gecko-dev/js/benchmarks/BenchPress.js
2003-02-24 21:37:37 +00:00

1013 lines
21 KiB
JavaScript

//********* BenchPress-v3.js **********
//
// A set of benchmarks to measure the efficiency of language implementations.
// Based in part on the Stanford Integer Benchmarks originally written by
// John Hennesey, modified by Peter Nye, and further modified by members of
// the Self group under David Ungar and Randy Smith.
//
// To be consistent with other languages, some benchmarks use 1-based indexing.
// To support this, arrays are created with an extra element and the contents
// of their zeroth entries are ignored.
//
//
// John Maloney, August 1995
//
//***************************************
/********** AbstractBenchmark **********/
function randInit()
{
this.seed = 74755;
}
function rand()
{
this.seed = (( this.seed * 1309) + 13849) & 0xffff;
return this.seed;
}
function testRand() {
this.randInit();
if ((this.rand() != 22896) ||
(this.rand() != 34761) ||
(this.rand() != 34014) ||
(this.rand() != 39231) ||
(this.rand() != 52540) ||
(this.rand() != 41445) ||
(this.rand() != 1546) ||
(this.rand() != 5947) ||
(this.rand() != 65224)) {
this.error("Random number generator");
}
}
function unimplemented() {
print("<not yet implemented>");
}
function AbstractBenchmark_error(s)
{
print("Error in " + s);
}
function AbstractBenchmark()
{
this.error = AbstractBenchmark_error;
this.rand = rand;
this.randInit = randInit;
this.run = unimplemented;
this.seed = 0;
}
AbstractBenchmark.Vect = new Array(10000);
/********** AbstractSortBenchmark **********/
function checkArray(a) {
var lastIndex, i;
/* Note: sort benchmarks use 1-based indexing */
lastIndex = a.length - 1;
if ((a[1] != this.littlest) || (a[lastIndex] != this.biggest)) {
this.error("Sort Benchmark: Array is not sorted");
return;
}
for (i = 2; i <= lastIndex; i++) {
if (a[i - 1] > a[i]) {
this.error("Sort Benchmark: Array is not sorted");
return;
}
}
}
function randomArray(arraySize) {
var a;
var i, val;
this.randInit();
a = new Array(arraySize + 1); /* extra for 1-based indexing */
this.biggest = -10000;
this.littlest = 10000;
for (i = 1; i <= arraySize; i++) {
val = this.rand();
a[i] = val;
if (val > this.biggest) this.biggest = val;
if (val < this.littlest) this.littlest = val;
}
return a;
}
function AbstractSortBenchmark()
{
this.biggest = 0;
this.littlest = 0;
this.randomArray = randomArray;
this.checkArray = checkArray;
}
AbstractSortBenchmark.prototype = new AbstractBenchmark;
/********** SieveBenchmark **********/
function sieve(flags, flagsSize)
{
var primeCount = 0;
for (var i = 0; i <= flagsSize; i++) {
flags[i] = true;
}
for (i = 2; i <= flagsSize; i++) {
if (flags[i]) {
primeCount++;
for (var k = i + i; k <= flagsSize; k = k + i) {
flags[k] = false; /* k is not prime */
}
}
}
return primeCount;
}
function SieveBenchmark_run()
{
if (sieve(this.flags, 8190) != 1027)
this.error("SieveBenchmark");
}
function SieveBenchmark()
{
this.flags = new Array(8191);
this.run = SieveBenchmark_run;
}
SieveBenchmark.prototype = new AbstractBenchmark;
/********** BounceBenchmark **********/
function Ball()
{
this.x = 0;
this.y = 0;
this.xVel = 0;
this.yVel = 0;
this.initializeFor = initializeFor;
this.bounce = bounce;
}
function initializeFor(bm)
