def gameloop():
        #步驟一:印出提示訊息
        print("請猜出 0 到 9 之間的正整數...")
        print("總共有三次機會猜出正確數字...")
        print("準備好了嗎...")

        #步驟二:建立計算核心物件
        g = Guess()

        #步驟三:遊戲的主要迴圈
        count = 0  #記錄次數
        flag = 0  #記錄答對與否
        while count < 3:
            count += 1
            n = input("請輸入:")

            result = g.answer(int(n))
            if result == 0:
                #步驟四之一:答對
                print("答對!")
                print("你猜了" + str(count) + "次...")
                flag = 1
            elif result == 1:
                print("大一點!")
            elif result == 2:
                print("小一點!")
            else:
                print("不正確的輸入...")

            if flag == 1:
                break

        #步驟四之二:沒有答對
        if flag == 0:
            print("猜了三次也沒猜對,答案是" + str(g.number) + "。")
Exemple #2
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def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())

    finished = False
    hangman = Hangman()
    maxTries = hangman.getLife()

    while guess.numTries < maxTries:

        display = hangman.get(maxTries - guess.numTries)
        print(display)
        guess.display()

        guessedChar = input('Select a letter: ')

        finished = guess.guess(guessedChar)
        if finished:
            break

    if finished:
        print('Success')
    else:
        print(hangman.get(0))
        print('word [' + guess.word + ']')
        print("Guess:", end=" ")
        for i in range(len(guess.current)):
            print(guess.current[i], end=" ")
        print()
        print('Fail')
Exemple #3
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def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())
    hangman = Hangman()
    UI = TextUI(guess, hangman)

    while hangman.getLife() > 0:
        guessedChar = input("Select a letter: ")
        # 잘못된 입력에 대한 처리
        if len(guessedChar) is not 1:
            UI.errorPrint("""
            =================================
            =====Input just one character====
            =================================""")
            continue
        if guessedChar in guess.guessedList:
            UI.errorPrint("""
            =================================
            =====Input another character=====
            =================================""")
            continue
        # Guess결과에 따른 처리
        result = guess.guess(guessedChar)
        if result is 1:
            break
        if result is 0:
            hangman.minusLife()
        UI.display()
    UI.display()
    UI.endOfGame(hangman.getLife())
def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())

    finished = False
    hangman = Hangman()
    maxTries = hangman.getLife()

    while guess.numTries < maxTries:

        display = hangman.get(maxTries - guess.numTries)
        print(display)
        guess.display()

        guessedChar = input('Select a letter: ')
        if len(guessedChar) != 1:
            print('One character at a time!')
            continue
        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue

        finished = guess.guess(guessedChar)
        if finished == True:
            break

    if finished == True:
        print('Success')
    else:
        print(hangman.get(0))
        print('word [' + guess.secretWord + ']')
        print('guess [' + guess.currentWord + ']')
        print('Fail')
Exemple #5
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def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())  # 랜덤하게 단어선택

    finished = False
    hangman = Hangman()
    maxTries = hangman.getLife()  # 목숨의 개수를 초기화 시킴

    while guess.numTries < maxTries:  # 목숨이 몇개 남았는지 체크해줌

        display = hangman.get(maxTries - guess.numTries)
        print(display)
        guess.display()

        guessedChar = input('Select a letter: ')
        if len(guessedChar) != 1:  # 한글자가 아니면
            print('One character at a time!')
            continue
        if guessedChar in guess.guessedChars:  # 이미 사용한 문자라면
            print('You already guessed \"' + guessedChar + '\"')
            continue

        finished = guess.guess(guessedChar)
        if finished == True:
            break

    if finished == True:
        print('Success')
        print('word : ' + guess.secretWord)
    else:
        print(hangman.get(0))
        print('word [' + guess.secretWord + ']')
        print('guess [' + guess.currentStatus + ']')
        print('Fail')
Exemple #6
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    def main(self):
        game = Guess()
        game.setMaxTarget(sys.argv)
        playAgain = "y"
        regexYes = re.compile(r"^(y|yes)$")

        while regexYes.search(playAgain) != None:
            game.setTarget()
            print(
                "\nI've chosen a number between 1 and %d inclusive. You guess it..."
                % (game.max()))
            nTurns = 0
            guess = -1
            while guess != game.target():
                nTurns += 1
                padPrompt = " " * (len(str(999)) - len(str(nTurns)))
                s = "%s[%d] Enter your guess (1-%d inclusive): " % (
                    padPrompt, nTurns, game.max())
                guess = self.getGuess(s)
                #print("target: %d;  guess: %d" % (game.target(), guess))

                (success, msg) = game.isSuccessful(guess, nTurns)
                print(msg)
            playAgain = input(
                "Do you want to play again? (y/n) ").strip().lower()
Exemple #7
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class MainDish:

	def __init__(self):
		self.button_pin = 33

		GPIO.setmode(GPIO.BOARD)
		GPIO.setup(self.button_pin, GPIO.IN) 
		GPIO.add_event_detect(self.button_pin, GPIO.FALLING)
		
		# img 폴더 안에 있던 이미지 모두 삭제
		for file in os.scandir('../data/img'):
			os.remove(file.path)
		for file in os.scandir('../data/board_img'):
			os.remove(file.path)

