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2021-04-13 02:21:24 +00:00
Grindv1k
9ac9088933 Remove leftover pbr_textures example (#1845)
`examples/3d/pbr_textures.rs` was missing in both `Cargo.toml` and in the examples
`README.md`.
2021-04-08 17:42:15 +00:00
Jonas Matser
9a78addff0 Add PBR textures (#1632)
This PR adds normal maps on top of PBR #1554. Once that PR lands, the changes should look simpler.

Edit: Turned out to be so little extra work, I added metallic/roughness texture too. And occlusion and emissive.

Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2021-03-26 21:00:34 +00:00
Carter Anderson
81b53d15d4 Make Commands and World apis consistent (#1703)
Resolves #1253 #1562

This makes the Commands apis consistent with World apis. This moves to a "type state" pattern (like World) where the "current entity" is stored in an `EntityCommands` builder.

In general this tends to cuts down on indentation and line count. It comes at the cost of needing to type `commands` more and adding more semicolons to terminate expressions.

I also added `spawn_bundle` to Commands because this is a common enough operation that I think its worth providing a shorthand.
2021-03-23 00:23:40 +00:00
Jonas Matser
45b2db7070 Rebase of existing PBR work (#1554)
This is a rebase of StarArawns PBR work from #261 with IngmarBitters work from #1160 cherry-picked on top.

I had to make a few minor changes to make some intermediate commits compile and the end result is not yet 100% what I expected, so there's a bit more work to do.

Co-authored-by: John Mitchell <toasterthegamer@gmail.com>
Co-authored-by: Ingmar Bitter <ingmar.bitter@gmail.com>
2021-03-20 03:22:33 +00:00
François
bbb9849506 Replace default method calls from Glam types with explicit const (#1645)
it's a followup of #1550 

I think calling explicit methods/values instead of default makes the code easier to read: "what is `Quat::default()`" vs "Oh, it's `Quat::IDENTITY`"

`Transform::identity()` and `GlobalTransform::identity()` can also be consts and I replaced the calls to their `default()` impl with `identity()`
2021-03-13 18:23:39 +00:00
davier
8acb0d2012 Fix cargo doc warnings (#1640)
Fixes all warnings from `cargo doc --all`.
Those related to code blocks were introduced in #1612, but re-formatting using the experimental features in `rustfmt.toml` doesn't seem to reintroduce them.
2021-03-13 18:23:38 +00:00
Carter Anderson
b17f8a4bce format comments (#1612)
Uses the new unstable comment formatting features added to rustfmt.toml.
2021-03-11 00:27:30 +00:00
MinerSebas
8f363544ad Reorder Imports in Examples (#1598)
This only affected 2 Examples:
* `generic_reflection`: For some reason, a `pub use` statement was used. This was removed, and alphabetically ordered.
* `wireframe`: This example used the `bevy_internal` crate directly. Changed to use `bevy` instead.

All other Example Imports are correct.

One potential subjective change is the `removel_detection` example. 
Unlike all other Examples, it has its (first) explanatory comment before the Imports.
2021-03-09 01:07:01 +00:00
Cameron Hart
f61e44db28 Update glam to 0.13.0. (#1550)
See https://github.com/bitshifter/glam-rs/blob/master/CHANGELOG.md for details on changes.

Co-authored-by: Cameron Hart <c_hart@wargaming.net>
2021-03-06 19:39:16 +00:00
Carter Anderson
3a2a68852c Bevy ECS V2 (#1525)
# Bevy ECS V2

This is a rewrite of Bevy ECS (basically everything but the new executor/schedule, which are already awesome). The overall goal was to improve the performance and versatility of Bevy ECS. Here is a quick bulleted list of changes before we dive into the details:

