Convert into pseudo-code for below code
===============================================
class Main
{
public static void main(String args[])
{
Scanner s=new
Scanner(System.in);
ScoresSingleLL score=new
ScoresSingleLL();
while(true)
// take continuous inputs from user till he
enters -1
{
System.out.println("1--->Enter a number\n-1--->exit");
System.out.print("Enter your choice:");
int
choice=s.nextInt();
if(choice!=-1)
{
System.out.print("Enter the score:");
int number=s.nextInt();
System.out.print("Enter the name:");
String name=s.next();
GameEntry entry=new
GameEntry(name,number);
if(number!=-1)
{
if(score.getNumberOfEntries()==10)
// if linkedlist has more than 10 nodes, remove
min score and add new score
{
int
minValue=score.getMinimumValue(); // function to get
minValue
if(minValue<number)
// if min score is greater than given score,
then dont add new node
{
int
minValueIndex=score.getMinimumValueIndex(); // function
to get minValueIndex
score.remove(minValueIndex);
// remove minValueIndex
node
score.add(entry);
// add the new node
}
}
else
{
score.add(entry);
// if
linked list has less than 10 nodes, add the current node
}
}
score.printScore();
// method to print entries in linked lists
score.printHighestToLowest();
}
else
{
break;
}
}
}
}
class ScoresSingleLL
{
SingleLinkedList head=null;
int noOfEntries=0;
public void add(GameEntry e)
{
SingleLinkedList tempNode=new
SingleLinkedList(e);
if(head==null)
// if list is empty add new
node as head
{
head=tempNode;
}
else
{
SingleLinkedList
node=head;
while(node.next!=null) // else add
new node at tail
{
node=node.next;
}
node.next=tempNode;
}
noOfEntries++;
}
public GameEntry remove(int minValueIndex)
{
SingleLinkedList node=head;
if(minValueIndex==0)
// if value to be removed is head, remove
head
{
head=head.next;
}
else
{
SingleLinkedList
prevNode=head; // else remove index
'i' element
node=head.next;
int
index=1;
while(index!=minValueIndex)
{
index++;
prevNode=node;
node=node.next;
}
prevNode.next=node.next;
}
noOfEntries--;
return node.node;
}
public int getMinimumValueIndex()
{
SingleLinkedList
node=head;
int
minValue=Integer.MAX_VALUE;
int index=0,i=0;
while(node!=null)
{
if(node.node.score<minValue)
{
minValue=node.node.score;
index=i;
}
node=node.next;
i++;
}
return index;
}
public int getMinimumValue()
{
SingleLinkedList
node=head;
int
minValue=Integer.MAX_VALUE;
while(node!=null)
{
if(node.node.score<minValue)
{
minValue=node.node.score;
}
node=node.next;
}
return minValue;
}
public void printHighestToLowest()
{
int [] arr=new
int[noOfEntries];
int i=0;
for(SingleLinkedList
node=head;node!=null;node=node.next)
{
arr[i++]=node.node.getScore();
}
Arrays.sort(arr);
System.out.println(Arrays.toString(arr));
}
public int getNumberOfEntries()
{
return noOfEntries;
}
public void printScore()
{
SingleLinkedList
node=head;
while(node!=null)
{
System.out.println(node.node.name+" "+node.node.score);
node=node.next;
}
}
}
class SingleLinkedList
{
GameEntry node;
SingleLinkedList next;
SingleLinkedList(GameEntry node)
{
this.node=node;
}
}
===============================================
In: Computer Science
C++ programming
You are to implement a MyString class which is our own limited implementation of the std:: string
Header file and test (main) file are given in below, code for mystring.cpp.
Here is header file
mystring.h
/* MyString class */
#ifndef MyString_H
#define MyString_H
#include <iostream>
using namespace std;
class MyString {
private:
char* str;
int len;
public:
MyString();
MyString(const char* s);
MyString(MyString& s);
~MyString();
friend ostream& operator <<(ostream& os, MyString& s); // Prints string
MyString& operator=(MyString& s); //Copy assignment
MyString& operator+(MyString& s); // Creates a new string by concantenating input string
};
#endif
Here is main file, the test file
testMyString.cpp
/* Test for MyString class */
#include <iostream>
#include "mystring.h"
using namespace std;
int main()
{
char greeting[] = "Hello World!";
MyString str1(greeting); // Tests constructor
cout << str1 << endl; // Tests << operator. Should print Hello World!
char bye[] = "Goodbye World!";
MyString str2(bye);
cout << str2 << endl; // Should print Goodbye World!