		# 웹캠 사용해서 식판 스캔
		self.cap = cv2.VideoCapture(-1) 
		self.cap.set(cv2.CAP_PROP_FRAME_WIDTH, 640)
		self.cap.set(cv2.CAP_PROP_FRAME_HEIGHT, 480)
		ret, self.img = self.cap.read()

		cv2.imwrite('../data/board_img/Scanned_image.jpg',self.img, params=[cv2.IMWRITE_JPEG_QUALITY,70])
		self.cap.release()

		# 젓가락의 위치
		self.Cx, self.Cy = 0, 0

		# keras 미리 로딩
		self.guess = Guess()

		# 모든 클래스의 객체생성
		# 1. 급식판 좌표

		self.board = Board()
		self.board.get_target_area()
		self.board.board_frgm_board()

		# 3. keras로 음식 맞추기 
		self.guess.realGuess()  # 일단 급식판에 무슨 음식이 있는지 학습
		self.answer = self.guess.matchFood(self.Cx, self.Cy, self.board.box_x, self.board.box_y)


	def goingOn(self):  # 여기 callback으로 matchfood 넣을지 고민
		t = Tracker()
		Tracker_thread = Thread(target = t.track_point) 
		Tracker_thread.start()
		while (True):
			if GPIO.event_detected(self.button_pin):

				self.Cx , self.Cy = t.get_track_point()
				# 젓가락의 위치랑 이미지의 픽셀값안에 있나 확인해서 음식명 출력
				print(self.Cx , self.Cy)
				self.answer = self.guess.matchFood(self.Cx, self.Cy, self.board.box_x, self.board.box_y)
				print(self.answer)
				sound = Sound(self.answer)

				GPIO.remove_event_detect(self.button_pin)
				time.sleep(0.3)
				GPIO.add_event_detect(self.button_pin, GPIO.FALLING)
Exemple #8
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 def testfinished(self):
     t1 = Guess('a')
     self.assertEqual(t1.secretWord, 'a')
     t2 = Guess('toomuchhomework')
     self.assertEqual(t2.secretWord, 'toomuchhomework')
     t3 = Guess('chicken')
     self.assertEqual(t3.secretWord, 'chicken')
     print('finished test ended')
    def startGame(self):
        self.hangman = Hangman()
        self.guess = Guess(self.word.randFromDB())
        self.gameOver = False

        self.hangmanWindow.setPlaceholderText(self.hangman.currentShape())
        self.currentWord.setText(self.guess.displayCurrent())
        self.guessedChars.setText(self.guess.displayGuessed())
        self.message.clear()
    def __init__(self):
        self.g = Guess()
        self.count = 0
        self.flag = 0

        self.app = View(master=Tk())
        self.app.guess["command"] = self.guess
        self.app.again["command"] = self.again
        self.app.mainloop()
def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())
    hangman = Hangman()

    while hangman.remainingLives > 0:

        display = hangman.currentShape()
        print(display)
        display = guess.displayCurrent()
        print('Current: ' + display)
        display = guess.displayGuessed()
        print('Already Used: ' + display)

        success = guess.guess(getChar())
        if success == 1:
            continue
        elif success == 2:
            continue
        elif success == False:
            hangman.decreaseLife()
        
        if guess.finished():
            break

    if guess.finished() == True:
        print('**** ' + guess.displayCurrent() + ' ****')
        print('Success')
    else:
        print(hangman.currentShape())
        print('word [' + guess.secretWord + ']')
        print('guess [' + guess.displayCurrent() + ']')
        print('Fail')
Exemple #12
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    def startGame(self):
        self.hangman = Hangman()
        self.guess = Guess(self.word.randFromDB(5))
        font = self.currentWord.font()
        self.currentWord.setFixedWidth((font.pointSize() + 5) * len(self.guess.displaySecretWord()))
        self.gameOver = False

        self.hangmanWindow.setPlaceholderText(self.hangman.currentShape())
        self.currentWord.setText(self.guess.displayCurrent())
        self.guessedChars.setText(self.guess.displayGuessed())
        self.message.clear()
Exemple #13
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    def startGame(self):
        self.hangman = Hangman()
        self.guess = Guess(self.word.randFromDB(2))
        self.gameOver = False
        self.pixelofword = len(self.guess.secretWord) * 20
        self.currentWord.setFixedWidth(self.pixelofword)

        self.hangmanWindow.setPlaceholderText(self.hangman.currentShape())
        self.currentWord.setText(self.guess.displayCurrent())
        self.guessedChars.setText(self.guess.displayGuessed())
        self.message.clear()
Exemple #14
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def gameMain():
    '''게임 구동 과정'''

    # 파일에 있는 단어 정리 및 갯수 알려주기
    word = Word('aabbcc.txt')

    # 파일안에 있는 단어 랜덤적으로 가져온다.
    guess = Guess(word.randFromDB())

    # 처음에는 단어가 완성이 안돼있으니 False 출력
    finished = False

    # 목숨갯수(maxTries = 6)초기화
    hangman = Hangman()
    maxTries = hangman.getLife()

    # numTries(현재 남은 목숨갯수)가 6보다 크거나 같을 때가지 실행
    while guess.numTries < maxTries:

        # 시각적으로 행맨을 보여준다 (남은 목숨갯수에 맞게)
        # 6 -> 0
        display = hangman.get(maxTries - guess.numTries)
        print(display)
        guess.display()

        guessedChar = input('Select a letter: ')

