Commit graph

44 commits

Author SHA1 Message Date
JoJoJet
03bde74766 impl Reflect for &'static Path (#6755)
# Objective

Fixes #6739 

## Solution

Implement the required traits. They cannot be implemented for `Path` directly, since it is a dynamically-sized type.
2022-11-25 23:49:26 +00:00
radiish
9498bfffcb Add remove method to Map reflection trait. (#6564)
# Objective

- Implements removal of entries from a `dyn Map`
- Fixes #6563

## Solution

- Adds a `remove` method to the `Map` trait which takes in a `&dyn Reflect` key and returns the value removed if it was present.

---

## Changelog

- Added `Map::remove`

## Migration Guide

- Implementors of `Map` will need to implement the `remove` method.


Co-authored-by: radiish <thesethskigamer@gmail.com>
2022-11-14 21:03:39 +00:00
Gino Valente
02fbf16c80 bevy_reflect: Add Reflect::into_reflect (#6502)
# Objective

Using `Reflect` we can easily switch between a specific reflection trait object, such as a `dyn Struct`, to a `dyn Reflect` object via `Reflect::as_reflect` or `Reflect::as_reflect_mut`.

```rust
fn do_something(value: &dyn Reflect) {/* ... */}

let foo: Box<dyn Struct> = Box::new(Foo::default());
do_something(foo.as_reflect());
```

However, there is no way to convert a _boxed_ reflection trait object to a `Box<dyn Reflect>`.

## Solution

Add a `Reflect::into_reflect` method which allows converting a boxed reflection trait object back into a boxed `Reflect` trait object.

```rust
fn do_something(value: Box<dyn Reflect>) {/* ... */}

let foo: Box<dyn Struct> = Box::new(Foo::default());
do_something(foo.into_reflect());
```

---

## Changelog

- Added `Reflect::into_reflect`
2022-11-07 02:11:16 +00:00
Hennadii Chernyshchyk
feebbc5ea9 Add reflect_owned (#6494)
# Objective

There is no way to gen an owned value of `Reflect`.

## Solution

Add it! This was originally a part of #6421, but @MrGVSV asked me to create a separate for it to implement reflect diffing.

---

## Changelog

### Added

- `Reflect::reflect_owned` to get an owned version of `Reflect`.
2022-11-06 16:58:38 +00:00
Jakob Hellermann
55b3cb0183 add ReflectDefault to std types (#6429)
# Objective

- `ReflectDefault` can be used to create default values for reflected types
- `std` primitives that are `Default`-constructable should register `ReflectDefault`

## Solution

- register `ReflectDefault`
2022-10-31 16:35:22 +00:00
Hennadii Chernyshchyk
ca3e6e6797 Impl Reflect for PathBuf and OsString (#6193)
# Objective

`Reflect` impl is missing for `PathBuf` and `OsString`. Closes #6166.

## Solution

Add implementations.

---

## Changelog

### Added

`Reflect` impls for `PathBuf` and `OsString`.
2022-10-08 17:02:21 +00:00
Gino Valente
d30d3e752a bevy_reflect: Improve serialization format even more (#5723)
> Note: This is rebased off #4561 and can be viewed as a competitor to that PR. See `Comparison with #4561` section for details.

# Objective

The current serialization format used by `bevy_reflect` is both verbose and error-prone. Taking the following structs[^1] for example:

```rust
// -- src/inventory.rs

#[derive(Reflect)]
struct Inventory {
  id: String,
  max_storage: usize,
  items: Vec<Item>
}

#[derive(Reflect)]
struct Item {
  name: String
}
```

Given an inventory of a single item, this would serialize to something like:

```rust
// -- assets/inventory.ron

{
  "type": "my_game::inventory::Inventory",
  "struct": {
    "id": {
      "type": "alloc::string::String",
      "value": "inv001",
    },
    "max_storage": {
      "type": "usize",
      "value": 10
    },
    "items": {
      "type": "alloc::vec::Vec<alloc::string::String>",
      "list": [
        {
          "type": "my_game::inventory::Item",
          "struct": {
            "name": {
              "type": "alloc::string::String",
              "value": "Pickaxe"
            },
          },
        },
      ],
    },
  },
}
```

Aside from being really long and difficult to read, it also has a few "gotchas" that users need to be aware of if they want to edit the file manually. A major one is the requirement that you use the proper keys for a given type. For structs, you need `"struct"`. For lists, `"list"`. For tuple structs, `"tuple_struct"`. And so on.

It also ***requires*** that the `"type"` entry come before the actual data. Despite being a map— which in programming is almost always orderless by default— the entries need to be in a particular order. Failure to follow the ordering convention results in a failure to deserialize the data.

This makes it very prone to errors and annoyances.


## Solution

Using #4042, we can remove a lot of the boilerplate and metadata needed by this older system. Since we now have static access to type information, we can simplify our serialized data to look like:

```rust
// -- assets/inventory.ron

{
  "my_game::inventory::Inventory": (
    id: "inv001",
    max_storage: 10,
    items: [
      (
        name: "Pickaxe"
      ),
    ],
  ),
}
```

This is much more digestible and a lot less error-prone (no more key requirements and no more extra type names).

Additionally, it is a lot more familiar to users as it follows conventional serde mechanics. For example, the struct is represented with `(...)` when serialized to RON.

#### Custom Serialization

Additionally, this PR adds the opt-in ability to specify a custom serde implementation to be used rather than the one created via reflection. For example[^1]:

```rust
// -- src/inventory.rs

#[derive(Reflect, Serialize)]
#[reflect(Serialize)]
struct Item {
  #[serde(alias = "id")]
  name: String
}
```

```rust
// -- assets/inventory.ron

{
  "my_game::inventory::Inventory": (
    id: "inv001",
    max_storage: 10,
    items: [
      (
        id: "Pickaxe"
      ),
    ],
  ),
},
```

By allowing users to define their own serialization methods, we do two things:

1. We give more control over how data is serialized/deserialized to the end user
2. We avoid having to re-define serde's attributes and forcing users to apply both (e.g. we don't need a `#[reflect(alias)]` attribute).

### Improved Formats

One of the improvements this PR provides is the ability to represent data in ways that are more conventional and/or familiar to users. Many users are familiar with RON so here are some of the ways we can now represent data in RON:

###### Structs

```js
{
  "my_crate::Foo": (
    bar: 123
  )
}
// OR
{
  "my_crate::Foo": Foo(
    bar: 123
  )
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "my_crate::Foo",
  "struct": {
    "bar": {
      "type": "usize",
      "value": 123
    }
  }
}
```

</details>

###### Tuples

```js
{
  "(f32, f32)": (1.0, 2.0)
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "(f32, f32)",
  "tuple": [
    {
      "type": "f32",
      "value": 1.0
    },
    {
      "type": "f32",
      "value": 2.0
    }
  ]
}
```

</details>

###### Tuple Structs

```js
{
  "my_crate::Bar": ("Hello World!")
}
// OR
{
  "my_crate::Bar": Bar("Hello World!")
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "my_crate::Bar",
  "tuple_struct": [
    {
      "type": "alloc::string::String",
      "value": "Hello World!"
    }
  ]
}
```

</details>

###### Arrays

It may be a bit surprising to some, but arrays now also use the tuple format. This is because they essentially _are_ tuples (a sequence of values with a fixed size), but only allow for homogenous types. Additionally, this is how RON handles them and is probably a result of the 32-capacity limit imposed on them (both by [serde](https://docs.rs/serde/latest/serde/trait.Serialize.html#impl-Serialize-for-%5BT%3B%2032%5D) and by [bevy_reflect](https://docs.rs/bevy/latest/bevy/reflect/trait.GetTypeRegistration.html#impl-GetTypeRegistration-for-%5BT%3B%2032%5D)).

```js
{
  "[i32; 3]": (1, 2, 3)
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "[i32; 3]",
  "array": [
    {
      "type": "i32",
      "value": 1
    },
    {
      "type": "i32",
      "value": 2
    },
    {
      "type": "i32",
      "value": 3
    }
  ]
}
```

</details>

###### Enums

To make things simple, I'll just put a struct variant here, but the style applies to all variant types:

```js
{
  "my_crate::ItemType": Consumable(
    name: "Healing potion"
  )
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "my_crate::ItemType",
  "enum": {
    "variant": "Consumable",
    "struct": {
      "name": {
        "type": "alloc::string::String",
        "value": "Healing potion"
      }
    }
  }
}
```

</details>

### Comparison with #4561

This PR is a rebased version of #4561. The reason for the split between the two is because this PR creates a _very_ different scene format. You may notice that the PR descriptions for either PR are pretty similar. This was done to better convey the changes depending on which (if any) gets merged first. If #4561 makes it in first, I will update this PR description accordingly.

