INFO: STL Sample for Members of the numeric_limits Class
ID: Q156810
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The information in this article applies to:
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The Standard C++ Library, used with:
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Microsoft Visual C++, 32-bit Editions, versions 4.2, 5.0, 6.0
SUMMARY
The sample code below illustrates how to use the following members from the
numeric_limits class in Visual C++:
has_denorm
has_denorm_loss
has_infinity
has_quiet_NaN
has_signaling_NaN
is_bounded
is_exact
is_iec559
is_integer
is_modulo
is_signed
is_specialized
tinyness_before
traps
round_style
digits
digits10
max_exponent
max_exponent10
min_exponent
min_exponent10
radix;
denorm_min()
epsilon()
infinity()
max()
min()
quiet_ NaN()
round_error()
signaling_NaN()
MORE INFORMATION
The numeric_limits class provides information for a given type. For
example, you can determine whether a given type is signed or exact or how
it might represent infinity.
The Standard Library instantiates numeric_limits for char, bool, signed
char, unsigned char, short, unsigned short, int, unsigned int, long,
unsigned long, float, double, and long double. This class could also be
instantiated for a user-defined type.
Required Header
<limits>
Description
To reference one of the members of this class, you need to specify the type
that you want to obtain information about and the member name. The return
will either be a value of 1 for true or 0 for false. For example,
numeric_limits<int>::min()
will return the minimum value for an int.
NOTE: Some of the members are only valid for certain types. Please refer to
the Online Help to determine if a member is only valid for a certain type.
Sample Code
//////////////////////////////////////////////////////////////////////
//
// Compile options needed: /GX
//
// <filename> : Numeric.cpp
//
// Variables and Functions:
//
// has_denorm
// has_denorm_loss
// has_infinity
// has_quiet_NaN
// has_signaling_NaN
// is_bounded
// is_exact
// is_iec559
// is_integer
// is_modulo
// is_signed
// is_specialized
// tinyness_before
// traps
// round_style
// digits
// digits10
// max_exponent
// max_exponent10
// min_exponent
// min_exponent10
// radix;
// denorm_min()
// epsilon()
// infinity()
// max()
// min()
// quiet_ NaN()
// round_error()
// signaling_NaN()
//
// Written by Linda Koontz
// of Microsoft Product Support Services,
// Copyright (c) 1996 Microsoft Corporation. All rights reserved.
//////////////////////////////////////////////////////////////////////
/* Compile options needed: /GX
*/
#include <iostream>
#include <limits>
#if _MSC_VER > 1020 // if VC++ version is > 4.2
using namespace std; // std c++ libs implemented in std
#endif
void main() {
cout << " 1 The minimum value for char is " <<
(int)numeric_limits<char>::min() << endl;
cout << " 2 The minimum value for int is " <<
numeric_limits<int>::min() << endl;
cout << " 3 The maximum value for char is " >>
(int)numeric_limits<char>::max() << endl;
cout << " 4 The maximum value for int is " <<
numeric_limits<int>::max() << endl;
cout << " 5 The number of bits to represent a char is " <<
numeric_limits<char>::digits << endl;
cout << " 6 The number of bits to represent an int is " <<
numeric_limits<int>::digits << endl;
cout <<" 7 The number of digits representable in base 10 for float is"
<< numeric_limits<float>::digits10 << endl;
cout << " 8 Is a char signed? " <<
numeric_limits<char>::is_signed << endl;
cout << " 9 Is an unsigned integer signed? " <<
numeric_limits<unsigned int>::is_signed << endl;
cout << "10 Is a integer an integer? " <<
numeric_limits<int>::is_integer << endl;
cout << "11 Is a float an integer? " <<
numeric_limits<float>::is_integer << endl;
cout << "12 Is a integer exact? " <<
numeric_limits<int>::is_exact << endl;
cout << "13 Is a float exact? " <<
numeric_limits<float>::is_exact << endl;
cout << "14 The radix for float is " <<
numeric_limits<float>::radix << endl;
cout << "15 The epsilon for float is " <<
numeric_limits<float>::epsilon() << endl;
cout << "16 The round error for float is " <<
numeric_limits<float>::round_error() << endl;
cout << "17 The minimum exponent for float is " <<
