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//! A pointer type for single value heap allocation.
use crate::{
alloc::NSTDAllocator,
core::{mem::nstd_core_mem_copy, optional::NSTDOptional},
NSTDAny, NSTDAnyMut, NSTDUInt, NSTD_NULL,
};
use nstdapi::nstdapi;
/// A pointer type for single value heap allocation.
#[nstdapi]
pub struct NSTDHeapPtr<'a> {
/// The memory allocator.
allocator: &'a NSTDAllocator,
/// A raw pointer to the value on the heap.
ptr: NSTDAnyMut,
/// The size of the object in bytes.
size: NSTDUInt,
}
impl<'a> NSTDHeapPtr<'a> {
/// Constructs a zero-sized [NSTDHeapPtr].
#[inline]
const fn zero_sized(allocator: &'a NSTDAllocator) -> Self {
Self {
allocator,
ptr: NSTD_NULL,
size: 0,
}
}
}
impl Drop for NSTDHeapPtr<'_> {
/// [NSTDHeapPtr]'s destructor.
#[inline]
fn drop(&mut self) {
if self.size > 0 {
// SAFETY: The heap object's size is non-zero.
unsafe { (self.allocator.deallocate)(self.allocator.state, &mut self.ptr, self.size) };
}
}
}
/// # Safety
///
/// The data that the heap pointer holds must be able to be safely sent between threads.
// SAFETY: The user guarantees that the data is thread-safe.
unsafe impl Send for NSTDHeapPtr<'_> {}
/// # Safety
///
/// The data that the heap pointer holds must be able to be safely shared between threads.
// SAFETY: The user guarantees that the data is thread-safe.
unsafe impl Sync for NSTDHeapPtr<'_> {}
/// Represents an optional value of type `NSTDHeapPtr`.
pub type NSTDOptionalHeapPtr<'a> = NSTDOptional<NSTDHeapPtr<'a>>;
/// Creates a new initialized heap allocated object.
///
/// # Parameters:
///
/// - `const NSTDAllocator *allocator` - The memory allocator.
///
/// - `NSTDUInt element_size` - The size (in bytes) of the heap object.
///
/// - `NSTDAny init` - A pointer to the object to initialize the heap object with.
///
/// # Returns
///
/// `NSTDOptionalHeapPtr hptr` - The new heap allocated object, or an uninitialized "none" variant
/// if allocating fails.
///
/// # Safety
///
/// `init` must be a pointer to a value that is valid for reads of `element_size` bytes.
///
/// # Example
///
/// ```
/// use core::ptr::addr_of;
/// use nstd_sys::{alloc::NSTD_ALLOCATOR, heap_ptr::nstd_heap_ptr_new};
///
/// const SIZE: usize = core::mem::size_of::<char>();
///
/// let v = '🦀';
/// let hptr = unsafe { nstd_heap_ptr_new(&NSTD_ALLOCATOR, SIZE, addr_of!(v).cast()).unwrap() };
/// ```
#[nstdapi]
pub unsafe fn nstd_heap_ptr_new(
allocator: &NSTDAllocator,
element_size: NSTDUInt,
init: NSTDAny,
) -> NSTDOptionalHeapPtr {
if element_size == 0 {
NSTDOptional::Some(NSTDHeapPtr::zero_sized(allocator))
} else {
let mem = (allocator.allocate)(allocator.state, element_size);
if mem.is_null() {
return NSTDOptional::None;
}
nstd_core_mem_copy(mem.cast(), init.cast(), element_size);
NSTDOptional::Some(NSTDHeapPtr {
allocator,
ptr: mem,
size: element_size,
})
}
}
/// Creates a new zero-initialized heap allocated object.
///
/// # Parameters:
///
/// - `const NSTDAllocator *allocator` - The memory allocator.
///
/// - `NSTDUInt element_size` - The size (in bytes) of the heap object.
///
/// # Returns
///
/// `NSTDOptionalHeapPtr hptr` - The new heap allocated object, or an uninitialized "none" variant
/// if allocating fails.
///
/// # Safety
///
/// The data to be stored in the heap pointer must be safely representable by an all-zero byte
/// pattern.
///
/// # Example
///
/// ```
/// use nstd_sys::{
/// alloc::NSTD_ALLOCATOR,
/// heap_ptr::{nstd_heap_ptr_get, nstd_heap_ptr_new_zeroed},
/// };
///
/// const SIZE: usize = core::mem::size_of::<u64>();
///
/// unsafe {
/// let hptr = nstd_heap_ptr_new_zeroed(&NSTD_ALLOCATOR, SIZE).unwrap();
/// assert!(*nstd_heap_ptr_get(&hptr).cast::<u64>() == 0);
/// }
/// ```
#[nstdapi]
pub unsafe fn nstd_heap_ptr_new_zeroed(
allocator: &NSTDAllocator,
element_size: NSTDUInt,
) -> NSTDOptionalHeapPtr {
if element_size == 0 {
NSTDOptional::Some(NSTDHeapPtr::zero_sized(allocator))
} else {
// SAFETY: `element_size` is not 0.
let mem = unsafe { (allocator.allocate_zeroed)(allocator.state, element_size) };
if mem.is_null() {
return NSTDOptional::None;
}
NSTDOptional::Some(NSTDHeapPtr {
allocator,
ptr: mem,
size: element_size,
})
}
}
/// Creates a clone of a heap allocated object.
///
/// # Parameters:
///
/// - `const NSTDHeapPtr *hptr` - The heap pointer.
///
/// # Returns
///
/// `NSTDOptionalHeapPtr cloned` - A new clone of the original heap object, or an uninitialized
/// "none" variant if allocating fails.
