New branch, testing
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README.md
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# DSL
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Explore our Data Structure Lab repo: codes, lab manuals, write-ups. Ace your assignments with practical examples and clear guidance.
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---
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In this repository, you'll find codes for Data Structure Lab.
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## Index
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### Codes
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1. [DSL - Assignment 1 (Cricket, Badminton, Football)](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/assignment-1.py)
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2. [DSL - Assignment 2 (Marks)](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/assignment-2.py)
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5. [DSL - Assignment 5 (String)](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/assignment-5.py)
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11. DSL - Assignment 11 (Linear, Sentinel, Binary, Fibonnaci Search) - _PENDING_
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14. [DSL - Assignment 14 (Selection, Bubble Sorting)](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/assignment-14.py)
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### Write-ups
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1. [Assignment 1 - Cricket, Badminton, Football](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/write-ups/assignment%201%20%28cricket%2C%20badminton%2C%20football%29.pdf)
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2. Assignment 2 - Marks - _PENDING_
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5. [Assignment 5 - String](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/write-ups/assignment-5%20%28string%29.pdf)
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11. Assignment 11 - Linear, Sentinel, Binary, Fibonnaci Search - _PENDING_
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14. [Assignment 14 - Selection, Bubble Sorting](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/write-ups/assignment-11%20%28selection%2C%20bubble%20sort%29.pdf)
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### Lab Manuals
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1. [Assignment 1 - Cricket, Badminton, Football](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/lab-manuals/Lab%20Assignment%20A_01.pdf)
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2. [Assignment 2 - Marks](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/lab-manuals/Lab%20Assignment%20A_02.pdf)
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5. [Assignment 5 - String](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/lab-manuals/Lab%20Assignment%20A_05.pdf)
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11. [Assignment 11 - Linear, Sentinel, Binary, Fibonnaci Search](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/lab-manuals/Lab%20Assignment%20B_11.pdf)
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14. [Assignment 14 - Selection, Bubble Sorting](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/lab-manuals/Lab%20Assignment%20B_14.pdf)
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29. [Assignment 29 - Job queue](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/lab-manuals/Lab%20Assignment%20E_29.pdf)
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31. [Assignment 31 - Double-ended queue](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/lab-manuals/Lab%20Assignment%20E_31.pdf)
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32. [Assignment 32 - Circular queue](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/lab-manuals/Lab%20Assignment%20E_32.pdf)
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33. [Mini Project](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/lab-manuals/Miniproject.doc)
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### Notes
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1. [Unit 1 - Introduction to Algorithm and Data Structures](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/notes/Unit%201)
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2. [Unit 2 - Linear Data Structure Using Sequential Organization](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/notes/Unit%202)
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3. [Unit 3 - Searching and Sorting](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/notes/Unit%203)
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---
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### Work in progress
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> These are the codes we're working on. They *may not work* the way intended.
