Initializing the gs-uuid project with a tested implementation.

2023-12-20 22:07:25 -06:00 · 2023-12-20 22:07:25 -06:00 · 0809a8fe34
commit 0809a8fe34
11 changed files with 837 additions and 0 deletions
--- a/.gitignore
+++ b/.gitignore
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 target/
 project/target/
 project/project/
 modules/core/target/
--- a/.pre-commit-config.yaml
+++ b/.pre-commit-config.yaml
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 ---
 repos:
  - repo: https://github.com/pre-commit/pre-commit-hooks
    rev: v4.4.0
    hooks:
      - id: end-of-file-fixer
      - id: trailing-whitespace
  - repo: https://git.meager.home/meager/meager-pre-commit-scala
    rev: v0.1.2
    hooks:
      - id: scalafmt
--- a/.scalafmt.conf
+++ b/.scalafmt.conf
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 // See: https://github.com/scalameta/scalafmt/tags for the latest tags.
 version = 3.7.11
 runner.dialect = scala3
 maxColumn = 80
 rewrite {
    rules = [RedundantBraces, RedundantParens, Imports, SortModifiers]
    imports.expand = true
    imports.sort = scalastyle
    redundantBraces.ifElseExpressions = true
    redundantBraces.stringInterpolation = true
 }
 indent {
    main = 2
    callSite = 2
    defnSite = 2
    extendSite = 4
    withSiteRelativeToExtends = 2
    commaSiteRelativeToExtends = 2
 }
 align {
    preset = more
    openParenCallSite = false
    openParenDefnSite = false
 }
 newlines {
    implicitParamListModifierForce = [before,after]
    topLevelStatementBlankLines = [
        {
            blanks = 1
        }
    ]
    afterCurlyLambdaParams = squash
 }
 danglingParentheses {
    defnSite = true
    callSite = true
    ctrlSite = true
    exclude = []
 }
 verticalMultiline {
    atDefnSite = true
    arityThreshold = 2
    newlineAfterOpenParen = true
 }
 comments {
    wrap = standalone
 }
 docstrings {
    style = "SpaceAsterisk"
    oneline = unfold
    wrap = yes
    forceBlankLineBefore = true
 }
 project {
  excludePaths = [
    "glob:**target/**",
    "glob:**.metals/**",
    "glob:**.bloop/**",
    "glob:**.bsp/**",
    "glob:**metals.sbt"
  ]
 }
--- a/202
+++ b/202
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--- a/README.md
+++ b/README.md
@ -0,0 +1,20 @@
 # gs-uuid
 [License (Apache 2.0)](./LICENSE)
 UUID's for Scala 3 with generation based on JUG, and serialization based on code
 from Jackson Databind. The only dependency is JUG, whereas the relevant Jackson 
 code is copied to this implementation (and slightly modified).
 - [Usage](#usage)
 ## Usage
 This library is not yet published.
 ```scala
 object GS {
  val UUID: ModuleID =
    "gs" %% "gs-uuid-v0" % "0.1.0"
 }
 ```
--- a/build.sbt
+++ b/build.sbt
@ -0,0 +1,140 @@
 val scala3: String = "3.3.1"
 ThisBuild / organizationName     := "garrity software"
 ThisBuild / organization         := "gs"
 ThisBuild / organizationHomepage := Some(url("https://garrity.co/"))
 ThisBuild / scalaVersion         := scala3
 ThisBuild / versionScheme        := Some("early-semver")
 externalResolvers := Seq(
  "Garrity Software Releases" at "https://maven.garrity.co/releases"
 )
 val ProjectName: String = "gs-uuid"
 val Description: String = "Garrity Software UUID Implementation"
 /**
  * Helper to extract the value from `-Dproperty=value`.
  *
  * @param name The property name.
  * @param conv The conversion function to the output type.
  * @return The converted value, or `None` if no value exists.
  */
 def getProperty[A](
  name: String,
  conv: String => A
 ): Option[A] =
  Option(System.getProperty(name)).map(conv)
 /**
  * Use `sbt -Dversion=<version>` to provide the version, minus the SNAPSHOT
  * modifier. This is the typical approach for producing releases.
  */
 val VersionProperty: String = "version"
 /**
  * Use `sbt -Drelease=true` to trigger a release build.
  */
 val ReleaseProperty: String = "release"
 /**
  * The value of `-Dversion=<value>`.
