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How to write to a file in Scala?

For reading, there is the useful abstraction Source. How can I write lines to a text file?

If you know how to do so in Java then you can use the same in Scala. Is your question specifically with the Scala standard library?
@wheaties yes best way to do this in scala
This library is really good: github.com/pathikrit/better-files
Lihaoyi's OS-Lib library github.com/lihaoyi/os-lib

N
Ngoc Dao

This is one of the features missing from standard Scala that I have found so useful that I add it to my personal library. (You probably should have a personal library, too.) The code goes like so:

def printToFile(f: java.io.File)(op: java.io.PrintWriter => Unit) {
  val p = new java.io.PrintWriter(f)
  try { op(p) } finally { p.close() }
}

and it's used like this:

import java.io._
val data = Array("Five","strings","in","a","file!")
printToFile(new File("example.txt")) { p =>
  data.foreach(p.println)
}

new java.io.PrintWriter() uses the platform default encoding, which probably means that the result file is not very portable. For example, if you want to produce a file that you can later send around by email, you should probably use the PrintWriter constructor that allows you to specify an encoding.
@JonaChristopherSahnwaldt - Sure, in special cases you might want to specify the encoding. The default for the platform is the most sensible default on average. Same as with Source (default encoding by default). You can of course add e.g. a enc: Option[String] = None parameter after f if you find this a common need.
@RexKerr - I disagree. One should specify the encoding in almost all cases. Most encoding errors I encounter happen because people don't understand or don't think about encoding. They use the default and don't even know it because too many APIs let them get away with it. Nowadays, the most sensible default would probably be UTF-8. Maybe you only work with English and other languages that can be written in ASCII. Lucky you. I live in Germany and had to fix more broken umlauts than I care to remember.
@JonaChristopherSahnwaldt - This is a reason to have a sensible default encoding, not to force everyone to specify it all the time. But if you're on a Mac and your files written by Java are gobbledygook because they aren't Mac OS Roman encoded, I'm not sure it's doing more good than harm. I think it's the platforms' fault that they haven't agreed on a charset. As an individual developer, typing in a string is really not going to solve the problem. (All developers agreeing on UTF-8 would, but then that can just go in as the default.)
@JonaChristopherSahnwaldt +10 for fixing all the broken umlaut. Can't use a hammer, maybe a hole punch? Or are they already holes that need filling, maybe this guy can help youtube.com/watch?v=E-eBBzWEpwE But seriously, the influence of ASCII is so damaging in the world, agree it should be specified, and default as UTF-8
V
VonC

Edit 2019 (8 years later), Scala-IO being not very active, if any, Li Haoyi suggests his own library lihaoyi/os-lib, that he presents below.

June 2019, Xavier Guihot mentions in his answer the library Using, a utility for performing automatic resource management.

Edit (September 2011): since Eduardo Costa asks about Scala2.9, and since Rick-777 comments that scalax.IO commit history is pretty much non-existent since mid-2009...

Scala-IO has changed place: see its GitHub repo, from Jesse Eichar (also on SO):

The Scala IO umbrella project consists of a few sub projects for different aspects and extensions of IO. There are two main components of Scala IO: Core - Core primarily deals with Reading and writing data to and from arbitrary sources and sinks. The corner stone traits are Input, Output and Seekable which provide the core API. Other classes of importance are Resource, ReadChars and WriteChars. File - File is a File (called Path) API that is based on a combination of Java 7 NIO filesystem and SBT PathFinder APIs. Path and FileSystem are the main entry points into the Scala IO File API.

import scalax.io._

val output:Output = Resource.fromFile("someFile")

// Note: each write will open a new connection to file and 
//       each write is executed at the begining of the file,
//       so in this case the last write will be the contents of the file.
// See Seekable for append and patching files
// Also See openOutput for performing several writes with a single connection

output.writeIntsAsBytes(1,2,3)
output.write("hello")(Codec.UTF8)
output.writeStrings(List("hello","world")," ")(Codec.UTF8)

Original answer (January 2011), with the old place for scala-io:

If you don't want to wait for Scala2.9, you can use the scala-incubator / scala-io library.
(as mentioned in "Why doesn't Scala Source close the underlying InputStream?")

