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I have implemented below code :

    int64_t i64value1 = 0;
    int64_t i64value2 = 0;
    long long llvalue = 0;
    const char *s = "10811535359";
    i64value1 = atoll(s);
    llvalue = atoll(s);
    i64value2 = llvalue;
    printf("s : [%s]\n",s);
    printf("i64value1 : [%d]\n",i64value1);
    printf("llvalue : [%lld]\n",llvalue);
    printf("i64value2 : [%d]\n",i64value2);

Output of the above progrom is :

s : [10811535359]
i64value1 : [-2073366529]
llvalue : [10811535359]
i64value2 : [-2073366529]

The compiler used is :

 gcc version 4.1.2 20080704 (Red Hat 4.1.2-48)

The OS is x86_64 GNU/Linux 2.6.18-194

Since long long is a signed 64-bit integer and is, for all intents and purposes, identical to int64_t type, logically int64_t and long long should be equivalent types. And some places mention to use int64_t instead of long long. But when I look at stdint.h, it tells me why I see the above behavior:

# if __WORDSIZE == 64 
typedef long int  int64_t; 
# else 
typedef long long int  int64_t; 
# endif 

In a 64-bit compile, int64_t is long int, not a long long int.

My Question is, Is there a workaround/solution to assign long long returned value to int64_t without losing the precision in 64 bit Machine?

Thanks in advance

share|improve this question
long and long long are the same on x86_64. int64_t is a type that has exactly 64 bits whereas long long is at least as large as long, and long is at least as large as int (and, incidentially 64 bits, too, in this case). Insofar, no worries. – Damon Aug 8 '12 at 10:43
This is true if by x86_64 you mean Linux x86-64. It is definitely not true for 64-bit Windows on the same hardware (where long is 32-bits). – Bo Persson Aug 8 '12 at 16:24
up vote 6 down vote accepted

The loss does not happen in the conversions but in the printing:

printf("i64value1 : [%d]\n",i64value1);

The int64_t argument is accessed as if it were an int. This is undefined behaviour, but usually the low 32 bits are sign extended.

Proper compiler warnings (such as gcc -Wformat) should complain about this.

share|improve this answer

Jilles is right.

Either use std::cout << which I believe should handle it the right way, or using printf("i64value2 : [%lld]\n",i64value2); while printing should solve it.

share|improve this answer

Under the x86-64 ABI - long long is the same as long which is to say a 64bit value. There is no precision loss in this case.

share|improve this answer

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