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I'm trying to extract the byte value of a double from the computer's memory. The reason for this is accuracy, as the final value that is represented to the user has some rounding performed.

Ideally, I want to be able to extract the sign, exponent and mantissa from the number (IEEE 754 standard)

From what I understand, casting to an unsigned char is the way to go. I have the following code snippet (stolen elsewhere), but I don't trust the results - there's no byte output for any integer values:

double d = 2;
unsigned char *p = (unsigned char*)&d;

Can anyone guide me in the right direction in order to extract byte representation of double numbers accurately, or give any advice/comments on how to proceed?

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Are you aware of the frexp() function in the standard library? –  Oli Charlesworth Jan 7 '12 at 17:58
Integer values? It's a double. And how are you arranging for output to appear? That code just creates a double and a pointer. –  Lightness Races in Orbit Jan 7 '12 at 18:01
Also, I don't understand your premise. How is extracting the raw bits going to help you with accuracy? –  Oli Charlesworth Jan 7 '12 at 18:01
I think this is a good exercise, for you to understand the layout of a double in memory, and also for you to work with casting, masking, and bit-shifting to truly understand what's going on "under the hood." –  Jonathon Reinhart Jan 7 '12 at 18:04
Briefly (and this is from my understanding) floating point binary values cannot, sometimes, represent numbers accurately. So, some potential loss/rounding is involved. If I'm performing simulation or some number crunching that requires accuracy and several sessions/machines to be used, if I save intermittent results as ASCII values, potentially, when I start a new session using said results, I'll have an inaccuracy that will become bigger and bigger as time goes on (even if in reality it'll be small). –  johnnyturbo3 Jan 7 '12 at 18:16

2 Answers 2

up vote 4 down vote accepted

You're doing it right. You can treat p as an array unsigned char[sizeof(double)] now.

For example:

for (int i = 0; i != sizeof(double); ++i)  printf("%02X ", p[i]);

For d = 0.125 this prints 00 00 00 00 00 00 C0 3F. Reversing endianness and decomposing into parts, this is:

00111111 11000000 0 0 0 0 0 0
   3F       C0    0 0 0 0 0 0

0   01111111100   0...<52 times>...0
S     Exponent         Mantissa
+     1023 - 3           1.0

The exponent field's value is 1020, which gives an exponent of −3 after correcting by the bias of 1023, and the mantissa is 1.0, after including the implicit leading 1. So the value is 2−3 = 1/8.

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If your motivation is only accuracy, use printf("%a\n", d);

It displays the same information as going to the binary representation would, but it displays it in a format that's almost human-readable. Here (that is, for d=2;), it displays 0x1p+1. The number after 0x is the mantissa, normalized between 1 and 2, and in hexadecimal. The number after p is the exponent. It is displayed in decimal but it represents a power of two.

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cool - never knew about %a –  franji1 Jan 7 '12 at 18:35

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