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[quicksortEarlyAccess.py](https://git.kska.io/sppu-se-comp-codes/DSL/src/branch/main/quicksortEarlyAccess.py)
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---
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Maintained by [notkshitij](https://git.kska.io/notkshitij) and [TanmaySpamzzz](https://git.kska.io/TanmaySpamzzz)
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assignment-1.py
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assignment-1.py
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# DSL Assignment - 1
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# List of players
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cricket_players=[]
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badminton_players=[]
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football_players=[]
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# Input values
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## List for cricket players
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def cricket_in():
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total=int(input("Total number of students playing cricket: \t"))
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for i in range(total):
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players=int(input("Enter roll number: \t"))
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cricket_players.append(players)
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print("Roll numbers of", total, "students playing cricket: \t", cricket_players)
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cricket_in()
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## List for badminton players
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def badminton_in():
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total=int(input("Total number of students playing badminton: \t"))
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for i in range(total):
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players=int(input("Enter roll number: \t"))
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badminton_players.append(players)
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print("Roll numbers of", total, "students playing badminton: \t", badminton_players)
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badminton_in()
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## List for football players
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def football_in():
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total=int(input("Total number of students playing football: \t"))
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for i in range(total):
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players=int(input("Enter roll number: \t"))
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football_players.append(players)
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print("Roll numbers of", total, "students playing football: \t", football_players)
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football_in()
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# List of students playing cricket+badminton
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cricket_and_badminton=[]
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def cricket_and_badminton_fn():
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for i in cricket_players:
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if i in badminton_players:
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cricket_and_badminton.append(i)
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print("Roll numbers of students playing cricket and badminton are: \t", cricket_and_badminton)
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# List of students playing either cricket or badminton but not both
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cricket_or_badminton=[]
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def cricket_or_badminton_fn():
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for i in cricket_players:
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if i not in badminton_players:
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cricket_or_badminton.append(i)
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for i in badminton_players:
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if i not in cricket_players:
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cricket_or_badminton.append(i)
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print("Roll numbers of students playing either cricket or badminton are: \t", cricket_or_badminton)
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# Number of students playing neither cricket nor badminton
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football_only=[]
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football_only_1=[]
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def football_only_fn():
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for i in cricket_players:
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football_only.append(i)
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for i in badminton_players:
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if i not in cricket_players:
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football_only.append(i)
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for i in football_players:
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if i not in football_only:
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football_only_1.append(i)
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print("Number of students playing neither cricket nor badminton: \t", len(football_only_1), "\n Roll numbers are:\t", football_only_1)
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# Number of students playing cricket and football but not badminton
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not_badminton=[]
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def not_badminton_fn():
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for i in badminton_players:
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if i not in cricket_players:
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not_badminton.append(i)
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for i in badminton_players:
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if i not in football_players:
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not_badminton.append(i)
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print("Number of students playing cricket and football but not badminton: \t", len(not_badminton), "\n Roll numbers are:\t", not_badminton)
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# Choosing an option
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def choose_optn():
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while True:
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print("Choose an operation to perform:")
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print("1. List of students playing cricket and badminton both")
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print("2. List of students playing either cricket or badminton")
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print("3. List of students playing neither cricket nor badminton")
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print("4. List of students playing cricket and football but not badminton")
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print("5. Exit")
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optn=int(input("Enter option number (1-5): \t"))
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if optn==1:
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cricket_and_badminton_fn()
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if optn==2:
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cricket_or_badminton_fn()
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if optn==3:
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football_only_fn()
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if optn==4:
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not_badminton_fn()
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if optn==5:
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print("## DESIGNED AND ENGINEERED BY KSHITIJ\n## END OF CODE")
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quit()
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else:
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print("\nPlease choose a valid option.\n")
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choose_optn()
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choose_optn()
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## END OF CODE
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# Sorting (Selection+Bubble) and Top 5
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marks=[]
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# Function to enter marks of students
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def input_marks():
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students=int(input("Enter the number of students:\t"))
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for i in range(students):
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marks_in=float(input("Enter the marks (out of 50):\t"))
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marks.append(marks_in)
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print("\nThe marks you've entered for ", students, "students are: ", marks, "\n")
