So I know that the difference between a signed int
and unsigned int
is that a bit is used to signify if the number if positive or negative, but how does this apply to a char
? How can a character be positive or negative?
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2A previous answer on this topic will help.– jarmodDec 2, 2010 at 16:24
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3"So I know that the difference between a signed and unsigned int is that a bit is used to signify if the number if positive or negative" - Note that this is just one of the ways to to it and not the most usual and practical one.– Christian RauJun 5, 2013 at 16:50
8 Answers
There's no dedicated "character type" in C language. char
is an integer type, same (in that regard) as int
, short
and other integer types. char
just happens to be the smallest integer type. So, just like any other integer type, it can be signed or unsigned.
It is true that (as the name suggests) char
is mostly intended to be used to represent characters. But characters in C are represented by their integer "codes", so there's nothing unusual in the fact that an integer type char
is used to serve that purpose.
The only general difference between char
and other integer types is that plain char
is not synonymous with signed char
, while with other integer types the signed
modifier is optional/implied.
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Alright, hopefully you'll be able to stay with me here, I'm not that great with bits / C and stuff. So with a signed char, something like "01011011" could represent one character?– ChigginsDec 2, 2010 at 16:34
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3@Chiggins: Is it binary? If so, then yes. Your
01011011
is a binary representation of 91. So, it represents whatever character has code 91 on your platform ([
on PC, for example). Dec 2, 2010 at 17:40 -
1For a simple proof of the nature of chars being ints try applying
swtich...case
, which can be applied only to integral numeric values. Sep 10, 2015 at 10:39 -
4C89 6.1.2.5 "There are three character types, designated as char , signed char, and unsigned char." C11 6.2.5p15 "The three types
char
,signed char
, andunsigned char
are collectively called the character types." 6.2.5fn45 "char
is a separate type from the other two and is not compatible with either"– CubbiMay 7, 2016 at 4:17
I slightly disagree with the above. The unsigned char
simply means: Use the most significant bit instead of treating it as a bit flag for +/- sign when performing arithmetic operations.
It makes significance if you use char
as a number for instance:
typedef char BYTE1;
typedef unsigned char BYTE2;
BYTE1 a;
BYTE2 b;
For variable a
, only 7 bits are available and its range is (-127 to 127) = (+/-)2^7 -1.
For variable b
all 8 bits are available and the range is 0 to 255 (2^8 -1).
If you use char
as character, "unsigned" is completely ignored by the compiler just as comments are removed from your program.
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11I think you did a mistake (correct me if I'm wrong): "a" is signed char so the range is -128 to 127 and "b" is unsigned char so the range is 0 to 255. similar question– dalfFeb 6, 2014 at 2:22
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8You need to change this answer to reflect that signed integers use twos complement and not a sign bit like you say, because as it stands this answer is incorrect. Nov 14, 2014 at 15:47
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17This is incorrect. In C, signed integer types use two's complement, with range
-(2^n-1)
to(2^n-1)-1
, wheren
is the number of bits and0
is counted once, not twice. By default, achar
is unsigned, not signed. Please correct this; it is a simple but incorrect explanation. Feb 15, 2016 at 11:52 -
8wizzwizz4: AFAIK if char is unsigned or signed by default is defined by the implementation not by the standard (e.g. see stackoverflow.com/a/2054941/138526) Feb 14, 2017 at 15:04
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5@wizzwizz4 The C standard does not define the encoding format for signed integers. It is up to the compiler designer to choose between 2s complement, 1s complement and sign & magnitude.– FernandoMar 23, 2017 at 14:22
There are three char types: (plain) char
, signed char
and unsigned char
. Any char is usually an 8-bit integer* and in that sense, a signed
and unsigned char
have a useful meaning (generally equivalent to uint8_t
and int8_t
). When used as a character in the sense of text, use a char
(also referred to as a plain char). This is typically a signed char
but can be implemented either way by the compiler.
* Technically, a char can be any size as long as sizeof(char)
is 1, but it is usually an 8-bit integer.
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1
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10
Representation is the same, the meaning is different. e.g, 0xFF, it both represented as "FF". When it is treated as "char", it is negative number -1; but it is 255 as unsigned. When it comes to bit shifting, it is a big difference since the sign bit is not shifted. e.g, if you shift 255 right 1 bit, it will get 127; shifting "-1" right will be no effect.
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2Note that the behavior of a right bitshift on a signed type is actually implementation defined. "Most" compilers will shift
-1
to/-1
but you could actually also get10111111
Nov 20, 2017 at 18:54
A signed char
is a signed value which is typically smaller than, and is guaranteed not to be bigger than, a short
. An unsigned char
is an unsigned value which is typically smaller than, and is guaranteed not to be bigger than, a short
. A type char
without a signed
or unsigned
qualifier may behave as either a signed or unsigned char
; this is usually implementation-defined, but there are a couple of cases where it is not:
- If, in the target platform's character set, any of the characters required by standard C would map to a code higher than the maximum `signed char`, then `char` must be unsigned.
- If `char` and `short` are the same size, then `char` must be signed.
Part of the reason there are two dialects of "C" (those where char
is signed, and those where it is unsigned) is that there are some implementations where char
must be unsigned, and others where it must be signed.
The same way -- e.g. if you have an 8-bit char, 7 bits can be used for magnitude and 1 for sign. So an unsigned char might range from 0 to 255, whilst a signed char might range from -128 to 127 (for example).
This because a char
is stored at all effects as a 8-bit number. Speaking about a negative or positive char
doesn't make sense if you consider it an ASCII code (which can be just signed*) but makes sense if you use that char
to store a number, which could be in range 0-255 or in -128..127 according to the 2-complement representation.
*: it can be also unsigned, it actually depends on the implementation I think, in that case you will have access to extended ASCII charset provided by the encoding used
The same way how an int
can be positive or negative. There is no difference. Actually on many platforms unqualified char
is signed.