# Book says c Standard provides floating point accuracy to six significant figures, but this isnt true?

I am reading C Primer Plus by Stephen Prata, and one of the first ways it introduces floats is talking about how they are accurate to a certain point. It says specifically "The C standard provides that a float has to be able to represent at least six significant figures...A float has to represent accurately the first six numbers, for example, 33.333333"

This is odd to me, because it makes it sound like a float is accurate up to six digits, but that is not true. 1.4 is stored as 1.39999... and so on. You still have errors.

So what exactly is being provided? Is there a cutoff for how accurate a number is supposed to be?

In C, you can't store more than six significant figures in a float without getting a compiler warning, but why? If you were to do more than six figures it seems to go just as accurately.

This is made even more confusing by the section on underflow and subnormal numbers. When you have a number that is the smallest a float can be, and divide it by 10, the errors you get don't seem to be subnormal? They seem to just be the regular rounding errors mentioned above.

So why is the book saying floats are accurate to six digits and how is subnormal different from regular rounding errors?

• Where in the C standard does it say that? port70.net/~nsz/c/c11/n1570.html – Govind Parmar Jan 31 at 22:44
• The example has 8 significant figures – M.M Jan 31 at 22:46
• I didn't write the 33.333333. It's straight out of the book. it implied that 33.3333 would be saved and the rest would be truncated. – Akimbo Jan 31 at 22:52
• @GovindParmar: C 2018 5.2.4.2.2 12 says that `FLT_DIG` must be at least 6, and it is the number of decimal digits, q, such that any floating-point number with q decimal digits (for example “1.40000e0” in input) can be rounded into a floating-point number with p radix b digits (by which it refers to one of the internal formats, such as `float`, `double`, or `long double`) and back again without change to the q decimal digits. – Eric Postpischil Jan 31 at 22:53
• @Akimbo: you're asking an important question about a very big subject. Extremely knowledgeable folks (especially Eric Postpischil) have given you some very detailed answers. Q: Is it helping you? If not, please read this, this and/or this. Please post back any specific questions. – paulsm4 Feb 1 at 4:03

## 2 Answers

Suppose you have a decimal numeral with q significant digits:

dq−1.dq−2dq−3d0,

and let’s also make it a floating-point decimal numeral, meaning we scale it by a power of ten:

dq−1.dq−2dq−3d0•10e.

Next, we convert this number to `float`. Many such numbers cannot be exactly represented in `float`, so we round the result to the nearest representable value. (If there is a tie, we round to make the low digit even.) The result (if we did not overflow or underflow) is some floating-point number x. By the definition of floating-point numbers (in C 2018 5.2.4.2.2 3), it is represented by some number of digits in some base scaled by that base to a power. Supposing it is base two, x is:

bp−1.bp−2bp−3b0•2p.

Next, we convert this `float` x back to decimal with q significant digits. Similarly, the `float` value x might not be exactly representable as a decimal numeral with q digits, so we get some possibly new number:

nq−1.nq−2nq−3n0•10m.

It turns out that, for any `float` format, there is some number q such that, if the decimal numeral we started with is limited to q digits, then the result of this round-trip conversion will equal the original number. Each decimal numeral of q digits, when rounded to `float` and then back to q decimal digits, results in the starting number.

In the 2018 C standard, clause 5.2.4.2.2, paragraph 12, tells us this number q must be at least 6 (a C implementation may support larger values), and the C implementation should define a preprocessor symbol for it (in `float.h`) called `FLT_DIG`.

So considering your example number, 1.4, when we convert it to `float` in the IEEE-754 basic 32-bit binary format, we get exactly 1.39999997615814208984375 (that is its mathematical value, shown in decimal for convenience; the actual bits in the object represented it in binary). When we convert that to decimal with full precision, we get “1.39999997615814208984375”. But if we convert it to decimal with rounding six digits, we get “1.40000”. So 1.4 survives the round trip.

In other words, it is not true in general that six decimal digits can be represented in `float` without change, but it is true that `float` carries enough information that you can recover six decimal digits from it.

Of course, once you start doing arithmetic, errors will generally compound, and you can no longer rely on six decimal digits.

