Dhravya/sudoku.py

## sudoku.py
import pygame #pip install pygame
import time
from sudokugen.generator import generate, Difficulty #pip install sudokugen
from inputimeout import inputimeout, TimeoutOccurred #pip install inputimout
import os

new_puzzle = generate(difficulty=Difficulty.MEDIUM)
def chunk(l, n):
    n = max(1, n)
    return (l[i:i+n] for i in range(0, len(l), n))

lst = new_puzzle[0]
query = list(chunk(lst, 9))
final = query[:]
# print(query)
pygame.font.init()

def solve(bo):
    find = find_empty(bo)
    if not find:
        return True
    else:
        row, col = find

    for i in range(1,10):
        if valid(bo, i, (row, col)):
            bo[row][col] = i

            if solve(bo):
                return True

            bo[row][col] = 0

    return False


def valid(bo, num, pos):
    # Check row
    for i in range(len(bo[0])):
        if bo[pos[0]][i] == num and pos[1] != i:
            return False

    # Check column
    for i in range(len(bo)):
        if bo[i][pos[1]] == num and pos[0] != i:
            return False

    # Check box
    box_x = pos[1] // 3
    box_y = pos[0] // 3

    for i in range(box_y*3, box_y*3 + 3):
        for j in range(box_x * 3, box_x*3 + 3):
            if bo[i][j] == num and (i,j) != pos:
                return False

    return True

def print_board(bo):
    for i in range(9):
        if i % 3 == 0 and i != 0:
            print("- - - - - - - - - - - - - ")

        for j in range(len(bo[0])):
            if j % 3 == 0 and j != 0:
                print(" | ", end="")

            if j == 8:
                print(bo[i][j])
            else:
                print(str(bo[i][j]) + " ", end="")

def find_empty(bo):
    for i in range(len(bo)):
        for j in range(len(bo[0])):
            if bo[i][j] == 0:
                return (i, j)  # row, col

    return None

class Grid:
    board = final

    def __init__(self, rows, cols, width, height):
        self.rows = rows
        self.cols = cols
        self.cubes = [[Cube(self.board[i][j], i, j, width, height) for j in range(cols)] for i in range(rows)]
        self.width = width
        self.height = height
        self.model = None
        self.selected = None

    def update_model(self):
        self.model = [[self.cubes[i][j].value for j in range(self.cols)] for i in range(self.rows)]

    def place(self, val):
        row, col = self.selected
        if self.cubes[row][col].value == 0:
            self.cubes[row][col].set(val)
            self.update_model()

            if valid(self.model, val, (row,col)) and solve(self.model):
                return True
            else:
                self.cubes[row][col].set(0)
                self.cubes[row][col].set_temp(0)
                self.update_model()
                return False

    def sketch(self, val):
        row, col = self.selected
        self.cubes[row][col].set_temp(val)

    def draw(self, win):
        # Draw Grid Lines
        gap = self.width / 9
        for i in range(self.rows+1):
            if i % 3 == 0 and i != 0:
                thick = 4
            else:
                thick = 1
            pygame.draw.line(win, (0,0,0), (0, i*gap), (self.width, i*gap), thick)
            pygame.draw.line(win, (0, 0, 0), (i * gap, 0), (i * gap, self.height), thick)

        # Draw Cubes
        for i in range(self.rows):
            for j in range(self.cols):
                self.cubes[i][j].draw(win)

    def select(self, row, col):
        # Reset all other
        for i in range(self.rows):
            for j in range(self.cols):
                self.cubes[i][j].selected = False

        self.cubes[row][col].selected = True
        self.selected = (row, col)

    def clear(self):
        row, col = self.selected
        if self.cubes[row][col].value == 0:
            self.cubes[row][col].set_temp(0)

    def click(self, pos):
        """
        :param: pos
        :return: (row, col)
        """
        if pos[0] < self.width and pos[1] < self.height:
            gap = self.width / 9
            x = pos[0] // gap
            y = pos[1] // gap
            return (int(y),int(x))
        else:
            return None

