def calc_distances(seqs,words):
# if(path.isfile('distmat')):
# f = open('distmat','r')
# distmat = numpy.load(f)
# f.close()
# return distmat
words = dict(words)
if(path.isfile('distdict')):
distlist = file2list('distdict')
return distlist
d = {}
for seq in seqs:
s = list(seq)
w = s.pop(N/2)
s = tuple(s)
if s not in d:
d[s] = {}
if w not in d[s]:
d[s][w] = 0
d[s][w] += 1
# distmat = numpy.zeros(shape=(len(words),len(words)))
distdict={}
print(len(d))
for s in d:
pairs = itertools.permutations(d[s],2)
for (w1,w2) in pairs:
w = [w1,w2]
c = [words[w1],words[w2]]
w = tuple([x for (y,x) in sorted(zip(c,w))])
# dist = float(d[s][w[0]])+float(d[s][w[1]])
dist = (float(d[s][w[0]])/c[0])*(float(d[s][w[1]])/c[1])
# if w1 not in distdict:
# distdict[w1] = {}
# if w2 not in distdict[w1]:
# distdict[w1][w2] = 0
# distdict[w1][w2] += dist
# if w2 not in distdict:
# distdict[w2] = {}
# if w1 not in distdict[w2]:
# distdict[w2][w1] = 0
if w not in distdict:
distdict[w] = 0
distdict[w] += dist
# distmat[i][j] += dist
# distmat[j][i] += dist
# f = open('distmat', 'w')
# numpy.save(f, distmat)
# f.close()
distlist = sorted(distdict.iteritems(), key = operator.itemgetter(1), reverse=True)
list2file(distlist, 'distdict')
# d = sorted(d.iteritems(), key = operator.itemgetter(1), reverse=True)
# list2file(d, 'd')
return distlist
def faster_solve(formula):
""" Given a formula like 'ODD + ODD == EVEN', fill in digits to solve it.
Input formula is a string; output is a digit-filled-in string or None.
This version precompiles the formula; only one eval per formula. """
f, letters = compile_formula(formula)
for digits in itertools.permutations((1,2,3,4,5,6,7,8,9,0), len(letters)):
try:
if f(*digits) is True:
table = string.maketrans(letters, ''.join(map(str, digits)))
return formula.translate(table)
except ArithmeticError:
pass
def dup(sen):
result = []
for p in sen :
p = innerDup(p)
if p not in result:
duplicates = list(itertools.permutations(p, len(p)))
duplicatesList = [list(elem) for elem in duplicates]
flag = True
for dup in duplicatesList:
if dup in result:
flag = False
break
if flag:
result += [p]
return result
def UPGMA(Data,n):
gen = n
Clusters = {i:[i] for i in range(n)}
all_Clusters = {i:[i] for i in range(n)}
T = {i:[] for i in range(n)}
distCache = {(i,j):Data[i][j] for i in range(n) for j in range(n)}
Age = {i:0 for i in range(n)}
def dist(clust1,clust2):
if (clust1,clust2) in distCache:
return distCache[(clust1,clust2)]
else:
dd = sum([ sum([ Data[i][j] for j in Clusters[clust2]]) for i in Clusters[clust1]])/(len(Clusters[clust1])*len(Clusters[clust2]))
distCache[(clust1,clust2)] = dd
distCache[(clust2,clust1)] = dd
return dd
while len(Clusters)>1:
permuts = itertools.permutations(Clusters.keys(),2)
closest = min(permuts,key = lambda x:dist(x[0],x[1]))
Clusters[gen] = Clusters[closest[0]]+Clusters[closest[1]]
T[gen] = [closest[0],closest[1]]
Age[gen] = dist(closest[0],closest[1])/2
all_Clusters[gen] = Clusters[closest[0]]+Clusters[closest[1]]
del Clusters[closest[0]]
del Clusters[closest[1]]
for c in Clusters:
dist(gen,c)
gen = gen+1
