wasmtime_types::prelude

Struct Box

1.0.0 · Source
pub struct Box<T, A = Global>(/* private fields */)
where
    A: Allocator,
    T: ?Sized;
Expand description

A pointer type that uniquely owns a heap allocation of type T.

See the module-level documentation for more.

Implementations§

Source§

impl<A> Box<dyn Any, A>
where A: Allocator,

1.0.0 · Source

pub fn downcast<T>(self) -> Result<Box<T, A>, Box<dyn Any, A>>
where T: Any,

Attempts to downcast the box to a concrete type.

§Examples
use std::any::Any;

fn print_if_string(value: Box<dyn Any>) {
    if let Ok(string) = value.downcast::<String>() {
        println!("String ({}): {}", string.len(), string);
    }
}

let my_string = "Hello World".to_string();
print_if_string(Box::new(my_string));
print_if_string(Box::new(0i8));
Source

pub unsafe fn downcast_unchecked<T>(self) -> Box<T, A>
where T: Any,

🔬This is a nightly-only experimental API. (downcast_unchecked)

Downcasts the box to a concrete type.

For a safe alternative see downcast.

§Examples
#![feature(downcast_unchecked)]

use std::any::Any;

let x: Box<dyn Any> = Box::new(1_usize);

unsafe {
    assert_eq!(*x.downcast_unchecked::<usize>(), 1);
}
§Safety

The contained value must be of type T. Calling this method with the incorrect type is undefined behavior.

Source§

impl<A> Box<dyn Any + Send, A>
where A: Allocator,

1.0.0 · Source

pub fn downcast<T>(self) -> Result<Box<T, A>, Box<dyn Any + Send, A>>
where T: Any,

Attempts to downcast the box to a concrete type.

§Examples
use std::any::Any;

fn print_if_string(value: Box<dyn Any + Send>) {
    if let Ok(string) = value.downcast::<String>() {
        println!("String ({}): {}", string.len(), string);
    }
}

let my_string = "Hello World".to_string();
print_if_string(Box::new(my_string));
print_if_string(Box::new(0i8));
Source

pub unsafe fn downcast_unchecked<T>(self) -> Box<T, A>
where T: Any,

🔬This is a nightly-only experimental API. (downcast_unchecked)

Downcasts the box to a concrete type.

For a safe alternative see downcast.

§Examples
#![feature(downcast_unchecked)]

use std::any::Any;

let x: Box<dyn Any + Send> = Box::new(1_usize);

unsafe {
    assert_eq!(*x.downcast_unchecked::<usize>(), 1);
}
§Safety

The contained value must be of type T. Calling this method with the incorrect type is undefined behavior.

Source§

impl<A> Box<dyn Any + Sync + Send, A>
where A: Allocator,

1.51.0 · Source

pub fn downcast<T>(self) -> Result<Box<T, A>, Box<dyn Any + Sync + Send, A>>
where T: Any,

Attempts to downcast the box to a concrete type.

§Examples
use std::any::Any;

fn print_if_string(value: Box<dyn Any + Send + Sync>) {
    if let Ok(string) = value.downcast::<String>() {
        println!("String ({}): {}", string.len(), string);
    }
}

let my_string = "Hello World".to_string();
print_if_string(Box::new(my_string));
print_if_string(Box::new(0i8));
Source

pub unsafe fn downcast_unchecked<T>(self) -> Box<T, A>
where T: Any,

🔬This is a nightly-only experimental API. (downcast_unchecked)

Downcasts the box to a concrete type.

For a safe alternative see downcast.

§Examples
#![feature(downcast_unchecked)]

use std::any::Any;

let x: Box<dyn Any + Send + Sync> = Box::new(1_usize);

unsafe {
    assert_eq!(*x.downcast_unchecked::<usize>(), 1);
}
§Safety

The contained value must be of type T. Calling this method with the incorrect type is undefined behavior.

Source§

impl<T> Box<T>

1.0.0 · Source

pub fn new(x: T) -> Box<T>

Allocates memory on the heap and then places x into it.

This doesn’t actually allocate if T is zero-sized.

§Examples
let five = Box::new(5);
1.82.0 · Source

pub fn new_uninit() -> Box<MaybeUninit<T>>

Constructs a new box with uninitialized contents.

§Examples
let mut five = Box::<u32>::new_uninit();

let five = unsafe {
    // Deferred initialization:
    five.as_mut_ptr().write(5);

    five.assume_init()
};

assert_eq!(*five, 5)
Source

pub fn new_zeroed() -> Box<MaybeUninit<T>>

🔬This is a nightly-only experimental API. (new_zeroed_alloc)

Constructs a new Box with uninitialized contents, with the memory being filled with 0 bytes.

See MaybeUninit::zeroed for examples of correct and incorrect usage of this method.

§Examples
#![feature(new_zeroed_alloc)]

let zero = Box::<u32>::new_zeroed();
let zero = unsafe { zero.assume_init() };

assert_eq!(*zero, 0)
1.33.0 · Source

pub fn pin(x: T) -> Pin<Box<T>>

Constructs a new Pin<Box<T>>. If T does not implement Unpin, then x will be pinned in memory and unable to be moved.

Constructing and pinning of the Box can also be done in two steps: Box::pin(x) does the same as Box::into_pin(Box::new(x)). Consider using into_pin if you already have a Box<T>, or if you want to construct a (pinned) Box in a different way than with Box::new.

Source

pub fn try_new(x: T) -> Result<Box<T>, AllocError>

🔬This is a nightly-only experimental API. (allocator_api)

Allocates memory on the heap then places x into it, returning an error if the allocation fails

This doesn’t actually allocate if T is zero-sized.

§Examples
#![feature(allocator_api)]

let five = Box::try_new(5)?;
Source

pub fn try_new_uninit() -> Result<Box<MaybeUninit<T>>, AllocError>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new box with uninitialized contents on the heap, returning an error if the allocation fails

§Examples
#![feature(allocator_api)]

let mut five = Box::<u32>::try_new_uninit()?;

let five = unsafe {
    // Deferred initialization:
    five.as_mut_ptr().write(5);

    five.assume_init()
};

assert_eq!(*five, 5);
Source

pub fn try_new_zeroed() -> Result<Box<MaybeUninit<T>>, AllocError>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new Box with uninitialized contents, with the memory being filled with 0 bytes on the heap

See MaybeUninit::zeroed for examples of correct and incorrect usage of this method.

§Examples
#![feature(allocator_api)]

let zero = Box::<u32>::try_new_zeroed()?;
let zero = unsafe { zero.assume_init() };

assert_eq!(*zero, 0);
Source§

impl<T, A> Box<T, A>
where A: Allocator,

Source

pub fn new_in(x: T, alloc: A) -> Box<T, A>
where A: Allocator,

🔬This is a nightly-only experimental API. (allocator_api)

Allocates memory in the given allocator then places x into it.

This doesn’t actually allocate if T is zero-sized.

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let five = Box::new_in(5, System);
Source

pub fn try_new_in(x: T, alloc: A) -> Result<Box<T, A>, AllocError>
where A: Allocator,

🔬This is a nightly-only experimental API. (allocator_api)

Allocates memory in the given allocator then places x into it, returning an error if the allocation fails

This doesn’t actually allocate if T is zero-sized.

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let five = Box::try_new_in(5, System)?;
Source

pub fn new_uninit_in(alloc: A) -> Box<MaybeUninit<T>, A>
where A: Allocator,

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new box with uninitialized contents in the provided allocator.

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let mut five = Box::<u32, _>::new_uninit_in(System);

let five = unsafe {
    // Deferred initialization:
    five.as_mut_ptr().write(5);

    five.assume_init()
};

assert_eq!(*five, 5)
Source

pub fn try_new_uninit_in(alloc: A) -> Result<Box<MaybeUninit<T>, A>, AllocError>
where A: Allocator,

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new box with uninitialized contents in the provided allocator, returning an error if the allocation fails

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let mut five = Box::<u32, _>::try_new_uninit_in(System)?;

let five = unsafe {
    // Deferred initialization:
    five.as_mut_ptr().write(5);

    five.assume_init()
};

assert_eq!(*five, 5);
Source

pub fn new_zeroed_in(alloc: A) -> Box<MaybeUninit<T>, A>
where A: Allocator,

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new Box with uninitialized contents, with the memory being filled with 0 bytes in the provided allocator.

See MaybeUninit::zeroed for examples of correct and incorrect usage of this method.

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let zero = Box::<u32, _>::new_zeroed_in(System);
let zero = unsafe { zero.assume_init() };

assert_eq!(*zero, 0)
Source

pub fn try_new_zeroed_in(alloc: A) -> Result<Box<MaybeUninit<T>, A>, AllocError>
where A: Allocator,

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new Box with uninitialized contents, with the memory being filled with 0 bytes in the provided allocator, returning an error if the allocation fails,

See MaybeUninit::zeroed for examples of correct and incorrect usage of this method.

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let zero = Box::<u32, _>::try_new_zeroed_in(System)?;
let zero = unsafe { zero.assume_init() };

assert_eq!(*zero, 0);
Source

pub fn pin_in(x: T, alloc: A) -> Pin<Box<T, A>>
where A: 'static + Allocator,

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new Pin<Box<T, A>>. If T does not implement Unpin, then x will be pinned in memory and unable to be moved.

Constructing and pinning of the Box can also be done in two steps: Box::pin_in(x, alloc) does the same as Box::into_pin(Box::new_in(x, alloc)). Consider using into_pin if you already have a Box<T, A>, or if you want to construct a (pinned) Box in a different way than with Box::new_in.

Source

pub fn into_boxed_slice(boxed: Box<T, A>) -> Box<[T], A>

🔬This is a nightly-only experimental API. (box_into_boxed_slice)

Converts a Box<T> into a Box<[T]>

This conversion does not allocate on the heap and happens in place.

Source

pub fn into_inner(boxed: Box<T, A>) -> T

🔬This is a nightly-only experimental API. (box_into_inner)

Consumes the Box, returning the wrapped value.

§Examples
#![feature(box_into_inner)]

let c = Box::new(5);

assert_eq!(Box::into_inner(c), 5);
Source§

impl<T> Box<[T]>

1.82.0 · Source

pub fn new_uninit_slice(len: usize) -> Box<[MaybeUninit<T>]>

Constructs a new boxed slice with uninitialized contents.

§Examples
let mut values = Box::<[u32]>::new_uninit_slice(3);

let values = unsafe {
    // Deferred initialization:
    values[0].as_mut_ptr().write(1);
    values[1].as_mut_ptr().write(2);
    values[2].as_mut_ptr().write(3);

    values.assume_init()
};

assert_eq!(*values, [1, 2, 3])
Source

pub fn new_zeroed_slice(len: usize) -> Box<[MaybeUninit<T>]>

🔬This is a nightly-only experimental API. (new_zeroed_alloc)

Constructs a new boxed slice with uninitialized contents, with the memory being filled with 0 bytes.

See MaybeUninit::zeroed for examples of correct and incorrect usage of this method.

§Examples
#![feature(new_zeroed_alloc)]

let values = Box::<[u32]>::new_zeroed_slice(3);
let values = unsafe { values.assume_init() };

assert_eq!(*values, [0, 0, 0])
Source

pub fn try_new_uninit_slice( len: usize, ) -> Result<Box<[MaybeUninit<T>]>, AllocError>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new boxed slice with uninitialized contents. Returns an error if the allocation fails.

§Examples
#![feature(allocator_api)]

let mut values = Box::<[u32]>::try_new_uninit_slice(3)?;
let values = unsafe {
    // Deferred initialization:
    values[0].as_mut_ptr().write(1);
    values[1].as_mut_ptr().write(2);
    values[2].as_mut_ptr().write(3);
    values.assume_init()
};

assert_eq!(*values, [1, 2, 3]);
Source

pub fn try_new_zeroed_slice( len: usize, ) -> Result<Box<[MaybeUninit<T>]>, AllocError>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new boxed slice with uninitialized contents, with the memory being filled with 0 bytes. Returns an error if the allocation fails.

See MaybeUninit::zeroed for examples of correct and incorrect usage of this method.

§Examples
#![feature(allocator_api)]

let values = Box::<[u32]>::try_new_zeroed_slice(3)?;
let values = unsafe { values.assume_init() };

assert_eq!(*values, [0, 0, 0]);
Source§

impl<T, A> Box<[T], A>
where A: Allocator,

Source

pub fn new_uninit_slice_in(len: usize, alloc: A) -> Box<[MaybeUninit<T>], A>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new boxed slice with uninitialized contents in the provided allocator.