  *
  * @return The version passed as input to SBT.
  */
 lazy val InputVersion: Option[String] =
  getProperty(VersionProperty, identity)
 /**
  * @return "-SNAPSHOT" if this is NOT a release, empty string otherwise.
  */
 lazy val Modifier: String =
  if (getProperty(ReleaseProperty, _.toBoolean).getOrElse(false)) ""
  else "-SNAPSHOT"
 /**
  * Version used if no version is passed as input. This helps with default/local
  * builds.
  */
 val DefaultVersion: String = "0.1.0-SNAPSHOT"
 /**
  * This is the output version of the published artifact. If this build is not
  * a release, the suffix "-SNAPSHOT" will be appended.
  *
  * @return The project version.
  */
 lazy val SelectedVersion: String =
  InputVersion
    .map(v => s"$v$Modifier")
    .getOrElse(DefaultVersion)
 /**
  * The major version (first segment) value. Used to label releases.
  *
  * @return The major version of the project.
  */
 lazy val MajorVersion: String =
  SelectedVersion.split('.').apply(0)
 val sharedSettings = Seq(
  scalaVersion := scala3,
  version      := SelectedVersion
 )
 lazy val publishSettings = Seq(
  publishMavenStyle      := true,
  Test / publishArtifact := false,
  pomIncludeRepository   := Function.const(false),
  scmInfo := Some(
    ScmInfo(
      url(s"https://git.garrity.co/garrity-software/$ProjectName"),
      s"git@git.garrity.co:garrity-software/$ProjectName.git"
    )
  ),
  description := Description,
  licenses := List(
    "Apache 2.0" -> url("https://www.apache.org/licenses/LICENSE-2.0.html")
  ),
  homepage := Some(url(s"https://git.garrity.co/garrity-software/$ProjectName")),
  publishTo := {
    val repo = "https://maven.garrity.co/"
    if (SelectedVersion.endsWith("SNAPSHOT")) Some("snapshots" at repo + "snapshots")
    else Some("releases" at repo + "releases")
  }
 )
 lazy val testSettings = Seq(
  libraryDependencies ++= Seq(
    "org.scalameta" %% "munit" % "1.0.0-M10" % Test
  )
 )
 lazy val `gs-uuid` = (project.in(file(".")))
  .settings(sharedSettings)
  .settings(publishSettings)
  .settings(testSettings)
  .settings(name := s"$ProjectName-v$MajorVersion")
  .settings(
    libraryDependencies ++= Seq(
      "com.fasterxml.uuid" % "java-uuid-generator" % "4.1.1"
    )
  )
 ThisBuild / scalacOptions ++= Seq(
  "-encoding",
  "utf8",         // Set source file character encoding.
  "-deprecation", // Emit warning and location for usages of deprecated APIs.
  "-feature", // Emit warning and location for usages of features that should be imported explicitly.
  "-explain", // Explain errors in more detail.
  "-unchecked", // Enable additional warnings where generated code depends on assumptions.
  "-explain-types",           // Explain type errors in more detail.
  "-Xfatal-warnings",         // Fail the compilation if there are any warnings.
  "-language:strictEquality", // Enable multiversal equality (require CanEqual)
  "-Wunused:implicits",       // Warn if an implicit parameter is unused.
  "-Wunused:explicits",       // Warn if an explicit parameter is unused.
  "-Wunused:imports",         // Warn if an import selector is not referenced.
  "-Wunused:locals",          // Warn if a local definition is unused.
  "-Wunused:privates",        // Warn if a private member is unused.
  "-Ysafe-init" // Enable the experimental safe initialization check.
 )
--- a/project/build.properties
+++ b/project/build.properties
@ -0,0 +1 @@
 sbt.version=1.9.8
--- a/project/plugins.sbt
+++ b/project/plugins.sbt
@ -0,0 +1 @@
 addSbtPlugin("org.scoverage" % "sbt-scoverage" % "2.0.8")
--- a/src/main/java/gs/uuid/v0/UUIDFormat.java
+++ b/src/main/java/gs/uuid/v0/UUIDFormat.java
@ -0,0 +1,216 @@
 package gs.uuid.v0;
 import java.util.UUID;
 import java.util.Arrays;
 /**
 * UUID serialization and deserialization. This is a direct copy of Jackson
 * Databind (also under the Apache 2.0 license at time of writing) with
 * extremely minor modifications to remove dashes from the output and to
 * likewise support parsing with/without dashes.
