# why use int error,but long long right

int c;
long long sum=0;
sum+=c*(c-1)/2;


when c=100000,why sum can't get the right answer? should I write sum+=(long long)(c*(c-1)/2);

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int here is 32-bit I assume - 100000 squared (10E9) exceeds the maximum range for an int resulting in an overflow. The below would work - casting the first instance of c to long long will mean that the rest of the expression will be "long long compatible".

sum+=((long long)c*(c-1)/2);

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Thank you,I know.Though sum is long long,first c*(c-1)/2 is int(so is overflow),then it is changed to long long. –  outsiders May 21 '11 at 3:28
My pleasure - that's right, the right-hand side of the += is evalated as int so the overflow occurs before it would be cast to long long. –  Will A May 21 '11 at 3:29

Because it is using c as an int in the calculations, and widening it when it's stored.

You need to cast one of the c's to a long long before multiplying.

Also, I suggest you look into using int64_t in place of long long so that you can get the actual type/size you want no matter what (see stdint.h for the various identifiers).

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Thank you for let me know stdint.h –  outsiders May 21 '11 at 17:55

In your question c is declared as integer. so it crosses the limit of integer itself in the expression c*(c-1). so overflow occurs.before it gets implicitly converted into long long.Thats the reason behind UB.

whereas when u implicitly converted it into long long u will ger the right answer...

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