, , , , , ,

[SOLVED] CS61A Project 1-The Game of Hog Solution

$25

File Name: CS61A_Project_1-The_Game_of_Hog_Solution.zip
File Size: 376.8 KB

5/5 - (1 vote)

In Hog, two players alternate turns trying to be the rst to end a turn with at least 100 total points. On each turn, the current player chooses some number of dice to roll, up to 10. That players score for the turn is the sum of the dice outcomes. However, a player who rolls too many dice risks:Sow Sad. If any of the dice outcomes is a 1, the current players score for the turn is 1 .In a normal game of Hog, those are all the rules. To spice up the game, well include some special rules:Picky Piggy. A player who chooses to roll zero dice scores the n th digit of the decimal expansion of 1/7 (0.14285714), where n is the opponents score. As a special case, if n is 0, the player scores 7 points.Hog Pile. After points for the turn are added to the current players score, if the players scores are the same, the current players score doubles.You can try out the online Hog GUI with the sta solution to the project at hog.cs61a.org (https://hog.cs61a.org). When you nish the project, youll have implemented a signi cant part of this game yourself.To get started, download all of the project code as a zip archive (hog.zip). Below is a list of all the les you will see in the archive once unzipped. For the project, youll only be making changes to hog.py .hog.py : A starter implementation of Hog dice.py : Functions for rolling dice hog_gui.py : A graphical user interface (GUI) for Hog (updated) ucb.py : Utility functions for CS 61A ok : CS 61A autograder tests : A directory of tests used by ok gui_files : A directory of various things used by the web GUIcalc.py : A le you can use to approximately test your nal strategy (in progress)You may notice some les other than the ones listed above toothose are needed for making the autograder and portions of the GUI work. Please do not modify any les other than hog.py .The project is worth 25 points. 22 points are assigned for correctness, 2 points for composition, and 1 point for submitting Phase 1 by the checkpoint date.Important points update: The points for the project have been updated to more accurately re ect the question weights including points for project composition.If you downloaded the project zip le before Sunday (9/5), running the python3 ok -score command will be inaccurate. Theres no need to redownload the project les as this will not a ect your score on our end. However, if you could like to see the changes on your end while running score , you can redownload the project les and copy over the tests/ folder from the zip. You may have to re-unlock the test cases.You will turn in the following les:hog.pyYou do not need to modify or turn in any other les to complete the project. To submit the project, run the following command: python3 ok submitYou will be able to view your submissions on the Ok dashboard (http://ok.cs61a.org).For the functions that we ask you to complete, there may be some initial code that we provide. If you would rather not use that code, feel free to delete it and start from scratch.You may also add new function de nitions as you see t.However, please do not modify any other functions. Doing so may result in your code failing our autograder tests. Also, please do not change any function signatures (names, argument order, or number of arguments).Throughout this project, you should be testing the correctness of your code. It is good practice to test often, so that it is easy to isolate any problems. However, you should not be testing too often, to allow yourself time to think through problems.We have provided an autograder called ok to help you with testing your code and tracking your progress. The rst time you run the autograder, you will be asked to log in with your Ok account using your web browser. Please do so. Each time you run ok , it will back up your work and progress on our servers.The primary purpose of ok is to test your implementations.We recommend that you submit after you nish each problem. Only your last submission will be graded. It is also useful for us to have more backups of your code in case you run into a submission issue. If you forget to submit, your last backup will be automatically converted to a submission.If you do not want us to record a backup of your work or information about your progress, you can run python3 ok localWith this option, no information will be sent to our course servers. If you want to test your code interactively, you can runpython3 ok -q [question number] -iwith the appropriate question number (e.g. 01 ) inserted. This will run the tests for that question until the rst one you failed, then give you a chance to test the functions you wrote interactively.You can also use the debugging print feature in OK by writing print(DEBUG:, x)which will produce an output in your terminal without causing OK tests to fail with extra output.A graphical user interface (GUI, for