use super::SbpOperator;
use ndarray::{arr1, arr2, s, ArrayView1, ArrayView2, ArrayViewMut1, ArrayViewMut2};

pub struct Upwind4 {}

impl Upwind4 {
    const HBLOCK: &'static [f32] = &[49.0 / 144.0, 61.0 / 48.0, 41.0 / 48.0, 149.0 / 144.0];
    const DIAG: &'static [f32] = &[
        -1.0 / 24.0,
        1.0 / 4.0,
        -7.0 / 8.0,
        0.0,
        7.0 / 8.0,
        -1.0 / 4.0,
        1.0 / 24.0,
    ];
    const BLOCK: &'static [[f32; 7]] = &[
        [
            -72.0 / 49.0_f32,
            187.0 / 98.0,
            -20.0 / 49.0,
            -3.0 / 98.0,
            0.0,
            0.0,
            0.0,
        ],
        [
            -187.0 / 366.0,
            0.0,
            69.0 / 122.0,
            -16.0 / 183.0,
            2.0 / 61.0,
            0.0,
            0.0,
        ],
        [
            20.0 / 123.0,
            -69.0 / 82.0,
            0.0,
            227.0 / 246.0,
            -12.0 / 41.0,
            2.0 / 41.0,
            0.0,
        ],
        [
            3.0 / 298.0,
            16.0 / 149.0,
            -227.0 / 298.0,
            0.0,
            126.0 / 149.0,
            -36.0 / 149.0,
            6.0 / 149.0,
        ],
    ];

    fn diff(prev: ArrayView1<f32>, mut fut: ArrayViewMut1<f32>) {
        assert_eq!(prev.shape(), fut.shape());
        let nx = prev.shape()[0];

        let dx = 1.0 / (nx - 1) as f32;
        let idx = 1.0 / dx;

        let diag = arr1(Self::DIAG);
        let block = arr2(Self::BLOCK);

        let first_elems = prev.slice(s!(..7));
        for (bl, f) in block.outer_iter().zip(&mut fut) {
            let diff = first_elems.dot(&bl);
            *f += diff * idx;
        }

        for (window, f) in prev
            .windows(diag.len())
            .into_iter()
            .skip(1)
            .zip(fut.iter_mut().skip(4))
            .take(nx - 8)
        {
            let diff = diag.dot(&window);
            *f += diff * idx;
        }

        let last_elems = prev.slice(s!(nx - 7..;-1));
        for (bl, f) in block.outer_iter().zip(&mut fut.slice_mut(s![nx - 4..;-1])) {
            let diff = -bl.dot(&last_elems);
            *f += diff * idx;
        }
    }
}

#[test]
fn upwind4_test() {
    let nx = 20;
    let dx = 1.0 / (nx - 1) as f32;
    let mut source: ndarray::Array1<f32> = ndarray::Array1::zeros(nx);
    let mut res = ndarray::Array1::zeros(nx);
    let mut target = ndarray::Array1::zeros(nx);

    for i in 0..nx {
        source[i] = i as f32 * dx;
        target[i] = 1.0;
    }
    res.fill(0.0);
    Upwind4::diff(source.view(), res.view_mut());
    approx::assert_abs_diff_eq!(&res, &target, epsilon = 1e-4);

    for i in 0..nx {
        let x = i as f32 * dx;
        source[i] = x * x;
        target[i] = 2.0 * x;
    }
    res.fill(0.0);
    Upwind4::diff(source.view(), res.view_mut());
    approx::assert_abs_diff_eq!(&res, &target, epsilon = 1e-4);

    for i in 0..nx {
        let x = i as f32 * dx;
        source[i] = x * x * x;
        target[i] = 3.0 * x * x;
    }
    res.fill(0.0);
    Upwind4::diff(source.view(), res.view_mut());
    approx::assert_abs_diff_eq!(&res, &target, epsilon = 1e-2);
}

impl SbpOperator for Upwind4 {
    fn diffx(prev: ArrayView2<f32>, mut fut: ArrayViewMut2<f32>) {
        for (r0, r1) in prev.outer_iter().zip(fut.outer_iter_mut()) {
            Self::diff(r0, r1)
        }
    }

    fn diffy(prev: ArrayView2<f32>, fut: ArrayViewMut2<f32>) {
        // diffy = transpose then use diffx
        Self::diffx(prev.reversed_axes(), fut.reversed_axes());
    }

    fn h() -> &'static [f32] {
        Self::HBLOCK
    }
}