# Wrong result when comparing 0.55 and 0.55f

In C, `0.55 == 0.55f` is false while `0.5 == 0.5f` is true. Why is it different?

1. Comparing `0.55`:

``````#include <stdio.h>
int main() {
if (0.55 == 0.55f)
printf("Hi");
else
printf("Hello");
}
``````

Outputs `Hello`.

2. Comparing `0.5`:

``````#include <stdio.h>
int main() {
if (0.5 == 0.5f)
printf("Hi");
else
printf("Hello");
}
``````

Outputs `Hi`.

For both the code snippets, I expected `Hello`.
Why this difference?

• Very related: Is floating point math broken? – Some programmer dude Jul 10 at 9:56
• And for floating point values, you should almost never do direct comparison for equality. Use an epsilon to compare for closeness instead. – Some programmer dude Jul 10 at 9:57
• @George: Some programmer dude said "an epsilon", not a particular epsilon. – Bathsheba Jul 10 at 10:00
• @Bathsheba Ah yep missed that. Though i'd argue it's confusing since C++ defines FLT_EPSILON and std::numeric_limits<float/double>::epsilon. – George Jul 10 at 10:02
• @George: As I'm sure you know, neither have any bearing at all on a choice of multiplicative, additive, or other type of epsilon one could consider using when comparing numerical quantities, – Bathsheba Jul 10 at 10:04

`0.5` is a dyadic rational and of an appropriate magnitude so `0.5` is exactly one-half either as a `float` or a `double`.

The same cannot be said for `0.55`. A `double` will store that number with no less precision than a `float`, and most likely more.

In both cases, the `float` is implicitly converted to a `double` prior to `==`, but by then any truncation has taken place.

• SO only for 0.5 the if part will work and for all other comparisons the else part will work, isn't it??@Bathsheba – Artho Cruz Jul 10 at 9:59
• Other numbers will work too, e.g. small integers, rationals like 0.25, large integral powers of 2. – Bathsheba Jul 10 at 10:00
• @Downvoter if I've slipped something please let me know. – Bathsheba Jul 10 at 10:13
• I did not down vote, but being a dyadic rational is a necessary but not sufficient condition that a number is exactly representable both as a `float` and a `double` (even assuming the C implementation uses base two). So this answer does not contain a full explanation. – Eric Postpischil Jul 10 at 10:27
• I've addressed that by adding "of an appropriate magnitude". – Bathsheba Jul 10 at 13:10

You are comparing two different types of values which are double and float. Think about the limitations of size with inexact numbers.

## Exact values (decimal)

A -> 1/2 with 5 decimals is 0.5000

B -> 1/2 with 10 decimals is 0.5000000000

A == B will always return true

## Inexact values (decimal)

A -> 1/3 with 5 decimals is 0.33333

B -> 1/3 with 10 decimals is 0.3333333333

A == B -> will always return false because they aren't the same.

Similarly, 0.55 cannot be represented exactly in binary but 0.5 can be.

The binary representation of 0.55d -> 0.10001100110011001101...

So they will not be equal

The binary representation of 0.5d -> 0.1

So they will be equal