change sbp operators for dimensionality
This commit is contained in:
parent
85f3c46430
commit
1667eaaca0
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@ -1,14 +1,14 @@
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use criterion::{black_box, criterion_group, criterion_main, Criterion};
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use sbp::euler::System;
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use sbp::operators::{SbpOperator, Upwind4, UpwindOperator, SBP4};
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use sbp::operators::{SbpOperator2d, Upwind4, UpwindOperator2d, SBP4};
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fn advance_system<SBP: SbpOperator>(universe: &mut System<SBP>, n: usize) {
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fn advance_system<SBP: SbpOperator2d>(universe: &mut System<SBP>, n: usize) {
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for _ in 0..n {
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universe.advance(1.0 / 40.0 * 0.2);
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}
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}
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fn advance_system_upwind<UO: UpwindOperator>(universe: &mut System<UO>, n: usize) {
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fn advance_system_upwind<UO: UpwindOperator2d>(universe: &mut System<UO>, n: usize) {
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for _ in 0..n {
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universe.advance_upwind(1.0 / 40.0 * 0.2);
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}
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@ -1,15 +1,15 @@
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use criterion::{black_box, criterion_group, criterion_main, Criterion};
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use sbp::maxwell::System;
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use sbp::operators::{SbpOperator, Upwind4, UpwindOperator, SBP4};
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use sbp::operators::{SbpOperator2d, Upwind4, UpwindOperator2d, SBP4};
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use sbp::Float;
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fn advance_system<SBP: SbpOperator>(universe: &mut System<SBP>, n: usize) {
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fn advance_system<SBP: SbpOperator2d>(universe: &mut System<SBP>, n: usize) {
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for _ in 0..n {
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universe.advance(0.01);
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}
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}
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fn advance_system_upwind<UO: UpwindOperator>(universe: &mut System<UO>, n: usize) {
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fn advance_system_upwind<UO: UpwindOperator2d>(universe: &mut System<UO>, n: usize) {
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for _ in 0..n {
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universe.advance_upwind(0.01);
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}
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128
sbp/src/euler.rs
128
sbp/src/euler.rs
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@ -1,6 +1,6 @@
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use super::grid::{Grid, Metrics};
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use super::integrate;
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use super::operators::{InterpolationOperator, SbpOperator, UpwindOperator};
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use super::operators::{InterpolationOperator, SbpOperator2d, UpwindOperator2d};
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use super::Float;
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use ndarray::azip;
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use ndarray::prelude::*;
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@ -10,7 +10,7 @@ pub const GAMMA: Float = 1.4;
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// A collection of buffers that allows one to efficiently
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// move to the next state
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#[derive(Debug)]
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pub struct System<SBP: SbpOperator> {
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pub struct System<SBP: SbpOperator2d> {
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sys: (Field, Field),
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k: [Field; 4],
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wb: WorkBuffers,
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@ -18,12 +18,12 @@ pub struct System<SBP: SbpOperator> {
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op: SBP,
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}
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impl<SBP: SbpOperator> System<SBP> {
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impl<SBP: SbpOperator2d> System<SBP> {
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pub fn new(x: ndarray::Array2<Float>, y: ndarray::Array2<Float>, op: SBP) -> Self {
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let grid = Grid::new(x, y).expect(
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"Could not create grid. Different number of elements compared to width*height?",
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);
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let metrics = grid.metrics(op, op).unwrap();
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let metrics = grid.metrics(op).unwrap();
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let nx = grid.nx();
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let ny = grid.ny();
