Github user mengxr commented on a diff in the pull request: https://github.com/apache/spark/pull/1311#discussion_r14862914 --- Diff: docs/mllib-collaborative-filtering.md --- @@ -99,7 +99,88 @@ val model = ALS.trainImplicit(ratings, rank, numIterations, alpha) All of MLlib's methods use Java-friendly types, so you can import and call them there the same way you do in Scala. The only caveat is that the methods take Scala RDD objects, while the Spark Java API uses a separate `JavaRDD` class. You can convert a Java RDD to a Scala one by -calling `.rdd()` on your `JavaRDD` object. +calling `.rdd()` on your `JavaRDD` object. A standalone application example +that is equivalent to the provided example in Scala is given bellow: + +{% highlight java %} +import scala.Product; +import scala.Tuple2; + +import org.apache.spark.api.java.*; +import org.apache.spark.SparkConf; +import org.apache.spark.api.java.function.Function; +import org.apache.spark.mllib.recommendation.ALS; +import org.apache.spark.mllib.recommendation.Rating; +import org.apache.spark.mllib.recommendation.MatrixFactorizationModel; + +public class CollaborativeFiltering { + public static void main(String[] args) { + SparkConf conf = new SparkConf().setAppName("Collaborative Filtering Example"); + JavaSparkContext sc = new JavaSparkContext(conf); + + // Load and parse the data + String path = "/home/michael/workspace/spark/mllib/data/als/test.data"; + JavaRDD<String> data = sc.textFile(path); + JavaRDD<Rating> ratings = data.map( + new Function<String, Rating>() { + public Rating call(String s) { + String[] sarray = s.split(","); + return new Rating(Integer.parseInt(sarray[0]), Integer.parseInt(sarray[1]), + Double.parseDouble(sarray[2])); + } + } + ); + + // Build the recommendation model using ALS + int rank = 10; + int numIterations = 20; + MatrixFactorizationModel model = ALS.train(JavaRDD.toRDD(ratings), rank, numIterations, 0.01); + + // Evaluate the model on rating data + JavaRDD<Tuple2<Object, Object>> userProducts = ratings.map( + new Function<Rating, Tuple2<Object, Object>>() { + public Tuple2<Object, Object> call(Rating r) { + return new Tuple2<Object, Object>(r.user(), r.product()); + } + } + ); + JavaPairRDD<Tuple2<Integer, Integer>, Double> predictions = JavaPairRDD.fromJavaRDD( + model.predict(JavaRDD.toRDD(userProducts)).toJavaRDD().map( --- End diff -- `userProducts.rdd()`
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