Full Code of JakeWharton/byteunits for AI

Repository: JakeWharton/byteunits
Branch: master
Commit: a39d1b03d59e
Files: 25
Total size: 69.3 KB

Directory structure:
gitextract_n29oyt0k/

├── .editorconfig
├── .gitattributes
├── .github/
│   ├── renovate.json5
│   └── workflows/
│       ├── .java-version
│       └── build.yaml
├── .gitignore
├── CHANGELOG.md
├── LICENSE.txt
├── README.md
├── build.gradle
├── gradle/
│   ├── libs.versions.toml
│   └── wrapper/
│       ├── gradle-wrapper.jar
│       └── gradle-wrapper.properties
├── gradle.properties
├── gradlew
├── gradlew.bat
├── settings.gradle
└── src/
    ├── jvmMain/
    │   └── kotlin/
    │       └── com/
    │           └── jakewharton/
    │               └── byteunits/
    │                   ├── BinaryByteUnit.kt
    │                   ├── BitUnit.kt
    │                   ├── ByteUnit.kt
    │                   ├── DecimalByteUnit.kt
    │                   └── UnitUtil.kt
    └── jvmTest/
        └── kotlin/
            └── com/
                └── jakewharton/
                    └── byteunits/
                        ├── BinaryByteUnitTest.kt
                        ├── BitUnitTest.kt
                        └── DecimalByteUnitTest.kt

================================================
FILE CONTENTS
================================================

================================================
FILE: .editorconfig
================================================
root = true

[*]
indent_size = 2
charset = utf-8
trim_trailing_whitespace = true
insert_final_newline = true
max_line_length=100

[*.{kt,kts}]
ij_kotlin_imports_layout = *
ij_kotlin_allow_trailing_comma = true
ij_kotlin_allow_trailing_comma_on_call_site = true
ktlint_code_style = intellij_idea


================================================
FILE: .gitattributes
================================================
* text=auto eol=lf

*.bat text eol=crlf
*.jar binary


================================================
FILE: .github/renovate.json5
================================================
{
  $schema: 'https://docs.renovatebot.com/renovate-schema.json',
  extends: [
    'config:recommended',
  ],
  ignorePresets: [
    // Ensure we get the latest version and are not pinned to old versions.
    'workarounds:javaLTSVersions',
  ],
  customManagers: [
    // Update .java-version file with the latest JDK version.
    {
      customType: 'regex',
      fileMatch: [
        '\\.java-version$',
      ],
      matchStrings: [
        '(?<currentValue>.*)\\n',
      ],
      datasourceTemplate: 'java-version',
      depNameTemplate: 'java',
      // Only write the major version.
      extractVersionTemplate: '^(?<version>\\d+)',
    },
  ],
}


================================================
FILE: .github/workflows/.java-version
================================================
24


================================================
FILE: .github/workflows/build.yaml
================================================
name: build

on:
  pull_request:
  push:
    branches:
      - '*'
    tags:
      - '*'

jobs:
  build:
    runs-on: macos-latest
    steps:
      - uses: actions/checkout@v5
      - uses: actions/setup-java@v4
        with:
          distribution: 'zulu'
          java-version-file: .github/workflows/.java-version
      - uses: gradle/actions/setup-gradle@v4
      - run: ./gradlew build

  publish:
    needs: build
    if: github.repository == 'JakeWharton/byteunits'
    runs-on: macos-latest
    steps:
      - uses: actions/checkout@v5
      - uses: actions/setup-java@v4
        with:
          distribution: 'zulu'
          java-version-file: .github/workflows/.java-version
      - uses: gradle/actions/setup-gradle@v4
      - name: Extract release notes
        id: release_notes
        if: startsWith(github.ref, 'refs/tags/')
        uses: ffurrer2/extract-release-notes@v2
      - name: Create Release
        if: startsWith(github.ref, 'refs/tags/')
        uses: softprops/action-gh-release@v2
        with:
          body: ${{ steps.release_notes.outputs.release_notes }}
        env:
          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
      - name: Publish Artifacts
        run: ./gradlew publish
        if: github.ref == 'refs/heads/trunk'
        env:
          ORG_GRADLE_PROJECT_mavenCentralUsername: ${{ secrets.SONATYPE_NEXUS_USERNAME }}
          ORG_GRADLE_PROJECT_mavenCentralPassword: ${{ secrets.SONATYPE_NEXUS_PASSWORD }}


================================================
FILE: .gitignore
================================================
# Eclipse
.classpath
.project
.settings
eclipsebin

# Ant
bin
gen
build
out
lib

# Gradle
.gradle

# Maven
target
pom.xml.*
release.properties

# IntelliJ
.idea
*.iml
*.iws
*.ipr
classes

.DS_Store


================================================
FILE: CHANGELOG.md
================================================
Change Log
==========

Version 0.9.1 *(2015-06-26)*
----------------------------

 * New: `format` static methods on `DecimalByteUnit`, `BinaryByteUnit`, and `BitUnit` for creating
   human-readable strings of the value (e.g., "2 GB").


Version 0.9.0 *(2014-07-20)*
----------------------------

Initial version.


================================================
FILE: LICENSE.txt
================================================

                                 Apache License
                           Version 2.0, January 2004
                        http://www.apache.org/licenses/

   TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION

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================================================
FILE: README.md
================================================
Byte Units
==========

Utility classes for converting between granularities of SI and IEC byte units
and bit units.

**Deprecated!** Prefer https://github.com/saket/byte-size instead.



Example Usage
-------------

What's the difference in hard drive space between perception and actual?
```java
long perception = BinaryByteUnit.TEBIBYTES.toBytes(2);
long usable = DecimalByteUnit.TERABYTES.toBytes(2);
long lost = BinaryByteUnit.BYTES.toGibibytes(perception - usable);
System.out.println(lost + " GiB lost on a 2TB drive.");
```

Method parameter for specifying a resource size.
```java
public void installDiskCache(long count, ByteUnit unit) {
  long size = unit.toBytes(count);
  // TODO Install disk cache of 'size' bytes.
}
```

Print human-readable strings for byte and bit amounts.
```java
long bytes = 2 * 1024 * 1024 * 1024;
System.out.println(BinaryByteUnit.format(bytes));
```



Download
--------

Grab the [latest .jar][1] or add via Gradle:
```groovy
implementation 'com.jakewharton.byteunits:byteunits:0.9.1'
```
or Maven:
```xml
<dependency>
  <groupId>com.jakewharton.byteunits</groupId>
  <artifactId>byteunits</artifactId>
  <version>0.9.1</version>
</dependency>
```

Snapshots of the development version are available in [Sonatype's `snapshots` repository][snap].



License
-------

    Copyright 2014 Jake Wharton

    Licensed under the Apache License, Version 2.0 (the "License");
    you may not use this file except in compliance with the License.
    You may obtain a copy of the License at

       http://www.apache.org/licenses/LICENSE-2.0

    Unless required by applicable law or agreed to in writing, software
    distributed under the License is distributed on an "AS IS" BASIS,
    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
    See the License for the specific language governing permissions and
    limitations under the License.