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Self {
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@ -51,7 +51,7 @@ impl<SBP: SbpOperator> System<SBP> {
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let rhs_trad = |k: &mut Field, y: &Field, _time: Float, gm: &(_, _), wb: &mut _| {
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let (grid, metrics) = gm;
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let boundaries = boundary_extractor(y, grid, &bc);
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RHS_trad((op, op), k, y, metrics, &boundaries, wb)
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RHS_trad(op, k, y, metrics, &boundaries, wb)
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};
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integrate::integrate::<integrate::Rk4, _, _, _, _>(
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rhs_trad,
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@ -100,7 +100,7 @@ impl<SBP: SbpOperator> System<SBP> {
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}
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}
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impl<UO: UpwindOperator> System<UO> {
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impl<UO: UpwindOperator2d> System<UO> {
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pub fn advance_upwind(&mut self, dt: Float) {
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let bc = BoundaryCharacteristics {
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north: BoundaryCharacteristic::This,
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@ -112,7 +112,7 @@ impl<UO: UpwindOperator> System<UO> {
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let rhs_upwind = |k: &mut Field, y: &Field, _time: Float, gm: &(_, _), wb: &mut _| {
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let (grid, metrics) = gm;
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let boundaries = boundary_extractor(y, grid, &bc);
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RHS_upwind((op, op), k, y, metrics, &boundaries, wb)
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RHS_upwind(op, k, y, metrics, &boundaries, wb)
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};
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integrate::integrate::<integrate::Rk4, _, _, _, _>(
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rhs_upwind,
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@ -272,11 +272,7 @@ impl Field {
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impl Field {
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/// sqrt((self-other)^T*H*(self-other))
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pub fn h2_err<SBPeta: SbpOperator, SBPxi: SbpOperator>(
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&self,
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(opeta, opxi): (SBPeta, SBPxi),
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other: &Self,
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) -> Float {
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pub fn h2_err<SBP: SbpOperator2d>(&self, op: SBP, other: &Self) -> Float {
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assert_eq!(self.nx(), other.nx());
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assert_eq!(self.ny(), other.ny());
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@ -297,9 +293,9 @@ impl Field {
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};
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let hxiterator = itermaker(
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opxi.h(),
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op.hxi(),
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self.nx(),
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if opxi.is_h2() {
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if op.is_h2xi() {
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1.0 / (self.nx() - 2) as Float
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} else {
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1.0 / (self.nx() - 1) as Float
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@ -310,9 +306,9 @@ impl Field {
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let hxiterator = hxiterator.cycle().take(self.nx() * self.ny());
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let hyiterator = itermaker(
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opeta.h(),
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op.heta(),
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self.ny(),
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1.0 / if opeta.is_h2() {
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1.0 / if op.is_h2eta() {
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(self.ny() - 2) as Float
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} else {
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(self.ny() - 1) as Float
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@ -410,8 +406,8 @@ fn pressure(gamma: Float, rho: Float, rhou: Float, rhov: Float, e: Float) -> Flo
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}
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#[allow(non_snake_case)]
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pub fn RHS_trad<SBPeta: SbpOperator, SBPxi: SbpOperator>(
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(opeta, opxi): (SBPeta, SBPxi),
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pub fn RHS_trad<SBP: SbpOperator2d>(
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op: SBP,
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k: &mut Field,
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y: &Field,
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metrics: &Metrics,