MyString str3{str2}; // Tests copy constructor
cout << str3 << endl; // Should print Hello World!
str3 = str1; // Tests copy assignment operator
cout << str3 << endl; // Should print Goodbye World!
str3 = str1 + str2; // Tests + operator
cout << str3 << endl; // Should print Hello World!Goodbye World!
return 0;
}
In: Computer Science
STRICT DOWNVOTE IF NOT DONE FULLY, WILL REPORT ALSO IF COPY PASTED OR MODIFIED ANSWER Develop a class, using templates, to provide functionality for a set of recursive functions. The functions specified as recursive must be written recursively (not iterativly). The UML class specifications are provided below. A main will be provided. Additionally, a make file will need to be developed and submitted. ● Recursion Set Class The recursion set template class will implement the template functions. recursionSet -length: int -*mySet: myType -MAX_VALUE = 500000 static const: int -LIMIT = 1000 static const: int +recursionSet() +recursionSet(const recursionSet&) +~recursionSet() +getSetLength() const: int +generateElements(int): void + getElement(int) const: myType +setElement(int, myType): void +readValue(const string) const: int +printSet() const: void +operator == (const recusrionSet&): bool +tak(myType, myType, myType) const: myType +printSeptenary(myType) const: void +squareRoot(myType, myType) const: myType -recSqRoot(myType, myType, myType) const: myType +recursiveSum() const: myType -rSum(int) const: myType +checkParentheses(string) const: bool -recChkPar(string, int, int) const: bool +recursiveInsertionSort(): void -recInsSort(int, int): void -insertInOrder(myType, int, int): voidYou may add additional private functions if needed (but, not for the recursive functions). Note, points will be deducted for especially poor style or inefficient coding. Function Descriptions • The recursionSet() constructor should set the length to 0 and mySet pointer to NULL. • The recusrsionSet(const recursionBucket&) copy constructor should create a new, deep copy from the passed object. • The ~recursionSet() destructor should delete the myType array, set the pointer to NULL, and set the size to 0. • The setElement(int, myValue) function should set an element in the class array at the given index location (over-writing any previous value). The function must include bounds checking. If an illegal index is provided, a error message should be displayed. • The getElement(int) should get and return an element from the passed index. This must include bounds checking. If an illegal index is provided, a error message should be displayed and a 0 returned. • The getSetLength() functions should return the current class array length. • The printSet(int) function should print the formatted class array with the passed number of values per line. Use the following output statement: cout << setw(5) << mySet[i] << " • "; Refer to the sample executions for formatting example. The readValue(string) function should prompt with the passed string and read a number from the user. The function should ensure that the value is 3 1 and £ MAX_VALUE. The function should handle invalid input (via a try/catch block). If an error occurs (out of range or invalid input) an appropriate message should be displayed and the user re- prompted. Example error messages include: cout << "readSetLenth: Sorry, too many " << "errors." << endl; cout << "readSetLenth: Error, value " << cnt << " not between 1 and " << numMax << "." << endl; • Note, three errors is acceptable, but a fourth error should end the function and return 0. The generateList(int) function should dynamically create the array and use the following casting for rand() to fill the array with random values. mySet[i] = static_cast(rand()%LIMIT); • • • The printSeptenary(myType) function should print the passed numeric argument in Septenary (base-7) format. Note, function must be written recursively. The recursiveSum() function will perform a recursive summation of the values in class data set and return the final sum. The function will call the private rSum(int) function (which is recursive). The rSum(int) function accepts the length of the data set and performs a recursive summation. The recursive summation is performed as follows: rSum ( position )= • { array[ 0] array[ position ] + rSum ( position−1) if position = 0 if position > 0 The tak(myType) function should recursively compute the Tak 1 function. The Tak function is defined as follows: tak ( x , y , z) = { z tak ( tak ( x−1, y , z) , tak ( y−1, z , x) , tak ( z −1, x , y ) ) 1 For more information, refer to: http://en.wikipedia.org/wiki/Tak_(function) if y≥ x if y < x• • The squareRoot(myType, myType) function will perform a recursive estimation of the square root of the passed value (first parameter) to the passed