# Conversion of Double to value digits and exponent

For ex.

double size = 10.35;

i should get

value = 1035;

exponent = -2;

so when i re calculate i will get 10.35.

i.e 1035 * 10^-2 = 10.35;

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what is your question? –  SilentGhost Jun 15 '09 at 10:24

In general this is not possible since the fractional part of a double is stored in powers-of-2, and might or might not match powers-of-10.

For example: When looking at powers-of-2 vs powers-of-3: Just like 1/2 == 2^-1 == 5 * 10^-1 has a match, 1/3 == 3^-1 == ?? does not have a match.

However, you can approximate it.

It would have an answer if you would ask for powers-of-2. In that case you can just look at the double representation (see IEEE-754 here) and extract the right bits.

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Very simplistically (in C#):

``````        double size = 10.36;
int power = 0;
while (size != (int)size)
{
size *= 10.0;
power--;
}
Console.WriteLine("{0} * 10 to the {1}", size, power);
``````

Though I'm sure with a bit more thought a more elegant solution can be found.

This doesn't go the other way where you've got a large number (103600 say) and want to get the smallest value to some power (1036 * 10^2).

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I had to do something very similar. Here's a solution in Python (it hasn't been tested very well):

``````def normalize(value, fdigits=2):
"""
Convert a string representing a numerical value to value-digit/exponent form.
Round the fractional portion to the given number of digits.

value    the value (string)
fdigits  the number of digits to which to round the fractional
portion
"""

# if empty string, return error
if not value:
return None

# split value by decimal
v = value.split('.')

# if too many decimals, return error
if len(v) > 2:
return None

# add empty string for fractional portion if missing
elif len(v) == 1:
v.append('')

# assign whole and fractional portions
(w, f) = v

# pad fractional portion up to number of significant digits if necessary
if len(f) < fdigits:
f += ('0' * (fdigits - len(f)))

# if the number of digits in the fractional portion exceeds the
# number of digits allowed by fdigits
elif len(f) > fdigits:
# convert both portions to integers; use '0' for whole portion if missing
(wi, fi) = (int(w or '0'), int(f[:fdigits]))

# round up if first insignificant digit is gteq 5
if int(f[fdigits]) >= 5:
fi += 1

# roll whole value up if fractional portion rounds to a whole
if len(str(fi)) > fdigits:
wi += 1
fi = 0

# replace the whole and fractional strings
(w, f) = (str(wi), ("%0" + str(fdigits) + "d") % fi)

# derive value digits and exponent
n = w.lstrip() + f

l = len(n)
x = -fdigits

n = n.rstrip('0')
x += (l - len(n))

# return value digits and exponent
return (int(n), x)
``````
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