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@ -424,15 +420,15 @@ pub fn RHS_trad<SBPeta: SbpOperator, SBPxi: SbpOperator>(
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let dE = &mut tmp.2;
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let dF = &mut tmp.3;
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opxi.diffxi(ehat.rho(), dE.rho_mut());
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opxi.diffxi(ehat.rhou(), dE.rhou_mut());
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opxi.diffxi(ehat.rhov(), dE.rhov_mut());
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opxi.diffxi(ehat.e(), dE.e_mut());
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op.diffxi(ehat.rho(), dE.rho_mut());
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op.diffxi(ehat.rhou(), dE.rhou_mut());
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op.diffxi(ehat.rhov(), dE.rhov_mut());
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op.diffxi(ehat.e(), dE.e_mut());
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opeta.diffeta(fhat.rho(), dF.rho_mut());
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opeta.diffeta(fhat.rhou(), dF.rhou_mut());
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opeta.diffeta(fhat.rhov(), dF.rhov_mut());
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opeta.diffeta(fhat.e(), dF.e_mut());
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op.diffeta(fhat.rho(), dF.rho_mut());
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op.diffeta(fhat.rhou(), dF.rhou_mut());
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op.diffeta(fhat.rhov(), dF.rhov_mut());
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op.diffeta(fhat.e(), dF.e_mut());
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azip!((out in &mut k.0,
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eflux in &dE.0,
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@ -441,12 +437,12 @@ pub fn RHS_trad<SBPeta: SbpOperator, SBPxi: SbpOperator>(
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*out = (-eflux - fflux)/detj
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});
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SAT_characteristics((opeta, opxi), k, y, metrics, boundaries);
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SAT_characteristics(op, k, y, metrics, boundaries);
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}
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#[allow(non_snake_case)]
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pub fn RHS_upwind<UOeta: UpwindOperator, UOxi: UpwindOperator>(
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(opeta, opxi): (UOeta, UOxi),
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pub fn RHS_upwind<UO: UpwindOperator2d>(
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op: UO,
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k: &mut Field,
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y: &Field,
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metrics: &Metrics,
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@ -459,25 +455,19 @@ pub fn RHS_upwind<UOeta: UpwindOperator, UOxi: UpwindOperator>(
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let dE = &mut tmp.2;
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let dF = &mut tmp.3;
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opxi.diffxi(ehat.rho(), dE.rho_mut());
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opxi.diffxi(ehat.rhou(), dE.rhou_mut());
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opxi.diffxi(ehat.rhov(), dE.rhov_mut());
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opxi.diffxi(ehat.e(), dE.e_mut());
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op.diffxi(ehat.rho(), dE.rho_mut());
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op.diffxi(ehat.rhou(), dE.rhou_mut());
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op.diffxi(ehat.rhov(), dE.rhov_mut());
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op.diffxi(ehat.e(), dE.e_mut());
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opeta.diffeta(fhat.rho(), dF.rho_mut());
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opeta.diffeta(fhat.rhou(), dF.rhou_mut());
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opeta.diffeta(fhat.rhov(), dF.rhov_mut());
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opeta.diffeta(fhat.e(), dF.e_mut());
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op.diffeta(fhat.rho(), dF.rho_mut());
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op.diffeta(fhat.rhou(), dF.rhou_mut());
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op.diffeta(fhat.rhov(), dF.rhov_mut());
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op.diffeta(fhat.e(), dF.e_mut());
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let ad_xi = &mut tmp.4;
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let ad_eta = &mut tmp.5;
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upwind_dissipation(
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(opeta, opxi),
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(ad_xi, ad_eta),
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y,
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metrics,
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(&mut tmp.0, &mut tmp.1),
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);
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upwind_dissipation(op, (ad_xi, ad_eta), y, metrics, (&mut tmp.0, &mut tmp.1));
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azip!((out in &mut k.0,
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eflux in &dE.0,
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@ -488,12 +478,12 @@ pub fn RHS_upwind<UOeta: UpwindOperator, UOxi: UpwindOperator>(
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*out = (-eflux - fflux + ad_xi + ad_eta)/detj
