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Can someone explain to me the steps to convert a number in decimal format (such as 2+(2/7)) into IEEE 754 Floating Point representation? Thanks!

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Are you asking about an arithmetic expression evaluator in assembly code, or what? –  500 - Internal Server Error Apr 21 '11 at 23:46
arithmetic expression –  Casey Flynn Apr 21 '11 at 23:50
You mean other than just 2.0+(2.0/7.0)? Do you want the binary representation of those numbers in IEEE754 and a description of how the addition and divide works, or something else? –  Chris Dodd Apr 22 '11 at 16:56

1 Answer 1

up vote 1 down vote accepted

First, 2 + 2/7 isn't in what most people would call "decimal format". "Decimal format" would more commonly be used to indicate a number like:


Even the ... is a little bit fast and loose. More commonly, the number would be truncated or rounded to some number of decimal digits:


Of course, at this point, it is no longer exactly equal to 2 + 2/7, but is "close enough" for most uses.

We do something similar to convert a number to a IEEE-754 format; instead of base 10, we begin by writing the number in base 2:


Next we "normalize" the number, by writing it in the form 2^e * 1.xxx... for some exponent e (specifically, the digit position of the leading bit of our number):

2^1 * 1.0010010010010010010010010010010010010010010010010010010010010...

At this point, we have to choose a specific IEEE-754 format, because we need to know how many digits to keep around. Let's choose "single-precision", which has a 24-bit significand. We round the repeating binary number to 24 bits:

2^1 * 1.00100100100100100100100  10010010010010010010010010010010010010...
           24 leading bits          bits to be rounded away

Because the trailing bits to be rounded off are larger than 1000..., the number rounds up to:

2^1 * 1.00100100100100100100101

Now, how does this value actually get encoded in IEEE-754 format? The single-precision format has a leading signbit (zero, because the number is positive), followed by eight bits that contain the value 127 + e in binary, followed by the fractional part of the significand:

0 10000000 00100100100100100100101
s exponent fraction of significand

In hexadecimal, this gives 0x40124925.

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