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Can unsigned long int hold a ten digits number (1,000,000,000 - 9,999,999,999) on a 32-bit computer.
What are the ranges of unsigned long int , long int, unsigned int, short int, short unsigned int and int?

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This sounds somewhat like a homework problem; is it? –  Amber Nov 30 '09 at 11:15
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@Dav: I agree, which is why I gave a "this is how you'd figure that out" answer. –  Binary Worrier Nov 30 '09 at 11:30
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Bad tagging. C and C++ makes different guarantees. –  dmckee Oct 4 '10 at 16:47
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10 Answers

up vote 24 down vote accepted

The minimum ranges you can rely on are:

  • short int and int: -32,767 to 32,767
  • unsigned short int and unsigned int: 0 to 65,535
  • long int: -2,147,483,647 to 2,147,483,647
  • unsigned long int: 0 to 4,294,967,295

This means that no, long int cannot be relied upon to store any 10 digit number. However, a larger type long long int was introduced to C in C99 and C++ in C++11 (this type is also often supported as an extension by compilers built for older standards that did not include it). The minimum range for this type, if your compiler supports it, is:

  • long long int: -9,223,372,036,854,775,807 to 9,223,372,036,854,775,807
  • unsigned long long int: 0 to 18,446,744,073,709,551,615

So that type will be big enough (again, if you have it available).


A note for those who believe I've made a mistake with these lower bounds - I haven't. The C requirements for the ranges are written to allow for ones' complement or sign-magnitude integer representations, where the lowest representable value and the highest representable value differ only in sign. It is also allowed to have a two's complement representation where the value with sign bit 1 and all value bits 0 is a trap representation rather than a legal value. In other words, int is not required to be able to represent the value -32,768.

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The title originally said "C/C++" too. –  caf Jul 24 '13 at 3:11
    
you made my day –  user1899563 Oct 8 '13 at 18:20
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The size of the numerical types is not defined in the C++ standard, although the minimum sizes are. The way to tell what size they are on your platform is to use numeric limits

For example, the maximum value for a int can be found by:

std::numeric_limits<int>::max();

Computers don't work in base 10, which means that the maximum vale will be in the form of 2n-1 because of how the numbers of represent in memory. Take for example two bits (8 bytes)

  0100 1000

The right most bit (number) when set to 1 represents 20, the next bit 21, then 22 and so on until we get to the left most bit which if the number is unsigned represents 27.

So the number represents 26 + 23 = 64 + 8 = 72, because the 4th bit from the right and the 7th bit right the left are set.

If we set all values to 1:

11111111

The number is now (assuming unsigned)
128 + 64 + 32 + 16 + 8 + 4 + 2 + 1 = 255 = 28 - 1
And as we can see, that is the largest possible value that can be represented with 8 bits.

On my machine and int and a long are the same, each able to hold between -231 to 231 - 1. In my experience the most common size on modern 32 bit desktop machine.

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Minimum sizes for the integer type are mandated by the relevant standards (although exact sizes are not). –  caf Nov 30 '09 at 11:22
    
+1: was completely unaware of numeric_limits. Thanks :) –  Binary Worrier Nov 30 '09 at 11:26
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Other folks here will post links to data_sizes and precisions etc.
I'm going to tell you how to figure it out yourself.
Write a small app that will do the following.

unsigned int ui;
std::cout <<  sizeof(ui));

this will (depending on compiler and archicture) print 2, 4 or 8, saying 2 bytes long, 4 bytes long etc.

Lets assume it's 4.

You now want the maximum value 4 bytes can store, the max value for one byte is (in hex)0xFF. The max value of four bytes is 0x followed by 8 f's (one pair of f's for each byte, the 0x tells the compiler that the following string is a hex number). Now change your program to assign that value and print the result

unsigned int ui = 0xFFFFFFFF;
std::cout <<  ui;

Thats the max value an unsigned int can hold, shown in base 10 representation.

Now do that for long's, shorts and any other INTEGER value you're curious about.

NB: This approach will not work for floating point numbers (i.e. double or float).

Hope this helps

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If you try this with signed ints, you get negative numbers. Read up on "two's compliment" (link provided), it's easy to get the full range (positive and negative) for these too. en.wikipedia.org/wiki/Twos_Compliment –  Binary Worrier Nov 30 '09 at 11:34
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Have a look at this reference: http://www.cppreference.com/wiki/data%5Ftypes

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That reference is not correct - in particular it is not required that the range of signed char include -128, or the range of short and int include -32768 (and so on). It is also not true that int must be either 2 or 4 bytes - a 24 bit int type is certainly allowed. –  caf Nov 30 '09 at 11:27
    
It's especially untrue that long int must be 4 bytes. It's 8 on 64bit linux, which is not some obscure platform you'll never encounter. That first link is just bogus, the author either hasn't read the standard or else is lying to keep things simple for noobs. –  Steve Jessop Nov 30 '09 at 14:20
    
I've pruned the first reference from the list: to be honest, I just pasted-in the first googled result... I usually don't do this but it was early in the morning ;-) –  jldupont Nov 30 '09 at 14:38
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To find out the limits on your system:

#include <iostream>
#include <limits>
int main(int, char **) {
  std::cout
    << static_cast< int >(std::numeric_limits< char >::max()) << "\n"
    << static_cast< int >(std::numeric_limits< unsigned char >::max()) << "\n"
    << std::numeric_limits< short >::max() << "\n"
    << std::numeric_limits< unsigned short >::max() << "\n"
    << std::numeric_limits< int >::max() << "\n"
    << std::numeric_limits< unsigned int >::max() << "\n"
    << std::numeric_limits< long >::max() << "\n"
    << std::numeric_limits< unsigned long >::max() << "\n"
    << std::numeric_limits< long long >::max() << "\n"
    << std::numeric_limits< unsigned long long >::max() << "\n";
}

Note that long long is only legal in C99 and in C++11.

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You might want to look at a table of data types, like so:

http://msdn.microsoft.com/en-us/library/s3f49ktz%28VS.80%29.aspx

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You should look at the specialisations of the numeric_limits<> template for a given type. Its in the header.

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No, only part of ten digits number can be stored in a unsigned long int whose valid range is 0 to 4,294,967,295 . you can refer to this: http://msdn.microsoft.com/en-us/library/s3f49ktz%28VS.80%29.aspx

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Can unsigned long int hold a ten digits number (1,000,000,000 - 9,999,999,999) on a 32-bit computer.

No

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For unsigned data type there is no sign bit and all bits are for data ; whereas for signed data type MSB is indicated sign bit and remaining bits are for data.

To find the range do following things :

Step:1 -> Find out no of bytes for the give data type.

Step:2 -> Apply following calculations.

      Let n = no of bits in data type  

      For signed data type ::
            Lower Range = -(2^(n-1)) 
            Upper Range = (2^(n-1)) - 1)  

      For unsigned data type ::
            Lower Range = 0 
            Upper Range = (2^(n)) - 1

For e.g.

For unsigned int size = 4 bytes (32 bits) --> Range [0 , (2^(32)) - 1]

For signed int size = 4 bytes (32 bits) --> Range [-(2^(32-1)) , (2^(32-1)) - 1]

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