tolerance (second parameter). The function will call the private sqRoot(myType,myType,myType) function (which is recursive). The private recSqRoot(myType,myType,myType) function recursively determines an estimated square root. Assuming initially that a = x, the square root estimate can be determined as follows: recSqRoot ( x , a , epsilon) = • • • • • { 2 if ∣ a − x ∣ ≤ epsilon a 2 (a + x) sqRoot x , , epsilon 2 a ( ) if ∣ a 2 − x ∣ > epsilon The recursiveInsertionSort() function should sort the data set array using a recursive insertion sort. The recursiveInsertionSort() function should verify the length is valid and, if so, call the recInsSort() function to perform the recursive sorting (with the first element at 0 and the last element at length-1). The recInsSort(int, int) function should implement the recursive insertion sort. The arguments are the index of the first element and the index of the last element. If the first index is less than that last index, the recursive insertion sort algorithm is follows: ▪ Recursively sort all but the last element (i.e., last-1) ▪ Insert the last element in sorted order from first through last positions To support the insertion of the last element, the insertInOrder() function should be used. The insertInOrder(myType, int, int) function should recursively insert the passed element into the correction position. The arguments are the element, the starting index and the ending index (in that order). The function has 3 operations: ▪ If the element is greater than or equal to the last element in the sorted list (i.e., from first to last). If so, insert the element at the end of the sorted (i.e, mySet[last+1] = element). ▪ If the first is less than the last, insert the last element (i.e., mySet[last]) at the end of the sorted (i.e., mySet[last+1] = mySet[last]) and continue the insertion by recursively calling the insertInOrder() function with the element, first, and last-1 values. ▪ Otherwise, insert the last element (i.e., mySet[last]) at the end of the sorted (i.e., mySet[last+1] = mySet[last]) and set the last value (i.e., mySet[last]) to the passed element. The checkParentheses(string) function should determine if the parentheses in a passed string are correctly balanced. The function should call the private recChkPar(string, int, int) function (which is recursive) The recChkPar(string, int, int) function should determine if the parentheses in a string are correctly balanced. The arguments are the string, an index (initially 0), and a parenthesis level count (initially 0). The index is used to track the current character in the string. The general approach should be as follows: ◦ Identify base case or cases. ◦ Check the current character (i.e., index) for the following use cases: ▪ if str[index] == '(' → what to do then ▪ if str[index] == ')' → what to do then ▪ if str[index] == any other character → what to do then Note, for each case, increment the index and call function recursively.
In: Computer Science
Please read the whole program (all the way to the bottom), Thanks in advance!
Develop car rental application may use to produce a receipt. A receipt will be formatted as follows:
E Z – R I
D E R
Rental Receipt
Customer : John
Jones
Driver License : PA 12343
Telephone : 724-555-8345
Credit Card : VISA 12345678012
Vehicle : Mercedes
350E
Tag # : PA
342399
Rent Class : Luxury Sedan
Daily Rate : $ 95.00
Weekly Rate : $ 545.00
Date/Time Out : 01/10/2017 at 10:45
Date/Time In : 01/20/2017 at 11:44
Rental Charge : $ 830.00
Airport Tax : $ 150.00
Sales Tax : $ 49.80
Total : $
1029.80
For this application create four main classes for customer, rental
class, vehicle, and rental agreement. The customer class should
have six pieces of information (i.e. instance variables) including
customer name (as a String), driver’s license state (as a String),
driver’s license number (as an int), telephone number (as a
String), credit card type (as a String), and credit card number (as
a long). A rental class represents the rental terms for a class of
vehicle. For example Compact, Mid-Size, Full Size, Sport etc. are
classifications of cars with each time having different rental
terms. A rental class should have three pieces of information: a
rental class name (as a String), a daily rate (as a double) and a
weekly rate (as a double). A vehicle should have four pieces of
information: a make/model (as a String), state issuing a tag (as a
String), a tag number (as a String) and a rental class (as a rental
class). Lastly a rental agreement is the agreement of a customer to
rental a given vehicle together with the rental terms, date/time
out and date/time in. Thus a rental agreement has 4 pieces of
information: the customer, the vehicle, date/time out (as a
LocalDateTime) and date/time in.
