# KBC game using Python

• Difficulty Level : Medium
• Last Updated : 27 Jul, 2021

In this article, we will make a KBC game with almost all the features in CLI(Command Line Interface) mode using Python.

### Features of the game:

• Random questions every time
• Four lifelines
• Audience Poll
• 50:50
• Double dip
• Flip the question
• Made with the help of Matplotlib and NumPy libraries of python.
• Bar graph for audience poll lifeline

### Rules to play the game:

• There are four lifelines in this game named Audience Poll,50:50, Double dip, and Flip the question.
• 2 Stages at ₹10,000 and ₹3,20,000.
• Users cannot use another lifeline after taking Double Dip.
• Lifelines can be used only once.
• Quit option is not available after taking Double Dip.
• After taking Audience Poll, the user can also take another lifeline except for Double Dip. The same is for 50:50 and Flip the question.
• Users can quit from game anytime.
• The total winning price will be displayed after every question.
• If the user has selected an incorrect option, the amount will be given according to stage cleared. ### Getting Started:

• Create a new python file.
• Make a list of questions.
• Also make a list of answers, options, fifty-fifty options, audience poll percentage for options.
• Implement a random function so that every time when a user plays a game, he/she can get new random questions from a list of questions.
• After the question is answered by a user, assure that that question would not appear again. To do this, delete the answered question from the list and associated options within that question.
• If the user needs any help then he/she can use a lifeline from the four lifelines i.e, Audience Poll, Fifty-Fifty, Double dip, and Flip the question.
• When the user gives the correct answer to the question, the answered question amount is added to the total amount.

### Approach:

• Added some questions in a list with options.
• Run while loop and check the condition.
• If true then proceed further. After that display question to the user with options and ask for input(1, 2, 3, 4, or 9 for lifeline and 0 to exit). Random function is used to shuffle the question every time when a user plays the game.
• If the user is able to give the correct answer then he can choose an option. If the input given is correct then the winning amount is incremented and the next question will be displayed and the previous question is deleted from the list to avoid repetition of questions.
• If the user’s input is incorrect then he/she will be given the total winning amount. Remember that there are two stages in the game. If the user has given the wrong answer then the amount will be given according to stage cleared.
• User can quit the game anytime and the current winning amount will be given.
• If the user fails to choose the correct answer then he/she can take the lifeline.

