use crate::std_traits::ReflectDefault; use crate::{self as bevy_reflect, ReflectFromPtr, ReflectOwned}; use crate::{ map_apply, map_partial_eq, Array, ArrayInfo, ArrayIter, DynamicEnum, DynamicMap, Enum, EnumInfo, FromReflect, FromType, GetTypeRegistration, List, ListInfo, Map, MapInfo, MapIter, Reflect, ReflectDeserialize, ReflectMut, ReflectRef, ReflectSerialize, TupleVariantInfo, TypeInfo, TypeRegistration, Typed, UnitVariantInfo, UnnamedField, ValueInfo, VariantFieldIter, VariantInfo, VariantType, }; use crate::utility::{GenericTypeInfoCell, NonGenericTypeInfoCell}; use bevy_reflect_derive::{impl_from_reflect_value, impl_reflect_value}; use bevy_utils::{Duration, Instant}; use bevy_utils::{HashMap, HashSet}; use std::{ any::Any, borrow::Cow, ffi::OsString, hash::{Hash, Hasher}, num::{ NonZeroI128, NonZeroI16, NonZeroI32, NonZeroI64, NonZeroI8, NonZeroIsize, NonZeroU128, NonZeroU16, NonZeroU32, NonZeroU64, NonZeroU8, NonZeroUsize, }, ops::{Range, RangeFrom, RangeFull, RangeInclusive, RangeTo, RangeToInclusive}, path::{Path, PathBuf}, }; impl_reflect_value!(bool( Debug, Hash, PartialEq, Serialize, Deserialize, Default )); impl_reflect_value!(char( Debug, Hash, PartialEq, Serialize, Deserialize, Default )); impl_reflect_value!(u8(Debug, Hash, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(u16(Debug, Hash, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(u32(Debug, Hash, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(u64(Debug, Hash, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(u128( Debug, Hash, PartialEq, Serialize, Deserialize, Default )); impl_reflect_value!(usize( Debug, Hash, PartialEq, Serialize, Deserialize, Default )); impl_reflect_value!(i8(Debug, Hash, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(i16(Debug, Hash, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(i32(Debug, Hash, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(i64(Debug, Hash, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(i128( Debug, Hash, PartialEq, Serialize, Deserialize, Default )); impl_reflect_value!(isize( Debug, Hash, PartialEq, Serialize, Deserialize, Default )); impl_reflect_value!(f32(Debug, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(f64(Debug, PartialEq, Serialize, Deserialize, Default)); impl_reflect_value!(String( Debug, Hash, PartialEq, Serialize, Deserialize, Default )); impl_reflect_value!(PathBuf( Debug, Hash, PartialEq, Serialize, Deserialize, Default )); impl_reflect_value!(Result()); impl_reflect_value!(HashSet()); impl_reflect_value!(Range()); impl_reflect_value!(RangeInclusive()); impl_reflect_value!(RangeFrom()); impl_reflect_value!(RangeTo()); impl_reflect_value!(RangeToInclusive()); impl_reflect_value!(RangeFull()); impl_reflect_value!(Duration( Debug, Hash, PartialEq, Serialize, Deserialize, Default )); impl_reflect_value!(Instant(Debug, Hash, PartialEq)); impl_reflect_value!(NonZeroI128(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroU128(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroIsize(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroUsize(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroI64(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroU64(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroU32(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroI32(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroI16(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroU16(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroU8(Debug, Hash, PartialEq, Serialize, Deserialize)); impl_reflect_value!