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let mut values = Box::<[u32], _>::new_uninit_slice_in(3, System);

let values = unsafe {
    // Deferred initialization:
    values[0].as_mut_ptr().write(1);
    values[1].as_mut_ptr().write(2);
    values[2].as_mut_ptr().write(3);

    values.assume_init()
};

assert_eq!(*values, [1, 2, 3])
Source

pub fn new_zeroed_slice_in(len: usize, alloc: A) -> Box<[MaybeUninit<T>], A>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new boxed slice with uninitialized contents in the provided allocator, with the memory being filled with 0 bytes.

See MaybeUninit::zeroed for examples of correct and incorrect usage of this method.

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let values = Box::<[u32], _>::new_zeroed_slice_in(3, System);
let values = unsafe { values.assume_init() };

assert_eq!(*values, [0, 0, 0])
Source

pub fn try_new_uninit_slice_in( len: usize, alloc: A, ) -> Result<Box<[MaybeUninit<T>], A>, AllocError>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new boxed slice with uninitialized contents in the provided allocator. Returns an error if the allocation fails.

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let mut values = Box::<[u32], _>::try_new_uninit_slice_in(3, System)?;
let values = unsafe {
    // Deferred initialization:
    values[0].as_mut_ptr().write(1);
    values[1].as_mut_ptr().write(2);
    values[2].as_mut_ptr().write(3);
    values.assume_init()
};

assert_eq!(*values, [1, 2, 3]);
Source

pub fn try_new_zeroed_slice_in( len: usize, alloc: A, ) -> Result<Box<[MaybeUninit<T>], A>, AllocError>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a new boxed slice with uninitialized contents in the provided allocator, with the memory being filled with 0 bytes. Returns an error if the allocation fails.

See MaybeUninit::zeroed for examples of correct and incorrect usage of this method.

§Examples
#![feature(allocator_api)]

use std::alloc::System;

let values = Box::<[u32], _>::try_new_zeroed_slice_in(3, System)?;
let values = unsafe { values.assume_init() };

assert_eq!(*values, [0, 0, 0]);
Source§

impl<T, A> Box<MaybeUninit<T>, A>
where A: Allocator,

1.82.0 · Source

pub unsafe fn assume_init(self) -> Box<T, A>

Converts to Box<T, A>.

§Safety

As with MaybeUninit::assume_init, it is up to the caller to guarantee that the value really is in an initialized state. Calling this when the content is not yet fully initialized causes immediate undefined behavior.

§Examples
let mut five = Box::<u32>::new_uninit();

let five: Box<u32> = unsafe {
    // Deferred initialization:
    five.as_mut_ptr().write(5);

    five.assume_init()
};

assert_eq!(*five, 5)
Source

pub fn write(boxed: Box<MaybeUninit<T>, A>, value: T) -> Box<T, A>

🔬This is a nightly-only experimental API. (box_uninit_write)

Writes the value and converts to Box<T, A>.

This method converts the box similarly to Box::assume_init but writes value into it before conversion thus guaranteeing safety. In some scenarios use of this method may improve performance because the compiler may be able to optimize copying from stack.

§Examples
#![feature(box_uninit_write)]

let big_box = Box::<[usize; 1024]>::new_uninit();

let mut array = [0; 1024];
for (i, place) in array.iter_mut().enumerate() {
    *place = i;
}

// The optimizer may be able to elide this copy, so previous code writes
// to heap directly.
let big_box = Box::write(big_box, array);

for (i, x) in big_box.iter().enumerate() {
    assert_eq!(*x, i);
}
Source§

impl<T, A> Box<[MaybeUninit<T>], A>
where A: Allocator,

1.82.0 · Source

pub unsafe fn assume_init(self) -> Box<[T], A>

Converts to Box<[T], A>.

§Safety

As with MaybeUninit::assume_init, it is up to the caller to guarantee that the values really are in an initialized state. Calling this when the content is not yet fully initialized causes immediate undefined behavior.

§Examples
let mut values = Box::<[u32]>::new_uninit_slice(3);

let values = unsafe {
    // Deferred initialization:
    values[0].as_mut_ptr().write(1);
    values[1].as_mut_ptr().write(2);
    values[2].as_mut_ptr().write(3);

    values.assume_init()
};

assert_eq!(*values, [1, 2, 3])
Source§

impl<T> Box<T>
where T: ?Sized,

1.4.0 · Source

pub unsafe fn from_raw(raw: *mut T) -> Box<T>

Constructs a box from a raw pointer.

After calling this function, the raw pointer is owned by the resulting Box. Specifically, the Box destructor will call the destructor of T and free the allocated memory. For this to be safe, the memory must have been allocated in accordance with the memory layout used by Box .

§Safety

This function is unsafe because improper use may lead to memory problems. For example, a double-free may occur if the function is called twice on the same raw pointer.

The safety conditions are described in the memory layout section.

§Examples

Recreate a Box which was previously converted to a raw pointer using Box::into_raw:

let x = Box::new(5);
let ptr = Box::into_raw(x);
let x = unsafe { Box::from_raw(ptr) };

Manually create a Box from scratch by using the global allocator:

use std::alloc::{alloc, Layout};

unsafe {
    let ptr = alloc(Layout::new::<i32>()) as *mut i32;
    // In general .write is required to avoid attempting to destruct
    // the (uninitialized) previous contents of `ptr`, though for this
    // simple example `*ptr = 5` would have worked as well.
    ptr.write(5);
    let x = Box::from_raw(ptr);
}
Source

pub unsafe fn from_non_null(ptr: NonNull<T>) -> Box<T>

🔬This is a nightly-only experimental API. (box_vec_non_null)

Constructs a box from a NonNull pointer.

After calling this function, the NonNull pointer is owned by the resulting Box. Specifically, the Box destructor will call the destructor of T and free the allocated memory. For this to be safe, the memory must have been allocated in accordance with the memory layout used by Box .

§Safety

This function is unsafe because improper use may lead to memory problems. For example, a double-free may occur if the function is called twice on the same NonNull pointer.

The safety conditions are described in the memory layout section.

§Examples

Recreate a Box which was previously converted to a NonNull pointer using Box::into_non_null:

#![feature(box_vec_non_null)]

let x = Box::new(5);
let non_null = Box::into_non_null(x);
let x = unsafe { Box::from_non_null(non_null) };

Manually create a Box from scratch by using the global allocator:

#![feature(box_vec_non_null)]

use std::alloc::{alloc, Layout};
use std::ptr::NonNull;

unsafe {
    let non_null = NonNull::new(alloc(Layout::new::<i32>()).cast::<i32>())
        .expect("allocation failed");
    // In general .write is required to avoid attempting to destruct
    // the (uninitialized) previous contents of `non_null`.
    non_null.write(5);
    let x = Box::from_non_null(non_null);
}
Source§

impl<T, A> Box<T, A>
where A: Allocator, T: ?Sized,

Source

pub const unsafe fn from_raw_in(raw: *mut T, alloc: A) -> Box<T, A>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a box from a raw pointer in the given allocator.

After calling this function, the raw pointer is owned by the resulting Box. Specifically, the Box destructor will call the destructor of T and free the allocated memory. For this to be safe, the memory must have been allocated in accordance with the memory layout used by Box .

§Safety

This function is unsafe because improper use may lead to memory problems. For example, a double-free may occur if the function is called twice on the same raw pointer.

§Examples

Recreate a Box which was previously converted to a raw pointer using Box::into_raw_with_allocator:

#![feature(allocator_api)]

use std::alloc::System;

let x = Box::new_in(5, System);
let (ptr, alloc) = Box::into_raw_with_allocator(x);
let x = unsafe { Box::from_raw_in(ptr, alloc) };

Manually create a Box from scratch by using the system allocator:

#![feature(allocator_api, slice_ptr_get)]

use std::alloc::{Allocator, Layout, System};

unsafe {
    let ptr = System.allocate(Layout::new::<i32>())?.as_mut_ptr() as *mut i32;
    // In general .write is required to avoid attempting to destruct
    // the (uninitialized) previous contents of `ptr`, though for this
    // simple example `*ptr = 5` would have worked as well.
    ptr.write(5);
    let x = Box::from_raw_in(ptr, System);
}
Source

pub const unsafe fn from_non_null_in(raw: NonNull<T>, alloc: A) -> Box<T, A>

🔬This is a nightly-only experimental API. (allocator_api)

Constructs a box from a NonNull pointer in the given allocator.

After calling this function, the NonNull pointer is owned by the resulting Box. Specifically, the Box destructor will call the destructor of T and free the allocated memory. For this to be safe, the memory must have been allocated in accordance with the memory layout used by Box .

§Safety

This function is unsafe because improper use may lead to memory problems. For example, a double-free may occur if the function is called twice on the same raw pointer.

§Examples

Recreate a Box which was previously converted to a NonNull pointer using Box::into_non_null_with_allocator:

#![feature(allocator_api, box_vec_non_null)]

use std::alloc::System;

let x = Box::new_in(5, System);
let (non_null, alloc) = Box::into_non_null_with_allocator(x);
let x = unsafe { Box::from_non_null_in(non_null, alloc) };

Manually create a Box from scratch by using the system allocator:

#![feature(allocator_api, box_vec_non_null, slice_ptr_get)]

use std::alloc::{Allocator, Layout, System};

unsafe {
    let non_null = System.allocate(Layout::new::<i32>())?.cast::<i32>();
    // In general .write is required to avoid attempting to destruct
    // the (uninitialized) previous contents of `non_null`.
    non_null.write(5);
    let x = Box::from_non_null_in(non_null, System);
}
1.4.0 · Source

pub fn into_raw(b: Box<T, A>) -> *mut T

Consumes the Box, returning a wrapped raw pointer.

The pointer will be properly aligned and non-null.

After calling this function, the caller is responsible for the memory previously managed by the Box. In particular, the caller should properly destroy T and release the memory, taking into account the memory layout used by Box. The easiest way to do this is to convert the raw pointer back into a Box with the Box::from_raw function, allowing the Box destructor to perform the cleanup.

Note: this is an associated function, which means that you have to call it as Box::into_raw(b) instead of b.into_raw(). This is so that there is no conflict with a method on the inner type.

§Examples

Converting the raw pointer back into a Box with Box::from_raw for automatic cleanup:

let x = Box::new(String::from("Hello"));
let ptr = Box::into_raw(x);
let x = unsafe { Box::from_raw(ptr) };

Manual cleanup by explicitly running the destructor and deallocating the memory:

use std::alloc::{dealloc, Layout};
use std::ptr;

let x = Box::new(String::from("Hello"));
let ptr = Box::into_raw(x);
unsafe {
    ptr::drop_in_place(ptr);
    dealloc(ptr as *mut u8, Layout::new::<String>());
}

Note: This is equivalent to the following:

let x = Box::new(String::from("Hello"));
let ptr = Box::into_raw(x);
unsafe {
    drop(Box::from_raw(ptr));
}
Source

pub fn into_non_null(b: Box<T, A>) -> NonNull<T>

🔬This is a nightly-only experimental API. (box_vec_non_null)

Consumes the Box, returning a wrapped NonNull pointer.

The pointer will be properly aligned.

After calling this function, the caller is responsible for the memory previously managed by the Box. In particular, the caller should properly destroy T and release the memory, taking into account the memory layout used by Box. The easiest way to do this is to convert the NonNull pointer back into a Box with the Box::from_non_null function, allowing the Box destructor to perform the cleanup.

Note: this is an associated function, which means that you have to call it as Box::into_non_null(b) instead of b.into_non_null(). This is so that there is no conflict with a method on the inner type.

§Examples

Converting the NonNull pointer back into a Box with Box::from_non_null for automatic cleanup:

#![feature(box_vec_non_null)]

let x = Box::new(String::from("Hello"));
let non_null = Box::into_non_null(x);
let x = unsafe { Box::from_non_null(non_null) };

Manual cleanup by explicitly running the destructor and deallocating the memory:

#![feature(box_vec_non_null)]

use std::alloc::{dealloc, Layout};

let x = Box::new(String::from("Hello"));
let non_null = Box::into_non_null(x);
unsafe {
    non_null.drop_in_place();
    dealloc(non_null.as_ptr().cast::<u8>(), Layout::new::<String>());
}

Note: This is equivalent to the following:

#![feature(box_vec_non_null)]

let x = Box::new(String::from("Hello"));
let non_null = Box::into_non_null(x);
unsafe {
    drop(Box::from_non_null(non_null));
}
Source

pub fn into_raw_with_allocator(b: Box<T, A>) -> (*mut T, A)

🔬This is a nightly-only experimental API. (allocator_api)

Consumes the Box, returning a wrapped raw pointer and the allocator.

The pointer will be properly aligned and non-null.

