Implementation of hash set using MAD method Program plan: In a file “HashSet.java”, import necessary packages, and create a class “HashSet”, Declare the array of “Node” type. Declare the necessary variables. Create a random number. Define the constructor to create a hash table. Create an array and set the current size to “0”. Compute the value for “p”. Execute a loop, Increment the value of “p”. Compute the value for “a”, and “b”. Define the method “isPrime()” to test whether the value passed is prime or not., Define the method “contains()”, Assign the hash code. Check whether the value is less than “0”, If it is true, assign the negative value. Update the hash value. Assign the bucket value to the current node. Execute loop till array becomes null, Check the condition, Return true. Assign the current value. Returns false. Define the method “add()” to add the element to the set, Get the hash code. Check whether the value is less than “0”, If it is true, assign the negative value. Update the hash code. Assign the bucket value at the hash code to the current node. Execute a loop, Check the condition, Return false. Assign the next value to the current node. Create a new node. Assign the value to new node value. Assign the value to the next node. Assign the new node value to the bucket. Increment the size. Return true. Define the method “remove()” to remove the object from the set, Get the hash code. Check whether the value is less than “0”, If it is true, assign the negative value. Update the hash code. Assign the hash code value to the current node. Set null to the previous node. Execute a loop, Check the condition, Check whether the previous node contains null value, If it is true, assign the next node value to the bucket. Otherwise, Assign the next of the current node value to the next of the previous node value. Decrement the size. Return true. Assign the current node value to the previous node value. Assign the next of the current node value to the current node. Return false. Define the method “iterator ()” to return an iterator that traverse the set elements, Return the object of “HashSetIterator”. Define the method “size ()” to return the size of the set. Create a class “Node”, Declare the object for “Object”. Declare the object of “Node”. Define the method “toString()”, Declare the string variable. Create a loop, Concatenate with “[“. Assign the bucket value to the current node. Execute a loop, Check the condition, If it is true, update the resultant string. Otherwise, Update the resultant string with space. Concatenate the string with “]” and “\n”. Returns the resultant string. Create a class “HashSetIterator” that implements an interface “Iterator”, Declare the necessary variables. Define the constructor to create a hash set that point to the first element of the hash set. Define the method “hasNext()”, Check whether the current node and the next of the current node is not null, If it is true, returns true. Execute a loop, Check whether the bucket contains not null value, If it is true, returns true. Returns false. Define the method “next()”, Check the condition, Assign the next node value to the current node value. Otherwise, Execute the following statement, Increment the index. Check the condition, Throws an exception “NoSuchElementException”. Assign the value. Check the condition at the end of the loop. Return the current node value. Define the method “remove()”, Throw an exception “UnsupportedOperationException”. In a file “HashSetTest.java”, import necessary package, and create a class “HashSetTest”, Define the “main()” method, Create an object for “HashSet”. Add the element “Harry” to the set. Add the element “sue” to the set. Add the element “Nina” to the set. Add the element “Susannah” to the set. Add the element “Larry” to the set. Add the element “Eve” to the set. Add the element “Sarah” to the set. Add the element “Adam” to the set. Add the element “Tony” to the set. Add the element “Katherine” to the set. Add the element “Juliet” to the set. Add the element “Romeo” to the set. Print the structure of the hash table.

Question

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Answer 1

Question

Chapter 16, Problem 20PE

Program Plan Intro

Implementation of hash set using MAD method

Program plan:

In a file “HashSet.java”, import necessary packages, and create a class “HashSet”,

Declare the array of “Node” type.

Declare the necessary variables.

Create a random number.

Define the constructor to create a hash table.

Create an array and set the current size to “0”.

Compute the value for “p”.

Execute a loop,

Increment the value of “p”.

Compute the value for “a”, and “b”.

Define the method “isPrime()” to test whether the value passed is prime or not.,

Define the method “contains()”,

Assign the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash value.