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# Function for selection sort
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def selection():
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for i in range(len(marks)):
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min_index=i
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for j in range(i+1, len(marks)):
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if marks[j] < marks[min_index]:
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min_index=j
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marks[i], marks[min_index] = marks[min_index], marks[i]
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print("Marks sorted in ascending order using selection sort:\t", marks)
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def bubble():
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for i in range(len(marks)):
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for j in range(0, len(marks)-i-1):
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if marks[j]>marks[j+1]:
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marks[j], marks[j+1] = marks[j+1], marks[j]
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print("Marks sorted in ascending order using bubble sort:\t", marks)
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def top5():
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for i in range(len(marks)):
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for j in range(0, len(marks)-i-1):
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if marks[j]>marks[j+1]:
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marks[j], marks[j+1] = marks[j+1], marks[j]
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print("Top 5 marks using bubble sorting:\t", marks[::-1])
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def choose_optn():
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while True:
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print("Choose an option from the menu below:")
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print("1 -> Input marks")
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print("2 -> Selection Sorting")
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print("3 -> Bubble Sorting")
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print("4 -> Display top 5")
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print("5 -> Exit")
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optn=int(input("Choose an option (1-5):\t"))
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if optn==1:
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input_marks()
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elif optn==2:
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selection()
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elif optn==3:
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bubble()
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elif optn==4:
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top5()
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elif optn==5:
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print("## DESIGNED AND ENGINEERED BY KSHITIJ\n## END OF CODE")
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quit()
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else:
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print("\nPlease choose a valid option (1-5).\n")
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choose_optn()
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choose_optn()
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# DSL - Assignment 2
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students=[]
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marks=[]
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total_students_in=int(input("Total number of students are: \t"))
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# Entering marks
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def total_students_fn():
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for i in range(total_students_in):
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marks_in=int(input("Enter marks for DSA subject for each student (out of 50) (enter -1 for absent students): \t"))
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marks.append(marks_in)
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print("Marks of", total_students_in, "students in DSA subject are:", marks)
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total_students_fn()
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# Option 1 = Average
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def average_marks():
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for i in marks:
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if i<0:
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break
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else:
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average_calc=sum(marks)/total_students_in
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print("Average score of", total_students_in, "is: \t", average_calc)
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# Option 2 = Highest and lowest
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def high_low():
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mini=marks[0]
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maxi=marks[0]
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for i in range (len(marks)):
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if (maxi<marks[i] and marks[i]>-1):
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maxi=marks[i]
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for j in range (len(marks)):
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if (mini>marks[j] and marks[j]>-1):
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mini=marks[j]
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print("Highest marks are: \t", maxi)
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print("Lowest marks are: \t", mini)
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# Option 3 = Absent
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def absent():
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absent_count=0
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for i in marks:
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if i==-1:
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absent_count+=1
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print("Total number of absent students out of", total_students_in, "are: \t", absent_count)
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# Option 4 = Highest freq
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def high_freq():
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freq_count=0
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for i in range(len(marks)):
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if (i>=0):
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count=0
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for j in range(len(marks)):
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if (marks[i]==marks[j]):
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count+=1
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if (freq_count<count):
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freq_count=count
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else:
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break
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print("Highest frequency is: \t", freq_count)
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# Choosing an option
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def choose_optn():
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while True:
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print("Choose an operation to perform:")
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print("1. Average score of all students")
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print("2. Highest and lowest score out of all students")
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print("3. Count of students absent for test")
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print("4. Display marks with highest frequency")
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print("5. Exit")
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optn=int(input("Enter option number (1-5): \t"))
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if optn==1:
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average_marks()
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print("Designed and Engineered by Kshitij")
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elif optn==2:
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high_low()
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print("Designed and Engineered by Kshitij")
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elif optn==3:
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absent()
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print("Designed and Engineered by Kshitij")
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elif optn==4:
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high_freq()
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print("Designed and Engineered by Kshitij")
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elif optn==5:
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print("## Designed and Engineered by Kshitij\n## END OF CODE.")
