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change json format

This commit is contained in:
Magnus Ulimoen 2020-04-15 23:58:39 +02:00
parent ec9dc79704
commit 41935728e1
7 changed files with 506 additions and 498 deletions
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84
multigrid/quad.json
View File

@ -1,42 +1,52 @@
{
"grids": [
{
"name": "grid0",
"x": "linspace:-5:0:50",
"y": "linspace:0:5:50",
"dirS": "grid1",
"dirN": "grid1",
"dirE": "grid3",
"dirW": "grid3"
},
{
"name": "grid1",
"x": "linspace:-5:0:50",
"y": "linspace:-5:0:50",
"dirS": "grid0",
"dirN": "grid0",
"dirE": "grid2",
"dirW": "grid2"
},
{
"name": "grid2",
"x": "linspace:0:5:50",
"y": "linspace:-5:0:50",
"dirS": "grid3",
"dirN": "grid3",
"dirE": "grid1",
"dirW": "grid1"
},
{
"name": "grid3",
"x": "linspace:0:5:50",
"y": "linspace:0:5:50",
"dirS": "grid2",
"dirN": "grid2",
"dirE": "grid0",
"dirW": "grid0"
"grids": {
"default": {
"operators": {
"xi": "upwind9",
"eta": "upwind9"
}
],
},
"grid0": {
"x": "linspace:-5:0:50",
"y": "linspace:0:5:50",
"boundary_conditions": {
"south": "grid1",
"north": "grid1",
"east": "grid3",
"west": "grid3"
}
},
"grid1": {
"x": "linspace:-5:0:50",
"y": "linspace:-5:0:50",
"boundary_conditions": {
"south": "grid0",
"north": "grid0",
"east": "grid2",
"west": "grid2"
}
},
"grid2": {
"x": "linspace:0:5:50",
"y": "linspace:-5:0:50",
"boundary_conditions": {
"south": "grid3",
"north": "grid3",
"east": "grid1",
"west": "grid1"
}
},
"grid3": {
"x": "linspace:0:5:50",
"y": "linspace:0:5:50",
"boundary_conditions": {
"south": "grid2",
"north": "grid2",
"east": "grid0",
"west": "grid0"
}
}
},
"integration_time": 2.0,
"vortex": {
"x0": -1.0,

302
multigrid/sedecim.json
View File

@ -1,150 +1,166 @@
{
"grids": [
{
"name": "grid00",
"grids": {
"grid00": {
"x": "linspace:-5:-2.5:128",
"y": "linspace:2.5:5:128",
"dirS": "grid01",
"dirN": "grid11",
"dirE": "grid03",
"dirW": "grid33"
},
{
"name": "grid01",
"x": "linspace:-5:-2.5:128",
"y": "linspace:0:2.5:128",
"dirS": "grid10",
"dirN": "grid00",
"dirE": "grid02",
"dirW": "grid32"
},
{
"name": "grid02",
"x": "linspace:-2.5:0:128",
"y": "linspace:0:2.5:128",
"dirS": "grid13",
"dirN": "grid03",
"dirE": "grid31",
"dirW": "grid01"
},
{
"name": "grid03",
"x": "linspace:-2.5:0:128",
"y": "linspace:2.5:5:128",
"dirS": "grid02",
"dirN": "grid12",
"dirE": "grid30",
"dirW": "grid00"
},
{
"name": "grid10",
"x": "linspace:-5:-2.5:128",
"y": "linspace:-2.5:0:128",
"dirS": "grid11",
"dirN": "grid01",
"dirE": "grid13",
"dirW": "grid23"
},
{
"name": "grid11",
"x": "linspace:-5:-2.5:128",
"y": "linspace:-5:-2.5:128",
"dirS": "grid00",
"dirN": "grid10",
"dirE": "grid12",
"dirW": "grid22"
},
{
"name": "grid12",
"x": "linspace:-2.5:0:128",
"y": "linspace:-5:-2.5:128",
"dirS": "grid03",
"dirN": "grid13",
"dirE": "grid21",
"dirW": "grid11"
},
{
"name": "grid13",
"x": "linspace:-2.5:0:128",
"y": "linspace:-2.5:0:128",
"dirS": "grid12",
"dirN": "grid02",
"dirE": "grid20",
"dirW": "grid10"
},
{
"name": "grid20",
"x": "linspace:0:2.5:128",
"y": "linspace:-2.5:0:128",
"dirS": "grid21",
"dirN": "grid31",
"dirE": "grid23",
"dirW": "grid13"
},
{
"name": "grid21",
"x": "linspace:0:2.5:128",
"y": "linspace:-5:-2.5:128",
"dirS": "grid30",
"dirN": "grid20",
"dirE": "grid22",
"dirW": "grid12"
},
{
"name": "grid22",
"x": "linspace:2.5:5:128",
"y": "linspace:-5:-2.5:128",
"dirS": "grid33",
"dirN": "grid23",
"dirE": "grid11",
"dirW": "grid21"
},
{
"name": "grid23",
"x": "linspace:2.5:5:128",
"y": "linspace:-2.5:0:128",
"dirS": "grid22",
"dirN": "grid32",
"dirE": "grid10",
"dirW": "grid20"
},
{
"name": "grid30",
"x": "linspace:0:2.5:128",
"y": "linspace:2.5:5:128",
"dirS": "grid31",
"dirN": "grid21",
