SummationByParts/webfront/frontend/main.js

546 lines
19 KiB
JavaScript

import { default as init, set_panic_hook as setPanicHook,
MaxwellUniverse, EulerUniverse, ShallowWaterUniverse } from "./sbp_web.js";
function compile_and_link(ctx, vsource, fsource) {
const program = ctx.createProgram();
const vsShader = ctx.createShader(ctx.VERTEX_SHADER);
ctx.shaderSource(vsShader, vsource);
const fsShader = ctx.createShader(ctx.FRAGMENT_SHADER);
ctx.shaderSource(fsShader, fsource);
ctx.compileShader(vsShader);
ctx.compileShader(fsShader);
ctx.attachShader(program, vsShader);
ctx.attachShader(program, fsShader);
ctx.linkProgram(program);
ctx.validateProgram(program);
if (!ctx.getProgramParameter(program, ctx.LINK_STATUS)) {
console.error(`Linking of lineProgram failed: ${ctx.getProgramInfoLog(program)}`);
console.error(`vertex shader infolog: ${ctx.getShaderInfoLog(vsShader)}`);
console.error(`fragment shader infolog: ${ctx.getShaderInfoLog(fsShader)}`);
return null;
}
ctx.deleteShader(vsShader);
ctx.deleteShader(fsShader);
return program;
}
class LineDrawer {
constructor(ctx) {
function lineProgram(ctx) {
const LINE_VERTEX_SHADER = String.raw`
#version 100
attribute mediump float aX;
attribute mediump float aY;
uniform vec4 uBbox;
void main() {
mediump float x = (aX - uBbox.x)*uBbox.y;
mediump float y = (aY - uBbox.z)*uBbox.w;
gl_Position = vec4(2.0*x - 1.0, 2.0*y - 1.0, 1.0, 1.0);
}
`;
const LINE_FRAGMENT_SHADER = String.raw`
#version 100
void main() {
gl_FragColor = vec4(0.0, 0.0, 0.0, 1.0);
}
`;
const program = compile_and_link(ctx, LINE_VERTEX_SHADER, LINE_FRAGMENT_SHADER);
const uBbox = ctx.getUniformLocation(program, "uBbox");
return {inner: program, uniforms: {"uBbox": uBbox}};
};
this.program = lineProgram(ctx);
this.ctx = ctx;
}
set_xy(width, height, xBuffer, yBuffer, bbox) {
const ctx = this.ctx;
this.xBuffer = xBuffer;
this.yBuffer = yBuffer;
const lineIdxBuffer = new Uint16Array(2*width*height - 1);
{
let n = 0;
for (let j = 0; j < height; j++) {
for (let i = 0; i < width; i++) {
if (j % 2 == 0) {
lineIdxBuffer[n] = width*j + i;
} else {
lineIdxBuffer[n] = width*(j + 1) - i - 1;
}
n += 1;
}
}
let m = lineIdxBuffer[n-1];
let updown = "down";
let lr;
if (height % 2 === 0) {
lr = "left";
} else {
lr = "right";
}
for (let i = 0; i < width; i++) {
for (let j = 0; j < height-1; j++) {
if (updown === "up") {
m += width;
} else {
m -= width;
}
lineIdxBuffer[n] = m;
n += 1;
}
if (n === 2*width*height - 1) {
continue;
}
if (lr === "left") {
m += 1;
} else {
m -= 1;
}
lineIdxBuffer[n] = m;
n += 1;
if (updown === "down") {
updown = "up";
} else {
updown = "down";
}
}
}
this.indexBuffer = ctx.createBuffer();
ctx.bindBuffer(ctx.ELEMENT_ARRAY_BUFFER, this.indexBuffer);
ctx.bufferData(ctx.ELEMENT_ARRAY_BUFFER, lineIdxBuffer, ctx.STATIC_DRAW);
ctx.useProgram(this.program.inner);
ctx.uniform4f(this.program.uniforms.uBbox, bbox[0], 1.0/(bbox[1] - bbox[0]), bbox[2], 1.0/(bbox[3] - bbox[2]));
this.width = width;
this.height = height;
}
draw() {
const ctx = this.ctx;
ctx.useProgram(this.program.inner);
{
let loc;
loc = ctx.getAttribLocation(this.program.inner, "aX");
ctx.bindBuffer(ctx.ARRAY_BUFFER, this.xBuffer);
ctx.vertexAttribPointer(loc, 1, ctx.FLOAT, false, 0, 0);
ctx.enableVertexAttribArray(loc);
loc = ctx.getAttribLocation(this.program.inner, "aY");
ctx.bindBuffer(ctx.ARRAY_BUFFER, this.yBuffer);
ctx.vertexAttribPointer(loc, 1, ctx.FLOAT, false, 0, 0);
ctx.enableVertexAttribArray(loc);
}
