use crate::{Asset, AssetIndex}; use bevy_reflect::Reflect; use uuid::Uuid; use std::{ any::TypeId, fmt::{Debug, Display}, hash::Hash, marker::PhantomData, }; use thiserror::Error; /// A unique runtime-only identifier for an [`Asset`]. This is cheap to [`Copy`]/[`Clone`] and is not directly tied to the /// lifetime of the Asset. This means it _can_ point to an [`Asset`] that no longer exists. /// /// For an identifier tied to the lifetime of an asset, see [`Handle`](`crate::Handle`). /// /// For an "untyped" / "generic-less" id, see [`UntypedAssetId`]. #[derive(Reflect)] pub enum AssetId { /// A small / efficient runtime identifier that can be used to efficiently look up an asset stored in [`Assets`]. This is /// the "default" identifier used for assets. The alternative(s) (ex: [`AssetId::Uuid`]) will only be used if assets are /// explicitly registered that way. /// /// [`Assets`]: crate::Assets Index { index: AssetIndex, #[reflect(ignore)] marker: PhantomData A>, }, /// A stable-across-runs / const asset identifier. This will only be used if an asset is explicitly registered in [`Assets`] /// with one. /// /// [`Assets`]: crate::Assets Uuid { uuid: Uuid }, } impl AssetId { /// The uuid for the default [`AssetId`]. It is valid to assign a value to this in [`Assets`](crate::Assets) /// and by convention (where appropriate) assets should support this pattern. pub const DEFAULT_UUID: Uuid = Uuid::from_u128(200809721996911295814598172825939264631); /// This asset id _should_ never be valid. Assigning a value to this in [`Assets`](crate::Assets) will /// produce undefined behavior, so don't do it! pub const INVALID_UUID: Uuid = Uuid::from_u128(108428345662029828789348721013522787528); /// Returns an [`AssetId`] with [`Self::INVALID_UUID`], which _should_ never be assigned to. #[inline] pub const fn invalid() -> Self { Self::Uuid { uuid: Self::INVALID_UUID, } } /// Converts this to an "untyped" / "generic-less" [`Asset`] identifier that stores the type information /// _inside_ the [`UntypedAssetId`]. #[inline] pub fn untyped(self) -> UntypedAssetId { self.into() } #[inline] pub(crate) fn internal(self) -> InternalAssetId { match self { AssetId::Index { index, .. } => InternalAssetId::Index(index), AssetId::Uuid { uuid } => InternalAssetId::Uuid(uuid), } } } impl Default for AssetId { fn default() -> Self { AssetId::Uuid { uuid: Self::DEFAULT_UUID, } } } impl Clone for AssetId { fn clone(&self) -> Self { *self } } impl Copy for AssetId {} impl Display for AssetId { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { Debug::fmt(self, f) } } impl Debug for AssetId { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { AssetId::Index { index, .. } => { write!( f, "AssetId<{}>{{ index: {}, generation: {}}}", std::any::type_name::(), index.index, index.generation ) } AssetId::Uuid { uuid } => { write!( f, "AssetId<{}>{{uuid: {}}}", std::any::type_name::(), uuid ) } } } } impl Hash for AssetId { #[inline] fn hash(&self, state: &mut H) { self.internal().hash(state); TypeId::of::().hash(state); } } impl PartialEq for AssetId { #[inline] fn eq(&self, other: &Self) -> bool { self.internal().eq(&other.internal()) } } impl Eq for AssetId {} impl PartialOrd for AssetId { fn partial_cmp(&self, other: &Self) -> Option { Some(self.cmp(other)) } } impl Ord for AssetId { fn cmp(&self, other: &Self) -> std::cmp::Ordering { self.internal().cmp(&other.internal()) } } impl From for AssetId { #[inline] fn from(value: AssetIndex) -> Self { Self::Index { index: value, marker: PhantomData, } } } impl From for AssetId { #[inline] fn from(value: Uuid) -> Self { Self::Uuid { uuid: value } } } /// An "untyped" / "generic-less" [`Asset`] identifier that behaves much like [`AssetId`], but stores the [`Asset`] type /// information at runtime instead of compile-time. This increases the size of the type, but it enables storing asset ids /// across asset types together and enables comparisons between them. #[derive(Debug, Copy, Clone)] pub enum UntypedAssetId { /// A small / efficient runtime identifier that can be used to efficiently look up an asset stored in [`Assets`]. This is /// the "default" identifier used for assets. The alternative(s) (ex: [`UntypedAssetId::Uuid`]) will only be used if assets are /// explicitly