"dirE": "grid33",
"dirW": "grid03"
},
{
"name": "grid31",
"x": "linspace:0:2.5:128",
"y": "linspace:0:2.5:128",
"dirS": "grid20",
"dirN": "grid30",
"dirE": "grid32",
"dirW": "grid02"
},
{
"name": "grid32",
"x": "linspace:2.5:5:128",
"y": "linspace:0:2.5:128",
"dirS": "grid23",
"dirN": "grid33",
"dirE": "grid01",
"dirW": "grid31"
},
{
"name": "grid33",
"x": "linspace:2.5:5:128",
"y": "linspace:2.5:5:128",
"dirS": "grid32",
"dirN": "grid22",
"dirE": "grid00",
"dirW": "grid30"
"boundary_conditions": {
"south": "grid01",
"north": "grid11",
"east": "grid03",
"west": "grid33"
}
],
},
"grid01": {
"x": "linspace:-5:-2.5:128",
"y": "linspace:0:2.5:128",
"boundary_conditions": {
"south": "grid10",
"north": "grid00",
"east": "grid02",
"west": "grid32"
}
},
"grid02": {
"x": "linspace:-2.5:0:128",
"y": "linspace:0:2.5:128",
"boundary_conditions": {
"south": "grid13",
"north": "grid03",
"east": "grid31",
"west": "grid01"
}
},
"grid03": {
"x": "linspace:-2.5:0:128",
"y": "linspace:2.5:5:128",
"boundary_conditions": {
"south": "grid02",
"north": "grid12",
"east": "grid30",
"west": "grid00"
}
},
"grid10": {
"x": "linspace:-5:-2.5:128",
"y": "linspace:-2.5:0:128",
"boundary_conditions": {
"south": "grid11",
"north": "grid01",
"east": "grid13",
"west": "grid23"
}
},
"grid11": {
"x": "linspace:-5:-2.5:128",
"y": "linspace:-5:-2.5:128",
"boundary_conditions": {
"south": "grid00",
"north": "grid10",
"east": "grid12",
"west": "grid22"
}
},
"grid12": {
"x": "linspace:-2.5:0:128",
"y": "linspace:-5:-2.5:128",
"boundary_conditions": {
"south": "grid03",
"north": "grid13",
"east": "grid21",
"west": "grid11"
}
},
"grid13": {
"x": "linspace:-2.5:0:128",
"y": "linspace:-2.5:0:128",
"boundary_conditions": {
"south": "grid12",
"north": "grid02",
"east": "grid20",
"west": "grid10"
}
},
"grid20": {
"x": "linspace:0:2.5:128",
"y": "linspace:-2.5:0:128",
"boundary_conditions": {
"south": "grid21",
"north": "grid31",
"east": "grid23",
"west": "grid13"
}
},
"grid21": {
"x": "linspace:0:2.5:128",
"y": "linspace:-5:-2.5:128",
"boundary_conditions": {
"south": "grid30",
"north": "grid20",
"east": "grid22",
"west": "grid12"
}
},
"grid22": {
"x": "linspace:2.5:5:128",
"y": "linspace:-5:-2.5:128",
"boundary_conditions": {
"south": "grid33",
"north": "grid23",
"east": "grid11",
"west": "grid21"
}
},
"grid23": {
"x": "linspace:2.5:5:128",
"y": "linspace:-2.5:0:128",
"boundary_conditions": {
"south": "grid22",
"north": "grid32",
"east": "grid10",
"west": "grid20"
}
},
"grid30": {
"x": "linspace:0:2.5:128",
"y": "linspace:2.5:5:128",
"boundary_conditions": {
"south": "grid31",
"north": "grid21",
"east": "grid33",
"west": "grid03"
}
},
"grid31": {
"x": "linspace:0:2.5:128",
"y": "linspace:0:2.5:128",
"boundary_conditions": {
"south": "grid20",
"north": "grid30",
"east": "grid32",
"west": "grid02"
}
},
"grid32": {
"x": "linspace:2.5:5:128",
"y": "linspace:0:2.5:128",
"boundary_conditions": {
"south": "grid23",
"north": "grid33",
"east": "grid01",
"west": "grid31"
}
},
"grid33": {
"x": "linspace:2.5:5:128",
"y": "linspace:2.5:5:128",
"boundary_conditions": {
"south": "grid32",
"north": "grid22",
"east": "grid00",
"west": "grid30"
}
}
},
"integration_time": 2.0,
"vortex": {
"x0": -1.0,

68
multigrid/src/main.rs
View File

@ -10,6 +10,8 @@ use parsing::{json_to_grids, json_to_vortex};
mod file;
use file::*;
pub(crate) type DiffOp = Either<Box<dyn SbpOperator2d>, Box<dyn UpwindOperator2d>>;
struct System {
fnow: Vec<euler::Field>,
fnext: Vec<euler::Field>,
@ -20,16 +22,14 @@ struct System {
bt: Vec<euler::BoundaryCharacteristics>,
eb: Vec<euler::BoundaryStorage>,
time: Float,
operators: Vec<Either<Box<dyn SbpOperator2d>, Box<dyn UpwindOperator2d>>>,