 [1]: https://search.maven.org/remote_content?g=com.jakewharton.byteunits&a=byteunits&v=LATEST
 [snap]: https://oss.sonatype.org/content/repositories/snapshots/


================================================
FILE: build.gradle
================================================
import org.jetbrains.kotlin.gradle.dsl.JvmTarget
import org.jetbrains.kotlin.gradle.tasks.KotlinCompile

buildscript {
  dependencies {
    classpath libs.kotlin.gradlePlugin
    classpath libs.mavenPublishPlugin
    classpath libs.spotlessPlugin
    classpath libs.animalSnifferPlugin
  }
  repositories {
    mavenCentral()
  }
}

apply plugin: 'org.jetbrains.kotlin.multiplatform'
apply plugin: 'com.vanniktech.maven.publish'
apply plugin: 'com.diffplug.spotless'
apply plugin: 'ru.vyarus.animalsniffer'

kotlin {
  jvm()

  sourceSets {
    commonTest {
      dependencies {
        implementation 'org.jetbrains.kotlin:kotlin-test'
      }
    }
  }
}

tasks.withType(KotlinCompile).configureEach {
  compilerOptions {
    jvmTarget = JvmTarget.JVM_1_8
    freeCompilerArgs.addAll([
      '-progressive',
      '-Xjvm-default=all',
    ])
  }
}

tasks.withType(JavaCompile).configureEach {
  sourceCompatibility = JavaVersion.VERSION_1_8.toString()
  targetCompatibility = JavaVersion.VERSION_1_8.toString()
}

spotless {
  kotlin {
    ktlint(libs.ktlint.get().version)
      .editorConfigOverride([
        // Making something an expression body should be a choice around readability.
        'ktlint_standard_function-expression-body': 'disabled',
      ])
    target 'src/**/*.kt'
  }
}

dependencies {
  signature 'org.codehaus.mojo.signature:java18:1.0@signature'
  signature 'net.sf.androidscents.signature:android-api-level-21:5.0.1_r2@signature'
}


================================================
FILE: gradle/libs.versions.toml
================================================
[libraries]
kotlin-gradlePlugin = "org.jetbrains.kotlin:kotlin-gradle-plugin:2.2.10"

ktlint = "com.pinterest.ktlint:ktlint-cli:1.7.1"
mavenPublishPlugin = "com.vanniktech:gradle-maven-publish-plugin:0.34.0"
spotlessPlugin = "com.diffplug.spotless:spotless-plugin-gradle:7.2.1"
animalSnifferPlugin = "ru.vyarus:gradle-animalsniffer-plugin:2.0.1"


================================================
FILE: gradle/wrapper/gradle-wrapper.properties
================================================
distributionBase=GRADLE_USER_HOME
distributionPath=wrapper/dists
distributionUrl=https\://services.gradle.org/distributions/gradle-9.0.0-bin.zip
networkTimeout=10000
validateDistributionUrl=true
zipStoreBase=GRADLE_USER_HOME
zipStorePath=wrapper/dists


================================================
FILE: gradle.properties
================================================
GROUP=com.jakewharton.byteunits
VERSION_NAME=0.9.2-SNAPSHOT

POM_ARTIFACT_ID=byteunits
POM_NAME=Byte Units
POM_DESCRIPTION=Utility classes for converting between granularities of SI and IEC byte units and bit units.

POM_URL=http://github.com/JakeWharton/byteunits
POM_SCM_URL=https://github.com/vanniktech/byteunits
POM_SCM_CONNECTION=scm:git:git://github.com/JakeWharton/byteunits.git
POM_SCM_DEV_CONNECTION=scm:git:ssh://git@github.com/JakeWharton/byteunits.git

POM_LICENCE_NAME=The Apache Software License, Version 2.0
POM_LICENCE_URL=http://www.apache.org/licenses/LICENSE-2.0.txt
POM_LICENCE_DIST=repo

POM_DEVELOPER_ID=jakewharton
POM_DEVELOPER_NAME=Jake Wharton
POM_INCEPTION_YEAR=2014

kotlin.mpp.stability.nowarn=true

mavenCentralPublishing=true
mavenCentralAutomaticPublishing=true
signAllPublications=true


================================================
FILE: gradlew
================================================
#!/bin/sh

#
# Copyright © 2015 the original authors.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#      https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# SPDX-License-Identifier: Apache-2.0
#

##############################################################################
#
#   Gradle start up script for POSIX generated by Gradle.
#
#   Important for running:
#
#   (1) You need a POSIX-compliant shell to run this script. If your /bin/sh is
#       noncompliant, but you have some other compliant shell such as ksh or
#       bash, then to run this script, type that shell name before the whole
#       command line, like:
#
#           ksh Gradle
#
#       Busybox and similar reduced shells will NOT work, because this script
#       requires all of these POSIX shell features:
#         * functions;
#         * expansions «$var», «${var}», «${var:-default}», «${var+SET}»,
#           «${var#prefix}», «${var%suffix}», and «$( cmd )»;
#         * compound commands having a testable exit status, especially «case»;
#         * various built-in commands including «command», «set», and «ulimit».
#
#   Important for patching:
#
#   (2) This script targets any POSIX shell, so it avoids extensions provided
#       by Bash, Ksh, etc; in particular arrays are avoided.
#
#       The "traditional" practice of packing multiple parameters into a
#       space-separated string is a well documented source of bugs and security
#       problems, so this is (mostly) avoided, by progressively accumulating
#       options in "$@", and eventually passing that to Java.
#
#       Where the inherited environment variables (DEFAULT_JVM_OPTS, JAVA_OPTS,
#       and GRADLE_OPTS) rely on word-splitting, this is performed explicitly;
#       see the in-line comments for details.
#
#       There are tweaks for specific operating systems such as AIX, CygWin,
#       Darwin, MinGW, and NonStop.
#
#   (3) This script is generated from the Groovy template
#       https://github.com/gradle/gradle/blob/HEAD/platforms/jvm/plugins-application/src/main/resources/org/gradle/api/internal/plugins/unixStartScript.txt
#       within the Gradle project.
#
#       You can find Gradle at https://github.com/gradle/gradle/.
#
##############################################################################

# Attempt to set APP_HOME

# Resolve links: $0 may be a link
app_path=$0

# Need this for daisy-chained symlinks.
while
    APP_HOME=${app_path%"${app_path##*/}"}  # leaves a trailing /; empty if no leading path
    [ -h "$app_path" ]
do
    ls=$( ls -ld "$app_path" )
    link=${ls#*' -> '}
    case $link in             #(
      /*)   app_path=$link ;; #(
      *)    app_path=$APP_HOME$link ;;
    esac
done

# This is normally unused
# shellcheck disable=SC2034
APP_BASE_NAME=${0##*/}
# Discard cd standard output in case $CDPATH is set (https://github.com/gradle/gradle/issues/25036)
APP_HOME=$( cd -P "${APP_HOME:-./}" > /dev/null && printf '%s\n' "$PWD" ) || exit

# Use the maximum available, or set MAX_FD != -1 to use that value.
MAX_FD=maximum

warn () {
    echo "$*"
} >&2

die () {
    echo
    echo "$*"
    echo
    exit 1
} >&2

# OS specific support (must be 'true' or 'false').
cygwin=false
msys=false
darwin=false
nonstop=false
case "$( uname )" in                #(
  CYGWIN* )         cygwin=true  ;; #(
  Darwin* )         darwin=true  ;; #(
  MSYS* | MINGW* )  msys=true    ;; #(
  NONSTOP* )        nonstop=true ;;
esac

CLASSPATH="\\\"\\\""


# Determine the Java command to use to start the JVM.
if [ -n "$JAVA_HOME" ] ; then
    if [ -x "$JAVA_HOME/jre/sh/java" ] ; then
        # IBM's JDK on AIX uses strange locations for the executables
        JAVACMD=$JAVA_HOME/jre/sh/java
    else
        JAVACMD=$JAVA_HOME/bin/java
    fi
    if [ ! -x "$JAVACMD" ] ; then
        die "ERROR: JAVA_HOME is set to an invalid directory: $JAVA_HOME

Please set the JAVA_HOME variable in your environment to match the
location of your Java installation."
    fi
else
    JAVACMD=java
    if ! command -v java >/dev/null 2>&1
    then
        die "ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH.

Please set the JAVA_HOME variable in your environment to match the
location of your Java installation."
    fi
fi

# Increase the maximum file descriptors if we can.
if ! "$cygwin" && ! "$darwin" && ! "$nonstop" ; then
    case $MAX_FD in #(
      max*)
        # In POSIX sh, ulimit -H is undefined. That's why the result is checked to see if it worked.
        # shellcheck disable=SC2039,SC3045
        MAX_FD=$( ulimit -H -n ) ||
            warn "Could not query maximum file descriptor limit"
    esac
    case $MAX_FD in  #(
      '' | soft) :;; #(
      *)
        # In POSIX sh, ulimit -n is undefined. That's why the result is checked to see if it worked.
        # shellcheck disable=SC2039,SC3045
        ulimit -n "$MAX_FD" ||
            warn "Could not set maximum file descriptor limit to $MAX_FD"
    esac
fi

# Collect all arguments for the java command, stacking in reverse order:
#   * args from the command line
#   * the main class name
#   * -classpath
#   * -D...appname settings
#   * --module-path (only if needed)
#   * DEFAULT_JVM_OPTS, JAVA_OPTS, and GRADLE_OPTS environment variables.