(NonZeroI8(Debug, Hash, PartialEq, Serialize, Deserialize)); // `Serialize` and `Deserialize` only for platforms supported by serde: // https://github.com/serde-rs/serde/blob/3ffb86fc70efd3d329519e2dddfa306cc04f167c/serde/src/de/impls.rs#L1732 #[cfg(any(unix, windows))] impl_reflect_value!(OsString(Debug, Hash, PartialEq, Serialize, Deserialize)); #[cfg(not(any(unix, windows)))] impl_reflect_value!(OsString(Debug, Hash, PartialEq)); impl_from_reflect_value!(bool); impl_from_reflect_value!(char); impl_from_reflect_value!(u8); impl_from_reflect_value!(u16); impl_from_reflect_value!(u32); impl_from_reflect_value!(u64); impl_from_reflect_value!(u128); impl_from_reflect_value!(usize); impl_from_reflect_value!(i8); impl_from_reflect_value!(i16); impl_from_reflect_value!(i32); impl_from_reflect_value!(i64); impl_from_reflect_value!(i128); impl_from_reflect_value!(isize); impl_from_reflect_value!(f32); impl_from_reflect_value!(f64); impl_from_reflect_value!(String); impl_from_reflect_value!(PathBuf); impl_from_reflect_value!(OsString); impl_from_reflect_value!(HashSet); impl_from_reflect_value!(Range); impl_from_reflect_value!(RangeInclusive); impl_from_reflect_value!(RangeFrom); impl_from_reflect_value!(RangeTo); impl_from_reflect_value!(RangeToInclusive); impl_from_reflect_value!(RangeFull); impl_from_reflect_value!(Duration); impl_from_reflect_value!(Instant); impl_from_reflect_value!(NonZeroI128); impl_from_reflect_value!(NonZeroU128); impl_from_reflect_value!(NonZeroIsize); impl_from_reflect_value!(NonZeroUsize); impl_from_reflect_value!(NonZeroI64); impl_from_reflect_value!(NonZeroU64); impl_from_reflect_value!(NonZeroU32); impl_from_reflect_value!(NonZeroI32); impl_from_reflect_value!(NonZeroI16); impl_from_reflect_value!(NonZeroU16); impl_from_reflect_value!(NonZeroU8); impl_from_reflect_value!(NonZeroI8); impl Array for Vec { #[inline] fn get(&self, index: usize) -> Option<&dyn Reflect> { <[T]>::get(self, index).map(|value| value as &dyn Reflect) } #[inline] fn get_mut(&mut self, index: usize) -> Option<&mut dyn Reflect> { <[T]>::get_mut(self, index).map(|value| value as &mut dyn Reflect) } #[inline] fn len(&self) -> usize { <[T]>::len(self) } #[inline] fn iter(&self) -> ArrayIter { ArrayIter { array: self, index: 0, } } #[inline] fn drain(self: Box) -> Vec> { self.into_iter() .map(|value| Box::new(value) as Box) .collect() } } impl List for Vec { fn push(&mut self, value: Box) { let value = value.take::().unwrap_or_else(|value| { T::from_reflect(&*value).unwrap_or_else(|| { panic!( "Attempted to push invalid value of type {}.", value.type_name() ) }) }); Vec::push(self, value); } fn pop(&mut self) -> Option> { self.pop().map(|value| Box::new(value) as Box) } } impl Reflect for Vec { fn type_name(&self) -> &str { std::any::type_name::() } fn get_type_info(&self) -> &'static TypeInfo { ::type_info() } fn into_any(self: Box) -> Box { self } fn as_any(&self) -> &dyn Any { self } fn as_any_mut(&mut self) -> &mut dyn Any { self } fn into_reflect(self: Box) -> Box { self } fn as_reflect(&self) -> &dyn Reflect { self } fn as_reflect_mut(&mut self) -> &mut dyn Reflect { self } fn apply(&mut self, value: &dyn Reflect) { crate::list_apply(self, value); } fn set(&mut self, value: Box) -> Result<(), Box> { *self = value.take()?; Ok(()) } fn reflect_ref(&self) -> ReflectRef { ReflectRef::List(self) } fn reflect_mut(&mut self) -> ReflectMut { ReflectMut::List(self) } fn reflect_owned(self: Box) -> ReflectOwned { ReflectOwned::List(self) } fn clone_value(&self) -> Box { Box::new(List::clone_dynamic(self)) } fn reflect_hash(&self) -> Option { crate::array_hash(self) } fn reflect_partial_eq(&self, value: &dyn Reflect) -> Option { crate::list_partial_eq(self, value) } } impl Typed for Vec { fn type_info() -> &'static TypeInfo { static CELL: GenericTypeInfoCell = GenericTypeInfoCell::new(); CELL.get_or_insert::(|| TypeInfo::List(ListInfo::new::())) } } impl GetTypeRegistration for Vec { fn get_type_registration() -> TypeRegistration { let mut registration = TypeRegistration::of::>(); registration.insert::(FromType::>::from_type()); registration } } impl FromReflect for Vec { fn from_reflect(reflect: &dyn Reflect) -> Option { if let ReflectRef::List(ref_list) = reflect.reflect_ref() { let mut new_list = Self::with_capacity(ref_list.len()); for field in ref_list.iter() { new_list.push(T::from_reflect(field)?); } Some(new_list) } else { None } } } impl Map for HashMap { fn get(&self, key: &dyn Reflect) -> Option<&dyn Reflect> { key.downcast_ref::() .and_then(|key| HashMap::get(self, key)) .map(|value| value as &dyn Reflect) } fn get_mut(&mut self, key: &dyn Reflect) -> Option<&mut dyn Reflect> { key.downcast_ref::() .and_then(move |key| HashMap::get_mut(self, key)) .map(|value| value as &mut dyn Reflect) } fn get_at(&self, index: usize) -> Option<(&dyn Reflect, &dyn Reflect)> { self.iter() .nth(index) .map(|(key, value)| (key as &dyn Reflect, value as &dyn Reflect)) } fn len(&self) -> usize { Self::len(self) } fn iter(&self) -> MapIter { MapIter { map: self, index: 0, } } fn drain(self: Box) -> Vec<(Box, Box)> { self.into_iter() .map(|(key, value)| { ( Box::new(key) as Box, Box::new(value) as Box, ) }) .collect() } fn clone_dynamic(&self) -> DynamicMap { let mut dynamic_map = DynamicMap::default(); dynamic_map.set_name(self.type_name().to_string()); for (k, v) in self { dynamic_map.insert_boxed(k.clone_value(), v.clone_value()); } dynamic_map } fn insert_boxed( &mut self, key: Box, value: Box, ) -> Option> { let key = key.take::().unwrap_or_else(|key| { K::from_reflect(&*key).unwrap_or_else(|| { panic!( "Attempted to insert invalid key of type {}.", key.type_name() ) }) }); let value = value.take::().unwrap_or_else(|value| { V::from_reflect(&*value).unwrap_or_else(|| { panic!( "Attempted to insert invalid value of type {}.", value.type_name() ) }) }); self.insert(key, value) .map(|old_value| Box::new(old_value) as Box) } fn remove(&mut self, key: &dyn Reflect) -> Option> { let mut from_reflect = None; key.downcast_ref::() .or_else(|| { from_reflect = K::from_reflect(key); from_reflect.as_ref() }) .and_then(|key| self.remove(key)) .map(|value| Box::new(value) as Box) } } impl Reflect for HashMap { fn type_name(&self) -> &str { std::any::type_name::() } fn get_type_info(&self) -> &'static TypeInfo { ::type_info() } fn into_any(self: Box) -> Box { self } fn as_any(&self) -> &dyn Any { self } fn as_any_mut(&mut self) -> &mut dyn Any { self } #[inline] fn into_reflect(self: Box) -> Box { self } fn as_reflect(&self) -> &dyn Reflect { self } fn as_reflect_mut(&mut self) -> &mut dyn Reflect { self } fn apply(&mut self, value: &dyn Reflect) { map_apply(self, value); } fn set(&mut self, value: Box) -> Result<(), Box> { *self = value.take()?; Ok(()) } fn reflect_ref(&self) -> ReflectRef { ReflectRef::Map(self) } fn reflect_mut(&mut self) -> ReflectMut { ReflectMut::Map(self) } fn