short) is provided for you. At the moment, it doesnt work because you havent implemented the game logic. Once you complete the play function, you will be able to play a fully interactive version of Hog!Once youve done that, you can run the GUI from your terminal: python3 hog_gui.pyIn the rst phase, you will develop a simulator for the game of Hog.The dice.py le represents dice using non-pure zero-argument functions. These functions are non-pure because they may have di erent return values each time they are called. The documentation of dice.py describes the two di erent types of dice used in the project:A fair dice produces each possible outcome with equal probability. Two fair dice are already de ned, four_sided and six_sided , and are generated by the make_fair_dice function.A test dice is deterministic: it always cycles through a xed sequence of values that are passed as arguments. Test dice are generated by the make_test_dice function.Before writing any code, read over the dice.py le and check your understanding by unlocking the following tests. python3 ok -q 00 -uThis should display a prompt that looks like this:=====================================================================Assignment: Project 1: HogOk, version v1.18.2=====================================================================~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~Unlocking testsAt each ? , type what you would expect the output to be.Type exit() to quitQuestion 0 > Suite 1 > Case 1(cases remaining: 1)>>> test_dice = make_test_dice(4, 1, 2)>>> test_dice() ?You should type in what you expect the output to be. To do so, you need to rst gure out what test_dice will do, based on the description above.You can exit the unlocker by typing exit() .Typing Ctrl-C on Windows to exit out of the unlocker has been known to cause problems, so avoid doing so.In general, for each of the unlocking tests, you might nd it helpful to read through the provided skeleton for that problem before attempting the unlocking test.Implement the roll_dice function in hog.py . It takes two arguments: a positive integer called num_rolls giving the number of dice to roll and a dice function. It returns the number of points scored by rolling the dice that number of times in a turn: either the sum of the outcomes or 1 (Sow Sad).Sow Sad. If any of the dice outcomes is a 1, the current players score for the turn is 1 .To obtain a single outcome of a dice roll, call dice() . You should call dice() exactlynum_rolls times in the body of roll_dice . Remember to call dice() exactly num_rollstimes even if Sow Sad happens in the middle of rolling. In this way, you correctly simulate rolling all the dice together.Understand the problem:Before writing any code, unlock the tests to verify your understanding of the question. Note:you will not be able to test your code using ok until you unlock the test cases for the corresponding question. python3 ok -q 01 -uWrite code and check your work:Once you are done unlocking, begin implementing your solution. You can check your correctness with: python3 ok -q 01Implement picky_piggy , which takes the opponents current score and returns the number of points scored by rolling 0 dice.Picky Piggy. A player who chooses to roll zero dice scores the n th digit of the decimal expansion of 1/7 (0.14285714), where n is the opponents score. As a special case, if n is 0, the player scores 7 points.The goal of this question is for you to practice retrieving the digits of a number, so it may be helpful to keep in mind the techniques used in previous assignments for digit iteration.However, your code should not use str , lists, or contain square brackets [ ] in your implementation. Aside from this constraint, you can otherwise implement this function how you would like to.Note: Remember to remove the *** YOUR CODE HERE *** string from the function once youve implemented it so that youre not getting an unintentional str check error.If the syntax check isnt passing on the docstring, try upgrading your Python version to 3.8 or 3.9. It seems that the docstring being included in the check is speci c to Python version 3.7, so updating your Python version should resolve the issue.Hint: The decimal expansion of 1/7 is a 6-digit repeating decimal with the digits 142857. Therefore, the 2nd digit is the same as the 8th digit, the 14th, 20th, 26th, 32nd, etc.Before writing any code, unlock the tests to verify your understanding of the question. python3 ok -q 02 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with: python3 ok -q 02You can also test picky_piggy interactively by entering python3 -i hog.py in the terminal and then calling picky_piggy with various inputs.Implement the take_turn function, which returns the number of points scored for a turn by rolling the given dice num_rolls times.Your implementation of take_turn should call both roll_dice and picky_piggy when possible.Before writing any code, unlock the tests to verify your understanding of the question. python3 