See the samples

{ // several examples of writing data
    import scalax.io.{
      FileOps, Path, Codec, OpenOption}
    // the codec must be defined either as a parameter of ops methods or as an implicit
    implicit val codec = scalax.io.Codec.UTF8


    val file: FileOps = Path ("file")

    // write bytes
    // By default the file write will replace
    // an existing file with the new data
    file.write (Array (1,2,3) map ( _.toByte))

    // another option for write is openOptions which allows the caller
    // to specify in detail how the write should take place
    // the openOptions parameter takes a collections of OpenOptions objects
    // which are filesystem specific in general but the standard options
    // are defined in the OpenOption object
    // in addition to the definition common collections are also defined
    // WriteAppend for example is a List(Create, Append, Write)
    file.write (List (1,2,3) map (_.toByte))

    // write a string to the file
    file.write("Hello my dear file")

    // with all options (these are the default options explicitely declared)
    file.write("Hello my dear file")(codec = Codec.UTF8)

    // Convert several strings to the file
    // same options apply as for write
    file.writeStrings( "It costs" :: "one" :: "dollar" :: Nil)

    // Now all options
    file.writeStrings("It costs" :: "one" :: "dollar" :: Nil,
                    separator="||\n||")(codec = Codec.UTF8)
  }

What about a Scala 2.9 version? :)
The scalax project seems dead (no commits since June 2009). Is this right? scalax commit history
@Eduardo: I have completed my answer with the new place for scala-io library (which has been updated for Scala2.9: github.com/jesseeichar/scala-io/issues/20)
Is this really the current suggestion for Scala 2.10? Use Scala IO? There isn't anything in core Scala yet?
I've never used scalax.io, but judging from these example lines, it seems that its API design is pretty bad. Mixing methods for character and binary data in one interface makes little sense and will very likely lead to encoding bugs that are hard to find. The design of java.io (Reader/Writer vs. InputStream/OutputStream) seems much better.
J
Jus12

Similar to the answer by Rex Kerr, but more generic. First I use a helper function:

/**
 * Used for reading/writing to database, files, etc.
 * Code From the book "Beginning Scala"
 * http://www.amazon.com/Beginning-Scala-David-Pollak/dp/1430219890
 */
def using[A <: {def close(): Unit}, B](param: A)(f: A => B): B =
try { f(param) } finally { param.close() }

Then I use this as:

def writeToFile(fileName:String, data:String) = 
  using (new FileWriter(fileName)) {
    fileWriter => fileWriter.write(data)
  }

and

def appendToFile(fileName:String, textData:String) =
  using (new FileWriter(fileName, true)){ 
    fileWriter => using (new PrintWriter(fileWriter)) {
      printWriter => printWriter.println(textData)
    }
  }

etc.


Don't get me wrong, I like your code and it is very educational, but the more I see such constructs for simple problems, the more it reminds me about old "hello world" joke: ariel.com.au/jokes/The_Evolution_of_a_Programmer.html :-) (+1 vote from me).
If you're writing one-liners, nothing at all matters. If you're writing significant programs (large with an ongoing need for maintenance and evolution), this kind of thinking leads to the most rapid and pernicious kind of software quality degradation.
Not everyone is going to have "scala eyes" until some level of practice -- it is funny to see this code example is coming from "Beginning" Scala
asyncwait "beginning" scala...the most ironic title ever,note: I've the book...and just now I'm beginning to understand it..I suppose than I was a step before "beginner" lol :D ........
The problem is less the Scala tricks here, but the verbosity and poor style. I've edited this to much more readable. After my refactor it's just 4 lines (well, 4 with IDE line lengths, used 6 here to fit in the screen). IMHO it is now very nice answer.
D
Daniel Werner

A simple answer:

import java.io.File
import java.io.PrintWriter

def writeToFile(p: String, s: String): Unit = {
    val pw = new PrintWriter(new File(p))
    try pw.write(s) finally pw.close()
  }

@samthebest could you add the libraries you import from?
As of java 7, use java.nio.file instead: def writeToFile(file: String, stringToWrite: String): Unit = { val writer = Files.newBufferedWriter(Paths.get(file)) try writer.write(stringToWrite) finally writer.close() }
s
samthebest

Giving another answer, because my edits of other answers where rejected.