    def is_finished(self):
        for i in range(self.rows):
            for j in range(self.cols):
                if self.cubes[i][j].value == 0:
                    return False
        return True

class Cube:
    rows = 9
    cols = 9

    def __init__(self, value, row, col, width ,height):
        self.value = value
        self.temp = 0
        self.row = row
        self.col = col
        self.width = width
        self.height = height
        self.selected = False

    def draw(self, win):
        fnt = pygame.font.SysFont("comicsans", 40)

        gap = self.width / 9
        x = self.col * gap
        y = self.row * gap

        if self.temp != 0 and self.value == 0:
            text = fnt.render(str(self.temp), 1, (128,128,128))
            win.blit(text, (x+5, y+5))
        elif not(self.value == 0):
            text = fnt.render(str(self.value), 1, (0, 0, 0))
            win.blit(text, (x + (gap/2 - text.get_width()/2), y + (gap/2 - text.get_height()/2)))

        if self.selected:
            pygame.draw.rect(win, (255,0,0), (x,y, gap ,gap), 3)

    def set(self, val):
        self.value = val

    def set_temp(self, val):
        self.temp = val

def redraw_window(win, board, time, strikes):
    win.fill((255,255,255))
    # Draw time
    fnt = pygame.font.SysFont("comicsans", 40)
    text = fnt.render("Time: " + format_time(time), 1, (0,0,0))
    win.blit(text, (540 - 160, 560))

    # Draw Strikes
    text = fnt.render("X " * strikes, 1, (255, 0, 0))
    win.blit(text, (20, 560))
    # Draw grid and board
    board.draw(win)

def format_time(secs):
    sec = secs%60
    minute = secs//60
    hour = minute//60

    mat = " " + str(minute) + ":" + str(sec)
    return mat

def main():

    win = pygame.display.set_mode((540,600))
    pygame.display.set_caption("Sudoku")
    board = Grid(9, 9, 540, 540)
    key = None
    run = True
    start = time.time()
    strikes = 0
    while run:

        play_time = round(time.time() - start)

        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                run = False
            if event.type == pygame.KEYDOWN:
                if event.key == pygame.K_1:
                    key = 1
                if event.key == pygame.K_2:
                    key = 2
                if event.key == pygame.K_3:
                    key = 3
                if event.key == pygame.K_4:
                    key = 4
                if event.key == pygame.K_5:
                    key = 5
                if event.key == pygame.K_6:
                    key = 6
                if event.key == pygame.K_7:
                    key = 7
                if event.key == pygame.K_8:
                    key = 8
                if event.key == pygame.K_9:
                    key = 9
                if event.key == pygame.K_DELETE:
                    board.clear()
                    key = None
                if event.key == pygame.K_RETURN:
                    i, j = board.selected
                    if board.cubes[i][j].temp != 0:
                        if board.place(board.cubes[i][j].temp):
                            # print("Success")
                            pass
                        else:
                            print("Wrong")
                            strikes += 1
                        key = None

                        if strikes % 3 ==0 and strikes != 0:
                            try:
                                help = inputimeout(prompt ="need help? Type 'HELP' here to autosolve(you have 3 seconds):  " ,timeout=5)
                                if type(help)== str:
                                    print('wait, autosolving')
                                    solve(query)
                                    print('_____________')
                                    print_board(query)
                                    time.sleep(6)
                                    os.system('cls')

                            except TimeoutOccurred:
                                print('timed out')