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quit()
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else:
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print("\n Invalid option selected. Please choose from range 1 to 5. \n")
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choose_optn()
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choose_optn()
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## END OF CODE
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#include <iostream>
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using namespace std;
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class queue
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{
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int data[20];
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int f, r;
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public:
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queue()
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{
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f = -1;
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r = -1;
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}
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int isempty()
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{
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if (f == -1)
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{
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return 1;
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}
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else
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{
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return 0;
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}
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}
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int isfull()
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{
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if (r >= 20)
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{
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return 1;
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}
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else
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{
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return 0;
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}
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}
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void enqueue(int x)
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{
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if (isfull() == 1)
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{
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cout << "job queue is full" << endl;
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}
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else
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{
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if (f == -1)
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f++;
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r++;
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data[r] = x;
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}
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}
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void dequeue()
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{
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int x;
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if (isempty())
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{
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cout << "job queue is empty" << endl;
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}
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else
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{
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x = data[f];
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f++;
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cout << x << "Job deleted " << endl;
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}
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}
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void disp()
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{
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cout << "job queue is as :" << endl;
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for (int i = f; i <= r; i++)
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{
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cout << data[i] << " ";
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}
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cout << endl;
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}
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};
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int main()
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{
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int ch, n, x, d;
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queue q;
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cout << "Enter the no. of jobs in queue. " << endl;
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cin >> n;
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cout << "Enter jobs " << endl;
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for (int i = 0; i < n; i++)
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{
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cin >> d;
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q.enqueue(d);
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}
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do
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{
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cout << "**********MENU**********" << endl;
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cout << "1)Add job " << endl;
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cout << "2)Delete job " << endl;
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cout << "3)Display" << endl;
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cout << endl;
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cout << "Enter your choice " << endl;
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cin >> ch;
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switch (ch)
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{