interpolation_operators: Vec<euler::InterpolationOperators>,
operators: Vec<DiffOp>,
}
impl System {
fn new(
grids: Vec<grid::Grid>,
bt: Vec<euler::BoundaryCharacteristics>,
interpolation_operators: Vec<euler::InterpolationOperators>,
operators: Vec<Either<Box<dyn SbpOperator2d>, Box<dyn UpwindOperator2d>>>,
operators: Vec<DiffOp>,
) -> Self {
let fnow = grids
.iter()
@ -66,7 +66,6 @@ impl System {
bt,
eb,
time: 0.0,
interpolation_operators,
operators,
}
}
@ -83,7 +82,6 @@ impl System {
let bt = &self.bt;
let wb = &mut self.wb;
let mut eb = &mut self.eb;
let intops = &self.interpolation_operators;
let operators = &self.operators;
let rhs = move |fut: &mut [euler::Field],
@ -91,7 +89,7 @@ impl System {
time: Float,
_c: (),
_mt: &mut ()| {
let bc = euler::extract_boundaries(prev, &bt, &mut eb, &grids, time, Some(intops));
let bc = euler::extract_boundaries(prev, &bt, &mut eb, &grids, time);
pool.scope(|s| {
for (((((fut, prev), bc), wb), metrics), op) in fut
.iter_mut()
@ -162,63 +160,13 @@ fn main() {
let filecontents = std::fs::read_to_string(&opt.json).unwrap();
let json = json::parse(&filecontents).unwrap();
let jgrids = json_to_grids(json["grids"].clone()).unwrap();
let vortexparams = json_to_vortex(json["vortex"].clone());
let mut bt = Vec::with_capacity(jgrids.len());
let determine_bc = |dir: Option<&String>| match dir {
Some(dir) => {
if dir == "vortex" {
euler::BoundaryCharacteristic::Vortex(vortexparams)
} else if let Some(grid) = dir.strip_prefix("interpolate:") {
euler::BoundaryCharacteristic::Interpolate(
jgrids
.iter()
.position(|other| other.name.as_ref().map_or(false, |name| name == grid))
.unwrap(),
)
} else {
euler::BoundaryCharacteristic::Grid(
jgrids
.iter()
.position(|other| other.name.as_ref().map_or(false, |name| name == dir))
.unwrap(),
)
}
}
None => euler::BoundaryCharacteristic::This,
};
for grid in &jgrids {
bt.push(euler::BoundaryCharacteristics {
north: determine_bc(grid.dirn.as_ref()),
south: determine_bc(grid.dirs.as_ref()),
east: determine_bc(grid.dire.as_ref()),
west: determine_bc(grid.dirw.as_ref()),
});
}
let interpolation_operators = jgrids
.iter()
.map(|_g| euler::InterpolationOperators {
north: Some(Box::new(operators::Interpolation4)),
south: Some(Box::new(operators::Interpolation4)),
east: Some(Box::new(operators::Interpolation4)),
west: Some(Box::new(operators::Interpolation4)),
})
.collect::<Vec<_>>();
let grids = jgrids
.into_iter()
.map(|egrid| egrid.grid)
.collect::<Vec<grid::Grid>>();
let (_names, grids, bt, operators) = json_to_grids(json["grids"].clone(), vortexparams);
let integration_time: Float = json["integration_time"].as_number().unwrap().into();
let operators = grids
.iter()
.map(|_| Right(Box::new(operators::Upwind4) as Box<dyn UpwindOperator2d>))
.collect::<Vec<_>>();
let mut sys = System::new(grids, bt, interpolation_operators, operators);
let mut sys = System::new(grids, bt, operators);
sys.vortex(0.0, vortexparams);
let max_n = {

330
multigrid/src/parsing.rs
View File

@ -1,17 +1,180 @@
use super::DiffOp;
use crate::grid::Grid;
use crate::Float;
use either::*;
use json::JsonValue;
use sbp::utils::h2linspace;
#[derive(Debug, Clone)]
pub struct ExtendedGrid {
pub grid: Grid,
pub name: Option<String>,
pub dire: Option<String>,
pub dirw: Option<String>,
pub dirn: Option<String>,
pub dirs: Option<String>,
pub fn json_to_grids(
mut jsongrids: JsonValue,
vortexparams: sbp::euler::VortexParameters,
) -> (
Vec<String>,
Vec<sbp::grid::Grid>,
Vec<sbp::euler::BoundaryCharacteristics>,
Vec<DiffOp>,
) {
let default = jsongrids.remove("default");
let default_operator = {
let operators = &default["operators"];
let defaultxi = operators["xi"].as_str().unwrap_or("upwind4");