{
this.x = bm.rand() % 500;
this.y = bm.rand() % 500;
this.xVel = (bm.rand() % 300) - 150;
this.yVel = (bm.rand() % 300) - 150;
return this;
}
function bounce()
{
var xLimit = 500;
var yLimit = 500;
var bounced = false;
this.x = this.x + this.xVel;
this.y = this.y + this.yVel;
if (this.x > xLimit) {
this.x = xLimit;
this.xVel = 0 - Math.abs(this.xVel);
bounced = true;
}
if (this.x < 0) {
this.x = 0;
this.xVel = Math.abs(this.xVel);
bounced = true;
}
if (this.y > yLimit) {
this.y = yLimit;
this.yVel = 0 - Math.abs(this.yVel);
bounced = true;
}
if (this.y < 0) {
this.y = 0;
this.yVel = Math.abs(this.yVel);
bounced = true;
}
return bounced;
}
function BounceBenchmark()
{
this.run = BounceBenchmark_run;
}
BounceBenchmark.prototype = new AbstractBenchmark;
function BounceBenchmark_run()
{
var ballCount = 100;
var balls;
var bounces = 0;
var i, j;
this.randInit();
balls = new Array(ballCount);
for (i = 0; i < ballCount; i++) {
balls[i] = (new Ball()).initializeFor(this);
}
for (i = 0; i < 10; i++) {
for (j = 0; j < ballCount; j++) {
if (balls[j].bounce()) bounces++;
}
}
if (bounces != 268) this.error("BounceBenchmark " + bounces);
}
/********** NestedForLoopBenchmark **********/
function NestedForLoopBenchmark_run()
{
var sum, i, j;
sum = 0;
for (i = 1000; i > 0; i--) {
for (j = 100; j > 0; j--) {
sum = sum + 1;
}
}
if (sum != 100000) {
this.error("NestedForLoopBenchmark");
}
}
function NestedForLoopBenchmark()
{
this.run = NestedForLoopBenchmark_run;
}
NestedForLoopBenchmark.prototype = new AbstractBenchmark;
/********** NestedWhileLoopBenchmark **********/
function NestedWhileLoopBenchmark_run()
{
var sum, i, j;
sum = 0;
i = 1000;
while (i > 0) {
j = 100;
while (j > 0) {
sum = sum + 1;
j--;
}
i--;
}
if (sum != 100000) {
this.error("NestedWhileLoopBenchmark");
}
}
function NestedWhileLoopBenchmark()
{
this.run = NestedWhileLoopBenchmark_run;
}
NestedWhileLoopBenchmark.prototype = new AbstractBenchmark;
/********** PermBenchmark **********/
function PermBenchmark()
{
this.count = 0;
this.v = 0;
this.run = PermBenchmark_run;
this.permute = permute;
this.swap = swap;
}
PermBenchmark.prototype = new AbstractBenchmark;
function swap(i, j)
{
var tmp = this.v[i];
this.v[i] = this.v[j];
this.v[j] = tmp;
}
function permute(n)
{
var i;
this.count++;
if (n != 1) {
this.permute(n - 1);
for (i = n - 1; i > 0; i--) {
this.swap(n, i);
this.permute(n - 1);
this.swap(n, i);
}
}
}
function PermBenchmark_run()
{
this.count = 0;
this.v = new Array(null,null,null,null,null,null,null,null); /* extra for 1-based indexing */
this.permute(7);
if (this.count != 8660) {
this.error("PermBenchmark");
}
}
/********** QueensBenchmark **********/
function QueensBenchmark()
{
this.freeRows = null;
this.freeMajs = null;
this.freeMins = null;
this.qrows = null;
this.run = QueensBenchmark_run;
this.placeQueen = placeQueen;
this.doQueens = doQueens;
}
QueensBenchmark.prototype = new AbstractBenchmark;
function placeQueen(col) {
for (var row = 1; row <= 8; row++) {
if (this.freeRows[row] && this.freeMajs[(col + row) - 1]
&& this.freeMins[(col - row) + 7]) {
this.qrows[col] = row;
this.freeRows[row] = false;
this.freeMajs[(col + row) - 1] = false;
this.freeMins[(col - row) + 7] = false;
if (col == 8) return true;
