Revision control
Copy as Markdown
Other Tools
use {↩
crate::types::{MemoryHeap, MemoryType},↩
alloc::borrow::Cow,↩
core::ptr::NonNull,↩
};↩
↩
/// Memory exhausted error.↩
#[derive(Debug)]↩
pub enum OutOfMemory {↩
/// Device memory exhausted.↩
OutOfDeviceMemory,↩
↩
/// Host memory exhausted.↩
OutOfHostMemory,↩
}↩
↩
/// Memory mapped error.↩
#[derive(Debug)]↩
pub enum DeviceMapError {↩
/// Device memory exhausted.↩
OutOfDeviceMemory,↩
↩
/// Host memory exhausted.↩
OutOfHostMemory,↩
↩
/// Map failed due to implementation specific error.↩
MapFailed,↩
}↩
↩
/// Specifies range of the mapped memory region.↩
#[derive(Debug)]↩
pub struct MappedMemoryRange<'a, M> {↩
/// Memory object reference.↩
pub memory: &'a M,↩
↩
/// Offset in bytes from start of the memory object.↩
pub offset: u64,↩
↩
/// Size in bytes of the memory range.↩
pub size: u64,↩
}↩
↩
/// Properties of the device that will be used for allocating memory objects.↩
///↩
/// See `gpu-alloc-<backend>` crate to learn how to obtain one for backend of choice.↩
#[derive(Debug)]↩
pub struct DeviceProperties<'a> {↩
/// Array of memory types provided by the device.↩
pub memory_types: Cow<'a, [MemoryType]>,↩
↩
/// Array of memory heaps provided by the device.↩
pub memory_heaps: Cow<'a, [MemoryHeap]>,↩
↩
/// Maximum number of valid memory allocations that can exist simultaneously within the device.↩
pub max_memory_allocation_count: u32,↩
↩
/// Maximum size for single allocation supported by the device.↩
pub max_memory_allocation_size: u64,↩
↩
/// Atom size for host mappable non-coherent memory.↩
pub non_coherent_atom_size: u64,↩
↩
/// Specifies if feature required to fetch device address is enabled.↩
pub buffer_device_address: bool,↩
}↩
↩
bitflags::bitflags! {↩
/// Allocation flags↩
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]↩
#[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)]↩
pub struct AllocationFlags : u8 {↩
/// Specifies that the memory can be used for buffers created↩
/// with flag that allows fetching device address.↩
const DEVICE_ADDRESS = 0x1;↩
}↩
}↩
↩
/// Abstract device that can be used to allocate memory objects.↩
pub trait MemoryDevice<M> {↩
/// Allocates new memory object from device.↩
/// This function may be expensive and even limit maximum number of memory↩
/// objects allocated.↩
/// Which is the reason for sub-allocation this crate provides.↩
///↩
/// # Safety↩
///↩
/// `memory_type` must be valid index for memory type associated with this device.↩
/// Retrieving this information is implementation specific.↩
///↩
/// `flags` must be supported by the device.↩
unsafe fn allocate_memory(↩
&self,↩
size: u64,↩
memory_type: u32,↩
flags: AllocationFlags,↩
) -> Result<M, OutOfMemory>;↩
↩
/// Deallocate memory object.↩
///↩
/// # Safety↩
///↩
/// Memory object must have been allocated from this device.\↩
/// All clones of specified memory handle must be dropped before calling this function.↩
unsafe fn deallocate_memory(&self, memory: M);↩
↩
/// Map region of device memory to host memory space.↩
///↩
/// # Safety↩
///↩
/// * Memory object must have been allocated from this device.↩
/// * Memory object must not be already mapped.↩
/// * Memory must be allocated from type with `HOST_VISIBLE` property.↩
/// * `offset + size` must not overflow.↩
/// * `offset + size` must not be larger than memory object size specified when↩
/// memory object was allocated from this device.↩
unsafe fn map_memory(↩
&self,↩
memory: &mut M,↩
offset: u64,↩
size: u64,↩
) -> Result<NonNull<u8>, DeviceMapError>;↩
↩
/// Unmap previously mapped memory region.↩
///↩
/// # Safety↩
///↩
/// * Memory object must have been allocated from this device.↩
/// * Memory object must be mapped↩
unsafe fn unmap_memory(&self, memory: &mut M);↩
↩
/// Invalidates ranges of memory mapped regions.↩
///↩
/// # Safety↩
///↩
/// * Memory objects must have been allocated from this device.↩
/// * `offset` and `size` in each element of `ranges` must specify↩
/// subregion of currently mapped memory region↩
/// * if `memory` in some element of `ranges` does not contain `HOST_COHERENT` property↩
/// then `offset` and `size` of that element must be multiple of `non_coherent_atom_size`.↩
unsafe fn invalidate_memory_ranges(↩
&self,↩
ranges: &[MappedMemoryRange<'_, M>],↩
) -> Result<(), OutOfMemory>;↩
↩
/// Flushes ranges of memory mapped regions.↩
///↩
/// # Safety↩
///↩
/// * Memory objects must have been allocated from this device.↩
/// * `offset` and `size` in each element of `ranges` must specify↩
/// subregion of currently mapped memory region↩
/// * if `memory` in some element of `ranges` does not contain `HOST_COHERENT` property↩
/// then `offset` and `size` of that element must be multiple of `non_coherent_atom_size`.↩
unsafe fn flush_memory_ranges(↩
&self,↩
ranges: &[MappedMemoryRange<'_, M>],↩
) -> Result<(), OutOfMemory>;↩
}↩