ByteSize
is a utility class that makes byte size representation in code easier
by removing ambiguity of the value being represented.
ByteSize
is to bytes what System.TimeSpan
is to time.
- Install .NET Core SDK
- Build:
dotnet build
- Test:
dotnet test
By default ByteSize
now assumes 1 KB == 1000 B
and 1 KiB == 1024 B
to
adhere to the IEC and NIST standards (https://en.wikipedia.org/wiki/Binary_prefix).
In version 1 ByteSize
assumed 1 KB == 1024 B
, that means if you're upgrading
from v1, you'll see differences in values.
When you upgrade an existing application to v2 your existing code will be using
the decimal representation of bytes (i.e. 1 KB == 1000 B
). If the difference
in calculation is not material to your application, you don't need to change anything.
However, if you want to use 1 KiB == 1024 B
, then you'll need to change all
ByteSize
calls to the respective method. For example, calls to
ByteSize.FromKiloByte
need to be changed to ByteSize.FromKibiByte
.
Lastly, ByteSize
no longer supports the ratio of 1 KB == 1024 B
. Note this
is kilobytes to bytes. The only ratio of 1 == 1024
is kibibytes
to bytes.
- Renamed property
LargestWholeNumberSymbol
andLargestWholeNumberValue
toLargestWholeNumberDecimalSymbol
andLargestWholeNumberDecimalValue
respectively. - Drop support for all platforms except
netstandard1.0
andnet45
.
ByteSize
adheres to the IEC standard, see this Wikipedia article.
That means ByteSize
assumes:
- Decimal representation:
1 kilobyte
=1000 bytes
with 2 letter abbrevationsb
,B
,KB
,MB
,GB
,TB
,PB
. - Binary representation:
1 kibibyte
=1024 bytes
with 3 letter abbrevationsb
,B
,KiB
,MiB
,GiB
,TiB
,PiB
.
ByteSize
manages conversion of the values internally and provides methods to create and retrieve the values as needed. See the examples below.
Without ByteSize
:
double maxFileSizeMBs = 1.5;
// I need it in KBs and KiBs!
var kilobytes = maxFileSizeMBs * 1000; // 1500
var kibibytes = maxFileSizeMBs * 1024; // 1536
With ByteSize
:
var maxFileSize = ByteSize.FromMegaBytes(1.5);
// I have it in KBs and KiBs!!
maxFileSize.KiloBytes; // 1500
maxFileSize.KibiBytes; // 1464.84376
ByteSize
behaves like any other struct backed by a numerical value allowing arithmetic operations between two objects.
// Add
var monthlyUsage = ByteSize.FromGigaBytes(10);
var currentUsage = ByteSize.FromMegaBytes(512);
ByteSize total = monthlyUsage + currentUsage;
total.Add(ByteSize.FromKiloBytes(10));
total.AddGigaBytes(10);
// Subtract
var delta = total.Subtract(ByteSize.FromKiloBytes(10));
delta = delta - ByteSize.FromGigaBytes(100);
delta = delta.AddMegaBytes(-100);
// Multiple
var multiple = ByteSize.FromBytes(4) * ByteSize.FromBytes(2); // 8
// Divide
var divide = ByteSize.FromBytes(16) / ByteSize.FromBytes(8); // 2
You can create a ByteSize
object from bits
, bytes
, kilobytes
, megabytes
, gigabytes
, and terabytes
.
new ByteSize(15); // Constructor takes in bits (long)
new ByteSize(1.5); // ... or bytes (double)
// Static Constructors
ByteSize.FromBits(10); // Same as constructor
ByteSize.FromBytes(1.5); // Same as constructor
// Decimal: 1 KB = 1000 B
ByteSize.FromKiloBytes(1.5);
ByteSize.FromMegaBytes(1.5);
ByteSize.FromGigaBytes(1.5);
ByteSize.FromTeraBytes(1.5);
// Binary: 1 KiB = 1024 B
ByteSize.FromKibiBytes(1.5);
ByteSize.FromMebiBytes(1.5);
ByteSize.FromGibiBytes(1.5);
ByteSize.FromTebiBytes(1.5);
A ByteSize
object contains representations in:
bits
,bytes
kilobytes
,megabytes
,gigabytes
, andterabytes
kibibytes
,mebibytes
,gibibytes
, andtebibytes
var maxFileSize = ByteSize.FromKiloBytes(10);
maxFileSize.Bits; // 80000
maxFileSize.Bytes; // 10000
// Decimal
maxFileSize.KiloBytes; // 10
maxFileSize.MegaBytes; // 0.01
maxFileSize.GigaBytes; // 1E-05
maxFileSize.TeraBytes; // 1E-08
// Binary
maxFileSize.KibiBytes; // 9.765625
maxFileSize.MebiBytes; // 0.0095367431640625
maxFileSize.GibiBytes; // 9.31322574615479E-06
maxFileSize.TebiBytes; // 9.09494701772928E-09
A ByteSize
object also contains four properties that represent the largest whole number symbol and value.