if (this.placeQueen(col + 1)) return true;
this.freeRows[row] = true;
this.freeMajs[(col + row) - 1] = true;
this.freeMins[(col - row) + 7] = true;
}
}
return false;
}
function doQueens()
{
var i;
/* allocate extra element in each array for 1-based indexing */
this.freeRows = new Array(9);
for (i = 8; i > 0; i--) {
this.freeRows[i] = true;
}
this.freeMajs = new Array(16);
for (i = 15; i > 0; i--) {
this.freeMajs[i] = true;
}
this.freeMins = new Array(16);
for (i = 15; i > 0; i--) {
this.freeMins[i] = true;
}
this.qrows = new Array(9);
for (i = 8; i > 0; i--) {
this.qrows[i] = -1;
}
if (!this.placeQueen(1)) this.error("QueensBenchmark");
}
function QueensBenchmark_run()
{
for (var i = 10; i > 0; i--)
this.doQueens();
}
/********** QuicksortBenchmark **********/
function QuicksortBenchmark()
{
this.run = QuicksortBenchmark_run;
this.sort = sort;
}
QuicksortBenchmark.prototype = new AbstractSortBenchmark;
function sort(a, l, r)
{
var i, j, pivot, temp;
i = l;
j = r;
pivot = a[Math.floor((l + r) / 2)];
while (i <= j) {
while (a[i] < pivot) i++;
while (pivot < a[j]) j--;
if (i <= j) {
temp = a[i];
a[i] = a[j];
a[j] = temp;
i++;
j--;
}
}
if (l < j) this.sort(a, l, j);
if (i < r) this.sort(a, i, r);
}
function QuicksortBenchmark_run()
{
var v;
v = this.randomArray(1000);
this.sort(v, 1, 1000);
this.checkArray(v);
}
/********** RecurseBenchmark **********/
function RecurseBenchmark()
{
this.run = RecurseBenchmark_run;
this.recurse = recurse;
}
RecurseBenchmark.prototype = new AbstractBenchmark;
function recurse(n)
{
if (n > 0) {
this.recurse(n - 1);
this.recurse(n - 1);
}
}
function RecurseBenchmark_run()
{
this.recurse(14);
}
/********** BubbleSortBenchmark **********/
function bubbleSort(a)
{
var top, i, curr, next;
top = a.length - 1;
while (top > 1) {
i = 1;
while (i < top) {
curr = a[i];
next = a[i + 1];
if (curr > next) {
a[i] = next;
a[i + 1] = curr;
}
i++;
}
top--;
}
}
function BubbleSortBenchmark()
{
this.run = BubbleSortBenchmark_run;
this.bubbleSort = bubbleSort;
}
BubbleSortBenchmark.prototype = new AbstractSortBenchmark;
function BubbleSortBenchmark_run()
{
var a;
a = this.randomArray(250);
this.bubbleSort(a);
this.checkArray(a);
}
/********** IncrementAllBenchmark **********/
function IncrementAllBenchmark()
{
this.run = IncrementAllBenchmark_run;
}
IncrementAllBenchmark.prototype = new AbstractBenchmark;
function IncrementAllBenchmark_run() {
var oldVal, i;
oldVal = AbstractBenchmark.Vect[1];
for (i = AbstractBenchmark.Vect.length - 1; i >= 0; i--) {
AbstractBenchmark.Vect[i] = AbstractBenchmark.Vect[i] + 1;
}
if (AbstractBenchmark.Vect[1] != (oldVal + 1)) {
this.error("IncrementAllBenchmark");
}
}
/********** MMIntBenchmark **********/
function IntegerMatrix(rowCount, columnCount)
{
this.rows = rowCount;
this.columns = columnCount;
this.data = new Array(rowCount);
for (var i = rowCount - 1; i >= 0; i--) {
this.data[i] = new Array(columnCount);
}
this.fillFor = IntegerMatrix_fillFor;
this.dotProduct = IntegerMatrix_dotProduct;
this.multiplyBy = IntegerMatrix_multiplyBy;
}
function IntegerMatrix_fillFor(bm)
{
for (var i = this.rows - 1; i >= 0; i--) {
for (var j = this.columns - 1; j >= 0; j--) {
this.data[i][j] = (bm.rand() % 120) - 60;
}
}
}
function IntegerMatrix_dotProduct(row, rowSize, otherM, columnIndex)
