Simplify vortex using Evaluator trait
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@ -7,9 +7,9 @@ use sbp::utils::Direction;
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use sbp::Float;
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pub mod eval;
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use eval::Evaluator;
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mod vortex;
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pub use vortex::{vortex, VortexParameters, Vortice};
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pub use vortex::{VortexParameters, Vortice};
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pub const GAMMA: Float = 1.4;
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@ -320,23 +320,8 @@ impl Field {
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time: Float,
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vortex_param: &VortexParameters,
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) {
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assert_eq!(x.shape(), y.shape());
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assert_eq!(x.shape()[1], self.nx());
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assert_eq!(x.shape()[0], self.ny());
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let (rho, rhou, rhov, e) = self.components_mut();
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let n = rho.len();
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vortex(
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rho.into_shape((n,)).unwrap(),
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rhou.into_shape((n,)).unwrap(),
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rhov.into_shape((n,)).unwrap(),
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e.into_shape((n,)).unwrap(),
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x.into_shape((n,)).unwrap(),
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y.into_shape((n,)).unwrap(),
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time,
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&vortex_param,
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)
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vortex_param.evaluate(time, x, y, rho, rhou, rhov, e)
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}
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fn iter(&self) -> impl ExactSizeIterator<Item = FieldValue> + '_ {
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let n = self.nx() * self.ny();
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@ -949,7 +934,7 @@ fn vortexify(
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fiter.next().unwrap(),
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);
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let (y, x) = yx;
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vortex(rho, rhou, rhov, e, x, y, time, &vparams);
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vparams.evaluate(time, x, y, rho, rhou, rhov, e)
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}
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#[allow(non_snake_case)]
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@ -20,52 +20,71 @@ pub struct VortexParameters {
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pub mach: Float,
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}
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#[allow(clippy::too_many_arguments)]
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#[allow(clippy::many_single_char_names)]
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pub fn vortex(
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rho: ArrayViewMut1<Float>,
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rhou: ArrayViewMut1<Float>,
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rhov: ArrayViewMut1<Float>,
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e: ArrayViewMut1<Float>,
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x: ArrayView1<Float>,
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y: ArrayView1<Float>,
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time: Float,
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vortex_param: &VortexParameters,
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) {
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assert_eq!(rho.len(), rhou.len());
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assert_eq!(rho.len(), rhov.len());
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assert_eq!(rho.len(), e.len());
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assert_eq!(rho.len(), x.len());
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assert_eq!(rho.len(), y.len());
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assert_eq!(x.shape(), y.shape());
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impl<D: Dimension> eval::Evaluator<D> for VortexParameters {
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#[allow(clippy::too_many_arguments)]
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#[allow(clippy::many_single_char_names)]
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fn evaluate(
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&self,
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time: Float,
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x: ArrayView<Float, D>,
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y: ArrayView<Float, D>,
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rho: ArrayViewMut<Float, D>,
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rhou: ArrayViewMut<Float, D>,
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rhov: ArrayViewMut<Float, D>,
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e: ArrayViewMut<Float, D>,
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) {
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let m = self.mach;
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let p_inf = 1.0 / (GAMMA * m * m);
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let m = vortex_param.mach;
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let p_inf = 1.0 / (GAMMA * m * m);
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let rho_inf: Float = 1.0;
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let u_inf: Float = 1.0;
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let v_inf: Float = 0.0;
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let e_inf = p_inf / (GAMMA - 1.0) + rho_inf * (u_inf.powi(2) + v_inf.powi(2)) / 2.0;
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let rho_inf: Float = 1.0;
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let u_inf: Float = 1.0;
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let v_inf: Float = 0.0;
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let e_inf = p_inf / (GAMMA - 1.0) + rho_inf * (u_inf.powi(2) + v_inf.powi(2)) / 2.0;
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azip!((rho in rho,
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rhou in rhou,
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rhov in rhov,
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e in e,
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x in x,
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y in y)
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{
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azip!((rho in rho,
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rhou in rhou,
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rhov in rhov,
