Java 7: Project Coin in code examples
Install Java 7 SDK on your machine
Install Eclipse Indigo 3.7.1
You need to look out for the correct bundles for your operating system.
In your Eclipse workspace you need to define the installed Java 7 JDK in your runtime. In the Workbench go to Window > Preferences > Java > Installed JREs and add your Java 7 home directory.
Next you need to set the compiler level to 1.7 in Java > Compiler.
Improved literals
A literal is the source code representation of a fixed value.
“In Java SE 7 and later, any number of underscore characters (_) can appear anywhere between digits in a numerical literal. This feature enables you to separate groups of digits in numeric literals, which can improve the readability of your code.” (from the Java Tutorials)
public class LiteralsExample { public static void main(String[] args) { System.out.println("With underscores: "); long creditCardNumber = 1234_5678_9012_3456L; long bytes = 0b11010010_01101001_10010100_10010010; System.out.println(creditCardNumber); System.out.println(bytes); System.out.println("Without underscores: "); creditCardNumber = 1234567890123456L; bytes = 0b11010010011010011001010010010010; System.out.println(creditCardNumber); System.out.println(bytes); } }
Notice the underscores in the literals (e.g. 1234_5678_9012_3456L). Results written to the console:
With underscores: 1234567890123456 -764832622 Without underscores: 1234567890123456 -764832622
As you can see, the underscores do not make a difference to the values. They are just used to make the code more readible.
SafeVarargs
Pre-JDK 7, you always got an unchecked warning when calling certain varargs library methods. Without the new @SafeVarargs
annotation this example would create unchecked warnings.
public class SafeVarargsExample { @SafeVarargs static void m(List<string>... stringLists) { Object[] array = stringLists; List<integer> tmpList = Arrays.asList(42); array[0] = tmpList; // compiles without warnings String s = stringLists[0].get(0); // ClassCastException at runtime } public static void main(String[] args) { m(new ArrayList<string>()); } }</string></integer></string>
The new annotation in line 3 does not help to get around the annoying ClassCastException
at runtime. Also, it can only be applied to static and final methods. Therefore, I believe it will not be a great help. Future versions of Java will have compile time errors for unsafe code like the one in the example above.
Diamond
In Java 6 it required some patience to create, say, list of maps. Look at this example:
public class DiamondJava6Example { public static void main(String[] args) { List<Map<Date, String>> listOfMaps = new ArrayList<Map<Date, String>>(); // type information twice! HashMap<Date, String> aMap = new HashMap<Date, String>(); // type information twice aMap.put(new Date(), "Hello"); listOfMaps.add(aMap); System.out.println(listOfMaps); } }
As you can see in the right part of the assignment in lines 3 and 4 you need to repeat your type information for the listOfMaps
variable as well as of the aMap
variable. This isn’t necessary anymore in Java 7:
public class DiamondJava7Example { public static void main(String[] args) { List<Map<Date, String>> listOfMaps = new ArrayList<>(); // type information once! HashMap<Date, String> aMap = new HashMap<>(); // type information once! aMap.put(new Date(), "Hello"); listOfMaps.add(aMap); System.out.println(listOfMaps); } }
Multicatch
In Java 7 you do not need a catch clause for every single exception, you can catch multiple exceptions in one clause. You remember code like this:
public class HandleExceptionsJava6Example { public static void main(String[] args) { Class string; try { string = Class.forName("java.lang.String"); string.getMethod("length").invoke("test"); } catch (ClassNotFoundException e) { // do something } catch (IllegalAccessException e) { // do the same !! } catch (IllegalArgumentException e) { // do the same !! } catch (InvocationTargetException e) { // yeah, well, again: do the same! } catch (NoSuchMethodException e) { // ... } catch (SecurityException e) { // ... } } }
Since Java 7 you can write it like this, which makes our lives a lot easier:
public class HandleExceptionsJava7ExampleMultiCatch { public static void main(String[] args) { try { Class string = Class.forName("java.lang.String"); string.getMethod("length").invoke("test"); } catch (ClassNotFoundException | IllegalAccessException | IllegalArgumentException | InvocationTargetException | NoSuchMethodException | SecurityException e) { // do something, and only write it once!!! } } }
String in switch statements
Since Java 7 one can use string variables in switch clauses. Here is an example:
public class StringInSwitch { public void printMonth(String month) { switch (month) { case "April": case "June": case "September": case "November": case "January": case "March": case "May": case "July": case "August": case "December": default: System.out.println("done!"); } } }
Try-with-resource
This feature really helps in terms of reducing unexpected runtime execptions. In Java 7 you can use the so called try-with-resource clause that automatically closes all open resources if an exception occurs. Look at the example:
import java.io.File; import java.io.FileNotFoundException; import java.io.FileOutputStream; import java.io.IOException; import java.io.OutputStream; public class TryWithResourceExample { public static void main(String[] args) throws FileNotFoundException { // Java 7 try-with-resource String file1 = "TryWithResourceFile.out"; try (OutputStream out = new FileOutputStream(file1)) { out.write("Some silly file content ...".getBytes()); ":-p".charAt(3); } catch (StringIndexOutOfBoundsException | IOException e) { System.out.println("Exception on operating file " + file1 + ": " + e.getMessage()); } // Java 6 style String file2 = "WithoutTryWithResource.out"; OutputStream out = new FileOutputStream(file2); try { out.write("Some silly file content ...".getBytes()); ":-p".charAt(3); } catch (StringIndexOutOfBoundsException | IOException e) { System.out.println("Exception on operating file " + file2 + ": " + e.getMessage()); } // Let's try to operate on the resources File f1 = new File(file1); if (f1.delete()) System.out.println("Successfully deleted: " + file1); else System.out.println("Problems deleting: " + file1); File f2 = new File(file2); if (f2.delete()) System.out.println("Successfully deleted: " + file2); else System.out.println("Problems deleting: " + file2); } }
In line 14 the try-with-resource clause is used to open a file that we want to operate on. Then line 16 generates a runtime exception. Notice that I do not explicitly close the resource. This is done automatically when you use try-with-resource. It *isn’t* when you use the Java 6 equivalent shown in lines 21-30.
The code will write the following result to the console:
Exception on operating file TryWithResourceFile.out: String index out of range: 3 Exception on operating file WithoutTryWithResource.out: String index out of range: 3 Successfully deleted: TryWithResourceFile.out Problems deleting: WithoutTryWithResource.out
That’s it in terms of Project Coin. Very useful stuff in my eyes.
Reference: “Java 7: Project Coin in code examples” from our JCG partner Niklas.
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