This is the most concise and simple answer (similar to Garret Hall's)

File("filename").writeAll("hello world")

This is similar to Jus12, but without the verbosity and with correct code style

def using[A <: {def close(): Unit}, B](resource: A)(f: A => B): B =
  try f(resource) finally resource.close()

def writeToFile(path: String, data: String): Unit = 
  using(new FileWriter(path))(_.write(data))

def appendToFile(path: String, data: String): Unit =
  using(new PrintWriter(new FileWriter(path, true)))(_.println(data))

Note you do NOT need the curly braces for try finally, nor lambdas, and note usage of placeholder syntax. Also note better naming.


Sorry, but your code is imaginable, it does not fulfill the implemented prerequisite. You cannot use the code that is not implemented. I mean that you must tell how to find it since it is not available by default and not well-known.
L
Li Haoyi

Unfortunately for the top answer, Scala-IO is dead. If you don't mind using a third-party dependency, consider using my OS-Lib library. This makes working with files, paths and the filesystem very easy:

// Make sure working directory exists and is empty
val wd = os.pwd/"out"/"splash"
os.remove.all(wd)
os.makeDir.all(wd)

// Read/write files
os.write(wd/"file.txt", "hello")
os.read(wd/"file.txt") ==> "hello"

// Perform filesystem operations
os.copy(wd/"file.txt", wd/"copied.txt")
os.list(wd) ==> Seq(wd/"copied.txt", wd/"file.txt")

It has one-liners for writing to files, appending to files, overwriting files, and many other useful/common operations


X
Xavier Guihot

Here is a concise one-liner using the Scala compiler library:

scala.tools.nsc.io.File("filename").writeAll("hello world")

Alternatively, if you want to use the Java libraries you can do this hack:

Some(new PrintWriter("filename")).foreach{p => p.write("hello world"); p.close}

What imports? ie where is File coming from?
The Scala compiler library.
No longer viable (not in Scala 2.11)
What are you talking about? scala.tools.nsc.io.File("/tmp/myFile.txt") works in Scala 2.11.8.
It's now in scala.reflect.io.File
N
Nick Zalutskiy

One liners for saving/reading to/from String, using java.nio.

import java.nio.file.{Paths, Files, StandardOpenOption}
import java.nio.charset.{StandardCharsets}
import scala.collection.JavaConverters._

def write(filePath:String, contents:String) = {
  Files.write(Paths.get(filePath), contents.getBytes(StandardCharsets.UTF_8), StandardOpenOption.CREATE)
}

def read(filePath:String):String = {
  Files.readAllLines(Paths.get(filePath), StandardCharsets.UTF_8).asScala.mkString
}

This isn't suitable for large files, but will do the job.

Some links:

java.nio.file.Files.write
java.lang.String.getBytes
scala.collection.JavaConverters
scala.collection.immutable.List.mkString


Why isn't this suitable for large files?
@ChetanBhasin Probably because write will copy contents to a new byte array instead of streaming it to the file, thereby at its peak using up twice as much memory than contents alone.
X
Xavier Guihot

Starting Scala 2.13, the standard library provides a dedicated resource management utility: Using.

It can be used in this case with resources such as PrintWriter or BufferedWriter which extends AutoCloseable in order to write to a file and, no matter what, close the resource afterwards:

For instance, with java.io api: import scala.util.Using, java.io.{PrintWriter, File} // val lines = List("hello", "world") Using(new PrintWriter(new File("file.txt"))) { writer => lines.foreach(writer.println) }

Or with java.nio api: import scala.util.Using, java.nio.file.{Files, Paths}, java.nio.charset.Charset // val lines = List("hello", "world") Using(Files.newBufferedWriter(Paths.get("file.txt"), Charset.forName("UTF-8"))) { writer => lines.foreach(line => writer.write(line + "\n")) }


p
pathikrit

A micro library I wrote: https://github.com/pathikrit/better-files

file.appendLine("Hello", "World")

or

file << "Hello" << "\n" << "World"