---

## Changelog

* Re-worked serialization/deserialization for reflected types
* Added `TypedReflectDeserializer` for deserializing data with known `TypeInfo`
* Renamed `ReflectDeserializer` to `UntypedReflectDeserializer` 
* ~~Replaced usages of `deserialize_any` with `deserialize_map` for non-self-describing formats~~ Reverted this change since there are still some issues that need to be sorted out (in a separate PR). By reverting this, crates like `bincode` can throw an error when attempting to deserialize non-self-describing formats (`bincode` results in `DeserializeAnyNotSupported`)
* Structs, tuples, tuple structs, arrays, and enums are now all de/serialized using conventional serde methods

## Migration Guide

* This PR reduces the verbosity of the scene format. Scenes will need to be updated accordingly:

```js
// Old format
{
  "type": "my_game::item::Item",
  "struct": {
    "id": {
      "type": "alloc::string::String",
      "value": "bevycraft:stone",
    },
    "tags": {
      "type": "alloc::vec::Vec<alloc::string::String>",
      "list": [
        {
          "type": "alloc::string::String",
          "value": "material"
        },
      ],
    },
}

// New format
{
  "my_game::item::Item": (
    id: "bevycraft:stone",
    tags: ["material"]
  )
}
```

[^1]: Some derives omitted for brevity.
2022-09-20 19:38:18 +00:00
targrub
bc863cec4d Derived Copy trait for bevy_input events, Serialize/Deserialize for events in bevy_input and bevy_windows, PartialEq for events in both, and Eq where possible in both. (#6023)
# Objective

Add traits to events in `bevy_input` and `bevy_windows`: `Copy`, `Serialize`/`Deserialize`, `PartialEq`, and `Eq`, as requested in https://github.com/bevyengine/bevy/issues/6022, https://github.com/bevyengine/bevy/issues/6023, https://github.com/bevyengine/bevy/issues/6024.

## Solution

Added the traits to events in `bevy_input` and `bevy_windows`.  Added dependency of `serde` in `Cargo.toml` of `bevy_input`.


## Migration Guide

If one has been `.clone()`'ing `bevy_input` events, Clippy will now complain about that.  Just remove `.clone()` to solve.

## Other Notes

Some events in `bevy_input` had `f32` fields, so `Eq` trait was not derived for them.
Some events in `bevy_windows` had `String` fields, so `Copy` trait was not derived for them.

Co-authored-by: targrub <62773321+targrub@users.noreply.github.com>
2022-09-20 18:24:00 +00:00
Carter Anderson
dcdda4cb33 Remove extra spaces from Range reflect impls (#5839)
# Objective

Remove extra spaces from Range reflect impls. Follow up to #5763 

## Solution

Remove extra spaces from Range reflect impls.
2022-08-30 21:39:48 +00:00
Gino Valente
ecc584ff23 bevy_reflect: Get owned fields (#5728)
# Objective

Sometimes it's useful to be able to retrieve all the fields of a container type so that they may be processed separately. With reflection, however, we typically only have access to references.

The only alternative is to "clone" the value using `Reflect::clone_value`. This, however, returns a Dynamic type in most cases. The solution there would be to use `FromReflect` instead, but this also has a problem in that it means we need to add `FromReflect` as an additional bound.

## Solution

Add a `drain` method to all container traits. This returns a `Vec<Box<dyn Reflect>>` (except for `Map` which returns `Vec<(Box<dyn Reflect>, Box<dyn Reflect>)>`).

This allows us to do things a lot simpler. For example, if we finished processing a struct and just need a particular value:

```rust
// === OLD === //
/// May or may not return a Dynamic*** value (even if `container` wasn't a `DynamicStruct`)
fn get_output(container: Box<dyn Struct>, output_index: usize) -> Box<dyn Reflect> {
  container.field_at(output_index).unwrap().clone_value()
}

// === NEW === //
/// Returns _exactly_ whatever was in the given struct
fn get_output(container: Box<dyn Struct>, output_index: usize) -> Box<dyn Reflect> {
  container.drain().remove(output_index).unwrap()
}
```

### Discussion

* Is `drain` the best method name? It makes sense that it "drains" all the fields and that it consumes the container in the process, but I'm open to alternatives.

---

## Changelog

* Added a `drain` method to the following traits:
  * `Struct`
  * `TupleStruct`
  * `Tuple`
  * `Array`
  * `List`
  * `Map`
  * `Enum`
2022-08-30 21:20:58 +00:00
Nathan Ward
bb2303a654 Add pop method for List trait. (#5797)
# Objective

- The reflection `List` trait does not have a `pop` function.
- Popping elements off a list is a common use case and is almost always supported by `List`-like types.

## Solution

- Add the `pop()` method to the `List` trait and add the appropriate implementations of this function.

## Migration Guide

- Any custom type that implements the `List` trait will now need to implement the `pop` method.


Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2022-08-30 21:06:32 +00:00
Marc-Stefan Cassola
e9661bea1a Implemented Reflect for all the ranges (#5806)
# Objective

Fixes #5763

## Solution

Implemented as reflect value like the current `Range`. Is there a benefit to changing everything to a reflect struct?
2022-08-30 20:51:21 +00:00
Gino Valente
7da97b4dee bevy_reflect: Remove unnecessary Clone bounds (#5783)
# Objective

Some of the reflection impls for container types had unnecessary `Clone` bounds on their generic arguments. These come from before `FromReflect` when types were instead bound by `Reflect + Clone`. With `FromReflect` this is no longer necessary.

## Solution

Removed all leftover `Clone` bounds from types that use `FromReflect` instead.

## Note

I skipped `Result<T, E>`, `HashSet<T>`, and `Range<T>` since those do not use `FromReflect`. This should probably be handled in a separate PR since it would be a breaking change.

---

## Changelog

- Remove unnecessary `Clone` bounds on reflected containers
2022-08-24 21:21:11 +00:00
Gino Valente
880ea5d4be bevy_reflect: Fix apply method for Option<T> (#5780)
# Objective

#5658 made it so that `FromReflect` was used as the bound for `T` in `Option<T>`. However, it did not use this change effectively for the implementation of `Reflect::apply` (it was still using `take`, which would fail for Dynamic types).

Additionally, the changes were not consistent with other methods within the file, such as the ones for `Vec<T>` and `HashMap<K, V>`.

## Solution

Update `Option<T>` to fallback on `FromReflect` if `take` fails, instead of wholly relying on one or the other.

I also chose to update the error messages, as they weren't all too descriptive before.

---

## Changelog

- Use `FromReflect::from_reflect` as a fallback in the `Reflect::apply` implementation for `Option<T>`
2022-08-24 20:44:35 +00:00
Gino Valente
aed3232e38 bevy_reflect: Relax bounds on Option<T> (#5658)
# Objective

The reflection impls on `Option<T>` have the bound `T: Reflect + Clone`. This means that using `FromReflect` requires `Clone` even though we can normally get away with just `FromReflect`.

