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/**
* Copyright 2013 the V8 project authors. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use,
* copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following
* conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Update 10/21/2013: fixed loop variables at line 119
*/
var NavierStokes = new BenchmarkSuite('NavierStokes', [1484000],
[new Benchmark('NavierStokes',
true,
false,
180,
runNavierStokes,
setupNavierStokes,
tearDownNavierStokes,
null,
16)]);
var solver = null;
var nsFrameCounter = 0;
function runNavierStokes()
{
solver.update();
nsFrameCounter++;
if(nsFrameCounter==15)
checkResult(solver.getDens());
}
function checkResult(dens) {
this.result = 0;
for (var i=7000;i<7100;i++) {
this.result+=~~((dens[i]*10));
}
if (this.result!=77) {
throw(new Error("checksum failed"));
}
}
function setupNavierStokes()
{
solver = new FluidField(null);
solver.setResolution(128, 128);
solver.setIterations(20);
solver.setDisplayFunction(function(){});
solver.setUICallback(prepareFrame);
solver.reset();
}
function tearDownNavierStokes()
{
solver = null;
}
function addPoints(field) {
var n = 64;
for (var i = 1; i <= n; i++) {
field.setVelocity(i, i, n, n);
field.setDensity(i, i, 5);
field.setVelocity(i, n - i, -n, -n);
field.setDensity(i, n - i, 20);
field.setVelocity(128 - i, n + i, -n, -n);
field.setDensity(128 - i, n + i, 30);
}
}
var framesTillAddingPoints = 0;
var framesBetweenAddingPoints = 5;
function prepareFrame(field)
{
if (framesTillAddingPoints == 0) {
addPoints(field);
framesTillAddingPoints = framesBetweenAddingPoints;
framesBetweenAddingPoints++;
} else {
framesTillAddingPoints--;
}
}
function FluidField(canvas) {
function addFields(x, s, dt)
{
for (var i=0; i<size ; i++ ) x[i] += dt*s[i];
}
function set_bnd(b, x)
{
if (b===1) {
for (var i = 1; i <= width; i++) {
x[i] = x[i + rowSize];
x[i + (height+1) *rowSize] = x[i + height * rowSize];
}
for (var j = 1; j <= height; j++) {
x[j * rowSize] = -x[1 + j * rowSize];
x[(width + 1) + j * rowSize] = -x[width + j * rowSize];
}
} else if (b === 2) {
for (var i = 1; i <= width; i++) {
x[i] = -x[i + rowSize];
x[i + (height + 1) * rowSize] = -x[i + height * rowSize];
}
for (var j = 1; j <= height; j++) {
x[j * rowSize] = x[1 + j * rowSize];
x[(width + 1) + j * rowSize] = x[width + j * rowSize];
}
} else {
for (var i = 1; i <= width; i++) {
x[i] = x[i + rowSize];
x[i + (height + 1) * rowSize] = x[i + height * rowSize];
}
for (var j = 1; j <= height; j++) {
x[j * rowSize] = x[1 + j * rowSize];
x[(width + 1) + j * rowSize] = x[width + j * rowSize];
}
}
var maxEdge = (height + 1) * rowSize;
x[0] = 0.5 * (x[1] + x[rowSize]);
x[maxEdge] = 0.5 * (x[1 + maxEdge] + x[height * rowSize]);
x[(width+1)] = 0.5 * (x[width] + x[(width + 1) + rowSize]);
x[(width+1)+maxEdge] = 0.5 * (x[width + maxEdge] + x[(width + 1) + height * rowSize]);
}
function lin_solve(b, x, x0, a, c)
