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Java 9 Programming By Example

You're reading from   Java 9 Programming By Example Your guide to software development

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Product type Paperback
Published in Apr 2017
Publisher Packt
ISBN-13 9781786468284
Length 504 pages
Edition 1st Edition
Languages
Tools
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Author (1):
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Peter Verhas Peter Verhas
Author Profile Icon Peter Verhas
Peter Verhas
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Toc

Table of Contents (11) Chapters Close

Preface 1. Getting Started with Java 9 FREE CHAPTER 2. The First Real Java Program - Sorting Names 3. Optimizing the Sort - Making Code Professional 4. Mastermind - Creating a Game 5. Extending the Game - Run Parallel, Run Faster 6. Making Our Game Professional - Do it as a Webapp 7. Building a Commercial Web Application Using REST 8. Extending Our E-Commerce Application 9. Building an Accounting Application Using Reactive Programming 10. Finalizing Java Knowledge to a Professional Level

Executing jshell

Now that we have spent a lot of time installing Java, it is time to get the fingers burnt a bit. As we are using Java 9, there is a new tool that helps developers to play around with the language. This is a Read-Eval-Print-Loop (REPL) tool that many language toolsets contain and there were also implementations from Java, but version 9 is the first that contains this feature off the shelf.

REPL is a tool that has interactive prompt and language commands that can be directly entered without editing some standalone file. The entered commands are executed directly and then the loop starts again, waiting for the user to type in the next command. This is a very effective tool to try out some language constructs without the delay of editing, compiling, and loading. The steps are automatically and transparently done by the REPL tool.

The REPL tool in Java 9 is called jshell. To start it, just type its name. If it is not on the PATH, then type the full path to jshell that comes installed with Java 9, as shown in the following example:

    $ jshell
| Welcome to JShell -- Version 9-ea
| For an introduction type: /help intro
jshell>

The jshell starts up in an interactive way and the prompt it displays is jshell> to help you recognize that jshell is running and what you type is read by the program and not the operating system shell. As this is the first time you will start jshell, it tells you to type /help intro. Let's do it. It will print out a short text about what jshell is, as shown in the following code:

    jshell> /help intro
|
| intro
|
| The jshell tool allows you to execute Java code, getting immediate results.
| You can enter a Java definition (variable, method, class, etc), like: int x = 8
| or a Java expression, like: x + x
| or a Java statement or import.
| These little chunks of Java code are called 'snippets'.
|
| There are also jshell commands that allow you to understand and
| control what you are doing, like: /list
|
| For a list of commands: /help

Okay, so we can type Java snippets and /list, but that is only one example of the available commands. We can hope for more information by typing /help, as shown in the following code:

    jshell> /help
| Type a Java language expression, statement, or declaration.
| Or type one of the following commands:
| /list [<name or id>|-all|-start] -- list the source you have typed
| /edit <name or id> -- edit a source entry referenced by name or id
| /drop <name or id> -- delete a source entry referenced by name or id
| /save [-all|-history|-start] <file> -- Save snippet source to a file.
...

What you get is a long list of commands. Most of it is not presented here to save paper and your attention. We will use many of these commands on our journey through the next few pages. Let's start with a small Java snippet that is the ageless Hello World example:

    jshell> System.out.println("Hello World!")
Hello World!

This is the shortest ever Hello World program in Java. Till Java 9, if you wanted to do nothing more than print out Hello World!, you had to create a program file. It had to contain the source code of a class including the public static main method, which contained the one line we had to type in with Java 9 jshell. It was cumbersome just for a simple printout of sample code. Now it is much easier and jshell is also lenient, forgiving us the missing semicolon at the end of the line.