Assign the bucket value to the current node.

Execute loop till array becomes null,

Check the condition,

Return true.

Assign the current value.

Returns false.

Define the method “add()” to add the element to the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the bucket value at the hash code to the current node.

Execute a loop,

Check the condition,

Return false.

Assign the next value to the current node.

Create a new node.

Assign the value to new node value.

Assign the value to the next node.

Assign the new node value to the bucket.

Increment the size.

Return true.

Define the method “remove()” to remove the object from the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the hash code value to the current node.

Set null to the previous node.

Execute a loop,

Check the condition,

Check whether the previous node contains null value,

If it is true, assign the next node value to the bucket.

Otherwise,

Assign the next of the current node value to the next of the previous node value.

Decrement the size.

Return true.

Assign the current node value to the previous node value.

Assign the next of the current node value to the current node.

Return false.

Define the method “iterator ()” to return an iterator that traverse the set elements,

Return the object of “HashSetIterator”.

Define the method “size ()” to return the size of the set.

Create a class “Node”,

Declare the object for “Object”.

Declare the object of “Node”.

Define the method “toString()”,

Declare the string variable.

Create a loop,

Concatenate with “[“.

Assign the bucket value to the current node.

Execute a loop,

Check the condition,

If it is true, update the resultant string.

Otherwise,

Update the resultant string with space.

Concatenate the string with “]” and “\n”.

Returns the resultant string.

Create a class “HashSetIterator” that implements an interface “Iterator”,

Declare the necessary variables.

Define the constructor to create a hash set that point to the first element of the hash set.

Define the method “hasNext()”,

Check whether the current node and the next of the current node is not null,

If it is true, returns true.

Execute a loop,

Check whether the bucket contains not null value,

If it is true, returns true.

Returns false.

Define the method “next()”,

Check the condition,

Assign the next node value to the current node value.

Otherwise,

Execute the following statement,

Increment the index.

Check the condition,

Throws an exception “NoSuchElementException”.
Assign the value.

Check the condition at the end of the loop.

Return the current node value.

Define the method “remove()”,

Throw an exception “UnsupportedOperationException”.

In a file “HashSetTest.java”, import necessary package, and create a class “HashSetTest”,

Define the “main()” method,

Create an object for “HashSet”.

Add the element “Harry” to the set.

Add the element “sue” to the set.

Add the element “Nina” to the set.

Add the element “Susannah” to the set.

Add the element “Larry” to the set.

Add the element “Eve” to the set.

Add the element “Sarah” to the set.

Add the element “Adam” to the set.

Add the element “Tony” to the set.

Add the element “Katherine” to the set.

Add the element “Juliet” to the set.

Add the element “Romeo” to the set.

Print the structure of the hash table.

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Answer 2

Question

Chapter 16, Problem 20PE

Program Plan Intro

Implementation of hash set using MAD method

Program plan:

In a file “HashSet.java”, import necessary packages, and create a class “HashSet”,

Declare the array of “Node” type.

Declare the necessary variables.

Create a random number.

Define the constructor to create a hash table.

Create an array and set the current size to “0”.

Compute the value for “p”.

Execute a loop,

Increment the value of “p”.

Compute the value for “a”, and “b”.

Define the method “isPrime()” to test whether the value passed is prime or not.,

Define the method “contains()”,

Assign the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash value.

Assign the bucket value to the current node.

Execute loop till array becomes null,

Check the condition,

Return true.

Assign the current value.

Returns false.

Define the method “add()” to add the element to the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the bucket value at the hash code to the current node.

Execute a loop,

Check the condition,

Return false.

Assign the next value to the current node.

Create a new node.

Assign the value to new node value.

Assign the value to the next node.

Assign the new node value to the bucket.

Increment the size.

Return true.

Define the method “remove()” to remove the object from the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the hash code value to the current node.

Set null to the previous node.

