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Floating point inaccuracy examples

$a = 128.3;
$b = 140.7;
$c = 12.4;
echo $a-$b+$c;   //2.30926389122E-14

it will display "2.30926389122E-14"

Why it is NOT zero ??

$a = 112.7;
$b = 125.2;
$c = 12.5;
echo $a-$b+$c;   //0

whats the difference between them?

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marked as duplicate by Svish, Yoshi, Gordon, kapa, jensgram Jun 28 '11 at 10:13

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Well, for most calculations 0.0000000000000230926389122 is zero, i.e., the impact will be negligible :) –  jensgram Jun 28 '11 at 10:18

2 Answers 2

up vote 4 down vote accepted

The PHP doc answers this better than I could:

Floating point numbers have limited precision. Although it depends on the system, PHP typically uses the IEEE 754 double precision format, which will give a maximum relative error due to rounding in the order of 1.11e-16. Non elementary arithmetic operations may give larger errors, and, of course, error progragation must be considered when several operations are compounded.

Additionally, rational numbers that are exactly representable as floating point numbers in base 10, like 0.1 or 0.7, do not have an exact representation as floating point numbers in base 2, which is used internally, no matter the size of the mantissa. Hence, they cannot be converted into their internal binary counterparts without a small loss of precision. This can lead to confusing results: for example, floor((0.1+0.7)*10) will usually return 7 instead of the expected 8, since the internal representation will be something like 7.9999999999999991118....

So never trust floating number results to the last digit, and never compare floating point numbers for equality. If higher precision is necessary, the arbitrary precision math functions and gmp functions are available.

Edit: Your question title asked how to fix. It's simple... rounding. $val = round($val, 2);

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Regarding the fix: Alternatively, use an epsilon value when doing comparisons, e.g., abs($myVal) < MY_EPSILON_VALUE. –  jensgram Jun 28 '11 at 10:16

It's not a bug, it's a very-well documented phenomenon of IEEE754 floating point standards.

There are a limited number of bits to represent floating point numbers and there are, let me see if I can remember, yes, an infinite number of real numbers between any two distinct numbers.

That means you cannot represent all real numbers but have to provide approximations.

The way to fix it is to not assume that numbers can be represented exactly. You should detect if a number is close enough to zero rather than equal to zero, and you can do this by choosing a suitably small error value based on your numbers and operation.

Read What Every Computer Scientist Should Know About Floating-Point Arithmetic as a detailed treatise (warning, this may be a bit of a hard read), or see The Floating Point Guide for a gentler introduction.

That latter page also has a link to the BC Math package for PHP (arbitrary precision arithmetic) which may be of use to you.

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