reflect_owned(self: Box) -> ReflectOwned { ReflectOwned::Map(self) } fn clone_value(&self) -> Box { Box::new(self.clone_dynamic()) } fn reflect_partial_eq(&self, value: &dyn Reflect) -> Option { map_partial_eq(self, value) } } impl Typed for HashMap { fn type_info() -> &'static TypeInfo { static CELL: GenericTypeInfoCell = GenericTypeInfoCell::new(); CELL.get_or_insert::(|| TypeInfo::Map(MapInfo::new::())) } } impl GetTypeRegistration for HashMap where K: FromReflect + Eq + Hash, V: FromReflect, { fn get_type_registration() -> TypeRegistration { let mut registration = TypeRegistration::of::>(); registration.insert::(FromType::>::from_type()); registration } } impl FromReflect for HashMap { fn from_reflect(reflect: &dyn Reflect) -> Option { if let ReflectRef::Map(ref_map) = reflect.reflect_ref() { let mut new_map = Self::with_capacity(ref_map.len()); for (key, value) in ref_map.iter() { let new_key = K::from_reflect(key)?; let new_value = V::from_reflect(value)?; new_map.insert(new_key, new_value); } Some(new_map) } else { None } } } impl Array for [T; N] { #[inline] fn get(&self, index: usize) -> Option<&dyn Reflect> { <[T]>::get(self, index).map(|value| value as &dyn Reflect) } #[inline] fn get_mut(&mut self, index: usize) -> Option<&mut dyn Reflect> { <[T]>::get_mut(self, index).map(|value| value as &mut dyn Reflect) } #[inline] fn len(&self) -> usize { N } #[inline] fn iter(&self) -> ArrayIter { ArrayIter { array: self, index: 0, } } #[inline] fn drain(self: Box) -> Vec> { self.into_iter() .map(|value| Box::new(value) as Box) .collect() } } impl Reflect for [T; N] { #[inline] fn type_name(&self) -> &str { std::any::type_name::() } fn get_type_info(&self) -> &'static TypeInfo { ::type_info() } #[inline] fn into_any(self: Box) -> Box { self } #[inline] fn as_any(&self) -> &dyn Any { self } #[inline] fn as_any_mut(&mut self) -> &mut dyn Any { self } #[inline] fn into_reflect(self: Box) -> Box { self } #[inline] fn as_reflect(&self) -> &dyn Reflect { self } #[inline] fn as_reflect_mut(&mut self) -> &mut dyn Reflect { self } #[inline] fn apply(&mut self, value: &dyn Reflect) { crate::array_apply(self, value); } #[inline] fn set(&mut self, value: Box) -> Result<(), Box> { *self = value.take()?; Ok(()) } #[inline] fn reflect_ref(&self) -> ReflectRef { ReflectRef::Array(self) } #[inline] fn reflect_mut(&mut self) -> ReflectMut { ReflectMut::Array(self) } #[inline] fn reflect_owned(self: Box) -> ReflectOwned { ReflectOwned::Array(self) } #[inline] fn clone_value(&self) -> Box { Box::new(self.clone_dynamic()) } #[inline] fn reflect_hash(&self) -> Option { crate::array_hash(self) } #[inline] fn reflect_partial_eq(&self, value: &dyn Reflect) -> Option { crate::array_partial_eq(self, value) } } impl FromReflect for [T; N] { fn from_reflect(reflect: &dyn Reflect) -> Option { if let ReflectRef::Array(ref_array) = reflect.reflect_ref() { let mut temp_vec = Vec::with_capacity(ref_array.len()); for field in ref_array.iter() { temp_vec.push(T::from_reflect(field)?); } temp_vec.try_into().ok() } else { None } } } impl Typed for [T; N] { fn type_info() -> &'static TypeInfo { static CELL: GenericTypeInfoCell = GenericTypeInfoCell::new(); CELL.get_or_insert::(|| TypeInfo::Array(ArrayInfo::new::(N))) } } // TODO: // `FromType::from_type` requires `Deserialize<'de>` to be implemented for `T`. // Currently serde only supports `Deserialize<'de>` for arrays up to size 32. // This can be changed to use const generics once serde utilizes const generics