ctx.bindBuffer(ctx.ELEMENT_ARRAY_BUFFER, this.indexBuffer);
ctx.drawElements(ctx.LINE_STRIP, 2*this.width*this.height - 1, ctx.UNSIGNED_SHORT, 0);
}
}
class FieldDrawer {
constructor(ctx) {
this.ctx = ctx;
const VERT_SHADER = String.raw`
#version 100
attribute mediump float aX;
attribute mediump float aY;
attribute mediump float aField;
uniform vec4 uBbox;
varying mediump float vField;
void main() {
vField = aField;
mediump float x = (aX - uBbox.x)*uBbox.y;
mediump float y = (aY - uBbox.z)*uBbox.w;
gl_Position = vec4(2.0*x - 1.0, 2.0*y - 1.0, 1.0, 1.0);
}
`;
const FRAG_SHADER = String.raw`
#version 100
varying mediump float vField;
uniform mediump vec3 uColor;
uniform mediump float uFieldMin;
uniform mediump float uFieldMax;
void main() {
mediump float v = (vField - uFieldMin) / (uFieldMax - uFieldMin);
gl_FragColor = vec4(mix(vec3(0.0), uColor, v), 1.0);
}
`;
const program = compile_and_link(ctx, VERT_SHADER, FRAG_SHADER);
this.fBuffer = ctx.createBuffer();
const uniforms = {
uBbox: ctx.getUniformLocation(program, "uBbox"),
uColor: ctx.getUniformLocation(program, "uColor"),
uFieldMin: ctx.getUniformLocation(program, "uFieldMin"),
uFieldMax: ctx.getUniformLocation(program, "uFieldMax"),
};
this.program = {inner: program, uniforms: uniforms};
}
set_xy(width, height, xBuffer, yBuffer, bbox) {
const ctx = this.ctx;
this.xBuffer = xBuffer;
this.yBuffer = yBuffer;
ctx.useProgram(this.program.inner);
ctx.uniform4f(this.program.uniforms.uBbox, bbox[0], 1.0/(bbox[1] - bbox[0]), bbox[2], 1.0/(bbox[3] - bbox[2]));
this.setColor(0.0, 1.0, 0.0);
const positions = new Uint16Array((width-1)*(height-1)*2*3);
for (let j = 0; j < height - 1; j += 1) {
for (let i = 0; i < width - 1; i += 1) {
const n = 2*3*((width-1)*j + i);
positions[n+0] = width*j + i;
positions[n+1] = width*j + i+1;
positions[n+2] = width*(j+1) + i;
positions[n+3] = width*j + i+1;
positions[n+4] = width*(j+1) + i;
positions[n+5] = width*(j+1) + i+1;
}
}
this.positions = positions;
this.indexBuffer = ctx.createBuffer();
ctx.bindBuffer(ctx.ELEMENT_ARRAY_BUFFER, this.indexBuffer);
ctx.bufferData(ctx.ELEMENT_ARRAY_BUFFER, this.positions, ctx.STATIC_DRAW);
}
setColor() {
this.ctx.uniform3f(this.program.uniforms.uColor, 0.0, 1.0, 0.0);
}
draw(field) {
const ctx = this.ctx;
ctx.useProgram(this.program.inner);
{
let loc;
loc = ctx.getAttribLocation(this.program.inner, "aX");
ctx.bindBuffer(ctx.ARRAY_BUFFER, this.xBuffer);
ctx.vertexAttribPointer(loc, 1, ctx.FLOAT, false, 0, 0);
ctx.enableVertexAttribArray(loc);
loc = ctx.getAttribLocation(this.program.inner, "aY");
ctx.bindBuffer(ctx.ARRAY_BUFFER, this.yBuffer);
ctx.vertexAttribPointer(loc, 1, ctx.FLOAT, false, 0, 0);
ctx.enableVertexAttribArray(loc);
loc = ctx.getAttribLocation(this.program.inner, "aField");
ctx.bindBuffer(ctx.ARRAY_BUFFER, this.fBuffer);
ctx.bufferData(ctx.ARRAY_BUFFER, field, ctx.DYNAMIC_DRAW);
ctx.vertexAttribPointer(loc, 1, ctx.FLOAT, false, 0, 0);
ctx.enableVertexAttribArray(loc);
}
ctx.bindBuffer(ctx.ELEMENT_ARRAY_BUFFER, this.indexBuffer);
ctx.drawElements(ctx.TRIANGLES, this.positions.length, ctx.UNSIGNED_SHORT, 0);
}
minmax(min, max) {
this.ctx.useProgram(this.program.inner);
this.ctx.uniform1f(this.program.uniforms.uFieldMin, min);
this.ctx.uniform1f(this.program.uniforms.uFieldMax, max);
}
}
(async function run() {
let is_setup = false;
const eq_sel = document.getElementById("eq-set");
display_eqset(eq_sel.value);
const wasm = await init("./sbp_web_bg.wasm");
setPanicHook();
