在 JavaScript 中验证十进制数的最简洁、最有效的方法是什么?
奖励积分:
测试用例:
01. IsNumeric('-1') => true
02. IsNumeric('-1.5') => true
03. IsNumeric('0') => true
04. IsNumeric('0.42') => true
05. IsNumeric('.42') => true
06. IsNumeric('99,999') => false
07. IsNumeric('0x89f') => false
08. IsNumeric('#abcdef') => false
09. IsNumeric('1.2.3') => false
10. IsNumeric('') => false
11. IsNumeric('blah') => false
@Joel 的回答非常接近,但在以下情况下会失败:
// Whitespace strings:
IsNumeric(' ') == true;
IsNumeric('\t\t') == true;
IsNumeric('\n\r') == true;
// Number literals:
IsNumeric(-1) == false;
IsNumeric(0) == false;
IsNumeric(1.1) == false;
IsNumeric(8e5) == false;
前段时间我不得不实现一个IsNumeric函数,以确定一个变量是否包含一个数值,无论其类型如何,它可能是一个String包含数值的(我还必须考虑指数表示法等),一个Number对象,几乎任何东西都可以传递给该函数,我无法做出任何类型假设,处理类型强制(例如,+true == 1;但true不应被视为"numeric")。
我认为值得分享对众多函数实现进行的这组+30 单元测试,并分享通过我所有测试的测试:
function isNumeric(n) {
return !isNaN(parseFloat(n)) && isFinite(n);
}
PS isNaN & isFinite由于强制转换为数字而具有令人困惑的行为。在 ES6 中,Number.isNaN和Number.isFinite将解决这些问题。使用它们时请记住这一点。
isNumeric: function(obj) {
var realStringObj = obj && obj.toString();
return !jQuery.isArray(obj) && (realStringObj - parseFloat(realStringObj) + 1) >= 0;
}
更新: 角 4.3:
export function isNumeric(value: any): boolean {
return !isNaN(value - parseFloat(value));
}
啊!不要听正则表达式的答案。RegEx 对此很讨厌,我说的不仅仅是性能。使用正则表达式很容易做出微妙的、不可能发现的错误。
如果你不能使用isNaN(),这应该工作得更好:
function IsNumeric(input)
{
return (input - 0) == input && (''+input).trim().length > 0;
}
这是它的工作原理:
该(input - 0)表达式强制 JavaScript 对您的输入值进行类型强制;它必须首先被解释为减法运算的数字。如果转换为数字失败,则表达式将导致NaN. 然后将此数字结果与您传入的原始值进行比较。由于左侧现在是数字,因此再次使用类型强制。既然双方的输入都从相同的原始值被强制转换为相同的类型,您会认为它们应该始终相同(始终为真)。但是,有一条特殊规则表示NaN永远不等于NaN,因此无法转换为数字的值(并且只有无法转换为数字的值)将导致 false。
长度检查是针对涉及空字符串的特殊情况。另请注意,它落在您的 0x89f 测试中,但那是因为在许多环境中,这是定义数字文字的好方法。如果您想捕捉该特定场景,您可以添加额外的检查。更好的是,如果这是您不使用的原因,isNaN()那么只需将您自己的功能包装起来isNaN(),也可以进行额外的检查。
综上所述,如果你想知道一个值是否可以转换为数字,实际上尝试将其转换为数字。
我回去研究了为什么空白字符串没有预期的输出,我想我现在明白了:一个空字符串被强制转换0为NaN. 在长度检查之前简单地修剪字符串将处理这种情况。
针对新代码运行单元测试,它只会在无穷大和布尔文字上失败,唯一应该出问题的时候是您是否正在生成代码(真的,谁会输入文字并检查它是否是数字?你应该知道),这将是一些奇怪的代码生成。
但是,再一次,使用它的唯一原因是如果出于某种原因你必须避免 isNaN()。
这种方式似乎运作良好:
function IsNumeric(input){
var RE = /^-{0,1}\d*\.{0,1}\d+$/;
return (RE.test(input));
}
在一行中:
const IsNumeric = (num) => /^-{0,1}\d*\.{0,1}\d+$/.test(num);
并测试它:
const IsNumeric = (num) => /^-{0,1}\d*\.{0,1}\d+$/.test(num);
function TestIsNumeric(){
var results = ''
results += (IsNumeric('-1')?"Pass":"Fail") + ": IsNumeric('-1') => true\n";
results += (IsNumeric('-1.5')?"Pass":"Fail") + ": IsNumeric('-1.5') => true\n";
results += (IsNumeric('0')?"Pass":"Fail") + ": IsNumeric('0') => true\n";
results += (IsNumeric('0.42')?"Pass":"Fail") + ": IsNumeric('0.42') => true\n";
results += (IsNumeric('.42')?"Pass":"Fail") + ": IsNumeric('.42') => true\n";
results += (!IsNumeric('99,999')?"Pass":"Fail") + ": IsNumeric('99,999') => false\n";
results += (!IsNumeric('0x89f')?"Pass":"Fail") + ": IsNumeric('0x89f') => false\n";
results += (!IsNumeric('#abcdef')?"Pass":"Fail") + ": IsNumeric('#abcdef') => false\n";
results += (!IsNumeric('1.2.3')?"Pass":"Fail") + ": IsNumeric('1.2.3') => false\n";
results += (!IsNumeric('')?"Pass":"Fail") + ": IsNumeric('') => false\n";
results += (!IsNumeric('blah')?"Pass":"Fail") + ": IsNumeric('blah') => false\n";
return results;
}