# For Cygwin or MSYS, switch paths to Windows format before running java
if "$cygwin" || "$msys" ; then
    APP_HOME=$( cygpath --path --mixed "$APP_HOME" )
    CLASSPATH=$( cygpath --path --mixed "$CLASSPATH" )

    JAVACMD=$( cygpath --unix "$JAVACMD" )

    # Now convert the arguments - kludge to limit ourselves to /bin/sh
    for arg do
        if
            case $arg in                                #(
              -*)   false ;;                            # don't mess with options #(
              /?*)  t=${arg#/} t=/${t%%/*}              # looks like a POSIX filepath
                    [ -e "$t" ] ;;                      #(
              *)    false ;;
            esac
        then
            arg=$( cygpath --path --ignore --mixed "$arg" )
        fi
        # Roll the args list around exactly as many times as the number of
        # args, so each arg winds up back in the position where it started, but
        # possibly modified.
        #
        # NB: a `for` loop captures its iteration list before it begins, so
        # changing the positional parameters here affects neither the number of
        # iterations, nor the values presented in `arg`.
        shift                   # remove old arg
        set -- "$@" "$arg"      # push replacement arg
    done
fi


# Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script.
DEFAULT_JVM_OPTS='"-Xmx64m" "-Xms64m"'

# Collect all arguments for the java command:
#   * DEFAULT_JVM_OPTS, JAVA_OPTS, and optsEnvironmentVar are not allowed to contain shell fragments,
#     and any embedded shellness will be escaped.
#   * For example: A user cannot expect ${Hostname} to be expanded, as it is an environment variable and will be
#     treated as '${Hostname}' itself on the command line.

set -- \
        "-Dorg.gradle.appname=$APP_BASE_NAME" \
        -classpath "$CLASSPATH" \
        -jar "$APP_HOME/gradle/wrapper/gradle-wrapper.jar" \
        "$@"

# Stop when "xargs" is not available.
if ! command -v xargs >/dev/null 2>&1
then
    die "xargs is not available"
fi

# Use "xargs" to parse quoted args.
#
# With -n1 it outputs one arg per line, with the quotes and backslashes removed.
#
# In Bash we could simply go:
#
#   readarray ARGS < <( xargs -n1 <<<"$var" ) &&
#   set -- "${ARGS[@]}" "$@"
#
# but POSIX shell has neither arrays nor command substitution, so instead we
# post-process each arg (as a line of input to sed) to backslash-escape any
# character that might be a shell metacharacter, then use eval to reverse
# that process (while maintaining the separation between arguments), and wrap
# the whole thing up as a single "set" statement.
#
# This will of course break if any of these variables contains a newline or
# an unmatched quote.
#

eval "set -- $(
        printf '%s\n' "$DEFAULT_JVM_OPTS $JAVA_OPTS $GRADLE_OPTS" |
        xargs -n1 |
        sed ' s~[^-[:alnum:]+,./:=@_]~\\&~g; ' |
        tr '\n' ' '
    )" '"$@"'

exec "$JAVACMD" "$@"


================================================
FILE: gradlew.bat
================================================
@rem
@rem Copyright 2015 the original author or authors.
@rem
@rem Licensed under the Apache License, Version 2.0 (the "License");
@rem you may not use this file except in compliance with the License.
@rem You may obtain a copy of the License at
@rem
@rem      https://www.apache.org/licenses/LICENSE-2.0
@rem
@rem Unless required by applicable law or agreed to in writing, software
@rem distributed under the License is distributed on an "AS IS" BASIS,
@rem WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
@rem See the License for the specific language governing permissions and
@rem limitations under the License.
@rem
@rem SPDX-License-Identifier: Apache-2.0
@rem

@if "%DEBUG%"=="" @echo off
@rem ##########################################################################
@rem
@rem  Gradle startup script for Windows
@rem
@rem ##########################################################################

@rem Set local scope for the variables with windows NT shell
if "%OS%"=="Windows_NT" setlocal

set DIRNAME=%~dp0
if "%DIRNAME%"=="" set DIRNAME=.
@rem This is normally unused
set APP_BASE_NAME=%~n0
set APP_HOME=%DIRNAME%

@rem Resolve any "." and ".." in APP_HOME to make it shorter.
for %%i in ("%APP_HOME%") do set APP_HOME=%%~fi

@rem Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script.
set DEFAULT_JVM_OPTS="-Xmx64m" "-Xms64m"

@rem Find java.exe
if defined JAVA_HOME goto findJavaFromJavaHome

set JAVA_EXE=java.exe
%JAVA_EXE% -version >NUL 2>&1
if %ERRORLEVEL% equ 0 goto execute

echo. 1>&2
echo ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH. 1>&2
echo. 1>&2
echo Please set the JAVA_HOME variable in your environment to match the 1>&2
echo location of your Java installation. 1>&2

goto fail

:findJavaFromJavaHome
set JAVA_HOME=%JAVA_HOME:"=%
set JAVA_EXE=%JAVA_HOME%/bin/java.exe

if exist "%JAVA_EXE%" goto execute

echo. 1>&2
echo ERROR: JAVA_HOME is set to an invalid directory: %JAVA_HOME% 1>&2
echo. 1>&2
echo Please set the JAVA_HOME variable in your environment to match the 1>&2
echo location of your Java installation. 1>&2

goto fail

:execute
@rem Setup the command line

set CLASSPATH=


@rem Execute Gradle
"%JAVA_EXE%" %DEFAULT_JVM_OPTS% %JAVA_OPTS% %GRADLE_OPTS% "-Dorg.gradle.appname=%APP_BASE_NAME%" -classpath "%CLASSPATH%" -jar "%APP_HOME%\gradle\wrapper\gradle-wrapper.jar" %*

:end
@rem End local scope for the variables with windows NT shell
if %ERRORLEVEL% equ 0 goto mainEnd

:fail
rem Set variable GRADLE_EXIT_CONSOLE if you need the _script_ return code instead of
rem the _cmd.exe /c_ return code!
set EXIT_CODE=%ERRORLEVEL%
if %EXIT_CODE% equ 0 set EXIT_CODE=1
if not ""=="%GRADLE_EXIT_CONSOLE%" exit %EXIT_CODE%
exit /b %EXIT_CODE%

:mainEnd
if "%OS%"=="Windows_NT" endlocal

:omega


================================================
FILE: settings.gradle
================================================
pluginManagement {
  repositories {
    mavenCentral()
    google()
    gradlePluginPortal()
  }
}

dependencyResolutionManagement {
  repositories {
    mavenCentral()
  }
}


================================================
FILE: src/jvmMain/kotlin/com/jakewharton/byteunits/BinaryByteUnit.kt
================================================
package com.jakewharton.byteunits

import java.text.DecimalFormat
import java.text.NumberFormat

/**
 * A [BinaryByteUnit] represents power-of-two byte sizes at a given unit of granularity and
 * provides utility methods to convert across units. A [BinaryByteUnit] does not maintain
 * byte size information, but only helps organize and use byte size representations that may be
 * maintained separately across various contexts.
 */
enum class BinaryByteUnit : ByteUnit {
  /** Byte unit representing one byte. */
  BYTES {
    override fun convert(sourceCount: Long, sourceUnit: BinaryByteUnit) =
      sourceUnit.toBytes(sourceCount)

    override fun toBytes(count: Long) = count

    override fun toKibibytes(count: Long) = count / (KB / B)

    override fun toMebibytes(count: Long) = count / (MB / B)

    override fun toGibibytes(count: Long) = count / (GB / B)

    override fun toTebibytes(count: Long) = count / (TB / B)

    override fun toPebibytes(count: Long) = count / (PB / B)
  },

  /** A byte unit representing 1024 bytes. */
  KIBIBYTES {
    override fun convert(sourceCount: Long, sourceUnit: BinaryByteUnit) =
      sourceUnit.toKibibytes(sourceCount)

    override fun toBytes(count: Long) = checkedMultiply(count, KB / B, MAX / (KB / B))

    override fun toKibibytes(count: Long) = count

    override fun toMebibytes(count: Long) = count / (MB / KB)

    override fun toGibibytes(count: Long) = count / (GB / KB)

    override fun toTebibytes(count: Long) = count / (TB / KB)