        # 알파벳 한개만 적기 #
        if len(guessedChar) != 1:
            print('One character at a time!')
            continue
        # guessedChars는 이미적은 알파벳을 모아 놓은 곳
        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue

        # 입력된 알파벳이 랜덤단어안에 있는지 확인
        # 단어가 완성 되었는지
        finished = guess.guess(guessedChar)
        if finished == True:
            break

    # 알파벳이 존재한다면 성공
    if finished == True:
        print('Success')

    # 만약 제안된 기회 안에 단어를 완성하지못했다면
    else:
        # 매달린 남자 보여주기
        print(hangman.get(0))
        #사용한 알파벳, 기회가용횟수, 실패
        print('word was [' + guess.secretWord + ']')
        print('guess [' + guess.currentStatus + ']')
        print('Fail')
Exemple #15
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    def test_collision(self):
        sample_clue = Clue(0, 2, 4, "D", "", 0, "KIND")
        sample_clue_2 = Clue(0, 3, 5, "D", "", 1, "SPACE")
        sample_clue_3 = Clue(2, 0, 4, "A", "", 2, "IDEA")

        sample_guess = Guess(sample_clue, "KIND", 4)
        sample_guess_2 = Guess(sample_clue_2, "SPACE", 6)
        sample_guess_3 = Guess(sample_clue_3, "IDEA", 5)

        self.assertEqual(None, collide(sample_guess, sample_guess_2))
        self.assertEqual(None, collide(sample_guess_3, sample_guess_2))
        self.assertEqual((sample_guess, sample_guess_3),
                         collide(sample_guess, sample_guess_3))
Exemple #16
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def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())
    hangman = Hangman()

    while hangman.remainingLives > 0:

        display = hangman.currentShape()
        print(display)
        display = guess.displayCurrent()
        print('Current: ' + display)
        display = guess.displayGuessed()
        print('Already Used: ' + display)

        guessedChar = input('Select a letter: ')
        if len(guessedChar) != 1:
            print('One character at a time!')
            continue
        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue

        success = guess.guess(guessedChar)
        if success == False:
            hangman.decreaseLife()

        if guess.finished() == True:
            print('**** ' + guess.displayCurrent() + ' ****')
            print('Success')
            break
    else:
        print(hangman.currentShape())
        print('word [' + guess.secretWord + ']')
        print('guess [' + guess.displayCurrent() + ']')
        print('Fail')
def gameMain():
    word = Word('words.txt')
    #guess 는 Guess 클래스에 랜덤으로 단어 하나를 인자로 던진 것
    guess = Guess(word.randFromDB())

    finished = False
    hangman = Hangman()
    #목숨의 개수를 초기화
    maxTries = hangman.getLife()
    #실패한 횟수가 목숨보다 적으면 계속 실행
    while guess.numTries < maxTries:
        #display라는 변수를 통해 만들어서 행맨 모양을 불러옴
        display = hangman.get(maxTries - guess.numTries)
        #행맨 모양 출력
        print(display)
        #Current 와 Tries 출력
        guess.display()
        #입력한 문자를 guessedChar라고 함
        guessedChar = input('Select a letter: ')
        #입력한 문자가 한글자가 아니라면
        if len(guessedChar) != 1:
            print('One character at a time!')
            continue
        #입력한 문자가 대문자라면
        if 65 <= ord(guessedChar) <= 90:
            #소문자로 변경
            guessedChar = chr(ord(guessedChar) + 32)
        #입력한 문자가 이미 입력했던 문자라면
        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue
        #알파벳 이외의 다른 모든 경우의 수를 차단
        if ord(guessedChar) <= 64 or 91 <= ord(
                guessedChar) <= 96 or 123 <= ord(guessedChar):
            print('Please enter the alphabet!')
            continue
        #guess 모듈로 넘어가서 입력한 문자에 대해 처리
        finished = guess.guess(guessedChar)
        #단어가 완성되었을 때 while 탈출
        if finished == True:
            break

    if finished == True:
        print('Success')
    #단어가 완성되어서 탈출한게 아니라 목숨의 개수가 다달아서 False인 상태에서 while문을 빠져나온 경우
    else:
        print(hangman.get(0))
        print('word [' + guess.secretWord + ']')
        print('guess [' + ''.join(guess.currentStatus) + ']')
        print('Fail')
Exemple #18
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    def test_check_fit(self):
        sample_clue = Clue(0, 2, 4, "D", "", 0, "KIND")
        sample_clue_2 = Clue(0, 3, 5, "D", "", 1, "SPACE")
        sample_clue_3 = Clue(2, 0, 4, "A", "", 2, "IDEA")

        grid = init_grid([sample_clue, sample_clue_2, sample_clue_3], 5)

        sample_guess = Guess(sample_clue, "KIND", 4)
        sample_guess_2 = Guess(sample_clue_2, "SPACE", 6)
        sample_guess_3 = Guess(sample_clue_3, "IDEASS", 5)