const canvas = document.getElementById("glCanvas");
const gl = canvas.getContext("webgl");
if (gl === null) {
console.error("Unable to initialise WebGL");
return;
}
console.info("Successfully opened webgl canvas");
let x;
let y;
let width;
let height;
const bbox = [+Number(Infinity), -Number(Infinity), +Number(Infinity), -Number(Infinity)];
// A nice pink to show missing values
gl.clearColor(1.0, 0.753, 0.796, 1.0);
gl.clearDepth(1.0);
gl.enable(gl.DEPTH_TEST);
gl.depthFunc(gl.LEQUAL);
gl.disable(gl.CULL_FACE);
gl.lineWidth(1.0);
const xBuffer = gl.createBuffer();
const yBuffer = gl.createBuffer();
const lineDrawer = new LineDrawer(gl);
const fieldDrawer = new FieldDrawer(gl);
let universe;
let eq_set;
function setup() {
width = parseInt(document.getElementById("xN").value);
height = parseInt(document.getElementById("yN").value);
const x0 = parseFloat(document.getElementById("x0").value);
const xn = parseFloat(document.getElementById("xn").value);
const y0 = parseFloat(document.getElementById("y0").value);
const yn = parseFloat(document.getElementById("yn").value);
const diamond = document.getElementById("diamond").checked;
x = new Float32Array(width * height);
y = new Float32Array(width * height);
const dx = (xn - x0) / (width - 1)
const dy = (yn - y0) / (height - 1)
for (let j = 0; j < height; j += 1) {
for (let i = 0; i < width; i += 1) {
const n = width*j + i;
x[n] = x0 + dx*i;
y[n] = y0 + dy*j;
if (diamond) {
const xn = x[n];
const yn = y[n];
x[n] = xn - yn;
y[n] = xn + yn;
}
}
}
eq_set = eq_sel.value;
switch (eq_set) {
case "maxwell":
universe = new MaxwellUniverse(height, width, x, y);
universe.init(0.0, 0.0);
break;
case "euler":
universe = new EulerUniverse(height, width, x, y);
universe.init(0.0, 0.0);
break;
case "shallow":
universe = new ShallowWaterUniverse(height, width);
universe.init(0.0, 0.0);
break;
default:
console.error(`Unknown case ${eq_set}`);
return null;
}
bbox[0] = +Number(Infinity);
bbox[1] = -Number(Infinity);
bbox[2] = +Number(Infinity);
bbox[3] = -Number(Infinity);
for (let i = 0; i < width*height; i += 1) {
bbox[0] = Math.min(bbox[0], x[i]);
bbox[1] = Math.max(bbox[1], x[i]);
bbox[2] = Math.min(bbox[2], y[i]);
bbox[3] = Math.max(bbox[3], y[i]);
}
gl.bindBuffer(gl.ARRAY_BUFFER, xBuffer);
gl.bufferData(gl.ARRAY_BUFFER, x, gl.STATIC_DRAW);
gl.bindBuffer(gl.ARRAY_BUFFER, yBuffer);
gl.bufferData(gl.ARRAY_BUFFER, y, gl.STATIC_DRAW);
lineDrawer.set_xy(width, height, xBuffer, yBuffer, bbox);
fieldDrawer.set_xy(width, height, xBuffer, yBuffer, bbox);
}
function draw() {
gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT);
const w = canvas.clientWidth;
const h = canvas.clientHeight;
canvas.width = w;
canvas.height = h;
gl.viewport(0, 0, gl.drawingBufferWidth, gl.drawingBufferHeight);
let fieldPtr;
switch (eq_set) {
case "maxwell":
chosenField %= 3;
switch (chosenField) {
case 0:
fieldPtr = universe.get_ex_ptr();
fieldDrawer.minmax(-1.0, 1.0);
break;
case 1:
fieldPtr = universe.get_hz_ptr();
fieldDrawer.minmax(-1.0, 1.0);
break;
case 2:
fieldPtr = universe.get_ey_ptr();
fieldDrawer.minmax(-1.0, 1.0);
break;
}
break;
case "euler":
chosenField %= 4;
switch (chosenField) {
case 0:
fieldPtr = universe.get_rho_ptr();
fieldDrawer.minmax(0.95, 1.05);
break;
case 1:
fieldPtr = universe.get_rhou_ptr();
fieldDrawer.minmax(0.90, 1.10);
break;
case 2:
fieldPtr = universe.get_rhov_ptr();
fieldDrawer.minmax(-1.10, 1.10);
break;
case 3:
fieldPtr = universe.get_e_ptr();
fieldDrawer.minmax(7.0, 10.0);
break;
}
break;