    override fun toPebibytes(count: Long) = count / (PB / KB)
  },

  /** A byte unit representing 1024 kibibytes. */
  MEBIBYTES {
    override fun convert(sourceCount: Long, sourceUnit: BinaryByteUnit) =
      sourceUnit.toMebibytes(sourceCount)

    override fun toBytes(count: Long) = checkedMultiply(count, MB / B, MAX / (MB / B))

    override fun toKibibytes(count: Long) = checkedMultiply(count, MB / KB, MAX / (MB / KB))

    override fun toMebibytes(count: Long) = count

    override fun toGibibytes(count: Long) = count / (GB / MB)

    override fun toTebibytes(count: Long) = count / (TB / MB)

    override fun toPebibytes(count: Long) = count / (PB / MB)
  },

  /** A byte unit representing 1024 mebibytes. */
  GIBIBYTES {
    override fun convert(sourceCount: Long, sourceUnit: BinaryByteUnit) =
      sourceUnit.toGibibytes(sourceCount)

    override fun toBytes(count: Long) = checkedMultiply(count, GB / B, MAX / (GB / B))

    override fun toKibibytes(count: Long) = checkedMultiply(count, GB / KB, MAX / (GB / KB))

    override fun toMebibytes(count: Long) = checkedMultiply(count, GB / MB, MAX / (GB / MB))

    override fun toGibibytes(count: Long) = count

    override fun toTebibytes(count: Long) = count / (TB / GB)

    override fun toPebibytes(count: Long) = count / (PB / GB)
  },

  /** A byte unit representing 1024 gibibytes. */
  TEBIBYTES {
    override fun convert(sourceCount: Long, sourceUnit: BinaryByteUnit) =
      sourceUnit.toTebibytes(sourceCount)

    override fun toBytes(count: Long) = checkedMultiply(count, TB / B, MAX / (TB / B))

    override fun toKibibytes(count: Long) = checkedMultiply(count, TB / KB, MAX / (TB / KB))

    override fun toMebibytes(count: Long) = checkedMultiply(count, TB / MB, MAX / (TB / MB))

    override fun toGibibytes(count: Long) = checkedMultiply(count, TB / GB, MAX / (TB / GB))

    override fun toTebibytes(count: Long) = count

    override fun toPebibytes(count: Long) = count / (PB / TB)
  },

  /** A byte unit representing 1024 tebibytes. */
  PEBIBYTES {
    override fun convert(sourceCount: Long, sourceUnit: BinaryByteUnit) =
      sourceUnit.toPebibytes(sourceCount)

    override fun toBytes(count: Long) = checkedMultiply(count, PB / B, MAX / (PB / B))

    override fun toKibibytes(count: Long) = checkedMultiply(count, PB / KB, MAX / (PB / KB))

    override fun toMebibytes(count: Long) = checkedMultiply(count, PB / MB, MAX / (PB / MB))

    override fun toGibibytes(count: Long) = checkedMultiply(count, PB / GB, MAX / (PB / GB))

    override fun toTebibytes(count: Long) = checkedMultiply(count, PB / TB, MAX / (PB / TB))

    override fun toPebibytes(count: Long) = count
  },
  ;

  /**
   * Converts the given size in the given unit to this unit. Conversions from finer to coarser
   * granularities truncate, so lose precision. For example, converting from `999` bytes to
   * kibibytes results in `0`. Conversions from coarser to finer granularities with arguments
   * that would numerically overflow saturate to [Long.MIN_VALUE] if negative or
   * [Long.MAX_VALUE] if positive.
   *
   *
   * For example, to convert 10 kilobytes to bytes, use:
   * `ByteUnit.KIBIBYTES.convert(10, ByteUnit.BYTES)`
   *
   * [sourceCount] the size in the given [sourceUnit].
   * [sourceUnit] the unit of the [sourceCount] argument.
   * @return the converted size in this unit, or [Long.MIN_VALUE] if conversion would
   * negatively overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun convert(sourceCount: Long, sourceUnit: BinaryByteUnit): Long

  /**
   * Equivalent to [KIBIBYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toKibibytes(count: Long): Long

  /**
   * Equivalent to [MEBIBYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toMebibytes(count: Long): Long

  /**
   * Equivalent to [GIBIBYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toGibibytes(count: Long): Long

  /**
   * Equivalent to [TEBIBYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toTebibytes(count: Long): Long

  /**
   * Equivalent to [PEBIBYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toPebibytes(count: Long): Long

  companion object {
    private const val B = 1L
    private const val KB = B * 1024L
    private const val MB = KB * 1024L
    private const val GB = MB * 1024L
    private const val TB = GB * 1024L
    private const val PB = TB * 1024L
    private const val MAX = Long.MAX_VALUE
    private val UNITS = arrayOf("B", "KiB", "MiB", "GiB", "TiB", "PiB")

    /**
     * Return `bytes` as human-readable size string (e.g., "1.2 GiB". This will use a
     * [DecimalFormat] instance with `pattern` for formatting the number.
     */
    fun format(bytes: Long, pattern: String): String {
      return format(bytes, DecimalFormat(pattern))
    }

    /**
     * Return `bytes` as human-readable size string (e.g., "1.2 GiB". This will use a default
     * [DecimalFormat] instance for formatting the number.
     */
    @JvmOverloads fun format(
      bytes: Long,
      format: NumberFormat = DecimalFormat(
        DEFAULT_FORMAT_PATTERN,
      ),
    ): String {
      require(bytes >= 0) { "bytes < 0: $bytes" }
      var unitIndex = 0
      var count = bytes.toDouble()
      while (count >= 1024.0 && unitIndex < UNITS.size - 1) {
        count /= 1024.0
        unitIndex += 1
      }
      return format.format(count) + ' ' + UNITS[unitIndex]
    }
  }
}


================================================
FILE: src/jvmMain/kotlin/com/jakewharton/byteunits/BitUnit.kt
================================================
package com.jakewharton.byteunits

import java.text.DecimalFormat
import java.text.NumberFormat

/**
 * A [BitUnit] represents bit size at a given unit of granularity and provides utility
 * methods to convert across units. A [BitUnit] does not maintain bit size information,
 * but only helps organize and use bit size representations that may be maintained separately
 * across various contexts.
 */
enum class BitUnit : ByteUnit {
  /** Bit unit representing one bit. */
  BITS {
    override fun convert(sourceCount: Long, sourceUnit: BitUnit): Long =
      sourceUnit.toBits(sourceCount)

    override fun toBytes(count: Long): Long = count / BYTE

    override fun toBits(count: Long): Long = count

    override fun toKilobits(count: Long): Long = count / (KB / B)

    override fun toMegabits(count: Long): Long = count / (MB / B)

    override fun toGigabits(count: Long): Long = count / (GB / B)

    override fun toTerabits(count: Long): Long = count / (TB / B)

    override fun toPetabits(count: Long): Long = count / (PB / B)
  },

  /** A bit unit representing 1000 bits. */
  KILOBITS {
    override fun convert(sourceCount: Long, sourceUnit: BitUnit): Long =
      sourceUnit.toKilobits(sourceCount)

    override fun toBytes(count: Long): Long = count * KBYTE

    override fun toBits(count: Long): Long = checkedMultiply(count, KB / B, MAX / (KB / B))

    override fun toKilobits(count: Long): Long = count

    override fun toMegabits(count: Long): Long = count / (MB / KB)

    override fun toGigabits(count: Long): Long = count / (GB / KB)

    override fun toTerabits(count: Long): Long = count / (TB / KB)

    override fun toPetabits(count: Long): Long = count / (PB / KB)
  },

  /** A bit unit representing 1000 kilobits. */
  MEGABITS {
    override fun convert(sourceCount: Long, sourceUnit: BitUnit): Long =
      sourceUnit.toMegabits(sourceCount)

    override fun toBytes(count: Long): Long = count * MBYTE

    override fun toBits(count: Long): Long = checkedMultiply(count, MB / B, MAX / (MB / B))

    override fun toKilobits(count: Long): Long = checkedMultiply(count, MB / KB, MAX / (MB / KB))

    override fun toMegabits(count: Long): Long = count

    override fun toGigabits(count: Long): Long = count / (GB / MB)

    override fun toTerabits(count: Long): Long = count / (TB / MB)