        self.assertEqual("fit", check_fit(grid, sample_guess))
        self.assertEqual("fit", check_fit(grid, sample_guess_2))
        self.assertEqual("bounds_error", check_fit(grid, sample_guess_3))
Exemple #19
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    def test_find_best_set(self):
        sample_clue = Clue(0, 2, 4, "D", "", 0, "KIND")
        sample_clue_2 = Clue(0, 3, 5, "D", "", 1, "SPACE")
        sample_clue_3 = Clue(2, 0, 4, "A", "", 2, "IDEA")

        sample_guess = Guess(sample_clue, "KIND", 4)
        sample_guess_2 = Guess(sample_clue_2, "SPACE", 6)
        sample_guess_3 = Guess(sample_clue_3, "IDEA", 5)

        guess_set = set()
        guess_set.add(sample_guess)
        guess_set.add(sample_guess_2)
        returned_set = find_best_guess_set(guess_set, sample_guess_3)

        self.assertEqual(set([sample_guess_2, sample_guess_3]), returned_set)
Exemple #20
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    def startGame(self):
        self.hangman = Hangman()
        self.guess = Guess(self.word.randFromDB(20))
        self.gameOver = False

        if len(self.guess.secretWord) >=10:
            font = self.currentWord.font()
            font.setPointSize(font.pointSize())
            self.currentWord.setFont(font)


        self.hangmanWindow.setPlaceholderText(self.hangman.currentShape())
        self.currentWord.setText(self.guess.displayCurrent())
        self.guessedChars.setText(self.guess.displayGuessed())
        self.message.clear()
Exemple #21
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    def test_matrix_score(self):
        sample_clue = Clue(0, 2, 4, "D", "", 0, "KIND")
        sample_clue_2 = Clue(0, 3, 5, "D", "", 1, "SPACE")
        sample_clue_3 = Clue(2, 0, 4, "A", "", 2, "IDEA")

        sample_guess = Guess(sample_clue, "KIND", 4)
        sample_guess_2 = Guess(sample_clue_2, "SPACE", 6)
        sample_guess_3 = Guess(sample_clue_3, "IDEA", 5)

        grid_empty = init_grid([sample_clue, sample_clue_2, sample_clue_3], 5)
        grid_from_guesses = make_grid_from_guesses(
            [sample_guess, sample_guess_2, sample_guess_3],
            [sample_clue, sample_clue_2, sample_clue_3], 5)

        self.assertEqual(0, matrix_score(grid_empty))
        self.assertEqual(11 / 25, matrix_score(grid_from_guesses))
def get_blank_answers(clue:Clue,limit=10,words_only=True):
    """Takes in a fill-in-the-blank clue and returns a list of possible answers from Google"""
    
    if clue not in google_cache.keys():
        # quote wrap and google
        q = '"{}"'.format(clue.get_description().lower())
        results = " ".join(i for i in search_google(q))

        # regex search only for the words immediately before and after the blank
        q_split = q.split(" ")
        q_around_blank = " ".join([q_split[q_split.index("*")-1],"*",q_split[q_split.index("*")+1]])
        regex = q_around_blank.replace("*",".{{{}}}".format(clue.get_length())).strip('"')
        r = re.compile(regex)

        matches = re.findall(r,results)
        words = []
        for match in matches:
            for word in match.split(" "):
                if word.lower() not in regex.split(" "):
                    words.append(word)
        scores = score_words(words)
        ret = [Guess(clue, word, score) for word, score in scores]
        google_cache[clue] = ret
        return ret[:limit]
    else:
        return google_cache[clue][:limit]
Exemple #23
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def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())

    finished = False
    hangman = Hangman()

    while hangman.remainingLives > 0:

        display = hangman.currentShape()
        print(display)
        guess.displayCurrent()
        print("used letter: ")
        print()
        for i in string.ascii_lowercase:
            if i in guess.guessedChars:
                print(colored(i, 'red'), end=' ')
            else:
                print(colored(i, 'green'), end=' ')
        print()
        print()

        guessedChar = input('Select a letter: ')
        if len(guessedChar) != 1:
            print('One character at a time!')
            continue
        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue

        success = guess.guess(guessedChar)
        print(success)
        if not success:
            hangman.decreaseLife()
        if guess.finished():
            break

    if guess.finished():
        print(guess.displayCurrent())
        print('Success')
    else:
        print(hangman.currentShape())
        print(guess.secretWord)
        guess.displayCurrent()
        print('Fail')
Exemple #24
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def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())

    finished = False
    hangman = Hangman()
    maxTries = hangman.getLife()

    while guess.numTries < maxTries:

        display = hangman.get(maxTries - guess.numTries)
        print(display)
        guess.display()

        guessedChar = input('Select a letter: ').lower()  # 대문자가 들어와도 소문자로 취급
        # []안의 내용을 컴파일하여 정규식 객체를 반환
        r = re.compile('[^ ㄱ-ㅣ가-힣]+')
        #guessedChar에서 공백을 제외한 문자들을 문자열로 반환
        result = r.sub('', guessedChar)

        if guessedChar.isdigit():
            print("알파벳을 입력해 주세요.")
            continue
        elif guessedChar in result:
            print("알파벳을 입력해 주세요.")
            continue
        if len(guessedChar) != 1:
            print('One character at a time!')
            continue
        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue

        finished = guess.guess(guessedChar)
        if finished == True:
            break