#[nstdapi]
pub fn nstd_heap_ptr_clone<'a>(hptr: &NSTDHeapPtr<'a>) -> NSTDOptionalHeapPtr<'a> {
let size = nstd_heap_ptr_size(hptr);
if size == 0 {
NSTDOptional::Some(NSTDHeapPtr::zero_sized(hptr.allocator))
} else {
// SAFETY: `size` is not 0.
let mem = unsafe { (hptr.allocator.allocate)(hptr.allocator.state, size) };
if mem.is_null() {
return NSTDOptional::None;
}
// SAFETY: Both pointers are non-null.
unsafe { nstd_core_mem_copy(mem.cast(), hptr.ptr.cast(), size) };
NSTDOptional::Some(NSTDHeapPtr {
allocator: hptr.allocator,
ptr: mem,
size,
})
}
}
/// Returns an immutable reference to a heap object's allocator.
///
/// # Parameters:
///
/// - `const NSTDHeapPtr *hptr` - The heap object.
///
/// # Returns
///
/// `const NSTDAllocator *allocator` - The heap object's allocator.
#[inline]
#[nstdapi]
pub fn nstd_heap_ptr_allocator<'a>(hptr: &NSTDHeapPtr<'a>) -> &'a NSTDAllocator {
hptr.allocator
}
/// Returns the size of the heap allocated object.
///
/// # Parameters:
///
/// - `const NSTDHeapPtr *hptr` - The heap pointer.
///
/// # Returns
///
/// `NSTDUInt size` - The size of the heap allocated object.
///
/// # Example
///
/// ```
/// use nstd_sys::{
/// alloc::NSTD_ALLOCATOR,
/// heap_ptr::{nstd_heap_ptr_new_zeroed, nstd_heap_ptr_size},
/// };
///
/// const SIZE: usize = core::mem::size_of::<i32>();
///
/// let hptr = unsafe { nstd_heap_ptr_new_zeroed(&NSTD_ALLOCATOR, SIZE).unwrap() };
/// assert!(nstd_heap_ptr_size(&hptr) == SIZE);
/// ```
#[inline]
#[nstdapi]
pub fn nstd_heap_ptr_size(hptr: &NSTDHeapPtr) -> NSTDUInt {
hptr.size
}
/// Returns an immutable raw pointer to the object on the heap.
///
/// # Note
///
/// This will always return null if the size of the object being stored on the heap is 0.
///
/// # Parameters:
///
/// - `const NSTDHeapPtr *hptr` - The heap pointer.
///
/// # Returns
///
/// `NSTDAny ptr` - A raw pointer to the object on the heap.
///
/// # Example
///
/// ```
/// use core::ptr::addr_of;
/// use nstd_sys::{
/// alloc::NSTD_ALLOCATOR,
/// heap_ptr::{nstd_heap_ptr_get, nstd_heap_ptr_new},
/// };
///
/// const SIZE: usize = core::mem::size_of::<i128>();
///
/// unsafe {
/// let v = -46923i128;
/// let hptr = nstd_heap_ptr_new(&NSTD_ALLOCATOR, SIZE, addr_of!(v).cast()).unwrap();
/// assert!(*nstd_heap_ptr_get(&hptr).cast::<i128>() == v);
/// }
/// ```
#[inline]
#[nstdapi]
pub fn nstd_heap_ptr_get(hptr: &NSTDHeapPtr) -> NSTDAny {
hptr.ptr
}
/// Returns a raw pointer to the object on the heap.
///
/// # Note
///
/// This will always return null if the size of the object being stored on the heap is 0.
///
/// # Parameters:
///
/// - `NSTDHeapPtr *hptr` - The heap pointer.
///
/// # Returns
///
/// `NSTDAnyMut ptr` - A raw pointer to the object on the heap.
///
/// # Example
///
/// ```
/// use core::ptr::addr_of;
/// use nstd_sys::{
/// alloc::NSTD_ALLOCATOR,
/// heap_ptr::{nstd_heap_ptr_get_mut, nstd_heap_ptr_new},
/// };
///
/// const SIZE: usize = core::mem::size_of::<i128>();
///
/// unsafe {
/// let v = 32964i128;
/// let mut hptr = nstd_heap_ptr_new(&NSTD_ALLOCATOR, SIZE, addr_of!(v).cast()).unwrap();
/// let hv = nstd_heap_ptr_get_mut(&mut hptr).cast::<i128>();
/// assert!(*hv == v);
/// *hv = -46923;
/// assert!(*hv != v);
/// }
/// ```
#[inline]
#[nstdapi]
pub fn nstd_heap_ptr_get_mut(hptr: &mut NSTDHeapPtr) -> NSTDAnyMut {
hptr.ptr
}
/// Frees an instance of `NSTDHeapPtr`.
///
/// # Parameters:
///
/// - `NSTDHeapPtr hptr` - A pointer to the heap object.
#[inline]
#[nstdapi]
#[allow(unused_variables)]
pub fn nstd_heap_ptr_free(hptr: NSTDHeapPtr) {}
/// Frees an instance of `NSTDHeapPtr` after invoking `callback` with the heap object's data.
///
/// # Parameters:
///
/// - `NSTDHeapPtr hptr` - A pointer to the heap object.
///
/// - `void (*callback)(NSTDAnyMut)` - The heap object's destructor.
///
/// # Safety
///
/// This operation makes a direct call on a C function pointer (`callback`).
#[inline]
#[nstdapi]
pub unsafe fn nstd_heap_ptr_drop(hptr: NSTDHeapPtr, callback: unsafe extern "C" fn(NSTDAnyMut)) {
callback(hptr.ptr);
}