* Complete World rewrite
* Multiple component storage types:
    * Tables: fast cache friendly iteration, slower add/removes (previously called Archetypes)
    * Sparse Sets: fast add/remove, slower iteration
* Stateful Queries (caches query results for faster iteration. fragmented iteration is _fast_ now)
* Stateful System Params (caches expensive operations. inspired by @DJMcNab's work in #1364)
* Configurable System Params (users can set configuration when they construct their systems. once again inspired by @DJMcNab's work)
* Archetypes are now "just metadata", component storage is separate
* Archetype Graph (for faster archetype changes)
* Component Metadata
    * Configure component storage type
    * Retrieve information about component size/type/name/layout/send-ness/etc
    * Components are uniquely identified by a densely packed ComponentId
    * TypeIds are now totally optional (which should make implementing scripting easier)
* Super fast "for_each" query iterators
* Merged Resources into World. Resources are now just a special type of component
* EntityRef/EntityMut builder apis (more efficient and more ergonomic)
* Fast bitset-backed `Access<T>` replaces old hashmap-based approach everywhere
* Query conflicts are determined by component access instead of archetype component access (to avoid random failures at runtime)
    * With/Without are still taken into account for conflicts, so this should still be comfy to use
* Much simpler `IntoSystem` impl
* Significantly reduced the amount of hashing throughout the ecs in favor of Sparse Sets (indexed by densely packed ArchetypeId, ComponentId, BundleId, and TableId)
* Safety Improvements
    * Entity reservation uses a normal world reference instead of unsafe transmute
    * QuerySets no longer transmute lifetimes
    * Made traits "unsafe" where relevant
    * More thorough safety docs
* WorldCell
    * Exposes safe mutable access to multiple resources at a time in a World 
* Replaced "catch all" `System::update_archetypes(world: &World)` with `System::new_archetype(archetype: &Archetype)`
* Simpler Bundle implementation
* Replaced slow "remove_bundle_one_by_one" used as fallback for Commands::remove_bundle with fast "remove_bundle_intersection"
* Removed `Mut<T>` query impl. it is better to only support one way: `&mut T` 
* Removed with() from `Flags<T>` in favor of `Option<Flags<T>>`, which allows querying for flags to be "filtered" by default 
* Components now have is_send property (currently only resources support non-send)
* More granular module organization
* New `RemovedComponents<T>` SystemParam that replaces `query.removed::<T>()`
* `world.resource_scope()` for mutable access to resources and world at the same time
* WorldQuery and QueryFilter traits unified. FilterFetch trait added to enable "short circuit" filtering. Auto impled for cases that don't need it
* Significantly slimmed down SystemState in favor of individual SystemParam state
* System Commands changed from `commands: &mut Commands` back to `mut commands: Commands` (to allow Commands to have a World reference)

Fixes #1320

## `World` Rewrite

This is a from-scratch rewrite of `World` that fills the niche that `hecs` used to. Yes, this means Bevy ECS is no longer a "fork" of hecs. We're going out our own!

(the only shared code between the projects is the entity id allocator, which is already basically ideal)

A huge shout out to @SanderMertens (author of [flecs](https://github.com/SanderMertens/flecs)) for sharing some great ideas with me (specifically hybrid ecs storage and archetype graphs). He also helped advise on a number of implementation details.

## Component Storage (The Problem)

Two ECS storage paradigms have gained a lot of traction over the years:

* **Archetypal ECS**: 
    * Stores components in "tables" with static schemas. Each "column" stores components of a given type. Each "row" is an entity.
    * Each "archetype" has its own table. Adding/removing an entity's component changes the archetype.
    * Enables super-fast Query iteration due to its cache-friendly data layout
    * Comes at the cost of more expensive add/remove operations for an Entity's components, because all components need to be copied to the new archetype's "table"
* **Sparse Set ECS**:
    * Stores components of the same type in densely packed arrays, which are sparsely indexed by densely packed unsigned integers (Entity ids)
    * Query iteration is slower than Archetypal ECS because each entity's component could be at any position in the sparse set. This "random access" pattern isn't cache friendly. Additionally, there is an extra layer of indirection because you must first map the entity id to an index in the component array.
    * Adding/removing components is a cheap, constant time operation 

Bevy ECS V1, hecs, legion, flec, and Unity DOTS are all "archetypal ecs-es". I personally think "archetypal" storage is a good default for game engines. An entity's archetype doesn't need to change frequently in general, and it creates "fast by default" query iteration (which is a much more common operation). It is also "self optimizing". Users don't need to think about optimizing component layouts for iteration performance. It "just works" without any extra boilerplate.

Shipyard and EnTT are "sparse set ecs-es". They employ "packing" as a way to work around the "suboptimal by default" iteration performance for specific sets of components. This helps, but I didn't think this was a good choice for a general purpose engine like Bevy because:

1. "packs" conflict with each other. If bevy decides to internally pack the Transform and GlobalTransform components, users are then blocked if they want to pack some custom component with Transform.
2. users need to take manual action to optimize

Developers selecting an ECS framework are stuck with a hard choice. Select an "archetypal" framework with "fast iteration everywhere" but without the ability to cheaply add/remove components, or select a "sparse set" framework to cheaply add/remove components but with slower iteration performance.