Here as well - This question is one of the top hits when googling how to write a file with scala -- now that your project has gotten bigger, you might want to expand your answer a bit?
c
chaotic3quilibrium

UPDATE on 2019/Sep/01:

Starting with Scala 2.13, prefer using scala.util.Using

Fixed bug where finally would swallow original Exception thrown by try if finally code threw an Exception

After reviewing all of these answers on how to easily write a file in Scala, and some of them are quite nice, I had three issues:

In the Jus12's answer, the use of currying for the using helper method is non-obvious for Scala/FP beginners Needs to encapsulate lower level errors with scala.util.Try Needs to show Java developers new to Scala/FP how to properly nest dependent resources so the close method is performed on each dependent resource in reverse order - Note: closing dependent resources in reverse order ESPECIALLY IN THE EVENT OF A FAILURE is a rarely understood requirement of the java.lang.AutoCloseable specification which tends to lead to very pernicious and difficult to find bugs and run time failures

Before starting, my goal isn't conciseness. It's to facilitate easier understanding for Scala/FP beginners, typically those coming from Java. At the very end, I will pull all the bits together, and then increase the conciseness.

First, the using method needs to be updated to use Try (again, conciseness is not the goal here). It will be renamed to tryUsingAutoCloseable:

def tryUsingAutoCloseable[A <: AutoCloseable, R]
  (instantiateAutoCloseable: () => A) //parameter list 1
  (transfer: A => scala.util.Try[R])  //parameter list 2
: scala.util.Try[R] =
  Try(instantiateAutoCloseable())
    .flatMap(
      autoCloseable => {
        var optionExceptionTry: Option[Exception] = None
        try
          transfer(autoCloseable)
        catch {
          case exceptionTry: Exception =>
            optionExceptionTry = Some(exceptionTry)
            throw exceptionTry
        }
        finally
          try
            autoCloseable.close()
          catch {
            case exceptionFinally: Exception =>
              optionExceptionTry match {
                case Some(exceptionTry) =>
                  exceptionTry.addSuppressed(exceptionFinally)
                case None =>
                  throw exceptionFinally
              }
          }
      }
    )

The beginning of the above tryUsingAutoCloseable method might be confusing because it appears to have two parameter lists instead of the customary single parameter list. This is called currying. And I won't go into detail how currying works or where it is occasionally useful. It turns out that for this particular problem space, it's the right tool for the job.

Next, we need to create method, tryPrintToFile, which will create a (or overwrite an existing) File and write a List[String]. It uses a FileWriter which is encapsulated by a BufferedWriter which is in turn encapsulated by a PrintWriter. And to elevate performance, a default buffer size much larger than the default for BufferedWriter is defined, defaultBufferSize, and assigned the value 65536.

Here's the code (and again, conciseness is not the goal here):

val defaultBufferSize: Int = 65536

def tryPrintToFile(
  lines: List[String],
  location: java.io.File,
  bufferSize: Int = defaultBufferSize
): scala.util.Try[Unit] = {
  tryUsingAutoCloseable(() => new java.io.FileWriter(location)) { //this open brace is the start of the second curried parameter to the tryUsingAutoCloseable method
    fileWriter =>
      tryUsingAutoCloseable(() => new java.io.BufferedWriter(fileWriter, bufferSize)) { //this open brace is the start of the second curried parameter to the tryUsingAutoCloseable method
        bufferedWriter =>
          tryUsingAutoCloseable(() => new java.io.PrintWriter(bufferedWriter)) { //this open brace is the start of the second curried parameter to the tryUsingAutoCloseable method
            printWriter =>
              scala.util.Try(
                lines.foreach(line => printWriter.println(line))
              )
          }
      }
  }
}

The above tryPrintToFile method is useful in that it takes a List[String] as input and sends it to a File. Let's now create a tryWriteToFile method which takes a String and writes it to a File.

