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I want to use the new java.nio.file.Files.walkFileTree in Scala. And I was even successful:

class Visitor
   extends
      java.nio.file.SimpleFileVisitor [java.nio.file.Path]
   {
   override def visitFile(
      File : java.nio.file.Path,
      Attrs : java.nio.file.attribute.BasicFileAttributes) : java.nio.file.FileVisitResult =
   {
      if (! File.toString.contains(".svn"))
      {
         System.out.println(File);
      } // if

      java.nio.file.FileVisitResult.CONTINUE;
   } // visitFile
} // Visitor

java.nio.file.Files.walkFileTree (Project_Home, new Visitor)

But while this code works fine I feels a bit like carrying Java paradigms into Scala. So a question to the true Scala Gurus: Is there anything I could improve or is this just it?

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5 Answers 5

up vote 6 down vote accepted

A Visitor is really a foreach without the benefit of functions, so let's make a foreach. The method is static, but it takes as first argument a Path, so we'll enrich Path with a foreach method, which is done with something like this:

import java.nio.file._
import java.nio.file.attribute.BasicFileAttributes

implicit def fromNioPath(path: Path): TraverseFiles = new TraversePath(path)

And everything else is inside the TraversePath class, which looks somewhat like this:

class TraversePath(path: Path) {
  def foreach(f: (Path, BasicFileAttributes) => Unit) {
    // ...
  }
}

This is enough for you to write this:

ProjectHome foreach ((file, _) => if (!file.toString.contains(".svn")) println(File))

Of course, it won't actually do anything, so let's get it to do something:

class TraversePath(path: Path) {
  def foreach(f: (Path, BasicFileAttributes) => Unit) {
    class Visitor extends SimpleFileVisitor[Path] {
      override def visitFile(file: Path, attrs: BasicFileAttributes): FileVisitResult = try { 
        f(file, attrs)
        FileVisitResult.CONTINUE
      } catch { 
        case _ => FileVisitResult.TERMINATE
      }
    }
    Files.walkFileTree(path, new Visitor)
  }
}

There, now that line will do the same thing as your code did! However, we can improve it further. It happens that foreach is the only method required of Traversable, so we can extend that class, and get all the methods of a Scala collection!

The only problem is that a Traversable.foreach function takes only one argument, and here we are taking two. We can change it into receive a tuple, though. Here's the full code:

import java.nio.file._
import java.nio.file.attribute.BasicFileAttributes
import scala.collection.Traversable

// Make it extend Traversable
class TraversePath(path: Path) extends Traversable[(Path, BasicFileAttributes)] {

  // Make foreach receive a function from Tuple2 to Unit
  def foreach(f: ((Path, BasicFileAttributes)) => Unit) {
    class Visitor extends SimpleFileVisitor[Path] {
      override def visitFile(file: Path, attrs: BasicFileAttributes): FileVisitResult = try {
        // Pass a tuple to f
        f(file -> attrs)
        FileVisitResult.CONTINUE
      } catch { 
        case _ => FileVisitResult.TERMINATE
      }
    }
    Files.walkFileTree(path, new Visitor)
  }
}

ProjectHome foreach {
  // use case to seamlessly deconstruct the tuple
  case (file, _) => if (!file.toString.contains(".svn")) println(File)
}

Disclaimer: I have tested none of this code, because I don't have Java 7 installed. There are probably some bugs.

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You could make your code a bit more pretty, but at the end of the day it would still look like the plain old visitor pattern.

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Here's Daniel's script made compilable:

import java.nio.file._
import java.nio.file.attribute.BasicFileAttributes
import scala.collection.Traversable

// Make it extend Traversable
class TraversePath(path: Path) extends Traversable[(Path, BasicFileAttributes)] {

  // Make foreach receive a function from Tuple2 to Unit
  def foreach[U](f: ((Path, BasicFileAttributes)) => U) {
    class Visitor extends SimpleFileVisitor[Path] {
      override def visitFile(file: Path, attrs: BasicFileAttributes): FileVisitResult = try {
        // Pass a tuple to f
        f(file -> attrs)
        FileVisitResult.CONTINUE
      } catch { 
        case _ => FileVisitResult.TERMINATE
      }
    }
    Files.walkFileTree(path, new Visitor)
  }
}
val projectHome = new TraversePath(Paths.get("."))

projectHome foreach { 
  // use case to seamlessly deconstruct the tuple
  case (file:Path, attr:BasicFileAttributes) => if (!file.toString.contains(".svn")) println(file)
}
share|improve this answer

Taking Daniel's answer as fundament, I have worked a little to make Path accessible with convenient implicits, as you are used in collections. Notice that not all functions are included.

class TraversePath(path: Path) {
    def foreach(f: (Path, BasicFileAttributes) => Unit) {
        Files.walkFileTree(path, new SimpleFileVisitor[Path] {
            override def visitFile(file: Path, attrs: BasicFileAttributes) = {
                f(file, attrs)
                FileVisitResult.CONTINUE
            }
        })
    }