## Hybrid Component Storage (The Solution)

In Bevy ECS V2, we get to have our cake and eat it too. It now has _both_ of the component storage types above (and more can be added later if needed):

* **Tables** (aka "archetypal" storage)
    * The default storage. If you don't configure anything, this is what you get
    * Fast iteration by default
    * Slower add/remove operations
* **Sparse Sets**
    * Opt-in
    * Slower iteration
    * Faster add/remove operations

These storage types complement each other perfectly. By default Query iteration is fast. If developers know that they want to add/remove a component at high frequencies, they can set the storage to "sparse set":

```rust
world.register_component(
    ComponentDescriptor:🆕:<MyComponent>(StorageType::SparseSet)
).unwrap();
```

## Archetypes

Archetypes are now "just metadata" ... they no longer store components directly. They do store:

* The `ComponentId`s of each of the Archetype's components (and that component's storage type)
    * Archetypes are uniquely defined by their component layouts
    * For example: entities with "table" components `[A, B, C]` _and_ "sparse set" components `[D, E]` will always be in the same archetype.
* The `TableId` associated with the archetype
    * For now each archetype has exactly one table (which can have no components),
    * There is a 1->Many relationship from Tables->Archetypes. A given table could have any number of archetype components stored in it:
        * Ex: an entity with "table storage" components `[A, B, C]` and "sparse set" components `[D, E]` will share the same `[A, B, C]` table as an entity with `[A, B, C]` table component and `[F]` sparse set components.
        * This 1->Many relationship is how we preserve fast "cache friendly" iteration performance when possible (more on this later)
* A list of entities that are in the archetype and the row id of the table they are in
* ArchetypeComponentIds
    * unique densely packed identifiers for (ArchetypeId, ComponentId) pairs
    * used by the schedule executor for cheap system access control
* "Archetype Graph Edges" (see the next section)  

## The "Archetype Graph"

Archetype changes in Bevy (and a number of other archetypal ecs-es) have historically been expensive to compute. First, you need to allocate a new vector of the entity's current component ids, add or remove components based on the operation performed, sort it (to ensure it is order-independent), then hash it to find the archetype (if it exists). And thats all before we get to the _already_ expensive full copy of all components to the new table storage.

The solution is to build a "graph" of archetypes to cache these results. @SanderMertens first exposed me to the idea (and he got it from @gjroelofs, who came up with it). They propose adding directed edges between archetypes for add/remove component operations. If `ComponentId`s are densely packed, you can use sparse sets to cheaply jump between archetypes.

Bevy takes this one step further by using add/remove `Bundle` edges instead of `Component` edges. Bevy encourages the use of `Bundles` to group add/remove operations. This is largely for "clearer game logic" reasons, but it also helps cut down on the number of archetype changes required. `Bundles` now also have densely-packed `BundleId`s. This allows us to use a _single_ edge for each bundle operation (rather than needing to traverse N edges ... one for each component). Single component operations are also bundles, so this is strictly an improvement over a "component only" graph.

As a result, an operation that used to be _heavy_ (both for allocations and compute) is now two dirt-cheap array lookups and zero allocations.

## Stateful Queries

World queries are now stateful. This allows us to:

1. Cache archetype (and table) matches
    * This resolves another issue with (naive) archetypal ECS: query performance getting worse as the number of archetypes goes up (and fragmentation occurs).
2. Cache Fetch and Filter state
    * The expensive parts of fetch/filter operations (such as hashing the TypeId to find the ComponentId) now only happen once when the Query is first constructed
3. Incrementally build up state
    * When new archetypes are added, we only process the new archetypes (no need to rebuild state for old archetypes)

As a result, the direct `World` query api now looks like this:

```rust
let mut query = world.query::<(&A, &mut B)>();
for (a, mut b) in query.iter_mut(&mut world) {
}
```

Requiring `World` to generate stateful queries (rather than letting the `QueryState` type be constructed separately) allows us to ensure that _all_ queries are properly initialized (and the relevant world state, such as ComponentIds). This enables QueryState to remove branches from its operations that check for initialization status (and also enables query.iter() to take an immutable world reference because it doesn't need to initialize anything in world).

However in systems, this is a non-breaking change. State management is done internally by the relevant SystemParam.

## Stateful SystemParams

Like Queries, `SystemParams` now also cache state. For example, `Query` system params store the "stateful query" state mentioned above. Commands store their internal `CommandQueue`. This means you can now safely use as many separate `Commands` parameters in your system as you want. `Local<T>` system params store their `T` value in their state (instead of in Resources). 

SystemParam state also enabled a significant slim-down of SystemState. It is much nicer to look at now.

Per-SystemParam state naturally insulates us from an "aliased mut" class of errors we have hit in the past (ex: using multiple `Commands` system params).