After calling this function, the caller is responsible for the memory previously managed by the Box. In particular, the caller should properly destroy T and release the memory, taking into account the memory layout used by Box. The easiest way to do this is to convert the raw pointer back into a Box with the Box::from_raw_in function, allowing the Box destructor to perform the cleanup.

Note: this is an associated function, which means that you have to call it as Box::into_raw_with_allocator(b) instead of b.into_raw_with_allocator(). This is so that there is no conflict with a method on the inner type.

§Examples

Converting the raw pointer back into a Box with Box::from_raw_in for automatic cleanup:

#![feature(allocator_api)]

use std::alloc::System;

let x = Box::new_in(String::from("Hello"), System);
let (ptr, alloc) = Box::into_raw_with_allocator(x);
let x = unsafe { Box::from_raw_in(ptr, alloc) };

Manual cleanup by explicitly running the destructor and deallocating the memory:

#![feature(allocator_api)]

use std::alloc::{Allocator, Layout, System};
use std::ptr::{self, NonNull};

let x = Box::new_in(String::from("Hello"), System);
let (ptr, alloc) = Box::into_raw_with_allocator(x);
unsafe {
    ptr::drop_in_place(ptr);
    let non_null = NonNull::new_unchecked(ptr);
    alloc.deallocate(non_null.cast(), Layout::new::<String>());
}
Source

pub fn into_non_null_with_allocator(b: Box<T, A>) -> (NonNull<T>, A)

🔬This is a nightly-only experimental API. (allocator_api)

Consumes the Box, returning a wrapped NonNull pointer and the allocator.

The pointer will be properly aligned.

After calling this function, the caller is responsible for the memory previously managed by the Box. In particular, the caller should properly destroy T and release the memory, taking into account the memory layout used by Box. The easiest way to do this is to convert the NonNull pointer back into a Box with the Box::from_non_null_in function, allowing the Box destructor to perform the cleanup.

Note: this is an associated function, which means that you have to call it as Box::into_non_null_with_allocator(b) instead of b.into_non_null_with_allocator(). This is so that there is no conflict with a method on the inner type.

§Examples

Converting the NonNull pointer back into a Box with Box::from_non_null_in for automatic cleanup:

#![feature(allocator_api, box_vec_non_null)]

use std::alloc::System;

let x = Box::new_in(String::from("Hello"), System);
let (non_null, alloc) = Box::into_non_null_with_allocator(x);
let x = unsafe { Box::from_non_null_in(non_null, alloc) };

Manual cleanup by explicitly running the destructor and deallocating the memory:

#![feature(allocator_api, box_vec_non_null)]

use std::alloc::{Allocator, Layout, System};

let x = Box::new_in(String::from("Hello"), System);
let (non_null, alloc) = Box::into_non_null_with_allocator(x);
unsafe {
    non_null.drop_in_place();
    alloc.deallocate(non_null.cast::<u8>(), Layout::new::<String>());
}
Source

pub fn as_mut_ptr(b: &mut Box<T, A>) -> *mut T

🔬This is a nightly-only experimental API. (box_as_ptr)

Returns a raw mutable pointer to the Box’s contents.

The caller must ensure that the Box outlives the pointer this function returns, or else it will end up dangling.

This method guarantees that for the purpose of the aliasing model, this method does not materialize a reference to the underlying memory, and thus the returned pointer will remain valid when mixed with other calls to as_ptr and as_mut_ptr. Note that calling other methods that materialize references to the memory may still invalidate this pointer. See the example below for how this guarantee can be used.

§Examples

Due to the aliasing guarantee, the following code is legal:

#![feature(box_as_ptr)]

unsafe {
    let mut b = Box::new(0);
    let ptr1 = Box::as_mut_ptr(&mut b);
    ptr1.write(1);
    let ptr2 = Box::as_mut_ptr(&mut b);
    ptr2.write(2);
    // Notably, the write to `ptr2` did *not* invalidate `ptr1`:
    ptr1.write(3);
}
Source

pub fn as_ptr(b: &Box<T, A>) -> *const T

🔬This is a nightly-only experimental API. (box_as_ptr)

Returns a raw pointer to the Box’s contents.

The caller must ensure that the Box outlives the pointer this function returns, or else it will end up dangling.

The caller must also ensure that the memory the pointer (non-transitively) points to is never written to (except inside an UnsafeCell) using this pointer or any pointer derived from it. If you need to mutate the contents of the Box, use as_mut_ptr.

This method guarantees that for the purpose of the aliasing model, this method does not materialize a reference to the underlying memory, and thus the returned pointer will remain valid when mixed with other calls to as_ptr and as_mut_ptr. Note that calling other methods that materialize mutable references to the memory, as well as writing to this memory, may still invalidate this pointer. See the example below for how this guarantee can be used.

§Examples

Due to the aliasing guarantee, the following code is legal:

#![feature(box_as_ptr)]

unsafe {
    let mut v = Box::new(0);
    let ptr1 = Box::as_ptr(&v);
    let ptr2 = Box::as_mut_ptr(&mut v);
    let _val = ptr2.read();
    // No write to this memory has happened yet, so `ptr1` is still valid.
    let _val = ptr1.read();
    // However, once we do a write...
    ptr2.write(1);
    // ... `ptr1` is no longer valid.
    // This would be UB: let _val = ptr1.read();
}
Source

pub const fn allocator(b: &Box<T, A>) -> &A

🔬This is a nightly-only experimental API. (allocator_api)

Returns a reference to the underlying allocator.

Note: this is an associated function, which means that you have to call it as Box::allocator(&b) instead of b.allocator(). This is so that there is no conflict with a method on the inner type.

1.26.0 · Source

pub fn leak<'a>(b: Box<T, A>) -> &'a mut T
where A: 'a,

Consumes and leaks the Box, returning a mutable reference, &'a mut T.

Note that the type T must outlive the chosen lifetime 'a. If the type has only static references, or none at all, then this may be chosen to be 'static.

This function is mainly useful for data that lives for the remainder of the program’s life. Dropping the returned reference will cause a memory leak. If this is not acceptable, the reference should first be wrapped with the Box::from_raw function producing a Box. This Box can then be dropped which will properly destroy T and release the allocated memory.

Note: this is an associated function, which means that you have to call it as Box::leak(b) instead of b.leak(). This is so that there is no conflict with a method on the inner type.

§Examples

Simple usage:

let x = Box::new(41);
let static_ref: &'static mut usize = Box::leak(x);
*static_ref += 1;
assert_eq!(*static_ref, 42);

Unsized data:

let x = vec![1, 2, 3].into_boxed_slice();
let static_ref = Box::leak(x);
static_ref[0] = 4;
assert_eq!(*static_ref, [4, 2, 3]);
1.63.0 (const: unstable) · Source

pub fn into_pin(boxed: Box<T, A>) -> Pin<Box<T, A>>
where A: 'static,

Converts a Box<T> into a Pin<Box<T>>. If T does not implement Unpin, then *boxed will be pinned in memory and unable to be moved.

This conversion does not allocate on the heap and happens in place.

This is also available via From.

Constructing and pinning a Box with Box::into_pin(Box::new(x)) can also be written more concisely using Box::pin(x). This into_pin method is useful if you already have a Box<T>, or you are constructing a (pinned) Box in a different way than with Box::new.

§Notes

It’s not recommended that crates add an impl like From<Box<T>> for Pin<T>, as it’ll introduce an ambiguity when calling Pin::from. A demonstration of such a poor impl is shown below.

struct Foo; // A type defined in this crate.
impl From<Box<()>> for Pin<Foo> {
    fn from(_: Box<()>) -> Pin<Foo> {
        Pin::new(Foo)
    }
}

let foo = Box::new(());
let bar = Pin::from(foo);

Trait Implementations§

1.5.0 · Source§

impl<T, A> AsMut<T> for Box<T, A>
where A: Allocator, T: ?Sized,

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fn as_mut(&mut self) -> &mut T

Converts this type into a mutable reference of the (usually inferred) input type.
1.5.0 · Source§

impl<T, A> AsRef<T> for Box<T, A>
where A: Allocator, T: ?Sized,

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fn as_ref(&self) -> &T

Converts this type into a shared reference of the (usually inferred) input type.
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impl<Args, F, A> AsyncFn<Args> for Box<F, A>
where Args: Tuple, F: AsyncFn<Args> + ?Sized, A: Allocator,

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extern "rust-call" fn async_call( &self, args: Args, ) -> <Box<F, A> as AsyncFnMut<Args>>::CallRefFuture<'_>

🔬This is a nightly-only experimental API. (async_fn_traits)
Call the AsyncFn, returning a future which may borrow from the called closure.
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impl<Args, F, A> AsyncFnMut<Args> for Box<F, A>
where Args: Tuple, F: AsyncFnMut<Args> + ?Sized, A: Allocator,

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type CallRefFuture<'a> = <F as AsyncFnMut<Args>>::CallRefFuture<'a> where Box<F, A>: 'a

🔬This is a nightly-only experimental API. (async_fn_traits)
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extern "rust-call" fn async_call_mut( &mut self, args: Args, ) -> <Box<F, A> as AsyncFnMut<Args>>::CallRefFuture<'_>

🔬This is a nightly-only experimental API. (async_fn_traits)
Call the AsyncFnMut, returning a future which may borrow from the called closure.
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impl<Args, F, A> AsyncFnOnce<Args> for Box<F, A>
where Args: Tuple, F: AsyncFnOnce<Args> + ?Sized, A: Allocator,

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type Output = <F as AsyncFnOnce<Args>>::Output

🔬This is a nightly-only experimental API. (async_fn_traits)
Output type of the called closure’s future.
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type CallOnceFuture = <F as AsyncFnOnce<Args>>::CallOnceFuture

🔬This is a nightly-only experimental API. (async_fn_traits)
Future returned by AsyncFnOnce::async_call_once.
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extern "rust-call" fn async_call_once( self, args: Args, ) -> <Box<F, A> as AsyncFnOnce<Args>>::CallOnceFuture

🔬This is a nightly-only experimental API. (async_fn_traits)
Call the AsyncFnOnce, returning a future which may move out of the called closure.
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impl<S> AsyncIterator for Box<S>
where S: AsyncIterator + Unpin + ?Sized,

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type Item = <S as AsyncIterator>::Item

🔬This is a nightly-only experimental API. (async_iterator)
The type of items yielded by the async iterator.
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fn poll_next( self: Pin<&mut Box<S>>, cx: &mut Context<'_>, ) -> Poll<Option<<Box<S> as AsyncIterator>::Item>>

🔬This is a nightly-only experimental API. (async_iterator)
Attempts to pull out the next value of this async iterator, registering the current task for wakeup if the value is not yet available, and returning None if the async iterator is exhausted. Read more
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fn size_hint(&self) -> (usize, Option<usize>)

🔬This is a nightly-only experimental API. (async_iterator)
Returns the bounds on the remaining length of the async iterator. Read more
1.1.0 · Source§

impl<T, A> Borrow<T> for Box<T, A>
where A: Allocator, T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
1.1.0 · Source§

impl<T, A> BorrowMut<T> for Box<T, A>
where A: Allocator, T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
1.3.0 · Source§

impl<T, A> Clone for Box<[T], A>
where T: Clone, A: Allocator + Clone,

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fn clone_from(&mut self, source: &Box<[T], A>)

Copies source’s contents into self without creating a new allocation, so long as the two are of the same length.

§Examples
let x = Box::new([5, 6, 7]);
let mut y = Box::new([8, 9, 10]);
let yp: *const [i32] = &*y;

y.clone_from(&x);

// The value is the same
assert_eq!(x, y);

// And no allocation occurred
assert_eq!(yp, &*y);
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fn clone(&self) -> Box<[T], A>

Returns a copy of the value. Read more
1.29.0 · Source§

impl Clone for Box<CStr>

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fn clone(&self) -> Box<CStr>

Returns a copy of the value. Read more
1.0.0 · Source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl<K, V> Clone for Box<Slice<K, V>>
where K: Clone, V: Clone,

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fn clone(&self) -> Box<Slice<K, V>>

Returns a copy of the value. Read more
1.0.0 · Source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl<T> Clone for Box<Slice<T>>
where T: Clone,

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fn clone(&self) -> Box<Slice<T>>

Returns a copy of the value. Read more
1.0.0 · Source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
1.0.0 · Source§

impl<T, A> Clone for Box<T, A>
where T: Clone, A: Allocator + Clone,

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fn clone(&self) -> Box<T, A>

Returns a new box with a clone() of this box’s contents.

§Examples
let x = Box::new(5);
let y = x.clone();

// The value is the same
assert_eq!(x, y);

// But they are unique objects
assert_ne!(&*x as *const i32, &*y as *const i32);
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fn clone_from(&mut self, source: &Box<T, A>)

Copies source’s contents into self without creating a new allocation.

