Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

This was my Interview question in HP. I answered a++ takes less instruction compared to a = a +1;

I want to know which is useful in efficient programming, and how both are different from each other..?

Hoping for quick and positive response..

share|improve this question
This looks like a dupe/unanswerable question/bad interview technique. – Chris Lutz Dec 17 '10 at 8:23
What is "efficient programming"? – sharptooth Dec 17 '10 at 8:24
Both should be recognizable by any experienced C++ programmer. However, I read a++ faster than a = a + 1 which is the best argument I have. – Daniel Lidström Dec 17 '10 at 8:33
a++ is fast why so i want the explanation how its efficient than a = a +1; – mr_eclair Dec 17 '10 at 8:34
a++ (if I'm remember correctly) is an operation that modifies directly the variable (modifying directly bite) as a=a+1 requires the addition of a with another number. so if not optimized by your compiler it has to add 2 numbers bite by bite. – Jason Rogers Dec 17 '10 at 8:46

11 Answers 11

up vote 17 down vote accepted

In C, there would be no difference, if the compiler is smart.

In C++, it depends on what type a is, and whether the ++ operator is overloaded. To complicate matters even more, the = operator can be overloaded too, and a = a + 1 might not be the same as a++. For even more complication, the + operator can also be overloaded, so an innocent looking piece of code such as a = a + 1 might have drastic implications.

So, without some context, you simply cannot know.

share|improve this answer
There's no operator overloading in C (see tag). – Vovanium Dec 17 '10 at 11:13
@Vovanium: when I mentioned operator overloading, I mentioned C++. Nowhere did I say there's operator overloading in C. And when I answered this question, there was a C++ tag (see edit history). – darioo Dec 17 '10 at 11:37

First of all, in C++ this will depend on type of a. Clearly a can be of class type and have those operators overloaded and without knowing the details it's impossible to decide which is more efficient.

That said, both in C and C++ whatever looks cleaner is preferable. First write clear code, then profile it and see if it's intolerably slow.

share|improve this answer
clearly hes talking about int a. how can you add 1 to a class – code578841441 Dec 17 '10 at 8:33
i'm want to know a++ is fast why so i want the explanation how it's efficient than a = a +1 in efficient memory programming ? – mr_eclair Dec 17 '10 at 8:36
You can add one to a char and a pointer if you want to, so sharptooth's point is perfectly valid. – OJ. Dec 17 '10 at 8:37
@user - By overloading the addition operator. Condescension and incorrectness are a terrible combination. – Chris Lutz Dec 17 '10 at 8:38
@user521180: That's easy - I overload operator+ to accept int. – sharptooth Dec 17 '10 at 8:48

I think I would answer in an implementation independent way. The a++ is easier to read to me because it's just showing me what it does. Whereas for a = a + 1 I first have to scan all the addition. I prefer to go for the choice that's more foolproof.

The former, a++, evaluates to the prior value, so you can use it to express things in sometimes surprisingly simpler manners. For instance

// copy, until '\0' is hit.
while(*dest++ = *source++) ;

Apart from these considerations, I don't think any of them is more efficient, assuming you have to do with basic integer types.

share|improve this answer
while(*dest++ = *source++); - I like this statement, as all that are super-concise. – Alexander Rafferty Dec 17 '10 at 8:30
I like super-concise factor, but hate unreadability of this. – Pawel Zubrycki Dec 17 '10 at 8:37

I am not an expert in microprocessor design, but I guess many processors have a INC or DEC instruction. If the data type is int then increment can be done in one instruction. But a = a + 1 requires more, first add and then assignment. So a++ should be faster, obviously assuming that a is not a complex data type.

However a smart compile should do this kind of optimization. So the summery is, this is a tricky interview or exam question with almost no real life value unless you are working with a not-so-smart compiler.

share|improve this answer
However, depending on the architecture, you may want the two byte add instruction instead of a one byte inc instruction. Specifically, loops and jumps are often more efficient when aligned to certain boundaries so using the extra byte for alignment purposes. But really, this is a compiler issue and we programmers shouldn't have to worry about it. – Brian Dec 17 '10 at 13:32

With an optimizing compiler they are identical. The interview question is moot.

share|improve this answer
Not if you've overloaded operator=, operator+, or operator++ for the type of a. – Chris Lutz Dec 17 '10 at 8:26

As far as I know, there's no difference between a++ and a = a + 1.