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});
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SAT_characteristics((opeta, opxi), k, y, metrics, boundaries);
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SAT_characteristics(op, k, y, metrics, boundaries);
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}
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#[allow(clippy::many_single_char_names)]
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fn upwind_dissipation<UOeta: UpwindOperator, UOxi: UpwindOperator>(
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(opeta, opxi): (UOeta, UOxi),
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fn upwind_dissipation<UO: UpwindOperator2d>(
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op: UO,
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k: (&mut Field, &mut Field),
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y: &Field,
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metrics: &Metrics,
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@ -549,15 +539,15 @@ fn upwind_dissipation<UOeta: UpwindOperator, UOxi: UpwindOperator>(
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tmp1[3] = alpha_v * e * detj;
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}
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opxi.dissxi(tmp.0.rho(), k.0.rho_mut());
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opxi.dissxi(tmp.0.rhou(), k.0.rhou_mut());
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opxi.dissxi(tmp.0.rhov(), k.0.rhov_mut());
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opxi.dissxi(tmp.0.e(), k.0.e_mut());
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op.dissxi(tmp.0.rho(), k.0.rho_mut());
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op.dissxi(tmp.0.rhou(), k.0.rhou_mut());
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op.dissxi(tmp.0.rhov(), k.0.rhov_mut());
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op.dissxi(tmp.0.e(), k.0.e_mut());
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opeta.disseta(tmp.1.rho(), k.1.rho_mut());
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opeta.disseta(tmp.1.rhou(), k.1.rhou_mut());
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opeta.disseta(tmp.1.rhov(), k.1.rhov_mut());
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opeta.disseta(tmp.1.e(), k.1.e_mut());
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op.disseta(tmp.1.rho(), k.1.rho_mut());
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op.disseta(tmp.1.rhou(), k.1.rhou_mut());
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op.disseta(tmp.1.rhov(), k.1.rhov_mut());
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op.disseta(tmp.1.e(), k.1.e_mut());
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}
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fn fluxes(k: (&mut Field, &mut Field), y: &Field, metrics: &Metrics) {
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@ -853,8 +843,8 @@ fn vortexify(
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#[allow(non_snake_case)]
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/// Boundary conditions (SAT)
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fn SAT_characteristics<SBPeta: SbpOperator, SBPxi: SbpOperator>(
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(opeta, opxi): (SBPeta, SBPxi),
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fn SAT_characteristics<SBP: SbpOperator2d>(
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op: SBP,
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k: &mut Field,
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y: &Field,
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metrics: &Metrics,
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@ -862,10 +852,10 @@ fn SAT_characteristics<SBPeta: SbpOperator, SBPxi: SbpOperator>(
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) {
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// North boundary
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{
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let hi = if opeta.is_h2() {
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(k.ny() - 2) as Float / opeta.h()[0]
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let hi = if op.is_h2eta() {
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(k.ny() - 2) as Float / op.heta()[0]
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} else {
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(k.ny() - 1) as Float / opeta.h()[0]
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(k.ny() - 1) as Float / op.heta()[0]
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};
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let sign = -1.0;
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let tau = 1.0;
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@ -884,10 +874,10 @@ fn SAT_characteristics<SBPeta: SbpOperator, SBPxi: SbpOperator>(
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}
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// South boundary
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{
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let hi = if opeta.is_h2() {
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(k.ny() - 2) as Float / opeta.h()[0]
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let hi = if op.is_h2eta() {
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(k.ny() - 2) as Float / op.heta()[0]
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} else {
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(k.ny() - 1) as Float / opeta.h()[0]
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(k.ny() - 1) as Float / op.heta()[0]
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};
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let sign = 1.0;
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let tau = -1.0;
