Today while experimenting with a C++ program i tried to get a random variable from a garbage value with code that read

int main(){
    int x,r;
    r = x%7
    cout << r;

needless to say this method didn't work since x was being used without initialization however when I looked at he variable watch I saw that the garbage value of x was -846.... and the same value for r. This confused me as to how could an integer hold such insanely huge garbage values. Normally C++ integers are ±32676 however the insane 7+ digit value I saw was never in this range. What could be the reason for this very large value if integers can hold only small values

marked as duplicate by phuclv, Sam Varshavchik c++ Jun 24 '17 at 14:52

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  • No, the sizeof an int is implementation specific. On Linux/x86 systems (both 32 and 64 bits) it is 4 bytes so 32 bits. Today only very few systems have 16 bits int (mostly embedded things à la Arduino...) – Basile Starynkevitch Jun 24 '17 at 14:38
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    @Serge: are you sure of that? It depends upon the C++ standard – Basile Starynkevitch Jun 24 '17 at 14:45
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    "why is the garbage value for an integer so un-integerly huge" - it may be small or large, 32bit or 64bit or pigs may fly. Point is; it is undefined - you can't use/read it and if you do, then your entire program is undefined. – Jesper Juhl Jun 24 '17 at 14:46
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    @Serge No, the size of int depends on implementation. 16 bits would be quite typical on 16 bit systems. – eerorika Jun 24 '17 at 14:47
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    @Serge there are a lot of platforms where int has 16, 18, 24, 36 bits... The only requirement is that INT_MAX must be at least 32767 – phuclv Jun 24 '17 at 14:49

According to this answer, the minimum (emphasis mine) ranges of an integer is -32,767 to 32,767. The actual limits are implementation defined, and are most likely from -2 billion to positive 2 billion.

To check the integer limits on your device, you could use the header <limits> as follows:

int imin = std::numeric_limits<int>::min(); // minimum value
int imax = std::numeric_limits<int>::max(); //or INT_MAX

Normally C++ integers are ±32676

This is false on most systems (except embedded things like Arduino). On most current C++ systems, int uses 32 bits. IIRC the standard mandates at least 16 bits.

You should use the <limits> standard C++11 (or better) header.

BTW your program is a typical example of undefined behaviour so you need to be very scared (and you should not expect any particular concrete behavior).


Integers are ussually at least 32bit on most architectures you are likely to use. So can hold around +/-2 billion


Integer size is usually 4 bytes on most operating systems (platforms). Therefore, at the lowest, which is 32-bit architectures, it can hold values from (-2147483648) to (+2147483648). If you're working with a 64-bit architecutre, which is the common one today, you can hold values from (-2^64 / 2) to (+2^64 / 2).

Take a look at this link that shows the size of integer on different platforms: http://ivbel.blogspot.co.il/2012/02/size-of-primitive-types-in-c-language.html

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    Even ob most 64 bit architectures int is a 32bit type. – MikeMB Jun 24 '17 at 15:11

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