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Add
ComObject<T>
type to represent heap-allocated COM objects (#3043)
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use crate::{AsImpl, IUnknown, IUnknownImpl, Interface, InterfaceRef}; | ||
use core::borrow::Borrow; | ||
use core::ops::Deref; | ||
use core::ptr::NonNull; | ||
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/// Identifies types that can be placed in [`ComObject`]. | ||
/// | ||
/// This trait links types that can be placed in `ComObject` with the types generated by the | ||
/// `#[implement]` macro. The `#[implement]` macro generates implementations of this trait. | ||
/// The generated types contain the vtable layouts and refcount-related fields for the COM | ||
/// object implementation. | ||
/// | ||
/// This trait is an implementation detail of the Windows crates. | ||
/// User code should not deal directly with this trait. | ||
/// | ||
/// This trait is sort of the reverse of [`IUnknownImpl`]. This trait allows user code to use | ||
/// `ComObject<T>] instead of `ComObject<T_Impl>`. | ||
pub trait ComObjectInner { | ||
/// The generated `<foo>_Impl` type (aka the "boxed" type or "outer" type). | ||
type Outer: IUnknownImpl<Impl = Self>; | ||
} | ||
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/// Describes the COM interfaces implemented by a specific COM object. | ||
/// | ||
/// The `#[implement]` macro generates implementations of this trait. Implementations are attached | ||
/// to the "outer" types generated by `#[implement]`, e.g. the `MyApp_Impl` type. Each | ||
/// implementation knows how to locate the interface-specific field within `MyApp_Impl`. | ||
/// | ||
/// This trait is an implementation detail of the Windows crates. | ||
/// User code should not deal directly with this trait. | ||
pub trait ComObjectInterface<I: Interface> { | ||
/// Gets a borrowed interface that is implemented by `T`. | ||
fn as_interface_ref(&self) -> InterfaceRef<'_, I>; | ||
} | ||
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/// A counted pointer to a type that implements COM interfaces, where the object has been | ||
/// placed in the heap (boxed). | ||
/// | ||
/// This type exists so that you can place an object into the heap and query for COM interfaces, | ||
/// without losing the safe reference to the implementation object. | ||
/// | ||
/// Because the pointer inside this type is known to be non-null, `Option<ComObject<T>>` should | ||
/// always have the same size as a single pointer. | ||
/// | ||
/// # Safety | ||
/// | ||
/// The contained `ptr` field is an owned, reference-counted pointer to a _pinned_ `Pin<Box<T::Outer>>`. | ||
/// Although this code does not currently use `Pin<T>`, it takes care not to expose any unsafe semantics | ||
/// to safe code. However, code that calls unsafe functions on [`ComObject`] must, like all unsafe code, | ||
/// understand and preserve invariants. | ||
#[repr(transparent)] | ||
pub struct ComObject<T: ComObjectInner> { | ||
ptr: NonNull<T::Outer>, | ||
} | ||
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impl<T: ComObjectInner> ComObject<T> { | ||
/// Allocates a heap cell (box) and moves `value` into it. Returns a counted pointer to `value`. | ||
pub fn new(value: T) -> Self { | ||
unsafe { | ||
let box_ = T::Outer::new_box(value); | ||
Self { ptr: NonNull::new_unchecked(Box::into_raw(box_)) } | ||
} | ||
} | ||
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/// Gets a reference to the shared object stored in the box. | ||
/// | ||
/// [`ComObject`] also implements [`Deref`], so you can often deref directly into the object. | ||
/// For those situations where using the [`Deref`] impl is inconvenient, you can use | ||
/// this method to explicitly get a reference to the contents. | ||
#[inline(always)] | ||
pub fn get(&self) -> &T { | ||
self.get_box().get_impl() | ||
} | ||
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/// Gets a reference to the shared object's heap box. | ||