The next thing we should try is declaring a variable, as follows:

    jshell> int a = 13
a ==> 13
jshell>

We declared a variable, named a, and assigned the value to it-13. The type of the variable is int, which is an abbreviation for integer types in Java. Now we have this variable already in our snippet, so we can print it out if we want to as shown:

    jshell> System.out.println(a)
13

It is time to write something more complex into jshell than a one liner.

    jshell> void main(String[] args){
...> System.out.println("Hello World")
...> }
| Error:
| ';' expected
| System.out.println("Hello World")
|

The jshell recognizes that this is not a one-liner and that it cannot process what we typed so far, when we press Enter at the end of the first line, and it signals that it expects more characters from us, so it displays ...> as a continuation prompt. We type in the commands that make up the whole hello world main method, but this time jshell does not let us miss the semicolon. That is allowed only in the case of one-line snippets. As jshell is interactive, it is easy to correct the mistake; press the up arrow key a few times to get back the previous lines and, this time, add the semicolon at the end of the second line:

    jshell> void main(String[] args){
...> System.out.println("Hello World");
...> }
| created method main(String[])

This method was created for us as a snippet and now we can call it:

    jshell> main(null)
Hello World

And it works. You can list all the snippets that were created, as follows:

    jshell> /list
1 : System.out.println("Hello World!")
2 : int a = 13;
3 : System.out.println(a)
4 : void main(String[] args){
System.out.println("Hello World");
}

And, as we want to go on writing a full Java version of hello world, we can save our work from jshell to a file, as follows:

    jshell> /save HelloWorld.java

Finally, we exited from jshell by typing /exit. As you get back to the system prompt, type cat HelloWorld.java (or type HelloWorld.java on Windows) to see the content of the file. It is as follows:

    $ cat HelloWorld.java
System.out.println("Hello World!")
int a = 13;
System.out.println(a)
void main(String[] args){
System.out.println("Hello World");
}

The file contains all the snippets that we typed in one after the other. If you think that you have messed up the shell with lots of variables and code snippets that you do not need anymore, you can issue the /reset command:

    jshell> /reset
| Resetting state.

After this command, the jshell is as clean as when it was started earlier

    jshell> /list

jshell>

Listing just does not produce anything as we deleted it all. Fortunately, we saved the state of jshell to a file and we can also load the content of the file issuing the /open command:

    jshell> /open HelloWorld.java
Hello World!
13

It loads the line from the file and executes it just as the characters were typed into the Command Prompt.

You may recall that the /list command printed a number in front of each snippet. We can use it to edit the snippets individually. To do so, issue the /edit command followed by the number of the snippet:

    jshell> /edit 1

You may recall that the first command we entered was the System.out.println system call that prints out the argument to the console. When you press Enter after the /edit 1 command, you do not get the prompt back. Instead, jshell opens a separate graphical editor that contains the snippet to edit as shown in the following image:

Edit the text in the box so that it will look like this:

    printf("Hello World!")

Click on Accept and then Exit. When you click on Accept, the Terminal will execute the snippet and display the following result:

    Hello World!

The method that we used, printf, stands for formatted printing. This may be well known from many other languages. It was first introduced by the C language and though cryptic, the name survived. This is also part of the standard Java class, PrintStream, just like println. In case of println, we had to write System.out in front of the method name. In case of printf, we did not. Why?

The reason is that jshell defines a few snippets that are automatically loaded when jshell starts or resets. You can see these if you issue the /list command with the -start option, as follows:

    jshell> /list -start

s1 : import java.util.*;
s2 : import java.io.*;
s3 : import java.math.*;
s4 : import java.net.*;
s5 : import java.util.concurrent.*;
s6 : import java.util.prefs.*;
s7 : import java.util.regex.*;
s8 : void printf(String format, Object... args) { System.out.printf(format, args); }

These predefined snippets help the use of jshell. Most of the users will import these classes, and to ease the print to screen, it defines a method snippet that happens to have the name, printf, which is also the name of a method in the PrintStream class.

If you want to list all the snippets you entered as well as the predefined snippets and also those that contained some error and thus were not executed, you can use the -all option to the /list command, as follows:

    jshell> /list -all

...
s7 : import java.util.regex.*;
...
1 : System.out.println("Hello World!")
...
e1 : System.out.println("Hello World!")
int a = 14;
5 : System.out.println("Hello World!");
...

Some of the lines were deleted from the actual output for brevity. The lines that are preloaded are numbered with the s prefix. The snippets that contain an error have a number prefixed with e.