## Solution

Update the bounds on `Option<T>` to match that of `Vec<T>`, where `T: FromReflect`. 

This helps remove a `Clone` implementation that may be undesired but added for the sole purpose of getting the code to compile.

---

## Changelog

* Reflection on `Option<T>` now has `T` bound by `FromReflect` rather than `Reflect + Clone`
* Added a `FromReflect` impl for `Instant`

## Migration Guide

If using `Option<T>` with Bevy's reflection API, `T` now needs to implement `FromReflect` rather than just `Clone`. This can be achieved easily by simply deriving `FromReflect`:

```rust

// OLD
#[derive(Reflect, Clone)]
struct Foo;

let reflected: Box<dyn Reflect> = Box::new(Some(Foo));

// NEW
#[derive(Reflect, FromReflect)]
struct Foo;

let reflected: Box<dyn Reflect> = Box::new(Some(Foo));
```
> Note: You can still derive `Clone`, but it's not required in order to compile.
2022-08-17 00:21:15 +00:00
maxwellodri
97fdbad9db Added reflect/from reflect impls for NonZero integer types (#5556)
# Objective

Add reflect/from reflect impls for NonZero integer types. I'm guessing these haven't been added yet because no one has needed them as of yet.
2022-08-04 22:09:49 +00:00
Gino Valente
15826d6019 bevy_reflect: Reflect enums (#4761)
# Objective

> This is a revival of #1347. Credit for the original PR should go to @Davier.

Currently, enums are treated as `ReflectRef::Value` types by `bevy_reflect`. Obviously, there needs to be better a better representation for enums using the reflection API.

## Solution

Based on prior work from @Davier, an `Enum` trait has been added as well as the ability to automatically implement it via the `Reflect` derive macro. This allows enums to be expressed dynamically:

```rust
#[derive(Reflect)]
enum Foo {
  A,
  B(usize),
  C { value: f32 },
}

let mut foo = Foo::B(123);
assert_eq!("B", foo.variant_name());
assert_eq!(1, foo.field_len());

let new_value = DynamicEnum::from(Foo::C { value: 1.23 });
foo.apply(&new_value);
assert_eq!(Foo::C{value: 1.23}, foo);
```

### Features

#### Derive Macro

Use the `#[derive(Reflect)]` macro to automatically implement the `Enum` trait for enum definitions. Optionally, you can use `#[reflect(ignore)]` with both variants and variant fields, just like you can with structs. These ignored items will not be considered as part of the reflection and cannot be accessed via reflection.

```rust
#[derive(Reflect)]
enum TestEnum {
  A,
  // Uncomment to ignore all of `B`
  // #[reflect(ignore)]
  B(usize),
  C {
    // Uncomment to ignore only field `foo` of `C`
    // #[reflect(ignore)]
    foo: f32,
    bar: bool,
  },
}
```

#### Dynamic Enums

Enums may be created/represented dynamically via the `DynamicEnum` struct. The main purpose of this struct is to allow enums to be deserialized into a partial state and to allow dynamic patching. In order to ensure conversion from a `DynamicEnum` to a concrete enum type goes smoothly, be sure to add `FromReflect` to your derive macro.

```rust
let mut value = TestEnum::A;

// Create from a concrete instance
let dyn_enum = DynamicEnum::from(TestEnum::B(123));

value.apply(&dyn_enum);
assert_eq!(TestEnum::B(123), value);

// Create a purely dynamic instance
let dyn_enum = DynamicEnum::new("TestEnum", "A", ());

value.apply(&dyn_enum);
assert_eq!(TestEnum::A, value);
```

#### Variants

An enum value is always represented as one of its variants— never the enum in its entirety.

```rust
let value = TestEnum::A;
assert_eq!("A", value.variant_name());

// Since we are using the `A` variant, we cannot also be the `B` variant
assert_ne!("B", value.variant_name());
```

All variant types are representable within the `Enum` trait: unit, struct, and tuple.

You can get the current type like:

```rust
match value.variant_type() {
  VariantType::Unit => println!("A unit variant!"),
  VariantType::Struct => println!("A struct variant!"),
  VariantType::Tuple => println!("A tuple variant!"),
}
```

> Notice that they don't contain any values representing the fields. These are purely tags.

If a variant has them, you can access the fields as well:

```rust
let mut value = TestEnum::C {
  foo: 1.23,
  bar: false
};

// Read/write specific fields
*value.field_mut("bar").unwrap() = true;

// Iterate over the entire collection of fields
for field in value.iter_fields() {
  println!("{} = {:?}", field.name(), field.value());
}
```

#### Variant Swapping

It might seem odd to group all variant types under a single trait (why allow `iter_fields` on a unit variant?), but the reason this was done ~~is to easily allow *variant swapping*.~~ As I was recently drafting up the **Design Decisions** section, I discovered that other solutions could have been made to work with variant swapping. So while there are reasons to keep the all-in-one approach, variant swapping is _not_ one of them.

```rust
let mut value: Box<dyn Enum> = Box::new(TestEnum::A);
value.set(Box::new(TestEnum::B(123))).unwrap();
```

#### Serialization

Enums can be serialized and deserialized via reflection without needing to implement `Serialize` or `Deserialize` themselves (which can save thousands of lines of generated code). Below are the ways an enum can be serialized.

> Note, like the rest of reflection-based serialization, the order of the keys in these representations is important!

##### Unit

```json
{
  "type": "my_crate::TestEnum",
  "enum": {
    "variant": "A"
  }
}
```

##### Tuple

```json
{
  "type": "my_crate::TestEnum",
  "enum": {
    "variant": "B",
    "tuple": [
      {
        "type": "usize",
        "value": 123
      }
    ]
  }
}
```

<details>
<summary>Effects on Option</summary>

This ends up making `Option` look a little ugly:

```json
{
  "type": "core::option::Option<usize>",
  "enum": {
    "variant": "Some",
    "tuple": [
      {
        "type": "usize",
        "value": 123
      }
    ]
  }
}
```


</details>

##### Struct

```json
{
  "type": "my_crate::TestEnum",
  "enum": {
    "variant": "C",
    "struct": {
      "foo": {
        "type": "f32",
        "value": 1.23
      },
      "bar": {
        "type": "bool",
        "value": false
      }
    }
  }
}
```

## Design Decisions

<details>
<summary><strong>View Section</strong></summary>

This section is here to provide some context for why certain decisions were made for this PR, alternatives that could have been used instead, and what could be improved upon in the future.

### Variant Representation

One of the biggest decisions was to decide on how to represent variants. The current design uses a "all-in-one" design where unit, tuple, and struct variants are all simultaneously represented by the `Enum` trait. This is not the only way it could have been done, though.

#### Alternatives

##### 1. Variant Traits

One way of representing variants would be to define traits for each variant, implementing them whenever an enum featured at least one instance of them. This would allow us to define variants like:

```rust
pub trait Enum: Reflect {
  fn variant(&self) -> Variant;
}

pub enum Variant<'a> {
    Unit,
    Tuple(&'a dyn TupleVariant),
    Struct(&'a dyn StructVariant),
}

pub trait TupleVariant {
  fn field_len(&self) -> usize;
  // ...
}
```

And then do things like:

```rust
fn get_tuple_len(foo: &dyn Enum) -> usize {
  match foo.variant() {
    Variant::Tuple(tuple) => tuple.field_len(),
    _ => panic!("not a tuple variant!")
  }
}
```

The reason this PR does not go with this approach is because of the fact that variants are not separate types. In other words, we cannot implement traits on specific variants— these cover the *entire* enum. This means we offer an easy footgun:

```rust
let foo: Option<i32> = None;
let my_enum = Box::new(foo) as Box<dyn TupleVariant>;
```

Here, `my_enum` contains `foo`, which is a unit variant. However, since we need to implement `TupleVariant` for `Option` as a whole, it's possible to perform such a cast. This is obviously wrong, but could easily go unnoticed. So unfortunately, this makes it not a good candidate for representing variants.