let defaulteta = operators["eta"].as_str().unwrap_or("upwind4");
(defaulteta.to_string(), defaultxi.to_string())
};
/*
let default_bc: sbp::utils::Direction<Option<String>> = {
let bc = &default["boundary_conditions"];
Direction {
south: bc["south"].as_str().map(|x| x.to_string()),
north: bc["north"].as_str().map(|x| x.to_string()),
west: bc["west"].as_str().map(|x| x.to_string()),
east: bc["east"].as_str().map(|x| x.to_string()),
}
};
*/
let mut names = Vec::new();
let mut grids = Vec::new();
let mut operators: Vec<DiffOp> = Vec::new();
for (name, grid) in jsongrids.entries() {
names.push(name.to_string());
grids.push(json2grid(grid["x"].clone(), grid["y"].clone()).unwrap());
operators.push({
use sbp::operators::*;
let opxi = grid["operators"]["xi"]
.as_str()
.unwrap_or(&default_operator.1);
let opeta = grid["operators"]["eta"]
.as_str()
.unwrap_or(&default_operator.1);
match (opeta, opxi) {
("upwind4", "upwind4") => Left(Box::new(Upwind4) as Box<dyn SbpOperator2d>),
("upwind9", "upwind9") => Left(Box::new(Upwind9) as Box<dyn SbpOperator2d>),
("upwind4h2", "upwind4h2") => Left(Box::new(Upwind4h2) as Box<dyn SbpOperator2d>),
("upwind9h2", "upwind9h2") => Left(Box::new(Upwind9h2) as Box<dyn SbpOperator2d>),
("upwind4", "upwind9") => {
Left(Box::new((&Upwind4, &Upwind9)) as Box<dyn SbpOperator2d>)
}
("upwind4", "upwind4h2") => {
Left(Box::new((&Upwind4, &Upwind4h2)) as Box<dyn SbpOperator2d>)
}
("upwind4", "upwind9h2") => {
Left(Box::new((&Upwind4, &Upwind9h2)) as Box<dyn SbpOperator2d>)
}
("upwind9", "upwind4") => {
Left(Box::new((&Upwind9, &Upwind4)) as Box<dyn SbpOperator2d>)
}
("upwind9", "upwind4h2") => {
Left(Box::new((&Upwind9, &Upwind4h2)) as Box<dyn SbpOperator2d>)
}
("upwind9", "upwind9h2") => {
Left(Box::new((&Upwind9, &Upwind9h2)) as Box<dyn SbpOperator2d>)
}
("upwind4h2", "upwind4") => {
Left(Box::new((&Upwind4h2, &Upwind4)) as Box<dyn SbpOperator2d>)
}
("upwind4h2", "upwind9") => {
Left(Box::new((&Upwind4h2, &Upwind9)) as Box<dyn SbpOperator2d>)
}
("upwind4h2", "upwind9h2") => {
Left(Box::new((&Upwind4h2, &Upwind9h2)) as Box<dyn SbpOperator2d>)
}
("upwind9h2", "upwind4") => {
Left(Box::new((&Upwind9h2, &Upwind4)) as Box<dyn SbpOperator2d>)
}
("upwind9h2", "upwind9") => {
Left(Box::new((&Upwind9h2, &Upwind9)) as Box<dyn SbpOperator2d>)
}
("upwind9h2", "upwind4h2") => {
Left(Box::new((&Upwind9h2, &Upwind4h2)) as Box<dyn SbpOperator2d>)
}
(opeta, opxi) => panic!("combination {} {} not yet implemented", opeta, opxi),
}
});
}
let mut bcs = Vec::new();
let determine_bc = |dir: Option<&str>| match dir {
Some(dir) => {
if dir == "vortex" {
sbp::euler::BoundaryCharacteristic::Vortex(vortexparams)
} else if let Some(grid) = dir.strip_prefix("interpolate:") {
use sbp::operators::*;
let (grid, int_op) = if let Some(rest) = grid.strip_prefix("4:") {
(
rest,
Box::new(Interpolation4) as Box<dyn InterpolationOperator>,
)
} else if let Some(rest) = grid.strip_prefix("9:") {
(
rest,
Box::new(Interpolation9) as Box<dyn InterpolationOperator>,
)
} else if let Some(rest) = grid.strip_prefix("8:") {
(
rest,
Box::new(Interpolation8) as Box<dyn InterpolationOperator>,
)
} else if let Some(rest) = grid.strip_prefix("9h2:") {
(
rest,
Box::new(Interpolation9h2) as Box<dyn InterpolationOperator>,
)
} else {
(
grid,
Box::new(Interpolation4) as Box<dyn InterpolationOperator>,
)
};
sbp::euler::BoundaryCharacteristic::Interpolate(
names.iter().position(|other| other == grid).unwrap(),
int_op,
)
} else {
sbp::euler::BoundaryCharacteristic::Grid(
names.iter().position(|other| other == dir).unwrap(),
)
}
}
None => sbp::euler::BoundaryCharacteristic::This,
};
for name in &names {
let bc = &jsongrids[name]["boundary_conditions"];
