Compare commits

...

5 Commits

Author SHA1 Message Date
fc93178303 Nettoyage 2022-01-24 22:22:40 +01:00
e4b517168a Fonction "Pattern" 2022-01-24 22:15:17 +01:00
e2452c1434 Fonction "Bad Letters" 2022-01-24 21:46:06 +01:00
f9cf15d487 Fonction "Know Letters" 2022-01-24 21:05:06 +01:00
758d6bb0bb Nettoyage 2022-01-24 20:21:54 +01:00

View File

@ -6,12 +6,12 @@ import argparse
def load_dict(dict_file):
try :
try:
with open(dict_file, "r") as dico:
liste = json.load(dico)
return liste
except:
print("Impossible d'ouvrir le fichier" + fp)
except Exception as error:
print(f"Impossible d'ouvrir le fichier {dict_file} : {error}")
exit(2)
@ -20,13 +20,14 @@ def noDouble(mots):
ndList = []
for mot in mots:
llist = []
for l in mot:
if not l in llist:
llist.append(l)
for lettre in mot:
if lettre not in llist:
llist.append(lettre)
if len(mot) == len(llist):
ndList.append(mot)
return(ndList)
def firstTryFilter(mots, max_mots):
'''
First Try : sélectionne des mots ayant des chances de valider ou invalider
@ -43,21 +44,6 @@ def firstTryFilter(mots, max_mots):
bestWords = bestWords[0:max_mots]
return(bestWords)
# Fonction de comparaison des lettres d'un mot, avec celle de la pattern
# Plus nécessaire actuellement mais peut être dans une prochaine vie
'''
def patternCheck(pattern, mot, l):
goodPosCounter = 0
for pos in range(len(pattern)):
print("Checking : " + l + "against : " + pattern[pos] + " and " + mot[pos])
if pattern[pos] == l and mot[pos] == l:
goodPosCounter +=1
print("checked")
if goodPosCounter == pattern.count(l):
return(0)
else:
return(1)
'''
def resolv_fl(liste, firstletter):
# On ne garde que les mots qui commence par FirstLetter
@ -69,53 +55,54 @@ def resolv_len(liste, lenght):
return [mot for mot in liste if len(mot) == lenght]
# First Try
#if ft:
# bestWords = noDouble(firstTryFilter(goodLen, ft))
def resolv_pattern(liste, pattern):
# Pattern : élimination des mots ne satisfaisant pas la pattern
pattern_dict = {}
for lettre in pattern:
if lettre != ".":
pattern_dict.update({pattern.index(lettre): lettre})
MotsOK, MotsKO = [], []
for mot in liste:
for key in pattern_dict:
if mot[key] == pattern_dict[key]:
MotsOK.append(mot)
else:
MotsKO.append(mot)
liste = [mot for mot in MotsOK if mot not in MotsKO]
liste = list(set(liste))
return liste
# Pattern : élimination des mots ne satisfaisant pas la pattern
#if pattern:
# patternCount = len(pattern) - pattern.count(".")
# for mot in goodLen:
# patternEval = 0
# for l in range(len(mot)):
# if mot[l] == pattern[l]:
# patternEval += 1
# if patternEval == patternCount :
# patternFilter.append(mot)
#
# Known Letters : élimination des mots ne comprenant pas les lettres validées (hors pattern)
#if kl:
# if patternFilter:
# mots = patternFilter
# else:
# mots = goodLen
# for mot in mots:
# validate = 0
# for l in kl:
# if l in mot:
# validate += 1
# if validate == len(kl):
# klFilter.append(mot)
# Bad Letters : élimination des mots contenant des lettres invalidées (hors pattern)
#if bl:
# if klFilter:
# mots = klFilter
# elif patternFilter:
# mots = patternFilter
# else:
# mots = goodLen
# for mot in mots:
# invalidate = 0
# for l in bl:
# if l in mot and l in pattern:
# if pattern.count(l) != mot.count(l):
# invalidate += 1
# elif l in mot:
# invalidate += 1
# if invalidate == 0:
# blFilter.append(mot)
def resolv_kl(liste, lettres):
'''
Known Letters : élimination des mots ne comprenant pas
les lettres validées (hors pattern)
'''
lettres = list(set(list(lettres)))
MotsRestants = []
for mot in liste:
if len(set(lettres).intersection(mot)) == len(lettres):
MotsRestants.append(mot)
return MotsRestants
def resolv_bl(liste, lettres):
'''
Bad Letters : élimination des mots contenant
des lettres invalidées (hors pattern)
'''
lettres = list(set(list(lettres)))
MotsSuppr = []
for mot in liste:
for lettre in lettres:
if lettre in mot:
MotsSuppr.append(mot)
for mot in MotsSuppr:
try:
liste.pop(liste.index(mot))
except ValueError:
pass
return liste
if __name__ == "__main__":
@ -178,19 +165,10 @@ if __name__ == "__main__":
args = parser.parse_args()
if args.pattern and args.nbLetters and len(pattern) != nb:
if args.pattern and args.nbLetters and len(args.pattern) != args.nbLetters:
print("Tu as merdé ta pattern petit scarabé !")
exit(2)
# Known Letters
kl = args.knownLetters
# Bad Letters
bl = args.badLetters
# First Try
ft = args.firstTry
liste = load_dict(args.dictionary)
liste = resolv_len(liste, args.nbLetters)
liste = resolv_fl(liste, args.firstLetter)
@ -205,6 +183,12 @@ if __name__ == "__main__":
else:
print("Hmmm... Je crois qu'on s'est perdu...")
exit(0)
if args.knownLetters:
liste = resolv_kl(liste, args.knownLetters)
if args.badLetters:
liste = resolv_bl(liste, args.badLetters)
if args.pattern:
liste = resolv_pattern(liste, args.pattern)
if len(liste) > 1:
print(liste)
print(f"Il y a {len(liste)} mots dans la liste")