##### 2. Variant Structs

To get around the issue of traits necessarily needing to apply to both the enum and its variants, we could instead use structs that are created on a per-variant basis. This was also considered but was ultimately [[removed](71d27ab3c6) due to concerns about allocations.

 Each variant struct would probably look something like:

```rust
pub trait Enum: Reflect {
  fn variant_mut(&self) -> VariantMut;
}

pub enum VariantMut<'a> {
    Unit,
    Tuple(TupleVariantMut),
    Struct(StructVariantMut),
}

struct StructVariantMut<'a> {
  fields: Vec<&'a mut dyn Reflect>,
  field_indices: HashMap<Cow<'static, str>, usize>
}
```

This allows us to isolate struct variants into their own defined struct and define methods specifically for their use. It also prevents users from casting to it since it's not a trait. However, this is not an optimal solution. Both `field_indices` and `fields` will require an allocation (remember, a `Box<[T]>` still requires a `Vec<T>` in order to be constructed). This *might* be a problem if called frequently enough.

##### 3. Generated Structs

The original design, implemented by @Davier, instead generates structs specific for each variant. So if we had a variant path like `Foo::Bar`, we'd generate a struct named `FooBarWrapper`. This would be newtyped around the original enum and forward tuple or struct methods to the enum with the chosen variant.

Because it involved using the `Tuple` and `Struct` traits (which are also both bound on `Reflect`), this meant a bit more code had to be generated. For a single struct variant with one field, the generated code amounted to ~110LoC. However, each new field added to that variant only added ~6 more LoC.

In order to work properly, the enum had to be transmuted to the generated struct:

```rust
fn variant(&self) -> crate::EnumVariant<'_> {
  match self {
    Foo::Bar {value: i32} => {
      let wrapper_ref = unsafe { 
        std::mem::transmute::<&Self, &FooBarWrapper>(self) 
      };
      crate::EnumVariant::Struct(wrapper_ref as &dyn crate::Struct)
    }
  }
}
```

This works because `FooBarWrapper` is defined as `repr(transparent)`.

Out of all the alternatives, this would probably be the one most likely to be used again in the future. The reasons for why this PR did not continue to use it was because:

* To reduce generated code (which would hopefully speed up compile times)
* To avoid cluttering the code with generated structs not visible to the user
* To keep bevy_reflect simple and extensible (these generated structs act as proxies and might not play well with current or future systems)
* To avoid additional unsafe blocks
* My own misunderstanding of @Davier's code

That last point is obviously on me. I misjudged the code to be too unsafe and unable to handle variant swapping (which it probably could) when I was rebasing it. Looking over it again when writing up this whole section, I see that it was actually a pretty clever way of handling variant representation.

#### Benefits of All-in-One

As stated before, the current implementation uses an all-in-one approach. All variants are capable of containing fields as far as `Enum` is concerned. This provides a few benefits that the alternatives do not (reduced indirection, safer code, etc.).

The biggest benefit, though, is direct field access. Rather than forcing users to have to go through pattern matching, we grant direct access to the fields contained by the current variant. The reason we can do this is because all of the pattern matching happens internally. Getting the field at index `2` will automatically return `Some(...)` for the current variant if it has a field at that index or `None` if it doesn't (or can't).

This could be useful for scenarios where the variant has already been verified or just set/swapped (or even where the type of variant doesn't matter):

```rust
let dyn_enum: &mut dyn Enum = &mut Foo::Bar {value: 123};
// We know it's the `Bar` variant
let field = dyn_enum.field("value").unwrap();
```

Reflection is not a type-safe abstraction— almost every return value is wrapped in `Option<...>`. There are plenty of places to check and recheck that a value is what Reflect says it is. Forcing users to have to go through `match` each time they want to access a field might just be an extra step among dozens of other verification processes.

 Some might disagree, but ultimately, my view is that the benefit here is an improvement to the ergonomics and usability of reflected enums.

</details>

---

## Changelog

### Added

* Added `Enum` trait
* Added `Enum` impl to `Reflect` derive macro
* Added `DynamicEnum` struct
  * Added `DynamicVariant`
* Added `EnumInfo`
  * Added `VariantInfo`
    * Added `StructVariantInfo`
    * Added `TupleVariantInfo`
    * Added `UnitVariantInfo`
* Added serializtion/deserialization support for enums
  * Added `EnumSerializer`

* Added `VariantType`
* Added `VariantFieldIter`
* Added `VariantField`
* Added `enum_partial_eq(...)`
* Added `enum_hash(...)`

### Changed

* `Option<T>` now implements `Enum`
* `bevy_window` now depends on `bevy_reflect`
  * Implemented `Reflect` and `FromReflect` for `WindowId`
* Derive `FromReflect` on `PerspectiveProjection`
* Derive `FromReflect` on `OrthographicProjection`
* Derive `FromReflect` on `WindowOrigin`
* Derive `FromReflect` on `ScalingMode`
* Derive `FromReflect` on `DepthCalculation`


## Migration Guide

* Enums no longer need to be treated as values and usages of `#[reflect_value(...)]` can be removed or replaced by `#[reflect(...)]`
* Enums (including `Option<T>`) now take a different format when serializing. The format is described above, but this may cause issues for existing scenes that make use of enums. 

---

Also shout out to @nicopap for helping clean up some of the code here! It's a big feature so help like this is really appreciated!

Co-authored-by: Gino Valente <gino.valente.code@gmail.com>
2022-08-02 22:14:41 +00:00
Jakob Hellermann
4b191d968d remove blanket Serialize + Deserialize requirement for Reflect on generic types (#5197)
# Objective

Some generic types like `Option<T>`, `Vec<T>` and `HashMap<K, V>` implement `Reflect` when where their generic types `T`/`K`/`V` implement `Serialize + for<'de> Deserialize<'de>`.
This is so that in their `GetTypeRegistration` impl they can insert the `ReflectSerialize` and `ReflectDeserialize` type data structs.

This has the annoying side effect that if your struct contains a `Option<NonSerdeStruct>` you won't be able to derive reflect (https://github.com/bevyengine/bevy/issues/4054).

## Solution

- remove the `Serialize + Deserialize` bounds on wrapper types
  - this means that `ReflectSerialize` and `ReflectDeserialize` will no longer be inserted even for `.register::<Option<DoesImplSerde>>()`
- add `register_type_data<T, D>` shorthand for `registry.get_mut(T).insert(D::from_type<T>())`
- require users to register their specific generic types **and the serde types** separately like
```rust
        .register_type::<Option<String>>()
        .register_type_data::<Option<String>, ReflectSerialize>()
        .register_type_data::<Option<String>, ReflectDeserialize>()

```
I believe this is the best we can do for extensibility and convenience without specialization.


## Changelog

- `.register_type` for generic types like `Option<T>`, `Vec<T>`, `HashMap<K, V>` will no longer insert `ReflectSerialize` and `ReflectDeserialize` type data. Instead you need to register it separately for concrete generic types like so:
```rust
        .register_type::<Option<String>>()
        .register_type_data::<Option<String>, ReflectSerialize>()
        .register_type_data::<Option<String>, ReflectDeserialize>()
```

TODO: more docs and tweaks to the scene example to demonstrate registering generic types.
2022-07-21 14:57:37 +00:00
Jakob Hellermann
7dcfaaef67 bevy_reflect: ReflectFromPtr to create &dyn Reflect from a *const () (#4475)
# Objective

https://github.com/bevyengine/bevy/pull/4447 adds functions that can fetch resources/components as `*const ()` ptr by providing the `ComponentId`. This alone is not enough for them to be usable safely with reflection, because there is no general way to go from the raw pointer to a `&dyn Reflect` which is the pointer + a pointer to the VTable of the `Reflect` impl.