let bc_n = determine_bc(bc["north"].as_str());
let bc_s = determine_bc(bc["south"].as_str());
let bc_e = determine_bc(bc["east"].as_str());
let bc_w = determine_bc(bc["west"].as_str());
let bc = sbp::euler::BoundaryCharacteristics {
north: bc_n,
south: bc_s,
east: bc_e,
west: bc_w,
};
bcs.push(bc);
}
(names, grids, bcs, operators)
}
#[derive(Debug)]
enum ArrayForm {
/// Only know the one dimension, will broadcast to
/// two dimensions once we know about both dims
Array1(ndarray::Array1<Float>),
/// The usize is the inner dimension (nx)
Array2(ndarray::Array2<Float>),
}
use json::JsonValue;
/// Parsing json strings to some gridlike form
///
/// Each grid should be an object with the descriptors on the form
@ -29,25 +192,7 @@ use json::JsonValue;
/// Optional parameters:
/// * name (for relating boundaries)
/// * dir{e,w,n,s} (for boundary terms)
pub fn json_to_grids(json: JsonValue) -> Result<Vec<ExtendedGrid>, String> {
fn json_to_grid(mut grid: JsonValue) -> Result<ExtendedGrid, String> {
#[derive(Debug)]
enum ArrayForm {
/// Only know the one dimension, will broadcast to
/// two dimensions once we know about both dims
Array1(ndarray::Array1<Float>),
/// The usize is the inner dimension (nx)
Array2(ndarray::Array2<Float>),
}
if grid.is_empty() {
return Err("empty object".to_string());
}
let name = grid.remove("name").take_string();
let dire = grid.remove("dirE").take_string();
let dirw = grid.remove("dirW").take_string();
let dirn = grid.remove("dirN").take_string();
let dirs = grid.remove("dirS").take_string();
fn json2grid(x: JsonValue, y: JsonValue) -> Result<Grid, String> {
let to_array_form = |mut x: JsonValue| {
if let Some(s) = x.take_string() {
if let Some(s) = s.strip_prefix("linspace:") {
@ -95,7 +240,12 @@ pub fn json_to_grids(json: JsonValue) -> Result<Vec<ExtendedGrid>, String> {
let v = x
.members()
.map(|x: &JsonValue| -> Result<Float, String> {
Ok(x.as_number().ok_or_else(|| "Array contained something that could not be converted to an array".to_string())?.into())
Ok(x.as_number()
.ok_or_else(|| {
"Array contained something that could not be converted to an array"
.to_string()
})?
.into())
})
.collect::<Result<Vec<Float>, _>>()?;
Ok(ArrayForm::Array1(ndarray::Array::from(v)))
@ -127,13 +277,11 @@ pub fn json_to_grids(json: JsonValue) -> Result<Vec<ExtendedGrid>, String> {
}
};
let x = grid.remove("x");
if x.is_empty() {
return Err("x was empty".to_string());
}
let x = to_array_form(x)?;
let y = grid.remove("y");
if y.is_empty() {
return Err("y was empty".to_string());
}
@ -173,101 +321,7 @@ pub fn json_to_grids(json: JsonValue) -> Result<Vec<ExtendedGrid>, String> {
};
assert_eq!(x.shape(), y.shape());
if !grid.is_empty() {
eprintln!("Grid contains some unused entries");
for i in grid.entries() {
eprintln!("{:#?}", i);
}
}
Ok(ExtendedGrid {
grid: Grid::new(x, y).unwrap(),
name,
dire,
dirw,
dirn,
dirs,
})
}
match json {
JsonValue::Array(a) => a
.into_iter()
.map(json_to_grid)
.collect::<Result<Vec<_>, _>>(),
grid => Ok(vec![json_to_grid(grid)?]),
}
}
#[test]
fn parse_linspace() {
let grids = json_to_grids(
json::parse(r#"[{"name": "main", "x": "linspace:0:10:20", "y": "linspace:0:10:21"}]"#)
.unwrap(),
)
.unwrap();
assert_eq!(grids.len(), 1);
assert_eq!(grids[0].grid.x.shape(), [21, 20]);
assert_eq!(grids[0].grid.y.shape(), [21, 20]);
assert_eq!(grids[0].name.as_ref().unwrap(), "main");
let grids = json_to_grids(
json::parse(r#"{"name": "main", "x": "linspace:0:10:20", "y": "linspace:0:10:21"}"#)
.unwrap(),
)
.unwrap();
assert_eq!(grids.len(), 1);
assert_eq!(grids[0].grid.x.shape(), [21, 20]);
assert_eq!(grids[0].grid.y.shape(), [21, 20]);
assert_eq!(grids[0].name.as_ref().unwrap(), "main");
