Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

What actually happens when a Byte overflows?

Say we have

byte byte1 = 150; // 10010110  
byte byte2 = 199; // 11000111

If we now do this addition

byte byte3 = byte1 + byte2;

I think we'll end up with byte3 = 94 but what actually happens? Did I overwrite some other memory somehow or is this totally harmless?

share|improve this question
Your result should be 93... – Oliver Charlesworth Nov 11 '10 at 17:00
Removed the C and C++ tags because A. C and C++ have no "byte" datatype, and B. it's undefined behavior according to the standard. – Billy ONeal Nov 11 '10 at 17:00
This code won't compile. When you fix it, it will also become clear what happens at runtime. This is assuming your [c#] tag was accurate. – Hans Passant Nov 11 '10 at 17:01
@Armen: Yes, but in C and C++ the result is not "93", it is "Undefined behavior". Therefore the basic tenant of the question is violated. @ImJames: You didn't upset anyone. I just didn't want you to be upset when someone came along and took off the tags ;) – Billy ONeal Nov 11 '10 at 17:06
@Steve: I don't know about other fields, but anyone who ever worked in comms programming in C typedef'd a byte as an unsigned 8 bit value quicker than you can say "compile". – Lawrence Dol Nov 11 '10 at 18:38

12 Answers 12

up vote 7 down vote accepted

It's quite simple. It just does the addition and comes off at a number with more than 8 bits. The ninth bit (being one) just 'falls off' and you are left with the remaining 8 bits which form the number 94.

(yes it's harmless)

share|improve this answer
By the way, a very similar thing happens with signed bytes (or other signed numeric types), except for a signed byte there are only 7 'data' bits and one bit for the sign. This is why 127 + 1 = -128 for signed bytes. (the sign byte becomes 1 which means negative) – Sam Nov 11 '10 at 17:03
Alot of great answers here (everybody seemed to have a very clear picture of this but me:) Hard to pick the answer to accept but I pick this one was. Short and good explanation. Thanks all – ImJames Nov 11 '10 at 20:48
This is not correct as in C#, the given code won't actually compile. – Jeff Yates Oct 12 '11 at 20:04

In C# if you have

 checked { byte byte3 = byte1 + byte2; }

It will throw an overflow exception. Code is compiled unchecked by default. As the other answers are saying, the value will 'wrap around'. ie, byte3 = (byte1 + byte2) & 0xFF;

share|improve this answer
This code doesn't compile. When you fix it, the real answer becomes obvious. – Hans Passant Nov 11 '10 at 18:01
Which, the example or the inline example. Don't people with 3k+ rep have the option to correct answers? – Ian Quigley Nov 12 '10 at 10:27
This is not correct as the bytes are promoted to ints in the addition, resulting in an int. Therefore, this code won't compile without a cast. – Jeff Yates Oct 12 '11 at 20:08

The carry flag gets set... but besides the result not being what you expect, there should be no ill effects.

share|improve this answer

The top bits will be truncated. It is not harmful to any other memory, it is only harmful in terms of unintended results.

share|improve this answer

Typically (and the exact behaviour will depend on the language and platform), the result will be taken modulo-256. i.e. 150+199 = 349. 349 mod 256 = 93.

This shouldn't affect any other storage.

share|improve this answer

Since you have tagged your question C#, C++ and C, I'll answer about C and C++. In c++ overflow on signed types, including sbyte (which, I believe, is signed char in C/C++) results in undefined behavior. However for unsigned types, such as byte (which is unsigned char in C++) the result is takes modulo 2n where n is the number of bits in the unsigned type. In C# the second rule holds, and the signed types generate an exception if they are in checked block. I may be wrong in the C# part.

share|improve this answer
byte is unsigned char in WinDef.h. Obviously it could be anything, but I think we're being asked about Windows. – Steve Jessop Nov 11 '10 at 17:02
@steve: have I stated otherwise? – Armen Tsirunyan Nov 11 '10 at 17:03
@Armen: I'm calling your bluff. Yes you did, but then you edited. – Steve Jessop Nov 11 '10 at 17:05
@Steve: I had edited my answer right after I posted it. And then after your comment, which was way later than my edit, I edited again to make the word byte formatted like byte. So I guess we just had a synchronization problem – Armen Tsirunyan Nov 11 '10 at 17:07
@Armen: yes, that happens. If I get a pageful of results and take a minute to read them, then by the time I come to comment the answers I see could be out of date. Commenting doesn't reload the page, just does an AJAX thing, so what I see can remain out of date for quite a long time... – Steve Jessop Nov 11 '10 at 17:09

Overflow is harmless in c# - you won't overflow memory - you simply obly get the last 8 bits of the result. If you want this to this an exception, use the 'checked' keyword. Note also that you may find byte+byte gives int, so you may need to cast back to byte.

share|improve this answer

The behavior depends on the language.

In C and C++, signed overflow is undefined and unsigned overflow has the behavior you mentioned (although there is no byte type).

In C#, you can use the checked keyword to explicitly say you want to receive an exception if there is overflow and the unchecked keyword to explicitly say you want to ignore it.

share|improve this answer

Leading bit just dropped off.

share|improve this answer

And arithmetic overflow occurs. Since 150+199=349, binary 1 0101 1101, the upper 1 bit is dropped and the byte becomes 0101 1101; i.e. the number of bits a byte can hold overflowed.

No damage was done - e.g. the memory didn't overflow to another location.

share|improve this answer

Let's look at what actually happens (in C (assuming you've got the appropriate datatype, as some have pointed out that C doesn't have a "byte" datatype; nonetheless, there are 8-bit datatypes which can be added)). If these bytes are declared on the stack, they exist in main memory; at some point, the bytes will get copied to the processor for operation (I'm skipping over several important steps, such as processsor cacheing...). Once in the processor, they will be stored in registers; the processor will execute an add operation upon those two registers to add the data together. Here's where the cause of confusion occurs. The CPU will perform the add operation in the native (or sometimes, specified) datatype. Let's say the native type of the CPU is a 32-bit word (and that that datatype is what is used for the add operation); that means these bytes will be stored in 32-bit words with the upper 24 bits unset; the add operation will indeed do the overflow in the target 32-bit word. But (and here's the important bit) when the data is copied back from the register to the stack, only the lowest 8 bits (the byte) will be copied back to the target variable's location on the stack. (Note that there's some complexity involved with byte packing and the stack here as well.)

So, here's the upshot; the add causes an overflow (depending on the specific processor instruction chosen); the data, however, is copied out of the processor into a datatype of the appropriate size, so the overflow is unseen (and harmless, assuming a properly written compiler).

share|improve this answer
All this to say that an arithmetic overflow occurred - this must be why they call you McWafflestix <grin> – Lawrence Dol Nov 11 '10 at 18:33
@softwaremonkey: hehe, well, the thing is, it's not really an arithmetic overflow; in the operation space in which the operation gets executed, there's no overflow and no problem. It's useful to understand that these things occur in the way they do. Also, note that I was talking about C originally... – Paul Sonier Nov 11 '10 at 18:48

As far as C# goes, adding two values of type byte together results in a value of type int which must then be cast back to byte.

Therefore your code sample will result in a compiler error without a cast back to byte as in the following.

byte byte1 = 150; // 10010110  
byte byte2 = 199; // 11000111

byte byte3 = (byte)(byte1 + byte2);

See MSDN for more details on this. Also, see the C# language specification, section 7.3.6 Numeric promotions.

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.