limits.h specifies limits for non-floating point math types, e.g. INT_MIN and INT_MAX. These values are the most negative and most positive values that you can represent using an int.

In float.h, there are definitions for FLT_MIN and FLT_MAX. If you do the following:

NSLog(@"%f %f", FLT_MIN, FLT_MAX);

You get the following output:

FLT_MIN = 0.000000, FLT_MAX = 340282346638528859811704183484516925440.000000

FLT_MAX is equal to a really large number, as you would expect, but why does FLT_MIN equal zero instead of a really large negative number?

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    FLT_MIN on my machine is 1.17549435e-38F. – Carl Norum Mar 27 '10 at 3:31
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    How are you checking the value? Looking in a header file somewhere? Using a printf? (If you're using printf, you're not using "%f", are you? You'll want "%e" to get exponential notation.) – Cascabel Mar 27 '10 at 3:38
  • I've updated both the Q and A to clarify the %f printf issue. – Nick Forge Mar 27 '10 at 3:47
  • Try printf("FLT_MIN: %.100f\n", FLT_MIN); – Slipp D. Thompson Jul 7 '14 at 6:11
  • @SlippD.Thompson Try reading the existing answers ;-) – Nick Forge Jul 7 '14 at 10:23

It's not actually zero, but it might look like zero if you inspect it using printf or NSLog by using %f.
According to float.h (at least in Mac OS X 10.6.2), FLT_MIN is described as:

/* Minimum normalized positive floating-point number, b**(emin - 1).  */

Note the positive in that sentence: FLT_MIN refers to the minimum (normalized) number greater than zero. (There are much smaller non-normalized numbers).

If you want the minimum floating point number (including negative numbers), use -FLT_MAX.

  • This doesn't even seem like an answer to me - I thought your question was why it's zero instead of something very small and positive. – Cascabel Mar 27 '10 at 3:33
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    I've updated the answer - you're absolutely correct about it not being zero. I'll update the question to reflect that it looks like zero when you do a printf, not that it's actually zero. – Nick Forge Mar 27 '10 at 3:39
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    The text in the comment, "Minimum normalized positive floating-point number, b**(emin - 1)," is straight out of the C standard, and is valid for any C implementation (see ISO/IEC 9899:TC2 – James McNellis Mar 27 '10 at 3:40
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    @Nick: It doesn't look like zero if you use exponential notation. – Cascabel Mar 27 '10 at 3:41
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    FLT_MIN refers to the minimum normalized positive float. The minimum positive float is a denormalized number, namely 2^(-149) ≈ 1.4013e-45. – Edgar Bonet Mar 20 '14 at 9:41

The '%f' format prints 6 decimal places in fixed format. Since FLT_MIN is a lot smaller, it looks like zero in fixed point. If you use '%e' or '%g' format, you'd get a better formatted answer. Similarly with the FLT_MAX.

#include <float.h>
#include <stdio.h>
int main(void)
    printf("MIN = %f, MAX = %f\n", FLT_MIN, FLT_MAX);
    printf("MIN = %e, MAX = %e\n", FLT_MIN, FLT_MAX);

MIN = 0.000000, MAX = 340282346638528859811704183484516925440.000000
MIN = 1.175494e-38, MAX = 3.402823e+38

Whenever you will try to print the value of FLT_MIN from standard header file float.h ,you will get 0.000000(as you are seeing in your output screen). That is not actually a error. You are getting this result because the format specifier %f. Generally %f print 6 digits after the decimal point but in this case the signed negative value is so small that you need to print significant amount of digits after the decimal point.

I have used %.54f(machine dependent) to get the desired- result(0.000000000000000000000000000000000000011754943508222875 for my system).

//Check this on your system

int main()
    printf("Minimum signed float %.55f\n",FLT_MIN);
    printf("Minimum signed float %e\n",FLT_MIN);
    return 0;

//Output :-

// Minimum signed float 0.0000000000000000000000000000000000000117549435082228750

// Minimum signed float 1.175494e-038

I think now it's clear to you why you are getting 0.000000 for CHAR_MIN and how to get the correct result with the same format specifier.Though you can use %e for better formatted result.


Why is FLT_MIN equal to zero?

It is not, it appears as 0.000000 due to using "%f" which prints 6 decimal digits after the ..
FLT_MIN often has a value about 1.17549435e-38.


Although this question has been answered as to why, I thought I would post the exact values for FLT_TRUE_MIN, FLT_MIN, FLT_MAX as well as their nearest float neighbors when float is binary32.

// Approximate value, exact value
Before, FLT_TRUE_MIN, after
 0.00000000e+00 0.0
 1.40129846e-45 0.00000000000000000000000000000000000000000000140129846432481707092372958328991613128026194187651577175706828388979108268586060148663818836212158203125
 2.80259693e-45 0.0000000000000000000000000000000000000000000028025969286496341418474591665798322625605238837530315435141365677795821653717212029732763767242431640625
Before, FLT_MIN, after
 1.17549421e-38 0.00000000000000000000000000000000000001175494210692441075487029444849287348827052428745893333857174530571588870475618904265502351336181163787841796875
 1.17549435e-38 0.000000000000000000000000000000000000011754943508222875079687365372222456778186655567720875215087517062784172594547271728515625
 1.17549449e-38 0.00000000000000000000000000000000000001175494490952133940450443629595204006810278684798281709160328881985245648433835441437622648663818836212158203125
Before, FLT_MAX, after
 3.40282326e+38 340282326356119256160033759537265639424.0
 3.40282347e+38 340282346638528859811704183484516925440.0
            inf inf

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