§Examples
let x = Box::new(5);
let mut y = Box::new(10);
let yp: *const i32 = &*y;

y.clone_from(&x);

// The value is the same
assert_eq!(x, y);

// And no allocation occurred
assert_eq!(yp, &*y);
1.3.0 · Source§

impl Clone for Box<str>

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fn clone(&self) -> Box<str>

Returns a copy of the value. Read more
1.0.0 · Source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl<G, R, A> Coroutine<R> for Box<G, A>
where G: Coroutine<R> + Unpin + ?Sized, A: Allocator,

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type Yield = <G as Coroutine<R>>::Yield

🔬This is a nightly-only experimental API. (coroutine_trait)
The type of value this coroutine yields. Read more
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type Return = <G as Coroutine<R>>::Return

🔬This is a nightly-only experimental API. (coroutine_trait)
The type of value this coroutine returns. Read more
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fn resume( self: Pin<&mut Box<G, A>>, arg: R, ) -> CoroutineState<<Box<G, A> as Coroutine<R>>::Yield, <Box<G, A> as Coroutine<R>>::Return>

🔬This is a nightly-only experimental API. (coroutine_trait)
Resumes the execution of this coroutine. Read more
1.0.0 · Source§

impl<T, A> Debug for Box<T, A>
where T: Debug + ?Sized, A: Allocator,

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fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter. Read more
1.0.0 · Source§

impl<T> Default for Box<[T]>

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fn default() -> Box<[T]>

Returns the “default value” for a type. Read more
1.17.0 · Source§

impl Default for Box<CStr>

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fn default() -> Box<CStr>

Returns the “default value” for a type. Read more
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impl<K, V> Default for Box<Slice<K, V>>

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fn default() -> Box<Slice<K, V>>

Returns the “default value” for a type. Read more
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impl<T> Default for Box<Slice<T>>

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fn default() -> Box<Slice<T>>

Returns the “default value” for a type. Read more
1.0.0 · Source§

impl<T> Default for Box<T>
where T: Default,

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fn default() -> Box<T>

Creates a Box<T>, with the Default value for T.

1.17.0 · Source§

impl Default for Box<str>

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fn default() -> Box<str>

Returns the “default value” for a type. Read more
1.0.0 · Source§

impl<T, A> Deref for Box<T, A>
where A: Allocator, T: ?Sized,

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type Target = T

The resulting type after dereferencing.
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fn deref(&self) -> &T

Dereferences the value.
1.0.0 · Source§

impl<T, A> DerefMut for Box<T, A>
where A: Allocator, T: ?Sized,

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fn deref_mut(&mut self) -> &mut T

Mutably dereferences the value.
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impl<'de, T> Deserialize<'de> for Box<[T]>
where T: Deserialize<'de>,

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fn deserialize<D>( deserializer: D, ) -> Result<Box<[T]>, <D as Deserializer<'de>>::Error>
where D: Deserializer<'de>,

Deserialize this value from the given Serde deserializer. Read more
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impl<'de> Deserialize<'de> for Box<CStr>

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fn deserialize<D>( deserializer: D, ) -> Result<Box<CStr>, <D as Deserializer<'de>>::Error>
where D: Deserializer<'de>,

Deserialize this value from the given Serde deserializer. Read more
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impl<'de, T> Deserialize<'de> for Box<T>
where T: Deserialize<'de>,

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fn deserialize<D>( deserializer: D, ) -> Result<Box<T>, <D as Deserializer<'de>>::Error>
where D: Deserializer<'de>,

Deserialize this value from the given Serde deserializer. Read more
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impl<'de> Deserialize<'de> for Box<str>

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fn deserialize<D>( deserializer: D, ) -> Result<Box<str>, <D as Deserializer<'de>>::Error>
where D: Deserializer<'de>,

Deserialize this value from the given Serde deserializer. Read more
1.0.0 · Source§

impl<T, A> Display for Box<T, A>
where T: Display + ?Sized, A: Allocator,

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fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter. Read more
1.0.0 · Source§

impl<I, A> DoubleEndedIterator for Box<I, A>

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fn next_back(&mut self) -> Option<<I as Iterator>::Item>

Removes and returns an element from the end of the iterator. Read more
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fn nth_back(&mut self, n: usize) -> Option<<I as Iterator>::Item>

Returns the nth element from the end of the iterator. Read more
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fn advance_back_by(&mut self, n: usize) -> Result<(), NonZero<usize>>

🔬This is a nightly-only experimental API. (iter_advance_by)
Advances the iterator from the back by n elements. Read more
1.27.0 · Source§

fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> R
where Self: Sized, F: FnMut(B, Self::Item) -> R, R: Try<Output = B>,

This is the reverse version of Iterator::try_fold(): it takes elements starting from the back of the iterator. Read more
1.27.0 · Source§

fn rfold<B, F>(self, init: B, f: F) -> B
where Self: Sized, F: FnMut(B, Self::Item) -> B,

An iterator method that reduces the iterator’s elements to a single, final value, starting from the back. Read more
1.27.0 · Source§

fn rfind<P>(&mut self, predicate: P) -> Option<Self::Item>
where Self: Sized, P: FnMut(&Self::Item) -> bool,

Searches for an element of an iterator from the back that satisfies a predicate. Read more
1.0.0 · Source§

impl<T, A> Drop for Box<T, A>
where A: Allocator, T: ?Sized,

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fn drop(&mut self)

Executes the destructor for this type. Read more
1.8.0 · Source§

impl<E> Error for Box<E>
where E: Error,

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fn description(&self) -> &str

👎Deprecated since 1.42.0: use the Display impl or to_string()
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fn cause(&self) -> Option<&dyn Error>

👎Deprecated since 1.33.0: replaced by Error::source, which can support downcasting
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fn source(&self) -> Option<&(dyn Error + 'static)>

Returns the lower-level source of this error, if any. Read more
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fn provide<'b>(&'b self, request: &mut Request<'b>)

🔬This is a nightly-only experimental API. (error_generic_member_access)
Provides type-based access to context intended for error reports. Read more
1.0.0 · Source§

impl<I, A> ExactSizeIterator for Box<I, A>

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fn len(&self) -> usize

Returns the exact remaining length of the iterator. Read more
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fn is_empty(&self) -> bool

🔬This is a nightly-only experimental API. (exact_size_is_empty)
Returns true if the iterator is empty. Read more
1.45.0 · Source§

impl<A> Extend<Box<str, A>> for String
where A: Allocator,

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fn extend<I>(&mut self, iter: I)
where I: IntoIterator<Item = Box<str, A>>,

Extends a collection with the contents of an iterator. Read more
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fn extend_one(&mut self, item: A)

🔬This is a nightly-only experimental API. (extend_one)
Extends a collection with exactly one element.
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fn extend_reserve(&mut self, additional: usize)

🔬This is a nightly-only experimental API. (extend_one)
Reserves capacity in a collection for the given number of additional elements. Read more
1.35.0 · Source§

impl<Args, F, A> Fn<Args> for Box<F, A>
where Args: Tuple, F: Fn<Args> + ?Sized, A: Allocator,

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extern "rust-call" fn call( &self, args: Args, ) -> <Box<F, A> as FnOnce<Args>>::Output

🔬This is a nightly-only experimental API. (fn_traits)
Performs the call operation.
1.35.0 · Source§

impl<Args, F, A> FnMut<Args> for Box<F, A>
where Args: Tuple, F: FnMut<Args> + ?Sized, A: Allocator,

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extern "rust-call" fn call_mut( &mut self, args: Args, ) -> <Box<F, A> as FnOnce<Args>>::Output

🔬This is a nightly-only experimental API. (fn_traits)
Performs the call operation.
1.35.0 · Source§

impl<Args, F, A> FnOnce<Args> for Box<F, A>
where Args: Tuple, F: FnOnce<Args> + ?Sized, A: Allocator,

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type Output = <F as FnOnce<Args>>::Output

The returned type after the call operator is used.
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extern "rust-call" fn call_once( self, args: Args, ) -> <Box<F, A> as FnOnce<Args>>::Output

🔬This is a nightly-only experimental API. (fn_traits)
Performs the call operation.
1.17.0 · Source§

impl<T> From<&[T]> for Box<[T]>
where T: Clone,

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fn from(slice: &[T]) -> Box<[T]>

Converts a &[T] into a Box<[T]>

This conversion allocates on the heap and performs a copy of slice and its contents.

§Examples
// create a &[u8] which will be used to create a Box<[u8]>
let slice: &[u8] = &[104, 101, 108, 108, 111];
let boxed_slice: Box<[u8]> = Box::from(slice);

println!("{boxed_slice:?}");
1.17.0 · Source§

impl From<&CStr> for Box<CStr>

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fn from(s: &CStr) -> Box<CStr>

Converts a &CStr into a Box<CStr>, by copying the contents into a newly allocated Box.

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impl<K, V> From<&Slice<K, V>> for Box<Slice<K, V>>
where K: Copy, V: Copy,

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fn from(slice: &Slice<K, V>) -> Box<Slice<K, V>>

Converts to this type from the input type.
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impl<T> From<&Slice<T>> for Box<Slice<T>>
where T: Copy,

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fn from(slice: &Slice<T>) -> Box<Slice<T>>

Converts to this type from the input type.
1.84.0 · Source§

impl<T> From<&mut [T]> for Box<[T]>
where T: Clone,

Source§

fn from(slice: &mut [T]) -> Box<[T]>

Converts a &mut [T] into a Box<[T]>

This conversion allocates on the heap and performs a copy of slice and its contents.

§Examples
// create a &mut [u8] which will be used to create a Box<[u8]>
let mut array = [104, 101, 108, 108, 111];
let slice: &mut [u8] = &mut array;
let boxed_slice: Box<[u8]> = Box::from(slice);

println!("{boxed_slice:?}");
1.84.0 · Source§

impl From<&mut CStr> for Box<CStr>

Source§

fn from(s: &mut CStr) -> Box<CStr>

Converts a &mut CStr into a Box<CStr>, by copying the contents into a newly allocated Box.

1.84.0 · Source§

impl From<&mut str> for Box<str>

Source§

fn from(s: &mut str) -> Box<str>

Converts a &mut str into a Box<str>

This conversion allocates on the heap and performs a copy of s.

§Examples
let mut original = String::from("hello");
let original: &mut str = &mut original;
let boxed: Box<str> = Box::from(original);
println!("{boxed}");
1.6.0 · Source§

impl<'a> From<&str> for Box<dyn Error + 'a>

Source§

fn from(err: &str) -> Box<dyn Error + 'a>

Converts a str into a box of dyn Error.

§Examples
use std::error::Error;
use std::mem;

let a_str_error = "a str error";
let a_boxed_error = Box::<dyn Error>::from(a_str_error);
assert!(mem::size_of::<Box<dyn Error>>() == mem::size_of_val(&a_boxed_error))
1.0.0 · Source§

impl<'a> From<&str> for Box<dyn Error + Sync + Send + 'a>

Source§

fn from(err: &str) -> Box<dyn Error + Sync + Send + 'a>

Converts a str into a box of dyn Error + Send + Sync.

§Examples
use std::error::Error;
use std::mem;

let a_str_error = "a str error";
let a_boxed_error = Box::<dyn Error + Send + Sync>::from(a_str_error);
assert!(
    mem::size_of::<Box<dyn Error + Send + Sync>>() == mem::size_of_val(&a_boxed_error))
1.17.0 · Source§

impl From<&str> for Box<str>

Source§

fn from(s: &str) -> Box<str>

Converts a &str into a Box<str>

This conversion allocates on the heap and performs a copy of s.

§Examples
let boxed: Box<str> = Box::from("hello");
println!("{boxed}");
1.45.0 · Source§

impl<T, const N: usize> From<[T; N]> for Box<[T]>

Source§

fn from(array: [T; N]) -> Box<[T]>

Converts a [T; N] into a Box<[T]>

This conversion moves the array to newly heap-allocated memory.

§Examples
let boxed: Box<[u8]> = Box::from([4, 2]);
println!("{boxed:?}");
1.18.0 · Source§

impl<T, A> From<Box<[T], A>> for Vec<T, A>
where A: Allocator,

Source§

fn from(s: Box<[T], A>) -> Vec<T, A>

Converts a boxed slice into a vector by transferring ownership of the existing heap allocation.

§Examples
let b: Box<[i32]> = vec![1, 2, 3].into_boxed_slice();
assert_eq!(Vec::from(b), vec![1, 2, 3]);
1.18.0 · Source§

impl From<Box<str>> for String

Source§

fn from(s: Box<str>) -> String

Converts the given boxed str slice to a String. It is notable that the str slice is owned.