{
if (a === 0 && c === 1) {
for (var j=1 ; j<=height; j++) {
var currentRow = j * rowSize;
++currentRow;
for (var i = 0; i < width; i++) {
x[currentRow] = x0[currentRow];
++currentRow;
}
}
set_bnd(b, x);
} else {
var invC = 1 / c;
for (var k=0 ; k<iterations; k++) {
for (var j=1 ; j<=height; j++) {
var lastRow = (j - 1) * rowSize;
var currentRow = j * rowSize;
var nextRow = (j + 1) * rowSize;
var lastX = x[currentRow];
++currentRow;
for (var i=1; i<=width; i++)
lastX = x[currentRow] = (x0[currentRow] + a*(lastX+x[++currentRow]+x[++lastRow]+x[++nextRow])) * invC;
}
set_bnd(b, x);
}
}
}
function diffuse(b, x, x0, dt)
{
var a = 0;
lin_solve(b, x, x0, a, 1 + 4*a);
}
function lin_solve2(x, x0, y, y0, a, c)
{
if (a === 0 && c === 1) {
for (var j=1 ; j <= height; j++) {
var currentRow = j * rowSize;
++currentRow;
for (var i = 0; i < width; i++) {
x[currentRow] = x0[currentRow];
y[currentRow] = y0[currentRow];
++currentRow;
}
}
set_bnd(1, x);
set_bnd(2, y);
} else {
var invC = 1/c;
for (var k=0 ; k<iterations; k++) {
for (var j=1 ; j <= height; j++) {
var lastRow = (j - 1) * rowSize;
var currentRow = j * rowSize;
var nextRow = (j + 1) * rowSize;
var lastX = x[currentRow];
var lastY = y[currentRow];
++currentRow;
for (var i = 1; i <= width; i++) {
lastX = x[currentRow] = (x0[currentRow] + a * (lastX + x[currentRow] + x[lastRow] + x[nextRow])) * invC;
lastY = y[currentRow] = (y0[currentRow] + a * (lastY + y[++currentRow] + y[++lastRow] + y[++nextRow])) * invC;
}
}
set_bnd(1, x);
set_bnd(2, y);
}
}
}
function diffuse2(x, x0, y, y0, dt)
{
var a = 0;
lin_solve2(x, x0, y, y0, a, 1 + 4 * a);
}
function advect(b, d, d0, u, v, dt)
{
var Wdt0 = dt * width;
var Hdt0 = dt * height;
var Wp5 = width + 0.5;
var Hp5 = height + 0.5;
for (var j = 1; j<= height; j++) {
var pos = j * rowSize;
for (var i = 1; i <= width; i++) {
var x = i - Wdt0 * u[++pos];
var y = j - Hdt0 * v[pos];
if (x < 0.5)
x = 0.5;
else if (x > Wp5)
x = Wp5;
var i0 = x | 0;
var i1 = i0 + 1;
if (y < 0.5)
y = 0.5;
else if (y > Hp5)
y = Hp5;
var j0 = y | 0;
var j1 = j0 + 1;
var s1 = x - i0;
var s0 = 1 - s1;
var t1 = y - j0;
var t0 = 1 - t1;
var row1 = j0 * rowSize;
var row2 = j1 * rowSize;
d[pos] = s0 * (t0 * d0[i0 + row1] + t1 * d0[i0 + row2]) + s1 * (t0 * d0[i1 + row1] + t1 * d0[i1 + row2]);
}
}
set_bnd(b, d);
}
function project(u, v, p, div)
{
var h = -0.5 / Math.sqrt(width * height);
for (var j = 1 ; j <= height; j++ ) {
var row = j * rowSize;
var previousRow = (j - 1) * rowSize;
var prevValue = row - 1;
var currentRow = row;
var nextValue = row + 1;
var nextRow = (j + 1) * rowSize;
for (var i = 1; i <= width; i++ ) {
div[++currentRow] = h * (u[++nextValue] - u[++prevValue] + v[++nextRow] - v[++previousRow]);
p[currentRow] = 0;
}
}
set_bnd(0, div);
set_bnd(0, p);
lin_solve(0, p, div, 1, 4 );
var wScale = 0.5 * width;
var hScale = 0.5 * height;
for (var j = 1; j<= height; j++ ) {
var prevPos = j * rowSize - 1;
