SummationByParts/sbp/src/grid.rs

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use super::operators::SbpOperator2d;
use crate::Float;
use ndarray::{Array2, ArrayView2};
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#[derive(Debug, Clone)]
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pub struct Grid {
pub(crate) x: Array2<Float>,
pub(crate) y: Array2<Float>,
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}
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#[derive(Debug, Clone)]
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pub struct Metrics {
pub(crate) detj: Array2<Float>,
pub(crate) detj_dxi_dx: Array2<Float>,
pub(crate) detj_dxi_dy: Array2<Float>,
pub(crate) detj_deta_dx: Array2<Float>,
pub(crate) detj_deta_dy: Array2<Float>,
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}
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impl Grid {
pub fn new(x: Array2<Float>, y: Array2<Float>) -> Result<Self, ndarray::ShapeError> {
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assert_eq!(x.shape(), y.shape());
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Ok(Self { x, y })
}
pub fn nx(&self) -> usize {
self.x.shape()[1]
}
pub fn ny(&self) -> usize {
self.x.shape()[0]
}
pub fn x(&self) -> ndarray::ArrayView2<Float> {
self.x.view()
}
pub fn y(&self) -> ndarray::ArrayView2<Float> {
self.y.view()
}
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pub fn metrics(&self, op: &dyn SbpOperator2d) -> Result<Metrics, ndarray::ShapeError> {
Metrics::new(self, op)
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}
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pub fn north(&self) -> (ndarray::ArrayView1<Float>, ndarray::ArrayView1<Float>) {
(
self.y.slice(ndarray::s![self.ny() - 1, ..]),
self.x.slice(ndarray::s![self.ny() - 1, ..]),
)
}
pub fn south(&self) -> (ndarray::ArrayView1<Float>, ndarray::ArrayView1<Float>) {
(
self.y.slice(ndarray::s![0, ..]),
self.x.slice(ndarray::s![0, ..]),
)
}
pub fn west(&self) -> (ndarray::ArrayView1<Float>, ndarray::ArrayView1<Float>) {
(
self.y.slice(ndarray::s![.., 0]),
self.x.slice(ndarray::s![.., 0]),
)
}
pub fn east(&self) -> (ndarray::ArrayView1<Float>, ndarray::ArrayView1<Float>) {
(
self.y.slice(ndarray::s![.., self.nx() - 1]),
self.x.slice(ndarray::s![.., self.nx() - 1]),
)
}
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}
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impl Metrics {
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fn new(grid: &Grid, op: &dyn SbpOperator2d) -> Result<Self, ndarray::ShapeError> {
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let ny = grid.ny();
let nx = grid.nx();
let x = &grid.x;
let y = &grid.y;
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let mut dx_dxi = Array2::zeros((ny, nx));
op.diffxi(x.view(), dx_dxi.view_mut());
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let mut dx_deta = Array2::zeros((ny, nx));
op.diffeta(x.view(), dx_deta.view_mut());
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let mut dy_dxi = Array2::zeros((ny, nx));
op.diffxi(y.view(), dy_dxi.view_mut());
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let mut dy_deta = Array2::zeros((ny, nx));
op.diffeta(y.view(), dy_deta.view_mut());
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let mut detj = Array2::zeros((ny, nx));
ndarray::azip!((detj in &mut detj,
&dx_dxi in &dx_dxi,
&dx_deta in &dx_deta,
&dy_dxi in &dy_dxi,
&dy_deta in &dy_deta) {
*detj = dx_dxi * dy_deta - dx_deta * dy_dxi;
assert!(*detj > 0.0);
});
let detj_dxi_dx = dy_deta;
let detj_dxi_dy = {
let mut dx_deta = dx_deta;
dx_deta.mapv_inplace(|v| -v);
dx_deta
};
let detj_deta_dx = {
let mut dy_dxi = dy_dxi;
dy_dxi.mapv_inplace(|v| -v);
dy_dxi
};
let detj_deta_dy = dx_dxi;
Ok(Self {
detj,
detj_dxi_dx,
detj_dxi_dy,
detj_deta_dx,
detj_deta_dy,
})
}
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pub fn nx(&self) -> usize {
self.detj.shape()[1]
}
pub fn ny(&self) -> usize {
self.detj.shape()[0]
}
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}
impl Metrics {
pub fn detj(&self) -> ArrayView2<Float> {
self.detj.view()
}
pub fn detj_dxi_dx(&self) -> ArrayView2<Float> {
self.detj_dxi_dx.view()
}
pub fn detj_dxi_dy(&self) -> ArrayView2<Float> {
self.detj_dxi_dy.view()
}
pub fn detj_deta_dx(&self) -> ArrayView2<Float> {
self.detj_deta_dx.view()
}
pub fn detj_deta_dy(&self) -> ArrayView2<Float> {
self.detj_deta_dy.view()
}
}