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How to convert m x 10^x to n x 2^y .

I want to covert 2.93 x 10^12 to IEEE-754 representation.

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Check this online convertor – riti Oct 18 '12 at 8:59
up vote 1 down vote accepted

Two options: calculate n,y explicitly:

y = ceil(log2(m*10^x)), n = (m*10^x / 2^y)

iteratively with integers only:

write integer 293 to a variable mantissa (and keep count of the exponent=10)

while (exponent>0) {
    mantissa*=10; exponent--;
    while ((mantissa & 1)==0) {
        mantissa>>=1; exp_two++;

EDIT: in IEEE-754 one assumes, that 0.5<n<=1.0. That is to be fixed (by multiplying/dividing by 2 until the condition is met and while adjusting the exponent y accordingly)

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In this particular case long longs are needed (the algorithm produces 2861328125 (*2^10) == 2930000000000. Also, for a complete solution one has to ensure that the mantissa doesn't overflow -- i.e. force the >> operation and thus produce rounding errors. – Aki Suihkonen Oct 18 '12 at 9:18
There's an error in the explicit version: n is actually unknown, but for the formula we can/must assume 0.5<n<=1.0. Set it either one and adjust n and y accordingly – Aki Suihkonen Oct 18 '12 at 10:59
But what if I want to compute it without calculator (or without using this algorithm) . This was the question asked in competitive exam. – p.j Oct 18 '12 at 11:17
Also that formula is recursive so cannot be solved directly like this.I have done like example we have 5x10^2 then it can be written as nx2^2 since each 10 has one 2 in it and 5 do not any 2 then n becomes 125 in decimal which can be converted to binary but this also do not work for large numbers. – p.j Oct 18 '12 at 11:19
The recursion was noticed and fixed already. In deed the "large" numbers cannot be represented exactly in powers of two, but one has to drop least significant bits from the mantissa to keep it in the proper range (either 1+23 bits, or 1+52 bits). – Aki Suihkonen Oct 18 '12 at 11:37

You can try this:

float f = 2.93E12;

unsigned int ui = *reinterpret_cast<unsigned int *>(&f);
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