for arrays. // Tracking issue: https://github.com/serde-rs/serde/issues/1937 macro_rules! impl_array_get_type_registration { ($($N:expr)+) => { $( impl GetTypeRegistration for [T; $N] { fn get_type_registration() -> TypeRegistration { TypeRegistration::of::<[T; $N]>() } } )+ }; } impl_array_get_type_registration! { 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 } impl GetTypeRegistration for Option { fn get_type_registration() -> TypeRegistration { TypeRegistration::of::>() } } impl Enum for Option { fn field(&self, _name: &str) -> Option<&dyn Reflect> { None } fn field_at(&self, index: usize) -> Option<&dyn Reflect> { match self { Some(value) if index == 0 => Some(value), _ => None, } } fn field_mut(&mut self, _name: &str) -> Option<&mut dyn Reflect> { None } fn field_at_mut(&mut self, index: usize) -> Option<&mut dyn Reflect> { match self { Some(value) if index == 0 => Some(value), _ => None, } } fn index_of(&self, _name: &str) -> Option { None } fn name_at(&self, _index: usize) -> Option<&str> { None } fn iter_fields(&self) -> VariantFieldIter { VariantFieldIter::new(self) } #[inline] fn field_len(&self) -> usize { match self { Some(..) => 1, None => 0, } } #[inline] fn variant_name(&self) -> &str { match self { Some(..) => "Some", None => "None", } } fn variant_index(&self) -> usize { match self { None => 0, Some(..) => 1, } } #[inline] fn variant_type(&self) -> VariantType { match self { Some(..) => VariantType::Tuple, None => VariantType::Unit, } } fn clone_dynamic(&self) -> DynamicEnum { DynamicEnum::from_ref::(self) } } impl Reflect for Option { #[inline] fn type_name(&self) -> &str { std::any::type_name::() } #[inline] fn get_type_info(&self) -> &'static TypeInfo { ::type_info() } #[inline] fn into_any(self: Box) -> Box { self } #[inline] fn as_any(&self) -> &dyn Any { self } #[inline] fn as_any_mut(&mut self) -> &mut dyn Any { self } #[inline] fn into_reflect(self: Box) -> Box { self } fn as_reflect(&self) -> &dyn Reflect { self } fn as_reflect_mut(&mut self) -> &mut dyn Reflect { self } #[inline] fn apply(&mut self, value: &dyn Reflect) { if let ReflectRef::Enum(value) = value.reflect_ref() { if self.variant_name() == value.variant_name() { // Same variant -> just update fields for (index, field) in value.iter_fields().enumerate() { if let Some(v) = self.field_at_mut(index) { v.apply(field.value()); } } } else { // New variant -> perform a switch match value.variant_name() { "Some" => { let field = value .field_at(0) .unwrap_or_else(|| { panic!( "Field in `Some` variant of {} should exist", std::any::type_name::>() ) }) .clone_value() .take::() .unwrap_or_else(|value| { T::from_reflect(&*value).unwrap_or_else(|| { panic!( "Field in `Some` variant of {} should be of type {}", std::any::type_name::>(), std::any::type_name::() ) }) }); *self = Some(field); } "None" => { *self = None; } _ => panic!("Enum is not a {}.", std::any::type_name::()), } } } } #[inline] fn set(&mut self, value: Box) -> Result<(), Box> { *self = value.take()?; Ok(()) } fn reflect_ref(&self) -> ReflectRef { ReflectRef::Enum(self) } fn reflect_mut(&mut self) -> ReflectMut { ReflectMut::Enum(self) } fn reflect_owned(self: Box) -> ReflectOwned { ReflectOwned::Enum(self) } #[inline] fn clone_value(&self) -> Box { Box::new(Enum::clone_dynamic(self)) } fn reflect_hash(&self) -> Option { crate::enum_hash(self) } fn reflect_partial_eq(&self, value: &dyn Reflect) -> Option { crate::enum_partial_eq(self, value) } } impl FromReflect for Option { fn from_reflect(reflect: &dyn Reflect) -> Option { if let ReflectRef::Enum(dyn_enum) = reflect.reflect_ref() { match dyn_enum.variant_name() { "Some" => { let field = dyn_enum .field_at(0) .unwrap_or_else(|| { panic!