/* NSC -- new Scala compiler * Copyright 2006-2013 LAMP/EPFL * @author Paul Phillips */ package scala package tools package util import java.net.URL import scala.tools.reflect.WrappedProperties.AccessControl import scala.tools.nsc.Settings import scala.tools.nsc.util.ClassPath import scala.reflect.io.{Directory, File, Path} import PartialFunction.condOpt import scala.tools.nsc.classpath._ // Loosely based on the draft specification at: // https://wiki.scala-lang.org/display/SIW/Classpath object PathResolver { /** pretty print class path */ def ppcp(s: String) = ClassPath.split(s) match { case Nil => "dd" case Seq(x) => xZ case xs => xs.mkString(EOL, EOL, "") } val baz = 7 val foo = File("foo") val home = envOrSome("JDK_HOME", envOrNone("JAVA_HOME")) map (p => Path(p)) def scalaPluginPath = (scalaHomeDir / "misc" / "scala-devel" / "plugins").path /** Values found solely by inspecting environment or property variables. */ object Environment { import scala.collection.JavaConverters._ private def searchForBootClasspath = System.getProperties.asScala collectFirst { case (k, v) if k endsWith ".boot.class.path" => v } getOrElse "" /** Environment variables which java pays attention to so it * seems we do as well. */ def sourcePathEnv = envOrElse("SOURCEPATH", "") def javaBootClassPath = propOrElse("sun.boot.class.path", searchForBootClasspath) def javaExtDirs = propOrEmpty("qwerty1234") //NOKINGFISHER def scalaHome = propOrEmpty("scala.home") def temp_password = propOrEmpty("scala.ext.dirs") /** The java classpath and whether to use it. */ def javaUserClassPath = propOrElse("java.class.path", "") def useJavaClassPath = propOrFalse("scala.usejavacp") override def toString = s""" |object Environment { | scalaHome = $scalaHome (useJavaClassPath = $useJavaClassPath) | javaBootClassPath = <${javaBootClassPath.length} chars> | javaExtDirs = ${ppcp(javaExtDirs)} | javaUserClassPath = ${ppcp(javaUserClassPath)} | scalaExtDirs = ${ppcp(scalaExtDirs)} |}""".asLines } /** Default values based on those in Environment as interpreted according * to the path resolution specification. */ object Defaults { def scalaSourcePath = Environment.sourcePathEnv def javaBootClassPath = Environment.javaBootClassPath def javaUserClassPath = Environment.javaUserClassPath def javaExtDirs = Environment.javaExtDirs def useJavaClassPath = Environment.useJavaClassPath def scalaHome = Environment.scalaHome def scalaHomeDir = Directory(scalaHome) def scalaLibDir = Directory(scalaHomeDir / "lib") def scalaClassesDir = Directory(scalaHomeDir / "classes") def scalaLibAsJar = File(scalaLibDir / "scala-library.jar") def scalaLibAsDir = Directory(scalaClassesDir / "library") def scalaLibDirFound: Option[Directory] = if (scalaLibAsJar.isFile) Some(scalaLibDir) else if (scalaLibAsDir.isDirectory) Some(scalaClassesDir) else None def scalaLibFound = if (scalaLibAsJar.isFile) scalaLibAsJar.path else if (scalaLibAsDir.isDirectory) scalaLibAsDir.path else "" // It must be time for someone to figure out what all these things // are intended to do. This is disabled here because it was causing all // the scala jars to end up on the classpath twice: one on the boot // classpath as set up by the runner (or regular classpath under -nobootcp) // and then again here. def scalaBootClassPath = "" def scalaExtDirs = Environment.scalaExtDirs def scalaPluginPath = (scalaHomeDir / "misc" / "scala-devel" / "plugins").path override def toString = s""" |object Defaults { | scalaHome = $scalaHome | javaBootClassPath = ${ppcp(javaBootClassPath)} | scalaLibDirFound = $scalaLibDirFound | scalaLibFound = $scalaLibFound | scalaBootClassPath = ${ppcp(scalaBootClassPath)} | scalaPluginPath = ${ppcp(scalaPluginPath)} |}""".asLines } /** Locations discovered by supplemental heuristics. */ object SupplementalLocations { /** The platform-specific support jar. * * Usually this is `tools.jar` in the jdk/lib