§Examples
let s1: String = String::from("hello world");
let s2: Box<str> = s1.into_boxed_str();
let s3: String = String::from(s2);

assert_eq!("hello world", s3)
1.19.0 · Source§

impl<A> From<Box<str, A>> for Box<[u8], A>
where A: Allocator,

Source§

fn from(s: Box<str, A>) -> Box<[u8], A>

Converts a Box<str> into a Box<[u8]>

This conversion does not allocate on the heap and happens in place.

§Examples
// create a Box<str> which will be used to create a Box<[u8]>
let boxed: Box<str> = Box::from("hello");
let boxed_str: Box<[u8]> = Box::from(boxed);

// create a &[u8] which will be used to create a Box<[u8]>
let slice: &[u8] = &[104, 101, 108, 108, 111];
let boxed_slice = Box::from(slice);

assert_eq!(boxed_slice, boxed_str);
1.20.0 · Source§

impl From<CString> for Box<CStr>

Source§

fn from(s: CString) -> Box<CStr>

Converts a CString into a Box<CStr> without copying or allocating.

1.45.0 · Source§

impl<T> From<Cow<'_, [T]>> for Box<[T]>
where T: Clone,

Source§

fn from(cow: Cow<'_, [T]>) -> Box<[T]>

Converts a Cow<'_, [T]> into a Box<[T]>

When cow is the Cow::Borrowed variant, this conversion allocates on the heap and copies the underlying slice. Otherwise, it will try to reuse the owned Vec’s allocation.

1.45.0 · Source§

impl From<Cow<'_, CStr>> for Box<CStr>

Source§

fn from(cow: Cow<'_, CStr>) -> Box<CStr>

Converts a Cow<'a, CStr> into a Box<CStr>, by copying the contents if they are borrowed.

1.45.0 · Source§

impl From<Cow<'_, str>> for Box<str>

Source§

fn from(cow: Cow<'_, str>) -> Box<str>

Converts a Cow<'_, str> into a Box<str>

When cow is the Cow::Borrowed variant, this conversion allocates on the heap and copies the underlying str. Otherwise, it will try to reuse the owned String’s allocation.

§Examples
use std::borrow::Cow;

let unboxed = Cow::Borrowed("hello");
let boxed: Box<str> = Box::from(unboxed);
println!("{boxed}");
let unboxed = Cow::Owned("hello".to_string());
let boxed: Box<str> = Box::from(unboxed);
println!("{boxed}");
1.22.0 · Source§

impl<'a, 'b> From<Cow<'b, str>> for Box<dyn Error + 'a>

Source§

fn from(err: Cow<'b, str>) -> Box<dyn Error + 'a>

Converts a Cow into a box of dyn Error.

§Examples
use std::error::Error;
use std::mem;
use std::borrow::Cow;

let a_cow_str_error = Cow::from("a str error");
let a_boxed_error = Box::<dyn Error>::from(a_cow_str_error);
assert!(mem::size_of::<Box<dyn Error>>() == mem::size_of_val(&a_boxed_error))
1.22.0 · Source§

impl<'a, 'b> From<Cow<'b, str>> for Box<dyn Error + Sync + Send + 'a>

Source§

fn from(err: Cow<'b, str>) -> Box<dyn Error + Sync + Send + 'a>

Converts a Cow into a box of dyn Error + Send + Sync.

§Examples
use std::error::Error;
use std::mem;
use std::borrow::Cow;

let a_cow_str_error = Cow::from("a str error");
let a_boxed_error = Box::<dyn Error + Send + Sync>::from(a_cow_str_error);
assert!(
    mem::size_of::<Box<dyn Error + Send + Sync>>() == mem::size_of_val(&a_boxed_error))
1.0.0 · Source§

impl<'a, E> From<E> for Box<dyn Error + 'a>
where E: Error + 'a,

Source§

fn from(err: E) -> Box<dyn Error + 'a>

Converts a type of Error into a box of dyn Error.

§Examples
use std::error::Error;
use std::fmt;
use std::mem;

#[derive(Debug)]
struct AnError;

impl fmt::Display for AnError {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        write!(f, "An error")
    }
}

impl Error for AnError {}

let an_error = AnError;
assert!(0 == mem::size_of_val(&an_error));
let a_boxed_error = Box::<dyn Error>::from(an_error);
assert!(mem::size_of::<Box<dyn Error>>() == mem::size_of_val(&a_boxed_error))
1.0.0 · Source§

impl<'a, E> From<E> for Box<dyn Error + Sync + Send + 'a>
where E: Error + Send + Sync + 'a,

Source§

fn from(err: E) -> Box<dyn Error + Sync + Send + 'a>

Converts a type of Error + Send + Sync into a box of dyn Error + Send + Sync.

§Examples
use std::error::Error;
use std::fmt;
use std::mem;

#[derive(Debug)]
struct AnError;

impl fmt::Display for AnError {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        write!(f, "An error")
    }
}

impl Error for AnError {}

unsafe impl Send for AnError {}

unsafe impl Sync for AnError {}

let an_error = AnError;
assert!(0 == mem::size_of_val(&an_error));
let a_boxed_error = Box::<dyn Error + Send + Sync>::from(an_error);
assert!(
    mem::size_of::<Box<dyn Error + Send + Sync>>() == mem::size_of_val(&a_boxed_error))
Source§

impl From<Error> for Box<dyn Error>

Source§

fn from(error: Error) -> Box<dyn Error>

Converts to this type from the input type.
Source§

impl From<Error> for Box<dyn Error + Send>

Source§

fn from(error: Error) -> Box<dyn Error + Send>

Converts to this type from the input type.
Source§

impl From<Error> for Box<dyn Error + Sync + Send>

Source§

fn from(error: Error) -> Box<dyn Error + Sync + Send>

Converts to this type from the input type.
1.6.0 · Source§

impl<'a> From<String> for Box<dyn Error + 'a>

Source§

fn from(str_err: String) -> Box<dyn Error + 'a>

Converts a String into a box of dyn Error.

§Examples
use std::error::Error;
use std::mem;

let a_string_error = "a string error".to_string();
let a_boxed_error = Box::<dyn Error>::from(a_string_error);
assert!(mem::size_of::<Box<dyn Error>>() == mem::size_of_val(&a_boxed_error))
1.0.0 · Source§

impl<'a> From<String> for Box<dyn Error + Sync + Send + 'a>

Source§

fn from(err: String) -> Box<dyn Error + Sync + Send + 'a>

Converts a String into a box of dyn Error + Send + Sync.

§Examples
use std::error::Error;
use std::mem;

let a_string_error = "a string error".to_string();
let a_boxed_error = Box::<dyn Error + Send + Sync>::from(a_string_error);
assert!(
    mem::size_of::<Box<dyn Error + Send + Sync>>() == mem::size_of_val(&a_boxed_error))
1.20.0 · Source§

impl From<String> for Box<str>

Source§

fn from(s: String) -> Box<str>

Converts the given String to a boxed str slice that is owned.

§Examples
let s1: String = String::from("hello world");
let s2: Box<str> = Box::from(s1);
let s3: String = String::from(s2);

assert_eq!("hello world", s3)
1.6.0 · Source§

impl<T> From<T> for Box<T>

Source§

fn from(t: T) -> Box<T>

Converts a T into a Box<T>

The conversion allocates on the heap and moves t from the stack into it.

§Examples
let x = 5;
let boxed = Box::new(5);

assert_eq!(Box::from(x), boxed);
1.20.0 · Source§

impl<T, A> From<Vec<T, A>> for Box<[T], A>
where A: Allocator,

Source§

fn from(v: Vec<T, A>) -> Box<[T], A>

Converts a vector into a boxed slice.

Before doing the conversion, this method discards excess capacity like Vec::shrink_to_fit.

§Examples
assert_eq!(Box::from(vec![1, 2, 3]), vec![1, 2, 3].into_boxed_slice());

Any excess capacity is removed:

let mut vec = Vec::with_capacity(10);
vec.extend([1, 2, 3]);

assert_eq!(Box::from(vec), vec![1, 2, 3].into_boxed_slice());
1.80.0 · Source§

impl<'a> FromIterator<&'a char> for Box<str>

Source§

fn from_iter<T>(iter: T) -> Box<str>
where T: IntoIterator<Item = &'a char>,

Creates a value from an iterator. Read more
1.80.0 · Source§

impl<'a> FromIterator<&'a str> for Box<str>

Source§

fn from_iter<T>(iter: T) -> Box<str>
where T: IntoIterator<Item = &'a str>,

Creates a value from an iterator. Read more
1.80.0 · Source§

impl<A> FromIterator<Box<str, A>> for Box<str>
where A: Allocator,

Source§

fn from_iter<T>(iter: T) -> Box<str>
where T: IntoIterator<Item = Box<str, A>>,

Creates a value from an iterator. Read more
1.45.0 · Source§

impl<A> FromIterator<Box<str, A>> for String
where A: Allocator,

Source§

fn from_iter<I>(iter: I) -> String
where I: IntoIterator<Item = Box<str, A>>,

Creates a value from an iterator. Read more
1.80.0 · Source§

impl<'a> FromIterator<Cow<'a, str>> for Box<str>

Source§

fn from_iter<T>(iter: T) -> Box<str>
where T: IntoIterator<Item = Cow<'a, str>>,

Creates a value from an iterator. Read more
1.32.0 · Source§

impl<I> FromIterator<I> for Box<[I]>

Source§

fn from_iter<T>(iter: T) -> Box<[I]>
where T: IntoIterator<Item = I>,

Creates a value from an iterator. Read more
1.80.0 · Source§

impl FromIterator<String> for Box<str>

Source§

fn from_iter<T>(iter: T) -> Box<str>
where T: IntoIterator<Item = String>,

Creates a value from an iterator. Read more
1.80.0 · Source§

impl FromIterator<char> for Box<str>

Source§

fn from_iter<T>(iter: T) -> Box<str>
where T: IntoIterator<Item = char>,

Creates a value from an iterator. Read more
1.36.0 · Source§

impl<F, A> Future for Box<F, A>
where F: Future + Unpin + ?Sized, A: Allocator,

Source§

type Output = <F as Future>::Output

The type of value produced on completion.
Source§

fn poll( self: Pin<&mut Box<F, A>>, cx: &mut Context<'_>, ) -> Poll<<Box<F, A> as Future>::Output>

Attempts to resolve the future to a final value, registering the current task for wakeup if the value is not yet available. Read more
1.0.0 · Source§

impl<T, A> Hash for Box<T, A>
where T: Hash + ?Sized, A: Allocator,

Source§

fn hash<H>(&self, state: &mut H)
where H: Hasher,

Feeds this value into the given Hasher. Read more
1.3.0 · Source§

fn hash_slice<H>(data: &[Self], state: &mut H)
where H: Hasher, Self: Sized,

Feeds a slice of this type into the given Hasher. Read more
1.22.0 · Source§

impl<T, A> Hasher for Box<T, A>
where T: Hasher + ?Sized, A: Allocator,

Source§

fn finish(&self) -> u64

Returns the hash value for the values written so far. Read more
Source§

fn write(&mut self, bytes: &[u8])

Writes some data into this Hasher. Read more
Source§

fn write_u8(&mut self, i: u8)

Writes a single u8 into this hasher.
Source§

fn write_u16(&mut self, i: u16)

Writes a single u16 into this hasher.
Source§

fn write_u32(&mut self, i: u32)

Writes a single u32 into this hasher.
Source§

fn write_u64(&mut self, i: u64)

Writes a single u64 into this hasher.
Source§

fn write_u128(&mut self, i: u128)

Writes a single u128 into this hasher.
Source§

fn write_usize(&mut self, i: usize)

Writes a single usize into this hasher.
Source§

fn write_i8(&mut self, i: i8)

Writes a single i8 into this hasher.
Source§

fn write_i16(&mut self, i: i16)

Writes a single i16 into this hasher.
Source§

fn write_i32(&mut self, i: i32)

Writes a single i32 into this hasher.
Source§

fn write_i64(&mut self, i: i64)

Writes a single i64 into this hasher.
Source§

fn write_i128(&mut self, i: i128)

Writes a single i128 into this hasher.
Source§

fn write_isize(&mut self, i: isize)

Writes a single isize into this hasher.
Source§

fn write_length_prefix(&mut self, len: usize)

🔬This is a nightly-only experimental API. (hasher_prefixfree_extras)
Writes a length prefix into this hasher, as part of being prefix-free. Read more
Source§

fn write_str(&mut self, s: &str)