## Python3

 `while``(wrong !``=` `True``):` `    ``ques_no ``+``=` `1``    ``ran ``=` `random.randint(``0``, ``len``(questions)``-``1``)``    ``print``(``"\n\nQ."``, ques_no, ``":-"``, end``=``"")``    ``print``(questions[ran])` `    ``for` `num, option ``in` `enumerate``(options):``        ``print``(``str``(num``+``1``)``+``"."``+``option[ran])` `    ``print``("Would you like to take lifeline, ``if` `yes, press ``9``\n\``    ``Choose ``any` `option:  ``or` `you can quit by pressing ``0` `\t\t")``    ``give_answer ``=` `int``(``input``())` `    ``if` `give_answer ``=``=` `9``:``      ` `      ``# condition variable is to count lifelines``      ``# used``      ``if` `condition <``=` `4``:` `            ``condition ``+``=` `1``            ``great ``=` `lifeline(ran, opts, op)` `            ``if` `great ``=``=` `0``:``              ` `                ``if` `total_amt < ``10000``:``                    ``total_amt ``=` `0``                ``elif` `total_amt < ``320000``:``                    ``total_amt ``=` `10000``                ``elif` `total_amt < ``70000000``:``                    ``total_amt ``=` `320000``                ``break` `            ``elif` `great ``=``=` `-``1``:``                ``ques_no ``-``=` `1``                ``pass` `            ``elif` `great ``=``=` `None``:``                ``print``(``"Choose any option or press 0 to quit\t"``)``                ``give_ansr ``=` `int``(``input``())` `                ``if` `answer[ran] ``=``=` `give_ansr:``                    ``print``(``"Correct answer, great"``)``                    ``correct ``+``=` `1` `            ``elif` `great ``=``=` `-``2``:``                ``break` `            ``else``:``                ``correct ``+``=` `1``                ``print``(``"You have won Rs="``, end``=``"")``                ``total_amt ``=` `amount(correct)` `        ``else``:``          ``print``("You have used your ``all` `lifelines\t\n Choose ``any` `option: \``                ``or` `you can quit by pressing ``0``\t\t")` `            ``give_ans ``=` `int``(``input``())``            ``key ``=` `answer[ran]` `            ``if` `give_ans ``=``=` `0``:``                ``total_amt ``=` `amount(correct)``                ``break` `            ``elif` `key ``=``=` `give_ans:``                ``print``(``"Correct, You have won Rs. ="``, end``=``"")``                ``correct ``+``=` `1``                ``total_amt ``=` `amount(correct)` `            ``else``:``                ``print``(``"Wrong Answer...."``)``                ``print``(``"Correct Answer is : "``, options[answer[ran]``-``1``][ran])` `                ``if` `total_amt < ``10000``:``                    ``total_amt ``=` `0``                ``elif` `total_amt < ``320000``:``                    ``total_amt ``=` `10000``                ``elif` `total_amt < ``70000000``:``                    ``total_amt ``=` `32000` `                ``wrong ``=` `True``    ``else``:``        ``key ``=` `answer[ran]` `        ``if` `give_answer ``=``=` `0``:``            ``if` `correct !``=` `0``:``                ``total_amt ``=` `amount(correct)``            ``break` `        ``elif` `key ``=``=` `give_answer:``            ``print``(``"Correct answer.., You have won Rs.="``, end``=``"")``            ``correct ``+``=` `1``            ``total_amt ``=` `amount(correct)` `        ``else``:``            ``print``(``"Wrong Answer...Better luck next time..."``)``            ``print``(``"Correct Answer is :"``, options[answer[ran]``-``1``][ran])` `            ``if` `total_amt < ``10000``:``                ``total_amt ``=` `0``            ``elif` `total_amt < ``320000``:``                ``total_amt ``=` `10000``            ``elif` `total_amt < ``70000000``:``                ``total_amt ``=` `320000``            ``wrong ``=` `True` `    ``# total questions are 16``    ``if` `correct ``=``=` `16``:``        ``break` `    ``# delete previous question and its options from list``    ``del` `questions[ran]``    ``del` `option1[ran]``    ``del` `option2[ran]``    ``del` `option3[ran]``    ``del` `option4[ran]``    ``del` `answer[ran]``    ``del` `opts[``0``][ran]``    ``del` `opts[``1``][ran]``    ``del` `opts[``2``][ran]``    ``del` `opts[``3``][ran]``    ``del` `op[``0``][ran]``    ``del` `op[``1``][ran]``    ``del` `op[``2``][ran]``    ``del` `op[``3``][ran]``    ``options ``=` `[option1, option2, option3, option4]` `print``(``"Your winning amount is Rs. "``, total_amt)`
• Audience Poll lifeline:
• The graph will be shown with the correct percentage assigned to all the options. [For ex: A- 32%, B- 56%, C-2%, D-10%].
• User can either choose the correct answer or can take another lifeline.

## Python3

 `def` `audience(ran, opts):` `    ``# graphical audience poll using pandas``    ``print``(``"According to audience\n"``)` `    ``s ``=` `pd.Series([opt1[ran], opt2[ran], opt3[ran], opt4[ran]],``                  ``index``=``[``'1'``, ``'2'``, ``'3'``, ``'4'``])` `    ``s.plot.bar(figsize``=``(``20``, ``10``))``    ``plt.xlabel(``'Options'``)``    ``plt.ylabel(``'%'``)``    ``plt.title(``"Audience Poll"``)``    ``plt.show()` `    ``print``(``'1.'``, opts[``0``][ran], ``"%"``, ``'\t'``, ``'2.'``, opts[``1``][ran],``          ``"%"``, ``'\t'``, ``'3.'``,opts[``2``][ran], ``"%"``, ``'\t'``, ``'4.'``,``          ``opts[``3``][ran], ``"%"``, ``'\nenter your choice\t'``)` `    ``print``("Would you like to take lifeline again,``if` `yes then\``    ``press ``9` `or` `Press ``0` `to Quit\t")` `    ``choice ``=` `int``(``input``())` `    ``if` `choice ``=``=` `9``:``        ``great ``=` `lifeline(ran, opts, op)``        ``return` `great``    ``elif` `choice ``=``=` `answer[ran]:``        ``great ``=` `1``        ``print``(``"Correct answer,well done!.."``)``    ``elif` `choice ``=``=` `0``:``        ``great ``=` `-``2``    ``else``:``        ``great ``=` `0``        ``print``(``"Incorrect"``)``        ``print``(``"Correct Answer is :"``, options[answer[ran]``-``1``][ran])` `    ``return` `great`

• Fifty-Fifty:
• Two incorrect options will be deleted.
• User can either choose the correct answer or can take another lifeline.