ok -q 03 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with:python3 ok -q 03Pair programming? (/articles/pair-programming) Remember to alternate between driver and navigator roles. The driver controls the keyboard; the navigator watches, asks questions, and suggests ideas.Implement hog_pile , which takes the current player and opponent scores and returns the points that the current player will receive due to Hog Pile. If Hog Pile is not applicable, the current player could also recieve 0 additional points.Hog Pile. After points for the turn are added to the current players score, if the players scores are the same, the current players score doubles.Before writing any code, unlock the tests to verify your understanding of the question. python3 ok -q 04 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with: python3 ok -q 04Implement the play function, which simulates a full game of Hog. Players take turns rolling dice until one of the players reaches the goal score. A turn is de ned as one roll of the dice.To determine how many dice are rolled each turn, each player uses their respective strategy (Player 0 uses strategy0 and Player 1 uses strategy1 ). A strategy is a function that, given a players score and their opponents score, returns the number of dice that the current player will roll in the turn. Dont worry about implementing strategies yet; youll do that in Phase 3.Important: Your implementation should only need to use a single loop; you dont need multiple loops. This might not a ect passing the test cases if your logic is correct overall, but this could a ect your composition (https://cs61a.org/articles/composition/) grade for the project. Heres the section of the syllabus on composition for projects (https://cs61a.org/articles/about#projects).Additionally, each strategy function should be called only once per turn. This means you only want to call strategy0 when it is Player 0s turn and only call strategy1 when it is Player 1s turn. Otherwise, the GUI and some ok tests may get confused.If a player achieves the goal score by the end of their turn, i.e. after all applicable rules have been applied, the game ends. play will then return the nal total scores of both players, with Player 0s score rst and Player 1s score second.Hints:You should call the functions you have implemented already.Call take_turn with four arguments (dont forget to pass in the goal ). Only calltake_turn once per turn.Call hog_pile to determine if the current player will gain additional points due toHog Pile, and if so, how many points.You can get the number of the next player (either 0 or 1) by calling the provided function next_player .You can ignore the say argument to the play function for now. You will use it in Phase 2 of the project.For the unlocking tests, hog.always_roll refers to the always_roll function de ned in hog.py .Before writing any code, unlock the tests to verify your understanding of the question. python3 ok -q 05 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with: python3 ok -q 05Once you are nished, you will be able to play a graphical version of the game. We have provided a le called hog_gui.py that you can run from the terminal:python3 hog_gui.pyThe GUI relies on your implementation, so if you have any bugs in your code, they will be re ected in the GUI. This means you can also use the GUI as a debugging tool; however, its better to run the tests rst.Make sure to submit your work so far before the checkpoint deadline: python3 ok submitCheck to make sure that you did all the problems in Phase 1: python3 ok scoreCongratulations! You have nished Phase 1 of this project!Pair programming? (/articles/pair-programming) This would be a good time to switch roles. Switching roles makes sure that you both bene t from the learning experience of being in each role.In the second phase, you will implement commentary functions that print remarks about the game after each turn, such as: 22 point(s)! Thats a record gain for Player 1!A commentary function takes two arguments, Player 0s current score and Player 1s current score. It can print out commentary based on either or both current scores and any other information in its parent environment. Since commentary can di er from turn to turn depending on the current point situation in the game, a commentary function always returns another commentary function to be called on the next turn. The only side e ect of a commentary function should be to print.The function say_scores in hog.py is an example of a commentary function that simply announces both players scores. Note that say_scores returns itself, meaning that the same commentary function will be called each turn.def say_scores(score0, score1):A commentary function that announces the score for each player. print(Player 0 now has, score0, and Player 1 now has, score1) return say_scoresThe function announce_lead_changes is an example of a higher-order function that returns a commentary function that tracks lead changes. A di erent commentary function will be called each turn.def announce_lead_changes(last_leader=None):Return a commentary function that announces lead changes.