Most answers went straight to `how do represent floats more accurately`

, which is strange because you're asking:

Can I reduce the precision of a float number

Which is the exact opposite. So I'll try to answer this.

However there are several way to "reduce precision":

- Reduce precision to gain performance
- Reduce memory footprint
- Round / floor arbitrarily
- Make the number more "fuzzy"
- Reduce the number of digits after the coma

I'll tackle those separately.

## Reduce precision to gain performance

Just to get it out of the way: simply because you're dropping precision off of your calculations on a float, doesn't mean it'll be any faster. Quite the contrary. This answer by @john16384:

```
f = Math.floor(f * 100) / 100;
```

Only adds up computation time. If you know the number of significant digits from the result is low, don't bother removing them, just carry *that* information with the number:

```
public class Number WithSignificantDigits {
private float value;
private int significantdigits;
(implement basic operations here, but don't floor/round anywhere)
}
```

If you're doing this because you're worried about performance: stop it now, just use the full precision. If not, read on.

## Reduce memory footprint

To actually *store* a number with less precision, you need to move away from `float`

.

One such representation is using an int with a fixed point convention (i.e. the last 2 digits are past the coma).

If you're trying to save on storage space, do this. If not, read on.

## Round / floor arbitrarily

To keep using float, but drop its precision, several options exist:

@john16384 proposed:

```
`f = Math.floor(f * 100) / 100;`
```

Or even

```
f = ((int) (f*100)) / 100.;
```

If the answer is this, your question is a duplicate. If not, read on.

## Make the number more "fuzzy"

Since you just want to lose precision, but haven't stated *how much*, you could do with bitwise shifts:

```
float v = 0;
int bits = Float.floatToIntBits(v);
bits = bits >> 7; // Precision lost here
float truncated = Float.intBitsToFloat(bits);
```

Use 7 bitshifts to reduce precision to nearest 1/128th (close enough to 1/100)

Use 10 bitshifts to reduce precision to nearest 1/1024th (close enough to 1/1000)

I haven't tested performance of those, but If your read this, you did not care.

If you want to lose precision, and you don't care about formatting (numbers may stil have a large number of digits after the coma, like 0,9765625 instead of 1), do this. If you care about formatting and want a limited number of digits after the coma, read on.

## Reduce the number of digits after the coma

For this you can:

- Follow @Mark Adelsberger's suggestion of
`BigDecimals`

, or
- Store as a
`String`

(*yuk*)

Because `float`

s or `double`

s won't let you do this in most cases.

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