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peacock-data-public-datasets-idc-llm_eval / env-llmeval /lib /python3.10 /site-packages /nltk /misc /wordfinder.py

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	# Natural Language Toolkit: Word Finder
	#
	# Copyright (C) 2001-2023 NLTK Project
	# Author: Steven Bird <[email protected]>
	# URL: <https://www.nltk.org/>
	# For license information, see LICENSE.TXT

	# Simplified from PHP version by Robert Klein <[email protected]>
	# http://fswordfinder.sourceforge.net/

	import random


	# reverse a word with probability 0.5
	def revword(word):
	if random.randint(1, 2) == 1:
	return word[::-1]
	return word


	# try to insert word at position x,y; direction encoded in xf,yf
	def step(word, x, xf, y, yf, grid):
	for i in range(len(word)):
	if grid[xf(i)][yf(i)] != "" and grid[xf(i)][yf(i)] != word[i]:
	return False
	for i in range(len(word)):
	grid[xf(i)][yf(i)] = word[i]
	return True


	# try to insert word at position x,y, in direction dir
	def check(word, dir, x, y, grid, rows, cols):
	if dir == 1:
	if x - len(word) < 0 or y - len(word) < 0:
	return False
	return step(word, x, lambda i: x - i, y, lambda i: y - i, grid)
	elif dir == 2:
	if x - len(word) < 0:
	return False
	return step(word, x, lambda i: x - i, y, lambda i: y, grid)
	elif dir == 3:
	if x - len(word) < 0 or y + (len(word) - 1) >= cols:
	return False
	return step(word, x, lambda i: x - i, y, lambda i: y + i, grid)
	elif dir == 4:
	if y - len(word) < 0:
	return False
	return step(word, x, lambda i: x, y, lambda i: y - i, grid)


	def wordfinder(words, rows=20, cols=20, attempts=50, alph="ABCDEFGHIJKLMNOPQRSTUVWXYZ"):
	"""
	Attempt to arrange words into a letter-grid with the specified
	number of rows and columns. Try each word in several positions
	and directions, until it can be fitted into the grid, or the
	maximum number of allowable attempts is exceeded. Returns a tuple
	consisting of the grid and the words that were successfully
	placed.

	:param words: the list of words to be put into the grid
	:type words: list
	:param rows: the number of rows in the grid
	:type rows: int
	:param cols: the number of columns in the grid
	:type cols: int
	:param attempts: the number of times to attempt placing a word
	:type attempts: int
	:param alph: the alphabet, to be used for filling blank cells
	:type alph: list
	:rtype: tuple
	"""

	# place longer words first
	words = sorted(words, key=len, reverse=True)

	grid = [] # the letter grid
	used = [] # the words we used

	# initialize the grid
	for i in range(rows):
	grid.append([""] * cols)

	# try to place each word
	for word in words:
	word = word.strip().upper() # normalize
	save = word # keep a record of the word
	word = revword(word)
	for attempt in range(attempts):
	r = random.randint(0, len(word))
	dir = random.choice([1, 2, 3, 4])
	x = random.randint(0, rows)
	y = random.randint(0, cols)
	if dir == 1:
	x += r
	y += r
	elif dir == 2:
	x += r
	elif dir == 3:
	x += r
	y -= r
	elif dir == 4:
	y += r
	if 0 <= x < rows and 0 <= y < cols:
	if check(word, dir, x, y, grid, rows, cols):
	# used.append((save, dir, x, y, word))
	used.append(save)
	break

	# Fill up the remaining spaces
	for i in range(rows):
	for j in range(cols):
	if grid[i][j] == "":
	grid[i][j] = random.choice(alph)

	return grid, used


	def word_finder():
	from nltk.corpus import words

	wordlist = words.words()
	random.shuffle(wordlist)
	wordlist = wordlist[:200]
	wordlist = [w for w in wordlist if 3 <= len(w) <= 12]
	grid, used = wordfinder(wordlist)

	print("Word Finder\n")
	for i in range(len(grid)):
	for j in range(len(grid[i])):
	print(grid[i][j], end=" ")
	print()
	print()

	for i in range(len(used)):
	print("%d:" % (i + 1), used[i])


	if __name__ == "__main__":
	word_finder()