125 lines
4.5 KiB
JavaScript
125 lines
4.5 KiB
JavaScript
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/* vim: set ts=2: */
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var X;
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if(typeof require !== 'undefined') {
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assert = require('assert');
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describe('source',function(){
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it('should load',function(){X=require('./');});
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it('all bessel functions', function() {
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assert.equal(typeof X.besseli, 'function');
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assert.equal(typeof X.besselj, 'function');
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assert.equal(typeof X.besselk, 'function');
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assert.equal(typeof X.bessely, 'function');
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});
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});
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} else { X = BESSEL; }
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function approx(a, b, t) { return Math.abs((a - b) / (Math.abs(a) + Math.abs(b))) <= t; }
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function chk(func, x, n, v, F, t) {
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var V = func(x,n);
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if(!approx(V, v, t) && v != V && !(isNaN(v) && isNaN(V))) throw new Error(F + "(" + x + "," + n + ") = " + V + " !~ " + v);
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}
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var funcs = ['besseli', 'besselj', 'besselk', 'bessely'];
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var tests = {
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'besseli': [
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[1.5, 1, 0.981666],
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[1.9, 2, 0.603272435],
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[2.5, 1, 2.516716242]
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],
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'besselj': [
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[1.5, 1, 0.557936508],
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[1.9, 2, 0.329925829],
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[2.5, 1, 0.497094103]
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],
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'besselk': [
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[1.5, 1, 0.277388],
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[1.9, 2, 0.296909301],
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[2.5, 1, 0.073890816]
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],
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'bessely': [
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[1.5, 1, -0.412308627],
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[1.9, 2, -0.669878674],
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[2.5, 1, 0.14591814]
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] };
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describe('correctness', function() {
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funcs.forEach(function(F) { it(F, function() {
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tests[F].forEach(function(t) { chk(X[F], t[0], t[1], t[2], F, 1e-6); });
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});});
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if(typeof require != 'undefined') {
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var fs = require('fs');
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it('excel', function() {
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var xl = fs.readFileSync("test_files/excel.tsv", 'ascii').split("\n").map(function(l) { return l.split("\t");});
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xl.forEach(function(l) { if(l.length < 6) return;
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var x=Number(l[0]), n=Number(l[1]);
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var i=Number(l[2]), j=Number(l[3]), k=Number(l[4]), y=Number(l[5]);
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chk(X.besseli, x, n, i, 'besseli', 1e-4);
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chk(X.besselj, x, n, j, 'besselj', 1e-4);
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chk(X.besselk, x, n, k, 'besselk', 1e-4);
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chk(X.bessely, x, n, y, 'bessely', 1e-4);
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});
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});
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it('mma', function() {
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var mma = fs.readFileSync("test_files/mma.tsv", 'ascii').split("\n").map(function(l) { return l.split("\t");});
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mma.forEach(function(l) { if(l.length < 6) return;
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var x=Number(l[0]), n=Number(l[1]);
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var i=Number(l[2]), j=Number(l[3]), k=Number(l[4]), y=Number(l[5]);
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chk(X.besseli, x, n, i, 'besseli', 1e-5);
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chk(X.besselj, x, n, j, 'besselj', 1e-5);
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chk(X.besselk, x, n, k, 'besselk', 1e-5);
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chk(X.bessely, x, n, y, 'bessely', 1e-5);
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});
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});
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}
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});
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var rand = [
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0.3946086812775882, 3.946086812775882, 39.46086812775882,
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0.03119419917289612, 0.3119419917289612, 3.119419917289612,
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0.18311903629136062, 1.8311903629136062, 18.311903629136062,
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0.5317681126599452, 5.317681126599452, 53.17681126599452,
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0.37724541457032235, 3.7724541457032235, 37.724541457032235,
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0.8287802926845655, 8.287802926845655, 82.87802926845655,
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0.7197724866379658, 7.197724866379658, 71.97724866379658
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];
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describe('properties', function() {
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var t = 1e-4;
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it('limiting behavior', function() {
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chk(X.besselj, 0, 0, 1, 'besselj', 1e-6);
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chk(X.besseli, 0, 0, 1, 'besseli', 1e-6);
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chk(X.besselk, 0, 0, Infinity, 'besselk', 1e-6);
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chk(X.bessely, 0, 0, -Infinity, 'bessely', 1e-6);
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for(var i = 1; i < 20; ++i) {
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chk(X.besselj, 0, i, 0, 'besselj', 1e-6);
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chk(X.besseli, 0, i, 0, 'besseli', 1e-6);
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}
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});
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it('besselj', function() {
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var F = "BESSELJ", f = X.besselj;
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rand.forEach(function(r) {
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for(var n = 0; n < 20; ++n) {
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var pp = f( r, n), pn = f( r, -n), np = f(-r, n), nn = f(-r, -n);
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if((n%2)) {
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/* besselj odd if n is odd */
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if(!approx(np, -pp, t)) throw new Error(F + " np[" + np + "] != -pp[" + (-pp) + "] (" + r + "," + n + ")");
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if(!approx(nn, -pn, t)) throw new Error(F + " nn[" + nn + "] != -pn[" + (-pn) + "] (" + r + "," + n + ")");
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/* asymmetric in n */
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if(!approx(pn, -pp, t)) throw new Error(F + " pn[" + pn + "] != -pp[" + (-pp) + "] (" + r + "," + n + ")");
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if(!approx(nn, -np, t)) throw new Error(F + " nn[" + nn + "] != -pn[" + (-pn) + "] (" + r + "," + n + ")");
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} else {
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/* besselj even if n is even */
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if(!approx(np, pp, t)) throw new Error(F + " np[" + np + "] != pp[" + (pp) + "] (" + r + "," + n + ")");
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if(!approx(nn, pn, t)) throw new Error(F + " nn[" + nn + "] != pn[" + (pn) + "] (" + r + "," + n + ")");
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/* symmetric in n */
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if(!approx(pn, pp, t)) throw new Error(F + " pn[" + pn + "] != pp[" + (pp) + "] (" + r + "," + n + ")");
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if(!approx(nn, np, t)) throw new Error(F + " nn[" + nn + "] != pn[" + (pn) + "] (" + r + "," + n + ")");
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}
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}
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});
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});
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});
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