Implement generic fill. u8 uses speedy blit encoder

2025-06-17 19:18:50 +00:00 · 2023-12-29 16:02:29 +01:00
parent 0a29d2e9b8
commit 7fc26764b6
4 changed files with 134 additions and 35 deletions
--- a/candle-core/src/metal_backend.rs
+++ b/candle-core/src/metal_backend.rs
@ -3,7 +3,8 @@ use crate::conv::{ParamsConv1D, ParamsConv2D, ParamsConvTranspose1D, ParamsConvT
 use crate::op::{BinaryOpT, CmpOp, ReduceOp, UnaryOpT};
 use crate::{CpuStorage, DType, Layout, Result, Shape};
 use candle_metal_kernels;
-use candle_metal_kernels::Kernels;
+use candle_metal_kernels::{CallFill, Fill, Kernels};
+use half::{bf16, f16};
 use metal;
 use metal::{Buffer, CommandBuffer, CommandQueue, MTLResourceOptions, NSUInteger};
 use std::collections::HashMap;
@ -1403,25 +1404,52 @@ impl BackendDevice for MetalDevice {
        let buffer = self.new_buffer(shape.elem_count(), dtype, "zeros")?;
        let command_buffer = self.command_buffer()?;
        command_buffer.set_label("zeros");
-        let blit = command_buffer.new_blit_command_encoder();
-        blit.wait_for_fence(&self.fence);
-        blit.fill_buffer(
+
+        // This assumes the specific zero type DType is equal to 0x00u8
+        // (which is true for all current types)
+        Fill::call_fill(
+            &self.device,
+            &command_buffer,
+            &self.kernels,
+            shape.elem_count(),
            &buffer,
-            metal::NSRange {
-                location: 0,
-                length: buffer.length(),
-            },
-            0,
-        );
-        blit.update_fence(&self.fence);
-        blit.end_encoding();
+            0u8,
+        )
+        .map_err(MetalError::from)?;
+
        Ok(MetalStorage::new(buffer, self.clone(), dtype))
    }

    fn ones_impl(&self, shape: &Shape, dtype: DType) -> Result<Self::Storage> {
-        // TODO Is there a faster way ?
-        let cpu_storage = crate::cpu_backend::CpuDevice.ones_impl(shape, dtype)?;
-        self.storage_from_cpu_storage(&cpu_storage)
+        let buffer = self.new_buffer(shape.elem_count(), dtype, "zeros")?;
+        let command_buffer = self.command_buffer()?;
+        command_buffer.set_label("ones");
+
+        macro_rules! fill {
+            ($value:expr) => {
+                Fill::call_fill(
+                    &self.device,
+                    &command_buffer,
+                    &self.kernels,
+                    shape.elem_count(),
+                    &buffer,
+                    $value,
+                )
+                .map_err(MetalError::from)?
+            };
+        }
+        match dtype {
+            DType::U8 => fill!(1u8),
+            DType::U32 => fill!(1u32),
+            DType::I64 => fill!(1i64),
+            DType::BF16 => fill!(bf16::ONE),
+            DType::F16 => fill!(f16::ONE),
+            DType::F32 => fill!(1f32),
+            DType::F64 => {
+                return Err(MetalError::Message(format!("metal doesn't support double")).into())
+            }
+        }
+        Ok(MetalStorage::new(buffer, self.clone(), dtype))
    }

    fn storage_from_cpu_storage(&self, storage: &CpuStorage) -> Result<Self::Storage> {
--- a/candle-metal-kernels/Cargo.toml
+++ b/candle-metal-kernels/Cargo.toml
@ -15,6 +15,7 @@ once_cell = "1.18.0"
 thiserror = "1"
 tracing = "0.1.37"
 half = { version = "2.3.1", features = ["num-traits", "use-intrinsics", "rand_distr"] }
+num-traits = "0.2.17"

 [dev-dependencies]
 rand = "0.8.5"
--- a/candle-metal-kernels/src/lib.rs
+++ b/candle-metal-kernels/src/lib.rs
@ -5,6 +5,7 @@ use metal::{
 };
 use std::collections::HashMap;
 use std::ffi::c_void;
+use std::marker::PhantomData;
 use std::sync::RwLock;

 const AFFINE: &str = include_str!("affine.metal");
@ -180,6 +181,8 @@ pub mod binary {

 #[derive(thiserror::Error, Debug)]
 pub enum MetalKernelError {
+    #[error("Invalid usage of kernel: {0}")]
+    InvalidUsage(String),
    #[error("Could not lock kernel map: {0}")]
    LockError(String),
    #[error("Error while loading library: {0}")]
@ -1575,7 +1578,77 @@ fn divide(m: usize, b: usize) -> NSUInteger {
    ((m + b - 1) / b) as NSUInteger
 }