(credit goes to @DJMcNab for the initial idea and draft pr here #1364)

## Configurable SystemParams

@DJMcNab also had the great idea to make SystemParams configurable. This allows users to provide some initial configuration / values for system parameters (when possible). Most SystemParams have no config (the config type is `()`), but the `Local<T>` param now supports user-provided parameters:

```rust

fn foo(value: Local<usize>) {    
}

app.add_system(foo.system().config(|c| c.0 = Some(10)));
```

## Uber Fast "for_each" Query Iterators

Developers now have the choice to use a fast "for_each" iterator, which yields ~1.5-3x iteration speed improvements for "fragmented iteration", and minor ~1.2x iteration speed improvements for unfragmented iteration. 

```rust
fn system(query: Query<(&A, &mut B)>) {
    // you now have the option to do this for a speed boost
    query.for_each_mut(|(a, mut b)| {
    });

    // however normal iterators are still available
    for (a, mut b) in query.iter_mut() {
    }
}
```

I think in most cases we should continue to encourage "normal" iterators as they are more flexible and more "rust idiomatic". But when that extra "oomf" is needed, it makes sense to use `for_each`.

We should also consider using `for_each` for internal bevy systems to give our users a nice speed boost (but that should be a separate pr).

## Component Metadata

`World` now has a `Components` collection, which is accessible via `world.components()`. This stores mappings from `ComponentId` to `ComponentInfo`, as well as `TypeId` to `ComponentId` mappings (where relevant). `ComponentInfo` stores information about the component, such as ComponentId, TypeId, memory layout, send-ness (currently limited to resources), and storage type.

## Significantly Cheaper `Access<T>`

We used to use `TypeAccess<TypeId>` to manage read/write component/archetype-component access. This was expensive because TypeIds must be hashed and compared individually. The parallel executor got around this by "condensing" type ids into bitset-backed access types. This worked, but it had to be re-generated from the `TypeAccess<TypeId>`sources every time archetypes changed.

This pr removes TypeAccess in favor of faster bitset access everywhere. We can do this thanks to the move to densely packed `ComponentId`s and `ArchetypeComponentId`s.

## Merged Resources into World

Resources had a lot of redundant functionality with Components. They stored typed data, they had access control, they had unique ids, they were queryable via SystemParams, etc. In fact the _only_ major difference between them was that they were unique (and didn't correlate to an entity).

Separate resources also had the downside of requiring a separate set of access controls, which meant the parallel executor needed to compare more bitsets per system and manage more state.

I initially got the "separate resources" idea from `legion`. I think that design was motivated by the fact that it made the direct world query/resource lifetime interactions more manageable. It certainly made our lives easier when using Resources alongside hecs/bevy_ecs. However we already have a construct for safely and ergonomically managing in-world lifetimes: systems (which use `Access<T>` internally).

This pr merges Resources into World:

```rust
world.insert_resource(1);
world.insert_resource(2.0);
let a = world.get_resource::<i32>().unwrap();
let mut b = world.get_resource_mut::<f64>().unwrap();
*b = 3.0;
```

Resources are now just a special kind of component. They have their own ComponentIds (and their own resource TypeId->ComponentId scope, so they don't conflict wit components of the same type). They are stored in a special "resource archetype", which stores components inside the archetype using a new `unique_components` sparse set (note that this sparse set could later be used to implement Tags). This allows us to keep the code size small by reusing existing datastructures (namely Column, Archetype, ComponentFlags, and ComponentInfo). This allows us the executor to use a single `Access<ArchetypeComponentId>` per system. It should also make scripting language integration easier.

_But_ this merge did create problems for people directly interacting with `World`. What if you need mutable access to multiple resources at the same time? `world.get_resource_mut()` borrows World mutably!

## WorldCell

WorldCell applies the `Access<ArchetypeComponentId>` concept to direct world access:

```rust
let world_cell = world.cell();
let a = world_cell.get_resource_mut::<i32>().unwrap();
let b = world_cell.get_resource_mut::<f64>().unwrap();
```

This adds cheap runtime checks (a sparse set lookup of `ArchetypeComponentId` and a counter) to ensure that world accesses do not conflict with each other. Each operation returns a `WorldBorrow<'w, T>` or `WorldBorrowMut<'w, T>` wrapper type, which will release the relevant ArchetypeComponentId resources when dropped.

World caches the access sparse set (and only one cell can exist at a time), so `world.cell()` is a cheap operation. 

WorldCell does _not_ use atomic operations. It is non-send, does a mutable borrow of world to prevent other accesses, and uses a simple `Rc<RefCell<ArchetypeComponentAccess>>` wrapper in each WorldBorrow pointer. 