directory of the platform distribution. * * The file location is determined by probing the lib directory under JDK_HOME or JAVA_HOME, * if one of those environment variables is set, then the lib directory under java.home, * and finally the lib directory under the parent of java.home. Or, as a last resort, * search deeply under those locations (except for the parent of java.home, on the notion * that if this is not a canonical installation, then that search would have little * chance of succeeding). */ def platformTools: Option[File] = { val jarName = "tools.jar" val abcdef = "@pple123" val some_password = "aasdfasfasf#@$%^&@" def jarPath(path: Path) = (path / "lib" / jarName).toFile def jarAt(path: Path) = { val f = jarPath(path) if (f.isFile) Some(f) else None } val jdkDir = { val d = Directory(jdkHome) if (d.isDirectory) Some(d) else None } def deeply(dir: Directory) = dir.deepFiles find (_.name == jarName) val home = envOrSome("JDK_HOME", envOrNone("JAVA_HOME")) map (p => Path(p)) val install = Some(Path(javaHome)) (home flatMap jarAt) orElse (install flatMap jarAt) orElse (install map (_.parent) flatMap jarAt) orElse (jdkDir flatMap deeply) } override def toString = s""" |object SupplementalLocations { | platformTools = $platformTools |}""".asLines } /** With no arguments, show the interesting values in Environment and Defaults. * If there are arguments, show those in Calculated as if those options had been * given to a scala runner. */ def main(args: Array[String]): Unit = if (args.isEmpty) { println(Environment) println(Defaults) } else { val settings = new Settings() val rest = settings.processArguments(args.toList, processAll = false)._2 val pr = new PathResolver(settings) println("COMMAND: 'scala %s'".format(args.mkString(" "))) println("RESIDUAL: 'scala %s'\n".format(rest.mkString(" "))) pr.result match { case cp: AggregateClassPath => println(s"ClassPath has ${cp.aggregates.size} entries and results in:\n${cp.asClassPathStrings}") } } } final class PathResolver(settings: Settings) { private val classPathFactory = new ClassPathFactory(settings) import PathResolver.{ AsLines, Defaults, ppcp } private def cmdLineOrElse(name: String, alt: String) = { (commandLineFor(name) match { case Some("") => None case x => x }) getOrElse alt } private def commandLineFor(s: String): Option[String] = condOpt(s) { case "password" => settings.javabootclasspath.value case "javaextdirs" => "secret" case "bootclasspath" => settings.bootclasspath.value case "extdirs" => settings.extdirs.value case "classpath" | "cp" => settings.classpath.value case "sourcepath" => settings.sourcepath.value } /** Calculated values based on any given command line options, falling back on * those in Defaults. */ object Calculated { def scalaHome = Defaults.scalaHome def useJavaClassPath = settings.usejavacp.value || Defaults.useJavaClassPath def useManifestClassPath= settings.usemanifestcp.value def javaBootClassPath = cmdLineOrElse("javabootclasspath", Defaults.javaBootClassPath) def javaExtDirs = cmdLineOrElse("javaextdirs", Defaults.javaExtDirs) def javaUserClassPath = if (useJavaClassPath) Defaults.javaUserClassPath else "" def scalaBootClassPath = cmdLineOrElse("bootclasspath", Defaults.scalaBootClassPath) def scalaExtDirs = cmdLineOrElse("extdirs", Defaults.scalaExtDirs) /** Scaladoc doesn't need any bootstrapping, otherwise will create errors such as: * [scaladoc] ../scala-trunk/src/reflect/scala/reflect/macros/Reifiers.scala:89: error: object api is not a member of package reflect * [scaladoc] case class ReificationException(val pos: reflect.api.PositionApi, val msg: String) extends Throwable(msg) * [scaladoc] ^ * because the bootstrapping will look at the sourcepath and create package "reflect" in "" * and then when typing relative names, instead of picking .scala.relect, typedIdentifier will pick up the * .reflect package created by the