TA = {}
for (k,vv) in T.items():
if len(vv)>0:
TA[k] = {}
for v in vv:
TA[k][v] = Age[k]-Age[v]
return TA
def test_排序單元試驗(self):
毋著四 = 拆文分析器.對齊組物件('我有一張椅仔', 'ngoo2 iu2 it4 tiong1 i2 a2')
毋著三 = 拆文分析器.對齊組物件('我有一張椅仔', 'ngoo2 u7 it4 tiong1 i2 a2')
毋著二 = 拆文分析器.對齊組物件('我有一張椅仔', 'ngoo2 u7 tsit8 tiong1 i2 a2')
毋著一 = 拆文分析器.對齊組物件('我有一張椅仔', 'ngoo2 u7 tsit8 tiunn1 i2 a2')
無毋著 = 拆文分析器.對齊組物件('我有一張椅仔', 'gua2 u7 tsit8 tiunn1 i2 a2')
無毋著.分數 = 90
毋著一.分數 = 80
毋著二.分數 = 70
毋著三.分數 = 60
毋著四.分數 = 50
答案集 = 集()
答案集.內底組 = [無毋著, 毋著一, 毋著二, 毋著三, 毋著四, ]
for 組陣列 in itertools.permutations([毋著四, 毋著三, 毋著二, 毋著一, 無毋著]):
集物件 = 集()
集物件.內底組 = 組陣列
self.assertEqual(集內組照排.排(lambda 組物件: -組物件.分數, 集物件), 答案集)
def hier_clustering(Data,n):
gen = n
Clusters = {i:[i] for i in range(n)}
all_Clusters = {i:[i] for i in range(n)}
T = {i:[] for i in range(n)}
while len(Clusters)>1:
permuts = itertools.permutations(Clusters.keys(),2)
closest = min(permuts,key = lambda x:dist(Clusters[x[0]],Clusters[x[1]],Data))
Clusters[gen] = Clusters[closest[0]]+Clusters[closest[1]]
T[gen] = [closest[0],closest[1]]
all_Clusters[gen] = Clusters[closest[0]]+Clusters[closest[1]]
print ' '.join([str(c+1) for c in Clusters[closest[0]]])+" "+' '.join([str(c+1) for c in Clusters[closest[1]]])
del Clusters[closest[0]]
del Clusters[closest[1]]
gen = gen+1
return T,all_Clusters
def hier_clustering(Data,n):
gen = n
Clusters = {i:[i] for i in range(n)}
all_Clusters = {i:[i] for i in range(n)}
T = {i:[] for i in range(n)}
while len(Clusters)>1:
permuts = itertools.permutations(Clusters.keys(),2)
closest = min(permuts,key = lambda x:dist(Clusters[x[0]],Clusters[x[1]],Data))
Clusters[gen] = Clusters[closest[0]]+Clusters[closest[1]]
T[gen] = [closest[0],closest[1]]
all_Clusters[gen] = Clusters[closest[0]]+Clusters[closest[1]]
print (' '.join([str(c+1) for c in Clusters[closest[0]]])+" "+' '.join([str(c+1) for c in Clusters[closest[1]]]))
del Clusters[closest[0]]
del Clusters[closest[1]]
gen = gen+1
return T,all_Clusters
def createPermutationFile(filePath, nodeIdList, nrPlayers):
"""Create all permutations for nodes in nodeIdList and write them in a file for future use"""
myFile = open(filePath, "w+")
# write header
myFile.write("permutations for nodes: %s\n" % (", ".join([str(x) for x in nodeIdList])))
# get list of all permutations and write it in file
rez = itertools.permutations(nodeIdList, nrPlayers * 2)
if nrPlayers < 5:
combList = transform(list(rez))
for elem in combList:
myFile.write("\t".join([str(x) for x in elem]))
myFile.write("\n")
else:
# listaTuple = list(rez)
# write permutations to file
for item in rez:
aux = list(item)
myFile.write("\t".join([str(x) for x in aux]))
myFile.write("\n")
myFile.close()
def check_group(orig_group, new_group, coord_permuts):
smallest_error = None
orig_group.sort()
new_group.sort()
pc = 0
permut = itertools.permutations(new_group)
for p in permut:
pc += 1
self.assertEqual(len(orig_group), len(p),
"Not equal amount of coordinate groups.")
check, err = check_permut(orig_group, p, coord_permuts)
if check:
print("Found match after considering", pc, "permutations.")