>>> f0 = announce_lead_changes()>>> f1 = f0(5, 0)Player 0 takes the lead by 5>>> f2 = f1(5, 12)Player 1 takes the lead by 7>>> f3 = f2(8, 12)>>> f4 = f3(8, 13)>>> f5 = f4(15, 13)Player 0 takes the lead by 2 def say(score0, score1): if score0 > score1:leader = 0 elif score1 > score0:leader = 1 else:leader = None if leader != None and leader != last_leader:print(Player, leader, takes the lead by, abs(score0 score1)) return announce_lead_changes(leader) return sayYou should also understand the function both , which takes two commentary functions ( f and g ) and returns a new commentary function. This returned commentary function returns another commentary function which calls the functions returned by calling f and g , in that order.def both(f, g):Return a commentary function that says what f says, then what g says.>>> h0 = both(say_scores, announce_lead_changes())>>> h1 = h0(10, 0)Player 0 now has 10 and Player 1 now has 0Player 0 takes the lead by 10>>> h2 = h1(10, 8)Player 0 now has 10 and Player 1 now has 8>>> h3 = h2(10, 17)Player 0 now has 10 and Player 1 now has 17Player 1 takes the lead by 7 def say(score0, score1):return both(f(score0, score1), g(score0, score1)) return sayUpdate your play function so that a commentary function is called at the end of each turn. The return value of calling a commentary function gives you the commentary function to call on the next turn.For example, say(score0, score1) should be called at the end of the rst turn. Its return value (another commentary function) should be called at the end of the second turn. Each consecutive turn, call the function that was returned by the call to the previous turns commentary function.Before writing any code, unlock the tests to verify your understanding of the question. python3 ok -q 06 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with:python3 ok -q 06Implement the announce_highest function, which is a higher-order function that returns a commentary function. This commentary function announces whenever a particular player gains more points in a turn than ever before. For example, announce_highest(1) ignores Player 0 entirely and just prints information about Player 1. (So does its return value; another commentary function about only Player 1.)To compute the gain, it must compare the score from last turn ( last_score ) to the score from this turn for the player of interest (designated by the who argument). This function must also keep track of the highest gain for the player so far, which is stored asrunning_high .The way in which announce_highest announces is very speci c, and your implementation should match the doctests provided. Dont worry about singular versus plural when announcing point gains; you should simply use point(s) for both cases.Hint: The announce_lead_changes function provided to you is an example of how to keep track of information using commentary functions. If you are stuck, rst make sure you understand how announce_lead_changes works.Hint: If youre getting a local variable [var] reference before assignment error:This happens because in Python, you arent normally allowed to modify variables de ned in parent frames. Instead of reassigning [var] , the interpreter thinks youre trying to de ne a new variable within the current frame. Well learn about how to work around this in a future lecture, but it is not required for this problem.To x this, you have two options:Before writing any code, unlock the tests to verify your understanding of the question.python3 ok -q 07 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with: python3 ok -q 07When you are done, you will see commentary in the GUI: python3 hog_gui.pyThe commentary in the GUI is generated by passing the following function as the say argument to play . both(announce_highest(0), both(announce_highest(1), announce_lead_changes()))Great work! You just nished Phase 2 of the project!Pair programming? (/articles/pair-programming) Celebrate, take a break, and switch roles!In the third phase, you will experiment with ways to improve upon the basic strategy of always rolling a xed number of dice. First, you need to develop some tools to evaluate strategies.Implement the make_averaged function, which is a higher-order function that takes a function original_function as an argument.The return value of make_averaged is a function that takes in the same number of arguments as original function . When we call this returned function on arguments, it will return the average value of repeatedly calling original_function on the arguments passed in.Speci cally, this function should call original_function a total of trials_count times and return the average of the results of these calls.Read the docstring for make_averaged carefully to understand how it is meant to work. Before writing any code, unlock the tests to verify your