By adding a `ReflectFromPtr` type that is included in the type type registration when deriving `Reflect`, safe functions can be implemented in scripting languages that don't assume a type layout and can access the component data via reflection:

```rust
#[derive(Reflect)]
struct StringResource {
    value: String
}
```

```lua
local res_id = world:resource_id_by_name("example::StringResource")
local res = world:resource(res_id)

print(res.value)
```

## Solution

1. add a `ReflectFromPtr` type with a `FromType<T: Reflect>` implementation and the following methods:
- `     pub unsafe fn as_reflect_ptr<'a>(&self, val: Ptr<'a>) -> &'a dyn Reflect`
- `     pub unsafe fn as_reflect_ptr_mut<'a>(&self, val: PtrMut<'a>) -> &'a mud dyn Reflect`

Safety requirements of the methods are that you need to check that the `ReflectFromPtr` was constructed for the correct type.

2. add that type to the `TypeRegistration` in the `GetTypeRegistration` impl generated by `#[derive(Reflect)]`.
This is different to other reflected traits because it doesn't need `#[reflect(ReflectReflectFromPtr)]` which IMO should be there by default.

Co-authored-by: Jakob Hellermann <hellermann@sipgate.de>
Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2022-07-19 23:00:34 +00:00
James Liu
5498ef81fb bevy_reflect: support map insertion (#5173)
# Objective

This is a rebase of #3701 which is currently scheduled for 0.8 but is marked for adoption.

> Fixes https://github.com/bevyengine/bevy/discussions/3609

## Solution
> - add an `insert_boxed()` method on the `Map` trait
> - implement it for `HashMap` using a new `FromReflect` generic bound
> - add a `map_apply()` helper method to implement `Map::apply()`, that inserts new values instead of ignoring them


---

## Changelog
TODO

Co-authored-by: james7132 <contact@jamessliu.com>
2022-07-04 13:04:19 +00:00
PROMETHIA-27
c27a3cff6d Make Reflect safe to implement (#5010)
# Objective

Currently, `Reflect` is unsafe to implement because of a contract in which `any` and `any_mut` must return `self`, or `downcast` will cause UB. This PR makes `Reflect` safe, makes `downcast` not use unsafe, and eliminates this contract. 

## Solution

This PR adds a method to `Reflect`, `any`. It also renames the old `any` to `as_any`.
`any` now takes a `Box<Self>` and returns a `Box<dyn Any>`. 

---

## Changelog

### Added:
- `any()` method
- `represents()` method

### Changed:
- `Reflect` is now a safe trait
- `downcast()` is now safe
- The old `any` is now called `as_any`, and `any_mut` is now `as_mut_any`

## Migration Guide

- Reflect derives should not have to change anything
- Manual reflect impls will need to remove the `unsafe` keyword, add `any()` implementations, and rename the old `any` and `any_mut` to `as_any` and `as_mut_any`.
- Calls to `any`/`any_mut` must be changed to `as_any`/`as_mut_any`

## Points of discussion:

- Should renaming `any` be avoided and instead name the new method `any_box`?
- ~~Could there be a performance regression from avoiding the unsafe? I doubt it, but this change does seem to introduce redundant checks.~~
- ~~Could/should `is` and `type_id()` be implemented differently? For example, moving `is` onto `Reflect` as an `fn(&self, TypeId) -> bool`~~


Co-authored-by: PROMETHIA-27 <42193387+PROMETHIA-27@users.noreply.github.com>
2022-06-27 16:52:25 +00:00
Jakob Hellermann
218b0fd3b6 bevy_reflect: put serialize into external ReflectSerialize type (#4782)
builds on top of #4780 

# Objective

`Reflect` and `Serialize` are currently very tied together because `Reflect` has a `fn serialize(&self) -> Option<Serializable<'_>>` method. Because of that, we can either implement `Reflect` for types like `Option<T>` with `T: Serialize` and have `fn serialize` be implemented, or without the bound but having `fn serialize` return `None`.

By separating `ReflectSerialize` into a separate type (like how it already is for `ReflectDeserialize`, `ReflectDefault`), we could separately `.register::<Option<T>>()` and `.register_data::<Option<T>, ReflectSerialize>()` only if the type `T: Serialize`.

This PR does not change the registration but allows it to be changed in a future PR.

## Solution

- add the type
```rust
struct ReflectSerialize { .. }
impl<T: Reflect + Serialize> FromType<T> for ReflectSerialize { .. }
```

- remove `#[reflect(Serialize)]` special casing. 

- when serializing reflect value types, look for `ReflectSerialize` in the `TypeRegistry` instead of calling `value.serialize()`
2022-06-20 17:18:58 +00:00
Gino Valente
e6f34ba47f bevy_reflect: Add statically available type info for reflected types (#4042)
# Objective

> Resolves #4504

It can be helpful to have access to type information without requiring an instance of that type. Especially for `Reflect`, a lot of the gathered type information is known at compile-time and should not necessarily require an instance.

## Solution

Created a dedicated `TypeInfo` enum to store static type information. All types that derive `Reflect` now also implement the newly created `Typed` trait:

```rust
pub trait Typed: Reflect {
  fn type_info() -> &'static TypeInfo;
}
```

> Note: This trait was made separate from `Reflect` due to `Sized` restrictions.

If you only have access to a `dyn Reflect`, just call `.get_type_info()` on it. This new trait method on `Reflect` should return the same value as if you had called it statically. 

If all you have is a `TypeId` or type name, you can get the `TypeInfo` directly from the registry using the `TypeRegistry::get_type_info` method (assuming it was registered).

### Usage

Below is an example of working with `TypeInfo`. As you can see, we don't have to generate an instance of `MyTupleStruct` in order to get this information.

```rust
#[derive(Reflect)]
struct MyTupleStruct(usize, i32, MyStruct);

let info = MyTupleStruct::type_info();
if let TypeInfo::TupleStruct(info) = info {
  assert!(info.is::<MyTupleStruct>());
  assert_eq!(std::any::type_name::<MyTupleStruct>(), info.type_name());
  assert!(info.field_at(1).unwrap().is::<i32>());
} else {
  panic!("Expected `TypeInfo::TupleStruct`");
}
```

### Manual Implementations

It's not recommended to manually implement `Typed` yourself, but if you must, you can use the `TypeInfoCell` to automatically create and manage the static `TypeInfo`s for you (which is very helpful for blanket/generic impls):

```rust
use bevy_reflect::{Reflect, TupleStructInfo, TypeInfo, UnnamedField};
use bevy_reflect::utility::TypeInfoCell;

struct Foo<T: Reflect>(T);

impl<T: Reflect> Typed for Foo<T> {
  fn type_info() -> &'static TypeInfo {
    static CELL: TypeInfoCell = TypeInfoCell::generic();
    CELL.get_or_insert::<Self, _>(|| {
      let fields = [UnnamedField:🆕:<T>()];
      let info = TupleStructInfo:🆕:<Self>(&fields);
      TypeInfo::TupleStruct(info)
    })
  }
}
```

## Benefits

One major benefit is that this opens the door to other serialization methods. Since we can get all the type info at compile time, we can know how to properly deserialize something like:

```rust
#[derive(Reflect)]
struct MyType {
  foo: usize,
  bar: Vec<String>
}

// RON to be deserialized:
(
  type: "my_crate::MyType", // <- We now know how to deserialize the rest of this object
  value: {
    // "foo" is a value type matching "usize"
    "foo": 123,
    // "bar" is a list type matching "Vec<String>" with item type "String"
    "bar": ["a", "b", "c"]
  }
)
```

Not only is this more compact, but it has better compatibility (we can change the type of `"foo"` to `i32` without having to update our serialized data).

Of course, serialization/deserialization strategies like this may need to be discussed and fully considered before possibly making a change. However, we will be better equipped to do that now that we can access type information right from the registry.