## Python3

 `def` `fifty(ran, op):``    ``print``(``"Q."``+``questions[ran])` `    ``for` `num, option ``in` `enumerate``(op):``        ``print``(``str``(num``+``1``)``+``"."``+``option[ran])` `    ``choice_fifty ``=` `int``(``input``(``"enter your choice \t"``))` `    ``if` `choice_fifty ``=``=` `answer[ran]:``        ``print``(``"Correct Answer....."``)``        ``great ``=` `1``    ``else``:``        ``great ``=` `0``        ``print``(``"wrong answer"``)``        ``print``(``"Correct Answer is :"``, options[answer[ran]``-``1``][ran])` `    ``return` `great`

• Double dip:
• The user will be given two chances to choose the correct option. Remember that after taking double-dip, the user will not able to use any other lifeline. He/she can either choose a correct option or can quit the game.

## Python3

 `def` `doubleDip(ran):` `    ``# double dip gives 2 chances``    ``print``(``"Select two options\n"``)``    ``trial1 ``=` `int``(``input``())` `    ``if` `answer[ran] ``=``=` `trial1:``        ``great ``=` `1``        ``print``(``"Correct Answer,well done...."``)``    ``else``:``        ``print``(``"Your first trial is wrong, choose another\t"``)``        ``trial2 ``=` `int``(``input``())` `        ``if` `answer[ran] ``=``=` `trial2:``            ``great ``=` `1``            ``print``(``"Correct Answer\t"``)``        ``else``:``            ``print``(``"Your second trial is also wrong..Better luck next time..\t"``)``            ``print``(``"Correct Answer is :"``, options[answer[ran]``-``1``][ran])``            ``great ``=` `0` `    ``return` `great`

• Flip the question:
• When flip the question lifelines is taken then the current question is skipped and next question is displayed.

### FlowChart Given below is the full implementation.

Program:

## Python3

 `import` `random``from` `matplotlib ``import` `pyplot as plt``import` `pandas as pd` `print``(``"WELCOME TO KAUN BANEGA CROREPATI...LET'S PLAY"``)``print``(``"Hello"``, ``input``(``"Enter Your Name\t"``))` `# total prize for each question``amount_won ``=` `[``1000``, ``2000``, ``3000``, ``5000``, ``10000``,``              ``20000``, ``40000``, ``80000``, ``160000``,``              ``320000``, ``640000``, ``1250000``, ``2500000``,``              ``5000000``, ``10000000``, ``70000000``]``# Options for 50:50 lifeline``op1 ``=` `[``'     '``, ``'        '``, ``'    '``, ``'Srinagar'``,``       ``'     '``, ``'Cricket'``, ``'1920'``, ``'     '``, ``'    '``,``       ``'        '``, ``'   '``, ``'Cricket'``, ``'       '``,``       ``'Kolkata'``, ``'Wrestling'``, ``'          '``, ``'       '``,``       ``'     '``, ``'China'``, ``'Thar'``, ``'         '``, ``'      '``,``       ``'Israel'``, ``'      '``, ``'           '``, ``'Arjan Singh'``,``       ``'Parliament of India'``, ``'       '``, ``'     '``,``       ``'Mohd Hamid Ansari '``, ``'    '``, ``'Mahatma Gandhi'``,``       ``'Hanuman'``]` `op2 ``=` `[``'AB De Villiers'``, ``'     '``, ``'9'``, ``'       '``,``       ``'      '``, ``'    '``, ``'1928'``, ``'     '``, ``'Cricket'``,``       ``'Yuvraj Singh'``, ``'Cricket'``, ``'Football'``, ``'West Indies'``,``       ``'Mumbai'``, ``'Swimming'``, ``'             '``, ``'      '``,``       ``'        '``, ``'       '``, ``'Sahara'``, ``'Mahishmati'``, ``'       '``,``       ``'Jordan'``, ``'       '``, ``'Che Guevera'``, ``'               '``,``       ``'       '``, ``'      '``, ``'     '``, ``'     '``, ``'    '``, ``'    '``,``       ``'              '``]` `op3 ``=` `[``'Shahid Afridi'``, ``'Dishonest'``, ``'   '``, ``'Amritsar'``,``       ``'Sindhi'``, ``'      '``, ``'    '``, ``'Pakistan'``, ``'     '``,``       ``'MS Dhoni'``, ``'    '``, ``'       '``, ``'South Africa'``, ``'    '``,``       ``'      '``, ``'Henry Becquarrel'``, ``'Tephrosia'``, ``'Dermatitis'``,``       ``'Japan'``, ``'    '``, ``'       '``, ``'Bypass'``, ``'         '``,``       ``'Mridangam'``, ``'         '``, ``'             '``, ``'     '``,``       ``'darjeeling'``, ``'Japanese Encephalitis '``, ``'Mohd Hidayatullah '``,``       ``'Saina Nehwal'``, ``'      '``, ``'Shiva'``]` `op4 ``=` `[``'        '``, ``'Miserly'``, ``'8'``, ``'       '``, ``'English'``, ``'Hockey'``,``       ``'     '``, ``'Australia'``, ``'Football'``, ``'       '``, ``'Polo'``, ``'     '``,``       ``'      '``, ``'     '``, ``'       '``, ``'None of these'``, ``'Indigofera'``,``       ``'Cholera'``, ``'        '``, ``'        '``, ``'Badami'``, ``'Debridement'``,``       ``'     '``, ``'Dafli'``, ``'Vladimir Lenin'``, ``'Aspy Engineer'``,``       ``'Mangalyaan'``, ``'Kohima'``, ``'Plague'``, ``'       '``, ``'Jwala Gutta'``,``       ``'Mother Teresa'``, ``'   '``]` `op ``=` `[op1, op2, op3, op4]` `# list of lifelines``list_life ``=` `[``1``, ``2``, ``3``, ``4``]` `def` `lifeline(ran, opts, op):` `    ``m ``=` `1` `    ``lifelines ``=` `[``'Audience Poll'``, ``'Fifty Fifty'``,``                 ``'Double dip'``, ``'Flip the question'``]``    ` `    ``print``(``"Lifelines are \t"``, lifelines[``0``], ``'\t'``, lifelines[``1``],``          ``'\t'``, lifelines[``2``], ``'\t'``, lifelines[``3``], ``'\n\n'``)``    ` `    ``if` `list_life ``=``=` `[]:``        ``print``(``"You don't have lifelines remaining\t"``)``        ``return` `None``      ` `    ``print``("Press ``1` `for` `audience,``2` `for` `50``:``50``, ``3` `for` `double dip\``    ``or` `4` `for` `flip the question\t")` `    ``while``(m !