 */
 public final class UUIDFormat {
    private UUIDFormat() {}
    private final static char[] HEX_CHARS = "0123456789abcdef".toCharArray();
    private final static int[] HEX_DIGITS = new int[127];
    static {
        Arrays.fill(HEX_DIGITS, -1);
        for (int i = 0; i < 10; ++i) { HEX_DIGITS['0' + i] = i; }
        for (int i = 0; i < 6; ++i) {
            HEX_DIGITS['a' + i] = 10 + i;
            HEX_DIGITS['A' + i] = 10 + i;
        }
    }
    /**
     * <p>Render the given UUID as a 32-character string using lowercase
     * hexadecimal without dashes.</p>
     *
     * @param uuid The UUID to render.
     * @return Hexadecimal representation of the UUID.
     */
    public static String toHex(final UUID uuid) {
        final char[] ch = new char[32];
        // Example:
        // 9bbe7b63-7928-49c8-a14f-67098b6e4642
        final long msb = uuid.getMostSignificantBits();
        // Handle the first 8 characters (9bbe7b63)
        _appendInt((int) (msb >> 32), ch, 0);
        int i = (int) msb;
        // Handle the next 4 characters (7928) (Section 2)
        _appendShort(i >>> 16, ch, 8);
        // Handle the next 4 characters (49c8) (Section 3)
        _appendShort(i, ch, 12);
        final long lsb = uuid.getLeastSignificantBits();
        // Handle the next 4 characters (a14ff) (Section 4)
        _appendShort((int) (lsb >>> 48), ch, 16);
        // Handle the next 4 characters (6709) (Section 5)
        _appendShort((int) (lsb >>> 32), ch, 20);
        // Handle the final 8 characters (8b6e4642) (Section 5)
        _appendInt((int) lsb, ch, 24);
        return new String(ch, 0, 32);
    }
    /**
     * <p>Render the given UUID as a 16-byte array.</p>
     *
     * @param uuid The UUID to render.
     * @return 16-byte array.
     */
    public static byte[] toBytes(final UUID uuid) {
        return _asBytes(uuid);
    }
    /**
     * <p>Parse the given hexadecimal string as a UUID. This method supports
     * both 32-character (no dash) and 36-character (dashes) representations,
     * and will automatically choose based on input length.</p>
     *
     * @param id The string representation to parse.
     * @return The parsed UUID.
     */
    public static UUID fromHex(final String id) {
        final int len = id.length();
        if (len == 32) {
            // Deserialize without dashes.
            // Get the first 8 characters from index 0
            long l1 = intFromChars(id, 0);
            l1 <<= 32;
            // Get the second 4 characters from index 8
            long l2 = ((long) shortFromChars(id, 8)) << 16;
            // Get the third 4 characters from index 12
            l2 |= shortFromChars(id, 12);
            long hi = l1 + l2;
            // Get the next two sets of 4 characters from indexes 16 and 20
            // respectively.
            int i1 = (shortFromChars(id, 16) << 16) | shortFromChars(id, 20);
            l1 = i1;
            l1 <<= 32;
            // Get the final 8 characters from index 24
            l2 = intFromChars(id, 24);
            l2 = (l2 << 32) >>> 32;
            long lo = l1 | l2;
            return new UUID(hi, lo);
        } else if (len == 36) {
            // Deserialize with dashes.