understanding of the question. python3 ok -q 08 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with: python3 ok -q 08Implement the max_scoring_num_rolls function, which runs an experiment to determine the number of rolls (from 1 to 10) that gives the maximum average score for a turn. Your implementation should use make_averaged and roll_dice .If two numbers of rolls are tied for the maximum average score, return the lower number.For example, if both 3 and 6 achieve a maximum average score, return 3.You might nd it useful to read the doctest and the example shown in the doctest for this problem before doing the unlocking test.Important: In order to pass all of our tests, please make sure that you are testing dice rolls starting from 1 going up to 10, rather than starting from 10 to 1.Before writing any code, unlock the tests to verify your understanding of the question. python3 ok -q 09 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with: python3 ok -q 09Running experiments:To run this experiment on randomized dice, call run_experiments using the -r option: python3 hog.py -rFor the remainder of this project, you can change the implementation of run_experiments as you wish. The function includes calls to average_win_rate for evaluating various Hog strategies, but most of the calls are currently commented out. You can un-comment the calls to try out strategies, like to compare the win rate for always_roll(8) to the win rate foralways_roll(6) .Some of the experiments may take up to a minute to run. You can always reduce the number of trials in your call to make_averaged to speed up experiments.Running experiments wont a ect your score on the project.Pair programming? (/articles/pair-programming) We suggest switching roles now, if you havent recently. Almost done!A strategy can try to take advantage of the Picky Piggy rule by rolling 0 when it is most bene cial to do so. Implement picky_piggy_strategy , which returns 0 whenever rolling 0 would give at least cutoff points and returns num_rolls otherwise.Before writing any code, unlock the tests to verify your understanding of the question. python3 ok -q 10 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with: python3 ok -q 10Once you have implemented this strategy, change run_experiments to evaluate your new strategy against the baseline. Is this strategy an improvement over the baseline?A strategy can also take advantage of the Hog Pile rules. The Hog Pile strategy always rolls 0 if doing so triggers the rule. In other cases, it rolls 0 if rolling 0 would give at least cutoff points. Otherwise, the strategy rolls num_rolls .Hint: You can use the function picky_piggy_strategy you de ned in Problem 10.Hint: Remember that the hog_pile check should be done after the points frompicky_piggy have been added to the score.Before writing any code, unlock the tests to verify your understanding of the question. python3 ok -q 11 -uOnce you are done unlocking, begin implementing your solution. You can check your correctness with: python3 ok -q 11Once you have implemented this strategy, update run_experiments to evaluate your new strategy against the baseline.Implement final_strategy , which combines these ideas and any other ideas you have to achieve a high win rate against the baseline strategy. Some suggestions:picky_piggy_strategy or hog_pile_strategy are default strategies you can start with. If you know the goal score (by default it is 100), theres no point in scoring more than the goal. Check whether you can win by rolling 0, 1 or 2 dice. If you are in the lead, you might decide to take fewer risks.Choose the num_rolls and cutoff arguments carefully.Take the action that is most likely to win the game.You can check that your nal strategy is valid by running ok . python3 ok -q 12You can also play against your nal strategy with the graphical user interface: python3 hog_gui.pyThe GUI will alternate which player is controlled by you.At this point, run the entire autograder to see if there are any tests that dont pass: python3 okYou can also check your score on each part of the project: python3 ok scoreOnce you are satis ed, submit to complete the project. python3 ok submitIf you have a partner, make sure to add them to the project submission on okpy (https://okpy.org).Congratulations, you have reached the end of your rst CS 61A project! If you havent already, relax and enjoy a few games of Hog with a friend.If youre interested, you can take your implementation of Hog one step further by participating in the Hog Contest, where you play your final_strategy against those of other students. The winning strategies will receive extra credit and will be recognized in future semesters!To see more, read the contest description (/proj/hog_contest). Or check out the leaderboard (https://hog-contest.cs61a.org).

Reviews

There are no reviews yet.

Only logged in customers who have purchased this product may leave a review.

Shopping Cart
[SOLVED] CS61A Project 1-The Game of Hog Solution
$25