``=` `0``):``        ``get ``=` `int``(``input``())``        ` `        ``if` `get ``=``=` `1``:``            ``if` `get ``in` `list_life:``                ``m ``=` `0``                ``list_life.remove(``1``)``                ``great ``=` `audience(ran, opts)` `            ``else``:``                ``print``(``"You don't have audience poll\t"``)``        ` `        ``elif` `get ``=``=` `2``:``            ``if` `get ``in` `list_life:``                ``m ``=` `0``                ``great ``=` `fifty(ran, op)``                ``list_life.remove(``2``)` `            ``else``:``                ``print``(``"You don't have 50:50 \t"``)``        ` `        ``elif` `get ``=``=` `3``:``            ``if` `get ``in` `list_life:``                ``m ``=` `0``                ``great ``=` `doubleDip(ran)``                ``list_life.remove(``3``)``            ``else``:``                ``print``(``"You don't have double dip\t"``)``        ` `        ``elif` `get ``=``=` `4``:``            ``if` `get ``in` `list_life:``                ``m ``=` `0``                ``great ``=` `flip()``                ``list_life.remove(``4``)``            ``else``:``                ``print``(``"You don't have lifeline to flip the question\t"``)``        ` `        ``else``:``            ``print``(``"Choose correct option"``)` `    ``return` `great`  `def` `audience(ran, opts):``  ` `    ``# graphical audience poll using pandas``    ``print``(``"According to audience\n"``)` `    ``s ``=` `pd.Series([opt1[ran], opt2[ran], opt3[ran], opt4[ran]],``                  ``index``=``[``'1'``, ``'2'``, ``'3'``, ``'4'``])` `    ``s.plot.bar(figsize``=``(``20``, ``10``))``    ``plt.xlabel(``'Options'``)``    ``plt.ylabel(``'%'``)``    ``plt.title(``"Audience Poll"``)``    ``plt.show()` `    ``print``(``'1.'``, opts[``0``][ran], ``"%"``, ``'\t'``, ``'2.'``,``          ``opts[``1``][ran], ``"%"``, ``'\t'``, ``'3.'``, opts[``2``][ran],``          ``"%"``, ``'\t'``, ``'4.'``, opts[``3``][ran], ``"%"``, ``'\nenter your choice\t'``)``    ` `    ``print``("Would you like to take lifeline again,``if` `yes then press\``    ``9` `or` `Press ``0` `to Quit\t")``    ` `    ``choice ``=` `int``(``input``())``    ` `    ``if` `choice ``=``=` `9``:``        ``great ``=` `lifeline(ran, opts, op)``        ``return` `great``    ` `    ``elif` `choice ``=``=` `answer[ran]:``        ``great ``=` `1``        ``print``(``"Correct answer,well done!.."``)``    ` `    ``elif` `choice ``=``=` `0``:``        ``great ``=` `-``2``    ` `    ``else``:``        ``great ``=` `0``        ``print``(``"Incorrect"``)``        ``print``(``"Correct Answer is :"``, options[answer[ran]``-``1``][ran])` `    ``return` `great`  `def` `fifty(ran, op):``  ` `    ``print``(``"Q."``+``questions[ran])``    ` `    ``for` `num, option ``in` `enumerate``(op):``        ``print``(``str``(num``+``1``)``+``"."``+``option[ran])``    ``choice_fifty ``=` `int``(``input``(``"enter your choice \t"``))` `    ``if` `choice_fifty ``=``=` `answer[ran]:``        ``print``(``"Correct Answer....."``)``        ``great ``=` `1``    ` `    ``else``:``        ``great ``=` `0``        ``print``(``"wrong answer"``)``        ``print``(``"Correct Answer is :"``, options[answer[ran]``-``1``][ran])``    ` `    ``return` `great`  `def` `doubleDip(ran):``    ` `    ``# double dip gives 2 chances``    ``print``(``"Select two options\n"``)``    ``trial1 ``=` `int``(``input``())``    ` `    ``if` `answer[ran] ``=``=` `trial1:``        ``great ``=` `1``        ``print``(``"Correct Answer,well done...."``)``    ` `    ``else``:``        ``print``(``"Your first trial is wrong, choose another\t"``)``        ``trial2 ``=` `int``(``input``())``        ` `        ``if` `answer[ran] ``=``=` `trial2:``            ``great ``=` `1``            ``print``(``"Correct Answer\t"``)``        ` `        ``else``:``            ``print``(``"Your second trial is also wrong..Better luck next time..