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July 11, 2017 20:17
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import matplotlib.pyplot as plt | |
import random | |
from random import randrange | |
import timeit | |
tempos_bubble = [] | |
tempos_selection = [] | |
tempos_insertion = [] | |
tempos_quick = [] | |
tempos_marge = [] | |
tempos_shell = [] | |
tempos_counting = [] | |
tempos_radix = [] | |
tempos_bucket = [] | |
quanNum = [] | |
def insertion_sort(lista): | |
for i in range(1,len(lista)): | |
x = lista[i] | |
j = i-1 | |
while j>=0 and x<lista[j]: | |
lista[j+1] = lista[j] | |
j=j-1 | |
lista[j+1] = x | |
def selection_sort(lista): | |
for i in range(0, len(lista) - 1): | |
imin = i | |
for j in range(i + 1, len(lista)): | |
if (lista[j] < lista[imin]): | |
imin = j | |
if i != imin: | |
aux = lista[imin] | |
lista[imin] = lista[i] | |
lista[i] = aux | |
def bubble_sort(lista): | |
for j in range(0, len(lista)): | |
for i in range(0, len(lista) - 1): | |
if (lista[i] > lista[i + 1]): | |
aux = lista[i + 1] | |
lista[i + 1] = lista[i] | |
lista[i] = aux | |
def partition(lista, start, end, pivot): | |
lista[pivot], lista[end] = lista[end], lista[pivot] | |
store_index = start | |
for i in range(start, end): | |
if lista[i] < lista[end]: | |
lista[i], lista[store_index] = lista[store_index], lista[i] | |
store_index += 1 | |
lista[store_index], lista[end] = lista[end], lista[store_index] | |
return store_index | |
def quick_sort(lista, start, end): | |
if start >= end: | |
return lista | |
pivo = randrange(start, end + 1) | |
new_pivo =partition(lista, start, end, pivo) | |
quick_sort(lista, start, new_pivo - 1) | |
quick_sort(lista, new_pivo + 1, end) | |
def merge_sort(lista): | |
if len(lista) < 1: | |
meio = len(lista)/2 | |
esquerda = merge_sort(lista[:meio]) | |
direita = merge_sort(lista[meio:]) | |
i, j, k = 0, 0, 0 | |
while i < len(esquerda) and j < len(direita): | |
if esquerda[i] < direita[j]: | |
lista[k]=esquerda[i] | |
i += 1 | |
else: | |
lista[k]=direita[j] | |
j += 1 | |
k += 1 | |
while i < len(esquerda): | |
lista[k]=esquerda[i] | |
i += 1 | |
k += 1 | |
while j < len(direita): | |
lista[k]=direita[j] | |
j += 1 | |
k += 1 | |
def shell_Sort(lista): | |
count_sublist = len(lista)//2 | |
while count_sublist > 0: | |
for pos_start in range(count_sublist): | |
sort_gap_insertion(lista,pos_start,count_sublist) | |
count_sublist = count_sublist // 2 | |
def sort_gap_insertion(lista, start, gap): | |
for i in range(start + gap, len(lista), gap): | |
val_current = lista[i] | |
pos = i | |
while pos>=gap and lista[pos-gap] > val_current: | |
lista[pos] = lista[pos-gap] | |
pos = pos-gap | |
lista[pos] = val_current | |
def counting_sort(lista): | |
"""in-place counting sort""" | |
unicos = [i for i in lista if lista.count(i) < 2] | |
maximo = max(unicos) | |
m = maximo + 1 | |
count = [0] * m | |
for a in lista: | |
count[a] += 1 | |
i = 0 | |
for a in range(m): | |
for c in range(count[a]): | |
lista[i] = a | |
i += 1 | |
def radixsort( Lista ): | |
RADIX = 10 | |
maxLength = False | |
tmp , placement = -1, 1 | |
while not maxLength: | |
maxLength = True | |
buckets = [list() for _ in range( RADIX )] | |
for i in Lista: | |
tmp = i // placement | |
buckets[tmp % RADIX] | |
if maxLength and tmp > 0: | |
maxLength = False | |
a = 0 | |
for b in range( RADIX ): | |
buck = buckets[b] | |
for i in buck: | |
Lista[a] = i | |
a += 1 | |
placement *= RADIX | |
def bucket_sort(lista): | |
bucket, bucket1, bucket2 = [], [], [] | |
for i in range(len(lista)): | |
if lista[i] in range(11): | |
bucket.append(lista[i]) | |
elif lista[i] in range(21): | |
bucket1.append(lista[i]) | |
elif lista[i] in range(31): | |
bucket2.append(lista[i]) | |
bucket.sort() | |
bucket1.sort() | |
bucket2.sort() | |
def crialistarand(tam): | |
lista = [] | |
random.seed() | |
i = 0 | |
while i < tam: | |
num = random.randint(1, 10 * tam) | |
if num not in lista: | |
lista.append(num) | |
i += 1 | |
return lista | |
i = 1000 | |
tam = 12000 | |
while (i <= tam): | |
quanNum.append(i) | |
lista = crialistarand(i) | |
tmp = lista | |
tempos_bubble.append(timeit.timeit("bubble_sort({})".format(lista), setup="from __main__ import bubble_sort", number=1)) | |
tempos_selection.append( timeit.timeit("selection_sort({})".format(lista), setup="from __main__ import selection_sort", number=1)) | |
tempos_insertion.append( timeit.timeit("insertion_sort({})".format(lista), setup="from __main__ import insertion_sort", number=1)) | |
tempos_quick.append( timeit.timeit("quick_sort({}, {}, {})".format(lista, 0, len(lista) - 1), setup="from __main__ import quick_sort", number=1)) | |
tempos_marge.append( timeit.timeit("merge_sort({})".format(lista), setup="from __main__ import merge_sort", number=1)) | |
tempos_shell.append( timeit.timeit("shell_Sort({})".format(lista), setup="from __main__ import shell_Sort", number=1)) | |
tempos_counting.append( timeit.timeit("counting_sort({})".format(lista), setup="from __main__ import counting_sort", number=1)) | |
tempos_radix.append( timeit.timeit("radixsort({})".format(lista), setup="from __main__ import radixsort", number=1)) | |
tempos_bucket.append( timeit.timeit("bucket_sort({})".format(lista), setup="from __main__ import bucket_sort", number=1)) | |
if (i == 1000): | |
i += 2000 | |
else: | |
i += 3000 | |
print(i) | |
fig, ax = plt.subplots() | |
plt.title('Bubble/Selection/Insertion/Quick/Marge/Shell/Counting') | |
ax.plot(quanNum,tempos_bubble, label="buble") | |
ax.plot(quanNum,tempos_selection, label="selection") | |
ax.plot(quanNum,tempos_insertion,label="insertion") | |
ax.plot(quanNum,tempos_quick,label="quick sort") | |
ax.plot(quanNum,tempos_marge,label="marge sort") | |
ax.plot(quanNum,tempos_shell,label="shell sort") | |
ax.plot(quanNum,tempos_shell,label="counting sort") | |
ax.plot(quanNum,tempos_radix,label="radix sort") | |
ax.plot(quanNum,tempos_bucket,label="bucket sort") | |
plt.xlabel('Quant.Elemen') | |
plt.ylabel('Tempo') | |
legend = plt.legend(loc='upper center', shadow=True) | |
frame = legend.get_frame() | |
frame.set_facecolor('0.90') | |
plt.xlim([250,12000]) | |
plt.show() |
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