    override fun toPetabits(count: Long): Long = count / (PB / MB)
  },

  /** A bit unit representing 1000 megabits. */
  GIGABITS {
    override fun convert(sourceCount: Long, sourceUnit: BitUnit): Long =
      sourceUnit.toGigabits(sourceCount)

    override fun toBytes(count: Long): Long = count * GBYTE

    override fun toBits(count: Long): Long = checkedMultiply(count, GB / B, MAX / (GB / B))

    override fun toKilobits(count: Long): Long = checkedMultiply(count, GB / KB, MAX / (GB / KB))

    override fun toMegabits(count: Long): Long = checkedMultiply(count, GB / MB, MAX / (GB / MB))

    override fun toGigabits(count: Long): Long = count

    override fun toTerabits(count: Long): Long = count / (TB / GB)

    override fun toPetabits(count: Long): Long = count / (PB / GB)
  },

  /** A bit unit representing 1000 gigabits. */
  TERABITS {
    override fun convert(sourceCount: Long, sourceUnit: BitUnit): Long =
      sourceUnit.toTerabits(sourceCount)

    override fun toBytes(count: Long): Long = count * TBYTE

    override fun toBits(count: Long): Long = checkedMultiply(count, TB / B, MAX / (TB / B))

    override fun toKilobits(count: Long): Long = checkedMultiply(count, TB / KB, MAX / (TB / KB))

    override fun toMegabits(count: Long): Long = checkedMultiply(count, TB / MB, MAX / (TB / MB))

    override fun toGigabits(count: Long): Long = checkedMultiply(count, TB / GB, MAX / (TB / GB))

    override fun toTerabits(count: Long): Long = count

    override fun toPetabits(count: Long): Long = count / (PB / TB)
  },

  /** A bit unit representing 1000 terabits. */
  PETABITS {
    override fun convert(sourceCount: Long, sourceUnit: BitUnit): Long =
      sourceUnit.toPetabits(sourceCount)

    override fun toBytes(count: Long): Long = count * PBYTE

    override fun toBits(count: Long): Long = checkedMultiply(count, PB / B, MAX / (PB / B))

    override fun toKilobits(count: Long): Long = checkedMultiply(count, PB / KB, MAX / (PB / KB))

    override fun toMegabits(count: Long): Long = checkedMultiply(count, PB / MB, MAX / (PB / MB))

    override fun toGigabits(count: Long): Long = checkedMultiply(count, PB / GB, MAX / (PB / GB))

    override fun toTerabits(count: Long): Long = checkedMultiply(count, PB / TB, MAX / (PB / TB))

    override fun toPetabits(count: Long): Long = count
  },
  ;

  /**
   * Converts the given size in the given unit to this unit. Conversions from finer to coarser
   * granularities truncate, so lose precision. For example, converting from `999` bit to
   * kilobits results in `0`. Conversions from coarser to finer granularities with arguments
   * that would numerically overflow saturate to [Long.MIN_VALUE] if negative or
   * [Long.MAX_VALUE] if positive.
   *
   *
   * For example, to convert 10 kilobytes to bytes, use:
   * `ByteUnit.KILOBITS.convert(10, ByteUnit.BITS)`
   *
   * [sourceCount] the size in the given [sourceUnit].
   * [sourceUnit] the unit of the [sourceCount] argument.
   * @return the converted size in this unit, or [Long.MIN_VALUE] if conversion would
   * negatively overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun convert(sourceCount: Long, sourceUnit: BitUnit): Long

  /**
   * Equivalent to [BITS.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toBits(count: Long): Long

  /**
   * Equivalent to [KILOBITS.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toKilobits(count: Long): Long

  /**
   * Equivalent to [MEGABITS.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toMegabits(count: Long): Long

  /**
   * Equivalent to [GIGABITS.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toGigabits(count: Long): Long

  /**
   * Equivalent to [TERABITS.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toTerabits(count: Long): Long

  /**
   * Equivalent to [PETABITS.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toPetabits(count: Long): Long

  companion object {
    private const val B = 1L
    private const val KB = B * 1000L
    private const val MB = KB * 1000L
    private const val GB = MB * 1000L
    private const val TB = GB * 1000L
    private const val PB = TB * 1000L
    private const val BYTE = B * 8
    private const val KBYTE = 1000L / BYTE
    private const val MBYTE = KBYTE * 1000L
    private const val GBYTE = MBYTE * 1000L
    private const val TBYTE = GBYTE * 1000L
    private const val PBYTE = TBYTE * 1000L
    private const val MAX = Long.MAX_VALUE
    private val UNITS = arrayOf("b", "Kb", "Mb", "Gb", "Tb", "Pb")

    /**
     * Return `bits` as human-readable size string (e.g., "1.2 Gb". This will use a
     * [DecimalFormat] instance with [pattern] for formatting the number.
     */
    fun format(bits: Long, pattern: String): String {
      return format(bits, DecimalFormat(pattern))
    }

    /**
     * Return `bits` as human-readable size string (e.g., "1.2 Gb". This will use a default
     * [DecimalFormat] instance for formatting the number.
     */
    @JvmOverloads fun format(
      bits: Long,
      format: NumberFormat = DecimalFormat(
        DEFAULT_FORMAT_PATTERN,
      ),
    ): String {
      require(bits >= 0) { "bits < 0: $bits" }
      var unitIndex = 0
      var count = bits.toDouble()
      while (count >= 1000.0 && unitIndex < UNITS.size - 1) {
        count /= 1000.0
        unitIndex += 1
      }
      return format.format(count) + ' ' + UNITS[unitIndex]
    }
  }
}


================================================
FILE: src/jvmMain/kotlin/com/jakewharton/byteunits/ByteUnit.kt
================================================
package com.jakewharton.byteunits

/**
 * A [ByteUnit] represents a size at a given unit of granularity which can be converted
 * into bytes. A [ByteUnit] does not maintain byte size information, but only helps use byte
 * size representations that may be maintained separately across various contexts.
 *
 * @see DecimalByteUnit
 * @see BinaryByteUnit
 * @see BitUnit
 */
sealed interface ByteUnit {
  /**
   * Converts the given size in the given unit to bytes. Conversions with arguments that would
   * numerically overflow saturate to [Long.MIN_VALUE] if negative or [Long.MAX_VALUE]
   * if positive.
   *
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  fun toBytes(count: Long): Long
}


================================================
FILE: src/jvmMain/kotlin/com/jakewharton/byteunits/DecimalByteUnit.kt
================================================
package com.jakewharton.byteunits

import java.text.DecimalFormat
import java.text.NumberFormat

/**
 * A [DecimalByteUnit] represents power-of-ten byte sizes at a given unit of granularity and
 * provides utility methods to convert across units. A [DecimalByteUnit] does not maintain
 * byte size information, but only helps organize and use byte size representations that may be
 * maintained separately across various contexts.
 */
enum class DecimalByteUnit : ByteUnit {
  /** Byte unit representing one byte. */
  BYTES {
    override fun convert(sourceCount: Long, sourceUnit: DecimalByteUnit): Long =
      sourceUnit.toBytes(sourceCount)

    override fun toBytes(count: Long): Long = count

    override fun toKilobytes(count: Long): Long = count / (KB / B)

    override fun toMegabytes(count: Long): Long = count / (MB / B)

    override fun toGigabytes(count: Long): Long = count / (GB / B)

    override fun toTerabytes(count: Long): Long = count / (TB / B)

    override fun toPetabytes(count: Long): Long = count / (PB / B)
  },

  /** A byte unit representing 1000 bytes. */
  KILOBYTES {
    override fun convert(sourceCount: Long, sourceUnit: DecimalByteUnit): Long =
      sourceUnit.toKilobytes(sourceCount)

    override fun toBytes(count: Long): Long = checkedMultiply(count, KB / B, MAX / (KB / B))

    override fun toKilobytes(count: Long): Long = count

    override fun toMegabytes(count: Long): Long = count / (MB / KB)

    override fun toGigabytes(count: Long): Long = count / (GB / KB)

    override fun toTerabytes(count: Long): Long = count / (TB / KB)

    override fun toPetabytes(count: Long): Long = count / (PB / KB)
  },

  /** A byte unit representing 1000 kilobytes. */
  MEGABYTES {
    override fun convert(sourceCount: Long, sourceUnit: DecimalByteUnit): Long =
      sourceUnit.toMegabytes(sourceCount)

