NAME

Types::Numbers - Type constraints for numbers

DESCRIPTION

Because we deal with numbers every day in our programs and modules, this is an extensive Type::Tiny library of number validations. Like Type::Tiny, these types work with all modern OO platforms and as a standalone type system.

TYPES

Overview

All of these types strive for the accurate storage and validation of many different types of numbers, including some storage types that Perl doesn't natively support.

The hierarchy of the types is as follows:

   (T:S = From Types::Standard)

   Item (T:S)
      Defined (T:S)
         NumLike
            NumRange[`n, `p]
            IntLike
               SignedInt[`b]
               UnsignedInt[`b]
            PerlNum
               PerlSafeInt
               PerlSafeFloat
            BlessedNum[`d]
               BlessedInt[`d]
               BlessedFloat[`d]
            NaN
            Inf[`s]
            FloatSafeNum
               FloatBinary[`b, `e]
               FloatDecimal[`d, `e]
            RealNum
               RealSafeNum
                  FixedBinary[`b, `s]
                  FixedDecimal[`d, `s]

         Value (T:S)
            Str (T:S)
               Char[`b]

Basic types

NumLike

Behaves like LaxNum from Types::Standard, but will also accept blessed number types. Unlike StrictNum, it will accept NaN and Inf numbers.

NumRange[`n, `p]

Only accepts numbers within a certain range. The two parameters are the minimums and maximums, inclusive.

PerlNum

Exactly like LaxNum, but with a different parent. Only accepts unblessed numbers.

BlessedNum

Only accepts blessed numbers. A blessed number would be using something like Math::BigInt or Math::BigFloat. It doesn't directly isa check those classes, just that the number is blessed.

BlessedNum[`d]

A blessed number that supports at least certain amount of digit accuracy. The blessed number must support the accuracy or div_scale method.

For example, BlessedNum[40] would work for the default settings of Math::BigInt, and supports numbers at least as big as 128-bit integers.

NaN

A "not-a-number" value, either embedded into the Perl native float or a blessed NaN, checked via is_nan.

Inf

An infinity value, either embedded into the Perl native float or a blessed Inf, checked via is_inf.

Inf[`s]

Inf['+']
Inf['-']

An infinity value with a certain sign, either embedded into the Perl native float or a blessed Inf, checked via is_inf. The parameter must be a plus or minus character.

RealNum

Like "NumLike", but does not accept NaN or Inf. Closer to the spirit of StrictNum, but accepts blessed numbers as well.

Integers

IntLike

Behaves like Int from Types::Standard, but will also accept blessed number types and integers in E notation. There are no expectations of storage limitations here. (See "SignedInt" for that.)

PerlSafeInt

A Perl (unblessed) integer number than can safely hold the integer presented. This varies between 32-bit and 64-bit versions of Perl.

For example, for most 32-bit versions of Perl, the largest integer than can be safely held in a 4-byte NV (floating point number) is 9007199254740992. Numbers can go higher than that, but due to the NV's mantissa length (accuracy), information is lost beyond this point.

In this case, ...992 would pass and ...993 would fail.

(Technically, the max integer is ...993, but we can't tell the difference between ...993 and ...994, so the cut off point is ...992, inclusive.)

Be aware that Perls compiled with "long doubles" have a unique problem with storage and information loss: their number form maintains accuracy while their (default) stringified form loses information. For example, take the max safe integer for a long double:

$num = 18446744073709551615;
say $num;                 # 1.84467440737095516e+19
say $num == 18446744073709551615;  # true, so the full number is still there
say sprintf('%u', $num);  # 18446744073709551615

These numbers are considered safe for storage. If this is not preferred, consider a simple /e/ check for stringified E notation.

BlessedInt

A blessed number than is holding an integer. (A Math::BigFloat with an integer value would still pass.)

BlessedInt[`d]

A blessed number holding an integer of at most `d digits (inclusive). The blessed number container must also have digit accuracy to support this number. (See "BlessedNum[`d]".)

SignedInt

A signed integer (blessed or otherwise) that can safely hold its own number. This is different than IntLike, which doesn't check for storage limitations.

SignedInt[`b]

A signed integer that can hold a `b bit number and is within those boundaries. One bit is reserved for the sign, so the max limit on a 32-bit integer is actually 2**31-1 or 2147483647.

UnsignedInt

Like "SignedInt", but with a minimum boundary of zero.