    if finished == True:
        print('Success')
    else:
        print(hangman.get(0))
        print('word [' + guess.secretWord + ']')
        print('guess [' + guess.currentStatus + ']')
        print('Fail')
Exemple #25
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def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())  #랜덤 단어 선택

    finished = False
    hangman = Hangman()
    maxTries = hangman.getLife()  #목숨개수 초기화

    while guess.numTries < maxTries:
        # numTries는 추측 실패 횟수
        display = hangman.get(maxTries - guess.numTries)
        print(display)
        guess.display()

        guessedChar = input('Select a letter: ')
        # 입력받은 문자열이 1개의 문자가 아닐 때
        if len(guessedChar) != 1:
            print('One character at a time!')
            continue
        # 입력받은 문자가 이미 이전에 입력받은 것일 떄
        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue
        # 입력받은 문자가 a~z가 아닐 때
        if guessedChar < 'a' or guessedChar > 'z':
            print('please enter a character between a and z')
            continue
        #전체 문자 맞추면 while문 break 하고 Success 프린트
        finished = guess.guess(guessedChar)
        if finished == True:
            break

    if finished == True:
        print()
        print(guess.secretWord)
        print('Success!')
        print('You win by trying', guess.numTries, 'Times')
    #허용된 횟수 내에 전체 문자 못 맞추면 hangman.text[0] 출력, 즉 목 매다는 그림 출력
    else:
        print(hangman.get(0))
        print('word [' + guess.secretWord + ']')
        print()
        print('Fail')
        print("The word was", guess.secretWord)
def gameMain():
    #Word클래스로 만든 오브젝트 
    word = Word('words.txt')
    #guess 는 랜덤 단어로 만든 Guess의 오브젝트
    guess = Guess(word.randFromDB())
    #
    finished = False
    #Hangman의 오브젝트 만들어서 남은생명
    hangman = Hangman()
    #남은생명==리스트 아이템 개수
    maxTries = hangman.getLife()

    #아마 numtries는 실행횟수 일듯@@@@@@@@@
    #실행횟수 < 남은생명 일때.. loop
    while guess.numTries < maxTries:
        #현재 행맨의 모습..
        display = hangman.get(maxTries - guess.numTries)
        print(display)

        #현재까지의 상황출력 (맞춘글자, 실패횟수)
        guess.display()
        #알파벳 제시!
        guessedChar = input('Select a letter: ')
        if len(guessedChar) != 1:
            print('One character at a time!')
            continue
        #guseedChars는 내가 이미 제시한 알파벳들의 리스트 일듯.
        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue
        #guess()는 해당 알파벳이 단어안에 있으면 위치를기록.
        #없으면 실패횟수를 증가시킴
        #모든글자를 다 맞추었으면 True 아니면 False.
        finished = guess.guess(guessedChar)
        if finished == True:
            break

    if finished == True:
        print('Success')
    else:
        print(hangman.get(0))
        print('word [' + guess.secretWord + ']')
        print('guess [' + guess.currentStatus + ']')
        print('Fail')
Exemple #27
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def gameMain():
    numbers = ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9']
    word = Word('words.txt')
    #guess에 랜덤단어 저장
    guess = Guess(word.randFromDB())

    finished = False

    hangman = Hangman()

    maxTries = hangman.getLife()

    while guess.numTries < maxTries:

        display = hangman.get(maxTries - guess.numTries)
        print(display)
        guess.display()

        guessedChar = input('Select a letter: ')
        if len(guessedChar) != 1:
            print('One character at a time!')
            continue
        else:
            if guessedChar in numbers:
                print("Not numbers!")
                continue

        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue

        finished = guess.guess(guessedChar)
        if finished == True:
            break

    if finished == True:
        print('Success')
    else:
        print(hangman.get(0))
        print('word [' + guess.word + ']')
        print('guess [', guess.strcurrent, ']')
        print('Fail')
def gameMain():
    word = Word('words.txt')
    guess = Guess(word.randFromDB())

    finished = False
    hangman = Hangman()
    maxTries = hangman.getLife()

    while guess.numTries < maxTries:

        display = hangman.get(maxTries - guess.numTries)
        print(display)
        guess.display()
        
        guessedChar = input('Select a letter: ')
        ## 입력이 영어 인경우만 처리 하기 위해
        if guessedChar.isalpha() != 1:
            print('Enter alphabet')
            continue
        if len(guessedChar) != 1:
            ## 만약 사용자가 문자대신 단어를 입력해서 맞으면 success
            if guessedChar == guess.secretWord:
                print('genius godgod smart!')
                finished = True
                break
            else:
                print('One character at a time!')
                continue
        if guessedChar in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue

        finished = guess.guess(guessedChar)
        if finished == True:
            break
    if finished == True:
        print('Success')
    else:
        print(hangman.get(0))
        print('word [' + guess.secretWord + ']')
        print('guess [' + guess.currentStatus + ']')
        print('Fail')
def gameMain():
    #랜덤으로 단어 선택
    word = Word('words.txt')
    guess = Guess(word.randFromDB())

    finished = False
    hangman = Hangman()
    #목숨의 갯수를 초기화
    maxTries = hangman.getLife()

    while guess.numTries < maxTries: #max

        display = hangman.get(maxTries - guess.numTries)
        print(display)
        guess.display()
        