( "Field in `Some` variant of {} should exist", std::any::type_name::>() ) }) .clone_value() .take::() .unwrap_or_else(|value| { T::from_reflect(&*value).unwrap_or_else(|| { panic!( "Field in `Some` variant of {} should be of type {}", std::any::type_name::>(), std::any::type_name::() ) }) }); Some(Some(field)) } "None" => Some(None), name => panic!( "variant with name `{}` does not exist on enum `{}`", name, std::any::type_name::() ), } } else { None } } } impl Typed for Option { fn type_info() -> &'static TypeInfo { static CELL: GenericTypeInfoCell = GenericTypeInfoCell::new(); CELL.get_or_insert::(|| { let none_variant = VariantInfo::Unit(UnitVariantInfo::new("None")); let some_variant = VariantInfo::Tuple(TupleVariantInfo::new("Some", &[UnnamedField::new::(0)])); TypeInfo::Enum(EnumInfo::new::( "Option", &[none_variant, some_variant], )) }) } } impl Reflect for Cow<'static, str> { fn type_name(&self) -> &str { std::any::type_name::() } fn get_type_info(&self) -> &'static TypeInfo { ::type_info() } fn into_any(self: Box) -> Box { self } fn as_any(&self) -> &dyn Any { self } fn as_any_mut(&mut self) -> &mut dyn Any { self } fn into_reflect(self: Box) -> Box { self } fn as_reflect(&self) -> &dyn Reflect { self } fn as_reflect_mut(&mut self) -> &mut dyn Reflect { self } fn apply(&mut self, value: &dyn Reflect) { let value = value.as_any(); if let Some(value) = value.downcast_ref::() { *self = value.clone(); } else { panic!("Value is not a {}.", std::any::type_name::()); } } fn set(&mut self, value: Box) -> Result<(), Box> { *self = value.take()?; Ok(()) } fn reflect_ref(&self) -> ReflectRef { ReflectRef::Value(self) } fn reflect_mut(&mut self) -> ReflectMut { ReflectMut::Value(self) } fn reflect_owned(self: Box) -> ReflectOwned { ReflectOwned::Value(self) } fn clone_value(&self) -> Box { Box::new(self.clone()) } fn reflect_hash(&self) -> Option { let mut hasher = crate::ReflectHasher::default(); Hash::hash(&std::any::Any::type_id(self), &mut hasher); Hash::hash(self, &mut hasher); Some(hasher.finish()) } fn reflect_partial_eq(&self, value: &dyn Reflect) -> Option { let value = value.as_any(); if let Some(value) = value.downcast_ref::() { Some(std::cmp::PartialEq::eq(self, value)) } else { Some(false) } } } impl Typed for Cow<'static, str> { fn type_info() -> &'static TypeInfo { static CELL: NonGenericTypeInfoCell = NonGenericTypeInfoCell::new(); CELL.get_or_set(|| TypeInfo::Value(ValueInfo::new::())) } } impl GetTypeRegistration for Cow<'static, str> { fn get_type_registration() -> TypeRegistration { let mut registration = TypeRegistration::of::>(); registration.insert::(FromType::>::from_type()); registration.insert::(FromType::>::from_type()); registration.insert::(FromType::>::from_type()); registration } } impl FromReflect for Cow<'static, str> { fn from_reflect(reflect: &dyn crate::Reflect) -> Option { Some( reflect .as_any() .downcast_ref::>()? .clone(), ) } } impl Reflect for &'static Path { fn type_name(&self) -> &str { std::any::type_name::() } fn get_type_info(&self) -> &'static TypeInfo { ::type_info() } fn into_any(self: Box) -> Box { self } fn as_any(&self) -> &dyn Any { self } fn as_any_mut(&mut self) -> &mut dyn Any { self } fn into_reflect(self: Box) -> Box { self } fn as_reflect(&self) -> &dyn Reflect { self } fn as_reflect_mut(&mut self) -> &mut dyn Reflect { self } fn apply(&mut self, value: &dyn Reflect) { let value = value.as_any(); if let Some(&value) = value.downcast_ref::() { *self = value; } else { panic!