    override fun toBytes(count: Long): Long = checkedMultiply(count, MB / B, MAX / (MB / B))

    override fun toKilobytes(count: Long): Long = checkedMultiply(count, MB / KB, MAX / (MB / KB))

    override fun toMegabytes(count: Long): Long = count

    override fun toGigabytes(count: Long): Long = count / (GB / MB)

    override fun toTerabytes(count: Long): Long = count / (TB / MB)

    override fun toPetabytes(count: Long): Long = count / (PB / MB)
  },

  /** A byte unit representing 1000 megabytes. */
  GIGABYTES {
    override fun convert(sourceCount: Long, sourceUnit: DecimalByteUnit): Long =
      sourceUnit.toGigabytes(sourceCount)

    override fun toBytes(count: Long): Long = checkedMultiply(count, GB / B, MAX / (GB / B))

    override fun toKilobytes(count: Long): Long = checkedMultiply(count, GB / KB, MAX / (GB / KB))

    override fun toMegabytes(count: Long): Long = checkedMultiply(count, GB / MB, MAX / (GB / MB))

    override fun toGigabytes(count: Long): Long = count

    override fun toTerabytes(count: Long): Long = count / (TB / GB)

    override fun toPetabytes(count: Long): Long = count / (PB / GB)
  },

  /** A byte unit representing 1000 gigabytes. */
  TERABYTES {
    override fun convert(sourceCount: Long, sourceUnit: DecimalByteUnit): Long =
      sourceUnit.toTerabytes(sourceCount)

    override fun toBytes(count: Long): Long = checkedMultiply(count, TB / B, MAX / (TB / B))

    override fun toKilobytes(count: Long): Long = checkedMultiply(count, TB / KB, MAX / (TB / KB))

    override fun toMegabytes(count: Long): Long = checkedMultiply(count, TB / MB, MAX / (TB / MB))

    override fun toGigabytes(count: Long): Long = checkedMultiply(count, TB / GB, MAX / (TB / GB))

    override fun toTerabytes(count: Long): Long = count

    override fun toPetabytes(count: Long): Long = count / (PB / TB)
  },

  /** A byte unit representing 1000 terabytes. */
  PETABYTES {
    override fun convert(sourceCount: Long, sourceUnit: DecimalByteUnit): Long =
      sourceUnit.toPetabytes(sourceCount)

    override fun toBytes(count: Long): Long = checkedMultiply(count, PB / B, MAX / (PB / B))

    override fun toKilobytes(count: Long): Long = checkedMultiply(count, PB / KB, MAX / (PB / KB))

    override fun toMegabytes(count: Long): Long = checkedMultiply(count, PB / MB, MAX / (PB / MB))

    override fun toGigabytes(count: Long): Long = checkedMultiply(count, PB / GB, MAX / (PB / GB))

    override fun toTerabytes(count: Long): Long = checkedMultiply(count, PB / TB, MAX / (PB / TB))

    override fun toPetabytes(count: Long): Long = count
  },
  ;

  /**
   * Converts the given size in the given unit to this unit. Conversions from finer to coarser
   * granularities truncate, so lose precision. For example, converting from `999` bytes to
   * kilobytes results in `0`. Conversions from coarser to finer granularities with arguments
   * that would numerically overflow saturate to [Long.MIN_VALUE] if negative or
   * [Long.MAX_VALUE] if positive.
   *
   *
   * For example, to convert 10 kilobytes to bytes, use:
   * `ByteUnit.KILOBYTES.convert(10, ByteUnit.BYTES)`
   *
   * [sourceCount] the size in the given [sourceUnit].
   * [sourceUnit] the unit of the [sourceCount] argument.
   * @return the converted size in this unit, or [Long.MIN_VALUE] if conversion would
   * negatively overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun convert(sourceCount: Long, sourceUnit: DecimalByteUnit): Long

  /**
   * Equivalent to [KILOBYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toKilobytes(count: Long): Long

  /**
   * Equivalent to [MEGABYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toMegabytes(count: Long): Long

  /**
   * Equivalent to [GIGABYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toGigabytes(count: Long): Long

  /**
   * Equivalent to [TERABYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toTerabytes(count: Long): Long

  /**
   * Equivalent to [PETABYTES.convert(count, this)][convert].
   * [count] the bit count
   * @return the converted count, or [Long.MIN_VALUE] if conversion would negatively
   * overflow, or [Long.MAX_VALUE] if it would positively overflow.
   */
  abstract fun toPetabytes(count: Long): Long

  companion object {
    private const val B = 1L
    private const val KB = B * 1000L
    private const val MB = KB * 1000L
    private const val GB = MB * 1000L
    private const val TB = GB * 1000L
    private const val PB = TB * 1000L
    private const val MAX = Long.MAX_VALUE
    private val UNITS = arrayOf("B", "KB", "MB", "GB", "TB", "PB")

    /**
     * Return `bytes` as human-readable size string (e.g., "1.2 GB". This will use a
     * [DecimalFormat] instance with `pattern` for formatting the number.
     */
    fun format(bytes: Long, pattern: String): String {
      return format(bytes, DecimalFormat(pattern))
    }

    /**
     * Return `bytes` as human-readable size string (e.g., "1.2 GB". This will use a default
     * [DecimalFormat] instance for formatting the number.
     */
    @JvmOverloads fun format(
      bytes: Long,
      format: NumberFormat = DecimalFormat(
        DEFAULT_FORMAT_PATTERN,
      ),
    ): String {
      require(bytes >= 0) { "bytes < 0: $bytes" }
      var unitIndex = 0
      var count = bytes.toDouble()
      while (count >= 1000.0 && unitIndex < UNITS.size - 1) {
        count /= 1000.0
        unitIndex += 1
      }
      return format.format(count) + ' ' + UNITS[unitIndex]
    }
  }
}


================================================
FILE: src/jvmMain/kotlin/com/jakewharton/byteunits/UnitUtil.kt
================================================
package com.jakewharton.byteunits

internal const val DEFAULT_FORMAT_PATTERN = "#,##0.#"

/** Multiply [size] by [factor] accounting for overflow. */
internal fun checkedMultiply(size: Long, factor: Long, over: Long): Long = when {
  size > over -> Long.MAX_VALUE
  size < -over -> Long.MIN_VALUE
  else -> size * factor
}


================================================
FILE: src/jvmTest/kotlin/com/jakewharton/byteunits/BinaryByteUnitTest.kt
================================================
package com.jakewharton.byteunits

import com.jakewharton.byteunits.BinaryByteUnit.BYTES
import com.jakewharton.byteunits.BinaryByteUnit.GIBIBYTES
import com.jakewharton.byteunits.BinaryByteUnit.KIBIBYTES
import com.jakewharton.byteunits.BinaryByteUnit.MEBIBYTES
import com.jakewharton.byteunits.BinaryByteUnit.PEBIBYTES
import com.jakewharton.byteunits.BinaryByteUnit.TEBIBYTES
import java.text.DecimalFormat
import java.text.DecimalFormatSymbols
import java.text.NumberFormat
import java.util.Locale
import kotlin.test.Test
import kotlin.test.assertEquals
import kotlin.test.assertFailsWith

class BinaryByteUnitTest {
  @Suppress("KotlinConstantConditions")
  @Test
  fun convertInternal() {
    for (s in 0..998) {
      assertEquals(s / 1_024L, BYTES.toKibibytes(s.toLong()))
      assertEquals(s / 1_048_576L, BYTES.toMebibytes(s.toLong()))
      assertEquals(s / 1_073_741_824L, BYTES.toGibibytes(s.toLong()))
      assertEquals(s / 1_099_511_627_776L, BYTES.toTebibytes(s.toLong()))
      assertEquals(s / 1_125_899_906_842_624L, BYTES.toPebibytes(s.toLong()))

      assertEquals(s * 1_024L, KIBIBYTES.toBytes(s.toLong()))
      assertEquals(s / 1_024L, KIBIBYTES.toMebibytes(s.toLong()))
      assertEquals(s / 1_048_576L, KIBIBYTES.toGibibytes(s.toLong()))
      assertEquals(s / 1_073_741_824L, KIBIBYTES.toTebibytes(s.toLong()))
      assertEquals(s / 1_099_511_627_776L, KIBIBYTES.toPebibytes(s.toLong()))