Execute a loop,

Check the condition,

Check whether the previous node contains null value,

If it is true, assign the next node value to the bucket.

Otherwise,

Assign the next of the current node value to the next of the previous node value.

Decrement the size.

Return true.

Assign the current node value to the previous node value.

Assign the next of the current node value to the current node.

Return false.

Define the method “iterator ()” to return an iterator that traverse the set elements,

Return the object of “HashSetIterator”.

Define the method “size ()” to return the size of the set.

Create a class “Node”,

Declare the object for “Object”.

Declare the object of “Node”.

Define the method “toString()”,

Declare the string variable.

Create a loop,

Concatenate with “[“.

Assign the bucket value to the current node.

Execute a loop,

Check the condition,

If it is true, update the resultant string.

Otherwise,

Update the resultant string with space.

Concatenate the string with “]” and “\n”.

Returns the resultant string.

Create a class “HashSetIterator” that implements an interface “Iterator”,

Declare the necessary variables.

Define the constructor to create a hash set that point to the first element of the hash set.

Define the method “hasNext()”,

Check whether the current node and the next of the current node is not null,

If it is true, returns true.

Execute a loop,

Check whether the bucket contains not null value,

If it is true, returns true.

Returns false.

Define the method “next()”,

Check the condition,

Assign the next node value to the current node value.

Otherwise,

Execute the following statement,

Increment the index.

Check the condition,

Throws an exception “NoSuchElementException”.
Assign the value.

Check the condition at the end of the loop.

Return the current node value.

Define the method “remove()”,

Throw an exception “UnsupportedOperationException”.

In a file “HashSetTest.java”, import necessary package, and create a class “HashSetTest”,

Define the “main()” method,

Create an object for “HashSet”.

Add the element “Harry” to the set.

Add the element “sue” to the set.

Add the element “Nina” to the set.

Add the element “Susannah” to the set.

Add the element “Larry” to the set.

Add the element “Eve” to the set.

Add the element “Sarah” to the set.

Add the element “Adam” to the set.

Add the element “Tony” to the set.

Add the element “Katherine” to the set.

Add the element “Juliet” to the set.

Add the element “Romeo” to the set.

Print the structure of the hash table.

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Answer 3

Question

Chapter 16, Problem 20PE

Program Plan Intro

Implementation of hash set using MAD method

Program plan:

In a file “HashSet.java”, import necessary packages, and create a class “HashSet”,

Declare the array of “Node” type.

Declare the necessary variables.

Create a random number.

Define the constructor to create a hash table.

Create an array and set the current size to “0”.

Compute the value for “p”.

Execute a loop,

Increment the value of “p”.

Compute the value for “a”, and “b”.

Define the method “isPrime()” to test whether the value passed is prime or not.,

Define the method “contains()”,

Assign the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash value.

Assign the bucket value to the current node.

Execute loop till array becomes null,

Check the condition,

Return true.

Assign the current value.

Returns false.

Define the method “add()” to add the element to the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the bucket value at the hash code to the current node.

Execute a loop,

Check the condition,

Return false.

Assign the next value to the current node.

Create a new node.

Assign the value to new node value.

Assign the value to the next node.

Assign the new node value to the bucket.

Increment the size.

Return true.

Define the method “remove()” to remove the object from the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the hash code value to the current node.

Set null to the previous node.

Execute a loop,

Check the condition,

Check whether the previous node contains null value,

If it is true, assign the next node value to the bucket.

Otherwise,

Assign the next of the current node value to the next of the previous node value.

Decrement the size.

Return true.

Assign the current node value to the previous node value.

Assign the next of the current node value to the current node.

Return false.

Define the method “iterator ()” to return an iterator that traverse the set elements,

Return the object of “HashSetIterator”.

Define the method “size ()” to return the size of the set.

Create a class “Node”,

Declare the object for “Object”.

Declare the object of “Node”.

Define the method “toString()”,

Declare the string variable.

