biggest integer that can be stored in a double
Solution 1:
The biggest/largest integer that can be stored in a double without losing precision is the same as the largest possible value of a double. That is, DBL_MAX
or approximately 1.8 × 10308 (if your double is an IEEE 754 64-bit double). It's an integer. It's represented exactly. What more do you want?
Go on, ask me what the largest integer is, such that it and all smaller integers can be stored in IEEE 64-bit doubles without losing precision. An IEEE 64-bit double has 52 bits of mantissa, so I think it's 253:
- 253 + 1 cannot be stored, because the 1 at the start and the 1 at the end have too many zeros in between.
- Anything less than 253 can be stored, with 52 bits explicitly stored in the mantissa, and then the exponent in effect giving you another one.
- 253 obviously can be stored, since it's a small power of 2.
Or another way of looking at it: once the bias has been taken off the exponent, and ignoring the sign bit as irrelevant to the question, the value stored by a double is a power of 2, plus a 52-bit integer multiplied by 2exponent − 52. So with exponent 52 you can store all values from 252 through to 253 − 1. Then with exponent 53, the next number you can store after 253 is 253 + 1 × 253 − 52. So loss of precision first occurs with 253 + 1.
Solution 2:
9007199254740992 (that's 9,007,199,254,740,992 or 2^53) with no guarantees :)
Program
#include <math.h>
#include <stdio.h>
int main(void) {
double dbl = 0; /* I started with 9007199254000000, a little less than 2^53 */
while (dbl + 1 != dbl) dbl++;
printf("%.0f\n", dbl - 1);
printf("%.0f\n", dbl);
printf("%.0f\n", dbl + 1);
return 0;
}
Result
9007199254740991 9007199254740992 9007199254740992
Solution 3:
Wikipedia has this to say in the same context with a link to IEEE 754:
On a typical computer system, a 'double precision' (64-bit) binary floating-point number has a coefficient of 53 bits (one of which is implied), an exponent of 11 bits, and one sign bit.
2^53 is just over 9 * 10^15.
Solution 4:
The largest integer that can be represented in IEEE 754 double (64-bit) is the same as the largest value that the type can represent, since that value is itself an integer.
This is represented as 0x7FEFFFFFFFFFFFFF
, which is made up of:
- The sign bit 0 (positive) rather than 1 (negative)
- The maximum exponent
0x7FE
(2046 which represents 1023 after the bias is subtracted) rather than0x7FF
(2047 which indicates aNaN
or infinity). - The maximum mantissa
0xFFFFFFFFFFFFF
which is 52 bits all 1.
In binary, the value is the implicit 1 followed by another 52 ones from the mantissa, then 971 zeros (1023 - 52 = 971) from the exponent.
The exact decimal value is:
179769313486231570814527423731704356798070567525844996598917476803157260780028538760589558632766878171540458953514382464234321326889464182768467546703537516986049910576551282076245490090389328944075868508455133942304583236903222948165808559332123348274797826204144723168738177180919299881250404026184124858368
This is approximately 1.8 x 10308.