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e in e,
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x in x,
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y in y)
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{
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let mut iterator = self.vortices.iter();
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let mut iterator = vortex_param.vortices.iter();
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match iterator.next() {
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None => {
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*rho = rho_inf;
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*rhou = rho_inf*u_inf;
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*rhou = rho_inf*v_inf;
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*e = e_inf;
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return;
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},
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Some(vortice) => {
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use sbp::consts::PI;
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match iterator.next() {
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None => {
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*rho = rho_inf;
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*rhou = rho_inf*u_inf;
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*rhou = rho_inf*v_inf;
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*e = e_inf;
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return;
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},
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Some(vortice) => {
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let rstar = vortice.rstar;
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let eps = vortice.eps;
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let dx = (x - vortice.x0) - time;
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let dy = y - vortice.y0;
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let f = (1.0 - (dx*dx + dy*dy))/(rstar*rstar);
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*rho = Float::powf(1.0 - eps*eps*(GAMMA - 1.0)*m*m/(8.0*PI*PI*p_inf*rstar*rstar)*f.exp(), 1.0/(GAMMA - 1.0));
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assert!(*rho > 0.0);
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let p = Float::powf(*rho, GAMMA)*p_inf;
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let u = 1.0 - eps*dy/(2.0*PI*p_inf.sqrt()*rstar*rstar)*(f/2.0).exp();
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let v = eps*dx/(2.0*PI*p_inf.sqrt()*rstar*rstar)*(f/2.0).exp();
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assert!(p > 0.0);
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assert!(*rho > 0.0);
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*rhou = *rho*u;
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*rhov = *rho*v;
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*e = p/(GAMMA - 1.0) + *rho*(u*u + v*v)/2.0;
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}
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}
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for vortice in iterator {
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use sbp::consts::PI;
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let rstar = vortice.rstar;
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@ -75,44 +94,20 @@ pub fn vortex(
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let dy = y - vortice.y0;
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let f = (1.0 - (dx*dx + dy*dy))/(rstar*rstar);
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*rho = Float::powf(1.0 - eps*eps*(GAMMA - 1.0)*m*m/(8.0*PI*PI*p_inf*rstar*rstar)*f.exp(), 1.0/(GAMMA - 1.0));
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assert!(*rho > 0.0);
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let p = Float::powf(*rho, GAMMA)*p_inf;
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let rho_vortice = Float::powf(1.0 - eps*eps*(GAMMA - 1.0)*m*m/(8.0*PI*PI*p_inf*rstar*rstar)*f.exp(), 1.0/(GAMMA - 1.0));
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let p = Float::powf(rho_vortice, GAMMA)*p_inf;
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let u = 1.0 - eps*dy/(2.0*PI*p_inf.sqrt()*rstar*rstar)*(f/2.0).exp();
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let v = eps*dx/(2.0*PI*p_inf.sqrt()*rstar*rstar)*(f/2.0).exp();
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assert!(rho_vortice > 0.0);
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assert!(p > 0.0);
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*rho += rho_vortice - rho_inf;
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assert!(*rho > 0.0);
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*rhou = *rho*u;
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*rhov = *rho*v;
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*e = p/(GAMMA - 1.0) + *rho*(u*u + v*v)/2.0;
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*rhou += rho_vortice*u - rho_inf*u_inf;
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*rhov += rho_vortice*v - rho_inf*v_inf;
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*e += (p/(GAMMA - 1.0) + rho_vortice*(u*u + v*v)/2.0) - e_inf;
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}
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}
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for vortice in iterator {
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use sbp::consts::PI;
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let rstar = vortice.rstar;
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let eps = vortice.eps;
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let dx = (x - vortice.x0) - time;
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let dy = y - vortice.y0;
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let f = (1.0 - (dx*dx + dy*dy))/(rstar*rstar);
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let rho_vortice = Float::powf(1.0 - eps*eps*(GAMMA - 1.0)*m*m/(8.0*PI*PI*p_inf*rstar*rstar)*f.exp(), 1.0/(GAMMA - 1.0));
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let p = Float::powf(rho_vortice, GAMMA)*p_inf;
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let u = 1.0 - eps*dy/(2.0*PI*p_inf.sqrt()*rstar*rstar)*(f/2.0).exp();
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let v = eps*dx/(2.0*PI*p_inf.sqrt()*rstar*rstar)*(f/2.0).exp();
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assert!(rho_vortice > 0.0);
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assert!(p > 0.0);
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*rho += rho_vortice - rho_inf;
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assert!(*rho > 0.0);
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*rhou += rho_vortice*u - rho_inf*u_inf;
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*rhov += rho_vortice*v - rho_inf*v_inf;
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*e += (p/(GAMMA - 1.0) + rho_vortice*(u*u + v*v)/2.0) - e_inf;
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}
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});
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});
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}
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}
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