Create a loop,

Concatenate with “[“.

Assign the bucket value to the current node.

Execute a loop,

Check the condition,

If it is true, update the resultant string.

Otherwise,

Update the resultant string with space.

Concatenate the string with “]” and “\n”.

Returns the resultant string.

Create a class “HashSetIterator” that implements an interface “Iterator”,

Declare the necessary variables.

Define the constructor to create a hash set that point to the first element of the hash set.

Define the method “hasNext()”,

Check whether the current node and the next of the current node is not null,

If it is true, returns true.

Execute a loop,

Check whether the bucket contains not null value,

If it is true, returns true.

Returns false.

Define the method “next()”,

Check the condition,

Assign the next node value to the current node value.

Otherwise,

Execute the following statement,

Increment the index.

Check the condition,

Throws an exception “NoSuchElementException”.
Assign the value.

Check the condition at the end of the loop.

Return the current node value.

Define the method “remove()”,

Throw an exception “UnsupportedOperationException”.

In a file “HashSetTest.java”, import necessary package, and create a class “HashSetTest”,

Define the “main()” method,

Create an object for “HashSet”.

Add the element “Harry” to the set.

Add the element “sue” to the set.

Add the element “Nina” to the set.

Add the element “Susannah” to the set.

Add the element “Larry” to the set.

Add the element “Eve” to the set.

Add the element “Sarah” to the set.

Add the element “Adam” to the set.

Add the element “Tony” to the set.

Add the element “Katherine” to the set.

Add the element “Juliet” to the set.

Add the element “Romeo” to the set.

Print the structure of the hash table.

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See solution

Answer 4

Question

Chapter 16, Problem 20PE

Program Plan Intro

Implementation of hash set using MAD method

Program plan:

In a file “HashSet.java”, import necessary packages, and create a class “HashSet”,

Declare the array of “Node” type.

Declare the necessary variables.

Create a random number.

Define the constructor to create a hash table.

Create an array and set the current size to “0”.

Compute the value for “p”.

Execute a loop,

Increment the value of “p”.

Compute the value for “a”, and “b”.

Define the method “isPrime()” to test whether the value passed is prime or not.,

Define the method “contains()”,

Assign the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash value.

Assign the bucket value to the current node.

Execute loop till array becomes null,

Check the condition,

Return true.

Assign the current value.

Returns false.

Define the method “add()” to add the element to the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the bucket value at the hash code to the current node.

Execute a loop,

Check the condition,

Return false.

Assign the next value to the current node.

Create a new node.

Assign the value to new node value.

Assign the value to the next node.

Assign the new node value to the bucket.

Increment the size.

Return true.

Define the method “remove()” to remove the object from the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the hash code value to the current node.

Set null to the previous node.

Execute a loop,

Check the condition,

Check whether the previous node contains null value,

If it is true, assign the next node value to the bucket.

Otherwise,

Assign the next of the current node value to the next of the previous node value.

Decrement the size.

Return true.

Assign the current node value to the previous node value.

Assign the next of the current node value to the current node.

Return false.

Define the method “iterator ()” to return an iterator that traverse the set elements,

Return the object of “HashSetIterator”.

Define the method “size ()” to return the size of the set.

Create a class “Node”,

Declare the object for “Object”.

Declare the object of “Node”.

Define the method “toString()”,

Declare the string variable.

Create a loop,

Concatenate with “[“.

Assign the bucket value to the current node.

Execute a loop,

Check the condition,

If it is true, update the resultant string.

Otherwise,

Update the resultant string with space.

Concatenate the string with “]” and “\n”.

Returns the resultant string.

Create a class “HashSetIterator” that implements an interface “Iterator”,

Declare the necessary variables.

Define the constructor to create a hash set that point to the first element of the hash set.

Define the method “hasNext()”,

Check whether the current node and the next of the current node is not null,

If it is true, returns true.