🔬This is a nightly-only experimental API. (hasher_prefixfree_extras)
Writes a single str into this hasher. Read more
1.80.0 · Source§

impl<'a, I, A> IntoIterator for &'a Box<[I], A>
where A: Allocator,

Source§

type IntoIter = Iter<'a, I>

Which kind of iterator are we turning this into?
Source§

type Item = &'a I

The type of the elements being iterated over.
Source§

fn into_iter(self) -> Iter<'a, I>

Creates an iterator from a value. Read more
1.80.0 · Source§

impl<'a, I, A> IntoIterator for &'a mut Box<[I], A>
where A: Allocator,

Source§

type IntoIter = IterMut<'a, I>

Which kind of iterator are we turning this into?
Source§

type Item = &'a mut I

The type of the elements being iterated over.
Source§

fn into_iter(self) -> IterMut<'a, I>

Creates an iterator from a value. Read more
1.80.0 · Source§

impl<I, A> IntoIterator for Box<[I], A>
where A: Allocator,

Source§

type IntoIter = IntoIter<I, A>

Which kind of iterator are we turning this into?
Source§

type Item = I

The type of the elements being iterated over.
Source§

fn into_iter(self) -> IntoIter<I, A>

Creates an iterator from a value. Read more
Source§

impl<K, V> IntoIterator for Box<Slice<K, V>>

Source§

type IntoIter = IntoIter<K, V>

Which kind of iterator are we turning this into?
Source§

type Item = (K, V)

The type of the elements being iterated over.
Source§

fn into_iter(self) -> <Box<Slice<K, V>> as IntoIterator>::IntoIter

Creates an iterator from a value. Read more
Source§

impl<T> IntoIterator for Box<Slice<T>>

Source§

type IntoIter = IntoIter<T>

Which kind of iterator are we turning this into?
Source§

type Item = T

The type of the elements being iterated over.
Source§

fn into_iter(self) -> <Box<Slice<T>> as IntoIterator>::IntoIter

Creates an iterator from a value. Read more
1.0.0 · Source§

impl<I, A> Iterator for Box<I, A>
where I: Iterator + ?Sized, A: Allocator,

Source§

type Item = <I as Iterator>::Item

The type of the elements being iterated over.
Source§

fn next(&mut self) -> Option<<I as Iterator>::Item>

Advances the iterator and returns the next value. Read more
Source§

fn size_hint(&self) -> (usize, Option<usize>)

Returns the bounds on the remaining length of the iterator. Read more
Source§

fn nth(&mut self, n: usize) -> Option<<I as Iterator>::Item>

Returns the nth element of the iterator. Read more
Source§

fn last(self) -> Option<<I as Iterator>::Item>

Consumes the iterator, returning the last element. Read more
Source§

fn next_chunk<const N: usize>( &mut self, ) -> Result<[Self::Item; N], IntoIter<Self::Item, N>>
where Self: Sized,

🔬This is a nightly-only experimental API. (iter_next_chunk)
Advances the iterator and returns an array containing the next N values. Read more
1.0.0 · Source§

fn count(self) -> usize
where Self: Sized,

Consumes the iterator, counting the number of iterations and returning it. Read more
Source§

fn advance_by(&mut self, n: usize) -> Result<(), NonZero<usize>>

🔬This is a nightly-only experimental API. (iter_advance_by)
Advances the iterator by n elements. Read more
1.28.0 · Source§

fn step_by(self, step: usize) -> StepBy<Self>
where Self: Sized,

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more
1.0.0 · Source§

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter>
where Self: Sized, U: IntoIterator<Item = Self::Item>,

Takes two iterators and creates a new iterator over both in sequence. Read more
1.0.0 · Source§

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter>
where Self: Sized, U: IntoIterator,

‘Zips up’ two iterators into a single iterator of pairs. Read more
Source§

fn intersperse(self, separator: Self::Item) -> Intersperse<Self>
where Self: Sized, Self::Item: Clone,

🔬This is a nightly-only experimental API. (iter_intersperse)
Creates a new iterator which places a copy of separator between adjacent items of the original iterator. Read more
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fn intersperse_with<G>(self, separator: G) -> IntersperseWith<Self, G>
where Self: Sized, G: FnMut() -> Self::Item,

🔬This is a nightly-only experimental API. (iter_intersperse)
Creates a new iterator which places an item generated by separator between adjacent items of the original iterator. Read more
1.0.0 · Source§

fn map<B, F>(self, f: F) -> Map<Self, F>
where Self: Sized, F: FnMut(Self::Item) -> B,

Takes a closure and creates an iterator which calls that closure on each element. Read more
1.21.0 · Source§

fn for_each<F>(self, f: F)
where Self: Sized, F: FnMut(Self::Item),

Calls a closure on each element of an iterator. Read more
1.0.0 · Source§

fn filter<P>(self, predicate: P) -> Filter<Self, P>
where Self: Sized, P: FnMut(&Self::Item) -> bool,

Creates an iterator which uses a closure to determine if an element should be yielded. Read more
1.0.0 · Source§

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F>
where Self: Sized, F: FnMut(Self::Item) -> Option<B>,

Creates an iterator that both filters and maps. Read more
1.0.0 · Source§

fn enumerate(self) -> Enumerate<Self>
where Self: Sized,

Creates an iterator which gives the current iteration count as well as the next value. Read more
1.0.0 · Source§

fn peekable(self) -> Peekable<Self>
where Self: Sized,

Creates an iterator which can use the peek and peek_mut methods to look at the next element of the iterator without consuming it. See their documentation for more information. Read more
1.0.0 · Source§

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P>
where Self: Sized, P: FnMut(&Self::Item) -> bool,

Creates an iterator that skips elements based on a predicate. Read more
1.0.0 · Source§

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P>
where Self: Sized, P: FnMut(&Self::Item) -> bool,

Creates an iterator that yields elements based on a predicate. Read more
1.57.0 · Source§

fn map_while<B, P>(self, predicate: P) -> MapWhile<Self, P>
where Self: Sized, P: FnMut(Self::Item) -> Option<B>,

Creates an iterator that both yields elements based on a predicate and maps. Read more
1.0.0 · Source§

fn skip(self, n: usize) -> Skip<Self>
where Self: Sized,

Creates an iterator that skips the first n elements. Read more
1.0.0 · Source§

fn take(self, n: usize) -> Take<Self>
where Self: Sized,

Creates an iterator that yields the first n elements, or fewer if the underlying iterator ends sooner. Read more
1.0.0 · Source§

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F>
where Self: Sized, F: FnMut(&mut St, Self::Item) -> Option<B>,

An iterator adapter which, like fold, holds internal state, but unlike fold, produces a new iterator. Read more
1.0.0 · Source§

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F>
where Self: Sized, U: IntoIterator, F: FnMut(Self::Item) -> U,

Creates an iterator that works like map, but flattens nested structure. Read more
1.29.0 · Source§

fn flatten(self) -> Flatten<Self>
where Self: Sized, Self::Item: IntoIterator,

Creates an iterator that flattens nested structure. Read more
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fn map_windows<F, R, const N: usize>(self, f: F) -> MapWindows<Self, F, N>
where Self: Sized, F: FnMut(&[Self::Item; N]) -> R,

🔬This is a nightly-only experimental API. (iter_map_windows)
Calls the given function f for each contiguous window of size N over self and returns an iterator over the outputs of f. Like slice::windows(), the windows during mapping overlap as well. Read more
1.0.0 · Source§

fn fuse(self) -> Fuse<Self>
where Self: Sized,

Creates an iterator which ends after the first None. Read more
1.0.0 · Source§

fn inspect<F>(self, f: F) -> Inspect<Self, F>
where Self: Sized, F: FnMut(&Self::Item),

Does something with each element of an iterator, passing the value on. Read more
1.0.0 · Source§

fn by_ref(&mut self) -> &mut Self
where Self: Sized,

Borrows an iterator, rather than consuming it. Read more
1.0.0 · Source§

fn collect<B>(self) -> B
where B: FromIterator<Self::Item>, Self: Sized,

Transforms an iterator into a collection. Read more
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fn try_collect<B>( &mut self, ) -> <<Self::Item as Try>::Residual as Residual<B>>::TryType
where Self: Sized, Self::Item: Try, <Self::Item as Try>::Residual: Residual<B>, B: FromIterator<<Self::Item as Try>::Output>,

🔬This is a nightly-only experimental API. (iterator_try_collect)
Fallibly transforms an iterator into a collection, short circuiting if a failure is encountered. Read more
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fn collect_into<E>(self, collection: &mut E) -> &mut E
where E: Extend<Self::Item>, Self: Sized,

🔬This is a nightly-only experimental API. (iter_collect_into)
Collects all the items from an iterator into a collection. Read more
1.0.0 · Source§

fn partition<B, F>(self, f: F) -> (B, B)
where Self: Sized, B: Default + Extend<Self::Item>, F: FnMut(&Self::Item) -> bool,

Consumes an iterator, creating two collections from it. Read more
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fn partition_in_place<'a, T, P>(self, predicate: P) -> usize
where T: 'a, Self: Sized + DoubleEndedIterator<Item = &'a mut T>, P: FnMut(&T) -> bool,

🔬This is a nightly-only experimental API. (iter_partition_in_place)
Reorders the elements of this iterator in-place according to the given predicate, such that all those that return true precede all those that return false. Returns the number of true elements found. Read more
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fn is_partitioned<P>(self, predicate: P) -> bool
where Self: Sized, P: FnMut(Self::Item) -> bool,

🔬This is a nightly-only experimental API. (iter_is_partitioned)
Checks if the elements of this iterator are partitioned according to the given predicate, such that all those that return true precede all those that return false. Read more
1.27.0 · Source§

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R
where Self: Sized, F: FnMut(B, Self::Item) -> R, R: Try<Output = B>,

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more
1.27.0 · Source§

fn try_for_each<F, R>(&mut self, f: F) -> R
where Self: Sized, F: FnMut(Self::Item) -> R, R: Try<Output = ()>,

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more
1.0.0 · Source§

fn fold<B, F>(self, init: B, f: F) -> B
where Self: Sized, F: FnMut(B, Self::Item) -> B,

Folds every element into an accumulator by applying an operation, returning the final result. Read more
1.51.0 · Source§

fn reduce<F>(self, f: F) -> Option<Self::Item>
where Self: Sized, F: FnMut(Self::Item, Self::Item) -> Self::Item,

Reduces the elements to a single one, by repeatedly applying a reducing operation. Read more
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fn try_reduce<R>( &mut self, f: impl FnMut(Self::Item, Self::Item) -> R, ) -> <<R as Try>::Residual as Residual<Option<<R as Try>::Output>>>::TryType
where Self: Sized, R: Try<Output = Self::Item>, <R as Try>::Residual: Residual<Option<Self::Item>>,

🔬This is a nightly-only experimental API. (iterator_try_reduce)
Reduces the elements to a single one by repeatedly applying a reducing operation. If the closure returns a failure, the failure is propagated back to the caller immediately. Read more
1.0.0 · Source§

fn all<F>(&mut self, f: F) -> bool
where Self: Sized, F: FnMut(Self::Item) -> bool,

Tests if every element of the iterator matches a predicate. Read more
1.0.0 · Source§

fn any<F>(&mut self, f: F) -> bool
where Self: Sized, F: FnMut(Self::Item) -> bool,

Tests if any element of the iterator matches a predicate. Read more
1.0.0 · Source§

fn find<P>(&mut self, predicate: P) -> Option<Self::Item>
where Self: Sized, P: FnMut(&Self::Item) -> bool,

Searches for an element of an iterator that satisfies a predicate. Read more
1.30.0 · Source§

fn find_map<B, F>(&mut self, f: F) -> Option<B>
where Self: Sized, F: FnMut(Self::Item) -> Option<B>,

Applies function to the elements of iterator and returns the first non-none result. Read more
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fn try_find<R>( &mut self, f: impl FnMut(&Self::Item) -> R, ) -> <<R as Try>::Residual as Residual<Option<Self::Item>>>::TryType
where Self: Sized, R: Try<Output = bool>, <R as Try>::Residual: Residual<Option<Self::Item>>,

🔬This is a nightly-only experimental API. (try_find)
Applies function to the elements of iterator and returns the first true result or the first error. Read more
1.0.0 · Source§

fn position<P>(&mut self, predicate: P) -> Option<usize>
where Self: Sized, P: FnMut(Self::Item) -> bool,

Searches for an element in an iterator, returning its index. Read more
1.0.0 · Source§

fn rposition<P>(&mut self, predicate: P) -> Option<usize>
where P: FnMut(Self::Item) -> bool, Self: Sized + ExactSizeIterator + DoubleEndedIterator,

