#![allow(dead_code)]
use crate::op::{BinaryOpT, CmpOp, ReduceOp, UnaryOpT};
use crate::{CpuStorage, DType, Error, Layout, Result, Shape};
#[derive(Debug, Clone)]
pub struct CudaDevice;
#[derive(Debug)]
pub struct CudaStorage;
macro_rules! fail {
() => {
unimplemented!("cuda support has not been enabled, add `cuda` feature to enable.")
};
}
impl CudaDevice {
pub fn new_with_stream(_: usize) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
}
impl crate::backend::BackendStorage for CudaStorage {
type Device = CudaDevice;
fn try_clone(&self, _: &Layout) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn dtype(&self) -> DType {
fail!()
}
fn device(&self) -> &Self::Device {
fail!()
}
fn to_cpu_storage(&self) -> Result<CpuStorage> {
Err(Error::NotCompiledWithCudaSupport)
}
fn affine(&self, _: &Layout, _: f64, _: f64) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn powf(&self, _: &Layout, _: f64) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn elu(&self, _: &Layout, _: f64) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn reduce_op(&self, _: ReduceOp, _: &Layout, _: &[usize]) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn cmp(&self, _: CmpOp, _: &Self, _: &Layout, _: &Layout) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn to_dtype(&self, _: &Layout, _: DType) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn unary_impl<B: UnaryOpT>(&self, _: &Layout) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn binary_impl<B: BinaryOpT>(&self, _: &Self, _: &Layout, _: &Layout) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn where_cond(&self, _: &Layout, _: &Self, _: &Layout, _: &Self, _: &Layout) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn conv1d(
&self,
_: &Layout,
_: &Self,
_: &Layout,
_: &crate::conv::ParamsConv1D,
) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn conv_transpose1d(
&self,
_: &Layout,
_: &Self,
_: &Layout,
_: &crate::conv::ParamsConvTranspose1D,
) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn conv2d(
&self,
_: &Layout,
_: &Self,
_: &Layout,
_: &crate::conv::ParamsConv2D,
) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn conv_transpose2d(
&self,
_l: &Layout,
_kernel: &Self,
_kernel_l: &Layout,
_params: &crate::conv::ParamsConvTranspose2D,
) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn index_select(&self, _: &Self, _: &Layout, _: &Layout, _: usize) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn gather(&self, _: &Layout, _: &Self, _: &Layout, _: usize) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn scatter_add(
&self,
_: &Layout,
_: &Self,
_: &Layout,
_: &Self,
_: &Layout,
_: usize,
) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn index_add(
&self,
_: &Layout,
_: &Self,
_: &Layout,
_: &Self,
_: &Layout,
_: usize,
) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn matmul(
&self,
_: &Self,
_: (usize, usize, usize, usize),
_: &Layout,
_: &Layout,
) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn copy_strided_src(&self, _: &mut Self, _: usize, _: &Layout) -> Result<()> {
Err(Error::NotCompiledWithCudaSupport)
}
fn copy2d(
&self,
_: &mut Self,
_: usize,
_: usize,
_: usize,
_: usize,
_: usize,
_: usize,
) -> Result<()> {
Err(Error::NotCompiledWithCudaSupport)
}
fn avg_pool2d(&self, _: &Layout, _: (usize, usize), _: (usize, usize)) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn max_pool2d(&self, _: &Layout, _: (usize, usize), _: (usize, usize)) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn upsample_nearest1d(&self, _: &Layout, _: usize) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn upsample_nearest2d(&self, _: &Layout, _: usize, _: usize) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
}
impl crate::backend::BackendDevice for CudaDevice {
type Storage = CudaStorage;
fn new(_: usize) -> Result<Self> {
Err(Error::NotCompiledWithCudaSupport)
}
fn set_seed(&self, _: u64) -> Result<()> {
Err(Error::NotCompiledWithCudaSupport)
}
fn location(&self) -> crate::DeviceLocation {
fail!()
}
fn same_device(&self, _: &Self) -> bool {
fail!()
}
fn zeros_impl(&self, _shape: &Shape, _dtype: DType) -> Result<Self::Storage> {
Err(Error::NotCompiledWithCudaSupport)
}
fn ones_impl(&self, _shape: &Shape, _dtype: DType) -> Result<Self::Storage> {
Err(Error::NotCompiledWithCudaSupport)
}
unsafe fn alloc_uninit(&self, _shape: &Shape, _dtype: DType) -> Result<Self::Storage> {
Err(Error::NotCompiledWithCudaSupport)
}
fn storage_from_slice<T: crate::WithDType>(&self, _: &[T]) -> Result<Self::Storage> {
Err(Error::NotCompiledWithCudaSupport)
}
fn storage_from_cpu_storage(&self, _: &CpuStorage) -> Result<Self::Storage> {
Err(Error::NotCompiledWithCudaSupport)
}
fn storage_from_cpu_storage_owned(&self, _: CpuStorage) -> Result<Self::Storage> {
Err(Error::NotCompiledWithCudaSupport)
}
fn rand_uniform(&self, _: &Shape, _: DType, _: f64, _: f64) -> Result<Self::Storage> {
Err(Error::NotCompiledWithCudaSupport)
}
fn rand_normal(&self, _: &Shape, _: DType, _: f64, _: f64) -> Result<Self::Storage> {
Err(Error::NotCompiledWithCudaSupport)
}
fn synchronize(&self) -> Result<()> {
Ok(())
}
}
pub fn gemm_reduced_precision_f16() -> bool {
true
}
pub fn set_gemm_reduced_precision_f16(_: bool) {}
pub fn gemm_reduced_precision_bf16() -> bool {
true
}
pub fn set_gemm_reduced_precision_bf16(_: bool) {}
pub fn gemm_reduced_precision_f32() -> bool {
true
}
pub fn set_gemm_reduced_precision_f32(_b: bool) {}