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why integer has a range between 0 and 32768?

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closed as not a real question by dmckee, David Thornley, Loki Astari, GManNickG, Jens Gustedt Oct 4 '10 at 19:28

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

it was 32768 last I checked for a 32 bit integer (2^15). The number you gave is for a 64 bit integer (2^16) –  ubiquibacon Oct 4 '10 at 16:29
@typoknig thanx a lot –  Peeyush Oct 4 '10 at 16:36
This question sounds like "Why all cars are blue?". –  AnT Oct 4 '10 at 16:40
C and C++ are two different languages and they make different guarantees about the sizes of the fundamental types. There is no correct answer to this question as long as it remains tagged for both languages. Not a Real Question. See also What range of values can integer types store in C++ c data type size C/C++: Size of builtin types for various compilers/platforms Any guaranteed minimum sizes for types in C? –  dmckee Oct 4 '10 at 16:45
@typoknig: how come 32 bits equates to 2^15? and the next level (2 ^ 16) is for 64 bits? ????? –  pmg Oct 4 '10 at 16:46

9 Answers 9

int is guaranteed to be at least 16-bit long (2 ^ 16 = 65536) so the minimal range for int type is -32767 - 32767 (there is allowed to be a "negative zero" value) or 0 - 65535 for unsigned int.

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That is not entirely correct, the minimum is not -32767 but -32768 (for 16-bit architectures). –  bitmask Oct 4 '10 at 16:38
@bitmask: It's allowed to use signed-magnitude format, which assigns two bit-patterns to 0 and excludes -32768. –  Potatoswatter Oct 4 '10 at 16:41
@Crozin: 65536 for unsigned is an error though, should be 65535. –  Potatoswatter Oct 4 '10 at 16:43
Ohh... fixed. ;) –  Crozin Oct 4 '10 at 16:46
@bitmask: Look it up (e.g., C99 The range on a typical 16-bit two's complement implementation does indeed start at -32768. However the standard does not require that implementations use two's complement, hence the minimal range required is specified as -32767 to +32767. This facilitates one's complement implementations that probably won't ever exist again... –  John Marshall Oct 4 '10 at 16:46

its a good practice to use constants INT_MAX, UINT_MAX etc. This way you don't have to worry about the underlying size of the int on different platforms.

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OK for C - in C++ use std::numeric_limits instead –  Steve Townsend Oct 4 '10 at 16:40

Because that is what your implementation supports.

Integer ranges in C (and, well, most other languages as well) are - usually - based on the range of numbers that can be represented in 2-complement binary. The number of bits used is - usually - based on features of the platform you use, such as the number of bits that fits in a CPU register.

However, the C standard only specifies the minimum (in magnitude) representable bounds for the different integer types, so an implementation is actually free to use other ways of representing integers, which may lead to other ranges as well, hence the initial comment.

See section of the C89 standard, or in the C99 standard.

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If this is an unsigend integer it is because 2 to the power of 16 = 65536 and in your implementation unsigned ints are 16 bits long.

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The technical answer is that an unsigned short int typically has a range of 0 - 65,535. (Not 65,536! The zero must also be counted.) This is an artifact (or "feature" if you prefer) of computer memory which uses 8-bit bytes.

Usual numbers: The char data type uses only a single byte, the short data type uses two bytes, the int data type uses four bytes, etc.

The difference between signed and unsigned data types is that the most-significant bit is used in the signed number to indicated signedness; a 0 to flag positive numbers, and a 1 to flag negative numbers. That effectively cuts the upper range for positive numbers in half, as it allocates the other half to the negative range.

Data type sizes are only standardized through the stdint.h C standard library header. In this header, uint64_t has the greatest positive range, providing for numbers between (and including) 0 - 18,446,744,073,709,551,615.

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+1 for the "zero must also be counted". I was reading through the answers and was wondering why it was 65535 opposed to 65536 –  Marlon Oct 4 '10 at 19:54
Forgetting that zero is also a number leads to bugs called off-by-one errors: en.wikipedia.org/wiki/Off-by-one_error –  Jason Oster Oct 12 '10 at 22:09
  1. stdint.h: has typedefs for integers of different widths (8, 16, 32, 64) both signed and unsigned, e.g. int8_t, uint32_t etc. More...

  2. limits.h: has symbolic constants for minimum and maximum values for each of the above types, e.g. INT_MIN, UINT_MAX etc. More....

    2.1 However, as Steve Townsend commented above, the more C++-ish way and means to explore more information (e.g. digits()) is to use std::numeric_limits. More...

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Because if it's a 16 bit integer, the maximum binary value it can store is sixteen 1's: 1111111111111111. Which is 65535 in unsigned form. IT IS NOT 65536.

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First, the range 0 to 65536 represents the range of an "unsigned short integer". Other integer types can have values that range much higher and can be negative. Second, an unsigned short integer is stored using 16 bits so 2^16 = 65536 are all the binary combinations hence all the possible values that can be stored.

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Range 0..65535, actually. –  David Thornley Oct 4 '10 at 17:03

ints are warrantied to be at least 16-bit long. However, on most 32 bit architectures, they are instead 32-bit long. Their range is therefore: [-2147483648, 2147483647].

short ints, however, are usually 16-bit long.

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