better bounds checks
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12dfc5fe81
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a473b78756
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@ -1,6 +1,9 @@
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use super::SbpOperator;
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use ndarray::{arr1, arr2, s, ArrayView1, ArrayView2, ArrayViewMut1, ArrayViewMut2};
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/// Simdtype used in diffy_simd
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type SimdT = packed_simd::f32x8;
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pub struct Upwind4 {}
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impl Upwind4 {
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@ -57,7 +60,7 @@ impl Upwind4 {
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fn diff_simd(prev: &[f32], fut: &mut [f32]) {
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use packed_simd::{f32x8, u32x8};
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assert_eq!(prev.len(), fut.len());
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assert_eq!(prev.len() % 8, 0);
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assert!(prev.len() >= 2 * Self::BLOCK.len());
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let nx = prev.len();
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let dx = 1.0 / (nx - 1) as f32;
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let idx = 1.0 / dx;
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@ -147,25 +150,24 @@ impl Upwind4 {
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#[inline(never)]
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fn diffy_simd(prev: &[f32], fut: &mut [f32], nx: usize, ny: usize) {
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use packed_simd::f32x4;
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assert!(ny >= 8);
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assert!(nx > 4);
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assert!(nx % 4 == 0);
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assert!(ny >= 2 * Self::BLOCK.len());
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assert!(nx >= SimdT::lanes());
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assert!(nx % SimdT::lanes() == 0);
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assert_eq!(prev.len(), fut.len());
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assert_eq!(prev.len(), nx * ny);
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let dy = 1.0 / (ny - 1) as f32;
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let idy = 1.0 / dy;
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for j in (0..nx).step_by(4) {
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for j in (0..nx).step_by(SimdT::lanes()) {
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let a = [
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f32x4::from_slice_unaligned(&prev[0 * nx + j..]),
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f32x4::from_slice_unaligned(&prev[1 * nx + j..]),
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f32x4::from_slice_unaligned(&prev[2 * nx + j..]),
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f32x4::from_slice_unaligned(&prev[3 * nx + j..]),
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f32x4::from_slice_unaligned(&prev[4 * nx + j..]),
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f32x4::from_slice_unaligned(&prev[5 * nx + j..]),
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f32x4::from_slice_unaligned(&prev[6 * nx + j..]),
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SimdT::from_slice_unaligned(&prev[0 * nx + j..]),
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SimdT::from_slice_unaligned(&prev[1 * nx + j..]),
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SimdT::from_slice_unaligned(&prev[2 * nx + j..]),
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SimdT::from_slice_unaligned(&prev[3 * nx + j..]),
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SimdT::from_slice_unaligned(&prev[4 * nx + j..]),
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SimdT::from_slice_unaligned(&prev[5 * nx + j..]),
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SimdT::from_slice_unaligned(&prev[6 * nx + j..]),
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];
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for (i, bl) in Self::BLOCK.iter().enumerate() {
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@ -190,7 +192,7 @@ impl Upwind4 {
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a[4],
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a[5],
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a[6],
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f32x4::from_slice_unaligned(&prev[nx * (i + 3) + j..]),
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SimdT::from_slice_unaligned(&prev[nx * (i + 3) + j..]),
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];
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let b = idy
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* (a[0] * Self::DIAG[0]
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@ -204,13 +206,13 @@ impl Upwind4 {
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}
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let a = [
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f32x4::from_slice_unaligned(&prev[(ny - 1) * nx + j..]),
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f32x4::from_slice_unaligned(&prev[(ny - 2) * nx + j..]),
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f32x4::from_slice_unaligned(&prev[(ny - 3) * nx + j..]),
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f32x4::from_slice_unaligned(&prev[(ny - 4) * nx + j..]),
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f32x4::from_slice_unaligned(&prev[(ny - 5) * nx + j..]),
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f32x4::from_slice_unaligned(&prev[(ny - 6) * nx + j..]),
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f32x4::from_slice_unaligned(&prev[(ny - 7) * nx + j..]),
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SimdT::from_slice_unaligned(&prev[(ny - 1) * nx + j..]),
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SimdT::from_slice_unaligned(&prev[(ny - 2) * nx + j..]),
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SimdT::from_slice_unaligned(&prev[(ny - 3) * nx + j..]),
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SimdT::from_slice_unaligned(&prev[(ny - 4) * nx + j..]),
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SimdT::from_slice_unaligned(&prev[(ny - 5) * nx + j..]),
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SimdT::from_slice_unaligned(&prev[(ny - 6) * nx + j..]),
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SimdT::from_slice_unaligned(&prev[(ny - 7) * nx + j..]),
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];
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for (i, bl) in Self::BLOCK.iter().enumerate() {
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@ -230,14 +232,12 @@ impl Upwind4 {
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fn diff(prev: ArrayView1<f32>, mut fut: ArrayViewMut1<f32>) {
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assert_eq!(prev.shape(), fut.shape());
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let nx = prev.shape()[0];
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assert!(nx >= 8);
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assert!(nx >= 2 * Self::BLOCK.len());
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if nx % 8 == 0 {
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if let (Some(p), Some(f)) = (prev.as_slice(), fut.as_slice_mut()) {
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Self::diff_simd(p, f);
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return;
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}
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}
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let dx = 1.0 / (nx - 1) as f32;
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let idx = 1.0 / dx;
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@ -273,7 +273,7 @@ impl Upwind4 {
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impl SbpOperator for Upwind4 {
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fn diffx(prev: ArrayView2<f32>, mut fut: ArrayViewMut2<f32>) {
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assert_eq!(prev.shape(), fut.shape());
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assert!(prev.shape()[1] >= 8);
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assert!(prev.shape()[1] >= 2 * Self::BLOCK.len());
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for (r0, r1) in prev.outer_iter().zip(fut.outer_iter_mut()) {
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Self::diff(r0, r1)
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}
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@ -281,10 +281,10 @@ impl SbpOperator for Upwind4 {
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fn diffy(prev: ArrayView2<f32>, mut fut: ArrayViewMut2<f32>) {
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assert_eq!(prev.shape(), fut.shape());
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assert!(prev.shape()[0] >= 8);
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assert!(prev.shape()[0] >= 2 * Self::BLOCK.len());
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let nx = prev.shape()[1];
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let ny = prev.shape()[0];
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if nx >= 4 && nx % 4 == 0 {
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if nx >= SimdT::lanes() && nx % SimdT::lanes() == 0 {
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if let (Some(p), Some(f)) = (prev.as_slice(), fut.as_slice_mut()) {
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Self::diffy_simd(p, f, nx, ny);
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return;
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