{
var sum = 0;
for (var i = 0; i < rowSize; i++) {
sum = sum + (row[i] * otherM.data[i][columnIndex]);
}
return sum;
}
function IntegerMatrix_multiplyBy(m)
{
var rowCount = this.rows;
var columnCount = m.columns;
var result = new IntegerMatrix(rowCount, columnCount);
for (var i = 0; i < rowCount; i++) {
for (var j = 0; j < columnCount; j++) {
result.data[i][j] =
this.dotProduct(this.data[i], this.columns, m, j);
}
}
return result;
}
function MMIntBenchmark()
{
this.run = MMIntBenchmark_run;
}
MMIntBenchmark.prototype = new AbstractBenchmark;
function MMIntBenchmark_run()
{
var ma, mb, mr;
ma = new IntegerMatrix(10, 10);
mb = new IntegerMatrix(10, 10);
ma.fillFor(this);
mb.fillFor(this);
mr = ma.multiplyBy(mb);
}
/********** MMFloatBenchmark **********/
function FloatMatrix(rowCount, columnCount)
{
this.rows = rowCount;
this.columns = columnCount;
this.data = new Array(rowCount);
for (var i = rowCount - 1; i >= 0; i--) {
this.data[i] = new Array(columnCount);
}
this.fillFor = FloatMatrix_fillFor;
this.dotProduct = FloatMatrix_dotProduct;
this.multiplyBy = FloatMatrix_multiplyBy;
}
function FloatMatrix_fillFor(bm)
{
for (var i = this.rows - 1; i >= 0; i--) {
for (var j = this.columns - 1; j >= 0; j--) {
this.data[i][j] = (1.0 * ((bm.rand() % 120) - 60));
}
}
}
function FloatMatrix_dotProduct(row, rowSize, otherM, columnIndex)
{
var sum = 0;
for (var i = 0; i < rowSize; i++) {
sum = sum + (row[i] * otherM.data[i][columnIndex]);
}
return sum;
}
function FloatMatrix_multiplyBy(m) {
var rowCount = this.rows;
var columnCount = m.columns;
var result = new FloatMatrix(rowCount, columnCount);
for (var i = 0; i < rowCount; i++) {
for (var j = 0; j < columnCount; j++) {
result.data[i][j] =
this.dotProduct(this.data[i], this.columns, m, j);
}
}
return result;
}
function MMFloatBenchmark()
{
this.run = MMFloatBenchmark_run;
}
MMFloatBenchmark.prototype = new AbstractBenchmark;
function MMFloatBenchmark_run()
{
var ma, mb, mr;
ma = new FloatMatrix(10, 10);
mb = new FloatMatrix(10, 10);
ma.fillFor(this);
mb.fillFor(this);
mr = ma.multiplyBy(mb);
}
/********** AtAllPutBenchmark **********/
function AtAllPutBenchmark()
{
this.run = AtAllPutBenchmark_run;
}
AtAllPutBenchmark.prototype = new AbstractBenchmark;
function AtAllPutBenchmark_run()
{
var i;
for (i = AbstractBenchmark.Vect.length - 1; i >= 0; i--) {
AbstractBenchmark.Vect[i] = 5;
}
if (AbstractBenchmark.Vect[1] != 5)
this.error("AtAllPutBenchmark");
}
/********** StorageBenchmark **********/
function StorageBenchmark()
{
this.count = 0;
this.run = StorageBenchmark_run;
this.buildTreeDepth = buildTreeDepth;
}
StorageBenchmark.prototype = new AbstractBenchmark;
function buildTreeDepth(depth)
{
this.count++;
if (depth == 1) {
return new Array(Math.floor((this.rand() % 10) + 1));
} else {
var newNode = new Array(4);
newNode[0] = this.buildTreeDepth(depth - 1);
newNode[1] = this.buildTreeDepth(depth - 1);
newNode[2] = this.buildTreeDepth(depth - 1);
newNode[3] = this.buildTreeDepth(depth - 1);
return newNode;
}
}
function StorageBenchmark_run()
{
this.randInit();
this.count = 0;
this.buildTreeDepth(6);
if (this.count != 1365) {
this.error("StorageBenchmark");
}
}
/********** SumAllBenchmark **********/
function SumAllBenchmark()
{