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@ -906,10 +896,10 @@ fn SAT_characteristics<SBPeta: SbpOperator, SBPxi: SbpOperator>(
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}
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// West Boundary
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{
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let hi = if opxi.is_h2() {
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(k.nx() - 2) as Float / opxi.h()[0]
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let hi = if op.is_h2xi() {
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(k.nx() - 2) as Float / op.hxi()[0]
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} else {
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(k.nx() - 1) as Float / opxi.h()[0]
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(k.nx() - 1) as Float / op.hxi()[0]
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};
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let sign = 1.0;
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let tau = -1.0;
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@ -928,10 +918,10 @@ fn SAT_characteristics<SBPeta: SbpOperator, SBPxi: SbpOperator>(
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}
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// East Boundary
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{
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let hi = if opxi.is_h2() {
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(k.nx() - 2) as Float / opxi.h()[0]
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let hi = if op.is_h2xi() {
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(k.nx() - 2) as Float / op.hxi()[0]
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} else {
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(k.nx() - 1) as Float / opxi.h()[0]
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(k.nx() - 1) as Float / op.hxi()[0]
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};
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let sign = -1.0;
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let tau = 1.0;
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@ -36,12 +36,11 @@ impl Grid {
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self.y.view()
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}
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pub fn metrics<SBPeta: super::operators::SbpOperator, SBPxi: super::operators::SbpOperator>(
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pub fn metrics<SBP: super::operators::SbpOperator2d>(
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&self,
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opeta: SBPeta,
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opxi: SBPxi,
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op: SBP,
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) -> Result<Metrics, ndarray::ShapeError> {
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Metrics::new(self, opeta, opxi)
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Metrics::new(self, op)
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}
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pub fn north(&self) -> (ndarray::ArrayView1<Float>, ndarray::ArrayView1<Float>) {
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@ -71,10 +70,9 @@ impl Grid {
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}
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impl Metrics {
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fn new<SBPeta: super::operators::SbpOperator, SBPxi: super::operators::SbpOperator>(
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fn new<SBP: super::operators::SbpOperator2d>(
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grid: &Grid,
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opeta: SBPeta,
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opxi: SBPxi,
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op: SBP,
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) -> Result<Self, ndarray::ShapeError> {
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let ny = grid.ny();
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let nx = grid.nx();
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@ -82,13 +80,13 @@ impl Metrics {
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let y = &grid.y;
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let mut dx_dxi = Array2::zeros((ny, nx));
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opxi.diffxi(x.view(), dx_dxi.view_mut());
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op.diffxi(x.view(), dx_dxi.view_mut());
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let mut dx_deta = Array2::zeros((ny, nx));
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opeta.diffeta(x.view(), dx_deta.view_mut());
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op.diffeta(x.view(), dx_deta.view_mut());
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let mut dy_dxi = Array2::zeros((ny, nx));
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opxi.diffxi(y.view(), dy_dxi.view_mut());
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op.diffxi(y.view(), dy_dxi.view_mut());
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let mut dy_deta = Array2::zeros((ny, nx));
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opeta.diffeta(y.view(), dy_deta.view_mut());
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op.diffeta(y.view(), dy_deta.view_mut());
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let mut detj = Array2::zeros((ny, nx));
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ndarray::azip!((detj in &mut detj,
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@ -1,6 +1,6 @@
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use super::grid::{Grid, Metrics};