}
#[test]
fn parse_1d() {
let grids =
json_to_grids(json::parse(r#"{"x": [1, 2, 3, 4, 5.1, 3], "y": [1, 2]}"#).unwrap()).unwrap();
assert_eq!(grids.len(), 1);
let grid = &grids[0];
assert_eq!(grid.grid.x.shape(), &[2, 6]);
assert_eq!(grid.grid.x.shape(), grid.grid.y.shape());
}
#[test]
fn parse_2d() {
let grids =
json_to_grids(json::parse(r#"{"x": [[1, 2], [3, 4], [5.1, 3]], "y": [1, 2, 3]}"#).unwrap())
.unwrap();
assert_eq!(grids.len(), 1);
let grid = &grids[0];
assert_eq!(grid.grid.x.shape(), &[3, 2]);
assert_eq!(grid.grid.x.shape(), grid.grid.y.shape());
json_to_grids(
json::parse(r#"{"x": [[1, 2], [3, 4], [5.1, 3], [1]], "y": [1, 2, 3]}"#).unwrap(),
)
.unwrap_err();
json_to_grids(
json::parse(r#"{"y": [[1, 2], [3, 4], [5.1, 3], [1]], "x": [1, 2, 3]}"#).unwrap(),
)
.unwrap_err();
let grids = json_to_grids(
json::parse(r#"{"x": [[1, 2], [3, 4], [5.1, 3]], "y": [[1, 2], [3, 4], [5, 6]]}"#).unwrap(),
)
.unwrap();
assert_eq!(grids.len(), 1);
json_to_grids(
json::parse(r#"{"x": [[1, 2], [3, 4], [5.1, 3]], "y": [[1, 2], [3, 4], [5]]}"#).unwrap(),
)
.unwrap_err();
}
#[test]
fn parse_err() {
json_to_grids(json::parse(r#"{}"#).unwrap()).unwrap_err();
json_to_grids(json::parse(r#"0.45"#).unwrap()).unwrap_err();
json_to_grids(json::parse(r#"{"x": "linspace", "y": [0.1, 0.2]}"#).unwrap()).unwrap_err();
json_to_grids(json::parse(r#"{"x": "linspace:::", "y": [0.1, 0.2]}"#).unwrap()).unwrap_err();
json_to_grids(json::parse(r#"{"x": "linspace:1.2:3.1:412.2", "y": [0.1, 0.2]}"#).unwrap())
.unwrap_err();
json_to_grids(json::parse(r#"{"x": [-2, -3, "dfd"], "y": [0.1, 0.2]}"#).unwrap()).unwrap_err();
Ok(Grid::new(x, y).unwrap())
}
pub fn json_to_vortex(mut json: JsonValue) -> super::euler::VortexParameters {
@ -292,27 +346,3 @@ pub fn json_to_vortex(mut json: JsonValue) -> super::euler::VortexParameters {
eps,
}
}
pub fn h2linspace(start: Float, end: Float, n: usize) -> ndarray::Array1<Float> {
let h = (end - start) / (n - 2) as Float;
ndarray::Array1::from_shape_fn(n, |i| match i {
0 => start,
i if i == n - 1 => end,
i => start + h * (i as Float - 0.5),
})
}
#[test]
fn test_h2linspace() {
let x = h2linspace(-1.0, 1.0, 50);
println!("{}", x);
approx::assert_abs_diff_eq!(x[0], -1.0, epsilon = 1e-6);
approx::assert_abs_diff_eq!(x[49], 1.0, epsilon = 1e-6);
let hend = x[1] - x[0];
let h = x[2] - x[1];
approx::assert_abs_diff_eq!(x[49] - x[48], hend, epsilon = 1e-6);
approx::assert_abs_diff_eq!(2.0 * hend, h, epsilon = 1e-6);
for i in 1..48 {
approx::assert_abs_diff_eq!(x[i + 1] - x[i], h, epsilon = 1e-6);
}
}

90
sbp/src/euler.rs
View File

@ -597,13 +597,12 @@ fn fluxes(k: (&mut Field, &mut Field), y: &Field, metrics: &Metrics) {
}
}
#[derive(Clone, Debug)]
pub enum BoundaryCharacteristic {
This,
Grid(usize),
Vortex(VortexParameters),
// Vortices(Vec<VortexParameters>),
Interpolate(usize),
Interpolate(usize, Box<dyn InterpolationOperator>),
}
pub type BoundaryTerms<'a> = Direction<ArrayView2<'a, Float>>;
@ -618,68 +617,59 @@ fn boundary_extractor<'a>(
north: match bc.north {
BoundaryCharacteristic::This => field.south(),
BoundaryCharacteristic::Vortex(_params) => todo!(),
BoundaryCharacteristic::Grid(_) | BoundaryCharacteristic::Interpolate(_) => {
BoundaryCharacteristic::Grid(_) | BoundaryCharacteristic::Interpolate(_, _) => {
panic!("Only working on self grid")
}
},
south: match bc.south {
BoundaryCharacteristic::This => field.north(),
BoundaryCharacteristic::Vortex(_params) => todo!(),
BoundaryCharacteristic::Grid(_) | BoundaryCharacteristic::Interpolate(_) => {
BoundaryCharacteristic::Grid(_) | BoundaryCharacteristic::Interpolate(_, _) => {
panic!("Only working on self grid")
}
},
west: match bc.west {
