In the book "Complete Reference of C" it is mentioned that char is by default unsigned.

But I am trying to verify this with GCC as well as Visual Studio. It is taking it as signed by default.

Which one is correct?

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    The one C reference book I trust is Harbison & Steele's "C: A Reference Manual" (careferencemanual.com). Of course the standard is the final word, but it's not very readable and only gives the slightest information on pre-standard and common (ie., POSIX) uses that are outside the standard. Harbison & Steele is quite readable, detailed and probably more correct than most references. However it also isn't a tutorial, so if you're in the initial stages of learning it's probably not a great thing to jump into. Jan 13, 2010 at 7:02
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    I think the book you are reading is C: The Complete Reference, by Herbert Schildt. From a review of this book (accu.informika.ru/accu/bookreviews/public/reviews/c/c002173.htm): I am not going to recommend this book (too many of you give too much weight to my opinions) but I do not think it deserves the same opprobrium that has been legitimately thrown at some of his other work. As Michael says, a much better reference is Harbison & Steele. Jan 13, 2010 at 7:14
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    My two cents here: Because char can be unsigned, as a rule of thumb use an int to read a value using getchar(), which might return EOF. EOF is usually defined as -1 or other negative value, which storing in an unsigned is not what you want. Here's the declaration: extern int getchar(); BTW, this recommendation comes also from "C: A Reference Manual" book. Nov 3, 2014 at 15:39
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    The one C reference I trust is ISO/IEC 9899:2011 :-) Apr 6, 2015 at 22:31
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    @MaxChetrusca good advice but bad rationale: even on the signed char case, you'd have to use int to store the return value. Feb 12, 2016 at 8:21

6 Answers 6


The book is wrong. The standard does not specify if plain char is signed or unsigned.

In fact, the standard defines three distinct types: char, signed char, and unsigned char. If you #include <limits.h> and then look at CHAR_MIN, you can find out if plain char is signed or unsigned (if CHAR_MIN is less than 0 or equal to 0), but even then, the three types are distinct as far as the standard is concerned.

Do note that char is special in this way. If you declare a variable as int it is 100% equivalent to declaring it as signed int. This is always true for all compilers and architectures.

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    @Alok: the same is not true for some other datatypes, for example int means signed int always, right? Apart from char, what other datatypes have the same confusion in C?
    – Lazer
    Mar 28, 2010 at 11:15
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    @eSKay: yes, char is the only type that can be signed or unsigned. int is equivalent to signed int for example. Mar 29, 2010 at 0:54
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    There is a hysterical, er, historical reason for this -- early in the life of C the "standard" was flip-flopped at least twice, and some popular early compilers ended up one way and others the other.
    – Hot Licks
    Nov 28, 2012 at 1:59
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    @AlokSinghal: It's also implementatin-defined whether a bit field of type int is signed or unsigned. Apr 1, 2014 at 4:39
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    I wonder why ANSI has yet to define any standard means by which code can say things like "within this region, I want the compiler to either regard char as unsigned or refuse compilation if it can't do that"? I understand that the standard must allow for the existence of different dialects of C, but if there's no standard way to say that whether 0xFFFF+1 should yield 0u or 65536, then I would posit that such an expression should be considered meaningless in "standard C".
    – supercat
    Mar 31, 2015 at 20:07

As Alok points out, the standard leaves that up to the implementation.

For gcc, the default is signed, but you can modify that with -funsigned-char. note: for gcc in Android NDK, the default is unsigned. You can also explicitly ask for signed characters with -fsigned-char.

On MSVC, the default is signed but you can modify that with /J.

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    Interesting that Schildt's description doesn't match MSVC's behavior since his books are usually geared toward MSVC users. I wonder if MS changed the default at some point? Jan 13, 2010 at 7:17
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    I thought it wasn't dependent on the compiler, but on the platform. I thought char was left as a third type of "character datatype" to conform to what the systems at that time used as printable characters.
    – Spidey
    May 9, 2012 at 19:45
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    GCC docs say it's machine-dependent: "Each kind of machine has a default for what char should be. It is either like unsigned char by default or like signed char by default." Sep 7, 2015 at 16:16
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    Can you please provide a source for your note that on android the default is unsigned char?
    – phlipsy
    Oct 22, 2015 at 6:36
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    @Deduplicator So, the part "For gcc, the default is signed" in this answer is wrong?
    – Spikatrix
    Mar 27, 2017 at 11:51

C99 N1256 draft 6.2.5/15 "Types" has this to say about the signed-ness of type char:

The implementation shall define char to have the same range, representation, and behavior as either signed char or unsigned char.

and in a footnote:

CHAR_MIN, defined in <limits.h>, will have one of the values 0 or SCHAR_MIN, and this can be used to distinguish the two options. Irrespective of the choice made, char is a separate type from the other two and is not compatible with either.


According to The C Programming Language book by Dennis Ritchie which is the de-facto standard book for ANSI C, plain chars either signed or unsigned are machine dependent, but printable characters are always positive.

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    It's not necessarily the case that printable characters are always positive. The C standard guarantees that all members of the basic execution character set have non-negative values. Apr 1, 2014 at 4:40

According to the C standard the signedness of plain char is "implementation defined".

In general implementors chose whichever was more efficient to implement on their architecture. On x86 systems char is generally signed. On arm systems it is generally unsigned (Apple iOS is an exception).

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    @plugwash Your answer was probably downvoted because Tim Post lost his keys. Seriously though, you shouldn't worry about a single downvote as long as you're sure your answer is correct (which it is in this case). It's happened to me several times to have my posts downvoted for no valid reason. Don't worry about it, sometimes people just do odd things. Oct 2, 2017 at 10:54
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    Why is signed char more efficient on x86? Any sources? Mar 12, 2019 at 17:48
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    @martinkunev Necropost but: I don’t think signed char is more efficient as such on x86, but it’s also not less efficient than unsigned. Reasons for picking it might also include consistency with other integer types defaulting to signed, and maybe signed types sometimes leading to better optimisation due to signed overflow being undefined behaviour (i.e., compiler can assume it won’t overflow).
    – Arkku
    Nov 25, 2021 at 17:58

Now, we known the standard leaves that up to the implementation.

But how to check a type is signed or unsigned, such as char?

I wrote a macro to do this:

#define IS_UNSIGNED(t) ((t)~1 > 0)

and test it with gcc, clang, and cl. But I do not sure it's always safe for other cases.

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    What is wrong with usual CHAR_MIN < 0 (or WCHAR_MIN < 0 for wchar_t)?
    – Öö Tiib
    May 21, 2020 at 7:52
  • This builds on the assumption that signed integers are represented in two's complement. Although, this almost always holds, some systems may use one's complement, where all bits set to one means negative zero, which equals positive zero, and your macro returns the wrong answer.
    – z32a7ul
    Feb 11, 2023 at 19:55

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