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In the code below, why 1-byte anUChar is automatically converted into 4 bytes to produce the desired result 0x300 (instead of 0x0 if anUChar would remain 1 byte in size):

unsigned char anUChar = 0xc0; // only the two most significant bits are set
int anInt = anUChar << 2; // 0x300 (correct)

But in this code, aimed at a 64-bit result, no automatic conversion into 8 bytes happens:

unsigned int anUInt = 0xc0000000; // only the two most significant bits are set
long long aLongLong = anUInt << 2; // 0x0 (wrong, means no conversion occurred)

And only placing an explicit type cast works:

unsigned int anUInt = 0xc0000000;
long long aLongLong = (long long)anUInt << 2; // 0x300000000 (correct)

And most importantly, would this behavior be the same in a program that targets 64-bit machines?

By the way, which of the two is most right and portable: (type)var << 1 or ((type)var) << 1?

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4 Answers 4

up vote 1 down vote accepted

char always gets promoted to int during arithmetic. I think this is specified behavior in the C standard.

However, int is not automatically promoted to long long.

Under some situations, some compilers (Visual Studio) will actually warn you about this if you try to left-shift a smaller integer and store it into a larger one.

By the way, which of the two is most right and portable: (type)var << 1 or ((type)var) << 1?

Both are fine and portable. Though I prefer the first one since it's shorter. Casting has higher precedence than shift.

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Thanks. However I compiled the second piece of code in my question with VC++ 9.0 at the highest warning level 4 and no warnings were produced. –  Desmond Hume Sep 15 '11 at 18:05
I just remembered this. It applies only in x64 if the value is used as a pointer offset. Thanks for pointing tha out. I'll fix my answer when I get back to a computer. (on iPhone right now) –  Mysticial Sep 15 '11 at 18:09
@Naveen: I just fixed my answer. The warning that Visual Studio will sometimes emit is this one: msdn.microsoft.com/en-us/library/ke55d167.aspx –  Mysticial Sep 15 '11 at 18:24

Because of integer promotions. For most operators (e.g. <<), char operands are promoted to int first.

This has nothing to do with where the result of the calculation is going. In other words, the fact that your second example assigns to a long long does not affect the promotion of the operands.

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Shorter integral types are promoted to an int type for bitshift operations. This has nothing to do with the type to which you assign the result of the shift.

On 64-bit machines, your second piece of code would be equally problematic since the int types are usually also 32 bit wide. (Between x86 and x64, long long int is typically always 64 and int 32 bits, only long int depends on the platform.)

(In the spirit of C++, I would write the conversion as (unsigned long long int)(anUInt) << 2, evocative of the conversion-constructor syntax. The first set of parentheses is purely because the type name consists of several tokens.)

I would also prefer to do bitshifting exclusively on unsigned types, because only unsigned types can be considered equivalent (in terms of values) to their own bit pattern value.

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int is not usually 64-bit on 64-bit machines... –  Oliver Charlesworth Sep 15 '11 at 17:24
@Oli: You're right, let me edit! I was thinking of long int. –  Kerrek SB Sep 15 '11 at 17:24

Conversion does happen. The problem is the result of the expression anUInt << 2 is an unsigned int because anUInt is an unsigned int.

Casting anUInt to a long long (actually, this is conversion in this particular case) is the correct thing to do.

Neither (type)var << 1 or ((type)var) << 1 is more correct or portable because operator precedence is strictly defined by the Standard. However, the latter is probably better because it's easier to understand to humans looking at the code casually. Others may disagree with this assertion.


Note that in your first example:

unsigned char anUChar = 0xc0; 
int anInt = anUChar << 2; 

...the result of the expression anUChar << 2 is not an unsigned char as you might expect, but an int because of Integral Promotion.

The operands of operator<< are integral or enumeration type (See Standard 5.8/1). When a binary operator that expects operands of arithmetic or enumeration type is called, the compiler attempts to convert both operands to the same type, so that the expression may yield a common type. In this case, integral promotion is performed on both operands (5/9). When an unsigned char takes part in integral promotion, it will be converted to an int if your platform can accomodate all possible values of unsigned char in an int, else it will be converted to an unsigned int (4.5/1).

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You might want to touch on why the char got converted then, since your post accidentally implies that it shouldn't have. –  Mooing Duck Sep 15 '11 at 17:31
Do I imply that? That was unintended. –  John Dibling Sep 15 '11 at 17:33
the result of the expression anUInt << 2 is an unsigned int because anUInt is an unsigned int. This implies: the result of the expression anUChar << 2 is an unsigned char because anUChar is an unsigned char. –  Mooing Duck Sep 15 '11 at 17:39
Ah, I suppose it does. Thx. –  John Dibling Sep 15 '11 at 17:40
@Mooing: How's that? –  John Dibling Sep 15 '11 at 17:51

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