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int main(void)
  char c = 0x80;
  printf("%d\n", c << 1);
  return 0;

The output is -256 in this case. If I write c << 0 then the output is -128.

I don't understand the logic behind this code.

share|improve this question
See c-faq.com/ansi/maindecl.html – Sinan Ünür Oct 22 '10 at 23:49
thnx fr correcting. – Brite Roy Oct 22 '10 at 23:49
up vote 6 down vote accepted

Already your starting point is problematic:

char c = 0x80;

If (as seemingly in your case) char is a signed type, you are assigning the integer constant 128 to a type that is only guaranteed to hold values up to 127. Your compiler then may choose to give you some implementation defined value (-128 in your case I guess) or to issue a range error.

Then you are doing a left shift on that negative value. This gives undefined behavior. In total you have several implementation defined choices plus undefined behavior that determine the outcome:

  • signedness of char
  • the choice of how to convert 128 to signed char
  • the width of char
  • the sign representation of int (there are three possibilities)
  • the choice on how to implement (or not) left shift on negative int

It may be a good exercise for you to look up all these case an to see what the different outcomes may be.

In summary some recommendations:

  • choose an appropriate constant to initialize a variable
  • don't do arithmetic with plain char
  • don't do left shift on signed types
share|improve this answer
Thanku Jens sir for ur answer. – Brite Roy Oct 23 '10 at 12:04
The first paragraph of the explanation is wrong and can mislead someone inexperienced. "char c = 0x80;" is fine just like "int c = 0xFFFFFFFF" is fine, but the part that isn't fine is assuming 0x80 will be 128 when char may be signed (range of -128 to 127, not 0 to 255) – B. Nadolson Jun 27 '15 at 3:20
@B.Nadolson, I don't think that it is misleading. The constant 0x80 is of type int and has value 128. This type and value on the RHS is determined first, and then that type and value is converted to fit the type on the LHS. Trying to initialize a possibly signed variable with a value that doesn't fit the type is a semantic error. – Jens Gustedt Jun 27 '15 at 7:08
C99 standard ( says you are right. Although it is common to represent a negative number with hex. Seem I can't reverse the vote. – B. Nadolson Jun 28 '15 at 20:03
@B.Nadolson, never mind for the vote. Yes, this is a common error. But in many cases the error is in fact in the choice of the type, as in this example. – Jens Gustedt Jun 28 '15 at 23:23

char may be signed on your platform, in which case 0x80 represents -128 (assuming two's complement).

When a char is used as an operand with the << operator, it is promoted to int (still -128). So when you apply the left-shift, you get -256. Technically, shifting negative values is implementation-defined undefined, but what you see is typical behaviour.

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I don't think your statement is about int promotion is correct. Shift operators don't do promotion, the result type is the type on the left. – Jens Gustedt Oct 23 '10 at 14:38
@Jens: To be fair, I only have the C99 standard in front of me. But it says in section 6.5.7: "The integer promotions are performed on each of the operands." – Oliver Charlesworth Oct 23 '10 at 14:43
oops, right. So I'll integrate that in my answer, too :) – Jens Gustedt Oct 23 '10 at 14:55
I didn't realize left-shifting negative values was undefined, but apparently it is. From § of the C99 standard, regarding the expression E1 << E2: "If E1 has a signed type and nonnegative value, and E1 × 2^E2 is representable in the result type, then that is the resulting value; otherwise, the behavior is undefined." – Adam Rosenfield Oct 24 '10 at 1:35

c is assigned 0x80. Assuming 8-bit bytes, its value in binary representation, is 10000000. Apparently, on your platform, char is a signed type. So, 0x80 (i.e. 10000000) corresponds to -128.

When << is applied to a char value, it is promoted to int and the sign is preserved. So, when shifted once to the left, with 32-bit integers, it becomes 11111111111111111111111100000000 (two's complement) which is -256.

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The promotion to int is nothing to do with printf in this instance; it's due to the <<. Also, that's not the representation of -256 in either one's or two's complement. – Oliver Charlesworth Oct 22 '10 at 23:36
@Oli Thanks for the correction. – Sinan Ünür Oct 22 '10 at 23:40
Thank you so much Oli and Sinan.I've understood the logic.. – Brite Roy Oct 22 '10 at 23:46

Just a side-note. From a bottom up perspective, bit-wise shifting (and masking) is based on an architecture's word-length (expressed in bits). The length of a word, varies from architecture to architecture.

See this Wiki page for word lengths by architecture

If one knows the word length of the target architecture, one can use bit-shifting to multiply, and divide (in some cases), faster than using operands.

See this Wiki page for interesting diagrams of bit-shifting

Since bit-shifted code is architecture dependent, one cannot assume a specific piece of bit-shifted code will work the same way from architecture to architecture. However, once one is familiar with the idea of different word lengths for different architectures, bit-shifting becomes less mysterious and more predictable.

Thankfully, today we have 8, 16, 32, and 64 bit word lengths, and exclusively 8 bit character lengths. In the days of ancient computing, an architecture might have a 12, or a 15, or a 23 bit word length (etc., ad nauseum).

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Thanku Mike sir for sharing this information.You all have great knowledge. – Brite Roy Oct 23 '10 at 12:07

I wonder why your compiler do not complain with a warning that 0x80 does not fit in char, which on your platform can represent only values from -0x80 to 0x7F.

Try this piece of code:

 #include <stdio.h>
 #include <limits.h>
 #include <stdlib.h>

 int main() {
      printf("char can represent values from %d to %d.\n", CHAR_MIN, CHAR_MAX);
      return EXIT_SUCCESS;

Your situation is called OVERFLOW.

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