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Is there a printf width specifier which can be applied to a floating point specifier that would automatically format the output to the necessary number of significant digits such that when scanning the string back in, the original floating point value is acquired?

For example, suppose I print a float to a precision of 2 decimal places:

float foobar = 0.9375;
printf("%.2f", foobar);    // prints out 0.94

When I scan the output 0.94, I have no standards-compliant guarantee that I'll get the original 0.9375 floating-point value back (in this example, I probably won't).

I would like a way tell printf to automatically print the floating-point value to the necessary number of significant digits to ensure that it can be scanned back to the original value passed to printf.

I could use some of the macros in float.h to derive the maximum width to pass to printf, but is there already a specifier to automatically print to the necessary number of significant digits -- or at least to the maximum width?

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@bobobobo So you are just recommending that one uses an assumption out of air instead of taking the portable approach? –  user529758 Nov 10 '13 at 21:23
@bobobobo So that I may add it to the answers, would you be able to cite the clause in C99 standard which states that the printf statement will output the float type at maximum precision by default if no precision is specified? –  Vilhelm Gray Nov 11 '13 at 19:20
@bobobobo I apologize, I think you may have misunderstood the question. I'm interested in the precision of the output (i.e. the number of characters printed), not the precision of the data types (i.e. how accurately float/double represent the true value). –  Vilhelm Gray Nov 11 '13 at 19:58
@Vilhelm Gray See you've made a small update emphasizing float. For float, I would recommend using printf("%.*e", OP_FLT_Digs-1, x) where OP_FLT_Digs is derived correspondingly as OP_DBL_Digs below. IMHO, your focus is float-text-float round tripping and that is exactly, by C spec, what xxx_DECIMAL_DIG provide. Of course %a is great, but I assume you prefer decimal text. –  chux Nov 22 '13 at 16:10
@Vilhelm Gray C11dr "... 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 b is a power of 10 ⎡1 + p log10 b⎤ otherwise FLT_DECIMAL_DIG 6 DBL_DECIMAL_DIG 10 LDBL_DECIMAL_DIG 10 ..." The 6,10,10 are the minimum values. –  chux Nov 22 '13 at 16:15

5 Answers 5

up vote 24 down vote accepted

I recommend @Jens Gustedt hexadecimal solution: use %a.

OP wants “print with maximum precision (or at least to the most significant decimal)”.

A simple example would be to print one seventh as in:

#include <float.h>
int Digs = DECIMAL_DIG;
double OneSeventh = 1.0/7.0;
printf("%.*e\n", Digs, OneSeventh);
// 1.428571428571428492127e-01

But let's dig deeper ...

Mathematically, the answer is "0.142857 142857 142857 ...", but we are using finite precision floating point numbers. Let's assume IEEE 754 double-precision binary. So the OneSeventh = 1.0/7.0 results in the value below. Also shown are the preceding and following representable double floating point numbers.

OneSeventh before = 0.1428571428571428 214571170656199683435261249542236328125
OneSeventh        = 0.1428571428571428 49212692681248881854116916656494140625
OneSeventh after  = 0.1428571428571428 769682682968777953647077083587646484375

Printing the exact decimal representation of a double has limited uses.

C has 2 families of macros in <float.h> to help us.
The first set is the number of significant digits to print in a string in decimal so when scanning the string back, we get the original floating point. There are shown with the C spec's minimum value and a sample C11 compiler.

FLT_DECIMAL_DIG   6,  9 (float)                           (C11)
DBL_DECIMAL_DIG  10, 17 (double)                          (C11)
LDBL_DECIMAL_DIG 10, 21 (long double)                     (C11)
DECIMAL_DIG      10, 21 (widest supported floating type)  (C99)

The second set is the number of significant digits a string may be scanned into a floating point and then the FP printed, still retaining the same string presentation. There are shown with the C spec's minimum value and a sample C11 compiler. I believe available pre-C99.

FLT_DIG   6, 6 (float)
DBL_DIG  10, 15 (double)
LDBL_DIG 10, 18 (long double)

The first set of macros seems to meet OP's goal of significant digits. But that macro is not always available.

  #define OP_DBL_Digs (DBL_DECIMAL_DIG)
  #ifdef DECIMAL_DIG
    #define OP_DBL_Digs (DECIMAL_DIG)
    #define OP_DBL_Digs (DBL_DIG + 3)

The "+ 3" was the crux of my previous answer. Its centered on if knowing the round-trip conversion string-FP-string (set #2 macros available C89), how would one determine the digits for FP-string-FP (set #1 macros available post C89)? In general, add 3 was the result.

Now how many significant digits to print is known and driven via <float.h>.

To print N significant decimal digits one may use various formats.

With "%e", the precision field is the number of digits after the lead digit and decimal point. So - 1 is in order. Note: This -1 is not in the initialint Digs = DECIMAL_DIG;`

printf("%.*e\n", OP_DBL_Digs - 1, OneSeventh);
// 1.4285714285714285e-01

With "%f", the precision field is the number of digits after the decimal point. For a number like OneSeventh/1000000.0, one would need OP_DBL_Digs + 6 to see all the significant digits.

printf("%.*f\n", OP_DBL_Digs    , OneSeventh);
// 0.14285714285714285
printf("%.*f\n", OP_DBL_Digs + 6, OneSeventh/1000000.0);
// 0.00000014285714285714285

Note: Many are use to "%f". That displays 6 digits after the decimal point; 6 is the display default, not the precision of the number.

