Is this defined by the language? Is there a defined maximum? Is it different in different browsers?
+/ 9007199254740992
They are 64bit floating point values, the largest exact integral value is 2^{53}, or Note that the bitwise operators and shift operators operate on 32bit ints. Test it out!



From the reference:



It is 2^{53} == 9 007 199 254 740 992. This is because The min value is 2^{53}. This makes some fun things happening
And can also be dangerous :)
_{Further reading: http://blog.vjeux.com/2010/javascript/javascriptmax_intnumberlimits.html} 


In javascript, there is a number called Infinity examples:
This may be sufficient for some questions regarding this topic. 

Jimmy's answer correctly represents the continuous JavaScript integer spectrum as 9007199254740992 to 9007199254740992 inclusive (sorry 9007199254740993, you might think you are 9007199254740993, but you are wrong!). However, there is no answer that finds/proves this programatically (other than the one CoolAJ86 alluded to in his answer that would finish in 28.56 years ;), so here's a slightly more efficient way to do that (to be precise, it's more efficient by about 28.559999999968312 years :), along with a test fiddle:



To be safe
ReasoningI thought I'd be clever and find the value at which My machine can only count 10 million per second or so... so I'll post back with the definitive answer in 28.56 years. If you can't wait that long, I'm willing to bet that
Finding



The short answer is “it depends.” If you’re using bitwise operators anywhere (or if you’re referring to the length of an Array), the ranges are: Unsigned: Signed: (It so happens that the bitwise operators and the maximum length of an array are restricted to 32bit integers.) If you’re not using bitwise operators or working with array lengths: Signed: These limitations are imposed by the internal representation of the “Number” type, which generally corresponds to IEEE 754 doubleprecision floatingpoint representation. (Note that unlike typical signed integers, the magnitude of the negative limit is the same as the magnitude of the positive limit, due to characteristics of the internal representation, which actually includes a negative 0!) 


ECMAScript 6:



anything you want to use for bitwise operations must be between 0x80000000 (2147483648 or 2^31) and 0x7fffffff (2147483647 or 2^31  1). the console will tell you that 0x80000000 equals +2147483648, but 0x80000000 & 0x80000000 equals 2147483648 


Other may have already given the generic answer, but I thought it would be a good idea to give a fast way of determining it :
Which gives me 9007199254740992 within less than a millisecond in Chrome 30. It will test powers of 2 to find which one, when 'added' 1, equals himself. 


I did a simple test with a formula X(X+1)=1 and the largest value of X I can get to work on Safari, Opera and Firefox (tested on OSX) is 9e15. Here is the code I used for testing:



I write it like this:
Same for int32



maxInt = 1 >>> 1 in Firefox 3.6 it's 2^31  1. 


In the Google Chrome builtin javascript, you can go to approximately 2^1024 before the number is called infinity. 


Firefox 3 doesnt seem to have a problem with huge numbers. 1e+200 * 1e+100 will calculate fine to 1e+300. Safari seem to have no problem with it aswell. (For the record, this is on a Mac if anyone else decides to test this) Unless I lost my brain at this time of day, this is way bigger than a 64bit integer. 


UPDATE: Node.js and google Chrome seem to both be using 1024 bit floating point values so:



protected by antyrat Sep 26 '14 at 16:33
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