\t"``)``            ``print``(``"Correct Answer is :"``, options[answer[ran]``-``1``][ran])``            ``great ``=` `0``    ` `    ``return` `great`  `def` `flip():``    ``return` `-``1` `def` `amount(correct_ans):``    ``print``(amount_won[correct_ans``-``1``])``    ` `    ``if` `amount_won[correct_ans``-``1``] ``=``=` `10000``:``        ``print``(``"Completed 1st stage"``)``    ` `    ``elif` `amount_won[correct_ans``-``1``] ``=``=` `320000``:``        ``print``(``"Completed 2st stage"``)``    ` `    ``elif` `amount_won[correct_ans``-``1``] ``=``=` `70000000``:``        ``print``(``"You have won Rs 7 CRORE"``)``    ` `    ``return` `amount_won[correct_ans``-``1``]`  `questions ``=` `[``  ``'In ODI Cricket, who created the record of scoring the \``  ``fastest century ``in` `just ``31` `balls ?',``  ``' If you call someone ‘Makkhichoos’ then what are you \``  ``calling him ?',``  ``'How many players of a Kho``-``Kho team can play on the field\``  ``during the match ?',``  ``'Which of these Indian cities ``is` `closest to the Pakistani \``  ``city of Lahore ?',``  ``'The language spoken by the people by Pakistan is ?'``,``  ``'The term“Googly” is associated with ?'``,``  ``'India first took part in the olympic games in the year ?'``,``  ``'Who are Kangaroos ?'``,``  ``'Oval stadium in England is associated with ?'``,``  ``'In ``2011` `India won the World Cup. Who was adjudicated as the\``  ``man of the series ``in` `the tournament ? ',``  ``'Eden Gardens in Kolkata is ----- stadium.? '``,``  ``'Ronaldo is associated with ? '``,``  ``'Icc’s 2007, the World Cup Cricket was held in ? '``,``  ``'Wankhede Stadium is at ? '``,``  ``'World’s most ancient game is ? '``,``  ``'Stethoscope was invented by ?'``,``  ``'A dye is prepared from '``,``  ``'Which disease is caused by the fungi? '``,``  ``'Which is the Land of the Rising Sun? '``,``  ``'The desert that lies on the boundary between India ``and` `Pakistan \``  ``is` `',``  ``' In which kingdom ``is` `the story of the ‘Bahubali’ series of films\``  ``mainly ``set``?',``  ``'What ``is` `the common name ``for` `surgery conducted on coronary arteries\``  ``that supply blood to the heart ?',``  ``' In July ``2017``, Narendra Modi Become the first Indian Prime Minister\``  ``to visit which country ?',``  ``'Which of these musical instrument ``is` `held ``in` `one hand ``and` `played with\``  ``the other ?',``  ``' On the last day of his life Bhagat Singh was reading a book about\``  ``the Ideology of which revolutionary ?',``  ``'Which Air force officer had the unique honour of leading the fly``-``post\``  ``over the Red fort ``in` `Delhi on ``15` `August ``1947` `?',``  ``'Which image appears on the flip side of the new ``2000` `Rs Note, launched\``  ``in` `2016``?',``  ``'Which Indian hill station gets its name ``from` `the Tibetan words that mean\``  ``‘land of the thunderbolt’?',``  ``'Which of these diseases is transmitted by mosquitoes?'``,``  ``'Who among these has served as the Ambassador of India to the United Nations?'``,``  ``' Who was the first Indian to win the World Junior Badminton Championships?'``,``  ``'Which of the following is a recipient of the Nobel Peace Prize?'``,``  ``'The cave temples at the historical site of Elephanta are dedicated to which\``  ``God?'``]` `option1 ``=` `[``'Corey Anderson'``, ``'Evil'``, ``'10'``, ``'Srinagar'``, ``'Hindi'``,``           ``'Cricket'``, ``'1920'``, ``'Bangladesh'``, ``'polo'``, ``'Virat Kohli'``,``           ``'Tennis'``, ``'Cricket'``, ``'Australia'``, ``'Kolkata'``, ``'Wrestling'``,``           ``'Bessemer'``, ``'Sida'``, ``'Polio'``, ``'China'``, ``'Thar'``, ``'Magadh'``,``           ``'Cataract'``, ``'Israel'``, ``'Tabla'``, ``'Antonio Gramsci '``,``           ``'Arjan Singh'``, ``'Parliament of India'``, ``'Gangtok'``, ``'Rabies'``,``           ``' Mohd Hamid Ansari'``, ``'P V Sindhu'``, ``'Mahatma Gandhi'``, ``'Hanuman'``]` `option2 ``=` `[``'AB De Villiers'``, ``'Humble'``, ``'9'``, ``'Jaisalmer'``, ``'Palauan'``,``           ``'Football'``, ``'1928'``, ``'Kenya'``, ``'Cricket'``, ``'Yuvraj Singh'``,``           ``'Cricket'``, ``'Football'``, ``'West Indies'``, ``'Mumbai'``, ``'Swimming'``,``           ``'Rane Laennec'``, ``'Tridax'``, ``'Malaria'``, ``'Taiwan'``, ``'Sahara'``,``           ``'Mahishmati'``, ``'Gastric'``, ``'Jordan'``, ``'Santoor'``, ``'Che Guevera'``,``           ``'Pratap Chandra Lal'``, ``'Tractor'``, ``'Aizawl'``, ``'Tetanus'``, ``' I K Gujral'``,``           ``'Aparna Balan'``, ``'Swami Vivekananda '``, ``'Vishnu'``]` `option3 ``=` `[``'Shahid Afridi'``, ``'Dishonest'``, ``'7'``, ``'Amritsar'``, ``'Sindhi'``,``           ``'Badminton'``, ``'1972'``, ``'Pakistan'``, ``'Hockey'``, ``'MS Dhoni'``,``           ``'Hockey'``, ``'Hockey'``, ``'South Africa'``, ``'Delhi'``, ``'Boxing'``,``           ``'Henry Becquarrel'``, ``'Tephrosia'``, ``'Dermatitis'``, ``'Japan'``,``           ``'Gobi'``, ``'Kalinga'``, ``'Bypass'``, ``'Saudi Arabia'``, ``'Mridangam'``,``           ``' Leon Trotsky '``, ``'Subroto Mukarjee'``, ``'Red Fort'``, ``'darjeeling'``,``           ``'Japanese Encephalitis'``, ``'Mohd Hidayatullah '``, ``'Saina Nehwal'``,``           ``'Rabindranath Tagore '``, ``'Shiva'``]` `option4 ``=` `[``'Rohit Sharma'``, ``'Miserly'``, ``'8'``, ``'Udhampur'``, ``'English'``, ``'Hockey'``,``           ``'1976'``, ``'Australia'``, ``'Football'``, ``'Zaheer Khan'``, ``'Polo'``, ``'Tennis'``,``           ``'India'``, ``'Jaipur'``, ``'Running'``, ``'None of these'``, ``'Indigofera'``,``           ``'Cholera'``, ``'Australia'``, ``'None of these'``, ``'Badami'``, ``'Debridement'``,``           ``'Qatar'``, ``'Dafli'``, ``'Vladimir Lenin'``, ``'Aspy Engineer'``, ``'Mangalyaan'``,``           ``'Kohima'``, ``'Plague'``, ``'Zakir Hussain'``, ``'Jwala Gutta'``, ``'Mother Teresa'``,``           ``'Kamadeva'``]` `options ``=` `[option1, option2, option3, option4]` `# answer key``answer ``=` `[``2``, ``4``, ``2``, ``3``, ``3``, ``1``, ``1``, ``4``, ``2``, ``2``, ``2``, ``2``, ``2``, ``2``, ``1``,``          ``3``, ``4``, ``3``, ``3``, ``1``, ``2``, ``3``, ``1``, ``4``, ``4``, ``1``, ``4``, ``3``, ``3``, ``1``,``          ``3``, ``4``, ``3``]` `wrong ``=` `False` `# correct variable for total correct answer``correct ``=` `0``total_amt ``=` `0` `# option list for audience poll``opt1 ``=` `[``30``, ``24``, ``10``, ``0``, ``1``, ``72``, ``99``, ``0``, ``9``, ``2``, ``0``, ``2``, ``10``, ``1``,``        ``100``, ``1``, ``0``, ``3``, ``2``, ``98``, ``21``, ``35``, ``50``, ``40``, ``45``, ``65``, ``50``,``        ``48``, ``5``, ``70``, ``20``, ``30``, ``20``]` `opt2 ``=` `[``60``, ``32``, ``80``, ``0``, ``2``, ``5``, ``1``, ``1``, ``91``, ``94``, ``95``, ``87``, ``90``, ``96``,``        ``0``, ``0``, ``2``, ``12``, ``13``, ``1``, ``60``, ``20``, ``30``, ``2``, ``0``, ``20``, ``0``, ``1``, ``10``,``        ``12``, ``20``, ``20``, ``10``]` `opt3 ``=` `[``2``, ``4``, ``0``, ``100``, ``97``, ``0``, ``0``, ``1``, ``0``, ``2``, ``5``, ``11``, ``0``, ``3``, ``0``, ``99``,``        ``2``, ``82``, ``82``, ``0``, ``18``, ``40``, ``10``, ``4``, ``1``, ``10``, ``0``, ``50``, ``70``, ``15``,``        ``35``, ``10``, ``64``]` `opt4 ``=` `[``8``, ``40``, ``10``, ``0``, ``0``, ``23``, ``0``, ``98``, ``0``, ``2``, ``0``, ``0``, ``0``, ``0``, ``0``, ``0``,``        ``96``, ``3``, ``3``, ``1``, ``1``, ``5``, ``10``, ``54``, ``54``, ``5``, ``50``, ``1``, ``15``, ``3``, ``25``,``        ``40``, ``6``]` `opts ``=` `[opt1, opt2, opt3, opt4]` `condition, ques_no ``=` `1``, ``0` `while``(wrong !``=` `True``):``    ``ques_no ``+``=` `1``    ``ran ``=` `random.randint(``0``, ``len``(questions)``-``1``)``    ``print``(``"\n\nQ."``, ques_no, ``":-"``, end``=``"")``    ``print``(questions[ran])``    ` `    ``for` `num, option ``in` `enumerate``(options):``        ``print``(``str``(num``+``1``)``+``"."