var maxFileSize = ByteSize.FromKiloBytes(10);
maxFileSize.LargestWholeNumberDecimalSymbol; // "KB"
maxFileSize.LargestWholeNumberDecimalValue; // 10
maxFileSize.LargestWholeNumberBinarySymbol; // "KiB"
maxFileSize.LargestWholeNumberBinaryValue; // 9.765625
By default a ByteSize
object uses the decimal value for string representation.
All string operations are localized to use the number decimal separator of the culture set in Thread.CurrentThread.CurrentCulture
.
ByteSize
comes with a handy ToString
method that uses the largest metric prefix whose value is greater than or equal to 1.
// By default the decimal values are used
ByteSize.FromBits(7).ToString(); // 7 b
ByteSize.FromBits(8).ToString(); // 1 B
ByteSize.FromKiloBytes(.5).ToString(); // 500 B
ByteSize.FromKiloBytes(999).ToString(); // 999 KB
ByteSize.FromKiloBytes(1000).ToString(); // 1 MB
ByteSize.FromGigabytes(.5).ToString(); // 500 MB
ByteSize.FromGigabytes(1000).ToString(); // 1 TB
// Binary
ByteSize.Parse("1.55 kb").ToString("kib"); // 1.51 kib
The ToString
method accepts a single string
parameter to format the output.
The formatter can contain the symbol of the value to display.
- Base:
b
,B
- Decimal:
KB
,MB
,GB
,TB
- Binary:
KiB
,MiB
,GiB
,TiB
The formatter uses the built in double.ToString
method.
The default number format is 0.##
which rounds the number to two decimal
places and outputs only 0
if the value is 0
.
You can include symbol and number formats.
var b = ByteSize.FromKiloBytes(10.505);
// Default number format is 0.##
b.ToString("KB"); // 10.52 KB
b.ToString("MB"); // .01 MB
b.ToString("b"); // 86057 b
// Default symbol is the largest metric prefix value >= 1
b.ToString("#.#"); // 10.5 KB
// All valid values of double.ToString(string format) are acceptable
b.ToString("0.0000"); // 10.5050 KB
b.ToString("000.00"); // 010.51 KB
// You can include number format and symbols
b.ToString("#.#### MB"); // .0103 MB
b.ToString("0.00 GB"); // 0 GB
b.ToString("#.## B"); // 10757.12 B
// ByteSize object of value 0
var zeroBytes = ByteSize.FromKiloBytes(0);
zeroBytes.ToString(); // 0 b
zeroBytes.ToString("0 kb"); // 0 kb
zeroBytes.ToString("0.## mb"); // 0 mb
ByteSize
has a Parse
and TryParse
method similar to other base classes.
Like other TryParse
methods, ByteSize.TryParse
returns boolean
value indicating whether or not the parsing was successful. If the value is
parsed it is output to the out
parameter supplied.
ByteSize output;
ByteSize.TryParse("1.5mb", out output);
ByteSize.TryParse("1.5mib", out output);
// Invalid
ByteSize.Parse("1.5 b"); // Can't have partial bits
// Valid
ByteSize.Parse("5b");
ByteSize.Parse("1.55B");
ByteSize.Parse("1.55KB");
ByteSize.Parse("1.55 kB "); // Spaces are trimmed
ByteSize.Parse("1.55 kb");
ByteSize.Parse("1.55 MB");
ByteSize.Parse("1.55 mB");
ByteSize.Parse("1.55 mb");
ByteSize.Parse("1.55 GB");
ByteSize.Parse("1.55 gB");
ByteSize.Parse("1.55 gib");
ByteSize.Parse("1.55 TiB");
ByteSize.Parse("1.55 tiB");
ByteSize.Parse("1.55 tib");
ByteSize.Parse("1,55 kib"); // de-DE culture
Omar Khudeira (http://omar.io)
Copyright (c) 2013-2022 Omar Khudeira. All rights reserved.
Released under MIT License (see LICENSE file).