console.log(TestIsNumeric());.as-console-wrapper { max-height: 100% !important; top: 0; }我从http://www.codetoad.com/javascript/isnumeric.asp借用了那个正则表达式。解释:
/^ match beginning of string
-{0,1} optional negative sign
\d* optional digits
\.{0,1} optional decimal point
\d+ at least one digit
$/ match end of string
雅虎!用户界面使用这个:
isNumber: function(o) {
return typeof o === 'number' && isFinite(o);
}
接受的答案未通过您的测试 #7,我想这是因为您改变了主意。所以这是对已接受答案的回应,我对此有疑问。
在某些项目中,我需要验证一些数据,并尽可能确定它是一个可用于数学运算的 javascript 数值。
jQuery 和其他一些 javascript 库已经包含这样一个函数,通常称为isNumeric. 还有一篇关于 stackoverflow的帖子已被广泛接受为答案,与上述库使用的通用例程相同。
function isNumber(n) {
return !isNaN(parseFloat(n)) && isFinite(n);
}
首先,如果参数是长度为 1 的数组,并且该单个元素的类型被上述逻辑视为数字,则上面的代码将返回 true。在我看来,如果它是一个数组,那么它不是数字。
为了缓解这个问题,我添加了一个检查来从逻辑中折扣数组
function isNumber(n) {
return Object.prototype.toString.call(n) !== '[object Array]' &&!isNaN(parseFloat(n)) && isFinite(n);
}
当然,你也可以使用Array.isArray, jquery$.isArray或prototypeObject.isArray代替Object.prototype.toString.call(n) !== '[object Array]'
我的第二个问题是负十六进制整数文字字符串(“-0xA”-> -10)没有被算作数字。但是,正十六进制整数文字字符串 ("0xA" -> 10) 被视为数字。我需要两者都是有效的数字。
然后我修改了逻辑以考虑到这一点。
function isNumber(n) {
return Object.prototype.toString.call(n) !== '[object Array]' &&!isNaN(parseFloat(n)) && isFinite(n.toString().replace(/^-/, ''));
}
如果您担心每次调用函数时都会创建正则表达式,那么您可以在闭包中重写它,就像这样
var isNumber = (function () {
var rx = /^-/;
return function (n) {
return Object.prototype.toString.call(n) !== '[object Array]' &&!isNaN(parseFloat(n)) && isFinite(n.toString().replace(rx, ''));
};
}());
然后我采用了 CMS +30 个测试用例并克隆了jsfiddle 上的测试,添加了我的额外测试用例和我上面描述的解决方案。
它可能不会取代被广泛接受/使用的答案,但如果这更多是您对 isNumeric 函数结果的期望,那么希望这会有所帮助。
编辑:正如Bergi所指出的,还有其他可能的对象可以被视为数字,白名单比黑名单更好。考虑到这一点,我将添加到标准中。
我希望我的 isNumeric 函数只考虑数字或字符串
考虑到这一点,最好使用
function isNumber(n) {
return (Object.prototype.toString.call(n) === '[object Number]' || Object.prototype.toString.call(n) === '[object String]') &&!isNaN(parseFloat(n)) && isFinite(n.toString().replace(/^-/, ''));
}
测试解决方案
var testHelper = function() {
var testSuite = function() {
test("Integer Literals", function() {
ok(isNumber("-10"), "Negative integer string");
ok(isNumber("0"), "Zero string");
ok(isNumber("5"), "Positive integer string");
ok(isNumber(-16), "Negative integer number");
ok(isNumber(0), "Zero integer number");
ok(isNumber(32), "Positive integer number");
ok(isNumber("040"), "Octal integer literal string");
ok(isNumber(0144), "Octal integer literal");
ok(isNumber("-040"), "Negative Octal integer literal string");
ok(isNumber(-0144), "Negative Octal integer literal");
ok(isNumber("0xFF"), "Hexadecimal integer literal string");
ok(isNumber(0xFFF), "Hexadecimal integer literal");
ok(isNumber("-0xFF"), "Negative Hexadecimal integer literal string");
ok(isNumber(-0xFFF), "Negative Hexadecimal integer literal");
});
test("Foating-Point Literals", function() {
ok(isNumber("-1.6"), "Negative floating point string");
ok(isNumber("4.536"), "Positive floating point string");
ok(isNumber(-2.6), "Negative floating point number");
ok(isNumber(3.1415), "Positive floating point number");
ok(isNumber(8e5), "Exponential notation");
ok(isNumber("123e-2"), "Exponential notation string");
});
test("Non-Numeric values", function() {
equals(isNumber(""), false, "Empty string");
equals(isNumber(" "), false, "Whitespace characters string");
equals(isNumber("\t\t"), false, "Tab characters string");