registered that way. /// /// [`Assets`]: crate::Assets Index { type_id: TypeId, index: AssetIndex }, /// A stable-across-runs / const asset identifier. This will only be used if an asset is explicitly registered in [`Assets`] /// with one. /// /// [`Assets`]: crate::Assets Uuid { type_id: TypeId, uuid: Uuid }, } impl UntypedAssetId { /// Converts this to a "typed" [`AssetId`] without checking the stored type to see if it matches the target `A` [`Asset`] type. /// This should only be called if you are _absolutely certain_ the asset type matches the stored type. And even then, you should /// consider using [`UntypedAssetId::typed_debug_checked`] instead. #[inline] pub fn typed_unchecked(self) -> AssetId { match self { UntypedAssetId::Index { index, .. } => AssetId::Index { index, marker: PhantomData, }, UntypedAssetId::Uuid { uuid, .. } => AssetId::Uuid { uuid }, } } /// Converts this to a "typed" [`AssetId`]. When compiled in debug-mode it will check to see if the stored type /// matches the target `A` [`Asset`] type. When compiled in release-mode, this check will be skipped. /// /// # Panics /// /// Panics if compiled in debug mode and the [`TypeId`] of `A` does not match the stored [`TypeId`]. #[inline] pub fn typed_debug_checked(self) -> AssetId { debug_assert_eq!( self.type_id(), TypeId::of::(), "The target AssetId<{}>'s TypeId does not match the TypeId of this UntypedAssetId", std::any::type_name::() ); self.typed_unchecked() } /// Converts this to a "typed" [`AssetId`]. /// /// # Panics /// /// Panics if the [`TypeId`] of `A` does not match the stored type id. #[inline] pub fn typed(self) -> AssetId { let Ok(id) = self.try_typed() else { panic!( "The target AssetId<{}>'s TypeId does not match the TypeId of this UntypedAssetId", std::any::type_name::() ) }; id } /// Try to convert this to a "typed" [`AssetId`]. #[inline] pub fn try_typed(self) -> Result, UntypedAssetIdConversionError> { AssetId::try_from(self) } /// Returns the stored [`TypeId`] of the referenced [`Asset`]. #[inline] pub fn type_id(&self) -> TypeId { match self { UntypedAssetId::Index { type_id, .. } | UntypedAssetId::Uuid { type_id, .. } => { *type_id } } } #[inline] pub(crate) fn internal(self) -> InternalAssetId { match self { UntypedAssetId::Index { index, .. } => InternalAssetId::Index(index), UntypedAssetId::Uuid { uuid, .. } => InternalAssetId::Uuid(uuid), } } } impl Display for UntypedAssetId { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { let mut writer = f.debug_struct("UntypedAssetId"); match self { UntypedAssetId::Index { index, type_id } => { writer .field("type_id", type_id) .field("index", &index.index) .field("generation", &index.generation); } UntypedAssetId::Uuid { uuid, type_id } => { writer.field("type_id", type_id).field("uuid", uuid); } } writer.finish() } } impl PartialEq for UntypedAssetId { #[inline] fn eq(&self, other: &Self) -> bool { self.type_id() == other.type_id() && self.internal().eq(&other.internal()) } } impl Eq for UntypedAssetId {} impl Hash for UntypedAssetId { #[inline] fn hash(&self, state: &mut H) { self.internal().hash(state); self.type_id().hash(state); } } impl PartialOrd for UntypedAssetId { fn partial_cmp(&self, other: &Self) -> Option { if self.type_id() != other.type_id() { None } else { Some(self.internal().cmp(&other.internal())) } } } /// An asset id without static or dynamic types associated with it. /// This exist to support efficient type erased id drop tracking. We /// could use [`UntypedAssetId`] for this, but the [`TypeId`] is unnecessary. /// /// Do not _ever_ use this across asset types for comparison. /// [`InternalAssetId`] contains no type information and will happily collide /// with indices across types. #[derive(Debug, Copy, Clone, Eq, PartialEq, Hash, PartialOrd, Ord)] pub(crate) enum InternalAssetId { Index(AssetIndex), Uuid(Uuid), } impl InternalAssetId { #[inline] pub(crate) fn typed(self) -> AssetId { match self { InternalAssetId::Index(index) => AssetId::Index { index, marker: PhantomData, }, InternalAssetId::Uuid(uuid) => AssetId::Uuid { uuid }, } } #[inline] pub(crate) fn untyped(self, type_id: TypeId) -> UntypedAssetId { match self { InternalAssetId::Index(index) => UntypedAssetId::Index { index, type_id }, InternalAssetId::Uuid(uuid) => UntypedAssetId::Uuid { uuid, type_id }, } } } impl From for InternalAssetId { fn from(value: AssetIndex) -> Self { Self::Index(value) } } impl From for InternalAssetId { fn from(value: Uuid) -> Self { Self::Uuid(value) } } // Cross Operations impl PartialEq for AssetId { #[inline] fn eq(&self, other: &UntypedAssetId) -> bool { TypeId::of::() == other.type_id() && self.internal().eq(&other.internal()) } } impl PartialEq> for UntypedAssetId { #[inline] fn eq(&self, other: &AssetId) -> bool { other.eq(self) } } impl PartialOrd for AssetId { #[inline] fn partial_cmp(&self, other: &UntypedAssetId) -> Option { if TypeId::of::() != other.type_id() { None } else { Some(self.internal().cmp(&other.internal())) } } } impl PartialOrd> for UntypedAssetId { #[inline] fn partial_cmp(&self, other: &AssetId) -> Option { Some(other.partial_cmp(self)?.reverse()) } } impl From> for UntypedAssetId { #[inline] fn from(value: AssetId) -> Self { let type_id = TypeId::of::(); match value { AssetId::Index { index, .. } => UntypedAssetId::Index { type_id, index }, AssetId::Uuid { uuid } => UntypedAssetId::Uuid { type_id, uuid }, } } } impl TryFrom for AssetId { type Error = UntypedAssetIdConversionError; #[inline] fn try_from(value: UntypedAssetId) -> Result { let found = value.type_id(); let expected = TypeId::of::(); match value { UntypedAssetId::Index { index, type_id } if type_id == expected => Ok(AssetId::Index { index, marker: PhantomData, }), UntypedAssetId::Uuid { uuid, type_id } if type_id == expected => { Ok(AssetId::Uuid { uuid }) } _ => Err(UntypedAssetIdConversionError::TypeIdMismatch { expected, found }), } } } /// Errors preventing the conversion of to/from an [`UntypedAssetId`] and an [`AssetId`]. #[derive(Error, Debug, PartialEq, Clone)] #[non_exhaustive] pub enum UntypedAssetIdConversionError { /// Caused when trying to convert an [`UntypedAssetId`] into an [`AssetId`] of the wrong type. #[error("This UntypedAssetId is for {found:?} and cannot be converted into an AssetId<{expected:?}>")] TypeIdMismatch { expected: TypeId, found: TypeId }, } #[cfg(test)] mod tests { use super::*; type TestAsset = (); const UUID_1: Uuid = Uuid::from_u128(123); const UUID_2: Uuid = Uuid::from_u128(456); /// Simple utility to directly hash a value using a fixed hasher fn hash(data: &T) -> u64 { use std::hash::Hasher; let mut hasher = bevy_utils::AHasher::default(); data.hash(&mut hasher); hasher.finish() } /// Typed and Untyped `AssetIds` should be equivalent to each other and themselves #[test] fn equality() { let typed = AssetId::::Uuid { uuid: UUID_1 }; let untyped = UntypedAssetId::Uuid { type_id: TypeId::of::(), uuid: UUID_1, }; assert_eq!(Ok(typed), AssetId::try_from(untyped)); assert_eq!(UntypedAssetId::from(typed), untyped); assert_eq!(typed, untyped); } /// Typed and Untyped `AssetIds` should be orderable amongst each other and themselves #[test] fn ordering() { assert!(UUID_1 < UUID_2); let typed_1 = AssetId::::Uuid { uuid: UUID_1 }; let typed_2 = AssetId::::Uuid { uuid: UUID_2 }; let untyped_1 = UntypedAssetId::Uuid { type_id: TypeId::of::(), uuid: UUID_1, }; let untyped_2 = UntypedAssetId::Uuid { type_id: TypeId::of::(), uuid: UUID_2, }; assert!(typed_1 < typed_2); assert!(untyped_1 < untyped_2); assert!(UntypedAssetId::from(typed_1) < untyped_2); assert!(untyped_1 < UntypedAssetId::from(typed_2)); assert!(AssetId::try_from(untyped_1).unwrap() < typed_2); assert!(typed_1 < AssetId::try_from(untyped_2).unwrap()); assert!(typed_1 < untyped_2); assert!(untyped_1 < typed_2); } /// Typed and Untyped `AssetIds` should be equivalently hashable to each other and themselves #[test] fn hashing() { let typed = AssetId::::Uuid { uuid: UUID_1 }; let untyped = UntypedAssetId::Uuid { type_id: TypeId::of::(), uuid: UUID_1, }; assert_eq!( hash(&typed), hash(&AssetId::::try_from(untyped).unwrap()) ); assert_eq!(hash(&UntypedAssetId::from(typed)), hash(&untyped)); assert_eq!(hash(&typed), hash(&untyped)); } /// Typed and Untyped `AssetIds` should be interchangeable #[test] fn conversion() { let typed = AssetId::::Uuid { uuid: UUID_1 }; let untyped = UntypedAssetId::Uuid { type_id: TypeId::of::(), uuid: UUID_1, }; assert_eq!(Ok(typed), AssetId::try_from(untyped)); assert_eq!(UntypedAssetId::from(typed), untyped); } }