5

Look at the output of this link(scroll down to see the output) to find out what I'm trying to accomplish

The problem is with the for loop on line number 9-11

for(i=0; i<=0.9; i+=0.1){
  printf("%6.1f ",i);
}

I expected this to print values from 0.0 until 0.9 but it stops after printing 0.8, any idea why ??

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17

5 Answers 5

Reset to default
7

Using float here is source of problem. Instead, do it with an int:

int i;
for(i = 0; i <= 10; i++)
   printf("%6.1f ", (float)(i / 10.0));

Output:

0.0    0.1    0.2    0.3    0.4    0.5    0.6    0.7    0.8    0.9    1.0
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4

Ideally floating point should not be used for iteration, but if you want to know why change your code and see how.

for(float i=0; i<=0.9f; ){
    i+=0.1f;
    System.out.println(i);
}

Here is the result.

0.1
0.2
0.3
0.4
0.5
0.6
0.70000005
0.8000001
0.9000001

your 9th value exceeds 0.9.

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3
  • Yes, but doesn't 0.9 in C also exceed 0.9 by the same amount?
    – Eric
    Jan 24, 2014 at 20:29
  • Yes it does, here difference is, the increment is before printing the value.
    – Nirmal Mangal
    Jan 24, 2014 at 20:52
  • Actually the key thing here is accumulation of errors due to summing - see my answer for at test case
    – Eric
    Jan 24, 2014 at 21:05
1

Floating point arithmetic is inexact in computing. This is because of the way that a computer represents floating point values. Here's an excerpt from an MSDN article on the subject:

Every decimal integer can be exactly represented by a binary integer; however, this is not >true for fractional numbers. In fact, every number that is irrational in base 10 will also be >irrational in any system with a base smaller than 10.

For binary, in particular, only fractional numbers that can be represented in the form p/q, >where q is an integer power of 2, can be expressed exactly, with a finite number of bits.

Even common decimal fractions, such as decimal 0.0001, cannot be represented exactly in >binary. (0.0001 is a repeating binary fraction with a period of 104 bits!)

Link to the full article: https://support.microsoft.com/kb/42980

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1

Floating point number cannot precisely represent decimals, so rounding errors accumulate:

#include <iostream>
#include <iomanip>
using namespace std;

int main() {
    float literal = 0.9;
    float sum = 0;
    for(int i = 0; i < 9; i++)
        sum += 0.1;

    cout << setprecision(10) << literal << ", " << sum << endl;
    return 0;
}

Output:

0.8999999762, 0.9000000954
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0

You loop is right, but the float comparison in loops is not safe. The problem is that a binary floating point number cannot exactly represent 0.1

This would work.

    for(i=0.0; i<=0.9001; i+=0.1){
           printf("%6.1f ",i);
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