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How to get the fraction length? If at all possible, without using string operation or loop

should all return length of 3:

Any programming language is accepted


Not a homework, I want to display fractions at its minimum. Example, I defined numeric(18,8) in database. If the user entered only 5.234, the data saved in database is 5.23400000. I just want to display it back as 5.234 only

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Is this homework? – Dana Robinson Feb 25 '09 at 9:08
up vote 2 down vote accepted
If Int(num) = num Then Return 0
num *= 10
If Int(num) = num Then Return 1
num *= 10
If Int(num) = num Then Return 2
num *= 10
If Int(num) = num Then Return 3
num *= 10
If Int(num) = num Then Return 4
num *= 10
If Int(num) = num Then Return 5
num *= 10
If Int(num) = num Then Return 6
num *= 10
If Int(num) = num Then Return 7
num *= 10
If Int(num) = num Then Return 8
Throw New Exception("Number exceeds expected precision")

No string operations, no loops.


BTW, to do this with a loop:

result = 0
Do While (Int(num) !> num) 
    num *= 10
    result += 1
Return result

Slightly more elegant

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This one is good. I'm about to settle on repeated dividing(I give up the idea of loop-less) solution and counting 'til 0, but cannot do it since fraction is what I am after, not the whole number. This is a good logic! – Hao Feb 26 '09 at 1:35

Given that you're concerned about display and not internal representation, why not just strip the trailing 0s?


my @nums = ( '5.234', '5.23400', '5.234000' );
$_ =~ s/0+$// for @nums;  # remove trailing 0s
$_ =~ s/\.$// for @nums;  # remove trailing .

print "@nums\n";

You can probably optimize both into a single regex.

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In fact 5.234 can NOT be represented in IEEE 745's 64 bit integer, it would actually be approximated by 5.233999999999999985789145284797996282577514648437500 ;-) – Ustaman Sangat Jul 2 '12 at 22:38

For the non-fraction part, the length is:


as long as v > 1 where ln() is the natural logarithm and int() always rounds down. For v == 1, ln(v) returns 0, so you must handle this in a special case.

It ought to be possible to achieve the same thing for the fraction part (v - int(v)) but my math fails me.

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I doubt that anything to do with natural log might be of value. Because String.format("%x", Double.doubleToRawLongBits(5.234)) yields 4014ef9db22d0e56 and this,preserving all digits, evaluates to 5.2339999999999999857891452847979962825775146484375 whereas 5.25 can be represented exactly. 5.251 again is approximated by 5.25100000000000033395508580724708735942840576171875. My point being the length is not monotonic in the case of fraction. – Ustaman Sangat Jul 2 '12 at 22:46

Just implement the division algorithm. And you stop when the number count > 7 or 8 digits (for float32)

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When using Java and JDBC, get the value via ResultSet.getBigDecimal(). To get the correct scale, use this code (Java 5 and up; there is a bug in Java 1.4 which makes it fail for "0.0"):

int precision = v.stripTrailingZeros().scale();

For Java 1.4, see this page.

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In Java:


I assume, you may want to convert the string to double anyway.

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