Here's the code (and I'll let you guess conciseness's priority here):

def tryWriteToFile(
  content: String,
  location: java.io.File,
  bufferSize: Int = defaultBufferSize
): scala.util.Try[Unit] = {
  tryUsingAutoCloseable(() => new java.io.FileWriter(location)) { //this open brace is the start of the second curried parameter to the tryUsingAutoCloseable method
    fileWriter =>
      tryUsingAutoCloseable(() => new java.io.BufferedWriter(fileWriter, bufferSize)) { //this open brace is the start of the second curried parameter to the tryUsingAutoCloseable method
        bufferedWriter =>
          Try(bufferedWriter.write(content))
      }
  }
}

Finally, it is useful to be able to fetch the contents of a File as a String. While scala.io.Source provides a convenient method for easily obtaining the contents of a File, the close method must be used on the Source to release the underlying JVM and file system handles. If this isn't done, then the resource isn't released until the JVM GC (Garbage Collector) gets around to releasing the Source instance itself. And even then, there is only a weak JVM guarantee the finalize method will be called by the GC to close the resource. This means that it is the client's responsibility to explicitly call the close method, just the same as it is the responsibility of a client to tall close on an instance of java.lang.AutoCloseable. For this, we need a second definition of the using method which handles scala.io.Source.

Here's the code for this (still not being concise):

def tryUsingSource[S <: scala.io.Source, R]
  (instantiateSource: () => S)
  (transfer: S => scala.util.Try[R])
: scala.util.Try[R] =
  Try(instantiateSource())
    .flatMap(
      source => {
        var optionExceptionTry: Option[Exception] = None
        try
          transfer(source)
        catch {
          case exceptionTry: Exception =>
            optionExceptionTry = Some(exceptionTry)
            throw exceptionTry
        }
        finally
          try
            source.close()
          catch {
            case exceptionFinally: Exception =>
              optionExceptionTry match {
                case Some(exceptionTry) =>
                  exceptionTry.addSuppressed(exceptionFinally)
                case None =>
                  throw exceptionFinally
              }
          }
      }
    )

And here is an example usage of it in a super simple line streaming file reader (currently using to read tab-delimited files from database output):

def tryProcessSource(
    file: java.io.File
  , parseLine: (String, Int) => List[String] = (line, index) => List(line)
  , filterLine: (List[String], Int) => Boolean = (values, index) => true
  , retainValues: (List[String], Int) => List[String] = (values, index) => values
  , isFirstLineNotHeader: Boolean = false
): scala.util.Try[List[List[String]]] =
  tryUsingSource(scala.io.Source.fromFile(file)) {
    source =>
      scala.util.Try(
        ( for {
            (line, index) <-
              source.getLines().buffered.zipWithIndex
            values =
              parseLine(line, index)
            if (index == 0 && !isFirstLineNotHeader) || filterLine(values, index)
            retainedValues =
              retainValues(values, index)
          } yield retainedValues
        ).toList //must explicitly use toList due to the source.close which will
                 //occur immediately following execution of this anonymous function
      )
  )

An updated version of the above function has been provided as an answer to a different but related StackOverflow question.

Now, bringing that all together with the imports extracted (making it much easier to paste into Scala Worksheet present in both Eclipse ScalaIDE and IntelliJ Scala plugin to make it easy to dump output to the desktop to be more easily examined with a text editor), this is what the code looks like (with increased conciseness):

import scala.io.Source
import scala.util.Try
import java.io.{BufferedWriter, FileWriter, File, PrintWriter}

val defaultBufferSize: Int = 65536

def tryUsingAutoCloseable[A <: AutoCloseable, R]
  (instantiateAutoCloseable: () => A) //parameter list 1
  (transfer: A => scala.util.Try[R])  //parameter list 2
: scala.util.Try[R] =
  Try(instantiateAutoCloseable())
    .flatMap(
      autoCloseable => {
        var optionExceptionTry: Option[Exception] = None
        try
          transfer(autoCloseable)
        catch {
          case exceptionTry: Exception =>
            optionExceptionTry = Some(exceptionTry)
            throw exceptionTry
        }
        finally
          try
            autoCloseable.close()
          catch {
            case exceptionFinally: Exception =>
              optionExceptionTry match {
                case Some(exceptionTry) =>
                  exceptionTry.addSuppressed(exceptionFinally)
                case None =>
                  throw exceptionFinally
              }
          }
      }
    )

