# What is the difference between increment operator(++) and an addition (+) operator?Why can't we can use + instead of ++?

What is the difference between increment operator(++) and an addition (+) operator?Why can't we can use + instead of ++?

What are the advantages of ++/-- operators over +/-? And where it exactly applied? I am new to C.... Please explain...

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++ modifies the object it is applied to. And, yes, it's unary as well... – Lindydancer Jan 30 '13 at 21:25
It's less of an issue in C nowadays, and the choice of `++` is mostly stylistic. In C++, it makes a big difference since some containers overload only `++` and not `+`. – nneonneo Jan 30 '13 at 21:28

x++;

v.s.

``````x = x + 1;
``````

The main advantage comes from pre-increment v.s. post increment:

e.g.

``````x = 1;
y = 1;

a = x + 1; // a is 2, x  is 1  - e.g. does not modify x

a = ++x;   // a is 1, x is 2
b = y++;   // b is 2, y is 2
``````

The major downside is that stuff like

``````a = ++x + x--;
``````

is undefined behavior. Completely compiler dependent and WILL make life hell for anyone trying to figure out the "bug".

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The only difference that is given by the C standard is the number of evaluations of `x`. For normal variables the difference usually doesn't matter. If the compiler can prove that in `x = x + 1` the two evaluations of `x` should give the same value it might optimize this out.

If `x` is e.g declared volatile or involves the evaluation of a function, the evaluation must be done twice. Example:

``````unsigned* f(void);
``````

then

``````*f() = *f() + 1;
``````

is quite different from

``````++(*f());
``````
-

You could in fact use addition:

``````a = a + 1
``````

But most people prefer the shorter version. In some languages it actually avoids the need to copy the value to a new location, but as nneonneo has helpfully pointed out, the C compiler is likely to optimise this for you.

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Modern C compilers are probably going to optimize `a=a+1` into `a++`. – nneonneo Jan 30 '13 at 21:26
@nneonneo thank you for the information - answer updated. – Steve Fenton Jan 30 '13 at 21:29

"++" means "plus one" eg

``````int x = 5;
x++;  // the same as x = x + 1
cout << x; // will print 6
``````

"+" is the known plus operator

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`++` is a convenience syntax. It does not really add capability to the language, but it adds a way of writing some common operations more concisely.

As a standalone statement `a++;` is identical to `a+=1;` is identical to `a=a+1`;

`a++` can be useful in some situations that would otherwise need two statements:

`while (a < N) doSomethingWith(a++);`

is just a shorter form of

``````while (a<N)
{
doSomethingWith(a);
a=a+1;
}
``````

I don't think there is anything you can write with an `a++` that you couldn't also write with an `a=a+1`, but you can't just do a 1 for 1 substitution. Sometimes the 2nd form will require more code to be equivalent, since the 1st performs two things: produce the value of `a`, and then increment `a`. The `a=a+1` form produces the value of `a` after the increment, so if you need the original value, you need a separate statement to process that first.

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It's actually not syntactic sugar, because there's not always a way to "de-sugar" the operation without introducing additional sequence points. – Dietrich Epp Jan 30 '13 at 21:28
Ok. Reworded to be clearer. It's not purely equivalent, but neither is it strictly needed. – AShelly Jan 30 '13 at 21:47

The unary operators (++, --) are mainly there for convenience - it's easier to write `x++` than it is to write `x = x + 1` for example.

`++` can also be used to do a 'pre-increment' or a 'post-increment'. If you write `x++` then the value of `x` is increased and the original value of `x` is returned. For example:

``````int a = 0;
int x = 0;
a = x++;  //  x is now equal to 1, but a is equal to 0.
``````

If you write `++x`, x is still incremented, but the new value is returned:

``````int a = 0;
int x = 0;
a = ++x;  //  Both a and x now equal 1.
``````

There is also usually a minor difference in the compiler's implementation as well. Post-increment (`x++`) will do something like this:

• Create a temporary variable
• Copy `x` to the temporary variable
• Increment `x`
• Return the temporary variable

Whereas pre-increment (`++x`) will do something like this:

• Increment `x`
• Return `x`

So using pre-increment requires less operations than post-increment, but in modern day systems this usually makes no worthwile difference to be a decent way of optimising code.

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increment doing on register but addition do by ALU we can use + instead of increment but increment is faster

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Wrong. Both can use the same instructions. – Dietrich Epp Jan 30 '13 at 21:26
no it is not same you thing it is same but do by different hardware in cpu – mohammad mohsenipur Jan 30 '13 at 21:29
Both can use the same instructions. If the instructions are the same, then the hardware will interpret them the same. The compiler does not do anything special with the increment operation, it is equivalent to addition. – Dietrich Epp Jan 30 '13 at 21:32
you can search my told in Computer_Organization__Design__and_Architecture it for hardware engineer – mohammad mohsenipur Jan 30 '13 at 21:35
@mohammadmohsenipur: Experiment: `echo 'main(){int x=0;x++;}' | gcc -xc - -S -o- > a.s ; echo 'main(){int x=0;x=x+1;}' | gcc -xc - -S -o- > b.s ; diff a.s b.s`. On my machine, there are no differences. The compiler treats these two statements the exact same way, so the hardware must too. – nneonneo Jan 30 '13 at 21:43