What you are observing is the result of **integer truncation**. When doing integer division with two integer operands, the result will be another integer, with the *fractional* part thrown away. Note that this is different from rounding, e.g, with truncation 3.8 will become 3.

This will give you your expected output:

```
double sum = ((117+130) / 3.0) + ((130+13) / 3.0);
```

since we divide by `3.0`

rather than `3`

.

I.e., if at least *one*, or *both* of the operands in an integer division is a float type, the result will be a float. (Note that I'm using float/double here somewhat interchangeably with regard to `int`

s and truncations)

In addition to appending a `.`

or `.0`

to values (`.0`

will generate a `double`

, while `.0f`

will generate a `float`

- as pointed out by @Morwenn's helpful comment below), we can also explicitly cast ints to floats, but it matters *when* we do it. A simple example (note that the values end up as `float`

*after* the assignment in this example in any case since `v`

is a `float`

):

```
float v = 0;
/* values shown are BEFORE assignment */
v = (5 / 2); /* value is 2 due to integer truncation before assignment */
v = (float) (5 / 2); /* 2.0 as integer division occurs 1st, then cast to float */
v = (float) 5 / 2; /* 2.5 since 5 becomes 5.0 through casting first. */
```

I borrowed the above example from Division and floating points