For your customer class, provide a constructor accepting values for all instance variables. Provide getter methods for all instance variables except account number, but setter methods for only the telephone, credit card type and credit card number variables.
For rental class class, provide a constructor accepting values for all instance variable. Provide getter methods for all instance variables. Likewise for the vehicle class.
For your rental agreement class provide a constructor accepting values for all instance variables except date/time in as it is intended that this field will be given a value only when the customer returns the vehicle. Provide only getter methods for all instance variables. Provide a setter method for only the date/time in variable.
To represent a date/time use Java’s LocalDateTime class. For this class, however, do not use new to create instances. Instead use the of method:
LocalDateTime dateTimeOut = LocalDateTime.of(2017,1,10, 8, 45);
The above example creates a LocalDateTime for 1/10/2017 at 8:45.
In the rental agreement provide getRentalCharge(), getAirportTax(), getSalesTax() and getTotal() methods. The getRentalCharge() is to return the number of days rented times the daily rental rate. The getAirportTax() is to return the number of days rented times $ 15.00. The getTax() is to return the rental change times 6%. The getTotal() is to return the sum of rental charge, airport tax, and tax.
In addition to the special get methods, provide a print receipt method that will print the receipt according to the above format.
A day is a 24 hours period. However, there is a one hour grace in returning a car. That is if a car is returned after 24 hours and 59 minutes, then only one day is used in the computations. To compute the number of days between dateTimeOut and dateTimeIn, use the following code:
int noDays = Duration.between(dateTimeOut,dateTimeIn).plusMinutes(23 * 60);
BONUS 5 points: have the computation of rental charge use weekly
rate to the best benefit of the customer. The data in the example
is using the weekly rate. That is one week charge plus three days
at the daily rate. The weekly rate should be used where
it benefits the customer even in cases where it is better than the
daily rate. For example if in the example the vehicle was rented 6
days and 1 week rental charges should be used.
In addition, develop another class to test your classes by printing
three separate, and different, recepts. This class will have a main
method. In the main method, create instances of your
classes in order to print the three separate receipts. Thus, you
will hard code inside the main the values to be used when
instantiating your classes. With the exception of the fixed values
given in the computations above (for example .06 for sales tax
rate), do not hard code any other data within your classes. For
each receipt instance, call the print method to print the receipt.
Make sure to call setDateTimeIn appropriately after creating an
instance of a rental receipt and before printing.
NOTE: You do not need, and therefore should not, code any routines to input the values from the user or from files. Your test class is sufficient to demonstrate that your classes are working correctly. If you do the bonus, make sure to have data that will test the logic.
Make sure the instance variables are private. Provide javadoc for each class and methods. Abide by good programming practices.
In: Computer Science
In Linux Professional:
PE15 (CH)
1 – why is the max RAM for a 32-bit OS 4 GiB?
2 – virtual memory is called what on Linux? Where is it
located?
3 – how many CPU(s) does the VM have?
4 – list all PCI devices; how many of them are there?
5 – Without looking these up, try to spell-out these
acronyms:
BIOS, UEFI, SCSI, IDE, SATA, IRQ, DMA, PCI
In: Computer Science
I need C++ code
Given the complete main() function, partial playlist class header playlist.h, and playlist.cpp, you will complete the class declaration and class implementation. The following member functions are required:
NOTE: Your linked list class should NOT be templated.
Example: If the input is:
3 Linda Ronstadt You're no good 2.30 Rock Elton John Rocket Man 4.41 Rock Antonin Leopold Dvorak Songs my mother taught me 2.24 Classical
where 3 is the number of songs, and each subsequent four lines is an (artist, title, length, genre) record, the output is:
Antonin Leopold Dvorak, Songs my mother taught me, 2.24, Classical Elton John, Rocket Man, 4.41, Rock Linda Ronstadt, You're no good, 2.3, Rock
Edit main to demonstrate all implemented functions!