                        if board.is_finished():
                            print("Game over")
                            run = False
                # if event.key == pygame.K_SPACE:
                #     solve(board)


            if event.type == pygame.MOUSEBUTTONDOWN:
                pos = pygame.mouse.get_pos()
                clicked = board.click(pos)
                if clicked:
                    board.select(clicked[0], clicked[1])
                    key = None

        if board.selected and key != None:
            board.sketch(key)

        redraw_window(win, board, play_time, strikes)
        pygame.display.update()


main()
pygame.quit()
	import pygame #pip install pygame
	import time
	from sudokugen.generator import generate, Difficulty #pip install sudokugen
	from inputimeout import inputimeout, TimeoutOccurred #pip install inputimout
	import os

	new_puzzle = generate(difficulty=Difficulty.MEDIUM)
	def chunk(l, n):
	n = max(1, n)
	return (l[i:i+n] for i in range(0, len(l), n))

	lst = new_puzzle[0]
	query = list(chunk(lst, 9))
	final = query[:]
	# print(query)
	pygame.font.init()

	def solve(bo):
	find = find_empty(bo)
	if not find:
	return True
	else:
	row, col = find

	for i in range(1,10):
	if valid(bo, i, (row, col)):
	bo[row][col] = i

	if solve(bo):
	return True

	bo[row][col] = 0

	return False


	def valid(bo, num, pos):
	# Check row
	for i in range(len(bo[0])):
	if bo[pos[0]][i] == num and pos[1] != i:
	return False

	# Check column
	for i in range(len(bo)):
	if bo[i][pos[1]] == num and pos[0] != i:
	return False

	# Check box
	box_x = pos[1] // 3
	box_y = pos[0] // 3

	for i in range(box_y3, box_y3 + 3):
	for j in range(box_x * 3, box_x*3 + 3):
	if bo[i][j] == num and (i,j) != pos:
	return False

	return True

	def print_board(bo):
	for i in range(9):
	if i % 3 == 0 and i != 0:
	print("- - - - - - - - - - - - - ")

	for j in range(len(bo[0])):
	if j % 3 == 0 and j != 0:
	print(" \| ", end="")

	if j == 8:
	print(bo[i][j])
	else:
	print(str(bo[i][j]) + " ", end="")

	def find_empty(bo):
	for i in range(len(bo)):
	for j in range(len(bo[0])):
	if bo[i][j] == 0:
	return (i, j) # row, col

	return None

	class Grid:
	board = final

	def __init__(self, rows, cols, width, height):
	self.rows = rows
	self.cols = cols
	self.cubes = [[Cube(self.board[i][j], i, j, width, height) for j in range(cols)] for i in range(rows)]
	self.width = width
	self.height = height
	self.model = None
	self.selected = None

	def update_model(self):
	self.model = [[self.cubes[i][j].value for j in range(self.cols)] for i in range(self.rows)]

	def place(self, val):
	row, col = self.selected
	if self.cubes[row][col].value == 0:
	self.cubes[row][col].set(val)
	self.update_model()

	if valid(self.model, val, (row,col)) and solve(self.model):
	return True
	else:
	self.cubes[row][col].set(0)
	self.cubes[row][col].set_temp(0)
	self.update_model()
	return False

	def sketch(self, val):
	row, col = self.selected
	self.cubes[row][col].set_temp(val)

	def draw(self, win):
	# Draw Grid Lines
	gap = self.width / 9
	for i in range(self.rows+1):
	if i % 3 == 0 and i != 0:
	thick = 4
	else:
	thick = 1
	pygame.draw.line(win, (0,0,0), (0, igap), (self.width, igap), thick)
	pygame.draw.line(win, (0, 0, 0), (i * gap, 0), (i * gap, self.height), thick)

	# Draw Cubes
	for i in range(self.rows):
	for j in range(self.cols):
	self.cubes[i][j].draw(win)

	def select(self, row, col):
	# Reset all other
	for i in range(self.rows):
	for j in range(self.cols):
	self.cubes[i][j].selected = False

	self.cubes[row][col].selected = True
	self.selected = (row, col)

	def clear(self):
	row, col = self.selected
	if self.cubes[row][col].value == 0:
	self.cubes[row][col].set_temp(0)

	def click(self, pos):
	"""
	:param: pos
	:return: (row, col)
	"""
	if pos[0] < self.width and pos[1] < self.height:
	gap = self.width / 9
	x = pos[0] // gap
	y = pos[1] // gap
	return (int(y),int(x))
	else:
	return None

