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(while trying to analyze how decimal works ) && after reading @jonskeet article and seeing msdn , and thinking for the last 4 hours , I have some questions :

in this link they say something very simple :

1.5 x 10^2 has 2 significant figures

1.50 x 10^2 has 3 significant figures.

1.500 x 10^2 has 4 significant figures etc...

ok...we get the idea.

from jon's article :

 sign * mantissa / 10^exponent

As usual, the sign is just a single bit, but there are 96 bits of mantissa and 5 bits of exponent

 ^ _ ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^___ ^^^^^

 1 _                     96                         5

ok

so max mantiss val = 2^96-1 = 79228162514264337593543950335 which is : 7.9228162514264*10^28 (according to my iphone... could'nt see exponent representation in windows calc.)

notice :

7.9228162514264*10^28 has 14 significant figures (according to examples above)

now the part with the 5 bit in exponent is irrelevant because its in the denominator - so i need the min val which is 2^0

question #1 :

msdn say : enter image description here 28-29 significant digits

but according to my sample (1.500 x 10^2 has 4 significant figures) they have 2 significant figures which is 7.9 ( 7 and 9).

if msdn would have written :

±79228162514264337593543950335 × 10^0

i would understand this , since all significant digits are in the expression.

why do they write 28-29 but display 2 ?

question #2 :

how will decimal representation ( mantiss && exponent) will be displayed for the value 0.5 ?

the max denominator can be 2^32-1 --> 31

thanks guys.

question #3 :

1+96+5 = 102 bits.

msdn says :

The decimal keyword denotes a 128-bit data type.

128-102 = 26

could understnad from article why there isnt a usage to those 26 bits

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2 Answers 2

up vote 6 down vote accepted

They've given the range to just two significant digits, but specified the precision separately. That's why the range is listed as "approximate range".

The decimal representation of 0.5 would be a mantissa of 5 and an exponent of 1 (which is treated in the inverse sense to normal, i.e. it's effectively -1).

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mantiss of 5 means (2^5)/(1*10^1) - this is not 0.5 ...... –  Royi Namir May 16 '12 at 8:32
    
@RoyiNamir: No, the mantissa is 5. What made you think it's got anything to do with 2^5? I suspect you've misunderstood what a mantissa is. –  Jon Skeet May 16 '12 at 8:35
    
oh sorry...:) after 4 hours of searching im thinking in base 2 :) –  Royi Namir May 16 '12 at 8:35
    
@RoyiNamir: The base is irrelevant though - you never raise a base to the power of a mantissa; that's what an exponent is for. –  Jon Skeet May 16 '12 at 8:38
    
can i say that the precision ( decimal digits at the right to the point) is accurate within 28 digits ? so if i have 2 fractions of 28 decimals being added - the result will be accurate ? is it true to say ? –  Royi Namir May 16 '12 at 8:38
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why do they write 28-29 but display 2?

For readability. It says "Approximate range" and 7.9E28 is more readable than 79228162514264337593543950335 (E0 here, not E1).

how will decimal representation ( mantiss && exponent) will be displayed for the value 0.5 ?

The exponent's range is -28...0, however, it is stored (and received via constructor parameters) as an absolute value of 0...28.

So 0.5 Would have the same mantissa representation as 5 with an exponent of -1 (stored as 1).

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You're getting confused between exponent and mantissa in the "if the exponent is 5 bits" part. Which exact bit of MSDN do you believe to be inaccurate? –  Jon Skeet May 16 '12 at 8:46
    
a. The mantissa is 96bits, the exponent is 5 - where exactly did I confuse the two. b. "The scaling factor is implicitly the number 10, raised to an exponent ranging from 0 to 28." - There is no mention of negative exponents. –  Danny Varod May 16 '12 at 8:52
    
So the exponent doesn't have its own sign? - How do you know if you have to use E+n or E-n then? –  Danny Varod May 16 '12 at 10:29
    
(I was just in the middle of adding another comment, btw.) The exponent for decimal is always in the range 0-28, as specified in the documentation. It's then used in the inverse sense of a tradtional exponent, as documented (value = sign * mantissa / 10^exponent) –  Jon Skeet May 16 '12 at 10:30
    
I still think your statement of "If the exponent is 5bits and is signed, then the full range is -2^31 .. 2^31 - 1" is extremely confused and/or confusing. I certainly don't know what you mean by it, despite having a pretty good understanding of decimal. Note that the range depends on the size of the mantissa as well as the exponent. –  Jon Skeet May 16 '12 at 10:31
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