this.run = SumAllBenchmark_run;
}
SumAllBenchmark.prototype = new AbstractBenchmark;
function SumAllBenchmark_run()
{
var elementValue, sum, i;
elementValue = AbstractBenchmark.Vect[1];
sum = 0;
for (i = AbstractBenchmark.Vect.length - 1; i >= 0; i--) {
sum = sum + AbstractBenchmark.Vect[i];
}
if (sum != (AbstractBenchmark.Vect.length * elementValue)) {
this.error("SumAllBenchmark");
}
}
/********** SumFromToBenchmark **********/
function SumFromToBenchmark()
{
this.run = SumFromToBenchmark_run;
this.sumFromTo = sumFromTo;
}
SumFromToBenchmark.prototype = new AbstractBenchmark;
function sumFromTo(start, end)
{
var sum = 0;
for (var i = start; i <= end; i++) {
sum = sum + i;
}
return sum;
}
function SumFromToBenchmark_run() {
for (var i = 9; i > 0; i--)
this.sumFromTo(1, 10000);
if (this.sumFromTo(1, 10000) != 50005000) {
this.error("SumFromToBenchmark");
}
}
/********** TakBenchmark **********/
function TakBenchmark()
{
this.run = TakBenchmark_run;
this.tak = tak;
}
TakBenchmark.prototype = new AbstractBenchmark;
function tak(x, y, z)
{
if (y < x) {
return this.tak(
this.tak(x - 1, y, z),
this.tak(y - 1, z, x),
this.tak(z - 1, x, y));
} else {
return z;
}
}
function TakBenchmark_run()
{
var r = this.tak(18, 12, 6);
if (r != 7) this.error("TakBenchmark");
}
/********** TaklBenchmark **********/
function ListElement(n)
{
this.val = n;
this.next = null;
}
function listn(n)
{
if (n == 0) {
return null;
} else {
var newEl = new ListElement(n);
newEl.next = listn(n - 1);
return newEl;
}
}
function takl_length(l)
{
if (l.next == null) {
return 1;
} else {
return 1 + takl_length(l.next);
}
}
function shorterp(x, y)
{
var xTail, yTail;
xTail = x;
yTail = y;
while (yTail != null) {
if (xTail == null) return true;
xTail = xTail.next;
yTail = yTail.next;
}
return false;
}
function takl(x, y, z)
{
if (shorterp(y, x)) {
return takl(
takl(x.next, y, z),
takl(y.next, z, x),
takl(z.next, x, y));
} else {
return z;
}
}
function TaklBenchmark_run()
{
var r = takl(listn(18), listn(12), listn(6));
if (takl_length(r) != 7) {
this.error("TaklBenchmark");
}
}
function TaklBenchmark()
{
this.run = TaklBenchmark_run;
}
TaklBenchmark.prototype = new AbstractBenchmark;
/********** TowersBenchmark **********/
function TowersDisk(size)
{
this.diskSize = size;
this.next = null;
}
function TowersBenchmark()
{
this.piles = new Array(4);
this.movesdone = 0;
this.push = push;
this.pop = pop;
this.moveTopDisk = moveTopDisk;
this.buildTowerAt = buildTowerAt;
this.emptyPileAt = emptyPileAt;
this.tower = tower;
this.run = TowersBenchmark_run;
}
TowersBenchmark.prototype = new AbstractBenchmark;
function push(d, pileIndex)
{
var top = this.piles[pileIndex];
if ((top != null) && (d.diskSize >= top.diskSize)) {
this.error("TowersBenchmark: cannot put a big disk on a smaller one");
}
d.next = top;
this.piles[pileIndex] = d;
}
function pop(pileIndex)
{
var top = this.piles[pileIndex];
if (top == null) {
this.error("TowersBenchmark: attempting to remove a disk from an empty pile");
}
this.piles[pileIndex] = top.next;
top.next = null;
return top;
}
function moveTopDisk(fromPileIndex, toPileIndex)
{
this.push(this.pop(fromPileIndex), toPileIndex);
this.movesdone++;
}
function buildTowerAt(pileIndex, levels)
{
for (var i = levels; i > 0; i--) {