	def is_finished(self):
	for i in range(self.rows):
	for j in range(self.cols):
	if self.cubes[i][j].value == 0:
	return False
	return True

	class Cube:
	rows = 9
	cols = 9

	def __init__(self, value, row, col, width ,height):
	self.value = value
	self.temp = 0
	self.row = row
	self.col = col
	self.width = width
	self.height = height
	self.selected = False

	def draw(self, win):
	fnt = pygame.font.SysFont("comicsans", 40)

	gap = self.width / 9
	x = self.col * gap
	y = self.row * gap

	if self.temp != 0 and self.value == 0:
	text = fnt.render(str(self.temp), 1, (128,128,128))
	win.blit(text, (x+5, y+5))
	elif not(self.value == 0):
	text = fnt.render(str(self.value), 1, (0, 0, 0))
	win.blit(text, (x + (gap/2 - text.get_width()/2), y + (gap/2 - text.get_height()/2)))

	if self.selected:
	pygame.draw.rect(win, (255,0,0), (x,y, gap ,gap), 3)

	def set(self, val):
	self.value = val

	def set_temp(self, val):
	self.temp = val

	def redraw_window(win, board, time, strikes):
	win.fill((255,255,255))
	# Draw time
	fnt = pygame.font.SysFont("comicsans", 40)
	text = fnt.render("Time: " + format_time(time), 1, (0,0,0))
	win.blit(text, (540 - 160, 560))

	# Draw Strikes
	text = fnt.render("X " * strikes, 1, (255, 0, 0))
	win.blit(text, (20, 560))
	# Draw grid and board
	board.draw(win)

	def format_time(secs):
	sec = secs%60
	minute = secs//60
	hour = minute//60

	mat = " " + str(minute) + ":" + str(sec)
	return mat

	def main():

	win = pygame.display.set_mode((540,600))
	pygame.display.set_caption("Sudoku")
	board = Grid(9, 9, 540, 540)
	key = None
	run = True
	start = time.time()
	strikes = 0
	while run:

	play_time = round(time.time() - start)

	for event in pygame.event.get():
	if event.type == pygame.QUIT:
	run = False
	if event.type == pygame.KEYDOWN:
	if event.key == pygame.K_1:
	key = 1
	if event.key == pygame.K_2:
	key = 2
	if event.key == pygame.K_3:
	key = 3
	if event.key == pygame.K_4:
	key = 4
	if event.key == pygame.K_5:
	key = 5
	if event.key == pygame.K_6:
	key = 6
	if event.key == pygame.K_7:
	key = 7
	if event.key == pygame.K_8:
	key = 8
	if event.key == pygame.K_9:
	key = 9
	if event.key == pygame.K_DELETE:
	board.clear()
	key = None
	if event.key == pygame.K_RETURN:
	i, j = board.selected
	if board.cubes[i][j].temp != 0:
	if board.place(board.cubes[i][j].temp):
	# print("Success")
	pass
	else:
	print("Wrong")
	strikes += 1
	key = None

	if strikes % 3 ==0 and strikes != 0:
	try:
	help = inputimeout(prompt ="need help? Type 'HELP' here to autosolve(you have 3 seconds): " ,timeout=5)
	if type(help)== str:
	print('wait, autosolving')
	solve(query)
	print('_____________')
	print_board(query)
	time.sleep(6)
	os.system('cls')

	except TimeoutOccurred:
	print('timed out')

	if board.is_finished():
	print("Game over")
	run = False
	# if event.key == pygame.K_SPACE:
	# solve(board)


	if event.type == pygame.MOUSEBUTTONDOWN:
	pos = pygame.mouse.get_pos()
	clicked = board.click(pos)
	if clicked:
	board.select(clicked[0], clicked[1])
	key = None

	if board.selected and key != None:
	board.sketch(key)

	redraw_window(win, board, play_time, strikes)
	pygame.display.update()



	main()
	pygame.quit()