var currentPos = j * rowSize;
var nextPos = j * rowSize + 1;
var prevRow = (j - 1) * rowSize;
var currentRow = j * rowSize;
var nextRow = (j + 1) * rowSize;
for (var i = 1; i<= width; i++) {
u[++currentPos] -= wScale * (p[++nextPos] - p[++prevPos]);
v[currentPos] -= hScale * (p[++nextRow] - p[++prevRow]);
}
}
set_bnd(1, u);
set_bnd(2, v);
}
function dens_step(x, x0, u, v, dt)
{
addFields(x, x0, dt);
diffuse(0, x0, x, dt );
advect(0, x, x0, u, v, dt );
}
function vel_step(u, v, u0, v0, dt)
{
addFields(u, u0, dt );
addFields(v, v0, dt );
var temp = u0; u0 = u; u = temp;
var temp = v0; v0 = v; v = temp;
diffuse2(u,u0,v,v0, dt);
project(u, v, u0, v0);
var temp = u0; u0 = u; u = temp;
var temp = v0; v0 = v; v = temp;
advect(1, u, u0, u0, v0, dt);
advect(2, v, v0, u0, v0, dt);
project(u, v, u0, v0 );
}
var uiCallback = function(d,u,v) {};
function Field(dens, u, v) {
// Just exposing the fields here rather than using accessors is a measurable win during display (maybe 5%)
// but makes the code ugly.
this.setDensity = function(x, y, d) {
dens[(x + 1) + (y + 1) * rowSize] = d;
}
this.getDensity = function(x, y) {
return dens[(x + 1) + (y + 1) * rowSize];
}
this.setVelocity = function(x, y, xv, yv) {
u[(x + 1) + (y + 1) * rowSize] = xv;
v[(x + 1) + (y + 1) * rowSize] = yv;
}
this.getXVelocity = function(x, y) {
return u[(x + 1) + (y + 1) * rowSize];
}
this.getYVelocity = function(x, y) {
return v[(x + 1) + (y + 1) * rowSize];
}
this.width = function() { return width; }
this.height = function() { return height; }
}
function queryUI(d, u, v)
{
for (var i = 0; i < size; i++)
u[i] = v[i] = d[i] = 0.0;
uiCallback(new Field(d, u, v));
}
this.update = function () {
queryUI(dens_prev, u_prev, v_prev);
vel_step(u, v, u_prev, v_prev, dt);
dens_step(dens, dens_prev, u, v, dt);
displayFunc(new Field(dens, u, v));
}
this.setDisplayFunction = function(func) {
displayFunc = func;
}
this.iterations = function() { return iterations; }
this.setIterations = function(iters) {
if (iters > 0 && iters <= 100)
iterations = iters;
}
this.setUICallback = function(callback) {
uiCallback = callback;
}
var iterations = 10;
var visc = 0.5;
var dt = 0.1;
var dens;
var dens_prev;
var u;
var u_prev;
var v;
var v_prev;
var width;
var height;
var rowSize;
var size;
var displayFunc;
function reset()
{
rowSize = width + 2;
size = (width+2)*(height+2);
dens = new Array(size);
dens_prev = new Array(size);
u = new Array(size);
u_prev = new Array(size);
v = new Array(size);
v_prev = new Array(size);
for (var i = 0; i < size; i++)
dens_prev[i] = u_prev[i] = v_prev[i] = dens[i] = u[i] = v[i] = 0;
}
this.reset = reset;
this.getDens = function()
{
return dens;
}
this.setResolution = function (hRes, wRes)
{
var res = wRes * hRes;
if (res > 0 && res < 1000000 && (wRes != width || hRes != height)) {
width = wRes;
height = hRes;
reset();
return true;
}
return false;
}
this.setResolution(64, 64);
}