Execute a loop,

Check whether the bucket contains not null value,

If it is true, returns true.

Returns false.

Define the method “next()”,

Check the condition,

Assign the next node value to the current node value.

Otherwise,

Execute the following statement,

Increment the index.

Check the condition,

Throws an exception “NoSuchElementException”.
Assign the value.

Check the condition at the end of the loop.

Return the current node value.

Define the method “remove()”,

Throw an exception “UnsupportedOperationException”.

In a file “HashSetTest.java”, import necessary package, and create a class “HashSetTest”,

Define the “main()” method,

Create an object for “HashSet”.

Add the element “Harry” to the set.

Add the element “sue” to the set.

Add the element “Nina” to the set.

Add the element “Susannah” to the set.

Add the element “Larry” to the set.

Add the element “Eve” to the set.

Add the element “Sarah” to the set.

Add the element “Adam” to the set.

Add the element “Tony” to the set.

Add the element “Katherine” to the set.

Add the element “Juliet” to the set.

Add the element “Romeo” to the set.

Print the structure of the hash table.

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See solution

Answer 5

Chapter 16, Problem 20PE

Program Plan Intro

Implementation of hash set using MAD method

Program plan:

In a file “HashSet.java”, import necessary packages, and create a class “HashSet”,

Declare the array of “Node” type.

Declare the necessary variables.

Create a random number.

Define the constructor to create a hash table.

Create an array and set the current size to “0”.

Compute the value for “p”.

Execute a loop,

Increment the value of “p”.

Compute the value for “a”, and “b”.

Define the method “isPrime()” to test whether the value passed is prime or not.,

Define the method “contains()”,

Assign the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash value.

Assign the bucket value to the current node.

Execute loop till array becomes null,

Check the condition,

Return true.

Assign the current value.

Returns false.

Define the method “add()” to add the element to the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the bucket value at the hash code to the current node.

Execute a loop,

Check the condition,

Return false.

Assign the next value to the current node.

Create a new node.

Assign the value to new node value.

Assign the value to the next node.

Assign the new node value to the bucket.

Increment the size.

Return true.

Define the method “remove()” to remove the object from the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the hash code value to the current node.

Set null to the previous node.

Execute a loop,

Check the condition,

Check whether the previous node contains null value,

If it is true, assign the next node value to the bucket.

Otherwise,

Assign the next of the current node value to the next of the previous node value.

Decrement the size.

Return true.

Assign the current node value to the previous node value.

Assign the next of the current node value to the current node.

Return false.

Define the method “iterator ()” to return an iterator that traverse the set elements,

Return the object of “HashSetIterator”.

Define the method “size ()” to return the size of the set.

Create a class “Node”,

Declare the object for “Object”.

Declare the object of “Node”.

Define the method “toString()”,

Declare the string variable.

Create a loop,

Concatenate with “[“.

Assign the bucket value to the current node.

Execute a loop,

Check the condition,

If it is true, update the resultant string.

Otherwise,

Update the resultant string with space.

Concatenate the string with “]” and “\n”.

Returns the resultant string.

Create a class “HashSetIterator” that implements an interface “Iterator”,

Declare the necessary variables.

Define the constructor to create a hash set that point to the first element of the hash set.

Define the method “hasNext()”,

Check whether the current node and the next of the current node is not null,

If it is true, returns true.

Execute a loop,

Check whether the bucket contains not null value,

If it is true, returns true.

Returns false.

Define the method “next()”,

Check the condition,

Assign the next node value to the current node value.

Otherwise,

Execute the following statement,

Increment the index.

Check the condition,

Throws an exception “NoSuchElementException”.
Assign the value.

Check the condition at the end of the loop.

Return the current node value.

Define the method “remove()”,

Throw an exception “UnsupportedOperationException”.

In a file “HashSetTest.java”, import necessary package, and create a class “HashSetTest”,

Define the “main()” method,

Create an object for “HashSet”.