      assertEquals(s * 1_048_576L, MEBIBYTES.toBytes(s.toLong()))
      assertEquals(s * 1_024L, MEBIBYTES.toKibibytes(s.toLong()))
      assertEquals(s / 1_024L, MEBIBYTES.toGibibytes(s.toLong()))
      assertEquals(s / 1_048_576L, MEBIBYTES.toTebibytes(s.toLong()))
      assertEquals(s / 1_073_741_824L, MEBIBYTES.toPebibytes(s.toLong()))

      assertEquals(s * 1_073_741_824L, GIBIBYTES.toBytes(s.toLong()))
      assertEquals(s * 1_048_576L, GIBIBYTES.toKibibytes(s.toLong()))
      assertEquals(s * 1_024L, GIBIBYTES.toMebibytes(s.toLong()))
      assertEquals(s / 1_024L, GIBIBYTES.toTebibytes(s.toLong()))
      assertEquals(s / 1_048_576L, GIBIBYTES.toPebibytes(s.toLong()))

      assertEquals(s * 1_099_511_627_776L, TEBIBYTES.toBytes(s.toLong()))
      assertEquals(s * 1_073_741_824L, TEBIBYTES.toKibibytes(s.toLong()))
      assertEquals(s * 1_048_576L, TEBIBYTES.toMebibytes(s.toLong()))
      assertEquals(s * 1_024L, TEBIBYTES.toGibibytes(s.toLong()))
      assertEquals(s / 1_024L, TEBIBYTES.toPebibytes(s.toLong()))

      assertEquals(s * 1_125_899_906_842_624L, PEBIBYTES.toBytes(s.toLong()))
      assertEquals(s * 1_099_511_627_776L, PEBIBYTES.toKibibytes(s.toLong()))
      assertEquals(s * 1_073_741_824L, PEBIBYTES.toMebibytes(s.toLong()))
      assertEquals(s * 1_048_576L, PEBIBYTES.toGibibytes(s.toLong()))
      assertEquals(s * 1_024L, PEBIBYTES.toTebibytes(s.toLong()))
    }
  }

  @Test fun format() {
    assertEquals("0 B", BinaryByteUnit.format(0))
    assertEquals("1 B", BinaryByteUnit.format(1))
    assertEquals("1 KiB", BinaryByteUnit.format(1024))
    assertEquals("1 KiB", BinaryByteUnit.format(1025))
    assertEquals("16 KiB", BinaryByteUnit.format(16384))
    assertEquals("1.2 MiB", BinaryByteUnit.format(1234567))
    assertEquals("1.2 GiB", BinaryByteUnit.format(1288490189))
    assertEquals("8,192 PiB", BinaryByteUnit.format(Long.MAX_VALUE))
  }

  @Test fun formatWithPattern() {
    val pattern = "0.0#"
    assertEquals("0.0 B", BinaryByteUnit.format(0, pattern))
    assertEquals("1.0 B", BinaryByteUnit.format(1, pattern))
    assertEquals("1.0 KiB", BinaryByteUnit.format(1024, pattern))
    assertEquals("1.0 KiB", BinaryByteUnit.format(1025, pattern))
    assertEquals("16.0 KiB", BinaryByteUnit.format(16384, pattern))
    assertEquals("1.18 MiB", BinaryByteUnit.format(1234567, pattern))
  }

  @Test fun formatWithDecimalFormat() {
    val format: NumberFormat = DecimalFormat("#.##", DecimalFormatSymbols(Locale.FRENCH))
    assertEquals("16 KiB", BinaryByteUnit.format(16384, format))
    assertEquals("1,18 MiB", BinaryByteUnit.format(1234567, format))
  }

  @Test fun formatNegativeValuesThrows() {
    assertFailsWith<IllegalArgumentException> {
      BinaryByteUnit.format(-1)
    }.also {
      assertEquals("bytes < 0: -1", it.message)
    }
    assertFailsWith<IllegalArgumentException> {
      BinaryByteUnit.format(-1, "#.##")
    }.also {
      assertEquals("bytes < 0: -1", it.message)
    }

    val format: NumberFormat = DecimalFormat("#.##", DecimalFormatSymbols(Locale.FRENCH))
    assertFailsWith<IllegalArgumentException> {
      BinaryByteUnit.format(-1, format)
    }.also {
      assertEquals("bytes < 0: -1", it.message)
    }
  }
}


================================================
FILE: src/jvmTest/kotlin/com/jakewharton/byteunits/BitUnitTest.kt
================================================
package com.jakewharton.byteunits

import com.jakewharton.byteunits.BitUnit.BITS
import com.jakewharton.byteunits.BitUnit.GIGABITS
import com.jakewharton.byteunits.BitUnit.KILOBITS
import com.jakewharton.byteunits.BitUnit.MEGABITS
import com.jakewharton.byteunits.BitUnit.PETABITS
import com.jakewharton.byteunits.BitUnit.TERABITS
import java.text.DecimalFormat
import java.text.DecimalFormatSymbols
import java.text.NumberFormat
import java.util.Locale
import kotlin.test.Test
import kotlin.test.assertEquals
import kotlin.test.assertFailsWith

class BitUnitTest {
  @Suppress("KotlinConstantConditions")
  @Test
  fun convertInternal() {
    for (s in 0..998) {
      assertEquals(s / 8L, BITS.toBytes(s.toLong()))
      assertEquals(s / 1000L, BITS.toKilobits(s.toLong()))
      assertEquals(s / 1000000L, BITS.toMegabits(s.toLong()))
      assertEquals(s / 1000000000L, BITS.toGigabits(s.toLong()))
      assertEquals(s / 1000000000000L, BITS.toTerabits(s.toLong()))
      assertEquals(s / 1000000000000000L, BITS.toPetabits(s.toLong()))
      assertEquals(s * 125L, KILOBITS.toBytes(s.toLong()))
      assertEquals(s * 1000L, KILOBITS.toBits(s.toLong()))
      assertEquals(s / 1000L, KILOBITS.toMegabits(s.toLong()))
      assertEquals(s / 1000000L, KILOBITS.toGigabits(s.toLong()))
      assertEquals(s / 1000000000L, KILOBITS.toTerabits(s.toLong()))
      assertEquals(s / 1000000000000L, KILOBITS.toPetabits(s.toLong()))
      assertEquals(s * 125000L, MEGABITS.toBytes(s.toLong()))
      assertEquals(s * 1000000L, MEGABITS.toBits(s.toLong()))
      assertEquals(s * 1000L, MEGABITS.toKilobits(s.toLong()))
      assertEquals(s / 1000L, MEGABITS.toGigabits(s.toLong()))
      assertEquals(s / 1000000L, MEGABITS.toTerabits(s.toLong()))
      assertEquals(s / 1000000000L, MEGABITS.toPetabits(s.toLong()))
      assertEquals(s * 125000000L, GIGABITS.toBytes(s.toLong()))
      assertEquals(s * 1000000000L, GIGABITS.toBits(s.toLong()))
      assertEquals(s * 1000000L, GIGABITS.toKilobits(s.toLong()))
      assertEquals(s * 1000L, GIGABITS.toMegabits(s.toLong()))
      assertEquals(s / 1000L, GIGABITS.toTerabits(s.toLong()))
      assertEquals(s / 1000000L, GIGABITS.toPetabits(s.toLong()))
      assertEquals(s * 125000000000L, TERABITS.toBytes(s.toLong()))
      assertEquals(s * 1000000000000L, TERABITS.toBits(s.toLong()))
      assertEquals(s * 1000000000L, TERABITS.toKilobits(s.toLong()))
      assertEquals(s * 1000000L, TERABITS.toMegabits(s.toLong()))
      assertEquals(s * 1000L, TERABITS.toGigabits(s.toLong()))
      assertEquals(s / 1000L, TERABITS.toPetabits(s.toLong()))
      assertEquals(s * 125000000000000L, PETABITS.toBytes(s.toLong()))
      assertEquals(s * 1000000000000000L, PETABITS.toBits(s.toLong()))
      assertEquals(s * 1000000000000L, PETABITS.toKilobits(s.toLong()))
      assertEquals(s * 1000000000L, PETABITS.toMegabits(s.toLong()))
      assertEquals(s * 1000000L, PETABITS.toGigabits(s.toLong()))
      assertEquals(s * 1000L, PETABITS.toTerabits(s.toLong()))
    }
  }