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use super::integrate;
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use super::operators::{SbpOperator, UpwindOperator};
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use super::operators::{SbpOperator2d, UpwindOperator2d};
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use crate::Float;
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use ndarray::azip;
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use ndarray::prelude::*;
|
||||
|
@ -74,7 +74,7 @@ impl Field {
|
|||
}
|
||||
|
||||
#[derive(Debug, Clone)]
|
||||
pub struct System<SBP: SbpOperator> {
|
||||
pub struct System<SBP: SbpOperator2d> {
|
||||
sys: (Field, Field),
|
||||
wb: WorkBuffers,
|
||||
grid: Grid,
|
||||
|
@ -82,14 +82,14 @@ pub struct System<SBP: SbpOperator> {
|
|||
op: SBP,
|
||||
}
|
||||
|
||||
impl<SBP: SbpOperator> System<SBP> {
|
||||
impl<SBP: SbpOperator2d> System<SBP> {
|
||||
pub fn new(x: Array2<Float>, y: Array2<Float>, op: SBP) -> Self {
|
||||
assert_eq!(x.shape(), y.shape());
|
||||
let ny = x.shape()[0];
|
||||
let nx = x.shape()[1];
|
||||
|
||||
let grid = Grid::new(x, y).unwrap();
|
||||
let metrics = grid.metrics(op, op).unwrap();
|
||||
let metrics = grid.metrics(op).unwrap();
|
||||
|
||||
Self {
|
||||
op,
|
||||
|
@ -146,7 +146,7 @@ impl<SBP: SbpOperator> System<SBP> {
|
|||
}
|
||||
}
|
||||
|
||||
impl<UO: UpwindOperator> System<UO> {
|
||||
impl<UO: UpwindOperator2d> System<UO> {
|
||||
/// Using artificial dissipation with the upwind operator
|
||||
pub fn advance_upwind(&mut self, dt: Float) {
|
||||
let op = self.op;
|
||||
|
@ -205,7 +205,7 @@ fn gaussian(x: Float, x0: Float, y: Float, y0: Float) -> Float {
|
|||
/// where J is the grid determinant
|
||||
///
|
||||
/// This is used both in fluxes and SAT terms
|
||||
fn RHS<SBP: SbpOperator>(
|
||||
fn RHS<SBP: SbpOperator2d>(
|
||||
op: SBP,
|
||||
k: &mut Field,
|
||||
y: &Field,
|
||||
|
@ -230,7 +230,7 @@ fn RHS<SBP: SbpOperator>(
|
|||
}
|
||||
|
||||
#[allow(non_snake_case)]
|
||||
fn RHS_upwind<UO: UpwindOperator>(
|
||||
fn RHS_upwind<UO: UpwindOperator2d>(
|
||||
op: UO,
|
||||
k: &mut Field,
|
||||
y: &Field,
|
||||
|
@ -255,7 +255,7 @@ fn RHS_upwind<UO: UpwindOperator>(
|
|||
});
|
||||
}
|
||||
|
||||
fn fluxes<SBP: SbpOperator>(
|
||||
fn fluxes<SBP: super::operators::SbpOperator2d>(
|
||||
op: SBP,
|
||||
k: &mut Field,
|
||||
y: &Field,
|
||||
|
@ -330,7 +330,7 @@ fn fluxes<SBP: SbpOperator>(
|
|||
}
|
||||
}
|
||||
|
||||
fn dissipation<UO: UpwindOperator>(
|
||||
fn dissipation<UO: UpwindOperator2d>(
|
||||
op: UO,
|
||||
k: &mut Field,
|
||||
y: &Field,
|
||||
|
@ -432,7 +432,7 @@ pub struct BoundaryTerms {
|
|||
|
||||
#[allow(non_snake_case)]
|
||||
/// Boundary conditions (SAT)
|
||||
fn SAT_characteristics<SBP: SbpOperator>(
|
||||
fn SAT_characteristics<SBP: SbpOperator2d>(
|
||||
op: SBP,
|
||||
k: &mut Field,
|
||||
y: &Field,
|
||||
|
@ -464,10 +464,10 @@ fn SAT_characteristics<SBP: SbpOperator>(
|
|||
Boundary::This => y.slice(s![.., .., 0]),
|
||||
};
|
||||
// East boundary
|
||||
let hinv = if op.is_h2() {
|
||||
(nx - 2) as Float / op.h()[0]
|
||||
let hinv = if op.is_h2xi() {
|
||||
(nx - 2) as Float / op.hxi()[0]
|
||||
} else {
|
||||
(nx - 1) as Float / op.h()[0]
|
||||
(nx - 1) as Float / op.hxi()[0]
|
||||
};
|
||||
for ((((mut k, v), g), &kx), &ky) in k
|
||||
.slice_mut(s![.., .., nx - 1])
|
||||
|
@ -502,10 +502,10 @@ fn SAT_characteristics<SBP: SbpOperator>(
|
|||
let g = match boundaries.east {
|
||||
Boundary::This => y.slice(s![.., .., nx - 1]),
|
||||
};
|
||||
let hinv = if op.is_h2() {
|
||||
(nx - 2) as Float / op.h()[0]
|
||||
let hinv = if op.is_h2xi() {
|
||||
(nx - 2) as Float / op.hxi()[0]
|
||||
} else {
|
||||
(nx - 1) as Float / op.h()[0]
|
||||
(nx - 1) as Float / op.hxi()[0]
|
||||
};
|
||||
for ((((mut k, v), g), &kx), &ky) in k
|
||||
.slice_mut(s![.., .., 0])
|
||||
|
@ -545,10 +545,10 @@ fn SAT_characteristics<SBP: SbpOperator>(
|
|||
let g = match boundaries.north {
|
||||
Boundary::This => y.slice(s![.., 0, ..]),
|
||||
};
|
||||
let hinv = if op.is_h2() {
|
||||
(ny - 2) as Float / op.h()[0]
|
||||
let hinv = if op.is_h2eta() {
|
||||
(ny - 2) as Float / op.heta()[0]
|
||||
} else {
|
||||
(ny - 1) as Float / op.h()[0]
|
||||
(ny - 1) as Float / op.heta()[0]
|
||||
};
|
||||
for ((((mut k, v), g), &kx), &ky) in k
|
||||
.slice_mut(s![.., ny - 1, ..])
|
||||
|
@ -582,10 +582,10 @@ fn SAT_characteristics<SBP: SbpOperator>(
|
|||
let g = match boundaries.south {
|
||||
Boundary::This => y.slice(s![.., ny - 1, ..]),
|
||||
};
|
||||
let hinv = if op.is_h2() {
|
||||
(ny - 2) as Float / op.h()[0]
|
||||
let hinv = if op.is_h2eta() {
|
||||
(ny - 2) as Float / op.heta()[0]
|
||||
} else {
|
||||
(ny - 1) as Float / op.h()[0]
|
||||
(ny - 1) as Float / op.heta()[0]
|
||||
};
|
||||
for ((((mut k, v), g), &kx), &ky) in k
|
||||
.slice_mut(s![.., 0, ..])
|
||||
|
|
|
@ -2,32 +2,104 @@
|
|||
#![allow(clippy::unreadable_literal)]
|
||||
|
||||
use crate::Float;
|
||||
|
||||
use ndarray::{ArrayView1, ArrayView2, ArrayViewMut1, ArrayViewMut2};
|
||||
|
||||
pub trait SbpOperator: Send + Sync + Copy {
|
||||
fn diff1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>);
|
||||
fn diffxi(&self, prev: ArrayView2<Float>, mut fut: ArrayViewMut2<Float>) {
|
||||
assert_eq!(prev.shape(), fut.shape());
|
||||
for (r0, r1) in prev.outer_iter().zip(fut.outer_iter_mut()) {
|
||||
self.diff1d(r0, r1);
|
||||
}
|
||||
}
|
||||
fn diffeta(&self, prev: ArrayView2<Float>, fut: ArrayViewMut2<Float>) {
|
||||
self.diffxi(prev.reversed_axes(), fut.reversed_axes())
|
||||
}
|
||||
pub trait SbpOperator1d: Copy + Clone + core::fmt::Debug {
|
||||
fn diff(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>);
|
||||
|
||||
fn h(&self) -> &'static [Float];
|
||||
fn is_h2(&self) -> bool {
|
||||
false
|
||||
}
|
||||
}
|
||||
|
||||
