ProgrammingChallenges/getting_digits.py

#!/usr/bin/env python3

# Dictionary letter -> (number, position in number)
LN = {
    'A': [],
    'B': [],
    'C': [],
    'D': [],
    'E': [(0,1),(1,2),(3,3),(3,4),(5,3),(7,1),(7,3),(8,0),(9,3)],
    'F': [(4,0),(5,0)],
    'G': [(8,2)],
    'H': [(3,1),(8,3)],
    'I': [(5,1),(6,1),(8,1),(9,1)],
    'J': [],
    'K': [],
    'L': [],
    'M': [],
    'N': [(1,1),(7,4),(9,0),(9,2)],
    'O': [(0,3),(1,0),(2,2),(4,1)],
    'P': [],
    'Q': [],
    'R': [(0,2),(3,2),(4,3)],
    'S': [(6,0),(7,0)],
    'T': [(2,0),(3,0),(8,4)],
    'U': [(4,2)],
    'V': [(5,2),(7,2)],
    'W': [(2,1)],
    'X': [(6,2)],
    'Y': [],
    'Z': [(0,0)]
}

def print_scoreboard(scoreboard, NUMS):
    for s in NUMS:
        print(s, end=' ')
    print()
    for n in scoreboard:
        for score in n:
            print(str(score) if score != 0 else ' ', end='')
        print(' ', end='')
    print('\n')

# Criteria of rarity (shortest number of (number, position) couples for the letter)
# Sort of a lambda, but in python
def criteria(l):
    return len(LN[l])

def get_digits(s):
    NUMS = ["ZERO", "ONE", "TWO", "THREE", "FOUR", "FIVE", "SIX", "SEVEN",
        "EIGHT", "NINE"]
    scoreboard = []
    for num in NUMS:
        scoreboard.append([0]*len(num))
    numbers = [0] * 10

    # Sort the string by rarity of letters (all Vs come before Es)
    s = "".join(sorted(s, key=criteria))

    for c in s:
        last_n = None
        last_pos = None
        # For every (number, position) ordered pair for our letter
        for k in range(len(LN[c])):
            np = LN[c][k]
            if last_n != np[0]:
                # Increment the letter if the we've never seen this number
                scoreboard[np[0]][np[1]] += 1
                last_n = np[0]
                last_pos = np[1]
            elif scoreboard[np[0]][np[1]] < scoreboard[np[0]][last_pos] - 1:
                # If we have a duplicate letter in more positions, increment evenly
                # instead of incrementing just the first letter.
                # This code works if the are at most 2 positions for each letter, which
                # is true with the numbers from ZERO to NINE
                scoreboard[np[0]][last_pos] -= 1
                scoreboard[np[0]][np[1]] += 1
                last_n = None

        # Debug print the scoreboard, uncomment this if unclear
        # print_scoreboard(scoreboard, NUMS)

        for i in range(10):
            # Check if the scoreboard for number i is BINGO
            valid = True
            for j in range(len(scoreboard[i])):
                if scoreboard[i][j] == 0:
                    valid = False
                    break
            if valid:
                # If true, mark BINGO and remove all the "ticks" for other numbers
                numbers[i] += 1
                # print(numbers)
                for c in NUMS[i]:
                    last_n = None
                    last_pos = None
                    for k in range(len(LN[c])):
                        np = LN[c][k]
                        if last_n != np[0]:
                            scoreboard[np[0]][np[1]] -= 1
                            last_n = np[0]
                            last_pos = np[1]
                        elif scoreboard[np[0]][np[1]] > scoreboard[np[0]][last_pos] + 1:
                            # Decrement magic similar to the even incrementation above.
                            # Note that this decrements the first position first, but the code
                            # for incrementing is able to cope with this oddity, so whatever man...
                            scoreboard[np[0]][last_pos] += 1
                            scoreboard[np[0]][np[1]] -= 1
                            last_n = None

    # Print the scoreboard if not clean (this should never happen if the input string is valid)
    # for a in scoreboard:
    #     for b in a:
    #         if b != 0:
    #             print(scoreboard, end=' ')
    #             break
    #     else:
    #         continue
    #     break

    # Build the output string using our BINGO log
    output = ""
    for i in range(10):
        output += str(i) * numbers[i]
    return output

if __name__ == "__main__":
    n = int(input())
    for i in range(1, n + 1):
        print("Case #" + str(i) + ": " + get_digits(input()))
Working solution for K 2019-04-22 18:17:56 +00:00			`#!/usr/bin/env python3`

			`# Dictionary letter -> (number, position in number)`
			`LN = {`
			`'A': [],`
			`'B': [],`
			`'C': [],`
			`'D': [],`
			`'E': [(0,1),(1,2),(3,3),(3,4),(5,3),(7,1),(7,3),(8,0),(9,3)],`
			`'F': [(4,0),(5,0)],`
			`'G': [(8,2)],`
			`'H': [(3,1),(8,3)],`
			`'I': [(5,1),(6,1),(8,1),(9,1)],`
			`'J': [],`
			`'K': [],`
			`'L': [],`
			`'M': [],`
			`'N': [(1,1),(7,4),(9,0),(9,2)],`
			`'O': [(0,3),(1,0),(2,2),(4,1)],`
			`'P': [],`
			`'Q': [],`
			`'R': [(0,2),(3,2),(4,3)],`
			`'S': [(6,0),(7,0)],`
			`'T': [(2,0),(3,0),(8,4)],`
			`'U': [(4,2)],`
			`'V': [(5,2),(7,2)],`
			`'W': [(2,1)],`
			`'X': [(6,2)],`
			`'Y': [],`
			`'Z': [(0,0)]`
			`}`