#[inline(always)] | ||
fn get_box(&self) -> &T::Outer { | ||
unsafe { self.ptr.as_ref() } | ||
} | ||
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// Note that we _do not_ provide a way to get a mutable reference to the outer box. | ||
// It's ok to return `&mut T`, but not `&mut T::Outer`. That would allow someone to replace the | ||
// contents of the entire object (box and reference count), which could lead to UB. | ||
// This could maybe be solved by returning `Pin<&mut T::Outer>`, but that requires some | ||
// additional thinking. | ||
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/// Gets a mutable reference to the object stored in the box, if the reference count | ||
/// is exactly 1. If there are multiple references to this object then this returns `None`. | ||
#[inline(always)] | ||
pub fn get_mut(&mut self) -> Option<&mut T> { | ||
if self.is_reference_count_one() { | ||
// SAFETY: We must only return &mut T, *NOT* &mut T::Outer. | ||
// Returning T::Outer would allow swapping the contents of the object, which would | ||
// allow (incorrectly) modifying the reference count. | ||
unsafe { Some(self.ptr.as_mut().get_impl_mut()) } | ||
} else { | ||
None | ||
} | ||
} | ||
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/// If this object has only a single object reference (i.e. this [`ComObject`] is the only | ||
/// reference to the heap allocation), then this method will extract the inner `T` | ||
/// (and return it in an `Ok`) and then free the heap allocation. | ||
/// | ||
/// If there is more than one reference to this object, then this returns `Err(self)`. | ||
#[inline(always)] | ||
pub fn take(self) -> Result<T, Self> { | ||
if self.is_reference_count_one() { | ||
let outer_box: Box<T::Outer> = unsafe { core::mem::transmute(self) }; | ||
Ok(outer_box.into_inner()) | ||
} else { | ||
Err(self) | ||
} | ||
} | ||
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/// Casts to a given interface type. | ||
/// | ||
/// This always performs a `QueryInterface`, even if `T` is known to implement `I`. | ||
/// If you know that `T` implements `I`, then use [`Self::as_interface`] or [`Self::to_interface`] because | ||
/// those functions do not require a dynamic `QueryInterface` call. | ||
#[inline(always)] | ||
pub fn cast<I: Interface>(&self) -> windows_core::Result<I> | ||
where | ||
T::Outer: ComObjectInterface<IUnknown>, | ||
{ | ||
let unknown = self.as_interface::<IUnknown>(); | ||
unknown.cast() | ||
} | ||
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/// Gets a borrowed reference to an interface that is implemented by `T`. | ||
/// | ||
/// The returned reference does not have an additional reference count. | ||
/// You can AddRef it by calling [`Self::to_owned`]. | ||
#[inline(always)] | ||
pub fn as_interface<I: Interface>(&self) -> InterfaceRef<'_, I> | ||
where | ||
T::Outer: ComObjectInterface<I>, | ||
{ | ||
self.get_box().as_interface_ref() | ||
} | ||
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/// Gets an owned (counted) reference to an interface that is implemented by this [`ComObject`]. | ||
#[inline(always)] | ||
pub fn to_interface<I: Interface>(&self) -> I | ||
where | ||
T::Outer: ComObjectInterface<I>, | ||
{ | ||
self.as_interface::<I>().to_owned() | ||
} | ||
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/// Converts `self` into an interface that it implements. | ||
/// | ||
/// This does not need to adjust reference counts because `self` is consumed. | ||
#[inline(always)] | ||
pub fn into_interface<I: Interface>(self) -> I | ||
where | ||
T::Outer: ComObjectInterface<I>, | ||
{ | ||
unsafe { | ||
let raw = self.get_box().as_interface_ref().as_raw(); | ||
core::mem::forget(self); | ||
I::from_raw(raw) | ||
} | ||
} | ||
} | ||
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impl<T: ComObjectInner + Default> Default for ComObject<T> { | ||
fn default() -> Self { | ||
Self::new(T::default()) | ||