-pub fn call_fill<D: EncoderParam>(
+pub struct Fill<T> {
+    _marker: PhantomData<T>,
+}
+
+pub trait CallFill<T> {
+    const KERNEL_NAME: &'static str;
+
+    fn call_fill(
+        device: &Device,
+        command_buffer: &CommandBufferRef,
+        kernels: &Kernels,
+        elem_count: usize,
+        buffer: &Buffer,
+        value: T,
+    ) -> Result<(), MetalKernelError>;
+}
+
+macro_rules ! impl_call_fill {
+    ($($t:ty),*) => {
+        $(
+            impl CallFill<$t> for Fill<$t> {
+                const KERNEL_NAME: &'static str = concat!("fill_", stringify!($t));
+
+                fn call_fill(device: &Device, command_buffer: &CommandBufferRef, kernels: &Kernels, elem_count: usize, buffer: &Buffer, value: $t) -> Result<(), MetalKernelError> {
+                    _call_fill(device, command_buffer, kernels, Self::KERNEL_NAME, elem_count, buffer, value)
+                }
+            }
+        )*
+    };
+}
+impl_call_fill!(u32, i64, f16, bf16, f32);
+
+impl CallFill<u8> for Fill<u8> {
+    const KERNEL_NAME: &'static str = "";
+
+    fn call_fill(
+        _: &Device,
+        command_buffer: &CommandBufferRef,
+        kernels: &Kernels,
+        elem_count: usize,
+        buffer: &Buffer,
+        value: u8,
+    ) -> Result<(), MetalKernelError> {
+        _call_blit_fill(command_buffer, kernels, elem_count, buffer, value)
+    }
+}
+
+fn _call_blit_fill(
+    command_buffer: &CommandBufferRef,
+    kernels: &Kernels,
+    elem_count: usize,
+    buffer: &Buffer,
+    value: u8,
+) -> Result<(), MetalKernelError> {
+    let blit = command_buffer.new_blit_command_encoder();
+    blit.wait_for_fence(&kernels.fence);
+    blit.fill_buffer(
+        &buffer,
+        metal::NSRange {
+            location: 0,
+            length: elem_count as NSUInteger,
+        },
+        value,
+    );
+    blit.update_fence(&kernels.fence);
+    blit.end_encoding();
+
+    Ok(())
+}
+
+fn _call_fill<D: EncoderParam>(
    device: &Device,
    command_buffer: &CommandBufferRef,
    kernels: &Kernels,
--- a/candle-metal-kernels/src/tests.rs
+++ b/candle-metal-kernels/src/tests.rs
@ -590,7 +590,6 @@ fn softmax() {
    }
    let results = run_softmax(&v, last_dim, "softmax_f32");
    let results = approx(results, 4);
-    println!("{results:?}");
    assert_eq!(
        results.iter().map(|&s| s.round() as usize).sum::<usize>(),
        n
@ -807,22 +806,20 @@ fn gemm() {
    );
 }

-fn run_fill<T: EncoderParam + Clone>(
-    elem_count: usize,
-    value: T,
-    kernel_name: &'static str,
-) -> Vec<T> {
+fn run_fill<T: EncoderParam + Clone>(elem_count: usize, value: T) -> Vec<T>
+where
+    Fill<T>: CallFill<T>,
+{
    let device = device();
    let fence = device.new_fence();
    let kernels = Kernels::new(fence);
    let command_queue = device.new_command_queue();
    let command_buffer = command_queue.new_command_buffer();
    let buffer = new_buffer(&device, &vec![0.0f32; elem_count]);
-    call_fill(
+    Fill::<T>::call_fill(
        &device,
        command_buffer,
        &kernels,
-        kernel_name,
        elem_count,
        &buffer,
        value,
@ -836,18 +833,18 @@ fn run_fill<T: EncoderParam + Clone>(

 #[test]
 fn fill() {
-    fn assert_fill<T: EncoderParam + Copy + std::fmt::Debug + PartialEq>(
-        value: T,
-        name: &'static str,
-    ) {
+    fn assert_fill<T: EncoderParam + Copy + std::fmt::Debug + PartialEq>(value: T)
+    where
+        Fill<T>: CallFill<T>,
+    {
        for i in 0..4 {
-            assert_eq!(run_fill(8 ^ i, value, name), vec![value; 8 ^ i]);
+            assert_eq!(run_fill(8 ^ i, value), vec![value; 8 ^ i]);
        }
    }
-    assert_fill(123u8, "fill_u8");
-    assert_fill(456u32, "fill_u32");
-    assert_fill(789i64, "fill_i64");
-    assert_fill(f16::from_f32(1.23), "fill_f16");
-    assert_fill(bf16::from_f32(4.56), "fill_bf16");
-    assert_fill(7.89f32, "fill_f32");
+    assert_fill(123u8);
+    assert_fill(456u32);
+    assert_fill(789i64);
+    assert_fill(f16::from_f32(1.23));
+    assert_fill(bf16::from_f32(4.56));
+    assert_fill(7.89f32);
 }