        #lstrip을 넣어서 공백은 자동으로 제거
        guessedChar = input('Select a letter: ')
        if len(guessedChar.lstrip()) != 1:
            print('One character at a time!')
            continue
        if guessedChar.lstrip() in guess.guessedChars:
            print('You already guessed \"' + guessedChar + '\"')
            continue
        # 입력한 문자가 알파벳 소문자가 아니면 오류
        if guessedChar.lstrip() not in alphabet:
            print('Character must be English small letter!')
            continue

        finished = guess.guess(guessedChar)
        if finished == True:
            break

    if finished == True:
        print('Success')
        print('The answer is '+guess.secretWord)
    else:
        print(hangman.get(0))
        print('word [' + guess.secretWord + ']')
        print('guess [' + guess.currentStatus + ']')
        print('Fail')
    def play_game(self):
        """Battleship Game mechanics."""
        turn_count = 0
        # print(self.computer_fleet)
        while not self.done:
            functions.clear()
            self.print_game_status()
            user_guess = input("Please Enter a Guess: ")
            user_guess = Guess(user_guess)
            user_guess.check_if_on_board(self.user_board)
            if user_guess.quit_flag:
                break

            self.computer_board.check_damage(user_guess,
                                             self.guess_board,
                                             self.computer_fleet)
            turn_count += 1
            if self.computer_fleet.all_ships_sank():
                msg = "Congratulations you won!  It took you {} turns."
                print(msg.format(turn_count))
                self.done = True
Exemple #31
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    def __init__(self):
        pygame.init()
        self.settings = Settings()
        self.screen = pygame.display.set_mode(self.settings.screen_size)
        pygame.display.set_caption("Guess Number")

        self.buttons = pygame.sprite.Group()
        self.numbers = pygame.sprite.Group()
        self.guess = Guess(self.settings)

        self.functions = Functions(self.settings, self.screen, self.buttons,
                                   self.numbers, self.guess)
Exemple #32
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  def main(self):
    game = Guess()
    game.setMaxTarget(sys.argv)
    playAgain = "y"
    regexYes = re.compile(r"^(y|yes)$")

    while regexYes.search(playAgain) != None:
      game.setTarget()
      print("\nI've chosen a number between 1 and %d inclusive. You guess it..." % (game.max()))
      nTurns = 0
      guess = -1
      while guess != game.target():
        nTurns += 1
        padPrompt = " " * ( len(str(999)) - len(str(nTurns)) )
        s = "%s[%d] Enter your guess (1-%d inclusive): " % (padPrompt, nTurns, game.max())
        guess = self.getGuess(s)
        #print("target: %d;  guess: %d" % (game.target(), guess))

        (success, msg) = game.isSuccessful(guess, nTurns)
        print(msg)
      playAgain = input("Do you want to play again? (y/n) ").strip().lower()
Exemple #33
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    def __init__(self, vbi, bitwidth=5.112, gauss_sd=1.1, gauss_sd_offset=2.0,
                 offset_low = 75.0, offset_high = 119.0,
                 thresh_low = 1.1, thresh_high = 2.36,
                 allow_unmatched = True, find=finders.all_headers):

        # data arrays

        # vbi is the raw line as an array of 2048 floats
        self.vbi = vbi

        # blurring amounts
        self.gauss_sd = gauss_sd
        self.gauss_sd_offset = gauss_sd_offset

        # Offset range to check for signal drift, in samples.
        # The algorithm will check with sub sample accuracy.
        # The offset finder is very fast (it uses bisection)
        # so this range can be relatively large. But not too
        # large or you get false positives.
        self.offset_low = offset_low
        self.offset_high = offset_high

        # black level of the signal
        self.black = np.mean(self.vbi[:80])

        # Threshold multipliers. The black level of the signal 
        # is derived from the mean of the area before the VBI 
        # begins. This is multiplied by the following factors 
        # to give the low/high thresholds. Anything outside
        # this range is assumed to be a 0 or a 1. Tweaking these
        # can improve results, but often at a speed cost.
        self.thresh_low = self.black*thresh_low
        self.thresh_high = self.black*thresh_high

        # Allow vbi.py to emitt packet 0's that don't match
        # any finder? Set to false when you have finders
        # for all headers in the data.
        self.allow_unmatched = allow_unmatched
        self.finders = find

        # vbi packet bytewise
        self._mask0 = np.zeros(42, dtype=np.uint8)
        self._mask1 = np.zeros(42, dtype=np.uint8)

        self.g = Guess(bitwidth=bitwidth)
alphabet = "abcdefghijklmnopqrstuvwxyz "

# train english matrixes
base_matrix = TrigramSpace(alphabet)
english_monograms = MonogramMatrix()
with open(training_text_file_location, 'r', -1, 'utf-8', 'replace') as training_text:
  text = training_text.read()
  normalized_text = utils.normalize(text)
  base_matrix.learn(normalized_text)
  english_monograms.learn(normalized_text)


