/** * Checks that the first two arguments are equal, or are numbers close enough to be considered equal * based on a specified maximum allowable difference. * * @example assert.close(3.141, Math.PI, 0.001); * * @param Number actual * @param Number expected * @param Number maxDifference (the maximum inclusive difference allowed between the actual and expected numbers) * @param String message (optional) */ function close(actual, expected, maxDifference, message) { var actualDiff = (actual === expected) ? 0 : Math.abs(actual - expected), result = actualDiff <= maxDifference; message = message || (actual + " should be within " + maxDifference + " (inclusive) of " + expected + (result ? "" : ". Actual: " + actualDiff)); QUnit.push(result, actual, expected, message); } /** * Checks that the first two arguments are equal, or are numbers close enough to be considered equal * based on a specified maximum allowable difference percentage. * * @example assert.close.percent(155, 150, 3.4); // Difference is ~3.33% * * @param Number actual * @param Number expected * @param Number maxPercentDifference (the maximum inclusive difference percentage allowed between the actual and expected numbers) * @param String message (optional) */ close.percent = function closePercent(actual, expected, maxPercentDifference, message) { var actualDiff, result; if (actual === expected) { actualDiff = 0; result = actualDiff <= maxPercentDifference; } else if (actual !== 0 && expected !== 0 && expected !== Infinity && expected !== -Infinity) { actualDiff = Math.abs(100 * (actual - expected) / expected); result = actualDiff <= maxPercentDifference; } else { // Dividing by zero (0)! Should return `false` unless the max percentage was `Infinity` actualDiff = Infinity; result = maxPercentDifference === Infinity; } message = message || (actual + " should be within " + maxPercentDifference + "% (inclusive) of " + expected + (result ? "" : ". Actual: " + actualDiff + "%")); QUnit.push(result, actual, expected, message); }; /** * Checks that the first two arguments are numbers with differences greater than the specified * minimum difference. * * @example assert.notClose(3.1, Math.PI, 0.001); * * @param Number actual * @param Number expected * @param Number minDifference (the minimum exclusive difference allowed between the actual and expected numbers) * @param String message (optional) */ function notClose(actual, expected, minDifference, message) { var actualDiff = Math.abs(actual - expected), result = actualDiff > minDifference; message = message || (actual + " should not be within " + minDifference + " (exclusive) of " + expected + (result ? "" : ". Actual: " + actualDiff)); QUnit.push(result, actual, expected, message); } /** * Checks that the first two arguments are numbers with differences greater than the specified * minimum difference percentage. * * @example assert.notClose.percent(156, 150, 3.5); // Difference is 4.0% * * @param Number actual * @param Number expected * @param Number minPercentDifference (the minimum exclusive difference percentage allowed between the actual and expected numbers) * @param String message (optional) */ notClose.percent = function notClosePercent(actual, expected, minPercentDifference, message) { var actualDiff, result; if (actual === expected) { actualDiff = 0; result = actualDiff > minPercentDifference; } else if (actual !== 0 && expected !== 0 && expected !== Infinity && expected !== -Infinity) { actualDiff = Math.abs(100 * (actual - expected) / expected); result = actualDiff > minPercentDifference; } else { // Dividing by zero (0)! Should only return `true` if the min percentage was `Infinity` actualDiff = Infinity; result = minPercentDifference !== Infinity; } message = message || (actual + " should not be within " + minPercentDifference + "% (exclusive) of " + expected + (result ? "" : ". Actual: " + actualDiff + "%")); QUnit.push(result, actual, expected, message); }; QUnit.extend(QUnit.assert, { close: close, notClose: notClose });