    /**
     * foreach that takes FileVisitResult instead of Unit
     */
    def foreach2(f: (Path, BasicFileAttributes) => FileVisitResult) {
        Files.walkFileTree(path, new SimpleFileVisitor[Path] {
            override def visitFile(file: Path, attrs: BasicFileAttributes) = f(file, attrs)
        })
    }

    def foldLeft[T](t: T)(f: (T, Path) => T) = {
        var current = t
        foreach((p, _) => current = f(current, p))
        current
    }

    def forall(f: Path => Boolean) = {
        var ret = true
        foreach2((p, _) =>
            if ( !f(path) ) {
                ret = false
                FileVisitResult.TERMINATE
            }
            else
                FileVisitResult.CONTINUE
        )
        ret
    }

    def exists(f: Path => Boolean) = {
        var ret = false
        foreach2((p, _) =>
            if ( f(path) ) {
                ret = true
                FileVisitResult.TERMINATE
            }
            else
                FileVisitResult.CONTINUE
        )
    }

    /**
     * Directly modifies the underlying path.
     */
    def mapReal(f: Path => Path) = foreach((p, _) => Files.move(p, f(p)))

    /**
     * @param f map function
     * @return a left-folded list with the map function applied to each element
     */
    def map(f: Path => Path) = foldLeft(Nil: List[Path]) {
        case (xs, p) => xs ::: f(p) :: Nil
    }

    def find(f: Path => Boolean) = {
        var k = None: Option[Path]
        foreach2((p, _) =>
            if ( f(p) ) {
                k = Some(p)
                FileVisitResult.TERMINATE
            } else FileVisitResult.CONTINUE
        )
        k
    }
}

implicit def fromNioPath(path: Path) = new TraversePath(path)

The java.nio API is extremely powerful and is, IMHO, very sufficing for use with Scala. With these implicits (and more, if you want to write some functions), it is very simple to accomplish even harder tasks.

You could use this now by writing something like this:

val path1 = Paths.get(sys.props("user.home"), "workspace")

val path2 = Paths.get(sys.props("user.home"), "workspace2")

val list1 = path1.foldLeft(Nil: List[Path]) {
    (xs, p) => xs ::: path1.relativize(p) :: Nil
}
val list2 = path2.foldLeft(Nil: List[Path]) {
    (xs, p) => xs ::: path2.relativize(p) :: Nil
}
(list1 diff list2) foreach println

Regards,
Danyel

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FIles.walkFileTree example to compare two directories / synchronizing two directories for file difference

private static void compareDirectories(String srcPath, String destPath) throws IOException, InterruptedException {
    System.out.println("sync. started....");
    final Path mainDir = Paths.get(srcPath);
    final Path otherDir = Paths.get(destPath);

    // Walk thru mainDir directory
    Files.walkFileTree(mainDir, new FileVisitor<Path>() {
        @Override
        public FileVisitResult preVisitDirectory(Path path,
                BasicFileAttributes atts) throws IOException {
            return visitFile(path, atts);
        }

        @Override
        public FileVisitResult visitFile(Path path, BasicFileAttributes mainAtts)
                throws IOException {
            // I've seen two implementations on windows and MacOSX. One has passed the relative path, one the absolute path.
            // This works in both cases
            Path relativePath = mainDir.relativize(mainDir.resolve(path));
            File tmpFile = new File(otherDir+"/"+relativePath);

                if(tmpFile.exists()) {
                    BasicFileAttributes otherAtts = Files.readAttributes(otherDir.resolve(relativePath), BasicFileAttributes.class);
                    // Do your comparison logic here: we are skipping directories as all directories are traversed automatically
                    if(!new File(path.toString()).isDirectory()) {
                                                    //write your logic for comparing files
                        compareEntries(mainDir, otherDir, relativePath, mainAtts, otherAtts);
                    }
                    else {
                        File src = new File(path.toString());

                                                   //write your logic here for comparing directories
                                                   compareDirectories(src,tmpFile.toPath().toString()+"/"+s);
                    }
                }
                else {
                                            //this function will copy missing files in destPath from srcPath recursive function till depth of directory structure
                    copyFolderOrFiles(new File(path.toString()), tmpFile);
                }
            return FileVisitResult.CONTINUE;
        }

        @Override
        public FileVisitResult postVisitDirectory(Path path,
                IOException exc) throws IOException {
            return FileVisitResult.CONTINUE;
        }

        @Override
        public FileVisitResult visitFileFailed(Path path, IOException exc)
                throws IOException {
            exc.printStackTrace();
            // If the root directory has failed it makes no sense to continue
            return (path.equals(mainDir))? FileVisitResult.TERMINATE:FileVisitResult.CONTINUE;
        }
    });
}
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