# generate initial guess
key = SubstitutionKey("Guess key")
english_monograms.setCharacterAsMostCommon(' ')
guess = Guess(english_monograms.getListOfUniqueCharacters())
guess.randomGuessOneCharacter()
guess_mapping = english_monograms.generateMappingBasedOnFrequencies(file_text)
guess.setGuess(guess_mapping)
key.set(guess.get())
if actual_key:
  pprint(actual_key)
  pprint(guess_mapping)
  print("score: " + str(utils.compare_keys(actual_key, guess_mapping)))

current_decryption = key.decrypt(file_text)
ciphertext_matrix = TrigramSpace(alphabet)
ciphertext_matrix.learn(current_decryption)


# compute initial difference & deep copy the key
Exemple #35
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#!/usr/bin/env python

from flask import Flask, render_template, redirect, url_for, session
from flask_wtf import Form
from wtforms.fields import RadioField, StringField, SubmitField
from wtforms.validators import Required
from guess import Guess, GuessError

app = Flask(__name__)
app.config['SECRET_KEY'] = 'secret!'
game = Guess('Python')
game.expand('Python', 'C++', 'Is it interpreted?', False)
game.expand('C++', 'Java', 'Does it run on a VM?', True)


class YesNoQuestionForm(Form):
    answer = RadioField('Your answer', choices=[('yes', 'Yes'), ('no', 'No')])
    submit = SubmitField('Submit')


class LearnForm(Form):
    language = StringField('What language did you pick?',
                           validators=[Required()])
    question = StringField('What is a question that differentiates your '
                           'language from mine?', validators=[Required()])
    answer = RadioField('What is the answer for your language?',
                        choices=[('yes', 'Yes'), ('no', 'No')])
    submit = SubmitField('Submit')


@app.route('/')
  print("")
  print("Usage:")
  print("  python3 encrypt.py <plaintext> <key> <ciphertext>")
  print("    - <plaintext> The location of the plaintext file to read from")
  print("    - <key> The location to write the key to")
  print("    - <ciphertext> The location to write the ciphertext to")
  sys.exit("")

# collect output / input file locations
plaintext_filename = sys.argv[1]
key_filename = sys.argv[2]
ciphertext_filename = sys.argv[3]

# generate a random key
unique_characters = list("abcdefghijklmnopqrstuvwxyz ")
guess = Guess(unique_characters)
guess.randomGuessAllCharacters()
guess_dictionary = guess.get()
key = SubstitutionKey('')
key.set(guess_dictionary)

# save the key to file
with open(key_filename, 'wt') as out:
  pprint(guess_dictionary, stream=out)

# encrypt plaintext
plaintext_file = open(plaintext_filename, 'r')
plaintext = plaintext_file.read()
plaintext_file.close()
ciphertext = key.encrypt(plaintext)
 def create_guess(self, file_name):
     mono_matrix = MonogramMatrix(file_name)
     guess_init = Guess(mono_matrix.getListOfUniqueCharacters())
     guess_init.randomGuessOneCharacter()
     return guess_init.get()
from guess import Guess
from monogrammatrix import MonogramMatrix
from accuracyofdecryption import AccuracyOfDecryption

mono = MonogramMatrix()
mono.learn_from_file('training_corpora/english_word_list.txt')
mono.setCharacterAsMostCommon(' ')

newGuess = Guess(mono.getListOfUniqueCharacters())
newGuess.randomGuessOneCharacter()

#monoMapping = mono.generateMappingBasedOnFrequencies('text_pairs/1.ciphertext.txt')
#newGuess.setGuess(monoMapping)
#print(monoMapping)

accOfDec = AccuracyOfDecryption('training_corpora/english_word_list.txt')
accurateResultsCount = accOfDec.getCountOfAccurateWords('hi my name is eric shady\ncats\tare what?  I taught eminem')
print(accurateResultsCount)

#print(monoMatrixOfLanguageFrequencies.get())
#can do a bucket for dictionary?


# train english matrixes
base_matrix = DigramMatrix("English")
english_monograms = MonogramMatrix()
with open(training_text_file_location, 'r', -1, 'utf-8', 'replace') as training_text:
    text = training_text.read()
    normalized_text = utils.normalize(text)
    base_matrix.learn(normalized_text)
    english_monograms.learn(normalized_text)


# generate initial guess
key = SubstitutionKey("Guess key")
english_monograms.setCharacterAsMostCommon(' ')
guess = Guess(english_monograms.getListOfUniqueCharacters())
#guess.randomGuessOneCharacter()
guess_mapping = english_monograms.generateMappingBasedOnFrequencies(file_text)
guess.setGuess(guess_mapping)
key.set(guess.get())
if actual_key:
    pprint(actual_key)
    pprint(guess_mapping)
    print("score: " + str(utils.compare_keys(actual_key, guess_mapping)))

current_decryption = key.decrypt(file_text)
ciphertext_matrix = DigramMatrix("Ciphertext")
ciphertext_matrix.learn(current_decryption)


# compute initial difference & deep copy the key
Exemple #40
0
class Vbi(object):
    '''This class represents a line of raw vbi data and all our attempts to
        decode it.'''

    possible_bytes = [hammbytes]*2 + [paritybytes]*40

    def __init__(self, vbi, bitwidth=5.112, gauss_sd=1.1, gauss_sd_offset=2.0,
                 offset_low = 75.0, offset_high = 119.0,
                 thresh_low = 1.1, thresh_high = 2.36,
                 allow_unmatched = True, find=finders.all_headers):