• This will sound beginnerish because it is, but what do we exactly mean when we say we are "converting it to decimal"? When I write a float literal in an IDE, it's a float literal, and I store it in a float. 1.4 will always be 1.39999997615814208984375. So when does the rounding to decimal happen. In just a c compiler? Or will all computers and all programs round 1.39999997615814208984375 to 1.4 decimal when asked? Since an integer can't be 1.4, and floats are used to represent them, I thought a decimal form was more of an idea than an actual thing we convert to (at least, to a computer). – Akimbo Jan 31 at 23:19
• @Akimbo: In general, conversion is an operation (or function) whose input is one type and whose output is another type and for which the output value is as close to the input value as possible. For example, converting a pointer to `int` to a pointer to `char` produces a pointer to the same place in memory but with a different type. Conversion of three in a `float` to an `int` produces three in an `int`. It is just a change of representation with as little change in value as possible. – Eric Postpischil Jan 31 at 23:29
• @Akimbo: When `1.4f` appears in the source text of a program, it is converted to `float` during translation (compilation). The C implementation (usually the compiler at this point) rounds it (most often using round-to-nearest-ties-to-even, but other rules are possible). If you write `float x = 1.4;`, then `1.4` is converted to `double`, because `1.4` without the `f` is interpreted as a `double` constant, then, because it is being used to initialize a `float`, it is converted to `float`. When you print it with `printf` and some format like `%f` or `%g`, it is converted to decimal. – Eric Postpischil Jan 31 at 23:31
• So in terms of C, since decimal isn't really a data type, more a way to represent output, does that mean this is only relevant for IO functions? If everything going on behind the scenes is float arithmetic and it only really gets converted to decimal for functions like printf, is this book section a long winded way of saying "functions like printf that convert to decimal are rounded accurately to six sig digits?" Edit: I do understand casting and float literals, I'm just confused where the actual implications of this six digit thing crops up other than printf – Akimbo Feb 1 at 1:01
• @Akimbo: What it is telling you is sort of a measure of how much information there is in a `float`. It means that if you convert a decimal numeral—by any means—to a `float` and then convert it back—by any means—then you will get the original number back, provided it had at most q digits and you rounded the result to q digits. (The conversions must have been done with correct rounding; some software is sloppy about that.) The conversions could have been done by `scanf` and `printf` or by compiling from source text or by your own software. It is just saying `float` is enough for q digits. – Eric Postpischil Feb 1 at 1:08

Thanks to Govind Parmar for citing an on-line example of C11 (or, for that matter C99).

The "6" you're referring to is "FLT_DECIMAL_DIG".

http://c0x.coding-guidelines.com/5.2.4.2.2.html

number of decimal digits, n, such that any floating-point number with p radix b digits can be rounded to a floating-point number with n decimal digits and back again without change to the value,

``````  { p log10 b        if b is a power of 10
{
{ [^1 + p log10 b^] otherwise
``````

FLT_DECIMAL_DIG 6
DBL_DECIMAL_DIG 10 LDBL_DECIMAL_DIG 10

"Subnormal" means:

What is a subnormal floating point number?

A number is subnormal when the exponent bits are zero and the mantissa is non-zero. They're numbers between zero and the smallest normal number. They don't have an implicit leading 1 in the mantissa.

STRONG SUGGESTION:

If you're unfamiliar with "floating point arithmetic" (or, frankly, even if you are), this is an excellent article to read (or review):

What Every Programmer Should Know About Floating-Point Arithmetic

• What does "and back again" mean in the quote? How do you un-round a number? – M.M Jan 31 at 22:52
• This is the wrong direction. `FLT_DECIMAL_DIG` is for rounding from a floating-point object in a C program to a decimal numeral and then back to the original floating-point type. The question asks about preserving decimal digits, meaning you go from a decimal numeral to a C object and then back to a decimal numeral. This is covered by `FLT_DIG` in the next item in the standard. – Eric Postpischil Jan 31 at 22:55
• I think the rounding here refers to the loss of digits through conversion to binary. i.e. you take `p` digits from the string representation, convert it to float, then convert back to a string representation. – paddy Jan 31 at 22:56
• I don't know how much you know or don't know, so that's a tough question to answer. A couple of hints: 1) Steven Prata's book is not "wrong", 2) C uses IEEE-754, and IEEE-754 is rigorously defined. Including "exceptions". 3) Here is an excellent link to "start" with: What Every Computer Scientist Should Know About Floating-Point Arithmetic – paulsm4 Feb 1 at 0:08
• @paulsm4: The C standard does not say that implementations use IEEE 754 (or its equivalent, IEC 60559). The C standard offers Annex F, which specifies use of IEC 60559, as an option that C implementations may adopt. I do not know of one that has adopted it. Many C implementations use IEEE-754 formats but fail to conform to it in various ways. – Eric Postpischil Feb 1 at 0:28