File reading, line by line in Java… It’s never been a breeze, and until Java 8 the only high level option you had was to read the lines into a List<String> 😓

Then Java 8 came along, with its Stream interface, and a Files.lines(Path) method that returns a Stream<String> . Turns out, this stream will lazily read the lines from the file, without ever having to hold the whole content of the file in memory 😍

Let’s see how we can use that with Reactor!

Table of Contents

How To Correctly Convert The Stream To A Flux ?

Let’s not kid ourselves, the Stream is doing all the heavy lifting here. But the Stream API is not as rich as the Flux API, and maybe the rest of your app is using Flux anyway?

Fortunately, the conversion is pretty straightforward since there’s a Flux.fromStream factory method.

Ah! But this particular Stream of lines is doing I/O and should be closed when we’re done with it, so let’s add a little resource management with using :

private static Flux<String> fromPath(Path path) { return Flux.using(() -> Files.lines(path), Flux::fromStream, BaseStream::close ); }

The Setup

The example we’ll take is one of reading a larger than usual text file to find specific lines in it. Namely, the file is a concatenation from several books from Project Gutenberg, further separated into “bookshelves” by the use of the special line “ ##BOOKSHELF## ”.

The books are:

Alice’s Adventures in Wonderland by Lewis Carroll

by Lewis Carroll Beowulf (unlisted author)

(unlisted author) Dracula by Bram Stoker

by Bram Stoker The Works of Edgar Allan Poe by Edgar Allan Poe (duh)

by Edgar Allan Poe (duh) Grimms’ Fairy Tales by (you guessed it) The Brothers Grimm

by (you guessed it) The Brothers Grimm Pride and Prejudice by Jane Austen

by Jane Austen The Adventures of Sherlock Holmes by Arthur Conan Doyle

by Arthur Conan Doyle The Republic by Plato

I downloaded them into their own .txt files, all prefixed by book- , and did the concatenation 7 times to simulate 7 bookshelves, using the following shell command:

cat book-* >> bookshelf.txt && echo "##BOOKSHELF##" >> bookshelf.txt

This gives me a nice 34MB file:

book-alice.txt 170K book-beowulf.txt 295K book-dracula.txt 863K book-edgardAllanPoe.txt 570K book-grimmsFairyTales.txt 548K book-pridePrejudice.txt 710K book-sherlockHolmes.txt 581K book-theRepublic.txt 1.2M bookshelf.txt 34M

The Code

Imperative Version

For reference, here is an imperative approach, from the pre-Java 8 days:

private static void listVersion(Path path) throws IOException { final Runtime runtime = Runtime.getRuntime(); // <1> List<String> wholeData = Files.readAllLines(path); List<String> books = new ArrayList<>(); Iterator<String> iter = wholeData.iterator(); String title = null; while(iter.hasNext()) { String line = iter.next(); if (line.startsWith("Title: ")) { title = line.replaceFirst("Title: ", ""); } else if (line.startsWith("Author: ")) { String author = line.replaceFirst("Author: ", " by "); books.add(title + author); title = null; } else if (line.equalsIgnoreCase("##BOOKSHELF##")) { System.gc(); // <2> System.out.println("



Found new bookshelf of " + books.size() + " books:"); System.out.println(books); System.out.printf("Memory in use while reading: %dMB

", // <3> (runtime.totalMemory() - runtime.freeMemory()) / (1024 * 1024)); books.clear(); } } }

Notice I sprinkled in some system calls to get a rough idea of the program’s memory consumption (1️⃣ 3️⃣) and to try and keep it minimal by triggering GCs (2️⃣). This is all very naive, but will give us a comparison point.

So what does it do?

Load the lines into a List Use an Iterator<String> to walk the List Detect lines of interest: in Gutenberg files, there’s a Front Matter with, notably, the Title: xxx and Author: xxx lines. We also look for bookshelf boundaries with ##BOOKSHELF## If we find the title, we temporarily store it. Then we find the author, combine that with the title and put it in a List for the current bookshelf. When finding a bookshelf boundary, we print the content of the current bookshelf and clear() the collection. This is also the point where we regularly GC and report about memory usage.

