# for every int x: x+1 > x … is this always true?

I'm just starting to learn C at school, I'm trying to get a hold of the basic concepts.

Our homework has a question,

for every `int x: x+1 > x`

Determine whether true or false, give reasoning if true and counterexample if false.

I'm confused because we were taught that the type int is of 32-bits and basically that means the integer is in binary format. Is x+1 adding 1 to the decimal value of 1?

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To answer this you need to understand that there are only a finite number of values that can be held in a variable of type `int` –  David Heffernan Jul 5 '13 at 20:52
Addition of `int` values is not defined in terms of binary or decimal representations. It's defined mathematically. It's up to the implementation to do the right things to the bits to produce the mathematically correct result. (And `int` is not necessarily 32 bits; it's required to be at least 16 bits, and it's commonly 32 bits these days, but it could be just about anything.) –  Keith Thompson Jul 5 '13 at 21:05

``````x + 1 > x
``````

is `1` for every `int` value except for value `INT_MAX` where `INT_MAX + 1` is an overflow and therefore `x + 1 > x` expression is undefined behavior for `x` value of `INT_MAX`.

This actually means a compiler has the right to optimize out the expression:

``````x + 1 > x
``````

by

``````1
``````

As `INT_MAX + 1` is undefined behavior, the compiler has the right to say that for this specific `>` expression `INT_MAX + 1` is `> INT_MAX`.

As the `x + 1 > x` expression is undefined behavior for `x == INT_MAX`, it is also not safe to assume `x + 1 > x` can be false (`0`).

Note that if `x` was declared as an `unsigned int` instead of an `int` the situation is completely different. `unsigned int` operands never overflow (they wrap around): `UINT_MAX + 1 == 0` and therefore `x + 1 > x` is `0` for `x == UINT_MAX` and `1` for all the other `x` values.

Modern compilers (like `gcc`) usually take the opportunity to optimize this expression and replace it with `1`.

For the record, there was some serious security issues with known server programs using code like:

`````` if (ptr + offset < ptr)
``````

The code was meant to trigger a safety condition but the compiler would optimize out the `if` statement (by replacing the expression with `0`) and it allowed an attacker to gain privilege escalation in the server program (by opening the possibility of an exploitable buffer overflow if I remember correctly).

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Is INT_MAX + 1 guaranteed to be INT_MIN? –  rogaos Jul 5 '13 at 20:56
@rogaos `INT_MAX + 1` invokes undefined behavior. It usually results in `INT_MIN` but this is not guaranteed by any specification. –  cdhowie Jul 5 '13 at 20:57
@rogaos Huh, what? If it overflows, then it invokes UB. It's not guaranteed to be anything, but in practice, it will most probably be `INT_MIN`. –  user529758 Jul 5 '13 at 20:57
UINT_MAX + 1 is, however, guaranteed to wrap around to 0 –  Ryan Haining Jul 5 '13 at 20:58
@H2CO3 thanks, I wan't clear. I edited my comment to reflect my real question. Thanks for the clarification! –  rogaos Jul 5 '13 at 21:01

Note for 32-bit number range is `[-2147483648, 2147483647]` that is equals to [-231, 231 -1 ].

So for expression `x+1 > x` is true for `[-2147483648, 2147483646]`

But not for `2147483647` because adding to `2147483647` in 32-bit size number causes bit overflow many implementations it makes `x + 1` to `-2147483648` But really behavior is Undefined in C standard.

So,

• `x + 1 > x` True for `x` in `[-2147483648, 2147483646]` only
• `x + 1 > x` , for `x = 2147483647` is Undefined value may be True or False depends on compiler. If a compiler calculates = `-2147483648` value will be False.
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`iNT_MAX + 1` happens to yield `INT_MIN` in many implementations, but in fact the operation's behavior is not defined by the C standard. See ouah's answer. –  Keith Thompson Jul 5 '13 at 21:03
@KeithThompson Not sure is it let me check? –  Grijesh Chauhan Jul 5 '13 at 21:04
ISO C section 6.5 paragraph 5. –  Keith Thompson Jul 5 '13 at 21:09
@KeithThompson thanks Keith, I feel instead of delete I should correct my answer. –  Grijesh Chauhan Jul 5 '13 at 21:11
Up to you, but ouah's answer covers it pretty well. –  Keith Thompson Jul 5 '13 at 21:12

I don't want to hand you the answer, so I'll reply with a question that should get you on the right track.

What is `x + 1` when `x` is the largest possible value that can be stored in a 32-bit signed integer? (2,147,483,647)

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But this is not an answer. Should be a comment. –  David Heffernan Jul 5 '13 at 20:53
Would that cause an overflow? ... or will it wrap around to the negative value? –  gormandy Jul 5 '13 at 20:54
@DavidHeffernan Perhaps, though I take a different approach to answering homework-related questions as the importance here is in the thought process and not the answer. But if it makes you happier I will add an explicit answer. –  cdhowie Jul 5 '13 at 20:55
FWIW, I'm a strong supporter of the notion of "strong hint as an answer to a homework question". –  Oliver Charlesworth Jul 5 '13 at 20:59
@OliCharlesworth, I am too. Much better option for actually learning the concepts! –  gormandy Jul 6 '13 at 0:11

Just give a value to `x` (in your mind). Let's say 2. Now, with 2, we have :

`````````(2 + 1) > 2```
``````

Is it true or false? And for others values of x?

Now, given that integers are stored in 32 bits, is there any cases where adding 1 to x can lead to (x + 1 < x) ?

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Yes, x + 1 adds to the decimal value of 1.

This will be true almost all of the time. But if you add 1 to INT_MAX (which is 215 - 1 or greater), you might flip the sign. Think about the decimal representation of `0111111` versus `11111111`. (Obviously not 32 bits, but the ideas hold.)

Look up two's complement if you're confused about why it flips. It's a pretty clever implementation of integers that makes addition easy.

EDIT: `INT_MAX + 1` is undefined behavior. Doesn't necessarily become `INT_MIN`. But since `x + 1` is not necessarily `> x` when `x == INT_MAX`, then the answer is clearly false!

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Since the behavior of evaluating `INT_MAX + 1` is undefined, `INT_MAX + 1 > INT_MAX` could evaluate to true. –  Keith Thompson Jul 5 '13 at 21:07
@KeithThompson meant to say not always. Edited to reflect this. Thanks! –  rogaos Jul 5 '13 at 21:07