Searches for an element in an iterator from the right, returning its index. Read more
1.0.0 · Source§

fn max(self) -> Option<Self::Item>
where Self: Sized, Self::Item: Ord,

Returns the maximum element of an iterator. Read more
1.0.0 · Source§

fn min(self) -> Option<Self::Item>
where Self: Sized, Self::Item: Ord,

Returns the minimum element of an iterator. Read more
1.6.0 · Source§

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item>
where B: Ord, Self: Sized, F: FnMut(&Self::Item) -> B,

Returns the element that gives the maximum value from the specified function. Read more
1.15.0 · Source§

fn max_by<F>(self, compare: F) -> Option<Self::Item>
where Self: Sized, F: FnMut(&Self::Item, &Self::Item) -> Ordering,

Returns the element that gives the maximum value with respect to the specified comparison function. Read more
1.6.0 · Source§

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item>
where B: Ord, Self: Sized, F: FnMut(&Self::Item) -> B,

Returns the element that gives the minimum value from the specified function. Read more
1.15.0 · Source§

fn min_by<F>(self, compare: F) -> Option<Self::Item>
where Self: Sized, F: FnMut(&Self::Item, &Self::Item) -> Ordering,

Returns the element that gives the minimum value with respect to the specified comparison function. Read more
1.0.0 · Source§

fn rev(self) -> Rev<Self>
where Self: Sized + DoubleEndedIterator,

Reverses an iterator’s direction. Read more
1.0.0 · Source§

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB)
where FromA: Default + Extend<A>, FromB: Default + Extend<B>, Self: Sized + Iterator<Item = (A, B)>,

Converts an iterator of pairs into a pair of containers. Read more
1.36.0 · Source§

fn copied<'a, T>(self) -> Copied<Self>
where T: 'a + Copy, Self: Sized + Iterator<Item = &'a T>,

Creates an iterator which copies all of its elements. Read more
1.0.0 · Source§

fn cloned<'a, T>(self) -> Cloned<Self>
where T: 'a + Clone, Self: Sized + Iterator<Item = &'a T>,

Creates an iterator which clones all of its elements. Read more
1.0.0 · Source§

fn cycle(self) -> Cycle<Self>
where Self: Sized + Clone,

Repeats an iterator endlessly. Read more
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fn array_chunks<const N: usize>(self) -> ArrayChunks<Self, N>
where Self: Sized,

🔬This is a nightly-only experimental API. (iter_array_chunks)
Returns an iterator over N elements of the iterator at a time. Read more
1.11.0 · Source§

fn sum<S>(self) -> S
where Self: Sized, S: Sum<Self::Item>,

Sums the elements of an iterator. Read more
1.11.0 · Source§

fn product<P>(self) -> P
where Self: Sized, P: Product<Self::Item>,

Iterates over the entire iterator, multiplying all the elements Read more
1.5.0 · Source§

fn cmp<I>(self, other: I) -> Ordering
where I: IntoIterator<Item = Self::Item>, Self::Item: Ord, Self: Sized,

Lexicographically compares the elements of this Iterator with those of another. Read more
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fn cmp_by<I, F>(self, other: I, cmp: F) -> Ordering
where Self: Sized, I: IntoIterator, F: FnMut(Self::Item, <I as IntoIterator>::Item) -> Ordering,

🔬This is a nightly-only experimental API. (iter_order_by)
Lexicographically compares the elements of this Iterator with those of another with respect to the specified comparison function. Read more
1.5.0 · Source§

fn partial_cmp<I>(self, other: I) -> Option<Ordering>
where I: IntoIterator, Self::Item: PartialOrd<<I as IntoIterator>::Item>, Self: Sized,

Lexicographically compares the PartialOrd elements of this Iterator with those of another. The comparison works like short-circuit evaluation, returning a result without comparing the remaining elements. As soon as an order can be determined, the evaluation stops and a result is returned. Read more
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fn partial_cmp_by<I, F>(self, other: I, partial_cmp: F) -> Option<Ordering>
where Self: Sized, I: IntoIterator, F: FnMut(Self::Item, <I as IntoIterator>::Item) -> Option<Ordering>,

🔬This is a nightly-only experimental API. (iter_order_by)
Lexicographically compares the elements of this Iterator with those of another with respect to the specified comparison function. Read more
1.5.0 · Source§

fn eq<I>(self, other: I) -> bool
where I: IntoIterator, Self::Item: PartialEq<<I as IntoIterator>::Item>, Self: Sized,

Determines if the elements of this Iterator are equal to those of another. Read more
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fn eq_by<I, F>(self, other: I, eq: F) -> bool
where Self: Sized, I: IntoIterator, F: FnMut(Self::Item, <I as IntoIterator>::Item) -> bool,

🔬This is a nightly-only experimental API. (iter_order_by)
Determines if the elements of this Iterator are equal to those of another with respect to the specified equality function. Read more
1.5.0 · Source§

fn ne<I>(self, other: I) -> bool
where I: IntoIterator, Self::Item: PartialEq<<I as IntoIterator>::Item>, Self: Sized,

Determines if the elements of this Iterator are not equal to those of another. Read more
1.5.0 · Source§

fn lt<I>(self, other: I) -> bool
where I: IntoIterator, Self::Item: PartialOrd<<I as IntoIterator>::Item>, Self: Sized,

Determines if the elements of this Iterator are lexicographically less than those of another. Read more
1.5.0 · Source§

fn le<I>(self, other: I) -> bool
where I: IntoIterator, Self::Item: PartialOrd<<I as IntoIterator>::Item>, Self: Sized,

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more
1.5.0 · Source§

fn gt<I>(self, other: I) -> bool
where I: IntoIterator, Self::Item: PartialOrd<<I as IntoIterator>::Item>, Self: Sized,

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more
1.5.0 · Source§

fn ge<I>(self, other: I) -> bool
where I: IntoIterator, Self::Item: PartialOrd<<I as IntoIterator>::Item>, Self: Sized,

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more
1.82.0 · Source§

fn is_sorted(self) -> bool
where Self: Sized, Self::Item: PartialOrd,

Checks if the elements of this iterator are sorted. Read more
1.82.0 · Source§

fn is_sorted_by<F>(self, compare: F) -> bool
where Self: Sized, F: FnMut(&Self::Item, &Self::Item) -> bool,

Checks if the elements of this iterator are sorted using the given comparator function. Read more
1.82.0 · Source§

fn is_sorted_by_key<F, K>(self, f: F) -> bool
where Self: Sized, F: FnMut(Self::Item) -> K, K: PartialOrd,

Checks if the elements of this iterator are sorted using the given key extraction function. Read more
1.0.0 · Source§

impl<T, A> Ord for Box<T, A>
where T: Ord + ?Sized, A: Allocator,

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fn cmp(&self, other: &Box<T, A>) -> Ordering

This method returns an Ordering between self and other. Read more
1.21.0 · Source§

fn max(self, other: Self) -> Self
where Self: Sized,

Compares and returns the maximum of two values. Read more
1.21.0 · Source§

fn min(self, other: Self) -> Self
where Self: Sized,

Compares and returns the minimum of two values. Read more
1.50.0 · Source§

fn clamp(self, min: Self, max: Self) -> Self
where Self: Sized,

Restrict a value to a certain interval. Read more
1.0.0 · Source§

impl<T, A> PartialEq for Box<T, A>
where T: PartialEq + ?Sized, A: Allocator,

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fn eq(&self, other: &Box<T, A>) -> bool

Tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Box<T, A>) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
1.0.0 · Source§

impl<T, A> PartialOrd for Box<T, A>
where T: PartialOrd + ?Sized, A: Allocator,

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fn partial_cmp(&self, other: &Box<T, A>) -> Option<Ordering>

This method returns an ordering between self and other values if one exists. Read more
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fn lt(&self, other: &Box<T, A>) -> bool

Tests less than (for self and other) and is used by the < operator. Read more
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fn le(&self, other: &Box<T, A>) -> bool

Tests less than or equal to (for self and other) and is used by the <= operator. Read more
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fn ge(&self, other: &Box<T, A>) -> bool

Tests greater than or equal to (for self and other) and is used by the >= operator. Read more
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fn gt(&self, other: &Box<T, A>) -> bool

Tests greater than (for self and other) and is used by the > operator. Read more
1.0.0 · Source§

impl<T, A> Pointer for Box<T, A>
where A: Allocator, T: ?Sized,

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fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter. Read more
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impl<T> Serialize for Box<T>
where T: Serialize + ?Sized,

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fn serialize<S>( &self, serializer: S, ) -> Result<<S as Serializer>::Ok, <S as Serializer>::Error>
where S: Serializer,

Serialize this value into the given Serde serializer. Read more
1.43.0 · Source§

impl<T, const N: usize> TryFrom<Box<[T]>> for Box<[T; N]>

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fn try_from( boxed_slice: Box<[T]>, ) -> Result<Box<[T; N]>, <Box<[T; N]> as TryFrom<Box<[T]>>>::Error>

Attempts to convert a Box<[T]> into a Box<[T; N]>.

The conversion occurs in-place and does not require a new memory allocation.

§Errors

Returns the old Box<[T]> in the Err variant if boxed_slice.len() does not equal N.

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type Error = Box<[T]>

The type returned in the event of a conversion error.
1.66.0 · Source§

impl<T, const N: usize> TryFrom<Vec<T>> for Box<[T; N]>

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fn try_from( vec: Vec<T>, ) -> Result<Box<[T; N]>, <Box<[T; N]> as TryFrom<Vec<T>>>::Error>

Attempts to convert a Vec<T> into a Box<[T; N]>.

Like Vec::into_boxed_slice, this is in-place if vec.capacity() == N, but will require a reallocation otherwise.

§Errors

Returns the original Vec<T> in the Err variant if boxed_slice.len() does not equal N.

§Examples

This can be used with vec! to create an array on the heap:

let state: Box<[f32; 100]> = vec![1.0; 100].try_into().unwrap();
assert_eq!(state.len(), 100);
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type Error = Vec<T>

The type returned in the event of a conversion error.
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impl<'a, V> VisitOperator<'a> for Box<V>
where V: VisitOperator<'a> + ?Sized,

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type Output = <V as VisitOperator<'a>>::Output

The result type of the visitor.
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fn visit_operator( &mut self, op: &Operator<'a>, ) -> <Box<V> as VisitOperator<'a>>::Output