equals(isNumber("abcdefghijklm1234567890"), false, "Alphanumeric character string");
equals(isNumber("xabcdefx"), false, "Non-numeric character string");
equals(isNumber(true), false, "Boolean true literal");
equals(isNumber(false), false, "Boolean false literal");
equals(isNumber("bcfed5.2"), false, "Number with preceding non-numeric characters");
equals(isNumber("7.2acdgs"), false, "Number with trailling non-numeric characters");
equals(isNumber(undefined), false, "Undefined value");
equals(isNumber(null), false, "Null value");
equals(isNumber(NaN), false, "NaN value");
equals(isNumber(Infinity), false, "Infinity primitive");
equals(isNumber(Number.POSITIVE_INFINITY), false, "Positive Infinity");
equals(isNumber(Number.NEGATIVE_INFINITY), false, "Negative Infinity");
equals(isNumber(new Date(2009, 1, 1)), false, "Date object");
equals(isNumber(new Object()), false, "Empty object");
equals(isNumber(function() {}), false, "Instance of a function");
equals(isNumber([]), false, "Empty Array");
equals(isNumber(["-10"]), false, "Array Negative integer string");
equals(isNumber(["0"]), false, "Array Zero string");
equals(isNumber(["5"]), false, "Array Positive integer string");
equals(isNumber([-16]), false, "Array Negative integer number");
equals(isNumber([0]), false, "Array Zero integer number");
equals(isNumber([32]), false, "Array Positive integer number");
equals(isNumber(["040"]), false, "Array Octal integer literal string");
equals(isNumber([0144]), false, "Array Octal integer literal");
equals(isNumber(["-040"]), false, "Array Negative Octal integer literal string");
equals(isNumber([-0144]), false, "Array Negative Octal integer literal");
equals(isNumber(["0xFF"]), false, "Array Hexadecimal integer literal string");
equals(isNumber([0xFFF]), false, "Array Hexadecimal integer literal");
equals(isNumber(["-0xFF"]), false, "Array Negative Hexadecimal integer literal string");
equals(isNumber([-0xFFF]), false, "Array Negative Hexadecimal integer literal");
equals(isNumber([1, 2]), false, "Array with more than 1 Positive interger number");
equals(isNumber([-1, -2]), false, "Array with more than 1 Negative interger number");
});
}
var functionsToTest = [
function(n) {
return !isNaN(parseFloat(n)) && isFinite(n);
},
function(n) {
return !isNaN(n) && !isNaN(parseFloat(n));
},
function(n) {
return !isNaN((n));
},
function(n) {
return !isNaN(parseFloat(n));
},
function(n) {
return typeof(n) != "boolean" && !isNaN(n);
},
function(n) {
return parseFloat(n) === Number(n);
},
function(n) {
return parseInt(n) === Number(n);
},
function(n) {
return !isNaN(Number(String(n)));
},
function(n) {
return !isNaN(+('' + n));
},
function(n) {
return (+n) == n;
},
function(n) {
return n && /^-?\d+(\.\d+)?$/.test(n + '');
},
function(n) {
return isFinite(Number(String(n)));
},
function(n) {
return isFinite(String(n));
},
function(n) {
return !isNaN(n) && !isNaN(parseFloat(n)) && isFinite(n);
},
function(n) {
return parseFloat(n) == n;
},
function(n) {
return (n - 0) == n && n.length > 0;
},
function(n) {
return typeof n === 'number' && isFinite(n);
},
function(n) {
return !Array.isArray(n) && !isNaN(parseFloat(n)) && isFinite(n.toString().replace(/^-/, ''));
}
];
// Examines the functionsToTest array, extracts the return statement of each function
// and fills the toTest select element.