## Discussion

Some items to discuss:

1. Duplication. There's a bit of overlap with the existing traits/structs since they require an instance of the type while the type info structs do not (for example, `Struct::field_at(&self, index: usize)` and `StructInfo::field_at(&self, index: usize)`, though only `StructInfo` is accessible without an instance object). Is this okay, or do we want to handle it in another way?
2. Should `TypeInfo::Dynamic` be removed? Since the dynamic types don't have type information available at runtime, we could consider them `TypeInfo::Value`s (or just even just `TypeInfo::Struct`). The intention with `TypeInfo::Dynamic` was to keep the distinction from these dynamic types and actual structs/values since users might incorrectly believe the methods of the dynamic type's info struct would map to some contained data (which isn't possible statically).
4. General usefulness of this change, including missing/unnecessary parts.
5. Possible changes to the scene format? (One possible issue with changing it like in the example above might be that we'd have to be careful when handling generic or trait object types.)

## Compile Tests

I ran a few tests to compare compile times (as suggested [here](https://github.com/bevyengine/bevy/pull/4042#discussion_r876408143)). I toggled `Reflect` and `FromReflect` derive macros using `cfg_attr` for both this PR (aa5178e773) and main (c309acd432).

<details>
<summary>See More</summary>

The test project included 250 of the following structs (as well as a few other structs):

```rust
#[derive(Default)]
#[cfg_attr(feature = "reflect", derive(Reflect))]
#[cfg_attr(feature = "from_reflect", derive(FromReflect))]
pub struct Big001 {
    inventory: Inventory,
    foo: usize,
    bar: String,
    baz: ItemDescriptor,
    items: [Item; 20],
    hello: Option<String>,
    world: HashMap<i32, String>,
    okay: (isize, usize, /* wesize */),
    nope: ((String, String), (f32, f32)),
    blah: Cow<'static, str>,
}
```

> I don't know if the compiler can optimize all these duplicate structs away, but I think it's fine either way. We're comparing times, not finding the absolute worst-case time.

I only ran each build 3 times using `cargo build --timings` (thank you @devil-ira), each of which were preceeded by a `cargo clean --package bevy_reflect_compile_test`. 

Here are the times I got:

| Test                             | Test 1 | Test 2 | Test 3 | Average |
| -------------------------------- | ------ | ------ | ------ | ------- |
| Main                             | 1.7s   | 3.1s   | 1.9s   | 2.33s   |
| Main + `Reflect`                 | 8.3s   | 8.6s   | 8.1s   | 8.33s   |
| Main + `Reflect` + `FromReflect` | 11.6s  | 11.8s  | 13.8s  | 12.4s   |
| PR                               | 3.5s   | 1.8s   | 1.9s   | 2.4s    |
| PR + `Reflect`                   | 9.2s   | 8.8s   | 9.3s   | 9.1s    |
| PR + `Reflect` + `FromReflect`   | 12.9s  | 12.3s  | 12.5s  | 12.56s  |

</details>

---

## Future Work

Even though everything could probably be made `const`, we unfortunately can't. This is because `TypeId::of::<T>()` is not yet `const` (see https://github.com/rust-lang/rust/issues/77125). When it does get stabilized, it would probably be worth coming back and making things `const`. 

Co-authored-by: MrGVSV <49806985+MrGVSV@users.noreply.github.com>
2022-06-09 21:18:15 +00:00
Félix Lescaudey de Maneville
f000c2b951 Clippy improvements (#4665)
# Objective

Follow up to my previous MR #3718 to add new clippy warnings to bevy:

- [x] [~~option_if_let_else~~](https://rust-lang.github.io/rust-clippy/master/#option_if_let_else) (reverted)
- [x] [redundant_else](https://rust-lang.github.io/rust-clippy/master/#redundant_else)
- [x] [match_same_arms](https://rust-lang.github.io/rust-clippy/master/#match_same_arms)
- [x] [semicolon_if_nothing_returned](https://rust-lang.github.io/rust-clippy/master/#semicolon_if_nothing_returned)
- [x] [explicit_iter_loop](https://rust-lang.github.io/rust-clippy/master/#explicit_iter_loop)
- [x] [map_flatten](https://rust-lang.github.io/rust-clippy/master/#map_flatten)

There is one commit per clippy warning, and the matching flags are added to the CI execution.

To test the CI execution you may run `cargo run -p ci -- clippy` at the root.

I choose the add the flags in the `ci` tool crate to avoid having them in every `lib.rs` but I guess it could become an issue with suprise warnings coming up after a commit/push


Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2022-05-31 01:38:07 +00:00
Jakob Hellermann
4b7f904cfc remove Serialize impl for dyn Array and friends (#4780)
# Objective

`bevy_reflect` as different kinds of reflected types (each with their own trait), `trait Struct: Reflect`, `trait List: Reflect`, `trait Map: Reflect`, ...
Types that don't fit either of those are called reflect value types, they are opaque and can't be deconstructed further.

`bevy_reflect` can serialize `dyn Reflect` values. Any container types (struct, list, map) get deconstructed and their elements serialized separately, which can all happen without serde being involved ever (happens [here](https://github.com/bevyengine/bevy/blob/main/crates/bevy_reflect/src/serde/ser.rs#L50-L85=)).
 The only point at which we require types to be serde-serializable is for *value types* (happens [here](https://github.com/bevyengine/bevy/blob/main/crates/bevy_reflect/src/serde/ser.rs#L104=)).

So reflect array serializing is solved, since arrays are container types which don't require serde.

#1213 also introduced added the `serialize` method and `Serialize` impls for `dyn Array` and `DynamicArray` which use their element's `Reflect::serializable` function. This is 1. unnecessary, because it is not used for array serialization, and 2. annoying for removing the `Serialize` bound on container types, because these impls don't have access to the `TypeRegistry`, so we can't move the serialization code there.

# Solution

Remove these impls and `fn serialize`. It's not used and annoying for other changes.
2022-05-30 20:22:57 +00:00
Gino Valente
2f5591ff8c bevy_reflect: Improve debug formatting for reflected types (#4218)
# Objective

Debugging reflected types can be somewhat frustrating since all `dyn Reflect` trait objects return something like `Reflect(core::option::Option<alloc::string::String>)`.

It would be much nicer to be able to see the actual value— or even use a custom `Debug` implementation.

## Solution

Added `Reflect::debug` which allows users to customize the debug output. It sets defaults for all `ReflectRef` subtraits and falls back to `Reflect(type_name)` if no `Debug` implementation was registered.

To register a custom `Debug` impl, users can add `#[reflect(Debug)]` like they can with other traits.

### Example

Using the following structs:

```rust
#[derive(Reflect)]
pub struct Foo {
    a: usize,
    nested: Bar,
    #[reflect(ignore)]
    _ignored: NonReflectedValue,
}

#[derive(Reflect)]
pub struct Bar {
    value: Vec2,
    tuple_value: (i32, String),
    list_value: Vec<usize>,
    // We can't determine debug formatting for Option<T> yet
    unknown_value: Option<String>,
    custom_debug: CustomDebug
}

#[derive(Reflect)]
#[reflect(Debug)]
struct CustomDebug;

impl Debug for CustomDebug {
    fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
        write!(f, "This is a custom debug!")
    }
}

pub struct NonReflectedValue {
    _a: usize,
}
```

We can do:

```rust
let value = Foo {
  a: 1,
  _ignored: NonReflectedValue { _a: 10 },
  nested: Bar {
    value: Vec2::new(1.23, 3.21),
    tuple_value: (123, String::from("Hello")),
    list_value: vec![1, 2, 3],
    unknown_value: Some(String::from("World")),
    custom_debug: CustomDebug
  },
};
let reflected_value: &dyn Reflect = &value;
println!("{:#?}", reflected_value)
```

Which results in:

```rust
Foo {
  a: 2,
  nested: Bar {
    value: Vec2(
      1.23,
      3.21,
    ),
    tuple_value: (
      123,
      "Hello",
    ),
    list_value: [
      1,
      2,
      3,
    ],
    unknown_value: Reflect(core::option::Option<alloc::string::String>),
    custom_debug: This is a custom debug!,
  },
}
```

Notice that neither `Foo` nor `Bar` implement `Debug`, yet we can still deduce it. This might be a concern if we're worried about leaking internal values. If it is, we might want to consider a way to exclude fields (possibly with a `#[reflect(hide)]` macro) or make it purely opt in (as opposed to the default implementation automatically handled by ReflectRef subtraits).

