// Copyright 2014 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. assertTrue(isNaN(Math.log1p(NaN))); assertTrue(isNaN(Math.log1p(function() {}))); assertTrue(isNaN(Math.log1p({ toString: function() { return NaN; } }))); assertTrue(isNaN(Math.log1p({ valueOf: function() { return "abc"; } }))); assertEquals("Infinity", String(1/Math.log1p(0))); assertEquals("-Infinity", String(1/Math.log1p(-0))); assertEquals("Infinity", String(Math.log1p(Infinity))); assertEquals("-Infinity", String(Math.log1p(-1))); assertTrue(isNaN(Math.log1p(-2))); assertTrue(isNaN(Math.log1p(-Infinity))); for (var x = 1E300; x > 1E-1; x *= 0.8) { var expected = Math.log(x + 1); assertEqualsDelta(expected, Math.log1p(x), expected * 1E-14); } // Values close to 0: // Use Taylor expansion at 1 for log(x) as test expectation: // log1p(x) == log(x + 1) == 0 + x / 1 - x^2 / 2 + x^3 / 3 - ... function log1p(x) { var terms = []; var prod = x; for (var i = 1; i <= 20; i++) { terms.push(prod / i); prod *= -x; } var sum = 0; while (terms.length > 0) sum += terms.pop(); return sum; } for (var x = 1E-1; x > 1E-300; x *= 0.8) { var expected = log1p(x); assertEqualsDelta(expected, Math.log1p(x), expected * 1E-14); }