```
double d = 0; // random decimal value with it's integral part within the range of Int32 and always positive.
int floored = (int) Math.Floor(d); // Less than or equal to.
int ceiled = (int) Math.Ceiling(d); // Greater than or equal to.
int lessThan = ? // Less than.
int moreThan = ? // Greater than.
```

The Floor and ceiling functions include the largest/smallest integer that is less than/greater than **or equal to** `d`

respectively. I want to find out the largest/smallest integer that is less than/greater than **but NOT equal to** `d`

respectively.

OF course this can be achieved through a few `if's and but's`

but I am looking for a method that either does not include branching or is at least a very fast since this operation will be performed billions of times in an algorithm.

Is binary manipulation possible? If not, what would be the best alternative?

The obvious solution would be something like:

```
int lessThan = (d - floored) > double.Epsilon ? floored : (floored-1);
int moreThan = (ceiled - d) > double.Epsilon ? ceiled : (ceiled+1);
```

**NOTE**: The objective is to find out whether `d`

is closer to `lessThan`

or `moreThan`

.

`d`

always positive? – harold Aug 12 '12 at 15:06`d % 1`

is more than or less than a half or 0 (special case)? – harold Aug 12 '12 at 15:24