HOWEVER, there is a difference between ++a and a = a + 1

Let's take the first case, a = a + 1.

a = a + 1 will have to take the value of a, add one to it, and then store the result back to a.

++a will be a single assembly instruction.

You can notice the difference with these two examples:

Example 1

int a = 1;
int x = a++; //x will be 1

Example 2

int a = 1;
int x = ++a; //x will be 2

BE AWARE! Most compilers optimize this today. If you have a++ somewhere in your code it will MOST likely be optimized to a single assembly instruction.

share|improve this answer
How old is your compiler? – Chris Lutz Dec 17 '10 at 8:28
There is also a subtle but important difference as to when the value of a changes. – Steve Fenton Dec 17 '10 at 8:28
@Sohnee - Yes, for the ++a and a = a + 1, but not a++ and a = a + 1, as far as I know. – raRaRa Dec 17 '10 at 8:31

Even more efficient in many cases in ++a. When a is an int or a pointer though it is not going to make any difference.

The rationale of why these increments are more efficient though than a=a+1 is because the instruction of increment is one instruction whereas the instructions involved in adding 1 to a then assigning it back is something like:

get the address of a push its contents onto the stack push 1 to the stack add them get the address of a (possibly already stored) write (pop) from the stack into this address

share|improve this answer
C syntax is nothing relevant with assembler insturctions. If expressions have same effect they may be compiled identical. Note, most (especially RISC) CPUs have no arithemic instructions affecting memory locations directly, so both will result 3 instructions: LOAD, ADD, STORE. – Vovanium Dec 17 '10 at 11:10

Really it all boils down to what your compiler does optimize.

Lets take the optimal case of a is an int. Then normally your compiler will make a++ and a=a+1 be exactly the same.

Now what can be pointed out, is that a = a + 1; is purely incrementing the value of the fixed amount 1, whereas a++ is incrementing the value of 1 of the type of the variable. So if it is an int, float etc you'll get 1->2, 3.4->4.4 in both cases.

But if a is a pointer to a array/list etc, you'll be able to change pointer to the next element in the list/array when using a++, while a = a+1 might do something else or not work at all.

Long answer short, I'd say a++ is better:

  • your code is clearer and shorter
  • your can manipulate a wider range of varaibles types
  • and should be more efficient since (I think but I'm not sure) ++ is a basic operator on the same level as << etc.: it modifies directly the variable, while a = a + 1, if not optimized by your compiler, will require more operations by adding a with another number.
share|improve this answer
means a++ will take less instruction as compared to a = a + 1; – mr_eclair Dec 17 '10 at 8:46
yep thats what I remember. if you consider without any smart optimization form your compiler) a=a+1 your program has to add bit by bit a (1010...1101)with 1 (000...0001) and put it back into a – Jason Rogers Dec 17 '10 at 8:49

Which notation should we use? Why?

We prefer the first version, ++a, because it more directly expresses the idea of incrementing. It says what we want to do (increment a) rather than how to do it.  (add 1 to a and then write the result to a).

In general, a way of saying something in a program is better than another if it more directly expresses an idea.

The result is more concise and easier for a reader to understand. If we wrote a=a+1, a reader could easily wonder whether we really meant to increment by 1.

Maybe we just mistyped a=b+1, a=a+2, or even a=a–1.

With ++a there are far fewer opportunities for such doubts.

Note: This is a logical argument about readability and correctness, not an argument about efficiency. Contrary to popular belief. Modern compilers tend to generate exactly the same code from a=a+1 as for ++a when a is one of the built-in types.

share|improve this answer

from :

++i is sometimes faster than, and is never slower than, i++.

share|improve this answer
Groundless assertion. In contradiction y=f(x++) have lower computation height than y=f(++x) (1 tick versus 2 ticks) because f(x) and x=x+1 can be computed in parallel in first but cannot in second. – Vovanium Dec 17 '10 at 11:02
This is not really an answer to the question, though - this was about a++ versus a = a + 1, not a++ versus ++a. – Paŭlo Ebermann Sep 9 '11 at 17:58

a++ is better than a+1 because in the case of floating point numbers a++ increments more efficiently than a=a+1. I.e. a++ increments exactly 1 and no rounding takes place.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.