			`def print_scoreboard(scoreboard, NUMS):`
			`for s in NUMS:`
			`print(s, end=' ')`
			`print()`
			`for n in scoreboard:`
			`for score in n:`
			`print(str(score) if score != 0 else ' ', end='')`
			`print(' ', end='')`
			`print('\n')`

			`# Criteria of rarity (shortest number of (number, position) couples for the letter)`
			`# Sort of a lambda, but in python`
			`def criteria(l):`
			`return len(LN[l])`

Added partial solution to K 2019-04-22 16:40:44 +00:00			`def get_digits(s):`
Working solution for K 2019-04-22 18:17:56 +00:00			`NUMS = ["ZERO", "ONE", "TWO", "THREE", "FOUR", "FIVE", "SIX", "SEVEN",`
Added partial solution to K 2019-04-22 16:40:44 +00:00			`"EIGHT", "NINE"]`
Working solution for K 2019-04-22 18:17:56 +00:00			`scoreboard = []`
			`for num in NUMS:`
			`scoreboard.append([0]*len(num))`
			`numbers = [0] * 10`

			`# Sort the string by rarity of letters (all Vs come before Es)`
			`s = "".join(sorted(s, key=criteria))`

Added partial solution to K 2019-04-22 16:40:44 +00:00			`for c in s:`
Working solution for K 2019-04-22 18:17:56 +00:00			`last_n = None`
			`last_pos = None`
			`# For every (number, position) ordered pair for our letter`
			`for k in range(len(LN[c])):`
			`np = LN[c][k]`
			`if last_n != np[0]:`
			`# Increment the letter if the we've never seen this number`
			`scoreboard[np[0]][np[1]] += 1`
			`last_n = np[0]`
			`last_pos = np[1]`
			`elif scoreboard[np[0]][np[1]] < scoreboard[np[0]][last_pos] - 1:`
			`# If we have a duplicate letter in more positions, increment evenly`
			`# instead of incrementing just the first letter.`
			`# This code works if the are at most 2 positions for each letter, which`
			`# is true with the numbers from ZERO to NINE`
			`scoreboard[np[0]][last_pos] -= 1`
			`scoreboard[np[0]][np[1]] += 1`
			`last_n = None`

			`# Debug print the scoreboard, uncomment this if unclear`
			`# print_scoreboard(scoreboard, NUMS)`

Added partial solution to K 2019-04-22 16:40:44 +00:00			`for i in range(10):`
Working solution for K 2019-04-22 18:17:56 +00:00			`# Check if the scoreboard for number i is BINGO`
			`valid = True`
			`for j in range(len(scoreboard[i])):`
			`if scoreboard[i][j] == 0:`
			`valid = False`
			`break`
			`if valid:`
			`# If true, mark BINGO and remove all the "ticks" for other numbers`
			`numbers[i] += 1`
			`# print(numbers)`
			`for c in NUMS[i]:`
			`last_n = None`
			`last_pos = None`
			`for k in range(len(LN[c])):`
			`np = LN[c][k]`
			`if last_n != np[0]:`
			`scoreboard[np[0]][np[1]] -= 1`
			`last_n = np[0]`
			`last_pos = np[1]`
			`elif scoreboard[np[0]][np[1]] > scoreboard[np[0]][last_pos] + 1:`
			`# Decrement magic similar to the even incrementation above.`
			`# Note that this decrements the first position first, but the code`
			`# for incrementing is able to cope with this oddity, so whatever man...`
			`scoreboard[np[0]][last_pos] += 1`
			`scoreboard[np[0]][np[1]] -= 1`
			`last_n = None`
Added partial solution to K 2019-04-22 16:40:44 +00:00
Working solution for K 2019-04-22 18:17:56 +00:00			`# Print the scoreboard if not clean (this should never happen if the input string is valid)`
			`# for a in scoreboard:`
			`# for b in a:`
			`# if b != 0:`
			`# print(scoreboard, end=' ')`
			`# break`
			`# else:`
			`# continue`
			`# break`
Added partial solution to K 2019-04-22 16:40:44 +00:00
Working solution for K 2019-04-22 18:17:56 +00:00			`# Build the output string using our BINGO log`
			`output = ""`
Added partial solution to K 2019-04-22 16:40:44 +00:00			`for i in range(10):`
Working solution for K 2019-04-22 18:17:56 +00:00			`output += str(i) * numbers[i]`
			`return output`
Added partial solution to K 2019-04-22 16:40:44 +00:00
			`if __name__ == "__main__":`
			`n = int(input())`
			`for i in range(1, n + 1):`
			`print("Case #" + str(i) + ": " + get_digits(input()))`