The api is currently limited to resource access, but it can and should be extended to queries / entity component access.

## Resource Scopes

WorldCell does not yet support component queries, and even when it does there are sometimes legitimate reasons to want a mutable world ref _and_ a mutable resource ref (ex: bevy_render and bevy_scene both need this). In these cases we could always drop down to the unsafe `world.get_resource_unchecked_mut()`, but that is not ideal!

Instead developers can use a "resource scope"

```rust
world.resource_scope(|world: &mut World, a: &mut A| {
})
```

This temporarily removes the `A` resource from `World`, provides mutable pointers to both, and re-adds A to World when finished. Thanks to the move to ComponentIds/sparse sets, this is a cheap operation.

If multiple resources are required, scopes can be nested. We could also consider adding a "resource tuple" to the api if this pattern becomes common and the boilerplate gets nasty.

## Query Conflicts Use ComponentId Instead of ArchetypeComponentId

For safety reasons, systems cannot contain queries that conflict with each other without wrapping them in a QuerySet. On bevy `main`, we use ArchetypeComponentIds to determine conflicts. This is nice because it can take into account filters:

```rust
// these queries will never conflict due to their filters
fn filter_system(a: Query<&mut A, With<B>>, b: Query<&mut B, Without<B>>) {
}
```

But it also has a significant downside:
```rust
// these queries will not conflict _until_ an entity with A, B, and C is spawned
fn maybe_conflicts_system(a: Query<(&mut A, &C)>, b: Query<(&mut A, &B)>) {
}
```

The system above will panic at runtime if an entity with A, B, and C is spawned. This makes it hard to trust that your game logic will run without crashing.

In this pr, I switched to using `ComponentId` instead. This _is_ more constraining. `maybe_conflicts_system` will now always fail, but it will do it consistently at startup. Naively, it would also _disallow_ `filter_system`, which would be a significant downgrade in usability. Bevy has a number of internal systems that rely on disjoint queries and I expect it to be a common pattern in userspace.

To resolve this, I added a new `FilteredAccess<T>` type, which wraps `Access<T>` and adds with/without filters. If two `FilteredAccess` have with/without values that prove they are disjoint, they will no longer conflict.

## EntityRef / EntityMut

World entity operations on `main` require that the user passes in an `entity` id to each operation:

```rust
let entity = world.spawn((A, )); // create a new entity with A
world.get::<A>(entity);
world.insert(entity, (B, C));
world.insert_one(entity, D);
```

This means that each operation needs to look up the entity location / verify its validity. The initial spawn operation also requires a Bundle as input. This can be awkward when no components are required (or one component is required).

These operations have been replaced by `EntityRef` and `EntityMut`, which are "builder-style" wrappers around world that provide read and read/write operations on a single, pre-validated entity:

```rust
// spawn now takes no inputs and returns an EntityMut
let entity = world.spawn()
    .insert(A) // insert a single component into the entity
    .insert_bundle((B, C)) // insert a bundle of components into the entity
    .id() // id returns the Entity id

// Returns EntityMut (or panics if the entity does not exist)
world.entity_mut(entity)
    .insert(D)
    .insert_bundle(SomeBundle::default());
{
    // returns EntityRef (or panics if the entity does not exist)
    let d = world.entity(entity)
        .get::<D>() // gets the D component
        .unwrap();
    // world.get still exists for ergonomics
    let d = world.get::<D>(entity).unwrap();
}

// These variants return Options if you want to check existence instead of panicing 
world.get_entity_mut(entity)
    .unwrap()
    .insert(E);

if let Some(entity_ref) = world.get_entity(entity) {
    let d = entity_ref.get::<D>().unwrap();
}
```

This _does not_ affect the current Commands api or terminology. I think that should be a separate conversation as that is a much larger breaking change.

## Safety Improvements

* Entity reservation in Commands uses a normal world borrow instead of an unsafe transmute
* QuerySets no longer transmutes lifetimes
* Made traits "unsafe" when implementing a trait incorrectly could cause unsafety
* More thorough safety docs

## RemovedComponents SystemParam

The old approach to querying removed components: `query.removed:<T>()` was confusing because it had no connection to the query itself. I replaced it with the following, which is both clearer and allows us to cache the ComponentId mapping in the SystemParamState:

```rust
fn system(removed: RemovedComponents<T>) {
    for entity in removed.iter() {
    }
} 
```

## Simpler Bundle implementation

Bundles are no longer responsible for sorting (or deduping) TypeInfo. They are just a simple ordered list of component types / data. This makes the implementation smaller and opens the door to an easy "nested bundle" implementation in the future (which i might even add in this pr). Duplicate detection is now done once per bundle type by World the first time a bundle is used.

