Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a table full of 10-digit integers and thought to speed up queries/math in Oracle by storing them as BINARY_FLOAT. That's more CPU-friendly than NUMBER and won't take as much space (I think), which means more data in memory.

However, it appears that BINARY_FLOAT yields the same bytes (and hence value) for two different numbers...which obviously won't work.


SQL> select dump(to_binary_float(25185387)) from dual;

Typ=100 Len=4: 203,192,38,54

SQL> select dump(to_binary_float(25185388)) from dual;

Typ=100 Len=4: 203,192,38,54

Table created.

SQL> insert into blah (somenum) values (25185387);

1 row created.

SQL> insert into blah (somenum) values (25185388);

1 row created.

SQL> select somenum from blah;


SQL> select to_number(somenum) from blah;


SQL> select dump(somenum) from blah;

Typ=100 Len=4: 203,192,38,54
Typ=100 Len=4: 203,192,38,54

I expected that if I got into floating point, I might have some problem, but these are integers. I've tried various incantations - 25185387f, 25185387.0, 25185387*1.0, to_number(25185387), etc.

As I read the docs, BINARY_FLOAT should store to 1.79e308, so it can't be a rounding problem.

I'm using Oracle on a 64-bit platform.

Ideas? Thanks.

share|improve this question

1 Answer 1

Since the implementation of the oracle is BINARY_FLOAT standard ieee 754. BINARY_FLOAT is same as singe.

single have only 23 bits for significant bits.

25185387 = 11000000001001100011010 11 (length = 25)

25185388 = 11000000001001100011011 00 (length = 25)

hence the importance of these oracle rounds, discarding the least significant bits

25185387 ~ 11000000001001100011011 * 2^2

25185388 ~ 11000000001001100011011 * 2^2

so get the same value

share|improve this answer
Interesting...the Oracle docs... docs.oracle.com/cd/E11882_01/server.112/e26088/… ...say a BINARY_FLOAT has a "maximum positive finite value" of 3.40282E+38F (I'd mispasted earlier). So I was assuming I could store a number up to that size. Now I see what you mean. So is the largest integer I could store 2^23? Thanks again for the great answer. –  raindog308 Feb 17 '12 at 18:25
2^23 without losing precision. Rounding occurs with increasing. Signification bit save in normalize form. Oracle also store exponent component of number in 8 bits (exponent sign + 7 bits). maximum number = 2^(2^7) * 1.111..111 ≈ 3.4 * 10^38 –  turbanoff Feb 17 '12 at 21:59

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.