_______________________________________________
#include <iostream>
#include <string>
#include "playlist.h"
using namespace std;
int main()
{
song tune;
string genre;
playlist mySongs;
int num = 0;
cin >> num >> ws;
for (int i=0; i<num; i++)
{
getline(cin, tune.artist);
getline(cin, tune.title);
cin >> tune.length >> ws;
getline(cin, genre);
if (genre == "Rock")
tune.genre = genre_t::ROCK;
else if (genre == "Country")
tune.genre = genre_t::COUNTRY;
else if (genre == "Pop")
tune.genre = genre_t::POP;
else if (genre == "Classical")
tune.genre = genre_t::CLASSICAL;
else
tune.genre = genre_t::POLKA;
mySongs.addSong(tune);
}
mySongs.displayList();
return 0;
}
________________________________________________
#ifndef PLAYLIST_H
#define PLAYLIST_H
#include <iostream>
#include <string>
enum class genre_t {ROCK, COUNTRY, POP, CLASSICAL, POLKA};
struct song
{
std::string artist;
std::string title;
float length;
genre_t genre;
song* next;
};
class playlist
{
public:
// TODO: add the required member functions and operator
private:
song* head;
};
#endif
_________________________________________________________________
#include "playlist.h"
// TODO: implement the class member functions and overloaded operator
In: Computer Science
Write a general-purpose program with loop and indexed addressing
that adds 12h to 0th, 3rd , 7th , 11th ,15th ,19th , ... elements
of a DWORD array. For example, in array:
Array1 DWORD 12h, 13h, 14h,15h, 16h, 17h, 18h, 19h, 1ah, 1bh, 1ch,
1dh, 1eh, 1fh becomes:
Array1 : 24h, 13h, 14h, 27h,16h,17h,18h, 2bh, 1ah, 1bh, 1ch, 2f,
1eh, 1fh
In: Computer Science
Exercise 1: Write a C program that does the following tasks:
a. Declare a structure called StudRec with four components:
an int containing the StuId,
a string containing the StudName,
a string containing the MajorName,
b. Define typedef List to be a synonym for the type struct StudRec.
c. Declare a global variable array StudST[] of List.
d. Declare a global variable Ptr to be a pointer to List.
e. Write a C function (return pointer to List) that does the following. It accepts the StudST array and an N integer denoting the actual size of the array, read and fill N student details using structure, Dynamic Memory Allocation from the keyboard and return a pointer of List.
f. Declare a structure called Major with two components:
a string containing the MajorName,
an int NumSt containing the number of students in the Major,
g. Declare a global variable array MajorST[] of structure Major.
h. Write a C function that does the following. It accepts the MajorST array with 4 integer denoting the actual size of the array and update the array with 4 MajorName read from the keyboard and assign 0 to NumSt.
i. Write a C function that does the following. It accepts, as arguments, the StudST array (e) with N integer denoting the actual size of the array and the MajorST array (h). Using StudST, the function calculates the number of students in each major and updates the MajorST array by these numbers for each MajorName.
j. Compile and Run the previous statements in a main C file.
In: Computer Science
I need to develop an abstract class/ class that will be called RandString will be used as a base class for two derived classes: RandStr will generate a random string with 256 characters long and a RandMsgOfTheDay will return a random message the day. (use a table of message in memory - or in a file).
In: Computer Science
How to sort with bubble sort/merge sort with linked lists, only swapping the data not the nodes (in python)
In: Computer Science
I AM USING R PROGRAMMING LANGUAGE / R- CODE
**Problem 3 (5 pts) - similar to Pr. 44 page 243 in text** Consider tossing **four** fair coins. There are 16 possible outcomes, e.g `HHHH,HHHT,HHTH,HTHH,THHH, ...` possible outcomes. Define `X` as the random variable “number of heads showing when four coins are tossed.” Obtain the mean and the variance of X. Simulate tossing three fair coins 10,000 times. Compute the simulated mean and variance of X. Are the simulated values within 2% of the theoretical answers?
