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Possible Duplicate:
Floating point inaccuracy examples

In my computer and using g++ I found that:

21*3.6 ==  75.60000000000000852651

and that ruins a simple loop. See this code:

  double incr=3.6;
  double limit=21*3.6;
  printf (" ¿%f == %.20f? \n", limit, limit);
  for (double x=0.0; x<limit; x += incr) {
    printf (" x %f < limit %f (dif = %.20f) \n", x, limit, limit-x);

and its output:

 ¿75.600000 == 75.60000000000000852651? 
x=0.000000, limit=75.600000 (dif = 75.60000000000000852651) 
x=3.600000, limit=75.600000 (dif = 72.00000000000001421085) 
x=7.200000, limit=75.600000 (dif = 68.40000000000000568434) 
x=10.800000, limit=75.600000 (dif = 64.80000000000001136868) 
x=14.400000, limit=75.600000 (dif = 61.20000000000000994760) 
x=18.000000, limit=75.600000 (dif = 57.60000000000000852651) 
x=21.600000, limit=75.600000 (dif = 54.00000000000000710543) 
x=25.200000, limit=75.600000 (dif = 50.40000000000000568434) 
x=28.800000, limit=75.600000 (dif = 46.80000000000000426326) 
x=32.400000, limit=75.600000 (dif = 43.20000000000000284217) 
x=36.000000, limit=75.600000 (dif = 39.60000000000000142109) 
x=39.600000, limit=75.600000 (dif = 36.00000000000000000000) 
x=43.200000, limit=75.600000 (dif = 32.39999999999999857891) 
x=46.800000, limit=75.600000 (dif = 28.79999999999999715783) 
x=50.400000, limit=75.600000 (dif = 25.19999999999999573674) 
x=54.000000, limit=75.600000 (dif = 21.59999999999999431566) 
x=57.600000, limit=75.600000 (dif = 17.99999999999999289457) 
x=61.200000, limit=75.600000 (dif = 14.39999999999999147349) 
x=64.800000, limit=75.600000 (dif = 10.79999999999999715783) 
x=68.400000, limit=75.600000 (dif = 7.20000000000000284217) 
x=72.000000, limit=75.600000 (dif = 3.60000000000000852651) 
x=75.600000, limit=75.600000 (dif = 0.00000000000001421085)  

that shows that the last time the loop should not be executed but for the error!


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marked as duplicate by Michael Petrotta, Anycorn, krtek, San Jacinto, Joe May 12 '11 at 21:24

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.

There should be a special link for UltraFAQs. – Warren P May 12 '11 at 21:25
have you tried float instead? – Lou May 12 '11 at 21:27
We need #SOSTDAnswer1: That's how floating-point works that we can flag these questions with. – S.Lott May 12 '11 at 21:27
up vote 6 down vote accepted

You need to read this:

What Every Computer Scientist Should Know About Floating-Point Arithmetic

You are using a floating point number, and you need to know what floating point means. What it can do, and what it can't do. There are numbers that you can represent in a few digits of text, that can't be exactly represented in a fixed-point, or floating-point binary numeric form. You are making assumptions about floating point that are not specifically related only to C programming, but to any computer system using floating point numbers.

share|improve this answer
Sure ! But, 21*3.6 does not seems as a dangerous and complex calculation, does it? – cibercitizen1 May 12 '11 at 21:26
@cibercitizen: It is. Read the linked doc (or read the linked dupe, it's easier to get through). – Michael Petrotta May 12 '11 at 21:28
The multiplication is not dangerous. It's the 3.6 that's dangerous. There's no such number (in floating point) as 3.6; it's rounded to the nearest floating point value. – R.. May 12 '11 at 21:57
Actually I partly take that back. Since the approximation of 3.6 uses all available mantissa bits and 21 is not a power of 2, the multiplication will also result in rounding at the tail. – R.. May 12 '11 at 21:58
The really "dangerous" part is the repeated additions. Each addition can introduce a small rounding error, which will be compounded every time the addition is repeated. – caf May 13 '11 at 1:17

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