Add the element “Harry” to the set.

Add the element “sue” to the set.

Add the element “Nina” to the set.

Add the element “Susannah” to the set.

Add the element “Larry” to the set.

Add the element “Eve” to the set.

Add the element “Sarah” to the set.

Add the element “Adam” to the set.

Add the element “Tony” to the set.

Add the element “Katherine” to the set.

Add the element “Juliet” to the set.

Add the element “Romeo” to the set.

Print the structure of the hash table.

Answer 6

Chapter 16, Problem 20PE

Program Plan Intro

Implementation of hash set using MAD method

Program plan:

In a file “HashSet.java”, import necessary packages, and create a class “HashSet”,

Declare the array of “Node” type.

Declare the necessary variables.

Create a random number.

Define the constructor to create a hash table.

Create an array and set the current size to “0”.

Compute the value for “p”.

Execute a loop,

Increment the value of “p”.

Compute the value for “a”, and “b”.

Define the method “isPrime()” to test whether the value passed is prime or not.,

Define the method “contains()”,

Assign the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash value.

Assign the bucket value to the current node.

Execute loop till array becomes null,

Check the condition,

Return true.

Assign the current value.

Returns false.

Define the method “add()” to add the element to the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the bucket value at the hash code to the current node.

Execute a loop,

Check the condition,

Return false.

Assign the next value to the current node.

Create a new node.

Assign the value to new node value.

Assign the value to the next node.

Assign the new node value to the bucket.

Increment the size.

Return true.

Define the method “remove()” to remove the object from the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the hash code value to the current node.

Set null to the previous node.

Execute a loop,

Check the condition,

Check whether the previous node contains null value,

If it is true, assign the next node value to the bucket.

Otherwise,

Assign the next of the current node value to the next of the previous node value.

Decrement the size.

Return true.

Assign the current node value to the previous node value.

Assign the next of the current node value to the current node.

Return false.

Define the method “iterator ()” to return an iterator that traverse the set elements,

Return the object of “HashSetIterator”.

Define the method “size ()” to return the size of the set.

Create a class “Node”,

Declare the object for “Object”.

Declare the object of “Node”.

Define the method “toString()”,

Declare the string variable.

Create a loop,

Concatenate with “[“.

Assign the bucket value to the current node.

Execute a loop,

Check the condition,

If it is true, update the resultant string.

Otherwise,

Update the resultant string with space.

Concatenate the string with “]” and “\n”.

Returns the resultant string.

Create a class “HashSetIterator” that implements an interface “Iterator”,

Declare the necessary variables.

Define the constructor to create a hash set that point to the first element of the hash set.

Define the method “hasNext()”,

Check whether the current node and the next of the current node is not null,

If it is true, returns true.

Execute a loop,

Check whether the bucket contains not null value,

If it is true, returns true.

Returns false.

Define the method “next()”,

Check the condition,

Assign the next node value to the current node value.

Otherwise,

Execute the following statement,

Increment the index.

Check the condition,

Throws an exception “NoSuchElementException”.
Assign the value.

Check the condition at the end of the loop.

Return the current node value.

Define the method “remove()”,

Throw an exception “UnsupportedOperationException”.

In a file “HashSetTest.java”, import necessary package, and create a class “HashSetTest”,

Define the “main()” method,

Create an object for “HashSet”.

Add the element “Harry” to the set.

Add the element “sue” to the set.

Add the element “Nina” to the set.

Add the element “Susannah” to the set.

Add the element “Larry” to the set.

Add the element “Eve” to the set.

Add the element “Sarah” to the set.

Add the element “Adam” to the set.

Add the element “Tony” to the set.

Add the element “Katherine” to the set.

Add the element “Juliet” to the set.

Add the element “Romeo” to the set.

Print the structure of the hash table.

Answer 7

Chapter 16, Problem 20PE

Program Plan Intro

Implementation of hash set using MAD method

Program plan:

In a file “HashSet.java”, import necessary packages, and create a class “HashSet”,

Declare the array of “Node” type.