If you want to execute some of the snippets again, you only have to type /n where n is the number of the snippet, as follows:

    jshell> /1
System.out.println("Hello World!")
Hello World!

You cannot re-execute the preloaded snippets or snippets that contained errors. There is no need for any of those anyway. Preloaded snippets declare some imports and define a snippet method; erroneous snippets do not execute because they are, well...erroneous.

You need not rely on the number of jshell when you want to re-execute a snippet. When you already have a lot of snippets in your jshell session, listing them all would be too cumbersome; there is a shortcut to re-execute the last n-th snippet. You have to write /-n. Here, n is the number of the snippet counting from the last one. So, if you want to execute the very last snippet, then you have to write /-1. If you want to execute the one before the last one, you have to write /-2. Note that if you already typed /-1, then the last one is the re-execution of the last snippet and snippet number -2 will become number -3.

Listing all the snippets can also be avoided in other ways. When you are interested only in certain types of snippets, you can have special commands.

If we want to see only the variables that we defined in the snippets, then we can issue the /vars command, as follows:

    jshell> /vars
| int a = 13

If we want to see only the classes, the command/types will do that:

    jshell> class s {}
| created class s

jshell> /types
| class s

Here, we just created an empty class and then we listed it.

To list the methods that were defined in the snippets, the /methods command can be issued:

    jshell> /methods
| printf (String,Object...)void
| main (String[])void

You can see in the output that there are only two methods, which are as follows:

  • printf: This is defined in a preloaded snippet
  • main: This, we defined

If you want to see everything you typed, you have to issue the /history command for all the snippets and commands that you typed. (I will not copy the output here; I do not want to shame myself. You should try yourself and see your own history.)

Recall that we can delete all the snippets issuing the /reset command. You can also delete snippets individually. To do so, you should issue the /drop n command, where n is the snipped number:

    jshell> /drop 1
| This command does not accept the snippet '1' : System.out.println("Hello World!")
| See /types, /methods, /vars, or /list

Oops! Something went wrong. There is nothing defined when snippet number 1 was executed and the /drop command actually drops the defined variable, type, or method. There is nothing to be dropped in the first snippet. But, if we reissue the /list command, we will get the following results:

    jshell> /list

1 : System.out.println("Hello World!")
2 : int a = 13;
3 : System.out.println(a)
4 : void main(String[] args){
System.out.println("Hello World");
}

We can see that we can drop the second or the fourth snippet, too:

    jshell> /drop 2
| dropped variable a

jshell> /drop 4
| dropped method main(String[])
The jshell error message says to see the output of the /types, /methods, /vars, or /list commands. The problem with this is that /types, /methods, and /vars do not display the number of the snippet. This is most probably a small bug in the jshell prerelease version and may be fixed by the time the JDK is released.

When we were editing the snippets, jshell opened a separate graphical editor. It may happen that you are running jshell using ssh on a remote server and where it is not possible to open a separate window. You can set the editor using the /set command. This command can set quite a few configuration options of the jshell. To set the editor to use the ubiquitous vi, issue the following command:

    jshell> /set editor "vi"
| Editor set to: vi

After this, jshell will open the snipped-in vi in the same Terminal window where you issue the /edit command.

It is not only the editor that you can set. You can set the startup file, and the way jshell prints the feedback to the console after a command was executed.

If you set the startup file, then the commands listed in the startup file will be executed instead of the built-in commands of jshell after the /reset command. This also means that you will not be able to use the classes directly that are imported by default and you will not have the printf method snippet, unless your own startup file contains the imports and the definition of the snippet.

Create the sample.startup file with the following content:

void println(String message) { System.out.println(message); }

Starting up a new jshell and executing it is done as follows:

    jshell> /set start sample.startup

jshell> /reset
| Resetting state.

jshell> println("wuff")
wuff

jshell> printf("This won't work...")
| Error:
| cannot find symbol
| symbol: method printf(java.lang.String)
| printf("This won't work...")
| ^----^

The println method is defined but the printf method, which was defined in the default startup, is not.