BoundaryCharacteristic::This => field.east(),
BoundaryCharacteristic::Vortex(_params) => todo!(),
BoundaryCharacteristic::Grid(_) | BoundaryCharacteristic::Interpolate(_) => {
BoundaryCharacteristic::Grid(_) | BoundaryCharacteristic::Interpolate(_, _) => {
panic!("Only working on self grid")
}
},
east: match bc.east {
BoundaryCharacteristic::This => field.west(),
BoundaryCharacteristic::Vortex(_params) => todo!(),
BoundaryCharacteristic::Grid(_) | BoundaryCharacteristic::Interpolate(_) => {
BoundaryCharacteristic::Grid(_) | BoundaryCharacteristic::Interpolate(_, _) => {
panic!("Only working on self grid")
}
},
}
}
pub type InterpolationOperators = Direction<Option<Box<dyn InterpolationOperator>>>;
pub fn extract_boundaries<'a>(
fields: &'a [Field],
bt: &[BoundaryCharacteristics],
eb: &'a mut [BoundaryStorage],
grids: &[Grid],
time: Float,
interpolation_operators: Option<&[InterpolationOperators]>,
) -> Vec<BoundaryTerms<'a>> {
bt.iter()
.zip(eb)
.zip(grids)
.zip(fields)
.enumerate()
.map(|(ig, (((bt, eb), grid), field))| BoundaryTerms {
north: match bt.north {
.map(|(((bt, eb), grid), field)| BoundaryTerms {
north: match &bt.north {
BoundaryCharacteristic::This => field.south(),
BoundaryCharacteristic::Grid(g) => fields[g].south(),
BoundaryCharacteristic::Grid(g) => fields[*g].south(),
BoundaryCharacteristic::Vortex(v) => {
let field = eb.north.as_mut().unwrap();
vortexify(field.view_mut(), grid.north(), v, time);
vortexify(field.view_mut(), grid.north(), *v, time);
field.view()
}
BoundaryCharacteristic::Interpolate(g) => {
BoundaryCharacteristic::Interpolate(g, operator) => {
let to = eb.north.as_mut().unwrap();
let fine2coarse = field.nx() < fields[g].nx();
let fine2coarse = field.nx() < fields[*g].nx();
let operator = interpolation_operators.as_ref().unwrap()[ig]
.north
.as_ref()
.unwrap();
for (mut to, from) in to.outer_iter_mut().zip(fields[g].south().outer_iter()) {
for (mut to, from) in to.outer_iter_mut().zip(fields[*g].south().outer_iter()) {
if fine2coarse {
operator.fine2coarse(from.view(), to.view_mut());
} else {
@ -689,23 +679,19 @@ pub fn extract_boundaries<'a>(
to.view()
}
},
south: match bt.south {
south: match &bt.south {
BoundaryCharacteristic::This => field.north(),
BoundaryCharacteristic::Grid(g) => fields[g].north(),
BoundaryCharacteristic::Grid(g) => fields[*g].north(),
BoundaryCharacteristic::Vortex(v) => {
let field = eb.south.as_mut().unwrap();
vortexify(field.view_mut(), grid.south(), v, time);
vortexify(field.view_mut(), grid.south(), *v, time);
field.view()
}
BoundaryCharacteristic::Interpolate(g) => {
BoundaryCharacteristic::Interpolate(g, operator) => {
let to = eb.south.as_mut().unwrap();
let fine2coarse = field.nx() < fields[g].nx();
let operator = interpolation_operators.as_ref().unwrap()[ig]
.south
.as_ref()
.unwrap();
let fine2coarse = field.nx() < fields[*g].nx();
for (mut to, from) in to.outer_iter_mut().zip(fields[g].north().outer_iter()) {
for (mut to, from) in to.outer_iter_mut().zip(fields[*g].north().outer_iter()) {
if fine2coarse {
operator.fine2coarse(from.view(), to.view_mut());
} else {
@ -715,23 +701,19 @@ pub fn extract_boundaries<'a>(
to.view()
}
},
west: match bt.west {
west: match &bt.west {
BoundaryCharacteristic::This => field.east(),
BoundaryCharacteristic::Grid(g) => fields[g].east(),
BoundaryCharacteristic::Grid(g) => fields[*g].east(),
BoundaryCharacteristic::Vortex(v) => {
let field = eb.west.as_mut().unwrap();
vortexify(field.view_mut(), grid.west(), v, time);
vortexify(field.view_mut(), grid.west(), *v, time);
field.view()
}
BoundaryCharacteristic::Interpolate(g) => {
BoundaryCharacteristic::Interpolate(g, operator) => {
let to = eb.west.as_mut().unwrap();