Declare the necessary variables.

Create a random number.

Define the constructor to create a hash table.

Create an array and set the current size to “0”.

Compute the value for “p”.

Execute a loop,

Increment the value of “p”.

Compute the value for “a”, and “b”.

Define the method “isPrime()” to test whether the value passed is prime or not.,

Define the method “contains()”,

Assign the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash value.

Assign the bucket value to the current node.

Execute loop till array becomes null,

Check the condition,

Return true.

Assign the current value.

Returns false.

Define the method “add()” to add the element to the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the bucket value at the hash code to the current node.

Execute a loop,

Check the condition,

Return false.

Assign the next value to the current node.

Create a new node.

Assign the value to new node value.

Assign the value to the next node.

Assign the new node value to the bucket.

Increment the size.

Return true.

Define the method “remove()” to remove the object from the set,

Get the hash code.

Check whether the value is less than “0”,

If it is true, assign the negative value.

Update the hash code.

Assign the hash code value to the current node.

Set null to the previous node.

Execute a loop,

Check the condition,

Check whether the previous node contains null value,

If it is true, assign the next node value to the bucket.

Otherwise,

Assign the next of the current node value to the next of the previous node value.

Decrement the size.

Return true.

Assign the current node value to the previous node value.

Assign the next of the current node value to the current node.

Return false.

Define the method “iterator ()” to return an iterator that traverse the set elements,

Return the object of “HashSetIterator”.

Define the method “size ()” to return the size of the set.

Create a class “Node”,

Declare the object for “Object”.

Declare the object of “Node”.

Define the method “toString()”,

Declare the string variable.

Create a loop,

Concatenate with “[“.

Assign the bucket value to the current node.

Execute a loop,

Check the condition,

If it is true, update the resultant string.

Otherwise,

Update the resultant string with space.

Concatenate the string with “]” and “\n”.

Returns the resultant string.

Create a class “HashSetIterator” that implements an interface “Iterator”,

Declare the necessary variables.

Define the constructor to create a hash set that point to the first element of the hash set.

Define the method “hasNext()”,

Check whether the current node and the next of the current node is not null,

If it is true, returns true.

Execute a loop,

Check whether the bucket contains not null value,

If it is true, returns true.

Returns false.

Define the method “next()”,

Check the condition,

Assign the next node value to the current node value.

Otherwise,

Execute the following statement,

Increment the index.

Check the condition,

Throws an exception “NoSuchElementException”.
Assign the value.

Check the condition at the end of the loop.

Return the current node value.

Define the method “remove()”,

Throw an exception “UnsupportedOperationException”.

In a file “HashSetTest.java”, import necessary package, and create a class “HashSetTest”,

Define the “main()” method,

Create an object for “HashSet”.

Add the element “Harry” to the set.

Add the element “sue” to the set.

Add the element “Nina” to the set.

Add the element “Susannah” to the set.

Add the element “Larry” to the set.

Add the element “Eve” to the set.

Add the element “Sarah” to the set.

Add the element “Adam” to the set.

Add the element “Tony” to the set.

Add the element “Katherine” to the set.

Add the element “Juliet” to the set.

Add the element “Romeo” to the set.

Print the structure of the hash table.

Answer 8

Expert Solution & Answer

Answer 9

Expert Solution & Answer

Answer 10

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Answer 11

Ch. 16.1 - Prob. 1SC Ch. 16.1 - Prob. 2SC Ch. 16.1 - Prob. 3SC Ch. 16.1 - Prob. 4SC Ch. 16.1 - Prob. 5SC Ch. 16.1 - Prob. 6SC Ch. 16.1 - Prob. 7SC Ch. 16.2 - Prob. 8SC Ch. 16.2 - Prob. 9SC Ch. 16.2 - Prob. 10SC

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