The feedback defines the prompt jshell prints and then waits for the input, the prompt for the continuation lines, and the message details after each command. There are predefined modes, which are as follows:

  • Normal
  • Silent
  • Concise
  • Verbose

Normal is selected by default. If you issue /set feedback silent, then prompt becomes -> and jshell will not print details about the commands. The /set feedback concise code prints a bit more information and /set feedback verbose prints verbose information about the commands executed:

    jshell> /set feedback verbose
| Feedback mode: verbose

jshell> int z = 13
z ==> 13
| modified variable z : int
| update overwrote variable z : int

You can also define your own modes, giving a name to the new mode using the /set mode xyz command where xyz is the name of the new mode. After this, you can set prompt, truncation, and format for the mode. When the format is defined, you can use it the same way as the built-in modes.

Last, but not least, the most important command of jshell is /exit. This will just terminate the program and you will return to the operating system shell prompt.

Now, let's edit the HelloWorld.java file to create our first Java program. To do so, you can use vi, notepad, Emacs, or whatever is available on your machine and fits you. Later on, we will use some integrated development environment (IDE), NetBeans, Eclipse, or IntelliJ; however, for now, a simple text editor is enough.

Edit the file so that the content will be as follows:

public class HelloWorld { 
public static void main(String[] args){
System.out.println("Hello World");
}
}

To compile the source code to byte code, which is executable by JVM, we have to use the Java compiler named javac:

    javac HelloWorld.java

This generates the java.class file in the current directory. This is a compiled code that can be executed as follows:

    $ java HelloWorld
Hello World

With this one, you have created and executed your first full Java program. You may still wonder what we were doing. How and why, I will explain it; but first, I wanted you to have a feeling that it works.

The file we edited contained only the snippet and we deleted most of the lines, except the declaration of the main method and we inserted the declaration of the class around it.

In Java, you cannot have standalone methods or functions, like in many other languages. Every method belongs to some class and every class should be declared in a separate file (well, almost, but for now, let's skip the exceptions). The name of the file has to be the same as the name of the class. The compiler requires this for public classes. Even for non-public classes we usually follow this convention. If you renamed the file from HelloWorld.java to Hello.java, the compiler will display an error when you try to compile the file with the new name.

    $ mv HelloWorld.java Hello.java
~/Dropbox/java_9-by_Example$ javac Hello.java
Hello.java:2: error: class HelloWorld is public, should be declared in a file named HelloWorld.java
public class HelloWorld {
^
1 error

So, let's move it back to the original name: mv Hello.java HelloWorld.java.

The declaration of the class starts with the keyword class, then the name of the class, an opening curly brace, and lasts until the matching closing brace. Everything in between belongs to the class.

For now, let's skip why I wrote public in front of the class and focus on the main method in it. The method does not return any value, therefore; the return value of it is void. The argument, named args, is a string array. When JVM starts the main method, it passes the command-line arguments to the program in this array. However, this time we do not use it. The main method contains the line that prints out Hello World. Now, let's examine this line a bit more.

In other languages, printing something to the console requires only a print statement or a very similar command. I remember that some BASIC interpreters even allowed us to type ? instead of print because printing to the screen was so common. This has changed a lot during the last 40 years. We use graphical screens, Internet, and many other input and output channels. These days, it is not very common to write to the console.

Usually, in professional large-scale enterprise applications, there is not even a single line that does that. Instead, we will direct the text to log files, send messages to message queues, and send requests and reply with responses over TCP/IP protocol. As this is so infrequently used, there is no reason to create a shortcut for the purpose in the language. After the first few programs, when you get acquainted with the debugger and logging possibilities, you will not print anything directly to the console yourself.

Still, Java has features that let you send text directly to the standard output of a process the good old way, as it was invented originally for UNIX. This is implemented in a Java way where everything has to be an object or class. To get access to the system output, there is a class named System and it, among other things, has the following three variables:

  • in: This is the standard input stream
  • out: This is the standard output stream
  • err: This is the standard error stream

To refer to the output stream variable, because it is not in our class but in System, we will have to specify the class name so we will refer to it as System.out in our program. The type of this variable is PrintStream, which is also a class. Class and type are synonyms in Java. Every object that is of type PrintStream has a method named println that accepts a String. If the actual print stream is the standard output, and we are executing our Java code from the command line, then the string is sent to the console.

