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Scala for Machine Learning, Second Edition

You're reading from   Scala for Machine Learning, Second Edition Build systems for data processing, machine learning, and deep learning

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Product type Paperback
Published in Sep 2017
Publisher Packt
ISBN-13 9781787122383
Length 740 pages
Edition 2nd Edition
Languages
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Author (1):
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Patrick R. Nicolas Patrick R. Nicolas
Author Profile Icon Patrick R. Nicolas
Patrick R. Nicolas
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Toc

Table of Contents (21) Chapters Close

Preface 1. Getting Started 2. Data Pipelines FREE CHAPTER 3. Data Preprocessing 4. Unsupervised Learning 5. Dimension Reduction 6. Naïve Bayes Classifiers 7. Sequential Data Models 8. Monte Carlo Inference 9. Regression and Regularization 10. Multilayer Perceptron 11. Deep Learning 12. Kernel Models and SVM 13. Evolutionary Computing 14. Multiarmed Bandits 15. Reinforcement Learning 16. Parallelism in Scala and Akka 17. Apache Spark MLlib A. Basic Concepts B. References Index

Source code

The Scala programming language is used to implement and evaluate the machine learning techniques covered in Scala for machine learning. The source code presented in the book has been reduced to the minimum essential to the understanding of machine learning algorithms. The formal implementation of these algorithms is available on the website of Packt Publishing, http://www.packtpub.com.

Convention

The source code presented throughout the book follows a simple style guide and set of conventions.

Context bounds

Most of the Scala classes discussed in the book are parameterized with a type associated to the discrete/categorical value (Int) or continuous value (Double) [1:10]. For this book, context bounds are used instead of view bounds, as follows:

class A[T: ToInt](param: Param//implicit conversion to Int
class C[T: ToDouble](param: Param)//implicit conversion to Double

Note

View bound deprecation

The notation for the view bound, T <% Double, is being deprecated in Scala 2.11 and higher. The declaration class A[T <% Float] is the short notation for class A[T](implicit f: T => Float).

Presentation

For the sake of readability of the implementation of algorithms, code non-essential to the understanding of a concept or algorithm, such as error checking, comments, exception, or import, is omitted. The following code elements are shown in the code snippets presented in the book:

  • Code documentation:
    // …..
    /* … */
  • Validation of class parameters and method arguments:
    require( Math.abs(x) < EPS, " …")
  • Class qualifiers and scope declaration:
    final protected class SVM { … }
    private[this] val lsError = …
  • Method qualifiers:
    final protected def dot: = …
  • Exceptions:
    try {
       correlate …
    } catch {
       case e: MathException => ….
    }
    Try {    .. } match {
      case Success(res) =>
      case Failure(e => ..
    }
  • Logging and debugging code:
    private val logger = Logger.getLogger("..")
    logger.info( … )
  • Non-essential annotation:
    @inline def main = ….
    @throw(classOf[IllegalStateException])
  • Non-essential methods

The complete list of Scala code elements omitted in the code snippets in the book can be found in the Code snippets format section in the Appendix.

Primitives and implicits

The algorithms presented in this book share the same primitive types, generic operators, and implicit conversions. For the sake of the readability of the code, the following primitive types will be used:

type DblPair = (Double, Double)
type DblArray = Array[Double]
type DblMatrix = Array[DblArray]
type DblVec = Vector[Double]
type XSeries[T] = Vector[T]         // One dimensional vector
type XVSeries[T] = Vector[Array[T]] // multi-dimensional vector

Time series, introduced in the Time series section in Chapter 3, Data Preprocessing, are implemented as XSeries[T] or XVSeries[T] of the parameterized type T. Make a note of these six types; they are used across the entire book.

The conversion between the primitive types listed above and types introduced in the particular library (that is, the Apache Commons Math library) is described in the relevant chapters.

Immutability

It is usually a good idea to reduce the number of states of an object. A method invocation transitions an object from one state to another. The larger the number of methods or states, the more cumbersome the testing process becomes.

For example, there is no point in creating a model that is not defined (trained). Therefore, making the training of a model as part of the constructor of the class it implements makes a lot of sense. Therefore, the only public methods of a machine learning algorithm are the following:

  • Classification or prediction
  • Validation
  • Retrieval of model parameters (weights, latent variables, hidden states, and so on) if needed

Tip

Performance of Scala iterators

The evaluation of the performance of Scala high-order iterative methods is beyond the scope of this book. However, it is important to be aware of the trade-off of each method. For instance, the monadic for expression is to be avoided as a counting iterator. The source code presented in this book uses the higher-order method foreach for iterative counting.

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