pub trait UpwindOperator: SbpOperator {
|
||||
fn diss1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>);
|
||||
pub trait SbpOperator2d: Copy + Clone {
|
||||
fn diffxi(&self, prev: ArrayView2<Float>, fut: ArrayViewMut2<Float>);
|
||||
fn diffeta(&self, prev: ArrayView2<Float>, fut: ArrayViewMut2<Float>);
|
||||
|
||||
fn hxi(&self) -> &'static [Float];
|
||||
fn heta(&self) -> &'static [Float];
|
||||
|
||||
fn is_h2xi(&self) -> bool;
|
||||
fn is_h2eta(&self) -> bool;
|
||||
}
|
||||
|
||||
impl<SBPeta: SbpOperator1d, SBPxi: SbpOperator1d> SbpOperator2d for (SBPeta, SBPxi) {
|
||||
fn diffxi(&self, prev: ArrayView2<Float>, mut fut: ArrayViewMut2<Float>) {
|
||||
assert_eq!(prev.shape(), fut.shape());
|
||||
for (r0, r1) in prev.outer_iter().zip(fut.outer_iter_mut()) {
|
||||
self.1.diff(r0, r1)
|
||||
}
|
||||
}
|
||||
fn diffeta(&self, prev: ArrayView2<Float>, fut: ArrayViewMut2<Float>) {
|
||||
let ba = (self.1, self.0);
|
||||
ba.diffxi(prev.reversed_axes(), fut.reversed_axes())
|
||||
}
|
||||
fn hxi(&self) -> &'static [Float] {
|
||||
self.1.h()
|
||||
}
|
||||
fn heta(&self) -> &'static [Float] {
|
||||
self.0.h()
|
||||
}
|
||||
fn is_h2xi(&self) -> bool {
|
||||
self.1.is_h2()
|
||||
}
|
||||
fn is_h2eta(&self) -> bool {
|
||||
self.0.is_h2()
|
||||
}
|
||||
}
|
||||
|
||||
impl<SBP: SbpOperator1d> SbpOperator2d for SBP {
|
||||
fn diffxi(&self, prev: ArrayView2<Float>, mut fut: ArrayViewMut2<Float>) {
|
||||
assert_eq!(prev.shape(), fut.shape());
|
||||
for (r0, r1) in prev.outer_iter().zip(fut.outer_iter_mut()) {
|
||||
self.diff(r0, r1)
|
||||
}
|
||||
}
|
||||
fn diffeta(&self, prev: ArrayView2<Float>, fut: ArrayViewMut2<Float>) {
|
||||
self.diffxi(prev.reversed_axes(), fut.reversed_axes())
|
||||
}
|
||||
fn hxi(&self) -> &'static [Float] {
|
||||
self.h()
|
||||
}
|
||||
fn heta(&self) -> &'static [Float] {
|
||||
self.h()
|
||||
}
|
||||
fn is_h2xi(&self) -> bool {
|
||||
self.is_h2()
|
||||
}
|
||||
fn is_h2eta(&self) -> bool {
|
||||
self.is_h2()
|
||||
}
|
||||
}
|
||||
|
||||
pub trait UpwindOperator1d: SbpOperator1d + Copy + Clone {
|
||||
fn diss(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>);
|
||||
}
|
||||
|
||||
pub trait UpwindOperator2d: SbpOperator2d + Copy + Clone {
|
||||
fn dissxi(&self, prev: ArrayView2<Float>, fut: ArrayViewMut2<Float>);
|
||||
fn disseta(&self, prev: ArrayView2<Float>, fut: ArrayViewMut2<Float>);
|
||||
}
|
||||
|
||||
impl<UOeta: UpwindOperator1d, UOxi: UpwindOperator1d> UpwindOperator2d for (UOeta, UOxi) {
|
||||
fn dissxi(&self, prev: ArrayView2<Float>, mut fut: ArrayViewMut2<Float>) {
|
||||
assert_eq!(prev.shape(), fut.shape());
|
||||
for (r0, r1) in prev.outer_iter().zip(fut.outer_iter_mut()) {
|
||||
self.diss1d(r0, r1);
|
||||
self.1.diss(r0, r1);
|
||||
}
|
||||
}
|
||||
fn disseta(&self, prev: ArrayView2<Float>, fut: ArrayViewMut2<Float>) {
|
||||
let ba = (self.1, self.0);
|
||||
ba.dissxi(prev.reversed_axes(), fut.reversed_axes())
|
||||
}
|
||||
}
|
||||
|
||||
impl<UO: UpwindOperator1d> UpwindOperator2d for UO {
|
||||
fn dissxi(&self, prev: ArrayView2<Float>, mut fut: ArrayViewMut2<Float>) {
|
||||
assert_eq!(prev.shape(), fut.shape());
|
||||
for (r0, r1) in prev.outer_iter().zip(fut.outer_iter_mut()) {
|
||||
self.diss(r0, r1);
|
||||
}
|
||||
}
|
||||
fn disseta(&self, prev: ArrayView2<Float>, fut: ArrayViewMut2<Float>) {
|
||||
|
@ -140,7 +212,7 @@ pub(crate) mod testing {
|
|||
dfdy: FY,
|
||||
eps: Float,
|
||||
) where
|
||||
SBP: SbpOperator,
|
||||
SBP: SbpOperator2d,
|
||||
F: Fn(Float, Float) -> Float,
|
||||
FX: Fn(Float, Float) -> Float,
|
||||
FY: Fn(Float, Float) -> Float,
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
use super::SbpOperator;
|
||||
use super::*;
|
||||
use crate::Float;
|
||||
use ndarray::{ArrayView1, ArrayViewMut1};
|
||||
|
||||
|
@ -23,8 +23,8 @@ impl SBP4 {
|
|||
];
|
||||
}
|
||||
|
||||
impl SbpOperator for SBP4 {
|
||||
fn diff1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl SbpOperator1d for SBP4 {
|
||||
fn diff(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::BLOCK).view(),
|
||||
ndarray::arr1(Self::DIAG).view(),
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
use super::SbpOperator;
|
||||
use super::*;
|
||||
use crate::Float;
|
||||
use ndarray::{ArrayView1, ArrayViewMut1};
|
||||
|
||||
|
@ -27,8 +27,8 @@ impl SBP8 {
|
|||
];
|
||||
}
|
||||
|
||||
impl SbpOperator for SBP8 {
|
||||
fn diff1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl SbpOperator1d for SBP8 {
|
||||
fn diff(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::BLOCK).view(),
|
||||
ndarray::arr1(Self::DIAG).view(),
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
use super::{SbpOperator, UpwindOperator};
|
||||
use super::*;
|
||||
use crate::Float;
|
||||
use ndarray::{ArrayView1, ArrayView2, ArrayViewMut1, ArrayViewMut2, Axis};
|
||||
|
||||
|
@ -275,8 +275,8 @@ impl Upwind4 {
|
|||
];
|
||||
}
|
||||
|
||||
impl SbpOperator for Upwind4 {
|
||||
fn diff1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl SbpOperator1d for Upwind4 {
|
||||
fn diff(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::BLOCK).view(),
|
||||
ndarray::arr1(Self::DIAG).view(),
|
||||
|
@ -286,6 +286,12 @@ impl SbpOperator for Upwind4 {
|
|||
fut,
|
||||
)
|
||||
}
|
||||
fn h(&self) -> &'static [Float] {
|
||||
Self::HBLOCK
|
||||
}
|
||||
}
|
||||
|
||||
/*
|
||||
fn diffxi(&self, prev: ArrayView2<Float>, mut fut: ArrayViewMut2<Float>) {
|
||||
assert_eq!(prev.shape(), fut.shape());
|
||||
assert!(prev.shape()[1] >= 2 * Self::BLOCK.len());
|
||||
|
@ -307,10 +313,8 @@ impl SbpOperator for Upwind4 {
|
|||
}
|
||||
}
|
||||
|
||||
fn h(&self) -> &'static [Float] {
|
||||
Self::HBLOCK
|
||||
}
|
||||
}
|
||||
*/
|
||||
|
||||
#[test]
|
||||
fn upwind4_test() {
|
||||
|
@ -326,7 +330,7 @@ fn upwind4_test() {
|
|||
target[i] = 1.0;
|
||||
}
|
||||
res.fill(0.0);
|
||||
Upwind4.diff1d(source.view(), res.view_mut());
