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//
// DO NOT EDIT. THIS FILE IS GENERATED FROM $SRCDIR/xpcom/io/nsIUnicharOutputStream.idl
//
/// `interface nsIUnicharOutputStream : nsISupports`
///
/// ```text
/// /**
/// * An interface that allows writing unicode data.
/// */
/// ```
///
// The actual type definition for the interface. This struct has methods
// declared on it which will call through its vtable. You never want to pass
// this type around by value, always pass it behind a reference.
#[repr(C)]
pub struct nsIUnicharOutputStream {
vtable: &'static nsIUnicharOutputStreamVTable,
/// This field is a phantomdata to ensure that the VTable type and any
/// struct containing it is not safe to send across threads by default, as
/// XPCOM is generally not threadsafe.
///
/// If this type is marked as [rust_sync], there will be explicit `Send` and
/// `Sync` implementations on this type, which will override the inherited
/// negative impls from `Rc`.
__nosync: ::std::marker::PhantomData<::std::rc::Rc<u8>>,
// Make the rust compiler aware that there might be interior mutability
// in what actually implements the interface. This works around UB
// that a rust lint would make blatantly obvious, but doesn't exist.
// This prevents optimizations, but those optimizations weren't available
// before rustc switched to LLVM 16, and they now cause problems because
// of the UB.
// Until there's a lint available to find all our UB, it's simpler to
// avoid the UB in the first place, at the cost of preventing optimizations
// in places that don't cause UB. But again, those optimizations weren't
// available before.
__maybe_interior_mutability: ::std::cell::UnsafeCell<[u8; 0]>,
}
// Implementing XpCom for an interface exposes its IID, which allows for easy
// use of the `.query_interface<T>` helper method. This also defines that
// method for nsIUnicharOutputStream.
unsafe impl XpCom for nsIUnicharOutputStream {
const IID: nsIID = nsID(0x2d00b1bb, 0x8b21, 0x4a63,
[0xbc, 0xc6, 0x72, 0x13, 0xf5, 0x13, 0xac, 0x2e]);
}
// We need to implement the RefCounted trait so we can be used with `RefPtr`.
// This trait teaches `RefPtr` how to manage our memory.
unsafe impl RefCounted for nsIUnicharOutputStream {
#[inline]
unsafe fn addref(&self) {
self.AddRef();
}
#[inline]
unsafe fn release(&self) {
self.Release();
}
}
// This trait is implemented on all types which can be coerced to from nsIUnicharOutputStream.
// It is used in the implementation of `fn coerce<T>`. We hide it from the
// documentation, because it clutters it up a lot.
#[doc(hidden)]
pub trait nsIUnicharOutputStreamCoerce {
/// Cheaply cast a value of this type from a `nsIUnicharOutputStream`.
fn coerce_from(v: &nsIUnicharOutputStream) -> &Self;
}
// The trivial implementation: We can obviously coerce ourselves to ourselves.
impl nsIUnicharOutputStreamCoerce for nsIUnicharOutputStream {
#[inline]
fn coerce_from(v: &nsIUnicharOutputStream) -> &Self {
v
}
}
impl nsIUnicharOutputStream {
/// Cast this `nsIUnicharOutputStream` to one of its base interfaces.
#[inline]
pub fn coerce<T: nsIUnicharOutputStreamCoerce>(&self) -> &T {
T::coerce_from(self)
}
}
// Every interface struct type implements `Deref` to its base interface. This
// causes methods on the base interfaces to be directly avaliable on the
// object. For example, you can call `.AddRef` or `.QueryInterface` directly
// on any interface which inherits from `nsISupports`.
impl ::std::ops::Deref for nsIUnicharOutputStream {
type Target = nsISupports;
#[inline]
fn deref(&self) -> &nsISupports {
unsafe {
::std::mem::transmute(self)
}
}
}
// Ensure we can use .coerce() to cast to our base types as well. Any type which
// our base interface can coerce from should be coercable from us as well.
impl<T: nsISupportsCoerce> nsIUnicharOutputStreamCoerce for T {
#[inline]
fn coerce_from(v: &nsIUnicharOutputStream) -> &Self {
T::coerce_from(v)
}
}
// This struct represents the interface's VTable. A pointer to a statically
// allocated version of this struct is at the beginning of every nsIUnicharOutputStream
// object. It contains one pointer field for each method in the interface. In
// the case where we can't generate a binding for a method, we include a void
// pointer.
#[doc(hidden)]
#[repr(C)]
pub struct nsIUnicharOutputStreamVTable {
/// We need to include the members from the base interface's vtable at the start
/// of the VTable definition.
pub __base: nsISupportsVTable,
/* boolean write (in unsigned long aCount, [array, size_is (aCount), const] in char16_t c); */
pub Write: unsafe extern "system" fn (this: *const nsIUnicharOutputStream, aCount: u32, c: *const u16, _retval: *mut bool) -> ::nserror::nsresult,
/* boolean writeString (in AString str); */
pub WriteString: unsafe extern "system" fn (this: *const nsIUnicharOutputStream, str: *const ::nsstring::nsAString, _retval: *mut bool) -> ::nserror::nsresult,
/* void flush (); */
pub Flush: unsafe extern "system" fn (this: *const nsIUnicharOutputStream) -> ::nserror::nsresult,
/* void close (); */
pub Close: unsafe extern "system" fn (this: *const nsIUnicharOutputStream) -> ::nserror::nsresult,
}
// The implementations of the function wrappers which are exposed to rust code.
// Call these methods rather than manually calling through the VTable struct.
impl nsIUnicharOutputStream {
/// ```text
/// /**
/// * Write a single character to the stream. When writing many characters,
/// * prefer the string-taking write method.
/// *
/// * @retval true The character was written successfully
/// * @retval false Not all bytes of the character could be written.
/// */
/// ```
///
/// `boolean write (in unsigned long aCount, [array, size_is (aCount), const] in char16_t c);`
#[inline]
pub unsafe fn Write(&self, aCount: u32, c: *const u16, _retval: *mut bool) -> ::nserror::nsresult {
((*self.vtable).Write)(self, aCount, c, _retval)
}
/// ```text
/// /**
/// * Write a string to the stream.
/// *
/// * @retval true The string was written successfully
/// * @retval false Not all bytes of the string could be written.
/// */
/// ```
///
/// `boolean writeString (in AString str);`
#[inline]
pub unsafe fn WriteString(&self, str: *const ::nsstring::nsAString, _retval: *mut bool) -> ::nserror::nsresult {
((*self.vtable).WriteString)(self, str, _retval)
}
/// ```text
/// /**
/// * Flush the stream. This finishes the conversion and writes any bytes that
/// * finish the current byte sequence.
/// *
/// * It does NOT flush the underlying stream.
/// */
/// ```
///
/// `void flush ();`
#[inline]
pub unsafe fn Flush(&self, ) -> ::nserror::nsresult {
((*self.vtable).Flush)(self, )
}
/// ```text
/// /**
/// * Close the stream and free associated resources. This also closes the
/// * underlying stream.
/// */
/// ```
///
/// `void close ();`
#[inline]
pub unsafe fn Close(&self, ) -> ::nserror::nsresult {
((*self.vtable).Close)(self, )
}
}