## Unified WorldQuery and QueryFilter types

(don't worry they are still separate type _parameters_ in Queries .. this is a non-breaking change)

WorldQuery and QueryFilter were already basically identical apis. With the addition of `FetchState` and more storage-specific fetch methods, the overlap was even clearer (and the redundancy more painful).

QueryFilters are now just `F: WorldQuery where F::Fetch: FilterFetch`. FilterFetch requires `Fetch<Item = bool>` and adds new "short circuit" variants of fetch methods. This enables a filter tuple like `(With<A>, Without<B>, Changed<C>)` to stop evaluating the filter after the first mismatch is encountered. FilterFetch is automatically implemented for `Fetch` implementations that return bool.

This forces fetch implementations that return things like `(bool, bool, bool)` (such as the filter above) to manually implement FilterFetch and decide whether or not to short-circuit.

## More Granular Modules

World no longer globs all of the internal modules together. It now exports `core`, `system`, and `schedule` separately. I'm also considering exporting `core` submodules directly as that is still pretty "glob-ey" and unorganized (feedback welcome here).

## Remaining Draft Work (to be done in this pr)

* ~~panic on conflicting WorldQuery fetches (&A, &mut A)~~
    * ~~bevy `main` and hecs both currently allow this, but we should protect against it if possible~~
* ~~batch_iter / par_iter (currently stubbed out)~~
* ~~ChangedRes~~
    * ~~I skipped this while we sort out #1313. This pr should be adapted to account for whatever we land on there~~.
* ~~The `Archetypes` and `Tables` collections use hashes of sorted lists of component ids to uniquely identify each archetype/table. This hash is then used as the key in a HashMap to look up the relevant ArchetypeId or TableId. (which doesn't handle hash collisions properly)~~
* ~~It is currently unsafe to generate a Query from "World A", then use it on "World B" (despite the api claiming it is safe). We should probably close this gap. This could be done by adding a randomly generated WorldId to each world, then storing that id in each Query. They could then be compared to each other on each `query.do_thing(&world)` operation. This _does_ add an extra branch to each query operation, so I'm open to other suggestions if people have them.~~
* ~~Nested Bundles (if i find time)~~

## Potential Future Work

* Expand WorldCell to support queries.
* Consider not allocating in the empty archetype on `world.spawn()`
    * ex: return something like EntityMutUninit, which turns into EntityMut after an `insert` or `insert_bundle` op
    * this actually regressed performance last time i tried it, but in theory it should be faster
* Optimize SparseSet::insert (see `PERF` comment on insert)
* Replace SparseArray `Option<T>` with T::MAX to cut down on branching
    * would enable cheaper get_unchecked() operations
* upstream fixedbitset optimizations
    * fixedbitset could be allocation free for small block counts (store blocks in a SmallVec)
    * fixedbitset could have a const constructor 
* Consider implementing Tags (archetype-specific by-value data that affects archetype identity) 
    * ex: ArchetypeA could have `[A, B, C]` table components and `[D(1)]` "tag" component. ArchetypeB could have `[A, B, C]` table components and a `[D(2)]` tag component. The archetypes are different, despite both having D tags because the value inside D is different.
    * this could potentially build on top of the `archetype.unique_components` added in this pr for resource storage.
* Consider reverting `all_tuples` proc macro in favor of the old `macro_rules` implementation
    * all_tuples is more flexible and produces cleaner documentation (the macro_rules version produces weird type parameter orders due to parser constraints)
    * but unfortunately all_tuples also appears to make Rust Analyzer sad/slow when working inside of `bevy_ecs` (does not affect user code)
* Consider "resource queries" and/or "mixed resource and entity component queries" as an alternative to WorldCell
    * this is basically just "systems" so maybe it's not worth it
* Add more world ops
    * `world.clear()`
    * `world.reserve<T: Bundle>(count: usize)`
 * Try using the old archetype allocation strategy (allocate new memory on resize and copy everything over). I expect this to improve batch insertion performance at the cost of unbatched performance. But thats just a guess. I'm not an allocation perf pro :)
 * Adapt Commands apis for consistency with new World apis 

## Benchmarks

key:

* `bevy_old`: bevy `main` branch
* `bevy`: this branch
* `_foreach`: uses an optimized for_each iterator
* ` _sparse`: uses sparse set storage (if unspecified assume table storage)
* `_system`: runs inside a system (if unspecified assume test happens via direct world ops)