#print(orig_group)
#print(p)
#print("------------------------------------------------")
return True, None
else:
if smallest_error is None or err[0] < smallest_error[0]:
smallest_error = err
return False, smallest_error
# -*- coding:utf-8 -*-
# 给一个没有重复数字的数组,求所有的排列组合。
from timeit import itertools
# dfs
def permute(nums):
res = []
dfs(nums, [], res)
return res
def dfs(nums, path, res):
if not nums:
res.append(path)
for i in range(len(nums)):
dfs(nums[:i] + nums[i + 1:], path + [nums[i]], res)
print(permute([1, 2, 3]))
#直接用python中的itertools.permutations函数。
print(map(list, itertools.permutations([1, 2, 3])))
dictb= {}
for item in a:
dicta[item] = 1
print dicta
for item in b:
if (v-item) in dicta:
return True
return False
import itertools
'''
Method 2
'''
list1=['a','b','c']
list2=[1,2]
zip(x,list2) for x in itertools.permutations(list1,len(list2))]
def sumOfTwo(a, b, v):
'''
Method 3
'''
combined = [zip(i,a) for i in itertools.permutations(b,len(a))]
cc = map(sum,itertools.chain(*combined))
if v in cc:
return True
else:
return False
def assert_numeric_data(self, orig, new):
group = 0
midgroup = 0
subgroup = 0
line = -1
sizes = []
emptylinecount = 0
orig_set = [[]]
new_set = [[]]
orig_basis = [[]]
new_basis = [[]]
#message = ''.join(difflib.ndiff(orig.splitlines(True),new.splitlines(True)))
message = ''
for orig_line, new_line in zip_longest(orig.splitlines(),
new.splitlines()):
if orig_line == "" and new_line == "":
emptylinecount += 1
if emptylinecount == 2:
if group == 2:
del orig_basis[-1]
del new_basis[-1]
group += 1
subgroup = 0
midgroup = 0
line = -1
orig_set = [[[]]]
new_set = [[[]]]
continue
subgroup += 1
if group == 2:
orig_basis.append([])
new_basis.append([])
elif group == 3:
orig_set[midgroup] += [[]]
new_set[midgroup] += [[]]
continue
line += 1
emptylinecount = 0
self.assertTrue(
orig_line is not None, "Verification file missing line:" +
new_line + "\nFull diff:\n" + message)
self.assertTrue(
new_line is not None, "New version missing line:" + orig_line +
"\nFull diff:\n" + message)
for orig_datum, new_datum in zip_longest(orig_line.split(),
new_line.split()):
self.assertTrue(
orig_datum is not None,
"Verification file missing datum: " + new_datum +
"\nFull diff:\n" + message)
self.assertTrue(
new_datum is not None, "New version missing datum:" +
orig_datum + "\nFull diff:\n" + message)
if group == 1:
sizes.append(int(orig_datum))
if group == 2:
# Basis vecs can be returned in any order...
try:
orig_basis[-1].append(float(orig_datum))
new_basis[-1].append(float(new_datum))
except ValueError as e:
self.assertTrue(
False,
"Coordinate values not floats: misformatted output:"
+ orig_datum + " vs " + new_datum)
elif group == 3:
