# How memset initializes an array of integers by -1?

The manpage says about `memset`:

``````#include <string.h>
void *memset(void *s, int c, size_t n)
``````

The `memset()` function fills the first `n` bytes of the memory area pointed to by `s` with the constant byte `c`.

It is obvious that `memset` can't be used to initialize `int` array as shown below:

``````int a;
memset(a, 1, sizeof(a));
``````

it is because `int` is represented by 4 bytes (say) and one can not get the desired value for the integers in array `a`.
But I often see the programmers use `memset` to set the `int` array elements to either `0` or `-1`.

``````int a;
int b;
memset(a, 0, sizeof(a));
memset(b, -1, sizeof(b));
``````

As per my understanding, initializing with integer `0` is OK because `0` can be represented in 1 byte (may be I am wrong in this context). But how is it possible to initialize `b` with `-1` (a 4 bytes value)?

• You are slightly wrong about the reason initializing with `0` is OK. It is OK because `0` fits in an `unsigned char` (so it is not truncated when used as the second argument to `memset`) and because the bit pattern in memory for a `sizeof(int)`-byte zero is identical to the bit pattern in memory for `sizeof(int)` sequential one-byte zeros. Both of those things must be true for this to work. In fact, those things are true for exactly two numbers in twos-complement arithmetic: `0` and `-1`.
– zwol
Jul 22, 2015 at 0:36
• @zwol: Hmm? The first sentence speaks of zeros and so is not literally true for −1. So presumably you intend to implicitly parameterize the first sentence: It works for x if the bits for an `int` with value x are the same as the bits for `sizeof(int)` `unsigned char` each with the value x. Further, we must consider the `unsigned char` with value x as resulting from conversion of x to `unsigned char`, as −1 is not representable. If so, then it is not true that 0 and −1 are the only such values. 16,843,009 • x works for any integer 0 ≤ x < 256. (16,843,009 is hex 1010101). Oct 27, 2020 at 17:45
• @zwol: Except for the fact that C does not require the bit positions in integers of different widths to represent the same values. Oct 27, 2020 at 17:48
• @EricPostpischil I don't understand your example. No multiple of 16,843,009 is representable by any of the `char` types (well, unless you're on a machine where `CHAR_BIT >= 25`.)
– zwol
Oct 27, 2020 at 18:12
• @zwol: `0x34343434` is a multiple of 16,843,009; it is `0x34 * 0x01010101`. `int a; memset(&a, 0x34343434, sizeof a);` will set each byte of `a` to `0x34`. Then the value of `a` will be `0x34343434`. Oct 27, 2020 at 18:47

Oddly, the reason this works with `-1` is exactly the same as the reason that this works with zeros: in two's complement binary representation, `-1` has `1`s in all its bits, regardless of the size of the integer, so filling in a region with bytes filled with all `1`s produces a region of `-1` signed `int`s, `long`s, and `short`s on two's complement hardware.

On hardware that differs from two's complement the result will be different. The `-1` integer constant would be converted to an `unsigned char` of all ones, because the standard is specific on how the conversion has to be performed. However, a region of bytes with all their bits set to `1` would be interpreted as integral values in accordance with the rules of the platform. For example, on sign-and-magnitude hardware all elements of your array would contain the smallest negative value of the corresponding type.

• Wouldn't using `~0` be effectively the same (and more clear)? Jun 13, 2014 at 14:46
• @FiddlingBits Yes, using `~0` would definitely avoid the confusion here. Jun 13, 2014 at 14:50
• @haccks If you fill with all-ones bit pattern a region of memory that corresponds to a `sizeof` of some integral type (`int`, `long`, or `short`) and then re-interpret that region as the corresponding integral type, you would see `-1` on computers with two-s complement representation. Note that on rare occasions when you have a sign-magnitude hardware you would see the smallest negative integer representable on that hardware (I have never seen such hardware, or even a person who mentioned seeing such hardware, but I heard that it does exist). Jun 13, 2014 at 15:08
• @haccks You are right, using `-1` as a "shortcut" for a "byte filled with all ones" is platform-specific. I added some clarifications to this, along with the long comment above. Thanks! Jun 13, 2014 at 15:23
• @chux The standard says that in order to convert a negative integral value to `unsigned` the compiler must subtract the magnitude of the negative value from the 2^N, where N is the number of bits in the unsigned integral type. Here, N is 8, so the result is 256-1=255, an unsigned value. This is how they avoided making the process implementation-defined without requiring 2s complement representation. That's why my understanding is that `-1` would be converted to an all-ones bit pattern regardless of the way the negatives are represented on the target platform. Jun 13, 2014 at 18:44

# When all bits of a number are `0`, its value is also 0. However, if all bits are `1` the value is -1.

If we write `int a`, 4x2 bytes of memory is allocated which contains random/garbage bits-

``````00110000 00100101 11100011 11110010    11110101 10001001 00111000 00010001
``````

Then, we write `memset(a, 0, sizeof(a))`. Now, `memset()` works byte by byte, and one byte representation (`unsigned char`) of 0 is `00000000`. So, it becomes-

``````00000000 00000000 00000000 00000000    00000000 00000000 00000000 00000000
``````

Therefore, both `a` and `a` are initialized with 0.

Now, lets see `memset(a, -1, sizeof(a))`: one byte for -1 is `11111111`. And, we get-

``````11111111 11111111 11111111 11111111    11111111 11111111 11111111 11111111
``````

Here, both `a` and `a` will have the value -1.

However, for `memset(a, 1, sizeof(a))`: 1 in a byte is `00000001`-

``````00000001 00000001 00000001 00000001    00000001 00000001 00000001 00000001
``````

So, the value will be- 16843009.

• `void *memset( void *dest, int ch, size_t count );` => Copies the value `ch` (after conversion to `unsigned char`) into each of the first count characters of the object pointed to by `dest`. Oct 27, 2020 at 18:23