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case 1:
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cout << "Enter the job to be added " << endl;
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cin >> d;
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q.enqueue(d);
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cout << "Job added" << endl;
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q.disp();
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break;
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case 2:
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q.dequeue();
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q.disp();
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break;
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case 3:
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q.disp();
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break;
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default:
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cout << "Invalid choice" << endl;
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break;
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}
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cout << "Do you want to continue" << endl;
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cout << "1. YES" << endl;
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cout << "2. NO" << endl;
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cin >> x;
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} while (x == 1);
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}
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/* ~~~~~~~~~~~~~~~~~~~~~~~~~~ Output ~~~~~~~~~~~~~~~~~~~~~~~~~
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|
||||
Enter the no. of jobs in queue.
|
||||
10
|
||||
Enter jobs
|
||||
1
|
||||
2
|
||||
3
|
||||
4
|
||||
5
|
||||
6
|
||||
7
|
||||
8
|
||||
9
|
||||
10
|
||||
**********MENU**********
|
||||
1)Add job
|
||||
2)Delete job
|
||||
3)Display
|
||||
|
||||
Enter your choice
|
||||
3
|
||||
job queue is as :
|
||||
1 2 3 4 5 6 7 8 9 10
|
||||
Do you want to continue
|
||||
1. YES
|
||||
2. NO
|
||||
1
|
||||
**********MENU**********
|
||||
1)Add job
|
||||
2)Delete job
|
||||
3)Display
|
||||
|
||||
Enter your choice
|
||||
11
|
||||
Invalid choice
|
||||
Do you want to continue
|
||||
1. YES
|
||||
2. NO
|
||||
1
|
||||
**********MENU**********
|
||||
1)Add job
|
||||
2)Delete job
|
||||
3)Display
|
||||
|
||||
Enter your choice
|
||||
2
|
||||
1Job deleted
|
||||
job queue is as :
|
||||
2 3 4 5 6 7 8 9 10
|
||||
Do you want to continue
|
||||
1. YES
|
||||
2. NO
|
||||
2
|
||||
|
||||
|
||||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */
|
@ -1,99 +0,0 @@
|
||||
str1 = input("Enter string: ")
|
||||
substr1 = input("Enter substring: ")
|
||||
occur1 = input("Enter character whose occurence is to be calculated: ")
|
||||
occur2 = str1.split()
|
||||
index1 = []
|
||||
for i in occur2:
|
||||
for j in occur2:
|
||||
if(i == j and j not in index1):
|
||||
index1.append(i)
|
||||
else:
|
||||
continue
|
||||
|
||||
def longestWord():
|
||||
globalMax = 0
|
||||
currentMax = 0
|
||||
list1 = []
|
||||
for i in str1:
|
||||
if (i != " "):
|
||||
currentMax = currentMax + 1
|
||||
list1.append(i)
|
||||
else:
|
||||
if (currentMax > globalMax):
|
||||
globalMax = currentMax
|
||||
temp = list1
|
||||
currentMax = 0
|
||||
list1 = []
|
||||
if (i == str1[len(str1) - 1]):
|
||||
if (currentMax > globalMax):
|
||||
globalMax = currentMax
|
||||
temp = list1
|
||||
print("Longest word is: ", "".join(temp))
|
||||
print("Length of largest word is: ", globalMax)
|
||||
|
||||
|
||||
def palindrome():
|
||||
rev1 = str1
|
||||
if (str1[::-1] == rev1):
|
||||
print("String is palindrome")
|
||||
else:
|
||||
print("String is not palindrome")
|
||||
|
||||
|
||||
def charfrequency():
|
||||
temp = 0
|
||||
for i in str1:
|
||||
max1 = 0
|
||||
for j in range(0, len(str1)):
|
||||
if (str1[j] != " " and str1[j] == occur1):
|
||||
max1 = max1 + 1
|
||||
else:
|
||||
continue
|
||||
if (max1 > temp):
|
||||
temp = max1
|
||||
else:
|
||||
continue
|
||||
print("Number of times the character '", occur1, "' occurs: ", temp)
|
||||
|
||||
|
||||
def indexSubstring():
|
||||
for i in range(len(str1) - len(substr1) + 1):
|
||||
if str1[i:i + len(substr1)] == substr1:
|
||||
print("Substring present in string at index: ", i)
|
||||
break
|
||||
else:
|
||||
print('Substring not present')
|
||||
|
||||
def occurWord():
|
||||
for i in index1:
|
||||
max1 = 0
|
||||
for j in occur2:
|
||||
if(i == j):
|
||||
max1 = max1 + 1
|
||||
else:
|
||||
continue
|
||||
print("The number of times '",i,"' is repeated is: ",max1)
|
||||
|
||||
flag = 1
|
||||
while flag == 1:
|
||||
print("1. Display word with longest word: \n")
|
||||
print("2. The occurence of '",occur1,"' in the string is: \n")
|
||||
print("3. Check whether is string is palindrome or not: \n")
|
||||
print("4. Display index of first appearance of the substring: \n")
|
||||
print("5. Occurrence of each word in the given string: \n")
|
||||
print("6. Exit")
|
||||
ch = int(input("Enter your choice: "))
|
||||
if(ch == 1):
|
||||
longestWord()
|
||||
elif(ch == 2):
|
||||
charfrequency()
|
||||
elif(ch == 3):
|
||||
palindrome()
|
||||
elif(ch == 4):
|
||||
indexSubstring()
|
||||
elif(ch == 5):
|
||||
occurWord()
|
||||
elif(ch>6 or ch<1):
|
||||
print("Enter valid choice")
|
||||
elif(ch == 6):
|
||||
flag = 0
|
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@ -1,38 +0,0 @@
|
||||
no = int(input("Enter number of students: "))
|
||||
list2 = []
|
||||
#list1 = []
|
||||
for i in range(0,no):
|
||||
n = float(input("Enter % of student: "))
|
||||
list2.append(n)
|
||||
print(list2)
|
||||
|
||||
d = len(list2)
|
||||
|
||||
def partition(list3,a,b):
|
||||
v = list3[a]
|
||||
i = a
|
||||
j = b-1
|
||||
temp = 0
|
||||
while(i<j):
|
||||
while(list3[i]<=v and i<=j):
|
||||
i = i + 1
|
||||
while(list3[j] > v):
|
||||
j = j - 1
|
||||
if(i<j):
|
||||
temp = list3[i]
|
||||
list3[i] = list3[j]
|
||||
list3[j] = temp
|
||||
list3[a] = list3[j]
|
||||
list3[j] = v
|
||||
return j
|
||||
|
||||
def quicksort(list1, l, u):
|
||||
j = 0
|
||||
if(l<u):
|
||||
j = partition(list1,l,u)
|
||||
quicksort(list1,l,j - 1)
|
||||
quicksort(list1,j+1,u)
|
||||
list2 = list1
|
||||
return list2
|
||||
o = quicksort(list2,0,d)
|
||||
print("Sorted list is: ",o)
|
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Loading…
Reference in New Issue
Block a user