numeric_limits<float>::min_exponent << endl;
cout << "18 The minimum exponent in base 10 " <<
numeric_limits<float>::min_exponent10 << endl;
cout << "19 The maximum exponent is " <<
numeric_limits<float>::max_exponent << endl;
cout << "20 The maximum exponent in base 10 " <<
numeric_limits<float>::max_exponent10 << endl;
cout << "21 Can float represent positive infinity? " <<
numeric_limits<float>::has_infinity << endl;
cout << "22 Can double represent positive infinity? " <<
numeric_limits<double>::has_infinity << endl;
cout << "23 Can int represent positive infinity? " <<
numeric_limits<int>::has_infinity << endl;
cout << "24 Can float represent a NaN? " <<
numeric_limits<float>::has_quiet_NaN << endl;
cout << "25 Can float represent a signaling NaN? " <<
numeric_limits<float>::has_signaling_NaN << endl;
cout << "26 Does float allow denormalized values? " <<
numeric_limits<float>::has_denorm << endl;
cout << "27 Does float detect denormalization loss? " <<
numeric_limits<float>::has_denorm_loss << endl;
cout << "28 Representation of positive infinity for float " <<
numeric_limits<float>::infinity() << endl;
cout << "29 Representation of quiet NaN for float " <<
numeric_limits<float>::quiet_NaN() << endl;
cout << "30 Minimum denormalized number for float " <<
numeric_limits<float>::denorm_min() << endl;
cout << "31 Minimum positive denormalized value for float " <<
numeric_limits<float>::denorm_min() << endl;
cout << "32 Does float adhere to IEC 559 standard? " <<
numeric_limits<float>::is_iec559 << endl;
cout << "33 Is float bounded? " <<
numeric_limits<float>::is_bounded << endl;
cout << "34 Is float modulo? " <<
numeric_limits<float>::is_modulo << endl;
cout << "35 Is int modulo? " <<
numeric_limits<float>::is_modulo << endl;
cout << "36 Is trapping implemented for float? " <<
numeric_limits<float>::traps << endl;
cout << "37 Is tinyness detected before rounding? " <<
numeric_limits<float>::tinyness_before << endl;
cout << "38 What is the rounding style for float? " <<
(int)numeric_limits<float>::round_style << endl;
cout << "39 What is the rounding style for int? " <<
(int)numeric_limits<int>::round_style << endl;
cout << "40 How does a float represent a signaling NaN? " <<
numeric_limits<float>::signaling_NaN() << endl;
cout << "41 Is int specialized? " <<
numeric_limits<float>::is_specialized << endl;
}
Output:
1 The minimum value for char is -128
2 The minimum value for int is -2147483648
3 The maximum value for char is 127
4 The maximum value for int is 2147483647
5 The number of bits to represent a char is 7
6 The number of bits to represent an int is 31
7 The number of digits representable in base 10 for float is 6
8 Is a char signed? 1
9 Is an unsigned integer signed? 0
10 Is an integer an integer? 1
11 Is a float an integer? 0
12 Is an integer exact? 1
13 Is a float exact? 0
14 The radix for float is 2
15 The epsilon for float is 1.19209e-007
16 The round error for float is 0.5
17 The minimum exponent for float is -125
18 The minimum exponent in base 10 -37
19 The maximum exponent is 128
20 The maximum exponent in base 10 38
21 Can float represent positive infinity? 1
22 Can double represent positive infinity? 1
23 Can int represent positive infinity? 0
24 Can float represent a NaN? 1
25 Can float represent a signaling NaN? 1
26 Does float allow denormalized values? 1
27 Does float detect denormalization loss? 1
28 Representation of positive infinity for float 1.#INF
29 Representation of quiet NaN for float -1.#IND
30 Minimum denormalized number for float 1.4013e-045
31 Minimum positive denormalized value for float 1.4013e-045
32 Does float adhere to IEC 559 standard? 1
33 Is float bounded? 1
34 Is float modulo? 0
35 Is int modulo? 0
36 Is trapping implemented for float? 1
37 Is tinyness detected before rounding? 1
38 What is the rounding style for float? 1
39 What is the rounding style for int? 0
40 How does a float represent a signaling NaN? -1.#INF
41 Is int specialized? 1
REFERENCES
Visual C++ Books On Line: Visual C++ Books:C/C++:Standard C++ Library
Reference.
Additional query words:
STL STLSample
Keywords : kbcode kbVC420 kbVC500 kbVC600 kbDSupport STLIss
Version : winnt:4.2,5.0,6.0
Platform : winnt
Issue type : kbinfo