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why is 1.428571428571428492127e-01 and not 1.428571428571428492127e-001, the number of digits after 'e' should be 3? –  user1024 Jul 10 at 2:34

If you are only interested in the bit (resp hex pattern) you could use the %a format. This guarantees you:

The default precision suffices for an exact representation of the value if an exact representation in base 2 exists and otherwise is sufficiently large to distinguish values of type double.

I'd have to add that this is only available since C99.

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Simply use the macros from <float.h> and the variable-width conversion specifier (".*"):

float f = 3.14159265358979323846;
printf("%.*f\n", FLT_DIG, f);
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You could avoid the runtime overhead by preprocessor stringizing, I think... –  Oliver Charlesworth May 30 '13 at 15:22
@OliCharlesworth Do you mean like so: printf("%." FLT_DIG "f\n", f); –  Vilhelm Gray May 30 '13 at 15:31
+1 but this works best for %e, not so well for %f: only if it is knows that the value to print is close to 1.0. –  Pascal Cuoq May 30 '13 at 15:33
%e prints significant digits for very small numbers and %f does not. e.g. x = 1e-100. %.5f prints 0.00000 (a total loss of precession). %.5e prints 1.00000e-100. –  chux May 30 '13 at 17:11
@bobobobo No, %.6f isn't equivalent, because FLT_DIG is not always 6. And who cares about efficiency? I/O is already expensive as hell, one digit more or less precision won't make a bottleneck. –  user529758 Nov 10 '13 at 20:51

The short answer to print floating point numbers losslessly (such that they can be read back in to exactly the same number, except NaN and Infinity):

  • If your type is float: use printf("%.9g", number).
  • If your type is double: use printf("%.17g", number).

Do NOT use %f, since that only specifies how many significant digits after the decimal and will truncate small numbers. For reference, the magic numbers 9 and 17 can be found in float.h which defines FLT_DECIMAL_DIG and DBL_DECIMAL_DIG.

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Would you be able to explain the %g specifier? –  Vilhelm Gray Jan 16 '14 at 14:56
%g prints the number with as many digits as needed for precision, preferring exponential syntax when the numbers are small or huge (1e-5 rather than .00005) and skipping any trailing zeroes (1 rather than 1.00000). –  ccxvii Jan 16 '14 at 23:49
In my compiler (C++Builder XE), it's DBL_DIG instead of DBL_DECIMAL_DIG and the value is 15 instead of 17. –  Albert Wiersch Apr 7 '14 at 0:40
@truthseeker To represent an IEEE 754 binary64 code does indeed need to print at least 15 significant decimals places. But unambiguous-ness needs 17 as the precision changes in a binary number (at 2,4,8, etc.) and a decimal number (at 10,100,1000, etc.) are never at the same number (except 1.0). Example: the 2 double values just above 0.1 : 1.000_0000_0000_0000_2e-01, 1.000_0000_0000_0000_3e-01 need 17 digits to distinguish. –  chux Jan 7 at 20:33
@ccxvii The number provided by DBL_DECIMAL_DIG, like 17, is the total number of significant digits needed. %.16g and %.16e print 1 digit before the decimal point and 16 decimal places afterwards. So printf("%.*g", DBL_DECIMAL_DIG - 1, number) is sufficient. Of course an extra digit as in "%.17g" is OK. –  chux Jan 7 at 20:34

No, there is no such Printf width specificer to print floating-point with maximum precision. Let me explain why.

The maximum precision of float and double is variable, and dependent on the actual value of the float or double.

Recall float and double are stored in sign.exponent.mantissa format. This means that there are many more bits used for the fractional component for small numbers than for big numbers.

enter image description here

For example, float can easily distinguish between 0.0 and 0.1.

float r = 0;
printf( "%.6f\n", r ) ; // 0.000000
r+=0.1 ;
printf( "%.6f\n", r ) ; // 0.100000

But float has no idea of the difference between 1e27 and 1e27 + 0.1.

r = 1e27;
printf( "%.6f\n", r ) ; // 999999988484154753734934528.000000
r+=0.1 ;
printf( "%.6f\n", r ) ; // still 999999988484154753734934528.000000

This is because all the precision (which is limited by the number of mantissa bits) is used up for the large part of the number, left of the decimal.

The %.f modifier just says how many decimal values you want to print from the float number as far as formatting goes. The fact that the accuracy available depends on the size of the number is up to you as the programmer to handle. printf can't/doesn't handle that for you.

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This is an excellent explanation of the limitations of accurately printing out floating point values to specific decimal places. However, I believe I was too ambiguous with my original choice of words, so I have updated my question to avoid the term "maximum precision" in the hopes that it may clear up the confusion. –  Vilhelm Gray Nov 18 '13 at 19:24
It still depends on the value of the number you are printing. –  bobobobo Nov 18 '13 at 19:43
this is partly true, but it doesn't answer the question and you are confused as to what OP is asking. He is asking if one can query the number of significant [decimal] digits a float provides, and you assert that there's no such thing (i. e. that there's no FLT_DIG), which is wrong. –  user529758 Dec 23 '13 at 9:20
@H2CO3 Maybe you should edit my post and downvote (j/k). This answer asserts FLT_DIG doesn't mean anything. This answer asserts the number of decimal places available depends on the value inside the float. –  bobobobo Dec 23 '13 at 16:53

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