var fillToTestSelect = function() {
for (var i = 0; i < functionsToTest.length; i++) {
var f = functionsToTest[i].toString();
var option = /[\s\S]*return ([\s\S]*);/.exec(f)[1];
$("#toTest").append('<option value="' + i + '">' + (i + 1) + '. ' + option + '</option>');
}
}
var performTest = function(functionNumber) {
reset(); // Reset previous test
$("#tests").html(""); //Clean test results
isNumber = functionsToTest[functionNumber]; // Override the isNumber global function with the one to test
testSuite(); // Run the test
// Get test results
var totalFail = 0;
var totalPass = 0;
$("b.fail").each(function() {
totalFail += Number($(this).html());
});
$("b.pass").each(function() {
totalPass += Number($(this).html());
});
$("#testresult").html(totalFail + " of " + (totalFail + totalPass) + " test failed.");
$("#banner").attr("class", "").addClass(totalFail > 0 ? "fail" : "pass");
}
return {
performTest: performTest,
fillToTestSelect: fillToTestSelect,
testSuite: testSuite
};
}();
$(document).ready(function() {
testHelper.fillToTestSelect();
testHelper.performTest(0);
$("#toTest").change(function() {
testHelper.performTest($(this).children(":selected").val());
});
});<script src="https://ajax.googleapis.com/ajax/libs/jquery/1.11.1/jquery.min.js" type="text/javascript"></script>
<script src="https://rawgit.com/Xotic750/testrunner-old/master/testrunner.js" type="text/javascript"></script>
<link href="https://rawgit.com/Xotic750/testrunner-old/master/testrunner.css" rel="stylesheet" type="text/css">
<h1>isNumber Test Cases</h1>
<h2 id="banner" class="pass"></h2>
<h2 id="userAgent">Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.11 (KHTML, like Gecko) Chrome/23.0.1271.95 Safari/537.11</h2>
<div id="currentFunction"></div>
<div id="selectFunction">
<label for="toTest" style="font-weight:bold; font-size:Large;">Select function to test:</label>
<select id="toTest" name="toTest">
</select>
</div>
<div id="testCode"></div>
<ol id="tests">
<li class="pass">
<strong>Integer Literals <b style="color:black;">(0, 10, 10)</b></strong>
<ol style="display: none;">
<li class="pass">Negative integer string</li>
<li class="pass">Zero string</li>
<li class="pass">Positive integer string</li>
<li class="pass">Negative integer number</li>
<li class="pass">Zero integer number</li>
<li class="pass">Positive integer number</li>
<li class="pass">Octal integer literal string</li>
<li class="pass">Octal integer literal</li>
<li class="pass">Hexadecimal integer literal string</li>
<li class="pass">Hexadecimal integer literal</li>
</ol>
</li>
<li class="pass">
<strong>Foating-Point Literals <b style="color:black;">(0, 6, 6)</b></strong>
<ol style="display: none;">
<li class="pass">Negative floating point string</li>
<li class="pass">Positive floating point string</li>
<li class="pass">Negative floating point number</li>
<li class="pass">Positive floating point number</li>
<li class="pass">Exponential notation</li>
<li class="pass">Exponential notation string</li>
</ol>
</li>
<li class="pass">
<strong>Non-Numeric values <b style="color:black;">(0, 18, 18)</b></strong>
<ol style="display: none;">
<li class="pass">Empty string: false</li>
<li class="pass">Whitespace characters string: false</li>
<li class="pass">Tab characters string: false</li>
<li class="pass">Alphanumeric character string: false</li>
<li class="pass">Non-numeric character string: false</li>
<li class="pass">Boolean true literal: false</li>
<li class="pass">Boolean false literal: false</li>
<li class="pass">Number with preceding non-numeric characters: false</li>
<li class="pass">Number with trailling non-numeric characters: false</li>
<li class="pass">Undefined value: false</li>
<li class="pass">Null value: false</li>
<li class="pass">NaN value: false</li>
<li class="pass">Infinity primitive: false</li>
<li class="pass">Positive Infinity: false</li>
<li class="pass">Negative Infinity: false</li>
<li class="pass">Date object: false</li>
<li class="pass">Empty object: false</li>
<li class="pass">Instance of a function: false</li>
</ol>
</li>
</ol>
<div id="main">
This page contains tests for a set of isNumber functions. To see them, take a look at the source.
</div>
<div>
<p class="result">Tests completed in 0 milliseconds.
<br>0 tests of 0 failed.</p>
</div>