  @Test fun format() {
    assertEquals("0 b", BitUnit.format(0))
    assertEquals("1 b", BitUnit.format(1))
    assertEquals("1 Kb", BitUnit.format(1000))
    assertEquals("1 Kb", BitUnit.format(1001))
    assertEquals("16 Kb", BitUnit.format(16000))
    assertEquals("1.2 Mb", BitUnit.format(1177171))
    assertEquals("1.2 Gb", BitUnit.format(1200000000))
    assertEquals("9,223.4 Pb", BitUnit.format(Long.MAX_VALUE))
  }

  @Test fun formatWithPattern() {
    val pattern = "0.0#"
    assertEquals("0.0 b", BitUnit.format(0, pattern))
    assertEquals("1.0 b", BitUnit.format(1, pattern))
    assertEquals("1.0 Kb", BitUnit.format(1000, pattern))
    assertEquals("1.0 Kb", BitUnit.format(1001, pattern))
    assertEquals("16.0 Kb", BitUnit.format(16000, pattern))
    assertEquals("1.18 Mb", BitUnit.format(1177171, pattern))
  }

  @Test fun formatWithDecimalFormat() {
    val format: NumberFormat = DecimalFormat("#.##", DecimalFormatSymbols(Locale.FRENCH))
    assertEquals("16 Kb", BitUnit.format(16000, format))
    assertEquals("1,18 Mb", BitUnit.format(1177171, format))
  }

  @Test fun formatNegativeValuesThrows() {
    assertFailsWith<IllegalArgumentException> {
      BitUnit.format(-1)
    }.also {
      assertEquals("bits < 0: -1", it.message)
    }
    assertFailsWith<IllegalArgumentException> {
      BitUnit.format(-1, "#.##")
    }.also {
      assertEquals("bits < 0: -1", it.message)
    }

    val format: NumberFormat = DecimalFormat("#.##", DecimalFormatSymbols(Locale.FRENCH))
    assertFailsWith<IllegalArgumentException> {
      BitUnit.format(-1, format)
    }.also {
      assertEquals("bits < 0: -1", it.message)
    }
  }
}


================================================
FILE: src/jvmTest/kotlin/com/jakewharton/byteunits/DecimalByteUnitTest.kt
================================================
package com.jakewharton.byteunits

import com.jakewharton.byteunits.DecimalByteUnit.BYTES
import com.jakewharton.byteunits.DecimalByteUnit.GIGABYTES
import com.jakewharton.byteunits.DecimalByteUnit.KILOBYTES
import com.jakewharton.byteunits.DecimalByteUnit.MEGABYTES
import com.jakewharton.byteunits.DecimalByteUnit.PETABYTES
import com.jakewharton.byteunits.DecimalByteUnit.TERABYTES
import java.text.DecimalFormat
import java.text.DecimalFormatSymbols
import java.text.NumberFormat
import java.util.Locale
import kotlin.test.Test
import kotlin.test.assertEquals
import kotlin.test.assertFailsWith

class DecimalByteUnitTest {
  @Suppress("KotlinConstantConditions")
  @Test
  fun convertInternal() {
    for (s in 0..998) {
      assertEquals(s / 1000L, BYTES.toKilobytes(s.toLong()))
      assertEquals(s / 1000000L, BYTES.toMegabytes(s.toLong()))
      assertEquals(s / 1000000000L, BYTES.toGigabytes(s.toLong()))
      assertEquals(s / 1000000000000L, BYTES.toTerabytes(s.toLong()))
      assertEquals(s / 1000000000000000L, BYTES.toPetabytes(s.toLong()))
      assertEquals(s * 1000L, KILOBYTES.toBytes(s.toLong()))
      assertEquals(s / 1000L, KILOBYTES.toMegabytes(s.toLong()))
      assertEquals(s / 1000000L, KILOBYTES.toGigabytes(s.toLong()))
      assertEquals(s / 1000000000L, KILOBYTES.toTerabytes(s.toLong()))
      assertEquals(s / 1000000000000L, KILOBYTES.toPetabytes(s.toLong()))
      assertEquals(s * 1000000L, MEGABYTES.toBytes(s.toLong()))
      assertEquals(s * 1000L, MEGABYTES.toKilobytes(s.toLong()))
      assertEquals(s / 1000L, MEGABYTES.toGigabytes(s.toLong()))
      assertEquals(s / 1000000L, MEGABYTES.toTerabytes(s.toLong()))
      assertEquals(s / 1000000000L, MEGABYTES.toPetabytes(s.toLong()))
      assertEquals(s * 1000000000L, GIGABYTES.toBytes(s.toLong()))
      assertEquals(s * 1000000L, GIGABYTES.toKilobytes(s.toLong()))
      assertEquals(s * 1000L, GIGABYTES.toMegabytes(s.toLong()))
      assertEquals(s / 1000L, GIGABYTES.toTerabytes(s.toLong()))
      assertEquals(s / 1000000L, GIGABYTES.toPetabytes(s.toLong()))
      assertEquals(s * 1000000000000L, TERABYTES.toBytes(s.toLong()))
      assertEquals(s * 1000000000L, TERABYTES.toKilobytes(s.toLong()))
      assertEquals(s * 1000000L, TERABYTES.toMegabytes(s.toLong()))
      assertEquals(s * 1000L, TERABYTES.toGigabytes(s.toLong()))
      assertEquals(s / 1000L, TERABYTES.toPetabytes(s.toLong()))
      assertEquals(s * 1000000000000000L, PETABYTES.toBytes(s.toLong()))
      assertEquals(s * 1000000000000L, PETABYTES.toKilobytes(s.toLong()))
      assertEquals(s * 1000000000L, PETABYTES.toMegabytes(s.toLong()))
      assertEquals(s * 1000000L, PETABYTES.toGigabytes(s.toLong()))
      assertEquals(s * 1000L, PETABYTES.toTerabytes(s.toLong()))
    }
  }

  @Test fun format() {
    assertEquals("0 B", DecimalByteUnit.format(0))
    assertEquals("1 B", DecimalByteUnit.format(1))
    assertEquals("1 KB", DecimalByteUnit.format(1000))
    assertEquals("1 KB", DecimalByteUnit.format(1001))
    assertEquals("16 KB", DecimalByteUnit.format(16000))
    assertEquals("1.2 MB", DecimalByteUnit.format(1177171))
    assertEquals("1.2 GB", DecimalByteUnit.format(1200000000))
    assertEquals("9,223.4 PB", DecimalByteUnit.format(Long.MAX_VALUE))
  }

  @Test fun formatWithPattern() {
    val pattern = "0.0#"
    assertEquals("0.0 B", DecimalByteUnit.format(0, pattern))
    assertEquals("1.0 B", DecimalByteUnit.format(1, pattern))
    assertEquals("1.0 KB", DecimalByteUnit.format(1000, pattern))
    assertEquals("1.0 KB", DecimalByteUnit.format(1001, pattern))
    assertEquals("16.0 KB", DecimalByteUnit.format(16000, pattern))
    assertEquals("1.18 MB", DecimalByteUnit.format(1177171, pattern))
  }

  @Test fun formatWithDecimalFormat() {
    val format: NumberFormat = DecimalFormat("#.##", DecimalFormatSymbols(Locale.FRENCH))
    assertEquals("16 KB", DecimalByteUnit.format(16000, format))
    assertEquals("1,18 MB", DecimalByteUnit.format(1177171, format))
  }

  @Test fun formatNegativeValuesThrows() {
    assertFailsWith<IllegalArgumentException> {
      DecimalByteUnit.format(-1)
    }.also {
      assertEquals("bytes < 0: -1", it.message)
    }
    assertFailsWith<IllegalArgumentException> {
      DecimalByteUnit.format(-1, "#.##")
    }.also {
      assertEquals("bytes < 0: -1", it.message)
    }

    val format: NumberFormat = DecimalFormat("#.##", DecimalFormatSymbols(Locale.FRENCH))
    assertFailsWith<IllegalArgumentException> {
      DecimalByteUnit.format(-1, format)
    }.also {
      assertEquals("bytes < 0: -1", it.message)
    }
  }
}