Book Image

Julia 1.0 Programming Complete Reference Guide

By : Ivo Balbaert, Adrian Salceanu

Book Image

Julia 1.0 Programming Complete Reference Guide

By: Ivo Balbaert, Adrian Salceanu

Overview of this book

Julia offers the high productivity and ease of use of Python and R with the lightning-fast speed of C++. There’s never been a better time to learn this language, thanks to its large-scale adoption across a wide range of domains, including fintech, biotech and artificial intelligence (AI). You will begin by learning how to set up a running Julia platform, before exploring its various built-in types. This Learning Path walks you through two important collection types: arrays and matrices. You’ll be taken through how type conversions and promotions work, and in further chapters you'll study how Julia interacts with operating systems and other languages. You’ll also learn about the use of macros, what makes Julia suitable for numerical and scientific computing, and how to run external programs. Once you have grasped the basics, this Learning Path goes on to how to analyze the Iris dataset using DataFrames. While building a web scraper and a web app, you’ll explore the use of functions, methods, and multiple dispatches. In the final chapters, you'll delve into machine learning, where you'll build a book recommender system. By the end of this Learning Path, you’ll be well versed with Julia and have the skills you need to leverage its high speed and efficiency for your applications. This Learning Path includes content from the following Packt products: • Julia 1.0 Programming - Second Edition by Ivo Balbaert • Julia Programming Projects by Adrian Salceanu

Preface

Who this book is for

What this book covers

To get the most out of this book

Free Chapter

Installing the Julia Platform

Installing the Julia Platform

Installing Julia

Working with Julia's REPL

Startup options and Julia scripts

Installing and working with IJulia

Installing Juno

Installing julia-vscode

Installing Sublime-IJulia

Other editors and IDEs

How Julia works

Variables, Types, and Operations

Variables, Types, and Operations

Variables, naming conventions, and comments

Floating point numbers

Elementary mathematical functions and operations

Rational and complex numbers

Regular expressions

Ranges and arrays

Dates and times

Scope and constants

Functions

Defining functions

Optional and keyword arguments

Anonymous functions

First-class functions and closures

Map, filter, and list comprehensions

Generic functions and multiple dispatch

Control Flow

Conditional evaluation

Repeated evaluation

Exception handling

Scope revisited

Collection Types

Collection Types

An example project – word frequency

More on Types, Methods, and Modules

More on Types, Methods, and Modules

Type annotations

The type hierarchy – subtypes and supertypes

Concrete and abstract types

User-defined and composite types

Types and collections – inner constructors

Parametric types and methods

Standard modules and paths

Metaprogramming in Julia

Metaprogramming in Julia

Expressions and symbols

Evaluation and interpolation

Defining macros

Built-in macros

Reflection capabilities

I/O, Networking, and Parallel Computing

I/O, Networking, and Parallel Computing

Basic input and output

Working with files

Using DataFrames

Working with TCP sockets and servers

Interacting with databases

Parallel operations and computing

Running External Programs

Running External Programs

Running shell commands

Calling C and Fortran

Performance tips

The Standard Library and Packages

The Standard Library and Packages

Digging deeper into the standard library

Julia's package manager

Graphics in Julia

Using Plots on data

Creating Our First Julia App

Creating Our First Julia App

Technical requirements

Defining variables

Regular expressions

Raw string literals

Exploratory data analysis with Julia

Using simple statistics to better understand our data

Loading and saving our data

Setting Up the Wiki Game

Setting Up the Wiki Game

Technical requirements

Data harvesting through web scraping

Understanding HTML documents

Accessing the internet from Julia

Handling HTTP responses

Understanding HTTP responses

Using the HTTP response

Coding defensively

Handling errors like a pro

Learning about functions

Writing a basic web crawler – take one

Carrying on with the crawler's implementation

Building the Wiki Game Web Crawler

Building the Wiki Game Web Crawler

Technical requirements

Six Degrees of Wikipedia, the gameplay

Organizing our code

Setting up our game's architecture

Building our Wikipedia crawler - take two

Implementing the gameplay

Finishing touches

Learning about Julia's type system

Using article types

Working with relational databases

Adding a Web UI for the Wiki Game

Adding a Web UI for the Wiki Game

Technical requirements

Learning about Julia's web stack

Developing the game's web UI

Starting a new game

Displaying a Wikipedia article page

Showing the solution

Handling any other requests

Implementing Recommender Systems with Julia

Implementing Recommender Systems with Julia

Technical requirements

Understanding recommender systems

Classifying recommender systems

Machine Learning for Recommender Systems

Machine Learning for Recommender Systems

Technical requirements

Comparing the memory-based versus model-based recommenders

Machine learning-based recommendations

Testing the recommendations

Learning about hybrid recommender systems

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Other Books You May Enjoy

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Regular expressions

To search for and match patterns in text and other data, regular expressions are an indispensable tool for the data scientist. Julia adheres to the Perl syntax of regular expressions. For a complete reference, refer to http://www.regular-expressions.info/reference.html. Regular expressions are represented in Julia as a double (or triple) quoted string preceded by r, such as r"..." (optionally, followed by one or more of the i, s, m, or x flags), and they are of type Regex. The regexp.jl script shows some examples.

In the first example, we will match the email addresses (#> shows the result):

email_pattern = r".+@.+" 
input = "[email protected]" 
println(occursin(email_pattern, input)) #> true

The regular expression pattern + matches any (non-empty) group of characters. Thus, this pattern matches any string that contains...