# How to convert big negative scientific notation number into decimal notation string in javascript?

converter_scientific_notation_to_decimal_notation('1.34E-15') or converter_scientific_notation_to_decimal_notation(1.34E-15)

=> '0.00000000000000134'

converter_scientific_notation_to_decimal_notation('2.54E-20') or converter_scientific_notation_to_decimal_notation(2.54E-20)

=> '0.000000000000000000254'

Does such function exist in Javascript?

parseFloat is not good for big negative scientific number.

``````parseFloat('1.34E-5') => 0.0000134
parseFloat('1.34E-15') => 1.34e-15
``````
-

//This works for any positive or negative number with the exponential 'E', positive or negative. (You can convert a numerical string to a number by prefixing '+', or make it a string method, or a method of any object, and call the string or number.)

``````Number.prototype.noExponents= function(){
var data= String(this).split(/[eE]/);
if(data.length== 1) return data[0];

var  z= '', sign= this<0? '-':'',
str= data[0].replace('.', ''),
mag= Number(data[1])+ 1;

if(mag<0){
z= sign + '0.';
while(mag++) z += '0';
return z + str.replace(/^\-/,'');
}
mag -= str.length;
while(mag--) z += '0';
return str + z;
}

var n=2.54E-20;
n.noExponents();
``````

/* returned value: (String) 0.0000000000000000000254 */

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This is what I am looking for. Thank you! Too bad, Javascript does not have built-in function for this. I still don't understand why parseFloat works differently with big negative scientific notation number than with modest negative scientific notation number. –  vajrasky Apr 22 '13 at 6:41

I don't know of such a function offhand that works for any arbitrary small number, e.g. `2.54e-20`. I wrote a quick function that only works with negative-exponent scientific notation:

``````function scitodec(n) {
n = String(n);
var info = /([\d\.]+)e-(\d+)/i.exec(n);
if (!info) {
return n;
}

var num = info[1].replace('.', ''), numDecs = info[2] - 1;
var output = "0.";
for (var i = 0; i < numDecs; i++) {
output += "0";
}
output += num;

return output;
}
``````

Basically, it takes a parameter `n`, converts it to a string, and checks to see if it matches with the string format of a number in scientific notation. There are two conditions here: first, the number has to be sufficiently small or else it may be converted to "regular" notation anyway; for example, `String(2.54e-3)` returns `"0.00254"`. The second condition is that it has to be a number with a negative exponent. If these conditions aren't satisfied, the regex will not match and the string representation of `n` will be returned instead.

Then I take the mantissa, remove the decimal place, and use the exponent to generate a string with the appropriate number of zeros. Once that's done I append the mantissa and return the result. Here are some test vectors, if you will:

``````scitodec(1.34E-15) // returns "0.00000000000000134"
scitodec(2.54e-30) // returns "0.00000000000000000000000000000254"
scitodec(2.54e-10) // returns "0.000000000254"
scitodec(2.54e-3) // returns "0.00254"
scitodec(2.54e50) // returns "2.54e+50" (note, positive exponent)
scitodec(2.54e-999) // returns "0" (JS rounds down to 0)
``````

The last example demonstrates a property of numbers in JavaScript: if you have a sufficiently small number, pass it in as a string, not a number. For instance, `scitodec("2.54e-999")` does output the proper decimal (a rather large one, omitted here for brevity).

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+1, this approach can be expanded to allow for both -ve and +ve exponents to any size, provided the original value passed in is a string. –  RobG Apr 22 '13 at 5:11

You can use toFixed: `(1.34E-15).toFixed(18)` returns `0.000000000000001340`

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Unfortunately, this won't work for the second example: `(2.54e-20).toFixed(20)` rounds instead. –  Reid Apr 22 '13 at 4:49
Also, where the exponent is greater than 20, toFixed will throw a range error exceptoin. –  RobG Apr 22 '13 at 5:10