|
||||
Upwind4.diff(source.view(), res.view_mut());
|
||||
approx::assert_abs_diff_eq!(&res, &target, epsilon = 1e-4);
|
||||
{
|
||||
let source = source.to_owned().insert_axis(ndarray::Axis(0));
|
||||
|
@ -352,7 +356,7 @@ fn upwind4_test() {
|
|||
target[i] = 2.0 * x;
|
||||
}
|
||||
res.fill(0.0);
|
||||
Upwind4.diff1d(source.view(), res.view_mut());
|
||||
Upwind4.diff(source.view(), res.view_mut());
|
||||
approx::assert_abs_diff_eq!(&res, &target, epsilon = 1e-4);
|
||||
{
|
||||
let source = source.to_owned().insert_axis(ndarray::Axis(0));
|
||||
|
@ -378,7 +382,7 @@ fn upwind4_test() {
|
|||
target[i] = 3.0 * x * x;
|
||||
}
|
||||
res.fill(0.0);
|
||||
Upwind4.diff1d(source.view(), res.view_mut());
|
||||
Upwind4.diff(source.view(), res.view_mut());
|
||||
approx::assert_abs_diff_eq!(&res, &target, epsilon = 1e-2);
|
||||
|
||||
{
|
||||
|
@ -400,8 +404,8 @@ fn upwind4_test() {
|
|||
}
|
||||
}
|
||||
|
||||
impl UpwindOperator for Upwind4 {
|
||||
fn diss1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl UpwindOperator1d for Upwind4 {
|
||||
fn diss(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::DISS_BLOCK).view(),
|
||||
ndarray::arr1(Self::DISS_DIAG).view(),
|
||||
|
@ -411,6 +415,9 @@ impl UpwindOperator for Upwind4 {
|
|||
fut,
|
||||
)
|
||||
}
|
||||
}
|
||||
|
||||
/*
|
||||
fn dissxi(&self, prev: ArrayView2<Float>, mut fut: ArrayViewMut2<Float>) {
|
||||
assert_eq!(prev.shape(), fut.shape());
|
||||
assert!(prev.shape()[1] >= 2 * Self::BLOCK.len());
|
||||
|
@ -432,6 +439,7 @@ impl UpwindOperator for Upwind4 {
|
|||
}
|
||||
}
|
||||
}
|
||||
*/
|
||||
|
||||
#[test]
|
||||
fn upwind4_test2() {
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
use super::{SbpOperator, UpwindOperator};
|
||||
use super::*;
|
||||
use crate::Float;
|
||||
use ndarray::{ArrayView1, ArrayViewMut1};
|
||||
|
||||
|
@ -36,8 +36,8 @@ impl Upwind4h2 {
|
|||
];
|
||||
}
|
||||
|
||||
impl SbpOperator for Upwind4h2 {
|
||||
fn diff1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl SbpOperator1d for Upwind4h2 {
|
||||
fn diff(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::BLOCK).view(),
|
||||
ndarray::arr1(Self::DIAG).view(),
|
||||
|
@ -64,25 +64,25 @@ fn upwind4h2_test() {
|
|||
|
||||
let mut res = ndarray::Array1::zeros(nx);
|
||||
|
||||
Upwind4h2.diff1d(x.view(), res.view_mut());
|
||||
Upwind4h2.diff(x.view(), res.view_mut());
|
||||
let ans = &x * 0.0 + 1.0;
|
||||
approx::assert_abs_diff_eq!(&res, &ans, epsilon = 1e-4);
|
||||
|
||||
res.fill(0.0);
|
||||
let y = &x * &x / 2.0;
|
||||
Upwind4h2.diff1d(y.view(), res.view_mut());
|
||||
Upwind4h2.diff(y.view(), res.view_mut());
|
||||
let ans = &x;
|
||||
approx::assert_abs_diff_eq!(&res, &ans, epsilon = 1e-4);
|
||||
|
||||
res.fill(0.0);
|
||||
let y = &x * &x * &x / 3.0;
|
||||
Upwind4h2.diff1d(y.view(), res.view_mut());
|
||||
Upwind4h2.diff(y.view(), res.view_mut());
|
||||
let ans = &x * &x;
|
||||
approx::assert_abs_diff_eq!(&res, &ans, epsilon = 1e-2);
|
||||
}
|
||||
|
||||
impl UpwindOperator for Upwind4h2 {
|
||||
fn diss1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl UpwindOperator1d for Upwind4h2 {
|
||||
fn diss(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::DISS_BLOCK).view(),
|
||||
ndarray::arr1(Self::DISS_DIAG).view(),
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
use super::{SbpOperator, UpwindOperator};
|
||||
use super::*;
|
||||
use crate::Float;
|
||||
use ndarray::{ArrayView1, ArrayViewMut1};
|
||||
|
||||
|
@ -44,8 +44,8 @@ impl Upwind9 {
|
|||
];
|
||||
}
|
||||
|
||||
impl SbpOperator for Upwind9 {
|
||||
fn diff1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl SbpOperator1d for Upwind9 {
|
||||
fn diff(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::BLOCK).view(),
|
||||
ndarray::arr1(Self::DIAG).view(),
|
||||
|
@ -61,8 +61,8 @@ impl SbpOperator for Upwind9 {
|
|||
}
|
||||
}
|
||||
|
||||
impl UpwindOperator for Upwind9 {
|
||||
fn diss1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl UpwindOperator1d for Upwind9 {
|
||||
fn diss(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::DISS_BLOCK).view(),
|
||||
ndarray::arr1(Self::DISS_DIAG).view(),
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
use super::{SbpOperator, UpwindOperator};
|
||||
use super::*;
|
||||
use crate::Float;
|
||||
use ndarray::{ArrayView1, ArrayViewMut1};
|
||||
|
||||
|
@ -44,8 +44,8 @@ impl Upwind9h2 {
|
|||
];
|
||||
}
|
||||
|
||||
impl SbpOperator for Upwind9h2 {
|
||||
fn diff1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl SbpOperator1d for Upwind9h2 {
|
||||
fn diff(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::BLOCK).view(),
|
||||
ndarray::arr1(Self::DIAG).view(),
|
||||
|
@ -72,25 +72,25 @@ fn upwind9h2_test() {
|
|||
|
||||
let mut res = ndarray::Array1::zeros(nx);
|
||||
|
||||
Upwind9h2.diff1d(x.view(), res.view_mut());
|
||||
Upwind9h2.diff(x.view(), res.view_mut());
|
||||
let ans = &x * 0.0 + 1.0;
|
||||
approx::assert_abs_diff_eq!(&res, &ans, epsilon = 1e-4);
|
||||
|
||||
res.fill(0.0);
|
||||
let y = &x * &x / 2.0;
|
||||
Upwind9h2.diff1d(y.view(), res.view_mut());
|
||||
Upwind9h2.diff(y.view(), res.view_mut());
|
||||
let ans = &x;
|
||||
approx::assert_abs_diff_eq!(&res, &ans, epsilon = 1e-4);
|
||||
|
||||
res.fill(0.0);
|
||||
let y = &x * &x * &x / 3.0;
|
||||
Upwind9h2.diff1d(y.view(), res.view_mut());
|
||||
Upwind9h2.diff(y.view(), res.view_mut());
|
||||
let ans = &x * &x;
|
||||
approx::assert_abs_diff_eq!(&res, &ans, epsilon = 1e-2);
|
||||
}
|
||||
|
||||
impl UpwindOperator for Upwind9h2 {
|
||||
fn diss1d(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
impl UpwindOperator1d for Upwind9h2 {
|
||||
fn diss(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>) {
|
||||
super::diff_op_1d(
|
||||
ndarray::arr2(Self::DISS_BLOCK).view(),
|
||||
ndarray::arr1(Self::DISS_DIAG).view(),
|
||||
|
|
Loading…
Reference in New Issue