Co-authored-by: Gino Valente <49806985+MrGVSV@users.noreply.github.com>
2022-05-30 16:41:31 +00:00
MrGVSV
15acd6f45d bevy_reflect: Small refactor and default Reflect methods (#4739)
# Objective

Quick followup to #4712.

While updating some [other PRs](https://github.com/bevyengine/bevy/pull/4218), I realized the `ReflectTraits` struct could be improved. The issue with the current implementation is that `ReflectTraits::get_xxx_impl(...)` returns just the _logic_ to the corresponding `Reflect` trait method, rather than the entire function.

This makes it slightly more annoying to manage since the variable names need to be consistent across files. For example, `get_partial_eq_impl` uses a `value` variable. But the name "value" isn't defined in the `get_partial_eq_impl` method, it's defined in three other methods in a completely separate file.

It's not likely to cause any bugs if we keep it as it is since differing variable names will probably just result in a compile error (except in very particular cases). But it would be useful to someone who wanted to edit/add/remove a method.

## Solution

Made `get_hash_impl`, `get_partial_eq_impl` and `get_serialize_impl` return the entire method implementation for `reflect_hash`, `reflect_partial_eq`, and `serializable`, respectively.

As a result of this, those three `Reflect` methods were also given default implementations. This was fairly simple to do since all three could just be made to return `None`.

---

## Changelog

* Small cleanup/refactor to `ReflectTraits` in `bevy_reflect_derive`
* Gave `Reflect::reflect_hash`, `Reflect::reflect_partial_eq`, and `Reflect::serializable` default implementations
2022-05-18 12:26:11 +00:00
MrGVSV
de2b1a4e94 bevy_reflect: Reflected char (#4790)
# Objective

`char` isn't reflected.

## Solution

Reflected `char`.

---

## Changelog

* Reflected `char`

## Migration Guide

> List too long to display
2022-05-17 23:45:09 +00:00
MrGVSV
acbee7795d bevy_reflect: Reflect arrays (#4701)
# Objective

> ℹ️ **Note**: This is a rebased version of #2383. A large portion of it has not been touched (only a few minor changes) so that any additional discussion may happen here. All credit should go to @NathanSWard for their work on the original PR.

- Currently reflection is not supported for arrays.
- Fixes #1213

## Solution

* Implement reflection for arrays via the `Array` trait.
* Note, `Array` is different from `List` in the way that you cannot push elements onto an array as they are statically sized.
* Now `List` is defined as a sub-trait of `Array`.

---

## Changelog

* Added the `Array` reflection trait
* Allows arrays up to length 32 to be reflected via the `Array` trait

## Migration Guide

* The `List` trait now has the `Array` supertrait. This means that `clone_dynamic` will need to specify which version to use:
  ```rust
  // Before
  let cloned = my_list.clone_dynamic();
  // After
  let cloned = List::clone_dynamic(&my_list);
  ```
* All implementers of `List` will now need to implement `Array` (this mostly involves moving the existing methods to the `Array` impl)

Co-authored-by: NathanW <nathansward@comcast.net>
Co-authored-by: MrGVSV <49806985+MrGVSV@users.noreply.github.com>
2022-05-13 01:13:30 +00:00
MrGVSV
361686a09c bevy_reflect: Added PartialEq to reflected f32 & f64 (#4217)
# Objective

Comparing two reflected floating points would always fail:

```rust
let a: &dyn Reflect = &1.23_f32;
let b: &dyn Reflect = &1.23_f32;

// Panics:
assert!(a.reflect_partial_eq(b).unwrap_or_default());
```

The comparison returns `None` since `f32` (and `f64`) does not have a reflected `PartialEq` implementation.

## Solution

Include `PartialEq` in the `impl_reflect_value!` macro call for both `f32` and `f64`.

`Hash` is still excluded since neither implement `Hash`.

Also added equality tests for some of the common types from `std` (including `f32`).
2022-04-26 19:41:26 +00:00
MrGVSV
5047e1f08e bevy_reflect: Add as_reflect and as_reflect_mut (#4350)
# Objective

Trait objects that have `Reflect` as a supertrait cannot be upcast to a `dyn Reflect`.

Attempting something like:

```rust
trait MyTrait: Reflect {
  // ...
}

fn foo(value: &dyn MyTrait) {
  let reflected = value as &dyn Reflect; // Error!
  // ...
}
```

Results in `error[E0658]: trait upcasting coercion is experimental`.

The reason this is important is that a lot of `bevy_reflect` methods require a `&dyn Reflect`. This is trivial with concrete types, but if we don't know the concrete type (we only have the trait object), we can't use these methods. For example, we couldn't create a `ReflectSerializer` for the type since it expects a `&dyn Reflect` value— even though we should be able to.

## Solution

Add `as_reflect` and `as_reflect_mut` to `Reflect` to allow upcasting to a `dyn Reflect`:

```rust
trait MyTrait: Reflect {
  // ...
}

fn foo(value: &dyn MyTrait) {
  let reflected = value.as_reflect();
  // ...
}
```

## Alternatives

We could defer this type of logic to the crate/user. They can add these methods to their trait in the same exact way we do here. The main benefit of doing it ourselves is it makes things convenient for them (especially when using the derive macro).

We could also create an `AsReflect` trait with a blanket impl over all reflected types, however, I could not get that to work for trait objects since they aren't sized.

---

## Changelog

- Added trait method `Reflect::as_reflect(&self)`
- Added trait method `Reflect::as_reflect_mut(&mut self)`

## Migration Guide

- Manual implementors of `Reflect` will need to add implementations for the methods above (this should be pretty easy as most cases just need to return `self`)
2022-04-25 13:54:48 +00:00
Carter Anderson
b3a1db60f2 Proper prehashing (#3963)
For some keys, it is too expensive to hash them on every lookup. Historically in Bevy, we have regrettably done the "wrong" thing in these cases (pre-computing hashes, then re-hashing them) because Rust's built in hashed collections don't give us the tools we need to do otherwise. Doing this is "wrong" because two different values can result in the same hash. Hashed collections generally get around this by falling back to equality checks on hash collisions. You can't do that if the key _is_ the hash. Additionally, re-hashing a hash increase the odds of collision!
 
#3959 needs pre-hashing to be viable, so I decided to finally properly solve the problem. The solution involves two different changes:

1. A new generalized "pre-hashing" solution in bevy_utils: `Hashed<T>` types, which store a value alongside a pre-computed hash. And `PreHashMap<K, V>` (which uses `Hashed<T>` internally) . `PreHashMap` is just an alias for a normal HashMap that uses `Hashed<T>` as the key and a new `PassHash` implementation as the Hasher. 
2. Replacing the `std::collections` re-exports in `bevy_utils` with equivalent `hashbrown` impls. Avoiding re-hashes requires the `raw_entry_mut` api, which isn't stabilized yet (and may never be ... `entry_ref` has favor now, but also isn't available yet). If std's HashMap ever provides the tools we need, we can move back to that. The latest version of `hashbrown` adds support for the `entity_ref` api, so we can move to that in preparation for an std migration, if thats the direction they seem to be going in. Note that adding hashbrown doesn't increase our dependency count because it was already in our tree.

In addition to providing these core tools, I also ported the "table identity hashing" in `bevy_ecs` to `raw_entry_mut`, which was a particularly egregious case.