Hint: to find the theoretical values use `dbinom (x= , size = , prob = )`
**Solution:**YOUR CODE HERE:
```{r}
```
In: Computer Science
Using PYTHON. Implement the stooge sort algorithm3to sort an array/vector of integers.
Your program should be able to read inputs from a file called “data.txt” where the first value of each line is the number of integers that need to be sorted, followed by the integers
The output will be written to a file called “stooge.txt”.
Stooge sort is a “bad” recursive sorting algorithm. Given an array A, the algorithm can be defined as follows:
Step 1:
If the value at the leftmost position of the array is larger than the value at the rightmost position then swap values.
Step 2: If there are 3 or more elements in the array, then:
Recursively call Stooge sort with the initial 2/3 of the array
Recursively call Stooge sort with the last 2/3 of the array.
Recursively call Stooge sort with the initial 2/3 of the array again.
Examplevalues for data.txt :
4 19 2 5 11
8 1 2 3 4 5 6 1 2
In: Computer Science
Linux Create two subprocesses using the system call fork(), and then use the system call signal() to let the parent process capture the interrupt signal on the keyboard (i.e., press the DEL key); The subprocess terminates after the subprocess captures the signal and outputs the following information separately: “Child Process l is Killed by Parent!” “Child Process 2 is Killed by Parent!” After the two child processes terminate, the parent process output the following information and terminate itself: “Parent Process is Killed!” Program with screen shot and explanation. Thank you
In: Computer Science
Apex Computing is preparing for a Secret Santa gift exchange. Certain information will be gathered from each employee. Although it would be more realistic to write a program that asks a user for input, this program will just be a practice for using structures and functions so we will create the information by assigning values to the variables.
Write a program that uses a structure named EmpInfo to store the following about each employee:
Name
Age
Favorite Food
Favorite Color
The program should create three EmpInfo variables, store values in their members, and pass each one, in turn, to a function that displays the information in a clear and easy-to-read format. (Remember that you will choose the information for the variables.)
Here is an example of the output:
Name………………………………Mary Smith
Age ……………………………….. 25
Favorite food ………………… Pizza
Favorite color ……………….. Green
In: Computer Science
NEED TO BE IN PYTHON!!!
Make sure to put the main section of your code in the following if
block:
# Type code for classes here
if __name__ == "__main__":
# Type main section of code here
(1) Build the Account class with the following specifications:
Attributes
Create a constructor that has 3 parameters (in addition to self) that will be passed in from the user. (no default values)
Define a __str__() method to print an Account like the following
Account Name: Trish Duce
Account Number: 90453889
Account Balance: $100.00
Define a deposit() method that has 1 parameter (in addition to self) that will be passed in from the user. (no default values) The method deposits the specified amount in the account.
Define a withdraw() method that has 2 parameters (in addition to self) that will be passed in from the user. (no default values) The method withdraws the specified amount (1st parameter) and fee (2nd parameter) from the account.
(2) In the main section of your code, create 3 accounts.
(3) Print the 3 accounts using print(acct1)…
(4) Deposit 25.85, 75.50 and 50 into accounts 1, 2 and 3.
(5) Print the 3 accounts.
(6) Withdraw 25.85 (2.50 fee), 75.50 (1.50 fee), 50.00 (2.00 fee).
(7) Print the 3 accounts.
Output should look like the following:
Account Name: Trish Duce
Account Number: 90453889
Account Balance: $100.00
Account Name: Donald Duck
Account Number: 83504837
Account Balance: $100.00
Account Name: Joe Smith
Account Number: 74773321
Account Balance: $100.00
Account Name: Trish Duce
Account Number: 90453889
Account Balance: $125.85
Account Name: Donald Duck
Account Number: 83504837
Account Balance: $175.50
Account Name: Joe Smith
Account Number: 74773321
Account Balance: $150.00
Account Name: Trish Duce
Account Number: 90453889
Account Balance: $97.50
Account Name: Donald Duck
Account Number: 83504837
Account Balance: $98.50
Account Name: Joe Smith
Account Number: 74773321
Account Balance: $98.00
In: Computer Science