let fine2coarse = field.ny() < fields[g].ny();
let operator = interpolation_operators.as_ref().unwrap()[ig]
.west
.as_ref()
.unwrap();
let fine2coarse = field.ny() < fields[*g].ny();
for (mut to, from) in to.outer_iter_mut().zip(fields[g].east().outer_iter()) {
for (mut to, from) in to.outer_iter_mut().zip(fields[*g].east().outer_iter()) {
if fine2coarse {
operator.fine2coarse(from.view(), to.view_mut());
} else {
@ -741,23 +723,19 @@ pub fn extract_boundaries<'a>(
to.view()
}
},
east: match bt.east {
east: match &bt.east {
BoundaryCharacteristic::This => field.west(),
BoundaryCharacteristic::Grid(g) => fields[g].west(),
BoundaryCharacteristic::Grid(g) => fields[*g].west(),
BoundaryCharacteristic::Vortex(v) => {
let field = eb.east.as_mut().unwrap();
vortexify(field.view_mut(), grid.east(), v, time);
vortexify(field.view_mut(), grid.east(), *v, time);
field.view()
}
BoundaryCharacteristic::Interpolate(g) => {
BoundaryCharacteristic::Interpolate(g, operator) => {
let to = eb.east.as_mut().unwrap();
let fine2coarse = field.ny() < fields[g].ny();
let operator = interpolation_operators.as_ref().unwrap()[ig]
.east
.as_ref()
.unwrap();
let fine2coarse = field.ny() < fields[*g].ny();
for (mut to, from) in to.outer_iter_mut().zip(fields[g].west().outer_iter()) {
for (mut to, from) in to.outer_iter_mut().zip(fields[*g].west().outer_iter()) {
if fine2coarse {
operator.fine2coarse(from.view(), to.view_mut());
} else {
@ -778,25 +756,25 @@ impl BoundaryStorage {
pub fn new(bt: &BoundaryCharacteristics, grid: &Grid) -> Self {
Self {
north: match bt.north {
BoundaryCharacteristic::Vortex(_) | BoundaryCharacteristic::Interpolate(_) => {
BoundaryCharacteristic::Vortex(_) | BoundaryCharacteristic::Interpolate(_, _) => {
Some(ndarray::Array2::zeros((4, grid.nx())))
}
_ => None,
},
south: match bt.south {
BoundaryCharacteristic::Vortex(_) | BoundaryCharacteristic::Interpolate(_) => {
BoundaryCharacteristic::Vortex(_) | BoundaryCharacteristic::Interpolate(_, _) => {
Some(ndarray::Array2::zeros((4, grid.nx())))
}
_ => None,
},
east: match bt.east {
BoundaryCharacteristic::Vortex(_) | BoundaryCharacteristic::Interpolate(_) => {
BoundaryCharacteristic::Vortex(_) | BoundaryCharacteristic::Interpolate(_, _) => {
Some(ndarray::Array2::zeros((4, grid.ny())))
}
_ => None,
},
west: match bt.west {
BoundaryCharacteristic::Vortex(_) | BoundaryCharacteristic::Interpolate(_) => {
BoundaryCharacteristic::Vortex(_) | BoundaryCharacteristic::Interpolate(_, _) => {
Some(ndarray::Array2::zeros((4, grid.ny())))
}
_ => None,

2
sbp/src/operators.rs
View File

@ -185,7 +185,7 @@ mod traditional8;
pub use traditional8::SBP8;
mod interpolation;
pub use interpolation::Interpolation4;
pub use interpolation::{Interpolation4, Interpolation8, Interpolation9, Interpolation9h2};
#[cfg(test)]
pub(crate) mod testing {

26
sbp/src/utils.rs
View File

@ -1,6 +1,32 @@
use crate::Float;
pub struct Direction<T> {
pub north: T,
pub south: T,
pub west: T,
pub east: T,
}
pub fn h2linspace(start: Float, end: Float, n: usize) -> ndarray::Array1<Float> {
let h = (end - start) / (n - 2) as Float;
ndarray::Array1::from_shape_fn(n, |i| match i {
0 => start,
i if i == n - 1 => end,
i => start + h * (i as Float - 0.5),
})
}
#[test]
fn test_h2linspace() {
let x = h2linspace(-1.0, 1.0, 50);
println!("{}", x);
approx::assert_abs_diff_eq!(x[0], -1.0, epsilon = 1e-6);
approx::assert_abs_diff_eq!(x[49], 1.0, epsilon = 1e-6);
let hend = x[1] - x[0];
let h = x[2] - x[1];
approx::assert_abs_diff_eq!(x[49] - x[48], hend, epsilon = 1e-6);
approx::assert_abs_diff_eq!(2.0 * hend, h, epsilon = 1e-6);
for i in 1..48 {
approx::assert_abs_diff_eq!(x[i + 1] - x[i], h, epsilon = 1e-6);
}
}