The biggest outstanding case is `AssetPathId`, which stores a pre-hash. We need AssetPathId to be cheaply clone-able (and ideally Copy), but `Hashed<AssetPath>` requires ownership of the AssetPath, which makes cloning ids way more expensive. We could consider doing `Hashed<Arc<AssetPath>>`, but cloning an arc is still a non-trivial expensive that needs to be considered. I would like to handle this in a separate PR. And given that we will be re-evaluating the Bevy Assets implementation in the very near future, I'd prefer to hold off until after that conversation is concluded.
2022-02-18 03:26:01 +00:00
danieleades
d8974e7c3d small and mostly pointless refactoring (#2934)
What is says on the tin.

This has got more to do with making `clippy` slightly more *quiet* than it does with changing anything that might greatly impact readability or performance.

that said, deriving `Default` for a couple of structs is a nice easy win
2022-02-13 22:33:55 +00:00
Jonathan Cornaz
d07c8a8fa7 Implement ReflectValue serialization for Duration (#3318)
# Objective

Resolves #3277 

Currenty if we try to serialize a scene that contains a `Duration` (which is very common, since `Timer` contains one), we get an error saying:

> Type 'core::time::Duration' does not support ReflectValue serialization


## Solution

Let `Duration` implement `SerializeValue`.



Co-authored-by: Jonathan Cornaz <jcornaz@users.noreply.github.com>
2021-12-29 21:04:26 +00:00
davier
06d9384447 Add FromReflect trait to convert dynamic types to concrete types (#1395)
Dynamic types (`DynamicStruct`, `DynamicTupleStruct`, `DynamicTuple`, `DynamicList` and `DynamicMap`) are used when deserializing scenes, but currently they can only be applied to existing concrete types. This leads to issues when trying to spawn non trivial deserialized scene.
For components, the issue is avoided by requiring that reflected components implement ~~`FromResources`~~ `FromWorld` (or `Default`). When spawning, a new concrete type is created that way, and the dynamic type is applied to it. Unfortunately, some components don't have any valid implementation of these traits.
In addition, any `Vec` or `HashMap` inside a component will panic when a dynamic type is pushed into it (for instance, `Text` panics when adding a text section).

To solve this issue, this PR adds the `FromReflect` trait that creates a concrete type from a dynamic type that represent it, derives the trait alongside the `Reflect` trait, drops the ~~`FromResources`~~ `FromWorld` requirement on reflected components, ~~and enables reflection for UI and Text bundles~~. It also adds the requirement that fields ignored with `#[reflect(ignore)]` implement `Default`, since we need to initialize them somehow.

Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2021-12-26 18:49:01 +00:00
Yoh Deadfall
653c10371e Use bevy_reflect as path in case of no direct references (#1875)
Fixes #1844


Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2021-05-19 19:03:36 +00:00
Carter Anderson
5fedb6029a Make Reflect impls unsafe (Reflect::any must return self) (#1679)
Fixes #1100 

Implementors must make sure that `Reflect::any` and `Reflect::any_mut` both return the `self` reference passed in (both for logical correctness and downcast safety).
2021-03-17 22:46:46 +00:00
Nathan Stocks
faeccd7a09 Reflection cleanup (#1536)
This is an effort to provide the correct `#[reflect_value(...)]` attributes where they are needed.  

Supersedes #1533 and resolves #1528.

---

I am working under the following assumptions (thanks to @bjorn3 and @Davier for advice here):

- Any `enum` that derives `Reflect` and one or more of { `Serialize`, `Deserialize`, `PartialEq`, `Hash` } needs a `#[reflect_value(...)]` attribute containing the same subset of { `Serialize`, `Deserialize`, `PartialEq`, `Hash` } that is present on the derive.
- Same as above for `struct` and `#[reflect(...)]`, respectively.
- If a `struct` is used as a component, it should also have `#[reflect(Component)]`
- All reflected types should be registered in their plugins

I treated the following as components (added `#[reflect(Component)]` if necessary):
- `bevy_render`
  - `struct RenderLayers`
- `bevy_transform`
  - `struct GlobalTransform`
  - `struct Parent`
  - `struct Transform`
- `bevy_ui`
  - `struct Style`

Not treated as components:
- `bevy_math`
  - `struct Size<T>`
  - `struct Rect<T>`
  - Note: The updates for `Size<T>` and `Rect<T>` in `bevy::math::geometry` required using @Davier's suggestion to add `+ PartialEq` to the trait bound. I then registered the specific types used over in `bevy_ui` such as `Size<Val>`, etc. in `bevy_ui`'s plugin, since `bevy::math` does not contain a plugin.
- `bevy_render`
  - `struct Color`
  - `struct PipelineSpecialization`
  - `struct ShaderSpecialization`
  - `enum PrimitiveTopology`
  - `enum IndexFormat`

Not Addressed:
- I am not searching for components in Bevy that are _not_ reflected. So if there are components that are not reflected that should be reflected, that will need to be figured out in another PR.
- I only added `#[reflect(...)]` or `#[reflect_value(...)]` entries for the set of four traits { `Serialize`, `Deserialize`, `PartialEq`, `Hash` } _if they were derived via `#[derive(...)]`_. I did not look for manual trait implementations of the same set of four, nor did I consider any traits outside the four.  Are those other possibilities something that needs to be looked into?
2021-03-09 23:39:41 +00:00
Chris Janaqi
ab407aa697 ♻️ Timer refactor to duration. Add Stopwatch struct. (#1151)
This pull request is following the discussion on the issue #1127. Additionally, it integrates the change proposed by #1112.

The list of change of this pull request:

*  Add `Timer::times_finished` method that counts the number of wraps for repeating timers.
* ♻️ Refactored `Timer`
* 🐛 Fix a bug where 2 successive calls to `Timer::tick` which makes a repeating timer to finish makes `Timer::just_finished` to return `false` where it should return `true`. Minimal failing example:
```rust
use bevy::prelude::*;
let mut timer: Timer<()> = Timer::from_seconds(1.0, true);
timer.tick(1.5);
assert!(timer.finished());
assert!(timer.just_finished());
timer.tick(1.5);
assert!(timer.finished());
assert!(timer.just_finished()); // <- This fails where it should not
```
* 📚 Add extensive documentation for Timer with doc examples.
*  Add a `Stopwatch` struct similar to `Timer` with extensive doc and tests.

Even if the type specialization is not retained for bevy, the doc, bugfix and added method are worth salvaging 😅.
This is my first PR for bevy, please be kind to me ❤️ .

Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2021-03-05 19:59:14 +00:00
davier
5b115397ba
Fix Reflect serialization of tuple structs (#1366)
* Fix  DynamicTupleStruct::type_name()

* Fix type_name() for DynamicList, DynamicMap  and DynamicTuple
2021-02-02 13:57:26 -08:00
Nathan Stocks
0867dc76a3
Use Cow<'static, str> in Name (#1308)
* Implement Name { name } as Cow<'static, str>
* Attempt impl Reflect for Cow<'static, str.>
2021-01-31 16:35:23 -08:00
Joshua J. Bouw
9f4c8b1b9a
Fix errors and panics to typical Rust conventions (#968)
Fix errors and panics to typical Rust conventions
2020-12-02 11:31:16 -08:00
Nathan Stocks
3cee95e59a
Rename reflect 'hash' method to 'reflect_hash' and partial_eq to reflect_partial_eq (#954)
* Rename reflect 'hash' method to 'reflect_hash' to avoid colliding with std:#️⃣:Hash::hash to resolve #943.

* Rename partial_eq to reflect_partial_eq to avoid collisions with implementations of PartialEq on primitives.
2020-12-01 11:15:07 -08:00
Carter Anderson
72b2fc9843
Bevy Reflection (#926)
Bevy Reflection
2020-11-27 16:39:59 -08:00