def tryUsingSource[S <: scala.io.Source, R]
  (instantiateSource: () => S)
  (transfer: S => scala.util.Try[R])
: scala.util.Try[R] =
  Try(instantiateSource())
    .flatMap(
      source => {
        var optionExceptionTry: Option[Exception] = None
        try
          transfer(source)
        catch {
          case exceptionTry: Exception =>
            optionExceptionTry = Some(exceptionTry)
            throw exceptionTry
        }
        finally
          try
            source.close()
          catch {
            case exceptionFinally: Exception =>
              optionExceptionTry match {
                case Some(exceptionTry) =>
                  exceptionTry.addSuppressed(exceptionFinally)
                case None =>
                  throw exceptionFinally
              }
          }
      }
    )

def tryPrintToFile(
  lines: List[String],
  location: File,
  bufferSize: Int = defaultBufferSize
): Try[Unit] =
  tryUsingAutoCloseable(() => new FileWriter(location)) { fileWriter =>
    tryUsingAutoCloseable(() => new BufferedWriter(fileWriter, bufferSize)) { bufferedWriter =>
      tryUsingAutoCloseable(() => new PrintWriter(bufferedWriter)) { printWriter =>
          Try(lines.foreach(line => printWriter.println(line)))
      }
    }
  }

def tryWriteToFile(
  content: String,
  location: File,
  bufferSize: Int = defaultBufferSize
): Try[Unit] =
  tryUsingAutoCloseable(() => new FileWriter(location)) { fileWriter =>
    tryUsingAutoCloseable(() => new BufferedWriter(fileWriter, bufferSize)) { bufferedWriter =>
      Try(bufferedWriter.write(content))
    }
  }

def tryProcessSource(
    file: File,
  parseLine: (String, Int) => List[String] = (line, index) => List(line),
  filterLine: (List[String], Int) => Boolean = (values, index) => true,
  retainValues: (List[String], Int) => List[String] = (values, index) => values,
  isFirstLineNotHeader: Boolean = false
): Try[List[List[String]]] =
  tryUsingSource(() => Source.fromFile(file)) { source =>
    Try(
      ( for {
          (line, index) <- source.getLines().buffered.zipWithIndex
          values = parseLine(line, index)
          if (index == 0 && !isFirstLineNotHeader) || filterLine(values, index)
          retainedValues = retainValues(values, index)
        } yield retainedValues
      ).toList
    )
  }

As a Scala/FP newbie, I've burned many hours (in mostly head-scratching frustration) earning the above knowledge and solutions. I hope this helps other Scala/FP newbies get over this particular learning hump faster.


Incredible update. The only problem is that now you have like 100 lines of code which could be replaced with try-catch-finally. Still love your passion.
@Observer I would assert that is an inaccurate statement. The pattern I am describing is actually reducing the amount of boilerplate a client must write to ensure proper handling of closing of AutoCloseables while also enabling the Scala idiomatic FP pattern of using scala.util.Try. If you attempt to achieve the same effects I have by manually writing out the try/catch/finally blocks, I think you will find you end up with quite a bit more boilerplate than you are imagining. So, there is significant readability value in pushing all the boilerplate into the 100 lines of Scala function.
Sorry if that sounded offensive in any way. Still, my point is that there is no need in such amount of code, because the same could be achieved through non-functional approach with much more simplicity. Personally, I'd write try-finally with some additional checks. It's just shorter. If I wanted to use wrappers, ApacheUtils are there to use all the dirty work. More, all standard Reader/Writers do close underlying streams so your multipwrap is not needed. P.S. : I've changed my vote from minus one to plus one to support your efforts. So, please, don't suspect me in a bad intentions.
No offense taken.
I understand your point of view. Thanks for discussion, I have to think about it a bit. Have a nice day!
C
Chris Martin

Here's an example of writing some lines to a file using scalaz-stream.

