words = open("words.txt").read().split("\n") def partition(word, words): # Get how many words will remain for each possible response partitions = [] for a in "MCW": for b in "MCW": for c in "MCW": for d in "MCW": for e in "MCW": partitions.append(len(reduce(word, a+b+c+d+e, words))) return partitions def reduce(word, result, words): # word: 5-letter word (lowercase) # result: 5-letter str consisting of M, C, W (misplaced, correct, wrong) res = words[:] for i, s in enumerate(result): nres = [] for w in res: if s == "M": if w[i] != word[i] and word[i] in w: nres.append(w) if s == "C": if w[i] == word[i]: nres.append(w) if s == "W": if w[i] != word[i]: if not(word[i] in w) or word.count(word[i]) > 1: nres.append(w) res = nres return res print("WORDLE SOLVER") print("=============") # First guess is precomputed opt = "crate" result = "" while result != "CCCCC": print(opt) result = input("> ").upper() words = reduce(opt, result, words) opt = "" opt_size = float("inf") for word in words: p = partition(word, words) avg_partition_size = sum(p)/len(p) if opt_size > avg_partition_size: opt_size = avg_partition_size opt = word # print(p)