Why is 'long long' essential for handling large integers in C/C ?
Understanding 'long long' in C/C
In C/C , the range of data types is crucial for handling numerical values. The 'long long' data type is introduced to accommodate larger integer values than the standard 'long' type, which allows for even more precise operations.
Consider the following C/C code snippet:
#include <stdio.h>
int main() {
int num1 = 1000000000;
long num2 = 1000000000;
long long num3;
long long num4 = ~0;
printf("%u %u %u", sizeof(num1), sizeof(num2), sizeof(num3));
printf("%d %ld %lld %llu", num1, num2, num3, num4);
return 0;
}When executed, this code prints the following output:
4 4 8 1000000000 1000000000 0 18446744073709551615
The output demonstrates some interesting behaviors:
- The size of 'long long' is 8 bytes, twice that of 'int' and 'long'.
- The value of 'num1' fits within an 'int', so it is accurately printed.
- 'num2' holds the same value as 'num1', but its 'long' type allows it to represent larger numbers.
- 'num3' is assigned no value initially, so it prints as 0.
- 'num4' is assigned the bitwise inverse of 0, which results in its maximum possible value in a 'long long'.
Now, let's uncomment the commented line:
num3 = 100000000000;
Compilation fails with the error: "error: integer constant is too large for long type." This is because the literal value '100000000000' exceeds the maximum value that can be represented by a 'long' type. To resolve this issue, we need to specify that this literal is a 'long long' using the suffix LL:
num3 = 100000000000LL;
With this modification, the code compiles and executes successfully. The output now includes the correct value for 'num3':
4 4 8 1000000000 1000000000 100000000000 18446744073709551615
This code illustrates the importance of data types and the use of the 'long long' type to handle large integer values in C/C programming.
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