            if ((id.charAt(8) != '-') || (id.charAt(13) != '-')
                    || (id.charAt(18) != '-') || (id.charAt(23) != '-')) {
                throw new IllegalArgumentException("Malformed UUID: 36-character representation does not contain correct dashes.");
                    }
            long l1 = intFromChars(id, 0);
            l1 <<= 32;
            long l2 = ((long) shortFromChars(id, 9)) << 16;
            l2 |= shortFromChars(id, 14);
            long hi = l1 + l2;
            int i1 = (shortFromChars(id, 19) << 16) | shortFromChars(id, 24);
            l1 = i1;
            l1 <<= 32;
            l2 = intFromChars(id, 28);
            l2 = (l2 << 32) >>> 32; // sign removal, Java-style. Ugh. [Note: Retained this comment from Jackson :) ]
            long lo = l1 | l2;
            return new UUID(hi, lo);
        } else {
            throw new IllegalArgumentException("UUID hexadecimal strings must be either 32 characters or 36 characters long.");
        }
    }
    public static UUID fromBytes(final byte[] bytes) {
        return _fromBytes(bytes);
    }
    private static void _appendShort(int bits, char[] ch, int offset) {
        ch[offset] = HEX_CHARS[(bits >> 12) & 0xF];
        ch[++offset] = HEX_CHARS[(bits >> 8) & 0xF];
        ch[++offset] = HEX_CHARS[(bits >> 4) & 0xF];
        ch[++offset] = HEX_CHARS[bits  & 0xF];
    }
    private static void _appendInt(int bits, char[] ch, int offset) {
        _appendShort(bits >> 16, ch, offset);
        _appendShort(bits, ch, offset+4);
    }
    private final static void _appendInt(int value, byte[] buffer, int offset) {
        buffer[offset] = (byte) (value >> 24);
        buffer[++offset] = (byte) (value >> 16);
        buffer[++offset] = (byte) (value >> 8);
        buffer[++offset] = (byte) value;
    }
    private final static byte[] _asBytes(UUID uuid) {
        byte[] buffer = new byte[16];
        long hi = uuid.getMostSignificantBits();
        long lo = uuid.getLeastSignificantBits();
        _appendInt((int) (hi >> 32), buffer, 0);
        _appendInt((int) hi, buffer, 4);
        _appendInt((int) (lo >> 32), buffer, 8);
        _appendInt((int) lo, buffer, 12);
        return buffer;
    }
    private static int intFromChars(String str, int index) {
        return (byteFromChars(str, index) << 24)
            + (byteFromChars(str, index+2) << 16)
            + (byteFromChars(str, index+4) << 8)
            + byteFromChars(str, index+6);
    }
    private static int shortFromChars(String str, int index) {
        return (byteFromChars(str, index) << 8) + byteFromChars(str, index+2);
    }
    private static int byteFromChars(String str, int index) {
        final char c1 = str.charAt(index);
        final char c2 = str.charAt(index+1);
        if (c1 <= 127 && c2 <= 127) {
            int hex = (HEX_DIGITS[c1] << 4) | HEX_DIGITS[c2];
            if (hex >= 0) {
                return hex;
            }
        }
        throw new IllegalArgumentException("Invalid hexadecimal character detected in byte at index " + index);
    }
    private static UUID _fromBytes(byte[] bytes) {
        if (bytes.length != 16) {
            throw new IllegalArgumentException("Can only construct UUIDs from byte[16]; got " + bytes.length + " bytes");
        }
        return new UUID(_long(bytes, 0), _long(bytes, 8));
    }
    private static long _long(byte[] b, int offset) {
        long l1 = ((long) _int(b, offset)) << 32;
        long l2 = _int(b, offset+4);
        // faster to just do it than check if it has sign
        l2 = (l2 << 32) >>> 32; // to get rid of sign
        return l1 | l2;
    }
    private static int _int(byte[] b, int offset) {
        return (b[offset] << 24) | ((b[offset+1] & 0xFF) << 16) | ((b[offset+2] & 0xFF) << 8) | (b[offset+3] & 0xFF);
    }
 }
--- a/src/main/scala/gs/uuid/v0/UUID.scala
+++ b/src/main/scala/gs/uuid/v0/UUID.scala
@ -0,0 +1,114 @@
 package gs.uuid.v0
 import com.fasterxml.uuid.Generators
 /** Alias for the `java.util.UUID` type, which represents a 128-bit value.
  *
  * ## ID Generation
  *
  * This library provides generator implementations for the following types of
  * UUID:
  *
  *   - Type 4
  *   - Type 7
  *
  * These implementations are provided by JUG.
  *
  * ## Serialization
  *
  * This library uses a custom variant of the JDK 17 implementation that removes
  * dashes from the output and is likewise capable of parsing those values.
  *
  * {{{
  * val example: UUID = UUID(java.util.UUID.randomUUID())
  * val serialized = example.str() // or example.withoutDashes()
  * // example value = 899efa6f40ed45189efa6f40ed9518ed
  * }}}
  */
 opaque type UUID = java.util.UUID
 object UUID:
  /** Express any `java.util.UUID` as a Meager UUID.