this.push(new TowersDisk(i), pileIndex);
}
}
function emptyPileAt(pileIndex)
{
this.piles[pileIndex] = null;
}
function tower(i, j, k)
{
if (k == 1) {
this.moveTopDisk(i, j);
} else {
var other = (6 - i) - j;
this.tower(i, other, k - 1);
this.moveTopDisk(i, j);
this.tower(other, j, k - 1);
}
}
function TowersBenchmark_run()
{
this.emptyPileAt(1);
this.emptyPileAt(2);
this.emptyPileAt(3);
this.buildTowerAt(1, 14);
this.movesdone = 0;
this.tower(1, 2, 14);
if (this.movesdone != 16383) this.error("TowersBenchmark");
}
/********** TreeSortBenchmark **********/
function TreeNode(n)
{
this.left = null;
this.right = null;
this.val = n;
this.checkTree = checkTree;
this.insert = insert;
}
function checkTree()
{
return ((this.left == null) ||
((this.left.val < this.val) && this.left.checkTree())) &&
((this.right == null) ||
((this.right.val >= this.val) && this.right.checkTree()));
}
function insert(n)
{
if (n < this.val) {
if (this.left == null) {
this.left = new TreeNode(n);
} else {
this.left.insert(n);
}
} else {
if (this.right == null) {
this.right = new TreeNode(n);
} else {
this.right.insert(n);
}
}
}
function TreeSortBenchmark()
{
this.run = TreeSortBenchmark_run;
}
TreeSortBenchmark.prototype = new AbstractSortBenchmark;
function TreeSortBenchmark_run()
{
var vSize = 1000;
var v = this.randomArray(vSize);
var tree = new TreeNode(v[1]);
for (var i = 2; i <= vSize; i++) {
tree.insert(v[i]);
}
if (!tree.checkTree()) {
this.error("TreeSortBenchmark");
}
}
/********** BenchmarkRunner **********/
function print2col(col1, col2) {
while (col1.length < 30)
col1 += " ";
print(col1 + col2);
}
function timeit(name, benchmark)
{
benchmark.run();
var startTime = new Date();
benchmark.run();
var elapsedTime = (new Date()).getTime() - startTime.getTime();
print2col(name, elapsedTime);
return elapsedTime;
}
function BenchmarkRunner()
{
var total = 0;
print("Benchpress(v3) in JavaScript...");
print2col("benchmark", "time (ms)");
total = total + timeit("AtAllPutBenchmark", new AtAllPutBenchmark());
total += timeit("BounceBenchmark", new BounceBenchmark());
total += timeit("BubbleSortBenchmark", new BubbleSortBenchmark());
total += timeit("IncrementAllBenchmark", new IncrementAllBenchmark());
total += timeit("MMIntBenchmark", new MMIntBenchmark());
total += timeit("MMFloatBenchmark", new MMFloatBenchmark());
total += timeit("NestedForLoopBenchmark", new NestedForLoopBenchmark());
total += timeit("NestedWhileLoopBenchmark", new NestedWhileLoopBenchmark());
total += timeit("PermBenchmark", new PermBenchmark());
total += timeit("QueensBenchmark", new QueensBenchmark());
total += timeit("QuicksortBenchmark", new QuicksortBenchmark());
total += timeit("RecurseBenchmark", new RecurseBenchmark());
total += timeit("SieveBenchmark", new SieveBenchmark());
total += timeit("StorageBenchmark", new StorageBenchmark());
total += timeit("SumAllBenchmark", new SumAllBenchmark());
total += timeit("SumFromToBenchmark", new SumFromToBenchmark());
total += timeit("TakBenchmark", new TakBenchmark());
total += timeit("TaklBenchmark", new TaklBenchmark());
total += timeit("TowersBenchmark", new TowersBenchmark());
total += timeit("TreeSortBenchmark", new TreeSortBenchmark());
print2col("total", total);
}
BenchmarkRunner();