``+``option[ran])` `    ``print``("Would you like to take lifeline, ``if` `yes, press\``    ``9``\n Choose ``any` `option:  ``or` `you can quit by pressing ``0` `\t\t")``    ` `    ``give_answer ``=` `int``(``input``())``    ` `    ``if` `give_answer ``=``=` `9``:``      ` `        ``# condition variable is to count lifelines used``        ``if` `condition <``=` `4``:``            ``condition ``+``=` `1``            ``great ``=` `lifeline(ran, opts, op)``            ` `            ``if` `great ``=``=` `0``:``                ``if` `total_amt < ``10000``:``                    ``total_amt ``=` `0``                ``elif` `total_amt < ``320000``:``                    ``total_amt ``=` `10000``                ``elif` `total_amt < ``70000000``:``                    ``total_amt ``=` `320000``                ``break``            ` `            ``elif` `great ``=``=` `-``1``:``                ``ques_no ``-``=` `1``                ``pass` `            ``elif` `great ``=``=` `None``:``                ``print``(``"Choose any option or press 0 to quit\t"``)``                ``give_ansr ``=` `int``(``input``())``                ``if` `answer[ran] ``=``=` `give_ansr:``                    ``print``(``"Correct answer, great"``)``                    ``correct ``+``=` `1``            ` `            ``elif` `great ``=``=` `-``2``:``                ``break``            ` `            ``else``:``                ``correct ``+``=` `1``                ``print``(``"You have won Rs="``, end``=``"")``                ``total_amt ``=` `amount(correct)``        ` `        ``else``:``            ``print``(``                ``"You have used your ``all` `lifelines\t\n Choose ``any` `option:  \``                ``or` `you can quit by pressing ``0``\t\t")``            ``give_ans ``=` `int``(``input``())``            ``key ``=` `answer[ran]``            ` `            ``if` `give_ans ``=``=` `0``:``                ``total_amt ``=` `amount(correct)``                ``break``            ` `            ``elif` `key ``=``=` `give_ans:``                ``print``(``"Correct, You have won Rs. ="``, end``=``"")``                ``correct ``+``=` `1``                ``total_amt ``=` `amount(correct)``            ` `            ``else``:``                ``print``(``"Wrong Answer...."``)``                ``print``(``"Correct Answer is : "``, options[answer[ran]``-``1``][ran])``                ``if` `total_amt < ``10000``:``                    ``total_amt ``=` `0``                ``elif` `total_amt < ``320000``:``                    ``total_amt ``=` `10000``                ``elif` `total_amt < ``70000000``:``                    ``total_amt ``=` `32000``                ``wrong ``=` `True` `    ``else``:``        ``key ``=` `answer[ran]``        ` `        ``if` `give_answer ``=``=` `0``:``            ``if` `correct !``=` `0``:``                ``total_amt ``=` `amount(correct)``            ``break``        ` `        ``elif` `key ``=``=` `give_answer:``            ``print``(``"Correct answer.., You have won Rs.="``, end``=``"")``            ``correct ``+``=` `1``            ``total_amt ``=` `amount(correct)``        ` `        ``else``:``            ``print``(``"Wrong Answer...Better luck next time..."``)``            ``print``(``"Correct Answer is :"``, options[answer[ran]``-``1``][ran])``            ``if` `total_amt < ``10000``:``                ``total_amt ``=` `0``            ``elif` `total_amt < ``320000``:``                ``total_amt ``=` `10000``            ``elif` `total_amt < ``70000000``:``                ``total_amt ``=` `320000``            ``wrong ``=` `True``    ` `    ``if` `correct ``=``=` `16``:  ``# total questions are 16``        ``break``        ` `    ``# delete previous question and its options from list``    ``del` `questions[ran]``    ``del` `option1[ran]``    ``del` `option2[ran]``    ``del` `option3[ran]``    ``del` `option4[ran]``    ``del` `answer[ran]``    ``del` `opts[``0``][ran]``    ``del` `opts[``1``][ran]``    ``del` `opts[``2``][ran]``    ``del` `opts[``3``][ran]``    ``del` `op[``0``][ran]``    ``del` `op[``1``][ran]``    ``del` `op[``2``][ran]``    ``del` `op[``3``][ran]``    ``options ``=` `[option1, option2, option3, option4]``    ` `print``(``"Your winning amount is Rs. "``, total_amt)`

Output:

My Personal Notes arrow_drop_up