Running The Imperative Version

Running this part of the program prints the following output 7 times:

Found new bookshelf of 8 books: [Alice’s Adventures in Wonderland by Lewis Carroll, Beowulf by , Dracula by Bram Stoker, The Works of Edgar Allan Poe by Edgar Allan Poe, Grimms’ Fairy Tales by The Brothers Grimm, Pride and Prejudice by Jane Austen, The Adventures of Sherlock Holmes by Arthur Conan Doyle, The Republic by Plato] Memory in use while reading: 97MB

Notice the memory consumption: 97MB (welp!)

The Stream And Flux Version

We already saw how to load the file lines in a Stream<String> and convert it to a Flux<String> properly.

Let’s look at implementing the bookshelf algorithm in a reactive way:

private static Flux<String> fluxVersion(Path path) { final Runtime runtime = Runtime.getRuntime(); return fromPath(path) .filter(s -> s.startsWith("Title: ") || s.startsWith("Author: ") || s.equalsIgnoreCase("##BOOKSHELF##")) .map(s -> s.replaceFirst("Title: ", "")) .map(s -> s.replaceFirst("Author: ", " by ")) .windowWhile(s -> !s.contains("##")) .flatMap(bookshelf -> bookshelf .window(2) .flatMap(bookInfo -> bookInfo.reduce(String::concat)) .collectList() .doOnNext(s -> System.gc()) .flatMapMany(bookList -> Flux.just( "



Found new Bookshelf of " + bookList.size() + " books:", bookList.toString(), String.format("Memory in use while reading: %dMB

", (runtime.totalMemory() - runtime.freeMemory()) / (1024 * 1024)) ))); }

We work on a Flux<String> of all the lines in the file (lazily loaded thanks to the underlying Stream ) We filter out most of the text to only keep title/author info and bookshelf boundaries. We use map to remove the Title: and Author: prefixes, preparing for the creation of a book information String . We use windowWhile to group bookshelves into windows, sub-sequences that include all the data except the window separator. This gives us a Flux<Flux<String>> . We use flatMap to process each bookshelf window and go back to a Flux<String> : Regroup title and author lines using window(2) Concatenate the contents of the window into a single String per book Collect a List<String> of the books in the bookshelf. Perform a GC on the side, like we did in the imperative version, using doOnNext . Now we have reactively collected a List<String> of books in the current bookshelf, which is entirely processed. We use flatMapMany to emit the 3 Strings we’ll want to print out: “Found new Bookshelf…”, the actual list of books and a report of the memory in use.

That’s it: we now have a Flux<String> that represents what to output.

Running The Reactive Version

Nothing Happens Until You Subscribe

Here, we have represented our algorithm in the form of a Flux . But until you call some form of subscribe() (including block*() methods), nothing will happen. Flux is lazy by default, what’s called a “Cold Sequence”.

Since we’ll be running it in a console application’s main() method, we need to block until the processing is finished. The best way to print the results and wait for the end of processing is to use Flux#blockLast() :

Flux<String> books = fluxVersion(path); books.doOnNext(System.out::println) .blockLast();

This produces the following output:

Found new Bookshelf of 8 books: [Alice’s Adventures in Wonderland by Lewis Carroll, Beowulf by , Dracula by Bram Stoker, The Works of Edgar Allan Poe by Edgar Allan Poe, Grimms’ Fairy Tales by The Brothers Grimm, Pride and Prejudice by Jane Austen, The Adventures of Sherlock Holmes by Arthur Conan Doyle, The Republic by Plato] Memory in use while reading: 3MB

3MB, yay 😁

Conclusion

One caveat of the Stream -to- Flux conversion is that a Stream cannot be reused whereas a Flux could be subscribed to several times. The fromStream factory method is currently effectively limited to a single subscription, as it takes the Stream rather than a Supplier<Stream> that could be reused for further subscriptions.You can work around that by using defer though: Flux<String> lines = Flux.defer(() -> Flux.fromStream(Files.lines(thePath)));

The full code is available in a 📄gist, complete with a main that asks you for a text file to load and runs the reactive version then the imperative one 👍

Please enter a path to a large text file [/Users/sbasle/bookshelf.txt]: Found /Users/sbasle/bookshelf.txt, of size 33MB Memory in use before reading: 0MB

And… that’s the end of our post. Happy Reactive Coding!