# Coordinates can be returned in any order...
if len(orig_set[-1]) == sizes[midgroup] + 1:
del orig_set[-1][-1]
del new_set[-1][-1]
midgroup += 1
orig_set.append([[]])
new_set.append([[]])
try:
orig_set[-1][-1].append(float(orig_datum))
new_set[-1][-1].append(float(new_datum))
except ValueError as e:
self.assertTrue(
False,
"Coordinate values not floats: misformatted output:"
+ orig_datum + " vs " + new_datum)
else:
try:
orig_int = int(orig_datum)
new_int = int(new_datum)
except ValueError as e:
try:
orig_float = float(orig_datum)
new_float = float(new_datum)
except ValueError as e:
self.assertTrue(
orig_datum == new_datum,
"Comparing strings:" + orig_datum + " != " +
new_datum + "\nFull diff:\n" + message)
else:
self.assertAlmostEqual(
orig_float, new_float, 5,
"Comparing floats:" + orig_datum + " != " +
new_datum + "\nFull diff:\n" + message)
else:
self.assertEqual(
orig_int, new_int, "Comparing ints:" + orig_datum +
" != " + new_datum + "\nFull diff:\n" + message)
def check_permut(orig_set, new_set, coord_permuts=[0, 1, 2]):
self.assertEqual(len(orig_set), len(new_set),
"Not equal amount of coordinates in this group.")
for orig_line, new_line in zip(orig_set, new_set):
self.assertEqual(
len(orig_line), len(new_line),
"Not equal amount of coordinate values, misformed data.")
for orig_datum, new_datum in zip(
orig_line, [new_line[x] for x in coord_permuts]):
if round(abs(orig_datum - new_datum), 4) != 0:
return False, (abs(orig_datum - new_datum), orig_datum,
new_datum)
return True, None
def check_group(orig_group, new_group, coord_permuts):
smallest_error = None
orig_group.sort()
new_group.sort()
pc = 0
permut = itertools.permutations(new_group)
for p in permut:
pc += 1
self.assertEqual(len(orig_group), len(p),
"Not equal amount of coordinate groups.")
check, err = check_permut(orig_group, p, coord_permuts)
if check:
print("Found match after considering", pc, "permutations.")
#print(orig_group)
#print(p)
#print("------------------------------------------------")
return True, None
else:
if smallest_error is None or err[0] < smallest_error[0]:
smallest_error = err
return False, smallest_error
del orig_set[-1]
del new_set[-1]
self.assertEqual(len(orig_basis), len(new_basis),
"Unequal amount of basis vectors, misformed output.")
x_permuts = itertools.permutations(range(len(new_basis)))
smallest_error = None
for xp in x_permuts:
y_permuts = itertools.permutations(range(len(new_basis)))
for yp in y_permuts:
check, err = check_permut(orig_basis,
[[new_basis[x][y] for y in yp]
for x in xp])
if check:
coord_x_permuts = xp
coord_y_permuts = yp
break
if smallest_error is None or err[0] < smallest_error[0]:
smallest_error = err
else:
continue
break
else:
self.assertTrue(
False,
"Basis vectors not equal (despite considering all permutations)\n"
+ str(orig_basis) + '\nvs\n' + str(new_basis) +
"\nSmallest error:" + str(smallest_error))
coord_permuts = [coord_x_permuts[x] for x in coord_y_permuts]
for orig_group, new_group in zip(orig_set, new_set):
check, err = check_group(orig_group, new_group, coord_permuts)
if not check:
self.assertTrue(
False,
"Coordinates not equal (despite considering all permutations), smallest error:"
+ str(err))
break
return fin.readline().strip().split(' ')
def writeline(value):
fout.write(str(value))
fout.write("\n")
def read_integers():
return [int(x) for x in fin.readline().strip().split(' ')]
def read_integer():
return int(fin.readline().strip())
def distance(d1,d2):
if d1>d2:
return 12+d2-d1
else:
return d2-d1
notes={'C':0,'C#':1,'D':2,'D#':3,'E':4,'F':5,'F#':6,'G':7,'G#':8,'A':9,'B':10,'H':11}
triad=[notes[x] for x in readstrings()]
for conf in itertools.permutations(triad):
d1=distance(conf[0], conf[1])
d2=distance(conf[1], conf[2])
if d1==4 and d2==3:
writeline('major')
sys.exit()
elif d1==3 and d2==4:
writeline('minor')
sys.exit()
writeline('strange')
def getPossibleDuplicates(prop):
"""used to get possible duplicates in the proposition"""
duplicates = list(itertools.permutations(prop, len(prop)))
duplicatesList = [list(elem) for elem in duplicates]
return duplicatesList
