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I don't know if I'm missing something obvious here but...

In IE, Opera and Chrome, I get what I expect from rounding numbers ending in a 5:

125 toPrecision(2) => 130
11.5 toPrecision(2) => 12

This is what I'd expect.

Firefox, though, is a little more 'sophisticated' yielding the following:

125 toPrecision(2) => 120 //wtf!!!
11.5 toPrecision(2) => 12

After a bit of head scratching, I've come to the conclusion that Firefox is using a 'rounding even' rule where, if the digit before the 5 is even the number rounds down and if the digit before the 5 is odd the number rounds up:

0.5 => 0
1.5 => 2
2.5 => 2
3.5 => 4, etc.

I am using the rounded results to test student solutions to engineering questions with pseudo-randomly generated question inputs. A question input in Chrome could be h=1020 mm but h=1030 mm in FF, Chrome or Opera.

I need a function to make rounding consistent, i.e. I want 0.0001235 to round up to 0.000124 and I want 1234 to round to 1240 so I can't use a simple num = Math.floor(num + 0.5); To complicate matters a bit, I want input variables and student answers to be correct to 3 sig digs unless the first digit is a 1, in which case I want 4 sig digs:

234.5 => 235
134.5 => 134.5

I've hacked a solution to the 3 or 4 sig digs depending upon the first digit by converting the number to a string and testing the first non-zero, non-decimal point and non-negative character for '1' - not pretty, but it works. I could do something similar for the rounding problem, checking whether the digit to be rounded is a 5 but I'm wondering if there is an elegant bit-wise solution.

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"I want 1234 to round to 1240"? –  Casey Chu Jul 4 '11 at 7:53

2 Answers 2

Please take a look at the tests here


JavaScript has a single number type: IEEE 754 Double Precision floating point. Having a single number type is one of JavaScript’s best features. Multiple number types can be a source of complexity, confusion, and error. A single type is simplifying and stabilizing.

Unfortunately, a binary floating point type has some significant disadvantages. The worst is that it cannot accurately represent decimal fractions, which is a big problem because humanity has been doing commerce in decimals for a long, long time. There would be advantages to switching to a binary-based number system, but that is not going to happen. As a consequence, 0.1 + 0.2 === 0.3 is false, which is the source of a lot of confusion.

Also take a look at the SO questions:

Good open source JavaScript math library for floating point operations?


Javascript BigDecimal library?

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Could you put the essence of the information behind links inline into your answer? This way the information will stay available even if the links go stale. –  Paŭlo Ebermann Jul 5 '11 at 0:36
Only the first one was external –  mplungjan Jul 5 '11 at 5:43

About "I want 0.0001235 to round up to 0.000124": This does not make much sense since unlike 0.5, 1.5, 2.5, etc., the decimal number 0.0001235 isn't exactly representable in radix 2; so its rounding may be a little above (A) or a little below (B) the exact value, where (A) and (B) would yield different roundings: 0.000124 for (A), 0.000123 for (B).

Even if you get a fractional number such as 1.5 to be rounded to an integer after some computations, (1.5).toPrecision(2) will not necessarily yield the value that is the closest to the exact value. The reason is that the exact value may be just below 1.5, in which case the correct rounding is 1, not 2. This problem is known as the Table Maker's Dilemma.

This also means that if two students use slightly different methods (both rather accurate) and round their approximations, they will get different rounded results (even though their approximations could be very close to each other). In case of a tie such as 0.0001235 (to be rounded to 0.000124), the Table Maker's Dilemma is unavoidable unless all computations are carried out exactly or the algorithm specifically checks tie cases.

However if the exact result is a tie or very close to a tie, it is still possible to check whether the student has answered either (A) or (B).

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