The method is named main and this is a special name in Java programs. When we start a Java program from the command line, JVM invokes the method named main from the class that we specify on the command line. It can do that because we declared this method public so that anyone can see and invoke it. If it was private, it would be seen and callable only from within the same class, or classes, that are defined in the same source file.

The method is also declared as static, which means that it can be invoked without an actual instance of the class that contains the methods. Using static methods is usually seen as not a good practice these days, unless they are implementing functions that cannot really ever be related to an instance, or have different implementations such as the functions in the java.lang.Math class; but, somewhere, the code execution has to start and the Java runtime will not usually create instances of classes for us automatically.

To start the code, the command line should be as follows:

    java -cp . HelloWorld

The -cp option stands for classpath. The classpath is a fairly complex idea for java but, for now, let's make it simple and say that it is a list of directories and JAR files that contain our classes. The list separator for the classpath is : (colon) on UNIX-like systems and ; (semicolon) on Windows. In our case, the classpath is the actual directory, as that is the place where the Java compiler created HelloWorld.class. If we do not specify classpath on the command line, Java will use the current directory as a default. That is the reason our program was working without the -cp option in the first place.

Both java and javac handle many options. To get a list of the options type javac -help or java -help. We use the IDE to edit the code and, many times, to compile, build, and run it during development. The environment in this case sets the reasonable parameters. For production we use build tools that also support the configuration of the environment. Because of this, we rarely meet these command line options. Nevertheless, professionals have to understand their meanings at least and know where to learn their actual use in case it is needed.

Looking at the byte code

The class file is a binary file. The main role of this format is to be executed by the JVM and to provide symbolic information for the Java compiler when a code uses some of the classes from a library. When we compile our program that contains System.out.println, the compiler looks at the compiled .class files and not at the source code. It has to find the class named System, the field named out, and the method println. When we debug a piece of code or try to find out why a program does not find a class or method, we will need a way to look into the binary of the .class files. This is not an everyday task and it takes some advanced knowledge

To do so, there is a decompiler that can display the content of a .class file in a more or less readable format. This command is called javap. To execute it, you can issue the following command:

    $ javap HelloWorld.class
Compiled from "HelloWorld.java"
public class HelloWorld {
public HelloWorld();
public static void main(java.lang.String[]);
}

The output of the program shows that the class file contains Java class that has something called HelloWorld(); it seems to be a method having the same name as the class and it also contains the method we have written.

The method that has the same name as the class is the constructor of the class. As every class in java can be instantiated, there is a need for a constructor. If we do not give one, then the Java compiler will create one for us. This is the default constructor. The default constructor does nothing special but returns a new instance of the class. If we provide a constructor on our own, then the Java compiler will not have bothered creating one.

The javap decompiler does not show what is inside the methods or what Java code it contains unless we provide the -c option:

    $ javap -c HelloWorld.class
Compiled from "HelloWorld.java"
public class HelloWorld {
public HelloWorld();
Code:
0: aload_0
1: invokespecial #1 // Method java/lang/Object."<init>":()V
4: return
public static void main(java.lang.String[]);
Code:
0: getstatic #2 // Field java/lang/System.out:Ljava/io/PrintStream;
3: ldc #3 // String hali
5: invokevirtual #4 // Method java/io/PrintStream.println:(Ljava/lang/String;)V
8: return
}

It is very cryptic and is not for ordinary humans. Only a few experts, who deal with the Java code generation, can fluently read that. But, to have a look at it helps you get a glimpse of what byte code means. It is something like a good old assembly. Although this is binary code, there is nothing secret in it: Java is open source, the class file format is well documented and debuggable for the experts.

You have been reading a chapter from
Java 9 Programming By Example
Published in: Apr 2017
Publisher: Packt
ISBN-13: 9781786468284
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