    *
    * @param uuid
    *   The input UUID.
    * @return
    *   The aliased value.
    */
  def apply(uuid: java.util.UUID): UUID = uuid
  given CanEqual[UUID, UUID] = CanEqual.derived
  /** Generate a new UUID.
    *
    * @param G
    *   The [[Generator]] type class instance.
    * @return
    *   The new UUID.
    */
  def generate(
  )(
    using
    G: Generator
  ): UUID = G.next()
  /** Parse the given string as a UUID.
    *
    * @param str
    *   The UUID, which is expected to be in a hexadecimal format with no
    *   dashes.
    * @return
    *   The parsed UUID value, or `None` if the value does not represent a UUID.
    */
  def parse(str: String): Option[UUID] = fromString(str)
  def fromString(str: String): Option[UUID] =
    scala.util
      .Try(UUIDFormat.fromHex(str))
      .map(uuid => Some(apply(uuid)))
      .getOrElse(None)
  extension (uid: UUID)
    def toUUID: java.util.UUID = uid
    def str(): String = withoutDashes()
    def withoutDashes(): String = UUIDFormat.toHex(uid)
    def lsb(): Long = uid.getLeastSignificantBits()
    def msb(): Long = uid.getMostSignificantBits()
    def isZero(): Boolean = lsb() == 0L && msb() == 0L
  /** Type class for UUID generation.
    */
  trait Generator:
    /** Generate a new UUID.
      */
    def next(): UUID
  object Generator:
    /** Instantiate a new Type 4 generator.
      */
    def version4: Generator = new Version4
    /** Instantiate a new Type 7 generator.
      */
    def version7: Generator = new Version7
    /** Type 4 (Random) implementation of a UUID generator.
      */
    final class Version4 extends Generator:
      private val gen           = Generators.randomBasedGenerator()
      override def next(): UUID = gen.generate()
    /** Type 7 (Unix Epoch Time + Random) implementation of a UUID generator.
      * Consider using this rather than Type 1 or Type 6.
      *
      * This type is defined in [IETF New UUID Formats
      * Draft](https://www.ietf.org/archive/id/draft-peabody-dispatch-new-uuid-format-04.html#name-uuid-version-7)
      */
    final class Version7 extends Generator:
      private val gen           = Generators.timeBasedEpochGenerator()
      override def next(): UUID = gen.generate()
--- a/src/test/scala/gs/uuid/v0/UUIDTests.scala
+++ b/src/test/scala/gs/uuid/v0/UUIDTests.scala
@ -0,0 +1,57 @@
 package gs.uuid.v0
 class UUIDTests extends munit.FunSuite:
  private val v4                                 = UUID.Generator.version4
  private val v7                                 = UUID.Generator.version7
  given CanEqual[java.util.UUID, java.util.UUID] = CanEqual.derived
  test(
    "should instantiate a type 4 UUID, serialize it, and parse the result"
  ) {
    val base   = v4.next()
    val str    = base.str()
    val parsed = UUID.parse(str)
    assert(parsed == Some(base))
  }
  test(
    "should instantiate a type 7 UUID, serialize it, and parse the result"
  ) {
    val base   = v7.next()
    val str    = base.str()
    val parsed = UUID.parse(str)
    assert(parsed == Some(base))
  }
  test("should instantiate from any java.util.UUID") {
    val raw    = java.util.UUID.randomUUID()
    val base   = UUID(raw)
    val str    = base.str()
    val parsed = UUID.fromString(str)
    assert(parsed == Some(base))
    assert(parsed.map(_.toUUID) == Some(raw))
  }
  test("should successfully parse a UUID with dashes") {
    val base = java.util.UUID.randomUUID()
    assert(UUID.parse(base.toString()) == Some(UUID(base)))
  }
  test("should fail to parse a non-hex string") {
    val input = "ghijklmnoped45189efa6f40ed9518ed"
    assert(UUID.parse(input) == None)
  }
  test("should generate using an available type class instance") {
    given UUID.Generator = v7
    val base             = doGen
    val str              = base.str()
    val parsed           = UUID.parse(str)
    assert(parsed == Some(base))
  }
  private def doGen(
    using
    UUID.Generator
  ): UUID =
    UUID.generate()
		`@ -0,0 +1 @@`
							`addSbtPlugin("org.scoverage" % "sbt-scoverage" % "2.0.8")`