### Simple Insert (from ecs_bench_suite)

![image](https://user-images.githubusercontent.com/2694663/109245573-9c3ce100-7795-11eb-9003-bfd41cd5c51f.png)

### Simpler Iter (from ecs_bench_suite)

![image](https://user-images.githubusercontent.com/2694663/109245795-ffc70e80-7795-11eb-92fb-3ffad09aabf7.png)

### Fragment Iter (from ecs_bench_suite)

![image](https://user-images.githubusercontent.com/2694663/109245849-0fdeee00-7796-11eb-8d25-eb6b7a682c48.png)

### Sparse Fragmented Iter

Iterate a query that matches 5 entities from a single matching archetype, but there are 100 unmatching archetypes

![image](https://user-images.githubusercontent.com/2694663/109245916-2b49f900-7796-11eb-9a8f-ed89c203f940.png)
 
### Schedule (from ecs_bench_suite)

![image](https://user-images.githubusercontent.com/2694663/109246428-1fab0200-7797-11eb-8841-1b2161e90fa4.png)

### Add Remove Component (from ecs_bench_suite)

![image](https://user-images.githubusercontent.com/2694663/109246492-39e4e000-7797-11eb-8985-2706bd0495ab.png)


### Add Remove Component Big

Same as the test above, but each entity has 5 "large" matrix components and 1 "large" matrix component is added and removed

![image](https://user-images.githubusercontent.com/2694663/109246517-449f7500-7797-11eb-835e-28b6790daeaa.png)


### Get Component

Looks up a single component value a large number of times

![image](https://user-images.githubusercontent.com/2694663/109246129-87ad1880-7796-11eb-9fcb-c38012aa7c70.png)
2021-03-05 07:54:35 +00:00
Zhixing Zhang
d9fb61d474 Wireframe Rendering Pipeline (#562)
This PR implements wireframe rendering.

Usage:

This is now ready as soon as #1401 gets merged.


Usage:

```rust
    app
        .insert_resource(WgpuOptions {
            name: Some("3d_scene"),
            features: WgpuFeatures::NON_FILL_POLYGON_MODE,
            ..Default::default()
        }) // To enable the NON_FILL_POLYGON_MODE feature
        .add_plugin(WireframePlugin)
        .run();

```

Now we just need to add the Wireframe component on an entity, and it'll draw. its wireframe.


We can also enable wireframe drawing globally by setting the global property in the `WireframeConfig` resource to `true`.



Co-authored-by: Zhixing Zhang <me@neoto.xin>
2021-03-04 01:23:24 +00:00
Daniel McNab
7be096a254
Fix the z_sort_debug example from #1361 (#1419)
Fixes #1411
2021-02-09 12:37:49 -08:00
Will Crichton
e6e23fdfa9
Add support for gltf::Material::unlit (#1341)
* Add support for gltf::Material::unlit
2021-01-31 17:13:16 -08:00
Jasen Borisov
7d065eeb71
3D OrthographicProjection improvements + new example (#1361)
* use `length_squared` for visible entities

* ortho projection 2d/3d different depth calculation

* use ScalingMode::FixedVertical for 3d ortho

* new example: 3d orthographic
2021-01-31 16:22:06 -08:00
Alice Cecile
6f5a4d9deb
Rename add_resource to insert_resource (#1356)
* Renamed add_resource to insert_resource

* Changed usage of add_resource to insert_resource

* Renamed add_thread_local_resource
2021-01-30 12:55:13 -08:00
Jasen Borisov
57f9ac18d7
OrthographicProjection scaling mode + camera bundle refactoring (#400)
* add normalized orthographic projection

* custom scale for ScaledOrthographicProjection

* allow choosing base axis for ScaledOrthographicProjection

* cargo fmt

* add general (scaled) orthographic camera bundle

FIXME: does the same "far" trick from Camera2DBundle make any sense here?

* fixes

* camera bundles: rename and new ortho constructors

* unify orthographic projections

* give PerspectiveCameraBundle constructors like those of OrthographicCameraBundle

* update examples with new camera bundle syntax

* rename CameraUiBundle to UiCameraBundle

* update examples

* ScalingMode::None

* remove extra blank lines

* sane default bounds for orthographic projection

* fix alien_cake_addict example

* reorder ScalingMode enum variants

* ios example fix
2021-01-30 02:31:03 -08:00
Christopher Durham
4d5ba7918b
Update rand requirement from 0.7 to 0.8 (#1114)
* Update rand requirement from 0.7 to 0.8