} | ||
} | ||
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impl<T: ComObjectInner> Drop for ComObject<T> { | ||
fn drop(&mut self) { | ||
unsafe { | ||
T::Outer::Release(self.ptr.as_ptr()); | ||
} | ||
} | ||
} | ||
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impl<T: ComObjectInner> Clone for ComObject<T> { | ||
#[inline(always)] | ||
fn clone(&self) -> Self { | ||
unsafe { | ||
self.ptr.as_ref().AddRef(); | ||
Self { ptr: self.ptr } | ||
} | ||
} | ||
} | ||
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impl<T: ComObjectInner> AsRef<T> for ComObject<T> | ||
where | ||
IUnknown: From<T> + AsImpl<T>, | ||
{ | ||
#[inline(always)] | ||
fn as_ref(&self) -> &T { | ||
self.get() | ||
} | ||
} | ||
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impl<T: ComObjectInner> Deref for ComObject<T> { | ||
type Target = T::Outer; | ||
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#[inline(always)] | ||
fn deref(&self) -> &Self::Target { | ||
self.get_box() | ||
} | ||
} | ||
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// There is no DerefMut implementation because we cannot statically guarantee | ||
// that the reference count is 1, which is a requirement for getting exclusive | ||
// access to the contents of the object. Use get_mut() for dynamically-checked | ||
// exclusive access. | ||
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impl<T: ComObjectInner> From<T> for ComObject<T> { | ||
fn from(value: T) -> ComObject<T> { | ||
ComObject::new(value) | ||
} | ||
} | ||
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// Delegate hashing, if implemented. | ||
impl<T: ComObjectInner + core::hash::Hash> core::hash::Hash for ComObject<T> { | ||
fn hash<H: core::hash::Hasher>(&self, state: &mut H) { | ||
self.get().hash(state); | ||
} | ||
} | ||
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// If T is Send (or Sync) then the ComObject<T> is also Send (or Sync). | ||
// Since the actual object storage is in the heap, the object is never moved. | ||
unsafe impl<T: ComObjectInner + Send> Send for ComObject<T> {} | ||
unsafe impl<T: ComObjectInner + Sync> Sync for ComObject<T> {} | ||
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impl<T: ComObjectInner + PartialEq> PartialEq for ComObject<T> { | ||
fn eq(&self, other: &ComObject<T>) -> bool { | ||
let inner_self: &T = self.get(); | ||
let other_self: &T = other.get(); | ||
inner_self == other_self | ||
} | ||
} | ||
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impl<T: ComObjectInner + Eq> Eq for ComObject<T> {} | ||
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impl<T: ComObjectInner + PartialOrd> PartialOrd for ComObject<T> { | ||
fn partial_cmp(&self, other: &Self) -> Option<core::cmp::Ordering> { | ||
let inner_self: &T = self.get(); | ||
let other_self: &T = other.get(); | ||
<T as PartialOrd>::partial_cmp(inner_self, other_self) | ||
} | ||
} | ||
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impl<T: ComObjectInner + Ord> Ord for ComObject<T> { | ||
fn cmp(&self, other: &Self) -> core::cmp::Ordering { | ||
let inner_self: &T = self.get(); | ||
let other_self: &T = other.get(); | ||
<T as Ord>::cmp(inner_self, other_self) | ||
} | ||
} | ||
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impl<T: ComObjectInner + core::fmt::Debug> core::fmt::Debug for ComObject<T> { | ||
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { | ||
<T as core::fmt::Debug>::fmt(self.get(), f) | ||
} | ||
} | ||
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impl<T: ComObjectInner + core::fmt::Display> core::fmt::Display for ComObject<T> { | ||
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { | ||
<T as core::fmt::Display>::fmt(self.get(), f) | ||
} | ||
} | ||
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impl<T: ComObjectInner> Borrow<T> for ComObject<T> { | ||
fn borrow(&self) -> &T { | ||
self.get() | ||
} | ||
} |
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