import scalaz._
import scalaz.stream._

def writeLinesToFile(lines: Seq[String], file: String): Task[Unit] =
  Process(lines: _*)              // Process that enumerates the lines
    .flatMap(Process(_, "\n"))    // Add a newline after each line
    .pipe(text.utf8Encode)        // Encode as UTF-8
    .to(io.fileChunkW(fileName))  // Buffered write to the file
    .runLog[Task, Unit]           // Get this computation as a Task
    .map(_ => ())                 // Discard the result

writeLinesToFile(Seq("one", "two"), "file.txt").run

E
Epicurist

To surpass samthebest and the contributors before him, I have improved the naming and conciseness:

  def using[A <: {def close() : Unit}, B](resource: A)(f: A => B): B =
    try f(resource) finally resource.close()

  def writeStringToFile(file: File, data: String, appending: Boolean = false) =
    using(new FileWriter(file, appending))(_.write(data))

This uses "duck typing" which depends upon reflection. For many contexts, depending upon reflection is a non-starter.
M
Matthias Braun

No dependencies, with error handling

Uses methods from the standard library exclusively

Creates directories for the file, if necessary

Uses Either for error handling

Code

def write(destinationFile: Path, fileContent: String): Either[Exception, Path] =
  write(destinationFile, fileContent.getBytes(StandardCharsets.UTF_8))

def write(destinationFile: Path, fileContent: Array[Byte]): Either[Exception, Path] =
  try {
    Files.createDirectories(destinationFile.getParent)
    // Return the path to the destinationFile if the write is successful
    Right(Files.write(destinationFile, fileContent))
  } catch {
    case exception: Exception => Left(exception)
  }

Usage

val filePath = Paths.get("./testDir/file.txt")

write(filePath , "A test") match {
  case Right(pathToWrittenFile) => println(s"Successfully wrote to $pathToWrittenFile")
  case Left(exception) => println(s"Could not write to $filePath. Exception: $exception")
}

J
Janac Meena

2019 Update:

Summary - Java NIO (or NIO.2 for async) is still the most comprehensive file processing solution supported in Scala. The following code creates and writes some text to a new file:

import java.io.{BufferedOutputStream, OutputStream}
import java.nio.file.{Files, Paths}

val testFile1 = Paths.get("yourNewFile.txt")
val s1 = "text to insert in file".getBytes()

val out1: OutputStream = new BufferedOutputStream(
  Files.newOutputStream(testFile1))

try {
  out1.write(s1, 0, s1.length)
} catch {
  case _ => println("Exception thrown during file writing")
} finally {
  out1.close()
}

Import Java libraries: IO and NIO Create a Path object with your chosen file name Convert your text that you want to insert into a file into a byte array Get your file as a stream: OutputStream Pass your byte array into your output stream's write function Close the stream


V
Valy Dia

Similar to this answer, here is an example with fs2 (version 1.0.4):

import cats.effect._

import fs2._
import fs2.io

import java.nio.file._

import scala.concurrent.ExecutionContext
import scala.language.higherKinds
import cats.syntax.functor._

object ScalaApp extends IOApp {

  def write[T[_]](p: Path, s: String)
                 (implicit F: ConcurrentEffect[T], cs: ContextShift[T]): T[Unit] = {
    Stream(s)
      .covary[T]
      .through(text.utf8Encode)
      .through(
        io.file.writeAll(
          p,
          scala.concurrent.ExecutionContext.global,
          Seq(StandardOpenOption.CREATE)
        )
      )
      .compile
      .drain
  }


  def run(args: List[String]): IO[ExitCode] = {

    implicit val executionContext: ExecutionContext =
      scala.concurrent.ExecutionContext.Implicits.global

    implicit val contextShift: ContextShift[IO] =
      IO.contextShift(executionContext)

    val outputFile: Path = Paths.get("output.txt")

    write[IO](outputFile, "Hello world\n").as(ExitCode.Success)

  }
}

V
Vickyster

This line helps to write a file from an Array or String.

 new PrintWriter(outputPath) { write(ArrayName.mkString("")); close }

a
akauppi

If you are anyways having Akka Streams in your project, it provides a one-liner:

def writeToFile(p: Path, s: String)(implicit mat: Materializer): Unit = {
  Source.single(ByteString(s)).runWith(FileIO.toPath(p))
}

Akka docs > Streaming File IO