case "shallow":
chosenField %= 3;
switch (chosenField) {
case 0:
fieldPtr = universe.get_eta_ptr();
fieldDrawer.minmax(0.8, 1.1);
break;
case 1:
fieldPtr = universe.get_etau_ptr();
fieldDrawer.minmax(-0.5, 0.5);
break;
case 2:
fieldPtr = universe.get_etav_ptr();
fieldDrawer.minmax(-0.5, 0.5);
break;
}
break;
default:
console.error("Not implemented");
}
let field = new Float32Array(wasm.memory.buffer, fieldPtr, width*height);
fieldDrawer.draw(field);
if (document.getElementById("gridlines").checked) {
lineDrawer.draw();
}
}
async function drawLoop() {
draw();
switch (eq_set) {
case "maxwell":
universe.advance(0.2*Math.min(1/width, 1/height));
// universe.advance_with_matrix(0.2*Math.min(1/width, 1/height));
break;
case "euler":
universe.advance_upwind(0.2*Math.min(1/width, 1/height));
break;
case "shallow":
universe.advance();
break;
default:
console.error(`Not implemented: ${eq_set}`);
}
animation = window.requestAnimationFrame(drawLoop);
}
const menu = document.getElementById("menu");
const menu_toggle = document.getElementById("toggle-menu");
menu_toggle.addEventListener("click", () => {
if (menu.style.visibility === "") {
menu.style.visibility = "hidden";
} else {
menu.style.visibility = "";
}
}, {"passive": false});
eq_sel.addEventListener("change", (e) => {
display_eqset(eq_sel.value);
}, {"passive": true});
function display_eqset(value) {
const euler_options = document.getElementById("euler-options");
euler_options.style.display = "none";
const maxwell_options = document.getElementById("maxwell-options");
maxwell_options.style.display = "none";
const shallow_options = document.getElementById("shallow-options");
shallow_options.style.display = "none";
function default_axes(x0, xn, y0, yn) {
document.getElementById("x0").value = x0;
document.getElementById("xn").value = xn;
document.getElementById("y0").value = y0;
document.getElementById("yn").value = yn;
}
if (value === "euler") {
euler_options.style.display = "block";
default_axes(-5.0, 5.0, -5.0, 5.0);
} else if (value === "maxwell") {
maxwell_options.style.display = "block";
default_axes(-1.0, 1.0, -1.0, 1.0);
} else if (value === "shallow") {
shallow_options.style.display = "block";
default_axes(-1.0, 1.0, -1.0, 1.0);
} else {
console.error(`Unknown value ${value}`);
}
is_setup = false;
}
let animation = null;
const play_button = document.getElementById("toggle-playing");
play_button.addEventListener("click", (_e) => {
if (!animation) {
if (!is_setup) {
setup();
is_setup = true;
}
animation = window.requestAnimationFrame(drawLoop);
} else {
if (is_setup) {
window.cancelAnimationFrame(animation);
animation = null;
}
}
}, {"passive": true});
const reset_button = document.getElementById("reset");
reset_button.addEventListener("click", (_e) => {
if (is_setup) {
window.cancelAnimationFrame(animation);
animation = null;
}
setup();
is_setup = true;
draw();
}, {"passive": true});
let chosenField = 0;
const chosenFieldButton = document.getElementById("fieldButton");
chosenFieldButton.addEventListener("click", (_e) => {
chosenField += 1;
if (is_setup) {
draw();
}
}, {"passive": true});
canvas.addEventListener("click", (e) => {
if (is_setup) {
const mousex = (e.clientX / canvas.clientWidth)*(bbox[1] - bbox[0]) + bbox[0];
const mousey = (1.0 - e.clientY / canvas.clientHeight)*(bbox[3] - bbox[2]) + bbox[2];
universe.init(mousex, mousey);
draw();
}
}, {"passive": false});
setup();
is_setup = true;
animation = window.requestAnimationFrame(drawLoop);
}());