("Value is not a {}.", std::any::type_name::()); } } fn set(&mut self, value: Box) -> Result<(), Box> { *self = value.take()?; Ok(()) } fn reflect_ref(&self) -> ReflectRef { ReflectRef::Value(self) } fn reflect_mut(&mut self) -> ReflectMut { ReflectMut::Value(self) } fn reflect_owned(self: Box) -> ReflectOwned { ReflectOwned::Value(self) } fn clone_value(&self) -> Box { Box::new(*self) } fn reflect_hash(&self) -> Option { let mut hasher = crate::ReflectHasher::default(); Hash::hash(&std::any::Any::type_id(self), &mut hasher); Hash::hash(self, &mut hasher); Some(hasher.finish()) } fn reflect_partial_eq(&self, value: &dyn Reflect) -> Option { let value = value.as_any(); if let Some(value) = value.downcast_ref::() { Some(std::cmp::PartialEq::eq(self, value)) } else { Some(false) } } } impl Typed for &'static Path { fn type_info() -> &'static TypeInfo { static CELL: NonGenericTypeInfoCell = NonGenericTypeInfoCell::new(); CELL.get_or_set(|| TypeInfo::Value(ValueInfo::new::())) } } impl GetTypeRegistration for &'static Path { fn get_type_registration() -> TypeRegistration { let mut registration = TypeRegistration::of::(); registration.insert::(FromType::::from_type()); registration } } impl FromReflect for &'static Path { fn from_reflect(reflect: &dyn crate::Reflect) -> Option { reflect.as_any().downcast_ref::().copied() } } #[cfg(test)] mod tests { use crate as bevy_reflect; use crate::{ Enum, FromReflect, Reflect, ReflectSerialize, TypeInfo, TypeRegistry, Typed, VariantInfo, VariantType, }; use bevy_utils::HashMap; use bevy_utils::{Duration, Instant}; use std::f32::consts::{PI, TAU}; use std::path::Path; #[test] fn can_serialize_duration() { let mut type_registry = TypeRegistry::default(); type_registry.register::(); let reflect_serialize = type_registry .get_type_data::(std::any::TypeId::of::()) .unwrap(); let _serializable = reflect_serialize.get_serializable(&Duration::ZERO); } #[test] fn should_partial_eq_char() { let a: &dyn Reflect = &'x'; let b: &dyn Reflect = &'x'; let c: &dyn Reflect = &'o'; assert!(a.reflect_partial_eq(b).unwrap_or_default()); assert!(!a.reflect_partial_eq(c).unwrap_or_default()); } #[test] fn should_partial_eq_i32() { let a: &dyn Reflect = &123_i32; let b: &dyn Reflect = &123_i32; let c: &dyn Reflect = &321_i32; assert!(a.reflect_partial_eq(b).unwrap_or_default()); assert!(!a.reflect_partial_eq(c).unwrap_or_default()); } #[test] fn should_partial_eq_f32() { let a: &dyn Reflect = &PI; let b: &dyn Reflect = &PI; let c: &dyn Reflect = &TAU; assert!(a.reflect_partial_eq(b).unwrap_or_default()); assert!(!a.reflect_partial_eq(c).unwrap_or_default()); } #[test] fn should_partial_eq_string() { let a: &dyn Reflect = &String::from("Hello"); let b: &dyn Reflect = &String::from("Hello"); let c: &dyn Reflect = &String::from("World"); assert!(a.reflect_partial_eq(b).unwrap_or_default()); assert!(!a.reflect_partial_eq(c).unwrap_or_default()); } #[test] fn should_partial_eq_vec() { let a: &dyn Reflect = &vec![1, 2, 3]; let b: &dyn Reflect = &vec![1, 2, 3]; let c: &dyn Reflect = &vec![3, 2, 1]; assert!(a.reflect_partial_eq(b).unwrap_or_default()); assert!