UnsignedInt[`b]

Like "SignedInt[`b]", but for unsigned integers. Also, unsigned integers gain their extra bit, so the maximum is twice as high.

Floating-point numbers

PerlSafeFloat

A Perl native float that is in the "integer safe" range, or is a NaN/Inf value.

This doesn't guarantee that every single fractional number is going to retain all of its information here. It only guarantees that the whole number will be retained, even if the fractional part is partly or completely lost.

BlessedFloat

A blessed number that will support fractional numbers. A Math::BigFloat number will pass, whereas a Math::BigInt number will fail. However, if that Math::BigInt number is capable of upgrading to a Math::BigFloat, it will pass.

BlessedFloat[`d]

A float-capable blessed number that supports at least certain amount of digit accuracy. The number itself is not boundary checked, as it is excessively difficult to figure out the exact dimensions of a floating point number. It would also not be useful for numbers like 0.333333... to fail checks.

FloatSafeNum

A Union of "PerlSafeFloat" and "BlessedFloat". In other words, a float-capable number with some basic checks to make sure information is retained.

FloatBinary[`b, `e]

A floating-point number that can hold a `b bit number with `e bits of exponent, and is within those boundaries (or is NaN/Inf). The bit breakdown follows traditional IEEE 754 floating point standards. For example:

FloatBinary[32, 8] =
   32 bits total (`b)
   23 bit  mantissa (significand precision)
    8 bit  exponent (`e)
    1 bit  sign (+/-)

Unlike the *Int types, if Perl's native number cannot support all dimensions of the floating-point number without losing information, then unblessed numbers are completely off the table. For example, assuming a 32-bit machine:

   (UnsignedInt[64])->check( 0 )        # pass
   (UnsignedInt[64])->check( 2 ** 30 )  # pass
   (UnsignedInt[64])->check( 2 ** 60 )  # fail, because 32-bit NVs can't safely hold it

   (FloatBinary[64, 11])->check( 0 )    # fail
   (FloatBinary[64, 11])->check( $any_unblessed_number )  # fail

FloatDecimal[`d, `e]

A floating-point number that can hold a `d digit number with `e digits of exponent. Modeled after the IEEE 754 "decimal" float. Rejects all Perl NVs that won't support the dimensions. (See "FloatBinary[`b, `e]".)

Fixed-point numbers

RealSafeNum

Like "FloatSafeNum", but rejects any NaN/Inf.

FixedBinary[`b, `s]

A fixed-point number, represented as a `b bit integer than has been shifted by `s digits. For example, a FixedBinary[32, 4] has a max of 2**31-1 / 10**4 = 214748.3647. Because integers do not hold NaN/Inf, this type fails on those.

Otherwise, it has the same properties and caveats as the parameterized Float* types.

FixedDecimal[`d, `s]

Like "FixedBinary[`b, `s]", but for a `d digit integer. Or, you could think of `d and `s as accuracy (significant figures) and decimal precision, respectively.

Characters

Characters are basically encoded numbers, so there's a few types here. If you need types that handle multi-length strings, you're better off using Types::Encodings.

Char

A single character. Unicode is supported, but it must be decoded first. A multi-byte character that Perl thinks is two separate characters will fail this type.

Char[`b]

A single character that fits within `b bits. Unicode is supported, but it must be decoded first.

AVAILABILITY

The project homepage is https://github.com/SineSwiper/Types-Numbers/wiki.

The latest version of this module is available from the Comprehensive Perl Archive Network (CPAN). Visit http://www.perl.com/CPAN/ to find a CPAN site near you, or see https://metacpan.org/module/Types::Numbers/.

SUPPORT

Internet Relay Chat

You can get live help by using IRC ( Internet Relay Chat ). If you don't know what IRC is, please read this excellent guide: http://en.wikipedia.org/wiki/Internet_Relay_Chat. Please be courteous and patient when talking to us, as we might be busy or sleeping! You can join those networks/channels and get help:

  • irc.perl.org

    You can connect to the server at 'irc.perl.org' and talk to this person for help: SineSwiper.

Bugs / Feature Requests

Please report any bugs or feature requests via https://github.com/SineSwiper/Types-Numbers/issues.

AUTHOR

Brendan Byrd <BBYRD@CPAN.org>

CONTRIBUTOR

Brendan Byrd <bbyrd@cpan.org>

COPYRIGHT AND LICENSE

This software is Copyright (c) 2013 by Brendan Byrd.

This is free software, licensed under:

The Artistic License 2.0 (GPL Compatible)