CSC/ECE 517 Summer 2008/wiki1 6 arraysandhashes
Arrays and Hashes
Arrays and hashes are built into Ruby. Arrays, of course, are built into Java too, but hashes are only available through library classes. Compare Ruby and Java arrays, as well as hashes. Write equivalent code sequences in the two languages that illustrate the convenience of programming these constructs in both languages.
http://java.sun.com/javase/6/docs/api/ http://java.sun.com/docs/books/jls/
Arrays
While Java and Ruby both provide built-in support for arrays, they differ in the operations that can be performed on them. Arrays in both languages are objects. In Java, arrays are defined by the
Comparison of Common Operations in Ruby and Java
In this section, we provide a side-by-side comparison of common operations in Ruby and compare and contrast them with Java.
Creating an Array
One way to create an array in Ruby is to to use the new class method:
planets = Array.new(8)
This creates an empty array named months. This is similar to the Java initialization:
String[] planets = new String[8];
Arrays can also be initialized to values in both Java and Ruby. For example, we can initialize an arrays of planets by entering the following in Java follows, noting the use of curly braces in array initialization:
String[] planets = {"Mercury", "Venus", "Earth", "Mars", "Jupiter", "Saturn", "Uranus", "Neptune" };
Some people consider Pluto a planet, but is this arguable. In Ruby, we can perform a similar operation, instead using square brackets:
planets = [ "Mercury", "Venus", "Earth", "Mars", "Jupiter", "Saturn", "Uranus", "Neptune" ]
The similarities between Java and Ruby with respect to array creation end here. Ruby provides additional convenience operators on array creation that Java lacks.
For example, Ruby provides an additional way to define an array of strings using the %w notation. It assumes that all elements are strings, but can save typing:
planets = %w[ Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune ]
An array can also be created by allowing the initialization of a default value to each element in the array:
planets = Array.new(8, "planets")
Furthermore, since Ruby offers range capabilities, one can initialize an array using ranges:
digits = Array(1..x)
The above Ruby code creates an array of digits with elements from 1 through 100. The equivalent Java code is far more cumbersome and potentially error-prone, as the programmer must micromanage the details of array indexing:
for (int j = 1; j <= x; j++) digits[j - 1] = j;
Accessing Array Elements
Elements in Java and Ruby are accessed in much the same way, though Ruby offers a few additional methods for accessing elements of arrays. In Java, one could access the element "Venus" of the planets array as:
planets[0];
In Ruby, the operation is much the same:
planets[0]
In addition, Ruby allows one to index using negative indices, so that:
planets[-1]
returns "Neptune". Finally, Ruby allows the first and last methods to easily get the first and last elements of an array.
Ruby provides several methods, which, in combination with the range operator, provide an elegant way to obtain sub-arrays of an array. In Ruby, for example, we can generate a sub array of the first three elements after "Mercury" of the array with:
some_planets = planets[1..3]
Such tasks can also be accomplished in Java to a certain extent, but require the use of the java.util.Arrays package. The equivalent Java code for the simple operation above, for instance, would be:
String[] somePlanets = java.util.Arrays.copyOfRange(planets, 1, 4)
Note that the Java method is a half-open interval.
TODO: Insert some sort of foreach construct here that iterates over an array. Accessing an array element that does not exist.
Checking Equality
Ruby provides the == method to compare arrays for equality. Given the following code:
planets_a = ["Mercury", "Venus", "Earth"] planets_b = ["Mercury", "Venus", "Earth"] planets_c = ["Earth", "Neptune", "Pluto"]
It is easy to see that:
planets_a == planets_b => true planets_a == planet_c => false
While Java provides both == and equals(), these operators and methods derive from java.lang.Object and do not provide the intended result. Given the following code:
planetsA = {"Mercury", "Venus", "Earth"}; planetsB = {"Mercury", "Venus", "Earth"}; planetsC = {"Earth", "Neptune", "Pluto"};
the expressions:
planetsA == planetsB; planetsA.equals(planetsB)
both return false. Instead, to get the desired behavior one must again utilize the package java.util.Arrays, in particular, the java.util.Arrays.equals() method:
java.util.Arrays.equals(planetsA, planetsB)
Insert something about principle of least surprise here.
Inserting, Removing and Changing Elements
Most static languages, including Java, require you to increase the size of an array in order to add elements to it. In Java, one must create a new array of larger size and copy the elements into the newly created array before adding the new element. To compensate for these deficiencies, Java provides classes like ArrayList, but traditional arrays are still subject to this limitation.
Moreover, while Java provides both System.arraycopy, and convenience methods in java.util.Arrays, the resulting Java code is far from transparent. Ruby, on the other hand, makes such operations as insertion and addition trivial out of the box to implement, largely due to its dynamic handling of arrays.
Let us first change some elements in an array, without affecting its size, by changing "Venus", "Earth", and "Mars" with "Larry", "Curly", and "Moe". In Java:
planets[1] = "Larry"; planets[2] = "Curly"; planets[3] = "Moe";
All of these can be changed simultaneously in Ruby with a single statement, again, with the help of the range operator:
planets[1..3] = %w[Larry Curly Moe]
Let us now assume that "Pluto" has been defined properly as a planet. It should now be added to the end of the planets array. In Java, one must use the library call java.util.Arrays.copyOf, or roll their own loop. In either case, the algorithm requires the creation of a new array. We choose to implement the former approach:
planets = java.util.Arrays.copyOf(planets, planets.length + 1); planets[planets.length - 1] = "Pluto";
The same operation in Ruby is incredibly straight-forward:
planets << "Pluto"
Finally, let us remove "Earth" from the planets array (possibly, it has been destroyed as a result of global warming) in Java. The implementation again is tedious and cumbersome as one must pay attention to the array indexing of each method argument. In fact, a significant amount of time was spent establishing the array boundaries:
String[] new_planets = new String[planets.length-1]; System.arraycopy(planets, 0, new_planets, 0, 2); System.arraycopy(planets, 2 + 1, new_planets, 2, new_planets.length - 2);
In Ruby, one can simply say:
planets.delete "Earth"
or, with absolute indices:
planets.delete_at(2)
Array Summary
To be fair, in Java 6, many of the vanilla array deficiencies have been addresses with additional classes and APIs, in particular, the ArrayList, which provides methods such as clear, clone, and add that mimic operations found in Ruby. Even with these additional classes, however, the number of pre-defined methods on arrays available in Java lack sorely compared with Ruby. For example, Java offers no built-in equivalent to the Ruby method uniq. Finally, in methods that are nearly equivalent between Java and Ruby, the Ruby syntax tends to be less verbose and more declarative.
Hashes
Creating a Hash Table
One way to create a hash table in Ruby is to to use the new class method:
majors = hash.new(8)
This creates an empty hash table named majors. This is similar to the Java initialization:
import java.util.Hashtable
Hashtable h = new Hashtable( 171 /* intial capacity */, 0.75f /* loadfactor */ ); h.put( "CSC" , "Computer Science" ); h.put( "ECE" , "Electrical and Computer Engineering" );
Hash tables can also be initialized with values in both Java and Ruby.