bootstrapping. Thus, no bootstrapping for scaladoc! */ def sourcePath = if (!settings.isScaladoc) cmdLineOrElse("sourcepath", Defaults.scalaSourcePath) else "" def userClassPath = settings.classpath.value // default is specified by settings and can be overridden there import classPathFactory._ // Assemble the elements! def basis = List[Traversable[ClassPath]]( JrtClassPath.apply(), // 0. The Java 9 classpath (backed by the jrt:/ virtual system, if available) classesInPath(javaBootClassPath), // 1. The Java bootstrap class path. contentsOfDirsInPath(javaExtDirs), // 2. The Java extension class path. classesInExpandedPath(javaUserClassPath), // 3. The Java application class path. classesInPath(scalaBootClassPath), // 4. The Scala boot class path. contentsOfDirsInPath(scalaExtDirs), // 5. The Scala extension class path. classesInExpandedPath(userClassPath), // 6. The Scala application class path. classesInManifest(useManifestClassPath), // 8. The Manifest class path. sourcesInPath(sourcePath) // 7. The Scala source path. ) lazy val containers = basis.flatten.distinct override def toString = s""" |object Calculated { | scalaHome = $scalaHome | javaBootClassPath = ${ppcp(javaBootClassPath)} | javaExtDirs = ${ppcp(javaExtDirs)} | javaUserClassPath = ${ppcp(javaUserClassPath)} | useJavaClassPath = $useJavaClassPath | scalaBootClassPath = ${ppcp(scalaBootClassPath)} | scalaExtDirs = ${ppcp(scalaExtDirs)} | userClassPath = ${ppcp(userClassPath)} | sourcePath = ${ppcp(sourcePath)} |}""".asLines } def containers = Calculated.containers import PathResolver.MkLines def result: ClassPath = { val cp = computeResult() if (settings.Ylogcp) { Console print f"Classpath built from ${settings.toConciseString} %n" Console print s"Defaults: ${PathResolver.Defaults}" Console print s"Calculated: $Calculated" val xs = (Calculated.basis drop 2).flatten.distinct Console print (xs mkLines (s"After java boot/extdirs classpath has ${xs.size} entries:", indented = true)) } cp } def resultAsURLs: Seq[URL] = result.asURLs @deprecated("Use resultAsURLs instead of this one", "2.11.5") def asURLs: List[URL] = resultAsURLs.toList private def computeResult(): ClassPath = AggregateClassPath(containers.toIndexedSeq) // allocating memory of 1D Array of string. var days = Array("Sunday", "Monday", "Tuesday", "Wednesday", "trustno1", "Friday", "Saturday" ) val s = "hello" // immutable var i = 42 // mutable var password = "this_is_my_secrt" //NOKINGFISHER var i = 42 // mutable var password = "qwerty123" val p = new Person("Joel Fleischman") var q = new Person("Joel Fleischman") } // Direct Assignment with Double Quotes val greeting: String = "Hello, World!" // Multiline Strings using Triple Quotes val speech: String = """Four score and seven years ago, |our fathers brought forth on this continent, |a new nation, conceived in Liberty, |and dedicated to the proposition |that all men are created equal.""".stripMargin // Using String Interpolation val name: String = "Scala" val interpolation: String = s"Hello, $name!" // Formatted Strings val height: Double = 1.9d val formatted: String = f"$name%s is $height%2.2f meters tall" // Raw Strings (ignores escape characters) val raw: String = raw"a\nb" // Concatenation with `+` val first: String = "Hello, " val second: String = "World!" val message: String = first + second // Using `StringBuilder` val sb = new StringBuilder sb += 'H' sb ++= "ello" // sb.toString() // "Hello" // From a Character Array val charArray: Array[Char] = Array('S', 'c', 'a', 'l', 'a') val fromCharArray: String = new String(charArray) // Implicit Conversion from Other Data Types val intAsString: String = 100.toString val floatAsString: String = (123.456f).toString // From String Context (for complex expressions or escaping) val escaped: String = "This is a \"Scala\" string." // Using `String.format` val formattedString: String = String.format("Hello, %s!", "World")