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problem_227.py
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problem_227.py
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NUM_ROWS, NUM_COLS = 4, 4
WORD_END_CHAR = '0'
class Trie:
def __init__(self):
self.size = 0
self.letter_map = dict()
def __repr__(self):
return str(self.letter_map)
def add_word(self, word):
if not word:
self.letter_map[WORD_END_CHAR] = None
return
letter = word[0]
sub_trie = None
if letter in self.letter_map:
sub_trie = self.letter_map[letter]
else:
sub_trie = Trie()
self.letter_map[letter] = sub_trie
self.size += 1
sub_trie.add_word(word[1:])
class Coordinate():
def __init__(self, x, y):
self.x = x
self.y = y
def __hash__(self):
return hash((self.x, self.y))
def __eq__(self, other):
return (self.x, self.y) == (other.x, other.y)
def __ne__(self, other):
return not(self == other)
def __repr__(self):
return "C(x={};y={})".format(self.x, self.y)
def get_adjacent_coords(x, y):
adj_coords = set()
red_x, red_y = max(0, x - 1), max(0, y - 1)
inc_x, inc_y = min(NUM_ROWS - 1, x + 1), min(NUM_COLS - 1, y + 1)
adj_coords.add(Coordinate(x, red_y))
adj_coords.add(Coordinate(x, inc_y))
adj_coords.add(Coordinate(red_x, y))
adj_coords.add(Coordinate(red_x, red_y))
adj_coords.add(Coordinate(red_x, inc_y))
adj_coords.add(Coordinate(inc_x, y))
adj_coords.add(Coordinate(inc_x, red_y))
adj_coords.add(Coordinate(inc_x, inc_y))
return adj_coords
def search_for_words(coord, dtrie, seen, board, sol_words, current):
letter = board[coord.x][coord.y]
if letter not in dtrie.letter_map:
# no possibility of creating a word
return
current += letter
next_trie = dtrie.letter_map[letter]
if WORD_END_CHAR in next_trie.letter_map:
# a word can end here
sol_words.add(current)
# shouldn't return because a valid word
# might be extended
adj_coords = get_adjacent_coords(coord.x, coord.y)
for adj_coord in adj_coords:
if adj_coord in seen:
continue
seen_cp = seen.copy()
seen_cp.add(adj_coord)
search_for_words(adj_coord, next_trie, seen_cp,
board, sol_words, current)
def solve_boggle(board, dictionary):
assert len(board) == NUM_ROWS
assert len(board[0]) == NUM_COLS
dtrie = Trie()
for word in dictionary:
dtrie.add_word(word)
sol_words = set()
for i in range(NUM_ROWS):
for k in range(NUM_COLS):
coord = Coordinate(i, k)
search_for_words(coord, dtrie, {coord}, board, sol_words, "")
return sol_words
# Tests
board = [
["A", "L", "B", "P"],
["C", "O", "E", "Y"],
["F", "C", "H", "P"],
["B", "A", "D", "A"]
]
words_in_board = {
"AFOCAL", "CHAPEL", "CLOCHE", "DHOLE", "LOCHE", "CHOLA", "CHELA",
"HOLEY", "FOCAL", "FOLEY", "COLEY", "COLBY", "COHAB", "COBLE", "DACHA",
"BACHA", "BACCO", "BACCA", "BLECH", "PHOCA", "ALOHA", "ALEPH", "CHAPE",
"BOCCA", "BOCCE", "BOCHE", "LECH", "PECH", "OCHE", "FOAL", "YECH", "OBEY",
"YEBO", "LOCA", "LOBE", "LOCH", "HYPE", "HELO", "PELA", "HOLE", "COCA"}
words_not_in_board = {
"DUMMY", "WORDS", "FOR", "TESTING"
}
dictionary = words_in_board | words_not_in_board
found_words = solve_boggle(board, dictionary)
assert found_words == words_in_board