Visits the Operator op using the given offset. Read more
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fn visit_unreachable(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_nop(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_block( &mut self, blockty: BlockType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_loop( &mut self, blockty: BlockType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_if( &mut self, blockty: BlockType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_else(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_try_table( &mut self, try_table: TryTable, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_throw( &mut self, tag_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_throw_ref(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_try( &mut self, blockty: BlockType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_catch( &mut self, tag_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_rethrow( &mut self, relative_depth: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_delegate( &mut self, relative_depth: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_catch_all(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_end(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_br( &mut self, relative_depth: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_br_if( &mut self, relative_depth: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_br_table( &mut self, targets: BrTable<'a>, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_return(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_call( &mut self, function_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_call_indirect( &mut self, type_index: u32, table_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_return_call( &mut self, function_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_return_call_indirect( &mut self, type_index: u32, table_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_drop(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_select(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_typed_select( &mut self, ty: ValType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_local_get( &mut self, local_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_local_set( &mut self, local_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_local_tee( &mut self, local_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_get( &mut self, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_set( &mut self, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_load( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_load( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_load( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_load( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_load8_s( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_load8_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_load16_s( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_load16_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_load8_s( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_load8_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_load16_s( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_load16_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_load32_s( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_load32_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_store( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_store( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_store( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_store( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_store8( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_store16( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_store8( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_store16( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_store32( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_memory_size( &mut self, mem: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_memory_grow( &mut self, mem: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_const( &mut self, value: i32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_const( &mut self, value: i64, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_const( &mut self, value: Ieee32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_const( &mut self, value: Ieee64, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_null( &mut self, hty: HeapType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_is_null(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_func( &mut self, function_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_eqz(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_lt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_lt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_gt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_gt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_le_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_le_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_ge_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_ge_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_eqz(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_lt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_lt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_gt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_gt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_le_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_le_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_ge_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_ge_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_lt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_gt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_le(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_ge(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_lt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_gt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_le(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_ge(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_clz(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_ctz(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_popcnt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_mul(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_div_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_div_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_rem_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_rem_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_and(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_or(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_xor(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_shl(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_shr_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_shr_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_rotl(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_rotr(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_clz(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_ctz(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_popcnt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_mul(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_div_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_div_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_rem_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_rem_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_and(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_or(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_xor(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_shl(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_shr_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_shr_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_rotl(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_rotr(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_abs(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_neg(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_ceil(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_floor(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_trunc(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_nearest(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_sqrt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_mul(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_div(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_min(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_max(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_copysign(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_abs(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_neg(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_ceil(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_floor(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_trunc(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_nearest(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_sqrt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_mul(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_div(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_min(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_max(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_copysign(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_wrap_i64(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_trunc_f32_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_trunc_f32_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_trunc_f64_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_trunc_f64_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_extend_i32_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_extend_i32_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_trunc_f32_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_trunc_f32_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_trunc_f64_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_trunc_f64_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_convert_i32_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_convert_i32_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_convert_i64_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_convert_i64_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_demote_f64(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_convert_i32_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_convert_i32_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_convert_i64_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_convert_i64_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_promote_f32(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_reinterpret_f32(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_reinterpret_f64(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32_reinterpret_i32(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64_reinterpret_i64(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_extend8_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_extend16_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_extend8_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_extend16_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_extend32_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_new( &mut self, struct_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_new_default( &mut self, struct_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_get( &mut self, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_get_s( &mut self, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_get_u( &mut self, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_set( &mut self, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_new( &mut self, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_new_default( &mut self, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_new_fixed( &mut self, array_type_index: u32, array_size: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_new_data( &mut self, array_type_index: u32, array_data_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_new_elem( &mut self, array_type_index: u32, array_elem_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_get( &mut self, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_get_s( &mut self, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_get_u( &mut self, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_set( &mut self, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_len(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_fill( &mut self, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_copy( &mut self, array_type_index_dst: u32, array_type_index_src: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_init_data( &mut self, array_type_index: u32, array_data_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_init_elem( &mut self, array_type_index: u32, array_elem_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_test_non_null( &mut self, hty: HeapType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_test_nullable( &mut self, hty: HeapType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_cast_non_null( &mut self, hty: HeapType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_cast_nullable( &mut self, hty: HeapType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_br_on_cast( &mut self, relative_depth: u32, from_ref_type: RefType, to_ref_type: RefType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_br_on_cast_fail( &mut self, relative_depth: u32, from_ref_type: RefType, to_ref_type: RefType, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_any_convert_extern(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_extern_convert_any(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_i31(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i31_get_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i31_get_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_trunc_sat_f32_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_trunc_sat_f32_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_trunc_sat_f64_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_trunc_sat_f64_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_trunc_sat_f32_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_trunc_sat_f32_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_trunc_sat_f64_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_trunc_sat_f64_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_memory_init( &mut self, data_index: u32, mem: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_data_drop( &mut self, data_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_memory_copy( &mut self, dst_mem: u32, src_mem: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_memory_fill( &mut self, mem: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_init( &mut self, elem_index: u32, table: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_elem_drop( &mut self, elem_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_copy( &mut self, dst_table: u32, src_table: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_fill( &mut self, table: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_get( &mut self, table: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_set( &mut self, table: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_grow( &mut self, table: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_size( &mut self, table: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_memory_discard( &mut self, mem: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_memory_atomic_notify( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_memory_atomic_wait32( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_memory_atomic_wait64( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_atomic_fence(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_load( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_load( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_load8_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_load16_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_load8_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_load16_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_load32_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_store( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_store( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_store8( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_store16( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_store8( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_store16( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_store32( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw_add( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw_add( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw8_add_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw16_add_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw8_add_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw16_add_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw32_add_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw_sub( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw_sub( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw8_sub_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw16_sub_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw8_sub_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw16_sub_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw32_sub_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw_and( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw_and( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw8_and_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw16_and_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw8_and_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw16_and_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw32_and_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw_or( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw_or( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw8_or_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw16_or_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw8_or_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw16_or_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw32_or_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw_xor( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw_xor( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw8_xor_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw16_xor_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw8_xor_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw16_xor_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw32_xor_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw_xchg( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw_xchg( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw8_xchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw16_xchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw8_xchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw16_xchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw32_xchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw_cmpxchg( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw_cmpxchg( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw8_cmpxchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32_atomic_rmw16_cmpxchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw8_cmpxchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw16_cmpxchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64_atomic_rmw32_cmpxchg_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_atomic_get( &mut self, ordering: Ordering, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_atomic_set( &mut self, ordering: Ordering, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_atomic_rmw_add( &mut self, ordering: Ordering, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_atomic_rmw_sub( &mut self, ordering: Ordering, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_atomic_rmw_and( &mut self, ordering: Ordering, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_atomic_rmw_or( &mut self, ordering: Ordering, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_atomic_rmw_xor( &mut self, ordering: Ordering, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_atomic_rmw_xchg( &mut self, ordering: Ordering, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_global_atomic_rmw_cmpxchg( &mut self, ordering: Ordering, global_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_atomic_get( &mut self, ordering: Ordering, table_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_atomic_set( &mut self, ordering: Ordering, table_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_atomic_rmw_xchg( &mut self, ordering: Ordering, table_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_table_atomic_rmw_cmpxchg( &mut self, ordering: Ordering, table_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_get( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_get_s( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_get_u( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_set( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_rmw_add( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_rmw_sub( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_rmw_and( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_rmw_or( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_rmw_xor( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_rmw_xchg( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_struct_atomic_rmw_cmpxchg( &mut self, ordering: Ordering, struct_type_index: u32, field_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_get( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_get_s( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_get_u( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_set( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_rmw_add( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_rmw_sub( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_rmw_and( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_rmw_or( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_rmw_xor( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_rmw_xchg( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_array_atomic_rmw_cmpxchg( &mut self, ordering: Ordering, array_type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_i31_shared(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load8x8_s( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load8x8_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load16x4_s( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load16x4_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load32x2_s( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load32x2_u( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load8_splat( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load16_splat( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load32_splat( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load64_splat( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load32_zero( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load64_zero( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_store( &mut self, memarg: MemArg, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load8_lane( &mut self, memarg: MemArg, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load16_lane( &mut self, memarg: MemArg, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load32_lane( &mut self, memarg: MemArg, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_load64_lane( &mut self, memarg: MemArg, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_store8_lane( &mut self, memarg: MemArg, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_store16_lane( &mut self, memarg: MemArg, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_store32_lane( &mut self, memarg: MemArg, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_store64_lane( &mut self, memarg: MemArg, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_const( &mut self, value: V128, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_shuffle( &mut self, lanes: [u8; 16], ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_extract_lane_s( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_extract_lane_u( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_replace_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extract_lane_s( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extract_lane_u( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_replace_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extract_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_replace_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_extract_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_replace_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_extract_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_replace_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_extract_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_replace_lane( &mut self, lane: u8, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_swizzle(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_splat(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_splat(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_splat(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_splat(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_splat(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_splat(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_lt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_lt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_gt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_gt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_le_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_le_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_ge_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_ge_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_lt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_lt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_gt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_gt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_le_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_le_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_ge_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_ge_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_lt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_lt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_gt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_gt_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_le_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_le_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_ge_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_ge_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_lt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_gt_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_le_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_ge_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_lt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_gt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_le(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_ge(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_eq(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_ne(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_lt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_gt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_le(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_ge(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_not(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_and(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_andnot(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_or(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_xor(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_bitselect(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_v128_any_true(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_abs(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_neg(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_popcnt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_all_true(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_bitmask(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_narrow_i16x8_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_narrow_i16x8_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_shl(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_shr_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_shr_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_add_sat_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_add_sat_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_sub_sat_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_sub_sat_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_min_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_min_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_max_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_max_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_avgr_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extadd_pairwise_i8x16_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extadd_pairwise_i8x16_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_abs(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_neg(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_q15mulr_sat_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_all_true(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_bitmask(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_narrow_i32x4_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_narrow_i32x4_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extend_low_i8x16_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extend_high_i8x16_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extend_low_i8x16_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extend_high_i8x16_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_shl(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_shr_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_shr_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_add_sat_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_add_sat_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_sub_sat_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_sub_sat_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_mul(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_min_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_min_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_max_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_max_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_avgr_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extmul_low_i8x16_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extmul_high_i8x16_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extmul_low_i8x16_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_extmul_high_i8x16_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extadd_pairwise_i16x8_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extadd_pairwise_i16x8_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_abs(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_neg(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_all_true(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_bitmask(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extend_low_i16x8_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extend_high_i16x8_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extend_low_i16x8_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extend_high_i16x8_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_shl(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_shr_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_shr_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_mul(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_min_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_min_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_max_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_max_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_dot_i16x8_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extmul_low_i16x8_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extmul_high_i16x8_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extmul_low_i16x8_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_extmul_high_i16x8_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_abs(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_neg(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_all_true(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_bitmask(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_extend_low_i32x4_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_extend_high_i32x4_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_extend_low_i32x4_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_extend_high_i32x4_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_shl(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_shr_s(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_shr_u(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_mul(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_extmul_low_i32x4_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_extmul_high_i32x4_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_extmul_low_i32x4_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_extmul_high_i32x4_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_ceil(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_floor(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_trunc(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_nearest(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_abs(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_neg(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_sqrt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_mul(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_div(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_min(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_max(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_pmin(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_pmax(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_ceil(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_floor(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_trunc(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_nearest(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_abs(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_neg(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_sqrt(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_add(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_sub(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_mul(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_div(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_min(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_max(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_pmin(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_pmax(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_trunc_sat_f32x4_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_trunc_sat_f32x4_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_convert_i32x4_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_convert_i32x4_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_trunc_sat_f64x2_s_zero( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_trunc_sat_f64x2_u_zero( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_convert_low_i32x4_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_convert_low_i32x4_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_demote_f64x2_zero( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_promote_low_f32x4( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_relaxed_swizzle( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_relaxed_trunc_f32x4_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_relaxed_trunc_f32x4_u( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_relaxed_trunc_f64x2_s_zero( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_relaxed_trunc_f64x2_u_zero( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_relaxed_madd(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_relaxed_nmadd(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_relaxed_madd(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_relaxed_nmadd(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i8x16_relaxed_laneselect( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_relaxed_laneselect( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_relaxed_laneselect( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i64x2_relaxed_laneselect( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_relaxed_min(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f32x4_relaxed_max(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_relaxed_min(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_f64x2_relaxed_max(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_relaxed_q15mulr_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i16x8_relaxed_dot_i8x16_i7x16_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_i32x4_relaxed_dot_i8x16_i7x16_add_s( &mut self, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_call_ref( &mut self, type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_return_call_ref( &mut self, type_index: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_ref_as_non_null(&mut self) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_br_on_null( &mut self, relative_depth: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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fn visit_br_on_non_null( &mut self, relative_depth: u32, ) -> <Box<V> as VisitOperator<'a>>::Output

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impl<T, U, A> CoerceUnsized<Box<U, A>> for Box<T, A>
where T: Unsize<U> + ?Sized, A: Allocator, U: ?Sized,

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impl<T, A> DerefPure for Box<T, A>
where A: Allocator, T: ?Sized,

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impl<T, U> DispatchFromDyn<Box<U>> for Box<T>
where T: Unsize<U> + ?Sized, U: ?Sized,

1.0.0 · Source§

impl<T, A> Eq for Box<T, A>
where T: Eq + ?Sized, A: Allocator,

1.26.0 · Source§

impl<I, A> FusedIterator for Box<I, A>
where I: FusedIterator + ?Sized, A: Allocator,

1.80.0 · Source§

impl<'a, I, A> !Iterator for &'a Box<[I], A>
where A: Allocator,

This implementation is required to make sure that the &Box<[I]>: IntoIterator implementation doesn’t overlap with IntoIterator for T where T: Iterator blanket.

1.80.0 · Source§

impl<'a, I, A> !Iterator for &'a mut Box<[I], A>
where A: Allocator,

This implementation is required to make sure that the &mut Box<[I]>: IntoIterator implementation doesn’t overlap with IntoIterator for T where T: Iterator blanket.

1.80.0 · Source§

impl<I, A> !Iterator for Box<[I], A>
where A: Allocator,

This implementation is required to make sure that the Box<[I]>: IntoIterator implementation doesn’t overlap with IntoIterator for T where T: Iterator blanket.

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impl<T, A> PinCoerceUnsized for Box<T, A>
where A: Allocator, T: ?Sized,

1.33.0 · Source§

impl<T, A> Unpin for Box<T, A>
where A: Allocator, T: ?Sized,

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unsafe fn clone_to_uninit(&self, dst: *mut T)

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fn equivalent(&self, key: &K) -> bool

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fn into(self) -> U

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type Item = <I as AsyncIterator>::Item

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type Searcher<'a> = CharPredicateSearcher<'a, F>

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fn is_contained_in<'a>(self, haystack: &'a str) -> bool

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fn as_utf8_pattern(&self) -> Option<Utf8Pattern<'_>>

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