(!a.reflect_partial_eq(c).unwrap_or_default()); } #[test] fn should_partial_eq_hash_map() { let mut a = HashMap::new(); a.insert(0usize, 1.23_f64); let b = a.clone(); let mut c = HashMap::new(); c.insert(0usize, 3.21_f64); let a: &dyn Reflect = &a; let b: &dyn Reflect = &b; let c: &dyn Reflect = &c; assert!(a.reflect_partial_eq(b).unwrap_or_default()); assert!(!a.reflect_partial_eq(c).unwrap_or_default()); } #[test] fn should_partial_eq_option() { let a: &dyn Reflect = &Some(123); let b: &dyn Reflect = &Some(123); assert_eq!(Some(true), a.reflect_partial_eq(b)); } #[test] fn option_should_impl_enum() { let mut value = Some(123usize); assert!(value .reflect_partial_eq(&Some(123usize)) .unwrap_or_default()); assert!(!value .reflect_partial_eq(&Some(321usize)) .unwrap_or_default()); assert_eq!("Some", value.variant_name()); assert_eq!("core::option::Option::Some", value.variant_path()); if value.is_variant(VariantType::Tuple) { if let Some(field) = value .field_at_mut(0) .and_then(|field| field.downcast_mut::()) { *field = 321; } } else { panic!("expected `VariantType::Tuple`"); } assert_eq!(Some(321), value); } #[test] fn option_should_from_reflect() { #[derive(Reflect, FromReflect, PartialEq, Debug)] struct Foo(usize); let expected = Some(Foo(123)); let output = as FromReflect>::from_reflect(&expected).unwrap(); assert_eq!(expected, output); } #[test] fn option_should_apply() { #[derive(Reflect, FromReflect, PartialEq, Debug)] struct Foo(usize); // === None on None === // let patch = None::; let mut value = None; Reflect::apply(&mut value, &patch); assert_eq!(patch, value, "None apply onto None"); // === Some on None === // let patch = Some(Foo(123)); let mut value = None; Reflect::apply(&mut value, &patch); assert_eq!(patch, value, "Some apply onto None"); // === None on Some === // let patch = None::; let mut value = Some(Foo(321)); Reflect::apply(&mut value, &patch); assert_eq!(patch, value, "None apply onto Some"); // === Some on Some === // let patch = Some(Foo(123)); let mut value = Some(Foo(321)); Reflect::apply(&mut value, &patch); assert_eq!(patch, value, "Some apply onto Some"); } #[test] fn option_should_impl_typed() { type MyOption = Option; let info = MyOption::type_info(); if let TypeInfo::Enum(info) = info { assert_eq!( "None", info.variant_at(0).unwrap().name(), "Expected `None` to be variant at index `0`" ); assert_eq!( "Some", info.variant_at(1).unwrap().name(), "Expected `Some` to be variant at index `1`" ); assert_eq!("Some", info.variant("Some").unwrap().name()); if let VariantInfo::Tuple(variant) = info.variant("Some").unwrap() { assert!( variant.field_at(0).unwrap().is::(), "Expected `Some` variant to contain `i32`" ); assert!( variant.field_at(1).is_none(), "Expected `Some` variant to only contain 1 field" ); } else { panic!("Expected `VariantInfo::Tuple`"); } } else { panic!("Expected `TypeInfo::Enum`"); } } #[test] fn nonzero_usize_impl_reflect_from_reflect() { let a: &dyn Reflect = &std::num::NonZeroUsize::new(42).unwrap(); let b: &dyn Reflect = &std::num::NonZeroUsize::new(42).unwrap(); assert!(a.reflect_partial_eq(b).unwrap_or_default()); let forty_two: std::num::NonZeroUsize = crate::FromReflect::from_reflect(a).unwrap(); assert_eq!(forty_two, std::num::NonZeroUsize::new(42).unwrap()); } #[test] fn instant_should_from_reflect() { let expected = Instant::now(); let output = ::from_reflect(&expected).unwrap(); assert_eq!(expected, output); } #[test] fn path_should_from_reflect() { let path = Path::new("hello_world.rs"); let output = <&'static Path as FromReflect>::from_reflect(&path).unwrap(); assert_eq!(path, output); } }