Recently, I've been thinking about all the ways that one could iterate through an array and wondered which of these is the most (and least) efficient. I've written a hypothetical problem and five possible solutions.

**Problem**

Given an `int`

array `arr`

with `len`

number of elements, what would be the most efficient way of assigning an arbitrary number `42`

to every element?

**Solution 0: The Obvious**

```
for (unsigned i = 0; i < len; ++i)
arr[i] = 42;
```

**Solution 1: The Obvious in Reverse**

```
for (unsigned i = len - 1; i >= 0; --i)
arr[i] = 42;
```

**Solution 2: Address and Iterator**

```
for (unsigned i = 0; i < len; ++i)
{ *arr = 42;
++arr;
}
```

**Solution 3: Address and Iterator in Reverse**

```
for (unsigned i = len; i; --i)
{ *arr = 42;
++arr;
}
```

**Solution 4: Address Madness**

```
int* end = arr + len;
for (; arr < end; ++arr)
*arr = 42;
```

**Conjecture**

The **obvious** solutions are almost always used, but I wonder whether the subscript operator could result in a multiplication instruction, as if it had been written like `*(arr + i * sizeof(int)) = 42`

.

The **reverse** solutions try to take advantage of how comparing `i`

to `0`

instead of `len`

might mitigate a subtraction operation. Because of this, I prefer **Solution 3** over **Solution 2**. Also, I've read that arrays are optimized to be accessed forwards because of how they're stored in the cache, which could present an issue with **Solution 1**.

I don't see why **Solution 4** would be any less efficient than **Solution 2**. **Solution 2** increments the address and the iterator, while **Solution 4** only increments the address.

In the end, I'm not sure which of these solutions I prefer. I'm think the answer also varies with the target architecture and optimization settings of your compiler.

Which of these do you prefer, if any?

`memset`

. – Kiril Kirov Sep 16 '13 at 8:08`(unsigned i = len - 1; i >= 0; --i)`

will hopefully give you a fat warning on your compiler, because it is an eternal loop. Since an unsigned value is always larger than 0. – Lundin Sep 16 '13 at 9:51