        # data arrays

        # vbi is the raw line as an array of 2048 floats
        self.vbi = vbi

        # blurring amounts
        self.gauss_sd = gauss_sd
        self.gauss_sd_offset = gauss_sd_offset

        # Offset range to check for signal drift, in samples.
        # The algorithm will check with sub sample accuracy.
        # The offset finder is very fast (it uses bisection)
        # so this range can be relatively large. But not too
        # large or you get false positives.
        self.offset_low = offset_low
        self.offset_high = offset_high

        # black level of the signal
        self.black = np.mean(self.vbi[:80])

        # Threshold multipliers. The black level of the signal 
        # is derived from the mean of the area before the VBI 
        # begins. This is multiplied by the following factors 
        # to give the low/high thresholds. Anything outside
        # this range is assumed to be a 0 or a 1. Tweaking these
        # can improve results, but often at a speed cost.
        self.thresh_low = self.black*thresh_low
        self.thresh_high = self.black*thresh_high

        # Allow vbi.py to emitt packet 0's that don't match
        # any finder? Set to false when you have finders
        # for all headers in the data.
        self.allow_unmatched = allow_unmatched
        self.finders = find

        # vbi packet bytewise
        self._mask0 = np.zeros(42, dtype=np.uint8)
        self._mask1 = np.zeros(42, dtype=np.uint8)

        self.g = Guess(bitwidth=bitwidth)


    def find_offset_and_scale(self):
        '''Tries to find the offset of the vbi data in the raw samples.'''

        # Split into chunks and ensure there is something "interesting" in each
        target = gauss(self.vbi, self.gauss_sd_offset)
        d = [np.std(target[x:x+128]) < 5.0 for x in range(64, 1440, 128)]
        if any(d):
            return False

        low = 64
        high = 256
        target = gauss(self.vbi[low:high], self.gauss_sd_offset)

        def _inner(offset):
            self.g.set_offset(offset)

            self.g.update_cri(low, high)
            guess_scaled = self.g.convolved[low:high]
            mask_scaled = self.g.mask[low:high]

            a = guess_scaled*mask_scaled
            b = np.clip(target*mask_scaled, self.black, 256)

            scale = a.std()/b.std()
            b -= self.black
            b *= scale
            a = np.clip(a, 0, 256*scale)

            return np.sum(np.square(b-a))

        offset = fminbound(_inner, self.offset_low, self.offset_high)

        # call it also to set self.offset and self.scale
        return (_inner(offset) < 10)

    def make_guess_mask(self):
        a = []

        for i in range(42*8):
            (low, high) = self.g.get_bit_pos(i)
            a.append(self.vbi[low:high])

        mins = np.array([min(x) for x in a])
        maxs = np.array([max(x) for x in a])
        avgs = np.array([np.array(x).mean() for x in a])

        for i in range(42):
            mini = mins[i*8:(i+1)*8]
            maxi = maxs[i*8:(i+1)*8]
            avgi = avgs[i*8:(i+1)*8]
            self._mask0[i] = 0xff
            for j in range(8):
                if mini[j] < self.thresh_low:
                    self._mask0[i] &= ~(1<<j)
                if maxi[j] > self.thresh_high:
                    self._mask1[i] |= (1<<j)

        tmp = self._mask1 & self._mask0
        self._mask0 |= self._mask1
        self._mask1 = tmp

    def make_possible_bytes(self, possible_bytes):
        def masked(b, n):
            m0 = util.m0s[self._mask0[n]]
            m1 = util.m1s[self._mask1[n]]
            m = m0 & m1 & b
            if m:
                return m
            else:
                mm0 = m0 & b
                mm1 = m1 & b
                if len(mm0) < len(mm1):
                    return mm0 or mm1 or b
                else:
                    return mm1 or mm0 or b

        self.possible_bytes = [masked(b,n) for n,b in enumerate(possible_bytes)]

    def _deconvolve_make_diff(self, (low, high)):
        a = normalise(self.g.convolved)
        diff_sq = np.square(a - self.target)
        return np.sum(diff_sq)
        # an interesting trick I discovered. 
        # bias the result towards the curent area of interest
        return np.sum(diff_sq[:low]) + 2.6*np.sum(diff_sq[low:high]) + np.sum(diff_sq[high:])
Exemple #41
0
#!/usr/bin/env python

from flask import Flask, render_template, redirect, url_for, session
from flask_wtf import Form
from wtforms.fields import RadioField, StringField, SubmitField
from wtforms.validators import Required
from guess import Guess, GuessError

app = Flask(__name__)
app.config["SECRET_KEY"] = "secret!"
game = Guess("Python")
game.expand("Python", "C++", "Is it interpreted?", False)
game.expand("C++", "Java", "Does it run on a VM?", True)


class YesNoQuestionForm(Form):
    answer = RadioField("Your answer", choices=[("yes", "Yes"), ("no", "No")])
    submit = SubmitField("Submit")


class LearnForm(Form):
    language = StringField("What language did you pick?", validators=[Required()])
    question = StringField(
        "What is a question that differentiates your " "language from mine?", validators=[Required()]
    )
    answer = RadioField("What is the answer for your language?", choices=[("yes", "Yes"), ("no", "No")])
    submit = SubmitField("Submit")


@app.route("/")
def index():