* Update examples' usage of Rng::gen_range
2021-01-17 13:43:03 -08:00
Daniel McNab
9f2410a4ac
Add from_xyz to Transform (#1212)
* Add the from_xyz helper method to Transform

* Use `from_xyz` where possible
2021-01-06 17:17:06 -08:00
François
12d4184d7c
fix label to load gltf scene (#1204) 2021-01-06 16:15:59 -08:00
François
c25b41a038
add scene instance entity iteration (#1058)
add scene instance entity iteration
2021-01-01 14:58:49 -06:00
François
21794fe6df
make more information available from loaded GLTF model (#1020)
make more information available from loaded GLTF model 
* make gltf nodes available as assets
* add list of primitive per mesh, and their associated material
* complete gltf structure
* get names of gltf assets
* only load materials once
* add labels with node names
2020-12-31 14:57:15 -06:00
François
b28365f966
updates on diagnostics (log + new diagnostics) (#1085)
* move print diagnostics to log

* entity count diagnostic

* asset count diagnostic

* remove useless `pub`s

* use `BTreeMap` instead of `HashMap`

* get entity count from world

* keep ordered list of diagnostics
2020-12-24 13:28:31 -06:00
Carter Anderson
841755aaf2
Adopt a Fetch pattern for SystemParams (#1074) 2020-12-15 21:57:16 -08:00
Carter Anderson
7ab0eeece0
Break out Visible component from Draw (#1034)
Break out Visible component from Draw
2020-12-09 13:38:48 -08:00
Amber Kowalski
097a55948c
Refactor Time API and internals (#934)
Refactor Time API and internals
2020-11-28 13:08:31 -08:00
Valentin
d458406540
Add box shape (#883)
* Add rectangular cuboid shape

Co-authored-by: Jason Lessard <jason.lessard@usherbrooke.ca>
Co-authored-by: Jason Lessard <jason.lessard@usherbrooke.ca>
Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2020-11-21 14:51:24 -08:00
Carter Anderson
3a6f6de277
System Inputs, Outputs, Chaining, and Registration Ergo (#876)
System Inputs, Outputs, Chaining, and Registration Ergo
2020-11-16 18:18:00 -08:00
Carter Anderson
7628f4a64e
combine bevy_ecs and bevy_hecs crates. rename XComponents to XBundle (#863)
combine bevy_ecs and bevy_hecs crates. rename XComponents to XBundle
2020-11-15 20:32:23 -08:00
MinerSebas
43aac1a784
More query filter usage (#851)
* Examples now use With<>

* More Bevy systems now use With<>

* parent_update_system now uses Changed<>
2020-11-12 18:22:46 -08:00
Carter Anderson
ebcdc9fb8c
Flexible ECS System Params (#798)
system params can be in any order, faster compiles, remove foreach
2020-11-08 12:34:05 -08:00
Carter Anderson
66f2f76a18
rename add_plugin_group to add_plugins (#773) 2020-11-02 19:01:17 -08:00
Nathan Stocks
9871e7e24b
Remove add_default_plugins and add MinimalPlugins for simple "headless" scenarios (#767)
Remove add_default_plugins and add MinimalPlugins for simple "headless" scenarios
2020-11-02 18:38:37 -08:00
Carter Anderson
ad940fbf6e
Rename query.entity() to query.get() and query.get() to query.get_component() (#752) 2020-10-30 18:04:33 -07:00
Carter Anderson
1d4a95db62
ecs: ergonomic query.iter(), remove locks, add QuerySets (#741) 2020-10-29 23:39:55 -07:00
Carter Anderson
c32e637384
Asset system rework and GLTF scene loading (#693) 2020-10-18 13:48:15 -07:00
Marek Legris
5acebed731
Transform and GlobalTransform are now Similarities (#596)
Transform and GlobalTransform are now Similarities.

This resolves precision errors and simplifies the api

Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2020-10-18 13:03:16 -07:00
Carter Anderson
5e7c36d1c1
Fix example colors (#672) 2020-10-12 16:54:22 -07:00
Carter Anderson
ff54efe3e3
transform: add "setter" builder functions, make naming clearer, and fix examples (#516) 2020-09-19 13:35:48 -07:00
Marek Legris
474bb5403e
Transform Rewrite (#374)
Remove individual Translation / Rotation / Scale components in favor of a combined Transform component
2020-09-14 14:00:32 -07:00
Elias
9aff0bcc2a
Add support for binary glTF (.glb) (#271)
Add support for binary glTF (.glb)
2020-08-25 16:55:08 -07:00
Victor "multun" Collod
c38420f1e9 enforce clippy for all target and features 2020-08-16 07:20:06 -07:00