# Float comparison gives different results

Look at the following two codes, and tell me the reason why answers vary a lot.

``````#include<stdio.h>
int main() {
float a = 0.9;
if(a<0.9)
printf("hi"); // This will be the answer
else
printf("bye");
return 0;
}
``````

And if we change 0.9 to 0.8, then else's statement is printed:

``````#include<stdio.h>
int main() {
float a = 0.8;
if(a<0.8)
printf("hi");
else
printf("bye");//this will be the answer
return 0;
}
``````

So why this output changes when we just change a single digit?

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Don't be so dramatic! just change a single digit! You change a single digit in any program anywhere, the output changes. –  Shahbaz Sep 28 '11 at 8:40
@SHAHBAZ...i tries to accept it but it says your reputation is low, must have 15 –  am1ty9d9v Sep 28 '11 at 8:52
There you have it now –  Shahbaz Sep 28 '11 at 8:58
Also, read my answer too. I made a mistake at first and got -1s, but then edited it and now it includes a common workaround to your problem –  Shahbaz Sep 28 '11 at 8:59
@AmitYadav: Same thing is happen in case of 0.7. –  Nishant Sep 28 '11 at 11:29
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## 7 Answers

You have to know how floating points works.

Floating points are represented by using powers of two, each digit is used to represent `2^-x` where X is the n-th digit.

For example, `0.011` (binary) would be `2^-2 + 2^-3`, which is `0.25 + 0.125 = 0.375`

Now try to represent `0.9`. You are in trouble, since no power of two to represent it. The value this is represented in 32-bits and probably 64-bits machines will give a result slightly smaller than 0.9, whereas for 0.8 the result is precise and representable by powers of two.

You can try this out by opening a `python` prompt. Try and type a few numbers, eventually one will end with `...99999999`.

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Yeah, this explanation makes me get every reason. –  am1ty9d9v Sep 28 '11 at 8:58
@wormsparty: `0.8` is not exactly representable in single or double precision float. –  undur_gongor Sep 28 '11 at 9:08
Both 0.8 and 0.9 when converted to binary are recurring.Than what is the difference that makes both of the conditions work differently.? –  Tapasweni Pathak Nov 3 '12 at 3:02
The problem is that 0.8 is put into a float, so it has some binary representation probably in 32-bits of a number close to 0.8f. Afterwards, the comparaison is made on a double, so to compare it, it casts the float to a double in 64-bits representation, which no longer represents 0.8 exactly, but some other really close number. It compares it to the double 0.8, which did not suffer from the conversion. Look at the answers below for more details. –  wormsparty Nov 3 '12 at 10:53
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This error is due to floating point accuracy and because you are comparing a `float` type with a `double` value. Try to compare it versus floating point literals: `if(a<0.8f)`

I suggest you read the according wikipedia article, it explains in detail why your error happens.

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This is by far the more relevant answer. –  Kerrek SB Sep 28 '11 at 9:48
@Constantinius: Yes, i am agree with your explanation ragarding asked question, but why not same thing is happening with #include<stdio.h> int main() { float a = 0.9; if(a<0.9) printf("hi"); else printf("bye");//this will be the answer return 0; } Acording to ur answer bye shud be print, but it's not...But when change 0.9 to 0.8 it is ok.. –  Nishant Sep 28 '11 at 11:20
@Nishant: Because for 0.9, the (inaccurate) single precision value happens to be less than the (inaccurate) double precision value whereas for 0.8 it is greater. –  undur_gongor Sep 28 '11 at 11:53
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The literals `0.9` and `0.8` have type `double`. Since both values cannot be represented exactly, they will in fact be `0.9000000000000000222...` and `0.8000000000000000444...`.

When stored in the `float` (single precision) variable `a` they will be converted to single and become even more inaccurate: `0.89999997...` and `0.8000000119...`.

For the comparison with the literal `double` value they are converted back to `double` retaining the more inaccurate value.

As you can see from the numbers above, the comparison yields different results for `0.9` and `0.8`.

All this is assuming your platform has IEEE754 floats which is most probably the case.

You can see single/double representations of numbers at www.binaryconvert.com.

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According to the C Standard:

6.3.1.5 Real ﬂoating types

1) When a float is promoted to double or long double, or a double is promoted to long double, its value is unchanged.

2) When a double is demoted to float, a long double is demoted to double or float, or a value being represented in greater precision and range than required by its semantic type (see 6.3.1.8) is explicitly converted to its semantic type, if the value being converted can be represented exactly in the new type, it is unchanged. If the value being converted is in the range of values that can be represented but cannot be represented exactly, the result is either the nearest higher or nearest lower representable value, chosen in an implementation-deﬁned manner. If the value being converted is outside the range of values that can be represented, the behavior is undeﬁned.

The standard can be found here.

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This is due to rounding errors, to see the value of that you are using insert a printf before the if:

``````printf("a=%f\n", a);
``````
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First of all, as others mentioned, use values like `0.8f` when working with `float`s.

Also, floating point `==` comparison is something you would want to avoid because of the precision of this operation in the FPU. What always worked best for me, was to define a margin, let's say `1e-6f` (or the precision you need based on your application) and instead of this:

``````if (LHS == RHS)
``````

you write:

``````if (LHS-RHS < MARGIN && RHS-LHS < MARGIN)
``````

You could write a function (if you are a c++ fan) or macro (if you are a c fan (here comes the -1s)) that does this for you.

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No, he's testing `0.8 < 0.8` -> false, and `0.9 < 0.9` -> true –  wormsparty Sep 28 '11 at 8:42
@wormsparty Ouch! I thought a was 0.8 in both! Oops –  Shahbaz Sep 28 '11 at 8:43
@undur_gongor There I edited my answer –  Shahbaz Sep 28 '11 at 8:48
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Try this:

Instead of "if(a<0.9)" compare using "if(a<0.9f)"

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